Field Training Guide

Transcription

Field Training Guide
AVIC-N1 In-Dash DVD Navigation and Entertainment Unit
Technical Training Department
1925 East Dominguez Street
Long Beach, CA 90810
Table Of Contents
Product Overview……..………5~19
System Connections……..……20~22
View Modes……………..……23~31
Differences 03 to 04……..…....32~43
Tele Atlas Data………………..44~50
Basic Navigation System……...51~53
Basic GPS System……………..54~67
GPS Receiver Boards…….…….68
Sensors………………………...69~82
Sensor Error Messages………...83
Block Diagrams…………..…..84~101
Rear Connector Description….102~103
Jig Connections…………….…105
Disassembly…………………..106~113
Test Mode…………………….114~137
Test Disc Use…………………138~150
Door Operation……………….151~154
Blank Page
Product Overview
!
Product Outline
!
Feature list
!
Connecting the System
5.
Product Outline
AVIC-N1/UC: DVD Multimedia AV Navigation Server
!
6.5 inch Motorized in-dash display touch screen
!
Navigation and Audio/Video play with 1 drive
!
Single DVD player (MS3)
!
Multi-task Three Zone by single product
6.
Product Outline
Display and DVD
Features:
•6.5 Wide-Screen touch panel LCD Color Screen
•Touch Panel Operation, 10 digit sub-display
•Multi media DVD mech. :MS3 mech.
(CD-DA, DVD-V, DVD-ROM, MP3)
•Detachable Face
7.
Product Outline
Hide-away Unit
Features:
•FM/AM Tuner (X-2014)
•GPS Receiver (Dragon) , Gyro Sensor, G Sensor
•RCA composite 1 input and 1 output line (V/L/R)
•Rear View camera input
•Rear View camera sense (L/H sense)
8.
Technology & Features
!
!
Memory Navi Mode
"
Navi and Audio/Video play simultaneously w/1 drive
"
After Route calculation, the system downloads Route & Map
Information into memory (embedded 64M RAM) automatically
Multi-task Three Zone by Single Product
"
!
When the front screen shows Navigation Map & Guidance, you can
listen to radio, while rear passenger enjoys a DVD Movie
Vehicle Dynamics (Vehicle Performance Computer)
"
"
"
8 different Special Analog & Digital Gauges on Screen
Speed/ Acceleration /Side Acceleration/Angular Velocity/Slope
/Direction/Clock/Voltage
The Accuracy is supported by Speed Pulse, G-Force Sensor, Gyro
sensor,GPS
9.
!
!
!
Rear View / Map Split screen
"
With Optional Rear View Camera system, the screen can show
Rear Camera View & Navi map simultaneously.
"
When the transmission is in reverse, Rear View is shown in full
screen mode.
AV PC-LINK by CD-R
"
No special program required. Just burn favorite JPEG pictures
onto CD-R and personalize the screen
"
New Pre-installed images are also available on the Map Disc
Detail Metro Mapping Database
"
5 cities (UC) / 10 cities (EW)
10.
AV PC-LINK
!
Background Picture and Registered point can be downloaded from CD-R.
Memory NAVI
Download to
embedded memory
CD-R
Pre-installed BG Picture
NAVI Disc
J-PEG
Digital Camera
Ripping MP3
Music CD
11.
•Animation background pictures
–GDC graphics for both Navi & AV mode
•Auto MP3 file Listing
–File list is automatically displayed
–“Up-key” to show Holder list / “Detail-icon” to display recording data
•Auto CD Track Listing
–CD track list automatically shows up like Tuner P-CH
–It works with commercially available CD text disc or home-made CD-R’s
with titles
•Navigation guide voice channel selection
– Choice among L, R or L+R
•Disc lock mode (dealer benefit for anti-theft)
–Memorized in the flash memory
•Wired remote control ready
12.
New Technology & Features
!
!
!
!
New IPC compiled Nationwide Database
"
2 DVD Discs for UC. 1 DVD disc for EW
"
Better Mapping Accuracy
"
Better Coverage for Full Attributed Roads Include Hawaii
Huge Geographic Coverage Expansion for Route Calculation
"
Twice as much as AVIC-80DVD
"
Not only Full Attributed Roads but Basic Attributed roads can be
used for route calculation with some limitation
12 Million Full Info-USA POI Database
"
The database can be used for POI Name Search / New detailed
POI Category Search/ Phone # Search (UC)
"
12 million POI data (UC) / 1.2 million POI data (EW)
Brand Icon POIs
"
Gas Stations such as Amoco, Chevron etc
13.
3 pre-outs
! 6.5 inch Motorized In-dash Touch Screen
! MOSFET 50W x 4
! FM/AM digital tuner (in the Hide-away box)
! 10-digit sub display with Auto Scroll (XM only)
! Detachable face panel
! Virtual GUI
! Direct Source Selection by Touch
! 3 Band Parametric EQ
! (UC only) Optional Multi-CH Processor Ready (Optional OEL
Controller+New Processor)
!
14.
Improvement
•10mm Off-set installation ready (AD-GA10)
•Next Character Search for Telephone # Search
•New Zoom up Graphic for Freeway junction
•Color of next street name will be all green in all View
Mode
•Highlighted Route drawing over the road
15.
Strategically deleted features
!
No Remote included
"
"
"
All Functions can be controlled by “Touch” and “Unit Hard Key”
With purchasing Voice Recognition Pack, you will get Steering Remote
which can control Basic Audio/Video Control Function.
Less layers in the setting Menu
!
No Video CD playback (incl. S-VCD)
!
No Mic in the unit
"
Voice recognition is option (Mic & SR option)
!
No title input for CD (Built-in MS3/Multi CD)
!
No high volt pre-out
!
No detach warning
"
No beep tone when the detach face is left attached
16.
Hardware Specification
Display
6.5 inch Motorized In-dash
AG Touch Screen
! Fully Motorized
Mechanism with Display
Angle Adjustment
! Automatic Display
Positioning
! Intelligent dimmer control
! Picture adjustment
! Independent Rear View
Camera input & Split
Screen IC
!
10-digit sub display with
Auto Scroll
! New Enhanced Color GUI
& Motion BG Picture
! CD-R BG Download
!
!
Direct Source Selection by
Touch
DVD Receiver
•DVD-V/DVDR/RW/ROM/CD/CDR/RW/MP3 Player
•MOSFET 50W x 4
•IP-BUS & AV-BUS
•3 pre-outs
•Composite AV Input
•Composite AV Out for
tri-zone function
NAVI & Computer
•RISC CPU for NAVI &
Gauge function
• Exclusive 32bit Positioning
CPU
• 64M SDRAM
• Flash Memory
• Graphic Processor
• 3D Hybrid Sensor
• Voice Control Interface
(Optional Mic)
•FM/AM digital tuner (in
the Hide-away box)
• GPS Receiver & Antenna
•Detachable face panel • New 12Mil POI Data
•3 Band Parametric EQ • Wide Coverage Mapping
Database (including Hawaii)
17.
Option Accessories
Model #
Description
CD-VC1
VOICE COMMAND PACK
CD-RV1
REAR SEAT REMOTE CONTROL
CD-SC300E
TRUNK / BOOT MOUNT EXTENSION CABLE
CD-TS37GP(UC only)
Navigation guide speaker
18.
Installation
Gyro & Gsensors are
INSIDE
Car front
+30
- 30
Set the box with 0 or 180 degrees to the
car driving direction
Ideally horizontal setting within +/30 degrees
Trunk installation
CD-SC300E
Standard
30mm
30-pin cable
3m
3m
FM /AM antenna
140.2
180
19.
Connecting the System (AVIC-N1/UC)
Connect
Connect to
to
DEQ-Product.
DEQ-Product.
EW:
EW: future
future use
use
EW:
EW: future
future use
use
20.
This terminal will turn
This
terminal
will turn
off
when
ACC turns
off when ACC turns
OFF.
OFF.
Do not use this line as
not use
this line as
a Do
power
supply.
a power supply.
This terminal will turn off when
Thisturns
terminal
off when
ACC
OFFwill
or turn
Detach
panel
turns (It
OFF
Detach
panel
isACC
removed.
willornot
turn off
is
removed.
(It
will
not
turn
off
when source turns off)
when source turns off)
21.
Yellow/black
Yellow/black
(GUIDE
(GUIDE ON)
ON)
Pioneer
Pioneer audio
audio unit
unit
is
is automatically
automatically
muted
muted to
to reduce
reduce the
the
volume.
volume.
Pink
Pink (CAR
(CAR SPEED
SPEED SIGNAL
SIGNAL INPUT)
INPUT)
Always
connect
the
vehicle’s
Always connect the vehicle’s speed
speed
detection
detection
circuit
circuit with
with the
the ND-PG1
ND-PG1 speed
speed pulse
pulse
generator,
generator, sold
sold separately.
separately.
Light
Light green
green
Used
Used to
to detect
detect the
the
ON/OFF
ON/OFF status
status of
of
the
the parking
parking brake.
brake.
Violet/white
Violet/white
(REVERSEGEAR
(REVERSEGEAR SIGNAL
SIGNAL INPUT)
INPUT)
22.
New View Modes
•
AV Status
- AV information is displayed in simple format. Maneuvering
is provided by an arrow.
•
Vehicle Dynamics
- The Speed sensor processes the vehicle speed, and accelerated
velocity is displayed.
•
Rear View
- The rear camera image can be seen when vehicle is
traveling.
23.
New View Mode
AV Status
24.
New View Mode
Vehicle Dynamics
• The meters value
on left and right can
be changed to the
value of the list
below.
- Voltage
- Acceleration
- Side Acceleration
- Angular Velocity
- Slope
- Direction
- Clock
Setting Screen
• Expanded
intersection view can
not be displayed.
25.
New View Mode
Rear View
26.
City Map
• 25m, 50m scale is used.
• No configuration of ON/OFF
27.
City Map
Cities including City Map Data
[EW]
- Antwerpen (Antwerp)
- Brussel / Bruxelles
(Brussels
- Amsterdam (Amsterdam)
- Rotterdam (Rotterdam)
- Berlin (Berlin)
- Dusseldorf (Dusseldorf)
- Frankfurt (Frankfurt)
- Koln (Cologne)
- Munchen (Munich)
- Paris (Paris)
[UC]
- Los Angels
- Chicago
- Detroit
- Washington DC
- San Francisco
28.
Configuration of Map Disc
Two discs (East and West) are used for UC
Model (AVIC-N1)
Data storage
border line on a
map of 200m scale
for East disc
Data storage
border line for West
disc
Difference between east
and west discs
• In a map mode of 200m or less
scale, the data area stored in
each disc is different.
• Some overlap of data in large
scale map modes between
discs, but the proper disc will
be needed for details and
accurate search data.
Main area for West Disc Main area for East disc
29.
Separate Discs
Limitations
Search
- Address Search
• Possible only in stored zone
- POI Search
• City Center Search is possible in all
zones of UC
• Other categories search are only
possible in zones stored in each disc
- Vicinity Search
!
Zone stored in West Disc
City Center Search is possible in all
areas in UC. Other category is possible
in main area
- Freeway Search
• Possible in all zones
- Telephone Search
• Only possible in stored zones
Zone stored in East Disc
30.
Separate Discs
Route Calculation
Limitation
!
!
Route calculation is possible in entire USA.
When searching route in non-main area, road
data is not available. Only available data is link
data (non-residential road data).
31.
Differences between 03 model
and 04 model
Difference from 03 Model
•
•
•
•
•
•
•
•
•
•
•
Route coloring
Display of Urban Map
Cancel button location
Screen of Hardware Caution
Adjustment of Beep volume
Option of voice recognition
Interruption in AV display state.
Changing Background image using CD-R
Addition of Speed Class
Next Character Search(UC only)for Phone number Sort function
of TMC List (EW only)
Short Cut Button Icon
33.
Route Coloring
•
•
•
•
Route coloring is changed to overwrite
The width of route coloring is narrowed and framed
The scale of expanded map is changed to 25m scale
Route coloring of the expanded map is changed
03 model
04 model
34.
Urban Area
Urban Area is shown in different colors
35.
“Cancel Route” Button
Location
Located on Main Menu
36.
Hardware Caution
Hardware caution message is displayed
on Connection display status
03 model
04 model
37.
Adjustment of BEEP Volume
Beep Volume ranges from Mute (0), 3dB(1) to –12dB(4) based on Guidance
Volume.
38.
Voice Recognition Microphone
Option
PL Caution Screen when microphone is connected
PL Caution Screen when microphone is not connected
Map Display when microphone is connected
Map Display when microphone is not connected
39.
Function using CD-R
• Background image can be changed to user’s
original image by reading it from CD-R
instead of PC card
• Address Book data can be read from CD-R
40.
Addition of Speed Class
Ordinary road is classified to Major
road and Minor road and allows speed
setting for both classes.
41.
Phone Number Search
Next Character Search (UC only)
Assure input of phone number stored in data
base
42.
Icon representation of Short
Cut Button
Display touch area is expanded
43.
Modification based
on Tele Atlas data
Modification based on TA data
- Road data
- BA area
- Database to be searched
45.
Road Data
04 model
03 model
• Road data is added on 04 model
• Two carriages representation of roads with
central island
46.
Relation of road color and display
class
Display Class
Color
Road Type
Ferry
Ferry, Car Train
Non-navi
Very low, Private, Insite
Walkway
Walkway
Private
Private
Non-routable
Public, Non-route
Insite
Insite
Residential
Carpool
Local
Local, Carpool
Throughway
Throughway, Carpool
Highway
Freeway, Highway, Carpool
Freeway
Freeway, Highway, Carpool
47.
BA Area (UC only)
FA area
Traffic restriction is available in this area .
53.4% (USA) and 38.0% (Canada) of
population coverage area belong to FA area.
BA area
Traffic restriction is NOT available in this area
except highway.
46.6% (USA) and 62.0% (Canada) of
population coverage area belong to BA area.
48.
BA Area (UC only)
• Roads and routes are colored in purple
• Setting destination in BA area is possible
• Maneuver is not provided in BA area except
for arriving guidance
---
“You have arrived at
your destination/way
point.”
“Unfortunately,
guidance can not be
provided in this area.”
Example
49.
Search Data Base
• North American disc will include around
12million POI (Info USA/Canada and TANA
original contents)
• European disc will include 1,158,372 POI in
whole of Europe
• POI category will be changed
• Logo(s) will be used
50.
Basic Navigation System
- GPS & GYRO ME Technical Support
PIONEER SERVICE NETWORK
The Main Features of Navigation
Positioning
– Absolute Position
• GPS (Global Positioning System)
– Related Position
• Gyro Sensor
• Speed Pulse
– Map Data (Map Matching)
52.
The Structure of Navigation
Positioning
Sensor
GPS Gyro
Speed
Pulse
Matching
Map Data
From DVD
Combine
three data
53.
GPS
(Global Positioning System)
What is GPS?
(Copyright Trimble Navigation)
The GPS system was setup by The
U.S. Department of Defense
– In receiving the GPS satellite data, User’s
can determine three-dimensional
positioning (latitude, longitude, altitude),
velocity ,direction and GPS time.
55.
GPS Satellite Information
• 24 satellites in 6 orbital Planes.
• 4 satellites in each plane.
• 12,000 mile altitude, 55 degree
Inclination.
• 7,000 miles per hour.
• All satellites clocks are
synchronized.
• Orbit the earth in 12 hours
• Solar powered with battery
backup.
• Built to last about 10 years.
• Weight around 2,000 pounds
and 17 feet across.
• Transmitter power 50 watts or
less.
Copyright Japan Association of Surveyors
56.
GPS satellite control
Upload the correction
Data
Data from satellite
Data from satellite
• The master control facility is located at
Schriever Air Force Base in Colorado
• There are 4 monitor stations at Hawaii,
Ascension Island (the South Atlantic Ocean),
Diego Garcia (the Indian Ocean) and
Kwajalein(the South Pacific Ocean).
57.
GPS signal
• GPS satellites transmit two microwave
carrier signals.
BAND
L1
Carrier Frequency
1575.42 MHz
Use
General Public
L2
1227.60 MHz
Military
Navigation Message data:
50bps
(Copyright Trimble Navigation)
58.
GPS signal
• C/A code (Coarse Acquisition)
– The C/A code is a repeating 1MHz Pseudo Random Noise
(PRN) Code.
– This noise-like code modulates the L1 carrier signal,
"spreading" the spectrum over a 1 MHz bandwidth.
– There is a different C/A code PRN for each Satellite.
– The C/A code repeats every 1023 bits (one millisecond).
• P code (Precise), Y Code
– The P-Code is a very long (seven days) 10 MHz PRN code.
59.
