Colour Television
Chassis
Q522.1HE
LA
18440_000_090205.eps
090226
Contents
Page
1. Revision List
2
2. Technical Specifications, Directions for Use, and
Connections
2
3. Precautions, Notes, and Abbreviation List
6
4. Mechanical Instructions
10
5. Service Modes, Error Codes, and Fault Finding 25
6. Alignments
46
7. Circuit Descriptions
52
8. IC Data Sheets
54
9. Block Diagrams
Wiring Diagram 26" with Smartcard (ME8)
67
Wiring Diagram 32" with Smartcard (ME8)
68
Wiring Diagram 37" with Smartcard (ME8)
69
Wiring Diagram 42" with Smartcard (ME8)
70
Block Diagram Video
71
Block Diagram Audio
72
Block Diagram Control & Clock Signals
73
I2C IC Overview
74
Supply Lines Overview
75
10. Circuit Diagrams and PWB Lats
Drawing
SSB: DC / DC 3V3 1V2
(B02) 76
SSB: Main Tuner
(B03) 79
SSB: PNX8541: Stand-by Controller
(B04) 88
SSB: Dual LVDS
(B05) 104
SSB: Pacific 3: LVDS
(B06) 105
SSB: Analog I/O: Scart 1 & 2
(B07) 108
SSB: Digital I/O: USB Connector + Control(B08) 112
SSB: Digital I/O: PCMCIA Interf. & Buffer (B10) 115
SSB: Class-D
(B10) 117
SSB: SRP List Explanation
118
SSB: SRP List Part 1
119
SSB: SRP List Part 2
120
DC / DC Converter Panel
(DC) 123
iBoard (Part 2)
(HC02) 125
Contents
Page
iBoard: SRP List Part 1
Keyboard Control Panel
IR & LED Panel
System Interface Panel
Switch Panel
126
(E) 128
(J) 129
131
(SP01) 133
128
130
132
134
PWB
121-122
121-122
121-122
121-122
121-122
121-122
121-122
121-122
121-122
123
127
©
Copyright 2009 Koninklijke Philips Electronics N.V.
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 MB/CC 0972 BU TV Consumer Care
Printed in the Netherlands
Subject to modification
EN 3122 785 18681
2009-Dec-04
EN 2
1.
Q522.1HE LA
Revision List
1. Revision List
Manual xxxx xxx xxxx.0
• First release.
Manual xxxx xxx xxxx.1
• Layout improvements.
• Chapter 5: Added information on VSecure self-test
procedure.
• Chapter 10: Added schematics and layouts for the IR/LED
panel and the Keyboard.
2. Technical Specifications, Directions for Use, and Connections
Index of this chapter:
2.1 Technical Specifications
2.2 Directions for Use
2.4 Chassis Overview
Notes:
• Figures can deviate due to the different set executions.
• Specifications are indicative (subject to change).
2.1
Technical Specifications
For on-line product support please use the links in Table 2-1.
Here is product information available, as well as getting started,
user manuals, frequently asked questions and software &
drivers.
Table 2-1 Described Model numbers
2.2
CTN
Styling
Published in:
26HFL5870D/10
P&S
3122 785 18680
32HFL5870D/10
P&S
3122 785 18680
37HFL5880D/10
P&S
3122 785 18680
42HFL5880D/10
P&S
3122 785 18680
Directions for Use
Directions for use can be downloaded from the following
websites:
http://www.philips.com/support
http://www.p4c.philips.com
2009-Dec-04
Technical Specifications, Directions for Use, and Connections
2.
EN 3
Connections
REAR
CONNECTIONS
SIDE
CONN.
SMART CARD
INTERFACE
2.3
Q522.1HE LA
SPDIF
OUT
SERV. U
EXT 3
EXT 2
(RGB/CVBS)
EXT 1
(RGB/CVBS)
Y
L
AUDIO OUT
Pb
R
Pr
L
AUDIO IN
R
75X
TV ANTENNA
AUDIO IN:
HDMI 2 HDMI 1
LEFT / RIGHT
HDMI 1 / DVI
HDMI 2 / DVI
HDMI 3 / DVI
18680_001_090820.eps
090820
Figure 2-1 Connection overview
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.
2009-Dec-04
EN 4
2.3.1
2.
Technical Specifications, Directions for Use, and Connections
Q522.1HE LA
USB2.0
Side Connections
Smart Card Interface: Data Video - In/Out
17
1
32
1
2
3
4
Figure 2-2 Smart-card Connector
+3.3 V
Gnd
+12 V
Gnd
Data
Signal
Clock Signal
Data
Data
+5 V
Signal
Signal
Gnd
DDC clock
DDC data
k
H
j
H
j
j
k
j
k
j
k
k
H
jk
jk
Blue in Signal
Green in Signal
Red in Signal
Signal
Gnd
1 VPP / 75 W
j
j
j
j
H
j
Gnd
0.5 VRMS / 1 kW
0.5 VRMS / 1 kW
0.5 VRMS / 10 kW
0.5 VRMS / 10 kW
1 VPP / 75 W
0.7 VPP / 75 W
H
k
k
j
j
j
j
1. Pin 1, 3, 10: maximum current limits 1.5A for 3.3V, 1.0A for
5V, and 0.6A for 12V. Total power may not exceed 10W.
2. Pin 6: Bidirectional POR. TV will reset the system card
(active low) when mains is switched “off” to “on”. DCM can
reset iTV controller by pulling POR low for 150 ms.
3. Pin 7, 8, 9: SPI bus global (either I2C bus or SPI at any one
time, not simultaneously).
4. Pin 14, 15: I2C bus (either I2C bus or SPI at any one time,
not simultaneously).
5. Pin 17, 18, 19, 20: RGB+FBL applicable only for full field
insertion and not for OSD. For CVI input, only applicable for
1fH.
6. Pin 22: CVBS_terr_out when switching from analog RF to
SCART. Composite video out when switch from DVB-T to
SCART.
