Contents / Index Back to Model List FP

Transcription

FP-D250/D350/D450/D600
Back to Model List
1. 10 Digital Image Control Qualitative Reasoning Based Adaptive Controller .. 1-25
II. Sub Assemblies
2. 1
2. 2
Main Drive ............................................................................................
Operation .............................................................................................
1. Sheet bypass paper feed .................................................................
2. Paper feed unit .................................................................................
3. Developer unit ..................................................................................
4. Toner hopper unit .............................................................................
5. Paper transport unit and separation unit ..........................................
6. Fuser unit .........................................................................................
7. Optics unit ........................................................................................
8. Automatic duplex unit (ADU) ............................................................
2-1
2-2
2-2
2-5
2-8
2-16
2-20
2-21
2-26
2-33
Preventive
Maintenance
1-1
1-4
1-6
1-7
1-8
1-11
1-13
1-13
1-14
1-16
1-17
1-18
1-19
1-20
1-20
1-21
1-22
1-23
PCB Connector and
Signal Information
1. 8
1. 9
Specifications .......................................................................................
Features ...............................................................................................
New functions ......................................................................................
System Configuration ..........................................................................
Commonality of accessories ................................................................
Operation .............................................................................................
Component Location ............................................................................
1. Outer view ........................................................................................
2. Inner view .........................................................................................
3. Fan/Motor Location (FP-D250/D350/D350H) ..................................
4. Fan/Motor Location (FP-D450/D600) ...............................................
5. Sensor Location ...............................................................................
6. Solenoid/Clutch/Discharge lamp Location .......................................
7. PCB Location (FP-D250/D350/D350H) ...........................................
8. PCB Location (FP-D450/D600) ........................................................
9. Hard Disk Drive/Zip Drive Location ..................................................
Copy Process .......................................................................................
Precautions with Consumables ...........................................................
Troubleshooting
1. 1
1. 2
1. 3
1. 4
1. 5
1. 6
1. 7
Unpacking/
Installation
I. Introduction
Glossary
of Terms
WARNING
Sub
Assemblies
Introduction
Contents / Index
III. Preventive Maintenance
3. 1
3. 2
3. 3
3. 4
3. 5
3. 6
3. 7
Precautions for Preventive Maintenance Service .................................
Precautions for handling ......................................................................
Maintenance chart ...............................................................................
1. Replacement (For FP-D250) ............................................................
2. Replacement (For FP-D350/D350H) ...............................................
3. Replacement (For FP-D450/D600) ..................................................
Cleaning Method ..................................................................................
Disassembly .........................................................................................
1. Multi-feed bypass .............................................................................
2. Paper feed unit .................................................................................
3. Developer unit ..................................................................................
4. Fuser unit .........................................................................................
5. Optics unit ........................................................................................
6. Automatic duplex unit (ADU) (Option) ..............................................
7. Main body ........................................................................................
Removal of back up battery .................................................................
Adjustment ...........................................................................................
1. Exposure Standard Adjustment .......................................................
2. Copy density Sensor contamination adjustment ..............................
3. Skew / Side to side Adjustments (Printer Section) ..........................
4. Skew / Registration Adjustments (Scanner Section) .......................
5. Lead edge / Trail edge void adjustment (Printer Section) ................
6. Laser power (PWM circuit) ...............................................................
3-1
3-3
3-5
3-5
3-7
3-9
3-11
3-14
3-15
3-18
3-21
3-25
3-30
3-33
3-36
3-40
3-41
3-42
3-43
3-44
3-46
3-47
3-48
IV. PCB Connector and Signal Information
4. 1
4. 2
4. 3
4. 4
4. 5
4. 6
4. 7
Glossary of electrical abbreviations .....................................................
Main CPU PCB (FP-D250/D350 Series) .............................................
System Control PCB (FP-D250/D350 Series) .....................................
Control Panel PCB (FP-D250/D350 Series) ........................................
1. Control Panel CPU PCB (FP-D250/D350 Series) ............................
2. Control Panel PCB A (FP-D250/D350 Series) .................................
3. Control Panel PCB B (FP-D250/D350 Series) .................................
4. Control Panel PCB C (FP-D250/D350 Series) .................................
5. Control Panel PCB D (FP-D250/D350 Series) .................................
CCD PCB (FP-D250/D350 Series) ......................................................
SO DIMM PCB (FP-D250/D350 Series) ..............................................
16 M Flash DIMM PCB (FP-D250/D350 Series) .................................
4-1
4-7
4-53
4-71
4-71
4-77
4-81
4-82
4-84
4-85
4-88
4-94
Introduction
Sub
Assemblies
Preventive
Maintenance
PCB Connector and
Signal Information
Troubleshooting
4-100
4-104
4-109
4-117
4-118
4-120
4-140
4-148
4-152
4-156
4-187
4-205
4-205
4-211
4-215
4-216
4-218
4-219
4-222
4-228
4-234
4-238
4-243
4-251
4-252
4-254
4-274
4-282
4-286
4-290
Unpacking/
Installation
4. 20
4. 21
4. 22
4. 23
4. 24
4. 25
4. 26
4. 27
4. 28
4. 29
4. 30
4. 31
4. 32
LSU Image Data Control PCB (FP-D250/D350 Series) .......................
Automatic Duplex Unit (ADU) Driver PCB (Option) (FP-D250/D350 Series) ...
Low Voltage Power Supply PCB (FP-D250/D350 Series) ...................
High Voltage Power supply PCB (FP-D250/D350 Series) ...................
AC Drive PCB (FP-D250/D350 Series) ...............................................
Printer controller PCB (Option) (FP-D250/D350 Series) .....................
Network card (Option) (FP-D250/D350 Series) ...................................
Hard Disk Drive for Filing/Back-up (FP-D250/D350 Series) ................
Zip Drive (FP-D250/D350 Series) ........................................................
Main CPU PCB (FP-D450/D600 Series) .............................................
System Control PCB (FP-D450/D600 Series) .....................................
Control Panel PCB (FP-D450/D600 Series) ........................................
1. Control Panel CPU PCB (FP-D450/D600 Series) ............................
2. Control Panel PCB A (FP-D450/D600 Series) .................................
3. Control Panel PCB B (FP-D450/D600 Series) .................................
4. Control Panel PCB C (FP-D450/D600 Series) .................................
5. Control Panel PCB D (FP-D450/D600 Series) .................................
CCD PCB (FP-D450/D600 Series) ......................................................
SO DIMM PCB (FP-D450/D600 Series) ..............................................
16 M Flash DIMM PCB (FP-D450/D600 Series) .................................
LSU Image Data Control PCB (FP-D450/D600 Series) .......................
Automatic Duplex Unit (ADU) Driver PCB (Option) (FP-D450/D600 Series) ...
Low Voltage Power Supply PCB (FP-D450/D600 Series) ...................
High Voltage Power supply PCB (FP-D450/D600 Series) ...................
AC Drive PCB (FP-D450/D600 Series) ...............................................
Printer controller PCB (Option) (FP-D450/D600 Series) .....................
Network card (Option) (FP-D450/D600 Series) ...................................
Hard Disk Drive for Filing/Back-up (FP-D450/D600 Series) ................
Zip Drive (FP-D450/D600 Series) ........................................................
Image processing PCB (FP-D450/D600 Series) .................................
Glossary
of Terms
4. 8
4. 9
4. 10
4. 11
4. 12
4. 13
4. 14
4. 15
4. 16
4. 17
4. 18
4. 19
V. Troubleshooting
5. 1
5. 2
5. 3
5. 4
Service Mode .......................................................................................
1. Service mode functions ....................................................................
2. Service mode procedure ..................................................................
3. F4 mode input/output check .............................................................
4. F5 mode Copier function programming ...........................................
5. F6 mode Adjustment and programming ..........................................
6. F7 mode electronic counter .............................................................
7. F8 mode copier operation adjustment .............................................
8. F9 mode system administration .......................................................
Self-diagnostics / Machine Malfunctions ..............................................
1. User error .........................................................................................
2. Paper Jam ........................................................................................
3. Machine error ...................................................................................
User Preset Mode ................................................................................
1. Operation procedure ........................................................................
2. Example: Paper size setting ............................................................
Program Update ..................................................................................
1. Update procedure of the printer controller SIMM ............................
5-1
5-1
5-3
5-3
5-17
5-24
5-32
5-37
5-39
5-40
5-40
5-45
5-50
5-73
5-73
5-73
5-87
5-87
VI. Unpacking/Installation
6. 1
6. 2
6. 3
6. 4
6. 5
6. 6
6. 7
6. 8
6. 9
6. 10
6. 11
Precautions on Set Up .........................................................................
Unpacking ............................................................................................
Installation Procedure ..........................................................................
Adjustment ...........................................................................................
Printer Unit/DD Filing Unit Mounting kit (FA-PK30) .............................
Printer Unit (FA-PC350) / Multi PDL Controller (FA-MC350) ...............
Network Adapter Card for Ethernet (FA-NE35) ...................................
Hard Disk Driver for Printer (FA-HD01) ...............................................
DD filing unit (FA-WA01/WA02) ...........................................................
Hard Disk Driver for back up (FA-HD02) .............................................
Hard Disk Driver for Image memory (FA-HD03/HD04) ........................
6-1
6-2
6-3
6-10
6-13
6-19
6-22
6-25
6-27
6-35
6-37
VIl. Glossary of Terms
Network, Printing, Copying and imaging Terms .................................. 7-1
TORANO-MAKI (FP-D250/D350 Series)
TORANO-MAKI (FP-D450/D600 Series)
Electrical schematic diaglam
WARNING
This service information is designed for experienced repair technicians only and
is not designed for use by the general public.
It does not contain warnings or cautions to advise non-technical individuals of
potential dangers in attempting to service a product.
Products powered by electricity should be serviced or repaired only by experienced
professional technicians. Any attempt to service or repair the product or products
dealt with in this service information by anyone else could result serious injury or
death.
For U.S.A
This equipment has been tested and found to comply with the limits for a Class A
digital device, pursuant to part 15 of the FCC Rules. These limits are designed to
provide reasonable protection against harmful interference when the equipment
is operated in a commercial environment. This equipment generates, uses, and
can radiate radio frequency energy and, if not installed and used in accordance
with the instruction manual, may cause harmful interference to radio
communications. Operation of this equipment on a residential area is likely to
cause harmful interference in which case the user will be required to correct the
interference at his/her own expense.
Any unauthorized changes or modifications to this equipment would void the users
authority to operate this device.
For U.S.A
This manual was developed and is supplied to authorized servicing dealers by
Panasonic Document Imaging Co. for the sole purpose of providing information
necessary for the equipment’s proper support. It is intended that this information
be confidential and may not reproduced without prior written consent from
Panasonic Document imaging Co. Panasonic Document imaging Co. reserves
the right to change any information enclosed herein without prior notification.
This manual was developed and is supplied to authorized servicing dealers by
Panasonic Co. for the sole purpose of providing information necessary for the
equipment’s proper support. It is intended that this information be confidential
and may not be reproduced without prior written consent from Panasonic Co.
Panasonic Co. reserves the right to change any information enclosed herein without
prior notification.
For U.S.A
For your safety
Caution
This product utilizes a laser.
Use of controls or adjustments or performance of procedures other than
those specified herein may result in hazardous radiation exposure.
DANGER
CAUTION
ATTENTION
VORSICHT
Invisible laser radiation when open.
Avoid direct exposure to beam.
Rayonnement laser invisible si ouvert.
Dangereux de regarder a l'interieur.
Unsichtbare laserstrahlen wenn geöffnet.
Nicht hinensehen.
DANGER-Invisible laser
radiation when open and
interlock defeated.
AVOID DIRECT EXPOSURE
TO BEAM.
FFPTE
PRECAUTION
Peligro-Cuando la cubierta esté abierta se
podrá escapar radiación de rayo láser.
Evite la exposición directa al rayo láser.
Product complies with DHHS Rules 21
CFR Subchapter J in effect of date
of manufacture.
Utsunomiya, Tochigi, Japan
For your safety
Caution
This product utilizes a laser.
Use of controls or adjustments or performance of procedures other than
those specified herein may result in hazardous radiation exposure.
DANGER
CAUTION
ATTENTION
VORSICHT
Rayonnement laser invisible si ouvert.
Dangereux de regarder a l'interieur.
Unsichtbare laserstrahlen wenn geöffnet.
Nicht hinensehen.
PRECAUTION
Peligro-Cuando la cubierta esté abierta se
podrá escapar radiación de rayo láser.
Evite la exposición directa al rayo láser.
LASER KLASSE 1
LASER CLASSE 1
RANGO LASER 1
CLASS
1 LASER PRODUCT
(
)
TO IEC 825
CAUTION :
Invisible laser radiation when open
and interlocks defeated.
AVOID EXPOSURE TO BEAM.
VARNING :
OSYNLIG LASERSTRALNING NAR DENNA
DEL AR OPPNAD OCH
SPARRAR AR
URKOPPLADE.
STRALEN AR FARLIG.
VORSICHT :
Unsichtbare Laserstrahlung, wenn
Abdeckung geoffnet und
Sicherheitsverriegelung uberbruckt.
NICHT DEM STRAHL
AUSSETZEN.
VARO! :
NAKYMATON AVATTAESSA
JA SUOJALUKITUS
OHITETTAESSA OLET
ALTTIINA LASERSATEIL
YLLE.
ALA KATSO SATEESEN.
ATTENTION :
Rayonnement laser invisible
dangereux en cas d'ouverture et
lorsque la securite est neutralisee.
EXPOSITION DANGEREUSE AU
FAISCEAU.
VARNING :
OSYNLIG LASERSTRALNING NAR DENNA
DEL AR OPPNAD OCH
SPARREN AR
URKOPPLAD.
BETRAKTA EJ STRALEN.
FFPTE1538
PELIGRO :
Cuando se abre y se invalida el
bloqueo, se producen radiaciones
invisibles de laser.
EVITESE LA EXPOSICION
DIRECTA A TALES RAYOS.
ADVARSEL :
USYNLIG LASERSTRALING
VED ABNING NAR
SIKKERHEDSAFBRYDERE ER
UDE AF FUNKTION.
UNDGA UDSÆTTELSE
FOR STRALING.
ADVARSEL :
USYNLIG LASERSTRALING
NAR DEKSEL APNES OG
SIKKERHEDSLAS BRYTES.
UNNGA EKSPONERING
FOR STRALEN.
FFPTE2412
Caution: Danger of explosion if battery is incorrectly replaced.
Replace only with the same or equivalent type recommended by the manufacturer.
Dispose of used batteries according to the manufacturer’s instructions.
For Sweden, and Denmark
SPECIALSÄKRING: ENDAST AV APPARATFABRINKANTEN LEVERERAD
SÄKRING FåR ANVÄNDAS.
VARNING!
Explosionsfara vid felaktigt batteribyte.
Använd samma batterityp eller ekvivalent typ som rekommenderas av
apparattillverkaren. Kassera använt batteri enligt fabrikantens instruktion.
ADVARSEL!
Lithiumbatteri—Eksplosionsfare ved
fejlagtig håndtering.
Udskiftning må kun ske med batteri
af samme fabrikat og type.
Lever det brugte batteri tilbage til
leverrandoren.
CAUTION!
Danger of explosion if battery is incorrectly replaced. Replace only with the
same or equivalent recommended by the manufacturer. Dispose of used
batteries according to the manufacturer’s instructions.
For Holland
NL
Batterij niet
weggooien, maar
inleveren als KCA.
For U.K.
FOR YOUR SAFETY PLEASE READ THE FOLLOWING TEXT CAREFULLY.
This appliance is supplied with a moulded three pin mains plug for your safety and
convenience. A 13 amp fuse is fitted in this plug.
Should the fuse need to be replaced please ensure that the replacement fuse has a rating
of 13 amps and that it is approved by ASTA or BSI to BS1362.
Check for the ASTA mark
or the BSI mark
on the body of the fuse.
If the plug contains a removable fuse cover you must ensure that it is refitted when the fuse
is replaced.
If you lose the fuse cover the plug must not be used until a replacement cover is obtained.
A replacement fuse cover can be purchased from your local Panasonic Dealer.
IF THE FITTED MOULDED PLUG IS UNSUITABLE FOR THE SOCKET OUTLET IN YOUR
OFFICE THEN THE FUSE SHOULD BE REMOVED AND THE PLUG CUT OFF AND
DISPOSED OF SAFELY.
THERE IS A DANGER OF SEVERE ELECTRICAL SHOCK IF THE CUT OFF PLUG IS
INSERTED INTO ANY 13 AMP SOCKET.
If a new plug is to be fitted please observe the wiring code as shown below.
If in any doubt please consult a qualified electrician.
WARNING: THIS APPLIANCE MUST BE EARTHED.
IMPORTANT: The wires in this mains lead are coloured in accordance with the following
code:
Green and Yellow
Blue
Brown
:Earth
:Neutral
:Live
As the colours of the wires in the main lead of this appliance may not correspond with the
coloured markings identifying the terminals in your plug, proceed as follows:
The wire which is coloured GREEN-AND-YELLOW must be connected to the terminal in the
plug which is marked by letter E or by the safety EARTH symbol “ ” or coloured GREEN or
GREEN-AND-YELLOW.
The wire which is coloured BLUE must be connected to the terminal in the plug which is
marked with the letter N or coloured BLACK.
The wire which is coloured BROWN must be connected to the terminal in the plug which is
marked with the letter L or coloured RED.
How to replace the fuse.
Open the fuse compartment with a screwdriver and replace the fuse.
Fuse
Fuse
Introduction
Section I Introduction
1. 1 Specifications
<Basic Specifications>
Type
Platen
Desk Top
Fixed
Copy / Print process
Development process
Laser / Electrostatic photographic method
Two component magnetic brush
Image control process
Photoreceptor
Digital QUANTUM (QUARC) control
Organic Photo Conductor (OPC)
Fusing system
Maximum original size
Heat and Pressure
Ledger (11" × 17") / A3 (297 × 420mm)
Paper feed
Front loading universal paper cassette
Multi-feed bypass tray
Paper capacity
Cassette
Copy size
Bypass
: 50 sheets
Ledger / A3 – Invoice / A5
Paper exit tray capacity
Ambient conditions
250 sheets
Temperature
Noise level
Relative humidity : 30–80%
Stand-by
: 32 dB
Operation
: 550 sheet × 2 (FP-D250/D350 Series)
: 550 sheet × 1 (FP-D450/D600)
: 50–86°F / 10–30 °C
: 49 dB (FP-D250/D350 series)
: 54 dB (FP-D450/D600)
Warm up time
Approx. 75 sec. (FP-D250/D350 series)
Approx. 180 sec. (FP-D450/D600)
Power consumption
Less than 1.4 kW (FP-D250/D350 series)
Less than 1.45 kW (FP-D450/D600)
Power source
AC 120V 60Hz (North America)
AC220 - 240V 50Hz (Europe / Others)
Dimensions (W)(D)(H)
Weight
23.9" × 30.3" × 24.6" / 606 × 770 × 624 mm
167 lbs / 76kg (FP-D250/D350)
180 lbs / 82kg (FP-D350H)
185 lbs / 84kg (FP-D450/D600)
Paper weight
Cassette
Bypass
: 16–24 lbs ( 60–90g/m2)
: 15–34 lbs (55–130g/m2)
1-1
Special paper
OHP, Label paper, Tracing paper
(Through multi-feed bypass)
<Copier Specifications>
Resolution
600 dpi (FP-D250/D350 series)
Gradation
400 dpi (FP-D450/D600)
256 steps (Photo Mode)
First copy time
2 steps (Text/Photo Mode)
3.9 sec. (Letter/A4 size, without Auto mode)
(FA-D250/D350 series)
(FA-D450)
(FA-D600)
5.1 sec. (Letter/A4 size, with Auto mode)
(FA-D250/D350 series)
4.0 sec. (Letter/A4 size, with Auto mode) (FA-D450)
Copy ratio
3.5 sec. (Letter/A4 size, with Auto mode) (FA-D600)
Enlargement (fixed) : (North America)
2.00, 1.55, 1.29, 1.21
: (Europe / others)
Reduction (fixed)
2.00, 1.73, 1.41, 1.22, 1.15
: (North America)
0.79, 0.77, 0.65, 0.61, 0.50
(Europe / others)
0.87, 0.82, 0.71, 0.58, 0.50
: 25%-400% (1% step)
Zoom
Copy speed
D350 series D450
20 CPM 29 CPM
D600
34 CPM
Legal / B4,FLS : 20 CPM
Letter-R / A4R : 23 CPM
23 CPM
28 CPM
33 CPM
38 CPM
39 CPM
49 CPM
Letter / A4
Invoice / A5
35 CPM
35 CPM
45 CPM
45 CPM
60 CPM
60 CPM
Ledger / A3
Continuous copying
1-2
D250
: 18 CPM
: 28 CPM
: 28 CPM
1-999 reset to 1
Print speed
Max. 600 dpi (True) / 1200 dpi (Smoothing)
28 ppm (pages per minute) Letter / A4 (FP-D250)
35 ppm (pages per minute) Letter / A4 (FP-D350 series)
Print size
Memory capacity
Ledger / A3 - Invoice / A5
8 MB / Standard (expandable up to 40MB)
Spooling Memory
Hard Disk (120, 256 or 512 MB/option)
Printer Description Language PCL 5e emulation, Postscript level 2 emulation (Option)
Interface
Font
Bi-directional parallel (IEEE1284), Network I/F (option)
In accordance with emulation type
Operating system
Windows 3.1 (North America), Windows 95,
Windows 98, Windows NT 4.0, MacOS 7.5.2/8.X
(MacOS7.5.2 support available with Postscript option)
<Network Specifications>
Board type
Option board connected to printer unit
Memory capacity
Connecting type
1 MB
Ethernet (100 BaseTX, 10 BaseT)
Communications protocol
Operating system
Ethernet (TCP/IP, IPX/SPX, EtherTalk)
Windows 3.1/95, Windows NT4.0,
Mac OS, NetWare 3.1x/4,X
<Filing Specifications>
Resolution
600 dpi (400dpi : D450/D600), 300 dpi and 200 dpi
Paper size
Storage media
Ledger/A3 - Invoice/A5
Hard disk
Storage capacity
2 GB (For filing storage 1.5 GB, for system files/copy
image storage 0.3 GB)
External storage device
File format
Zip drive (100 MB)
TIFF
Compression type
JBIG (600 dpi)
MMR (200/300 dpi)
* Specifications are subject to change without notice.
1-3
Introduction
<Printer Specifications>
Resolution
1. 2 Features
<General Features>
1. Use of new digital technology
1) Optimum image quality is maintained for a long period in varying environmental conditions with the use of Digital QUANTUM (QUARC) technology.
Digital QUANTUM (QUARC): Digital Qualitative Reasoning Based Adaptive
Controller.
2) Unique functions such as digital skyshot, page number print and much more,
makes useful and interesting image effects.
2. Quick speed operation
1) With the use of speed control clutch in the paper feed unit, a 2.9 sec. first
copy speed which is the fastest in this range be achieved. (FP-D600)
2) Original throughput speed from the i-ADF/ADF (optional) is the same as machine speed. (100%throughput) (Except for FP-D600)
3. User friendly operation
1) Bi-directional communication touch panel display enables easy operation by
simply touching the icon on the wide screen.
2) Paper level sensor in the cassette indicates a low paper condition.
This function prevents no paper condition during the operation.
4. Various optional accessories are available for functional expansion.
1) Operational efficiency can be further increased by attaching ADF, Finisher,
LCC and system console.
<Printer Features>
1. High resolution printing of 600 x 600dpi (1200dpi: Smoothing)
1) Enables the printing of documents, photographs, and fine line drawings from
the PC.
By changing the resolution to 300 x 300dpi, printing time can be minimized.
2. Ledger/A3 size printing
1) Enables the printing of Invoice/A5 to Ledger/A3 size.
Useful for output such as drawings.
1-4
1) Enables high volume document printing in a short time.
4. PCL5e format printer
1) PCL5e is the Page Description Language of the Hewlett-Packard Company.
5. Windows® 95/Windows® 3.1/Windows NT®4.0
1) The made document can be printed out using application software designed
for Windows® 95, Windows® 3.1 (North America) & Windows NT® 4.0 operating systems.
6. Fonts
1) The printer comes with 45 scaleable fonts.
2) You can scale TrueType fonts within the printer. You also receive matching
TrueType screen fonts for true WYSIWYG, short for "What you see is what
you get". These internal fonts are part of the PCL language.
7. Options
1) Expansion memory (16 MB)
Faster print speed can be expected by speed of rasterrinsing process.
When the image processing memory of the copier is 8 MB (FP-D250 : All, FPD350 : except North America) : If the machine error often occurs when the high
density of information document (such as gray color A3 size print) is being
printed, even though printer memory is additionally installed, install the additional image memory of the printer (8MB/16MB)
2) Hard disk
Enables the install action of additional fonts which are not included in the unit.
3) Network unit
Use as local network printer in the office.
Network format is Ethernet.
When the Ethernet is installed, operation status of the printer and connection
of the optional accessories can be checked form the PC.
1-5
Introduction
3. Printing speed of 50 prints per minute (Letter/A4)(FP-D600)
http://getMANUAL.com
1. 3 New functions
1. Digital Skyshot
Black edges are removed automatically, however if the original is not square to
the original guide the copy may have some edges printed in black.
2. Page Number print.
The page number can be automatically printed on each page.
3. Multi Original Image Rotation
If the paper direction in the cassette is different from the direction of the original,
the image is automatically rotated 90 degrees so that the proper copy is obtained.
4. N in 1 copy mode
From two (or four) 1-sided originals side by side to 1-sided copies can be made.
5. Wide Zoom Ratio (25%-400%)
Copies can be made from 25% to 400% of the original document size at 1%
increments.
6. X-Y Zoom
Independent height-width zoom copies can be made.
1-6
Exit Tray
FA-X350
9
7
Printer
Memory
(16MB)
FA-PM16
Platen Cover
FA-UC20
2
DD Server Software
FA-WS10
Platen cover
Mounting Kit
FA-GK35
Automatic
Document
Feeder
FA-A355
1
Inverting
Shift Tray
FA-TR350
7
Printermemory
(32MB)
FA-PM32
Introduction
1. 4 System Configuration
PCL5e Printer Unit Multi Page Description
FA-PC350
Language Controller
(PCL5e / PS-II) FA-MC350
Inverting Automatic
Document Feeder
FA-A888
Personal Card
Card Reader
FA-KP01
Server
Mounting Kit
FA-PK30
ZIP Drive
2 Bin Inverting
Shift Tray
FA-TR355
Network Adapter Card
EtherNet : FA-NE35
Automatic Duplex unit
FA-MADM65
550 Sheet Paper Drawer
FA-MA0555
2 Bin Finisher
FA-F320
PC
8
Exit Guide Unit Hard Disk Drive
FA-FK35 6
for Printer
FA-HD01 System Stand
FA-DS725 3
FA-DS825
Hard Disk Drive
for Mirroring
FA-HD02
Mounting kit
FA-PK30
3000 Sheet Cassette
FA-MA301
Paper drawer Kit
FA-DK10
DD Filing Unit
FA-WA01 (For FP-D250/D350/D350H)
FA-WA02 (For FP-D450/D600)
Inverting
Unit
FA-RU350
DD Browser
Software
FA-WB10
H/D (2GB)
Personal Card x 10 pcs
Card Reader
Zip Drive
Battery
5
3 Bin Finisher
FA-F350/F355 4
1
2
3
4
5
6
7
8
9
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
Hard Disk Drive
for Image memory
FA-HD03 (For FP-D250/D350/D350H)
FA-HD04 (For FP-D450/D600)
Original face down
Optional platen cover mounting kit (FA-GK35) is required to install platen cover
550 module can be installed all 3 slots
Drawer kit (FA-DK10) is required for lower slot
Staple (50 sheets)
Shift
For FP-D450/D600 (FA-F355)
In case face down exit is required with FA-F350/355
Optional exit guide unit (FA-FK35) is required to install finisher
[Not required for FA-F350/355 when FA-RU350 is installed]
Except for North America and Europe
Hole punch
Staple (30 sheets, bottom bin only)
Shift (bottom bin only)
For FP-D250/D350
1-7
For North America
1. 5 Commonality of accessories
Model Number
Description
Model number
System Stand
FA-DS725
System Stand
FA-DS825
550 Sheet Paper
Drawer
FA-MA0555
FP-D250 FP-D350H
D350
FP-D450
D600
Paper Drawer Kit for FA-DK10
System Stand
Automatic Duplex
Unit
Remarks
Kit required for FA-MA0555
installation in bottom slot
of FA-DS725
FA-MADM65
Standard
3000 Sheet Cassette FA-MA301
Platen Cover
FA-UC20
Platen Cover
Mounting Kit
FA-GK35
Automatic
Main
Accessories Document Feeder
Inverting Automatic
Document Feeder
FA-A355
FA-A888
Check Guide Kit for
ADF (FA-A888)
FFPTL0277
Available through parts
route
Platen Glass Kit
FFPTL0323
This kit is required when
installing FA-A888 (North
America)
Available through parts route
Platen Glass Kit
FFPTL0324
(D350:
Standard)
1-8
Standard Standard This kit is required when
installing FA-A888 (Europe)
Exit Tray
FA-X350
3 Bin Finisher
FA-F350
3 Bin Finisher
FA-F355
2 Bin Finisher
FA-F320
Exit Guide Unit
FA-FK35
Required for : FA-F320
and FA-F350/F355 when
FA-RU350 is not installed.
Inverting unit
FA-RU350
For FA-F350/F355
2 Bin Inverting Shift
Tray
FA-TR355
Inverting Shift Tray
FA-TR350
Image Processing
Memory (8 MB)
FA-DM08
Image Processing
Memory (16 MB)
FA-DM16
For North America
Standard
Expansion memory limited
to 8 MB or 16 MB
Except for North America
and Europe
Model Number
FP-D250 FP-D350H FP-D450
D350
D600
Model number
Operators Guide
Pocket
FFPXJ19908
route
Dehumidifier Heater
for Optics
FFPTL0304
route
Dehumidifier Heater
for Drum
FFPTL0270
route
Key Counter
Harness Kit
FFPTL0308
route
Dehumidifier Heater
Main
Accessories for System Stand
FFPTL0273
For North America
Dehumidifier Heater
for System Stand
FFPTL0274
For Europe
Dehumidifier Heater
for LCC
FFPTL0275
For North America
Dehumidifier Heater
for LCC
FFPTL0276
For Europe
Blind Cover kit
FFPTL0326
Printer Unit / DD
Filing Unit Mounting
Kit
FA-PK30
Hard Disk Drive for
Image Memory
FA-HD03
FA-HD04
Printer Unit
FA-PC350
Multi Page Description
LanguageController
FA-MC350
Printer
Accessories Hard Disk Drive for
Printer
Remarks
Introduction
Description
Standard
This kit is required when
installing printer unit
8MB
FA-HD01
2GB
Printer Memory
(16MB)
FA-PM16
Expansion memory limited
to 16 MB or 32 MB
Printer Memory
(32MB)
FA-PM32
Except for North America
and Europe
Network Network Unit for
Accessories Ethernet
FA-NE35
Toner
FQ-TL20
20,000 copies (Letter/A4,
6% density)
Toner
FQ-TL24
24,000 copies (Letter/A4,
6% density)
Developer
FQ-ZL20
120,000 copies (FP-D350)
80,000 copies (FP-D250)
Consumables Developer
FQ-ZL30
120,000 copies
120,000 copies (FP-D350/D450/D600)
80,000 copies (FP-D250)
Standard
10/100 base TX
Drum
FQ-HL20
Waste Toner Bottle
FQ-BA10
Staple
FQ-SS75
For use in FA-F350/F355
(5,000 staples)
Staple
FQ-SS32
For use in FA-F320
(3,000 staples)
1-9
Description
Model number
DD Filing Unit
FA-WA01
DD Filing Unit
FA-WA02
DD filing Personal Card
Accessories DD Browser
Software
FA-KP01
1-10
Model Number
FP-D250 FP-D350H FP-D450
D350
D600
Remarks
Standard
Standard
FA-WB10
DD Server Software
FA-WS10
Hard Disk Drive for
Back-up
FA-HD02
For FA-WA01/WA02
Introduction
1. 6 Operation
FP-D250 / D350 / D450 / D600
MULTI-SIZE SORT/
FINISH
FEED
MULTI-SIZE
FEED
ENERGY
SAVER
USER
PRESET
SORT/
FINISH
ORIGNAL SIZE
USER
PRESET
TOUCH
PANEL
DISPLAY
MANUAL
RESET
INTERRUPT
ENERGY
SAVER
MANUAL
INTERRUPT
CLEAR
RESET
COPY SIZE
CLEAR
1
2
3
4
5
6
8
9
c
STOP
7
START
0
OPERATION
SWITCH
(D450/D600) ORIGINAL SIZE
COPY SIZE
START
STOP
Ready Indicator
Ready:GreenLED
Not ready:RedLED
Copy Reservation:FIashing
FP-D250 / D350 / D450 / D600 (Printer, Filing, option)
TOUCH
PANEL
DISPLAY
MULTI-SIZE
FEED
SORT/
FINISH
USER
PRESET
SORT/
FINISH
USER
PRESET
ADDPAPER
MANUAL
ONLINE
DATA
ADD PAPER
MULTI-SIZE
FEED
DOCUMENT
SAVE
ONLINE
ENERGY
SAVER
ENERGY
SAVER
DATA
MANUAL
INTERRUPT
INTERRUPT
RESET
DOCUMENT
SAVE
ORIGNAL SIZE
COPY SIZE
ADVANCED
FUNCTIONS
CLEAR
1
2
3
4
5
6
c
STOP
7
8
9
START
0
OPERATION
SWITCH
(D450/D600)
ORIGINAL SIZE
RESET
COPY
COPY SIZE
START
ADVANCED
FUNCTIONS
STOP
CLEAR
Ready Indicator
Ready:GreenLED
Not ready:RedLED
1-11
FP-D250 / D350 / D450 / D600 (DD filing, option)
TOUCH
PANEL
DISPLAY
MULTI-SIZE
FEED
SORT/
FINISH
USER
PRESET
SORT/
FINISH
USER
PRESET
ADDPAPER
MANUAL
ONLINE
DATA
ADD PAPER
MULTI-SIZE
FEED
DOCUMENT
SAVE
ONLINE
ENERGY
SAVER
ENERGY
SAVER
DATA
MANUAL
INTERRUPT
INTERRUPT
RESET
DOCUMENT
SAVE
ORIGNAL SIZE
COPY SIZE
ADVANCED
FUNCTIONS
CLEAR
1
2
3
4
5
6
8
9
c
STOP
7
START
0
OPERATION
SWITCH
(D450/D600)
ORIGINAL SIZE
1-12
RESET
COPY
COPY SIZE
START
ADVANCED
FUNCTIONS
STOP
CLEAR
Ready Indicator
Ready:GreenLED
Not ready:RedLED
Introduction
1. 7 Component Location
1. Outer view
Platen cover (option)
Zip Drive
(Option: FP-D250/
D350/D450/D600
Standard: FP-D350H)
Control panel
Operation Switch
(D450/D600)
Paper exit
door
Bypass
Power switch
(D450/D600 :
inside of front door)
Paper drawer / tray
Paper drawer/tray
or
ADU (Automatic duplex unit)
(Option: FP-D250/D350/D350H
Standard: FP-D450/D600)
Paper feed door
Front door
1-13
2. Inner view
2
1
13
12
3
11
10
4
9
5
8
6
7
SV711
1. Fuser area cover
2. Toner bottle
3. Drum unit
4. Developer unit
10. Paper transport handle
11. Transfer/Separation corona
5. Toner hopper unit
6. Developer release lever
12. Paper transport unit
13. Manual paper feed knob
7. Waste toner bottle
8. Total counter
1-14
9. Manual paper feed knob
(Feed unit)
(Fuser unit)
1
2
3 4
5
6
7
8
Introduction
2. Inner view
9
32
31
30
29
28
10
11
12
27
13
14
26
25
15
16
17
24
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
23
Half-speed unit
Full-speed unit
Thermistor
Lens unit
Main motor
CCD unit
Charge corona
Slit glass
Laser unit
Magnetic roller
Registration roller
Bypass pick-up roller
Bypass paper feed roller
Bypass DFP roller
Middle roller
Paper feed roller
22
21 20
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
19 18
DFP roller
Pick-up roller
ADU Paper feed roller*
Transport / Separation corona
Drum
Transport belt
Pressure roller
Fuser lamp
Fuser separation finger (lower)
ADU guide roller*
Fuser separation finger (upper)
Paper exit roller
Paper exit sensor
Heat roller
Cleaning web roller
Full-speed unit home position sensor
*Included with the ADU unit. (Option: FP-D250/D350/D350H, Standard: FP-D450/D600)
1-15
3. Fan/Motor Location (FP-D250/D350/D350H)
Optics fan
*Printer controller
cooling fan
Optics drive
motor
Developer Unit
cooling fan
*Power supply
cooling fan
Exhaust fan
Main motor
Suction/
Ozone fan
Toner bottle
motor
Dust collecting
fan
Lifting motor
(upper stage)
* ADU drive
motor
Lifting motor
(lower stage)
* ADU paper
length guide
motor
* ADU paper
width guide
motor
* Included with the ADU unit (Option) and Printer unit.
(Option: FP-D250/D350, Standard: FP-D350H)
1-16
Introduction
4. Fan/Motor Location (FP-D450/D600)
Optics fan
*Printer controller
cooling fan
Optics drive
motor
Developer Unit
cooling fan
Power supply
cooling fan
Exhaust fan
Main motor
Suction/
Ozone fan
Toner bottle
motor
Dust collecting
fan
ADU drive
motor
Lifting motor
(lower stage)
ADU paper
length guide
motor
ADU paper
width guide
motor
* Included with the Printer unit. (Option)
1-17
5. Sensor Location
Platen cover
angle
Platen cover
open/close
Registration
roller paper pass
Lamp unit
home position
Paper feed cover
open/close
Toner bottle
home position
Toner level
Paper exit
Bypass paper size
Original size
Front cover
open/close
* ADU paper
pass 1
* ADU paper
length
Copy density
Toner density
* ADU
detection
Bypass paper
detection
Total counter
* ADU paper
pass 2
* ADU paper
detection
* ADU paper width
Paper limit
(upper stage :
D250/D350/
D350H)
Paper detention
Paper limit
(lower stage)
Paper detection
(lower stage)
Paper level (lower stage)
Paper level
(upper stage : D250/D350/D350H)
* Included with the ADU unit.
(Option: FP-D250/D350/D350H, Standard: FP-D450/D600)
1-18
Waste toner
bottle
Middle roller paper pass
(upper/lower stage)
Operation
Switch
(D450/D600)
* Paper exit
solenoid
Door switch
Laser unit
switch
Power switch
Discharge lamp
Paper feed speed
control clutch
Registration roller
clutch
Middle roller clutch
Paper feed clutch
Paper feed clutch
Pick-up solenoid
(upper stage :
D250/D350/D350H)
Paper feed clutch
(lower stage)
* ADU clutch
Separation
solenoid (FP-D450/D600)
Pick-up solenoid
(lower stage)
Recycle solenoid
* Included with the ADU unit.
1-19
Introduction
6. Solenoid/Clutch/Discharge lamp Location
7. PCB Location (FP-D250/D350/D350H)
LVPS (Low voltage
power supply)
*Control
panel D Touch panel
Control panel CPU
Control
CCD control
panel B
*Control panel C
Control panel A
Printer controller
(option)
AC driver
*NAC
System Control
Main CPU
Automatic duplex
unit driver (Option)
HVPS (High
voltage power supply)
8. PCB Location (FP-D450/D600)
LVPS (Low voltage
power supply)
*Control
panel D Touch panel
Control panel CPU
Control
CCD control
panel B
*Control panel C
Control panel A
Printer controller
(option)
AC driver
HVPS
(High voltage
power supply)
NAC (option)
System Controller
CPU Automatic duplex Image
unit driver (Option) Processing
1-20
Printer
Controller
(Option)
Introduction
9. Hard Disk Drive / Zip Drive Location
*Zip drive
*Hard disk for filing
Hard disk for printer
(Option)
Hard disk for back-up (Option)
*(Option: FP-D250/D350/D450/D600, Standard: FP-D350H)
1-21
1. 8 Copy Process
(–DC)
Charger
Discharge lamp
Laser Exposure
Cleaning
Developer
(AC) Separation
Transfer
Fusing
Exit
Photo electric
conversion
Original
Toner
(+DC)
Paper feed
ADU
Primary Charge:
Image Exposure:
Developing:
Illumination
Charge corona
Latent charge
image
Toner (–)
Drum
Magnetic
roller
Aluminium Latent
layer
charge
image
Image
Drum surface
approximately-750V DC
Transfer/Separation
Latent image
Bias: –550 V
Fusing:
Heat roller
Cleaning:
Fuser lamp
Cleaning
blade
Paper
Separation
Charge (AC)
PreTransfer
Separation Charge
LED
(+DC)
Discharge lamp:
Discharge
lamp
1-22
Paper
Pressure
roller
Fuser temperature approximately
190°C (D250/D350/D350H)
approximately 180°C (D450/D600)
Drum
(1)
Introduction
1. 9 Precautions with Consumables
Photoreceptor drum
• Do not touch the surface (with the hand or anything else).
• Stand the drum with the drum gear up for storage.
• Be careful not to smear with saliva, water, oil and so on.
• Do not place it where the temperature is high.
• Do not place it in strong light (such as direct sunshine or at window).
• Do not expose it to chemical gas or vapor.
• Do not store the drum unit with the photoreceptor drum installed without covering
it with clean paper.
(2)
1)
2)
Toner Developer
Do not mix different types of toner and developer.
• The machines are designed to use exclusive toner and developer for specific
models. Be careful not to use toner and developer from other models.
Do not mix foreign materials.
Be careful not to contaminate toner and developer with foreign materials. If
you spilled toner or developer on a table or floor when adding toner or developer
in the developer unit, discard what was spilled. Such supplies may damage the
drum as well as cause other trouble with the image.
3)
Do not place into other containers.
Toner and developer must not be placed into other containers, because some
containers may change the characteristics of the supplies. Vinyl chloride
potentially changes the characteristics of supplies because of migrating
4)
plasticizers.
Precautions on storage and transport
• Toner and developer additives are sensitive to temperature and humidity (high
temperature or humidity in particular).
• Store toner and developer in a dark and cool location (lower than 95°F/35°C)
and out of direct sunlight.
• Be careful not to expose toner and developer to rain or direct sunlight during
transportation. When delivered by truck the temperature inside must be not
higher than 104 °F/40 °C. (Under the sun in summer, the inside temperature
can typically be 140 °F/60 °C or higher in a closed vehicle compartment.)
• In a cold climate, store in a low humidity environment condition.
Do not put supplies near heaters.
1-23
5)
Safety and hygiene
Toner has the property of easily being wind blown.
Toner on skin does not cause any health risk. However inhalation is undesirable
even if a powder is simply dust. Therefore, be careful not to inhale toner.
• Handle the toner carefully when changing cartridges. Developer should also
be handled carefully when poured into the developer unit.
If you inhale a lot of toner by mistake, rinse your mouth out with water.
Toner on the skin should be washed off with soapy water.
• Toner stuck on clothing must be removed in a dry condition (by a vacuum
cleaner, brush or beating) and then washed with soapy water.
Wiping off with benzine, alcohol, or thinner is not recommended because it
may partially melt the components of toner resulting in a stain and spot.
• Toner spilled must be removed with a vacuum cleaner, and then wiped with a
cloth which has been dampened with a neutral detergent.
• If exposed to flames toner and developer will burn. Keep these supplies away
from open flames.
• Any used consumables (photoreceptor, developer and toner) should be recycled.
• Wear rubber gloves, eye protection etc. before handling any solvents such as
IPA.
1-24
• Even if the toner density is at it's standard level, the copy image may vary with
time depending on the characteristics of the drum and environmental variations.
To prevent this change, the copy density sensor, which is installed to the left of the
drum unit, controls the copy process to stabilize the image.
• Controlling the image
During initialization, after turning on the power, the copy density sensor reads the
medium density and black density marks which are produced electrically using
laser beams on the drum surface.
These two values are compared with the ideal gamma curve stored in the copiers
memory.
The copier detects the amount offset from the standard gamma curve (such as "a
little background" or "light image") and calculates the variables for copy density
control in accordance with Qualitative Reasoning Based Adaptive Controller. In
this way it finds the optimum compensation values to tighten the gamma curve by
changing laser power, and grid voltage for maintaining peak copy quality.
• The control of the gamma curve stabilizes copy quality by monitoring two points of
copy quality (medium density and black density) and has a direct effect on
background, solid area density and good reproduction of fine lines regardless of
environmental changes and variation with time and copy volume.
• Qualitative Reasoning Based Adaptive Controller (Digital QUANTUM)
Qualitative Reasoning Based Adaptive Controller is adaptive control on the basis
of quantitative reasoning theory. While successively reasoning and learning the
change of process characteristics regardless of environmental changes and the
variations with time and the number of copies on the copier, the system reads the
patch marks and determines the best values of laser power and drum surface
potential to establish the best gamma curve for optimum copy quality.
• Qualitative Reasoning Based Adaptive Controller is applied at the following intervals.
1-25
Introduction
1. 10 Digital Image Control Qualitative Reasoning
Based Adaptive Controller
a) During initialization.
b) After every 1,000 sheets following execution of Qualitative Reasoning Based
Adaptive Controller
c) At 200 copies after turning power on.
d) At 200 copies after replacing the toner bottle.
• Copy density detecting sensor
Two sensors for detection of copy density are used, one for halftone (line pattern)
and one for black density.
• The system provides a measured amount of light and detects the reflected light.
The resultant value is used for sensor compensation. This becomes the reference
value.
• As the reference value of gamma curve changes, various components are
automatically adjusted by the machine.
F mode
1-26
F6-80: Automatic compensation value (read only) (laser power)
F6-82: Automatic compensation value (read only) (grid)
Introduction
Digital QUANTUM (QUARC) System
Scanner
Scaner data
CCD gain adjustment
White shading
CCD gain adjustment
Black shading
Image density
Sensor mark sheet
Black level
Sensor mark sheet
CCD
CCD electrical adjustment
Printer
Laser power
Grid Voltage
Electronic Pattern
Copy density
sensor
White
Black
Image Density (ID)
Digital
QUANTUM
(QUARC)
Control
LSU
High density
Middle density
Density data from printer
1-27
Electronic Pattern
Laser Unit
Halftone
Black
Laser Power
Grid Voltage
Drum
Copy density
sensor
Halftone
sensor
Black sensor
Sensor
Output
Digital
QUANTUM
(QUARC)
Control
Halftone
Black
Control point
High Density
Image Density (ID)
1.25
Ideal Curve
Middle Density
0.35
0
1-28
Density data from printer
255
Section II Sub Assemblies
2.1 Main Drive
Sub
Assemblies
The driving mechanism of this machine is as follows.
Main motor
Fuser unit
Flywheel
Pulley 1
Middle
roller
clutch
Pulley 2
Transport
roller
Magnetic
roller
Bypass
unit
Drum
Registration roller
Paper
feed unit
Middle roller
Middle roller
Name of motor
Main motor
Driving method
DC24V
Middle gear
Paper feed unit (Lower stage)
Units driven
• Rotation of photoreceptor drum
• Developer unit, paper feed unit, paper transport unit, fuser unit
and paper exit unit.
Optics motor
Pulse control
Optics system scanning and return
2-1
2. 2 Operation
1. Sheet bypass paper feed
1)
Construction of the sheet bypass paper feed unit
The construction of the sheet bypass paper feed unit consists of a sheet bypass
paper feed roller, transfer roller, paper pass sensor, DFP roller, and timing
roller.
Part description
1
Details
Sheet bypass paper
Feeds the paper fed from sheet bypass paper
feed roller
transfer roller to timing roller.
Sheet bypass paper
Feeds the paper from sheet bypass tray to paper
transfer roller
feed roller.
3
Sheet bypass paper
detecting sensor
Detects the paper in the sheet bypass tray.
4
Sheet bypass double
Prevents multiple sheets from feeding.
5
Registration roller
2
feed prevention roller
Synchronizes the feeding of the copy paper with
the image on the photoreceptor drum.
6
Upper registration roller
7
Paper pass sensor
Detects paper just before registration roller.
8
Cleaning sheet
Prevents paper dust from sticking to both
registration rollers.
5
8
2-2
6
7 1
2
3
4
2)
Operation of sheet bypass paper feed unit
(1) Paper feed operation
• After choosing the sheet bypass tray and pressing the start key, the main motor
is energized. The main motor drives to the transmission gears via the respective
driving gears.
Consequently, drive is transmitted to the registration roller gear of the sheet
bypass paper feed unit.
Sub
Assemblies
The revolution of the registration roller gear is transmitted to the sheet bypass
clutch gear via an idler gear.
• The sheet bypass transfer roller to lower and contact the paper in the tray,
while releasing the stopper at the same time.
• Turning on the sheet bypass clutch, the transfer roller (which touches the paper)
and the paper feed roller rotate to transfer the paper towards the registration
roller.
• On the way to the registration roller, the paper is detected by the paper pass
sensor located just before the registration roller.
After a specified time, the sheet bypass clutch turns off, which stops the sheet
bypass feed rollers.
When the sheet bypass solenoid turns off, the transfer roller is lifted up.
The paper is held in place by the registration roller.
• After a specified time following the optics system start, the lamp unit home
position sensor detects the passing of the optics system (full speed unit), the
registration roller clutch is turned ON and the registration roller rotates.
Accordingly the paper is fed into the image transfer area and the registration of
original and copy paper is achieved.
(2) Double Feed Prevention
• The double feed prevention roller contacts the sheet bypass paper feed roller
pinching the paper at a specific pressure.
The rotating force of the double feed prevention roller is under specific torque,
when multiple sheets are fed, the double feed prevention roller rotates in the
reverse direction feeding the bottom paper back into the tray.
(3) Paper Retry
• The paper pass sensor checks the paper feed from the tray.
If the paper is not detected by the paper pass sensor within a specified time
the Retry system is employed.
2-3
Main motor
Pulley 1
Pulley 2
Middle
roller
clutch
Sheet
bypass
unit
Paper feed roller
DFP roller
Cleaning sheet
Paper pass
sensor
Paper
detecting
sensor
Middle
roller
(upper)
Registration
roller
Pick-up roller
Middle
gear
Middle roller (lower)
Registration
roller clutch
Registration
roller gear
Clutch gear
3)
Middle gear
Clutch
Detecting the paper
• Paper in the sheet bypass tray is detected by the sheet bypass paper detecting
sensor. When paper is detected, the paper detecting sensor is turned off and
when no paper is detected, the sensor is turned on.
4)
Detecting sheet bypass paper size
• The paper size for the sheet bypass is detected by a matrix of sheet bypass
paper size sensors which are installed on the sheet bypass tray.
• When setting the paper in the sheet bypass tray and adjusting the paper guide,
the matrix is as follows.
Paper size detecting sensor
S1/S2
S4
2-4
S1
S2
S4
Ledger/A3
ON
OFF
ON
Legal/B4
ON
ON
ON
Letter/A4
ON
OFF
OFF
Letter-R/A4R
OFF
ON
OFF
Invoice/A5
OFF
OFF
OFF
2. Paper feed unit
1)
Construction of paper feed unit
• The construction of paper feed unit is as follows.
Part description
Functions
Pick up roller
Transfers the paper from paper feed cassette.
2
Paper feed roller
Feeds the paper.
3
Paper feed solenoid
Lowers the paper transfer roller to the paper.
4
Paper feed clutch
Drives paper feed unit.
5
Paper pass sensor
Detects the paper passage.
6
Middle roller
Drives the paper to machine.
7
Double feed
prevention roller
Prevents double paper feed.
8
Paper detecting sensor
Detects the paper in paper feed cassette.
9
Paper level upper limit sensor
Detects the upper limit position when lifting the paper
in paper feed cassette.
9
8
7
6
1
2
5
Sub
Assemblies
1
3
4
2-5
2)
Paper feed unit operation
• When the start key is pressed, the paper feed clutch turns ON.
The drive from the main motor is transmitted to the idler gear through the
respective gears and belts, rotating the idler gear which is connected to the
middle roller clutch.
Note : The paper speed control clutch turns ON for the first copy fed from the
drawer (upper and lower) of the copier.
The paper feed speed control clutch allows the first copy to be fed at
the faster speed than the copies which follow it.
• The paper feed solenoid turns on, pushing the pick up roller to the paper. The
paper feed clutch turns on to rotate the pick up roller and paper feed roller,
which feeds the paper in the cassette to the middle roller.
• The double feed prevention roller contacts the paper feed roller pinching the
paper at a specific pressure.
The rotating force of the double feed prevention roller is under specific torque.
When multiple sheets are fed, the double feed prevention roller rotates in the
reverse direction feeding the bottom paper back into the drawer.
• The paper pass sensor checks the paper feed from the drawer. If the paper is
not detected by the paper pass sensor within a specified time the Retry system
is employed.
• The paper arrives at the middle roller, and is detected by the paper pass sensor
on the way to the registration roller.
After a specified time, it touches the registration roller and is held in place.
• After a specified time following the optics system start, the lamp unit home
position sensor detects the passing of the optics system (full-speed unit), the
registration roller clutch turns ON and the registration roller rotates. Accordingly
the paper is fed into the image transfer area and the registration of original and
copy paper is achieved.
Paper feed roller
DFP roller
Middle roller
Paper pass sensor
Middle roller
Paper limit sensor
Pick-up roller
Paper feed solenoid
Paper feed clutch
2-6
Paper drawer lift mechanism
• When the paper drawer is closed, the lift lever connects with the coupling which
drives the machine side lift lever. Next, the lift motor rotates and it's drive is
transmitted to the lift lever driving gear via the respective gears and rotates the
lift lever to lift up the drawer bottom plate.
• When the bottom plate and paper have been lifted up, the bottom plate upper
limit sensor on the paper feed unit turns on and the revolution of the lift motor
stops to keep the paper at the specific position.
4)
Detecting paper
• The paper detecting sensor is turned ON if there is any paper in the drawer. If
there is no paper in the drawer, the paper detecting sensor is turned off by the
actuator falling into the groove in the drawer bottom plate.
• As paper is used, the drawer bottom plate is lifted up. At a specific level, the
paper level warning sensor is turned on to detect a low paper condition.
Lift motor
Coupling
Paper level sensor (located on
the copier frame)
Pick-up roller
Paper upper limit
sensor
Bottom plate
2-7
Sub
Assemblies
3)
3. Developer unit
1)
Construction of the developer unit
• The developer unit consists of the magnet roller, sleeve, transport screw and
mixing mill.
• The developer is mixed and charged by the transport screw and the mixing mill
where it is transferred to the developer sleeve. The developer on the sleeve
forms a brush by the magnetic force of the magnetic roller, and makes contact
with the electrostatic latent image on the drum. Toner is attracted to the areas
of the drum which have been discharged by the laser.
• The doctor blade regulates the height of the magnetic brush which is formed
by the developer which is attracted to the sleeve of the magnetic roller.
• The TDC sensor is an inductance type sensor used to measure the ratio of
toner to developer.
• A twin field magnetic roller forms 2 pole peaks facing the drum, to enhance
developing performance.
• A dust collector vacuum duct is provided under the developer unit to prevent
toner dusting. The dust collector is duct connected to the dust collector fan
mounted on the machine frame which vacuums the scattered toner to prevent
toner dusting under the developer unit.
Part description
1
Magnet roller
Transports developer to photo receptor.
2
Doctor blade
Controls height of developer on sleeve.
3
Mixing mill
Mixes and charge developer and transport it to
magnet roller.
4
Transport screw
Mixes developer and transports to mixing mill.
5
TDC sensor
Measures toner density.
6
Dust collector duct
Collects scattered toner dust.
7
Magroll spacer
8
Drum spacer
Drum
2-8
Function
Corona
1
7
2
6
3
5
4
Developing
• The developer mixing unit contains developer which is a mixture of fine powder
(non-magnetic toner) and fine ferrite carrier.
• The developer is mixed by the transport screw and the mixing mill. The toner
becomes negatively charged ( – ) and the carrier becomes positively charged
( + ). The developer is magnetically attracted to the aluminum sleeve of the
magnetic roller, and the magnetic brush is formed.
• The magnetic roller sleeve rotates in a counterclockwise direction. The height
of magnetic brush is controlled by the gap between the doctor blade and the
sleeve surface.
• The drum, with an electrostatic latent image, is rotated clockwise and makes
contact with the magnetic brush.
• The negatively charged toner is attracted to the electrostatic latent image on
the drum.
• Charge (developer bias) is applied to the magnetic roller sleeve, which prevents
toner from moving to the non-image area of the drum. The distance between
the drum and the sleeve is controlled by the drum spacers.
FP-D250/D350 Series
FP-D450
FP-D600
Amount of developer
Approx. 750 g
Approx. 750 g
Approx. 750 g
Initial toner density
6.0 %
5.1 %
5.1 %
Sleeve revolution
236.9 rpm
465.4 rpm
542.9/465.4 rpm
Drum revolution
67 rpm
95.5 rpm
111.4/95.5 rpm
Magnet roller diameter
30 mm
30 mm
30 mm
Drum Sleeve Distance
0.8 mm
0.75 mm
0.75 mm
Blade Sleeve Distance
0.67 mm ± 0.03 mm 0.63 mm ± 0.03 mm
0.63 mm ± 0.03 mm
Developing bias voltage
–550 V reference
–550 V reference
–550 V reference
N3
S1
S3
S2
N1
N2
2-9
Sub
Assemblies
2)
Reference:
• The twin field magnetic roller provides enhanced developing performance by a
wider developing area which results from two pole peaks (S1 and S2 pole)
facing the drum surface.
• N2 through S3: Attracts the developer to the sleeve from the mixing mill.
• S3 pole:
Raise the head of the developer and controls the head height
via the doctor blade.
• N2 through S1: Transfers the developer to the developing position.
• N1 through N2: Separates the developer from the sleeve.
3)
Driving developer
• The revolution of the main motor is transmitted to the developer drive gear via
the respective drive gears and belt. The developer unit receives drive from the
main motor by the respective gear. The sleeve gear is connected to the mixing
mill gear and the transport screw gear to mix and transfer the developer.
Main motor
Flywheel
Drum
2-10
Magnetic
roller
Developer unit
Installing/removing the developer unit
• Turning the Developer Release Lever clockwise rotates the Cam releasing the
pressure between the Magnetic roller spacer and the Drum spacer. Accordingly
the Developer Unit is released from the Drum.
Sub
Assemblies
4)
2-11
5)
Toner Density Control (TDC) sensor
• The TDC sensor, which is installed under the developer transport screw, is an
inductance type sensor used to detect the ratio of toner to carrier in the developer
unit. The sensor measures changes of magnetic flux density, and monitors
the toner density in this way.
• The developer is a mixture of carrier which is a magnetic substance and toner
which is not a magnetic substance. When the amount of toner is over the
standard, the magnetic flux density reduces. The TDC sensor output drops
below the standard voltage as a result. When the amount of toner is less than
the standard, the carrier percentage is high raising the magnetic flux density,
resulting in a lower TDC sensor output voltage than the standard.
• The lower density of toner causes the increase of TDC sensor output. Being
over the standard, the toner hopper motor drives and toner is supplied to the
developer mixing unit to keep the toner density consistent.
<Change of toner density and change of TDC sensor output voltage>
Amount of carrier passing TDC sensor
Toner density condition Sensor output voltage
Less
High
Lower than normal
More
Low
Higher than normal
<Control>
The following controls are necessary for normal control of toner density
(1) Automatic adjustment of TDC sensor gain (during execution of F8-09)
(to attain the standard reference level).
(2) Maintain the standard level by control of toner density during use.
<Explanation of the control system>
(1) Automatic adjustment of TDC sensor gain
Automatically adjusts the reference of the TDC sensor by executing service
mode F8-09.
The operation flow is as shown below.
2-12
F8-09 start
CPU will check toner density sensor output. (2.5 V)
No
Yes
Sub
Assemblies
CPU will adjust sensor gain
control signal
Memory number will be changed to new number in memory.
(F6-21 or F6-26)
Toner density sensor output voltage will be adjusted to 2.5 V
(2) Maintain standard toner density
By checking the output voltage of the TDC sensor for every copy, the timing of
toner supply to the developer unit is controlled so that the output voltage is 2.5V
the at all times keeping the toner density constant.
Check TDC sensor output voltage at copying (or mixing).
Is the measured output voltage over 2.5V?
NO
YES
Supply toner: from reserve tank for 6.7 seconds
(amount of toner supply: approx. 0.4 ~ 1.2 g)
Rotate bottle for 7 seconds: toner to reserve tank.
(Toner is not supplied to developer unit.)
Do not supply toner.
Note) During bottle rotation toner is not supplied to
the developer unit.
2-13
(Reference 1) Toner supply route
Developer unit
Reserve tank (hopper)
Bottle
(Reference 2) Forced toner supply
Supply toner: supply for 6.7 seconds from reserve tank.
(amount of toner supply: approx. 1.1 g)
Perform twice.
Rotate bottle for 7 seconds: supply toner to reserve tank.
(Toner is not supplied to developer unit.)
Note: Bottle rotation means toner is being added to the reserve tank, not the
developer unit. Therefore, the number of bottle rotations can not be used as
a check of proper TDC adjustment.
6)
Manual supply of toner
• The toner in the developer unit can be manually increased by supplying toner
from the toner hopper to the developer unit to get higher copy density.
To manually supply toner: Choose "Toner supply" in the "User mode".
In so doing, approx. 2.4 g is supplied to the developer mixing unit.
However, when toner density is higher than the predetermined level, toner will
not be supplied.
<Developer Unit>
<CPU>
Sensor output
CN3
3
Vp
7
Vp
2
TDSN
8
TDSN
4 TDREF
1
GND
Gain adjustment
Sensor Area
2-14
6 TDREF
9
GND
Drum cleaning
• After developing and transferring, the toner remaining on the drum is wiped
away by the cleaning blade.
• The cleaning blade touches the drum surface with a specific pressure applied
by the blade pressure spring, and cleans the toner off the drum surface.
• The Toner Receiving Sheet touches the drum surface and prevents any toner
scraped off by the Cleaning Blade from falling out of the cleaning section.
8) Toner transporting
• The toner cleaned from the drum by the cleaning blade is transported to the
front of main body with toner transport screw.
• The toner recycle transport screw and the waste toner screw connect with the
developer mixing unit and the waste toner bottle respectively.
• Usually the aperture to the recycle unit is opened. The toner transferred with
the toner transport coil spring falls down through this hole and is transferred to
the developer mixing unit by the recycle screw.
• When the machine is in the "Refresh" mode, the recycle solenoid actuates
and the toner is transferred to the waste toner screw and is sent to in the waste
toner bottle.
Part description
Function
1
Cleaning blade
Cleans toner off of the drum.
2
Toner transport screw
Transfers toner scraped from photo receptor to the
front side of the main body.
3
Toner recycle transport
Transfers collected toner to developer mixing unit.
screw
4
Waste toner screw
Transfers collected toner to waste toner bottle.
5
Recycle solenoid
Controls flow of recovered toner
Corona
1
Grid
Sheet
Drum
Recycle pipe
2
Refresh pipe
Copy density
sensor
Waste toner bottle
3
4
5
2-15
Sub
Assemblies
7)
4. Toner hopper unit
1)
Construction of the toner hopper
• The construction of the toner hopper is as follows.
Part description
Function
1
Toner bottle
Supply toner.
2
Home position sensor
Detect the home position of toner bottle.
3
Reserve tank
After storing toner in toner hopper, supply to
developer mixing unit.
4
Toner volume sensor
Detect toner level in reserve tank.
5
Hopper motor
Drive toner bottle and toner supply roller.
6
Toner supply roller
Supply toner to developer mixing unit.
7
Toner supply shutter
Prevents accidental toner dropping when developer
mixing unit is separated from the toner supply unit.
Bottle holder
1
2
Sensor plate
3
5
Agitator gear
Agitator
Bottle drive gear
Supply roller gear
Spring clutch
4
6
Agitator
2-16
7
Supplying toner
The Toner Hopper Unit supplies toner to the Developer Mixing Unit via the
Reserve Tank. Toner addition is done in two stages, by turning the Toner Hopper
Motor in:
Forward Direction:
The bottle turns (via a spring clutch) to supply toner from the Toner Bottle to
the Reserve Tank. This direction is controlled by the Toner Volume Sensor.
Reverse Direction:
The Toner Supply Roller turns (via a spring clutch) to supply toner from the
Reserve Tank to the Developer Mixing Unit. This direction is controlled by the
TDC Sensor.
TDC sensor output Toner volume Hopper
sensor
motor
High (Lower toner density)
High
Low (Higher toner density)
Low
Detect
Reverse rotation
Toner
bottle
—
Non detect Forward rotation Rotate
Toner supply Add toner
roller
Rotate
Supply toner to developer unit
—
Supply toner to sub-hopper
Detect
Stop
—
—
—
Not detect
Stop
—
—
—
• Toner supplied by the toner supply roller varies from 0.4 to 1.2 grams of toner
depending toner density.
• When the developer mixing unit is separated from the toner supply unit of the
toner hopper, the toner supply shutter is closed to prevent accidental toner
dropping.
2-17
Sub
Assemblies
2)
3)
Toner level detection
• When the toner volume sensor in the toner hopper detects no toner remaining,
while the toner bottle is continuously rotating, the "Add toner" message will be
displayed but the machine will continue to operate. However, if the toner
concentration level falls below a specified level, a "U13" is displayed and the
copier is disabled. The machine may be used if the key operator resets the
"Add toner" message by pressing the appropriate keys on the control panel.
However, after illumination of the "U13" indicator the machine will be disabled
after approximately 300 copies.
* This feature is dependant on the settings of F5-59 & 63.
The "Add toner" indication is cleared by replacing the toner bottle.
4)
Detecting the toner bottle position
• Insert the toner bottle in the hopper and turn to the specified position.
Accordingly, the toner bottle shutter opens and is able to add toner to the
hopper.
• The bottle home position sensor which is mounted in the toner hopper detects
the position of the toner bottle and the toner bottle stops turning at the specified
position.
Copy
No toner
Add toner indication : Flash
U13 : Flash
Copy operation stop
Reset procesdure
(F5-63)
Approx. 300 copies can be made
U13 : Flash
Copy operation stop
2-18
5) Toner Recycling System
To maximize toner yield, toner cleaned off the drum is returned to the developer
unit to be re-used.
Under normal circumstances the copy process can contaminate the toner. In
addition, other undesirable materials may be cleared from the drum surface
potential side effects of recycling used toner.
<Process>
There are two methods of handling the mixture of materials found in the cleaning
unit following the drum cleaning.
This handling is normally in the "Recycle" mode, but on a regular basis is
switched to the "Refresh" mode. During the "Refresh" mode, the undesirable
particles are removed from the developer unit, and forwarded to the waste
toner bottle to be discarded.
<Control>
Approximately every * 2,000 copies (FP-D250/D350 Series)/500 copies (FPD450/D600) the toner recycle system activates the toner recycle solenoid
switching the machine from the recycle mode to the refresh mode.
The machine will remain the refresh mode for the next 300 copies (FP-D250/
D350 Series)/200 copies (FP-D450/D600), during which time the contaminated
toner is emptied into the toner waste bottle.
This process removes undesirable particles from the system and it is completely
unnoticed by the end user.
* The amount of copies between cycles is programmable through F5-65.
Additionally if the TDC ratio becomes too high the system initiates refresh mode
automatically.
Recycle Mode
Developer
unit
Drum
Cleaning
unit
Drum
Cleaning
unit
Refresh Mode
Developer
unit
Waste toner
bottle
2-19
Sub
Assemblies
and mixed with re-usable toner (such as paper dust, etc.).
Toner Recycling System allows us to maximize toner yield, while avoiding the
5. Paper transport unit and separation unit
1)
Paper transport unit
The paper transport unit transports the paper after transfer/separation. The
paper is secured by the suction fan and transferred to the fuser via the transfer
belt.
• The paper transport unit is driven by the main motor which transfers drive to
the paper transport drive gear via respective drive gears.
• The suction fan which is provided on the main body side is connected with the
paper transport duct. The suction fan holds the paper to the paper transport
belt and also removes the ozone generated by the transfer/separation corona.
Part description
Function
1
Paper transfer belt
Transports paper to fuser.
2
Paper transport drive gear
Drives paper transport unit by copier drive gear.
3
Paper transport duct
Suction type duct (vacuum coming from suction fan
4
Transfer guide
Guides to assist the transport of transfer paper to
timing roller.
5
Transfer/separation
corona
Charges paper and transfer toner from drum,
discharge the paper, and separate from photo
receptor.
on copier frame).
Transport drive gear
2
1
Suction/Ozone fan
3
5
2-20
4
6. Fuser unit
1)
Construction of the fuser
• The construction of the fuser is as follows.
Function
1
Heat roller
Fuses toner to the paper by applying heat.
(Aluminum + Teflon coating)
2
Pressure roller
Fuses toner to the paper by pressing paper to heat
roller.
3
Cleaning web
Cleans heat roller with non-woven cloth impregnated
with silicone oil. Coats roller with silicone oil to reduce
adhesion of toner.
4
Cleaning web roller
Presses cleaning web onto heat roller.
5
Fuser thermostat
Safety device used to turn off power supplied to
heater lamp under excessively high temperature
conditions
6
Fuser thermistor
Sensor used to detect surface temperature of the
heat roller and control temperature to a specified
level.
7
Main heater lamp
Halogen lamp for fusing
8
Sub heater lamp
Lighting: warming up faster (FP-D450/D600)
(Silicone rubber + Fluorine plastic tube)
9
Fuser inlet guide
Guides paper to fuser roller
10
Upper fuser separation finger
Assists in separating the copy paper from the heat
roller.
11
Lower fuser separation finger
Assists in separating the copy paper from the
pressure roller.
12
Pressure spring
Maintains pressure between heat and pressure
roller.
Heat roller temperature
Main heater lamp
Sub heater lamp
Pressure roller tension
374°F/190°C
(D250/D350/D350H)
359°F/180°C(D450/D600)
850 W (FP-D250/D350)
950 W (FP-D450/D600)
400 W (Short one)
(FP-D450/D600)
Approx. 60 kgf
(D250/D350/D350H)
Approx. 46.4 kgf(D450/D600)
4
5
6
3
1
7·8
10
9
11
2
12
2-21
Sub
Assemblies
Part description
2)
Fusing
• The fuser unit makes the image permanent by fusing the toner to the paper
with heat and pressure.
• The surface of the heat roller has excellent toner release characteristics and
has been treated to enhance its durability and anti-static characteristics.
• Heat is provided to the heat roller intemally by a halogen lamp.
(The heat roller contains two halogen lamps. Two halogen lamps (main heater
lamp and sub heater lamp) are used to reduce the time for warming up after
turning ON.) (FP-D450/D600)
• The thermistor, touches the surface of the heat roller and maintains temperature
at the specified value.
• The fuser thermostat, which is installed on top of the heat roller, protects the
fuser unit from overheating.
• The pressure roller is composed of silicone rubber which is covered with a
fluorine plastic tube to enhance the durability of the roller.
• The pressure roller applies pressure, provided by the fuser pressure springs,
to the heat roller to from a nip width (contact area) which provides the necessary
time for fusing.
• The drive for the fuser unit is provided by the main motor via the respective
gears.
• Fuser separation finger
To prevent paper from adhering to the heat and pressure rollers during fusing,
the upper and lower separation fingers contact their respective rollers to sepatate
the paper from the rollers mechanically if normal separation does not occur.
2-22
Cleaning web roller
Web drive gear
Heat roller
Web connecting gear
Heat roller bearing
Sub
Assemblies
Pressure roller
Paper exit sensor
lever
Heat roller gear
Fuser lamp
Fuser coupling gear
Middle gear
3)
Driving of fuser unit
• Drive for the fuser unit is provided by the main motor and is transmitted to the
fuser coupling gear via the respective gears.
Drive is then transmitted to the heat roller drive gear thus driving the heat
roller.
• The paper exit sensor lever is moved by the paper exiting the fuser unit, thereby
activating the paper exit sensor.
4)
Operation of cleaning web
• The cleaning web contacts the top of the heat roller in order to clean the roller
during the copy cycle.
• The cleaning web, composed of rolled unwoven cloth impregnated with silicone
oil, supplies silicone oil to the heat roller to prevent the offset of toner and
markings onto the copy. The heat roller transfers oil to the pressure roller
through normal contact.
• The cleaning web is driven by the heat roller drive gear, via the reduction gear
and is advanced very slowly during the copy cycle.
• The cleaning web has a red stripe near the end of the web. This provides a
visual indication when the web is near the end of its life.
2-23
5)
Temperature control
The heat for the heat roller is provided by a halogen lamp. The lamp turns on
during the warm up cycle and periodically during copy operation to maintain
the specified temperature.
Sequence
a)When the power to the copier is turned on the heater lamp is turned on and
begins heating the heat roller. The thermistor monitors the surface temperature
and sends this information to the CPU PCB.
b)When the thermistor detects that the surface temperature has reached (140°C),
the main motor turns on and the heat roller and the pressure roller rotate.
When the surface temperature reaches 190°C the main motor turns off.
The copier is now in the ready condition.
c) While in the ready condition the thermistor maintains the specified temperature
by instructing the CPU PCB to turn the heat lamp on and off.
(Note)
If the temperature of the heat roller surface does not reach the specified value in
the specified time after power on, E4-01 is indicated on the control panel.
Switch
ON
Warm-up
complete
Start key
ON
Energy
Energy
Copy
complete Saver ON Saver OFF
(°C)
190
(D250/D350/D350H)
180
(D450/D600)
175
(D250/D350/D350H)
165
(D450/D600)
Heat roller surface temperature
140
0
Main motor
Fuser lamp
2-24
75 sec.
Time
Sub
Assemblies
Paper exit selection guide
ADU guide roller
Paper exit roller
Solenoid
6)
Exit/2 sided copy switching
• When 2 sided copying is selected, paper exiting the fuser unit will be redirected
to the ADU via the paper exit selection guide. The guide is activated by the exit
solenoid, mounted on the rear frame of the copier.
2-25
7. Optics unit
1)
Construction of optics unit
• The optics unit consists of the exposure lamp (Xenon lamp), lens, CCD sensor,
laser scanning unit (LSU) and reflector mirrors mounted on scanning
assemblies.
• While moving the full-speed unit and the half speed unit with the optics motor,
the exposure lamp illuminates the original. The reflected light from the original
is projected through the lens and put on the CCD image sensor which converts
light signals into electric signals.
When the light signals are converted into electronic signals, the image of the
original is changed to an electronic signal of the picture element which
corresponds to image density.
• This electronic signal (analog signal) is converted to digital signal by the CCD
control PCB, then sent to image processing circuit in the main CPU PCB.
• The laser beam, which corresponds to image data, forms the latent image on
the drum by turning on and off.
When the laser beam is on the charge on the drum is removed.
1
4
5
7
3
8
Optics unit
2
2-26
6
9
2)
Function
1
Full-speed unit
Includes exposure lamp and No.1 mirror. It moves
to scan the original.
2
Half-speed unit
Includes No.2 and No.3 mirrors. It scans at half
speed of the full speed unit keeping the optical path
length from the original to the lens constant.
3
Optics cooling fan
Cools the optics unit.
4
Optics unit drive motor
Stepping motor which drives full-speed unit and halfspeed unit.
5
Drive belt
Transmits driving force from optics motor to the fullspeed unit and the half-speed unit.
6
Lens
Focuses light reflected from the original onto the
CCD image sensor.
7
Laser unit
Includes semiconductor laser, polygon motor, f-θ
lens, mirrors, and collimator lens.
8
CCD image sensor
Converts light into electronic signals.
9
Exposure lamp
Xenon lamp which illuminates the original.
The process of converting light into electric signals is called "photo-electric
conversion". The elements used for the photo electric conversion are called
"photo-electric conversion elements", which use a reduced type of mono-chrome
linear CCD sensor.
3)
CCD sensor
CCD image sensor consists of receiving area, transfer area, and output area.
The CCD sensor can detect approx. 7,500 picture element.
The charges which are converted electronic signal and stored by photo-diode
array are transferred using analog shift-register.
After transfer, these signals are retrieved accordingly.
In order to read signals with high speed, odd number of picture elements and
even number of picture elements are retrieved in parallel.
Receptor
Light
Transfer
Pin photo diode array
MOS
CCD analog shift register
Output
Photo
diode
2-27
Sub
Assemblies
Part description
4)
Exposure lamp ON/OFF control
(LPCNT1)
Main CPU PCB
Lamp inverter
Lamp inverter
control signal
Exposure lamp
(Xenon lamp)
When the lamp inverter control signal (LPCNT1) of the main CPU PCB is at "L"
level, the exposure lamp (Xenon lamp) is turned on at a high frequency by the
lamp inverter.
LPCNT1
(Lamp inverter
control signal)
2-28
OFF
ON
5)
Driving optics unit
• The optics unit (full-speed unit and half-speed unit) is driven by the optics unit
motor.
The optics unit motor revolution drives the full-speed unit and half-speed unit
via optics unit motor belt, full-speed half-speed drive pulley, full-speed unit
speed unit, therefore, the full-speed unit moves at twice the speed of halfspeed unit so the optical path length from the original to the lens is kept constant.
• The full-speed unit is positioned at the lamp home position by the full-speed
unit position detecting plate and the lamp unit home position sensor.
• The full-speed unit holds the exposure lamp and the No.1 mirror. It scans the
original with the exposure lamp, forwards the reflected light to the No.3 mirror
via No.1 and No.2 mirrors. The image is reflected onto the CCD image sensor
after it passes through the lens.
Optics drive motor Optics drive
belt
Lamp unit
Half-speed unit
Full-speed unit drive belt
Optics drive pulley
Belt drive shaft
Slide rail
Half-speed unit drive belt
Pulley 1
Pulley 2
Lamp unit home
position sensor
Exposure lamp
No.1 mirror
CCD image sensor
No.2 mirror
No.3 mirror
2-29
Sub
Assemblies
drive belt and half-speed unit drive belt.
• The pulley diameter which drives half-speed unit is 1/2 of that driving the full-
5)
Laser scanning unit (LSU)
(1) Outline
Semiconductor laser 1
Semiconductor
laser 2
Synchronization sensor
Collimating lens
Half mirror Lens
Mirror
Polygon mirror
Collimating lens
Mirror
Mirror
Mirror
Main scan
direction
OPC Drum
Sub scan direction
• Divergent light from the semiconductor laser (exposure) with light intensity
modulation by a digital image signal is converted into parallel light by a
collimating lens.
• The parallel laser beam falls on a rotary polyhedral mirror which is called a
polygon scanner.
The direction of the reflected light is curved since the optical path is folded
back by mirrors through f-θ lens, and image formation is realized on the drum
surface as several 42.3 micron light spots.
• The light spot scans lowered main scan direction in the figure while the image
is exposed on the drum as it rotates in the arrow direction (sub scan) to form a
latent electrostatic image.
• Part of the polarized laser beams fall on a synchronization sensor so that timing
for image recording start by the laser beams on the drum is synchronized.
2-30
(2) Semiconductor Laser
• The laser beams that emanate from two semiconductor lasers are turned ON/
OFF by turning the current flow to the semiconductor lasers ON/OFF with a
digital signal that corresponds to the image to irradiate the drum.
The semiconductor laser is switched ON/OFF in accordance with the image
data. (Image data for the letter P.)
– Semiconductor laser is ON.
Sub
Assemblies
– Semiconductor laser is OFF.
(3) Collimating lens
• Converts divergent light of the semiconductor laser to parallel light so that
scanning is stabilized and light spot convergence is improved.
Semiconductor laser
Collimator lens
(4) Polygon scanner
• The polygon scanner consists of 6 sided pillar-shaped rotary mirrors that convert
the laser beam into a scanning beam. In regard to the performance of high
resolution recording, the uneven speed of scanning lines reflected from each
mirror face, the difference in inclination of each reflecting face (surface inclination
error) against the rotary shaft, and the rise time during activation become
important performance elements.
Polygon scanner
Hexagonal mirror
2-31
(5) f-θ lens
• A lens that causes the parallel light reflected from the polygon scanner to fall
on the drum. It is designed so that transmitted light curves toward the optical
axis around the lens with a large scanning angle so that the incident light that
swings at a constant angular velocity becomes a constant velocity scanning
for the drum. The recording width is the length of the short side of Ledger/A3
size paper and the light spot is approx. 42 micron.
f-θ lens
(6) Synchronization signal detector (synchronization sensor)
• To accurately detect the position of the laser beam in the main scan direction
during drum scanning, and to minimize positioning deviation of the image on
adjacent scanning lines, it is positioned just before drum face scanning during
the scan of each face of the polygon scanner to detect laser beam transit
timing. Polygon scanner mirror face division error and uneven rotation
compensation is provided by image write start in accordance with this timing
signal. A pin photodiode with a fast response is used for the detector.
Timing Detection
Paper feed direction
Sync Sensor
2-32
8. Automatic duplex unit (ADU)
Component location
20
14 13
12 21
13
14
Sub
Assemblies
1)
9
8
1
2
3
4
5
6 7
10
11
9
26
25
24
23
22
19
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
18
Paper pass sensor A
Paper width guide
Connector
ADU tray detecting sensor
Paper width guide home position
sensor
Paper pass sensor
Paper weight lever
Pinch roller
Transfer guide 2
Transfer guide 1
Paper feed roller
Storage roller
17 16 15
14.
15.
16.
17.
18.
19.
20.
21.
22.
23.
24.
25.
26.
Paper weight lever
Drive motor
Magnetic clutch
Clutch gear
Paper width guide motor
Paper length guide motor
DFP pad
DFP roller
Sensor lever
Paper feed tray
Transfer roller
Paper length guide
Paper length guide home position
sensor
2-33
2)
Mechanical operation
1 Paper stack/paper return operation
When the drive motor rotates counterclockwise and turns gear 6 and the timing
pully, the transfer roller rotates and paper is transported onto the transfer guide
2. At the same time the magnetic clutch turns ON and the storage roller rotates,
paper is reversed and stored in the ADU.
Storage roller
Paper feed
roller
Magnetic
clutch
Motor pulley
Clutch gear
Transport
roller
Gear 2
Drive motor
Gear 3 Lifting
Cam
Gear 6
Pulley
2 Paper feed operation
When the drive motor rotates clockwise, and turns clutch gear 4, the lift cam
rotates and lifts lift plate 2 by a pressure spring.
Also, the lift shaft and lift plate 2 are driven by the movement of the lift plate 2
and the ADU tray rises.
After lifting up the ADU tray, the magnetic clutch turns ON and the paper feed
roller rotates counter clockwise for feeding paper into the copier.
Clutch gear
Clutch spring
Lifting Cam
Pressure Spring
Lifting plate 2
Lifting shaft
2-34
Paper feed roller
Lifting plate 1
Paper feed tray
3 Paper Width guide operation
When the paper width guide motor rotates and turns the timing belt, the paper
width guides align paper.
Operation timing for the paper width guide is shown below.
1)When the power :
Move to Letter-R/A4R size position, after
detecting paper width guide home
position sensor.
2)When copy starts:
(Move back +3 mm of Letter-R/A4 size: 6 mm play)
Move to the selected paper size
3)When stack paper:
(Move back +3 mm of selected paper size: 6mm play)
Move to the selected paper size for align paper.
(Once for every sheet entering)
4 Paper length guide operation
When the paper length guide motor rotates and turns timing belt, the paper
length guide is moved to align paper.
Operation timing for the paper length guide is shown below.
1)When the power :
switch turns ON
Move to Letter-R/A4R size, position after, detecting
paper length guide home position sensor.
2)When copy starts:
(Move back to +2.5 mm of Letter-R/A4 size)
Move to the selected paper size
(Move back to +2.5 mm of selected paper size)
2-35
Sub
Assemblies
switch turns ON
3)
Operation flow chart
Power switch ON
Paper in ADU?
YES
NO
Paper detected in ADU before power OFF?
(Check memory for paper in ADU)
YES
NO
Paper width/length guide no operation
"Remove paper in ADU" indication
Press reset key, paper feed out
Jam indication
Remove jam paper
Open/close front door
Allow paper width/length guide to Letter-R size
(Make 2.5 mm (length) and 3 mm (width) margin.)
Copy start
Move paper width/length guide to selected paper size
Drive motor rotates (forward rotation) and magnetic clutch turns ON
Storage roller/Paper feed roller rotate
Paper pass sensor 1 and 2: ON paper detecting sensor: ON
Paper align operation (Once for every paper)
Paper stack complete?
YES
NO
Drive motor rotates (reverse rotation) and magnetic clutch turns OFF
Slip clutch driven to lift ADU tray
Drive motor rotates (reverse rotation) and magnetic clutch turns ON
Paper feed roller rotates to feed paper to the copier
(When the middle roller sensor is ON, magnetic clutch turns OFF)
2-36
Section III Preventive Maintenance
Preventive maintenance is performed at specific intervals and consists of machine
cleaning and parts replacement.
It is essential to perform these service activities properly and at the specified intervals
for customer satisfaction.
The purpose of this service is to maintain machine performance and image quality.
• You should prepare the necessary PM kits, replacement parts, and tools for
cleaning beforehand.
• After completing the preventive maintenance service, you should discard the
used parts and packaging, in accordance with local regulations and clean
surrounding area.
• Before servicing the equipment disconnect the power cord from the wall outlet.
Note : FP-D450/D600 only
Bofore disconnecting the power cord, please open the front door and
exit door.
• Before using solvents such as IPA (Isopropyl alcohol), put on rubber gloves
and eye protection.
1
Timing
• Perform the preventive maintenance service in accordance with the chart of
preventive maintenance areas listed in the service manual.
2
Cleaning of rollers
• Rollers should be cleaned with water and cloth.
• Use of IPA (Isopropyl alcohol) should be used sparingly.
3
Precautions for disassembly and adjustment
• Before disassembling the machine, disconnect the power cord from the wall
outlet.
Note : FP-D450/D600 only
Bofore disconnecting the power cord, please open the front door and
exit door.
• After taking the unit apart, do not attempt to operate the machine.
• When operating the machine with covers removed, be careful to avoid clothing
being caught by moving components.
• When electricity is applied, the connectors on any P.C.B. must not be connected
or disconnected.
3-1
Preventive
Maintenance
3.1 Precautions for Preventive Maintenance Service
• Using a vacuum cleaner for the cleaning of the TDC sensor could cause
electrostatic damage, therefore, use a blower brush or cotton swab for the
cleaning of these parts. Before vacuuming the developer unit remove the TDC
sensor.
• When handling the drum, the precautions listed in section 1.9 “Precautions
with consumables” should be followed.
• Make sure to use the correct screw sizes.
• Use toothed lock washer for the installation of ground wires to secure electrical
continuity.
• To re-assemble, reverse the sequence of disassembly, unless otherwise stated.
• Blown fuses should only be replaced with fuses of the specified rating.
4 Precautions for handling lasers
The laser optical system employed by this photocopier is completely sealed by
a protective housing and an external cover. Therefore, the laser beam will not
stray or leak during photocopier use. However, when servicing the photocopier,
take the following precautions:
1. Do not insert into the path of the laser, any screwdrivers or other tools that
have high reflectance properties.
2. Before servicing the photocopier, take off any watches, rings, or other metallic
objects that you may be wearing. (This is to avoid the danger of the laser
entering the eye by reflecting off the metallic object being worn.)
Since the laser beam cannot be seen with the naked eye, please follow the
above precautions for maximum safety.
5
The safety interlock switches
• The service technician may defeat the safety interlock switches by inserting a
interlock cheater into the opening of the switch cover.
• Be sure to remove the interlock cheater from the switch cover after completion
of service.
3-2
3.2 Precautions for handling
1.
Precautions for the restriction of the use of the hard disk in the digital copier.
Hard disk for this unit is exclusively for the Filing. Do not use for other purpose
by disassembling and/or reconnecting cables. In that case, Filing function may
fail.
2.
Data back up in the hard disk data
(1) In order to prevent damage or loss by destroying hard disk, it is
(2) If hard disk fails, it is necessary to replace whole drive equipment.
As it is not be possible to warranty or repair the saved data, always save
back up data.
3.
Precautions when the power switch of the digital copier is turned on / off.
Never turn the power switch off while the copier, printer ,DD file or Zip disk is
accessed (operation) or power switch is turned ON within 2 minutes.
This may cause the damage to the hard disk or Zip disk, and the data in the
disk may be destroyed.
(If the power switch is turned off, wait at 15 seconds before turning the power
switch back on. If data in the hard disk or Zip disk should be destroyed on that
time, Panasonic will not bear any responsibility.)
4.
When the digital copier is in operation, especially hard disk or Zip drive is in
operation or just after the turning off the power switch (approx. 10 sec.), do not
move the digital copier. (Wait until hard disk comes to completely stop.)
3-3
Preventive
Maintenance
recommended to save the data into external memory (Zip disk) regularly
for backup purpose.
5.
Caution for Zip disk
(1) In order to prevent lose of important data, keep backup disk.”
(2) Be careful handling disk and observe the following points.
• Do not disassemble the disk.
• Do not open the shutter of the disk.
Shutter
• Do not touch the shutter of the disk.
• Do not put any foreign object or dirt into
the disk.
• Do not expose direct sun light or leave high
Zip Disk
humidity condition of more than 80 %.
• Do not place the disk where the magnetic
field is more than 30 Gauss.
• Remove the disk before turning off the power switch of the Digital copier,
when disk to be removed from the disk drive.
6.
Precautions for back up battery (Chargeable Ni-Cd battery)
(1) When the message of ‘Back up in progress’ disappears immediately by
turning off the power switch without using the hard disk drive and/or Zip
drive, the battery charge is required.
(2) In order to charge back up battery, it is recommendable to turn on the
Digital copier when the digital copier is not in use for a long time. (more
than 48 hours)
3-4
3.3 Maintenance chart
1. Replacement (For FP-D250)
Item
Service
Part number
Q'ty per Maintenance cycle (x 1000)
Multi feed
Paper feed roller(bypass)
FFPMA05411
1
X
bypass
Paper feed roller(Cassette) FFPMA05411
2
X
unit /
DFP Roller(bypass)
FFPMA05411
1
X
Paper feed
DFP Roller(Cassette)
FFPMA05411
2
X
unit
Pick-up roller(bypass)
FFPMA0542
1
X
Pick-up roller(Cassette)
FFPMA0542
2
X
Cleaning sheet
FFPHK0951
2
Registration roller
FFPMA0539
1
120
240
360
480
600
X
Replace at 1,080,000 copies.
Registration roller bearing
FFPMQ0559
2
Middle roller
FFPMA05451
1
Developer / Cleaning blade
FFPXG65L00
1
Replace at every 80,000 copies.
Drum unit
Charge corona
FFPXG60L00
1
Corona wire
FFPXL05H00
1
Developer
FQ-ZL20
1
Drum
FQ-HL20
1
Side seal (Front)
FFPXG51L00
1
Side seal (Rear)
FFPXG50L00
1
Waste toner bottle
FFPQA0165
1
Toner dispersion cover
FFPXG13L00
X
1
X
Magnetic roller stopper (Front) FFPXG06H001
1
X
Magnetic roller stopper (Rear) FFPXG07H001
1
Fuser
Separation finger (Upper)
FFPLK0230
5
X
unit
Separation finger (Lower)
FFPLK0231
2
X
Thermister
FFPBL0015
1
X
Fuser lamp (850W)
H12V085WN2A
1
X
H24V085WN2A
1
X
Cleaning web roller
FFPKM013431
1
Heat roller
FFPMA0577
1
Heat roller bearing
FFPMQ0584
2
X
Heat roller gear
FFPMF1080
1
X
Pressure roller
FFPMA04181
1
Pressure roller bearing
FFPMQ0573
2
Heat-insulating bushing
FFPJF0037
2
Optics
Exposure lamp
CFXP14AYG36A
1
unit
Filter A
FFPHJ0048
1
X
(For North America)
Fuser lamp (850W)
(Except for North America)
X
X
X
X
X
Replace at 720,000 copies.
X
(to be continued)
3-5
Preventive
Maintenance
unit
Item
Service
Part number
Main
Ozone filter 1
FFPHJ00472
1
X
body
Ozone filter 2
FFPHJ0039
1
X
Ozone filter 4
FFPHJ0051
1
X
Discharge lamp
PQ24V8.7WMG1
1
X
Transfer/Separation corona
FFPVL01L01
1
X
Corona wire 1
FFPXL04H00
1
Corona wire 2
FFPXL05H00
1
Dust protection filter
FFPHJ0049
1
Drum Separation finger
FFPLK0332
1
ADU
Paper feed roller
FFPMA0558
1
(Option)
Paper feed pad
FFPKP00821
1
X
DFP roller
FFPMA0559
1
X
F/R mylar
FFPXD07J004
1
X
Storage roller
FFPMA0557
2
unit
3-6
120
240
X
X
X
X
360
480
600
2. Replacement (For FP-D350/D350H)
Item
Service
Part number
Multi feed
FFPMA05411
1
X
bypass
Paper feed roller(cassette)
FFPMA05411
2
X
unit /
DFP Roller(bypass)
FFPMA05411
1
X
Paper feed
DFP Roller(cassette)
FFPMA05411
2
X
unit
FFPMA0542
1
X
Pick-up roller(cassette)
FFPMA0542
2
X
Cleaning sheet
FFPHK0951
2
Registration roller
FFPMA0539
1
unit
120
240
360
480
600
X
FFPMQ0559
2
Middle roller
FFPMA05451
1
FFPXG65L00
1
Drum unit
Charge corona
FFPXG60L00
1
Corona wire
FFPXL05H00
1
Developer
FQ-ZL20
1
X
Drum
FQ-HL20
1
X
Side seal (Front)
FFPXG51L00
1
X
Side seal (Rear)
FFPXG50L00
1
X
Waste toner bottle
FFPQA0165
1
X
FFPXG13L00
1
X
1
X
1
Fuser
FFPLK0230
5
X
unit
FFPLK0231
2
X
Thermister
FFPBL0015
1
X
Fuser lamp (850W)
H12V085WN2A
1
X
H24V085WN2A
1
X
Cleaning web roller
FFPKM013431
1
Heat roller
FFPMA0577
1
Heat roller bearing
FFPMQ0584
2
X
Heat roller gear
FFPMF1080
1
X
Pressure roller
FFPMA04181
1
FFPMQ0573
2
FFPJF0037
2
Optics
Exposure lamp
CFXP14AYG36A
1
unit
Filter A
FFPHJ0048
1
X
X
Preventive
Maintenance
X
X
(For North America)
Fuser lamp (850W)
X
X
X
X
X
X
(to be continued)
3-7
Item
Service
Part number
Main
Ozone filter 1
FFPHJ00472
1
X
body
Ozone filter 2
FFPHJ0039
1
X
Ozone filter 4
FFPHJ0051
1
X
Discharge lamp
PQ24V8.7WMG1
1
X
FFPVL01L01
1
Corona wire 1
FFPXL04H00
1
X
Corona wire 2
FFPXL05H00
1
X
FFPHJ0049
1
FFPLK0332
1
ADU
Paper feed roller
FFPMA0558
1
(Option)
Paper feed pad
FFPKP00821
1
X
DFP roller
FFPMA0559
1
X
F/R mylar
FFPXD07J004
1
X
Storage roller
FFPMA0557
2
unit
3-8
120
240
360
X
X
X
X
X
480
600
3. Replacement (For FP-D450/D600)
Item
Service
Part number
Multi feed
FFPMA05411
1
X
bypass
Paper feed roller(cassette)
FFPMA05411
2
X
unit /
DFP Roller(bypass)
FFPMA05411
1
X
Paper feed
DFP Roller(cassette)
FFPMA05411
2
X
unit
FFPMA0542
1
X
Pick-up roller(cassette)
FFPMA0542
2
X
Cleaning sheet
FFPHK0951
2
Registration roller
FFPMA0539
1
FFPMQ0559
2
Middle roller
FFPMA05451
1
FFPXG65L00
1
Drum unit
Charge corona
FFPXG60L00
1
Corona wire
FFPXL05H00
1
Developer
FQ-ZL20
1
X
Drum
FQ-HL20
1
X
Side seal (Front)
FFPXG51Q60
1
X
Side seal (Rear)
FFPXG50Q60
1
X
Waste toner bottle
FFPQA0165
1
FFPXG13L00
1
X
1
X
1
Fuser
FFPLK0331
5
unit
FFPLK0231
5
Thermister
FFPBL0015
1
X
Fuser lamp (950W)
H12V095WN2A
1
X
H24V095WN2A
1
X
FFPKM013431
1
120
240
360
480
600
X
X
X
X
Preventive
Maintenance
unit
X
X
X
(For North America)
Fuser lamp (950W)
Cleaning web roller
X
Cleaning web pressure roller FFPMA0470
1
Heat roller
FFPMA0566
1
X
Heat roller bearing
FFPMQ0572
2
X
Heat roller gear
FFPMF1057
1
X
Pressure roller
FFPMA0565
1
FFPMQ0573
2
FFPJF0034
2
Fuser entry guide
FFPKF1308
1
Optics
Exposure lamp
HCS148YG366A
1
unit
Filter A
FFPHJ0048
1
X
X
X
X
(to be continued)
3-9
Item
Service
Part number
Main
Ozone filter 1
FFPHJ00532
1
X
body
Ozone filter 2
FFPHJ0039
1
X
Ozone filter 4
FFPHJ0055
1
X
Ozone filter 5
FFPHJ0056
1
X
Discharge lamp
PQ24V10WMG1
1
X
FFPVL01Q611
1
Corona wire 1
FFPXL04H00
1
X
Corona wire 2
FFPXL05H00
1
X
FFPHJ0049
1
FFPLK0332
1
ADU
Paper feed roller
FFPMA0558
1
FP-D250
Paper feed pad
FFPKP00821
1
X
/D350
DFP roller
FFPMA0559
1
X
/D350H
F/R mylar
FFPXD07J004
1
X
(Option)
Storage roller
FFPMA0557
2
unit
3-10
120
240
360
X
X
X
X
X
480
600
3. 4 Cleaning Method
• Cleaning method for each PM service visit is shown below.
17
24
23
14
19
18
21
9
8
22
1
2
3
7
4
28
5
15
16
13
11 25
20
12
6
3-11
Preventive
Maintenance
27
26
10
27
Paper feed unit
Cleaning position
1 Sheet bypass paper
transfer roller
2 Sheet bypass paper
feed roller
3 Registration roller
4 Middle roller
5 Paper feed roller
6 Pick up roller
7 Cleaning sheet
Fuser unit
Developer unit
8 Corona wire
9 Corona grid / Corona
case
Tool/solvent
Cloth with
water / IPA
Work/precaution
- Use IPA, if toner is stuck on the
rollers. (use sparingly)
- Do not use cotton for cleaning
Brush / IPA
- Remove paper dust by brushing
it.
Cloth with
water
- If not replaced at PM cycle, high
voltage leak may occur.
- Insure that the wire does not sag and
is not kinked.
- Do not use cotton for cleaning.
10 Lower developer frame Brush /
Dust cover
Vacuum
cleaner /
Cloth with
water
11 Transport belt
12 Transfer corona wire /
Corona case/
Transfer guide plate
13 Fuser guide plate
14 Fuser thermister
15 Fuser separation finger
(upper/lower)
Cloth with
water
16 Fuser heat roller /
pressure roller
Cloth
Cloth
Cloth
Cloth
- Lift the developer unit (mag-roll
side) up 45°, and rotate mag-roller
knob 4~5 times counterclockwise.
Remove the toner dust on lower
developer frame by brush or
vacuum cleaner.
- Clean the lower developer frame
with cloth.
- Use damp cloth.
- Remove toner dust on separation
fingers.
- Don’t damage separation finger
edges.
- Use IPA, if the rollers are very
dirty.
(to be continued)
3-12
18 Lens
19 Original size detecting
sensors
Blower
brush Cloth
with water
20
21
22
23
24
25
26
27
Cloth/Blower
brush
Copy density sensor
Discharge lamp filter
Slit glass
Platen glass
Platen mat
Ozone filter
Dust collection filter
Outer cover
28 Paper feed roller
Duplex unit
Tool/solvent
Work/precaution
Blower
- Exercise caution when cleaning
brush /
otherwise the mirror surface may
Glass
get damaged
cleaning
- Clean with soft paper and IPA as
paper with
required.
IPA
- Clean the dust off of the sensors.
IPA
IPA
Cloth
Preventive
Maintenance
Main body
Optics unit
Cleaning position
17 Mirror (No.1 ~ 3)
Vacuum
cleaner
Cloth with
water /
Neutral
detergent
Cloth with
water / IPA
- Same as paper feed unit
3-13
3. 5 Disassembly
PM parts replacement procedure
• The replacement procedure of PM parts is as shown below.
Fuser Unit
3-25
Multi-feed
bypass
3-15
Optics Unit
3-30
Main body
3-36
ADU middle
roller unit
3-18
(Option)
ADU
Paper feed
Unit
3-18
3-33
Developer
Unit
3-21
Drum Unit
3-14
1. Multi-feed bypass
Cycle
D250 D350 D450
Part name
Item
D350H D600
1 Pick up roller
3
1
2
120K 120K 120K
2 Paper feed roller 120K 120K 120K
3 DFP roller
120K 120K 120K
4 Registration roller 1080K 1080K 1080K
5 Registration roller 1080K 1080K 1080K
4, 5
bearing
600K 600K 600K
6
Preventive
Maintenance
6 Cleaning sheet
Caution
Magnet clutch
Hook
Hook
“D” cut
“D” cut
Welded point
(Front view)
(Side view)
Welded point
When removing the magnet clutch, push the hook 1 , out of the slot and slide
the magnet clutch in the direction of arrow 2 , in order to avoid damage to
welded point damage.
3-15
1) Removal of the pick-up roller/paper feed roller
1
(1)Remove the right cover (2 screws)
(2)Remove the screws and covers. (x 2)
(3)Disconnect the harness.
3
2
(4)Remove the bypass tray.
2
4
2
(1)Remove the touch ring.
7
(2)Remove the paper stopper.
(3)Remove the sensor lever.
(5)Remove the pick-up roller
5
1
3
4
(7)Remove the paper feed roller.
2
SV103
2) Removal of the DFP roller
3
(1)Perform procedure 1. (above)
(2)Open the copier paper feed door.
(3)Press the DFP roller down then remove
touch ring.
(4)Remove the DFP roller.
4
3-16
3
Removal of the registration roller and cleaning sheet
4
3
4
5
3
5
2a
5
1) Remove the right side and rear covers.
2) Open the front door.
a) Remove the waste toner bottle.
b) Swing the toner hopper open 180°.
3) Rotate the developer release knob clockwise.
4) Remove the drum unit. (2 screws and 1
connector.)
5) Remove the connector and developer unit.
1) Open the copier paper feed door and
1b
2
disconnect the door link.
a) Remove the knob (One screw) on the
1a
registration roller.
b) Disconnect the harness.
2
2) Remove the bypass unit (Two screws).
1
6
1) Remove the top cover (Two screws).
2) Remove the tension spring (X 2).
1
3) Remove the upper registration roller.
4) Remove the paper guide plate (Two
screws).
2
5
5) Remove the E rings (front and rear).
8
3
6
6) Remove the drive gear, clutch, and E ring.
7) Remove the right bushing support plate
2
5
and bushing (1 screw).
8) Remove the Lower registration roller.
7
1) Remove the cleaning sheet underneath
the lower registration roller.
2
2) Remove the cleaning sheet on the top
cover.
3) Remove the registration roller.
1
3-17
Preventive
Maintenance
3)
2. Paper feed unit
Cycle
Item
3-18
Part name
1 Paper feed roller
D250 D350 D450
D350H D600
120K 120K 120K
2 Pick-up roller
120K 120K 120K
3 DFP roller
120K 120K 120K
4 Middle roller
1080K 1080K 1080K
2
1
3
4
1)
Removal of the paper feed roller and the Pick-up roller
1
1) Remove the right side and rear cover.
3
2) Open the copier paper feed door.
3) Remove the paper feed door link.
4) Remove the copier paper feed door.
1
Note: Move the link to the larger hole and
remove.
2
SV201
2
1) Disconnect the harness of the paper feed
unit.
2) Remove the paper feed unit (4 screws).
2
3
1) Remove the touch ring.
2) Remove the bracket guide.
3
3) Remove paper feed roller.
4) Remove the pick-up roller.
1
4
2
3-19
Preventive
Maintenance
1
2) Removal of the DFP roller
4
1) Perform procedures 1 and 2.
2) Remove the lower roller cover (2 screws)
3) Remove the touch ring.
4) Remove the DFP roller.
2
4
3
3) Removal of the Middle roller
5
2
2) Remove the E ring gear on middle roller.
3) Remove the touch ring and bushing.
4) Slide and remove the middle roller.
3
4
3
3-20
3. Developer unit
Cycle
Part name
D250 D350 D450
D350H D600
1 Cleaning blade
80K
120K 120K
2 Drum
80K
120K 120K
3 Side seal (Front)
80K
120K 120K
3 Side seal (Rear)
80K
120K 120K
4 Corona charger
240K 360K 360K
5 Developer
80K
120K 120K
6 Charge corona
80K
120K 120K
7 Toner dispersion 600K 600K 600K
cover
8 Magnetic roller
stopper (Front)
600K 600K 600K
9 Magnetic roller
stopper (Front)
600K 600K 600K
4
7
6
8 9 5
1
3
2
Preventive
Maintenance
Item
3-21
1)
Removal of the cleaning blade
1
1) Open the front door.
2) Move the toner hopper to front side.
3) Rotate the developer release lever
clockwise and remove the developer unit.
2
1
2
3
5
1
2
4
3
1) Remove the drum unit solenoid cover
(1 screw).
2) Disconnect the harness.
3) Remove the drum fixing screw.
4) Open the waste toner bottle cover and
remove the bottle.
5) Remove the drum unit.
1) Press the tabs of the drum unit lid toward
1
arrow mark to remove the lid.
4
1) Remove the cleaning blade tension
spring.
2
2) Remove the blade case (1 screw).
3) Remove the cleaning blade.
3
Note: • Before replacing the cleaning blade,
put drum starting powder on the
1
drum surface and cleaning blade.
(lightly and evenly)
• After replacing the cleaning blade, do
not forget to reinstall the tension
spring.
3-22
2) Removal of the Drum / Side seals
5
3
4
6
1) Remove the side seals (Front and Rear).
2) Clean the surface of drum unit frame then
replace the side seals (Front and rear).
3) Clean the copy density sensors.
Adjustment after replacing new drum
a. Enter the service mode.
b. Select and run F8-14.
c. Check copy quality and adjust if necessary.
d. Exit the service mode.
3)
Removal of the charge corona unit.
7
1) Perform procedures 1 and 2 and remove
the drum unit.
2) Remove the corona fixing screw and
remove the charge corona assembly.
3) Remove the grid (3a), mylar (3b) and
corona wire (3c).
2
3b
3a
3b
3c
3-23
Preventive
Maintenance
1) Perform procedures 1 and 2 and remove
the drum unit.
2) Remove the drum cleaning blade tension
spring.
3) Remove the front side screw on the drum shaft.
4) Remove the drum shaft and drum spacer
(Front).
5) Remove the drum.
6) Remove the drum spacer (Rear).
Note: Be careful not to touch the surface of
the drum.
5
4) Removal of the developer
8
2) Remove the developer unit and remove
the mixer lid.
3) Dump the developer out of the unit.
2
Note: Before vacuuming the developer unit
remove the TDC sensor.
4) Vacuum any remaining developer on the
magroller and inside of the developer unit.
5) Remove the developer unit duct cover and
clean inside.
SU001
6) Pour in the new developer.
Note: Reinstall TDC sensor before installing
new developer.
Shake the developer bottle and pour it
into the developer unit evenly.
Adjustment after replacing developer
a. Enter the service mode.
b. Select and run F8-09.
5
c. Write the contents of F6-21 and 26 on the
memory sheet.
d. Exit the service mode.
5) Removal of the toner dispersion plate/magnetic roller stopper
9
(1)Perform procedures 1 and 2 then remove
the developer unit.
(2)Remove 2 screws on the toner dispersion
plate.
2
2
(3)Remove the toner dispersion plate.
3
(4)Remove the magnetic roller stoppers
4
4
3-24
(front/rear) .
4. Fuser unit
Cycle
Part name
D250 D350 D450
D350H D600
1 Cleaning web roller 120K 120K 120K
2 Fuser lamp
240K 240K 240K
3 Heat roller
240K 240K 360K
12 1
7
3
2
5 Heat-insulating bushing 360K 360K 360K
8
6 Heat roller gear
600K 600K 600K
9
4
5
6
7 Thermistor
240K 240K 240K
4 Heat roller bearing 600K 600K 600K
8 Separation finger
(upper)
120K 120K 480K
10
13
11
Preventive
Maintenance
Item
9 Separation finger
(lower)
120K 120K 120K
10 Pressure roller
480K 480K 480K
11 Pressure roller
bearing
600K 600K 600K
12 Web pressure
roller
—
—
1200K
13 Fuser entry guide
—
—
1200K
3-25
1)
Removal of cleaning web
1
(1) Open the front door.
(2) Swing the toner hopper to the right.
4a
1
(3) Remove the fuser unit manual paper feed
3
5
5
2
knob. (1 screw reverse threaded)
(4) Remove the front cover.
4b
a) Remove the band.
4b
b) Remove the hinge pins.
(5) Remove the fuser unit front cover (2 screws).
2
(1) Disconnect the fuser unit connector (x 2).
(2) Open the two cable clamp (x 2).
3
(3)Open the paper exit unit.
1
(4)Remove the fuser bracket (3 screws).
(5) Carefully slide the fuser unit out of the
2
front of the machine.
1
2
4
1
3
1
(1) Remove the web ass'y bracket screw
(x 2).
(2) Slide the web ass'y to the right and
remove.
4
(1) Remove the bushings (2 screws) and
rollers (x2).
(2) Install the new web.
(3) Make sure to remove the slack in the
supply roller.
2
normally.
1
1
3-26
(4) Make sure the take-up drive is working
2) Removal of the fuser lamp/heat roller/heat roller bearing/insulating bushing/heat
roller gear
1
5
• Perform procedures 1and 2.
(1)Remove the screws (x 4)
1
(2)Remove the heat insulating cover.
Note: Loosen pressure screws (x 2)
2
6
FP-D250/
D350/D350H
(1)Remove the spring.
3
(2)Open the fuser lamp cover.
850 W
Preventive
Maintenance
SV
(3)Remove the fuser lamp.
2
3
1
950 W
400 W
FP-D450/D600
7
(1) (2) Remove the screws and take off the
3
2
thermistor and thermostat blocks.
4
(Lift the thermostat and slide to the front.)
1
1
3
(3)Remove the pressure screws (x 2).
(4)Remove the roller pressure plates.
(5)Remove the heat roller.
4
5
8
(1)
1
Remove the heat roller gear, bearing
insulating bushing, and heat roller stopper.
Note: After reassembling and tightening the
screws of the pressure springs, check
the pressure roller for fit.
3-27
3) Removal of the thermistor
9
• Perform procedure 5.
(1) Remove the two screws. 1 2
(2)Remove the thermistor. 3
1
SV507
3
2
4) Removal of the separation fingers (upper/lower)
10
(1)Open the fuser exit door.
3
(2)Remove the screws (x 2).
(3)Remove the separation finger (upper)
bracket.
2
(4) Remove the separation fingers (upper)
springs.
(5) Remove the separation fingers (upper).
1
2
5
5
4
11
(1)Remove the screw (x1) and fuser exit
cover pin then remove the exit cover.
(3)Remove the paper guide.
2
2
3-28
1
11
(4)Remove the springs.
5
(5)Turn the separation fingers and remove
them.
5
4
4
Removal of the pressure roller/roller bearings
• Remove the heat roller (refer to step 5 to
12
7).
• Remove the upper / lower separation
3
1
1
2
finger brackets (refer to 10 and 11).
Note: Mark the current height adjustment to
use as a reference during reassembly.
(2)Remove the entry guide.
(3)Remove the pressure roller.
(4)Remove the roller bearing.
3-29
Preventive
Maintenance
5)
SV506
5. Optics unit
Item
Part name
Cycle
D250 D350 D450
D350H D600
1 Exposure lamp
720K 720K 720K
2 Filter A
120K 120K 120K
3 Full speed unit
drive belt
4 Half speed unit
drive belt
5 Optics drive belt
: As required
3-30
1
2
3 4 5
1)
Removal of exposure lamp
1
(1)Enter the service mode.
3
(2)Perform F8-00
3
(3)Remove top right cover. (2 screws)
(4)Remove two screws on the original guide
4
Note: When the conductive platen glass
4
is installed, the grounding plate
screw must also be removed.
(5)Remove platen glass with original guide
plate.
2
(1)Remove lamp stoppers (front/rear)
Note: A small flat blade screwdriver must be
used to remove the lamp holder spring
plates.
3
1
(1)Open the inverter case (2 screws).
1
(2)Disconnect the exposure lamp connector.
(3)Remove the exposure lamp connector
bracket (1 screw).
(4)Remove the exposure lamp bracket.
(5)Remove the exposure lamp.
3-31
Preventive
Maintenance
plate.
2) Removal of dust filter A
1
(1)Remove the platen cover (or Sheet
Feeder/I-ADF if installed).
(2)Remove the top rear cover (2 screws).
2
(3)Disconnect the lattice connectors of any
4
4
options (System Console and LCC).
(4)Remove the rear cover (4 screws).
4
4
Peel off the filter A and replace them with
new ones.
3) Removal of laser unit (LSU)
(1)Open the front door.
3
(2)Remove the slit glass.
(3)Remove two screws on the original guide
3
plate.
Note : When the conductive platen glass
is installed, the grounding plate
screw must also be removed.
(4)Remove platen glass with original guide
4
plate.
4
(5)Remove the LSU PCB cover (2 screws).
4
(6)Remove the lens unit cover (3 screws, 2
connectors).
(1)Remove the laser unit.
5
5
(4 screws, 3 connectors)
Note : After replacing new unit, laser
5
5
power adjustment is required.
Refer to Laser power adjustment
procedure in the Adjustment
section.
3-32
6. Automatic duplex unit (ADU) (Option)
Part name
Cycle
1 Paper feed roller
24K
2 Storage roller
48K
3 F/R mylar
24K
4 Paper feed pad
24K
5 DFP roller
24K
1
2
4
3
5
Preventive
Maintenance
Item
: Actual number of duplex copies mode (F7-09)
3-33
1)
Removal of the paper feed roller/storage roller/F/R mylar/feed roller pad
3
1
(1) Pull out the ADU until it stops.
2
(2) Remove the upper cover (2 screws).
(3) Open the transport guides (1 and 2).
1
2
4
(4) Remove the screws (x 2).
(5) Remove the stopper plate.
6
(6) Remove the touch rings from the guide
10
8
6
plates.
(7) Disconnect the feed clutch connector.
(8) Remove the touch rings (x2).
5
9
9
(9) Move the bearing toward the feed rollers.
(10)Remove the paper feed roller shaft.
3
(1) Remove the touch ring.
2
1
1
2
Note: Remove all of the rollers by sliding them
in the direction of arrow.
(2) Remove the paper feed roller.
4
(1)Perform steps (1) through (10), above.
(2)Take off the F/R mylar assembly.
Note: Remove paper feed roller first.
3-34
5
(1)Perform procedure 1.
(2)Open transport guides 1 and 2.
(3)Peel off the paper feed pad and replace.
Removal of the DFP roller
6
Preventive
Maintenance
2)
(1)Perform procedure 1.
(3)Remove the DFP roller block.
3
2
7
(1)Remove the touch rings (x 2).
(2)Remove the bearing.
(3)Remove the roller shaft.
(4)Remove the DFP roller.
Note: When installing the DFP roller, the
marked edge should face the front of
1
1
the machine.
4
3-35
7. Main body
Item
Part name
Cycle
D250 D350 D450
D350H D600
1 Corona wire 1
80K
120K 120K
2 Corona wire 2
80K
120K 120K
3 Ozone filter 2
240K 240K 240K 4•8
4 Ozone filter 1
240K 240K 240K
5 Dust protec filter
(Main body)
80K
7 Discharge lamp 240K 240K 240K
240K 240K
—
9 Drum Separation finger 240K 360K 360K
3-36
5
120K 120K
6 Transfer corona 240K 360K 360K
8 Ozone filter
10•11 7
10 Ozone filter 4
—
—
240K
11 Ozone filter 5
—
—
240K
3
9
6
2 1
1) Removal of the corona wire
1
(2)Turn the transport lever and lower the
transport unit.
(3)Press down the transfer corona unit and
draw it toward you.
2
3
2
2
(1)Remove the paper guide. (2 screws)
Preventive
Maintenance
(2)Remove the corona covers.
(front and rear)
1
2
3
(1)Remove the corona wire spring.
1
(2)Unfasten the corona wire.
1
3-37
2)
Removal of the ozone filter 1, 2, 4 and 5
4
(1)Remove the rear cover. (4 screws)
(2)Remove the ozone filter 2.
(Rear side)
2
(Left side)
5
Ozone filters
(2)Open the exit door.
(3)Remove the filter holder (2 screw).
(4)Remove the ozone filter 1and 4.
(Ozone filter 4 : FP-D250/D350/D350H)
6
Only FP-D450/D600
Pin
Toner hopper unit
(1)Perform the procedures of the fuser unit
removal and remove the fuser unit.
a) Open the toner hopper unit.
b) Remove the pin.
c) Remove the manual paper feed knob.
d) Remove the inner cover 2.
Inner
cover 2
Manual paper feed knob
Ozone filter 5
Ozone filter 4
Ozone duct 2
3-38
e) Remove the fuser unit.
(2)Remove the ozone filter 4 and 5.
3)
Removal of the dust collecting filter
7
(1)Remove the copier rear and right side
covers.
(2)Remove the dust collecting fan motor
block.
(3)Remove the dust collecting filter.
Replacement of the discharge lamp.
8
3
(2)Swing open the toner hopper 180°.
(3)Remove 1 screw.
(4)Disconnect the harness.
4
(5)Remove the lamp holder.
(6)Remove the discharge lamp (Filter and 3
screws).
5)
Removal of the drum separation finger
9
(1)Remove the drum unit.
(2)Disconnect the sensor harness.
(4)Side the sensor base to rear side then
3
put it down and pull out.
2
4
(5)Remove the sensor PCB from under side.
(6)Push the A from under side and slide the
5
A
separation finger then remove it.
6
Note: Be careful when removing and
6
reinstalling the drum finger that the two
springs are not lost or damaged.
(7)Reassemble in reverse order.
3-39
Preventive
Maintenance
4)
3.6 Removal of back up battery
The Nickel-Cadmium Battery, under various state and local laws is recyclable and it
may be illegal to dispose of the battery into municipal waste streams. Check with
your local solid waste officials for details area for recycling options or proper disposal.
Location
Procedure
Check
1
(1) Turn off the power switch and
unplug the digital copier.
2
(1) Remove the rear cover.
(7 screws)
3
(1) Remove the battery cover.
(2) Disconnect the battery
connector.
(3) Remove the back up battery.
3-40
Part Item
Main
Optics
Corona
Copy density sensor
Drum
Developer
Drum & Developer
Exposure Lamp
Copy density sensor
TDC sensor
Developer unit
Corona
Platen glass
Laser Unit
CPU PCB
1
1
1
1
1
F6-17
Grid
Yes
—
F6-18
Laser
Yes
—
F6-19
Bias
Yes
—
*2 F6-28, 29 should not be adjusted in the field. (Must be set to ‘0’)
Digital
QUANTUM (QUARC) ON/OFF
Digital QUANTUM (QUARC) : ON (F5-25=1)
Digital QUANTUM (QUARC) : OFF (F5-25=0)
1
3
2
2
Add on Digital QUANTUM
(QUARC) compensation
1
1
1
2
1
1
2
3
3
2
3
3
2
4
3
2
2
2
2
2
3
2
Preventive
Maintenance
Auto adjustment by Digital
QUANTUM
(QUARC) (Read only)
F6-82
F6-80
Grid
Laser
Yes
Yes
—
—
1
1
1
2
2
1
2
Replace Developer
Manual adjustment
(Digital QUANTUM (QUARC)
off)
F6-95
F6-96
F6-97
Laser
Grid
Bias
—
—
—
Yes
Yes
Yes
4
4
3
4
4
3
5
4
3
3
3
3
3
4
3
Optics Copy TDC Copy Laser Power Laser
Copy Copy
OFF/
Quality Density
clean Density Adj. Density Unit
Unit
ON
PWM check Adj.
Sensor F8-09 Sensor PWM
Adj.
Adj.
value Adj.
F6-49,
clean
F8-14 F8-18
F6-39
50, 51
*1 Copy quality adjustment related F6 service codes.
Work
No.
1 Installation
2 Cleaning
3
4
5 Replace
6
7
8
9
10
11
12
13
14
15
Adjustment
When the following items are replaced or cleaned, perform the following adjustments in correct order.
3. 7 Adjustment
3-41
1. Exposure Standard Adjustment
Location
Procedure
A
1
Not visible
2
Clearly
visible
3
3-42
• The following values will be added to the
reference value. DO NOT adjust these
codes in the field.
F6-17 : Grid standard voltage compensation
F6-18 : Laser power compensation
F6-19 : Developer bias standard voltage
compensation
(1) Enter the F6 mode.
(2) Ensure that F6-17, 18 and 19 to "0".
(3) Enter the F2 mode and set the exposure
to the center position
Set the machine to Text / Photo mode.
(4) Make a copy of Test Chart 53/54 with gray
scale (P/N FQ-SJ1011).
a) Gray scale “1” should not be visible.
b) Gray scale “2” should be clearly visible.
Note: Skip to step 11 if the density is within
the specification.
(5) Enter the F6-50 mode.
(6) Enter the new content.
Note: The “Reset” key is used to enter the
“–” content.
(+): Lighter side
(–): Darker side
(7) Press the “OK” key, then press "Start" key.
(8) Press the “Stop” key twice.
(10)Make a copy to confirm the adjustment
Note: Repeat step 3 to 10 until the proper
density is attained.
F6-49 : Text mode
F6-51 : Photo mode
(11)Press the “User Preset” and “Clear” keys
simultaneously to exit the service mode.
2. Copy density Sensor contamination adjustment
Procedure
• The following adjustment is required when
the drum is replaced.
(1) Remove the old drum from the drum
housing.
(2) Clean the Image Density Sensor with a
blower brush or Q-tip.
(3) Install the new drum.
(4) Enter the service mode.
(5) Enter service mode F8 and select code
"14".
(6) Press the "Start" Key. This procedure will
take approximately 30 seconds to complete.
(7) Press the "Stop" key twice to return to F
mode.
(8) Press the "6" key
(9) Select F6-65 and record the contents on
the RAM data sheet.
3-43
Preventive
Maintenance
Location
3. Skew / Side to side Adjustments (Printer Section)
Location
Procedure
Skew adjustment
If skew of the copy is experienced and
adjustment of the cassette has not proved
effective, follow the procedure described
below.
(1) Place Ledger/A3 size paper in the sheet
bypass tray.
(2) Enter the service mode and select mode
"8".
(3) Select F8-50 and press start.
(4) Check the image for skew.
(5) Adjust F6-41 - 44, depending on the
source of the skew, to adjust the paper
loop at the timing roller.
(more loop / less loop)
3
Adjustment of laser unit position for skew
adjustment
If the skew is still not resolved perform the
following adjustment.
3
(1) Perform steps 1-5 above.
(2) Remove the platen glass.
(Refer to the removal procedure for the
exposure lamp)
(3) Remove the LSU PCB cover (2 screws).
(4) Remove the lens unit cover (3 screws).
(5) Loosen the laser unit mounting screws
and adjust accordingly. (4 screws)
(6) Reassemble in reverse order.
4
4
5
5
3-44
4
5
5
Location
2
Screw
Sheet by-pass tray
3
Procedure
Side to side adjustment
(Manual Procedure)
(1) Perform steps 1-3 in the Skew adjustment
section. (Page 3-44)
(2) Adjust the position of the sheet bypass
guide to achieve proper side to side
registrasiton.
(3) Adjust the position of the cassette front
cover to achieve proper side to side
registration.
Preventive
Maintenance
3
NOTE: This procedure should be used ONLY
if the manual procedures listed above
fail to achieve the proper side to side
registration.
(1) Perform steps 1-3 in the Skew adjustment
section.
(2) Measure the distance between the left
edge of the paper and the nearest black
line.
3-45
Location
Contents
-4
-3
-2
-1
0
1
2
3
4
Function
Move 2.0 mm to the left
0.0 mm
Move 0.5 mm to the right
Procedure
(3) Adjust F6-84 as necessary using the steps
outlined below.
(4) If the distance between the left edge of
the paper and the nearest black line is less
than 5 mm input a positive number, using
the chart in the left as a reference.
(5) If the distance between the left edge of
the paper and the nearest black line is
more than 5mm, input a negative number,
using the chart in the left as a reference.
4. Skew / Registration Adjustments (Scanner Section)
Location
Procedure
NOTE: ADJUSTMENT OF THE CCD UNIT
SHOULD ONLY BE PERFORMED
IF ALL PRINTER SECTION
ADJUSTMENTS HAVE BEEN
EXHAUSTED.
(Original)
Image skew adjustment
Diagram 1
Diagram 2
3-46
(1)Scribe the CCD unit before loosening the
front screw.
(2)Loosen the front screw ONLY.
(3)Rotate the unit clockwise if the image skew
is similar to the image in diagram 1 left.
(4)Rotate the unit counterclockwise if the
image skew is similar to the image in
diagram 2 left.
Procedure
Registration Adjustment
(1)Make a copy of Test Chart 53/54.
(2)For adjustment of lead edge registration
when making a copy off the platen glass,
use F6-05.
(To advance the registration, input a more
(+) number)
(3)For adjustment of lead edge registration
when making a copy using the FA-A888,
use F6-36 and 37 to achieve proper
registration.
(To delay the registration, input a more (–)
number)
(4)For adjustment of lead edge registration,
when making a copy using the FA-A355,
use F6-91.
(+/–) = delay / advance
5. Lead edge / Trail edge void adjustment (Printer Section)
Location
Procedure
(1)Make a copy of Test Chart 53/54.
(2)Adjust the lead edge void using F6-07.
(+) = more void
(–) = less void
(3)Adjust the trail edge void by using F6-09.
(+) = less void
(–) = more void
3-47
Preventive
Maintenance
Location
6. Laser power (PWM circuit) adjustment
Note : This adjustment is required only when the Laser unit has been replaced.
Location
procedure
1)Place Ledger/A3 size paper in the
sheet bypass tray.
2)Enter the service mode and select
mode " 8 ".
(-5)
3)Select F8-18 and press the Start key
to make a test print.
(0)
4)Count the number of gray steps which
are visible in the F6-39 mode.
(+5)
Test print
No. of
gray scale
1
2
3
4
5
6
7
8
9
10
11
Value
in F6-39
+5
+4
+3
+2
+1
0
-1
-2
-3
-4
-5
Example :
As four gray steps can be seen in the
figure in the left, input '+2' in the F639.