GPS signal
Power
GPS satellite
Band Width 2MHz
Frequency Band Width 100Hz
1.575.42MH
z Carrier
Message Data
C/A code
50bps
1.023Mbps
Transmit antenna
Frequency
Receive antenna
GPS receiver
C/A code
Local Frequency
1.023Mbps
Carrier
Frequency
Message Data
50bps
60.
The theory of global positioning
Figuring out the user’s
position from a formula by
measuring the distance from
the several known criterion
points to an user’s point.
Criterion point1
Criterion point2
Distance2
In the case of two
dimensions, user’s position
would be the intersection
point of the circle consisting
of the radius from the
measured distance.
Distance1
Requiring point
61.
GPS signal
The clock of each satellite
is synchronized, however,
the receiver is not.
For this reason, the error
is calculated by the time
deviation of the distance
of satellite, and it’s called
Pseudo Distance
Satellite1
Satellite2
S
Requiring position
Satellite3
Pseudo
Distance2
As S, the unknown
numbers are increasing, it
needs to receive 4 satellite
signals in order to have 3D
positioning.
Pseudo
Distance1
Pseudo
Distance3
S
S,distance error by
time deviation of
receiver.
62.
GPS signal
Satellite 1
(x1,y1,z1)
Pseudo
Distance1 r1
S,distance error by
time deviation of
receiver.
Requiring position
(x,y,z)
r1+ S = (x1-x)2+(y1-y)2+(z1-z)2
63.
GPS signal (Formulas for 3D positioning)
r1 =
(x1-x)2+(y1-y)2+(z1-z)2 -S
r2 =
(x2-x)2+(y2-y)2+(z2-z)2 -S
r3 =
(x3-x)2+(y3-y)2+(z3-z)2 -S
r4 =
(x4-x)2+(y4-y)2+(z4-z)2 -S
ri :Pseudo distance
xi, yi, zi :Satellite position
x, y, z : Receiver position
(i=1,2,3,4)
S=TC; time deviation of the
receiver described by the
distance.
T; time deviation
C; speed-of-light
64.
GPS signal (Positioning system)
*When only 3 satellites are received,
It has the assumption that altitude would not be
changing. (2D positioning)
*When Only 2 satellites are received,
It has an assumption that altitude and time
deviation of the receiver would not be changed.
(few satellites positioning)
*When over 4 satellites are received,
It could decrease the error of positioning using all
satellites (multi satellites positioning)
65.
Navigation message
Main frame 30 sec. 1500bit (50bps)
Sub frame 6 sec. 300bit
Sub Frame 1
Sub Frame 2
Sub frame 3
Sub frame 4
Time
information
Specific orbit
information of
the satellite
(ephemeris)
Sub frame 5
Rough orbit information of all
satellites (almanac)
Compensated ionosphere data
Condition of satellite
It needs 12.5 minutes to
receive all signals.
66.
Multi path
This means that the GPS satellite signal
reaches to the receiver through a
second path, like reflecting off the
wall of a building. This will cause
positioning errors.
Before Multi path measure
After Multi path measure
67.
GPS receiver
First generation
Second generation
Third generation
68.
Sensors
Sensor
Sensors calculate relative position
Gyro Sensor
Angle variation (relative
direction) compute
G Sensor
Angle of gradient compute
Speed Pulse
Vehicle speed, moving
distance compute
Back Sensor
Forward/Backward judgment
70.
GYRO sensor
When an object moving in constant speed turns,
the Coriolis acceleration is generated to vertical
direction against its moving direction.
The angular rate (omega) is figured out by
observing the value.
Metallic diapason
Vibration Direction
Detection direction
Control Circuit
Signal detection
Vibration Direction
Detection direction
Diapason drive
Gyro Sensor
71.
GYRO sensor
[Voltage]
Relative
Relative direction
direction variation
variation
Output
Output Voltage
Voltage
Center
Center Voltage
Voltage
Angular
Angular rate
rate
Time
Calculation method (GYRO sensor)
Angle variation = (Output voltage – Center Voltage)* Sensitivity
*Center Voltage and sensitivity of Gyro sensor are affected by
Individual specificity, installment angle or temperature characteristic.
72.
Speed pulse
Signal generated by drive shaft speed sensor
4 Magnets : Toyota,Honda, etc
2 Magnets : Nissan
JIS (Japanese Industrial Standards)
637turns/1km
637rpm on 60km/h driving
Magnets
Drive shaft of speed sensor
4 Magnets (4 Pulse Car) : 39.25 cm/pulse
2 Magnets (2 Pulse Car) : 78.50 cm/pulse
73.
GPS signal + Pulse signal
N; Pulse number between A and B
A (GPS position)
D; Distance between A and B
Case 1
D
N
B (GPS position)
= Distance per 1 pulse
Case 2
74.
G-(gravity) sensor
Fixed electrode spacer variable electrode spacer
Fixed electrode
Sensor
C-V converter
Differential
amplifier
Amp
C-V converter
75.
G-sensor
Basic concept
Note
Agsns
G sin theta
Asp
G
theta
Calculation of
acceleration
Calculation of tilt
angle
Asp
Vsp
Speed of speed pulse
Asp
Speed pulse acceleration [m/s2]
Agsns
G sensor acceleration [m/s2]
G
G-forces [m/s2]
Theta
Tilt angle [deg]
G sin theta
Affection of G-forces
= Vsp last 1sec – current Vsp
Agsns = Asp + G・sin theta
Thus, theta = sin-1｛（Agsns - Asp） / G｝
76.
Thermo sensor
Current matter
Gyro sensors and G-sensors have temperature output
change characteristics, and
the accuracy is affected by the temperature in the car.
Temperature sensor
By measuring the temperature inside the sensor,
we can improve the direction accuracy, angler accuracy
and temperature characteristics
77.
3D Hybrid sensor
0.9inch
1st generation
2nd
Gyro Sensor
3rd
1st generation
3rd
G-sensor
78.
Real hybrid
General Hybrid
GPS
Sensor
Real Hybrid
GPS
Sensor
Positioning accuracy chip
Hybrid process
GPS and sensors calculate the
position independently of each
other. And the result is called the
(Hybrid Process).
Hybrid process
GPS and sensors calculate the position with
help from information stored in a
(Positioning Accuracy Chip) so each
calculated result becomes highly accurate.
79.
Real hybrid
GPS Altitude Correction by angle meter
Basic altitude at 2D positioning is corrected with Gsensor.
Sensor feedback to GPS positioning
GPS positioning filter is used to correct the multi
path error of GPS positioning from the
sensor’s data.
80.
Real hybrid GPS altitude correction>
With altitude correction
(G-sensor)
Without altitude correction
81.
Real hybrid <isolation sensor feedback>
With feedback　Without feedback
82.
Error Message list using the map view mode
MessageType
with OK button
with OK button
with OK button
Message
Gyro Sensor is not working properly. Please consult your dealer or Pioneer service center.
Direction of G sensor is not correct. Please turn system power off and check the installation.
After checking, please re-boot the system and press "OK.
Vibration is detected. Please turn system power off and check the installation.
After checking, please re-boot the system and press "OK".
Error message list in the Connection Status
MessageType
with OK button
with OK button
with OK button
with OK button
TimeOut
TimeOut
TimeOut
Message
Irregular speed pulse signal is detected. Please turn system power off and check the installation.
After checking, please re-boot the system and press "OK"
Sensor NG (BAD angle)
Sensor NG (Vibration)
Speed pulse wire is not connected. Please be sure to connect the system to the speed pulse wire.
Accuracy is not fully ensured without speed pulse.
Hardware is abnormal. Positioning is not possible. Please contact your dealer or Pioneer service center.
GPS Antenna not connected. Please check connection.
GPS Antenna abnormal. Please contact your dealer or Pioneer service center.
Error message which is not displayed in the 04 model. (displayed 03 model)
MessageType
TimeOut
TimeOut
Message
Speed pulse wire is not connected. Please be sure to connect the system to the speed pulse wire.
Accuracy is not fully ensured without speed pulse.
Detected change in tire radius.
All message are displayed on the Map view. (03 model)
Only 1 message is displayed. Multiple messages are not displayed in the same time.
83.
Block Diagrams
Basic Overall Block
Block Diagram for Navigation
Power connector
Main Assy
DIGITALOUT
Power Sense
DVD
Drive
Mech
UART
Power Micom
IC601
SRAM
256KB
Monitor
Micom
IC4601
2 Sub display
Detachable
Unit
KEY EJECT
Remote controller
Remote
Controller
Micom
IC4701
4
Key Input
FLASH
16MB
ASIC
UART
Motor Drive
UART
SDRAM
64MB
IC5
Monitor
MIC
9
V833
ATAPI
ASEN, BSEN, ILMSEN
RESET, PARKING,
IC
IC4001
Sub
Display
Touch
Panel
LCD
Panel
Display
Split IC
ADC
VFSEL
RGB
COMP
VRSEL
DAC
Guide Amp
Guide Voice
Output
RGB
IC201
IC753
L/R
Selector
Switch
V
selector
RGB　DRV
&
NTSC
GDC
SCARLET
IC751
V
selector
Fr L,R
E Vol
DARC
MIX
Re_L,R
Pre-output terminal
VST,VDT,
VCK,
MUTEVOL
MUTEAMP
REVERSE
Main<-HA
via UART
GPS Unit
System Micom
IC1603
IC501
DRAGON
GYRO Sensor
Vehicle Speakers
SW_L,R
BSENS、RESET
ASENBO
UART
RQ
CTOGPS
GPSTOC
IC756
POWER
Amp
ASENBO
(HA)
ADC
G-Sensor
PSWOUT
2
SPEED
Back Sense
Input
AM/FM
Tuner
X-2014
Hide Away
Unit
IC
12
Speed Pulse Input
Form Converter
AV Selecor CXA2069Q IC1501
14dB Amp
RX,TX
REVERSE
2
Fan
FANCONT
BUP
IP-BUS
VTR1
REAR VIEW
CAMERA
REAR
OUT
AV-BUS
85.
AVIC-N1 Basic Overall Block
Four main assemblies are utilized in the AVIC-N1 (the DVD drive mechanism, main assembly, monitor assembly and the hide
away unit).
DVD Drive
The DVD drive mechanism can playback CD’s, MP3’s, DVD movies and DVD ROM map discs produced by Tele Atlas of
North America for Pioneer. The drive receives instructions and communicates with IC5 on the main assembly by ATIPI
control and UART data transmission. This drive also has DVD video and audio decoders built in, and outputs decoded analog
video and audio to the main assembly. It also outputs digital audio to the main unit and a connector on the back can be used to
hookup an external processor. The navigation DVD ROM map disc data from the drive enters IC5 on the main assembly for
processing and comparison with the GPS data from the hide away unit.
Main Assembly
IC5 on main assembly controls the DVD drive and receives map data from the disc and GPS information from the hide away
unit. This IC upon power up will read boot information from 2 flash ROM’s as well as user saved information from the
SDRAM ‘s. Two of the SDRAM’s (IC1 & IC3) are used to store map destination information so the customer can remove the
map disc and play a DVD or CD. IC5 also decodes the guidance voice and processes the microphone command input. Map and
GPS processed data outputs IC5 and enters IC201 (Scarlet) where the map data is converted to RGB and sync signals. IC201
also generates on screen display data. The map data next enters IC751 a RGB driver and NTSC encoder. The NTSC output
from IC751 enters one side of IC756 a video selector switch and on the other input to the switch will be your DVD video signal.
IC756 selects the image to be displayed on the rear monitor (navigation or DVD). The other video selector switch IC753 selects
the image for the front monitor (DVD, rear camera or video input). The RGB navigation display signals from IC751 always go
to the front display assembly for full screen or split screen viewing. The main assembly also contains the main micro IC601
and this IC that controls the motor drives, select lines, power supply control, key control and communicates with all other
microprocessor IC’s in other sections.
86.
AVIC-N1 Basic Overall Block
Monitor Assembly
The monitor assembly contains the LCD display panel, touch screen, monitor microprocessor and a display split IC (IC4001)
that can split the screen information and display the rear camera and navigation at the same time or display map data and
upcoming turn data at the same time. The touch screen panel can be position adjusted in service mode.
Hide-away Unit
Inside the hide-away unit you will find the GPS receiver module that will calculate present position from satellite data, gyro
sensor, g-sensor and the vehicle speed pulse generator. The calculated data from the GPS module will be sent out to the main
assembly and into IC5 for map position matching. A backup or reverse gear input when connected will activate and switch the
rear camera video signal on and send it to the front monitor through IC1501. Reverse gear input polarity can be set for
positive or negative on the menu screen. The AM/FM tuner pack is also located in the hide-away unit and like all other inputs
and outputs the audio signal passes through IC1501 the AV selector switch. IC1501 controls all video and audio inputs and the
rear monitor output selection. One single microprocessor IC1603 controls the AM/FM tuner, AV selector IC, reverse gear
switch, fan control and communications between the main assembly and hide-away unit.
87.
04 AV NAVIGATION AUDIO Block Diagram
ASIC
LPF AMP
ADC
AMP
Microphone
input
HPF
30.9ｄB（1KHz）
External MIC
ATT
ONSEIMICO
Voice Recog.
f=8.8KHz
f=106Hz
(2nd floor PCB)
13dB
SP　AMP
SP+
SP－
VC
TD7052BT
Guidance
Voice
L+R or
L only R only SW
ONSEIMUT
DAC
LPF f=10.5kHz
DACOUTL
Guide Voice
AV Selector
CXA2069-Q
(7 of inputs /3 of outputs)
14dB AMP
DORAR
DORAL
FM/AM Tuner
Isolater
TA2050F
R
ｏｒ
Hide-Away
Unit
ROUT1
LOUT1
VTR1 Input
Isolater
TA2050F
EF
（PML009A)
FRONT
Isolater
Gain ADJ.
MUTE
System Micom
PE5411A
Power Micom
PD5397
1
SWACPW 1/2
RESETM
SW L
SW R
2
2
FR－
RR＋
RL
RR
RR－
ＡＭＰＳＴＢ
MUTE
MUTE
RL＋
RR－
RESET M
(2nd floor PCB)
MUTESO
SWL/SWR
AMPSTB
RL/RR
MUTEAMP
MUTERCA
51MUTE
Isolater
TA2050F
REAR　OUT
PAL007 A
FL－
FR＋
AMPSTB
CD
Changer
MUTEVOL
POWER AMP
FR
R
NOSELL
NOSELR
HMUTEA
I2C
FL
L
0.1ｄB～20.1ｄB
Bufffer
NMR
NML
(Vehicle SP)
FL＋
E-VOL
REAR L
R
IPR
IPL
MIX AMP
Navi Voice　：0ｄB
MUTESO
VTR1R
VTR1L
XM
Tuner
Bufffer
TC7W66FU
MUTENS
ROUT2
LOUT2
IP-BUS
Bufffer
L
EF
REAR R
REAR L
LPF (Reverse)
MS3
MMUTE
CD or DVD
input from
MS3 Mech
FL/FR
Bufffer
(Reverse)
f=48.15kHz
In this example the microphone input is
green, the guidance voice signal output
in red and the CD or DVD output in
yellow.
88.
DVD Video
From Drive
04 AV NAVIGATION VIDEO Block Diagram
MS3
1MOhms
AV Selector
CXA2069-Q
(7 of inputs /3 of outputs)
REAR VIEW
CAMERA IN
75Ohms
VTR1 INPUT
75Ohms
AV-BUS
75Ohms
NJM2235V
Level Adjust
(2V->1V)
Isolater VTR2V
NJM2137V
Isolater VTR1V
NJM2137V
ATT
2V→１V
AVV
Isolater
NJM2137V
NMV
I2C
NJM2561F1
NJM2561F1
HSELV
6dB AM 75OhmsDRV
EF
75Ohms
NJM2561F1
Level ADJ Circuit
（1V→0.75V
6dB AM75ΩDRV 75Ohms
Isolater
NJM2137V
75Ohms
1MOhms
(3 inputs and 2 outputs switch)
1MOhms
NJM2235V
Monitor
Assembly
FMONV
LPF
Hi-Z
75Ohms
6dB AMP 75OhmsDRV
Hide-Away
Unit
NJM2561F1
Spilit IC
6dB AMP75ΩDRV
1MOhms
HA Micom
PE5411A
75Ohms
RGB
Converter
(3 inputs and 2 outputs switch)
75Ohms
LLCD Panel
RGB Amp.
NJM2138V
LPF
Isolater
NJM2137V
REAR　OUT
HRETV
EF
75Ohms
EF
Map and
Display Data
CXA1645
GDC
RGB×３
75ΩDRV
1.4V
75Ohms
RGB*３
220micro
1V
0.3V→3.3V
AMP
2V
NTSC Encoder
75Ohms 330micro
Monitor Micom
PE5413A
CSYN5V
TC7SH08FU
CSYNC
5V
3.3V
TC7SET08FU
YS
5V→0.3V ＡＴＴ
75OhmsDRV Circuit
CSYNC
62Ohms
YS
TC7SZ08FU
In this example the DVD video signal is in
green, the map data in red and the rear
monitor output in yellow.
