KX-FL513RU

Transcription

KX-FL513RU

ORDER NO. KMF0310714C3
High Speed Laser Fax and Copier
KX-FL513RU
(for Russia)
IMPORTANT INFORMATION ABOUT LEAD FREE, (PbF), SOLDERING
If lead free solder was used in the manufacture of this product the printed circuit boards will be marked PbF.
Standard leaded, (Pb), solder can be used as usual on boards without the PbF mark.
When this mark does appear please read and follow the special instructions described in this manual on the use of PbF and how
it might be permissible to use Pb solder during service and repair work.
© 2003 Panasonic Communications Co., Ltd. All
rights reserved. Unauthorized copying and
distribution is a violation of law.
KX-FL513RU
CONTENTS
Page
1 INTRODUCTION
Page
4
5.19. HOW TO REMOVE THE MAIN MOTOR
55
1.1. TRANSLATION LISTS
4
5.20. HOW TO REMOVE THE FUSER UNIT
56
1.2. ABOUT LEAD FREE SOLDER (PbF: Pb free)
6
5.21. HOW TO REMOVE THE CIS
57
5.22. NOTE FOR ASSEMBLING
58
5.23. INSTALLATION POSITION OF THE LEAD
59
1.3. HOW TO RECOGNISE THAT Pb FREE SOLDER IS
USED
7
1.4. SAFETY PRECAUTIONS
8
1.5. INSULATION RESISTANCE TEST
8
6.1. USER RECOVERABLE ERRORS
60
1.6. FOR SERVICE TECHNICIANS
8
6.2. PROGRAMMING AND LISTS
62
1.7. BATTERY CAUTION
8
6.3. TEST FUNCTIONS
65
1.8. AC CAUTION
9
6.4. REMOTE PROGRAMMING
69
1.9. PERSONAL SAFETY PRECAUTIONS
6 TROUBLESHOOTING GUIDE
6.5. TROUBLESHOOTING DETAILS
9
60
77
1.10. SERVICE PRECAUTIONS
11
1.11. FOR BEST PERFORMANCE
11
7.1. CONNECTION DIAGRAM
148
2 FEATURES AND SPECIFICATIONS
12
7.2. GENERAL BLOCK DIAGRAM
149
2.1. FEATURES
12
7.3. FACSIMILE SECTION
151
2.2. SPECIFICATIONS
13
7.4. NCU SECTION
162
2.3. OPTIONAL ACCESSORIES
13
7.5. ITS (Integrated telephone System) and MONITOR
3 INSTALLATION
7 CIRCUIT OPERATIONS
14
SECTION
148
164
3.1. LOCATION OF CONTROLS
14
7.6. CIS CONTROL SECTION
166
3.2. CONNECTIONS
16
7.7. STEPPING MOTOR DRIVE SECTION
167
3.3. INSTALLATION
17
7.8. FAN MOTOR SECTION
171
29
7.9. SOLENOID DRIVE SECTION
173
4 MAINTENANCE
7.10. LSU (Laser Scanning Unit) SECTION
174
29
7.11. SENSORS AND SWITCHES SECTION
176
4.2. PRINTING
31
7.12. OPERATION BOARD SECTION
185
4.3. PRINTING (PAPER PICK UP)
32
7.13. LCD SECTION
186
4.4. SCANNING (ADF)
33
7.14. HVPS (High Voltage Power Supply) SECTION
187
4.5. MAINTENANCE
34
7.15. HEAT LAMP CONTROL CIRCUIT
189
4.6. DOCUMENT JAMS
37
7.16. POWER SUPPLY BOARD SECTION
195
4.7. RECORDING PAPER JAMS
38
4.1. MAINTENANCE ITEMS AND COMPONENT LOCATIONS
5 DISASSEMBLY INSTRUCTIONS
8 REFERENCE MATERIALS DATA
198
41
8.1. PRINTING OPERATION PRINCIPLE
5.1. UPPER MAIN CABINET SECTION
42
8.2. TERMINAL GUIDE OF THE ICs TRANSISTORS AND
5.2. LOWER MAIN CABINET SECTION
43
5.3. HOW TO REMOVE THE OPERATION PANEL ASS’Y
44
8.3. HOW TO REPLACE THE FLAT PACKAGE IC
207
5.4. HOW TO REMOVE THE PICK UP UNIT
45
8.4. DIGITAL BOARD SECTION
209
5.5. HOW TO REMOVE THE PICK UP ROLLER
46
8.5. MODEM SECTION
211
5.6. HOW TO REMOVE THE OPERATION BOARD
47
8.6. TEST CHART
217
5.7. HOW TO REMOVE THE LOWER FLAME
48
9 FIXTURES AND TOOLS
219
5.8. HOW TO REMOVE THE SEPARATION RUBBER
48
DIODES
198
206
10 CABINET, MECHANICAL AND ELECTRICAL PARTS
5.9. HOW TO REMOVE THE TRANSFER ROLLER
49
5.10. HOW TO REMOVE THE SEPARATION ROLLER
50
10.1. GENERAL SECTION
220
5.11. HOW TO REMOVE THE BOTTOM PLATE
51
10.2. OPERATION COVER SECTION (1)
221
5.12. HOW TO REMOVE THE ANALOG BOARD
51
222
223
LOCATION
5.13. HOW TO REMOVE THE HIGH VOLTAGE POWER
220
52
10.5. PICK UP SECTION
224
5.14. HOW TO REMOVE THE LASER UNIT
52
10.6. FUSER SECTION
225
5.15. HOW TO REMOVE THE FAN UNIT
53
226
10.8. LOWER MAIN CABINET SECTION (1)
227
228
BOARD
5.16. HOW TO REMOVE THE LOW VOLTAGE POWER
BOARD
53
5.17. HOW TO REMOVE THE SOLENOID
54
10.10. LOWER CABINET SECTION (3)
229
5.18. HOW TO REMOVE THE HANDSET HOLDER
54
10.11. ACTUAL SIZE OF SCREWS AND WASHER
230
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KX-FL513RU
11 ACCESSORIES AND PACKING MATERIALS
231
15.1. ANALOG BOARD (PCB2)
248
12 REPLACEMENT PARTS LIST
232
15.2. OPERATION BOARD (PCB3)
250
12.1. CABINET AND ELECTRICAL PARTS
232
15.3. HIGH VOLTAGE POWER SUPPLY BOARD (PCB4)
252
12.2. ACCESSORIES AND PACKING MATERIALS
234
15.4. LOW VOLTAGE POWER SUPPLY BOARD (PCB5)
253
12.3. DIGITAL BOARD PARTS
234
15.5. EXIT SENSOR BOARD (PCB6)
254
12.4. ANALOG BOARD PARTS
237
15.6. DRUM AND TONER SENSOR BOARD (PCB7)
254
12.5. OPERATION BOARD PARTS
239
15.7. VARISTOR BOARD (PCB8)
254
12.6. HIGH VOLTAGE POWER SUPPLY BOARD PARTS
240
12.7. LOW VOLTAGE POWER SUPPLY BOARD PARTS
240
16.1. DIGITAL BOARD (PCB1)
255
12.8. EXIT SENSOR BOARD PARTS
241
257
12.9. DRUM AND TONER SENSOR BOARD PARTS
241
259
12.10. VARISTOR BOARD PARTS
241
261
12.11. FIXTURES AND TOOLS
241
263
13 FOR THE SCHEMATIC DIAGRAMS
243
16.6. EXIT SENSOR BOARD PARTS (PCB6)
265
14 SCHEMATIC DIAGRAM
244
265
244
265
16 PRINTED CIRCUIT BOARD
248
3
255
KX-FL513RU
1 INTRODUCTION
1.1.
1.1.1.
TRANSLATION LISTS
LCD MESSAGE
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KX-FL513RU
1.1.2.
ERROR CODE TABLE
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1.2.
ABOUT LEAD FREE SOLDER (PbF: Pb free)
Note:
In the information below, Pb, the symbol for lead in the periodic table of elements, will refer to standard solder or solder that
contains lead.
We will use PbF solder when discussing the lead free solder used in our manufacturing process which is made from Tin, (Sn),
Silver, (Ag), and Copper, (Cu).
This model, and others like it, manufactured using lead free solder will have PbF stamped on the PCB. For service and repair
work we suggest using the same type of solder although, with some precautions, standard Pb solder can also be used.
Caution
• PbF solder has a melting point that is 50° ~ 70° F, (30° ~ 40°C) higher than Pb solder. Please use a soldering iron with
temperature control and adjust it to 700° ± 20° F, (370° ± 10°C). In case of using high temperature soldering iron, please
be careful not to heat too long.
• PbF solder will tend to splash if it is heated much higher than its melting point, approximately 1100°F, (600°C).
• If you must use Pb solder on a PCB manufactured using PbF solder, remove as much of the original PbF solder as possible
and be sure that any remaining is melted prior to applying the Pb solder.
• When applying PbF solder to double layered boards, please check the component side for excess which may flow onto the
opposite side (See figure, below).
1.2.1.
SUGGESTED PBF SOLDER
There are several types of PbF solder available commercially. While this product is manufactured using Tin, Silver, and Copper,
(Sn+Ag+Cu), you can also use Tin and Copper, (Sn+Cu), or Tin, Zinc, and Bismuth, (Sn+Zn+Bi). Please check the manufacturer’s specific instructions for the melting points of their products and any precautions for using their product with other
materials.
The following lead free (PbF) solder wire sizes are recommended for service of this product: 0.3mm, 0.6mm and 1.0mm.
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KX-FL513RU
1.3.
HOW TO RECOGNISE THAT Pb FREE SOLDER IS USED
P.C.Boards marked as “PbF” use Pb Free solder. (See the figure below.)
Pb Free is not used the Power Supply Board of this unit.
1
16
1
E
R737
RA609 +3.3V/BAT
D602
IC610
J600
BAT600
8
PFUP1330YA
Q613
R610 R613
C728
R611
L620 C731
C717
R723
8
R736
C666
CN612
25 F605
26
C668
50
RA610
L618
L619
L621
25
L643
L605
L606
L604
C672
51
IC605
L642
RA602
C738
L630
1
L654
L657 L655
L656
R768
R769
R767
H
100
75
R708
L653
76
C667
L661
L660
Q609
C694
658
L659
L624
L625
L626
R70
(Example :Digital board)
E
Q620
D608
9
D607
PbF
C726
+24V
Marked
DIGITAL BOARD COMPONENT VIEW
Note : The “PbF” marked may be found on different areas of the same P.C.Board,depending on manufacture date.
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KX-FL513RU
1.4.
SAFETY PRECAUTIONS
1. Before servicing, unplug the AC power cord to prevent an electric shock.
2. When replacing parts, use only the manufacturer´s recommended components.
3. Check the condition of the power cord. Replace if wear or damage is evident.
4. After servicing, be sure to restore the lead dress, insulation barriers, insulation papers, shields, etc.
5. Before returning the serviced equipment to the customer, be sure to perform the following insulation resistance test to prevent
the customer from being exposed to shock hazards.
1.5.
INSULATION RESISTANCE TEST
1. Unplug the power cord and short the two prongs of the plug with a jumper wire.
2. Turn on the power switch.
3. Measure the resistance value with an ohmmeter between the jumpered AC plug and each exposed metal cabinet part
(screw heads, control shafts, bottom frame, etc.).
Note: Some exposed parts may be isolated from the chassis by design. These will read infinity.
4. If the measurement is outside the specified limits, there is a possibility of a shock hazard.
1.6.
FOR SERVICE TECHNICIANS
ICs and LSIs are vulnerable to static electricity.
When repairing, the following precautions will help prevent recurring malfunctions.
1. Cover the plastic part´s boxes with aluminum foil.
2. Ground the soldering irons.
3. Use a conductive mat on the worktable.
4. Do not touch the IC or LSI pins with bare fingers.
1.7.
BATTERY CAUTION
CAUTION
There is a danger of explosion if the battery is incorrectly replaced. Replace only with the same or equivalent type
recommended by the manufacturer. Dispose used batteries according to the manufacturerís instructions:
The lithium battery is a critical component (type No. CR-2032/V9A). Please observe for the proper polarity and exact location
when replacing and soldering the replacement battery.
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KX-FL513RU
1.8.
AC CAUTION
For safety, before closing the lower cabinet, please make sure of the following precautions.
1. The earth lead is fixed with the screw.
2. The AC connector is connected properly.
3. Wind the earth lead around the core 4 times.
4. Wind the earth AC around the core 4 times.
1.9.
1.9.1.
PERSONAL SAFETY PRECAUTIONS
MOVING SECTIONS OF THE UNIT
Be careful not to let your hair, clothes, fingers, accessories, etc., become caught in any moving sections of the unit.
The moving sections of the unit are the rollers and a gear. There is a separation roller and a document feed roller which are rotated
by the document feed motor. A gear rotates the two rollers. Be careful not to touch them with your hands, especially when the unit
is operating.
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KX-FL513RU
1.9.2.
LIVE ELECTRICAL SECTIONS
All the electrical sections of the unit supplied with AC power by the AC power cord are live.
Never disassemble the unit for service with the AC power supply plugged in.
CAUTION:
AC voltage is supplied to the primary side of the power supply unit. Therefore, always unplug the AC power cord before
disassembling for service.
1.9.3.
LASER BEAM AND FUSER UNIT SECTION
• The printer of this unit utilizes a laser. Use of controls or adjustments or performance of procedures other than those specified
herein may result in hazardous radiation exposure.
• The fuser unit is inside of the unit and gets hot. Do not touch it when removing the jammed paper or cleaning the lower glass.
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KX-FL513RU
1.10. SERVICE PRECAUTIONS
1.10.1. PRECAUTIONS TO PREVENT DAMAGE FROM STATIC ELECTRICITY
Electrical charges accumulate on a person. For instance, clothes rubbing together can damage electric elements or change their
electrical characteristics. In order to prevent static electricity, touch a metallic part that is grounded to release the static electricity.
Never touch the electrical sections such as the power supply unit, etc.
1.11. FOR BEST PERFORMANCE
• To extend the life of the drum unit, the unit should never be turned OFF immediately after printing. Leave the power turned ON
for a minimum of 30 minutes after printing.
• In the printing process, heat is used to fuse toner onto the page. As a result, it is normal for the machine to produce an odor
during and shortly after printing. Be sure to use this unit in an area with proper ventilation.
• Do not cover slots or openings on the unit. Inspect the air circulation vents regularly and remove any dust build-up with a
vacuum cleaner.
• If the inside of the unit is dirty, clean it with a soft and dry cloth (especially the lower glass).
• When replacing the toner cartridge or drum unit, do not allow dust, water, or liquids to come in contact with the drum. This may
affect print quality.
• Store unused paper in the original packaging, in a cool and dry place. Not doing so may affect print quality.
• Do not place the unit in an area where the paper tray may be obstructed (i.e., by a wall,etc.).
• Keep the air circulation vents away from walls etc.more than 50 mm (1 31 / ") to let the unit cool down.
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KX-FL513RU
2 FEATURES AND SPECIFICATIONS
2.1.
FEATURES
General
• Help function
Display: Refer to LCD MESSAGE (P.4).
1. FEATURE LIST
2. DIRECTORY
3. FAX RECEIVING
4. CALLER ID
• LCD (Liquid Crystal Display) readout
• TAM (Telephone answering machine) interface
Plain Paper Facsimile Machine
• G3 compatible
• Automatic document feeder (20 sheets)
• Quick scan
• Resolution: Standard/Fine/Super fine/Photo/Photo with text.
(64 level)
− STANDARD: For printed or typewritten originals with
normal-sized characters.
− FINE: For originals with small printing.
− SUPER FINE: For originals with very small printing.
− PHOTO: For originals containing photographs, shaded
drawing,etc.
− PHOTO WITH TEXT:
photograph and text.
For
originals
containing
• Broad cast
• 220-sheet paper capacity (60 g/m2~ 75 g/m2[16 lb~20 lb.])
Large Memory... Performed by DRAM
Approx. 120 pages of memory transmission
Approx. 170 pages of memory reception
Integrated Telephone System
• On-hook dialing
• Monitor speaker
• Voice muting
• Redialing function
• 122-Station telephone directory
Enhanced Copier Function
• Multi-copy function (up to 99 copies)
• Enlargement and reduction
• Collate
• 64-Level halftone
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KX-FL513RU
2.2.
SPECIFICATIONS
Applicable Lines:
Document Size:
Public Switched Telephone Network
Max. 216 mm (8 1/2”) in width
Effective Scanning Width:
Effective Printing Width:
Transmission Time*:
Scanning Density:
Max. 600 mm (23 5/8”) in length
208 mm (8 3/16”)
A4 : 202mm
Approx. 8 s/page (ECM-MMR Memory transmission)**
Horizontal:
8 pels/mm (203 pels/inch)
Vertical:
3.85 lines/mm (98 lines/inch)-STANDARD
7.7 lines/mm (196 lines/inch)-FINE/PHOTO/PHOTO WITH TEXT
Halftone Level:
Scanner Type:
Printer Type:
Data Compression System:
Modem Speed:
Operating Environment:
Dimensions (H×W×D):
Mass (Weight):
Power Consumption:
15.4 lines/mm (392 lines/inch)-SUPER FINE
64-level
Contact Image Sensor (CIS)
Laser printer
Modified Huffman (MH), Modified READ (MR), Modified, Modified READ (MMR)
14,400/12,000/9,600/7,200/4,800/2,400 bps; Automatic Fallback
10°C—32.5°C (50°F—90.5°F), 20—80% RH (Relative Humidity)
220 mm × 430 mm × 360 mm (8 21/32”×16 15/16”×14 5/32”)
Approx. 9 kg (19.8 lb.)
Standby: Approx. 4 W
Transmission: Approx. 12W
Reception: Approx. 290 W
Copy: Approx. 290 W
Power Supply:
Memory Capacity:
Maximum: Approx. 950W (When the fuser lamp turns on)
220-240 V AC, 50/60Hz
Approx. 120 pages of memory transmission.
Approx. 170 pages of memory reception.
Laser diode properties:
(Based on ITU-T No. 1 Test Chart in standard resolution.)
Laser output: Max. 5 mW
Wave length: 760 nm—800 nm
Print Speed:
Printing Resolution:
Emission duration: Continuous
12 ppm (page per minute)
600 × 600 dpi
* Transmission speed depends upon the contents of the pages, resolution, telephone line conditions and capability of the other
party’s machine.
** Transmission speed is based upon the ITU-T No. 1 Test Chart and original mode. (Refer to ITU-T No.1 TEST CHART(P.217).)
If the capability of the other party´s machine is inferior to your unit, the transmission time may be longer.
Note:
• Any details given in these instructions are subject to change without notice.
• The pictures and illustrations in these instructions may vary slightly from the actual product.
Design and specifications are subject to change without notice.
2.3.
OPTIONAL ACCESSORIES
Model No.
KX-FA83A or KX-FA83E Toner cartridge
KX-FA84A or KX-FA84E Drum unit
Description
Specifications
1 toner cartridge
1 drum unit
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KX-FL513RU
3 INSTALLATION
3.1.
3.1.1.
LOCATION OF CONTROLS
OVERVIEW
Note:
*The paper stacker and document stacker may not be shown in all illustrations.
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3.1.2.
CONTROL PANEL
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3.2.
CONNECTIONS
(1) Connect the handset cord.
(2) Connect the telephone line cord.
(3) Connect the power cord.
• When the power is turned on for the first time, the unit will print some basic information.
Caution:
• When you operate this product, the power outlet should be near the product and easily accessible.
• Be sure to use the telephone line cord included in this unit..
• Do not extend the telephone line cord.
Note:
• The warranty does not cover damage due to power line surges or lightning. For additional equipment protection, we
recommend the use of a surge protector. The following types are available: TELESPIKE BLOK MODEL TSB (TRIPPE MFG.
CO.), SPIKE BLOK MODEL SK6-0 (TRIPPE MFG. CO.), SUPER MAX (PANAMAX) or MP1 (ITW LINX).
• To avoid malfunction, do not position fax machine near appliances such as TVs or speakers which generate an intense
magnetic field.
• If any other device is connected on the same line, this unit may disturb the network condition of the device.
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KX-FL513RU
3.3.
3.3.1.
INSTALLATION
INSTALLATION SPACE
The space required to install the unit is shown below.
The dimensions given are necessary for the unit to operate efficiently.
Note:
• Avoid excessive heat or humidity.
• Use the unit within the following ranges of temperature and humidity.
• Ambient temperature: 10°C to 32.5°C
• Relative humidity: 20% to 80% (without condensation)
• Power cord length should be less than 5 meters (16.4 feet). Using a longer cord may reduce the voltage or cause
malfunctions.
• Avoid direct sunlight.
• Do not install near devices which contain magnets or generate magnetic fields.
• Do not subject the unit to strong physical shock or vibration.
• Keep the unit clean. Dust accumulation can prevent the unit from functioning properly.
• To protect the unit from damage, hold both sides when you move it.
• Do not place the unit in an area where the paper tray may be obstructed (i.e., by a wall, etc.)
• Keep this surface ( ) away from walls etc. more than 50 mm (1 31/32”) to let the unit cool down.
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3.3.2.
PAPER STACKER
Line up the slots ( ) in the paper stacker with the pegs ( ) on the
bottom of the unit, then insert the two tabs of the paper stacker into the
slots on the unit ( ).
• The paper stacker can hold up to approximately 100 sheets of
printed paper. Remove the printed paper before the paper stacker
becomes full.
3.3.3.
DOCUMENT STACKER
Pull the document stacker ( ) forward gently until it clicks into place,
then press the center part of the document stacker ( ) to open the
document stacker extender ( ).
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3.3.4.
PAPER TRAY
Insert the paper tray ( ) into the slot ( ) on the back of the unit.
Note for installation:
• Do not place the unit in an area where the paper tray may be
obstructed (i.e. by a wall etc.).
• Document and recording paper will be ejected from the front
of the unit. Do not place anything in front of the unit.
• Keep this surface ( ) away from walls etc. more than 50 mm
to let the unit cool down.
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3.3.5.
INSTALLING THE RECORDING PAPER
A4, Letter or legal size recording paper can be used for fax messages. The unit can hold up to 220 sheets of 60/75 g/m2 to (16
lb. to 20 lb.) paper, 200 sheets of 80 g/m2 (21 lb.) or 180 sheets of 90 g/m2 (24 lb.) paper. See the note for paper specifications.
• The unit is set for letter size paper by default. If you want to use legal or A4 size paper, change the setting (feature #16).
1.
Before inserting a stack of paper, fan the paper to prevent paper
jams.
2.
Pull the tension plate forward ( ) and insert the paper, print-side
down ( ), then push the tension plate ( ) back.
• The paper should not be over the tabs ( )
• If the paper is not inserted correctly, readjust the paper, or the
paper may be jam.
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3.3.6.
3.3.6.1.
DOCUMENTS THE UNIT CAN SEND
USING THE ADF (AUTO DOCUMENT FEEDER)
Note:
• Remove chips, staples or other similar fasteners.
• Do not send the following types of documents. (Use copies for fax transmission.)
— Chemically treated paper such as carbon or carbonless duplicating paper
— Electrostatically charged paper
— Badly curled, creased or torn paper
— Paper with a coated surface
— Paper with a faint image
— Paper with printing on the opposite side that can be seen through the other side (i.e. newspaper)
Note for the auto document feeder and the scanner glass
• Check that ink, paste or correction fluid has dried completely.
• To transmit the document with a width of less than A4 size (210 mm), we recommend using a copy machine to copy the
original document onto letter-sized paper, then transmitting the copied document.
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3.3.7.
TO SELECT CHARACTERS WITH THE DIAL KEYPAD
Pressing the dial keys will select a character as shown below.
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3.3.8.
TO SELECT CHARACTERS USING THE (+) OR (-) KEY
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3.3.9.
SETTING YOUR LOGO
The logo can be your company, division or name.
Refer to LCD MESSAGE (P.4).
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3.3.10. REPLACING THE TONER CARTRIDGE AND THE DRUM UNIT
When the display shows the following, replace the toner cartridge.
We recommend you replace the drum unit every fourth time you replace the toner cartridge. To check the drum life and quality,
please print the printer test list.
To ensure that the unit operates properly, we recommend the use of Panasonic toner cartridge (Model No. KX-FA83X) and
drum unit (Model No. KX-FA84X).
Caution:
• We cannot be responsible for any damage to the unit or degradation of print quality which may occur from the use
of non-Panasonic toner cartridge and drum unit.
• The drum unit contains a photosensitive drum. Exposing it to light may damage the drum. Once you have opened
the protection bag:
—Do not expose the drum unit to light for more than 5 minutes.
—Do not touch or scratch the green drum surface.
—Do not place the drum unit near dust or dirt, or in a high humidity area.
—Do not expose the drum unit to direct sunlight.
• Do not unplug the fax machine to prevent loss of fax documents in memory.
• Do not leave the toner cartridge out of the protection bag for a long time. It will decrease the toner life.
• Do not pour any toner into the toner cartridge.
1. Before opening the protection bag of the new toner cartridge, shake
it vertically more than 5 times.
2. Remove the new toner cartridge from the protection bag.
Peel off the seal ( ) from the toner cartridge.
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3. Lift open the front cover ( ), holding OPEN ( ).
4. Tap on the used toner cartridge several times to allow the remaining
toner to fall into the drum unit. Remove the drum and toner unit ( )
by holding the two tabs.
• Do not touch the transfer roller ( ).
• If you replace the toner cartridge and the drum unit at the same
time, skip to step 7.
5. Turn the two levers ( ) on the used toner cartridge firmly, until the
triangles ( ) match.
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6. Remove the used cartridge ( ) from the drum unit ( ).
• The toner may stick to the cartridge and the drum unit. Be
careful when handling.
• Do not drop the toner on the green drum surface ( ).
• Put the used toner cartridge into the protection bag.
7. If you replace the drum unit at the same time, remove the new drum
unit from the protection bag.
Place the toner cartridge ( ) into the drum unit ( ) vertically.
8. Firmly press down the toner cartridge to snap into position.
9. Turn the two levers ( ) on the toner cartridge firmly.
10. Make sure that the triangles ( ) match, to install the toner cartridge
correctly.
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11. Install the drum and toner unit ( ) by holding the tabs.
• If the lower glass ( ) is dirty, clean it with a soft dry cloth.
12. Close the front cover ( ) by pushing down on both sides, until
locked.
• While the unit displays “PLEASE WAIT”, do not open the front
cover, or disconnect the power cord.
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KX-FL513RU
4 MAINTENANCE
4.1.
4.1.1.
MAINTENANCE ITEMS AND COMPONENT LOCATIONS
OUTLINE
MAINTENANCE AND REPAIRS ARE PERFORMED USING THE FOLLOWING STEPS.
1. Periodic maintenance
Inspect the equipment periodically and if necessary, clean any contaminated parts.
2. Check for breakdowns
Look for problems and consider how they arose.
If the equipment can be still used, perform copying, self testing or communication testing.
3. Check equipment
Perform copying, self testing and communication testing to determine if the problem originates from the transmitter, receiver or
the telephone line.
4. Determine causes
Determine the causes of the equipment problem by troubleshooting.
5. Equipment repairs
Repair or replace the defective parts and take appropriate measures at this stage to ensure that the problem will not recur.
6. Confirm normal operation of the equipment
After completing the repairs, conduct copying, self testing and communication testing to confirm that the equipment operates
normally.
7. Record keeping
Make a record of the measures taken to rectify the problem for future reference.
4.1.2.
MAINTENANCE CHECK ITEMS/COMPONENT LOCATIONS
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KX-FL513RU
4.1.2.1.
NO.
1
2
Maintenance List
OPERATION
Document Path
Rollers
CHECK
REMARKS
Remove any foreign matter such as paper.
—
If the roller is dirty, clean it with a damp cloth then dry Refer to MAINTENANCE CHECK
thoroughly.
ITEMS/COMPONENT LOCATIONS(
P.29).()
Sensors
Document sensor (PS500), Paper feed sensor (PS501), Printer See MAINTENANCE CHECK
cover open switch (SW101),ADF cover open sensor (SW501), ITEMS/COMPONENT LOCATIONS(P.29)
FB cover open sensor (SW500), ADF CIS position sensor and SENSORS AND SWITCHES
(PS502),FB CIS position sensor (PS503)Resist sensor (PC201) SECTION(P.176)TEST FUNCTIONS(P.65)
,Paper exit sensor (PS50). Paper sensor (PS1)Confirm the
operation of the sensors.
Glass
If the glass is dirty, clean them with a dry soft cloth.
Refer to MAINTENANCE(P.34).
Abnormal, wear and tear Replace the part. Check if the screws are tight on all parts.
—
or loose parts
3
4
5
4.1.2.2.
Maintenance Cycle
No.
Item
Cleaning Cycle
1
ADF Separation Roller (Ref.No.50)
3 months
2
Paper Feed Roller (Ref.No.154)
3 months
3
ADF Separation Rubber (Ref. No.35)
3 months
4
ADF Exit Roller (Ref.No.34)
3 months
5
Pick up Roller (Ref No.108)
3 months
6
Separation Rubber (Ref. No.99)
3 months
7
Document Feed Roller (Ref.No.154)
3 months
8
Transfer Roller (Ref.No.73)
3 months
9
Pressure Roller (Ref.No.120)
3 months
10
Heat Roller (Ref.No.127)
3 months
11
Exit Roller (Ref.No.142)
3 months
If each part has got dirty, clean it with a damp cloth then dry thoroughly.
* These values are standard and may vary depending on usage conditions.
30
Replacement
Cycle
Procedure
7 years* (100,000 documents) Refer to HOW TO REMOVE THE
SEPARATION ROLLER (P.50).
7 years (100,000 documents) Refer to HOW TO REMOVE THE
SEPARATION RUBBER (P.48).
PICK UP UNIT (P.46).
PICK UP ROLLER (P.45).
7 years (100,000 documents) Refer to
HOW TO REMOVE THE
SEPARATION RUBBER (P.48)
TRANSFER ROLLER (P.49).
7 years (100,000 documents) Refer to FUSER SECTION
(P.225).
(P.225).
(P.225).
KX-FL513RU
4.2.
PRINTING
• The motor pinion rotates in the direction shown in the figure.
• The gears of fixing and developing parts are driven by the GEAR IDLER 67.
• The GEAR PAPER FEED ROLLER drives the roller.
• The GEAR CLUTCH runs idle and GEAR PICKUP PAPER is still.
31
KX-FL513RU
4.3.
PRINTING (PAPER PICK UP)
During printing
• When the SOLENOID is turned ON, the LEVER PICK UP CLUTCH is hooked on the RING of GEAR CLUTCH. It causes
the GEAR PICKUP PAPER to rotate.
• The recording paper is pressed by the PICKUP ROLLER and the top paper is separated and fed.
• Even the SOLENOID is turned OFF, it can not stop on the way of a turn because the tip of LEVER PICK UP CLUTCH is
on the CAM of GEAR PICKUP PAPER.
• When the tip of LEVER PICK UP CLUTCH returns to CAM´s home position, the GEAR CLUTCH RING is unhooked, then
the GEAR PICKUP PAPER is stopped.
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KX-FL513RU
4.4.
SCANNING (ADF)
• DOCUMENT TRANSMISSION (ADF)
When the tip of the document is set to a point of contact between the separation roller and the separation pad through the
document feed roller, then the document is fed there separately. The document feed roller carries the document
and the CIS reads it through the glass. The document is exited through the document feed roller.
33
KX-FL513RU
4.5.
MAINTENANCE
If a black line, a white line or a dirty pattern appears on your recording paper, on your original, or on the fax document received
by the other party, clean the white plate, scanner glass and lower glass.
4.5.1.
CLEANING THE INSIDE OF THE UNIT
If any of the following problems occurs, clean the inside of the unit:
— If misfeeding of your original occurs frequently.
— If a black line, a white or dirty pattern appears on your recording paper, on your original, or on the fax document received
by the other party.
Caution:
• Be careful when handling the toner and drum unit.
• Do not use paper products, such as paper towels or tissues, to clean inside of the unit.
1. Disconnect the power cord and the telephone line cord.
2. Lift open the front cover ( ) , holding OPEN ( ).
3. Clean the document separation roller ( ) with a cloth moistened with
isopropyl rubbing alcohol, and let all parts dry thoroughly.
4. Hold the center part of the front cover ( ), and pull open the inner
cover ( ).
34
KX-FL513RU
5. Clean the document feeder roller ( ) with a cloth moistened with
isopropyl rubbing alcohol, and let all parts dry thoroughly.
Clean the upper glass ( ) with a soft and dry cloth.
6. Push back the inner cover.
7. Remove the drum and toner unit ( ) by holding the two tabs.
8. Clean the lower glass ( ) with a soft and dry cloth.
9. Reinstall the drum and toner unit
) by holding the tabs.
35
KX-FL513RU
10. Close the front cover ( ) by pushing down on both sides, until
locked.
11. Reconnect the power cord and the telephone line cord.
Note:
36
KX-FL513RU
4.6.
DOCUMENT JAMS
If the unit does not release the document during feeding, remove the jammed document as follows.
2. Hold the center part of the front cover ( ), and pull open the
inner cover ( ).
3. Remove the jammed document carefully ( ).
4. Push back the inner cover.
5. Close the front cover ( ) by pushing down on both sides,
until locked.
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KX-FL513RU
Note:
• Do not pull out the jammed document forcibly before
opening the front cover.
4.7.
4.7.1.
RECORDING PAPER JAMS
When the recording paper has jammed in the unit
If the unit does not eject any recording paper during reception or copying, the recording paper has jammed and the display will
show the following massage.
The display will show the following.
2. Remove the jammed paper.
When the recording paper has jammed near the drum and
toner unit:
Remove the jammed paper ( ) carefully
by pulling it toward you.
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KX-FL513RU
When the recording paper has jammed near the recording
paper exit:
1. Remove the recording paper ( ), then remove the drum and
toner unit ( ) to allow the jammed paper ( ) to pull free from the
rear cabinet.
2. Lift both green levers ( ) forward until they stop.
3. Remove the jammed paper ( ) from the fuser unit by pulling it
upwards carefully, then install the drum and toner unit.
4. Push back the levers ( ) to the original position.
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KX-FL513RU
3 Close the front cover ( ) by pushing down on both sides, until
locked. Pull the tension plate forward ( ) and re-insert the
recording paper ( ), then push back the tension plate.
• Before re-inserting, make sure to fan and straighten the
recording paper.
4.7.2.
When the recording paper is not fed into the unit properly
The display will show the following.
1. Remove the recording paper. Pull the tension plate forward ( )
and re-insert the recording paper ( ), then push back the tension
plate.
• Before re-inserting, make sure to fan and straighten the
recording paper.
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KX-FL513RU
5 DISASSEMBLY INSTRUCTIONS
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KX-FL513RU
5.1.
UPPER MAIN CABINET SECTION
CROSS REFERENCE:
A1: HOW TO REMOVE THE OPERATION PANEL ASS’Y (P.44)
A2: HOW TO REMOVE THE PICK UP UNIT (P.45)
A3: HOW TO REMOVE THE PICK UP ROLLER (P.46)
A4: HOW TO REMOVE THE OPERATION BOARD (P.47)
A5: HOW TO REMOVE THE LOWER FLAME (P.48)
A6: HOW TO REMOVE THE SEPARATION RUBBER (P.48)
A7: HOW TO REMOVE THE TRANSFER ROLLER (P.49)
A9: HOW TO REMOVE THE FAN UNIT (P.53)
A10: HOW TO REMOVE THE LOW VOLTAGE POWER BOARD (P.53)
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KX-FL513RU
5.2.
LOWER MAIN CABINET SECTION
CROSS REFERENCE:
A1: HOW TO REMOVE THE OPERATION PANEL ASS’Y (P.44)
A5: HOW TO REMOVE THE LOWER FLAME (P.48)
A6: HOW TO REMOVE THE SEPARATION RUBBER (P.48)
A7: HOW TO REMOVE THE TRANSFER ROLLER (P.49)
B1: HOW TO REMOVE THE BOTTOM PLATE (P.51)
B2: HOW TO REMOVE THE ANALOG BOARD (P.51)
B3: HOW TO REMOVE THE HIGH VOLTAGE POWER BOARD (P.52)
B4: HOW TO REMOVE THE LASER UNIT (P.52)
B5: HOW TO REMOVE THE SOLENOID (P.54)
43
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5.3.
HOW TO REMOVE THE OPERATION PANEL ASS’Y
44
KX-FL513RU
5.4.
HOW TO REMOVE THE PICK UP UNIT
45
KX-FL513RU
5.5.
HOW TO REMOVE THE PICK UP ROLLER
46
KX-FL513RU
5.6.
HOW TO REMOVE THE OPERATION BOARD
47
KX-FL513RU
5.7.
HOW TO REMOVE THE LOWER FLAME
5.8.
HOW TO REMOVE THE SEPARATION RUBBER
48
KX-FL513RU
5.9.