3-48
Section IV PCB Connector and
Signal Information
4. 1 Glossary of electrical abbreviations
Function
AC 120V / AC 220 - 240V power supply
ADF original feed completed signal
ADF original feed control signal
Sheet feeder timing sensor input signal
ADF receive signal
ADF transfer signal
Laser A APC control signal
Laser B APC control signal
Sheet feeder drive motor drive clock signal
ADU detecting signal
Ground
Original size detecting sensor optics signal 1
Original size detecting sensor signal 1
Toner bottle motor drive signal A
Toner bottle motor drive signal A
Toner bottle motor drive signal B
Toner bottle motor drive signal B
Toner bottle home position detecting signal
Bias adjustment signal
Battery control signal
Copy density detecting signal
Paper base tone detecting signal
PCB Connector and
Signal Information
Signal Name
AC1
AC2
ADFIN
ADFOUT
ADFRRSN
ADFRX
ADFTX
ADJ10
ADJ2
ADMCLK
ADUSL
AGND
AOS1
AOS2
AOS3
AOS4
AOSS1
AOSS2
AOSS3
AOSS4
BMA
BMAB
BMB
BMBB
BPSN
BREF
BTCNT
CDSN1
CDSN2
4-1
Signal Name
COM
CRRSN1
CRRSN2
CT
DDFM
DOSN
DSAC1
DXLA
DXLAB
DXLB
DXLBB
DXMA
DXMAB
DXMB
DXMBB
DXMCA
DXMCAB
DXMCB
DXMCBB
DXOPSN
DXPESN
DXPSN1
DXPSN2
DXRRCR
DXWA
DXWAB
DXWB
DXWBB
ELP1
ENABLE0
EPACNT
EXFL1
EXFL2
EXFL3
EXFL4
EXFL5
EXFM1
4-2
Function
DC+24V power supply
Paper detecting signal
Total counter count signal
Developer cooling / Dust collection fan motor ON / OFF signal
Front door Open/Close detecting signal
Motor drive signal A
Motor drive signal B
ADU main motor drive signal A
ADU main motor drive signal A
ADU main motor drive signal B
ADU main motor drive signal B
ADU tray detecting signal
Paper pass sensor 1 paper detecting signal
Paper pass sensor 2 paper detecting signal
Clutch drive signal
Discharge lamp ON/OFF signal
Laser current control signal
Power supply control signal
Exhaust fan motor 1 lock detecting signal
Exhaust fan motor 5 lock detecting signal (FP-D450/D600)
Exhaust fan motor 1 ON / OFF signal
Function
Grid
binsfan
adgustment
signal
Exhaust
motor 2 ON
/ OFF signal
Hard
diskfan
cooling
motor
locksignal
F signal
Exhaust
motorfan
3 ON
/ OFF
Exhaust fan motor 4 ON / OFF signal
Exhaust fan motor 5 ON / OFF signal (FP-D450/D600)
Ground
Developer unit detecting signal
Ground
Grid bias adjustment signal
Hard disk cooling fan motor ON / OFF signal
Hard disk cooling fan motor ON / OFF signal
Bypass paper feed clutch ON / OFF signal
Solenoid ON/OFF signal (FP-D450/D600)
Shift tray transfer motor drive clock signal
Bypass paper detecting signal
Lamp unit home position detecting signal
Paper size detecting signal 1
Fuser lamp 1 ON/OFF signal
Fuser lamp 2 ON/OFF signal (FP-D450/D600)
Bias ON/OFF signal
Charge high voltage ON/OFF signal
Separation high voltage ON / OFF signal
Charge high voltage leak detecting signal
Separation high voltage leak detecting signal
Transfer high voltage leak detecting signal
Transfer high voltage ON / OFF signal
Inverse ADF receive signal
Inverse ADF transfer signal
Finisher communication receive signal
Ground
Finisher communication transfer signal
Ground
Inverse sorter receive signal
Inverse sorter transfer signal
Key counter connection detecting signal
Key counter count signal
Key counter count signal
EPA mode key input signal
PCB Connector and
Signal Information
Signal Name
EXFM2
EXFM3
EXFM4
EXFM5
GND
GOPSW1
GOPSW2
GREF
HDDFL
HDDFM
HFCR
HFSOL
HMMCLK
HPESN
HPSN
HSSN1
HSSN2
HSSN3
HTTR1
HTTR2
HVBCNT
HVCNT
HVDCNT
HVLKC
HVLKD
HVLKT
HVTCNT
IADFRX
IADFTX
IPRXD
IPRXG
IPTXD
IPTXG
ISTRX
ISTTX
KCS
KCT
KCTCNT
KEY
4-3
Signal Name
LBSN1
LBSN2
LEMTEM1
LEMTEM2
LMA
LMAB
LMB
LMBB
LPCNT1
LPFL
LPFM
LUM1-1
LUM1-2
LUM2-1
LUM2-2
MMCLK
MMCNT
MMLCK
OZFL
OZFM
P_LED
PASN
PCCR
PCSN
PCSOL
PESN1
PESN2
PEWSN1
PEWSN2
PFCR1
PFCR2
PFOSN
PFSDCR
PGND
PMCLK
PMCNT
PMFCNT
PMFLCK
4-4
Function
Paper upper limit detecting signal
Paper upper limit detecting signal
Laser A PWM mode change signal
Laser B PWM mode change signal
Optics motor drive signal A
Optics motor drive signal A
Optics motor drive signal B
Optics motor drive signal B
Exposure lamp inverter ON / OFF signal
Optics fan motor lock detecting signal
Optics fan motor ON / OFF signal
Motor rotation control signal (Upper direction)
Motor rotation control signal (Lower direction)
Motor rotation control signal (Upper direction)
Motor rotation control signal (Lower direction)
Main motor clock signal
Main motor drive control signal
Main motor lock detecting signal
Suction / Ozone fan motor lock detecting signal
Suction / Ozone fan motor ON / OFF signal
EPA mode LED ON/OFF signal
Platen cover angle sensor open detecting signal (more than 30
degrees)
Middle roller clutch ON / OFF signal
Platen cover open / close detecting signal
Paper exit solenoid ON / OFF signal
Paper level detecting signal
Paper level detecting signal
Paper feed clutch ON / OFF signal
Paper feed clutch ON / OFF signal
Paper exit sensor paper detecting signal
Paper feed speed control clutch ON / OFF signal
Power ground
Polygon motor drive clock signal
Polygon motor drive control signal
Fan motor ON/OFF signal (FP-D450/D600)
Fan motor lock detecting signal (FP-D450/D600)
Function
Polygon motor lock detecting signal
DC+24V power supply
Control panel reset signal
Printer controller fan motor lock F signal
Printer controller fan motor ON/OFF signal
LVPS cooling fan motor lock F signal
LVPS cooling fan motor ON/OFF signal
Paper length guide home position detecting signal
Paper width guide home position detecting signal
Pre-separation LED ON/OFF signal (FP-D450/D600)
Printer 24 V ON/OFF signal
DC+24V power supply
Paper feed cover open / close detecting signal
Solenoid ON/OFF signal
Reset signal
Reset signal
Registration roller clutch ON / OFF signal
Registration roller paper pass sensor detecting signal
Inverting motor drive clock signal
Suction / Ozone fan motor lock detecting signal
Suction / Ozone fan motor ON / OFF signal
Laser A PWM mode change signal
Laser B PWM mode change signal
Solenoid ON/OFF signal (FP-D450/D600)
Shift tray paper pass sensor input signal
Sorter receive signal
Sorter transfer signal
Scanner 24V ON/OFF signal
DC+24V power supply
Toner density gain adjustment output signal
Toner density detecting signal
Add toner sensor detecting signal
Waste toner full detection signal
Fuser temperature detecting signal
Fuser temperature detecting signal
Transfer voltage adjustment signal
DC+12Vpower supply
PCB Connector and
Signal Information
Signal Name
PMLOCK
PMVP
PNL_RST
PRCFL
PRCFM
PSAC1
PSAC2
PSFL
PSFM
PSLSN
PSWSN
PTL
PVCNT
PVP
QDOSN
RCSOL
RESET
RP/RESET
RRCR
RRSN
RVSCLK
SCFL
SCFM
SEMDEM1
SEMDEM2
SEPSOL
STRRSN
STRX
STTX
SVCNT
SVP
TDREF
TDSN
TED
TFSN
TH1
TH2
TREF
VA
4-5
Signal Name
VCDS
VL
VP
VTED
ZCRS
4-6
Function
Sensor ON/OFF signal
DC+5V power supply
DC+24V power supply
Add toner sensor ON/OFF signal
Zero cross Signal
4.2 Main CPU PCB (FP-D250/D350 Series)
(FP-D250/D350 Series)
(CN1)
Signal
Name
Destination
Status
1
SVCNT
LVPS PCB
CN17-7
OFF
ON
2
PVCNT
LVPS PCB
CN17-6
OFF
ON
3
ZCRS
LVPS PCB
CN17-5
4
ZCDWN
LVPS PCB
CN17-4
5
BTCNT
LVPS PCB
CN17-3
OFF
ON
6
EPACNT
LVPS PCB
CN17-2
OFF
ON
7
ACDWN
LVPS PCB
CN17-1
Function
0V
Scanner 24V ON/OFF
signal
0V
Printer 24 V ON/OFF
signal
Pulse
Zero cross Signal
Zero cross down signal
0V
0V
0V
AC ON AC OFF
Power supply control
signal
Power supply down
signal
PCB Connector and
Signal Information
Pin
No.
4-7
(CN2)
Pin
No.
4-8
Signal
Name
Destination
1
VL
Bypass paper
size sensor 3
CN-1
2
HSSN3
Bypass paper
size sensor 3
CN-2
3
GND
Bypass paper
size sensor 3
CN-3
4
VL
Bypass paper
size sensor 2
CN-1
5
HSSN2
Bypass paper
size sensor 2
CN-2
6
GND
Bypass paper
size sensor 2
CN-3
7
VL
Bypass paper
size sensor 1
CN-1
8
HSSN1
Bypass paper
size sensor 1
CN-2
9
GND
Bypass paper
size sensor 1
CN-3
Status
Function
5V
DC+5Vpower supply
0V
Paper size detecting
signal 3
Detect
Ground
0V
5V
DC+5Vpower supply
0V
signal 2
Detect
Ground
0V
5V
DC+5Vpower supply
0V
Detect
0V
signal 1
Ground
(CN3)
Signal
Name
Destination
Status
Function
1
GND
Copy density
sensor CN-1
0V
2
CDSN2
Copy density
sensor CN-2
Analog
0–5V
3
VCDS
Copy density
sensor CN-3
ON
4
CDSN1
Copy density
sensor CN-4
Analog
0–5V
Copy density detecting
signal
5
GOPSW1 Developer unit
6
TDREF
Toner density
sensor CN-4
7
PVP
Toner density
sensor CN-3
8
TDSN
Toner density
sensor CN-2
Analog
0–5V
9
GND
Toner density
sensor CN-1
0V
Ground
10
0V
Ground
11
PVP
Recycle
solenoid CN-1
12
RCSOL
Recycle
solenoid CN-2
13
TH1
Thermistor
CN-1
Analog
2.7–5V
Fuser temperature
detecting signal
14
TH2
Thermistor
CN-2
0V
Fuser temperature
detecting signal
Ground
Paper base tone
detecting signal
5V
Not detect
Developer unit detecting
signal
Toner density gain
adjustment output signal
Analog
0–8.5V
24V
12V
Toner density detecting
signal
24V
12V
24V
DC+24 V power supply
ON
0V
4-9
PCB Connector and
Signal Information
Pin
No.
(CN5)
Pin
No.
Signal
Name
Status
Destination
1
PGND
Main motor
CN-1
2
MMCNT
Main motor
CN-2
3
MMLCK
Main motor
CN-3
4
MMCLK
Main motor
CN-4
Pulse
5
ELP1
Discharge lamp
CN-1
24V
6
—
7
PVP
8
9
—
HTTR1
10
—
24V
Main motor drive control
signal
ON
Stop Rotate
Main motor lock
detecting signal
Discharge lamp ON/
OFF signal
ON
—
—
24V
0V
DC+24Vpower supply
—
—
—
OFF
AC driver PCB
CN206-2
ON
—
Fuser lamp 1 ON/OFF
signal
—
—
5V
11
VL
AC driver PCB
CN206-1
0V
12
VL
Front door sensor
CN-1
0V
13
DOSN
Front door sensor
CN-2
14
GND
Front door sensor
CN-3
4-10
Power ground
0V
—
Discharge lamp
CN-2
Function
5V
Open
Close
0V
DC+5V power supply
DC+5V power supply
Front door Open/Close
detecting signal
Ground
(CN6)
Signal
Name
Destination
Status
Function
1
EXFM4
Exhaust fan 4
CN-1
24V
2
DDFM
Dust collection
fan motor CN-1
24V
Exhaust fan 4
CN-2
Stop Rotate
3
EXFL4
DDFL
Dust collection
fan motor CN-2
Stop Rotate
4
5
PGND
Exhaust fan 4
CN-3
0V
Power ground
6
PGND
Dust collection
fan motor CN-3
0V
Power ground
7
SCFM
Suction / Ozone
fan motor CN-1
8
PVP
Middle roller
clutch CN-1
9
SCFL
Suction / Ozone
fan motor CN-2
10
PCCR
Middle roller
clutch CN-2
11
PGND
Suction / Ozone
fan motor CN-3
12
PVP
13
—
14
PFSDCR
Paper feed
speed control
clutch CN-1
24V
Exhaust fan motor 4
ON/OFF signal
ON
Dust collection fan
motor ON/OFF siganl
Exhaust fan motor 4
lock detecting signal
Dust collection fan
motor lock detecting
signal
ON
Suction / Ozone fan
motor ON/OFF signal
24V
DC+24V power supply
12V
Suction / Ozone fan
signal
Stop Rotate
24V
ON
Middle roller clutch ON /
OFF signal
Power ground
0V
24V
DC+24Vpower supply
12V
—
—
Paper feed
speed control
clutch CN-2
ON
24V
—
ON
Paper feed speed
control clutch ON / OFF
signal
4-11
PCB Connector and
Signal Information
Pin
No.
(CN7)
Pin
No.
Signal
Name
Destination
1
System console
PCB CNSQ-23
F32BOUT or LCC driver
PCB CN562-5
2
FENB
System console
PCB CNSQ-27
or LCC driver
PCB CN562-6
OQLTH
System console
PCB CNSQ-25
or LCC driver
PCB CN562-7
F32BCLK
System console
PCB CNSQ-13
or LCC driver
PCB CN562-8
5
OQLD
System console
PCB CNSQ-22
or LCC driver
PCB CN562-9
6
LCCLD
LCC driver PCB
CNSQ-21
OQIN
System console
PCB CNSQ-28
or LCC driver
PCB CN562-11
OQMCLK
System console
PCB CNSQ-26
or LCC driver
PCB CN562-12
VL
System console
PCB CNSQ-5
or LCC driver
PCB CN562-13
GND
System console
PCB CNSQ-24
or LCC driver
PCB CN562-14
3
4
7
8
9
10
11
—
12
—
4-12
Status
Function
Pulse
32 bit data transfer
output signal
5V
enable signal
ON
32 bit data transfer latch
signal
Pulse
32 bit data transfer /
receive clock signal
32
Pulse
32 bit data receive shift /
load control signal
(System console)
Shift Load
load control signal (LCC)
Shift Load
32bit data receive input
signal
System stand drive
motor clock and LCC
drive motor clock signal
Pulse
5V
DC+5Vpower supply
0V
0V
Ground
(CN8)
1
Signal
Name
Destination
Inverting shift
F32AOUT tray PCB
CN601-5
2
FENB
Inverting shift
tray PCB
CN601-6
3
OTRLTH
Inverting shift
tray PCB
CN601-7
4
Inverting shift
F32ACLK tray PCB
CN601-8
5
Inverting shift
HMMCLK tray PCB
CN601-9
6
RVSCLK
Inverting shift
tray PCB
CN601-10
7
OTRLD
Inverting shift
tray PCB
CN601-11
8
DXIN
Inverting shift
tray PCB
CN601-12
9
STRRSN
Inverting shift
tray PCB
CN601-13
10
VL
Inverting shift
tray PCB
CN601-14
11
GND
Inverting shift
tray PCB
CN601-15
12
Status
Function
Pulse
32 bit data output signal
5V
32 bit data transfer data
enable signal
ON
signal
Pulse
32
Pulse
Pulse
Shift tray transfer motor
drive clock signal
Pulse
Inverting motor drive
clock signal
load control signal
Shift Load
32 bit data receive input
signal
5V
Detection
0V
Shift tray paper pass
sensor input signal
5V
DC+5Vpower supply
0V
0V
Ground
—
4-13
PCB Connector and
Signal Information
Pin
No.
(CN9)
Pin
No.
Signal
Name
Destination
Status
Function
12V
1
+12V12
LVPS
CN10-1
2
AGND
LVPS
CN10-2
0V
Ground
3
GND
LVPS
CN10-3
0V
Ground
4
GND
LVPS
CN10-4
0V
Ground
5
VL
LVPS
CN10-5
0V
6
VL
LVPS
CN10-6
0V
0V
5V
Pin
No.
DC + 5V power supply
Signal
Name
Destination
Status
Function
Leak
1
HVLKC
HVPS
CN701-12
2
HVCNT
HVPS
CN701-11
3
GREF
HVPS
CN701-10
4
HVBCNT
HVPS
CN701-9
5
BREF
HVPS
CN701-8
Analog
0–8.5V
6
HVLKT
HVPS
CN701-7
Leak
7
HVTCNT
HVPS
CN701-6
8
TREF
HVPS
CN701-5
Analog
0–8.5V
9
HVLKD
HVPS
CN701-4
Leak
10
HVDCNT
HVPS
CN701-3
11
PGND
HVPS
CN701-2
12
PVP
HVPS
CN701-1
4-14
DC+5V power supply
5V
(CN10)
DC+12V power supply
24V
Charge high voltage
leak detecting signal
ON
Grid bias adjustment
signal
Analog
0–8.5V
24V
ON
24V
Transfer high voltage
ON/OFF signal
Transfer voltage
adjustment signal
Separation high voltage
ON
ON/OFF signal
Power ground
0V
24V
0V
Bias ON/OFF signal
ON
24V
Charge high voltage
ON/OFF signal
DC +24V power supply
(CN11)
Signal
Name
Destination
Status
0V
Function
1
PGND
ADU driver PCB
CN651-2
2
PVP
ADU driver PCB
CN651-1
3
PGND
ADU driver PCB
CN651-4
4
PVP
ADU driver PCB
CN651-3
5
F32AOUT
ADU driver PCB
CN651-5
6
QLTH
ADU driver PCB
CN651-9
7
F32ACLK
ADU driver PCB
CN651-11
8
QLD
ADU driver PCB
CN651-13
9
DXIN
ADU driver PCB
CN651-15
10
DXMCA
ADU driver PCB
CN651-10
Pulse
ADU main motor drive
signal A
11
DXMCAB
ADU driver PCB
CN651-12
Pulse
signal A
12
DXMCB
ADU driver PCB
CN651-14
Pulse
signal B
13
DXMCBB
ADU driver PCB
CN651-16
Pulse
signal B
14
PSLSN
ADU driver PCB
CN651-6
ON
15
PSWSN
ADU driver PCB
CN651-8
ON
16
DXFENB
ADU driver PCB
CN651-7
17
VL
ADU driver PCB
CN651-17
18
GND
ADU driver PCB
CN651-18
19
VL
ADU tray sensor
CN-1
20
DXOPSN
ADU tray sensor
CN-2
Power ground
24V
12V
0V
DC+24V power supply
Power ground
24V
12V
Pulse
DC+24V power supply
Pulse
signal
32
receive clock output signal
Pulse
load control signal
Shift Load
signal
5V
0V
5V
0V
5V
ON
0V
5V
0V
Length paper guide
sensor signal
Width paper guide
sensor signal
Data transfer output
enable signal
DC+5V power supply
Ground
0V
5V
0V
Detecting
DC+5V power supply
ADU tray detecting
signal
4-15
PCB Connector and
Signal Information
Pin
No.
Pin
No.
Signal
Name
Destination
Status
0V
21
GND
ADU tray sensor
CN-3
22
ADUSL
ADU driver PCB
CN2-24
23
24
—
GND
Function
Ground
Detecting
—
—
ADU driver PCB
CN2-22
—
0V
Ground
(CN12)
Pin
No.
Signal
Name
Status
Destination
Function
1
PGND
Exhaust fan 1
CN-3
2
EXFL1
Exhaust fan 1
CN-2
3
EXFM1
Exhaust fan 1
CN-1
4
PGND
Exhaust fan 2
CN-3
5
EXFL2
Exhaust fan 2
CN-2
6
EXFM2
Exhaust fan 2
CN-1
7
VL
Toner bottle
home position
sensor CN-1
8
VL
Waste toner full
detection sensor
CN-1
9
BPSN
Toner bottle
home position
sensor CN-2
10
TFSN
Waste toner full
detection sensor
CN-2
11
GND
Toner bottle
home position
sensor CN-3
0V
Ground
12
GND
Waste toner full
detection sensor
CN-3
0V
Ground
4-16
Power ground
0V
Exhaust fan motor 1
Stop Rotate
24V
Exhaust fan motor 1 ON
/ OFF signal
ON
0V
Power ground
Exhaust fan motor 2
Stop
24V
/ OFF signal
ON
5V
DC+5V power supply
0V
5V
DC+5V power supply
0V
Home
Toner bottle home
position detecting signal
Waste toner full
detection signal
Full
Signal
Name
Destination
13
BMBB
Toner bottle
motor CN-1
14
PVP
Toner bottle
motor CN-2
15
BMB
Toner bottle
motor CN-3
16
BMAB
Toner bottle
motor CN-4
17
PVP
Toner bottle
motor CN-5
18
BMA
Toner bottle
motor CN-6
19
PVP
Total counter
CN-1
20
CT
Total counter
CN-2
21
TED
Add toner
sensor CN-2
22
VTED
Add toner
sensor CN-1
23
GND
Add toner
sensor CN-3
24
EXFL3
Exhaust fan 3
CN-2
25
EXFM3
Exhaust fan 3
CN-1
26
PGND
Exhaust fan 3
CN-3
Function
Status
Pulse
24V
0V
24V
12V
Pulse
24V
0V
Pulse
24V
0V
24V
12V
Pulse
24V
0V
24V
12V
24V
ON
0V
5V
Pulse
0V
5V
ON
0V
Stop Rotates
ON
0V
DC+24V power supply
Toner bottle motor drive
signal B
signal A
DC+24Vpower supply
signal A
DC+24V power supply
Total counter count
signal
Add toner sensor
detecting signal
Add toner sensor ON/
OFF signal
Ground
0V
24V
signal B
Exhaust fan motor 3
Exhaust fan motor 3
ON/OFF signal
Power Ground
4-17
PCB Connector and
Signal Information
Pin
No.
(CN13)
Pin
No.
Signal
Name
Destination
1
GND
Platen cover
open / close
sensor CN-3
2
PCSN
Platen cover
open / close
sensor CN-2
3
VL
Platen cover
open / close
sensor CN-1
4
GND
Platen cover
angle sensor
CN-3
5
PASN
Platen cover
angle sensor
CN-2
6
VL
Platen cover
angle sensor
CN-1
Status
Function
Ground
0V
Platen cover open /
close detecting signal
Close Open
5V
DC+5V power supply
0V
Ground
0V
Platen cover angle sensor
open detecting signal
(more than 30 degrees)
Close Open
5V
DC+5V power supply
0V
(CN14)
Pin
No.
Signal
Name
Destination
1
PVP
Key counter
CN-1
2
KCT
Key counter
CN-2
3
GND
Key counter
CN-3
4
KCS
Key counter
CN-4
5
VL
Key counter
CN-5
6
KCTCNT
Key counter
CN-6
4-18
Status
Function
24V
12V
24V
ON
0V
Key counter connection
detecting signal
ON
5V
0V
5V
ON
Key counter count
signal
Ground
0V
5V
DC+24V power supply
0V
DC+5V power supply
Key counter count
signal
(CN15)
Signal
Name
Destination
Status
1
ISTRX
Finisher
connector CN-8
Pulse
2
STRX
Finisher
connector CN-9
Pulse
3
GND
Finisher
connector CN-10
4
ISTTX
Finisher
connector CN-11
Pulse
5
STTX
Finisher
connector CN-12
Pulse
6
IPRXD
Finisher
connector CN-2
Pulse
7
GND
Finisher
connector CN-3
8
IPTXD
Finisher
connector CN-4
9
GND
Finisher
connector CN-7
10
—
—
Function
Inverse sorter receive
signal
0V
Ground
Inverse sorter transfer
signal
Finisher communication
receive signal
0V
Ground
transfer signal
Pulse
0V
—
Ground
PCB Connector and
Signal Information
Pin
No.
—
4-19
(CN17)
Pin
No.
Signal
Name
Destination
1
PGND
Optics fan
CN-3
2
LPFL
Optics fan
CN-2
3
LPFM
Optics fan
CN-1
4
SVP
Exposure lamp
inverter PCB
CN-3
5
LPCNT1
Exposure lamp
inverter PCB
CN-1
6
PGND
Exposure lamp
inverter PCB
CN-2
7
—
4-20
—
Status
Function
Power ground
0V
Stop Rotate
24V
Optics fan motor lock
detecting signal
ON
24V
0V
24V
ON
0V
—
Optics fan motor ON /
OFF signal
DC+24V power supply
Exposure lamp inverter
ON / OFF signal
Power ground
—
(CN19)
Signal
Name
Destination
Status
Function
1
IADFRX
ADF connector
CN-8
Pulse
2
ADFRX
ADF connector
CN-9
Pulse
3
GND
ADF connector
CN-10
4
IADFTX
ADF connector
CN-11
Pulse
5
ADFTX
ADF connector
CN-12
Pulse
6
ADFIN
ADF connector
CN-7
Pulse
7
ADFOUT
ADF connector
CN-2
8
—
—
—
—
9
—
—
—
—
10
—
—
—
—
Inverse ADF receive
signal
ADF receive signal
0V
Ground
Inverse ADF transfer
signal
ADF transfer signal
ADF original feed
completed signal
0V
ADF original feed
control signal
PCB Connector and
Signal Information
Pin
No.
4-21
(CN20)
Pin
No.
Signal
Name
Destination
Status
1
VL
Original size
sensor 1
CN-1
2
AOSS1
Original size
sensor 1
CN-2
ON
3
AOS1
Original size
sensor 1
CN-3
ON
4
GND
Original size
sensor 1
CN-4
5
VL
Original size
sensor 2
CN-1
6
AOSS2
Original size
sensor 2
CN-2
ON
7
AOS2
Original size
sensor 2
CN-3
ON
8
GND
Original size
sensor 2
CN-4
9
VL
Original size
sensor 3
CN-1
10
AOSS3
Original size
sensor 3
CN-2
ON
11
AOS3
Original size
sensor 3
CN-3
ON
12
GND
Original size
sensor 3
CN-4
13
VL
Original size
sensor 4
CN-1
14
AOSS4
Original size
sensor 4
CN-2
4-22
Function
5V
DC+5V power supply
0V
5V
0V
5V
0V
0V
Original size detecting
sensor signal 1
sensor optics signal 1
Ground
5V
DC+5V power supply
0V
5V
0V
5V
0V
sensor signal 2
Ground
0V
5V
DC+5V power supply
0V
5V
0V
5V
0V
0V
sensor signal 3
Ground
5V
DC+5V power supply
0V
5V
ON
0V
sensor signal 4
Signal
Name
Destination
Status
15
AOS4
Original size
sensor 4
CN-3
16
GND
Original size
sensor 4
CN-4
17
VL
Original size
sensor 5
CN-1
18
AOSS5
Original size
sensor 5
CN-2
ON
19
AOS5
Original size
sensor 5
CN-3
ON
20
GND
Original size
sensor 5
CN-4
21
VL
Original size
sensor 6
CN-1
22
AOSS6
Original size
sensor 6
CN-2
ON
23
AOS6
Original size
sensor 6
CN-3
ON
24
GND
Original size
sensor 6
CN-4
25
VL
Lamp unit home
position sensor
CN-1
26
HPSN
Lamp unit home
position sensor
CN-2
27
GND
Lamp unit home
position sensor
CN-3
0V
—
—
28
—
Function
5V
ON
0V
0V
Ground
5V
DC+5V power supply
0V
5V
0V
5V
0V
0V
sensor signal 5
Ground
5V
DC+5V power supply
0V
5V
0V
5V
0V
0V
sensor signal 6
Ground
5V
DC+5V power supply
0V
5V
0V
Home
0V
Lamp unit home
Ground
—
4-23
PCB Connector and
Signal Information
Pin
No.
(CN22)
Pin
No.
1
Signal
Name
PVP
—
2
3
PFCR1
—
4
5
6
7
8
9
10
11
4-24
(FP-D250/D350
Series)
Status
Function
Destination
Paper feed
clutch
(Upper stage)
CN-1
24V
DC+24V power supply
0V
—
—
—
Paper feed
clutch
(Upper stage)
CN-2
24V
ON
—
Paper feed clutch ON /
OFF signal
0V
—
—
VL
Paper level
sensor
(Upper stage)
CN-1
VL
Paper pass
sensor
(Upper stage)
CN-1
PEWSN1
Paper level
sensor
(Upper stage)
CN-2
CRRSN1
Paper pass
sensor
(Upper stage)
CN-2
GND
Paper level
sensor
(Upper stage)
CN-3
0V
Ground
GND
Paper pass
sensor
(Upper stage)
CN-3
0V
Ground
VL
Paper upper
limit sensor
(Upper stage)
CN-1
5V
DC+5V power supply
0V
5V
DC+5V power supply
0V
Paper level detecting
signal
ON
Pass
5V
0V
DC+5V power supply
12
13
14
15
16
Signal
Name
Destination
Status
Function
VL
Paper detecting
sensor
(Upper stage)
CN-1
LBSN1
Paper upper
limit sensor
(Upper stage)
CN-2
PESN1
Paper detecting
sensor
(Upper stage)
CN-2
GND
Paper upper
limit sensor
(Upper stage)
CN-3
0V
Ground
GND
Paper detecting
sensor
(Upper stage)
CN-3
0V
Ground
5V
DC+5V power supply
0V
Over
5V
0V
Detecting
(CN23)
Pin
No.
1
Signal
Name
PVP
—
2
3
PFCR2
—
4
5
Paper upper limit
detecting signal
VL
Destination
Paper feed
clutch
(Lower stage)
CN-1
Status
24V
DC+24V power supply
0V
—
—
—
Paper feed
clutch
(Lower stage)
CN-2
24V
ON
—
Paper level
sensor
(Lower stage)
CN-1
Function
OFF signal
0V
—
—
5V
0V
DC+5V power supply
4-25
PCB Connector and
Signal Information
Pin
No.
Pin
No.
6
7
8
9
10
11
12
13
14
15
16
4-26
Signal
Name
Destination
Function
Status
VL
Paper pass
sensor
(Lower stage)
CN-1
PEWSN2
Paper level
sensor
(Lower stage)
CN-2
CRRSN2
Paper pass
sensor
(Lower stage)
CN-2
GND
Paper level
sensor
(Lower stage)
CN-3
0V
Ground
GND
Paper pass
sensor
(Lower stage)
CN-3
0V
Ground
VL
Paper upper
limit sensor
(Lower stage)
CN-1
VL
Paper detecting
sensor
(Lower stage)
CN-1
LBSN2
Paper upper
limit sensor
(Lower stage)
CN-2
PESN2
Paper detecting
sensor
(Lower stage)
CN-2
GND
Paper upper
limit sensor
(Lower stage)
CN-3
0V
Ground
GND
Paper detecting
sensor
(Lower stage)
CN-3
0V
Ground
5V
DC+5V power supply
0V
signal
ON
Detecting
5V
DC+5V power supply
0V
5V
DC+5V power supply
0V
Over
5V
Paper upper limit
detecting signal
0V
Detecting
(CN24)
Signal
Name
Destination
Status
Function
1
PGND
LVPS
CN11-1
0V
Power ground
2
PGND
LVPS
CN11-2
0V
Power ground
3
PGND
LVPS
CN11-3
0V
Power ground
4
PGND
LVPS
CN11-4
0V
Power ground
5
SVP
LVPS
CN11-5
0V
6
PVP
LVPS
CN11-6
0V
7
PVP
LVPS
CN11-7
0V
8
PMVP
LVPS
CN11-8
0V
24V
24V
24V
24V
DC+24V power supply
DC+24V power supply
DC+24V power supply
DC+24V power supply
PCB Connector and
Signal Information
Pin
No.
4-27
(CN25)
Pin
No.
Signal
Name
Destination
1
ADF
ADFRRSN PCB
CN952-7
2
ADFIDI
ADF
PCB
CN952-6
3
GND
ADF
PCB
CN952-9
4
ADFICLK
ADF
PCB
CN952-4
5
ADFIENB
ADF
PCB
CN952-2
6
ADFILD
ADF
PCB
CN952-3
7
ADFIDO
ADF
PCB
CN952-1
8
ADMCLK
ADF
PCB
CN952-5
9
VL
ADF
PCB
CN952-8
10
—
Status
Function
Detecting
signal
Ground
0V
32
Pulse
5V
ON
0V
Pulse
ADF drive motor drive
clock signal
Pulse
5V
DC+5V power supply
0V
—
—
—
Signal
Name
Destination
1
LUM1-1
Lift motor
(Upper stage)
CN-1
2
LUM1-2
Lift motor
(Upper stage)
CN-2
4-28
Data output enable
signal
load control and transfer
data latch signal
Shift Load
(CN26)
Pin
No.
ADF timing sensor input
signal
Status
Function
24V
Motor rotation control
signal (Upper direction)
24V
signal (Lower direction)
0V
ON
0V
(CN27)
Signal
Name
Destination
1
LUM2-1
Lift motor
(Lower stage)
CN-1
2
LUM2-2
Lift motor
(Lower stage)
CN-2
Status
Function
24V
24V
0V
ON
0V
(CN28)
Pin
No.
1
2
3
Signal
Name
Destination
Laser interlock
switch
CN-F21
VL
Status
Function
5V
DC+5V power supply
0V
—
+5VL
Laser interlock
switch
CN-F24
SW
OPEN
0V
5V
SW
CLOSE
DC+5V power supply
PCB Connector and
Signal Information
Pin
No.
4-29
(CN29)
Pin
No.
Signal
Name
Destination
Status
Function
1
PVP
Bypass paper
feed clutch
CN-1
2
HFCR
Bypass paper
feed clutch
CN-2
3
PVP
Registration
roller clutch
CN-1
4
RRCR
Registration
roller clutch
CN-2
5
—
—
—
—
6
—
—
—
—
24V
12V
24V
Bypass paper feed
clutch ON / OFF signal
ON
24V
12V
24V
DC+24V power supply
DC+24V power supply
Registration roller clutch
ON / OFF signal
ON
7
VL
Paper feed
cover open /
close sensor
CN-1
8
VL
Bypass paper
detecting sensor
CN-1
9
QDOSN
Paper feed
cover open /
close sensor
CN-2
10
HPESN
Bypass paper
detecting sensor
CN-2
11
GND
Paper feed
cover open /
close sensor
CN-3
0V
Ground
12
GND
Bypass paper
detecting sensor
CN-3
0V
Ground
—
—
13
4-30
—
5V
0V
DC+5V power supply
5V
DC+5V power supply
0V
Open
Close
Detecting
Paper feed cover open /
Bypass paper detecting
signal
—
14
Signal
Name
Registration
roller paper
pass sensor
CN-1
VL
15
—
16
RRSN
17
—
18
Destination
GND
Status
5V
DC+5V power supply
0V
—
—
Registration
roller paper
pass sensor
CN-2
Function
5V
—
Detecting
0V
—
—
Registration
roller paper
pass sensor
CN-3
—
0V
Ground
(CN30)
Pin
No.
Registration roller paper
pass sensor detecting
signal
Signal
Name
Destination
1
PVP
Paper exit
solenoid CN-1
2
PCSOL
Paper exit
solenoid CN-2
3
VL
Paper exit
sensor CN-1
4
PFOSN
Paper exit
sensor CN-2
5
GND
Paper exit
sensor CN-3
Status
Function
24V
12V
24V
ON
0V
5V
0V
Detecting
0V
DC+24V power supply
Paper exit solenoid ON /
OFF signal
DC+5V power supply
Paper exit sensor paper
detecting signal
Ground
4-31
PCB Connector and
Signal Information
Pin
No.
(CN31)
Pin
No.
Signal
Name
Destination
Status
Pulse
1
LMBB
Optics motor
CN-11
2
SVP
Optics motor
CN-9
LMB
Optics motor
CN-7
Pulse
3
LMAB
Optics motor
CN-5
Pulse
4
5
SVP
Optics motor
CN-3
6
LMA
Optics motor
CN-1
Function
24V
0V
24V
12V
24V
0V
24V
0V
24V
12V
Pulse
24V
0V
(CN32)
Pin
No.
DC+24V power supply
Optics motor drive
signal B
Optics motor drive
signal A
DC+24V power supply
Optics motor drive
signal A
Signal
Name
Destination
1
PMVP
Polygon motor
CN-6
2
PGND
Polygon motor
CN-5
3
PMLOCK
Polygon motor
CN-4
4
PMCNT
Polygon motor
CN-3
5
PGND
Polygon motor
CN-2
6
PMCLK
Polygon motor
CN-1
4-32
Optics motor drive
signal B
Function
Status
24V
0V
0V
Power ground
Polygon motor lock
detecting signal
Stop Rotate
24V
ON
0V
Pulse
DC+24V power supply
Polygon motor drive
control signal
Power ground
24V
0V
Polygon motor drive
clock signal
(CN36)
Signal
Name
Destination
1
VL
LSU pin photo
sensor
CN-4
2
GND
LSU pin photo
sensor
CN-3
3
LSU pin photo
LSULSYNC sensor
CN-2
4
GND
LSU pin photo
sensor
CN-1
Status
Function
5V
DC+5V power supply
0V
0V
Ground
LSU main scan
synchronization signal
Pulse
0V
Ground
PCB Connector and
Signal Information
Pin
No.
4-33
(CN38)
Pin
No.
Signal
Name
Destination
Status
0V
1
GND
LSU image data
control PCB
CN1-a26
2
LCLKO
LSU image data
control PCB
CN1-a25
3
GND
LSU image data
control PCB
CN1-a24
4
LDA7
LSU image data
control PCB
CN1-a23
5
GND
LSU image data
control PCB
CN1-a22
6
LDA6
LSU image data
control PCB
CN1-a21
7
GND
LSU image data
control PCB
CN1-a20
8
LDA5
LSU image data
control PCB
CN1-a19
9
GND
LSU image data
control PCB
CN1-a18
10
LDA4
LSU image data
control PCB
CN1-a17
11
GND
LSU image data
control PCB
CN1-a16
12
LDA3
LSU image data
control PCB
CN1-a15
13
GND
LSU image data
control PCB
CN1-a14
14
LDA2
LSU image data
control PCB
CN1-a13
4-34
Ground
Image picture element
clock signal
Pulse
0V
Pulse
Ground
Laser A image data bit 7
0V
Pulse
Ground
0V
Pulse
Ground
0V
Pulse
Ground
0V
Pulse
Ground
0V
Pulse
Function
Ground
Signal
Name
Destination
Status
0V
15
GND
LSU image data
control PCB
CN1-a12
16
LDA1
LSU image data
control PCB
CN1-a11
17
GND
LSU image data
control PCB
CN1-a10
18
LDA0
LSU image data
control PCB
CN1-a9
19
GND
LSU image data
control PCB
CN1-a8
20
LSU image data
LEMTEM1 control PCB
CN1-a7
21
GND
22
LSU image data
SEMDEM1 control PCB
CN1-a5
23
GND
LSU image data
control PCB
CN1-a4
24
ADJ1O
LSU image data
control PCB
CN1-a3
25
CALO
LSU image data
control PCB
CN1-a2
26
LSU image data
ENABLEO control PCB
CN1-a1
27
VL
LSU image data
control PCB
CN1-b26
28
VL
LSU image data
control PCB
CN1-b25
Function
Ground
Pulse
0V
Ground
Pulse
0V
Ground
Laser A PWM mode
change signal
Pulse
LSU image data
control PCB
CN1-a6
0V
PCB Connector and
Signal Information
Pin
No.
Ground
Laser A PWM mode
change signal
Pulse
0V
Ground
Laser A APC control
signal
Pulse
Pulse
PWM calibration signal
5V
Laser ON
0V
5V
0V
5V
0V
Laser current control
signal
DC+5V power supply
DC+5V power supply
4-35
Pin
No.
Signal
Name
Destination
Status
0V
29
GND
LSU image data
control PCB
CN1-b24
30
+5VL
LSU image data
control PCB
CN1-b23
31
+5VL
LSU image data
control PCB
CN1-b22
32
LDB7
LSU image data
control PCB
CN1-b21
33
GND
LSU image data
control PCB
CN1-b20
34
LDB6
LSU image data
control PCB
CN1-b19
35
GND
LSU image data
control PCB
CN1-b18
36
LDB5
LSU image data
control PCB
CN1-b17
37
GND
LSU image data
control PCB
CN1-b16
38
LDB4
LSU image data
control PCB
CN1-b15
39
GND
LSU image data
control PCB
CN1-b14
40
LDB3
LSU image data
control PCB
CN1-b13
41
GND
LSU image data
control PCB
CN1-b12
42
LDB2
LSU image data
control PCB
CN1-b11
4-36
Function
Ground
5V
DC+5V power supply
0V
5V
DC+5V power supply
0V
Pulse
Laser B image data bit 7
0V
Pulse
0V
Pulse
Ground
0V
Pulse
Ground
0V
Pulse
Ground
0V
Pulse
Ground
Ground
Signal
Name
Destination
Status
0V
43
GND
LSU image data
control PCB
CN1-b10
44
LDB1
LSU image data
control PCB
CN1-b9
45
GND
LSU image data
control PCB
CN1-b8
46
LDB0
LSU image data
control PCB
CN1-b7
47
GND
LSU image data
control PCB
CN1-b6
48
LSU image data
LEMTEM2 control PCB
CN1-b5
49
GND
50
LSU image data
SEMDEM2 control PCB
CN1-b3
51
GND
LSU image data
control PCB
CN1-b2
52
ADJ2
LSU image data
control PCB
CN1-b1
Function
Ground
Pulse
0V
Ground
Pulse
0V
Ground
Laser B PWM mode
change signal
Pulse
LSU image data
control PCB
CN1-b4
0V
Ground
Laser B PWM mode
change signal
Pulse
0V
Ground
Laser B APC control
signal
Pulse
(CN39)
Pin
No.
PCB Connector and
Signal Information
Pin
No.
Signal
Name
Destination
1
DDFM
Developer
cooling fan CN-1
2
EXFL4
Developer
cooling fan CN-2
3
PGND
Developer
cooling fan CN-3
Function
Status
24V
ON
OFF
Stop
Rotates
0V
Developer cooling fan
ON / OFF signal
Ground
4-37
(CN43)
Pin
No.
Signal
Name
Destination
Status
Function
1
PGND
LVPS cooling
fan motor
CN-3
2
PSFL
LVPS cooling
fan motor
CN-2
3
PSFM
LVPS cooling
fan motor
CN-1
4
—
—
—
—
5
—
—
—
—
6
—
—
—
—
7
PGND
Printer controller
cooling fan
motor CN-3
0V
Power ground
8
PRCFL
Printer controller
cooling fan motor
CN-2
9
PRCFM
Printer controller
cooling fan motor
CN-1
4-38
Power ground
0V
Rotates
LVPS cooling fan motor
lock F signal
ON
ON / OFF signal
Stop
12V
Stop
Rotates
12V
ON
Printer controller fan
motor lock F signal
motor ON / OFF signal
(CN201)
Pin
No.
Signal
Name
Destination
Status
Function
5V
1
DTR2J
System control
PCB CN3-A01
2
+12V1
System control
PCB CN3-A02
3
RTS2J
System control
PCB CN3-A03
4
RxD2J
System control
PCB CN3-A04
5
+5V
System control
PCB CN3-A05
INTB
System control
PCB CN3-B07
Pulse
6
Interrupt request signal
B
INTD
System control
PCB CN3-B08
Pulse
7
D
8
+5V
System control
PCB CN3-A08
0V
10
+5V
System control
PCB CN3-A10
0V
12
GND
System control
PCB CN3-A12
0V
Ground
13
GND
System control
PCB CN3-A13
0V
Ground
15
RST
System control
PCB CN3-A15
0V
16
+5V
System control
PCB CN3-A16
0V
17
GNT1
System control
PCB CN3-A14
0V
18
GND
System control
PCB CN3-A18
20
AD30
System control
PCB CN3-A20
21
+3.3V
System control
PCB CN3-A21
22
AD28
System control
PCB CN3-A22
5V
23
AD26
System control
PCB CN3-A23
5V
24
GND
System control
PCB CN3-A24
0V
12V
0V
5V
0V
Pulse
COM2 data terminal
ready signal
DC+12V power supply
COM2 request signal
COM2 communication
input signal
5V
5V
5V
5V
Reset
5V
DC+5V power supply
DC+5V power supply
PCI bus reset signal
DC+5V power supply
Grant signal
Ground
0V
5V
0V
3.3V
0V
0V
DC+5V power supply
PCB Connector and
Signal Information
5V
0V
PCI bus address data
signal
DC+3.3V power supply
0V
signal
0V
signal
Ground
4-39
Pin
No.
Signal
Name
Destination
Status
5V
25
AD24
System control
PCB CN3-A25
27
+3.3V
System control
PCB CN3-A27
28
AD22
System control
PCB CN3-A28
5V
29
AD20
System control
PCB CN3-A29
5V
30
GND
System control
PCB CN3-A30
31
AD18
System control
PCB CN3-A31
5V
32
AD16
System control
PCB CN3-A32
5V
33
+3.3V
System control
PCB CN3-A33
0V
34
FRAME
System control
PCB CN3-A34
0V
35
GND
System control
PCB CN3-A35
36
TRDY
System control
PCB CN3-A36
37
GND
System control
PCB CN3-A37
38
STOP
System control
PCB CN3-A38
39
+3.3V
System control
PCB CN3-A39
40
SDONE
System control
PCB CN3-A40
Pulse
41
SBO
System control
PCB CN3-A41
Pulse
42
GND
System control
PCB CN3-A42
43
PAR
System control
PCB CN3-A43
44
AD15
System control
PCB CN3-A44
45
+3.3V
System control
PCB CN3-A45
4-40
Function
0V
3.3V
0V
signal
0V
signal
0V
signal
0V
Ground
0V
signal
0V
signal
3.3V
5V
0V
Cycle frame signal
Ground
Pulse
Target ready signal
0V
Ground
Pulse
Stop signal
3.3V
0V
Snoop done signal
Snoop back off signal
0V
Ground
Pulse
Parity check signal
5V
0V
3.3V
0V
signal
Signal
Name
Destination
Status
46
AD13
System control
PCB CN3-A46
5V
47
AD11
System control
PCB CN3-A47
5V
48
GND
System control
PCB CN3-A48
49
AD09
System control
PCB CN3-A49
5V
52
C/-BE0
System control
PCB CN3-A52
5V
53
+3.3V
System control
PCB CN3-A53
54
AD06
System control
PCB CN3-A54
5V
55
AD04
System control
PCB CN3-A55
5V
56
GND
System control
PCB CN3-A56
57
AD02
System control
PCB CN3-A57
5V
58
AD00
System control
PCB CN3-A58
5V
59
+5V
System control
PCB CN3-A59
60
—
Function
0V
signal
0V
signal
0V
Ground
0V
signal
0V
Bus command / byte
enable signal
3.3V
0V
0V
signal
0V
signal
0V
Ground
0V
signal
0V
signal
5V
0V
DC+5V power supply
—
—
—
5V
61
+5V
System control
PCB CN3-A61
0V
62
+5V
System control
PCB CN3-A62
0V
101
-12V
System control
PCB CN3-B01
0V
102
CTS
System control
PCB CN3-B02
5V
103
GND
System control
PCB CN3-B03
104
TxD
System control
PCB CN3-B04
105
+5V
System control
PCB CN3-B05
5V
-12V
0V
0V
DC+5V power supply
DC-12V power supply
COM2 receive clear
signal
Ground
Pulse
COM2 communication
output signal
5V
0V
DC+5V power supply
DC+5V power supply
4-41
PCB Connector and
Signal Information
Pin
No.
Pin
No.
4-42
Signal
Name
Destination
Function
Status
5V
106
+5V
System control
PCB CN3-B06
107
INTA
System control
PCB CN3-A06
Pulse
A
108
INTC
System control
PCB CN3-A07
Pulse
C
112
GND
System control
PCB CN3-B12
0V
Ground
113
GND
System control
PCB CN3-B13
0V
Ground
115
GND
System control
PCB CN3-B15
0V
Ground
116
CLKB
System control
PCB CN3-B16
117
GND
System control
PCB CN3-B17
118
REQ1
System control
PCB CN3-B10
119
+5V
System control
PCB CN3-B19
120
AD31
System control
PCB CN3-B20
5V
121
AD29
System control
PCB CN3-B21
5V
122
GND
System control
PCB CN3-B22
123
AD27
System control
PCB CN3-B23
5V
124
AD25
System control
PCB CN3-B24
5V
125
+3.3V
System control
PCB CN3-B25
126
C/-BE3
System control
PCB CN3-B26
5V
127
AD23
System control
PCB CN3-B27
5V
128
GND
System control
PCB CN3-B28
129
AD21
System control
PCB CN3-B29
0V
Pulse
DC+5V power supply
PCI bus clock B
Ground
0V
Pulse
DMA transfer request
signal
5V
0V
DC+5V power supply
0V
signal
0V
signal
Ground
0V
0V
signal
0V
signal
3.3V
0V
0V
Bus command / byte
enable signal
0V
signal
Ground
0V
5V
0V
signal
Signal
Name
Destination
Status
Function
5V
130
AD19
System control
PCB CN3-B30
131
+3.3V
System control
PCB CN3-B31
132
AD17
System control
PCB CN3-B32
5V
133
C/-BE2
System control
PCB CN3-B33
5V
134
GND
System control
PCB CN3-B34
135
IRDY
System control
PCB CN3-B35
136
+3.3V
System control
PCB CN3-B36
137
DEVSEL
System control
PCB CN3-B37
138
GND
System control
PCB CN3-B38
139
LOCK
System control
PCB CN3-B39
140
PERR
System control
PCB CN3-B40
141
+3.3V
System control
PCB CN3-B41
142
SERR
System control
PCB CN3-B42
143
+3.3V
System control
PCB CN3-B43
144
C/-BE1
System control
PCB CN3-B44
5V
145
AD14
System control
PCB CN3-B45
5V
146
GND
System control
PCB CN3-B46
147
AD12
System control
PCB CN3-B47
5V
148
AD10
System control
PCB CN3-B48
5V
149
GND
System control
PCB CN3-B49
0V
3.3V
0V
signal
0V
signal
0V
Bus command / byte
enable signal
0V
Ground
Pulse
Initiator ready signal
3.3V
0V
Pulse
Device select signal
0V
Ground
Pulse
Lock signal
5V
0V
5V
0V
5V
0V
3.3V
0V
System error signal
0V
Bus command / byte
enable signal
0V
signal
0V
0V
Parity error signal
Ground
0V
signal
0V
signal
Ground
4-43
PCB Connector and
Signal Information
Pin
No.
Pin
No.
Signal
Name
Destination
Status
152
AD08
System control
PCB CN3-B52
5V
153
AD07
System control
PCB CN3-B53
5V
154
+3.3V
System control
PCB CN3-B54
155
AD05
System control
PCB CN3-B55
5V
156
AD03
System control
PCB CN3-B56
5V
157
GND
System control
PCB CN3-B57
158
AD01
System control
PCB CN3-B58
159
+5V
System control
PCB CN3-B59
0V
160
SYSRST
System control
PCB CN3-B60
0V
161
+5V
System control
PCB CN3-B61
0V
162
+5V
System control
PCB CN3-B62
0V
4-44
Function
0V
signal
0V
signal
3.3V
0V
0V
signal
0V
signal
0V
Ground
5V
0V
5V
Reset
5V
5V
5V
signal
DC+5V power supply
System reset signal
DC+5V power supply
DC+5V power supply
Pin
No.
Signal
Name
Destination
Status
Function
1
GND
Printer controller
PCB CNJ5-1
0V
Ground
2
GND
Printer controller
PCB CNJ5-2
0V
Ground
3
GND
Printer controller
PCB CNJ5-3
0V
Ground
4
GND
Printer controller
PCB CNJ5-4
0V
Ground
5
GND
Printer controller
PCB CNJ5-5
0V
Ground
6
GND
Printer controller
PCB CNJ5-6
0V
Ground
7
GND
Printer controller
PCB CNJ5-7
0V
Ground
8
GND
Printer controller
PCB CNJ5-8
0V
Ground
9
GND
Printer controller
PCB CNJ5-9
0V
Ground
10
GND
Printer controller
PCB CNJ5-10
0V
Ground
11
GND
Printer controller
PCB CNJ5-11
0V
Ground
12
GND
Printer controller
PCB CNJ5-12
0V
Ground
13
GND
Printer controller
PCB CNJ5-13
0V
Ground
14
GND
Printer controller
PCB CNJ5-14
0V
Ground
15
GND
Printer controller
PCB CNJ5-15
0V
Ground
16
GND
Printer controller
PCB CNJ5-16
0V
Ground
17
GND
Printer controller
PCB CNJ5-17
0V
Ground
18
GND
Printer controller
PCB CNJ5-18
0V
Ground
19
GND
Printer controller
PCB CNJ5-19
0V
Ground
PCB Connector and
Signal Information
(CN203)
4-45
Pin
No.
Signal
Name
Destination
Status
Function
20
GND
Printer controller
PCB CNJ5-20
0V
Ground
21
GND
Printer controller
PCB CNJ5-21
0V
Ground
22
GND
Printer controller
PCB CNJ5-22
0V
Ground
23
GND
Printer controller
PCB CNJ5-23
0V
Ground
24
GND
Printer controller
PCB CNJ5-24
0V
Ground
25
GND
Printer controller
PCB CNJ5-25
0V
Ground
26
GND
Printer controller
PCB CNJ5-26
0V
Ground
27
GND
Printer controller
PCB CNJ5-27
0V
Ground
28
GND
Printer controller
PCB CNJ5-28
0V
Ground
29
GND
Printer controller
PCB CNJ5-29
0V
Ground
30
GND
Printer controller
PCB CNJ5-30
0V
Ground
31
/IDRDY
Printer controller
PCB CNJ5-31
/IDSTB
Printer controller
PCB CNJ5-32
32
5V
0V
5V
Image data strove signal
0V
33
GND
Printer controller
PCB CNJ5-33
34
ID0
Printer controller
PCB CNJ5-34
5V
35
ID1
Printer controller
PCB CNJ5-35
5V
36
ID2
Printer controller
PCB CNJ5-36
5V
37
ID3
Printer controller
PCB CNJ5-37
5V
38
GND
Printer controller
PCB CNJ5-38
39
ID4
Printer controller
PCB CNJ5-39
4-46
Image data receive
ready signal
Ground
0V
0V
0V
0V
Image data 0
Image data 1
Image data 2
Image data 3
0V
Ground
0V
5V
0V
Image data 4
Signal
Name
Destination
ID5
Printer controller
PCB CNJ5-40
5V
40
41
ID6
Printer controller
PCB CNJ5-41
5V
42
ID7
Printer controller
PCB CNJ5-42
5V
43
GND
Printer controller
PCB CNJ5-43
44
ID8
Printer controller
PCB CNJ5-44
5V
45
ID9
Printer controller
PCB CNJ5-45
5V
46
ID10
Printer controller
PCB CNJ5-46
5V
47
ID11
Printer controller
PCB CNJ5-47
5V
0V
0V
0V
0V
0V
0V
Printer controller
PCB CNJ5-48
49
ID12
Printer controller
PCB CNJ5-49
5V
50
ID13
Printer controller
PCB CNJ5-50
5V
51
ID14
Printer controller
PCB CNJ5-51
5V
52
ID15
Printer controller
PCB CNJ5-52
5V
Printer controller
PCB CNJ5-53
54
SDACC
Printer controller
PCB CNJ5-54
55
/SCACC
GND
Printer controller
PCB CNJ5-56
57
SDPRN
Printer controller
PCB CNJ5-57
Image data 7
Image data 8
Image data 9
Image data 10
Image data 11
0V
Ground
0V
0V
0V
Image data 12
Image data 13
Image data 14
Image data 15
0V
0V
Ground
5V
0V
5V
Printer controller
PCB CNJ5-55
56
Image data 6
0V
GND
GND
Image data 5
Ground
0V
48
53
Function
Status
PCB Connector and
Signal Information
Pin
No.
0V
0V
Main unit serial data
control signal
Ground
5V
0V
Printer controller serial
data
4-47
Pin
No.
Signal
Name
Destination
58
/SCPRN
Printer controller
PCB CNJ5-58
59
GND
Printer controller
PCB CNJ5-59
60
/RESET
Printer controller
PCB CNJ5-60
Status
Function
5V
0V
Ground
0V
5V
Reset signal
0V
(CN204)
Pin
No.
data control signal
Signal
Name
Destination
Function
Status
3.3V
1
3.3V
LVPS PCB
CN21-1
2
GND
LVPS PCB
CN21-2
0V
Ground
3
GND
LVPS PCB
CN21-3
0V
Ground
4
5V1
LVPS PCB
CN21-4
4-48
0V
5.1V
V
(CN205)
Signal
Name
Destination
Status
Function
1
P_RTS
Control panel
CPU PCB
CN401-11
Control panel
communication receive
control signal
2
P_CTS
Control panel
CPU PCB
CN401-12
Control panel
communication transfer
control signal
3
P_RXD
Control panel
CPU PCB
CN401-9
4
Control panel
PNL_RST CPU PCB
CN401-10
5
P_TXD
Control panel
CPU PCB
CN401-7
6
GND
Control panel
CPU PCB
CN401-8
7
+12V2
Control panel
CPU PCB
CN401-5
8
GND
Control panel
CPU PCB
CN401-6
0V
Ground
9
GND
Control panel
CPU PCB
CN401-3
0V
Ground
10
GND
Control panel
CPU PCB
CN401-4
0V
Ground
11
VL
Control panel
CPU PCB
CN401-1
12
VL
Control panel
CPU PCB
CN401-2
13
P_LED
Control panel
PCB A
CN358-3
14
KEY
Control panel
PCB A
CN358-1
Control panel
signal
Pulse
5V
0V
Control panel reset
signal
Control panel
signal
Pulse
Ground
0V
12V
DC+12V power supply
0V
5V
DC+5V power supply
0V
5V
DC+5V power supply
0V
ON
EPA mode LED ON/
OFF signal
ON
EPA mode key input
signal
5V
0V
5V
0V
4-49
PCB Connector and
Signal Information
Pin
No.
(CN209)
Pin
No.
Signal
Name
Destination
Status
Function
1
GND
CCD PCB
CN801-23
0V
Ground
2
GND
CCD PCB
CN801-24
0V
Ground
3
CCD PCB
SLSYNC_C CN801-21
4
GND
CCD PCB
CN801-22
5
RLSYNC
CCD PCB
CN801-19
Pulse
6
IRLSYNC
CCD PCB
CN801-20
Pulse
SVCLK
CCD PCB
CN801-17
Pulse
7
ISVCLK
CCD PCB
CN801-18
Pulse
8
SVD0
CCD PCB
CN801-15
Pulse
9
ISVD0
CCD PCB
CN801-16
Pulse
10
SVD1
CCD PCB
CN801-13
Pulse
11
ISVD1
CCD PCB
CN801-14
Pulse
12
SVD2
CCD PCB
CN801-11
Pulse
13
ISVD2
CCD PCB
CN801-12
Pulse
14
4-50
Scanner horizontal
Pulse
0V
Ground
Return horizontal
synchronizing signal
differential output
Inverse return horizontal
differential output
Scanner image clock
differential output signal
Inverse scanner image
clock differential output
signal
Scanner image data 0
bit differential output
signal (LSB)
data 0 bit differential
output signal (LSB)
signal
output signal
signal
output signal
Signal
Name
Destination
Status
SVD3
CCD PCB
CN801-9
Pulse
15
ISVD3
CCD PCB
CN801-10
Pulse
16
SVD4
CCD PCB
CN801-7
Pulse
17
ISVD4
CCD PCB
CN801-8
Pulse
18
SVD5
CCD PCB
CN801-5
Pulse
19
ISVD5
CCD PCB
CN801-6
Pulse
20
SVD6
CCD PCB
CN801-3
Pulse
21
ISVD6
CCD PCB
CN801-4
Pulse
22
SVD7
CCD PCB
CN801-1
Pulse
23
ISVD7
CCD PCB
CN801-2
Pulse
24
Function
signal
output signal
signal
daa 4 bit differential
output signal
signal
output signal
Scanner image dada 6
signal
output signal
signal (MSB)
Inverse image data 7 bit
(MSB)
4-51
PCB Connector and
Signal Information
Pin
No.
(CN210)
Pin
No.
Signal
Name
Destination
Function
Status
1
GND
CCD PCB
CN803-7
0V
Ground
2
GND
CCD PCB
CN803-8
0V
Ground
3
DA_DATA
CCD PCB
CN803-5
4
GND
CCD PCB
CN803-6
5
DA_CLK
CCD PCB
CN803-3
6
GND
CCD PCB
CN803-4
7
DA_LD
CCD PCB
CN803-1
8
GND
CCD PCB
CN803-2
4-52
Pulse
Scanner D/A converter
data
0V
Pulse
Ground
clock
0V
Pulse
Ground
load signal
0V
Ground
4.3 System Control PCB (FP-D250/D350 Series)
(CN1 - CN2)
Not used
(CN3)
Signal
Name
Destination
A01
DTR2J
Main CPU PCB
CN201-1
A02
+12V
Main CPU PCB
CN201-2
A03
RTS2J
Main CPU PCB
CN201-3
5V
A04
RxD2J
Main CPU PCB
CN201-4
Pulse
A05
+5V
Main CPU PCB
CN201-5
A06
INTA
Main CPU PCB
CN201-107
Pulse
A07
INTC
Main CPU PCB
CN201-108
Pulse
A08
+5V
Main CPU PCB
CN201-8
A09
A10
—
+5V
Status
5V
0V
12V
0V
0V
COM2 data terminal ready
signal
DC+12V power supply
COM2 request signal
COM2 communication
input signal
5V
0V
DC+5V power supply
Interrupt request signal A
Interrupt request signal C
5V
0V
DC+5V power supply
—
—
Main CPU PCB
CN201-10
Function
—
5V
0V
DC+5V power supply
—
—
GND
Main CPU PCB
CN201-12
0V
Ground
A13
GND
Main CPU PCB
CN201-13
0V
Ground
A14
GNT1
Main CPU PCB
CN201-17
0V
A15
RST
Main CPU PCB
CN201-15
0V
A16
+5V
Main CPU PCB
CN201-16
0V
A11
—
A12
Reset
—
5V
5V
5V
Grant signal
DC+5V power supply
4-53
PCB Connector and
Signal Information
Pin
No.
Pin
No.
Signal
Name
Destination
5V
A17
GNT0
Riser card PCB
CN601-17
A18
GND
Main CPU PCB
CN201-18
0V
A19
—
—
—
A20
AD30
Main CPU PCB
CN201-20
A21
+3.3V
Main CPU PCB
CN201-21
A22
AD28
Main CPU PCB
CN201-22
5V
A23
AD26
Main CPU PCB
CN201-23
5V
A24
GND
Main CPU PCB
CN201-24
A25
AD24
Main CPU PCB
CN201-25
A26
—
0V
Grant signal
Ground
—
5V
0V
3.3V
0V
0V
0V
0V
PCI bus address data signal
Ground
5V
0V
—
—
—
3.3V
A27
+3.3V
Main CPU PCB
CN201-27
A28
AD22
Main CPU PCB
CN201-28
5V
A29
AD20
Main CPU PCB
CN201-29
5V
A30
GND
Main CPU PCB
CN201-30
A31
AD18
Main CPU PCB
CN201-31
5V
A32
AD16
Main CPU PCB
CN201-32
5V
A33
+3.3V
Main CPU PCB
CN201-33
0V
A34
FRAME
Main CPU PCB
CN201-34
0V
A35
GND
Main CPU PCB
CN201-35
A36
TRDY
Main CPU PCB
CN201-36
4-54
Function
Status
0V
0V
0V
0V
Ground
0V
0V
3.3V
5V
0V
Cycle frame signal
Ground
Pulse
Target ready signal
Signal
Name
Destination
Status
0V
Function
A37
GND
Main CPU PCB
CN201-37
A38
STOP
Main CPU PCB
CN201-38
A39
+3.3V
Main CPU PCB
CN201-39
A40
SDONE
Main CPU PCB
CN201-40
Pulse
A41
SBO
Main CPU PCB
CN201-41
Pulse
A42
GND
Main CPU PCB
CN201-42
A43
PAR
Main CPU PCB
CN201-43
A44
AD15
Main CPU PCB
CN201-44
A45
+3.3V
Main CPU PCB
CN201-45
A46
AD13
Main CPU PCB
CN201-46
5V
A47
AD11
Main CPU PCB
CN201-47
5V
A48
GND
Main CPU PCB
CN201-48
A49
AD09
Main CPU PCB
CN201-49
A50
CONNECTOR
KEY
—
—
—
A51
CONNECTOR
KEY
—
—
—
A52
C/-BE0
Main CPU PCB
CN201-52
A53
+3.3V
Main CPU PCB
CN201-53
A54
AD06
Main CPU PCB
CN201-54
5V
A55
AD04
Main CPU PCB
CN201-55
5V
A56
GND
Main CPU PCB
CN201-56
Ground
Pulse
Stop signal
3.3V
0V
Snoop done signal
0V
Ground
Pulse
Parity check signal
5V
0V
3.3V
0V
0V
0V
Ground
0V
5V
0V
5V
0V
3.3V
0V
0V
0V
0V
Bus command / byte
enable signal
Ground
4-55
PCB Connector and
Signal Information
Pin
No.
Pin
No.
Signal
Name
Destination
Status
A57
AD02
Main CPU PCB
CN201-57
5V
A58
AD00
Main CPU PCB
CN201-58
5V
A59
+5V
Main CPU PCB
CN201-59
A60
—
0V
0V
5V
0V
DC+5V power supply
—
—
—
5V
A61
+5V
Main CPU PCB
CN201-61
0V
A62
+5V
Main CPU PCB
CN201-62
0V
B01
-12V
Main CPU PCB
CN201-101
B02
CTS
Main CPU PCB
CN201-102
B03
GND
Main CPU PCB
CN201-103
B04
TxD
Main CPU PCB
CN201-104
B05
+5V
Main CPU PCB
CN201-105
0V
B06
+5V
Main CPU PCB
CN201-106
0V
B07
INTB
Main CPU PCB
CN201-6
Pulse
B08
INTD
Main CPU PCB
CN201-7
Pulse
B09
—
—
B10
REQ1
Main CPU PCB
CN201-118
B11
—
—
—
B12
GND
Main CPU PCB
CN201-112
0V
B13
GND
Main CPU PCB
CN201-113
5V
B14
CLKA
Rizer card PCB
CN601-116
Pulse
4-56
Function
5V
0V
-12V
5V
0V
0V
DC+5V power supply
DC+5V power supply
DC-12V power supply
COM2 receive clear signal
Ground
Pulse
COM2 communication
output signal
5V
5V
DC+5V power supply
DC+5V power supply
Interrupt request signal B
Interrupt request signal D
—
—
Pulse
DMA transfer request signal
—
Ground
0V
Ground
PCI bus clock A
Signal
Name
Destination
Status
0V
B15
GND
Main CPU PCB
CN201-115
B16
CLKB
Main CPU PCB
CN201-116
B17
GND
Main CPU PCB
CN201-117
B18
REQ0
Riser card PCB
CN601-118
B19
+5V
Main CPU PCB
CN201-119
B20
AD31
Main CPU PCB
CN201-120
5V
B21
AD29
Main CPU PCB
CN201-121
5V
B22
GND
Main CPU PCB
CN201-122
B23
AD27
Main CPU PCB
CN201-123
5V
B24
AD25
Main CPU PCB
CN201-124
5V
B25
+3.3V
Main CPU PCB
CN201-125
B26
C/-BE3
Main CPU PCB
CN201-126
5V
B27
AD23
Main CPU PCB
CN201-127
5V
B28
GND
Main CPU PCB
CN201-128
B29
AD21
Main CPU PCB
CN201-129
5V
B30
AD19
Main CPU PCB
CN201-130
5V
B31
+3.3V
Main CPU PCB
CN201-131
B32
AD17
Main CPU PCB
CN201-132
5V
B33
C/-BE2
Main CPU PCB
CN201-133
5V
B34
GND
Main CPU PCB
CN201-134
Function
Ground
Pulse
PCI bus clock B
0V
Ground
Pulse
5V
0V
0V
0V
0V
Ground
0V
0V
3.3V
0V
0V
0V
0V
Bus command / byte
enable signal
Ground
0V
0V
3.3V
0V
0V
0V
0V
DC+5V power supply
Bus command / byte
enable signal
Ground
4-57
PCB Connector and
Signal Information
Pin
No.
Pin
No.
Signal
Name
Destination
Status
Function
Pulse
B35
IRDY
Main CPU PCB
CN201-135
B36
+3.3V
Main CPU PCB
CN201-136
B37
DEVSEL
Main CPU PCB
CN201-137
B38
GND
Main CPU PCB
CN201-138
B39
LOCK
Main CPU PCB
CN201-139
B40
PERR
Main CPU PCB
CN201-140
B41
+3.3V
Main CPU PCB
CN201-141
B42
SERR
Main CPU PCB
CN201-142
B43
+3.3V
Main CPU PCB
CN201-143
B44
C/-BE1
Main CPU PCB
CN201-144
5V
B45
AD14
Main CPU PCB
CN201-145
5V
B46
GND
Main CPU PCB
CN201-146
B47
AD12
Main CPU PCB
CN201-147
5V
B48
AD10
Main CPU PCB
CN201-148
5V
B49
GND
Main CPU PCB
CN201-149
0V
B50
CONNECTOR
KEY
—
—
—
B51
CONNECTOR
KEY
—
—
—
B52
AD08
Main CPU PCB
CN201-152
5V
B53
AD07
Main CPU PCB
CN201-153
5V
B54
+3.3V
Main CPU PCB
CN201-154
4-58
3.3V
0V
Pulse
0V
Ground
Pulse
Lock signal
5V
0V
3.3V
0V
5V
0V
3.3V
0V
Parity error signal
System error signal
0V
Bus command / byte
enable signal
0V
signal
0V
Ground
0V
0V
Ground
0V
0V
3.3V
0V
Signal
Name
Destination
Status
B55
AD05
Main CPU PCB
CN201-155
5V
B56
AD03
Main CPU PCB
CN201-156
5V
B57
GND
Main CPU PCB
CN201-157
B58
AD01
Main CPU PCB
CN201-158
B59
+5V
Main CPU PCB
CN201-159
0V
B60
SYSRST
Main CPU PCB
CN201-160
0V
B61
+5V
Main CPU PCB
CN201-161
0V
B62
+5V
Main CPU PCB
CN201-162
0V
Function
0V
0V
0V
Ground
5V
0V
5V
3.3V
Reset
5V
5V
DC+5V power supply
System reset signal
DC+5V power supply
DC+5V power supply
PCB Connector and
Signal Information
Pin
No.
4-59
(CN4)
Pin
No.
Signal
Name
Destination
1
GND
SO DIMM PCB
CN301-1
2
DQ0
SO DIMM PCB
CN301-2
3.3V
3
DQ1
SO DIMM PCB
CN301-3
3.3V
4
DQ2
SO DIMM PCB
CN301-4
3.3V
5
DQ3
SO DIMM PCB
CN301-5
3.3V
6
DQ4
SO DIMM PCB
CN301-6
3.3V
7
DQ5
SO DIMM PCB
CN301-7
3.3V
8
DQ6
SO DIMM PCB
CN301-8
3.3V
9
DQ7
SO DIMM PCB
CN301-9
3.3V
10
+3.3V
SO DIMM PCB
CN301-10
11
—
0V
0V
0V
0V
0V
0V
0V
0V
3.3V
0V
SO DIMM PCB
CN301-11
—
A0
SO DIMM PCB
CN301-12
3.3V
13
A1
SO DIMM PCB
CN301-13
3.3V
14
A2
SO DIMM PCB
CN301-14
3.3V
15
A3
SO DIMM PCB
CN301-15
3.3V
16
A4
SO DIMM PCB
CN301-16
3.3V
17
A5
SO DIMM PCB
CN301-17
3.3V
18
A6
SO DIMM PCB
CN301-18
3.3V
19
A10
SO DIMM PCB
CN301-19
3.3V
4-60
—
SO DIMM PCB
CN301-20
Ground
0V
12
20
Function
Status
DRAM data bus signal
—
0V
0V
0V
0V
0V
0V
0V
0V
—
DRAM address bus signal
—
Signal
Name
Destination
Status
21
DQ8
SO DIMM PCB
CN301-21
3.3V
22
DQ9
SO DIMM PCB
CN301-22
3.3V
23
DQ10
SO DIMM PCB
CN301-23
3.3V
24
DQ11
SO DIMM PCB
CN301-24
3.3V
25
DQ12
SO DIMM PCB
CN301-25
3.3V
26
DQ13
SO DIMM PCB
CN301-26
3.3V
27
DQ14
SO DIMM PCB
CN301-27
3.3V
28
A7
SO DIMM PCB
CN301-28
3.3V
29
A11
SO DIMM PCB
CN301-29
3.3V
30
+3.3V
SO DIMM PCB
CN301-30
31
A8
SO DIMM PCB
CN301-31
3.3V
32
A9
SO DIMM PCB
CN301-32
3.3V
RAS3
SO DIMM PCB
CN301-33
Pulse
33
RAS2
SO DIMM PCB
CN301-34
Pulse
34
35
DQ15
SO DIMM PCB
CN301-35
36
—
0V
0V
0V
0V
0V
0V
0V
0V
0V
3.3V
0V
0V
0V
Row address control signal
3.3V
0V
SO DIMM PCB
CN301-36
—
37
DQ16
SO DIMM PCB
CN301-37
3.3V
38
DQ17
SO DIMM PCB
CN301-38
3.3V
39
GND
SO DIMM PCB
CN301-39
40
CAS0
SO DIMM PCB
CN301-40
—
0V
0V
0V
Pulse
Ground
Column address control
signal
4-61
PCB Connector and
Signal Information
Pin
No.
Pin
No.
Signal
Name
Destination
Status
Function
41
CAS2
SO DIMM PCB
CN301-41
Pulse
signal
42
CAS3
SO DIMM PCB
CN301-42
Pulse
signal
43
CAS1
SO DIMM PCB
CN301-43
Pulse
signal
44
RAS0
SO DIMM PCB
CN301-44
45
RAS1
SO DIMM PCB
CN301-45
46
47
48
—
—
Pulse
SO DIMM PCB
CN301-46
SO DIMM PCB
CN301-47
W
—
SO DIMM PCB
CN301-48
SO DIMM PCB
CN301-49
3.3V
50
DQ19
SO DIMM PCB
CN301-50
3.3V
51
DQ20
SO DIMM PCB
CN301-51
3.3V
52
DQ21
SO DIMM PCB
CN301-52
3.3V
53
DQ22
SO DIMM PCB
CN301-53
3.3V
54
DQ23
SO DIMM PCB
CN301-54
3.3V
—
0V
0V
0V
0V
0V
0V
SO DIMM PCB
CN301-55
—
56
DQ24
SO DIMM PCB
CN301-56
3.3V
57
DQ25
SO DIMM PCB
CN301-57
3.3V
58
DQ26
SO DIMM PCB
CN301-58
3.3V
59
DQ28
SO DIMM PCB
CN301-59
3.3V
60
DQ27
SO DIMM PCB
CN301-60
3.3V
4-62
Write control signal
—
DQ18
—
—
Pulse
49
55
—
0V
0V
0V
0V
0V
Signal
Name
Destination
Status
61
+3.3V
SO DIMM PCB
CN301-61
62
DQ29
SO DIMM PCB
CN301-62
3.3V
63
DQ30
SO DIMM PCB
CN301-63
3.3V
64
DQ31
SO DIMM PCB
CN301-64
3.3V
Function
3.3V
0V
0V
0V
0V
65
—
SO DIMM PCB
CN301-65
—
—
66
—
SO DIMM PCB
CN301-66
—
—
67
—
SO DIMM PCB
CN301-67
—
—
68
—
SO DIMM PCB
CN301-68
—
—
69
—
SO DIMM PCB
CN301-69
—
—
70
—
SO DIMM PCB
CN301-70
—
—
71
—
SO DIMM PCB
CN301-71
—
—
72
GND
SO DIMM PCB
CN301-72
0V
PCB Connector and
Signal Information
Pin
No.
Ground
4-63
(CN5)
Pin
No.
Signal
Name
Destination
1
GND
16 M Flash
DIMM PCB
CN351-1
2
A1
16 M Flash
DIMM PCB
CN351-2
3
A2
16 M Flash
DIMM PCB
CN351-3
4
A3
16 M Flash
DIMM PCB
CN351-4
5
A4
16 M Flash
DIMM PCB
CN351-5
6
A5
16 M Flash
DIMM PCB
CN351-6
7
A6
16 M Flash
DIMM PCB
CN351-7
8
A7
16 M Flash
DIMM PCB
CN351-8
9
A17 *
16 M Flash
DIMM PCB
CN351-9
10
+3.3V
16 M Flash
DIMM PCB
CN351-10
11
A18 *
16 M Flash
DIMM PCB
CN351-11
12
A19 *
16 M Flash
DIMM PCB
CN351-12
13
A8
16 M Flash
DIMM PCB
CN351-13
14
A9
16 M Flash
DIMM PCB
CN351-14
4-64
Function
Status
0V
Ground
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
Flash memory address
bus signal
bus signal
bus signal
bus signal
bus signal
bus signal
bus signal
bus signal
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
bus signal
bus signal
bus signal
bus signal
Signal
Name
Destination
Status
15
A10
16 M Flash
DIMM PCB
CN351-15
16
A11
16 M Flash
DIMM PCB
CN351-16
RD/BY
16 M Flash
DIMM PCB
CN351-17
Pulse
17
WP
16 M Flash
DIMM PCB
CN351-18
Pulse
18
RP/
RESET
16 M Flash
DIMM PCB
CN351-19
Pulse
19
20
WE
16 M Flash
DIMM PCB
CN351-20
21
A12
16 M Flash
DIMM PCB
CN351-21
22
A13
16 M Flash
DIMM PCB
CN351-22
23
A14
16 M Flash
DIMM PCB
CN351-23
24
A15
16 M Flash
DIMM PCB
CN351-24
25
A16
16 M Flash
DIMM PCB
CN351-25
26
A17
16 M Flash
DIMM PCB
CN351-26
27
A18
16 M Flash
DIMM PCB
CN351-27
28
A19
16 M Flash
DIMM PCB
CN351-28
Function
3.3V
0V
3.3V
RD
BY
0V
bus signal
bus signal
Ready / busy check signal
Write protection control
signal
Reset signal
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
bus signal
PCB Connector and
Signal Information
Pin
No.
bus signal
bus signal
bus signal
bus signal
bus signal
bus signal
bus signal
4-65
Pin
No.
Signal
Name
Destination
29
A20
16 M Flash
DIMM PCB
CN351-29
30
+3.3V
16 M Flash
DIMM PCB
CN351-30
31
—
Status
3.3V
0V
A21
16 M Flash
DIMM PCB
CN351-32
33
CE
16 M Flash
DIMM PCB
CN351-33
bus signal
3.3V
0V
16 M Flash
DIMM PCB
CN351-31
32
Function
—
—
3.3V
0V
bus signal
Pulse
Chip select signal
34
—
16 M Flash
DIMM PCB
CN351-34
35
VPP
16 M Flash
DIMM PCB
CN351-35
36
—
16 M Flash
DIMM PCB
CN351-36
—
—
37
—
16 M Flash
DIMM PCB
CN351-37
—
—
38
—
16 M Flash
DIMM PCB
CN351-38
—
—
39
GND
16 M Flash
DIMM PCB
CN351-39
0V
40
—
16 M Flash
DIMM PCB
CN351-40
—
—
41
—
16 M Flash
DIMM PCB
CN351-41
—
—
42
—
16 M Flash
DIMM PCB
CN351-42
—
—
4-66
—
—
12V
0V
Write possible
Write control voltage input
terminal
Ground
Signal
Name
43
—
44
Status
Function
16 M Flash
DIMM PCB
CN351-43
—
—
—
16 M Flash
DIMM PCB
CN351-44
—
—
45
—
16 M Flash
DIMM PCB
CN351-45
—
—
46
—
16 M Flash
DIMM PCB
CN351-46
—
—
47
A16 *
16 M Flash
DIMM PCB
CN351-47
48
BYTE
16 M Flash
DIMM PCB
CN351-48
49
—
Destination
3.3V
0V
3.3V
16 M Flash
DIMM PCB
CN351-49
50
16 M Flash
A1/DQ15 DIMM PCB
CN351-50
51
DQ7
16 M Flash
DIMM PCB
CN351-51
52
DQ14
16 M Flash
DIMM PCB
CN351-52
53
DQ6
16 M Flash
DIMM PCB
CN351-53
54
DQ13
16 M Flash
DIMM PCB
CN351-54
55
DQ5
16 M Flash
DIMM PCB
CN351-55
56
DQ12
16 M Flash
DIMM PCB
CN351-56
x8
x 16
0V
—
bus signal
Data bus width control
signal
—
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
Flash memory address /
data bus signal
Flash memory data bus
signal
signal
signal
signal
signal
signal
4-67
PCB Connector and
Signal Information
Pin
No.
Pin
No.
Signal
Name
Destination
57
DQ4
16 M Flash
DIMM PCB
CN351-57
58
DQ11
16 M Flash
DIMM PCB
CN351-58
59
DQ3
16 M Flash
DIMM PCB
CN351-59
60
—
16 M Flash
DIMM PCB
CN351-60
61
62
+3.3V
—
16 M Flash
DIMM PCB
CN351-61
DQ10
16 M Flash
DIMM PCB
CN351-63
64
DQ2
16 M Flash
DIMM PCB
CN351-64
65
DQ9
16 M Flash
DIMM PCB
CN351-65
66
DQ1
16 M Flash
DIMM PCB
CN351-66
67
DQ8
16 M Flash
DIMM PCB
CN351-67
68
DQ0
16 M Flash
DIMM PCB
CN351-68
69
OE
16 M Flash
DIMM PCB
CN351-69
70
CE *
16 M Flash
DIMM PCB
CN351-70
Function
3.3V
0V
3.3V
0V
3.3V
0V
—
signal
signal
signal
—
3.3V
0V
16 M Flash
DIMM PCB
CN351-62
63
4-68
Status
—
DC+3.3Vpower supply
—
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
signal
signal
signal
signal
signal
signal
Pulse
Output control signal
Pulse
Chip select signal
Signal
Name
Destination
71
A0
16 M Flash
DIMM PCB
CN351-71
72
GND
16 M Flash
DIMM PCB
CN351-72
Status
Function
bus signal
3.3V
0V
0V
Ground
PCB Connector and
Signal Information
Pin
No.
4-69
(CN14)
Pin
No.
Signal
Name
Destination
Function
Status
3.3V
1
3.3V
LVPS CN20-1
2
GND
LVPS CN20-2
0V
Ground
3
GND
LVPS CN20-3
0V
Ground
4
5V1
LVPS CN20-4
5
GND
LVPS CN20-5
6
12V1
LVPS CN20-6
7
GND
LVPS CN20-7
8
–12V1
LVPS CN20-8
4-70
0V
5.1V
0V
Ground
0V
12V
0V
DC+12V power supply
Ground
0V
5V
-12V
DC-12V power supply
4.4 Control Panel PCB (FP-D250/D350 Series)
1. Control Panel CPU PCB (FP-D250/D350 Series)
(CN401)
Signal
Name
Destination
Function
Status
5V
1
VL
Main CPU PCB
CN205-11
0V
2
VL
Main CPU PCB
CN205-12
0V
3
GND
Main CPU PCB
CN205-9
0V
Ground
4
GND
Main CPU PCB
CN205-10
0V
Ground
5
+12V2
Main CPU PCB
CN205-7
6
GND
Main CPU PCB
CN205-8
7
P_TXD
Main CPU PCB
CN205-5
8
GND
Main CPU PCB
CN205-6
9
P_RXD
Main CPU PCB
CN205-3
10
Main CPU PCB
PNL_RST CN205-4
11
P_RTS
12
P_CTS
5V
12V
0V
0V
Pulse
DC+5V power supply
DC+5V power supply
DC+12V power supply
Ground
Control panel receive
signal
0V
Pulse
Ground
Control panel transfer
signal
Ready
Host system reset
Main CPU PCB
CN205-1
Ready
Control panel
Transfer accept signal
Main CPU PCB
CN205-2
Ready
Control panel
Receive accept signal
Reset
4-71
PCB Connector and
Signal Information
Pin
No.
(CN402)
Pin
No.
Signal
Name
Destination
1
X1
Touch panel
PCB CN-1
2
Y2
Touch panel
PCB CN-2
3
X2
Touch panel
PCB CN-3
4
Y1
Touch panel
PCB CN-4
Status
Function
5V
Select
0V
Analog touch 5V
0V
Analog touch 5V
0V
5V
Select
0V
(CN403)
Pin
No.
An ordinate detecting
signal 2
An abscissa detecting
signal 2
signal 1
Signal
Name
Destination
Status
Function
1
VLCD
LCD PCB
CN-1
–17V ~ –24V
2
VEE
LCD PCB
CN-2
–24V
3
UD3
LCD PCB
CN-3
Pulse
4
UD2
LCD PCB
CN-4
Pulse
5
UD1
LCD PCB
CN-5
Pulse
6
UD0
LCD PCB
CN-6
Pulse
7
LCDAC
LCD PCB
CN-7
8
GND
LCD PCB
CN-8
9
VLC
LCD PCB
CN-9
10
CP
LCD PCB
CN-10
LCD density control
signal
LCD drive power supply
LCD data signal 3
LCD data signal 2
LCD data signal 1
LCD data signal 0
600-700 MHz
LCD AC changing
signal
0V
Ground
5V
0V
3MHz
11
LP
LCD PCB
CN-11
60µS
12
FRM
LCD PCB
CN-12
13-15mS
4-72
signal 1
DC+5V power supply
LCD data transfer clock
signal
LCD data latch pulse
signal
LCD data frame signal
Pin
No.
Signal
Name
Destination
1
INV1
LCD backlight
PCB
CN-1
2
INV2
LCD backlight
PCB
CN-2
Status
0V
Function
Ground
AC voltage
Approx. 1kVP-P
PCB Connector and
Signal Information
(CN404)
4-73
(CN406)
Pin
No.
Signal
Name
1
GND
2
DRV0
3
4
5
6
7
8
9
DRV1
DRV2
DRV3
MTRLD0
MTRLD1
MTRLD2
MTRLD3
10
DT0
11
DT1
12
DRVK0
13
14
15
16
4-74
DRVK1
DRVK2
DRVK3
GND
Status
Destination
Control panel
PCB A
CN357-15
Control panel
PCB A
CN357-16
Control panel
PCB A
CN357-13
Control panel
PCB A
CN357-14
Control panel
PCB A
CN357-11
Control panel
PCB A
CN357-12
Control panel
PCB A
CN357-9
Control panel
PCB A
CN357-10
Control panel
PCB A
CN357-7
Control panel
PCB A
CN357-8
Control panel
PCB A
CN357-5
Control panel
PCB A
CN357-6
Control panel
PCB A
CN357-3
Control panel
PCB A
CN357-4
Control panel
PCB A
CN357-1
Control panel
PCB A
CN357-2
Function
0V
Ground
ON 5V
LED drive signal 0
0V
ON 5V
LED drive signal 1
0V
ON 5V
LED drive signal 2
0V
ON 5V
LED drive signal 3
ON
0V
5V
ON
0V
5V
ON
0V
5V
ON
0V
5V
LED matrix signal 0
LED matrix signal 1
LED matrix signal 2
LED matrix signal 3
0V
0V
0V
5V
Panel open detecting
signal 0
5V
signal 1
Open
Open
ON 5V
0V
ON 5V
0V
ON 5V
0V
ON 5V
Key input matrix circuit
drive signal 0
drive signal 1
drive signal 2
drive signal 3
0V
0V
Ground
(CN407)
Signal
Name
Destination
Status
Function
Control panel
MTRKEY15 PCB A
CN356-13
ON 5V
1
Control panel
MTRKEY14 PCB A
CN356-14
ON 5V
2
3
Control panel
MTRKEY13 PCB A
CN356-11
ON 5V
Control panel
MTRKEY12 PCB A
CN356-12
ON 5V
4
5
Control panel
MTRKEY11 PCB A
CN356-9
ON 5V
Control panel
MTRKEY10 PCB A
CN356-10
ON 5V
6
ON 5V
7
Control panel
MTRKEY9 PCB A
CN356-7
Control panel
MTRKEY8 PCB A
CN356-8
ON 5V
8
9
Control panel
MTRKEY0 PCB A
CN356-5
ON 5V
Control panel
MTRKEY1 PCB A
CN356-6
ON 5V
10
11
Control panel
MTRKEY2 PCB A
CN356-3
ON 5V
Control panel
MTRKEY3 PCB A
CN356-4
ON 5V
12
13
Control panel
MTRKEY4 PCB A
CN356-1
ON 5V
Control panel
MTRKEY5 PCB A
CN356-2
ON 5V
14
data signal 15
0V
data signal 14
0V
data signal 13
0V
data signal 12
0V
data signal 11
0V
data signal 10
0V
data signal 9
0V
data signal 8
0V
data signal 0
0V
data signal 1
0V
data signal 2
0V
data signal 3
0V
data signal 4
0V
data signal 5
0V
4-75
PCB Connector and
Signal Information
Pin
No.
(CN408)
Pin
No.
Signal
Name
Destination
Control panel
PCB B
CN351-9
Status
Function
1
GND
Control panel
MTRKEY6 PCB B
CN351-10
ON 5V
2
3
Control panel
MTRKEY7 PCB B
CN351-7
ON 5V
Control panel
MTRKEY5 PCB B
CN351-8
ON 5V
4
5
Control panel
MTRKEY4 PCB B
CN351-5
ON 5V
DRVK3
Control panel
PCB B
CN351-6
ON 5V
6
ON 5V
7
DRVK2
Control panel
PCB B
CN351-3
DRVK1
Control panel
PCB B
CN351-4
ON 5V
8
9
DRVK0
Control panel
PCB B
CN351-1
ON 5V
10
GND
Control panel
PCB B
CN351-2
4-76
0V
Ground
data signal 6
0V
data signal 7
0V
data signal 5
0V
data signal 4
0V
drive signal 3
0V
drive signal 2
0V
drive signal 1
0V
drive signal 0
0V
0V
Ground
2. Control Panel PCB A (FP-D250/D350 Series)
PCB Connector and
Signal Information
(CN354 - CN355)
Not used
4-77
(CN356)
Pin
No.
Signal
Name
Destination
Status
Function
Control panel
MTRKEY4 CPU PCB
CN407-13
ON 5V
1
ON 5V
2
Control panel
MTRKEY5 CPU PCB
CN407-14
Control panel
MTRKEY2 CPU PCB
CN407-11
ON 5V
3
ON 5V
4
Control panel
MTRKEY3 CPU PCB
CN407-12
Control panel
MTRKEY0 CPU PCB
CN407-9
ON 5V
5
ON 5V
6
Control panel
MTRKEY1 CPU PCB
CN407-10
ON 5V
7
Control panel
MTRKEY9 CPU PCB
CN407-7
ON 5V
8
Control panel
MTRKEY8 CPU PCB
CN407-8
Control panel
MTRKEY11 CPU PCB
CN407-5
ON 5V
9
ON 5V
10
Control panel
MTRKEY10 CPU PCB
CN407-6
Control panel
MTRKEY13 CPU PCB
CN407-3
ON 5V
11
ON 5V
12
Control panel
MTRKEY12 CPU PCB
CN407-4
Control panel
MTRKEY15 CPU PCB
CN407-1
ON 5V
13
ON 5V
14
Control panel
MTRKEY14 CPU PCB
CN407-2
4-78
data signal 4
0V
data signal 5
0V
data signal 2
0V
data signal 3
0V
data signal 0
0V
data signal 1
0V
data signal 9
0V
data signal 8
0V
data signal 11
0V
data signal 10
0V
data signal 13
0V
data signal 12
0V
data signal 15
0V
0V
data signal 14
(CN357)
Signal
Name
Destination
1
DRVK3
Control panel
CPU PCB
CN406-15
2
GND
Control panel
CPU PCB
CN406-16
DRVK1
Control panel
CPU PCB
CN406-13
4
DRVK2
Control panel
CPU PCB
CN406-14
5
DT1
Control panel
CPU PCB
CN406-11
6
DRVK0
Control panel
CPU PCB
CN406-12
MTRLD3
Control panel
CPU PCB
CN406-9
3
7
8
9
10
11
12
13
14
Status
ON 5V
0V
5V
Open
0V
ON 5V
drive signal 0
5V
LED matrix signal 3
0V
Control panel
CPU PCB
CN406-8
ON
DRV2
signal 1
0V
ON
MTRLD1
DRV1
drive signal 2
0V
ON
5V
Open
0V
signal 0
5V
LED matrix signal 1
0V
5V
LED matrix signal 2
0V
Control panel
CPU PCB
CN406-5
Control panel
CPU PCB
CN406-6
drive signal 1
0V
Control panel
CPU PCB
CN406-7
MTRLD0
Ground
ON 5V
Control panel
CPU PCB
CN406-10
DRV3
drive signal 3
0V
DT0
MTRLD2
Function
PCB Connector and
Signal Information
Pin
No.
ON 5V
LED drive signal 3
0V
ON
5V
LED matrix signal 0
0V
Control panel
CPU PCB
CN406-3
ON 5V
Control panel
CPU PCB
CN406-4
ON 5V
LED drive signal 1
0V
LED drive signal 2
0V
4-79
Pin
No.
Signal
Name
Destination
15
GND
Control panel
CPU PCB
CN406-1
16
DRV0
Control panel
CPU PCB
CN406-2
Function
Status
0V
Ground
ON 5V
LED drive signal 0
0V
(CN358)
Pin
No.
1
2
3
4-80
Signal
Name
KEY
—
P_LED
Destination
Status
Main CPU PCB
CN205-14
0V
Function
EPA mode key input
signal
—
Main CPU PCB
CN205-13
—
2~3V
0V
ON
EPA mode LED ON/
OFF signal
3. Control Panel PCB B (FP-D250/D350 Series)
(CN351)
1
Signal
Name
Destination
DRVK0
Control panel
CPU PCB
CN408-9
Function
Status
ON 5V
drive signal 0
0V
2
GND
Control panel
CPU PCB
CN408-10
DRVK2
Control panel
CPU PCB
CN408-7
ON 5V
3
ON 5V
4
DRVK1
Control panel
CPU PCB
CN408-8
ON 5V
5
Control panel
MTRKEY4 CPU PCB
CN408-5
Ground
0V
drive signal 2
0V
drive signal 1
0V
data signal 4
0V
DRVK3
Control panel
CPU PCB
CN408-6
ON 5V
6
ON 5V
7
Control panel
MTRKEY7 CPU PCB
CN408-3
Control panel
MTRKEY5 CPU PCB
CN408-4
ON 5V
8
9
GND
Control panel
CPU PCB
CN408-1
10
Control panel
MTRKEY6 CPU PCB
CN408-2
drive signal 3
0V
data signal 7
0V
data signal 5
0V
0V
Ground
ON 5V
data signal 6
0V
4-81
PCB Connector and
Signal Information
Pin
No.
4 Control Panel PCB C (FP-D250/D350 Series)
(CN360)
Pin
No.
Signal
Name
1
MTRLD3
Destination
Control panel
PCB A
CN359-11
2
Control panel
MTRKEY8 PCB A
CN359-12
3
Control panel
PCB A
CN359-9
MTRLD1
Function
Status
5V
ON
LED matrix signal 3
0V
ON 5V
0V
5V
ON
LED matrix signal 1
0V
Control panel
PCB A
CN359-10
ON 5V
DRVK3
ON 5V
DRV3
Control panel
PCB A
CN359-7
Control panel
PCB A
CN359-8
ON 5V
DRVK1
ON 5V
DRV2
Control panel
PCB A
CN359-5
Control panel
PCB A
CN359-6
ON 5V
DRVK2
ON 5V
DRV1
Control panel
PCB A
CN359-3
Control panel
PCB A
CN359-4
ON 5V
DRVK0
11
GND
Control panel
PCB A
CN359-1
12
MTRLD2
Control panel
PCB A
CN359-2
4
5
6
7
8
9
10
4-82
data signal 8
drive signal 3
0V
LED drive signal 3
0V
drive signal 1
0V
LED drive signal 2
0V
drive signal 2
0V
LED drive signal 1
0V
drive signal 0
0V
Ground
0V
ON
5V
LED matrix signal 2
0V
(CN361)
Signal
Name
Destination
1
GND
Control panel
PCB D
CN362-5
2
DRV3
Control panel
PCB D
CN362-6
3
4
5
6
MTRLD1
DRV2
MTRLD2
DRV1
Control panel
PCB D
CN362-3
Status
0V
Control panel
PCB D
CN362-2
Ground
ON 5V
LED drive signal 3
0V
ON
5V
LED matrix signal 1
0V
Control panel
PCB D
CN362-4
Control panel
PCB D
CN362-1
Function
ON 5V
LED drive signal 2
0V
ON
5V
LED matrix signal 2
0V
ON 5V
LED drive signal 1
0V
PCB Connector and
Signal Information
Pin
No.
4-83
5 Control Panel PCB D (FP-D250/D350 Series)
(CN362)
Pin
No.
Signal
Name
1
MTRLD2
Control panel
PCB C
CN361-5
2
DRV1
Control panel
PCB C
CN361-6
3
MTRLD1
Control panel
PCB C
CN361-3
4
DRV2
Control panel
PCB C
CN361-4
5
GND
Control panel
PCB C
CN361-1
6
DRV3
Control panel
PCB C
CN361-2
4-84
Destination
Status
Function
ON
LED matrix signal 2
ON
LED drive signal 1
ON
LED matrix signal 1
ON
LED drive signal 2
0V
Ground
ON
LED drive signal 3
4.5 CCD PCB (FP-D250/D350 Series)
Pin
No.
Signal
Name
Destination
Status
SVD7
Main CPU PCB
CN209-23
Pulse
1
ISVD7
Main CPU PCB
CN209-24
Pulse
2
SVD6
Main CPU PCB
CN209-21
Pulse
3
ISVD6
Main CPU PCB
CN209-22
Pulse
4
SVD5
Main CPU PCB
CN209-19
Pulse
5
ISVD5
Main CPU PCB
CN209-20
Pulse
6
SVD4
Main CPU PCB
CN209-17
Pulse
7
ISVD4
Main CPU PCB
CN209-18
Pulse
8
SVD3
Main CPU PCB
CN209-15
Pulse
9
ISVD3
Main CPU PCB
CN209-16
Pulse
10
SVD2
Main CPU PCB
CN209-13
Pulse
11
ISVD2
Main CPU PCB
CN209-14
Pulse
12
SVD1
Main CPU PCB
CN209-11
Pulse
13
Function
Scanner image data 7 bit
(MSB)
output signal (MSB)
Inverse Scanner image
output signal
output signal
output signal
output signal
output signal
4-85
PCB Connector and
Signal Information
(CN801)
Pin
No.
Signal
Name
ISVD1
Main CPU PCB
CN209-12
Pulse
14
SVD0
Main CPU PCB
CN209-9
Pulse
15
ISVD0
Main CPU PCB
CN209-10
Pulse
16
SVCLK
Main CPU PCB
CN209-7
Pulse
17
Main CPU PCB
ISVCLK CN209-8
Pulse
18
Main CPU PCB
RLSYNC CN209-5
Pulse
19
Main CPU PCB
IRLSYNC CN209-6
Pulse
20
21
Main CPU PCB
SLSYNC_C CN209-3
22
GND
Main CPU PCB
CN209-4
0V
Ground
23
GND
Main CPU PCB
CN209-1
0V
Ground
24
GND
Main CPU PCB
CN209-2
0V
Ground
4-86
Status
Destination
Function
output signal
(LSB)
output signal (LSB)
Scanner image clock
signal
Return horizontal
differential output
differential output
Return Horizontal
Synchronizing Signal
5V
0V
(CN802)
Pin
No.
Signal
Name
Destination
1
AGND
LVPS CN16-6
2
-12V2
LVPS CN16-5
3
AGND
LVPS CN16-4
4
12V2
LVPS CN16-3
5
GND
LVPS CN16-2
6
5V2
LVPS CN16-1
Status
Function
0V
Ground
5V
-12V
0V
DC-12V power supply
Ground
12V
0V
0V
DC+12V power supply
Ground
5V
0V
DC+5V power supply
(CN803)
Pin
No.
Signal
Name
Destination
1
DA_LD
Main CPU PCB
CN210-7
2
GND
Main CPU PCB
CN210-8
3
DA_CLK
Main CPU PCB
CN210-5
4
GND
Main CPU PCB
CN210-6
5
DA_DATA
Main CPU PCB
CN210-3
6
GND
Main CPU PCB
CN210-4
0V
Ground
7
GND
Main CPU PCB
CN210-1
0V
Ground
8
GND
Main CPU PCB
CN210-2
0V
Ground
Status
5V
0V
5V
Ground
clock
0V
0V
0V
PCB Connector and
Signal Information
load signal
0V
5V
Function
D0 D1 D2
Ground
data
4-87
4.6 SO DIMM PCB (FP-D250/D350 Series)
(CN301)
Pin
No.
Signal
Name
Destination
1
GND
System control
PCB
CN4-1
2
DQ0
System control
PCB
CN4-2
3
DQ1
System control
PCB
CN4-3
4
DQ2
System control
PCB
CN4-4
5
DQ3
System control
PCB
CN4-5
6
DQ4
System control
PCB
CN4-6
7
DQ5
System control
PCB
CN4-7
8
DQ6
System control
PCB
CN4-8
9
DQ7
System control
PCB
CN4-9
10
+3.3V
System control
PCB
CN4-10
11
—
System control
PCB
CN4-11
12
A0
System control
PCB
CN4-12
13
A1
System control
PCB
CN4-13
4-88
Function
Status
Ground
0V
3.3V
0V
0V
0V
0V
0V
0V
0V
0V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
0V
—
—
3.3V
0V
0V
3.3V
Signal
Name
Destination
14
A2
System control
PCB
CN4-14
15
A3
System control
PCB
CN4-15
16
A4
System control
PCB
CN4-16
17
A5
System control
PCB
CN4-17
18
A6
System control
PCB
CN4-18
19
A10
System control
PCB
CN4-19
20
—
System control
PCB
CN4-20
21
DQ8
System control
PCB
CN4-21
22
DQ9
System control
PCB
CN4-22
23
DQ10
System control
PCB
CN4-23
24
DQ11
System control
PCB
CN4-24
25
DQ12
System control
PCB
CN4-25
26
DQ13
System control
PCB
CN4-26
27
DQ14
System control
PCB
CN4-27
Status
Function
3.3V
0V
0V
0V
0V
0V
0V
3.3V
3.3V
3.3V
3.3V
3.3V
—
PCB Connector and
Signal Information
Pin
No.
—
3.3V
0V
0V
0V
0V
0V
0V
0V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
4-89
Pin
No.
Signal
Name
Destination
28
A7
System control
PCB
CN4-28
29
A11
System control
PCB
CN4-29
30
+3.3V
System control
PCB
CN4-30
31
A8
System control
PCB
CN4-31
32
A9
System control
PCB
CN4-32
33
RAS3
System control
PCB
CN4-33
34
RAS2
System control
PCB
CN4-34
35
DQ15
System control
PCB
CN4-35
36
—
System control
PCB
CN4-36
37
DQ16
System control
PCB
CN4-37
38
DQ17
System control
PCB
CN4-38
39
GND
System control
PCB
CN4-39
40
CAS0
System control
PCB
CN4-40
41
CAS2
System control
PCB
CN4-41
4-90
Status
Function
3.3V
0V
0V
3.3V
3.3V
0V
3.3V
0V
0V
3.3V
Pulse
Pulse
3.3V
0V
—
—
3.3V
0V
0V
3.3V
0V
Ground
Pulse
signal
Pulse
signal
Signal
Name
Destination
42
CAS3
System control
PCB
CN4-42
43
CAS1
System control
PCB
CN4-43
44
RAS0
System control
PCB
CN4-44
45
RAS1
System control
PCB
CN4-45
46
—
System control
PCB
CN4-46
47
W
System control
PCB
CN4-47
48
—
System control
PCB
CN4-48
49
DQ18
System control
PCB
CN4-49
50
DQ19
System control
PCB
CN4-50
51
DQ20
System control
PCB
CN4-51
52
DQ21
System control
PCB
CN4-52
53
DQ22
System control
PCB
CN4-53
54
DQ23
System control
PCB
CN4-54
55
—
System control
PCB
CN4-55
Status
Function
Pulse
signal
Pulse
signal
Pulse
Pulse
—
—
Pulse
—
PCB Connector and
Signal Information
Pin
No.
—
3.3V
0V
0V
0V
0V
0V
0V
3.3V
3.3V
3.3V
3.3V
3.3V
—
—
4-91
Pin
No.
Signal
Name
Destination
56
DQ24
System control
PCB
CN4-56
57
DQ25
System control
PCB
CN4-57
58
DQ26
System control
PCB
CN4-58
59
DQ28
System control
PCB
CN4-59
60
DQ27
System control
PCB
CN4-60
61
+3.3V
System control
PCB
CN4-61
62
DQ29
System control
PCB
CN4-62
63
DQ30
System control
PCB
CN4-63
64
DQ31
System control
PCB
CN4-64
Status
Function
3.3V
0V
0V
0V
0V
0V
3.3V
3.3V
3.3V
3.3V
3.3V
0V
3.3V
0V
0V
3.3V
65
—
System control
PCB
CN4-65
—
—
66
—
System control
PCB
CN4-66
—
—
67
—
System control
PCB
CN4-67
—
—
68
—
System control
PCB
CN4-68
—
—
69
—
System control
PCB
CN4-69
—
—
4-92
Signal
Name
70
—
71
72
Destination
Status
Function
System control
PCB
CN4-70
—
—
—
System control
PCB
CN4-71
—
—
GND
System control
PCB
CN4-72
0V
Ground
PCB Connector and
Signal Information
Pin
No.
4-93
4.7 16 M Flash DIMM PCB (FP-D250/D350 Series)
(CN351)
Pin
No.
Signal
Name
Destination
1
GND
System control
PCB
CN5-1
2
A1
System control
PCB
CN5-2
3
A2
System control
PCB
CN5-3
4
A3
System control
PCB
CN5-4
5
A4
System control
PCB
CN5-5
6
A5
System control
PCB
CN5-6
7
A6
System control
PCB
CN5-7
8
A7
System control
PCB
CN5-8
9
A17 *
System control
PCB
CN5-9
10
+3.3V
System control
PCB
CN5-10
11
A18 *
System control
PCB
CN5-11
12
A19 *
System control
PCB
CN5-12
13
A8
System control
PCB
CN5-13
4-94
Function
Status
0V
Ground
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
bus signal
bus signal
bus signal
bus signal
bus signal
bus signal
bus signal
bus signal
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
bus signal
bus signal
bus signal
Signal
Name
14
A9
System control
PCB
CN5-14
15
A10
System control
PCB
CN5-15
16
A11
System control
PCB
CN5-16
17
RD/BY
System control
PCB
CN5-17
18
WP
System control
PCB
CN5-18
19
RP/
RESET
20
WE
System control
PCB
CN5-20
21
A12
System control
PCB
CN5-21
22
A13
System control
PCB
CN5-22
23
A14
System control
PCB
CN5-23
24
A15
System control
PCB
CN5-24
25
A16
System control
PCB
CN5-25
26
A17
System control
PCB
CN5-26
27
A18
System control
PCB
CN5-27
Destination
System control
PCB
CN5-19
Function
Status
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
RD
BY
0V
bus signal
bus signal
signal
Pulse
Reset
bus signal
3.3V
Reset signal
0V
Pulse
PCB Connector and
Signal Information
Pin
No.
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
bus signal
bus signal
bus signal
bus signal
bus signal
bus signal
bus signal
4-95
Pin
No.
Signal
Name
Destination
28
A19
System control
PCB
CN5-28
29
A20
System control
PCB
CN5-29
30
+3.3V
System control
PCB
CN5-30
31
—
Status
3.3V
0V
3.3V
0V
A21
System control
PCB
CN5-32
33
CE
System control
PCB
CN5-33
bus signal
bus signal
3.3V
0V
System control
PCB
CN5-31
32
Function
—
—
3.3V
0V
bus signal
Pulse
Chip select signal
34
—
System control
PCB
CN5-34
35
VPP
System control
PCB
CN5-35
36
—
System control
PCB
CN5-36
—
—
37
—
System control
PCB
CN5-37
—
—
38
—
System control
PCB
CN5-38
—
—
39
GND
System control
PCB
CN5-39
0V
40
—
System control
PCB
CN5-40
—
—
41
—
System control
PCB
CN5-41
—
—
4-96
—
—
5V
0V
Write possible
terminal
Ground
Signal
Name
42
—
43
Status
Function
System control
PCB
CN5-42
—
—
—
System control
PCB
CN5-43
—
—
44
—
System control
PCB
CN5-44
—
—
45
—
System control
PCB
CN5-45
—
—
46
—
System control
PCB
CN5-46
—
—
47
A16 *
System control
PCB
CN5-47
48
BYTE
System control
PCB
CN5-48
49
—
Destination
3.3V
0V
3.3V
System control
PCB
CN5-49
50
A1/
DQ15
51
DQ7
System control
PCB
CN5-51
52
DQ14
System control
PCB
CN5-52
53
DQ6
System control
PCB
CN5-53
54
DQ13
System control
PCB
CN5-54
55
DQ5
System control
PCB
CN5-55
System control
PCB
CN5-50
x8
x 16
0V
—
bus signal
signal
—
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
data bus signal
signal
signal
signal
signal
signal
4-97
PCB Connector and
Signal Information
Pin
No.
Pin
No.
Signal
Name
Destination
56
DQ12
System control
PCB
CN5-56
57
DQ4
System control
PCB
CN5-57
58
DQ11
System control
PCB
CN5-58
59
DQ3
System control
PCB
CN5-59
60
—
System control
PCB
CN5-60
61
62
+3.3V
—
System control
PCB
CN5-61
DQ10
System control
PCB
CN5-63
64
DQ2
System control
PCB
CN5-64
65
DQ9
System control
PCB
CN5-65
66
DQ1
System control
PCB
CN5-66
67
DQ8
System control
PCB
CN5-67
68
DQ0
System control
PCB
CN5-68
69
OE
System control
PCB
CN5-69
Function
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
—
signal
signal
signal
signal
—
3.3V
DC+3.3Vpower supply
0V
System control
PCB
CN5-62
63
4-98
Status
—
—
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
signal
signal
signal
signal
signal
signal
Pulse
Signal
Name
Destination
70
CE *
System control
PCB
CN5-70
71
A0
System control
PCB
CN5-71
72
GND
System control
PCB
CN5-72
Status
Function
Pulse
Chip select signal
bus signal
3.3V
0V
0V
Ground
PCB Connector and
Signal Information
Pin
No.
4-99
4.8 LSU Image Data Control PCB (FP-D250/D350Series)
(CN1)
Pin
No.
Signal
Name
Destination
a1
ENABLE0
Main CPU PCB
CN38-26
a2
CAL0
Main CPU PCB
CN38-25
a3
ADJ10
Main CPU PCB
CN38-24
a4
GND
Main CPU PCB
CN38-23
a5
SEMDEM1
Main CPU PCB
CN38-22
a6
GND
Main CPU PCB
CN38-21
a7
LEMTEM1
Main CPU PCB
CN38-20
a8
GND
Main CPU PCB
CN38-19
a9
LDA0
Main CPU PCB
CN38-18
a10
GND
Main CPU PCB
CN38-17
a11
LDA1
Main CPU PCB
CN38-16
a12
GND
Main CPU PCB
CN38-15
a13
LDA2
Main CPU PCB
CN38-14
a14
GND
Main CPU PCB
CN38-13
a15
LDA3
Main CPU PCB
CN38-12
a16
GND
Main CPU PCB
CN38-11
a17
LDA4
Main CPU PCB
CN38-10
a18
GND
Main CPU PCB
CN38-9
4-100
Status
Function
5V
0V
5V
0V
5V
0V
0V
Laser A APC control
signal
Ground
Pulse
0V
0V
Laser A PWM mode
change signal
Ground
Pulse
0V
0V
Laser A PWM mode
change signal
Ground
Pulse
0V
0V
Ground
Pulse
0V
0V
Ground
Pulse
0V
0V
Ground
Pulse
0V
0V
Ground
Pulse
0V
0V
signal
Ground
Signal
Name
Destination
a19
LDA5
Main CPU PCB
CN38-8
a20
GND
Main CPU PCB
CN38-7
a21
LDA6
Main CPU PCB
CN38-6
a22
GND
Main CPU PCB
CN38-5
a23
LDA7
Main CPU PCB
CN38-4
a24
GND
Main CPU PCB
CN38-3
a25
LCLK0
Main CPU PCB
CN38-2
a26
GND
Main CPU PCB
CN38-1
b1
ADJ2
Main CPU PCB
CN38-52
b2
GND
Main CPU PCB
CN38-51
b3
SEMDEM2
Main CPU PCB
CN38-50
b4
GND
Main CPU PCB
CN38-49
b5
LEMTEM2
Main CPU PCB
CN38-48
b6
GND
Main CPU PCB
CN38-47
b7
LDB0
Main CPU PCB
CN38-46
b8
GND
Main CPU PCB
CN38-45
b9
LDB1
Main CPU PCB
CN38-44
b10
GND
Main CPU PCB
CN38-43
b11
LDB2
Main CPU PCB
CN38-42
b12
GND
Main CPU PCB
CN38-41
Status
Function
Pulse
0V
0V
Ground
Pulse
0V
0V
Ground
Pulse
0V
0V
Ground
Pulse
0V
0V
clock signal
Ground
5V
0V
0V
Laser B APC control
signal
Ground
Pulse
0V
0V
Laser B PWM mode
change signal
Ground
Pulse
0V
0V
Laser B PWM mode
change signal
Ground
Pulse
0V
0V
Ground
Pulse
0V
0V
Ground
Pulse
0V
0V
PCB Connector and
Signal Information
Pin
No.
Ground
4-101
Pin
No.
Signal
Name
Destination
Status
Pulse
b13
LDB3
Main CPU PCB
CN38-40
b14
GND
Main CPU PCB
CN38-39
b15
LDB4
Main CPU PCB
CN38-38
b16
GND
Main CPU PCB
CN38-37
b17
LDB5
Main CPU PCB
CN38-36
b18
GND
Main CPU PCB
CN38-35
b19
LDB6
Main CPU PCB
CN38-34
b20
GND
Main CPU PCB
CN38-33
b21
LDB7
Main CPU PCB
CN38-32
b22
+5VL
Main CPU PCB
CN38-31
0V
b23
+5VL
Main CPU PCB
CN38-30
0V
b24
GND
Main CPU PCB
CN38-29
b25
VL
Main CPU PCB
CN38-28
0V
b26
VL
Main CPU PCB
CN38-27
0V
4-102
Function
0V
0V
Ground
Pulse
0V
0V
Ground
Pulse
0V
0V
Ground
Pulse
0V
0V
Ground
Pulse
0V
5V
5V
0V
DC+5V power supply
DC+5V power supply
Ground
5V
5V
DC+5V power supply
DC+5V power supply
(Pin photo sensor connector)
Signal
Name
Destination
Status
0V
1
GND
Main CPU PCB
CN36-4
2
LSULSYNC
Main CPU PCB
CN36-3
3
GND
Main CPU PCB
CN36-2
4
VL
Main CPU PCB
CN36-1
Function
Ground
Pulse
LSU main scan
0V
Ground
5V
0V
(Polygon motor connector)
Pin
No.
Signal
Name
Destination
1
PMCLK
Main CPU PCB
CN32-6
2
PGND
Main CPU PCB
CN32-5
3
PMCNT
Main CPU PCB
CN32-4
4
PMLOCK
Main CPU PCB
CN32-3
5
PGND
Main CPU PCB
CN32-2
6
PMVP
Main CPU PCB
CN32-1
DC+5V power supply
Status
Function
Pulse
0V
0V
Power ground
24V
0V
Stop Rotates
0V
Polygon motor drive
control signal
Polygon motor lock
detecting signal
Power ground
24V
0V
Polygon motor drive
clock signal
PCB Connector and
Signal Information
Pin
No.
DC+24V power supply
4-103
4.9 Automatic Duplex Unit (ADU) Driver PCB (Option)
(FP-D250/D350Series)
(CN651)
Pin
No.
Signal
Name
Destination
Function
Status
24V
1
PVP
Main CPU PCB
CN11-2
2
PGND
Main CPU PCB
CN11-1
3
PVP
Main CPU PCB
CN11-4
4
PGND
Main CPU PCB
CN11-3
5
F32AOUT
Main CPU PCB
CN11-5
6
PSLSN
Main CPU PCB
CN11-14
7
DXFENB
Main CPU PCB
CN11-16
8
PSWSN
Main CPU PCB
CN11-15
9
QLTH
Main CPU PCB
CN11-6
Pulse
signal
10
DXMCA
Main CPU PCB
CN11-10
Pulse
signal A
11
F32ACLK
12
DXMCAB
Main CPU PCB
CN11-11
13
QLD
Main CPU PCB
CN11-8
14
DXMCB
Main CPU PCB
CN11-12
15
DXIN
Main CPU PCB
CN11-9
16
DXMCBB
Main CPU PCB
CN11-13
17
VL
Main CPU PCB
CN11-17
18
GND
Main CPU PCB
CN11-18
4-104
Main CPU PCB
CN11-7
0V
0V
Power ground
24V
0V
0V
0V
5V
Length paper guide
sensor signal
0V
enable signal
5V
0V
Width paper guide
sensor signal
receive clock output
signal
32
Pulse
Pulse
Shift
0V
5V
ON
DC+24Vpower supply
Power ground
Pulse
ON
DC+24Vpower supply
signal A
32 bit data receive shift
/ load control signal
Load
Pulse
signal B
signal
Pulse
signal B
5V
0V
0V
DC+5V power supply
Ground
(CN652)
Signal
Name
Destination
Status
0V
1
GND
Paper detecting
sensor
CN-3
2
DXPESN
Paper detecting
sensor
CN-2
3
VL
Paper detecting
sensor
CN-1
4
—
GND
Paper pass
sensor 2
CN-3
6
DXPSN2
Paper pass
sensor 2
CN-2
7
VL
Paper pass
sensor 2
CN-1
—
0V
GND
Paper pass
sensor 1
CN-3
10
DXPSN1
Paper pass
sensor 1
CN-2
11
VL
Paper pass
sensor 1
CN-1
5V
DC+5V power supply
0V
—
—
0V
Ground
5V
ON
Paper pass sensor 2
paper detecting signal
0V
5V
DC+5V power supply
0V
—
—
9
Ground
Detecting
—
5
8
5V
Function
—
0V
Ground
5V
ON
Paper pass sensor 1
0V
5V
0V
DC+5V power supply
4-105
PCB Connector and
Signal Information
Pin
No.
(CN653)
Pin
No.
Signal
Name
Destination
1
DXLAB
Length guide
motor
CN-5
2
DXLA
Length guide
motor
CN-4
3
DXLB
Length guide
motor
CN-3
4
COM
Length guide
motor
CN-2
5
DXLBB
Length guide
motor
CN-1
6
—
DXWAB
Width guide
motor
CN-5
8
DXWA
Width guide
motor
CN-4
9
DXWB
Width guide
motor
CN-3
10
COM
Width guide
motor
CN-2
11
DXWBB
Width guide
motor
CN-1
4-106
Pulse
Pulse
Pulse
24V
DC+24V power supply
0V
Pulse
—
—
7
Function
Status
—
Pulse
Pulse
Pulse
24V
0V
DC+24V power supply
Pulse
(CN654)
Signal
Name
Destination
1
+12V2
Paper feed
clutch
CN-2
2
VP
Paper feed
clutch
CN-1
3
DXMA
ADU main
motor
CN-1
4
COM
ADU main
motor
CN-3
5
DXMAB
ADU main
motor
CN-5
6
DXMB
ADU main
motor
CN-7
7
COM
ADU main
motor
CN-9
8
DXMBB
ADU main
motor
CN-11
Status
Function
24V
ON
0V
Clutch drive signal
24V
DC+24V power supply
0V
Pulse
DC+24V power supply
0V
Pulse
Pulse
24V
0V
DC+24V power supply
Pulse
4-107
PCB Connector and
Signal Information
Pin
No.
(CN655)
Pin
No.
Signal
Name
Destination
1
GND
Paper length
sensor
CN-3
2
PSLSN
Paper length
sensor
CN-2
3
VL
Paper length
sensor
CN-1
—
4
GND
Paper width
sensor
CN-3
6
PSWSN
Paper width
sensor
CN-2
7
VL
Paper width
sensor
CN-1
Function
Ground
0V
5V
ON
0V
Paper length guide
home position detecting
signal
5V
DC+5V power supply
0V
—
—
—
5
4-108
Status
Ground
0V
5V
ON
Paper width guide home
0V
5V
0V
DC+5V power supply
4.10 Low Voltage Power Supply PCB (FP-D250/D350Series)
(CN1/CN2)
Signal
Name
Destination
Status
Function
CN1
AC1
Power cord
AC 120V / AC 220 240V power supply
CN2
AC2
Power cord
(CN3)
Pin
No.
Signal
Name
1
AC1
2
AC1
3
AC2
4
AC2
Destination
Status
Power switch
(CN4)
Pin
No.
Function
Signal
Name
Destination
Status
Function
1
2
PVP
AC driver
PCB
CN205-1
Door SW open : 0V
Door SW close : 24V
Wait / Error :
12V
DC+24V power supply
3
4
PVPO
AC driver
PCB
CN205-4
Door SW open : 0V
Door SW close : 24V
Wait / Error :
12V
DC+24V power supply
(CN5)
Pin
No.
Signal
Name
Destination
Status
Function
1
AC1
Dehumidifier
heater AC1
2
AC2
Dehumidifier
heater AC2
4-109
PCB Connector and
Signal Information
Pin
No.
(CN6)
Pin
No.
Signal
Name
1
PGND
2
PVP
Destination
Status
Main motor
CN1-2
Main motor
CN1-1
Function
Power ground
0V
Door SW open : 0V
Door SW close : 24V
Wait / Error :
12V
(CN7)
Pin
No.
1
2
3
DC+24V power supply
Signal
Name
PSAC1
—
PSAC2
Destination
Function
Status
AC driver PCB
CN204-1
—
—
—
AC driver PCB
CN204-3
(CN8)
Pin
No.
Signal
Name
1
SOTOVP
2
—
—
—
—
3
PGND
CNSOT-5
0V
Power ground
Destination
CNSOT-1
Status
Function
24V
0V
(CN9)
Pin
No.
1
DC+24V power supply
Signal
Name
ADFVP
Destination
CNADF-1
Status
Function
24V
0V
DC+24V power supply
2
—
—
—
—
3
PGND
CNADF-5
0V
Power ground
4-110
(CN10)
Signal
Name
Destination
Function
Status
1
VA
Main CPU PCB
CN9-1
2
AGND
Main CPU PCB
CN9-2
0V
Ground
3
GND
Main CPU PCB
CN9-3
0V
Ground
4
GND
Main CPU PCB
CN9-4
0V
Ground
5
VL
Main CPU PCB
CN9-5
0V
6
VL
Main CPU PCB
CN9-6
0V
12V
0V
5V
5V
(CN11)
Pin
No.
DC+12V power supply
DC+5V power supply
DC+5V power supply
Signal
Name
Destination
Status
Function
1
PGND
Main CPU PCB
CN24-1
0V
Power ground
2
PGND
Main CPU PCB
CN24-2
0V
Power ground
3
PGND
Main CPU PCB
CN24-3
0V
Power ground
4
PGND
Main CPU PCB
CN24-4
0V
Power ground
5
SVP
Main CPU PCB
CN24-5
0V
6
PVP
Main CPU PCB
CN24-6
0V
7
PVP
Main CPU PCB
CN24-7
0V
8
PMVP
Main CPU PCB
CN24-8
0V
24V
24V
24V
24V
PCB Connector and
Signal Information
Pin
No.
DC+24V power supply
DC+24V power supply
DC+24V power supply
DC+24V power supply
4-111
(CN12)
Pin
No.
Signal
Name
Destination
Status
Function
24V
1
PAPERVP CNSQ-1
2
PAPERVP CNSQ-2
3
PGND
CNSQ-3
0V
Power ground
4
PGND
CNSQ-8
0V
Power ground
0V
24V
0V
(CN13)
Pin
No.
DC+24V power supply
DC+24V power supply
Signal
Name
Destination
Status
Function
24V
1
PAPERVP CNSCN-1
2
PAPERVP CNSCN-2
3
PGND
CNSCN-3
0V
Power ground
4
PGND
CNSCN-4
0V
Power ground
4-112
0V
24V
0V
DC+24V power supply
DC+24V power supply
(CN15)
Signal
Name
Destination
1
12BT
Battery
2
GND
Battery
Status
Function
12V
0V
0V
Ground
(CN16)
Pin
No.
Signal
Name
Destination
1
VL
CCD PCB
CN802-6
2
SG
CCD PCB
CN802-5
3
VA
CCD PCB
CN802-4
4
AGND
CCD PCB
CN802-3
5
-VA
CCD PCB
CN802-2
6
AGND
CCD PCB
CN802-1
Status
Function
5V
0V
0V
DC+5V power supply
Ground
12V
0V
0V
DC+12V power supply
Ground
0V
-12V
0V
DC-12V power supply
Ground
(CN17)
Pin
No.
DC+16V power supply
Signal
Name
Destination
Function
Status
1
ACDWN
Main CPU PCB
CN1-7
2
EPACNT
Main CPU PCB
CN1-6
OFF
ON
3
BTCNT
Main CPU PCB
CN1-5
OFF
ON
4
ZCDWN
Main CPU PCB
CN1-4
5
ZCRS
Main CPU PCB
CN1-3
6
PVCNT
Main CPU PCB
CN1-2
OFF
ON
7
SVCNT
Main CPU PCB
CN1-1
OFF
ON
0V
AC ON AC OFF
0V
0V
Power supply down
signal
signal
Pulse
Zero cross signal
0V
Printer 24 V ON / OFF
signal
0V
Scanner 24 V ON / OFF
signal
4-113
PCB Connector and
Signal Information
Pin
No.
(CN18)
Pin
No.
Signal
Name
Destination
Function
Status
1
12V1
HDD1/2
CNPHD1-1
2
GND
HDD1/2
CNPHD1-2
0V
Ground
3
GND
HDD1/2
CNPHD1-3
0V
Ground
4
5V1
HDD1/2
CNPHD1-4
12V
0V
5V
0V
DC+5V power supply
(CN19)
Pin
No.
DC+12V power supply
Signal
Name
Destination
Function
Status
1
12V1
HDD3/Zip
CNPHD1-1
2
GND
HDD3/Zip
CNPHD1-2
0V
Ground
3
GND
HDD3/Zip
CNPHD1-3
0V
Ground
4
5V1
HDD3/Zip
CNPHD1-4
4-114
12V
0V
5V
0V
DC+12V power supply
DC+5V power supply
(CN20)
Signal
Name
Destination
Status
Function
1
3.3V
System control
PCB
CN14-1
2
GND
System control
PCB
CN14-2
0V
Ground
3
GND
System control
PCB
CN14-3
0V
Ground
4
VLC
System control
PCB
CN14-4
5
GND
System control
PCB
CN14-5
6
12V1
System control
PCB
CN14-6
7
GND
System control
PCB
CN14-7
8
-12V1
System control
PCB
CN14-8
3.3V
0V
5.1V
0V
0V
0V
0V
Ground
12V
0V
DC+12V power supply
Ground
-12V
DC-12V power supply
4-115
PCB Connector and
Signal Information
Pin
No.
(CN22)
Pin
No.
Signal
Name
Destination
Status
Function
1
3.3V
Printer control
PCB S1-1
2
GND
Printer control
PCB S1-2
0V
Ground
3
GND
Printer control
PCB S1-3
0V
Ground
4
5V1
Printer control
PCB S1-4
(CN23) Not used
4-116
3.3V
0V
5.1V
0V
4.11 High Voltage Power supply PCB (FP-D250/D350 Series)
(CNHV)
Signal
Name
Destination
Status
Function
24V
1
PVP
Main CPU PCB
CN10-12
2
PGND
Main CPU PCB
CN10-11
3
HVDCNT
Main CPU PCB
CN10-10
4
HVLKD
Main CPU PCB
CN10-9
Leak
5
TREF
Main CPU PCB
CN10-8
Analog
0-8.5V
6
HVTCNT
Main CPU PCB
CN10-7
7
HVLKT
Main CPU PCB
CN10-6
Leak
8
BREF
Main CPU PCB
CN10-5
Analog
0-8.5V
9
HVBCNT
Main CPU PCB
CN10-4
10
GREF
Main CPU PCB
CN10-3
11
HVCNT
Main CPU PCB
CN10-2
12
HVLKC
Main CPU PCB
CN10-1
0V
0V
24V
24V
24V
Power ground
ON
ON
ON
Analog
0-8.5V
24V
DC+24V power supply
ON
Leak
ON / OFF signal
Transfer voltage
adjustment signal
ON / OFF signal
Bias ON / OFF signal
signal
Charge high voltage ON
/ OFF signal
Charge high voltage
4-117
PCB Connector and
Signal Information
Pin
No.
4.12 AC Drive PCB (FP-D250/D350 Series)
(CN201)
Pin
No.
Signal
Name
1
AC1
2
AC1
3
AC2
4
AC2
Destination
Status
Power switch
(CN203)
Pin
No.
Signal
Name
Destination
1
DSAC1
Fuser
thermostat
3
FULP1
Fuser lamp
Status
1
3
Signal
Name
PSAC1
—
2
PSAC2
Destination
Status
LVPS
CN7-1
—
Function
—
LVPS
CN7-3
—
(CN205)
Pin
No.
Function
(CN204)
Pin
No.
Function
Signal
Name
Destination
Status
Function
1
2
PVP
LVPS
CN4-1/2
Door SW open : 0V
Door SW close : 24V
Wait / Error :
12V
DC+24V power supply
3
4
PVPO
LVPS
CN4-3/4
Door SW open : 0V
Door SW close : 24V
Wait / Error :
12V
DC+24V power supply
4-118
(CN206)
Signal
Name
Destination
1
VL
Main CPU PCB
CN5-11
2
HTTR1
Main CPU PCB
CN5-9
3
—
Main CPU PCB
CN5-10
Status
Function
5V
0V
OFF
ON
–
DC+5V power supply
Fuser lamp ON / OFF
signal
—
PCB Connector and
Signal Information
Pin
No.
4-119
4.13 Printer Controller PCB (Option) (FP-D250/D350 Series)
(CNS1)
Pin
No.
Signal
Name
Status
Destination
Function
3.3V
1
3.3V
LVPS CN22-1
2
GND
LVPS CN22-2
0V
Ground
3
GND
LVPS CN22-3
0V
Ground
4
5V
LVPS CN22-4
0V
5V
0V
(CNJ1)
Pin
No.
DC+5V power supply
Signal
Name
Destination
Status
0V
1
GND
SDRAM DIMM-1
2
DQ0
SDRAM DIMM-2
3
DQ1
SDRAM DIMM-3
4
DQ2
SDRAM DIMM-4
5
DQ3
SDRAM DIMM-5
6
+3.3V
SDRAM DIMM-6
7
DQ4
SDRAM DIMM-7
8
DQ5
SDRAM DIMM-8
9
DQ
SDRAM DIMM-9
10
D7
SDRAM DIMM-10
3.3V
11
Q8
SDRAM DIMM-11
3.3V
Function
Ground
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
0V
Data 0
Data 1
Data 2
Data 3
Data 4
Data 5
Data 6
Data 7
Data 8
0V
12
4-120
GND
SDRAM DIMM-12
0V
Ground
Signal
Name
Status
Destination
Function
3.3V
13
DQ9
SDRAM DIMM-13
14
DQ10
SDRAM DIMM-14
15
DQ11
SDRAM DIMM-15
16
DQ12
SDRAM DIMM-16
17
DQ13
SDRAM DIMM-17
18
+3.3V
SDRAM DIMM-18
19
DQ14
SDRAM DIMM-19
20
DQ15
SDRAM DIMM-20
21
—
SDRAM DIMM-21
—
—
22
—
SDRAM DIMM-22
—
—
SDRAM DIMM-23
0V
23
GND
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
Data 9
Data 10
Data 11
Data 12
Data 13
Data 14
Data 15
PCB Connector and
Signal Information
Pin
No.
Ground
24
—
SDRAM DIMM-24
—
—
25
—
SDRAM DIMM-25
—
—
26
+3.3V
SDRAM DIMM-26
27
-WE
SDRAM DIMM-27
3.3V
0V
5V
Write enable
0V
28
DQM0
SDRAM DIMM-28
5V
Data input/output mask 0
0V
29
30
DQM1
-CS0
SDRAM DIMM-29
5V
0V
5V
SDRAM DIMM-30
Chip select 0
0V
31
32
—
GND
SDRAM DIMM-31
—
SDRAM DIMM-32
0V
—
Ground
4-121
Pin
No.
Signal
Name
Status
Destination
Function
3.3V
33
A0
SDRAM DIMM-33
34
A2
SDRAM DIMM-34
3.3V
35
A4
SDRAM DIMM-35
3.3V
36
A6
SDRAM DIMM-36
3.3V
37
A8
SDRAM DIMM-37
3.3V
0V
0V
0V
0V
Address 0
Address 2
Address 4
Address 6
Address 8
0V
38
A10
SDRAM DIMM-38
3.3V
0V
39
—
SDRAM DIMM-39
40
+3.3V
SDRAM DIMM-40
41
+3.3V
SDRAM DIMM-41
42
CLK0
SDRAM DIMM-42
43
GND
SDRAM DIMM-43
0V
SDRAM DIMM-44
—
44
—
Address 10
—
—
3.3V
0V
3.3V
0V
Clock 0
Ground
—
5V
45
-CS2
SDRAM DIMM-45
46
DQM2
SDRAM DIMM-46
47
DQM3
SDRAM DIMM-47
48
—
SDRAM DIMM-48
49
+3.3V
SDRAM DIMM-49
50
—
SDRAM DIMM-50
—
—
51
—
SDRAM DIMM-51
—
—
52
—
SDRAM DIMM-52
—
—
4-122
0V
5V
0V
5V
0V
—
—
3.3V
0V
Chip select 2
Pin
No.