89.
03.11.10
POWER SYSTEM BLOCK DIAGRAM
&NN622系　電源系統図　Ver.0.8
14.4V
B.U
13.8V 0.95W typ
BUP
5.2V REG
CC unit
0.27mA
typ　64mA
*excluding SRAM
POWER
µcom
SRAM3
DRAMPW
SENSE5
MTRPWR1
MTRPWR2
NFANCONT
ILMPWR
ILMSEL
CCD3
400mA
[CONTB] 0.57W Rating0.46W
CC core
1.8V Reg
SDRAM
70mA
280mA
SRAM
ETC
CCD5
CCD3
24mA
CCD2.5
220mA
AV CHIP
VDD33（Max260mA）±0.3V
0.05W Rating0.04W
3.0V Reg
Rating 10mA
AVCC5 （Max13mA）±0.3V
VCC5（Max230mA）±0.25V
[CONTB]
3.3V Reg
SRAM
DRAGO
N
A/D
GPS3
5V Reg BIG
Analog
system
GPS core
GPSBUP3 0.27mA(60MAX)
CPU
Rating 190mA
GDC:outside
inside
MUTE
4.5mA
AD5
FEP、PU
5mA
5V Reg
Pulse Circuit
Rating 300mA
DVD8 (MAX2000mA)±0.4V
Motor,ACT
12mA
Gyro,
G-sensor
V833:outside
inside
TMC
2mA
30mA
PLL
DAC・ADC
RF
CCD5
CCV5
Max872mA
8.6V D/D
100mA
VIDEO Circuit
AU2.5
AU4.7
CCA8.5
372mA
Standard
AUDIO
[AUPW]
[AMPSTB]
454mA
FM8.5
300mA(Max2000mA)
57mA
15mA
300mA
EVOL
ISO
GUIDE　AMP
DVD8
[NFANCNT]
PWRMTR
POWER　A
MP
[ILMPWR]
8.5V Reg
BIG
→[MVIPW]
DSWCC85
454mA
DSWBUP
455mA
46mA　typ31m
A
ILMG
MAX45mA
SWAC56
AVSEL
SENSOR
[SWACPW]
LCDBL
Drive unit
Grille unit
PWRVI
[MVIPW]
[DLED]
LIFT
[MTRPWR2]
Touch panel
＃
472mA (Max715mA)
ANGLE
[MTRPWR1]
Monitor
Micom
Detach unit
B.L
G LED
Picture
Key LED
[ILMDIM]
FAN
＊
350mA
External
input (isolater
,mix)
85mA
[SENSE5]
[MFLPW]
PWRVI
8.5V Reg
BIG
VHFAN
[MFLPW]
7.5or5 REG
172mA
[SRCPWR]
[ILMSEL]
PWRFL
VFM33
VFM55
CC　FAN
25mA×6=150mA
ILMA
RF
PLL
3.3V Reg
Max700mA
Drive system
[ILMSEL]
→[CONTB]
Monitor Micom →[MFLPW]
40mA
[AUPW]
90mA
ROM
103mA
AMP　FAN
8or12V Reg
10~12V Reg
→[CONTA]
[DSEN]
[CCON]
FAN
Mech Micom
X-2014
5mA
[Control]（except SYS Micom）
＊
BUP
SWACPW
IP BUS
70mA
[CCON]
Max673mA
[SBLPWR]
7.7mA
SYSTEM　Micom
Digital
system
Rating 650mA
VCC18 （Max810mA）±0.15V
SWACPW
Rating 190mA
[CONTA]
ASIC、ROM
2mA
CCD3
CCD2.5 660mA
CCD2.5
5V D/D
8.0V D/D
SRAM
Rating 520mA
VCC33 （Max650mA）±0.15V
[CCON]
Max1690mA
CCON
Rating 60mA
SRVDD33 （Max70mA）±0.3V
Max810mA
SD3V
2.5V D/D
[IPPWR]
45mA　(typ　25m
MS3(V+R)
Max630mA
[CCD5]
VDDH5
53.5mA (113.5　pulse)
0.1mA　（60mA　M
IC601
Max720mA
[DRAMPW & CCON]
Max1980mA
DSWVDD
3.3V　Reg
50mA　(typ　３０
3.3V D/D
H/A
[DSEN]
＊
VDD5
104mA
DＦＬＥＤ
A LED
20mA
Monitor unit
*DLED: when ACC OFF only
1mA
Remote
receiver
90.
AVIC-N1 Power Supply Block
The power control on the AVIC-N1 is directly controlled by IC601, the System
Control microprocessor located on the main board. The thick heavy black lines on
this diagram indicate the constant 12 volt supply to the 5.3 volt and 3.3 volt
regulators located on the main board. When the accessory power is applied to
IC601 the power switching outputs shown in red turn on all other supply lines
except the monitor display supply. The monitor display power supply only activates
when the door is open and in the tilt up position.
91.
#Symptoms and Causes
Symptom
Dead
Power down
(After a few seconds, it turns
off)
Check point
FU814（VDD)
Note
VDD5V is not supplied to Micom
FU805（CCD3.3/2.5 Power）
Power Micom times out and changes CCON to LOW
because NAVI did not start up.
FU813（SD3)
FU811（CCD2.5)
FU804（CCA85/CCD5 Power)
RST3
PTOC, CTOP（Power Micom）
No Display
（LEDs for buttons are lit）
But do not operate
Check if RST3 is H, and CPU, ASIC and GDC are
released.
Check if the communication between NAVI(ASIC) and
Power Micom works correctly.
FU801(PWRFL)
Power is not supplied to Back light circuit on the monitor.
FU806（PWRVI)
FU812(DSWVDD)
Power is not supplied to Video circuit on the monitor.
VDD is not supplied to System Micom on hide away
unit.
PTOH, HTOP(Power Micom)
Check if the communication between System Micom
and Power Micom works correctly.
FU802（DVD8)
8V is not supplied to Mech.
Monitor Drive is dead
FU808(PWRMTR)
14V is not supplied to Drive unit..
Illumination of monitor/detach
does not light
FU810(BACKUP_1)
Power is not supplied to Illumination..
"Please eject the disc and
insert appropriate disc" is
displayed
FU815(FM85)
8.5V is not supplied to hide-away unit. (also not
supplied to GPS unit)
Power turns on but Mech does
not start)
（"READING　ERROR" is
displayed)
92.
Detailed Block
Diagrams
Navigation Data
Front Monitor Output
Rear TV Output
Microphone Input
CN692
TELE ATLAS/
DEBUG
CTOEX
EXTOC
CTOTA
TATOC
4
5
7
8
9
2
CCD3
BACKUP2
IC 301
M51957BFP
FU691
2
1
6
4
SYSRST
SYSTEM CONTROL
MICSNS
CN2
D
CTOSYS
CN1401
TELE ATLAS/DEBUG
CPUWDT
IC 691
UPD4721GS
11-14
CN2551
2
IC 4
TC7SZ08FU
Navigation
Memory
Storage
4
2
1
RST3
SDRAM
IC 1
K4S561632E-TL75
IC 3
HY57V561620CLT-H
37
4
ANTON1
PBSNS
SDRAM
IC 5
PD6336B
CKE
13
56
X1
30,000MHZ
57
IC 2
UPD705103GM-180
X1
X2
R/W
105
XCS2,4-7
16
2
IC 102
IC 101
TIP
TC7SH04FU TC74LCX08FT TIMING GEN
IC 110
PD6466A(UC)
PD6461A(EW)
1
IC 111
PD6467A(UC)
PD6462A(EW)
CLK
2
1
REAROFF
REARON
ILMG
ILMA
IC 5501
SBX3050-01
3
GPSTOC
4
I
TC7
REM
2
63
55
49
XCCSTBY
129
152
147
143
202
AOUTRED
AOUTGREEN
AOUTBLUE
FSC
GV
204 OUTCSYNC
1,2
IC
TC7SE
207 OVER
128
X202
14.31818MHz
2
DLED
Q2702
DTC144EU
CN2701
1
1
DFLED
4
6
8
9
4
6
8
9
7
9
11
12
7 REAROFF
9 REARON
11 ILMG
12 ILMA
Q2701
DTC114TU
7
7
10
10 REM
Q2705
2SA1577
Q2704
UMH1N
1,2
IC2701
TC7SH08FU
4
2
IC2702
TC7SH14FU
4
REM0
(S5511)
KEY0
KEY1
KEY2
RDTB
RDTA
CN5501
14
13
12
5
3
14
13
12
5
3
17
16
15
8
6
2
CN5902
S5901
RESET
94.
30
Q2703
2SA1577
PANEL PCB
CN5901
(ILMGND)
REMOCON
PKBSNS
I
TC7
60
X3
OSCOUT
Q2716
DTC124EU
RST3
C
- +
p
o
g
i
m n
WIDE
ANGLE
BAND EJECT
EQ
(S5509) (S5502,5503) (S5501) (S5507) (S5506)
126
1,2
Q2714
2SA1576
SRAM_CSE
KEYBOARD PCB
q
REAR
(S5508)
CTOGPS
VDD5
XCS_SRAM
1
2
4
k
ENT
(S5505)
29
33.8688MHz
124
REM_IN
IC 114
TC7SH08FU
f
SRC
(S5504)
58
IC 112
TC7SH00FU
4
CPUWDT
SCARLET
IC 107-109
TC74LCX541FT
(ADDRESS BUS BUFFER)
IC 113
M5M5V216ATP-70HI
VOL
18
X2
CSYNC
SRAM
6
127
Q201
UMD2N
S
AOUTR
AOUTG
IC 201
AOUTB
MB86291APFVS-G-DL DCLK0
19
IC 103-106
TC74LCX245FT
(DATA BUS BUFFER)
FLASH ROM
XCCSTBY
30.000MHz
11
4
DAC_DATA
14
REM_IN
11
XCS_SRAM
44
SRAM_CSE
CKB
FLASH ROM
CTOSYS
37
ADC_DATA
CC UNIT (1/2)
System
Program Boot
Information
GPSTOC1
27
EXTAL1
IC 2551
TC7WT125FU
XTAL1
DIGITAL OUT
125
ANTON
EXTAL0
CN1501
CPOGPS1
DIGI IN
1
XTAL0
D
143,142,65
96
ASIC
3
(S5510)
DISCSET
ADC_GCNT0-2
CN2552
B
GPS Data
From Hide
Away Unit
RST3
5
Q301
DTC114EU
Q692
IMD3A
DVD
Drive
Unit
Navi
Data
IC 302
TC7SH08FU
RESET DIRECT
Q691
2SD1767
17
16
15
8
6
2
KEY0
KEY1
KEY2
RDT0
RDT1
RESET
Q602(1/2)
UMD2N
VDD
RESET
Q602(2/2)
UMD2N
RESETM
Guidance Voice Output
28
CCON
32
RSTOUT
CCON
SYSRST
Q621
IMD2A
73
NTEMPI
VDD5S
CN609
MOTOR DRIVE
SYSTEM CONTROL
TH601
& Power
Micom
NTEMPI
3V 5V
4,5
6
9,10
RST3
18
RXN
22
CPUWDT
30
8
CTOSYS
12,13
7
11
CPUWDT
1,2
1,2
CTOGPS
6
7
DISC
RST3
IC604
TC7SH08FU
3
IC605
TC7SH08FU
RESET
IC 601 (1/2)
PD5937A
X601
10,000MHZ
1,2
12
9
1
2
NFANCNT
80
MUTEGU
62
WCONT
70
WREMIN
RST3
NFANCNT
MUTEGU
WCONT
WREMIN
2
IC 612
S-80840CNMC-B8Z
VDD
RESET
RXN
51MUTE
AMPSTB
IRQPW
MUTNS
SELR
SELL
ASENS
BSENS
ILMSENS
TELIN
ANTPW
CPUWDT
IC602
TC74VHCT08AFT
10
4
DISC
4
PKBSNS
GPSTOC
M
CN3801
POWER ON RESET
DISCSET
3,142,65
3
2
1
PWRMTR
XOUT
XIN
MUTE51
AMPSTB
IRQPW
MUTENS
NOSELR
NOSELL
ASENS
BSENS
ISENS
TELIN
ANTPW
68
43
31
34
36
35
16
15
47
49
61
Microphone
Input
A
ADC
9
IC 305
AK5381VT
4
IC 304
AK4351VT
2
ONSEIMIC
ONSEIMIC
B
11
DACOUTL
DACOUTL
C
DAC
XCCSTBY
RGB 75W DRIVER
NTSC ENCODING
CCD3C
CVOUT
20
CVOUT
3
1
AOUTRED
AOUTGREEN
AOUTBLUE
FSC
2
3
4
6
4 OUTCSYNC
1,2
7 OVER
IC757
TC7SET08FU
10
4
RIN
GIN
BIN
SCIN
IC 751
CXA1645M
DVDV
DVDV
ROUT
GOUT
BOUT
3
IC 753
NJM2235V
Rear Camera 2
Or Video Input
6
37
DLED
1
REARON
5
ILMPWR
4
Q2706
IMD2A
4
IC 755
NJM2561F1
2
4
IC 754
NJM2561F1
2
REAR TV DVD OR NAVI
Q752
2SC4081
1
SELV
from (2/2)
23
22
21
6
D
2
from CN1611
SELV
SYNL
IC 756
NJM2235V
VFSEL
9
2
7
3
2
Guide
Voice
REAR/FRONT
VIDEO SELECTOR LEVEL ADJ.
3V 5V
38
XCCSTB
TSO
ARMSW
SYSTEM CONTROL
REAON
TSI
IC 601
(2/2)
ILMPWR PD5937A
DSENS
MUTESO
BACKUP1
FRONT MONITOR
VRSEL
Q201
UMD2N
29
24
6
5
IC 608
TC7WT125FU
2
3
PTOH
25
HTOP
46
Q601
GNDISO
2SC4081
51
MUTESO
DSENS
AUPW
ILMDIM
19
CN608
AUPW
45
MTOH
HTOM
ILMDIM
HRX
HTX
24
25
REM
MONVBS
ANB
ANG
ANR
Q2708
2SA1577
4
N
Q751
2SC4081
BACKUP1
Q2707
DTC144EU
8.5V
REM0
1,2
IC758
TC7SZ08FU
Q830-E
5.6V REG
IC 810
S-812C56AUA-C3K
Q830
UMF23N
CSYNC
SWAC56
3
4
YS
ILMG
ILMA
MOREM
RESET
BACKUP1
Q2715
2SD1767
LCDBL
SBLPWR
FU2701
Q602(2/2)
UMD2N
Q2713
IMD2A
RDT1
RDT0
Q2717
DTC144EU
RESETM
MFLPW
RDTB
RDTA
KEY2
KEY1
KEY0
MFLPW
39
37
36
35
33
20
27
CN4002
17
18
22
19
31
30
29
10
9
8
26
95.
MONITOR PCB
CN4002
16
17
20
VILMG
VILMA
REMCON
1,2
IC4702
TC7SH08FU
17
4
REM
PWRFL
1
PWRFL
2
PWRFL
3
LC
CONT
IC4
PD63
22
X4701
4.97MHz
23
10
VCC
Q4741
DTA123JK
18
CN608
76
77
78
4
IC4212
TC7SH08FU
11
LKYDT
LDPDT 12
KEY0
KEY1
9
8
10
63
64
DIMMER
TXD
RXD
MFLPW
ROT0
ROT1
1
60
SWACPW
62
13
VSW5V
14 PWRVI
15 PWRVI
FU4831
INVPUL
6
5
IC4901
NJM2903V
7
44
43
RESET
IC4601
PE5413A
Q4603
2SC4617
Q4831
2SB1260
DIMMER
INVBST
IC4602
S-80835CNNB-B8U
LSEN
2
VDDSENS
LSEN
TEMP SENS
MVIPW
TEMPSEN
V REG
IC4851
R1224N102H
Q4851
CPH6316
KYDT
DPDT
KEY2
RESET
SWAC56
20
18
LSWVDD 30
1,2
HTX
22
MFLPW
23
ROT0
25
ROT1
26
19
VLCD
MONITOR
SYSTEM
CONTROL
HRX
13
X1
Q4742
DTC124EK
LCDBL
KEY0
8
KEY1
9
KEY2
10
21
X0
TH4601
80
VCC(V33)
REG.
2
Q4832
DTC114EK
IC4841
R1130H251B
1
PNLYV
PNLXV
PNLADX
PNLADY
VCC(V25)
PNLYV
PNLXV
PNLADX
PNLADY
25
24
1
3
REG.