Head phone (Output)
Bk - Head phone
32 - 600 ohm / 10 mW
ot
Cinch: Video CVBS - In, Audio - In
Rd - Audio R
0.5 VRMS / 10 kohm
Wh - Audio L
0.5 VRMS / 10 kohm
Ye - Video CVBS
1 VPP / 75 ohm
jq
jq
jq
S-Video (Hosiden): Video Y/C - In
1 - Ground Y
Gnd
2 - Ground C
Gnd
3 - Video Y
1 VPP / 75 ohm
4 - Video C
0.3 VPP / 75 ohm
2009-Dec-04
4
Figure 2-3 USB (type A)
10000_044_090121.eps
090121
- 3V3 (1)
- Ground power
- 12V (1)
- Ground I2C
- IR data
- POR (2)
- TV Clock (3)
- Data in (3)
- Data out (3)
- 5V (1)
- H-sync
- V-sync
- Gnd CVBS in
- SCL (4)
- SDA (4)
- Reserved
- B_Pb in (5)
- G_Y in (5)
- R_Pr in (5)
- FBL in (5)
- Gnd CVBS out
- CVBS out (6)
- Reserved
- Reserved
- Reserved
- Gnd Audio in
- Audio R
- Audio L
- Audio R
- Audio L/Mono in
- Video CVBS/Yin
- C in
3
16
1
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
2
10000_022_090121.eps
090121
H
H
j
j
- +5V
- Data (-)
- Data (+)
- Ground
k
jk
jk
H
Gnd
HDMI: Digital Video, Digital Audio - In
19
18
1
2
10000_017_090121.eps
090428
Figure 2-4 HDMI (type A) connector
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
- D2+
- Shield
- D2- D1+
- Shield
- D1- D0+
- Shield
- D0- CLK+
- Shield
- CLK- Easylink
- n.c.
- DDC_SCL
- DDC_SDA
- Ground
- +5V
- HPD
- Ground
Data channel
Gnd
Data channel
Data channel
Gnd
Data channel
Data channel
Gnd
Data channel
Data channel
Gnd
Data channel
CEC
j
H
j
j
H
j
j
H
j
j
H
j
jk
DDC clock
DDC data
Gnd
j
jk
H
j
j
H
Hot Plug Detect
Gnd
Common Interface
68p - See diagram B09A
2.3.2
jk
Rear Connections
Mini Jack: Bathroom speaker (Output)
Bk - Bathroom speaker 8 W / 1 W
o
RJ48 DATA2 (Xpress Box/Set Top Box- In/Out)
1 - +12V
+12V/1W
2 - Gnd
Gnd
3 - Reserved
4 - Reserved
5 - TXD232
Signal
6 - RXD232
Signal
7 - IR-OUT/SDA
Signal
8 - POR
Signal
9 - CVBS_out
Signal
10 - Gnd CVBS_out Gnd
k
H
k
k
k
H
RJ12 DATA1 (SmartCard XPress Box)
Configure via communication menu
Pins
SP-SPI
SP-Serial XP
SP-I2C
HM-Link
1
SP Clock, 5V,
active low
Tx_ 5V,
active low
SCL, 5V,
active low
LED Ctrl
2
SP Data In, 5V,
active high
Rx_5V,
active low
Use pin 7 RJ45
for SDA, 5V
active low
IR in to TV, 5V,
active low
3
Reserved
Reserved
4
SP Data Out, 5V, Not use
active low
Reserved
Reserved
Not use
Status
Technical Specifications, Directions for Use, and Connections
Configure via communication menu
Pins
SP-SPI
SP-Serial XP
SP-I2C
HM-Link
5
Gnd
Gnd
Gnd
Gnd
6
IR Out,
open collector
IR Out,
open collector
IR Out,
open collector
IR from RC, 5V,
active low
Q522.1HE LA
3
4
5
6
7
8
- Audio L
- Ground Audio
- Ground Blue
- Audio L
- Video Blue (*)
- Function Select
9
10
11
12
13
14
15
16
- Ground Green
- n.c.
- Video Green (*)
- n.c.
- Ground Red
- Ground P50
- Video Red (*)
- Status/FBL
17
18
19
20
21
- Ground Video
- Ground FBL
- Video CVBS
- Video CVBS
- Shield
VGA: Video RGB - In
1
5
10
6
15
11
10000_002_090121.eps
090127
Figure 2-5 VGA Connector
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
- Video Red
- Video Green
- Video Blue
- Sense
- Ground
- Ground Red
- Ground Green
- Ground Blue
- +5VDC
- Ground Sync
- Sense
- Bi-directional data
- H-sync
- V-sync
- Data clock
0.7 VPP / 75 W
0.7 VPP / 75 W
0.7 VPP / 75 W
Gnd
Gnd
Gnd
Gnd
Gnd
+5 V (EDID NVM)
Gnd
Gnd
EDID I2C data
0-5V
0-5V
EDID I2C clock
j
j
j
H
H
H
H
H
j
H
H
jk
j
j
jk
Service Connector (UART)
1 - Ground
Gnd
2 - UART_TX
Transmit
3 - UART_RX
Receive
Cinch: S/PDIF - Out
Bk - Coaxial
Cinch: Audio - Out
Rd - Audio - R
Wh - Audio - L
H
k
j
0.4 - 0.6VPP / 75 ohm
kq
0.5 VRMS / 10 kohm
0.5 VRMS / 10 kohm
kq
kq
EXT3: Cinch: Video YPbPr - In, Audio - In
Gn - Video Y
1 VPP / 75 ohm
Bu - Video Pb
0.7 VPP / 75 ohm
Rd - Video Pr
0.7 VPP / 75 ohm
Rd - Audio - R
0.5 VRMS / 10 kohm
Wh - Audio - L
0.5 VRMS / 10 kohm
jq
jq
jq
jq
jq
2.
EN 5
0.5 VRMS / 1 kohm
Gnd
Gnd
0.5 VRMS / 10 kohm
0.7 VPP / 75 ohm
0 - 2 V: INT
4.5 - 7 V: EXT 16:9
9.5 - 12 V: EXT 4:3
Gnd
k
H
H
j
j
0.7 VPP / 75 ohm
j
Gnd
Gnd
0.7 VPP / 75 ohm
0 - 0.4 V: INT
1 - 3 V: EXT / 75 ohm
Gnd
Gnd
1 VPP / 75 ohm
1 VPP / 75 ohm
Gnd
H
H
j
j
H
j
H
H
k
j
H
(*) Only when Cardslot is disabled in “Communication” menu.