53
Signal
Name
—
Destination
Status
Function
SDRAM DIMM-53
—
—
0V
54
GND
SDRAM DIMM-54
55
DQ16
SDRAM DIMM-55
56
DQ17
SDRAM DIMM-56
57
DQ18
SDRAM DIMM-57
58
DQ19
SDRAM DIMM-58
59
+3.3V
SDRAM DIMM-59
60
DQ20
SDRAM DIMM-60
61
—
SDRAM DIMM-61
—
—
62
—
SDRAM DIMM-62
—
—
63
CKE1
SDRAM DIMM-63
64
GND
SDRAM DIMM-64
65
DQ21
SDRAM DIMM-65
66
DQ22
SDRAM DIMM-66
67
DQ23
SDRAM DIMM-67
68
GND
SDRAM DIMM-68
69
DQ24
SDRAM DIMM-69
70
DQ25
SDRAM DIMM-70
71
DQ26
SDRAM DIMM-71
72
DQ27
SDRAM DIMM-72
Ground
3.3V
0V
3.3V
0V
3.3V
0V
Data 16
Data 17
Data 18
3.3V
0V
Data 19
3.3V
0V
3.3V
5V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
Data 20
PCB Connector and
Signal Information
0V
Clock enable 1
Ground
Data 21
Data 22
Data 23
Ground
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
Data 24
Data 25
Data 26
Data 27
4-123
Pin
No.
Signal
Name
Status
Destination
Function
3.3V
73
+3.3V
SDRAM DIMM-73
74
DQ28
SDRAM DIMM-74
75
DQ29
SDRAM DIMM-75
76
DQ30
SDRAM DIMM-76
77
DQ31
SDRAM DIMM-77
78
GND
SDRAM DIMM-78
79
CLK2
SDRAM DIMM-79
80
—
SDRAM DIMM-80
—
—
81
—
SDRAM DIMM-81
—
—
82
SDA
SDRAM DIMM-82
83
SCL
SDRAM DIMM-83
84
+3.3V
SDRAM DIMM-84
85
GND
SDRAM DIMM-85
86
DQ32
SDRAM DIMM-86
87
DQ33
SDRAM DIMM-87
88
DQ34
SDRAM DIMM-88
89
DQ35
SDRAM DIMM-89
90
+3.3V
SDRAM DIMM-90
91
DQ36
SDRAM DIMM-91
92
DQ37
SDRAM DIMM-92
4-124
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
0V
Data 28
Data 29
Data 30
Data 31
Ground
Clock 2
3.3V
0V
5V
0V
3.3V
0V
Serial PD address /data
input/output
Seral PD clock
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
Ground
Data 32
Data 33
Data 34
Data 35
Data 36
Signal
Name
Status
Destination
Function
3.3V
93
DQ38
SDRAM DIMM-93
94
DQ39
SDRAM DIMM-94
95
DQ40
SDRAM DIMM-95
96
GND
SDRAM DIMM-96
97
DQ41
SDRAM DIMM-97
98
DQ42
SDRAM DIMM-98
99
DQ43
SDRAM DIMM-99
100
DQ44
101
DQ45
SDRAM DIMM100
SDRAM
DIMM-101
102
+3.3V
SDRAM
DIMM-102
103
DQ46
SDRAM
DIMM-103
3.3V
104
DQ47
SDRAM
DIMM-104
3.3V
105
—
SDRAM
DIMM-105
—
106
—
SDRAM
DIMM-106
—
—
SDRAM
DIMM-107
0V
—
107
GND
0V
3.3V
0V
3.3V
0V
0V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
0V
0V
—
SDRAM
DIMM-108
—
109
—
SDRAM
DIMM-109
—
110
+3.3V
SDRAM
DIMM-110
111
-CAS
SDRAM
DIMM-111
112
DQM4
SDRAM
DIMM-112
Data 38
Data 39
Data 40
3.3V
108
Data 37
Ground
Data 41
Data 42
Data 43
Data 44
Data 45
Data 46
Data 47
Ground
—
3.3V
0V
5V
0V
5V
0V
Column address strove
4-125
PCB Connector and
Signal Information
Pin
No.
Pin
No.
Signal
Name
Status
Destination
113
DQM5
SDRAM
DIMM-113
114
—
SDRAM
DIMM-114
5V
0V
—
115
-RAS
SDRAM
DIMM-115
116
GND
SDRAM
DIMM-116
117
A1
SDRAM
DIMM-117
3.3V
118
A3
SDRAM
DIMM-118
3.3V
119
A5
SDRAM
DIMM-119
3.3V
120
A7
3.3V
121
A9
SDRAM
DIMM-120
SDRAM
DIMM-121
122
BA0
SDRAM
DIMM-122
3.3V
—
5V
0V
0V
0V
0V
0V
3.3V
0V
0V
—
SDRAM
DIMM-123
124
+3.3V
SDRAM
DIMM-124
125
CLK1
SDRAM
DIMM-125
126
—
SDRAM
DIMM-126
—
0V
Low address strove
Ground
0V
123
Address 1
Address 3
Address 5
Address 7
Address 9
Bank address 0
—
—
3.3V
0V
Clock 1
127
GND
SDRAM
DIMM-127
128
CKE0
SDRAM
DIMM-128
129
—
SDRAM
DIMM-129
130
DQM6
SDRAM
DIMM-130
5V
131
DQM7
SDRAM
DIMM-131
5V
132
—
SDRAM
DIMM-132
4-126
Function
—
Ground
5V
0V
—
—
0V
0V
—
Clock enable 0
Data input / output mask 6
—
Signal
Name
Status
Destination
Function
133
+3.3V
SDRAM
DIMM-133
134
—
SDRAM
DIMM-134
—
—
135
—
SDRAM
DIMM-135
—
—
136
—
SDRAM
DIMM-136
—
—
137
—
SDRAM
DIMM-137
—
—
0V
3.3V
0V
138
GND
SDRAM
DIMM-138
139
DQ48
SDRAM
DIMM-139
3.3V
3.3V
3.3V
Ground
Data 48
0V
140
DQ49
141
DQ50
SDRAM
DIMM-140
SDRAM
DIMM-141
142
DQ51
SDRAM
DIMM-142
143
+3.3V
SDRAM
DIMM-143
144
DQ52
SDRAM
DIMM-144
145
—
SDRAM
DIMM-145
—
—
146
—
SDRAM
DIMM-146
—
—
147
—
SDRAM
DIMM-147
—
—
0V
0V
3.3V
0V
0V
3.3V
0V
3.3V
0V
148
GND
SDRAM
DIMM-148
149
DQ53
SDRAM
DIMM-149
3.3V
150
DQ54
SDRAM
DIMM-150
3.3V
151
DQ55
SDRAM
DIMM-151
3.3V
152
GND
SDRAM
DIMM-152
Data 50
Data 51
Data 52
Ground
0V
0V
0V
0V
Data 49
Data 53
Data 54
Data 55
Ground
4-127
PCB Connector and
Signal Information
Pin
No.
Pin
No.
Signal
Name
Status
Destination
153
DQ56
SDRAM
DIMM-153
3.3V
154
DQ57
SDRAM
DIMM-154
3.3V
155
DQ58
SDRAM
DIMM-155
3.3V
156
DQ59
SDRAM
DIMM-156
3.3V
157
+3.3V
SDRAM
DIMM-157
158
DQ60
SDRAM
DIMM-158
3.3V
159
DQ61
SDRAM
DIMM-159
3.3V
160
DQ62
3.3V
161
DQ63
SDRAM
DIMM-160
SDRAM
DIMM-161
162
GND
SDRAM
DIMM-162
163
CLK3
SDRAM
DIMM-163
164
—
SDRAM
DIMM-164
0V
0V
0V
0V
3.3V
0V
0V
0V
0V
3.3V
0V
Data 56
Data 57
Data 58
Data 59
Data 60
Data 61
Data 62
Data 63
Ground
0V
Clock 3
—
—
165
SA0
SDRAM
DIMM-165
3.3V
166
SA1
SDRAM
DIMM-166
3.3V
167
SA2
SDRAM
DIMM-167
3.3V
168
+3.3V
SDRAM
DIMM-168
4-128
Function
0V
0V
0V
3.3V
0V
Seraila PD address input 0
(CNJ2)
Signal
Name
Status
Destination
5V
1
VCC
Network Card
CNJ10-31
0V
2
VCC
Network Card
CNJ10-32
0V
3
VCC
Network Card
CNJ10-33
0V
4
/CSP2
Network Card
CNJ10-34
5
D15
Network Card
CNJ10-35
5V
6
D14
Network Card
CNJ10-36
5V
7
D13
Network Card
CNJ10-37
5V
8
GND
Network Card
CNJ10-38
9
D12
Network Card
CNJ10-39
10
D11
Network Card
CNJ10-40
5V
11
D10
Network Card
CNJ10-41
5V
12
GND
Network Card
CNJ10-42
13
D9
Network Card
CNJ10-43
5V
14
D8
Network Card
CNJ10-44
5V
15
Network Card
/INTPRT1 CNJ10-45
DC+5V power supply
5V
0V
Card select signal 2
0V
Data 15
0V
Data 14
0V
Data 13
0V
Ground
Data 1
0V
0V
Data 11
Data 10
Ground
0V
0V
0V
5V
Data 9
Data 8
Interrupt signal 1
0V
Network Card
CNJ10-46
17
A3
Network Card
CNJ10-47
5V
18
A2
Network Card
CNJ10-48
5V
19
A1
Network Card
CNJ10-49
5V
Network Card
CNJ10-50
DC+5V power supply
5V
GND
—
DC+5V power supply
5V
16
20
Function
PCB Connector and
Signal Information
Pin
No.
Ground
0V
0V
0V
0V
—
Address 3
Address 2
Address 1
—
4-129
Pin
No.
Signal
Name
Status
Destination
21
A0
Network Card
CNJ10-51
5V
22
D7
Network Card
CNJ10-52
5V
23
D6
Network Card
CNJ10-53
5V
0V
0V
Address 0
Data 7
Data 6
0V
24
A15
Network Card
CNJ10-54
5V
25
D5
Network Card
CNJ10-55
5V
26
A14
Network Card
CNJ10-56
5V
27
D4
Network Card
CNJ10-57
5V
28
A13
Network Card
CNJ10-58
5V
29
D3
Network Card
CNJ10-59
5V
30
A12
Network Card
CNJ10-60
5V
31
D2
Network Card
CNJ10-1
5V
32
A11
Network Card
CNJ10-2
5V
33
D1
Network Card
CNJ10-3
5V
34
A10
Network Card
CNJ10-4
5V
35
D0
Network Card
CNJ10-5
5V
36
A9
Network Card
CNJ10-6
5V
37
A4
Network Card
CNJ10-7
5V
38
A8
Network Card
CNJ10-8
5V
39
/RESET
Network Card
CNJ10-9
40
A7
Network Card
CNJ10-10
4-130
Function
0V
0V
0V
0V
0V
0V
Address 15
Data 5
Address 14
Data 4
Address 13
Data 3
0V
Address 12
0V
Data 2
0V
Address 11
0V
Data 1
0V
Address 10
0V
Data 0
0V
0V
0V
Address 9
Address 4
Address 8
5V
0V
Reset signal
5V
0V
Address 7
41
Signal
Name
/WAIT
Network Card
CNJ10-11
42
A6
Network Card
CNJ10-12
43
/CSP1
Network Card
CNJ10-13
44
Network Card
CNJ10-14
A5
Status
Destination
Function
5V
Wait signal
0V
5V
0V
5V
Address 6
0V
5V
0V
Address 5
45
—
Network Card
CNJ10-15
—
—
46
—
Network Card
CNJ10-16
—
—
47
R/W
Network Card
CNJ10-17
48
GND
Network Card
CNJ10-18
49
A16
Network Card
CNJ10-19
Read
Read/write select signal
Write
0V
Ground
5V
0V
Address 16
50
—
Network Card
CNJ10-20
—
—
51
—
Network Card
CNJ10-21
—
—
Network Card
CNJ10-22
0V
52
GND
Ground
53
—
Network Card
CNJ10-23
—
—
54
—
Network Card
CNJ10-24
—
—
55
Network Card
/INTPRT2 CNJ10-25
56
GND
57
—
5V
0V
Network Card
CNJ10-26
0V
Network Card
CNJ10-27
—
58
VCC
Network Card
CNJ10-28
0V
59
VCC
Network Card
CNJ10-29
0V
60
VCC
Network Card
CNJ10-30
0V
PCB Connector and
Signal Information
Pin
No.
Interrupt signal 2
Ground
—
5V
5V
5V
DC+5V power supply
DC+5V power supply
DC+5V power supply
4-131
(CNJ4)
Pin
No.
Signal
Name
Status
Destination
1
/STB
PC printer port
Centronics
connector 1
2
DATA1
PC printer port
Centronics
connector 2
3
DATA2
PC printer port
Centronics
connector 3
4
DATA3
PC printer port
Centronics
connector 4
5
DATA4
PC printer port
Centronics
connector 5
6
DATA5
PC printer port
Centronics
connector 6
7
DATA6
PC printer port
Centronics
connector 7
8
DATA7
PC printer port
Centronics
connector 8
9
DATA8
PC printer port
Centronics
connector 9
10
/ACK
PC printer port
Centronics
connector 10
5V
11
BUSY
PC printer port
Centronics
connector 11
PE
PC printer port
Centronics
connector 12
5V
12
13
SELECT
PC printer port
Centronics
connector 13
14
PC printer port
/AUTOFD Centronics
connector 14
4-132
Function
5V
0V
Strove signal
0V
Data 1
0V
Data 2
0V
Data 3
0V
Data 4
0V
Data 5
0V
Data 6
0V
Data 7
0V
Data 8
5V
5V
5V
5V
5V
5V
5V
5V
5V
0V
0V
0V
Response signal
Printer busy signal
Add paper signal
ON
On line/off line signal
OFF
5V
0V
Host busy/response
signal (bi-directional
communication)
Signal
Name
15
—
16
—
Status
Function
PC printer port
Centronics
connector 15
—
—
PC printer port
Centronics
connector 16
—
—
Destination
17
FG
PC printer port
Centronics
connector 17
0V
Frame ground
18
PLH
PC printer port
Centronics
connector 18
5V
Printer connection
detecting signal
19
GND
PC printer port
Centronics
connector 19
0V
Ground
20
GND
PC printer port
Centronics
connector 20
0V
Ground
21
GND
PC printer port
Centronics
connector 21
0V
Ground
22
GND
PC printer port
Centronics
connector 22
0V
Ground
23
GND
PC printer port
Centronics
connector 23
0V
Ground
24
GND
PC printer port
Centronics
connector 24
0V
Ground
25
GND
PC printer port
Centronics
connector 25
0V
Ground
26
GND
PC printer port
Centronics
connector 26
0V
Ground
27
GND
PC printer port
Centronics
connector 27
0V
Ground
28
GND
PC printer port
Centronics
connector 28
0V
Ground
PCB Connector and
Signal Information
Pin
No.
4-133
Pin
No.
Signal
Name
Destination
Status
Function
29
GND
PC printer port
Centronics
connector 29
0V
Ground
30
GND
PC printer port
Centronics
connector 30
0V
Ground
31
/INIT
PC printer port
Centronics
connector 31
32
/FAULT
PC printer port
Centronics
connector 32
5V
0V
Initialization signal
5V
0V
Error signal
33
—
PC printer port
Centronics
connector 33
—
—
34
—
PC printer port
Centronics
connector 34
—
—
35
—
PC printer port
Centronics
connector 35
—
—
36
SELIN
PC printer port
Centronics
connector 36
5V
0V
(CNJ5)
Pin
No.
Bi-directional
communication detect
signal
Signal
Name
Destination
Status
Function
1
GND
Main CPU PCB
CN203-1
0V
Ground
2
GND
Main CPU PCB
CN203-2
0V
Ground
3
GND
Main CPU PCB
CN203-3
0V
Ground
4
GND
Main CPU PCB
CN203-4
0V
Ground
5
GND
Main CPU PCB
CN203-5
0V
Ground
6
GND
Main CPU PCB
CN203-6
0V
Ground
4-134
Signal
Name
Destination
Status
Function
7
GND
Main CPU PCB
CN203-7
0V
Ground
8
GND
Main CPU PCB
CN203-8
0V
Ground
9
GND
Main CPU PCB
CN203-9
0V
Ground
10
GND
Main CPU PCB
CN203-10
0V
Ground
11
GND
Main CPU PCB
CN203-11
0V
Ground
12
GND
Main CPU PCB
CN203-12
0V
Ground
13
GND
Main CPU PCB
CN203-13
0V
Ground
14
GND
Main CPU PCB
CN203-14
0V
Ground
15
GND
Main CPU PCB
CN203-15
0V
Ground
16
GND
Main CPU PCB
CN203-16
0V
Ground
17
GND
Main CPU PCB
CN203-17
0V
Ground
18
GND
Main CPU PCB
CN203-18
0V
Ground
19
GND
Main CPU PCB
CN203-19
0V
Ground
20
GND
Main CPU PCB
CN203-20
0V
Ground
21
GND
Main CPU PCB
CN203-21
0V
Ground
22
GND
Main CPU PCB
CN203-22
0V
Ground
23
GND
Main CPU PCB
CN203-23
0V
Ground
24
GND
Main CPU PCB
CN203-24
0V
Ground
25
GND
Main CPU PCB
CN203-25
0V
Ground
26
GND
Main CPU PCB
CN203-26
0V
Ground
PCB Connector and
Signal Information
Pin
No.
4-135
Pin
No.
Signal
Name
Destination
Status
Function
27
GND
Main CPU PCB
CN203-27
0V
Ground
28
GND
Main CPU PCB
CN203-28
0V
Ground
29
GND
Main CPU PCB
CN203-29
0V
Ground
30
GND
Main CPU PCB
CN203-30
0V
Ground
/IDRDY
Main CPU PCB
CN203-31
5V
31
/IDSTB
Main CPU PCB
CN203-32
5V
32
33
GND
Main CPU PCB
CN203-33
34
ID0
Main CPU PCB
CN203-34
5V
35
ID1
Main CPU PCB
CN203-35
5V
36
ID2
Main CPU PCB
CN203-36
5V
37
ID3
Main CPU PCB
CN203-37
5V
38
GND
Main CPU PCB
CN203-38
39
ID4
Main CPU PCB
CN203-39
5V
40
ID5
Main CPU PCB
CN203-40
5V
41
ID6
Main CPU PCB
CN203-41
5V
42
ID7
Main CPU PCB
CN203-42
5V
43
GND
Main CPU PCB
CN203-43
44
ID8
Main CPU PCB
CN203-44
5V
45
ID9
Main CPU PCB
CN203-45
5V
46
ID10
Main CPU PCB
CN203-46
5V
4-136
0V
0V
Image data receive
ready signal
Ground
0V
0V
0V
0V
0V
Image data 0
Image data 1
Image data 2
Image data 3
Ground
0V
0V
0V
0V
0V
0V
Image data 4
Image data 5
Image data 6
Image data 7
Ground
0V
0V
0V
Image data 8
Image data 9
Image data 10
(CNJ8)
Signal
Name
Status
Destination
1
/RESET
Printer Hard disk
IDE bus
connector 1
2
GND
Printer Hard disk
IDE bus
connector 2
3
DATA7
Printer Hard disk
IDE bus
connector 3
4
DATA8
Printer Hard disk
IDE bus
connector 4
5
DATA6
Printer Hard disk
IDE bus
connector 5
6
DATA9
Printer Hard disk
IDE bus
connector 6
7
DATA5
Printer Hard disk
IDE bus
connector 7
8
DATA10
Printer Hard disk
IDE bus
connector 8
9
DATA4
Printer Hard disk
IDE bus
connector 9
10
DATA11
Printer Hard disk
IDE bus
connector 10
11
DATA3
Printer Hard disk
IDE bus
connector 11
12
DATA12
Printer Hard disk
IDE bus
connector 12
13
DATA2
Printer Hard disk
IDE bus
connector 13
14
DATA13
Printer Hard disk
IDE bus
connector 14
Function
5V
0V
0V
Reset signal
Ground
5V
0V
Data 7
0V
Data 8
0V
Data 6
0V
Data 9
0V
Data 5
0V
Data 10
0V
Data 4
0V
Data 11
0V
Data 3
0V
Data12
0V
Data 2
0V
Data 13
5V
5V
5V
PCB Connector and
Signal Information
Pin
No.
5V
5V
5V
5V
5V
5V
5V
5V
4-137
Pin
No.
Signal
Name
Destination
15
DATA1
Printer Hard
disk IDE bus
connector 15
16
DATA14
Printer Hard
disk IDE bus
connector 16
17
DATA0
Printer Hard
disk IDE bus
connector 17
18
DATA15
Printer Hard
disk IDE bus
connector 18
19
GND
Printer Hard
disk IDE bus
connector 19
0V
Ground
20
(KEY)
Printer Hard
disk IDE bus
connector 20
—
(Key pin)
21
DMARQ
Printer Hard
disk IDE bus
connector 21
22
GND
Printer Hard
disk IDE bus
connector 22
23
/IOW
Printer Hard
disk IDE bus
connector 23
24
GND
Printer Hard
disk IDE bus
connector 24
25
/IOR
Printer Hard
disk IDE bus
connector 25
26
GND
Printer Hard
disk IDE bus
connector 26
27
Printer Hard
IOCHRDY disk IDE bus
connector 27
28
4-138
—
Printer Hard
disk IDE bus
connector 28
Status
Function
5V
0V
Data 1
0V
Data 14
0V
Data 0
0V
Data 15
5V
5V
5V
5V
0V
signal
Ground
0V
Write strove signal
Ground
0V
Read strove signal
Ground
0V
5V
0V
—
Ready signal
—
Signal
Name
29
/DACK
Printer Hard
disk IDE bus
connector 29
30
GND
Printer Hard
disk IDE bus
connector 30
31
IRQ
Printer Hard
disk IDE bus
connector 31
32
/IOCS16
Printer Hard
disk IDE bus
connector 32
33
Printer Hard
disk IDE bus
connector 33
A1
34
—
A0
Printer Hard
disk IDE bus
connector 35
36
A2
Printer Hard
disk IDE bus
connector 36
37
CS0
Printer Hard
disk IDE bus
connector 37
38
CS1
Printer Hard
disk IDE bus
connector 38
40
—
GND
Function
5V
0V
DMA transfer accept
signal
Ground
0V
5V
0V
5V
Interrupt signal
16 bit I/O select signal
0V
5V
0V
Printer Hard
disk IDE bus
connector 34
35
39
Status
Destination
Address 1
—
—
5V
0V
5V
0V
5V
0V
5V
0V
Printer Hard
disk IDE bus
connector 39
—
Printer Hard
disk IDE bus
connector 40
0V
PCB Connector and
Signal Information
Pin
No.
Address 0
Address 2
Chip select 0
Chip select 1
—
Ground
4-139
4.14 Network Card (Option) (FP-D250/D350 Series)
(CNJ2A)
Pin
No.
Signal
Name
Destination
Status
Function
585mV~3.1V
1
TD+
Ethernet cable -1
2
TD-
Ethernet cable -2
3
RD+
Ethernet cable -3
0V
Transmit data +
585mV~3.1V
0V
585mV~3.1V
0V
Transmit data Receive data +
4
—
Ethernet cable -4
—
—
5
—
Ethernet cable -5
—
—
6
RD-
Ethernet cable -6
585mV~3.1V
0V
Receive data -
7
—
Ethernet cable -7
—
—
8
—
Ethernet cable -8
—
—
(CNJ9)
Pin
No.
Signal
Name
A1
—
A2
A3
Destination
Status
Function
Rizer card
CN601-A1
—
—
—
Rizer card
CN601-A2
—
—
—
Rizer card
CN601-A3
—
—
A4
TDI
Rizer card
CN601-A4
A5
+5V
Rizer card
CN601-A5
A6
INTA#
Rizer card
CN601-A6
A7
—
Rizer card
CN601-A7
A8
4-140
+5V
Rizer card
CN601-A8
5V
0V
5V
0V
5V
0V
DC+5V power supply
Interrupt A
—
—
5V
0V
Test data input
DC+5V power supply
Signal
Name
A9
—
A10
A11
+5V
—
Destination
Rizer card
CN601-A9
Rizer card
CN601-A10
Status
Function
—
—
5V
0V
Rizer card
CN601-A11
—
DC+5V power supply
—
A12
GND
Rizer card
CN601-A12
0V
Ground
A13
GND
Rizer card
CN601-A13
0V
Ground
—
A14
—
Rizer card
CN601-A14
A15
RST#
Rizer card
CN601-A15
A16
+5V
Rizer card
CN601-A16
A17
GNT#
Rizer card
CN601-A17
A18
GND
Rizer card
CN601-A18
0V
Rizer card
CN601-A19
—
A19
A20
A21
—
AD_30
—
5V
0V
5V
0V
Rizer card
CN601-A20
Rizer card
CN601-A21
5V
—
Address/data 30
—
—
Rizer card
CN601-A22
5V
A23
AD_26
Rizer card
CN601-A23
5V
A24
GND
Rizer card
CN601-A24
A25
AD_24
Rizer card
CN601-A25
5V
A26
IDSEL
Rizer card
CN601-A26
5V
A27
—
Rizer card
CN601-A27
Rizer card
CN601-A28
Grant
Ground
0V
AD_28
AD_22
Reset
DC+5V power supply
A22
A28
—
PCB Connector and
Signal Information
Pin
No.
0V
0V
Address/data 28
Address/data 26
Ground
0V
0V
0V
—
Address/data 24
Initialization device select
—
5V
0V
Address/data 22
4-141
Pin
No.
Signal
Name
Status
Destination
A29
AD_20
Rizer card
CN601-A29
A30
GND
Rizer card
CN601-A30
AD_18
Rizer card
CN601-A31
5V
A31
A32
AD_16
Rizer card
CN601-A32
5V
A33
—
Rizer card
CN601-A33
A34
FRAME#
Rizer card
CN601-A34
A35
GND
Rizer card
CN601-A35
A36
TRDY#
Rizer card
CN601-A36
A37
GND
Rizer card
CN601-A37
A38
STOP#
Rizer card
CN601-A38
5V
0V
0V
—
A40
—
B1
—
Rizer card
CN601-A40
Rizer card
CN601-B1
B2
—
Address/data 20
Ground
0V
0V
Address/data 18
Address/data 16
—
—
5V
0V
0V
Cycle frame
Ground
5V
0V
0V
Target ready
Ground
5V
0V
Rizer card
CN601-A39
A39
Function
Stop
—
—
—
—
—
—
Rizer card
CN601-B2
—
—
0V
B3
GND
Rizer card
CN601-B3
B4
TDO
Rizer card
CN601-B4
B5
+5V
Rizer card
CN601-B5
DC+5V power supply
B6
+5V
Rizer card
CN601-B6
DC+5V power supply
INTB#
Rizer card
CN601-B7
5V
B7
INTD#
Rizer card
CN601-B8
5V
B8
4-142
Ground
5V
0V
0V
0V
Test data output
Interrupt B
Interrupt D
Signal
Name
B9
RSNT#1
B10
—
Rizer card
CN601-B9
+5V
Rizer card
CN601-B10
—
B11
Rizer card
PRSNT#2 CN601-B11
B12
GND
B13
GND
B14
—
Status
Destination
—
Add in board detect
signal 2
Rizer card
CN601-B12
0V
Ground
Rizer card
CN601-B13
0V
Ground
Rizer card
CN601-B14
—
0V
GND
Rizer card
CN601-B15
B16
CLK
Rizer card
CN601-B16
B17
GND
Rizer card
CN601-B17
B18
REQ#
Rizer card
CN601-B18
B19
+5V
Rizer card
CN601-B19
B20
AD_31
Rizer card
CN601-B20
B21
AD_29
Rizer card
CN601-B21
B22
GND
Rizer card
CN601-B22
B23
AD_27
Rizer card
CN601-B23
5V
B24
AD_25
Rizer card
CN601-B24
5V
—
Add in board detect
signal 1
+5V
B15
B25
Function
—
Ground
Clock
0V
Ground
5V
0V
Request
5V
DC+5V power supply
0V
5V
0V
5V
0V
Address/data 29
Ground
0V
0V
0V
Rizer card
CN601-B25
Address/data 31
Address/data 27
Address/data 25
—
B26
CBE#3
Rizer card
CN601-B26
5V
B27
AD_23
Rizer card
CN601-B27
5V
B28
GND
Rizer card
CN601-B28
—
0V
0V
0V
Bus command/byte
enale 3
Address/data 23
Ground
4-143
PCB Connector and
Signal Information
Pin
No.
Pin
No.
Signal
Name
Destination
B29
AD_21
Rizer card
CN601-B29
5V
B30
AD_19
Rizer card
CN601-B30
5V
B31
—
Rizer card
CN601-B31
B32
AD_17
Rizer card
CN601-B32
5V
B33
CBE#2
Rizer card
CN601-B33
5V
B34
GND
Rizer card
CN601-B34
B35
IRDY#
Rizer card
CN601-B35
B36
—
Rizer card
CN601-B36
0V
0V
Address /data 21
Address/data 19
—
—
0V
0V
0V
Address/data 17
Bus command/byte
enable 2
Ground
5V
0V
Initiator ready
—
—
5V
B37
Rizer card
DEVSEL# CN601-B37
B38
GND
Rizer card
CN601-B38
B39
LOCK#
Rizer card
CN601-B39
5V
B40
PERR#
Rizer card
CN601-B40
5V
4-144
Function
Status
0V
0V
Device select
Ground
0V
0V
Lock
Perity error
(CNJ10)
Signal
Name
Status
Destination
1
D2
Printer controller
PCB CNJ2-31
5V
2
A11
Printer controller
PCB CNJ2-32
5V
3
D1
Printer controller
PCB CNJ2-33
5V
4
A10
Printer controller
PCB CNJ2-34
5V
5
D0
Printer controller
PCB CNJ2-35
5V
6
A9
Printer controller
PCB CNJ2-36
5V
7
A4
Printer controller
PCB CNJ2-37
5V
8
A8
5V
9
/RESET
Printer controller
PCB CNJ2-38
Printer controller
PCB CNJ2-39
10
A7
Printer controller
PCB CNJ2-40
5V
11
/WAIT
Printer controller
PCB CNJ2-41
12
A6
Printer controller
PCB CNJ2-42
13
/CSP1
Printer controller
PCB CNJ2-43
14
A5
Printer controller
PCB CNJ2-44
Function
0V
0V
0V
0V
0V
0V
0V
0V
Data 2
Address 11
Data 1
Address 10
Data 0
Address 9
Address 4
Address 8
5V
0V
0V
Reset signal
Address 7
5V
0V
Wait signal
5V
0V
5V
0V
Address 6
5V
0V
Address 5
15
—
Printer controller
PCB CNJ2-45
—
—
16
—
Printer controller
PCB CNJ2-46
—
—
17
R/W
Printer controller
PCB CNJ2-47
18
GND
Printer controller
PCB CNJ2-48
19
A16
Printer controller
PCB CNJ2-49
20
—
Printer controller
PCB CNJ2-50
PCB Connector and
Signal Information
Pin
No.
Read
Write
Ground
0V
5V
0V
—
Address 16
—
4-145
Pin
No.
Signal
Name
Destination
Status
Function
21
—
Printer controller
PCB CNJ2-51
—
—
Printer controller
PCB CNJ2-52
0V
22
GND
Ground
23
—
Printer controller
PCB CNJ2-53
—
—
24
—
Printer controller
PCB CNJ2-54
—
—
25
Printer controller
/INTPRT2 PCB CNJ2-55
26
GND
27
—
5V
0V
Printer controller
PCB CNJ2-56
0V
Printer controller
PCB CNJ2-57
—
28
GND
29
GND
Printer controller
PCB CNJ2-58
Printer controller
PCB CNJ2-59
30
GND
31
Interrupt signal 2
Ground
—
0V
Ground
0V
Ground
Printer controller
PCB CNJ2-60
0V
Ground
GND
Printer controller
PCB CNJ2-1
0V
Ground
32
GND
Printer controller
PCB CNJ2-2
0V
Ground
33
GND
Printer controller
PCB CNJ2-3
0V
Ground
34
/CSP2
Printer controller
PCB CNJ2-4
35
D15
Printer controller
PCB CNJ2-5
5V
D14
Printer controller
PCB CNJ2-6
5V
36
D13
Printer controller
PCB CNJ2-7
5V
37
38
GND
Printer controller
PCB CNJ2-8
39
D12
Printer controller
PCB CNJ2-9
5V
40
D11
Printer controller
PCB CNJ2-10
5V
4-146
5V
0V
0V
Data 15
0V
Data 14
0V
Data 13
Ground
0V
0V
0V
Data 12
Data 11
Signal
Name
Status
Destination
5V
41
D10
Printer controller
PCB CNJ2-11
42
GND
Printer controller
PCB CNJ2-12
D9
Printer controller
PCB CNJ2-13
5V
43
D8
Printer controller
PCB CNJ2-14
5V
44
45
Printer controller
46
GND
Printer controller
PCB CNJ2-16
A3
Printer controller
PCB CNJ2-17
5V
47
A2
49
A1
Printer controller
PCB CNJ2-18
Printer controller
PCB CNJ2-19
5V
48
50
—
Function
0V
0V
Ground
0V
Data 9
0V
Data 8
5V
0V
0V
Inerrupt signal 1
Ground
0V
Address 3
0V
Address 2
5V
0V
Printer controller
PCB CNJ2-20
Data 10
Address 1
—
51
A0
Printer controller
PCB CNJ2-21
5V
D7
Printer controller
PCB CNJ2-22
5V
52
D6
Printer controller
PCB CNJ2-23
5V
53
A15
Printer controller
PCB CNJ2-24
5V
54
D5
Printer controller
PCB CNJ2-25
5V
55
56
A14
Printer controller
PCB CNJ2-26
5V
D4
Printer controller
PCB CNJ2-27
5V
57
58
A13
Printer controller
PCB CNJ2-28
5V
59
D3
Printer controller
PCB CNJ2-29
5V
60
A12
Printer controller
PCB CNJ2-30
5V
PCB Connector and
Signal Information
Pin
No.
—
0V
Address 0
0V
Data 7
0V
Data 6
0V
Address 15
0V
Data 5
0V
0V
0V
0V
0V
Address 14
Data 4
Address 13
Data 3
Address 12
4-147
4.15 Hard Disk Drive for Filing/Back-up (FP-D250/D350 Series)
(CNSHD1/2)
Pin
No.
Signal
Name
Destination
1
RESET
System control
PCB
CN6-1
2
GND
System control
PCB
CN6-2
3
HOST
DATA 7
System control
PCB
CN6-3
4
HOST
DATA 8
System control
PCB
CN6-4
5
HOST
DATA 6
System control
PCB
CN6-5
6
HOST
DATA 9
System control
PCB
CN6-6
7
HOST
DATA 5
System control
PCB
CN6-7
8
HOST
DATA 10
System control
PCB
CN6-8
9
HOST
DATA 4
System control
PCB
CN6-9
10
HOST
DATA 11
System control
PCB
CN6-10
11
HOST
DATA 3
System control
PCB
CN6-11
12
HOST
DATA 12
System control
PCB
CN6-12
13
HOST
DATA 2
System control
PCB
CN6-13
4-148
Status
Reset
Function
5V
0V
0V
0V
Reset signal
Ground
5V
0V
5V
0V
5V
0V
5V
0V
5V
0V
5V
0V
5V
0V
5V
0V
5V
0V
5V
0V
5V
0V
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Signal
Name
14
HOST
DATA 13
System control
PCB
CN6-14
15
HOST
DATA 1
System control
PCB
CN6-15
16
HOST
DATA 14
System control
PCB
CN6-16
17
HOST
DATA 0
System control
PCB
CN6-17
18
HOST
DATA 15
System control
PCB
CN6-18
19
GND
20
KEY
(N.C.)
21
—
22
GND
23
HOST
IOW
24
GND
25
HOST
IOR
26
GND
27
HOST
IORDY
Destination
Status
Function
5V
0V
5V
0V
5V
0V
5V
0V
5V
0V
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
System control
PCB
CN6-19
0V
System control
PCB
CN6-20
—
—
System control
PCB
CN6-21
—
—
System control
PCB
CN6-22
0V
System control
PCB
CN6-23
System control
PCB
CN6-25
0V
System control
PCB
CN6-27
0V
Pulse
Ground
Hard disk data read
signal
Pulse
System control
PCB
CN6-26
Ground
Hard disk data write
signal
Pulse
System control
PCB
CN6-24
Ground
PCB Connector and
Signal Information
Pin
No.
Ground
Hard disk data read /
write ready signal
4-149
Pin
No.
Signal
Name
28
—
29
—
Destination
Status
Function
System control
PCB
CN6-28
—
—
System control
PCB
CN6-29
—
—
0V
30
GND
System control
PCB
CN6-30
31
HOST
IRQ14
(15)
System control
PCB
CN6-31
32
HOST
IO16
System control
PCB
CN6-32
33
HOST
ADDR 1
System control
PCB
CN6-33
34
—
HOST
ADDR 0
System control
PCB
CN6-35
36
HOST
ADDR 2
System control
PCB
CN6-36
37
HOST
CS 1
System control
PCB
CN6-37
38
HOST
CS0
System control
PCB
CN6-38
39
DASP
System control
PCB
CN6-39
40
GND
System control
PCB
CN6-40
4-150
Hard disk interrupt
signal
Pulse
Hard disk 16 bit transfer
control signal
IN
5V
0V
System control
PCB
CN6-34
35
Ground
Hard disk address bus
—
—
5V
0V
5V
0V
Pulse
Primary hard disk select
signal
Pulse
Secondary hard disk
select signal
Pulse
Hard disk active signal
0V
Ground
(CNPHD1/2)
Signal
Name
Status
Destination
Function
12V
1
12V1
LVPS
CN18-1
2
GND
LVPS
CN18-2
0V
Ground
3
GND
LVPS
CN18-3
0V
Ground
4
5V1
LVPS
CN18-4
0V
5V
0V
DC+12V power supply
DC+5V power supply
PCB Connector and
Signal Information
Pin
No.
4-151
4.16 Zip Drive (FP-D250/D350 Series)
(CNSRMD)
Pin
No.
Signal
Name
Destination
1
RESET
System control
PCB
CN6-1
2
GND
System control
PCB
CN6-2
3
HOST
DATA 7
System control
PCB
CN6-3
4
HOST
DATA 8
System control
PCB
CN6-4
5
HOST
DATA 6
System control
PCB
CN6-5
6
HOST
DATA 9
System control
PCB
CN6-6
7
HOST
DATA 5
System control
PCB
CN6-7
8
HOST
DATA 10
System control
PCB
CN6-8
9
HOST
DATA 4
System control
PCB
CN6-9
10
HOST
DATA 11
System control
PCB
CN6-10
11
HOST
DATA 3
System control
PCB
CN6-11
12
HOST
DATA 12
System control
PCB
CN6-12
13
HOST
DATA 2
System control
PCB
CN6-13
4-152
Status
Reset
Function
5V
0V
0V
0V
Reset signal
Ground
5V
0V
5V
0V
5V
0V
5V
0V
5V
0V
5V
0V
5V
0V
5V
0V
5V
0V
5V
0V
5V
0V
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Signal
Name
14
HOST
DATA 13
System control
PCB
CN6-14
15
HOST
DATA 1
System control
PCB
CN6-15
16
HOST
DATA 14
System control
PCB
CN6-16
17
HOST
DATA 0
System control
PCB
CN6-17
18
HOST
DATA 15
System control
PCB
CN6-18
19
GND
20
KEY
(N.C.)
21
—
22
GND
23
HOST
IOW
24
GND
25
HOST
IOR
26
GND
27
HOST
IORDY
Destination
Status
Function
5V
0V
5V
0V
5V
0V
5V
0V
5V
0V
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
System control
PCB
CN6-19
0V
System control
PCB
CN6-20
—
—
System control
PCB
CN6-21
—
—
System control
PCB
CN6-22
0V
System control
PCB
CN6-23
System control
PCB
CN6-25
0V
System control
PCB
CN6-27
0V
Pulse
Ground
Hard disk data read
signal
Pulse
System control
PCB
CN6-26
Ground
signal
Pulse
System control
PCB
CN6-24
Ground
PCB Connector and
Signal Information
Pin
No.
Ground
write ready signal
4-153
Pin
No.
Signal
Name
28
—
29
—
Status
Function
System control
PCB
CN6-28
—
—
System control
PCB
CN6-29
—
—
0V
Destination
30
GND
System control
PCB
CN6-30
31
HOST
IRQ14
(15)
System control
PCB
CN6-31
32
HOST
IO16
System control
PCB
CN6-32
33
HOST
ADDR 1
System control
PCB
CN6-33
34
—
HOST
ADDR 0
System control
PCB
CN6-35
36
HOST
ADDR 2
System control
PCB
CN6-36
37
HOST
CS 1
System control
PCB
CN6-37
38
HOST
CS0
System control
PCB
CN6-38
39
DASP
System control
PCB
CN6-39
40
GND
System control
PCB
CN6-40
4-154
Hard disk interrupt
signal
Pulse
control signal
IN
5V
0V
System control
PCB
CN6-34
35
Ground
—
—
5V
0V
5V
0V
Pulse
signal
Pulse
Secondary hard disk
select signal
Pulse
0V
Ground
Pin
No.
Signal
Name
Destination
Status
Function
1
—
—
—
—
2
GND
LVPS
CN19-2
0V
Ground
3
GND
LVPS
CN19-3
0V
Ground
4
5V1
LVPS
CN19-4
5V
0V
DC+5V power supply
PCB Connector and
Signal Information
(CNPRMD)
4-155
4.17 Main CPU PCB (FP-D450/D600 Series)
(CN1)
Pin
No.
Signal
Name
Destination
Status
1
SVCNT
LVPS PCB
CN17-7
OFF
ON
2
PVCNT
LVPS PCB
CN17-6
OFF
ON
3
ZCRS
LVPS PCB
CN17-5
4-156
Pulse
Function
0V
Scanner 24V ON/OFF
signal
0V
Printer 24 V ON/OFF
signal
Zero cross Signal
(CN2)
Signal
Name
Destination
1
VL
Bypass paper
size sensor 3
CN-1
2
HSSN3
Bypass paper
size sensor 3
CN-2
3
GND
Bypass paper
size sensor 3
CN-3
4
VL
Bypass paper
size sensor 2
CN-1
5
HSSN2
Bypass paper
size sensor 2
CN-2
6
GND
Bypass paper
size sensor 2
CN-3
7
VL
Bypass paper
size sensor 1
CN-1
8
HSSN1
Bypass paper
size sensor 1
CN-2
9
GND
Bypass paper
size sensor 1
CN-3
Status
Function
5V
DC+5Vpower supply
0V
signal 3
Detect
Ground
0V
5V
DC+5Vpower supply
0V
signal 2
Detect
Ground
0V
5V
DC+5Vpower supply
0V
Detect
0V
signal 1
Ground
4-157
PCB Connector and
Signal Information
Pin
No.
(CN3)
Pin
No.
Signal
Name
Destination
Status
Function
1
GND
Copy density
sensor CN-1
0V
2
CDSN2
Copy density
sensor CN-2
Analog
0–5V
3
VCDS
Copy density
sensor CN-3
ON
4
CDSN1
Copy density
sensor CN-4
Analog
0–5V
Copy density detecting
signal
5
6
TDREF
Toner density
sensor CN-4
7
PVP
Toner density
sensor CN-3
8
TDSN
Toner density
sensor CN-2
Analog
0–5V
9
GND
Toner density
sensor CN-1
0V
Ground
10
0V
Ground
11
PVP
Recycle
solenoid CN-1
12
RCSOL
Recycle
solenoid CN-2
13
TH1
Thermistor
CN-1
Analog
2.7–5V
Fuser temperature
detecting signal
14
TH2
Thermistor
CN-2
0V
Fuser temperature
detecting signal
4-158
Ground
Paper base tone
detecting signal
5V
Not detect
Developer unit detecting
signal
Toner density gain
adjustment output signal
Analog
0–8.5V
24V
12V
Toner density detecting
signal
24V
12V
24V
ON
0V
(CN4)
Signal
Name
Destination
Image processing
PCB CN212-1
Function
Status
5V
1
ATT
2
PRDY
Image processing
PCB CN212-2
5V
3
VRDY
Image processing
PCB CN212-3
5V
4
PACK
Image processing
PCB CN212-4
5V
5
SVEN
Image processing
PCB CN212-5
6
SCTS
Image processing
PCB CN212-6
7
SHBREQ
Image processing
PCB CN212-7
8
Image processing
SHWREQ PCB CN212-8
ON
ON
ON
ON
0V
0V
0V
0V
5V
ON
5V
ON
0V
0V
5V
0V
—
—
10
SVSYNC
Image processing
PCB CN212-10
Pulse
11
SRXD
Image processing
PCB CN212-11
5V
12
PRST
Image processing
PCB CN212-12
5V
Reset
13
VSYNC
Image processing
PCB CN212-13
5V
14
PRNT
Image processing
PCB CN212-14
5V
SRTS
Image processing
PCB CN212-15
Pulse
15
STXD
Image processing
PCB CN212-16
Pulse
16
5V
0V
0V
0V
ON
ON
VSYNC receive signal
Paper feed completion
signal
Scanner sub-scan
image valid signal
Host serial
acceptance signal
Shading compensation
black standard data
request signal
—
—
ON
Printer ready signal
white standard data
request signal
ON
9
Printer condition change
detection signal
0V
0V
Scanner vertical
Host serial
communication transmit
acceptance
Printer reset signal
Printer vertical
Print start signal
Host serial
signal
Host serial
signal
4-159
PCB Connector and
Signal Information
Pin
No.
Pin
No.
Signal
Name
Destination
17
SLSYNC
Image processing
PCB CN212-17
18
SHRDY
19
SREQ
Image processing
PCB CN212-19
5V
20
ZCSP
Image processing
PCB CN212-20
Pulse
21
ZCRS
Image processing
PCB CN212-21
Pulse
22
GND
Image processing
PCB CN212-22
4-160
Image processing
PCB CN212-18
Function
Status
Pulse
5V
Scanner horizontal
ON
ON
0V
0V
standard data
completion signal
Scanner request
Host zero cross signal
Zero cross signal
0V
Ground
(CN5)
Signal
Name
Status
Destination
1
PGND
Main motor
CN-1
2
MMCNT
Main motor
CN-2
3
MMLCK
Main motor
CN-3
4
MMCLK
Main motor
CN-4
Pulse
5
ELP1
Discharge lamp
CN-1
24V
6
PVP
Discharge lamp
CN-2
Function
Power ground
0V
24V
Main motor drive control
signal
ON
Stop Rotate
Main motor lock
detecting signal
Discharge lamp ON/
OFF signal
ON
24V
0V
DC+24Vpower supply
7
—
—
—
—
8
—
—
—
—
9
HTTR1
AC driver PCB
CN206-2
OFF
10
HTTR2
AC driver PCB
CN206-3
OFF
11
VL
AC driver PCB
CN206-1
0V
12
VL
Front door sensor
CN-1
0V
13
DOSN
Front door sensor
CN-2
14
GND
Front door sensor
CN-3
ON
ON
5V
5V
OPEN
CLOSE
0V
Fuser lamp 1 ON/OFF
signal
Fuser lamp 2 ON/OFF
signal
DC+5V power supply
DC+5V power supply
Front door Open/Close
detecting signal
Ground
4-161
PCB Connector and
Signal Information
Pin
No.
(CN6)
Pin
No.
Signal
Name
Destination
Developer
cooling fan
motor CN-1
Status
24V
Function
ON
motor ON/OFF signal
ON
Dust collection fan
motor ON/OFF siganl
1
OZFM
2
DDFM
3
OZFL
4
DDFL
Dust collection
fan motor CN-2
5
PGND
Exhaust fan 4
CN-3
0V
Power ground
6
PGND
Dust collection
fan motor CN-3
0V
Power ground
7
SCFM
Suction / Ozone
fan motor CN-1
8
PVP
Middle roller
clutch CN-1
9
SCFL
Suction / Ozone
fan motor CN-2
10
PCCR
Middle roller
clutch CN-2
11
PGND
Suction / Ozone
fan motor CN-3
12
PVP
13
—
14
PFSDCR
4-162
Dust collection
fan motor CN-1
Developer
cooling fan
motorCN-2
Paper feed
speed control
clutch CN-1
24V
Dust collection fan
signal
Stop Rotate
24V
Suction / Ozone fan
motor ON/OFF signal
ON
24V
DC+24V power supply
12V
Suction / Ozone fan
signal
Stop Rotate
24V
Middle roller clutch ON /
OFF signal
ON
Power ground
0V
24V
DC+24Vpower supply
12V
—
—
Paper feed
speed control
clutch CN-2
signal
Stop Rotate
24V
—
ON
Paper feed speed
control clutch ON / OFF
signal
(CN7)
Signal
Name
Destination
1
System console
PCB CNSQ-23
F32BOUT or LCC driver
PCB CN562-5
2
FENB
System console
PCB CNSQ-27
or LCC driver
PCB CN562-6
OQLTH
System console
PCB CNSQ-25
or LCC driver
PCB CN562-7
F32BCLK
System console
PCB CNSQ-13
or LCC driver
PCB CN562-8
5
OQLD
System console
PCB CNSQ-22
or LCC driver
PCB CN562-9
6
LCCLD
LCC driver PCB
CNSQ-21
OQIN
System console
PCB CNSQ-28
or LCC driver
PCB CN562-11
OQMCLK
System console
PCB CNSQ-26
or LCC driver
PCB CN562-12
VL
System console
PCB CNSQ-5
or LCC driver
PCB CN562-13
GND
System console
PCB CNSQ-24
or LCC driver
PCB CN562-14
3
4
7
8
9
10
11
—
12
—
Status
Function
Pulse
output signal
5V
enable signal
ON
signal
Pulse
32
Pulse
load control signal
(System console)
Shift Load
load control signal (LCC)
Shift Load
32bit data receive input
signal
System stand drive
motor clock and LCC
drive motor clock signal
Pulse
5V
DC+5Vpower supply
0V
0V
Ground
4-163
PCB Connector and
Signal Information
Pin
No.
(CN8)
Pin
No.
1
Signal
Name
Destination
Inverting shift
F32AOUT tray PCB
CN601-5
2
FENB
Inverting shift
tray PCB
CN601-6
3
OTRLTH
Inverting shift
tray PCB
CN601-7
4
Inverting shift
F32ACLK tray PCB
CN601-8
5
Inverting shift
HMMCLK tray PCB
CN601-9
6
RVSCLK
Inverting shift
tray PCB
CN601-10
7
OTRLD
Inverting shift
tray PCB
CN601-11
8
DXIN
Inverting shift
tray PCB
CN601-12
9
STRRSN
Inverting shift
tray PCB
CN601-13
10
VL
Inverting shift
tray PCB
CN601-14
11
GND
Inverting shift
tray PCB
CN601-15
12
4-164
—
Function
Status
Pulse
5V
32 bit data transfer data
enable signal
ON
signal
Pulse
32
Pulse
Pulse
Shift tray transfer motor
drive clock signal
Pulse
Inverting motor drive
clock signal
load control signal
Shift Load
signal
5V
Detection
0V
Shift tray paper pass
sensor input signal
5V
DC+5Vpower supply
0V
0V
Ground
(CN9)
Signal
Name
Destination
Status
Function
1
PGND
LVPS
CN11-1
0V
Power ground
2
PGND
LVPS
CN11-2
0V
Power ground
3
SVP
LVPS
CN11-5
0V
4
PVP
LVPS
CN11-6
0V
5
PMVP
LVPS
CN11-8
0V
6
VA
LVPS
CN10-1
0V
7
AGND
LVPS
CN10-2
0V
Ground
8
GND
LVPS
CN10-3
0V
Ground
9
VL
LVPS
CN10-5
24V
24V
24V
12V
5V
0V
DC+5V power supply
4-165
PCB Connector and
Signal Information
Pin
No.
(CN10)
Pin
No.
Signal
Name
Destination
Status
Leak
1
HVLKC
HVPS
CN701-12
2
HVCNT
HVPS
CN701-11
3
GREF
HVPS
CN701-10
4
HVBCNT
HVPS
CN701-9
5
BREF
HVPS
CN701-8
Analog
0–8.5V
6
HVLKT
HVPS
CN701-7
Leak
7
HVTCNT
HVPS
CN701-6
8
TREF
HVPS
CN701-5
Analog
0–8.5V
9
HVLKD
HVPS
CN701-4
Leak
10
HVDCNT
HVPS
CN701-3
11
PGND
HVPS
CN701-2
12
PVP
HVPS
CN701-1
4-166
Function
24V
Charge high voltage
ON
signal
Analog
0–8.5V
24V
ON
24V
ON/OFF signal
Transfer voltage
adjustment signal
ON
ON/OFF signal
Power ground
0V
24V
0V
Bias ON/OFF signal
ON
24V
Charge high voltage
ON/OFF signal
(CN11)
Signal
Name
Destination
Status
0V
Function
1
PGND
ADU driver PCB
CN651-2
2
PVP
ADU driver PCB
CN651-1
3
PGND
ADU driver PCB
CN651-4
4
PVP
ADU driver PCB
CN651-3
5
F32AOUT
ADU driver PCB
CN651-5
6
QLTH
ADU driver PCB
CN651-9
7
F32ACLK
ADU driver PCB
CN651-11
8
QLD
ADU driver PCB
CN651-13
9
DXIN
ADU driver PCB
CN651-15
10
DXMCA
ADU driver PCB
CN651-10
Pulse
signal A
11
DXMCAB
ADU driver PCB
CN651-12
Pulse
signal A
12
DXMCB
ADU driver PCB
CN651-14
Pulse
signal B
13
DXMCBB
ADU driver PCB
CN651-16
Pulse
signal B
14
PSLSN
ADU driver PCB
CN651-6
ON
15
PSWSN
ADU driver PCB
CN651-8
ON
16
DXFENB
ADU driver PCB
CN651-7
17
VL
ADU driver PCB
CN651-17
18
GND
ADU driver PCB
CN651-18
19
VL
ADU tray sensor
CN-1
20
DXOPSN
ADU tray sensor
CN-2
Power ground
24V
12V
0V
DC+24V power supply
Power ground
24V
12V
Pulse
DC+24V power supply
Pulse
signal
32
receive clock output signal
Pulse
load control signal
Shift Load
signal
5V
0V
5V
0V
5V
ON
0V
5V
0V
Length paper guide
sensor signal
Width paper guide
sensor signal
enable signal
DC+5V power supply
Ground
0V
5V
0V
Detecting
DC+5V power supply
ADU tray detecting
signal
4-167
PCB Connector and
Signal Information
Pin
No.
Pin
No.
Signal
Name
Destination
Status
0V
21
GND
ADU tray sensor
CN-3
22
ADUSL
ADU driver PCB
CN2-24
23
24
—
GND
Function
Ground
Detecting
—
—
ADU driver PCB
CN2-22
—
0V
Ground
(CN12)
Pin
No.
Signal
Name
Status
Destination
Function
1
PGND
Exhaust fan 1
CN-3
2
EXFL1
Exhaust fan 1
CN-2
3
EXFM1
Exhaust fan 1
CN-1
4
PGND
Exhaust fan 2
CN-3
5
EXFL2
Exhaust fan 2
CN-2
6
EXFM2
Exhaust fan 2
CN-1
7
VL
Toner bottle
home position
sensor CN-1
8
VL
Waste toner full
detection sensor
CN-1
9
BPSN
Toner bottle
home position
sensor CN-2
10
TFSN
Waste toner full
detection sensor
CN-2
11
GND
Toner bottle
home position
sensor CN-3
0V
Ground
12
GND
Waste toner full
detection sensor
CN-3
0V
Ground
4-168
Power ground
0V
Exhaust fan motor 1
Stop Rotate
24V
/ OFF signal
ON
0V
Power ground
Exhaust fan motor 2
Stop
24V
/ OFF signal
ON
5V
DC+5V power supply
0V
5V
DC+5V power supply
0V
Home
Toner bottle home
Waste toner full
detection signal
Full
Signal
Name
Destination
13
BMBB
Toner bottle
motor CN-1
14
PVP
Toner bottle
motor CN-2
15
BMB
Toner bottle
motor CN-3
16
BMAB
Toner bottle
motor CN-4
17
PVP
Toner bottle
motor CN-5
18
BMA
Toner bottle
motor CN-6
19
PVP
Total counter
CN-1
20
CT
Total counter
CN-2
21
TED
Add toner
sensor CN-2
22
VTED
Add toner
sensor CN-1
23
GND
Add toner
sensor CN-3
24
EXFL3
Exhaust fan 3
CN-2
25
EXFM3
Exhaust fan 3
CN-1
26
PGND
Exhaust fan 3
CN-3
Function
Status
Pulse
24V
0V
24V
12V
Pulse
24V
0V
Pulse
24V
0V
24V
12V
Pulse
24V
0V
24V
12V
24V
ON
0V
5V
Pulse
0V
5V
ON
0V
Stop Rotates
ON
0V
DC+24V power supply
signal B
signal A
DC+24Vpower supply
signal A
DC+24V power supply
Total counter count
signal
Add toner sensor
detecting signal
Add toner sensor ON/
OFF signal
Ground
0V
24V
signal B
Exhaust fan motor 3
Exhaust fan motor 3
ON/OFF signal
Power Ground
4-169
PCB Connector and
Signal Information
Pin
No.
(CN13)
Pin
No.
Signal
Name
Destination
1
GND
Platen cover
open / close
sensor CN-3
2
PCSN
Platen cover
open / close
sensor CN-2
3
VL
Platen cover
open / close
sensor CN-1
4
GND
Platen cover
angle sensor
CN-3
5
PASN
Platen cover
angle sensor
CN-2
6
VL
Platen cover
angle sensor
CN-1
Status
Function
Ground
0V
Platen cover open /
Close Open
5V
DC+5V power supply
0V
Ground
0V
Platen cover angle sensor
open detecting signal
(more than 30 degrees)
Close Open
5V
DC+5V power supply
12V
(CN14)
Pin
No.
Signal
Name
Destination
1
PVP
Key counter
CN-1
2
KCT
Key counter
CN-2
3
GND
Key counter
CN-3
4
KCS
Key counter
CN-4
5
VL
Key counter
CN-5
6
KCTCNT
Key counter
CN-6
4-170
Status
Function
24V
12V
24V
ON
0V
detecting signal
ON
5V
0V
5V
ON
Key counter count
signal
Ground
0V
5V
DC+24V power supply
0V
DC+5V power supply
Key counter count
signal
(CN15)
Signal
Name
Destination
Status
1
ISTRX
Finisher
connector CN-8
Pulse
2
STRX
Finisher
connector CN-9
Pulse
3
GND
Finisher
connector CN-10
4
ISTTX
Finisher
connector CN-11
Pulse
5
STTX
Finisher
connector CN-12
Pulse
6
IPRXD
Finisher
connector CN-2
Pulse
7
GND
Finisher
connector CN-3
8
IPTXD
Finisher
connector CN-4
9
GND
Finisher
connector CN-7
10
—
—
Function
Inverse sorter receive
signal
0V
Ground
Inverse sorter transfer
signal
receive signal
0V
Ground
transfer signal
Pulse
0V
—
Ground
PCB Connector and
Signal Information
Pin
No.
—
4-171
(CN17)
Pin
No.
Signal
Name
Destination
1
PGND
Optics fan 1
CN-3
2
LPFL1
Optics fan 1
CN-2
3
LPFM1
Optics fan 1
CN-1
4
SVP
Exposure lamp
inverter PCB
CN-3
5
LPCNT
Exposure lamp
inverter PCB
CN-1
6
PGND
Exposure lamp
inverter PCB
CN-2
7
LPFL2
Optics fan 2
CN-2
8
LPFM2
Optics fan 2
CN-1
9
PGND
Optics fan 2
CN-3
10
—
4-172
—
Status
Function
Power ground
0V
Stop Rotate
24V
Optics fan motor 1 lock
detecting signal
ON
24V
0V
24V
ON
DC+24V power supply
Exposure lamp inverter
ON / OFF signal
Power ground
0V
Stop Rotate
24V
Optics fan motor 1 ON /
OFF signal
ON
Optics fan motor 2 lock
detecting signal
Optics fan motor 2 ON /
OFF signal
0V
Power ground
—
—
Pin
No.
Signal
Name
Destination
Status
Function
1
—
—
—
—
2
—
—
—
—
3
—
—
—
—
4
—
—
—
—
5
—
—
—
—
6
—
—
—
—
7
—
—
—
—
8
—
—
—
—
9
—
—
—
—
10
—
—
—
—
11
PVP
Pre-separation
LED CN-1
12
PTL
Pre-separation
LED CN-2
13
PGND
Exhaust fan
relay harness
CNEXF-6
14
EXFL4
Exhaust fan
relay harness
CNEXF-5
EXFM4
Exhaust fan
relay harness
CNEXF-4
15
PCB Connector and
Signal Information
(CN18)
24V
DC+24V power supply
12V
24V
ON
Power ground
0V
Stop
24V
Pre-separation LED ON/
OFF signal
Rotate
ON
Exhaust fan motor 4
Exhaust fan motor 4
ON/OFF signal
4-173
Pin
No.
Signal
Name
Destination
16
—PGND
Exhaust fan
relay harness
CNEXF-3
17
EXFL5
Exhaust fan
relay harness
CNEXF-2
18
EXFM5
Exhaust fan
relay harness
CNEXF-1
4-174
Status
Power ground
0V
Stop
24V
Function
Rotate
ON
Exhaust fan motor 5
Exhaust fan motor 5
ON/OFF signal
(CN20)
Signal
Name
Destination
Status
1
VL
Original size
sensor 1
CN-1
2
AOSS1
Original size
sensor 1
CN-2
ON
3
AOS1
Original size
sensor 1
CN-3
ON
4
GND
Original size
sensor 1
CN-4
5
VL
Original size
sensor 2
CN-1
6
AOSS2
Original size
sensor 2
CN-2
ON
7
AOS2
Original size
sensor 2
CN-3
ON
8
GND
Original size
sensor 2
CN-4
9
VL
Original size
sensor 3
CN-1
10
AOSS3
Original size
sensor 3
CN-2
ON
11
AOS3
Original size
sensor 3
CN-3
ON
12
GND
Original size
sensor 3
CN-4
13
VL
Original size
sensor 4
CN-1
14
AOSS4
Original size
sensor 4
CN-2
Function
5V
DC+5V power supply
0V
5V
0V
5V
0V
0V
sensor signal 1
Ground
5V
DC+5V power supply
0V
5V
0V
5V
0V
sensor signal 2
Ground
0V
5V
DC+5V power supply
0V
5V
0V
5V
0V
0V
sensor signal 3
Ground
5V
DC+5V power supply
0V
5V
ON
0V
sensor signal 4
4-175
PCB Connector and
Signal Information
Pin
No.
Pin
No.
Signal
Name
Destination
Status
15
AOS4
Original size
sensor 4
CN-3
16
GND
Original size
sensor 4
CN-4
17
VL
Original size
sensor 5
CN-1
18
AOSS5
Original size
sensor 5
CN-2
ON
19
AOS5
Original size
sensor 5
CN-3
ON
20
GND
Original size
sensor 5
CN-4
21
VL
Original size
sensor 6
CN-1
22
AOSS6
Original size
sensor 6
CN-2
ON
23
AOS6
Original size
sensor 6
CN-3
ON
24
GND
Original size
sensor 6
CN-4
25
VL
Lamp unit home
position sensor
CN-1
26
HPSN
Lamp unit home
position sensor
CN-2
27
GND
Lamp unit home
position sensor
CN-3
0V
—
—
28
4-176
—
Function
5V
ON
0V
0V
Ground
5V
DC+5V power supply
0V
5V
0V
5V
0V
0V
sensor signal 5
Ground
5V
DC+5V power supply
0V
5V
0V
5V
0V
0V
sensor signal 6
Ground
5V
DC+5V power supply
0V
5V
0V
Home
0V
Lamp unit home
Ground
—
Pin
No.
Signal
Name
Destination
Status
Function
1
—
—
—
—
2
—
—
—
—
3
—
—
—
—
4
—
—
—
—
5
—
—
—
—
6
7
Paper pass
sensor
(Upper stage)
CN-1
VL
—
8
CRRSN1
9
—
10
11
GND
—
—
5V
DC+5V power supply
0V
Paper pass
sensor
(Upper stage)
CN-2
—
Paper pass
sensor
(Upper stage)
CN-3
—
—
—
Pass
—
—
0V
—
Ground
—
4-177
PCB Connector and
Signal Information
(CN22)
Pin
No.
Signal
Name
Destination
Status
Function
12
—
—
—
—
13
—
—
—
—
14
—
—
—
—
15
—
—
—
—
16
—
—
—
—
(CN23)
Pin
No.
1
2
3
4
5
4-178
Signal
Name
Status
Destination
—PVP
Paper feed
clutch
(Lower stage)
CN-1
PVP
Paper feed
solenoid
(Lower stage)
CN-1
PFCR2
Paper feed
clutch
(Lower stage)
CN-2
ON
PUSOL2
Paper feed
solenoid
(Lower stage)
CN-2
ON
VL
Paper level
sensor
(Lower stage)
CN-1
Function
24V
DC+24V power supply
0V
24V
DC+24V power supply
0V
24V
OFF signal
0V
24V
Paper feed solenoid ON
/ OFF signal
0V
5V
0V
DC+5V power supply
6
7
8
9
10
11
12
13
14
15
16
Signal
Name
Destination
Function
Status
VL
Paper pass
sensor
(Lower stage)
CN-1
PEWSN2
Paper level
sensor
(Lower stage)
CN-2
CRRSN2
Paper pass
sensor
(Lower stage)
CN-2
GND
Paper level
sensor
(Lower stage)
CN-3
0V
Ground
GND
Paper pass
sensor
(Lower stage)
CN-3
0V
Ground
VL
Paper upper
limit sensor
(Lower stage)
CN-1
VL
Paper detecting
sensor
(Lower stage)
CN-1
LBSN2
Paper upper
limit sensor
(Lower stage)
CN-2
PESN2
Paper detecting
sensor
(Lower stage)
CN-2
GND
Paper upper
limit sensor
(Lower stage)
CN-3
0V
Ground
GND
Paper detecting
sensor
(Lower stage)
CN-3
0V
Ground
5V
DC+5V power supply
0V
signal
ON
Detecting
5V
DC+5V power supply
0V
5V
DC+5V power supply
0V
Over
5V
Paper upper limit
detecting signal
0V
Detecting
4-179
PCB Connector and
Signal Information
Pin
No.
(CN26)
Pin
No.
Signal
Name
Destination
1
LUM1-1
Lift motor
(Upper stage)
CN-1
2
LUM1-2
Lift motor
(Upper stage)
CN-2
Status
Function
24V
24V
0V
ON
0V
(CN27)
Pin
No.
Signal
Name
Destination
1
LUM2-1
Lift motor
(Lower stage)
CN-1
2
LUM2-2
Lift motor
(Lower stage)
CN-2
4-180
Status
Function
24V
24V
0V
ON
0V
(CN29)
Signal
Name
Destination
Status
Function
1
PVP
Bypass paper
feed clutch
CN-1
2
HFCR
Bypass paper
feed clutch
CN-2
3
PVP
Registration
roller clutch
CN-1
4
RRCR
Registration
roller clutch
CN-2
5
PVP
Bypass paper
feed solenoid
CN-1
6
HFSOL
Bypass paper
feed solenoid
CN-2
7
VL
Paper feed
cover open /
close sensor
CN-1
8
VL
Bypass paper
detecting sensor
CN-1
9
QDOSN
Paper feed
cover open /
close sensor
CN-2
10
HPESN
Bypass paper
detecting sensor
CN-2
11
GND
Paper feed
cover open /
close sensor
CN-3
0V
Ground
12
GND
Bypass paper
detecting sensor
CN-3
0V
Ground
13
GND
Bypass paper
feed solenoid
CN-3
0V
Ground
24V
12V
24V
Bypass paper feed
clutch ON / OFF signal
ON
24V
12V
24V
DC+24V power supply
ON / OFF signal
ON
24V
12V
24V
DC+24V power supply
DC+24V power supply
Bypass paper feed
solenoid ON / OFF
signal
ON
5V
0V
DC+5V power supply
5V
DC+5V power supply
0V
Open
Close
Detecting
Paper feed cover open /
Bypass paper detecting
signal
4-181
PCB Connector and
Signal Information
Pin
No.
Pin
No.
14
Signal
Name
Registration
roller paper
pass sensor
CN-1
VL
15
—
16
RRSN
17
—
18
Destination
GND
Status
5V
DC+5V power supply
0V
—
—
Registration
roller paper
pass sensor
CN-2
Function
5V
—
Detecting
0V
—
—
Registration
roller paper
pass sensor
CN-3
—
0V
Ground
(CN30)
Pin
No.
Signal
Name
Destination
1
PVP
Paper exit
solenoid CN-1
2
PCSOL
Paper exit
solenoid CN-2
3
VL
Paper exit
sensor CN-1
4
PFOSN
Paper exit
sensor CN-2
5
GND
Paper exit
sensor CN-3
4-182
Registration roller paper
pass sensor detecting
signal
Status
Function
24V
12V
24V
ON
0V
5V
0V
Detecting
0V
DC+24V power supply
Paper exit solenoid ON /
OFF signal
DC+5V power supply
Paper exit sensor paper
detecting signal
Ground
(CN31)
Signal
Name
Destination
Function
Status
Pulse
1
LMBB
Optics motor
CN-11
2
SVP
Optics motor
CN-9
LMB
Optics motor
CN-7
Pulse
3
LMAB
Optics motor
CN-5
Pulse
4
5
SVP
Optics motor
CN-3
6
LMA
Optics motor
CN-1
24V
0V
24V
12V
24V
0V
24V
0V
24V
12V
Pulse
24V
0V
(CN32)
Optics motor drive
signal B
DC+24V power supply
Optics motor drive
signal B
Optics motor drive
signal A
DC+24V power supply
Optics motor drive
signal A
Pin
No.
Signal
Name
1
PMFCNT
Polygon motor
fan CNLSM-8
2
PMFLCK
Polygon motor
fan CNLSM-7
3
PMVP
Polygon motor
CN-6
4
PGND
Polygon motor
CN-5
5
PMLOCK
Polygon motor
CN-4
6
PMCNT
Polygon motor
CN-3
7
PGND
Polygon motor
CN-2
8
PMCLK
Polygon motor
CN-1
Destination
Function
Status
24V
0V
STOP
ROTATE
24V
0V
0V
DC+24V power supply
Polygon motor lock
detecting signal
ON
0V
Pulse
Polygon motor fan lock
detecting signal
Power ground
Stop Rotate
24V
Polygon motor fan drive
control signal
Polygon motor drive
control signal
Power ground
24V
0V
Polygon motor drive
clock signal
4-183
PCB Connector and
Signal Information
Pin
No.
(CN34)
Pin
No.
Signal
Name
Destination
1
GVSYNC
Image processing
PCB CN202-1
Sub-scan direction
2
GIPGCS
Image processing
PCB CN202-2
Gate array chip select
signal
3
GIWR
Image processing
PCB CN202-3
4
GIRD
Image processing
PCB CN202-4
5
GND
Image processing
PCB CN202-5
6
GA1
Image processing
PCB CN202-6
Pulse
7
GA2
Image processing
PCB CN202-7
Pulse
8
GA3
Image processing
PCB CN202-8
Pulse
9
GA4
Image processing
PCB CN202-9
Pulse
10
GA5
Image processing
PCB CN202-10
Pulse
11
GA6
Image processing
PCB CN202-11
Pulse
12
GA7
Image processing
PCB CN202-12
Pulse
13
GA8
Image processing
PCB CN202-13
Pulse
14
GA9
Image processing
PCB CN202-14
Pulse
15
GA10
Image processing
PCB CN202-15
Pulse
16
GA11
Image processing
PCB CN202-16
Pulse
17
GA12
Image processing
PCB CN202-17
Pulse
18
GND
Image processing
PCB CN202-18
19
GAD0
Image processing
PCB CN202-19
4-184
Function
Status
Pulse
Gate array write signal
Gate array read signal
0V
Address bus
Address bus
Address bus
Address bus
Address bus
Address bus
Address bus
Address bus
Address bus
Address bus
Address bus
Address bus
0V
Pulse
Ground
Ground
Data bus
Signal
Name
Destination
Function
Status
20
GAD1
Image processing
PCB CN202-20
Pulse
21
GAD2
Image processing
PCB CN202-21
Pulse
22
GAD3
Image processing
PCB CN202-22
Pulse
23
GAD4
Image processing
PCB CN202-23
Pulse
24
GAD5
Image processing
PCB CN202-24
Pulse
25
GAD6
Image processing
PCB CN202-25
Pulse
26
GAD7
Image processing
PCB CN202-26
Pulse
27
GND
Image processing
PCB CN202-27
28
GBUFCNT
Image processing
PCB CN202-28
0V
29
GIRST
Image processing
PCB CN202-29
0V
30
GILOCL
Image processing
PCB CN202-30
0V
Data bus
Data bus
Data bus
Data bus
Data bus
Data bus
Data bus
Ground
0V
5V
5V
Reset
5V
OFF
ON
Data buffer select signal
PCB Connector and
Signal Information
Pin
No.
Engine reset signal
Interlock signal
4-185
(CN35)
Pin
No.
Signal
Name
1
BIE
2
BRIW
3
MB38CS
4
IPRXD
5
IPTXD
6
ADFRRSN
7
ADFIDI
8
ADFICLK
9
ADFIENB
10
ADFILD
11
ADFIDO
12
ADMCLK
13
ISTRX
14
STRX
15
IADFTX
16
ADFTX
17
ADFIN
18
ADFOUT
19
KCS
20
GND
4-186
Destination
Function
Status
Image processing
PCB CN213-1
Image processing
PCB CN213-2
Image processing
PCB CN213-3
Image processing
PCB CN213-4
Image processing
PCB CN213-5
Image processing
PCB CN213-6
Image processing
PCB CN213-7
Image processing
PCB CN213-8
Image processing
PCB CN213-9
Image processing
PCB CN213-10
Pulse
Image processing
PCB CN213-11
Image processing
PCB CN213-12
Image processing
PCB CN213-13
Image processing
PCB CN213-14
Image processing
PCB CN213-15
Image processing
PCB CN213-16
Image processing
PCB CN213-17
Image processing
PCB CN213-18
Image processing
PCB CN213-19
Image processing
PCB CN213-20
Pulse
CPU enable signal
Pulse
5V
Detecting
0V
32
Pulse
5V
ON
0V
Shift Load
clock signal
Pulse
Pulse
ADF receive – signal
Pulse
ADF receive + signal
Pulse
ADF transfer – signal
Pulse
5V
5V
5V
IPC circuit chip select
signal
IPC communication
receive signal
IPC communication
transfer signal
signal
signal
32 bit data transfer/
Data output enable
signal
32 bit data receive shift/
data latch
ADF transfer + signal
ON
ON
ON
0V
0V
0V
0V
ADF original feed
completion signal
ADF original feed
control signal
detecting signal
Ground
4.18 System Control PCB (FP-D450/D600 Series)
(CN1 - CN2)
Not used
(CN3)
Signal
Name
Destination
A01
DTR2J
Main CPU PCB
CN201-1
A02
+12V
Main CPU PCB
CN201-2
A03
RTS2J
Main CPU PCB
CN201-3
5V
A04
RxD2J
Main CPU PCB
CN201-4
Pulse
A05
+5V
Main CPU PCB
CN201-5
A06
INTA
Main CPU PCB
CN201-107
Pulse
A07
INTC
Main CPU PCB
CN201-108
Pulse
A08
+5V
Main CPU PCB
CN201-8
A09
A10
—
+5V
Status
5V
0V
12V
0V
0V
COM2 data terminal ready
signal
DC+12V power supply
COM2 request signal
COM2 communication
input signal
5V
0V
DC+5V power supply
Interrupt request signal A
Interrupt request signal C
5V
0V
DC+5V power supply
—
—
Main CPU PCB
CN201-10
Function
—
5V
0V
DC+5V power supply
—
—
GND
Main CPU PCB
CN201-12
0V
Ground
A13
GND
Main CPU PCB
CN201-13
0V
Ground
A14
GNT1
Main CPU PCB
CN201-17
0V
A15
RST
Main CPU PCB
CN201-15
0V
A16
+5V
Main CPU PCB
CN201-16
0V
A11
—
A12
Reset
—
5V
5V
5V
Grant signal
DC+5V power supply
4-187
PCB Connector and
Signal Information
Pin
No.
Pin
No.
Signal
Name
Destination
Status
5V
A17
GNT0
Riser card PCB
CN601-17
A18
GND
Main CPU PCB
CN201-18
0V
A19
—
—
—
A20
AD30
Main CPU PCB
CN201-20
A21
+3.3V
Main CPU PCB
CN201-21
A22
AD28
Main CPU PCB
CN201-22
5V
A23
AD26
Main CPU PCB
CN201-23
5V
A24
GND
Main CPU PCB
CN201-24
A25
AD24
Main CPU PCB
CN201-25
A26
—
0V
Grant signal
Ground
—
5V
0V
3.3V
0V
0V
0V
0V
Ground
5V
0V
—
—
—
3.3V
A27
+3.3V
Main CPU PCB
CN201-27
A28
AD22
Main CPU PCB
CN201-28
5V
A29
AD20
Main CPU PCB
CN201-29
5V
A30
GND
Main CPU PCB
CN201-30
A31
AD18
Main CPU PCB
CN201-31
5V
A32
AD16
Main CPU PCB
CN201-32
5V
A33
+3.3V
Main CPU PCB
CN201-33
0V
A34
FRAME
Main CPU PCB
CN201-34
0V
A35
GND
Main CPU PCB
CN201-35
A36
TRDY
Main CPU PCB
CN201-36
4-188
Function
0V
0V
0V
0V
Ground
0V
0V
3.3V
5V
0V
Cycle frame signal
Ground
Pulse
Target ready signal
Signal
Name
Destination
Status
0V
Function
A37
GND
Main CPU PCB
CN201-37
A38
STOP
Main CPU PCB
CN201-38
A39
+3.3V
Main CPU PCB
CN201-39
A40
SDONE
Main CPU PCB
CN201-40
Pulse
A41
SBO
Main CPU PCB
CN201-41
Pulse
A42
GND
Main CPU PCB
CN201-42
A43
PAR
Main CPU PCB
CN201-43
A44
AD15
Main CPU PCB
CN201-44
A45
+3.3V
Main CPU PCB
CN201-45
A46
AD13
Main CPU PCB
CN201-46
5V
A47
AD11
Main CPU PCB
CN201-47
5V
A48
GND
Main CPU PCB
CN201-48
A49
AD09
Main CPU PCB
CN201-49
A50
CONNECTOR
KEY
—
—
—
A51
CONNECTOR
KEY
—
—
—
A52
C/-BE0
Main CPU PCB
CN201-52
A53
+3.3V
Main CPU PCB
CN201-53
A54
AD06
Main CPU PCB
CN201-54
5V
A55
AD04
Main CPU PCB
CN201-55
5V
A56
GND
Main CPU PCB
CN201-56
Ground
Pulse
Stop signal
3.3V
0V
Snoop done signal
0V
Ground
Pulse
Parity check signal
5V
0V
3.3V
0V
0V
0V
Ground
0V
5V
0V
5V
0V
3.3V
0V
0V
0V
0V
Bus command / byte
enable signal
Ground
4-189
PCB Connector and
Signal Information
Pin
No.
Pin
No.
Signal
Name
Destination
Status
A57
AD02
Main CPU PCB
CN201-57
5V
A58
AD00
Main CPU PCB
CN201-58
5V
A59
+5V
Main CPU PCB
CN201-59
A60
—
0V
0V
5V
0V
DC+5V power supply
—
—
—
5V
A61
+5V
Main CPU PCB
CN201-61
0V
A62
+5V
Main CPU PCB
CN201-62
0V
B01
-12V
Main CPU PCB
CN201-101
B02
CTS
Main CPU PCB
CN201-102
B03
GND
Main CPU PCB
CN201-103
B04
TxD
Main CPU PCB
CN201-104
B05
+5V
Main CPU PCB
CN201-105
0V
B06
+5V
Main CPU PCB
CN201-106
0V
B07
INTB
Main CPU PCB
CN201-6
Pulse
B08
INTD
Main CPU PCB
CN201-7
Pulse
B09
—
—
B10
REQ1
Main CPU PCB
CN201-118
B11
—
—
—
B12
GND
Main CPU PCB
CN201-112
0V
B13
GND
Main CPU PCB
CN201-113
5V
B14
CLKA
Rizer card PCB
CN601-116
Pulse
4-190
Function
5V
0V
-12V
5V
0V
0V
DC+5V power supply
DC+5V power supply
DC-12V power supply
COM2 receive clear signal
Ground
Pulse
COM2 communication
output signal
5V
5V
DC+5V power supply
DC+5V power supply
Interrupt request signal B
Interrupt request signal D
—
—
Pulse
—
Ground
0V
Ground
PCI bus clock A
Signal
Name
Destination
Status
0V
B15
GND
Main CPU PCB
CN201-115
B16
CLKB
Main CPU PCB
CN201-116
B17
GND
Main CPU PCB
CN201-117
B18
REQ0
Riser card PCB
CN601-118
B19
+5V
Main CPU PCB
CN201-119
B20
AD31
Main CPU PCB
CN201-120
5V
B21
AD29
Main CPU PCB
CN201-121
5V
B22
GND
Main CPU PCB
CN201-122
B23
AD27
Main CPU PCB
CN201-123
5V
B24
AD25
Main CPU PCB
CN201-124
5V
B25
+3.3V
Main CPU PCB
CN201-125
B26
C/-BE3
Main CPU PCB
CN201-126
5V
B27
AD23
Main CPU PCB
CN201-127
5V
B28
GND
Main CPU PCB
CN201-128
B29
AD21
Main CPU PCB
CN201-129
5V
B30
AD19
Main CPU PCB
CN201-130
5V
B31
+3.3V
Main CPU PCB
CN201-131
B32
AD17
Main CPU PCB
CN201-132
5V
B33
C/-BE2
Main CPU PCB
CN201-133
5V
B34
GND
Main CPU PCB
CN201-134
Function
Ground
Pulse
PCI bus clock B
0V
Ground
Pulse
5V
0V
0V
0V
0V
Ground
0V
0V
3.3V
0V
0V
0V
0V
Bus command / byte
enable signal
Ground
0V
0V
3.3V
0V
0V
0V
0V
DC+5V power supply
Bus command / byte
enable signal
Ground
4-191
PCB Connector and
Signal Information
Pin
No.
Pin
No.
Signal
Name
Destination
Status
Function
Pulse
B35
IRDY
Main CPU PCB
CN201-135
B36
+3.3V
Main CPU PCB
CN201-136
B37
DEVSEL
Main CPU PCB
CN201-137
B38
GND
Main CPU PCB
CN201-138
B39
LOCK
Main CPU PCB
CN201-139
B40
PERR
Main CPU PCB
CN201-140
B41
+3.3V
Main CPU PCB
CN201-141
B42
SERR
Main CPU PCB
CN201-142
B43
+3.3V
Main CPU PCB
CN201-143
B44
C/-BE1
Main CPU PCB
CN201-144
5V
B45
AD14
Main CPU PCB
CN201-145
5V
B46
GND
Main CPU PCB
CN201-146
B47
AD12
Main CPU PCB
CN201-147
5V
B48
AD10
Main CPU PCB
CN201-148
5V
B49
GND
Main CPU PCB
CN201-149
0V
B50
CONNECTOR
KEY
—
—
—
B51
CONNECTOR
KEY
—
—
—
B52
AD08
Main CPU PCB
CN201-152
5V
B53
AD07
Main CPU PCB
CN201-153
5V
B54
+3.3V
Main CPU PCB
CN201-154
4-192
3.3V
0V
Pulse
0V
Ground
Pulse
Lock signal
5V
0V
3.3V
0V
5V
0V
3.3V
0V
Parity error signal
System error signal
0V
Bus command / byte
enable signal
0V
signal
0V
Ground
0V
0V
Ground
0V
0V
3.3V
0V
Signal
Name
Destination
Status
B55
AD05
Main CPU PCB
CN201-155
5V
B56
AD03
Main CPU PCB
CN201-156
5V
B57
GND
Main CPU PCB
CN201-157
B58
AD01
Main CPU PCB
CN201-158
B59
+5V
Main CPU PCB
CN201-159
0V
B60
SYSRST
Main CPU PCB
CN201-160
0V
B61
+5V
Main CPU PCB
CN201-161
0V
B62
+5V
Main CPU PCB
CN201-162
0V
Function
0V
0V
0V
Ground
5V
0V
5V
3.3V
Reset
5V
5V
DC+5V power supply
System reset signal
DC+5V power supply
DC+5V power supply
PCB Connector and
Signal Information
Pin
No.
4-193
(CN4)
Pin
No.
Signal
Name
Status
Destination
1
GND
SO DIMM PCB
CN301-1
2
DQ0
SO DIMM PCB
CN301-2
3.3V
3
DQ1
SO DIMM PCB
CN301-3
3.3V
4
DQ2
SO DIMM PCB
CN301-4
3.3V
5
DQ3
SO DIMM PCB
CN301-5
3.3V
6
DQ4
SO DIMM PCB
CN301-6
3.3V
7
DQ5
SO DIMM PCB
CN301-7
3.3V
8
DQ6
SO DIMM PCB
CN301-8
3.3V
9
DQ7
SO DIMM PCB
CN301-9
3.3V
10
+3.3V
SO DIMM PCB
CN301-10
11
—
0V
0V
0V
0V
0V
0V
0V
0V
3.3V
0V
SO DIMM PCB
CN301-11
—
A0
SO DIMM PCB
CN301-12
3.3V
13
A1
SO DIMM PCB
CN301-13
3.3V
14
A2
SO DIMM PCB
CN301-14
3.3V
15
A3
SO DIMM PCB
CN301-15
3.3V
16
A4
SO DIMM PCB
CN301-16
3.3V
17
A5
SO DIMM PCB
CN301-17
3.3V
18
A6
SO DIMM PCB
CN301-18
3.3V
19
A10
SO DIMM PCB
CN301-19
3.3V
4-194
—
SO DIMM PCB
CN301-20
Ground
0V
12
20
Function
—
0V
0V
0V
0V
0V
0V
0V
0V
—
—
Signal
Name
Destination
Status
21
DQ8
SO DIMM PCB
CN301-21
3.3V
22
DQ9
SO DIMM PCB
CN301-22
3.3V
23
DQ10
SO DIMM PCB
CN301-23
3.3V
24
DQ11
SO DIMM PCB
CN301-24
3.3V
25
DQ12
SO DIMM PCB
CN301-25
3.3V
26
DQ13
SO DIMM PCB
CN301-26
3.3V
27
DQ14
SO DIMM PCB
CN301-27
3.3V
28
A7
SO DIMM PCB
CN301-28
3.3V
29
A11
SO DIMM PCB
CN301-29
3.3V
30
+3.3V
SO DIMM PCB
CN301-30
31
A8
SO DIMM PCB
CN301-31
3.3V
32
A9
SO DIMM PCB
CN301-32
3.3V
RAS3
SO DIMM PCB
CN301-33
Pulse
33
RAS2
SO DIMM PCB
CN301-34
Pulse
34
35
DQ15
SO DIMM PCB
CN301-35
36
—
0V
0V
0V
0V
0V
0V
0V
0V
0V
3.3V
0V
0V
0V
3.3V
0V
SO DIMM PCB
CN301-36
—
37
DQ16
SO DIMM PCB
CN301-37
3.3V
38
DQ17
SO DIMM PCB
CN301-38
3.3V
39
GND
SO DIMM PCB
CN301-39
40
CAS0
SO DIMM PCB
CN301-40
—
0V
0V
0V
Pulse
Ground
signal
4-195
PCB Connector and
Signal Information
Pin
No.
Pin
No.
Signal
Name
Destination
Status
Function
41
CAS2
SO DIMM PCB
CN301-41
Pulse
signal
42
CAS3
SO DIMM PCB
CN301-42
Pulse
signal
43
CAS1
SO DIMM PCB
CN301-43
Pulse
signal
44
RAS0
SO DIMM PCB
CN301-44
45
RAS1
SO DIMM PCB
CN301-45
46
47
48
—
—
Pulse
SO DIMM PCB
CN301-46
SO DIMM PCB
CN301-47
W
—
SO DIMM PCB
CN301-48
SO DIMM PCB
CN301-49
3.3V
50
DQ19
SO DIMM PCB
CN301-50
3.3V
51
DQ20
SO DIMM PCB
CN301-51
3.3V
52
DQ21
SO DIMM PCB
CN301-52
3.3V
53
DQ22
SO DIMM PCB
CN301-53
3.3V
54
DQ23
SO DIMM PCB
CN301-54
3.3V
—
0V
0V
0V
0V
0V
0V
SO DIMM PCB
CN301-55
—
56
DQ24
SO DIMM PCB
CN301-56
3.3V
57
DQ25
SO DIMM PCB
CN301-57
3.3V
58
DQ26
SO DIMM PCB
CN301-58
3.3V
59
DQ28
SO DIMM PCB
CN301-59
3.3V
60
DQ27
SO DIMM PCB
CN301-60
3.3V
4-196
—
DQ18
—
—
Pulse
49
55
—
0V
0V
0V
0V
0V
Signal
Name
Destination
Status
61
+3.3V
SO DIMM PCB
CN301-61
62
DQ29
SO DIMM PCB
CN301-62
3.3V
63
DQ30
SO DIMM PCB
CN301-63
3.3V
64
DQ31
SO DIMM PCB
CN301-64
3.3V
Function
3.3V
0V
0V
0V
0V
65
—
SO DIMM PCB
CN301-65
—
—
66
—
SO DIMM PCB
CN301-66
—
—
67
—
SO DIMM PCB
CN301-67
—
—
68
—
SO DIMM PCB
CN301-68
—
—
69
—
SO DIMM PCB
CN301-69
—
—
70
—
SO DIMM PCB
CN301-70
—
—
71
—
SO DIMM PCB
CN301-71
—
—
72
GND
SO DIMM PCB
CN301-72
0V
PCB Connector and
Signal Information
Pin
No.
Ground
4-197
(CN5)
Pin
No.
Signal
Name
Destination
1
GND
16 M Flash
DIMM PCB
CN351-1
2
A1
16 M Flash
DIMM PCB
CN351-2
3
A2
16 M Flash
DIMM PCB
CN351-3
4
A3
16 M Flash
DIMM PCB
CN351-4
5
A4
16 M Flash
DIMM PCB
CN351-5
6
A5
16 M Flash
DIMM PCB
CN351-6
7
A6
16 M Flash
DIMM PCB
CN351-7
8
A7
16 M Flash
DIMM PCB
CN351-8
9
A17 *
16 M Flash
DIMM PCB
CN351-9
10
+3.3V
16 M Flash
DIMM PCB
CN351-10
11
A18 *
16 M Flash
DIMM PCB
CN351-11
12
A19 *
16 M Flash
DIMM PCB
CN351-12
13
A8
16 M Flash
DIMM PCB
CN351-13
14
A9
16 M Flash
DIMM PCB
CN351-14
4-198
Status
Function
0V
Ground
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
bus signal
bus signal
bus signal
bus signal
bus signal
bus signal
bus signal
bus signal
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
bus signal
bus signal
bus signal
bus signal
Signal
Name
Destination
Status
15
A10
16 M Flash
DIMM PCB
CN351-15
16
A11
16 M Flash
DIMM PCB
CN351-16
RD/BY
16 M Flash
DIMM PCB
CN351-17
Pulse
17
WP
16 M Flash
DIMM PCB
CN351-18
Pulse
18
RP/
RESET
16 M Flash
DIMM PCB
CN351-19
Pulse
19
20
WE
16 M Flash
DIMM PCB
CN351-20
21
A12
16 M Flash
DIMM PCB
CN351-21
22
A13
16 M Flash
DIMM PCB
CN351-22
23
A14
16 M Flash
DIMM PCB
CN351-23
24
A15
16 M Flash
DIMM PCB
CN351-24
25
A16
16 M Flash
DIMM PCB
CN351-25
26
A17
16 M Flash
DIMM PCB
CN351-26
27
A18
16 M Flash
DIMM PCB
CN351-27
28
A19
16 M Flash
DIMM PCB
CN351-28
Function
3.3V
0V
3.3V
RD
BY
0V
bus signal
bus signal
signal
Reset signal
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
bus signal
bus signal
bus signal
bus signal
bus signal
bus signal
bus signal
bus signal
4-199
PCB Connector and
Signal Information
Pin
No.
Pin
No.
Signal
Name
Destination
29
A20
16 M Flash
DIMM PCB
CN351-29
30
+3.3V
16 M Flash
DIMM PCB
CN351-30
31
—
Status
3.3V
0V
A21
16 M Flash
DIMM PCB
CN351-32
33
CE
16 M Flash
DIMM PCB
CN351-33
bus signal
3.3V
0V
16 M Flash
DIMM PCB
CN351-31
32
Function
—
—
3.3V
0V
bus signal
Pulse
Chip select signal
34
—
16 M Flash
DIMM PCB
CN351-34
35
VPP
16 M Flash
DIMM PCB
CN351-35
36
—
16 M Flash
DIMM PCB
CN351-36
—
—
37
—
16 M Flash
DIMM PCB
CN351-37
—
—
38
—
16 M Flash
DIMM PCB
CN351-38
—
—
39
GND
16 M Flash
DIMM PCB
CN351-39
0V
40
—
16 M Flash
DIMM PCB
CN351-40
—
—
41
—
16 M Flash
DIMM PCB
CN351-41
—
—
42
—
16 M Flash
DIMM PCB
CN351-42
—
—
4-200
—
—
12V
0V
Write possible
terminal
Ground
Signal
Name
43
—
44
Status
Function
16 M Flash
DIMM PCB
CN351-43
—
—
—
16 M Flash
DIMM PCB
CN351-44
—
—
45
—
16 M Flash
DIMM PCB
CN351-45
—
—
46
—
16 M Flash
DIMM PCB
CN351-46
—
—
47
A16 *
16 M Flash
DIMM PCB
CN351-47
48
BYTE
16 M Flash
DIMM PCB
CN351-48
49
—
Destination
3.3V
0V
3.3V
16 M Flash
DIMM PCB
CN351-49
50
16 M Flash
A1/DQ15 DIMM PCB
CN351-50
51
DQ7
16 M Flash
DIMM PCB
CN351-51
52
DQ14
16 M Flash
DIMM PCB
CN351-52
53
DQ6
16 M Flash
DIMM PCB
CN351-53
54
DQ13
16 M Flash
DIMM PCB
CN351-54
55
DQ5
16 M Flash
DIMM PCB
CN351-55
56
DQ12
16 M Flash
DIMM PCB
CN351-56
x8
x 16
0V
—
bus signal
signal
—
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
data bus signal
signal
signal
signal
signal
signal
signal
4-201
PCB Connector and
Signal Information
Pin
No.
Pin
No.
Signal
Name
Destination
57
DQ4
16 M Flash
DIMM PCB
CN351-57
58
DQ11
16 M Flash
DIMM PCB
CN351-58
59
DQ3
16 M Flash
DIMM PCB
CN351-59
60
—
16 M Flash
DIMM PCB
CN351-60
61
62
+3.3V
—
16 M Flash
DIMM PCB
CN351-61
DQ10
16 M Flash
DIMM PCB
CN351-63
64
DQ2
16 M Flash
DIMM PCB
CN351-64
65
DQ9
16 M Flash
DIMM PCB
CN351-65
66
DQ1
16 M Flash
DIMM PCB
CN351-66
67
DQ8
16 M Flash
DIMM PCB
CN351-67
68
DQ0
16 M Flash
DIMM PCB
CN351-68
69
OE
16 M Flash
DIMM PCB
CN351-69
70
CE *
16 M Flash
DIMM PCB
CN351-70
Function
3.3V
0V
3.3V
0V
3.3V
0V
—
signal
signal
signal
—
3.3V
0V
16 M Flash
DIMM PCB
CN351-62
63
4-202
Status
—
DC+3.3Vpower supply
—
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
signal
signal
signal
signal
signal
signal
Pulse
Pulse
Chip select signal
Signal
Name
Destination
71
A0
16 M Flash
DIMM PCB
CN351-71
72
GND
16 M Flash
DIMM PCB
CN351-72
Status
Function
bus signal
3.3V
0V
0V
Ground
PCB Connector and
Signal Information
Pin
No.
4-203
(CN14)
Pin
No.
Signal
Name
Destination
Function
Status
3.3V
1
3.3V
LVPS CN20-1
2
GND
LVPS CN20-2
0V
Ground
3
GND
LVPS CN20-3
0V
Ground
4
5V1
LVPS CN20-4
5
GND
LVPS CN20-5
6
12V1
LVPS CN20-6
7
GND
LVPS CN20-7
8
–12V1
LVPS CN20-8
4-204
0V
5.1V
0V
Ground
0V
12V
0V
DC+12V power supply
Ground
0V
5V
-12V
DC-12V power supply
4.19 Control Panel PCB (FP-D450/D600 Series)
1. Control Panel CPU PCB (FP-D450/D600 Series)
(CN401)
Signal
Name
Destination
Function
Status
5V
1
VL
Image processing
PCB CN205-13
0V
2
VL
Image processing
PCB CN205-14
0V
3
GND
Image processing
PCB CN205-11
0V
Ground
4
GND
Image processing
PCB CN205-12
0V
Ground
5
+12V2
Image processing
PCB CN205-9
6
GND
Image processing
PCB CN205-10
7
P_TXD
Image processing
PCB CN205-7
8
GND
Image processing
PCB CN205-8
9
P_RXD
Image processing
PCB CN205-5
10
Image processing
PNL_RST PCB CN205-6
11
P_RTS
12
P_CTS
5V
12V
0V
0V
Pulse
DC+5V power supply
DC+5V power supply
DC+12V power supply
Ground
Control panel receive
signal
0V
Pulse
Ground
Control panel transfer
signal
Ready
Host system reset
Image processing
PCB CN205-3
Ready
Control panel
Transfer accept signal
Image processing
PCB CN205-4
Ready
Control panel
Receive accept signal
Reset
4-205
PCB Connector and
Signal Information
Pin
No.
(CN402)
Pin
No.
Signal
Name
Destination
1
X1
Touch panel
PCB CN-1
2
Y2
Touch panel
PCB CN-2
3
X2
Touch panel
PCB CN-3
4
Y1
Touch panel
PCB CN-4
Status
Function
5V
Select
0V
Analog touch 5V
0V
Analog touch 5V
0V
5V
Select
0V
(CN403)
Pin
No.
signal 2
signal 2
signal 1
Signal
Name
Destination
Status
Function
1
VLCD
LCD PCB
CN-1
–17V ~ –24V
2
VEE
LCD PCB
CN-2
–24V
3
UD3
LCD PCB
CN-3
Pulse
4
UD2
LCD PCB
CN-4
Pulse
5
UD1
LCD PCB
CN-5
Pulse
6
UD0
LCD PCB
CN-6
Pulse
7
LCDAC
LCD PCB
CN-7
8
GND
LCD PCB
CN-8
9
VL
LCD PCB
CN-9
10
CP
LCD PCB
CN-10
LCD density control
signal
LCD drive power supply
LCD data signal 3
LCD data signal 2
LCD data signal 1
LCD data signal 0
600-700 MHz
LCD AC changing
signal
0V
Ground
5V
0V
3MHz
11
LP
LCD PCB
CN-11
60µS
12
FRM
LCD PCB
CN-12
13-15mS
4-206
signal 1
DC+5V power supply
LCD data transfer clock
signal
LCD data latch pulse
signal
LCD data frame signal
Pin
No.
Signal
Name
Destination
1
INV1
LCD backlight
PCB
CN-1
2
INV2
LCD backlight
PCB
CN-2
Status
0V
Function
Ground
AC voltage
Approx. 1kVP-P
PCB Connector and
Signal Information
(CN404)
4-207
(CN406)
Pin
No.
Signal
Name
1
GND
2
DRV0
3
4
5
6
7
8
9
DRV1
DRV2
DRV3
MTRLD0
MTRLD1
MTRLD2
MTRLD3
10
DT0
11
DT1
12
DRVK0
13
14
15
16
4-208
DRVK1
DRVK2
DRVK3
GND
Status
Destination
Control panel
PCB A
CN357-15
Control panel
PCB A
CN357-16
Control panel
PCB A
CN357-13
Control panel
PCB A
CN357-14
Control panel
PCB A
CN357-11
Control panel
PCB A
CN357-12
Control panel
PCB A
CN357-9
Control panel
PCB A
CN357-10
Control panel
PCB A
CN357-7
Control panel
PCB A
CN357-8
Control panel
PCB A
CN357-5
Control panel
PCB A
CN357-6
Control panel
PCB A
CN357-3
Control panel
PCB A
CN357-4
Control panel
PCB A
CN357-1
Control panel
PCB A
CN357-2
Function
0V
Ground
ON 5V
LED drive signal 0
0V
ON 5V
LED drive signal 1
0V
ON 5V
LED drive signal 2
0V
ON 5V
LED drive signal 3
ON
0V
5V
ON
0V
5V
ON
0V
5V
ON
0V
5V
LED matrix signal 0
LED matrix signal 1
LED matrix signal 2
LED matrix signal 3
0V
0V
0V
5V
signal 0
5V
signal 1
Open
Open
ON 5V
0V
ON 5V
0V
ON 5V
0V
ON 5V
drive signal 0
drive signal 1
drive signal 2
drive signal 3
0V
0V
Ground
(CN407)
Signal
Name
Destination
Status
Function
Control panel
MTRKEY15 PCB A
CN356-13
ON 5V
1
Control panel
MTRKEY14 PCB A
CN356-14
ON 5V
2
3
Control panel
MTRKEY13 PCB A
CN356-11
ON 5V
Control panel
MTRKEY12 PCB A
CN356-12
ON 5V
4
5
Control panel
MTRKEY11 PCB A
CN356-9
ON 5V
Control panel
MTRKEY10 PCB A
CN356-10
ON 5V
6
ON 5V
7
Control panel
MTRKEY9 PCB A
CN356-7
Control panel
MTRKEY8 PCB A
CN356-8
ON 5V
8
9
Control panel
MTRKEY0 PCB A
CN356-5
ON 5V
Control panel
MTRKEY1 PCB A
CN356-6
ON 5V
10
11
Control panel
MTRKEY2 PCB A
CN356-3
ON 5V
Control panel
MTRKEY3 PCB A
CN356-4
ON 5V
12
13
Control panel
MTRKEY4 PCB A
CN356-1
ON 5V
Control panel
MTRKEY5 PCB A
CN356-2
ON 5V
14
data signal 15
0V
data signal 14
0V
data signal 13
0V
data signal 12
0V
data signal 11
0V
data signal 10
0V
data signal 9
0V
data signal 8
0V
data signal 0
0V
data signal 1
0V
data signal 2
0V
data signal 3
0V
data signal 4
0V
data signal 5
0V
4-209
PCB Connector and
Signal Information
Pin
No.
(CN408)
Pin
No.
Signal
Name
Destination
Control panel
PCB B
CN351-9
Status
Function
1
GND
Control panel
MTRKEY6 PCB B
CN351-10
ON 5V
2
3
Control panel
MTRKEY7 PCB B
CN351-7
ON 5V
Control panel
MTRKEY5 PCB B
CN351-8
ON 5V
4
5
Control panel
MTRKEY4 PCB B
CN351-5
ON 5V
DRVK3
Control panel
PCB B
CN351-6
ON 5V
6
ON 5V
7
DRVK2
Control panel
PCB B
CN351-3
DRVK1
Control panel
PCB B
CN351-4
ON 5V
8
9
DRVK0
Control panel
PCB B
CN351-1
ON 5V
10
GND
Control panel
PCB B
CN351-2
4-210
0V
Ground
data signal 6
0V
data signal 7
0V
data signal 5
0V
data signal 4
0V
drive signal 3
0V
drive signal 2
0V
drive signal 1
0V
drive signal 0
0V
0V
Ground
2. Control Panel PCB A (FP-D450/D600 Series)
PCB Connector and
Signal Information
(CN354 - CN355)
Not used
4-211
(CN356)
Pin
No.
Signal
Name
Destination
Status
Function
Control panel
MTRKEY4 CPU PCB
CN407-13
ON 5V
1
ON 5V
2
Control panel
MTRKEY5 CPU PCB
CN407-14
Control panel
MTRKEY2 CPU PCB
CN407-11
ON 5V
3
ON 5V
4
Control panel
MTRKEY3 CPU PCB
CN407-12
Control panel
MTRKEY0 CPU PCB
CN407-9
ON 5V
5
ON 5V
6
Control panel
MTRKEY1 CPU PCB
CN407-10
ON 5V
7
Control panel
MTRKEY9 CPU PCB
CN407-7
ON 5V
8
Control panel
MTRKEY8 CPU PCB
CN407-8
Control panel
MTRKEY11 CPU PCB
CN407-5
ON 5V
9
ON 5V
10
Control panel
MTRKEY10 CPU PCB
CN407-6
Control panel
MTRKEY13 CPU PCB
CN407-3
ON 5V
11
ON 5V
12
Control panel
MTRKEY12 CPU PCB
CN407-4
Control panel
MTRKEY15 CPU PCB
CN407-1
ON 5V
13
ON 5V
14
Control panel
MTRKEY14 CPU PCB
CN407-2
4-212
data signal 4
0V
data signal 5
0V
data signal 2
0V
data signal 3
0V
data signal 0
0V
data signal 1
0V
data signal 9
0V
data signal 8
0V
data signal 11
0V
data signal 10
0V
data signal 13
0V
data signal 12
0V
data signal 15
0V
0V
data signal 14
(CN357)
Signal
Name
Destination
1
DRVK3
Control panel
CPU PCB
CN406-15
2
GND
Control panel
CPU PCB
CN406-16
DRVK1
Control panel
CPU PCB
CN406-13
4
DRVK2
Control panel
CPU PCB
CN406-14
5
DT1
Control panel
CPU PCB
CN406-11
6
DRVK0
Control panel
CPU PCB
CN406-12
MTRLD3
Control panel
CPU PCB
CN406-9
3
7
8
9
10
11
12
13
14
Status
ON 5V
0V
5V
Open
0V
ON 5V
drive signal 0
5V
LED matrix signal 3
0V
Control panel
CPU PCB
CN406-8
ON
DRV2
signal 1
0V
ON
MTRLD1
DRV1
drive signal 2
0V
ON
5V
Open
0V
signal 0
5V
LED matrix signal 1
0V
5V
LED matrix signal 2
0V
Control panel
CPU PCB
CN406-5
Control panel
CPU PCB
CN406-6
drive signal 1
0V
Control panel
CPU PCB
CN406-7
MTRLD0
Ground
ON 5V
Control panel
CPU PCB
CN406-10
DRV3
drive signal 3
0V
DT0
MTRLD2
Function
ON 5V
LED drive signal 3
0V
ON
5V
LED matrix signal 0
0V
Control panel
CPU PCB
CN406-3
ON 5V
Control panel
CPU PCB
CN406-4
ON 5V
LED drive signal 1
0V
LED drive signal 2
0V
4-213
PCB Connector and
Signal Information
Pin
No.
Pin
No.
Signal
Name
Destination
15
GND
Control panel
CPU PCB
CN406-1
16
DRV0
Control panel
CPU PCB
CN406-2
Function
Status
0V
Ground
ON 5V
LED drive signal 0
0V
(CN358)
Pin
No.
1
2
3
4-214
Signal
Name
KEY
—
P_LED
Destination
Status
Image processing
PCB CN205-16
0V
Function
EPA mode key input
signal
—
—
Image processing
PCB CN205-15
2~3V
0V
ON
EPA mode LED ON/
OFF signal
3. Control Panel PCB B (FP-D450/D600 Series)
(CN351)
1
Signal
Name
Destination
DRVK0
Control panel
CPU PCB
CN408-9
Function
Status
ON 5V
drive signal 0
0V
2
GND
Control panel
CPU PCB
CN408-10
DRVK2
Control panel
CPU PCB
CN408-7
ON 5V
3
ON 5V
4
DRVK1
Control panel
CPU PCB
CN408-8
ON 5V
5
Control panel
MTRKEY4 CPU PCB
CN408-5
Ground
0V
drive signal 2
0V
drive signal 1
0V
data signal 4
0V
DRVK3
Control panel
CPU PCB
CN408-6
ON 5V
6
ON 5V
7
Control panel
MTRKEY7 CPU PCB
CN408-3
Control panel
MTRKEY5 CPU PCB
CN408-4
ON 5V
8
9
GND
Control panel
CPU PCB
CN408-1
10
Control panel
MTRKEY6 CPU PCB
CN408-2
drive signal 3
0V
data signal 7
0V
data signal 5
0V
0V
Ground
ON 5V
data signal 6
0V
4-215
PCB Connector and
Signal Information
Pin
No.
4 Control Panel PCB C (FP-D450/D600 Series)
(CN360)
Pin
No.
Signal
Name
1
MTRLD3
Destination
Control panel
PCB A
CN359-11
2
Control panel
MTRKEY8 PCB A
CN359-12
3
Control panel
PCB A
CN359-9
MTRLD1
Function
Status
5V
ON
LED matrix signal 3
0V
ON 5V
0V
5V
ON
LED matrix signal 1
0V
Control panel
PCB A
CN359-10
ON 5V
DRVK3
ON 5V
DRV3
Control panel
PCB A
CN359-7
Control panel
PCB A
CN359-8
ON 5V
DRVK1
ON 5V
DRV2
Control panel
PCB A
CN359-5
Control panel
PCB A
CN359-6
ON 5V
DRVK2
ON 5V
DRV1
Control panel
PCB A
CN359-3
Control panel
PCB A
CN359-4
ON 5V
DRVK0
11
GND
Control panel
PCB A
CN359-1
12
MTRLD2
Control panel
PCB A
CN359-2
4
5
6
7
8
9
10
4-216
data signal 8
drive signal 3
0V
LED drive signal 3
0V
drive signal 1
0V
LED drive signal 2
0V
drive signal 2
0V
LED drive signal 1
0V
drive signal 0
0V
Ground
0V
ON
5V
LED matrix signal 2
0V
(CN361)
Signal
Name
Destination
1
GND
Control panel
PCB D
CN362-5
2
DRV3
Control panel
PCB D
CN362-6
3
4
5
6
MTRLD1
DRV2
MTRLD2
DRV1
Control panel
PCB D
CN362-3
Status
0V
Control panel
PCB D
CN362-2
Ground
ON 5V
LED drive signal 3
0V
ON
5V
LED matrix signal 1
0V
Control panel
PCB D
CN362-4
Control panel
PCB D
CN362-1
Function
ON 5V
LED drive signal 2
0V
ON
5V
LED matrix signal 2
0V
ON 5V
LED drive signal 1
0V
PCB Connector and
Signal Information
Pin
No.
4-217
5 Control Panel PCB D (FP-D450/D600 Series)
(CN362)
Pin
No.
Signal
Name
1
MTRLD2
Control panel
PCB C
CN361-5
2
DRV1
Control panel
PCB C
CN361-6
3
MTRLD1
Control panel
PCB C
CN361-3
4
DRV2
Control panel
PCB C
CN361-4
5
GND
Control panel
PCB C
CN361-1
6
DRV3
Control panel
PCB C
CN361-2
4-218
Destination
Status
Function
ON
LED matrix signal 2
ON
LED drive signal 1
ON
LED matrix signal 1
ON
LED drive signal 2
0V
Ground
ON
LED drive signal 3
4.20 CCD PCB (FP-D450/D600 Series)
Pin
No.
Signal
Name
Destination
1
SVD7
Image
processing PCB
CN209-23
2
ISVD7
Image
processing PCB
CN209-24
3
SVD6
Image
processing PCB
CN209-21
4
ISVD6
Image
processing PCB
CN209-22
5
SVD5
Image
processing PCB
CN209-19
6
ISVD5
Image
processing PCB
CN209-20
7
SVD4
Image
processing PCB
CN209-17
8
ISVD4
Image
processing PCB
CN209-18
9
SVD3
Image
processing PCB
CN209-15
10
ISVD3
Image
processing PCB
CN209-16
11
SVD2
Image
processing PCB
CN209-13
12
ISVD2
Image
processing PCB
CN209-14
13
SVD1
Image
processing PCB
CN209-11
Status
Pulse
Pulse
Pulse
Pulse
Pulse
Pulse
Pulse
Pulse
Pulse
Pulse
Pulse
Pulse
Pulse
Function
(MSB)
output signal (MSB)
output signal
output signal
output signal
output signal
output signal
4-219
PCB Connector and
Signal Information
(CN801)
Pin
No.
Signal
Name
Destination
14
ISVD1
Image
processing PCB
CN209-12
15
SVD0
Image
processing PCB
CN209-9
16
ISVD0
Image
processing PCB
CN209-10
17
SVCLK
Image
processing PCB
CN209-7
18
ISVCLK
Image
processing PCB
CN209-8
19
Image
RLSYNC processing PCB
CN209-5
20
Image
IRLSYNC processing PCB
CN209-6
21
Image
ISLSYNCC processing PCB
CN209-3
22
GND
Image
processing PCB
CN209-4
0V
Ground
23
GND
Image
processing PCB
CN209-1
0V
Ground
24
GND
Image
processing PCB
CN209-2
0V
Ground
4-220
Status
Pulse
Pulse
Pulse
Pulse
Pulse
Pulse
Pulse
Function
output signal
(LSB)
output signal (LSB)
Scanner image clock
signal
Return horizontal
differential output
differential output
Return Horizontal
Synchronizing Signal
5V
0V
(CN802)
Pin
No.
Signal
Name
Destination
1
AGND
LVPS CN16-6
2
-12V2
LVPS CN16-5
3
AGND
LVPS CN16-4
4
12V2
LVPS CN16-3
5
GND
LVPS CN16-2
6
5V2
LVPS CN16-1
Function
Status
0V
Ground
5V
-12V
0V
Ground
12V
0V
0V
5V
0V
DC+5V power supply
Destination
Status
5V
Function
1
DALD
Image
processing PCB
CN210-7
2
GND
Image
processing PCB
CN210-8
3
DACLK
Image
processing PCB
CN210-5
4
GND
Image
processing PCB
CN210-6
5
Image
DADATA processing PCB
CN210-3
6
GND
Image
processing PCB
CN210-4
0V
Ground
7
GND
Image
processing PCB
CN210-1
0V
Ground
8
GND
Image
processing PCB
CN210-2
0V
Ground
load signal
0V
0V
5V
clock
0V
0V
5V
0V
Ground
D0 D1 D2
Ground
data
4-221
PCB Connector and
Signal Information
Signal
Name
DC+12V power supply
Ground
(CN803)
Pin
No.
DC-12V power supply
4.21 SO DIMM PCB (FP-D450/D600 Series)
(CN301)
Pin
No.
Signal
Name
Destination
1
GND
System control
PCB
CN4-1
2
DQ0
System control
PCB
CN4-2
3
DQ1
System control
PCB
CN4-3
4
DQ2
System control
PCB
CN4-4
5
DQ3
System control
PCB
CN4-5
6
DQ4
System control
PCB
CN4-6
7
DQ5
System control
PCB
CN4-7
8
DQ6
System control
PCB
CN4-8
9
DQ7
System control
PCB
CN4-9
10
+3.3V
System control
PCB
CN4-10
11
—
System control
PCB
CN4-11
12
A0
System control
PCB
CN4-12
13
A1
System control
PCB
CN4-13
4-222
Function
Status
Ground
0V
3.3V
0V
0V
0V
0V
0V
0V
0V
0V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
0V
—
—
3.3V
0V
0V
3.3V
Signal
Name
Destination
14
A2
System control
PCB
CN4-14
15
A3
System control
PCB
CN4-15
16
A4
System control
PCB
CN4-16
17
A5
System control
PCB
CN4-17
18
A6
System control
PCB
CN4-18
19
A10
System control
PCB
CN4-19
20
—
System control
PCB
CN4-20
21
DQ8
System control
PCB
CN4-21
22
DQ9
System control
PCB
CN4-22
23
DQ10
System control
PCB
CN4-23
24
DQ11
System control
PCB
CN4-24
25
DQ12
System control
PCB
CN4-25
26
DQ13
System control
PCB
CN4-26
27
DQ14
System control
PCB
CN4-27
Status
Function
3.3V
0V
0V
0V
0V
0V
0V
3.3V
3.3V
3.3V
3.3V
3.3V
—
PCB Connector and
Signal Information
Pin
No.
—
3.3V
0V
0V
0V
0V
0V
0V
0V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
4-223
Pin
No.
Signal
Name
Destination
28
A7
System control
PCB
CN4-28
29
A11
System control
PCB
CN4-29
30
+3.3V
System control
PCB
CN4-30
31
A8
System control
PCB
CN4-31
32
A9
System control
PCB
CN4-32
33
RAS3
System control
PCB
CN4-33
34
RAS2
System control
PCB
CN4-34
35
DQ15
System control
PCB
CN4-35
36
—
System control
PCB
CN4-36
37
DQ16
System control
PCB
CN4-37
38
DQ17
System control
PCB
CN4-38
39
GND
System control
PCB
CN4-39
40
CAS0
System control
PCB
CN4-40
41
CAS2
System control
PCB
CN4-41
4-224
Function
Status
3.3V
0V
0V
3.3V
3.3V
0V
3.3V
0V
0V
3.3V
Pulse
Pulse
3.3V
0V
—
—
3.3V
0V
0V
3.3V
0V
Ground
Pulse
signal
Pulse
signal
Signal
Name
Destination
42
CAS3
System control
PCB
CN4-42
43
CAS1
System control
PCB
CN4-43
44
RAS0
System control
PCB
CN4-44
45
RAS1
System control
PCB
CN4-45
46
—
System control
PCB
CN4-46
47
W
System control
PCB
CN4-47
48
—
System control
PCB
CN4-48
49
DQ18
System control
PCB
CN4-49
50
DQ19
System control
PCB
CN4-50
51
DQ20
System control
PCB
CN4-51
52
DQ21
System control
PCB
CN4-52
53
DQ22
System control
PCB
CN4-53
54
DQ23
System control
PCB
CN4-54
55
—
System control
PCB
CN4-55
Status
Function
Pulse
signal
Pulse
signal
Pulse
Pulse
—
—
Pulse
—
PCB Connector and
Signal Information
Pin
No.
—
3.3V
0V
0V
0V
0V
0V
0V
3.3V
3.3V
3.3V
3.3V
3.3V
—
—
4-225
Pin
No.
Signal
Name
Destination
56
DQ24
System control
PCB
CN4-56
57
DQ25
System control
PCB
CN4-57
58
DQ26
System control
PCB
CN4-58
59
DQ28
System control
PCB
CN4-59
60
DQ27
System control
PCB
CN4-60
61
+3.3V
System control
PCB
CN4-61
62
DQ29
System control
PCB
CN4-62
63
DQ30
System control
PCB
CN4-63
64
DQ31
System control
PCB
CN4-64
Status
Function
3.3V
0V
0V
0V
0V
0V
3.3V
3.3V
3.3V
3.3V
3.3V
0V
3.3V
0V
0V
3.3V
65
—
System control
PCB
CN4-65
—
—
66
—
System control
PCB
CN4-66
—
—
67
—
System control
PCB
CN4-67
—
—
68
—
System control
PCB
CN4-68
—
—
69
—
System control
PCB
CN4-69
—
—
4-226
Signal
Name
70
—
71
72
Destination
Status
Function
System control
PCB
CN4-70
—
—
—
System control
PCB
CN4-71
—
—
GND
System control
PCB
CN4-72
0V
Ground
PCB Connector and
Signal Information
Pin
No.
4-227
4.22 16 M Flash DIMM PCB (FP-D450/D600 Series)
(CN351)
Pin
No.
Signal
Name
Destination
1
GND
System control
PCB
CN5-1
2
A1
System control
PCB
CN5-2
3
A2
System control
PCB
CN5-3
4
A3
System control
PCB
CN5-4
5
A4
System control
PCB
CN5-5
6
A5
System control
PCB
CN5-6
7
A6
System control
PCB
CN5-7
8
A7
System control
PCB
CN5-8
9
A17 *
System control
PCB
CN5-9
10
+3.3V
System control
PCB
CN5-10
11
A18 *
System control
PCB
CN5-11
12
A19 *
System control
PCB
CN5-12
13
A8
System control
PCB
CN5-13
4-228
Status
Function
0V
Ground
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
bus signal
bus signal
bus signal
bus signal
bus signal
bus signal
bus signal
bus signal
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
bus signal
bus signal
bus signal
Signal
Name
14
A9
System control
PCB
CN5-14
15
A10
System control
PCB
CN5-15
16
A11
System control
PCB
CN5-16
17
RD/BY
System control
PCB
CN5-17
18
WP
System control
PCB
CN5-18
19
RP/
RESET
20
WE
System control
PCB
CN5-20
21
A12
System control
PCB
CN5-21
22
A13
System control
PCB
CN5-22
23
A14
System control
PCB
CN5-23
24
A15
System control
PCB
CN5-24
25
A16
System control
PCB
CN5-25
26
A17
System control
PCB
CN5-26
27
A18
System control
PCB
CN5-27
Destination
System control
PCB
CN5-19
Function
Status
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
RD
BY
0V
bus signal
bus signal
signal
Pulse
Reset
bus signal
3.3V
Reset signal
0V
Pulse
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
bus signal
bus signal
bus signal
bus signal
bus signal
bus signal
bus signal
4-229
PCB Connector and
Signal Information
Pin
No.
Pin
No.
Signal
Name
Destination
28
A19
System control
PCB
CN5-28
29
A20
System control
PCB
CN5-29
30
+3.3V
System control
PCB
CN5-30
31
—
Status
3.3V
0V
3.3V
0V
A21
System control
PCB
CN5-32
33
CE
System control
PCB
CN5-33
bus signal
bus signal
3.3V
0V
System control
PCB
CN5-31
32
Function
—
—
3.3V
0V
bus signal
Pulse
Chip select signal
34
—
System control
PCB
CN5-34
35
VPP
System control
PCB
CN5-35
36
—
System control
PCB
CN5-36
—
—
37
—
System control
PCB
CN5-37
—
—
38
—
System control
PCB
CN5-38
—
—
39
GND
System control
PCB
CN5-39
0V
40
—
System control
PCB
CN5-40
—
—
41
—
System control
PCB
CN5-41
—
—
4-230
—
—
5V
0V
Write possible
terminal
Ground
Signal
Name
42
—
43
Status
Function
System control
PCB
CN5-42
—
—
—
System control
PCB
CN5-43
—
—
44
—
System control
PCB
CN5-44
—
—
45
—
System control
PCB
CN5-45
—
—
46
—
System control
PCB
CN5-46
—
—
47
A16 *
System control
PCB
CN5-47
48
BYTE
System control
PCB
CN5-48
49
—
Destination
3.3V
0V
3.3V
System control
PCB
CN5-49
50
A1/
DQ15
51
DQ7
System control
PCB
CN5-51
52
DQ14
System control
PCB
CN5-52
53
DQ6
System control
PCB
CN5-53
54
DQ13
System control
PCB
CN5-54
55
DQ5
System control
PCB
CN5-55
System control
PCB
CN5-50
x8
x 16
0V
—
bus signal
signal
—
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
data bus signal
signal
signal
signal
signal
signal
4-231
PCB Connector and
Signal Information
Pin
No.
Pin
No.
Signal
Name
Destination
56
DQ12
System control
PCB
CN5-56
57
DQ4
System control
PCB
CN5-57
58
DQ11
System control
PCB
CN5-58
59
DQ3
System control
PCB
CN5-59
60
—
System control
PCB
CN5-60
61
62
+3.3V
—
System control
PCB
CN5-61
DQ10
System control
PCB
CN5-63
64
DQ2
System control
PCB
CN5-64
65
DQ9
System control
PCB
CN5-65
66
DQ1
System control
PCB
CN5-66
67
DQ8
System control
PCB
CN5-67
68
DQ0
System control
PCB
CN5-68
69
OE
System control
PCB
CN5-69
Function
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
—
signal
signal
signal
signal
—
3.3V
DC+3.3Vpower supply
0V
System control
PCB
CN5-62
63
4-232
Status
—
—
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
signal
signal
signal
signal
signal
signal
Pulse
Signal
Name
Destination
70
CE *
System control
PCB
CN5-70
71
A0
System control
PCB
CN5-71
72
GND
System control
PCB
CN5-72
Status
Function
Pulse
Chip select signal
bus signal
3.3V
0V
0V
Ground
PCB Connector and
Signal Information
Pin
No.
4-233
4.23 LSU Image Data Control PCB (FP-D450/D600Series)
(CN1)
Pin
No.
Signal
Name
Destination
a1
ENABLE0
Image Processing
PCB CN38-26
a2
CAL0
Image Processing
PCB CN38-25
a3
ADJ10
Image Processing
PCB CN38-24
a4
GND
Image Processing
PCB CN38-23
a5
PSEMDEM1
Image Processing
PCB CN38-22
Pulse
Laser A PWM mode
change signal
a6
NSEMDEM1
Image Processing
PCB CN38-21
Pulse
Laser A PWM mode
change signal
a7
PLEMTEM1
Image Processing
PCB CN38-20
Pulse
Laser A PWM mode
change signal
a8
NLEMTEM1
Image Processing
PCB CN38-19
Pulse
Laser A PWM mode
change signal
a9
PLDA0
Image Processing
PCB CN38-18
Pulse
a10
NLDA0
Image Processing
PCB CN38-17
Pulse
a11
PLDA1
Image Processing
PCB CN38-16
Pulse
a12
NLDA1
Image Processing
PCB CN38-15
Pulse
a13
PLDA2
Image Processing
PCB CN38-14
Pulse
a14
NLDA2
Image Processing
PCB CN38-13
Pulse
a15
PLDA3
Image Processing
PCB CN38-12
Pulse
a16
NLDA3
Image Processing
PCB CN38-11
Pulse
a17
PLDA4
Image Processing
PCB CN38-10
Pulse
a18
NLDA4
Image Processing
PCB CN38-9
Pulse
4-234
Function
Status
5V
0V
5V
0V
5V
0V
0V
signal
Laser A APC control
signal
Ground
Pin
No.
Signal
Name
Destination
Status
Function
a19
PLDA5
Image Processing
PCB CN38-8
Pulse
a20
NLDA5
Image Processing
PCB CN38-7
Pulse
a21
PLDA6
Image Processing
PCB CN38-6
Pulse
a22
NLDA6
Image Processing
PCB CN38-5
Pulse
a23
PLDA7
Image Processing
PCB CN38-4
Pulse
a24
NLDA7
Image Processing
PCB CN38-3
Pulse
PLCLK0
Image Processing
PCB CN38-2
Pulse
a25
clock signal
a26
NLCLK0
Image Processing
PCB CN38-1
Pulse
clock signal
b1
ADJ2
Image Processing
PCB CN38-52
5V
b2
GND
Image Processing
PCB CN38-51
b3
PSEMDEM2
Image Processing
PCB CN38-50
Pulse
Laser B PWM mode
change signal
b4
NSEMDEM2
Image Processing
PCB CN38-49
Pulse
Laser B PWM mode
change signal
b5
PLEMTEM2
Image Processing
PCB CN38-48
Pulse
Laser B PWM mode
change signal
b6
NLEMTEM2
Image Processing
PCB CN38-47
Pulse
Laser B PWM mode
change signal
b7
PLDB0
Image Processing
PCB CN38-46
Pulse
b8
NLDB0
Image Processing
PCB CN38-45
Pulse
b9
PLDB1
Image Processing
PCB CN38-44
Pulse
b10
NLDB1
Image Processing
PCB CN38-43
Pulse
b11
PLDB2
Image Processing
PCB CN38-42
Pulse
b12
NLDB2
Image Processing
PCB CN38-41
Pulse
0V
Laser B APC control
signal
PCB Connector and
Signal Information
0V
Ground
4-235
Pin
No.
Signal
Name
Destination
Status
b13
PLDB3
Image Processing
PCB CN38-40
Pulse
b14
NLDB3
Image Processing
PCB CN38-39
Pulse
b15
PLDB4
Image Processing
PCB CN38-38
Pulse
b16
NLDB4
Image Processing
PCB CN38-37
Pulse
b17
PLDB5
Image Processing
PCB CN38-36
Pulse
b18
NLDB5
Image Processing
PCB CN38-35
Pulse
b19
PLDB6
Image Processing
PCB CN38-34
Pulse
b20
NLDB6
Image Processing
PCB CN38-33
Pulse
b21
PLDB7
Image Processing
PCB CN38-32
Pulse
b22
NLDB7
Image Processing
PCB CN38-31
Pulse
b23
+5VL
Image Processing
PCB CN38-30
0V
b24
+5VL
Image Processing
PCB CN38-29
0V
b25
+5VL
Image Processing
PCB CN38-28
0V
b26
GND
Image Processing
PCB CN38-27
Function
5V
5V
5V
0V
DC+5V power supply
Signal
Name
1
N.C
2
GND
3
APCM0
4
DPISEL
5
GND
4-236
DC+5V power supply
Ground
(CNLSA)
Pin
No.
DC+5V power supply
Destination
Status
Function
—
—
—
Image Processing
PCB CN36-6
Image Processing
PCB CN36-7
Image Processing
PCB CN36-8
Image Processing
PCB CN36-9
Ground
0V
5V
0V
5V
0V
0V
APC monitor terminal
Resolution select signal
Ground
(CNLSP)
Signal
Name
Destination
Status
0V
1
GND
Image Processing
PCB CN36-1
2
LSULSYNC
Image Processing
PCB CN36-2
3
GND
Image Processing
PCB CN36-3
4
VL
Image Processing
PCB CN36-4
Function
Ground
Pulse
LSU main scan
Ground
0V
5V
0V
(CNLSM)
Pin
No.
DC+5V power supply
Signal
Name
Destination
Status
1
PMCLK
Main CPU PCB
CN32-8
2
PGND
Main CPU PCB
CN32-7
3
PMCNT
Main CPU PCB
CN32-6
4
PMLOCK
Main CPU PCB
CN32-5
5
PGND
Main CPU PCB
CN32-4
6
PMVP
Main CPU PCB
CN32-3
0V
7
PMFLCK
Main CPU PCB
CN32-2
0V
8
PMFCNT
Main CPU PCB
CN32-1
Function
Pulse
0V
0V
Polygon motor drive
clock signal
Power ground
24V
0V
Stop Rotates
Polygon motor drive
control signal
PCB Connector and
Signal Information
Pin
No.