7
Q4833
2SC4617
VCC(V18)
15
4
VCC(V8)
VCC(V5)
IC4861
MAX1748EUE
8
35
Q4101
2SC4617
MONVBS
ANB
33
ANG
32
ANR
31
Q4102
Q4103
2SA1774 2SC4617
Q4112,4122,4132
2SA1774
VCC(VM12)
65
CVI1
FILTER
Q4111-4113
Q4121-4123
Q4131-4133
54
53
52
BIN
GIN
RIN
YS
1,2
FILTER
29
CSYNC
3
2
IC 4142
TK15404AMI
1,2
IC 4061
TC7SH08FU
FILTER
IC 4141
TC7SH08FU
93
4
ROUT
18
2
Q4151(1/2)
38
Q4152(2/2)
1
IC 4151
NJM2138V
Q4151(2/2)
14
13
HDIN
Q4002
2SC4617
VCOM AMP
72
74
96.
RGB AMP
Q4152(1/2)
36
FNAVI
Q4153(2/2)
7
6
34
IC 4001
TC90A64AF-P
BOUT
4
Q4151-4156
UMZ1N
Q4153(1/2)
OSD
GOUT
24
IC4651
S-93C46BR0I-J8T1
FILTER
Q4101-4103
Q4111,4113,4121,4123,4131,4133
2SC4617
EEP ROM
46-50
Q4835
2SD1664
CDAO
POLC
CKIN
XO
82
XI
83
X4001 42MHz
28
6
IC 4181
NJM082BV
1
Q4183
UMT2N
INVERTER PCB
CN4003
17
REM
26
KDT4
25
KDT3
KST2 13
KST1 14
CN5001
KDT4
1
KDT3
2
KST2
10
KST1
11
ILMG
12
ILMA
13
16
15
7
6
5
4
NAVI SW
KDT4
KDT3
KS2
KS1
VILMG
S5001
S5002
S5003
NAVI AV
POS
NAVI MENU
VILMA
VFL2
INVERTER
T5001
Q5001
2SC4617
3
LCD
CONTROL
22
7
12
V2500 PDRV_C
11
9
NDRV-D
FB
Q5004
2SC4617
DIMDTY
8
9
DIMDTY
Q5003
DTA144EE
X0
VR5001
17
INVPUL
X1
7
INVBST
10
Q4741
DTA123JK
3
PWRFL 14
PWRFL 15
PWRFL
16
VLCD
10
INVPUL
1,2
INVBST
14
3 PWRFL
PWRFL
2
1 PWRFL
IC5002
TC7SET08FU 4
CN5002
1
2
IC5004
SI6544DQ
RT
OVP
23
IC5005
SI6544DQ
IC5003
OZ961IS
Q5002
2SC4617
IC4701
PD6340A
701
7MHz
ENA
19
PDRV_A
20
NDRV-B
2
18 CT
VFL2
Q5101,5102,5020
2SC4617
Q5103
Q5105
2SA1774
UMX2N
FU5001
V5
Q5011
2SC4081
Q4742
DTC124EK
FEEDBACK DET
CN4701
LCD
20
18
KYDT
DPDT
CN4005
15
KDT1
16
KDT2
MMER
4901
M2903V
7
SW
CN4301
KDT1
2
KDT2
6
KST1
7
KST2
8
10
6
5
4
S4351
S4353
DISP
HALF/CLK
S4352
S4354
TA/NEWS
OPEN/CLOSE
SUB LCD BACK LIGHT
D4321,D4322
VLBL
3
9
VLBL
AUTO DIMMER SENSOR AMP
LSEN
10
2
LSEN
IC4311
NJM062V
7
1
EMP SENS
TH4601
UPPER PCB
TOUCH PANEL CONTROL
CN4681
Q4681,4682
IMD2A
Q4683
FMG12
PNLYV
PNLXV
PNLADX
PNLADY
TOUCH PANEL
LCD PANEL
EEP ROM
IC4651
C46BR0I-J8T1
LCD
BACK LIGHT
CN4801
6
Q4153(2/2)
Q4156
Q4152(2/2)
Q4155
7
P
VR
1
V
VG
Q4151(2/2)
VB
26
LCD
Q4182
UMX2N
VCOM
1
V
27
Q4154
14
COM AMP
28
17
Q4183
UMT2N
97.
Selected Audio (Tuner, External Audio Input Or P-Bus)
DVD Or CD Audio
CC UNIT
CN607
Q754
2SC4081
38 VIDEO OUT
9
17
18
20
RETL
8
14
IC2601(2/2)
NJM3403AV
Q2604,2605,2607
DTC323TU
Q2603,2606,2608
UMD2N
9
1
IC2601(1/2)
NJM3403AV
5
ELECT
SOU
IC2407
NJM3403AV
MUTE
Q2403
DTC323TU
ANALOG ROUT
DVD BUFF.
&
DVD LPF
MIC HPF
MIC AMP
ATT
MUTE
Q2402
DTC323TU
RETR
DVDL 42
IN3
DVDR 36
IN3
1
6
MUTE CONT
CN1611
LPF,AMP
to (1/2)
To Drive
ANALOG LOUT
Unit DVD 36
& CD Audio
Main
34
ADC_GCNT0-2
DVDV
Q2401
UMD2N
MMUTE
VCONTB
VCONTA
SELL 43
IN4
SELR 35
IN4
CONTB
MUTE 20
CONTA
VST
VDT
VCK
1
24 SLVSTS
2
RST3
IC309
TC7SH08FU
4
XRES
21
DISCSET
29
LPF
IC2553
NJM2068V
5
ONSEIMUTE1
A
MUTE
7
Q2409
DTC323TU
Q2408
UMD2N
RESETM
MUTE
CONT
1,6
MU
19
ST
18
DA
17
CL
L,R SEP AMP
IC2402
TC7W66FU 7
1
IC2552
NJM2068V
Q2414
DTC124EU
NOSELL
NOSELR
B
ONSEIMIC
C
DACOUTL
Q2
DTC1
MUTENS
D
MUTE CONT
Q731
IMD3A
SWACPW
VDD5
3
IC2408
NJM2107F
Q
IM
4
5
BUP
CCD5
Q2410
UMD2N
CN731
AU85
MUTEVOL
18 MUTEAMP
RESETM
VST
9
VDT
10
VCK
11
1
2
4
5
6
CN1001
21
22
23
24
25
12
13
14
26
16
MUTESO
OFMT
MUTEAMP
RESETM
FU809
Q806
DTC144EU
FU806
PWRVI
Q2421
UMD2N
Q2419
UMD2N
FU801
PWRFL
MBUP
VDD
Q821
2SA1834F5
Q822
DTC114EU
8.0V REG
AMPSTB
VCC5
4
IC613
TC7SH00FU
2
1
4
IC611
TC7S04FU
2
1
4
IC603
TC7SH08FU
1,2
IRQPW
Q801
2SB1260
Q802
DTC114EU
CONTB
1
SELV
to (1/2)
AUPW
BAC
8.5V, 5V REG
28
IC803
TPS5102IDBT
18
Q815,819
RK4936
8.5V
8.5V
FU807
3
AMP
IC752
NJM2137V
FU802
5V
CCD5
CPUWDT1
MFLPWR
IC805
TPS5103IDB
Q811
RK4936
DVD8
(300mA)
AU85
98.
DSENS
PWRMTR
RESET
7
BU
FU808
BSENS
REM
MTOH
HTOM
HTOP
CTOGPS
GPSTOC
RETV
PTOH
SELV
Q805
RSQ030P03
DSWBUP
Q2422
2SC4081
RETR
RETL
SELR
SELL
GNDISO
RQ
AUPW
17
Q807
2SB1260
Q808
DTC114EU
FU804
RELAY PCB
1(1/2)
403AV
CCFAN
NAVI FAN
Q823-825
835
NFANCNT
FU803
MICSNS
MICIN
5
Q824
2SB1184F5
Q823,825,835
2SC4081
DVDL 42
IN3_L
DVDR 36
IN3_R
SELL 43
IN4_L
SELR 35
IN4_R
MUTE 20
VST
VDT
VCK
Q2610
UMD2N
MBUP
23
RR
11
RL
22
PR
12
PL
MUTERCA
22
12
12
4
4
FL
RL
SWL
SWR
RR
FR
GUIDE SP AMP
FL 10
24
FR
22
MIXIN
2
IC2403
TDA7052BT
8
MICSNS
MICR
Q2801
2SC4081
MIC
MUTEGU
1,6
Q2417
Q2418
DTC323TU
Q2611
UMD2N
AUDIO/GUIDE
MIXAMP
MUTE
19
GUIDEON
Q2886
2SC4081
18
WREM SEL
14
WREM AN
15
MUTE
FL
RL
PRE L
PRE R
RR
FR
Q2831-2833
Q2844-2846
DTC323TU
MUTERCA
10
ONSP+
16
ONSP17
B.REMOTE
19
9
5
1
3
7
11
BREM
13
CN2804
3
MUTE
Q2420
DTC114EU
2
FL
IC2404
NJM2058V
9
6
MBUP
17
MICL
4
L,R SEP AMP
IC2402
TC7W66FU 7
1
IC2552
NJM2068V
2
CN2803
FL
1
RL
2
SWL
3
SWR
6
RR
7
FR
8
1
2
3
6
7
8
MUTERCA 10
ONSP+
16
ONSP17
BREM
19
5
CCFAN
CCFAN
WCONT
14
WREMIN
15
WCONT
14
WREMIN 15
RR
RL
SWR
SWL
MUTE
19
STB
18
DATA
17
CLK
20
MUTEGU
ELECTRONIC VOLUME/
SOURCE SELECTOR
IC2401
PML009A
CN2801
20
GUIDE
SPEAKER
OUT
14
1 FR
AUDIO AMP
Q2414
DTC124EU
FR
FL
RL
RR
Q2416
UMD2N
MUTE
CONT
11
12
14
15
25
CN802
IC2405
PAL007A
Q2415
DTC124EU
MUTE CONT
Q2427,2428
DTC124EU
22
TELIN
ASENS
MUTE
3
5
7
9
17
19
21
23
FLFL+
FRFR+
RR+
RRRL+
RL-
IC807
TPD1018F
Q839
UMD2N
MUTE51
PKBSNS
BSENS
ISENS
CCD5
VDD5
Q828
IMX1
BUP
MUTE
12
Vehicle
I/F
BACKUP2
15
BUP
BACKUP1
Q837
2SC4081
ILL
A.ANT
1
1
3
5
7
8
6
4
2
MBUP
FU810
MUTE 14
ILL
13
ACC
11
P.B
9
ACC
FAN DRIVE
MFLPWR
DSENS
VDD5
Q951
DTC114EU
P.B
BUP
ANTPW
6
Q704
2SA1576
Q840
2SA1576
EXTENSION
CN691
HPF
AMP
FAN
MOTOR
CN2802
Q971-973
BACKUP2
FAN
MOTOR
CN971
2
FU971
Q971
IMX2
DSENS
Q972
IMD3A
AUPW
SD3VC
FU813
3.3V
28
CCD3C
IC804
TPS5102IDBT
FU805
BUP
11
2.5V
CCD3
MFLPWR
Q973
2SD1767
3.3V,2.5V REG
Q809
2SA1797
18
VDD33
Q816,820
RK4936
CCD5C
Q810
DTC114EU
FU802
BACKUP2
3V REG
Q829
2SB1184F5
SRVDD33
VCC33
Q803
2SA1834F5
BUP3C
5
IC806
S-L2980A33MC-C6S
1,3
FU814
5.6V REG
Q804
DTC114EU
CONTB
VDD5
3
IC808
S-812C52AUA-C3G
2
FU811
CCD25C
FU804
VCC18
3
IC801
PQ018EZ01Z
1
1.8VREG
2
Q832
RSQ030P03
FU812
DSWVDD
DSENS
Q838
DTC144EU
CONTA
99.
MOTHER PCB Hide-Away Unit
AMP
CN1402
1
RF IN
AM_ANT
Lch
FM/AM TUNER UNIT
3.3V REG
1
IC1401
NJM2391DL1-33
3
17
VOD_3.3
Rch
23
5
24
3
IC1402
NJM4558E
7
DORAL
1
DORAR
FM_ANT
3
UC model
VDORA85
L1411
L1407
L1413
EW model
Q1402
2SC3127
FM TUNER UNIT
1
CN1001
22
CN1404
Q1401
2SC3357
REM
Y1801
CWE1674
CN1801
A
26 PTOH
10
11
18
21
9
23
X1601
12.58MHz
VDT
VCK
MUTEAMP
BSENS
VST
MTOH
20 RESET
17
CN731
2
IC1607
TC7SH08FU
HRESET
4
MUTEVOL
VHVDD2
VHVDD
VHFM85
VHBUP
Q1601
2SC2412K
VHSWAC5
VHVDD
27 SWVDD
28 FM85
29 SWBUP
HMUTEVOL
Q1902
2SA1036K
HSWACPW
HSWACPW
Q1904
DTC114EK
2
19 ASENBO
4
24 HTOM
25 HTOP
4
IC1604
TC7SH08FU
IC1605
TC7SH08FU
IC1601
TC7SH04FU
4
ASENS
1,2
HTOM
1,2
HTOP
AUDIO ISOLATOR
1
2
3
12
IN2A
13
IN1A
15 IN1B
RETR
RETL
ISOGND
IC1002
TA2050F
8 NMR
OUT2
1 NML
OUT1
DORAL
VIDEO ISOLATOR
3
14 RETV
15 VGND
13
12
16
4
5
7
2
IC1001
NJM2137V
DORAR
1
NMV
NMV
GPSTOC
CTOGPS
RQ
SELR
SELL
SELV
Q1905
2SB1260
DVD Or
Navigation
Video
VDORA85
VHSYS5
1
Q1906
DTC114EK
IC1902
M5237ML
Q1903
DTC114EK
Q1951
2SD2098
CN1950
1
NMR
VHSYS14
VHBUP
Q1901
2SA1036K
VHVDD
FAN MOTOR
NML
HACCPW
Q1907
2SB1629
VHSYS14
3
AVV
IPL
IPR
Q1908
2SD2396
VHAV88
Q1952
2SD2098
FU1950
VTR2V
VHAV5
2
VTR1V
CN1301
VTR1V
VIDEO
VCR1
INPUT
VIDEO ISOLATOR
1
IC1302
3
NJM2137V
VTR1L
VTR1V
VTR1R
5V REG
AUDIO ISOLATOR
VTR1L
13
VTR1R
12
AUDIO L
IC1301
TA2050F
1
VTR1L
8
VTR1R
VHFM85
1
IC1872
S-L2980A50MC-C7J
2
IC1871
S-812C33AMC-C2N
5
AD5V
AUDIO R
REAR VIEW
CAMERA
INPUT
VTR2V
CN1951
CAR SPEED
AND
REVERSE GEAR
SIGNAL INPUT
100.