HOW TO REMOVE THE TRANSFER ROLLER
49
KX-FL513RU
5.10. HOW TO REMOVE THE SEPARATION ROLLER
50
KX-FL513RU
5.11. HOW TO REMOVE THE BOTTOM PLATE
5.12. HOW TO REMOVE THE ANALOG BOARD
51
KX-FL513RU
5.13. HOW TO REMOVE THE HIGH VOLTAGE POWER BOARD
5.14. HOW TO REMOVE THE LASER UNIT
52
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5.15. HOW TO REMOVE THE FAN UNIT
5.16. HOW TO REMOVE THE LOW VOLTAGE POWER BOARD
53
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5.17. HOW TO REMOVE THE SOLENOID
5.18. HOW TO REMOVE THE HANDSET HOLDER
54
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5.19. HOW TO REMOVE THE MAIN MOTOR
55
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5.20. HOW TO REMOVE THE FUSER UNIT
56
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5.21. HOW TO REMOVE THE CIS
57
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5.22. NOTE FOR ASSEMBLING
5.22.1. FCC (DIGITAL BOARD)
5.22.2. DOCUMENT STACKER
5.22.3. THERMOSTAT
58
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5.23. INSTALLATION POSITION OF THE LEAD
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KX-FL513RU
6 TROUBLESHOOTING GUIDE
6.1.
USER RECOVERABLE ERRORS
If the unit detects a problem, one or more of the following messages will appear on the display.
The explanations given in the [ ] are for servicemen only.
DISPLAY MESSAGE
CAUSE AND REMEDY
• Polygon motor error.
Refer to CALL SERVICE 1 (P.85).
• Laser beam error. Replace LSU unit.
• Fuser unit cannot heat up. Replace fuser unit.
• Fan motor error. Replace fan motor.
• There is something wrong with the drum unit. Replace the drum unit and the toner cartridge.
• The document is not fed into the unit properly. Reinsert the document. If misfeeding occurs frequently,
clean the document feeder rollers and try again.
• The drum unit is not inserted properly. Reinsert it correctly.
• The installed drum is worn out. Replace the drum unit with a new one.
• The memory (telephone numbers, parameters, etc.) has been erased. Re-program.
• The front cover is open. Close it.
• There is no space to store new entries in navigator directory. Erase unnecessary entries.
• The drum life is complete. Replace the drum unit immediately.
• Recording paper was not fed into the unit properly. Reinsert the recording paper.
• The unit has a document in memory. See the other displayed message instructions to print out the
document.
• The memory is full of received documents due to lack of recording paper or a recording paper jam, etc.
Install paper or clear the jammed paper.
• When performing memory transmission, the document being stored exceeds the memory capacity of the
unit. Transmit the entire document manually.
• The inside of the unit is extremely cold and cannot be operated. Use the unit in a warmer area. While the
unit cannot be operated, the received documents are temporarily stored into the memory, and will be
printed out automatically when the unit warms up.
• When making a copy, the document being stored exceeds the memory capacity of the unit. Press STOP
to clear the message. Divide the document into sections.
• There is something wrong with the modem circuit.
• The other party´s fax machine is busy or has run out of recording paper. Try again.
• Recording paper is not installed or the unit has run out of paper. Install paper.
• Recording paper is not fed into the unit properly. Reinstall paper.
• A recording paper jam occurred. Clear the jammed paper.
[If the printout jams, please refer to RECORDING PAPER JAMS (P.38).]
• The unit is warming up. Wait for a while.
• The other party’s fax machine does not offer the polling function. Check with the other party.
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KX-FL513RU
DISPLAY MESSAGE
CAUSE AND REMEDY
• The other party´s fax machine is busy or has run out of recording paper. Try again.
• The document is jammed. Remove the jammed document.
• Attempted to transmit a document longer than 600 mm (23 5/8”). Press the STOP
document. Divide the document into two or more sheets and try again.
to remove the
• [Alternately, turn off service code #559 to enable sending of documents longer than 600 mm] (Refer to
DOCUMENT JAMS (P.37).)
• The drum life is near to the end. Replace the drum unit as soon as possible.
• The toner life is complete. Replace the toner cartridge immediately.
• The toner life is near to the end. Replace the toner cartridge as soon as possible.
• A transmission error occurred. Try again.
• The inside of the unit is too cold. Let the unit warm up. Wait for a while.
• The fax message was printed on paper which is shorter than letter size paper. Use the appropriate size
paper.
• To prevent the drum unit becoming dirty, use A4 or letter size paper.
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6.2.
PROGRAMMING AND LISTS
The programming functions are used to program the various features and functions of the machine, and to test the machine.
This facilitates communication between the user and the service man while programming the unit.
6.2.1.
OPERATION
There are 2 basic categories of programming functions, the User Mode and the Service Mode. The Service Mode is further broken
down into the normal and special programs. The normal programs are those listed in the Operating Instructions and are available
to the user. The special programs are only those listed here and not displayed to the user. In both the User and Service Modes,
there are Set Functions and Test Functions. The Set Functions are used to program various features and functions, and the Test
Functions are used to test the various functions. The Set Functions are accessed by entering their code, changing the appropriate
value, then pressing the SET key. The Test Functions are accessed by entering their code and pressing the key listed on the menu.
While programming, to cancel any entry, press the STOP key.
6.2.2.
OPERATION FLOW
62
KX-FL513RU
6.2.3.
Code
SERVICE FUNCTION TABLE
Function
Set Value
Effective
Range
001~600
01~99
1, 2
Default
Remarks
030
085
1
----------------------------
1~9
1, 2
6
1
1, 2
1
501
502
503
Pause time set
Flash time
Dial speed select
514
520
Bell signal detect time
CED frequency select
521
International mode select
X 100 msec
X 10 ms
1:10 pps 2:20
pps
X 100msec
1:2100 Hz
2:1100 Hz
1:ON 2:OFF
522
Auto standby select
1:ON 2:OFF
1, 2
1
523
Receive equalizer select
1~4
1
524
Transmission equalizer select
1:
2:
3:
4:
1:
2:
3:
4:
1~4
1
529
544
Call Service Clear
Selecting the document feed position 0~4mm
0~4
2
550
551
552
553
Memory clear
ROM check
DTMF single tone test
Monitor on FAX communication
select
1, 2
1~3
2
1
554
555
556
557
558
561
570
571
Modem test
Scan check
Motor test
LED test
LCD test
KEY test
BREAK % select
ITS auto redial time set
572
573
ITS auto redial line disconnection
time set
Remote turn-on ring number set
590
FAX auto redial time set
591
592
FAX auto redial time disconnection
time set
CNG transmit select
593
Time between CED and 300bps
594
Overseas DIS detection select
595
Receive error limit value set
596
0 km
1.8 km
3.6 km
7.2 km
0 km
1.8 km
3.6 km
7.2 km
1:ON 2:OFF
1:OFF
2:PHASE B
3:ALL
0
1:61% 2:67%
X number of
times
X second
---------See Symptom/Countermeasure Table for long
distance and international calls in (P.119).
See Symptom/Countermeasure Table for long
distance and international calls in (P.119).
The resolution reverts to the default when
transmission is complete.
Set RX equalizer to automatic mode.
When the ADF function is incorrect, adjust the
feed position.
See (P.65).
See (P.65).
See (P.65).
Sets whether to monitor the line signal with the
unit´s speaker during FAX communication or not.
See (P.65).
See (P.65).
See (P.65).
See (P.65).
See (P.65).
See (P.65).
Sets the % break of pulse dialing according PBX.
Selects the number of times that ITS is redialed
(not including the first dial).
Sets the interval of ITS redialing.
1, 2
00~99
1
03
001~999
065
01~99
10
00~99
03
001~999
65
1:OFF
2:ALL
3:AUTO
1~3
2
1~3
1
1, 2
1
1~4
2
If the number of errors during transmission
exceeds this value, the sending side terminates
the call.
Transmit level set
1:75 msec
2:500 msec
3:1 sec
1:detects at
the 1st time
2:detects at
the 2st time
1: 5%
2: 10%
3: 15%
4: 20%
X dBm
- 15~00
13
598
Receiving sensitivity
43= -43 dBm
20~48
41
599
628
ECM frame size
H.V.P.S. check
1:256 2:64
1, 2
1
Selects the FAX transmission level. Refer to
(P.112)and (P.113).
Used when there is an error problem. Refer to
(P.119).
---------See (P.65).
X number of
rings
X number of
times
X second
63
Sets the number of rings before the unit starts to
receive a document in the TEL mode.
Selects the number of redial times during FAX
communication (not including the first dial).
Sets the FAX redial interval during FAX
communication.
Lets you select the CNG output during FAX
transmission. ALL: CNG is output at phase A.
AUTO: CNG id output only when automatic dialing
is performed. OFF: CNG id not output at phase A.
Refer to (P.112).
distance and international calls in (P.119). Refer
to (P.113) and (P.119).
distance and international calls in (P.119). Refer
to (P.112) and (P.119).
KX-FL513RU
Code
Function
Set Value
630
Paper Jam Cause Distinction Code
639
651
LSU test
Write system program into the Flash Rom with a tool.
655
677
710
Cause Distinction Code of Call Service 3
Fan test
Memory clear except History data
717
Transmit speed selection
718
Receive speed selection
721
722
763
Pause tone detect
Redial tone detect
CNG detect time for friendly
reception
771
T1 timer
774
T4 timer
815
852
853
854
861
Sensor & Vox check
Print test pattern
Top margin
Left margin
Paper size set
874
875
880
881
882
DTMF ON time
DTMF OFF time
History list
Journal 2 list
Journal 3 list
1:14400BPS
2:12000BPS
3:9600BPS
4:7200BPS
5:4800BPS
6:2400BPS
1:14400BPS
2:12000BPS
3:9600BPS
4:7200BPS
5:4800BPS
6:2400BPS
1:ON 2:OFF
1:ON 2:OFF
1:10 sec
2:20 sec
3:30 sec
1:35 sec
2:60 sec
X 100 sec
1:LETTER
2:A4
3:LEGAL
X msec
X msec
Effective
Range
Default
Remarks
0:No Paper Jam
1:The paper was pulled into the unit.
2:The paper was longer than the maximum length
of the register sensor.
3:The paper exit was not detected after the
registration.
4:The paper was longer than the maximum length
of the paper exit sensor.
5:The register sensor or paper exit sensor was
turned ON before the motor started to rotate.
6:The register sensor chattered.
7:The paper exit sensor chattered.
See (P.65).
See the parts number of the tool. (P.241). The
tool includes the operating manual for writing
program.
See (P.84).
See (P.65).
To reset the value to the default one, except
History data. Please restart a power supply after
clearing a memory.
Adjusts the speed to start training during FAX
transmission. Refer to (P.112) and
1~6
1
1~6
1
Adjusts the speed to start training during FAX
reception. Refer to (P.113) and
1, 2
1, 2
1~3
2
1
3
Selects the tone detection for pause in dialing.
Sets the tone detection mode after redialing.
Selects the CNG detection tone of friendly
reception.
1, 2
1
00~99
00
1~5
1~7
1~3
3
4
2
Sets a higher value when the response from the
other party needs more time during FAX
transmission.
Use this function when delay occurs in the line
and communication.
(ex. Mobile comm) does not work well.
See (P.65).
See (P.65).
----------------------------
060~200
060~200
90
90
------------------See (P.74).
See (P.117).
See (P.117).
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KX-FL513RU
6.3.
TEST FUNCTIONS
The codes listed below can be used to perform simple checks of some of the unit’s functions. When complaints are received
from customers, they provide an effective tool for identifying the locations and causes of malfunctions.
Test Mode
Type of Mode
Code
Function
Operation after code
input
“5” “5” “6”
0: Recording paper feed
1: Auto Document feed (STANDARD)
START
2: Auto Document feed (FINE)
3: Auto Document feed (SUPER FINE)
“5” “5” “4”
Telephone line circuit is connected automatically, output the following signals on
the circuit line.
START
1) OFF 2) 14400bps 3) 12000bps 4) 9600bps
5) 7200 bps 6) 4800bps 7) 2400bps 8) 300bps
9) 2100Hz 10) 1100Hz
“5” “5” “1”
Indicates the version and checks the sum of the ROM.
START
“5” “5” “8”
Checks the LCD indication.
Illuminates all the dots to check if they are normal.
START
Refer to OPERATION PANEL SECTION ( P.132).
“5” “5” “2”
Outputs the DTMF as single tones. Used to check the frequencies of the
individual DTMF tones. Refer to DTMF SINGLE TONE TRANSMIT SELECTION
1....ON
(P.67).
2....OFF
MOTOR TEST
Service Mode
MODEM TEST
Service Mode
ROM CHECK
Service Mode
LCD CHECK
Service Mode
DTMF SINGLE TEST
Service Mode
LED CHECK
Service Mode
KEY CHECK
Service Mode
CIS TEST
Service Mode
“5” “5” “5”
LSU TEST
Service Mode
“6” “3” “9”
MEMORY CLEAR
Service Mode
“5” “5” “0”
START
High Voltage Power
Supply Board
CHECK
FAN TEST
Service Mode
“6” “2” “8”
START
Service Mode
“6” “7” “7”
START
“5” “5” “7”
START
“5” “6” “1”
START (any key)
All LEDs above the operation panel board flash on and off, or are illuminated.
Checks the button operation.
Indicates the button code on the LCD while the button is pressed. Refer to
BUTTON CODE TABLE (P.67).
Refer to OPERATION PANEL SECTION ( P.132).
LED lights up, CIS scanning.
Refer to CIS (Contact Image Sensor) SECTION (P.139).
Laser radiates, Polygon rotates
Refer to LSU (Laser Scanning Unit) SECTION (P.174).
To reset the value to the default one, except the top margin (#853), left margin
(#854), time / day (#001), logo (#002), Fax no. (#003), History and Directory data.
Please restart a power supply after clearing a memory.
Refer to HIGH VOLTAGE VALUE CHECK POINT (P.140).
1:TEST OFF
2:High-speed rotation
3:Low-speed rotation
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KX-FL513RU
Test Mode
SENSOR CHECK
Type of Mode
Service Mode
Code
Function
Operation after code
input
“8” “1” “5”
First of all, press the copy button, and confirm the action of ON/OFF.
For each sensor’s operation, refer to SENSORS AND SWITCHES SECTION
(P.176).
D S C P R E D T * 3F * D 4 * V : LCD DISPLAY
D: Document sensor
D: Document set
-: No document
S: Paper Feed Sensor
S: Read position
-: No read position
C: Printer Cover Switch
C: Open
-: Close
P: Paper sensor
P: Recording paper set
-: No recording paper
R: Regist Sensor
R: Detect recording paper
-: Not defect recording paper
E: Exit Sensor
E: Detect recording paper
-: Not detect recording paper
D: Drum Sensor
D: DRUM set
-: No DRUM
T: Toner Sensor
T: Toner sensor ON
-: Toner sensor OFF
*: None
3F: Temperature of THERMISTOR
Hex (00-FF)
*: None
D4: Temperature of Atmosphere
Hex (00-FF)
*: None
V: VOX signal
V: Detect the tone on the line
PRINT TEST
PATTERN
Service Mode
“8” “5” “2”
START
-: Not detect
1. Press “852” then the SET key in the service mode.
2. As “PATNO =” is displayed on the LCD, enter the test pattern No. and press
the SET key.
3. When “No. = “is displayed on the LCD, enter the printing number and press the
SET key. (Press “00” for the infinite printing.)
4. “MODE” is displayed on the LCD. Press “0” to start printing or press “1” to go
to the next screen.
5. When “1” is pressed at MODE, “INTVL = “is displayed on the LCD. Enter the
printing interval (00~99 sec).
6. The printing repeats the designated number of times at the programmed
printing intervals.
Note:
The numbers in the boxes (XXX) indicate the keys to be input for the various test modes.
66
KX-FL513RU
6.3.1.
DTMF SINGLE TONE TRANSMIT SELECTION
Note:
After performing this check, do not forget to turn the setting off.
otherwise, dialing in DTMF signal will not work.
6.3.2.
BUTTON CODE TABLE
67
KX-FL513RU
6.3.3.
PRINT TEST PATTERN
1. NO. 01
3. NO.20
2. NO.08
4. NO.19
68
KX-FL513RU
6.4.
REMOTE PROGRAMMING
If, after the call is connected, the customer describes the situation and it is determined that the problem can be corrected by
making parameter changes, this function makes it possible to change parameters such as the user code and service code from
another fax (using DTMF tones). Therefore, travel to the customer´s location is not required. However, it is not possible to
change all the parameters remotely (PROGRAM MODE TABLE(P.70)). The function used to accomplish this is remote
programming.
First, in order to check the current status of the service code parameter, print out the setup list (code: 991) and the service list
(code: 999) from the customer´s fax machine.
Based on this, the parameters for the desired codes can be changed.
The procedure for changing and listing parameters is described on ENTERING THE REMOTE PROGRAMMING MODE AND
CHANGING SERVICE CODES(P.69). Also, before exiting the remote programming mode, it is advisable to obtain a new list to
confirm that the changes were made correctly.
Hint:
Since the connected telephone is in use during the remote programming mode, it may be helpful to ask the customer to switch
to the speakerphone. This frees the customer from the need to remain right next to the fax while you are making parameter
settings. When finished, inform the customer. Also note that in very noisy locations where the DTMF tones are not audible, the
remote programming function will not work.
6.4.1.
ENTERING THE REMOTE PROGRAMMING MODE AND CHANGING SERVICE
CODES
CROSS REFERENCE:
PROGRAM MODE TABLE (P.70)
69
KX-FL513RU
6.4.2.
PROGRAM MODE TABLE
Code
Function
001
002
003
004
006
012
013
017
022
023
025
026
037
039
041
044
046
048
058
068
072
Set date and time
Your logo
Your fax telephone number
Transmission report mode
FAX ring count
Remote TAM activation
Dialling Mode
Ringer pattern
Auto journal print
Overseas mode
Delayed transmission
Auto CALLER ID list
Auto REDUCTION
LCD contrast
Remote FAX activation code
Receive alert
Friendly receive
Language
Original setting
ECM Selection
Set flash time
076
079
080
501
502
503
514
520
521
522
523
524
529
544
FAX tone
Toner save
Set default
Pause time set
Flash time
Dial speed
Bell signal detect time
CED frequency select
International mode select
Auto standby select
Receive equalizer select
Transmission equalizer select
Memory clear for Call Service
Document feed position adjustment value
set
Memory clear
ROM check
DTMF signal tone test
Monitor on FAX communication
Modem test
Motor test
LED test
LCD test
Key test
Break % select
ITS auto redial time set
ITS auto redial line disconnection time set
Remote turn-on ring number
FAX auto redial time set
FAX auto redial line disconnection time set
CNG transmit select
Time between CED and 300bps
Overseas DIS detection select
Receive error limit value set
Transmit level set
Receiving Sensitivity
ECM Frame size
H.V.P.S check
Paper jam cause distinction
LSU test
White system program into the Flash ROM
Cause distinction code of call service 3
Fan test
550
551
552
553
554
556
557
558
561
570
571
572
573
590
591
592
593
594
595
596
598
599
628
630
639
651
655
677
Set Value
Default
mm/dd/yy hh:mm
----------------2:ON / 3:OFF / 1:ERROR
1 to 9 rings
ON/ID=11 / OFF
2:TONE / 1:PULSE
A/B/C
1:ON / 2:OFF
1:NEXT FAX / 2:ERROR / 3:OFF
ON / OFF
1:ON / 2:OFF
1:ON / 2:OFF
NORMAL / DARKER
ON / OFF
1:ON / 2:OFF
1:ON / 2:OFF
1:ENGLISH / 2:RUSSIAN
1:NORMAL / 2:LIGHT/ 3:DARKER
1:ON / 2:OFF
1:100msec / 2:200msec / 3:700msec /
4:850msec
1:ON / 2:OFF
1:ON / 2:OFF
YES / NO
001~600 x 100msec
01~99 x 10ms
1:10pps / 2:20 pps
1~9 x 100msec
1:2100Hz / 2:1100Hz
1:ON / 2:OFF
1:ON / 2:OFF
1:0kms / 2:1.8km / 3:3.6km / 4:7.2km
1:0kms / 2:1.8km / 3:3.6km / 4:7.2km
--------0~4mm
Jan/01/2003
None
None
OFF
2
OFF
PULSE
A
ON
ERROR
OFF
ON
ON
NORMAL
ON CODE=*#9
ON
ON
ENGLISH
NORMAL
ON
850msec
Remote
Setting
NG
NG
NG
OK
OK
NG
OK
NG
OK
OK
NG
OK
OK
NG
NG
OK
OK
OK
OK
OK
OK
ON
OFF
NO
030
85
10pps
6
2100Hz
ON
ON
0 km
0 km
--------2
OK
OK
NG
OK
OK
OK
OK
OK
OK
OK
OK
OK
NG
OK
-----------------
----------------OFF
OFF
----------------------------------------61%
03
065
10
03
065
ALL
75ms
1st
10%
13
41
256byte
-------------------------------------------------
NG
NG
OK
OK
NG
NG
NG
NG
NG
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
NG
NG
NG
NG
NG
NG
1:ON / 2:OFF
1:OFF / 2:Phase B / 3:ALL
----------------------------------------1:61% / 2:67%
00~99
001~999sec
01~99
00~99
001~999sec
1:OFF / 2:ALL / 3:AUTO
1:75ms / 2:500ms / 3:1sec
1:1st / 2:2nd
1:5% / 2:10% / 3:15% / 4:20%
-15~00dBm
20~48
1:256 / 2:64
-------------------------------------------------
70
KX-FL513RU
Code
Function
710
717
Memory clear except History data
Transmit speed select
718
Receive speed select
721
722
763
771
774
815
852
853
854
861
874
875
880
881
882
991
994
995
996
998
999
Pause tone detect
Redial tone detect
CNG detect time for friendly reception
T1 timer
T4 timer
Sensor test
Print test pattern
Top margin
Left margin
Paper size set
DTMF ON time
DTMF OFF time
History list
Journal 2
Journal 3
Setup list
Journal list
Journal 2 list
Journal 3 list
History list
Service list
Set Value
--------1:14400/ 2:12000/ 3:9600/ 4:7200/
5:4800/ 6:2400
1:14400/ 2:12000/ 3:9600/ 4:7200/
5:4800/ 6:2400
1:ON / 2:OFF
1:ON / 2:OFF
1:10s / 2:20s / 3:30s
1:35s / 2:60s
00~99 × 100msec
----------------1~5
1~7
1:LETTER / 2:A4 / 3:LEGAL
060~200msec
060~200msec
1:Start
----------------1:Start
1:Start
1:Start
1:Start
1:Start
1:Start
Default
--------14400bps
Remote
Setting
NG
OK
14400bps
OK
OFF
ON
30s
35s
00
----------------3
4
A4
90
90
-------------------------------------------------------------------------
OK
OK
OK
OK
OK
NG
NG
OK
OK
OK
OK
OK
NG
NG
NG
OK
OK
OK
OK
OK
OK
OK means “can set”.
NG means “can not set”.
Note:
Refer to SERVICE FUNCTION TABLE (P.63) for descriptions of the individual codes.
Example:
If you want to set value in the “004 Transmission report mode”, press the dial key number 1, 2 or 3 corresponding to the Set
Value you want to select. (1:ERROR/2:ON/3:OFF)
71
KX-FL513RU
6.4.3.
USER MODE (The list below is an example of the SYSTEM SETUP LIST the unit
prints out.)
Note:
The above values are the default values.
72
KX-FL513RU
6.4.4.
SERVICE MODE SETTINGS (Example of a printed out list)
Note:
The above values are the default values.
73
KX-FL513RU
6.4.5.
HISTORY (Example of a printed out list)
Note:
See the following descriptions of this report. Item No. (1) ~ (49) are corresponding to the listed items in DESCRIPTIONS OF
THE HISTORY REPORT(P.75).
74
KX-FL513RU
6.4.5.1.
DESCRIPTIONS OF THE HISTORY REPORT
(1) ROM VERSION
FLASH ROM version
(2) SUM
FLASH ROM internal data calculation.
(3) YOUR LOGO
The user logo recorded in the unit. If it is not recorded, NONE will be displayed.
(4) YOUR TELEPHONE NUMBER
The user telephone number recorded in the unit. If it is not recorded, NONE will be displayed.
(5) Not used
(6) FACTORY - CUSTOMER
This shows how many days from factory production until the user turns ON the unit.
(7) MONTH
The shows the very first month, date, year and time set by the user after they purchased the unit.
(8) DAY
(9) YEAR
(10) TIME
(11) USAGE TIME
The amount of time the unit has been powered ON.
(12) FACTORY - NOW
This shows how many days from factory production until the user prints out this history list.
(13) TEL MODE
The amount of time the TEL mode setting was used.
(14) FAX MODE
The amount of time the FAX mode setting was used.
(15) Not used
(16) Not used
(17) FINAL RECEIVE MODE
The last set receiving mode by the user.
(18) TONE/PULSE SELECTION
The most recently used setting used, either TONE or PULSE.
(19) RECEIVE REDUCTION
The compression rate when receiving.
(20) SETTING NO. OF DIRECTORY
The recorded directory stations (one touch dial).
(21) NUMBER OF COPY
The number of pages copied.
(22) NUMBER OF RECEIVE
The number of pages received.
(23) NUMBER OF SENDING
The number of pages sent.
(24) NUMBER OF CALLER ID
The number of times Caller ID was received.
(25) Not used
(26) Not used
(27) Not used
75
KX-FL513RU
(28) Not used
(29) Not used
(30) Not used
(31) NUMBER OF PRINTING HELP
The number of help lists printed until now.
(32) NUMBER OF DIVIDED PRINTING IN FAX RECEPTION
The number of faxes received that were divided into more than one sheet since the unit was purchased.
(33) Not used.
(34), (35) Not used.
(36) FAX MODE
Means the unit received a fax message in the FAX mode.
(37) MAN RCV
Means the unit received a fax message by manual operation.
(38) FRN RCV
Means the unit received a fax message by friendly signal detect.
(39) Not used
(40) RMT DTMF
Means the unit detected DTMF (Remote Fax activation code) entered remotely.
(41) PAL DTMF
Means the unit detected DTMF (Remote Fax activation code) entered by a parallel connected telephone.
(42) TURN-ON
Means the unit started to receive after 10 rings. (Remote Turn On: Service Code #573)
(43) Not used
(44) IDENT
Means the unit detected Ring Detection.
(45) Not used
(46) Not used
(47) Not used
(48) Not Used
(49) Not Used
(50) Printing number of the drum unit
(51) Paddle rotation number of the drum unit
(52) CALL SERVICE 3 failure cause record (the latest)
(53) CALL SERVICE 3 failure cause record (the last time)
(54) CALL SERVICE 3 failure cause record (the second last time)
76
KX-FL513RU
6.5.
6.5.1.
TROUBLESHOOTING DETAILS
OUT LINE
Troubleshooting is for recovering quality and reliability by determining the broken component and replacing, adjusting or cleaning
it as required. First, determine the problem then decide the troubleshooting method. If you have difficulty finding the broken part,
determine which board is broken. (For example: the Digital PCB, Analog PCB, etc.) The claim tag from a customer or dealer may
use different expressions for the same problem, as they are not a technician or engineer. Using your experience, test the problem
area corresponding to the claim. Also, returns from a customer or dealer often have a claim tag. For these cases as well, you need
to determine the problem. Test the unit using the simple check list on SIMPLE CHECK LIST(P.79). Difficult problems may be hard
to determine, so repeated testing is necessary.
6.5.2.
STARTING TROUBLE SHOOTING
Determine the symptom and the troubleshooting method.
CROSS REFERENCE:
USER RECOVERABLE ERRORS(P.60)
SIMPLE CHECK LIST(P.79)
DIGITAL BOARD SECTION(P.209)
POWER SUPPLY BOARD SECTION(P.145)
77
KX-FL513RU
6.5.3.
INITIALIZATION
There are two types of initialization, one is the short initialization (about 3 seconds) and the other is the long initialization (about
10 seconds). The short initialization makes the unit enter the standby mode. The long initialization makes the unit enter the
standby mode after cleaning or detecting the rest of toner.
78
KX-FL513RU
6.5.4.
SIMPLE CHECK LIST
Note:
Check according to the service code referring to TEST FUNCTIONS (P.65)
79
KX-FL513RU
6.5.5.
6.5.5.1.
SIMPLIFIED TROUBLESHOOTING GUIDE
PRINTING
No.
Symptom
1 GHOST IMAGE (P.89)
2 DARK
OR
WHITE
VERTICAL LINE (P.90)
3 DARK
OR
WHITE
HORIZONTAL LINE (P.91)
4 DIRTY
OR
HALF
DARKNESS
BACKGROUND (P.92)
5 BLACK PRINT (P.93)
6 LIGHT PRINT (P.94)
7 BLACK
DENSITY
IS
LIGHT OR UNEVEN(P.95)
8 BLANK PRINT (P.96)
9 BLACK OR WHITE POINT
(P.96)
Countermeasure
Replace drum unit
Check the transfer roller and spring
Check the high-voltage terminal
Go to HIGH VOLTAGE SECTION (P.141)
Check the heat roller and the pressurized roller and the spring
and the heat lamp and the thermistor
Failed the power supply board
Go to POWER SUPPLY BOARD SECTION (P.145)
Too thick or too thin recording paper
Use the recording paper from 16lb to 24lb
Dirty the lower glass or the reflecting mirror
Clean the lower glass and the reflecting mirror
Dust on the path of the laser beam
Clean the path of the laser beam
Dust on the developing roller
Replace drum unit
Failed the heat roller or the pressuizedr roller Check the heat roller and the pressurized roller
Failed LSU
Go to LSU SECTION (P.138)
Failed drum unit
Replace drum unit
Failed the gear
Check the gear
Failed the engine motor
Go to ENGINE MOTOR (P.136)
Failed the high-voltage terminal
Failed the high voltage power supply board
Scratch on the OPC drum
Replace drum unit
Static electricity on the documents (when Check the connection between the parts around CIS and earth
copying)
Failed drum unit
Replace drum unit
Life of drum unit is over
Replace drum unit
Dirty the pickup roller and the regist roller and Clean the pickup roller and the regist roller and the feed roller
the feed roller and the eject roller and the heat and the eject roller and the heat roller and the pressure roller
roller and the pressure roller
Dirty the recording paper path
Clean the recording paper path
Failed drum unit
Replace drum unit
Failed LSU
Failed the digital board
Check the digital board
Failed CIS (when copying)
Go to CIS (Contact Image Sensor) SECTION (P.139)
Short toner
Supply toner
Failed drum unit
Replace drum unit
Replace drum unit
Short toner
Supply toner
Failed drum unit
Replace drum unit
Replace drum unit
Failed drum unit
Replace drum unit
Failed LSU
Failed the digital board
Check the digital board
Failed CIS (when copying)
Failed the developing roller (31.4mm pitch)
Replace drum unit
Failed the OPC drum (75.4mm pitch)
Replace drum unit
Failed the heat roller (62.8mm pitch)
Check the heat roller
Failed the charge blush (21mm pitch)
Replace drum unit
Failed
Failed
Failed
Failed
Failed
Cause
drum unit
transfer unit
the high-voltage terminal
the high voltage power supply board
fuser unit
80
KX-FL513RU
6.5.5.2.
RECORDING PAPER FEED
No.
Symptom
1 MULTIPLE FEED (P.97)
2 THE RECORDING PAPER
IS WAVED OR WRINKLED
(P.97)
3 SKEW (P.98)
DOES NOT FEED (P.99)
JAM(P.100)”PAPER
JAMMED” ON THE LCD
6 BACK SIDE OF THE
RECORDING PAPER IS
DIRTY(P.102)
Cause
Dirty or failed the pickup roller
Dirty or failed the pickup rubber
Dirty the pressure roller or the heat roller
Failed the spring of pressure roller
Too thin recording paper
Dirty or failed the paper feed roller
Dust on the recording paper path
Failed LSU
Over the max capacity of the recording paper
Failed the gear
Failed the paper feed sensor lever
Failed the paper feed sensor
Dirty or failed the pressure roller
Dirty or failed the heat roller
Dust on the recording paper path
Failed the paper feed roller
Failed the gear
Failed the paper feed sensor lever
Failed the paper feed sensor
Failed the exit sensor lever
Failed the exit sensor
Not set the toner bottle
Dirty the recording paper path
Dirty the pressure roller
Dirty the regist roller
81
Countermeasure
Clean or replace the pickup roller
Clean or replace the separation rubber
Clean the pressure roller and the heat roller
Replace the spring of pressure roller
Clean or replace the regist roller
Replace LSU
Set up to MAX 150 sheets
Check the gear
Check the regist sensor (paper top sensor) lever
----Clean or replace the pressure roller
Clean or replace the heat roller
Replace the regist roller
Check the gear
Check the regist sensor (paper top sensor) lever
----Check the exit sensor lever
Go to PAPER EXIT SENSOR..... “PAPER JAMMED” (P.180)
Set toner bottle
Clean the pressure roller
Clean the regist roller
KX-FL513RU
6.5.5.3.
COPY AND FAX
No.
Symptom
1 NO DOCUMENT FEED
(NO DOCUMENT
FEED,DOCUMENT JAM
and MULTIPLE
DOCUMENT FEED.)
(P.103)
DOCUMENT JAM (NO
DOCUMENT
FEED,DOCUMENT JAM
and MULTIPLE
DOCUMENT FEED.)
(P.103)
MULTIPLE DOCUMENT
FEED(NO DOCUMENT
FEED,DOCUMENT JAM
and MULTIPLE
DOCUMENT FEED.)
(P.103)
2 SKEW (ADF) (P.105)
3 THE SENT FAX DATA IS
SKEWED (P.106)
4 THE
RECEIVED
FAX
DATA IS SKEWED (P.106)
5 THE
RECEIVED
COPIED
DATA
EXPANDED (P.107)
OR
IS
6 BLACK
OR
WHITE
VERTICAL
LINE
IS
COPIED (P.108)
7 AN ABNORMAL IMAGE IS
COPIED (P.109)
Cause
Failed the document sensor lever
Failed the document sensor
Dirty or failed the separation roller
Dirty or failed the separation rubber
Failed the separation spring
Countermeasure
Replace the document sensor lever
Go to DOCUMENT SENSOR (P.161)
Clean or replace the separation roller
Replace the separation spring
Dust or scratch on the document paper path
Failed the gear
Failed the ADF motor
Failed the ADF cover open switch lever
Clean the document paper path
Check the gear
Go to ADF MOTOR (P.137)
Replace the ADF cover open switch lever
Dirty or failed the separation roller
Dirty or failed the separation rubber
Failed the separation spring
Replace the separation spring
Dust or scratch on the document paper path
Failed the document feed roller
Failed the document guide
The cause of ADF
The cause of scanner glass
Problem with the other FAX machine
The cause of printing
Problem with the other FAX machine
Dirty or failed the drive roller (at ADF)
Dirty or failed the document feed roller (at ADF)
Dirty or failed the separation roller (at ADF)
Failed CIS movement (at SG)
Dirty or failed the white plate (2 places)
Dirty or failed the glass board
Failed CIS
Dirty or failed the white plate (2 places)
Dirty or failed the glass board
Dirty or failed the drive roller (at ADF)
Dirty or failed the document feed roller (at ADF)
Dirty or failed the separation roller (at ADF)
Failed CIS movement (at SG)
Failed CIS
Clean the document paper path
Replace the document feed roller
Replace the document guide
Go to SKEW (ADF)(P.105)
----
82
Go to SKEW (ADF)(P.105)
Clean or replace the drive roller
Clean or replace the document feed roller
Replace the belt or the gear or the shaft or the ADF motor
Clean or replace the white plate
Clean or replace the glass board
Go to DARK OR WHITE VERTICAL LINE (P.90)
Clean or replace the white plate
Clean or replace the glass board
Clean or replace the drive roller
Clean or replace the document feed roller
Replace the belt or the gear or the shaft or the ADF motor
Go to DARK OR WHITE VERTICAL LINE (P.90)
KX-FL513RU
6.5.5.4.
Others
No.
Symptom
Cause
1 Cannot print legal size
Not selected the legal mode
2 ĆHECK DRUM´ on the The drum unit can not be detected.
• Drum Sensor trouble
LCD
Countermeasure
Select the legal mode in the user programming mode
Go to DRUM SENSOR (P.178)
Go to LSU (Laser Scanning Unit) SECTION (P.174)
• Mechanical shutter trouble
3 ĆHANGE DRUM´ on the The toner sensor cannot detect the toner
LCD
sensor signal.
4 ÓUT OF PAPER´ on the Failed the paper sensor lever
LCD
Failed the paper sensor
5 ĆOVER OPEN´ on the Failed the top cover open switch lever
LCD
Failed the top cover open switch
6 CALL SERVICE 1´ on the The polygon motor of LSU is unusually
LCD
7 CALL SERVICE 2´ on the The laser of LSU is unusually
LCD
8 CALL SERVICE 3´ on the The fuser temperature is unusually
LCD
9 CALL SERVICE 4´ on the The fan motor is unusually
LCD
83
Go to TONER SENSOR.... “TONER EMPTY”, “TONER
LOW”, “CHANGE DRUM” (P.183)
Replace the paper sensor lever
Go to PAPER SENSOR..... “OUT OF PAPER” (P.180)
Replace the top cover open switch lever
Go to TOP COVER OPEN SWITCH (P.178)
Check the connector and LSU and the digital board
Check the connector and LSU and the digital board
Check the connector and the fuser and the thermistor and the
digital board
Check the connector and the fan motor and the digital board
KX-FL513RU
6.5.6.
CALL SERVICE TROUBLESHOOTING GUIDE
Call Service related error is most frequent.