EXT2: Video YPbPr - In, CVBS - In/Out, Audio - In/Out
1 - Audio R
0.5 VRMS / 1 kohm
2 - Audio R
0.5 VRMS / 10 kohm
3 - Audio L
0.5 VRMS / 1 kohm
4 - Ground Audio
Gnd
5 - Ground Pb
Gnd
6 - Audio L
0.5 VRMS / 10 kohm
7 - Video Pb
0.7 VPP / 75 ohm
8 - Function Select 0 - 2 V: INT
4.5 - 7 V: EXT 16:9
9.5 - 12 V: EXT 4:3
9 - Ground Y
Gnd
10 - n.c.
11 - Video Y
0.7 VPP / 75 ohm
12 - n.c.
13 - Ground Pr
Gnd
14 - Ground P50
Gnd
15 - Video Pr
0.7 VPP / 75 ohm
16 - Status/FBL
0 - 0.4 V: INT
1 - 3 V: EXT / 75 ohm
17 - Ground Video
Gnd
18 - Ground FBL
Gnd
19 - Video CVBS
1 VPP / 75 ohm
20 - Video CVBS
1 VPP / 75 ohm
21 - Shield
Gnd
j
H
H
k
j
H
Aerial - In
- - IEC-type (EU)
D
k
j
k
H
H
j
j
j
H
j
H
H
j
EXT1: Video RGB - In (*), CVBS - In/Out, Audio - In/Out
20
2
21
1
Coax, 75 ohm
HDMI 1 & 2 Digital Video, Digital Audio - In
See HDMI: Digital Video, Digital Audio - In
10000_001_090121.eps
090121
Figure 2-6 SCART connector
1
2
2.4
- Audio R
- Audio R
0.5 VRMS / 1 kohm
0.5 VRMS / 10 kohm
k
j
Mini Jack: HDMI/DVI Audio - In
Rd - Audio - R
0.5 VRMS / 10 kohm
Wh - Audio - L
0.5 VRMS / 10 kohm
jq
jq
Chassis Overview
Refer to chapter Block Diagrams for PWB/CBA locations.
2009-Dec-04
EN 6
3.
Q522.1HE LA
Precautions, Notes, and Abbreviation List
3. Precautions, Notes, and Abbreviation List
Index of this chapter:
3.1 Safety Instructions
3.2 Warnings
3.3 Notes
3.4 Abbreviation List
3.1
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. Of de set
ontploft!
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 MΩ and 12 MΩ.
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.
3.2
•
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.
3.3
Notes
3.3.1
General
•
2009-Dec-04
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 with a colour bar signal and stereo
sound (L: 3 kHz, R: 1 kHz unless stated otherwise) and
3.3.2
Schematic Notes
•
•
•
•
•
•
3.3.3
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.
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 kΩ).
Resistor values with no multiplier may be indicated with
either an “E” or an “R” (e.g. 220E or 220R indicates 220 Ω).
All capacitor values are given in micro-farads (μ = × 10-6),
nano-farads (n = × 10-9), or pico-farads (p = × 10-12).
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 on the Philips
Spare Parts Web Portal.
Spare Parts
For the latest spare part overview, consult your Philips Spare
Part web portal.
3.3.4
BGA (Ball Grid Array) ICs
Introduction
For more information on how to handle BGA devices, visit this
URL: http://www.atyourservice-magazine.com. 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.
Where applicable and available, this profile is added to the IC
Data Sheet information section in this manual.
3.3.5
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. 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
avoid mixed regimes. If this cannot be avoided, carefully
clear the solder-joint from old tin and re-solder with new tin.
Precautions, Notes, and Abbreviation List
3.3.6
3.4
Alternative BOM identification
It should be noted that on the European Service website,
“Alternative BOM” is referred to as “Design variant”.
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.
Identification: The bottom line of a type plate gives a 14-digit
serial number. Digits 1 and 2 refer to the production centre (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
: 32PF9968/10
PROD.NO: AG 1A0617 000001
MADE IN BELGIUM
220-240V ~ 50/60Hz
128W
VHF+S+H+UHF
S
BJ3.0E LA
10000_024_090121.eps
090121
Figure 3-1 Serial number (example)
3.3.7
3.3.8
0/6/12
AARA
ACI
ADC
AFC
AGC
AM
AP
AR
ASF
ATSC
ATV
Auto TV
AV
AVC
AVIP
B/G
BDS
BLR
BTSC
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!
B-TXT
C
CEC
Practical Service Precautions
CLR
ComPair
CP
CSM
CTI
•
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.
EN 7
Abbreviation List
Board Level Repair (BLR) or Component Level Repair
(CLR)
•
Q522.1HE LA
CL
CVBS
DAC
DBE
DCM
DDC
D/K
DFI
SCART switch control signal on A/V
board. 0 = loop through (AUX to TV),
6 = play 16 : 9 format, 12 = play 4 : 3
format
Automatic Aspect Ratio Adaptation:
algorithm that adapts aspect ratio to
remove horizontal black bars; keeps
the original aspect ratio
Automatic Channel Installation:
algorithm that installs TV channels
directly from a cable network by
means of a predefined TXT page
Analogue to Digital Converter
Automatic Frequency Control: control
signal used to tune to the correct
frequency
Automatic Gain Control: algorithm that
controls the video input of the feature
box
Amplitude Modulation
Asia Pacific
Aspect Ratio: 4 by 3 or 16 by 9
Auto Screen Fit: algorithm that adapts
aspect ratio to remove horizontal black
bars without discarding video
information
Advanced Television Systems
Committee, the digital TV standard in
the USA
See Auto TV
A hardware and software control
system that measures picture content,
and adapts image parameters in a
dynamic way
External Audio Video
Audio Video Controller
Audio Video Input Processor
Monochrome TV system. Sound
carrier distance is 5.5 MHz
Business Display Solutions (iTV)
Board-Level Repair
Broadcast Television Standard
Committee. Multiplex FM stereo sound
system, originating from the USA and
used e.g. in LATAM and AP-NTSC
countries
Blue TeleteXT
Centre channel (audio)
Consumer Electronics Control bus:
remote control bus on HDMI
connections
Constant Level: audio output to
connect with an external amplifier
Component Level Repair
Computer aided rePair
Connected Planet / Copy Protection
Customer Service Mode
Color Transient Improvement:
manipulates steepness of chroma
transients
Composite Video Blanking and
Synchronization
Digital to Analogue Converter
Dynamic Bass Enhancement: extra
low frequency amplification
Data Communication Module. Also
referred to as System Card or
Smartcard (for iTV).