Polygon motor lock
detecting signal
0V
Power ground
24V
5V
DC+24V power supply
Fan motor lock
detecting signal
Fan motor drive control
signal
4-237
4.24 Automatic Duplex Unit (ADU) Driver PCB
(FP-D450/D600Series)
(CN651)
Pin
No.
Signal
Name
Destination
Function
Status
24V
1
PVP
Main CPU PCB
CN11-2
2
PGND
Main CPU PCB
CN11-1
3
PVP
Main CPU PCB
CN11-4
4
PGND
Main CPU PCB
CN11-3
5
F32AOUT
Main CPU PCB
CN11-5
6
PSLSN
Main CPU PCB
CN11-14
7
DXFENB
Main CPU PCB
CN11-16
8
PSWSN
Main CPU PCB
CN11-15
9
QLTH
Main CPU PCB
CN11-6
Pulse
signal
10
DXMCA
Main CPU PCB
CN11-10
Pulse
signal A
11
F32ACLK
12
DXMCAB
Main CPU PCB
CN11-11
13
QLD
Main CPU PCB
CN11-8
14
DXMCB
Main CPU PCB
CN11-12
15
DXIN
Main CPU PCB
CN11-9
16
DXMCBB
Main CPU PCB
CN11-13
17
VL
Main CPU PCB
CN11-17
18
GND
Main CPU PCB
CN11-18
4-238
Main CPU PCB
CN11-7
0V
0V
Power ground
24V
0V
0V
0V
5V
Length paper guide
sensor signal
0V
enable signal
5V
0V
Width paper guide
sensor signal
receive clock output
signal
32
Pulse
Pulse
Shift
0V
5V
ON
DC+24Vpower supply
Power ground
Pulse
ON
DC+24Vpower supply
signal A
32 bit data receive shift
/ load control signal
Load
Pulse
signal B
signal
Pulse
signal B
5V
0V
0V
DC+5V power supply
Ground
(CN652)
Signal
Name
Destination
Status
0V
1
GND
Paper detecting
sensor
CN-3
2
DXPESN
Paper detecting
sensor
CN-2
3
VL
Paper detecting
sensor
CN-1
4
—
GND
Paper pass
sensor 2
CN-3
6
DXPSN2
Paper pass
sensor 2
CN-2
7
VL
Paper pass
sensor 2
CN-1
—
0V
GND
Paper pass
sensor 1
CN-3
10
DXPSN1
Paper pass
sensor 1
CN-2
11
VL
Paper pass
sensor 1
CN-1
5V
DC+5V power supply
0V
—
—
0V
Ground
5V
ON
Paper pass sensor 2
0V
5V
DC+5V power supply
0V
—
—
9
Ground
Detecting
—
5
8
5V
Function
—
0V
Ground
5V
ON
Paper pass sensor 1
0V
5V
0V
DC+5V power supply
4-239
PCB Connector and
Signal Information
Pin
No.
(CN653)
Pin
No.
Signal
Name
Destination
1
DXLAB
Length guide
motor
CN-5
2
DXLA
Length guide
motor
CN-4
3
DXLB
Length guide
motor
CN-3
4
COM
Length guide
motor
CN-2
5
DXLBB
Length guide
motor
CN-1
6
—
DXWAB
Width guide
motor
CN-5
8
DXWA
Width guide
motor
CN-4
9
DXWB
Width guide
motor
CN-3
10
COM
Width guide
motor
CN-2
11
DXWBB
Width guide
motor
CN-1
4-240
Pulse
Pulse
Pulse
24V
DC+24V power supply
0V
Pulse
—
—
7
Function
Status
—
Pulse
Pulse
Pulse
24V
0V
DC+24V power supply
Pulse
(CN654)
Signal
Name
Destination
1
+12V2
Paper feed
clutch
CN-2
2
VP
Paper feed
clutch
CN-1
3
DXMA
ADU main
motor
CN-1
4
COM
ADU main
motor
CN-3
5
DXMAB
ADU main
motor
CN-5
6
DXMB
ADU main
motor
CN-7
7
COM
ADU main
motor
CN-9
8
DXMBB
ADU main
motor
CN-11
Status
Function
24V
ON
0V
Clutch drive signal
24V
DC+24V power supply
0V
Pulse
DC+24V power supply
0V
Pulse
Pulse
24V
0V
DC+24V power supply
Pulse
4-241
PCB Connector and
Signal Information
Pin
No.
(CN655)
Pin
No.
Signal
Name
Destination
1
GND
Paper length
sensor
CN-3
2
PSLSN
Paper length
sensor
CN-2
3
VL
Paper length
sensor
CN-1
—
4
GND
Paper width
sensor
CN-3
6
PSWSN
Paper width
sensor
CN-2
7
VL
Paper width
sensor
CN-1
Function
Ground
0V
5V
ON
0V
Paper length guide
home position detecting
signal
5V
DC+5V power supply
0V
—
—
—
5
4-242
Status
Ground
0V
5V
ON
Paper width guide home
0V
5V
0V
DC+5V power supply
4.25 Low Voltage Power Supply PCB (FP-D450/D600Series)
(CN1/CN2)
Signal
Name
Destination
Status
Function
CN1
AC1
Power cord
CN2
AC2
Power cord
(CN3)
Pin
No.
Signal
Name
1
AC1
2
AC1
3
AC2
4
AC2
Destination
Status
Power switch
(CN4)
Pin
No.
Function
Signal
Name
Destination
Status
Function
1
2
PVP
AC driver
PCB
CN205-1
Door SW open : 0V
Door SW close : 24V
Wait / Error :
12V
DC+24V power supply
3
4
PVPO
AC driver
PCB
CN205-4
Door SW open : 0V
Door SW close : 24V
Wait / Error :
12V
DC+24V power supply
(CN5)
Pin
No.
Signal
Name
Destination
Status
Function
1
AC1
Dehumidifier
heater AC1
2
AC2
Dehumidifier
heater AC2
4-243
PCB Connector and
Signal Information
Pin
No.
(CN6)
Pin
No.
Signal
Name
1
PGND
2
PVP
Destination
Main motor
CN1-2
Main motor
CN1-1
Function
Status
Power ground
0V
Door SW open : 0V
Door SW close : 24V
Wait / Error :
12V
(CN7)
Pin
No.
1
2
3
DC+24V power supply
Signal
Name
PSAC1
—
PSAC2
Destination
Function
Status
AC driver PCB
CN204-1
—
—
—
AC driver PCB
CN204-3
(CN8)
Pin
No.
Signal
Name
1
SOTOVP
2
—
—
—
—
3
PGND
CNSOT-5
0V
Power ground
Status
Destination
CNSOT-1
Function
24V
0V
(CN9)
Pin
No.
1
DC+24V power supply
Signal
Name
ADFVP
Destination
CNADF-1
Status
Function
24V
0V
DC+24V power supply
2
—
—
—
—
3
PGND
CNADF-5
0V
Power ground
4-244
(CN10)
Signal
Name
Destination
Function
Status
1
VA
Main CPU PCB
CN9-6
2
AGND
Main CPU PCB
CN9-7
0V
Ground
3
GND
Main CPU PCB
CN9-8
0V
Ground
4
GND
Image processing
PCB CN206-1
0V
Ground
5
VL
Main CPU PCB
CN9-9
0V
6
VL
Image processing
PCB CN206-2
0V
12V
0V
5V
5V
(CN11)
Pin
No.
DC+12V power supply
DC+5V power supply
DC+5V power supply
Signal
Name
Destination
Status
Function
1
PGND
Main CPU PCB
CN9-1
0V
Power ground
2
PGND
Main CPU PCB
CN9-2
0V
Power ground
3
—
—
—
—
4
—
—
—
—
24V
5
SVP
Main CPU PCB
CN9-3
0V
6
PVP
Main CPU PCB
CN9-4
0V
7
—
8
PMVP
24V
—
—
Main CPU PCB
CN9-5
DC+24V power supply
DC+24V power supply
—
24V
0V
PCB Connector and
Signal Information
Pin
No.
DC+24V power supply
4-245
(CN12)
Pin
No.
Signal
Name
Destination
Status
Function
24V
1
PAPERVP CNSQ-1
2
PAPERVP CNSQ-2
3
PGND
CNSQ-3
0V
Power ground
4
PGND
CNSQ-8
0V
Power ground
0V
24V
0V
(CN13)
Pin
No.
DC+24V power supply
DC+24V power supply
Signal
Name
Destination
Status
Function
24V
1
PAPERVP CNSCN-1
2
PAPERVP CNSCN-2
3
PGND
CNSCN-3
0V
Power ground
4
PGND
CNSCN-4
0V
Power ground
4-246
0V
24V
0V
DC+24V power supply
DC+24V power supply
(CN15)
Signal
Name
Destination
1
12BT
Battery
2
GND
Battery
Status
Function
12V
0V
0V
Ground
(CN16)
Pin
No.
Signal
Name
Destination
1
VL
CCD PCB
CN802-6
2
SG
CCD PCB
CN802-5
3
VA
CCD PCB
CN802-4
4
AGND
CCD PCB
CN802-3
5
-VA
CCD PCB
CN802-2
6
AGND
CCD PCB
CN802-1
Status
Function
5V
0V
0V
DC+5V power supply
Ground
12V
0V
0V
DC+12V power supply
Ground
0V
-12V
0V
DC-12V power supply
Ground
(CN17)
Pin
No.
DC+16V power supply
Signal
Name
Destination
Function
Status
1
ACDWN
Image processing
PCB CN211-4
2
EPACNT
Image processing
PCB CN211-3
OFF
ON
3
BTCNT
Image processing
PCB CN211-2
OFF
ON
4
ZCDWN
Image processing
PCB CN211-1
5
ZCRS
Main CPU PCB
CN1-3
6
PVCNT
Main CPU PCB
CN1-2
OFF
ON
7
SVCNT
Main CPU PCB
CN1-1
OFF
ON
0V
AC ON AC OFF
0V
0V
Power supply down
signal
signal
Pulse
Zero cross signal
0V
Printer 24 V ON / OFF
signal
0V
Scanner 24 V ON / OFF
signal
4-247
PCB Connector and
Signal Information
Pin
No.
(CN18)
Pin
No.
Signal
Name
Destination
Status
Function
1
12V1
HDD1/2
CNPHD1-1
2
GND
HDD1/2
CNPHD1-2
0V
Ground
3
GND
HDD1/2
CNPHD1-3
0V
Ground
4
5V1
HDD1/2
CNPHD1-4
12V
0V
5V
0V
(CN19)
Pin
No.
DC+12V power supply
DC+5V power supply
Signal
Name
Destination
Function
Status
1
12V1
HDD3/Zip
CNPHD1-1
2
GND
HDD3/Zip
CNPHD1-2
0V
Ground
3
GND
HDD3/Zip
CNPHD1-3
0V
Ground
4
5V1
HDD3/Zip
CNPHD1-4
4-248
12V
0V
5V
0V
DC+12V power supply
DC+5V power supply
(CN20)
Signal
Name
Destination
Status
Function
1
3.3V
Image
processing PCB
CN204-1
2
GND
Image
processing PCB
CN204-2
0V
Ground
3
GND
Image
processing PCB
CN204-3
0V
Ground
4
VLC
Image
processing PCB
CN204-4
5
GND
Image
processing PCB
CN204-5
6
12V1
Image
processing PCB
CN204-6
7
GND
Image
processing PCB
CN204-7
8
-12V1
Image
processing PCB
CN204-8
3.3V
0V
5.1V
0V
0V
0V
0V
Ground
12V
0V
DC+12V power supply
Ground
-12V
DC-12V power supply
4-249
PCB Connector and
Signal Information
Pin
No.
(CN22)
Pin
No.
Signal
Name
Destination
Status
Function
1
3.3V
Printer control
PCB S1-1
2
GND
Printer control
PCB S1-2
0V
Ground
3
GND
Printer control
PCB S1-3
0V
Ground
4
5V1
Printer control
PCB S1-4
(CN23) Not used
4-250
3.3V
0V
5.1V
0V
4.26 High Voltage Power supply PCB (FP-D450/D600 Series)
(CNHV)
Signal
Name
Destination
Status
Function
24V
1
PVP
Main CPU PCB
CN10-12
2
PGND
Main CPU PCB
CN10-11
3
HVDCNT
Main CPU PCB
CN10-10
4
HVLKD
Main CPU PCB
CN10-9
Leak
5
TREF
Main CPU PCB
CN10-8
Analog
0-8.5V
6
HVTCNT
Main CPU PCB
CN10-7
7
HVLKT
Main CPU PCB
CN10-6
Leak
8
BREF
Main CPU PCB
CN10-5
Analog
0-8.5V
9
HVBCNT
Main CPU PCB
CN10-4
10
GREF
Main CPU PCB
CN10-3
11
HVCNT
Main CPU PCB
CN10-2
12
HVLKC
Main CPU PCB
CN10-1
0V
0V
24V
24V
24V
Power ground
ON
ON
ON
Analog
0-8.5V
24V
DC+24V power supply
ON
Leak
ON / OFF signal
Transfer voltage
adjustment signal
ON / OFF signal
Bias ON / OFF signal
signal
Charge high voltage ON
/ OFF signal
Charge high voltage
4-251
PCB Connector and
Signal Information
Pin
No.
4.27 AC Drive PCB (FP-D450/D600 Series)
(CN201)
Pin
No.
Signal
Name
1
AC1
2
AC1
3
AC2
4
AC2
Destination
Status
Power switch
(CN203)
Pin
No.
Signal
Name
Destination
1
3
DSAC1
Fuser
thermostat
5
6
FULP1
Fuser lamp 1
8
FULP2
Fuser lamp 2
Status
1
3
Signal
Name
PSAC1
—
2
PSAC2
Destination
Status
LVPS
CN7-1
—
Function
—
LVPS
CN7-3
—
(CN205)
Pin
No.
Function
(CN204)
Pin
No.
Function
Signal
Name
Destination
Status
Function
1
2
PVP
LVPS
CN4-1/2
Door SW open : 0V
Door SW close : 24V
Wait / Error :
12V
DC+24V power supply
3
4
PVPO
LVPS
CN4-3/4
Door SW open : 0V
Door SW close : 24V
Wait / Error :
12V
DC+24V power supply
4-252
(CN206)
Signal
Name
Destination
Status
Function
5V
1
VL
Main CPU PCB
CN5-11
2
HTTR1
Main CPU PCB
CN5-9
OFF
3
HTTR2
Main CPU PCB
CN5-10
OFF
0V
ON
ON
DC+5V power supply
Fuser lamp ON / OFF
signal
Fuser lamp ON / OFF
signal
PCB Connector and
Signal Information
Pin
No.
4-253
4.28 Printer Controller PCB (Option) (FP-D450/D600 Series)
(CNS1)
stiftNr.
Signal
Name
Status
Destination
Function
3.3V
1
3.3V
LVPS CN22-1
2
GND
LVPS CN22-2
0V
Ground
3
GND
LVPS CN22-3
0V
Ground
4
5V
LVPS CN22-4
0V
5V
0V
DC+5V power supply
(CNJ1)
stiftNr.
Signal
Name
Destination
Status
0V
1
GND
SDRAM DIMM-1
2
DQ0
SDRAM DIMM-2
3
DQ1
SDRAM DIMM-3
4
DQ2
SDRAM DIMM-4
5
DQ3
SDRAM DIMM-5
6
+3.3V
SDRAM DIMM-6
7
DQ4
SDRAM DIMM-7
8
DQ5
SDRAM DIMM-8
9
DQ
SDRAM DIMM-9
10
D7
SDRAM DIMM-10
3.3V
11
Q8
SDRAM DIMM-11
3.3V
Function
Ground
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
0V
Data 0
Data 1
Data 2
Data 3
Data 4
Data 5
Data 6
Data 7
Data 8
0V
12
4-254
GND
SDRAM DIMM-12
0V
Ground
Signal
Name
Status
Destination
Function
3.3V
13
DQ9
SDRAM DIMM-13
14
DQ10
SDRAM DIMM-14
15
DQ11
SDRAM DIMM-15
16
DQ12
SDRAM DIMM-16
17
DQ13
SDRAM DIMM-17
18
+3.3V
SDRAM DIMM-18
19
DQ14
SDRAM DIMM-19
20
DQ15
SDRAM DIMM-20
21
—
SDRAM DIMM-21
—
—
22
—
SDRAM DIMM-22
—
—
SDRAM DIMM-23
0V
23
GND
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
Data 9
Data 10
Data 11
Data 12
Data 13
Data 14
Data 15
PCB Connector and
Signal Information
Pin
No.
Ground
24
—
SDRAM DIMM-24
—
—
25
—
SDRAM DIMM-25
—
—
26
+3.3V
SDRAM DIMM-26
27
-WE
SDRAM DIMM-27
3.3V
0V
5V
Write enable
0V
28
DQM0
SDRAM DIMM-28
5V
0V
29
30
DQM1
-CS0
SDRAM DIMM-29
5V
0V
5V
SDRAM DIMM-30
Chip select 0
0V
31
32
—
GND
SDRAM DIMM-31
—
SDRAM DIMM-32
0V
—
Ground
4-255
Pin
No.
Signal
Name
Status
Destination
Function
3.3V
33
A0
SDRAM DIMM-33
34
A2
SDRAM DIMM-34
3.3V
35
A4
SDRAM DIMM-35
3.3V
36
A6
SDRAM DIMM-36
3.3V
37
A8
SDRAM DIMM-37
3.3V
0V
0V
0V
0V
Address 0
Address 2
Address 4
Address 6
Address 8
0V
38
A10
SDRAM DIMM-38
3.3V
0V
39
—
SDRAM DIMM-39
40
+3.3V
SDRAM DIMM-40
41
+3.3V
SDRAM DIMM-41
42
CLK0
SDRAM DIMM-42
43
GND
SDRAM DIMM-43
0V
SDRAM DIMM-44
—
44
—
Address 10
—
—
3.3V
0V
3.3V
0V
Clock 0
Ground
—
5V
45
-CS2
SDRAM DIMM-45
46
DQM2
SDRAM DIMM-46
47
DQM3
SDRAM DIMM-47
48
—
SDRAM DIMM-48
49
+3.3V
SDRAM DIMM-49
50
—
SDRAM DIMM-50
—
—
51
—
SDRAM DIMM-51
—
—
52
—
SDRAM DIMM-52
—
—
4-256
0V
5V
0V
5V
0V
—
—
3.3V
0V
Chip select 2
Pin
No.
53
Signal
Name
—
Destination
Status
Function
SDRAM DIMM-53
—
—
0V
54
GND
SDRAM DIMM-54
55
DQ16
SDRAM DIMM-55
56
DQ17
SDRAM DIMM-56
57
DQ18
SDRAM DIMM-57
58
DQ19
SDRAM DIMM-58
59
+3.3V
SDRAM DIMM-59
60
DQ20
SDRAM DIMM-60
61
—
SDRAM DIMM-61
—
—
62
—
SDRAM DIMM-62
—
—
63
CKE1
SDRAM DIMM-63
64
GND
SDRAM DIMM-64
65
DQ21
SDRAM DIMM-65
66
DQ22
SDRAM DIMM-66
67
DQ23
SDRAM DIMM-67
68
GND
SDRAM DIMM-68
69
DQ24
SDRAM DIMM-69
70
DQ25
SDRAM DIMM-70
71
DQ26
SDRAM DIMM-71
72
DQ27
SDRAM DIMM-72
Ground
3.3V
0V
3.3V
0V
3.3V
0V
Data 16
Data 17
Data 18
3.3V
0V
Data 19
3.3V
0V
3.3V
5V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
Data 20
PCB Connector and
Signal Information
0V
Clock enable 1
Ground
Data 21
Data 22
Data 23
Ground
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
Data 24
Data 25
Data 26
Data 27
4-257
Pin
No.
Signal
Name
Status
Destination
Function
3.3V
73
+3.3V
SDRAM DIMM-73
74
DQ28
SDRAM DIMM-74
75
DQ29
SDRAM DIMM-75
76
DQ30
SDRAM DIMM-76
77
DQ31
SDRAM DIMM-77
78
GND
SDRAM DIMM-78
79
CLK2
SDRAM DIMM-79
80
—
SDRAM DIMM-80
—
—
81
—
SDRAM DIMM-81
—
—
82
SDA
SDRAM DIMM-82
83
SCL
SDRAM DIMM-83
84
+3.3V
SDRAM DIMM-84
85
GND
SDRAM DIMM-85
86
DQ32
SDRAM DIMM-86
87
DQ33
SDRAM DIMM-87
88
DQ34
SDRAM DIMM-88
89
DQ35
SDRAM DIMM-89
90
+3.3V
SDRAM DIMM-90
91
DQ36
SDRAM DIMM-91
92
DQ37
SDRAM DIMM-92
4-258
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
0V
Data 28
Data 29
Data 30
Data 31
Ground
Clock 2
3.3V
0V
5V
0V
3.3V
0V
Serial PD address /data
input/output
Seral PD clock
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
3.3V
0V
Ground
Data 32
Data 33
Data 34
Data 35
Data 36
Signal
Name
Status
Destination
Function
3.3V
93
DQ38
SDRAM DIMM-93
94
DQ39
SDRAM DIMM-94
95
DQ40
SDRAM DIMM-95
96
GND
SDRAM DIMM-96
97
DQ41
SDRAM DIMM-97
98
DQ42
SDRAM DIMM-98
99
DQ43
SDRAM DIMM-99
100
DQ44
SDRAM DIMM100
3.3V
101
DQ45
SDRAM
DIMM-101
3.3V
102
+3.3V
SDRAM
DIMM-102
103
DQ46
SDRAM
DIMM-103
3.3V
104
SDRAM
DIMM-104
3.3V
DQ47
105
—
SDRAM
DIMM-105
—
106
—
SDRAM
DIMM-106
—
—
SDRAM
DIMM-107
0V
—
107
GND
0V
3.3V
0V
3.3V
0V
0V
0V
3.3V
0V
3.3V
0V
0V
0V
3.3V
0V
0V
0V
—
SDRAM
DIMM-108
—
109
—
SDRAM
DIMM-109
—
110
+3.3V
SDRAM
DIMM-110
111
-CAS
SDRAM
DIMM-111
112
DQM4
SDRAM
DIMM-112
Data 38
Data 39
Data 40
3.3V
108
Data 37
Ground
Data 41
Data 42
Data 43
Data 44
Data 45
Data 46
Data 47
Ground
—
3.3V
0V
5V
0V
5V
0V
Column address strove
4-259
PCB Connector and
Signal Information
Pin
No.
Pin
No.
Signal
Name
Status
Destination
113
DQM5
SDRAM
DIMM-113
114
—
SDRAM
DIMM-114
5V
0V
—
115
-RAS
SDRAM
DIMM-115
116
GND
SDRAM
DIMM-116
117
A1
SDRAM
DIMM-117
3.3V
118
A3
SDRAM
DIMM-118
3.3V
119
A5
SDRAM
DIMM-119
3.3V
120
A7
3.3V
121
A9
SDRAM
DIMM-120
SDRAM
DIMM-121
122
BA0
SDRAM
DIMM-122
3.3V
—
5V
0V
0V
0V
0V
0V
3.3V
0V
0V
—
SDRAM
DIMM-123
124
+3.3V
SDRAM
DIMM-124
125
CLK1
SDRAM
DIMM-125
126
—
SDRAM
DIMM-126
—
0V
Low address strove
Ground
0V
123
Address 1
Address 3
Address 5
Address 7
Address 9
Bank address 0
—
—
3.3V
0V
Clock 1
127
GND
SDRAM
DIMM-127
128
CKE0
SDRAM
DIMM-128
129
—
SDRAM
DIMM-129
130
DQM6
SDRAM
DIMM-130
5V
131
DQM7
SDRAM
DIMM-131
5V
132
—
SDRAM
DIMM-132
4-260
Function
—
Ground
5V
0V
—
—
0V
0V
—
Clock enable 0
—
Signal
Name
Status
Destination
Function
133
+3.3V
SDRAM
DIMM-133
134
—
SDRAM
DIMM-134
—
—
135
—
SDRAM
DIMM-135
—
—
136
—
SDRAM
DIMM-136
—
—
137
—
SDRAM
DIMM-137
—
—
0V
3.3V
0V
138
GND
SDRAM
DIMM-138
139
DQ48
SDRAM
DIMM-139
3.3V
3.3V
3.3V
Ground
Data 48
0V
140
DQ49
141
DQ50
SDRAM
DIMM-140
SDRAM
DIMM-141
142
DQ51
SDRAM
DIMM-142
143
+3.3V
SDRAM
DIMM-143
144
DQ52
SDRAM
DIMM-144
145
—
SDRAM
DIMM-145
—
—
146
—
SDRAM
DIMM-146
—
—
147
—
SDRAM
DIMM-147
—
—
0V
0V
3.3V
0V
0V
3.3V
0V
3.3V
0V
148
GND
SDRAM
DIMM-148
149
DQ53
SDRAM
DIMM-149
3.3V
150
DQ54
SDRAM
DIMM-150
3.3V
151
DQ55
SDRAM
DIMM-151
3.3V
152
GND
SDRAM
DIMM-152
Data 50
Data 51
Data 52
Ground
0V
0V
0V
0V
Data 49
Data 53
Data 54
Data 55
Ground
4-261
PCB Connector and
Signal Information
Pin
No.
Pin
No.
Signal
Name
Status
Destination
153
DQ56
SDRAM
DIMM-153
3.3V
154
DQ57
SDRAM
DIMM-154
3.3V
155
DQ58
SDRAM
DIMM-155
3.3V
156
DQ59
SDRAM
DIMM-156
3.3V
157
+3.3V
SDRAM
DIMM-157
158
DQ60
SDRAM
DIMM-158
3.3V
159
DQ61
SDRAM
DIMM-159
3.3V
160
DQ62
3.3V
161
DQ63
SDRAM
DIMM-160
SDRAM
DIMM-161
162
GND
SDRAM
DIMM-162
163
CLK3
SDRAM
DIMM-163
164
—
SDRAM
DIMM-164
0V
0V
0V
0V
3.3V
0V
0V
0V
0V
3.3V
0V
Data 56
Data 57
Data 58
Data 59
Data 60
Data 61
Data 62
Data 63
Ground
0V
Clock 3
—
—
165
SA0
SDRAM
DIMM-165
3.3V
166
SA1
SDRAM
DIMM-166
3.3V
167
SA2
SDRAM
DIMM-167
3.3V
168
+3.3V
SDRAM
DIMM-168
4-262
Function
0V
0V
0V
3.3V
0V
(CNJ2)
Signal
Name
Status
Destination
5V
1
VCC
Network Card
CNJ10-31
0V
2
VCC
Network Card
CNJ10-32
0V
3
VCC
Network Card
CNJ10-33
0V
4
/CSP2
Network Card
CNJ10-34
5
D15
Network Card
CNJ10-35
5V
6
D14
Network Card
CNJ10-36
5V
7
D13
Network Card
CNJ10-37
5V
8
GND
Network Card
CNJ10-38
9
D12
Network Card
CNJ10-39
5V
10
D11
Network Card
CNJ10-40
5V
11
D10
Network Card
CNJ10-41
5V
12
GND
Network Card
CNJ10-42
13
D9
Network Card
CNJ10-43
5V
14
D8
Network Card
CNJ10-44
5V
15
Network Card
/INTPRT1 CNJ10-45
DC+5V power supply
5V
0V
0V
Data 15
0V
Data 14
0V
Data 13
0V
Ground
0V
0V
0V
Data 1
Data 11
Data 10
Ground
0V
0V
0V
5V
Data 9
Data 8
Interrupt signal 1
0V
Network Card
CNJ10-46
17
A3
Network Card
CNJ10-47
5V
18
A2
Network Card
CNJ10-48
5V
19
A1
Network Card
CNJ10-49
5V
Network Card
CNJ10-50
DC+5V power supply
5V
GND
—
DC+5V power supply
5V
16
20
Function
PCB Connector and
Signal Information
Pin
No.
Ground
0V
0V
0V
0V
—
Address 3
Address 2
Address 1
—
4-263
Pin
No.
Signal
Name
Status
Destination
21
A0
Network Card
CNJ10-51
5V
22
D7
Network Card
CNJ10-52
5V
23
D6
Network Card
CNJ10-53
5V
0V
0V
Address 0
Data 7
Data 6
0V
24
A15
Network Card
CNJ10-54
5V
25
D5
Network Card
CNJ10-55
5V
26
A14
Network Card
CNJ10-56
5V
27
D4
Network Card
CNJ10-57
5V
28
A13
Network Card
CNJ10-58
5V
29
D3
Network Card
CNJ10-59
5V
30
A12
Network Card
CNJ10-60
5V
31
D2
Network Card
CNJ10-1
5V
32
A11
Network Card
CNJ10-2
5V
33
D1
Network Card
CNJ10-3
5V
34
A10
Network Card
CNJ10-4
5V
35
D0
Network Card
CNJ10-5
5V
36
A9
Network Card
CNJ10-6
5V
37
A4
Network Card
CNJ10-7
5V
38
A8
Network Card
CNJ10-8
5V
39
/RESET
Network Card
CNJ10-9
40
A7
Network Card
CNJ10-10
4-264
Function
0V
0V
0V
0V
0V
0V
Address 15
Data 5
Address 14
Data 4
Address 13
Data 3
0V
Address 12
0V
Data 2
0V
Address 11
0V
Data 1
0V
Address 10
0V
Data 0
0V
0V
0V
Address 9
Address 4
Address 8
5V
0V
Reset signal
5V
0V
Address 7
41
Signal
Name
/WAIT
Network Card
CNJ10-11
42
A6
Network Card
CNJ10-12
43
/CSP1
Network Card
CNJ10-13
44
Network Card
CNJ10-14
A5
Status
Destination
Function
5V
Wait signal
0V
5V
0V
5V
Address 6
0V
5V
0V
Address 5
45
—
Network Card
CNJ10-15
—
—
46
—
Network Card
CNJ10-16
—
—
47
R/W
Network Card
CNJ10-17
48
GND
Network Card
CNJ10-18
49
A16
Network Card
CNJ10-19
Read
Write
0V
Ground
5V
0V
Address 16
50
—
Network Card
CNJ10-20
—
—
51
—
Network Card
CNJ10-21
—
—
Network Card
CNJ10-22
0V
52
GND
Ground
53
—
Network Card
CNJ10-23
—
—
54
—
Network Card
CNJ10-24
—
—
55
Network Card
/INTPRT2 CNJ10-25
56
GND
57
—
5V
0V
Network Card
CNJ10-26
0V
Network Card
CNJ10-27
—
58
VCC
Network Card
CNJ10-28
0V
59
VCC
Network Card
CNJ10-29
0V
60
VCC
Network Card
CNJ10-30
0V
PCB Connector and
Signal Information
Pin
No.
Interrupt signal 2
Ground
—
5V
5V
5V
DC+5V power supply
DC+5V power supply
DC+5V power supply
4-265
(CNJ4)
Pin
No.
Signal
Name
Status
Destination
1
/STB
PC printer port
Centronics
connector 1
2
DATA1
PC printer port
Centronics
connector 2
3
DATA2
PC printer port
Centronics
connector 3
4
DATA3
PC printer port
Centronics
connector 4
5
DATA4
PC printer port
Centronics
connector 5
6
DATA5
PC printer port
Centronics
connector 6
7
DATA6
PC printer port
Centronics
connector 7
8
DATA7
PC printer port
Centronics
connector 8
9
DATA8
PC printer port
Centronics
connector 9
10
/ACK
PC printer port
Centronics
connector 10
5V
11
BUSY
PC printer port
Centronics
connector 11
PE
PC printer port
Centronics
connector 12
5V
12
13
SELECT
PC printer port
Centronics
connector 13
14
PC printer port
/AUTOFD Centronics
connector 14
4-266
Function
5V
0V
Strove signal
0V
Data 1
0V
Data 2
0V
Data 3
0V
Data 4
0V
Data 5
0V
Data 6
0V
Data 7
0V
Data 8
5V
5V
5V
5V
5V
5V
5V
5V
5V
0V
0V
0V
Response signal
Printer busy signal
Add paper signal
ON
On line/off line signal
OFF
5V
0V
Host busy/response
signal (bi-directional
communication)
Signal
Name
15
—
16
—
Status
Function
PC printer port
Centronics
connector 15
—
—
PC printer port
Centronics
connector 16
—
—
Destination
17
FG
PC printer port
Centronics
connector 17
0V
Frame ground
18
PLH
PC printer port
Centronics
connector 18
5V
Printer connection
detecting signal
19
GND
PC printer port
Centronics
connector 19
0V
Ground
20
GND
PC printer port
Centronics
connector 20
0V
Ground
21
GND
PC printer port
Centronics
connector 21
0V
Ground
22
GND
PC printer port
Centronics
connector 22
0V
Ground
23
GND
PC printer port
Centronics
connector 23
0V
Ground
24
GND
PC printer port
Centronics
connector 24
0V
Ground
25
GND
PC printer port
Centronics
connector 25
0V
Ground
26
GND
PC printer port
Centronics
connector 26
0V
Ground
27
GND
PC printer port
Centronics
connector 27
0V
Ground
28
GND
PC printer port
Centronics
connector 28
0V
Ground
PCB Connector and
Signal Information
Pin
No.
4-267
Pin
No.
Signal
Name
Destination
Status
Function
29
GND
PC printer port
Centronics
connector 29
0V
Ground
30
GND
PC printer port
Centronics
connector 30
0V
Ground
31
/INIT
PC printer port
Centronics
connector 31
32
/FAULT
PC printer port
Centronics
connector 32
5V
0V
Initialization signal
5V
0V
Error signal
33
—
PC printer port
Centronics
connector 33
—
—
34
—
PC printer port
Centronics
connector 34
—
—
35
—
PC printer port
Centronics
connector 35
—
—
36
SELIN
PC printer port
Centronics
connector 36
5V
0V
(CNJ5)
Pin
No.
Bi-directional
communication detect
signal
Signal
Name
Destination
Status
Function
1
GND
Main CPU PCB
CN203-1
0V
Ground
2
GND
Main CPU PCB
CN203-2
0V
Ground
3
GND
Main CPU PCB
CN203-3
0V
Ground
4
GND
Main CPU PCB
CN203-4
0V
Ground
5
GND
Main CPU PCB
CN203-5
0V
Ground
6
GND
Main CPU PCB
CN203-6
0V
Ground
4-268
Signal
Name
Destination
Status
Function
7
GND
Main CPU PCB
CN203-7
0V
Ground
8
GND
Main CPU PCB
CN203-8
0V
Ground
9
GND
Main CPU PCB
CN203-9
0V
Ground
10
GND
Main CPU PCB
CN203-10
0V
Ground
11
GND
Main CPU PCB
CN203-11
0V
Ground
12
GND
Main CPU PCB
CN203-12
0V
Ground
13
GND
Main CPU PCB
CN203-13
0V
Ground
14
GND
Main CPU PCB
CN203-14
0V
Ground
15
GND
Main CPU PCB
CN203-15
0V
Ground
16
GND
Main CPU PCB
CN203-16
0V
Ground
17
GND
Main CPU PCB
CN203-17
0V
Ground
18
GND
Main CPU PCB
CN203-18
0V
Ground
19
GND
Main CPU PCB
CN203-19
0V
Ground
20
GND
Main CPU PCB
CN203-20
0V
Ground
21
GND
Main CPU PCB
CN203-21
0V
Ground
22
GND
Main CPU PCB
CN203-22
0V
Ground
23
GND
Main CPU PCB
CN203-23
0V
Ground
24
GND
Main CPU PCB
CN203-24
0V
Ground
25
GND
Main CPU PCB
CN203-25
0V
Ground
26
GND
Main CPU PCB
CN203-26
0V
Ground
PCB Connector and
Signal Information
Pin
No.
4-269
Pin
No.
Signal
Name
Destination
Status
Function
27
GND
Main CPU PCB
CN203-27
0V
Ground
28
GND
Main CPU PCB
CN203-28
0V
Ground
29
GND
Main CPU PCB
CN203-29
0V
Ground
30
GND
Main CPU PCB
CN203-30
0V
Ground
/IDRDY
Main CPU PCB
CN203-31
5V
31
/IDSTB
Main CPU PCB
CN203-32
5V
32
33
GND
Main CPU PCB
CN203-33
34
ID0
Main CPU PCB
CN203-34
5V
35
ID1
Main CPU PCB
CN203-35
5V
36
ID2
Main CPU PCB
CN203-36
5V
37
ID3
Main CPU PCB
CN203-37
5V
38
GND
Main CPU PCB
CN203-38
39
ID4
Main CPU PCB
CN203-39
5V
40
ID5
Main CPU PCB
CN203-40
5V
41
ID6
Main CPU PCB
CN203-41
5V
42
ID7
Main CPU PCB
CN203-42
5V
43
GND
Main CPU PCB
CN203-43
44
ID8
Main CPU PCB
CN203-44
5V
45
ID9
Main CPU PCB
CN203-45
5V
46
ID10
Main CPU PCB
CN203-46
5V
4-270
0V
0V
Image data receive
ready signal
Ground
0V
0V
0V
0V
0V
Image data 0
Image data 1
Image data 2
Image data 3
Ground
0V
0V
0V
0V
0V
0V
Image data 4
Image data 5
Image data 6
Image data 7
Ground
0V
0V
0V
Image data 8
Image data 9
Image data 10
(CNJ8)
Signal
Name
Status
Destination
1
/RESET
Printer Hard disk
IDE bus
connector 1
2
GND
Printer Hard disk
IDE bus
connector 2
3
DATA7
Printer Hard disk
IDE bus
connector 3
4
DATA8
Printer Hard disk
IDE bus
connector 4
5
DATA6
Printer Hard disk
IDE bus
connector 5
6
DATA9
Printer Hard disk
IDE bus
connector 6
7
DATA5
Printer Hard disk
IDE bus
connector 7
8
DATA10
Printer Hard disk
IDE bus
connector 8
9
DATA4
Printer Hard disk
IDE bus
connector 9
10
DATA11
Printer Hard disk
IDE bus
connector 10
11
DATA3
Printer Hard disk
IDE bus
connector 11
12
DATA12
Printer Hard disk
IDE bus
connector 12
13
DATA2
Printer Hard disk
IDE bus
connector 13
14
DATA13
Printer Hard disk
IDE bus
connector 14
Function
5V
0V
0V
Reset signal
Ground
5V
0V
Data 7
0V
Data 8
0V
Data 6
0V
Data 9
0V
Data 5
0V
Data 10
0V
Data 4
0V
Data 11
0V
Data 3
0V
Data12
0V
Data 2
0V
Data 13
5V
5V
5V
PCB Connector and
Signal Information
Pin
No.
5V
5V
5V
5V
5V
5V
5V
5V
4-271
Pin
No.
Signal
Name
Status
Destination
Function
15
DATA1
Printer Hard
disk IDE bus
connector 15
16
DATA14
Printer Hard
disk IDE bus
connector 16
17
DATA0
Printer Hard
disk IDE bus
connector 17
18
DATA15
Printer Hard
disk IDE bus
connector 18
19
GND
Printer Hard
disk IDE bus
connector 19
0V
Ground
20
(KEY)
Printer Hard
disk IDE bus
connector 20
—
(Key pin)
21
DMARQ
Printer Hard
disk IDE bus
connector 21
22
GND
Printer Hard
disk IDE bus
connector 22
23
/IOW
Printer Hard
disk IDE bus
connector 23
24
GND
Printer Hard
disk IDE bus
connector 24
25
/IOR
Printer Hard
disk IDE bus
connector 25
26
GND
Printer Hard
disk IDE bus
connector 26
27
Printer Hard
IOCHRDY disk IDE bus
connector 27
28
4-272
—
Printer Hard
disk IDE bus
connector 28
5V
0V
Data 1
0V
Data 14
0V
Data 0
0V
Data 15
5V
5V
5V
5V
0V
signal
Ground
0V
Write strove signal
Ground
0V
Read strove signal
Ground
0V
5V
0V
—
Ready signal
—
Signal
Name
29
/DACK
Printer Hard
disk IDE bus
connector 29
30
GND
Printer Hard
disk IDE bus
connector 30
31
IRQ
Printer Hard
disk IDE bus
connector 31
32
/IOCS16
Printer Hard
disk IDE bus
connector 32
33
Printer Hard
disk IDE bus
connector 33
A1
34
—
A0
Printer Hard
disk IDE bus
connector 35
36
A2
Printer Hard
disk IDE bus
connector 36
37
CS0
Printer Hard
disk IDE bus
connector 37
38
CS1
Printer Hard
disk IDE bus
connector 38
40
—
GND
Function
5V
0V
DMA transfer accept
signal
Ground
0V
5V
0V
5V
Interrupt signal
16 bit I/O select signal
0V
5V
0V
Printer Hard
disk IDE bus
connector 34
35
39
Status
Destination
Address 1
—
—
5V
0V
5V
0V
5V
0V
5V
0V
Printer Hard
disk IDE bus
connector 39
—
Printer Hard
disk IDE bus
connector 40
0V
PCB Connector and
Signal Information
Pin
No.
Address 0
Address 2
Chip select 0
Chip select 1
—
Ground
4-273
4.29 Network Card (Option) (FP-D450/D600 Series)
(CNJ2A)
Pin
No.
Signal
Name
Destination
Function
Status
585mV~3.1V
1
TD+
Ethernet cable -1
2
TD-
Ethernet cable -2
3
RD+
Ethernet cable -3
0V
Transmit data +
585mV~3.1V
0V
585mV~3.1V
0V
Transmit data Receive data +
4
—
Ethernet cable -4
—
—
5
—
Ethernet cable -5
—
—
6
RD-
Ethernet cable -6
585mV~3.1V
0V
Receive data -
7
—
Ethernet cable -7
—
—
8
—
Ethernet cable -8
—
—
(CNJ9)
Pin
No.
Signal
Name
A1
—
A2
A3
Destination
Status
Function
Rizer card
CN601-A1
—
—
—
Rizer card
CN601-A2
—
—
—
Rizer card
CN601-A3
—
—
A4
TDI
Rizer card
CN601-A4
A5
+5V
Rizer card
CN601-A5
A6
INTA#
Rizer card
CN601-A6
A7
—
Rizer card
CN601-A7
A8
4-274
+5V
Rizer card
CN601-A8
5V
0V
5V
0V
5V
0V
DC+5V power supply
Interrupt A
—
—
5V
0V
Test data input
DC+5V power supply
Signal
Name
A9
—
A10
A11
+5V
—
Destination
Rizer card
CN601-A9
Rizer card
CN601-A10
Status
Function
—
—
5V
0V
Rizer card
CN601-A11
—
DC+5V power supply
—
A12
GND
Rizer card
CN601-A12
0V
Ground
A13
GND
Rizer card
CN601-A13
0V
Ground
—
A14
—
Rizer card
CN601-A14
A15
RST#
Rizer card
CN601-A15
A16
+5V
Rizer card
CN601-A16
A17
GNT#
Rizer card
CN601-A17
A18
GND
Rizer card
CN601-A18
0V
Rizer card
CN601-A19
—
A19
A20
A21
—
AD_30
—
5V
0V
5V
0V
Rizer card
CN601-A20
Rizer card
CN601-A21
5V
—
Address/data 30
—
—
Rizer card
CN601-A22
5V
A23
AD_26
Rizer card
CN601-A23
5V
A24
GND
Rizer card
CN601-A24
A25
AD_24
Rizer card
CN601-A25
5V
A26
IDSEL
Rizer card
CN601-A26
5V
A27
—
Rizer card
CN601-A27
Rizer card
CN601-A28
Grant
Ground
0V
AD_28
AD_22
Reset
DC+5V power supply
A22
A28
—
PCB Connector and
Signal Information
Pin
No.
0V
0V
Address/data 28
Address/data 26
Ground
0V
0V
0V
—
Address/data 24
Initialization device select
—
5V
0V
Address/data 22
4-275
Pin
No.
Signal
Name
Status
Destination
A29
AD_20
Rizer card
CN601-A29
A30
GND
Rizer card
CN601-A30
AD_18
Rizer card
CN601-A31
5V
A31
A32
AD_16
Rizer card
CN601-A32
5V
A33
—
Rizer card
CN601-A33
A34
FRAME#
Rizer card
CN601-A34
A35
GND
Rizer card
CN601-A35
A36
TRDY#
Rizer card
CN601-A36
A37
GND
Rizer card
CN601-A37
A38
STOP#
Rizer card
CN601-A38
5V
0V
0V
—
A40
—
B1
—
Rizer card
CN601-A40
Rizer card
CN601-B1
B2
—
Address/data 20
Ground
0V
0V
Address/data 18
Address/data 16
—
—
5V
0V
0V
Cycle frame
Ground
5V
0V
0V
Target ready
Ground
5V
0V
Rizer card
CN601-A39
A39
Function
Stop
—
—
—
—
—
—
Rizer card
CN601-B2
—
—
0V
B3
GND
Rizer card
CN601-B3
B4
TDO
Rizer card
CN601-B4
B5
+5V
Rizer card
CN601-B5
DC+5V power supply
B6
+5V
Rizer card
CN601-B6
DC+5V power supply
INTB#
Rizer card
CN601-B7
5V
B7
INTD#
Rizer card
CN601-B8
5V
B8
4-276
Ground
5V
0V
0V
0V
Test data output
Interrupt B
Interrupt D
Signal
Name
B9
RSNT#1
B10
—
Rizer card
CN601-B9
+5V
Rizer card
CN601-B10
—
B11
Rizer card
PRSNT#2 CN601-B11
B12
GND
B13
GND
B14
—
Status
Destination
—
Add in board detect
signal 2
Rizer card
CN601-B12
0V
Ground
Rizer card
CN601-B13
0V
Ground
Rizer card
CN601-B14
—
0V
GND
Rizer card
CN601-B15
B16
CLK
Rizer card
CN601-B16
B17
GND
Rizer card
CN601-B17
B18
REQ#
Rizer card
CN601-B18
B19
+5V
Rizer card
CN601-B19
B20
AD_31
Rizer card
CN601-B20
B21
AD_29
Rizer card
CN601-B21
B22
GND
Rizer card
CN601-B22
B23
AD_27
Rizer card
CN601-B23
5V
B24
AD_25
Rizer card
CN601-B24
5V
—
Add in board detect
signal 1
+5V
B15
B25
Function
—
Ground
Clock
0V
Ground
5V
0V
Request
5V
DC+5V power supply
0V
5V
0V
5V
0V
Address/data 29
Ground
0V
0V
0V
Rizer card
CN601-B25
Address/data 31
Address/data 27
Address/data 25
—
B26
CBE#3
Rizer card
CN601-B26
5V
B27
AD_23
Rizer card
CN601-B27
5V
B28
GND
Rizer card
CN601-B28
—
0V
0V
0V
Bus command/byte
enale 3
Address/data 23
Ground
4-277
PCB Connector and
Signal Information
Pin
No.
Pin
No.
Signal
Name
Destination
B29
AD_21
Rizer card
CN601-B29
5V
B30
AD_19
Rizer card
CN601-B30
5V
B31
—
Rizer card
CN601-B31
B32
AD_17
Rizer card
CN601-B32
5V
B33
CBE#2
Rizer card
CN601-B33
5V
B34
GND
Rizer card
CN601-B34
B35
IRDY#
Rizer card
CN601-B35
B36
—
Rizer card
CN601-B36
0V
0V
Address /data 21
Address/data 19
—
—
0V
0V
0V
Address/data 17
Bus command/byte
enable 2
Ground
5V
0V
Initiator ready
—
—
5V
B37
Rizer card
DEVSEL# CN601-B37
B38
GND
Rizer card
CN601-B38
B39
LOCK#
Rizer card
CN601-B39
5V
B40
PERR#
Rizer card
CN601-B40
5V
4-278
Function
Status
0V
0V
Device select
Ground
0V
0V
Lock
Perity error
(CNJ10)
Signal
Name
Status
Destination
1
D2
Printer controller
PCB CNJ2-31
5V
2
A11
Printer controller
PCB CNJ2-32
5V
3
D1
Printer controller
PCB CNJ2-33
5V
4
A10
Printer controller
PCB CNJ2-34
5V
5
D0
Printer controller
PCB CNJ2-35
5V
6
A9
Printer controller
PCB CNJ2-36
5V
7
A4
Printer controller
PCB CNJ2-37
5V
8
A8
5V
9
/RESET
Printer controller
PCB CNJ2-38
Printer controller
PCB CNJ2-39
10
A7
Printer controller
PCB CNJ2-40
5V
11
/WAIT
Printer controller
PCB CNJ2-41
12
A6
Printer controller
PCB CNJ2-42
13
/CSP1
Printer controller
PCB CNJ2-43
14
A5
Printer controller
PCB CNJ2-44
Function
0V
0V
0V
0V
0V
0V
0V
0V
Data 2
Address 11
Data 1
Address 10
Data 0
Address 9
Address 4
Address 8
5V
0V
0V
Reset signal
Address 7
5V
0V
Wait signal
5V
0V
5V
0V
Address 6
5V
0V
Address 5
15
—
Printer controller
PCB CNJ2-45
—
—
16
—
Printer controller
PCB CNJ2-46
—
—
17
R/W
Printer controller
PCB CNJ2-47
18
GND
Printer controller
PCB CNJ2-48
19
A16
Printer controller
PCB CNJ2-49
20
—
Printer controller
PCB CNJ2-50
PCB Connector and
Signal Information
Pin
No.
Read
Write
Ground
0V
5V
0V
—
Address 16
—
4-279
Pin
No.
Signal
Name
Destination
Status
Function
21
—
Printer controller
PCB CNJ2-51
—
—
Printer controller
PCB CNJ2-52
0V
22
GND
Ground
23
—
Printer controller
PCB CNJ2-53
—
—
24
—
Printer controller
PCB CNJ2-54
—
—
25
Printer controller
26
GND
27
—
5V
0V
Printer controller
PCB CNJ2-56
0V
Printer controller
PCB CNJ2-57
—
28
GND
29
GND
Printer controller
PCB CNJ2-58
Printer controller
PCB CNJ2-59
30
GND
31
Interrupt signal 2
Ground
—
0V
Ground
0V
Ground
Printer controller
PCB CNJ2-60
0V
Ground
GND
Printer controller
PCB CNJ2-1
0V
Ground
32
GND
Printer controller
PCB CNJ2-2
0V
Ground
33
GND
Printer controller
PCB CNJ2-3
0V
Ground
34
/CSP2
Printer controller
PCB CNJ2-4
35
D15
Printer controller
PCB CNJ2-5
5V
D14
Printer controller
PCB CNJ2-6
5V
36
D13
Printer controller
PCB CNJ2-7
5V
37
38
GND
Printer controller
PCB CNJ2-8
39
D12
Printer controller
PCB CNJ2-9
5V
40
D11
Printer controller
PCB CNJ2-10
5V
4-280
5V
0V
0V
Data 15
0V
Data 14
0V
Data 13
Ground
0V
0V
0V
Data 12
Data 11
Signal
Name
Status
Destination
5V
41
D10
Printer controller
PCB CNJ2-11
42
GND
Printer controller
PCB CNJ2-12
D9
Printer controller
PCB CNJ2-13
5V
43
D8
Printer controller
PCB CNJ2-14
5V
44
45
Printer controller
46
GND
Printer controller
PCB CNJ2-16
A3
Printer controller
PCB CNJ2-17
5V
47
A2
49
A1
Printer controller
PCB CNJ2-18
Printer controller
PCB CNJ2-19
5V
48
50
—
Function
0V
0V
Ground
0V
Data 9
0V
Data 8
5V
0V
0V
Inerrupt signal 1
Ground
0V
Address 3
0V
Address 2
5V
0V
Printer controller
PCB CNJ2-20
Data 10
Address 1
—
51
A0
Printer controller
PCB CNJ2-21
5V
D7
Printer controller
PCB CNJ2-22
5V
52
D6
Printer controller
PCB CNJ2-23
5V
53
A15
Printer controller
PCB CNJ2-24
5V
54
D5
Printer controller
PCB CNJ2-25
5V
55
56
A14
Printer controller
PCB CNJ2-26
5V
D4
Printer controller
PCB CNJ2-27
5V
57
58
A13
Printer controller
PCB CNJ2-28
5V
59
D3
Printer controller
PCB CNJ2-29
5V
60
A12
Printer controller
PCB CNJ2-30
5V
PCB Connector and
Signal Information
Pin
No.
—
0V
Address 0
0V
Data 7
0V
Data 6
0V
Address 15
0V
Data 5
0V
0V
0V
0V
0V
Address 14
Data 4
Address 13
Data 3
Address 12
4-281
4.30 Hard Disk Drive for Filing/Back-up (FP-D450/D600 Series)
(CNSHD1/2)
Pin
No.
Signal
Name
Destination
1
RESET
System control
PCB
CN6-1
2
GND
System control
PCB
CN6-2
3
HOST
DATA 7
System control
PCB
CN6-3
4
HOST
DATA 8
System control
PCB
CN6-4
5
HOST
DATA 6
System control
PCB
CN6-5
6
HOST
DATA 9
System control
PCB
CN6-6
7
HOST
DATA 5
System control
PCB
CN6-7
8
HOST
DATA 10
System control
PCB
CN6-8
9
HOST
DATA 4
System control
PCB
CN6-9
10
HOST
DATA 11
System control
PCB
CN6-10
11
HOST
DATA 3
System control
PCB
CN6-11
12
HOST
DATA 12
System control
PCB
CN6-12
13
HOST
DATA 2
System control
PCB
CN6-13
4-282
Status
Reset
Function
5V
0V
0V
0V
Reset signal
Ground
5V
0V
5V
0V
5V
0V
5V
0V
5V
0V
5V
0V
5V
0V
5V
0V
5V
0V
5V
0V
5V
0V
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Signal
Name
14
HOST
DATA 13
System control
PCB
CN6-14
15
HOST
DATA 1
System control
PCB
CN6-15
16
HOST
DATA 14
System control
PCB
CN6-16
17
HOST
DATA 0
System control
PCB
CN6-17
18
HOST
DATA 15
System control
PCB
CN6-18
19
GND
20
KEY
(N.C.)
21
—
22
GND
23
HOST
IOW
24
GND
25
HOST
IOR
26
GND
27
HOST
IORDY
Destination
Status
Function
5V
0V
5V
0V
5V
0V
5V
0V
5V
0V
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
System control
PCB
CN6-19
0V
System control
PCB
CN6-20
—
—
System control
PCB
CN6-21
—
—
System control
PCB
CN6-22
0V
System control
PCB
CN6-23
System control
PCB
CN6-25
0V
System control
PCB
CN6-27
0V
Pulse
Ground
Hard disk data read
signal
Pulse
System control
PCB
CN6-26
Ground
signal
Pulse
System control
PCB
CN6-24
Ground
PCB Connector and
Signal Information
Pin
No.
Ground
write ready signal
4-283
Pin
No.
Signal
Name
28
—
29
—
Status
Function
System control
PCB
CN6-28
—
—
System control
PCB
CN6-29
—
—
0V
Destination
30
GND
System control
PCB
CN6-30
31
HOST
IRQ14
(15)
System control
PCB
CN6-31
32
HOST
IO16
System control
PCB
CN6-32
33
HOST
ADDR 1
System control
PCB
CN6-33
34
—
HOST
ADDR 0
System control
PCB
CN6-35
36
HOST
ADDR 2
System control
PCB
CN6-36
37
HOST
CS 1
System control
PCB
CN6-37
38
HOST
CS0
System control
PCB
CN6-38
39
DASP
System control
PCB
CN6-39
40
GND
System control
PCB
CN6-40
4-284
Hard disk interrupt
signal
Pulse
control signal
IN
5V
0V
System control
PCB
CN6-34
35
Ground
—
—
5V
0V
5V
0V
Pulse
signal
Pulse
Secondary hard disk
select signal
Pulse
0V
Ground
(CNPHD1/2)
Signal
Name
Status
Destination
Function
12V
1
12V1
LVPS
CN18-1
2
GND
LVPS
CN18-2
0V
Ground
3
GND
LVPS
CN18-3
0V
Ground
4
5V1
LVPS
CN18-4
0V
5V
0V
DC+12V power supply
DC+5V power supply
PCB Connector and
Signal Information
Pin
No.
4-285
4.31 Zip Drive (FP-D450/D600 Series)
(CNSRMD)
Pin
No.
Signal
Name
Destination
1
RESET
System control
PCB
CN6-1
2
GND
System control
PCB
CN6-2
3
HOST
DATA 7
System control
PCB
CN6-3
4
HOST
DATA 8
System control
PCB
CN6-4
5
HOST
DATA 6
System control
PCB
CN6-5
6
HOST
DATA 9
System control
PCB
CN6-6
7
HOST
DATA 5
System control
PCB
CN6-7
8
HOST
DATA 10
System control
PCB
CN6-8
9
HOST
DATA 4
System control
PCB
CN6-9
10
HOST
DATA 11
System control
PCB
CN6-10
11
HOST
DATA 3
System control
PCB
CN6-11
12
HOST
DATA 12
System control
PCB
CN6-12
13
HOST
DATA 2
System control
PCB
CN6-13
4-286
Status
Reset
Function
5V
0V
0V
0V
Reset signal
Ground
5V
0V
5V
0V
5V
0V
5V
0V
5V
0V
5V
0V
5V
0V
5V
0V
5V
0V
5V
0V
5V
0V
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Signal
Name
14
HOST
DATA 13
System control
PCB
CN6-14
15
HOST
DATA 1
System control
PCB
CN6-15
16
HOST
DATA 14
System control
PCB
CN6-16
17
HOST
DATA 0
System control
PCB
CN6-17
18
HOST
DATA 15
System control
PCB
CN6-18
19
GND
20
KEY
(N.C.)
21
—
22
GND
23
HOST
IOW
24
GND
25
HOST
IOR
26
GND
27
HOST
IORDY
Destination
Status
Function
5V
0V
5V
0V
5V
0V
5V
0V
5V
0V
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
Hard disk data bus
System control
PCB
CN6-19
0V
System control
PCB
CN6-20
—
—
System control
PCB
CN6-21
—
—
System control
PCB
CN6-22
0V
System control
PCB
CN6-23
System control
PCB
CN6-25
0V
System control
PCB
CN6-27
0V
Pulse
Ground
Hard disk data read
signal
Pulse
System control
PCB
CN6-26
Ground
signal
Pulse
System control
PCB
CN6-24
Ground
PCB Connector and
Signal Information
Pin
No.
Ground
write ready signal
4-287
Pin
No.
Signal
Name
28
—
29
—
Destination
Status
Function
System control
PCB
CN6-28
—
—
System control
PCB
CN6-29
—
—
0V
30
GND
System control
PCB
CN6-30
31
HOST
IRQ14
(15)
System control
PCB
CN6-31
32
HOST
IO16
System control
PCB
CN6-32
33
HOST
ADDR 1
System control
PCB
CN6-33
34
—
HOST
ADDR 0
System control
PCB
CN6-35
36
HOST
ADDR 2
System control
PCB
CN6-36
37
HOST
CS 1
System control
PCB
CN6-37
38
HOST
CS0
System control
PCB
CN6-38
39
DASP
System control
PCB
CN6-39
40
GND
System control
PCB
CN6-40
4-288
Hard disk interrupt
signal
Pulse
control signal
IN
5V
0V
System control
PCB
CN6-34
35
Ground
—
—
5V
0V
5V
0V
Pulse
signal
Pulse
Secondary hard disk
select signal
Pulse
0V
Ground
Pin
No.
Signal
Name
Destination
Status
Function
1
—
—
—
—
2
GND
LVPS
CN19-2
0V
Ground
3
GND
LVPS
CN19-3
0V
Ground
4
5V1
LVPS
CN19-4
5V
0V
DC+5V power supply
PCB Connector and
Signal Information
(CNPRMD)
4-289
4.32 Image processing PCB (FP-D450/D600 Series)
(CN19)
Pin
No.
Signal
Name
Destination
Status
Function
1
ISTRX
ADF connector
CN-8
Pulse
2
STRX
ADF connector
CN-9
Pulse
3
GND
ADF connector
CN-10
4
IADFTX
ADF connector
CN-11
Pulse
5
ADFTX
ADF connector
CN-12
Pulse
6
ADFIN
ADF connector
CN-7
Pulse
7
ADFOUT
ADF connector
CN-2
8
—
—
—
—
9
—
—
—
—
10
—
—
—
—
4-290
Inverse ADF receive
signal
ADF receive signal
0V
Ground
Inverse ADF transfer
signal
ADF transfer signal
ADF original feed
completed signal
0V
ADF original feed
control signal
(CN25)
Signal
Name
Destination
1
ADF
ADFRRSN PCB
CN952-7
2
ADFIDI
ADF
PCB
CN952-6
3
GND
ADF
PCB
CN952-9
4
ADFICLK
ADF
PCB
CN952-4
5
ADFIENB
ADF
PCB
CN952-2
6
ADFILD
ADF
PCB
CN952-3
7
ADFIDO
ADF
PCB
CN952-1
8
ADMCLK
ADF
PCB
CN952-5
9
VL
ADF
PCB
CN952-8
—
10
Status
Function
Detecting
signal
Ground
0V
32
Pulse
5V
ON
0V
1
Data output enable
signal
data latch signal
Shift Load
Pulse
clock signal
Pulse
5V
DC+5V power supply
0V
—
—
—
(CN28)
Pin
No.
signal
Signal
Name
Destination
Laser
interlock switch
V2
2
—
3
LBVL
Status
0V
5V
0V
DC+5V
power supply
—
—
—
Laser
interlock switch
Function
5V
DC+5V
power supply
4-291
PCB Connector and
Signal Information
Pin
No.
(CN36)
Pin
No.
Signal
Name
Destination
Status
Function
5V
1
VL
LSU CNLSP-1
2
GND
LSU CNLSP-2
3
LSULSYNC LSU CNLSP-3
4
GND
DC+5V power supply
0V
0V
Ground
LSU main scan
Pulse
5
—
LSU CNLSP-4
0V
—
6
GND
LSU CNLSA-2
7
GND
LSU CNLSA-3
8
GND
LSU CNLSA-4
9
GND
LSU CNLSA-5
Ground
—
—
0V
Ground
5V
4-292
APC moniter terminal
0V
5V
Resolution select signal
0V
0V
Ground
(CN38)
Signal
Name
Destination
NLCLK0
LSU image data
control PCB
CN1-a26
2
PLCLKO
LSU image data
control PCB
CN1-a25
3
NLDA7
LSU image data
control PCB
CN1-a24
4
PLDA7
LSU image data
control PCB
CN1-a23
5
NLDA6
LSU image data
control PCB
CN1-a22
6
PLDA6
LSU image data
control PCB
CN1-a21
7
GND
LSU image data
control PCB
CN1-a20
8
LDA5
LSU image data
control PCB
CN1-a19
9
GND
LSU image data
control PCB
CN1-a18
10
LDA4
LSU image data
control PCB
CN1-a17
11
GND
LSU image data
control PCB
CN1-a16
12
LDA3
LSU image data
control PCB
CN1-a15
13
GND
LSU image data
control PCB
CN1-a14
14
LDA2
LSU image data
control PCB
CN1-a13
1
Status
Function
Pulse
Image picture clock
signal
Pulse
clock signal
Pulse
Pulse
Pulse
Pulse
Pulse
Pulse
Pulse
Pulse
Pulse
Pulse
Pulse
Pulse
4-293
PCB Connector and
Signal Information
Pin
No.
Pin
No.
Signal
Name
15
NLDA1
LSU image data
control PCB
CN1-a12
16
PLDA1
LSU image data
control PCB
CN1-a11
17
NLDA
LSU image data
control PCB
CN1-a10
18
PLDA0
LSU image data
control PCB
CN1-a9
19
NLEMTEM1
LSU image data
control PCB
CN1-a8
20
PLEMTEM1
LSU image data
control PCB
CN1-a7
21
LSU image data
NSEMDEM1 control PCB
CN1-a6
22
LSU image data
PSEMDEM1 control PCB
CN1-a5
23
GND
LSU image data
control PCB
CN1-a4
24
ADJ1O
LSU image data
control PCB
CN1-a3
25
CALO
LSU image data
control PCB
CN1-a2
26
LSU image data
ENABLEO control PCB
CN1-a1
27
GND
LSU image data
control PCB
CN1-b26
28
+5VL
LSU image data
control PCB
CN1-b25
4-294
Status
Destination
Function
Pulse
Pulse
Pulse
Pulse
Pulse
Laser A PWM mode
change signal
Pulse
Laser A PWM mode
change signal
Pulse
Laser A PWM mode
change signal
Pulse
Laser A PWM mode
change signal
0V
Ground
Laser A APC control
signal
Pulse
Pulse
5V
Laser ON
0V
0V
Ground
5V
0V
signal
DC+5V power supply
Signal
Name
Destination
29
+5VL
LSU image data
control PCB
CN1-b24
30
+5VL
LSU image data
control PCB
CN1-b23
31
NLDB7
LSU image data
control PCB
CN1-b22
32
PLDB7
LSU image data
control PCB
CN1-b21
33
NLDB6
LSU image data
control PCB
CN1-b20
34
PLDB6
LSU image data
control PCB
CN1-b19
35
NLDB5
LSU image data
control PCB
CN1-b18
36
PLDB5
LSU image data
control PCB
CN1-b17
37
NLDB4
LSU image data
control PCB
CN1-b16
38
PLDB4
LSU image data
control PCB
CN1-b15
39
NLDB3
LSU image data
control PCB
CN1-b14
40
PLDB3
LSU image data
control PCB
CN1-b13
41
NLDB2
LSU image data
control PCB
CN1-b12
42
PLDB2
LSU image data
control PCB
CN1-b11
Status
Function
5V
DC+5V power supply
0V
5V
0V
Pulse
Pulse
Pulse
Pulse
Pulse
Pulse
Pulse
Pulse
Pulse
Pulse
Pulse
Pulse
DC+5V power supply
4-295
PCB Connector and
Signal Information
Pin
No.
Pin
No.
Signal
Name
Destination
43
NLDB1
LSU image data
control PCB
CN1-b10
44
PLDB1
LSU image data
control PCB
CN1-b9
45
NLDB
LSU image data
control PCB
CN1-b8
46
PLDB0
LSU image data
control PCB
CN1-b7
47
NLEMTEM2
LSU image data
control PCB
CN1-b6
48
PLEMTEM2
LSU image data
control PCB
CN1-b5
49
LSU image data
NSEMDEM2 control PCB
CN1-b4
50
LSU image data
PSEMDEM2 control PCB
CN1-b3
51
GND
LSU image data
control PCB
CN1-b2
52
ADJ2
LSU image data
control PCB
CN1-b1
4-296
Status
Pulse
Pulse
Pulse
Pulse
Function
Pulse
Laser B PWM mode
change signal
Pulse
Laser B PWM mode
change signal
Pulse
Laser B PWM mode
change signal
Pulse
Laser B PWM mode
change signal
Ground 0V
Pulse
Laser B APC control
signal
(CN43)
Signal
Name
Destination
Status
Function
1
PGND
LVPS cooling
fan motor
CN-3
2
PSFL
LVPS cooling
fan motor
CN-2
3
PRCFM1
LVPS cooling
fan motor
CN-1
4
PGND
—
0V
Power ground
5
—
—
—
—
6
—
—
—
—
7
PGND
Printer controller
cooling fan
motor CN-3
0V
Power ground
8
PRCFL
Printer controller
cooling fan motor
CN-2
9
PRCFM
Printer controller
cooling fan motor
CN-1
Power ground
0V
Rotates
lock F signal
ON
ON / OFF signal
Stop
12V
Stop
Rotates
12V
ON
motor lock F signal
motor ON / OFF signal
4-297
PCB Connector and
Signal Information
Pin
No.
(CN201)
Pin
No.
Signal
Name
Destination
Status
Function
5V
1
DTR2J
System control
PCB CN3-A01
2
+12V1
System control
PCB CN3-A02
3
RTS2J
System control
PCB CN3-A03
4
RxD2J
System control
PCB CN3-A04
5
+5V
System control
PCB CN3-A05
INTB
System control
PCB CN3-B07
Pulse
6
B
INTD
System control
PCB CN3-B08
Pulse
7
D
8
+5V
System control
PCB CN3-A08
0V
10
+5V
System control
PCB CN3-A10
0V
12
GND
System control
PCB CN3-A12
0V
Ground
13
GND
System control
PCB CN3-A13
0V
Ground
15
RST
System control
PCB CN3-A15
0V
16
+5V
System control
PCB CN3-A16
0V
17
GNT1
System control
PCB CN3-A14
0V
18
GND
System control
PCB CN3-A18
20
AD30
System control
PCB CN3-A20
21
+3.3V
System control
PCB CN3-A21
22
AD28
System control
PCB CN3-A22
5V
23
AD26
System control
PCB CN3-A23
5V
24
GND
System control
PCB CN3-A24
4-298
0V
12V
0V
5V
0V
Pulse
COM2 data terminal
ready signal
DC+12V power supply
COM2 request signal
COM2 communication
input signal
5V
0V
5V
5V
5V
5V
Reset
5V
DC+5V power supply
DC+5V power supply
DC+5V power supply
Grant signal
Ground
0V
5V
0V
3.3V
0V
0V
DC+5V power supply
signal
0V
signal
0V
signal
Ground
Signal
Name
Destination
Status
Function
5V
25
AD24
System control
PCB CN3-A25
27
+3.3V
System control
PCB CN3-A27
28
AD22
System control
PCB CN3-A28
5V
29
AD20
System control
PCB CN3-A29
5V
30
GND
System control
PCB CN3-A30
31
AD18
System control
PCB CN3-A31
5V
32
AD16
System control
PCB CN3-A32
5V
33
+3.3V
System control
PCB CN3-A33
0V
34
FRAME
System control
PCB CN3-A34
0V
35
GND
System control
PCB CN3-A35
36
TRDY
System control
PCB CN3-A36
37
GND
System control
PCB CN3-A37
38
STOP
System control
PCB CN3-A38
39
+3.3V
System control
PCB CN3-A39
40
SDONE
System control
PCB CN3-A40
Pulse
41
SBO
System control
PCB CN3-A41
Pulse
42
GND
System control
PCB CN3-A42
43
PAR
System control
PCB CN3-A43
44
AD15
System control
PCB CN3-A44
45
+3.3V
System control
PCB CN3-A45
0V
3.3V
0V
signal
0V
signal
0V
signal
0V
Ground
0V
signal
0V
signal
3.3V
5V
0V
Cycle frame signal
PCB Connector and
Signal Information
Pin
No.
Ground
Pulse
Target ready signal
0V
Ground
Pulse
Stop signal
3.3V
0V
Snoop done signal
0V
Ground
Pulse
Parity check signal
5V
0V
3.3V
0V
signal
4-299
Pin
No.
Signal
Name
Destination
Status
46
AD13
System control
PCB CN3-A46
5V
47
AD11
System control
PCB CN3-A47
5V
48
GND
System control
PCB CN3-A48
49
AD09
System control
PCB CN3-A49
5V
52
C/-BE0
System control
PCB CN3-A52
5V
53
+3.3V
System control
PCB CN3-A53
54
AD06
System control
PCB CN3-A54
5V
55
AD04
System control
PCB CN3-A55
5V
56
GND
System control
PCB CN3-A56
57
AD02
System control
PCB CN3-A57
5V
58
AD00
System control
PCB CN3-A58
5V
59
+5V
System control
PCB CN3-A59
60
—
0V
signal
0V
signal
0V
Ground
0V
signal
0V
Bus command / byte
enable signal
3.3V
0V
0V
signal
0V
signal
0V
Ground
0V
signal
0V
signal
5V
0V
DC+5V power supply
—
—
—
5V
61
+5V
System control
PCB CN3-A61
0V
62
+5V
System control
PCB CN3-A62
0V
101
-12V
System control
PCB CN3-B01
0V
102
CTS
System control
PCB CN3-B02
5V
103
GND
System control
PCB CN3-B03
104
TxD
System control
PCB CN3-B04
105
+5V
System control
PCB CN3-B05
4-300
Function
5V
-12V
0V
0V
DC+5V power supply
DC-12V power supply
COM2 receive clear
signal
Ground
Pulse
COM2 communication
output signal
5V
0V
DC+5V power supply
DC+5V power supply
Signal
Name
Destination
Function
Status
5V
106
+5V
System control
PCB CN3-B06
107
INTA
System control
PCB CN3-A06
Pulse
A
108
INTC
System control
PCB CN3-A07
Pulse
C
112
GND
System control
PCB CN3-B12
0V
Ground
113
GND
System control
PCB CN3-B13
0V
Ground
115
GND
System control
PCB CN3-B15
0V
Ground
116
CLKB
System control
PCB CN3-B16
117
GND
System control
PCB CN3-B17
118
REQ1
System control
PCB CN3-B10
119
+5V
System control
PCB CN3-B19
120
AD31
System control
PCB CN3-B20
5V
121
AD29
System control
PCB CN3-B21
5V
122
GND
System control
PCB CN3-B22
123
AD27
System control
PCB CN3-B23
5V
124
AD25
System control
PCB CN3-B24
5V
125
+3.3V
System control
PCB CN3-B25
126
C/-BE3
System control
PCB CN3-B26
5V
127
AD23
System control
PCB CN3-B27
5V
128
GND
System control
PCB CN3-B28
129
AD21
System control
PCB CN3-B29
0V
Pulse
DC+5V power supply
PCI bus clock B
Ground
0V
Pulse
signal
5V
0V
DC+5V power supply
0V
signal
0V
signal
Ground
0V
0V
signal
0V
signal
3.3V
0V
0V
Bus command / byte
enable signal
0V
signal
Ground
0V
5V
0V
signal
4-301
PCB Connector and
Signal Information
Pin
No.
Pin
No.
Signal
Name
Destination
Status
5V
130
AD19
System control
PCB CN3-B30
131
+3.3V
System control
PCB CN3-B31
132
AD17
System control
PCB CN3-B32
5V
133
C/-BE2
System control
PCB CN3-B33
5V
134
GND
System control
PCB CN3-B34
135
IRDY
System control
PCB CN3-B35
136
+3.3V
System control
PCB CN3-B36
137
DEVSEL
System control
PCB CN3-B37
138
GND
System control
PCB CN3-B38
139
LOCK
System control
PCB CN3-B39
140
PERR
System control
PCB CN3-B40
141
+3.3V
System control
PCB CN3-B41
142
SERR
System control
PCB CN3-B42
143
+3.3V
System control
PCB CN3-B43
144
C/-BE1
System control
PCB CN3-B44
5V
145
AD14
System control
PCB CN3-B45
5V
146
GND
System control
PCB CN3-B46
147
AD12
System control
PCB CN3-B47
5V
148
AD10
System control
PCB CN3-B48
5V
149
GND
System control
PCB CN3-B49
4-302
Function
0V
3.3V
0V
signal
0V
signal
0V
Bus command / byte
enable signal
0V
Ground
Pulse
3.3V
0V
Pulse
0V
Ground
Pulse
Lock signal
5V
0V
5V
0V
5V
0V
3.3V
0V
System error signal
0V
Bus command / byte
enable signal
0V
signal
0V
0V
Parity error signal
Ground
0V
signal
0V
signal
Ground
Signal
Name
Destination
Status
152
AD08
System control
PCB CN3-B52
5V
153
AD07
System control
PCB CN3-B53
5V
154
+3.3V
System control
PCB CN3-B54
155
AD05
System control
PCB CN3-B55
5V
156
AD03
System control
PCB CN3-B56
5V
157
GND
System control
PCB CN3-B57
158
AD01
System control
PCB CN3-B58
159
+5V
System control
PCB CN3-B59
0V
160
SYSRST
System control
PCB CN3-B60
0V
161
+5V
System control
PCB CN3-B61
0V
162
+5V
System control
PCB CN3-B62
0V
Function
0V
signal
0V
signal
3.3V
0V
0V
signal
0V
signal
0V
Ground
5V
0V
5V
Reset
5V
5V
5V
signal
DC+5V power supply
System reset signal
DC+5V power supply
DC+5V power supply
4-303
PCB Connector and
Signal Information
Pin
No.
(CN202)
Pin
No.
Signal
Name
Destination
1
GVSYNC
Main CPU PCB
CN34-1
Sub-scan direction
2
GIPGCS
Main CPU PCB
CN34-2
Gate array chip select
signal
3
GIWR
Main CPU PCB
CN34-3
4
GIRD
Main CPU PCB
CN34-4
5
GND
Main CPU PCB
CN34-5
6
GA1
Main CPU PCB
CN34-6
Pulse
7
GA2
Main CPU PCB
CN34-7
Pulse
8
GA3
Main CPU PCB
CN34-8
Pulse
9
GA4
Main CPU PCB
CN34-9
Pulse
10
GA5
Main CPU PCB
CN34-10
Pulse
11
GA6
Main CPU PCB
CN34-11
Pulse
12
GA7
Main CPU PCB
CN34-12
Pulse
13
GA8
Main CPU PCB
CN34-13
Pulse
14
GA9
Main CPU PCB
CN34-14
Pulse
15
GA10
Main CPU PCB
CN34-15
Pulse
16
GA11
Main CPU PCB
CN34-16
Pulse
17
GA12
Main CPU PCB
CN34-17
Pulse
18
GND
Main CPU PCB
CN34-18
19
GAD0
Main CPU PCB
CN34-19
4-304
Function
Status
Pulse
Gate array write signal
Gate array read signal
0V
Address bus
Address bus
Address bus
Address bus
Address bus
Address bus
Address bus
Address bus
Address bus
Address bus
Address bus
Address bus
0V
Pulse
Ground
Ground
Data bus
Signal
Name
Destination
Function
Status
20
GAD1
Main CPU PCB
CN34-20
Pulse
21
GAD2
Main CPU PCB
CN34-21
Pulse
22
GAD3
Main CPU PCB
CN34-22
Pulse
23
GAD4
Main CPU PCB
CN34-23
Pulse
24
GAD5
Main CPU PCB
CN34-24
Pulse
25
GAD6
Main CPU PCB
CN34-25
Pulse
26
GAD7
Main CPU PCB
CN34-26
Pulse
27
GND
Main CPU PCB
CN34-27
28
GBUFCNT
Main CPU PCB
CN34-28
0V
29
GIRST
Main CPU PCB
CN34-29
0V
30
GILOCK
Main CPU PCB
CN34-30
0V
Data bus
Data bus
Data bus
Data bus
Data bus
Data bus
Data bus
Ground
0V
5V
5V
Reset
5V
OFF
ON
Data buffer select signal
PCB Connector and
Signal Information
Pin
No.
Engine reset signal
Interlock signal
4-305
(CN203)
Pin
No.
Signal
Name
Destination
Status
Function
1
GND
Printer controller
PCB CNJ5-1
0V
Ground
2
GND
Printer controller
PCB CNJ5-2
0V
Ground
3
GND
Printer controller
PCB CNJ5-3
0V
Ground
4
GND
Printer controller
PCB CNJ5-4
0V
Ground
5
GND
Printer controller
PCB CNJ5-5
0V
Ground
6
GND
Printer controller
PCB CNJ5-6
0V
Ground
7
GND
Printer controller
PCB CNJ5-7
0V
Ground
8
GND
Printer controller
PCB CNJ5-8
0V
Ground
9
GND
Printer controller
PCB CNJ5-9
0V
Ground
10
GND
Printer controller
PCB CNJ5-10
0V
Ground
11
GND
Printer controller
PCB CNJ5-11
0V
Ground
12
GND
Printer controller
PCB CNJ5-12
0V
Ground
13
GND
Printer controller
PCB CNJ5-13
0V
Ground
14
GND
Printer controller
PCB CNJ5-14
0V
Ground
15
GND
Printer controller
PCB CNJ5-15
0V
Ground
16
GND
Printer controller
PCB CNJ5-16
0V
Ground
17
GND
Printer controller
PCB CNJ5-17
0V
Ground
18
GND
Printer controller
PCB CNJ5-18
0V
Ground
19
GND
Printer controller
PCB CNJ5-19
0V
Ground
4-306
Signal
Name
Destination
Status
Function
20
GND
Printer controller
PCB CNJ5-20
0V
Ground
21
GND
Printer controller
PCB CNJ5-21
0V
Ground
22
GND
Printer controller
PCB CNJ5-22
0V
Ground
23
GND
Printer controller
PCB CNJ5-23
0V
Ground
24
GND
Printer controller
PCB CNJ5-24
0V
Ground
25
GND
Printer controller
PCB CNJ5-25
0V
Ground
26
GND
Printer controller
PCB CNJ5-26
0V
Ground
27
GND
Printer controller
PCB CNJ5-27
0V
Ground
28
GND
Printer controller
PCB CNJ5-28
0V
Ground
29
GND
Printer controller
PCB CNJ5-29
0V
Ground
30
GND
Printer controller
PCB CNJ5-30
0V
Ground
31
/IDRDY
Printer controller
PCB CNJ5-31
/IDSTB
Printer controller
PCB CNJ5-32
32
5V
0V
5V
GND
Printer controller
PCB CNJ5-33
34
ID0
Printer controller
PCB CNJ5-34
5V
35
ID1
Printer controller
PCB CNJ5-35
5V
36
ID2
Printer controller
PCB CNJ5-36
5V
37
ID3
Printer controller
PCB CNJ5-37
5V
GND
Printer controller
PCB CNJ5-38
39
ID4
Printer controller
PCB CNJ5-39
Image data receive
ready signal
0V
33
38
PCB Connector and
Signal Information
Pin
No.
Ground
0V
0V
0V
0V
Image data 0
Image data 1
Image data 2
Image data 3
0V
Ground
0V
5V
0V
Image data 4
4-307
Pin
No.
Signal
Name
Destination
ID5
Printer controller
PCB CNJ5-40
5V
40
41
ID6
Printer controller
PCB CNJ5-41
5V
42
ID7
Printer controller
PCB CNJ5-42
5V
43
GND
Printer controller
PCB CNJ5-43
44
ID8
Printer controller
PCB CNJ5-44
5V
45
ID9
Printer controller
PCB CNJ5-45
5V
46
ID10
Printer controller
PCB CNJ5-46
5V
47
ID11
Printer controller
PCB CNJ5-47
5V
0V
0V
0V
0V
0V
0V
Printer controller
PCB CNJ5-48
49
ID12
Printer controller
PCB CNJ5-49
5V
50
ID13
Printer controller
PCB CNJ5-50
5V
51
ID14
Printer controller
PCB CNJ5-51
5V
52
ID15
Printer controller
PCB CNJ5-52
5V
Printer controller
PCB CNJ5-53
54
SDACC
Printer controller
PCB CNJ5-54
55
/SCACC
GND
Printer controller
PCB CNJ5-56
57
SDPRN
Printer controller
PCB CNJ5-57
4-308
Image data 7
Image data 8
Image data 9
Image data 10
Image data 11
0V
Ground
0V
0V
0V
Image data 12
Image data 13
Image data 14
Image data 15
0V
0V
Ground
5V
0V
5V
Printer controller
PCB CNJ5-55
56
Image data 6
0V
GND
GND
Image data 5
Ground
0V
48
53
Function
Status
0V
0V
control signal
Ground
5V
0V
data
Signal
Name
Destination
58
/SCPRN
Printer controller
PCB CNJ5-58
59
GND
Printer controller
PCB CNJ5-59
60
/RESET
Printer controller
PCB CNJ5-60
Function
Status
5V
0V
Ground
0V
5V
Reset signal
0V
(CN204)
Pin
No.
data control signal
Signal
Name
Destination
Function
Status
3.3V
1
3.3V
LVPS PCB
CN10-1
2
GND
LVPS PCB
CN10-2
0V
Ground
3
GND
LVPS PCB
CN10-3
0V
Ground
4
5V1
LVPS PCB
CN10-4
5
GND
LVPS PCB
CN10-5
6
12V1
LVPS PCB
CN10-6
7
GND
LVPS PCB
CN10-7
8
–12V1
LVPS PCB
CN10-8
0V
DC+5V power supply
0V
Ground
12V
0V
0V
DC+12V power supply
Ground
0V
-12V
DC–12V power supply
4-309
PCB Connector and
Signal Information
Pin
No.
(CN205)
Pin
No.
Signal
Name
Destination
1
SWC
Operation switch
2
GND
Operation switch
3
PRTS
4
PCTS
5
PRXD
6
PNLRST
7
PTXD
8
GND
9
+12V2
10
GND
11
GND
12
GND
13
VL
14
VL
15
P_LED
16
KEY
4-310
Control panel
CPU PCB
CN401-11
Control panel
CPU PCB
CN401-12
Control panel
CPU PCB
CN401-9
Control panel
CPU PCB
CN401-10
Control panel
CPU PCB
CN401-7
Control panel
CPU PCB
CN401-8
Control panel
CPU PCB
CN401-5
Control panel
CPU PCB
CN401-6
Control panel
CPU PCB
CN401-3
Control panel
CPU PCB
CN401-4
Control panel
CPU PCB
CN401-1
Control panel
CPU PCB
CN401-2
Control panel
PCB A
CN358-3
Control panel
PCB A
CN358-1
Function
Status
Switch signal
Ground
0V
Pulse
5V
0V
Control panel
control signal
Control panel
control signal
Control panel
signal
Control panel reset
signal
Control panel
signal
Pulse
0V
Ground
12V
DC+12V power supply
0V
0V
Ground
0V
Ground
0V
Ground
5V
DC+5V power supply
0V
5V
DC+5V power supply
0V
ON
EPA mode LED ON/
OFF signal
ON
EPA mode key input
signal
5V
0V
5V
0V
(CN206)
Signal
Name
Destination
1
GND
LVPS PCB
CN10-4
2
VL
LVPS PCB
CN10-6
Function
Status
Ground
0V
5V
0V
DC+5V power supply
(CN208)
Pin
No.
Signal
Name
Destination
1
PRCFM2
—
2
HDDFL
—
3
PGND
—
Function
Status
12V
ON
0V
STOP ROTATE
0V
0V
Fan motor ON/OFF
signal
Fan motor lock
detecting signal
Power ground
PCB Connector and
Signal Information
Pin
No.
4-311
(CN209)
Pin
No.
Signal
Name
Destination
Status
Function
GND
CCD PCB
CN801-23
0V
Ground
2
GND
CCD PCB
CN801-24
0V
Ground
3
CCD PCB
ISLSYNC_C CN801-21
4
GND
CCD PCB
CN801-22
5
IRLSYNC
CCD PCB
CN801-19
Pulse
6
IRLSYNC
CCD PCB
CN801-20
Pulse
SVCLK
CCD PCB
CN801-17
Pulse
7
Pulse
8
ISVCLK
CCD PCB
CN801-18
SVD0
CCD PCB
CN801-15
Pulse
9
Pulse
10
ISVD0
CCD PCB
CN801-16
SVD1
CCD PCB
CN801-13
Pulse
11
Pulse
12
ISVD1
CCD PCB
CN801-14
SVD2
CCD PCB
CN801-11
Pulse
13
Pulse
ISVD2
CCD PCB
CN801-12
1
14
4-312
Scanner horizontal
Pulse
0V
Ground
Return horizontal
differential output
differential output
Scanner image clock
signal
signal (LSB)
output signal (LSB)
signal
output signal
signal
output signal
Signal
Name
Destination
Status
SVD3
CCD PCB
CN801-9
Pulse
15
ISVD3
CCD PCB
CN801-10
Pulse
16
SVD4
CCD PCB
CN801-7
Pulse
17
ISVD4
CCD PCB
CN801-8
Pulse
18
SVD5
CCD PCB
CN801-5
Pulse
19
ISVD5
CCD PCB
CN801-6
Pulse
20
SVD6
CCD PCB
CN801-3
Pulse
21
ISVD6
CCD PCB
CN801-4
Pulse
22
SVD7
CCD PCB
CN801-1
Pulse
23
ISVD7
CCD PCB
CN801-2
Pulse
24
Function
signal
output signal
signal
daa 4 bit differential
output signal
signal
output signal
Scanner image dada 6
signal
output signal
signal (MSB)
Inverse image data 7 bit
(MSB)
4-313
PCB Connector and
Signal Information
Pin
No.
(CN210)
Pin
No.
Signal
Name
Destination
Function
Status
1
GND
CCD PCB
CN803-7
0V
Ground
2
GND
CCD PCB
CN803-8
0V
Ground
3
DADATA
CCD PCB
CN803-5
4
GND
CCD PCB
CN803-6
5
DACLK
CCD PCB
CN803-3
6
GND
CCD PCB
CN803-4
7
DA_LD
CCD PCB
CN803-1
8
GND
CCD PCB
CN803-2
Pulse
data
Ground
0V
Pulse
clock
Ground
0V
Pulse
load signal
Ground
0V
(CN211)
Pin
No.
Signal
Name
Destination
Status
Function
—
—
—
1
NC
2
BTCNT
LVPS PCB
CN17-3
OFF
ON
3
EPACNT
LVPS PCB
CN17-2
OFF
ON
4
ACDWN
LVPS PCB
CN17-1
4-314
0V
0V
0V
AC ON AC OFF
signal
Power supply down
signal
(CN212)
Signal
Name
Destination
Main CPU PCB
CN4-1
Function
Status
5V
1
ATT
2
PRDY
Main CPU PCB
CN4-2
5V
3
VRDY
Main CPU PCB
CN4-3
5V
4
PACK
Main CPU PCB
CN4-4
5V
5
SVEN
Main CPU PCB
CN4-5
6
SCTS
Main CPU PCB
CN4-6
7
SHBREQ
Main CPU PCB
CN4-7
8
Main CPU PCB
SHWREQ CN4-8
ON
ON
ON
ON
0V
0V
0V
0V
5V
ON
5V
ON
5V
ON
5V
ON
9
—
—
10
SVSYNC
Main CPU PCB
CN4-10
Pulse
11
SRXD
Main CPU PCB
CN4-11
5V
12
PRST
Main CPU PCB
CN4-12
5V
Reset
13
VSYNC
Main CPU PCB
CN4-13
5V
14
PRNT
Main CPU PCB
CN4-14
5V
SRTS
Main CPU PCB
CN4-15
Pulse
15
STXD
Main CPU PCB
CN4-16
Pulse
16
0V
0V
0V
0V
5V
0V
0V
0V
ON
ON
Printer ready signal
VSYNC receive signal
Paper feed completion
signal
Scanner sub-scan
image valid signal
Host serial
acceptance signal
black standard data
request signal
white standard data
request signal
—
—
ON
Printer condition change
detection signal
0V
0V
Scanner vertical
Host serial
acceptance signal
Printer reset signal
Printer vertical
Print start signal
Host serial
signal
Host serial
signal
4-315
PCB Connector and
Signal Information
Pin
No.
Pin
No.
Signal
Name
Destination
17
SLSYNC
Main CPU PCB
CN4-17
18
SHRDY
19
SREQ
Main CPU PCB
CN4-19
5V
20
ZCSP
Main CPU PCB
CN4-20
Pulse
21
ZCRS
Main CPU PCB
CN4-21
Pulse
22
GND
Main CPU PCB
CN4-22
4-316
Main CPU PCB
CN4-18
Status
Function
Pulse
5V
Scanner horizontal
ON
ON
0V
0V
standard data
completion signal
Scanner request
Host zero cross signal
Zero cross signal
0V
Ground
(CN213)
Signal
Name
Destination
Pulse
10
Main CPU PCB
CN213-1
Main CPU PCB
BRIW
CN213-2
Main CPU PCB
MB38CS
CN213-3
Main CPU PCB
IPRXD
CN213-4
Main CPU PCB
IPTXD
CN213-5
Main CPU PCB
ADFRRSN
CN213-6
Main CPU PCB
ADFIDI
CN213-7
Main CPU PCB
ADFICLK
CN213-8
Main CPU PCB
ADFIENB
CN213-9
Main CPU PCB
CN213-10
ADFILD
11
ADFIDO
Pulse
12
ADMCLK
13
ISTRX
14
STRX
15
IADFTX
16
ADFTX
17
ADFIN
18
ADFOUT
Main CPU PCB
CN213-11
Main CPU PCB
CN213-12
Main CPU PCB
CN213-13
Main CPU PCB
CN213-14
Main CPU PCB
CN213-15
Main CPU PCB
CN213-16
Main CPU PCB
CN213-17
Main CPU PCB
CN213-18
Main CPU PCB
CN213-19
Main CPU PCB
CN213-20
1
2
3
4
5
6
7
8
9
BIE
19
KCS
20
GND
Function
Status
CPU enable signal
Pulse
5V
Detecting
0V
32
Pulse
5V
ON
0V
Shift Load
clock signal
Pulse
Pulse
ADF receive – signal
Pulse
ADF receive + signal
Pulse
ADF transfer – signal
Pulse
5V
5V
5V
IPC circuit chip select
signal
IPC communication
receive signal
IPC communication
transfer signal
signal
signal
32 bit data transfer/
Data output enable
signal
32 bit data receive shift/
data latch signal
ADF transfer + signal
ON
ON
ON
0V
0V
0V
0V
ADF original feed
completion signal
ADF original feed
control signal
detecting signal
Ground
4-317
PCB Connector and
Signal Information
Pin
No.
Section V Troubleshooting
5.1 Service Mode
In Service mode, the technician can check for abnormalities in the copier so the
copier can always operate normally. The input/output of major components in
every section can be checked.
1. Service mode functions
Service
mode
Item
Function
Remarks
F1
Display check
When start key is pressed, all It stops when the Stop
displays light up.
key is pressed.
F2
Single sheet copying
1. One sheet is copied when the
Start key is pressed.
2. Duplex mode (1 sided original
to 2 sided copy or 2 sided
original to 2 sided copy)
a) One sheet is copied when
the Start key is pressed in
the duplex mode. The first
side is copied and fed into
the duplex unit tray.
b) W h e n t h e S t a r t k e y i s
pressed again, the second
side is copied and fed to the
copier exit tray.
3. Book mode (Book original to 2
sided copy)
a) One sheet is copied when
the Start key is pressed in
the duplex mode. The first
side is copied and fed into
the duplex unit tray. Then
second side is copied and
fed to the copier exit tray.
Troubleshooting
1. Total and
electronic counter
are disabled.
2. If paper is in
drawer, the
misfeed circuit is
enabled.
3. If no paper is in
drawer, the
misfeed circuit is
disabled.
4. ADF and Finisher
can be operated.
5-1
Service
mode
5-2
Item
Function
Remarks
1. Total and electronic
counter are disabled.
2. If paper is in drawer, the
misfeed circuit is
enabled.
3. If no paper is in drawer,
the misfeed circuit is
disabled.
4. ADF and Finisher can
be operated.
F3
Continuous copying
1. Multi copies are made
when the Start key is
pressed.
2. Duplex mode (1 sided
original to 2 sided copy or
2 sided original to 2 sided
copy)
a) 50 sheets are copied
pressed in the duplex
mode. The first side is
copied and fed into the
duplex unit tray.
b) When the Start key is
pressed again, the
second side is copied
and fed to the copier exit
tray.
3. Book mode (book original
to 2 sided copy)
a) 50 sheets are copied
pressed in the duplex
mode. The first side is
copied and fed into the
duplex unit tray. Then
second side is copied
and fed to the copier
exit tray.
F4
Input / Output check
The functioning of Input /
Output items (selected item
numbers) is checked.
F5
Function programming Various function settings
(selected by code numbers)
can be changed.
F6
Adjustment and
programming
Various function setting
(selected by code numbers)
can be adjusted.
F7
Electronic counter
Reads or Resets the
electronic counter.
F8
Operating adjustment
Perform pseudo-operation of
an item (selected by code
numbers)
F9
System
Administration
Input the telephone number,
displays software version and
list print of F5/F6 modes.
2. Service mode procedure
1)
To select the service mode
The service mode is selected when USER PRESET, Multi-Copy key 3 and
Original size Ledger/A3 keys are simultaneously pressed, then F1 will appear
in the display.
(If copier is abnormal, then F4 will appear in the display.)
2)
To reset the service mode
The service mode is reset when USER PRESET and CLEAR keys are
pressed simultaneously.
NOTE: After servicing, if the copier is left in the F mode and shut off, when
the copier is turned ON again, it will still be in the F mode.
The reset program must be used to reset the F mode.
3. F4 mode input/output check
1) Input check
Set the copier to service mode and press Multi-Copy key "4".
Press the Start key.
Select the desired code number with Multi-Copy key.
Troubleshooting
Check the arrow mark on the touch panel display.
Press the Clear key and User Preset key to escape service mode.
5-3
Code
Function
No.
c00 a) Paper limit sensor 2
b) Paper limit sensor 1
c01 a) Registration roller paper pass
sensor
b) Duplex unit paper length
guide home position sensor
c) Duplex unit paper width guide
home position sensor
d) Shift tray registration sensor
c02 a) Total counter
Condition
Paper is full.
Paper is full.
Paper is not detected.
Paper length guide in home
position.
Paper width guide in home
position.
Total counter is not
connected.
Paper is empty or tray is
b) Paper level sensor 2
pulled out.
c) Paper detection sensor 2
d) Paper pass sensor 2
e) +12V line error detecting +12V line is normal.
signal
f) Paper level sensor 1
pulled out.
g) Paper detection sensor 1
h) Paper pass sensor 1
c03 a) Waste toner bottle full sensor Waste toner is full.
b) Toner bottle position sensor Toner bottle in home
position.
Motor is locked.
c) Main motor lock signal
d) Exhaust fan motor lock signal Motor is locked.
2
e) Exhaust fan motor lock signal Motor is locked.
1
f) Suction fan motor lock signal Motor is locked.
g) Dust collecting fan motor lock Motor is locked.
signal
h) Exhaust fan motor lock signal Motor is locked.
4
c04 a) Exhaust fan motor lock signal Motor is locked.
3
b) Copier front door open / close Door is opened.
sensor
c) Paper exit sensor
d) High voltage leak detection Normal.
(Transfer corona)
e) High voltage leak detection Normal.
(Separation corona)
f) High voltage leak detection Normal.
(Charge corona)
5-4
Message display
7 6 5 4 3 2 1 0
Condition
Message display
7 6 5 4 3 2 1 0
Developer unit is not
detected.
Door is opened.
Sensor is ON.
Sensor is ON.
Sensor is ON.
Duplex unit is not detected.
Motor is locked.
Duplex unit tray is opened.
Paper is detected.
Paper is detected.
Paper is detected.
Paper is full.
Paper is detected.
Door is closed.
Troubleshooting
Code
Function
No.
c05 a) Developer unit detecting
sensor
b) Copier paper feed door open/
close sensor
c) Sheet bypass paper detecting
sensor
d) Sheet bypass paper size
detecting sensor 3 (Length)
e) Sheet bypass paper size
detecting sensor 2 (Outside)
f) Sheet bypass paper size
detecting sensor 1 (Inside)
c06 a) Duplex unit detecting sensor
b) Polygon motor lock signal
c) Duplex unit tray detecting
sensor
c07 a) Duplex unit paper detecting
sensor
b) Duplex unit paper pass
sensor signal 2
c) Duplex unit paper pass
sensor signal 1
c08 a) System console paper pass
sensor 3 (lower tray)
b) System console paper limit
c) S y s t e m c o n s o l e p a p e r
detection sensor 3 (lower tray)
d) System console paper feed
door sensor
e) System console motor lock
signal
c09 a) System console paper pass
sensor 1 (upper tray)
b) System console paper limit
c) System console paper
detection sensor 1 (upper
tray)
d) System console paper pass
sensor 2 (middle tray)
e) System console paper limit
f) S y s t e m c o n s o l e p a p e r
detection sensor 2 (middle
tray)
Motor is locked.
Paper is detected.
Paper is full.
Paper is detected.
Paper is detected.
Paper is full.
Paper is detected.
5-5
Code
Function
No.
c10 a) System console detecting
sensor
b) System console paper level
c) System console paper level
d) System console paper level
c11 a) LCC paper limit sensor
c12
c13
c14
c15
c16
5-6
Condition
System console is detected.
pulled out.
pulled out.
pulled out.
Paper tray is beyond the
upper limit.
b) LCC paper detecting sensor Paper is detected.
1
c) LCC paper tray lower limit Paper tray is beyond the
lower limit.
sensor
LCC is pulled out.
d) LCC detecting sensor
e) LCC door open / close sensor Door is closed.
LCC is installed.
f) LCC detecting sensor 2
Paper is detected.
g) LCC paper level sensor
a) Discharge lamp error signal 1 Lamp is lit.
b) Discharge lamp error signal 2
(FP-D450/D600)
Not used
a) Shift tray home position Shift tray not in home
position.
sensor
b) Shift tray detecting sensor 2 Shift tray is installed.
c) Inverting registration sensor Paper is detected.
d) Shift tray door open / close Door is closed.
sensor
Paper is detected.
e) Shift tray paper exit sensor
f) Shift tray detecting sensor 1 Shift tray is installed.
a) 2 bin finisher paper exit sensor Paper is detected.
(inverting exit)
b) 2 bin finisher paper pass sensor Paper is detected.
c) 2 bin finisher paper exit sensor Paper is detected.
(straight exit)
d) 2 bin finisher paper feed sensor Paper is detected.
a) 2 bin finisher dust box detecting Dust box is not detected.
sensor
b) 2 bin finisher belt home position Bin in home position.
sensor
c) 2 bin finisher jogging home Jogging in home position.
position sensor
d) 2 bin finisher set switch
2 bin finisher is pulled out.
Message display
7 6 5 4 3 2 1 0
Code
Function
No.
c17 a) 2 bin finisher stapler cartridge
detecting sensor
b) 2 bin finisher stapler detecting
sensor
c) 2 bin finisher stapler home
position sensor
d) 2 bin finisher stapler sheet
detecting sensor
c18 a) 2 bin finisher elevator bin
lower limit sensor
b) 2 bin finisher paper top
detecting sensor
c) 2 bin finisher paper full
detecting sensor
d) 2 bin finisher elevator bin
upper limit sensor
c19 Not used
c20 a) Original size detection
sensors
Condition
Message display
7 6 5 4 3 2 1 0
Cartridge is installed.
Stapler is detected.
Stapler in home position.
Paper is detected.
Bin is placed beyond the
lower limit.
Paper is detected.
Bin is placed beyond the
upper limit.
Troubleshooting
Original (LED/A3) is
detected.
Original (LGL/B4) is
detected.
Original (LTR/A4) is
detected.
Original (LTR-R/A4R) is
detected.
Original (INV/A5) is
detected.
c21 a) Platen angle sensor
Platen cover is opened
more than 30 degrees.
b) Platen cover open / close Platen cover is opened.
sensor
c) Optics fan motor 1 lock signal Motor is locked.
d) +24V line error detecting +24V line is normal.
signal
e) Home position sensor
Optics in home position.
c22 Not used
~29
5-7
Code
Function
No.
c30 For FA-A355
a) ADF open / close sensor
b) Face up paper exit sensor
c) Original detecting sensor
d) ADF detecting sensor 1
e) Registration roller paper pass
sensor
f) ADF detecting sensor 2
For FA-A888
a) Registration roller paper pass
sensor
b) Inverting sensor
c) Timing sensor
d) ADF open / close sensor
e) Entry cover open / close
sensor
f) Exit cover open / close sensor
c31 For FA-A355
a) Original size detection sensor
5 (Length)
b) Original size detection sensor
4 (Length, Letter/A4 size
original detection)
c) Original size detection sensor
3 (Width, outside)
d) Original size detection sensor
2 (Width, middle)
e) Original size detection sensor
1 (inside)
For FA-A888
a) Original size detection sensor
1 (Outside)
b) Original size detection sensor
2 (Inside)
c) Original size detection sensor
3 (Length)
d) Original detection sensor
c32 Not used
~49
5-8
Condition
ADF is closed.
Original is not detected.
ADF is installed.
ADF is installed.
ADF is closed.
Entry cover is closed.
Exit cover is closed.
Sensor is ON.
Sensor is ON.
Sensor is ON.
Sensor is ON.
Sensor is ON.
Sensor is ON.
Sensor is ON.
Sensor is ON.
Original is detected.
Message display
7 6 5 4 3 2 1 0
2)
Output check
Activate the door switch before executing output check.
Press the Start key to start and press the Stop key to reset.
c52
Main motor
c53
c54
Not used
Lift up motor 1
(When duplex unit is not installed.)
c55
Paper feed clutch 1
(When duplex unit is not installed.)
c56
c57
Not used
Lift up motor 2
c58
Paper feed clutch 2
c59
Not used
Function
(FP-D250/D350)
When CN29-2 becomes 0V from +24V, clutch
operates.
(FP-D450/D600)
operates.
(FP-D250/D350)
When CN5-2 becomes 0V from +24V, motor
rotates.
(FP-D450/D600)
rotates.
(HVPS, developer unit, discharge lamp and
blacking prevention lamp turn ON.)
(FP-D250/D350)
When CN26-1 is +24V, motor rotates lifting up.
(FP-D450/D600)
(together with upper limit control)
(FP-D250/D350)
operates.
(FP-D450/D600)
operates.
(FP-D250/D350)
(FP-D450/D600)
(FP-D250/D350)
operates.
(FP-D450/D600)
operates.
5-9
Troubleshooting
Code
Item
No.
c50 Not used
c51 Sheet bypass paper feed clutch
Code
Item
No.
c60 Middle roller clutch
c61
Recycle solenoid
c62
Paper feed speed selecting clutch
c63
Paper exit solenoid
c64
+24V output control
c65
Key counter
c66
Total counter
5-10
Function
(FP-D250/D350)
operates.
(FP-D450/D600)
operates.
(FP-D250/D350)
When CN3-12 becomes 0V from +24V, solenoid
operates.
(FP-D450/D600)
operates.
(FP-D250/D350)
operates.
(FP-D450/D600)
operates.
(FP-D250/D350)
operates.
(FP-D450/D600)
operates.
(FP-D250/D350)
When signal is sent from main CPU CN1-6 to
LVPS, +24V is supplied to +24V line
(FP-D450/D600)
When signal is sent from Image Processing PCB
CN211-3 to LVPS, +24V is supplied to +24V
line
(FP-D250/D350)
When CN14-6 becomes 0V from +5V, count up
by one.
(FP-D450/D600)
When CN14-6 becomes 0V from +5V, count up
by one.
(FP-D250/D350)
When CN12-20 becomes 0V from +24V, count
up by one.
(FP-D250/D350)
When CN12-20 becomes 0V from +24V, count
up by one.
c68
c69
Fuser lamp
c70
c71
Not used
Duplex unit drive motor
(Storage)
c72
Duplex unit drive motor
(Paper feed)
c73
Exhaust fan motor 1, 2, 3
c74
Not used
Function
(FP-D250/D350)
rotates.
(FP-D450/D600)
rotates.
(FP-D250/D350)
operates.
(FP-D450/D600)
operates.
(FP-D250/D350)
When CN203-1 and 2 is AC line level, lamp lights
up.
(FP-D450/D600)
When CN202-1 and 2 is AC line level, lamp lights
up.
(Lamp lights up with temperature control.)
(FP-D250/D350)
When CN654-3 becomes 0V pulse, motor
rotates storage direction.
(FP-D450/D600)
rotates storage direction.
(FP-D250/D350)
rotates paper feed direction.
(FP-D450/D600)
rotates paper feed direction.
(FP-D250/D350)
When CN12-3 is +24V, fan motor 1 rotates.
(FP-D450/D600)
5-11
Troubleshooting
Code
Item
No.
c67 Polygon motor
Code
Item
No.
c75 Ozone / suction fan
c76
c77
c78
c79
c80
c81
c82
5-12
Function
(FP-D250/D350)
When CN6-1 is +24V, ozone / suction fan
rotates.
Dust collecting fan
When CN6-7 is +24V, dust collecting fan rotates.
Exhaust fan motor 4
When CN6-2 is +24V, exhaust fan 4 rotates.
(FP-D450/D600)
When CN6-1 is +24V, ozone / suction fan
rotates.
When CN6-7 is +24V, dust collecting fan rotates.
When CN18-15 is +24V, exhaust fan 4 rotates.
Toner bottle motor rotation in forward (FP-D250/D350)
direction (Factory use only)
rotates forward direction.
(FP-D450/D600)
rotates forward direction.
Toner bottle motor rotation in reverse (FP-D250/D350)
direction (Factory use only)
rotates reverse direction.
(FP-D450/D600)
rotates reverse direction.
Duplex unit clutch
(FP-D250/D350)
(When duplex unit is installed.)
operates.
(FP-D450/D600)
operates.
Not used
Lift up motor 1
(FP-D250/D350)
(System console upper)
(FP-D450/D600)
Paper feed clutch 1
(FP-D250/D350)
operates.
(FP-D450/D600)
operates.
Paper feed solenoid 1
(FP-D250/D350)
When CN610-4 becomes 0V from +24V,
solenoid operates.
(FP-D450/D600)
solenoid operates.
c84
c85
c86
c87
c88
c89
c90
Function
(FP-D250/D350)
(FP-D450/D600)
Paper feed clutch 2
(FP-D250/D350)
(System console middle)
operates.
(FP-D450/D600)
operates.
(FP-D250/D350)
solenoid operates.
(FP-D450/D600)
solenoid operates.
(FP-D250/D350)
Lift up motor 3
(System console lower)
(FP-D450/D600)
Paper feed clutch 3
(FP-D250/D350)
operates.
(FP-D450/D600)
operates.
(FP-D250/D350)
solenoid operates.
(FP-D450/D600)
solenoid operates.
(FP-D250/D350)
System console paper feed clutch
operates.
(FP-D450/D600)
operates.
System console paper feed drive (FP-D250/D350)
motor
rotates.
(FP-D450/D600)
rotates.
5-13
Troubleshooting
Code
Item
No.
c83 Lift up motor 2
Code
Item
No.
c91 LCC paper feed solenoid
c92
LCC paper feed tray lift (up)
c93
LCC paper feed tray lift (down)
Function
(FP-D250/D350)
solenoid operates.
(FP-D450/D600)
solenoid operates.
(FP-D250/D350)
(FP-D450/D600)
(FP-D250/D350)
When CN563-2 is +24V, motor rotates dropping
down.
(FP-D450/D600)
When CN563-2 is +24V, motor rotates dropping
down.
c94 Not used
~99
c100 Shift motor rotation
Shift motor rotates.
c101 Not used
c102 Paper exit speed selecting clutch
The clutch operates.
c103 Reverse solenoid
The solenoid operates.
c104 Inverting motor rotation in forward Inverting motor rotates forward rotation.
direction
c105 Inverting motor rotation in reverse Inverting motor rotates reverse rotation.
direction
Paper transport motor rotates.
c106 Paper transport motor rotation
c107 Not used
~108
c109 Finisher bin movement
5-14
For FA-F320
The bin moves lower direction for one second,
then moves up to the home position.
For FA-F350
The #1 bin position moves forward the top bin
position.
Function
c111 Finisher paper transport motor
For FA-F320
The bin moves lower direction, then moves up
to the home position.
For FA-F350
The top bin position moves forward #1 bin
position.
Paper transport motor rotates.
c112 Finisher paper exit motor
Paper exit motor rotates.
c113 Finisher tamper drive motor
Tamper drive motor rotates.
c114 Finisher staple motor
The stapler operates one time, then resets.
c115 Finisher staple swing motor
Staple swing motor rotates.
c116 Finisher belt motor
Belt motor rotates.
c117 Finisher gate change solenoid
The solenoid turn on/off for one second cycle.
c118 Finisher hole punch
The hole punch operates one time, then resets.
c119 Not used
c120 Exhaust fan motor 4, 5
(FP-D450/D600)
c121 LSU fan motor
(FP-D450/D600)
c122 Pre-separation LED
(FP-D450/D600)
c123 Not used
~149
c150 +24V output control (Scanner)
c151 Exposure lamp
When CN18-15 is +24V fan motor 4 rotates.
When CN18-18 is +24V fan motor 5 rotates.
When CN32-1 becomes 0V, fan motor rotates.
When CN18-12 becomes 0V, lamp lights up.
(FP-D250/D350)
(FP-D450/D600)
(FP-D250/D350)
When CN17-5 is +24V, lamp lights up.
Lamp turns off after 4 seconds.
(FP-D450/D600)
When CN17-5 is +24V, lamp lights up.
Lamp turns off after 4 seconds.
5-15
Troubleshooting
Code
Item
No.
c110 Finisher bin movement 2
Code
No.
Item
c152 Optics fan motor 1
c153 Not used
~159
c160 Paper transport belt motor forward
rotation (High speed) (FA-A888)
rotation (Middle speed) (FA-A888)
rotation (Low speed) (FA-A888)
c163 Paper transport belt motor reverse
rotation (High speed) (FA-A888)
c164 Paper feed motor forward rotation
(For FA-A355 / A888)
c165 Paper feed motor reverse rotation
(High speed) (FA-A888)
(Middle speed) (FA-A888)
(Low speed) (FA-A888)
c168 Paper reverse / exit motor forward
direction (High speed) (FA-A888)
direction (Middle speed) (FA-A888)
direction (Low speed) (FA-A888)
c171 Paper feed solenoid (For FA-A355)
Wait plate and paper feed solenoid
(FA-A888)
c172 Reverse solenoid (FA-A888)
c173 Not used
c174 Paper exit speed selecting clutch
(FA-A355)
c175 Paper registration roller clutch
(FA-A355)
5-16
Function
(FP-D250/D350)
When CN17-3 becomes 0V fan motor rotates.
(FP-D450/D600)
When CN17-3 becomes 0V fan motor rotates.
The motor rotates forward (High speed)
The motor rotates forward (Middle speed)
The motor rotates forward (Low speed)
The motor rotates reverse (High speed)
The motor rotates forward
The motor rotates reverse (High speed)
The motor rotates reverse (Middle speed)
The motor rotates reverse (Low speed)
The motor rotates forward (High speed)
The motor rotates forward (Middle speed)
The motor rotates forward (Low speed)
4. F5 mode Copier function programming
Select the desired code number with touch panel display and touch the OK key.
If you wish to select other code number, scroll the menu with arrow keys (
).
Select desired function with touch panel display and touch the OK key.
When CANCEL key is touched, the desired code input will not be accepted.
Press Clear and User Preset key to escape the service mode.
c01
Function
Item
Country version
Frequency desired
(Factory setting)
0: Japanese
1: North American
2: European/Others
1
0: 50 Hz
1: 60 Hz
0
2
1
c02c06
c07
Not used
c08
c09
Not used
Fuser lamp phase
control
Optics cooling fan
control
c10
c11
c12
Message display
language change
Copy reservation
function
Printer fan rotation
(for North
American)
(for European/
Others)
(for European/
Others)
(for North
American)
0:English/German/Japanese
1:French/Swedish/English
2:Spanish/Italian/ Dutch
English or
German
0: Zero cross control
1: Phase control
0: Normal operation
1: Control mode
(Fan operates when a predetermined
amount of copies are made.)
0: Not detecting
1: Detecting
0: 5 min
1: 2 min
2: None
(Fan operates after copy cycle is
completed.)
0
Troubleshooting
Code
No.
c00
1
1
0
5-17
Code
No.
c13
c14
c15
c16
c17
c18
c19
c20
Copy paper size
setting
(copier paper tray,
lower)
Copy paper size
setting
(System console,
upper)
Copy paper size
setting
(System console,
middle)
Copy paper size
setting
(System console,
lower)
Copy paper size
setting (LCC)
c21
ADF
(Automatic document
feeder)
Finisher
c22
System console
c23
LCC
(3000 sheet paper
tray)
Inverting shift tray
c24
c25
5-18
Function
Item
Not used
Copy paper size
setting
(copier paper tray
upper)
Digital QUANTUM
(QUARC)
0: None
1:
2: B4
3:
4: A4R
5:
6: B5R
7:
8: FLS 1
9:
10: Ledger
11:
12: Letter
13:
14: Invoice
same as F5-c14
A3
A4
B5
A5
FLS 2
Legal
Letter R
(Factory setting)
10 (for North
American)
1 (for European/
Others)
same as F5-c14
10 (for North
American)
1 (for European/
Others)
0
same as F5-c14
0
same as F5-c14
0
3: A4
12: Letter
12 (for North
American)
3 (for European/Others)
1
0: Cancellation of ADF
1: ADF installation automatically
discriminated
0: Cancellation of finisher
1: Finisher installation automatically
discriminated
0: Cancellation of system console
1: S y s t e m c o n s o l e i n s t a l l a t i o n
automatically discriminated
0: Cancellation of LCC
1: LCC installation automatically
discriminated
0: Cancellation of Inverting shift tray
1: Inverting shift tray installation
automatically discriminated
0: Not detecting
1: Detecting
1
1
1
1
1
c27
c28
c29
Total copy count
In case of mis-feed in
second side copy for
two side copy, copy
number is/not counted.
Total copy count
Checking double feed
by comparison
between in/out copies.
Paper exit from
finisher
(Top to bottom)
c30
ADF check mode
c31
ADF swing back
c32
SADF default
c33
ADF operation (F2
mode)
(Factory use only)
Multi-feed default
Finisher mode default
c34
c35
c36 - Not used
c37
c38 Duplex mode default
c39
Stapling default
c40
Double count (Total
counter, Key counter,
and Electronic
counter)
Count up timing
c41
Function
Item
Duplex unit
(Factory setting)
0: Cancellation of duplex unit
1
1: Duplex unit installation automatically
discriminated
0: Does not count up
0
1: Count up
1: Count up
0
0: Copy > Filing > Printer
1: Copy > Printer > Filing
2: Filing > Copy > Printer
3: Filing > Printer > Copy
4: Printer > Copy > Filing
5: Print > Filing > Copy
0: Off
1: On
0: No
1: Yes
0: Off
1: On
0: Off
1: On
0
0: Off
1: On
0: Non-sort
1: Sort
2: Staple sort 3: Group
0
0
0:
2:
0:
2:
0:
1:
2:
No
1: 1 to 2
2 to 2
2: Book to 2
Corner
1: Landscape
Booklet
Single
Ledger/A3
Ledger/Legal/A3/B4
0
0: At paper feed roller clutch
(and sheet bypass solenoid)
1: At paper exit sensor
1
1
0
0
0
Troubleshooting
Code
No.
c26
0
1
5-19
Code
No.
c42
c45
Key counter count up
timing
Counter count up
(Interleaving, cover
mode)
Hole punch default
c46
Hole punch type
c47
No ID card operation
(FA-KP01)
c43
c44
c48 c49
c50
c51
c52
c53
c54
c55
c56
c57
c58
c59
5-20
Function
Item
Key counter and
Departmental counter
(Factory setting)
0: Not installed
1: Key counter installed
2: Departmental counter
same as F5-c41
0
1: Count up
0
0:
1:
0:
1:
2:
0:
1:
2:
0
Off
On
2 holes
3 holes
4 holes
All functions do not operate
DD filing function does not operated
Free
0
1 (for American)
2 (for European)
1
Not used
Auto exposure default
Image rotation at multi
size original
Auto original size
detecting sensor
0: Not detecting
1: Auto mode priority
2: Manual mode priority
0: No
1: Yes
0: No detection - Priority (Manual key
LED lit)
1: Detection - Priority (Manual key LED
off)
2: Manual key status LED lit/off held in
memory when power switch OFF
0: No auto shift
Auto shift
1: Auto shift
(Duplexing)
0: 100%
1: 95%
Reduction ratio
2: 93%
3: 91%
(Margin mode)
0: 5mm
1: 10mm
Margin value initial
2: 15mm
3: 20mm
setting
0: 5mm
1: 10mm
Edge value initial
2: 15mm
3: 20mm
setting
0: 15mm
1: 20mm
Book value initial
2: 25mm
3: 30mm
setting
Copier operation (After 0: Copier stops or copy cycle is
inhibited.
"U14" waste toner
1: Continuous copier operation
bottle is full)
Copier operation (After 0: Copier stops or copy cycle is
inhibited.
"U13" Toner bottle
empty detection)
2
0
1
0
0
1
0
1
0
0
c61
c62
c63
c64
c65
c66
c67
c68
Interleave default
Page Insertion mode
default
Cover mode initial
default
c69
c70
Void at N in 1 mode
Preventive
maintenance
c71
Preventive
maintenance for
duplex
Copier operation (After
cleaning web roller
counter is reached to
0)
Cleaning web roller
counter selection
c72
c73
Function
Item
Auto paper tray
selection
Original lead edge void
setting
Not used
U13 clear=After toner
empty detection
(Copier stops or copy
cycle inhibited)
Not used
Toner recycling
system operation cycle
(Refresh cycle)
0: Manual
1: Auto
0: Off
(Factory setting)
1
1: On
0
0: When clearing U13, press any key. 0
1: Press USER MODE key and digit key
"1".
Number of copies for operating timing
of Recycle vs Refresh mode.
(FP-D250/D350)
0: 3000 (Recycle) vs 300 (Refresh)
1: 2000 vs 300
2: 2000 vs 600
3: Recycle only 4: No recycle
(FP-D450/D600)
0: 500 (Recycle) vs 200 (Refresh)
1: 200 vs 200
2: 100 vs 200
3: Recycle only 4: No recycle
0: Blank
1: Copy
0: Blank paper
1: Copied paper
0: Front blank 1: Front copy
2: Front/back blank
3: Front/back copy
0: No
1: Yes
0: No call
1: 1.5K
2: 2.5K
3: 5K
4: 10K
5: 15K
6: 20K
7: 30K
8: 40K
9: 60K
10: 80K
11: 90K
12: 120K
13: 160K
0: No indication
1: Indication
1
1: Copier stops or copy cycle is
inhibited.
1
0: 120k
1: 80k
0
0
0
0
0
12
10 (FP-D250)
Troubleshooting
Code
No.
c60
1
5-21
Code
No.
c74
c75
Not used
PC print out priority
c76
c77
Not used
PC print pages
c78
Original detection size
judgment
c79
User information list
password print
c80
Paper size selection
priority
c81
c82
B4/Foolscap size
selection
(for European version)
Manual Skyshot mode
c83
Digital Skyshot setting
c84
Paper tray selection
priority
(Left to Right)
c85
Side void setting
(FA-A355)
Preventive
maintenance
(Scanner)
Preventive
maintenance
(ADF)
DD Filing default
c86
c87
c88
5-22
Function
Item
(Factory setting)
0: Priority
1: No priority
1
0: Document
1: Page
0: Fixed size (Invoice/A5 to Ledger/A3)
detection
1: Letter/A4 or less defaults to Letter/
A4
Determines whether to print Password
on the list print or not.
0: No
1: Yes
0: None
1: A3
2: B4
3: A4
4: A4R
5: B5
6: B5R
7: A5
8: FLS 1
9: FLS 2
10: Ledger
11: Legal
12: Letter
13: Letter R
14: Invoice
0: B4
1: Foolscap 1 (13” x 8")
2: Foolscap 2 (13” x 8.5")
0: Off
1: M1 on
2: M2 on
3: M1, M2 on
0: None
1: Freeshape
2: Parallel
0: LCC > System (lower to upper) >
Copier (lower to upper) > Sheet
bypass
1: Copier (upper to lower) > System
(upper to lower) > LCC >Sheet
bypass
2: LCC > Copier (upper to lower) >
System (upper to lower) > Sheet
bypass
0: Off
1: On
0
0: No indication
0
0:
2:
4:
0:
1:
No call
80K
40K
No save
Save
1: Indication
1: 120K
3: 60K
0
0
11 (for North
American)
2 (for European/
Others)
0
0
1
0
0
1
0
Code
No.
c89
c90
Not used
Beep sound
c91*
Check size M1 Y
c92*
Check size M1 X
c93*
Check size M2 Y
c94*
Check size M2 X
c95
Control panel paper
size indication
(Factory use only)
c96
Paper size detection
(Factory use only)
0: Japanese
1: North American
2: European/Others
c97
Original size detection
sensor type
(Factory use only)
Bypass paper size
selection
(Factory use only)
0: 4 pcs (A5R no detection)
1: 6 pcs (A5R detection)
c98
C99
Function
Item
0: None
1: Yes
Width of paper parallel position to paper
feed direction
Length of paper vertical position to
paper feed direction
Width of paper parallel position to paper
feed direction
Length of paper vertical position to
0: Japanese
1: North American
2: European/Others
0:
1:
2:
3:
B4
Foolscap (13” x 8")
Foolscap (13” x 8.5")
Legal
(Factory setting)
1
160
70
220
95
1 (for North
American)
2 (for European/
Others)
1 (for North
American)
2 (for European/
Others)
0
3 (for North
American)
0 (for European/
Others)
Not used
Troubleshooting
To Clear the Service Call indicator
Re-input the F5-70.
Scroll the display menu until code number "70" is indicated with arrow keys (
then touch "70" key.
)
Touch desired PM cycle key and OK key.
Press the Clear key and User Preset key to escape service mode.
Note : Follow the same procedure for code F5-71, 73 and 87
5-23
5. F6 mode Adjustment and programming
Select the desired code number with touch panel display and touch the OK key.
If you wish to select other code number, scroll the menu with arrow keys (
)
The display will indicate current setting.
Touch the Input key on the touch panel display and input the new setting number
with Multi Copy key.
Increase : Multi Copy key.
Decrease : Reset and Multi Copy key.
When the OK key is touched on the touch panel display, the setting is changed
and is now stored in memory.
Press the Clear and User Preset key to escape service mode.
Code
No.
c00
c01
c02
c03
c04
5-24
Item
Main-scan direction
magnification ratio
(vertical position to the
paper feed direction)
(standard = 100%)
Sub-scan direction
magnification ratio
(parallel position to the
paper feed direction)
100% selection
(Ratio of vertical and
parallel position of the
Not used
Original registration
detecting timing
Function
Remarks
Adjustment of ratio for
vertical position when
scan is made
0.10%
(–9 to +9)
(+): Enlargement
(–): Reduction
Adjustment of ratio for
parallel position when
scan is made
0.10%
(–9 to +9)
(+): Enlargement
(–): Reduction
0.10%
(–9 to +9)
(+): Enlargement
(–): Reduction
Adjustment
from 99.1%
to 100.9%
Adjustment of original
registration detection
timing .
0.2mm
(–30 to +30)
(+): Delayed
(–): Advanced
Item
Function
Copy paper registration After c04 is adjusted,
delay time is adjusted
detecting timing
from timing roller clutch
ON.
c06
c07
Not used
Registration void of
image
c08
Trail edge detection
timing of the original
image
c09
Trail edge detection
timing of the copy
image
Adjustment of trail edge
void
c10
Service count constant
value ‘a’ (Copier)
c11
value ‘b’ (DD file print)
c12
value ‘c’ (Printer)
c13
value ‘d’ (DD file save/
retrieve)
value ‘e’ (ADF)
Adjustment of constant
value used in the service
counter in the F7-c20
c14
c15
value ‘f’ (Scanner)
c16
c17
Not used
Grid standard voltage
(standard = –750V)
(Factory use only)
Laser power
compensation
(Factory use only)
Bias standard voltage
(standard = –550V)
(Factory use only)
Not used
c18
c19
c20
After c05 is adjusted,
registration void should
be adjusted.
Remarks
0.2625mm
(–30 to +20)
(+): Delayed
(–): Advanced
0.425mm
(0 to +99)
0.5mm
(–9 to 0)
(+) Delayed
(–) Advanced
0.425mm
(–9 to +15)
(+) Decrease
(–) Increase
Troubleshooting
Code
No.
c05
Adjustment of grid
standard voltage.
2.28V
(–99 to +99)
Laser power
compensation
adjustment
Adjustment of bias
standard voltage
(–99 to +99)
2.28 V
(–99 to +99)
5-25
Code
No.
c21
c22c25
c26
c27
c28
c29
c30
c31
c32
c33
c34
c35
c36
c37
c38
5-26
Item
Function
Remarks
Toner density sensor
gain voltage
(standard = 6.51V)
Not used
Adjustment of toner
density sensor gain
voltage
0.033V
(–69 to +40)
judgment voltage level
(standard = 2.5V)
Toner recycle switch
judgment level
Adjustment of toner
supply starting
judgment voltage level.
Adjustment of toner
density sensor judgment
level
(Recycle or refresh)
Adjustment of standard
white density level
Adjustment of standard
black density level
19.5mV
(–26 to +26)
Laser power
compensation adjustment
in 2 value mode
Adjustment of fuser
temperature.
(–61 to +61)
White density
adjustment
Black density
adjustment
Laser power
compensation in 2
value mode
Fuser temperature
Not used
TDC sensor output
voltage
(Maximum value)
(Read only)
TDC sensor output
monitor
(Minimum value)
(Read only)
TDC sensor output monitor
(Average value)
(Read only) (Only when
F8-c20 is performed.)
(FP-D450/D600 only)
Registration of original
for the ADF (FA-A888)
(1-sided original feeding)
Registration of original
for the ADF (FA-A888)
(2-sided original feeding)
Image density (black
level) judgment
standard voltage
(Factory use only)
19.5mV
(–10 to +10)
–99 to +99
–99 to +99
0.7 C
(–15 to +15)
(+): Raise
(–): Lower
(Set by Digital
QUANTUM (QUARC)
control)
(Set by Digital
QUANTUM (QUARC)
control)
(Set by Digital
QUANTUM (QUARC)
control)
Calculation
5.1 + (value of
F6-c35) x 0.04)
Adjustment of
registration timing
0.4mm
(–32 to +32)
Adjustment of
registration timing
0.4mm
(–32 to +32)
Adjustment of judgment
standard voltage.
19.5mV
(–35 to +35)
c40
*c41
Item
Adjustment of PWM
value of LSU
Transfer corona current Adjustment of transfer
corona current
Paper loop
Adjustment for the length
(Sheet bypass)
of the loop formed before
the copier timing roller.
*c42
Paper loop
(Copier paper tray
upper)
*c43
Paper loop
(Copier paper tray
lower)
Paper loop
(System console)
*c44
*c45
c46
c47
c48
c49
c50
c51
c52
Function
LSU unit PWM
Paper loop
LCC
Paper feeding
(Copier paper tray,
upper)
Paper feeding
(Copier paper tray,
lower)
Paper feeding
(System console)
Text mode image
density
same as F6-c41
*When Duplex unit is
installed, second copy
feeding.
same as F6-c41
the registration roller of
system console.
same as F6-c41
Adjustment of
registration timing at
the middle roller
same as F6-c46
same as F6-c46
Image density
adjustment for Text
mode
(–) : Darker,
(+) : Lighter
Text / Photo mode image Image density
density
adjustment for Text /
Photo mode
(–) : Darker,
(+) : Lighter
Photo mode
Image density
image density
adjustment for Photo
mode
(–) : Darker,
(+) : Lighter”
Not used
Remarks
(–32 to +32)
(–32 to +32)
0.8mm
(–40 to +40)
(+) Increase
(–) Decrease
0.68mm
(–50 to +50)
0.68mm
(–50 to +50)
0.68mm
(–50 to +50)
0.68mm
(–50 to +50)
5.43mm
(–50 to +50)
5.43mm
(–50 to +50)
5.43mm
(–50 to +50)
(–99 to +99)
Troubleshooting
Code
No.
c39
(–99 to +99)
(–99 to +99)
*FP-D250/D350/D450, D600 (Copy function) only.