Call Service 1 ----- Polygon doesn’t rotate......... Refer to LSU (Laser Scanning Unit) SECTION (P.174).
• First, listen to the sound. If rotation sound isn´t heard, check 24V line, POLON signal and POLCLK signal. If even a little of
sound is heard, check XREADY signal.
Call Service 2 ----- Laser isn´t output.......... Refer to LSU (Laser Scanning Unit) SECTION (P.174)
• This can be judged only by referring to signal. Check 5V line, XHSYNC, SPC, VIDEO, LDON.
Call Service 3 ----- Detection of fixing temperature.......... Refer to HEAT LAMP CONTROL CIRCUIT (P.189)
• *Service mode *655 tells the detection number and 3 latest temperatures of the thermistor. The cause distinction code of
the Call Service 3 and the thermistor temperature is displayed. Maximum 3 latest temperatures are displayed showing the
newest on the left. [AABB CCDD EEFF] AA, CC and EE show the cause distinction code and BB, DD and FF show their
temperature.
Cause distinction code
00: means that CALL SERVICE 3 has not been appeared.
01: means that it did not reach 56°C within 22 seconds since the heater was turned ON.
03: means that it did not reach the secondary stabilizing temperature (160°C) within 35 seconds from 56°C.
04: means that it became T2-40deg (120°C or below) after T2; the secondary stabilizing temperature (160°C). (The heater
has burnt out.)
05: means that it became over 220°C.
06: means that during printing the SHORT of the thermistor (AD: 01h or below) was detected.
07: means that the thermistor´s SHORT (AD:00h) and OPEN (AD: F9h or over) were detected.
Call Service 4 ----- Rotation of Fan.......... Refer to FAN MOTOR SECTION (P.171)
• Connector isn’t inserted firmly, dust is caught in and the fan is broken.
* As for Call Services 1, 2 and 4, turn the power OFF then ON to restart.
<Note>
Once “CALL SERVICE3” is displayed, the unit does not disappear until the Factory Setup or Service Function #529 is executed.
Therefore Service Function #529 should be executed before the confirmation, and #529 should be done after the countermeasure.
84
KX-FL513RU
6.5.6.1.
CALL SERVICE 1
"CALL SERVICE 1" means that the polygon motor inside the LSU does not rotate.
The rotation of the polygon motor is detected by IC606-32pin (XREADY).
85
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6.5.6.2.
CALL SERVICE 2
"CALL SERVICE 2" means that the synchronous signal out of the LSU cannot be detected.
The synchronous signal out of the LSU is detected by IC 606-33pin. (XHSYNC)
Note:
As for the "Pulse" waveform of the above flow chart, see the timing chart.
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6.5.6.3.
CALL SERVICE 3
"CALL SERVICE 3" means that the temperature of the fuser does not rise up to or exceed a constant temperature.
The temperature is monitored with the thermistor inside the fuser and detected with the voltage input into IC 606-4pin.
*When Call Service 3 is occurred, the cause can be distinguished.
Refer to page 80 for details.
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6.5.6.4.
CALL SERVICE 4
"CALL SERVICE 4" means that the FAN does not run or the running of the FAN cannot be detected normally.
The running of the FAN is detected by IC 605-91pin. "CALL SERVICE 4" is displayed when it detects NG five times continuously.
After repairing, copy five times.If “CALL SERVICE 4 “ is displayed,check again.
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6.5.7.
6.5.7.1.
PRINT
GHOST IMAGE
CROSS REFERENCE:
HIGH VOLTAGE SECTION(P.141)
POWER SUPPLY BOARD SECTION(P.145)
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6.5.7.2.
DARK OR WHITE VERTICAL LINE
Note:
When wiping the lower glass, reflecting mirror and LSU lens, use a dry and soft cloth.
CROSS REFERENCE:
LSU SECTION (P.138)
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6.5.7.3.
DARK OR WHITE HORIZONTAL LINE
CROSS REFERENCE:
HIGH VOLTAGE SECTION (P.141)
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6.5.7.4.
DIRTY OR HALF DARKNESS BACKGROUND
CROSS REFERENCE:
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6.5.7.5.
BLACK PRINT
CROSS REFERENCE:
LSU SECTION (P.138)
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6.5.7.6.
LIGHT PRINT
CROSS REFERENCE:
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6.5.7.7.
BLACK DENSITY IS LIGHT OR UNEVEN
CROSS REFERENCE:
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6.5.7.8.
BLANK PRINT
6.5.7.9.
BLACK OR WHITE POINT
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6.5.8.
RECORDING PAPER FEED
6.5.8.1.
MULTIPLE FEED
6.5.8.2.
THE RECORDING PAPER IS WAVED OR WRINKLED
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6.5.8.3.
SKEW
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6.5.8.4.
THE RECORDING PAPER DOES NOT FEED
CROSS REFERENCE:
SENSOR SECTION (P.133)
MOTOR SECTION (P.136)
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6.5.8.5.
THE RECORDING PAPER JAM
CROSS REFERENCE:
mode *630 distinguishes the cause.
PAPER EXIT SENSOR..... “PAPER JAMMED” (P.180)
0:No Paper Jam
FAN MOTOR SECTION (P.171)
1:Failed pick up
REGIST SENSOR (P.179)
2:The paper top sensor is not turned OFF although the fixed
time had passed since the sensor was turned ON.
When the recording paper jam is occurred, the service
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3:The paper eject sensor is not turned ON although the
fixed time had passed since the paper top sensor was
turned ON.
4:The paper eject sensor is not turned OFF although the
fixed time had passed since it was turned ON.
5:The register sensor (paper top sensor) or paper exit
sensor was turned ON before the motor started to rotate.
6:The register sensor (paper top sensor) chattered.
7:The paper exit sensor chattered.
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6.5.8.6.
BACK SIDE OF THE RECORDING PAPER IS DIRTY
CROSS REFERENCE:
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6.5.9.
6.5.9.1.
ADF (Auto document feed) SECTION
NO DOCUMENT FEED,DOCUMENT JAM and MULTIPLE DOCUMENT FEED.
CROSS REFERENCE:
SENSOR SECTION (P.133)
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CROSS REFERENCE:
MOTOR SECTION (P.136)
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6.5.9.2.
SKEW (ADF)
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6.5.9.3.
THE SENT FAX DATA IS SKEWED
CROSS REFERENCE:
SKEW (ADF) (P.105)
6.5.9.4.
THE RECEIVED FAX DATA IS SKEWED
CROSS REFERENCE:
SKEW (P.98)
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6.5.9.5.
THE RECEIVED OR COPIED DATA IS EXPANDED
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6.5.9.6.
BLACK OR WHITE VERTICAL LINE IS COPIED
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6.5.9.7.
AN ABNORMAL IMAGE IS COPIED
CROSS REFERENCE:
CIS (Contact Image Sensor) SECTION (P.139)
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6.5.10. COMMUNICATION SECTION
Find the problem in the table shown below, and refer to the corresponding troubleshooting procedure in DEFECTIVE
FACSIMILE SECTION (P.111).
No.
Symptom
1 The paper dose not feed properly when faxing.
(Copying is also not possible.)
Content
Troubleshooting
2
The fax transmits successfully one time and fails another. Troubleshooting
(Copying is also possible.)
3
The fax receives successfully one time and fails another. Troubleshooting
4
The fax completely fails to transmit or receive.
Troubleshooting
5
The fax fails either to transmit or receive when making a
long distance or an international call.
The fax image is poor when transmitting or receiving
during a long distance or international call.
No.1-No.5
Detailed description of the
possible causes (Similar to
troubleshooting items No.2
and No.3.)
6
7
The troubleshooting
procedure for each error
code will be printed on the
communication result
report.
110
Possible cause
Problem with the feeding
mechanism.
(Refer to TRANSMIT PROBLEM
(P.111)
Problem with the service line or with
the receiver´s fax.
(Refer to SOMETIME THERE IS A
TRANSMIT PROBLEM (P.112)
Problem with the service line or with
the transmitter´s fax.
(Refer to RECEIVE PROBLEM
(P.113)
Problem with the electric circuit.
(Refer to THE UNIT CAN COPY,
BUT CANNOT
TRANSMIT/RECEIVE (P.114)
Problem with the service line.
(Refer to HOW TO OUTPUT THE
JOURNAL REPORT (P.119)
KX-FL513RU
6.5.10.1. DEFECTIVE FACSIMILE SECTION
6.5.10.1.1. TRANSMIT PROBLEM
CROSS REFERENCE:
CLEANING THE INSIDE OF THE UNIT (P.34)
ADF (Auto document feed) SECTION (P.103)
OPERATION PANEL SECTION (P.132)
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6.5.10.1.2. SOMETIME THERE IS A TRANSMIT PROBLEM
Note:
“596: Transmit level set” represents a service code. Refer to the SERVICE FUNCTION TABLE (P.63).
“717: Transmit speed select” represents a service code. Refer to the SERVICE FUNCTION TABLE (P.63).
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6.5.10.1.3. RECEIVE PROBLEM
Confirm the following before starting troubleshooting.
• Is the recording paper installed properly? Refer to the next page.
Note:
“596: Transmit level set” represents a service code. Refer to the SERVICE FUNCTION TABLE (P.63).
“718: Receive speed select” represents a service code. Refer to the SERVICE FUNCTION TABLE (P.63).
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For the receiving problem, we have thought of causes other than in the software. Some causes may be when the fax changes
to the memory receiving mode (for example, when out of paper). and the memory becomes full of the unprinted fax data. In this
case, [MEMORY FULL] and its main cause (for example, “OUT OF PAPER”) are displayed on the LCD. Accordingly, by solving
the main problem, [MEMORY FULL] can be canceled and the receiving problem can solved.
Please refer to USER RECOVERABLE ERRORS (P.60) for the above items.
Also, when it actually becomes a hardware deformity, please check each sensor.
6.5.10.1.4. THE UNIT CAN COPY, BUT CANNOT TRANSMIT/RECEIVE
CROSS REFERENCE:
TEST FUNCTIONS (P.65)
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6.5.11. SPECIAL SERVICE JOURNAL REPORTS
Journal 2 and Journal 3 shown below, which are special journals giving the additional detailed information about the latest 35
communications, can be printed by Service Code 881 or 882. Remote printing function for the journal reports (JOURNAL,
JOURNAL 2 and JOURNAL 3) is also available for service technicians. (Refer to PROGRAM MODE TABLE(P.70).) The
JOURNAL report only gives you basic information about a communication, but the other two journal reports provide different
information on the same item (communication).
HOW TO READ JOURNAL REPORTS:
Example:
1. Look at NO. 01 in the JOURNAL. If you want to know about the details about that item, see NO. 01 in the JOURNAL 2 and the
JOURNAL 3. You can get the following information.
* MODE: Fax transmission
* RCV. MODE: TEL
* TX SPEED: 9.6 kbps
* RESOLUTION: standard
* ENCODE: MH
* MAKER CODE: 79
2. Look at NO. 04 in the JOURNAL 2. CNG (0003) indicates that the CNG signal has been received three times since the
purchase date.
For further details, see JOURNAL 2 and JOURNAL 3.
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6.5.11.1. JOURNAL 2
Refer to JOURNAL 2 in PRINTOUT EXAMPLE(P.117).
Journal 2 displays the additional detailed information about the last 35 communications.
Descriptions:
(1) RCV. MODE
Indicates which receive mode the unit was in when the unit received a fax message.
This information is also displayed when the unit transmitted a fax message.
(2) SPEED
Indicates the speed of the communication. If multiple pages are transmitted or received, it indicates the last page’s
communication speed. If there is a communication error, “?” is displayed.
(3) RESOLUTION
Indicates the resolution of the communication. If multiple pages are transmitted or received, it indicates the last page’s
resolution. If there is a communication error, “?” is displayed.
(4) RCV-TRIG. (CNT.)
Indicates the trigger that causes the unit to switch to the fax receive mode. The available options are listed in JOURNAL 2 in
PRINTOUT EXAMPLE(P.117). The values in parentheses indicate how many times the trigger has been used. (For example,
“0003” means three times.)
No.
1
2
3
4
5
Display
FAX MODE
MAN RCV
RMT DTMF
PAL DTMF
TURN-ON
Means the
Means the
Means the
Means the
telephone.
Means the
unit
unit
unit
unit
Function
received a fax message in the FAX mode.
received a fax message by manual operation.
detected DTMF (Remote Fax activation code) entered remotely.
detected DTMF (Remote Fax activation code) entered by a parallel connected
unit started to receive after 10 rings. (Remote Turn On: Service Code #573)
(5) ERROR→
→MEMORY
Indicates the reason why the unit received a fax message in memory.
If you look at No.11 in the JOURNAL 2 in PRINTOUT EXAMPLE(P.117), it shows the fax message was received in memory
due to “PAPER OUT” error.
NO RESPONSE DISAPPEARED ON JOURNAL
The “NO RESPONSE DISAPPEARED ON JOURNAL” displays the information about the last 10 communications terminated
by “No Response”. (Some of the communications terminated by “No Response” were not displayed in the JOURNAL.)
When a fax transmission cannot be performed because the other party’s unit is set to the TEL mode, “No response” will be
printed.
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6.5.11.2. JOURNAL 3
Refer to JOURNAL 3 in PRINTOUT EXAMPLE(P.117).
Description
(9) ERROR LINE (RX)
(6) ENCODE
When an error occurs while receiving a fax, this shows
the number of error lines.
Compression Code: MH/MR/MMR
(7) MSLT
(10) MAKER CODE
MSLT means Minimum Scan Line Time. Used only at
the factory.
This shows a 2 digit code of the other party´s fax
machine brand.
(8) EQM
0E: “KX” model
EQM means Eye Quality Monitor. Used only at the
factory.
00: Unknown
79: “UF” model
19: “Xerox” model
6.5.11.3. PRINTOUT EXAMPLE
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6.5.11.4. HOW TO OUTPUT THE JOURNAL REPORT
1. Press the MENU button.
2. Press “#”, then “8” and “3”.
3. Press the START/COPY/SET button.
4. The report prints out.
CROSS REFERENCE:
FEATURES(P.12)
Error code table: Refer to ERROR CODE TABLE (P.5).
(1) CODE
(2) RESULT
(3) MODE
SYMPTOM
Countermeasure*
28
40
41
42
43
44
46
48
49
50
51
52
54
58
59
65
65
68
70
72
75
79
PRESSED THE STOP KEY SND & RCV
DOCUMENT JAMMED
SND
NO DOCUMENT
SND
THE COVER WAS OPENED
SND
COMMUNICATION ERROR SND & RCV
COMMUNICATION ERROR
SND
COMMUNICATION ERROR
SND
COMMUNICATION ERROR
SND
COMMUNICATION ERROR
SND
COMMUNICATION ERROR
SND
COMMUNICATION ERROR
RCV
COMMUNICATION ERROR
RCV
COMMUNICATION ERROR
RCV
COMMUNICATION ERROR
RCV
COMMUNICATION ERROR
RCV
COMMUNICATION ERROR
RCV
ERROR-NOT YOUR UNIT
RCV
COMMUNICATION ERROR
RCV
ERROR-NOT YOUR UNIT
SND
COMMUNICATION ERROR
SND
COMMUNICATION ERROR
RCV
COMMUNICATION ERROR
RCV
ERROR-NOT YOUR UNIT
RCV
COMMUNICATION ERROR
RCV
MEMORY FULL
RCV
CANCELED
SND
FF
COMMUNICATION ERROR
Communication was interrupted by the STOP button.
The document paper is jammed.
No document paper.
The cover is open.
--------Transmission is finished when the T1 TIMER expires.
DCN is received after DCS transmission.
FTT is received after transmission of a 2400BSP training signal.
No response after post message is transmitted three times.
RTN and PIN are received.
No response after FTT is transmitted.
No post message.
RTN is transmitted.
PIN is transmitted (to PRI-Q).
PIN is transmitted.
Reception is finished when the T1 TIMER expires.
DCN is received after DIS transmission.
DCN is received after FTT transmission.
DCN responds to the post message.
DCN is received before DIS reception.
Reception is not EOP, EOM PIP, PIN, RTP or RTN.
No response at the other party after MCF or CFR is transmitted.
DCN is received after CFR transmission.
Carrier is cut when the image signal is received.
The document was not received due to memory full.
The multi-station transmission was rejected by the user.
SND & RCV Modem error. For the DCN, DCN, etc. abbreviations, refer to
MODEM SECTION (P.211).
SND=TRANSMISSION / RCV=RECEPTION
Most fax communication problems can be resolved by the following steps.
1. Change the transmit level. (Service code: 596, refer to SERVICE FUNCTION TABLE(P.63).)
2. Change the TX speed/RX speed. (Service code: 717/718, refer to SERVICE FUNCTION TABLE (P.63).)
119
1
2
3
4
5
6
7
8
8
8
9
11
13
14
2
2
13
13
16
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Note*:
If the problem remains, see the following “Countermeasure” flow chart.
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CROSS REFERENCE:
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CROSS REFERENCE:
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CROSS REFERENCE:
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CROSS REFERENCE:
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CROSS REFERENCE:
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6.5.12. INITIALIZING ERROR
After the power is turned on, the ASIC (IC606) initializes and checks each IC.
The ROM (IC607), SDRAM (IC604), and MODEM (IC600) are checked.
If initialization fails for the ICs, the system will not boot up.
In this case, please find the cause as follows.
CROSS REFERENCE:
NG EXAMPLE (P.210)
POWER SUPPLY BOARD SECTION (P.145)
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6.5.13. ANALOG BOARD SECTION
This chapter provides the testing procedures required for the analog parts. A signal route to be tested is determined depending
upon purposes. For example, the handset TX route begins at the handset microphone and the signal is output to the telephone
line. The signal mainly flowing on this route is analog. You can trace the signal with an oscilloscope. The signal flow on each
route is shown in the Check Sheet here. If you find a specific problem in the unit, for example if you cannot communicate with
the H/S, trace that signal route locally with the following Check Sheet and locate the faulty point.
6.5.13.1. CHECK SHEET
Note: { }: Inside the digital board
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6.5.13.2. DEFECTIVE ITS (Integrated Telephone System) SECTION
1. No handset and speakerphone transmission / reception
Perform a signal test in the ITS or the NCU section and locate a defective point (where the signal disappears) on each route
between the handset microphone and telephone line (sending), or between the telephone line and the handset speaker
(receiving), or between the microphone and the telephone line (sending), or between the telephone line and the speaker
(receiving). Check the components at that point. CHECK SHEET(P.129) is useful for this investigation.
2. No pulse dialing
3. No ring tone (or No bell)
4. No tone dialing
CROSS REFERENCE:
CHECK SHEET (P.129)
CROSS REFERENCE:
CHECK SHEET (P.129)
NCU SECTION (P.162)
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6.5.13.3. DETECTIVE TAM INTERFACE SECTION
1. The FAX turns on, but does not arrive through TAM.
CROSS REFERENCE:
TAM INTERFACE SECTION (P.165)
2. A FAX is received, but won´t switch from TAM to FAX.
CROSS REFERENCE:
ANALOG BOARD SECTION (P.129)
TAM INTERFACE SECTION (P.165)
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6.5.13.4. OPERATION PANEL SECTION
Refer to TEST FUNCTIONS (P.65).
1. NO KEY OPERATION
2. NO LCD INDICATION
CROSS REFERENCE:
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6.5.13.5. SENSOR SECTION
Refer to SENSORS AND SWITCHES for the circuit description.
Perform an SENSOR CHECK to determine if the sensor is operating correctly.
1. Check the .......... “CHECK DOCUMENT”
2. Check the paper feed sensor.......... “REMOVE DOCUMENT”
3. Check the hook switch
4. Check the cover open switch.......... “COVER OPEN”
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5. Check the DRUM sensor.......... “CHECK DRUM”
6. Check the regist sensor.......... “FAILED PICKUP”
7. Check the paper sensor.......... “OUT OF PAPER”
8. Check the exit switch.......... “PAPER JAMMED”
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9. Check the toner sensor.......... “TONER LOW”, “CHANGE DRUM”
As for the following check, remove the drum from the main body, set it again and close the cover, then perform that check
during initializing operation. Refer to SENSORS AND SWITCHES SECTION (P.176).
CROSS REFERENCE:
SENSORS AND SWITCHES SECTION (P.176)
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6.5.13.6. MOTOR SECTION
6.5.13.6.1. ENGINE MOTOR
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6.5.13.6.2. ADF MOTOR
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6.5.13.7. LSU SECTION
CROSS REFERENCE:
LSU (Laser Scanning Unit) SECTION (P.174)
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6.5.14. CIS (Contact Image Sensor) SECTION
CROSS REFERENCE:
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6.5.15. HIGH VOLTAGE VALUE CHECK POINT
Measurement Procedure
1. Open the TOP cover.
2. Remove the developing unit, if it is equipped.
3. Open the TOP cover, and turn ON the TOP cover SW.
(Push the TOP cover SW with a sharp-tipped insulator or insert folded paper, etc. to the slit.)
4. The unit enters the service mode when the TOP cover is open, then push *628.
(Don´t push the START button.)
5. Touch the output terminals under test with the high voltage probes.
6. Push the START button.
(This causes to output high voltage from each terminal, so be careful not to touch them. The sound “Pi Pi Pi” warns that the
high voltage is outputting.)
7. When the measurement is finished, push the STOP button.
(The high voltage output is stopped.)
8. Repeat the items No. 5~7 until the measurement is finished.
9. When the measurement is finished, turn OFF the TOP cover SW.
Output voltage of each terminal
No.
BIAS Name
CHG (Charge)
Specified output voltage
-1000V
The range of specified output voltage
-1000V± 30V
DEV (Developing)
-200V
-200V± 15V
TRA (Transfer)
-1000V
-1000V± 100V
* As for the High Voltage test equipment, FLUKE 85 (MULTI METER)+ HIOKI (HV PROBE 9014) or the equivalent should be
used.
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6.5.16. HIGH VOLTAGE SECTION
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* This Adjustment should be done with a single High Voltage Board.
* As for the High Voltage Probe, HV PROBE 9014 of HIOKI electric co. or the equivalent should be used.
* As for the tester, FLUKE 85 III multi meter or the equivalent should be used.
* Be careful not to touch the terminals during adjustment because the high voltage is used.
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6.5.17. POWER SUPPLY BOARD SECTION
6.5.17.1. KEY COMPONENTS FOR TROUBLESHOOTING
Check the following parts first: F101, D101-D104, C106, Q101, PC101 and IC101.
This comes from our experience with experimental tests. For example: power supply and lightning surge voltage test, withstanding
voltage test, intentional short circuit test, etc.
Caution:
If you find a melted fuse in the unit, do not turn on the power until you locate and repair the faulty parts (except for the fuse);
otherwise the fuse will melt again and you cannot pinpoint the faulty point.
In most cases, the symptom is that nothing is output. It is more likely that the fault is in the primary side rather than the secondary
side. Check the primary side first.
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6.5.17.2. TROUBLESHOOTING FLOW CHART
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6.5.17.3. BROKEN PARTS REPAIR DETAILS
(D101~D104)
Check for a short-circuit in terminal 4. If D101~D104 is short-circuit, F101 will melt (open).
In this case, replace all of the parts (D101~D104, F101).
(Q101)
The worst case of Q101 is a short-circuit between the Drain and Gate because damage expands to the peripheral circuit of Q101.
This is due to a very high voltage through the Gate circuit which is composed of R109 and IC101.
You should change all of the parts listed as follows.
F101, Q101, R109, IC101
(D201)
If D201 is broken, the oscillation circuit in the power supply cannot operate. Check it with an electric tester.
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7 CIRCUIT OPERATIONS
7.1.
CONNECTION DIAGRAM
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7.2.
GENERAL BLOCK DIAGRAM
The following is an outline of each device IC on the digital board.
1. ASIC (IC606)
This custom IC is used for general FAX operations.
(1) CPU:
(2)
(3)
(4)
(5)
(6)
(7)
RTC:
DECODER:
ROM/RAM I/F:
LSU I/F:
I/O PORT:
ANALOG UNIT:
(8) MOTOR I/F:
This model uses a Z80 equivalent CPU operating at 16MHz.
Many of the peripheral functions are handled by custom designed LSIs.
As a result, the CPU only needs to process the results.
Real time clock.
Decords the address.
Controls the SELECT signal of ROM or RAM and bank switching.
Controls the polygon motor and outputs the VIDEO signal to LSU.
I/O Port Interface.
Sends beep tones,etc.
Convert the analog signal to the digital signal.
Controls the SCAN Motor.
2. G/A (IC605)
(1) OPERATION PANEL I/F: Serial interface with Operation Panel.
(2) ANALOG GATE ARRAY I/F: Controls the ANALOG GATE ARRAY.
(3) MOTOR I/F: Controls the ENGINE Motor.
(4) FAN I/F: Controls FAN MOTOR and detect the rotation of FAN MOTOR.
(5) SENSOR I/F: Controls the LED and detect the sensor signal.
(6) I/O PORT: I/O Port Interface.
3. ROM (IC607)
This 8MB FLASH ROM contains all of the program instructions on the unit operations.
4. Synchronous Dynamic RAM (IC604)
This SDRAM is used for CPU work and receiving memory and page memory.
5. MODEM (IC600)
Performs the modulation and the demodulation for FAX communication.
Detects the CALLER ID signal.
6. Read Section
CIS image sensor to read transmitted documents.
7. LSU (Laser Scanning Unit)
Forms the images on the OPC drum by rotating polygon motor and reflecting the laser beam against polygon.
8. Analog Board
Composed of ITS circuit and NCU circuit.
9. Sensor Section
Composed of 4 switches and 5 sensors.
10. Power Supply Board Switching Section
Supplies +5V and +24V to the unit and controls the HEATER.
11. High Voltage Power Supply Board Section
Supplies bias need for the printing operation: bias of the DRUM, Developing and Transcription.
12. Fixing Unit
Composed heat lamp, thermistor and thermal fuse.
149
THERMISTOR
DRUM
DETECT
CN51
EXIT
SENSOR
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PCB0
TONER
SENSOR
PICKUP
SOLENOID
CN52
DC FAN
CN50
LSU
OPERATION PANEL
DIGITAL P.C.B
CN602
THERMISTOR
CN611
CN612
CN603
CN601
LCD
KEY MATRIX
G/A
PAPER FEED
SENSOR
CN606
HIGH VOLTAGE P.C.B
CN102
DOCUMENT
SENSOR
CN604
G/A
T201
CHG
IC605
PAPER
SENSOR
+24V
DEV
64Mbit
SDRAM
RESIST
SENSOR
CN609
OPC
DRIVER
IC610
32.256
MHz
POWER SUPPLY
8bit
CPU
+5V
CN613
ASIC
IC606
Image
Processing
CN201
CN610
IC600
HEAT LAMP
+24V
RTC
CN102
24MHz 32.768KHz
FLASH PROGRAMMER
CN607
CN600
28
ANALOG P.C.B
TO
EXT_TEL
HANDSET
CN200
TO
LINE
CN203
ANALOG
ASIC
CN202
CN201
CN204
CIS (1.7ms/line mono)
TRA
T101
DRIVER
IC609
14.4K
MODEM
SCAN
MOTOR
CN614
8Mbit
FLASH
CN2
CLK
IC604
IC607
CN608
150
ENGINE
MOTOR
COVER
OPEN SW
TO
AC220-240V
SPEAKER
KX-FL513RU
7.3.
FACSIMILE SECTION
7.3.1.
DIGITAL SECTION
7.3.1.1.
DIGITAL BLOCK DIAGRAM
CN610
TO TXMOTOR
CN613
TO SMPS
CN607
TO PC
+24V
+5V
MOTOR DRIVER
IC610
ROM
IC607
RESET
RESET/REGULATOR
IC608
XROMCS
+3.3V
PC I/F
RESET
SDRAM
IC604
SDCLK etc
+5V
+3.3V
+2.5V
CPU
CN608
TO CIS
ASIC
IC606
A/D
MODEM
IC600
Image Processor
BUS
I/F
Print
Controller
LINEIN
CS
LINEOUT
CN611 TO
POLY
INT
CN600
TO ANALOG
CLK(16MHz)
FSK
IC
IC602
CN612
TO LASER
G/A
IC605
VOLIN/VOLOUT
EVOL
IC611
ANALOG ASIC Controll
E-VOL Controll
SENSOR Detect
FAN Controll
Motor Controll
I/O port
FSK IC Controll
CN606
TO OPE
PS601
PS600
MOTOR
DRIVER
IC609
CN609
TO RXMOTOR
CN603
TO PICK
CN604
TO EXIT
CN601
TO TNR
CN602
TO FAN
151
CN614
TO HVPS
KX-FL513RU
7.3.1.2.
ASIC (IC606)
This custom IC is used for general FAX operations.
(1) CPU:
(2)
(3)
(4)
(5)
(6)
(7)
This model uses a Z80 equivalent CPU operating at 16MHz.
Many of the peripheral functions are handled by custom designed LSIs.
As a result,the CPU only needs to process the results.
Real time clock.
Decodes the address.
Controls the SELECT signal of ROM or RAM and bank switching.
Controls the polygon motor and outputs the VIDEO signal to LSU.
I/O Port Interface.
Sends beep tones,etc.
Convert the analog signal to the digital signal.
Controls the SCAN Motor.
RTC:
DECORDER:
ROM/RAM I/F:
LSU I/F:
I/O PORT:
ANALOG UNIT:
(8) MOTOR I/F:
7.3.1.3.
ROM (IC607)
This 8MB FLASH ROM contains all of the program instructions on the unit operations.
7.3.1.4.
GATE ARRAY (IC605)
(1) OPERATION PANEL I/F: Serial interface with Operation Panel.
(2) ANALOG GATE ARRAY I/F: Controls the ANALOG GATE ARRAY.
(3) MOTOR I/F: Controls the ENGINE Motor.
(4) FAN I/F: Controls FAN MOTOR and detect the rotation of FAN MOTOR.
(5) SENSOR I/F: Controls the LED and detect the sensor signal.
(6) I/O PORT: I/O Port Interface.
7.3.1.5.
SYNCHRONOUS DYNAMIC RAM (IC604)
This SDRAM is used for CPU work and receiving memory and page memory.
7.3.1.6.
MODEM(IC600)
Performs the modulation and the demodulation for FAX communication.
Detects the CALLER ID (DTMF) signal.
7.3.1.7.
FSK RECEIVER (IC602)
Detects the CALLER ID (FSK) signal.
Description of Pin Distribution (IC606)
PIN
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
SIGNAL
VSS
VDD3.3A
AIN1
AIN2
AIN3
AMON
VSS
X32OUT
X32IN
3.3VBATIN
XBACKEN
RESCS2/CLKE/OP02
3.3VBATOUT
2.5VBATIN
XRESET
XORESET
VSS
VDD3.3V
XRESETI
XWDERR
TM0/IOP10
TM1/IOP11
I/O
GND
PWR
AI
AI
AI
AO
GND
O
I
I
I
O
O
I
I
O
GND
PWR
I
O
O
O
POWER SUPPLIED
VOLTAGE
GND
3.3V
3.3V
3.3V
3.3V
3.3V
GND
3.3VBATT
3.3VBATT
3.3VBATT
3.3VBATT
3.3VBATT
3.3VBATT
2.5VBATT
3.3V
3.3V
GND
3.3V
3.3V
3.3V
3.3V
3.3V
152
EXPLANATION
GND
POWER SOURCE
IMAGE DATA FROM CIS
THERMISTOR ON FUSE UNIT
THERMISTOR ON OPE UNIT
NOT USED
GND
RTC(32.768KHz)
RTC(32.768KHz)
POWER SOURCE(+3.3V/LITHIUM BATTERY)
BACKUP ENABLE(CONNECT TO RESET LINE)
NOT USED
RESET FOR INTERNAL CIRCUIT OF IC606
SYSTEM RESET OUTPUT
GND
POWER SOURCE
RESET INPUT
WATCH DOG ERROR OUTPUT
TX MOTOR CONTROL
TX MOTOR CONTROL
KX-FL513RU
PIN
No.
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
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
SIGNAL
TM2/IOP12
TM3/IOP13
TXE/IOP14
VSS
VDD2.5V
TRS/OP06
HTRCTL
POLCLK
POLON
XREADY
XHSYNC
LDON
APC
VIDEO
XHSTRD/RBA[9]/IP00
XHSTWR/RBA[10]/IP01
RESINT
XRESCS1
RESCLK
VSS
VDD2.5V
XOUT
XIN
VSS
VDD3.3V
IOP07
XCHKCS/ÇnÇo03
XROMCS
XRD
XWR
DB0
DB1
DB2
DB3
DB4
DB5
DB6
DB7
DB8
DB9
DB10
VSS
VDD2.5V
DB11
DB12
DB13
DB14
DB15
VDD5V
VSS
VDD3.3V
SDCS
RAS
CAS
SDWE
SDDQMU
SDDQML
VSS
SDCLK
VSS
VDD3.3V
ADR0
ADR1
ADR2
ADR3
ADR4
I/O
O
O
O
GND
PWR
O
O
O
O
I
I
O
O
O
I
I
I
O
O
GND
PWR
O
I
GND
PWR
O
O
O
O
O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
GND
PWR
I/O
I/O
I/O
I/O
I/O
PWR
GND
PWR
O
O
O
O
O
O
GND
O
GND
PWR
O
O
O
O
O
POWER SUPPLIED
VOLTAGE
3.3V
3.3V
3.3V
GND
2.5V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
GND
2.5V
3.3V
3.3V
GND
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
GND
2.5V
3.3V
3.3V
3.3V
3.3V
3.3V
5V
GND
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
GND
3.3V
GND
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
153
EXPLANATION
TX MOTOR CONTROL
TX MOTOR CONTROL
TX MOTOR POWER CONTROL
GND
POWER SOURCE
TRANSFER BIAS CONTROL
HEATER CONTROL
LSU CONTROL(POLYGON MOTOR CLOCK)
LSU CONTROL(POLYGON MOTOR)
LSU CONTROL
LSU CONTROL
LSU CONTROL
LSU CONTROL
LSU CONTROL(VIDEO SIGNAL)
NOT USED
NOT USED
INTERRUPT FROM IC605
CHIP SELECT FOR IC605
CLOCK FOR IC605
GND
POWER SOURCE
SYSTEM CLOCK(24MHz)
SYSTEM CLOCK(24MHz)
GND
POWER SOURCE
OUTPUT PORT(FLASH WRITE PROTECT)
NOT USED
ROM(IC607) CHIP SELECT
CPU RD
CPU WR
DATA BUS 0
DATA BUS 1
DATA BUS 2
DATA BUS 3
DATA BUS 4
DATA BUS 5
DATA BUS 6
DATA BUS 7
DATA BUS 8
DATA BUS 9
DATA BUS 10
GND
POWER SOURCE
DATA BUS 11
DATA BUS 12
DATA BUS 13
DATA BUS 14
DATA BUS 15
POWER SOURCE
GND
POWER SOURCE
SDRAM(IC604) CHIP SELECT
SDRAM(IC604) ROW ADDRESS STROBE
SDRAM(IC604) COLUMN ADDRESS STROBE
SDRAM(IC604) WR SIGNAL
SDRAM(IC604) CONTROL
SDRAM(IC604) CONTROL
GND
SDRAM(IC604) CLOCK
GND
POWER SOURCE
ADDRESS BUS 0
ADDRESS BUS 1
ADDRESS BUS 2
ADDRESS BUS 3
ADDRESS BUS 4
KX-FL513RU
PIN
No.
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
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
SIGNAL
ADR5
ADR6
ADR7
ADR8
ADR9
ADR10
ADR11
ADR12
VSS
VDD2.5V
RBA0
RBA1
RBA2
RBA3
RBA4
RBA5
RBA6
RBA7/OP04
RBA8/OP05
VDD3.3V
VSS
EVOLIN
EVOLOUT
EVOLREF
TONE
XMDMCS
XMDMINT
CPC/IOP27
ADR13/IOP15
ADR14/IOP16
ADR15/IOP17
XNMI/XINT
TEST1
TEST2
TEST3
TEST4
VDD2.5V
VSS
F1
FTG
TXD/IOP20
RXD/IOP21
RTS/IOP22
CTS/IOP23
DSR/IOP24
DTR/IOP25
DCD/IOP26
ADSEL1
ADSEL2
VDD3.3V
VSS
VDD2.5A
VREFB
VCL
VREFT
VSSA
I/O
O
O
O
O
O
O
O
O
GND
PWR
O
O
O
O
O
O
O
O
O
PWR
GND
AI
AO
AI
AO
O
I
O
O
O
O
I
I
I
I
I
PWR
GND
O
O
O
I
O
I
I
O
O
O
O
PWR
GND
PWR
AO
AO
AO
GND
POWER SUPPLIED
VOLTAGE
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
GND
2.5V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
GND
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
2.5V
GND
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
GND
2.5V
3.3V
3.3V
3.3V
GND
EXPLANATION
ADDRESS BUS 5
ADDRESS BUS 6
ADDRESS BUS 7
ADDRESS BUS 8
ADDRESS BUS 9
ADDRESS BUS 10
ADDRESS BUS 11
ADDRESS BUS 12
GND
POWER SOURCE
ROM/RAM BAKN ADDRESS BUS 0
NOT USED
NOT USED
POWER SOURCE
GND
NOT USED
NOT USED
NOT USED
TONE OUTPUT
MODEM(IC600) CHIP SELECT
MODEM(IC600) INTERRUPT
NOT USED
NOT USED
NOT USED
NOT USED
NOT USED
NOT USED
NOT USED
NOT USED
NOT USED
POWER SOURCE
GND
CLOCK FOR CIS
STROBE FOR CIS
RS232C CONTROL(FOR SERVICE FUNCTION)
RESET FOR MODEM
CHANNEL SELECT FOR AIN
CHANNEL SELECT FOR AIN
POWER SOURCE
GND
POWER SOURCE
STANDARD VOLTAGE FOR A/D
GND
Description of Pin Distribution (IC605)
PIN
No.