1
2
PULSE
REVERSE
3
IC1352
NJM2137V
1
Q1909
2SD2396
3V REG
VIDEO ISOLATOR
CN1351
VTR2V
VHVDD
3
VHFM85
BUP3V
1
IC1901
NJM2391
DL1-33
3
VHCC33
HREM
MCON INTERFACE
Q1201
2SA1037K
IC1603
PE5412A(UC)
PE5411A(EW)
21
REMOUT 10
VSELIN1
VSELIN2
VPP
HRESET
34
X2
53
RX
HIPRX
TX
27
HIPTX
IPPW
28
HIPPW
ASENBOH
29
HASENBO
HMUTEA
68
RESET
2
IC1608
TC7SH04FU
VIDEO ISOLATOR
1
4
HIPTX
1
HIPRX
DIN1
BUS-
2
DOUT
HIPPW
VIDEO GND 1
COMP VIDEO 2
CN1101
BUS+
MUTEA
2
3
IC1201
NJM2137V
TX_RX
IC1101
HA12240FP
VHBUP
25 MUTEVOL
AV ON 12
AVV
Q1581
2SA1037K
13
AV-BUS
INPUT
AVONIN
26
39 X1
38
IP-SEL1 4
IP-SEL2 5
VSELIN1
VSELIN2
51
52
Q1607
2SC4081
AVONIN
X1601
12.58MHz
CN1201
Q1202
2SC2412K
6
BUS+ 1
5
BUS- 5
STBN
8
Q1583
2SC4081
Q1102
2SA1576
ASENB
VHBUP
SWACPW
8
Q1582
2SC4081
ASENS
91
HTOM
7
HTOP
1
REVSENS
44
SDA
72
HASENBO
REVSENS
HTOP
SCL
AUDIO ISOLATOR
IC1102
TA2050F
71
AV SELECTOR
DORAL 59
LV6
RV6
NMV
22 V4
NML
23
NMR
25
SCL
IC1501
CXA2069Q
SDA
IPL
29
IPR
31
VTR1V 15
VTR1L
16
VTR1R 18
IPR
8
Q1551
2SA1576
34
OUT2
RV4
4
44
V/YOUT2
43
LOUT2
45
ROUT2
Q1559
FMG12
IC1552
NJM2561F1
REARV
2
VIDEO
AUDIO
L
MUTE
REARAR
AUDIO
R
Q1556
2SC2412K
CONNECTOR PCB
LV5
VOUT1
LOUT1
53
VOUT1
52
SELL
54
SELR
CN1841
Q1872
2SA1037K
RV5
Q1558
2SC2412K
GBUP
VHBUP
Q1871
DTC114EU
10
10
A
LV3
GYRO SENSOR
GY1861 3
1
CSX1042
RV3
SELV 2
IC1551
NJM2561F1
8
GY1865
CSX1074
GYO
11
11
5
12
12
21
GPSTOC
19
CTOGPS
20
RQ
22
SPEED
16
19
20
22
GSNS
REVERSE
VHCC33
Q1822
DTC114WK
5
Q1821
DTC114EU
10
GYO
11
G SENSOR
4
AD5V
Q1881
DTC114EU
CN551
GBUP
To
GPS
Unit
AD5V
V3
ROUT1
CN552
HSELV
AD5V
3
REAR Monitor
OUTPUT
CN1701
REARAL
V/YOUT2
V5
TV
7
9
10
11
VIDEO AMP
Q1557
2SC2412K
VIDEO AMP
1901
M2391
1-33
BUSL
BUSR
BUSRG
BUSLG
13
IN1A
12
IN2A
10
IN2B
15
IN1B
OUT1
33
Q1552
2SA1576
VTR2V 63
1
LV4
ROUT2
30
IPL
Q1555
2SC2412K
LOUT2
AVV
Q1101
DTC124EU
HTOM
14 HSRCPW
DORAR 61
IP-BUS
INPUT
ASENS
IC1821
NJM2904M
1
POUT
15
21
16
15
GSNS
GREV
GTC
CTG
RQ
SPD
POUT
12
CN461
21
19
20
22
16
15
101.
Connector Description
EXTENSION
20 18 16 14 12 10 8 6 4 2
19 17 15 13 11 9 7 5 3 1
1 : PRE L
2 : PRE L GND
3 : PRE R
4 : PRE R GND
5 : RL
6 : RL GND
7 : RR
8 : RR GND
9 : FL
10 : FL GND
11 : FR
12 : FR GND
13 : BREM
14 : WREM SEL
15 : WREM AN
16 : WREM GND
17 : MIC R
18 : GUIDEON
19 : MIC L
20 : MIC GND
GUIDE SPEAKER OUT
6mm MAX
G.SP
RGB
TELE ATLAS / DEBUG
2 4 6 8 10
1 3 5 7 9
1 : NC
2 : NC
3 : GNDD
4 : CTOEX
5 : EXTOC
102.
6 : HYOKA
7 : CTOTA
8 : TATOC
9 : VTA
10 : TAGND
2 4 6 8 10 12 14 16 18 20 22 24
1 3 5 7 9 11 13 15 17 19 21 23
1 : RETR
2 : RETL
3 : ISOGND
4 : SELR
5 : SELL
6 : GNDISO
7 : SELV
8 : SELVG
9 : VST
10 : VDT
VEHICLE I/F
26 28 30
25 27 29
11 : VCK
12 : CTOGPS
13 : GPSTOC
14 : RETV
15 : VGND
16 : RQ
17 : MUTEVOL/SWACPW
18 : MUTEAMP
19 : ASENBO
20 : RESET
21 : BSENS
22 : REM
23 : MTOH
24 : HTOM
25 : HTOP
26 : PTOH
27 : SWVDD
28 : FM85
29 : SWBUP
30 : GNDFM
DIGITAL OUT
1 3 5 7 9 11 13 15
2 4 6 8 10 12 14 16
1 : FL2 : RL3 : FL+
4 : RL+
5 : FR6 : RR7 : FR+
8 : RR+
9 : P. B.
10 : VGND
11 : ACC
12 : A. ANT
13 : ILM
14 : MUTE
15 : B. UP
16 : GND
2
1
4
3
1 : GND
2 : GND
3 : DTEST
4 : DIGIOUT
CAR SPEED SIGNAL INPUT
REVERSE GEAR SIGNAL INPUT
GPS ANTENNA
IP-BUS
4
3
2
1
7
6
5
1. BUS+
2. BUSG
3. LG
4. NC
5. BUS-
AV-BUS
VIDEO OUTPUT AUDIO R OUTPUT
AUDIO L OUTPUT
11
10
9
8
13 12 11 10
9 8 7 6
5
2
4
1
1. VIDEO GND
2. COMP VIDEO
3. NC
4. IP-SEL1
5. IP-SEL2
6. LED-V
7. GND
6. BUSC
7. BUSL
8. ASENB
9. BUSR
10. BUSRG
11. BUSLG
3
8. BEEP MUTE
9. BEEP10. REMOUT
11. NEW AV SENS
12. AV ON
13. BEEP+
AUDIO L INPUT
VIDEO INPUT
AUDIO R INPUT
RGB
ANTENNA
2 4 6 8 10 12 14 16 18 20 22 24
REAR VIEW CAMERA
1 3 5 7 9 11 13 15 17 19 21 23
1 : RETR
2 : RETL
3 : ISOGND
4 : SELR
5 : SELL
6 : GNDISO
7 : SELV
8 : SELVG
9 : VST
10 : VDT
11 : VCK
12 : CTOGPS
13 : GPSTOC
14 : RETV
15 : VGND
26 28 30
25 27 29
16 : RQ
17 : MUTEVOL/SWACPW
18 : MUTEAMP
19 : ASENBO
20 : RESET
21 : BSENS
22 : REM
23 : MTOH
24 : HTOM
25 : HTOP
26 : PTOH
27 : SWVDD
28 : FM85
29 : SWBUP
30 : GNDFM
103.
SW Unit
Main Unit
Inverter PCB
Monitor PCB
Relay PCB
Volume
Unit
Upper
PCB
Keyboard PCB
Panel PCB
CC Unit
DVD Core Unit(MS3)
E
Compound Unit(A)
Compound Unit(B)
104.
JIG CONNECTION DIAGRAM
*1) After connecting the Hide-away Unit, please perform adjustment.
JIG's List
Function
CC Unit (CN609) <--> Main Unit (CN3801)
CC Unit (CN609) <--> GGF1461
CC Unit (CN609) <--> GGF1461
CC Unit (CN608) <--> Monitor PCB (CN4002)
CC Unit (CN2701) <--> Panel PCB (CN5901)
Monitor PCB (CN4002) <--> GGF1483
Monitor Adjustment PCB (*2)
JIG connector Assy (*2)
Monitor PCB ("FOR SERVICE" 14P terminal) <--> GGF1463 (*2)
TEST DISC (Operation check)
Name
PCB
40P FFC
20P FFC
PCB
18P FFC
36P FFC
PCB
PCB and FFC
14P FFC
CD-ROM or DVD-ROM
Jig No.
GGF1461
GGD1170
GGD1209
GGF1483
GGD1208
GGD1366
GGF1416
GGF1463
GGD1323
GGV1137
*2) Since this product does not have OSD IC, OSD for adjustment is displayed by using GGF1416 and GGF1463
at the time of monitor adjustment. As you will find lands for 14 pins with 0.8mm pitch at the left top part of
the monitor board, directly solder a flexible PCB of GGD1323 for adjustment. As GGD1322 is not used, be
careful not to short the terminal.
105.
Disassembly
- Removing the Grille Assy (Fig.1)
1
Remove the two screws and then remove
the Holder.
Disconnect the connector.
2
the Grille Assy.
- Removing the Case
3
Remove the five screws.(Fig.1)
4
Remove the screw and then remove
the Case.(Fig.1)
Note) Inside the product there is a flexible substrate
that connects the Case and the Bracket.
Be very careful and do not give it a strong pull
when removing the Case, otherwise it may
be torn.
5
4
3
3
3
1
1
3
3
2
2
Remove the four screws. (Fig.2)
Case
Holder
Grille Assy
Fig.1
Disconnect the connector and then remove the
Bracket. (Fig.2)
Remove the Case.(Fig.1)
5
5
5
5
Bracket
Fig.2
106.
- Removing the DVD Mechanism Module (Fig.3)
1
Relay PCB
Remove the four screws.
3
3
2
DVD Mechanism Module.
1
1
- Removing the Relay PCB (Fig.3)
2
Straighten the tab at location indicated.
3
Remove the two screws.
Relay PCB.
1
1
DVD Mechanism Module
Fig.3
- Removing the CC Unit (Fig.4)
Bracket
1
Remove the screw.
1
2
2
Remove the three screws and then remove
the Bracket.
3
Remove the six screws and then remove
the CC Unit.
2
3
2
3
3
3
3
3
CC Unit
Fig.4
107.
- Removing the Case (Fig.5)
3
3
1
the Holder.
2
Remove the screw.
3
Remove the five screws and then remove
the Case.
1
1
3
3
3
2
Case
Holder
Fig.5
Motor Unit
- Removing the Display Assy (Fig.6)
1
Switch
Remove the screw.
Disconnect the connector and then remove
the Motor Unit.
1
2
the two Holders.
3
Pull out the Display Assy in the arrow
indicated direction.
Note) When reassembling, hold the switch down
with tweezers or the like and put the Display Assy
back to the Chassis. Otherwise, the switch may be
damaged and not function properly.
2
2
Holder
3
Display Assy
Holder
Fig.6
- Removing the Main Unit (Fig.7)
1
Remove the screw and then remove
the Bracket.
2
Remove the four screws and then
remove the Shaft Unit.
3
Remove the three screws.
2
2
3
3
1
2
2
3
the Main Unit.
108.
Shaft Unit
Bracket
Main Unit
Fig.7
- Removing the Display Assy (Fig.8)
1
the Holder.
2
Remove the three screws and then remove
the Cover Unit.
3
Display Assy
Holder
1
1
3
3
3
3
the Display Assy.
2
2
2
Cover Unit
Fig.8
- Removing the Monitor PCB (Fig.9)
1
Straighten the tabs at two locations indicated.
2
Remove the screw.
1
1
the Monitor PCB.
2
Monitor PCB
Fig.9
109.
- Removing the Case (Fig.10)
Case
1
1
Remove the nine screws and then
remove the Case.
1
1
1
1
1
1
1
1
Fig.10
- Removing the Mother Tuner Unit (Fig.11)
1
1
1
the Mother Tuner Unit.
1
1
Mother Tuner Unit
110.
Fig.11
- Precautions on handling the mechanism module
1. Hold the upper and main frames.
2. Do not hold the front portion of the upper frame. It is a delicate part.
3. Do not touch the switches on the top panel.
4. Be careful not to catch the flexible cables.
Do not touch here.
Do not touch here.
Do not hold this delicate portion.
- Removing the DVD Core Unit(MS3)
1. Set the mechanism to the lock position (disc load standby position).
2. Place the mechanism module upside down.
3. Short the two lands on the pickup flexible cable as shown below.
4. Be sure to disconnect the pickup flexible cable and the CRG flexible cable from the connectors
to protect them from damages.
5. Remove solder from the load motor leads and clamp SW leads.
6. Loosen the two fixing screws. Lift the position A of the DVD Core Unit lightly and move it
in the direction B to remove it. Be careful not to damage the flexible cable C.
7. Disconnect the 8/12 detection flexible-cable from the connector.
Short here.
DVD Core Unit(MS3)
Connector
(for pickup flexible cable)
Connector
(for 8/12 detection flexible cable)
Load motor
leads and clamp SW leads
B
A
C
Connector
(for CRG flexible cable)
111.
- Removing the Pickup Unit
1. Remove the module pc board in accordance with the procedure of "Removing the module pc board."
2. While holding the pickup case, remove the Skew screw (main).
3. Lifting the end of the pickup rack, slide the main shaft, and remove the Pickup Unit.
Notes:
Replacing the pickup unit requires the skew adjustment.
Remove glue from both ends of the main and sub shafts, and skew stud.
Do not reuse the old skew screw. Be sure to use a brand-new skew screw supplied with a new Pickup Unit.
Fix the skew screw with Screw lock (GYL1001) after adjustment.
Skew screw (main)
Skew screw
Pickup Unit
Sub shaft
Skew screw
112.
- How to install the Volume Unit fo the Drive Unit
When installing the Volume Unit, adjust the positioning of the rotating angle of the gear.
1. Set the Monitor Unit horizontally with the Main Unit of the Drive Unit.
2. When installing the gear unit, rotate the gear by hand until the square box of the gear keeps in a horizontal
position like the figure below.
Square box
*Gap of one teeth is acceptable.
113.
TEST MODES
&
TEST DISC USE
TEST MODE
- NAVIGATION TEST MODE
1. How to start the test mode
1. Connect Battery and ACC line , push RESET and EJECT buttons simultaneously.
2. Release RESET button only.
3. When “ password entry screen” is displayed, release EJECT button.
4. Enter the password.
5. When the password has been entered, press [ENTER] key.
6. If the correct password has been entered, the test mode menu will be displayed.
* The password entry screen, as the one used in the previous model, is no longer displayed.
<< Password for the service >>
The password is [ (up)] [ (up)] [ (down)] [ (down)] [ENTER]. Keyboard unit only. (NOT REMOTE).
If 8 digits or more are entered and [ENTER] key is pressed, it will be treated as a password error.
• Password entry screen
Input The
Password
When you see
this screen.
Please push the [RESET] button.
• If the Password is correct : After 2 seconds or so, this screen will change to the Test mode Screen
<Attention> This is a specal service application
Not for customer use.
Please input the whole password,then push the [OK] button.
ABCDEFGHIJKLMNOPQRSTUVWXYZ
Password Right.
Go to next page.
• IF the Password is not correct : Nothing will be displayed, and reboot action will be taken.
AVIC-N1
Front Panel
Enter
UP
Reset
Next Page
Back Page
Return or Back
Band
Eject
Down
115.
2. Test mode menu
TESTMODE MENU [SERVICE_MENU(TECHNICAL)]
1. Remocon touch panel test
2. Version check
3. Error log
4. Format FLASH drive
5. Erase APL-file in FLASH
6. Clear backup memory
7. GPS backup data clear
8. GYRO SENSOR INFO data clear
9. Port status information
==> next page
SYSTEM Ver. : [BOOT] 1.00 [OS] 1.02
Outline of inspection
Remote controller touch
panel inspection
Version information
check
No. Inspection item
1 Remocon touch
panel test
2 Version check
3
ERROR log
4
Format FLASH drive
5
Erase APL-file in
FLASH
6
Clear backup
memory
7
GPS backup data
clear
8
GYRO SENSOR
INFO data clear
9
Port status
information
1
116.
Content if inspection
Calibration setting and remote controller
inspection are performed.
Display of various version information.
(system software, GPS, system
microprocessor, microprocessor for
mechanism control, microprocessor for
timer).
The screen will return to “ menu” by BACK
key.
Error history entry
History of system software errors stored in
SRAM is displayed.
Maximum 8 events from the error last
occurred can be displayed.
The screen will return to “ menu” by BACK
key.
FLASH format
FLASH domain used by the system soft is
initialized.
When the job is done, the screen will return
to “ menu” .
Application file inside
Application file inside FLASH is clear.
FLASH is clear
*(Except voice data and SRAM backup
variable)
to “ menu” .
Back up variables
SRAM domain used by the system software
Touch Panel Calibration
initialization
is initialized.
When the job is done, reboot action will be Will be lost if cleared
taken.
GPS back up data clear
SRAM domain used by GPS is initialized.
to “ menu” .
Learned data inside gyro Learned data inside gyro sensor is cleared.
sensor is clear
to “ menu” .
Port status display
Port status is displayed. (reverse, parking,
pulse, SDRAM capacity.)
Note: After password has been
entered, remote can be used.
1. Change to display error
2. Start within debug shell
3. Program loading
4. GPS assessment
5. File maintenance
6. Program forced write
[Message]
[On]
[Version up]
<== back page
==> next page
No. Inspection item
1 Change to
display error
2 Start within
debug shell
Switching of error
information display
Switching of debug
shell start
Do Not
Change
Settings!
3
Program
loading
Switching of program
loading
4
GPS
assessment
File
maintenance
GPS assessment system
start
File maintenance
function
Program forced
write
Program forced write
Not Needed
For Service.
5
6
Display setting for error cases. (for debugging)
Message/Information (error information) selectable.
Setting for debug shell start. (for debugging)
Off (no initial start)/On (initial start) selectable.
Recognition method for boot up program write is
changed.
System
Write when the version
program
No. in the disc is
higher.
System data
No. in the disc is
Disc version
higher.
(default)
GPS program Write when the version
No. in the disc is
higher.
