PHILIPS 32HF9385D/10, 32PFL7862D/10, 32PFL9432D/79, 32PFL9632D/10, 37PFL9632D/10 Service manual & schematics
...
Colour Television Chassis
MS7
Q528.1E
LA
MS7
H_16800_000.eps
250407
Contents Page Contents Page
1. Technical Specifications, Connections, and Chassis
Overview 2
2. Safety Instructions, Warnings, and Notes 5
3. Directions for Use 7
4. Mechanical Instructions 8
5. Service Modes, Error Codes, and Fault Finding 17
6. Block Diagrams, Test Point Overview, and
Waveforms
Wiring Diagram 32” 39
Wiring Diagram 47” 40
Block Diagram Display & Platform Supply 32” 41
Block Diagram Video 42
Block Diagram Audio 43
Block Diagram Control & Clock Signals 44
Testpoint Overview Small Signal Board 45-50
I2C IC Overview 51
Supply Lines Overview 52
7. Circuit Diagrams and PWB Layouts Drawing PWB
Display Supply (32” & 37”): Part 1 (A1) 53 55-56
Display Supply (32” & 37”): Part 2 (A2) 54 55-56
AmbiLight (2 sided 6 LED) (AL1) 57 59
AmbiLight (2 sided 6 LED) (AL2) 58 59
Small Signal Board (B1-B11) 60-103 108-113
SSB: Diversity List 104
SSB: SRP List 105-107
Side I/O Panel (D) 114 115
Keyboard Control Panel (E) 116 116
IR & LED Panel (J) 117 117
8. Alignments 119
9. Circuit Descriptions, Abbreviation List, and IC Data
Sheets 122
Abbreviation List 143
IC Data Sheets 146
10. Spare Parts List 155
11. Revision List 166
©
Copyright 2007 Philips Consumer Electronics B.V. Eindhoven, The Netherlands.
All rights reserved. No part of this publication may be reproduced, stored in a
retrieval system or transmitted, in any form or by any means, electronic,
mechanical, photocopying, or otherwise without the prior permission of Philips.
Published by EL 0765 BG CD Customer Service Printed in the Netherlands Subject to modification EN 3122 785 16800
EN 2 Q528.1E LA1.
Technical Specifications, Connections, and Chassis Overview
1. Technical Specifications, Connections, and Chassis Overview
Index of this chapter:
1.1 Technical Specifications
1.2 Connections
1.3 Chassis Overview
Notes:
• Figures can deviate due to the different set executions.
• Specifications are indicative (subject to change).
1.1 Technical Specifications
1.1.1 Vision
Display type : LCD
Screen size : 32” (82 cm), 16:9
Resolution (HxV pixels) : 1366x768p (32”)
Light output (cd/m
Viewing angle (HxV degrees) : 176x176
Tuning system : PLL
Colour systems : NTSC
Video playback : NTSC
Cable : Unscrambled digital
Tuner bands : UHF, VHF, S, Hyper
Supported video formats : 480i @ 60 Hz
Supported computer formats (60 Hz) : 640x480
2
) : 550
: 47” (120 cm), 16:9
: 1920x1080p (47”)
: PAL
: SECAM
: DVB-T
: PAL
: SECAM
cable - QAM
: 480p @ 60 Hz
: 576i @ 50 Hz
: 576p @ 50 Hz
: 720p @ 50/60 Hz
: 1080i @ 50/60 Hz
: 1080p @ 24/25/30/
50/60 Hz
: 800x600
: 1024x768
: 1280x1024
: 1360x768
: 1920x1080i
: 1920x1080p
1.1.3 Multimedia
Supported file formats : JPEG
USB input : USB2.0
1.1.4 Miscellaneous
Power supply:
- Mains voltage (V
- Mains frequency (Hz) : 50 / 60
Ambient conditions:
- Temperature range (°C) : +5 to +35
Power consumption (values are indicative)
- Normal operation (W) : 132 (32”)
- Standby (W) : < 0.79
Dimensions (WxHxD in cm) : 82.9x54.3x12.5 (32”)
Weight (kg) : 18.2 (32”)
) : 220 - 240 ±10%
AC
: MPEG1, MPEG2
:MP3
: Slideshow (.alb)
: 293 (47”)
: 117.0x73.6x12.5 (47”)
: 33.2 (47”)
1.1.2 Sound
Maximum power (W
):2 x 8
RMS
Technical Specifications, Connections, and Chassis Overview
1.2 Connections
H_16800_105.eps
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EN 3Q528.1E LA 1.
Note: The following connector colour abbreviations are used
(acc. to DIN/IEC 757): Bk= Black, Bu= Blue, Gn= Green,
Gy= Grey, Rd= Red, Wh= White, Ye= Yellow.
1.2.1 Side Connections
S-Video (Hosiden): Video Y/C - In
1 -Ground Y Gnd H
2 -Ground C Gnd H
3 -Video Y 1 V
4 -Video C 0.3 V
/ 75 ohm j
PP
/ 75 ohm j
PP
Cinch: Video CVBS - In, Audio - In
Rd -Audio R 0.5 V
Wh -Audio L 0.5 V
Ye - Video CVBS 1 V
/ 10 kohm jq
RMS
/ 10 kohm jq
RMS
/ 75 ohm jq
PP
Headphone (Output)
Bk -Headphone 32 - 600 ohm / 10 mW ot
USB2.0
1234
E_06532_022.eps
300904
Figure 1-2 USB (type A)
1-+5V k
2 -Data (-) jk
3 -Data (+) jk
4 -Ground Gnd H
Figure 1-1 Connection overview
Digital Audio Out: Cinch: S/PDIF - Out
Bk -Coaxial 0.4 - 0.6V
Digital Audio In: Cinch: S/PDIF - In
Bk -Coaxial 0.2 - 0.6V
HDMI 1, 2 & 3: Digital Video, Digital Audio - In
1 -D2+ Data channel j
2 -Shield Gnd H
3 -D2- Data channel j
4 -D1+ Data channel j
5 -Shield Gnd H
6 -D1- Data channel j
7 -D0+ Data channel j
8 -Shield Gnd H
9 -D0- Data channel j
10 - CLK+ Data channel j
11 - Shield Gnd H
12 - CLK- Data channel j
13 - n.c.
14 - n.c.
15 - DDC_SCL DDC clock j
16 - DDC_SDA DDC data jk
17 - Ground Gnd H
18 - +5V j
19 - HPD Hot Plug Detect j
20 - Ground Gnd H
/ 75 ohm kq
PP
/ 75 ohm jq
PP
19
18 2
1
E_06532_017.eps
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Figure 1-3 HDMI (type A) connector
1.2.2 Rear Connections
Common Interface
68p-See diagram B07A jk
Cinch: Audio - Out
Wh -Audio - L 0.5 V
Rd -Audio - R 0.5 V
/ 10 kohm kq
RMS
/ 10 kohm kq
RMS
Service Connector (UART)
1 -Ground Gnd H
2 -UART_TX Transmit k
3 -UART_RX Receive j
Aerial - In
- - IEC-type (EU) Coax, 75 ohm D
EN 4 Q528.1E LA1.
Technical Specifications, Connections, and Chassis Overview
EXT3: Cinch: Video YPbPr - In
Gn - Video Y 1 V
Bu - Video Pb 0.7 V
Rd -Video Pr 0.7 V
EXT3: Mini Jack: Audio - In
Bk -Audio Surround 0.5 V
EXT 2 & 1: Video RGB/YC - In, CVBS - In/Out, Audio - In/Out
20
21
Figure 1-4 SCART connector
1 -Audio R 0.5 V
2 -Audio R 0.5 V
/ 75 ohm jq
PP
/ 75 ohm jq
PP
/ 75 ohm jq
PP
/ 10 kohm ok
RMS
2
E_06532_001.eps
RMS
RMS
1
050404
/ 1 kohm k
/ 10 kohm j
1.3 Chassis Overview
3 -Audio L 0.5 V
4 -Ground Audio Gnd H
5 -Ground Blue Gnd H
6 -Audio L 0.5 V
7 -Video Blue/C-out 0.7 V
8 -Function Select 0 - 2 V: INT
4.5 - 7 V: EXT 16:9
9.5 - 12 V: EXT 4:3 j
9 -Ground Green Gnd H
10 - Easylink P50 0 - 5 V / 4.7 kohm jk
11 - Video Green 0.7 V
12 - n.c.
13 - Ground Red Gnd H
14 - Ground P50 Gnd H
15 - Video Red/C 0.7 V
16 - Status/FBL 0 - 0.4 V: INT
1 - 3 V: EXT / 75 ohm j
17 - Ground Video Gnd H
18 - Ground FBL Gnd H
19 - Video CVBS 1 V
20 - Video CVBS/Y 1 V
21 - Shield Gnd H
/ 1 kohm k
RMS
/ 10 kohm j
RMS
/ 75 ohm jk
PP
/ 75 ohm j
PP
/ 75 ohm j
PP
/ 75 ohm k
PP
/ 75 ohm j
PP
MAIN
A
SUPPLY PANEL
KEYBOARD CONTROL
E
PANEL
IR & LED PANEL
J
PLATFORM
SUPPLY PANEL
Figure 1-5 PWB/CBA locations 32” sets
SMALL SIGNAL
BOARD
SIDE I/O PANEL
H_16800_137.eps
B
D
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KEYBOARD CONTROL
E
PANEL
IR & LED PANEL
J
Figure 1-6 PWB/CBA locations 47” sets
SMALL SIGNAL
BOARD
SIDE I/O PANEL
H_16800_106.eps
B
D
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Safety Instructions, Warnings, and Notes
2. Safety Instructions, Warnings, and Notes
EN 5Q528.1E LA 2.
Index of this chapter:
2.1 Safety Instructions
2.2 Warnings
2.3 Notes
2.1 Safety Instructions
Safety regulations require the following during a repair:
• Connect the set to the Mains/AC Power via an isolation
transformer (> 800 VA).
• Replace safety components, indicated by the symbol h,
only by components identical to the original ones. Any
other component substitution (other than original type) may
increase risk of fire or electrical shock hazard.
Safety regulations require that after a repair, the set must be
returned in its original condition. Pay in particular attention to
the following points:
• Route the wire trees correctly and fix them with the
mounted cable clamps.
• Check the insulation of the Mains/AC Power lead for
external damage.
• Check the strain relief of the Mains/AC Power cord for
proper function.
• Check the electrical DC resistance between the Mains/AC
Power plug and the secondary side (only for sets that have
a Mains/AC Power isolated power supply):
1. Unplug the Mains/AC Power cord and connect a wire
between the two pins of the Mains/AC Power plug.
2. Set the Mains/AC Power switch to the "on" position
(keep the Mains/AC Power cord unplugged!).
3. Measure the resistance value between the pins of the
Mains/AC Power plug and the metal shielding of the
tuner or the aerial connection on the set. The reading
should be between 4.5 Mohm and 12 Mohm.
4. Switch "off" the set, and remove the wire between the
two pins of the Mains/AC Power plug.
• Check the cabinet for defects, to prevent touching of any
inner parts by the customer.
2.2 Warnings
• All ICs and many other semiconductors are susceptible to
electrostatic discharges (ESD w). Careless handling
during repair can reduce life drastically. Make sure that,
during repair, you are connected with the same potential as
the mass of the set by a wristband with resistance. Keep
components and tools also at this same potential.
• Be careful during measurements in the high voltage
section.
• Never replace modules or other components while the unit
is switched "on".
• When you align the set, use plastic rather than metal tools.
This will prevent any short circuits and the danger of a
circuit becoming unstable.
2.3 Notes
2.3.1 General
• Measure the voltages and waveforms with regard to the
chassis (= tuner) ground (H), or hot ground (I), depending
on the tested area of circuitry. The voltages and waveforms
shown in the diagrams are indicative. Measure them in the
Service Default Mode (see chapter 5) with a colour bar
signal and stereo sound (L: 3 kHz, R: 1 kHz unless stated
otherwise) and picture carrier at 475.25 MHz for PAL, or
61.25 MHz for NTSC (channel 3).
• Where necessary, measure the waveforms and voltages
with (D) and without (E) aerial signal. Measure the
voltages in the power supply section both in normal
operation (G) and in stand-by (F). These values are
indicated by means of the appropriate symbols.
• Manufactured under license from Dolby Laboratories.
“Dolby”, “Pro Logic” and the “double-D symbol”, are
trademarks of Dolby Laboratories.
2.3.2 Schematic Notes
• All resistor values are in ohms, and the value multiplier is
often used to indicate the decimal point location (e.g. 2K2
indicates 2.2 kohm).
• Resistor values with no multiplier may be indicated with
either an "E" or an "R" (e.g. 220E or 220R indicates 220
ohm).
• All capacitor values are given in micro-farads (μ= x10
nano-farads (n= x10
• Capacitor values may also use the value multiplier as the
decimal point indication (e.g. 2p2 indicates 2.2 pF).
• An "asterisk" (*) indicates component usage varies. Refer
to the diversity tables for the correct values.
• The correct component values are listed in the Spare Parts
List. Therefore, always check this list when there is any
doubt.
2.3.3 BGA (Ball Grid Array) ICs
Introduction
For more information on how to handle BGA devices, visit this
URL: www.atyourservice.ce.philips.com (needs subscription,
not available for all regions). After login, select “Magazine”,
then go to “Repair downloads”. Here you will find Information
on how to deal with BGA-ICs.
BGA Temperature Profiles
For BGA-ICs, you must use the correct temperature-profile,
which is coupled to the 12NC. For an overview of these profiles,
visit the website www.atyourservice.ce.philips.com (needs
subscription, but is not available for all regions)
You will find this and more technical information within the
"Magazine", chapter "Repair downloads".
For additional questions please contact your local repair help
desk.
2.3.4 Lead-free Soldering
Due to lead-free technology some rules have to be respected
by the workshop during a repair:
• Use only lead-free soldering tin Philips SAC305 with order
code 0622 149 00106. If lead-free solder paste is required,
please contact the manufacturer of your soldering
equipment. In general, use of solder paste within
workshops should be avoided because paste is not easy to
store and to handle.
• Use only adequate solder tools applicable for lead-free
soldering tin. The solder tool must be able:
– To reach a solder-tip temperature of at least 400°C.
– To stabilize the adjusted temperature at the solder-tip.
– To exchange solder-tips for different applications.
• Adjust your solder tool so that a temperature of around
360°C - 380°C is reached and stabilized at the solder joint.
Heating time of the solder-joint should not exceed ~ 4 sec.
Avoid temperatures above 400°C, otherwise wear-out of
tips will increase drastically and flux-fluid will be destroyed.
To avoid wear-out of tips, switch “off” unused equipment or
reduce heat.
• Mix of lead-free soldering tin/parts with leaded soldering
tin/parts is possible but PHILIPS recommends strongly to
-9
), or pico-farads (p= x10
-12
-6
),
).
EN 6 Q528.1E LA2.
avoid mixed regimes. If this cannot be avoided, carefully
clear the solder-joint from old tin and re-solder with new tin.
2.3.5 Alternative BOM identification
The third digit in the serial number (example:
AG2B0335000001) indicates the number of the alternative
B.O.M. (Bill Of Materials) that has been used for producing the
specific TV set. In general, it is possible that the same TV
model on the market is produced with e.g. two different types
of displays, coming from two different suppliers. This will then
result in sets which have the same CTN (Commercial Type
Number; e.g. 28PW9515/12) but which have a different B.O.M.
number.
By looking at the third digit of the serial number, one can
identify which B.O.M. is used for the TV set he is working with.
If the third digit of the serial number contains the number “1”
(example: AG1B033500001), then the TV set has been
manufactured according to B.O.M. number 1. If the third digit is
a “2” (example: AG2B0335000001), then the set has been
produced according to B.O.M. no. 2. This is important for
ordering the correct spare parts!
For the third digit, the numbers 1...9 and the characters A...Z
can be used, so in total: 9 plus 26= 35 different B.O.M.s can be
indicated by the third digit of the serial number.
Safety Instructions, Warnings, and Notes
Identification: The bottom line of a type plate gives a 14-digit
serial number. Digits 1 and 2 refer to the production center (e.g.
AG is Bruges), digit 3 refers to the B.O.M. code, digit 4 refers
to the Service version change code, digits 5 and 6 refer to the
production year, and digits 7 and 8 refer to production week (in
example below it is 2006 week 17). The 6 last digits contain the
serial number.
MODEL :
PROD.NO:
32PF9968/10
AG 1A0617 000001
MADE IN BELGIUM
220-240V 50/60Hz
~
VHF+S+H+UHF
BJ3.0E LA
S
E_06532_024.eps
Figure 2-1 Serial number (example)
2.3.6 Board Level Repair (BLR) or Component Level Repair (CLR)
If a board is defective, consult your repair procedure to decide
if the board has to be exchanged or if it should be repaired on
component level.
If your repair procedure says the board should be exchanged
completely, do not solder on the defective board. Otherwise, it
cannot be returned to the O.E.M. supplier for back charging!
128W
130606
2.3.7 Practical Service Precautions
• It makes sense to avoid exposure to electrical shock.
While some sources are expected to have a possible
dangerous impact, others of quite high potential are of
limited current and are sometimes held in less regard.
• Always respect voltages. While some may not be
dangerous in themselves, they can cause unexpected
reactions that are best avoided. Before reaching into a
powered TV set, it is best to test the high voltage insulation.
It is easy to do, and is a good service precaution.
3. Directions for Use
You can download this information from the following websites:
http://www.philips.com/support
http://www.p4c.philips.com
Directions for Use
EN 7Q528.1E LA 3.
EN 8 Q528.1E LA4.
Mechanical Instructions
4. Mechanical Instructions
Index of this chapter:
4.1 Cable Dressing
4.2 Service Positions
4.3 Assy/Panel Removal
4.4 Set Re-assembly
Notes:
4.1 Cable Dressing
• Figures below can deviate slightly from the actual situation,
due to the different set executions.
• Follow the disassemble instructions in described order.
They apply to the 47PFL9532D/10 (47” with AmbiLight),
unless stated otherwise.
Figure 4-1 Cable dressing 32” sets
H_16800_136.eps
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Mechanical Instructions
EN 9Q528.1E LA 4.
4.2 Service Positions
For easy servicing of this set, there are a few possibilities
created:
• The buffers from the packaging (see figure "Rear cover").
• Foam bars (created for Service).
• Aluminium service stands (created for Service).
4.2.1 Foam Bars
1
Required for sets
1
42”
Figure 4-2 Cable dressing 47” sets
The foam bars (order code 3122 785 90580 for two pieces) can
be used for all types and sizes of Flat TVs. See figure “Foam
bars” for details. Sets with a display of 42” and larger, require
four foam bars [1]. Ensure that the foam bars are always
supporting the cabinet and never only the display.
Caution: Failure to follow these guidelines can seriously
damage the display!
By laying the TV face down on the (ESD protective) foam bars,
a stable situation is created to perform measurements and
alignments. By placing a mirror under the TV, you can monitor
the screen.
4.2.2 Aluminium Stands
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Figure 4-3 Foam bars
E_06532_018.eps
171106
E_06532_019.eps
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Figure 4-4 Aluminium stands (drawing of MkI)
The new MkII aluminium stands (not on drawing) with order
code 3122 785 90690, can also be used to do measurements,
alignments, and duration tests. The stands can be
(dis)mounted quick and easy by means of sliding them in/out
the "mushrooms". The new stands are backwards compatible
with the earlier models.
EN 10 Q528.1E LA4.
Important: For (older) FTV sets without these "mushrooms", it
is obligatory to use the provided screws, otherwise it is possible
to damage the monitor inside!
4.3 Assy/Panel Removal
4.3.1 Rear Cover
Warning: Disconnect the mains power cord before you remove
the rear cover.
Note: it is not necessary to remove the stand while removing
the rear cover.
Refer to next figures for details.
Mechanical Instructions
2
2
2
2 2
2
3
2
1 1
2
2
2
2
2 2
2
2
2
2
2
2
2
2
2
2 2
2
2
2
2
2
2
2
2
2
2
H_16800_108.eps
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Figure 4-5 Rear Cover Removal
1. Place the TV set upside down on a table top, using the
foam bars (see part “Foam Bars”).
Caution: do not put pressure on the display, but let the
monitor lean on the Front cover!
2. Remove the mushrooms [1].
3. Remove the screws [2].
4. Open the covers [3] on the back cover.
5. Unplug connectors [4].
6. Lift the rear cover from the TV. Make sure that wires and
flat coils are not damaged while lifting the rear cover from
the set.
Figure 4-6 Cover Removal -1-
4
H_16800_109.eps
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4
Figure 4-7 Cover Removal -2-
Mechanical Instructions
H_16800_110.eps
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4.3.2 Side I/O Board
Refer to next figures for details.
1. Slide the unit upwards.
2. Unplug connector [1] and take the PWB out of its casing.
When defective, replace the whole unit.
EN 11Q528.1E LA 4.
H_16800_111.eps
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4
Figure 4-8 Cover Removal -1- (32”)
H_16800_139.eps
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Figure 4-10 Side I/O Board -1-
Figure 4-11 Side I/O Board -2-
1
H_16800_112.eps
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4
Figure 4-9 Cover Removal -2- (32”)
H_16800_138.eps
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EN 12 Q528.1E LA4.
Mechanical Instructions
4.3.3 USB I/O Board
Refer to next figures for details.
1. Remove screw [1].
2. Lift clamp [2] and take the unit out of its casing.
When defective, replace the whole unit.
Figure 4-12 USB I/O Board -1-
1
H_16800_113.eps
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4.3.4 Keyboard Control Board
Refer to next figures for details.
1. Remove the screws [1] and turn the board upside-down.
2. Lift the clamps [2].
3. Take the PWB out of its casing.
4. Unplug the connector [3] and remove the board.
When defective, replace the whole unit.
1
2
Figure 4-13 USB I/O Board -2-
H_16800_114.eps
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Figure 4-14 Keyboard Control Board -1-
2
3
H_16800_115.eps
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H_16800_116.eps
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Figure 4-15 Keyboard Control Board -2-
Mechanical Instructions
s
7
EN 13Q528.1E LA 4.
4.3.5 IR & LED Board
Refer to next figure for details.
1. Release clip [1], lift the board and take it out.
2. Unplug connectors [2].
3. Lift the board and take it out of the set.
When defective, replace the whole unit.
1
2
Figure 4-16 IR & LED Board
4.3.6 Speakers
Refer to next figure for details.
1. Unplug connectors [1].
2. Remove screws [2].
Take the speakers out together with their casing. When
defective, replace the whole unit.
H_16800_117.eps
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4.3.7 Display Supply Panel - 47” sets
Refer to next figure for details.
1. Remove the fixation screws [1].
2. Unplug connectors [2].
3. Take the board out. It hinges on the right side.
1
2
1
1
2
1
1
2
1
1
2
2
1
Figure 4-17 Speakers
H_16800_118.eps
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1
Figure 4-18 Display Supply Panel - 47” sets
H_16800_022.ep
08050
EN 14 Q528.1E LA4.
Mechanical Instructions
4.3.8 Small Signal Board (SSB)
Caution: it is mandatory to remount all different screws at their
original position during re-assembly. Failure to do so may result
in damaging the SSB.
Refer to next figures or details.
1. Remove the tapping screws [1].
2. Unplug the connectors [2].
3. Unplug the LVDS connector [3]. Caution: be careful, as
this is a very fragile connector!
The SSB can now be taken out of the set, together with the
front shield.
To remove the shield:
4. Remove the parker screws [4].
5. Remove the tapping screws [5].
6. Remove the shield from the SSB.
2 2
3
1
2
1
2
1
1
1
4.3.9 AmbiLight Unit
The AmbiLight Units are located in the back cover. Refer to
next figure for details.
1. Remove the screws [1].
2. Unplug the connectors [2].
3. Slide the unit sideways and take it out of the backcover.
1
1
2
3
1
2
1
1
1
Figure 4-19 Small Signal Board -1-
44
Figure 4-20 Small Signal Board -2-
H_16800_119.eps
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555
H_16800_120.eps
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Figure 4-21 AmbiLight Unit
When defective, replace the whole unit.
4.3.10 LCD Panel
Refer to next figures for details.
1. Take the speakers out as earlier described.
2. Remove the LED/IR panel.
3. Unplug the connector [1].
4. Remove the Display Supply Panel, as earlier described.
5. Remove the parker screws [2].
6. Remove the tapping screws [3].
7. Unplug the LVDS connector [4] from the LCD panel.
Important: Be careful, as this is a very fragile connector!
8. Remove the cables out of their bracket [5].
9. Remove the fixation screw [6] from the side I/O panel.
10. Lift the central sub-frame from the set.
11. Lift the LCD panel from the front cabinet.
H_16770_094.eps
220307
Mechanical Instructions
EN 15Q528.1E LA 4.
2
2
5
2
2
2
2
3
4
3
3
1
3 3
2
3
2
2
2 2
Figure 4-22 LCD Panel
2
22
3
3
3
3
6
2
2
H_16800_121.eps
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Figure 4-23 Central Sub-frame
H_16770_097.eps
220307
EN 16 Q528.1E LA4.
4.4 Set Re-assembly
To re-assemble the whole set, execute all processes in reverse
order.
Notes:
• While re-assembling, make sure that all cables are placed
and connected in their original position. See figure "Cable
dressing".
• Pay special attention not to damage the EMC foams on the
SSB shields. Ensure that EMC foams are mounted
correctly.
Mechanical Instructions
Service Modes, Error Codes, and Fault Finding
5. Service Modes, Error Codes, and Fault Finding
EN 17Q528.1E LA 5.
Index of this chapter:
5.1 Test Points
5.2 Service Modes
5.3 Stepwise Start-up
5.4 Service Tools
5.5 Error Codes
5.6 The Blinking LED Procedure
5.7 Protections
5.8 Fault Finding and Repair Tips
5.9 Software Upgrading
5.1 Test Points
As most signals are digital, it will be difficult to measure
waveforms with a standard oscilloscope. However, several key
ICs are capable of generating test patterns, which can be
controlled via ComPair. In this way it is possible to determine
which part is defective.
Perform measurements under the following conditions:
• Service Default Mode.
• Video: Colour bar signal.
• Audio: 3 kHz left, 1 kHz right.
5.2 Service Modes
Service Default mode (SDM) and Service Alignment Mode
(SAM) offers several features for the service technician, while
the Customer Service Mode (CSM) is used for communication
between the call centre and the customer.
This chassis also offers the option of using ComPair, a
hardware interface between a computer and the TV chassis. It
offers the abilities of structured troubleshooting, error code
reading, and software version read-out for all chassis.
(see also paragraph "ComPair").
– Picture mute (blue mute or black mute).
– Automatic volume levelling (AVL).
– Skip/blank of non-favourite pre-sets.
How to Activate SDM
For this chassis there are two kinds of SDM: an analogue SDM
and a digital SDM. Tuning will happen according table “SDM
Default Settings”.
• Analogue SDM: use the standard RC-transmitter and key
in the code “062596”, directly followed by the “MENU”
button.
Note: It is possible that, together with the SDM, the main
menu will appear. To switch it "off", push the “MENU”
button again.
• Digital SDM: use the standard RC-transmitter and key in
the code “062593”, directly followed by the “MENU” button.
Note: It is possible that, together with the SDM, the main
menu will appear. To switch it "off", push the “MENU”
button again.
• Analogue SDM can also be activated by shorting for a
moment the two solder pads [1] (see figure “Service mode
pads”) on the SSB, with the indication “SDM”. Activation
can be performed in all modes, except when the set has a
problem with the Stand-by Processor.
1
2
5.2.1 Service Default Mode (SDM)
Purpose
• To create a pre-defined setting, to get the same
measurement results as given in this manual.
• To override SW protections detected by stand-by
processor and make the TV start up to the step just before
protection (a sort of automatic stepwise start up). See
paragraph “Stepwise Start Up”.
• To override SW protections detected by MIPS. See also
paragraph “Error codes”.
• To start the blinking LED procedure (not valid for
protections detected by standby software).
Specifications
Table 5-1 SDM default settings
Region Freq. (MHz)
Europe, AP(PAL/Multi) 475.25 PAL B/G
Europe, AP DVB-T 546.00 PID
Video: 0B 06 PID
PCR: 0B 06 PID
Audio: 0B 07
• All picture settings at 50% (brightness, colour, contrast).
• All sound settings at 50%, except volume at 25%.
• All service-unfriendly modes (if present) are disabled, like:
– (Sleep) timer.
– Child/parental lock.
Default
system
DVB-T
Figure 5-1 Service mode pads
After activating this mode, “SDM” will appear in the upper right
corner of the screen (if you have picture).
How to Navigate
When you press the “MENU” button on the RC transmitter, the
set will toggle between the SDM and the normal user menu
(with the SDM mode still active in the background).
How to Exit SDM
Use one of the following methods:
• Switch the set to STAND-BY via the RC-transmitter.
• Via a standard customer RC-transmitter: key in “00”sequence.
5.2.2 Service Alignment Mode (SAM)
Purpose
• To perform (software) alignments.
• To change option settings.
• To easily identify the used software version.
• To view operation hours.
• To display (or clear) the error code buffer.
H_16770_100.eps
220307
EN 18 Q528.1E LA5.
Service Modes, Error Codes, and Fault Finding
How to Activate SAM
Via a standard RC transmitter: key in the code “062596”
directly followed by the “INFO” button. After activating SAM
with this method a service warning will appear on the screen,
you can continue by pressing the red button on the RC.
Contents of SAM:
• Hardware Info.
– A. SW Version. Displays the software version of the
main software (example: Q581E-1.2.3.4_12345 =
AAAAB_X.Y.W.Z_NNNNN).
• AAAA= the chassis name.
• B= the region: A= AP, E= EU, L= LatAm, U = US.
For AP sets it is possible that the Europe software
version is used.
• X.Y.W.Z= the software version, where X is the
main version number (different numbers are not
compatible with one another) and Y.W.Z is the sub
version number (a higher number is always
compatible with a lower number).
• NNNNN= last five digits of 12nc code of the
software.
– B. SBY PROC Version. Displays the software version
of the stand-by processor.
– C. Production Code. Displays the production code of
the TV, this is the serial number as printed on the back
of the TV set. Note that if an NVM is replaced or is
initialized after corruption, this production code has to
be re-written to NVM. ComPair will foresee in a
possibility to do this.
• Operation Hours. Displays the accumulated total of
operation hours (not the stand-by hours). Every time the
TV is switched "on/off", 0.5 hours is added to this number.
• Errors (followed by maximal 10 errors). The most recent
error is displayed at the upper left (for an error explanation
see paragraph “Error Codes”).
• Reset Error Buffer. When you press “cursor right” (or the
“OK button) and then the “OK” button, the error buffer is
reset.
• Alignments. This will activate the “ALIGNMENTS” submenu.
• Dealer Options. Extra features for the dealers.
• Options. Extra features for Service. For more info
regarding option codes, see chapter 8 “Alignments”.
Note that if you change the option code numbers, you have
to confirm your changes with the “OK” button before you
store the options. Otherwise you will loose your changes.
• Initialize NVM. The moment the processor recognizes a
corrupted NVM, the “initialize NVM” line will be highlighted.
Now, you can do two things (dependent of the service
instructions at that moment):
– Save the content of the NVM via ComPair for
development analysis, before initializing. This will give
the Service department an extra possibility for
diagnosis (e.g. when Development asks for this).
– Initialize the NVM.
Note: When you have a corrupted NVM, or you have replaced
the NVM, there is a high possibility that you will not have picture
anymore because your display code is not correct. So, before
you can initialize your NVM via the SAM, you need to have a
picture and therefore you need the correct display option. Refer
to chapter 8 for details. To adapt this option, you can use
ComPair (the correct HEX values for the options can be found
in chapter 8 “Alignments”) or a method via a standard RC
(described below).
Changing the display option via a standard RC: Key in the
code “062598” directly followed by the “MENU” button and
“XXX”, where XXX is the 3 digit decimal display code (see table
“Option code overview” in chapter 8 “Alignments”, or sticker on
the side/bottom of the cabinet). Make sure to key in all three
digits, also the leading zero’s. If the above action is successful,
the front LED will go out as an indication that the RC sequence
was correct. After the display option is changed in the NVM,
the TV will go to the Stand-by mode. If the NVM was corrupted
or empty before this action, it will be initialized first (loaded with
default values). This initializing can take up to 20 seconds.
Display Option
Code
39mm
040
PHILIPS
MODEL:
32PF9968/10
27mm
PROD.SERIAL NO:
AG 1A0620 000001
(CTN Sticker)
E_06532_038.eps
290107
Figure 5-2 Location of Display Option Code sticker
• Store. All options and alignments are stored when
pressing “cursor right” (or the “OK” button) and then the
“OK”-button.
• SW Maintenance.
– SW Events. Not useful for Service purposes. In case
of specific software problems, the development
department can ask for this info.
– HW Events. Not useful for Service purposes. In case
of specific software problems, the development
department can ask for this info.
• Test settings. For development purposes only.
• Upload to USB. To upload several settings from the TV to
a USB stick, which is connected to the Side I/O. The items
are “Channel list”, “Personal settings”, “Option codes”,
“Display-related alignments” and “History list”. First you
have to create a directory “repair” in the root of the USB
stick.To upload the settings you have to select each item
separately, press “cursor right” (or the “OK button), confirm
with “OK” and wait until “Done” appears. In case the
download to the USB stick was not successful “Failure” will
appear. In this case, check if the USB stick is connected
properly and if the directory “repair” is present in the root of
the USB stick. Now the settings are stored onto your USB
stick and can be used to download onto another TV or
other SSB. Uploading is of course only possible if the
software is running and if you have a picture. This method
is created to be able to save the customer’s TV settings
and to store them into another SSB.
• Download from USB. To download several settings from
the USB stick to the TV. Same way of working as with
uploading. To make sure that the download of the channel
list from USB to the TV is executed properly, it is necessary
to restart the TV and tune to a valid preset if necessary.
Note: The “History list item” can not be downloaded from
USB to the TV. This is a “read-only” item. In case of specific
problems, the development department can ask for this
info.
How to Navigate
• In SAM, you can select the menu items with the “CURSOR
UP/DOWN” key on the RC-transmitter. The selected item
will be highlighted. When not all menu items fit on the
screen, move the “CURSOR UP/DOWN” key to display the
next/previous menu items.
• With the “CURSOR LEFT/RIGHT” keys, it is possible to:
– (De) activate the selected menu item.
– (De) activate the selected sub menu.
• With the “OK” key, it is possible to activate the selected
action.
How to Exit SAM
Use one of the following methods:
• Press the “MENU” button on the RC-transmitter.
• Switch the set to STAND-BY via the RC-transmitter.
Service Modes, Error Codes, and Fault Finding
EN 19Q528.1E LA 5.
5.2.3 Customer Service Mode (CSM)
Purpose
When a customer is having problems with his TV-set, he can
call his dealer or the Customer Helpdesk. The service
technician can then ask the customer to activate the CSM, in
order to identify the status of the set. Now, the service
technician can judge the severity of the complaint. In many
cases, he can advise the customer how to solve the problem,
or he can decide if it is necessary to visit the customer.
The CSM is a read only mode; therefore, modifications in this
mode are not possible.
When in this chassis CSM is activated, a colour bar test pattern
will be visible for 5 seconds. This test pattern is generated by
the Pacific3. So if you see this test pattern you can determine
that the back end video chain (Pacific3, LVDS, and display) of
the SSB is working. In case of a set with DFI panel, an extra
test picture is generated. So you will see the Pacific3 test
picture for 3 seconds and then the DFI EPLD test picture for
another 3 seconds. With this extra test picture you can
determine if the DFI board is working properly.
Also new in this chassis: when you activate CSM and there is
a USB stick connected to the TV, the software will dump the
complete CSM content to the USB stick. The file (Csm.txt) will
be saved in the root of your USB stick. This info can be handy
if you do not have picture.
Another new item in this chassis is when CSM is activated, the
complete error-buffer content will be shown via the blinking
LED procedure.
How to Activate CSM
Key in the code “123654” via the standard RC transmitter.
Note: Activation of the CSM is only possible if there is no (user)
menu on the screen!
How to Navigate
By means of the “CURSOR-DOWN/UP” knob on the RCtransmitter, you can navigate through the menus.
Contents of CSM
• Set Type. This information is very helpful for a helpdesk/
workshop as reference for further diagnosis. In this way, it
is not necessary for the customer to look at the rear of the
TV-set. Note that if an NVM is replaced or is initialized after
corruption, this set type has to be re-written to NVM.
ComPair will foresee in a possibility to do this.
• Production Code. Displays the production code (the serial
number) of the TV. Note that if an NVM is replaced or is
initialized after corruption, this production code has to be
re-written to NVM. ComPair will foresee a in possibility to
do this.
• Code 1. Gives the last five errors of the error buffer. As
soon as the built-in diagnose software has detected an
error, the buffer is adapted. The last occurred error is
displayed on the leftmost position. Each error code is
displayed as a 2-digit number. When less than 10 errors
occur, the rest of the buffer is empty (00). See also
paragraph “Error Codes” for a description.
• Code 2. Gives the first five errors of the error buffer. See
also paragraph “Error Codes” for a description.
• Options 1. Gives the option codes of option group 1 as set
in SAM (Service Alignment Mode).
• Options 2. Gives the option codes of option group 2 as set
in SAM (Service Alignment Mode).
• 12NC SSB. Gives an identification of the SSB as stored in
NVM. Note that if an NVM is replaced or is initialized after
corruption, this identification number has to be re-written to
NVM. ComPair will foresee in a possibility to do this. This
identification number consists of 14 characters and is built
up as follows:
- Eight last characters of the 12NC of the SSB itself.
- the serial number of the SSB, which consists of six digits.
Both can be found on a sticker on the PWB of the SSB
itself. The format of the identification number is then as
follows: <last eight characters of 12NC of SSB><serial
number of SSB> (total fourteen characters).
• Installed date. Indicates the date of the first installation of
the TV. This date is acquired via time extraction.
• Digital Natural Motion. Gives the status of the Digital
Natural Motion setting as set by the customer. Remark : a
customer can choose between “OFF”, “MINIMUM” and
“MAXIMUM”, but in CSM this item will only show “OFF” or
“ON” (“ON” in case the customer has choosen “MINIMUM”
or “MAXIMUM”)
• Pixel Plus. Gives the last status of the Perfect Pixel HD
setting, as set by the customer. Possible values are “ON”
and “OFF”. See DFU on how to change this item.
• DNR. Gives the last status of the Noise reduction setting,
as set by the customer. Possible values are “OFF”,
“MINIMUM”, “MEDIUM” and “MAXIMUM”. See DFU on
how to change this item.
• Noise Figure. Gives an indication of the signal quality for
the selected transmitter. Possible values are “BAD”,
“AVERAGE”, “GOOD“ and “DIGITAL”. In case of a digital
channel, this item will never indicate : “BAD”, “GOOD” or
“AVERAGE” but only displays “DIGITAL”.
• 12NC Display. Shows the 12NC of the display.
• Headphone Volume. Gives the last status of the
headphone volume, as set by the customer. The value can
vary from 0 (volume is minimum) to 100 (volume is
maximum). See DFU on how to change this item.
• Surround Mode. Indicates the by the customer selected
sound mode (or automatically chosen mode). Possible
values are “STEREO” and “VIRTUAL DOLBY
SURROUND”. It can also have been selected
automatically by signalling bits (internal software). See
DFU on how to change this item.
• AVL. Indicates the last status of AVL (Automatic Volume
Level) as set by the customer: See DFU on how to change
this item.
• Delta Volume. Indicates the last status of the delta volume
for the selected preset as set by the customer: from “-12”
to “+12”. See DFU on how to change this item.
• Volume. Indicates the last status of the volume for the
selected preset as set by the customer: from “0” to “100”.
See DFU on how to change this item.
• Balance. Indicates the last status of the balance for the
selected preset as set by the customer: from “-10” to “+10”.
See DFU on how to change this item.
• Preset Lock. Indicates if the selected preset has a child
lock: “LOCKED” or “UNLOCKED”. See DFU on how to
change this item.
• Lock after. Indicates at what time the channel lock is set:
“OFF” or e.g. “18:45” (lock time). See DFU on how to
change this item.
• Parental rating lock. Indicates the “Parental rating” as set
by the customer. See DFU on how to change this item.
• Parental rating status.
transmitted by the broadcaster (if applicable). If the
parental rating status is indicating a higher age then the
parental rating lock as set by the customer, you will need to
enter the child lock code.
• TV ratings lock. Only applicable for US.
• Movie ratings lock. Only applicable for US.
• On timer. Indicates if the “On timer” is set “ON” or “OFF”
and when it is set to “ON”, also start time, start day and
program number is displayed. See DFU on how to change
this item.
• Location. Gives the last status of the location setting as
set via the installation menu. Possible values are “SHOP”
and “HOME”. If the location is set to “SHOP”, several
settings are fixed. So for a customer location must be set
to “HOME”. Can be changed via the installation menu (see
also DFU).
• HDMI key validity. Indicates if the HDMI keys (or HDCP
keys) are valid or not. In case these keys are not valid and
Indicates the “Parental rating” as
EN 20 Q528.1E LA5.
the customer wants to make use of the HDMI functionality,
the SSB has to be replaced.
• Tuner frequency. Indicates the frequency the transmitter
is tuned to.
• TV System. Gives information about the video system of
the selected transmitter. In case a DVBT signal is received
this item will also show ATSC.
– BG: PAL BG signal received
– DK: PAL DK signal received
– L/La: SECAM L/La signal received
– I: PAL I signal received
– M: NTSC M signal received
– ATSC: ATSC signal received
– DVB : DVBT signal received
• 12NC one zip SW. Displays the 12NC number of the onezip file as it is used for programming software in production.
In this one-zip file all below software versions can be found.
• Initial main SW. Displays the main software version which
was initially loaded by the factory.
• Current main SW. Displays the built-in main software
version. In case of field problems related to software,
software can be upgraded. As this software is consumer
upgradeable, it will also be published on the Internet.
Example: Q581E_1.2.3.4.
• Flash utils SW. Displays the software version of the
software which contains all necessary components of the
download application. To program this software, EJTAG
tooling is needed. Example: Q581E_1.2.3.4.
• Standby SW. Displays the built-in stand-by processor
software version. Upgrading this software will be possible
via ComPair or via USB (see chapter Software upgrade).
Example: STDBY_3.0.1.2.
• MOP SW. Only applicable for US. At the time of release of
this manual, there was still a problem with this item, and
some rubbisch was displayed. Ignore this.
• Pacific 3 Flash SW. Displays the Pacific 3 software
version.
• NVM version. Displays the NVM version as programmed
by factory.
• Display parameters. for development purposes only.
• Private PQ parameters. for development purposes only.
• Public PQ parameters. for development purposes only.
• Ambilight parameters. for development purposes only.
• Acoustics parameters. for development purposes only.
• DFI software (if applicable). Displays the DFI EPLD
software.
• DFI ambilight software (if applicable). Displays the DFI
ambilight EPLD software.
Service Modes, Error Codes, and Fault Finding
How to Exit CSM
Press “MENU” on the RC-transmitter.
Service Modes, Error Codes, and Fault Finding
EN 21Q528.1E LA 5.
5.3 Stepwise Start-up
There are two possible situations: one for protections detected
by the stand-by software and one for protections detected by
the main software.
When the TV is in a protection state due to an error detected by
stand-by software (and thus blinking an error) and SDM is
activated via short-circuiting the pins on the SSB, the TV starts
up until it reaches the situation just before protection. So, this
is a kind of automatic stepwise start-up. In combination with the
start-up diagrams below, you can see which supplies are
present at a certain moment. Important to know is, that if e.g.
the 3V3 detection fails (and thus error 8 is blinking) and the TV
is restarted via SDM, the Stand-by Processor will enable the
3V3, but will not go to protection now. The TV will stay in this
situation until it is reset (Mains/AC Power supply interrupted).
Caution: in case the start up in this mode with a faulty FET
7U01 is done, you can destroy all IC’s supplied by the +3V3,
Mains
off
Off
Mains
on
due to overvoltage. It is recommended to measure first the FET
7U01 on short-circuit before activating SDM via the service
pads.
When the TV is in protection state due to an error detected by
main software (MIPS protection) and SDM is activated via
short cutting the service pads on the SSB, the TV starts up and
ignores the error.
In this chassis, only error “63” (power-ok) is a MIPS protection
and already displays the failure via blinking LED.
The abbreviations “SP” and “MP” in the figures stand for:
• SP: protection or error detected by the Stand-by
Processor.
• MP: protection or error detected by the MIPS Main
Processor.
- WakeUp requested
- Acquisition needed
- No data Acquisition
required
- tact SW pushed
- last status is hibernate
after mains ON
Tact switch
pushed
- Tact switch Pushed
- last status is hibernate
after mains ON
St by
Hibernate
On
In US region, hibernate state and tact switch are not available.
Here the local keyboard tact switch acts as standby button.
Figure 5-3 Transition diagram
Semi
St by
GoToProtection
WakeUp
requested
- St by requested
- tact SW pushed
WakeUp
requested
(SDM)
Protection
Active
GoToProtection
H_16770_116.eps
270307
EN 22 Q528.1E LA5.
Service Modes, Error Codes, and Fault Finding
Off/Stby to Semi
action holder: MIPS
action holder: St-by
autonomous action
The availability of the supplies is checked through detect
signals going to the st-by µP. These signals are available
for +12V and +5V (combined as AND function, called
detect-5V-12V) and for +1V2 and +3V3 (combined as
AND function, called detect-1V2-2V5-3V). A low to hi gh
transition of the signals should occur within a certain time
after toggling the standby line. If an observer is detected
before the time-out elapses, of course, the process
should continue in order to minimize start up time.
Off
Mains is applied
Standby Supply starts running.
All standby supply voltages become available.
st-by µP resets
All I/O lines have a High default state:
- Switch PNX8535 in reset (active LOW).
- NVM power line i s high, no NVM communication possible.
Initialise I/O pins of the st-by µP, start keyboard scanning, RC
because of the stby µP reset in an FHP set) which will start the
Switch ON Platform and display supply by s witching LOW the
- Keep the Audio-reset high.
detection. Wake up reasons are off.
PDPGO l ine is high (either HW wise in a non FHP set or
FHP PDP.
POD-MODE and the ON-MODE I/O lines.
+5V, and +12V are switched on
Wait 50ms and then start polling the detect-
5V-12V every 40ms.
detect-5V-12V received within
2900 ms after POD-mode I/O
line toggle?
Stand by or
Protection
If the protection state was left by short circuiting the
SDM pins, detecti on of a protection condition during
startup will stal l the startup. Protection condi tions in a
playing set will be ignored. The protection mode will
No
not be entered.
- Switch Audio-Reset high.
It is low in the standby mode if the standby
mode lasted longer than 10s.
Display supply is switched on
through the ON-mode I/O line
“5V 12V supply” error
Yes
activat e +5 V/+1 2V supp ly
detection algorithm. See CHS protecti ons.
Enable the +1V2 supply (ENABLE-1V2)
Wait 100ms
Enable the supply for
+1.8V and +3.3V (ENABLE-3V3)
Start polling the detect-1V2-2V5-3V3
every 40ms
Detection
received within
250 ms after enable-3V3
toggle?
Yes
Activate supply detection algorithms for DC-
DC outputs
Wait 20ms
SUPPLY-FAULT I/O line
is High?
SP
50ms is used in the Jaguar platform.
100ms is recommended by the
PNX8535 spec.
No separate enable is present
for the +1V8 supply in the
TV520.
Only one detect line is present
in the TV520: it detects +1V2
and +3V3
No
1V2 2V5 3V3 DCDC error
SP
No
Supply fault error
The supply fault line is an OR
functi on of DCDC , DCDC5050
and POD/CI supply switch.
H_16770_109a.eps
110507
Figure 5-4 “Off” to “Semi Stand-by” flowchart (part 1)
Service Modes, Error Codes, and Fault Finding
EN 23Q528.1E LA 5.
SUPPLY-FAULT I/O line
is High?
No
Switch LOW the RE SET-NVM_WP-NANDFLASH line. Add a 2ms delay before
trying to address the NVM to all o w correct NVM initialization.
(pulling pin of the probe interface to
ground by inserting EJTAG probe)
No
No
Release AVC system reset
Feed warm boot script
Yes
Enable the supply fault detection
algorithm
Set I²C slave address
of Standby µP to (A0h)
Detect EJTAG debug probe
EJTAG probe
connected ?
No
Cold boot?
Yes
Release AVC system reset
Feed cold boot script
No
Supply fault error
SP
This will allow access to NVM and
NAND FLASH and can not be done
earlier because the FLASH needs to
be in Write Protect as long as the
supplies are not available.
An EJTAG probe (e.g. WindPower ICE probe) can
be connected for Linux Kernel debuggi ng purposes.
Yes
Release AVC system reset
Feed initializing boot script
disable alive mechanis m
The supply fault line is an OR
functi on of DCDC , DCDC5050
and POD/CI supply switch.
No
Code = 5
Switch AVC PNX8535
in reset (active low)
Wait 10ms
Switch the NVM reset
line HIGH.
Disable all supply related protections and
switch off the +2V5, +3V3 DC/DC converter.
Wait 5ms
Boot process of the PNX5050 also starts at this point. For full details,
see PNX5050 System Design document of Peter Deckmyn.
Bootscript ready
in 1250 ms?
Yes
Set I²C slave address
of Standby µP to (60h)
RPC start (comm. protocol)
No
Code = 53
Flash to Ram image
transfer succeeded
within 3 0s?
Yes
No
SW initialization
succeeded
within 2 0s?
Yes
Enable Alive check mechanism
MIPS reads the wake up reason
from standby µP.
In case of an LCD set, check the
Power-OK display line
Wait until AVC starts to
communicate
3-th try?
switch off the remaining DC/DC
converters
Switch POD-MODE and ON-MODE
I/O line high.
Power-ok display high?
Yes
Reset the Pacific by pulling LOW the Pacific
hardw are res et li ne during 100ms .
No
Figure 5-5 “Off” to “Semi Stand-by” flowchart (part 2)
Log power-ok error and enter
protection
No
MP
H_16770_109b.eps
110507
EN 24 Q528.1E LA5.
Service Modes, Error Codes, and Fault Finding
switch off the remaining DC/DC
3-th try?
Yes
Blink Code as
error code
Switch POD-MODE and ON-MODE
SP
- Channeldecoder type TDA10060
cannot be reloaded without reset
of the channeldecoder.
- Channeldecoder type TDA10048
can be reloaded without reset .
converters
I/O line high.
Channel decoder
TDA 10048?
No
Third try? No
Power-ok display high? No
Yes
Reset the Pacific by pulling LOW the Pacific
hardw are res et li ne during 100ms .
Release Pacific reset
and wait 200ms
Ping the Paci fic through I²C
Pacific acknowledges?
Yes
Init Pacific according us e case:
- lvds or CMOS input and output
- panel config…
to be discussed with Stefan / SW if we will put this here or in
the display excel overview of Stefan or in …..
Enable the Pacific output by se nding the PanelConfig.PanelOn
to the Pacific in case of a DFI set
Start 4 seconds preheating timer in case of
an LPL scanning bac klight LCD set.
Initialize audio according FMS information :
YesNo
Download firmware into the channel
decoder
Downloaded
successfully?
Log power-ok error and enter
protection
No
MP
Third Pacific boot retry?No
Yes
Log Pacific error
This is needed here because the Pacific has to
deliver an output clock towards the DFI. Otherwis e
the DFI cannot deliver ambilight functionality in the
lampadaire mode. The presence of the DFI can be
determined via the display option.
Yes
Log channel decoder error
Yes
initialize tuner, Master IF and channel
decoder according FMS information
Initialize source selection according FMS
and CHS information
Wait until Cpipe delivers a stable output
Initialize video processing IC 's according FMS information:
- PNX5050 in /82
-scaler EPLD
initialize AutoTV by triggering CHS AutoTV Init interface
See appropriate CHS documents for further details.
Initialize Pacific or EPLD related Ambilight
Do not enter semi-standby state in case of an LPL
scanning bac klight LCD set before 4s preheating timer has
elapsed.
clock
Reset EPLD
Wait 100ms
Reset Pacific clock
settings (if applicable)
Initialize Ambilight with Lights off.
EPLD
and
Pacific
should
be reset
when a
stable
input
clock
become
s
available
at their
input.
Semi-Standby
Figure 5-6 “Off” to “Semi Stand-by” flowchart (part 3)
H_16770_109c.eps
110507
Service Modes, Error Codes, and Fault Finding
Semi Standby
Wait until previous on-state is left more than 2
seconds ago. (to prevent LCD display problems)
Assert RGB video blanki ng
and audio mute
EN 25Q528.1E LA 5.
action holder: AVC
action holder: St-by
autonomous action
Rewrite Pacific register 0x03 (output format):
this command is sometimes not processed properly by the
Pacific at initialisation time , resending it here solves the issue.
Switch on the displ ay by sending the
PanelConfig.PanelO n (I²C) command to the Pacific
wait 250ms (min. = 200ms)
Switch off the dimming bac klight feature and
make sure PW M output is set to 100%
Switch on LCD backli ght
The higher level requirement is that
audio and video should be demuted
without transient effects and that the
audio should be demuted maximum 1s
before or at the same time as the
unblanking of the video.
Initialize audio and video
processing IC's and functions
according needed use cas e.
Wait unti l valid and stable audio and video, corresponding to
the requested output is delivered by the AVC AND the
backlight PWM has been on for 1second.
Switch Audio-Reset low and wait 5ms
Release audi o mute and wait 100ms before any other audio
handling is done (e.g. volu me change)
Restore dimming backli ght feature, PWM output and unblank
the video.
Active
Figure 5-7 “Semi Stand-by” to “Active” flowchart non DFI
H_16770_110.eps
290307
EN 26 Q528.1E LA5.
Service Modes, Error Codes, and Fault Finding
action holder: AVC
action hol d er: St-by
autonomous action
Semi Standby
Wait until previous on-state is left more than 2
seconds ago. (to prevent LCD display problems)
Assert RGB video blanking
and audio mute
Setting the display related timings of the DFI is not needed: The
displ ay related timings are hardcoded in the DFI
Rewrite Pacific register 0x03 (output format) with TcuUpdate: this
command is sometimes not processed properly by the Pacific at
initialisation time, resending it here solves the issue.
Switch on the display panel and the lvds via
the OutputEnableDFI command
wait 250ms (min. = 200ms)
Switch off the dimming backlight feature and
make sure PWM output is set to 100%
Switch on LCD backlight
The higher level requirement is that
audio and vi deo should be demuted
without transient effects and that the
audio should be demuted maximum 1s
before or at the same time as the
unblanki ng of the video.
Initialize audio and video
processing IC's and functions
according needed use case.
Wait until valid and stable audio and video, corresponding to
the requested output is del ivered by the AVC AND the
backlight PWM has been on for 1second.
Switch Audio-Reset low and wait 5ms
Release audio mute and wai t 100ms before any other audio
handling is done (e.g. volume change)
Restore dimming backlight feature, PWM output and unblank
the video.
Active
Figure 5-8 “Semi Stand-by” to “Active” flowchart DFI
H_16770_111.eps
290307
Service Modes, Error Codes, and Fault Finding
EN 27Q528.1E LA 5.
Active
Mute all sound outputs via so ftmute
Wait 100ms
Set main amplifier mute (I/O: audio-mute)
Force ext audio outputs to ground
(I/O: audio reset)
And wait 5ms
switch off LCD backlight
action holder: AVC
action holder: St-by
autonomous action
Mute all video outputs
Wait 250ms (min. = 200ms)
Switch off the display by sending the
PanelConfig.PanelOff (I²C) command to the Pacific
switch off ambient light
Semi Standby
Figure 5-9 “Active” to “Semi Stand-by” flowchart (non-DFI)
H_16770_112.eps
260307
EN 28 Q528.1E LA5.
Service Modes, Error Codes, and Fault Finding
Active
Mute all sound outputs via s oftmute
Wait 100ms
Set main amplifier mute (I/O: audio-mute)
Force ext audio outputs to ground
(I/O: audio reset)
And wait 5ms
switch off LCD backl ight
action holder: MIPS
action holder: St-by
autonomous action
Mute all video outputs
Wait 250ms (min. = 20 0ms)
Switch off the displ ay by clearing the OutputEnable
control register in the DFI
switch off ambient light
Semi Standby
Figure 5-10 “Active” to “Semi Stand-by” flowchart (DFI)
H_16770_113.eps
260307
Service Modes, Error Codes, and Fault Finding
EN 29Q528.1E LA 5.
Semi Stand by
If ambientlight functionality was used in semi-standby
(l ampadaire mode), switch off ambient light
Delay transi tion until ramping down of ambient light is
finished. *)
transfer Wake up reasons to the Stand by µP.
Switch Memories to self-refresh (this creates a more
stable condition when switching off the power).
Switch AVC system in reset state
action holder: MIPS
action holder: St-by
autonomous action
*) If this i s not performed and the set is
switched to standby when the switch off of
the ambilights is still ongoing, the lights will
switch off abruptly when the supply is cut.
Important remark:
release reset audio 10 sec after
entering standby to save power
Wait 10ms
Switch the NVM reset line HIGH.
Disabl e all supply related protections and switch off
the +1V8 and the + 3 V3 DC/DC c onverter
Wait 5ms
switch off the +1V2 DC/DC converters
Switch OFF all supplies by switching HIG H the POD-
MODE and the ON-MODE I/O lines.
Stand by
For PDP this means
CPUGO becomes low.
H_16770_114.eps
260307
Figure 5-11 “Semi Stand-by” to “Stand-by” flowchart
EN 30 Q528.1E LA5.
Service Modes, Error Codes, and Fault Finding
action holder: MIPS
action holder: St-by
autonomous action
MP
Log the appropriate error and
set stand-by flag in NVM
Redefine wake up reasons for protection
state and transfer to stand-by µP.
Switch off LCD lamp supply
Wait 250ms (min. = 200ms)
Switch off LVDS signal
Switch off 12V LCD supply within a time frame of
min. 0.5ms to max. 50ms after LVDS switch off.
Ask stand-by µP to enter protection state
SP
Switch AVC in reset state
Wait 10ms
Switch the NVM reset line HIGH.
Disable all s upply related protections and switch off
the +1V8 and the +3V3 DC/DC converter.
Wait 5ms
switch off the +1V2 DC/DC converter
Switch OFF all supplies by switching HIGH the POD-
MODE and the ON-MODE I/O lines.
Flash the Protection -LED i n order to indicate
protection state* .
(*): This can be the standby LE D or the ON LED
depending on the availability in the set under
discussion.
Protection
Figure 5-12 “Protection” flowchart
H_16770_115.eps
290307
Service Modes, Error Codes, and Fault Finding
EN 31Q528.1E LA 5.
5.4 Service Tools
5.4.1 ComPair
Introduction
ComPair (Computer Aided Repair) is a Service tool for Philips
Consumer Electronics products. and offers the following:
1. ComPair helps you to quickly get an understanding on how
to repair the chassis in a short and effective way.
2. ComPair allows very detailed diagnostics and is therefore
capable of accurately indicating problem areas. You do not
have to know anything about I2C or UART commands
yourself, because ComPair takes care of this.
3. ComPair speeds up the repair time since it can
automatically communicate with the chassis (when the uP
is working) and all repair information is directly available.
4. ComPair features TV software upgrade possibilities.
Specifications
ComPair consists of a Windows based fault finding program
and an interface box between PC and the (defective) product.
The (new) ComPair II interface box is connected to the PC via
an USB cable. For the TV chassis, the ComPair interface box
and the TV communicate via a bi-directional cable via the
service connector(s).
The ComPair fault finding program is able to determine the
problem of the defective television, by a combination of
automatic diagnostics and an interactive question/answer
procedure.
How to Connect
This is described in the chassis fault finding database in
ComPair.
ComPair II
RC in
Optional
Switch
Power ModeLink/
Activity
RC out
I2C SERVICE
CONNECTOR
Multi
function
TO TV
TO
2
C
I
OR
RS232 /UART
TO
UART SERVICE
CONNECTOR
5.4.2 LVDS Tool
Introduction
This Service tool (also called “ComPair Assistant 1“) may help
you to identify, in case the TV does not show any picture,
whether the Small Signal Board (SSB) or the display of a Flat
TV is defective. Thus to determine if LVDS, RGB, and sync
signals are okay.
When operating, the tool will show a small (scaled) picture on
a VGA monitor. Due to a limited memory capacity, it is not
possible to increase the size when processing high-resolution
LVDS signals (> 1280x960). Below this resolution, or when a
DVI monitor is used, the displayed picture will be full size.
How to Connect
Connections are explained in the user manual, which is packed
with the tool. The LVDS cables included in the package cover
most chassis. For some chassis, a separate cable must be
ordered.
Note: To use the LVDS tool, you must have ComPair release
2004-1 (or later) on your PC (engine version >= 2.2.05).
For every TV type number and screen size, one must choose
the proper settings via ComPair. The ComPair file will be
updated regularly with new introduced chassis information.
How to Order
• LVDS tool (incl. two LVDS cables: 31p and 20p, covering
chassis BJx, EJx, FJx and LC4.1): 3122 785 90671.
• LVDS tool Service Manual: 3122 785 00810.
• LVDS cable 20p/DF -> 20p/DF (standard with tool):
3122 785 90731.
• LVDS cable 31p/FI -> 31p/FI (standard with tool):
3122 785 90662.
For other chassis, a separate LVDS cable must be ordered.
Refer to table “LVDS cable order number” for an overview of all
available cables.