5-27
Code
No.
c53
c54
c55
c56
c57
Item
CCD detection timing
Registration void of
image
(During use with ADF
FA-A888 = No swing
back condition)
Auto image density in
the Text mode
Auto image density in
the Text/Photo mode
Registration width
guide standard position
(Duplex)
Function
0.2mm
(–42 to +20)
0.5mm
(0 to +99)
Adjustment of Auto
image density
Adjustment of Auto
image density
Adjustment of
registration width guide
position
(–99 to +99)
c58
Registration length
guide standard position
(Duplex)
Adjustment of
registration length
guide position
*c59
Paper loop
(Sheet bypass)
the copier timing roller.
*c60
Paper loop
(Copier paper tray
upper) (ADU)
*c61
Paper loop
(Copier paper tray
lower)
gain voltage (fine
adjustment)
same as F6-c59
*When Duplex unit is
installed, second copy
feeding.
same as F6-c59
c62
*c63
Paper loop
(System console)
*c64
Paper loop
LCC
Black density sensor
reference voltage
compensation
Black density sensor
output gain
compensation
c65
c66
Remarks
Adjustment of CCD
read position
Adjustment of
registration void.
Adjustment of toner
density sensor gain
voltage.
the registration roller of
system console.
same as F6-c59
Reference voltage for
black density sensor
Compensate value for
black density sensor
output
(–99 to +99)
0.39mm
(–50 to +50)
(+) Wider
(–) Narrower
0.30mm
(–10 to +10)
(+) Wider
(–) Narrower
0.8mm
(–40 to +40)
(+) Increase
(–) Decrease
0.68mm
(–50 to +50)
0.68mm
(–50 to +50)
0.033V
(–5 to +10)
(+) Increase
(–) Decrease
0.68mm
(–50 to +50)
0.68mm
(–50 to +50)
(–99 to +99)
(–99 to +99)
*FP-D600 (Printer function) only.
5-28
Item
Function
Remarks
Not used
LCD contrast
adjustment
Reference voltage
adjustment for LCD
contrast
60mV
(–45 to +18)
(+) Darker
(–) Lighter
0.5mm
(–128 to +127)
(+) Left
(–) Right
0.5mm
(–128 to +127)
(+) Left
(–) Right
(–128 to +127)
(+) Left
(–) Right
(–99 to +99)
c71
Coordinates
Coordinates
compensation for touch compensation value
(X1 point)
panel (X1)
c72
Coordinates
Coordinates
compensation for touch compensation value
(Y1 point)
panel (Y1)
c73
Coordinates
compensation for touch
panel (X2)
Coordinates
compensation
for touch panel (Y2)
CCD pixel gain
(even number, read
only)
Coordinates
compensation value
(X2 point)
Coordinates
compensation value
(Y2 point)
Adjustment level of
CCD pixel gain
CCD pixel gain
(odd number, read
only)
CCD pixel offset
(even number, read
only)
same as F6-c75
(0 to +255)
Adjustment level of
CCD pixel offset
(0 to +255)
CCD pixel offset
(odd number, read
only)
Automatic
compensation value of
laser power (Read only)
(Factory use only)
same as F6-c77
(0 to +255)
(Set by Digital
QUANTUM (QUARC)
control)
0.18V
(–81 to +92)
Automatic
(Set by Digital
compensation value of QUANTUM (QUARC)
grid voltage (Read only) control)
Not used
2.28V
(–99 to +87)
c74
c75
c76
c77
c78
c80
c81
c82
c83
(0 to +255)
Troubleshooting
Code
No.
c67c69
c70
5-29
Code
No.
c84
Item
Function
Laser Unit image side
to side
Laser write start
position adjustment
(side to side adjustment)
c85
Server connection port
number (1)
c86
number (2)
c87
Server time out setting
number =256 x Server
connction port
number(2) (F6-c86) +
number(1) (F6-c85)
(Example)
port number 18021
F6-85=101
F6-86=70
256 x 70 + 101=18021
Adjustment of server
time out setting
c88 c89
c90
Not used
c91
ADF (FA-A355)
original lead edge
registration
ADF (FA-A355)
original pick up
registration (Top feed)
ADF (FA-A355)
original trail edge
ADF (FA-A355)
magnification ratio
(Top feed)
c92
c93
c94
c95
c96
c97
5-30
ADF(FA-A355)
detection timing
Laser power when
Digital QUANTUM
(QUARC) is switched
off (Factory use only)
Grid voltage when
Digital QUANTUM
(QUARC) is switched
Bias voltage when
Digital QUANTUM
(QUARC) is switched
Remarks
0.5 mm
(–4 to +4)
For FP-D450/D600
(–8 to +8)
(0 to +255)
(0 to +255)
1 Sec.
(0 to 300)
Adjustment of ADF
image read start
position
detection timing
0.1mm
(–20 to +20)
Adjustment for length of
the loop formed before
registration roller
trail edge detection
Adjustment of ratio
when the scan is made
0.4mm
(–99 to +99)
Adjustment of laser
power at initial setting
0.2mm
(–99 to +99)
0.2 mm
(–127 to +127)
0.1%
(–9 to +9)
(+): Enlargement
(–): Reduction
(–99 to +99)
Adjustment of grid
voltage at initial setting
2.28V
(–99 to +87)
Adjustment of bias
voltage at initial setting
2.28V
(–99 to +99)
Item
Not used
F5/F6 Initialization
(Factory use only)
Function
Remarks
Reset to factory default
(F6 values will be set to
"0".)
Troubleshooting
Code
No.
c98
c99
5-31
6. F7 mode electronic counter
1. Read procedure (Example : Code No.2 Total count)
Electronic counter access F7
Electronic counter access C00
00
01
02
03
04
All list print out
Key operator ID code
Total count
PM count
Developer count
1
000
6
Select the desired code by scrolling the menu screen.
Indicates memorized count in the display.
02 Total count
Change
Cancel
OK
Press the cancel key.
Press the clear key.
Press Clear and User Preset to escape service mode.
5-32
2. Reset/write procedure (Example : Code No.2 Total count)
Electronic counter access F7
00 All list print out
01 Key operator ID code
000
02 Total count
03 PM count
04 Developer count
1
6
Select the desired code by scrolling the menu screen.
Indicates memorized count in the display.
02 Total count
Change
OK
Troubleshooting
Cancel
Press the change key.
Input the desired number using Multi-Copy key.
(To reset the counter, input "0".)
Press OK key.
Press the clear key.
Press Clear and User Preset to escape service mode.
5-33
Code
No.
c00
All list print out
c01
A code No. for Key Operator
c02
Total count
c03
Preventive maintenance
total count
c04
Developer count
c05
Fuser cleaning web count
c06
ADF original feed total count
c07c08
c09
c10
Not used
c11
Copier lower paper drawer count
c12
c17
System console upper paper
drawer count
System console middle paper
drawer count
System console lower paper
drawer count
LCC count
(3000 sheet paper drawer)
Copier upper paper drawer count Total count of paper fed from the upper drawer
(When duplex unit is not installed.) of the copier.
NOTE: When the duplex unit is installed to the
upper stage of the copier, this code does
not count up.
PM count of scans used as the copier.
Scanner PM count
c18
Scanner read count
Total count of scanner read.
c19
Scan operation count
Total count of scan operation.
c13
c14
c15
c16
5-34
Item
Duplex unit total count
Sheet bypass count
Function
Prints each counter and their readings in one
sheet.
Procedure : (1) Select the F7-00 code.
(2) Select ‘Yes’ to print out the list.
(3) Press the start key.
Identification code number for access to counter
mode in the User choice.
Total count of all copies / prints.
PM count of all copies
NOTE: When the service call indicator turns ON,
the PM count is cleared.
Total elapsed copies since the last developer
change. (F8-09)
Possible number of copies until replacement of
web roller.
Total count of originals fed.
Total count of paper fed from the duplex unit.
Total count of paper fed from the sheet
bypass.
Total count of paper fed from the lower drawer
of the copier.
Total count of paper fed from the upper stage of
the optional system console.
Total count of paper fed from the middle stage
of the optional system console.
Total count of paper fed from the lower stage of
the optional system console.
Total count of paper fed from the optional LCC.
Code
No.
c20
Service count
c21
Copy print count
Accumulated total count expressed the following
formula.
Service count =
Copy print count (code 21) X a +
DD file print count (code 27) X b +
Printer print count (code 23) X c +
DD file save/retrieve count (code 22+code
25) X d +
ADF original feed count (code 06) X e +
Scan count (code 18) X f
a, b, c, d, e, f = constant value selected in
the F6 mode.
(F6-c10 - c15)
Total count of copies made as a copier.
c22
Copy scan count
Total count of scans used as a copier.
c23
Printer print count
Total count of prints made as a printer.
c24
ADF PM count
c25
DD file retrieve count
PM count of ADF originals fed.
NOTE: When the service call indicator turns
ON, the PM count is cleared.
Total count of DD file retrieve operation.
c26
DD file save count
Total count of DD file save operation.
c27
DD file print count
Total count of prints made as DD file print.
c28
DD file scan count
Total count of scan operation used as DD file
scan.
c29 c98
c99
Not used
Clear all counters
Function
All counters are cleared when the Start key is
pressed.
5-35
Troubleshooting
Item
Departmental counter mode
1. Setting up the user access codes
1) Activate the departmental mode by F5-42.
2) Input a 3 digit key operator access code in the
F7-01.
3) Exit the service mode.
4) Press the User Preset key and select General
function.
5) Proceed to next page and select code "09".
6) Input a 3 digit key operator access code.
7) Select code "14" and press Departmental counter mode.
8) Select "Password".
9) Allocate a separate access code for each authorized
operator, then press the Start key after each entry.
2. Clear the meter reading of departmental counter
1)
2)
3)
4)
Perform the above procedures 4) through 7).
Select the required departmental counter.
Input "0" to clear the counter.
Press the Start key after each entry.
3. Setting up the limit copy number for each departmental counter
1) Perform the above procedures 4) through 7).
2) Select the required departmental counter.
3) Input the maximum total number of copies that each
operator is allowed to make.
4) Press the Start key after each entry.
5-36
7. F8 mode copier operation adjustment
Press the Start key to initiate the adjustment procedure.
Press Clear and User Preset key to escape service mode.
c01c05
c06
c07
c08
c09
c10
c11c12
Item
Exposure lamp replacement
Function
When replacing the exposure lamp.
Procedure:
a) Press the Start key to move the exposure lamp
to the position (approx. 450mm from the optics
home position) where it can be replaced.
b) To return the optical system to the home
position, press the Stop key.”
Not used
Machine error and paper jam read a) Each time the Recall key is pressed, 30
machine error or paper jam codes stored in
memory are displayed, beginning with the
oldest code.
NOTE: Only the 30 most recent codes are
displayed.
a) Press the Reset key.
Machine error and paper jam
A Message "Error code can be cleared with
code read (06) clear
the Start key" is displayed on the LCD.”
b) Press the Start key.
Lock operation of mirror and lens Press the Start key to move the mirror unit to the
locked position for transportation of the copier.
(Factory use only)
NOTE: The lock operation is automatically
reset when the Power switch is turned
ON again.
Machine error and Jam codes will be
cleared by this operation.
a) Press the Start key to automatically set the
Automatic gain adjustment of
gain voltage and judgment level of the toner
toner density sensor
density sensor. (approximate time 2 minutes)
b) Following completion of the automatic
adjustment, check F6-21 and 26 and record
their values on the memory sheet.
This function automatically confirms the drum
Drum charge voltage checking
surface voltage.
(Factory use only)
Not used
5-37
Troubleshooting
Code
No.
c00
Code
No.
c13
c14
Item
Black density sensor reference
level adjustment
(Factory use only)
Black density sensor output gain
adjustment
Function
(Need special adjustment jigs)
This adjustment should be performed when
installing the copier, cleaning / replacing the
black density sensor or replacing the drum.
Procedure:
a) Press the Start key.
b) Adjustment value is automatically stored in F665
c15
c16
Not used
LCD touch panel key input
position adjustment
c17
c18
c21
Not used
Laser unit PWM circuit adjustment This function automatically prints the gray
steps which corresponds to F6-39 adjustment
values, when the Start key is pressed.
Lock operation of mirror and lens a) Press the Start key then the mirror unit moves
(Field use only)
to locked position for transporting the copier.
b) When the mirror unit is locked, any digit key
input won’t be accepted.
NOTE: The lock operation is automatically
reset when the Power switch is turned
ON again.
Toner density sensor output
a) Press the Start key then the main motor starts
adjustment
rotating and control voltage of the toner density
sensor is automatically set.
NOTE: Write the value to the memory sheet.
Main memory capacity read
Displays the main memory capacity.
c50
Test pattern print
c19
c20
5-38
This adjustment is to compensate the LCD touch
panel detecting position to corresponding key
input.
a) Press the Start key then test print is made.
8. F9 mode System Administration
Press Clear and User Preset key to escape service mode.
Telephone number input
c01
ROM version
c02
Print out (F5/F6)
c03
Machine ID
Item
Function
Displays the contact number when the
machine malfunction occurs.
(Procedure)
Input the contact number using following keys.
(Max. 12 digit)
Number: Multi-Copy key
Hyphen (–): Reset key
Back space : Clear key
Displays the software version which is selected.
Print out the memory contents of the F5 and
F6 modes.
Input machine ID number for DD file.
Troubleshooting
Code
No.
c00
5-39
5.2 Self-diagnostics / Machine Malfunctions
The self-diagnostic functions detect troubles in the important components of the
copier.
When any trouble occurs, the copier is stopped.
1. User error
NOTE: UXX will appear in the message display.
Code
Uo
U1
U4
U5
U6
U7
U10
U11
U12
U13
U14
U16
U18
oF
5-40
Item
Key counter not installed (option) or Access code
number was not input
Front cover open
Finisher/Inverting unit/Inverting shift tray (option)open
Duplex unit (option) open
Copier paper feed cover open
System console (option) paper feed cover open
ADF (option) open
Finisher copy paper removal
Staple cover / Top door open (option)
Toner level is below minimum level
Waste toner bottle is full
Developer unit is not installed
Departmental counter has reached its upper limit
Finisher overflow
See page
5-41
5-41
5-41
5-42
5-42
5-42
5-43
5-43
5-43
5-44
5-44
5-44
5-44
5-44
1) User error
Item
Uo
Key counter not installed (option) or
Access code number was not input
U1
Front door open
Check points
1)
2)
3)
4)
5)
6)
7)
8)
1)
2)
3)
4)
5)
6)
U4
Finisher Inverting unit/Inverting shift
tray (option)
7)
1)
2)
3)
4)
5)
6)
7)
8)
9)
Key counter is not installed correctly.
Access code number is not input.
Key counter connector is shorted or broken.
Key counter is defective.
LVPS connector is shorted or broken.
LVPS is defective.
(FP-D250/D350)
CPU PCB connector (CN14) is shorted or
broken.
(FP-D450/D600)
broken.
CPU PCB is defective.
Is the front door closed correctly ?
Front door open/close sensor connector is
shorted or broken.
Front door open close sensor is defective.
LVPS is defective.
(FP-D250/D350)
broken.
(FP-D450/D600)
broken.
Are the exit options installed correctly ?
Exit options connector is shorted or broken.
Exit options connector is defective.
Finisher CPU PCB connector is shorted or
broken.
Finisher CPU PCB is defective.
LVPS is defective.
(FP-D250/D350)
broken.
(FP-D450/D600)
broken.
5-41
Troubleshooting
Code
Code
U5
Item
Duplex unit (option) open
Check points
1)
2)
3)
4)
5)
6)
7)
8)
U6
Copier paper feed door open
9)
1)
2)
3)
4)
5)
6)
U7
System console (option) paper feed
door open
7)
1)
2)
3)
4)
5)
6)
7)
8)
9)
10)
11)
5-42
Is the duplex unit installed correctly ?
Duplex unit connector is shorted or broken.
Duplex unit connector is defective.
Duplex unit driver PCB connector is shorted
or broken.
Duplex unit driver PCB is defective.
LVPS is defective.
(FP-D250/D350)
broken.
(FP-D450/D600)
broken.
Is the paper feed door closed correctly ?
Paper feed door open/close sensor
connector is shorted or broken.
Paper feed door open close sensor is
defective.
LVPS is defective.
(FP-D250/D350)
broken.
(FP-D450/D600)
broken.
Is the paper feed door of the system console
closed correctly ?
Is the system console installed correctly ?
System console connector is shorted or broken.
System console door open/close sensor
System console door open close sensor is
defective.
System console driver PCB connector is
shorted or broken.
System console driver PCB is defective.
LVPS is defective.
(FP-D250/D350)
broken.
(FP-D450/D600)
broken.
U10
Item
ADF (option) open
Check points
1)
2)
3)
4)
5)
6)
7)
8)
9)
10)
11)
12)
13)
U11
Finisher copy paper removal
NOTE: When clearing U11, all
paper must be removed
from bins.
1)
2)
3)
4)
5)
6)
7)
8)
9)
10)
U12
Staple door/Top door open
11)
1)
2)
3)
4)
5)
6)
7)
8)
9)
Is ADF or ADF door closed correctly ?
Is ADF installed correctly ?
ADF connector is shorted or broken.
ADF door open/close sensor connector is
shorted or broken.
ADF door open close sensor is defective.
ADF CPU PCB connector is shorted or broken.
ADF CPU PCB is defective.
LVPS is defective.
CPU PCB connector (CN19/25) is shorted
or broken. (FP-D250/D350)
Image processing PCB connector (CN19)
is shorted or broken. (FP-D450/D600)
Image processing PCB is defective.
(FP-D450/D600)
Copy paper is already in at least one bin.
Copy paper which is unsuitable size for
stapler use is in the bin.
There is a double feed from the duplex unit
in the bin.
Finisher paper detecting sensor connector
is shorted or broken.
Finisher paper detecting sensor is defective.
Finisher CPU PCB connector is shorted or
broken.
LVPS is defective.
(FP-D250/D350)
CPU PCB connector (CN15) is shorted or broken.
(FP-D450/D600)
Is the stapler door or top door closed correctly ?
Stapler door or top door open/close sensor
Stapler door or top door open close sensor
is defective.
Finisher CPU PCB connector is shorted or broken.
LVPS is defective.
(FP-D250/D350)
(FP-D450/D600)
5-43
Troubleshooting
Code
Code
Item
U13
Toner level is below minimum level.
U14
Waste toner bottle is full.
U16
U18
oF
5-44
Developer unit is not installed
Departmental counter upper limit
Finisher over flow
Check points
1)
2)
3)
4)
Is the toner bottle installed correctly ?
Is toner left in the bottle ?
Is the shutter of the hopper unit opened ?
Toner empty sensor connector is shorted
or broken.
5) Toner empty sensor is defective.
6) LVPS connector is shorted or broken.
7) LVPS is defective.
8) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
9) CPU PCB is defective.
1) Is the waste toner bottle installed correctly?
2) Is the waste toner bottle full of toner ?
3) Waste toner bottle sensor connector is
shorted or broken.
4) Waste toner bottle sensor is defective.
7) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
1) Is the developer unit connector connected
correctly ?
2) Developer unit connector is shorted or
broken.
5) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
Departmental counter has reached its upper
limit.
The counter must be reset.
Too many copies in the finisher bin.
The paper must be removed and press the
finisher mode key.
2. Paper Jam
G
H
D
C
A
E
B
Code
A
B
C
D
E
F
G
H
Troubleshooting
F
Jam Position
Paper Feed unit
System Console
Paper Transport unit
Fuser unit / Exit unit
Duplex unit
Finisher
ADF
Inverting unit/Inverting shift tray
5-45
Code
J00
J01
J02
J03
J04
J05
J06
J07
J08
J09
J10
J11
5-46
Jam
position
A
The registration roller paper pass sensor does not detect paper within a
predetermined time after sheet bypass paper feed roller starts rotating.
A
The copier upper paper feed unit paper pass sensor 1 does not detect
paper within a predetermined time.
When the duplex unit is not installed:
After copier upper stage paper feed roller starts rotating.
A,E
When the duplex unit is installed:
After duplex unit paper feed roller starts rotating.
A
The copier lower paper feed unit paper pass sensor 2 does not detect paper
within a predetermined time after copier lower stage paper feed roller starts
rotating.
B
Optional system console upper paper feed unit paper pass sensor 1 does
not detect paper within a predetermined time after upper stage paper feed
roller starts rotating.
B
Optional system console middle paper feed unit paper pass sensor 2 does
not detect paper within a predetermined time after middle stage paper feed
B
Optional system console lower paper feed unit paper pass sensor 3 does
not detect paper within a predetermined time after lower stage paper feed
A
When optional LCC is installed.
The copier lower stage paper pass sensor 2 does not detect paper within a
predetermined time after LCC pick-up roller starts rotating.
A
Paper feeding from the copier lower paper tray or optional LCC or system
console:
The copier upper stage paper pass sensor 1 does not detect paper within a
predetermined time after copier lower stage paper pass sensor detected
paper.
A,B
Paper feeding from the optional system console upper stage:
The copier lower stage paper pass sensor 2 does not detect paper within a
predetermined time after optional system console upper stage paper pass
sensor 1 detected paper.
B
a) Paper feeding from the optional system console middle stage:
The copier lower stage paper pass sensor 2 does not detect paper within
a predetermined time after optional system console middle stage paper
pass sensor 2 detected paper.
b) Paper feeding from the optional system console lower stage:
The copier lower stage paper pass sensor 2 does not detect paper within
a predetermined time after optional system console lower stage paper
pass sensor 3 detected paper.
Not used
The copier upper stage paper pass sensor 1 is detecting paper within a
A
predetermined time.
a) Paper feeding from copier upper stage:
b) Paper feeding from duplex unit:
A,E
Contents
Contents
J12
Paper feeding from copier lower stage:
The copier lower stage paper pass sensor 2 is detecting paper within
a predetermined time after first detecting paper.
Paper feeding from optional system console upper stage:
Upper stage paper pass sensor 1 is detecting paper within a predetermined
time after first detecting paper.
Paper feeding from optional system console middle stage:
Middle stage paper pass sensor 2 is detecting paper within a predetermined
Paper feeding from optional system console lower stage:
Lower stage paper pass sensor 3 is detecting paper within a predetermined
Paper feeding from optional LCC:
The copier lower stage paper pass sensor 2 is detecting paper within a
predetermined time after first detecting paper.
When fixed quantity paper has passed on the registration roller paper pass
sensor.
a) The copier paper pass sensor 1 or 2 is detecting paper.
b) Optional paper pass sensor 1 or 2 or 3 is detecting paper.
Paper feeding except from sheet bypass:
The registration roller paper pass sensor does not detect paper within a
predetermined time after copier upper stage paper pass sensor 1 detected
paper.
J13
J14
J15
J16
J17
J18
J19-20 Not used
J21 Copier upper stage paper pass sensor 1 is detecting paper.
Jam
position
A
B
B
B
A
A
B
A
A
J22
Copier lower stage paper pass sensor 2 is detecting paper.
A
J23
Optional system console upper paper pass sensor 1 is detecting paper.
B
J24
Optional system console middle paper pass sensor 2 is detecting paper.
B
J25
Optional system console lower paper pass sensor 3 is detecting paper.
B
J26-29 Not used
J30 Paper feeding from sheet bypass:
The registration roller paper pass sensor is detecting paper within a
predetermined time after sensor detected paper.
J31 Paper feeding except from sheet bypass:
The registration roller paper pass sensor is detecting paper within a
predetermined time after registration roller starts rotating.
J32 Not used
J33 The registration roller paper pass sensor is detecting paper.
C
C
C
J34-39 Not used
5-47
Troubleshooting
Code
Code
J40
J41
J42
Jam
position
The paper exit sensor does not detect paper within a predetermined time C, D
after registration roller starts rotating.
The paper exit sensor is detecting paper within a predetermined time after
D
sensor detected paper.
D
The paper exit sensor is detecting paper.
Contents
J43-49 Not used
J50 Transport operation for duplexing
The duplex unit paper pass sensor 1 does not detect paper within
predetermined time after copier paper exit sensor detected paper.
The duplex unit paper pass sensor 1 is detecting paper within
The duplex unit paper pass sensor 2 does not detect paper within
predetermined time after paper pass sensor 1 detected paper.
The duplex unit paper pass sensor 2 is detecting paper within
J54 The duplex unit paper pass sensor 1 is detecting paper.
J55
J56
D
a
D, E
a
D, E
a
D, E
a
The duplex unit paper pass sensor 2 is detecting paper.
The duplex unit paper detecting sensor does not detect paper after
copies are fed into the duplex unit tray.
J57-59 Not used
J60 When the finisher is installed.
a) The finisher entry paper pass sensor does not detect paper within a
predetermined time after the copier paper exit sensor detected paper.
b) The finisher entry paper pass sensor does not turn off within a
predetermined time.
c) The finisher paper exit sensor does not detected paper within a
predetermined time after the finisher entry paper pass sensor detected
paper.
d) The finisher entry or exit paper pass sensor is detecting paper.
e) The finisher entry paper exit sensor does not turn off within a
predetermined time.
J70 When ADF is installed.
a) The ADF entry paper pass sensor does not detect paper within a
predetermined time after ADF paper feed roller starts rotating.
b) The ADF entry paper pass sensor is detecting paper within a
c) The ADF entry paper pass sensor is detecting paper before using ADF.
5-48
D, E
E
E
D, F
F
F
F
F
G
G
G
J87
Jam
position
a) The ADF exit paper pass sensor does not detect paper within a
G
predetermined time after ADF starts paper exit.
b) The ADF exit paper pass sensor is detecting paper within a predetermined
G
time after sensor detected paper.
c) The ADF exit paper pass sensor is detecting paper before using ADF.
G
(FA-A888)
a) The ADF exit paper pass sensor does not detect paper within a
G
predetermined time after ADF starts reverse operation.
b) The ADF exit paper pass sensor is detecting paper within a predetermined
G
The inverting unit paper pass sensor does not detect paper within a
H
The inverting unit paper pass sensor is detecting paper within a
H
The inverting unit paper reverse sensor is detecting paper within a
H
predetermined time after paper pass sensor detected paper.
The inverting unit paper reverse sensor is detecting paper within a
H
When paper is fed out with face up :
H
When paper is fed out with face down :
H
predetermined time after reverse motor in the reverse unit starts reverse
operation.
The reverse unit paper exit sensor is detecting paper within a predetermined
H
The inverting unit paper pass sensor is detecting paper.
H
J88
The inverting unit paper reverse sensor is detecting paper.
H
J89
The inverting unit paper exit sensor is detecting paper.
H
J71
J72
J80
J81
J82
J83
J84
J85
J86
Contents
5-49
Troubleshooting
Code
3. Machine error
The machine system will detect problems in the important areas of the copier.
When any problem occurs, the copier stops.
Error codes indicate the mode number and the code number which are alternately
displayed in the "Digit" display area of the touch panel.
When there is trouble in any part of the copier, the "MACHINE ERROR TURN
POWER SW OFF/ON" appears in the "Message" display.
E1: Optical unit error
Code
E1-01
E1-20
E1-22
E1-30
E1-31
E1-32
E1-40
E1-45
Function
Optical unit scan drive
Laser unit horizontal synchronization
Polygon motor synchronization
CCD output
Exposure lamp (not turned on)
Exposure lamp (not turned off)
Optics fan motor (1) rotation
LSU fan motor rotation (FP-D450/D600)
See page
5-53
5-53
5-53
5-54
5-54
5-54
5-54
5-55
E2: Paper feed unit error
Code
E2-01
E2-02
E2-03
E2-04
E2-05
E2-06
E2-07
E2-10
5-50
Function
Lift motor rotation (Copier upper)
Lift motor rotation (Copier lower)
Lift motor rotation (System upper)
Lift motor rotation (System middle)
Lift motor rotation (System lower)
LCC lift operation (UP)
LCC lift operation (DOWN)
System console motor rotation
See page
5-55
5-55
5-55
5-55
5-55
5-55
5-55
5-56
E3: Developer unit and hopper unit error
Function
Toner bottle motor rotation
Toner density sensor gain
High voltage power supply leak (1)
Main motor rotation
Dust collection fan motor rotation
Developer fan motor rotation
Suction fan motor rotation
Discharge lamp
Copy density sensor output adjustment
See page
5-56
5-56
5-57
5-57
5-57
5-57
5-57
5-57
5-58
5-58
5-58
E4: Fuser unit error
Code
Function
E4-01 Fuser warm-up
E4-10 Exhaust fan motor (1) rotation
E4-14 Exhaust fan motor (5) rotation (FP-D450/D600)
See page
5-59
5-59
5-59
5-59
5-59
5-59
E5: System error
Code
Function
E5-01 Vp (+24V)
E5-04 Vp (+12V)
E5-05 Vp (+24V, scanner)
E5-06 Va (+12V, scanner)
E5-11 Printer engine communication
E5-12 Scanner engine communication
E5-13 NAC board communication
E5-15 Printer controller board communication
E5-17 Scanner synchronization
E5-21 ADF communication
E5-22 Finisher communication
E5-23 Control panel communication
E5-32 Scanner EEPROM access
E5-33 HDD access
E5-34 Zip drive access
E5-41 Registration timing control circuit abnormal
E5-42 Total counter connection
See page
5-59
5-60
5-60
5-60
5-60
5-60
5-61
5-61
5-61
5-61
5-61
5-62
5-62
5-62
5-62
5-63
5-63
Troubleshooting
Code
E3-01
E3-03
E3-10
E3-11
E3-12
E3-20
E3-21
E3-22
E3-23
E3-30
E3-40
5-51
Code
E5-43
E5-44
E5-50
E5-60
E5-61
E5-89
Function
Printer controller hard disk access
Printer controller DIMM
I/O communication error
Power supply cooling fan motor rotation
Printer controller fan motor rotation
Printer controller LSI access
See page
5-63
5-63
5-64
5-64
5-64
5-65
E6: Duplex unit error
Code
E6-03
E6-04
E6-05
Function
Paper length home position detecting sensor
Paper width home position detecting sensor
See page
5-65
5-65
5-66
E7: Optional unit error
These error codes will be indicated when the optional accessories are installed.
Refer to Optional Unit Service Manuals.
Code
E7-10
E7-11
E7-20
E7-21
E7-22
E7-23
E7-24
E7-25
E7-26
E7-27
E7-30
E7-31
E7-32
5-52
Function
ADF main motor rotation
ADF sensor output abnormal
Finisher paper transport motor
Finisher paper exit motor
Finisher tamper motor
Finisher staple motor
Finisher stapler shift motor
Finisher paper height sensor
Finisher back up RAM data
Finisher tray shift motor
Inverting unit shift motor
Inverting shift transport motor
Inverting unit reverse motor
See page
5-66
5-66
5-67
5-67
5-68
5-68
5-69
5-69
5-70
5-70
5-71
5-71
5-72
Function
E1-01
Optical unit scan drive
E1-20
Laser unit horizontal
synchronization
E1-22
Polygon motor synchronization
Check points
(1) Lamp unit scanner motor connector is
shorted or broken.
(2) Lamp drive mechanism is defective.
(3) Home position sensor connector is shorted
or broken.
(4) Home position sensor is defective.
(5) LVPS connector is shorted or broken.
(6) LVPS is defective.
(7) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
(8) CPU PCB is defective.
(9) Image processing PCB is defective.
(FP-D450/D600)
(1) Laser unit driver PCB connector is shorted
or broken.
(2) Laser unit PCB is defective.
(3) Laser unit is defective.
(6) (FP-D250/D350)
broken.
(FP-D450/D600)
Image processing PCB connector (CN38/
36/28) is shorted or broken.
(FP-D450/D600)
(1) Laser unit driver PCB connector is shorted
or broken.
(2) Laser unit PCB is defective.
(3) Laser unit is defective.
(6) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
(FP-D450/D600)
5-53
Troubleshooting
Code No.
Code No.
E1-30
Check points
Function
CCD output
(1)
(2)
(3)
(4)
(5)
(6)
(7)
(8)
E1-31
Exposure lamp (not turned on)
E1-32
Exposure lamp (not turned off)
(1)
(2)
(3)
(1)
(2)
(3)
(4)
(5)
(6)
E1-40
Optics fan motor (1) rotation
(1)
(2)
(3)
(4)
(5)
(6)
5-54
CCD PCB connector is shorted or broken.
CCD PCB is defective.
LVPS is defective.
CPU PCB connector (CN209/210) is
shorted or broken. (FP-D250/D350)
Image Processing PCB connector (CN209/
210) is shorted or broken. (FP-D450/D600)
CPU is defective.
(FP-D450/D600)
Inverter PCB is defective.
(FP-D250/D350)
broken.
(FP-D450/D600)
broken.
CPU is defective.
Optics mechanism is defective.
CCD PCB connector is shorted or broken.
CCD PCB is defective.
(FP-D250/D350)
broken.
(FP-D450/D600)
broken.
CPU is defective.
(FP-D450/D600)
Fan motor connector is shorted or broken.
Fan motor is defective.
LVPS is defective.
(FP-D250/D350)
broken.
(FP-D450/D600)
broken.
CPU is defective.
LSU fan motor rotation
(FP-D450/D600)
E2-01
E2-02
E2-03
Lift motor rotation (Copier upper)
Lift motor rotation (Copier lower)
Lift motor rotation (System
upper)
Lift motor rotation (System
middle)
Lift motor rotation (System lower)
E2-04
E2-05
Check points
Function
E1-45
(1)
(2)
(3)
(4)
(5)
(6)
(1)
(2)
(3)
(4)
(5)
(6)
(7)
(8)
(9)
(10)
(11)
(12)
E2-06
E2-07
LCC lift operation (UP)
LCC lift operation (DOWN)
(1)
(2)
(3)
(4)
(5)
(6)
(7)
(8)
(9)
(10)
(11)
(12)
(13)
(14)
LVPS is defective.
broken.
CPU is defective.
Level sensor connector is shorted or
broken.
Level sensor is defective.
Lift motor drive mechanism is defective.
Lift motor connector is shorted or broken.
Lift motor is defective.
Paper feed driver PCB connector is
shorted or broken.
Paper feed driver PCB is defective.
LVPS is defective.
(FP-D250/D350)
CPU PCB connector (CN7/22/23) is
shorted or broken.
(FP-D450/D600)
CPU PCB connector (CN7/22/23) is
shorted or broken.
CPU is defective.
System console connector is not securely
connected.
LCC connector is not securely connected.
Upper limit sensor connector is shorted or
broken.
Upper limit sensor is defective.
Lift motor drive mechanism is defective.
Lift motor is connector is shorted or broken.
Lift motor is defective.
Lower limit sensor connector is shorted or
broken.
Lower limit sensor is defective.
LCC driver PCB connector is shorted or
broken.
LCC driver PCB is defective.
LVPS is defective.
(FP-D250/D350)
broken.
(FP-D450/D600)
broken.
CPU is defective.
5-55
Troubleshooting
Code No.
Code No.
Function
E2-10
System console motor rotation
E3-01
Toner bottle motor rotation
E3-03
Toner density sensor gain
5-56
Check points
(1) System console connector is not securely
connected.
(2) Main motor drive mechanism is defective.
(3) Locking mechanism of motor is defective.
(4) Main motor connector is shorted or broken.
(5) Main motor is defective.
(6) System console driver PCB connector is
shorted or broken.
(7) System console driver PCB is defective.
(10) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
(11) CPU is defective.
(1) Bottle motor connector is shorted or
broken.
(2) Bottle motor drive mechanism is defective.
(3) Bottle motor is defective.
(4) Bottle motor home position sensor
(7) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
(1) Toner density sensor connector is shorted
or broken.
(2) Toner density sensor is defective.
(3) Developer material is defective.
(6) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
E3-10
E3-11
E3-12
Function
High voltage power supply leak
(1)
(2)
(3)
E3-20
Main motor rotation
E3-21
Dust collection fan motor rotation
E3-22
Developer fan motor rotation
Check points
(1) Corona charger is dirty.
(2) Corona charger spring is defective.
(3) Screw(s) on the ground terminal of HVPS
or HVPS bracket is loose.
(4) HVPS connector is shorted or broken.
(5) HVPS is defective.
(8) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
(1) Main motor connector is shorted or broken.
(2) Main motor is defective.
(5) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
(7) Drive mechanism is defective.
(1) Fan motor connector is shorted or broken.
(2) Fan motor is defective.
(5) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
(3) LVPS connector si shorted or broken.
(5) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
5-57
Troubleshooting
Code No.
Code No.
Check points
Function
E3-23
Suction fan motor rotation
E3-30
Discharge lamp
E3-40
Copy density sensor output
adjustment
(1)
(2)
(3)
(4)
(5)
(6)
(1)
(2)
(3)
(4)
(5)
(6)
(1)
(2)
(3)
(4)
(5)
(6)
(7)
5-58
LVPS is defective.
(FP-D250/D350)
broken.
(FP-D450/D600)
broken.
CPU is defective.
Discharge lamp terminal position is incorrect.
Discharge lamp is broken or disconnected.
LVPS is defective.
(FP-D250/D350)
broken.
(FP-D450/D600)
broken.
CPU is defective.
The copy density sensor is dirty.
The drum is faulty or not correctly installed.
Copy density sensor is defective.
LVPS is defective.
(FP-D250/D350)
broken.
(FP-D450/D600)
broken.
CPU is defective.
Check points
Function
E4-01
Fuser warm-up
E4-10
E4-11
E4-12
E4-13
E4-14
Exhaust fan motor (1) rotation
(FP-D450/D600)
E5-01
Vp (+24V)
(1)
(2)
(3)
(4)
(5)
(6)
(7)
(8)
(9)
(10)
(11)
(1)
(2)
(3)
(4)
(5)
(6)
(1)
(2)
(3)
(4)
(5)
(6)
(7)
(8)
Fuser thermistor is dirty.
Thermistor position is incorrect.
Fuser temperature is low (re-adjust F6-31).
Fuser thermistor is defective.
Fuser Lamp connector is shorted or broken.
Fuser thermostat is defective.
Fuser lamp is defective.
AC driver PCB connector is shorted or broken.
AC driver PCB is defective.
(FP-D250/D350)
LVPS connector (CN4) is shorted or
broken.
(FP-D450/D600)
broken.
CPU is defective.
LVPS is defective.
(FP-D250/D350)
broken.
(FP-D450/D600)
or broken.
CPU is defective.
(FP-D250/D350)
LVPS connector (CN4/11/17) is shorted or
broken.
(FP-D450/D600)
LVPS connector (CN4/11/17) is shorted or
broken.
LVPS is defective.
AC driver PCB connector is shorted or
broken.
AC driver PCB is defective.
The front door open/close switch is defective.
The front door is not closed correctly.
(FP-D250/D350)
or broken.
(FP-D450/D600)
CPU PCB connector (CN1/9) is shorted or
broken.
CPU is defective.
5-59
Troubleshooting
Code No.
Code No.
Function
E5-04
Vp (+12V)
E5-05
Vp (+24V, scanner)
E5-06
Va (+12V, scanner)
E5-11
Printer engine communication
abnormal
Scanner engine communication
abnormal
E5-12
5-60
Check points
(1) (FP-D250/D350)
LVPS connector (CN10/11/17) is shorted
or broken.
(FP-D450/D600)
or broken.
(3) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
(1) (FP-D250/D350)
LVPS connector (CN17/11) is shorted or
broken.
(FP-D450/D600)
LVPS connector (CN17/11) is shorted or
broken.
(3) (FP-D250/D350)
or broken.
(FP-D450/D600)
CPU PCB connector (CN1/9) is shorted or
broken.
(1) (FP-D250/D350)
or broken.
(FP-D450/D600)
or broken.
(3) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
Check points
Function
E5-13
NAC board communication
abnormal
E5-15
Printer controller board
communication abnormal
(1)
(2)
(3)
(4)
(5)
(6)
(1)
(2)
(3)
(4)
(5)
(6)
(7)
(8)
E5-17
Scanner synchronization
abnormal
(1)
(2)
(3)
(4)
(5)
E5-21
ADF communication abnormal
(1)
(2)
(3)
(4)
(5)
(6)
(7)
E5-22
abnormal
(1)
(2)
(3)
(4)
(5)
NAC PCB connector is shorted or broken.
NAC PCB is defective.
LVPS is defective.
CPU PCB connector is shorted or broken.
CPU is defective.
Riser card PCB is defective.
Printer controller PCB connector is shorted
or broken.
Printer controller PCB is defective.
LVPS is defective.
CPU PCB connector (CN203) is shorted
Image Processing PCB connector (CN203)
CPU is defective.
(FP-D450/D600)
Laser control PCB connector is shorted or
broken.
Laser control PCB is defective.
CPU PCB connector is shorted or broken.
CPU is defective.
(FP-D450/D600)
ADF connector is not securely connected.
Copier CPU PCB connector (CN19 / 25)
Image Processing PCB connector (CN19)
is defective. (FP-D450/D600)
Copier CPU PCB is defective.
ADF CPU PCB connector is shorted or
broken.
ADF CPU PCB is defective.
Image Processing PCB is defectve.
(FP-D450/D600)
Finisher connector is not securely
connected.
(FP-D250/D350)
Copier CPU connector (CN15) is shorted
or broken.
(FP-D450/D600)
Copier CPU connector (CN15) is shorted
or broken.
Copier CPU PCB is defective.
Finisher CPU PCB connector (CN21) is
shorted or broken.
5-61
Troubleshooting
Code No.
Code No.
Function
E5-23
Control panel communication
abnormal
E5-32
Scanner EEPROM access
E5-33
HDD access (FA-WA01)
E5-34
Zip drive access
5-62
Check points
(3) (FP-D250/D350)
Control panel CPU PCB connector (CN401)
(FP-D450/D600)
Control panel CPU PCB connector (CN401)
(4) Control panel CPU is defective.
(5) CPU PCB connector (CN205) is shorted
(6) Image Processing PCB connector (CN205)
(8) System control PCB is defective.
(9) Rizer card PCB is defective.
(FP-D450/D600)
(1) EEPROM is defective.
(2) Control panel CPU PCB is defective.
(1) HDD connector is shorted or broken.
(2) HDD is defective.
(3) (FP-D250/D350)
LVPS connector (CN18/19) is shorted or broken.
(FP-D450/D600)
LVPS connector (CN18/19) is shorted or broken.
(5) (FP-D250/D350)
System control PCB connector (CN6/7) is
shorted or broken.
(FP-D450/D600)
System control PCB connector (CN6/7) is
shorted or broken.
(6) System control PCB is defective.
(1) Zip drive connector is shorted or broken.
(2) Zip drive is defective.
(3) (FP-D250/D350)
LVPS connector (CN19) is shorted or broken.
(FP-D450/D600)
LVPS connector (CN19) is shorted or broken.
(5) (FP-D250/D350)
System control PCB connector (CN7) is
shorted or broken.
(FP-D450/D600)
System control PCB connector (CN7) is
shorted or broken.
(6) Syetem control PCB is defective.
Function
Check points
E5-41
Registration timing control circuit
abnormal
Total counter connection
(1) CPU PCB connector is shorted or broken.
(1) The total counter is not securely
connected.
(2) Total counter is defective.
(5) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
(1) Hard disk connector is shorted or broken.
(2) Hard disk is defective.
(5) (FP-D250/D350)
Printer controller PCB connector (CNJ8)
(FP-D450/D600)
Printer controller PCB connector (CNJ8)
(6) Printer controller PCB is defective.
(1) Printer controller DIMM connector is
shorted or broken.
(2) Printer controller DIMM is defective.
(5) Printer controller PCB is defective.
E5-42
E5-43
Printer controller hard disk
access (FA-HD01)
E5-44
Printer controller DIMM
(FA-PM16/32)
5-63
Troubleshooting
Code No.
Code No.
Function
E5-50
I/O communication error
E5-60
Power supply cooling fan motor
rotation
E5-61
Printer controller fan motor
rotation
5-64
Check points
(3) ADU driver PCB connector is shorted or
broken.
(4) ADU driver PCB is defective.
(5) System console paper feed driver PCB
(6) System console paper feed driver PCB is
defective.
(7) LCC driver PCB connector is shorted or
broken.
(8) LCC driver PCB is defective.
(9) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
(11) Inverting unit driver PCB connector is
shorted or broken.
(12) Inverting unit driver PCB is defective.
(13) ADF driver PCB connector is shorted or
broken.
(14) ADF driver PCB is defective.
(5) CPU PCB connector (CN43) is shorted or
broken. (FP-D250/D350)
(6) Image processing PCB conneector (CN43)
(FP-D450/D600)
(5) CPU PCB connector (CN43) is shorted or
broken. (FP-D250/D350)
(6) Image processing PCB conneector (CN43)
(FP-D450/D600)
Function
E5-89
Printer controller LSI access
(FP-D450/D600)
E6-03
Paper length home position
detecting sensor
E6-04
Paper width home position
detecting sensor
Check points
(1) Image processing PCB connector (CN202/
212) is shorted or broken.
(2) CPU PCB connector (CN4/34) is shorted
or broken.
(1) Sensor connector is shorted or broken.
(2) Sensor is defective.
(3) Paper length motor connector is shorted
or broken.
(4) Paper length motor is defective.
(5) (FP-D250/D350)
ADU driver PCB connector (CN653/655)
(FP-D450/D600)
(7) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
(9) Guide plate mechanism is defective.
(3) Paper width motor connector is shorted or
broken.
(4) Paper width motor is defective.
(5) (FP-D250/D350)
(FP-D450/D600)
(7) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
(9) Guide plate mechanism is defective.
5-65
Troubleshooting
Code No.
Code No.
Function
E6-05
E7-10
ADF main motor rotation
E7-11
ADF sensor output abnormal
5-66
Check points
(3) (FP-D250/D350)
ADU driver PCB connector (CN652) is
shorted or broken.
(FP-D450/D600)
ADU driver PCB connector (CN652) is
shorted or broken.
(5) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
For FA-A355
(1) ADF CPU CN955/956 is shorted or broken.
(2) ADF Main motor connector shorted or
broken.
(3) ADF main motor is defective.
For FA-A888
(1) ADF CPU CN4 is shorted or broken.
(2) Original feed mechanism is defective.
(3) Original feed motor is defective.
For FA-A355
(1) ADF exit sensor connector is shorted or
broken.
(2) ADF exit sensor is defective.
(3) ADF CPU PCB connector (CN958) is
shorted or broken.
(4) ADF CPU PCB is defective.
For FA-A888
(1) ADF clock sensor connector is shorted or
broken.
(2) ADF clock sensor is defective.
(3) ADF original exit/reverse sensor connector
(4) ADF original exit/reverse sensor is
defective.
(5) ADF CPU PCB connector (CN2/7) is
shorted or broken.
(6) ADF CPU PCB is defective.
Function
E7-20
Finisher paper transport motor
E7-21
Finisher paper exit motor
Check points
(1) Motor connector is shorted or broken.
(2) Motor is defective.
(3) Finisher controller PCB connector (CNJ10) is shorted or broken.
(4) Finisher controller PCB is defective.
(5) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
(7) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
(5) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
(7) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
5-67
Troubleshooting
Code No.
Code No.
Function
E7-22
Finisher tamper motor
E7-23
Finisher staple motor
5-68
Check points
(5) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
(7) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
(5) Finisher relay PCB connector (CN-J301/
(6) Finisher relay PCB is defective.
(7) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
(9) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
Function
E7-24
Finisher stapler shift motor
E7-25
Finisher paper height sensor
Check points
(5) Finisher relay PCB connector (CN-J301/
(7) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
(9) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
(3) Finisher controller PCB connector (CN-J6)
(5) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
(7) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
5-69
Troubleshooting
Code No.
Code No.
Function
E7-26
Finisher back up RAM data
E7-27
Finisher tray shift motor
5-70
Check points
(1) Finisher controller PCB connector is
shorted or broken.
(3) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
(5) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
(3) Finisher controller PCB connector (CN-J7)
(5) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
(7) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
Function
E7-30
Inverting unit shift motor
E7-31
Inverting shift transport motor
Check points
(3) Inverting unit PCB connector (CN601/604)
(4) Inverting unit PCB is defective.
(5) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
(7) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
(5) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
(7) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
5-71
Troubleshooting
Code No.
Code No.
E7-32
5-72
Function
Inverting unit reverse motor
Check points
(5) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
(7) (FP-D250/D350)
broken.
(FP-D450/D600)
broken.
5.3 User Preset Mode
1. Operation procedure:
1) General user menu
(1) Press the User Preset key on the control panel.
(2) Select the desired User Preset Function with LCD touch panel.
(3) Select the desired User Preset Mode with LCD touch panel.
(4) Select the desired contents and touch the OK key according to LCD message.
(5) When the mode setting is completed, the LCD display will change to initial
menu.
2) Key operator menu
(1) Press the User Preset key on the control panel.
(2) Select the desired User Preset Function with LCD touch panel.
(3) Select the Key Operator Mode with LCD touch panel.
(4) Enter the pass code.
(5) Select the desired User Preset Mode with LCD touch panel.
(6) Select the desired contents and touch the OK key according to LCD message.
(7) When the mode setting is completed, the LCD display will change to initial
menu of the Key Operator Mode.
2. Example: Paper size setting
Troubleshooting
1) Press the User Preset key on the control panel.
2) Select the User Preset Function (General) with LCD touch panel.
3) Select the Key Operator Mode with LCD touch panel.
4) Enter the pass code.
5) Select the Paper Size Setting mode.
OK
1 Paper size
2 Auto reset time
3 Energy saver time
4 Auto off time
5 Language default
5-73
6) Touch the cassette key until the paper size required is shown.
Ledger/A3
Legal/B4
Invoice/A5
Letter/A4
LetterR/A4R
1
2
1
2
3
4
5
3
L
4
5
OK
7) When the paper size setting is completed, touch the OK key.
8) Touch the OK key on the LCD menu.
The LCD menu will be changed to initial menu of the Key Operator Mode.
5-74
General
Item
US00
Finisher mode default
US01
Staple position default
US02
Power on default mode
US03
Manual add toner
US04
User information change
US05
Hard disk status
US06
Departmental counter
US07
Page numbering style
US08
Hole punch default
US09
Set key operator code
Function
0
1
2
3
0
1
2
0
1
0
1
0
1
0
1
Nonsort
Sort
Sort/Staple
Group
Front
Rear
Booklet
Copy
Filing
OFF
ON
Allows changing user
information as determined by operator.
After user ID is entered or
card is inserted, User
name, Department name,
Tel No. and Code No. can
be changed.
Hard disk status will be
indicated on the message
display for 3 seconds.
-nn/m
OFF
ON
Input key operator
ID code.
Factory
setting
0
0
0
0
0
0
0
Troubleshooting
Code
0
5-75
General (Key operator)
Code
Item
US00
Paper size
US01
Auto reset time
US02
Energy saver time
US03
Auto off time
5-76
Function
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
0
1
2
3
0
1
2
3
4
5
6
7
8
0
1
2
3
4
5
6
Not use
A3
B4
A4
A4R
B5
B5R
A5
FLS1
FLS2
LEDGER
LEGAL
LETTER
LETTER-R
INVOICE
None
45 sec.
1 min.
2 min.
5 min.
15 min.
30 min.
60 min.
1.5 hour
2 hour
3 hour
4 hour
No
No
15 min.
30 min.
60 min.
1.5 hour
3 hour
4 hour
Factory
setting
0
2
1
0
Item
US04
Language default
US05
Special paper tray 1
US06
Special paper tray 2
US07
Finisher bin function
US08
Auto paper out rotate
US09
Not used
US10
Original set beep sound
US11
ADF original set sound
US12
Unknown file access default
US13
Hard disk space warning
US14
Departmental counter mode
US15
No ID operation
Function
Factory
setting
0 English/German/
English or
German
Japanese
1 French/Swedish/English
2 Spanish/Italian/Dutch
0 None
0
1 Copier (upper)
2 Copier (lower)
3 System console (upper)
4 System console (middle)
5 System console (lower)
6 LCC
7 Sheet bypass
0 None
0
1 Copier (upper)
2 Copier (lower)
3 System console (upper)
4 System console (middle)
5 System console (lower)
6 LCC
7 Sheet bypass
0 Copy/File/Print
0
1 Copy/Print/File
2 File/Copy/Print
3 File/Print/Copy
4 Print/Copy/File
5 Print/File/Copy
0 OFF
1
1 ON
0
1
0
1
0
1
None
ON
None
ON
Group
Public
Not available
0 No save
1 Free
0
0
0
0
5-77
Troubleshooting
Code
Code
Item
US16
User registration
Registers user to copier
Factory
setting
0
US17
User delete
Delete user registration
0
US18
User information change
0
US19
ID card change
Changes user information
registered
Changes ID card
information registered
US20
Date and time setting
US21
US22
US23
US24
US25
US26
US27
US28
US29
Not used
TCP/IP address
TCP/IP subnet mask
TCP/IP default gateway
Not used
Not used
Not used
Not used
DD file server IP address
US30
Hard disk backup select
US31
US32
Hard disk backup time
Hard disk backup day
US33
US35
Backup to removable media
(Zip drive)
Restore from removable media
(Zip drive)
Hard disk backup
US36
System version update
US37
User ID input
US34
5-78
Function
0
Not available
0
1
0
1
2
3
4
5
6
7
0
1
0
1
0
1
0
1
0
1
Not available
Not available
Not available
Not available
Sets DD file server IP
address
Manual
Auto
Sets hard disk backup time
Sunday
Monday
Tuesday
Wednes.
Thursday
Friday
Saturday
Everyday
Stop
Start
Stop
Start
Stop
Start
Stop
Start
No
Yes
0
0
0:00
0
0
0
0
0
1
Item
US38
User information list
Function
0 Stop
1 Start
Factory
setting
0
Troubleshooting
Code
5-79
Copier (General)
Code
Item
US00
Margin value default
US01
Edge value default
US02
Book value default
US03
Margin reduction default
US04
Duplex mode default
US05
Reduce N in 1 for space
US06
Digital skyshot setting
US07
Manual skyshot setting
US08
Paper size priority
US09
Set key operator code
5-80
Function
0
1
2
3
0
1
2
3
0
1
2
3
0
1
2
3
0
1
2
3
0
1
0
1
2
0
1
2
3
0
1
2
3
4
5 mm
10 mm
15 mm
20 mm
5 mm
10 mm
15 mm
20 mm
15 mm
20 mm
25 mm
30 mm
100%
95%
93%
91%
No
1 to 2
2 to 2
Book to 2
No
Yes
None
Free shape
Parallel
OFF
M1, ON
M2, ON
M1, M2 ON
LTR/A4
LTR-R/A4-R
LGL/B4,FLS
LDG/A3
INV/A5
Input key operator
ID code.
Factory
setting
1
0
1
0
0
0
1
0
0
Copier (Key operator)
Item
US00
US01
Original mode default
US02
Photo mode contrast
US03
Text/Photo mode contrast
US04
Photo mode sharpness
US05
Text/Photo mode sharpness
US06
Interleaving default
US07
Page insertion default
US08
Cover mode default
Function
0
1
2
0
1
2
0
1
2
0
1
2
0
1
2
0
1
2
0
1
0
1
0
1
2
3
US09
SADF default
US10
Maximum copy setting
US11
Multi-size rotation
US12
Check size in M1 memory
US13
Check size in M2 memory
0
1
0
1
Not detecting
Auto mode priority
Manual mode priority
Text mode
Photo mode
Text/Photo mode
Weak
Medium
Strong
Weak
Medium
Strong
Weak
Medium
Strong
Weak
Medium
Strong
Blank paper
Copied paper
Blank paper
Copied paper
Cover page:
Blank paper
Cover page :
Copied paper
Cover page/Back page :
Blank paper
Cover page/Back page :
Copied paper
No
Yes
Determines whether to limit
number of copies (1-99) or not
No
Yes
Input a size in memory 1 for frequent
usage size. (X:width,Y:Length)
Input a size in memory 2 for frequent
usage size. (X:width,Y:Length)
Factory
setting
2
2
1
1
1
1
0
0
0
Troubleshooting
Code
0
Off
(No limit)
0
70*160
95*220
5-81
Code
Item
US14
Text mode sharpness
US15
High speed duplex mode
US16
Memory overflow warning
US17
Document save default
5-82
Function
0
1
2
0
1
0
1
0
1
Weak
Medium
Strong
No
Yes
Print
Cancel
No
Yes
Factory
setting
1
1
0
0
File
Item
US00
DD code retrieve
US01
Cover sheet default
US02
File retrieve default
US03
Cover retrieve default
US04
Resolution default
US05
US06
Removable media format
(Zip drive)
Not used
US07
Not used
US08
Not used
US09
Set key operater code
Function
0
1
0
1
0
1
0
1
0
1
2
0
1
No
Yes
Normal
Thumbnail
Normal
Thumbnail
Normal
Thumbnail
600 dpi
300 dpi
200 dpi
Stop
Start
Factory
setting
0
0
0
0
0
0
Input key operator
ID code
Troubleshooting
Code
5-83
File (Key operator)
Code
Item
US00
Save access rights
US06
Attribute retrieve
US09
Attributes manage
US10
US11
Original mode default
US12
Photo mode contrast
US13
Text/Photo mode contrast
US14
Photo mode sharpness
US15
Text/Photo mode sharpness
US16
Text mode sharpness
US17
Filing menu default
5-84
Function
0
1
2
0
1
0
1
0
1
2
0
1
2
0
1
2
3
4
0
1
2
0
1
2
0
1
2
0
1
2
0
1
2
3
Individual
Group
Public
No
Display
No
Display
Not detecting
Auto mode priority
Manual mode priority
Document mode
Text/Photo mode
Photo mode
Weak 2
Weak 1
Medium
Strong 1
Strong 2
Weak
Medium
Strong
Weak
Medium
Strong
Weak
Medium
Strong
Weak
Medium
Strong
Save
Retrieve
Manage
Printer
Factory
setting
0
0
0
1
0
2
1
1
1
1
1
Printer (General)
Item
US00
PCL menu
US01
PostScript menu
Not available
(option)
Job menu
0 Resolution
US02
0
1
2
3
4
5
Font
Symbol set
Pitch
Point size
Line/inch
Return character
1 PJL status
response
2 PDL select
US03
US04
US05
Parallel menu
NAC menu
Test menu
0 Time out
1 Job completion
PCL
2 PostScript
response(option)
0 Job completion
PCL
1 PostScript
response(option)
0 Test print
1 Font list print
US06
Not used
US07
Not used
US08
Not used
US09
Set key operator
code
Function Factory
setting
0~44
0
0~35
0
0~999
100
40~9995
120
100~4800
600
0
CR
0
1
CR+LF
0
1
0
1
0
1
2
0~999
0
1
0
1
0
1
0
1
0
1
0
1
600 dpi
300 dpi
No
Yes
Auto
PCL
PS
No
Yes
No
Yes
No
Yes
No
Yes
No
Yes
No
Yes
0
0
0
30
1
0
0
1
0
0
Input key operater
ID number
5-85
Troubleshooting
Code
Printer (Key operator)
Code
Item
US00
HDD spool area format
US01
Spool function
US02
Flash ROM update accept
US03
Dump list mode
US04
HDD status
5-86
Function
0
1
2
3
0
1
0
1
0
1
0
1
2
3
4
None
128 MB
256 MB
512 MB
No
Yes
No
Yes
Transfer
Release
HDD capacity
Font area capacity
Font area usage ratio
Spool area capacity
Spool area usage ratio
Factory
setting
1
0
0
1
5.4 Program Update
1. Update procedure of the Printer controller SIMM
NOTE: When the printer hard disk (FA-HD01) is installed, change the spool function
setting in the user preset mode (code us01 in the printer key operator mode) to 'No'
before proceeding.
1)
Turn off the power switch of the digital copier.
2)
If the digital copier is on a network, disconnect the network cable.
3)
Connect a printer parallel cable between the digital copier and PC.
4)
Turn on the digital copier's power switch.
5)
If a network unit is installed, wait for the status print.
6)
Set the digital copier to 'Off line' mode.
7)
Set the digital copier to user preset mode and select "Printer Setting". Select
8)
Wait for test print.
9)
Check the Software Version.
Troubleshooting
"Test print" mode in the "05 Test menu". Press start, then press OK.
10) Press cancel.
11) Set the digital copier to user preset mode and select the 'Flash ROM update'
menu which is in the Key operator mode of the Printer function setting.
12) Change the setting to 'Yes'. Then press "OK".
13) Escape from the user preset mode.
14) Set the digital copier to 'On line' mode.
15) Reboot your PC into the MS-DOS mode.
5-87
16) Transfer the new file data to be updated using copy command in the binary
mode . (Example) >copy /b {FILE NAME} LPT1 FILE NAME of the SIMM
program. When the program runs the copier data lamp will flash.
The PC will return to DOS prompt in about 2 minutes. Data update will be
completed approximately one minute after DOS prompt returns.
17) Turn off the digital copier's switch.
18) Disconnect the printer parallel cable if it is not going to be used for printing.
19) Turn on the digital copier's power switch. Note : 'Flash ROM update' setting will
be automatically chenged to 'No' by turning on the power switch.
20) If a network unit is installed, wait for the status print.
21) Set the digital copier to 'Off line' mode.
22) Set the digital copier to user preset mode and select 'Test print' mode.
23) Print out the test print.
24) Confirm that the Flash ROM version has been changed.
Note: If the printer hard disk (FA-HD01) is installed, change the spool function
setting back to previous number.
25) Exit the user preset mode
26) Turn off the digital copier's switch.
27) Re-connect the printer cable and network cable to the original condition.
5-88
Section VI Unpacking/Installation
6. 1 Precautions on Set Up
Copy machine performance and the copy quality is subject to and dependant
on environmental conditions. To maintain good performance, quality, and safe
operation, observe the following precautions:
1)
For safe operation and to avoid trouble do not install the system under the
following conditions:
• High temperature, high humidity, low temperature or low humidity
• The temperature or humidity varies suddenly
• Being exposed to direct sunlight
• Dusty space
• Poorly ventilated location
• Exposed to chemical gases (such as ammonia gas)
• Exposed to strong vibration
• Directly exposed to direct wind (ex. Air conditioner vent)
2) The weight of machine is 220 lb (100 kg) or more with options. It must be
placed on a firm and level plat form.
3) The maximum power consumption is 1.5 kW. Use a dedicated power supply of
120 V and 15 A (220-240V and 7A) or higher. (Do not use an extension cord.)
4) Make sure the outlet is properly grounded. (Do not ground to gas or water
pipe.)
5) Install the machine in an area that meets or exceeds the minimum space
Unpacking/
Installation
requirement (see diagram below).
4"/100 mm
28"/700mm
14"/350mm
Exit tray
Copier
Multi sheet bypass
6-1
6.2 Unpacking
Check the condition and contents of the box for completeness or any shipping damage
before installation. (Visual check)
6-2
6.3 Installation Procedure
• Remove the external packing/protection materials.
• Remove the shipping tape.
Note: Save the shipping materials for future use (Transport of copier)
Caution: Make sure the copier is unplugged before the installation.
Location
Shipping material/Procedure
1
Check
1. Optical unit
(1) Remove the optical unit shipping
screws.
(2 screws)
(1)
(1)
2. 550 sheet paper drawer
(1) Open the 550 sheet paper drawer
fully.
(2) Remove the shipping styrofoam.
(1 piece)
(3) Close the paper drawer.
Unpacking/
Installation
Styrofoam
6-3
Location
Paper transport unit
2
(2)
Tape
(2) Remove the shipping tape.
Fuser unit
3
(1) Open the paper exit door.
3
3
(2) Open the fuser exit guide plate.
(3) Remove the fuser pressure
release screws. (2 screws)
(4) Close the fuser exit guide plate.
(5) Close the paper exit door.
Developer unit
4
TDC
connector
Toner bottle
Hopper
(1) Swing open the toner bottle/
hopper. (180 degrees)
(2) Turn the developer unit release
lever clockwise.
(3) Remove the recycle solenoid
Waste toner
bottle door
Release lever
Recycle solenoid
cover
cover. (1 screw)
(4) Open the waste toner bottle door.
(5) Lower the paper transport.
(6) Remove the drum unit. (1 screw,
1 connector)
(7) Disconnect the TDC connector.
(8) Remove the developer unit.
(Pull out until it stops, then angle
up to remove.)
Note: B e c a r e f u l t o a v o i d
damaging the recycle and
toner addition sponge seals.
6-4
Check
5
Magnet
brush
Mag-roller
gear
6
Mag-roller
Shield plate
Pin
Spring
Check
Installing the developer
(1) Remove the developer unit lid.
(2) Shake the bottle of developer
thoroughly.
(3) Pour the developer evenly into the
developer unit.
Make sure to empty the bottle.
(4) Reinstall the developer unit lid.
(5)-1. Rotate the magroller gear clockwise
several turns in order to distribute
developer evenly on the sleeve.
(5)-2.R o t a t e t h e m a g r o l l e r g e a r
counterclockwise about 1/4 turn in
order to form a magnetic brush
between the shield plate and sleeve.
(5)-3.Rotate the magroller gear
clockwise several turns in order
to stabilize the magnetic brush.
(6) Reinstall the developer unit.
(7) Reconnect the TDC connector.
(8) Reinstall the drum unit.
(9) Pull the developer unit release
lever out until it stops and rotate it
90 degrees counterclockwise.
(10)Push the developer unit release
lever back in until it stops.
Cleaning blade pressure release
(1) Install the cleaning blade pressure
spring onto the pin. Make sure you
use innermost loop in order to
obtain a proper pressure.
(2) Reconnect the solenoid connector.
(3) Reinstall the solenoid cover. (1 screw)
(4) Swing the toner bottle/hopper back
into position.
(5) Raise the paper transport.
(6) Close the front door.
(7) Install the waste toner bottle.
(8) Close the waste toner bottle door.
Unpacking/
Installation
Location
6-5
Location
7
FP-D250/D350/D350H:
Turn the power switch ON
FP-D450/D600:
(2) Turn the power switch ON then
close the front door.
(3) Turn the operation switch ON.
8(a)
TDC adjustment
(1) Press the “User Preset”, “Ledger/
A3 of Original Size” and “3” keys
simultaneously to enter the service
mode.
(2) Press the “8” key to enter the F8
mode.
(3) Press the Start key.
(4) Press the “0”, “9” keys to enter the
F8 mode code “09”.
(5) Press the Start key for automatic
TDC sensor gain adjustment.
(Wait approximately 2 minutes until
the adjustment cycle stops.)
(6) Write the contents of F6-21 and 26
on the memory sheet.
8(b)
6-6
Black density sensor output gain
adjustment
(1) Press the “1” and “4” to enter the
F8 mode code “14”.
(2) Press the “Start” key for automatic
black density sensor output gain
adjustment.
(3) Write the content of F6-65 on the
memory sheet.
(4) Press the “User Preset” and
“Clear” keys simultaneously to exit
the F mode.
Check
9
Hopper
Toner
bottle
10
Paper guide (left)
Paper guides
(front/rear)
Check
Toner bottle insertion
(2) Take a fresh bottle of toner and
shake it 10 to 15 times.
(3) Swing the toner bottle hopper open
90 degrees.
(4) Remove the toner bottle cap.
(5) Insert the toner bottle into the
hopper unit and turn it clockwise
until the arrows on the bottle and
the hopper are aligned.
(6) Close the front door.
Paper size setting
(1) Pull the paper drawer out until it
stops.
(2) Position the paper guides (front/
rear) to the paper size required. If
the size will remain fixed, install the
screws to lock down the paper
guides.
(3) Position the paper guide (left) to
the paper size required and install
the paper guide screw.
(4) Position the paper size indicator so
that the proper size is displayed.
(5) Push in the paper tray.
(6) Select F5-14. (copier upper tray)
(7) Select the desired paper size.
(8) Press the “User Preset” and
"Clear" key simultaneously to exit
the F mode.
Note: Repeat (1)~(5) for the setting of
Unpacking/
Installation
Location
other trays.
F5-15: Copier lower tray.
6-7
Additional procedure for FP-D350H
(FP-D350H only)
Location
(1) Remove the copier rear cover.
(7 screws)
11
(1) Remove the copier top right cover.
(2 screws)
(2) Remove the pre-stamped knock
out from the top right cover.
12
1
1
2
13
6-8
(1) Install the Zip drive unit.
(3 screws)
Check
14
(1) Remove the Zip drive disk cover.
(2 screws)
15
(1) Install the support bracket to both
the Zip drive unit and the copier.
(3 screws)
16
(1) Connect the IDE signal harness
to IDE connector CN7 on the system control PCB.
to Zip drive.
(3) Connect the ground wire to the
support bracket.
(4) Connect the power supply harness from the copier (located rear
side top left) to the Zip drive.
(5) Install the cable cover. (2 screws)
4
5
2
1
Check
Unpacking/
Installation
Location
(1) Reinstall the Zip drive cover.
(2) Install the support bracket cover.
(2 screws)
(3) Reinstall the top right cover.
17
2
1
6-9
6.4 Adjustment
Location
1
A
1
Not visible
2
Clearly
visible
3
6-10
Exposure standard adjustment
• The following values will be added
to the reference value. DO NOT
adjust these codes in the field.
F6-17: G r i d s t a n d a r d v o l t a g e
compensation
F6-18: Laser power compensation
F6-19: Developer bias standard
voltage compensation
(2) Ensure that F6-17, 18 and 19 to
“0”.
(3) Enter the F2 mode and set the
exposure to the center position.
Set the machine to Text / Photo
mode.
(4) Make a copy of Test Chart 53/54
with gray scale (P/N FQ-SJ1011).
a) Gray scale “1” should not be visible.
b) Gray scale “2” should be clearly
visible.
Note: Skip to step (11) if the density
is within the specification.
(5) Enter the F6-50 mode.
Note: The “Reset” key is used to
enter the “–” content.
(+): Lighter side
(–): Darker side
(7) Press the “OK” key, then press
“Start” key.
(8) Press the “Clear” key twice.
(10)Make a copy to confirm the adjustment
Note: Repeat step (3) to (10) until
the proper density is attained.
F6-49: Text mode
F6-51: Photo mode
(11)Press the “User Preset” and “Clear”
keys simultaneously to exit the
service mode.
Check
Location
Check
2
Screw
1. Sheet bypass tray
(1) L o o s e n a d j u s t i n g s c r e w s .
(2 screws)
(2) Move the adjusting plate to the
front or rear accordingly.
Sheet by-pass tray
2. 550 sheet paper drawer
(1) Pull the paper drawer out until it
stops.
(2) Loosen the four screws of the front
cover.
(3) Move the front cover as required,
then tighten the screws.
Unpacking/
Installation
Note: Insure the front cover i s
adjusted evenly.
6-11
Location
Check
Lead edge registration adjustment
(1) Press the "User Preset", "Ledger /
A3 of Original Size", and "3" keys
mode.
(2) Press the "6" key to enter the F6
mode.
(4) Press the "0", "5" keys to enter the
F6 mode code "05".
Note : The "Reset" key is used to
enter the "–" content.
(+): Paper feed timing is
delayed.
(–): Paper feed timing is
advanced.
(7) Press the "Start" key.
(8) Press the "Clear" key twice to
return to F mode.
(9) Press the "2" key to enter the F2
mode.
(10)Make a copy to confirm the
adjustment. Perform step (6)
again, if necessary.
(11)Press the "User Preset" key and
"Clear" keys simultaneously to exit
the service mode.
Note 1 : FP-D450/D600 only
Please instruct the customers on following items.
1) Power ON/OFF should be done by the operation switch on the control
panel.
2) Do not use the power switch in the machine as it is for service use only.
Note 2 : 1) Refer to optional accessories service manual in order to install
optional accessories.
2) When the FA-A888 is installed onto FP-D250/D350 series, connector
position of the main CPU PCB needs to be changed, For details, refer
to the FA-A888 Installation Procedure
6-12
6.5 Printer Unit / DD Filing Unit Mounting Kit (FA-PK30)
(1) Unpacking
Check the contents and condition of the box for completeness and any shipping
damage before installation. (visual check)
* Check the contents of the box.
Control panel (x2)
Fan motor (x1)
(For FP-D250/D350)
Control panel (C) PCB
(x1)
Control panel (D) PCB
(x1)
Hard disk drive mounting
bracket (left) (x1)
(For FP-D250/D350)
Control panel (C) PCB
harness (x1)
Control panel (D) PCB
harness (x1)
bracket (right) (x1)
(For FP-D250/D350)
Fan motor harness (x1)
Control panel buttons
(large x2, small x1)
LED windows (x3)
Unpacking/
Installation
Printer controller
mounting bracket (x1)
(For FP-D250/D350)
6-13
Battery relay harness
(x1)
Power supply harness 1
(for filing/back up hard
disk drive) (x1)
(for printer hard disk
drive) (x1)
Insulation sheet 1
(x1)
Insulation sheet 2
(x1)
Fan motor mounting
screw (x2)
Screw (M3 x 6)
(x8)
Screw (M3 x 6)
(x6)
(for printer controller) (x1)
6-14
Seal (x2)
Locking wire saddle
(x5)
Mini clamp (x1)
(For FP-D250/D350)
(2) Installation procedure
Remove all shipping materials/tape before the installation.
Location
1
(7 screws)
2
(1) Remove the rear cover mounting
bracket. (paper exit side)
(2 screws)
Check
1
4
2
1
3
(1) Connect the power harness 1
onto CN18 on the low voltage
power supply PCB.
power supply PCB.
power supply PCB.
(4) Connect the battery harness onto
CN15 on the low voltage power
supply PCB.
Unpacking/
Installation
3
6-15
Location
3
4
2
2
1
2
2
5
2
1
1
6
6-16
For FP-D250/D350
(1) Install the low voltage power supply cooling fan onto the printer
controller mounting bracket.
(Use lower side of the holes.)
(2 screws)
Note: Make sure that the label on
the cooling fan is facing towards the low voltage
power supply PCB.
(2) Connect the cooling fan harness
onto CN43 on the CPU PCB and
cooling fan connector.
(1) Install the power harness 1 and 2
in the locking wire saddles.
7
1
(1) FP-D250/D350
Install the printer controller mounting bracket (4 screws).
(2) Install the locking wire saddles.
(x4: FP-D250/D350)
(x3: FP-D450/D600)
(3) Install the mini clamp. (x1)
2
For FP-D250/D350
(1) Install the hard disk drive bracket
(left). (2 screws)
(2) Install the hard disk drive bracket
(right). (2 screws)
Note: When the optional hard disk
drive is installed, install it to the
hard disk drive mounting
bracket before it is installed to
the machine.
(Refer to the hard disk drive
(FA-HD01/HD02) installation
procedure.)
Check
Location
Check
(2) Remove the control panel mounting screws. (2 screws)
(3) Remove the blind cover and
screw.
8
3
1
2
10
(1) Connect the control panel (C)
PCB harness to the control panel
(C) PCB.
(2) Connect the control panel (D)
(C) PCB.
(1) Place the insulation sheet 1 onto
the control panel.
(2) Remove the ferrite core.
(3) Place the insulation sheet 2 onto
the control panel (C) PCB and
install them to the control panel
(4 screws).
(B) PCB.
(5) Re-install the ferrite core.
Unpacking/
Installation
9
6-17
Location
11
harness to the control panel (D)
PCB.
(2) Install the control panel (D) PCB
onto the control panel. (2 screws)
1
2
2
12
(1) Remove the control panel cover
Note:Unhook the 3 positions of
the control panel cover to remove.
(2) Install the control panel buttons.
(3 pcs.)
(3) Install the LED windows. (3 pcs.)
For filing
2
2
2
1
1
1
(1) Install the control panel cover.
(2) Reassemble control panel.
For Printer: Use the control panel cover
with two(2)button hole type.
*keep three(3)button hole
type cover and "save"
button for future up-grade.
For DDfiling: Use the control panel cover
with three(3)button hole
type.
13
1
14
2
6-18
(1) Attach the seal for printer, if
applicable.
(2) Attach the seal for network, if
applicable.
1
Check
6.6 Printer Unit (FA-PC350) / Multi PDL Controller (FA-MC350)
(1) Unpacking
SIMM PCB (x1)
(
Fan motor mounting
screw (x2)
Mounting bracket
(x1)
Fan motor (x1)
Floppy disks
X3:North America
X2:Except North America
X7:FA-MC350
Operating Guide software
(CD-ROM) (x1)
)
Screw (M3 x 6) (x7)
Screw (M3 x 6) (x2)
Note: Before installing this unit, install the printer unit / DD filing unit mounting
kit (FA-PK30)
6-19
Unpacking/
Installation
Printer controller PCB
(x1)
(2) Installation
Remove all shipping materials before installation.
Caution: Make sure the copier is unplugged before installation.
Location
1
1
2
(1) Install the SIMM PCB onto the
printer controller PCB. (outer slot).
(2) Install the mounting bracket.
(2 screws)
(3) Install the printer memory.
2
2
(7 screws)
(2) Remove the blind plate.
(1 screws)
3
(1) Install the controller cooling fan
onto the printer controller mounting bracket. (Use upper side of the
holes.) (2 screws)
Note: Make sure that the label on
the cooling fan is facing towards the rear side of the
machine.
(2) Connect the cooling fan harness.
(3) Install the harness in the locking
wire saddle.
6-20
Check
4
Check
(1) Install the printer controller PCB
onto the bracket (7 screws, 1 connector).
(2) Connect the power supply connector. (x1)
(3) Reassemble in reverse order.
Unpacking/
Installation
Location
6-21
6.7 Network Adapter Card for Ethernet (FA-NE35)
(1) Unpacking
NAC PCB (x1)
NAC harness (x1)
Mounting screws
(M3 x 6) (x4)
Operating Guide / Utility
software (CD-ROM) (x1)
Rizer card PCB (x1)
6-22
NAC PCB mounting
bracket (x1)
Wire clamp (x1)
(2) Installation
Caution: Make sure the copier is unplugged before installation.
Location
Procedure
Check
(1) Install the NAC PCB to the its
mounting bracket. (2 screws)
1
2
(1) Remove the rear cover.
(7 screws)
3
(1) Remove the blind plate. (1 screw)
(2) Remove the system control PCB.
(5 screw)
1
Unpacking/
Installation
1
2
6-23
Location
Procedure
Check
(1) Install the Riser card PCB onto
the system control PCB.
4
(2) Reinstall the system control PCB.
(3) Install the NAC PCB onto the riser
card PCB.
1
5
(1) Install the mounting screws.
(2 screws)
6
Perform following procedures only
when the printer controller is installed.
1
(1) Connect the NAC harness to the
connector J10 of the NAC PCB
and J2 of the printer controller
PCB.
1
7
(1) Reinstall the rear cover.
(2) Install the wire clamp.
(Except for north America)
Note: Refer to Operating Guide ‘Chapter 2: Installing the Network Adapter Card’
before turning on the power switch.
6-24
6.8 Hard Disk Drive for Printer (FA-HD01)
(1) Unpacking
Hard Disk Drive for
printer (x1)
IDE signal harness for
Hard Disk Drive (x1)
Hard Disk Drive mounting
screw (M3 x 6) (x4)
Note: Before installing this hard disk drive, install the printer unit / DD filing unit
mounting kit (FA-PK30) and the printer unit (FA-PC350) or multi PDL unit
(FA-MC350).
Unpacking/
Installation
Note: This hard disk is not formatted.
Format procedure is described in the printer operating guide (CD-ROM). Refer
to the user preset mode (Code # 00) of the printer key operator mode.
Please consult with end user to determine which HDD spool area format should
be used.
6-25
Location
1
(7 screws)
2
(1) Remove the hard disk mounting
bracket. (right) (2 screws)
1
3
4
1
2
1
3
6-26
(1) Install the printer hard disk
drive.(4 screws)
(1) Connect the IDE signal harnesses
to the IDE connector on the hard
disk drive and the printer control
PCB.
(2) Connect the power supply harness to the hard disk drive.
(3) Reinstall the hard disk drive
mounting bracket (right).
Check
6.9 DD filing unit (FA-WA01/WA02)
(1) Unpacking
Zip support bracket
(x1)
Zip support bracket
cover (x1)
Hard disk drive (x1)
Card reader (x1)
Card reader mounting
bracket (x1)
Backup battery (x1)
Battery mounting
bracket (x1)
Battery cover (x1)
Unpacking/
Installation
Zip drive (x1)
6-27
Zip drive (x1)
filing hard disk drive
(x1)
Personal card (x10)
Zip drive mounting
screw (M3 x 6) (x 3)
Zip support bracket
mounting screw
(M3 x 6) (x 3)
Zip support bracket
cover mounting screw
(M3 x 6) (x 2)
Battery bracket
mounting screw
(M3 x 6) (x 4)
Card reader mounting
Card reader bracket
mounting screw
(M3 x 6) (x 2)
Cable cover (x 1)
Card reader bracket
mounting screw
(M3 X 6) (X1)
Caution label
x2 North America
x1 Europe/Others
(
Cable cover
mounting screw
(M3 X 6) (X2)
Operating Guide
)
Flash-ROM
(X1)
Machine ID label
(X1)
Note : Before installing this unit, install the printer unit / DD filing unit mounting kit
(FA-PK30).
6-28
(2) Unpacking
Caution : Make sure the copier is unplugged before the installation.
Location
Procedure
Check
(7 screws)
(2) Remove the cable cover (Plastic).
(2 screws)
1
2
2
1
(1) Remove the copier top right cover.
(2 screws)
(2) Remove the pre-stamped knock
out from the top right cover.
1
2
(1) Install the Zip drive unit.
(3 screws)
Unpacking/
Installation
3
6-29
Location
Procedure
4
(1) Remove the Zip drive disk cover.
(2 screws)
5
(1) Install the support bracket to both
the Zip drive unit and the copier.
(3 screws)
6
to IDE connector CN7 on the system control PCB.
to Zip drive.
support bracket.
(4) Connect the power supply harness from the copier (located rear
side top left) to the Zip drive.
(5) Install the cable cover (metal). (2
screws)
4
5
2
1
(1) Reinstall the Zip drive cover.
(2) Install the support bracket cover.
(2 screws)
(3) Reinstall the top right cover.
7
2
1
6-30
Check
Location
Procedure
Check
Note : This bracket is for the
printer hard disk drive.
(FA-HD01)
bracket. (left) (2 screws)
8
2
1
9
(1) Install the hard disk drive in the
rear compartment (4 screws).
Note : When the backup hard disk
d r i v e ( FA - H D 0 2 ) i s
installed, install it in the
front compartment.
10
mounting bracket (left).
mounting bracket (right).
1
3
(1) Remove the system control PCB.
(3 connectors, 5 screws)
(2) Remove the P-ROM on the system control PCB.
Note: Machine will now boot
from the hard disk drive.
to the IDE connector (CN6) on the
system control PCB.
(4) Reinstall the system control PCB.
(5) Connect the ground wire to the system
control PCB mounting bracket.
Unpacking/
Installation
11
6-31
Location
Procedure
12
2
1
13
Label (small)
to IDE connector on the filing hard
disk drive.
hard disk mounting bracket.
(1) Attach the caution label (small)
onto the battery.
(North America/Europe only)
Battery
(1) Install the battery mounting
bracket onto the copier.
(4 screws)
14
1
15
6-32
(1) Install the battery and connect the
connector.
(2) Install the battery cover.
(9 screws)
Check
Location
Procedure
16
(1) Install the card reader onto its
mounting bracket. (2 screws)
(2) Connect the card reader harness.
17
(2) Remove the control panel mounting screws. (2 screws)
(3) Remove the blind cover and
screw.
(4) Remove the blind cover.
(5) Replace the Flash-ROM with new
one.
3
4
5
18
1
1
Check
(1) Install the card reader onto the
control panel. (2 self tapping
screws and 1 screw)
(2) Connect the connector to CN405
of the control panel CPU PCB.
(3) Reassemble control panel.
Unpacking/
Installation
1
(1) Attach the caution label (large)
onto the copier rear cover.
(North America only)
19
Label (large)
6-33
Location
Procedure
(1) Turn on the power switch.
(2) Press the “User Preset”, “Ledger/
A3 of Original Size” and “3” keys
mode.
(3) Press the “9” key to enter the F9
mode.
(5) Select F9 mode code “03”.
(6) Enter the machine ID number.
(7) Press the Stop key.
(8) Press the “User Preset” key and
“Clear” key simultaneously to exit
the service mode.
20
21
(1) Attach the machine ID number
label inside the lower cassette.
Lower cassette
S/N
:
-F6
-F6 DATA-
6-34
S/N:
ADAT
Machine ID number
Check
6.10 Hard disk drive for back up (FA-HD02)
(1) Unpacking
Hard Disk Drive for backup
(x1)
Hard Disk Drive mounting
screw (M3 x 6) (x4)
Note: Before installing this hard disk drive, install the printer unit / DD filing
unit mounting kit (FA-PK30) and the DD filing unit (FA-WA01).
1
Check
(7 screws)
Unpacking/
Installation
Location
6-35
Location
2
1
3
2
(1) Remove the IDE signal harness
from IDE connector on the hard
disk drive for filing.
(2) R e m o v e t h e p o w e r s u p p l y
harness from the filing hard disk
drive.
bracket (left) together with the
filing hard disk. (2 screws)
1
3
4
3
4
1
3
4
2
6-36
Note: When the hard disk drive
for printer (FA-HD01) is
already installed. Remove
IDE harness and power
harness for the hard disk,
then remove the mounting
bracket.
(1) Install the backup hard disk drive
in the front compartment
(4 screws).
(3) Connect the IDE signal harnesses
to the IDE connectors on both
hard disk drives. (2 harnesses)
(4) Connect the power supply harnesses to the hard disk drives.
(2 harnesses)
(5) Reinstall the hard disk bracket
(right). (2 screws)
(Connect the harness if the hard
disk drive for printer is installed.)
(6) Reassemble in the reverse order.
Check
6.11 Hard disk drive for Image memory (FA-HD03/HD04)
(1) Unpacking
hard disk drive (x1)
Battery mounting
bracket (x1)
Battery cover (x1)
Battery bracket
mounting screw
(M3 x 6) (x 4)
Backup battery (x1)
Caution label
x2 North America
x1 Europe/Others
(
)
Note : Before installing this unit, install the printer unit / DD filing unit mounting kit
(FA-PK30).
6-37
Unpacking/
Installation
Hard disk drive (x1)
Caution : Make sure the copier is unplugged before the installation.
Location
Procedure
1
(7 screws)
2
Note : This bracket is for the
printer hard disk drive.
(FA-HD01)
bracket. (left) (2 screws)
2
3
4
1
3
1
2
6-38
(1) Install the hard disk drive in the
front compartment (4 screws).
(3) Connect the IDE signal harness to
the IDE connector on the hard
disk drive.
(5) Reinstall the hard disk bracket
(right). (2 screws)
(Connect the harness if the hard
disk drive for printer is installed.)
Check
Location
Procedure
Check
hard disk mounting bracket.
4
2
1
5
Label (small)
(1) Attach the caution label (small)
onto the battery.
(North America/Europe only)
Battery
(1) Install the battery mounting
bracket onto the copier.
(4 screws)
6
1
(1) Install the battery and connect the
connector.
(2) Install the battery cover.
(7 screws)
Unpacking/
Installation
7
6-39
Location
(1) Attach the caution label (large)
onto the copier rear cover.
(North America only)
8
Label (large)
6-40
Procedure
Check
Section VIl Glossary of Terms
Network, Printing, Copying and Imaging Terms
A
A/D Converter Is an Analog to Digital Converter. Generic term for any device that
changes continuous wave (analog) activity to binary (digital) code, or vise versa.
Modems, CCDs and Faxes are A/D converters.
Adobe Type Manager Software from Adobe Systems for Macintoshes that eliminates
jagged edges on screen fonts and allows inexpensive (non apple) laser printers to
reproduce PostScript fonts accurately and clearly.
Alternate buffer Two buffers are sometimes used to handle data I/0. These are a
alternated to achieve continuous throughput.
Alternate routing Safety technique enabling communication to continue in the event
of node failure or congestion. The network design allows for alternate paths through
the network to arrive at the same destination.
Ansi (American National Standards Institute) A group that defines US standards for
the information processing industry. Ansi participates in defining network protocol
standards and represents the US on other international standards-setting bodies
like ISO.
Applications Programming Interface (API) Software designed to make computer
functions available to an application program PC and network operating systems
have them. APIs in a network must be compatible to ensure programs are accessible
to machines other than those they reside in. Some APIs, such as NetBios, are de
facto standards.
APPC/PC A version of APPC developed by IBM to run on PC based Token Ring
AppleShare Apple system software that allows sharing of files and network services
via a file server in the Apple Macintosh environment.
7-1
Glossary
of Terms
networks.
AppleTalk A seven- layer protocol stack developed by Apple for communications
between its Apple Macintosh product range. Apple defines it in similar terms to the
functionality of the seven-layer OSI model
Application Layer The top layer in the OSI Reference Model comprising the interface
between the OSI environment and a user’s application. It does not contain
applications, but provides a link from application software on one system to
applications an another computer through the OSI environment. Several applications
layers support different user tasks such as e mail and file transfer and transaction
processing.
Architecture Refers to the way a system is designed and how the components are
connected with each other. There are computer architectures, network architectures
and software architectures.
Archive A copy of data on disk, CD-ROM, magnetic tape, optical disk, etc., for long
term storage and later possible access. Archived files are often compressed to save
storage space.
ARP (Address Resolution Protocol) A TCP/IP protocol for determining the hardware
address (or physical address) of a node on a local area network connected to the
Internet, when only the IP address (or logical address) is known. An ARP request is
sent to the network, and the node that has the IP address responds with its hardware
address. Although ARP technically refers only to finding the hardware address, and
RARP (for Reversed ARP) refers to the both senses.
ASCII The American Standard Code for Information Interchange developed by ANSI
to encode characters in seven bit units. These are normally padded out with an
eighth bit that can represent parity to make up an eight-bit byte. This eighth bit can
also be used to make ASCII support international character sets, extending the 128
possible seven-bit combinations to 256.
Asic (Application-Specific Integrated Circuit) Pronounced A sick, it is a Very Large
Scale Integrated circuit, custom-designed to perform one or more particular functions.
Advantages include fewer discrete components, lower power consumption and
increased reliability.
7-2
Asynchronous communications A method of transmitting data in which each
transmitted character is sent separately. The character has integral start and finish
start and stop bits so that the character can be sent at an arbitrary time, and separate
from any other character. It is the most rudimentary type of communication as the
originating and receiving machines do not have to be synchronized. Cheap, reliable
and common among PCs and minicomputers, its disadvantage is the large number
of extra bits needed for the data to be interpreted.
ATM (Asynchronous Transfer Mode) A cell- based data transfer technique in which
channel demand determines packet allocation. ATM offers fast packet technology,
real time, demand led switching for efficient use of network resources. It is also the
generic term adopted by ANSI and the ITU-TS to classify cell relay technology within
the realm of broadband WANs, specifically B-ISDN. In ATM, units of data are not
time related to each other and, as part of the B-ISDN standard, is specified for digital
transmission speeds from 34Mbit/s to 622Mbit/s. IBM currently offers ATM at a non
standard 25Mbit/s format. ATM will be the high band width networking standard of
the decade.
Attenuation The weakening of transmitted signals as they travel away from their
point of origin. Amplifiers can recharge the signal up to a point.
Autochanger A device that holds multiple optical discs and one or more disk drives,
and can swap discs in and out of the drives as needed. This may also be referred to
as a jukebox.
AUI (Attachment Unit Interface) The IEEE 802.3 specified cable and connector used
to attach devices to a MAU. Defined in Section 7 of the 802.3 standard.
Automatic Emulation Switching A printer with this feature automatically accepts a
print job (data) in the emulation it is sent in (PCL5e for instance) without requiring the
user to manually set the printer to accept data for this emulation.
7-3
Glossary
of Terms
Auxiliary Storage External storage devices, such as disk drives, optical drives and
tape recorders.
B
Back end The server part of a client/server application. It provides services across
the network that have been requested by the client. For example, a back end may be
a database server that responds to SQL requests from a workstation running a front
end application.
Back-up A duplicate copy of data places in a separate, safe place electronic storage,
on tape, on a disk, in a vault to guard against total loss in the event the original data
some how becomes inaccessible.
Back-up server Software or hardware which copies files so that there are always
two current copies of each file. Also known as a shadow server.
Backbone A high-capacity network that links together other networks of lower
capacity. A local backbone network would typically be an FDDI network acting as an
in building backbone to link together multiple LANs. A wide area backbone network
would typically use digital leased circuits and multiplexers or routers.
Background Task or Mode A secondary function perforated by a computer without
interrupting its current or primary task.
Back-up domain controller A server in a network domain that keeps and uses a
copy of the domain’s user accounts database to validate logon requests.
Bandwidth The range of frequencies a transmission line or channel can carry: the
greater the bandwidth, the greater the information - carrying capacity of a channel.
For a digital channel this is defined in bit/s. For an analog channel it is dependent on
the type and method of modulation used to encode the data.
10Base2 A form of Ethernet and IEEE 802.3 network cabling using thin coaxial. It
refers to 10Mbit/s speed Baseband transmission over 200 meters maximum length
in practice 185m) and is commonly known as Cheapernet.
10Base5 A form of Ethernet and IEEE 802.3 network cabling using thick coax. It
refers to 10Mbit/s speed Baseband transmission and 500m maximum length.
7-4
10BaseT A form of Ethernet and IEEE 802.3 network cabling using twisted pair
cabling. It refers to 10Mbit/s speed Baseband transmission twisted pair cable with a
maximum segment length of 100m.
100BaseT IEEE standard from proposals by the Fast Ethernet Alliance (including
3Com and SynOptics). It will support Category 3,4 & 5 UTP cabling.
100BaseVG AnyLan A competing proposal to 100BaseT (promoted by Hewlett
Packard, IBM and Proteon among others) to the IEEE for a 100Mbit/s standard over
voice grade UTP the cable most users already have installed in existing 10BaseT
systems. Based on Quartet Signaling and demand priority protocol, it preserves the
infrastructure and will need only a new hub and upgraded adapters in PCs/work
stations. It claims support for Category 3,4 & 5 UTP cabling for both Ethernet and
Token Ring.
Baseband A term defining any network in which the information is modulated onto a
single carrier frequency. The digital input is applied directly to the transmission media
without the intervention of a modulating device, which works well if there is wide
bandwidth and distances no more than several hundred meters are involved. It is
common in LANs and limited distance modems. All stations attached to the network
have to participate in every transmission. Simpler and cheaper than Broadband, it
permits only one “conversation” at a time as the whole of the bandwidth is used to
transmit a single digital signal. Ethernet is a baseband network.
Bi-directional parallel A port incorporated on a PC-compatible computer. It sends
and receives detailed information to and from the connected device. It is usually
used to connect a printer. See IEEE-1284 for additional information.
Bi-level A binary scan that assigns each pixel an attribute of either black or white, no
gray scale or color.
Bindery A database that contains definitions for entities such as users, groups and
workgroups in the Novel NetWare LAN network operating system environment. The
bindery supports the design, organization and secure operation of the NetWare
Bit is a contraction of the words binary digit. It is the smallest unit of information in
a digital computer and can define two conditions on or off, 0 or 1, black or white.
7-5
Glossary
of Terms
environment.
Bitmap Strictly speaking, a bitmap is a resolution dependant computer file usually a
scan, but perhaps a file from a paint program in which each pixel contains one bit of
tonal information. In practice, people donít limit the use of the term bitmap to single
bit per pixel images.
Bits per second The rate at which individual bits are transmitted across a
communications link or circuit; written bit/s. One thousand bit/s is 1 Kbit/s, and one
million bit/s is 1 Mbit/s.
Block A group of characters or bytes treated as a unit.
BNC connector A cylindrical push-and-twist connector for connecting thin co-axial
cable, such as 10Base2 “thin wire” Ethernet, and to link thin wire Ethernet to network
interface cards, transceivers and other network elements. Said to be short for Bayonet
Neill-Concelman after the developers of the connector. Also referred to as a Barrel
Nut Connector.
Booting Loading a computer memory with information needed for it to operate.
Remote booting refers to loading software over the network.
BOOTP A protocol described in RFCs 951 and 1084 and used for booting diskless
workstations.
Bridge Device connecting two separate networks at the OSI Data Link Layer (Level
Two Media Access Control Layer). Once bridging is accomplished, the bridge makes
interconnected LANs look like a single LAN, passing data between the networks and
filtering local traffic. There are two key classifications of bridge: those supporting
Spanning Tree and, for Token Ring networks, those supporting Source Routing.
Bridges connect networks using dissimilar protocols and do not interpret the data
they carry. They control network traffic and security, filtering where necessary to
boost network, performance and contain sensitive data to particular LAN areas.
BSI (British Standards Institute) The UK standards body responsible for input into
European and international standards setting bodies like ISO and the ITU-TS.
7-6
Broadband Also referred to as wideband. A term describing any network that
multiplexes multiple, independent network carrier frequencies on to a single cable. It
allows multiple simultaneous “conversations”, since the independent networks operate
on different frequencies and do not interfere with each other. In LAN terminology, it
refers to a system in which multiple channels access a medium, for example co-axial
cable, that has a large bandwidth using Radio Frequency (RF) modems. This may
allow the co-axial cable to carry multiple separate LANs whose transmission is being
modulated at different frequencies. In cable television (CATV), broadband describes
the ability to carry 30 or more TV channels and is synonymous with wideband.
Broadcast The simultaneous transmission of data via a network from one terminal
to a set of destinations or to all destinations.
Brouter An industry term for a device with the functionality of a bridge and router. It
supports more than two LAN connections and uses Level Two addresses for routing.
The term is mostly used by bridge vendors.
Browser A program used to view the World Wide Web (WWW) sites or pages on
the Internet or Intranet. Initially, browsers only displayed text information, but are
now capable of displaying graphics, video, and audio. With the introduction of these
new capabilities, the popularity of the WWW has exploded. The WEB now offers
extraordinarily rich and diverse content including music, movies, real time audio and
video broadcasts, and interactive resources. Browsers have evolved to handle these
new resources, encompassing new protocols and programming languages. Two of
the most popular browsers are Netscape Navigator and Microsoft Internet Explorer.
Buffer A temporary storage place for data, designed to compensate for a difference
In transmission speeds or to hold data when there is a difference in timing of events.
It can be a software program, a storage facility or a hardware device, ensuring the
data always has somewhere to go, even if it has to be held up for while in the buffer
until it can be transmitted to the destination. Without it the RIP would not be able to
keep up with the speed of the engine.
Bus topology A type of network in which all tie devices are connected in a line to a
on to the network. Each device determines which messages are intended for it alone,
and selects those.
7-7
Glossary
of Terms
single cable. A bus network has two distinct ends. All devices which attached to a
bus network have equal access to it and they can see all the messages that are put
Byte Eight bits forming a unit of data. Usually each byte stores one character.
C
Cache Pronounced cash. Small portion of high speed memory used for temporary
storage of frequently used data. Reduces the time it would take to access that data,
since it no longer has to be retrieved from disk.
Category 3 cable Standard for UTP voice grade cabling specified by the EIA/TIA
568 standard for use at speeds up to I0Mbit/s including 10BaseT Ethernet.
Category 4 Cabling standard specified by EIA/TIA 568 for use with speeds up to
20Mbit/s including 16Mbit/s Token Ring.
Category 5 Cabling standard specified by ElA/TIA 568 for use with speeds up to
100Mbit/s including FDDI (TP PMD), 100BaseT and 100BaseVG-AnyLan, and
potentially ATM at 155Mbit/s.
CCD (Charged Coupled Device) This scanning method uses florescent light to reflect
images off scanned documents and toward an array of photoelectric cells called the
charge coupled device which converts the light and dark portions of the page into
electronic code. CCD scanners must reduce a page size image to fit a CCD array
the size of a postage stamp. To do this, a complex light path consisting of lens and
mirrors is employed.
CCITT (The International Telegraph and Telephone Consultative Committee) Former
name for the ITU-TS (International Telecommunications Union), a Specialized Agency
of the United Nations.
CCITT Study Groups The ITU-TS (formerly the CCITT) operates as a series of
groups considering specialist areas. There are key study groups applicable to
networking and communications such as Study Group VII responsible for data
communications networks and the X series Recommendations and Study Group
XVIII covering digital networks including ISDN.
7-8
CD-ROM Compact Disc Read Only Memory. A data storage system using CDs as
the medium. CD-ROMs hold more than 600MB of data.
Centronics interface A parallel interface with 36 pins that will transmit eight data
bits simultaneously. The interface originates from the Centronics Company, a printer
manufacturer. It has become widely used as a parallel interface standard.
Character Pitch The number of characters per inch.
Character Set The group of symbols, letters and or codes that are used to represent
a language. The character set for English has 26 characters. The ASCII character
set has 128 characters.
Charge An intrinsic property of electricity. A charge is either positive or negative.
Charges are used to create latent images in electrophotography.
Cheapernet Thin wire Ethernet.
Chooser The name of Macintoshes utility that lets the user choose which printer,
server, modem, scanner, etc., on the network he wants to use.
Circuit switching The transmission technique in which a physical circuit is established
between sender and receiver before transmission takes place. When the transmission
is complete, the circuit is freed.
Click Charge A per page maintenance fee incorporated into service contracts by
vendors of mid-range and production oriented printers or copiers. Click charges
normally are charged in addition to a flat monthly maintenance rate. Click charges
are not used by vendors of offset lithographic equipment, and only a few vendors
use them for production oriented color printers.
Client/server computing The division of an application into two parts; a front end
client and a back end server. It allows multiple front ends running on a PC or Unix
workstation (clients) to access the same SQL based server database at the same
it at the central server. An application that is running in such a fashion with client and
server linked by a LAN is termed a bifurcated application.
7-9
Glossary
of Terms
time over the LAN. The aim is to off-load as much processing as possible to the
intelligent desktop leaving only the shared information and the software for managing
Cluster A group of terminals or workstations on the same system.
CMOT (CMIP/CMIS over TCP) The use of SO CMIP/CMIS network management
protocols to manage gateways in a TCP/IP Internet. CMOT is a co-recommended
standard with SNMP.
Co-axial cable A cable comprising a central wire surrounded by a second tubular
screening of fine wire. Associated with IBM for linking terminals and other devices
needing high-speed links, coax is used in Ethernet. It is difficult to add or remove
devices from a coaxial LAN as the cable is unwieldy and thick so is being superseded
by UTP.
Collate In binding, the gathering of sheets in the proper order.
Collision The result of two devices on a shared transmission medium, like Ethernet,
transmitting simultaneously. Data is corrupted and both devices must retry their
transmissions. A delay mechanism used by both senders drastically reduces the
chances of another collision.
Communications Manager An individual often underpaid and invariably overworked,
dedicated to providing cost effective, ultimately flexible networking to users.
Compatibility Indicates the types of Network Operating Systems, computers and
workstations the printer is compatible with or supports.
Compression A software of hardware process that shrinks images so they occupy
less storage space, and can be transmitted faster and easier. Usually accomplished
by removing the bits that are blank spaces and other redundant data, and replacing
them with a smaller algorithm that represents the removed bits.
Concentrator A central chassis into which various modules, such as bridging,
supervisory, 10BaseT and other peripheral cards are plugged.
Connection-oriented service The transport of packets of information from one
network node to a destination node following an established network connection.
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Connectionless Service The transport of a single datagram or packet of information
from one network node to a destination node or multiple nodes without establishing
a network connection.
Contention The process whereby multiple users make requests for transmission
bandwidth across a transmission link but the pool of bandwidth is less than the
aggregate amount of bandwidth the users could request between them. Contention
is used to resolve which users gain access to the bandwidth. When this s applied to
multiplexerís, it is concerned with the multiplexer’s ability to allow a number of channels
to contend for transmission bandwidth that is less than the sum of all the channel
rates.
Continuous Tone A photographic image which contains gradient tones from black
to white.
Contrast The tonal gradation between the highlights, middle tones and shadows in
an original or reproduction.
Controller One or more microprocessors that direct the operations of a printer, disk
drive, or multiple terminals.
Converter A repeater that also converts from one media type to another, such as
from fiber to copper. Often called a media adapter.
Cover Page A term applied to a variety of papers used for covers of catalogs,
brochures, booklets and similar pieces.
CSU (Channel Service Unit) (1) In the US, data transmission equipment to repeat
the signal from the carrier and ink to CPE. Vendors add value to CSUs by adding
performance monitoring and management. (2) In Europe, CSUs are sold for their
value features like diagnostics and performance monitoring. The basic repeating
function is prd in the NTU (networking terminating unit). CSUs monitor quality on El,
7-11
Glossary
of Terms
E2 or E3 circuits in terms of transmission and line loading.
D
D/A Converter Digital to Analog converter, Generic term for any device that changes
digital (binary) pulses into continuous wave (analog) signals. Modems, Faxes, CCDs
are D/A converters.
Data compression A way of reducing the amount of data to be transmitted by applying
one of severs techniques that reduce the number of bits needed to represent the
information. When the data is received It is decompressed into its original form.
Database Data that has been organized and structured in a disciplined fashion, so
that access to information of interest is as quick as possible. Database management
programs form the foundation for most document storage systems.
Database server A database installed as a back-end or server component of a
client-server system, which can be accessed over a LAN by one or more client, or
front-end applications through the use of query language, typically SQL. The server
part of the program is responsible for updating the records, ensuring that multiple
access is available to authorized users, protecting the data and communicating with
other servers holding relevant data. The client end of the program requests records
and then modifies them, while the server tracks records down for the client and adds
new ones.
Datagram A method of sending data in which parts of the message are sent in
random order. The recipient machine has the task of reassembling the parts in the
correct sequence. The datagram is a connectionless, single packet message or item
of data that can traverse a network at OS I Level Three, the Network Layer. It typically
does not involve end-to-end session establishment or delivery-confirmation
acknowledgment. As well as the information within the datagram, there is a destination
network address and usually a source network address.
Data link A direct serial data communications path between two devices without
intermediate switching nodes.
7-12
Data Link Layer Two of the ISO OSI model is responsible for the transmission of
information over a physical medium. After establishing the link it ensures the errorfree delivery of the information through the use of error detection, error recovery and
flow control. The contention access methods such as CSMA/CD and Token passing
are Layer Two activities.
DCE (Distributed Computing Environment) A suite of software utilities and operating
system extensions that will, in theory, create applications on networks of
heterogeneous hardware - PCs, Unix workstations, minicomputers and mainframes.
The DCE is the product of the OSF. The DCE is designed to simplify the building of
heterogeneous client/server applications and provides seven general services:
Remote Procedure Call, Security, Naming (directory), Distributed File System,
Threads, Time and PC Integration. DDE (Dynamic Data Exchange) - A Microsoft
messaging specification. When DDE-compliant applications are combined, dynamic
documents can be created which update each other as data changes.
Decompress To reverse the procedure conducted by compression software, and
thereby return compressed data to its original size and condition.
Developer In electrophotography, the developer is a consumable that acts as a
charging agent. It has magnetic properties that allows it to carry toner particles until
they are transformed to the photoconductive drum or belt. It may also be called
carrier. In mono component systems the toner and developer are mixed together. A
dual component system keeps the toner and developer in separate areas.
Device driver In the context of computer networking a device driver is a software
module forming part of a computer operating system, or software that interacts with
the operating system. It aims to control communications equipment, such as a LAN
network adapter card and facilitate the transfer of information to and from the network.
Other examples of device driver programs include software to support the activities
of printers, disks and mice.
DHCP (Dynamic Host Configuration Protocol) A TCP/IP protocol that enables a
network connected to the Internet to assign a temporary IP address to a host
Digital Copier A digital copier uses a scanner to scan and then reproduce hard
copy documents. In contrast, and analog photocopier uses lenses and reflected
light to copy a document.
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Glossary
of Terms
automatically when the host connects to the network.
Digital signal A signal with only two values, normally 0 and 1, during transmission,
unlike an analog signal whose values constantly vary.
Digitize To convert an image or other data into a digital representation that may be
processed electronically. You digitize a photograph when you scan it to copy.
Direct attachment The IBM term for linking a device or LAN directly to a host computer
through an appropriate Control Unit, like a cluster controller.
Disk Duplexing A method of fail safe protection, occasionally used on file servers
on local area networks. Disk duplexing involves copying data onto two disks
simultaneously, each through a separate disk channel. The idea is, if one channel is
faulty, the other will continue to operate normally.
Disk Mirroring A fault tolerant technique that writes data simultaneously to two
hard disk drives using the same hard disk controller. The disks operate in tandem,
constantly storing and updating the same files. Mirroring alone does not ensure
data protection. If both disks fail at the same time, you will still lose data.
Disk server A device equipped with disks and a program permitting users to create
and store files on those disks. Each user has access to their own section of disk on
the disk server. The aim is to give users access to disk space that they would not
normally have on their PC. The disk server is linked to the PCs via a LAN. The next
level of sophistication would be a file server.
Distributed computing The trend away from having big, centralized computers
such as mini-computers and mainframes to bring processing power to the desktop.
Often confused with distributed processing.
Distributed processing An approach that allows one application program to execute
on multiple computers linked together by a network. The networked computers share
the work between them.
Dithering Simulating gray tones by altering the size, arrangement or shape of
background dots.
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DMA (Direct Memory Access) A technique for high-speed data transfer between a
device such as LAN network adapter card and the computer memory. DMA bypasses
the Central Processing Unit of the computer, PC or workstation, allowing the device
to transfer a block of information directly across the bus into system memory.
DMI (Desktop Management Interface) A set of APIs outlined by the DMTF, comprising
three components: service layer, component interface and management interface.
DNA (Digital Network Architecture) The network architecture of Digital Equipment
Corporation with eight layers. The DNA is similar in structure to OSI at lower levels,
except that the top three layers of the DNA correspond to the top two layers in the
OSI model.
DNS (Domain Name System) The online distributed database system used by Internet
to map names into IP addresses. DNS servers throughout the connected Internet
implement a hierarchical namespace that allows sites freedom in assigning machine
names and addresses. DNA also supports separate mappings between mail
destinations and IP addresses.
Document Retrieval The ability to search for, select and display a document or its
facsimile from storage.
Domain A group of nodes on a network that form an administrative entity. It could
also be a number of servers grouped together and named to simplify network
administration and security. Every computer on the LAN belongs to at least one
domain. Being logged in on one domain, however, does not limit resources in other
domains to which the user has access permissions.
DOS Disk Operating System comprising one or a suite of programs managing a
disk-based computer system. Dos schedules and supervises work, allocating
computer resources and the operation of peripherals. Versions of Dos from different
vendors exist: Microsoft’s MS-Dos is the most common. Dos 3.1 was the first version
of MS and PC Dos able to support LAN functions separate, of course, from the
network’s own operating system - notably including record and file locking which is
Dos LAN Manager A Dos version of Microsoft’s network operating system LAN
Manager. It gives Named Pipes (an applications interface) support to Dos machines,
enabling them to use the client/server environment.
7-15
Glossary
of Terms
now standard on multi-user systems.
DPA (Demand Protocol Architecture) A technique for loading protocol stacks
dynamically as they are required. It is associated with adapter cards in workstations
and servers. Only the protocol stacks that are needed for a particular communications
sessions are loaded. Examples of stacks that could be loaded include TCP/IP, XNS,
SPX/IPX and NetBios.
DPI (Dots Per Inch) A measurement of a output device resolution and quality.
Measures the number of dots a printer can print per inch both horizontally and
vertically. A 600 dpi printer can print 360,000 (600 x 600) dots on one square inch of
paper.
DRAM (Dynamic Random Access Memory) Random access solid state memory
which has to be continuously refreshed to retain its data.
DTE (Data Terminal Equipment) A piece of equipment where a communications
path ends. The user’s equipment is collectively termed DTE and can include PCs
and display terminals.
DUMP Printout of a files contents without any report formatting.
Duplex Simultaneous, two-way independent transmission of data.
Duplexing The ability to print on both sides of a sheet of paper without manual
intervention. In some circles, duplexing is called perfecting. Some devices print both
sides simultaneously using multiple print engines. Others flip and re-direct the paper
so that it passes through the engine twice. There are two types of duplexing stackless
which prints the second side of the page right after the first side is printed, this
increases productivity and reliability and is limitless to the number of pages. The
second is stacked in a holding tray and is limited to the capacity of the tray.
Duty Cycle The durability of a printer, usually expressed in terms of how many
pages per month the manufacturer recommends for printing.
Dynamic node address An Apple-patented feature of AppleTalk under which each
node assigns itself a unique address code each time it is initialized. Conventionally,
nodes are assigned fixed addresses that do not change.
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Dynamic routing A process for selecting the most appropriate path or route for a
packet or datagram to travel around a network. At the end of each leg of the journey
of the packet across the network the router decides on the most appropriate path for
the packet or datagram to follow if there are multiple routes available. This is done
using network status information gathered from around the Internet and passed from
router to router through the use of routing information protocols.
E
EBCDIC (Extended Binary Coded Decimal Interchange Code) An IBM-developed
eight-bit binary code that can represent 256 characters. It allows the representation
of control codes and graphics in a logical format. It was created to represent data in
particular types of data processing and communications terminal devices.
EGP (Exterior Gateway Protocol) The protocol used by a gateway in one autonomous
system to advertise the IP addresses of networks in that system to a gateway in
another autonomous system.
EIA/TIA The US Electronics Industries Association and Telecommunications
Industries Association which have merged. The EIA is a US trade organization for
the electronics industry that concentrates on hardware interface standards. Best
known for the RS232C and RS422 standards that specify the electrical characteristics
of interconnections between terminals and computers or between two computers.
EIA/TIA 568 The EIA/TIA’s most famous standard specifying a maximum horizontal
cable run of 90 meters, allowing 10 meters for hub and device attachment resulting
a total cable length of 1000 meters. Its related Service Bulletins TSB 36 and 40
define three categories of cabling system for data communications: Categories 3, 4
& 5.
EISA (Extended Industry Standard Architecture) A 32-bit adaptation of the 8/16-bit
buses originally developed by IBM and now standard in almost all PCs that use
Intel’s 8086 and 80X86 chips. The EISA bus is a joint development from Compaq
Electronic Collation Ordering the pages of an electronic document so that they
print in the proper order. This becomes more complex with duplex systems that can
fit multiple pages into the image area.
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Glossary
of Terms
and other PC manufacturers. Contrast with Microchannel and ISA.
Electronic Overlay A collection of constant data known as a form that is electronically
composed in the host processor and may be merged with variable data on a sheet
during printing.
Energy Star Compliant A printer that is Energy Star compliant will default into low
wattage state as specified by the Environmental Protection Agency (EPA) when not
printing, thus consuming less power. Generally, most printers that offer a power
save feature meet the EPAs requirements, and thus qualify as Energy Star printers.
Encapsulation The process of sending data encoded in one protocol format across
a network operating a different protocol, where it is not possible or desirable to convert
between the two protocols. For example, where Ethernet LANs attach to an FDDI
backbone, it is not possible to convert between the different packet formats, so the
Ethernet packet is encapsulated in its entirety inside an FDDI packet as it crosses
the bridge on to the FDDI network. When the encapsulated Ethernet packet reaches
the bridge connecting the destination Ethernet LAN to the FDDI network, the Ethernet
packet is stripped out of the FDDI packet and put, unchanged, on to the destination
Ethernet LAN. Also known as protocol tunneling.
Engine The printing components of a laser printer, sometimes called the marking
engine or the print engine. Example the Apple laser writer and Hewlett Packard
LaserJet Printers use canon engines.
Engine Duty Cycle Indicates engine life in total number of pages, as rated by the
manufacturer.
EPS Acronym for encapsulated PostScript. An EPS file contains text and data.
EPS files can easily be printed by many different software applications. An EPS file
has two parts, a low resolution bitmap for monitor display and a resolution independent
of the image for printing.
7-18
Error control A means of ensuring that information received across a transmission
link is correct. The techniques involved typically use error detection to detect if the
transmitted data has been corrupted. The error control technique involves asking for
data to be retransmitted until a correct version is received.
Ethernet The most widely LAN transmission network. Based on a bus network
topology, it runs at a maximum 10Mbit/s - in practice far less - and adopts CSMA/CD
techniques operating over convention co-axial cable, thin wire co-axial cable and
unshielded twisted pair cabling. A fiber-optic implementation has also been defined.
Originally developed by Xerox, Intel and Dec, Ethernet has moved through V1 and
V2 proprietary definitions, and has now been standardized by the IEEE as the IEEE
802.3 standard. This has several implementations - 10Base5 for use over conventional
co-axial cable, 10BaseF for use over optic fiber, and 10BaseT for use over Unshielded
Twisted Pair (UTP) cabling.
Ethernet switching A technique inspired by Kalpana bringing the advantages of a
parallel networking architecture to current contention- based Ethernet LANs. Each
LAN can be segmented, each with its own 10Mbit/s path. When users on different
segments exchange data, an Ethernet switch dynamically connects the two separate
Ethernet channels without interfering with other network segments. The switch can
create multiple independent connections between separate segments, allowing
multiple parallel data exchanges. This multiplies network bandwidth without
modification to Ethernet end station hardware or software. Once disparaged by other
vendors, it now forms part of the portfolio of the major hub and router manufacturers.
F
Fast Ethernet Proposed 100Mbit/s technology for workstation LANs from the
7-19
Glossary
of Terms
eponymous Fast Ethernet Alliance, which includes 3Com and SynOptics. It has been
adopted by the IEEE as the basis for the 100BaseT Ethernet standard.
Fast packet switching A WAN technology capable of transmitting data, digitized
voice and digitized image information. It makes use of short, fixed length packets (or
cells) that are all the same size. The underlying switching technology is based on the
statistical multiplexing of data and voice in fixed length cells. Any of these packets
could carry digital voice, data or digital image information. All the packets travel at
Level Two of the OSI Model, and routing is performed on the basis of the Level Two
addressing. Fast packet is an effective way of making best use of available bandwidth.
It offers the benefits of conventional multiplexing techniques and circuit switching
techniques. It is one of the transmission technologies being developed for use with
B-ISDN. The switch used to route packets in a fast packet network is termed a fast
packet switch. Also, fast packet technology can carry data transmissions that enter
the network using a frame relay access method. For particularly high speed
networking, an implementation of fast packet switching known as ATM is being
commercially developed.
Fault tolerance A method of making a computer system or network resilient to faults
or breakdowns to avoid lost data and downtime. For servers this involves such
techniques as disk mirroring, disk duplexing or mirrored servers. For LANs and WANs
it may involve the use of multiple redundant transmission links.
FCC (Federal Communications Commission) US regulatory and approvals agency.
FDDI (Fiber Distributed Data Interface) An optical fiber-based token-passing ring
LAN technology with dual counter-rotating rings. Each ring carries data at a rate of
100 Mbit/s using a 125MHz transmission frequency. It has been standardized by the
American National Standards Institute (ANSI). An FDDI network has two modes of
attachment: a device may be a Single Attach Station - attached to one ring - or a
Dual Attach Station - attached to both rings. Typical applications of FDDI are in the
area of high speed LAN backbones.
FIFO (First In, First Out) Queue handling method that operates on the first come,
first serve basis.
File All data that describes one document or image, maintained under a single
naming code and stored in a computer or in a storage medium.
7-20
File server A computer, attached to a LAN, that runs a Network Operating System
(NOS). This lets the file server regulate communications among the workstations
connected to it across the LAN, and to manage shared resources available on the
file server, such as hard disk storage and printers. A file server may be dedicated:
the computer is used only as a file server; or non- dedicated: the underlying computer
that the LAN NOS runs on is used for another task simultaneously, for example as a
workstation.
Firewall A security system to prevent unauthorized access to an organizationís
internal network when itís connected to the Internet. By installing a proxy server
between the Internet and the internal network, the system observes and restricts
incoming Internet traffic. Access control can include authenticating each access
with a password, limiting the services available, allowing access from certified IP
addresses, or by any combination of these. Since the Internet is basically an open
network, the possibility that an unidentified third party may break in and interfere
with the data or network is much greater than with a closed exclusive network. On
the downside, a high security can also make the network more difficult for inbound or
outbound access by local users. To avoid this, the network manager must choose a
suitable firewall system for the network, and manage it carefully by observing logs
and other data.
Flow control The procedures for controlling the rate of transfer of data between two
points in a data network, such as between a protocol converter and a printer. This
avoids data loss when a recipient device’s buffer is full. Buffers play an essential role
in overall flow control in a network.
FNC (Federal Networking Council) A US group of representatives from those federal
agencies involved in the development and use of federal networking, especially those
networks using TCP/IP, and the connected Internet. The FNC coordinates research
and engineering. Members include representatives from the DOD, DOE, Darpa, NSF,
Nasa and HHS.
Focal point An IBM Network management term; it consolidates the functions needed
to manage centrally all parts of a network. It provides an end-to-end network view
7-21
Glossary
of Terms
and receives information from entry points and service points. NetView is IBM’s key
implementation of the focal point.
Foirl (Fiber Optic Inter-Repeater Link) Defined in IEEE 802.3 and implemented over
two fiber links, transmit and receive, this medium may be up to 500m and 1 kilometer
long depending on the number of repeaters in the network.
Fractional services Bandwidth available from carriers in increments of 64Kbit/s,
such as Mercury’s Switchband.
Frame A group of bits sent over a link. A frame may contain control and addressing
information, as well as error detection - for example CRC information - and forward
error correction information. The size and composition of the frame varies according
to the protocol. Often used synonymously with packet.
Frame relay A data communications interface originating from ISDN designed to
provide high speed frame or packet transmission with minimum delay and efficient
use of bandwidth. It is a variation on the X.25 interface and form of fast packet
switching. It derives its name from using the Data Link or “frame” OSI layer Two to
route or “relay” a packet directly to its destination instead of terminating the packet at
each switching node. This eliminates processing overheads and increases throughput
speed. Based on the ITU-TS Lap-D standard, it uses variable-length packets and
applicable only to sub-broadband, T3/E3 or lower, data transmission. Like Ethernet,
or token ring, frame relay assumes that connections are reliable. It does not have
error detection and error control within the network, which helps to speed up the
protocol. When errors occur frame relay relies on higher level protocols for error
control. Frame relay is often viewed as a replacement for X.25, primarily for LAN-toLAN bursty traffic. Voice over frame relay is available, but the subject of debate. It
will also become an access method for ATM-based WANs.
Front end The client part of a client/server application that requests services across
a network from a server, or back end. It typically provides an interactive interface to
the user, for example, a data entry front end, allowing data to be entered into a
server through the use of SQL.
FTP (File Transfer Protocol) The TCP/IP standard, high-level protocol for transferring
files from one machine to another. Usually implemented as applications level
programs, FTP uses the Telnet and TCP protocols. Full duplex - A channel capable
of transmitting in both directions at the same time.
7-22
Full Text Search The ability to search text files for occurrences of certain words,
digits, sentences or patterns of characters.
Fuser The part of the printing system that forces the toner to adhere to the paper.
There are several types of fusing systems heat, chemical and pressure.
G
Gamma A measure of contrast in photographic images.
Gateway Network interconnection device and software that operate at OSI Layer
Seven. A gateway supports a full stack of the relevant protocol, such as SNA, DecNet,
ISO, TCP/IP, and can covert to a non-seven layer protocol, such as async or BSC. It
is typically used to provide access to wide area networks over asynchronous or X.25
links from a LAN environment. Examples include pads and protocol converters.
GDI (Graphical Device Interpreter) PC compatible printers equipped with drivers
that allow it to print from a Windows operating system. Printing with this method
uses the computers controller and processor to prepare and send the data to the
printer in a form it needs to print it, thus skipping the process of converting the data
into a PDL or PCL format. Note that DOS operating system does not offer this
ability, as it cannot serve as an imaging processor.
GFI (Group Format Identifier) (X.25 reference) the first four bits in a packet header,
GFl contains the obit, Dbit and modulus value.
GGP (Gateway-to-Gateway Protocol) The protocol that core gateways use to
exchange routing information, GGP implements a distributed shortest path routing
computation.
Gigabyte (GB) 1,024 megabytes of digital data.
session. A GUI makes use of Windows, Icons, Menus and Pointers - so-called WIMP
systems - such as Microsoft Windows, GEM and X-Windows. Apple’s GUI is
particularly.
7-23
Glossary
of Terms
GUI (Graphical User Interface) Often pronounced “goo-ee”, it describes the screen
display that first greets a user and with which the user interacts during the computer
Gradient In graphics, having an area smoothly blend from one color to another, or
from black to white, or vise versa.
Group In the context of network security, a group is a set of users who share common
permissions for one or more resources. Individually assigned user permissions take
precedence over those assigned through groups.
Guard band The unused bandwidth separating channels to prevent crosstalk.
H
Half Duplex A two-way means of transmission, but data can only travel in one direction
at a time.
Halftone The process of simulating a continuous tone (contone) image with tiny
dots of varying size or position. Large dense dots which sometimes touch represent
darker tones. Smaller lighter dots with white areas between them represent light
tones.
Hard Disk Drive (HDD) A device that can either be internal or connected to the
printer via a SCSI interface or a PCMCIA card. HDDs provide storage for fonts,
forms, spooling and, if the printer is equipped with a fax board, for received faxes.
Header The control information added to the beginning of a transmitted message.
This may consist of packet or block address, destination, message number and
routing instructions.
Hertz A measure of radio frequency. One Hz = one cycle per second. KHz = 1,000Hz;
MHz =1,000,000Hz; GHz=1,000,000,000Hz.
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HDLC (High level Data Link Control) An ISO standard set of protocols for carrying
data over a link with error and flow control. Similar to IBM’s SDLC, versions of HDLC
are under development for multipoint lines. The ITU-TS later adapted HDLC for its
Link Access Protocol used for X.25 networks. It is a bit-oriented data link control
procedure under which all data transfer takes place in frames. Each frame ends with
a frame check sequence for error detection. There is a control field at the start of
each frame that allows error detection, and data link setup and data link termination.
HDLC is, in fact, a misnomer, as it is not a high level protocol.
HLMS (Heterogeneous LAN Management Specification) Network management
specification developed by IBM and 3Com. It provides an underlying structure for
the development of network management products which can function with a variety
of network operating systems and adapter cards.
Heterogeneous networking The networking of computers from different vendors,
or the running of different operating systems.
Host processor A minicomputer or mainframe attached to a network providing
services to network users.
Hot fixing The ability to detect and mark bad sectors of a disk, then assign alternate
disk sectors during routine LAN operation. This automatically updates the original
defect map.
Hot swap The ability of a device to have parts removed after, for example, a slot-in
card or fan failure, without affecting its operation. Many of today’s hubs offer hot
swapping without bringing down the network to charge a component.
Hub The center of a star topology network or cabling system. A multi-node network
topology that has a central multiplexer with many nodes feeding into and through the
multiplexer or hub. The other nodes do not usually directly interconnect. LAN hubs
are increasingly popular with the growth of structured cabling and the need for LAN
management.
protocols, but also supports bridging capabilities for network traffic that cannot be
routed - non-routable traffic.
7-25
Glossary
of Terms
Brouter or Hybrid Bridge/Router Network interconnection device with a standard
mode of operation as a router. It can support multiple OSI Layer Three routing
I
IAB (Internet Activities Board) The technical body that sets policy and standards for
TCP/IP and the connected Internet suite of protocols. Its task forces are the IETF
and IRTF.
IBMCS (IBM Cabling System) Cabling system introduced by IBM in 1984 based
around Shielded Twisted Pair (STP) cabling.
ICMP (Internet Control Message Protocol) Protocol allowing status messages to be
generated by an internetworking gateway, indicating a variety of error or unusual
conditions.
ICR (Intelligent Character Recognition) Software similar to OCR, but it learns to
recognize different fonts and character styles, so is more efficient. Useful to make
paper documents accessible via groupware.
IEEE Institute of Electrical and Electronic Engineers: a US publishing and
standards organization responsible for many LAN standards such as the 802 series.
IEEE 802.2 The Data Link standard for use with IEEE 802.3, 802.4 and 802.5
standards. It specifies how the basic data connection should be set up over the
cable.
IEEE 802.3 The IEEE standardization of Ethernet. A Physical Layer definition that
includes specification for physical cabling plus the method of transmitting data and
controlling access to the cable. It uses the CSMA/CD access method on a bus topology
LAN.
IEEE 802.4 The IEEE standardization of Token Bus. A Physical Layer standard that
uses the Token Ring passing access method on a bus topology LAN. Used by LANs
implementing the Manufacturing Automation Protocol. The older Arcnet operates in
a similar way but does not follow 802.4, but Arcnet supporters have been trying to
get the technology ratified by IEEE without success.
IEEE 802.5 The IEEE standardization of IBM Token Ring. A LAN Physical layer
standard that uses the Token Ring passing access method on a ring topology LAN.
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IEEE 802.6 The standard that defines Mans, an SMDS-based, short packet ATM
transmission.
Image The computerized representation of a picture or graphic.
Imaging Recording human readable images, pictures, images, motion, text, etc.,
into machine readable formats
Imaging System Collection of units that work together to capture and recreate
images. At its simplest, it has an acquisition device (scanner), and image processor
and an imaging devices (printers, computers, and optical storage).
In-band signaling A communications technique in which the part of a signal bearing
the data control information is contained within the bandwidth of the signal it is
controlling.
Index At its simplest, itís a descriptive set of data associated with a document for
locating the documents storage location. In a more complex and demanding role,
indexing can be used to consolidate documents hat may not be, at first glance,
related, or that may be stored in different locations, or on different media.
Interface The place or piece of equipment where interaction occurs between two
regions or systems or processes. A common example is the RS232-C port or the
AUI on LANs between the computer and transceiver.
Internet (1) A group of networks that are interconnected so that they appear to be
one continuous network, and can be addressed seamlessly at the Network Layer
Three of the OSI model. Typical internets are built using routers, either to form a
backbone network comprised of routers, or to link together LANs at the Network
Layer.
Internet (2) A collection of networks and gateways, including the Milnet and NSFNET,
all using the TCP/IP protocol suite. It functions as a single, cooperative virtual network.
services including electronic mail and EDI.
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Glossary
of Terms
The Internet provides universal connectivity and three levels of network services:
connectionless packet delivery; full duplex stream delivery and application level
Internet address An IP address assigned in blocks of numbers to user organizations
accessing the Internet by the US DoD’s Network Information Center. Duplicate
addresses can cause major headaches on the network, but the NIC trusts
organizations to use individual addresses responsibly. Each address is an eight- bit
number (0 to 255). There are three classes: A, B and C, depending on how many
computers on the site are likely to be connected. The NIC is running out of Class B
addresses, so work is in progress to extend the address format to allow expansion
into the next century.
Intranet A LAN that uses Internet Protocols. A typical Intranet is a 10BaaseT network
with TCP/IP as the common protocol, and including mail, WWW and or FTP servers.
E-mail is used as the internal communications method, and WWW is used for data
sharing, bulletin boards, etc. The advantages over the network system using different
protocols are its interoperability, ease of use and cost effectiveness. Itís platform
independent so that any computer capable of Internet communications can be used
on the network. Software and equipment for the Internet are easy to get, and many
people already know how to use it. Intranets can be connected to the Internet with a
router for access to full Internet capabilities.
ICMP (Internet Control Message Protocol) An integral part of the Internet Protocol
(IP) that handles error and control messages. ICMP also includes an echo request/
reply used to test whether a destination is reachable and responding.
IESG (Internet Engineering Steering Group) A US committee consisting of the IETF
chairperson and the six area managers. The IESG coordinates activities among the
IETF working groups.