1
2
3
4
5
6
SIGNAL
I/O
VSS
SENCTL2/IOP06
SENCTL3/IOP07
SENIN0/IOP00
SENIN1/IOP01
SENIN2/IOP02
0V
O
I
I
I
I
POWER SUPPLY
VOLTAGE
GND
5V
5V
5V
5V
5V
154
EXPLANATION
GND
NOT USED
INPUT PORT(EX-HOOK)
INPUT FROM EXIT SENSOR
INPUT FROM REGIST SENSOR
INPUT PORT(BELL)
KX-FL513RU
PIN
No.
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
SIGNAL
I/O
SENIN3/IOP03
IOP63/XCBUSY1
IOP64/XCBUSY2
IOP30(XHSYNC)
IOP31
IOP32
5V
VSS
IOP33
IOP34
IOP35
IOP36
IOP37
IOP40
IOP41
IOP42
IOP43
IOP44
5V
VSS
MILAT/IOP10
MIDAT/IOP11
MICLK/IOP12
IOP45
IOP46
IOP47
IOP50
IOP51
IOP52
IOP53
IOP54
IOP55
IOP56
3.3V
VSS
DB0
DB1
DB2
DB3
DB4
DB5
DB6
DB7
3.3V
VSS
ADR0
ADR1
ADR2
ADR3
ADR4
ADR5
ADR6
TEST0
TEST1
XWR
XRD
3.3V
VSS
CLK
VSS
XRESET
XCS
INT
KSTART
KLATCH/OP24/SENCTL3
KSCLK
I
O
O
I
O
O
5V
0V
O
I
O
O
O
O
O
O
O
O
5V
0V
O
O
O
O
O
O
I
O
I
O
I
O
O
3.3V
0V
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
3.3V
0V
I
I
I
I
I
I
I
I
I
I
I
3.3V
0V
I
0V
I
I
O
O
O
O
POWER SUPPLY
VOLTAGE
5V
5V
5V
5V
5V
5V
5V
GND
5V
5V
5V
5V
5V
5V
5V
5V
5V
5V
5V
GND
5V
5V
5V
5V
5V
5V
5V
5V
5V
5V
5V
5V
5V
3.3V
GND
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
GND
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
5V
5V
3.3V
3.3V
3.3V
GND
3.3V
GND
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
155
EXPLANATION
INPUT PORT(TNREMP)
NOT USED
NOT USED
INPUT PORT(XHSYNC)
NOT USED
OUTPUT PORT(CISON)
POWER SOURCE
GND
OUTPUT PORT(CISLEDON)
INPUT PORT(DRUM)
OUTPUT PORT(PICKUP)
NOT USED
NOT USED
NOT USED
NOT USED
OUTPUT PORT(OPERST)
OUTPUT PORT(VOL0)
OUTPUT PORT(VOL1)
POWER SOURCE
GND
ANALOG ASIC CONTROL
ANALOG ASIC CONTROL
ANALOG ASIC CONTROL
OUTPUT PORT(VOL2)
OUTPUT PORT(SPMUTE)
NOT USED
INPUT PORT(HOOK)
OUTPUT PORT(LEDCTL)
INPUT PORT(PAPER)
OUTPUT PORT(PDWN)
INPUT PORT(TOPCVR)
OUTPUT PORT(DEV)
OUTPUT PORT(CHG)
POWER SOURCE
GND
DATA BUS 0
DATA BUS 1
DATA BUS 2
DATA BUS 3
DATA BUS 4
DATA BUS 5
DATA BUS 6
DATA BUS 7
POWER SOURCE
GND
ADDRESS BUS 0
ADDRESS BUS 1
ADDRESS BUS 2
ADDRESS BUS 3
ADDRESS BUS 4
ADDRESS BUS 5
ADDRESS BUS 6
NOT USED
NOT USED
WR SIGNAL
RD SIGNAL
POWER SOURCE
GND
CLOCK INPUT
GND
RESET INPUT
CHIP SELECT INPUT
INTERRUPT INPUT
OPERATION PANEL CONTROL
NOT USED
KX-FL513RU
PIN
No.
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
SIGNAL
KTXD
KRXD/IP23/SENIN3
3.3V
VSS
VIN0/IP20(APC)
VIN1/IP21
VIN2/IP22
VOUT0/OP25
VOUT1/OP26
VOUT2/OP27
RM0
RM1
RM2
RM3
RXE
5V
VSS
IOP57
FANDET1/IOP14
FANON1/IOP15
FANDET2/IOP16
FANON2/IOP17
IOP60/CSI
IOP61/CCLK
IOP62/CSO
SENCTL0/IOP04
SENCTL1/IOP05
5V
I/O
I/O
I
3.3V
0V
I
I
I
O
O
O
O
O
O
O
O
5V
0V
O
I
O
O
O
O
O
I
O
O
5V
POWER SUPPLY
VOLTAGE
3.3V
3.3V
3.3V
GND
3.3V
3.3V
3.3V
5V
5V
5V
5V
5V
5V
5V
5V
5V
GND
5V
5V
5V
5V
5V
5V
5V
5V
5V
5V
5V
156
EXPLANATION
INPUT FROM READ POSITION SENSOR
POWER SOURCE
GND
INPUT TO INVERTER
INPUT TO INVERTER
INPUT TO INVERTER
OUTPUT FROM INVERTER
RX MOTOR CONTROL
RX MOTOR CONTROL
RX MOTOR CONTROL
RX MOTOR CONTROL
NOT USED
POWER SOURCE
GND
NOT USED
DETECT FAN ROTATION
FAN CONTROL
OUTPUT PORT(BREAK)
FAN CONTROL
NOT USED
OUTPUT PORT(RLY)
INPUT PORT(VOX)
LED CONTROL FOR EXIT SENSOR
LED CONTROL FOR REGIST SENSOR
POWER SOURCE
KX-FL513RU
7.3.2.
RTC BACKUP CIRCUIT
1. Function
This unit has a lithium battery (BAT600) which works for the Real Time Clock IC (RTC: inside IC606).
The RTC continues to work, backed up by a lithium battery even when the power switch is OFF.
2. RTC Inside (IC606) Backup Circuit Operation
When the power switch is turned ON, power is supplied to the RTC (inside IC606). At this time, the voltage at pin 10 of the
IC606 is +3.3V. When the power switch is turned OFF, the BAT600 supplies power to RTC through D602. The voltage at pin
10 of IC606 is about +2.5V. When the power switch is OFF and the voltage of +3.3V decreases, pin 10 of RTC (IC606)
becomes roughly the same voltage as the battery voltage. RTC goes into the backup mode, in which the power consumption
is lower.
157
KX-FL513RU
7.3.3.
MODEM CIRCUIT OPERATION
The modem (IC600) has all the hardware satisfying the CCITT standards mentioned previously.
When the ASIC IC606 (114) is brought to a low level, the modem (IC600) is chip-selected and the resistors inside IC are selected
by the select signals from ASIC (IC606) ADR0-ADR4(pin 84~88). Commands are written through the data bus, and all processing
is controlled by the ASIC (IC606) according to CCITT procedures. Here, the INT signal dispatched from IRQ (pin 108 of IC600) to
the ASIC (IC606) implements post processing.
This modem (IC600) has an automatic application equalizer. With training signal 1 or 2 at the time of G3 reception, it can
automatically establish the optimum equalizer. The modem (IC600) operates using the 32.256MHz clock (X600).
1. Facsimile Transmission/DTMF Line Send
The digital image data on the data bus is modulated in the modem (IC600), and sent from pin 69 via modem IC600, Analog gate
array IC207(24→22), amplifier IC204(6→7) and the NCU section to the telephone line.
Refer to CHECK SHEET(P.129).
2. Facsimile Reception
The analog image data which is received from the telephone line passes through the NCU section and enters pin 60 of the
modem (IC600). The signals that enter pin 60 of the modem (IC600) are demodulated in the board to digital image signals, then
placed on the data bus.
In this case, the image signals from the telephone line are transmitted serially. Hence, they are placed on the bus in 8 bit units.
Here, the internal equalizer circuit reduces the image signals to a long-distance receiving level.
This is designed to correct the characteristics of the frequency band centered around 3 kHz and maintain a constant receiving
sensitivity.
It can be set in the service mode.
3. DTMF Transmission (Monitor tone)
The DTMF signal generated in the modem (IC600) is output from pin 69, and the NCU section to the telephone line the same
as facsimile transmission signals.
(DTMF Monitor Tone)
4. Busy/Dial Tone Detection
The path is the same as FAX receiving. When it is detected, the carrier detect bit of the resistor in the modem (IC600) becomes
1, and this status is monitored by ASIC (IC606).
5. Call Tone Transmission
This is the call signal which is generated the ASIC (IC606) and sent to the speaker.
158
KX-FL513RU
7.3.4.
ANALOG SECTION
Composed of ITS circuit and NCU circuit.
7.3.4.1.
ANALOG GATE ARRAY (IC207)
The cross-point switch installed in this IC makes it possible to change the circuit configuration
for any analog signals such as the fax signals sent from the digital board. In addition,
this analog gate array integrates a handset circuit, input/output ports, etc.
This IC is controlled by ASIC(IC606) through GATE ARRAY (IC605) on the digital board.
Explanation of ANALOG GATE ARRAY (IC207 on the ANALOG Board)
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
Name
STR
CLOCK
DATA
VDD
VOXOUT
VOXDET
VOXIN
VSS
NC
ROUT2
ROUT1
RIN
VCC
HSMICIN1
HSMICIN2
HSMICOUT
NC
NC
Function
Strobe input
Clock input
Data input
Logic power supply
VOX output
VOX detection adjustment
VOX input
Logic ground
Not used
HS receiver amp output 2
HS receiver amp output 1
HS receiver amp input
Analog ground
HS mic amp input 1
HS mic amp input 2
HS mic amp output
Not used
Not used
No.
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
159
Name
NC
EXTIN
EXTOUT
LINEOUT
LINEIN
MODEMTXIN
MODEMTXOUT
NC
TONEIN
NC
NC
GND
MODEMRXOUT
VLIN
VREF
VLOUT
SPOUT
SPIN
Function
Not used
Ext amp output
Ext amp input
Line amp output
Line amp input
MODEM TX amp input
MODEM TX amp output
Not used
Tone amp input
Not used
Not used
Analog ground
MODEM RX amp output
Volume amp input
Reference voltage output
Volume amp output
Speaker amp output
Speaker amp input
KX-FL513RU
7.3.4.2.
DESCRIPTION OF BLOCK DIAGRAM IN ANALOG SECTION
1. Function
The analog section works as an interface between the telephone line.
The analog ASIC (IC207) on the analog board exchanges FAX TX and RX signals between the MODEM (IC600) and the analog
section.
The control signals transmitted to the analog section are output mainly from G/A IC605, and the analog status is stored as data
in G/A IC605.
2. Circuit Operation
[NCU]: Network Control Unit the NCU comprises of the following; DC loop forming circuit to connect with the telephone line;
Switching circuit for other interconnected telephones; Bell detection circuit; Side tone circuit; Remote fax activation circuit.
Refer to NCU SECTION (P.162) for the details.
160
7.3.4.3.
C214
C303
R231
R230
C225 C233
DC LOOP
PC204
R234 R242
C224 R232
C315
R332
SPKRM
~
SA200
R310 L242
POS200
SA201
/BREAK
C226
SPKRP
L239
RY200
FG
C229
LINEOUT_P
R289
T203
R287
R288
R233 R241
D210
~
Q211
C237
69
C223 R229
C227
C611
60
R628 C613
LINEIN
C612
R244 R243
R324
MICP C630 R658
62
MICM
C239 C238
IC600
PIA
C253
C232 R236
LPF
D213
Q212
RLY
12V IC204-B
CN204
1
2
3
4
5
6
L247
DIGITAL
ANALOG
R303
R299
C281
C296
R316
PC205
BELL
R315
C307
36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19
D211
D212
C294
IC611
R325
T202
C308
R344
0/-3
-20/-30
0/-6/-12
C286
R298
C285
1
R222
2
R334 C317
C219
R335 C318
C292
TO
HANDSET
4
1
2
3
HSMIC(+)
HSMIC(-)
HSSP(+)
HSSP(-)
CN202
C320
R295
R313
AGC
IC208
IC202-B
R296
C240
R297
C277
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
R326
R312
20
R330
C246 R251
R331
5 4 3
0/-6
C314
0/-1/-2/-3/-4/
-5/-6/-7/-8dB
MUTE1
DET
C313
MUTE2
0/-1/-2/-3dB
A A A A A
D
5 4 3 2 1
C312
R247
SPMUTE
R327 C309 R329
R250
CD 1
8
7 GND FC2 2
6 VCC FC1 3
5
4
R293
CN200
1
2
MILAT
MICLK
MIDAT
SP(+)
SP(-)
R314
R246
IC207
161
C324
IC202-A
R283
C325
C268
R343
VOL
C299
R318 C202
R202 C200
C266
L248
R206
R282
R277
R319 C302
C204
TONE
CN203
1
2
3
4
5
6
BLOCK DIAGRAM
IC204-A
R218
KX-FL513RU : ANALOG BOARD : BLOCK DIAGRAM
KX-FL513RU
KX-FL513RU
7.4.
7.4.1.
NCU SECTION
GENERAL
This section is the interface between the telephone line and external telephone. It is composed of an EXT. TEL line relay (RLY200),
bell detection circuit, TAM interface circuit, line amplifier and side tone circuits and a multiplexer.
7.4.2.
EXT. TEL. LINE RELAY (RLY200)
Normally, this relay switches to the external telephone side (break) and switches to the open side (make) while OFF-HOOK.
{ IC605 (95) High Level→CN600 (27) High Level} →CN201 (2) High Level→Q212 ON→RLY200 (ON)→(make)
{ IC605 (93) LOW Level→CN600 (21) LOW Level} →CN201 (8) LOW Level→PC204 ON→Q211 (ON)→(make)
7.4.3.
BELL DETECTION CIRCUIT
The signal waveform for each point is indicated below. The signal (low level section) input to pin 6 of gate array IC605 on the
digital board is read by ASIC and judged as a bell.
TEL LINE→PC205 (1, 2 - 4)→IC605 (6)
7.4.4.
CALLING LINE IDENTIFICATION CIRCUIT
1. Function
This unit is compatible with the Caller ID service offered by your local telephone company. To use this feature, you must
subscribe to a Caller ID service. The data for the caller ID from the telephone exchange is sent during the interval between the
first and second rings of the bell signal. The data from the telephone exchange is a modem signal which is modulated in an FSK
(Frequency Shift Keying) format. Data “0” is a 1200 Hz sine wave, and data 1 a 2200 Hz sine wave.
There are two type of the message format which can be received: i.e.the single data message format and multiple data
message format.
The multiple data format allows to transmit the name and data code information in addition to the time and telephone number
data.
When there is multiple data in the unit, the name or telephone number are displayed.
FSK signal of the caller ID signal input from TEL LINE is processed with FSK receiver (IC602).
Refer to CHECK SHEET (P.129) for the route of caller ID signal.
162
KX-FL513RU
7.4.5.
LINE AMPLIFIER AND SIDE TONE CIRCUIT
The reception signal output from the line transformer T201 is input to pin (2) of IC204 via C232, R236 and then the signal is
amplified at pin (1) of IC204 and sent to the reception system.
The transmission signal goes through C224, R232 and enters IC204-pin (6), where the signal is amplified. Then, it is output
from pin (7) of IC204 and transmitted to T201 via L230, C237, R244, R243. Without a side tone circuit, the transmission signal
will return to the reception amplifier via R236, C232. When the side tone circuit is active, the signal output from IC204 pin (7)
passes through L230, C237, R241, R233, C233, C225, C223, and R229 and goes into the amplifier IC204 pin (3). This circuit
is used to cancel the transmission return signal.
The TX signal is output to the circuit analog the route from the IC204 7 pin→L230→C237→R244→R243→T201→TEL LINE.
However, if balance is lost in the bridge, a voltage occurs between the IC207 6 pin and 5 pin and a side tone results, because
the balance cannot be maintained completely at all frequencies in the audio range some side tone always occur.
7.4.6.
LOW PASS FILTER AND NOTCH FILTER
1. Function
This low pass filter and notch filter attenuates the account signal from the commutator to eliminate influence on the conversation
and communication.
This low pass filter is an eight-order active filter, and the cutoff frequency is approximately 4 kHz.
NOTCH FILTER has filter pole of account signal frequency.
163
KX-FL513RU
7.4.7.
REMOTE FAX ACTIVATION CIRCUIT
1. Function
Another telephone connected to same line activates the unit to the FAX mode by using a DTMF signal.
2. Signal Path
Refer to CHECK SHEET (P.129).
7.4.8.
TAM INTERFACE CIRCUIT
This circuit is to switch between FAX receiving and the external TAM’s message recording automatically. This circuit consists of the
monitor,transformer and amplifier.
For details, please refer to TAM INTERFACE SECTION (P.165).
7.5.
7.5.1.
ITS (Integrated telephone System) and MONITOR SECTION
GENERAL
The general ITS operation is performed by the special IC207 which has a handset circuit. The alarm tone, the key tone, and
the beep are output from the ASIC IC606 (digital board).
7.5.1.1.
TELEPHONE MONITOR
1. Function
This is the function when you are not holding the handset and can hear the caller’s voice from the line.
(Telephone Monitor Signal Path)
Signals received from the telephone line are output through at the speaker via the following path.
3. Signal Path
Refer to CHECK SHEET.
164
KX-FL513RU
7.5.1.2.
HANDSET CIRCUIT
1. Function
This circuit controls the conversation over the handset, i.e. the transmitted and received voices to and from the handset.
2. Signal Path (Transmission signal)
3. Signal path (Reception signal)
7.5.1.3.
MONITOR CIRCUIT
1. Function
This circuit monitors various tones, such as (1) DTMF tone, (2) Alarm/Beep/Key tone/Bell.
2. Signal Path
a. DTMF MONITOR
(Speaker Operation)
(Handset Operation)
b. ALARM/BEEP/KEY TONE/BELL
7.5.1.4.
TAM INTERFACE SECTION
1. Function
When TAM is connected to this unit, the unit receives documents for FAX calls or the external TAM records a voice message
automatically.
The TAM INTERFACE circuit consists of the transformer (T202), amplifier (IC202), analog ASIC (IC207), MODEM (IC600) on
the digital board to detect the other party CNG signal, and RLY200 to separate EXT.TAM.
a. CNG signal detection circuit
The CNG signal from the other party’s FAX is detected in MODEM IC600 (digital board).
(Signal path)
b. Remote receiving
This is the parallel-connected DTMF signal for the TEL or EXT.TEL mode between T and R. When the other party is a FAX,
the unit switches to FAX receiving.
(Signal Path)
165
KX-FL513RU
7.6.
CIS CONTROL SECTION
The scanning block of this device consists of a control circuit and a contact image sensor made up of a celfoc lens array, an LED,
a light guide, and photoelectric conversion elements.
When an original document is inserted and the start button pressed, pin 15 of IC605 goes to a high level and the transistor Q618
turns on.This applies voltage to the LED to light it. The contact image sensor is driven by each of the FTG-F1 signals output from
IC606, and the original image illuminated by the LED undergoes photoelectric conversion to output an analog image signal (SIG).
The analog image signal is input to the system ASIC on AIN1 (pin 3 of IC606) and converted into 8-bit data by the A/D converter
inside IC606. Then this signal undergoes digital processing in order to obtain a high-quality image.
166
KX-FL513RU
7.7.
7.7.1.
STEPPING MOTOR DRIVE SECTION
ENGINE MOTOR DRIVE CIRCUIT
1. Functions
This motor functions for main operations FAX reception and copy printing.
This feed recording paper synchronized for printing.
2. Motor operation
Excitation pulses is output from G/A (IC605) pins 83, 84, 85 and 86. Then stepping pulses are output from driver IC (IC609) pin
No 2, 7, 8 and 13, and drives the motor coil.
During motor driving, pin 90 of G/A IC605 becomes a low level.
As a result, a current of about 1A are supplied to the motor coil.
7.7.1.1.
TIMING CHART
DRIVE MODE
FUNCTION
PRINT
MODE
-
PHASE PATTERN
2 phase
167
SPEED
951pps
CURRENT
1A
KX-FL513RU
7.7.1.2.
ENGINE MOTOR DRIVE CIRCUIT
168
KX-FL513RU
7.7.2.
SCAN MOTOR DRIVE CIRCUIT
1. Functions
This motor functions for main operations including FAX transmission.
This feed document paper synchronized for reading.
2. Motor operation
During motor driving, pin 25 of ASIC IC606 becomes a high level, and Q613, Q620 turns ON.
As a result, +24V is supplied to the motor coil.
Stepping pulses are output from ASIC IC606 pins, 21, 22, 23, 24, causing driver IC610 pins,
16 ~ 13 to drive the motor coil.
The motor coil is energized sequentially in 2 phase increments, which causes a 1-step rotation.
A 1-step rotation feeds 0.065mm of document paper.
7.7.2.1.
TIMING CHART
169
KX-FL513RU
7.7.2.2.
SCAN MOTOR (ADF MOTOR) DRIVE CIRCUIT
DRIVE MODE
FUNCTION
SCAN
SCAN
SCAN
SCAN
SCAN
FAX
FAX/COPY
FAX/COPY
FAX/COPY
DOC.PREFEED/EJECT
STAND-BY
MODE
STANDARD
FINE/PHOTO
SUPER FINE
PHOTO WITH TEXT
-
170
PHASE PATTERN
2 phase
2 phase
1-2 phase
2 phase
2 phase
ALL PHASE OFF
SPEED
579pps
579pps
579pps
579pps
579pps
-
KX-FL513RU
7.8.
FAN MOTOR SECTION
This FAN is used to radiate heat in the unit.
The signal level at pin 92/94 of IC605 becomes high, the FAN is activated. In this case, the pulse signal as shown below input
to pin 91 of IC605 and the rotation of the FAN is detected.
171
KX-FL513RU
7.8.1.
FAN CONTROL
This unit is equipped with fan to prevent the developing device from rising in temperature while printing.
The air is inhaled from the right side of the unit.
The fan rotates at high speed (Approx. 3000 rpm) while printing (controlling the developing device). After printing is finished, it
rotates at low speed (Approx. 2200 rpm) when the temperature of the unit goes up over a fixed one or depending on the number
of printed papers (frequency).
While the fan is rotating at high speed, the voltage of Approx. 21 V is supplied to the fan, however, while rotating at low speed,
the supply voltage is decreased to Approx. 12V.
Each signal wave is as follows:
1. High-speed rotation (typ. 3000 rpm)
2. Low-speed rotation (typ. 2200 rpm)
172
KX-FL513RU
7.9.
SOLENOID DRIVE SECTION
The solenoid drive circuit controls the pick-up clutch.
The solenoid is designed to be driven by +24V, driven by IC605-17 pin.
Diode D600 protects Q607 from backward voltage when the solenoid is driven.
Mode
SOLENOID ON
SOLENOID OFF
IC606-149 pin
high level
low level
173
KX-FL513RU
7.10. LSU (Laser Scanning Unit) SECTION
174
KX-FL513RU
175
KX-FL513RU
7.11. SENSORS AND SWITCHES SECTION
All of the sensor and switches are shown below.
Sensor Circuit Location
Operation Panel
Operation Panel
High Voltage PCB
Toner Sensor PCB
Digital PCB
Digital PCB
Exit Sensor PCB
Toner Sensor PCB
Analog PCB
Sensor
PS101
SW146
SW101
SW60
PS601
PS600
PS51
SW60,IC60
SW200
Sensor or Switch Name
Document set
Paper Feed
Printer Open
OPC Set
Register
Paper
Exit
Dev & Toner Set
Hook
Message Error
[CHECK DOCUMENT]
[REMOVE DOCUMENT]
[COVER OPEN]
[CHECK DRUM]
[FAILED PICKUP]
[OUT OF PAPER]
[PAPER JAMMED]
[TONER EMPTY]
[TONER LOW]
[CHECK DRUM]
————
Note:
See TEST FUNCTIONS - SENSOR CHECK SECTION for the sensor test.
(#815 of Service Mode test. Refer to TEST FUNCTIONS (P.65).
7.11.1. HOOK SWITCH
When the handset is raised, the switch is turned OFF, and the signal at pin 33 of IC605 is high.
When the handset is returned, the switch is turned ON, and the signal at pin 53 of IC605 is low.
176
KX-FL513RU
7.11.2. DOCUMENT SENSOR
The Sensor detects whether or not a document is in place.
When a document is detected, the shelter plate shuts off the sensor light, the photo-transistor turns OFF, and the input signal
of IC101-19pin becomes a high level. When there is no document, the shelter plate let the sensor light pass through, the phototransistor turns ON, and the input signal of IC101-19pin becomes a low level.
Document Set
No Document
Photo-transistor
OFF
ON
Signal (IC101-19pin)
High level
Low level
7.11.3. PAPER FEED SENSOR
The Sensor detects the front edge of the document.
When a document is detected, the switch turns ON, and the input signal of IC605-74pin becomes a low level. When there is no
document, the switch turns OFF, and the input signal of IC605-74pin becomes a high level.
Read Position
Non Read Position
Switch
ON
OFF
177
Signal (IC605-74pin)
Low level
High level
KX-FL513RU
7.11.4. TOP COVER OPEN SWITCH
The Switches detect whether the printer cover is open or closed.
When the printer cover is closed, the switches turn ON, and the input signal of IC605-37pin becomes a high level.
When the printer cover is open, the switches turns OFF, and the input signal of IC605-37pin becomes a low level.
Switch
OFF
ON
Open
Close
Signal (IC605-37 pin)
Low level
High level
7.11.5. DRUM SENSOR
The Switch detects whether the OPC unit is set or not.
When there is the DRUM unit, the input signal of IC605-16pin becomes a high level.
When there is no DRUM unit, the input signal of IC605-16pin becomes a low level.
High level
Low level
DRUM Set
No DRUM
178
KX-FL513RU
7.11.6. REGIST SENSOR
The Sensor detects whether or not the recording paper is present so that printing can start.
When the recording paper is detected, the shelter plate let the sensor light passing through, the photo-transistor turns ON, and the
input signal of IC605-5pin becomes a low level.
When there is no recording paper, the shelter plate closes the sensor light, the photo-transistor turns OFF, and the input signal of
IC605-5pin becomes a high level.
No Recording Paper
Recording Paper Regist
Photo-transistor
OFF
ON
179
High level
Low level
KX-FL513RU
7.11.7. PAPER SENSOR..... “OUT OF PAPER”
The Sensor detects the recording paper are in place.
When the recording paper is detected, the shelter plate let the sensor light passing through, the photo-transistor turns ON, and the
input signal of IC605-35 pin becomes a low level.
When there is no recording paper, the shelter plate closes the sensor light, the photo-transistor turns OFF, and the input signal of
IC605-35 pin becomes a high level.
[Paper Sensor]
Recording Paper Set
No Recording Paper
Photo-transistor
OFF
ON
Low level
High level
7.11.8. PAPER EXIT SENSOR..... “PAPER JAMMED”
The sensor detects whether the recording paper exit out or noy.
When there is no recording paper at the position of the sensor, the shelter plate closes the sensor light, the photo-transistor fot
tarus OFF, and the input signal of IC605-4pin becomes high level.
When the recording paper reach the exit sensor, the shelter plate let the sensor light passing through, the photo-transistor ON, and
the input signal of IC605-4pin becomes a low level.
[Exit Sensor]
No Paper
Paper Exist
Photo-transistor
OFF
ON
180
High level
Low level
KX-FL513RU
7.11.9. Detecting New Drum Units
Purpose
To investigate the actual number of printed papers with the drum units
(Investigating how the returned sets´ drum units were used)
Method
Whether the drum unit is new or old should be judged by detecting the turn delay of Mixing Paddle (Toner detection sensor).
• When shipping the drum unit, the mixing paddle gear is set to the position that has the space of more than one turn (max.
600).
• After the main motor starts, when the toner detection signal is not varied within the fixed time (max. 4.5 sec), the drum unit
is found new.
181
KX-FL513RU
182
KX-FL513RU
7.11.10. TONER SENSOR.... “TONER EMPTY”, “TONER LOW”, “CHANGE DRUM”
The Sensor detects whether or not the Drum unit and the toner are present.
When there is not Drum unit, Hall IC (IC60) turns off, and the input signal of IC605-7 pin (Digital P.C.B) becomes a High level
over 9s. When the Developer unit is set, Hall IC (IC60) turns ON/OFF. If the time of IC605-7 pin´s Low level is under 600ms,
there is enough toner in Developer unit, if not, toner is near empty.
Toner Sensor
The rest of toner is detected by the move speed of the magnet put on the pendulum of Mixing Paddle. The pendulum is pushed
up by the Mixing Paddle, then it falls down by its own weight. The rotation speed of paddle is set slower than the one of
pendulum which falls down by its own weight. When the toner is still left, the pendulum falls and stops on the toner, then pushed
by the paddle, it starts to rotate. When no toner is left, the pendulum falls to the bottom. Consequently the contact time between
the magnet and steel becomes short when toner is left and long with no toner.
State
Toner Set (full)
Near Empty Toner
Mixing Paddle does not rotate
(“CHANGE DRUM”)
Display
TONER LOW
CHANGE DRUM
183
Signal (IC605-7pin)
Low level = about 0.3s
Low level>0.6s
High level fix or Low level fix
KX-FL513RU
7.11.10.1. TONER DETECTION FLOW
CAUTION:
1. Toner low can be judged by continuous 5-times TONER LOW signal at only printing.
(It is not executed at.)
2. Toner full can be judged by continuous 3-times TONER FULL signal at initialization.
(It is not executed at printing.)
3. In the ordinal operation, “CHECK DRUM” is displayed when TONER EMPTY sensor does not generate a signal for 2.7
seconds.
184
KX-FL513RU
7.12. OPERATION BOARD SECTION
The unit consists of a LCD (Liquid crystal display), KEYs and LEDs (light-emitting diodes). They are controlled by the Gate Array
(IC101) and ASIC (IC610: on the DIGITAL BOARD).
The key matrix table is shown below.
LCD MODULE
G/A
CN101
CN606
CN102
IC605
GATE ARRAY IC
IC101
8x5
KEYS
MATRIX
(Hard)
LED
3x3
KEYS
MATRIX
(Soft)
DIGITAL BOARD
OPERATION BOARD
1. Key Matrix
a. Hard Scan
KSL0
KSL1
KIN0
AUTO ANSWER
QUICK SCAN
KIN1
CALLER IQ
S6
KIN2
NEXT
VOL-
KIN3
STOP
CID-SEARCH
KSL2
KSL3
KSL4
COPY
RESOLUTION
FAX START
---------COLLATE
----------
PREV
---------VOL+
CID-PRINT
S12
S11
KIN4
MENU
DIRECTORY/
PROGRAM
---------MONITOR
HELP
KIN5
FLASH
#
KIN6
H/S MUTE
0
KIN7
REDIAL/PAUSE
*
9
3
6
8
2
5
7
1
4
*LED7 should be set to KSL4. "8 x 5" key matrix is executed by hardware scanning.
b. Soft Scan
SKS0 (LED6)
SKS1 (XLED9)
SKS2 (XLED10)
SKIN0 (XLED8)
S10
S4
S5
KIN1 (XLED12)
S7
S2
S1
2. LED
• AUTO ANSWER LED ON/OFF port---LED2
• CALLER IQ LED ON/OFF port---LED3
185
KIN2 (XLED11)
S9
S3
S8
KX-FL513RU
7.13. LCD SECTION
The Gate Array (IC101) works only for writing the ASCII code from the data bus (D4~D7). V0 is supplied for the crystal drive.
R130 and R134 are density control resistors.
Consequently, in this unit, the timing (positive clock) is generated by the LCD interface circuitry in the gate array (IC101).
186
KX-FL513RU
7.14. HVPS (High Voltage Power Supply) SECTION
7.14.1. HVPS SPECIFICATION
No
1
2
3
Output voltage
Electrostatic
Charge
CHG BIAS
Developing
DEV(-) BIAS
Developing
DEV(+) BIAS
Transfer
TRA(+) BIAS
Transfer
TRA(-) BIAS
Item
Rate output voltage
Impedance range
Output format
Rate output voltage
Impedance range
Output format
Rate output voltage
Output format
Variable output current
Output voltage
Output format
Rate output voltage
Output format
Specification
-1000±30V
50M~1000MΩ
Constant voltage
-200±15V
10M~2000MΩ
Constant voltage
+150+20V
Constant voltage
+4~25µA
+3500V Max.
Variable Constant current
-1000±100V
Constant voltage
Notes
Output current
varies with the
printed rate.
DEV BIAS is output from one of the output terminals after the DEV CHG signal selects DEV(+) BIAS and DEV(-) BIAS.
TRA BIAS is output from one of the output terminals after the TRA CLK signal selects TRA(+) BIAS and TRA(-) BIAS.
187
KX-FL513RU
7.14.2. CHG-BIAS (Charge BIAS)/DEV(-) BIAS (Developing(-) BIAS)/DEV(+) BIAS
(Developing(+) BIAS) UNIT
When the CHG REM terminal becomes “L”, the transistor Q201 turns ON by IC101, Charge BIAS(-1000V) is output from CHG
OUTPUT, Developing(-) BIAS(-200V) is output from DEV(-) BIAS. After that, when DEV CHG terminal becomes “L”, Q202 turns
ON, and Developing(+) BIAS(+150V) is output from DEV(+) BIAS.
7.14.3. TRA(+) BIAS (Transfer(+) BIAS)/TRA(-) BIAS (Transfer(-) BIAS) UNIT
When the CHG REM terminal is “L” and the TRA CLK terminal is “Open”, Transfer(-) BIAS(-1000V) is output from TRA OUTPUT
the moment Charge BIAS(-1000V) is output from CHG OUTPUT. When 7.8KHz PWM (pulse-width modulation) signal is input to
the TRA CLK terminal, Q103 turns ON by IC101, and TRA(+) CURRENT BIAS according to the PWM signal is output from TRA
OUTPUT. The PWM signal will be turned to a constant voltage by the resistor and the condenser, and input to the IC101. The
IC101 compares this voltage with the feedback voltage from T101 and controls the Q103. As for the transfer current, +25µA is
output when DUTY of the TRA CLK input signal is 0%, or +4µA is output when that is 72%.
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7.15. HEAT LAMP CONTROL CIRCUIT
The temperature of the fixing part of the Fixing Unit is converted to a voltage by THERMISTOR and input to IC606-4pin. The
heater turns ON/OFF the photo-coupler PC102 at the heater control port (IC606-29pin), and is turned ON/OFF at the triac
SCR101. And two thermostats are set on the AC line as the safety devices.
1. Control at Printing
a. After the printing signal is received, turn ON the heater.
b. After that, turn ON the motor at the Primary Stable Temperature (150°C).
c. After that, control at the Secondary Stable temperature (160°C), and feed papers.
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Refer to CALL SERVICE TROUBLESHOOTING GUIDE (P.84)
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2. Safety Protection
a. 2 thermostats are provided with the unit, and the heater circuit is shut down when their surface temperatures became over
135°C.
b. The heater control circuit of IC606 has the built-in function that the software turns off the heater control automatically if the
heater is not turned ON every a fixed time.
c. When the temperature became over 240°C, the heater control circuit of IC606 is turned off forcedly and system reset (IC606
pin 20 becomes Low) will be executed.
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The correspondence readings between temperature measured by thermistor and HEX readings
Temperature(°C)
-10
-9
-8
-7
-6
-5
-4
-3
-2
-1
0
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
HEX reading
C2
BF
BC
B9
B5
B2
AF
AB
A8
A5
A2
9E
9B
98
95
91
8E
8B
88
85
82
7F
7C
79
76
73
70
6D
6A
68
65
63
60
5D
5B
59
56
54
52
4F
4D
4B
49
47
45
43
Temperature(°C)
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
73
74
75
76
77
78
79
80
81
HEX reading
41
40
3E
3C
3A
39
37
36
34
33
31
30
2F
2D
2C
2B
2A
29
27
26
25
24
23
22
21
20
20
1F
1E
1D
1C
1B
1B
1A
19
19
18
17
17
16
15
15
14
14
13
13
Note:
The value is displayed on LCD at TEST FUNCTIONS (P.65) [#815].