Table 5-2 LVDS cable order number
PC
ComPair II Developed by Philips Brugge
Optional power
HDMI
2
I
C only
5V DC
G_06532_036.eps
260107
Figure 5-13 ComPair II interface connection
Caution: It is compulsory to connect the TV to the PC as
shown in the picture above (with the ComPair interface in
between), as the ComPair interface acts as a level shifter. If
one connects the TV directly to the PC (via UART), ICs will be
blown!
How to Order
ComPair II order codes:
• ComPair II interface: 3122 785 91020.
• ComPair32 CD (update): 3122 785 60160.
• ComPair interface cable: 3122 785 90004.
• ComPair interface extension cable: 3139 131 03791.
• ComPair UART interface cable: 3122 785 90630.
• ComPair UART interface cable for Q52x.x
(using 3.5 mm Mini Jack connector): 3104 311 12742.
Note: If you encounter any problems, contact your local
support desk
Chassis LVDS cable order number Remarks
BJ2.4 3122 785 90662
BJ2.5 3122 785 90662
BJ3.0 3122 785 90662
BJ3.1 3122 785 90662
EJ2.0 3122 785 90662
EJ3.0 3122 785 90662
EL1.1 3122 785 90662 1 / 3122 785 90821
FJ3.0 3122 785 90662
FTL2.4 3122 785 90662
LC4.1 3122 785 90731 1 / 3122 785 90851
LC4.3 3122 785 90821
LC4.31 31 22 785 90821
LC4.41 31 22 785 90662
LC4.8 3122 785 90662
LC4.9 3122 785 90662
LC7.x t.b.d.
JL2.1 3122 785 90861
Q52x.x t.b.d.
1
1
1
1
1
1
1
1, 2
1, 2
/ 3122 785 90851 Only for 26 & 32” sets.
1, 2
/ 3122 785 90851
1, 2
/ 3122 785 90851 MFD variant only.
Notes:
1. Included in LVDS tool package.
2. Pins “27” and “28” must be grounded or not connected.
5.5 Error Codes
5.5.1 Introduction
The error code buffer contains all detected errors since the last
time the buffer was erased. The buffer is written from left to
EN 32 Q528.1E LA5.
Service Modes, Error Codes, and Fault Finding
right, new errors are logged at the left side, and all other errors
shift one position to the right.
When an error occurs, it is added to the list of errors, provided
the list is not full. When an error occurs and the error buffer is
full, then the new error is not added, and the error buffer stays
intact (history is maintained).
To prevent that an occasional error stays in the list forever, the
error is removed from the list after more than 50 hrs. of
operation.
When multiple errors occur (errors occurred within a short time
span), there is a high probability that there is some relation
between them.
Basically there are three kinds of errors:
• Errors detected by the Stand-by software. These errors
will always lead to protection and an automatic start of the
blinking LED for the concerned error (see paragraph “The
Blinking LED Procedure”). In these cases SDM can be
used to start up (see chapter “Stepwise Start-up”). Note
that it can take up to 90 seconds before the TV goes to
protection and starts blinking the error (e.g. error 53)
• Errors detected by main software that lead to
protection. In this case the TV will go to protection and the
front LED should also blink the concerned error. See also
paragraph “Error Codes” -> “Error Buffer” -> “Extra Info”.
For this chassis only error 63 is a protection error detected
by main software.
• Errors detected by main software that do not lead to
protection. In this case the error will be logged into the
error buffer and can be read out via ComPair, via blinking
LED method, or in case you have picture, via SAM.
Take notice that some errors need more than 90 seconds
before they start blinking or before they will be logged. So in
case of problems wait 2 minutes from start-up onwards, and
then check if the front LED is blinking or if an error is logged.
5.5.2 How to Read the Error Buffer
Use one of the following methods:
• On screen via the SAM (only if you have a picture). E.g.:
– 00 00 00 00 00: No errors detected
– 06 00 00 00 00: Error code 6 is the last and only
detected error
– 09 06 00 00 00: Error code 6 was first detected and
error code 9 is the last detected error
• Via the blinking LED procedure (when you have no
picture). See next paragraph.
•Via ComPair.
• Via CSM. when CSM is activated the blinking LED
procedure will start and the CSM content will be written to
a USB stick (if present).
5.5.3 How to Clear the Error Buffer
Use one of the following methods:
• By activation of the “RESET ERROR BUFFER” command
in the SAM menu.
• With a normal RC, key in sequence “MUTE” followed by
“062599” and “OK”.
• If the content of the error buffer has not changed for 50+
hours, it resets automatically.
5.5.4 Error Buffer
In case of non-intermittent faults, clear the error buffer before
you begin the repair (before clearing the buffer, write down the
content, as this history can give you significant information).
This to ensure that old error codes are no longer present.
If possible, check the entire contents of the error buffer. In
some situations, an error code is only the result of another error
code and not the actual cause (e.g., a fault in the protection
detection circuitry can also lead to a protection).
There are several mechanisms of error detection:
• Via error bits in the status registers of ICs.
• Via polling on I/O pins going to the stand-by processor.
• Via sensing of analogue values on the stand-by processor
or the PNX8535.
• Via a “not acknowledge” of an I
2
C communication.
Service Modes, Error Codes, and Fault Finding
EN 33Q528.1E LA 5.
Table 5-3 Error code overview
Error Description Error/Prot Detected by Device Result
2
3I
C3 E MIPS PNX8535 Error logged
5 PNX8535 does not boot (HW cause) E Stby P PNX8535 Error blinking
6 5V, 12V supply P Stby P / Protection + Error blinking
8 1V2, 1V4, 2V5, 3V3 supply P Stby P / Protection + Error blinking
9 Supply fault P Stby P / Protection + Error blinking
2
C-MUX1 E MIPS PCA9540 Error logged
11 I
2
C-MUX2 E MIPS PCA9540 Error logged
12 I
22 PNX5050 E MIPS PNX5050 Error logged
23 HDMI mux E MIPS AD8190/AD8191 Error logged
2
C switch E MIPS PCA9540 Error logged
24 I
26 Master IF E MIPS TDA9898/9897/9890 Error logged
1)
28 MOP (Ambilight MOP on DFI panel)
E MIPS EP2CXXF484C7N Error logged
34 Tuner E MIPS TD1716 Error logged
37 Channel decoder E MIPS TDA10060/
Error logged
TDA10048
46 Pacific3 E MIPS T6TF4 Error blinking + Error logged
53 PNX 8535 does not boot (SW cause) E Stby P PNX8535 Error blinking
63 Power OK E/P MIPS / Error logged in case of a PDP set
Protection in case of an LCD set
65 DFI (EPLD on DFI panel)
1)
E MIPS / Error blinking + Error logged
Note
1). Where applicable.
Extra Info
• Rebooting. When a TV is constantly rebooting due to
internal problems, most of the time no errors will be logged
or blinked. This rebooting can be recognized via a ComPair
interface and Hyperterminal (for Hyperterminal settings,
see paragraph “Stand-by software upgrade). You will see
that the loggings which are generated by the main software
keep continuing. In this case (rebooting) diagnose has to
be done via ComPair.
• Error 3 (I
2
C bus 3 blocked). At the time of release of this
manual, this error was not working as expected (error 3 is
logged and can be read out). Current situation: when this
error occurs, the TV will constantly reboot due to the
blocked bus. The best way for further diagnosis here, is to
use ComPair (e.g. read out the NVM content). Instead of
error “3” it is possible you will see error “2” in the error
buffer.
• Error 5 (PNX8535 doesn’t boot). Indicates that the main
processor was not able to read his bootscript. This error will
point to a hardware problem around the PNX8535
(supplies not OK, PNX 8535 completely dead, I
between PNX and Stand-by Processor broken, etc...).
When error 5 occurs it is also possible that I
blocked (NVM). I
2
C2 can be indicated in the schematics as
2
C link
2
C2 bus is
follows : SCL-UP-MIPS, SDA-UP-MIPS, SCL-SLAVE,
SDA-SLAVE, SCL-2 or SDA-2.
• Error 11 (I
2
I
C-MUX1 bus. At the time of release of this manual, this
error was not working as expected.
• Error 12 (I
2
I
C-MUX2 bus. At the time of release of this manual, this
error was not working as expected.
• Error 24 (I
2
C MUX1). Indicates a blocked (short-circuited)
2
C MUX2). Indicates a blocked (short-circuited)
2
C switch). As a side effect of error 24 it is
possible that error 47(no existing error) will also be logged.
• Error 28 (DFI Ambilight MOP). It can take up to 2 minutes
or more before this error is logged. So if you suspect that
this MOP is defective: clear the error buffer, restart the TV
and wait for about 2 minutes before checking the error
buffer.
• Error 37 (Channel decoder). When this error occurs,
there probably will be no picture and sound from tuner
input. As a side effect of error 37 it is possible that error 4
(no existing error) is also logged.
• Error 46 (Pacific 3). When there is an actual problem with
or around the Pacific during start-up, you will have no
picture and error 46 will be blinked via the blinking LED
procedure. For further diagnosis you can always dump the
CSM content on USB stick (see CSM) or use ComPair.
• Error 53. This error will indicate that the PNX8535 has
read his bootscript (if this would have failed, error 5 would
blink) but initialization was never completed because of
hardware problems (NAND flash, ...) or software
initialization problems. Possible cause could be that there
is no valid software loaded (try to upgrade to the latest main
software version). Note that it can take up to 2 minutes
before the TV starts blinking error 53.
• Error 63 (POWER OK). When this error occurs, it means
that the POWER-OK line did not became “high”. This error
is only applicable for TV’s with an LCD display. For PDP
displays there will be no protection during a POWER-OK
line failure, but error 63 will be logged in the error buffer.
Caution: in case a PDP TV ends up into power-ok
protection, it can indicate that the display option code is set
to “LCD”. To change the display option code to “PDP” you
need to activate SDM via the service pads (see figure
“Service mode pads”). Then change the display option
code blindly via a standard RC : key in the code “062598”
directly followed by the “MENU” button and “XXX” (where
XXX is the 3 digit decimal display option code as
mentioned in figure “Display option code overview”).
• Error 65 (DFI EPLD error). When this error occurs it
means that there is a problem with the I
2
towards the EPLD (picture processing EPLD, not the
Ambilight EPLD) on the DFI panel.
5.6 The Blinking LED Procedure
5.6.1 Introduction
The blinking LED procedure can be split up into two situations:
• Blinking LED procedure in case of a protection. In this case
the error is automatically blinked. This will be only one
error, namely the one that is causing the protection.
Therefore, you do not have to do anything special, just read
out the blinks. A long blink indicates the decimal digit, a
short blink indicates the units.
• Blinking LED procedure in the “on” state. Via this
procedure, you can make the contents of the error buffer
C communication
EN 34 Q528.1E LA5.
Service Modes, Error Codes, and Fault Finding
visible via the front LED. This is especially useful for fault
finding, when there is no picture.
When the blinking LED procedure is activated in the “on” state,
the front LED will show (blink) the contents of the error-buffer.
Error-codes > 10 are shown as follows:
1. “n” long blinks (where “n” = 1 - 9) indicating decimal digit,
2. A pause of 1.5 s,
3. “n” short blinks (where “n”= 1 - 9),
4. A pause of approx. 3 s,
5. When all the error-codes are displayed, the sequence
finishes with a LED blink of 3 s,
6. The sequence starts again.
Example: Error 12 8 6 0 0.
After activation of the SDM, the front LED will show:
1. 1 long blink of 750 ms (which is an indication of the decimal
digit) followed by a pause of 1.5 s,
2. 2 short blinks of 250 ms followed by a pause of 3 s,
3. 8 short blinks followed by a pause of 3 s,
4. 6 short blinks followed by a pause of 3 s,
5. 1 long blink of 3 s to finish the sequence,
6. The sequence starts again.
5.6.2 How to Activate
Use one of the following methods:
• Activate the SDM or CSM. The blinking front LED will
show the entire contents of the error buffer (this works in
“normal operation” mode).
• Transmit the commands “MUTE” - “062500” - “OK”
with a normal RC. The complete error buffer is shown.
Take notice that it takes some seconds before the blinking
LED starts.
• Transmit the commands “MUTE” - “06250x” - “OK”
with a normal RC (where “x” is a number between 1 and
5). When x= 1 the last detected error is shown, x= 2 the
second last error, etc.... Take notice that it takes some
seconds before the blinking LED starts.
5.7 Protections
5.7.1 Software Protections
Most of the protections and errors use either the stand-by
microprocessor or the MIPS controller as detection device.
Since in these cases, checking of observers, polling of ADCs,
and filtering of input values are all heavily software based,
these protections are referred to as software protections.
There are several types of software related protections, solving
a variety of fault conditions:
• Protections related to supplies: check of the 12V, +5V,
+1V2, +1V4, 2V5 and +3V3.
• Protections related to breakdown of the safety check
mechanism. E.g. since the protection detections are done
by means of software, failing of the software will have to
initiate a protection mode since safety cannot be
guaranteed any more.
Remark on the Supply Errors
The detection of a supply dip or supply loss during the normal
playing of the set does not lead to a protection, but to a cold
reboot of the set. If the supply is still missing after the reboot,
the TV will go to protection.
Protections during Start-up
During TV start-up, some voltages and IC observers are
actively monitored to be able to optimise the start-up speed,
and to assure good operation of all components. If these
monitors do not respond in a defined way, this indicates a
malfunction of the system and leads to a protection. As the
observers are only used during start-up, they are described in
the start-up flow in detail (see paragraph “Stepwise Start-up").
5.7.2 Hardware Protections
The only real hardware protection in this chassis is (in case of
an audio problem) the audio protection circuit that will switch
“off” immediately the supply of the SSB. The supply will buzz
during the protection and +12VS drops to approx. 5V5 and +5V
Stand-by to approx. to 1V9. Other indication of the audio
protection is that the red LED lights up with an intensity of 50%.
Repair Tips
• It is also possible that you have an audio DC protection
because of an interruption in one or both speakers (the DC
voltage that is still on the circuit cannot disappear through
the speakers). Caution: (dis)connecting the speaker wires
during the ON state of the TV at high volume can damage
the audio amplifier.
5.8 Fault Finding and Repair Tips
Read also paragraph "Error Codes" -> "Error Buffer" -> "Extra
Info".
5.8.1 Ambilight
Due to a degeneration process of the ambilights, it is
recommended to change both ambilight units in case one unit
needs to be repaired.
5.8.2 Audio Amplifier
It is recommended to replace all components at once (7D06,
7D09, 3D01, 3D25) when a defective FET 7D10 needs to be
fixed. For the left channel (defective FET 7D35) of the audio
amplifier replace all components like 7D31, 7D34, 3D11, 3D28.
5.8.3 CSM
When you activate CSM and there is a USB stick connected to
the TV, the software will dump the complete CSM content to the
USB stick. The file (Csm.txt) will be saved in the root of your
USB stick. If this mechanism works you can conclude that a
large part of the operating system is already working (MIPS,
USB...)
5.8.4 DC/DC Converter
Introduction
• The best way to find a failure in the DC-DC converters is to
check their starting-up sequence at “power-on via the
mains cord”, presuming that the standby microprocessor is
operational.
• If the input voltage of DC-DC converters is around 12.7V
(measured on decoupling capacitors 2U03/2U93/2U6S
and 2U6R) and the enable signals are "low" (active) then
the output voltages should have their normal values. +12V
and +5V-POD supplies start-up first (enabled by PODMODE signal from the standby microprocessor). There is a
supplementary condition for +12V to start-up: if +5V-POD
does not start up due to a local defect, then +12V will not
be available as well. +5V-ON supply is enabled by the ONMODE signal (coming also from the standby
microprocessor) and is coming up a little bit later (20 ms)
due to the slower rise time needed to charge the USB
decoupling capacitor 2N31. +1V2 supply starts-up when
+12V appears, then at least 100 ms later, +1V8, +2V5 and
+3V3 will be activated via the ENABLE-3V3 signal from the
standby microprocessor. If +12V value is less than 10 V
then the last enumerated voltages will not show-up due to
the under-voltage detection circuit 6U10 + 7U10 and
surrounding components. Furthermore, if +12V is less than
8V then also +1V2 will not be available. The third DC-DC
convertor that delivers +1V4 out of +12V is started up when
Service Modes, Error Codes, and Fault Finding
EN 35Q528.1E LA 5.
the ENABLE-1V2 becomes active (low) and +12V is
present. The +Vtun generator (present only for the
analogue version of China platforms) will generate +33V
for the analogue tuner as soon as the 12V/3.3V DC-DC
converter will start to operate.
• The consumption of controller IC 7U00 is around 19 mA
(that means almost 200 mV drop voltage across resistor
3U01) and the consumption of controller IC 7U64 is around
12 mA.
• The current capability of DC-DC converters is quite high
(short-circuit current is 7 to 10 A), therefore if there is a
linear integrated stabiliser that, for example, delivers 1.8V
from +3V3 with its output overloaded, the +3V3 stays
usually at its normal value even though the consumption
from +3V3 increases significantly.
• The +1V8 and +2V5 supply voltages are obtained via linear
stabilizer made with discrete components that can deliver
a lot of current, therefore in case +1V8 or +2V5 are shortcircuited to GND then +3V3 will not have the normal value
but much less.
• The SUPPLY-FAULT signal (active low) is an internal
protection (error 9) of the DC-DC convertor and will occur
if the output voltage of any DC-DC convertor is out of limits
(10% of the normal value).
Fault Finding
• Symptom: +1V2 not present (even for a short while
~10 ms)
1. Check 12 V availability (resistor 3U01, MOS-FETs
7U03 and 7U08), value of +12 V, +12 V switch (7U14
+ 7U16 and surrounding components) and +5V-POD.
2. Check the voltage on pin 9 (1.5 V),
3. Check for +1V2 output voltage short-circuit to GND that
can generate pulsed over-currents 7...10 A through coil
5U02.
4. Check the over-current detection circuit (2U20 or 3U40
interrupted).
• Symptom: +1V4 not present (even for a short while
~10ms) while +12V is okay (also across input capacitors
2U6S and 2U6R).
1. Check resistor 3U7B and power MOS-FETs 7U61-1/2
2. Check the voltage on pin 4 (4 V)
3. Check enable signal ENABLE-1V2 (active "low")
4. Check for +1V4 output voltage short-circuit to GND that
can generate pulsed over-currents 7...10 A through coil
5U60
5. Check the over-current detection reference(2U65 +
3U7C) and the boot components (2U66 + 6U60).
• Symptom: +1V2 present for about 100ms, +1V8, +2V5
and +3V3 not rising.
1. Check the ENABLE-3V3 signal (active "low"),
2. Check the voltage on pin 8 (1.5 V),
3. Check the under-voltage detection circuit (the voltage
on collector of transistor 7U10-1 should be less than
0.8 V),
4. Check for output voltages short-circuits to GND (+3V3,
+2V5 and +1V8) that can generate pulsed overcurrents 7...10 A through coil 5U01,
5. Check the over-current detection circuit (2U18 or 3U31
interrupted).
• Symptom: +1V2 OK, +2V5 and +3V3 present for about
100 ms. Possible cause: SUPPLY-FAULT line stays “low”
even though the +3V3 and +1V2 is available - the standby
microprocessor is detecting that and switching "off" all
supply voltages.
1. Check the drop voltage across resistor 3U01 or 3U7B
(they could be too high, meaning a defective controller
IC or MOS-FETs),
2. Check if the boost voltage on pin 4 of controller IC
7U00 is less than 14 V (should be 19 V),
3. Check if +1V2 or +3V3 are higher than their normal
values - that can be due to defective DC feedback of
the respective DC-DC convertor (ex. 3U47, 3U77,
3U7L, 3U7J or 3U70).
• Symptom: +1V2, +1V4, +1V8, +2V5 or +3V3 shows a high
level of ripple voltage (audible noise can come from the
filtering coils 5U01, 5U02 or 5U60). Possible cause:
instability of the frequency and/or duty cycle of a DC-DC
converter or stabilizer.
1. Check the resistor 3U32 and 3U7D, capacitors 2U17
and 2U19, input and output decoupling capacitors.
2. Check a.c. feedback circuits
(2U23+2U24+3U55+3U63 for +1V2,
2U6D+2U6E+2U6G+3U6A+3U7E for +1V4 and
2U07+2U08+3U17+3U24 for +3V3), compensation
capacitors 2U25, 2U34, 2U36, 2U37, 2U40, 2U43,
2U68 and 2U6B.
• Symptom: +1V2, +1V4, +2V5 and +3V3 ok, no +Vtun
(analogue sets only). Possible cause: the “+VTUN
GENERATOR” circuit (7U24+7U26+surroundings
components) is defective: check transistor 7U24 (it has to
have gate voltage pulses of about 10 V amplitude and drain
voltage pulses of about 35 V amplitude) and surroundings
components. A high consumption (more than 6 mA) from
+Vtun voltage can cause also +Vtun voltage to be too low
or zero.
Note: when a pair of power MOSFETs(7U01+7U06,
7U03+7U08 or 7U61-1/2) becomes defective the controller IC
7U00 or 7U64 should be replaced as well.
5.8.5 Exit “Factory Mode”
When an "F" is displayed in the screen's right corner, this
means that the set is in "Factory" mode, and it normally
happens after a new SSB has been mounted.
To exit this mode, push the "VOLUME minus" button on the
TV's keyboard control for 5 seconds and restart the set.
5.8.6 Sanken display supply
The 47” sets in this chassis come with a Sanken buy-in supply.
The result of a failing Sanken display supply, e.g. one of the
following voltages is missing : +400V, +12V or +24V, will lead
to protection (blinking error 63). The set is switched off.
When the primary circuit of the on-board platform supply fails,
there is a high possibility that the main fuse of the Sanken
display supply will break. In this case the Sanken display
supply must not be replaced completely, just replace the
Sanken main value fuse and repair the on-board platform
supply. For safety reasons, make sure to use the correct fuse
type.
5.8.7 SSB service supply connector
Connector 1B40 can be used to apply external supply (+12V
and +5V). In this way you do not need mains supply for
troubleshooting on the SSB. e.g. component level repair.
5.8.8 Tuner
For access to the components located under the tuner itself,
you need to desolder the ground connections and bend the
tuner up. To maintain a good performing tuner you must make
a new ground connection to the SSB, for instance by use of a
wire.
Caution: In case you replace the tuner, always check the tuner
option!
5.8.9 UI over PCI bus
The UI is not integrated in the RGB signal but is sent from
PNX8535 to PNX5050 via the PCI bus. TXT and MHEG are
integrated in the RGB signal. So if you have TXT signal but no
UI, check the PCI bus.
EN 36 Q528.1E LA5.
5.8.10 Display option code
Caution: In case you have replaced the SSB, always check the
display option code in SAM, even if you have picture. With a
wrong display option code it is possible that you have picture,
but that in certain conditions you have unwanted side-effects.
5.8.11 Upgrade EDID NVM
To upgrade the EDID NVM you must short circuit pin 7 of the
EDID NVM to ground. Therefore some test points (EDID1,
EDID2 and EDID3) are foreseen (figure “EDID-NVM pins”).
See ComPair for further instructions.
5.9 Software Upgrading
Service Modes, Error Codes, and Fault Finding
Figure 5-14 EDID-NVM pins
H_16800_122.eps
090507
5.9.1 Introduction
The set software and security keys are stored in a NANDFlash, which is connected to the PNX8535 via the PCI bus.
It is possible for the user to upgrade the main software via the
USB port. This allows replacement of a software image in a
stand alone set, without the need of an E-JTAG debugger. A
description on how to upgrade the main software can be found
in the DFU.
5.9.2 Main Software Upgrade
The software image resides in the NAND-Flash, and is
formatted in the following way (refer to figure “NAND-flash
content”):
Nand Flash content
JFFS2 partition 1
(application read write data)
JFFS2 partition 0
(Application read only once data)
JFFS2 partition 0
(Application read only upgradable data)
SQUASHFS partition
BFFS partition 2 (DVD OK)
BFFS partition 1 (DVD cursor down)
hC
wizard pictures, display file, cabinet file,
upgrade assistant, …
Main software (Mips)
Linux structure (root file system)
Default software upgrade application
TriMedia software
boot batch file 2
Back up software upgrade application
boot batch file 1
Linux kernel
JETT : needed for ComPair
Important: When the NAND-Flash must be replaced, a new
SSB must be ordered, due to the presence of the security
keys!!! (copy protection keys, MAC address, ...).
Perform the following actions after SSB replacement:
1. Set the correct option codes (see sticker inside the TV).
2. Update the TV software (see the DFU for instructions).
3. Perform the alignments as described in chapter 8 (section
“Reset of Repaired SSB”).
4. Check in CSM if the HDMI keys are valid.
For the correct order number of a new SSB, always refer to the
Spare Parts list!
ONE ZIP
FUS UPG UpgradeAll UPG
XXX… ,atad GPE ,elbat lenna
d pu kcab ,syek IMDH
XXX
XXXX
XXXX
XXXX
XX… ,elif yalpsi
FlashUtils UPG
margorpesaremargorpesaremargorpesaretnetnoCnoititraP
BFFS partition 0
Block 0
Jaguar Boot loader
boot batch file 0
µBTM
partition table
Figure 5-15 NAND-Flash content
XX
X
H_16770_099.eps
220307
Service Modes, Error Codes, and Fault Finding
EN 37Q528.1E LA 5.
• The above overview of the NAND Flash shows the content
of the different partitions. It also shows which part of the
one-zip file erases and programs which part of the NAND
Flash.
• Remark: the above does not mean that you can reprogram
your HDMI keys with the "UpgradeAll.upg" file from the one
zip file. This can only be done in a secure environment (e.g.
the factory).
• The "UpgradeAll.upg" file is only used in the factory.
• The "FlashUtils.upg" file is only used by service centra
which are allowed to do component level repair on the
SSB.
Automatic Software Upgrade
In "normal" conditions, so when there is no major problem with
the TV, the main software and the default software upgrade
application can be upgraded with the "AUTORUN.UPG" (FUS
part of the one-zip file: e.g. 3104 337 03801 _FUS _Q581E_
0.37.0.0_commercial.zip). This can also be done by the
consumers themselves, but they will have to get their software
from the commercial Philips website or via the Software Update
Assistant in the user menu (see DFU). The "autorun.upg" file
must be placed in the root of your USB stick.
How to upgrade:
1. Copy "AUTORUN.UPG" to the root of your USB stick.
2. Insert USB stick in the side I/O while the set is in ON
MODE. The set will restart and the upgrading will start
automatically. As soon as the programming is finished, you
will get the message that you can remove your USB stick
and restart the set.
Manual Software Upgrade
In case that the software upgrade application does not start
automatically, you can also start it manually.
How to start the software upgrade application manually:
1. Disconnect the TV from the Mains/AC Power.
2. Press the "OK" button on a Philips DVD RC-6 remote
control (it is also possible to use the TV remote in "DVD"
mode). Keep the "OK” button pressed while reconnecting
the TV to the Mains/AC Power.
3. The software upgrade application will start.
Attention!
In case that you have started the download application
manually, the "autorun.upg" will maybe not be recognized.
What to do in this case:
1. Create a directory "UPGRADES" on your USB stick.
2. Rename the "autorun.upg" to something else, e.g. to
"software.upg". Do not use long or complicated names,
keep it simple. Make sure that "AUTORUN.UPG" is no
longer present in the root of your USB stick.
3. Copy the renamed "upg" file into this directory.
4. Insert USB stick in the side I/O.
5. The renamed "upg" file will be visible and selectable in the
upgrade application.
Back-up Software Upgrade Application
If the default software upgrade application does not start (could
be due to a corrupted boot 2 sector) via the above described
method, you can try to activate the “back-up software upgrade
application”.
How to start the “back-up software upgrade application”
manually:
1. Disconnect the TV from the Mains/AC Power.
2. Press the “CURSOR DOWN” button on a Philips DVD RC6 remote control (it is also possible to use the TV remote in
"DVD" mode). Keep the "cursor down" button pressed
while reconnecting the TV to the Mains/AC Power.
3. The software upgrade application will start.
5.9.3 Stand-by Software Upgrade
There are two methods now to upgrade stand-by software:
Upgrade via USB
In this chassis it is possible to upgrade the Stand-by software
via a USB stick. The method is similar to upgrading the main
software via USB.
Use the following steps:
1. Create a directory “UPGRADES” on your USB stick.
2. Copy the Stand-by software (part of the one-zip file, e.g.
StandbySW_CFT01_9.0.0.0.upg) into this directory.
3. Insert the USB stick into the TV.
4. Start the download application manually (see paragraph
“Manual start of the Software Upgrade Application”.
5. Select the appropriate file and press the "red" button to
upgrade.
Upgrade via PC and ComPair interface
It will be possible to upgrade the Stand-by software via a PC
and the ComPair interface. Check paragraph "ComPair" on
how to connect the interface. To upgrade the Stand-by
software, use the following steps:
1. Disconnect the TV from the Mains/AC Power.
2. Short circuit the SPI pins [2] on the SSB (see figure
“Service mode pads” earlier in this chapter).
3. Keep the SPI pins shorted while connecting the TV to the
Mains/AC Power.
4. Release the short circuit after approx. two seconds.
5. Start up HyperTerminal (can be found in every Windows
application via Programs -> Accessories ->
Communications -> HyperTerminal). Use the following
settings:
–COM1
– Bits per second = 38400 (9600)*
– Data bits = 8
– Parity = none
– Stop bits = 1
– Flow control = None
6. Press “Shift U” on your PC keyboard. You should now see
the following info:
– PNX2015 Loader V1.0
– 19-09-2003
– DEVID=0x05
–Erasing
– MCSUM=0x0000
–=
7. If you do not see the above info, restart the above
procedure, and check your HyperTerminal settings and the
connections between PC and TV.
8. Via “Transfer” -> “Send text file ...”, you can send the
proper upgrade file to the TV (e.g. *.hex).
9. After successful programming, you must see the following
info (this can take several minutes!):
– DCSUM=0xC67E
–:Ok
– MCSUM=0xC67E
– Programming
– PCSUM=0xC67E
–Finished
10. If you do not see this info, restart the complete procedure.
11. Close HyperTerminal.
12. Disconnect and connect Mains/AC Power again.
(*) When having problems with upgrading, use the values
between brackets.
5.9.4 Content and Usage of the One-Zip Software File
Below you find a content explanation of the One-Zip file, and
instructions on how and when to use it.
• 1.1 Ambilight_PRFAM_x.x.x.x.zip. Not to be used by
Service technicians.
• 1.2 Cabinet_ACOUS_x.x.x.x.zip. Not to be used by
Service technicians.
• 1.3 Ceisp2padll_P2PAD_x.x.x.x.zip. Not to be used by
Service technicians. For ComPair development only.
EN 38 Q528.1E LA5.
• 1.4 Display_DISPT_x.x.x.x.zip. Not to be used by Service
technicians.
• 1.5 EDID_Q581X_x.x.x.x.zip. Contains the EDID content
of the different EDID NVM’s. See ComPair for further
instructions.
For sets with three HDMI connectors.
- For HDMI 1 NVM, use “*port 1*.bin
- For HDMI 2 NVM, use “*port 2*.bin
- For HDMI 3 NVM, use “*port 3*.bin
• 1.6 EJTAGDownload_Q581X_x.x.x.x.zip. Only used by
service centra which are allowed to do component level
repair.
• 1.7 Factory_Q581X_x.x.x.x_commercial.zip. Only for
production purposes, not to be used by Service
technicians.
• 1.8 FlashUtils_Q581X_x.x.x.x_commercial.zip. Not to
be used by Service technicians.
• 1.9 FUS_Q581X_x.x.x.x_commercial.zip. Contains the
“autorun.upg” which is needed to upgrade the TV main
software and the software download application.
• 2.0 MOP_IACXX_x.x.x.x.zip. Not to be used by Service
technicians. A programmed MOP device can be ordered
via your regional Service organization.
• 2.1 OpenSourceFile_Q581X_x.x.x.x.zip. Not to be used
by Service technicians.
• 2.2 Pacific3_P3FW0_x.x.x.x.zip. Not to be used by
Service technicians. A programmed PACIFIC device can
be ordered via your regional Service organization.
• 2.3 PQPrivate_U5207_x.x.x.x.zip. Not to be used by
Service technicians.
• 2.4 PQPublic_U5207_x.x.x.x.zip. Not to be used by
Service technicians.
• 2.5 ProcessNVM_Q531X_x.x.x.x.zip. Default NVM
content. Must be programmed via ComPair.
• 2.6 StandbySW_CFTxx_x.x.x.x_commercial.zip.
Contains the Stand-by software in “upg” and ”hex” format.
- The “StandbySW_xxxxx_prod.upg” file can be used to
upgrade the Stand-by software via USB.
- The “StandbySW_xxxxx.hex” file can be used to upgrade
the Stand-by software via ComPair.
-The files “StandbySW_xxxxx_exhex.hex” and
“StandbySW_xxxxx_dev.upg” may not be used by Service
technicians (only for development purposes).
• 2.7 UpgradeAll_Q531X_x.x.x.x_commercial.zip. Only
for production purposes, not to be used by Service
technicians.
Caution : Never try to use this file, because it will
overwrite the HDCP keys ! ! !
Service Modes, Error Codes, and Fault Finding
Block Diagrams, Test Point Overview, and Waveforms
6. Block Diagrams, Test Point Overview, and Waveforms
Wiring Diagram 32”
WIRING 32” Styling MS7
39Q528.1E LA 6.
AMBI-LIGHT UNIT (IN BACK COVER)
8509
DISPLAY SUPPLY
A
12P
14P
8319
1317
1320
1M12
4P
1M09
1P11
8738
(1004)
B
41P
1G50
SSB
4P
8P
8411
8402
LCD DISPLAY
LVD S
51P
8150
8559
17354P1P11
8738
8P
5P
1M59
8582
2P3
1P02
7P
1M82
5P
1M59
4P
1M09
11P
1M36
KEYBOARD CONTROL
E
1M01
(1110)
3P
8101
1M09
1M59
1M82
4P
5P
7P
INVERTER
8120
14P
1320
1P22
2P3
7P
1M20
4P
1H01
AMBI-LIGHT UNIT (IN BACK COVER)
2P3
1P02
1308
2P3
8408
INLET
8191
8192 UK
8136
8201
D
11P
SIDE I/O
(1115)
1M36
4P
USB
3P
1M01
7P
1M22
LED PANEL
J
(1112)
RIGHT SPEAKER LEFT SPEAKER
H_16800_097.eps
110507
Block Diagrams, Test Point Overview, and Waveforms
Wiring Diagram 47”
WIRING 47” Styling MS7
40Q528.1E LA 6.
AMBI-LIGHT UNIT (IN BACK COVER)
1M09
1M59
1M82
(1175)
4P
5P
7P
LCD DISPLAY
41P
1G50
SSB
8659
8150
17354P1P11
LVD S
51P
5P
8P
1M59
8316
8609
DISPLAY SUPPLY
(1050)
8319
12P
1317
14P
1319
INVERTER INVERTER
1M12
4P
1M09
4P
1P11
8P
8411
8738
B
(1004)
8738
8402
2P3
1P02
8682
11P
1M36
12P
1317
7P
1M82
5P
1M59
4P
1M09
KEYBOARD CONTROL
E
1M01
(1110)
3P
3P
1M01
7P
1M20
14P
1320
2P3
1P02
1308
2P3
8408
8191
8192 UK
8101
INLET
8120
RIGHT SPEAKER
LED PANEL
7P
J
(1112)
1M22
4P
1H01
(1176)
AMBI-LIGHT UNIT (IN BACK COVER)
SIDE I/O
D
(1115)
8136
LEFT SPEAKER
8201
11P
1304
4P
USB
H_16800_098.eps
110507
Block Diagrams, Test Point Overview, and Waveforms
Block Diagram Display & Platform Supply 32”
DISPLAY SUPPLY + PLATFORM SUPPLY 32"
MAINS FILTER + STANDBY
A1
1308
5401
5403
5405
1400
2
T5AH
1
MAINS
FILTER
1450
7801
7802
ON/OFF
STANDBY
COLD GROUND
HOT GROUND
STANDBY
A2
6807
TS6B
41Q528.1E LA 6.
SUPPLY
A2
14
7002
BIAS SUPPLY
6077
7007
7008
5009
HIGH
SIDE
DRIVE
LOW
SIDE
DRIVE
3033
2003
STP15NK50
STP15NK50
60786079
400V_HOT
7005
7006
VCC
3000
5017
5001
15
5015
14
OA
5016
12
OB
10
FI
6
7
4
2
10
9
3810
+
5007
5008
25V_HOT
400V_HOT
7017
7018
SOFT
START
CURRENT
PROTECTION
3021
7001
MC34067PG
11
OSCC
3007
CONTROL
7
ERROR
11
SOST
5
2014
VREF
7004
7009
OVER
VOLTAGE
PROTECTION
+
3100
5010
2017
5040
2011
TCET1102
2
3
5002
8
5028
9
7
10
5
3
5027
11
13
12
5025
14
15
5026
16
6044
6044
6044
3057
2020
3022
2022
3024
7010
TS2431
K
R
A
3030
3025
VS Voltage
Adj.
3026
MAINS FILTER + STANDBY
A1
+12Vd
+24V
+12Vd
6024
7013
3052
+5V2
Power-Good = 5V
if +12V >10V
30773078
A1
N.C
1M09
5406
+12Vd
+5V2
A1
STANDBY
BOOST
ON-OFF
POWER-GOOD
DIM-CONTROL
1320
1317
1P11
1
2
1
2
3
4
5
11
12
1
2
3
4
5
11
12
8
7
6
5
4
3
2
1
TO
AMBI-LIGHT
TO
DISPLAY
TO
DISPLAY
TO 1P11
A2
SSB
1P02
22
11
B01A
1P02
SUPPLY
1B32
T1.6A
5B00
6B04
SS36
HOT GROUND COLD GROUND
3B61
2B48
6B07
2B51
6B08
6B06
2B46
6B05
2B45
7B50
CONTROL
1B33
2.5AT
AUDIO-PROT
B11C
7B06
+AUDIO-POWER
-AUDIO-POWER
+12VS
3B72
3B73
6B15
K
A
3B29
R
+5V-STANDBY
1B40
1
FOR SERVICE
2
TO PROVIDE
3
EXTERNAL
SUPPLY
4
H_16800_099.eps
110507
+
7B00
-
7B01
3B60
7B02
7B05
CONTROL
3B50
3B51
HOT GROUND COLD GROUND
5B01
5
3
2
1
7
8
9
10
11
12
14
7B04
TCET1102
2
3
Block Diagrams, Test Point Overview, and Waveforms
Block Diagram Video
VIDEO
MAIN TUNER
B03B
1T04
TD1716F/IHXP
MAIN HYBRID
TUNER
CHANNNEL DECODER
B03A
B08D
HDMI
1
18 2
19
HDMI 1
CONNECTOR
1
18 2
19
HDMI 2
CONNECTOR
1
18 2
19
HDMI 3
CONNECTOR
B08E
HDMI SWITCH
VTU
9
1B01
10
12
13
15
16
19
1B02
10
12
13
15
16
19
1B03
10
12
13
15
16
19
ARX2+
ARX2ARX1+
ARX1ARX0+
ARX0ARXC+
ARXCBRX2+
BRX2BRX1+
BRX1BRX0+
BRX0BRXC+
BRXCCRX2+
CRX2CRX1+
CRX1CRX0+
CRX0CRXC+
CRXC-
IF-OUT2
IF-OUT1
RF-GAIN
XTAL_OUT
1
3
4
6
7
9
1
3
4
6
7
9
1
3
4
6
7
9
11
10
3
8
+5V-ON
ARX2+
ARX2ARX1+
ARX1ARX0+
ARX0ARXC+
ARXC-
ARX-DCC-SCL
ARX-DCC-SDA
ARX-HOTPLUG
BRX2+
BRX2BRX1+
BRX1BRX0+
BRX0BRXC+
BRXC-
BRX-DCC-SCL
BRX-DCC-SDA
BRX-HOTPLUG
CRX2+
CRX2CRX1+
CRX1CRX0+
CRX0CRXC+
CRXC-
CRX-DCC-SCL
CRX-DCC-SDA
CRX-HOTPLUG
7JE3
7JA3
7J28
7J27
AD8191ASTZ
74
73
71
70
68
67
65
64
12
11
9
8
6
5
3
2
24
23
21
20
18
17
15
14
TUN-AGC
4-MHz
B04E
PCEC-HDMI
HOT-PLUG
PCEC-HDMI
HOT-PLUG
PCEC-HDMI
HOT-PLUG
HDMI
SWITCH
5T61
RESET-SYS-DETECT
B04A
B04H
B04A
B04H
B04A
B04H
34
OP0
33
ON0
37
OP1
36
ON1
40
OP2
39
ON2
43
OP3
42
ON3
44
1T55
1
4
2
5
SAW 37MHz
1T70
4
1
2
5
SAW 36MHz175
ANALOGUE EXTERNALS
B09B
EXT 3
ANALOGUE EXTERNALS
B09A
EXT 1
SCART1
EXT 2
SCART2
D
SIDE I/O MS7
VIDEO
S VIDEO
RESET-SYS-DETECT
TDA-IF-AGC
4-MHz
PR
PB
Y
1
7
11
15
16
20
21
1
7
11
15
16
20
21
IF-FILTN1
IF-FILTP1
IF-FILTN2
IF-FILTP2
1070
1030
16
1020
19
15
16
11
1302
1301
1
5
2
B04E
19
15
7
11
20
8
7
8
20
3
4
7T17
TDA10048HN
42
AGCT_CTL
7
XIN
41
CLR
7E13
7E07
7T57
TDA9898HL
7
IF1-B
6
IF1-A
PROCESSING
10
IF2-B
9
IF2-A
47
TAGC
46
FREF
36
AGC-DIN
AGC_TUN
DTV
RECEIVER
7E09
7E14
7E15
FRONT_Y_CVBS_IN
CVBS
IF
OUT1-A
OUT1-B
MPP-2
43
32
2
VI-M
3
VI-P
DAT A
7E10
14
AV1_Y-CVBS
AV1_STATUS
AV1_BLK
AV2_STATUS
AV2_Y-CVBS
AV2_BLK
AV2_FBL
FRONT_C_IN
AV4_PR
AV4_PB
AV4_Y
9,10,11
AV1_PR
AV1_PB
AV1_Y
AV3_Y
RXC+
RXC-
RX0+
RX0-
RX1+
RX1-
RX2+
RX2-
33
26
27
16
1
5
7T55
EF
3T68
TDA-IF-IN-N
TDA-IF-IN-P
TUN-AGC-MON
7T18
AGC-COMP
TDA-IF-IN-N
TDA-IF-IN-P
Y-CVBS-MON-OUT_SC
CVBS-TER-OUT
REGIBEAU_CVBS-SWITCH
7E02
12
14
2
15
1
9,10,11
7E03
1304
2
4
CVBS4
CVBS-TER-OUT
FE-DATA(0-7)
7E06
7E05
B09B
1M36
2
4
7E12
B04A
B04A
B04A
B04A
B04A
3T59
3T58
7EA0
B04
Y-CVBS-MON-OUT
FRONT_Y-CVBS
FRONT_C
B08D
PNX8535
IF-N
IF-P
AV3_PB
AV3_PR
AV2_C
HOT-PLUG
7H00
PNX8537E/M2A
ANALOGUE AV
B04K
J3
M1
M2
VIDEO
B04N
STREAMS
L1
ADC/MUX/SRC
R3
G3
A3
K2
P5
F2
H2
K3
R1
P1
J1
G1
J2
P2
B04H
D10
A10
A9
B7
HDMI-DVI RX/RX2DTL
RECEIVER
B6
DETECTION
MATRICING
A8
A7
B9
B8
SWITCH/
DIGITAL VIDEO
IN
42Q528.1E LA 6.
PNX8535
MSP
VMPG
MPEG
DEMUX
AND
DECODING
VIDEC, 3D COMB AND VBI
CAPTURING
MEMORY
CONTROLLER
MBVP-TV
SNR/TNR
EDDI
HV SCALER
MAIN
VIDEO OUT
VIDEO
LAYER
GFX LAYER
STILL
MPEG/PC
CPIPE-TV
GFX OSD
LAYER
CONTROL
B04F
PCI XIO
SDRAM
B04G
DDR
DIGITAL
B04O
VIDEO OUT
LVD S
VIDEO
OUTPUT
CONFIG
LVD S
TRANSMITTER
PNX8535: FLASH
B04Q
7HA0
NAND512W3A2BN6E
NAND
PCI --> NAND
B04G
DDR2-D(0-15)
DDR2-A(0-12)
(16-31)
B05C
FLASH
128Mx8
PNX 8535: SDRAM
7HG0
EDE2516ABSE
(0-12)
DDR2
SDRAM
4Mx16x4
7HG1
EDE2516ABSE
DDR2
SDRAM
4Mx16x4
PNX5050: VIDEO
7C00
PNX5050EH/M1
10-bit YUV 10-bit RGB
AG15
AH15
DV-Y(0-9)
DV-UV(0-9)
DV-HS
DV-VS
AC14
AF12
PNX5050
B05B
MM_DATA(0-15)
MM-A(0-12)
RxP3_R(0-9)
RxP3_G(0-9)
RxP3_B(0-9)
RxP3R(0-5)
PNX5050: SDRAM
(0-12)
(16-31)
7CA0
EDD1216AJTA
DDR
SDRAM
16Mx16
7CA1
EDD1216AJTA
DDR
SDRAM
16Mx16
B06C
PACIFIC 3
7GE2
T6TF4HFG
PACIFIC3
ENHANCEMENT
PICTURE
75
74
78
77
81
80
84
83
87
86
90
89
93
92
96
95
99
98
101
100
103
102
107
106
PACIFIC 3: LVDS
B06A
DUAL LVDS ONLY
TXEA-
TXEA+
TXEB-
TXEB+
TXEC-
TXEC+
TXECLK-
TXECLK+
TXED-
TXED+
TXEE-
TXEE+
TXOA-
TCOA+
TCOB-
TCOB+
TCOC-
TCOC+
TCOCLK-
TCOCLK+
TCOD-_
TCOD+
TCOE-
TCOE+
7GE1
M25P05
512K
FLASH
VDISP
5G00
5G01
5G02
5G03
5G04
5G05
5G06
5G07
5G08
5G09
5G10
5G11
1G50
41
40
39
38
32
31
30
29
28
27
25
24
22
21
20
19
17
16
15
14
13
12
10
9
7
6
5
4
LVDS
CONNECTOR
TO DISPLAY
H_16800_100.eps
080507
Block Diagrams, Test Point Overview, and Waveforms
Block Diagram Audio
AUDIO
MAIN TUNER
B03B
1T04
TD1716F/IHXP
MAIN HYBRID
TUNER
11
IF-OUT2
10
IF-OUT1
3
RF-GAIN
8
XTAL_OUT
FM-TRAP
VTU
9
+5V-ON
CHANNNEL DECODER
B03A
B08D
HDMI
1B01
1
ARX2+
3
ARX2-
4
1
19
HDMI 1
CONNECTOR
1
19
HDMI 2
CONNECTOR
1
19
HDMI 3
CONNECTOR
ARX1+
6
ARX1-
7
ARX0+
9
ARX0-
10
ARXC+
12
ARXC-
18 2
13
15
ARX-DCC-SCL
16
ARX-DCC-SDA
19
ARX-HOTPLUG
1B02
1
BRX2+
3
BRX2-
4
BRX1+
6
BRX1-
7
BRX0+
9
BRX0-
10
BRXC+
12
BRXC-
18 2
13
15
16
19
BRX-HOTPLUG
1B03
1
CRX2+
3
CRX2-
4
CRX1+
6
CRX1-
7
CRX0+
9
CRX0-
10
CRXC+
12
CRXC-
18 2
13
15
16
19
CRX-HOTPLUG
7JE3
BRX-DCC-SCL
BRX-DCC-SDA
7JA3
CRX-DCC-SCL
CRX-DCC-SDA
7J28
TUN-AGC
4-MHz
PCEC-HDMI
HOT-PLUG
PCEC-HDMI
HOT-PLUG
PCEC-HDMI
HOT-PLUG
B04E
B04A
B04H
B04A
B04H
B04A
B04H
1T70
1
2
SAW 36MHz175
RESET-SYS-DETECT
B09A
B09A
EXT 1
EXT 2
B08C
D
B08E
4-MHz
1
7
11
1
7
11
21
1JA1
1JA2
1030
1020
1040
10
9
47
46
36
42
7
41
1
3
2
6
1
3
2
6
(BOTTOM)
7J42
A-PLOP
IF-FILTN2
4
IF-FILTP2
5
TDA-IF-AGC
ANALOGUE EXTERNALS
ANALOGUE EXTERNALS
15
16
20
21
SCART1
15
16
20
SCART2
AUDIO IN
L+R
EXTERNALS A
AUDIO OUT
L+R
DIGITAL
AUDIO
IN/OUT
SIDE I/O MS7
1302
AUDIO IN
L+R
HDMI SWITCH
ARX2+
ARX2ARX1+
ARX1ARX0+
ARX0ARXC+
ARXCBRX2+
BRX2BRX1+
BRX1BRX0+
BRX0BRXC+
BRXCCRX2+
CRX2CRX1+
CRX1CRX0+
CRX0CRXC+
CRXC-
7T57
TDA9898HL
IF
PROCESSING
IF2-B
IF2-A
TAGC
FREF
AGC-DIN
7T17
TDA10048HN
AGC_TUN
AGCT_CTL
XIN
DTV
RECEIVER
CLR
AP-SCART-OUT-R
AP-SCART-OUT-L
AUDIO-IN1-R
AUDIO-IN1-L
AP-SCART-OUT-R
AP-SCART-OUT-L
AUDIO-IN2-R
AUDIO-IN2-L
2
3
4
CVBS
OUT1-A
OUT1-B
MPP-2
GPIO-0
VI-M
VI-P
DAT A
AUDIO-IN3-L
AUDIO-IN3-R
AUDIO-OUT-L
AUDIO-OUT-R
A-PLOP
SPI-OUT
L_FRONT_IN
R_FRONT_IN
74
73
71
70
68
67
65
64
12
11
9
8
6
5
3
2
24
23
21
20
18
17
15
14
33
26
27
16
43
32
2
3
B09A
B04M
SPI
7J27
AD8191ASTZ
HDMI
SWITCH
7T55
EF
3T68
TDA-IF-IN-N
TDA-IF-IN-P
TUN-AGC-MON
AGC-COMP
CVBS-TER-OUT
7T18
ANALOGUE EXTERNALS
3EA8
3EA7
7EA1
A-PLOP
B04I
B08B
1
12
B09B
1304
1M36
6
6
8
8
34
OP0
33
ON0
37
OP1
36
ON1
40
OP2
39
ON2
43
OP3
42
ON3
RESET-SYS-DETECT
44
CVBS4
AUDIO-CL-R
AUDIO-CL-L
A-PLOP
7HM1
8
14
SPDIF
7J30
3T59
3T58
B04M
AUDIO
1
B04
B09A
FE-DATA(0-7)
B04I
7
1
11
12
4
11
B08D
B04E
7HM1
ADAC(5)
ADAC(6)
SPDIF-IN1
SPDIF-OUT
AUDIO-IN5-L
AUDIO-IN5-R
PNX8535
IF-N
IF-P
AUDIO
5
ADAC(8)
ADAC(7)
3
HOT-PLUG
RXC+
RXC-
RX0+
RX0-
RX1+
RX1-
RX2+
RX2-
7H00
PNX8537E/M2A
B04K
J3
M1
M2
B04N
B04L
AJ8
AK8
AK6
AJ6
AG5
AF5
AH5
AJ5
AJ10
AK9
AK15
AJ15
AJ4
AK4
B04H
D10
A10
HDMI-DVI RX/RX2DTL
A9
B7
B6
A8
A7
B9
B8
ANALOGUE AV
VIDEO
STREAMS
AUDIO
AIN1
AIN2
AIN3
AIN5
DIGITAL VIDEO
IN
RECEIVER
DETECTION
MATRICING
43Q528.1E LA 6.
PNX8535
ADC
DEMDEC
Main
Delayed
SPDIF DECODING,
MULTICHANNEL,
DOWNMIX AND SRC
SPDIF OUT
DELAYED
Main
PNX8535: FLASH
B04Q
7HA0
B04F
CONTROL
NAND512W3A2BN6E
NAND
PCI XIO
PCI --> NAND
B04G
SDRAM
B04G
DDR2-D(0-15)
DDR
DDR2-A(0-12)
(16-31)
B04I
AUDIO
B04L
ADAC(1)
AJ13
DAC
DAC
ADAC(2)
AK12
I²C
MEMORY
CONTROL
B04O
B04A
EPICS
DAC
DIGITAL VIDEO
OUT / LVDS
STANDBY
CONTROLLER
DAC
AH16
V3
AH11
AH10
P0.6
ADAC(3)
ADAC(4)
FLASH
128Mx8
PNX 8535: SDRAM
7HG0
EDE2516ABSE
(0-12)
7HG1
EDE2516ABSE
PNX 8535:
AUDIO
9HM1
9HM2
B08C
DDR
SDRAM 1
4Mx16x4
DDR
SDRAM 2
4Mx16x4
AUDIO LEFT / RIGHT
B11A
MUTE
7D00-2
7D00-3
MUTE
AUDIO-RESET
7HV0
TPA4411RTJ
18
HEADPHONE
13
15
DRIVER
+AUDIO-L
FEEDBACK
-AUDIO-R
FEEDBACK
AUDIO: PROTECTION/MUTE CONTROL
B11C
AUDIO LEFT / RIGHT
B04A
PNC8535: DEBUG
B04B
B04M
9H26
PNX 8535: AUDIO
7HVA
A-PLOP
7HV1
A-PLOP-HDPH
+AUDIO-POWER
7D10-1
7D10-2
CONTROL
-AUDIO-POWER
+AUDIO-POWER
7D35-1
7D35-2
CONTROL
-AUDIO-POWER
7D63÷7D64
CONTROL
DV-B3_AUDIO-MUTE
AUDIO-RESET
ANALOGUE EXTERNALS
B09B
AUDIO-HDPH-L-AP
9
11
AUDIO-HDPH-R-AP
6D15
5D00 5D10
FEEDBACK-LR
5DO7
FEEDBACK-RL
DC-SENCE
AUDIO-MUTE
1M36
5D11
10
11
7D00-1
7D00-4
D
1304
10
11
LEFT-SPEAKER
RIGHT-SPEAKER
7D70
AUDIO-PROT
CONTROL
SIDE I/O MS7
HEAD_PH_L
HEAD_PH_R
1303
B01A
2
3
4
1735
1
2
3
4
Speaker L
Speaker R
Headphone
Out 3.5mm
H_16800_101.eps
110507
Block Diagrams, Test Point Overview, and Waveforms
Block Diagram Control & Clock Signals
CONTROL + CLOCK SIGNALS
B05B
PNX5050: SDRAM
7CA0
K4D551638F
7CA1
K4D551638F
DDR
SDRAM 1/2
16Mx16
B05A
PNX5050: CONTROL
EN_PCI_ARb
0 : DISABLES
1 : ENABLES
MEM_SIZE
1 0 0 : 32MB Product SW
1 0 1 : 64MB Assert SW
1 1 0 : 128MB Assert SW
CAS_LATENCY
0:2.5 CLKS
1:3 CLKS
ROM_WIDTH
HC_FASTMODE
0:8-Bit ROM /100kHz
1:16-Bit ROM/400kHz
BOOTMODE
1 0 : HOST ASSISTED
1 1 : EEPROM
E
KEYBOARD CONTROL
ON / OFF
CHANNEL +
CHANNEL -
VOLUME +
VOLUME -
MENU
J
LED PANEL
+5V2-STBY
+5V2-STBY
+5V2-STBY
+5V2-STBY
MM_DATA(0-31)
MM_A(0-12)
46
MM_CLK_P
45
BOOTMODE7
BOOTMODE6
BOOTMODE5
BOOTMODE4
BOOTMODE3
BOOTMODE2
BOOTMODE1
BOOTMODE0
1016
1011
1012
1015
1014
1013
3061
3051
3040
MM_CLK_N
POWER SUPPLY
6051
6052
1040
7070
M1
M2
AC18
AD23
AF26
AF25
A4
A3
B3
B4
4321
USB 2.0
CONNECTOR
TO
LED1
BLUE
LED2
RED
IR
SENSOR
7C00
PNX5050EH/M1
SDRAM
B05B
PNX5050
CONTROL
B05A
VIDEO
B05C
B10B
1H01
1
2
3
4
B01B
1P11
1
2
3
5
6
7061
7051
+5V2-STBY
7071
D11
D9
E23
D18
A11
C7
F23
D24
H23
D26
H16
USB 2.0
7N30
RYC8620
8
USB20-1-DM
USB20-1-DP
SUPPLY
BACKLIGHT-OUT
POWER-OK-DISPLAY
LAMP-ON-OUT
BACKLIGHT-BOOST
STANDBY
1C05
OUTA
27M
PCI-CLK-PNX5050_CLK-MOP
RxP3CLK
RESET-SYS-DETECT
PCI-REQ-PNX5050
PCI-GNT-PNX5050
PCI-REQ-USB20
PCI-GNT-USB20
DV-CLK
USB20-PWE1
1
ENA_
2
FLGA
3
FLGB
ENB_
KEYBOARD
LED1
LED2
LIGHT_SENSOR
USB20-PWE2
4
B06B
B06B
N.C.
RC
B04E
B06C
B04E
1M01
1M01
1M22
2
2
7
6
4
3
1
B07A
POD: SUPPLY / CONTROL
PCMCIA
CONDITIONAL
ACCESS
PCI-AD(0-31)
B10A
USB 2.0
USB20-OC1
USB20-OC2
PCI-CLK-USB20
B04E
RESET-USB20
RESET-SYS-DETECT
B04D
PNX 8535: MISCELLANEOUS
POD-MODE
B04A
ON-MODE
B04A
+3V3-STANDBY
3HD3
B10C
LED PANEL CONNECTOR
1M20
7
6
4
3
1
LED1
LED2
1P00
1
COMMON INTERFACE
68
7N00
ISP1564HL
79
78
87
CONTROLLER
88
7
83
85
5
B04E
B01A
SUPPLY
7HD0
NCP303LSN
2
IN
3
GND
PCMCIA-D(0-7)
PCI
HOST
STANDBY
CONTROL
1
RST
KEYBOARD
LIGHT-SENSOR
B03A
B07A
PCMCIA-A(0-14)
9
8
RC
44Q528.1E LA 6.
CHANNEL DECODER
7T17
TDA10048HN
DVB-T
CHANNEL
DECODER
41
POD: BUFFERING
CA-MDI(0-7)
CA-MDO(0-7)
7P53
B04F
PNX8535: CONTROL
B04A
STANDBY CONTROLLER
7H22
7H21
19
18
17
RESET-SYS-DETECT
CA-DATADIR
CA-DATAEN
PCI-AD(24-31)
7P51
7P52
CA-ADDEN
DC-VLK
PCI-AD(0-31)
B04B
B04B
B04B
CTRL3-STBY_POWER-OK-DISP (P2.7)
9H01
9H02
SDM
9H03
9H08
SPI-PROG
B08D
B04A
B04A
B04E
B09A
B09A
B09A
B09A
9H05
9H06
FE-DATA(0-7)
FE-CLK
FE-VALID
FE-SOP
PCI-AD(0-14)
PCI-REQ-PNX8535
PCI-GNT-PNX8535
PCI-REQ-USB20
PCI-GNT-USB20
PSEN
SPI-PROG
CEC-HDMI
DETECT-1V2-2V5-3V3
DETECT-5V-12V (P2.5)
RESET-STBY
RESET-SYS-DETECT
AV1-BLK (P2.2)
AV2-BLK
AV1-STATUS
AV2-STATUS
KEYBOARD
LED1-3V3 (P0.0)
LED2-3V3
LIGHT-SENSOR
B04E
ALE
SDM
B08F
B08E
HDMI SWITCH
RESET-SYS-DETECT
B04E
B04Q
PNX 8535: FLASH
7HA3
RESET-NVM_WP-NANDFLASH-INV
B04C
PNX 8535: NVM / UART SWITCH
7HC3
B06B
PACIFIC 3: DISPLAY
INTERFACING
CTRL-DISP1
CTRL-DISP4
LAMP-ON-OUT
BACKLIGHT-OUT
CTRL4-P3
7
7GE1
M25P05-AVMN6P
6
3
1
5
2
1GE1
164
60M
165
B06C
178
168
172
7G53
CONTROL
PACIFIC 3
7GE2
T6TF4HFG
PACIFIC 3
7J27
AD8191ASTZ
HDMI
SWITCH
44
7HA0
NAND512W3A2BN6E
NAND
FLASH
(128Mx8)
7HC3
M24C64-WDW6P
8
EEPROM
(8Kx8)
RxP3CLK
MICRO
CONTROLLER
(AMBI LIGHT)
7GE1
M25P05-AVMN6P
512K
FLASH
H_16800_102.eps
19
B06A
B06A
B01B
B01B
B06B
B05C
1GE0
7
10M
6
080507
B04G
7H00
PNX8537E
SDRAM
B04G
VIDEO STREAMS
B04N
C5
D5
C4
PNX8535
D22
A22
B22
AK17
B04O
B04F
D21
E21
E22
E20
B04A
Y1
EA
RC
AA4
AC1
AE2
AB4
AB2
AA3
AC3
AC2
AF2
AF1
AF4
AA1
AA2
AF3
Y2
Y3
W1
W4
U5
B04F
B04E
DIGITAL VIDEO
OUT / LVDS
CONTROL
STANDBY CONTROLLER
CONTROL
CONTROL
N28
N29
A21
AK26
AJ26
T2
U4
AG1
AG2
Y4
V5
AD1
AE4
AE3
AD4
AE1
AD3
U3
U2
U1
V4
V3
W3
W2
PNX 8535: SDRAM
7HG0
EDE2516ABSE
DDR2-D(0-15)
DDR2-A(0-12)
DDR2-CLK_P
DDR2-CLK_N
B04F
PNX 8535: CONTROL
PCI-CLK-PNX8535
B04E
PNX 8535: CONTROL
PCI-CLK-OUT
+3V3-PER
RESET-NVM_WP-NANDFLASH (P0.1)
27M
1HF0
CTRL4-STBY_SELECT-PWM-ANA (P2.6)
CTRL1-STBY_LAMP-ON (P0.5)
CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3
REGIMBEAU_CVBS-SWITCH (P0.3)
7HG1
EDE2516ABSE
SDRAM 1/2
P2
P3
PCI-CLK-PNX5050-CLK-MOP
RESET-SYS-DETECT
6HF0
CTRL1-MIPS_LCD-PWR-ON
SPI-CLK
SPI-WP
SPI-CSB
SPI-SDO
SPI-SDI
ENABLE-1V2 (P0.2)
ENABLE-3V3 (P0.4)
AUDIO-RESET (P0.6)
UART-SWITCH (P0.7)
ON_MODE (P2.3)
POD-MODE (P2.4)
DDR
4Mx16x4
PCI-CLK-DEBUG
PCI-CLK-PNX8535
PCI-CLK-USB20
7H02
M25P05-AVMN6P
6
3
1
5
2
PCI-AD(24-31) --> NAND-AD(0-7)
B08A
B05A
B10A
B03A
B04B
B04B
B04B
BACKLIGHT-CONTROL
512K
FLASH
B02A B02C B04B
B09B
B04B
B04B
B02A
B04M
B04B
B04B B04C B08C
B02B B04B B04D
B05B B11A
B02A B02B B04B
B10A
B04A
B04D
Block Diagrams, Test Point Overview, and Waveforms
SSB: Test Points (Overview Top Side)
Part 1
H_16800_081a.eps
Part 2
H_16800_081b.eps
45Q528.1E LA 6.