See “E-DDC”
Monochrome TV system. Sound
carrier distance is 6.5 MHz
Dynamic Frame Insertion
2009-Dec-04
EN 8
3.
DFU
DMR
DMSD
DNM
DNR
DRAM
DRM
DSP
DST
DTCP
DVB-C
DVB-T
DVD
DVI(-d)
E-DDC
EDID
EEPROM
EMI
EPG
EPLD
EU
EXT
FDS
FDW
FLASH
FM
FPGA
FTV
Gb/s
G-TXT
H
HD
HDD
HDCP
HDMI
HP
I
I2 C
I2 D
I2 S
IF
IR
IRQ
ITU-656
2009-Dec-04
Q522.1HE LA
Precautions, Notes, and Abbreviation List
Directions For Use: owner's manual
Digital Media Reader: card reader
Digital Multi Standard Decoding
Digital Natural Motion
Digital Noise Reduction: noise
reduction feature of the set
Dynamic RAM
Digital Rights Management
Digital Signal Processing
Dealer Service Tool: special remote
control designed for service
technicians
Digital Transmission Content
Protection; A protocol for protecting
digital audio/video content that is
traversing a high speed serial bus,
such as IEEE-1394
Digital Video Broadcast - Cable
Digital Video Broadcast - Terrestrial
Digital Versatile Disc
Digital Visual Interface (d= digital only)
Enhanced Display Data Channel
(VESA standard for communication
channel and display). Using E-DDC,
the video source can read the EDID
information form the display.
Extended Display Identification Data
(VESA standard)
Electrically Erasable and
Programmable Read Only Memory
Electro Magnetic Interference
Electronic Program Guide
Erasable Programmable Logic Device
Europe
EXTernal (source), entering the set by
SCART or by cinches (jacks)
Full Dual Screen (same as FDW)
Full Dual Window (same as FDS)
FLASH memory
Field Memory or Frequency
Modulation
Field-Programmable Gate Array
Flat TeleVision
Giga bits per second
Green TeleteXT
H_sync to the module
High Definition
Hard Disk Drive
High-bandwidth Digital Content
Protection: A “key” encoded into the
HDMI/DVI signal that prevents video
data piracy. If a source is HDCP coded
and connected via HDMI/DVI without
the proper HDCP decoding, the
picture is put into a “snow vision” mode
or changed to a low resolution. For
normal content distribution the source
and the display device must be
enabled for HDCP “software key”
decoding.
High Definition Multimedia Interface
HeadPhone
Monochrome TV system. Sound
carrier distance is 6.0 MHz
Inter IC bus
Inter IC Data bus
Inter IC Sound bus
Intermediate Frequency
Infra Red
Interrupt Request
The ITU Radio communication Sector
(ITU-R) is a standards body
subcommittee of the International
Telecommunication Union relating to
radio communication. ITU-656 (a.k.a.
ITV
LS
LATAM
LCD
LED
L/L'
LPL
LS
LVDS
Mbps
M/N
MHEG
MIPS
MOP
MOSFET
MPEG
MPIF
MUTE
MTV
NC
NICAM
NTC
NTSC
NVM
O/C
OSD
OAD
OTC
P50
PAL
SDI), is a digitized video format used
for broadcast grade video.
Uncompressed digital component or
digital composite signals can be used.
The SDI signal is self-synchronizing,
uses 8 bit or 10 bit data words, and has
a maximum data rate of 270 Mbit/s,
with a minimum bandwidth of 135
MHz.
Institutional TeleVision; TV sets for
hotels, hospitals etc.
Last Status; The settings last chosen
by the customer and read and stored
in RAM or in the NVM. They are called
at start-up of the set to configure it
according to the customer's
preferences
Latin America
Liquid Crystal Display
Light Emitting Diode
Monochrome TV system. Sound
carrier distance is 6.5 MHz. L' is Band
I, L is all bands except for Band I
LG.Philips LCD (supplier)
Loudspeaker
Low Voltage Differential Signalling
Mega bits per second
Monochrome TV system. Sound
carrier distance is 4.5 MHz
Part of a set of international standards
related to the presentation of
multimedia information, standardised
by the Multimedia and Hypermedia
Experts Group. It is commonly used as
a language to describe interactive
television services
Microprocessor without Interlocked
Pipeline-Stages; A RISC-based
microprocessor
Matrix Output Processor
Metal Oxide Silicon Field Effect
Transistor, switching device
Motion Pictures Experts Group
Multi Platform InterFace
MUTE Line
Mainstream TV: TV-mode with
Consumer TV features enabled (iTV)
Not Connected
Near Instantaneous Compounded
Audio Multiplexing. This is a digital
sound system, mainly used in Europe.
Negative Temperature Coefficient,
non-linear resistor
National Television Standard
Committee. Color system mainly used
in North America and Japan. Color
carrier NTSC M/N= 3.579545 MHz,
NTSC 4.43= 4.433619 MHz (this is a
VCR norm, it is not transmitted off-air)
Non-Volatile Memory: IC containing
TV related data such as alignments
Open Circuit
On Screen Display
Over the Air Download. Method of
software upgrade via RF transmission.
Upgrade software is broadcasted in
TS with TV channels.
On screen display Teletext and
Control; also called Artistic (SAA5800)
Project 50: communication protocol
between TV and peripherals
Phase Alternating Line. Color system
mainly used in West Europe (color
carrier= 4.433619 MHz) and South
America (color carrier PAL M=
Precautions, Notes, and Abbreviation List
PCB
PCM
PDP
PFC
PIP
PLL
POD
POR
PTC
PWB
PWM
QRC
QTNR
QVCP
RAM
RGB
RC
RC5 / RC6
RESET
ROM
RSDS
R-TXT
SAM
S/C
SCART
SCL
SCL-F
SD
SDA
SDA-F
SDI
SDRAM
SECAM
SIF
SMPS
SoC
SOG
SOPS
SPI
S/PDIF
SRAM
SRP
SSB
SSC
STB
STBY
SVGA
SVHS
SW
SWAN
SXGA
TFT
THD
3.575612 MHz and PAL N= 3.582056
MHz)
Printed Circuit Board (same as “PWB”)
Pulse Code Modulation
Plasma Display Panel
Power Factor Corrector (or Preconditioner)
Picture In Picture
Phase Locked Loop. Used for e.g.