192
Temperature(°C)
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
HEX reading
12
12
11
11
10
10
10
0F
0F
0E
0E
0E
0D
0D
0D
0C
0C
0C
0C
0B
0B
0B
0A
0A
0A
0A
09
09
09
09
09
08
08
08
08
08
07
07
07
07
07
07
06
06
KX-FL513RU
The correspondence readings between temperature measured by fixing thermistor and HEX readings
Temperature(°C)
0
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
HEX reading
E4
E4
E4
E4
E4
E4
E3
E3
E3
E3
E3
E2
E2
E2
E2
E1
E1
E1
E1
E0
E0
E0
E0
DF
DF
DF
DE
DE
DE
DD
DE
DD
DD
DD
DC
DC
DB
DB
DB
DA
DA
D9
D9
Temperature(°C)
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
HEX reading
B8
B7
B6
B5
B4
B3
B2
B1
B0
AE
AD
AC
AB
AA
A9
A8
A7
A6
A5
A3
A2
A1
A0
9E
9D
9C
9C
9A
99
98
96
95
94
93
91
90
8F
8D
8D
8B
8A
89
88
193
Temperature(°C)
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
HEX reading
58
57
56
56
55
54
53
52
51
50
4F
4E
4D
4C
4C
4B
4A
4A
49
48
47
46
45
44
44
43
42
41
40
40
3F
3E
3D
3C
3C
3B
3A
3A
39
38
37
37
36
KX-FL513RU
Temperature(°C)
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
73
74
75
76
77
78
79
80
81
82
83
HEX reading
D8
D7
D7
D6
D6
D5
D5
D4
D3
D3
D2
D1
D1
D0
CF
CF
CE
CD
CD
CD
CC
CB
CA
CA
C9
C8
C7
C6
C5
C4
C3
C2
C2
C1
C0
BF
BE
BD
BC
BB
BA
Temperature(°C)
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
161
162
163
164
165
166
167
HEX reading
86
85
84
82
81
80
7F
7D
7C
7B
79
78
77
76
74
73
72
72
70
6F
6E
6D
6C
6A
69
69
68
67
66
64
63
62
61
60
5F
5E
5D
5C
5B
5A
59
Note:
Hex reading : 01h or below = Short of Thermistor
Hex reading : F9h or over = Open of Thermistor
194
Temperature(°C)
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
HEX reading
35
35
34
33
33
32
32
31
30
30
2F
2F
2E
2D
2D
2C
2C
2A
2B
2A
2A
29
2A
29
29
28
28
27
27
26
26
25
25
24
24
24
23
23
22
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KX-FL513RU
7.16. POWER SUPPLY BOARD SECTION
This power supply board uses the switching regulator method.
Block Diagram
AC
Input
CN101
T101
Input
Circuit
G
A
Rectifier
Circuit C106
B
+
-
Kick-on
Voltage
Circuit
A-B Voltage Wave Form
R106
R107
Converter
Circuit
Surge
absorber
circuit
24V
Output
Circuit
C
Q101
D
0
Surge
absorber
circuit
5V
Output
Circuit
C-D Voltage Wave Form
Control
Circuit
24V
PGND
5V
IC201
E
0
H
IC101
DGND
O.C.L
Over voltage
E-F
G-H Voltage Wave Form
F
Triac
SCR101
0
Error Detecting
Circuit PC101
CN102
Heat Lamp
Photo Trioc
Caupler PC102
HTRCTL
Freq. SW Circuit
PC103
PDWN
[Input Circuit]
The input current goes into the input rectifier circuit through the filter circuit. The filter circuit decreases the noise voltage and
the noise electric field strength.
[Rectifier Circuit]
The input current is rectified by D101~ D104 and charges C106 to make DC voltage. Then it supplies power to the converter
circuit.
[Kick-on voltage circuit]
Bias is applied to the Q101 gate via this circuit when the AC power is turned on and Q101 begins operating.
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The following is an overview of how the power supply unit is controlled.
The control method of this power supply unit is pulse width modulation.
When Q1 is ON, the energy is charged in the transfer primary coil according to E1. When Q1 is OFF, the energy is output from
the secondary transfer as follows.
L → D1 → Load → L
Then the power is supplied to the Load. When Q1 is ON, power is not output from the secondary side. The output voltage is fed
back in the control IC according to the error amp rectifier. Then depending on how TON is controlled, stabilization occurs. Also,
when the current load becomes too large, in order to decrease the voltage output, the increase in is controlled and the output
voltage is stabilized.
Therefore, basically the timing: Ton/Toff of Q1 controls the output voltage.
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[Surge Absorber Circuit]
This circuit is for absorbing surge voltage generated by the transformer.
[Control Circuit and Detecting Circuit]
The control circuit amplifies the output with increased voltage detected in the error detecting circuit. Then it drives the main
transistor.
In this power supply, the duty ratio is defined by changing the ON period of the main transistor.
This is shown as follows.
When the output voltage of the 24V circuit increases, the current of the photo coupler PC101 increases, the pulse width of the
output control IC becomes narrower and the ON period of Q101 becomes shorter.
[Over Current Limiter (O.C.L)]
The highest drain current (Q101) is limited by a limiter circuit (IC101) of 24V. The 24V output is limited by this circuit.
[Over Voltage Circuit]
If the 24V output increases because the error detecting circuit or control circuit is broken, IC101 will recognize this signal and
output becomes 0V.
Dummy load method (to quickly check the power supply output)
Refer to POWER SUPPLY BOARD SECTION,] (P.145).
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8 REFERENCE MATERIALS DATA
8.1.
PRINTING OPERATION PRINCIPLE
8.1.1.
PROCESS CHART AND PROCESS BIAS
8.1.2.
CHARGING
Charging is the stage that keeps the surface of the sensitive drum a fixed electric potential. The sensitive drum is the Organic Photo
Conductor (OPC), which is a electric conductive cylinder whose surface is covered with the Charge Generation Layer (CGL) and
Charge Transfer Layer (CTL).
When the charging bias (DC -1.0 kiev) is added and the minus charge is supplied to the charge brush while charging, the whole
surface potential of the drum is -600V.
Charging Part
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8.1.3.
EXPOSING
When the drum which is charged with the fixed electric charge is irradiated by the laser beam, the plus charge and minus charge
are generated at the Charge Generation Layer. Passing through the Charge Transfer Layer which conducts the plus charge, the
minus-charged drum´s surface is neutralized to be skipped. Then the minus charge goes to the ground from the electric conductive
cylinder. Consequently the charge of the part which is not exposed remains as it is, and the electric potential of the scanned part
changes.
At that time an invisible image is created on the drum.
Exposing Part
8.1.4.
LASER SCANNING UNIT LOCATIONS
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8.1.5.
DEVELOPING AND TRANSCRIPTION
The developing is the stage that the OPC drum with an invisible image is changed to visible by the toner. The developer consists
of mixing paddle, toner supply roller, developing roller, developing blade and OPC drum. The bias voltage is added to the
developing roller (DC -200V) and toner supply roller (DC -200V). Firstly the toner is mixed up in the mixing paddle and minuscharged by triboelectricity, then led to the toner supply roller. Secondly the potential difference causes to send the toner to the
developing roller from the toner supply roller. The supplied toner to the developing roller is kept to a certain layer thickness by the
developing blade and also it is charged by triboelectricity. Consequently the toner is transferred to the surface of the exposed OPC
drum by the potential difference between the developing roller and OPC drum´s surface.
The transfer is the stage that the created image on the OPC drum is transferred to the paper. When the transfer roller is pluscharged with the image, the minus-charged toner particles are gathered on the surface of the drum and transferred to the paper.
Developing and Transcription Part
The values of developing bias and supply bias are different from the ones described in the Service Manual for FL501.
The biases output from the unit of FL501,FLM551 and FLB751(FLB750) have the same voltage. However, the developing device
of FA78X(FA78A) converts the developing and supply biases inside the developing device to improve the image quality.
Developing bias
Supply bias
FA77X(FA77A) developing
device
-350V
-550V
FA78X(FA78A) developing device FA84X(FA84A/FA84E) developing
device
-180V
-200V
-350V
-200V
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KX-FL513RU
8.1.6.
CLEANING
The toner attached to the surface of the OPC drum is transferred to the paper at the transcription stage, but a part of the toner
remains. The cleaning is the stage that cleans the remain toner after the transcription stage. The remain toner on the drum and the
toner which was attached to the place where the laser beam didn´t scan are gathered to the developing roller to be used again.
When no paper is supplied, the transfer roller is minus-charged to eliminate the minus-charged toner.
Cleaning Part
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8.1.7.
FIXING
On the process of the transfer, the transferred toner is weakly attached on the paper. Fixing means the process to fix the toner on
the paper permanently. The fixing part melts the toner at the high temperature using the halogen heater. The toner is fixed on the
paper by the heat and pressure through the fixing part with the image. The surface of the heat roller is rosined by Teflon and
lubricated to prevent from attaching the toners. The press roller is made of silicon, and its spring compresses the melted toner.
Fixing Part
The fixing part becomes high temperature, so the thermistor and the thermal fuse are provided.
1. Thermistor
The thermistor touches the heat roller and check the temperature to feed back to the control circuit. The surface temperature
should be kept 160 °C while printing.
2. Thermostat
The thermostat takes the same role with the thermal fuse. The thermostat is located near the heat roller, and it turns OFF the
power when the temperature around the thermostat becomes over 135°C.
202
8.1.8.
TIMING CHART (When Printing Two Sheets of Paper) BASIC
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8.1.9.
Timing Chart [Initializing (Long)]
204
8.1.10. Timing Chart (when the registration sensor is turned OFF then ON during
initializing)
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KX-FL513RU
8.2.
TERMINAL GUIDE OF THE ICs TRANSISTORS AND DIODES
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8.3.
HOW TO REPLACE THE FLAT PACKAGE IC
Even if you do not have the special tools (for example, a spot heater) to remove the Flat IC, with some solder (large amount),
a soldering iron and a cutter knife, you can easily remove the ICs that have more than 100 pins.
8.3.1.
PREPARATION
8.3.1.1.
For Power Supply Board
8.3.1.2.
• SOLDER
For P.C.Board with “PbF”
marking
• PbF (: Pb free) Solder
Sparkle Solder 115A-1, 115B-1 OR Almit Solder KR-19,
KR-19RMA
• Soldering Iron
• Soldering iron
Tip Temperature of 700°F ± 20°F (370°C ± 10°C)
Recommended power consumption is between 30 W to 40
W.
Note: We recommend a 30 to 40 Watt soldering iron. An
expert may be able to use a 60 to 80 Watt iron where
someone with less experience could overheat and damage
the PCB foil.
Temperature of Copper Rod 662 ± 50°F (350 ± 10°C)
(An expert may handle a 60~80 W iron, but a beginner
might damage the foil by overheating.)
• Flux
• Flux
Recommended Flux: Specific Gravity → 0.82.
HI115 Specific gravity 0.863
Type → RMA (lower residue, non-cleaning type)
(Original flux should be replaced daily.)
Note: See ABOUT LEAD FREE SOLDER (PbF: Pb free)
(P.6).
8.3.2.
FLAT PACKAGE IC REMOVAL PROCEDURE
1. Put plenty of solder on the IC pins so that the pins can be completely covered.
Note:
If the IC pins are not soldered enough, you may give pressure to the P.C. board when cutting the pins with a cutter.
2. Make a few cuts into the joint (between the IC and its pins) first and then cut off the pins thoroughly.
3. While the solder melts, remove it together with the IC pins.
When you attach a new IC to the board, remove all solder left on the land with some tools like a soldering wire. If some solder is
left at the joint on the board, the new IC will not be attached properly.
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8.3.3.
FLAT PACKAGE IC INSTALLATION PROCEDURE
1. Temporarily fix the FLAT PACKAGE IC, soldering the two marked pins.
*Check the accuracy of the IC setting with the corresponding soldering
foil.
2. Apply flux to all pins of the FLAT PACKAGE IC.
3. Solder the pins, sliding the soldering iron in the direction of the arrow.
8.3.4.
BRIDGE MODIFICATION PROCEDURE
1. Lightly resolder the bridged portion.
2. Remove the remaining solder along the pins using a soldering iron as shown in the figure below.
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8.4.
DIGITAL BOARD SECTION
When the unit fails to boot up the system, take the troubleshooting procedures very carefully. It may have a serious problem.
The symptom: No response when the power is turned on. (No LCD display, and keys are not accepted.)
The first step is to check the power source. If there is no problem with the power supply unit, the problem may lie in the digital
unit (main board).
As there are many potential causes in this case (ASIC, DRAM, etc.), it may be difficult to specify what you should check first.
If a mistake is made in the order of checks, a normal part may be determined faulty, wasting both time and money.
Although the tendency is to regard the problem as a serious one (IC malfunction, etc.), usually most cases are caused by solder
faults (poor contact due to a tunnel in the solder, signal short circuit due to solder waste).
Note:
1. Electrical continuity may have existed at the factory check, but a faulty contact occurred as a result of vibration, etc., during
transport.
2. Solder waste remaining on the board may get caught under the IC during transport, causing a short circuit.
Before we begin mass production, several hundred trial units are produced at the plant, various tests are applied and any
malfunctions are analyzed. (In past experiences, digital IC (especially, DRAM and ROM) malfunctions are extremely rare after
installation in the product.)
This may be repaired by replacing the IC, (DRAM etc.). However, the real cause may not have been an IC malfunction but a
soldering fault instead.
Soldering faults difficult to detect with the naked eye are common, particularly for ASIC and RA (Resistor Array). But if you have
an oscilloscope, you can easily determine the problem site or IC malfunction by checking the main signal lines.
Even if you don’t have such a measuring instrument, by checking each main signal line and resoldering it, in many cases the
problem will be resolved.
An explanation of the main signals (for booting up the unit) is presented below.
What are the main signals for booting up the unit?
Please refer to DIGITAL BLOCK DIAGRAM (P.151).
The ASIC (IC606) controls all the other digital ICs. When the power is turned on, the ASIC retrieves the operation code stored
in the ROM (IC607), then follows the instructions for controlling each IC. All ICs have some inner registers that are assigned to
a certain address.
It is the address bus by which the ASIC designates the location inside each IC. And the data bus reads or writes the data in
order to transmit the instructions from the ASIC to the ICs.
These signal lines are all controlled by voltages of 3.3V (H) or 0V (L).
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KX-FL513RU
8.4.1.
NG EXAMPLE
210
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8.5.
MODEM SECTION
8.5.1.
FUNCTION
The unit uses MODEM (IC600) that serves as an interface between the control section for FAX transmission and reception and
the telephone line. During a transmitting operation, the digital image signals are modulated and sent to the telephone line.
During a receiving operation, the analog image signals which are received via the telephone line are demodulated and
converted into digital image signals. The communication format and procedures for FAX communication are standardized by
ITU-T. MODEM has hardware which sends and detects all of the necessary signals for FAX communication.
It can be controlled by writing commands from the ASIC (IC606: inside ASIC).
This MODEM also sends DTMF signals, generates a call tone (from the speaker), and detects a busy tone and dial tones.
Overview of Facsimile Communication Procedures (ITU-T Recommendation):
1. ON CCITT (International Telegraph and Telephone Consultative Committee)
The No. XIV Group of ITU-T, one of the four permanent organizations of the International Telecommunications Union (ITU),
investigates and make recommendations on international standards for facsimiles.
2. Definition of Each Group
• Group I (G1)
Official A-4 size documents without using formats which reduce the band width of a signal are sent over telephone lines.
Determined in 1968.
Transmission for about 6 minutes at a scanning line density of 3.85 lines/mm.
• Group II (G2)
Using reduction technology in the modulation/demodulation format, an A-4 size document is sent at an official scanning line
density of 3.85 lines/mm for about 3 minutes.
Methods to suppress redundancy are not used.
Determined in 1976.
• Group III (G3)
Method of suppressing redundancy in the image signal prior to modulation is used. An A-4 size document is sent within
about one minute.
Determined in 1980.
• Group IV (G4)
Transmission is via the data network. A method is provided for suppressing redundancy in signals prior to transmission, and
error-free reception of transmission is possible.
The scope of these facsimile applications is not limited simply to transmission of written statements. Through symbiotic
linkages with other communication methods, it can be expected to expand to include integrated services.
3. Facsimile Call Time Series
As shown in the following diagram, the facsimile call time series is divided into five phases.
Phase A : Call setting
Call setting can be manual/automatic.
Phase B : Pre-message procedure
Phase B is a pre-processing procedure and sequence for confirming the status of the terminal, transmission route, etc., and for
terminal control. It implements terminal preparation status, determines and displays terminal constants, confirms
synchronization status, etc. and prepares for transmission of facsimile messages.
Phase C : Message transmission
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KX-FL513RU
Phase C is the procedure for the transmitting facsimile messages.
Phase D : Post message procedure
Phase D is the procedure for confirming that the message is completed and received. For continuous transmission, phase B
or phase C is repeated for transmission.
Phase E : Call retrieval
Phase E is the procedure for call retrieval, that is for circuit disconnection.
4. Concerning Transmission Time
Transmission Time
= Control Time
+ Image Transmission Time
+ Hold Time
Transmission time consists of the following.
Control time:
This is time at the start of transmission when the functions at the sending and receiving sides are confirmed, the
transmission mode is established, and transmission and reception are synchronized.
Image transmission time:
This is the time required for the transmission of document contents (image data). In general, this time is recorded in the
catalog, etc.
Hold time:
This is the time required after the document contents have been sent to confirm that the document was actually sent, and
to check for telephone reservations and/or the existence of continuous transmission.
5. Facsimile Standards
Item
Connection Control Mode
Terminal Control Mode
Facsimile Signal Format
Modulation Mode
Transmission Speed
Redundancy Compression
Process
(Coding Mode)
Resolution
Line Synchronization Signal
1 Line Transmission Time
[ms/line]
Telephone Network Facsimile
G3 Machine
Telephone Network Signal Mode
T. 30 Binary
Digital
PSK (V. 27 ter) or QAM (V. 29)
300 bps (Control Signal)
2400, 4800, 7200, 9600, 12000, 14400 bps (FAX Signal)
1 dimension: MH Mode
2 dimension: MR Mode (K=2.4)
Main Scan: 8 pel/mm
Sub Scan: 3.85, 7.7l/mm
EOL Signal
Depends on the degree of data reduction.
Minimum Value: 10, 20
Can be recognized in 40ms.
6. Explanation of Communication and Compression Technology
a. G3 Communication Signals (T. 30 Binary Process)
For G3 Facsimile communication, this is the procedure for exchanging control signals between the sending and receiving
machines both before and after transmission of image signals.
Control signals at 300 bps FSK are: 1850 Hz...0, 1650Hz...1.
An example of a binary process in G3 communication is shown below.
212
KX-FL513RU
Explanation of Signals
Control signals are comprised mainly of 8-bit identification signals and the data signals added to them. Data signals are
added to DIS and DCS signals.
Signal.....DIS (Digital Identification Signal)
Identification Signal Format.....00000001
Function:
Notifies the capacity of the receiving unit. The added data signals are as follows.
Signal.....DCS (Digital Command Signal)
Identification Signal Format.....X1000001
Example
(Some models do not support the following items.):
Bit No.
1
2
3
4
5
6
7
8
9
10
DIS/DTC
Transmitter --- T.2 operation
Receiver --- T.2 operation
T.2 IOC = 176
Reserved for future T.3 operation features
Reserved for future T.3 operation features.
Reserved for future T.3 operation features.
DCS
T.2 IOC = 176
213
KX-FL513RU
Bit No.
11, 12, 13, 14
0, 0, 0, 0
0, 1, 0, 0
1, 0, 0, 0
1, 1, 0, 0
0, 0, 1, 0
0, 1, 1, 0
1, 0, 1, 0
1, 1, 1, 0
0, 0, 0, 1
0, 1, 0, 1
1, 0, 0, 1
1, 1, 0, 1
0, 0, 1, 1
0, 1, 1, 1
1, 0, 1, 1
1, 1, 1, 1
15
16
17, 18
(0, 0)
(0, 1)
(1, 0)
(1, 1)
19, 20
(0, 0)
(0, 1)
(1, 0)
(1, 1)
21, 22, 23
(0, 0, 0)
(0, 0, 1)
(0, 1, 0)
(1, 0, 0)
(0, 1, 1)
(1, 1, 0)
(1, 0, 1)
(1, 1, 1)
24
25
26
27
28
29
30
31
32
33
(0)
(1)
34
35
36
37
38
39
40
41
42
43
DIS/DTC
Data signaling rate
V.27 ter fall back mode
V.27 ter
V.29
V.27 ter and V.29
Not used
Reserved
Not used
V.27 ter and V.29 and V.33
Not used
Reserved
Not used
V.27 ter and V.29 and V.33 and V.17
Not used
Reserved
Not used
Reserved
R8×7.7 lines/mm and/or 200×200 pels/25.4mm
Two-dimensional coding capability
Recording width capabilities
1728 picture elements along scan line length of
215 mm ± 1%
215 mm ± 1%
255 mm ± 1%
303 mm ± 1%
215 mm ± 1%
255 mm ± 1%
Invalid
Maximum recording length capability
A4 (297 mm)
Unlimited
A4 (297 mm) and B4 (364 mm)
Invalid
Minimum scan line time capability of the receiver
20 ms at 3.85 l/mm: T7.7 = T3.85
40 ms at 3.85 l/mm: T7.7 = T3.85
10 ms at 3.85 l/mm: T7.7 = T3.85
5 ms at 3.85 l/mm: T7.7 = T3.85
10 ms at 3.85 l/mm: T7.7 = 1/2 T3.85
20 ms at 3.85 l/mm: T7.7 = 1/2 T3.85
40 ms at 3.85 l/mm: T7.7 = 1/2 T3.85
0 ms at 3.85 l/mm: T7.7 = T3.85
Extend field
2400 bit/s handshaking
Uncompressed mode
Error correction mode
Set to “0”.
Error limiting mode
Reserved for G4 capability on PSTN
T.6 coding capability
Extend field
Validity of bits 17, 18
Bits 17, 18 are valid
Bits 17, 18 are invalid
Recording width capability 1216 picture elements along
scan line length of 151 ± mm 1%
Reserved for future recording width capability.
Reserved for future recording width capability.
Extend field
R8×15.4 lines/mm
300×300 pels/25.4 mm
R16×15.4 lines/mm and/or 400×400 pels/25.4 mm
214
DCS
Data signaling rate
2400 bit/s, V.27 ter
4800 bit/s, V.27 ter
9600 bit/s, V.29
7200 bit/s, V.29
14400 bit/s, V.33
12000 bit/s, V.33
Reserved
Reserved
14400 bit/s, V.17
12000 bit/s, V.17
9600 bit/s, V.17
7200 bit/s, V.17
Reserved
Reserved
Reserved
Reserved
R8×7.7 lines/mm and/or 200×200 pels/25.4mm
Two-dimensional coding capability
Recording width
215 mm ± 1%
303 mm ± 1%
255 mm ± 1%
Invalid
Maximum recording length
A4 (297 mm)
Unlimited
B4 (364 mm)
Invalid
Minimum scan line time
20 ms
40 ms
10 ms
5 ms
0 ms
Extend field
2400 bit/s handshaking
Uncompressed mode
Error correction mode
Frame size 0 = 256 octets 1 = 64 octets
Error limiting mode
Reserved for G4 capability on PSTN
T.6 coding enabled
Extend field
Recording width
Recording width indicated by bits 17, 18
Recording width indicated by this field bit information
Middle 1216 elements of 1728 picture elements
Middle 864 elements of 1728 picture elements
Invalid
Invalid
Extend field
R8×15.4 lines/mm
300×300 pels/25.4 mm
R16×15.4 lines/mm and/or 400×400 pels/25.4 mm
KX-FL513RU
Bit No.
44
45
46
DIS/DTC
Inch based resolution preferred
Metric based resolution preferred
Minimum scan line time capability for higher resolutions
“0”: T15.4 = T7.7 “1”: T15.4 = 1/2T7.7
Selective Polling capability
Extend field
47
48
DCS
Resolution type selection
“0”: neuritic based resolution
“1”: inch based resolution
Don’t care
Don’t care
Set to “0”.
Extend field
Note 1 - Standard facsimile units conforming to T.2 must have the following capability: Index of cooperation (IOC)=264.
Note 2 - Standard facsimile units conforming to T.3 must have the following capability: Index of cooperation (IOC)=264.
Note 3 - Standard facsimile units conforming to T.4 must have the following capability: Paper length=297 mm.
Signal
Training 2
Image Signal
RTC
(Return to Control)
———————
Refer to the next page.
———————
EOP
(End of Procedure)
MCF
(Message Confirmation)
DCN
(Disconnect)
MPS
(Multi-Page Signal)
X1110100
Function
A fixed pattern is transmitted to the receiving side at a speed
(2400 to 14400 bps) designated by DCS, and the receiving side
optimizes the automatic equalizer, etc., according to this signal.
Sends 0 continuously for 1.5 seconds at the same speed as the
training signal.
Notifies the sending side that TCF has been properly received. If
TCF is not properly received, FTT (Failure To Train) X0100010 is
relayed to the sender. The sender then reduces the transmission
speed by one stage and initiates training once again.
Used for reconfirming the receiving side like training 1.
———————
Sends 12 bits (0...01 × 6 times) to the receiver at the same speed
as the image signal and notifies completion of transmission of the
first sheet.
End of one communication
X0110001
End of 1 page reception
X1011111
Phase E starts.
X1110010
Completion of transmission of 1 page. If there are still more
documents to be sent, they are output instead of EOP. After MCF
reception, the sender transmits an image signal of the second
sheet.
If there is an operator call from the sender, it is output after RTC.
Training 1
TCF
(Training Check)
CFR
(Confirmation to Receive)
Identification Signal Format
———————
———————
X0100001
PRI-EOP
X1111100
(Procedural Interrupt-EOP)
PIP
X0110101
(Procedural Interrupt Positive)
This is output when an operator call is received.
b. Redundancy Compression Process Coding Mode
This unit uses one-dimensional MH format.
215
KX-FL513RU
216
KX-FL513RU
8.6.
8.6.1.
TEST CHART
ITU-T No.1 TEST CHART
217
KX-FL513RU
8.6.2.
ITU-T No.2 TEST CHART
218
KX-FL513RU
9 FIXTURES AND TOOLS
219
KX-FL513RU
10 CABINET, MECHANICAL AND ELECTRICAL PARTS
LOCATION
10.1. GENERAL SECTION
220
KX-FL513RU
221
KX-FL513RU
222
KX-FL513RU
223
KX-FL513RU
10.5. PICK UP SECTION
224
KX-FL513RU
10.6. FUSER SECTION
225
KX-FL513RU
226
KX-FL513RU
227
KX-FL513RU
228
KX-FL513RU
10.10. LOWER CABINET SECTION (3)
229
KX-FL513RU
10.11. ACTUAL SIZE OF SCREWS AND WASHER
230
KX-FL513RU
11 ACCESSORIES AND PACKING MATERIALS
231
KX-FL513RU
12 REPLACEMENT PARTS LIST
RTL (Retention Time Limited)
Ref.
No.
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
Notes:
1. The marking (RTL) indicates that the Retention Time is
limited for this item.
After the discontinuation of this assembly in production, the
item will continue to be available for a specific period of
time. The retention period of availability is dependent on the
type of assembly, and in accordance with the laws
governing parts and product retention.
After the end of this period, the assembly will no longer be
available.
2. Important safety notice
mark have special
Components identified by
characteristics important for safety. When replacing any of
these components, use only manufacture´s specified parts.
Part No.
PFBX1192Z1
PFBX1191Z1
PFBC1100Z1
PFBC1098Z1
PFBX1193Z1
PFBC1101Z1
PFBC1099Z1
PFBX1190Z1
PFGP1234W1
PFGV1015Z
PFGD1050Z
PFGG1190Z1
PFGB1003Z3
PFGX1009Z
PFGG1189R1
Part Name & Description
PUSH BUTTON,DERC
PUSH BUTTON,NAVI
PUSH BUTTON,AUTO ANSWER
PUSH BUTTON,MENU
PUSH BUTTON,STP
PUSH BUTTON,COPY START
PUSH BUTTON,START
PUSH BUTTON,DIAL
PANEL,LCD
COVER,TEL CARD
CARD,TEL NO
GRILL,SUB
BADGE
RING,NAVI
GRILLE,OPERATION
Remarks
ABS-HB
ABS-HB
ABS-HB
ABS-HB
ABS-HB
ABS-HB
ABS-HB
ABS-HB
PS-HB
ABS-HB
PS-HB
12.1.2. OPERATION COVER SECTION (2)
3. The S mark means the part is one of some identical parts.
For that reason, it may be different from the installed part.
Ref.
No.
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
4. ISO code (Example : ABS-HB) of the remarks column
shows quality of the material and a flame resisting grade
about plastics.
5. RESISTORS & CAPACITORS
Unless otherwise specified;
All resistors are in ohms (Ω) k=1000Ω, M=1000kΩ
All capacitors are in MICRO FARADS (µF) P=µµF
*Type & Wattage of Resistor
Part No.
PFUS1444Z
PFDG1320Z
PFDJ1006Z
PFDN1066Z
PFUS1506Z
PFHG1104Y
PFUS1437Y
PFUS1443Z
PFHX1679Z
PFJV1003Z
PFUV1065X
PFDE1209Z
PFUS1445Z
PFUS1447Z
PFUS1442Z
SPRING,ERATH DOC.A
GEAR,DOC.FEED ROLLER
SPACER,ROLLER
ROLLER
SPRING
RUBBER,SEPARATION
LEAF SPRING
SPRING,EARTH OP B
COVER,SHEET
COVER,DISCHARGE BRUSH
COVER,OPERATION PANEL
LEVER,DOC,DETECTION
SPRING,EARTH DOCUMENT B
SPRING,EARTH DOC ROLLER
SPRING,EARTH OP A
Remarks
POM
POM
PS-HB
POM
Ref.
No.
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
12.1. CABINET AND ELECTRICAL
PARTS
Ref.
No.
1
2
3
4
5
6
7
8
9
Part No.
PFKR1029Z1
PFKR1030Z1
PFKE1030X1
PFUS1222Z
PFDG1015Y
PFQT2112Z
PFME1001Z
PFHG1094Z
PFJS08P33Z
GUIDE,DOCUMENT L
GUIDE,DOCUMENT R
GUIDE,DOCUMENT
COIL SPRING,SLIDER
GEAR,SLIDER
LABEL,FACE DOWN
SPACER ,DUMPER
RUBBER,DUMPER
CONNECTOR,8P
Remarks
ABS-HB
ABS-HB
PS-HB
232
Part No.
PFDS1010Z
PFDJ1063Y
PFDE1198Z
PFDG1189Z
PFDG1295Z
PFUS1422Z
PFDE1199Z
PFDE1200Y
PFDG1296Z
PFJS07P32Z
N2GZBE000006
PFUS1440Y
PFDF1098Z
PFDR1044Y
PFUS1441Y
PFUG1017Z
PFDG1297Z
PFDG1298Z
PFDE1201X
PFUS1019Z
PFDG1299Z
PFDJ1042Z
PFUS1269Y
PFDS1009Z
PFDG1294Z
PFMH1124Z
PFZX2FL511M
PFDJ1051X
ROLLER,SEPARATION
SPACER,SEPARATION ROLLER
ARM
GEAR
GEAR
COIL SPRING ,LOCK ARM
ARM,LOCK
SPACER,LOCK ARM
GEAR,SEPARATION
CONNECTOR,7P
CIS(CONTACT IMAGE SENSOR)
COIL SPRING,CIS
SHAFT,SUPPORT ROLLER
ROLLER ,DOC.SUPPORT
COIL SPRING,SUPPOR ROLLER
GUIDE,MIDDLE
GEAR
GEAR
ARM
TORSION SPRING
GEAR
SPACER,TRANSFER ROLLER
COIL SPRING
ROLLER,TRANSFER
GEAR
METAL PARTS
TRAY,DOCUMENT
SPACER
Remarks
POM
POM
POM
POM
POM
POM
POM
POM
PS-HB
POM
POM
POM
POM
KX-FL513RU
12.1.4. PICK UP SECTION
Ref.
No.
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
Part No.
PFKE1029Y1
PFKV1075Z1
PFQT2097W
PFKS1084W1
PFHG1154Z
PFUS1424Z
PFHR1370Z
PFUS1425Z
PFHR1371Z
PFHG1155Z
PFKE1028X1
PFDG1300Z
PFUS1423Z
PFHR1368Z
PFHR1369Z
PFDJ1038Z
PFDR1018Z
PFDN1048Z
PFDR1041Z
TRAY,PICK UP ROLLER
COVER,TRAY
LABEL,PAPER SET
TRAY ,LIFT PAPER
RUBBER,LIFT PLATE
SPRING,PLATE LIFT
CASE,SEPARATION PAPER
SPRING,PAPER SEPARATION
SHEET,PAPER
RUBBER,SEPARATION PAPER
TRAY,BOTTOM
GEAR,PICK UP PAPER
SPRING,LIFT LOCK
LEVER,LOCK LIFT L
LEVER,LOCK LIFT R
SPACER,PICK UP PAPER
ROLLER,PICK UP GUIDE
ROLLER,PICK UP
ROLLE,PICK UP PAPER
12.1.7. LOWER MAIN CABINET SECTION
(1)
Remarks
Ref.
No.
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
PS-HB
PS-HB
PS-HB
ABS-HB
POM
PS-HB
POM
POM
POM
POM
POM
ABS-HB
12.1.5. FUSER SECTION
Ref.
No.
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
Part No.
PFDS1014Z
PFDJ1066Y
PFUS1426Z
PFUA1044Z
A4DP7K000001
PFDG1301Z
PFDJ1065Z
PFDS1011Y
PFDJ1064Z
PFJT1023Z
PFDE1207Z
PFTA1001Z
PFMH1085Z
PFJT1021Z
PFRT003
PFJT1022Z
PFHR1408Z
PFDG1302Z
PFUA1043X
PFUS1435Z
PFDR1043Z
PFHR1372Y
PFDR1042X
PFHG1187Z
ROLLER,PRESSURE PFA
SPACER,PRESSURE ROLLER
COIL SPRING
CHASSIS,FUSER
HEATER
GEAR,HEAT ROLLER
SPACER,HEAT ROLLER A
ROLLER,HEAT
SPACER,HEAT ROLLER A
TERMINAL PLATE,WIRE B
LEVER,EXIT SENSOR
THERMOSTAT,FUSER
METAL PARTS,HEATER
TERMINAL PLATE,FUSER
SENSOR
TERMINAL PLATE,WIRE A
LEVER
GEAR,EJECT IDLER
CHASSIS,FUSER
SPRING,SUPPORT EJECT
ROLLER,SUPPORT EJECT
LEVER
ROLLER,EJECT
RUBBER,SUPPORT EJECT
Part No.
XUC2FY
PFDG1201Z
PFUS1325Z
PFDJ1067Z
PFDN1065Z
PFDJ1044Z
PFDE1203Z
PFQT2076W
PFDE1204W
PFDF1097Z
PQDR9685Y
PFUS1275Z
PFGT2266Z-M
PFUE1022Z
PFUS1448Z
PF0G1006Z
PFQT2077R
RETAINING RING
GEAR,FEED ROLLER
SPRING
SPACER,FEED ROLLER
ROLLER,FEED
SPACER
LEVER
INDICATION PLATE-LABEL
LEVER
SHAFT
ROLLER
COIL SPRING
NAME PLATE
CASE,COVER
LEAF SPRING
GLASS
LABEL
PFMD1065Z
PFHG1169Z
LPA1603K
PQLB1E1
PFJP03S04Z
PQMX10010Z
PQHR945Z
PFJS02P02Z
KR06TT251508
WLR18YK26CM4
PFJS02P34Z
PFJS08P31Z
PFJE1021Z
PFJS06P30Z
PFUS1431Z
PFJS04P28Z
PFJS05P29Z
PFUS1449Z
XWC4B
Remarks
COVER
RUBBER PARTS,FOOT
LASER UNIT
INSULATOR
AC SOCKET
CASE,COVER
BAND
CONNECTOR
INSULATOR
LEAD WIRE
CONNECTOR
CONNECTOR
LEAD WIRE
CONNECTOR,6P
COIL SPRING
CONNECTOR
CONNECTOR,5P
COIL SPRING
WASHER
S
12.1.8. LOWER MAIN CABINET SECTION
(2)
Remarks
Ref.
No.
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
PBT+ABS
S
POM
PBT+ABS
POM
ABS
POM
12.1.6. UPPER MAIN CABINET SECTION
Ref.
No.
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
Part No.
Remarks
POM
Part No.
PFUE1015Z
PFUS1450Z
WLL20YG24M3M
PFUS1028Z
PF0M1005Z
PFUS1429Z
PFUS1439Z
PFUS1502Z
PFJS02P12Z
PFAS50P006Z
PFUS1456Z
PFDG1310Z
PFDG1311Z
PFKF1058Z1
PFBH1024Z1
PFKM1115Z1
PFHX1657Z
PFUA1045Z
55SPM25D3NA
PFDG1304Y
XUC4FY
PFDG1306Y
PFDG1305Z
PFDG1303Z
XUC5FY
PFKM1114Z1
PFHX1674Z
PFHX1668Z
PLASTIC PARTS
TORSION SPRING
LEAD WIRE
LEAF SPRING
MIRROR
LEAF SPRING
COIL SPRING
TORSION SPRING
CONNECTOR
SPEAKER
TORSION SPRING
GEAR,IDLER
GEAR,IDLER
CABINET COVER,HANDSET
PUSH BUTTON,HOOK
CABINET BODY,HANDSET
SPACER
CHASSIS,GERA MAIN
DC MOTOR
GEAR,IDLER 67
E-RING
GEAR,FISER IDLER 2
GEAR,FUSER IDLER
GEAR,IDLER
RETAINING RING
CABINET BODY,MAIN
COVER,PROTECTION SHEET
COVER,CABINET SHEET
Remarks
ABS
POM
POM
PS
ABS-HB
PS
POM
POM
POM
POM
PS
POM
12.1.9. LOWER CABINET SECTION (3)
POM
ABS
Ref.