IETF (Internet Engineering Task Force) A US committee concerned with short-term
and medium-term problems with TCP/IP and the connected Internet. The IETF is
divided into six areas which are further divided into working groups and its chairperson
is a member of the TAB.
Interoperability The ability to exchange information between two systems so that
the information can be processed meaningfully.
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IP (Internet Protocol) The TCP/IP standard protocol that defines the IP datagram as
the unit of information passed across an Internet and provides the basis for
connectionless packet delivery service. IP includes the ICMP control and error
message protocol as an integral part. It provides the functional equivalent of ISO
OSI Network Services.
IP address The 32-bit address assigned to hosts that wants to participate in a TCP/
IP Internet. There was another method called UUCP (UNIX to UNIX Copy), but the
available services were limited with this method. There are two types of IP connection;
dial up IP connection and IP connection via a leased line. IP connection using a
leased line is the most effective way to get connected, but the cost are also higher.
IP datagram The basic unit of information passed across a TCP/IP Internet.
IPX/SPX (Internetwork Packet Exchange/Sequenced Packed Exchange)
Thenetwork and transport level protocols used by Novell NetWare, which together
correspond to the combination of TCP and IP in the TCP/IP protocolsuite.
ISA (Industry Standard Architecture) The 8/16-bit bus architecture originally developed
by IBM and now standard in almost all PCs that use Intel’s 8086 and 80X86 chips.
J
JBIG (Joint Bi-Tonal Image Group) JBIG is an international standard compression
algorithm for black and white (bi-tonal) and gray scale image information. JBIG is a
lossless compression algorithm - there is no change to the image information during
the compression/decompression process. The improved compression results strictly
from the advanced computational nature of the algorithm. JBIG’s advanced
compression capability improves the efficiency of image storage and image
transmission. This directly translates into real cost savings to end users. A 100%
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Glossary
of Terms
improvement in compression means that users can cut media, disk drive, jukebox
and network bandwidth-related costs in half.
JPEG (Joint Photographic Experts Group) Originally the name of a committee for
graphics standards developed, co-sponsored by the International Organization for
Standards (ISO) and the International Telecommunications UnionTelecommunications (ITU-T). The bit-mapping graphics file standard developed by
this committee is also called JPEG and is widely used on the Internet. Generally a
JPEG graphic is compressed at a higher rate (e.g. 10:1 or 20:1) than a GIF file.
JPEG files suffer from very little color or brightness degradation, though this varies
depending on the amount of compression used. There is no limit on resolution or file
size.
Jukebox A device that holds multiple optical discs and one or more disc drives, and
can swap discs in and out of the drives as needed.
K
Key A word, number or phrase associated with a document to aid in its retrieval
from storage. Sometimes called descriptors. There are often many keys used
together to fully locate a document; together they are called index.
Kilobyte (kb) 1,024 bytes of digital data.
L
LAN (Local Area Network) A communications system that links computers into a
network, usually via a wiring-based cabling scheme. LANs connect PCs, workstations
and servers together to allow users to communicate and share resources like hard
disk storage and printers. Devices linked by a LAN may be on the same floor or
within a building or campus. It is user-owned and does not run over leased lines,
though a LAN may have gateways to the PSTN or other, private, networks.
Landscape Page orientation in which the page width exceeds the page length.
LAN Manager for Unix Systems An implementation of LAN Manager for use with
Unix. Known colloquially as LM/X.
LAN Manager LAN Network Operating System developed by Microsoft which runs
or top of OS/2 and recently Windows NT.
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LAN Network Manager IBM’s network management software for Token Ring
networks.
LAN Segment A part of a LAN that is separated from the rest by one or more bridges.
LAN Server IBM version of IBM LAN Manager.
LAP (Link Access Protocol) The Data Link or OSI Layer Two protocol specified by
the ITU-TS for the X.25 interface standard.
LAP-B: A link set-up routine to establish and maintain links between DCE and DTE.
Lap-D: The Layer Two protocol for an ISDN D-channel specified in the ITU-TS
recommendation Q.921. It is a framed, bit-oriented protocol similar to Lap and LapB protocols specified for X.25 circuits. Lap-M: A variation of Lap-B used in the V.42
modem error control standard.
Laser A focused beam of light that is used in many imaging systems. Laser is an
acronym that stands for Light Amplification by Stimulated Emission of Radiation.
Latent Image A latent image is an image that is present but not yet visible. For
example, a latent image exists on exposed film that hasnít been processed. In
electrophotography, the latent image is composed of static charge present on the
photoconductive drum. The image only becomes visible after toner is applied.
Line driver A signal converter that conditions the digital signal transmitted by an
RS232 interface to extend reliable communication beyond the 50ft RS232 limit up to
several miles. It is a baseband transmission device.
Line turnaround The interval on a transmission link between the time one block of
data was sent and received and the time the next one can be sent.
Line signal standards In the US: T1 carries data at 1.544Mbit/s and has 24 voice
circuits; T1C 3.152 Mbit/s with 48 voice circuits; T2 6.312Mit/s with 96 voice circuits,
and T3, 44.736Mbit/s. In Europe, the standards are of the form En. E1 line speed is
a BT label for its 2Mbit/s leased circuits.
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Glossary
of Terms
2.048Mbit/s with 3C voice circuits; E2 is 8.448Mit/s with 120 voice channels. E3 is
34.368Mbit/s with 480 voice circuits. In the UK, E1 is often referred to as MegaStream,
Link state algorithm A routing algorithm such as OSPF which takes into account
lowest delay when choosing a route: link speed and congestion as well as hop count.
LLC (Logical Link Control) A data link protocol based or HDLC, developed for LANs
by the IEEE 802 Committee and consequently common to all LAN standards for
Data Link OSI Layer Two transmission.
Local bridge A bridge that links two local LANs: in the same building, for example.
Local security A security method available for 386 and 486 servers running
HPFS386. This method extends LAN Manager security measures to protect the files
on a server by restricting access of the users working at the server. With local security,
a user must be assigned permissions to access any file or directory in an HPFS386
partition, whether or not the resource is shared as part of a LAN Manager resource.
LocalTalk An Apple cabling scheme underlying its low-cost LANs. A 230Kbit/s
baseband network primarily for Mac computers and LaserWriter printers, it uses the
CSMA/CA media access method. The current Phase II allows theoretically unlimited
networks.
Lobe The cable between a Token Ring station and the Trunk Coupling Unit to which
it is connected. Lobe length comprises a patch cable from the TCU to the main
wiring panel, the length of the main wiring to the user station’s location, then a patch
cable from a floor/desk socket to the station.
Logon script A batch program containing LAN Manager, NetWare and other
operating system commands used to configure workstations. Logon scripts can be
written for one or more users.
Logon server For a domain, a logon server is the primary domain controller and the
backup domain controllers. For a user, the server that processes the user’s logon
request.
Lossless Image and data compression applications and algorithms, such as JBIG,
that reduce the number of bits a picture would normally take up without loosing any
data.
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Lossy Methods of image compression, such as JPEG, that reduces the size of an
image by disregarding some pictorial information.
M
MAC (Media Access Control) layer A sub-layer of the Data Link Layer (Level Two) of
the ISO OSI Model responsible for media control.
Mailbox A printer or copier document output device that collects organizes output
documents into individual bins. The bins may sometimes be equipped with a hardware
lock, or may require that a user enters a software pass-code in order to access an
individual box.
MAN (Metropolitan Area Network) A high speed network designed to link together
sites in a metropolitan or campus area. The IEEE has defined its 802.6 standard for
MANs based on the Distributed Queue Dual Bus technology.
MAP (Management Access Program) A Windows-based HTML viewer program linked
with a proprietary bi-directional IPX/SPX channel program to allow access to the
Network Adapter Card’s HTML-based monitoring and maintenance capabilities.
MAP (Manufacturing Automation Protocol) An ISO OSI protocol stack that is defined
as a functional profile. Originally developed by General Motors for use in factory
floor manufacturing environments it is based around the IEEE 802.4 Token Bus LAN
technology.
MAPI (Messaging Application Programming Interface) Microsoft’s standard for the
applications interface to e-mail. See also VIM.
Marking A method used by printers to put dots of toner or ink onto paper. A print
engine is sometimes called a marking engine.
on a token passing ring that enables recovery from error conditions, such as lost,
busy or duplicate tokens, usually by generating a new token. Servers are sometimes
called master stations.
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Glossary
of Terms
Master station A device that controls/polls the nodes in multipoint circuits or, in
point-to-point circuits, the unit that controls the slave station. In LAN terms, the device
Matrix switching A form of data switching at the heart of ATM, enabling the
appropriate bandwidth to be available end-to-end for the duration of the session
without contention.
MAU (Medium Attachment Unit) A transceiver (transmitter/receiver) comprising
hardware circuitry that provides the correct electrical or optical connection between
the computer and IEEE 802.3 LAN media. Since MAUs typically support only one
type of network medium, a choice of MAUs is available to support different media. It
detects carrier and collision activity, passing the information to the computer. It can
be a standalone unit or incorporated in a circuit board inside the computer,
Media Access Control driver A LAN device driver that works directly with the network
adapter cards, acting as an intermediary between the transport driver and the
hardware.
Medium The physical method or equipment used for transmission, from a tangible
fiber optic or copper cable to a satellite link. Alternatively, a little old lady in a shawl
used as a last resort to retrieve lost data.
Megabyte 1,024 KB of digital data.
Monolithic driver A network device driver that acts as network adapter card driver
and transport protocol driver combined.
MIB (Management Information Base) The set of variables or database that a gateway
running CMOT, SNMP, or CMIP network management protocols maintains. It defines
variables needed by the SNMP protocol to monitor and control components in a
network. Managers fetch or store into these variables. MIB-II refers to an extended
SNMP management database that contains variables not shared by both CMOT
and SNMP. The CMIP and SNMP MIB formats differ in structure and complexity.
Microchannel A proprietary bus developed by IBM for its PS/2 computer family’s
internal expansion cards. It offers improved performance over ISA-based machines
like the IBM PC/AT.
Mirofine toner Refers to toner containing particles that are smaller than those used
in conventional toner. Microfine toner is said to improve the appearance of resolution,
applies only to laser and LED array printers.
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Microwave Wireless transmission at very high frequency to deliver
telecommunications services, including TV distribution, between two points. It is
dependent on line of sight.
MIPS Millions of Instructions Per Second. A measure of computer speed.
MIS (Management Information System) The person or group in a company who
manages a company's entire computer system, including installed LANs, WANs and
or mainframe computers.
MMR (Modified Modified Read) This is a compression technique widely used by
facsimile machines for the compression and decompression of images when
transferred from machine to machine. Most digital copier manufactures employ the
use of MMR when they are scanning originals into the copier memory for being
processed. The compression achieved with MMR algorithms comes from the fact
that it is more efficient to store numbers representing the number of pixels in a given
run (“run lengths”) rather than the individual pixels themselves. For example, if 347
white pixels are followed by 93 black pixels it takes less space to store the two
numbers 347 and 93 than to store 440 individual bits of pixel information.
Moir* Pronounced mor-ray. The undesired effect caused by overlaying dot patterns
usually halftone representation of photographs which are incompatible.
MTBF (Mean Time Between Failures) A term describing the reliability of equipment
established by testing kit to its limits and promoting the MTBF as a selling point. As
most users know, however, laboratory and operational environments have little in
common.
MTTR (Mean Time To Repair) A measure of the complexity and modularity of
equipment, the higher the MTTR the more complex or less modular the equipment.
MSAU (Multi-Station Access Unit) A wiring concentrator on a Token Ring network
that allows devices, typically eight to 12 Token Ring stations, to be connected to the
ring. Relays in the MAU ensure the integrity of the network when devices are attached
MS-Net Microsoft DOS-based networking system software product (Microsoft
Network).
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Glossary
of Terms
or removed. A Managed Multi-Port/Multi-Station Access Unit has built-in network
management support.
Multimedia Generic description of the generation and transfer of voice/data/video
traffic between users. Applications to exploit multimedia to the full are emerging in
the wake of advanced switching techniques and develop merits in desktop and server
processing architectures. It may be essential to a physically separated group that
communicates as if it was physically networked.
Multi-Port Repeater An Ethernet wiring center that allows multiple devices to be
attached at one point on an Ethernet. A Managed Multi-Port Repeater has network
management capabilities.
Multiplexer A device that can send several signals over a single line. They are then
separated by a similar device at the other end of the link. This can be done in a
variety of ways: time division multiplexing, frequency division multiplexing and
statistical multiplexing. Multiplexerís are also becoming increasingly efficient in terms
of data compression, error correction, transmission speed and multi-drop capabilities.
Multi-tasking The concurrent execution of two or more tasks or the concurrent use
of a single program that can carry out many functions.
N
Named pipe A connection used to transfer data between separate processes, usually
on separate computers. Named pipes are the foundation of interprocess
communications and underpin Microsoft’s LAN Manager Nos.
Net BEUI (NetBios Extended User Interface) A network device driver or transport
protocol that is the transport driver supplied with LAN Manager, It can bind with as
many as eight media access control drivers.
Net Bios (Network Basic input/output System) Software developed by IBM that
provides the interface between the PC operating system, the i/o bus, and the network.
Since its design, NetBIOS has become a de facto standard.
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NETBLT (Network Block Transfer) A Transport Level, flow controlled, bulk data
transfer protocol used with TCP/IP internets. NETBLT controls the rate at which data
is sent to allow a steady, high speed flow,
Netlogon service A LAN Manager service that implements logon security. This
service verifies the user name and password supplied by each user logging on to the
local area network. See also LAN Manager.
NDIS (Network Driver Interface Specification) A de facto standard interface
specification developed by Microsoft to separate communications protocols from PC
networking hardware. The driver can also run multiple stacks concurrently.
Network interface card/controller Circuitry connecting a node to a network, usually
in the form of a card in a PC expansion slot. In conjunction with the NOS and PC
operating system it helps transmit and receive messages on the network.
NetWare LAN Network Operating System and related products developed by Novell.
There are three main product lines - NetWare 2.X (latest version 2.2) designed to
run on a Intel 80286 platform and above, and NetWare 3.X (latest version NetWare
3.11), designed to run on an Intel 80386 platform and NetWare 4.0. NetWare is
currently installed on more than 70 per cent of LANs worldwide.
Network adapter card A printed circuit board, installed in a computer, enabling the
computer to join the LAN.
Network adapter card driver A network device driver that controls the physical
function of a network adapter card.
Network address A group of characters that uniquely identify the location of a node
on a network.
Network architecture The communication equipment, protocols and transmission
links that constitute a network, and the methods by which they are arranged.
Network device A computer, peripheral or other related communications equipment
attached to a network.
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Glossary
of Terms
Network computing A term analogous to client/server computing.
Network device driver A program that enables the operating system software to
communicate the network adapter cards. Also a software module running on a host
or workstation that is responsible for the communications between the computer and
the network or a device attached to the network.
Network Interface Board An interface device installed in a computer to connect to
a local network. Generally, the term indicates an Ethernet interface board with a
10BaseT connector. The boards size and specifications vary, depending on the
computers bus architecture.
Network topology The different configurations that can be adopted in building
networks, such as a ring, bus, star or meshed.
Network element A piece of network equipment that can be managed through an
element manager as part of a network management system.
Network Layer Level Three in the OSI stack responsible for the necessary routing
and relaying through one or more networks in multiple link or wide area environments.
Network management The process and techniques of remotely or locally monitoring
and configuring networks. Under the OSI model network management takes account
of five key areas: configuration management, fault management, performance
management, accounting management, and security management. A major challenge
and often a headache to users because there are no complete answers today, only
a patchwork of systems covering different parts of the subject. Vendors either
concentrate on the physical (hardware) elements or logical (control and management
of interprocess communications) sides. The ITU-TS is slowly considering standards
for public networks.
Network management integration The highest level of network management system
that brings together information from a number of Element Management Systems.
Network management protocol The protocol used to transfer network management
NetView, and HP OpenView.
Nibble Informal term for a half byte; the first four or last four bits of a byte.
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Nodes Devices on a network that demand or supply services or where transmission
paths are connected. Node is often used instead of workstation.
NOS (Network Operating System) The software that connects all the devices on a
network so that resources can be shared efficiently and files can be transferred. It
handles administration of all network functions, Network operating systems are usually
in two parts; server and client/requester. The requester puts the workstation on the
server machine and makes disks, software, ports and other facilities available to a
node on request. Each device’s services requested by a PC are accessed via the
requester software.
NOTA (Novell Open Technology Association) A group of companies that have adopted
a suggested software platform suggested by Novell that will lead to the development
of a new range of CTI applications.
O
OCR (Optical Character Recognition) Software converting scanned images of
documents into text files which can be wordprocessed.
Octet A grouping of eight bits in packet switched networks similar, but not identical
to, a byte.
ODBC (Open Database Connectivity) Non-proprietary programming SQL interface
specified by Microsoft for database connectivity. It offers access to a variety of PC,
minicomputer and mainframe systems, plus Apple networks.
ODLI (Open Data Link Interface) A Novell technique similar in concept to Microsoft’s
NDIS, it enables PC adapter cards to support ODLI and so run multiple protocols to
access various implementations of NetWare.
ODS Microsoft’s Open Data Services: the part of Wosa supporting access from
7-39
Glossary
of Terms
Microsoft’s SQL Server to a wide range of data sources and formats, including
information from major mainframe databases.
OEM (Original Equipment Manufacturer) The maker of equipment marketed by
another vendor, usually under the name of the reseller. The OEM may make only
certain components or complete devices, which can then be configured with software
and/or hardware by the reseller.
Off-line Something not presently active or available for access in a system.
OLE, OLE2 (Object Linking and Embedding) A Microsoft specification for
implementing object-oriented software developments. An improved form of DDE, it
adopts a layered approach and allows a file or program to be embedded as an
object in another file. OLE2 (the most recent version) and ODBC drivers altered
without affecting core software. Software applications from different vendors to be
accessed seamlessly. More and more organizations are adopting this set-up.
On-line Something active or available for access in a system.
Optical disc A direct access storage device that is written and read by laser light.
Certain optical discs are considered Write Once Read Many, or WORM, because
data is permanently engraved in the discs surface either by gouging pits (ablation),
or by causing the non-image area to bubble, reflecting light away from the reading
head. Erasable optical drives use technologies such as the magneto-optic technique,
which electrically alters the bias of grains of material after they have been heated by
the laser.
Optical Storage The means of storing or archiving data on optical discs such as
CDs or laser discs.
Output Device Any device by which a computer transforms its information to the
outside world. In general, you can think of an output device as a machine that
translates machine readable information into human readable information. Examples:
Printers, Video screens.
Out-of-Band signaling An extra signal transmitted alongside the information signal
to monitor and control the transmission. It uses a separate channel of the LAN and
allows network management devices to access LAN devices even when the LAN
itself is not functioning, so providing an additional layer of resilience.
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P
Packet A collection of bits, including the address, data and control, that are switched
and transmitted together. The terms frame and packet are often used synonymously.
Packet Buffer Memory space reserved for storing a packet awaiting transmission or
for storing a received packet.
Packet Switching A method of switching data in a network. Individual packets of a
set size and format are accepted by the network and delivered to their destination.
The sequence of packets is maintained, and destination established, by the exchange
of control information (also contained in the packets) between the sending terminal
and the network before the transmission starts. The network is open to all users, all
the time, with packets from the various nodes being interleaved throughout the
network. The packets can be sent in any order, as the control information sent at the
beginning of the transmission ensures they are interpreted in the correct order at the
receiving end. Because each packet carries its own control instructions, it can use
any route to reach its destination. The link lasts only as long as the transmission. An
ITU-TS standard for packet switched networks information.
Page Buffering The ability to spool an entire image to disk and print continuous.
Parallel The transmission of bits over multiple wires at one time. Accomplished by
devoting a wire for each bit of a byte. Parallel data transmission is a very fast, but
usually happens only over short distances typically under 500 feet because of the
need for huge amounts of cable. Most often used in computer-to-printer, and scannerto-computer applications.
Parity Used in error correction. A separate bit the parity bit is added and manipulated
so that the number of 1s is odd for odd parity or even for even parity. If the number
of bits sent donít conform to the parity, the software detects an error.
PDL/PCL Refers to the page description language or printer control languages that
include Adobe Systems PostScript Level 1, 2 and 3. Note that if a printer uses
PostScript interpreter or PCL emulation, instead of PostScript will be listed under
emulation's for that printer. Printer control languages such as Hewlett-Packards
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PCL are also listed here.
Glossary
of Terms
are included as standard. A PDL is computer programming language that describes
text and graphics for use by the printer. Examples of page description languages
PCL (printer command language) A page description language developed by Hewlett
-Packard. It is sometimes referred to as HP PCL. Numerous versions of PCL exist,
including PCL5c for color.
Photoconductor A metallic substance, used in eletophotographic printers, that
conducts and retains electrical charges until they are exposed to light.
Ping A protocol for testing whether a particular computer is connected to the Internet
by sending a packet to its IP address and waiting for a response. The name actually
comes from submarine active sonar, where a sound signal -called a “ping”- is
broadcast, and surrounding objects are revealed by their reflections of the sound. A
UNIX utility that implements the ping protocol.
Pixel The smallest unit of a digitized picture. Pixel is a contraction of words "picture
element". A scan's spatial resolution is usually measured in pixels or dots per inch.
Platen The glass bed of a analog copier, digital copier, scanner, or digital duplicator.
Hard copy originals are placed on the platen as part of the process of being
reproduced.
Portrait Page orientation in which the page height exceeds the page width.
PostScript A page description language developed by Adobe Systems that has
become the defacto standard in desktop publishing, design and graphic arts
applications.
Presentation Layer The sixth of seven layers in the OSI model. Its job is to ensure
that two computers wanting to communicate establish the ground rules for how they
can interoperate.
Pre-raster Images Pages that have been translated into a raster by a RIP and are
able to be stored for later output.
Primary domain controller The server at which the master copy of a domain’s user
accounts database is maintained. The primary domain controller also validates logon
requests. A LAN Manager term.
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Print Server A computer and/or software to provide users or a network with access
to a central printer. The printer server acts as a buffer, holding the information to be
printed out in memory until the printer is free. It is possible to program the printer
server to print jobs in the order they arrive or to give priority to particular users who,
in effect, jump the queue. The advantages of a printer server include maximum
exploitation of expensive resources like laser printers and not having to retry if the
printer is initially busy. The print server keeps track of print jobs, allows manipulation
of printer queues, and sends print jobs to the printer.
Printer driver A program that controls printing and sets options such as print quality
and paper size for a particular printer. For example, in LAN Manager, each printer
queue has a single printer driver associated with it.
Print Spooler A separate cache of memory dedicated to accepting and sending
print data to a printer, allowing the user to run another program without interference.
Print Quality A term describing the visual impression of a printed piece. In paper,
the properties of the paper that affects its appearance and the quality of reproduction.
PAD (Packet Assembler/Disassembler) A device used in a packet switched network
to convert data to an appropriate format so that a non X.25 (non-packet switching)
device can send information over an X.25 (packet switched) network, The pad is
responsible for call set up and addressing routines.
Parallel interface An interface that can handle a group of bits transmitted at the
same time, by sending each bit over a separate wire. Probably the best known parallel
interface of all is the one developed by Centronics, a printer manufacturer, that has
36 pins and can handle a byte of data at a time. The transmission of the data is
controlled by a computer generated strobe pulse.
Parity Bit An extra bit added to a group of bits, usually to a seven-bit byte. The parity
bit can be of 0 or 1 value so that every byte will then add up to an odd or even
number, depending on whether odd or even parity is chosen. When the transmitting
device frames a character, it counts the numbers of 0s and 1s in the frame and
the recipient asks for the data to be resent.
7-43
Glossary
of Terms
attaches the appropriate parity bit. The recipient counts all the 0s and 1s and compares
the total to the odd or even message contained in the parity bit. If there’s a discrepancy
PCM (Pulse Code Modulation) One of the most common ways of converting an
analog signal to a digital signal. This is done by sampling the signal and coding the
sample. It usually samples at 8,000 times per second; each sampling representing
8bits. This produces a transmission rate of 641Kbit/s, with the traffic on the line in
interleaved data format. At the receiving end, the interleaved signals are separated
and converted back to analog.
Phase Modulation One of the three ways of modulating or altering a signal so that
it is able to carry information. The other two are amplitude and frequency modulation.
Phase modulation is used in high speed modems.
Polling Method of controlling terminals on a multi-point line by which a computer
acting as master calls or polls each of the terminals in turn to find out if they have any
data to send. This access method is used in star topology networks but is generally
being superseded by the preferred interrupt method.
Port A computer interface capable of attachment to another device, such as a modem
for communicating with a remote terminal, or, if the port is within a hub, to a workstation.
Processor Indicates the manufacture and model number of the printers processor,
sometimes referred to as a microprocessor. The processor is the brains of the printer.
The number of bits in the processor relates to the amount of data the processor can
process at once, and megahertz (MHz) indicates the speed at which data is processed.
Many of the processors in todayís printers are RISC *reduced instruction set
computing) processors, which are designed for faster processing. Note that some
printers are host based; that is, they use the host computers CPU to perform
processing some may require a that a special processor be installed in the computer.
Because they lack a processor or possess only a very scaled down version of a
processor, host based printers are referred to as dumb printers.
Proportional Spacing Printers with proportional spacing allow the horizontal space
called the pitch to vary depending on the letters width. Opposite of monospacing.
PPP (Point to Point Protocol) An addition to the Internet protocol suite to help connect
devices where dissimilar transport protocols exist, for example for the transfer of
routing the range of actions a user can perform on the network.
7-44
Protocol converter A device that translates between two protocols to facilitate
communications between different computers or different systems.
Q
Qbit (Qualifier bit) In X.25 networks, bit 8 in an octet of packet header. It is used to
indicate if a packet contains control information.
Queue A stream of tasks or data waiting in line to be executed. Such as print jobs
in waiting to be printed.
R
RAID (Redundant Arrays of Inexpensive or Independent Discs) A storage device
that uses several magnetic discs or optical discs working in tandem to increase
bandwidth output and to provide redundant backup.
RAM (Random Access Memory) Memory whose contents you can alter and that
vanishes when power is removed, as opposed to ROM.
Raster A raster is a resolution dependent computer file usually a scan, but perhaps
a file from a paint program. The term is sometimes used synonymously with bitmap,
although raster really has a broader meaning. A raster is an electronic file which
describes points mathematically on a grid. The finer the grid, the higher the spatial
resolution and the larger the file size. A raster could describe files of varying tonal
resolution (i.e. bit depth). Raster files stand in contrast to vector files which use
mathematical formulas to describe lines, curves and tints.
RS standards Laid down by the EIA, RS232C approximates to V.24/28; RS422 to
V.11; RS423 to V.10 and RS449 to V.36.
machine uses at startup to find its IP address.
7-45
Glossary
of Terms
RARP (Reverse Address Resolution Protocol) The TCP/IP protocol a diskless
Redirect A packet switching function that routes a call to an alternative network
address if the link to the original address is not working. It is carried out by end point
switches.
Recommended Monthly Volume The maximum number of pages for which the
machine is recommended for use with each one month period, as rated by the
manufacturer.
Redirector A LAN device driver that translates operating system requests into network
events and transmits them to the right protocol stack.
Redundancy Otherwise known as fault-tolerance, in data transmission, this refers
to characters and bits that can be removed from a transmission without affecting the
message. In data processing and data communications, it means providing backup
for components: should one of them fail, the system continues to run without operation.
Total redundancy is usually impractical, but financial institutions and other
organizations with mission-critical applications attempt to install a high level of
redundancy on the basis that downtime loses money, lives, depending on the
business.
Repeater A device that extends the maximum length of cable that can be used in a
single network. In fiber networks, it is an optoelectrical module that receives an optical
signal and converts it into an electrical form.
Resolution Indicates the maximum addressable resolution, expressed in dots per
inch (dpi) horizontally and vertically, that a printer is capable of producing. In general,
the higher a printers resolution, the better the quality of the output. In addition, some
printers utilize resolution enhancement technologies such as HPs RET, that allows
there output to appear as if it were higher resolution than it actually is, by minimizing
jagged edges, smoothing diagonal lines and curves. This is accomplished via
modulation of the laser diode to alter the position and/or size of the dot or pixel.
Higher resolutions such as 600 or 1200 dpi is considered good enough to be an
alternative to typesetting for some users.
Resolution Enhancement A generic term that refers to a technology employed by
laser printers and some ink-jet printers that is designed to improve the appearance
of output. Although resolution enhancement techniques vary most work by modulating
the laser to alter the position and/or size of the dots (pixels) printed.
7-46
Resident Fonts The printers standard typefaces and, for laser printers the standard
point sizes and print orientations for each typeface. For example, Courier 10, 12 (P/
L) means that the typeface Courier is available in sizes 10 point and 12 point and in
portrait and landscape modes. Fonts may be scalable, meaning that they are available
in virtually any point size.
Ring topology A layout scheme in which the network takes the form of a closed
loop with the devices attached into the ring. Every workstation is linked to two others,
one on each side. All data is passed from node to node in one direction only, each
PC acting as a repeater for the next one in the loop. Response time is determined by
the number of stations on the ring - the more there are, the slower it works. If one PC
fails, the loop is broken, though most rings have self-healing capacity to reconfigure
and continue operation. IBM’s Token passing ring ensures that the failed station is
removed and its neighbors are then directly connected.
Ring in and Ring out Token Ring connectors on the MSAU connecting the unit to
trunk cabling. The Wrap feature is implemented at these interfaces.
RIP (Raster Image Processor) A device that translates the instructions for the printing
of a page into actual patterns of dots (i.e. raster) needed by the printer in order to
image the page.
RISC (Reduced Instruction Set Computing) A computer system with a special
microprocessor that processes fewer instructions, and thereby is much faster. A
RISC system depends on software to perform many of the functions that would
normally be done by the microprocessor. RISC workstations are used in calculation
intensive operations such as those performed by computer aided design (CAD) and
computer aided manufacture (CAM) engineers.
RMON (Remote Monitoring) SNMP specification for multivendor statistics-gathering
by a standards-based (de facto SNMP) management station from de facto standard
(RMON)-compliant devices.
RJ11 Popular name for the standard four-wire modular connector for phone
RJ45 Popular name for the eight-pin modular connector in the 10BaseT standard for
UTP connections to workstations or smart wiring hubs. The actual connector is
described in ISO standard 8877.
7-47
Glossary
of Terms
connections.
ROM (Read Only Memory) Nonevolatile memory that can be read but not changed.
Router Network interconnector device operating at OSI Network Layer (Level Three)
that supports a particular Network Layer protocol and related stack, such as TCP/IP,
DecNet, XNS, SNA, OSI IP, IPX. These days routers tend to support multiple protocols
by a variety of methods, such as Protocol Independent Routing. A router can be
used to link LANs together locally or remotely as part of a WAN. A network built
using routers is often termed an internetwork.
Routing Process of delivering a message across one or more networks via the most
appropriate path.
RS232-C An EIA standard which is the most common way of linking data devices
together. An interface for linking DCEs and DTES, it defines the electrical
characteristics of the signals from such devices. RS232 is suitable for both
synchronous and asynchronous communications and specifies a 25-pin connector,
traditionally the DB-25. 20 of the pins carry out routine system operation while the
rest are reserved for modem testing or unallocated. For this reason it is never safe to
assume that two RS232 devices will work together. Newer, more compact RS232
interfaces have nine pins only and an adapter card is needed. It is functionally similar
to the ITU-TS’s V.24 and V.28 standards.
RS422 EIA recommended standard to extend the RS232 50ft limit. It is most commonly
implemented on 25-pin connectors (DB-25s) and is electrically compatible with the
ITU-TS V.11 standard.
RS423 The EIA recommended standard for cable lengths that extend the RS232
50ft limit. It was introduced in tandem with RS422 but is not widely used. Electrically
compatible with the ITU-TS’s V.10 Recommendation.
S
Scan Head The part of the mechanism of the scanner that optically senses the text
or graphic as it moves across the page.
Scan Rate Number, measured in times per second, a scanner samples an image.
7-48
Scanner A electronic device that optically senses human readable images, and
works with software in the computer to convert the image to machine readable code
for you to view.
SCSI (small computer system interface) pronounced skuzzy. This high speed
interface enables users to simultaneously connect several peripherals, such as
printers, scanners, CD-ROM, and DVD devices to a SCSI interface on a computer.
With printers, it offers high speed transfer of digital data.
Segment A bus LAN term meaning an electrically continuous piece of the bus.
Segments can be joined together using repeaters or bridges.
Serial interface Hardware for sending and receiving data one bit at a time.
Server A node that permits other nodes on the LAN to access its resources. The
server may be dedicated, in which case this is its sole function, or non-dedicated,
where the node can be used in other ways, such as a workstation.
Services A general term for resources made available by a server to other nodes on
the network. In Microsoft LAN Manager terminology, this concept is broadened to
include all main components of the LAN Manager software.
Session A logical connection between two nodes on a network for the exchange of
data; alternatively, any live link between any two data devices, such as a minicomputer
and a dumb terminal. A session is also used simply to describe connection time.
Session Layer Level Five of the OSI data communications model, drawn up by the
ISO, ensures the management of dialogue between applications by providing the
protocols for assembling physical messages into logical messages to all dialogue
between end systems.
Shielded Twisted Pair A twisted pair of cables surrounded by a wire gauze shield,
commonly used by IBM.
Simplex A communications system or link which can only carry a signal in one
Smart wiring hub A network concentrator enabling multiple media to be supported
and managed from a central location. When supporting structured wiring systems,
smart hubs provide port management.
7-49
Glossary
of Terms
direction.
SMB (Server Message Block) A Microsoft - originated distributed system which
enables access to another computer’s files and peripherals over the network as if
they were local.
SMTP (Simple Mail Transfer Protocol) The TCP/IP standard protocol for transferring
electronic mail messages from one machine to another. SMTP specifies how two
mail systems interact and the format of control messages they exchange to transfer
mail.
SNA (Systems Network Architecture) IBM’s layered communications protocol for
sending data between IBM hardware and software. Shortly to celebrate its Pearl
anniversary (it was first announced way back in September 1974), it is defined today
in terms of a stack of seven layers. While there is some commonalty between the
layers of OSI and SNA, it is difficult to make a direct mapping. SNA has traditionally
been a hierarchical network architecture for homogeneous networking between IBM
systems, but in the ‘new’ SNA IBM has added increasing support for peer to peer
networking through the development of Advanced Peer to Peer Communications.
SNA is managed through the NetView network management system.
SNMP (Simple Network Management Protocol) A transmission protocol defined by
the IAB in RFC1157 for TCP/IP-based network management, widely accepted as a
de facto standard for LAN network management. SNMP is used to monitor IP
gateways and their networks. It defines a set of variables that the gateway must
keep and specifies that all operations on the gateway are a side-effect of fetching or
storing to the data variables. It consists of three parts: structure of management
information (SMI), Management Information Base (MIB) and the protocol itself. The
SMI and MIB define and store the set of managed entities; SNMP itself conveys
information to and from these entities. The public domain standard is based on the
operational experience of TCP/IP internetworks within Darpa/NSFNET.
SNMPv2 A combination of two proposed updates to SNMP: Secure SNMP and Simple
Management Protocol. Its 12 documents and 400 pages define everything from SMI
to a Manager-to-Manager MIB, plus much-needed security improvements.
Sockets IBM term for software interfaces that allow two Unix application programs
to talk via TCP/IP protocols.
SoDIMM (Self Operating Dynamic In-line Memory Module)
7-50
Source Routing IEEE standard for 802.5 Token Ring environments from an IBM
development. A workstation (source) determines the router through the LAN
internetwork. It sends a “discovery” or explorer packet along all active paths in the
network, eventually reaching the destination host. Once received, the packet is sent
back to the originator. Along the way, each bridge traversed adds its designator to
the discovery packet. When it arrives at the originator, it contains complete routing
information and the originator can send its data with that information attached. SRcompliant bridges generally need less processing power since most of the work is
done by the originating workstation. A liability of SR is that the number of discovery
packets traversing the network increases dramatically as the number of Token Ring
LAN segments and internetworking devices between the stations grows.
Spool (Simultaneous Peripheral Operation On Line) A program or device that controls
the flow of data to an outputting device such as a printer. Spooling means that a user
can send data to a device which is already occupied and can rest assured that the
data will be passed onto the desired destination as soon as possible. Spooling of
printer output is achieved on a LAN by means of a print server. It is also important in
WANs for providing a buffer for time savings.
SQL (Structured Query Language) A standardized query language that can be used
for querying databases across a network in client/server applications. It can be used
to interrogate the database, and extension to the language allow the database to be
updated through it as well.
Standalone server In LAN Manager terminology, a server that maintains its own
user accounts database and does not participate in logon security.
Star Topology A network layout or design in which each node is connected to a
central hub. The hub establishes, maintains and terminates all connections between
the nodes. In a LAN, the hub is likely to be a workstation, whereas in larger multipoint networks the hub is more likely to a multiplexer.
StreetTalk Banyan Systems’ directory system which provides a distributed database
of names addresses accessible from Vines.
discs and tape, optical discs, floppy disks are all storage media.
7-51
Glossary
of Terms
Storage Media The physical device itself, onto which data is recorded. Magnetic
Subnet Mask IP address style mask bits used for routing operations. A Subnet
Mask defines how sub-segments of a network are treated. Usually, a router is used
to mediate communications inside and outside a local network. However, when a
LAN is divided into several "Subnets", data sent to another Subnet is relayed by a
router, just as if between remote networks.
Switching Hub An advanced hub to derive higher performance from 10BaseT or
100BaseT networks. A switching hub prevents the drop in communications speed
experienced with 10BaseT and 100BaseT when many terminals try to access at the
same time.
T
TA (Telecommunications Administration) A body, usually a company, that provides
public telecommunications services.
T1 A committee belonging to the ANSI whose role is to establish US standards for
digital telephony, particularly ISDN. The committee is in no way responsible for or
involved with the Tl (1.5Mbit/s) circuit standards.
T2 A US and Japanese standard for high-speed data transmission at 1.544Mbit/s 24 64Kbit/s channels plus 8Kbit/s’ control information are provided. Also called a
DS1.
T3 A US standard for high-speed data transmission at 44.736Mbit/s, providing the
equivalent bandwidth of 28 T1 circuits. Also called a DS3.
T-Carrier The US standards for digital transmission lines. The line types are of the
form Tn or TIC, and the corresponding line signal standards of the form DSn or
DSIC.
Tap The connecting device on cable-based LANs like Ethernet, linking to the main
transmission medium.
7-52
TCP (Transmission Control Protocol) The standard transport level protocol that
provides the full duplex, stream service on which many application protocols depend.
TCP allows a process or one machine to send a stream of data to a process on
another. Software implementing TCP usually resides in the operating system and
uses the IP to transmit information across the network.
TCP/IP (Transmission Control Protocol/Internet Protocol) The suite of protocols
developed and used by DAR PA and the US DOD. They build up to Layer Four of the
ISO OSI model, but there is no direct correspondence layer for layer. Three main
protocols sit above TCP/IP: Telnet, FTP and SMTP. TCP works to make an Internet
connection reliable. Equipped with handshaking and error correction systems, TCP
ensures reliable data delivery between communicating computers without loss or
deterioration of the original data. IP Defines how data is transmitted and received
using the packet switching network system. At the sender side, IP breaks down data
into small packets, and attaches a header that includes destination and origin
information to each packet. At the receiver side, it reassembles the arriving packets
into the original form. IP has no effect on communication; packets are self delivered
on the Internet.
Terabyte
From tera which means trillion, although it actually means
1,099,511,627,776 bytes in a computers binary system. A terabyte is 1,024 gigabytes.
Telnet A protocol that enables an Internet user to log on and enter commands on
a remote computer linked to the Internet, as if the user were using a text-based
terminal directly attached to that computer. Telnet is part of the TCP/IP suite of
protocols.
Terminal emulation Software that allows a PC to mimic the attributes of a dumb
terminal normally attached to a mainframe or mini-computer, giving the user with
access to function keys and control sequences which the host applications normally
use when communicating with one of their own dumb terminals. The most commonly
emulated terminals are Dec’s VT100 terminal and IBM’s 3270.
smaller distances. Colloquially called Cheapernet.
7-53
Glossary
of Terms
Thin Ethernet An 802.3 LAN that uses smaller than normal diameter coaxial cable;
often used to link PCs together. It runs at the same frequency as Ethernet but at
TIFF (Tagged Image File Format) A platform independent file standard for graphic
information. A TIFF file records an image as a group of dots (bit mapping), and can
contain a halftone image. This standard has several variations, so in some cases, a
TIFF file may not be readable by TIFF supporting software.
Token Bus A LAN with a bus topology that uses token passing as its access method.
The sequence of nodes is not governed by physical architecture, but is controlled by
software. Arcnet and Map are examples.
Token passing A technique for restricting access to a network, to a single node at a
time. A token is passed from node to node, granting permission to transmit data. The
sender attaches its message to the token which conveys it across the LAN to its
destination, The message is ignored by all other nodes, and is acted upon by the
addressee, When the recipient has accepted the message, it releases the token so
that the next node wishing to send can use it.
Token Ring A 4/16Mbit/s LAN architecture which uses a token passing access
method to allow nodes on the network to transmit data. Defined in IEEE 802.5 with a
ring architecture, a special data packet, called a token, is passed continuously from
node to node (see Token passing, above). The sequence of nodes is governed by
the physical order in which the nodes appear on the ring. Every node on the ring
sees the data, but only the addressed receiving node will accept it.
Toner The toner is made up of tiny plastic resin particles that can be under 10
microns, (i.e. less than 4/10,000 of an inch). When mixed with developer (also know
as carrier), the toner can be charged and applied to the image area on the
photoconductive drum. Dry toner falls into two categories: mono component where
the toner and developer are supplied and mixed together. Or dual component in
which the toner particles and developer are mixed during the printing process.
Tonal Resolution (Scanner) Refers to the number of grays or color that are
represented within each pixel. A one bit scan can represent two levels black and
white. An eight bit scan can represent 256 levels, black, white, and 254 levels of
gray.
Topology The structure or arrangement of a network. There are LANs with various
topologies like star, bus, ring, daisy chain and other types.
7-54
TP-4/IP A term given to the ISO protocol suite that closely resembles TCP/IP.
Transceiver - A communications device and software capable of transmitting and
receiving (see also MAU). Transmission block - A sequence of continuous data
characters or bytes transmitted as a unit, over which a coding procedure is usually
applied for synchronous or error control purposes.
Transparent Bridging So named because the intelligence necessary to make
relaying decisions exists in the bridge itself and is thus “transparent” to the
communicating workstations. It involves frame forwarding, learning workstation
addresses and ensuring no topology loops exist (in conjunction with the Spanning
Tree algorithm).
Transport driver A network device driver that implements a protocol for
communicating between LAN Manager and one or more media access control drivers.
The transport driver transfers LAN Manager events between computers on the local
area network.
Transport Layer The Fourth Layer in the OSI model, drawn up by the ISO. The
purpose of the transport layer is to act as an intermediary between the user and the
network. All layers above the transport layer are network independent.
Tree topology A graphic description of a network topology where there is only one
route between any two nodes.
TrueType Fonts TrueType refers to a group of scalable outline fonts used in Microsoft
Windows and Apple System 7 computer operating systems. If the host computer
supports TrueType fonts can print such fonts displayed on the users monitor. If the
font being used is resident in the printer the data will print at a much faster rate
7-55
Glossary
of Terms
because the font information is already resident inside the printer and the font data
doesnít have to be resent to the printer and be processed.
Twisted Pair Two insulated copper wires twisted together with the twists or lays
varied in length to reduce potential signal interference between the pairs. Where
cables comprise more than 25 pairs, they are usually bundled and wrapped in a
cable sheath. Twisted pair is the most common medium for connecting phones,
computers and terminals to PABXS. With the IEEE ratification of 10BaseT for
networking 10Mbit/s Ethernet over UTP telephony wiring, twisted pair has become
ubiquitous. As well as performance at Ethernet rates, it offers cost benefits to the
end user through flexibility - ease of relocation. New data-grade and even voicegrade UTP methods support l00Mbit/s transmission, with 155Mbit/s ATM a probability.
Type A Intelligent Network term describing IN services evoked by, and affecting, a
single user. Most of them can only be invoked during call setup or teardown.
Type B Intelligent Network term describing IN services invoked at any point by, and
affecting directly, several users.
U
UNIX An operating system for a wide variety of computers from mainframes to PCs.
Supports multitasking transactions and is suited to multi-user environments. Best
suited to network computing. Its command syntax is very hard to learn, so its usually
used by advanced computer users. A large number of UNIX computers have been
installed at colleges, universities and military installations in the U.S. There used to
be numerous incompatible versions of UNIX operating systems developed by many
different organizations, but since the release of system 5 in 1983, most UNIX systems
are more or less compatible with each other. Some recently released Oses have
been developed based on or using some components of the UNIX OS. Numerous
Internet sites are developed with UNIX servers and workstations.
UPS (Uninterruptible Power Supply) A battery, attached to a piece of hardware, for
example a server, that provides backup power for conducting an orderly shutdown if
the server’s normal power supply fails.
7-56
UTP (Unshielded Twisted Pair) The standard cabling used for telephone lines. The
standard IEEE 802.3, 10BaseT, defines use of Ethernet over UTP for rates up to
10Mbit/s. The general LAN medium of choice for the 1990s, UTP is marketed in
brands such as AT&T’s PDS (Systimax) and OSCA.
V
Van (Value Added Network)/Vans (Value Added Network Service) A data transmission
network which guarantees data security and integrity through added computer control
and communications, from the sender to the recipient often in the manner of a doorto-door courier or freight forwarder.
Vaporware Products announced but not yet commercially available. Often used by
suppliers to lock users in with the promise of great things to come.
Vines Banyan Systems Virtual Networking operating system is based on Unix system
V. This network operating system provides transparent communication across
heterogeneous networks and is more expansive in concept, although attracting far
fewer users, than Novell’s NetWare.
Volatile Storage Computer storage that is erased when the power is turned off.
V.42 Error control procedures.
V.42 bis Data compression technique for use with V.42
VTAM (Virtual Telecommunications Access Method) An IBM software routine: the
virtual access method for 3270 systems.
W
a LAN and where telecommunications links are implemented, normally leased from
the appropriate PTO(s). Examples of WANs include packet switched networks, public
data networks and Value Added Networks.
7-57
Glossary
of Terms
WAN (Wide Area Network) A network which covers a larger geographical area than
Wiring closet Location, usually a physical box in which the cabling on a particular
floor is terminated, typically in a wiring frame.
Wiring frame Used to organize and manage the termination and connection of
multiple cables.
Windowing Generic method of displaying data on screen, mimicking looking at
several pieces of paper at once. Each window can be resized, moved and otherwise
manipulated. It lies at the heart of making multiuser systems user-friendly and points
the way for presetting tomorrow’s applications.
Windows The now ubiquitous Microsoft standalone operating system with integral
graphical user interface, running on top of MS Dos. Version 4.0 is imminent.
Windows for Workgroups (WFWG) A Microsoft operating system running on each
PC that allows between two and 20 users to share information such as files and email by clicking on icons. There is no server as such, but WFWG is compatible with
NetWare and LAN Manager.
Windows NT (New Technology) Microsoft’s scalable 32-bit version of Windows aimed
at high-end workstation “power” users. It is a standalone operating system that is
also a “network ready” system capable of being a small application server for a
workgroup of Windows based PCs.
Windows NT Advanced Server (NTAS) An extension of Microsoft’s Windows NT
and incorporating all its features, NTAS is a server operating system offering
centralized management and security, fault tolerance and multiple connectivity
options. Geared to client/server computing on practically any network, not least
NetWare and Vines as well as LAN Manager.
WORM (Write Once Read Many) A type of optical memory primarily used in document
imaging for long term document storage. In many states this type of storage can be
used to represent legal documents.
WOSA (Windows Open Service Architecture) A framework of open-ended interfaces
allowing Microsoft Windows and applications running under it to integrate with
enterprise computing environments. It includes APIs for messaging (MAPI), standard
access to databases (ODBC) and extensions to financial services.
7-58
Workflow automation The flow of documents around an organization in a prescribed
order (workflow) can be automated, delivering an hierarchical and controlled form of
workgroup computing. Workgroup computing - Method of organizing a business
around productive teams using computer support to enable cooperative working
and to eliminate time/space restrictions. An extension of conventional LAN working.
Workstation Term used freely to mean a PC, node, terminal or high-end desktop
processor (for CAD/CAM and similar intensive applications) - in short, a device that
has data input and output and operated by a user.
Wrap Redundancy measure in IBM token ring LANs. Trunk cabling used in token
ring TCUs contains two data paths: a main and back-up (normally unused). If the
trunk cable is faulty, the physical disconnection of the connector at a TCU causes
the signal from the main path to wrap onto the back-up and maintain the loop.
WYSINWYG What You See Is Not What You Get.
WYSIWYG What You See Is What You Get; a description of a program in which the
picture on the screen is an accurate representation of the page that is ultimately
printed.
X
X Series Recommendations drawn up 51 by the ITU-TS to establish interfaces for
Terminal Equipment (DTE) and Data Circuit Terminating Equipment (DCE) and public
data networks (PDN). The series includes:
X.Windows A networked GU I based on a client/server architecture, it displays
7-59
Glossary
of Terms
information from multiple networked hosts on a single workstation. Available on PCs
as X.terminal emulation and emulation on LAN servers.
Y
Z
Z-fold A sheet of paper folded back and fourth into three panels.
Zoom To magnify a image for viewing or editing.\Gloss
7-60
A
B
C
FM
FM
D
M
E
AC2
2
2
PGND
1
Main motor CN1-2
PVP
2
Main motor CN1-1
CN4
2
5
LVPS CN19
3
CNS1
Printer controller boad
33,38,43
33,38,43
48,53,56
CNJ5
1-30
48,53,56
59
CNJ2A
Main
motor
M
CN1
CN2
AC driver
(CN206)
EL
DOSN
1-30
59
32
31
1
2
CN5
1
1
2
2
3
3
MMLCK
4
4
MMCLK
5
ELP1
2
3
2
9
3
10
7
1
11
1
12 VL
2
13 DOSN
3
14 GND
PGND
1
2
EXFL4
1
FULP1
3
AC1
AC
driver
2
BT
1
CN39
1 DDFM
CN206
11
10
9
2
3
PNL_RST 4
ISVD2
SVD3
ISVD3
SVD4
ISVD4
SVD5
ISVD5
14
15
16
17
18
19
20
11
10
9
8
7
6
5
4
3
4
DIMM
SDRAM
SIMM
P-ROM
CNJ1
CNJ7
31
/IDRDY
32
/IDSTB
52
52
ID15
54
55
55
/SCACC
57
54
57
SDPRN
58
58
SDACC
/SCPRN
60
60
/RESET
GND
DA_CLK
GND
DA_LD
GND
4
5
6
7
8
DRVK3
DRVK2
GND
14
13
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
1
2
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
CN357
1
2
3
4
5
6
7
8
9
10
11
12
13
14
9
MTRLD1
3
4
5
6
7
8
MTRKEY13
MTRKEY14
MTRKEY15
4
5
6
7
DRVK2
DRVK3
GND
9
CN361
3
4
1
2
4
MTRLD2 5
6
8
5
2
1
4
3
DRV1
DRV2
7
6
5
6
1
2
GND
DRV3
MTRLD1 3
5
VL
5
GND
6
6
7
8
Card
reader
4
X1
1
1
Y2
2
2
X2
3
3
Y1
4
4
INV1
1
1
INV2
2
2
AC1
1
3
AC1
2
4
Touch
panel
8
3
DRVK1
2
1
DT0
DRVK0
DT1
GND
2
MTRKEY12
CN354
1
MTRKEY1 1
CN355
MTRKEY9
MTRKEY10
11
12
10
4
/CLS
VLCD
1
1
VEE
2
2
UD3
3
3
UD2
4
4
UD1
5
5
UD0
6
6
LCDAC
7
GND
8
VLC
9
9
CP
10
10
LP
11
11
FRM
12
12
7
LCD
8
DRVK1
12
7
DRV3
11
6
DRVK2
10
5
DRV2
DRVK3
4
MTRLD3
3
DRVK0
MRRKEY8
1
2
DRV1
CN359
GND
MTRLD2
3
3
Back
light
5
DRVK1
DRVK0
DT1
DT0
MTRLD3
MTRLD2
MTRLD1
MTRLD0
DRV3
DRV2
DRV1
DRV0
GND
9
12
11
10
CN406
MTRKEY5
MTRKEY4
MTRKEY3
MTRKEY2
MTRKEY1
MTRKEY0
8
7
6
5
4
3
2
1
3
CN356
2
2
36 pin
CNJ4
34,35,36
34,35,36 ID0,ID1,ID2
37,39,40
37,39,40 ID3,ID4,ID5
41,42,44
45,46,47
41,42,44 ID6,ID7,ID8
45,46,47 ID9,ID10,ID11
49,50,51
49,50,51 ID12,ID13,ID14
6
HTTR1
PVP
OFF
F
1
GND
2
3 DA_DATA
GND
1
CN210
0
0
5
0
5
5
0
MTRKEY8
MTRKEY9
MTRKEY10
MTRKEY1 1
MTRKEY12
MTRKEY13
MTRKEY14
MTRKEY15
CN407
1
1
/RDD
2
3
4
5
6
7
8
CN803
ISVD7
SVD2
13
12
SVD7
ISVD1
12
13
ISVD6
SVD1
11
14
SVD6
ISVD0
10
15
24
SVD0
9
16
1
ISVCLK
8
17
23
SVCLK
7
18
22
6 IRLSYNC
19
21
RLSYNC
5
20
2
GND
4
21
3
SLSYNC_C
3
22
14
GND
13
P_LED
KEY
2
1
23
2
12
GND
3
11
1
4
9
10
VL
5
8
GND
6
7
GND
7
6
GND
VL
8
5
GND
12V2
P_TXD
P_RXD
P_CTS
12
1
CN401
CN358
CN405
/CDI
/RCP
3
CN204
DSAC1
2
3
CN203
1
3
AC2
FM
2~3
CN205
0
E
Developer
unit
cooling fan
2
AC2
1
CN205
12 PVP
1
2
DH
PGND
0
CN209
4
3
2
1
5
0
Control panel CPU
11
7
24
CN31
3
Dehumidify
heater
2
CN201
1
1
5
HVLKD
0
6
24
CN801
4
5V1
5
0
10 HVDCNT
24
4
5
3
2
HVLKT
4
0
4
BREF
5V2
SG
12V2
3
GND
ACDWN 0
4
P_RTS
EPACNT
3
CN204
PVCNT
ZCRS
ZCDWN
BTCNT
2
SVCNT
1
VL
VL
CN17
TREF
HVTCNT
7
8
9
Front cover
open/close
sensor
6
Discharge
lamp
5
6
5
4
AGND
-12V2
AGND
CN802
3
2
1
2
GND
6
5
CN1
Control panel B
AC120/220-240V Line
DC+24V Line
DC+5V Line
5
1
CN2
1
CN1
1
2
3
4
5
6
CN16
1
33V
CN21
1
2
3
4
5
6
7
6
5
AGND
1
7
6
PVPO
8
3
CNHV
2
3
High
voltage
power
supply
3
HVBCNT
1
4
1
2
9
2
GREF
1
2
3
1
PVPO
10
1
HVCNT
12BT
GND
2
PVP
PVP
11
CN7
HVLKC
5V1
4
CN4
1
4
4
12
CNJ9
3
CN10
GND
5
0
ON
2
AC2
AC2
3
24
PGND
VL
ADFVP
PFOSN
PCSOL
PSAC2
4
PSAC1
3
2
3
GND
GND
2
AC2
AC1
AC1
2
3
2
3.3V
1
5V1
4
1
1
/INTPRT2
1
CN22
DASP
ADDR1,0,2
CS1,0
Printer Hard disk
39
37,38
33,35,36
IRQ14(15),IO16
IOW,IOR,IORDY
HOST
14,0,15
CNPRMD
2
55
R/W
4
25
47
/CSP1
1
2
SYSRST
17
43
/WAIT
Boot memory
B60
SERR
13
41
/RESET
Polygon
pin photo
sensor
160
B42
LOCK
PERR
11
39
39
37,38
33,35,36
31,32
23,25,27
16,17,18
Filing
Removal disk (Zip)
PVP
0
B40
B39
B37
9
A8,7,6
38,40,42
A5,16
A10,9,4
44,49
A13,12,11
34,36,37
31,32
23,25,27
16,17,18
PGND
1
5
140
142
139
DEVSEL
14,19
A0,15,14
28,30,32
CN5
PFOSN
KCTCNT
6
0
B35
IRDY
A3,2,1
21,24,26
/INTPRT1
GND
D0
17,18,19
15
2
AC1
Paper
exit
sensor
VL
5
5
137
135
35
8,12,16
48,52,56
4
3
2
1
GND
12V2
3
GND
GND
2
4
1
5
1
KCS
4
0
8,10,12
4,6,7
58,60,2
51,54,56
47,48,49
45
10,4,11,3
7,8,6,9,5
HOST DATA
GND
RESET
12,13,14,15 12,2,13,1
8,9,10,11
3,4,5,6,7
40
2,19,22
24,26,30
1
4
3
2
GND
3
PMVP
8
CN360
CN30
GND
3
24
5
38,42,46
18,22,26
DASP
ADDR1,0,2
CS1,0
IRQ14(15),IO16
CNSRMD
39
37,38
1
12V1
2
CN19
1
4
3
2
1
PVP
7
CN9
Control
panel C
6
KCT
2
AD31,AD29
AD27,AD25
AD23,AD21
AD19,AD17
AD14,AD12
AD10,AD08
AD07,AD05
AD03,AD01
C/-BE3,C/-BE2
C/-BE1
CLKB
REQ1
31,32
33,35,36
IOW,IOR,IORDY
HOST
14,0,15
5V1
4
8
7
D
5
4
3
2
B10
B20,21
B23,24
B27,29
B30,32
B45,47
B48,52
B53,55
B56,58
B26,33
B44
10,4,11,3
GND
ORDER NO. OED9902357C1
The Ninja's Torano-maki
Paper
exit
solenoid
KC
FM
PVP
118
116
120,121
123,124
127,129
130,132
145,147
148,152
153,155
156,158
126,133
144
12,13,14,15
8,9,10,11
3,4,5,6,7
40
2,19,22
24,26,30
1
CN7
39
37,38
23,25,27
16,17,18
GND
3
Control panel A
1
CN14
0
CNPHD3
31,32
33,35,36
8,9,10,11
12,13,14,15 12,2,13,1
12V1
2
CN18
1
Control
panel D
1
2
3
1
24
29,31,33 D3,2,1
23,25,27 D6,5,4
D9,8,7
D12,11,10
9,10,11
13,14,22
D15,14,13
5,6,7
32
37,38
33,35,36
23,25,27
16,17,18
7,8,6,9,5
HOST DATA
4
3
2
1
PGND
PVP
4
6
PGND
3
SVP
2
5
PGND
PGND
1
CN24
Open
Key
counter
Exhaust
fan 3
26 PGND
25 EXFM3
24 EXFL3
23 GND
59,1,3
53,55,57
43,44,52
39,40,41
35,36,37
/CSP2
VCC
37,38
8,9,10,11
12,13,14,15
3,4,5,6,7
40
GND
RESET
LVPS
2
3
1
INTA
INTC
TxD
CTS
-12V
ALTM
4
58,59,60
1,2,3
CNJ2
CS0,1
29,31
27
23,25
21
16,17,18
3,4,5,6,7
40
1
CNSHD1/2
2,19,22
24,26,30
16
TESN
B16
A07
A06
B04
B02
B01
A60
34
28,29,30
31,32,33
CNJ10
29,31
/DACK,IRQ
32
33,35,36
27
/IOCS16
A1,0,2
23,25
21
16,17,18
7,8,9
13,14,15
10,11,12
1
CN6
2,19,22
24,26,30
6
5
4
3
CN362
Toner
level
sensor
0
108
B1
107
52
104
B2
102
51
0
B3
5
50
0
SEMDEM2
24
8
PVP
13
22 VTED
B4
20 CT
21 TED
49
19
GND
2
7 F32ACLK
1
11
1
B5
2
B6
48
TC
B7
47
Total
counter
B8
46
GND
LEMTEM2
101
45
LDB0
5 F32AOUT
6 QLTH
18
GND
PVP
9
3
PGND
4
5
60
3
3
PVP
BMA
4
17
B9
4
B10
44
C/-BE0
RD-
Network Adapter card
Toner
bottle
motor
43
LDB1
6
A52
6
CN17
52
GND
PVP
2
0
PAR
6
GND
A43
B14
1
16
PGND
2
Exposure
lamp
5
1
1
1
BMB
BMAB
39
LDB3
Ethernet
cable
Platen cover
open/close
sensor
15
GND
LDB4
Platen cover
angle sensor
6
RD+
37
SBO
3
GND
A41
3
B17
Option
Hard disk
(HDD2)
41
43
B15
36
CN408
14 PVP
38
LDB5
Printer Hard disk option
SDONE
B11
TD-
B18
PGND
A38
B12
42
2
B19
35
DRVK0
10
A40
B13
41
LDB2
TD+
B20
34
DRVK1
9
1
0
40
40
GND
GND
1
B16
1
2
33
LDB6
GND
8
2
38
A2
7
GND
BMBB
25
Optics
fan
13
CALO
ENABLEO
4
12
A3
5
5 MTRKEY4
6
DRVK3
1
ADJ2
C
3
24
6
2
GND
ADJ1O
TFSN
B21
A4
Waste
toner
sensor
B22
32
23
A9
FRAME
B23
31
LDB7
A5
GND
18
4 MTRKEY5
TRDY
STOP
B24
30
+5VL
22
LDA0
GND
7
A36
29
+5VL
A6
SEMDEM1
A10
A34
GND
A7
21
A11
17
3 MTRKEY7
36
B25
A8
20
GND
16
34
B26
28
19
LEMTEM1
LDA1
GND
DMARQ
A12
/IOW,/IOR
A13
15
IOCHRDY
14
DATA14,0,15
LDA2
GND
7,8,9
A14
10,11,12
13
13,14,15
A15
GND
DATA5,10,4
A16
12
DATA11,3,12
A17
11
DATA2,13,1
A18
10
3,4,5,6
9
LDA4
GND
LDA3
40
A19
2,19,22
8
Home
GND
LDA5
Full
VL
18
A20
8
GND
16 DXFENB
7
Flash memory
(16MB)
BPSN
7
GND
VL
PSWSN
10
VL
15
A21
Filing
Hard disk (HDD1)
9
8
5
A22
6
CNPHD1/2
8
PSLSN
A23
5
9
GND
2 MTRKEY6
11
14
4
LDA6
0
10 TFSN
13 DXMCBB
LDA7
GND
4
3
6
A24
CN10
2
12 DXMCB
16
GND
3
1
PFSDCR
1
11 DXMCAB
14
2
A25
3
BPSN
12
DXMCA
1
CNLSP
10
Toner bottle
home
position
sensor
10
1
EXFM2
17
18
GND
2
7
ADUSL
GND
LCLKO
A26
24,26,30
CN38
AD28,AD26,AD24
AD22,AD20,AD18
AD16,AD15,AD13
AD11,AD09,AD06
AD04,AD02,AD00
23
3
CN351
1
10
Detect
2
0
17
CN36
24
VL
4
Laser
interlock
switch
EXFM1
CN11
(ADU: Option)
1
SW
GND
-12V1
CN28
EXFL1
27
VL
0
F21
F22
F23
F24
8
VL
EXFL2
2
QLD
DXIN
7
GND
GND
PGND
20 DXOPSN
21 GND
4
9
6
2
3
3
8
5
19
2
7
3
4
1
12
6
1 SOTOVP
3
VL
PSFL
24
11
3
2
PRFM
5
IPRXD
IPRXG
IPTXD
IPTXG
1
1
PGND
2
3
PSFM
8
2
A1
1
2
0
CN8
2
PRCF
6
12
3
26
1
5
PGND
Exhaust
fan 2
PGND
5
1
GND
4
AD30
CN43
4
4
+3.3V
4
2
0
3
PGND
A20
3
24
GND
3
A21,27,33
A39,45,53
B25,31
B36,41,
B43,54
A22,23,25
A28,29,31
A32,44,46
A47,49,54
A55,57,58
LUM2-2
LSULSYNC
3
21,27,33
39,45,53
125,131
136,141,
143,154
22,23,25
28,29,31
32,44,46
47,49,54
55,57,58
2
VL
GND
2
1 PAPERVP
2 PAPERVP
CN11
PGND
9
GND
3
1
Polygon
motor
1
CN27
(Lower tray)
CN32
CN12
LUM2-1
2
5
Optics
motor
3
1
CN15
11
9
Exhaust
fan 1
16
Detect
1
4
3,4,5,6
3
+5VL
8
DATA7,8,6,9
GND
5
10
CN12
GNT1
PESN2
15
VL
2 PAPERVP
3
PGND
A17
24
VL
4
3
17
20
14
2
0
ISTTX
CN13
1 PAPERVP
2
12V1
5
1
40
13 LBSN2
9
3
9
2,19,22
12
3
CN7
24,26,30
2
2
1
GND
VL
1
GND
2
6
M
15
11
ON
ISTRX
STRX
6
0
GND
15
3
5
24
GND
11
4
4
11 PVP
8 CRRSN2
14
5
3
14 TH2
7 PEWSN2
10
2
PMCNT
PGND
13 TH1
9
10
13
PGND
PMLOCK
12 RCSOL
VL
9
1
2
6
STRRSN
PMVP
1
VL
1
2
5
0
6
1
2
3
24
LMA
Exposure
inverter
Thermistor
2
3
Recycle
solenoid
PVP
5
1
PFCR2
0
SVP
1
4
12
/RESET
1
24
8
CNSHD3
LUM1-2
GND
M
10 GOPSW2
22
GND
DXIN
CNJ8
CN23
(Lower tray)
27
GND
LUM1-1
2
2
3
9
CN26
(Upper tray)
5
FM
1
3
GND
8
1
2
TDSN
1
2
VL
11
2
1
8
1
Close
4
7
14
7
3
3
8
15
GND
5
Detect
LMAB
PASN
2
3
16
0
HPSN
PCSN
PVP
2
GND
26
7
10
OTRLD
GND
9
RVSCLK 6
3
7
1
15
1
7
4
3
1
VL
LMB
2
3
4
1
PESN1
B
TDSN
1
LBSN1
14
VL
INTD
B08
A12,13,18
GND
A24,30,35,
A37,42,
A48,56
B03,12
B13,15
B17,22
B28,34
B38,46,
B49,57
RST
A15
2
3
13
25
2
3
GND
12
SVP
6
11
ON
GND
7
12,13,18
2430,35,
37,42,48,
56,103,
112,113,
115,117,
122,128,
134,138,
146,149
157
1
VL
24
5
2
VL
4
5
10
F32ACLK 4
1
1
CRRSN1
GND
1
6
3
PEWSN1
8
STTX
LMBB
INTB
9
7
0
AOS6
B07
6
24
23
6
1
2
PFCR1
1
Detect
1
2
3
PVP
2
2
5 GOPSW1
6 TDREF
2
1
PCSN
6
HMMCLK 5
GND
13
3
3.3V
CN22
(Upper tray)
GND
AOSS1
5V1
3
0
VL
2
4
GND
12
2
3
1
7
2
18
6
3
1
17
5
0
1
2
5
11
1
VL
1
4
2
3
RRSN
5
2
3
15
FENB
OTRLTH
5
3
CN8
0
16
F32AOUT 1
VCDS
HPESN
12
CDSN1
10
ON
5
24
4
26
3
VL
QDOSN
11
6
CN TDC
5
VL
9
10
CN13
Toner
density
sensor
DXOPSN
1
VL
CN20
9
GND
2
OQMCLK 8
1
8
2
0
CN14
28
A05,08,10, +5V
16,59,61,
62,B05,06
B19,59
B61,62
21
7
5,8,10,16
59,61,62
105,106
119,159
161,162
22
6
OQIN
PMLCK
CDSN2
5
LCCLD
23
0
GND
1
24
2
7
Lamp unit
home position
sensor
1
OQLD
GND
13
DTR2J
6
3
28
RxD2J
RRCR
AOSS6
0
12V1
4
GND
VL
22
5
RTS2J
2
24
21
3
5
A04
PVP
AOS5
20
2
AOSS5
A03
HFCR
3
19
4
1
18
A02
1
4
2
A01
3
SVP
VL
6
7
4
LPFM
17
5
PGND
CN3
2
11
1
LPCNT1
3
4
2
3
0
CDSN
LPFL
GND
CN3
2
AOSS3
0
3
3
10
24
2
1
10
24
2
PGND
5
AOSS2
VL
1
1
9
16
0
Copy
density
sensor
9
4
1
9
GND
VL
AOS4
9,11
14,19,50,
51,101,
109 to 111,
114,150,
151
4
8
15
5
8
3
0
AOS2
4
AOS3
GND
7
GND
9
2
3
AOSS4
8
2
7
VL
10 DXPSN1
11 VL
7
14
2
1
2
13
3
3
5
12
DXP
SN1
4
PASN
4
Paper
pass
sensor
2
HSSN1
9
25
Option
System console
connector
8
3
27
3
Option
Inverting Shift tray
connector
2
2
F32BCLK 4
Option
Finisher connector
VL
(CN1)
7
OQLTH
LSU image data control
1
FENB
Rizer card
PVP
2
1
CN201
1
2
5
GND
F32BOUT 1
0
VL
GND
VL
6
2
VL
6
5
7
GND
5
1
6 DXPSN2
1
CN20
1
0
HSSN2
3
Detect
VL
VL
5
GND
GND
4
2
5
HSSN3
3
1
24
3
2
Bypass
paper feed
clutch
Registration
roller clutch
HPSN
DXP
SN2
2
3
PVP
0
Paper
pass
sensor
1
1
GND
2
12
AOSS6
DXPESN 5
CN19
(FA-A888)
4
VL
11
PGND
AOSS5
3
1
PCCR
AOSS4
CN652
AOS1
4
1
AOSS3
2
3
4
ADFTX
6
ADFOUT
1
3
IADFTX
5
AOSS2
3
2
1
GND
4
12
Original size detecting sensor
A
DXP
ESN
5
ADF connector
Schematic Diagram
Paper
detecting
sensor
0
1
PVP
SCFL
GND
1
2
PGND
PSWSN
14
9
VL
13
2
SCFM
8
7
M
6
6
1
7
10
5
M
2
3
PGND
4
DDFL
AOSS1
2
1
4
3
EXFL4
PSWSN
10
Width
guide
sensor
3
VL
DDFM
PSLSN
2
24
GND
EXFM4
CN655
CN651
1
3
FM
3
2
Printer
controller
cooling fan
CN6
0
1
FM
3
11
ADFIN
2
1
LBSN1
4
ADFICLK
3
CRRSN1
1
GND
PSLSN
PESN2
10
3
CN25
(FA-A350)
Length
guide
sensor
LBSN2
2
9
PEWSN1
ADMCLK
VL
10 COM
11 DXWBB
2
ADFIDO
8
1
1
ADFILD
7
2
RRSN
6
3
3
ADFIENB 5
M
CN29
Speed
selecting
clutch
2
ADFIDI
Width
guide
motor
DXWM
LVPS
cooling
fan
2
DXLBB
1
2
DXWA
DXWB
3
ADFRRSN
DXWAB
CRRSN2
ADFRX
8
PEWSN2
IADFRX
2
7
Paper feed
clutch
1
9
4
PESN1
8
5
Paper feed
clutch
5
DXLB
3
COM
Lifting
motor
2
1
6
HPESN
DXLA
1
5
9
1
Bypass paper
detecing
sensor
DXLAB
LVPS CN9
4
5
2
QDOSN
CN653
4
3
Paper feed
cover open/
close sensor
2
HSSN1
1
HSSN2
1
3
3
6
1
5
1
4
CN2
Middle
roller
clutch
HSSN3
5
FM
M
8
ADU driver (Option)
Paper
detecting
sensor
DXMBB
Paper limit
sensor
DXMB
DXMAB
Paper pass
sensor
COM
Lifting
motor
8
Paper
detecting
sensor
7
Paper limit
sensor
6
5
Bypass paper
size sensor
FM
9
Paper pass
sensor
7
Paper
level sensor
5
0
FM
11
DXMA
ADU tray
detecting
sensor
COM
Paper
level sensor
4
1
Length
guide
motor
DXLM
M
9
Registration
roller paper
pass sensor
3
Ozone/
suction
fan
Drive
motor
DXM
CN654
7
Dust
correcting
fan
3
6
1 DXRRCR 24
2 VP
5
Exhaust
fan 4
1
3
2
4
1
2
Paper
feed
clutch
TORANO-MAKI
E
FP-D250/D350
Important safty notice
Componentes identified by head mark have special charac teristtics
important for safty. When replace any of these components. Use
only manufacturer's specified parts.
F
1
ACH1
2
AC1
AC1
5
ACH2
AC2
6
AC2
CN5
Battery
1
CN402
CN403
8
DRVK2
CN404
2
Main CPU
3
CCD
1
CN3
2
Power
switch
MS
4
Thermostat
Fuser lamp
CN15
Main CPU CN5-11, 9
Humidity heater
connector
5
CN6
CN9
1
System control CPU
ADF Connector
36 pin centronics
parallel printer cable
6
CN203
GND
7
LVPS
CN6
1
PGND
MMCNT
ON
VL
ON
8
Close
9
OZFL
1
4
DDFL
2
3
5
PGND
6
PGND
1
7
SCFM
2
3
8
PVP
9
1
10
2
11 PGND
RVSCLK 6
10
12 PVP
OTRLD
7
11
DXIN
VL
24 0
GND
F32ACLK
4
8
PCCR
HMMCLK
5
9
24 0
HSSN3
8
12
STRRSN 9
13
VL
10
14
GND
11
15
ZCRS
3
9
ISTTX
4
10
VL
STTX
5
8
HSSN1
IPRXD
6
12
9
GND
GND
7
2
8
3
9
4
10
7
1
PPRVP
2
2
PPRVP
3
3
PGND
PVP
4
RRCR
5
PVP
6
HFSOL
1
7
4
4
PGND
CN18
16
VL
LPCNT
PGND
LPFL2
LPFM2
ON/Detect
12 GND
VL
PGND
CNPHD1
CNPRMD
Filing
Hard disk
(HDD1)
Filing
Removal
disk (Zip)
E
FM Optics fan
3
1
2
2
1
1
2
3
4
2
2
2
1
GND
2
1
9
MTRKEY0
FUSE
BT
2
1
Battery
EXFM1 3
PGND
EXFL2
2 PVP
24 0
3 PFCR2
4 PUSOL2
5
VL
2
3
6
VL
4
3
5
EXFM1 6
2
1
VL
7
1
VL
8
9
2
3
7 PEWSN2
Home
BPSN
8 CRRSN2
Full
TFSN
1
2
3
9
GND
10
10
1
GND
11
GND
GND
12
2
3
1
11
VL
BMBB
13
6
12
VL
PVP
14
5
13 LBSN2
BMA
15
4
1
14 PESN2
BMAB
16
3
PVP
2
3
15
1
1
LUM2-1
2
2
LUM2-2
GND
GND
24 0
24 0
0
5
Detect
24 0
17
BMA
18
CN2
M
1
20
2
TED
21
2
VTED
22
GND
23
3
1
EXFL3
24
EXFM3 25
26
Total
Counter
2
2
1
1
3
3
FM
8
5V
4
GND
3
GND
2
3.3V
1
Card Reader
(Option)
2
1
4
3
5
8
6
6
7
8
9
10
DRVK3
DRVK2
DRVK1
DRVK0
GND
MTRKEY4 5
5
0
2
A25
3
A24
4
A23
5
A22
6
A21
10
3
GND
NLDA5
7
A20
11
4
IADFTX
PLDA5
8
A19
12
5
ADFTX
ADFIN
NLDA4
9
PLDA4
10
NLDA7
NLDA3
11
A16
8
PLDA3
12
A15
9
NLDA2
13
A14
10
PLDA2
14
NLDA1
15
CN204
1
2
2
3
3
4
4
3.3V
GND
GND
5V1
5
5
GND
6
6
12V1
A11
A10
PLDA0
GND
A8
A7
NSEMDEMI 21
A6
PSEMDEM1 22
A5
23
A4
0
24
25
A3
A2
ENABLEO 26
A1
GND
27
B26
VL
28
B25
CNS1
SG
2
5
21
3 SLSYNCC
VL
29
B24
12V2
3
4
22
4
GND
30
B23
AGND
4
3
19
5
RLSYNC
-12V2
5
2
20
6 IRLSYNC
PLDB7
32
AGND
6
1
17
7
SVCLK
NLDB6
33
18
8
ISVCLK
PLDB6
34
B19
15
9
SVD0
NLDB5
35
B18
10 ISVD0
PLDB5
36
B17
16
Ethernet
cable
CN803
OPTION
IPC
31
B22
B21
B20
13
11 SVD1
NLDB4
37
B16
14
12 ISVD1
PLDB4
38
B15
11
13 SVD2
NLDB3
39
12
14 ISVD2
PLDB3
40
B13
9
15 SVD3
NLDB2
41
B12
10
16 ISVD3
PLDB2
42
B11
7
17 SVD4
NLDB1
43
B10
8
18 ISVD4
PLDB1
44
B9
5
19 SVD5
NLDB0
45
B8
6
20 ISVD5
PLDB0
46
B7
3
21 SVD6
4
22 ISVD6
PLEMTEM2 48
1
23 SVD7
NSEMDEM2 49
2
24 ISVD7
PSEMDEM2 50
B3
NLEMTEM2 47
B14
B6
B5
GND
51
B2
7
1
GND
ADJ2
52
B1
8
2
GND
5
3
DADATA
6
4
GND
3
5
DACLK
GND
3
4
6
GND
VL
4
1
7
DALD
2
8
GND
CN36
GND
LSULSYNC
7
8
9
6
ADFRRSN 6
7
5
5
ADFIENB 9
4
ADFICLK2 8
3
MB38CS 3
IPRXD
4
ADFIDI
2
2
IPTXD
1
1
BRIW
6
7
B4
CN210
1
1
2
2
3
4
5
6
1
APCOK
7
2
DPISEL
8
3
GND
9
4
GND
5
BIE
30
CN213
29
CN35
27
GILOCK 30
28
26
26
27
GBUFCNT
28
GIRST 29
GND
GAD7
25
24
23
22
21
20
18
17
19
19
18
VL
NLDB7
CN21
GAD1 20
GAD2 21
GAD3 22
GAD4 23
GAD5 24
GAD6 25
GAD0
GND
16
15
14
14
GA10 15
GA11 16
GA12 17
13
13
5
A9
NLEMTEMI 19
PLEMTEM1 20
CALO
CN209
1
A13
17
18
ADJ1O
-12V
8
23
5
CN1
A12
16
NLDA0
GND
GND
7
CN802
Laser
interlock
switch
A18
6
7 ADFOUT
3
1
SW2
A17
7
2
GND
GA9
12
12
GA8
11
GA7
PLCLKO
VL
PLDA6
CNJ7
11
10
10
A26
2
FONT
ROM SIM
GA6
9
9
GA5
8
8
GA4
7
7
GA3
6
6
GA2
5
5
GA1
4
4
GND
3
GIRD
CN202
22
22
2
21
21
1
PLDA7
Aditinal MEMORY
1
20
20
NLCLKO
24
CNJ6
CN34
19
CN38
6
Printer Controller
Board
GVSYNC 1
GIPGCS 2
GIWR
3
18
17
16
19
SREQ
ZCSP
ZCRS
GND
STXD 16
SLSYNC 17
SHRDY 18
15
13
14
12
11
10
PRNT 14
SRTS 15
8
SHWREQ 8
VSYNC 13
7
7
SRXD 11
PRST 12
6
6
9
5
5
9
4
4
SVSYNC 10
3
3
SHBREQ
2
ADFILD
NLDA6
CN203
2
CN4
FS3
STRX
5
9 GND
8
11 VL
7 VL
1
6 DXPSN2
F22
ADFDO
8
FM
CN32
PMFCNT 1
8
PMFLCK 2
7
PMVP
3
6
PGND
4
5
PMLOCK 5
4
PMCNT 6
3
7
2
PMCLK 8
1
PGND
10 DXPSN1
24 0
F24
6
24 0
2
F21
1
2
3
1
Polygon
motor fan
M
Polygon
motor
CNLSM
Important safty notice
Componentes identified by head mark have special charac teristtics
important for safty. When replace any of these components. Use
only manufacturer’s specified parts.
DXP
SN1
5 GND
4
2
1
PRFM
ISTRX
0
3 VL
1
3
DXP
SN2
Paper
pass
sensor
1
CN652
2 DXPESN 5 0
1 GND
2
3
DXPE
SN
Paper
detecting
sensor
PRCFL
9
5V2
Image Processing Board
5
7 VL
0
6 PSWSN
5 GND
1
4
2
3
PSW
SN
Width
guide
sensor
3 VL
CN655
2 PSLSN
1
PSL
SN
9 DXWB
1 GND
3
2
Length
guide
sensor
8 DXWA
1
7 DXWAB
11 DXWBB
2
6
10 COM
M
Width
guide
motor
DXWM
3
5 DXLBB
1
4
4 COM
2
5
3 DXLB
3
M
Length
guide
motor
DXLM
DXLA
2
4
COM
DXMBB
CN653
1 DXLAB
7
8
5
9
11
8
CN19
for F355
B
PGND
2
1
1 2 3 4
QLD
CN33
6
7
1
QLTH
5
PGND
24 0
5
2
F32ACLK
16 DXFENB
17 VL
18 GND
4
3
8 ADMCLK
9
8
CNJ1
Engine ROM
PSFM
LASER INTERLOCK SW
10
7
CN201
0
LBVL
PLDA1
CNJ5
F32AOUT
PGND
PSFL
3
8
4
CNEXF3
14 PSLSN
15 PSWSN
DXMB
Network
Adapter
Card
2
9
E
GND
12 DXMCB
13 DXMCBB
DXMAB
(OPTION)
1
2
1
5
PROGRAM
ROM SIM
Exhaust
fan 3
PGND
PVP
PGND
PVP
DXIN
10 DXMCA
11 DXMCAB
4 COM
7
Rizer
Card
Toner
level
sensor
TESN
LAN
Connector
4
CN43
3
1
CN16
CNJ2A
Total
counter
3
3
4
CNJ8
CN3
1
19
3
OPTION
Toner
bottle
motor
2
PVP
CT
PGND
System Control CPU
Waste
toner
sensor
TF
SN
2
CNSHD3
Toner
bottle
home
position
sensor
BPSN
CN4
Exhaust
fan 2
FM
2
2
CN20
Exhaust
fan 1
FM
2
3
3 DXMA
VL
20
LUM1-2
1
2
7
1
Option
Hard
Disk
(HDD3)
MAIN MEMORY
CN5
1
CN28
Close
20
2
1 PVP
5
GND
19
CN12
1
2
6
ADFIDI
3
18
LUM1-1
2
1
7
2
19
1
6
BOOT ROM
3
1
PGND
CN25
CNPHD3
2
Thermistor
2
5
HDDFL
3
KCS
14
1
INV1
INV2
PRCFM2
2
17
TH2
1
2
12
8
CN208
12BT
16
13 LBSN1
1
12
7
E
17
ADFOUT 18
13
1
3
7
9
8
MTRKEY8
5
CNHTT
ADFIN
TH1
24
1
2
3
4
5
6
7
8
9
10
1
GND
7
MTRKEY9
MTRKEY4 13
6
MTRKEY10
MTRKEY5 14
5
MTRKEY3 124
4
MTRKEY11
MTRKEY2 11
3
MTRKEY12
MTRKEY1 10
2
MTRKEY13
0
1
OPTION
2
VL
Recycle
solenoid
EXFL1
2
1
4
3
5
9
11
13
15
10
12
14
16
6
8
7
MTRKEY5 4
2
1
4
3
6
5
9
8
7
10
12
11
14
1
MTRKEY14
CN407
MTRKEY15
164
GND
5
5
4
3
6
0
FM
1
6
CNJ2
RCSOL 12
VL
12
16
11
2
2
CN7
CNJ10
1
M
VP
AC2
PGND
1
1
11
11
24 0
4
2
9
GOPSW2 10
PVP
TDSN
Connector
Option
CNJ2/CNJ9
GND
Detecto
Drive
motor
DXM
2
2
15
3
CN6
CN14
Toner
density
sensor
CN212
CN651
ADU driver (Option)
1 DXRRCR 24 0
2
CN654
1
3
2
1
DXOP
SN
HTCNT1
IADFTX 15
ADFTX 16
3
PGND
18
Paper
feed
clutch
ADU tray
detecting
sensor
1
14
8
CN23(Lower tray)
17
A
AC1
13
TDSN
16
FM
14
2
GND
11
6
LVPS cooling fan
Fuser lamp 2
12
4
19 VL
20 DXOPSN
21 GND
22 ADUSL
23
9
3
11
7
CN11
8
HTCNT2
ADMCLK12
ISTRX 13
PVP
GND
10
Fuser lamp 1
1
10
VL
15
10
8
7
FULP2 8
ADFILD 10
ADFIDO 11
6
3
7
PE
SN2
M
3
CN801
1
CN27
Lifting motor
2
CCD
5
GND
9
CP
LP
FRM
7
LH2
1 ADFRRSN
AC120/220-240V Line
DC+24V Line
DC+5V Line
Paper
pass
sensor
2
Paper detecting
sensor
1
Option ADF
Conector
6
GND
5
9
6
Thermostat
CNJ4
TDREF
1
LB
SN2
CN204
2
ADFVP
1
CRR
SN2
Paper limit
sensor
DSAC1 4
FULP1 5
FULP1 6
CN9
5
3
VL
CN26
Paper pass
sensor
DSAC1 3
4
Copy
density
sensor
CDS
SN
2
4
6
4
4
3
3
2
VCDS
CDSN1
GOPSW1 5
ATT
PRDY
VRDY
PACK
SVEN
SCTS
6
PEW
SN2
3
PVPO 4
Option
Hard disk
(HDD2)
Exposure
lamp
1
5
Detect
5
9
4
5
LH1
2
CNBT
1
1
CDSN2 2
0
PVP
10
3
4
Dehumidify
heater
2
1
CN15
CN1
GND
PVP
PFCR1
14 PESN1
Paper level
sensor
PVPO 3
AC2
CNSRMD
CNSHD1
CNSHD2
8 CRRSN1
3
Paper feed
clutch
DSAC1 1
DSAC1 2
CNPHD2
Exposure
inverter
9
10
2
AC1
3
1
1
2
PSAC2 3
1
CN 5
CN3
7 PEWSN1
1
2
3
CNHT3
1
PSAC1 1
CNHT2
1
5 ADFIENB 5 0
4 PUSOL1
CRR
SN1
1
DH
CNEHT
2
0
CN22
(Upper tray)
3
2
Printer controller
cooling fan
CN 1
CN 2
18 GND
2
2
1
CN206
17
1
1
OPTION
CNHT1
PVP
5V
3
8
4
4 ADFICLK
5
1
2
PVP
CN7
3
2
1
3
AC2
CN202
CN205
3 PGND
6
1
AC2
15
16 RRSN
4
VLCD
VEE
UD3
UD2
UD1
UD0
LCDAC
GND
VLC
14
13
12
11
CN4
CN8
5
1
LPFM1
SVP
11 GND
VL
1
2
3
4
5
6
7
PGND
LPFL1
10 HPESN
14
3
CN403
F6 ACH2
AC1
AC1
AC Driver
CN19
1 STRVP
2
1
CN17
VL
13
4
MS
CN201
E
24 0
9 QDOSN
3
Y1
Power
Switch
F5 ACH1
4
3
1
2
2
2
3
1
2
Bypass paper
feed sorenoid
GND
11
2
CN13
1
2
IPTXD
8
1
4
2
GND
GND
Registration
roller clutch
2
X2
VL
VL
GND
GND
9
GND
10
8
+12V2
GND
PNLRST 6
PTXD
7
F4 AC2
3
1
STRX
HSSN2
6
7
PVP
Paper pass
sensor
13
2
1
4
6
3
DRVK2 14
DRVK3 15
9
DRVK0 124
DRVK1 13
8
11
MTRLD3
10
MTRLD2
0
DT1
7
5
8
9
DT0
6
MTRLD1
5
MTRLD0
4
DRV2
3
10 0 5
7
DRV1
2
DRV0
1
1
2
3
4
5
6
7
6
5
4
3
2
1
8
7
6
5
4
3
2
F1 AC2
4
CN22
5
3
AC2
LVPS
2
ISTRX
VL
5
2
3
F3 AC1
1
GND
4
1
F2 AC1
2
4
3
1
2
HFCR
RR
SN
1
12
1
8
AC1
AC1
AC2
CN15
Detect
2
3
3
CN3
PGND
1
GND
VL
1
2
PVP
PGND
4
9
12V1
SCFL
2
2
3
PPRVP
3
8
1
2
3
4
7
1
3
2
3
GND
5V1
6
3
14 PFSDCR
2
Main motor
M
2
GND
2
CN29
Registration roller
paper pass sensor
5
FENB
13
1
Y2
Front cover open/close sensor
DOSN
2
3
CN6
12
CN8
F32AOUT 1
ON
1
2
3
4
PGND
E
OTRLTH
2
HPE
SN
5
24
CN17
1
DOSN 13
14
GND
PGND 1
MMCNT 2
MMLCK 3
MMCLK 4
PPRVP
11
1
Bypass paper
detecing sensor
9
10
CN10
CN11
HTTR1
HTTR2 10
11
VL
12
VL
CN12
GND
5V1
DDFM
1
2
QDO
SN
26
OZFM
Bypass paper
feed clutch
Paper feed cover
open/close sensor
28
1
2
3
HF
SN1
21
8
3
1
HF
SN2
22
7
2
2
1
ELP
2
3
1
3
Bypass paper
size sensor
4
5
LCCLD 6
OQIN
2
3
CN2
HF
SN3
OQLD
OQMCLK
1
1
7
X1
1
1
12V1
Speed
selecting
clutch
13
1
2
3
4
FM
25
2
FM
Ozone/
suction
fan
Middle
roller
clutch
27
4
GND
5
23
2
OQLTH 3
F32BCLK
1
Dust
correcting
fan
1
FENB
Option System
Console Conector
F32BOUT 1
Option Inverting Shift
Tray Conector
FM
6
6
LSU image data control
PVCNT
ELP2
OFF
ON
Close
CN7
CN6
Exhaust
fan 4
5
CNLSP
SVCNT
9
CN1
GND
VL
8
3
AGND
2
VA
1
PVP
PMVP
7
SVP
6
PGND
5
15 AOS4
16 GND
17 VL
PGND
PVP
VL
14 AOSS4
2
3
5
6
7
8
9
ELP1
PVP
Option Finisher
Conector
HPSN
5
VL
GND
Discharge lamp
CN 5
21 VL
22 AOSS6
3
4
/CLS
4
2
AOS2
GND
VL
23 AOS6
24 GND
25 VL
26 HPSN
27 GND
28
3
3
CNLSA
AOSS2
AOSS3
AOS3
13
1
MTRKEY7 3
1
4
3
6
2
MTRKEY8 12
MTRLD3 11
8
5
7
DRVK1
10
DRV3
DRVK3
5
8
7
10
9
12
11
14
13
16
15
MTRLD1 9
6
DRVK2
8
5
DRV2
7
4
DRVK0
10
3
DRV1
9
12
MTRLD2 2
11
1
GND
CN359
Main CPU
GND
2 VL
1
18 AOSS5
19 AOS5
20 GND
Lamp unit
home position
sensor
2
2
Touch
Panel
2
4
3
6
1
MTRLD2 5
6
DRV1
2
1
MTRLD1 3
4
DRV2
DRV3
GND
CN361
CN206
12 GND
2
3
4
5
CPU
Control Panel
STRX
3
4
0
5
VL
1
/RCP
/RDD
CN404
5
PTXD
5
6
7
8
9
10
11
0
5
CN409
CN 2
2
1
AOSS4
GND
CN408
CN 1
1
AOSS3
4
0
0
4
Original size detecting sensor
2
5
VL
AOSS1
AOS1
1
/CD1
CN402
CN356
CN401
4
1
2
AOSS2
3
4
CN20
3
2
CNB
PCTS
1
AOSS1
CNA
11
1
2
3
4
6
CNCSW
2
1
2
5
CN351
Control Panel A
CN357
3
2
1
PASN
CN358
Operation Switch
CN9
Platen cover
angle sensor
Control Panel C
Paper exit sensor
PRTS
4
1
2 PFOSN
3
1
3
2
16
3
2
Exhaust
fan motor 5
FM
2
1
SWC
1
PCSN
3
3
Platen cover
open/close
sensor
24
GND
PCSN
VL
GND
PASN
VL
GND
24
CN13
1
15
LMA
7
Paper exit
solenoid
1
SWC
SVP
6
1
PVP
PCSOL 2
3
VL
PFOSN 4
GND
5
KEY
5
3
2
FM
2
1
CN30
Exhaust
fan motor 4
CN205
LMAB
3
GND
4
13
GND
EXFL4 14
EXFM4 15
16
GND
EXFL5 17
EXFM5 18
PTL
PLED
LMB
2
ACDWN
3
12
PTL
24
Pre-separation LED
1
SVP
1
CN405
Control Panel B
4
2
SEPSOL 10
11
PVP
2
M
LMBB
1
Optics
motor
1
HVLKD 9
HVDCNT 10
PGND 11
12
PVP
12
CN31
11
9
7
5
3
1
8
TREF
2 BTCNT
3 EPACNT
5
6
F
CN360
2
KCS
5
VL
6 KCTCNT
HVLKT 6
HVTCNT 7
1
GND
10
9
8
7
6
5
4
3
2
1
3
PVP
KCT
11
E
Control Panel D
12
CN406
4
CLMA
CLMAB 5
6
VL
7
CLSN
8
GND
9
PVP
CN211
4
3
CNHV
4
HVLKC 1
HVCNT 2
GREF 3
HVBCNT 4
BREF
5
2
HVPS
Key
Counter
1
1
2
3
1
CLMBB
PVP
CLMB
CN14
1
2
3
5
CN10
CN18
(OPTION)
D
CN362
MTRKEY6 2
C
DRV3
B
A
LCD
ORDER NO. OED9906370C1
The Ninja’s Torano-maki
Schematic Diagram
1
TORANO-MAKI
E
FP-D450/D600 Series
C
D
E
F
9
A
B
C
D
E
F
TH1
CDSN1
CDSN2
CDSEL1
CDSEL2
CDSEL3
TDSN
HPSN
RRSN
ZCRS
ADFRRSN
STRRSN
PSLSN
PSWSN
AOSS[1..6]
TED
ADFIDI
DXIN
OQIN
ADFIN
LBSN1
LBSN2
DOSN
MTRXIN[0..7]
ADRRSNIN
STRRSNIN
PSLSNIN
PSWSNIN
ADFINI
HPSNIN
RRSNIN
TEDSN
AOSSIN
F32AINI
F32BINI
ADFIDII
CMDI
SCLKI
CBSYI
PRNTI
VSYNCI
AD[0..15]
A[1..4]
IE
R/IW
ALE
IBHE
IBLE
CPUCLK
IRST
LMCLKI
ADMCLKI
ZC
SREQI
SHRDYI
SLSYNCI
AD[0..15]
A[8..18]
RAMSL
RAMSH
IRD
IWR
IROMS
HTSN
CDSN1I
CDSN2I
TDSNI
PVPEM
LMREQ
DXMREQ
ADMREQ
SCTSI
OPRX
SRXDI
ZC
SGAINT
PGAINT
PRSTI
LBSN1I
LBSN2I
1-1
1-2
IE
R/IW
ALE
IBLE
IBHE
CPUCLK
HFSCNT
HFCCNT
MMCNTI
LMCLKI
LMSTRT
ADMCLKI
ADMSTRT
MMCLKI
SEPSCNT
PFCCNT1
PUSCNT1
LUMCT1
PFCCNT2
PUSCNT2
LUMCT2
PCCNT
RCCNT
PFSDCNT
PCSCNT
PVCNTI
SVCNTI
KCTCNTI
OPTX
STXDI
ADFOUTI
HVCNTI
HVBCNTI
PMCNTI
A[1..7]
IRST
SRTSI
TEDCNT
OPDE
RESETOUT
TH1
CDSN1
CDSN2
CDSEL1
CDSEL2
CDSEL3
TDSN
HPSN
RRSN
ZCRS
ADFRRSN
STRRSN
PSLSN
PSWSN
AOSS[1..6]
TED
ADFIDI
DXIN
OQIN
ADFIN
LBSN1
LBSN2
DOSN
INPUT
INPUT.SCH
1
HTSN
CDSN1I
CDSN2I
TDSNI
PVPEM
HPSNIN
RRSNIN
ADRRSNIN
STRRSNIN
PSLSNIN
PSWSNIN
ZC
AOSSIN
TEDSN
F32AINI
F32BINI
ADFIDII
LBSN1I
LBSN2I
ADFINI
ZCSP
DOSNMX
ILOCK
1-3
MTRXIN[0..7]
BMCA
ADRRSNIN
BMCAB
STRRSNIN
BMCB
PSLSNIN
BMCBB
PSWSNIN
CLMCA
ADFINI
CLMCAB
HPSNIN
CLMCB
RRSNIN
CLMCBB
TEDSN
ELPCNT
AOSSIN
SCFCNT
F32AINI
EXFCNT1
F32BINI
LPFCNT
ADFIDII
LPCNT1I
CMDI
CTCNT
SCLKI
DADAT
CBSYI
AOSI[1..6]
PRNTI
MTRXSL[0..4]
VSYNCI
HTCNT1
AD[0..15]
HTCNT2
A[1..4]
OQLDI
IE
LCCLDI
R/IW
OTRLDI
ALE
FENBI
IBHE
QLTHI
IBLE
OTRLTHI
CPUCLK
DALTH
IRST
OQLTHI
LMCLKI
F32AOUTI
ADMCLKI
F32BOUTI
ZC
F32CLKI
SREQI
DXFENBI
SHRDYI
ADFIDOI
SLSYNCI
ADFIENBI
ADFILDI
QLDI
STAI
SBSYI
ATTI
PRDYI
VRDYI
PACKI
A[8..18]
IRD
IWR
IROMS
RAMSL
RAMSH
IPGCS
SGAINT
PGAINT
DXMREQ
LMREQ
ADMREQ
M38CS
ADMSTRT
LMSTRT
LMM1
LMM2
LMM3
LMCMB
LMENB
IPCBKSEL
CDSEL1
CDSEL2
CDSEL3
DXMA
DXMAB
DXMB
DXMBB
VCDSI
RRCNT
HVTCNTI
OQMCLKI
HMMCLKI
PMCLKI
GVSYNC
RVSCLKI
SVSYNCI
SHWREQI
SHBREQI
SORGSSTI
SVENI
HVDCNTI
GABLK
GABLK.SCH
AD[0..15]
A[8..18]
RAMSL
RAMSH
IRD
IWR
IROMS
HTSN
CDSN1I
CDSN2I
TDSNI
PVPEM
LMREQ
DXMREQ
ADMREQ
SCTSI
OPRX
SRXDI
ZC
SGAINT
PGAINT
PRSTI
LBSN1I
LBSN2I
CPUBLK
CPUBLK.SCH
1. CPU Circuit
1
HTSN
CDSN1I
CDSN2I
TDSNI
PVPEM
HPSNIN
RRSNIN
ADRRSNIN
STRRSNIN
PSLSNIN
PSWSNIN
ZC
AOSSIN
TEDSN
F32AINI
F32BINI
ADFIDII
LBSN1I
LBSN2I
ADFINI
ZCSP
DOSNMX
ILOCK
BMCA
BMCAB
BMCB
BMCBB
CLMCA
CLMCAB
CLMCB
CLMCBB
ELPCNT
SCFCNT
EXFCNT1
LPFCNT
LPCNT1I
CTCNTI
DADAT
AOSI[1..6]
MTRXSL[0..4]
HTCNT1
HTCNT2
OQLDI
LCCLDI
OTRLDI
FENBI
QLTHI
OTRLTHI
DALTH
OQLTHI
F32AOUTI
F32BOUTI
F32CLKI
DXFENBI
ADFIDOI
ADFIENBI
ADFILDI
QLDI
STAI
SBSYI
ATTI
PRDYI
VRDYI
PACKI
A[8..18]
IRD
IWR
IROMS
RAMSL
RAMSH
IPGCS
SGAINT
PGAINT
DXMREQ
LMREQ
ADMREQ
M38CS
ADMSTRT
LMSTRT
LMM1
LMM2
LMM3
LMCMB
LMENB
IPCBKSEL
CDSEL1
CDSEL2
CDSEL3
DXMA
DXMAB
DXMB
DXMBB
VCDSI
RRCNT
HVTCNTI
OQMCLKI
HMMCLKI
PMCLKI
GVSYNC
RVSCLKI
SVSYNCI
SHWREQI
SHBREQI
SORGSSTI
SVENI
HVDCNTI
IE
R/IW
ALE
IBLE
IBHE
CPUCLK
HFSCNT
HFCCNT
MMCNTI
LMCLKI
LMSTRT
ADMCLKI
ADMSTRT
MMCLKI
SEPSCNT
PFCCNT1
PUSCNT1
LUMCT1
PFCCNT2
PUSCNT2
LUMCT2
PCCNT
RCCNT
PFSDCNT
PCSCNT
PVCNTI
SVSNTI
KCTCNTI
OPTX
STXDI
ADFOUTI
HVCNTI
HVBCNTI
PMCNTI
A[1..7]
IRST
SRTSI
TEDCNT
OPDE
RESETOUT
SCFCNT
LPFCNT
LUMCT1
LBSN1
LUMCT2
LBSN2
LMM1
LMM2
LMM3
LMCMB
LMENB
LMCLKI
IRST
LMREF
ELPCNT
RCCNT
PFSDCNT
RRCNT
PCCNT
HFCCNT
HFSCNT
PFCCNT1
PUSCNT1
PFCCNT2
PUSCNT2
SEPSCNT
CTCNTI
KCTCNTI
PCSCNT
BMCA
BMCAB
BMCB
BMCBB
CLMCA
CLMCAB
CLMCB
CLMCBB
EXFCNT1
ADMCLKI
MMCLKI
HVCNTI
HVDCNTI
MMCNTI
PVCNTI
SVSNTI
ADFOUTI
PMCNTI
AOSI[1..6]
F32AOUTI
F32CLKI
F32BOUTI
QLDI
OQLDI
LCCLDI
OTRLDI
FENBI
QLTHI
OTRLTHI
OQLTHI
DXMA
DXMAB
DXMB
DXMBB
VCDSI
OQMCLKI
HMMCLKI
PMCLKI
RVSCLKI
HVBCNTI
HVTCNTI
LPCNT1I
TEDCNT
DXFENBI
ADFIDOI
ADFIENBI
ADFILDI
KCTCNTI
DALTH
DADAT
HTCNT1
HTCNT2
TH1
TH2
ZCDWN
MTRXSL[0..4]
HSSN1
HSSN2
HSSN3
CRRSN1
CRRSN2
PESN1
PESN2
PEWSN1
PEWSN2
HPESN
SCFL
OZFL
DDFL
EXFL1
EXFL2
LPFL
MMLCK
PMLOCK
GOPSW1
PFOSN
DOSNMX
QDOSN
DXOPSN
HVLKC
HVLKD
HVLKT
PCLD1
PCLD2
BPSN
TFSN
PASN
PCSN
CLSN
ADUSL
CTS
SCFCNT
LPFCNT
LUMCT1
LBSN1
LUMCT2
LBSN2
LMM1
LMM2
LMM3
LMCMB
LMENB
LMCLKI
IRST
LMREF
ELPCNT
RCCNT
PFSDCNT
RRCNT
PCCNT
HFCCNT
HFSCNT
PFCCNT1
PUSCNT1
PFCCNT2
PUSCNT2
SEPSCNT
CTCNT
KCTCNTI
PCSCNT
BMCA
BMCAB
BMCB
BMCBB
CLMCA
CLMCAB
CLMCB
CLMCBB
EXFCNT1
DRIVER
DRIVER.SCH
ADMCLKI
MMCLKI
HVCNTI
HVDCNTI
MMCNTI
PVCNTI
SVCNTI
ADFOUTI
PMCNTI
AOSI[1..6]
F32AOUTI
F32CLKI
F32BOUTI
QLDI
OQLDI
LCCLDI
OTRLDI
FENBI
QLTHI
OTRLTHI
OQLTHI
DXMA
DXMAB
DXMB
DXMBB
VCDSI
OQMCLKI
HMMCLKI
PMCLKI
RVSCLKI
HVBCNTI
HVTCNTI
LPCNT1I
TEDCNT
DXFENBI
ADFIDOI
ADFIENBI
ADFILDI
KCTCNTI
DALTH
DADAT
HTCNT1
HTCNT2
TH1
TH2
OUTBLK
OUTBLK.SCH
ZCDWN
MTRXSL[0..4]
HSSN1
HSSN2
HSSN3
CRRSN1
CRRSN2
PESN1
PESN2
PEWSN1
PEWSN2
HPESN
SCFL
OZFL
DDFL
EXFL1
EXFL2
LPFL
MMLCK
PMLOCK
GOPSW1
PFOSN
DOSNMX
QDOSN
DXOPSN
HVLKC
HVLKD
HVLKT
PCLD1
PCLD2
BPSN
TFSN
PASN
PCSN
CLSN
ADUSL
CTS
MATRIX
MATRIX.SCH
RRCR
PCCR
HFCR
HFSOL
PFCR1
PUSOL1
PFCR2
PUSOL2
PCSOL
SEPSOL
KCT
CT
CTS
BMA
BMAB
BMB
BMBB
CLMBB
CLMB
CLMA
CLMAB
EXFM1
PSFM
SCFM
DDFM
LPFM
ELP1
ELP2
PCLD1
PCLD2
LUM1-1
LUM1-2
LUM2-1
LUM2-2
LMA
LMAB
LMB
LMBB
RCSOL
PFSDCR
2
1-6
ADMCLK
MMCLK
ADFOUT
PMCNT
HVCNT
HVDCNT
MMCNT
PVCNT
SVCNT
AOS[1..6]
QLD
OQLD
LCCLD
OTRLD
FENB
QLTH
OTRLTH
OQLTH
F32AOUT
F32ACLK
F32BOUT
F32BCLK
DXMCA
DXMCAB
DXMCB
DXMCBB
HVBCNT
HVTCNT
OQMCLK
HMMCLK
PMCLK
RVSCLK
VCDS
LPCNT1
VTED
DXFENB
ADFIDO
ADFICLK
ADFIENB
ADFILD
KCTCNT
GREF
BREF
TDREF
LMREF
TREF
HTTR1
HTTR2
1-5
MTRXIN[0..7]
1-4
2
RRCR
PCCR
HFCR
HFSOL
PFCR1
PUSOL1
PFCR2
PUSOL2
PCSOL
SEPSOL
KCT
CT
CTS
BMA
BMAB
BMB
BMBB
CLMBB
CLMB
CLMA
CLMAB
EXFM1
PSFM
SCFM
DDFM
LPFM
ELP1
ELP2
PCLD1
PCLD2
LUM1-1
LUM1-2
LUM2-1
LUM2-2
LMA
LMAB
LMB
LMBB
RCSOL
PFSDCR
ADMCLK
MMCLK
ADFOUT
PMCNT
HVCNT
HVDCNT
MMCNT
PVCNT
SVCNT
AOS[1..6]
QLD
OQLD
LCCLD
OTRLD
FENB
QLTH
OTRLTH
OQLTH
F32AOUT
F32ACLK
F32BOUT
F32BCLK
DXMCA
DXMCAB
DXMCB
DXMCBB
HVBCNT
HVTCNT
OQMCLK
HMMCLK
PMCLK
RVSCLK
VCDS
LPCNT1
VTED
DXFENB
ADFIDO
ADFICLK
ADFIENB
ADFILD
KCTCNT
GREF
BREF
TDREF
LMREF
TREF
HTTR1
HTTR2
MTRXIN[0..7]
ENABLE
CAL
ADJUST1
ADJUST2
VDA[0..7]
VDB[0..7]
TRA0
TRA1
TRB0
TRB1
LCLK
PLSYNCI
LSULSYNC
NPVD[0..7]
POPVD[0..7]
PPVCLK
NPVCLK
PCLSYNC
NCLSYNC
PLEN
NLEN
AD[0..7]
A[1..12]
IRST
IPGCS
IWR
IRD
GVSYNC
PVD[0..7]
CPUCLK
LLSYNCIN2
LLSYNCIN
ILOCK
*LEN
*CLSYNC
*PVCLK
*CBSY
*CMD
*SCLK
*PRNT
*VSYNC
PRST
ATTI
SBSYI
STAI
PRDYI
VRDYI
PACKI
OPTX
OPDE
STRX
ISTRX
*STXD
STXDI
SRTS
SRTSI
*SLSYNC
*SHRDY
*SREQ
SHWREQI
SHBREQI
SVSYNCI
SORGSSTI
SVENI
1-7
LLSYNCIN
PVD[0..7]
*PVCLK
*CLSYNC
*LEN
LLSYNCIN2
LCLKO
ENABLEO
CALO
ADJ1O
SEMDEM1
LEMTEM1
ADJ2
LDA[0..7]
SEMDEM2
LEMTEM2
LDB[0..7]
PPLSYNC
NPLSYNC
1-9
*PLSYNC
PLSYNCI
VDA[0..7]
VDB[0..7]
TRA0
TRA1
TRB0
TRB1
LCLK
ENABLE
CAL
ADJUST1
ADJUST2
1-8
*ATT
*SBSY
*STA
*PRDY
*VRDY
*PACK
CBSYI
CMDI
SCLKI
PRNTI
VSYNCI
PRSTI
*SRXD
IADFTX
ADFTX
STTX
ISTTX
SRXDI
SCTS
SCTSI
SLSYNCI
SHRDYI
SREQI
*SHWREQ
*SHBREQ
*SVSYNC
*SORGSST
*SVEN
OPRX
LLSYNCIN
PVD[0..7]
*PVCLK
*CLSYNC
*LEN
LLSYNCIN2
LCLKO
ENABLEO
CALO
ADJ1O
SEMDEM1
LEMTEM1
ADJ2
LDA[0..7]
SEMDEM2
LEMTEM2
LDB[0..7]
PPLSYNC
NPLSYNC
*PLSYNC
PLSYNCI
VDA[0..7]
VDB[0..7]
TRA0
TRA1
TRB0
TRB1
LCLK
ENABLE
CAL
ADJUST1
ADJUST2
*ATT
*SBSY
*STA
*PRDY
*VRDY
*PACK
CBSYI
CMDI
SCLKI
PRNTI
VSYNCI
PRSTI
*SRXD
IADFTX
ADFTX
STTX
ISTTX
SRXDI
SCTS
SCTSI
SLSYNCI
SHRDYI
SREQI
*SHWREQ
*SHBREQ
*SVSYC
*SORGSST
*SVEN
OPRX
PFCR1
PUSOL1
LUM1-2
PFCR2
PUSOL2
LUM2-2
HFCR
RRCR
HFSOL
VCDS
TDREF
RCSOL
DDFM
SCFM
PCCR
MMCNT
MMCLK
ELP1
ELP2
HTTR1
HTTR2
VTED
BMA
BMAB
BMB
BMBB
EXFM1
PCSOL
CLMBB
CLMB
CLMA
CLMAB
SEPSOL
F32AOUT
QLTH
F32ACLK
QLD
DXMCA
DXMCAB
DXMCB
DXMCBB
DXFENB
F32BOUT
FENB
OQLTH
F32BCLK
OQLD
LCCLD
OQMCLK
*ATT
*SBSY
*STA
*PRDY
*VRDY
*PACK
PMCLK
PMCNT
AOS[1..6]
LPFM
LPCNT1
LUM1-1
LUM2-1
ADFOUT
CT
KCT
KCTCNT
LMBB
LMB
LMAB
LMA
ISTTX
STTX
IADFTX
ADFTX
ADFIENB
ADMCLK
OTRLTH
OTRLD
HMMCLK
RVSCLK
SVCNT
PVCNT
AD[0..7]
A[1..7]
IE
R/IW
M38CS
BTCNT
EPACNT
ADFIDO
ADFICLK
ADFILD
RESETOUT
PFSDCR
PSFM
HVCNT
GREF
HVBCNT
BREF
HVDCNT
HVTCNT
TREF
PRCFM
IPCBKSEL
LDA[0..7]
LDB[0..7]
LCLKO
LEMTEM1
LEMTEM2
SEMDEM1
SEMDEM2
ADJ2
ADJ1O
CALO
ENABLEO
PPLSYNC
NPLSYNC
PFCR1
PUSOL1
LUM1-2
PFCR2
PUSOL2
LUM2-2
HFCR
RRCR
HFSOL
VCDS
TDREF
RCSOL
DDFM
SCFM
PCCR
MMCNT
MMCLK
ELP1
ELP2
HTTR1
HTTR2
VTED
BMA
BMAB
BMB
BMBB
EXFM1
PCSOL
CLMBB
CLMB
CLMA
CLMAB
SEPSOL
F32AOUT
QLTH
F32ACLK
QLD
DXMCA
DXMCAB
DXMCB
DXMCBB
DXFENB
F32BOUT
FENB
OQLTH
F32BCLK
OQLD
LCCLD
OQMCLK
*ATT
*SBSY
*STA
*PRDY
*VRDY
*PACK
PMCLK
PMCNT
AOS[1..6]
LPFM
LPCNT1
LUM1-1
LUM2-1
ADFOUT
CT
KCT
KCTCNT
LMBB
LMB
LMAB
LMA
ISTTX
STTX
IADFTX
ADFTX
ADFIENB
ADMCLK
OTRLTH
OTRLD
HMMCLK
RVSCLK
SVCNT
PVCNT
AD[0..7]
A[1..7]
IE
R/IW
M38CS
BTCNT
EPACNT
ADFIDO
ADFICLK
ADFILD
RESETOUT
PFSDCR
PSFM
HVCNT
GREF
HVBCNT
BREF
HVDCNT
HVTCNT
TREF
PRCFM
IPCBKSEL
LDA[0..7]
LDB[0..7]
LCLKO
LEMTEM1
LEMTEM2
SEMDEM1
SEMDEM2
ADJ2
ADJ1O
CALO
ENABLEO
PPLSYNC
NPLSYNC
CONNECT
CONNECT.SCH
1-10
PRCFL
HDDFL
LSULSYNC
PPVCLK
NPVCLK
PCLSYNC
NCLSYNC
PLEN
NLEN
POPVD[0..7]
NPVD[0..7]
PEWSN1
CRRSN1
LBSN1
PESN1
PEWSN2
CRRSN2
LBSN2
PESN2
QDOSN
HPESN
RRSN
HSSN3
HSSN2
HSSN1
CDSN2
CDSN1
GOPSW1
TDSN
TH1
TH2
OZFL
DDFL
SCFL
MMLCK
DOSN
TED
TFSN
BPSN
EXFL1
EXFL2
PFOSN
CLSN
DXIN
PSLSN
PSWSN
DXOPSN
ADUSL
OQIN
*CBSY
*CMD
*SCLK
*PRNT
*VSYNC
PRST
PMLOCK
PCSN
PASN
AOSS[1..6]
HPSN
LPFL
KCS
ISTRX
STRX
ADFIN
STRRSN
ZCRS
ZCDWN
ACDWN
ADFRRSN
ADFIDI
PSFL
HVLKC
HVLKD
HVLKT
PRCFL
HDDFL
LSULSYNC
PPVCLK
NPVCLK
PCLSYNC
NCLSYNC
PLEN
NLEN
POPVD[0..7]
NPVD[0..7]
PEWSN1
CRRSN1
LBSN1
PESN1
PEWSN2
CRRSN2
LBSN2
PESN2
QDOSN
HPESN
RRSN
HSSN3
HSSN2
HSSN1
CDSN2
CDSN1
GOPSW1
TDSN
TH1
TH2
OZFL
DDFL
SCFL
MMLCK
DOSN
TED
TFSN
BPSN
EXFL1
EXFL2
PFOSN
CLSN
DXIN
PSLSN
PSWSN
DXOPSN
ADUSL
OQIN
*CBSY
*CMD
*SCLK
*PRNT
*VSYNC
PRST
PMLOCK
PCSN
PASN
AOSS[1..6]
HPSN
LPFL
KCS
ISTRX
STRX
ADFIN
STRRSN
ZCRS
ZCDWN
ACDWN
ADRRSN
ADFIDI
PSFL
HVLKC
HVLKD
HVLKT
3
Notise de securité
Lors du remplacement des composants ayant le simbole
d'origine cells ci ayant des caractéristiques spécifiques.
n'utiliser que des pièces
Alle bautelle, die mit diesem Zechen
marklert sind, haben wichtige Merkmale für die
sicherheit. Falls die Bautelle ausgetauscht werden. dürfen sie nur durch vom Herrsteller
empfohlene Bautelle ersetzt werden.
Important safety notice
mark have special characteristics important for safety.
Components identified by
When replacing any of these components. Use only manufacturer's specified parts.