I60 A5
I65 A5
I66 A5
I67 A5
I68 A5
I69 A5
I133 D4
I148 D3
I238 G2
I240 G2
I737 D4
I738 E2
I739 E3
I740 E2
I741 E2
I742 E3
I743 E1
I744 F2
I745 E2
I746 A5
I747 A5
I748 E2
I749 E2
I750 E2
IC50 B4
IC50 B4
IG64 A5
IG64 A5
IG69 A5
IG69 A5
IGB1 B5
IGB1 B5
IGB2 B5
IGB2 B5
IGE8 A5
IGE8 A5
IGF4 A5
IGF7 A5
IGF7 A5
IGF8 A5
IGF9 A5
IGH2 A5
IGH3 A5
IGH4 A5
IGH5 A5
IGH6 A5
IGH6 A5
IGH9 A5
IH06 E3
IH06 E3
IH09 E2
IH09 E2
IHD0 E2
IHDA F2
IHF4 E2
IHF4 E2
IHF8 E2
IHF8 E2
IHF9 E1
IHR0 E3
IHR3 E3
IHR3 E3
IHR4 E2
IHR4 E2
IHR5 E2
IHR5 E2
IHR6 E2
IHR9 E2
IHR9 E2
IHRA E2
IHRB E2
IHRC E2
IHRD E3
IHRF E3
IHRF E3
IHRG E2
IHS4 E2
IHS4 E2
IHS5 E2
IHS6 E2
IHS6 E2
IHVA E1
IHVA E1
IHW7 F1
IHW7 F1
IJ44 E1
IJ44 E1
IJ45 D1
IJ45 D1
IJ49 E1
IJ49 E1
IU69 D4
IU8E D4
IU91 D4
IU91 D4
3104 313 6194.3
H_16800_081.eps
030507
Block Diagrams, Test Point Overview, and Waveforms
48Q528.1E LA 6.
SSB: Test Points (Overview Bottom Side)
A1 E3
F5 A4
I5 B4
F14 A4
F23 C1
F32 E5
F41 E5
A2 G3
F6 A5
F7 A4
F8 A4
F9 A4
I1 A5
I2 A4
I3 A4
I4 A4
I6 A5
I7 A5
I8 A4
I9 B5
F10 A4
F11 A4
F12 A3
F13 A3
A3 G5
A4 G4
A5 G3
F1 A5
F2 A4
F3 B5
F4 A4
3104 313 6194.3
F15 A3
F16 A4
F17 D1
F18 D1
F19 C1
F20 C1
F21 C1
F22 C1
F24 C1
F25 C1
F26 C1
F27 E5
F28 D5
F29 D5
F30 D5
F31 C5
F33 C5
F34 F5
F35 F5
F36 C5
F37 E5
F38 E5
F39 E5
F40 E5
F50 G2
F42 E5
F51 G2
F43 E5
F52 F2
F44 C5
F53 G2
F45 E5
F54 G2
F46 F5
F55 G2
F47 G3
F56 E5
F48 G3
F57 C2
F49 G2
F58 C1
H_16800_082a.eps
Part 2
H_16800_082b.eps
F59 C1
F60 E2
F61 E2
F62 D1
F63 C1
F64 C2
F65 D2
F66 C2
F67 C2
Part 1
F68 C2
F69 C2
F70 D2
F71 E2
F72 E1
F73 E2
F74 E2
F75 E2
F76 E1
F77 D1
F78 E1
F79 D2
F80 E2
F81 E2
F82 D2
F83 E2
F84 E2
F85 E2
F86 E2
F87 E2
F88 E2
F89 E1
F90 D2
F91 F4
F92 F4
F93 F4
F94 F3
F95 F4
F96 F4
F97 F4
F98 F3
F99 F4
I10 A4
I11 B4
I12 A5
I13 A5
I14 A5
I15 A5
I16 A4
I17 A4
I18 A5
I19 B4
I20 B4
I21 A5
I22 A4
I23 A5
I24 A4
I25 B5
I26 A4
I27 E1
I28 F1
I29 F1
I30 E1
I31 E1
I32 D1
I33 D1
I34 D1
I35 E1
I36 F1
I37 F1
I38 E1
I39 F1
I40 E1
I41 D1
I42 C1
I43 D1
I44 D1
I45 D1
I46 E1
I47 E1
I48 C1
I49 E1
I50 C1
I59 E2
I51 E1
I61 D2
I52 C1
I62 E1
I53 G1
I63 E2
I54 B5
I64 E2
I55 C5
I70 E1
I56 C5
I71 D2
I57 E1
I72 C2
I58 E2
I73 C2
H_16800_082.eps
070507
I74 C2
I75 C2
I76 D2
I77 D2
I78 D2
I79 E1
I80 E2
I81 C2
I82 C2
I83 C2
I84 C2
I85 C2
I86 D2
I87 C2
I88 C2
I89 C2
I90 C2
I91 D2
I92 D2
I93 D2
I94 D2
I95 C2
I96 C2
I97 C2
I98 C2
I99 C2
AHF0 E3
AT6 2 G 3
AT6 3 G 3
AT6 4 G 4
AT6 5 G 5
F100 F4
F101 F4
F102 G4
F103 G4
F104 F4
F105 G4
F106 G4
F107 G5
F108 F5
F109 F5
F110 F5
F111 G5
F112 G5
F113 F5
F114 G5
F115 F3
F116 G5
F117 A3
F118 A3
F119 A4
F120 A4
F121 A4
F122 A4
F123 F5
F124 C5
F125 C5
F126 E5
F127 F5
F128 E5
F129 E5
F130 D5
F131 D5
F132 D5
F133 E5
F134 D5
F135 E5
F136 D5
F137 E5
F138 E5
F139 E5
F140 D5
F141 D5
F142 D5
F143 D5
F144 D5
F145 C5
F146 D5
F147 D5
F148 F4
F149 E3
F150 E3
F151 E3
F152 E4
F153 E4
F154 D4
F155 E4
F156 E4
F157 E4
F158 E4
F159 E3
F160 F3
F161 F3
F162 F4
F163 F3
F164 E4
F165 E4
F166 E4
F167 E2
F168 D3
F169 E3
F170 E3
F171 E4
F172 B3
F173 E3
F174 E4
F175 F4
F176 F4
F177 C3
F178 C3
F179 E4
F180 E5
F181 E5
F182 C3
F183 C3
F184 D3
F185 C3
F186 C3
F187 D3
F188 E3
F189 E3
F190 A1
F191 A1
F192 A1
F193 A1
F194 A1
F195 A1
F196 A1
F197 A1
F198 A1
F199 A1
F200 A1
F201 A1
F202 A1
F203 A1
F204 B1
F205 A1
F206 A1
F207 A1
F208 A1
F209 A1
F210 A1
F211 A1
F212 A1
F213 A1
F214 B1
F215 B1
F216 A1
F217 G2
F218 G3
F219 G3
F220 E3
F221 E3
F222 E3
F223 F2
F224 F2
F225 G1
F226 G1
F227 G1
F228 G1
F229 G1
F230 G1
F231 G3
F232 G3
F233 F3
F234 G3
F235 F3
F236 G3
F237 G1
F238 G3
F239 G2
F240 G2
F241 G2
F242 G2
F243 F2
F244 G2
F245 F2
F246 G2
F247 G2
F248 G3
F249 G3
F250 G3
F251 G3
F252 F1
F253 G3
F254 F2
F255 F2
F256 G3
F257 G2
F258 F3
F259 G3
F260 F3
F261 G2
F262 F2
F263 C1
F264 B1
F265 B1
F266 B1
F267 B1
F268 B1
F269 B1
F270 B1
F271 C1
F272 C1
F273 C1
F274 B1
F275 B1
F276 B1
F277 A2
F278 B2
F279 B2
F280 B2
F281 A2
F282 A2
F283 A2
F284 A2
F285 B2
F286 B2
F287 D1
F288 D1
F289 D1
F290 G1
F291 G1
F292 F1
F293 F1
F294 D1
F295 E1
F296 D1
F297 D1
F298 C1
F299 C1
F300 G1
F301 G1
F302 C1
F303 B1
F304 B1
F305 B1
F306 B1
F307 A1
F308 A1
F309 A1
F310 A1
F311 A1
F312 A1
F313 A1
F314 A1
F315 A1
F316 A1
F317 A1
F318 A1
F319 A1
F320 A1
F321 A1
F322 A1
F323 A1
F324 A1
F325 A1
F326 A1
FB20 C1
FB21 C1
FB22 C1
FB23 C1
FB24 C1
FB25 C1
FB26 C1
FB27 C1
FB28 C1
FB30 G1
FB31 G1
FB32 C1
FB33 C1
FB34 D1
FB35 D1
FB36 E1
FB37 D1
FB38 F1
FB39 F1
FB40 D1
FB41 D1
FB42 D1
FB43 D1
FB44 D1
FB45 G1
FB46 G1
FC00 B2
FC01 B2
FC10 A2
FC11 A2
FC12 A2
FC13 A2
FC14 B2
FC16 B2
FCA2 B2
FCA3 A2
FD00 B1
FD01 B1
FD02 B1
FD03 C1
FD04 C1
FD05 C1
FD19 B1
FD25 B1
FD26 B1
FD27 B1
FD28 B1
FD49 B1
FD64 B1
FD65 C1
FE57 F2
FE58 G2
FE60 F3
FE61 G3
FE62 F3
FE63 G2
FE64 G3
FE65 G2
FE66 F2
FE67 F2
FE68 G3
FE69 F1
FE70 G3
FE71 G3
FE72 G3
FE73 G3
FE74 G2
FE75 G2
FE76 G2
FE77 F2
FE78 G2
FE79 F2
FE80 G2
FE81 G2
FE82 G2
FE83 G2
FE84 G2
FE85 G3
FE86 F1
FE88 G3
FE89 F3
FE90 G3
FE91 F3
FEA0 G3
FEA1 G3
FEA2 G1
FEA3 G1
FEA4 G1
FEA5 G1
FEA6 G1
FEA7 G1
FEA8 F2
FEA9 F2
FEB0 E3
FEB1 E3
FEB2 E3
FEB3 F2
FEC1 G2
FEC2 G2
FEC3 G2
FEC4 G3
FEC5 G3
FEC6 G3
FEC7 G3
FEC9 G2
FG00 A1
FG01 A1
FG02 A1
FG03 A1
FG04 A1
FG05 A1
FG06 A1
FG07 A1
FG08 A1
FG09 A1
FG10 A1
FG11 A1
FG12 A1
FG13 A1
FG14 A1
FG15 A1
FG16 A1
FG17 A1
FG18 A1
FG19 A1
FG20 A1
FG21 A1
FG22 A1
FG23 B1
FG24 B1
FG25 B1
FG26 B1
FG50 A1
FG51 A1
FG52 A1
FG53 A1
FG54 A1
FG55 A1
FG56 A1
FG57 A1
FG58 A1
FG59 B1
FG60 A1
FGE0 A1
FGE1 A1
FGE2 A1
FGE3 A1
FGE4 A1
FGE5 A1
FGE8 A1
FGF2 A1
FGF3 A1
FGG0 A1
FGG1 A1
FGG2 A1
FGG3 A1
FH00 E3
FH01 E3
FH02 D3
FH10 C3
FH11 C3
FH12 D3
FHC1 C3
FHC2 C3
FHC3 E5
FHC4 E5
FHC5 E4
FHC6 C3
FHC7 C3
FHD0 F4
FHD1 E4
FHD2 E4
FHD4 E3
FHG0 B3
FHK0 E4
FHM0 E3
FHM1 E3
FHM2 D3
FHM3 E2
FHP0 E4
FHP1 E4
FHP2 E4
FHP3 E3
FHP4 F4
FHPA F3
FHPB F3
FHPE E3
FHR0 E4
FHR1 E4
FHR2 E4
FHR3 D4
FHR4 D4
FHR5 E4
FHR6 E4
FHV1 E3
FHV2 E3
FHV3 E3
FHV4 F4
FJ11 F5
FJ12 F5
FJ13 F5
FJ14 D5
FJ30 E5
FJ31 C5
FJ32 E5
FJ33 E5
FJ34 E5
FJ35 E5
FJ36 E5
FJ37 E5
FJ38 E5
FJ39 E5
FJ40 C5
FJ41 C5
FJ42 C5
FJ43 E5
FJ52 D5
FJA0 D5
FJA1 D5
FJA2 C5
FJA3 C5
FJA4 E5
FJA5 C5
FJA6 D5
FJA7 D5
FJB0 D5
FJB1 D5
FJB3 E5
FJB4 E5
FJB5 E5
FJB6 E5
FJB7 E5
FJB8 D5
FJB9 E5
FJC1 D5
FJC2 D5
FJC3 D5
FJC4 E5
FJC5 E5
FJEA F5
FJEB E5
FJEC C5
FJED C5
FJEE F5
FN00 A3
FN30 A4
FN31 A3
FN32 A4
FN33 A3
FN34 A4
FN35 A4
FN36 A4
FN37 A4
FN53 A4
FN54 A4
FN55 A4
FN56 A4
FN57 A4
FN58 A3
FN59 A3
FP00 A5
FP01 A4
FP02 A4
FP03 B5
FP04 A4
FP05 A5
FT11 G5
FT15 F3
FT17 G5
FT36 F5
FT37 F5
FT38 F5
FT39 F5
FT40 F5
FT41 F5
FT42 F5
FT50 G4
FT51 G4
FT56 F4
FT57 F4
FT58 G4
FT59 F4
FT60 F4
FT61 F4
FT62 F4
FT63 F4
FT64 F4
FT65 F4
FT66 F3
FT67 F4
FT68 F4
FT76 F4
FU00 D2
FU01 E1
FU02 E2
FU03 E2
FU04 E2
FU05 E2
FU06 E2
FU07 E2
FU08 D2
FU11 E2
FU12 E2
FU20 D2
FU21 E1
FU22 D1
FU23 E1
FU24 E2
FU25 E2
FU26 E2
FU27 E1
FU28 E2
FU29 D2
FU60 C2
FU61 C2
FU65 C2
FU66 C2
FU6S D2
FU80 C2
FU81 C1
FU82 D1
FU83 E2
FU84 E2
FU87 C1
FU88 C1
FU8A C2
I100 D2
I101 C2
I102 C2
I103 C2
I104 C2
I105 C2
I106 C2
I107 C2
I108 D2
I109 D2
I110 C2
I111 C2
I112 C2
I113 C2
I114 D2
I115 C2
I116 E2
I117 E2
I118 E2
I119 C2
I120 C2
I121 D2
I122 D2
I123 D1
I124 E1
I125 E2
I126 E2
I127 E1
I128 E2
I129 D2
I130 E1
I131 C2
I132 E2
I134 E4
I135 E3
I136 E4
I137 E3
I138 E3
I139 C3
I140 E3
I141 E3
I142 E3
I143 E3
I144 E3
I145 E3
I146 E3
I147 E3
I148 D3
I149 E3
I150 E3
I151 E3
I152 D3
I153 E3
I154 E3
I155 E3
I156 E3
I157 E3
I158 E3
I159 D2
I160 E2
I161 D2
I162 E2
I163 E2
I164 D2
I165 D2
I166 D2
I167 D2
I168 E2
I169 E2
I170 E2
I171 E1
I172 E1
I173 D1
I174 E1
I175 E1
I176 E2
I177 E2
I178 E2
I179 D1
I180 D1
I181 D2
I182 D2
I183 D2
I184 D2
I185 E2
I186 D2
I187 E2
I188 D1
I189 E2
I190 E2
I191 E1
I192 E1
I193 E2
I194 E2
I195 E2
I196 E2
I197 E2
I198 D2
I199 E2
I200 D2
I201 E2
I202 D2
I203 D1
I204 E2
I205 E2
I206 E2
I207 D1
I208 D2
I209 D2
I210 D2
I211 E2
I212 D1
I213 E2
I214 E2
I215 D2
I216 E1
I217 D2
I218 E2
I219 E2
I220 E2
I221 G4
I222 G4
I223 G4
I224 F4
I225 G4
I226 F4
I227 G5
I228 G5
I229 G4
I230 F4
I231 F4
I232 F4
I233 F4
I234 G4
I235 G3
I236 F4
I237 G4
I238 G4
I239 F4
I240 G4
I241 G4
I242 F4
I243 F4
I244 F4
I245 G5
I246 G5
I247 G5
I248 G5
I249 G5
I250 G5
I251 G5
I252 G5
I253 G5
I254 G5
I255 G5
I256 F4
I257 F3
I258 G5
I259 G5
I260 G5
I261 G5
I262 F5
I263 F5
I264 F4
I265 F4
I266 F5
I267 F5
I268 F5
I269 F5
I270 F5
I271 F5
I272 G5
I273 G5
I274 G5
I275 F5
I276 F5
I277 F4
I278 A3
I279 A3
I280 B4
I281 B4
I282 B4
I283 A4
I284 A3
I285 A4
I286 B4
I287 B3
I288 B3
I289 B4
I290 A3
I291 B3
I292 B4
I293 B3
I294 B4
I295 A4
I296 A4
I297 B4
I298 A3
I299 B4
I300 B3
I301 B4
I302 A4
I303 B4
I304 E5
I305 E5
I306 C5
I307 C5
I308 C5
I309 D5
I310 E5
I311 E5
I312 D5
I313 D5
I314 D5
I315 D5
I316 E5
I317 D5
I318 C5
I319 C5
I320 C5
I321 C5
I322 C5
I323 C5
I324 C5
I325 C5
I326 B5
I327 C5
I328 F5
I329 C5
I330 E5
I331 C5
I332 E5
I333 C5
I334 E5
I335 C5
I336 C5
I337 E5
I338 E5
I339 E5
I340 D5
I341 E5
I342 D5
I343 D5
I344 E5
I345 D5
I346 C5
I347 E5
I348 C5
I349 C5
I350 C5
I351 B5
I352 E5
I353 E5
I354 E5
I355 E5
I356 E5
I357 D2
I358 F4
I359 D3
I360 D3
I361 D4
I362 D4
I363 C4
I364 D3
I365 D3
I366 D3
I367 D3
I368 D3
I369 D3
I370 D3
I371 D3
I372 F4
I373 D4
I374 D4
I375 D3
I376 C2
I377 F5
I378 F5
I379 F4
I380 E4
I381 E5
I382 E4
I383 D2
I384 D3
I385 E3
I386 E3
I387 D3
I388 D3
I389 D3
I390 D5
I391 D4
I392 C4
I393 D4
I394 D4
I395 D4
I396 D4
I397 D4
I398 E4
I399 D4
I400 E3
I401 E4
I402 D4
I403 E4
I404 E4
I405 D4
I406 E4
I407 D4
I408 D3
I409 E4
I410 E4
I411 E3
I412 E3
I413 E3
I414 E3
I415 E3
I416 E3
I417 E3
I418 E3
I419 D4
I420 E4
I421 D3
I422 E3
I423 E3
I424 E4
I425 E4
I426 E4
I427 D3
I428 F3
I429 D3
I430 C3
I431 C3
I432 C3
I433 C3
I434 C3
I435 C2
I436 C2
I437 C3
I438 C3
I439 C3
I440 C3
I441 C3
I442 D3
I443 D3
I444 D3
I445 D3
I446 D3
I447 C3
I448 E3
I449 C3
I450 D3
I451 C3
I452 D3
I453 E3
I454 D3
I455 E3
I456 C2
I457 D3
I458 D3
I459 D3
I460 E2
I461 E3
I462 C3
I463 D4
I464 D4
I465 D5
I466 D4
I467 D5
I468 C3
I469 C4
I470 D3
I471 C4
I472 D5
I473 C3
I474 D4
I475 D4
I476 D4
I477 C3
I478 E3
I479 E3
I480 E3
I481 E3
I482 E3
I483 E3
I484 C3
I485 C3
I486 C3
I487 C4
I488 C4
I489 E4
I490 E3
I491 E3
I492 E3
I493 E3
I494 A1
I495 A1
I496 B1
I497 A1
I498 B1
I499 B1
I500 B1
I501 B1
I502 B1
I503 A1
I504 A1
I505 A1
I506 B1
I507 B1
I508 A1
I509 B1
I510 A1
I511 B1
I512 B1
I513 B1
I514 B1
I515 B1
I516 B1
I517 A1
I518 A1
I519 A1
I520 A1
I521 A1
I522 A1
I523 A1
I524 A1
I525 A1
I526 B1
I527 B1
I528 A1
I529 B1
I530 B1
I531 B1
I532 A1
I533 B1
I534 B1
I535 B1
I536 B1
I537 B1
I538 B1
I539 A1
I540 A1
I541 A1
I542 A1
I543 A1
I544 A1
I545 A1
I546 A1
I547 A1
I548 A1
I549 A1
I550 A1
I551 A1
I552 A1
I553 A1
I554 A1
I555 A1
I556 B1
I557 B1
I558 B1
I559 B1
I560 B1
I561 G1
I562 G2
I563 G2
I564 F2
I565 F3
I566 F3
I567 F3
I568 F3
I569 F3
I570 E3
I571 E3
I572 F2
I573 E2
I574 F2
I575 F2
I576 G1
I577 G1
I578 G1
I579 G1
I580 F3
I581 F3
I582 F3
I583 F3
I584 G3
I585 G2
I586 G3
I587 G3
I588 G3
I589 G2
I590 G2
I591 G1
I592 F2
I593 F2
I594 G1
I595 G1
I596 G1
I597 G1
I598 G2
I599 G2
I600 G3
I601 G2
I602 G2
I603 G2
I604 G2
I605 G2
I606 G2
I607 G1
I608 G1
I609 G2
I610 G1
I611 F3
I612 G2
I613 G3
I614 G3
I615 F3
I616 F3
I617 G3
I618 G2
I619 B1
I620 B1
I621 B1
I622 B1
I623 B1
I624 B1
I625 B1
I626 B1
I627 B1
I628 B1
I629 B1
I630 B1
I631 B1
I632 B1
I633 B1
I634 B1
I635 B1
I636 B1
I637 B1
I638 B1
I639 B1
I640 B1
I641 B1
I642 B1
I643 B1
I644 B1
I645 B1
I646 B1
I647 B1
I648 B1
I649 B1
I650 C1
I651 B1
I652 B1
I653 B1
I654 B1
I655 B1
I656 B1
I657 B1
I658 C1
I659 B1
I660 B1
I661 C1
I662 B1
I663 B1
I664 B1
I665 B1
I666 B1
I667 C1
I668 B1
I669 B1
I670 B1
I671 B1
I672 B1
I673 B1
I674 B1
I675 B1
I676 B1
I677 B1
I678 B1
I679 B1
I680 B2
I681 B2
I682 B2
I683 B2
I684 B3
I685 B3
I686 B3
I687 B3
I688 B3
I689 B3
I690 B2
I691 B2
I692 B2
I693 A2
I694 B3
I695 B3
I696 B3
I697 B2
I698 B2
I699 B2
I700 B2
I701 B1
I702 A1
I703 D1
I704 E1
I705 D1
I706 E1
I707 E1
I708 D1
I709 E1
I710 E1
I711 E1
I712 D1
I713 E1
I714 E1
I715 E1
I716 D1
I717 E1
I718 E1
I719 E1
I720 E1
I721 E1
I722 E1
I723 E1
I724 E1
I725 E1
I726 E1
I727 E1
I728 E1
I729 F3
I730 G3
I731 G3
I732 G3
I733 G3
I734 G1
I735 G2
I736 G3
I751 F3
I752 G3
I753 F3
I754 G2
I755 G3
I756 G3
I757 G3
I758 G1
I759 G2
I760 G2
I761 B3
I762 B3
IB10 G1
IB11 C1
IB12 E1
IB13 C1
IB14 E1
IB15 C1
IB16 D1
IB17 D1
IB30 F1
IB31 E1
IB32 F1
IB33 F1
IB34 E1
IB35 E1
IB36 D1
IB37 D1
IB38 D1
IB39 D1
IB40 E1
IB41 D1
IB42 E1
IB43 F1
IB44 F1
IB45 E1
IB46 E1
IB47 E1
IB48 E1
IB49 E1
IB50 E1
IB51 E1
IB52 E1
IB53 E1
IB54 E1
IB55 E1
IB56 E1
IB60 D1
IB61 D1
IB63 E1
IB64 E1
IB65 E1
IB66 D1
IB67 D1
IB68 D1
IB69 E1
IB70 E1
IB71 E1
IB72 D1
IB73 E1
IB74 E1
IB75 D1
IB76 E1
IB77 D1
IB90 C1
IC00 A2
IC01 B2
IC04 B2
IC07 B2
IC43 B3
IC44 B3
IC47 B3
IC52 A2
IC53 B2
IC54 B2
IC55 B2
IC56 B3
IC57 B3
IC58 B3
IC59 B3
IC60 B3
IC61 B3
IC62 B3
IC70 A3
IC71 B2
IC72 B2
ICA0 B2
ICA1 B2
ID01 B1
ID02 B1
ID03 B1
ID04 B1
ID05 B1
ID06 B1
ID07 B1
ID08 B1
ID09 B1
ID10 B1
ID11 B1
ID12 B1
ID13 B1
ID14 B1
ID15 B1
ID16 B1
ID17 B1
ID18 B1
ID20 B1
ID21 B1
ID22 B1
ID23 B1
ID24 B1
ID25 B1
ID26 B1
ID27 B1
ID28 B1
ID29 B1
ID30 B1
ID31 C1
ID32 B1
ID33 B1
ID35 B1
ID36 B1
ID37 B1
ID38 B1
ID39 B1
ID40 B1
ID41 B1
ID42 B1
ID45 B1
ID46 B1
ID47 B1
ID57 B1
ID58 B1
ID59 B1
ID60 B1
ID61 B1
ID70 B1
ID72 B1
ID73 B1
ID75 B1
ID77 B1
ID78 B1
ID79 B1
ID80 B1
ID82 B1
ID84 B1
ID86 B1
ID87 B1
ID88 B1
IE01 F2
IE02 G2
IE03 G1
IE04 G3
IE05 G3
IE06 G3
IE07 G2
IE08 G2
IE09 G3
IE10 F3
IE11 G3
IE12 F3
IE13 G3
IE14 G2
IE15 G1
IE16 F3
IE17 F3
IE18 G3
IE19 G3
IE20 G3
IE21 G3
IE22 G3
IE23 G3
IE24 G2
IE25 F3
IE26 G1
IE27 G2
IE28 G1
IE29 G1
IE30 G2
IE31 G2
IE32 G2
IE33 G2
IE34 G2
IE35 G2
IE36 G3
IE37 G2
IE38 G2
IE39 G1
IE40 G1
IE41 G1
IE42 G1
IE43 F2
IE44 F2
IE45 G1
IE46 G2
IE47 G2
IE48 G3
IE49 G3
IE50 G3
IE51 F2
IE52 G3
IEA0 F3
IEA1 F3
IEA2 F3
IEA3 F3
IEA4 F3
IEA5 G1
IEA6 G1
IEA7 G1
IEA8 G1
IEA9 F2
IEB0 F2
IEB1 E2
IEB2 E2
IEB3 E3
IEB4 E3
IEB5 F3
IEB6 F3
IEB7 F3
IEB8 F3
IEB9 F3
IEC0 F2
IEC1 G2
IEC2 G2
IEC3 G1
IG50 B1
IG51 B1
IG52 B1
IG53 B1
IG54 B1
IG55 A1
IG58 A1
IG59 A1
IG60 A1
IG61 A1
IG62 A1
IG65 A1
IG66 A1
IG67 B1
IG68 A1
IG70 A1
IG71 A1
IG72 A1
IG73 A1
IG74 A1
IG75 A1
IG77 A1
IG78 A1
IG79 B1
IG80 B1
IG81 B1
IG82 B1
IG83 B1
IG84 B1
IG85 B1
IG86 B1
IG87 B1
IG88 B1
IG89 A1
IG90 B1
IG91 B1
IG92 A1
IG93 A1
IG94 A1
IG95 A1
IG96 A1
IG97 A1
IGA2 A1
IGA3 A1
IGA4 A1
IGA5 B1
IGA6 B1
IGA7 B1
IGA8 B1
IGA9 B1
IGB0 B1
IGB3 B1
IGE0 B1
IGE1 B1
IGE2 B1
IGE3 B1
IGE4 B1
IGE6 A1
IGE7 A1
IGE9 A1
IGF0 B1
IGF1 B1
IGF2 B1
IGF3 B1
IGF5 B1
IGF6 A1
IGH0 B1
IGH7 A1
IGH8 A1
IH00 D3
IH01 E3
IH02 E3
IH03 E3
IH04 E3
IH05 E3
IH07 D3
IH08 E3
IH10 E3
IH11 E3
IH12 E3
IH13 E3
IH14 E3
IH15 E3
IH16 E3
IH17 E3
IH18 E3
IH19 E3
IH20 E3
IH21 C3
IH25 E3
IH26 E3
IH30 E4
IH31 E3
IH32 E4
IH90 E3
IH91 E3
IH92 E3
IH93 E4
IHA0 C4
IHA1 B4
IHC0 C3
IHC1 C3
IHC2 C3
IHD2 E3
IHD4 E3
IHD5 E3
IHD6 E3
IHD7 E3
IHDE E3
IHF0 C3
IHF1 D4
IHF2 D4
IHF3 D4
IHF5 C3
IHF6 D5
IHF7 C4
IHG0 D3
IHG1 C4
IHG2 C3
IHK0 D5
IHK1 D4
IHK2 D5
IHK3 D4
IHK4 D4
IHM1 C3
IHM6 E3
IHM9 E2
IHMA D3
IHMB D3
IHMC D3
IHMG C2
IHMV D3
IHMW D3
IHMY E3
IHMZ D3
IHN0 C3
IHN3 D3
IHN4 C3
IHN6 D3
IHN8 C3
IHN9 D3
IHNA D3
IHNB D3
IHND D3
IHNE D3
IHNF C3
IHNG C3
IHNH C3
IHNJ C3
IHNK C3
IHP5 C2
IHP6 C2
IHP7 C3
IHP8 C3
IHP9 C3
IHPA C3
IHPB C3
IHPD D3
IHPF F3
IHPG D3
IHR1 E4
IHR8 E4
IHRE E4
IHRH E3
IHRJ E3
IHRK D3
IHRL E4
IHRM D4
IHRT E3
IHRU E3
IHRV E3
IHRW E3
IHRY E3
IHRZ E3
IHS0 E3
IHS1 E3
IHS2 E4
IHS3 E4
IHS7 D3
IHS8 C4
IHS9 E4
IHSA D4
IHSB D4
IHSC E4
IHSD D4
IHSE E4
IHSF E3
IHSG D4
IHSH D4
IHSK D4
IHSL C4
IHSM D4
IHSN D4
IHSP D4
IHSR C4
IHSS D4
IHST D5
IHSU D3
IHSV D3
IHSW D3
IHSX E3
IHSY E3
IHV0 C3
IHV1 D2
IHV3 D4
IHV5 E5
IHV6 E4
IHV7 F4
IHV9 F5
IHVB F5
IHVC C2
IHVD D3
IHVE D4
IHW0 D4
IHW8 F4
IHWA D3
IHWE D3
IHWJ D3
IHWL D3
IHWZ D3
IHY0 D3
IHY1 D3
IHY2 D3
IHY3 C4
IHY4 D4
IHY5 D4
IHY6 D3
IHY7 D3
IHY8 D3
IHY9 F4
IHYA D2
IJ30 E5
IJ31 E5
IJ32 E5
IJ33 E5
IJ34 E5
IJ35 B5
IJ36 C5
IJ37 C5
IJ38 C5
IJ39 E5
IJ40 C5
IJ41 D5
IJ42 E5
IJ43 D5
IJ46 C5
IJ47 E5
IJ48 D5
IJ50 E5
IJ51 E5
IJ52 E5
IJ53 C5
IJ54 C5
IJ55 E5
IJ56 C5
IJ57 E5
IJ58 C5
IJ59 C5
IJ60 E5
IJ61 C5
IJ62 F5
IJ63 B5
IJ64 B5
IJ65 C5
IJ66 B5
IJ67 C5
IJ68 C5
IJ69 C5
IJ70 C5
IJ71 C5
IJ72 C5
IJ73 C5
IJ74 C5
IJA0 D5
IJA2 E5
IJA4 E5
IJA5 D5
IJA6 C5
IJA7 C5
IJA8 E5
IJA9 E5
IJB3 E5
IJE1 C5
IJE3 B5
IJE4 C5
IJE6 E5
IJE9 E5
IN00 B4
IN01 A4
IN02 B4
IN03 B3
IN04 B4
IN05 A3
IN06 B4
IN07 A4
IN08 A4
IN09 B4
IN10 B3
IN11 B4
IN12 B3
IN13 A3
IN14 B4
IN15 B3
IN16 B3
IN17 B4
IN19 A4
IN30 A3
IN35 A4
IN50 B4
IN51 B4
IN52 B4
IN53 A3
IN54 A3
IP00 A4
IP01 A4
IP02 A4
IP03 A5
IP04 B4
IP05 B4
IP06 A5
IP07 A4
IP08 A4
IP09 A4
IP10 A5
IP11 A5
IP13 A5
IP14 A5
IP15 A5
IP18 B4
IP20 A4
IP50 B5
IP51 A4
IP52 A5
IP53 B5
IP54 A5
IP55 A5
IP56 B4
IP57 A4
IP58 A4
IT03 F4
IT05 F5
IT07 F5
IT08 G5
IT10 G5
IT11 G5
IT12 F5
IT14 F5
IT15 F5
IT16 F5
IT18 F5
IT22 F5
IT24 F4
IT25 F4
IT26 F5
IT27 F5
IT31 G5
IT32 G5
IT33 G5
IT36 F5
IT41 F3
IT42 F4
IT50 G5
IT51 G5
IT52 G5
IT53 G5
IT54 G5
IT55 G5
IT56 G5
IT66 G5
IT67 G5
IT68 G5
IT69 G5
IT70 F4
IT71 F4
IT72 F4
IT73 G4
IT74 G4
IT75 F4
IT76 F4
IT77 F4
IT78 F4
IT79 G3
IT81 G4
IT85 F4
IT86 F4
IT87 F4
IT88 F4
IT89 G4
IT90 G5
IT91 G5
IT92 F4
IT93 G4
IT94 F4
IT95 G4
IT96 G4
IT97 G4
IU00 E1
IU02 D2
IU03 E2
IU04 E2
IU05 E2
IU06 E2
IU07 E2
IU08 E1
IU09 D2
IU10 D2
IU11 E2
IU12 E2
IU13 E1
IU14 E1
IU15 C2
IU16 D2
IU17 E2
IU18 E2
IU19 D1
IU20 D2
IU21 D2
IU22 C2
IU23 D2
IU24 D2
IU25 D1
IU26 E2
IU27 E2
IU28 E2
IU29 D1
IU30 D2
IU31 E2
IU32 D2
IU33 D2
IU34 D2
IU35 E2
IU36 E2
IU37 D2
IU38 E2
IU39 E2
IU40 E2
IU41 E1
IU42 E1
IU43 D2
IU44 E1
IU45 E2
IU46 E2
IU47 D1
IU48 E2
IU49 D2
IU50 D2
IU51 E2
IU52 D2
IU53 D2
IU54 D2
IU55 D2
IU56 D1
IU57 C1
IU58 E2
IU59 E2
IU60 E2
IU61 E1
IU62 E1
IU63 D1
IU64 C2
IU65 E1
IU66 E1
IU67 E2
IU68 E2
IU6A C2
IU6E D2
IU6F D2
IU6J C2
IU6K C2
IU6L C2
IU6M C2
IU6N C2
IU6P C2
IU6R C2
IU6T C2
IU70 C2
IU71 C2
IU72 C2
IU73 E2
IU74 E1
IU75 E2
IU76 E2
IU77 E1
IU78 D1
IU79 D2
IU7B C2
IU7C C2
IU7E C2
IU7F D2
IU7H D2
IU7J D2
IU7K C2
IU7L C2
IU7M C2
IU7N C2
IU7P D2
IU7Q C2
IU7R C2
IU7T C2
IU7V C2
IU80 D2
IU81 C2
IU82 C2
IU83 E2
IU84 E2
IU85 E2
IU86 C2
IU87 D2
IU88 C2
IU89 C2
IU8A D2
IU8B D2
IU8C D2
IU8D C2
IU8F D2
IU8G C2
IU8H E2
IU8I E1
IU8J E2
IU90 D2
IU92 D2
IU93 D2
IU94 D2
IU95 E2
IU96 E2
IU97 D2
IU98 E2
IU99 D2
I2C IC Overview
I²C
PNX8535: CONTROL
B04E
Block Diagrams, Test Point Overview, and Waveforms
HDMI SWITCH
B08E
+3V3-PER
B08D
HDMI
51Q528.1E LA 6.
B06C
PACIFIC 3
CHANNEL DECODER
B03A
B03B
MAIN TUNER
I2C3-SDA
I2C3-SCL
B04H
DDC-SDA
DDC-SCL
7H00
PNX8537E
PNX8535
ERR
05
B04F
PCI XIO
B04G
SDRAM
I2C2-SDA
I2C2-SCL
B04A
I2C uP-SDA
I2C uP-SCL
STANDBY
CONTROL
I2C1-SCL
B04O
VID_OUT
B0_UART
B1_UART
HDMI
ERR
53
RXD
TXD
I2C1SDA
RXD
TXD
TTL
AJ27
AJ28
E10
C9
AK28
AK29
AH3
AG4
U4
V3
AB1
AC5
AH27
AK27
E27
D28
AF15
AK16
SDA3
SCL3
ERR
03
PNX8535: DIGITAL VIDEO IN
B04H
PNX8535: FLASH
B04Q
7HA0
NAND512W3A
NAND
PCI-AD
B04G
DDR2-D
DDR2-A
B04A
FLASH
(128x8)
PNX8535: SDRAM
7HG0
EDE2516ABSE
7HG1
EDE2516ABSE
DDR2
SDRAM
4Mx16x4
SDA2
SCL2
PNX8535: STANDBY CONTROLLER
7H02
M25P05
512K
FLASH
P0.1
P0.7
SDA1
SCL1
PNX8535: DIGITAL VIDEO OUT / LVDS
B04O
3HPJ
3HPH
3HPG
3HPF
3H41
3H38
3H59
3H61
3HPE
3HPD
9HWH
9HWG
3HPK
3HPM
FACTORY
USE ONLY
+3V3-STANDBY
3H02
3H03
SDA-SLAVE
SCL-SLAVE
1HP0
SDA-2
SCL-2
3
2
1
SDA-SSB
SCL-SSB
DDC-SDA
DDC-SCL
3HPB
3HPA
9HP8
9HP6
9HP7
9HP5
3J16
50 49
7J27
AD8191ASTZ
HDMI
89
SWITCH
90
ERR
23
7HP5
PCA9540BDP
2 CHANNEL
I2C
3HPQ
3HPT
B05A
B04C
RESET-NVM_WP-NANDFLASH
MULTIPLEXER
2
ERR
1
PNX5050: CONTROL
SDA-SSB
SCL-SSB
PNX8535: NVM / UART SWITCH
SDA-UP-MIPS
SCL-UP-MIPS
UART-SWITCH
RXD-UP
TXD-UP
RXD-MIPS
TXD-MIPS
DV-B0_UART2-RX
DV-B1_UART2-TX
9T21
9T22
BIN-5V
3JA5
3JB5
3JA7
3JC0
56
M24C02
EEPROM
9G53
9G54
PNX5050: SDRAM
7CA0
EDD1216AJTA
7CA1
EDD1216AJTA
DDR
SDRAM
16Mx16
13
R1-IN
14
R2-IN
8
7
3JE3
3JE2
3JE5
3JE4
7JA1
3JB4
3JB6
B06A
RXD2
TXD2
CIN-5V
3J02
3J06
56
7J29
M24C02
EEPROM
PACIFIC 3: LVDS
SDA-I2C4-DISP
SCL-I2C4-DISP
MAIN TUNER
B03B
9T85
9T86
3J03
ARX-DDC-SDA
ARX-DDC-SCL
BRX-DDC-SDA
BRX-DDC-SCL
CRX-DDC-SDA
CRX-DDC-SCL
3J05
SDA-MUX2-BUF
SCL-MUX2-BUF
1HE2
3
UART2
2
FOR
FACTORY
1
USE ONLY
9J06
9J07
3G52
3G53
9T51
9T52
1B01
1B02
1B03
1G50
16
15
16
15
16
15
1
2
3x HDMI
CONNECTOR
LVD S
COONECTOR
TO DISPLAY
3T77
76
1T04
TD1716F/IHXP
MAIN
TUNER
ERR
34
RXD-SERV
TXD-SERV
3T53
3GG3
3GG2
198 200
7GE2
T6TF4HFG
3J11
3J12
UART
PACIFIC 3
ERR
46
1M15
3
2
62
PWM-3
61
PWM-OR
68
69
UART
SERVICE
CONNECTOR
7GE1
M25P05
512K
FLASH
7GE0
P87LPC764BDH
MICRO
1
CONTROLER
8
18
17
PACIFIC 3: DISPLAY-INTERFACING
B06B
SDA-AMBI-3V3
SCL-AMBI-3V3
1
18 2
19
B08A
3J01
3C51
AIN-5V
3JA6
3JA0
3JB0
3J00
3JA8
56
7JA0
M24C02
EEPROM
B05B
MM_DATA
MM_A
7JE2
ST3232C
9
R2-OUT
T1-OUT
10
T2-IN
RS232
INTERFACE
T2-OUT
12
R1-OUT
11
T1-IN
UART
LEVEL ADAPTER
3J09
PARX-DDC-SDA
85
PARX-DDC-SCL
86
PBRX-DDC-SDA
93
PBRX-DDC-SCL
94
PCRX-DDC-SDA
98
PCRX-DDC-SCL
99
+3V3-STANDBY
ERR
ERR
3HPS
3HPR
11
3HPU
3HPW
12
4
5
24
7
8
3HPX
3HPY
+3V3-STANDBY
3HPZ
3HPC
B05C
9C08
9C07
7HC4
7HC1
SDA-PNX5050
SCL-PNX5050
7HC0
74HC4066PW
2
9
3
10
56
7HC3
M24C64
EEPROM
(MAIN NVM)
8
5
4
1
8
11
B08C
3HC3
3HC6
3JA1
3JC5
PACIFIC 3: DISPLAY-INTERFACING
B06B
SDA-SSB-MUX1
SCL-SSB-MUX1
SDA-SSB-MUX2
SCL-SSB-MUX2
PNX5050: VIDEO
3C50
C8 D8
7C00
PNX5050EH/M1
PNX5050
ERR
22
EXTERNALS
RXD
TXD
3JE1
3JE0
3T28
3T26
34 35
7T17
TDA10048HN
CHANNEL
DECODER
ERR
37
7G61-2
SDA-SSB1
SCL-SSB1
+3V3
3GA3
7G61-1
+5V-ON
3GA0
B01B
SDA-AMBI
SCL-AMBI
SUPPLY
3T57
3T56
23 24
7T57
TDA9898HL
IF
PROCESSING
ERR
26
3B59
3B58
5B10
5B12
LIGHT
H_16800_103.eps
080507
1M59
TO
AMBI
3
1
Block Diagrams, Test Point Overview, and Waveforms
Supply Lines Overview
SUPPLY LINES OVERVIEW
SUPPLY
B01A
CONTROL
1P02
2
1
A
A
SEE ALSO BLOCK
DIAGRAM SUPPLY
DISPLAY
SUPPLY
5
3
2
1
1P11
1 1
2
3
4
5
6
7
8
1M09
1
2
3
4
5B01
11
3128
7B04
TCET1102
2143
AMBI-LIGHT
B01a
B02b
B02b
2B48
6B07
7
2B51
8
6B08
9
6B06
10
2B46
6B05
12
2B51
7B50
CONTROL
B01B
1P11
2
3
4
5
6
7
8
TO
B02A
+12VS
+5V-POD
1V2-STANDBY
1B33
2.5AT
AUDIO-PROT
STANDBY
SUPPLY
BACKLIGHT-OUT
POWER-OK-DISPLAY
LAMP-ON-OUT
BACKLIGHT-BOOST
STANDBY
1B50
T3A
DC/DC
5U00
7U00
NCP5422
Dual
Out-of-Phase
Synchronous
Buck Controller
+AUDIO-POWER
-AUDIO-POWER
3B72
B11C
B04D
R
9B06
6B15
3B73
3B29
+5V-STANDBY
12V/3V3
COVERTER
5U03
7U28
12V/1V2
COVERTER
5U02
1V2-STANDBY
7B06
K
A
SEE ALSO BLOCK DIAGRAM SUPPLY
7U16
7U14
POD-MODE
7U01
3U01
15
1
7U06
2
7U03
16
7U08
15
+12VS
+5V-STANDBY
B06B
B04A
B06B
N.C.
B04D
+12V-DISP
+12VS
+12V
+12VF
+3V3
+3V3F
+1V8
7U27
STAB .
+1V2
+5V-POD
52Q528.1E LA 6.
DC / DC
B02B
B01a,b
B11a
B11a
B02a,b,
b
B02b,B06
B01a
B11a
B11a
B02a
B02a
B02a
B02a
B02a
B02b
B06b,B04o
B02a
B02a
B02b
B02b,c,
B04a,B06b,
B09a,b
B02a
B02b
B02b,c
B02b
B02b,c,B3a,b,
B04a,e,l,m,p,q
B05a,b,c,d,B06b,
c,B07a,b,B08b,e,
B10a
1V8
B02b
B02a
B02c
B02a
B02b
B02b
B02b
B02b
B03a,B04e
+5V-STANDBY +5V-STANDBY
3U94
7U02-1
POD-MODE
7U19
7U18
5U09
7U24
7U8C
15
3T66
7T50
VOLT.
REG.
11
14
7U04-2
6U63
7U61-1
7U61-2
7U02-2
ON-MODE
7U20
5T08
5T08
5T53
3T67
7U04-1
3U86
7U17
VOLT.
REG.
+12VS +12VS
VP VP
VN VN
+12V
+12VF
3UB3
VSW
DC / DC
B02C
+3V3F +3V3F
7U8B
VOLT.
REG.
+12V
+12VF
5U68
7U64
L6910
STEP
DOWN
CONTR
CHANNEL DECODER
B03A
+3V3
+1V2
+5V-ON
MAIN TUNER
B03B
+3V3
+5V-ON
VTUN
PNX8535: STANDBY CONTROLLER
B04A
+3V3-STAN DB Y
+3V3
+2V5
+12V
+5V-ON
PNX8535: DEBUG
B04B
+3V3-STAN DB Y
PNX8535: NVM / UART SWITCH
B04C
+3V3-STAN DB Y
+5VS
3UB4
9U8A
5U60
5T52
ANTENNA-SUPPLY
+5VS
+5V-POD
+5V-ON
+3V3-STANDBY
+1V2-STANDBY
+12V
+12VF
+VTUN
(RESERVED)
+2V5
+12V
+12VF
+1V4
Only for Europe
+3V3
+3V3DVB
+1V2
+1V2DVB
+5V-ON
+3V3
+5V-ON
V1
VTUN
33VTUN
(RESERVED)
+3V3-STANDBY
+3V3
+2V5
+12V
+5V-ON
+3V3-STANDBY
+3V3-STANDBY
+5VS
B02b
B02b
B02b
B04p
B02a
B02a
B04p
B02a
B04p
B11a
B11a
B04p
B02b
B02a
B02b
B02a
B02b
B04p
B01b
B04p
B02a
B02a
B02b
B02b
B02a
B04l
B02a
B04c,d,l,m
B09a,B10c
B02a,B07a
B03a,B04a,b,
B06b,B10b
B04a,b,c,d,e,m,p,
B06b,B08a,c,B11a,c
B02a,B04p
B04a,B05b
PNX8535: MISCELANEOUS
B04D
+3V3-STANDBY
+5VS
PNX8535: CONTROL
B04E
+3V3-STAN DB Y
+3V3-PER
+3V3
+1V2
PNX8535: CONTROL
B04F
+3V3-PER
PNX8535: SDRAM
B04G
+1V8
B04H
B04I
VP
VN
B04K
+3V3-PER
B04L
+5VS
+3V3
B04M
+3V3-STANDBY
+3V3
+5VS
B04N
+3V3-PER
B04O
+12V-DISP
VDDA-LVDS
B04P
+1V2
+1V8
+3V3-STANDBY
+1V2-STANDBY
+3V3
VDDA-AUDIO
B04Q
+3V3
3HJ1
3HJ3
PNX8535: DIGITAL VIDEO IN
PNX8535: AUDIO
5HM0
5HM1
PNX8535: ANALOGUE AV
PNX8535: AUDIO
7HP0
5HP1
IN OUT
COM
PNX8535: AUDIO
PNX8535: VIDEO STREAMS
PNX8535: DIGITAL VIDEO OUT / LVDS
PNX8535: POWER
5HYA
5HY4
5HY7
PNX8535: FLASH
5HA0
7HK0
IN OUT
COM
5HK2
5HY1
+3V3-STANDBY
+5VS
+3V3-STANDBY
+3V3-PER
+3V3
RES
+1V2
+3V3-PER
+1V8
DDR2-VREF-CTRL
DDR2-VREF-DDR
RREF-PNX8535RREF-PNX8535
VP
AUDIO-VDD
VP
AUDIO-VEE
+3V3-PER
+5VS
VDDA-AUDIO
+3V3
+3V3-STANDBY
+3V3
+5VS
+3V3-PER
+12V-DISP
VDDA-LVDS
+1V2
+1V8
+3V3-STANDBY
+1V2-STANDBY
+3V3
+1V8-PNX
+3V3-PER
RREF-PNX8535
VDDA-LVDS
VDDA-AUDIO
VDDA-DAC
AUDIO-ADC
+3V3
+3V3-NAND
B02a
B05d
B02c
B02a
B02a
B02b
B05b
B06b
B02a
B01b
B02b
B02a
B02b
B02b
B02a
B02a
B02b
B02a
B02a
B02b
B02a
B04p
B04e,f,k,n
B04h
B04o
PNX5050: CONTROL
B05A
+3V3
+3V3-D
PNX5050: SDRAM
B05B
+2V5
5CA1
PNX5050: VIDEO
B05C
+3V3
PNX5050: SUPPLY
B05D
+3V3
5CD1
+1V4
+2V5-DDR
PACIFIC 3: LVDS
B06A
VDISP
PACIFIC 3: DISPLAY-INTERFACING
B06B
+12V-DISP
+3V3-STANDBY
+3V3
+5V-ON
+12V
PACIFIC 3
B06C
7GE5
IN OUT
POD: SUPPLY / C0NTROL
B07A
(POD IS THE EQUIVALENT OF COMMON INTERF.)
+5V-POD
+3V3
7P01
TPS2211AIDB
3,4
PC-CARD
POWER
SWITCH
5,6,9
POD: BUFFERING
B07B
+3V3
UART
B08A
+3V3-STANDBY
SPDIF
B08B
+3V3
7G54
3GC4
5GE2
COM
7GE3
IN OUT
COM
10
11,12,13
3CA1
3CA3
5G55
5GE0
5GE1
5GE3
5GE4
5GE5
5GE6
+3V3
+3V3-D
+2V5
+2V5-DDR
VREF-DDR
+2V5-STAB
+3V3
+3V3
+3V3-D
+1V4
+2V5-DDR
VDISP
+12V-DISP
VDISP
+3V3-STANDBY
+3V3
+5V-ON
+5V-STANDBY+5V-STANDBY
+12V
+8V2-PAS
+3V3+3V3
+3V3-P3
+2V5-PF
+2V5-P3
+2V5-PLL
+1V5
+1V5-P3
+1V5-PLL
+1V5-TX
+1V5-RX
+5V-POD
+3V3
PCMCIA-VPP
PCMCIA-VCC
+3V3
+3V3-STANDBY
+3V3
B02B
B02b
B08d
B02a
B08d
B02a
B09a
B02a
B02a
B02b
B02b
B01a
B01a
B02b
B02b
B11a
B11a
B11a
B11a
TO 1M20
B10C
SSB
B05d
B05a
B06a
EXTERNALS
B08C
+3V3-STANDBY
7J50
7J51
UART-SWITCH
HDMI
B08D
CONNECTOR
CONNECTOR
CONNECTOR
B08E
B09A
B09B
B10A
B10B
B10C
B11A
-AUDIO-POWER
B11C
1M22
5
1B01
HDMI
18
1B02
HDMI
HDMI
+5VS
18
1B03
18
3JC8
3JC7
3JH3
HDMI SWITCH
+5V-CON
+3V3
5JA5
5JA3
5JA4
ANALOGUE EXTERNALS
+5V-CON
+12V
7E70
3E70
IN OUT
COM
3E71
ANALOGUE EXTERNALS
+8V6
+12V
USB 2.0
+3V3
USB 2.0
+5V-ON
LED PANEL CONNECTOR
+5VS
AUDIO LEFT / RIGHT
+AUDIO-POWER
3D04
3D04
7D55
7D55
7D58
ON-MODE
ON-MODE
3D39
7D61
+3V3-STANDBY
AUDIO: PROTECTION/MUTE CONTROL
+3V3-STANDBY
VP
VN
VPP
VNN
LED PANEL
J
+5V2-STBY +5V2-STBY
+3V3-STANDBY
+3V3-UART
AIN-5V
BIN-5V
CIN-5V
+5V-CON
+5VS
+5V-CON
+5V-MUX
+3V3
+3V3-DIG
+3V3-ANA
+5V-CON
+12V
+8V6
VREF
+8V6
+12V
+3V3
+5V-ON
+5VS
+AUDIO-POWER
VPP
VP
VP
-AUDIO-POWER
VNN
VN
+3V3-STANDBY
+3V3-STANDBY
VP
VN
VPP
VNN
1M20
B08e,B09a
B09b
TO 1M20
5
J
IR/LED
B11c
B02b,B04i,
B11c
B11c
B02b,B04i,
B11c
H_16800_104.eps
110507
Circuit Diagrams and PWB Layouts
53Q528.1E LA 7.
7. Circuit Diagrams and PWB Layouts
Display Supply (32” & 37”): Part 1
123456
A1 A1
DISPLAY SUPPLY: PART1
A
1011
HEATSINK
123
B
MAINS FILTER
5403
1
4
2
MAINS INPUT
95-264Vac
C
1308
2
1
F410
F411
F412
3401
F415
F418
F413
F416
1400
F414
T5AH 250V
4M7
F419
D
4M7
3402
I419
E
HOT GROUND
3403
4M7
COLD GROUND
GND_COLD
F
1317
1
2
3
G
4
5
6
7
8
9
10
11
12
H
+12Vd
3430
10K
I
F417
2410
GND_COLD
6055
GND_COLD
I410
2400
2411
100p
GND_COLD
1320
1
2
3
4
5
6
7
8
9
10
11
12
13
14
3431
BZX384-C3V3
GND_COLD
470n
100p
GND_COLD
10R
3400
V
F401
F402
F427
6057
GND_COLD
9015
2
5405
1
9046
1403
500V
1404
V_NOM
1402
500V
1405
V_NOM
GND screw
I457
BZX384-C3V3
1006
3
4
DMF2405H60
I429
1
9070
9071
3459
10K
I443
23
14
22n
2403
DMF3547HB60
I431
1319
1
2
3
4
5
6
7
8
9
10
11
12
13
14
9072
+12Vd
9042
5401
2404
3405
220R
47p
+24V
9039
F404
F406
GND_COLD
F431
2401
9062
2407
GND_COLD
9040
I446
I430
470n
220p
9073
I411
I416
I455
6056
GND_COLD
3404
220R
I459
3433
BZX384-C3V3
GND_COLD
3
I440
I442
5402
2406
9003
3432
I412
4
47p
I414
I432
F429
F430
10K
+12Vd
23
1
DMF3547HB60
1K5
3450
1R0
9005
9001
3451
1R0
+5V2
ON-OFF
DIM-CONTROL
BOOST
3422
3423
GND_COLD
+12Vd
+15V
2408
GND_COLD
DIM-CONTROL
POWER-GOOD
ON-OFF
BOOST
STANDBY
3101 313 6154.4
123456789101112
7 8 9 1011121314
I445
100n
10K
I436
10K
BC847BW
GND_COLD
I437
7802
F420
3424
GND_COLD
9006
9007
5408
3u3
220R
+12Vd
I820
+12Vd
GND_COLD
I438
15K
3413
+5V2
F403
+12Vd
5409
80R
5410
80R
6461
BAS316
7801
BC817-25W
2n2
2402
GND_COLD
5406
3u3
GND_COLD
GND_COLD
F425
F426
1450
G5PA-1-5VDC
I424
3425
10K
F405
1P22
1
2
1P02
6460
BAS316
I439
BZX384-C2V7
1P11
1M09
1M12
1P15
2
1
9816
6469
1
2
3
4
5
6
7
8
1
2
3
4
1
2
3
4
1
2
3
F421
F428
TO
SSB
1M90
1
2
3
4
5
6
B6B-PH-K
400V_HOT
+12Vd
GND_COLD
STANDBY
I814
6809
1N5062
I830
6808
1N5062
I828
I815
22K
3807
I816
+5V2
POWER-GOOD
1M0
3800
3806
470R
20K
3804
2811
GND_COLD
9806
50V10u
RES
AVS1ACP08
I426
I427
47n
2805
I456
47n
2807
I408
I407
BC857BW
7013
I409
F407
GND_COLD
3810
12K
9810
7805
7
8
2
2802
3076
6024
3077
3078
MODE
VM
OSIN
I428
100p
+12Vd
470R
BZX384-C4V7
220R
2K2
VDD
VSS
2804
4
OSOUT
1
F423F422
6807
TS6B
56n
6
NC
5
VG
3
2806
47u
50V
25V_HOT
400V_HOT
I812
I811
I810
56n
2803
I817
I423
3803
I421
390R
I425
91K
3802
2808
9812
2816
2815
I418
330u
I420
AVS10CB
9808
9811
2810
100n
I825
100n
2809
I824
I826
4R7
3805
9814
I417
9813
330u
7806
47n
I422
33u
5804
HOT GROUND
COLD GROUND
13 14
H_16800_001.eps
170407
1006 F3
9811 D12
1011 A6
9812 F12
1308 C1
9813 D12
1317 G2
9814 D12
1319 G3
9816 G8
1320 G3
F401 G3
1400 C2
F402 G3
1402 D3
F403 H7
1403 D3
F404 G4
1404 D3
1405 E3
1450 E8
1M09 H8
1M12 H8
1M90 H8
1P02 C8
1P11 G8
1P15 I8
1P22 B8
2400 C2
2401 C4
2402 G7
2403 C3
2404 D4
2406 D5
2407 E4
2408 D7
2410 E2
2411 E3
2802 F10
2803 C11
2804 D10
2805 F10
2806 F11
2807 F10
2808 F12
2809 E12
2810 E12
2811 I10
2815 C12
2816 D12
3076 G10
3077 H10
3078 I10
3400 C3
3401 C2
3402 D2
3403 E2
3404 D5
3405 D4
3413 G7
3422 F6
3423 F6
3424 F7
3425 G8
3430 H2
3431 I2
3432 I5
3433 I5
3450 C6
3451 D6
3459 I3
3800 E9
3802 F11
3803 E11
3804 F9
3805 F12
3806 F9
3807 F9
3810 C10
5401 C4
5402 C5
5403 B5
5405 C3
5406 H8
5408 H7
5409 C7
5410 C7
5804 F12
6024 H10
6055 I2
6056 I5
6057 I3
6460 F8
6461 F8
6469 G8
6807 C11
6808 F9
6809 E9
7013 H10
7801 F7
7802 G7
7805 E10
7806 E12
9001 D6
9003 D5
9005 C6
9006 H7
9007 H7
9015 C3
9039 F4
9040 F4
9042 D4
9046 D3
9062 D4
9070 H3
9071 H3
9072 H4
9073 I5
9806 F10
9808 D13
9810 E10
F405 H8
F406 G4
F407 I10
F410 C1
F411 C1
F412 C1
F413 C2
F414 C2
F415 D1
F416 D2
F417 D2
F418 D2
F419 D2
F420 F7
F421 E8
F422 C11
F423 C11
F425 C8
F426 C8
F427 H3
F428 G8
F429 H5
F430 H5
F431 H4
I407 H10
I408 G10
I409 H10
I410 C3
I411 C5
I412 C6
I414 D6
I416 C5
I417 D12
I418 C12
I419 E2
I420 E12
I421 E12
I422 F12
I423 E11
I424 E8
I425 E11
I426 E10
I427 E10
I428 F10
I429 D3
I430 E5
I431 D4
I432 D6
I436 F7
I437 G7
I438 G7
I439 G8
I440 C5
I442 C6
I443 C4
I445 C7
I446 D5
I455 D5
I456 F10
I457 H3
I459 H5
I810 C11
I811 C11
I812 C11
I814 E9
I815 F9
I816 F9
I817 D11
I820 H7
I824 F12
I825 E12
I826 F12
I828 F9
I830 E9
A
B
C
D
E
F
G
H
I
Circuit Diagrams and PWB Layouts
54Q528.1E LA 7.