No.
240
241
242
243
244
245
250
251
252
253
254
POM
POM
233
Part No.
PFMH1125Z
PFJQ35S1S15D
PFDE1201X
PFUS1019Z
PFDG1299Z
PFDG1297Z
PFUA1046Z
PFDG1297Z
PFDG1307Z
PFDG1189Z
PFDG1308Z
PLATE,MOTOR
DC MOTOR
ARM
SPRING
GEAR,PLANET
GEAR,IDLER
CHASSIS
GEAR,IDLER
GEAR,PICK CLUTCH B
GEAR
GEAR
Remarks
S
POM
POM
POM
PBT+ABS
POM
POM
KX-FL513RU
Ref.
No.
255
256
257
258
259
260
261
270
271
272
273
274
275
276
Part No.
PFDG1309Z
PFDG1176Z
PFHG1165Z
PFDE1202Z
PFUS1259Y
PFFP1003Z
PFUA1047Z
PFUS1430Z
PFUV1059Y
PFUS1451Z
PFUE1016Z
L6FALDGK0001
PFUS1428Z
PFUS1427Z
GEAR,PICK CLUTCH A
GEAR,IDLER B
RUBBER,SOLENOID
LEVER,PICK UP CLUTCH
SPRING,SOLENOID
PLUNGER,SOLENOID
CHASSIS,GERA CHASSIS
SPRING,TERMINAL TRS
CASE,FAN
SPRING,COVER OPEN
LEVER
MOTOR,FAN
LEAF SPRING,TERMINAL DEV
LEAF SPRING
Remarks
POM
POM
ABS
PS
ABS
12.2. ACCESSORIES AND PACKING
MATERIALS
Ref.
No.
A1
A2
A3
A4
A5
A6
A7
A8
A9
P1
P2
P3
P4
P5
P6
P7
P8
P9
P10
Part No.
PFQW2061Z
PFKS1096Z1
PQJA10038Y
PFJA02B002Z
PFJA1029Z
PFKS1085Z1
PFQX1905Z
PFQX1906Z
PFJXE1005Z
PFZE1141Z-M
PFPN1307Z
PFPN1308Y
PFPN1305Y
PFPN1306Y
PFPD1165Y
PFPH1040Y
XZB20X35A04
XZB32X45A04
PFPH1046Z
LEAFLET
TRAY,PAPER STACKER
CORD,POWER
CORD,TEL
CORD,CURL
TRAY,PAPER TRAY
INSTRUCTION BOOK (RUSSIAN)
INSTRUCTION BOOK (UKRAINIAN)
HANDSET
GIFT BOX
CUSHION
CUSHION
CUSHION
CUSHION
CUSHION
PROTECTION COVER
PROTECTION COVER
PROTECTION COVER
PROTECTION COVER
Remarks
PS-HB
12.3. DIGITAL BOARD PARTS
Ref.
No.
PCB1
Part No.
PFWP1FL513RU
IC600
IC602
IC604
IC605
IC606
IC607
IC608
IC609
IC610
IC611
PFVIR676811
C1CB00001637
C3ABPG000102
C1CB00001566
C1CB00001551
PFWIFL513RU
C0DBFGD00012
C0GBH0000015
PFVIT2003APS
C0JBAR000386
Q602
Q603
Q604
Q605
Q606
Q607
Q609
Q612
Q613
Q614
Q615
Q616
Q617
Q618
Q619
PQVTDTC143E
2SB1197K
PQVTDTC143E
2SB1197K
PQVTDTC143E
2SB1197K
2SD1819A
PQVTD143Z106
PQVTD143Z106
2SD1819A
PQVTDTC143E
PQVTDTC143E
PQVTD143Z106
2SD1819A
2SB1197K
DIGITAL BOARD ASSÝ (RTL)
(ICs)
IC
IC
IC
IC
IC
IC(ROM)
IC
IC
IC
IC
(TRANSISTORS)
TRANSISTOR(SI)
TRANSISTOR(SI)
TRANSISTOR(SI)
TRANSISTOR(SI)
TRANSISTOR(SI)
TRANSISTOR(SI)
TRANSISTOR(SI)
TRANSISTOR(SI)
TRANSISTOR(SI)
TRANSISTOR(SI)
TRANSISTOR(SI)
TRANSISTOR(SI)
TRANSISTOR(SI)
TRANSISTOR(SI)
TRANSISTOR(SI)
Remarks
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
234
Ref.
No.
Q620
Q621
Q622
Q623
Part No.
2SB1322
PQVTD143Z106
PQVTD143Z106
PQVTDTC143E
D600
D601
D602
D606
D607
D608
PQVDRLS73T
PQVDNNCD56DT
PFVDRMRLS245
B0JAME000005
MA7160
PFVDRMRLS245
BAT600
CR-2032/V9A
CN600
CN601
CN602
CN603
CN604
CN606
CN607
CN608
CN609
CN610
CN611
CN612
CN613
CN614
PQJS28X59Z
PQJP4G30Z
PQJP3G30Z
PQJP02G100Z
PQJP5G30Z
PQJP8G30Z
PQJS08X53Z
PQJP7G30Z
PQJP4G30Z
PQJP5G30Z
PQJP05G100Z
PQJP08G100Z
PQJP8G30Z
PQJP6G30Z
F600
F602
F603
F604
F605
F606
PFRB0031063
PFRB0031063
PFRB0031031T
PFRB0032315T
PFRB002122KZ
PFRB0031200
X600
X601
X602
X603
PFVC32256ZAT
PFVCK3.6N9Z
PFVCCSA24Z
H0A327200079
L601
L602
L603
L604
L605
L606
L607
L610
L612
L613
L614
L615
L616
L630
L631
L634
L635
L636
L648
L649
L650
L651
L652
L653
L654
L655
L656
L657
L658
L659
L660
L661
PFVF1B102SP
PFVF1B102SP
PFVF1B102SP
PFVF1B102SP
PFVF1B102SP
PFVF1B102SP
PQLQR2BT
PQLQR2BT
PQLQR2BT
PQLQR2BT
PQLQR1ET
PQLQR2BT
PQLQR1ET
PFVF2P221SG
PQLQR2BT
PQLQR2KA20T
PQLQR2KA20T
PQLQR2KA20T
PQLQR2BT
PFVF2P221SG
PFVF2P221SG
PFVF2P221SG
PFVF2P221SG
PFVF1B102SP
PFVF1B102SP
PFVF1B102SP
PFVF1B102SP
PFVF1B102SP
PFVF1B102SP
PFVF1B102SP
PFVF1B102SP
PFVF1B102SP
TRANSISTOR(SI)
TRANSISTOR(SI)
TRANSISTOR(SI)
TRANSISTOR(SI)
(DIODES)
DIODE(SI)
DIODE(SI)
DIODE(SI)
DIODE(SI)
DIODE(SI)
DIODE(SI)
(BATTERY)
LITHIUM BATTERY
(CONNECTORS)
CONNECTOR,28P
CONNECTOR,4P
CONNECTOR,3P
CONNECTOR,2P
CONNECTOR,5P
CONNECTOR,8P
CONNECTOR,8P
CONNECTOR,7P
CONNECTOR,4P
CONNECTOR,5P
CONNECTOR,5P
CONNECTOR,8P
CONNECTOR,8P
CONNECTOR,6P
(FUSES)
FUSE
FUSE
FUSE
FUSE
FUSE
FUSE
(CRYSTAL OSCILLATORS)
CRYSTAL OSCILLATOR
CRYSTAL OSCILLATOR
CRYSTAL OSCILLATOR
CRYSTAL OSCILLATOR
(COILS)
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
Remarks
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
KX-FL513RU
Ref.
No.
R663
R759
R760
Part No.
PQLQR2KA20T
PQLQR2KA20T
PQLQR2KA20T
L608
L618
L619
L620
L621
L627
L628
L633
L637
L638
L639
L641
L642
L643
L644
L645
L646
L647
PFVF1B601ST
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1A102ST
PFVF1A102ST
PFVF1A102ST
PFVF1A102ST
PFVF1B601ST
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B601ST
PFVF1B601ST
PFVF1B252SDT
PS600
PS601
PFVIRM574SL
PFVIRM574SL
L632
RA600
RA601
RA602
RA603
RA604
RA605
RA606
RA607
RA608
RA609
RA610
RA611
RA612
RA613
RA614
RA615
RA616
RA617
RA618
RA619
RA620
RA621
EXCELDR35
PFXBV8V101JV
PFXBV8V101JV
PFXBV8V101JV
EXB38V220JV
EXB38V220JV
EXB38V220JV
EXB38V220JV
EXB38V220JV
EXB38V220JV
EXB38V220JV
EXB38V220JV
EXB38V220JV
EXB38V220JV
EXRV8V470JV
EXRV8V470JV
EXRV8V470JV
EXRV8V470JV
EXRV8V470JV
EXRV8V470JV
EXRV8V470JV
EXRV8V470JV
EXRV8V470JV
L609
L611
L617
L622
L640
L623
L624
L625
L626
R601
R602
R603
R607
R608
R609
R610
R611
R612
R613
R614
R615
R616
R617
PQ4R10XJ000
PQ4R10XJ000
PQ4R10XJ000
PQ4R10XJ000
PQ4R10XJ000
ERJ3GEYJ271
ERJ3GEYJ271
ERJ3GEYJ271
ERJ3GEYJ271
ERG2SJ271
ERJ3GEYJ103
ERJ3GEYJ563
ERJ3GEYJ562
ERJ3GEYJ562
ERJ3GEYJ562
ERJ3GEYJ562
PQ4R10XJ331
ERJ3GEYJ103
ERJ3GEYJ563
ERJ3GEYJ472
ERJ3GEYJ563
ERJ3GEYJ562
PQ4R10XJ331
COIL
COIL
COIL
(CERAMIC FILTERS)
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
(PHOTO ELECTRIC TRANSDUCERS)
PHOTO SENSOR
PHOTO SENSOR
(COMPONENTS PARTS)
RESISTOR ARRAY
RESISTOR ARRAY
RESISTOR ARRAY
RESISTOR ARRAY
RESISTOR ARRAY
RESISTOR ARRAY
RESISTOR ARRAY
RESISTOR ARRAY
RESISTOR ARRAY
RESISTOR ARRAY
RESISTOR ARRAY
RESISTOR ARRAY
RESISTOR ARRAY
RESISTOR ARRAY
RESISTOR ARRAY
RESISTOR ARRAY
RESISTOR ARRAY
RESISTOR ARRAY
RESISTOR ARRAY
RESISTOR ARRAY
RESISTOR ARRAY
RESISTOR ARRAY
RESISTOR ARRAY
(RESISTORS)
0
0
0
0
0
270
270
270
270
270
10k
56k
5.6k
5.6k
5.6k
5.6k
330
10k
56k
4.7k
56k
5.6k
330
Remarks
Ref.
No.
R618
R619
R620
R621
R622
R623
R624
R625
R626
R627
R628
R629
R630
R631
R632
R633
R634
R635
R636
R637
R638
R640
R641
R642
R643
R644
R645
R647
R649
R650
R652
R653
R654
R655
R656
R657
R658
R659
R660
R664
R668
R675
R678
R679
R680
R681
R682
R683
R687
R688
R690
R691
R695
R696
R697
R698
R701
R704
R705
R707
R708
R709
R710
R716
R719
R721
R722
R723
R724
R726
R727
R728
R729
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
235
Part No.
D0GG472JA002
ERJ3GEYJ101
ERJ3GEYJ563
ERJ12YJ390
D0GG472JA002
ERJ3GEYJ103
ERJ3GEYJ103
D0GG472JA002
ERJ3GEYJ103
ERJ3GEYJ102
ERJ3GEYJ103
ERJ3GEYJ101
PQ4R10XJ331
ERJ3GEYJ563
ERJ3GEYJ562
ERJ3GEYF393
ERJ3GEYF393
ERJ3EKF2202
ERJ3EKF2202
ERJ3EKF1802
ERJ3EKF3302
ERJ3GEYJ101
ERJ3GEYJ101
ERJ3GEYJ101
ERJ3GEYJ181
ERJ3GEYJ102
ERJ3GEYJ103
ERJ3GEYJ473
ERJ3GEYJ473
ERJ3GEYJ473
ERJ3GEYJ101
ERJ3GEYJ101
ERJ3GEYJ103
ERJ3GEYJ272
ERJ3GEYJ222
ERJ3GEYJ102
ERJ3GEYJ102
ERJ3GEYJ391
ERJ3GEYJ472
ERJ3GEYJ203
ERJ3GEY0R00
ERJ3GEYJ473
ERJ3GEYJ470
ERJ3GEYJ105
ERJ3GEY0R00
ERJ3GEY0R00
ERJ3GEY0R00
ERJ3GEYJ220
ERJ3GEYJ473
ERJ3GEYJ473
ERJ3GEYJ101
ERJ3GEYJ101
ERJ3GEYJ220
ERJ3GEYJ220
ERJ3GEYJ220
ERJ3GEYJ220
ERJ3GEYJ473
ERJ3GEYJ475
ERJ3GEYJ4R7
ERJ3GEYJ334
ERJ3GEYJ222
ERJ3GEYJ472
ERJ3GEYJ4R7
ERJ3GEY0R00
ERJ3GEYJ183
ERJ3GEY0R00
ERJ3EKF1101
ERJ3EKF3602
ERJ8GEYJ2R2
ERJ3GEYJ103
ERJ3GEYJ101
ERJ3GEYJ101
PQ4R18XJ100
4.7k
100
56k
39
4.7k
10k
10k
4.7k
10k
1k
10k
100
330
56k
5.6k
39k
39k
220k
220k
180k
330k
100
100
100
180
1k
10k
47k
47k
47k
100
100
10k
2.7k
2.2k
1k
1k
390
4.7k
20k
0
47k
47
1M
0
0
0
22
47k
47k
100
100
22
22
22
22
47k
4.7M
4.7
330k
2.2k
4.7k
4.7
0
18k
0
1.1
360k
2.2
10k
100
100
10
Remarks
S
S
S
S
KX-FL513RU
Ref.
No.
R730
R731
R732
R733
R734
R735
R736
R737
R738
R739
R740
R741
R742
R743
R744
R745
R746
R747
R748
R749
R750
R751
R752
R753
R754
R755
R756
R757
R758
R764
R766
R767
R768
R769
R770
R771
R772
R773
R775
R778
R780
Part No.
ERJ3GEYJ472
ERJ3GEYJ222
ERJ3GEYJ333
D0C1R47GA003
D0C1R47GA003
ERJ3GEYJ222
ERJ3GEYJ102
ERDS1VJ152
ERJ3GEYJ473
ERJ3GEYJ101
ERJ3GEYJ473
ERJ3GEYJ101
ERJ3GEYJ101
ERJ3GEYJ101
ERJ3GEYJ101
ERJ3GEYJ393
ERJ3GEYJ103
ERX1SJ2R2
ERJ3GEYJ472
ERJ3GEYJ102
ERJ3GEYJ102
ERJ3GEYJ303
ERJ3GEYJ683
ERJ3GEYJ104
ERJ3GEYJ473
ERJ3GEYJ103
ERJ3GEYJ562
ERJ3GEYJ222
ERJ3GEYJ183
ERJ3GEYJ220
ERJ3GEY0R00
ERJ3GEYJ181
ERJ3GEYJ181
ERJ3GEYJ181
ERJ3GEYJ103
ERJ3GEYJ273
ERJ3GEYJ100
ERJ3GEYJ103
ERJ3GEYJ103
ERJ3GEYJ103
ERJ3GEYJ181
C600
C601
C602
C604
C605
C606
C607
C608
C609
C610
C611
C612
C613
C614
C615
C616
C617
C618
C619
C621
C622
C623
C624
C625
C626
C627
C628
C629
C630
C631
C632
ECUV1C104ZFV
ECEA1VKA101
ECUV1C104ZFV
ECUV1H102KBV
ECUV1H102KBV
ECUV1H102KBV
ECUV1H102KBV
ECUV1H102KBV
ECUV1H102KBV
ECUV1H102KBV
ECUV1H103KBV
ECUV1H103KBV
ECUV1C104KBV
ECUV1C104ZFV
ECUV1C104ZFV
ECEA1CKS100
ECEA1CKS100
ECEA1AU101
ECUV1C104ZFV
ECUV1A105ZFV
ECUV1C104ZFV
ECUV1H102KBV
ECUV1H102KBV
ECUV1H102KBV
ECUV1H102KBV
ECUV1H102KBV
ECUV1C104ZFV
ECUV1C104KBV
ECUV1H103KBV
ECUV1H100DCV
ECUV1H100DCV
4.7k
2.2k
33k
0.47
0.47
2.2k
1k
1.5k
47k
100
47k
100
100
100
100
39k
10k
2.2
4.7k
1k
1k
30k
68k
100k
47k
10k
5.6k
2.2k
18k
22
0
180
180
180
10k
27k
10
10k
10k
10k
180
(CAPACITORS)
0.1
100
0.1
0.001
0.001
0.001
0.001
0.001
0.001
0.001
0.01
0.01
0.1
0.1
0.1
10
10
100
0.1
1
0.1
0.001
0.001
0.001
0.001
0.001
0.1
0.1
0.01
10p
10p
Remarks
Ref.
No.
C633
C634
C647
C648
C652
C654
C655
C656
C659
C661
C662
C663
C664
C665
C666
C667
C668
C669
C670
C671
C672
C673
C674
C675
C676
C677
C678
C679
C680
C681
C682
C683
C684
C685
C686
C687
C689
C690
C691
C692
C693
C694
C695
C696
C698
C699
C700
C701
C702
C703
C704
C705
C706
C708
C710
C711
C712
C713
C716
C717
C718
C719
C720
C721
C723
C724
C725
C726
C727
C729
C730
C731
C732
S
S
S
S
S
S
S
236
Part No.
ECUV1C104ZFV
ECUV1H330JCV
ECUV1C104ZFV
ECEA1VKA101
ECUV1H222KBV
ECUV1H222KBV
ECUV1H120JCV
ECUV1H150JCV
ECUV1H150JCV
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1H270JCV
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1H150JCV
ECUV1H150JCV
ECUV1H150JCV
ECUV1H270JCV
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1H270JCV
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1H120JCV
ECUV1H150JCV
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1H270JCV
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1C104KBV
ECUV1C104KBV
ECUV1C104KBV
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1C104KBV
ECUV1C104KBV
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1H332KBV
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1H102KBV
ECUV1C104ZFV
ECUV1H102KBV
ECUV1C104ZFV
ECEA1AU221
ECUV1C104ZFV
ECEA1AU221
PFCA1HYK331M
ECUV1H104ZFV
ECUV1H104ZFV
ECEA1VKA101
ECUV1C104ZFV
ECUV1H104ZFV
ECUV1C104ZFV
ECUV1H104ZFV
0.1
33p
0.1
100
0.0022
0.0022
12p
15p
15p
0.1
0.1
0.1
0.1
27p
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
15p
15p
15p
27p
0.1
0.1
27p
0.1
0.1
0.1
0.1
12p
15p
0.1
0.1
0.1
27p
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.0033
0.1
0.1
0.001
0.1
0.001
0.1
220
0.1
220
330p
0.1
0.1
100
0.1
0.1
0.1
0.1
Remarks
S
S
S
S
S
S
S
S
S
KX-FL513RU
Ref.
No.
C733
C734
C735
C736
C737
C738
C739
C740
C741
C742
C743
C745
C746
C747
C748
C749
C754
C755
C756
C757
C758
C761
Part No.
ECEA1VKA101
ECEA1AU101
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1H680JCV
ECUV1C104ZFV
ECUV1H181JCV
ECUV1H181JCV
ECUV1C104ZFV
ECUV1H222KBV
ECUV1H181JCV
ECUV1H181JCV
ECUV1H181JCV
ECUV1H181JCV
ECUV1H104ZFV
ECUV1C104KBV
ECUV1H101JCV
ECUV1C104ZFV
ECUV1C104ZFV
ECEA1CKS100
ECUV1H181JCV
100
100
0.1
0.1
0.1
68p
0.1
180p
180p
0.1
0.0022
180p
180p
180p
180p
0.1
0.1
100p
0.1
0.1
10
180p
Remarks
S
S
S
S
S
S
S
S
S
S
S
12.4. ANALOG BOARD PARTS
Ref.
No.
PCB2
Part No.
PFLP1481RU-A
IC200
IC201
IC202
IC204
IC206
IC207
IC208
C0ABEB000038
C0ABEB000038
C0AABB000025
C0ABEB000038
PQVIMC34119D
AN6384SB
AN6123MS
Q202
Q207
Q210
Q211
Q212
Q213
2SC2235
2SB1218ARL
PQVTDTC143E
2SA1627
PQVTDTC143E
2SB1218ARL
D200
D201
D202
D203
D204
D208
D209
D210
D211
D212
D213
MA4056
MA4056
1SS133
1SS133
1SS133
1SS133
1SS133
B0EBHR000001
MA4056
MA4056
1SS133
CN200
CN201
CN202
CN203
CN204
PQJP02G100Z
PQJS28X59Z
PQJJ1TB18Z
PQJJ1TC5Z
PQJJ1TC5Z
F200
PQBA1N10NMAL
FLT200
FLT201
L239
L242
L247
L248
L277
PFLE003
PFLE126
PQLQR1E32A07
PQLQR1E32A07
PQLQR1E32A07
PQLQR1E32A07
PFVF1B102SP
RLY200
PFSL003Z
ANALOG BOARD ASS’Y (RTL)
(ICs)
IC
IC
IC
IC
IC
IC
IC
(TRANSISTORS)
TRANSISTOR(SI)
TRANSISTOR(SI)
TRANSISTOR(SI)
TRANSISTOR(SI)
TRANSISTOR(SI)
TRANSISTOR(SI)
(DIODES)
DIODE(SI)
DIODE(SI)
DIODE(SI)
DIODE(SI)
DIODE(SI)
DIODE(SI)
DIODE(SI)
DIODE(SI)
DIODE(SI)
DIODE(SI)
DIODE(SI)
(CONNECTORS & JACKS)
CONNECTOR,2P
CONNECTOR,28P
JACK
JACK
JACK
(FUSES)
FUSE
(COILS)
COIL
COIL
COIL
COIL
COIL
COIL
COIL
(RELAYS)
RELAY
Remarks
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
237
Ref.
No.
Part No.
SA200
SA201
ZNR200
PQVDDSS301L
PFRZ001Z
ERZVA7D151
SW200
PFSH1A011Z
T201
T202
PFLT8E003
PFLT8E004
PC202
PC203
PC204
PC205
0N3131SKU
0N3131SKU
PQVITLP627
PQVITLP620K
L200
L201
L202
L205
L206
L207
L208
L209
L211
L212
L213
L214
L216
L217
L218
L220
L221
L222
L223
L224
L225
L230
L232
L234
L235
L236
L237
L249
L250
L253
L255
L256
L257
L258
L259
L260
L261
L265
L285
L286
L287
R219
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
PFVF1B252SDT
J200
J201
J202
J211
J212
J213
L226
L227
L228
L231
L240
L241
L262
L263
L264
ERJ3GEY0R00
ERJ3GEY0R00
ERJ3GEY0R00
ERJ3GEY0R00
ERJ3GEY0R00
ERJ3GEY0R00
ERJ3GEY0R00
ERJ3GEY0R00
ERJ3GEY0R00
ERJ3GEY0R00
ERJ3GEY0R00
ERJ3GEY0R00
ERJ3GEY0R00
ERJ3GEY0R00
ERJ3GEY0R00
(VARISTORS)
VARISTOR (SURGE ABSORBER)
VARISTOR (SURGE ABSORBER)
VARISTOR
(SWICH)
SWITCH
(TRANSFORMERS)
TRANSFORMER
TRANSFORMER
PHOTO COUPLER
PHOTO COUPLER
PHOTO COUPLER
PHOTO COUPLER
(CERAMIC FILTERS)
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
CERAMIC FILTER
(RESISTORS)
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Remarks
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
KX-FL513RU
Ref.
No.
L266
L267
L268
L270
L271
L274
L275
L276
L278
L279
L280
L283
L284
R200
R201
R202
R203
R205
R206
R207
R209
R214
R215
R216
R217
R218
R221
R222
R226
R229
R230
R231
R232
R233
R234
R236
R237
R238
R240
R241
R242
R243
R244
R245
R246
R247
R248
R250
R251
R253
R266
R268
R270
R275
R276
R277
R278
R279
R280
R281
R282
R283
R284
R285
R287
R288
R289
R291
R293
R295
R296
R297
R298
Part No.
ERJ3GEYJ101
ERJ3GEYJ101
ERJ3GEY0R00
ERJ3GEYJ101
ERJ3GEYJ101
ERJ3GEYJ101
ERJ3GEYJ101
ERJ3GEY0R00
ERJ3GEY0R00
ERJ3GEY0R00
ERJ3GEY0R00
ERJ3GEY0R00
ERJ3GEY0R00
ERJ3GEYJ103
ERJ3GEYJ622
ERJ3GEYJ153
ERJ3GEYJ333
ERJ3GEYJ103
ERJ3GEYJ333
ERJ3GEYJ752
ERJ3GEYJ103
ERJ3GEYJ103
ERJ3GEYJ104
ERJ3GEYJ104
ERJ3GEYJ103
ERJ3GEYJ114
ERJ3GEYJ103
ERJ3GEYJ104
PQ4R18XJ100
ERJ3GEYJ473
ERJ3GEYJ621
ERJ3GEYJ621
ERJ3GEYJ183
ERJ3GEY0R00
ERJ3GEY0R00
ERJ3GEYJ473
ERJ3GEYJ154
ERJ3GEYJ124
ERJ3GEYJ100
ERJ3GEYJ102
ERJ3GEYJ334
ERJ3GEYJ102
ERJ3GEY0R00
ERJ3GEYJ472
ERJ3GEYJ103
ERJ3GEYJ103
ERJ3GEYJ222
ERJ3GEYJ102
ERJ3GEYJ103
ERJ3GEYJ183
ERJ3GEYJ103
ERJ3GEYJ103
ERJ3GEYJ562
ERJ3GEYJ821
ERJ3GEYJ223
ERJ3GEYJ563
ERDS2TJ150
ERJ3GEYJ102
ERJ3GEYJ101
ERJ3GEYJ394
ERJ3GEYJ244
ERJ3GEYJ134
ERJ3GEYJ392
ERJ3GEYJ183
ERJ3GEYJ472
ERJ3GEYJ102
ERJ3GEYJ104
ERJ3GEYJ124
ERJ3GEYJ683
ERJ3GEYJ224
ERJ3GEYJ224
ERJ3GEYJ683
ERJ3GEYJ204
100
100
0
100
100
100
100
0
0
0
0
0
0
10k
6.2k
15k
33k
10k
33k
7.5k
10k
10k
100k
100k
10k
110k
10k
100k
10
47k
620
620
18k
0
0
47k
150k
120k
10
1k
330k
1k
0
4.7k
10k
10k
2.2k
1k
10k
18k
10K
10K
5.6K
820
22k
56k
15
1k
100
390k
240k
130k
3.9k
18k
4.7k
1k
100k
120k
68k
220k
220k
68k
200k
Remarks
S
S
238
Ref.
No.
R299
R300
R301
R302
R303
R304
R305
R308
R310
R312
R313
R314
R315
R316
R317
R318
R319
R320
R324
R325
R326
R327
R328
R329
R330
R331
R332
R334
R335
R340
R341
R342
R343
R344
Part No.
ERDS1TJ682
ERJ3GEYJ820
ERJ3GEYJ820
ERJ3GEYJ820
ERJ3GEYJ822
ERJ3GEYJ222
ERJ3GEYJ473
ERJ3GEY0R00
ERDS1TJ6R8
ERJ3GEYJ681
ERJ3GEYJ102
ERJ3GEYJ102
ERDS1VJ333
ERJ3GEYJ103
ERJ3GEYJ563
ERJ3GEYJ103
ERJ3GEYJ563
ERJ3GEYJ100
ERJ3GEYJ114
ERJ3GEYJ334
ERJ3GEYJ104
ERJ3GEYJ223
ERJ3GEYJ104
ERJ3GEYJ103
ERJ3GEYJ105
ERJ3GEYJ154
ERJ3GEYJ183
ERJ3GEYJ243
ERJ3GEYJ243
ERJ3GEYJ4R7
ERJ3GEYJ101
ERJ3GEYJ4R7
ERJ3GEYJ102
ERJ3GEYJ103
C200
C201
C202
C203
C204
C205
C206
C207
C208
C209
C212
C213
C214
C216
C218
C219
C221
C222
C223
C224
C227
C229
C230
C231
C232
C234
C236
C237
C240
C241
C242
C243
C244
C245
C246
C248
C250
C253
ECUV1C104KBV
ECUV1H621JCV
ECUV1C333KBV
ECUV1H562KBV
ECUV1H471JCV
ECUV1H621JCV
ECUV1H621JCV
ECUV1H272KBV
ECUV1H102KBV
ECUV1H153KBV
ECUV1H392KBV
ECUV1H392KBV
ECJ1VC1H151J
ECUV1C104ZFV
ECEA1CKS100
ECUV1H391JCV
ECUV1C104ZFV
ECEA1VU101
ECUV1C273KBV
ECUV1C104KBV
ECUV1A224KBV
ECUV1H680JCV
ECUV1C104KBV
ECUV1H681JCV
ECUV1C273KBV
ECEA1CK101
ECUV1H681JCV
ECEA1HKS4R7
ECUV1H222KBV
ECUV1H682KBV
ECUV1A105ZFV
ECUV1A105ZFV
ECUV1H100DCV
ECUV1H100DCV
ECUV1C473KBV
ECEA1CK470
ECUV1H101JCV
ECEA1HU2R2
6.8k
82
82
82
8.2k
2.2k
47k
0
6.8
680
1k
1k
33k
10k
56k
10k
56k
10
110k
330k
100k
22k
100k
10k
1M
150k
18k
24k
24k
4.7
100
4.7
1k
10k
(CAPACITORS)
0.1
620p
0.033
0.0056
470p
620p
620p
0.0027
0.001
0.015
0.0039
0.0039
150p
0.1
10
390p
0.1
100
0.027
0.1
0.22
68p
0.1
680p
0.027
100
680p
4.7
0.0022
0.0068
1
1
10p
10p
0.047
47
100p
2.2
Remarks
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
KX-FL513RU
Ref.
No.
C256
C260
C265
C266
C267
C268
C269
C270
C271
C272
C273
C274
C275
C276
C277
C278
C279
C281
C282
C283
C284
C285
C286
C287
C292
C293
C294
C296
C297
C298
C299
C301
C302
C303
C307
C308
C309
C310
C311
C312
C313
C314
C315
C317
C318
C320
C321
C323
C324
C325
C326
C327
C328
C329
Part No.
ECEA1CKS100
ECUV1H103KBV
ECEA1HKS010
ECUV1C104KBV
ECUV1H820JCV
ECUV1H820JCV
ECUV1H680JCV
ECEA1HU101
ECUV1H332KBV
ECEA0JK221
ECEA1CKS100
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1C104KBV
ECKD2H681KB
ECKD2H681KB
ECQE2E105KZ
ECUV1H820JCV
ECUV1H820JCV
ECUV1H820JCV
ECUV1H471JCV
ECUV1H561JCV
ECUV1H101JCV
ECEA1CKS100
ECUV1H103KBV
ECEA1CK470
ECUV1H103KBV
ECUV1C104ZFV
ECEA1CK101
ECUV1C123KBV
ECUV1H621JCV
ECUV1C273KBV
ECJ1VC1H151J
ECUV1H680JCV
ECUV1H391JCV
ECUV1H822KBV
ECUV1C104ZFV
ECEA0JK331
ECUV1C104ZFV
ECEA1CKS100
ECUV1H472KBV
ECUV1H272KBV
ECUV1C104KBV
ECUV1C104KBV
ECUV1H103KBV
ECUV1H100DCV
ECEA1CK101
ECUV1A224KBV
ECUV1C683KBV
ECUV1H100DCV
ECUV1C104ZFV
ECUV1A105ZFV
ECUV1A105ZFV
10
0.01
1
0.1
82p
82p
68p
100
0.0033
220
10
0.1
0.1
0.1
0.1
680p
680p
1
82p
82p
82p
470p
560p
100p
10
0.01
47
0.01
0.1
100
0.012
620p
0.027
150p
68p
390p
0.0082
0.1
330
0.1
10
0.0047
0.0027
0.1
0.1
0.01
10p
100
0.22
0.068
10p
0.1
1
1
Remarks
Ref.
No.
S
Part No.
PFWP2FL511M
K0L1AA000001
IC101
C1ZBZ0002089
LED101
LED102
D101
D102
D103
PQVDSLR325MC
PQVDR325CA47
1SS133
1SS133
1SS133
CN102
PQJP8G43Y
CN101
L5DAAFB00001
OPERATION BOARD ASSÝ (RTL)
SWITCH,SET
(IC)
IC
(DIODES)
LED
LED
DIODE(SI)
DIODE(SI)
DIODE(SI)
(CONNECTOR)
CONNECTOR,8P
(LIQUID CRYSTAL DISPLAY)
LCD
PS101
CNA1006N
TH101
D4CC11030019
SW101
SW102
SW103
SW104
SW105
SW106
SW107
SW108
SW109
SW110
SW111
SW112
SW113
SW114
SW115
SW116
SW117
SW118
SW119
SW120
SW121
SW122
SW123
SW124
SW125
SW126
SW127
SW128
SW129
SW130
SW131
SW132
SW133
SW134
SW135
SW136
SW137
SW138
SW139
SW140
SW141
SW142
SW143
SW144
SW145
SW146
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
EVQ11Y05B
K0L1AA000001
J164
J165
J166
J167
R102
R103
R104
R105
R106
R107
R110
R112
R113
R114
R115
R116
R117
R118
R119
R120
R121
ERJ3GEY0R00
ERJ3GEY0R00
ERJ3GEY0R00
ERJ3GEY0R00
ERJ3GEYJ123
ERJ3GEYJ181
ERJ3GEYJ123
ERJ3GEYJ181
ERJ3GEYJ123
ERJ3GEYJ181
ERJ3GEYJ181
ERJ3GEYJ181
ERJ3GEYJ181
ERJ3GEYJ181
ERJ3GEYJ181
ERJ3GEYJ181
ERJ3GEYJ181
ERJ3GEYJ181
ERJ3GEYJ563
ERJ3GEYJ331
ERJ3GEYJ472
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
12.5. OPERATION BOARD PARTS
Ref.
No.
PCB3
PCB3-1
Part No.
Remarks
S
S
S
S
S
S
239
(PHOTO ELECTRIC TRANSDUCER)
PHOTO SENSOR
(THERMISTOR)
THERMISTOR
(SWITCHES)
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
SWITCH
(RESISTORS)
0
0
0
0
12k
180
12k
180
12k
180
180
180
180
180
180
180
180
180
56k
330
4.7k
Remarks
POM
KX-FL513RU
Ref.
No.
R123
R127
R128
R129
R130
R131
R133
R134
R135
R138
R139
R146
R147
R148
R149
R152
Part No.
ERJ3GEYJ123
ERJ3GEYJ103
ERJ3GEYJ223
ERJ3GEY0R00
ERJ3GEYJ101
ERJ3GEYJ101
ERJ3GEYJ122
ERJ3GEYJ101
ERJ3GEYJ101
ERJ3GEYJ331
ERJ3GEYJ331
ERJ3GEYJ101
ERJ3GEYJ123
ERJ3GEYJ4R7
ERJ3GEYJ123
ERJ3GEYJ181
C103
C104
C105
C106
C110
C111
C112
C115
C117
C118
C119
C120
C122
C125
C128
C129
C130
C132
C133
C139
ECEA1CK101
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1H103KBV
ECUV1C104ZFV
ECUV1C104ZFV
ECEA1CKS100
ECUV1H101JCV
ECUV1H101JCV
ECUV1H101JCV
ECUV1H103KBV
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1C104ZFV
ECUV1H101JCV
ECUV1H101JCV
ECUV1H101JCV
ECEA1CK101
ECUV1C104ZFV
ECUV1C104ZFV
12k
10k
22k
0
100
100
1.2k
100
100
330
330
100
12k
4.7
12k
180
(CAPACITORS)
100
0.1
0.1
0.01
0.1
0.1
10
100p
100p
100p
0.01
0.1
0.1
0.1
100p
100p
100p
100
0.1
0.1
Remarks
S
S
S
12.6. HIGH VOLTAGE POWER
SUPPLY BOARD PARTS
Ref.
No.
PCB4
Part No.