ENABLE
CAL
ADJUST1
ADJUST2
VDA[0..7]
VDB[0..7]
TRA0
TRA1
TRB0
TRB1
LCLK
PLSYNCI
LSULSYNC
NPVD[0..7]
POPVD[0..7]
PPVCLK
NPVCLK
PCLSYNC
NCLSYNC
PLEN
NLEN
LSUIFBK2
LSUIFBK2.SCH
AD[0..7]
A[1..12]
IRST
IPGCS
IWR
IRD
GVSYNC
PVD[0..7]
CPUCLK
LLSYNCIN2
LLSYNCIN
ILOCK
*LEN
*CLSYNC
*PVCLK
IMAGE
IMAGE.SCH
*CBSY
*CMD
*SCLK
*PRNT
*VSYNC
PRST
ATTI
SBSYI
STAI
PRDYI
VRDYI
PACKI
OPTX
OPDE
STRX
ISTRX
*STXD
STXDI
SRTS
SRTSI
*SLSYNC
*SHRDY
*SREQ
SHWREQI
SHBREQI
SVSYNCI
SORGSSTI
SVENI
INTFACE
INTFACE.SCH
3
4
4
NQDACK
NQBACK
ODREQ
QD[0..15]
*IDACK
PDREQ
LB[0..15]
I/D
NLWR
NLRD
NRST0
ID[0..15]
NCS2
NCS1
SYSCLK_3C
SYSCLK_3D
PM2MSEL
ZCSP
KCS
ACDWN
*BRLEN
*BRVEN
VWDATA
BRDATA
LB[0..15]
NLRD
NLWR
I/D
NCS5
ID[0..15]
*IDACK
REFCLK
DM1REQ
SYSCLK_3D
KEY
PCI_RESET
/SCACC
SDPRN
NCS3
BCLK
LB[0..15]
NINT1
NINT2
NINT3
NINT4
NINT5
DD[0..15]
NDREQ
DRD
PD[0..15]
PDREQ
/SCACC
SDPRN
SCTS
*SRXD
P_LED
HDDFL
OD[0..15]
I/D
NLRD
NLWR
LB[0..15]
NINT4
REFCLK
NRST0
SYSCLK_3C
DM1REQ
*BIVEN
*BILEN
*BRLEN
BRDATA
*BRVEN
DD[0..15]
NDACK
QDREQ
ODREQ
*SVEN
*SORGSST
*SHWREQ
*SHBREQ
*SVSYNC
BUFGATE
*PLSYNC
*PACK
*PRDY
*VRDY
*ATT
LB[0..15]
NRST0
NLRD
WRAO
I/D
CSAO
*BIVEN
*BILEN
VWDATA
*BRVEN
*BRLEN
BRDATA
PSFL
PRCFL
SYSCLK_3B
SYSCLK_3A
RST0
NQDACK
NQBACK
ODREQ
QD[0..15]
*IDACK
PDREQ
LB[0..15]
I/D
NLWR
NLRD
NRST0
ID[0..15]
NCS2
NCS1
SYSCLK_3C
SYSCLK_3D
PM2MSEL
PM2
PM2.SCH
ZCSP
KCS
ACDWN
*BRLEN
*BRVEN
VWDATA
BRDATA
LB[0..15]
NLRD
NLWR
I/D
NCS5
ID[0..15]
*IDACK
REFCLK
DM1REQ
SYSCLK_3D
KEY
PCI_RESET
/SCACC
SDPRN
NCS3
GAMMA
GAMMA.SCH
BCLK
LB[0..15]
NINT1
NINT2
NINT3
NINT4
NINT5
DD[0..15]
NDREQ
DRD
PD[0..15]
PDREQ
/SCACC
SDPRN
SCTS
*SRXD
P_LED
HDDFL
BETA2
BETA2.SCH
OD[0..15]
I/D
NLRD
NLWR
LB[0..15]
NINT4
REFCLK
NRST0
SYSCLK_3C
DM1REQ
*BIVEN
*BILEN
*BRLEN
BRDATA
*BRVEN
DD[0..15]
NDACK
QDREQ
ODREQ
BETA1
BETA1.SCH
*SVEN
*SORGSST
*SHWREQ
*SHBREQ
*SVSYNC
BUFGATE
*PLSYNC
*PACK
*PRDY
*VRDY
*ATT
LB[0..15]
NRST0
NLRD
WRAO
I/D
CSAO
*BIVEN
*BILEN
VWDATA
*BRVEN
*BRLEN
BRDATA
PSFL
PRCFL
SYSCLK_3B
SYSCLK_3A
RST0
ALPHA
ALPHA.SCH
1-11
QDREQ
NINT1
NOBACK
NODACK
OD[0..15]
IDREQ
NINT2
NBACK
NPDACK
PD[0..15]
1-15
EPACNT
BTCNT
BUFGATE
NWAIT
NINT5
BCLK
IDREQ
DMI[0..7]
DM1ACK
P_LED
SDACC
/SCPRN
CSAO
WRAO
1-14
I/D
NLRD
NLWR
NWAIT
NCS1
NCS2
NCS3
NCS4
NCS5
NDACK
NPDACK
NBACK
SDACC
/SCPRN
*STXD
SRTS
SYSCLK_3A
SYSCLK_3B
SYSCLK_3C
SYSCLK_3D
KEY
PCI_RESET
NRST0
PM2MSEL
1-13
NCS4
DM1ACK
BIDATA
DRD
NDREQ
NQBACK
NQDACK
QD[0..15]
NODACK
NOBACK
DMI[0..7]
1-12
*SHRDY
*SREQ
*SLSYNC
*LEN
*CLSYNC
*PVCLK
PRST
*PRNT
*VSYNC
NINT3
BIDATA
PRCFM
PVD[0..7]
5
QDREQ
NINT1
NOBACK
NODACK
OD[0..15]
IDREQ
NINT2
NBACK
NPDACK
PD[0..15]
EPACNT
BTCNT
BUFGATE
NWAIT
NINT5
BCLK
IDREQ
DMI[0..7]
DM1ACK
P_LED
SDACC
/SCPRN
CSAO
WRAO
I/D
NLRD
NLWR
NWAIT
NCS1
NCS2
NCS3
NCS4
NCS5
NDACK
NPDACK
NBACK
SDACC
/SCPRN
*STXD
SRTS
SYSCLK_3A
SYSCLK_3B
SYSCLK_3C
SYSCLK_3D
KEY
PCI_RESET
NRST0
PM2MSEL
NCS4
DM1ACK
BIDATA
DRD
NDREQ
NQBACK
NQDACK
QD[0..15]
NODACK
NOBACK
DMI[0..7]
*SHRDY
*SREQ
*SLSYNC
*LEN
*CLSYNC
*PVCLK
PRST
*PRNT
*VSYNC
NINT3
BIDATA
PRCFM
PVD[0..7]
5
6
6
A
B
C
D
E
F
A
B
C
D
E
F
TEDCNT
PMCNTI
HVBCNTI
HVCNTI
ADFOUTI
PGAINT
SGAINT
ZC
MMCNTI
HFCCNT
HFSCNT
KCTCNTI
ADMREQ
SVCNTI
DXMREQ
PVCNTI
LMREQ
PCSCNT
STXDI
SRXDI
SCTSI
SRTSI
OPTX
OPRX
OPDE
[ 6 : E6 ]
[ 6 : C1 ]
[ 6 : E1 ]
[ 6 : E1 ]
[ 6 : C1 ]
[ 3 : C3 ]
[ 3 : C3 ]
[ 4 : B3 ]
[ 6 : D1 ]
[ 7 : F1 ]
[ 7 : F1 ]
[ 7 : D1 ]
[ 3 : C3 ]
[ 6 : D1 ]
[ 3 : C3 ]
[ 6 : D1 ]
[ 3 : C3 ]
[ 7 : D1 ]
[ 8 : A3 ]
[ 8 : D4 ]
[ 8 : D4 ]
[ 8 : C3 ]
[ 8 : D4 ]
[ 8 : E5 ]
[ 8 : E5 ]
1
LBSN2I
LBSN1I
PFSDCNT
PVPEM
TDSNI
CDSN2I
CDSN1I
HTSN
SEPSCNT
MMCLKI
ADMSTRT
ADMCLKI
LMSTRT
LMCLKI
[ 7 : B3 ]
[ 6 : F1 ]
[ 3 : C3 ]
[ 3 : C3 ] [ 6 : F1 ]
[ 3 : C3 ]
[ 3 : C3 ] [ 7 : B5 ]
[ 4 : E4 ] [ 7 : C5]
[ 4 : E4 ] [ 7 : D5]
[ 7 : D1]
[ 4 : E4 ]
[ 4 : E4 ]
[ 4 : E4 ]
[ 4 : E4 ]
[ 4 : E4 ]
RCCNT
PCCNT
LUMCT2
PUSCNT2
PFCCNT2
LUMCT1
PUSCNT1
PFCCNT1
[ 7 : C3 ]
[ 7 : F1 ]
[ 7 : C5 ]
[ 7 : E1 ]
[ 7 : E1 ]
[ 7 : D5 ]
[ 7 : E1 ]
[ 7 : E1 ]
93
94
95
96
97
98
99
100
80
81
82
83
84
85
86
87
STXDI
SRXDI
SCTSI
SRTSI
OPTX
OPRX
OPDE
LBSN2I
LBSN1I
PFSDCNT
PVPEM
TDSNI
CDSN2I
CDSN1I
HTSN
72
73
74
75
76
77
78
79
KCTCNTI
VPPCNT
ADMREQ
SVCNTI
DXMREQ
PVCNTI
LMREQ
PCSCNT
25
26
27
28
29
MMCNTI
HFCCNT
HFSCNT
STS2
17
18
19
20
21
22
23
24
9
10
11
12
13
14
15
16
1
2
3
4
5
6
7
8
TEDCNT
PMCNTI
HVBCNTI
HVCNTI
ADFOUTI
PGAINT
SGAINT
ZC
SEPSCNT
MMCLKI
ADMSTRT
ADMCLKI
LMSTRT
LMCLKI
RCCNT
PCCNT
LUMCT2
PUSCNT2
PFCCNT2
LUMCT1
PUSCNT1
PFCCNT1
HOLD
BYTE
XIN
XOUT
E
R/W
ALE
BLE
BHE
RDY
F
A7
A6
A5
A4
A3
A2
A1
A0
A15/D15
A14/D14
A13/D13
A12/D12
A11/D11
A10/D10
A9/D9
A8/D8
A23/D7
A22/D6
A21/D5
A20/D4
A19/D3
A18/D2
A17/D1
A16/D0
M37721S2BFP
P77/AN7
P76/AN6
P75/AN5
P74/AN4
P73/AN3
P72/AN2
P71/AN1
P70/AN0
VCC
AVCC
VREF
AVSS
VSS
RESETOUT
P87/TXD1
RESET
P86/RXD1
P85/CLK1
ST1
P84/CTS1/RTS1
ST0
P83/TXD0
P82/RXD0
VCC
P81/CLK0
VSS
P80/CTS0/RTS0
CNVSS
P97
P96
P95
P94
P93
P92
P91
P90
P47
P46
P45
P44
P43
P107
P106
P105
P104
P103/TC
P102/INT2
P101/INT1
P100/INT0
P57/TB1IN
P56/TB0IN
P55/TA4IN
P54/TA4OUT
P53/TA3IN
P52/TA3OUT
P51/TA2IN
P50/TA2OUT
P67/RTP13
P66/RTP12
P65/RTP11
P64/RTP10
P63/RTP03
P62/RTP02
P61/RTP01
P60/RTP00
IC1
35
36
88
89
90
91
92
41
40
34
42
43
C53
2
3
1
1
1
1
[ 11 : B4 ]
[ 8 : E4 ]
PRSTI
TP2
RT01T1.0B
RESETOUT
ECUV1H220JCV
[ 3 : D3 ] [11 : B4 ]
CK6M
CPUCLK
C19
ECQV1H224JL3
WDOG
PRSTI
RCT
VL
3
A9
A10
A11
A12
A13
A8
C5
VCC
5
6
7
8
VL
I/O1
I/O2
I/O3
I/O4
I/O5
I/O6
I/O7
I/O8
GND
LC3564BM-10
NC
A8
A9
A10
A11
A12
OE
WE
CE1
CE2
A0
A1
A2
A3
A4
A5
A6
A7
IC3
[ 3 : D3 ]
VCC
VR
VS
R
MB3773TR
CK
R
CT
GND
IC4
VCC
I/O1
I/O2
I/O3
I/O4
I/O5
I/O6
I/O7
I/O8
GND
LC3564BM-10
NC
A8
A9
A10
A11
A12
OE
WE
CE1
CE2
A0
A1
A2
A3
A4
A5
A6
A7
IC2
R88
ERJ3GSYJ472V
1
25
24
21
23
2
22
27
20
26
A1 10
A2 9
A3 8
A4 7
A5 6
A6 5
A7 4
3
1
25
24
21
23
2
22
27
20
26
A1 10
A2 9
A3 8
A4 7
A5 6
A6 5
A7 4
3
C64
ECJ1VF1C104Z
3
2
1
4
SRESET
VL
IRST
SRAMCE1
A9
A10
A11
A12
A13
A8
R75
ERJ3GSYJ472V
ECEA1CKA100B
TA28
XN4211TX
Not Mounting
[ 3 : C3 ] [ 9 : D2 ]
[ 3 : C3 ]
JP6
ERJ3GS0R00V
NFM51R00P206
NF4
ERJ3GSYJ105V
C119
ALE
3
[ 3 : C3 ] [11 : B4 ]
JP5
ERJ3GS0R00V
NF3
NFM51R00P206
XL1
HU49US12.3MT
R60
R/IW
JP4
ERJ3GS0R00V
NF1
NFM51R00P206
IE
JP3
ERJ3GS0R00V
NF2
NFM51R00P206
Not Mounting
C108
ECUV1H103MBV
RESETOUT
XIN
XOUT
3
Not Mounting
3
Not Mounting
3
Not Mounting
[ 3 : D3 ]
[ 3 : D3 ]
C118
ECUV1H220JCV
IBLE
IBHE
C4
ECEA1CKA100B
C20
VL
CPUCLKI
IEI
R/IWI
ALEI
IBLE
IBHE
ECJ1VF1C104Z
ECJ1VF1C104Z
VL
CK12M
CK12M
37
38
32
33
CK6M
39
47
44
45
46
31
30
A7
A6
A5
A4
A3
A2
A1
AD15
AD14
AD13
AD12
AD11
AD10
AD9
AD8
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
AD7
AD6
AD5
AD4
AD3
AD2
AD1
AD0
48
49
50
51
52
53
54
55
A[1..7]
2
2
2
2
1-1. CPU Block
2
NPN
1
6
5
4
1
2
3
14
28
11
12
13
15
16
17
18
19
14
28
11
12
13
15
16
17
18
19
VL
4
C105
ECUV1H103MBV
RSTORG
[ 3 : C3 ]
RAMSH
VL
100mA
DT1
DTC114EKA146
VL
BT1
CR2330-1HH
100mA
R63
ERJ3GSYJ152V
D1A
100mA
100mA BT+
D1
MA152KTX
R74
ERJ3GSYJ472V
BTVCC
Q1
2SA1037KT146
100mA
VL
[ 3 : C3 ]
DT2
DTA114EKA146
C63
ECJ1VF1C104Z
R22
ERJ3GSYJ102V
Q1B
100mA
VPPCNT
RAMSL
C65
ECJ1VF1C104Z
A[1..7]
AD[0..15]
A[8..18]
R84
ERJ3GSYJ472V
R76
ERJ3GSYJ472V
100mA
AD8
AD9
AD10
AD11
AD12
AD13
AD14
AD15
AD0
AD1
AD2
AD3
AD4
AD5
AD6
AD7
4
AD10
AD2
AD9
AD1
AD8
AD0
AD15
AD7
AD14
AD6
AD13
AD5
AD12
AD4
AD11
AD3
IRD
IWR
IRD
A16
STS2
VPP
A18
IRST
IWR
A12
A13
A14
A15
A8
A9
A10
A11
A1
A2
A3
A4
A5
A6
A7
A17
VL
[ 3 : C3 ]
5
177827-3
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
CN33
[ 3 : C4 ] [ 9 : D2 ]
[ 3 : C4 ] [ 9 : D2 ]
A[1..7]
AD[0..15]
A[8..18]
[ 3 : D3 ] [ 9 : D2 ] [ 11 : B4 ]
[ 3 : E3 ] [ 9 : D2 ] [ 11 : B4 ]
[ 3 : D3 ] [ 9 : D2 ]
Notise de securité
6
IRD
IWR
6
IROMS
5
A
B
C
D
E
F
A
B
C
D
E
F
FENBI
DXFENBI
ADFIENBI
[ 6 : D2 ]
[ 6 : C2 ]
[ 6 : C2 ]
1
1-2. Gate Array
1
8
ADFIENBI
TC74AC04FT2
12
TC74AC04FT2
IC40F
10
TC74AC04FT2
IC40E
IC40D
13
11
9
MTRXSL[0..4]
[ 5 : F1 ]
DXFENBI
FENBI
MTRXIN[0..7]
AOSI[1..6]
[ 6 : B4 ]
[ 6 : B4 ]
[ 6 : F3 ]
[ 6 : F2 ]
[ 6 : F2 ]
[ 6 : E2 ]
[ 4 : B6 ]
[ 4 : B6 ]
[ 4 : B6 ]
MTRXSL[0..4]
MTRXIN[0..7]
AOSI[1..6]
[ 5 : B1 ]
[ 6 : F4 ]
AOSSIN
QLDI
OQLDI
LCCLDI
OTRLDI
ADFILDI
DALTH
QLTHI
OQLTHI
OTRLTHI
HPSNIN
RRSNIN
ADRRSNIN
STRRSNIN
PSLSNIN
PSWSNIN
ADFINI
TEDSN
SCLKI
CMDI
EXFLI4
PRNTI
VSYNCI
STAI
SBSYI
ATTI
PRDYI
VRDYI
PACKI
GVSYNC
SREQI
SHRDYI
SHWREQI
SHBREQI
SORGSSTI
SVENI
SLSYNCI
SVSYNCI
RRCNT
HVDCNTI
HVTCNTI
OQMCLKI
HMMCLKI
RVSCLKI
PMCLKI
DXMA
DXMAB
DXMB
DXMBB
VCDSI
ZC
HTCNT1
HTCNT2
F32CLKI
F32AOUTI
F32BOUTI
ADFIDOI
F32BINI
F32AINI
ADFIDII
[ 4 : D6 ]
133
134
135
136
137
138
156
MTRXIN0 143
MTRXIN1 144
MTRXIN2 145
MTRXIN3 146
MTRXIN4 147
MTRXIN5 148
MTRXIN6 149
MTRXIN7 150
MTRXSL0 151
MTRXSL1 152
MTRXSL2 153
MTRXSL3 154
MTRXSL4 155
HTCNT1 157
HTCNT2 158
2
F32CLKI
F32AOUTI
3
F32BOUTI 4
ADFIDOI
5
6
F32BINI
7
F32AINI
8
ADFIDII
OUTTH
9
10
IOENBI
11
12
13
QLDI
14
OQLDI
15
LCCLDI
16
OTRLDI
ADFILDI 17
18
DALTH
44
QLTHI
45
OQLTHI
OTRLTHI 46
HPSNIN 24
RRSNIN 25
ADRRSNIN 26
STRRSNIN 27
PSLSNIN 28
PSWSNIN 29
30
ADFINI
31
TEDSN
39
SCLKI
47
CMDI
48
EXFLI4
49
PRNTI
50
VSYNCI
51
STAI
52
SBSYI
53
ATTI
54
PRDYI
55
VRDYI
56
PACKI
GVSYNC 57
58
SREQI
SHRDYI 59
SHWREQI 60
SHBREQI 61
SORGSSTI 62
63
SVENI
SLSYNCI 64
SVSYNCI 65
66
RRCNT
HVDCNTI 67
HVTCNTI 68
OQMCLKI 69
HMMCLKI 70
RVSCLKI 71
PMCLKI 72
73
DXMA
74
DXMAB
75
DXMB
76
DXMBB
77
VCDSI
78
ZC
2
AOSI1
AOSI2
AOSI3
AOSI4
AOSI5
AOSI6
2
M7G1020401FP
AOS1
AOS2
AOS3
AOS4
AOS5
AOS6
AOSSIN
MTRXIN0
MTRXIN1
MTRXIN2
MTRXIN3
MTRXIN4
MTRXIN5
MTRXIN6
MTRXIN7
MTRXSL0
MTRXSL1
MTRXSL2
MTRXSL3
MTRXSL4
HTCNT1
HTCNT2
F32CLK
F32AOUT
F32BOUT
ADFFOUT
F32AIN
F32BIN
ADFFIDIN
OUTTH
FENB
DXFENB
ADFFIENB
QLD
OQLD
LCCLD
OTRLD
ADFFILD
DALAT
QLTH
QLTOH
OTRLTH
HPSN
RRSN
ADFRRSN
STRRSN
PSLSN
PSWSN
ADFIN
TEDSN
SCLK
CMD
CBSY
PRNT
PVSYNC
STA
SBSY
ATT
PRDY
VRDY
PACK
GVSYNC
SREQ
SHRDY
SHWREQ
SHBREQ
SORGSST
SVEN
SLSYNC
SVSYNC
RROUT
DTOUT
HVTOUT
OQMCLK
HMMCLK
RVSCLK
PMCLK
DXMA
DXMAB
DXMB
DXMBB
CDON
ZCIN
IC5
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
AD0
AD1
AD2
AD3
AD4
AD5
AD6
AD7
AD8
AD9
AD10
AD11
AD12
AD13
AD14
AD15
A1
A2
A3
A4
AO8
AO9
AO10
AO11
AO12
AO13
AO14
AO15
AO16
AO17
AO18
RW
BHE
BLE
ALE
E
IRST
CPUCLK
RD
WR
ROMS
RAMSL
RAMSH
M38CS
IPGCS
OUTCS
LMREQ
ADMREQ
DXMREQ
LMCLK
ADMCLK
LMSTRT
ADMSTRT
PGAINT
SGAINT
PMCLKIN
PMCLKOUT
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VCC
VCC
21
41
42
79
80
101
121
122
142
159
160
123
124
125
126
127
128
129
130
112
113
114
115
116
117
118
119
82
83
84
85
97
98
99
102
103
104
105
106
107
108
109
32
33
34
35
36
37
38
86
87
88
89
90
91
92
93
94
95
96
110
111
131
132
139
140
22
23
1
19
20
40
43
81
100
120
141
AD[0..15]
[ 2 : E5 ] [ 9 : D2 ] [ 11 : B4 ]
C70
C66
C77
3
ECJ1VF1C104Z
C21
C24
C120
ECUV1H220JCV
Q12A
ECJ1VF1C104Z
ECJ1VF1C104Z
ECJ1VF1C104Z
ECJ1VF1C104Z
ECJ1VF1C104Z
C71
ERJ3GSYJ101V
AD[0..7]
AD0
AD1
AD2
AD3
AD4
AD5
AD6
AD7
AD8
AD9
AD10
AD11
AD12
AD13
A[1..4]
AD14
[ 2 : E5 ] [ 9 : D2 ] [ 11 : B4 ]
A[1..4]
AD15
A1
A2
A[8..18]
A3
[ 2 : E5 ] [ 9 : D2 ]
A[8..18]
A4
A8
A9
A10
A11
A12
A13
[ 2 : B3 ]
IRST
A14
C103
A15
ECUV1H103MBV
A16
A17
A18
JP7
R/IW
ERJ3GS0R00V
[ 2 : D3 ]
R/IW
IBHE
[ 2 : D2 ]
IBHE
IBLE
3
1
[ 2 : E5 ]
[ 2 : D3 ]
IBLE
IRD
ALE
[ 9 : D2 ]
[ 2 : D3 ]
ALE
IE
NF5
[ 2 : D3 ] [ 11 : B4 ]
IE
NFM51R00P206
IRST
Not
Mounting
CK6M
CPUCLK
JP8
[ 2 : D3 ] [ 9 : D2 ]
CPUCLK
RD
ERJ3GS0R00V
WR
IROMS
3
1
[ 2 : E5 ]
[ 2 : E5 ]
IROMS
IWR
RAMSL
[ 9 : D2 ]
[ 2 : D4 ]
RAMSL
RAMSH
NF6
[ 2 : C4 ]
RAMSH
Not Mounting
M38CS
NFM51R00P206
[ 11 : B4 ]
M38CS
IPGCS
[ 9 : D2 ]
IPGCS
OUTCS
LMREQ
[ 2 : C1 ]
LMREQ
ADMREQ
[ 2 : C1 ]
ADMREQ
DXMREQ
[ 2 : C1 ]
DXMREQ
LMCLKI
[ 2 : D1 ]
LMCLKI
ADMCLKI
[ 2 : D1 ]
ADMCLKI
LMSTRT
[ 2 : D1 ]
LMSTRT
ADMSTRT
[ 2 : D1 ]
ADMSTRT
PGAINT
[ 2 : D1 ]
PGAINT
SGAINT
[ 2 : D1 ]
SGAINT
CK12M
PMCLKIN
CK12M
PMCLKOUT
R61
VL
ERJ3GSYJ105V
R21
AD[0..15]
3
2
C6
ECEA1CKA100B
HU49US12.3MT
C121
ECUV1H220JCV
XL2
2
4
4
VL
CLK
CLR
8
F32CLKI
9
3
7
6
OUTTH
5
IOENBI
C26
ECJ1VF1C104Z
VCC
GND
Q1
Q2
Q3
Q4
Q5
Q6
Q7
Q8
SQP
QA
QB
QC
QD
QE
QF
QG
QH
QI
QJ
QK
QL
QM
QN
QO
QP
20
10
2
5
6
9
12
15
16
19
M66311FP250D
GND
VCC
R
CKS
CKL
OE
A
IC7
T74HC273AFT2
4
11
1
IRST
D1
D2
D3
D4
D5
D6
D7
D8
IC6
F32BOUTI
3
4
7
8
13
14
17
18
AD0
AD1
AD2
AD3
AD4
AD5
AD6
AD7
10
1
2
24
23
22
21
20
19
18
17
16
15
14
13
11
12
VL
VL
C35
ECJ1VF1C104Z
9
LMM1
LMM2
LMM3
LMCMB
LMENB
IPCBKSEL
CDSEL1
CDSEL2
IC20D
5
CDSEL3
[ 7 : B5 ]
[ 7 : B5 ]
[ 7 : B5 ]
[ 7 : B5 ]
[ 7 : B5 ]
[ 11 : B4 ]
[ 4 : D1 ]
[ 4 : E1 ]
DADAT
LPFCNT
LPCNT1I
CTCNT
BMCA
BMCAB
BMCB
BMCBB
CLMCA
CLMCAB
CLMCB
CLMCBB
ELPCNT
SCFCNT
EXFCNT1
RA7
MNR14EABJ102
DADAT
LPFCNT
LPCNT1I
CTCNT
BMCA
BMCAB
BMCB
BMCBB
CLMCA
CLMCAB
CLMCB
CLMCBB
ELPCNT
SCFCNT
EXFCNT1
[ 6 : C5 ]
[ 7 : C3 ]
[ 6 : B1 ]
[ 7 : B1 ]
[ 7 : B1 ]
[ 7 : B1 ]
[ 7 : B1 ]
[ 7 : B1 ]
[ 7 : A1 ]
[ 7 : A1 ]
[ 7 : A1 ]
[ 7 : A1 ]
[ 7 : F5 ]
[ 7 : E3 ]
[ 7 : F3 ]
[ 4 : D1 ]
Notise de securité
6
TC74HC14AFT2
8
6
LMM1
LMM2
LMM3
LMCMB
LMENB
IPCBKSEL
CDSEL1
CDSEL2
5
2
4
6
8
1
3
5
7
A
B
C
D
E
F
A
B
C
D
E
F
[ 11 : E2 ]
1
DOSN
PVP
ZCRS
CDSEL1
[ 3 : D5 ]
[ 11 : E1 ]
CDSEL3
CDSN2
[ 11 : B2 ]
[ 3 : D_5 ]
CDSEL2
[ 3 : D5 ]
ADFIN
[ 11 : C3 ]
VL
VLC
IC20E
TC74HC14AFT2
11
ERJ3GSYJ152V
R130
R97
ERJ3EKF1802V
10
R36
LBSN2
LBSN1
PVPE
ADFIN
ERJ3GSYJ102V
DT32
DTC114EKA146
ZCB
VL
2SC2412KT146
Q2
2
-
+
2
4
6
8
12
1
3
5
7
2
4
6
8
[ 5 : E4 ]
[ 9 : D1 ]
PSLSNIN
PSWSNIN
ZC
ADFINI
HPSNIN
RRSNIN
ADRRSNIN
STRRSNIN
MNR14EABJ101
RA1
[ 15 : F6 ]
DOSNMX
ILOCK
ZCSP
2SC2412KT146
Q3
ZCSP
MNR14EABJ101
MNR14EABJ101
RA3
2
4
6
8
RA2
XLA10358FT2
IC8B
7
ERJ3GSYJ101V
R3
ERJ3GSYJ101V
R2
TC74HC14AFT2
13
ERJ3GSYJ103V IC20F
R132
ERJ3GSYJ472V
R78
DT33
DTC114EKA146
C18
ECQV1H104JL3
DT31
DTC114EKA146
ZCI
R23
1
3
5
7
PSLSN
PSWSN
ZCIN
1
3
5
7
6
5
TH1
CDSN1
CDSN2IN
TDSN
ERJ3GSYJ101V
R1
ERJ3GSYJ103V
ERJ3EKF3903V
R102
R89
PVP
ERJ3GSYJ683V
RA24
MNR14EABJ152
ERJ3EKF3002V
R103
ERJ3EKF3902V
R100
ERJ3GSYJ152V
R66
2
HPSN
RRSN
ADFRRSN
STRRSN
R77
ERJ3GSYJ472V
ERJ3GSYJ103V
R131
DT30
DTC114EKA146
VL
ERJ3GSYJ122V
R62
PSLSN
PSWSN
[ 11 : F4 ]
[ 11 : F4 ]
ZCRS
HPSN
RRSN
ADFRRSN
STRRSN
RA23
MNR14EABJ152
VL
CDSEL1
TA30
XN4211TX
CDSEL3
CDSN2
DT3
DTC114EKA146
CDSEL2
R99
ERJ3EKF2702V
ERJ3GSYJ472V
R87
[ 11 : D3 ]
[ 11 : B1 ]
[ 11 : D4 ]
[ 11 : D4 ]
ERJ3GSYJ472V
R85
Not Mounting
LBSN2
R86
VL ERJ3GSYJ472V
LBSN1
[ 11 : D1 ]
TDSN
TH1
CDSN1
[ 11 : C1 ]
[ 11 : B2 ]
[ 11 : B2 ] [ 6 : B2 ]
[ 11 : B2 ]
R65
ERJ3GSYJ152V
VL
2
4
6
8
1
3
5
7
VL
4
PSLSNIN
PSWSNIN
ZC
ADFINI
HPSNIN
RRSNIN
ADRRSNIN
STRRSNIN
4
1-3. Input Block
NPN
0
0
1
2
3
5
6
2
3
5
6
3
3
DA10
MA127TX
DA1
MA128TX
[ 3 : C2 ]
[ 3 : C2 ]
[ 3 : B2 ]
[ 3 : C2 ]
[ 3 : C2 ]
[ 3 : C2 ]
[ 3 : C2 ]
[ 3 : C2 ]
1
1
6
5
4
1
2
3
2
4
6
8
1
3
5
7
DA11
MA153ATX
[ 11 : E3 ]
AOSS[1..6]
[ 11 : D4 ]
[ 11 : E4 ]
[ 11 : F4 ]
AOSS[1..6]
ADFIDI
OQIN
DXIN
AOSS6
AOSS5
AOSS1
AOSS2
AOSS3
AOSS4
C91
C93
C106
ECUV1H103MBV
ECUV1H102KBV ECUV1H102KBV
C90
C92
ECUV1H102KBV ECUV1H102KBV
4
VL
ADFIDI
OQIN
DXIN
ERJ3GSYJ152V
R69
D5
MA152KTX
ERJ3GSYJ101V
R6
ERJ3GSYJ101V
R5
ERJ3GSYJ101V
R4
ERJ3GSYJ103V
R43
AOSO
5
ADFIDI_R
OQIN_R
DXIN_R
5
3
1
6
7
TC74HC14AFT2
6
TC74HC14AFT2
4
IC20B
IC20A
TC74HC14AFT2
2
R64
ERJ3GSYJ152V
TEDR
IC20C
ERJ3GSYJ103V
VL
4
-
+
C109
C102
ECUV1H104ZFX
ECUV1H102KBV
1
5
ERJ3GSYJ102V AOSSCR
R94
ERJ3GSYJ103V
R41
-
+
TEDSN
ADFIDII
F32BINI
F32AINI
XLA10339FT2
1
IC9B
XLA10339FT2
2
IC9A
C110
ECUV1H104ZFX
ADFIDII
F32BINI
[ 3 : D2 ]
[ 3 : D2 ]
[ 3 : D2 ]
TEDSN
ERJ3GSYJ103V
R44
AOSSIN
ERJ3GSYJ103V
R40
F32AINI
VL
VL
Notise de securité
6
[ 3 : C2 ]
AOSSIN
[ 3 : D2 ]
C111
ECUV1H104ZFX
R42
6
TEDOI
C13
ECEA1VKA4R7B
VL
C67
ECJ1VF1C104Z
ERJ3GSYJ224V
-
+
5
IC8A
XLA10358FT2
ERJ3GSYJ472V
2
3
ERJ3GSYJ103V
AOSSR
AOSSI
R38
R71
VA
ERJ3GSYJ333V
R70
C7
ECEA1CKA100B
R39
TEDC
C112
ECUV1H104ZFX
[ 2 : C1 ]
[ 2 : C1 ]
[ 2 : C1 ]
[ 2 : C1 ]
[ 2 : C1 ]
[ 2 : C1 ]
[ 2 : C1 ]
ERJ3GSYJ152V
R68
ERJ3GSYJ103V
R25
ERJ3GSYJ103V
R24
R67
TED
2
4
6
8
LBSN1I
LBSN2I
PVPEM
HTSN
CDSN1I
CDSN2I
TDSNI
MNR14EABJ103
RA8
ERJ3GSYJ152V
[ 11 : D2 ]
1
3
5
7
LBSN1I
LBSN2I
PVPEM
HTSN
CDSN1I
CDSN2I
TDSNI
4
8
4
3
12
0
0
A
B
C
D
E
F
A
B
C
D
1
[ 3 : D2 ]
CRRSN2
PESN2
PEWSN2
CTS
[ 11 : C1 ]
[ 11 : C1 ]
[ 11 : C1 ]
[ 7 : C2 ]
MTRXIN[0..7]
DT4
DTC114EKA146
VA
CRRSN1
PESN1
PEWSN1
[ 11 : D1 ]
[ 11 : D1 ]
[ 11 : D1 ]
MTRXIN[0..7]
VAEM
CRRSN2
PESN2
PEWSN2
CTS
CRRSN1
PESN1
PEWSN1
C94
O
2
BLM21B201SPT
BL3
2
I O
1
MTRXSLI3
MTRXSLI2
MTRXSLI1
MTRXSLI0
C95
BLM21B201SPT
C96
D6
MA152KTX
DA3
MA128TX
HSSN1
HSSN2
HSSN3
HPESN
QDOSN
GOPSW1
PCLD1
PCLD2
[ 11 : B1 ]
[ 11 : B2 ]
[ 7 : E6 ]
[ 7 : E6 ]
[ 11 : F2 ]
[ 11 : F2 ]
[ 11 : F2 ]
[ 11 : B1 ]
C97
TA1
XN4111TX
C98
C99
DA5
MA128TX
C101
MTXIN4
MTXIN5
MTXIN6
MTXIN7
RA5
MNR14EABJ101
2
4
6
8
1
3
5
7
MTRXIN4
MTRXIN5
MTRXIN6
MTRXIN7
C100
MTXIN0
MTXIN1
MTXIN2
MTXIN3
RA4
MNR14EABJ101
2
4
6
8
2
OZFL
DDFL
SCFL
EXFL1
EXFL2
MMLCK
BPSN
TFSN
[ 11 : D2 ]
[ 11 : E2 ]
[ 11 : D2 ]
[ 11 : D2 ]
[ 11 : B2 ]
[ 11 : B2 ]
[ 11 : A2 ]
[ 11 : D2 ]
MTSEL3
OZFL
DDFL
SCFL
EXFL1
EXFL2
MMLCK
BPSN
TFSN
D9
MA152KTX
RA28
MNR14EABJ222
MTSEL2
1
3
5
7
D8
MA152KTX
MTSEL1
TA2
XN4111TX
PNP
MTRXIN0
MTRXIN1
MTRXIN2
MTRXIN3
QDOSN
GOPSW1
PCLD1
PCLD2
RA27
MNR14EABJ222
DA4
MA128TX
D7
MA152KTX
HSSN1
HSSN2
HSSN3
HPESN
MTSEL0
RA26
MNR14EABJ222
BLM21B201SPT
BL5
2 MTRXSLI4
I O
BLM21B201SPT
BL4
1
2
I O
1
BLM21B201SPT
BL2
1
2
I O
I
BL1
PNP
ECUV1H102KBV
ECUV1H102KBV
ECUV1H102KBV
ECUV1H102KBV
ECUV1H102KBV
ECUV1H102KBV
ECUV1H102KBV
ECUV1H102KBV
DA2
MA128TX
RA25
MNR14EABJ222
MTRXSL4
MTRXSL3
MTRXSL2
MTRXSL1
2
4
6
8
1
3
5
7
1
2
4
6
8
1
3
5
7
MTRXSL0
1
MTRXSL[0..4]
6
5
3
2
4
MTRXSL[0..4]
1
E
[ 3 : D2 ]
6
5
3
2
4
2
4
6
8
1
3
5
7
6
5
4
1
F
1
1
2
3
6
5
3
2
4
6
5
4
1
2
3
2
4
6
8
1
3
5
7
6
5
3
2
4
3
RA35
MNR14EABJ223
DA6
MA128TX
RA29
MNR14EABJ222
MTSEL4
VL
DT28
DTA114EKA146
2
4
6
8
1-4. Matrix block
1
2
4
6
8
HVLKC
HVLKD
HVLKT
CLSN
PFOSN
ZCDWN
DOSNMX
EXFL3
[ 11 : C2 ]
[ 11 : E1 ]
[ 4 : A2 ]
[ 11 : F2 ]
[ 11 : E2 ]
[ 11 : F2 ]
[ 11 : C2 ]
RA30
MNR14EABJ222
RA36
MNR14EABJ223
D10
MA152KTX
DA7
MA128TX
1
3
5
7
3
6
5
3
2
4
1
3
5
7
2
4
6
8
1
3
5
7
1
D11
MA152KTX
DA8
MA128TX
HVLKC
HVLKD
HVLKDT
CLSN
PFOSN
ZCDWN
DOSNMX
EXFL3
4
DA9
MA128TX
D12
MA152KTX
RA31
MNR14EABJ222
4
LPFL
DXOPSN
PASN
PCSN
D2
MA152KTX
LPFL
PMLOCK
ADUSL
[ 11 : C3 ]
[ 11 : F3 ]
[ 11 : E4 ]
DXOPSN
PASN
PCSN
[ 11 : E4 ]
[ 11 : F3 ]
[ 11 : F3 ]
RA32
MNR14EABJ222
2
4
6
8
1
3
5
7
2
2
4
6
8
1
3
5
7
6
5
3
2
4
2
4
6
8
1
EVQ21505R
TSTSW
SW1
PMLOCK
ADUSL
RA33
MNR14EABJ222
5
5
6
RA9
MNR14EABJ103
RA34
MNR14EABJ222
SVPEM
SVPE
DT5
DTC114EKA146
R37
ERJ3GSYJ103V
R90
ERJ3GSYJ683V
SVP
6
C131
R45
ERJ3GSYJ103V ECUV1H102KBV
C132
ECUV1H102KBV
C133
ECUV1H102KBV
C134
ECUV1H102KBV
C135
ECUV1H102KBV
Notise de securité
2
4
6
8
1
3
5
7
1
1
1
3
5
7
6
5
3
2
4
2
4
6
8
1
3
5
7
6
5
3
2
4
2
4
6
8
1
3
5
7
A
B
C
D
E
F
A
B
C
D
E
F
PMCNTI
ADFOUTI
[ 2 : D1 ]
[ 2 : D1 ]
R27
ERJ3GSYJ102V
LPCNT1I
LCCLDI
[ 3 : C5 ]
MMCNTI
[ 2 : D1 ]
R26
ERJ3GSYJ102V
SVCNTI
PVCNTI
[ 2 : C1 ]
[ 2 : C1 ]
HVTCNTI
[ 3 : B2 ]
HVCNTI
[ 2 : D1 ]
HVBCNTI
HVDCNTI
[ 3 : B2 ]
[ 2 : D1 ]
ADMCLKI
[ 2 : D1 ]
MMCLKI
3
3
LPCNT1I
LCCLDI
VL
VL
ADFOUTI
PMCNTI
MMCNTI
SVCNTI
PVCNTI
HVTCNTI
HVBCNTI
HVCNTI
HVDCNTI
ADMCLKI
MMCLKI
1
ADMCK
HVDCNT
HVCNT
DT7
DTC114EKA146
LCCLD
TA8
XN4211TX
LCCLD
LPCNT1
DT6
DTC114EKA146
ADFOUT
MMCNT
TA7
XN4211TX
PMCNT
PVCNT
TA6
XN4211TX
SVCNT
HVBCNT
TA5
XN4211TX
HVTCNT
TA4
XN4211TX
NF8
NFM51R00P106
1
Not Mounting
MMCK
NF7
NFM51R00P106
1
ERJ3GS0R00V
JP10
2
2
[ 2 : D1 ]
NPN
6
5
4
MMCNT
PMCNT
PVCNT
SVCNT
HVBCNT
HVTCNT
HVDCNT
LPCNT1
[ 11: C3 ]
[ 11 : B3 ]
[ 11 : E2 ]
[ 11 : F3 ]
[ 11 : E1 ]
[ 11 : E1 ]
[ 11 : F2 ]
[ 11 : E2 ]
[ 11 : E2 ]
[ 11: B2 ]
TH2
ERJ3EKF3901V
R101
ERJ3EKF8201V
R106
ADFILDI
[ 3 : C2 ]
VL
ADFIENBI
DXFENBI
FENBI
OTRLDI
OTRLTHI
[ 3 : C1 ]
[ 3 : D1 ]
[ 3 : D1 ]
[ 3 : C2 ]
[ 3 : C2 ]
OQLDI
OQLTHI
[ 3 : C2 ]
[ 3 : C2 ]
QLDI
QLTHI
ADFIDOI
F32BOUTI
F32AOUTI
[ 3 : D2 ]
[ 3 : C2 ]
[ 3 : C2 ]
[ 3 : D2 ]
[ 3 : D2 ]
[ 11 : E2 ]
MMCLK
[ 11 : D4 ]
ADMCLK
[ 11 : F2 ]
MMCLK
TA3
XN4211TX
ADMCLK
HVCNT
NPN
ADFOUT
1
2
3
ERJ3GS0R00V
2
DA15
MA153ATX
TH2
THREF
TH1
1
1
1
F32AOUT
VL
C107
ECUV1H103MBV
R7
TH2IB
ERJ3GSYJ101V
DXMBB
HMMCLKI
-
+
-
+
TH2B
TH2C
3
I
O
2
O
2
O
2
I
O
RVSC
PMCK
OQM
DTC114EKA146
DT8
THO
2
BL13
BLM21B201SPT
I
BL12
BLM21B201SPT
I
DXBB
DXB
1
1
1
O
DXMCA
O
2
DXMCAB
O
2
DXMCB
I
DXMCBB
OQMCLK
2
[ 3 : D2 ]
[ 3 : D2 ]
PMCLK
TA15
XN4211TX
RVSCLK
HMMCLK
TA14
XN4211TX
O
BL9
BLM21B201SPT
I
BL8
BLM21B201SPT
I
BL7
BLM21B201SPT
I
2
DXMCBB
DXMCB
DXMCAB
DXMCA
HTCNT1
HTCNT2
[ 11 : F3 ]
[ 11 : D4 ]
[ 11 : D4 ]
4
VL
[ 2 : C1 ]
KCTCNTI
ZD6
MA3082HTX
VA
KCTCNTI
R28
ERJ3GSYJ102V
AOSI6
AOSI5
AOSI4
AOSI3
AOSI2
AOSI1
RA15
MNR14EABJ103
AOSI[1..6]
TA21
XN4211TX
HTTR1
TA20
XN4211TX
HTTR2
[ 11 : E2 ]
HTTR1
[ 11 : E2 ]
Not Mounting
HTTR2
C8
ECEA1CKA100B
8
9
17
11
10
4
5
5
[ 11 : E3 ]
DADAT 3
F32CLKI 2
DALTH 1
18
KCTCNT
AOS[1..6]
C69
ECJ1VF1C104Z
DALTH
[ 3 : C2 ]
VL
DADAT
C68
ECJ1VF1C104Z
REF82
KCTCNT
TA19
XN4211TX
[ 3 : C5 ]
R95
ERJ3GSYJ821V
VL
AOS5
TA18
XN4211TX
AOS6
AOS3
TA17
XN4211TX
AOS4
AOS1
TA16
XN4211TX
AOS2
HTCNT1
HTCNT2
PMCLK
RVSCLK
HMMCLK
[ 11 : F4 ]
[ 11 : F4 ]
[ 11 : F4 ]
[ 11 : F4 ]
[ 11 : E4 ]
[ 11 : D4 ]
[ 3 : E2 ]
[ 11 : E4 ]
[ 11 : F4 ]
OQMCLK
ADFICLK
BL61
BLM21B201SPT
ADFICLK
2
I O
1
F32BCLK
BL60
BLM21B201SPT
F32BCLK
2
I O
BL6
BLM21B201SPT
F32ACLK
BL59
BLM21B201SPT
2 F32ACLK
I O
DXAB
DXA
1
1
1
HMM
BL11
BLM21B201SPT
Q4
2SC2412KT146
XLA10339FT2
14
IC9C
XLA10339FT2
13
IC9D
VL
ERJ3GSYJ334V
R73
8
9
10
11
1
PMCLKI
1
1
OQMCLKI
RVSCLKI
1
HMMCLKI
DT25
DTC143EKA146
DXMBB
DT24
DTC143EKA146
DXMB
DT23
DTC143EKA146
DXMAB
BL10
BLM21B201SPT
DT21
DTC143EKA146
DT20
DTC143EKA146
F32CLKI
DT19
DTC143EKA146
3
DT22
DTC143EKA146
DXMA
Q5
2SC2412KT146R72
ERJ3GSYJ334V
TH1I
VA
RVSCLKI
[ 11 : D4 ]
[ 3 : B2 ]
[ 11 : D4 ]
[ 3 : B2 ]
PMCLKI
[ 11 : E4 ]
OQMCLKI
[ 11 : F4 ]
[ 11 : D4 ]
[ 3 : B2 ]
ADFIENB
ADFILD
FENB
DXMB
[ 11 : D4 ]
[ 3 : B2 ]
DXFENB
[ 3 : B2 ]
DXMAB
[ 11 : E4 ]
[ 3 : B2 ]
[ 11 : D4 ]
[ 11 : E4 ]
[ 3 : B2 ]
DXMA
[ 11 : E4 ]
[ 3 : B2 ]
OTRLTH
OTRLD
OQLTH
OQLD
[ 11 : F4 ]
QLTH
ERJ3GSYJ102V
R35
ADFIENB
TA13
XN4211TX
ADFILD
FENB
TA12
XN4211TX
DXFENB
OTRLTH
TA11
XN4211TX
OTRLD
OQLTH
TA10
XN4211TX
OQLD
QLTH
TA9
XN4211TX
[ 11 : F4 ]
QLD
ADFIDO
BL58
BLM21B201SPT
2 ADFIDO
I O
QLD
F32BOUT
F32CLKI
[ 11 : F4 ]
[ 6 : C-5 ] [ 3 : D-2 ]
BL57
BLM21B201SPT
2 F32BOUT
I O
BL56
BLM21B201SPT
2 F32AOUT
I O
TH1D
VL
ERJ3EKF8201V
R105
D4
MA152KTX
TH1
[ 4: E2 ] [ 11: B2 ]
ADFILDI
ADFIENBI
DXFENBI
FENBI
OTRLDI
OTRLTHI
OQLDI
OQLTHI
QLDI
QLTHI
ADFIFOI
DT18
DTC143EKA146
F32BOUTI
DT17
DTC143EKA146
F32AOUTI
DT16
DTC143EKA146
2
6
5
4
1
2
3
6
5
4
6
5
4
1
2
3
6
5
4
1
2
3
6
5
4
1
2
3
NPN
NPN
NPN
6
5
4
1
2
3
6
5
4
1
2
3
6
5
4
NPN
NPN
NPN
NPN
NPN
NPN
NPN
NPN
JP9
NPN
NPN
NPN
1
2
3
6
5
4
1
2
3
6
5
4
1
2
3
6
5
4
1
2
3
6
5
4
1
2
3
6
5
4
1
2
3
6
5
4
1
2
3
0
0
2
4
6
8
1
3
5
7
NPN
1
2
3
6
5
4
1
2
3
6
5
4
1
2
3
AO1
AO2
AO3
AO4
AO5
AO6
AO7
AO8
DO
12
13
14
15
4
5
6
7
16
VCDSI
[ 11 : E3 ]
BREFI
YREFI
LMREFI
TREFI
TDREFI
R80
13
12
9
10
6
5
2
3
6
5
2
3
-
+
-
+
-
+
-
+
VL
VA
TEDCNT
ERJ3GSYJ472V
[ 2 : D1 ]
GREFI
VCDSI
-
+
-
+
IC17B
XLA10358FT2
7
1
IC17A
XLA10358FT2
XLA10324FT2
14
IC16D
XLA10324FT2
8
IC16C
XLA10324FT2
7
IC16B
VCDS
GREF
6
BREF
[ 7 : B5 ]
[ 11 : E2 ]
[ 11 : B2 ]
[ 11 : F2 ]
[ 11 : F2 ]
[ 11 : D2 ]
[ 11 : B2 ]
LMREF
C142
ECJ1VF1C104Z
TREF
C141
ECJ1VF1C104Z
TDREF
C140
ECJ1VF1C104Z
C56
ECJ1VF1C104Z
LMREF
TREF
TDREF
GREF
VTED
VCDS
C139
ECJ1VF1C104Z
D3
MA152KTX
VTED
DT27
DTA114EKA146
BREF
C113
ECUV1H104ZFX
XLA10324FT2
1
IC16A
VL
Q6
2SB709ATW
VL
TEDCNT
VCDSB
ERJ3GSYJ472V
R79
6
1-5. Output block
Notise de securité
M62356P
GND
VREFL
VDD
VREFU1
VREFU2
DI
CLK
LD
R
IC18
[ 3 : B2 ]
AOS[1..6]
4
11
0
0
0
0
0
0
1
NPN
NPN
0
0
6
5
4
1
2
3
6
5
4
1
2
3
8
4
0
0
A
B
C
D
E
F
A
B
C
D
E
F
BMCAB
BMCB
BMCBB
CLMCA
CLMCAB
CLMCB
CLMCBB
[ 3 : C5 ]
[ 3 : C5 ]
[ 3 : C5 ]
[ 3 : C5 ]
[ 3 : C5 ]
[ 3 : C5 ]
1
1
BMCAB
BMCB
1
VL
VL
O
C48
3
6
11
14
1
8
9
16
2
VL
BMCAI
C49
3
6
11
14
1
8
9
16
I
O
BL18
2
BLM21B201SPT
BLM21B201SPT
BL17
2
I O
BLM21B201SPT
BL16
2
I O
CLMCAI
BMCBI
BMCBBI
1
BLM21B201SPT
BLM21B201SPT
BL21
2
CLMCBB 1
I O
CLMCB
BLM21B201SPT
BL20
1
2
I O
VL
ECJ1VF1C104Z
TD62308BP-1
I
I
I
I
VCC
VCC
COM
COM
IC12
O
O
O
O
PGND
PGND
PGND
PGND
ECJ1VF1C104Z
VL
CLMCBI
CLMCBBI
PVP
2
7
10
15
4
5
12
13
VL
VL
C51
3
6
11
14
1
8
9
16
I
I
I
I
VCC
VCC
COM
COM
O
O
O
O
PGND
PGND
PGND
PGND
ECJ1VF1C104Z
1A
2
7
10
15
4
5
12
13
1A
2
7
10
15
4
5
12
13
1A
1A
1A
1A
1A
1A
1A
1A
1A
2
1A
1A
1A
1A
D25
1SR139400T32
D40
CLMBBI
CLMBI
D39
D37
1A CLMAI
1A CLMABI
1A
D38
1A
1A
1SR139400T32
1A CLMBB
1SR139400T32
1A CLMB
1SR139400T32
1A CLMAB
1SR139400T32
1A CLMA
BMBB
BMB
BMAB
BMA
CLMBB
CLMB
CLMAB
CLMA
1SR139400T32
1A
BMBB
BMBBI
1SR139400T32
BMB
1A
1SR139400T32
BMAB
1A
D34
D36
1SR139400T32
1A
BMA
[ 11 : C2 ]
[ 11 : C2 ]
[ 11 : C2 ]
[ 11 : C2 ]
[ 11 : D2 ]
[ 11 : D2 ]
[ 11 : D2 ]
EXF1
RCCNT
3
[ 2 : D1 ]
SEPSCNT
VL
700mA
Q17
2SD2136TA
700mA
SEPSOL
Not Mounting
LMENB
LMCLKI
[ 2 : B3 ] [ 3 : D3 ]
[ 6 : B6 ]
[ 3 : D5 ]
[ 3 : C3 ]
[ 2 : D1 ]
[ 3 : D5 ]
[ 3 : D5 ]
[ 3 : D5 ]
[ 3 : D5 ]
LBSN2
B
VL
IRST
LMREF
LMENB
LMCLKI
LBSN2
LUMCT2
I
O
BL22
LMM1
LMM2
LMM3
LMCMB
4
5
C12
ECEA1VKA101B
7
LMREF 8
IRST
14
15
18
16
17
PCL2B
PGND
PGND
MOI
MO1
MO2
LMB
LMB
LMA
LMA
2.5A
STK672-050
GND
VCC
VREF
ENB
RESET
RET
CLK
CMB
M1
M2
M3
M4
M5
IC15
2.5A
2.5A
3
4
SVP
19
20
21
1
2
D45
1DL42TPA3
6
LUM2-1
LUM2-2
LMBB
LMB
LMAB
LMA
500mA
PVP
500mA
PVP
LUM1-1
LUM1-2
[ 11 : D3 ]
[ 11 : D3 ]
[ 11 : D3 ]
[ 11 : D3 ]
[ 11 : B1 ]
[ 11 : B1 ]
[ 11 : C1 ]
[ 11 : C1 ]
[ 5 : D2 ]
2.5A
2.5A
2.5A
C137
ECA1VM221B
LUM2-1
LUM2-2
ICP-N10
IP2
2.5A
1SR139400T32
D32
500mA
500mA
D43
D44
1DL42TPA3 1DL42TPA3
2.5A 2.5A 2.5A
C11
ECEA1HU471B
LMBB
LMB
LMAB
LMA
D42
1DL42TPA3
5
500mA
1ZB51TPA3
ZD1
Q15
2SD2136TA
IP1
LUM1-1
LUM1-2
[ 5 : D2 ]
[ 11 : E2 ]
PCLD1
[ 11 : E2 ]
1SR139400T32 ICP-N10
500mA
D31
500mA
PCLD2
ELP2
500mA
LMCR
6
PCLD2
ELP2
DT13
DTC114EKA146
500mA
PCLD1
Q14
2SD2136TA
2.5A
2.5A
SVP
R121
ERJ8GEYJ221V
ZD2
1ZB51TPA3
LBS2
R120
ERJ8GEYJ221V
Not Mounting
LBS1
PCL1B
6
ELP1
DT12
DTC114EKA146
ELP1
Notise de securité
C52
ECJ1VF1C104Z22
C55
ECJ1VF1C104Z
LMCLK
VL
9
10
11
12
13
ERJ8GEYJ101V
R114
R125
ERJ8GEYJ221V
TA27
XN4211TX
VL
R113
ERJ8GEYJ101V
700mA
R92
ERJ3GSYJ683V
R129
ERJ12YJ2R2H
ELPR
700mA
700mA
700mA
R91
ERJ3GSYJ683V
R128
ERJ12YJ2R2H
Q12 2SC4391TA
700mA
R127
ERJ12YJ2R2H
700mA
700mA
Q13
2SC4391TA
R124
ERJ8GEYJ221V
TA26
XN4211TX
VL
700mA
ZD5
MA3020TX
R117
ERJ8GEYJ121V
ELPI
BLM21B201SPT
2
C104
ECUV1H103MBV
1
ELPC
DT29
DTA143EKA146
5
C54
ECJ1VF1C104Z
VL
R34
ERJ3GSYJ102V
LBSN1
LUMCT1
R33
ERJ3GSYJ102V
ELPCNT
C138
ECJ1VF1C104Z
LUMCT2
LBSN1
LUMCT1
ELPCNT
LMM1
LMM2
LMM3
LMCMB
[ 11 : D1 ] [ 4 : E2 ]
[ 2 : E1 ]
[ 11 : D1 ] [ 4 : E2 ]
[ 11 : B2 ]
[ 11 : C2 ]
SEPSOL
RCSOL
[ 11 : C3 ]
[ 11 : B2 ]
[ 2 : D1 ]
[ 3 : C5 ]
VL
R123
ERJ8GEYJ221V
R115
ERJ8GEYJ121V
Q16
2SD2136TA
700mA
LPFM
DDFM
[ 11 : D2 ]
[ 11 : B2 ]
RCSOL
EXFM1
4
SCFM
700mA
LPFM
D30
1SR139400T32
500mA
R122
ERJ8GEYJ221V
DDFM
D29
1SR139400T32
500mA
Q11
2SA1674TA
500mA
500mA
SVP
500mA
Q10
2SA1674TA
500mA
PVP
D28
1SR139400T32
500mA
EXFM1
SCFM
D26
1SR139400T32
1A
Q9
2SA1674TA
500mA
500mA
PVP
1A
Q7
2SA1674TA
500mA
PVP
R118
ERJ8GEYJ121V
LPFC
DT11
DTC114EKA146
VL
ERJ6GEYJ472V
R111
ERJ3GSYJ103V
R50
OZFC
ERJ3GSYJ103V
ERJ6GEYJ472V
R110
R49
SCFC
ERJ3GSYJ103V
R48
ERJ6GEYJ472V
R109
EXFC1
ERJ3GSYJ103V
R46
ERJ6GEYJ472V
R107
SEPCNT
DT10
DTC114EKA146
TA25
XN4211TX
LPF
SCF2
TA22
XN4211TX
TA24
XN4211TX
3
RCCNT
[ 11 : D2 ]
[ 2 : E1 ]
LPFCNT
VL
ERJ3GSYJ102V
R30
LPFCNT
EXFCNT1
SCFCNT
VL
VL
ERJ3GSYJ102V
R29
SCFCNT
D35
BMBI
BMAI
BMABI
R31
EXFCNT1
ERJ3GSYJ102V
[ 3 : C5 ]
[ 3 : C5 ]
[ 3 : C5 ]
D33
D21
1SR139400T32
D24
D23
1SR139400T32
1SR139400T32
1A
[ 5 : D1 ]
[ 11 : A2 ]
[ 11 : D2 ]
[ 11 : E3 ]
[ 11 : C2 ]
[ 11 : D1 ]
[ 11 : D1 ]
[ 11 : C1 ]
[ 11 : C1 ]
[ 11 : B1 ]
[ 11 : A2 ]
[ 11 : B1 ]
[ 11 : B1 ]
D20
1SR139400T32
D19
1SR139400T32
ZD4
MA4330TA
D22
1SR139400T32 1A
1A
TD62308BP-1
I
I
I
I
VCC
VCC
COM
COM
IC14
PVP
ECJ1VF1C104Z
1A
CTS
PFSDCR
CT
KCT
PCSOL
PFCR1
PUSOL1
PFCR2
PUSOL2
RRCR
PCCR
HFCR
HFSOL
DT9
DTC114EKA146
CTS
PFSDCR
CT
KCT
PCSOL
PFCR1
PUSOL1
PFCR2
PUSOL2
ZD3
MA4330TA
D18
1SR139400T32 1A
1A
500mA
500mA
500mA
700mA
O
O
O
O
PGND
PGND
PGND
PGND
PVP
TD62308BP-1
RA14
MNR14EABJ103
C50
3
6
11
14
1
8
9
16
IC13
RA13
MNR14EABJ103
2
7
10
15
4
5
12
13
500mA
PVP
500mA
700mA
500mA
700mA
D17
1SR139400T32
500mA 500mA
D41
1SR139400T32
2
7
10
15
4
5
12
13
500mA
500mA
500mA
500mA
700mA
RRCR
PCCR
HFCR
HFSOL
D15
1SR139400T32
D14
1SR139400T32
500mA 500mA 500mA
700mA
D16
1SR139400T32
O
O
O
O
PGND
PGND
PGND
PGND
TD62308BP-1
I
I
I
I
VCC
VCC
COM
COM
IC11
RA12
MNR14EABJ103
VL
PVP
D13
1SR139400T32
O
O
O
O
PGND
PGND
PGND
PGND
TD62308BP-1
I
I
I
I
VCC
VCC
COM
COM
ECJ1VF1C104Z
BLM21B201SPT
BL15
2 BMCABI
I O
I
BL14
C43
3
6
11
14
1
8
9
16
IC10
RA11
MNR14EABJ103
VL
RA10
MNR14EABJ103
BLM21B201SPT
BL19
2 CLMCABI
CLMCAB 1
I O
CLMCA
BMCBB 1
1
BMCA
PFSDCNT
CTCNT
KCTCNTI
PCSCNT
PFCCNT1
PUSCNT1
PFCCNT2
PUSCNT2
Not Mounting
BMCA
[ 3 : C5 ]
PFSDCNT
CTCNT
KCTCNTI
PCSCNT
PFCCNT1
PUSCNT1
PFCCNT2
PUSCNT2
RRCNT
PCCNT
HFCCNT
HFSCNT
[ 3 : C5 ]
[ 2 : C1 ]
[ 3 : C5 ]
[ 2 : C1 ]
[ 2 : C1 ]
[ 2 : D1 ]
[ 2 : D1 ]
[ 2 : E1 ]
[ 2 : E1 ]
[ 3 : B2 ]
[ 2 : E1 ]
[ 2 : D1 ]
[ 2 : D1 ]
RRCNT
PCCNT
HFCCNT
HFSCNT
VL
2
6
5
4
1
2
3
NPN
2
4
6
8
1
3
5
7
2
4
6
8
1
3
5
7
2
4
6
8
1
3
5
7
NPN
NPN
E
C
1-6. Driver Block
2
4
6
8
1
3
5
7
2
4
6
8
1
3
5
7
NPN
NPN
6
5
4
1
2
3
6
5
4
1
2
3
6
5
4
1
2
3
6
5
4
1
2
3
1
A
B
C
D
E
F
A
B
C
D
E
F
ATTI
[ 3 : C2 ]
VRDYI
[ 3 : C2 ]
PACKI
PRDYI
[ 3 : C2 ]
[ 3 : C2 ]
STAI
SBSYI
[ 3 : C2 ]
[ 3 : C2 ]
SRTS
*STXD
*SLSYNC
*SHRDY
*SREQ
*CMD
[ 11 : C4 ]
[ 14 : A4 ]
[ 14 : B4 ]
[ 12 : E4 ]
[ 12 : E4 ]
[ 12 : E4 ]
*CBSY
[ 11 : C4 ]
2
1
I
O
BL28
ATTI
TA33
XN4211TX
PACKI
1
2
BLM21B201SPT
TA31
XN4211TX
SRTS
*STXD
*SLSYNC
*SHRDY
*SREQ
TA32
XN4211TX
VRDYI
O
2
BLM21B201SPT
I
BL27
BLM21B201SPT
RA17
MNR14EABJ103
*CMD
1
BLM21B201SPT
BL26
*PRNT 1
2
I O
PRDYI
STAI
O
BLM21B201SPT
BL25
*SCLK 1
2
I O
PRST
I
BL23
BLM21B201SPT
BL24
1
2
I O
*VSYNC 1
SBSYI
*SCLK
[ 11 : C4 ]
*PRNT
PRST
[ 11 : C4 ] [ 12 : A5 ]
[ 11 : C4 ] [ 12 : B5 ]
*VSYNC
[ 11 : C4 ] [ 12 : A5 ]
CMD_F
ATT_F 1
PACK_F 1
I
BL34
I
O
1
VRDY_F
I
BL32
I
BL31
O
O
*STA
*SBSY
BLM21B201SPT
2 *ATT
*ATT
*PACK
BLM21B201SPT
2
*VRDY
[ 11 : C4 ] [ 12 : B5 ]
2
[ 11 : C4 ] [ 12 : B5 ]
[ 11 : C4 ] [ 12 : C5 ]
[ 2 : C1 ]
SORGSSTI
STXDI
SVSYNCI
STXDI
SORGSSTI
TA36
XN4211TX
SVSYNCI
[ 3 : B2 ]
SHBREQI
VL
8
4
8
12
*SRXD
3
*SORGSST
*SVSYNC
*SHBREQ
*SHWREQ
*SVEN
11
5
*SRXD
4
10
6
10
TC74HC14AFT2
IC22E
TC74HC14AFT2
IC22C
2
IC22A
TC74HC14AFT2
IC21E
TC74HC14AFT2
[ 14 : B4 ]
[ 12 : F4 ]
[ 12 : E4 ]
[ 12 : E4 ]
[ 12 : F4 ]
[ 12 : F4 ]
[ 14 : B4 ]
*SORGSST
*SVSYNC
*SHBREQ
*SHWREQ
*SVEN
SCTS
TC74HC14AFT2
IC22F
TC74HC14AFT2
IC22D
TC74HC14AFT2
IC22B
TC74HC14AFT2
1
11
3
IC21B
C58
ECJ1VF1C104Z
TC74HC14AFT2
2
IC21A
3
TC74HC14AFT2
IC21D
SCTS
13
9
3
9
1
DT26
DTC143EKA146
PRNT_R
SCLK_R
PRST_R
VSYNC_R
CMD_R
SHWREQI
SVENI
TA35
XN4211TX
SHBREQI
[ 3 : B2 ]
SRTSI
TA34
XN4211TX
SHWREQI
SVENI
SRTSI
[ 3 : B2 ]
[ 3 : B2 ]
[ 3 : B2 ]
[ 2 : C1 ]
C129
ECUV1H471JCV
C127
ECUV1H471JCV
C126
ECUV1H471JCV
C124
ECUV1H471JCV
C125
ECUV1H471JCV
C128
ECUV1H471JCV
ERJ3GSYJ101V
Not Mounting
[ 11 : C4 ] [ 12 : C5 ]
*VRDY
2
4
6
8
MNR14EABJ101
ERJ3GSYJ101V
[ 11 : C4 ]
*PRDY
R8
R9
[ 11 : C4 ]
EXFL4
1
3
5
7
RA6
Not Mounting
R53
ERJ3GSYJ103V
R52
ERJ3GSYJ103V
BLM21B201SPT
2
*PRDY
Not Mounting
BLM21B201SPT
2
*STA
BLM21B201SPT
2
*SBSY
EXFL4
BLM21B201SPT
2 *PACK
1
O
O
PRDY_F
O
I
BL30
BL33
STA_F 1
I
BL29
R54
ERJ3GSYJ103V
SBSY_F 1
VL
VSYNC_F
PRST_F
SCLK_F
PRNT_F
RA16
MNR14EABJ103
VL
2
4
6
8
1
3
5
7
1-7. Interface Block
NPN
2
6
5
4
1
2
4
6
8
1
3
5
7
6
5
4
1
2
3
NPN
NPN
6
5
4
1
2
3
6
5
4
1
2
3
NPN
NPN
NPN
1
2
3
6
5
4
1
2
3
6
5
4
1
2
3
13
5
12
6
TC74HC14AFT2
IC21C
TC74HC14AFT2
IC21F
SREQI
SHRDYI
SLSYNCI
SRXDI
SCTSI
CMDI
EXFLI4
PRNTI
SCLKI
PRSTI
VSYNCI
SREQI
SHRDYI
SLSYNCI
SRXDI
SCTSI
CMDI
EXFLI4
PRNTI
SCLKI
PRSTI
VSYNCI
[ 3 : B2 ]
[ 3 : B2 ]
[ 3 : B2 ]
[ 2 : C1 ]
[ 2 : C1 ]
[ 3 : C2 ]
[ 3 : C2 ]
[ 3 : C2 ]
[ 3 : C2 ]
[ 2 : B3 ]
[ 3 : C2 ]
4
4
VL
OPTX
ADFTX
IADFTX
STTX
ISTTX
C59
ECJ1VF1C104Z
[ 2 : C1 ]
[ 11 : B3 ]
[ 11 : B3 ]
[ 11 : B3 ]
[ 11 : B3 ]
OPTX
ADFTX
R81
ERJ3GSYJ472V
IADFTX
STTX
ISTTX
VL
16
15
14
13
12
11
10
9
OPDEC
OPDE
M5M34050FPT2
VCC
1DI
1DO
*1DO
DE
*2DO
2DO
2DI
*1RI
1RI
1RO
*RE
2RO
2RI
*2RI
GND
DT14
DTC114EKA146
IC19
R51
ERJ3GSYJ103V
VL
5
5
1
2
3
4
5
6
7
8
VL
OPRX
C57
ECJ1VF1C104Z
OPRX
STRXI
DA14
MA151WKTX
DA12
MA151WATX
[ 2 : C1 ]
VL
ERJ3GSYJ472V
R83
ERJ3GSYJ472V
R82
ISTRX
100mA
STRX
STRX
ERJ12YJ101H
R126
ISTRX
100mA
[ 11 : B3 ]
[ 11 : B3 ]
Notise de securité
6
[ 2 : C1 ]
ISTRXI
6
A
B
C
D
E
F
A
B
C
D
E
F
PLSYNCI
9
13
12
2
11
TC74HC00AFT2
IC34D
TC74HC00AFT2
IC34C
8
2
LLSYNCIN
13
TC74HC14AFT2
3
OSC
VCC
1
4
3
D0
D1
D2
D3
D4
D5
D6
D7
WE
WRES
WCK
6
24
23
22
21
16
15
14
13
20
19
17
A[1..12]
C47
ECJ1VF1C104Z
PCLKIN
VL
CK49M
CK 35M
1
2
3
4
6
7
16
12
5
8
M66235FPT2
CLK IN
TEST1
TEST2
PULSE
CKO/2
CKO/2
VCC
VCC
GND
GND
IC26
CNTCK
TEST3
GND
TR
CKO
CKO
BFCNT[0..5]
BFDOUT[0..7]
9
15
14
13
11
10
2
[ 7 : B5 ] [ 3 : D3 ] [ 2 : B3 ]
[ 3 : C3 ]
[ 3 : C4 ] [ 2 : C4 ]
[ 3 : C4 ] [ 2 : C4 ]
[ 10 : F1 ]
TRA0
[ 10 : F1 ]
TRA1
[ 10 : E1 ]
TRB0
[ 10 : E1 ]
TRB1
[ 10 : E1 ]
LCLK
[ 10 : F2 ]
ENABLE
[ 10 : F2 ]
CAL
[ 10 : F3 ]
ADJUST1
[ 10 : F3 ]
ADJUST2
*PVCLK
*CLSYNC
GVSYNC
*LEN
AD[0..7]
BFDOUT0
BFDOUT1
BFDOUT2
BFDOUT3
BFDOUT4
BFDOUT5
BFDOUT6
BFDOUT7
BFCNT0
BFCNT1
BFCNT2
ILOCK
TC74HC00AFT2
IC34B
C46
ECJ1VF1C104Z
5
4
M66258FPT2
GND
VCC
Q0
Q1
Q2
Q3
Q4
Q5
Q6
Q7
RE
RRES
RCK
IC27
GVCLK
VL
7
18
1
2
3
4
9
10
11
12
5
6
8
C2
ECEA1CKA100B
FXO31FH49P0M
GND
IRST
TC74HC00AFT2
IC34A
VL
BFDIN0
BFDIN1
BFDIN2
BFDIN3
BFDIN4
BFDIN5
BFDIN6
BFDIN7
BFCNT3
BFCNT4
BFCNT5
BFDIN[0..7]
[ 4 : A2 ]
AD[0..7]
VDB[0..7]
VDA[0..7]
CK 35M
[ 10 : B3 ] [ 12 : C4 ]
[ 10 : B3 ] [ 12 : C4 ]
[ 3 : B2 ]
[ 10 : B3 ] [ 12 : C4 ]
R57
ERJ3GSYJ103V
VL
CK35M
PVD[0..7]
A[1..12]
[ 2 : E5 ] [ 3 : E3 ] [ 11 : B4 ]
VDB[0..7]
INH
XL3
1
LLSYNCIN2
1
12
IC36F
LLSYNCIN
VDA[0..7]
C25
ECJ1VF1C104Z
VL
PVD[0..7]
LLSYNCIN2
[ 2 : E5 ] [ 3 : D3 ] [ 11 : B4 ]
[ 10 : E1 ]
[ 10 : E5 ]
[ 10 : F1 ]
*PLSYNC
C31
ECJ1VF1C104Z
10
11
[ 10 : E6 ]
TC74HC14AFT2
IC36E
10
C136
ECUV1H103MBV
[ 10 : B4 ]
[ 12 : A4 ]
*PLSYNC
TP3
RT01T1.0B
[ 10 : C3 ] [ 12 : B5 ]
1-8. Image Block
Not Mounting
2
IRST
IPGCS
IWR
IRD
VL
vdata0_
vdata1_
vdata2_
vdata3_
vdata4_
vdata5_
vdata6_
vdata7_
vclk
clsync
vsync
len
plsync
llsycin
llsycin2
llsycout
vda0_
vda1_
vda2_
vda3_
vda4_
vda5_
vda6_
vda7_
vdb0_
vdb1_
vdb2_
vdb3_
vdb4_
vdb5_
vdb6_
vdb7_
tra0
tra1
trb0
trb1
lclk_
enable
cal_
adjusta
adjustb
pclkin
rst_
ce_
we_
re_
data0
data1
data2
data3
data4
data5
data6
data7
adr0
adr1
adr2
adr3
adr4
adr5
adr6
adr7
adr8
adr9
adr10
adr11
ilock
mclk
fdin1_0
fdin1_1
fdin1_2
fdin1_3
fdin1_4
fdin1_5
fdin1_6
fdin1_7
fdout1_0
fdout1_1
fdout1_2
fdout1_3
fdout1_4
fdout1_5
fdout1_6
fdout1_7
fwe1_
fwres1_
fwck1
fre1_
frres1_
frck1
ckgencs
ckgensclk
ckgensin
TDO
TDI
TCK
TMS
TRST
IC25
TC190G167019
fdin2_0
fdin2_1
fdin2_2
fdin2_3
fdin2_4
fdin2_5
fdin2_6
fdin2_7
fdout2_0
fdout2_1
fdout2_2
fdout2_3
fdout2_4
fdout2_5
fdout2_6
fdout2_7
fwe2_
fwres2_
fwck2
fre2_
frres2_
frck2
fdin3_0
fdin3_1
fdout3_0
fdout3_1
fwe3_
fwres3_
fwck3
fre3_
frres3_
frck3
fdin4_0
fdin4_1
fdin4_2
fdin4_3
fdin4_4
fdin4_5
fdin4_6
fdin4_7
fdout4_0
fdout4_1
fdout4_2
fdout4_3
fdout4_4
fdout4_5
fdout4_6
fdout4_7
fwe4_
fwres4_
fwck4
fre4_
frres4_
frck4
fdin5_0
fdin5_1
fdout5_0
fdout5_1
fwe5_
fwres5_
fwck5
fre5_
frres5_
frck5
fdin6_0
fdin6_1
fdin6_2
fdin6_3
fdin6_4
fdin6_5
fdin6_6
fdin6_7
fdout6_0
fdout6_1
fdout6_2
fdout6_3
fdout6_4
fdout6_5
fdout6_6
fdout6_7
fwe6_
fwres6_
fwck6
fre6_
frres6_
frck6
fdin7_0
fdin7_1
fdout7_0
fdout7_1
fwe7_
fwres7_
fwck7
fre7_
frres7_
frck7
SMODE
TMODE
test1
test2
test3
73
74
75
76
77
78
79
80
82
83
84
85
86
87
88
89
92
93
94
95
96
97
99
100
101
102
103
104
106
107
108
109
111
112
113
114
115
116
117
118
119
122
123
124
125
126
127
128
129
131
132
133
134
135
136
137
139
140
141
143
144
145
146
147
148
149
152
153
154
155
156
157
158
159
160
161
162
163
166
167
168
169
170
171
172
173
175
176
177
178
179
182
183
184
185
186
235
236
237
238
239
3
Notise de securité
C72
C75
C79
C82
C85
C22
ECJ1VF1C104Z
ECJ1VF1C104Z
ECJ1VF1C104Z
ECJ1VF1C104Z
ECJ1VF1C104Z
ECJ1VF1C104Z
C73
C76
C80
C83
C86
C23
ECJ1VF1C104Z
ECJ1VF1C104Z
ECJ1VF1C104Z
ECJ1VF1C104Z
ECJ1VF1C104Z
ECJ1VF1C104Z
C74
C78
C81
C84
C87
ECJ1VF1C104Z
ECJ1VF1C104Z
ECJ1VF1C104Z
ECJ1VF1C104Z
ECJ1VF1C104Z
C1
ECEA1CKA100B
TRST TP
TMS TP
TCK TP
56
57
58
59
62
63
64
65
67
69
70
71
72
187
188
189
VDA0
190
VDA1
191
VDA2
194
VDA3
195
VDA4
196
VDA5
197
VDA6
198
VDA7
199
VDB0
200
VDB1
201
VDB2
203
VDB3
204
VDB4
205
VDB5
206
VDB6
207
VDB7
208
TRA0
209
TRA1
212
TRB0
213
TRB1
214
LCLK
CK 25M 220
ENABLE
215
CAL
216
ADJUST1
217
ADJUST2
218
PCLKIN
228
IRST
27
IPGCS
28
IWR
29
IRD
32
AD0
33
AD1
34
AD2
35
AD3
36
AD4
37
AD5
38
AD6
39
AD7
40
A1
43
A2
44
A3
45
A4
46
A5
47
48
A6
A7
49
A8
50
51
A9
52
A10
53
A11
54
A12
ILOCK
222
226
BFDIN0
2
BFDIN1
3
BFDIN2
4
BFDIN3
5
BFDIN4
6
BFDIN5
7
BFDIN6
8
BFDIN7
9
BFDOUT0
11
BFDOUT1
12
BFDOUT2
13
BFDOUT3
14
BFDOUT4
15
BFDOUT5
16
BFDOUT6
17
BFDOUT7
20
BFCNT0
21
BFCNT1
22
BFCNT2
23
BFCNT3
24
BFCNT4
25
BFCNT5
26
223
224
225
234
TDO
232
TP
231
TDI TP
230
233
PVD0
PVD1
PVD2
PVD3
PVD4
PVD5
PVD6
PVD7
*PVCLK
*CLSYNC
GVSYNC
*LEN
PLSYNCI
LLSYNCIN
LLSYNCIN2
3
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
18
30
41
60
66
90
105
120
138
150
164
180
193
210
219
227
240
1
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
1
10
19
31
42
55
61
68
81
91
98
110
121
130
142
151
165
174
181
192
202
211
221
229
4
CFDIN0
CFDIN1
CFDIN2
CFDIN3
CFDIN4
CFDIN5
CFDIN6
CFDIN7
CFDOUT0
CFDOUT1
CFDOUT2
CFDOUT3
CFDOUT4
CFDOUT5
CFDOUT6
CFDOUT7
CFCNT0
CFCNT1
CFCNT2
CFCNT3
CFCNT4
CFCNT5
4
TP
TP
TP
TEST3
TP
TEST2
TEST1
TMODE TP
SMODE
DFCNT0
DFCNT1
DFCNT2
DFCNT3
DFCNT4
DFCNT5
EFDIN0
EFDIN1
EFDIN2
EFDIN3
EFDIN4
EFDIN5
EFDIN6
EFDIN7
EFDOUT0
EFDOUT1
EFDOUT2
EFDOUT3
EFDOUT4
EFDOUT5
EFDOUT6
EFDOUT7
EFCNT0
EFCNT1
EFCNT2
EFCNT3
EFCNT4
EFCNT5
FFD0
FFD1
FFD2
FFD3
FFCNT0
FFCNT1
FFCNT2
FFCNT3
FFCNT4
FFCNT5
GFDIN0
GFDIN1
GFDIN2
GFDIN3
GFDIN4
GFDIN5
GFDIN6
GFDIN7
GFDOUT0
GFDOUT1
GFDOUT2
GFDOUT3
GFDOUT4
GFDOUT5
GFDOUT6
GFDOUT7
GFCNT0
GFCNT1
GFCNT2
GFCNT3
GFCNT4
GFCNT5
HFD0
HFD1
HFD2
HFD3
HFCNT0
HFCNT1
HFCNT2
HFCNT3
HFCNT4
HFCNT5
DFD0
DFD1
DFD2
DFD3
CFCNT[0..5]
VL
C38
ECJ1VF1C104Z
HFCNT[0..5]
HFD[0..3]
VL
FFD[0..3]
C37
ECJ1VF1C104Z
GFDIN[0..7]
FFCNT[0..5]
C34
ECJ1VF1C104Z
EFCNT[0..5]
EFDIN[0..7]
VL
C33
ECJ1VF1C104Z
DFCNT[0..5]
DFD[0..3]
C32
ECJ1VF1C104Z
CFDOUT[0..7]
CFDIN[0..7]
7
18
1
2
3
4
9
10
11
12
5
6
8
7
18
1
2
3
4
9
10
11
12
5
6
8
7
18
1
2
3
4
9
10
11
12
5
6
8
HFCNT3
HFCNT4
HFCNT5
VL
5
HFD0
HFD1
7
18
1
2
3
4
9
10
11
12
5
6
8
GFCNT[0..5]
7
18
D0
D1
D2
D3
D4
D5
D6
D7
WE
WRES
WCK
D0
D1
D2
D3
D4
D5
D6
D7
WE
WRES
WCK
D0
D1
D2
D3
D4
D5
D6
D7
WE
WRES
WCK
D0
D1
D2
D3
D4
D5
D6
D7
WE
WRES
WCK
GND
VCC
D0
D1
D2
D3
D4
D5
D6
D7
WE
WRES
WCK
M66258FPT2
GND
VCC
Q0
Q1
Q2
Q3
Q4
Q5
Q6
Q7
RE
RRES
RCK
IC33
M66258FPT2
D0
D1
D2
D3
D4
D5
D6
D7
WE
WRES
WCK
M66258FPT2
GND
VCC
Q0
Q1
Q2
Q3
Q4
Q5
Q6
Q7
RE
RRES
RCK
IC31
M66258FPT2
GND
VCC
Q0
Q1
Q2
Q3
Q4
Q5
Q6
Q7
RE
RRES
RCK
IC30
M66258FPT2
GND
VCC
Q0
Q1
Q2
Q3
Q4
Q5
Q6
Q7
RE
RRES
RCK
IC29
M66258FPT2
GND
VCC
Q0
Q1
Q2
Q3
Q4
Q5
Q6
Q7
RE
RRES
RCK
IC28
ECJ1VF1C104Z
GFDOUT[0..7]
IC32
1
Q0
2
Q1
3
Q2
4
Q3
9
Q4
10
Q5
11
Q6
12
Q7
5
RE
6
RRES
8
RCK
GFDIN0
GFDIN1
GFDIN2
GFDIN3
GFDIN4
GFDIN5
GFDIN6
GFDIN7
GFCNT3
GFCNT4
GFCNT5
C36
FFCNT3
FFCNT4
FFCNT5
VL
FFD0
FFD1
EFDIN0
EFDIN1
EFDIN2
EFDIN3
EFDIN4
EFDIN5
EFDIN6
EFDIN7
EFCNT3
EFCNT4
EFCNT5
VL
EFDOUT[0..7]
DFCNT3
DFCNT4
DFCNT5
DFD0
DFD1
7
18
CFDIN0
1
2
CFDIN1
3
CFDIN2
4
CFDIN3
CFDIN4
9
CFDIN5
10
11
CFDIN6
12
CFDIN7
CFCNT3 5
CFCNT4 6
CFCNT5 8
5
CFDOUT0
CFDOUT1
CFDOUT2
CFDOUT3
CFDOUT4
CFDOUT5
CFDOUT6
CFDOUT7
CFCNT0
CFCNT1
CFCNT2
EFDOUT0
EFDOUT1
EFDOUT2
EFDOUT3
EFDOUT4
EFDOUT5
EFDOUT6
EFDOUT7
EFCNT0
EFCNT1
EFCNT2
24
23
22
21
16
15
14
13
20
19
17
24
23
22
21
16
15
14
13
20
19
17
HFCNT0
HFCNT1
HFCNT2
HFD2
HFD3
GFDOUT0
GFDOUT1
GFDOUT2
GFDOUT3
GFDOUT4
GFDOUT5
GFDOUT6
GFDOUT7
GFCNT0
GFCNT1
GFCNT2
FFD2
24
FFD3
23
22
21
16
15
14
13
20 FFCNT0
19 FFCNT1
17 FFCNT2
24
23
22
21
16
15
14
13
20
19
17
DFD2
24
DFD3
23
22
21
16
15
14
13
20 DFCNT0
19 DFCNT1
17 DFCNT2
24
23
22
21
16
15
14
13
20
19
17
6
6
A
B
C
D
E
F
A
B
C
D
E
F
TRB1
VDB[0..7]
TRB0
[ 9 : E2 ]
[ 9 : E2 ]
[ 9 : E2 ]
LCLK
VDA[0..7]
TRA1
TRA0
VDA[0..7]
[ 11 : C6 ]
1
POPVD[0..7]
NPVD[0..7]
VDB[0..7]
R56
ERJ3GSYJ103V
VL
[ 11 : C6 ]
TRA1
[ 9 : E2 ]
[ 9 : E2 ]
[ 9 : F2 ]
TRA0
[ 9 : E2 ]
1-9. LSU Block
TRB1
TRB0
LCLK
PPVCLK
NPVCLK
PCLSYNC
NCLSYNC
PLEN
NLEN
PPLSYNC
NPLSYNC
[ 11 : C5 ]
[ 11 : C5 ]
[ 11 : B5 ]
[ 11 : B5 ]
[ 11 : B5 ]
[ 11 : B5 ]
[ 11 : B5 ]
[ 11 : B5 ]
POPVD[0..7]
NPVD[0..7]
VL
RA21
MNR14EABJ103
VDB0
VDB1
VDB2
VDB3
VDB4
VDB5
VDB6
VDB7
VDA0
VDA1
VDA2
VDA3
VDA4
VDA5
VDA6
VDA7
RA18
MNR14EABJ103
VL
NPLSYNC
PPLSYNC
NLEN
NCLSYNC
PLEN
NPVCLK
PCLSYNC
PPVCLK
NPVD7
NPVD6
POPVD7
NPVD5
POPVD6
NPVD4
POPVD5
NPVD3
POPVD4
NPVD2
POPVD3
NPVD1
POPVD2
NPVD0
POPVD1
POPVD0
R20
R19
R18
R17
R16
R15
R14
R13
R12
R11
R10
1
5
11
1
13
IC39F
3
VL
2
C29
ECJ1VF1C104Z
ERJ3GSYJ101V
ERJ3GSYJ101V
ERJ3GSYJ101V
ERJ3GSYJ101V
ERJ3GSYJ101V
ERJ3GSYJ101V
ERJ3GSYJ101V
ERJ3GSYJ101V
ERJ3GSYJ101V
ERJ3GSYJ101V
ERJ3GSYJ101V
C39
ECJ1VF1C104Z
TC74AC04FT2
IC40B
9
3
13
TC74AC04FT2
IC39D
TC74AC04FT2
IC39B
TC74AC04FT2
IC38F
5
11
TC74AC04FT2
IC38E
TC74AC04FT2
IC38C
TC74AC04FT2
IC38A
TC74AC04FT2
IC37E
TC74AC04FT2
IC37C
TC74AC04FT2
IC37A
ENABLE
TA37
XN4211TX
CAL
TC74AC04FT2
RA22
MNR14EABJ103
CK25M
[ 9 : E2 ]
ENABLE
CAL
2
6
5
4
NPN
5
1
11
5
1
9
3
13
9
3
IC37B
2
IC39A
IC39C
IC39E
IC40C
TC74AC04FT2
VL
VL
VL
RIN1+
RIN1RIN2+
RIN2RIN3+
RIN3RIN4+
RIN4VCC
GND
IC43
EN
EN
ROUT4
ROUT3
ROUT2
ROUT1
2
1
6
7
10
9
14
15
16
8
EN
EN
ROUT4
ROUT3
ROUT2
ROUT1
DS90C032TM
RIN1+
RIN1RIN2+
RIN2RIN3+
RIN3RIN4+
RIN4VCC
GND
IC45
DS90C032TM
C28
ECJ1VF1C104Z
DS90C032TM
C27
ECJ1VF1C104Z
IC44
2
RIN1+ ROUT1
1
RIN16
RIN2+ ROUT2
7
RIN210
RIN3+ ROUT3
9
RIN314
RIN4+ ROUT4
15
RIN416
VCC
EN
8
GND
EN
2
1
6
7
10
9
14
15
16
8
4
12
13
11
5
3
4
12
13
11
5
3
4
12
13
11
5
3
11
5
VL
1
11
VL
5
1
VL
BL551
BL541
BL531
BL521
BL511
BL501
BL491
BL481
BL471
BL461
BL441
BL431
BL421
BL411
BL401
BL391
BL381
BL371
BL361
BL351
ADJUST2
[ 9 : E2 ]
ADJUST1
C42
ECJ1VF1C104Z
TC74AC04FT2
6
2
IC40A
TC74AC04FT2
10
TC74AC04FT2
6
TC74AC04FT2
CK20M
TC74AC04FT2
IC38B
TC74AC04FT2
IC37F
IC38D
8
4
IC37D
TC74AC04FT2
12
8
TC74AC04FT2
4
[ 9 : E2 ]
ENABLEO
[ 11 : E5 ]
[ 11 : E5 ]
CALO
TC74AC04FT2
ENABLEO
CALO
C40
C41
ECJ1VF1C104Z ECJ1VF1C104Z
4
12
8
4
12
10
6
2
10
6
2
1
2
3
[ 9 : E2 ]
RA19
RA20
MNR14EABJ103 MNR14EABJ103
2
4
6
8
1
3
5
7
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
IC42C
10
TC74AC04FT2
IC42E
*LEN
9
TC74AC04FT2
3
IC42A
TC74AC04FT2
13
IC41E
TC74AC04FT2
9
IC41C
TC74AC04FT2
6
2
IC41A
TC74AC04FT2
3
10
6
2
3
ADJ2
ADJ1O
PVD1
IC41D
PVD5
PVD4
PVD3
TC74AC04FT2
IC42B
PVD7
TC74AC04FT2 PVD6
IC41F
TC74AC04FT2
3
[ 12 : B5 ] [ 9 : F2 ]
*PVCLK
IC42D
[ 12 : C5 ] [ 9 : F2 ]
8*CLSYNC
*CLSYNC
TC74AC04FT2
*LEN
[ 12 : C5 ] [ 9 : F2 ]
4
IC41B
PVD0
PVD[0..7]
LDB7
LDB6
LDB5
LDB4
LDB3
LDB2
LDB1
LDB0
3
2
3
6
5
10
11
14
13
DS90C031TM
DIN4
EN
EN
VCC
GND
DIN3
DIN2
DIN1
LDB[0..7]
DOUT1+
DOUT1DOUT2+
DOUT2DOUT3+
DOUT3DOUT4+
DOUT4-
IC46
PVD[0..7]
LEMTEM2
LCLKO
15
4
12
16
8
9
7
1
VL
IC42F
4
C30
ECJ1VF1C104Z
TC74AC04FT2
12
[ 11 : D5 ]
[ 11 : D5 ]
[ 11 : D5 ]
[ 9 : F1 ] [ 12 : B5 ]
13
ERJ3GSYJ103V
R55
Not Mounting
PLSYNCI
LSULSYNC
PLSYNCI
LSULSYNC
[ 11 : E5 ]
[ 11 : C5 ]
4
[ 11 : F5 ]
LDB[0..7]
LEMTEM2
SEMDEM2
LDA[0..7]
[ 11 : E5 ]
[ 11 : E5 ]
LCLKO
LEMTEM1
SEMDEM1
LDA[0..7]
LEMTEM1
SEMDEM1
SEMDEM2
BL45
BLM21B471SDT
1
2
I O
LDA7
LDA6
LDA5
LDA4
LDA3
LDA2
LDA1
LDA0
[ 11 : D5 ]
[ 11 : E5 ]
1
NF10
NFM51R00P506
TC74AC04FT2 PVD2
12
8
4
C45
ECJ1VF1C104Z
CK20M
ADJ2
ADJ1O
*PVCLK
VL
NPN
C44
ECJ1VF1C104Z
2BLM21B471SDT
2BLM21B471SDT
2BLM21B471SDT
2BLM21B471SDT
2BLM21B471SDT
2BLM21B471SDT
2BLM21B471SDT
2BLM21B471SDT
2BLM21B471SDT
2BLM21B471SDT
2BLM21B471SDT
2BLM21B471SDT
2BLM21B471SDT
2BLM21B471SDT
2BLM21B471SDT
2BLM21B471SDT
2BLM21B471SDT
2BLM21B471SDT
2BLM21B471SDT
2BLM21B471SDT
ADJUST2
TA38
XN4211TX
ADJUST1
6
5
4
1
2
3
1
2
4
6
8
1
3
5
7
7
5
3
1
8
6
4
2
2
4
6
8
1
3
5
7
7
5
3
1
8
6
4
2
2
[ 9 : F1 ]
VL
1
TC74HC14AFT2
3
IC36B
TC74HC14AFT2
IC36A
4
2
5
6
6
[ 9 : F1 ]
C89
ECUV1H101JCV TC74HC14AFT2
5
IC36C
LLSYNCIN
LLSYNCIN2
LLSYNCIN2
[ 9 : F1 ]
Notise de securité
6
ERJ3EKF3601V
R93
LLSYNCIN
5
A
B
C
D
E
F
A
B
C
D
E
F
1
2
3
4
5
6
1
2
3
4
5
6
7
LUM1-1
LUM1-2
LBSN1
PESN1
PEWSN1
CRRSN1
RRCR
HFSOL
500mA
700mA
RRSN
QDOSN
HPESN
HFCR
VL
500mA
PVP
LUM2-1
LUM2-2
LBSN2
PESN2
PEWSN2
CRRSN2
500mA PFCR2
700mA PUSOL2
VL
500mA
500mA
DF1118DP2DSA
(BY PASS)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
CN29
DF32P2DSA
(2 LIFT UP)
1
2
CN27
500mA
500mA
PVP
DF1116DP2DSA
(2 CASETTE)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
CN23
DF32P2DSA
(1 LIFT UP)
1
2
CN26
C16
C9
1
RRSN
QDOSN
HPESN
HFSOL
RRCR
HFCR
LUM2-1
LUM2-2
LBSN2
PESN2
PEWSN2
CRRSN2
PFCR2
PUSOL2
LUM1-1
LUM1-2
LBSN1
PESN1
PEWSN1
CRRSN1
PFCR1
PUSOL1
[ 6 : D1 ]
[ 6 : D1 ]
[ 4 : B1 ]
[ 5 : E4 ]
[ 15 : E6 ]
[ 15 : E6 ]
[ 15 : F6 ]
[ 4 : C1 ]
[ 5 : E2 ]
[ 5 : E2 ]
[ 7 : A2 ]
[ 7 : A2 ]
[ 7 : A2 ]
[ 7 : C6 ]
[ 7 : D6 ]
[ 4 : E2 ]
[ 5 : D1 ]
[ 5 : D1 ]
[ 5 : E1 ]
[ 7 : E2 ]
[ 7 : E2 ]
[ 7 : D6 ]
[ 7 : D6 ]
[ 4 : E2 ]
[ 5 : E1 ]
[ 5 : E1 ]
[ 5 : E1 ]
[ 7 : E2 ]
[ 7 : E2 ]
C61
ECUV1H104ZFX
C117
SVP
TP1
RT01T1.0B
ECJ1VF1C104Z
C62
ECUV1H104ZFX
C116
PVP
PMVP
VA
C60
ECJ1VF1C104Z
ECJ1VF1C104Z
VL
ECEA1CKA101B
ECEA1VU101B
NF9
DSS30691F103
3
SVCNT
PVCNT
ZCRS
ZCDWN
BTCNT
EPACNT
ACDWN
500mA PFCR1
700mA PUSOL1
VL
DF1116DP2DSA
(1 CASETTE)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
CN22
+5VL
PVP
1
C115
C114
ECUV1H104ZFX
ECUV1H104ZFX
C15
C14
C17
ECEA1VU101B ECEA1VU101B
ECEA1VU101B
SVCNT
PVCNT
ZCRS
ZCDWN
BTCNT
EPACNT
ACDWN
VL
DF37P2DSA
(POWER CNT)
CN1
DF33P2DSA
(LAZER 5V)
1
2
3
CN28
B8PVH
(24V)
1
2
3
4
5
6
7
8
CN24
B6PVH
(5V,12V)
CN9
1-10. Connector Block
1
2
1
2
3
4
5
6
7
8
9
700mA
700mA
VL
PVP
VL
BMA
1A
PVP
700mA
PVP
1A
1A
1A
1A
500mA
500mA
2
DF33P2DSA
1
2
3
CN39
DF1114DP2DSA
(OZFAN,SCFAN)
11
12
13
14
EXFL4
[ 7 : B4 ]
[ 4 : E4 ]
[ 7 : A3 ]
[ 7 : A3 ]
[ 7 : A3 ]
[ 7 : A3 ]
EXFL4
PFSDCR
SCFL
PCCR
SCFM
DDFM
OZFL
DDFL
RCSOL
TH1
TH2
TDSN
CDSN2
VCDS
CDSN1
GOPSW1
TDREF
VL
SVP
1
2
3
4
5
6
7
8
9
10
CN15
[ 7 : D2 ]
[ 4 : E3 ]
[ 7 : F2 ]
[ 7 : D4 ]
[ 7 : D4 ]
[ 4 : E3 ]
[ 4 : E3 ]
1A
500mA
500mA
DF39P2DSA
1
2
3
4
5
6
7
8
9
CN43
LPCNT1
LPFL
LPFM
LMA
LMB
LMAB
LMBB
HPSN
AOSS6
AOSS5
AOSS4
AOSS3
AOSS2
AOSS1
PRCFL
PRCFM
PSFL
IPRXD
IPRXG
IPTXD
IPTXG
100mA
100mA
3
HPSN
AOS6
AOS5
AOS4
AOS3
AOS2
AOS1
3
PRCFL
PRCFM
HDDFL
PSFL
VL
ISTTX
STTX
ISTRX
STRX
IADFTX
ADFTX
ADFIN
ADFOUT
[ 12 : D5 ]
[ 12 : D6 ]
[ 5 : D4 ]
[ 7 : E4 ]
ISTTX
STTX
ISTRX
STRX
IADFTX
ADFTX
ADFIN
ADFOUT
[ 6 : B1 ]
[ 5 : E4 ]
[ 7 : C4 ]
[ 7 : B6 ]
[ 7 : B6 ]
[ 7 : B6 ]
[ 7 : B6 ]
[ 4 : C1 ]
PVP
1
2
3
4
5
6
7
8
9
10
11
12
CN7
VL
DF1124DP2DSA
(AD UNIT)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
CN11
[ 9 : E4 ]
[ 9 : E4 ]
[ 9 : F6 ]
[ 9 : E6 ]
[ 9 : E4 ]
[ 9 : E4 ]
[ 4 : B1 ]
[ 6 : C1 ]
VL
*SBSY
*STA
*PRDY
*VRDY
*PACK
A[1..7]
AD[0..7]
VL
A[1..7]
AD[0..7]
4
[ 10 : F3 ]
[ 10 : F2 ]
[ 10 : F2 ]
[ 10 : E4 ]
LDA[0..7]
[ 10 : E4 ]
LDA0
LDA1
LDA2
LDA3
LDA4
LDA5
LDA6
LDA7
LCLKO
ADJ1O
CALO
ENABLEO
SEMDEM1
LSULSYNC
ADJ2
SEMDEM2
[ 2 : E6 ] [ 3 : D3 ] [ 9 : D2 ]
LSULSYNC
ADJ2
SEMDEM2
[ 10 : E4 ]
LEMTEM2
LEMTEM2
LDB0
LDB1
LDB2
LDB3
LDB4
LDB5
LDB6
LDB7
700mA
ADJ1O
CALO
ENABLEO
SEMDEM1
[ 10 : E4 ]
LEMTEM1
LEMTEM1
LCLKO
[ 2 : E6 ] [ 3 : E3 ] [ 9 : C2 ]
[ 10 : E4 ]
[ 10 : F3 ]
[ 10 : E4 ]
LDB[0..7]
C10
ECEA1CKA101B
[ 11 : C2 ]
[ 11 : C2 ]
[ 11 : C2 ] [ 12 : C5 ]
[ 11 : C2 ] [ 12 : B5 ]
[ 11 : B2 ] [ 12 : C5 ]
[ 11 : E1 ]
[ 11 : E1 ]
[ 11 : E1 ]
[ 11 : B2 ] [ 12 : B5 ]
[ 11 : E1 ] [ 12 : B5 ]
[ 11 : E1 ] [ 12 : A5 ]
[ 11 : E1 ] [ 12 : A5 ]
[ 6 : E4 ]
[ 6 : C3 ]
[ 6 : C3 ]
[ 6 : F3 ]
[ 6 : F2 ]
[ 4 : C1 ]
[ 4 : B4 ]
[ 3 : D5 ]
[ 2 : E3 ] [ 3 : C3 ]
[ 2 : D3 ] [ 3 : D3 ]
[ 3 : C3 ]
[ 2 : C3 ]
Not Mounting
*SBSY
*STA
*PRDY
*VRDY
*PACK
*CBSY
*CMD
*SCLK
*ATT
*PRNT
*VSYNC
PRST
ADFICLK
ADFIENB
ADFILD
ADFIDO
ADMCLK
IPCBKSEL
IE
R/IW
M38CS
RESETOUT
*CBSY
*CMD
*SCLK
*ATT
*PRNT
*VSYNC
PRST
ADFICLK
ADFIENB
ADFILD
ADFIDO
ADMCLK
VL
ADFRRSN
ADFIDI
LDB[0..7]
+5VL
[ 10 : E4 ]
LDA[0..7]
[ 5 : D5 ]
[ 5 : E5 ]
[ 6 : C4 ]
[ 6 : C4 ]
[ 6 : C3 ]
[ 4 : B4 ]
[ 4 : C1 ]
[ 10 : D4 ]
STRRSN
HMMCLK
RVSCLK
OTRLD
4
[ 6 : F3 ]
[ 6 : E3 ]
[ 6 : F4 ] [ 3 : C4 ]
[ 6 : E3 ]
[ 4 : B4 ]
[ 6 : E4 ]
[ 6 : E4 ]
[ 6 : E4 ]
[ 6 : D4 ]
[ 4 : C1 ]
[ 4 : B1 ]
[ 6 : C3 ]
[ 6 : D3 ]
[ 6 : F3 ]
[ 6 : C3 ]
[ 6 : D3 ]
[ 6 : F4 ]
[ 6 : E3 ]
[ 6 : A1 ]
[ 4 : B4 ]
[ 6 : D4 ]
ADUSL
DXOPSN
F32AOUT
QLTH
F32ACLK
QLD
DXIN
DXMCA
DXMCAB
DXMCB
DXMCBB
PSLSN
PSWSN
DXFENB
OTRLTH
F32BOUT
FENB
OQLTH
F32BCLK
OQLD
LCCLD
OQIN
OQMCLK
ADUSL
DXOPSN
F32AOUT
QLTH
F32ACLK
QLD
DXIN
DXMCA
DXMCAB
DXMCB
DXMCBB
PSLSN
PSWSN
DXFENB
ADFRRSN
ADFIDI
AD0
AD1
AD2
AD3
AD4
AD5
AD6
AD7
A1
A2
A3
A4
A5
A6
A7
IPCBKSEL
IE
R/IW
M38CS
RESETOUT
IPRXD
IPRXG
IPTXD
IPTXG
DF1128DS2DSA
(FINISHER)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
CN21
DF1114DP2DSA
(PRINTER IF)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
CN4
DF1110DP2DSA
(SHEET ADF)
1
2
3
4
5
6
7
8
9
10
CN25
F32BOUT
FENB
OQLTH
F32BCLK
OQLD
LCCLD
OQIN
OQMCLK
VL
F32AOUT
FENB
OTRLTH
F32ACLK
HMMCLK
RVSCLK
OTRLD
DXIN
STRRSN
DF1112DP2DSA
(SHIFT TRAY)
1
2
3
4
5
6
7
8
9
10
11
12
CN8
DF1112DP2DSA
(SYSTEM CASETTE)
AOS[1..6]
[ 6 : F5 ]
[ 4 : D4 ]
AOSS[1..6]
[ 6 : D5 ]
[ 15 : F6 ]
[ 7 : D2 ]
[ 4 : E5 ]
[ 4 : E5 ]
[ 6 : C4 ]
[ 4 : D5 ]
[ 6 : D1 ]
AOS[1..6]
AOSS[1..6]
KCTCNT
KCS
KCT
PASN
PCSN
PMCLK
PMLOCK
PMCNT
LPCNT1
LPFL
LPFM
LMA
LMB
LMAB
LMBB
KCTCNT
KCS
KCT
PASN
PCSN
PMCLK
PMLOCK
PMCNT
PVP
100mA
100mA
DF1110DP2DSA
(ADF A888)
1
2
3
4
5
6
7
8
9
10
CN19
(LAMP,LPFAN)
DF1106DP2DSA
1
2
3
4
5
6
CN17
SVP
DF36P2DSA
(SCANA MOTOR)
1
2
3
4
5
6
CN31
DF1128DP2DSA
(AOSS)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
CN20
[ 7 : C4 ]
[ 4 : E1 ] [ 6 : B2 ]
DF1110DP2DSA
[ 6 : A2 ]
(SORTER)
[ 6 : E6 ]
[ 4 : D1 ]
[ 6 : E6 ]
[ 4 : E1 ]
[ 4 : D2 ]
[ 6 : C6 ]
Not Mounting
SEPSOL
CLSN
CLMB
CLMA
CLMAB
CLMBB
[ 7 : D2 ]
[ 4 : C4 ]
[ 6 : E6 ]
[ 7 : B3 ]
[ 7 : B3 ]
[ 7 : B3 ]
[ 7 : B3 ]
[ 4 : D3 ]
[ 4 : D3 ]
[ 4 : E3 ]
[ 4 : E3 ]
[ 7 : F4 ]
[ 4 : A1 ]
[ 6 : B5 ]
[ 6 : B5 ]
[ 7 : E6 ]
[ 4 : E4 ]
1
2
3
4
5
6
CN14
DF36P2DSA
] (KEY COUNTER)
[ 6 : C1
[ 4 : E3 ]
[ 6 : F2 ]
[ 7 : F6 ]
[ 7 : D2 ]
EXFL3
CT
TED
VTED
BMA
BMB
BMAB
BMBB
BPSN
TFSN
EXFL2
EXFL1
EXFM1
DOSN
HTTR1
HTTR2
PFOSN
PFSDCR
SCFL
PCCR
SCFM
DDFM
OZFL
DDFL
RCSOL
TH1
TH2
TDSN
CDSN2
VCDS
CDSN1
GOPSW1
TDREF
SEPSOL
CLSN
CLMB
CLMA
CLMAB
CLMBB
DF1114DP2DSA
(CD SENSER)
PVP
CN6
OZFM
1A
1
500mA
2
3
4
5
6
1A
7
8
9
500mA
10
1
2
3
4
5
6
7
8
9
10
11
12
13
14
CN3
DF1112DP2DSA
(CLENER MOTOR)
1
2
3
4
5
6
7
8
9
10
11
12
CN18
DF35P2DSA
(PCSOL)
PCSOL
EXFL3
PFOSN
PCSOL
VL
VL PVP
BMB
BMAB
1A
1A
CT
TED
VTED
BMBB
BPSN
TFSN
500mA
EXFL2
EXFL1
1A EXFM1
PVP
DOSN
ELP2
MMCNT
MMLCK
MMCLK
ELP1
(PD35)
ERJ3GS0R00V
JP2
PVP
1
2
3
4
5
6
7
CN13
PMVP
VL
DF36P2DSA
(POLIGON M)
1
2
3
4
5
6
CN32
DF37P2DSA
(ANGLE SENSER) VL
[ 5 : E2 ]
[ 5 : E2 ]
[ 5 : E2 ]
[ 5 : E4 ]
[ 6 : E1 ]
[ 6 : D6 ]
[ 6 : E1 ]
[ 6 : C6 ]
[ 5 : E4 ]
[ 6 : E1 ]
[ 6 : C6 ]
[ 5 : E4 ]
[ 6 : E1 ]
(PD60)
JP1
ERJ3GS0R00V
HTTR1
HTTR2
ELP2
HSSN1
HSSN2
HSSN3
HVLKC
HVCNT
GREF
HVBCNT
BREF
HVLKT
HVTCNT
TREF
HVLKD
HVDCNT
MMCNT
MMLCK
MMCLK
ELP1
HVLKC
HVCNT
GREF
HVBCNT
BREF
HVLKT
HVTCNT
TREF
HVLKD
HVDCNT
HSSN1
HSSN2
HSSN3
1A
1
700mA
2
3
4
5
CN30
DF1126DP2DSA
(EXFAN BM)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
CN12
VL
DF1114DP2DSA
(MM,ELP,HT)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
CN5
DF312P2DSA
(HI VOLTAGE)
1
2
3
4
5
6
7
8
9
10
11
12
CN10
DF39P2DSA
(BY PASS SIZE)
CN2
2
VL
5
PPVCLK
NPVCLK
POPVD0
NPVD0
POPVD1
NPVD1
POPVD2
NPVD2
POPVD3
NPVD3
POPVD4
NPVD4
POPVD5
NPVD5
POPVD6
NPVD6
POPVD7
NPVD7
PCLSYNC
NCLSYNC
PLEN
NLEN
PPLSYNC
NPLSYNC
DF1126DP2DSA
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
CN37
DF34P2DSA
1
2
3
4
CN36
VL
FX2B52PADSA
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
CN38
5
PCLSYNC
NCLSYNC
PLEN
NLEN
PPLSYNC
NPLSYNC
PPVCLK
NPVCLK
[ 10 : B2 ]
[ 10 : B2 ]
[ 10 : B2 ]
[ 10 : B2 ]
[ 10 : A2 ]
[ 10 : A2 ]
[ 10 : B2 ]
[ 10 : B2 ]
NPVD[0..7]
POPVD[0..7]
[ 10 : C1 ]
[ 10 : C1 ]
Not Mounting
NPVD[0..7]
POPVD[0..7]
Notise de securité
6
6
A
B
C
D
E
F
A
B
C
D
E
F
C217
C218
C219
C220
C221
C222
C223
ECJ1VF1C104Z
ECJ1VF1C104Z
ECJ1VF1C104Z
ECJ1VF1C104Z
ECJ1VF1C104Z
ECJ1VF1C104Z
ECJ1VF1C104Z
24
23
22
21
16
15
14
13
8
5
6
17
20
19
SYSCLK_3A
TFI[0..7]
TFI0
TFI1
TFI2
TFI3
TFI4
TFI5
TFI6
TFI7
MDTA0
MDTA1
MDTA2
MDTA3
MDTA4
MDTA5
MDTA6
MDTA7
MDTA[0..7]
8
5
6
17
20
19
ERJ3GSYJ103V
R238
*MWE
*MRES
24
23
22
21
16
15
14
13
ERJ3GSYJ103V
R237
SYSCLK_3B
*TFWE
*TFRES
SYSCLK_3B
[ 14 : B2 ]
IC214D
8
13
28
43
58
265
280
295
6
21
36
51
66
73
80
87
95
102
110
117
125
132
140
147
154
161
169
176
184
191
199
206
214
221
228
235
243
250
258
273
288
61
283
46
268
31
16
2
291
39
261
238
231
9
217
209
83
90
194
187
113
120
135
143
164
157
VCC
GND
DO0
DO1
DO2
DO3
DO4
DO5
DO6
DO7
VCC
GND
DO0
DO1
DO2
DO3
DO4
DO5
DO6
DO7
1
M66282FPT2
RCK
RE_
RRES_
WCK
WE_
WRES_
DI0
DI1
DI2
DI3
DI4
DI5
DI6
DI7
IC211
M66282FPT2
RCK
RE_
RRES_
WCK
WE_
WRES_
DI0
DI1
DI2
DI3
DI4
DI5
DI6
DI7
IC205
VCCAC5
VCCDC5
VCCAC5
VCCAC5
VCCAC5
VCCAC5
VCCDC5
VCCI
VCCO
VCCI
VCCO
VCCI
VCCI
VCCI
VCCI
VCCO
VCCO
VCCI
VCCI
VCCO
VCCI
VCCI
VCCI
VCCI
VCCI
VCCO
VCCO
VCCI
VCCI
VCCO
VCCI
VCCI
VCCI
VCCI
VCCI
VCCO
VCCO
VCCI
VCCO
VCCI
GNDAC5
GNDAC5
GNDAC5
GNDAC5
GNDDC5
GNDAC5
GNDDC5
GNDI
GNDI
GNDI
GNDI
GNDI
GNDI
GNDI
GNDI
GNDI
GNDI
GNDI
GNDI
GNDI
GNDI
GNDI
GNDI
GNDI
GNDI
GIPR[0]
GIPR[1]
GOPR[0]
C352
ECJ1VF1C104Z
TC74VHC14FEL DT203
DTC114EKA146
NRST0
C318
ECEA1CKA100B
C226
ECJ1VF1C104Z
C227
C225
ECJ1VF1C104Z
ECJ1VF1C104Z
C224
ECJ1VF1C104Z
9
C216
ECJ1VF1C104Z
3.3V
C215
ECJ1VF1C104Z
C317
ECEA1CKA100B
C214
C213
ECJ1VF1C104Z
ECJ1VF1C104Z
C212
VLC
ECJ1VF1C104Z
3.3V
VLC
CSAO
PS_FMON 106
PR_FMON 189
254
FANCNT
[ 14 : D3 ]
[ 13 : E2 ] [ 14 : D3 ] [ 15 : D3 ] [ 16 : F1 ]
NLRD
NLRD
2
1
3
[ 14 : D3 ]
PPVD[0..7]
TC74VHC32FT2
IC246A
NINT3
PRST_1
/VSYNC
/PRNT
/ATT
/VRDY
/PACK
/PRDY
LSYNCSL
/CLSYNC
/LEN
/PVCLK
PPVD7
PPVD6
PPVD5
PPVD4
PPVD3
PPVD2
PPVD1
PPVD0
1
3
4
5
7
8
10
11
49
45
47
50
52
53
55
56
57
59
60
GNDO
GNDO
GNDO
GNDO
GNDO
GNDO
GNDO
GNDO
GNDO
GNDO
GNDO
GNDO
GNDO
GNDO
GNDO
3.3V
18
7
1
2
3
4
9
10
11
12
8
5
6
17
20
19
SYSCLK_3A
MDTB0
MDTB1
MDTB2
MDTB3
MDTB4
MDTB5
MDTB6
MDTB7
ECJ1VF1C104Z
ERJ3GSYJ103V
R240
8
5
6
17
20
19
24
23
22
21
16
15
14
13
MDTB[0..7]
ERJ3GSYJ103V
SYSCLK_3B
C321 *MRES
ECEA1CKA100B
*MWE
C229
MDTB0
MDTB1
MDTB2
MDTB3
MDTB4
MDTB5
MDTB6
MDTB7
3.3V
24
23
22
21
16
15
14
13
ED2I0
ED2I1
ED2I2
ED2I3
ED2I4
ED2I5
ED2I6
ED2I7
C319
*ED2RRES
ECEA1CKA100B
*ED2WE
C228
*ED2WRES
R239
TFO0
TFO1
TFO2
TFO3
TFO4
TFO5
TFO6
TFO7
TP
TP
TDO_A
ED2I[0..7]
TP
TMS_A
TDI_A
ECJ1VF1C104Z
MDTB[0..7]
18
7
1
2
3
4
9
10
11
12
TFO[0..7]
3.3V
TRST_A
ERJ3GSYJ103V
R234
69
276
54
253
246
24
98
224
76
202
105
128
179
172
150
2
SSVD[0..7]
[ 13 : E2 ] [ 14 : D3 ] [ 15 : D3 ] [ 16 : F1 ]
[ 13 : E2 ] [ 14 : D3 ] [ 15 : D3 ] [ 16 : F1 ]
WRAO
I/D
SYSCLK_3A
NRST0
LB[0..15]
[ 13 : E2 ] [ 14 : E3 ] [ 15 : E3 ] [ 16 : F1 ]
[ 14 : B2 ]
[ 13 : B2 ] [ 14 : E3 ] [ 16 : D1 ]
R226
ERJ3GSYJ103V
VCC
GND
VCC
GND
DO0
DO1
DO2
DO3
DO4
DO5
DO6
DO7
M66282FPT2
RCK
RE_
RRES_
WCK
WE_
WRES_
DI0
DI1
DI2
DI3
DI4
DI5
DI6
DI7
IC209
3.3V
LB[0..15]
18
7
1
2
3
4
9
10
11
12
C231
2
ECJ1VF1C104Z
3.3V
MDTC0
MDTC1
MDTC2
MDTC3
MDTC4
MDTC5
MDTC6
MDTC7
8
5
6
17
20
19
RCK
RE_
RRES_
WCK
WE_
WRES_
DI0
DI1
DI2
DI3
DI4
DI5
DI6
DI7
IC206
VCC
GND
DO0
DO1
DO2
DO3
DO4
DO5
DO6
DO7
8
5
6
17
20
19
24
23
22
21
16
15
14
13
ERJ3GSYJ103V
R242
*MWE
*MRES
SYSCLK_3B
MDTC0
MDTC1
MDTC2
MDTC3
MDTC4
MDTC5
MDTC6
MDTC7
MDTC[0..7]
VCC
GND
DO0
DO1
DO2
DO3
DO4
DO5
DO6
DO7
M66282FPT2
RCK
RE_
RRES_
WCK
WE_
WRES_
DI0
DI1
DI2
DI3
DI4
DI5
DI6
DI7
IC210
18
7
1
2
3
4
9
10
11
12
3.3V
3.3V
SYSCLK_3B
MDTD0
MDTD1
MDTD2
MDTD3
MDTD4
MDTD5
MDTD6
MDTD7
3
ERJ3GSYJ103V
8
5
6
17
20
19
24
23
22
21
16
15
14
13
MDTD[0..7]
ERJ3GSYJ103V
8
5
6
17
20
19
24
23
22
21
16
15
14
13
VWDATA
*BRVEN
*BRLEN
BRDATA
*ED2RRES
*ED2WRES
*ED2WE
ED2O0
ED2O1
ED2O2
ED2O3
ED2O4
ED2O5
ED2O6
ED2O7
ED2I0
ED2I1
ED2I2
ED2I3
ED2I4
ED2I5
ED2I6
ED2I7
*ED1WRES
*ED1RRES
*ED1WE
ED1I7
ED1I6
ED1I5
ED1I4
ED1I3
ED1I2
ED1I1
ED1I0
ED1O7
ED1O6
ED1O5
ED1O4
ED1O3
ED1O2
ED1O1
ED1O0
*ZRES
*ZWE
ZDTI7
ZDTI6
ZDTI5
ZDTI4
ZDTI3
ZDTI2
ZDTI1
ZDTI0
ZDTO7
ZDTO6
ZDTO5
107
137
134
136
108
109
111
112
114
115
116
118
119
121
122
123
124
126
127
129
130
131
133
163
162
160
159
158
156
155
153
152
151
149
148
146
145
144
142
141
139
138
188
186
185
183
182
181
180
178
177
175
174
173
171
VCC
GND
DO0
DO1
DO2
DO3
DO4
DO5
DO6
DO7
M66282FPT2
RCK
RE_
RRES_
WCK
WE_
WRES_
DI0
DI1
DI2
DI3
DI4
DI5
DI6
DI7
IC208
M66282FPT2
VCC
GND
DO0
DO1
DO2
DO3
DO4
DO5
DO6
DO7
BIDATA
*BIVEN
*BILEN
101
103
104
3.3V
C234
ZDTO0
ZDTO1
ZDTO2
ZDTO3
ZDTO4
ZDTO5
ZDTO6
ZDTO7
18
7
1
2
3
4
9
10
11
12
3.3V
[ 9 : F1 ]
VLC
4
MDTA4
MDTA5
MDTA6
MDTA7
MDTA0
MDTA1
MDTA2
MDTA3
MDTD4
MDTD5
MDTD6
MDTD7
MDTD0
MDTD1
MDTD2
MDTD3
ZDTI4
ZDTI5
ZDTI6
ZDTI7
VCC
GND
2Y1
2Y2
2Y3
2Y4
1Y1
1Y2
1Y3
1Y4
VCC
GND
2Y1
2Y2
2Y3
2Y4
1Y1
1Y2
1Y3
1Y4
TC74AC240FT2
1G
2G
2A1
2A2
2A3
2A4
1A1
1A2
1A3
1A4
IC217
TC74AC240FT2
1G
2G
2A1
2A2
2A3
2A4
1A1
1A2
1A3
1A4
ERJ3GSYJ103V
R236
*PLSYNC
1
19
11
13
15
17
PPVD3
PPVD2
PPVD1
PPVD0
BUFGATE
2
4
6
8
PPVD7
PPVD6
PPVD5
PPVD4
1
19
11
13
15
17
2
4
6
8
IC218
JA206
MNR14EABJ000
MDTB4
MDTB5
MDTB6
MDTB7
MDTB0
MDTB1
MDTB2
MDTB3
JA204
MNR14EABJ000
JA205
MNR14EABJ000
2
4
6
8
MDTE0
MDTE1
MDTE2
MDTE3
ZDTO4
ZDTO5
ZDTO6
ZDTO7
ZDTO0
ZDTO1
ZDTO2
ZDTO3
PVD3
PVD2
PVD1
PVD0
PVD7
PVD6
PVD5
PVD4
/VSYNC
20
10
9
7
5
3
18
16
14
12
20
10
9
7
5
3
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
*VSYNC
/PRNT
"
VLC
"
8
6
4
2
LSNCSL
5
VLC
PR_FMON
6
TC74VHC14FEL
IC250C
9
13
12
10
VLC
*ATT
RIN1+
RIN1RIN2+
RIN2RIN3+
RIN3RIN4+
RIN4VCC
GND
8
TC74VHC32FT2
11
R264
8
10
TC74VHC14FEL
IC250E
TC74VHC14FEL
IC250F
LSYNCSL
12
[ 8 : B2 ] [ 11 : C4 ]
[ 8 : C2 ] [ 11 : C4 ]
SSVD1
SSVD2
SSVD3
5
11
13
SSVD5
SSVD6
SSVD7
BUFGATE
5
11
13
4
12
6
5
4
2
4
9
IC250D
TC74VHC14FEL
IC250B
TC74VHC14FEL
IC250A
6
[ 11 : A3 ]
BUFGATE
[ 15 : E6
" ]
SSVD[0..7]
TC74VHC32FT2
IC246B
TC74VHC14FEL
3
1
D201
1SR139400T32
Q201
2SA1674TA
PRCFM
SSVD4
3
4
12
SSVD0
VLC
SVCLK1
DA_DATA1
DA_CLK1
DA_LD1
*SLSYNC_C1
3
4
12
13
11
5
3
1
19
11
13
15
17
2
4
6
8
12V1
ERJ3GSYJ103V
[ 8 : C2 ] [ 11 : C4 ]
11
EN
EN
ROUT4
ROUT3
ROUT2
ROUT1
DS90C032TM
RIN1+
RIN1RIN2+
RIN2RIN3+
RIN3RIN4+
RIN4VCC
GND
[ 8 : B2 ] [ 11 : C4 ]
13
EN
EN
ROUT4
ROUT3
ROUT2
ROUT1
DS90C032TM
IC203
C354
ECJ1VF1C104Z
*VRDY
*PRDY
*PACK
EN
EN
ROUT4
ROUT3
ROUT2
ROUT1
DS90C032TM
IC202
RIN1+
RIN1RIN2+
RIN2RIN3+
RIN3RIN4+
RIN4VCC
GND
R219
VLC
ERJ3GSYJ102V
TC74VHC32FT2
IC246D
IC246C
*ATT
*VRDY
*PRDY
*PACK
2
1
6
7
10
9
14
15
16
8
ERJ6GEYJ472V
TA204
XN4211TX
ECJ1VF1C104Z
C241
ECJ1VF1C104Z
SVD4
/SVD4
SVD5
/SVD5
SVD6
/SVD6
SVD7
/SVD7
VLC
C240
2
1
6
7
10
9
14
15
16
8
2
1
6
7
10
9
14
15
16
8
1G
2G
2A1
2A2
2A3
2A4
1A1
1A2
1A3
1A4
T74HC244AFT2
IC201
VCC
GND
2Y1
2Y2
2Y3
2Y4
1Y1
1Y2
1Y3
1Y4
IC219
6
1-11. Alpha Block
Notise de securité
5
*PLSYNC
*SLSYNC_C1
LSNCSL
[ 8 : E1 ] [ 11 : C4 ]
PRST
[ 8 : E1 ] [ 11 : C4 ]
TC74VHC14FEL
9
IC213D
TC74VHC14FEL
5
IC213C
TC74VHC14FEL
3
IC213B
C239
ECJ1VF1C104Z
SVD0
/SVD0
SVD1
/SVD1
SVD2
/SVD2
SVD3
/SVD3
VLC
VLC
*RLSYNC
/*RLSYNC
SVCLK
/SVCLK
R308
9
7
5
3
*RLSYNC1
20
10
18
16
14
12
DA_DATA
DA_CLK
DA_LD
*SLSYNC_C
VLC
C238
ECJ1VF1C104Z
FANCNT
ERJ3GSYJ103V
R247
TC74VHC14FEL
1
IC213A
*PRNT
[ 8 : E1 ] [ 11 : C4 ]
PRST
TA203
XN4211TX
*PRNT
4
PS_FMON
TA202
XN4211TX
3.3V
ERJ3GSYJ103V
R248
ERJ3GSYJ101V
ERJ3GSYJ101V
ERJ3GSYJ101V
ERJ3GSYJ101V
3.3V
R208
ERJ3GSYJ101V
R207
ERJ3GSYJ101V
R206
R205
R204
ERJ3GSYJ101V
R203
ERJ3GSYJ101V
R202
ERJ3GSYJ101V
ERJ3GSYJ101V
C205
ECJ1VF1C104Z RA206
MNR14EABJ103
[ 9 : F1 ] [ 10 : C3 ]
/ATT
/VRDY
/PRDY
/PACK
R210
R209
R201
PRINTER(VIDEO)
*VSYNC
PVD[0..7]
PRST_1
VLC
ERJ3GSYJ103V
PSFL
R245
PRCFL
[ 10 : B3 ] [ 9 : F2 ]
[ 10 : B3 ] [ 9 : F2 ]
[ 10 : B3 ] [ 9 : F2 ]
DT202
DTC114EKA146
VLC
C237
ECJ1VF1C104Z
VLC
C236
ECJ1VF1C104Z
PVD[0..7]
*LEN
*CLSYNC
*PVCLK
[ 11 : A3 ]
[ 11 : A3 ]
R246
5
VLC
ERJ3GSYJ103V
FAN CONTROL
CCD
DF1124DP2DSA
[ 8 : D1 ]
18 *LEN
16 *CLSYNC
14 *PVCLK
12
*SLSYNC
MDTE4
MDTE5
MDTE6
MDTE7
2
4
6
8
[ 8 : D1 ]
[ 8 : D1 ]
2
4
6
8
/LEN
/CLSYNC
/PVCLK
1
3
5
7
1
3
5
7
1
3
5
7
SHBREQ1
CN209
DF1108DP2DSA
SHWREQ1
*SVSYNC1
1
2
3
4
5
6
7
8
CN210
*PLSYNC
2
4
6
8
2
4
6
8
JA202
MNR14EABJ000
JA203
MNR14EABJ000
1
2
3
4
5
6
7
8
1
3
5
7
ZDTI0
ZDTI1
ZDTI2
ZDTI3
*SREQ
*SHRDY
*SVEN1
SORGSST1
TC74VHC14FEL
10
TC74VHC14FEL
IC212E
8
TC74VHC14FEL
IC212D
6
TC74VHC14FEL
IC212C
4
TC74VHC14FEL
IC212B
2
C204
ECJ1VF1C104Z
IC212A
VLC
DT201
DTC114EKA146
*SLSYNC
*SREQ
TA201
XN4211TX
JA201
MNR14EABJ000
1
3
5
7
*SLSYNC1
SHRDY1
11
9
5
3
1
*SHRDY
R235
VLC
ERJ3GSYJ103V
*SREQ1
*SVSYNC
*SHBREQ
*SHWREQ
*SORGSST
*SVEN
Not Mounting
PPVD[0..7]
[ 15 : E2 ]
[ 13 : B2 ]
[ 13 : B2 ]
[ 13 : B2 ]
ECJ1VF1C104Z
C235
MDTE0
MDTE1
MDTE2
MDTE3
MDTE4
MDTE5
MDTE6
MDTE7
ECJ1VF1C104Z
MDTE[0..7]
18
7
1
2
3
4
9
10
11
12
ZDTO[0..7]
ZDTI[0..7]
ED1O[0..7]
ED1I[0..7]
ED2I[0..7]
ED2O[0..7]
VWDATA
*BRVEN
*BRLEN
BRDATA
[ 13 : B2 ]
[ 13 : B2 ]
[ 13 : B2 ]
*SVSYNC
[ 8 : B3 ]
BIDATA
*BIVEN
*BILEN
*SHBREQ
*SHWREQ
[ 8 : C3 ]
[ 8 : C3 ]
*SORGSST
*SVEN
STATUS & COM.