Display Supply (32” & 37”): Part 2
1 23456789
A2 A2
DISPLAY SUPPLY: PART2
HOT GROUND
BIAS SUPPLY
80R
5005
2000V
1n5
2000V
1n5
5040
4
3
TCET1102(G)
F029
1600V
15n
2017
7
6
5
3
80R
I114
2
1
15n
2011
1600V
F023
F300
I084
c001
A
25V_HOT
6081
B
VS-CONTROLLER
3002
39K
100K
3004
100p
2034
27K
2009
100p
100p
2035
2005
2040
560p
I103
3003
C
D
2K7
3048
3043
I104
10R
3009
E
3K3
2007
470n
3008
I021
330R
16V
F
2002
BZX384-C22
200p
2006
2004
I009
100p
630V
RES
6001
BAS316
3007
I028
1n0
10K
630V
470u
25V
3000
4R7
I008
I029
I006
I007
10K
3006
I010
400V_HOT
I096
5017
50R
I048
I027
3005
33K
3058
5M6
3050
820K
SOFTSTART
CONTROL
I018
2027
RES
I022
3066
I025
I047
CONTROL
MC34067P
9
1
2
3
16
6
8
7
11
I105
50V
15n
BC857BW
7017
10K
I023
3064
F007
3027
100K
2026
RES
6082
BAS316
9009
7001
3053
680K
I020
10K
50V
2n2
EN|UA
OSCC
OSCR
OSCCC
OS
EAO
Ip
In
SOST
3012
I097
15
4
7018
BC847BW
VCC
VREF
PGND
GND
2050
15K
6080
BYG22D
OA
OB
FI
1n0
I044
6079
BYG22D
RES9008
5
14
12
13
10
I012
3065
100K
68K
3061
CURRENT
PROTECTION
I024
16V
10K
2008
3013
470n
I095
6011
BAS316
6077
BYG22D
I033
6010
2003
2015
10n
BAS316
I099
80R
5016
80R
BAT54 COL
2016
100n16V
470p
470p
2064
5010
1m0
I108
F009
6004
4
2
I100
I101
I107
3
BAT54 COL
5001
S13932-04
2060
I043
3100
10R
F299
400V_HOT
F018
80R
5007
I001
I064
2061
2n2
I003
6007
BAS316
2n2
6003
3035
BAS316
I045
3016
3K3
6
3029
3K3
7
I039
9
6008
10
BAS316
3028
3K3
3020
3K3
3019
3K3
3K3
2062
2n2
I042
6027
BAS316
I109
I052
6028
BAS316
I145
HIGH SIDE
3014
I038
100R
2072
1n0
I046
2065
2n2
6002
BAS316
2071
1n0
I051
DRIVE
F002
47R
3015
6013
I037
BC857BW
7007
I004
LOW SIDE
100R
3017
47R
3018
I059
BC857BW
7008
I055
STP15NK50ZFP
1
DRIVE
STP15NK50ZFP
I057
6012
BZG05C15
9024
1
BZG05C15
9025
c002
7006
80R
5008
I002
7005
2
80R
3
I111
I294
2013
50R
5004
I110
F005
2
5013
3
I113
I112
2012
50R
5041
3033
I098
I049
1R0
1m0
6078
I053
I050
BYG22D
80R
9004
5009
2063
5015
F003
F004
6005
F008
I106
GND3
I036
50V
RES2018
15R
100n
3045
3001
100R
3046
I034
15R
15R
3021
2014
I081
2n2
2000V
G
I139
3070
2046
BC857BW
7009
I137
1K0
10K
3071
6006
3
31I
BAS316
47n
2048
3067
100R
I143
BAS316
H
6020
I
OVERVOLT AGE
PROTECTION
6009
I142
PDZ18-B
I141
2010
100u
470R
3010
3011
470R
6022
2019
BZX384-C4V7
BAS316
6051
3056
220R
3068
2K2
I136
I135
47R
10n
3047
431I
3075
1K0
I140
I138
2077
I132
1n0
6017
2n2
2047
10n
BAS316
I011
7004
BC847BW
3055
470R
6015
BAS316
I296
6014
BZX384-C22
I295
10K
3089
I131
HOT GROUND
7002
5002
8
BS51
2000
470p
COLD GROUND
1
2
I117
9
10
11
GND_COLD
12
13
14
GND_COLD
15
16
GND_COLD
F033
F032
1005
COLD GROUND
3101 313 6154.4
1 23456789101112
10 11 12 13
2K2
3069
I063
I116
I073
I076
I154
3.15A T
I155
6016
BYW29EX-200
1009
HEATSINK
GND_COLD
F021
I062
5027
I070
50R
3
50V
2025
1n0
6044
2
5028
5025
5026
50R
50R
50R
STPS20L45CT
1
2029
1n0
I074
2045
1n0
50V
I077
2020
50V
2028
I072
1n0
GND_COLD
I056
2001
50V
1n0
6021
3
STPS20H100CT
I054
2049
50V
1n0
6025
3
STPS20H100CT
ONLY 295V VERSION
6033
BYV27-600
6031
BYV27-600
2067
100p
2033
GND_COLD
HEATSINK
I156
25V2m2
+24V
1004
GND_COLD
STP16NF06FP
7012
2
3031
22K
BC847BW
GND_COLD
3057
50V
7014
F016
F028
F017
F027
BYV27-600
BYV27-600
3999
1K0
220R
2m2 25V
2021
GND_COLD
F012
2
2
2066
100p
6034
6032
3
1
I158
4K7
3032
I161
F022
2m2 25V
+24V
F025
F024
1
I151
1
6018
3044
3036
GND_COLD
+12Vd
35V1m8
2022
2039
GND_COLD
F006
PDZ15-B
I159
GND_COLD
1K0
I160
5K6
3022
35V1m8
3030
2052
680R
+24V
ON-OFF
+12Vd
6083
3081
BAT54 COL
56K
I082
I089
3023
15K
I085
7010
1
TS2431
K
18K
A
3
+15V
25V220u
2023
GND_COLD
3052
2024
220n
16V
R
2
2030
I153
1K2
3080
GND_COLD
470n
3082
F014
33K
Voltage
16V
100n
I094
+24V
2031
3037
3026
Vs
Adj.
1K2
10n
RES
I119
RES
15K
3025
GND_COLD
GND_COLD
1K2
3083
2032
I121
3038
1%
1K8
I093
470R
3034
13
+12Vd
+24V
9060
9061
2041
22n
15KMRS25 1%
3024
3040
8K2
I092
6023
BAS316
2K2
3041
1%
1002
GND screw
H_16800_002.eps
170407
F030
I152
I088
1002 G13
1004 H10
1005 F9
1009 H10
2000 E9
2001 D11
2002 B2
2003 A5
2004 C2
2005 D1
2006 C2
2007 E1
A
2008 G4
2009 D1
2010 H1
2011 E9
2012 E8
2013 D8
2014 F6
2015 F5
2016 E6
2017 C9
2018 G5
B
2019 H2
2020 C11
2021 C11
2022 D11
2023 A12
2024 E12
2025 B10
2026 G3
2027 F2
2028 C10
2029 D10
2030 F13
C
2031 D13
2032 D13
2033 G10
2034 C1
2035 C1
D
E
F
G
H
I
2039 D12
2040 C1
2041 D13
2045 E10
2046 I3
2047 I4
2048 I4
2049 E11
2050 E3
2052 G12
2060 C6
2061 B7
2062 D7
2063 C6
2064 D6
2065 D7
2066 E11
2067 F11
2071 E7
2072 C7
2077 H4
3000 A2
3001 G5
3002 C1
3003 C1
3004 D1
3005 C2
3006 D2
3007 E2
3008 E2
3009 E1
3010 H1
3011 H2
3012 F3
3013 G4
3014 C7
3015 C7
3016 C7
3017 D7
3018 E7
3019 E7
3020 E7
3021 G6
3022 B12
3023 E12
3024 E13
3025 F13
3026 F13
3027 G3
3028 E7
3029 C7
3030 F12
3031 G11
3032 H11
3033 A5
3034 F13
3035 C7
3036 H11
3037 E13
3038 E13
3040 E13
3041 F13
3043 D1
3044 H11
3045 G5
3046 G6
3047 H3
3048 D1
3050 E3
3052 E13
3053 E3
3055 I5
3056 I3
3057 A11
3058 E2
3061 E4
50V
2u2
8K2
33K
3064 F3
3065 E4
3066 F2
3067 H1
3068 H3
3069 A10
3070 H4
3071 H4
3075 G5
3080 H12
3081 E12
3082 H13
3083 H13
3089 H5
3100 A8
3999 A11
5001 C6
5002 D9
5004 D8
5005 C8
5007 B8
5008 B8
5009 B5
5010 A6
5013 E8
5015 C6
5016 D6
5017 A3
5025 D10
5026 E10
5027 B10
5028 C10
5040 D8
5041 E8
6001 D2
6002 D7
6003 C7
6004 D6
6005 D5
6006 I4
6007 C7
6008 D7
6009 H1
6010 G4
6011 F4
6012 E8
6013 C8
6014 H5
6015 H5
6016 G10
6017 I4
6018 G11
6020 H1
6021 D11
6022 H2
6023 E13
6025 E11
6027 C7
6028 E7
6031 F11
6032 F11
6033 F11
6034 F11
6044 B10
6051 H3
6077 A4
6078 A5
6079 A4
6080 A3
6081 B1
6082 A3
6083 E12
7001 C3
7002 A9
7004 H5
7005 C8
7006 D8
7007 C7
7008 E8
7009 H4
7010 F12
7012 G11
7014 H11
7017 F3
7018 F3
9004 B5
9008 A3
9009 A3
9024 D8
9025 E8
9060 C13
9061 C13
F002 C8
F003 D6
F004 D6
F005 D8
F006 G12
F007 F3
F008 D5
F009 D6
F012 D11
F014 F13
F016 B11
F017 C11
F018 B8
F021 A11
F022 A11
F023 F9
F024 D11
F025 D11
F027 C11
F028 C11
F029 C9
F030 C13
F032 F9
F033 F9
F299 B8
F300 F9
I001 B8
I002 C8
I003 C7
I004 D7
I006 B2
I007 C2
I008 C2
I009 D2
I010 D2
I011 I5
I012 E4
I018 E3
I020 F3
I021 E1
I022 F2
I023 F3
I024 F4
I025 F2
I027 C2
I028 G2
I029 G2
I033 F4
I034 F6
I036 F5
I037 C8
I038 C7
I039 D7
I042 C7
I043 A8
I044 A4
I045 C7
I046 C7
I047 A3
I048 A2
I049 A5
I050 A5
I051 E7
I052 D7
I053 A5
I054 E10
I055 E8
I056 D10
I057 E8
I059 E8
I062 A10
I063 A10
I064 B7
I070 B10
I072 C10
I073 D10
I074 D10
I076 E10
I077 E10
I081 F7
I082 E12
I084 F9
I085 E12
I088 D13
I089 E12
I092 E13
I093 F13
I094 F13
I095 A4
I096 A2
I097 A3
I098 A5
I099 A6
I100 A6
I101 A6
I103 C1
I104 D2
I105 E3
I106 E5
I107 C6
I108 D6
I109 C7
I110 D8
I111 C8
I112 E8
I113 E8
I114 E9
I116 B10
I117 C9
I119 E13
I121 E13
I131 I5
I132 I4
I133 I3
I134 I3
I135 H2
I136 H3
I137 H4
I138 H4
I139 G4
I140 H5
I141 H1
I142 H1
I143 H1
I145 E7
I151 D11
I152 C13
I153 H12
I154 E10
I155 G10
I156 G10
I158 G11
I159 G11
I160 H11
I161 H11
I294 C8
I295 H6
I296 H6
c001 G9
c002 F8
Circuit Diagrams and PWB Layouts
Layout Display Supply Panel (32” & 37”) (Top Side)
1002 A7
1004 C11
1005 B10
1006 A1
1009 B10
1011 C3
1308 A1
1317 A10
1319 A10
1320 A10
1400 B1
1402 A1
1403 A2
1404 B2
1405 A2
1450 A4
1M09 C10
1M12 C11
1M90 C10
1P02 C3
1P11 C9
1P15 C10
1P22 C3
2000 A8
2002 A7
2003 A7
2004 A6
2005 A7
2010 A8
2011 B7
2012 C8
2013 C7
2014 A8
2017 A7
2020 C9
2021 C9
2022 A9
2033 B10
2039 A9
2041 A11
2052 B11
2066 B11
2067 B11
2400 C1
2401 B2
2403 B1
2404 B1
2406 A3
2407 A1
2408 B3
2410 A1
2411 A1
2803 B4
2804 B5
2806 B5
2809 C5
2810 C5
2811 A11
2815 A4
2816 A6
3000 A5
3014 B6
3015 C6
3017 C7
3018 C7
3024 A10
3026 A11
3033 A7
3050 A5
3053 A5
3058 A5
3080 A10
3082 A9
3083 A9
3400 C1
3401 A1
3402 A1
3403 A1
3404 A3
3405 A2
3450 B3
3451 A3
3800 A5
3805 C5
3807 B5
3810 A4
5001 B7
5002 B9
5004 C7
5005 C7
5007 B6
5008 C6
5009 B8
5010 B7
5013 C8
5015 A7
5016 A6
5017 A5
5025 B10
55Q528.1E LA 7.
5026 A10
5027 B9
5028 B9
5040 B7
5041 B7
5401 B3
5402 A2
5403 A3
5405 B2
5406 C10
5408 C10
5409 C3
5410 C2
5804 B5
6016 B10
6021 B10
6025 B11
6031 A11
6032 B11
6033 A11
6034 B10
6044 C9
6807 C3
6808 B5
6809 A5
7001 A7
7002 A8
7005 C6
7006 C8
7012 C11
7805 B5
7806 C5
9001 A3
9002 C11
9003 A2
9004 A8
9005 B3
9006 C10
9007 C11
9015 B2
9016 A7
9017 A6
9018 A11
9019 A7
9020 B8
9021 A7
9024 C7
9025 B8
9030 C9
9031 A10
9032 A10
9033 A9
9035 B9
9036 B10
9037 B9
9039 A10
9040 A10
9042 A1
9043 A9
9044 C11
9046 B1
9047 B5
9048 A11
9049 A11
9052 A11
9054 A11
9056 C9
9061 A10
9062 A1
9080 B8
9083 A11
9092 A8
9093 A7
9098 B4
9101 A4
9102 A8
9808 B5
9809 C4
9811 B5
9812 C5
9813 B5
9814 A5
3101 313 6154.4
H_16800_003.eps
170407
Circuit Diagrams and PWB Layouts
Layout Display Supply Panel (32” & 37”) (Bottom Side)
2001 B1
2006 A6
2007 A6
2008 A6
2009 A5
2015 A6
2016 A6
2018 A5
2019 A6
2023 A2
2024 A1
2025 C2
2026 A7
2027 A6
2028 C3
2029 B1
2030 A2
2031 A2
2032 A2
2034 A6
2035 A6
2040 A6
2045 B1
2046 A5
2047 A5
2048 A5
2049 B1
2050 A6
2060 C6
2061 B6
2062 C5
2063 A5
2064 A5
2065 C5
2071 C5
2072 C6
2077 A5
2402 A3
2802 B7
2805 B7
2807 B7
2808 C7
3001 A5
3002 A6
3003 A6
3004 A5
3005 A6
3006 A6
3007 A6
3008 A6
3009 A6
3010 A4
3011 A6
3012 A6
3013 A6
3016 C6
3019 C5
3020 C5
3021 A6
3022 A1
3023 A1
3025 A1
3027 A7
3028 C5
3029 C6
3030 A2
3031 C1
3032 C1
3034 A1
3035 C6
3036 C1
3037 A2
3038 A2
3040 A1
3041 A1
3043 A6
3044 C2
3045 A6
3046 A6
3047 A5
3048 A6
3052 A2
3055 A5
3056 A5
3057 A2
3061 A6
3064 A6
3065 A6
3066 A6
3067 A4
3068 A5
3069 A4
3070 A5
3071 A5
3075 A5
3076 A1
56Q528.1E LA 7.
3077 A1
3078 A1
3081 A2
3089 A5
3100 A6
3413 A3
3422 A8
3423 A8
3424 A8
3425 A3
3430 A1
3431 A1
3432 A1
3433 A1
3459 A1
3802 B7
3803 B7
3804 B7
3806 B7
3999 B8
6001 A6
6002 C5
6003 C6
6004 A5
6005 A5
6006 A6
6007 B6
6008 C5
6009 A4
6010 A6
6011 A6
6012 C4
6013 C6
6014 A5
6015 A5
6017 A6
6018 C1
6020 A4
6022 A6
6023 A1
6024 A1
6027 C6
6028 C5
6051 A5
6055 A1
6056 A1
6057 A1
6077 A5
6078 B5
6079 A7
6080 A7
6081 A5
6082 A7
6083 A2
6460 A8
6461 A8
6469 A3
7004 A5
7007 C6
7008 C5
7009 A5
7010 A2
7013 A1
7014 C1
7017 A6
7018 A6
7801 A8
7802 A3
9008 A7
9009 A7
9060 A1
9070 A1
9071 A1
9072 A1
9073 A1
9104 A6
9105 A5
9106 A5
9107 A6
9806 B7
9810 B7
9816 A3
3101 313 6154.4
H_16800_004.eps
170407
AmbiLight (2 sided 6 LED)
0100 G2
0101 G4
2035 C13
2037 G8
3129 A13
3130 A13
3131 A13
3132 A13
3133 A13
3134 B13
3135 B13
3136 B13
3137 B13
3138 C13
3140 A15
3141 B15
123456789101112131415
Circuit Diagrams and PWB Layouts
3142 B15
3143 B15
3144 B15
3145 C15
3146 D13
3147 E13
3148 E13
3149 C12
3150 D11
3151 D11
3152 E11
3154 E11
3155 F11
3156 F12
3158 F11
3159 G11
3160 G12
3161 G12
3163 H12
3164 H12
3168 G7
3170 E9
3171 E9
3172 E9
3173 E9
3174 F9
3175 F9
3176 F9
3177 F9
3178 F9
3179 G9
3180 F10
3181 F10
3182 F10
3183 F10
3184 F10
57Q528.1E LA 7.
3185 G10
6002 C13
6003 G8
6004 D14
6006 E14
6008 E14
7001-1 E6
7001-2 D7
7002-1 E4
7002-2 D4
7003-1 E2
7003-2 D2
7004-1 B6
7004-2 A7
7005-1 B4
7005-2 A4
7006-1 B2
7006-2 A2
7064 H12
7065 G12
7066 E11
7067 D13
7068 H9
F101 D13
F102 A13
F103 B14
F104 B14
F105 B14
F106 B14
F107 C13
F108 C14
F110 E8
F111 F9
F112 F9
F113 F9
F114 G10
F115 G9
F116 G9
F117 G12
F118 F12
I117 D13
I118 E13
I119 E13
I120 D12
I136 H8
I141 E11
I142 H12
I145 G11
AL1 AL1
A
B
C
D
E
F
G
H
RAP-LED1 RAP-LED2
RAP-LED4 RAP-LED5
AMBILIGHT
7006-2
UE-HP660XA0-1XT
VIA-RAP
VIA-RAP
2122232425
7006-1
RAP
7
RAP-LED1
7003-2
UE-HP660XA0-1XT
461147
45
VIA-RAP
VIA-RAP
7003-1
RAP
7
RAP-LED4
404142434445461147
VIA-RAP
VIA-RAP
+12VF
+12VF
8
9
10
12
13
VIA-RAP
14
15
16
17
181920
UE-HP660XA0-1XT
4
GREEN
RED
5
BLUE
8
9
10
12
13
VIA-RAP
14
15
16
17
181920212223242526
UE-HP660XA0-1XT
4
GREEN
RED
5
BLUE
38
39
26
27
3
2
16
38394041424344
27
3
2
16
0100
EMC HOLE
180R
F102
3129
3146
3147
3148
180R
3130
180R
3131
180R
3132
180R
3133
F103
180R
3134
180R
180R
180R
180R
3135
3136
3137
3138
F107
F104
F105
F108
9
6
10
14
15
11
13
OUTR
OUTG
REXTR
REXTG
Φ
16
VCC
ENR
7067
3
DD313
I117
1K0
1K0
I118
I119
1K0
C
RESERVE
ENB
ENG
2
12
5
4
BZX384-C5V1
BZX384-C5V1
BZX384-C5V1
E
D
F106
7
OUTB
GND_HS
6004
6006
6008
8
REXTB
8R2
3140
8R2
3141
4R99
3142
4R99
3143
8R2
3144
8R2
3145
21
20
VIA
19
18
17
1
GND
7005-2
UE-HP660XA0-1XT
404142434445461147
38
39
VIA-RAP
4142434445
VIA-RAP
28
29
30
31
32
33
34
35
36
37
26
27
3
2
1
383940
28
29
30
31
32
33
34
35
36
37
26
27
3
2
1
28
29
30
31
32
33
34
35
36
37
28
29
30
31
32
33
34
35
36
37
8
9
10
12
13
VIA-RAP
14
15
16
17
181920
UE-HP660XA0-1XT
4
GREEN
RED
5
6
BLUE
461147
8
9
10
12
13
VIA-RAP
14
15
16
17
181920
UE-HP660XA0-1XT
4
GREEN
RED
5
6
BLUE
0101
EMC HOLE
VIA-RAP
VIA-RAP
2122232425
7005-1
RAP
7
RAP-LED2
7002-2
UE-HP660XA0-1XT
VIA-RAP
VIA-RAP
2122232425
7002-1
RAP
7
RAP-LED5
RAP-LED3
RAP-LED6
8
9
10
12
13
14
15
16
17
UE-HP660XA0-1XT
4
5
8
9
10
12
13
14
15
16
17
UE-HP660XA0-1XT
4
5
6
UE-HP660XA0-1XT
461147
VIA-RAP
VIA-RAP
VIA-RAP
19202122232425
18
7004-1
GREEN
RED
BLUE
UE-HP660XA0-1XT
461147
VIA-RAP
VIA-RAP
VIA-RAP
1819202122
7001-1
GREEN
RED
BLUE
7
RAP-LED3
434445
23
7
RAP-LED6
7004-2
RAP
7001-2
RAP
VIA-RAP
VIA-RAP
242526
39404142434445
38
28
29
30
31
32
33
34
35
36
37
26
27
3
2
16
+12VF
10K
BZX384-C5V6
I120
3161
7064
BC847BW
F101
100n
2035
6002
3839404142
27
+12VF
+12VF
10K
3156
7065
BC847BW
+3V3
I142
820R
3149
10K10K
3160
F117
3163
+12VF
+3V3
+12VF
28
29
30
31
32
33
34
35
36
37
3
2
1
BZX384-C5V6
I136
100n
2037
6003
820R
3168
F110
180R
3170
180R
3171
180R
3172
180R
3173
180R
3174
180R
3175
180R
3176
180R
3177
180R
3178
180R
3179
16
7068
F115
DD313
VCC
8R2
F114
6
7
OUTB
GND_HS
8
REXTB
3180
8R2
3181
4R99
3182
4R99
3183
8R2
3184
8R2
3185
21
20
VIA
19
18
17
1
GND
F111
F112
F113
F116
9
11
13
10
14
15
OUTR
OUTG
REXTR
REXTG
Φ
RESERVE
ENB
ENG
ENR
2
12
5
4
3
10K
3151
3152
3154
I145
3150
7066
BC847BW
+3V3
10K
10K
10K
3155
F118
3158
3159
10K
10K
I141
10K
A
B
C
D
E
F
G
H
3104 313 6215.3
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
10K
3164
E
D
C
PWM1_R
PWM1_G
PWM1_B
H_16800_133.eps
100507
Circuit Diagrams and PWB Layouts
1
1
1
1
1
1
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
5
6
7
7
7
7
7
7
9
9
F
F
F
F
F
F
F
F
F
F
58Q528.1E LA 7.
AmbiLight (2 sided 6 LED)
1234567 8
AMBILIGHT
AL2 AL2
+3V3
3
2
3094
47K
2032
10n
3089
100R
2029
I105
+3V3
9002
7069
PDTC114EU
84
100p
2026
1
7063-1
LM393PT
1
10n
3100
1
4
I129
2030
10K
TEMP_SENSOR_L
3090
100R
100p
6019
BAS316
3088
10K
7070
NCP303LSN10T1
IN
RST
GND
NC
CD
A
B
C
D
E
3104 313 6215.3
1M09
1
2
3
4
6
5
S4B-PH-SM4-TB(LF)
1M59
1
2
3
4
5
67
S5B-PH-SM4-TB
1
2
3
4
5
6
7
89
S7B-PH-SM4-TB(LF)
F213
1M82
+3V3
8K2
3084
I125
10n
2025
+3V3
3085
I127
9001
TEMP_SENSOR_U
TEMP_SENSOR_L
5
6
2020
18p
2021
18p
10K
3086
3082
1004
16M9
3087
I123 I124
47K
2027
47K
10n
10K
10K
3083
P89LPC935F
F215
F216
3
2
1
F209
+12VF
+12V
F205
F206
F207
GNDS
GNDS
F214
GNDS
F210
F208
7061
LD1117DT33
2022
5010
F212
100n
10u
32
100n
2019
CONTROL_1
CONTROL_2
CONTROL_2
T
SCL
SDA
SCL
SDA
COM
1
1010
1.5A
OUTIN
I108
CONTROL_1
CONTROL_2
2023
F211
2034
100R
35V4u7
25V220u
2014
100n
3107
+3V3
2015
100R
100n
+12V
+12VF
3108
3109
2016
NTC_U+
10K
-T
NTC_U-
I106
100n
I107
1234
100R
3103
100p
I126
2031
I128
100R
3105
PWM1_B
+3V3
10n
100R
8K2
3091
10K
3092
3106
100R
PWM1_G
3093
I103
I104
47K
3
2
+3V3
2028
100n
84
TEMP_SENSOR_U
7
7063-2
LM393PT
7062
3
P0.0|CMP2|KBI0|AD01
26
P0.1|CIN2B|KBI1|AD10
25
P0.2|CIN2A|KBI2|AD11
24
P0.3|CIN1B|KBI3|AD12
23
P0.4|CIN1A|KBI4|DAC1
22
P0.5|CMPREF|KBI5
20
P0.6|CMP1|KBI6
19
P0.7|T1|KBI7
9
P3.0|XTAL2|CLKOUT
8
P3.1|XTAL1
2024
100n
21
VDD
Φ
8-BIT uCTRL
P1.3|INT0|SDA
P1.7|OCC|AD00
P2.0|ICB|DAC0|AD03
P2.1|OCD|AD02
VSS
7
NTC_L+
10K
3110
-T
NTC_L-
1M00
1
2
3
45
P1.0|TXD
P1.1|RXD
P1.2|T0|SCL
P1.4|INT1
P1.5|RST
P1.6|OCB
P2.2|MOSI
P2.3|MISO
P2.4|SS
P2.5|SPICLK
P2.6|OCA
P2.7|ICA
F200
F201
F202
18
17
12
11
10
6
5
4
1
2
13
14
15
16
27
28
3102
2017
100p
3098
PWM1_R
2018
100R
567 8
SCL
SDA
+3V3
3099
F217
2
3
I130
5
100n
3101
2033
H_16800_134.eps
100507
A
B
C
D
2K22K1
E
Circuit Diagrams and PWB Layouts
Layout AmbiLight (2 sided 6 LED) (Overview Top Side)
1004 --1010 --1M00 --1M09 --1M59 --1M82 ---
2014 --2015 --2016 --2017 --2018 --2019 ---
2020 --2021 --2022 --2023 --2024 --2025 ---
2026 --2027 --2028 --2029 --2030 --2031 ---
2032 --2033 --2034 --2035 --2037 --3082 ---
3083 --3084 --3085 --3086 --3087 --3088 ---
3089 --3090 --3091 --3092 --3093 --3094 ---
3098 --3099 --3100 --3101 --3102 --3103 ---
3105 --3106 --3107 --3108 --3109 --3110 ---
3129 --3130 --3131 --3132 --3133 --3134 ---
59Q528.1E LA 7.
3135 --3136 --3137 --3138 --3140 --3141 ---
3142 --3143 --3144 --3145 --3146 --3147 ---
3148 --3149 --3150 --3151 --3152 --3154 ---
3155 --3156 --3158 --3159 --3160 --3161 ---
3163 --3164 --3168 --3170 --3171 --3172 ---
3173 --3174 --3175 --3176 --3177 --3178 ---
3179 --3180 --3181 --3182 --3183 --3184 ---
3185 --5010 --6002 --6003 --6004 --6006 ---
6008 --6019 --7001 --7002 --7003 --7004 ---
7005 --7006 --7061 --7062 --7063 --7064 ---
7065 --7066 --7067 --7068 --7069 --7070 ---
9001 --9002 ---
Part 1
H_16800_035a.eps
3104 313 6215.3
Layout AmbiLight (2 sided 6 LED) (Part 1 Top Side)
Part 1
Part 2
H_16800_035b.eps
H_16800_135.eps
100507
H_16800_135a.eps
110507
Layout AmbiLight (2 sided 6 LED) (Part 2 Top Side)
Part 2
H_16800_135b.eps
110507
SSB: Supply
Circuit Diagrams and PWB Layouts
60Q528.1E LA 7.
1
2345678
9
SUPPLY
B01A B01A
A
1P02
2
1
B2P-VA-BF-BK
B
C
D
E
1B10
HEATSINK
F
9B01
GNDP
3104 313 6194.3
FB30
FB31
FB45
FB46
1B32
T1.6A-250V
2B30
IB65
220n
IB64
6B11
IB12
IB30
RS1D
3B71
220R
2B32
1n5
2B57
1u0
2B40
1u0
2B58
GNDV
5B00
4
1
IB10
1u0
1B30
IB42
2B39
GNDV
IB50
1B31
3B75
1K0
3B30
1K0
1K0
1u0
3
UF2327L
2
2B38
1u0
2B33
56p
IB71
IB51
3B76
1K0
3B31
1K0
3B683B67
1K0
IB76
BC817-25W
IB49
3B38
390R
3B39
390R
2B34
100p
IB46
7B00
IB69
3B35
3B40
3B41
3B42
GNDV
3B77
3B69
IB52
IB53
1K0
3B32
1K0
1K0
15R
390R
390R
390R
2B35
10p
DF06M
IB33
3B37
IB32
6B04
IB70
IB45
1K0
2
3B78
1K0
3B33
1K0
3B70
1K0
IB48
2B37
2B59
3B36
470R
GNDP
RES 1n0
3B43
IB73
470n
6B14
3
4
IB43
3B44
1
IB47
100K
4K7
IB14
PDZ5.6-B
3B60
3B34
2M2
7B02
7B01
2B31
GNDP
IB44
GNDV
450V
22u
IB35
2M2
BC857BW
2B56
GNDV
IB74
BC857BW
2B50
GNDP
47n
GNDV
IB31
2B36
3B46
FB38
450V68u
6B10
BZG05C15
RES
3B48
47p
1K0
3B47
3B45
IB54
2B41
10K
470R
3K3
2B44
220n
GNDP
3B49
2B60
10n
10n
1%18R
2B43
GNDV
6B03
7B05
STP5NK60ZFP
1
3B52
RES
47R
3B50
68R
1%
47n
cB04
GNDP
IB56
IB55
BZX384-C18
IB40
IB34
2
3
3B51
GNDP
1R0
GNDP
FB36
6B09
GNDP
HOT
5
3
2
1
BS28601-00
FB39
BZG05C6V8
7B04
TCET1102(G)
HOT
5B01
2B52
470p
COLD
7
8
9
10
11
12
GND
IB60
COLD
GNDSND
IB41
FB37
IB37
3B55
HEATSINK
IB75
IB36
PDZ5.6-B
6B13
IB16
1K2
2B42
1B11
9B02
GND
MBRS1100
IB68
BYW29-200
1n0
6B05
SS36
cB02
7B08
BC847BW
220n
2B51
1n0
6B08
2B46
1n0
6B06
2B45
FB35
3B25
1K2
3B61
1K0
GND
2m2 16V
IB61
IB17
GND
2B48
1n0
6B07
MBRS1100
1B33
2.5AT
7B07
TS2431
2B49
3
GND
47K
3B24
10n
2B28
7B50-1
BC847BPN
GND
3B66
3B62
6
1
PHD38N02LT
A
2
4K7
IB38
IB77
10K
IB39
2B47
cB01
K
R
PDZ5.6-B
6B02
5
2
25V1m0
7B06
1
FB27
GND
2B61
2n2
4
BC847BPN
7B50-2
3
3B63
IB72
3B64
-AUDIO-POWER
FB34
3B72
6B15
BZX384-C5V6
IB11
2B63
GND
+12VS
+5V-STANDBY
22K
3B65
10u
15K
2B55
+AUDIO-POWER
2K2
3B73
1K0 1%
IB15
47R
3B29
100n
IB13
3B54
10K
AUDIO-PROT
FB33
+12VS
FB32
+5V-STANDBY
1u0
2B62
GND
1%1K0
3B74
GND
STANDBY
1%
330R
IB63
1B40
GND
H_16800_031.eps
1
2
3
4
56
250407
A
B
C
D
E
F
1B10 E1
1B11 E7
1B30 A3
1B31 B3
1B32 A1
1B33 C8
1B40 D9
1P02 A1
2B30 B2
2B31 B5
2B32 C2
2B33 C3
2B34 C3
2B35 D4
2B36 D5
2B37 D4
2B38 E3
2B39 E3
2B40 E2
2B41 E5
2B42 E7
2B43 D6
2B44 E5
2B45 B8
2B46 B8
2B47 B8
2B48 A8
2B49 D8
2B50 B5
2B51 A8
2B52 C7
2B55 F9
2B56 D5
2B57 D2
2B58 E2
2B59 F4
2B60 B5
2B61 C8
2B62 B9
2B63 C9
3B29 C9
3B30 C3
3B31 C3
3B32 C4
3B33 C4
3B34 C4
3B35 D3
3B36 D4
3B37 D4
3B38 E3
3B39 E3
3B40 E3
3B41 E3
3B42 F3
3B43 E4
3B44 F4
3B45 E5
3B46 D5
3B47 D5
3B48 D5
3B49 D5
3B50 D6
3B51 D6
3B52 C6
3B54 D9
3B55 E7
3B60 C4
3B61 E8
3B62 E8
3B63 E8
3B64 F8
3B65 F9
3B66 E8
3B67 C3
3B68 C3
3B69 C4
3B70 C4
3B71 B2
3B72 B9
3B73 B9
3B74 C9
3B75 B3
3B76 B3
3B77 B4
3B78 B4
5B00 A2
5B01 A7
6B02 D8
6B03 E6
6B04 B4
6B05 C8
6B06 B8
6B07 A8
6B08 A8
6B09 D6
6B10 C5
6B11 C2
6B13 D7
6B14 F4
6B15 B9
7B00 D3
7B01 E4
7B02 D4
7B04 E7
7B05 C6
7B06 B8
7B07 C8
7B50-1 F8
7B50-2 E8
9B01 F1
9B02 F7
FB27 A8
FB30 A1
FB31 B1
FB32 B9
FB33 B9
FB34 A9
FB35 D8
FB36 D6
FB37 B7
FB38 A5
FB39 C6
FB45 B1
FB46 B1
IB10 B3
IB11 C9
IB12 D2
IB13 D9
IB14 F4
IB15 C9
IB30 A2
IB31 D5
IB32 A4
IB33 B4
IB34 B6
IB35 B5
IB36 B7
IB37 C7
IB38 E8
IB39 E8
IB40 A6
IB41 B7
IB42 C3
IB43 C4
IB44 C5
IB45 D4
IB46 D3
IB47 D4
IB48 D4
IB49 E3
IB50 E3
IB51 E3
IB52 E4
IB53 F4
IB54 E5
IB55 E6
IB56 E6
IB60 D7
IB61 D8
IB63 D9
IB64 B2
IB65 E2
IB68 A7
IB69 C3
IB70 C4
IB71 C3
IB72 F9
IB73 E4
IB74 E5
IB75 A7
IB76 C3
IB77 E8
cB01 B8
cB02 D8
cB04 D6
12345
6
7
89
Circuit Diagrams and PWB Layouts
61Q528.1E LA 7.
SSB: Supply
1
B01B B01B
SUPPLY
2
3
4
5
6
7
0198
A
BACKLIGHT-OUT
POWER-OK-DISPLAY
LAMP-ON-OUT
BACKLIGHT-BOOST
STANDBY
+5V-STANDBY
+5V-POD
+12V-DISP
B
C
TO
DISPLAY
SUPPLY
1P11
1
2
3
4
5
6
7
8
B8B-PH-K-S
FB28
FB20
FB21
FB22
FB23
FB24
FB25
FB26
1B20
1B21
1B22
1B23
1B24
1B25
1B26
2B20
2B21
2B22
2B23
2B24
2B25
2B26
100p
10n
10n
10n
10n
10n
100p
3B20
100R
3B22
100R
3B26
100R
3B23
100R
3B21
100R
9B06
9B07
1B50
T 3A 452
2B27
1u0
IB90
D
E
1M59
1
TO
2
AMBILIGHT
F
3
4
5
9B15
5B10
120R
9B16
5B11
120R
9B17
5B12
120R
9B18
5B13
120R
9B19
5B14
120R
FB40
FB41
FB42
2B53
100p
2B54
+5V-ON
FB43
100p
3B56
RES
9B10
FB44
100R
3B57
RES
9B11
100R
3B58
3B59
100R
100R
IB66
IB67
SCL-AMBI
SDA-AMBI
A
B
C
D
1B20 B4
1B21 B4
1B22 B4
1B23 B4
1B24 C4
1B25 C4
1B26 C4
1B50 C6
1M59 F3
1P11 B3
2B20 B5
2B21 B5
2B22 B5
2B23 B5
2B24 C5
2B25 C5
2B26 C5
2B27 B6
2B53 F6
2B54 F6
3B20 B6
3B21 B6
3B22 B6
3B23 C6
3B26 B6
3B56 F6
3B57 F6
3B58 F7
3B59 F7
5B10 E5
5B11 F5
5B12 F5
5B13 F5
5B14 F5
9B06 C6
9B07 C6
9B10 F6
9B11 F6
9B15 E5
9B16 E5
9B17 F5
9B18 F5
9B19 F5
FB20 B4
FB21 B4
FB22 B4
FB23 B4
FB24 C4
FB25 C4
FB26 C4
FB28 B4
FB40 F5
FB41 F5
FB42 F6
FB43 F6
E
FB44 F6
IB66 F7
IB67 F7
IB90 B6
F
G
H
3104 313 6194.3
G
H
H_16800_032.eps
250407
1
2
3
45678910
Circuit Diagrams and PWB Layouts
62Q528.1E LA 7.
SSB: DC / DC
4
F
56U
3U25
22K
47K
FU04
IU81
IU09
3U73
10R
3U77
120R 1%
+12VS
BZX384-C12
2U44
+1V2
IU82
+12V
4
3
IU8G
IU8H
6U01
BC847BS
IU93
U
41
I6
D 18
IU82 D14
IU83 E12
IU84 F14
IU85 F14
IU8G F14
IU8H F14
IU8I E4
IU8J D2
IU90 E8
FU23
5
7U14-2
1u0
3U57
68R
1%
SENSE+1V2-FPGA
SENSE+1V2-PNX8535
1K0
3U09
330R
3U18
3U78
22K
POD-MODE
SENSE+1V8
IU99
ENABLE-3V3
PROT-DC
ENABLE-1V2
IU91 F11
IU93 C14
IU94 F12
IU95 C8
IU96 D11
IU97 D11
IU98 E9
IU99 E15
IU14
2U14
OVP
2U00 A3
2U01 A5
2U02 A9
2U03 A5
2U04 B6
2U05 B4
2U06 B14
2U07 C8
2U08 B9
2U09 B9
2U10 B10
2U11 B11
2U12 B12
2U13 C8
2U14 B15
2U15 C7
2U16 C8
2U17 C2
2U18 D6
2U19 D4
2U20 D6
2U21 D9
2U22 D14
2U23 E8
2U24 E9
2U25 E12
2U26 E7
2U27 E8
2U28 E8
2U29 E6
1234
B02A B02A
DC / DC
A
B
C
D
3U34
33K
E
F
G
470R
3U74
1%
GND-SIG
GND-SIG
3U75
IU06
2U17
GND-SIG
IU44
3U38
GND-SIG
4K7
3U05
3U12
100n
33K
2U30 F6
2U31 F3
2U32 F13
2U33 E13
2U34 G2
2U35 G9
2U36 G2
2U37 H2
2U39 F13
2U40 E9
BC847BPN
7U13-2
10K
10K
7U05-1
BC847BS
2
4
3
IU12
0V
6
1
GND-SIG
+1V2-STANDBY
2U36
100p
IU8J
2
3U28
*
GND-SIG
2U41 E11
2U42 E11
2U43 E13
2U44 C14
2U53 D3
2U90 D9
2U91 D9
2U92 D9
2U93 A10
2U94 B9
2U00
5
6
*
3K3
100p
2U34
IU68
100n
2U37
100n
IU05
IU11
7U13-1
BC847BPN
1
7U09
BC847BW
*
2U53
100n
3U00
10K
BAS316
3U07
100R
3U35
10K
3U02
10K
6U00
GND-SIG
3U00 A3
3U01 A4
3U02 B3
3U03 B5
3U04 B13
3U06 B5
3U07 B3
3U08 B8
3U09 B15
FU02
3V3
IU45
3U39
3U61
10K
B 50U3
3U13
+1V2
5
22K
BC857BS
7U10-1
IU07
10K
1
6
2U31
3U10 E13
3U12 C2
3U13 C3
3U14 C3
3U15 C5
3U17 B8
3U18 B15
3U19 C6
3U20 C6
SUPPLY-FAULT
22K
3U14
3
7U05-2
BC847BS
4
GND-SIG
IU62
RES
100n
IU58
2
IU65
11U3
IU38
2U19
GND-SIG
BC857BS
3U60
01B
NCP5422ADR2G
FU03
IU28
IU31
IU35
IU39
100n
GND-SIG
IU8I
4
7U10-2
3
100K
12V UNDER-VOLTAGE DETECTION
3U21 C13
3U22 C10
3U23 C6
3U24 C8
3U25 C14
3U26 C6
3U27 C7
3U28 D2
3U29 C14
3U30 E4
2U05
GND-SIG
7U00
4
7
10
8
9
13
39K
3U32
3U30
330R
RES
3U67
10K
9U01
IU12 B2
IU13 B5
IU14 B15
IU16 B6
IU17 C8
IU18 C8
IU19 B13
IU20 C7
IU21 C5
IU23 C10
IU24 C11
IU25 C14 IU92 E12
IU26 C5
IU27 C8
IU28 C4
IU29 C13
IU30 C6
IU31 C4
IU32 C15
IU33 C6
2U12
12V SWITCH
+3V3F
IU49
2K2
PHD38N02LT
4V100u
IU92
6U09
STPS2L30A
9U03
7U28
6U05
BZX384-C6V8
STPS2L30A
6U07
9U02
*
GND-SIG
3U42
2U25
1n0
FU07
IU83
FU08
IU94
FU11
FU12
+3V3F
2U42
100u 4V
IU91
5U00
22u
7U29-1
3U22
FU26
7U15-1
BC847BS
F
10U
FU02 B3
FU03 C4
FU04 C14
FU05 D7
FU06 D9
FU07 E12
FU08 F12
FU11 G12
FU12 G12
10u
1
6
100K
6
1
IU59
5
3U64
8
B
FU20 F13
FU21 A8
FU22 A13
FU23 B15
FU24 C6
FU25 D6
FU26 D10
FU27 E4
FU28 E10
FU29 F8
+12VF
IU00
3U11
2
IU24
10R
3U41
2
IU51
1K0
3U50
3U59
3K3
2K2
1K0
IU96
2U11
5U03
IU00 A11
IU02 B5
IU03 B5
IU05 B3
IU06 B2
IU07 B3
IU08 B6
IU09 E14
IU10 E13
IU11 B3
1u0
IU97
10u
2U41
*
3U70
1%
1K0
6U06
FU05
56
BAS316
3UA3 B8
3UA4 B5
3UA5 C6
3UA6 C6
3
5
7A
B
U
3UA8 C7
3UA9 C6
5U00 A10
5U01 B8
5U02 D8
FU21
12V/3V3 CONVERSION
FU01
FDS4488
2U13
6U08
2U16
IU50
FU29
PDZ18-B
3U27
BAS316
6U04
3U45
3U48
2U26
100n
3UA1
470R
3U62
470R
+1V2
6K8
68R
68R
3U31 D6
3U32 D4
3U33 D6
3U34 D2
3U35 D3
3U36 D6
3U37 D7
3U38 D2
3U39 D3
3U40 D6
3U41 D10
3U42 D12
3U43 D5
3U44 D10
3U45 E7
3U47 E9
3U48 E7
3U49 E4
3U50 E10
5
22u
22u
10R
2U03
3U01
2U01
3U52
3U66
GATE
GATE
GND
2K2
TS2431
RES
IU02
22R
22R
3U06
3UA4
1
H1
IU21
2
L1
IU26
16
H2
15
L2
5
+1
6
-1
IS
12
+2
11
-2
IU48
IU41
RES
1
7U11
RES
K
R
2
A
RES
3
IU42
IU03
1u0
14
Φ
VCC
BST
1
VFB
2
1
COMP
2
ROSC
3
GND-SIG
1K0
3U49
5
FU27
6U10
PDZ9.1-B
10R
IU13
3U43
3U53
3U65
3U15
3K3
3U03
10R
3UA7
10R
8E 64U32
IU40
4R7
IU46
33K 1%
12K 1%
3U33
3U51 E13
3U53 E5
3U54 E6
3U55 E8
3U56 E13
3U57 E14
3U58 E9
3U59 E10
3U60 E4
3U61 E3
5E 25U3
3U62 E7
3
3U64 E10
3U65 F5
3U66 F5
3U67 F4
3U68 F8
3U69 F9
3U70 F10
3U71 G9
3U72 D10
36U
8
E
3U73 F14
3U74 H1
3U75 H2
3U76 E13
3U77 F14
3U78 C15
3UA1 E7
3UA2 E8
678
7U01
56
FDS4488
3UA6
6K8
2U20
3U54
2U30
IU08
IU61
4R7
IU30
1M0
3U20
100n
100n
3U36
RES
2U04
3n3
7U06
6
5
3UA9
22R
3UA5
22R
3U23
IU33
IU36
3U26
3K3
100n
2U18
FU25
1K0
3U40
RES
FDS4488
IU16
4R7
4R7
3K3
10R
3U19
10R
IU34
FU24
3U31
VSW
3UA8
IU20
7U08
FDS4488
6K8
2U29
2U15
3n3
3U37
6K8
IU54
1u0
BC817-25W
7U03
56
IU63
7U07
BOOSTER
11E 30U5
6U10 E4
7U00 B4
1
0U6
41B
7U01 A6
7U03 B7
7U05-1 D2
7U05-2 D4
7U06 B6
7U07 F7
7U08 C7
7U09 C3
5U01
10u
6K8
22R
3U17
IU18
100n
2U07
IU27
1K0
3U24
3U08
6U00 B3
6U02 B14
6U04 D7
6U05 E12
6U06 E7
6U07 F12
6U08 F7
6U09 E11
22R
IU17
1n0
IU95
1n0
3UA3
12V/1V2 CONVERSION
5U02
10u
6K8
22R
22R
3U55
3U46
3UA2
IU53
IU52
1n0
2U27
IU90
2U28
100n
2U23
IU60
1n0
1K0
3U63
4K7
3U68
GND-SIG
7U10-1 E3
7U10-2 E4
7U11 E5
7U13-1 B3
7U13-2 B2
7U14-1 C13
7U14-2 B14
7U15-1 E10
7U15-2 E10
7U16 B13
7U27 D13
7U28 E12
7U29-1 B10
7U29-2 C10
1E
10U9
9U02 F12
9U03 G12
9U04 A13
9U05 B13
FU00 A14
1
9101112
22u
2U93
2U02
100n
2U10
2U08
2U24
3n3
3n3
2U40
IU98
GND-SIG
2U09
FU06
3U47
3U69
IU67
2U35
22u
1u0
120R
1%
1K0
1%
2U21
2U94
470n
22u
3U71
22K
2U90
22u
2U91
22u
22u
4
3
2U92
7U29-2
BC857BS
22u
3U58
10K
*
3U72
FU28
7U15-2
BC847BS
5
IU23
10R
3
4
BC857BS
3U44
10K
4
C
3UI
IU35 C4
IU36 C6
IU38 C4
IU39 D4
I
5D 04U
IU41 E5
IU42 F5
IU44 D2
IU45 D3
13 14 15
9U04
*
9U05
*
SI4835BDY
100n
7U16
7U27
TS431AILT
3
K
12
NC NC
REF
2U43
3U10
4
1K0
1u0
FU20
IU10
IU55
3U56
3U76
2U32
IU19
A
IU46 D6
IU48 D5
IU49 D12
IU50 E8
IU51 E11
IU52 E8
IU53 E8
IU54 E7
IU55 E13
IU58 E4
BC847BS
1%
220R
220R
1u0
IU66
7U14-1
5
*
2U33
FU22
3U04
3U21
IU29
2U39
6
1
IU59 E10
IU60 E8
IU61 E6
IU62 E3
IU63 E7
I
IU66 F13
IU67 G9
IU68 G3
IU80 D14
FU00
1u0
1M0
2U06
6U02
BZX384-C12
47K
IU25
2
3U29
IU80
6.3V330u
2U22
*
+1V8 STABILIZER
3U51
560R
1%
+3V3
330u 6.3V
IU84
IU85
+1V8
1u0
*
H
100n
IU32
+5V-POD
A
B
C
D
E
F
G
H
3104 313 6194.3
1234 13 14
H_16800_033.eps
250407
5
6
789101112
15
SSB: DC / DC
Circuit Diagrams and PWB Layouts
63Q528.1E LA 7.
12 9
34
5678
DC / DC
B02B B02B
A
+5V-STANDBY
B
C
POD-MODE
D
ON-MODE
VSW
E
F
3104 313 6194.3
+12VS
+12V
3U81
100K
2U38
3U79
100K
*
1u0
3U93
100K
3U82
IU72
2
100K
IU70
2U45
6
7U04-1
BC847BS
1
100n
7
8
7U02-1
SI4936ADY
2
1
2U48
16V22u
3U83
100K
+12V
3U84
5
IU64
100K
3U80
220K
2U46
3
7U04-2
BC847BS
4
123
IU71
100n
IU76
3UB1
3UB9
1K0
10K
+5V-STANDBY
1K0
IU73
2U54
3U85
IU43
1
2U49
1n0
7U17
K
R
2
A
TS2431
31
220n
6U64
BZX384-C27
1u0
2U58
100K
3UA0
IU77
5
6
7U02-2
SI4936ADY
4
3
2U47
1
22u 16V
3
7U24
BSH112
2
FU80
FU83
IU75
2U56
5U09
IU04
+5V-ON
+5V-POD
220u
3UB2
33p
2U57
6U63
BAS316
IU74
68R
220p
3UB6
68R
3UB4
100R
3UB3
2K2
47R
3U86
3
7U19
BC817-25W
2
IU56
FU84
2U55
*
7U26
BC847BW
3U92
IU79
220n
47R
3U98
*
33K
*
FU81
3U87
3U88
3U99
3U90
330R1%1K0
33K
47R
IU78
+3V3-STANDBY
2U50
+VTUN
+12VF
1u0
TS431AILT
4567
3U89
IU47
*
2U51
1n0
7U18
12
K
NCNC
A
53
FU87
FU88
REF
IU57
4
VN
89
2K2
VP
3UB5
1
68K
1K0
3U91
3U94
1R0
3
7U20
BC817-25W
2
FU82
2U52
+5VS
+1V2-STANDBY
1u0
H_16800_034.eps
250407
A
B
C
D
E
F
2U38 A1
2U45 B2
2U46 B3
2U47 B4
2U48 C2
2U49 B6
2U50 B7
2U51 B8
2U52 B9
2U54 D5
2U55 D6
2U56 E5
2U57 E5
2U58 E5
3U79 B1
3U80 B3
3U81 C1
3U82 D1
3U83 C3
3U84 D3
3U85 A5
3U86 A6
3U87 B7
3U88 C7
3U89 A8
3U90 A7
3U91 C8
3U92 A6
3U93 B1
3U94 A8
3U98 D6
3U99 D7
3UA0 E6
3UB1 E3
3UB2 E5
3UB3 E6
3UB4 D6
3UB5 B8
3UB6 E5
3UB9 E3
5U09 D5
6U63 D5
6U64 D5
7U02-1 B2
7U02-2 B4
7U04-1 D2
7U04-2 D3
7U17 B5
7U18 C7
7U19 B6
7U20 B9
7U24 E4
7U26 E6
FU80 B4
FU81 B7
FU82 B9
FU83 B4
FU84 D6
FU87 D7
FU88 D7
IU04 E5
IU43 B5
IU47 B8
IU56 C6
IU57 C8
IU64 D3
IU70 B2
IU71 B3
IU72 D1
IU73 D5
IU74 E5
IU75 E5
IU76 E3
IU77 E6
IU78 B7
IU79 B6
Circuit Diagrams and PWB Layouts
64Q528.1E LA 7.
SSB: DC / DC
123456789101112
DC/DC
B02C B02C
A
B
C
D
E
F
G
3104 313 6194.3
12345678910
IU7J
IU7M
3U7A
2U63
3U7F
GND1V4
47K
1u0
2U60 1n0
2U61
GND1V4
47K
2U62
3U7D
100K
*
10n
100n
2U6M
BC847BS
2
10n
3U7B
2U64
IU6K
FU60
7U66-1
GND1V4
10R
100n
7U64
L6910
GND1V4
VREF
1
4
SS
2
OSC
IU6F
8
EAREF
6
1
12V / 1V4
CONVERTOR
3U7N 3U7P
22K
IU6J
IU7V
9
PGOOD
Protection & Ref
OSC
IU15
2U70
*
Monitor
1u0
3U6G
10K
IU22
IU6E
1n0
BAS316
COMP
5
3U7C
3
OCSET
IU7K
1K0
2U65
NC
16
GND1V4
6U62
15
VCC
22K
BOOT
HGATE
PHASE
LGATE
PGND
GND
VFB
IU7Q
IU7L
12
11
10
14
13
7
6
GND1V4
6U60
IU6M
PNX 5050 SUPPLY
22u
2U69
IU7B
IU7P
2U68
100n
IU6N
10R
4R7
IU6R
2U66
100n
3U6Y
3U95
4
7U66-2
BC847BS
2U6R
7U61-1
2
SI4936ADY
10R
IU6P
7U61-2
4
SI4936ADY
2K7
3U7H
IU7R
IU7C
5
2U6N
2n2
3U7G
IU6L
BAS316
3U6C
2U6B
9U60
3U6I
1K0
3U6M
22R
3U6B
22R
3U97
4R7
470p
22R
FU65
PROT-DC
SUPPLY-FAULT
+1V4
IU86
FU66
IU7H
SENSE+1V4
PROT-DC
ENABLE-1V2
OVP
SENSE+2V5
IU8D
3U8E
100R
3U8G
IU8E
1%
1K0
3U8F
100R
7U8A-2
BC857BS
1u0
2U8C
+12V
2
2U8B
1n0
3U8A
3U8C
1K0
IU69
2K2
7U8C
PHD38N02LT
6U8A
BZX384-C6V8
IU8F
+3V3F
+2V5 STABILIZER
6U8B
*
STPS2L30A
9U8A
IU87
2U8D
FU8A
1u0
2U8E
1
7U8A-1
100n
2U8A
3
3U8D
100R
TS2431
A
5
7U8B
IU8C
IU8A
R
2
BC857BS
K
3U16
1K0
3U8B
1
6
100K
IU8B
IU37
4
3
3U6L
*
IU6A
2U71
2U6K
22u 16V
3U6D
100R
+12VF
+12V
22R
3U96
IU7E
1%
1u0
100R
3U6E
*
3U7L
100R 1%
5U67
220R
5U68
220R
5U61
10u
22u
2U59
22u 16V
FU61
2U6H
1n0
5U60
10u
7
8
22n
2U6E
IU7N
1
56
3
1%
1K0
*
3
FU6S
3U7Q
IU7T
4K7
3U6J
470R
3U6K
10K
3U7E
3U6A
3U7J
6K8
2U6D
10n
1K0
GND1V4
1%
560R
2U6A
22u
2U6C
2U6G
2U6S
16V22u
2U6I
1n0
10n
2U72
22u
100n
2U67
IU6T
2U73
2U74
22u
22u
16V
22u
IU7F
*
11 12
+2V5
+2V5
1u0
IU89
IU88
H_16800_035.eps
250407
A
B
C
D
E
F
G
2U59 B5
2U60 C2
2U61 C2
2U62 D2
2U63 C1
2U64 C2
2U65 B3
2U66 C4
2U67 B6
2U68 E4
2U69 B4
2U6A B5
2U6B E4
2U6C C5
2U6D D5
2U6E D5
2U6G D5
2U6H C5
2U6I C6
2U6K B6
2U6M D2
2U6N D5
2U6R B5
2U6S B6
2U70 G2
2U71 E6
2U72 C6
2U73 C6
2U74 C6
2U8A E9
2U8B F10
2U8C F9
2U8D F11
2U8E F12
3U16 F9
3U6A D5
3U6B C4
3U6C D4
3U6D C6
3U6E E6
3U6G A3
3U6I F4
3U6J F5
3U6K F5
3U6L A7
3U6M C4
3U6Y D4
3U7A B1
3U7B B2
3U7C B3
3U7D C2
3U7E D5
3U7F D1
3U7G E5
3U7H E4
3U7J E5
3U7L E7
3U7N F2
3U7P F3
3U7Q E5
3U8A E10
3U8B E9
3U8C E10
3U8D F9
3U8E F8
3U8F F8
3U8G F8
3U95 D4
3U96 C7
3U97 D4
5U60 C5
5U61 B6
5U67 B6
5U68 B6
6U60 B4
6U62 B3
6U8A F10
6U8B F11
7U61-1 C5
7U61-2 D5
7U64 C2
7U66-1 D2
7U66-2 F4
7U8A-1 E10
7U8A-2 E9
7U8B E9
7U8C E10
9U60 E4
9U8A F11
FU60 D2
FU61 C5
FU65 D7
FU66 E7
FU6S F5
FU8A F12
IU15 F2
IU22 B3
IU37 F10
IU69 E10
IU6A E6
IU6E B4
IU6F D2
IU6J B2
IU6K C2
IU6L C4
IU6M D4
IU6N D4
IU6P D4
IU6R F4
IU6T C6
IU7B D4
IU7C E5
IU7E E7
IU7F E6
IU7H E7
IU7J C1
IU7K C3
IU7L C4
IU7M C1
IU7N D5
IU7P E4
IU7Q E4
IU7R E5
IU7T D5
IU7V B2
IU86 E7
IU87 F11
IU88 F12
IU89 F12
IU8A E9
IU8B F10
IU8C F9
IU8D F8
IU8E F8
IU8F F11
Circuit Diagrams and PWB Layouts
65Q528.1E LA 7.