FST tuning systems. The customer
can give directly the desired frequency
Point Of Deployment: a removable
CAM module, implementing the CA
system for a host (e.g. a TV-set)
Power On Reset, signal to reset the uP
Positive Temperature Coefficient,
non-linear resistor
Printed Wiring Board (same as “PCB”)
Pulse Width Modulation
Quasi Resonant Converter
Quality Temporal Noise Reduction
Quality Video Composition Processor
Random Access Memory
Red, Green, and Blue. The primary
color signals for TV. By mixing levels
of R, G, and B, all colors (Y/C) are
reproduced.
Remote Control
Signal protocol from the remote
control receiver
RESET signal
Read Only Memory
Reduced Swing Differential Signalling
data interface
Red TeleteXT
Service Alignment Mode
Short Circuit
Syndicat des Constructeurs
d'Appareils Radiorécepteurs et
Téléviseurs
Serial Clock I2C
CLock Signal on Fast I2C bus
Standard Definition
Serial Data I2C
DAta Signal on Fast I2C bus
Serial Digital Interface, see “ITU-656”
Synchronous DRAM
SEequence Couleur Avec Mémoire.
Color system mainly used in France
and East Europe. Color carriers=
4.406250 MHz and 4.250000 MHz
Sound Intermediate Frequency
Switched Mode Power Supply
System on Chip
Sync On Green
Self Oscillating Power Supply
Serial Peripheral Interface bus; a 4wire synchronous serial data link
standard
Sony Philips Digital InterFace
Static RAM
Service Reference Protocol
Small Signal Board
Spread Spectrum Clocking, used to
reduce the effects of EMI
Set Top Box
STand-BY
800 × 600 (4:3)
Super Video Home System
Software
Spatial temporal Weighted Averaging
Noise reduction
1280 × 1024
Thin Film Transistor
Total Harmonic Distortion
TMDS
TS
TXT
TXT-DW
UI
uP
UXGA
V
VESA
VGA
VL
VSB
WYSIWYR
WXGA
XTAL
XGA
Y
Y/C
YPbPr
YUV
Q522.1HE LA
3.
EN 9
Transmission Minimized Differential
Signalling
Transport Stream
TeleteXT
Dual Window with TeleteXT
User Interface
Microprocessor
1600 × 1200 (4:3)
V-sync to the module
Video Electronics Standards
Association
640 × 480 (4:3)
Variable Level out: processed audio
output toward external amplifier
Vestigial Side Band; modulation
method
What You See Is What You Record:
record selection that follows main
picture and sound
1280 × 768 (15:9)
Quartz crystal
1024 × 768 (4:3)
Luminance signal
Luminance (Y) and Chrominance (C)
signal
Component video. Luminance and
scaled color difference signals (B-Y
and R-Y)
Component video
2009-Dec-04
EN 10
4.
Q522.1HE LA
Mechanical Instructions
4. Mechanical Instructions
Index of this chapter:
4.1 Cable Dressing
4.1.1 Cable dressing 26HFL5870D/10
4.1.2 Cable dressing 32HFL5870D/10
4.1.3 Cable dressing 37HFL5880D/10
4.1.4 Cable dressing 42HFL5880D/10
4.2 Service Positions
4.3 Assy/Panel Removal
4.1
Cable Dressing
4.1.1
Cable dressing 26HFL5870D/10
Type
Qty
Tape
0
4.4 Set Re-assembly
Notes:
• Figures below can deviate slightly from the actual situation,
due to the different set executions.
Saddle
(L)
0
Saddle
(M)
5
Saddle
(S)
8
Saddle
(Adhesive)
0
18680_100_090820.eps
090820
Figure 4-1 Overview 26HFL5870D/10
2009-Dec-04
Mechanical Instructions
IRled pnl
Type
Qty
Lcd clock
Ac inlet wire
Tape
3
Saddle
(L)
0
Q522.1HE LA
IRled and lcd
clock cable
Saddle
(M)
0
Saddle
(S)
4
4.
EN 11
HV cable that comes
with lcd panel
Saddle
(Adhesive)
0
18680_101_090820.eps
091201
Figure 4-2 Panel HV cable taping of 26HFL5870D/10
18680_105_090820.eps
091201
Figure 4-3 Top left + LVDS 26HFL5870D/10
2009-Dec-04
EN 12
4.
Q522.1HE LA
Mechanical Instructions
Shorter HV cable
plugs on the inside
connector
18680_102_090820.eps
091130
Figure 4-4 Middle left 26HFL5870D/10
Keyboard cable hold by panel stop, done only for 26” due to space constraint
18680_103_090820.eps
091130
Figure 4-5 Bottom left 26HFL5870D/10
2009-Dec-04
Mechanical Instructions
Q522.1HE LA
4.
EN 13
18680_104_090820.eps
091130
Figure 4-6 Top right 26HFL5870D/10
2009-Dec-04
EN 14
4.1.2
4.
Q522.1HE LA
Mechanical Instructions
Cable dressing 32HFL5870D/10
HV cable is routed under the speaker
box assy in the grovee of lcd panel
using adhesive saddle
Type
Qty
Tape
4
Saddle
(L)
3
Saddle
(M)
4
Saddle
(S)
4
Saddle
(Adhesive)
2
18680_110_090820.eps
090820
Figure 4-7 Overview 32HFL5870D/10
2009-Dec-04
Mechanical Instructions
Q522.1HE LA
4.
EN 15
18680_112_090820.eps
091201
Figure 4-8 Top left 32HFL5870D/10
IR/LED cable cross HV
cable at right angle to
minimize interference
18680_111_090820.eps
091201
Figure 4-9 Bottom left 32HFL5870D/10
2009-Dec-04
EN 16
4.
Q522.1HE LA
Mechanical Instructions
12V Switch panel
18680_114_090820.eps
091201
Figure 4-10 Bottom right 32HFL5870D/10
18680_113_090820.eps
091201
Figure 4-11 Top right 32HFL5870D/10
2009-Dec-04
Mechanical Instructions
4.1.3
Q522.1HE LA
4.