EUKMBN889HA
IC101
AN6742S
Q101
Q102
Q103
Q201
Q202
2SB709A
2SB709A
2SD2137A
2SD2137A
2SA1699
D104
D105
D107
D109
D201
D203
D204
D205
ZD201
ZD202
PFVDDHM3FJ60
PFVDDHM3FJ60
PFVDERA1504
PFVDDHM3M20
PFVDERA1504
PFVDDHM3M20
PFVDERA1504
PFVDDHM3M20
PFVDRD62ESAB
PFVDRD150EB
CN2
PFJP06B01Z
C101
C102
C103
C104
C105
PFEUKMG1V470
ECQV1H473JZ
PFEUKMG1H2R2
PFEUKMG1H010
ECJ2VB1H103K
HIGH BOLTAGE POWER SUPPLY
BOARD ASSÝ (RTL)
(IC)
IC
(TRANSISTORS)
TRANSISTOR(SI)
TRANSISTOR(SI)
TRANSISTOR(SI)
TRANSISTOR(SI)
TRANSISTOR(SI)
(DIODE)
DIODE(SI)
DIODE(SI)
DIODE(SI)
DIODE(SI)
DIODE(SI)
DIODE(SI)
DIODE(SI)
DIODE(SI)
ZENER DIODE
ZENER DIODE
(CONNECTOR)
CONNECTOR,6P
(CAPACITORS)
47
0.047
2.2
1
0.01
Remarks
S
S
S
S
S
S
S
S
S
S
Ref.
No.
C108
C109
C110
C111
C112
C201
C202
C203
C204
C205
C207
C209
Part No.
ECJ2FB1H473K
ECJ2VB1H153K
ECKK3F471KBP
ECKK3D471KBB
ECKK3D471KBB
ECJ2FB1H473K
ECJ2VB1H102K
ECKK3D221KB
ECJ2VB1H103K
ECKR2H102KB
ECKK3D102KB
ECKR2H101KB5
IP101
PFBAICPN38
R101
R102
R104
R105
R106
R107
R108
R109
R110
R111
R112
R113
R114
R116
R117
R118
R119
R120
R121
R123
R124
R125
R126
R127
R202
R203
R204
R205
R206
R207
R208
R209
R210
R211
R212
R213
R214
PQ4R10XJ473
ERDS2TJ104
ERDS2TJ103
ERJ6ENF2003
PQ4R10XJ103
ERDS2TJ103
ERDS2TJ103
ERDS2TJ272
PQ4R10XJ103
PQ4R10XJ103
PQ4R10XJ103
ERJ6ENF1004
PQ4R10XJ103
PQ4R10XJ272
PQ4R10XJ000
PQ4R10XJ000
PFRGH16A306N
ERDS2TJ152
ERDS2TJ152
ER0S2TKF8451
ERJ6ENF1003
PQ4R10XJ000
PQ4R10XJ102
PFRGVR25J106
ERJ6ENF4872
PQ4R10XJ102
ERDS2TJ473
ERDS1TJ224
ER0S2TKF4532
PFRGR25F1504
PFRGVR25J105
PFRGVR25J105
ERDS2TJ333
PFRGR25F1005
PFRGVR25J105
PFRGVR25J105
PFRGVR25J106
SW101
PFSEDE2LCJ33
T101
T201
ETB20DKA1
ETB20DKD1
0.047
0.015
470p
470p
470p
0.047
0.001
220p
0.01
0.001
0.001
100p
(FUSE)
FUSE
(RESISTORS)
47k
100k
10k
200k
10k
10k
10k
2.7k
10k
10k
10k
1M
10k
2.7k
0
0
30M
1.5k
1.5k
8.45k
100k
0
1k
10M
48.7k
1k
47k
220k
45.3k
1.5M
1M
1M
33k
10M
1M
1M
10M
(SWITCH)
SWITCH
(COILS)
COIL
COIL
Remarks
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
12.7. LOW VOLTAGE POWER
SUPPLY BOARD PARTS
Ref.
No.
PCB5
ETXKM450E5B
S
IC101
IC201
PFVIFA5317P
PFVIPQ05RD11
S
S
Q101
Q201
2SK2717
2SC1740S
240
Part No.
Remarks
LOW VOLTAGE POWER BORD ASSÝ
(RTL)
(ICs)
IC
S
IC
S
(TRANSISTORS)
TRANSISTOR(SI)
TRANSISTOR(SI)
S
(DIODES)
KX-FL513RU
Ref.
No.
D101
D102
D103
D104
D105
D106
D108
D109
D110
D201
D202
ZD101
ZD102
ZD201
Part No.
PFVDLT1505
PFVDLT1505
PFVDLT1505
PFVDLT1505
PFVD05NU42
PFVDERA9102
PFVDERA9102
PSVD10ELS4
PFVDERA9102
PFVDYG901C2R
PFVD21DQ06
MA4300
MA4180
MA4062N
CN101
CN102
CN201
PQJP2D98Z
PQJP2D98Z
PFJP08B01Z
C101
C102
C103
C104
C105
C106
C107
C109
C110
C111
C112
C113
C115
C116
C201
C202
C204
C206
C208
C212
ECQU2A224ML
ECQU2A224ML
PFCKDCS222MY
PFCKDCS222MY
PFCKDCD222MY
PFCKLH2W560H
ECQE6103
ECKN3A221KRP
EEUFC1V390
ECQB1H102JF
ECQV1H224JZ
ECQB1H471JF
ECQB1H103JF
ECQU2A104ML
PFCKD2R102K
EEUFC1V102
EEUFC1C102
EEUFC1A151
ECQV1H474JZ
ECQV1H474JZ
L101
L102
L103
L105
L202
ELF15N010A
ELF15N010A
PQLQSTP03694
PQLE53
PQLE53
PC101
PC102
PC103
0N3171S
PFVIS21ME6NY
0N3171S
R101
R102
R103
R104
R105
R106
R107
R110
R111
R112
R113
R114
R115
R116
R117
R119
R120
R121
R122
R203
R204
R205
R206
ERDS1TJ105
ERG2SJ104
ERG2SJ221
ERDS2TJ472
ERX2SJR33
ERDS2TJ823
ERDS2TJ823
ER0S2TKF2000
ERDS2TJ150
ERDS2TJ181
ERDS2TJ220
ERDS2TJ682
ER0S2TKF1502
ER0S2TKF1000
ERDS2TJ123
PFRDRF16J331
ERDS2TJ470
ERG1SJ121
ER0S2TKF1202
ERDS2TJ272
ERDS2TJ102
ERDS2TJ472
ERDS2TJ562
DIODE(SI)
DIODE(SI)
DIODE(SI)
DIODE(SI)
DIODE(SI)
DIODE(SI)
DIODE(SI)
DIODE(SI)
DIODE(SI)
DIODE(SI)
DIODE(SI)
ZENER DIODE
ZENER DIODE
ZENER DIODE
(CONNECTORS)
CONNECTOR,2P
CONNECTOR,2P
CONNECTOR,8P
(CAPACITORS)
0.22
0.22
0.0022
0.0022
0.0022
56P
0.01
220P
39
0.001
0.22
470p
0.01
0.1
1000p
1000
1000
150
0.47
0.47
(COILS)
COIL
COIL
COIL
COIL
COIL
PHOTO COUPLER
PHOTO COUPLER
PHOTO COUPLER
(RESISTORS)
1M
100k
220
4.7k
0.33
82k
82k
200
15
180
22
6.8k
15k
100
12k
330
47
120
12k
2.7k
1k
4.7k
5.6k
Remarks
S
S
S
S
S
S
S
S
S
S
S
S
S
S
Ref.
No.
R207
R208
R209
R212
R213
R214
R215
Part No.
ERDS2TJ103
ER0S2TKF6801
ER0S2TKF1801
ER0S2TKF3301
ERDS2TJ221
ERDS2TJ102
ERDS2TJ562
F101
F102
PFBA215315
PFBA215005
T101
ETB29AC1V8AD
TH101
PFRTD207D8R0
ZNR101
ERZVGAD751
SCR101
PFXFTM1661SE
10k
6.8k
1.8k
3.3k
220
1k
5.6k
(FUSES)
FUSE
FUSE
(TRANSFORMER)
TRANSFORMER
(THERMISTOR)
THERMISTOR
(VARISTOR)
VARISTOR
(COMPONENTS PART)
TRIAC
Remarks
S
S
S
S
12.8. EXIT SENSOR BOARD PARTS
S
S
S
S
Ref.
No.
PCB6
Part No.
PFLP1481MZ-B
PS51
PFVIRM574SL
CN51
CN52
PQJP03A21Z
PQJP5G43Y
C52
ECUV1H271KBV
Remarks
EXIT SENSOR BOARD ASSÝ (RTL)
(PHOTO ELECTRIC TRANSDUCER)
PHOTO SENSOR
S
(CONNECTORS)
CONNECTOR,3P
S
CONNECTOR,5P
S
(CAPACITOR)
270p
12.9. DRUM AND TONER SENSOR
BOARD PARTS
S
S
S
S
S
S
S
Ref.
No.
PCB7
Part No.
PFLP1481MZ-C
IC60
B4ABC0000001
CN60
PQJP4G30Z
SW60
PFSH1A005Z
C60
ECUV1C104ZFV
DRUM & TONER SENSOR BORD
ASSÝ (RTL)
(IC)
IC
(CONNECTOR)
CONNECTOR,4P
(SWITCH)
SWITCH
(CAPACITOR)
0.1
Remarks
S
S
12.10. VARISTOR BOARD PARTS
Ref.
No.
PCB8
Part No.
PFLP1481MZ-D
ZNR71
PFRV271NS05K
Remarks
VARISTOR BOARD ASSÝ (RTL)
(VARISTOR)
VARISTOR
12.11. FIXTURES AND TOOLS
Ref.
No.
EC1
EC2
EC3
EC4
EC5
EC6
EC7
EC8
EC9
EC10
S
241
Part No.
PQZZ6K7Z
PQZZ8K18Z
PFZZ5K13Z
PQZZ28F1Z
PQZZ4K5Z
PQZZ7K5Z
PQZZ2K12Z
PQZZ3K5Z
PQZZ5K6Z
PQZZ8K15Z
PFZZFL501M
EXTENSION CORD, 6P
EXTENSION CORD, 8P
EXTENSION CORD, 5P
EXTENSION CORD, 28P
EXTENSION CORD, 4P
EXTENSION CORD, 7P
EXTENSION CORD, 2P
EXTENSION CORD, 3P
EXTENSION CORD, 5P
EXTENSION CORD, 8P
TOOL FOR WRITING PROGRAM
INTHE FLASH ROM.
Remarks
KX-FL513RU
Ref.
No.
Part No.
KM79811245C0
Remarks
BASIC FACSIMILE TECHNIQUE
(for training service
technicians)
Note:
Tools and Extension Cords are useful for servicing.
(They make servicing easy.)
242
KX-FL513RU
13 FOR THE SCHEMATIC DIAGRAMS
Note:
1. DC voltage measurements are taken with an oscilloscope or a tester with a ground.
2. The schematic diagrams and circuit board may be modified at any time with the development of new technology.
3.
243
KX-FL513RU
PDWN
8
CN614
PDWN
+24V
Q616
R747 L632
RBA[7]
RBA[6]
RBA[5]
A[8]
A[7]
A[6]
A[5]
A[4]
A[3]
A[2]
CHG
24V 1
GND
2
Q615
2.2 1W
CHG 3
DEV
4
TRS
5
TOPCVR
6
DEV
Q623
WP
TRS
(1)
1
2
3
4
1
2
3
4
8
7
6
5
8
7
6
5
D[15]
D[7]
D[14]
D[6]
D[13]
D[5]
D[12]
D[4]
1
2
3
4
1
2
3
4
8
7
6
5
8
7
6
5
D[11]
D[3]
D[10]
D[2]
D[9]
D[1]
D[8]
D[0]
RA618
47
+3.3V
RA619
47
RA620
47
RA621
47
0Ω
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
L622
+3.3V
A15
A16
A14
BYTE
VSS
A13
A12 DQ15/A-1
DQ7
A11
DQ14
A10
DQ6
A9
DQ13
A8
DQ5
NC9
NC10
DQ12
WE
DQ4
VDD
RESET
DQ11
NC13
DQ3
NC14
RDY/BSY DQ10
DQ2
A18
DQ9
A17
DQ1
A7
DQ8
A6
DQ0
A5
OE
A4
VSS
A3
CE
A2
A1
A0
(2)
(3)
(4)
(5)
(6)
J27p
Z0.1u
Q617
NC
Q610
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
C691
C692
7
R714
HTRCTL
( )
HTRCTL
C709
( )
NC
R715
( )
NC
6
)
5
5V
RBA[3]
RBA[2]
RBA[1]
RBA[0]
A[12]
A[11]
A[10]
A[9]
RBA[9]
RBA[8]
+3.3V
R713
L631
DG
)NC
NC
4
)NC
(
(
PG
(
R763
)
3
R762
(
PG
+5VD
(
)NC
Z0.1u
2
C735
1
24V
IC607
C734
6.3V100u
24V
RBA[4]
R761
NC
+24V
CN613
C733 35V100u
TO SMPS
C732 Z0.1u
1/4
A[1]
Q622
R724
10K
C718
+3.3V
1
PG
TMXA
4
TMXB
12
5
11
6
A
10
7
B
8
XA
9
GND
R705
PG
KX-FL513RU DIGITAL BOARD (PCB1) 1/4
4.7
AIN1
AIN2
AIN3
XB
A[11]
A[10]
A[9]
A[8]
A[7]
A[6]
A[5]
A[4]
A[3]
A[2]
A[1]
A[0]
1
2
RA617 3
47 4
C671
Z0.1u
1
2
RA616 3
47 4
1
2
RA615 3
47 4
RA614 47
8
7
6
5
8
7
6
5
8
7
6
5
C690
Z0.1u
C689
C698 K0.1u
C699 K0.1u
C700 K0.1u
R678
47
J12p
R679 1M
3
13
C670
Z0.1u
R691
100
TP_FCS
X602 24MHz
14
TP_ACS
C669 Z0.1u
C655
L616
3A700
C656
J15p
3.3V
0V
62.5nS
C738
J68p
C726
TO SCAN MOTOR
TMB
)
J601
1B601
1
2
(
TP_CHKCS
L641
COM
15
32kHz
(19)
(20)
(21)
(22)
(23)
(24)
(25)
(26)
(27)
(28)
(29)
(30)
(31)
100
2
TMA
C672
Z0.1u
TP_16M
3
XB
1
(14)
(15)
(16)
(17)
(18)
R690
XA
16
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
40
39
38
37
(z)
(A)
4
Q613
VSS
VDD5V
DB15
DB14
DB13
DB12
DB11
VDD2.5V
VSS
DB10
DB9
DB8
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
XWR
XRD
XROMCS
XCHKCS/OP03
IOP07
VDD3.3V
VSS
XIN
XOUT
VDD2.5V
VSS
RESCLK
XRESCS1
RESINT
XHSTWR/RBA[10]/IP01
XHSTRD/RBA[9]/IP00
(q)
(r)
(s)
(t)
(u)
(v)
(w)
(x)
(y)
B
Z0.1u
5
D607
A
IC610
C702
CN610
(a)
Q620
TMPWR
(e)
(f)
(g)
(h)
(i)
R737
1.5K 1/2W
IC606
TP_AMON
1K
Q612
(j)
(k)
(l)
(m)
(n)
(o)
(p)
POLON
)
C673
Z0.1u
( )
1.25A
2A601
L648
Q621
+24V
+5VD
L629
NC
(
C701
Z0.1u
TO POLYGON
R709
F606
POLCLK
2P221
2.00A
F605
5
R736
4
L652
DG
)
)NC
VSS
VDD3.3A
AIN1
AIN2
AIN3
AMON
VSS
X32OUT
X32IN
3.3VBATIN
XBACKEN
XRESCS2/CLKE/OP02
3.3VBATOUT
2.5VBATIN
XRESET
XORESET
VSS
VDD3.3V
XRESETI
XWDERR
TMO/IOP10
TM1/IOP11
TM2/IOP12
TM3/IOP13
TXE/IOP14
VSS
VDD2.5V
TRS/OP06
HTRCTL
POLCLK
POLON
XREADY
XHSYNC
LDON
APC
VIDEO
( )
XREADY
POLON 3
+24V
(
(
R765
Z0.1u
R741 100
R711
NC
109 VSS
110 EVOLIN
111 EVOLOUT
112 EVOLREF
TONE
113 TONE
MDMCS
114 XMDMCS
MDMINT
115 XMDMINT
CPC
116 CPC/IOP27
+3.3V TP_A13
117 ADR13/IOP15
TP_A14
118 ADR14/IOP16
TP_A15
119 ADR15/IOP17
120 XNMI/XINT
121 TEST1
122 TEST2
TP_NMI
123 TEST3
124 TEST4
125 VDD2.5V
C703
126 VSS
L627
1B252 Z0.1u
F1
127 F1
L628
1B252
FTG
128 FTG
TXD
129 TXD/IOP20
RXD
130 RXD/IOP21
RTS
131 RTS/IOP22
CTS
132 CTS/IOP23
DSR
133 DSR/IOP24
DTR
134 DTR/IOP25
MDMRESET
135 DCD/IOP26
ADSEL1
136 ADSEL1
ADSEL2
C704
137 ADSEL2
Z0.1u
138 VDD3.3V
139 VSS
R710
140 VDDA2.5A
C705
4.7
141 VREFB
C706 K0.1u
142 VCL
K0.1u
143 VREFT
+3.3V
144 VSSA
(
NC
C715
NC
)
(
0
C714
R721
C707
VOLOUTNC
( )
VOLIN
C697 NC
2
Z0.1u
+5VD
+2.5V
4.7K
XREADY
C730
C696 Z0.1u
1
47K
R740
CN611
POLCLK
+3.3V
(B)
(C)
(D)
(E)
R766
0
)
+5VD
Z0.1u
NC
(
R712
(
R703
+3.3V
+24V C727
35V100u
RA613
(b)
(c)
(d)
C729
R720 NC
Z0.1u
)NCRBA[8]
) RBA[7]
8 RBA[6]
7 RBA[5]
6 RBA[4]
5 RBA[3]
8 RBA[2]
7 RBA[1]
6 RBA[0]
5
A[12]
F1.1K
Z0.1u
F36K
C719
R739
( )
C728
1
2
3
47 4
1
2
3
4
R722
Z0.1u
R723
APC
VIDEO
LDON
XHSYNC
C708
Z0.1u
NC
TO LASER
+2.5V
RESET
100
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
80
79
78
77
76
75
74
73
8
(11)
(12)
(13)
VDD3.3V
RBA8/OP05
RBA7/OP04
RBA6
RBA5
RBA4
RBA3
RBA2
RBA1
RBA0
VDD2.5V
VSS
ADR12
ADR11
ADR10
ADR9
ADR8
ADR7
ADR6
ADR5
ADR4
ADR3
ADR2
ADR1
ADR0
VDD3.3V
VSS
SDCLK
VSS
SDDQML
SDDQMU
SDWE
CAS
RAS
SDCS
VDD3.3V
7
TP_RST
2P221
47K
DG
XHSYNC
R738
6
D608
244
+5VD
L630
DG 5
+5V
Q614
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
1A601
5
1 VIN
Cdelay
2 VSS
3 VROUT
4
VDOUT
R726
R744 100 L636
IC608
C717
4
C731
3
LDON
(10)
+3.3V
Z0.1u
VIDEO
(7)
(8)
(9)
10K
1A601
SDCLKE
C736
Z0.1u
1A601
R743 100 L635
C721 C720
Z0.1u
R742 100 L634
APC 2
6.3V220u
DG
+2.5V
+5VD
2.2(3216)
CN612
TOPCVR
K1000p
TO HVPS
R746
R745
39K
7
GND
8
DTR
Z0.1u
C664
C661
Z0.1u
C662
Z0.1u
CN606
100
R640
( )
KSTART
3
KTXD
4
L650
TO
PICK_UP
PG
OPERST
)
R610
PAPER
270 2W
R601
10K
R602
2P221
C601
E
FANON
2
FANDET
1
GND
TO FAN
CN602
REGIST SENSOR
+5VD
R613
POUT
L651
C610
R620
C
K
330
3
PG
A
PS601
C609
K1000p
SENCTL1
SENCTL0
C657 NC
( )
C658 NC
R617
5.6K
PS600
5.6K
R632
5.6K
AIN2
C608
5
R749
1K
K1000p
1B601
330
R630
CTL
F22K
R635
L646
POUT 4
K1000p
3
+5VD
1B601
R616
REGIST
K1000p
C627
LED
100
ADSEL1
C626
2
F22K
R636
GND
1B601
L608
F18K
R637
1
R631 56K
CN604
THRM1
AIN3
L645
5.6V
D601
(14)
(15)
(16)
(17)
(18)
R621
39 1/2W
R619
+5VD
&
HAISHI
SENSOR
+5VD
Q603
4.7K 1/4W
FANDET
R750
1K
C623 K1000p
245
TO
THERMISTOR
FANON1
ADSEL2
K1000p
F39K
R634
RA606
22
4
1
2
3
4
1
2
3
4
1
2
3
4
F39K
R633
K1000p K1000p
C625
C624
8
7
6
5
8
7
6
5
8
7
6
5
8
7
6
5
R638
F33K
R618
Q602
56K
D[15]
D[14]
D[13]
D[12]
D[11]
D[10]
D[9]
D[8]
D[7]
D[6]
D[5]
D[4]
D[3]
D[2]
D[1]
D[0]
Z0.1u
TO OPE
35V100u
8
Q605
4.7K 1/4W
NC
5V
R622
Q604
FANON2
0.63A
1K
R646
7
(
GND
F600
KTXD
KSCLK
R644 L637 1A102
KSTART
10K
5
R643 L633 1A102
R623
KSCLK
R642 L638 1A102
10K
0
22
100
100
C745
J180p 180
R624
C660
NC
R641 L639 1A102
KTXD
A
C
K
E
PAPER SENSOR
LEDCTL
R611
330
(J)
(I)
( )
(F)
(G)
(H)
2 GND
2
C628
RA605
22
1 PICK
+24V
THRM2
KSCLK
RA604
22
CN603
RPS
RPS 1
C659
J15p
KSTART
1
Q607
4.7K 1/4W
+5VD
(11)
(12)
(13)
RA603 2
22
3
R625
PICKUP
Q606
RBA[4]
RBA[2]
RBA[1]
RBA[0]
A[12]
A[11]
A[10]
+5VD
0
0
10K
100
R653 100
R626
DSR
R652
D600
DTR
OPERST 6
R680
R681
+24V
CTS 5
(10)
(19)
(20)
(21)
(22)
(23)
(24)
(25)
(26)
(27)
(28)
(29)
(30)
(31)
TXD
RXD
RTS
CTS
F602
8
7
6
5
0.63A
1
2
3
4
2P221
TP_RTS
47K
47K
47K
R649
R650
3
DSR 6
RA608 22
R668
0
R682
R683
2
RTS 4
D[11]
D[10]
D[9]
D[8]
5
6
7
8
TXD
RXD
2/4
100
RA602
56K
C677 J27p
(7)
(8)
(9)
4
3
2
1
1
10K
RBA[5]
RBA[6]
RBA[3]
A[6]
A[7]
A[8]
A[9]
+5VD
R645
22
22
22
22
22
C674
C675
C676
(2)
(3)
(4)
(5)
(6)
R764
R695
R696
R697
R698
J15p
J15p
J15p
RA612 22
RA607 22
Z0.1u
C665
5
6
7
8
+5VD
D[15]
D[14]
D[13]
D[12]
5
6
7
8
J27p
4
3
2
1
4
3
2
1
C663
D[4]
D[5]
D[6]
D[7]
VSS
DQ15
VSSQ
DQ14
DQ13
VDDQ
DQ12
DQ11
VSSQ
DQ10
DQ9
VDDQ
DQ8
VSS
NC
DQMH
CLK
CKE
NC
A11
A9
A8
A7
A6
A5
A4
VSS
)
RA611 22
VDD
DQ0
VDD
DQ1
DQ2
VSSQ
DQ3
DQ4
VDDQ
DQ5
DQ6
VSSQ
DQ7
VDD
DQML
WE
CAS
RAS
CS
BA0
BA1
A10
A0
A1
A2
A3
VDD
TO FLASH
PROGRAMMER
CN607
(
5
6
7
8
54
53
52
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
R694 NC
4
3
2
1
IC604
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
Z0.1u
C678
C679
D[0]
D[1]
D[2]
D[3]
J27p
0Ω
Z0.1u
C680
(1)
R647
+3.3V
L617
KX-FL513RU
R727
100
FTG
R728
100
F1
CISLEDON
FTG
L661
1B102
L660
L659
L658
1B102
1B102
1B102
L647
1B252
C694
Z0.1u
IC605
R748
R780
180
R773
10K
C693
Z0.1u
VDD3.3 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
C757
Z0.1u
R772 10Ω
R778 10K
R777 NC
R776 NC
R774 NC
C758
16V10u
)
)
)
Z0.1u
C710
NC
( )
Z0.1u
C668
KRXD/IP23/SENIN3
KTXD
KSCLK
KLATCH/OP24/SENCTL3
KSTART
INT
XCS
XRESET
VSS
CLK
VSS
VDD3.3
XRD
XWR
TEST1
TEST0
ADR6
ADR5
ADR4
ADR3
ADR2
ADR1
ADR0
VSS
1
2
3
4
1
2
3
4
10K
( )
RMPWR2
FANDET
FANON1
BREAK
FANON2
CID
RLY
VOX
SENCTL0
SENCTL1
270Ω
270Ω
270Ω
270Ω
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
(
(
(
AIN1
L623
L624
L625
L626
VDD3.3
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
VSS
VDD3.3
IOP56
IOP55
IOP54
IOP53
IOP52
IOP51
IOP50
IOP47
IOP46
IOP45
MICLK/IOP12
MIDAT/IOP11
MILAT/IOP10
VSS
)
CISON
76 VSS
77 VIN0/IP20(APC)
78 VIN1/IP21
79 VIN2/IP22
80 VOUT0/OP25
81 VOUT1/OP26
82 VOUT2/OP27
83 RM0
84 RM1
85 RM2
86 RM3
87 RXE
88 VDD5
89 VSS
90 IOP57
91 FANDET1/IOP14
92 FANON1/IOP15
93 FANDET2/IOP16
94 FANON2/IOP17
95 IOP60/CSI
96 IOP61/CCLK
97 IOP62/CSO
98 SENCTL0/IOP04
99 SENCTL1/IOP05
100 VDD5
1B102
1B102
R734
0.47 1W
Z0.1u
A[6]
A[5]
A[4]
A[3]
A[2]
A[1]
A[0]
+5VD
NC
AIN1
(
C711
RPS
KTXD
KSCLK
CLK
KSTART
INT
CS
RBA[9]
C684
Z0.1u
C682
Z0.1u
R718
NC
C695
J15p
TMA
TMB
TMXA
TMXB
TMPWR
SDCLKE
INT
CS
CLK
WP
MDMRESET
TP_CHK
NC
)
R686
(
)
C685
J12p
C686
NC
Z0.1u
R719 18K
C713
C753
( )
C648
35V100u
3.15A
D606 F604
J600
BAT600
(
4.7M
R704
Z0.1u
C683
Z0.1u
0Ω
R716
TRS
HTRCTL
POLCLK
POLON
XREADY
XHSYNC
XLASERON
XAPC
XVIDEO
R717(
)
) NC
C712
) (
NC
Z0.1u
C752
( )
K3300p
B
(
+5VD
2.2K
R708
(
R707
C716
R688
47K
47K
K1000p
1B252
1B252
1B252
1B252
)
NC
D602
330K
R687
R700
L618
L619
L620
L621
)
R779
PG
XAPC
XLASERON
XVIDEO
APC
LDON
VIDEO
RMA
RMB
RMXA
RMXB
L656
L657
PG
1 VSS
2 SENCTL2/IOP06
3 SENCTL3/IOP07
4 SENIN0/IOP00
5 SENIN1/IOP01
6 SENIN2/IOP02
7 SENIN3/IOP03
8 IOP63/XCBUSY1
9 IOP64/XCBUSY2
10 IOP30(XHSYNC)
11 IOP31
12 IOP32
13 VDD5
14 VSS
15 IOP33
16 IOP34
17 IOP35
18 IOP36
19 IOP37
20 IOP40
21 IOP41
22 IOP42
23 IOP43
24 IOP44
25 VDD5
C725
R733
0.47 1W
PG
R699
R775
F1
RMPWR2
1B102
Q618
)
L655
6.3V220u
Q611
NC
1B102
R731
A
L654
4.7K
C751
PG
+5VD
XA
(
MILAT
MIDAT
MICLK
VOL2
SPMUTE
FSKCTL
HOOK
LEDCTL
PAPER
PDWN
TOPCVR
DEV
CHG
0.315A
+24V
PG
XB
32.768KHz
C761
J180p
7
30 GND
+5VD
)
X603
OPERST
VOL0
VOL1
6
VLED
PG
PG
(
R706
NC
C681
Z0.1u
GLED
)
+24V
CISLEDON
DRUM
PICKUP
5
D605
R701
C687
Z0.1u
47K
RESET
CISON
4
21
20
19
18
17
16
15
Out3
C/R
NC9
VsB
NC10
NC19
RsB
l1
NC12
IN3
Out4
IN4
VmmB Vcc-15
Q609
1B102
F603
SI
CLK
8
9
10
11
12
13
14
RMA
RMXA
RMB
RMXB
L653
3
2.2K
+5VD +5VD
P-SHORT
XHSYNC
HSALC
EX-HOOK
POUT
REGIST
BELL
TNREMP
5V
28
27
26
25
24
23
22
J180p
2
C723
VmmA Vcc-28
Out1
IN1
nc3
IN2
RsA
Io
nc5
NC24
nc6
VsA
Out2
Vr
GND
29 GND-29GND-30
C741
NC
1
1
2
3
4
5
6
7
J180p
TO CIS
PG
2.2K
Q619
IC609
C740
CN608
PG
R730
SHEET
NC
- 1
4.7K
HEAT
C724 50V330u
33K
CN609
R735
246
C722
SIG
GND
NC
R729
1
R732
TO ENGINE MOTOR
10(3216)
-
)
4
D604
3
(
B
XB
(
2
)
D609
1
(
)
A
XA
(
D603
(B)
(C)
(D)
(E)
(z)
(A)
(q)
(r)
(s)
(t)
(u)
(v)
(w)
(x)
(y)
(j)
(k)
(l)
(m)
(n)
(o)
(p)
(e)
(f)
(g)
(h)
(i)
(b)
(c)
(d)
(a)
KX-FL513RU
3/4
+3.3V
NC
(32)
(33)
(34)
+3.3V
(35)
PG
RA610 22
8
7
6
5
8
7
6
5
(36)
(37)
(38)
(39)
(40)
(41)
(42)
(43)
RA609 22
C667 Z0.1u
+5VD
C666
Z0.1u
(44)
(45)
(46)
(47)
(48)
(49)
(50)
(51)
(J)
4.7K
L612
(51)
( )
C600
R615 56K
C607
K1000p
22 VOX
21 BREAK
20 VOLIN
19 HSALC
EX-HOOK
15 CPC
Z0.1u
FAX TX
+24V
100K4
X7
47K 5
VOL2
VOL1
VOL0
2A601
X6
X
X5
6
INH
7
VEE
8
VSS
L642
L643
L644
10K
5.6K
2.2K
18K
1B252
1B252
1B252
SPMUTE
AG_M
K0.1u
3
16
15 R755
14 R756
13 R757
12 R758
11
10
9
Z0.1u
R753
R754
VDD
X2
X1
X0
X3
A
B
C
FSKCTL
R607
HOOK
12 LINEOUT_P
11 24V
10 NC
C750
30K1
68K2 X4
2P221
Z0.1u
R751
R752
13 P-SHORT
L649
+5VA+5VD
L640
L603 1B102
LINEOUT_P
14 TONE
L602 1B102
LINEOUT_P
C619Z0.1u
C618
6.3V100u
L607
C615Z0.1u
R603
P-SHORT
LINEIN_P
C611
C602 56K
0Ω
TONE
D[4]
D[5]
D[6]
D[7]
17 EX-HOOK
16 LINEIN_P
L601 1B102
CPC
VOLIN
1K
FAX RX
LINEIN_P
D[0]
D[1]
D[2]
D[3]
+5VD
C613
5.6K
IC611
NC
R628
10K
K1000p
R608
C604
C749
8
7
6
5
18 VOLOUT
MDMCS
100
C620
9
5VD
8
5VA
7
AG
6
NC
5
DG
4
NC
3
SPMUTE
2
FSKCTL
1
HOOK
5.6K
CN600
TO ANALOG
R627 C612
K0.01u
( )
2.7K
C744 NC
R655
10K
R654
C739
Z0.1u
23 BELL
C737 Z0.1u
( )
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
(
24 MIDAT
K1000p
RA601
1
2
3
4
C616
C635
NC
( )
C636 NC
8
7
6
5
1
2
3
4
16V10u
)
(
NC
)
( )
C643 NC
3.579545MHz
X601
8
25 CID
VOLOUT
R629
100
RA600
100
AG_M
K0.1u
C630 R658
K0.01u
J180p
1K K0.01u
AG_M
)
VSS
NC
C644
OSC2
DCLK
( )
DATA
7
(
9
OSC1
6
C748
26 MICLK
HSALC
(
)
(50)
DR
J100p
5
C641
NC
10
CAP
C629
C642
NC
(49)
VRef
CD
C755
4
J180p
VOLIN
18K
R771
3
R770
10K
(48)
PWDN
2
C754
K0.1u
12
11
GS
C747
28 MILAT
BREAK
AG_M
( )
(47)
IN-
IC1
J180p
VOX
R656
R657
2.2K
1K
AG_M
LINEIN_P
(46)
13
IC2
FM214
C746
R769
L606 1B102
BELL
1
Z0.1u
14
IN+
C756
15
(45)
VDD
( )
16
C760
NC
(44)
IC600
R768
180
MIDAT
16V10u
20K
R664
R665
( )
NC
C645
R666
IC602
31nS
180
L605 1B102
CID
C614 Z0.1u
1A601
R759
AG_M
1A601
R760
1A601
R663
L615
C759
NC
247
(36)
(37)
(38)
(39)
(40)
(41)
(42)
(43)
0V
R767
27 RLY
MICLK
102
101
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
75
74
73
72
71
70
69
68
67
66
65
180
L604 1B102
RLY
C617
TP_8M
D[7]
D[6]
D[5]
D[4]
D[3]
D[2]
D[1]
D[0]
AGND5
DVAA
DGND6
RESERVED-124
RESERVED-123
SR3IN
IRQ2#
GPI1
XCLK
RESERVED-118
XTALO
XTALI
RESET#
DGND5
VGG
VDD5
GPO0
GPO1
GPO2
IRQ1#
CTS#
DGND4
GPO3
GPO4
RESERVED-103
128
127
126
125
124
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
108
107
106
105
104
103
A[4]
A[3]
A[2]
A[1]
A[0]
GPO5
GPO6
VDD4
GPO7
GPI7
GPI6
GPI5
GPI4
GPI3
GPI2
READ#
CS#
WRITE#
CSBR#/RESERVED
D0
DGND3
D1
VDD3
DGND2
D2
D3
D4
D5
D6
D7
VDD2
MCLK_S/NC
ICLK_P
NC74
AVDD_P
SPKRM_P
SPKRP_P
AGND4
LINEOUT_P
VAA_P
VC_P
VREF_P
NC65
3V
MILAT
C622
Z0.1u
NC
( )
(35)
C646
NC
(33)
(34)
SR4IN/RESERVED
SR3OUT/RESERVED
EYESYNC
EYECLK
RXD
SR1IO
NC7
EYEXY
SR4OUT
VDD1
RLSD#
DCLK
EN85#
GPIO
RTS#
DGND1
TXD
SA1CLK
RS4
RS3
RS2
RS1
RS0
YCLK
IACLK
IA1CLK
CTRLSIN_S/NC
RESERVED/NC-28
SOUT_S/NC
SIN_S/NC
FSYNC_S/NC
IARESET_S#/NC
AGND1
LINEIN_S/NC
MICP_S/NC
MICM_S/NC
MICBIAS_S/NC
NC38
C606
Z1u
2A601
C605
0
2A601
NC39
VREF_S/NC
VC_S/NC
VAA_S/NC
LINEOUT_S/NC
NC44
AGND2
SPKRP_S/NC
SPKRM_S/NC
AVDD_S/NC
RESERVED/NC-49
ICLK_S/NC
MCLK_P
CTRLSIN_P
RESERVED-53
SOUT_P
SIN_P
FSYNC_P
IARESET_P#
AGND3
NC59
LINEIN_P
MICP_P
MICM_P
MICBIAS_P
NC64
K2200p
C654
47K
C652
K2200p
R675
(32)
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
4/4
4 GND
C621
L610
TP_XCLK
RESERVED-128
2 DRUM
5.6K
Z0.1u
C743
K2200p
+3.3V
1 +5V
3 TNREMP
K1000p
C634
J33p
L609
0
C742
Z0.1u
C647
Z0.1u
L611
AG_M
R660
J10p
J10p
C632
C631
3A700
L614
L613
+3.3V
CN601
10K
R609
MDMINT
C633
R612
TNREMP
X600
32.256MHz
R659
390
2A601
+5VD
R614 4.7K
DRUM
+3.3V
Z0.1u
(I)
(F)
(G)
(H)
+5VD
+5VD +5VD
Telecom Company
AG_M
KX-FL513RU
KX-FL513RU
NC
C234
R238
6.3V100u
TXA2
K6800p
5
)
L252
(
NC
R331
C314
150K
K4700p
(
3
L259
BEAD
INPUT
16V10u
R330
BEAD
1M
C313
2
DET
IC208
L260
BEAD
L258
1
Z0.1u
C312
6.3V330u
C311
Z0.1u
C310
248
4
5
L256
BEAD
10K
+5VA
100
R328
100K
16V10u
C216
Z0.1u
C218
100K
KX-FL513RU ANALOG BOARD (PCB2) 1/2
BEAD
GND
R329
BEAD
0
R216
J213
100K
R215
0
L223
L265
+12VA BEAD
)
NC
L257
VCC OUTPUT
L208
BEAD
(
K8200p
+5VA
NC
)
NC
(
R260
(
Q203
( )
)
R225
(
R341
+5VD
R256
)
(
)
NC
C305
NC
VREF
22K
R327
+5VA1
C309
+24VA
+24V
0
16V47u
)
)
NC
)
NC
6
)
L251
R224
(
(
B
4
0
J202
NC
L233
)(
7
A
3
J390p
NC
R249
8
2
C304
J68p
18K
R253
J10p
(
1
NC
C249
TXA1
AGCIN
MICIN
SPOUT
)
NC
IC205
6.3V100u
Z0.1u
C298
10K
+5VA1
)
NC
L238
BEAD
100K
C308
R251
L229
) (
NC
J10p
330K
C307
C243
Z1u
4
(5)
) (
(
)
NC
C321
R326