Application
program
information is different
from the one in disc.
System
program
No. in disc or card is
higher.
System data
Version upgrade
higher.
(for debug)
GPS program Write when the version
higher.
Application
program
higher.
GPS assessment system can be used. The system will
return to “ menu” by BACK key.
File maintenance operations are made. Formatting of
SRAM drive and PC card (ATA Flash Card) are made.
SRAM data is retrieved and copied to PC card. Data
retrieved from SRAM is copied to SRAM from PC card.
Rewriting of SYS (system), GPS (GPS) and APL
(application) software are done by force.
(Joystick is used) The system will return to “ menu” by
BACK key.
117.
1. SRAM / SDRAM test
2. SENSOR test
3. CD-ROM reading test
4. RGB test
5. MS3 check
6. Region code
<== back page
==> next page
No. Inspection item
SRAM/SDRAM
1
test
Memory inspection
SRAM : Device inspection and bus inspection are
performed against all SRAM domains.
Data will be protected. (applicable to both
32M and 64M)
SDRAM : Device inspection and bus inspection are
performed against all SDRAM domains.
Data will be protected for both BIOS domain
and USER domain.
The function for SDRAM all domain inspection
will activate by the built-in instruction RAM.
G sensor, gyro, power supply voltage and installation
condition are displayed.
The system will return to “ menu” by BACK key.
Inspection for reading by CD-ROM drive is performed.
2
SENSOR test
Sensor inspection
3
CD-ROM read test
4
CD-ROM
reading test
RGB test
5
MS3 check
MS3 check [V+R]
RGB inspection
(Upper half, 8 colors. Black/blue/red/pink/green/light
blue/yellow/white display.
Lower half, 3 colors. Red/green/blue.)
red (FULL) green (FULL) blue (FULL)
Switching can be made by [ ] and [ ] keys.
The system will return to “ menu” by BACK key.
MS3 mechanism test mode inspection.
6
Region code
Region code display
Region code display.
Image RGB inspection
How to select test mode menu
Select a desired menu by [ ] and [ ] keys, and execute by pressing [ENTER] key.
Pages can be changed by [ ] and [ ] keys.
AVIC-N1
Front Panel
Enter
UP
Reset
Next Page
Back Page
118.
Return or Back
Band
Eject
Down
- Remocon touch panel test
•
•
•
•
Operation of the touch panel test mode is described below.
First, “ 1. Setup touch-panel effective range“ in the touch panel test menu is made.
Next, “ 3. Test Touch-panel“ , and if the result is OK, then EXIT the screen.
If the result is NG, conduct “ 2. Setup calibration“ , and conduct “ 3. Test Touch-panel“ once again. If the result
is OK, then EXIT the screen.
• Furthermore, details of the misalignment can be verified by the “ 5. Check Touch-panel compensation“ .
*) When inspecting the touch panel, use something thin with a round tip such as a touch pen. Furthermore,
do not apply excessive force to the touch panel.
Main Menu
###
Remocon / Touch-panel Test
###
* 1. Setup touch-panel effective range
2. Setup calibration
3. Test Touch-panel
4. Check now calibration condition
5. Check Touch-panel compensation
6. Check Touch-panel graphics
7. Check Touch-panel navi coordinate
[CR]
[JS UP / DOWN]
[BACK]
Menu selection
Cursor movement
End of test
“ *” mark shown on the left side of menu item “ 1” indicates that the setting has been completed. The setting items
where “ *” is actually indicated will be “ 1. Setup ~” and “ 2. Setup ~” only.
[CR]
[UP/DOWN]
[BACK]
Enter
Selection of the inspection item
Return (to the test mode menu)
#1 and #3 is performed in the production line.
1. Setup touch-panel effective range
### Setup touch-panel effective range ###
The present of the touch-panel effect range (before. after)
Trace white square
min X : ( 37, 36)
max X : (230, 232)
min Y : ( 36, 36)
max Y : (210, 211)
<Caution>
Please trace a white line.
Please move to calibration setup after this setup.
Adjustment steps
1) Trace the edge of the screen along the monitor resin frame with a round-headed object to obtain
the coordinates.
2) Press the [BACK] key.
Explanation of the displays
min_x(A,B) : X coordinate of the touch panel • minimum value received
max_x(A,B) : X coordinate of the touch panel • maximum value received
min_y(A,B) : Y coordinate of the touch panel • minimum value received
max_y(A,B) : Y coordinate of the touch panel • maximum value received
119.
A = A coordinate which is already stored in the SRAM (If there is no previous data in the SRAM, “ min=90,
max=180” will be displayed).
B = An updated coordinate which is planned to be set in the SRAM this time (If there is no previous data in the
SRAM, “ min=90, max=180” will be displayed).
[BACK] : The preset effective range is registered, and the screen will return to the remote controller inspection
menu. The data of the effective range will be recorded in the SRAM.
In case the compensation value is not preset in the SRAM, the following initial (default) value will be entered
automatically at the time of navigation system boot up.
min_x = 42 (right edge limit value)
max_x = 246 (left edge limit value)
min_y = 49 (bottom edge limit value)
max_y = 238 (top edge limit value)
2. Setup calibration
Explanation
• A [+] cursor is displayed at 16 locations on the screen for calibration. Finally, verification of a single point is made.
The cursor is always displayed at one location only, and moves on to the next location as the current one is
correctly pressed.
• When pressing on the [+] cursor, make sure to press at the center of “ +” .
• The result of calibration will be recorded in the SRAM.
• If effective operation is not made for 30 seconds, the system will recognize as “ erroneous end” and stops the
calibration.
120.
3. Test Touch-panel
###
Test Touch-panel
###
[BACK] Return
Explanation on touch panel misalignment verification test.
1) The test is intended to verify if the touched point on the touch panel is correctly recognized or not.
[+] cursor will be displayed at 16 locations on the screen.
The cursor will be displayed in “ white color“ only one at a time.
Each time the cursor is touched correctly, the next point will be displayed.
On the other hand, if it is recognized that the point touched was ±4 dots vertically and ±5 dots horizontally away
from the center of the displayed [+] cursor, the erroneously recognized coordinate [+] will be drawn
in “ red color“ .
2) When touching the [+] cursor, touch the center of the + mark correctly.
3) If [BACK] is touched, the test will be finished, and the screen will return to the menu screen of the touch panel
test mode.
If this test turns out to be NG, it will be necessary to redo “ 1. Setup touch-panel effective range“ and “ 2. Setup
calibration“ . Repeat the above steps once again.
4. Check new calibration condition
###
The current calibration state
###
The initial value is substituted.
[BACK]
Return menu
Explanation on the setting status of the calibration compensation value.
The current calibration compensation status is displayed.
The following data will be displayed.
“ With no calibration value” (in white characters)
In case the compensation value does not exist in the SRAM.
“ The effective range value is stored” After production line
In case the compensation value for the upper limit and the lower limit are preset in the SRAM.
“ The calibration compensation value is stored”
In case the calibration compensation values for the 16 points are preset in the SRAM.
“ The effective range & calibration value is stored.”
In case the upper limit and the lower limit values and the 16 points calibration values are preset in the SRAM.
“ The initial value is substituted.”
In case the value stored as the initial (default) value is preset in the SRAM.
“ Error Condition”
In case the SRAM value is demolished or some unexpected situation has happened.
121.
5. Check Touch-panel compensation
###
Compensation check test
[BACK]
###
Back to menu
[BACK] : The system will return to the remote controller inspection menu.
Explanation of the inspection details
• Regarding this inspection, the title only will be displayed at the initialized stage.
• As shown by the arrow, press any desired location on the monitor.
• A coordinate after the calibration correction will be displayed by the [+] mark against the coordinate recognized
as pressed.
6. Check Touch-panel graphics
###
Touch-panel coordinates test
###
Cross drawing dot : ( 79, 80)
From system CPU : (
0,
0)
Coversion effective : (
0,
0)
: (
0,
0)
After calibration
[POSITION + ] Display of the cood nates pushed
[BACK]
Return menu
[NAVI] + pressing the touch panel : The coordinate of the touch panel at that time will be displayed.
[ ] : Horizontal line will move upward.
[ ] : Horizontal line will move downward.
[ ] : Vertical line will move to the left.
[ ] : Vertical line will move to the right.
[BACK] : The system will return to the remote controller inspection menu.
Explanation of the displayed coordinate (from top to bottom)
(79, 80) : Coordinate of the crossing point by the vertical and the horizontal lines (X direction, Y direction).
[(0~500, 0~240)]
(0, 0) : AD data value (X direction, Y direction) representing the coordinate of the pressed location received from
the system control microprocessor.
(0, 0) : Coordinate (X direction, Y direction) obtained by normalizing the AD data value of the pressed location
within the effective range.
(0, 0) : Coordinate (X direction, Y direction) obtained by adding the correction based on calibration to the
normalized coordinate.
122.
7. Check Touch-panel navi coordinate
###
Remocon test
###
panel x_before = 35
panel y_before = 55
panel x_after
= 28
panel y_after
= 53
return to amenu by [DEST] and [TOUCH-PANEL]
[BACK] + pressing the touch panel will make the system return to the remote controller inspection menu.
Explanation of the displayed content.
panel x_before : X coordinate normalized (expanded) within the effective range.
panel y_before : Y coordinate normalized (expanded) within the effective range.
panel x_after : X coordinate obtained by adding the correction based on calibration.
panel y_after : Y coordinate obtained by adding the correction based on calibration.
123.
Version Check
As of
June 2004
1.00
1.02
4.00
1.020200
2.000057
1.000000
8.01
15.18
8.22
8.03
8.01
UC040SYS.USA
UC040DAT.USA
UC040SDF.USA
MP DISC Version
System OS
APLLI
GPS
124.
EW disc
1.02
1.010000
4.00
UC disc
1.02
1.010000
4.00
1
item
System boot
version
content
FLASH
information
**.** -> Version information
2
System OS
version
3
GPS program
version
Application
version
4
FLASH
DRAGON
FLASH
5
Language data
version
FLASH
6
Sound data
version
7
Syscom version
8
Drive core version Mechanism u-com
9
Drive apl version
10
TV ucom version
11
Monitor ucom
version
12
System language
FLASH
Mechanism u-com
NG -> no sound data file
filename is displayed
13
Application
language
Data file name in
the FLASH
14
Sound data
language
Data file name in
the FLASH
EU040APL.PRG
EW040DAT.xxx
(xxx : GBR, DEU, FRA, ITA,
NLD, ESP, SWE, DNK)
UC040DAT.yyy
(yyy : USA, FRA, ESP)
EW040SDF.xxx
NLD, ESP, SWE, DNK, BEL)
UC040SDF.yyy
NG -> No communication
with SYS u-com
with MS3 u-com
NON -> DVD-ROM drive
with MS3 u-com
NON -> DVD-ROM drive
with TV u-com
with monitor u-com
Data file name in
the FLASH
filename
EW040BOT.GBR
UC040BOT.GBR
EW040SYS.xxx
NLD, ESP, SWE, DNK)
UC040DAT.yyy
EW040GPS.PRG
UC040SYS.PRG
EW040SYS.xxx
UC040SYS.yyy
EW040DAT.xxx
UC040DAT.yyy
EW040SDF.xxx
UC040SDF.yyy
125.
- Error Information
1. Error Information
BIOS Error code
Descriptions of error information Errors arising from system software problems will be provided in this
section.
Up to eight sets of information, related to the system software’s errors, will be stored in the SRAM.
By executing hi_sysdwn( ) the line number (on which the error occurred), the error code and detailed information
of the error, will be stored in the error log.
Hi_sysdwn( ) will be executed in the following two circumstances:
1. hi_sysdwn( ) will be intentionally stored if fatal errors occur with each BIOS.
2. If multiple exceptions, fatal exceptions, illegal command codes and trap command errors occur.
2. Error Log's Entry Function
Up to twenty-four sets of information, related to errors starting with the latest error, will be displayed by the
error log entry function.
There are two types of error log displays.
The display will vary when the argument provided to hi_sysdwn( ), depending on whether detailed information
(such as program name, version number, creation date, creation time and creator name) exists or not.
1. When detailed information exists:
** ERROR INFORMATION **
ERCD
FILE
LINE
VERS
DATE
TIME
AUTH
=
=
=
=
=
=
=
00000028(40)
ini_usf.c
510(000001fa)
1.1.1.1
2003/08/08
06:07:26
daisuke
ERROR-TIME ffff-ff-ff ff:ff:ff
No.4
ERROR No.3
No.2
Stop when push [BACK] button.
ERCD
FILE
LINE
VERS
DATE
TIME
AUTH
ERROR-TIME
126.
Error code.
Error occurring program name.
Error occurring program line number.
Error occurring program version number.
Error occurring program creation date.
Error occurring program creation time.
Error occurring program creator name.
Error occurrence date and time.
2. When detailed information does not exist:
type = 000000b7(183)
ercd = ffffc002(-16382)
inf = ffb7ac18(-4740072)
No.2
ERROR No.1
No.24
Stop when push [BACK] button.
type
ercd
Error occurring program line number.
Error code.
inf
ERROR-TIME
System down information.
If an error occurs due to a multiple exception, the definitions will change to the following:
type
Execution address at the time of error occurrence.
ercd
Contributing factor for the exceptions.
inf
Program status word at the time of error occurrence.
ERROR-TIME
3. Error Information Switch Not for service
The product (with default settings) will display error messages to the user if an error occurs.
Error information can be displayed if an error occurs by switching the error information in the test mode.
In either case, the error log entry display will be the same.
1) Error message display (default settings):
• Setting in the test mode:
1. Change to display error [Message]
2. Start within debug shell [On]
3. Program loading
[Disc version]
4. GPS assessment
5. File maintenance
<== back page ==> next page
SYSTEM Ver. : [BOOT]0.65 [OS]0.65
127.
• Display when an error occurs:
An error has occured.
Please turn power off and on again.
Une erreur a ete decelee.
Veuillez eteindre puis rallumer le systeme.
Fehler.
Bitte System aus- und wieder einschalten.
2) Error information display
• Settings in the test mode:
1. Change to display error [Information]
2. Start within debug shell [Off]
3. Program loading
[Version up]
4. GPS assessment
5. File maintenance
<== back page ==> next page
SYSTEM Ver. : [BOOT]0.65 [OS]0.65
Display when an error occurs:
• If error information exists:
ERCD
FILE
LINE
VERS
DATE
TIME
AUTH
=
=
=
=
=
=
=
f f f f f f f f(-1)
tsk_ini.c
152(00000098)
1.11
2003/04/03
04:59:10
jin
128.
• If error information does not exist:
type = 00000109(265)
ercd = 00000001(1)
inf = ffe83230(-1560016)
4. Watch dog timer
This product has a built-in mechanism to monitor at a certain interval whether the software is correctly
operating or not.
Once this mechanism becomes inoperable, “ reset request” will be sent to the power supply microprocessor
when a preset time (approximately 4 seconds) has elapsed.
In order to record operational situation of such an occasion, a special code which is not an error code is recorded
in the ERCD.
129.
- Port status information
Port status information
Reverse
Parking
Pulse
SDRAM size
Low
Low
0
64MB
[BACK] go to testmode menu.
[NAVI] information renewal.
Content of inspection
Reverse port status
Parking port status
Pulse status
SDRAM capacity (32M or 64M)
Display
Reverse
Parking
Pulse
SDRAM size
How to operate.
[BACK] : Return to the test mode menu.
[NAVI] : Update of the port status.
- GPS assessment
GPS TEST
FLASH
GPS
SENSOR
:Ver. 0. 10
:Ver. 3. 09
:Ver. 5. 56
02 / 05 / 10
02 / 03 / 12
Press [BACK] to return
FLASH
GPS
SENSOR
130.
Display of DRAGON FLASH ROM version information.
Display of GPS version information.
Display of sensor version information.
- SENSOR test
SENSOR TEST
G-SENSOR
GYRO
POWER
FIT UP
DISTANCE
LOW SPEED
:
:
:
:
:
:
1.9875 [V]
2.4804 [V]
14.9453 [V]
OK(Best)
SPEED PULSE
OK
2.5V
Press [BACK] to return
G-SENSOR
GYRO
POWER
FIT UP
DISTANCE
LOW SPEED
Display of G sensor voltage
Display of gyro voltage
Display of power supply voltage
Display of installation status
Status
Display
Installation position is NG.
• NG
Installation position is OK. (3rd best)
• OK
Installation position is OK. (2nd best)
• OK (Better)
Installation position is OK. (Best)
• OK (Best)
Display of distance calculation status.
Status
Display
Sensor initial learning is under way.
• INITIALIZE
GPS distance. (Model without G sensor.
• GPS
No pulse connection.)
G sensor distance. (simple hybrid.)
• G-SENSOR
ND-PG1 distance.