SSB: Channel Decoder
123456789
B03A B03A
CHANNEL DECODER
A
B
C
D
E
F
G
H
+1V2
IT41
RES
1u0
2T25
3T05
220K
IT03
IT05
9T23
RES
3T15
330R
+3V3DVB
SDA-SSB1
SCL-SSB1
TUN-TDA-SDA
TUN-TDA-SCL
RESET-SYS-DETECT
TDA-IF-AGC
4-MHz
TUN-AGC
TUN-AGC-MON
AGC-COMP
TDA-IF-IN-N
TDA-IF-IN-P
FT42
3T19
100K RES
3T13
100K
2T31
IT15
9T20
RES
100n
+3V3
FT41
IT42
5T15
+1V2DVB
120R
IT11
4
BC847BPN
7T18-2
5
3
3T16
IT26
1K0
10K
3T21
SDA-SSB
SCL-SSB
2T17
100n
5
4
2
NC
7T13
3
74LVC1GU04GW
1
+3V3DVB
10K
100n
2T26
3T14
IT22
9T21
2
9T22
6
7T18-1
BC847BPN
1
SDA-SSB1
SCL-SSB1
IT27
I
3T20
100K
IT16
3T32
5T09
FT15
120R
6.3V
100n
2T01
2T32
22u
7T25
LD3985M122
1
IT24
3
5T08
120R
1K2
1K2
3T33
OUTIN
INH BP
COM
2
FT11
2T04
3T26
3T28
100n
2T05
2T24
100n
100R
100R
5
4
6.3V
22u
IT25
IT32
2T27
RES 2T29
100n
+1V2DVB
+3V3DVB
+1V2DVB
+3V3DVB
100n
2T08
100n
IT07
2T09
FT40
100n
7T17-1
2T36
4859
ANA_21_ADVANA_ASV
VDD33_ADC
7
XIN
8
XOUT
41
CLR
33
SADDR
35
SCL
34
SDA
39
TCK
38
TDI
40
TDO
37
TMS
36
TRST
2
M
3
VI
P
GND_HS
47
49
IT33
100n
100n
2T07
2T35
+5V-ON
+5V-ON
47K
3T06
1K0
1K0
100n
FT17
IT18
3T09
IT10
9T41
RES
2T18
3T31
22R
3T30
RES
100n
2T19
IT36
RES
RES
10K
3T07
3K3
3T29
2T23
9T42
3K3
FT36
FT37
FT38
FT39
IT14
10n
IT12
2T22
10n
3T08
IT08
3T10
10K
100n
100n
2T21
2T20
JTAG-TCK
JTAG-TD-PNX8535-FE
JTAG-TMS
JTAG-TRST
IT31
47p
47p
2T28
RES
3T11
10K
+3V3DVB
10 11 12 13
+3V3DVB
VDDE33
VSSE
+1V2DVB
AGC_IF
VDDI12
AGC_TUN
DO
GPIO<0:3>
OCLK
PSYNC
TUN
VSSIS
44
DEN
SDA
+1V2DVB
SCL
+1V2DVB
100n
2T12
100n
2T13
100n
2T14
3T17-4
3T17-2
3T22-4
3T22-2
100n
2T15
3T27-2
33R
33R
3T17-3
33R
3T17-1
33R
33R
33R
3T27-1
33R
3T22-3
3T22-1
33R
33R
33R
3T27-3
33R
100n
2T16
42
43
18
32
20
0
21
1
22
2
23
3
24
4
25
5
26
6
27
7
19
17
16
15
+1V2DVB
+1V2DVB
+3V3DVB
1112846123145
VDDA12_PLL
VDDA33_ADC
VDDA12_OSC
MAIN
TDA10048HN/C200
VSSA_ADC
VSSA_OSC
VSSA_PLL
4
6
1014291330
+3V3DVB
FE-VALID
AGC-COMP
FE-DATA0
FE-DATA1
FE-DATA2
FE-DATA3
FE-DATA4
FE-DATA5
FE-DATA6
FE-DATA7
FE-CLK
FE-SOP
3104 313 6194.3
12
34567
8910
11 12 13
H_16800_036.eps
250407
A
B
C
D
E
F
G
H
I
2T01 B5
2T04 D5
2T05 D5
2T07 D8
2T08 D9
2T09 D9
2T12 D11
2T13 D11
2T14 D11
2T15 D12
2T16 D11
2T17 E4
2T18 E8
2T19 E8
2T20 F6
2T21 F6
2T22 H8
2T23 H8
2T24 F5
2T25 C4
2T26 F3
2T27 C6
2T28 I6
2T29 I6
2T31 G2
2T32 B5
2T35 D8
2T36 D9
3T05 D4
3T06 E8
3T07 G8
3T08 E7
3T09 E7
3T10 E7
3T11 E7
3T13 F2
3T14 F4
3T15 G4
3T16 G3
3T17-1 G12
3T17-2 G11
3T17-3 G12
3T17-4 F11
3T19 F2
3T20 C5
3T21 G3
3T22-1 G12
3T22-2 G11
3T22-3 G12
3T22-4 G11
3T26 H5
3T27-1 G12
3T27-2 F12
3T27-3 G12
3T28 H5
3T29 G8
3T30 G8
3T31 G8
3T32 H5
3T33 H5
5T08 C5
5T09 B5
5T15 E3
7T13 E4
7T17-1 F9
7T18-1 G4
7T18-2 F3
7T25 B5
9T20 F2
9T21 H3
9T22 H3
9T23 F4
9T41 H8
9T42 G8
FT11 C5
FT15 B5
FT17 G7
FT36 H8
FT37 H8
FT38 H8
FT39 H8
FT40 F9
FT41 D3
FT42 F2
IT03 C4
IT05 D4
IT07 E9
IT08 E7
IT10 E7
IT11 F3
IT12 H8
IT14 H8
IT15 F2
IT16 F5
IT18 F7
IT22 G4
IT24 C5
IT25 C6
IT26 G3
IT27 G3
IT31 H6
IT32 H6
IT33 H9
IT36 G8
IT41 B4
IT42 E3
SSB: Main Tuner
1HE0 A14
1T04 D2
1T05 C2
1T06 A2
1T55 D5
1T65 C5
1T70 C5
1T71 E14
2T40 B8
2T41 C8
2T42 C10
2T45 G10
2T46 G13
2T47 H4
1234567
2T48 B9
2T49 B9
2T50 F3
2T51 F13
2T53 F3
2T58 H10
2T59 G3
2T60 F14
2T61 G2
2T62 F5
2T63 H11
2T64 E13
2T65 H11
2T66 G13
Circuit Diagrams and PWB Layouts
2T67 F1
2T68 G2
2T69 G3
2T70 F2
2T71 F2
2T72 G2
2T73 G13
2T74 G14
2T75 G14
2T76 H9
2T77 H11
2T78 F14
2T79 E12
2T80 G11
2T81 G11
2T82 G11
2T83 H11
2T84 E13
2T85 F1
2T86 G9
2T87 F9
2T88 F11
2T89 F11
2T90 F1
2T91 G4
2T92 H12
2T93 F5
2T94 F10
2T95 F11
2T96 F13
2T97 G11
2T99 E13
3T39 E9
3T40 G11
3T41 C9
3T42 C8
3T43 C9
3T44 C9
3T45 C10
3T46 D9
3T47 D9
3T48 D9
3T49 D9
3T50 E8
3T51 E9
3T53 G5
3T54 G10
3T55 G10
3T56 F13
3T57 F14
3T58 F9
3T59 F9
3T63 H8
3T64 H9
3T65 A8
3T66 A8
3T67 A9
3T68 H10
3T69 I9
3T70 I10
3T71 I9
3T74 G11
3T75 H10
66Q528.1E LA 7.
3T76 E14
3T77 F5
3T80 A12
3T81 A12
3T82 B12
3T83 H4
3T84 H4
3T85 I9
3T95 B12
5T52 A10
5T53 E12
5T54 E5
5T61 F4
6T40 C8
6T41 C10
6T55 B9
6T56 B8
6T57 B8
7T50 C9
7T51-1 D10
7T51-2 E10
7T55 I10
7T56-1 H9
7T56-2 H9
7T57 E12
7T58 H3
9T24 I9
9T51 F5
9T52 G5
9T53 F1
9T54 F2
9T55 D4
9T56 G2
9T57 G9
9T58 G2
9T59 F2
9T60 F2
9T61 F3
9T62 F2
9T63 E3
9T64 F3
9T65 G2
9T66 E3
9T67 G5
9T68 G5
9T70 G9
9T72 C14
9T73 B12
9T74 G7
9T75 G7
9T77 F3
9T80 F9
9T81 F9
9T82 C5
9T83 C5
9T85 I3
9T86 I3
AT6 2 F4
AT6 3 F4
AT6 4 F9
AT6 5 F9
FT50 F11
FT51 F11
FT56 I8
FT57 G14
FT58 A10
FT59 A14
FT60 B14
FT61 B14
FT62 B14
FT63 B14
FT64 B14
FT65 B14
FT66 B14
FT67 B14
FT68 B14
FT76 H8
IT50 C8
IT51 C9
IT52 D9
IT53 D9
IT54 E8
IT55 E9
IT56 E9
IT66 H2
IT67 H2
IT68 I4
IT69 H5
IT70 E12
IT71 E13
IT72 F10
IT73 G11
IT74 G11
IT75 H11
IT76 H12
IT77 H11
IT78 E14
IT79 A8
8 9 10 11 12 13 14 15
IT81 A9
IT85 H9
IT86 G12
IT87 H9
IT88 H9
IT89 F5
IT90 F4
IT91 G4
IT92 F13
IT93 G11
IT94 G11
IT95 G11
IT96 H11
IT97 H12
B03B B03B
A
B
C
D
E
ANTENNA-SUPPLY
F
9T53
10n
2T67
G
H
SDA-SSB-MUX2
SCL-SSB-MUX2
I
MAIN TUNER
1T06
*
*
2T85
UV1318S/A I H N-3
VA1Y9ED2001
*
TD1716/HXP-3
*
*
1u0
1u0
2T90
2T70
1T05
1T04
RF-IN
1u0
14
15
AGC3AS
1
14
15
RF-AGC3SCL6SDA
APO1AS5BM9IFOUT
NC1
2
14
NC14NC23RF_AGC6SCL7SDA
DC_PWR
15
2
1
9T54
10n
2T71
10n
2T61
10n
2T72
*
9T56
TUNER
TUNER
NC2
4
TUNER
*
9T58
IT66
5
9T62
*
2T68
AS
NC14SCL5SDA2TU
6
IT67
13
12
VS7VST
ADC
IF1
IF2|NC2
9
8
11
10
13
TMTM
12
NC3
4MHZ
11
7
8
10
13
MTMT
XTAL_OUT
+5V
IF_OUT111IF_OUT2
12
8
9
10
220n
*
9T63
2T50
9T77
2T53
9T59
9T60
9T65
10n
*
9T61
9T64
*
10n
*
2T69
+3V3
7T58
PCA9515ADP
RES
SDA0
3SDA16
SCL02 SCL1 7
EN5
GND
8
VCC
9T85
9T86
3T65
100R
9T75
3T66
100R
22n
2T41
ANTENNA-CTRL
+3V3
TDA-IF-IN-N
TDA-IF-IN-P
IF-N
IF-P
TUN-AGC
TUN-AGC
TUN-AGC-MON
CVBS-TER-OUT
CVBS4
3T42
IT79
6T56
6T57
PDZ33-B
2T40
IT50
1
4K7
6T40
BAS316
IT54
3T50
10K
FT76
FT56
+VTUN
1T70
1
I
2
IGND
3
GND
Audio + Dig.
9T83
1
I
*
2
9T82
9T55
*
9T66
*
+33VTUN
10n
AT6 2
AT6 3
*
2T91
*
150p
2T59
100n
2T47
RES
1
NC
4
560n
5T61
IT89
IT90
150p
IT91
4K7RES
3T83
3T84
RES 4K7
IT68
IGND
*
3
GND
1
I
2
IGND
3
GND
Analoog video
3T77
220R
3T53
220R
I2C-BUFFER
RES
IT69
X6874D
36M125
1T65
X6874D
36M125
Audio AP
1T55
X6874D
36M125
O1
O2
/ X6766D
O1
O2
*
O1
O2
/ X6768D
5T54
220R
2T62
100n
2T93
22u
9T51
9T67
9T68 RES
9T52
4
5
4
5
4
5
+5V-ON
RES
IF-FILTN2
IF-FILTP2
IF-FILTN3
IF-FILTP3
IF-FILTN1
IF-FILTP1
TUN-AGC
4-MHz
SDA-MUX2-BUF
TUN-TDA-SDA
TUN-TDA-SCL
SCL-MUX2-BUF
SDA-MUX2-BUF
SCL-MUX2-BUF
CA-OOB-CRX
CA-OOB-DRX
+8V6
9T74
100n
AT6 5
3T63
6T55
PDZ33-B
+5V-ON
2
3
3T51
2K7
AT64
6
1
1K0
4
7T50
BCP56
IT51
7T56-1
3T67
100R
BZG05C33
3T43
3T44
3T46
220R
27K
3T48
3T39
9T80
9T81
BC847BPN
9T24
3T69
2R2
2R2
IT87
2
IT81
5T52
FT58
30R
2T48
220n
220n
2T49
+5V-ON
3T41
100K
3T45
100K
+8V6
IT88
3
2
3
2
5
6
2T87
390R
100n
V1
7T55
BC847BW
220R
2T58
+8V6
1
84
8
4
7T51-1
LM393PT
7T51-2
LM393PT
10u
1
7
3T68
100R
3T70
100R
3T47
220R
IT52
IT53
27K
3T49
IT55
IT56
4K7
3p3
3T58
3T59
390R
3p3
2T86
9T57
9T70
RES
V1
2K2
2T76
3T64
IT85
7T56-2
BC847BPN
4
5
3
3T71
68R
RES
75R
3T85
*
+33VTUN
RESERVED
ANTENNA-SUPPLY
100n
2T42
6T41
BZX384-C6V8
RES
2T94
10n
2T95
RES
10n
IT72
ANTENNA-CTRL
3T54
330R
3T75
2T45
2p7
3T55
5K6
V1
IT73
2T81
2T82
IT95
3T74
470R
2T83
1K8
IT75
3T80
3T81
+3V3
3T95
100K
3T82
+3V3
9T73
RES
+5V-ON
5T53
V1
100n
2T79
7T57
TDA9898HL/V1
14
18
IC
42
2T88
10n
2T89
10n
FT50
FT51
3T40
RES
4K7
2T80
IT74
220n
47p
2T97
100n
2n2
IT94
IT77
IT96
4n7
22p
2T77
2T65
100n
2T63
DIV
PROCESSING
26
A
OUT1
27
B
29
A
OUT2
30
B
47
TAGC
31
AUD
33
CVBS
12
1
16
MPP
2
15
EXTFILO
13
VIF
IT93
19
LF
FM
38
SYN1
IT86
1
SYN2
20
CDEEM
8
CTAGC
5
CIFAGC
IT97
35
APCLC
IT76
34
470n
APCHC
GND GNDA
2T92
1n5
48
10K
10K
10K
JTAG-TD-PNX8535-FE
220R
IT70
43
44
VP
Φ
IF
GNDD
22
2T84
OPTXTAL
FREF
ADRSEL
IF1
IF2
IF3
EXT
AGC
TOP
41
EJTAG-TRSTN
EJTAG-TDI
EJTAG-TDI
EJTAG-TMS
EJTAG-TDO
2T64
22u
39
46
23
SDA
24
SCL
32
BVS
25
6
A
7
B
9
A
10
B
3
A
4
B
17
FILI
21
FMI
36
DIN
37
SWI
45
VIN
2
1
11
2
28
CAF
40
16V100u
EJTAG-TRSTN
EJTAG-DETECT
EJTAG-TDI
EJTAG-TDO
EJTAG-TMS
EJTAG-TCK
2T99
IT71
IT92
3T56
2T51
2T73
2T66
1HE0
FT59
FT60
FT61
FT62
FT63
FT64
FT65
FT66
FT67
FT68
1T71
IT78
*
2T60
2T74
2T75
3T76
3K3
FT57
*
4M0
2T78
100p
100R
10n
10n
*
10n
*
22p
2T96
100p
3T57
100R
10n
10n
*
10n
2T46
10n
+3V3
9T72
5-147279-3
SDA-SSB1
SCL-SSB1
IF-FILTP1
IF-FILTN1
IF-FILTP2
IF-FILTN2
IF-FILTP3
IF-FILTN3
TDA-IF-AGC
1
2
3
4
5
FOR FACTORY
6
7
8
9
10
11
12
13
14
4-MHz
USE ONLY
3104 313 6194.3
123456789
10 11 12 13 14 15
H_16800_037.eps
250407
A
B
C
D
E
F
G
H
I
Circuit Diagrams and PWB Layouts
67Q528.1E LA 7.
PNX 8535: Standby Controller
123456789101112
B04A B04A
A
+3V3-STANDBY
B
+3V3-STANDBY
+3V3-STANDBY
C
+3V3-STANDBY
D
E
F
G
H
I
PNX 8535: STANDBY CONTROLLER
+3V3-STANDBY
7H00-6
PNX8535
STANDBY CONTROL
AG1
I
XTAL
AG2
O
AA3
RESET_IN
U5
0
U4
1
U3
2
U2
3
U1
P0
4
V5
5
V4
6
V3
7
AA2
0
AA1
1
AB4
9H04
100R
3H63
100R
RST
NC
RST
NC
RST
NC
RST
NC
2
P1
AB3
3
AB2
7
V2
0
V1
1
W4
2
W3
3
W2
P2
4
W1
5
Y4
6
Y3
7
AB1
0
AC5
1
AC4
2
AC3
P3
3
AC2
4
AC1
5
AF4
0
AF3
1
AF2
P5
2
AF1
3
AE2
4
AE4
P6
5
SENSE+1V2-PNX8535
1
4
1
4
1
4
1
4
DETECT-1V2-2V5-3V3
DETECT-1V2-2V5-3V3
DETECT-1V2-2V5-3V3
DETECT-1V2-2V5-3V3
3H13
3H15
3H17
3H20
3H42
3H48
3H23
3H26
3H28
3H31
3H60
3H64
3H69
1HF0
27p
2HF1
3H78
3H86
3H92
+3V3-STANDBY
3H87
3H91
+3V3-STANDBY
3H94
3H98
3H25
3H29
3H33
100R
10R
4K7
180K
68K
22K
68K
22K
10R
4K7
180K
IH20
IH19
IH92
IH31
27M
AHF0
3H37
2H08
100n
2H90
100n
2H91
100n
2H11
100n
3H43
3H49
10K
3H61
3H66
100R
3H72
100R
3H74
100R
100R
100R
3HF1
100R
RES
IH90
IH05
IH93
IH32
3H40
100R
100R
3H52
100R
3H59
IH02
3H65
100R
3H68
3H71
100R
3H73
100R
3H35
100R
7H04
NCP303LSN10T1
2
IN
3
GND
5
CD
7H90
NCP303LSN10T1
2
IN
3
GND
5
CD
7H91
NCP303LSN10T1
2
IN
3
GND
5
CD
7H92
NCP303LSN10T1
2
IN
3
GND
5
CD
3H57
100R
27p
2HF0
10K
3H09
RESET-STBY-J
3H10
10K
3H14
4K7
10K
3H16
10K
10K
3H19
10K
10K
10K
3H39
10K
3H46
10K
10K
10K
10K
10K
10K
3H51
10K
3H21
10K
3H24
10K
10K
3H27
10K
10K
3H30
10K
10K
10K
3H58
10K
3H67
10K
3H70
680R
3H36
10K
+3V3-STANDBY
3H84
+3V3
10K
3H96
+2V5
8K2
+3V3-STANDBY
P0.1
P0.3
P0.5
P0.7
2H00
1n0
LED2-3V3
SUPPLY-FAULT
DETECT-1V2-2V5-3V3
P2.1
P2.3
P2.5
P2.7
TXD-UP
RESET-SYS-DETECT
SDM
2H01
100n
BOLT-ON-IO
K001K86
3H77
7H14
BC847BW
IH08
3H79
IH04
3H89
100K
IH91
3H97
47K
100K
3H18
IH30
68K
3H22
KEYBOARD
P0.0
P0.2
P0.4
P0.6
CEC-HDMI
P2.0
P2.2
P2.4
P2.6
RXD-UP
AV2-BLK
IH25
IH26
7H93
BC847BW
RC
6H00
BAS316
6H05
BAS316
P0.0
P0.1
P0.2
P0.3
P0.4
P0.5
P0.6
P0.7
RC
LED2-3V3
CEC-HDMI
SUPPLY-FAULT
DETECT-1V2-2V5-3V3
P2.0
P2.1
P2.2
P2.3
P2.4
P2.5
P2.6
P2.7
RXD-UP
TXD-UP
BOLT-ON-IO
RESET-SYS-DETECT
AV2-BLK
SDM
KEYBOARD
LIGHT-SENSOR
AV1-STATUS
AV2-STATUS
SPI-PROG
SPI-WP
SENSE+1V4
I2C uP
SCL-UP-MIPS
SDA-UP-MIPS
AD4
SDO
AE1
SDI
AD1
SPI
CLK
AE3
CSB
PWM
PSEN
AG4
SCL
SDA
0
1
ALE
EA
3H41
AH3
AD3
AD2
Y1
Y2
AA4
100R
3H50
100R
3H54
100R
DV-B3_AUDIO-MUTE
LED1-3V3
LED2-3V3
3H44
3H38
100R
CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3
100R
3H53
100R
3H56
100R
FH02
IH09
IH18
CTRL5-STBY_BACKLIGHT-BOOST
6HW0
BAS316
6HW1
BAS316
9H05
9H06
SCL-UP-MIPS
SDA-UP-MIPS
IHWZ
SPI-SDO
SPI-SDI
SPI-SDI
SPI-CLK
SPI-CSB
SPI-PROG
SPI-WP
SCL-UP-MIPS
SDA-UP-MIPS
CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3
CTRL5-STBY_BACKLIGHT-BOOST
PSEN
PSEN
ALE
ALE
EA
EA
SPI-SDO
SPI-CLK
SPI-CSB
SPI-WP
+3V3-STANDBY
3HW0
47K
AUDIO-MUTEAUDIO-RESET
LED1
LED2
9H09
9H10
M25P05-AVMN6
IH00
IH03
IH06
IH07
+5V-ON
FH10
FH11
FH12
+3V3-STANDBY
7H02
5
6
1
3
7
+3V3-STANDBY
D
FLASH
C
S
W
HOLD
84
VCC
Φ
512K
VSS
3H83
IH15
100K
3H88
Q
7H16
BC847BW
1K0
3H32
10K
3H00
3H02
3H04
10K
RES
3H06
10K
3H08
10K
2H10
IH01
2
+3V3-STANDBY
3H80
IH14
3H93
10K
4K7
100K
10K
100n
10K
4K7
10K
3H07
10K
SPI-SDI
+12V
3H01
3H03
3H05
+3V3-STANDBY
3H85
IH13
7H18
BC847BW
100K
3H90
27K
+3V3-STANDBY
POWER-OK-DISPLAY
IH11
3H95
IH12
10K
BAS316
6H01
7H22
PDTC114EU
+3V3-STANDBY
3H81
3H82
+3V3-STANDBY
68K
IH10
22K
3104 313 6194.3
12345
678910
11 12 13 14
13 14
FH00
SPI-PROG
FH01
SDM
10K
3H12
9H07
IH17
7H03
NCP303LSN10T1
2
IN
RST
3
GND
IHSF
2H05
5
NC
100n
CD
9H08
9H03
2H06
100p
2H07
100p
9H01
9H02
CTRL3-STBY_POWER-OK-DISP
3H11
100R
IH16
7H21
PDTC114EU
RES
1
DETECT-5V-12V
4
H_16800_038.eps
250407
1HF0 A3
2H00 B3
2H01 D3
2H05 G13
2H06 C14
2H07 C14
2H08 F4
2H10 C11
2H11 I4
2H90 G4
2H91 H4
A
2HF0 A3
2HF1 A3
3H00 B11
3H01 B11
3H02 B11
3H03 B11
3H04 B11
3H05 B11
3H06 B11
3H07 B11
3H08 C11
3H09 A3
B
3H10 B2
3H11 E14
3H12 E13
3H13 B1
3H14 B2
3H15 B1
3H16 B2
3H17 B1
3H18 I2
3H19 B2
3H20 B1
3H21 C2
C
3H22 I2
3H23 C1
3H24 C2
3H25 I3
3H26 C1
3H27 C2
3H28 C1
3H29 I3
3H30 C2
3H31 C1
3H32 A11
D
3H33 I3
3H35 D4
3H36 D2
3H37 D4
3H38 B7
3H39 B2
3H40 B4
3H41 B7
3H42 B1
3H43 B4
3H44 B7
3H46 B2
E
3H48 C1
3H49 C4
3H50 B7
3H51 C2
3H52 C4
3H53 B7
3H54 B7
3H56 C7
3H57 B4
3H58 C2
3H59 C4
3H60 C1
F
3H61 C4
3H63 D5
3H64 D1
3H65 D4
3H66 D4
3H67 D2
3H68 D4
3H69 D1
3H70 D2
3H71 D4
3H72 D4
G
3H73 D4
3H74 D4
3H77 E2
3H78 E3
3H79 F2
3H80 G11
3H81 G12
3H82 G12
3H83 H10
3H84 G2
3H85 H11
3H86 E3
H
3H87 F3
3H88 H10
3H89 G3
3H90 H11
3H91 G3
3H92 F3
3H93 H11
3H94 H3
3H95 H12
3H96 H2
3H97 H3
3H98 H3
I
3HF1 A4
3HW0 G8
6H00 G3
6H01 G12
6H05 H3
6HW0 G8
6HW1 G8
7H00-6 A5
7H02 D10
7H03 G13
7H04 E4
7H14 E3
7H16 H10
7H18 H11
7H21 F13
7H22 F12
7H90 F4
7H91 H4
7H92 I4
7H93 I3
9H01 C14
9H02 D14
9H03 C14
9H04 B5
9H05 H8
9H06 I8
9H07 E13
9H08 B14
9H09 A9
9H10 A9
AHF0 A4
FH00 C13
FH01 C13
FH02 G7
FH10 A10
FH11 A10
FH12 A10
IH00 D10
IH01 D11
IH02 D4
IH03 D10
IH04 G2
IH05 G4
IH06 D10
IH07 D10
IH08 E3
IH09 H7
IH10 G13
IH11 G12
IH12 H12
IH13 H11
IH14 H11
IH15 H10
IH16 E13
IH17 E13
IH18 I7
IH19 G4
IH20 E4
IH25 G3
IH26 H3
IH30 I3
IH31 I4
IH32 I4
IH90 F4
IH91 H2
IH92 H4
IH93 H4
IHSF G13
IHWZ G8
Circuit Diagrams and PWB Layouts
68Q528.1E LA 7.
PNX 8535: Debug
9H20 A3
9H21 A3
9H22 A3
9H23 B3
9H24 B3
9H25 B3
9H26 B3
9H27 B3
9H28 B3
1
9H29 B3
9H30 B3
9H31 B3
9H32 B3
9H33 B3
9H34 B3
2
9H35 B3
9H36 B3
9H37 C3
9H38 C3
9H39 C3
9H40 C3
9H41 C3
9H44 C3
9H42 C3
9H43 C3
34
PNX8535: DEBUG
B04B B04B
A
B
C
D
3104 313 6194.3
ROW_1
1H10-1
LED1-3V3
1
RESET-NVM_WP-NANDFLASH
3
ENABLE-1V2
5
REGIMBEAU_CVBS-SWITCH
7
ENABLE-3V3
9
CTRL1-STBY_LAMP-ON
11
AUDIO-RESET
13
UART-SWITCH
15
17
DV-B2_DEBUG-BREAK
19
EJTAG-DETECT
21
AV1-BLK
23
ON-MODE
25
POD-MODE
27
DETECT-5V-12V
29
CTRL4-STBY_SELECT-PWM-ANA
31
CTRL3-STBY_POWER-OK-DISP
33
35
37
39
41
43
RESET-STBY
45
47
49
FTSH-125-01-L-DV
+3V3-STANDBY
+3V3-STANDBY
RES
RES
9H20
9H21
9H22
9H23
9H24
9H25
9H26
9H27
9H28
9H29
9H30
9H31
9H32
9H33
9H34
9H35
9H36
9H37
9H38
9H39
9H40
9H41
9H42
RESET-STBY-J
ROW_2
1H10-2
P0.0
P0.1
P0.2
P0.3
P0.4
P0.5
P0.6
P0.7
P2.0
P2.1
P2.2
P2.3
P2.4
P2.5
P2.6
P2.7
ALE
PSEN
EA
FTSH-125-01-L-DV
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
H_16800_039.eps
250407
A
B
C
D
PNX 8535: NVM / UART Switch
123
B04C B04C
A
B
PNX 8535: NVM /UART SWITCH
+3V3-STANDBY
9HC0
10K
3HC0
RESET-NVM_WP-NANDFLASH
FHC6
3HC2
10K
+3V3-STANDBY
IH21
IHC0
7HC3
M24C64
10K
3HC9
1
0
2
1
3
2SDA
9HC2
C
+5VS
7HC0-1
74HC4066PW
RXD
FHC3
3HC4
100R
3HC3
100R
D
UART-SWITCHn
TXD
3HC5
100R
3HC6
100R
+5VS
E
10K
3HC7
UART-SWITCHn
UART-SWITCH
1
FHC5
PDTC114EU
7HC1
FHC4
3
2
F
1
1
13
7HC0-2
74HC4066PW
4
5
7HC0-3
74HC4066PW
8
6
7HC0-4
74HC4066PW
11
12
3
7HC2
PDTC114EU
2
1
X1
1
X1
1
X1
1
X1
10K
3HC8
3104 313 6194.3
1
234
456
IHC2
9HC1
RES
100K
3HC1
7
WC
2HC1
100n
6
5
FHC1
RXD-UP
RXD-MIPS
TXD-UP
TXD-MIPS
FHC2
5
SCL-UP-MIPS
SDA-UP-MIPS
6
IHC1
(8Kx8)
EEPROM
ADR
MAIN NVM
1
714
14
1
7
1
714
10
1
714
BC857BW
7HC4
84
Φ
2
3
9
2HC0
100n
SCL
FHC7
H_16800_040.eps
250407
A
B
C
D
E
F
2HC0 B4
2HC1 C4
3HC0 A3
3HC1 A5
3HC2 A3
3HC3 D3
3HC4 D3
3HC5 D3
3HC6 E3
3HC7 E3
3HC8 F3
3HC9 B3
7HC0-1 C3
7HC0-2 D3
7HC0-3 E3
7HC0-4 E3
7HC1 F2
7HC2 F3
7HC3 B4
7HC4 A4
9HC0 A3
9HC1 A4
9HC2 C3
FHC1 B5
FHC2 B5
FHC3 D2
FHC4 E3
FHC5 F2
FHC6 A2
FHC7 C4
IH21 B3
IHC0 A3
IHC1 B4
IHC2 A4
1
23
4
Circuit Diagrams and PWB Layouts
PNX 8535: Miscellaneous
69Q528.1E LA 7.
12
PNX 8535:
MISCELLANEOUS
34567
8
B04D B04D
33K
*
+5VS
IHD2
10K
3HDL
IHD4
IHD7
5
3
7HD6-2
BC847BS
4
FHD2
0V3
3HDM
18K
7HD8
BC847BW
3HDN
1K0
BAS316
BAS316
6HD0
6HD1
0V
IHDE
FHD1
3HD3
3HD0
2K2
1K2
IHD0
2HD0
NCP303LSN10T1
2
3
5
100n
CD
7HD0
IN
GND
RST
NC
+3V3-STANDBY
YBDNA
TS-3V3+YBDNATS-3V3+
IHD6
0V3
3HDK
6
1
FHD4
10K
3HDP
9HD1
10K
3HDJ
3HD0
10K
3HD2
IHDA
1
4
FHD0
9HD0
*
1
RESET-STBY
3
7HD1
PDTC114EU
2
IHD5
2
7HD6-1
BC847BS
A
B
C
2HD0 D2
3HD0 D2
3HD2 C3
3HD3 C2
3HDJ C5
3HDK C6
3HDL C6
3HDM C6
3HDN C7
3HDP C6
6HD0 C7
6HD1 C7
7HD0 C3
7HD1 C4
7HD6-1 C5
7HD6-2 C6
7HD8 C7
9HD0 C3
9HD1 D6
FHD0 C4
FHD1 C1
FHD2 D6
FHD4 C6
IHD0 C2
IHD2 B7
IHD4 C6
IHD5 C5
IHD6 C5
IHD7 C6
IHDA C3
IHDE C8
3104 313 6194.3
POD-MODE
ON-MODE
D
STANDBY
E
F
H_16800_041.eps
250407
12345
67
8
PNX 8535: Control
Circuit Diagrams and PWB Layouts
70Q528.1E LA 7.
123456789
PNX8535: CONTROL
+3V3-PER
B04E B04E
10K
3HFH
33R
3HFR
33R
3HPC
4K7
IHPF
FHPA
FHPB
3HF3
6HF0
3HF9
3HFG
33R
IHF5
3HF2
33R
3HF4
33R
7HF1
CY2305S
1
4K7
3HPX
FHP3
SML-310
330R
PCI-CLK-DEBUGPCI-CLK-OUT
PCI-CLK-PNX5050_CLK-MOP
PCI-CLK-PNX8535
PCI-CLK-USB20
+3V3
6
VDD
Φ
ZERO
DELAY
BUFFER
REF
3HPY
4K7
CLK
CLKOUT
GND
4
+3V3-STANDBY
SCL-SSB-MUX1
SCL-SSB-MUX2
SDA-SSB-MUX1
SDA-SSB-MUX2
JTAG-TD-PNX8535-FE
JTAG-TD-PNX5050-PNX8535
2HF5
10n
2HF6
100n
2HF7
3
1
2
3
4
10p
2
5
7
8
3HFM
33R
15p
3HFP
33R
3HFN
33R
3HFK
33R
2HF8
PCI-CLK-PNX8535
PCI-CLK-DEBUG
PCI-CLK-PNX5050_CLK-MOP
PCI-CLK-USB20
A
B
+1V2
C
+3V3-PER
D
E
DS
S
S
LCS
1
S
2LCS
F
3104 313 6194.3
7H00-4
PNX8535
MIPS C0NTROL
IHF6
IHF7
RES
+3V3-PER
3HPA
AK1
AJ2
AK3
AJ3
AK2
AK27
AH27
AK29
AK28
AJ28
AJ27
AE27
T1
T2
T3
G27
E27
D28
100R
3HPB
3HPK
4K7
3HPQ
100R
TDI
TCK
TMS
TRST
TDO
SCL
SDA
SCL
SDA
SCL
SDA
VPP_ID
0
1
2
GPIO
3
4
5
FHP1
EJTAG
I2C1
I2C2
I2C3
100R
FHP0
FHP2
3HPM
4K7
3HPT
100R
3HP8
-LCS
10K
SS
SS-AD
2HF2
BSS-LCS
B
B
100n
EVALS-LCS
EVALS-A
CA-INT
3HPE
100R
3HPG
100R
3HPJ
100R
EJTAG-TDI
EJTAG-TCK
EJTAG-TMS
EJTAG-TRSTN
EJTAG-TDO
CA-CTRLEN_BOOTMODE
CTRL1-MIPS_LCD-PWR-ON
IRQ-PCI
CA-INT
RXD-MIPS
TXD-MIPS
CA-CTRLEN_BOOTMODE
9HP5
9HP6
9HP7
9HP8
9HPA
9HPB
9HPC
9HPD
3HPD
100R
3HPF
100R
3HPH
100R
S
S
S
SCL1
SDA1
SCL2
SDA2
SCL3
SDA3
9HF8
9HG1
9HG0
-
SPIM
PU-LC
SPIM-PU-AD
SPIM-PU-LCS2-LCS
SPIM-PU-ADS2-AD
1XUM-BSS-LC
2XUM-BSS-LCS
1XUM-BSS-ADSBSS-ADS
2XUM-BSS-ADS
EVALS-LCS
ADS1AD
EVALS-
2-LCS
2-ADS2ADS
BSS-LCS3LCS
BSS-ADS3ADS
IHS8
9HG2
3HFY
10K
SCL-SSB
SDA-SSB
123
IHF8
RESET-SYS-DETECT
RESET_SYS
27MHz_OUT
AJ26
AK26
IHS7
RESET-SYS-DETECT
3HF0
33R
PCI-CLK-OUT
IHF0
RESERVED
1HP0
IHF4
IHF9
+3V3-PER
1
SCL
2
3
SDA
45
2HP1
7HP5
PCA9540BDP
SCL
1
SDA
2
+3V3-STANDBY
100p
3
VDD
NULL
2
C
I
INP
-BUS
FIL
CTRL
VSS
6
SC0
SC1
SD0
SD1
5
8
4
7
PCI-CLK-OUT
3HPW
3HPS
100R
100R
3HPU
100R
3HPR
100R
3HPZ
4K7
456789
FHP4
H_16800_042.eps
250407
A
B
C
D
E
F
1HP0 D4
2HF2 C1
2HF5 C7
2HF6 D7
2HF7 D8
2HF8 D8
2HP1 E4
3HF0 B5
3HF2 C7
3HF3 A6
3HF4 C7
3HF9 B6
3HFG B7
3HFH B6
3HFK D8
3HFM E8
3HFN E8
3HFP D8
3HFR D6
3HFY C2
3HP8 C1
3HPA D3
3HPB D3
3HPC E6
3HPD E1
3HPE E1
3HPF E1
3HPG E1
3HPH E1
3HPJ F1
3HPK E3
3HPM F3
3HPQ F3
3HPR E6
3HPS F6
3HPT F3
3HPU F6
3HPW F6
3HPX E6
3HPY E7
3HPZ E6
6HF0 A6
7H00-4 A3
7HF1 D7
7HP5 E4
9HF8 B2
9HG0 C2
9HG1 C2
9HG2 C3
9HP5 D1
9HP6 D1
9HP7 D1
9HP8 D1
9HPA D1
9HPB D1
9HPC D1
9HPD D1
FHP0 D4
FHP1 D3
FHP2 D4
FHP3 E7
FHP4 B9
FHPA F6
FHPB F6
IHF0 B6
IHF4 D4
IHF5 B7
IHF6 C3
IHF7 C3
IHF8 D4
IHF9 D4
IHPF F6
IHS7 B4
IHS8 C2
PNX 8535: Control
Circuit Diagrams and PWB Layouts
71Q528.1E LA 7.
A
B
C
D
123
456
7
8
PNX 8535: CONTROL
B04F B04F
7H00-5
PNX8535
XIO-ACK
XIO-AD25
XIO-SEL-NAND
3HF5
PCI-AD0
PCI-AD1
PCI-AD2
PCI-AD3
PCI-AD4
PCI-AD5
PCI-AD6
PCI-AD7
PCI-AD8
PCI-AD9
PCI-AD10
PCI-AD11
PCI-AD12
PCI-AD13
PCI-AD14
PCI-AD15
PCI-AD16
PCI-AD17
PCI-AD18
PCI-AD19
PCI-AD20
PCI-AD21
PCI-AD22
PCI-AD23
PCI-AD24
PCI-AD25
PCI-AD26
PCI-AD27
PCI-AD28
PCI-AD29
PCI-AD30
PCI-AD31
100R
IHF2
IHF1
IHF3
A11
B10
B11
C11
D11
E11
A20
B20
C20
D20
A19
B19
C19
D19
E19
A18
B18
C18
D18
E18
A17
B17
E15
D15
C15
B15
A15
E14
D14
C14
B14
A14
E13
D13
C13
B13
A13
E12
ACK
AD25
0
1
XIO SEL
2
3
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
XIO
PCI AD
PCI AD
PCI XIO
PCI CTRL
CBE
PCI_CLK
DEVSEL
FRAME
IRDY
TRDY
STOP
IDSEL
PAR
PERR
SERR
REQ
GNT
REQ_B
GNT_B
INTA_OUT
PCI-DEVSEL
D12
0
C12
1
B12
2
A12
3
A21
A16
C17
D17
E17
B16
B21
E16
C16
D16
D21
E21
E22
E20
C21
3HEU
100R
PCI-CBE0
PCI-CBE1
PCI-CBE2
PCI-CBE3
PCI-CLK-PNX8535
PCI-DEVSEL
PCI-FRAME
PCI-IRDY
PCI-TRDY
PCI-STOP
PCI-AD24
PCI-PAR
PCI-PERR
PCI-SERR
PCI-REQ
PCI-GNT
PCI-REQ-B
PCI-GNT-B
PCI-INTA-OUT
PCI-FRAME
PCI-IRDY
PCI-TRDY
PCI-STOP
PCI-PERR
PCI-SERR
PCI-REQ
PCI-GNT
PCI-REQ-B
PCI-GNT-B
10K
10K
10K
10K
10K
10K
10K
3HES
3HET
3HFZ
3HFA
3HFB
3HFC
3HFD
3HFE
3HFF
3HEV
+3V3-PER
+3V3-PER
+3V3-PER
9HF6
9HF7
9HF4
9HF5
10K
10K
10K
PCI-REQ-PNX8535
PCI-GNT-PNX8535
+3V3-PER
PCI-REQ-USB20
PCI-GNT-USB20
A
B
C
D
3HES C7
3HET C7
3HEU C5
3HEV B8
3HF5 B2
3HFA B7
3HFB B8
3HFC B7
3HFD B7
3HFE B7
3HFF B7
3HFZ C7
7H00-5 A3
9HF4 C7
9HF5 C7
9HF6 C7
9HF7 C7
IHF1 B2
IHF2 B2
IHF3 B2
E
3104 313 6194.3
12345
67
E
H_16800_043.eps
250407
8
Circuit Diagrams and PWB Layouts
72Q528.1E LA 7.
PNX 8535: SDRAM
12345
B04G B04G
VTT-TERM-DDR
A
B
C
RES
RES
RES
RES
RES
RES 47R
RES
RES
RES
RES
3HKS
3HKT
3HKV
3HJ7
47R
3HJ9
47R
3HJB
47R
3HJD
47R
3HJF
47R
3HJH
3HJM
47R
3HJP
47R
3HJS
47R
RES
3HJU
47R
3HKR
10K
10K
10K RES
10K
PNX 8535: SDRAM
47R
3HJZ
1K0
100R
3HJ6
47R
3HJ8
47R
3HJA
47R
3HJC
47R
3HJE
47R
3HJG
47R RES
3HJJ
3HJK
47R
3HJN
47R
3HJR
47R
3HJT
47R
RES
3HJ0
RES
RES
RES
RES
RES
RES
RES
RES
RES
RES
RES
RES
DDR2-A12
DDR2-A11
DDR2-A10
DDR2-A9
DDR2-A8
DDR2-A7
DDR2-A6
DDR2-A5
DDR2-A4
DDR2-A3
DDR2-A2
DDR2-A1
DDR2-A0
DDR2-BA0
DDR2-BA1
DDR2-CAS
DDR2-RAS
DDR2-CS
DDR2-WE
DDR2-CKE
DDR2-ODT
DDR2-CLK_P
DDR2-CLK_N
DDR2-DQS0_N
DDR2-DQS1_N
DDR2-DQS2_N
DDR2-DQS3_N
DDR2-DQS0_P
DDR2-DQS0_N
DDR2-DQS1_P
DDR2-DQS1_N
DDR2-DQS2_P
DDR2-DQS2_N
DDR2-DQS3_P
DDR2-DQS3_N
DDR2-DQM0
DDR2-DQM1
DDR2-DQM2
DDR2-DQM3
DDR2-CLK_P
DDR2-CLK_N
DDR2-ODT
DDR2-CKE
DDR2-WE
DDR2-CS
DDR2-RAS
DDR2-CAS
DDR2-BA0
DDR2-BA1
DDR2-A0
DDR2-A1
DDR2-A2
DDR2-A3
DDR2-A4
DDR2-A5
DDR2-A6
DDR2-A7
DDR2-A8
DDR2-A9
DDR2-A10
DDR2-A11
DDR2-A12
+1V8
2HH4
100n
3HJV
3HGN
3HGK
3HGH
3HGF
3HGD
3HGB
3HG9
3HG7
3HG5
3HG3
3HG1
3HJ5
5K6
3HJY
820R
IHG0
DDR2-VREF-CTRL
22R
33R
33R
33R
33R
33R
33R
33R
33R
33R
33R
33R
3HGE
3HJW
22R
3HGM
33R
3HGJ
33R
3HGG
33R
33R
3HGC
33R
3HGA
33R
3HG8
33R
3HG6
33R
3HG4
33R
3HG2
33R
100n
2HH5
D
E
2HG0
DDR2-A0
DDR2-A1
F
G
DDR2-A2
DDR2-A3
DDR2-A4
DDR2-A5
DDR2-A6
DDR2-A7
DDR2-A8
DDR2-A9
DDR2-A10
DDR2-A11
DDR2-A12
DDR2-BA0
DDR2-BA1
DDR2-CLK_P
DDR2-CLK_N
DDR2-CS
DDR2-CKE
DDR2-RAS
DDR2-CAS
DDR2-WE
DDR2-ODT
DDR2-DQM1
DDR2-DQM0
2HG1
2HG3
100n
100n
100n
2HG2
100n
100n
100n
2HG5
2HG4
3HKM
220R 220R
2HG6
100n
2HG7
100n
100n
2HG8
MT47H32M16BT-37E
7HG0
M1
VDDL
DDR2
SDRAM
8MX16X4
D9K9F1F3F7F9H9
Φ
D1H1M9R9V1
VDD
R8
0
R3
1
R7
2
T2
3
T8
4
T3
5
T7
A
6
U2
7
U8
8
U3
9
R2
10
U7
11
V2
12
P2
0
P3
1
BA
P1
2
M8
CK
N8
CK
P8
CS
N2
CKE
N7
RAS
P7
CAS
N3
WE
N9
ODT
E3
U
J3
DM
L
H
V3
RFU
V7
VSS
VSSDL
T1
U9M7D7
D3
H3
M3
I
3104 313 6194.3
1
2345678
67891011121314
7H00-2
PNX8535
DDR
T30
VREF
AE26
IREF
AA28
P
DQS0
AA29
N
Y28
P
DQS1
Y29
N
H28
P
DQS2
H29
N
G28
P
DQS3
G29
N
U29
0
U30
1
DQM
M30
2
M29
3
N28
P
CLK
N29
N
P27
ODT
U26
CKE
R28
WEB
P28
CSB
P29
RASB
P30
CASB
T27
0
BA
R29
1
P26
0
R30
1
N26
2
U28
3
M26
4
R27
5
M27
6
V26
7
A
M28
8
R26
9
T28
10
L26
11
U27
12
J27
NC
+1V8
1u0
2HHK
2HHM
330u 6.3V
100n
100n
2HG9
2HGA
K1K3K7
VDDQ
VSSQ
J2
E2
E8
H7
G2
G8
M2
VREF
K8
0
K2
1
L7
2
L3
3
L1
4
L9
5
J1
6
J9
7
F8
DQ
8
F2
9
G7
10
G3
11
G1
12
G9
13
E1
14
E9
15
E7
U
D8
U
DQS
J7
L
H8
L
A1
A2
A8
A9
D2
H2
NC
V8
AA1
AA2
AA8
AA9
J8
L8
L2
2HGB
3HGR
3HGT
3HGV
3HGY
3HH0
3HH2
3HH4
3HH6
3HH8
3HHA
DQ
DQ
100n
2HGC
33R
33R
V30
0
AD28
1
AB28
2
AB30
3
AD29
4
V29
5
AD27
6
V28
7
W30
8
AC30
9
AA30
10
AC28
11
AD30
12
W28
13
AC29
14
Y30
15
E30
16
L28
17
J29
18
J28
19
L29
20
E29
21
L27
22
E28
23
F30
24
K30
25
H30
26
K28
27
L30
28
F29
29
J30
30
F28
31
100n
100n
2HHA
100n
100n
33R
33R
33R
33R
33R
33R
33R
2HGD
2HGE
3HGP
3HGW33R
2HGF
DDR2-VREF-DDR
33R
3HGS
33R
3HGU
33R
33R
3HGZ
33R
3HH1
33R
3HH3
33R
3HH5
33R
3HH7
33R
3HH9
33R
100n
2HGG
DDR2-D0
DDR2-D1
DDR2-D3
DDR2-D2
DDR2-D6
DDR2-D5
DDR2-D4
DDR2-D7
DDR2-D8
DDR2-D9
DDR2-D10
DDR2-D11
DDR2-D12
DDR2-D13
DDR2-D14
DDR2-D15
DDR2-D16
DDR2-D17
DDR2-D19
DDR2-D18
DDR2-D22
DDR2-D23
DDR2-D20
DDR2-D21
DDR2-D24
DDR2-D30
DDR2-D26
DDR2-D25
DDR2-D28
DDR2-D31
DDR2-D27
DDR2-D29
22u
DDR2-D0
DDR2-D1
DDR2-D2
DDR2-D3
DDR2-D4
DDR2-D5
DDR2-D6
DDR2-D7
DDR2-D8
DDR2-D9
DDR2-D10
DDR2-D11
DDR2-D12
DDR2-D13
DDR2-D14
DDR2-D15
DDR2-DQS1_P
DDR2-DQS1_N
DDR2-DQS0_P
DDR2-DQS0_N
2HGH
DDR2-A0
DDR2-A1
DDR2-A2
DDR2-A3
DDR2-A4
DDR2-A5
DDR2-A6
DDR2-A7
DDR2-A8
DDR2-A9
DDR2-A10
DDR2-A11
DDR2-A12
DDR2-BA0
DDR2-BA1
DDR2-CLK_P
DDR2-CLK_N
DDR2-CS
DDR2-CKE
DDR2-RAS
DDR2-CAS
DDR2-WE
DDR2-ODT
DDR2-DQM3
DDR2-DQM2
100n
2HGJ
RESERVED
+1V8
100n
100n
100n
2HGK
2HGM
DDR2-VREF-CTRL
2HHS
2HHC
100n
2HGP
2HGN
3HKN
1u0
100n
2HHR
22u
100n
2HHD
100n
100n
2HGS
2HGR
MT47H32M16BT-37E
100n
IHG1
NCP5208
2HGT
R8
R3
R7
T2
T8
T3
T7
U2
U8
U3
R2
U7
V2
P2
P3
P1
M8
N8
P8
N2
N7
P7
N3
N9
E3
J3
V3
V7
7HG2
6
7
7HG1
100n
+1V8
3HJ1
3HJ2
AVIN
PVIN
0
1
2
3
4
5
6
7
8
9
10
11
12
0
1
2
CK
CK
CS
CKE
RAS
CAS
WE
ODT
U
L
RFU
BA
6.3V330u
560R
2HGX
560R
5
2
D1H1M9R9V1M1D9
VDDL
VDD
8MX16X4
A
DM
VSS
VSSDL
T1
U9M7D7
D3
H3
M3
DDR2-VREF-DDR
_SD
_POK
VTT
VFB
+1V8
6.3V330u
2HHN
F1F3F7F9H9K1K3
Φ
DDR2
SDRAM
E2
E8
2HHP
+1V8
3HHL
4
1
8
3
2HHE
1u0
K7
VDDQ
DQ
DQS
VSSQ
J2
J8
L2
H7
G2
G8
9 101112
+1V8
3HJ3
560R
IHG2
3HJ4
560R
10K
22u
K9
VREF
L8
FHG0
100n
100n
100n
2HHF
2HGU
M2
K8
0
K2
1
2
3
4
5
6
7
8
9
G7
10
G3
11
G1
12
G9
13
E1
14
E9
15
E7
U
D8
U
L
H8
L
A1
A2
A8
A9
D2
H2
NC
V8
AA1
AA2
AA8
AA9
2HHG
L7
L3
L1
L9
J1
J9
F8
F2
J7
100n
2HGV
2HHH
100n
2HHJ
2HGW
3HHC
3HHE
3HHG
3HHJ
3HHM
3HHP
3HHS
3HHU
3HHW
3HHZ
100n
100n
2HGY
33R
33R
2HH3
100n
100n
33R
33R
33R
33R
33R
33R
33R
33R
2HGZ
VTT-TERM-DDR
100n
100n
2HH1
2HH0
DDR2-VREF-DDR
3HHB
33R
3HHD
33R
3HHF
33R
3HHH
33R
3HHK
33R
3HHN
33R
3HHR
33R
3HHT
33R
3HHV
33R
3HHY
33R
100n
2HH2
13 14
22u
DDR2-D16
DDR2-D17
DDR2-D18
DDR2-D19
DDR2-D20
DDR2-D21
DDR2-D22
DDR2-D23
DDR2-D24
DDR2-D25
DDR2-D26
DDR2-D27
DDR2-D28
DDR2-D29
DDR2-D30
DDR2-D31
DDR2-DQS3_P
DDR2-DQS3_N
DDR2-DQS2_P
DDR2-DQS2_N
H_16800_044.eps
250407
A
B
C
D
E
F
G
H
I
2HG0 E3
2HG1 E3
2HG2 E3
2HG3 E3
2HG4 E3
2HG5 E4
2HG6 E4
2HG7 E4
2HG8 E4
2HG9 E6
2HGA E7
2HGB E7
2HGC E7
2HGD E7
2HGE E7
2HGF E8
2HGG E8
2HGH E9
2HGJ E9
2HGK E9
2HGM E9
2HGN E10
2HGP E10
2HGR E10
2HGS E10
2HGT E10
2HGU E12
2HGV E13
2HGW E13
2HGX A11
2HGY E13
2HGZ E13
2HH0 E13
2HH1 E14
2HH2 E14
2HH3 F13
2HH4 A4
2HH5 A5
2HHA F7
2HHC D10
2HHD D10
2HHE D12
2HHF D12
2HHG D12
2HHH D13
2HHJ D13
2HHK E6
2HHM E6
2HHN E11
2HHP E12
2HHR C10
2HHS C10
3HG1 D4
3HG2 D5
3HG3 D4
3HG4 D5
3HG5 C4
3HG6 C5
3HG7 C4
3HG8 C5
3HG9 C4
3HGA C5
3HGB C4
3HGC C5
3HGD C4
3HGE C4
3HGF C4
3HGG C5
3HGH B4
3HGJ B5
3HGK B4
3HGM B5
3HGN B4
3HGP F7
3HGR F7
3HGS F8
3HGT F7
3HGU F8
3HGV F7
3HGW F8
3HGY G7
3HGZ G8
3HH0 G7
3HH1 G8
3HH2 G7
3HH3 G8
3HH4 G7
3HH5 G8
3HH6 G7
3HH7 G8
3HH8 G7
3HH9 G8
3HHA G7
3HHB F13
3HHC F13
3HHD F14
3HHE F13
3HHF F14
3HHG F13
3HHH F14
3HHJ G13
3HHK G14
3HHL C12
3HHM G13
3HHN G14
3HHP G13
3HHR G14
3HHS G13
3HHT G14
3HHU G13
3HHV G14
3HHW G13
3HHY G14
3HHZ G13
3HJ0 C1
3HJ1 A11
3HJ2 B11
3HJ3 A12
3HJ4 B12
3HJ5 A4
3HJ6 A1
3HJ7 A1
3HJ8 A1
3HJ9 A1
3HJA A1
3HJB A1
3HJC A1
3HJD A1
3HJE A1
3HJF A1
3HJG A1
3HJH B1
3HJJ B1
3HJK B1
3HJM B1
3HJN B1
3HJP B1
3HJR B1
3HJS B1
3HJT B1
3HJU C1
3HJV B4
3HJW B5
3HJY A4
3HJZ B1
3HKM G4
3HKN G10
3HKR C1
3HKS C1
3HKT C1
3HKV D1
7H00-2 A6
7HG0 F5
7HG1 F11
7HG2 C11
FHG0 D13
IHG0 A4
IHG1 A10
IHG2 A12
Circuit Diagrams and PWB Layouts
PNX 8535: Digital Video In
73Q528.1E LA 7.
123
PNX 8535: DIGITAL VIDEO IN
B04H B04H
A
IHSM
7H00-3
PNX8535
B8
B9
A7
A8
B6
B7
A9
A10
C10
C9
E10
C7
P
RX_0
N
P
RX_1
N
P
RX_2
N
P
RX_C
N
CEC
SCL
SDA
RREF
DDC
HDMI
HOT_PLUG
D10
HOT-PLUG
B
C
RREF-PNX8535
RX2RX2+
RX1RX1+
RX0RX0+
RXCRXC+
CEC-HDMI
DDC-SCL
DDC-SDA
9HK0
3HK0
12K
Personal Notes:
3HK0 C2
7H00-3 B2
9HK0 C2
IHSM C2
A
B
C
D
E
3104 313 6194.3
1
H_16800_045.eps
23
250407
D
E
E_06532_012.eps
131004
Circuit Diagrams and PWB Layouts
G
A
74Q528.1E LA 7.
PNX 8535: Audio
12345678
B04I B04I
PNX 8535: AUDIO
ADAC(7)
IHMW
3HMG
5K6
B
AUDIO-VDD
2
BC857BW
2K2
IHNJ
IHNK
100n
22K
100n
22K
2
5
3HMY
IHN8
6
7HM2-1
BC847BS
1
AUDIO-VDD
3HMW
IHNF
3
7HM2-2
BC847BS
4
2K2
IHNH
IHNG
3HMA
3HMB
3HML
2K2
470R
3HMU
2K2
470R
C
IHN0
2HM3
2HM8
3HMZ
22K
9HM1
3HMV
22K
9HM2
4MH25MH2
CMH3DMH3
IHN4
3n3
3n3
ADAC(1)
VP
5HM0
220R
IHM6
D
VN
5HM1
220R
IHM9
2HMG
2HMH
AUDIO-VDD
1u0
AUDIO-VEE
1u0
ADAC(2)
E
F
7HM3
1
3
IHM1
+AUDIO-L
IHN3
IHNB
2HN1
3HMK
5K6
3HMP
5K6
3n3
ADAC(8)
2
BC857BW
7HM4
1
3
IHMG
-AUDIO-R
ADAC(5)
9101112
AUDIO-VDD
2HMJ
IHMY
100n
IHN6
IHNA
3
2
5
6
10
9
4
11
IHMZ
AUDIO-VEE
3HMF
2HMP
AUDIO-VDD
4
11
AUDIO-VEE
3HMJ
2HMT
AUDIO-VDD
4
11
AUDIO-VEE
3HMN
2HMW
10K
10K
10K
33p
33p
33p
7HM1-1
LM324
2HMN
100n
7HM1-2
LM324
7HM1-3
LM324
1
7
8
FHM0
FHM1
FHM2
AUDIO-CL-L
AUDIO-CL-R
AUDIO-OUT-L
IHMA
IHMV
3HME
10K
IHMB
3HMH
10K
IHMC
3HMM
10K
A
B
C
D
E
F
G
2HM3 D4
2HM4 D4
2HM5 E4
2HM8 E4
2HMG D2
2HMH D2
2HMJ A10
2HMN B10
2HMP C9
2HMT E9
2HMW G9
2HMY H8
2HMZ I9
2HN1 F8
3HMA D5
3HMB E5
3HMC D4
3HMD E4
3HME B9
3HMF B9
3HMG B9
3HMH E9
3HMJ E9
3HMK D9
3HML D6
3HMM G9
3HMN G9
3HMP F9
3HMR I9
3HMS I9
3HMT H9
3HMU E6
3HMV E4
3HMW D5
3HMY C5
3HMZ C4
5HM0 C2
5HM1 D2
7HM1-1 B9
7HM1-2 D9
7HM1-3 F9
7HM1-4 H9
7HM2-1 C5
7HM2-2 E5
7HM3 C6
7HM4 D6
9HM1 D4
9HM2 E4
FHM0 B11
FHM1 D11
FHM2 F11
FHM3 H11
IHM1 C6
IHM6 D1
IHM9 D1
IHMA B9
IHMB D9
IHMC F9
IHMG E6
IHMV B9
IHMW B8
IHMY A9
IHMZ B9
IHN0 C5
IHN3 D8
IHN4 E5
IHN6 D9
IHN8 C5
IHN9 H9
IHNA F9
IHNB F8
IHND H8
IHNE H9
IHNF D5
IHNG C5
IHNH E5
IHNJ D5
IHNK E5
H
I
3104 313 6194.3
ADAC(6)
IHND
2HMY
IHN9
3HMT
5K6
3n3
3HMR
10K
12345678
AUDIO-VDD
4
7HM1-4
IHNE
12
13
11
AUDIO-VEE
3HMS
10K
2HMZ
33p
LM324
14
FHM3
AUDIO-OUT-R
H_16800_046.eps
250407
9101112
H
I
Circuit Diagrams and PWB Layouts
75Q528.1E LA 7.