VIN
1K
Z1u
3
C240
K2200p
NC
R239
100K
R325
FC1
VO1
LINEOUT_P
R235
(
R222
VREF
L214
)
J390p
VCC
2
C247
5
NC
C231
18K
LINEOUT
4
(
NC
(
FSKCTL
(
L255
L207
)
NC
6
BEAD
R321
(
)
( )
C306
Q215
C219
7
3
BEAD
33K
B
)
NC
C235
8
A
C297
1
2
R206
BEAD
C228
10
L249
R320
IC202
J470p
FC2
C242
L253
(
Z1u
R250
1
R247
10K
-17dBm
(VS AG)
BEAD
BEAD
BEAD
MONITOR3
C204
R232
AGCIN
L222
BEAD
L209
MIC(+)
5
TO SPEAKER
+5VA
L237
MIC(-)
GND
6
SW200
K0.012u
CD
NC
3
K0.1u
4
2
HOOK
MONITOR3
1
C224
C315
L231
0
MONITORIN
K2700p
R245
10K
C299
MONITOR4
4.7K
)
NC
R204
C202
K0.033u
(
15K
R202
C200
K0.1u
LINEIN
C244
C248
120K
18K
R332
CN200
VO2
7
1
J680p
SP+
+5VD
R318
J10p
IC206
2
L228 0
-14dBm
(VS AG)
Z1u
(4)
C236
J680p 8
)
SP-
C328
R246
10K
(
J150p
C329
SPMUTE
L227 0
R322
NC
C245
C303
10
L232
110K
0
J10p C326
BEAD
C208
K1000p
BEAD
R324
R240
L226
+12VA
R209
D204
+5VA
C246
K0.015u
D203
(3)
330K
K0.047u
BEAD
R242
0
)
5
5
L254
NC
4
4
R234
(
6
L218
B
6
)
R237
150K
3
A
3
10K
J211
C241
)
C237
50V4.7u
L230
2.2K
Q202
NC
7
2
L225
B
110K
C322 ( )
NC
C209
BEAD
J212
C250
J100p
D202
R248
J68p
(
BEAD
A
J201
D201
(
-14.5dBm
(VS AG)
C226
8
BEAD
7
IC204
1
L224
2
R218
BEAD
8
L211
1
L220
C214
J150p
)
NC
IC200
J200
D200
1K
C238
)
(
R243
47K
0
C239
R229
C223
620
(2)
)
NC
R230
R231
L221
(
4
C229
BEAD
10K
R214
C301
J620p
C205
J620p
6.2K
R201
(
L201
)
NC
(1)
50V2.2u
7.5K
R210
L200
35V100u
J620p
R207
33K
C221
J620p
R203
BEAD
Z0.1u
C222
C206
1K
C233
K0.1u
R221
C212
BEAD
L213
C201
0
C253
T201 6
2
3
C225
(
BEAD
)
NC
10K
)(
NC
1
R241
K0.22u
C230
L216
L210
R212
BEAD
+12VA
R233
R226
10K
(
L205
+24VA
R217
K0.027u
K3900p
-21dBm
(VS AG)
10
5
BEAD
6
4
620
C227
B
3
K3900p
C207
K2700p
C213
7
A
10K
BEAD
8
2
R205
10K
K0.027u
BEAD
L212
1
K5600p
R200
C232
47K
IC201
C203
L217
1/2
R236
R244
L202
BEAD
KX-FL513RU
Q207
5.6K
R275
K0.01u
C260
R270
-20dBm
(VS CN203 3 - 4 )
(
2
3
5
7
J206
(
5
2
R310
6.8 1/2W
3
RLY203
)
L242
POS200
BEAD
0
+24V
R292
(
NC
)
C280
(
)
(
)
)
(
100
CN204
Q212
NC
1 b1
J207
L247
(
BEAD
250V1u
R315
4 a/A1
0
5 E(W)
C
Q213
2.2K
6 a1
8.2K
R304
R299
R303 6.8K 1/2W
AK
R305
R317
CID
RLY
CID
MONITOR4
BELL
HSALC
BREAK
P-SHORT
3
R316
4
10K
T202 5
2
C296
K0.01u
1
56K
47K
E
D211 D212
KA
PC205
2 S(W)
J208
BEAD
+5VD
Q210
)
3 b/B1
L248
33K 1/2W
50V1u
C265
R280
C281
6 b1
NC
Q214
(4)
)
-21dBm
(VS CN203 3 - 4 )
J100p
NC
(
(
C287
NC
0
4
K
)
R311
D213
3
D216
5
2
1
2
RLY201
E
RLY201
(
8
RLY200
1
S(W)/B2
J209
3000V
6
K680p
1K
R288
A
4 b/B1
RLY203
RLY203
C
E(G)/A2
3 a/A1
350V
SA200
FLT200
SA201
ZNR200
4.7K
4
C295
Z0.1u
3.9K
K3300p
R287
CN203
1 a1
)
E
1A
2
1
3
4
4
K
F200
5
K680p
C279
+5VD
L239
BEAD
)
RLY200
4
R294
C
K
PC202
A
100K
C275
R289
E
16V10u
C256
A
22K
10K
10K
C
R276
R268
R266
1
PC204
NC
C270
C258
0
(3)
R284
)
Q208
( )
NC
)
(
)
1K
NC
R272
(
J205
3
C278
PC203
)
+5VD
R279
R259
(
C257
C254
(
( )
)
Q205
NC
NC
2
15 1/4W
NC
(2)
)
( )
Q209
R263
(
D210
Q211
R278
)
(
(
NC
1
R271
)
NC
C264
(
50V100u C271
R262
(1)
2/2
820
D209
100 P-SHORT
P-SHORT 16
TXA1
TXA1 17
L283
0
+24V
MONITORIN
ROUT2
NC26
ROUT1
MODEMTXOUT
MODEMTXIN
LINEIN
RIN
VCC
HSMICIN1
LINEOUT
HSMICIN2
EXTOUT
HSMICOUT
EXTIN
NC17
NC19
NC18
C323
6.3V100u
L263
AG 22
200K
C286
68K
J560p
220K
R296
220K
MIC(+)
0
L264
BEAD
J214
0
(
NC 25
24K
L286
C317
K0.1u
2
7
3
8
4
1 HSMIC3 HSSP4 HSMIC+
)
(
)
NC
L275
100
SPMUTE
L276
0
FSKCTL
FAX TX
L277
BEAD
HOOK
FAX RX
SPMUTE 26
FSKCTL 27
HOOK 28
6
CN202
2 HSSP+
D217
C292
16V10u L287
NC 23
DG 24
1
C320
K0.01u
MICIN
0
BEAD
L240
C318
BEAD
5
Z0.1u
C274
R295
BEAD
FLT201
R308
VREF
L236
0
R335
R334
24K
R298
R293
C272
4.7
+5VA1
NC 21
R219
C277
6.3V220u
R342
5VD 20
J470p
K0.1u
-30dBm (VS AG)
TXA2
+5VD
68K
C285
+5VA1
24V 18
TXA2 19
R297
C294
NC9
TONEIN
16V47u
VSS
NC28
680
NC29
1K
VOXIN
0
L274
GND
L284
TONE
TONE 15
VOXOUT
MODEMRXOUTVOXDET
K0.01u
D208
-21dBm (VS AG)
VDD
VLIN
82
82
82
1K
CPC 14
R282
L234
R283
C269
LINEIN_P
LINEIN_P 13
56K
R319
56K
VREF
R300
R301
R302
0
EX-HOOK 12
C302
K0.027u
LINEOUT_P
LINEIN
LINEOUT
DATA
120K
K0.1u
BEAD
R312
HSALC
VOLOUT
C266
C268
VLOUT
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
R314
HSALC 10
VOLOUT 11
0
R277
TONE
33
32
BEAD
31
30
29
28
K0.1u
27
J82p
26
25
240K
24
BEAD 23
22
21
130K
20
J68p
19
CLOCK
+5VA1
L241
100
L250
L262
VOLIN
L271
L261
BEAD
STR
SPOUT
L285
VOLIN
LINEIN_P
BREAK
BEAD
SPIN
J82p
L206
36
35
K0.22u 34
J82p
9
100
390K
C324
C284
VOLIN
VOX
L270
R281
J82p
8
SPOUT
VOLOUT
R291
IC207
C283
7
BELL
J82p
Z0.1u
VOX
BREAK
VREF
MIDAT
C267
C282
6
K0.068u
Z0.1u
C276
BELL
10K C325
R344
CID
R313
0
+5VD
C293
0
L268
1K
MIC(-)
L280
5
MILAT
MICLK
MIDAT
100
R343
C273
L267
RLY
MICLK
C327
MIDAT
0
16V10u
4
L279
MILAT
L235
CID
100
BEAD
3
0
L266
4.7
MICLK
L278
R340
2
18K
1
RLY
R285
CN201
MILAT
VOX
(5)
KX-FL513RU ANALOG BOARD (PCB2) 2/2
249
KX-FL513RU
+5VD
16V10u C112
Z0.1u
Z0.1u
)
(
C111
180.0
NC
180.0
R118
C110
180.0
R116
NC
180.0
R113
C108
180.0
R112
Z0.1u
180.0
R110
)
180.0
R107
(
180.0
R105
C107
R103
C105
1/2
CALLER IQ
FLASH
NEXT
STOP
H/S MUTE
REDIAL/PAUSE
SW101
SW106
SW110
SW116
SW124
SW131
SW136
SW141
FOR
CHECKER
&
FOR SOFT
CHECK
12K
MENU
S6
#
-
CID SERACH
*
0
NC
DIRECTORY/PROG
(
QUICK SCAN
R124
)
AUTO ANSWER
R123
+5VD
SW111
SW117
COPY
SW125
9
SW103
SW132
PREV
SW118
SW137
8
CID PRINT
SW126
SW142
SW133
7
SW138
SW143
12K
SW107
R149
SW102
(1)
(2)
SW105
SW119
MONITOR
COLLATE
SW109
SW112
S11
SW127
5
SW134
3
SW139
S12
SW120
SW144
1
2
SW135
(3)
(4)
(5)
4
SW140
SW145
S7
S10
S3
TXD
RXD
SCLK
RESET
D7
D6
D5
D4
E
RWB
RS
33
32
31
30
29
28
27
26
25
24
23
(6)
(7)
(8)
(9)
(10)
(11)
(12)
(13)
(14)
(15)
(16)
SW128
S2
NC
SW121
KSL2
LED6
KIN1
LED7
XLED8
XLED9
KIN2
KIN3
XLED10
KSL3
KIN4
S4
)
SW113
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
S9
12K
R106
12K
R104
12K
R102
+5VD
44
43
42
41
40
39
38
37
36
35
34
SW108
+
IC101
RESOLUTION
6
KSL1
KSL0
KIN0
LED5
VDD-40
VSS-39
LED4
LED3
LED2
START
LATCH
SW104
HELP
KIN5
KIN6
KIN7
XLED12
XLED11
VDD-17
VSS-18
XLED13
XLED14
XLED15
LED1
FAX START
+5VD
(
SS5
D102
R152
180.0
+2.5V
+5VA
180.0
180.0
330.0
R120
+5VD
R121
56K
+5VD
R151
1M 2/3W
(17)
)
D101
R117
R119
R115
180.0
(
R114
NC
D103
R146
+5VD
100.0
J101
K
3
E
2
A
C104
C103
6.3V100u
NC
)
(
NC
C102
)
Z0.1u
)
NC
)
NC
C
(
(
C101
(
R108
NC
R109
)
NC
4
1M 2/3W
(
)
PS101
(
1
R111
R101
K0.01u
SW130
C106
SW123
4.7K
S1
SW115
SW146
S8
SW129
R122
SW122
C140
SW114
DOCUMENT
SET
SENSOR
KX-FL513RU OPERATION BOARD (PCB3) 1/2
250
P.F.
SENSOR
KX-FL513RU
2/2
Z0.1u
C132
6.3V100u
C133
NC
TH101
C141
(
+5VD
)
+5VD
NC
R137
)
TO DIGITAL
CN102
(
1 RPS
2 THM
R134
R130
100.0
4 SDATA
R135
100.0
5 KSCK
100.0
J100p
7 GND
J100p
J100p C129
C130
R147
C128
12K
6 OPERST
K0.01u
C118 J100p
J100p C119
C117
J100p
R131
C115
3 KSTART
100.0
8 +5V
NC
+5VA
2
(
0
IC102-2
4
3
(
R141
NC
)
NC
CN103
C134 NC
)
(
)
)
(
1
1
2
2
C135
)
NC
NC
NC
)
(
(
)
R143
(
NC
)
C131
(
(
)
NC
NC
R140
)
C126
(
NC
C136
)
5
IC102-1
NC
C138
+2.5V
7
R129
)
NC
R150
(
8
1
6
)
(
NC
R142
(6)
(7)
(8)
(9)
(10)
(11)
(12)
(13)
(14)
(15)
(16)
NC
R144
)
(
NC
R145
NC
)
(
NC
C137
)
C127
(
C116
(
(
R136
(3)
(4)
(5)
)
+5VA
(1)
(2)
+5VD
CALLER IQ
R138
330.0
R139
330.0
LED101
AUTO ANSWER
LED102
TO COB
(17)
COB MODULE
10 DB7
9 DB6
8 DB5
7 DB4
)
NC
C124
5 R/W
4 RS
(
NC
(
R132
)
6 E
R127 10K
3 V0
+5VD
R148
1 VSS
CN101
Z0.1u
Z0.1u
C139
)
(
NC
C123
(
C121
C122
NC
)
Z0.1u
C120
2 VDD
4.7
C125
Z0.1u
1.2K
+5VD
R133
R128 22K
KX-FL513RU OPERATION BOARD (PCB3) 2/2
251
KX-FL513RU
6
470p
C111
D101
R103
C108
0.047
5
470p
Q103
D107
1k
Q102
!
1
R212 R213
KX-FL513RU HIGH VOLTAGE POWER SUPPLY BOARD (PCB4)
D204
45.3k
R206
ZD202
DEV+
100p
C205
1000p
C207
R214 10M
R204
C204 0.01
CHG
D205
220k 1000p
47k
1M
R207 1.5M
R205
CN2
DEV CHG 4
1M
C209
C202
1000p
48.7k
1M
NC
R202
1M
D203
0.047
R209 R208
R201
C201
220p
1k
C203
R203
D202
D201
Q201
2
R211
10M
470p
C112
R127
D109
10M
T201
R210
ZD201
Q202
33k
C109
0.015
3
CN2
4
TRA-
0.01
0
C105
0
R117
R118
C106
NC
2.7k
10k
200k
1M
R105
10k
R126
0
C102
5
R104
100k
0.047
252
TRA CLK
R102
R125 R113
47k
2.2
R112
CN2
C103
CHG REM 3
TRA+
7
10k
R108
10k
R111
R109
R115
R101
30
C104 R116
1
2.7k
IC101
1 2 3 4 5 6 7 8
TOP CVR 6
R119
D105
16 15 14 13 12 11 10 9
CN2
Q101
10k
10k
CN2
10k
R110
2
R107
GND
10k
R106
R114
D104
R124 100k
8.45k
R121
R123
SW101
T101
C110
!
IP101
R120
1.5k
1.5k
!
CN2
47
1
C101
+24V
DEV-
OPC
T101 S3-S1
T101 P1-P2
26V
0V
320V
3V
1V
0V
L103
3
PGND
4
PGND
6
5V
7
HTRCL
8
PDWN
5
DGND
R202
( )
24V
220
R214 1k
1k
R204
2.7k
PC102 R203
R213
150
PC103
R208
R215 5.6k
6.8k
1.8k
R209
4.7k
R205
R206
5.6k
C212
0.47
3.3k
!
R212
PC101
100
15k
R116
!
4
12k
R118 C114
( )
( )
3
R117
2
C113 470p
1
R122
12k
R207
IC101
ZD201
8V
0V
-20V
( )
Q201
5
PC101
6
10k
7
C112
0.22
1000p C111
PC102
!
8
PC103
R115
47
R120
C115
0.01
C116 120
0.1
SCR101
R121
1
!
330
2
B1
CN102
!
24V
14.5V
T101 S3-S2
R119
C206
7V
S3
3.5V
!
C208 0.47
C202
B2
L204
IC201
C204 1000
R113
S2
C110 39
6.8k ZD102
25µs
2
1000
100
R102
D105
D108
R112
15
0V
1
D203
R201 C203 C207
( ) ( )( )
D202
R111 D106
13V
IC101_7
L203
S1
P1
82k
25µs
!
-70V
D201
!
4.7k
R104
ZD101
200
82k
R110
D107
R106
17V
0V
CN201
Q101
22
D103
L105
R105
R114
F102
253
250V/ 5A
R103
220
C109
220p
0.33
-43V
IC101_5
D109
D110
2200p
T101 B1-B2
320V
180
!
1000p
!
P2 T101
0.01
C107
C106 56
D102
!
R107
1M
C104
2200p
C103
2200p
!
!
!
C105 L104
0V
-130V
TH101
L102
!
!
2
!
C1020.22
L101
R101
!
N
!
F101
C101
0.22
1
250V/ 3.15A
ZNR101
L
!
!
D104
CN101
!
D101
L202 C201
KX-FL513RU LOW VOLTAGE POWER SUPPLY BOARD (PCB5)
KX-FL513RU
KX-FL513RU
15.5. EXIT SENSOR BOARD (PCB6)
CN51
3
( )
2
GND
Z0.1u
1
NC
C51
THERM
CN52
3
POUT
4
CTL
5
PS51
2
LED
DG2
A
C
J270p
1
GND
K
E
C52
THRM1
DG2
KX-FL513RU EXIT SENSOR BOARD (PCB6)
15.6. DRUM AND TONER SENSOR
BOARD (PCB7)
CN60
Z0.1u
1
2
C60
IC60
1 OUTPUT 3
VCC
GND
2
4
3
1 +5VD
2 DRUM
3 TNREMP
SW60
4 GND
DG3
KX-FL513RU DRUM AND TONER SENSOR BOARD (PCB7)
W6N10T
J71
FG4
J72
W6N10T
ZNR71 271
FG5
KX-FL513RU VARISTOR BOARD (PCB8)
254
16 PRINTED CIRCUIT BOARD
E
Q605
RA621
RA619
RA620
RA618
Q603
R621
R624
3
CN602
1
1
IC610
J600
BAT600
CN611
5
6
R724
E E
8
1
R737
CN613
4
CN614
1
R747
5
CN610
R610 R613
Q616 Q617
C608
R611
L632
E
Q620
L648
D608
C726
C648
CN607
8
PFUP1330YA
C601
R741
D602
25 F605
RA602
5
1
16 Q613
E
RA609 +3.3V/BAT
R708
8
L643
L605
L606
L604
D606
U
F604
1
Q602
48
25
R601
RA605
L620 C731
L621 C717
R723
C728
1
S
F606
1
C666
E
Q622
1
C734
26
C668
50
RA610
L618
L619
51
C721
CN612
8
Q612
E
Q623 Q615
E E
C736
C719
R736
25
X602
E
+2.5V
C672
C738
IC608
C720
R722
R704
L642
15
Q614
IC605
F600
E
Q604 E
Q621 E
R740
L630
1
L654
75
R622
15
7
614
5 13
12
4
311
10
2
9
81
0
I
C727
C667
C694
100
76
L641
C716
E
Q609
L657 L655
L656
R768
R769
R767
REF-CH
C695
R706
R688
R707
R727
R728
28
22
R734
X603
C706
C705
L623
L624
L625
L626
TP_RTS
C724
4
R623
C690
RTS
R697
RA616
36
Q610
R763
R617
1
R696
RA615
24
TP_FCS
J601
C697
L653
21 30
IC609
7
29
8
14
C628
1
C659
R683
C708
L647
16
R755
R756
R757
R758
9
1
1
CN609
PG
RD
TP_CHKCS
TP_AMON
AUTO-CH
D604
D609
11 15 14
TP_ACS
D605
D603
R618
8 1013
12
9
RA604
RA606
1
L658
CN606
WR
144
R750
8
3 5 7
73
C696
E
0
2 4 6 17
1
IC606
+5V
E Q618
RA608
RA603
28
DG
R634
C625
R638
R733
C604
8
IC611
1
C737
R633
C624
Q619
1
CN608
E
C723
R730
R731
R735
D
F603
7
R751
R752
R753
R754
108
C701
R775
R766
R721
C714
L661
L660
255
27
TP_A13
TP_A14
TP_A15
CN600
2 R729
C689
+3.3V
RA617
TP_NMI
C704
8
R778
R777
R776
RA614
R712
R703
C673
RA600
R603
C602
RA613
IC607
RA607
C709
R715
E
54
C660
R682
28
R694
X600
R774
IC602
L602
1
16
RA612
C758
RA601
C750
L640
L615
103
C635
RA611
IC604
L613
C647
L610
L614
L612
102
X601
C617
C616
R657
C744
R655 64
R628
65
C629
R656
1
R654
C612
C613
IC600
C618
C642
C641
39
C743
R626
1
R636
C626
R749
E
C607
C733
Q607
I
16
F602
27
PCB-CH
R635
L645
R691
5
1
R630
CN604
R631
R615 R632 C627
D601
L608
C606 R609
C600
C623 R637
R625
E
R612
Q606
1
R714
R713
1
CN601
R700
4
CN603
L659
2
C715
1
9
D600
R614
L650
16.1.1. DIGITAL BOARD: COMPONENT VIEW
PbF
9
D607
+24V
KX-FL513RU
KX-FL513RU DIGITAL BOARD (PCB4) COMPONENT VIEW
R616
C609
R620
PS601
C680 C679
C661 C676
C663 C665
C678
C677
C674
L617
C664
C662
C675
L646
R668
TP_8M
R664 C646
L622
C692
C691
C634
R660
C669
DG
R659
C631
C632
C633
R764
R698
R695
1 2 3 4 5 6 7 8 9
A B C D E F G H I
R726
TP_RST
R686
R687
L609
+3.3V
C621
C622
C687
C754
L607
C757
C755
R771
R779
R773
R720
R709
L629
C643
C739
C620
R770
C742
R680
C760 C759
C756
R772
L601
L603
+24V
L631
R765
R607
R608
C722
C741 C740
R699
C685
C683
+3.3V/BAT
R690
R627
R658
C630
L649
C749
C707
R711
C654
R675
C652
R710
C702
C703
C686
TP_16M
C682
C684
C645
R665 R762
R666
R759
R663
R760
R629
C636
L611
+5V
C671
C657
C658
R681
C656
L616
L627
C700
L628
C699
C698
R701
C670
C718
R745 R746
R742 R743 R744 C729
R739
R738
R748
Q611
R718
R716
R717
C712
C752
R705
C693
PS600
R646
R640
R641
R642
R643
R644
C745
C710
C751
C681
C761
C746
C747
C748
L644 R780
L636
L635
L634
C735
R761
C753
C713
C711
R719
R650
R652
R653
C732
R645
R732
L637
C725
R649
R647
PFUP1330YA
L639
L633
L638
KX-FL513RU
PbF
C619
C615
C610
R619
R602
PG
L651
TP_CHK
+2.5V
R679 R678
C655
L652
C730
TP_XCLK
C644
C611
C614
C605
256
KX-FL513RU DIGITAL BOARD (PCB4) BOTTOM VIEW
16.1.2. DIGITAL BOARD: BOTTOM VIEW
J361
C281
J354
4
D217
J339
D209
D208
J335
J338
PC205
R311
PC204
J300
D216
J360
J324
J320
J351
J332
C265
J314
J315
J322
RLY201
T202
J344
J319
J367
C249
8
J318
J302
J313
C272
C273
J343
5
C294
J342
1
C292
J214
J374
FLT201
SW200
1
D212
D211
J341
J329
J272
J271
J347
PC202
J331
J304
CN201
J373
J337
C256
C311
2
J346
J309
J308
J307
J310
PC203
J371
C323
D213
R299
D203
D204
J366
J370
27
CN202
257
J321
J327
J312 J303
J311
28
J306
PbF
C313
J369
J333
PFUP1331YA-A
C298
J273
J334
RLY200
RLY203
J352
C278
R315
Q202 E
J206
FLT200
SA201
J286
R278
C248
R310
J364
C279
J353
J256
R262
R263
F200
ZNR200
J359
J340
J345
E Q211
J326
J350
J356
J358
C258
J301
J349 SA200
J208
C253
C222
J205
J209
J207
POS200
T201
E
CN203
C270
C218
D200
C237
J325
J328
C234
CN200
PCB-CH AUTO-CH
CN204
Q209
R271
1
D202
2
D201
16.2.1. ANALOG BOARD: COMPONENT VIEW
J317
J316
KX-FL513RU ANALOG BOARD (PCB2) COMPONENT VIEW
KX-FL513RU
R240
L226
8
5
C240
R247 R251
L232 C246
R250
C257
L247
L239
C275
C287
R289
R275
R270
C260
Q207
R260
R292
C280
R294
R266
R287
R253
C244
R248 C245
Q205
R284
C271
L248
C264
R272
R259
C250
R256
C254
8
E
4
1
E
1
L242
Q208
C295
R268
C296
R316
R303
R304
R276
R288
R280
R279
R305
J212
J211
J213
R225 L252
C304
R224
IC205
L238
C235 R239 L251
L254
C305 C247
R249
L253
C302
L233
C266 R319
R277
L206
R343
R344
C325
L250
R291
L280
R302
L279
L265
L264 L276
L229
L275 R235
L277
C228
12 345 6789
A B CD E F GH I
J K L MN O PQ R
S T UVWX Y Z 0
L228
C242 C224
C236
R318 R321
L227 R238
C243 R232
C315 C318 L214
R322
R215
R237 R200
R335 C308
R332 C317
C306
C203
R246
C204
L225
R216
R326 R206
L205 C207 R334
C216
L209 L237
C212
C299 R327
R325
C321
L202
L210
R205 C219
R317 C309
C307
R212
C230
R217
IC201 R222
L255
R231
C213
L223
IC202 L207
R214
C227
L216 R324
R331
L211 C200
R229 L217 R221
R320
C314
R210
C223 C226
L222
C202
L224 L212
L263
R230 R234
L249
C303
L218 R204
C225 R242
R202 C297 L256 R341 L259 R342
R218
L283
C233 C229 C326
L258
R201
C214
R233 L230 IC204
L274
C201
L260
L220
L257
R241
C206
R236
R329
R203 C312
R226 L221
C232
C209
C322
R244
L271
R328
R209
R207
C238 C239
L208 L270
C205
R243
C301
L268
C310
C221
L200
L213
L267
R330
C208 IC200
L266
L201
C241
2
J201
5
24VA
IC206
C231
4
1
5
4
5
8
8
1
4
5
8
Q203
1
D210
E
E
4
1
1 2
IC208
5 3
AG
J202
Q210
DG
5
2
L286
L285
L231
R312
R313
L284
2
1
R245
3
4
L240
R308 R219
C293
R314 L241
L236
C320 C277 R296
R295
L287
C286
R293
R298
R283
L261
C269 L262
L235
R340
C274
L234
R297
C268
C285
R282
IC207
R285
C324
C327
C267
C282
R281
C276
C283
R301 L278 R300 C284
4
PbF PFUP1331YA-A
E Q215
24V
2
1
6
5
2
1
6
5
E
E
Q212
E
Q214
E
Q213
AG
28
27
2
1
DG
19
8
1
3
36
4
5VD
18
1
1
5VA
258
J200
KX-FL513RU
16.2.2. ANALOG BOARD: BOTTOM VIEW
KX-FL513RU ANALOG BOARD (PCB2) BOTTOM VIEW
259
SW136
REDIAL/PAUSE H/S MUTE
S7
#
SW116
FLASH
SW109
MONITOR
SW108
HELP
C103
J122
J169
S5
S6
SW134
SW135
S11
S12
J134
J135
J136
J133
SW107
DIRECTRY
/RROGRAM
J138
SW106 J137
S9
SW113
SW105
COLLATE
RESORUTION
QUICK SCAN
C112
J157
J155
D102
S8
SW115
AUTO ANSWER
SW102
SW112
R151
S4
J156
SW103
SW128
J142
SW127
SW126
PREV
SW125
S10
J151
SW117
0
SW141
SW121
C137
J162
J161
J163
SW137
D101
D103
S3
J118
9
J125
J115
J154
SW142
8
J149
7
S2
J132
SW111
J153
SW118
SW130
J141
J113
J114
SW138
SW129
J145
SW143
J158
J140
J131
C123
SW114
J127
6
SW101
CALLER IQ
J120
CN101
J159
5
SW110
J119
10
SW122
J150
4
S1
SW123
LED102
J126
J152
SW119
1
J147
J146
SW139
J130
SW144
2
J148
C132
3
C101
2
LED101
J116
1
J143
J111
PS101
CN103
1
J168
J117
J144
SW140
1
J112
J139
SW145
CN102
8
SW120
J128
J124
J129
J123
16.3.1. OPERATION BOARD:COMPONENT VIEW
SW124
NEXT
SW133
SW132
CID-PRINT
CID-SEARCH
123456789
A BC DE F GH I
AUTO-CH
PCB-CH
SW131
COPY
STOP
SW104
PFUP1332ZA
FAX START
PbF
R101
MENU
KX-FL513RU OPERATION BOARD (PCB3) COMPONENT VIEW
KX-FL513RU
C102 R108
R111
R144
C136
R143
8
C127
C126
R136
C134
R142
C131
C138
R145 C135 R141 R140
R109
5
IC102
4
1
TH101
R139
C110
R138
R106
J167
J166 R116
C141 R104
R118 R105
R117
R110 R113
R115
R112
R114
J165
R102
SW146
R107
J164
R152
R146
R123
C106
R122
C140
R120 R121
R124
C111
R129
C139
R148
C124
C120 R150
R103
R132
C122
C105
R133
C125
R131
R135
C118
R134
C119
C107
C117
C115
R130
R128
R149
R147
R127
R137 C116
R119
C104
12
11
C128
C129
C130
C108
C121
C
B
A
123456789
A BC DE F GH I
PbF
260
J101
PFUP1332ZA
IC101
33
34
44 1
23 22
C133
KX-FL513RU
16.3.2. OPERATION BOARD:BOTTOM VIEW
KX-FL513RU OPERATION BOARD (PCB3) BOTTOM VIEW
C201
C202
R201
D202
C203
D203
R204
R209
CHG
Q202
R207
R124
D204
D104
R119
261
C204
D105
R213
ZD202
R214
D205
C112
C205
R210
C207
OPC
ZD201
R127
D109
R105
C106
R112
R113
R125
C109
C106
R120
Q101
C209
T201
R212
D201
C111
R123
R208
DEV
R121
R211
R205
Q102
EUKMBN889H
R206
R102
R203
Q201
R111
R108
R101
R116
IC101
C102
R104
CN2
24V
GND
CHG
DEV
TRS
TOP
CVR
R106
R109
1
R107
C103
R110
R115
C104
R202
R118
R117
R114
16.4.1. HIGH VOLTAGE POWER SUPPLY BOARD:COMPONENT VIEW
PbF
D107
TRS
Q103
T101
C101
C108
C110
R103
D101
R126
IP101
SW101
KX-FL513RU HIGH VOLTAGE POWER SUPPLY BOARD (PCB4) COMPONENT VIEW
KX-FL513RU
R211
EUKMBN889H
C203
R213
JA7
Q201 E
D201
NPKN889
PbF
R107
C103
R120
JC10
CHG JC9
JC7
R104
CN2
R108
C205
ZD201
R102
JC2
R210
E
JA6
R121
JA5
JA4
R204
C111
R207
OPC
DEV
JC8
JA8
D203
R212
C207
C209
R209
ZD202
JC6
JC5
R205
Q202
R206
R208
D205
R214
R127
JC1
JA10
C102
262
C112
D109
T201
JA9
C104
R109
1
KX-FL513RU HIGH VOLTAGE POWER SUPPLY BOARD (PCB4) BOTTOM VIEW
D105
D204
TRS
R123
D104
R119
JA2
D107
JA3
T101
JC4
Q103 E
JC3
C101
C110
JA1
SW101
KX-FL513RU
IP101
N38
16.4.2. HIGH VOLTAGE POWER SUPPLY BOARD:BOTTOM VIEW
R101
R207
C212
E
PC101
C111
C104
C103
C102
D107
D104
TH101
C112
L102
JA1
R118
N
230V
CN101
KX-FL513RU
KX-FL513RU LOW VOLTAGE POWER SUPPLY BOARD (PCB5) COMPONENT VIEW
T3.15AH 250V
HEATER
T5AH 250V
F102
SCR101
G
D110
CN102
S
R120
C115
C207
C203
R213
ETXKM450E5B
NPX450E5-1A
F101
R105
Q101
AGAINST RISK OF FIRE, REPLACE
ONLY WITH SAME TYPE AND RATING
OF FUSES."
C109
L105
R103
D109
R104
"CAUTION-FOR CONTINUED PROTECTION
D101
D103
R102
R112
ZD101
D102
JC1
C107
D105
R113
D202
L104
D108
R106
IC101
C110
R110
T101
R107
R111
JD2
JD1
C204
D203
R203
PC102
ZNR101
E
D106
IC201
R114
ZD102
R202
L204
C105
L101
R204
R122
PC103
C114
D201
C201 C208
CN201
R201
R115
R117
R116
C113
R215
R206
L203 1
C206
R214
JE1
R205
ZD201
L202
JB1
Q201 E
R212
R209
JB2
263
R208
16.5.1. LOW VOLTAGE POWER SUPPLY BOARD:COMPONENT VIEW
R121
R119
C116
C106
L103
C202
L 1
C101
PbF
KX-FL513RU
16.5.2. LOW VOLTAGE POWER SUPPLY BOARD:BOTTOM VIEW
PbF
F101
T3.15AH 250V
JE1
R106
L102
D107
CN102
D104
D101
D103
D102
1
C106
R102
L103
C109
D109
D105
F102
G
TH101
S
Q101
ZD101
D108
C105
C115
R120
SCR101
T10AH 250V
R105
R112
R113
R118
R117
E
R204
PC103
T101
IC201
R201
C207
R214
C203
R213
L104
R203
PC102
E
PC101
C204
JD2
D202
R103
C206
D203
D110
C107
JD1
L204
R119
JC1
R110
R111
D106
ZD102
R114
R202
C202
L203
C116
C110
C111
C112
IC101
C208
JB2
R121
JA1
ZD201
CN101
R107
R122
C113
R116
R115
C114
R206
N
C212
E
1L
C104
L101
ZNR101
C101
C102
R101
C103
Q201
R212
R209
R208
PDWN
HTRCTL
5V
DG
PG
PG
24V
24V
264
KX-FL513RU LOW VOLTAGE POWER SUPPLY BOARD (PCB5) BOTTOM VIEW
R207
R205
L202
JB1
C201
D201
CN201
16.6. EXIT SENSOR BOARD PARTS (PCB6)
CN52
5
PCB-CH
AUTO-CH
12 345 6789
ABCDE FGH I
PFUP1331ZB-B
PbF
C51
PFUP1331ZB-B
PbF
3
1
1
C52
PS51
CN51
PFUP1331ZB-B (PFUP1331YA-B)
KX-FL513RU EXIT SENSOR BOARD (PCB6)
PCB-CH
AUTO-CH
PFUP1331ZB-C
PbF
PFUP1331ZB-C
PbF
12 345 6789
ABCDE FGH I
IC60
C60
265
SW60
1
4
CN60
PFUP1331ZB-C (PFUP1331YA-C)
KX-FL513RU DRUM AND TONER SENSOR BOARD (PCB7)
PFUP1331ZB-D
PbF
J71
J72
PFUP1331ZB-D
PbF
PCB-CH
ZNR71
12 345 6789
ABCDE FGH I
PFUP1331ZB-D (PFUP1331YA-D)
KX-FL513RU VARISTOR BOARD (PCB8)
KX-FL513RU
KX-FL513RU
266
HI(Q)
KXFL513RU

KX-FL513RU

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