• ND-PG1
Vehicle speed pulse distance.
• SPEED PULSE
Display of minimum output speed of a low speed NG vehicle.
(Depends on DISTANCE status.)
Display
DISTANCE status
SPEED PULSE status
CHECK
Low vehicle speed pulse
learning is under way.
OK
SPEED PULSE
Low vehicle speed pulse is
OK.
NG xx[km/h]
Low vehicle speed is NG.
----Others
131.
- DVD Test Modes
Caution!
CAUTIONS
Protection is not operational against a mechanical runaway conditions during servo testing.
Critical damage can result if the system is allowed to continue in a mechanical runaway state.
If abnormal noise is heard during the test, turn the power OFF immediately.
Keys used for the DVD test mode
[OK] : Selection decided.
[BACK] : Go back.
Directional keys : [
] keys
[ MS3 X-3016 Test ]
[MS3 X-3016 Test]
Firm Ware Revision.
Core Ver ** ** Apl Ver ** **
--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
[1] FE TestMode
[2] EDC-1 mode
[3] EDC-2 mode
[4] MS3 Memory Clear Start
Press [OK] to make a selection
Press [BACK] to X-3016 Test top
Firm Ware Revision : Version of the drive used.
[1]
Start the FE test mode.
[2]
EDC1 mode (available for DVDs only).
[3]
EDC2 mode (available for DVDs only).
[4]
Executes the MS3 memory cleaning operation.
Executes.
[OK]
[BACK] Returns to the test mode menu.
132.
[ X-3016 FE Test menu ]
[X-3016 FE Test menu]
Status : Power Off Data : 0000 0000
--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
[1] Power On
[2] Disc tipe : DVD 1-Layer
[3] Disc tipe : DVD 2-Layer
[4] Disc tipe : CD
[5] Disc tipe : CD-RW
[6] Disc Eject
Press [BACK] - Test top(Power Off)
Status : "Power Off (during normal conditions)."
[1]
Power On (proceed to servo test 1-0).
[2]
Disc type : DVD single-layer.
[3]
Disc type : DVD double-layer.
[4]
Disc type : CD.
[5]
Disc type : CD-RW.
[6]
Ejects the Disc.
[OK]
Executes.
[BACK] Returns to the initial screen display for the test.
[ X-3016 DVD Test ]
[X-3016 DVD Test] EDC-1
--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
Layer : 0
ID
: 20 03 0A 63
--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
[1] Select Layer 0
[2] Select Layer 1
[3] Disc Eject
Press [BACK] to DVD Test top(EDC end)
EDC-1 : Performs consecutive EDC tests.
EDC-2 : Performs EDC tests for each block.
ID : Performs ID of the test.
[1]
[2]
[3]
[OK]
[BACK]
Select layer 0.
Select layer 1.
Ejects the Disc.
Executes.
Returns to the test mode menu.
133.
[ X-3016 DVD Test ]
[X-3016 DVD Test] EDC-1
--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
Layer : 0
: 20 03 0A 63
ID
--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
[1] cursor right
[2] cursor left
[3] cursor up
[4] cursor down
[5] Star EDC-1
[6] Disc Eject
Press [BACK] to DVD Test top(EDC end)
EDC-1 : Performs consecutive EDC tests.
EDC-2 : Performs EDC tests for each block.
ID : Performs ID of the test.
[1]
[2]
[3]
[4]
[5]
[6]
[OK]
[BACK]
Moves the cursor to the right by one increment.
Moves the cursor to the left by one increment.
Moves the cursor up by one increment.
Moves the cursor down by one increment.
Starts the EDC test.
Ejects the Disc.
Executes.
Returns to the test mode menu.
[ X-3016 DVD 1-Layer Servo. Test(1-0) ]
[X-3016 DVD 1-Layer Servo.Test(1-0)]
Status : Power On
Data : 1000 0000
--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
[1] Focus Close
[2] Focus Search(Start/Stop)
[3] CRG + (Start/Stop) [4] CRG - (Start/Stop)
[5] (LD-ON->LD-OFF / LD-OFF->LD-ON)
[6] CRG HOME
--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
FE Offset : 0000 0000 TE Offset : 0000 0000
AS Offset : 0000 0000 ENV Offset : 0000 0000
TG Offset : 0000 0000 DBAL
: 0000 0000
--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
Press [BACK] to DVD-1
Test items are basically the same for both DVDs and CDs.
Status : "Power On (during normal conditions)."
[1]
Closes in on the focus (proceed to servo test 2-0).
[2]
Performs a focus search operation (S-curve measurement). Focus operation will then be stopped.
[3]
Moves the carriage (external). The carriage transition operation will then be stopped.
[4]
Moves the carriage (internal). The carriage transition operation will then be stopped.
[5]
Performs LD-ON/OFF operation.
[6]
Returns the carriage to the home position.
[BACK] Returns to the DVD test menu screen display.
* This operation will not be performed until the coefficient figures have been received.
* Focus closing and searching will not operate unless the LD-ON setting is made to less than 9 seconds.
134.
Status : Focus Closed
Data : 2000 0000
--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
[1] T.Bal
[2] Focus Jump
[3] CRG + (Start/Stop)
[4] CRG - (Start/Stop)
--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
FE MAX : 0000 0000 FE MIN : 0000 0000
AS MAX : 0000 0000 ENV MAX : 0000 0000
FE Normal : 0000 0000
TE MAX : 0000 0000 TE MIN : 0000 0000
--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
Status : "Focus Close (during normal conditions)."
[1]
Adjusts tracking balance (proceeds to servo test 3-0).
[2]
Performs a focus jump operation.
[3]
[4]
Status : Focus Closed2
Data : 3000 0000
--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
[1] Tracking Close
[2] CRG + (Start/Stop)
[3] CRG - (Start/Stop)
--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
T.Bal(Layer 0) : 0000 0000
T.Bal(Layer 1) : 0000 0000
TE Normal(Layer 0) : 0000 0000
TE Normal(Layer 1) : 0000 0000
--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
Status : "Focus Close 2 (during normal conditions)."
[1]
Performs tracking close operation (proceeds to servo test 4-0).
[3]
[4]
135.
Status :Tracking Close
Data : 4000 0000
--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
[1] Error Rate...1.105E-4 [2] Read Speed: x1.3 CLV
[3] Track Jump+ [4] Track Jump[5] Focus Jump [6] ID Search
[7] Tracking Open (to Focus Close)
--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
F.Bal(0) : 0000 0000 F.Gain(0) : 0000 0000
F.Bal(1) : 0000 0000 F.Gain(1) : 0000 0000
T.Gain(0) : 0000 0000 AS Normal(0) : 0000 0000
T.Gain(1) : 0000 0000 AS Normal(1) : 0000 0000
--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
Press [BACK] - DVD-1
Status : "Tracking Close (during normal conditions)."
[1]
[OK] triggers measurement of the error rates (other operations can not be performed for
approximately 10 seconds.
[2]
[OK] triggers switching of the reproduction speed.
[3]
Performs track jumping by a designated number of tracks (external).
[4]
Performs track jumping by a designated number of tracks (internal).
[5]
Performs a focus jump operation (for DVDs only).
[6]
Designates an ID (for DVDs only).
[7]
Performs a tracking open operation (for the focus close status : will proceed to servo test 2-0).
Reproduction speeds
L0-layer
DVD x 1.3CLV, CD x 2
L0-layer
DVD x 1CLV
L1-layer
DVD x 1.3CLV
L1-layer
DVD x 1CLV
4000 0000
4200 0000
4100 0000
4300 0000
[ X-3016 DVD Servo. Test(4-3) ]
[X-3016 DVD Servo.Test(4-3)]
Status :Tracking Closed
Data : 4x00 0000
--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
[1] Track appointment
[2] Start Track Jump+/-
Press [BACK] to Back
[1]
Performs a track number designation (MS3 cyclically switches the available patterns).
[2]
Starts the tracking jump operation (will proceed to servo test 4-0).
136.
[ X-3016 DVD Servo. Test(4-6) ]
[X-3016 DVD Servo.Test(4-6)]
Status :Tracking Close
Data : 4A00 0000
--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
[1] ID appointment : 0000 0000
[2] cursor right
[3] cursor left
[4] cursor up
[5] cursor down
[6] Start ID Search
Press [BACK] to Back
Available for DVDs only.
[1]
Displays designated ID.
[2]
Moves the cursor to the right by one increment.
[3]
Moves the cursor to the left by one increment.
[4]
Moves the cursor up by one increment.
[5]
Moves the cursor down by one increment.
[6]
Starts the ID search operation (return to servo test 4-0).
Display data of adjustment value
FE Offset
TE Offset
AS Offset
ENV Offset
TG Offset
DBAL
FE MAX
FE MIN
AS MAX
ENV MAX
FE Normal
S.Gain
T.Bal (layer-0)
T.Bal (layer-1)
G.Bal (layer-0)
G.Bal (layer-1)
TE Normal (layer-0)
TE Normal (layer-1)
F.Bal (layer-0)
F.Bal (layer-1)
F.Gain (layer-0)
F.Gain (layer-1)
T.Gain (layer-0)
T.Gain (layer-1)
AS Normal (layer-0)
AS Normal (layer-1)
FE offset coefficient
TE offset coefficient
AS offset coefficient
ENV offset coefficient
TG offset coefficient
DBAL offset coefficient
FE MAX level
FE MIN level
AS MAX level
ENV MAX level
FE normalize coefficient
Spindle gain coefficient
TBAL coefficient (layer-0)
TBAL coefficient (layer-1)
GBAL coefficient (layer-0)
GBAL coefficient (layer-1)
TE normalize coefficient (layer-0)
TE normalize coefficient (layer-1)
FBAL coefficient (layer-0)
FBAL coefficient (layer-1)
Focus gain coefficient (layer-0)
Focus gain coefficient (layer-1)
Tracking gain coefficient (layer-0)
Tracking gain coefficient (layer-1)
AS normalize adjustment value (layer-0)
AS normalize adjustment value (layer-1)
0000 0000[h] - FFFF FFFF[h]
0000 0000[h] - FFFF FFFF[h]
0000 0000[h] - FFFF FFFF[h]
0000 0000[h] - FFFF FFFF[h]
0000 0000[h] - FFFF FFFF[h]
0000 0000[h] - FFFF FFFF[h]
0000 0000[h] - FFFF FFFF[h]
0000 0000[h] - FFFF FFFF[h]
0000 0000[h] - FFFF FFFF[h]
0000 0000[h] - FFFF FFFF[h]
0000 0000[h] - FFFF FFFF[h]
0000 0000[h] - FFFF FFFF[h]
0000 0000[h] - FFFF FFFF[h]
0000 0000[h] - FFFF FFFF[h]
0000 0000[h] - FFFF FFFF[h]
0000 0000[h] - FFFF FFFF[h]
0000 0000[h] - FFFF FFFF[h]
0000 0000[h] - FFFF FFFF[h]
0000 0000[h] - FFFF FFFF[h]
0000 0000[h] - FFFF FFFF[h]
0000 0000[h] - FFFF FFFF[h]
0000 0000[h] - FFFF FFFF[h]
0000 0000[h] - FFFF FFFF[h]
0000 0000[h] - FFFF FFFF[h]
0000 0000[h] - FFFF FFFF[h]
0000 0000[h] - FFFF FFFF[h]
137.
USING THE TEST DISC
TEST DISC Part No. : GGV1137
REMOTE CONTROLLER NEEDED FOR TEST DISC OPERATION
Part No.
CXB7427
CXB7426
CXB9118
CD-R11
Description
Co-packed remote controller with AVIC-8DVD/EW
Co-packed remote controller with AVIC-9DVD/EW, UC
Co-packed remote controller with AVIC-8DVD-2/EW, -9DVD-2/EW, -90DVD/UC
Optional remote controller
1. Start/End
1-1. Start
When the test disc is inserted, the title “ NN622/NN623 TEST DISC” will be displayed.
If [RETURN] key is pressed while the title is being displayed, the menu screen will be displayed. If no key is
pressed, the first inspection screen for line will be displayed.
Title screen
NN622 / NN623 TEST DISC
1-2. End
No action is taken.
2. Key operation
• Inspection screen for line
1. The inspection screen and the menu screen can be switched alternately using the [CR] key on the remote
controller.
2. The screen will go back to the previous screen by the [ ] key on the remote controller.
3. The screen will move forward to the next screen by the [ ] key on the remote controller.
(Unless the inspection is finished, the screen will not move forward. The screen will also not move forward
if there is an NG item.)
* Refer to the explanation of each screen for the details.
• Service menu screen
1. Select an inspection item by the [ ] and [ ] keys on the remote controller, and inspection screen will appear
when the [CR] key is pressed.
2. When the [RETURN] key on the remote controller is pressed, the screen will go back to the menu screen.
* Refer to the explanation of each screen for the details.
138.
Menu screens
Self Test Menu
5&6
For Factory
U se Only.
1. External Connection
2. Dual Illumination check
3. Touch Panel check
4. Microphone & Gain control
5. Data Communication (Short)
6. Data Communication (Open)
7. Natural Drawing & Rear View
[CR KEY] The selected menu is started.
Self Test Menu
Number 13 is
not for
service use.
8. VTR In check
9. FM multiplex tuner error
10. GPS Self check
11. Software version display
12. Language Flag setup mode
13. Memory all clear
14. GPS sensitivity measurement
Self Test Menu
Number 21 is
for service use.
Will not clear
error data
15. Picture RGB check
16. GPS information
17. Sound play
18. File Maintenance mode
19. Picture check
20. Device check(Design engineer only)
21. Memory all clear (for Service)
Self Test Menu
Number 22
is not for
service use.
22. BackUp Memory clear
23.
24.
25.
26.
27.
28.
139.
3. Inspection screen
1. Connection check
1. Connection check
Illumination signal
ON
Parking brake signal
ON
Reverse gear signal
REV
Car speed signal
0
Gyro
LEFT << 42374
Gyro voltage
2.434V OK
delta sigma
0.6 OK
Battery voltage
12.3V
G sensor
++
58431
G sensor voltage
1.985V OK
delta sigma
0.6 OK
Remote controller
PRESENT
Mic connect
ON
[joy stick down] It progresses to the next inspection.
2.5V
• The status of the item indicated in the above figure will be updated every second.
• Set ANTON port to H when starting the inspection and set to L when ending.
• When the gyro is in operation, a BEEP sound will be made when the G sensor is activated.
Right: 500Hz, Left: 700Hz. Up: 800Hz, Down: 600Hz
• Conditions for moving on to the next inspection
Illumination status is changing between ON and OFF.
Parking brake status is changing between ON and OFF.
Reverse status is changing between NOR and REV.
Pulse is changing to a value other than 0/0.
Mic connect status is changing between ON and OFF.
All keys on the main body as listed below have been pressed at least once.
Standard value for other items
• GYRO voltage
OK: 2.5±0.15
USABLE: 2.5±0.30
• GYRO variation
OK: Less than 30
• G sensor voltage
OK: 2.5±0.15
USABLE: 2.5±0.30
• G sensor variation
OK: Less than 60
• Only when all the conditions are met, you can move on to the next inspection by the [ ] key on the remote
controller. It should be noted, however, that you will not be able to move on to the next inspection if there is
an error (background color is red) even if the conditions are met.
<Supplemental explanation regarding error display>
Displayed message
Structural data error
No connection to DRAGON
Command error
Unknown error
140.
To exit this menu, Push "Return"
key of the remote controller.
Details of the error
An error when data cannot be received from A/D converter.
Defective device of the A/D converter seems to be the cause.
It will also happen in case the vehicle speed pulse cannot be measured. (rare)
An error when communication with DRAGON cannot be established.
Communication error due to a hardware problem could be the cause.
It is highly possible that the hardware on the DRAGON side is defective.
Time out error for response to BIOS call.
Error due to unknown reason.
2. Dual Illumination color check
2. Dual Illumination color check
Not for US
Model
[NAVI] The color of illuminations is changed.
• Color switching for dual illumination can be made.
• In the case of UC model, this inspection will not be performed, and the system will move on to the next
inspection.
• Color is changed to GREEN/LED by the [NAVI] key on the remote controller.
• Move on to the next inspection by the [ ] key on the remote controller.
3. Touch Panel check
• Touch panel inspection must be performed at 16 locations.
• If the coordinate obtained by pressing the white spot is within the effective range, it will be determined as
OK, and the next white spot will be displayed.
• If the coordinate obtained is outside of the effective range, it will be determined as NG.
• If all 16 locations turned out to be OK, then this test is considered to be OK.
• If coordinate cannot be obtained in approximately 5 seconds after the white spot is displayed, the inspection is
determined as NG.
• Only if the inspection is OK, the inspection will move on to the next step by the [ ] key on the remote controller.
141.