PNX 8535: Analogue AV
12345
B04K B04K
PNX 8535: ANALOGUE AV
A
B
7H00-9
PNX8535
VIDEO ANALOGUE
2HA2
R5
C
D
E
F
G
VSYNC_OUT SPARE10
ADC1
CVBS1_Y1_YC1
CVBS2_Y2_YC2
ADC2
CVBS3_Y3_YC3
ADC2
ADC3
ADC4
ADC4
CVBS1_Y
DAC1
DAC2
CVBS2_C
HSYNC_IN
VSYNC_IN
3V3_VIDEO_DAC
VDAC_BIAS
3V3_TEST_DAC
3V3_VIDEO_REF
Y1_G1
Y2_G2
Y3_G3
Y4_G4
REF1
SPARE20
CVBS4
REF2
SPARE30
Pr1_R1
Pr2_R2
Pr3_R3
Pr4_R4
REF3
SPARE40
Pb1_B1
Pb2_B2
Pb3_B3
Pb4_B4
REF4
IF_N
SPARE52
SPARE53
FM_P
FM_N
SPARE60
C1|YC1
C2|YC2
C3|YC3
REF6
AGC
IF_P
F1
F2
G1
G2
G3
G4
H1
H2
J1
J2
J3
J4
K1
K2
K3
K4
L1
L2
P4
P5
R1
R2
R3
R4
M1
M2
M3
M4
M5
N1
N2
N3
C4
N4
P1
P2
P3
A3
P
B3
N
A2
P
B2
N
F3
T4
A1
D4
C3
L4
K5
IHSA
IHSC
2HT6
2HSY
IHSH
IHSB
IHSE
IHSD
2HTH
2HT5
IHV3
IHSG
22n
22n
2HA3
22n
2HT7
2HA4
22n
22n
2HA5
22n
22n
2HTK
IHV6
2HST
IHVE
2HSW
22n
3HS6
75R
3HS7
75R
IHS9
3HS5
4K7
3HT9
4K7
22n
2HUN
100n
2HUP
2HSV
2HT2
2HT0
RES
100n
22n
2HT4
2HT1
22n
22n
22n
5HR7
30R
10u 16V
5HR6
30R
10u 16V
22n
22n
22n
2HUK
270p
2HKL
270p
FHR4
FHR3
2HSZ
H
I
6 7 8 9 10 11
5HRC
+3V3-PER
+3V3-PER
2HRZ
2HSB
2HSJ
2HS1
2HS7
FHR0
22n
47R
100p
3HSJ
2HTP
IHR0
22n
47R
100p
2HS2
3HRP
FHR1
22n
47R
100p
2HS8
3HRV
IHRD
22n
47R
330p
3HSQ
2HTW
IHR5
22n
47R
100p
3HS2
2HSK
2HSN
22n
3HSU
2HT8
IHR6
22n
220R
3HS8
2HU5
22n
2HT3
9HR1
330n
5HR0
330n
5HR2
330n
5HRJ
1u0
5HR5
330n
2HT9
9HR0
IHRE
47R
3HSZ
IHS3
2HTZ
150p
22n
2HTR
2HS3
2HS9
2HTY
2HSM
5HR8
2u2
IHS4
47R
100p
2HU6
100p
100p
100p
330p
100p
5HRL
330n
3HSH
27R
3HRR
27R
3HRU
27R
5HRK
100n
3HS1
27R
2HTA
100p
2HSU
IHS2
5HRS
330n
FHR5
2HU0
5HRM
82p
12p
470n
3HS3
390R
3HS4
390R
100p
2HU7
3HSF
FHR6
3HSP
27R
100p
2HSP
2HTB
22n
3HT0
27R
75R
2HU8
22n
2HSR
100n
2HSS
100n
3HSG
47R
IHRA
22n
3HSA
2HS0
2HSA
3HSR
27R
FHR2
3HT1
2HTL
2HSF
22n
IHRF
47R
3HT5
22n
2HS4
22n
2HSC
22n
2HTC
IHS5
47R
10p
2HU9
47R
3HSL
3HRT
22n
3HSN
3HRY
IHR4
3HS0
3HSV
5HR9
330n
100p
100p
2HUE
2HTM
100p
5HRB
1u0
IHRC
220R
5HRT
330n
100p
47R
IHRB
47R
IHR1
47R
47R
47R
2HSG
2HU1
5HRV
330n
2HS5
IHR3
2HSD
2HTD
2HTN
2HTS
2HTU
5HRE
5HRF
1u0
100n
100p
5HR1
1u0
5HRG
330n
5HR3
330n
3HSB
27R
100p
3HT2
27R
100p
2HSH
2HU2
2HTT
2HS6
2HTV
2HSE
3HSW
330p
82p
2HTE
22n
2HUB
22n
3HT6
27R
330p
330p
100p
100p
5HRP
470n
75R
5HRD
100n
5HRH
100n
3HSD
3HT3
3HSY
120R
IHR8
IHS6
47R
2HTF
47R
2HUC
330p
330p
100p
100p
5HR4
1u0
330p
5HRN
2u2
150p
2HUA
2HUF
IHR9
330p
3104 313 6194.3
1234
56
78910
11 12
12 13
3HSK
27R
3HRS
27R
3HSM
27R
3HRW
27R
3HRZ
27R
3HST
100R
3HS9
100R
330n
1u0
12p
RES
5HRR
2u2
2HTG
2HUD
330p
3HSE
27R
100p
5HRW
100n
2HU4
5HRA
100p
5HRU
330p
2HU3
IHRG
27p
3HT4
27R
AV1_PR
AV1_PB
AV1_Y-CVBS
AV3_PR
AV3_PB
AV2_Y-CVBS
FRONT_C
FRONT_Y-CVBS
G-VGA
AV4_PB
CVBS4
AV4_PR
Y-CVBS-MON-OUT
C-MON-OUT
H-SYNC-VGA
V-SYNC-VGA
13
AV1_C
AV1_Y
AV2_C
AV3_Y
R-VGA
B-VGA
AV4_Y
IF-N
IF-P
H_16800_048.eps
250407
A
B
C
D
E
F
G
H
I
2HA2 C4
2HA3 C4
2HA4 D4
2HA5 D4
2HKL F4
2HRZ A8
2HS0 A10
2HS1 A8
2HS2 B8
2HS3 B9
2HS4 B10
2HS5 B10
2HS6 B11
2HS7 B8
2HS8 B8
2HS9 B9
2HSA B10
2HSB C8
2HSC C10
2HSD C10
2HSE C11
2HSF C10
2HSG D10
2HSH D11
2HSJ C8
2HSK D8
2HSM D9
2HSN D9
2HSP D10
2HSR G10
2HSS H10
2HST E4
2HSU H9
2HSV E5
2HSW E4
2HSY F4
2HSZ G5
2HT0 G5
2HT1 G5
2HT2 G5
2HT3 G9
2HT4 G5
2HT5 D4
2HT6 E4
2HT7 D4
2HT8 E8
2HT9 E9
2HTA E9
2HTB E10
2HTC E10
2HTD E10
2HTE E11
2HTF E11
2HTG E12
2HTH C4
2HTK E4
2HTL I10
2HTM H10
2HTN I10
2HTP A9
2HTR A9
2HTS A11
2HTT A11
2HTU B11
2HTV B11
2HTW C9
2HTY C9
2HTZ D9
2HU0 D9
2HU1 D10
2HU2 D11
2HU3 I12
2HU4 I12
2HU5 E9
2HU6 F9
2HU7 F9
2HU8 F10
2HU9 F10
2HUA F11
2HUB F11
2HUC G11
2HUD G12
2HUE G10
2HUF G11
2HUK F4
2HUN E5
2HUP E5
3HRP B8
3HRR B9
3HRS B12
3HRT B10
3HRU B9
3HRV B8
3HRW C12
3HRY C10
3HRZ D12
3HS0 D10
3HS1 C9
3HS2 D8
3HS3 G9
3HS4 H9
3HS5 G4
3HS6 F4
3HS7 F4
3HS8 E8
3HS9 E12
3HSA E10
3HSB E11
3HSD E11
3HSE E12
3HSF I10
3HSG H10
3HSH A9
3HSJ A8
3HSK A12
3HSL A10
3HSM B12
3HSN B10
3HSP C10
3HSQ C8
3HSR D10
3HST D12
3HSU D9
3HSV D10
3HSW I11
3HSY I11
3HSZ F9
3HT0 F10
3HT1 F10
3HT2 F11
3HT3 G11
3HT4 F13
3HT5 G10
3HT6 G11
3HT9 G4
5HR0 A9
5HR1 B11
5HR2 B9
5HR3 C11
5HR4 C11
5HR5 C9
5HR6 G5
5HR7 G5
5HR8 E9
5HR9 E10
5HRA E12
5HRB H10
5HRC A9
5HRD B11
5HRE A11
5HRF A11
5HRG B11
5HRH C11
5HRJ C9
5HRK C9
5HRL D9
5HRM E9
5HRN D11
5HRP D11
5HRR H12
5HRS E9
5HRT F10
5HRU F12
5HRV G11
5HRW F12
7H00-9 C2
9HR0 I9
9HR1 I8
FHR0 A9
FHR1 B9
FHR2 E10
FHR3 G4
FHR4 G5
FHR5 I9
FHR6 I10
IHR0 A9
IHR1 B11
IHR3 C11
IHR4 C10
IHR5 C9
IHR6 E9
IHR8 E11
IHR9 H11
IHRA G10
IHRB A11
IHRC B10
IHRD C8
IHRE D9
IHRF D10
IHRG H12
IHS2 H9
IHS3 H9
IHS4 E9
IHS5 F10
IHS6 F11
IHS9 F4
IHSA C4
IHSB F4
IHSC D4
IHSD E4
IHSE F4
IHSG G4
IHSH F4
IHV3 E4
IHV6 E4
IHVE E4
Circuit Diagrams and PWB Layouts
76Q528.1E LA 7.
PNX 8535: Audio
1
2
345
6
7
8 9 10 11
PNX 8535: AUDIO
B04L B04L
A
B
33p
2HRE
2HRY
12K
12K
2HR8
1u0
RES
RES
IHSV
10u
2HR4
2HRA
33p
4
RES
RES
IHRM
3HRK
2HR0
33p
2HR6
33p
2HRD
2HRF
75R
1u0
33p
2HR2
33p
2HR9
2HRB
1u0
3HRM
1u0
IHRL
4K7
2HR5
2HR7
1u0
1u0
SPDIF-IN1
3HRN
2HR1
2HR3
1u0
1u0
4K7
1u0
IHSU
7H00-1
PNX8535
AK6
AJ6
AG5
AF5
AJ5
AH5
AH4
AK5
AK4
AJ4
AG6
AF6
AH8
AH7
AJ7
AK7
AH6
L5
L3
M6
AK15
AUDIO
R
AIN1
L
R
AIN2
L
R
AIN3
L
R
AIN4
L
R
AIN5
L
R
AADC
L
VREF
POS
NEG
POS
AADC1_VR
NEG
VCOM_ADC1
AOUT1
RES_REF
GND1
SPDIF_IN
VSSA_AUDIO_DAC1
3V3A_AUDIO_DAC1
DAC_CAP
SPDIF_OUT
ADAC1
ADAC2
ADAC3
ADAC4
ADAC5
ADAC6
ADAC
OSCLK
SD
SCK
WS
AG12
P
AK13
N
AH12
P
AJ12
N
AK11
P
AJ11
N
AF10
P
AG10
N
AG9
P
AK10
N
AH9
P
AJ9
N
AE10
AF11
AG7
R
AG8
L
AJ13
1
AK12
2
AH11
3
AH10
4
AJ10
5
AK9
6
AK8
7
AJ8
8
AJ15
AF14
AJ14
AK14
AH14
1
AG14
2
33R
3HP6
33R
3HP4
33R
3HP2
33R
3HP0
RES
2HP8
68R
67
33R
RES
3HT7
3HPN
100n
IHSW
2HP7
IHPD
33R
3HP3
33R
33R
100n
33R
3HP7
3HP5
33R
3HP1
2HP6
3HT8
100n
2HP5
ADAC(1)
ADAC(2)
5HP2
30R
100n
ADAC(8)
ADAC(7)
ADAC(3)
ADAC(4)
ADAC(5)
ADAC(6)
ADAC(7)
ADAC(8)
SPDIF-OUT
VDDA-AUDIO
FHPE
2HP4
ADAC(8)
ADAC(7)
10u
2HPB
LD2985BM33R
5
OUT IN
4
10n
2HRS
985
7HP0
COM
3n3
IHSX
IHSY
3HAH
22K
5HP1
30R
10u
2HPA
3HAG
22K
+5VS
+3V3
1
3
INHBP
2
3n3
2HRT
10 11
C
D
E
F
G
H
3104 313 6194.3
1
AUDIO-IN1-R
AUDIO-IN1-L
AUDIO-IN2-R
AUDIO-IN2-L
AUDIO-IN3-R
AUDIO-IN3-L
AUDIO-IN4-R
AUDIO-IN4-L
AUDIO-IN5-R
AUDIO-IN5-L
VDDA-AUDIO
2
3HRE
22K
3HRJ
22K
3HRG
22K
5HRZ
30R
3HRH
IHRT
IHRU
2HRM
100n
3HRA
3HRC
22K
3HRF
2HRN
3HR6
3HR8
3
22K
22K
12K
12K
100n
3HSC
3HR4
22K
22K
IHRW
3HRD
IHRV
2HRU
3HR1
22K
22K
3HR5
IHRZ
3HR9
IHRY
3HRB
2HRJ
RES
33p
2HRG
RES 33p
100n
2HRV
IHS1
IHS0
3HR7
12K
12K
3HR2
100n
IHRJ
IHRH
3HR3
IHRK
3HR0
12K
12K
2HRC
RES
RES 33p
2HRK
2HRH
2HRP
2HRW
12K
12K
RES 33p
RES
1u0
10u
100n
H_16800_049.eps
250407
A
B
C
D
E
F
G
H
2HP4 E9
2HP5 E8
2HP6 E8
2HP7 E8
2HP8 E7
2HPA E10
2HPB E9
2HR0 C4
2HR1 C5
2HR2 C4
2HR3 C5
2HR4 C4
2HR5 C4
2HR6 D4
2HR7 D4
2HR8 D4
2HR9 D4
2HRA D4
2HRB D4
2HRC D4
2HRD D4
2HRE E4
2HRF E4
2HRG E3
2HRH E4
2HRJ E3
2HRK E4
2HRM F3
2HRN F3
2HRP F4
2HRS F9
2HRT F9
2HRU F3
2HRV F3
2HRW G4
2HRY G4
3HAG E10
3HAH E9
3HP0 F7
3HP1 F8
3HP2 F7
3HP3 F8
3HP4 F7
3HP5 F8
3HP6 F7
3HP7 F8
3HPN F8
3HR0 C4
3HR1 C3
3HR2 C4
3HR3 C4
3HR4 C3
3HR5 D3
3HR6 D3
3HR7 D3
3HR8 D3
3HR9 D3
3HRA D3
3HRB D3
3HRC D3
3HRD E3
3HRE E2
3HRF E3
3HRG E2
3HRH E3
3HRJ E2
3HRK G4
3HRM G4
3HRN G4
3HSC C3
3HT7 F8
3HT8 F8
5HP1 D10
5HP2 D8
5HRZ E3
7H00-1 D6
7HP0 D9
FHPE D9
IHPD F8
IHRH C4
IHRJ C4
IHRK F4
IHRL F4
IHRM F4
IHRT E3
IHRU E3
IHRV E3
IHRW D3
IHRY D3
IHRZ D3
IHS0 D3
IHS1 C3
IHSU E5
IHSV E4
IHSW D8
IHSX D10
IHSY E9
Circuit Diagrams and PWB Layouts
77Q528.1E LA 7.
PNX 8535: Audio
123456789
PNX 8535: AUDIO
B04M B04M
A
+3V3
30R
5HV0
B
C
D
E
ADAC(3)
ADAC(4)
2HV6
A-PLOP-HDPH
3n3
IHWA
10u
100n
2HVB
2HVC
7HV0-1
TPA4411RTJ
2HVD
2HVE
1u0
3n3
2HVA
1u0
2HV9
IHWE
10u
IHWL
IHVC
IHVD
13
15
1
3
14
18
10
SVDD
HEADPHONE
L
DRIVER
IN
R
P
C1
N
SDR
SDL
VSS
S
P
5
7
IHV0
10u
2HV3
7HV0-2
TPA4411RTJ
22
23
GND
SP
VIA
Φ
17
HEATSINK
2
VIA
19
PVDD
DNC
21
VIA
OUT
NC
IHWJ
9
L
IHV1
11
R
4
6
8
12
16
20
9HV1
24
25
3HVP
33R
3HVN
33R
3HVS
33R
3HVR
33R
FHV2
FHV1
2HV2
2HV4
1n0
1n0
AUDIO-HDPH-L-AP
AUDIO-HDPH-R-AP
AUDIO-RESET
FHV3
3HVW
22K
IHVB
3HVX
22K
3HV4
6
7HVA-1
BC847BPN
1
+3V3
3HVY
3
7HV1
BC847BW
2
3HV7
IHVA
22K
+3V3-STANDBY
47K
47K
RES
3HVZ
IHV7
3HVT
IHW7
IHW8
3HV3
22K
1n0
2HVG
3HV8
22K
IHV9
2
1
12K
IHV5
22K
5
FHV4
+5VS
4
BC847BPN
7HVA-2
3
100n
2HV7
A-PLOP
A-PLOP-HDPH
A
B
C
D
E
2HV2 C4
2HV3 D2
2HV4 C4
2HV6 C1
2HV7 B8
2HV9 C2
2HVA C1
2HVB B3
2HVC B3
2HVD C2
2HVE C1
2HVG D6
3HV3 D7
3HV4 B8
3HV7 C8
3HV8 E7
3HVN C4
3HVP B4
3HVR C4
3HVS C4
3HVT E8
3HVW D6
3HVX D6
3HVY D7
3HVZ D8
5HV0 B3
7HV0-1 B2
7HV0-2 E3
7HV1 E8
7HVA-1 D8
7HVA-2 C8
9HV1 D3
FHV1 C4
FHV2 B4
FHV3 C6
FHV4 E8
IHV0 D2
IHV1 C4
IHV5 B8
IHV7 E8
IHV9 E7
IHVA C8
IHVB C6
IHVC C2
IHVD C2
IHW7 C7
IHW8 C7
IHWA B2
IHWE C2
IHWJ C4
IHWL C2
3104 313 6194.3
123456789
H_16800_050.eps
250407
Circuit Diagrams and PWB Layouts
PNX 8535: Video Streams
78Q528.1E LA 7.
12 678
345
PNX 8535: VIDEO STREAMS
B04N B04N
A
7H00-10
B
C
D
+3V3-PER
3HWK
4K7
IHW0
FE-ERR
CA-MDO0
CA-MDO1
CA-MDO2
CA-MDO3
CA-MDO4
CA-MDO5
CA-MDO6
CA-MDO7
CA-MOVAL
CA-MOSTRT
CA-MOCLK_VS2
CA-VS1
CA-CD1
CA-CD2
FE-VALID
FE-SOP
FE-CLK
FE-ERR
FE-DATA0
FE-DATA1
FE-DATA2
FE-DATA 3
FE-DATA4
FE-DATA 5
FE-DATA6
FE-DATA7
PNX8535
C25
D23
C23
C29
C30
D30
A28
A29
A24
D25
C24
A30
D29
B23
E5
A4
B4
C6
D6
E6
A5
B5
D5
C4
C5
A6
VIDEO STREAMS
0
1
2
3
CA_MDO
4
5
6
7
MOVAL
MOSTRT
VS2_MOCLK_CI
VS1
1
CD
2
0
1
2
3
FEDA TA TNR_TSDI
4
5
6
7
FEVAL
FESOP
FECLK
FEERR
CA_MDI
MIVAL
MISTRT
MICLK
RST
DATA_DIR
DATA_EN
OOB_EN
ADD_EN
VCCEN
VPPEN
33R
33R
3HWZ
33R
3HWW
33R
3HWU
33R
3HWS
33R
CA-RST
CA-DATADIR
CA-DATAEN
CA-OOBEN
CA-ADDEN
CA-VCCEN
CA-VPPEN
CA-MDI0
CA-MDI1
CA-MDI2
CA-MDI3
CA-MDI4
CA-MDI5
CA-MDI6
CA-MDI7
CA-MIVAL
CA-MISTRT
CA-MICLK
A26
0
C27
1
B27
2
A27
3
A25
4
D26
5
C26
6
B26
7
B25
B30
B28
B24
D22
A22
C22
B22
A23
D24
3HWY
33R
3HWV
33R
3HWT
33R
3HWR
33R
3HWN
33R
3HWM
3HWP
9
A
B
C
D
3HWK D2
3HWM C7
3HWN C7
3HWP C7
3HWR C7
3HWS C7
3HWT C7
3HWU C7
3HWV B7
3HWW B7
3HWY B7
3HWZ B7
7H00-10 B5
9HW0 D2
IHW0 D2
E
F
3104 313 6194.3
1
2
9HW0
5
E
F
H_16800_051.eps
84367
9
250407
PNX 8535: Digital Video
Circuit Diagrams and PWB Layouts
79Q528.1E LA 7.
A
B
C
D
12
3
45
67
PNX8535: DIGITAL VIDEO OUT / LVDS
B04O B04O
7H00-8
PNX8535
VID_OUT_TTL
9HW5
9HW4
9HW3
9HWZ
9HWY
9HWW
9HWV
9HWU
9HWT
9HWS
9HWR
9HWP
9HWN
9HWM
9HWK
9HWJ
9HWH
9HWG
9HWF
9HWE
9HWD
9HWC
9HWB
9HWA
9HW6
9HW7
9HW8
9HW9
DV-R0_Y2
DV-R1_Y3
DV-R2_Y4
DV-R3_Y5
DV-R4_Y6
DV-R5_Y7
DV-R6_Y8
DV-R7_Y9
DV-G0_UV2
DV-G1_UV3
DV-G2_UV4
DV-G3_UV5
DV-G4_UV6
DV-G5_UV7
DV-G6_UV8
DV-G7_UV9
DV-B0_UART2-RX
DV-B1_UART2-TX
DV-B2_DEBUG-BREAK
DV-B3_AUDIO-MUTE
DV-B4_UV0
DV-B5_UV1
DV-B6_Y0
DV-B7_Y1
DV-CLK
DV-VS
DV-HS
DV-FF_DE
LVDS
7H00-7
PNX8535
IREF
CLK
A
B
C
D
E
1F00
*
1
RES
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
3233
+12V-DISP
IHPG
AG21
AK23
P
AJ23
N
AK21
P
AJ21
N
AK22
P
AJ22
N
AH22
P
AG22
N
AH23
P
AG23
N
AK24
P
AJ24
N
3HP9
12K
VDDA-LVDS
Tx8535oCLK+
Tx8535oCLK-
Tx8535oA+
Tx8535oA-
Tx8535oB+
Tx8535oB-
Tx8535oC+
Tx8535oC-
Tx8535oD+
Tx8535oD-
Tx8535oE+
Tx8535oE-
9HP9
Tx8535oATx8535oA+
Tx8535oBTx8535oB+
Tx8535oCTx8535oC+
Tx8535oCLKTx8535oCLK+
Tx8535oDTx8535oD+
Tx8535oETx8535oE+
IHP5
IHP6
IHP7
IHP8
IHP9
IHPA
IHPB
FI-WE31P-HFE-E1500
R_OUT
G_OUT
B_OUT
R0_Y2
R1_Y3
R2_Y4
R3_Y5
R4_Y6
R5_Y7
R6_Y8
R7_Y9
G0_UV2
G1_UV3
G2_UV4
G3_UV5
G4_UV6
G5_UV7
G6_UV8
G7_UV9
B0_UART
B1_UART
B2_GPIO
B3_GPIO
B4_UV0
B5_UV1
B6_Y0
B7_Y1
CLK
VSYNC
HSYNC
AUX2
AJ19
AH19
AG19
AF19
AK20
AJ20
AH20
AG20
AG17
AF17
AK18
AJ18
AH18
AG18
AF18
AK19
AF15
AK16
AJ16
AH16
AG16
AF16
AJ17
AH17
AK17
AH15
AG15
AF20
1F00 B7
3HP9 C5
7H00-7 B4
7H00-8 A1
9HP9 B6
9HW3 B2
9HW4 B2
9HW5 B2
9HW6 D2
A
9HW7 D2
9HW8 D2
9HW9 D2
9HWA C2
9HWB C2
9HWC C2
9HWD C2
9HWE C2
9HWF C2
9HWG C2
9HWH C2
9HWJ C2
B
9HWK C2
9HWM C2
9HWN C2
9HWP B2
9HWR B2
9HWS B2
9HWT B2
9HWU B2
9HWV B2
9HWW B2
9HWY B2
9HWZ B2
C
IHP5 B7
IHP6 B7
IHP7 B7
IHP8 B7
IHP9 B7
IHPA D7
IHPB D7
IHPG C5
D
LVDS CONNECTOR
FOR
FACTORY
USE
E E
3104 313 6194.3
1
2 4567
3
ONLY
H_16800_052.eps
250407
Circuit Diagrams and PWB Layouts
80Q528.1E LA 7.
PNX 8535: Power
12345678910111213
B04P B04P
A
B
C
D
E
F
G
H
I
+3V3
3104 313 6194.3
PNX 8535: POWER
7H00-11
PNX8535
VDDA-ADC
100n
VDDA-DAC
2HYB
IHY6
AE7
AE6
AF7
AF8
J5
IHY4
J6
K6
AB27
J26
IHY5
IHY7
IHY8
100n
IHSP
P18
R18
T18
U18
G26
W27
F27
D7
C8
E7
F7
E8
AG24
AH24
AF23
AE22
AE21
P6
R6
+1V8
CHY0
1u0
2HYA
+1V8-PNX
+1V2
+1V8-PNX
+1V2
100n
2HKA
2HKC
+3V3-PER
7HK0
LD1117DT
32
OUTIN
COM
10u
2HKB
1
2HK9
600R RES
330u 6.3V
IHY9
4V47u
30R
3HK2
5HK5
600R
5HK0
30R
5HK6
5HK4
5HK2
120R
3HK1
15R
RES
FHK0
120R
IHK0
IHK1
IHK2
2HK7
+1V8-PNX
AJ1
AJ25
5HY2
30R
AE16
2HY0
1u0
AE15
100n
2HZA
2HY5
7H00-12
PNX8535
100n
5HY3
30R
1u0
2HY7
2HY6
SENSE+1V8
VDDA-LVDS
5HY6
+1V2
30R
1u0
100n
2HY4
+1V2
AB26
5HY8
30R
5HY5
30R
2HZT
5HY0
30R
1u0
H3H4H5N5N6
G5
VSSA VIDEO
1u0
2HY3
IHSN
1u0
100n
2HY9
2HY8
+1V2
100n
2HZN
+3V3-PER
F4
F5
E4
E1E2E3
D1D2D3
VSSA VIDEO
100n
100n
2HY1
2HY2
5HY9
30R
2HZJ
B1
C1
C2
AF9
AE9
VSSA AUDIO
+1V2
5HG0
+1V2
5HK1
120R
AG29
2HK5
AG27
AG28
RREF-PNX8535
100n
AF30
AG25
AG26
+3V3-PER
IHK4
2HK6
AF27
AF28
AF29
100n
VSSVSS
AF26
AF25
AF24
AF22
5HK3
120R
AF21
AF13
4V47u
100n
2HK0
2HK1
1u0
100n
2HK8
100n
2HK4
2HK3
47u 4V
AH2
AG3
AH25
AH26
AH28
AH29
AH30
AH21
AG30
VSS
IHSK
30R
100n
100n
2HH6
2HH9
AF12
IHSL
5HG130R
100n
2HH8
2HH7
IHK3
100n
2HK2
AE5
AD6
AD5
AE29
AE30
AE28
AE25
AE24
VSS
AB29
AB25
100n
AA27
+3V3-PER
AA26
AA25
+3V3-PER
J25
F26
W26
VSSA DDR DLL
VSS
VSS
Y26
Y27
W29
V13
V14
V15
V16
V17
V18
V27
U15
U16
U17
U6
T25
T26
T29T5T6
U13
U14
T15
T16
T17
VSS
R16
R17
R25
T13
T14
P17
P25
R13
R14
R15
VSS
P15
P16
N17
N18
N25
N27
N30
P13
P14
N16
VSS
K27
K29
M25
N13
N14
N15
F19
G30
H26
H27
VSS
E9
F12
F13
F18
C28
D27D8D9
E25
E26
AJ29
AJ30
AK25
AK30
B29
12345678910111213
1V2A AUDIO ADC
ADC
REF
3V3A AUDIO
DAC
1V2A VIDEO ADC
DLL0
1V2A DDR
DLL3
1V8_2V5 DDR
PLL
3V3A DDR
DLL1
DLL2
EQ
1V2A HDMI
PLL
PLLCCO
3V3A HDMI
BIAS
3V3 HDMI
3V3 LVDS
3V3A LVDS
3V3A LVDS PLL
1V2A CAB
3V3A 1.7 MCAB
VDDA-DAC
VDD
VDDA-LVDS
VDDA-ADC
2HZB
1V2 CORE
1V2 SB CORE
3V3 PER
3V3 SB PER
100n
2HZP
1u0
2HZC
NC
2HZR
2HZH
2HZV
1u0
IHY3
IHY2
100n
100n
100n
2HZD
AE12
AE13
AE14
AC26
AC27
AD26
AE17
AE18
AE19
AD25
AG11
AG13
AH13
F10
F21
F22
U25
V25
W25
AA5
AA6
AB5
AB6
F14
F15
F16
F17
F24
F25
G25
AH1
E23
E24
K25
K26
2HZS
1u0
1u0
1u0
1u0
2HYT
2HYS
2HYG
100n
2HZ2
2HYH
1u0
100n
2HYU
2HZ3
2HYJ
F9
F6
G6
V6
W5
W6
Y5
100n
IHY1
10n
2HZE
5HY7
30R
IHY0
CHY1
2HYC
1u0
2HZU
5HY4
30R
10n
10n
2HZF
2HZG
10u
2HZ7
10n
2HYD
1u0
5HY1
220R
10u
2HYE
2HZ8
SENSE+1V2-PNX8535
10u
10u
2HYF
100n
100n
2HZ9
+3V3-PER
VDDA-AUDIO
VDDA-AUDIO
+1V8
100n
2HYV
100n
2HYK
2HZ4
100n
2HYW
100n
2HYM
100n
100n
2HYY
2HYN
100n
100n
2HYZ
100n
100n
2HYP
+3V3-STANDBY
2HZ0
IHYA
2HYR
+1V2
100n
100n
2HZ1
+1V2-STANDBY
+3V3-PER
5HYA
+3V3
220R
100n
H_16800_053.eps
250407
A
B
C
D
E
F
G
H
I
2HH6 B4
2HH7 C4
2HH8 C5
2HH9 B5
2HK0 C2
2HK1 C3
2HK2 E4
2HK3 E3
2HK4 E3
2HK5 E3
2HK6 E3
2HK7 D2
2HK8 D2
2HK9 F1
2HKA D1
2HKB E1
2HKC D1
2HY0 B7
2HY1 B7
2HY2 B7
2HY3 B6
2HY4 E7
2HY5 E7
2HY6 A8
2HY7 A8
2HY8 C6
2HY9 C6
2HYA D8
2HYB D8
2HYC C11
2HYD C11
2HYE C11
2HYF C11
2HYG C12
2HYH C12
2HYJ C12
2HYK C12
2HYM C12
2HYN C13
2HYP C13
2HYR C13
2HYS A12
2HYT A12
2HYU A12
2HYV A12
2HYW A12
2HYY A13
2HYZ A13
2HZ0 A13
2HZ1 A13
2HZ2 B12
2HZ3 B12
2HZ4 B12
2HZ7 D11
2HZ8 D11
2HZ9 D11
2HZA D7
2HZB I9
2HZC I10
2HZD I10
2HZE I10
2HZF I10
2HZG I11
2HZH G10
2HZJ D7
2HZN D6
2HZP F10
2HZR F10
2HZS F10
2HZT D6
2HZU F11
2HZV H10
3HK1 E2
3HK2 F1
5HG0 B4
5HG1 C4
5HK0 C2
5HK1 D3
5HK2 D2
5HK3 D4
5HK4 C2
5HK5 B2
5HK6 C2
5HY0 B6
5HY1 E11
5HY2 E7
5HY3 A7
5HY4 G11
5HY5 C6
5HY6 D8
5HY7 H10
5HY8 D6
5HY9 D7
5HYA C13
7H00-11 A9
7H00-12 G7
7HK0 E1
CHY0 B8
CHY1 B11
FHK0 E2
IHK0 B2
IHK1 C2
IHK2 D2
IHK3 D4
IHK4 D3
IHSK B4
IHSL C4
IHSN C6
IHSP D9
IHY0 E10
IHY1 F10
IHY2 H10
IHY3 H10
IHY4 B8
IHY5 E8
IHY6 A8
IHY7 D8
IHY8 D8
IHY9 E1
IHYA B13
PNX 8535: Flash
Circuit Diagrams and PWB Layouts
81Q528.1E LA 7.
1
23 89
456
7
PNX 8535: FLASH
B04Q B04Q
A
B
C
+3V3
+3V3-NAND
5HA0
30R
3HA0
10K
+3V3-NAND
XIO-SEL-NAND
PCI-AD25
PCI-AD26
PCI-AD27
PCI-AD28
PCI-AD29
PCI-AD30
PCI-AD31
3HA4
3HA5
3HA6
3HA7
3HA8
3HA9
3HAA
3HAB
100R
100R
100R
100R
100R
100R
100R
100R
NAND-AD(0)
NAND-AD(1)
NAND-AD(2)
NAND-AD(3)
NAND-AD(4)
NAND-AD(5)
NAND-AD(6)
NAND-AD(7)
NAND-AD(0)PCI-AD24
NAND-AD(1)
NAND-AD(2)
NAND-AD(3)
NAND-AD(4)
NAND-AD(5)
NAND-AD(6)
NAND-AD(7)
+3V3-NAND
IHSR
100n
7HA0
NAND128W3A2BN6E
12
37
VCC
Φ
2HA0
NAND
29
30
31
32
41
42
43
44
26
27
28
33
34
35
38
39
40
45
46
47
48
6
FLASH
0
(128Mx8)
1
2
3
IO
4
5
6
7
NC
VSS
7
R
B
16
CLE
17
ALE
WE
WP
NC
NCNC
13
36
CE
RE
9
8
18
19
1
2
3
4
5
10
11
14
15
20
21
22
23
24
25
RESET-NVM_WP-NANDFLASH-INV
IHSS
IHST
2HA1
100n
XIO-SEL-NAND
XIO-ACK
NAND-CLE
NAND-ALE
NAND-REn
NAND-WEn
XIO-ACK
RESET-NVM_WP-NANDFLASH-INV
RESET-NVM_WP-NANDFLASH
3HA3
2K2
9HA0
RES
IHA1
1
IHA0
+3V3-NAND
10K
3HA2
3
7HA3
PDTC114EU
2
+3V3-NAND
A
B
C
2HA0 B7
2HA1 B7
3HA0 B2
3HA2 C9
3HA3 B8
3HA4 B4
3HA5 B4
3HA6 B4
3HA7 B4
3HA8 B4
3HA9 B4
3HAA C4
3HAB C4
3HAC D4
3HAD D4
3HAE D4
3HAF D4
5HA0 A2
7HA0 B6
7HA3 C9
9HA0 C8
IHA0 C9
IHA1 C9
IHSR A6
IHSS B7
IHST B7
D
E
3104 313 6194.3
PCI-AD0
PCI-AD1
PCI-CBE1
PCI-CBE2
12
3
3HAD
3HAE
3HAF
3HAC
100R
100R
100R
100R
NAND-CLE
NAND-ALE
NAND-WEn
NAND-REn
45
6
D
E
H_16800_054.eps
250407
789
Circuit Diagrams and PWB Layouts
82Q528.1E LA 7.
PNX5050: Control
123
B05A B05A
PNX5050: CONTROL
A
+3V3-D
3C21
2K2
B
FC01
3C22
IC01
1K2
2C03
2
3
5
100n
7C11
NCP303LSN10T1
IN
GND
CD
+3V3-D
10K
3C23
FC00
1
RST
4
NC
9C06
C
2C00
GND-PLL
1C05
27M
27p
2C01
GND-PLL
RESET-SYS-DETECT
27p
RESET-SYS-DETECT
D
E
F
+3V3-D
+3V3-D
3C37
RES
10K
45678910111213
RES
RES
100n
FC14
2C02
9C05
IC07
IC04
7C00-1
PNX505x(PNX1702)
D11
XTAL_IN
D9
XTAL_OUT
A11
POR_IN
C7
RESET_IN
E25
PCI_SYS_CLK
Φ
SYSTEM
RESERVED2
JTAG
SYS_RST_OUT_
TDO
TCK
TMS
PCI-CLK-PNX5050_CLK-MOP
PCI-AD0
PCI-AD1
PCI-AD2
PCI-AD3
PCI-AD4
PCI-AD5
PCI-AD6
PCI-AD7
PCI-AD8
PCI-AD9
+3V3-D
+3V3-D
10K
10K
3C20
3C32
AB23
A1
TDI
D6
B1
D5
D10
FC16
TDO
TCK
TMS
TDI
FC10
FC11
FC12
FC13
CC00
9C07
9C08
JTAG-TD-PACIFIC-PNX5050
JTAG-TD-PNX5050-PNX8535
PNX5050-RST-OUTn
SCL-SSB
SDA-SSB
SDA-PNX5050
SCL-PNX5050
PCI-AD10
PCI-AD11
PCI-AD12
PCI-AD13
PCI-AD14
PCI-AD15
PCI-AD16
PCI-AD17
PCI-AD18
PCI-AD19
PCI-AD20
PCI-AD21
PCI-AD22
PCI-AD23
PCI-AD24
PCI-AD25
PCI-AD26
PCI-AD27
PCI-AD28
PCI-AD29
PCI-AD30
PCI-AD31
+3V3
3C29
10K
7C00-4
PNX505x(PNX1702)
E23
PCI_CLK
Y23
0
W23
1
Y26
2
W24
3
W25
4
W26
5
V23
6
V26
7
U23
8
U24
9
T23
10
U26
11
T24
12
T25
13
T26
14
R26
15
M25
16
N23
17
M23
18
M24
19
L26
20
L25
21
L24
22
L23
23
J26
24
J25
25
K23
26
H26
27
H25
28
J23
29
G26
30
H24
31
AC20
XIO_ACK
8
AE26
9
AC19
10
Y25
11
Y24
12
AD25
13
AA26
14
AA25
15
GPIO<26:34>
PCI_XIO
PCI_AD<0:31>
XIO_D<8:15>
Φ
PCI_C_BE
PCI_PAR
PCI_FRAME_
PCI_IRDY_
PCI_TRDY_
PCI_STOP_
PCI_IDSEL
PCI_DEVSEL_
PCI_REQ_
PCI_GNT_
PCI_REQ_A_
PCI_GNT_A_
PCI_REQ_B_
PCI_GNT_B_
PCI_PERR_
PCI_SERR_
PCI_INTA_
XIO_AD
XIO_SEL
V25
0
R23
1
M26
2
K24
3
R24
N26
N25
N24
P24
K26
P26
F23
D24
G23
D25
H23
D26
P23
R25
D23
AA24AC22
AB26
0
AB25
1
AD26
2
AC23
3
AB24
4
100R
100R
100R
3C06
100R
3C00
3C02
3C04
RES
RES
100R
100R RES
100R
9C02
RES
3C01
3C03
RES
3C05
PCI-REQ-PNX5050
PCI-GNT-PNX5050
PCI-REQ-DEBUG
PCI-GNT-DEBUG
PCI-REQ-USB20
14
PCI-CBE0
PCI-CBE1
PCI-CBE2
PCI-CBE3
PCI-PAR
PCI-FRAME
PCI-IRDY
PCI-TRDY
PCI-STOP
PCI-AD25
PCI-DEVSEL
PCI-GNT-USB20
PCI-PERR
PCI-SERR
IRQ-PNX5050
A
B
C
D
E
F
1C05 D2
2C00 D2
2C01 D2
2C02 B4
2C03 C2
3C00 D13
3C01 D13
3C02 D13
3C03 D14
3C04 E13
3C05 E14
3C06 D13
3C07 G1
3C08 G1
3C09 G2
3C10 G2
3C11 H3
3C12 H2
3C13 I2
3C14 H1
3C15 G1
3C17 I2
3C20 D6
3C21 B1
3C22 C1
3C23 B3
3C27 H2
3C28 H2
3C29 E10
3C32 D6
3C37 F3
7C00-1 D5
7C00-4 B11
7C11 B2
9C02 E13
9C05 D4
9C06 B3
9C07 F7
9C08 F7
CC00 D7
FC00 B3
FC01 B1
FC10 D6
FC11 D6
FC12 D6
FC13 D6
FC14 D4
FC16 D6
IC00 H2
IC01 B2
IC04 B4
IC07 D4
3C07
G
3C08
H
I
3104 313 6194.3
12345
RES
10K
3C12
10K
3C11
10K
BOOTMODE7
BOOTMODE6
BOOTMODE5
BOOTMODE4
BOOTMODE3
BOOTMODE2
BOOTMODE1
BOOTMODE0
BOOTMODE7FUNCTION
EN_PCI_ARB
MEM_SIZE
6
5
4
CAS_LATENCY
3
ROM_WIDTH
2
HC_FASTMODE
1
BOOTMODE
0
0 : DISABLES
1 : ENABLES
1 0 0 : 32MB
1 0 1 : 64MB
110 : 128MB
0 : 2.5 CLKS
1 : 3 CLKS
0:8-bit ROM/100khz
1:16-bit ROM/400khz
1 0 : HOST-ASSISTED
1 1 : EEPROM
6
product SW
assert SW
G
H
I
H_16800_055.eps
010507
7 8 9 1011121314
+3V3-D
+3V3-D
10K
RES
10K
3C15
+3V3-D
10K
3C14
RES
3C27
3C28
10K
10K
10K
3C13
+3V3-D
3C17
10K
3C09
+3V3-D
+3V3-D
RES
10K
3C10
10K
IC00
Circuit Diagrams and PWB Layouts
83Q528.1E LA 7.
PNX5050: SDRAM
1
B05B B05B
PNX5050: SDRAM
A
MM_RAS
MM_CAS
B
C
D
MM_WE
MM_CKE
MM_BA0
MM_BA1
MM_A0
MM_A1
MM_A2
MM_A3
MM_A4
MM_A5
MM_A6
MM_A7
MM_A8
MM_A9
MM_A10
MM_A11
MM_A12
MM_DQM_0
MM_DQM_1
MM_DQM_2
MM_DQM_3
MM_DQS0
MM_DQS1
MM_DQS2
MM_DQS3
2CA0
E
F
G
+2V5
H
2CB2
RES
10V
100n
2CA4
330u
2 3 4 5 6 7 8 9 101112131415
7C00-3
VREF-PNX5050
1n0
5CA0
RES220R
5CA1
220R
ICA0
2CA5
PNX505x(PNX1702)
L1
M4
N3
J2
3CA0
1K0
N2
R4
P4
R2
P3
T3
U4
U3
T1
R1
P1
N4
L4
T4
K3
K4
K2
J4
V3
U2
J1
G1
Y1
V1
1n0
100p
2CA6
MM_RAS
MM_CAS
MM_WE
MM_CKE
AVREF
0
MM_BA
1
0
1
2
3
4
5
MM_ADDR<0:12>
6
7
8
9
10
11
12
0
1
MM_DQM
2
3
0
1
MM_DQS
2
3
+2V5-DDR
2CA1
100n
2CA7
Φ
MEMORIES
MM_DATA<0:31>
RES
2CA2
1u0
100n
2CA9
2CA8
RES
100n
100n
MM_CLK
MM_CLK
MM_CS
2CA3
2CAA
10n
100n
2CAF
100R
100n
MM_DATA_10
MM_DATA_11
MM_DATA_12
MM_DATA_13
MM_DATA_14
MM_DATA_15
MM_DATA_16
MM_DATA_17
MM_DATA_19
MM_DATA_18
MM_DATA_20
MM_DATA_22
MM_DATA_21
MM_DATA_23
MM_DATA_24
MM_DATA_25
MM_DATA_26
MM_DATA_27
MM_DATA_29
MM_DATA_28
MM_DATA_30
MM_DATA_31
2CAG
MM_CLK_P
MM_CLK_N
MM_CS0
MM_CS1
MM_DATA_0
MM_DATA_1
MM_DATA_3
MM_DATA_2
MM_DATA_4
MM_DATA_5
MM_DATA_6
MM_DATA_7
MM_DATA_8
MM_DATA_9
100n
2CAH
100n
2CAK
M1
9CA1
M2
9CA2
100n
2CAD
3CA9
RES
ICA1
VREF-PNX5050
100n
100n
2CAE
L3
0
V4
1
C2
0
C1
1
E2
2
D1
3
E1
4
F2
5
F1
6
H2
7
H4
8
G3
9
G4
10
F3
11
E3
12
E4
13
D3
14
C3
15
AD3
16
AC3
17
AB4
18
AB3
19
AA3
20
Y4
21
Y3
22
W4
23
W2
24
AA1
25
AA2
26
AB1
27
AC1
28
AB2
29
AD1
30
AD2
31
560R
3CA1
FCA2
560R
3CA2
100n
2CAB
2CAC
100n
2CAM
2CB7
MM_A0
MM_A1
MM_A2
MM_A3
MM_A4
MM_A5
MM_A6
MM_A7
MM_A8
MM_A9
MM_A10
MM_A11
MM_A12
MM_BA0
MM_BA1
MM_DQM_0
MM_DQM_1
VREF-DDR
MM_CLK_N
MM_CLK_P
MM_CKE
MM_CS0
MM_RAS
MM_CAS
MM_WE
100n
2CAN
10n
2CB8
100n
10n
K4H561638H-UCCC
2CBT 1n0
3CA6
220R
100n
2CAP
2CAR
100n
7CA0
29
30
31
32
35
36
37
38
39
40
28
41
42
26
27
20
47
49
46
45
44
24
23
22
21
0
1
2
3
4
5
6
7
8
9
10
11
AP
0
1
L
U
VREF
CKE
CS
RAS
CAS
WE
BA
DM
CK
CK
+2V5-DDR
1183339
Φ
DDR
SDRAM
16Mx16
A
VSS
6
344866
+2V5-DDR
3CA3
3CA4
2CB3
22u 16V
+2V5-DDR
VDDQVDD
VSSQ
125258
560R
560R
CCA0
155561
D
100p
2CB4
SENSE+2V5
DQS
+2V5-DDR
22u
1u0
100p
100p
2CBF
2CBB
2CBK
3CBB
3CBC
3CBD
3CBE
3CBF
3CBG
3CBH
3CBK
3CBM
3CBN
3CBP
3CBR
3CBS
3CBT
3CBV
3CBW
2CBH
14
17
19
25
43
50
22R
DQ(16)
22R
DQ(17)
22R
DQ(18)
22R
DQ(19)
22R
DQ(20)
22R
DQ(21)
22R
DQ(22)
22R
DQ(23)
22R
DQ(24)
22R
DQ(25)
22R
DQ(26)
22R
DQ(27)
22R
DQ(28)
22R
DQ(29)
22R
DQ(30)
22R
DQ(31)
22R
DQS2
22R3CAD
DQS3
DQ(16)
DQ(17)
DQ(18)
DQ(19)
DQ(20)
DQ(21)
DQ(22)
DQ(23)
DQ(24)
DQ(25)
DQ(26)
DQ(27)
DQ(28)
DQ(29)
DQ(30)
DQ(31)
DQS2
DQS3
53
2
4
5
7
8
10
11
13
54
56
57
59
60
62
63
65
16
51
55
61
NC
0
1
2
3
4
5
6
7
D
8
9
10
11
12
13
14
15
L
DQS
U
58
64
22u
1u0
100p
100p
2CBA
2CBG
2CBD
DQ(0)
DQ(1)
DQ(2)
DQ(3)
DQ(4)
DQ(5)
DQ(6)
DQ(7)
DQ(8)
DQ(9)
DQ(10)
DQ(11)
DQ(12)
DQ(13)
DQ(14)
DQ(15)
DQS0
DQS1
VREF-DDR
2CBC
DQ(0)
DQ(1)
DQ(2)
DQ(3)
DQ(4)
DQ(5)
DQ(6)
DQ(7)
DQ(8)
DQ(9)
DQ(10)
DQ(11)
DQ(12)
DQ(13)
DQ(14)
DQ(15)
DQS0
DQS1
3CAE
3CAF
3CAG
3CAH
3CAK
3CAM
3CAN
3CAP
3CAR
3CAS
3CAT
3CAV
3CAW
3CAY
3CAZ
3CBA
3CAA
3CAB
MM_DQS0
MM_DQS1
MM_DATA_16
MM_DATA_17
MM_DATA_18
MM_DATA_19
MM_DATA_20
MM_DATA_21
MM_DATA_22
MM_DATA_23
MM_DATA_24
MM_DATA_25
MM_DATA_26
MM_DATA_27
MM_DATA_28
MM_DATA_29
MM_DATA_31
MM_DATA_30
MM_DQS2
MM_DQS3
3CAC
MM_DATA_3
22R
MM_DATA_2
22R
MM_DATA_1
22R
MM_DATA_0
22R
MM_DATA_4
22R
MM_DATA_5
22R
MM_DATA_6
22R
MM_DATA_7
22R
MM_DATA_8
22R
MM_DATA_9
22R
MM_DATA_10
22R
MM_DATA_11
22R
MM_DATA_12
22R
MM_DATA_13
22R
MM_DATA_14
22R
MM_DATA_15
22R
22R
22R
14
17
19
25
NC
43
50
53
2
0
4
1
5
2
7
3
8
4
10
512
11
6
13
7
54
8
56
9
57
10
59
11
60
12
62
13
63
14
65
15
16
L
51
U
64
FCA3
1u0
100n
2CB5
2CB6
+2V5-DDR
+2V5-DDR
33
3
9
15
VDDQ VDD
Φ
DDR
SDRAM
16Mx16
VSSQ
6
66
12
52
18
A
VSS
48
7CA1
K4H561638H-UCCC
1
29
0
30
1
31
2
32
3
35
4
36
5
37
6
38
7
39
8
40
9
28
10
41
11
42
2
1
AP
26
0
27
BA
1
20
L
47
DM
U
49
VREF
46
CK
45
CK
44
CKE
24
CS
23
RAS
22
CAS
21
WE
34
2CBP
2CBS
VREF-DDR
10n
1n0
3CA5
MM_A0
MM_A1
MM_A2
MM_A3
MM_A4
MM_A5
MM_A6
MM_A7
MM_A8
MM_A9
MM_A10
MM_A11
MM_A12
MM_BA0
MM_BA1
MM_DQM_2
MM_DQM_3
2CBN
MM_CLK_N
220R
MM_CLK_P
MM_CKE
MM_CS0
MM_RAS
MM_CAS
MM_WE
2CA0 B2
2CA1 G3
2CA2 G4
2CA3 G4
2CA4 H1
2CA5 H2
2CA6 H2
2CA7 H3
2CA8 H4
2CA9 H4
A
2CAA H4
2CAB H4
2CAC H4
2CAD H5
2CAE H5
2CAF H5
2CAG H5
2CAH H5
2CAK H6
2CAM H6
2CAN H6
2CAP H6
B
2CAR H7
2CB2 H1
2CB3 H7
2CB4 G8
2CB5 G8
2CB6 G8
2CB7 A6
2CB8 A6
2CBA B9
2CBB B12
2CBC B9
2CBD B9
C
2CBF B11
D
E
F
G
H
2CBG B9
2CBH B12
2CBK B12
2CBN C15
2CBP B15
2CBS C15
2CBT C7
3CA0 B3
3CA1 F4
3CA2 G4
3CA3 F8
3CA4 G8
3CA5 D15
3CA6 D6
3CA9 B5
3CAA D10
3CAB D10
3CAC D11
3CAD D11
3CAE B10
3CAF C10
3CAG C10
3CAH C10
3CAK C10
3CAM C10
3CAN C10
3CAP C10
3CAR C10
3CAS C10
3CAT C10
3CAV C10
3CAW C10
3CAY C10
3CAZ C10
3CBA D10
3CBB B11
3CBC C11
3CBD C11
3CBE C11
3CBF C11
3CBG C11
3CBH C11
3CBK C11
3CBM C11
3CBN C11
3CBP C11
3CBR C11
3CBS C11
3CBT C11
3CBV C11
3CBW D11
5CA0 H2
5CA1 H2
7C00-3 A3
7CA0 B7
7CA1 B14
9CA1 B5
9CA2 B5
CCA0 H8
FCA2 F4
FCA3 F9
ICA0 H2
ICA1 B5
10n
I
3104 313 6194.3
1
2345678
I
H_16800_056.eps
010507
9
10 11 12 13 14 15
Circuit Diagrams and PWB Layouts
84Q528.1E LA 7.
PNX5050: Video
12345678
910
11
PNX5050: VIDEO
B05C B05C
A
B
C
D
E
F
G
+3V3
3C48
4K7
DV-DE
DV-CLK
DV-FF_DE
DV-B4_UV0
DV-B5_UV1
DV-G0_UV2
DV-G1_UV3
DV-G2_UV4
DV-G3_UV5
DV-G4_UV6
DV-G5_UV7
DV-G6_UV8
DV-G7_UV9
DV-B6_Y0
DV-B7_Y1
DV-R0_Y2
DV-R1_Y3
DV-R2_Y4
DV-R3_Y5
DV-R4_Y6
DV-R5_Y7
DV-R6_Y8
DV-R7_Y9
DV-VS
DV-HS
DV-DE
PNX5050-GPI044
BOOTMODE0
BOOTMODE1
BOOTMODE2
BOOTMODE3
BOOTMODE4
BOOTMODE5
BOOTMODE6
BOOTMODE7
3C54
3C56
3C58
IC56
+3V3
1K0
1K0
1K0
3C49
3C59
1K0
3C53
1K0
3C55
1K0
3C57
1K0
4K7
IC47
IC43
IC44
7C00-5
PNX505x(PNX1702)
AF7
1
AC6
VDI_CLK
2
AE4
0
AF3
1
AE3
2
AF4
3
AD5
4
AD6
5
AD7
6
AC7
7
AF5
8
AE5
9
AC8
10
AE8
11
AD8
12
AF6
13
AC9
14
AE7
15
AC10
16
1EA
AD20
VDI_D
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
1
VDI_V
2
GPIO<51:52>
GPIO<58:59>
AI_OSCLK
AI_SCK
AI_WS
0
1
AI_SD
2
3
GPIO<16:20>
SPDI
SPDO
GPIO<56:57>
LAN_TX_CLK
LAN_REF_CLK
LAN_RX_CLK
LAN_REF_CLK
LAN_CRS
LAN_CRS_DV
LAN_COL
0
1
LAN_RXD
2
3
LAN_RX_DV
LAN_RX_ER
GPIO<41:48>
0
1
2
CLOCK
3
4
5
6
WDOG_OUT
GPIO<0:11>
BOOT_MODE<0:7>
AC11
AD9
AF8
AE9
AD10
AC12
AF9
AE10
AF10
AD11
AC13
AF11
AE12
AF12
AC14
AE2
AC5
AF13
AF23
AD21
AE23
AF24
AC17
AD22
A6
AF22
AF14
AF16
AC24
AA23
AE16
AF17
AD16
AD17
AE15
AD15
B4
B3
A3
A4
A7
A8
B9
AE24
AF25
AF26
AD23
AC18
Φ
INTERFACES
VDO_CLK
GPIO<53:55>
FGPO_BUF_SYNC
FGPO_REC_SYNC
GPIO<21:25>
GPIO<49:50>
LAN_TX_EN
LAN_TXD
LAN_TX_ER
GPIO<35:40>
GPIO<12:15>
VDO_D
VDO_AUX
GPIO60
AO_OSCLK
AO_SCK
AO_WS
AO_SD
IIC_SDA
IIC_SCL
LAN_MDIO
LAN_MDC
LAN_CLK
GCLOCK
WAKEUP
R
2C50
10p
IC52
IC53
IC50
IC54
IC55
100R
IC61
IC62
3C62
3C63
3C65
3C67
3C69
3C71
3C73
3C75
3C77
3C79
3C81
3C83
3C85
3C87
3C89
3C91
3C93
3C95
3C98
3C50
33R
33R
33R
33R
33R
33R
33R
33R
33R
33R
33R
33R
33R
33R
33R
33R
33R
33R
33RRES
IC57
IC58
IC59
IC60
100R
D18
1
B19
2
A20
0
A21
1
B20
2
C19
3
D16
4
A22
5
B21
6
B22
7
C20
8
A23
9
C21
10
B23
11
C22
12
D17
13
A24
14
B24
15
A25
16
A26
17
C23
18
D21
19
D22
20
B26
21
C25
22
D19
23
G25
24
G24
25
F26
26
F25
27
F24
28
D20
29
E26
30
C26
31
B18
32
A19
33
B2
34
42
E
A18
C17
AD19
AE18
AE20
AF19
0
AE19
1
AF20
2
AF21
3
C8
D8
AC26
AC25
AD13
AE14
0
AC15
1
AD14
2
AF15
3
AE13
AF18
AC16
0
AE21
1
AE22
2
AC21
E
RSE
2C51
S
10p
3C64
33R
3C66
33R
3C68
33R
3C70
33R
3C72
33R
3C74
33R
3C76
33R
3C78
33R
3C80
33R
3C82
33R
3C84
33R
3C86
33R
3C88
33R
3C90
33R
3C92
33R
3C94
33R
3C96
33R
RES
3C97
33R RES
I2C-ADDRESS = 0XE4
3C51
RxP3CLK
RxP3oD+_B0
RxP3oD-_B1
RxP3oCLK-_B2
RxP3oCLK+_B3
RxP3oC+_B4
RxP3oC-_B5
RxP3oB+_B6
RxP3oB-_B7
RxP3oA+_B8
RxP3oA-_B9
RxP3eCLK-_G0
RxP3eCLK+_G1
RxP3eC+_G2
RxP3eC-_G3
RxP3eB+_G4
RxP3eB-_G5
RxP3eA+_G6
RxP3eA-_G7
RxP3oE+_G8
RxP3oE-_G9
RxP3R0
RxP3R1
RxP3R2
RxP3R3
RxP3R4
RxP3R5
RxP3eE+_R6
RxP3eE-_R7
RxP3eD+_R8
RxP3VS
RxP3HS_DE
RxP3FF
RxP3eD-_R9
RxP3FF
RxP3HS_DE
RxP3HS_DE
SDA-PNX5050
SCL-PNX5050
PNX5050-GPI036
PNX5050-GPI039
DV-B0_UART2-RX
DV-B1_UART2-TX
DV-B2_DEBUG-BREAK
DV-B3_AUDIO-MUTE
A
B
C
D
E
F
G
2C50 A8
2C51 A8
3C48 D3
3C49 D5
3C50 E8
3C51 E8
3C53 D5
3C54 E5
3C55 E5
3C56 E5
3C57 E5
3C58 E5
3C59 E5
3C62 A8
3C63 B8
3C64 B9
3C65 B8
3C66 B9
3C67 B8
3C68 B9
3C69 B8
3C70 B9
3C71 B8
3C72 B9
3C73 B8
3C74 B9
3C75 B8
3C76 B9
3C77 C8
3C78 C9
3C79 C8
3C80 C9
3C81 C8
3C82 C9
3C83 C8
3C84 C9
3C85 C8
3C86 C9
3C87 C8
3C88 C9
3C89 C8
3C90 C9
3C91 D8
3C92 D9
3C93 D8
3C94 D9
3C95 D8
3C96 D9
3C97 D9
3C98 D8
7C00-5 A6
IC43 E6
IC44 E6
IC47 D6
IC50 A8
IC52 D7
IC53 D7
IC54 D8
IC55 D8
IC56 D5
IC57 G8
IC58 G8
IC59 G8
IC60 G8
IC61 F8
IC62 F8
H
3104 313 6194.3
H
H_16800_057.eps
1
2345
67891011
010507
Circuit Diagrams and PWB Layouts
85Q528.1E LA 7.