EN 17
Cable dressing 37HFL5880D/10
HV cable is routed under the
speaker box assy in the groove of
LCD panel using adhesive saddle
Type
Qty
Black
tape
Tape
7
6
Saddle
(L)
0
Saddle
(M)
3
Saddle
(S)
4
Saddle
(Adhesive)
2
18680_120_090821.eps
090821
Figure 4-12 Overview 37HFL5880D/10
2009-Dec-04
EN 18
4.
Q522.1HE LA
Mechanical Instructions
18680_122_090821.eps
091201
Figure 4-13 Top left 37HFL5880D/10
IR/LED and HV cable
crosses at right angle
to minimize
interference
18680_121_090821.eps
091201
Figure 4-14 Bottom left 37HFL5880D/10
2009-Dec-04
Mechanical Instructions
Q522.1HE LA
4.
EN 19
18680_124_090821.eps
091201
Figure 4-15 Bottom right 37HFL5880D/10
18680_123_090821.eps
091201
Figure 4-16 Top right 37HFL5880D/10
2009-Dec-04
EN 20
4.1.4
4.
Mechanical Instructions
Q522.1HE LA
Cable dressing 42HFL5880D/10
HV cable is routed under the
speaker box assy in the groove of
LCD panel using adhesive saddle
Type
Qty
Black
tape
Tape
7
6
Saddle
(L)
0
Saddle
(M)
6
Saddle
(S)
7
Saddle
(Adhesive)
2
18680_130_090821.eps
091201
Figure 4-17 Overview 42HFL5880D/10
2009-Dec-04
Mechanical Instructions
Q522.1HE LA
4.
EN 21
Short HV cable
insert on
the inside
18680_132_090821.eps
091201
Figure 4-18 Top left 42HFL5880D/10
IR/LED cable cross
HV cable at 90
degree to prevent
interference
18680_131_090821.eps
091201
Figure 4-19 Bottom left 42HFL5880D/10
2009-Dec-04
EN 22
4.
Q522.1HE LA
Mechanical Instructions
18680_134_090821.eps
091201
Figure 4-20 Bottom right 42HFL5880D/10
18680_133_090821.eps
091201
Figure 4-21 Top right 42HFL5880D/10
2009-Dec-04
Mechanical Instructions
4.2
Service Positions
4.3.2
4.3.3
Foam Bars
4.
EN 23
Speakers
Each speaker unit is mounted with two screws. A sticker on the
the unit indicates if it is the right (“R”) or left (“L”) box, seen from
the backside of the set. Speakers are firing downwards.
When defective, replace the whole unit.
For easy servicing of this set, there are a few possibilities
created:
• The buffers from the packaging.
• Foam bars (created for Service).
4.2.1
Q522.1HE LA
IR/LED Panel
1. Unplug the connectors leading to the SSB and Keyboard.
2. Remove the fixation screws.
3. Lift the panel and take it out.
When defective, replace the whole unit.
1
4.3.4
Clock unit (not for 42-inch model)
1.
2.
3.
4.
1
Remove the TV stand.
Remove the subframe/bracket that holds the stand.
Unscrew the clock panel via the holes in the flare.
Loosen the flare by partly unscrewing the two brackets
underneath the speakers.
5. Now lift the flare and take the clock panel out.
6. Unplug the cable.
When defective, replace the whole unit.
Required for sets
42"
4.3.5
Keyboard Control Panel
1. Unplug the Keyboard connector from the IR/LED panel.
2. Release the clamp on the top side.
3. Lift the unit and take it out (it hinges at the bottom).
When defective, replace the whole unit.
4.3.6
iBoard Panel
1. Unplug all connectors.
2. Remove the screws that hold the panel and take the panel
out.
10000_018_090121.eps
090121
4.3.7
Figure 4-22 Foam bars
The foam bars (order code 3122 785 90580 for two pieces) can
be used for all types and sizes of Flat TVs. See Figure 4-22 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, the screen can
be monitored.
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.
1. Remove all screws of the rear cover.
2. 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.
DC/DC Converter Panel
1. Unplug the connector.
2. Remove the screw and take the panel out.
When defective, replace the whole unit.
4.3.8
12V Switch Panel
1. Unplug all connectors.
2. Remove the screw that holds the panel and take the panel
out.
When defective, replace the whole unit.
4.3.9
Main Supply Panel
1. Unplug all connectors.
2. Remove the fixation screws.
3. Take the panel out.
When defective, replace the whole unit.
4.3.10 Small Signal Board (SSB)
Caution: It is mandatory to remount screws at their original
position during re-assembly. Failure to do so may result in
damaging the SSB.
1. Unplug all connectors. Be careful with the fragile LVDS
connector(s)!
2. Remove all screws that secure the panel.
3. The SSB can now be taken out of the set, together with the
side cover.
4. To remove the side cover, remove the screw in the middle
of the cover, release the notch at the head phone
connector, and pull the cover sidewards from the SSB.
2009-Dec-04
EN 24
4.
Q522.1HE LA
Mechanical Instructions
1.
2.
3.
4.
5.
6.
7.
4.3.11 LCD Panel
Refer to Figure 4-23 for details. As every screen size has a
(slightly) different mechanical construction (some have the
panels directly mounted on the LCD display, others use
brackets), we only describe one model. Disassembly method of
other LCD panels is similar to the one described below (see
also cable dressing pictures for more details).
Unplug all connectors.
Remove all panels as earlier described.
Remove the speakers as earlier described.
Remove the stand [1].
Remove all subframes from the LCD panel (e.g. [2]).
Remove the brackets [3] that secure the LCD Panel.
The LCD panel can now be lifted from the front cabinet.
3
3
3
3
2
2
1
18440_103_090223.eps
090709
Figure 4-23 LCD Panel removal (example model without iTV panels)
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 Cable Dressing pictures.
• Pay special attention not to damage the EMC foams in the
set. Ensure that EMC foams are mounted correctly.
2009-Dec-04
Service Modes, Error Codes, and Fault Finding
Q522.1HE LA
5.
EN 25
5. Service Modes, Error Codes, and Fault Finding
Index of this chapter:
5.1 Test Points
5.2 Hotel mode
5.3 Service Modes
5.4 Stepwise Start-up
5.5 Service Tools
5.6 Error Codes
5.7 The Blinking LED Procedure
5.8 Protections
5.9 Fault Finding and Repair Tips
5.10 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
Hotel mode
Before the service modes can be activated, the set needs to be
switched into normal consumer mode (MTV-Mode) first. Use
an iTV setup remote control (type: RC2573/01, 12nc:
3139 228 88782) to key in the code ‘024995’ (slowly) directly
followed by the MENU button. The text messages “TV Is Now
In MTV Mode” and “Please Do A Cold Start!” appears on the
screen. Disconnect the set for a few seconds from the mains
supply, reconnect the set to the mains supply again. The set is
now in the normal consumer mode (MTV-Mode).