4. Microphone & Gain control check
4. Microphone & Gain control check
Gain level(0-7)
7
REC
[->] raise gain
[<-] lower gain
• The voice channel is inspected by recording the voice from MIC input (Lch) into memory and playing back the
recorded data output from the SP.
• Recording of MIC input voice and playback of the recorded data is done at every second. (“ 1 second recording
1 second playback” will be repeated during inspection.) “ REC” and “ PLAY” will be displayed on the screen during
recording and play back, respectively.
• Voice channel
MIC voice input ADC Lch input ASIC voice block Data storage (recorded on the memory)
Play back of recorded voice data ASIC voice block DAC Lch output SP output
• Operation (remote controller)
[ ] : MIC input gain (PROGGAIN0-2) is lowered.
[ ] : MIC input gain (PROGGAIN0-2) is increased.
[NAVI] : Muting of ONSEIMUTE signal is switched between ON and OFF by a toggle switch.
[ ] : Move on to the next inspection.
5. Data Communication (Short Circuit) check (Not for service)
5. Data Communication (Short Circuit) check
Not for
Service
Use
Serial I/O #5(for Extension)
Serial I/O #7(for Debug)
OK
OK
•
•
•
•
SIO connection short is checked.
Loop back check is performed on 5CH and 7CH.
Wait screen is displayed until the checking is completed.
When [RETURN] key on the remote controller is pressed while the inspection result is being displayed on the
screen, inspection will be performed once again.
• Only in the case of OK, you can move on to the next inspection by the [ ] key on the remote controller.
142.
6. Data Communication (Open Circuit) check (Not for service)
6. Data Communication (Open Circuit) check
Not for
Service
Use
Serial I/O #5(for Extension)
Serial I/O #7(for Debug)
OK
OK
•
•
•
•
•
SIO connection open is checked.
Check is performed on 5CH and 7CH.
Do not connect anything to the terminal. OK will be indicated under “ open” condition.
Wait screen is displayed until the checking is completed.
When [RETURN] key on the remote controller is pressed while the inspection result is being displayed on the
screen, inspection will be performed once again.
7. Natural Drawing & Rear View
Rear Camera
display if
Connected
• Natural image consisting of 256 colors will be drawn on the BG screen.
• ADPCM 1kHz sine wave at the sampling rate of 19kHz will be output for 30 seconds.
• Rear view image will be displayed on the right hand side of the screen.
• GUIDEON terminal will be set to H when entering the screen, and set to L when exiting the screen.
• Volume level can be changed by the [ ] and [ ] keys on the remote controller. (0 to 9)
[JPEG file name: ZHITO1.JPEG]
[Voice file name: A19K01KS.WAV]
• You can move on to the next inspection by the [ ] key on the remote controller.
143.
8. VTR check
8. VTR check
• External input image (VTR input image) is displayed and voice is outputted.
9. FM multiplex tuner error rate measurement
9. FM multiplex tuner error rate measurement
Not for
US Model
Push Back key to go to re-check.
FM Frequency
Frequency to check
Blocks Received Correctly
Blocks with one bit corrected
Blocks with two bits corrected
Blocks Received with error
87.50
87.50
0500
0000
0000
0000
[<- -> to adjust FM frequency]
•
•
•
•
FM multiplexing error is measured.
In the case of UC model, this inspection is not performed and the system will move on to the next inspection.
Default frequency is 87.5MHz.
When entering this mode for the first time, the result of measurement at the time of test disc boot up will be
displayed.
• After the measurement is taken, the frequency can be changed by the [ ] and [ ] keys.
• 500 blocks will be measured, and if there are 450 or more blocks without error, then it will be determined as OK.
144.
10. GPS Self check
10. GPS Self check
2002/12/12 15:35:23
Using satellites NO.
01 02 03 04 05 06 07 08
Antenna connection
Receiving signal level
Latitude
Longitude
OK
13.5
3D 35 55 47.1
139 28 30.0
• GPS receiving status will be displayed.
• Conditions to move on to the next inspection.
Antenna connection is OK.
Data is received from one or more satellite.
Time is being displayed.
• When all the conditions are met, the background color will change to blue.
• Only when all the conditions are met, you can move on to the next inspection by the [ ] key on the remote
controller.
It should be noted, however, that you will not be able to move on to the next inspection if there is an error
(background color is red) even if the conditions are met.
Displayed message
Command error
Invalid data
This is an error when communication with DRAGON is not established.
This is an error when request is made while the data for response is not
prepared (not obtained from DRAGON).
11. Software version
11. Software version
1.00
System boot version
1.00
System OS version
Syscon version
6.11
7.06
TV ucom version
Monitor ucom version
6.04
Drive core version
9.22
Drive apl version
8.21
GPS program version
5.02 03/09/09 3.60
GPS model
04EW DVD (0x22)
HydeAway model
04EW DVD
Region code
2
•
•
•
•
It indicates the version information of the software.
As for the “ GPS model” , it will be considered OK if either “ 04EW DVD” or “ 04UC DVD” is displayed.
As for the “ Hide away model” , it will be considered OK if either “ 04EW DVD” or “ 04UC DVD” is displayed.
As for the region code, it will be considered OK if “ 2” is displayed in the case of EW model and if “ 1” is displayed
for UC model.
• When “ GPS model” , “ Hide away model” and “ region code” are all OK, you can move on to the next inspection
by the [ ] key on the remote controller.
145.
12. Language selection flag initialize
12. Language selection flag initialize
Language selection flag is initialize.
• When the system enters into this inspection, language selection will be set to the original setting made at
the time of shipment (i.e. no setting).
* The setting is made to display the screen for selecting the language to be used at the initial boot up after
the shipment out of the factory.
• The setting is made when the system enters into this inspection.
13. All memory clear (Not for service)
13. All memory clear
Not for
Service
Use
•
•
•
•
•
The clearance of SRAM (application domain)
The clearance of FLASH (application domain)
Elimination of a sensor study value
[NAVI] Inspection is performed.
SRAM (application domain) is cleared.
FLASH (application domain) is cleared.
Sensor learning level is cleared.
If SRAM clear is not successful, FLASH will not be cleared.
After the inspection screen is displayed, the above process is executed by the [NAVI] key on the remote
controller.
• The result of the process is displayed.
• Only when everything is OK, you can move on to the next inspection by the [ ] key on the remote
controller.
146.
Satellite NO. 3 [<- -> to select satellite]
CH.
Look
SNR(AMU) SNR(dB)
1
OK
12.3
23.4
2
OK
12.3
23.4
3
OK
12.3
23.4
4
OK
12.3
23.4
5
OK
12.3
23.4
6
OK
12.3
23.4
7
OK
12.3
23.4
8
OK
12.3
23.4
ALL
OK
Sensitivity:
20.4(db)
DoppRMS: 1.78(Hz)
[joy stick down] Raw work inspection is ended.
• GPS can be changed by the [ ] and [ ] keys on the remote controller.
• Sensitivity of the selected GPS is displayed by the [RETURN] key on the remote controller.
• Production engineering inspection is ended and service menu is displayed by the [ ] key on the remote
controller.
Displayed message
This is an error when communication with DRAGON is not established.
Command error
15. Picture RGB check
•
•
•
•
RGB bridge is inspected.
The screen can be switched by the [ ] and [ ] keys on the remote controller.
RGB is drawn in the pattern of R 100%
R 50%
G 100%
G 50%
B 100%
Total of 6 screens will be displayed.
B 50%.
147.
16. GPS information
16. GPS information
0D T2 H25.5 V25.5
SV Azi Ev SNR
10 119 39 3.0
26
25 60 4.9
18 310 25 0.0
23 305 33 0.0
17 317 49 0.0
9 196 56 0.0
14 260 73 0.0
4 142 81 0.0
01/03/28 23:05:47
Acc Doppler SrchW
3
-2249
2883
2
-1051
3496
f
+0 12487
f
+0 21812
f
+0 21812
f
+0 21812
f
+0
5994
3
+0
5994
Flag
UY-UYC---m
---m
---m
---m
---m
---m
Position Sv Stat Ver & Diag Err Info
• ” Position information” will be displayed when the cursor is at the “ Position” position and the [CR] key
is pressed on the remote controller.
• “ Status information” will be displayed when the cursor is at the “ Sv Stat” position and the [CR] key
• “ Diagnosis information” will be displayed when the cursor is at the “ Ver&Diag” position and the [CR] key
• “ Error information” will be displayed when the cursor is at the “ Err Info” position and the [CR] key
• When an inspection is performed, “ status information” (the screen shown above) will be displayed first.
17. Voice play back
17. Sound play
ADPCM fixation 11K 1K L
ADPCM fixation 11K 1K mono
ADPCM fixation 11K 1K R
ADPCM fixation 11K 1K ste
ADPCM fixation 19K 1K L
ADPCM fixation 19K 1K mono
ADPCM fixation 19K 1K R
Main fader Vol.[0-15]
6
[-> Vol up, <- Vol down]
[return] It returns to a menu screen.
• Voice file (WAVE format) will be played back.
• The voice selected by the [CR] key on the remote controller will be played back.
• Volume level can be changed by the [ ] and [ ] keys on the remote controller.
148.
18. File maintenance
18. File maintenance
Totale Capacity : 216.5K Remain : 216.3K
Media:SRAM: Path:
LOGINFO.CFG 20
84 02 / 08 / 07 17:35
LOCPOS .DAT 20
68 01 / 01 / 01 21:22
Caution!
[1]Media [2]Copy [3]Delete [4]Dump [0]Help
• File can be copied, deleted or dumped.
Refer to HELP for “ how to use” each function.
19. Picture check MENU
19. Picture check MENU
1/2
1. Plane
2. Color Bar
3. Cross Hatch
4. Sweep
5. Step
6. Ramp
7. Window
8. Mono Scope
9. Vertical Resolution Column
[Push OK to make a selection]
A pattern is selected by the [ ] and [ ] keys and an image is displayed by the [CR] key.
1. Plain
… Display is made in the order of black, blue, red, pink, green, light blue, yellow and white by the
[ ] and [ ] keys operation on the remote controller.
2. Color bar
… White, yellow, light blue, green, pink, red, blue, black bars will be displayed from left to right.
3. Cross hatch
4. Sweep
5. Step
6. Lamp
7. Window
8. Mono scope
9. Cycle line 1
10. Cycle line 2
11. Horizontal stripe 1
12. Horizontal stripe 2
13. Chinese character pattern
14. Map (map.jpg)
15. Natural image (nature.jpg)
16. Portrait 1 (hito1.jpg)
17. Portrait 2 (hito2.jpg)
149.
20. Device Check
20. Device Check
1. SDRAM (0X48000000 - 0X4BFFFFFF)
2. SRAM (0X42000000 - 0X4203FFFF)
3. ASIC (0X43000270 - 0X43000274)
4. ALL Device
• The above devices will be inspected for engineering purpose.
• A device is selected by the [ ] and [ ] keys on the remote controller, and cleared by the [CR] key.
• On each device screen, a pattern is selected by the [ ] and [ ] keys on the remote controller, and inspection
is started by the [CR] key on the remote controller.
21. All memory clear (for Service)
21. All memory clear (for Service)
The clearance of SRAM (application domain)
The clearance of FLASH (application domain)
[NAVI] Inspection is performed.
•
•
•
•
SRAM (application domain) is cleared.
FLASH (application domain) is cleared.
If SRAM clear is not successful, FLASH will not be cleared.
After the inspection screen is displayed, the above process is executed by the [NAVI] key on the remote
controller.
• The result of the process is displayed.
22. Initialization of a backup variable
22. Initialization of a backup variable
Not for
Service
Use
A backup variable is initialized.
Cautions
System reset is carried out after initialization.
[NAVI] A backup variable is initialized.
Clearing BIOS system
area data in the SRAM &
FLASH.
After performing this
item,
-Language setting flag is
cleared
-Touch panel calibration
data is cleard. (required
touch panel adjustment
again)
• Back up variables are initialized by the [NAVI] key on the remote controller for system reset.
• The screen will return to the menu screen by the [RETURN] key on the remote controller.
150.
EXPLANATION
MECHANISM DESCRIPTIONS
- Outline of the FLAP motion
1. The motion is actuated made by two motors, the forward/backward driving motor (CXB9515) and the angle
driving motor (CXB9516).
2. Analog electric potential generated by the angle encoder is detected to detect angle motion status and motion
position.
3. Memory function for the angle last position is accomplished by the micro processor using the 256 resolution
steps of the VDD.
4. A pulse is detected by the photo interrupter to detect the horizontal motion status.
5. In the case of reset start, the monitor will be in a stored position first, and ejection motion will take place, which
puts the system in the booted up state.
6. Angle adjustment is made by the angle key (+/-).
7. OPEN/CLOSE key makes the monitor stored or ejected, and temporary folding key folds the monitor
temporarily.
8. Setting of the monitor auto storage/ejection ON/OFF and set back ON/OFF at the time of ACC ON/OFF is made
on the navigation menu screen.
9. A backlight is switched-off during forward/backward and storage.
- Explanation on the FLAP ejection motion
1. When the OPEN key is pressed or ACC is set to ON while the auto OPEN/CLOSE is being set to ON, angle
driving motor rotates in the 0° direction for 500ms. (Pressed down.)
2. After 500ms, the angle driving motor is stopped, and the forward/backward driving motor rotates in the
ejection direction.
3. For a period of 600ms from the time when LIFTSW is switched from H to L, the forward/backward driving
motor keeps rotating in the ejection direction.
4. After 600ms, the forward/backward driving motor is stopped, and the angle driving motor rotates in the UP
direction.
151.
5. When the angle voltage reaches the voltage for 110°, brake is applied to the angle driving motor, and the
ejection is completed. (In case the previous angle is stored in the memory, the motion continues to that angle.)
110° voltage position or the last memory position.
6. When the setback is set to ON, after the monitor angle voltage has reached the previously memorized voltage,
brake is applied to the angle driving motor, then the forward/backward driving motor is rotated in slow speed
in the storage direction. After that, when LIFTSW has switched from L to H, the forward/backward driving
motor is stopped.
- Explanation of the FLAP storage motion
1. When CLOSE key is pressed, or after 6 seconds from ACC OFF when auto OPEN/CLOSE is being set to ON, the
angle driving motor is rotated in the 0° direction. In case the setback setting is ON, the forward/backward
driving motor is rotated in high speed in the ejection direction and the motor continues to rotate for 600ms
from the time when LIFTSW is switched from H to L, then the angle driving motor is rotated in the 0° direction.
152.
2. For a period of 500ms from the time when DIGOSW is switched from H to L, the angle driving motor is rotated
in the 0° direction for the “ pressed down” motion.
3. After 500ms, brake is applied to the angle driving motor, and then the forward/backward driving motor is
rotated in the storage direction.
4. When the horizontal motion detection pulse is no longer detected for 200ms, brake is applied and the monitor
storage motion is completed.
- Explanation on the FLAP angle adjustment
1. The angle driving motor is rotated in UP direction by the “ +” key and in DOWN direction by the “–” key from
the monitor stop position. If the key is kept pressed, the monitor will keep changing the angle without steps
within the range of 50 to 110 degrees. When the setback is being set to ON, the forward/backward driving
motor is rotated in the horizontal ejection direction while the key is being pressed, and angle adjustment is
made by changing the angle voltage to the extent the angle adjustment key is effective after 600ms has
elapsed from the time when LIFTSW has switched from H to L. When 3 seconds have elapsed from the time
of angle adjustment completion, the forward/backward driving motor is rotated in slow speed in the horizontal
storage direction, and brake is applied when LIFTSW has switched from L to H.
153.
- Explanation on the FLAP temporary folding operation
1. By pressing the temporary folding key, the angle driving motor is rotated from the monitor stop position
toward 0° direction. When the setback is being set to ON, the forward/backward driving motor is rotated when
the key is pressed, brake is applied after 600ms has elapsed from the time when LIFTSW has switched from H
to L, and the angle driving motor is rotated in 0° direction.
2. For a period of 500ms after DEGOSW has switched from H to L, the angle driving motor is rotated, and the
monitor stops at its horizontal position by the brake. After 7 seconds, navigator operation sound is heard three
times in 1 second interval. After 10 seconds, the angle driving motor is rotated in UP direction, and then the
brake is applied to stop the motor at the last memory position. When the setback is being set to ON, after the
angle driving motor stops at the last memory position, the forward/backward driving motor is rotated in slow
speed in the horizontal storage direction, and the motor stops after LIFTSW has switched from L to H.
- Notes related to the FLAP motion
1. Regarding the angle position, angle voltage is always checked, and the last memory is stored by addition or
subtraction of the voltage. It should be noted, however, that the last memory will not be stored when the
monitor is manually moved by force.
2. If the expected pulse is not detected during horizontal motion, the monitor will stop at that position.
154.

Field Training Guide

Transcription

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