PNX5050: Supply
123456789101112
B05D B05D
PNX5050: SUPPLY
A
IC71
5CD3
220R
CCD0
+1V4-PLL
2CDN
IC72
10n
100n
2CDT
2CDP
B
C
D
G
H
SENSE+1V4
+1V4
+2V5-DDR
IC70
+3V3-D
+3V3-D
22u 16V
2CFC
5CD1
220R
16V22u
+3V3
2CFB
E
F
5CD2
+3V3
220R
2CFA
GND-ANA
+3V3-A
10n
2CFD
GND-ANA
100n
GND-ANA
2CFE
100n
GND-ANA
2CFF
100n
GND-ANA
2CFG
10u
+1V4
7C00-2
PNX505x(PNX1702)
D12
C9
C6
C10
D13
B14
A17
A12
A15
J22
K22
N5
P5
VDD
R22
T22
AB9
AB16
AB15
AB10
E9
E16
E15
E10
K1
L2
V2
Y2
AC2
AC4
D4
D2
W5
G5
H5
G2
J3
L5
M5
N1
R3
U1
R5
T5
Y5
G22
H22
J24
V24
W22
Y22
AB20
AB19
AD24
AD18
AD12
AE6
A2
B6
C24
VCCPVCCA VCCM
C18
C12
E20
E19
AF2
E8
E7
E14
E13
N22
P22
AB14
AB13
AB8
AB7
B5
D7
D14
A16
C13
D15
VDDA
A10
10u
POWER
VSSA_1.2
VSSA VSS
B10
B7
C5
B12
C14
AB17
AB12
AB11
AA22
AB6
AB5
E22
E21
E18
E17
E12
E11
F22
AF1
AA4
AA5
L22
M22
U22
V22
F5
F4
J5
H3
M3
T2
U5
V5
C16
AB22
AB21
AB18
H1
K5
K25
P25
P2
U25
W3
W1
L16
L15
L14
L13
L12
L11
M16
M15
M14
M13
M12
M11
N16
N15
N14
N13
N12
N11
A9
A13
C15
AD4
AE25
AE17
AE11
B25
B17
B11
C4
E6
E5
P16
P15
P14
P13
P12
P11
R16
R15
R14
R13
R12
R11
T16
T15
T14
T13
T12
T11
B8
A5
A14
B16
B13
B15
C11
GND-PLL
10u
2CDU
GND-ANA
+1V4
2CDB
2CEB
2CF6
10n
10n
100n
2CDC
2CEC
2CF7
10n
10n
100n
2CDD
2CED
2CF8
10n
10n
100n
2CDE
2CEE
2CF9
10n
10n
100n
10u
100n
100n
2CD0
2CE0
100n
2CD1
2CE1
100n
2CDV
2CD2
2CE2
100n
100n
2CD3
2CE3
100n
100n
2CD4
2CE4
2CDX
100n
100n
10u
2CD5
2CE5
2CF0
100n
100n
100n
2CD6
2CE6
2CF1
100n
100n
100n
2CD7
2CE7
2CF2
100n
100n
100n
2CD8
2CE8
2CF3
100n
100n
100n
2CD9
2CE9
2CF4
100n
+2V5-DDR
100n
+3V3-D
100n
2CDA
2CEA
2CF5
10n
10n
100n
2CDF
2CEF
2CDY
10n
10n
2CDG
10n
10n
2CEG
10n
10n
2CDZ
2CDH
2CEH
10n
10n
10n
2CDK
2CEK
10n
2CDR
2CDM
10n
10n
2CEM
25V
220u
2CDS
330u 10V
2CD0 C7
2CD1 C8
2CD2 C8
2CD3 C8
2CD4 C8
2CD5 C8
2CD6 C9
2CD7 C9
2CD8 C9
A
2CD9 C9
2CDA C10
2CDB C10
2CDC C10
2CDD C10
2CDE C10
2CDF C11
2CDG C11
2CDH C11
2CDK C11
2CDM C12
2CDN H5
2CDP H5
2CDR C12
B
2CDS C12
2CDT H5
2CDU C7
2CDV C7
2CDW C12
2CDX F8
2CDY F11
2CDZ F11
2CE0 D7
C
D
E
F
2CE1 D8
2CE2 D8
2CE3 D8
2CE4 D8
2CE5 D8
2CE6 D9
2CE7 D9
2CE8 D9
2CE9 D9
2CEA D10
2CEB D10
2CEC D10
2CED D10
2CEE D10
2CEF D11
2CEG D11
2CEH D11
2CEK D11
2CEM D12
2CF0 F8
2CF1 F9
2CF2 F9
2CF3 F9
2CF4 F9
2CF5 F10
2CF6 F10
2CF7 F10
2CF8 F10
2CF9 F10
2CFA H3
2CFB D1
2CFC D1
2CFD H3
2CFE H3
2CFF H4
2CFG H4
5CD1 D2
5CD2 G3
5CD3 H5
7C00-2 A6
CCD0 A5
IC70 D2
IC71 G5
IC72 H5
2CDW
330u 10V
G
H
3104 313 6194.3
12
GND-PLL
34
GND-PLL
GND-PLL
56
78910
H_16800_058.eps
010507
11 12
Circuit Diagrams and PWB Layouts
86Q528.1E LA 7.
Pacific 3: LVDS
1
234
5678
9
10
1
12
PACIFIC 3: LVDS
B06A B06A
1G50
A
B
C
D
E
F
G
H
Single / Dual LVDS input only
RxP3oA+_B8
100R
3G00
RxP3oA-_B9
RxP3oB+_B6
100R100R
3G01
RxP3oB-_B7
RxP3oC+_B4
3G02
RxP3oC-_B5
RxP3oCLK-_B2
100R
3G03
RxP3oCLK+_B3
RxP3oD+_B0
100R
RxP3oD-_B1
RxP3oE+_G8
100R
3G05 3G04
RxP3oE-_G9
RxP3eA+_G6
100R
3G06
RxP3eA-_G7
RxP3eB+_G4
100R
3G07
RxP3eB-_G5
RxP3eC+_G2
100R
3G08
RxP3eC-_G3
RxP3eCLK-_G0
100R
3G09
RxP3eCLK+_G1
RxP3eD+_R8
100R
3G10
RxP3eD-_R9
RxP3eE+_R6
100R
3G11
RxP3eE-_R7
Dual LVDS input only
TXEA-
TXEA+
TXEB-
TXEB+
TXEC-
TXEC+
TXECLK-
TXECLK+
TXED-
TXED+
TXEE-
TXEE+
TXOA-
TXOA+
TXOB-
TXOB+
TXOC-
TXOC+
TXOCLK-
TXOCLK+
TXOD-
TXOD+
TXOE-
TXOE+
Dual LVDS only
4
3
5G00
1
2
4
3
5G01
1
2
3
4
5G02
1
2
4
3
5G03
1
2
4
3
5G041
2
4
3
5G05
1
2
4
3
5G061
2
3
4
5G071
2
4
3
5G08
1
2
4
3
5G09
1
2
4
3
5G101
2
4
3
5G11
1
2
2G00
2G01 4p7
DLW21S
2G02
2G03
DLW21S
2G04
2G05
DLW21S
2G06
2G07
DLW21S
2G08
DLW21SDLW21S
2G10
DLW21S
2G12
2G13
DLW21S
2G14
2G15
DLW21S
2G16
DLW21S
2G18
2G19 4p7
DLW21S
2G20
2G21
2G22
2G23 4p7
DLW21S
VDISP
CTRL-DISP1
CTRL-DISP2
CTRL-DISP3
CTRL-DISP4
FG02
FG15
FG17
FG24
FG13
3G52
100R
FG03
FG05
FG11
2G53
FG07
FG09
FG14
FG16
FG21
3G53
100R
100p
4p7
4p7
4p7
4p7
4p7
4p7
4p7
SCL-I2C4-DISP
4p7
4p72G09
4p7
4p72G11
4p7
4p7
4p7
4p7
4p7
4p72G17
4p7
4p7
4p7
4p7
SDA-I2C4-DISP
FG00
FG01
FG04
FG06
FG08
FG10
FG12
FG18
FG19
FG20
FG22
FG23
FG25
FG26
FI-RE41S-HF
LVDS CONNECTOR
100p
2G52
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
41311
1G50 A13
2G00 B9
2G01 B9
2G02 C9
2G03 C9
2G04 C9
2G05 C9
2G06 D9
2G07 D9
2G08 D9
A
2G09 D9
2G10 E9
2G11 E9
2G12 E9
2G13 E9
2G14 F9
2G15 F9
2G16 F9
2G17 F9
2G18 G9
2G19 G9
B
2G20 G9
2G21 G9
2G22 H9
2G23 H9
2G52 E13
2G53 E12
3G00 B3
3G01 B3
3G02 C3
3G03 C3
C
3G04 D3
3G05 D3
3G06 E3
3G07 E3
3G08 F3
3G09 F3
3G10 G3
3G11 G3
3G52 D12
3G53 D13
5G00 B9
D
5G01 C9
5G02 C9
5G03 D9
5G04 D9
5G05 E9
5G06 E9
5G07 F9
5G08 F9
5G09 G9
5G10 G9
E
5G11 H9
FG00 A13
FG01 B13
FG02 B13
FG03 B13
FG04 B13
FG05 B13
FG06 B13
FG07 B13
FG08 C13
F
FG09 C13
FG10 C13
FG11 C13
FG12 C13
FG13 C12
FG14 C13
FG15 C12
FG16 C13
FG17 C12
FG18 C13
FG19 D13
G
FG20 D13
FG21 D13
FG22 D13
FG23 D13
FG24 D12
FG25 D13
FG26 D13
H
3104 313 6194.3
12
34
5678
H_16800_060.eps
010507
9
10
11
12
13 14
Circuit Diagrams and PWB Layouts
87Q528.1E LA 7.
Pacific 3: Display & Interfacing
12
B06B B06B
PACIFIC 3: DISPLAY-INTERFACING
3 135
46
7
8
A
100n
RES
9G50
RES
3G99
IG97
IG93
100K
*
IG83
2G76
3
2
7G57
BC847BW
5G55
220R
5G56
220R
3G56
2K2
16V
RES
10u
7G55
BC847BW
3G72
4K7
+3V3-STANDBY
2G50
10K
3G50
RES
9G61
RES
B
9G77
+5V-ON
IG54
9G78
9G79
9G80
RES
RES
+12V-DISP
C
CTRL4-P3
D
CTRL1-MIPS_LCD-PWR-ON
CTRL1-FPGA
CTRL2-FPGA
E
F
CTRL3-FPGA
CTRL4-FPGA
CTRL1-MIPS_LCD-PWR-ON
CTRL3-STBY_POWER-OK-DISP
CTRL5-STBY_BACKLIGHT-BOOST
CTRL1-STBY_LAMP-ON
CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3
CTRL4-STBY_SELECT-PWM-ANA
POD-MODE
ON-MODE
3G63
7G52
SI4835BDY
RES
IG53
3G59
47K
2G57
47R
1u0
IG96
6G50
BZX384-C5V6
VDISP-SWITCH
IG72
IG73
IG75
IG59
IG77
IG78
IG79
3G71
100R
7G54
SI3441BDV
IG95
G
I2C-BUFFER
IG50
IG51
5G50
RES
120R
5G51
120R
RES
7G50
PCA9515ADP
RES
3SDA0 6
2 SCL0 7
5EN
IG80
8
VCC
GND
4
9G53
9G54
+5V-ON
H
SDA-SSB-MUX1
SCL-SSB-MUX1
+3V3
I
3G60
100R
3G80
47R
3G81
47R RES
3G84
3G85
47R RES
3G86
3G88
47R RES
3G90
47R
3G91
47R
3G93
47R
3G96
3G97
100K
3G98
100K
SDA1
SCL1
NC
IG92
3G64
47K
RES
RES
RES47R
47R
RES
RES
RES
47R
IG65
RES
2G51
1
100n
RES
3G51
1
3G94
IG71
10K
RES
FG50
2G54
100n
SML-310
3G67
10K
+3V3
4K7
6G52-1
1
RES
IG82
6G51
IG94
2G60
3G76
2G63
BAV99S
RES
47R
100p
6
100n
3G77
2G64
3G68
10K
+3V3
47R
100p
VDISP
3G78
2G65
IG81
2
RES
+3V3
3G79
47R
100p
2G66
5
BACKLIGHT-OUT
10K
FG51
FG52
FG53
FG54
RESERVED
NOTE : CAN BE
CAPACITOR OR
100p
WIRE BRIDGE
6G52-2
BAV99S
RES
3
CTRL-DISP1
CTRL-DISP2
CTRL-DISP3
CTRL-DISP4
4
3GB5
100R
RES
3GA8
100R
FHP
IRQ
PDWN
CPU-GO
PDP-GO
FG60
100p
2G69
RESET
SDA-I2C4-DISP
SCL-I2C4-DISP
TO DISPLAY
1D42
1
2
3
4
5
SDI
FG55
FG57
FG58
2G70
FG56
100p
2G71
100p
2G72
3GA7
3GA9
100R
3GB0
100R
1K0
SDA-I2C4-DISP
SCL-I2C4-DISP
100p
CTRL1-STBY_LAMP-ON
LAMP-ON-OUT
BACKLIGHT-CONTROL
CTRL4-STBY_SELECT-PWM-ANA
BACKLIGHT-OUT
CTRL5-STBY_BACKLIGHT-BOOST
CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3
BACKLIGHT-BOOST
3104 313 6194.3
1
2
4
87653
9
10 11 12
RESERVED
P3-VS
SCL-AMBI-3V3
SDA-AMBI-3V3
+3V3
3GA5
IG52
1
7G51
BC847BW
RES
2
IG84
9G55
3G58
IG89
4K7
2G55
470p
+3V3
10K
3G69
3G73
RESERVED
9G49
9G48
RES
910
+3V3-STANDBY
+3V3-STANDBY
+5V-ON
10K
RES
3G54
3
IG91
IG88
47K
IGA9
3G87
RES
4K7
27K
3G57
IG86
3
1
7G53
BC847BW
2
2K2
RES
3G61
3G62
1K0
RES
+3V3
10K
3GA4
IGB3
6
2
7G59-1
BC847BS
1
IGA8
3GC0
4K7
2G78
470p
11 12
3GC1
+3V3
+3V3
3GA6
12K
2G61
470p
3G82
2G62
470p
5
10K
10K
3G70
2K2
RES
22K
IGB1
7G56
PDTC114EU
1
RES
3GC8
1K0
RES
IG58
IG62
3G95
IG66
3GA2
IG69
2G59
RES
IGB2
3
7G59-2
BC847BS
4
IGA6
BC847BS
BC847BS
2G67
BC847BS
4K7
3GA1
BC847BS
4K7
3GB8
7G60-1
7G60-2
470p
3G92
10K
7G61-1
2G68
470p
10K
7G61-2
RES
1u0
2G58
1u0
12K
3
7G65
BC847BW
2
IG87
3GB9
10K
2G79
3G65
1
4
1
4
9G57
9G58
9G59
RES
9G60
RES
5
15K
IG55
+5V-STANDBY
2
2K2
3G83
6
SCL-AMBI
IG60
+5V-STANDBY
IG61
5
2K2
3G89
SDA-AMBI
3
+5V-ON
IG64
2
2K2
3GA0
6
SCL-AMBI
IG67
+5V-ON
IG68
5
2K2
3GA3
SDA-AMBI
3
IG70
+12V
1R0
3GC4
FG59
RES
2G75
1u0
47K
IG85
2
4
BC847BPN
7G58-2
3
9G82
RES
33K
3GB7
IGA5
4
BC847BPN
7G66-2
3
6
7G58-1
BC847BPN
1
IG90
3G66
47K
2
1K0
6
7G66-1
BC847BPN
1
IGB0
1K0
3GC3
3G55
9G56
RES
IGA7
5
1u0
3GC2
13
+8V2-PAS
RES
6G55
BZX384-C8V2
+8V2-PAS
H_16800_061.eps
010507
A
B
C
D
E
F
G
H
I
1D42 B7
2G50 H4
2G51 H3
2G54 B4
2G55 E10
2G57 C2
2G58 G12
2G59 F12
2G60 C4
2G61 A11
2G62 A11
2G63 E4
2G64 E5
2G65 E5
2G66 E5
2G67 B12
2G68 C12
2G69 C6
2G70 C7
2G71 C8
2G72 C8
2G75 D13
2G76 B4
2G78 I11
2G79 I12
3G50 H4
3G51 H4
3G54 D10
3G55 E12
3G56 B4
3G57 E11
3G58 E10
3G59 C2
3G60 D3
3G61 E11
3G62 F11
3G63 C2
3G64 C3
3G65 F12
3G66 F13
3G67 C4
3G68 C5
3G69 F10
3G70 F11
3G71 D2
3G72 D4
3G73 G10
3G76 D4
3G77 D5
3G78 D5
3G79 D5
3G80 D3
3G81 E3
3G82 A11
3G83 A12
3G84 E3
3G85 E3
3G86 E3
3G87 A11
3G88 F3
3G89 B12
3G90 F3
3G91 F3
3G92 B12
3G93 F3
3G94 F4
3G95 B12
3G96 F3
3G97 G3
3G98 G3
3G99 G3
3GA0 B12
3GA1 C12
3GA2 C12
3GA3 C12
3GA4 G11
3GA5 D10
3GA6 E11
3GA7 B8
3GA8 B6
3GA9 B8
3GB0 C8
3GB5 B6
3GB7 H12
3GB8 H12
3GB9 H12
3GC0 H11
3GC1 I11
3GC2 I12
3GC3 I13
3GC4 D13
3GC8 I11
5G50 H2
5G51 H2
5G55 B4
5G56 B4
6G50 C2
6G51 B4
6G52-1 H4
6G52-2 H6
6G55 D13
7G50 H2
7G51 D10
7G52 B2
7G53 E11
7G54 B3
7G55 C4
7G56 F11
7G57 G4
7G58-1 E13
7G58-2 E12
7G59-1 G11
7G59-2 G12
7G60-1 A12
7G60-2 A12
7G61-1 B12
7G61-2 C12
7G65 H12
7G66-1 H13
7G66-2 H13
9G48 I10
9G49 H10
9G50 H3
9G53 I3
9G54 I3
9G55 E10
9G56 F12
9G57 A12
9G58 B12
9G59 C12
9G60 C12
9G61 B2
9G77 B1
9G78 B1
9G79 C1
9G80 C1
9G82 I12
FG50 B4
FG51 D5
FG52 E5
FG53 E5
FG54 E5
FG55 B7
FG56 B8
FG57 C7
FG58 C7
FG59 D13
FG60 B6
IG50 H2
IG51 I2
IG52 D10
IG53 C2
IG54 B2
IG55 A12
IG58 A12
IG59 F2
IG60 A12
IG61 A12
IG62 B12
IG64 B12
IG65 G3
IG66 C12
IG67 C12
IG68 C12
IG69 C12
IG70 D12
IG71 C4
IG72 D2
IG73 E2
IG75 E2
IG77 F2
IG78 F2
IG79 F2
IG80 H3
IG81 H5
IG82 I4
IG83 I4
IG84 E10
IG85 E12
IG86 E11
IG87 E12
IG88 E10
IG89 E10
IG90 F13
IG91 D10
IG92 B3
IG93 C4
IG94 C4
IG95 C3
IG96 C2
IG97 D4
IGA5 H13
IGA6 H12
IGA7 H12
IGA8 H11
IGA9 H11
IGB0 I13
IGB1 F11
IGB2 G12
IGB3 G11
Circuit Diagrams and PWB Layouts
88Q528.1E LA 7.
Pacific 3
12 9 101112
B06C B06C
A
B
+3V3
PACIFIC 3
5GE2
+3V3
120R
1u0
2GE0
7GE3
LD3985M25
2GJ5
1
3
100n
IN
INH BP
COM
2
OUT
5
4
FGE2
2GL1
IGF9
2GJ7
C
7GE5
IGH7
STPS2L30A
STPS2L30A
+3V3
D
6GE6
9GE4
6GE7
IGH8
2GK0
100n
LD1117DT
3
IN
GND
2
IN
OUT
OUT
COM
3GH3
1
IGH0
120R
3GH4
2GK3
120R
3GH5
E
7GE2-3
T6TF4HFG-0002
242
GND_HS
SUPPLY
SSCG_GND
PLL2_GNDA
PLL1_GNDA
PLL2_GNDD
PLL1_GNDD
VIA
GND
241
240
239
238
237
236
235
234
233
232
231
230
229
228
227
226
225
224
223
222
221
220
219
218
217
199
216
211
208
203
195
189
186
181
175
171
163
157
152
142
131
125
112
108
5
59
55
213
57
215
+2V5-PLL
F
+1V5-PLL
158
G
+3V3-P3
+2V5-P3
H
I
+1V5-P3
PLL2_VCCA_2V5
54
PLL1_VCCA_2V5
212
SSCG_VCC_1V5
58
PLL2_VCCD_1V5
56
PLL1_VCCD_1V5
214
210
201
196
184
180
174
167
150
144
138
130
124
118
113
110
VDD_2V5
166
6
209
197
190
182
176
156
147
136
119
111
105
94
85
72
65
43
39
33
24
21
12
VDD_3V3
VDD_1V5
3104 313 6194.3
123456
345678
10n
10n
1K0
1u0
2GE1
2GJ6
2GK1
10n
10n
2GE2
1u0
100n
2GK2
47u 4V
RxP3CLK
RxP3HS_DE
RxP3oA-_B9
RxP3oA+_B8
RxP3oB-_B7
RxP3oB+_B6
RxP3oC-_B5
RxP3oC+_B4
RxP3oCLK-_B2
RxP3oCLK+_B3
RxP3oD-_B1
RxP3oD+_B0
RxP3oE-_G9
RxP3oE+_G8
RxP3eA-_G7
RxP3eA+_G6
RxP3eB-_G5
RxP3eB+_G4
RxP3eC-_G3
RxP3eC+_G2
RxP3eCLK-_G0
RxP3eCLK+_G1
RxP3eD-_R9
RxP3eD+_R8
RxP3eE-_R7
RxP3eE+_R6
RxP3R5
RxP3R4
RxP3R3
RxP3R2
RxP3R1
RxP3R0
2GE3
10n
2GE4
+2V5-PF
+1V5
10n
2GE5
10n
10n
2GE7
2GE6
+1V5
7GE2-1
T6TF4HFG-0002
7
8
9
10
13
14
15
16
20
19
22
23
25
26
28
29
31
32
34
35
38
37
40
41
44
45
46
47
48
49
52
53
10n
2GE8
IGF5
+1V5-RX +1V5-TX
11
CLKI
HSI
N
ORX0
P
N
ORX1
P
N
ORX2
P
N
OCLK
P
N
ORX3
P
B<9:0>
N
ORX4
P
N
ERX0
P
N
ERX1
P
N
ERX2
P
N
ECLK
P
G<9:0>
N
ERX3
P
N
ERX4
P
R<9:0>
GND-RX
10n
2GE9
5GE3
220R
5GE4
220R
5GE5
220R
5GE6
220R
30
42
VDD_RX_1V5
10n
2GF0
2GF4
2GG7
GND-TX
637079
172736
10n
2GF1
4u7
2GF5
1u0
2GG8
2GH1
2GH6
GND-RX
+3V3-P3
91
VDD_TX_1V5
LVD S
GND
6071768297
51
GND-TX
10n
FGE4
10n
FGE8
10n
1u0
GND-TX
1u0
GND-RX
18
50
VDD_RX_3V3
2GF2
2GF6
2GG9
10n
2GF3
10n
2GF7
10n
2GH2
2GH7
647388
PWM
VDD_TX_3V3
OTX0
OTX1
PA<0:9>
OTX2
OTX3
OTX4
OTX5
ETX0
PB<0:9>
ETX1
ETX2
ETX3
ETX4
ETX5
PC<0:9>
10n
10n
104
+3V3-P3
10n
10n
2GF8
+1V5-PLL
GND-TX
GND-RX
3
4
5
6
7
8
P
N
P
N
P
N
P
N
P
N
P
N
P
N
P
N
P
N
P
N
P
N
P
N
2GH3
2GH8
100
101
102
103
106
107
+2V5-PF
10n
2GG6
IGA4
10n
10n
10n
2GK4
2GK6
2GK5
+1V5-TX
10n
10n
2GH5
GND-TX
IGA3
10n
TXEA+
TXEA-
TXEB+
TXEB-
TXEC+
TXEC-
TXECLK+
TXECLK-
TXED+
TXED-
TXEE+
TXEE-
TXOA+
TXOA-
TXOB+
TXOB-
TXOC+
TXOC-
TXOCLK+
TXOCLK-
TXOD+
TXOD-
TXOE+
TXOE-
+1V5-RX
10n
10n
2GF9
10n
2GH4
GND-TX
10n
2GH9
GND-RX
61
62
66
67
68
69
74
75
77
78
80
81
83
84
86
87
89
90
92
93
95
96
98
99
IGH9
5GE0
600R
2GG0
+1V5-P3
2
7GE1
M25P05-AVMN6
1u0
2GG1
+3V3-P3
Q
512K
FLASH
6GE0
6GE2
6GE3
0EGF
10n
10n
2GG2
10n
2GH0
8
VCC
Φ
D
C
S
W
HOLD
VSS
4
BAV70W
BAV70W
BAV70W
3GH2
789
+2V5-P3
5
6
1
3
7
IGF8
4K7
3GE2
100R
+3V3-P3
4K7
3GE5
100R
3GG0
RES
+2V5-PF
5GE1
600R
4K7
4K7
3GE6
IGA2
JTAG-TD-PACIFIC-PNX5050
3GE9
RES
JTAG-TD-CON-PACIFIC
3GH6
1K0
6GE5
PWM-3
PWM-3
PWM-OR
SDA-AMBI-3V3
SCL-AMBI-3V3
RES
9GE1
+3V3-P3
SML-310
2GG3
FGG1
IGF6
1u0
2GG4
3GG1
4K7
2GJ4
BAS316
6GE1
3GH0
2K2
+2V5-PLL
1EGF
10n
10n
2GG5
FGE3
RES
2GL2
10p
RxP3VS
CTRL4-P3
1GE0
10M
2GJ2
IG74
10n
100R
+3V3
IGE7
2GJ3
3GG5
JTAG-TCK
JTAG-TD-CON-PACIFIC
JTAG-TD-PACIFIC-PNX5050
JTAG-TMS
JTAG-TRST
RES
10p
IGE0
10K
FGE5
CTRL4-P3
RxP3FF
SDA-SSB
SCL-SSB
RES10p
FGG2
3GG4
3GH9
100R
3GF0
+3V3
3GH7
2
100R
10K
FGF2
3GF5
100R
60M
10K
2GL3
3GF1
100R
3GH8
FGG3
13
1GE1
RES
10p
3GF3
3GF8
3GG2
3GG3 100R
FGF3
P87LPC764BDH
10K
7
6
1
20
19
18
17
16
14
13
47R
100R
7GE0
3GE4
IGF3
1K0
100R
3GF9
IGE6
+3V3
CLKOUT
X2
CMP2
2B
2A
1B
1A
CMPREF
CMP1
T1
3GE3
IGE2
3GF7
IGE8
IGE9
9GE2
X1
P2<0:1>
CIN
P0<0:7>
+3V3-P3
1M0
165
164
172
193
191
192
194
4
FGG0
173
207
3
205
22R
1
2
206
177
178
179
183
185
187
188
198
200
202
204
114
Φ
uC
4Kb OTP
VSS
5
RES
3GE0
2GJ0
7GE2-2
T6TF4HFG-0002
OSC_Z
OSC_CLK_I
RSTN
SI
SCK
SO
CS
VSI
T1
TCK
TDI
TDO
TMS
TRST
TRIGOUT
MINTN
00
01
02
03
04
05
SCL
SDA
MSDA
MSCL
SSDA
SSCL
DEO
+5V-ON
RES
9GE3
15
VDD
INT
P1<0:7>
47K
TXD
RXD
SCL
SDA
RST
4u7
GPIO
3GE1
100R
CLKO
MISC
VSO
HSO
0
PWM
1
2
0
1
2
3
4
PD
5
6
7
8
9
0
1
2
PE
3
4
5
6
A<19:0>
RXD
RDN
TXD
PE<7:9>
7
6
5
4
D
3
2
1
0
PSEN
WRN
PF<0:9>
100n
2GJ1
IGH3
12
11
10
T0
IGH6
9
0
8
1
4
3
6
2
7
10 11 12 13
IGF4
13 14
CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3
RES
9GE0
109
IGE1
115
IGE3
116
IGE4
168
169
170
117
120
121
RES
122
123
126
127
128
4K7
129
132
133
134
135
137
139
140
141
143
145
146
148
149
151
153
154
155
159
160
161
162
IGH4
3GE8
IGH2
3GF2
IGH5
IGF0
IGF1
IGF2
3GE7
RES
4K7
4K7
3GF4
3GF6
4K7
4K7
3GG6
1K0
IGF7
3GG7
4K7
3GG8
4K7
3GG9
4K7
3GH1
4K7
PWM-OR
RES
RES
RES
RES
BACKLIGHT-CONTROL
*
+3V3
+3V3
P3-VS
H_16800_062.eps
010507
14
A
B
C
D
E
F
G
H
I
1GE0 F10
1GE1 B11
2GE0 A2
2GE1 A3
2GE2 A3
2GE3 A3
2GE4 A3
2GE5 A3
2GE6 A4
2GE7 A4
2GE8 A4
2GE9 A4
2GF0 A5
2GF1 A5
2GF2 A5
2GF3 A5
2GF4 B5
2GF5 B5
2GF6 B5
2GF7 B5
2GF8 B5
2GF9 B6
2GG0 A7
2GG1 A8
2GG2 A8
2GG3 A9
2GG4 A9
2GG5 A10
2GG6 B6
2GG7 C5
2GG8 C5
2GG9 C5
2GH0 B8
2GH1 D5
2GH2 D5
2GH3 D5
2GH4 D6
2GH5 D6
2GH6 E5
2GH7 E5
2GH8 E5
2GH9 E6
2GJ0 B11
2GJ1 G12
2GJ2 H10
2GJ3 G10
2GJ4 G9
2GJ5 B1
2GJ6 B3
2GJ7 C2
2GK0 D2
2GK1 D3
2GK2 D3
2GK3 E2
2GK4 B6
2GK5 B6
2GK6 B6
2GL1 A2
2GL2 B10
2GL3 B10
3GE0 A11
3GE1 B12
3GE2 B8
3GE3 B11
3GE4 B11
3GE5 B8
3GE6 B9
3GE7 C13
3GE8 C12
3GE9 C8
3GF0 C10
3GF1 C11
3GF2 C13
3GF3 C11
3GF4 C13
3GF5 C11
3GF6 D13
3GF7 D11
3GF8 D11
3GF9 D11
3GG0 D8
3GG1 D9
3GG2 E11
3GG3 E11
3GG4 H10
3GG5 H10
3GG6 H13
3GG7 H13
3GG8 I13
3GG9 I13
3GH0 H9
3GH1 I13
3GH2 I8
3GH3 D2
3GH4 D2
3GH5 E2
3GH6 F9
3GH7 G10
3GH8 G11
3GH9 D10
5GE0 A7
5GE1 A9
5GE2 A2
5GE3 B4
5GE4 C4
5GE5 D4
5GE6 D4
6GE0 G8
6GE1 H9
6GE2 H8
6GE3 I8
6GE5 G9
6GE6 D1
6GE7 D1
7GE0 G11
7GE1 C7
7GE2-1 F4
7GE2-2 B12
7GE2-3 E1
7GE3 B2
7GE5 D2
9GE0 B13
9GE1 C9
9GE2 G11
9GE3 G11
9GE4 D1
FGE0 A8
FGE1 A9
FGE2 A2
FGE3 A10
FGE4 B5
FGE5 D10
FGE8 C5
FGF2 E10
FGF3 E11
FGG0 C11
FGG1 C9
FGG2 H10
FGG3 H11
IG74 H10
IGA2 C9
IGA3 D6
IGA4 D6
IGE0 B10
IGE1 B13
IGE2 B11
IGE3 B13
IGE4 C13
IGE6 D11
IGE7 D10
IGE8 E11
IGE9 E11
IGF0 D13
IGF1 D13
IGF2 E13
IGF3 E11
IGF4 H12
IGF5 B4
IGF6 H9
IGF7 I13
IGF8 H8
IGF9 B2
IGH0 D2
IGH2 H12
IGH3 H12
IGH4 H12
IGH5 H13
IGH6 H12
IGH7 D1
IGH8 D2
IGH9 A7
POD: Supply & Control
1P00 A7
1X02 E1
2P00 B6
2P10 A2
2P11 A2
2P12 E3
2P13 B2
2P14 B2
2P15 B1
2P16 C1
2P17 C1
2P18 E2
2P20 A3
2P21 A3
2P22 B3
1 2345678910
Circuit Diagrams and PWB Layouts
2P23 B3
3P00 B5
3P03 E10
3P05 D1
3P06 D3
3P08 C3
3P09 C4
3P10 D10
3P11 D10
3P12 D10
3P13 D10
3P14 D10
3P15 D10
3P20 C8
3P21 D3
3P22 D2
3P24 E6
3P25 E6
3P26 E6
3P27 E6
3P28 E6
3P29 E6
3P30 E7
3P31 E7
3P32 E7
3P33 E6
3P61 E10
6P00 C3
6P01 C3
6P02 D3
89Q528.1E LA 7.
7P01 B1
7P03-1 C6
7P03-2 D6
7P10 C3
7P11 D3
9P00 C3
9P01 D2
9P02 D2
9P03 C3
9P04 C2
9P05 A10
9P06 A10
9P07 A10
FP00 A3
FP01 B3
FP02 C1
FP03 D1
FP04 D1
FP05 E8
IP00 D10
IP01 D10
IP02 D10
IP03 D10
IP04 D10
IP05 D10
IP06 C3
IP07 D2
IP08 C5
IP09 D3
IP10 C3
IP11 C2
IP13 C2
IP14 D2
IP15 D3
IP18 C8
IP20 D2
POD: SUPPLY / CONTROL
CABLE CARD INTERFACE
B07A B07A
(POD IS THE EQUIVALENT OF COMMON INTERFACE)
A
FP00
PCMCIA-VPP
10u
100n
100n
7P10
PDTC114EU
100n
2P20
2P22
+3V3
IP09
2P12
10u
2P21
10u
2P23
IP06
3P06
10K
6P02
BAS316
100n
10u
9P03
BAS316
+3V3
3P21
10K
FP01
3P08
10K
6P00
BAS316
9P00
6P01
PCMCIA-VCC
+3V3
3P09
10K
IP10
CA-VCCEN
CA-VPPEN
IP15
SUPPLY-FAULT
CA-ADDEN
PCI-CBE2
PCI-CBE1
PCI-AD16
PCI-AD17
CA-ADDEN
PCI-AD19
PCI-AD22
PCI-AD23
CA-WAIT
10K
IP08
3P00
7P03-1
74LVC244APW
1
2
4
6
8
7P03-2
74LVC244APW
19
17
15
13
11
+3V3
100n
18
16
14
12
3
5
7
9
CA-MDO1
3P26 10K
2P00
CA-MDO2
10K3P27
CA-MDO3
10K3P29
10K3P28
CA-OE
CA-WE
CA-CE2
CA-CE1
CA-REG
CA-IORD
CA-IOWR
PCI-AD18
CA-MDO5
CA-MDO4
3P30 10K
CA-MDO6
10K3P32
3P31 10K
CA-MDO7
20
EN
10
+3V3
20
EN
10
CA-MDO0
CA-MOVAL
CA-MOSTRT
10K3P25
3P24 10K
3P33 10K
B
C
D
E
+5V-POD
+3V3
+5V-POD
2P15
2P16
2P17
100n
100n
100n
FP02
FP03
FP04
1X02
EMC HOLE
TPS2211AIDB
9
VPPI
3
3V3
4
5
5V
6
7P01
7
GND
16
3P05
+3V3
VCC
VCCD0_
VCCD1_
VPPD0
VPPD1
SHDN_
IP20
10K
VPP
OC_
2P10
2P11
10u 10V
10V10u
2P13
10
11
12
13
1
2
IP13
15
14
8
IP07
2P14
IP11
9P04
9P01
9P02
IP14
7P11
PDTC114EU
3P22
220R
2P18
1P00
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
717273
535660-2
PCMCIA-D3
PCMCIA-D4
PCMCIA-D5
PCMCIA-D6
PCMCIA-D7
CA-CE1
PCMCIA-A10
CA-OE
PCMCIA-A11
PCMCIA-A9_DRX
PCMCIA-A8_CRX
PCMCIA-A13
MOCLK-POD_A14-CI
PCMCIA-VCC
PCMCIA-VPP
IP18
PCMCIA-VCC
PCMCIA-VPP
74
FP05
CA-WE
CA-INT
CA-MIVAL
CA-MICLK
PCMCIA-A12
PCMCIA-A7_QTX
PCMCIA-A6_ETX
PCMCIA-A5_ITX
PCMCIA-A4_CTX
PCMCIA-A3
PCMCIA-A2
PCMCIA-A1
PCMCIA-A0
PCMCIA-D0
PCMCIA-D1
PCMCIA-D2
3P20
10K
PCMCIA-VCC
CA-CD1
CA-MDO3
CA-MDO4
CA-MDO5
CA-MDO6
CA-MDO7
CA-CE2
CA-VS1
CA-IORD
CA-IOWR
CA-MISTRT
CA-MDI0
CA-MDI1
CA-MDI2
CA-MDI3
CA-MDI4
CA-MDI5
CA-MDI6
CA-MDI7
MOCLK-CI
CA-RST
CA-WAIT
CA-INPACK
CA-REG
CA-MOVAL
CA-MOSTRT
CA-MDO0
CA-MDO1
CA-MDO2
CA-CD2
MOCLK-CI
MOCLK-POD_A14-CI
CA-INPACK
CA-WAIT
CA-INT
CA-CD1
CA-CD2
CA-VS1
CA-MOCLK_VS2
MOCLK-CI
IP00
IP01
IP02
IP03
IP04
IP05
9P06
9P07
9P05
*
*
*
3P10
3P11
3P12
3P13
3P14
3P15
3P61
10K
3P03
10K
CA-MOCLK_VS2
PCMCIA-A14
PCMCIA-VCC +3V3
10K
10K
10K
10K
10K
10K
A
B
C
D
E
3104 313 6194.3
1 234
H_16800_063.eps
010507
5678910
POD: Buffering
2P50 A3
2P51 B7
2P52 C7
2P53 E3
2P54 C3
3P50 A5
1
3P52 C6
3P53 D5
3P55 E2
Circuit Diagrams and PWB Layouts
3P56 E7
3P57 E7
3P58 E7
3P59 E5
3P60 E7
3P62 C5
7P50-1 C6
7P50-2 D6
7P51-1 A2
7P51-2 B2
7P52-1 C2
7P53 E2
7P54 B6
7P55 A5
9P50 F6
9P52 F6
9P54 F6
90Q528.1E LA 7.
9P56 F6
9P57 F6
9P58 F6
IP50 B6
IP51 A2
IP52 B6
IP53 D6
IP54 C6
IP55 E6
IP56 E2
IP57 E2
IP58 E27P52-2 D2
23456
789
B07B B07B
POD: BUFFERING
10K
3P59
10K
*
3P53
10K
*
-AI
+3V3
10K
3P50
74LVC257APW
IP50
IP52
IP54
10K
3P52
74LVC244APW
1
2
4
6
8
IP53
74LVC244APW
19
17
15
13
11
IP55
4A-AICMCP
7P54
1
15
2
3
5
6
11
10
14
13
7P50-1
7P50-2
+3V3
G1
EN
MUX
1
1
*
EN
+3V3
*
EN
9P50
9P52
9P54
9P56
9P57
9P58
16
8
+3V3
20
10
20
10
100n
2P51
4
7
9
12
18
16
14
12
3
5
7
9
*
*
*
*
*
*
PCMCIA-A4_CTX
PCMCIA-A8_CRX
PCMCIA-A9_DRX
100n
PCMCIA-A5_ITX
PCMCIA-A6_ETX
PCMCIA-A7_QTX
3P56
*
33R
*
33R
33R
CMCP8A-AICMCP
2P52
AICMCP
I
3P57
3P58
*
_5A-AICMCP5A-AICMCP
XTC_4A-
X
RC_8A-A
XRD_9A-AICMCP9A
XTI
XTE_6A-AICMCP6A-AICMCP
XTQ_7A-AICMCP7A-AICMCP
CA-OOB-ITX
CA-OOB-ETX
CA-OOB-QTX
10K
3P60
*
A
B
C
D
E
F
3104 313 6194.3
CA-ADDEN
PCI-AD10
PCI-AD11
PCI-AD13
PCI-AD12
CA-ADDEN
PCI-AD3
PCI-AD2
PCI-AD1
PCI-AD0
CA-ADDEN
PCI-AD8
PCI-AD9
PCI-AD4
PCI-AD5
CA-ADDEN
PCI-AD6
PCI-AD7
PCI-AD14
CA-DATADIR
CA-DATAEN
PCMCIA-D2
PCMCIA-D1
PCMCIA-D0
PCMCIA-D7
PCMCIA-D6
PCMCIA-D5
PCMCIA-D4
PCMCIA-D3
3P55
IP51
10K
IP57
IP58
7P51-1
74LVC244APW
1
2
4
6
8
7P51-2
74LVC244APW
19
17
15
13
11
7P52-1
74LVC244APW
1
2
4
6
8
7P52-2
74LVC244APW
19
17
15
13
11
IP56
7P53
74LVC245A
1
19
2
3
4
5
6
7
8
9
3EN1
3EN2
G3
2
EN
EN
EN
EN
+3V3
20
10
+3V3
20
10
+3V3
20
10
+3V3
20
10
+3V3
20
10
1
2P50
100n
2P54
100n
18
16
14
12
3
5
7
9
18
16
14
12
3
5
7
9
18
17
16
15
14
13
12
11
2P53
PCMCIA-A10
PCMCIA-A11
PCMCIA-A13
PCMCIA-A12
PCMCIA-A14
100n
PCMCIA-A3
PCMCIA-A2
PCMCIA-A1
PCMCIA-A0
PCMCIA-A8
PCMCIA-A9
PCMCIA-A4
PCMCIA-A5
PCMCIA-A6
PCMCIA-A7
PCI-AD26
PCI-AD25
PCI-AD24
PCI-AD31
PCI-AD30
PCI-AD29
PCI-AD28
PCI-AD27
CA-VCCEN
CA-ADDEN
PCMCIA-A4
CA-OOB-CTX
PCMCIA-A8
CA-OOB-CRX
PCMCIA-A9
CA-OOB-DRX
7P55
PDTC114EU
3P62
CA-ADDEN
PCMCIA-A5
PCMCIA-A6
PCMCIA-A7
CA-OOBEN
PCMCIA-A5_ITX
PCMCIA-A6_ETX
PCMCIA-A7_QTX
CMCP
A
B
C
D
E
F
H_16800_064.eps
010507
1234567
89
POD: Debug
1P01-A A5 1P01-B A5
Circuit Diagrams and PWB Layouts
1P01-C A6 1P01-D A3 9PB7 E3
91Q528.1E LA 7.
9PB8 E3 9PB9 E3 9PC3 E6 9PC4 E6
1234
56
78
POD: DEBUG
B07C B07C
A
B
C
D
1P01-D
D1
D2
D3
D4
D5
D6
D7
D8
D9
D10
D11
D12
D13
D14
D15
D16
D17
D18
D19
D20
D21
D22
D23
D24
D25
D26
D27
D28
D29
D30
D31
D32
D33
D34
D35
SOLC-135-02-S-Q-A
PCI-AD13
PCI-AD14
PCI-AD15
PCI-CBE1
PCI-PAR
PCI-SERR
PCI-PERR
PCI-DEVSEL
PCI-IRDY
PCI-CBE2
PCI-AD17
PCI-AD19
PCI-AD21
PCI-AD23
PCI-AD25
PCI-AD27
PCI-AD29
PCI-AD31
PCI-GNT-DEBUG
PCI-CLK-DEBUG
PCI-CBE3
PCI-AD0
PCI-AD1
PCI-AD2
PCI-AD3
PCI-AD4
PCI-AD5
PCI-AD6
PCI-AD7
PCI-CBE0
PCI-AD8
PCI-AD9
PCI-AD10
PCI-AD11
PCI-AD12
PCI-STOP
PCI-TRDY
PCI-FRAME
PCI-AD16
PCI-AD18
PCI-AD20
PCI-AD22
PCI-AD24
PCI-AD26
PCI-AD28
PCI-AD30
PCI-INTA
PCI-REQ-DEBUG
1P01-A
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
A16
A17
A18
A19
A20
A21
A22
A23
A24
A25
A26
A27
A28
A29
A30
A31
A32
A33
A34
A35
SOLC-135-02-S-Q-A
1P01-B
B1
B2
B3
B4
B5
B6
B7
B8
B9
B10
B11
B12
B13
B14
B15
B16
B17
B18
B19
B20
B21
B22
B23
B24
B25
B26
B27
B28
B29
B30
B31
B32
B33
B34
B35
SOLC-135-02-S-Q-A
1P01-C
C1
C2
C3
C4
C5
C6
C7
C8
C9
C10
C11
C12
C13
C14
C15
C16
C17
C18
C19
C20
C21
C22
C23
C24
C25
C26
C27
C28
C29
C30
C31
C32
C33
C34
C35
SOLC-135-02-S-Q-A
A
B
C
D
E
3104 313 6194.3
1
PCI-INTA
PCI-INTA-OUT
IRQ-PCI IRQ-PNX5050
2
9PB7
9PB8
9PB9
IRQ-PNX5050
PCI-INTA
34
9PC3
9PC4
PCI-REQ-PNX5050PCI-REQ-PNX8535
PCI-GNT-PNX5050PCI-GNT-PNX8535
H_16800_065.eps
010507
5678
E
Circuit Diagrams and PWB Layouts
SSB: UART
1J11 B3
1J12 B3 FJ11 B3
1M15 B4
2J11 B3
2J12 B3
3J11 B2
3J12 B2
6J11-1 A2
6J11-2 B2
9J08 B1
9J09 B1
1234
FJ12 B3
FJ13 B3
92Q528.1E LA 7.
Personal Notes:
B08A B08A
UART
BAV99S
6J11-2
BAV99S
6J11-1
6
3
RES
RES
2
3J11
3J12
100R
5
+3V3-STANDBY
FJ12
100R
FJ11
+3V3-STANDBY
1J12 1J11
2J11
2J12
100p
100p
FJ13
YKB21-5101A
1
8
7
3
2
4
5
1M15
UART
SERVICE
CONNECTOR
A
B
C
RXD-SERV
TXD-SERV
RXD
TXD
1
9J08
9J09
4
A
B
C
3104 313 6194.3
1234
H_16800_066.eps
010507
E_06532_012.eps
131004
Circuit Diagrams and PWB Layouts
93Q528.1E LA 7.
SSB: SPDIF
2J30 B2
2J31 B3
2J32 B3
2J33 C3
2J34 C6
2J35 C4
3J30 B3
3J31 B4
3J32 C3
3J33 C5
3J34 C6
3J35 C7
3J36 D7
7J30-1 B4
7J30-2 B6
7J30-3 D4
7J30-4 D6
7J30-5 C4
7J30-6 C5
FJ30 B3
12345
IJ30 B3
IJ31 B5
IJ32 C6
IJ33 C6
IJ34 B3
6789
SPDIF
B08B B08B
A
B
C
1n0
2J30
SPI
SPDIF-OUT
2J31
3J32
100n
IJ34
2J32
75R
10u
2J33
100n
IJ30
+3V3
3J30
2R2
FJ30
74HCU04PW
74HCU04PW
3J31
22K
7J30-1
14
1 1
7
2J35
100n
1
714
2
10
1
7J30-5
11
IJ31
3J33
47K
7J30-2
74HCU04PW
3
7J30-6
74HCU04PW
13
714
1
714
A
B
3J34
4
68R
SPDIF-IN1
C
IJ32
2J34
100n
12
IJ33
3J35
220R
3J36
SPI-OUT
120R
D
E
3104 313 6194.3
74HCU04PW
5
14
1 1
6
7
7J30-47J30-3
74HCU04PW
9
714
8
D
E
H_16800_067.eps
123 789
456
010507
Circuit Diagrams and PWB Layouts
94Q528.1E LA 7.
SSB: Externals A
12345678910111213
B08C B08C
A
B
C
D
E
F
G
H
I
EXTERNALS A
MONITOR - OUT
FJ42
1J52
6J46
6J47
FJ41
PDZ6.8-B
IJ66
PDZ6.8-B
3J57
100R
6J44
6J45
FJ40
PDZ6.8-B
IJ65
PDZ6.8-B
3J50
100R
3J60
SPDIF IN
SPDIF OUT
FJ52
LEFT
RIGHT
1JA2
YKC21-4225N
YKC21-4225N
1JA1
BLACK
3
12
BLACK
WHITE
12
3
RED
1J53
1J50
1J51
100K
IJ71
IJ72
3J54
2J66
PDZ6.8-B
PDZ6.8-B
PDZ6.8-B
PDZ6.8-B
2J62
100p
100K
IJ36 IJ37
6
7J42-1
100p
1
6J40
6J41
6J42
6J43
IJ54
7J42-2
BC847BS
3
4
3J58
150R
FJ31
BC847BS
IJ38
2
2J42
2J49
3J51
150R
IJ40
5J40
30R
22p
22p
IJ35
5
3J59
1K0
5J45
RES
2J65
22p
RES
2J41
IJ46
30R
RES
2J71
100p
IJ53
2J61
1u0
IJ57
3J53
1K0
1u0
SPI-OUT
AUDIO-OUT-L
A-PLOP
AUDIO-OUT-R
A-PLOP
SPI
UART-SWITCH
+3V3
6J30
BAS316
6J31
BAS316
+3V3-STANDBY +3V3-STANDBY
IJ62
10K
7J51
BC847B
3J22
3J21
100K
7J50
BC857BW
IJ59
10K
3J24
3JE0
100R
3JE1
100R
100K
IJE9
IJE6
+3V3-UART
2JE2
100n
2JE5
100n
IJ67
IJ68
7JE2
ST3232C
IJ58
IJ63
IJE3
IJ64
IJ74
+3V3-UART
100n
FJEC
16
VCC
Φ
RS232
1
C1+
3
C1-
4
C2+
5
C2-
T1
01
3
1
IN
T2
R1
IN OUT
R2
9JE0
RES
9JE1
RES
9JE3
RES
9JE4
OUT
GND
15
RES
2JE1
IJE1
2JE3
6
V-
V+
T1
T2
R1
R2
2JE4
100n
2
IJE4
100n
3JE3
100R
FJED
FJEE
FJEA
FJEB
IJ69
4111
IJ70
7
IJ73
21
98
3JE2
100R
3JE4
100R
3JE5
100R
TXD2
RXD2
1HE2
TXD2
RXD2
45
B3B-PH-SM4-TBT(LF)
1HE1
TXD
RXD
45
B3B-PH-SM4-TBT(LF)
MIPS/STBY
9J06
9J07
1
2
UART2
3
FOR
FACTORY
1
2
3
UART1
RXD-SERV
TXD-SERV
USE ONLY
3J20
IJ56
3J25
100K
RES
IJ61
2J20
100p
IJ60
3J23
10K
DEBUG / RS232 INTERFACE
DV-B1_UART2-TX
TXD
RXD
DV-B0_UART2-RX
1HE1 H12
1HE2 G12
1J50 A3
1J51 B3
1J52 D2
1J53 E2
1JA1 D2
1JA2 A2
2J20 B7
2J41 A4
A
2J42 A4
2J49 B4
2J61 C4
2J62 D3
2J65 D4
2J66 E3
2J71 B4
2JE1 F10
2JE2 G9
2JE3 G10
2JE4 G11
B
2JE5 G9
3J20 B8
3J21 B8
3J22 B8
3J23 B7
3J24 B9
3J25 B7
3J50 C3
3J51 C4
3J53 D4
3J54 D3
3J57 D3
C
3J58 D4
3J59 E4
3J60 E3
3JE0 G8
3JE1 H8
3JE2 G11
3JE3 G11
3JE4 H11
3JE5 H11
5J40 A4
5J45 B4
6J30 B6
D
6J31 B6
6J40 A3
6J41 B3
6J42 B3
6J43 C3
6J44 C3
6J45 D3
6J46 E2
6J47 E2
7J42-1 E3
7J42-2 D4
7J50 B9
E
7J51 B8
7JE2 F9
9J06 I12
9J07 I12
9JE0 H10
9JE1 I10
9JE3 I10
9JE4 I10
FJ31 B4
FJ40 A3
FJ41 C2
F
FJ42 D2
FJ52 B2
FJEA H12
FJEB H12
FJEC F10
FJED G12
FJEE G12
IJ35 D4
IJ36 D3
IJ37 D4
IJ38 E4
IJ40 A4
G
IJ46 B4
IJ53 C4
IJ54 C3
IJ56 B8
IJ57 D5
IJ58 G9
IJ59 B8
IJ60 B7
IJ61 B7
IJ62 A8
IJ63 G9
IJ64 G9
H
IJ65 D3
IJ66 E3
IJ67 G9
IJ68 G9
IJ69 G11
IJ70 G11
IJ71 B3
IJ72 C3
IJ73 G10
IJ74 H9
IJE1 G10
I
IJE3 G9
IJE4 G10
IJE6 G9
IJE9 H9
3104 313 6194.3
123456789101112
H_16800_068.eps
13
010507
Circuit Diagrams and PWB Layouts
95Q528.1E LA 7.
SSB: HDMI
1
2021
FJA7
HDMI
9JE9
FJA0
9JA4
FJA1
FJA2
FJA3
FJA5
B08D B08D
1B01
1
A
B
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
FJA6
DC1R019HBA
HDMI CONNECTOR 1
C
D
9JE8
E
1B03
1
2
3
4
5
6
FJ35
7
8
9
10
11
12
13
14
15
16
17
18
19
DC1R019HBA
FJ39
FJ38
2021
FJ34
F
G G
HDMI CONNECTOR 3
H
I
3104 313 6194.3
123
2345
1JB1
1JB2
1K0
6JA1
4K7
1J41
HDMI 3
1K0
3J18
4K7
3J17
FJB0
FJB1
5JA1
30R
100n
2JA0
7JA0
M24C02-WDW6
1
0
2
ADR
1
3
2SDA
6JA2
3JB9
100K
BAS316
BAS316
FJ32
FJ33
1J42
2J01
100n
7J29
M24C02-WDW6
1
2
3
3J10
6J12
6J10
BAS316
BAS316
100n
2JA1
IJ43
84
Φ
(256x8)
WC
EEPROM
SCL
IJA6
3JB7
22R
7JE3
BC847BW
4n7
2JA7
1JB6
5J39
30R
2J02
100n
IJ50
84
Φ
(256x8)
WC
EEPROM
2J03
SCL
IJ51
3J08
22R
7J28
BC847BW
4n7
1J43
0
ADR
1
2SDA
100K
FJ36
FJ43
FJ37
9JF0
9JA0
9JA5
AIN-5V
9JE5
9JE6
IJ41
CIN-5V
PCEC-HDMI
ARX-DDC-SCL
ARX-DDC-SDA
ARX-HOTPLUG
IJ55
CRX-HOTPLUG
ARX2+
ARX-DDC-SCL
ARX2-
ARX-DDC-SDA PARX-DDC-SDA
ARX1+
AIN-5V
ARX1-
ARX0+
ARX0-
ARXC+
ARXC-
1JB0
EDID NVM
HDMI 1
ARX-HOTPLUG
3JA9
AIN-5V
3JC8
CRX-DDC-SCL PCRX-DDC-SCL
CRX-DDC-SDA
CIN-5V
1J40
CRX2+
CRX2-
CRX1+
CRX1-
CRX0+
CRX0-
CRXC+
CRXC-
PCEC-HDMI
CRX-DDC-SCL
CRX-DDC-SDA
+5V-CON
EDID NVM
CRX-HOTPLUG
CIN-5V
+5V-CON
4567891011
6 7 8 9 10 11 12 13
9JA2
IJA0
3JA0
100R
EDID1
IJ45
7
6
5
100R
3JA7
FJ14
3JA8
100R
10K
3JA4
47K
3JA6
3JA5
3JA1
100R
47K
PARX-DDC-SCL
IJA5
1B02
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
21
DC1R019HBA
1JB4
1JB5
0001-0015
M24C02-WDW6
FJC4
FJC5
5JA2
30R
100n
2JA2
0001-0015
7JA1
Φ
(256x8)
EEPROM
1
0
2
ADR
1
3
2SDA
IJB3
100n
2JA3
84
EDID2
IJ44
7
WC
6
SCL
5
3JB6
100R
FJB7
3JB3
10K
BRX-DDC-SCL
BRX2+
BRX-DDC-SDA
BRX2-
BRX1+
BIN-5V
BRX1-
BRX0+
BRX0-
BRXC+
BIN-5V
BRXC-
PCEC-HDMI
BRX-DDC-SCL
BRX-DDC-SDA
BRX-HOTPLUG
FJB3
9JA1
RES
FJB4
9JA6
9JA7
FJB5
FJB6
FJB8
20
FJB9
1JB3
0001-0015
EDID NVM
HDMI 2
3JC0
100R
3JB4
3JB0
100R
IJA2
100R
47K
47K
3JB5
3JC5
14
PBRX-DDC-SCL
IJA4
PBRX-DDC-SDA
HDMI CONNECTOR 2
IJA7
2JA4
EDID3
IJ49
7
3J05
6
100R
5
2J04
3JB8
10K
10n
IJ47
3J00
100R
10K
3J04
47K
3J03
FJA4
3J06
100R
IJ52
10n
3J02
3J07
10K
3J01
100R
47K
IJ48
HOT-PLUG
PCRX-DDC-SDA
HOT-PLUG
PCEC-HDMI
3J13
100R
IJ39
+5VS
9JE7
3J15
BRX-HOTPLUG
BIN-5V
BC847BW
7JA2
10K
+5V-CON
3JC3
3JC7
100R
1K0
6JA4
6JA3
3JC4
100K
BAS316
BAS316
4K7
3J14
IJA8
3JC1
22R
7JA3
BC847BW
4n7
1JB7
2JA6
IJA9
10n
2JA5
3JC2
10K
HOT-PLUG
CEC-HDMI
H_16800_069.eps
010507
12 13 14
A
B
C
D
E
F
H
I
1B01 A1
1B02 A8
1B03 F1
1J40 F3
1J41 F3
1J42 F4
1J43 H5
1JB0 A3
1JB1 A3
1JB2 A4
1JB3 A10
1JB4 A10
1JB5 A11
1JB6 D4
1JB7 D11
2J01 F4
2J02 F5
2J03 H4
2J04 H5
2JA0 A4
2JA1 A5
2JA2 A11
2JA3 A12
2JA4 C5
2JA5 D12
2JA6 D11
2JA7 D4
3J00 F6
3J01 F7
3J02 G6
3J03 G6
3J04 G6
3J05 G5
3J06 G6
3J07 H6
3J08 H5
3J10 H4
3J13 F9
3J14 F10
3J15 F9
3J17 I3
3J18 H3
3JA0 A6
3JA1 A6
3JA4 B5
3JA5 B6
3JA6 B6
3JA7 B5
3JA8 B5
3JA9 D3
3JB0 A13
3JB3 B12
3JB4 B13
3JB5 B13
3JB6 B12
3JB7 C4
3JB8 C6
3JB9 D4
3JC0 B13
3JC1 C11
3JC2 C13
3JC3 D10
3JC4 D11
3JC5 A14
3JC7 D10
3JC8 D3
5J39 F4
5JA1 A4
5JA2 A11
6J10 H4
6J12 H4
6JA1 D3
6JA2 D4
6JA3 D10
6JA4 D11
7J28 H5
7J29 G4
7JA0 B4
7JA1 B11
7JA2 F10
7JA3 C12
7JE3 C5
9JA0 B2
9JA1 B9
9JA2 A6
9JA4 B2
9JA5 B2
9JA6 B9
9JA7 B9
9JE5 F2
9JE6 G2
9JE7 E9
9JE8 E1
9JE9 A1
9JF0 G2
FJ14 B5
FJ32 F4
FJ33 F4
FJ34 G1
FJ35 G1
FJ36 G2
FJ37 G2
FJ38 G1
FJ39 G1
FJ43 F2
FJA0 B1
FJA1 B1
FJA2 B1
FJA3 B1
FJA4 G6
FJA5 B1
FJA6 B1
FJA7 B1
FJB0 A4
FJB1 A4
FJB3 B9
FJB4 B9
FJB5 B9
FJB6 B9
FJB7 B12
FJB8 B9
FJB9 B9
FJC4 A11
FJC5 A11
IJ39 F9
IJ41 B2
IJ43 B4
IJ44 B12
IJ45 B5
IJ47 F6
IJ48 F7
IJ49 G5
IJ50 F4
IJ51 H5
IJ52 H5
IJ55 F2
IJA0 A6
IJA2 A13
IJA4 A14
IJA5 A7
IJA6 C5
IJA7 C5
IJA8 C12
IJA9 C12
IJB3 A12
Circuit Diagrams and PWB Layouts
96Q528.1E LA 7.
SSB: HDMI Switch
1
B08E B08E
HDMI SWITCH
2345
6789
A
+5V-MUX
11322
82
AMUXVCCDVCC
7
19
57
AUX
PP
AUX
AUX
AUX
AUX
VTTI
VTTO
OTO
OCL
OP0
ON0
OP1
ON1
OP2
ON2
OP3
ON3
COM0
COM1
COM2
COM3
EN
EQ
C0
C1
C2
C3
D0
D1
D2
D3
69
35
41
100
48
76
77
34
33
37
36
40
39
43
42
90
89
88
87
99
A0
98
A1
97
A2
96
A3
94
B0
93
B1
92
B2
91
B3
86
85
84
83
81
80
79
78
+3V3-ANA
PCRX-DDC-SCL
PCRX-DDC-SDA
PBRX-DDC-SCL
PBRX-DDC-SDA
PARX-DDC-SCL
PARX-DDC-SDA
RXC+
RXC-
RX0+
RX0-
RX1+
RX1-
RX2+
RX2-
DDC-SCL
DDC-SDA
+3V3
+5V-CON
5JA3
12
220R
5JA4
220R
IJ42
5JA5
220R
2JA8
2JB1
10u
10u
2JA9
2JB2
2JC0
100n
100n
100n
2JB0
2JB3
2JC1
1n0
100n
1n0
2JB4
FJC1
FJC2
100n
2JB5
FJC3
100n
2JB6
2JE6
1n0
2JB7
100n
1n0
2JE7
2JB8
1n0
1n0
2JB9
1n0
+3V3-DIG
2JE8
+5V-MUX
100n
2JE9
100n
2JF0
1n0
2JF1
B
C
D
E
RESET-SYS-DETECT
SCL-SSB
SDA-SSB
CRXCCRXC+
CRX0CRX0+
CRX1CRX1+
CRX2CRX2+
BRXCBRXC+
BRX0BRX0+
BRX1BRX1+
BRX2BRX2+
ARXCARXC+
ARX0ARX0+
ARX1ARX1+
ARX2ARX2+
9JA3
3J09
100R
3J16
100R
3J19
10K
RES
7J27
AD8191ASTZ
44
26
27
28
49
50
30
31
45
46
14
15
17
18
20
21
23
24
2
3
5
6
8
9
11
12
64
65
67
68
70
71
73
74
52
53
55
56
58
59
61
62
47
RESET
0
1
I2C_ADDR
2
SCL
SDA
0
PP_CH
1
0
PP_PRE
1
IN
A0
IP
IN
A1
IP
IN
A2
IP
IN
A3
IP
IN
B0
IP
IN
B1
IP
IN
B2
IP
IN
B3
IP
IN
C0
IP
IN
C1
IP
IN
C2
IP
IN
C3
IP
IN
D0
IP
IN
D1
IP
IN
D2
IP
IN
D3
IP
I2C
38
DVEE
+3V3-DIG
32
75
29
95
+3V3-ANA
54
63
AVCC
Φ
AVEE
4
10162551606672
1n0
+3V3-ANA
A
B
C
D
E
2JA8 D6
2JA9 D7
2JB0 D7
2JB1 D6
2JB2 D7
2JB3 D7
2JB4 D7
2JB5 D7
2JB6 D7
2JB7 D8
2JB8 D8
2JB9 D8
2JC0 E7
2JC1 E7
2JE6 D8
2JE7 D8
2JE8 D8
2JE9 D9
2JF0 D9
2JF1 D9
3J09 B1
3J16 C1
3J19 B2
5JA3 D6
5JA4 D6
5JA5 E6
7J27 B2
9JA3 B1
FJC1 D7
FJC2 D7
FJC3 E7
IJ42 E6
F
3104 313 6194.3
12
F
H_16800_070.eps
3
456789
010507
Circuit Diagrams and PWB Layouts
97Q528.1E LA 7.