After repair, place the set into hotel mode (iTV-Mode) again.
Key-in the same code on the remote control as described
above. The text message “TV Is Now In ITV Mode” appears. A
cold start must be performed as described above. The set is
now in the hotel mode (iTV-Mode) again.
5.3
Specifications
Table 5-1 SDM default settings
Freq. (MHz)
Default
system
Europe, AP(PAL/Multi)
475.25
PAL B/G
Europe, AP DVB-T
DVB-T
546.00 PID
Video: 0B 06 PID
PCR: 0B 06 PID
Audio: 0B 07
Region
•
•
•
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.
– 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 5-1) 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.
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.
SPI
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 section ComPair).
5.3.1
2
1
SDM
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
section Stepwise Start-up.
• To override SW protections detected by MIPS. See also
section Error Codes.
• To start the blinking LED procedure (not valid for
protections detected by stand-by software).
18680_201_090825.eps
090825
Figure 5-1 Service mode pads
After activating this mode, “SDM” will appear in the upper right
corner of the screen.
How to Navigate
By pressing 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).
2009-Dec-04
EN 26
5.
Q522.1HE LA
Service Modes, Error Codes, and Fault Finding
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.
5.3.2
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.
Refer to chapter Alignments for details. To adapt this option,
the ComPair tool can be used (the correct HEX values for the
options can be found in chapter 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
Table 6-3 in chapter 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.
How to Activate SAM
Via a standard RC transmitter: key in the code “062596”
directly followed by the “INFO/i+” button. After activating SAM
with this method a service warning will appear on the screen,
to continue press the red button on the RC.
Note: When NVM is corrupted, or the NVM has been replaced,
there is a high possibility that the set will not display a picture
anymore because the display code is not correct. So, before
initializing the NVM via the SAM, the set should display a
picture and therefore the correct display option is a necessity.
2009-Dec-04
39mm
PHILIPS
27mm
Contents of SAM:
• Hardware Info.
– A. SW Version. Displays the software version of the
main software (example: Q53HE-1.2.3.4 =
AAAAB_X.Y.W.Z).
• 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).
– 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 section Error Codes).
• Reset Error Buffer. By pressing “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 Alignments.
Note that if the option code numbers are changed, it has to
be confirmed with the “OK” button before storing the
options. Otherwise any changes will be lost.
• Initialise NVM. The moment the processor recognizes a
corrupted NVM, the “initialize NVM” line will be highlighted.
Now, two options are available (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.
Display Option
Code
040
MODEL:
32PF9968/10
PROD.SERIAL NO:
AG 1A0620 000001
(CTN Sticker)
E_06532_038.eps
240108
Figure 5-2 Location of Display Option Code sticker
•
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Store - go right. 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 information.
– 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 a
directory “repair” has to be created in the root of the USB
stick. To upload the settings each item has to be selected
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 the 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 the set is displaying 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, menu items can be selected with the “CURSOR
UP/DOWN” key on the RC-transmitter. The selected item
will be highlighted. When not all menu items fit on the
Service Modes, Error Codes, and Fault Finding
•
•
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.
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•
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.
5.3.3
Customer Service Mode (CSM)
Purpose
When a customer is having problems with his TV-set, he can
call his dealer or the Customer Help desk. 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 this test pattern is displayed, the correct
running of the back end video chain (Pacific3, LVDS, and
display) can be determined. In case of a set with DFI panel, an
extra test picture is generated. A Pacific3 test picture for 3
seconds and then the DFI EPLD test picture for another 3
seconds will be generated. With this extra test picture it is
possible to determine if the DFI panel is working properly.
Also new in this chassis: when CSM is activated 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 the USB stick. This information can be
useful if the set is not displaying a 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.
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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, can be navigated through the menus.
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•
Contents of CSM
• Set Type. This information is very helpful for a help
desk/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 section
Error Codes for a description.
• Code 2. Gives the first five errors of the error buffer. See
also section Error Codes for a description.
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Q522.1HE LA
5.
EN 27
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:
- Seven last characters of the 12NC of the SSB itself.
- the serial number of the SSB, which consists of seven
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 seven 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 chosen “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.
MPEG4 (blue to toggle).
Head phone Volume. Gives the last status of the head
phone 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.
Child Lock. Indicates the status of the Child lock. 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. Indicates the “Parental rating” as
transmitted by the broadcaster (if applicable). If the
2009-Dec-04
EN 28
5.
Q522.1HE LA
Service Modes, Error Codes, and Fault Finding
parental rating status is indicating a higher age then the
parental rating lock as set by the customer, the child lock
code will be needed to enter.
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•
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
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
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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: Q582E_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: Q582E_1.2.3.4.
Stand-by SW. Displays the built-in stand-by processor
software version. Upgrading this software will be possible
via ComPair or via USB. 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 rubbish was displayed. Ignore this.
Pacific 3 Flash SW (if applicable). 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 version.
DFI Ambilight software (if applicable). Displays the DFI
ambilight EPLD software version.
MPEG4 software. Displays the MPEG4 software version.
How to Exit CSM
Press “MENU” on the RC-transmitter.
2009-Dec-04
Service Modes, Error Codes, and Fault Finding
5.4
Stepwise Start-up
Q522.1HE LA
5.
EN 29
FET 7U08 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.
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
7U08 is done, you can destroy all ICs supplied by the +3V3,
due to over-voltage. It is recommended to measure first the
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.
Off
Mains
off
St by
(Off St by)
- WakeUp
requested
- Acquisition
needed
- No data Acquisition
required
and no POD present
- tact SW pushed
- WakeUp
requested
- Acquisition
needed
- POD Card removed
- tact SW pushed
Mains
on
Semi
St by
WakeUp
requeste
d
Active
- St by
requested
- tact SW
pushed
No data
Acquisition
required and
POD present
WakeUp
requeste
d
GoToProtection
GoToProtection
POD
St by
GoToProtection
Protection
On
For POD should be read Common Interface (CI)
H_17650_093.eps
180108
Figure 5-3 Transition diagram
2009-Dec-04
EN 30
5.