RA205
MNR14EABJ103
PRINTER/SCANNER
[ 8 : D3 ]
[ 8 : B3 ]
TFI[0..7]
TFO[0..7]
ZDTO[0..7]
TFO5
TFO6
TFO7
TFI0
TFI1
TFI2
TFI3
TFI4
TFI5
TFI6
TFI7
85
86
88
89
91
92
93
94
96
97
99
RCK
RE_
RRES_
WCK
WE_
WRES_
DI0
DI1
DI2
DI3
DI4
DI5
DI6
DI7
IC207
FFPAV0004
*ZRES
*ZWE
ZDTI[7]
ZDTI[6]
ZDTI[5]
ZDTI[4]
ZDTI[3]
ZDTI[2]
ZDTI[1]
ZDTI[0]
ZDTO[7]
ZDTO[6]
ZDTO[5]
*ED1WRES
*ED1RRES
*ED1WE
ED1I[7]
ED1I[6]
ED1I[5]
ED1I[4]
ED1I[3]
ED1I[2]
ED1I[1]
ED1I[0]
ED1O[7]
ED1O[6]
ED1O[5]
ED1O[4]
ED1O[3]
ED1O[2]
ED1O[1]
ED1O[0]
*ED2RRES
*ED2WRES
*ED2WE
ED2O[0]
ED2O[1]
ED2O[2]
ED2O[3]
ED2O[4]
ED2O[5]
ED2O[6]
ED2O[7]
ED2I[0]
ED2I[1]
ED2I[2]
ED2I[3]
ED2I[4]
ED2I[5]
ED2I[6]
ED2I[7]
VWDATA
*BRVEN
*BRLEN
BRDATA
BIDATA
*BIVEN
*BILEN
TFO[5]
TFO[6]
TFO[7]
TFI[0]
TFI[1]
TFI[2]
TFI[3]
TFI[4]
TFI[5]
TFI[6]
TFI[7]
IC216
ZDTI[0..7]
SYSCLK_3A
ZDTI0
ZDTI1
ZDTI2
ZDTI3
ZDTI4
ZDTI5
ZDTI6
ZDTI7
C322 *MRES
ECEA1CKA100B
*MWE
C232
R244
MDTD0
MDTD1
MDTD2
MDTD3
MDTD4
MDTD5
MDTD6
MDTD7
ECJ1VF1C104Z
18
7
1
2
3
4
9
10
11
12
3
MDTE[0..7]
C320 *ZRES
ECEA1CKA100B
*ZWE
C233
R243
ED1O0
ED1O1
ED1O2
ED1O3
ED1O4
ED1O5
ED1O6
ED1O7
ED1O[0..7]
MDTD[0..7]
ECJ1VF1C104Z
MDTD[0..7]
MDTC[0..7]
M66282FPT2
R241
ERJ3GSYJ103V
*ED1WE
*ED1WRES
*ED1RRES
24
23
22
21
16
15
14
13
ED1I[0..7]
MDTA[0..7]
ED1I0
ED1I1
ED1I2
ED1I3
ED1I4
ED1I5
ED1I6
ED1I7
SYSCLK_3A
FIFO
C230
ED2O0
ED2O1
ED2O2
ED2O3
ED2O4
ED2O5
ED2O6
ED2O7
TP
ED2O[0..7]
MDTB[0..7]
ECJ1VF1C104Z
MDTC[0..7]
18
7
1
2
3
4
9
10
11
12
TCLK_A
DO0
DO1
DO2
DO3
DO4
DO5
DO6
DO7
M66282FPT2
RCK
RE_
RRES_
WCK
WE_
WRES_
DI0
DI1
DI2
DI3
DI4
DI5
DI6
DI7
IC204
ERJ3GSYJ103V
R227
3.3V
TMODE[0]
TMODE[1]
RTEST
TRST
TMS
TDO/W
TDI/T
TCK
251
252
249
70
67
74
72
68
CSAO
I/D
WRAO
*MWE
*MRES
MDTB[0]
MDTB[1]
MDTB[2]
MDTB[3]
MDTB[4]
MDTB[5]
MDTB[6]
MDTB[7]
MDTA[0]
MDTA[1]
MDTA[2]
MDTA[3]
MDTA[4]
MDTA[5]
MDTA[6]
MDTA[7]
223
225
226
227
229
230
232
233
234
236
237
239
240
241
242
244
245
247
PRST
*VSYNC
*PRNT
*ATT
*VRDY
*PACK
*PRDY
*PLSYNC
*CLSYNC
*PLEN
*PVCLK
PVD[7]
PVD[6]
PVD[5]
PVD[4]
PVD[3]
PVD[2]
PVD[1]
PVD[0]
SORGSST1
SHRDY1
SHBREQ1
SHWREQ1
*SLSYNC1
*SVSYNC1
*SVEN1
*SREQ1
*SLSYNC_C1
DA_CLK1
DA_DATA1
DA_LD1
*RLSYNC1
SVCLK1
SSVD0
SSVD1
SSVD2
SSVD3
SSVD4
SSVD5
SSVD6
SSVD7
12
14
15
17
18
19
20
22
23
25
27
29
30
32
34
35
37
38
40
41
42
44
SORGSST
SHRDY
SHBREQ
SHWREQ
*SLSYNC
*SVSYNC
*SVEN
SREQ
*SLSYNC_C
DA_CLK
DA_DATA
DA_LD
*RLSYNC
SVCLK
SVD[0]
SVD[1]
SVD[2]
SVD[3]
SVD[4]
SVD[5]
SVD[6]
SVD[7]
NRST0
SYSCLK_3A
NINT3
LB0
LB1
LB2
LB3
LB4
LB5
LB6
LB7
LB8
LB9
LB10
LB11
LB12
LB13
LB14
LB15
294
296
293
292
267
262
266
290
289
287
286
285
284
282
281
279
278
277
275
274
272
271
270
*CS
I/*D
*WR
*RD
*RST
CLK
*INT
LB[0]
LB[1]
LB[2]
LB[3]
LB[4]
LB[5]
LB[6]
LB[7]
LB[8]
LB[9]
LB[10]
LB[11]
LB[12]
LB[13]
LB[14]
LB[15]
MDTC[7]
MDTC[6]
MDTC[5]
MDTC[4]
MDTC[3]
MDTC[2]
MDTC[1]
MDTC[0]
MDTD[7]
MDTD[6]
MDTD[5]
MDTD[4]
MDTD[3]
MDTD[2]
MDTD[1]
MDTD[0]
MDTE[7]
MDTE[6]
MDTE[5]
MDTE[4]
MDTE[3]
MDTE[2]
MDTE[1]
MDTE[0]
*MWE
*MRES
MDTB0
MDTB1
MDTB2
MDTB3
MDTB4
MDTB5
MDTB6
MDTB7
MDTA0
MDTA1
MDTA2
MDTA3
MDTA4
MDTA5
MDTA6
MDTA7
NPN
*TFWE
*TFRES
TFO0
TFO1
TFO2
TFO3
TFO4
222
220
219
218
216
215
213
212
211
210
208
207
205
204
203
201
200
198
197
196
195
193
192
190
2
4
6
8
1
3
5
7
6
5
4
1
2
3
75
77
78
79
81
82
84
MDTC7
MDTC6
MDTC5
MDTC4
MDTC3
MDTC2
MDTC1
MDTC0
MDTD7
MDTD6
MDTD5
MDTD4
MDTD3
MDTD2
MDTD1
MDTD0
MDTE7
MDTE6
MDTE5
MDTE4
MDTE3
MDTE2
MDTE1
MDTE0
NPN
*TFWE
*TFRES
TFO[0]
TFO[1]
TFO[2]
TFO[3]
TFO[4]
ZDTO[0]
ZDTO[1]
ZDTO[2]
ZDTO[3]
ZDTO[4]
ZDTO0 165
ZDTO1 166
ZDTO2 167
ZDTO3 168
ZDTO4 170
6
5
4
1
2
3
VLC
NPN
NPN
1
6
5
4
1
2
3
2
4
6
8
1
3
5
7
6
5
4
1
2
3
A
B
C
D
E
F
A
B
C
D
E
F
3.3V
TP
TP
TP
TDO_AB1
TCK_B1
TMS_B1
[ 16 : C4 ]
TP
TRST_B1
QD[0..15]
[ 16 : E6 ]
[ 16 : E6 ]
[ 16 : E6 ]
1
26
43
97
147
201
10
37
61
78
114
138
157
165
186
38
15
200
142
164
119
60
96
106
51
27
5
130
132
69
79
187
88
177
208
207
206
205
204
203
202
190
189
188
185
184
183
182
181
180
179
178
176
VDDS
VDDS
VDDS
VDDS*
VDDS*
VDD*
VDD
VDD*
VDD
VDD*
VDD
VDD
VDD*
VDD*
VSS*
VSS*
VSS*
VSS*
VSS*
VSS*
VSS*
VSS*
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
TMODE
SMODE
TDO
TRST
TDI
TCK
TMS
ODACK#
ODREQ
OBACK#
ID[0]
ID[1]
ID[2]
ID[3]
ID[4]
ID[5]
ID[6]
ID[7]
ID[8]
OD[0..15]
OD[0..15]
[ 14 : C3 ]
DD[0..15]
I/D
NLRD
NLWR
LB[0..15]
DD[0..15]
NQDACK
[ 16 : E4 ]
NQDACK
QDREQ
[ 16 : E4 ]
QDREQ
NQBACK
[ 16 : E4 ]
NQBACK
NDACK
[ 14 : C3 ]
NDACK
NDREQ
[ 14 : C3 ]
NDREQ
DRD
[ 14 : C3 ]
DRD
TCK_B1
TMS_B1
NODACK
ODREQ
NOBACK
QD0
QD1
QD2
QD3
QD4
QD5
QD6
QD7
QD8
TDO_B1
TRST_B1
VLC
QD[0..15]
NODACK
ODREQ
NOBACK
TDO_AB1
C292
ECJ1VF1C104Z
TP
C291
ECJ1VF1C104Z
TDO_B1
C290
C344
ECJ1VF1C104Z
ECEA1CKA100B
C288
C289
ECJ1VF1C104Z
ECJ1VF1C104Z
ECEA1CKA100B
C343
JP209 ERJ3GS0R00V
JP210 ERJ3GS0R00V
JP211 ERJ3GS0R00V
[ 16 : D6 ]
[ 12 : F2 ] [ 14 : E3 ] [ 15 : E3 ] [ 16 : F1 ]
[ 12 : F2 ] [ 14 : D3 ] [ 15 : D3 ] [ 16 : F1 ]
[ 12 : F1 ] [ 14 : D3 ] [ 15 : D3 ] [ 16 : F1 ]
[ 12 : F2 ] [ 14 : D3 ] [ 15 : D3 ] [ 16 : F1 ]
LB[0..15]
I/D
NLRD
NLWR
OD0
OD1
OD2
OD3
OD4
OD5
OD6
OD7
OD8
OD9
OD10
OD11
OD12
OD13
OD14
OD15
1-12. Beta1 Block
LB0
2
LB1
LB2
LB3
LB4
LB5
LB6
LB7
LB8
LB9
LB10
LB11
LB12
LB13
LB14
LB15
1
NCS4
NINT4
[ 14 : D3 ]
NCS4
2
IC242
NINT4
DMI[0..7]
[ 15 : C3 ]
[ 15 : C3 ]
REFCLK
LMBA[0..11]
LMBD[0..15]
LMAD[0..15]
LMAA[0..11]
3
[ 12 : F2 ] [ 12 : B1 ] [ 14 : E3 ] [ 14 : E4 ] [ 16 : D1 ] [ 16 : D4 ]
[ 14 : B2 ] [ 14 : C2 ] [ 16 : D4 ]
[ 15 : C3 ]
[ 15 : C3 ]
[ 12 : E3 ]
[ 12 : E3 ]
[ 12 : E3 ]
[ 12 : E3 ]
[ 12 : E3 ]
[ 12 : E3 ]
REFCLK
3
53 LMARAS[2]
54 LMARAS[1]
55 LMARAS[0]
56 LMAOE
57 LMAWE
58 LMACAS
59 LMAD15
62 LMAD14
63 LMAD13
64 LMAD12
65 LMAD11
66 LMAD10
67 LMAD9
68 LMAD8
70 LMAD7
71 LMAD6
72 LMAD5
73 LMAD4
74 LMAD3
75 LMAD2
76 LMAD1
77 LMAD0
80 LMBD0
81 LMBD1
82 LMBD2
83 LMBD3
84 LMBD4
85 LMBD5
86 LMBD6
87 LMBD7
89 LMBD8
90 LMBD9
91 LMBD10
92 LMBD11
93 LMBD12
94 LMBD13
95 LMBD14
98 LMBD15
99
LMBCAS
100 LMBWE
101 LMBOE
102 LMBRAS[0]
103 LMBRAS[1]
104 LMBRAS[2]
112 LMBA11
113 LMBA10
105 LMBA9
107 LMBA8
108 LMBA7
109 LMBA6
110 LMBA5
111 LMBA4
[ 14 : D3 ]
TC203G567004
LMARAS#[2]
LMARAS#[1]
LMARAS#[0]
LMAOE#
LMAWE#
LMACAS#
LMAD[15]
LMAD[14]
LMAD[13]
LMAD[12]
LMAD[11]
LMAD[10]
LMAD[9]
LMAD[8]
LMAD[7]
LMAD[6]
LMAD[5]
LMAD[4]
LMAD[3]
LMAD[2]
LMAD[1]
LMAD[0]
LMBD[0]
LMBD[1]
LMBD[2]
LMBD[3]
LMBD[4]
LMBD[5]
LMBD[6]
LMBD[7]
LMBD[8]
LMBD[9]
LMBD[10]
LMBD[11]
LMBD[12]
LMBD[13]
LMBD[14]
LMBD[15]
LMBCAS#
LMBWE#
LMBOE#
LMBRAS#[0]
LMBRAS#[1]
LMBRAS#[2]
LMBA[11]
LMBA[10]
LMBA[9]
LMBA[8]
LMBA[7]
LMBA[6]
LMBA[5]
LMBA[4]
DMI[0..7]
NRST0
SYSCLK_3C
DM1ACK
DM1REQ
*BIVEN
BIDATA
*BILEN
*BRLEN
BRDATA
*BRVEN
VLC
ERJ3GSYJ103V
R228
LMAA0
LMAA1
LMAA2
LMAA3
LMAA4
LMAA5
LMAA6
LMAA7
LMAA8
LMAA9
LMAA10
LMAA11
1
11
21
191
192
193
194
195
196
197
198
199
2
3
4
6
7
8
9
12
13
14
16
17
18
19
20
22
23
24
25
28
29
30
31
32
33
34
35
36
39
40
41
42
46
47
48
49
50
52
44
45
MODE2
MODE0
MODE1
OD[0]
OD[1]
OD[2]
OD[3]
OD[4]
OD[5]
OD[6]
OD[7]
OD[8]
OD[9]
OD[10]
OD[11]
OD[12]
OD[13]
OD[14]
OD[15]
WR#
RD#
I/D
LB[0]
LB[1]
LB[2]
LB[3]
LB[4]
LB[5]
LB[6]
LB[7]
LB[8]
LB[9]
LB[10]
LB[11]
LB[12]
LB[13]
LB[14]
LB[15]
CS#
INT#
LMAA[0]
LMAA[1]
LMAA[2]
LMAA[3]
LMAA[4]
LMAA[5]
LMAA[6]
LMAA[7]
LMAA[8]
LMAA[9]
LMAA[10]
LMAA[11]
ID[9]
ID[10]
ID[11]
ID[12]
ID[13]
ID[14]
ID[15]
IDACK#
IDREQ
IBACK#
DMACK#
DMREQ#
DR/D
DM[15]
DM[14]
DM[13]
DM[12]
DM[11]
DM[10]
DM[9]
DM[8]
DM[7]
DM[6]
DM[5]
DM[4]
DM[3]
DM[2]
DM[1]
DM[0]
SCVEN#
SCDO
SCLEN#
PRLEN#
PRDO
PRVEN#
DM1REQ#
DM1ACK#
CLK
RST#
DM1[0]
DM1[1]
DM1[2]
DM1[3]
DM1[4]
DM1[5]
DM1[6]
DM1[7]
REFCLK
LMBA[0]
LMBA[1]
LMBA[2]
LMBA[3]
QD9 175
QD10 174
QD11 173
QD12 172
QD13 171
QD14 170
QD15 169
168
167
166
156
155
154
163
DD15
162
DD14
161
DD13
160
DD12
159
DD11
DD10
158
153
DD9
152
DD8
151
DD7
DD6
150
DD5
149
DD4
148
DD3
146
DD2
145
DD1
144
143
DD0
141
*BRVEN
140
BRDATA
139
*BRLEN
137
*BILEN
136
BIDATA
*BIVEN
135
DM1REQ 134
DM1ACK 133
SYSCLK_3C131
NRST0
129
128
DMI0
DMI1
127
DMI2
126
DMI3
125
DMI4
124
DMI5
123
DMI6
122
DMI7
121
120
118
117
116
115
LMBA0
LMBA1
LMBA2
LMBA3
LMBWE
LMBOE
LMBRAS[2]
LMBCAS
LMBA0
LMBA1
LMBA2
LMBA3
LMBA4
LMBA5
LMBA6
LMBA7
LMBA8
LMBA9
LMBA10
LMBA11
LMAWE
LMAOE
LMARAS[2]
LMACAS
LMAA0
LMAA1
LMAA2
LMAA3
LMAA4
LMAA5
LMAA6
LMAA7
LMAA8
LMAA9
LMAA10
LMAA11
17
33
18
34
35
21
22
23
24
27
28
29
30
31
32
20
19
17
33
18
34
35
21
22
23
24
27
28
29
30
31
32
20
19
VCC
VCC
VCC
GND
GND
GND
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
DQ16
VCC
VCC
VCC
GND
GND
GND
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
DQ16
TC51V18165CFTS-60
WE_
OE_
RAS_
UCAS_
LCAS_
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
IC240
TC51V18165CFTS-60
WE_
OE_
RAS_
UCAS_
LCAS_
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
IC238
1
6
25
26
45
50
2
3
4
5
7
8
9
10
41
42
43
44
46
47
48
49
1
6
25
26
45
50
2
3
4
5
7
8
9
10
41
42
43
44
46
47
48
49
3.3V
ECJ1VF1C104Z
4
ECJ1VF1C104Z
ECJ1VF1C104Z
ECEA1CKA100B
C341
LMBWE
LMBOE
LMBRAS[1]
LMBCAS
LMBA0
LMBA1
LMBA2
LMBA3
LMBA4
LMBA5
LMBA6
LMBA7
LMBA8
LMBA9
LMBA10
LMBA11
ECEA1CKA100B
ECJ1VF1C104Z
C303C304
LMAA0
LMAA1
LMAA2
LMAA3
LMAA4
LMAA5
LMAA6
LMAA7
LMAA8
LMAA9
LMAA10
LMAA11
LMAWE
LMAOE
LMARAS[1]
LMACAS
C297C298 C337
LMBD0
LMBD1
LMBD2
LMBD3
LMBD4
LMBD5
LMBD6
LMBD7
LMBD8
LMBD9
LMBD10
LMBD11
LMBD12
LMBD13
LMBD14
LMBD15
3.3V
LMAD0
LMAD1
LMAD2
LMAD3
LMAD4
LMAD5
LMAD6
LMAD7
LMAD8
LMAD9
LMAD10
LMAD11
LMAD12
LMAD13
LMAD14
LMAD15
4
17
33
18
34
35
21
22
23
24
27
28
29
30
31
32
20
19
17
33
18
34
35
21
22
23
24
27
28
29
30
31
32
20
19
VCC
VCC
VCC
GND
GND
GND
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
DQ16
VCC
VCC
VCC
GND
GND
GND
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
DQ16
TC51V18165CFTS-60
WE_
OE_
RAS_
UCAS_
LCAS_
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
IC241
TC51V18165CFTS-60
WE_
OE_
RAS_
UCAS_
LCAS_
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
IC239
1
6
25
26
45
50
2
3
4
5
7
8
9
10
41
42
43
44
46
47
48
49
1
6
25
26
45
50
2
3
4
5
7
8
9
10
41
42
43
44
46
47
48
49
C338
C301C302
C342
5
16Mbit
64Mbit
ECEA1CKA100B
ECJ1VF1C104Z
ECJ1VF1C104Z
3.3V
LMBD0
LMBD1
LMBD2
LMBD3
LMBD4
LMBD5
LMBD6
LMBD7
LMBD8
LMBD9
LMBD10
LMBD11
LMBD12
LMBD13
LMBD14
LMBD15
Memory Configuration
JP215 ERJ3GS0R00V
JP214 ERJ3GS0R00V
JP226
LMAA0
LMAA1
LMAA2
LMAA3
LMAA4
LMAA5
LMAA6
LMAA7
ERJ3GS0R00V
ERJ3GS0R00V
ERJ3GS0R00V
ERJ3GS0R00V
Memory Configuration
ERJ3GS0R00V
ERJ3GS0R00V
ERJ3GS0R00V
36
33
13
17
14
18
38
35
37
34
32
19
20
21
22
23
24
27
28
29
30
31
36
33
13
17
14
18
38
35
37
34
32
19
20
21
22
23
24
27
28
29
30
31
GND
GND
GND
GND
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
DQ16
VCC
VCC
VCC
VCC
6
GND
GND
GND
GND
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
DQ16
VCC
VCC
VCC
VCC
M5M465165ATP6
OE_
NC
WE_
NC
RAS_
NC
LCAS_
NC
UCAS_
NC
A11R
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10R
IC244
M5M465165ATP6
OE_
NC
WE_
NC
RAS_
NC
LCAS_
NC
UCAS_
NC
A11R
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10R
IC243
26
39
45
50
2
3
4
5
7
8
9
10
41
42
43
44
46
47
48
49
1
6
12
25
26
39
45
50
2
3
4
5
7
8
9
10
41
42
43
44
46
47
48
49
1
6
12
25
C339
C340
ECJ1VF1C104Z
ECJ1VF1C104Z
ECEA1CKA100B
C296 C295
3.3V
LMBD0
LMBD1
LMBD2
LMBD3
LMBD4
LMBD5
LMBD6
LMBD7
LMBD8
LMBD9
LMBD10
LMBD11
LMBD12
LMBD13
LMBD14
LMBD15
ECEA1CKA100B
ECJ1VF1C104Z
ECJ1VF1C104Z
C294
C293
3.3V
LMAD0
LMAD1
LMAD2
LMAD3
LMAD4
LMAD5
LMAD6
LMAD7
LMAD8
LMAD9
LMAD10
LMAD11
LMAD12
LMAD13
LMAD14
LMAD15
Notise de securité
6
JP224 JP225 JP226 JP227 JP228 JP229 JP230 JP231 JP232 JP233 JP234
X
X
O
O
O
X
X
O
O
OX
O
O
X
O
O
X
X
X
X
X
O
JP234
LMBCAS
JP233
JP232
LMBRAS[0]
LMBWE
ERJ3GS0R00V
LMBA11 JP229
JP230
ERJ3GS0R00V
LMBOE
JP231 ERJ3GS0R00V
ERJ3GS0R00V
LMBA10 JP227
ERJ3GS0R00V
LMBA9 JP228
LMBA8
LMBA0
LMBA1
LMBA2
LMBA3
LMBA4
LMBA5
LMBA6
LMBA7
LMBA9 JP225
JP224
LMBA8
JP223
ERJ3GS0R00V
LMARAS[0]
JP222
LMACAS
ERJ3GS0R00V
JP220 ERJ3GS0R00V
JP219 ERJ3GS0R00V
LMAWE
JP221
LMAOE
ERJ3GS0R00V
LMAA10 JP216
ERJ3GS0R00V
LMAA9 JP217
ERJ3GS0R00V
LMAA11 JP218
LMAA8
LMAA9
JP213 ERJ3GS0R00V
X
X
O
X
O
OX
X
O
O O
O
X
X
O
O
X
O
X
X
X
O
LMAA8
16Mbit
64Mbit
ECEA1CKA100B
C299C300
ECJ1VF1C104Z
ECJ1VF1C104Z
3.3V
LMAD0
LMAD1
LMAD2
LMAD3
LMAD4
LMAD5
LMAD6
LMAD7
LMAD8
LMAD9
LMAD10
LMAD11
LMAD12
LMAD13
LMAD14
LMAD15
5
A
B
C
D
E
F
A
B
C
D
E
2
4
6
8
C258
C259
C260
C261
ECJ1VF1C104Z
ECJ1VF1C104Z
ECJ1VF1C104Z
ECJ1VF1C104Z
CLKO
VCC
GND
2Y1
2Y2
2Y3
2Y4
1Y1
1Y2
1Y3
1Y4
T74LCX244FT2
1G
2G
2A1
2A2
2A3
2A4
1A1
1A2
1A3
1A4
IC229
6
18
29
38
48
54
66
74
84
114
126
138
174
186
234
8
20
25
36
42
50
63
68
77
89
101
145
156
162
197
209
221
37
49
7
19
30
43
55
67
78
90
102
115
127
139
150
163
175
187
198
210
222
235
159
61
58
59
60
57
SP
VDEE
VDDE
ADDVDDE
ADDVDDE
ADDVDDE
VDDE
VDDE
ADDVDDE
ADDVDDE
VDDE
VDDE
VDDE
VDDE
VDDE
VDDE
ADDVDDI
ADDVDDI
VDDI
VDDI
VDDI
ADDVDDI
ADDVDDI
ADDVDDI
VDDI
VDDI
VDDI
VDDI
VDDI
VDDI
VDDI
VDDI
VDDI
ADDVSS
ADDVSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VPD5
NFLOAT
T-MODE[2]
T-MODE[1]
T-MODE[0]
NTST
1
20
10
9
7
5
3
18
16
14
12
C355
ECUV1H103MBV
ERJ3GSYJ103V
R281
1
19
11
13
15
17
ECEA1CKA100B
C257
ECJ1VF1C104Z
C333
C256
ECJ1VF1C104Z
C255
C254
3.3V
C253
ECJ1VF1C104Z
ECJ1VF1C104Z
ECJ1VF1C104Z
C252
ECJ1VF1C104Z
VLC
C251
VLC
ECJ1VF1C104Z
ECEA1CKA100B
C332
OSC
VCC
2
4
6
8
MNR14EABJ220
RA216
FXO31FL40P0M
GND
INH
3.3V
C262
ECJ1VF1C104Z
1
3
5
7
2
1
XL201
SA[0..17]
NSOE
NSWE
RST#
CLK
ADP[0..31]
2
STOP#
LOCK#
IDSEL#
DEVSEL
REQ#
GNT#
PERR#
SERR#
INTA#
[16:E3]
[16:E3]
[16:E3]
[16:D3]
NBACK
NPDACK
PDREQ
PD[0..15]
PD[0..15]
2
ERJ3GSYJ331V
R298
C307
ECJ1VF1C104Z
BCLK
VLC
[15:D3]
LA1
LA2
LA3
INT7
LB5
LB6
LB7
I/D
BCLK
7
8
9
10
11
12
13
14
15
16
17
NINT1
NINT2
NINT3
NINT4
NINT5
INT6
INT7
DD0
DD1
DD2
DD3
DD4
DD5
DD6
DD7
DD8
DD9
NCS1
NCS2
NCS3
NCS4
NCS5
NCS6
NRST0
RST0
CLKI
CLKO
LB0
LB1
LB2
LB3
LB4
LB5
LB6
LB7
LB8
LB9
LB10
LB11
LB12
LB13
LB14
LB15
I/D
LA1
LA2
LA3
NLRD
NLWR
NWAIT
PM2MSEL
96
194
195
166
196
3
62
161
164
165
160
216
215
214
213
212
211
208
207
206
205
204
203
202
201
200
199
220
219
218
217
223
224
225
226
227
228
229
230
231
232
233
181
182
183
236
237
238
239
240
193
192
191
190
189
188
185
184
176
173
NLRD
NCS6
NLWR
RST0
D5
D6
D7
A0
XIN
VSS
XOUT
A1
A2
CHSL
INTR2
[13:B1]
[13:B1]
[13:B1]
FFPAV0005
NRTS1
TX2
RX2
NCTS2
NRTS2
BCLK
NSOFF
NRST0
RST0
CLKI
CLK0
LB[0]
LB[1]
LB[2]
LB[3]
LB[4]
LB[5]
LB[6]
LB[7]
LB[8]
LB[9]
LB[10]
LB[11]
LB[12]
LB[13]
LB[14]
LB[15]
I/D(LA[0])
LA[1]
LA[2]
LA[3]
NLRD
NLWR
NWAIT
NCS0
NCS1
NCS2
NCS3
NCS4
NCS5
NCS6
NCS7
NINT0
NINT1
NINT2
NINT3
NINT4
NINT5
INT6
INT7
DD[0]
DD[1]
DD[2]
DD[3]
DD[4]
DD[5]
DD[6]
DD[7]
DD[8]
DD[9]
IC224
PM2MSEL
HDD_FMON
NDREQ
NDACK
DRD
SYSCLK_3C [B2]
SYSCLK_3A [12:F2]
LB[0..7]
SYSCLK_3B [12:A1]
SYSCLK_3C [13:B2] [16:D4]
SYSCLK_3D [15:C3] [16:D1]
40MHz @3.3V
ERJ3GSYJ331V
SYSCLK_3A
SYSCLK_3B
SYSCLK_3C
SYSCLK_3D
R319
R296
ERJ3GSYJ331V R297
ERJ3GSYJ331V
BL208 BLM21B201SPT
1
2
I O
BL207 BLM21B201SPT
1
2
I O
BL206 BLM21B201SPT
2
1
I O
ERJ3GSYJ331V
R318
R304
R302
ERJ3GSYJ331V R303 ERJ3GSYJ331V
3.3V ERJ3GSYJ331V
SYSTEM CLOCK
BL205 BLM21B201SPT
1
2
I O
3CLKI
4
3.3V
SD[0..7]
SA17
SA16
SA15
SA14
SA13
SA12
SA11
SA10
SA9
SA8
SA7
SA6
SA5
SA4
SA3
SA2
SA1
SA0
SD7
SD6
SD5
SD4
SD3
SD2
SD1
SD0
NBACK
NPDACK
PDREQ
PD15
PD14
PD13
PD12
PD11
PD10
PD9
PD8
PD7
PD6
PD5
PD4
PD3
PD2
PD1
PD0
F
TRDY#
IRDY#
FRAME#
PAR
C/BE3
C/BE2
C/BE1
C/BE0
ADP0
ADP1
ADP2
ADP3
ADP4
ADP5
ADP6
ADP7
ADP8
ADP9
ADP10
ADP11
ADP12
ADP13
ADP14
ADP15
ADP16
ADP17
ADP18
ADP19
ADP20
ADP21
ADP22
ADP23
ADP24
ADP25
ADP26
ADP27
ADP28
ADP29
ADP30
ADP31
93
94
5
9
10
11
12
14
15
16
21
22
23
24
26
27
28
31
51
52
53
65
69
70
71
72
75
76
81
82
83
86
87
88
17
32
47
73
40
46
39
35
33
45
79
34
91
92
44
41
80
13
85
4
2
1
64
95
121
122
CLK
RST#
AD[0]
AD[1]
AD[2]
AD[3]
AD[4]
AD[5]
AD[6]
AD[7]
AD[8]
AD[9]
AD[10]
AD[11]
AD[12]
AD[13]
AD[14]
AD[15]
AD[16]
AD[17]
AD[18]
AD[19]
AD[20]
AD[21]
AD[22]
AD[23]
AD[24]
AD[25]
AD[26]
AD[27]
AD[28]
AD[29]
AD[30]
AD[31]
C/BE[0]
C/BE[1]
C/BE[2]
C/BE[3]
PAR
FRAME#
IRDY#
TRDY#
STOP#
LOCK#
IDSEL#
DEVSEL
REQ#
GNT#
PERR#
SERR#
INTA#
SENSE2
SENS
TX0
RX0
NCTS0
NRTS0
TX1
RX1
NCTS1
NSM
SP
NSOE
NSWE
SA[18]
SA[17]
SA[16]
SA[15]
SA[14]
SA[13]
SA[12]
SA[11]
SA[10]
SA[9]
SA[8]
SA[7]
SA[6]
SA[5]
SA[4]
SA[3]
SA[2]
SA[1]
SA[0]
SD[7]
SD[6]
SD[5]
SD[4]
SD[3]
SD[2]
SD[1]
SD[0]
NBACK
NPDACK
PDREQ
PD[15]
PD[14]
PD[13]
PD[12]
PD[11]
PD[10]
PD[9]
PD[8]
PD[7]
PD[6]
PD[5]
PD[4]
PD[3]
PD[2]
PD[1]
PD[0]
DMACK
DRD
NDACK
NDREQ
DD[15]
DD[14]
DD[13]
DD[12]
DD[11]
DD[10]
56
97
158
157
133
134
135
136
137
140
141
142
143
144
146
147
148
149
151
152
153
154
155
123
124
125
128
129
130
131
132
98
100
99
103
104
105
106
107
108
109
110
111
112
113
116
117
118
119
120
177
180
179
178
167
168
169
170
171
172
DRD
NDACK
NDREQ
DD15
DD14
DD13
DD12
DD11
DD10
1
VLC
3
8
24
PC16552DV
SIN1
SOUT1
DTR1
RTS1
MF1
INTR1
VDD
TXRDY2
RI2
DCD2
DSR2
IC230
39
38
37
36
35
34
33
32
31
30
29
RA207
MNR14EABJ103
VLC
[15:D3]
VLC
INT6
NRTS0
ECJ1VF1C104Z
C263
VLC
RX0
2
IC226D
SN74ALS04NS
8
12
9
3
11
3
12
NRTS1
TC74VHC14FEL
RX1
TX1
ERJ3GSYJ103V
VLC
ERJ3GSYJ102V
R222
ERJ3GSYJ101V
R212
C313
ECUV1H102KBV
6
2
P_RXD
P_CTS
P_TXD
4
*STXD
SRTS
*SRXD
DT205
DTC114EKA146
SRTS
I O
BL201
2
1
I O
BL202
2
[8:D1]
[8:A3]
[8:D1]
[8:D3]
SDPRN
[15:F3]
PCI_RESET
5
3.3V
ERJ3GS0R00V
[15:A6]
[15:B6]
[15:A6]
/SCPRN
/SCACC
ADP[0..31]
PCI_RESET
ADP1
ADP5
ADP3
ADP8
ADP7
ADP12
ADP10
C/BE1
ADP14
SERR#
LOCK#
PERR#
DEVSEL
IRDY#
ADP17
C/BE2
ADP21
ADP19
C/BE3
ADP23
ADP27
ADP25
ADP31
ADP29
REQ#
CLK
TX2
NCTS2
P_LED
KEY
VLC
152
153
154
155
156
157
158
159
160
161
162
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
101
102
103
104
105
106
107
108
109
110
111
112
113
GND
GND
GND
VL
VL
P_LED
KEY
DF1116DP2DSA
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
145154-4
AD08
AD07
+3.3V
AD05
AD03
GND
AD01
+5V
ACK64#
+5V
+5V
GND
CLK
GND
REQ#
+5V
AD31
AD29
GND
AD27
AD25
+3.3V
C/BE3#
AD23
GND
AD21
AD19
+3.3V
AD17
C/BE2
GND
IRDY#
+3.3V
DEVSEL#
GND
LOCK#
PERR#
+3.3V
SERR#
+3.3V
C/BE1
AD14
GND
AD12
AD10
GND
-12V
TCK
GND
TDO
+5V
+5V
INTB#
INTD#
PRSNT1#
REQ_B
PRSNT2#
GND
GND
CN201
C/BE0#
+3.3V
AD06
AD04
GND
AD02
AD00
+5V
REQ64#
+5V
+5V
+5V
CLK_B
GND
GND
GNT_B
RST#
+5V
GNT#
GND
IDSEL_B
AD30
+3.3V
AD28
AD26
GND
AD24
IDSEL
+3.3V
AD22
AD20
GND
AD18
AD16
+3.3V
FRAME#
GND
TRDY#
GND
STOP#
+3.3V
SDONE
SBO#
GND
PAR
AD15
+3.3V
AD13
AD11
GND
AD09
TRST#
+12V
TMS
TDI
+5V
INTA#
INTC#
+5V
PCI CONNECTOR
VL
VA
P_RTS
P_CTS
P_RXD
PNL_RST
P_TXD
GND
CN205
52
53
54
55
56
57
58
59
60
61
62
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
1
2
3
4
5
6
7
8
SP
ADP2
ADP0
ADP6
ADP4
C/BE0
ADP9
ADP13
ADP11
PAR
ADP15
STOP#
TRDY#
FRAME#
ADP18
ADP16
ADP22
ADP20
ADP24
ADP28
ADP26
ADP30
GNT#
RST#
INTA#
NRTS2
RX2
6
C348
ECEA1CKA101B
12V1
VLC
3.3V
C347
IDSEL#
C349
ECEA1CKA101B
C201
ECJ1VF1C104Z
C202
ECJ1VF1C104Z
R287
ERJ3GSYJ151V
C203
ECJ1VF1C104Z
ECEA1CKA101B
3.3V
C346
ECEA1CKA101B
B4PVH
1
2
3
4
CN204
Notise de securité
[15:D5]
[15:E5]
JP202
6
JP201
ERJ3GS0R00V
[15:B6]
DT210
DTC114EKA146
SDACC
5
HDD_FMON
R326
ERJ3GSYJ152V
VLC
PRT/SCAN COM(CH2)
C268
ECJ1VF1C104Z
SDPRN
/SCPRN
/SCACC
BLM21B201SPT
C285
ECUV1H101JCV
SCTS
DT206
DTC114EKA146
*STXD
SCTS
IC213F R252
VLC
ERJ3GSYJ103V
13
*SRXD
1
R251
VLC
ERJ3GSYJ103V
1
SDACC
R327
ERJ3GSYJ152V
VLC
BLM21B201SPT
C265
ECUV1H101JCV
SN74ALS04NSVLC
1
IC227A
R214
10
ERJ3GSYJ101V
SN74ALS04NS
5
IC226C
R213
4
ERJ3GSYJ101V
SN74ALS04NS
IC226B
IC214A
TC74VHC14FEL
2
SN74ALS04NS
C267
ECJ1VF1C104Z
IC227B
NCTS1
VLC
ERJ3GSYJ102V
R221
ERJ3GSYJ102V
R223
HDDFL
BT201
CR2330-1HH
3.0V
ERJ3GSYJ101V
R211
DT204
DTC114EKA146
C312
ECUV1H102KBV
SN74ALS04NS SN74ALS04NS
4
VLC
PNL_RST
TA205
XN4211TX
P_RTS
DT209
DTC114EKA146
D202
MA152KTX
R288
ERJ3GSYJ152V
Q206
2SA1037KT146
R306
ERJ3GSYJ472V
3.3V
PRINTER CONTROLLER COM(CH1)
11
IC213E
13
IC212F
PCI_RESET
SN74ALS04NS
IC226F
IC226E
R282
VLC
NRTS0 13
1
IC226A
C266
ECJ1VF1C104Z
NCTS0
TX0
VLC
TC74VHC14FEL
10
TC74VHC14FEL
TX2
NRTS2
NRST0
NCTS2 12
RX2
ERJ3GSYJ103V
R283
ERJ3GSYJ103V
RX0
TX0
ERJ3GSYJ103V
R249
4
3.3V
R250
ERJ3GSYJ102V ERJ3GSYJ103V
R220
SD[0..7]
PANEL COM(from PCI)
ERJ3GSYJ103V
R229
R230
[13:B1]
R280
ERJ3GSYJ103V
VLC
NWAIT
R279
ERJ3GSYJ152V
DD[0..15]
[16:E4]
[16:E1]
[12:F2]
[13:E3]
[15:D3]
NINT0(not used)
[16:E5]
[16:E2]
[12:F1]
[13:E2]
[15:D3]
[12:F1] [13:E2] [15:D3] [16:F1]
[12:F2] [13:E2] [15:D3] [16:F1]
SD0
SD1
SD2
SD3
SD4
SD5
SD6
SD7
30
6
32 NSOE
5 NSWE
21
22
23
25
26
27
28
29
[12:F2] [13:E2] [15:E3] [16:F1]
LB[0..15]
VCC
GND
CE1_
CE2
OE_
WE_
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQ8
UPD442000LBX
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
A16
A17
IC225
[12:F2] [13:B2] [16:D1]
20
19
18
17
16
15
14
13
3
2
31
1
12
4
11
7
10
9
BACK-UP SRAM
SA0
SA1
SA2
SA3
SA4
SA5
SA6
SA7
SA8
SA9
SA10
SA11
SA12
SA13
SA14
SA15
SA16
SA17
[12:F2] [13:E2] [15:D3] [16:F1]
DD[0..15]
NINT1
NINT2
NINT3
NINT4
NINT5
NCS1
NCS2
NCS3
NCS4
NCS5
NLRD
NLWR
I/D
LB[0..15]
NRST0
LSNCSL
SA[0..17]
LSNCSL
3
NRTS1
NPN
1-13. Beta2 Block
2
4
6
8
1
3
5
7
6
LB4
5
LB3
4
LB2
3
LB1
2
LB0
1
44
43
42
41
40 NCTS0
D4
D3
D2
D1
D0
TXRDY1
VDD
RI1
DCD1
DSR1
CTS1
CS
MF2
WR
MR
VSS
RTS2
RD
SIN2
SOUT2
DTR2
CTS2
RX1
TX1
18
19
20
21
22
23
24
25
26
27
28
NCTS1
6
5
4
1
2
3
A
B
C
D
E
F
ECEA1CKA100B
C335
VLC
MNR14EABJ104
A
B
ZD201
MA3062HTX
MA152KTX
R313
ERJ3GSYJ102V
D204
R312
ERJ3GSYJ102V
MA152KTX
D203
12V1
C270
ECJ1VF1C104Z
1
3
5
7
R325
R285
ERJ3GSYJ104V
BKA[0..11]
ERJ3GSYJ104V
WE
CAS
RAS0
RAS1
RAS2
RAS3
MNR14EABJ104
RA215
2
4
6
8
1
3
5
7
MNR14EABJ104
BKA8
BKA9
BKA10
BKA11
MNR14EABJ104
RA214
2
4
6
8
BKA0
BKA1
BKA2
BKA3
BKA4
BKA5
BKA6
BKA7
2
4
6
8
1
3
5
7
RA212
MNR14EABJ104
RA213
2
4
6
8
1
3
5
7
VDD5
VDD5*
VDD5
VDD5
VDD5*
VDD5
VDD5*
VDD5
VDD5*
VDD*
VDD
VDD
VDD*
VDD
VDD
VDD
VDD*
VDD
VDD
VDD*
VDD
VSS*
VSS*
VSS*
VSS*
VSS*
VSS*
VSS*
VSS*
VSS*
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
TMODE
SMODE
TDO
TRST
CSAO
CSAI
WRAO
*PRCRST
PRVDACK
PRVDREQ
1
2ML2430
BT202
MA152KTX
D206
ERJ3GSYJ273V
R314
C350
ECJ1VF1C104Z
D207
1SR139400T32
ERJ12YJ100H
R315
9
[12:E3]
[12:E3]
[12:E3]
[12:E3]
12
10
8
VWDATA
*BRVEN
*BRLEN
BRDATA
3.3V
ERJ3GSYJ103V
R256
from ALPHA
TC74VHC14FT2
13
TC74VHC14FT2
IC235F
11
TC74VHC14FT2
IC235E
IC235D
2
1
ON/OFF
VI
IC248
PQ3TZ53
IC235C
JP204
5
NRSTG
LB10
LB11
LB12
LB13
LB14
LB15
*RD
*WR
I/D
*CS
*WAIT
*INT
*RESET
XTAL1
XTAL2
SICLKI
SICLKO
ID0
ID1
ID2
ID3
ID4
ID5
ID6
ID7
ID8
ID9
ID10
ID11
ID12
ID13
ID14
ID15
TEST2
IDREQ
*IDACK
REFPLS
LMD0
LMD1
LMD2
LMD3
LMD4
LMD5
LMD6
LMD7
LMDREQ
*LMDACK
SYSCLK
VWDD0
VWDD1
VWDD2
VWDD3
IC232
ERJ3GS0R00V
4
2
1
IC235A
3
LB[0..15]
TC74VHC14FT2
IC235B
TC74VHC14FT2
[12:F2] [13:E2] [14:D3] [16:F1]
[12:F2] [13:E2] [14:D3] [16:F1]
I/D
[12:F1] [13:E2] [14:D3] [16:F1]
VWA[0..11]]
R284
RAS0_1
CAS_1
WE1
BKA0
BKA1
BKA2
BKA3
BKA4
BKA5
BKA6
BKA7
BKA8
BKA9
BKA10
BKA11
[14:B5]
VWA0
VWA1
VWA2
VWA3
VWA4
VWA5
VWA6
VWA7
VWA8
VWA9
VWA10
VWA11
ERJ3GSYJ103V
PCI_RESET
BKA[0..11]
NLWR
NLRD
[12:F2] [13:E2] [14:B2] [16:F1]
LB[0..15]
VLC
ERJ3GSYJ103V
R262
C309
ECUV1H101JCV
R310
ERJ3GSYJ103V
DT208
DTC114EKA146
TC74VHC14FT2
ERJ3GS0R00V
JP205
6
POWER:MEM3.3V
ERJ3GSYJ103V
R320
ERJ3GSYJ103V
R257
BUSEL
3
IC245
VCC
VCC
VCC
GND
GND
GND
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
DQ16
M5M4V18165S
WE_
OE_
RAS_
UCAS_
LCAS_
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
21
22
23
24
27
28
29
30
31
32
20
19
IC231
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
2
TC74VHC14FT2
3
C310 TC74VHC14FT2
ECUV1H101JCV
4
5
1
6
25
26
45
50
2
3
4
5
7
8
9
10
41
42
43
44
46
47
48
49
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
DQ16
WE1
VWD[15..0]
ECJ1VF1C104Z
PRNCD[0..15]
BKA[0..11]
3.3V
4
64M_DET
IC227C
9
7
5
3
20
10
PRNCD4
PRNCD5
PRNCD6
PRNCD7
VLC
20
10
9
7
5
3
PRNCD12
PRNCD13
PRNCD14
PRNCD15
VLC
18
16
14
12
PRNCD8
PRNCD9
PRNCD10
PRNCD11
C279
ECJ1VF1C104Z
9
*EPACNT
BTCNT_1
*ACDWN 10
13
TC74VHC14FEL
R260
1
19
11
13
15
17
2
4
6
8
R261
1
19
11
13
15
17
VLC
RA203
MNR14EABJ103
ERJ3GSYJ103V
1G
2G
2A1
2A2
2A3
2A4
2
4
6
8
ERJ3GSYJ103V
1A1
1A2
1A3
1A4
SN74ALS244NS
VCC
GND
2Y1
2Y2
2Y3
2Y4
1Y1
1Y2
1Y3
1Y4
IC234
1G
2G
2A1
2A2
2A3
2A4
1A1
1A2
1A3
1A4
I O
BL203
2
13
I O
BL204
VLC
5
[14:E5]
2
RA204
MNR14EABJ103
PID15
PID14
PID13
PID12
PID11
PID10
PID9
PID8
PID7
PID6
PID5
PID4
PID3
PID2
PID1
PID0
RA202
MNR14EABJ103
/IDSTB
/IDRDY
[14:C5]
[14:C5]
[14:C5]
[14:C5]
PR_RESET/
SDPRN
/SCPRN
SDACC
/SCACC
FX2M6B60PDSL
/IRDY
/IDSTB
GND
ID0
ID1
ID2
ID3
GND
ID4
ID5
ID6
ID7
GND
ID8
ID9
ID10
ID11
GND
ID12
ID13
ID14
ID15
GND
SDACC
/SCACC
GND
SDPRN
/SCPRN
GND
/RESET
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
CN203
6
6
Matsushita Graphic Communication
Systems,Inc.
SDPRN
/SCPRN
SDACC
/SCACC
PID12
PID13
PID14
PID15
PID8
PID9
PID10
PID11
PID4
PID5
PID6
PID7
PID0
PID1
PID2
PID3
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
[12:D6]
/IDRDY
/IDSTB
BUFGATE
[11:D1]
BUFGATE
TC74VHC14FEL
6
BTCNT
[11:D1]
[4:B2]
[11:E3]
[11:D1]
ZCSP
KCS
ACDWN
EPACNT
ACDWN
ZCSP
KCS
IC214C
PR_RESET/
BLM21B201SPT
C308
ECUV1H101JCV
1
SN74ALS04NS
IC227F
RA201
MNR14EABJ103
12
1
5
[14:E5]
P_LED
KEY
BLM21B201SPT
C316
ECUV1H471JCV
R301
10
ERJ3GSYJ330V
SN74ALS04NS
SN74ALS244NS
VCC
GND
2Y1
2Y2
2Y3
2Y4
1Y1
1Y2
1Y3
1Y4
P_LED
KEY
R305
ERJ3GSYJ331V
VLC
BTCNT
TA206
XN4211TX
EPACNT
VLC
ERJ3GSYJ103V
R253
TC74VHC14FEL
11
IC214E
VLC
ERJ3GSYJ152V
R289
VLC
ERJ3GSYJ103V
R254
Notise de securité
PRINTER CONTROLLER
IC227E
PRVDACK
IC233
VLC
R225
ERJ3GSYJ102V
IC214F
R215
8
ERJ3GSYJ101V
SN74ALS04NS
11
IC214B
4
3
ERJ3GSYJ101V
TC74VHC14FEL
R216
LED
DT207
DTC114EKA146
IC227D
12
PRVDREQ
6
EPAKEY
18
16
14
12
ECJ1VF1C104Z
KCS_1
RESET MONITOR
PRNCD0
PRNCD1
PRNCD2
PRNCD3
C278
SN74ALS04NS
*PRCRST 5
ECJ1VF1C104Z
C334
C283C284
ECEA1CKA100B
BKD[0..15]
3.3V
VWD0
VWD1
VWD2
VWD3
VWD4
VWD5
VWD6
VWD7
VWD8
VWD9
VWD10
VWD11
VWD12
VWD13
VWD14
VWD15
ECJ1VF1C104Z
C345
ECEA1CKA100B
R259 ERJ3GSYJ103V
RAS1_1
CAS_1
BKA8
BKA9
RAS3_1
RAS2_1
BKD15
BKA0
BKA1
BKA2
BKA3
BKA4
BKA5
BKA6
BKA10
BKA11
BKD8
BKD9
BKD10
BKD11
BKD12
BKD13
BKD14
BKA7
BKD0
BKD1
BKD2
BKD3
BKD4
BKD5
BKD6
BKD7
BACK-UP DRAM
1
6
25
26
45
50
2
3
4
5
7
8
9
10
41
42
43
44
46
47
48
49
BKD[0..15]
ECJ1VF1C104Z
C305C306
MEM3.3V
BKD0
BKD1
BKD2
BKD3
BKD4
BKD5
BKD6
BKD7
BKD8
BKD9
BKD10
BKD11
BKD12
BKD13
BKD14
BKD15
VIEWER MEMORY
17
33
18
34
35
21
22
23
24
27
28
29
30
31
32
20
19
LB10
66
VLC
67
LB11
LB12
69
R231
LB13
70
LB14
71
ERJ3GSYJ103V
*VWDWE
LB15
72
17
WE_
73 NLRD
33
NINT5
OE_
[14:D3]
*VWDRAS
74 NLWR
18
RAS_
R286
*VWDCAS
76 I/D
34
UCAS_
ERJ3GSYJ105V
77 NCS5
ECUV1H220JCV
35
NCS5 [14:D3]
LCAS_
78 NWAIT
NWAIT
VCC
[14:D3]
79 NINT5
C314
VCC
R258
80 NRSTG
VCC
XTAL1
83
ERJ3GSYJ103V
GND
R321
84 XTAL2
GND
ECUV1H220JCV
86
ERJ3GSYJ101V
GND
C315
88 BCLK
BCLK
[14:B2]
90
XL202
M5M4V18165S
ID0
91
HU49US18.4MT
ID1
92
VLC
ID2
93
ID3
R232
94
MEM3.3V
ID4
95
ID5
CN207
ERJ3GSYJ103V
99
1
ID6
GND
100 ID7
2
1/00
101 ID8
3
1/01
102 ID9
4
1/02
103 ID10
5
1/03
104 ID11
6
1/04
106 ID12
7
1/05
107 ID13
8
1/06
108 ID14
9
1/07
109 ID15
10
VCC
98
TEST2(open)
ID[0..15]
3.3V
11
ID[0..15]
PD1
[16:C1]
110IDREQ
12
IDREQ
A0
111*IDACK
13
[16:E1]
*IDACK
A1
R263
113REFCLK
14
[16:D1]
REFCLK
A2
115 DMI0
15
[13:B3]
ERJ3GSYJ103V
A3
116 DMI1
16
A4
JP208
117 DMI2
17
A5
118 DMI3
18
ERJ3GS0R00V
A6
120 DMI4
19
A10
121 DMI5
20
NC
122 DMI6
21
1/08
123 DMI7
22
1/09
124DM1REQ
23
DM1REQ
1/010
[13:B3]
125DM1ACK
DMI[0..7]
24
DM1ACK
DMI[0..7]
1/011
[13:B3]
[13:B3]
128SYSCLK_3D
25
SYSCLK_3D
1/012
[14:B2] [16:D1]
131 VWD0
26
1/013
132 VWD1
27
1/014
133 VWD2
28
A7
134 VWD3
29
NC
30
VCC
31
A8
32
A9
33
NC
34
/RAS2
TC203G567006
35
IC228C
1/015
36
NC
5
6
37
1/016
38
1/017
39
TC74VHC14FT2
GND
40
IC228D
/CAS0
41
/CAS2
VWD[0..15]
9
8
42
/CAS3
43
/CAS1
3.3V
VWA[0..11]
MEM3.3V
44
TC74VHC14FT2
RAS0
45
NC
R255
JP203
46
NC
47
ERJ3GSYJ103V ERJ3GS0R00V
/WE
R323
48
NC
ERJ3GSYJ103V
49
1/018
50
1/019
ERJ3GSYJ220V
51
IC237
1/020
R295
2
4
52
RAS2_1
1A
1Y
1/021
3
RAS2
53
IC236
1B
1/022
RA217
2
4
R_RAS
WE1
5
7
54
1A
1Y
2A
2Y
1/023
3
1
2
RAS0
RAS0_1
WE
6
55
R324 ERJ3GSYJ220V
1B
2B
NC
5
3
4
7
RAS1_1
11
9
56
2A
2Y
3A
3Y
1/024
5
6
RAS1
RAS3_1
6
10
57
2B
3B
1/025
D205
11
9
7
8
CAS_1
14
12
58
3A
3Y
4A
4Y
1/026
10
RAS3
13
MEM3.3V
59
3B
4B
1/028
MNR14EABJ220
R_CAS
14
12
16
60
4A
4Y
VCC
1/027
CAS
MEM3.3V
13
1
8
61
MA152KTX
4B
A/B
GND
VCC
16
15
62
VCC
G
1/029
C282
1
8
MEM3.3V
63
A/B GND
1/030
ECJ1VF1C104Z
15
TC74LCX157FT2
64
G
1/031
65
DET
C280
TC74LCX157FT2
66
PD2
ECJ1VF1C104Z
C281
POWER:MEM3.3V
67
PD3
ECJ1VF1C104Z
POWER:MEM3.3V R309
68
PD4
69
IC228A
IC228B
PD5
ERJ3EKF1002V
70
PD6
R_RAS
1
2
3
4
71
PD7
MEM3.3V
72
GND
TC74VHC14FT2
TC74VHC14FT2
C311
3.3V
179759-1
JP235
ECUV1H101JCV
3
MEM3.3V
VO
POWER:MEM3.3V
ERJ3GS0R00V
POWER:MEM3.3V
4
R311
NC
IC228F
IC228E
C351
ERJ3EKF4991V
ECJ1VF1C104Z
BUSEL
R_CAS
13
12
11
10
MEMORY BACKUP POWER SOURCE
C269
ECJ1VF1C104Z
BKD[0..15]
PRNCD[0..15]
BKD12
BKD13
BKD14
BKD15
MNR14EABJ104
RA211
2
4
6
8
BKD4
BKD5
BKD6
BKD7
1
3
5
7
2
4
6
8
1
3
5
7
RA209
MNR14EABJ104
RA210
2 BKD8
4 BKD9
6 BKD10
8 BKD11
1
3
5
7
1
3
5
7
33
43
53
75
97
130
ECJ1VF1C104Z
C271
147
192
C336
201
3.3V
ECEA1CKA100B
10
C272
27
ECJ1VF1C104Z
49
ECJ1VF1C104Z
C273
61
D
81
ECJ1VF1C104Z
C274
105
112
ECJ1VF1C104Z
C275
114
126
ECJ1VF1C104Z
C276
157
165
ECJ1VF1C104Z
C277
178
142
119
200
164
21
15
38
60
96
5
152
135
129
127
44
68
82
85
3.3V
87
89
185
C
170
R233
208
207
ERJ3GSYJ103V
206
205
CSAO
204
CSAO
NCS3
203
NCS3
WRAO
202
WRAO
*PRCRST 199
PRVDACK 198
E
F
RA208
MNR14EABJ104
2 BKD0
4 BKD1
6 BKD2
8 BKD3
1-14. Gamma Block
2
BKD0
BKD1
BKD2
BKD3
BKD4
BKD5
BKD6
BKD7
BKD8
BKD9
BKD10
BKD11
BKD12
BKD13
BKD14
BKD15
BKA0
BKA1
BKA2
BKA3
BKA4
BKA5
BKA6
BKA7
BKA8
BKA9
BKA10
BKA11
64M_DET
WE
RAS0
RAS1
RAS2
RAS3
CAS
BRDATA
*BRLEN
*BRVEN
VWDATA
CKMODE
TEST0
GND
NPN
1
LB0
LB1
LB2
LB3
LB4
LB5
LB6
LB7
LB8
LB9
1
2
3
4
6
7
8
9
11
12
13
14
16
17
18
19
20
22
23
24
25
26
28
29
30
31
32
34
35
36
37
39
40
41
42
45
46
47
48
50
51
52
54
55
56
57
58
59
62
63
64
65
5
2
4
6
8
1
3
5
7
2
4
6
8
1
3
5
7
BUDD0
BUDD1
BUDD2
BUDD3
BUDD4
BUDD5
BUDD6
BUDD7
BUDD8
BUDD9
BUDD10
BUDD11
BUDD12
BUDD13
BUDD14
BUDD15
BUDA0
BUDA1
BUDA2
BUDA3
BUDA4
BUDA5
BUDA6
BUDA7
BUDA8
BUDA9
BUDA10
BUDA11
B64EN
*BUDWE
*BUDRAS0
*BUDRAS1
*BUDRAS2
*BUDRAS3
*BUDCAS
BRDATA
*BRLEN
*BRVEN
VWDATA
CKMODE
TEST0
TEST1
LB0
LB1
LB2
LB3
LB4
LB5
LB6
LB7
LB8
LB9
PRVDREQ
PRVD15
PRVD14
PRVD13
PRVD12
PRVD11
PRVD10
PRVD9
PRVD8
PRVD7
PRVD6
PRVD5
PRVD4
PRDV3
PRVD2
PRVD1
PRVD0
LED
EPAKEY
*EPACNT
*ACDWN
BTCNT
KCS
ZCR
DM4KEN
*VWDCAS
*VWDRAS
*VWDWE
VWDA11
VWDA10
VWDA9
VWDA8
VWDA7
VWDA6
VWDA5
VWDA4
VWDA3
VWDA2
VWDA1
VWDA0
VWDD15
VWDD14
VWDD13
VWDD12
VWDD11
VWDD10
VWDD9
VWDD8
VWDD7
VWDD6
VWDD5
VWDD4
197
PRNCD15 196
PRNCD14 195
PRNCD13 194
PRNCD12 193
PRNCD11 191
PRNCD10 190
PRNCD9 189
PRNCD8 188
PRNCD7 187
PRNCD6 186
PRNCD5 184
PRNCD4 183
PRNCD3 182
PRNCD2 181
PRNCD1 180
PRNCD0 179
LED
177
EPAKEY
176
*EPACNT 175
*ACDWN 174
BTCNT_1 173
KCS_1
172
ZCSP
171
DM4KEN 169
*VWDCAS 168
*VWDRAS 167
*VWDWE 166
VWA11 163
VWA10 162
VWA9 161
VWA8 160
VWA7 159
VWA6 158
VWA5 156
VWA4 155
VWA3 154
VWA2 153
VWA1 151
VWA0 150
VWD15149
VWD14148
VWD13146
VWD12145
VWD11144
VWD10143
VWD9 141
VWD8 140
VWD7 139
VWD6 138
VWD5 137
VWD4 136
6
5
4
1
2
3
2
4
6
8
1
3
5
7
2
4
6
8
1
3
5
7
A
B
C
D
E
F
ID[0..15]
1
ID[0..15]
VLC
ID5
ID4
ID3
ID2
ID1
ID0
ID7
ID6
ID11
ID10
ID9
ID8
ID15
ID14
ID13
ID12
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
VLC
C247
cRA12
cRA13
cRA14
LB2
LB3
LB0
LB1
LB6
LB7
LB4
LB5
LB12
LB13
LB8
LB9
VLC
cRAMOE#
cRAMWE#
cRE0#
2
C328
LB10
LB11
ECEA1CKA100B
cRD4
cRD5
cRD6
cRD7
C246
ECJ1VF1C104Z
HM621664HBL15 C245
ECJ1VF1C104Z
11
33
12
34
22
23
28
cRA0
cRA1
cRA2
cRA3
cRD0
cRD1
cRD2
cRD3
cRD4
cRD5
cRD6
cRD7
cRD8
cRD9
cRD10
cRD11
cRD12
cRD13
cRD14
cRD15
[ 14 : C2 ]
[ 13 : C1 ]
QD[0..15]
R273
3
Notise de securité
cRD[15..0]
C207
ECJ1VF1C104Z
cRD[7..0]
cRD8
cRD[15..8]
PD[0..15]
ERJ3GSYJ103V
ERJ3GSYJ103V
SYSCLK_3C
ERJ3GSYJ103V
R272
NQDACK
[ 13 : B1 ]
ERJ3GSYJ103V
R270
NQBACK
[ 13 : B1 ]
R276
VLC
[ 13 : B3 ] [ 14 : B2 ]
ERJ3GSYJ103V
R269
[ 14 : D3 ]
NINT1
[ 14 : C2 ]
[ 14 : C2 ]
[ 13 : B1 ]
QDREQ
[ 14 : C2 ]
C208
ECJ1VF1C104Z
PD[0..15]
VLC
PDREQ
NPDACK
NBACK
C209
ECJ1VF1C104Z
R271
ERJ3GSYJ103V
VLC
4
QD[0..15]
VLC
mRE0#
mRAMOE#
mRAMWE#
5
4
3
2
1
44
43
42
27
26
25
24
21
20
19
18
6
41
17
40
39
NC
NC
VDD
DONE
/INT
NC
/IBACK
IDREQ
/IDACK
GND
GND
IFRDY
/ISTRB
/IN OVR
/RESET
CLOCK
TESTI
ID15
ID14
ID13
ID12
GND
ID11
ID10
ID9
ID8
VDD
ID7
ID6
GND
GND
ID5
ID4
ID3
ID2
ID1
ID0
VDD
NC
NC
mRA0
mRA1
mRA2
mRA3
mRA4
mRA5
mRA6
mRA7
mRA8
mRA9
mRA10
mRA11
mRA12
mRA13
mRA14
mRA[14..0]
C330
ECEA1CKA100B
121
122
123
124
NINT1 125
126
NQBACK 127
QDREQ 128
NQDACK 129
130
131
132
133
134
NRST0
135
SYSCLK_3C 136
137
QD15
138
QD14
139
QD13
140
QD12
141
142
QD11
143
QD10
144
QD9
145
QD8
146
147
QD7
148
QD6
149
150
151
QD5
152
QD4
153
QD3
154
QD2
155
QD1
156
QD0
157
158
159
160
NCS1
LB4
LB5
LB0
LB1
VCC
VCC
GND
GND
NC
NC
NC
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
DQ16
11
33
12
34
22
23
28
7
8
9
10
13
14
15
16
29
30
31
32
35
36
37
38
mRD0
mRD1
mRD2
mRD3
mRD4
mRD5
mRD6
mRD7
mRD8
mRD9
mRD10
mRD11
mRD12
mRD13
mRD14
mRD15
C244
HM621664HBL15 C243 ECJ1VF1C104Z
ECJ1VF1C104Z
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
CS
OE
WE
UB
LB
IC222
mRA12
mRA13
mRA14
VCC
VCC
GND
GND
NC
NC
NC
7
8
9
10
13
14
15
16
29
30
31
32
35
36
37
38
cRA4
cRA5
cRA6
cRA7
cRA8
cRA9
cRA10
cRA11
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
DQ16
VLC
cRD11
cRD10
cRD9
cRD14
cRD13
cRD12
PD2
PD1
PD0
cRD15
PD4
PD3
PD8
PD7
PD6
PD5
PD10
PD9
PD13
PD12
PD11
PD15
PD14
PDREQ
NPDACK
NBACK
R277
ERJ3GSYJ103V
NCS1
LB2
LB3
mRA4
mRA5
mRA6
mRA7
mRA8
mRA9
mRA10
mRA11
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
CS
OE
WE
UB
LB
IC223
80
79
78
77
76
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
PM-2MC/40
NC
/OBACK
LSYNC
ODREQ
/ODACK
/OSTRB
OFRDY
GND
OD15
OD14
GND
OD13
OD12
OD11
VDD
OD10
OD09
GND
OD08
OD07
OD06
OD05
GND
OD04
OD03
VDD
OD02
OD01
OD00
ALD7
GND
ALD6
ALD5
ALD4
VDD
ALD3
ALD2
ALD1
NC
NC
IC221
ECJ1VF1C104Z
C248
ECJ1VF1C104Z
5
5
C327
VLC
mRAMOE#
mRAMWE#
mRE0#
cRE0#
cRAMOE#
cRAMWE#
5
4
3
2
1
44
43
42
27
26
25
24
21
20
19
18
6
41
17
40
39
NC
NC
VDD
DONE
/INT
NC
/IBACK
IDREQ
/IDACK
GND
GND
IFRDY
/ISTRB
/IN OVR
/RESET
CLOCK
TESTI
ID15
ID14
ID13
ID12
GND
ID11
ID10
ID9
ID8
VDD
ID7
ID6
GND
GND
ID5
ID4
ID3
ID2
ID1
ID0
VDD
NC
NC
NCS2
NCS2
LB[0..15]
LB6
LB7
mRA0
mRA1
mRA2
mRA3
cRA0
cRA1
cRA2
cRA3
cRA4
cRA5
cRA6
cRA7
cRA8
cRA9
cRA10
cRA11
cRA12
cRA13
cRA14
RA[14..0]
NRST0
SYSCLK_3D
IDREQ
*IDACK
NINT2
[ 14 : D3 ]
NLRD
NLWR
I/D
C206
ECJ1VF1C104Z
C329
ECEA1CKA100B
LB[0..15]
NLRD
NLWR
I/D
4
LB12
LB13
LB10
LB11
ECEA1CKA100B
mRD4
mRD5
mRD6
mRD7
A
[ 15 : C3 ]
R266
*IDACK
[ 15 : C3 ]
ERJ3GSYJ103V
ERJ3GSYJ103V
R265
NINT2
R278 ERJ3GSYJ103V
[ 12 : F2 ] [ 13 : B2 ] [ 14 : E3 ]
NRST0
SYSCLK_3D
[ 14 : B2 ] [ 15 : C3 ]
R267
VLC
ERJ3GSYJ103V
[ 15 : C3 ]
IDREQ
[ 14 : D3 ]
R268
ERJ3GSYJ103V
VLC
[ 12 : F2 ] [ 13 : E2 ] [ 14 : E3 ] [ 15 : E3 ]
[ 12 : F1 ] [ 13 : E2 ] [ 14 : D3 ] [ 15 : D3 ]
PM2(CODEC)
3
VLC
VLC
80
79
78
77
76
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
1
15
2
3
5
6
11
10
14
13
mRD11
mRD10
mRD9
mRD14
mRD13
mRD12
OD2
OD1
OD0
mRD15
OD4
OD3
OD8
OD7
OD6
OD5
OD10
OD9
OD13I
OD12
OD11
OD15I
OD14I
ODREQ
NODACK
NOBACK
VCC
GND
4Y
3Y
2Y
1Y
T74ACT157FEL
A/B
G
1A
1B
2A
2B
3A
3B
4A
4B
IC249
ECJ1VF1C104Z
C242
mRD[8..0]
PM-2M/40
NC
/OBACK
LSYNC
ODREQ
/ODACK
/OSTRB
OFRDY
GND
OD15
OD14
GND
OD13
OD12
OD11
VDD
OD10
OD09
GND
OD08
OD07
OD06
OD05
GND
OD04
OD03
VDD
OD02
OD01
OD00
ALD7
GND
ALD6
ALD5
ALD4
VDD
ALD3
ALD2
ALD1
NC
NC
IC220
ECJ1VF1C104Z
C250
C249
ECJ1VF1C104Z
PM2MSEL
OD13I
OD14I
OD15I
mRD[15..0]
mRD0
mRD1
mRD2
mRD3
B
C
D
E
F
1-15. PM2 Block
2
LB8
LB9
1
LB14
LB15
120
119
118
117
116
115
114
113
112
111
110
109
108
107
106
105
104
103
102
101
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
NC
NC
GND
GND
/CS
I/D
/WR
/RD
CD00
CD01
GND
GND
CD02
CD03
VDD
CD04
CD05
GND
CD06
CD07
VDD
CD08
CD09
GND
CD10
CD11
VDD
CD12
CD13
GND
GND
CD14
CD15
/VIDEO
/BD
VCLK
VSYNC
VDD
AFRDY
/ASTRB
NC
NC
RA14
RA13
RA12
GND
RA11
RA10
RA09
RA08
RA07
RA06
RA05
RA04
GND
RA03
RA02
RA01
RA00
VDD
/RE1
/RE0
/RAMWR
/RAMOE
GND
GND
RD7
RD6
RD5
RD4
VDD
VDD
RD3
RD2
RD1
RD0
GND
ALD0
NC
NC
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
LB14
LB15
120
119
118
117
116
115
114
113
112
111
110
109
108
107
106
105
104
103
102
101
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
NC
NC
GND
GND
/CS
I/D
/WR
/RD
CD00
CD01
GND
GND
CD02
CD03
VDD
CD04
CD05
GND
CD06
CD07
VDD
CD08
CD09
GND
CD10
CD11
VDD
CD12
CD13
GND
GND
CD14
CD15
/VIDEO
/BD
VCLK
VSYNC
VDD
AFRDY
/ASTRB
NC
NC
RA14
RA13
RA12
GND
RA11
RA10
RA09
RA08
RA07
RA06
RA05
RA04
GND
RA03
RA02
RA01
RA00
VDD
/RE1
/RE0
/RAMWR
/RAMOE
GND
GND
RD7
RD6
RD5
RD4
VDD
VDD
RD3
RD2
RD1
RD0
GND
ALD0
NC
NC
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
mRD8
cRD0
cRD1
cRD2
cRD3
16
8
12
9
7
4
OD13
OD14
OD15
mRD[15..9]
6
C353
ECJ1VF1C104Z
VLC
NOBACK
ODREQ
NODACK
OD[0..15]
[ 13 : E1 ]
C210
ECJ1VF1C104Z
OD[0..15]
VLC
ERJ3GSYJ103V
R274 ERJ3GSYJ103V
R275
6
[ 13 : C1 ]
[ 13 : C1 ]
[ 13 : C1 ]
A
B
C
D
E
F
A
B
C
D
DF1112DP2PSA
1
2
3
4
5
6
7
8
9
10
11
12
CN401
DF34P2DSA
1
2
3
4
CTS
TxD
RxD
12V
1
104 25V
1
RTS
10
R418
102
104
0
TXD1
RXD1
(BL402)
(BL401)
R472
R471
0
C429
100u 16V
VL
74LS14
4
10
R417
IC403B
10
R403
3
10
R402
1
2
3
104
2
NPN
XN4211
TA405
Q404
2SC2412
Q403
2SA1037
Q402
2SC2412
Q401
2SA1037
C444
VL
RA415
10k*4
RA414
10k*4
RA411
10k*4
C443
C428
SRST
3
SNF103
NF401
R451
100
C427
47u 35V
DTC114E
VL
DRVK3
DRVK2
DRVK1
DRVK0
MTRKEY6
MTRKEY7
RA403
10k*4
MTRKEY15
MTRKEY14
MTRKEY13
MTRKEY12
MTRKEY11
MTRKEY10
MTRKEY9
MTRKEY8
MTRKEY0
MTRKEY1
MTRKEY2
MTRKEY3
MTRKEY4
MTRKEY5
DT404
VL
X1
Y2
X2
Y1
R450
1k
C426
CN410
5597-04CPB
1
2
3
4
CN402
DF1110DP2DSA
1
2
3
4
5
6
7
8
9
10
CN408
DF1114DP2DSA
1
2
3
4
5
6
7
8
9
10
11
12
13
14
CN407
DF1116DP2DSA
DRV0
DRV1
DRV2
DRV3
MTRLD0
MTRLD1
MTRLD2
MTRLD3
(C4)
DT0
DT1
(C4)
DRVK0
DRVK1
DRVK2
DRVK3
2
4
6
8
1
3
5
7
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
2
4
6
8
1
3
5
7
CN406
2
4
6
8
1
3
5
7
1
6
5
4
1
3
5
7
DRV3
DRV2
DRV1
DRV0
4.7k*4
RA404
1
2
3
1
2
3
1k
R404
2
4
6
8
100
R428
100k
R409
100
R419
1k
1k*4
2
4
6
8
MA152KTX
D441
*
C436
102
R421
0
MA152KTX
MA152KTX
D440
3
SELD3
SELD2
SELD1
SELD0
MA152KTX
6
5
4
6
5
4
D405
D404
PNP
IMB10A
TA403
PNP
IMB10A
TA402
RA405
R405
VL
1
3
5
7
MTRKEY[0..15]
DRVK[0..3]
MTRLD[0..3]
3
SNF103
NF402
2
VL
2
4
6
8
1
3
5
7
3
2
4
6
8
C413
104
-
+
IC403E
102
7
IC406B
2
3
1
11
-
+
74HC14
IC403A
104
2
10
1
MTRLD3
MTRLD2
MTRLD1
MTRLD0
VL
6
DA401
MA125TX
IC406A
XRA10358
C424
74HC14
XRA10358
R420
0
C425
6
5
*
100k
R427
RA413
10k*4
SELK0
SELK1
SELK2
SELK3
SELD[0..3]
8
4
2
1
2
3
1
2
3
4
7
5
3
1
VL
4
6
5
4
6
5
4
8
6
4
2
3
SELK[0..3]
100*4
RA412
NPN
XN4211
TA404
NPN
XN4211
TA401
1
2
1
3
5
7
0
0
5
4
2.Control Panel CPU Circuit
2
*
R449
1k
*
C402
102
R448
1k
C433
10u 16V
C401
102
VL
MTRLED3
MTRLED2
MTRLED1
MTRLED0
*
*
*
C423
102
DT0
DT1
CA[0..3]
RXD1
TXD1
SRST
MTRKEY[0..15]
SELK[0..3]
RXD
TXD
RPTXRDY
CPTXRDY
X1CNT
X2CNT
Y1CNT
Y2CNT
XOFF
YOFF
TPY
TPX
DT0
DT1
SELD[0..3]
MTRLED[0..3]
CA[0..3]
CPU.SCH
CPU
GND
TP401
2-1
BLCNT
LCDAC
LP
VEECNT
MPUCLK
LCDCLK
WAIT
RST
ADJ[0..5]
*WR
*RD
*IOCS
*MCS
CSVRAM
D[0..7]
A[0..14]
BLCNT
LP
VEECNT
MPUCLK
LCDCLK
WAIT
RST
ADJ[0..5]
*WR
*RD
*IOCS
*MCS
CSVRAM
D[0..7]
A[0..14]
VEECNT
MPUCLK
LCDCLK
WAIT
RST
ADJ[0..5]
*WR
*RD
*IOCS
*MCS
CSVRAM
D[0..7]
A[0..14]
LCDCNT.SCH
LCD
Components (*wark) are not mounted.
6
5
6
Notise de securité
LCDE
VL
GND
VL
0
0
INVERTER.SCH
GND
VL
*BLCNT
INVERTER
R414
R413
*
7
7
Matsushita Electric CO., LTD.
Office Eqipment Division
VLCD
VEE
UD[0..3]
*BLCNT
DT402
DTC114E
LCDE
FLM
LP
CP
LCDAC
2-3
VLCD
VEE
UD[0..3]
RXD1
TXD1
SRST
RXD
TXD
RPTXRDY
CPTXRDY
X1CNT
X2CNT
Y1CNT
Y2CNT
C430
102
XOFF
YOFF
TPY
TPX
C435
10u 16V
VL
MTRLED[0..3]
C434
10u 16V
5
2
4
6
8
1
3
5
7
1
/CDI
/RCP
/RDD
/CLS
RA440
10k*4
INV1
INV2
CA0
CA1
INV1
CP
LP
FLM
UD3
UD2
UD1
UD0
LCDAC
VL
1
2
3
4
5
6
CN405
1
2
3
4
5
6
7
8
9
10
11
12
CN403
8
A:\CPCPU\CPCPU2.PRJ
DF36P2DSA
B2P3VH
1
2
CN404
52045-1245
Time: 13:37:56
CA2
CA3
INV2
1A
VL
8
A
B
C
D
A
B
C
LCDCLK
SRST
1
CA[0..3]
RPTXRDY
SRST
CA[0..3]
RPTXRDY
BLCNT
VEECNT
VL
R411
10k
RST
29
28
27
26
25
16
15
14
13
12
11
10
9
R412 0
LCDAC
LP
X1CNT
X2CNT
Y1CNT
Y2CNT
8
7
6
5
4
3
2
1
/WP
/VPPCNT
DT0
DT1
100
99
98
97
96
95
94
93
87
86
85
84
83
82
81
80
79
78
77
76
75
74
73
72
24
23
22
21
20
19
18
17
TPX
TPY
XOFF
YOFF
RXD1
TXD1
RXD
TXD
CPTXRDY
SELK0
SELK1
SELK2
SELK3
ADJ0
ADJ1
ADJ2
ADJ3
ADJ4
ADJ5
X1CNT
X2CNT
Y1CNT
Y2CNT
LCDAC
LP
3
SNF271
NF404
VL
RXD1
TXD1
RXD
TXD
TPX
TPY
XOFF
YOFF
SELK[0..3]
ADJ[0..5]
INTCARD
RD/BY
LCDCLK 1
DT0
DT1
VL
BLCNT
VEECNT
CPTXRDY
R416
10k
SELK[0..3]
ADJ[0..5]
(B6)
[from G/A]
R406
1.5k
C431
102
2
D403
MA152KTX
M37721S1BFP
P43
P44
P45
P46
P47
P50/TA2OUT
P51/TA2IN
P52/TA3OUT
P53/TA3IN
P54/TA4OUT
P55/TA4IN
P56/TB0IN
P57/TB1IN
P60/RTP00
P61/RTP01
P62/RTP02
P63/RTP03
P64/RTP10
P65/RTP11
P66/RTP12
P67/RTP13
P70/AN0
P71/AN1
P72/AN2
P73/AN3
P74/AN4
P75/AN5
P76/AN6
P77/AN7/ADTRG
P80/CTS0/RTS0
P81/CLK0
P82/RXD0
P83/TXD0
P84/CTS1/RTS1
P85/CLK1
P86/RXD1
P87/TXD1
P90
P91
P92
P93
P94
P95
P96
P97
P100/INT0
P101/INT1
P102/INT2
P103/TC
P104
P105
P106
P107
IC401
VSS
VSS
AVSS
CNVSS
VCC
VCC
AVCC
VREF
XIN
XOUT
F
RESETOUT
RESET
E
R/W
ALE
BLE
BHE
ST1
ST0
RDY
HOLD
BYTE
A16/D0
A17/D1
A18/D2
A19/D3
A20/D4
A21/D5
A22/D6
A23/D7
A8/D8
A9/D9
A10/D10
A11/D11
A12/D12
A13/D13
A14/D14
A15/D15
A0
A1
A2
A3
A4
A5
A6
A7
40
92
91
34
41
88
89
90
37
38
30
35
36
39
47
44
45
46
42
43
31
32
33
55
54
53
52
51
50
49
48
63
62
61
60
59
58
57
56
71
70
69
68
67
66
65
64
*
WAIT
1
VL
C416
104
R439
10k
C407
104
224
C412
C408
47u 16V
VL
3
3
3
2
1
4
VL
R410
10k
MB3773
CK
R
CT
GND
IC410
*
3
MPUCLK
R407
220
MPUCLK
3
NF405 SNF271
102
BZ401
BUZZER
C442
WAIT
1
SNF471
NF407
4.7k*4
VL
ENBOUT
RWOUT
ALEOUT
D0
D1
D2
D3
D4
D5
D6
D7
A8
A9
A10
A11
A12
A13
A14
A15
A0
A1
A2
A3
A4
A5
A6
A7
4.7k*4
RA401
RA406
4.7k*4
RA408
4.7k*4
*
* RA407 *
VL
2
4
6
8
1
3
5
7
MTRKEY[0..15]
MTRKEY[0..15]
2
4
6
8
1
3
5
7
VCC
VR
VS
R
RST
2
D
3
R401
1M
5
6
7
8
C410
104
VL
XL401
CST12.0MXW
12.00MHz
1
RA409
4.7k*4
*
VL
A[0..15]
VL
1
1
R441
2
4
6
8
1
3
5
7
2-1. CPU Block
2
2
4
6
8
1
3
5
7
2
2
4
6
8
1
3
5
7
1
2
2
4
6
8
1
3
5
7
2
SNF101
NF408
0
*
C409
10u 16V
R408
10k
4
3
4
SNF101
NF406
3
RA410
4.7k*4
2
2
1
2
3
NPN
XN4211
TA413
6
5
4
LCDCLK
FPGA.SCH
CA[0..3]
LCDCLK
ENB
RW
RES
ALE
D[0..7]
A[0..4]
A[12..15]
A[8..10]
MTRKEY[0..15]
SELD[0..3]
INTCARD
CSFONT2
CSFONT1
CSFONT0
*CSSYS
*CSSYS2
*WR
*RD
A16OUT
A17OUT
A18OUT
*MCS
CSVRAM
*IOCS
A[16..18]
MTRLED[0..3]
2-2
5
VL
SELD[0..3]
4.7k
R461
0
R455
0
/WP
R462
100k
R453
1k
A[0..14]
7
R460
10k
VL
6
7
D[0..7]
A1
A2
A3
A4
A5
A6
A7
D0
D1
D2
D3
D4
D5
D6
D7
D[0..7]
*WR
*RD
A0
CSFONT0
CSFONT1
CSFONT2
*CSSYS
A16 (A19OUT)
A17 (A20OUT)
A12
A13
A14
A15
RES
A8
A9
A10
A11
RD/BY
Time: 13:38:39
C415
104
VL
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
8
CN409
177827-3
GND
AI
A2
A3
A4
A5
A6
A7
A17
VCC
A18
A19
A8
A9
A10
A11
RD/BY
WP
RP
WE
A12
A13
A14
A15
A16
A17
A18
A19
A20
VCC
NC
A21
CE
NC
VPP
NC
NC
NC
GND
NC
NC
NC
NC
NC
NC
NC
A16
BYTE
NC
DQ15/A1
DQ7
DQ14
DQ6
DQ13
DQ5
DQ12
DQ4
DQ11
DQ3
NC
VCC
NC
DQ10
DQ2
DQ9
DQ1
DQ8
DQ0
OE
CE
A0
GND
8
A:\CPCPU\CPU.SCH
A[0..14]
A18 (EP)
Notise de securité
R452
1k
Q405
2SA1037
A[16..18]
R456
/VPPCNT
VL
A16
A17
A18
MTRLED[0..3]
*MCS
CSVRAM
*IOCS
(C1)
INTCARD
to IC401
CSFONT2
CSFONT1
CSFONT0
*CSSYS
*CSSYS2
*WR
*RD
A16OUT
A17OUT
A18OUT
*MCS
CSVRAM
*IOCS
A[16..18]
RA402
4.7k*4
*
6
SELD[0..3]
MTRLED[0..3]
D[0..7]
ENB
RW
RES
ALE
D[0..7]
A[0..4]
A[12..15]
A[8..10]
FPGA
5
2
4
6
8
1
3
5
7
A
B
C
D
A
B
C
D
1
2-2. Gate Array Block
1
2
*
*
R463
0
VL
R464
0
IN1
IN2
IN3
IN4
2
*
*
R466
0
R465
0
*
*
0
R470
0
* R469
R468
0
R467
0
MTRKEY[0..15]
CA[0..3]
A[12..15]
3
D[0..7]
MTRKEY[0..15]
CA[0..3]
RW
ALE
ENB
LCDCLK
A[0..4]
RW
ALE
ENB
LCDCLK
RES
D[0..7]
A[12..15]
A[0..4]
3
CA0
CA1
CA2
CA3
RES
A12
A13
A14
A15
4
30
27
26
25
24
23
22
21
MTRKEY8
MTRKEY9
MTRKEY10
MTRKEY11
MTRKEY12
MTRKEY13
MTRKEY14
MTRKEY15
16
17
19
20
97
98
99
100
3
7
6
5
4
87
88
89
90
91
92
93
94
82
83
84
85
77
78
81
31
32
33
34
35
36
37
38
IN1
IN2
IN3
IN4
A8
A9
A10
72
73
74
75
76
MTRKEY0
MTRKEY1
MTRKEY2
MTRKEY3
MTRKEY4
MTRKEY5
MTRKEY6
MTRKEY7
/CLS
/RCP
/RDD
/CDI
D0
D1
D2
D3
D4
D5
D6
D7
A8
A9
A10
A0
A1
A2
A3
A4
4
M7G1010703FP
MTRKEY8
MTRKEY9
MTRKEY10
MTRKEY11
MTRKEY12
MTRKEY13
MTRKEY14
MTRKEY15
MTRKEY0
MTRKEY1
MTRKEY2
MTRKEY3
MTRKEY4
MTRKEY5
MTRKEY6
MTRKEY7
CLS
RCP
RDD
CDI
RW
ALE
ENB
LCDCK
RST
IN1
IN2
IN3
IN4
D0
D1
D2
D3
D4
D5
D6
D7
A12
A13
A14
A15
A8
A9
A10
A0
A1
A2
A3
A4
IC407
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
OUT1
OUT2
OUT3
OUT4
CSSYS
CSSYS2
FONT0
FONT1
FONT2
FONT3
CSVRAM
IOCS
MCS
WR
RD
A16OUT
A17OUT
A18OUT
A16
A17
A18
MTRLD0
MTRLD1
MTRLD2
MTRLD3
DRV0
DRV1
DRV2
DRV3
1
9
15
18
28
96
40
50
53
63
80
86
2
8
14
29
39
49
52
62
79
95
13
12
11
10
61
60
59
58
57
56
51
54
55
65
64
69
70
71
66
67
68
45
46
47
48
41
42
43
44
C414
104
MTRLED0
MTRLED1
MTRLED2
MTRLED3
SELD0
SELD1
SELD2
SELD3
5
C432
10u 16V
INTCARD
*CSSYS
*CSSYS2
CSFONT0
CSFONT1
CSFONT2
CSVRAM
*IOCS
*MCS
*WR
*RD
A16OUT
A17OUT
A18OUT
MTRLED[0..3]
SELD[0..3]
*WR
*RD
VL
A16OUT
A17OUT
A18OUT
A16
A17
A18
INTCARD
*CSSYS
*CSSYS2
CSFONT0
CSFONT1
CSFONT2
CSVRAM
*IOCS
*MCS
MTRLED[0..3]
SELD[0..3]
5
6
A[16..18]
6
A[16..18]
8
7
Time: 13:38:58
Notise de securité
8
A:\CPCPU\FPGA.SCH
7
A
B
C
D
A
B
C
D
VEECNT
1
VEECNT
C404
100u 16V
VL
C405
104
ADJ[0..5]
2-3. LCD Block
1
8
7
9
GND
CO
VREF
VOUT
BP5302
(BP5311)
CTL
GND
VIN
IC404
RST
(B5)
ADJ[0..5]
4
1
3
2
VL
VL
1A
C406
47u 35V
2
1
2
3
1
2
3
1
2
3
0
R398
DT401
DTA114E
ADJ0
ADJ1
ADJ2
ADJ3
ADJ4
ADJ5
2
10k
10k
10k
6
5
4
6
5
4
6
5
4
1
2
3
R433
1
2
3
R431
1
2
3
R429
51k
R424
R425
100k
DT403
DTC114E
C441
47u 35V
*
R422
0
R434
PNP
XN4111
(XN4211)
TA408
R432
PNP
XN4111
(XN4211)
TA407
R430
PNP
XN4111
(XN4211)
TA406
R415
0
R397
0
(XN4111)
NPN
XN4211
TA412
10k
NPN
XN4211
(XN4111)
TA411
10k
NPN
XN4211
(XN4111)
TA409
10k
A[0..14]
VEE
6
5
4
6
5
4
6
5
4
3
VEE
A[0..14]
3
160k
R446
82k
R444
39k
R442
20k
R440
10k
R438
5.1k
R436
500mA
R435
15k
R437
5.1k
VLCD
*RD
0
R399
*MCS
VLCD
*WR
*MCS
4
*IOCS
CSVRAM
22
27
20
25
24
21
23
2
26
1
0
A8
A9
A10
A11
A12
A13
A14
R423
10
9
8
7
6
5
4
3
R426
10k
A0
A1
A2
A3
A4
A5
A6
A7
A[0..14]
VL
4
MPUCLK
D[0..7]
GND
VCC
I/O1
I/O2
I/O3
I/04
I/O5
I/O6
I/O7
I/O8
LC36256AML
OE
WE
CE1
A8
A9
A10
A11
A12
A13
A14
A0
A1
A2
A3
A4
A5
A6
A7
IC414
WAIT
LCDCLK
(A2)
D[0..7]
RST
14
28
11
12
13
15
16
17
18
19
VL
C417
104
D0
D1
D2
D3
D4
D5
D6
D7
5
D0
D1
D2
D3
D4
D5
D6
D7
*IOCS
CSVRAM
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
10u 16V
C420
VL
D[0..7]
5
9
3
6
4
7
5
8
13
12
C419
104
LCDCLK
RST
80
1
2
79
100
99
11
MPUCLK 10
WAIT
*RD
*WR
VL
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
SED1351
VSS
VSS
VDD
VDD
OSC2
OSC1
RESET
MPUCLK
READY
IOCS
MEMCS
IOWR
MEMWR
IORD
MEMRD
BHE
MPUSEL
DB0
DB1
DB2
DB3
DB4
DB5
DB6
DB7
DB8
DB9
DB10
DB11
DB12
DB13
DB14
DB15
AB0
AB1
AB2
AB3
AB4
AB5
AB6
AB7
AB8
AB9
AB10
AB11
AB12
AB13
AB14
AB15
IC413
6
XSCL
LP
WF
YD
LCDENB
LD0/UD4
LD1/UD5
LD2/UD6
LD3/UD7
UD0
UD1
UD2
UD3
VWE
VD0
VD1
VD2
VD3
VD4
VD5
VD6
VD7
VD8
VD9
VD10
VD11
VD12
VD13
VD14
VD15
VCS4
VCS3
VCS2
VCS1
VCS0
VA0
VA1
VA2
VA3
VA4
VA5
VA6
VA7
VA8
VA9
VA10
VA11
VA12
VA13/VCS7
VA14/VCS6
VA15/VCS5
87
88
89
90
86
95
96
97
98
91
92
93
94
46
68
69
70
71
72
73
74
75
76
77
78
81
82
83
84
85
63
64
65
66
67
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
FLM
LCDE
CP
LP
UD0
UD1
UD2
UD3
VL
VD0
VD1
VD2
VD3
VD4
VD5
VD6
VD7
VA0
VA1
VA2
VA3
VA4
VA5
VA6
VA7
VA8
VA9
VA10
VA11
VA12
VA13
VA14
6
FLM
LCDE
CP
LP
UD[0..3]
GND
VCC
I/O1
I/O2
I/O3
I/04
I/O5
I/O6
I/O7
I/O8
LC36256AML
OE
WE
CE1
A8
A9
A10
A11
A12
A13
A14
A0
A1
A2
A3
A4
A5
A6
A7
IC412
14
28
11
12
13
15
16
17
18
19
VL
C418
104
VD0
VD1
VD2
VD3
VD4
VD5
VD6
VD7
8
7
Notise de securité
8
UD[0..3]
VD[0..7]
22
27
20
25
24
21
23
2
26
1
10
9
8
7
6
5
4
3
7
A
B
C
D
A
B
C
D
3-1
1
CLR_B
SLSYNC_B
VO[7..0]
CLR_B
SLSYNC_B
VO[7..0]
VE[7..0]
2
FCK
RLSYNC_B
ADCLKIN
SCK
FCK
CP
SCK
RS
CP
SH
RS
SH
VCLK
VOUT_O
3
ADCLK
GAIN_O
OFF_O
VOUT_O
VO[7..0]
VOUT_FN
VE[7..0]
4
4
Notise de securité
VO[7..0]
3-5
VOUT_FN
VE[7..0]
ANALOG ODD BLOCK
ANAODD.SCH
ADCLK
GAIN_E
OFF_E
VOUT_E
CCD SENSOR BLOCK
CCD.SCH
VOUT_E
3-4
ANALOG EVEN BLOCK
ANAEVEN.SCH
3-3
CLR_B
SLSYNC_B
3
G/A BLOCK
CCDGA.SCH
VM[7..0]
GAIN_O
OFF_O
GAIN_E
OFF_E
ADCLK
CLR_B
SLSYNC_B
2
3-2
VM[7..0]
RLSYNC_B
ADCLKIN
VOUT_FN
SH
VCLK
VM[7..0]
INTERFACE BLOCK
CCDIF.SCH
VOUT_FN
VE[7..0]
3. CCD Circuit
1
A
B
C
D
A
B
C
ECUV1E104ZFV
C812
OFF_E
OFF_O
ZD802
MA3051TX
D802
MA717TX
2
3
+12
1
ADCLK
6
5
C885
ECUV1H102ZFV
R802
ERJ3GSYJ122V
+12
ECUV1E104ZFV
C811
ZD801
MA3075LTX
C810
ECUV1E104ZFV
D801
MA717TX
R801
ERJ3GSYJ152V
+12
DF3A6P2DSA
CN802
+5V
SGND
+12V
AGND
-12V
AGND
4
11
D
6
5
4
3
2
1
IC803B
L805
10uF/16V
BLM21A121SPT
ERJ3GSY0R00V
R846
ERJ3GSY0R00V
ADCLKIN
XLA10324AF
C879
ECUV1H101JCV
C877
BLM21A121SPT
L804
TSL0709-100
L803
ECUV1E104ZFV
ECUV1E104ZFV
TSL0709-100
L802
ECUV1C104ZFV
CLR_B
SLSYNC_B
R845
ECUV1H102ZFV
C886
7
L801
TSL0709-100
ECUV1H101JCV
C878
XLA10324AF
IC803A
1
C803
ECUV1E104ZFV
C802
ECUV1E104ZFV
C801
ECUV1C104ZFV
3-1. Interface Block
1
C816
-12
+12
1
2
3
4
5
6
7
8
9
18
17
16
15
14
13
12
11
10
18
17
16
15
14
13
12
11
C889
ECUV1C104ZFV
M62356P
LD
-R
CLK VDD
DI
DO
AO5
AO4
AO6
AO3
AO7
AO2
AO8
AO1
GND VrefU1
VrefLVrefU2
IC801
C884
ECUV1C104ZFV
C809
47uF/25V
C808
47uF/25V
C807
100uF/16V
ECUV1H101JCV
C815
10uF/16V
C806
C805
C804
VCC
2
3
G
DIR
A1
A2
A3
A4
A5
A6
A7
A8
TC74AC245FT2
B1
B2
B3
B4
B5
B6
B7
B8
IC802
2
VR805
EVMF6SA00B13
1
19
1
2
3
4
5
6
7
8
9
C819
ERJ3GSY0R00V
R805
VCC
ECUV1H101JCV
C880
ECUV1C104ZFV
C817
VCC
GAIN_O
GAIN_E
VM[7..0]
R804
1
C865
ECUV1H102ZFV
ECUV1C104ZFV
+
C821
C824
47uF
C822
C823
D803
MA717TX
BLM21A121SPT
ECUV1C104ZFV
ECUV1C104ZFV
3
3
4
8
6
4
2
DIN3
DIN4
DIN2
DIN1
EN
ENVCC
GND
DO3+
DO3DO4+
DO4DO2+
DO2DO1+
DO1-
10
11
14
13
6
5
2
3
DO3+
DO3DO4+
DO4DO2+
DO2DO1+
DO1-
10
11
14
13
6
5
2
3
DO3+
DO3DO4+
DO4DO2+
DO2DO1+
DO1-
10
11
14
13
6
5
2
3
EXBV8V101JV
7
5
3
1
VCC
DS90C031SPECIAL
DIN3
DIN4
DIN2
DIN1
EN
ENVCC
GND
IC806
DS90C031SPECIAL
DIN3
DIN4
DIN2
DIN1
EN
ENVCC
GND
IC805
DS90C031SPECIAL
RA802
9
15
7
1
4
12
16
8
9
15
7
1
4
12
16
8
9
15
7
1
4
12
16
8
IC804
RA801
EXBV8V682JV
4
VOUT_FN
SH
Notise de securité
DF3A4P2DSA
1
2
3
4
CN804
DF1108DP2DSA
1
2
3
4
5
6
7
8
CN803
SH
SG
VOUT
AG
DA_DATA
DA_CLK
DA_LD
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
DF1124DP2DSA
SVD7
/SVD7
SVD6
/SVD6
SVD5
/SVD5
SVD4
/SVD4
SVD3
/SVD3
SVD2
/SVD2
SVD1
/SVD1
SVD0
/SVD0
SVCLK
/SVCLK
*RLSYNC
/*RLSYNC
*SLSYNC_C
CN801
ECUV1C104ZFV
C829
C828
C827
VCC
ECUV1H101JCV
ECUV1H101JCV
ECUV1H101JCV
ECUV1H101JCV
C820
VM3
VM2
VM1
VM0
VM7
VM6
VM5
VM4
L806
VCC
R803
ERJ3GSYJ102V
ERJ3GSYJ101V
C818
10uF/16V
RLSYNC_B
VCLK
C888
ECUV1H102ZFV
ECUV1H102ZFV
C887
VM[7..0]
2
7
5
3
1
8
6
4
2
A
B
C
D
A
B
C
D
1
JUMPER
JP801
ADCLKIN
SH
CP
RS
FCK
SCK
VO[7..0]
VE[7..0]
R806
VO7
VO6
VO5
VO4
VO3
VO2
VO1
VO0
R807 R808 R809
ERJ3GSY0R00V
R863
VO[7..0]
VE[7..0]
VE7
VE6
VE5
VE4
VE3
VE2
VE1
VE0
ERJ3GSY0R00V
ERJ3GSY0R00V
ERJ3GSY0R00V
ERJ3GSY0R00V
3-2. Gate Array Block
1
3
28
53
78
C831
VCLK
VM7
VM6
VM5
VM4
VM3
VM2
VM1
VM0
C832
C833
VSS
VSS
VSS
VSS
VSS
VSS
VSS
VSS
COMP_B
SH2
SH1
CLR_B
SLSYNC_B
MCLK
RLSYNC_B
CCDJOH(CG46183)
VDD
VDD
VDD
VDD
LSSEL
LSWIDTH
ADCK3
ADCK2
ADCK1
ADCLK
SH
CP
RS
FCK
SCK
VO7
VO6
VO5
VO4
VO3
VO2
VO1
VO0
VE7
VE6
VE5
VE4
VE3
VE2
VE1
VE0
IC807
4
15
29
40
54
65
79
90
98
45
35
16
50
14
52
55
69
68
67
66
64
63
62
61
2
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1C104ZFV
C830
VCC
13
17
33
32
31
43
37
38
39
41
42
20
21
22
23
24
25
26
27
5
6
7
8
9
10
11
12
2
ERJ3GSYJ470V
R859
C881
ECUV1H101JCV
VM7
VM6
VM5
VM4
VM3
VM2
VM1
VM0
CLR_B
VCLK
RLSYNC_B
3
SLSYNC_B
VM[7..0]
3
VCC
OUT
VCC
C868
ECUV1H103ZFV
8
14
GND
NC
TCO
7
XL801
1
4
Notise de securité
VM[7..0]
4
A
B
C
D
A
B
C
D
SCK
SH
RS
FCK
CP
R812 ERJ3GSYJ750V
1
R813
R814ERJ3GSYJ750V ERJ3GSYJ750V
R811
ERJ3GSYJ750V
R810 ERJ3GSYJ750V
VCC
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1C104ZFV
C835
C867
C866
C834
5
6
7
8
17
1
2
3
4
5
6
7
8
17
1
2
3
4
GND
GND
TB62801F
VCC
-fai
CK_in
fai
SH_in SH_out
RS_in RS_out
GND
-2B_out 2B_out
2B_in CP_out
CP_in
fai
VCC
-fai
IC809
TB62801F
VCC
-fai
CK_in
fai
SH_in SH_out
RS_in RS_out
GND
-2B_out 2B_out
2B_in CP_out
CP_in
fai
VCC
-fai
IC808
ECUV1C104ZFV
Notise de securité
3-3. Sensor Block
1
12
11
10
9
18
16
15
14
13
12
11
10
9
18
16
15
14
13
2
2
ERJ3GSY0R00V
C837
ERJ3GSY0R00V
R822
ERJ3GSYJ470V
R826
ERJ3GSY0R00V
R824
ERJ3GSYJ470V
R825
R823ERJ3GSY0R00V
R821
ERJ3GSY0R00V ERJ3GSYJ470V
R820
R819 ERJ3GSYJ470V
ERJ3GSY0R00V
ERJ3GSY0R00V R818
R817
ERJ3GSY0R00V R816
R815
C836 +
47uF/25V
ECUV1E104ZFV
BLM21A121SPT
L807
+12
1
2
3
4
5
6
7
8
9
10
11
3
TCD1703C
OS1
OD
CP
RS
2B
1O2
2O2
SS
2O1
1O1
NC
OS2
SS
CP
RS
2B
1E2
2E2
SS
2E1
1E1
SH
Q801
2SA1022BTX
22
21
20
19
18
17
16
15
14
13
12
ERJ3GSYJ470V
R829
R828
ERJ3GSYJ472V
+12
IC810
ERJ3GSYJ470V
R827
3
R830
ERJ3GSYJ102V
Q802
2SC2295BTX
ERJ3GSYJ470V
R831
Q803
2SA1022BTX
4
ERJ3GSYJ470V
R833
R832
ERJ3GSYJ472V
+12
VOUT_E
4
2SC2295BTX
R834
ERJ3GSYJ102V
Q804
VOUT_O
A
B
C
D
A
B
C
OFF_O
VOUT_O
C883
22uF/16V
-12
L808
R853
+12
3
2
C813
ECUV1C104ZFV
+12
22uF/16V
+ C876
2
3
XLA10324AF
IC812A
1
ECUV1E104ZFV
ERJ3GSYJ101V
R850
C854
LM6364M
6
IC815
C843
ECUV1E104ZFV
BLM21A121SPT
C855
ECUV1E104ZFV
ERJ3EKF1001V
R852 ERJ3EKF2000V
1
+
C853
ERJ3EKF2000V
R851
ECUV1E104ZFV
R849
ERJ3EKF1001V
R855
ECUV1H100DCV
5
ERJ3GSYJ101V
C852
4
1
7
D
8
3-4. Analog Even Block
R881
ERJ3GSY0R00V
DA801
RB706D-40
ERJ3GSYJ750V
R856
A
2
K
KA
2
GAIN_O
ERJ3EKF1001V R885
VCC
2
3
-12
C826
IC812B
1
22uF/16V
+ C875
6
5
ERJ3GSYJ750V
R858
ECUV1C104ZFV
ECUV1E104ZFV
ERJ3GSYJ101V
R842
ERJ3GSYJ151V
C842
R857
LM6172
1
IC813A
ECUV1E104ZFV
C841
R841
ERJ3GSYJ101V
+12
8
4
1
4
11
3
A
KA
4
C856
10uF/16V
C859
L810
C857
ECUV1C104ZFV
C858
ECUV1C104ZFV
L811
C862
ADCLK
BLM21A121SPT
20
19
18
17
16
15
14
13
12
11
C861
BLM21A121SPT
10uF/16V
VCC
ECUV1C104ZFV
ECUV1C104ZFV
C863
VCC
DA802
RB706D-40
TC35071F
-PD
DB0
DVDD DB1
AVDD DB2
BIAS DB3
Ain
DB4
AVSS DB5
1/2Vref DB6
Vref+ DB7
Vref- OVF
DVSS CK
IC816
C860
10uF/16V
ECUV1C104ZFV
1
2
3
4
5
6
7
8
9
10
4
VO0
VO1
VO2
VO3
VO4
VO5
VO6
VO7
Notise de securité
VO[7..0]
VO[7..0]
BLM21A121SPT
XLA10324AF
L809
7
3
K
A
B
C
D
A
B
C
OFF_E
VOUT_E
C882
22uF/16V
-12
C839
1
+
+12
3
2
C814
ECUV1C104ZFV
+ C874
22uF/16V
13
12
14
XLA10324AF
IC812D
C840
ECUV1E104ZFV
LM6364M
IC811
6
R836
ERJ3GSYJ101V
BLM21A121SPT
C844
ECUV1E104ZFV
L812
ERJ3EKF1001V R839
R838 ERJ3EKF2000V
ERJ3EKF2000V
R837
ECUV1E104ZFV
R835
ERJ3EKF1001V
R840
ECUV1H100DCV
5
ERJ3GSYJ101V
4
1
7
D
C838
8
3-5. Analog Odd Block
2
R872
ERJ3GSY0R00V
ERJ3GSYJ750V
R854
2
K
KA
VCC
DA803
RB706D-40
GAIN_E
A
1
R876
ERJ3EKF1001V
6
5
22uF/16V
IC812C
XLA10324AF
1
C825
ECUV1C104ZFV
9
10
ERJ3GSYJ750V
R844
+C873
ERJ3GSYJ151V
R843
LM6172
7
IC813B
8
3
3
A
KA
C845
10uF/16V
C851
ECUV1C104ZFV
10uF/16V
C850
L814
ADCLK
BLM21A121SPT
C847
20
19
18
17
16
15
14
13
12
11
BLM21A121SPT
ECUV1C104ZFV
C864
VCC
L815
C846
ECUV1C104ZFV
ECUV1C104ZFV
VCC
DA804
RB706D-40
1
2
3
4
5
6
7
8
9
10
4
VE0
VE1
VE2
VE3
VE4
VE5
VE6
VE7
TC35071F
IC814
C848
10uF/16V
-PD
DB0
DVDD DB1
AVDD DB2
BIAS DB3
Ain
DB4
AVSS DB5
1/2Vref DB6
Vref+ DB7
Vref- OVF
DVSS CK
C849
ECUV1C104ZFV
Notise de securité
VE[7..0]
VE[7..0]
VOUT_FN
BLM21A121SPT
L813
4
K
A
B
C
D
A
B
C
D
E
3
1
CN7
B2P3VH
!
!
!
!
!
!
DB2
S1WB60F1
-
+
R113
ERG2SJ273P
BL16
BL01RN1A63T6
1
TP00370-41
FG3
!
ERDS1TJ474T
!
!
C87
DE10076E222H
!
DE13076E472H
C6
C41
ECJ3VB1C474K
Q5
2SB1278TL2
D25
D1NL20U4070
ZD15
RD75EBT1
Vcc
FB
2
ACDC1
ACDC2
OVCNT
12VVp
PVCNT
SVCNT
5V1
EPACNT
PVpo
GND
SVp
ADFVp
SOTOVp
PAPERVp
PMVp
PVpo
GND
SVp
ADFVp
SOTOVp
PAPERVp
PMVp
PVp
R112
ERDS2TJ153T
5566-04A210
1
2
3
4
CN4
C11
ECA1HHG470B
C43
ECUV1H104KBW
C13
ECA1HHG470B
BL2
BL01RN1A63T6
Q4
2SK2673
C17
BL11
BL02RN1R65T2
D39
SF5LC20U
C68
ECA1HHG010B
IC5
UPC1093JT
PC3
PC123FY8
3
DT1
DTC114EKA146
1
GND
IN
OUT
16V
3
GND
R153
ERQ14AJ470P
5V2
12V1
12V2
4
R154
ERJ6GEYJ103V
Q23
2SJ374
D33
SF10SC4
4
RY1
PS7112-1A
R120
ERDS1TJ102T
D50 1SS133T77
D5 1SS133T77
EEUFA1V222E
IC11
UPC7812AHF C38
C37
ECA1HHG101B
ECA1HHG101B
C119
ECA1HHG100B
16V
C25
ERX2SJ6R8E
R38
L9
CH39A06
C20
ECKDHT471KC
R45
ERG2SJ680E
C85
ECA1HHG100B
R116
ERJ6GEYJ273V
ERJ6GEYJ103V
R111
R115
ERJ6GEYJ103V
D18
1SS133T77
!
PC2
PC123FY8
R39
C18
R44 ECKDHT471KC
ERG2SJ680E
C19
BL10
BL02RN1R65T2
R34
ERJ6GEYJ472V
!
D36
MA651
D35
MA651
ECKDHT471KC
BL9
BL02RN1R65T2
BL8
BL02RN1R65T2
BL7
BL02RN1R65T2
R36
ERX2SJ6R8E
R37
ERX2SJ6R8E
BL6
BL02RN1R65T2
PC1
R48
R57
PC123FY8
ERJ6GEYJ102V ERJ6ENF1742V
BL3
BL01RN1A63T6
!
R61
ERJ6GEYJ101V
R150 ERJ6GEYJ103V
Q1
2SK2673
!
T1
FT35K09
BL1
BL01RN1A63T6
R23
ERG2SJ180H
R14
R13
ERF5EKR22S
ERF5EKR22S
R26
ERDS1TJ220T
R71
R76
ERJ6GEYJ271V ERJ6GEYJ101V
GND
OUT
IN
IC1
M5F78M18L
D3
1SS133T77
R6
ERDS1TJ220T
R4
ERDS1TJ220T
OUT
R149
R22
ERG2SJ180H
ERJ6GEYJ103V
R5
ERDS1TJ220T
D23
D1NL20U4070
BL5
D31
BL01RN1A63T6 EG01CV0
BL4
R28
BL01RN1A63T6
ERDS1TJ121T
C10
ECKD2A471KBP
R29
ERDS1TJ121T
D1
1SS133T77
ZD2
RD75FT8
ZD1
RD75FT8
R30
ERG3SJ563H
C42
ECUV1H104KBW
IS
FA5310BP
HDS24V12
FPG350H2.SCH
R66
ERJ6GEYJ222V
RT
CS
CT
IC8
FA5310BP
R78
ERJ6GEYJ153V
R100
ERJ6GEYJ104V
R32
ERJ6GEYJ561V
ECOS2GB331DB
ECOS2GB331DB
ECOS2GB331DB
C7
C8
C9
C76
ECUV1H471JCX
R2
ERF5TJ100
R19
ERF5TJ100
RF1 !
ERU5TAJ100B
C3 !
DE10076E222H
130
+
ZD14
RD75EBT1
DB1
D15XB60
-
!
1
2
CN5 !
5566-02A210
1
2
3
4
CN3 !
5566-04A210
C55
ECUV1H104KBW
R49ERJ6GEYJ102V
TF861ILF625
!
C2
SR1
DE10076E222H
!
DE13076E472H
C4
!
C84
ECQU2A105MG
! C1
DE13076E472H
BL01RN1A63T6
BL17
C83
ECQU2A474MG
R1
!
L1
CH25L82
L8
C5
CH25L82 DE13076E472H
!
ERZV10D511 ERZV10D511
ZR2
ZR3
R114
ERG2SJ273P
F2
XBA2C50TR0
TP00370-41
FG2
TP82224-31
CN2
!
SA2
SA302MA05F25
!
R101
ERJ6GEYJ104V
SA1
ZR1
ERZV10D511 SA501MA05F25
C12
!
ECA1HHG470B
F1
XBA2F100NU2
ZD5
MTZJ20BT77
R3
ERDS1TJ220T
CN1
TP82224-31
R65
ERJ6ENF4871V
D24
D1NL20U4070
!
C40
ECUV1H104KBW
GND
R62
ERJ6GEYJ101V
F
R33
ERJ6GEYJ561V
R80
ERG2SJ100E
4-1. Low Voltage Power Supply Circuit (1) (for North America)
D48
1SS133T77
D22
D1NL20U4070
3
C67
ECUV1H104KBW
D17
1SS133T77
ERX2SJ6R8E
D8
1SS133T77
VR3
EVMF6SA00B13
R56
ERJ6ENF2701V
D6
MTZJ3.3BT77 1SS133T77
ECKDHT471KC
D7
1SS133T77
ZD9
MTZJ12CT77
GND
16V
GND
EPACNT
VI
16V
GND
EPACNT
HDSDC12
FPG350H3.SCH
ZD11
MTZJ12CT77
1SS133T77
D15
R155
ERJ6GEYJ103V
VI
D4
GND
GND
2
R51
ERJ6GEYJ561V
2
D9
1SS133T77
3.3V
GND
5V1
5V2
IC4
PQ12RD08
CNT
VO
3.3V
GND
5V1
5V2
12V1
5
D12
1SS133T77
R81
ERJ6GEYJ103V
D11
1SS133T77
FG1
DT2
DTC114ESATP
FG4
TP00370-41
TP00370-41
12V2
R83
ERJ6GEYJ103V
3.3V
GND
GND
5V1
1
2
PGND
3
CN13 PGND 4
DF34P2DSA
PAPERVp
1
2
3
4
3
3
1
DF34P2DSA
1
2
PGND
3
PGND
4
B2P3VH
CN12
PGND
SOTOVp
B2P3VH
CN8
PGND
CN19
12V1
1
GND
2
GND
3
5V1
4
B4BXHA
CN9
ADFVp
1
B4BXHA
CN18
12V1
1
GND
2
GND
3
5V1
4
B6PVH
1
2
3
4
5
6
CN10
B8PVH
1
2
3
4
5
6
7
8
CN11
12V2
GND
GND
GND
5V2
5V2
5566-02A210
1
2
CN6
12BT
1
GND
2
CN15 B2PVH
PGND
SVp
PVp
PMVp
ACDWN
1
EPACNT
2
BTCNT
3
4
ZCRS 5
PVCNT
6
7
SVCNT
CN17
D14
D13
1SS133T77
1SS133T77
CN20
3.3V
1
R84
GND
2
ERJ6GEYJ103V
GND
3
5V1
4
GND
5
12V1
6
GND
7
-12V1
8
5V2
1
GND
B8PVH
2
12V2
3
GND
4
-12V2
5
GND
6
CN16
DF36P2DSA
Q10
2SC2412KT146
ZD18 MTZJ8.2CT77
Notise de securité
6
C35
ERJ6GEYJ103V R82 ECA1HHG101B
C121
ECJ2VB1E104K
6
C36
ECA1HHG101B
ERJ6ENF1001V
R118
R119
ERJ6ENF8661V
Q9
2SC1740STP
1SS133T77
IC3
PQ30RV31
CNT
VO
D2
1SS133T77
5
DF37P2DSA
1
D47
MTZJ20BT77 1SS133T77
ZD7
Q13
2SD1423ATA
R69
ZD8
ERJ6GEYJ222V
D10
1SS133T77
ZD12
MTZJ5.1BT77
B4PVH CN22
4. Low Voltage Power Supply Circuit
A
B
C
D
E
F
A
B
C
D
E
!
3
1
CN7
B2P3VH
!
!
!
DB2
S1WB60F1
-
+
R113
ERG1SJ153P
1
TP00370-41
FG3
R114
ERG1SJ153P
L8
CH25L82
!
ERZV10D271 ERZV10D271
ZR2
ZR3
F2
XBA1C100NU14
TP00370-41
FG2
TP82224-31
CN2
!
SA2
SA302MA05F25
!
C83 !
ECQU2A474MG
R1
!
C6
DE13076E472H
ZD15
RD33EB3T1
RD33EB3T1
ZD14
130
+
C41
ECJ3VB1C474K
Q5
2SB1278TL2
!
R32
ERJ6GEYJ561V
!
Vcc
FB
2
ACDC1
ACDC2
OVCNT
12VVp
PVCNT
SVCNT
5V1
EPACNT
PVpo
GND
SVp
ADFVp
SOTOVp
PAPERVp
PMVp
PVpo
GND
SVp
ADFVp
SOTOVp
PAPERVp
PMVp
PVp
R112
ERDS1TJ392T
5566-04A210
1
2
3
4
PC1
PC817X
!
R61
ERJ6GEYJ101V
R150 ERJ6GEYJ103V
BL2
BL01RN1A63T6
Q4
2SK2193
D39
SF5LC20U
IC5
UPC1093JT
C68
ECA1HHG010B
!
3
C85
ECA1HHG100B
R116
ERJ6GEYJ273V
ERJ6GEYJ103V
R111
R115
ERJ6GEYJ103V
PC3
PC817X
R39
C18
1
C37
ECA1HHG101B
GND
C119
ECA1HHG100B
16V
C25
EEUFA1V222E
OUT
3
GND
R153
ERQ14AJ470P
5V2
12V1
12V2
IC11
UPC7812AHF C38
ECA1HHG101B
IN
16V
4
R154
ERJ6GEYJ103V
2SJ374
Q23
D33
SF10SC4
4
RY1
PS7112-1A
R120
ERDS1TJ102T
D50 1SS133T77
D5 1SS133T77
ERX2SJ6R8E
R38
L9
CH39A06
C20
ECKDHT471KC
R45
ERG2SJ680E
R48
R57
D18
1SS133T77
PC2
PC817X
!
BL02RN1R65T2
BL9
D36
MA651
C17
ECKDHT471KC
D35
MA651
BL02RN1R65T2 R44 ECKDHT471KC
ERG2SJ680E
C19
BL8
BL7
BL02RN1R65T2
R36
ERX2SJ6R8E
R37
ERX2SJ6R8E
BL6
BL02RN1R65T2
R34
ERJ6GEYJ472V
DT1
DTC114ESATP
R14
R13
ERF5EKR10S
ERF5EKR10S
R26
ERDS1TJ220T
CN4
!
T1
FT35K08
BL1
BL01RN1A63T6
R23
ERG2SJ180H
Q1
2SK2193
C11
ECA1HHG470B
C43
ECUV1H104KBW
C13
ECA1HHG470B
IN
R71
R76
ERJ6GEYJ181V ERJ6GEYJ271V
GND
OUT
OUT
IC1
M5F78M18L
R4
ERDS1TJ220T
D3
1SS133T77
R6
ERDS1TJ220T
ERJ6GEYJ103V
R149
R22
ERG2SJ180H
R5
ERDS1TJ220T
D23
D1NL20U4070
BL5
D31
BL01RN1A63T6 AG01AV0
R28
ERDS1TJ121T
C10
ECKD2A471KBP
R29
ERDS1TJ121T
D1
1SS133T77
ZD2
RD39FT8
ZD1
RD39FT8
R30
ERG3SJ203H
C42
ECUV1H104KBW
IS
FA5310BP
HDS24V12
FPU350H2.SCH
R66
ERJ6GEYJ222V
RT
CS
CT
IC8
FA5310BP
R78
ERJ6GEYJ153V
R100
ERJ6GEYJ104V
!
ECOS2DB122DB
ECOS2DB122DB
ECOS2DB122DB
C7
C8
C9
C76
ECUV1H471JCX
R2
ERF5TJ6R8
R19
ERF5TJ6R8
RF1 !
ERU5TAJ6R8B
TF861ILF625
SR1
!
1
2
CN5 !
5566-02A210
1
2
3
4
CN3 !
5566-04A210
C55
ECUV1H104KBW
R49ERJ6GEYJ102V
DE13076E472H
C4
!
!
C84
ECQU2A474MG
! C1
DE13076E472H
D25
D1NL20U4070
-
DB1
D15XB60
C5
DE13076E472H
!
ERDS1TJ474T
!
R101
ERJ6GEYJ104V
L1
CH25L80
C12
SA1 !
ZR1
ERZV10D271 SA301LA05F25
ZD5
MTZJ20BT77
!
ECA1HHG470B
F1
XBA1F200NU14
D24
D1NL20U4070
R3
ERDS1TJ220T
CN1
TP82224-31
R65
ERJ6ENF4871V
GND
R62
ERJ6GEYJ101V
!
C40
ECUV1H104KBW
D22
D1NL20U4070
F
R33
ERJ6GEYJ561V
4-1. Low Voltage Power Supply (1) (for Europe/others)
C67
ECUV1H104KBW
D17
1SS133T77
D48
1SS133T77
VR3
EVMF6SA00B13
R56
ERJ6ENF2701V
R80
ERG2SJ100E
3
D9
1SS133T77
ERX2SJ6R8E
D8
1SS133T77
2
GND
16V
GND
EPACNT
VI
16V
GND
EPACNT
HDSDC12
FPU350H3.SCH
ZD11
MTZJ12CT77
1SS133T77
D15
R155
ERJ6GEYJ103V
VI
GND
GND
2
R51
ERJ6GEYJ561V
ECKDHT471KC
D7
1SS133T77
ZD9
MTZJ12CT77
3.3V
GND
5V1
5V2
IC4
PQ12RD08
CNT
VO
D12
1SS133T77
D11
1SS133T77
ERJ6GEYJ103V R82
12V2
12V1
5
DT2
DTC114ESATP
FG4
TP00370-41
TP00370-41
FG1
PAPERVp
3
3
1
DF34P2DSA
1
2
PGND
3
PGND
4
B2P3VH
CN12
PGND
SOTOVp
B2P3VH
CN8
PGND
CN19
12V1
1
GND
2
GND
3
5V1
4
B4BXHA
CN9
ADFVp
1
B4BXHA
CN18
12V1
1
GND
2
GND
3
5V1
4
B6PVH
1
2
3
4
5
6
CN10
B8PVH
12V2
GND
GND
GND
5V2
5V2
5566-02A210
1
2
D14
D13
1SS133T77
CN20
1SS133T77
3.3V
1
GND
2
R84
GND
ERJ6GEYJ103V
3
5V1
4
GND
5
12V1
6
GND
7
-12V1
8
5V2
1
GND
B8PVH
2
12V2
3
GND
4
-12V2
5
GND
6
CN21
CN16
DF36P2DSA
3.3V
1
GND
2
GND
3
5V1
ACDWN
1
4
EPACNT
2
BTCNT
B4PVH
3
3.3V
4
1
GND
ZCRS 5
2
PVCNT
GND
6
3
5V1
7
4
SVCNT
CN17
CN11
12BT
1
1
GND
2
2
CN15 B2PVH
3
PGND
4
SVp
5
PVp
6
PMVp
7
CN6
8
R83
ERJ6GEYJ103V
1
2
PGND
3
CN13 PGND 4
DF34P2DSA
Q10
2SC2412KT146
ZD18
MTZJ8.2CT77
Notise de securité
6
R81
C35
C121
ECJ2VB1E104K ERJ6GEYJ103VECA1HHG101B
3.3V
GND
5V1
5V2
6
C36
ECA1HHG101B
ERJ6ENF1001V
R118
R119
ERJ6ENF8661V
D4
Q9
1SS133T77 2SC1740STP
IC3
PQ30RV31
CNT
VO
D2
1SS133T77
5
DF37P2DSA
1
D47
MTZJ20BT77 1SS133T77
ZD7
Q13
2SD1423ATA
R69
D6
MTZJ3.3BT77 1SS133T77
ZD8
ERJ6GEYJ222V
D10
1SS133T77
ZD12
MTZJ5.1BT77
B4PVH CN22
A
B
C
D
E
F
A
B
C
ACDC2
1
ACDC2
ACDC1
R103
ERJ6GEYJ104V
C61
ECUV1H104KBW
Q8
2SB1278TL2
R104
ERJ6GEYJ104V
D29
D1NL20U4070
ZD17
RD33EB3T1
ZD16
RD33EB3T1
RT
CS
C78
ECUV1H471JCX
FB
ERJ6GEYJ103V
R151
R24
ERG2SJ180H
IN
R77
ERJ6GEYJ271V
2
D32
AG01AV0
R152
ERJ6GEYJ103V
BL19
BL01RN1A63T6
Q3
2SK2195
ERDS1TJ220T
PC4
PC817X
BL20
BL01RN1A63T6
R21
ERF5EKR10S
R27
T2
FT39A03
BL18
BL01RN1A63T6
R25
ERG2SJ180H
Q2
2SK2195
C14
ECA1HHG470B
C63
ECUV1H104KBW
C16
ECA1HHG470B
OUT
IC2
M5F78M18L
R10
ERDS1TJ220T
R12
ERDS1TJ220T
R11
ERDS1TJ220T
D21
1SS133T77
R75
ERJ6GEYJ181V
GND
OUT
C15
C62
ECUV1H104KBW
IS
FA5310BP
CT
Vcc
ZD6
MTZJ20BT77
R121
ERJ6GEYJ561V
IC9
FA5310BP
ERJ6GEYJ153V
R79
Q16
2SB1188TQR
R123
ERJ6GEYJ473V
R122
ERJ6GEYJ473V
R9
ERDS1TJ220T
D20
1SS133T77
D28
D1NL20U4070
ZD4
RD75FT8
ZD3
RD75FT8
R31
ERG3SJ203H
C88
ECKD2A471KBP
BL21
BL01RN1A63T6
R20
ACDC1
R126
ERJ6ENF4871V
ECA1HHG470B
R64
ERJ6GEYJ101V
D
R70
ERJ6GEYJ222V
ERF5EKR10S
D27
D1NL20U4070
4-2. Low Voltage Power Supply (2) (for North America)
C60
ECUV1H104KBW
GND
R63
ERJ6GEYJ101V
2
R40
ERX2SJ6R8E
R43
ERX2SJ6R8E
D38
MA651
D37
MA651
PC6
PC817X
R54
ERJ6GEYJ102V
IC6
UPC1093JT
C70
ECA1HHG010B
R53
R52
R125
C115
ECA1HHG100B
L15
CH39A05
R35
ERJ6GEYJ472V
ZD19
MTZJ27DT77
R41
ERX2SJ6R8E
ECKDHT471KC
C23
ECKDHT471KC
R42
ERX2SJ6R8E
C24
BL25
BL24
BL01RN1A63T6 BL01RN1A63T6
BL23
BL01RN1A63T6
BL22
BL01RN1A63T6
PC5
PC817X
ERJ6GEYJ102V
1
R124
ERJ6ENF6491V
3
ERJ12YJ182H
ERJ12YJ182H
ERJ12YJ182H
ERJ12YJ182H
ERJ12YJ182H
R167
R168
R161
R160
R166
R165
R164
R158
R157 R159
C29
EEUFA1V222E
ERDS1TJ272T
ERDS1TJ272T
ERDS1TJ272T
ERDS1TJ272T
ERDS1TJ272T
3
Q17
2SJ374
Q18
R96
ERJ6GEYJ103V 2SJ374
R94
ERJ6GEYJ103V
F4
XBA1C63NU141
F3
XBA1C63NU141
D52
D1NL20U4070
EPACNT
5V1
OVCNT
PMVp
SVCNT
SVp
GND
PVCNT
PVpo
12VVp
PAPERVp
SOTOVp
ADFVp
4
Notise de securité
LVPS2-PU.eps
EPACNT
5V1
OVCNT
PMVp
R97
ERJ6GEYJ103V
SVCNT
SVp
GND
PVCNT
R95
ERJ6GEYJ103V
PVpo
12VVp
PAPERVp
F5
XBA1C63NU141
D30
D1NL20U4070
SOTOVp
ADFVp
4
A
B
C
D
A
B
C
ACDC2
1
ACDC2
ACDC1
R103
ERJ6GEYJ104V
C61
ECUV1H104KBW
Q8
2SB1278TL2
R104
ERJ6GEYJ104V
D29
D1NL20U4070
ZD17
RD75EBT1
ZD16
RD75EBT1
R70
ERJ6GEYJ222V
FB
ERJ6GEYJ103V
R151
R24
ERG2SJ180H
IN
R77
ERJ6GEYJ101V
2
R152
Q2
2SK2675
C14
ECA1HHG470B
C63
ECUV1H104KBW
C16
ECA1HHG470B
OUT
IC2
M5F78M18L
ERDS1TJ220T
D32
AG01AV0
ERJ6GEYJ103V
BL19
BL01RN1A63T6
Q3
2SK2675
ERDS1TJ220T
R40
ERX2SJ6R8E
R43
ERX2SJ6R8E
R54
PC6
ERJ6GEYJ102V
PC123FY8
PC5
PC123FY8
IC6
UPC1093JT
ECA1HHG010B
C70
R52
R125
C115
ECA1HHG100B
L15
CH39A05
R35
ERJ6GEYJ472V
ZD19
MTZJ27DT77
R41
ERX2SJ6R8E
ECKDHT471KC
C23
ECKDHT471KC
R42
ERX2SJ6R8E
D38
MA651
D37
MA651
C24
BL25
BL24
BL01RN1A63T6 BL01RN1A63T6
BL23
BL01RN1A63T6
BL22
BL01RN1A63T6
PC4
PC123FY8
BL20
BL01RN1A63T6
R21
ERF5EKR10S
R27
T2
FT39A04
BL18
BL01RN1A63T6
R25
ERG2SJ180H
C88
ECKD2A471KBP
R12
ERDS1TJ220T
R11
ERDS1TJ220T
D21
1SS133T77
R10
R75
ERJ6GEYJ271V
GND
OUT
C15
C62
ECUV1H104KBW
IS
FA5310BP
Vcc
RT
CT
IC9
FA5310BP
ZD6
MTZJ20BT77
R121
ERJ6GEYJ561V
CS
C78
ECUV1H471JCX
ERJ6GEYJ153V
R79
Q16
2SB1188TQR
R123
ERJ6GEYJ473V
R122
ERJ6GEYJ473V
R9
ERDS1TJ220T
D20
1SS133T77
D28
D1NL20U4070
ZD4
RD75FT8
ZD3
RD75FT8
R31
ERG3SJ563H
ECA1HHG470B
BL21
BL01RN1A63T6
R20
ACDC1
R126
ERJ6ENF4871V
ERF5EKR10S
D27
D1NL20U4070
R64
ERJ6GEYJ101V
D
C60
ECUV1H104KBW
GND
R63
ERJ6GEYJ101V
4-2. Low Voltage Power Supply (2) (for Europe/others)
R53
2
ERJ6GEYJ102V
1
R124
ERJ6ENF6491V
3
ERJ12YJ182H
ERJ12YJ182H
ERJ12YJ182H
ERJ12YJ182H
ERJ12YJ182H
R167
R168
R161
R160
R166
R165
R164
R158
R157 R159
C29
EEUFA1V222E
ERDS1TJ272T
ERDS1TJ272T
ERDS1TJ272T
ERDS1TJ272T
ERDS1TJ272T
3
Q17
2SJ374
Q18
R96
ERJ6GEYJ103V 2SJ374
R94
ERJ6GEYJ103V
F4
XBA2C63TR0
F3
XBA2C63TR0
D52
D1NL20U4070
PVCNT
SVCNT
SVp
GND
EPACNT
5V1
OVCNT
PMVp
SVCNT
SVp
GND
PVCNT
PVpo
12VVp
PAPERVp
SOTOVp
ADFVp
4
Notise de securité
LVPS2-PG.eps
EPACNT
5V1
OVCNT
PMVp
R97
ERJ6GEYJ103V
PVpo
12VVp
PAPERVp
R95
ERJ6GEYJ103V
F5
XBA2C63TR0
D30
D1NL20U4070
SOTOVp
ADFVp
4
A
B
C
D
4-3. Low Voltage Power Supply (3)
L5
CH10A07
C99
ECA1HHG470B
ERJ6GEYJ683V
R136
C94
CT
2SJ374
FA7617CP
IS
FB
GND
R129
ERJ6GEYJ103V
IC7
FA7617CP
C93
ECUV1H104KBW
3.3V
R144
ERJ6GEYJ332V
C95
ECUV1H104KBW
ERJ6GEYJ272V
VR5
EVMF6SA00B52
GND
C71
EEUFA1V471E
C47
ECUV1H104KBW
D43
SF10SC4
Q19
2SC2412KT146
ERJ6GEYJ272V
R131
C100
ECKDHT471KC
C120
ECA1HHG100B
R132
GND
L3
CH28E36
D46
1SS133T77
OUT
R59
ERF5EKR10S
Q21
2SA1037KT146
Q12
ZD20
MTZJ5.1BT77
Vcc
CS
16V
C75
EEUFA1V102E
BL13
BL02RN1R65T2
C103
R146
ERJ6GEYJ564V
ECUV1H561JCX
ECJ2VB1E104K
REF
R148
ERJ6GEYJ222V
Q22
2SC2412KT146
R147
ERJ6GEYJ103V
R145
ERJ6GEYJ824V
R58
ERF5EKR10S
C72
EEUFA1V102E
Q20
2SB1240TV2R
C98
ECUV1H104KBW
R130
ERG2SJ680E
BL29
C96
R135
ERJ6GEYJ103V
ECJ3YB1C105K
R133
ERJ6GEYJ681V
C112
ECJ3VB1C474K
BL02RN1R65T2
R134
ERJ6GEYJ103V
D51
SF10SC4
C102
GRM42-6B225K
ERJ6GEYJ101V
D1NL20U4070
R72
D26 C82
C114
ECA1HHG010B
IN1+
FB1 DT1
OCL1
VCC1
SW
VCC2
OUT1
R99
ERJ6GEYJ564V
R105
ERJ6ENF1203V
C79
GND
C48
ECJ3VB1E224K
R142
OCL2
R117
DT2
ERJ6GEYJ101V
FB2
OUT2
L7
CH28E35
R87
IC10
FA7622CP
ERJ6GEYJ103V
R7
ERDS1VJ220T
C97
ECUV1H104KBW
5V1
C53
ECUV1H104KBW
C33
EEUFA1V102E
D34
SF10SC4
Q15
L6
CH28E35
2SK2289
C73
EEUFA1V102E
R107
ERJ6GEYJ564V
C49
ECUV1H103KBM
R67
ERJ6GEYJ152V
R143
ERJ6GEYJ103V
VR2
R85
ERJ6GEYJ242V
EVMF6SA00B52
R108
ERJ6GEYJ474V
R106
ERJ6ENF3603V
IN2-
ECJ2VB1E104K
ERJ6ENF1502V
IN2+
R110
ERJ6GEYJ332V
R98
CP
ERJ6GEYJ100V
RT
C69
ECA1HHG2R2B
CT
R163
ON/OFF
FA7622P
ECUV1H561JCX
C77
C52
ECUV1H104KBW
C116
ECA1HHG100B
REF
Q14
2SK2289
R8
ERDS1VJ220T
ECA1HHG470B
C27
EEUFA1V332E
BL15
BL02RN1R65T2
C51
C28
EEUFA1V332E
R17
MPC76R02KF
ZD21
MA3082HTX
ECA1HHG101B
ECKDHT471KC
R47
C22
ERG2SJ680E
ECJ3VB1E224K
C108
C58
ECJ3VB1C474K
R139
ERJ6GEYJ122V
L14
CH10A06
C118
R109
ERJ6GEYJ474V
ECUV1H104KBW
R141
ERJ6GEYJ272V
L10
CH10A07
R18
R16
MPC76R02KF MPC76R02KF
R15
MPC76R02KF
ERJ6GEYJ182V
ERJ6GEYJ822VC50
ERJ6GEYJ564V
R138
Q24
2SB1188TQR
R162
ERJ6GEYJ103V
C107
ECJ3YB1C105K
R137
ERJ6GEYJ103V
R68
R86
ERJ6GEYJ202V
ECUV1H104KBW
VR1
EVMF6SA00B52
R89
ERJ6GEYJ103V
BL14
BL02RN1R65T2
C21
ECKDHT471KC
R46
ERG2SJ680E
5V2
EPACNT
C54
ECUV1H104KBW
D42
SF10SC4
C104
ECJ3YB1C105K
C64
ECJ3VB1C474K
Q6
2SB1278TL2
ERJ6GEYJ473V D19
1SS133T77
R90
ERJ6GEYJ473V
R91
D16
1SS133T77
R92
ERJ6GEYJ473V
R88
ERJ6GEYJ473V
Q11
2SC1740STP
Notise de securité
LVPS3-EX.eps
5. AC Driver Circuit
5-1. AC Driver Circuit PCB (1) (for North America)
IMPORTANT SAFETY NOTICE
THE PARTS WITH
MARK ON THIS SCHEMATIC DIAGRAM INCORPORATE SPECIAL
FEATURES IMPORTANT FOR SAFETY.
WHEN SERVICING, IT IS ESSENTIAL THAT
ONLY MANUFACTURER'S SPECIFIED PARTS BE
USED FOR THE CRITICAL COMPONENTS IN THE
PARTS WITH
MARK OF THE SCHEMATIC.
(Power Sw)
(JR4P)
CN201
AC1
AC1
AC2
AC2
(VH2-3P)
CN204
1
PSAC1
(Low Voltage
2
Power Supoly)
3
PSAC2
F85BAJEL
SW201(Door Sw)
1
2
3
4
2B
2A
3B
3A
1A
1B
DSAC1
DSAC2
1
2
3
4
CN206
CN203
FULP1
DSAC1
(JR-2P)
2
1
R202
(FU LAMP)
C205
0.47µ
125V (D)
250V(Pu)
220
1W
16A 600V
R205
TR202 100 0.5W
6
2
1
C202 271V
0.1µ
400V
(VH-4P)
CN205
24VIN
24VIN
24VOUT
24VOUT
(DF3-3P)
1
5V
2
HTCNT1
3
R208 150 0.5W
1
3
4
C207
0.1µ
50V
3
RC202
S11MD5T
ZR202
DSAC1
DSAC2
L202
CH16A84
Primary
Secondry
Notise de securité
(On Off CNT)
5-1. AC Driver PCB (1) (for Europe/others)
THE PARTS WITH
PARTS WITH
(Power Sw)
(JR4P)
CN201
AC1
AC1
AC2
AC2
(VH2-3P)
CN204
1
PSAC1
(Low Voltage
2
Power Supoly)
3
PSAC2
F85BAJEL
SW201(Door Sw)
1
2
3
4
2B
2A
3B
3A
1A
1B
DSAC1
DSAC2
1
2
3
4
CN206
CN203
FULP1
DSAC1
(JR-2P)
2
1
R202
(FU LUMP)
C205
0.47µ
250V
220
1W
16A 600V
R205
TR202 100 0.5W
6
2
1
C202 511V
0.1µ
600V
1
2
3
(VH-4P)
CN205
24VIN
24VIN
24VOUT
24VOUT
(DF3-3P)
5V
HTCNT1
R208 150 0.5W
1
3
4
C207
0.1µ
50V
3
RC202
S21MESY
ZR202
DSAC1
DSAC2
L202
CH16A85
Primary
Secondry
Notise de securité
(On Off CNT)
5-2. AC Driver PCB (2)
THE PARTS WITH
PARTS WITH
1
2
3
CN204
PSAC1
PSAC2
(Low Voltage
Power Supoly)
F85BAJEL
SW201(Door Sw)
CN201
AC1
AC1
AC2
AC2
CN202
EXLP
AC1
1
2
3
4
DSAC1
DSAC2
R201
2
1
0.1µ 125V(D)
0.1µ 250V(Pu)
L201
6
5
3
4
1
2
CN206
5V
LPCNT
LPFB1
LPFB2
HTCNT1
HTCNT2
(24V In/Out)
R207 150 0.5W
C206
0.01µ
50V
ZR201
CH16A85(D)
CH10A01(Pu)
RC201
S11MD5T
T201 PK28B83
16A 300V
R205
TR202 100 0.5W
(Signal In)
R208 150 0.5W
220
1W
C205
0.1µ 125V(D)
0.1µ 250V(Pu)
C202 271V
0.1µ
400V
C207
0.01µ
50V
RC202
S11MD5T
ZR202
L202
CH16A84
16A 300V
R206
TR203 100 0.5W
R203
R209 150 0.5W
220
1W
DSAC1
DSAC2
(FU Lamp)
C201 271V
0.1µ
400V
R202
4
1
3
6
CN205
24VIN
24VIN
24VOUT
24VOUT
220
1W
C204
CN203
FULP1
DSAC1
DSAC1
FULP2
8A 300V
R204
TR201 100 0.5W
1
2
3
4
C203 271V
0.1µ
400V
C208
0.01µ
50V
RC203
S11MD5T
ZR203
Primary
Secondry
CF42/50 SD020PU
Notise de securité
1
2
3
4
5
6
7
1
2
3
4
5
6
7
8
9
10
11
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
C653
47µ/35V
VL
VL
C654
104
VL
C652
104
R655
1K
C651
47µ/35V
VL
R659
C662
104
1
7
74LS14
VL
R670 R671
1.5K 1.5K
R672
1.5K
C661
104
9
3
5
6
8
7
4
M66311
GND
VCC
QA
QB
QC
QD
QE
QF
QG
QH
QI
QJ
QK
QL
QM
QN
QO
QP
SQP
IC652
OE
CKL
CKS
R
A
1
2
24
23
22
21
20
19
18
17
16
15
14
13
11
12
10
DXRRCR
DXMPD
BCPDL
BPDL
ACPDL
APDL
BCPDW
BPDW
ACPDW
APDW
Q651
2SC2458
R682
270
1%
47K
R683
C671
104
VL
C670
471
VL
C663
104
IC654A
16
COM
2
I
O
TD62308BP1
6
IC653C
9
COM
10
O
TD62308BP1
14
6
2.2K
R687
R686
2.2K
1
100
1SR139-100
1SR139-100
MA1330TA
1SR139-100 1SR139-100
1SR139-100
VP
ZD652
D658
1SR139-100
D657
D656
12
11
18
7
1
8
C666
104
Q652
2SD1292
VP
1ZB51
1DL42
1DL42
ZD653
1DL42
1DL42
VP
D668 D669 D670 D671
C665
100µ/50V
IC655
6
INA
VSA
5
INA OUTA
17
INB OUTA
16
INB
VSB
4
GA
OUTB
9
RSA OUTB
2
TDA
3
REFA
15
GB
10
RSB
13
TDB
14
REFB
SLA7026M
2.2K
R675
1SR139-100
D667
1SR139-100
1SR139-100
D666
VP
1SR139-100
1SR139-100
D665
D664
1SR139-100 D659 D660 D661 D662
1SR139-100
D663
IC654D
16
COM
15
O
TD62308BP1
C667
222
R690
0.68
2W
C668
222
R689
0.68
2W
3
I
C664
104
IC654B
8
COM
7
O
TD62308BP1
VL
IC653D
16
COM
15
I
O
TD62308BP1
IC653B
8
COM
7
I
O
TD62308BP1
I
VP
MA1330TA
1SR139-100 1SR139-100
ZD651
1SR139-100 D651 D652 D653 D654
1SR139-100
D655
R673
1K
R674
DT652
DTC143 2
VL
IC654C
9
COM
11
10
I
O
TD62308BP1
14
3
I
IC653A
16
COM
3
2
I
O
TD62308BP1
11
C669 R688
100
471
1%
R684 R685
270
47K 1%
R677 R678 R679
10K 10K 10K
R669
1K
VL
Notise de securité
R681
10K
R680
10K
R676
10K
VL
R691 R661 R662 R663 R664 R665 R666 R667 R668
1K 10K 10K 10K 10K 10K 10K 10K 10K
JUMPER
J651
10
11
12
13
14
3 DXPESN
4 DXPSN2
5 DXPSN1
6
2
CLK
15
INH
1
SH/LD
74HC165
QH
1
IC651A
2
IC651C
74LS14
4
5
6
74LS14
IC651D
74LS14 9
8
IC651E
74LS14 11
10
IC651F
VL
74LS14
13
12
C660
104
IC651B
3
VL
C658 C657 C656 C655
102 102 102 102
100
100
R656
IC656
SER
A
B
C
D
DT651
E
3 DTC143
F
G
2
9
H
QH
VL
100
C659
102
R660 100
R658 100
R657
R654 R653 R652 R651
1K
1K
1K
1K
GND
PSWSN
VL
CN655
GND
PSLSN
VL
GND
DXPSN1
VL
GND
DXPSN2
VL
CN652
GND
DXPESN
VL
CN651
VP
PGND
VP
PGND
F16OUT
ALPSN
FENB
AWPSN
DXLTH
APDX
F16CLK
ACPDX
QLD
BPDX
DXIN
BCPDX
VL
GND
VP
6. Automatic Duplex Unit Driver Circuit (option)
CN654
DXRRCR
VP
DXMA
COM
DXMAB
DXMB
COM
DXMBB
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
9
10
11
CF42/50 SD010PU
VP
DXWAB
DXWA
DXWB
COM
DXWBB
CN653
DXLAB
DXLA
DXLB
COM
DXLBB

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Transcription

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