SSB: Analogue Externals
12345
100n
100n
AP-SCART-OUT-R
AUDIO-IN2-R
AP-SCART-OUT-L
AUDIO-IN2-L
AV2-STATUS
P50
AV3_Y
AV2-FBL
AV2-BLK
AV2_Y-CVBS
B09A B09A
A
AV3_PB
B
C
D
E
F
G
H
I
AV3_PR
REGIMBEAU_CVBS-SWITCH
Y-CVBS-MON-OUT_SC
+12V
AV2_C
AV2-FBL
C-MON-OUT
AV2-FBL
CVBS-TER-OUT
FE90
2E40
ANALOGUE EXTERNALS
+8V6
IE24
7E06
BC847BW
IE25
1K0
3E75
2E35
100n
7E12
BC847BW
IE26
1K0
3E50
2E36
100n
7E05
BC847BW
IE29
1K0
3E53
IE31
3E20
47K
2E11
10u 10V
IE33
3E03
390R
1K8
3E72 100R
7E70
L78M08CDT
13
OUTIN
COM
2
1u0
3E74
100R
+8V6
IE27
3E76
100R
3E13
47K
+8V6
IE28
3E78
100R
3E08
4K7
+8V6
IE32
7E03
BC847BW
IE36
7E08
BC847BW
3E47
IE15
100p
2E04
+8V6
2E17
7E04
BC847BW
IE39
3E02
560R
FE91
1u0
2E41
IE30
7E11
BC847BW
+8V6
3E46
100n
IE03
3E70
1R0
3E71
680R
IE01
IE34
IE14
74HC4053PW
IE38
8K2
2E05
FE88
2E42
6E40
2E22
7E02
6
13
12
11
1
2
10
3
5
9
6E18
BAS316
100n
74HC4053PW
6
13
12
11
1
2
10
3
5
9
100n
2E43
2E45
BZX384-C2V7
220n
7E10
16V100u
FE89
10V22u
16
VDD
MDX
G4
1
2
4X1
4X2
VEE VSS
7
+8V6
22K
3E25
IE02
22K
3E29
+8V6
VDD
MDX
G4
1
2
4X1
4X2
VEE VSS
7
2E44
2E46
6E05
BAS316
14
15
4
8
IE35
100n
2E15
100n
2E23
16
14
15
4
8
+8V6
1u0
VREF
100n
FE57
FE58
+8V6
3E04
3E09
22K
FE69
22K
3E01
100R
3E42
100R
2E09
2E07
+8V6
7E01
BC847BW
100n
10u10V
3E23
+8V6
IE45
+8V6
IE41
6E06
2E14
1K0
7E07
BC847BW
7E13
BC847BW
100n
3E48
BAS316
2E08
10V 10u
3E06
68R
3E39
+8V6
9E05
3E05
3E10
IE40
390R
390R
2E03
22K
FE86
22K
2E37
2E12
100n
IE42
3104 313 6194.3
1234567 13 14
67891011
0001
0001
0001
FE68
0001
1E13
3E61
PDZ6.8-B
FE62
0001
1E16
FE60
FE61
SCART2
(AV2)
1020
1
2
3
4
5
6
FE63
7
FE64
8
9
FE65
10
FE66
11
12
13
14
FE67
15
FE76
16
17
18
FE77
19
FE78
20
21
FE79
PPTV/55
0001
75R
0001
1E26
AP-SCART-OUT-R
AUDIO-IN1-R
AP-SCART-OUT-L
AUDIO-IN1-L
AV1_PB_BO
AV1_PB
AV1-STATUS
AV1_Y_BO
AV1_Y
AV1_PR_BO
AV1_PR
AV1-BLK_BO
AV1-BLK
AV1_Y-CVBS
BC847BPN
7E09-2
IE52
100p
2E01
100K
3E12
IE22
100p
2E06
100K
3E27
100p
2E10
100K
3E30
IE23
100p
2E16
3E22
100K
IE19
3E36
100R
75R
3E28
6E20
PDZ6.8-B
IE18
3K3
330p
2E18
3E32
IE17
3E35
100R
75R
3E38
6E25
PDZ6.8-B
IE16
3E41
100R
75R
3E54
6E27
PDZ6.8-B
2K2
4
3
3E65
IE08
3E45
3E40
IE50
5
4K7
3E57
100R
68R
6E30
3E58
PDZ6.8-B
IE48
7E09-1
BC847BPN
22K
6E32
3E44
6
1
3E56
PDZ6.8-B
+8V6
9E15
7E15
BC847BW
BC847BPN
7E14-2
3E63
100R
6E04
8K2
VREF
3E62
PDZ6.8-B
IE10
6E10
PDZ6.8-B
IE11
I
6E14
PDZ6.8-B
IE12
6E19
PDZ6.8-B
IE13
0001
1E08
0001
1E09
0001
1E11
3E26
100R
IE44IE43
+5V-ON
4K7
2E13
3E73
6
2
1
IE46
2K2
3E81
75R
1E27
1E24
6E31
PDZ6.8-B
6E34
16V100n
6E08
6E12
6E16
6E21
6E02
3E69
100R
0001
0001
PDZ6.8-B
PDZ6.8-B
PDZ6.8-B
PDZ6.8-B
BZX384-C12
PDZ6.8-B
3E51
1E28
1E29
1E30
1E06
75R
6E36
100p
100K
3E24
2E29
IE20
3E11
100R
100p
2E30
3E18
100K
3E64
100R
100p
2E32
100K
3E21
IE21
3E14
100R
100p
3E34
100K
2E31
6E24
PDZ6.8-B
3E16
3K3
330p
2E33
3E17
3E66
100R
6E33
PDZ6.8-B
100n
2E19
22K
3E33
2E20
10u10V
1K0
3E60
3E67
100R
75R
6E35
3E55
PDZ6.8-B
2K2
3E77
IE47
4
3
IE51
3E79
3E49
100R
IE37
5
7E14-1
BC847BPN
22K
4K7
3E80
6E37
PDZ6.8-B
3E52
68R
8 9 10 11 12
1E12
1E18
12 13 14
3E37
100R
6E01
PDZ6.8-B
IE04
6E03
3E07
100R
6E07
PDZ6.8-B
IE05
6E09
3E15
100R
6E11
PDZ6.8-B
IE06
6E13
3E19
100R
6E15
PDZ6.8-B
IE07
6E17
0001
3E31
8K2
0001
6E22
1E14
0001
0001
1E19
+5V-ON
4K7
IE49
2K2
3E59
2E24
2E02
22u 10V
IE09
3E68
2
100R
75R
0001
1E25
0001
1E23
PDZ6.8-B
PDZ6.8-B
PDZ6.8-B
PDZ6.8-B
BZX384-C12
100n
1E00
1E31
1E07
1E10
6E29
0001
0001
0001
0001
PDZ6.8-B
3E43
FE70
1
FE71
2
FE72
3
4
FE81
FE82
FE83
FE84
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
FE85
FE73
FE74
FE75
FE80
75R
0001
1E22
SCART1
(AV1)
1030
PPTV/55
H_16800_071.eps
010507
G
A
B
C
D
E
F
H
I
1020 C9
1030 C14
1E00 A12
1E06 C8
1E07 C12
1E08 C7
1E09 D7
1E10 C12
1E11 E7
1E12 D11
1E13 F8
1E14 E12
1E16 G8
1E18 F11
1E19 G11
1E22 H13
1E23 I12
1E24 I7
1E25 I12
1E26 H8
1E27 I7
1E28 A8
1E29 A8
1E30 B8
1E31 B12
2E01 A11
2E02 G12
2E03 I5
2E04 F2
2E05 E3
2E06 B11
2E07 B4
2E08 B5
2E09 B4
2E10 C11
2E11 D2
2E12 B5
2E13 G7
2E14 C4
2E15 D3
2E16 C11
2E17 F2
2E18 E11
2E19 E6
2E20 F7
2E22 A3
2E23 F4
2E24 G12
2E29 A7
2E30 A7
2E31 C7
2E32 B7
2E33 D6
2E35 B1
2E36 B1
2E37 G5
2E40 I1
2E41 I2
2E42 H2
2E43 H3
2E44 H3
2E45 I3
2E46 I3
3E01 H4
3E02 G2
3E03 E2
3E04 A4
3E05 A5
3E06 D5
3E07 B11
3E08 C2
3E09 B4
3E10 B5
3E11 A7
3E12 A11
3E13 B2
3E14 C7
3E15 B11
3E16 D7
3E17 D7
3E18 A6
3E19 C11
3E20 C2
3E21 B6
3E22 C11
3E23 D4
3E24 A6
3E25 D3
3E26 F7
3E27 B11
3E28 D11
3E29 D3
3E30 C11
3E31 E11
3E32 E11
3E33 F7
3E34 C6
3E35 F11
3E36 D11
3E37 A11
3E38 F11
3E39 H5
3E40 G11
3E41 G11
3E42 I4
3E43 H13
3E44 G11
3E45 I11
3E46 E2
3E47 F2
3E48 I5
3E49 H6
3E50 B1
3E51 F8
3E52 I7
3E53 C1
3E54 G11
3E55 G7
3E56 H11
3E57 I11
3E58 H11
3E59 I11
3E60 F6
3E61 H8
3E62 I7
3E63 A7
3E64 B7
3E65 H10
3E66 E6
3E67 F6
3E68 H12
3E69 H8
3E70 H2
3E71 I2
3E72 G1
3E73 G7
3E74 A2
3E75 A1
3E76 B2
3E77 G6
3E78 C2
3E79 H6
3E80 H7
3E81 H7
6E01 A12
6E02 D7
6E03 A12
6E04 A7
6E05 B4
6E06 B4
6E07 B12
6E08 A7
6E09 B12
6E10 A7
6E11 C12
6E12 B7
6E13 C12
6E14 B7
6E15 C12
6E16 B7
6E17 D12
6E18 D3
6E19 C7
6E20 D11
6E21 C7
6E22 E12
6E24 C6
6E25 F11
6E27 G11
6E29 H12
6E30 I11
6E31 I7
6E32 I11
6E33 E6
6E34 F7
6E35 G6
6E36 H8
6E37 I6
6E40 I2
7E01 D4
7E02 B3
7E03 D2
7E04 G2
7E05 C1
7E06 A1
7E07 H4
7E08 F2
7E09-1 H11
7E09-2 H10
7E10 F3
7E11 E2
7E12 B1
7E13 I4
7E14-1 H7
7E14-2 H6
7E15 F6
7E70 H1
9E05 B5
9E15 F6
FE57 B4
FE58 B4
FE60 A8
FE61 A8
FE62 B8
FE63 D8
FE64 D8
FE65 D8
FE66 E8
FE67 E8
FE68 C8
FE69 A4
FE70 C13
FE71 C13
FE72 C13
FE73 D13
FE74 D13
FE75 D13
FE76 E8
FE77 F8
FE78 F8
FE79 F9
FE80 D13
FE81 E13
FE82 E13
FE83 F13
FE84 F13
FE85 F13
FE86 A5
FE88 H3
FE89 I3
FE90 I1
FE91 I2
IE01 B2
IE02 D3
IE03 G2
IE04 A12
IE05 B12
IE06 C12
IE07 C12
IE08 I11
IE09 H12
IE10 A7
IE11 A7
IE12 B7
IE13 C7
IE14 F2
IE15 F2
IE16 F10
IE17 F10
IE18 E11
IE19 D10
IE20 A6
IE21 B6
IE22 B11
IE23 C11
IE24 A2
IE25 A1
IE26 B1
IE27 B2
IE28 C2
IE29 C1
IE30 C2
IE31 C1
IE32 C2
IE33 D1
IE34 D2
IE35 C4
IE36 E2
IE37 G7
IE38 D2
IE39 G2
IE40 H5
IE41 I4
IE42 I5
IE43 F6
IE44 F7
IE45 G4
IE46 H7
IE47 G6
IE48 H11
IE49 H11
IE50 H11
IE51 H6
IE52 H10
Circuit Diagrams and PWB Layouts
98Q528.1E LA 7.
SSB: Analogue Externals
1234567
89
10 11
12 13
ANALOGUE EXTERNALS
B09B B09B
100n
100n
1EA2
2EB3
+12V
6EA4
+12V
6EA6
100n
6EA3
BAV99 COL
IEB1
PDZ6.8-B
6EA5
BAV99 COL
IEB4
PDZ6.8-B
IEB5
IEB6
+12V
6EA2
6EA1
BAV99 COL
IEB2
PDZ6.8-B
FEB1
1EB1
FEB2
1EB2
1070-1
GREEN
YKC21-5880N
1070-2
BLUE
YKC21-5880N
1070-3
RED
YKC21-5880N
12
34
56
2
3
1
YKB21-5157N
1040
A
B
C
D
E
F
G
TO BOLD ON MODULE
(OPTIONAL)
1R07
1
2
3
4
5
6
7
8
10
9
1R08
1
2
3
4
5
6
7
8
9
10
H
TO BOLD ON MODULE
3104 313 6194.3
12
FEC2
FEC1
FEC3
FEC4
FEC5
5EA1
30R
FEC7
100p
2EC2
(OPTIONAL)
FEC9
2EC0
FEC6
+5VS
100p
2EC3
3EC0
100p
100R
2EC4
3EC2
3EC3
100p
2EC1
100p
100R
IEA0
100n
FRONT_C
AUDIO-IN5-L
AUDIO-IN5-R
1u0
2EA3
Y-CVBS-MON-OUT_SC
100R
100R
3EC1
9E20
9E21
9E22
9E23
3EC5
100R
AV1_PB_BO
AV1_Y_BO
AV1_PR_BO
AV1-BLK_BO
AUDIO-IN1-L
AUDIO-IN1-R
DV-B0_UART2-RX
DV-B1_UART2-TX
RXD2
TXD2
BOLT-ON-IO
CVBS-TER-OUT
FEA2
2EA6
FEA3
2EA0
1u0
2EA1
1u0
100p
3EA0
3EA3
AUDIO-CL-L
AP-SCART-OUT-L
AUDIO-CL-R
AP-SCART-OUT-R
A-PLOP
100p
2EA7
FEA4
FEA7
2EA8
82K
IEA1
47K
FEA5
100p
2
2EA4
16V 1u0
2EA5
16V 1u0
9EA1
FEB3
FEA6
2EB1
IEA3
3EC6
2EA9
1M36
B11B-PH-K
2EB0
100p
3EA1
6
7EA0-1
BC847BPN
1
3EA4
IEC0
FEA0
IEC2
FEA1
9EA0
3EC7
100p
5EA2
30R
100p
5EA3
30R
1K0
IEA2
3EA5
330R
330R
3EA7
150R
3EA8
150R
100R
100R
1
2
3
4
5
TO SIDE I/O
6
7
8
9
10
11
5
IEA5
IEA6
IEA7
IEA8
6
1
3
4
3EA2
IEB9
4
BC847BPN
7EA0-2
3
3EA6
7EA1-1
BC847BS
7EA1-2
BC847BS
33R
IEA4
10K
IEC1
2
IEC3
5
FRONT_Y-CVBS
AUDIO-HDPH-L-AP
AUDIO-HDPH-R-AP
2EA2
3EA9
1K0
3EB0
1K0
345678
5EA0
220R
Y-CVBS-MON-OUT
+8V6
1X01
EMC HOLE
1X05
EMC HOLE
AV4_Y
AV4_PB
AV4_PR
AUDIO-IN3-L
AUDIO-IN3-R
IEA9
IEB0
IEB3
9EA4
9EA6
9EA5
2EB8
2EB9
2EB5
2EB7
2EB2
100p
100p
IEB7
100p
IEB8
100p
3EB6
3EB7
100p
FEA9
3EB2
FEB0
3EB3
100K
100K
3EB8
100R
3EB9
100R
FEA8
75R
3EB1
2EB4
75R
1EA1
2EB6
75R
1EA0
6EA7
PDZ6.8-B
6EA8
PDZ6.8-B
6EB0
PDZ6.8-B
6EB1
PDZ6.8-B
9 10111213
H_16800_072.eps
010507
A
B
C
D
E
F
G
H
1040 F13
1070-1 A13
1070-2 C13
1070-3 E13
1EA0 E11
1EA1 C11
1EA2 B12
1EB1 F12
1EB2 G12
1M36 F6
1R07 E1
1R08 G1
1X01 D9
1X05 E9
2EA0 B6
2EA1 B6
2EA2 A8
2EA3 A8
2EA4 C6
2EA5 D6
2EA6 E5
2EA7 F6
2EA8 F6
2EA9 F6
2EB0 H6
2EB1 H6
2EB2 B11
2EB3 A12
2EB4 C11
2EB5 C11
2EB6 E11
2EB7 E11
2EB8 F11
2EB9 G11
2EC0 F2
2EC1 F2
2EC2 H1
2EC3 H2
2EC4 H2
3EA0 A6
3EA1 A6
3EA2 A7
3EA3 B6
3EA4 B6
3EA5 B7
3EA6 B7
3EA7 C7
3EA8 D7
3EA9 D8
3EB0 D8
3EB1 B11
3EB2 C11
3EB3 E11
3EB6 F11
3EB7 G11
3EB8 F11
3EB9 G11
3EC0 F2
3EC1 F3
3EC2 G2
3EC3 G2
3EC5 G3
3EC6 F6
3EC7 F7
5EA0 A8
5EA1 G1
5EA2 H7
5EA3 H7
6EA1 A12
6EA2 B12
6EA3 C12
6EA4 D12
6EA5 E12
6EA6 F12
6EA7 F12
6EA8 G12
6EB0 G12
6EB1 G12
7EA0-1 B6
7EA0-2 B7
7EA1-1 C7
7EA1-2 D7
9E20 G3
9E21 G3
9E22 G3
9E23 G3
9EA0 E7
9EA1 E6
9EA4 A10
9EA5 C10
9EA6 E10
FEA0 C7
FEA1 D7
FEA2 F5
FEA3 F5
FEA4 F6
FEA5 F6
FEA6 H6
FEA7 H6
FEA8 A11
FEA9 C11
FEB0 E11
FEB1 F12
FEB2 G12
FEB3 G6
FEC1 F1
FEC2 F2
FEC3 F2
FEC4 G1
FEC5 G2
FEC6 G2
FEC7 G1
FEC9 G2
IEA0 A7
IEA1 B6
IEA2 A7
IEA3 B6
IEA4 B8
IEA5 E7
IEA6 E7
IEA7 F7
IEA8 F7
IEA9 A10
IEB0 C10
IEB1 D12
IEB2 B12
IEB3 E10
IEB4 F12
IEB5 F12
IEB6 G12
IEB7 F11
IEB8 G11
IEB9 A7
IEC0 C7
IEC1 C7
IEC2 D7
IEC3 D7
Circuit Diagrams and PWB Layouts
99Q528.1E LA 7.
SSB: USB 2.0
IN05 D6
1N01 D5
2N04 C9
2N05 C9
2N06 C10
2N07 A6
2N08 C6
2N09 C6
2N10 C6
2N11 C6
2N12 C7
2N13 D10
2N14 A6
2N15 A6
2N16 B6
2N17 B6
2N18 B7
2N19 C9
2N20 D9
2N21 D9
2N22 C5
2N23 D5
3N01 E2
3N03 F6
3N04 B3
3N05 G7
3N10 D6
3N13 E5
3N14 F2
3N15 G3
3N16 G3
3N17 G2
3N18 E2
3N19 F3
3N20 G2
5N00 A5
5N01 A5
5N02 B5
5N03 C5
5N04 A5
7N00 C7
7N01 B2
9N01 D6
9N02 G7
9N10 B2
FN00 C6
IN00 E6
12345678910
2N22
2N23
5N04
30R
5N00
30R
100n
2N07
5N01
30R
100n
100n
2N15
2N14
5N02
30R
100n
100n
2N17
2N16
5N03
30R
100n
100n
2N08
2N09
FN00
27p
27p
3N13
1N01
IN08
12M
IN05
9N01
4K7
100R
3N10
3N03
IN01
IN00
11K
IN07
+3V3
2N10
IN13
100n
IN15
2N11
100n
ISP1562BE
74
75
5
96
97
7
99
60
48
35
23
9
8
24
4
36
39
37
42
47
44
45
38
41
81
78
79
83
85
87
88
90
92
3N05
10K
9N02
2N18
2N12
100n
IN04
100n
7N00
IN17
IN03
11
1
XTAL
2
RST
SCL
SDA
PCICLK
PME
C0
BE0
C1
BE1
C2
BE2
C3
BE3
REQ
GNT
IDSEL
INTA
FRAME
DEVSEL
IRDY
CLKRUN
PAR
PERR
SERR
TRDY
STOP
RREF
OC1
PWE1
DM1
DP1
OC2
PWE2
DM2
DP2
6
IN14
2540557177981008693
AUX 1 2
VCCIO
ATX 1
ATX 2
GNDD
19324964769495
VDDA
AUX
Φ
PCI
HOST
CONTROLLER
1
2733
3V3
1V8
VAUX
GNDA GNDA
17466172808284
16
VREG3V3
VREG1V8
AD
AD
91
89
IN12
IN06
IN02
100n
2N06
2N192N21
22u 6.3V
100n
2N05
100n
2N04
IN09
100n
2N20
22u 6.3V
18
43
58
70
0
69
1
68
2
67
3
66
4
65
5
63
6
62
7
59
8
57
9
56
10
54
11
53
12
52
13
51
14
50
15
34
16
33
17
31
18
30
19
29
20
28
21
27
22
26
23
22
24
21
25
20
26
15
27
14
28
13
29
12
30
10
31
IN10
2N13
100n
PCI-AD0
PCI-AD1
PCI-AD2
PCI-AD3
PCI-AD4
PCI-AD5
PCI-AD6
PCI-AD7
PCI-AD8
PCI-AD9
PCI-AD10
PCI-AD11
PCI-AD12
PCI-AD13
PCI-AD14
PCI-AD15
PCI-AD16
PCI-AD17
PCI-AD18
PCI-AD19
PCI-AD20
PCI-AD21
PCI-AD22
PCI-AD23
PCI-AD24
PCI-AD25
PCI-AD26
PCI-AD27
PCI-AD28
PCI-AD29
PCI-AD30
PCI-AD31
B10A B10A
USB 2.0
A
+3V3
B
RESET-USB20
RESET-SYS-DETECT
9N10
IN16
7N01
PDTC114EU
IN11
3N04
10K
+3V3
C
IRQ-PCI
RESET-USB20
PCI-CLK-USB20
PCI-CBE0
PCI-CBE1
PCI-CBE2
PCI-CBE3
PCI-REQ-USB20
PCI-GNT-USB20
PCI-AD22
IRQ-PCI
PCI-FRAME
PCI-DEVSEL
PCI-IRDY
PCI-PAR
PCI-PERR
PCI-SERR
PCI-TRDY
PCI-STOP
USB20-OC1
USB20-PWE1
USB20-1-DM
USB20-1-DP
USB20-OC2
USB20-PWE2
USB20-2-DM
USB20-2-DP
D
E
+3V3
+3V3
3N18
3N01
10K
10K
PCI-GNT-USB20
IN19
F
3N19
3N15
USB20-OC1
10K
USB20-1-DM
USB20-1-DP
USB20-OC2
USB20-2-DM
USB20-2-DP
+3V3
+3V3
G
3N14
15K
15K
3N20
10K
3N16
15K
15K
3N17
IN03 B7
IN01 D6
IN02 C9
IN04 C7
11 12 13 14 15
IN06 C8
IN07 G6
IN08 G6
IN09 D9
IN10 D9
IN11 B2
IN12 C8
IN13 F6
IN14 A7
IN15 D6
IN16 C2
IN17 A7
IN19 E3
A
B
C
D
E
F
G
H
3104 313 6194.3
12345
6789
H_16800_073.eps
10 11 12 13 14 15
H
010507
SSB: USB 2.0
1H01 C8 1H03 C8
1234
Circuit Diagrams and PWB Layouts
2N30 A3 2N31 A3 2N32 B7
5N30 B6
7N30 B3 FN30 C8
FN31 C7 FN32 C8 FN33 B2
FN34 B2
100Q528.1E LA 7.
FN35 B2 FN36 B2 FN37 C7 IN30 A3 IN35 B6
5678910
B10B B10B
A
B
USB 2.0
USB20-PWE1
USB20-OC1
USB20-OC2
USB20-PWE2
FN33
FN34
FN35
FN36
+5V-ON
IN30
LM3526MX-LNOPB
7N30
1
2
3
4
ENA_
FLGA
FLGB
ENB_
2N30
GND
100n
2N31
220u 25V
7
IN
6
OUTA
OUTB
8
5
IN35
5N30
220R
2N32
47u 6.3V
USB
CONNECTOR
C
USB20-1-DM
USB20-1-DP
FN37
FN31
FN30
FN32
1H01
1
2
3
4
B4B-EH-A
1H03
56
292303-4
1
2
3
4
A
B
C
D
3104 313 6194.3
D
H_16800_074.eps
12 910
3
456
78
010507
Circuit Diagrams and PWB Layouts
SSB: LED Panel Connector
1M01 C5
1M20 B5
2N51 A4
2N52 B4
2N53 B4
2N54 C4
2N55 C4
2N56 C4
3N51 B4
3N52 B4
3N53 B4
3N54 C4
3N56 C4
5N31 C3
9N50 B4
FN53 B5
101Q528.1E LA 7.
FN54 C5
FN55 B4
FN56 B4
FN57 B5
FN58 C5
FN59 C5
IN50 B3
IN51 B3
IN52 B3
IN53 C3
IN54 C4
A
B
C
12345
67
LED PANEL CONNECTOR
B10C B10C
2N51
LIGHT-SENSOR
RC
LED2
LED1
KEYBOARD
+5VS
5N31
3u3
IN50
IN51
IN52
IN53
IN54
3N51
100R
3N52
100R
3N53
100R
9N50
3N54
100R
3N56
10R
FN55
100p
2N52
FN56
100p
2N53
100p
2N55
100p FN58
2N54
100p
2N56
100p
FN53
FN54
FN59
FN57
1M20
1M01
1
2
3
4
5
6
7
1
2
3
45
TO
LED PANEL
A
B
C
D
3104 313 6194.3
1234567
D
H_16800_075.eps
010507
SSB: Audio Left / Right
1735 F11
1738 F12
1D50 F11
1D51 G11
1D52 G11
1D53 G12
1D54 G12
1D55 F12
2D00 B6
2D01 B6
2D02 F7
2D03 F12
2D04 C1
2D05 C2
2D06 F13
2D07 C2
2D08 C5
2D09 C6
2D10 C3
2D11 B13
2D12 C8
2D13 D3
2D14 D10
2D15 C9
2D16 G12
2D17 C9
2D18 C6
2D19 C7
123
Circuit Diagrams and PWB Layouts
2D20 C13
2D21 C11
2D22 C12
2D23 C13
2D24 D7
2D25 H7
2D26 D6
2D27 F10
2D28 D13
2D29 D14
2D30 D2
2D31 D3
2D32 D4
2D33 D10
2D34 D10
2D35 D11
2D36 E3
2D37 E10
2D39 D15
2D40 C14
2D44 H11
2D57 G3
3D00 B3
3D01 B4
3D02 E10
3D03-1 B3
3D03-2 B5
3D03-3 C3
3D03-4 D5
3D04 F3
3D05 C1
3D06 C4
3D07 C2
3D08 G10
3D09 C5
4
102Q528.1E LA 7.
3D10 B10
3D11 B11
3D13-1 B11
3D13-2 D11
3D13-3 D12
3D13-4 B12
3D14-1 H11
3D14-2 H11
3D14-3 G10
3D14-4 H10
3D15 C3
3D16 C12
3D17 C12
3D18 C8
3D19 C11
3D20 C9
3D21 C11
3D22 C11
3D23 G12
3D25 D4
3D26 D11
3D27 D3
3D28 D4
3D29 D10
3D30 D11
3D31 E4
3D32 E11
3D35 C5
3D36 G12
3D37 E4
3D38 C4
3D39 H3
3D40 E11
3D55-1 F6
3D55-2 F6
3D55-3 H6
3D58 F4
3D61-1 G3
3D61-2 G3
3D61-3 F5
3D61-4 F5
5D00 B6
5D01 A6
5D02 D7
5D03 A13
5D04 D14
5D05 F11
5D06 F12
5D07 C13
5D10 B6
5D11 C14
6D15 H11
7D00-2 C3
7D00-3 C10
7D02-1 B4
7D02-2 C4
7D05 B4
7D06 B4
7D09 D4
7D10-1 B5
7D10-2 C5
7D30 B11
7D31 B11
7D32-1 B12
7D32-2 C11
7D34 D11
7D35-1 B12
7D35-2 C12
7D55 E6
7D58-1 G5
7D58-2 G6
7D59 G3
7D61 G6
9D02 A6
9D03 D7
9D04 D14
9D05 A13
FD00 F10
FD01 F11
FD02 F12
FD03 F13
FD04 F12
FD05 F12
FD19 C5
FD25 F11
FD26 F10
FD27 H7
FD28 F7
FD49 C12
ID01 C2
ID02 C2
ID03 C3
ID04 D3
ID05 B4
ID06 C4
ID07 B5
ID08 B5
ID09 C4
ID10 C5
ID11 C4
ID12 D5
ID13 E3
ID14 G6
ID15 D2
ID16 E4
ID17 A5
ID18 H11
ID20 C9
ID21 D10
ID22 E10
ID23 G10
ID24 G11
ID26 C4
ID27 F4
ID28 C11
ID29 H4
ID30 B6
ID31 C10
ID32 C14
ID33 D10
ID35 B11
ID36 C11
ID37 B12
ID38 C12
ID39 C11
ID40 C12
ID41 C11
ID42 D12
ID45 D10
ID46 E11
ID47 A12
ID57 F6
ID58 G4
ID59 G3
ID60 G6
ID61 G6
56789101112131415
B11A
A
B
C
D
E
F
G
H
MUTE
FEEDBACK
+AUDIO-L
ON-MODE
AUDIO LEFT / RIGHT
VP
3K3
2D04
3D05
10K
3D00
VP
10p
ID02
2D05
100n
GND
3D07
ID01
18K
2D07
GND
+AUDIO-POWER
ID15
-AUDIO-POWER
2D30
11
10
680p
3
12
VN
3D27
3K9
1n5
2D36
GND
7D00-2
LM339P
13
ID03
2D13
1n5
2D31
ID13
100n
3D04
10R
ID59
3D61-1
18
22K
3D61-2
27
GNDSND
3D39
10R
3D03-1
18
22K
2D10
10n
3D15
1M0
3D03-3
36
22K
22p
ID04
1u0
22K
2D57
ID26
1
7D59
BC847BW
ID05
ID16
GNDSND
ID29
7D05
BC847BW
ID06
3D38
2D32
3D37
GND
ID27
B11A
9D02
ID17
1K2
3D01
7D06
BC807-25W
2
3D06
5
ID09
22K
BC847BPN
7D02-2
1K2
ID11
7D09
BC817-25W
1K2
3D25
3D28
100K
1u0
3D31
10K
560R
VPP
3D58
ID58
3
2
VNN
47K
6
7D02-1
BC847BPN
1
4
3
2
22K
3D03-2
27
SI4532ADY
7D10-1
4
ID07
ID08
FD19
330R
3D35
GNDSND
ID10
2
7D10-2
SI4532ADY
22K
3D03-4
45
36
22K
3D61-3
45
22K
3D61-4
6
7D58-1
BC847BPN
1
GNDSND
3
5
6
4R7
3D09
7
8
2n2
2D08
1
ID12
2D01
GNDSND
2D09
2n2
1u0
GNDSND
ID60
5D01
30R
GNDSND
5D00
ID30
22u
2D18
GNDSND
2D24
470u
2D26
35V
GNDSND
7D55
BC807-25W
22K
3D55-1
18
ID57
22K
4
BC847BPN
7D58-2
5
3
36
22K
3D55-3
2D00
470n
1u0
2
3D55-2
7
ID14
ID61
7D61
BC817-25W
1m0 16V
5D10
220R
GND-SPK
5D02
30R
9D03
FEEDBACK-LR
LEFT-SPEAKER
2n2
2D19
FD28
FD27
2D02
GNDSND
2D25
GNDSND
100n
100n
+AUDIO-POWER
MUTE
2D12
FEEDBACK
VP
VN
-AUDIO-R
-AUDIO-POWER
10p
ID20
2D15
3D18
10K
100n
3D20
GND
ID31
5
4
18K
680p
2D17
GND
ID45
2D33
+AUDIO-L
LEFT-SPEAKER
GND
RIGHT-SPEAKER
-AUDIO-R
FEEDBACK
FEEDBACK-LR
FEEDBACK-RL
DC-SENSE
3D29
1n5
GND
VP
7D00-3
3
LM339P
12
VN
3K9
2D34
ID22
100n
2D37
3D02
100R
2D27
10n
3D08
100R
3D14-3
36
22K
22K
45
3D14-4
2
ID33
1n5
GND-SPK
VP
3D10
2D14
FD00
ID23
3K3
3D13-1
18
2D21
10n
3D22
1M0
7
3D13-2
22p
ID21
FD26
FD01
2D44
10p
ID35
22K
ID28
3D21
22K
2
ID46
GND
GND
FD25
5D05
220R
GND
GNDSND
ID18
6D15
BAS316
22K
3D14-2
27
GND
7D30
BC847BW
ID36
3D19
22K
1K2
ID41
3D26
2D35
3D40
560R
1D50
1D51
1K2
3D11
7D31
BC807-25W
ID39
BC847BPN
7D32-2
7D34
BC817-25W
1K2
3D30
100K
1u0
3D32
10K
1735
1
2
3
4
B4B-PH-K
L/R
1D52
GND
ID24
22K
3D14-1
18
GND
2
5
1738
B4B-PH-K
6
7D32-1
BC847BPN
1
4
3
GND
5
22K
3D13-4
4
SI4532ADY
7D35-1
ID37
ID38
3D16
330R
GNDSND
ID40
7D35-2
SI4532ADY
36
22K
3D13-3
1D55
1
2
3
4
1D53
GND GND
1D54
4
2
FD49
FD05
ID47
3
5
6
7
8
1
ID42
5D06
12
FD02
100R
2D16
1n0
12
100R
3D36
FD04
1
2
30R
2D03
3D23
2D22
3D17
1n0
2D06
1n0
4R7
2n2
2D11
GNDSND
2D23
2n2
GND
FD03
9D05
5D03
30R
1u0
FEEDBACK-RL
GND
ID32
2D20
GNDSND
1u0
5D11
220R
470n
5D04
30R
9D04
+3V3-STANDBY
2D40
GND-SPK
2D29
GNDSND
AUDIO-MUTE
AUDIO-PROT
RIGHT-SPEAKER
2n2
1m0
16V
5D07
22u
2D28
GNDSND
GND
2D39
GNDSND
+AUDIO-POWER
35V470u
-AUDIO-POWER
A
B
C
D
E
F
G
H
3104 313 6194.3
67
H_16800_076.eps
010507
2111019854321
31
14
15
Circuit Diagrams and PWB Layouts
103Q528.1E LA 7.
SSB: Audio Protection/Mute Control
12
AUDIO: PROTECTION/MUTE CONTROL
B11C B11C
A
VP
B
DC-SENSE
VN
C
D D
3D63
220K
3D90-4
22K
45
VNN
34
+3V3-STANDBY
VP
7D00-1
1K2
8
7
6
3D74
3D78
ID75
33K
47K
3
LM339P9
12
VN
VP
7D00-4
3
LM339P
12
VN
3D79
14
1
7D63-1
BC847BPN
2
100K
ID86
1
6
FD64
3D90-1
1
22K
GNDSND
ID73
8
GNDSND
2D72
ID70
1K2
3D62
1u0
3D71
GNDSND
22K
3D90-2
27
ID87
36
22K
3D90-3
VPP
3D75
ID77
567 9
+3V3-STANDBY
2D73
10u
4K7
6D63
BAS316
68K
ID88
3D80
100K
ID72
VP
22K
3D76-1
18
3D64
7D70
BC847BW
GNDSND
3D89
100K
FD65
AUDIO-PROT
AUDIO-MUTE
MUTE
8
A
B
C
2D72 B3
2D73 A5
2D74 F9
3D62 B3
3D63 B2
3D64 A6
3D71 C3
3D73 E5
3D74 D4
3D75 D5
3D76-1 D6
3D76-2 E6
3D76-3 F6
3D76-4 E7
3D78 D4
3D79 D4
3D80 A5
3D83 E4
3D89 C6
3D90-1 A3
3D90-2 A4
3D90-3 B5
3D90-4 C2
6D62 F4
6D63 A5
7D00-1 A4
7D00-4 C4
7D63-1 D4
7D63-2 E4
7D64-1 F6
7D64-2 E5
7D70 B6
FD64 C3
FD65 A7
ID25 E4
ID70 A3
ID72 A6
ID73 C3
ID75 D4
ID77 D5
ID78 E5
ID79 E4
ID80 F4
ID82 E6
ID84 E6
ID86 A4
ID87 A4
ID88 A5
cDA0 F9
E
F
3104 313 6194.3
ID25
BC847BPN
1568
234
3
7D63-2
5
ID79
4K7
3D83
ID80
6D62
BZX384-C18
VNN
4
4K7
3D73
4
3
7D64-2
BC847BPN
5
ID78
BC847BPN
ID82
7D64-1
GNDSND
3D76-2
6
1
22K
27
ID84
2
3D76-3
GNDSND
3D76-4
22K
22K
36
45
AUDIO-MUTE
7
GNDSND
GNDSND
RES
2D74
10n
cDA0
H_16800_078.eps
9
E
F
010507
SSB: Diversity List
ITEM
DIAGRAM
32PFL9632D/10
1B32 B01A X X
1B33 B01A X X
1B40 B01A X X
1P02 B01A X X
2B30 B01A X X
2B32 B01A X X
2B33 B01A X X
2B34 B01A X X
2B35 B01A X X
2B38 B01A X X
2B39 B01A X X
2B40 B01A X X
2B41 B01A X X
2B42 B01A X X
2B43 B01A X X
2B45 B01A X X
2B46 B01A X X
2B47 B01A X X
2B48 B01A X X
2B49 B01A X X
2B50 B01A X X
2B51 B01A X X
2B52 B01A X X
2B55 B01A X X
2B56 B01A X X
2B57 B01A X X
2B58 B01A X X
2B59 B01A X X
2B60 B01A X X
2B61 B01A X X
2B62 B01A X X
2B63 B01A X X
3B29 B01A X X
3B30 B01A X X
3B31 B01A X X
3B32 B01A X X
3B33 B01A X X
3B34 B01A X X
3B35 B01A X X
3B36 B01A X X
3B37 B01A X X
3B38 B01A X X
3B39 B01A X X
3B40 B01A X X
3B41 B01A X X
3B42 B01A X X
3B43 B01A X X
3B44 B01A X X
3B45 B01A X X
3B46 B01A X X
3B47 B01A X X
3B48 B01A X X
3B49 B01A X X
3B50 B01A X X
3B51 B01A X X
3B54 B01A X X
3B55 B01A X X
3B60 B01A X X
3B61 B01A X X
3B62 B01A X X
3B63 B01A X X
3B64 B01A X X
3B65 B01A X X
3B66 B01A X X
3B67 B01A X X
3B68 B01A X X
3B69 B01A X X
3B70 B01A X X
3B71 B01A X X
3B72 B01A X X
3B73 B01A X X
3B74 B01A X X
3B75 B01A X X
3B76 B01A X X
3B77 B01A X X
3B78 B01A X X
5B00 B01A X X
5B01 B01A X X
6B02 B01A X X
6B03 B01A X X
6B04 B01A X X
6B05 B01A X X
6B06 B01A X X
6B07 B01A X X
6B08 B01A X X
6B09 B01A X X
6B10 B01A X X
6B11 B01A X X
6B13 B01A X X
6B14 B01A X X
6B15 B01A X X
7B00 B01A X X
7B01 B01A X X
7B02 B01A X X
7B04 B01A X X
7B05 B01A X X
7B06 B01A X X
7B07 B01A X X
7B50 B01A X X
7B50 B01A X X
1B50 B01B X X
1M59 B01B X X
1P11 B01B X X
2B20 B01B X X
2B21 B01B X X
2B22 B01B X X
2B23 B01B X X
2B24 B01B X X
2B25 B01B X X
2B26 B01B X X
2B53 B01B X X
2B54 B01B X X
3B20 B01B X X
3B21 B01B X X
3B22 B01B X X
3B23 B01B X X
3B26 B01B X X
3B58 B01B X X
3B59 B01B X X
5B10 B01B X X
5B11 B01B X X
5B12 B01B X X
5B13 B01B X X
5B14 B01B X X
9B06 B01B X X
9B10 B01B X X
9B11 B01B X X
2U00 B02A X X
2U03 B02A X X
2U04 B02A X X
2U05 B02A X X
2U06 B02A X X
2U07 B02A X X
2U08 B02A X X
2U11 B02A X X
2U12 B02A X X
2U13 B02A X X
2U14 B02A X X
2U15 B02A X X
2U16 B02A X X
2U17 B02A X X
2U18 B02A X X
2U19 B02A X X
2U20 B02A X X
2U21 B02A X X
2U23 B02A X X
2U24 B02A X X
2U25 B02A X X
2U26 B02A X X
2U27 B02A X X
2U28 B02A X X
2U29 B02A X X
2U32 B02A X X
2U34 B02A X X
2U36 B02A X X
2U37 B02A X X
2U39 B02A X X
2U40 B02A X X
2U41 B02A X X
2U42 B02A X X
2U43 B02A X X
2U44 B02A X X
2U90 B02A X X
47PFL9532D/10
2U93 B02A X X
2U94 B02A X X
3U00 B02A X X
3U01 B02A X X
3U02 B02A X X
3U04 B02A X X
3U05 B02A X X
3U06 B02A X X
3U07 B02A X X
3U08 B02A X X
3U09 B02A X X
3U10 B02A X X
3U11 B02A X X
3U12 B02A X X
3U13 B02A X X
3U14 B02A X X
3U15 B02A X X
3U17 B02A X X
3U18 B02A X X
3U20 B02A X X
3U21 B02A X X
3U23 B02A X X
3U24 B02A X X
3U25 B02A X X
3U26 B02A X X
3U27 B02A X X
3U29 B02A X X
3U30 B02A X X
3U31 B02A X X
3U32 B02A X X
3U33 B02A X X
3U34 B02A X X
3U36 B02A X X
3U37 B02A X X
3U38 B02A X X
3U39 B02A X X
3U40 B02A X X
3U41 B02A X X
3U42 B02A X X
3U43 B02A X X
3U44 B02A X X
3U45 B02A X X
3U46 B02A X X
3U47 B02A X X
3U48 B02A X X
3U49 B02A X X
3U50 B02A X X
3U51 B02A X X
3U52 B02A X X
3U55 B02A X X
3U56 B02A X X
3U57 B02A X X
3U58 B02A X X
3U59 B02A X X
3U60 B02A X X
3U61 B02A X X
3U62 B02A X X
3U63 B02A X X
3U64 B02A X X
3U69 B02A X X
3U70 B02A X X
3U74 B02A X X
3U75 B02A X X
3U76 B02A X X
3U77 B02A X X
3U78 B02A X X
3UA1 B02A X X
3UA2 B02A X X
3UA3 B02A X X
3UA4 B02A X X
3UA5 B02A X X
3UA6 B02A X X
3UA7 B02A X X
3UA8 B02A X X
3UA9 B02A X X
5U00 B02A X X
5U01 B02A X X
5U02 B02A X X
6U00 B02A X X
6U01 B02A X X
6U02 B02A X X
6U04 B02A X X
6U05 B02A X X
6U06 B02A X X
6U07 B02A X X
6U08 B02A X X
6U09 B02A X X
6U10 B02A X X
7U00 B02A X X
7U01 B02A X X
7U03 B02A X X
7U05 B02A X X
7U05 B02A X X
7U06 B02A X X
7U07 B02A X X
7U08 B02A X X
7U10 B02A X X
7U10 B02A X X
7U13 B02A X X
7U13 B02A X X
7U14 B02A X X
7U14 B02A X X
7U15 B02A X X
7U16 B02A X X
7U27 B02A X X
7U28 B02A X X
9U03 B02A X X
2U38 B02B X X
2U45 B02B X X
2U46 B02B X X
2U47 B02B X X
2U48 B02B X X
2U49 B02B X X
2U50 B02B X X
2U51 B02B X X
2U52 B02B X X
3U79 B02B X X
3U80 B02B X X
3U81 B02B X X
3U82 B02B X X
3U83 B02B X X
3U84 B02B X X
3U85 B02B X X
3U86 B02B X X
3U87 B02B X X
3U88 B02B X X
3U89 B02B X X
3U90 B02B X X
3U91 B02B X X
3U92 B02B X X
3U94 B02B X X
7U02 B02B X X
7U02 B02B X X
7U04 B02B X X
7U04 B02B X X
7U17 B02B X X
7U18 B02B X X
7U19 B02B X X
7U20 B02B X X
2U59 B02C X X
2U60 B02C X X
2U61 B02C X X
2U62 B02C X X
2U64 B02C X X
2U65 B02C X X
2U66 B02C X X
2U67 B02C X X
2U68 B02C X X
2U6B B02C X X
2U6C B02C X X
2U6D B02C X X
2U6E B02C X X
2U6G B02C X X
2U6H B02C X X
2U6I B02C X X
2U6K B02C X X
2U6N B02C X X
2U6R B02C X X
2U6S B02C X X
2U70 B02C X X
2U71 B02C X X
2U72 B02C X X
2U8B B02C X X
2U8C B02C X X
2U8D B02C X X
2U8E B02C X X
3U16 B02C X X
3U6A B02C X X
3U6B B02C X X
3U6C B02C X X
3U6D B02C X X
3U6G B02C X X
3U6I B02C X X
3U6J B02C X X
3U6K B02C X X
3U6L B02C X X
3U6M B02C X X
3U6Y B02C X X
3U7B B02C X X
3U7C B02C X X
3U7D B02C X X
3U7E B02C X X
3U7F B02C X X
3U7G B02C X X
3U7H B02C X X
3U7J B02C X X
3U7L B02C X X
3U7N B02C X X
3U7P B02C X X
3U8A B02C X X
3U8C B02C X X
3U8D B02C X X
3U8E B02C X X
3U8G B02C X X
3U95 B02C X X
3U96 B02C X X
3U97 B02C X X
5U60 B02C X X
5U67 B02C X X
5U68 B02C X X
6U60 B02C X X
6U62 B02C X X
6U8A B02C X X
7U61 B02C X X
7U61 B02C X X
7U64 B02C X X
7U66 B02C X X
7U66 B02C X X
7U8B B02C X X
7U8C B02C X X
9U60 B02C X X
9U8A B02C X X
2T01 B03A X X
2T04 B03A X X
2T05 B03A X X
2T07 B03A X X
2T08 B03A X X
2T09 B03A X X
2T12 B03A X X
2T13 B03A X X
2T14 B03A X X
2T15 B03A X X
2T16 B03A X X
2T18 B03A X X
2T19 B03A X X
2T20 B03A X X
2T21 B03A X X
2T22 B03A X X
2T23 B03A X X
2T24 B03A X X
2T26 B03A X X
2T31 B03A X X
2T32 B03A X X
2T35 B03A X X
2T36 B03A X X
3T05 B03A X X
3T06 B03A X X
3T07 B03A X X
3T08 B03A X X
3T10 B03A X X
3T11 B03A X X
3T13 B03A X X
3T14 B03A X X
3T16 B03A X X
3T17 B03A X X
3T17 B03A X X
3T17 B03A X X
3T21 B03A X X
3T22 B03A X X
3T22 B03A X X
3T26 B03A X X
3T27 B03A X X
3T27 B03A X X
3T28 B03A X X
3T31 B03A X X
5T08 B03A X X
5T09 B03A X X
7T17 B03A X X
7T18 B03A X X
7T18 B03A X X
9T21 B03A X X
9T22 B03A X X
9T23 B03A X X
9T41 B03A X X
1T04 B03B X X
1T55 B03B X X
1T70 B03B X X
2T45 B03B X X
2T46 B03B X X
2T48 B03B X X
2T49 B03B X X
2T51 B03B X X
2T53 B03B X X
2T60 B03B X X
2T61 B03B X X
2T62 B03B X X
2T63 B03B X X
2T64 B03B X X
2T65 B03B X X
2T66 B03B X X
2T67 B03B X X
2T71 B03B X X
2T72 B03B X X
2T73 B03B X X
2T74 B03B X X
2T75 B03B X X
2T77 B03B X X
2T78 B03B X X
2T79 B03B X X
2T80 B03B X X
2T81 B03B X X
2T82 B03B X X
2T83 B03B X X
2T84 B03B X X
2T86 B03B X X
2T87 B03B X X
2T88 B03B X X
2T89 B03B X X
2T92 B03B X X
2T93 B03B X X
2T97 B03B X X
3T53 B03B X X
3T54 B03B X X
3T55 B03B X X
3T56 B03B X X
3T57 B03B X X
3T58 B03B X X
3T59 B03B X X
3T65 B03B X X
3T66 B03B X X
3T67 B03B X X
3T68 B03B X X
3T70 B03B X X
3T71 B03B X X
3T74 B03B X X
3T75 B03B X X
3T76 B03B X X
3T77 B03B X X
3T80 B03B X X
3T81 B03B X X
3T82 B03B X X
3T85 B03B X X
5T52 B03B X X
5T53 B03B X X
5T54 B03B X X
5T61 B03B X X
Circuit Diagrams and PWB Layouts
6T56 B03B X X
6T57 B03B X X
7T55 B03B X X
7T57 B03B X X
9T24 B03B X X
9T51 B03B X X
9T52 B03B X X
9T54 B03B X X
9T57 B03B X X
9T58 B03B X X
9T59 B03B X X
9T60 B03B X X
9T63 B03B X X
9T64 B03B X X
9T72 B03B X X
9T74 B03B X X
9T75 B03B X X
9T77 B03B X X
9T80 B03B X X
9T81 B03B X X
9T85 B03B X X
9T86 B03B X X
1HF0 B04A X X
2H00 B04A X X
2H01 B04A X X
2H05 B04A X X
2H06 B04A X X
2H07 B04A X X
2H08 B04A X X
2H10 B04A X X
2H11 B04A X X
2H90 B04A X X
2H91 B04A X X
2HF0 B04A X X
2HF1 B04A X X
3H00 B04A X X
3H01 B04A X X
3H02 B04A X X
3H03 B04A X X
3H04 B04A X X
3H05 B04A X X
3H06 B04A X X
3H07 B04A X X
3H08 B04A X X
3H09 B04A X X
3H10 B04A X X
3H11 B04A X X
3H12 B04A X X
3H13 B04A X X
3H14 B04A X X
3H15 B04A X X
3H16 B04A X X
3H17 B04A X X
3H18 B04A X X
3H19 B04A X X
3H20 B04A X X
3H21 B04A X X
3H22 B04A X X
3H23 B04A X X
3H25 B04A X X
3H26 B04A X X
3H27 B04A X X
3H28 B04A X X
3H29 B04A X X
3H30 B04A X X
3H31 B04A X X
3H32 B04A X X
3H33 B04A X X
3H35 B04A X X
3H38 B04A X X
3H39 B04A X X
3H40 B04A X X
3H41 B04A X X
3H42 B04A X X
3H43 B04A X X
3H44 B04A X X
3H46 B04A X X
3H48 B04A X X
3H49 B04A X X
3H50 B04A X X
3H51 B04A X X
3H52 B04A X X
3H53 B04A X X
3H54 B04A X X
3H56 B04A X X
3H57 B04A X X
3H58 B04A X X
3H59 B04A X X
3H60 B04A X X
3H61 B04A X X
3H63 B04A X X
3H64 B04A X X
3H65 B04A X X
3H66 B04A X X
3H68 B04A X X
3H69 B04A X X
3H70 B04A X X
3H71 B04A X X
3H72 B04A X X
3H73 B04A X X
3H74 B04A X X
3H77 B04A X X
3H78 B04A X X
3H79 B04A X X
3H80 B04A X X
3H81 B04A X X
3H82 B04A X X
3H83 B04A X X
3H84 B04A X X
3H85 B04A X X
3H86 B04A X X
3H87 B04A X X
3H88 B04A X X
3H89 B04A X X
3H90 B04A X X
3H91 B04A X X
3H92 B04A X X
3H93 B04A X X
3H94 B04A X X
3H95 B04A X X
3H96 B04A X X
3H97 B04A X X
3H98 B04A X X
3HF1 B04A X X
3HW0 B04A X X
6H00 B04A X X
6H01 B04A X X
6H05 B04A X X
6HW0 B04A X X
6HW1 B04A X X
7H00 B04A X X
7H02 B04A X X
7H03 B04A X X
7H04 B04A X X
7H14 B04A X X
7H16 B04A X X
7H18 B04A X X
7H21 B04A X X
7H22 B04A X X
7H90 B04A X X
7H91 B04A X X
7H92 B04A X X
7H93 B04A X X
9H04 B04A X X
9H05 B04A X X
9H06 B04A X X
9H09 B04A X X
9H10 B04A X X
9H20 B04B X X
9H21 B04B X X
9H22 B04B X X
9H23 B04B X X
9H24 B04B X X
9H25 B04B X X
9H26 B04B X X
9H27 B04B X X
9H28 B04B X X
9H29 B04B X X
9H30 B04B X X
9H31 B04B X X
9H32 B04B X X
9H33 B04B X X
9H34 B04B X X
9H35 B04B X X
9H36 B04B X X
9H37 B04B X X
9H40 B04B X X
9H41 B04B X X
9H42 B04B X X
2HD0 B04D X X
3HD0 B04D X X
3HD2 B04D X X
3HD3 B04D X X
3HDJ B04D X X
3HDK B04D X X
3HDL B04D X X
3HDM B04D X X
3HDN B04D X X
3HDP B04D X X
6HD0 B04D X X
6HD1 B04D X X
7HD0 B04D X X
7HD6 B04D X X
7HD6 B04D X X
7HD8 B04D X X
9HD0 B04D X X
1HP0 B04E X X
2HF2 B04E X X
2HP1 B04E X X
3HF0 B04E X X
3HF2 B04E X X
3HF3 B04E X X
3HF4 B04E X X
3HF9 B04E X X
3HFH B04E X X
3HFY B04E X X
3HP8 B04E X X
3HPA B04E X X
3HPB B04E X X
3HPC B04E X X
3HPD B04E X X
3HPE B04E X X
3HPF B04E X X
3HPG B04E X X
3HPH B04E X X
3HPJ B04E X X
3HPK B04E X X
3HPM B04E X X
3HPQ B04E X X
3HPR B04E X X
3HPS B04E X X
3HPT B04E X X
3HPU B04E X X
3HPW B04E X X
3HPX B04E X X
3HPY B04E X X
3HPZ B04E X X
6HF0 B04E X X
7H00 B04E X X
7HP5 B04E X X
9HF8 B04E X X
9HG0 B04E X X
9HG1 B04E X X
9HP5 B04E X X
9HP6 B04E X X
9HP7 B04E X X
9HP8 B04E X X
3HES B04F X X
3HET B04F X X
3HEU B04F X X
3HEV B04F X X
3HF5 B04F X X
3HFA B04F X X
3HFB B04F X X
3HFC B04F X X
3HFD B04F X X
3HFE B04F X X
3HFF B04F X X
3HFZ B04F X X
7H00 B04F X X
9HF4 B04F X X
9HF5 B04F X X
9HF6 B04F X X
9HF7 B04F X X
2HG0 B04G X X
2HG1 B04G X X
2HG2 B04G X X
2HG3 B04G X X
2HG4 B04G X X
2HG5 B04G X X
2HG6 B04G X X
2HG7 B04G X X
2HG8 B04G X X
2HG9 B04G X X
2HGA B04G X X
2HGB B04G X X
2HGC B04G X X
2HGD B04G X X
2HGE B04G X X
2HGF B04G X X
2HGG B04G X X
2HGH B04G X X
2HGJ B04G X X
2HGK B04G X X
2HGM B04G X X
2HGN B04G X X
2HGP B04G X X
2HGR B04G X X
2HGS B04G X X
2HGT B04G X X
2HGU B04G X X
2HGV B04G X X
2HGW B04G X X
2HGY B04G X X
2HGZ B04G X X
2HH0 B04G X X
2HH1 B04G X X
2HH2 B04G X X
2HH3 B04G X X
2HH4 B04G X X
2HH5 B04G X X
2HHA B04G X X
2HHM B04G X X
2HHP B04G X X
3HG1 B04G X X
3HG2 B04G X X
3HG3 B04G X X
3HG4 B04G X X
3HG5 B04G X X
3HG6 B04G X X
3HG7 B04G X X
3HG8 B04G X X
3HG9 B04G X X
3HGA B04G X X
3HGB B04G X X
3HGC B04G X X
3HGD B04G X X
3HGE B04G X X
3HGF B04G X X
3HGG B04G X X
3HGH B04G X X
3HGJ B04G X X
3HGK B04G X X
3HGM B04G X X
3HGN B04G X X
3HGP B04G X X
3HGR B04G X X
3HGS B04G X X
3HGT B04G X X
3HGU B04G X X
3HGV B04G X X
3HGW B04G X X
3HGY B04G X X
3HGZ B04G X X
3HH0 B04G X X
3HH1 B04G X X
3HH2 B04G X X
3HH3 B04G X X
3HH4 B04G X X
3HH5 B04G X X
3HH6 B04G X X
3HH7 B04G X X
3HH8 B04G X X
3HH9 B04G X X
3HHA B04G X X
3HHB B04G X X
3HHC B04G X X
3HHD B04G X X
3HHE B04G X X
3HHF B04G X X
3HHG B04G X X
3HHH B04G X X
3HHJ B04G X X
3HHK B04G X X
3HHM B04G X X
3HHN B04G X X
3HHP B04G X X
3HHR B04G X X
3HHS B04G X X
3HHT B04G X X
3HHU B04G X X
3HHV B04G X X
3HHW B04G X X
3HHY B04G X X
3HHZ B04G X X
3HJ0 B04G X X
3HJ1 B04G X X
3HJ2 B04G X X
3HJ3 B04G X X
3HJ4 B04G X X
3HJ5 B04G X X
3HJV B04G X X
3HJW B04G X X
3HJY B04G X X
3HJZ B04G X X
7H00 B04G X X
7HG0 B04G X X
7HG1 B04G X X
3HK0 B04H X X
7H00 B04H X X
2HM3 B04I X X
2HM8 B04I X X
2HMG B04I X X
2HMH B04I X X
2HMJ B04I X X
2HMN B04I X X
2HMP B04I X X
2HMT B04I X X
2HMW B04I X X
2HMY B04I X X
2HMZ B04I X X
2HN1 B04I X X
3HME B04I X X
3HMF B04I X X
3HMG B04I X X
3HMH B04I X X
3HMJ B04I X X
3HMK B04I X X
3HML B04I X X
3HMM B04I X X
3HMN B04I X X
3HMP B04I X X
3HMR B04I X X
3HMS B04I X X
3HMT B04I X X
3HMU B04I X X
5HM0 B04I X X
5HM1 B04I X X
7HM1 B04I X X
7HM1 B04I X X
7HM1 B04I X X
7HM1 B04I X X
9HM1 B04I X X
9HM2 B04I X X
2HA2 B04K X X
2HA3 B04K X X
2HA4 B04K X X
2HA5 B04K X X
2HKL B04K X X
2HRZ B04K X X
2HS0 B04K X X
2HS1 B04K X X
2HS2 B04K X X
2HS3 B04K X X
2HS4 B04K X X
2HS5 B04K X X
2HS6 B04K X X
2HS7 B04K X X
2HS8 B04K X X
2HS9 B04K X X
2HSA B04K X X
2HSB B04K X X
2HSC B04K X X
2HSD B04K X X
2HSE B04K X X
2HSF B04K X X
2HSG B04K X X
2HSH B04K X X
2HSJ B04K X X
2HSK B04K X X
2HSM B04K X X
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1735 B11A X X
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5D00 B11A X X
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9D02 B11A X X
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2D72 B11C X X
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7D63 B11C X X
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7D70 B11C X X
2HC0 BO4C X X
2HC1 BO4C X X
3HC0 BO4C X X
3HC1 BO4C X X
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3HC3 BO4C X X
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3HC5 BO4C X X
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7HC0 BO4C X X
7HC0 BO4C X X
7HC0 BO4C X X
7HC1 BO4C X X
7HC2 BO4C X X
7HC3 BO4C X X
7HC4 BO4C X X
9HC0 BO4C X X
5U03 BO4C X X
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