Q522.1HE LA
Service Modes, Error Codes, and Fault Finding
Off/Stby to Semi
Stand by or
Protection
Off
Mains is applied
action holder: MIPS
action holder: St-by
Standby Supply starts running.
All standby supply voltages become available .
st-by µP resets
autonomous action
All I/O lines have a High default state:
- Switch PNX85xx in reset (active LOW).
- Keep the Audio-reset high.
- NVM power line is high, no NVM communication possible.
Initialise I/O pins of the st-by µP, start keyboard scanning, RC
detection. Wake up reasons are off.
If the protection state was left by short circuiting the
SDM pins, detection of a protection condition during
startup will stall the startup. Protection conditions in a
playing set will be ignored. The protection mode will
not be entered.
- Switch Audio-Reset high.
It is low in the standby mode if the standby
mode lasted longer than 10s.
PDPGO line is high (either HW wise in a non FHP set or
because of the stby µP reset in an FHP set) which will start the
FHP PDP.
Display supply is switched on
through the ON-mode I/O line
Switch ON Platform and display supply by switching LOW the
POD-MODE and the ON-MODE I/O lines.
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 high
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.
+5V, and +12V are switched on
Wait 50ms and then start polling the detect5V-12V every 40ms.
detect-5V-12V received within
2900 ms after POD-mode I/O
line toggle?
No
“5V 12V supply” error
Yes
SP
activate +5V/+12V supply
detection algorithm. See CHS protections.
Enable the +1V2 supply (ENABLE-1V2)
Wait 100ms
100 ms is recommended by the
PNX85xx spec
.
Enable the supply for
+1.8V and +3.3V (ENABLE-3V3)
No separate enable is present
for the +1V8 supply in the
TV522.
Start polling the detect-1V2-2V5-3V3
every 40ms
Only one detect line is present
in the TV522: it detects +1V2
and +3V3
Detection
received within
250 ms after enable-3V3
toggle?
No
1V2 2V5 3V3 DCDC error
Yes
SP
Activate supply detection algorithms for DCDC outputs
Wait 20ms
SUPPLY-FAULT I/O line
is High?
No
Supply fault error
The supply fault line is an OR
function of DCDC, DCDC5050
and POD/CI supply switch.
H_17650_094a.eps
090826
Figure 5-4 “Off” to “Semi Stand-by” flowchart (part 1)
2009-Dec-04
Service Modes, Error Codes, and Fault Finding
SUPPLY-FAULT I/O line
is High?
Q522.1HE LA
No
5.
EN 31
The supply fault line is an OR
function of DCDC, DCDC5050
and POD/CI supply switch.
Supply fault error
Yes
SP
No
Enable the supply fault detection
algorithm
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.
Set I²C slave address
of Standby µP to (A0h)
Switch LOW the RESET-NVM_WP-NANDFLASH line. Add a 2ms delay before
trying to address the NVM to allow correct NVM initialization.
Detect EJTAG debug probe
(pulling pin of the probe interface to
ground by inserting EJTAG probe)
An EJTAG probe (e.g. WindPower ICE probe) can
be connected for Linux Kernel debugging purposes.
EJTAG probe
connected ?
No
Yes
No
No
Cold boot?
Yes
Release AVC system reset
Feed warm boot script
Release AVC system reset
Feed initializing boot script
disable alive mechanism
Release AVC system reset
Feed cold boot script
Boot process of the PNX5050 also starts at this point.
Bootscript ready
in 1250 ms?
No
Yes
Set I²C slave address
of Standby µP to (60h)
RPC start (comm. protocol)
Flash to Ram image
transfer succeeded
within 30s?
No
Code = 5
Yes
Switch AVC PNX85xx
in reset (active low)
Code = 53
Wait 10ms
No
SW initialization
succeeded
within 20s?
Yes
Enable Alive check mechanism
Switch the NVM reset
line HIGH.
Disable all supply related protections and
switch off the +2V5, +3V3 DC/DC converter.
MIPS reads the wake up reason
from standby µP.
Wait until AVC starts to
communicate
In case of an LCD set, check the
Power-OK display line
Wait 5ms
switch off the remaining DC/DC
converters
3-th try?
Switch POD-MODE and ON-MODE
I/O line high.
Power-ok display high ?
No
Log power-ok error and enter
protection
Yes
Reset the Pacific by pulling LOW the Pacific
hardware reset line during 100ms.
No
MP
H_17650_094b.eps
090826
Figure 5-5 “Off” to “Semi Stand-by” flowchart (part 2)
2009-Dec-04
EN 32
5.
Q522.1HE LA
Service Modes, Error Codes, and Fault Finding
switch off the remaining DC/DC
converters
3-th try?
Power-ok display high ?
Log power-ok error and enter
protection
No
Yes
Switch POD-MODE and ON-MODE
I/O line high.
Reset the Pacific by pulling LOW the Pacific
hardware reset line during 100ms.
No
MP
Yes
Release Pacific reset
and wait 200ms
Blink Code as
error code
Ping the Pacific through I²C
SP
Pacific acknowledges ?
No
Third Pacific boot retry?
Yes
Yes
Init Pacific according use 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 …..
Log Pacific error
Enable the Pacific output by sending the PanelConfig.PanelOn
to the Pacific in case of a DFI set
Start 4 seconds preheating timer in case of
an LPL scanning backlight LCD set
.
- Channeldecoder type TDA10060
cannot be reloaded without reset
of the channeldecoder.
- Channeldecoder type TDA10048
can be reloaded without reset.
No
This is needed here because the Pacific has to
deliver an output clock towards the DFI. Otherwise
the DFI cannot deliver ambilight functionality in the
lampadaire mode. The presence of the DFI can be
determined via the display option.
Initialize audio according FMS information:
Channel decoder
TDA 10048?
Yes
Download firmware into the channel
decoder
No
Downloaded
successfully ?
No
Third try?
Yes
Yes
Log channel decoder error
initialize tuner , Master IF and channel
decoder
Initialize source selection
Wait until Cpipe delivers a stable output
clock
EPLD
and
Pacific
should
be reset
when a
stable
input
clock
become
s
available
at their
input.
Reset EPLD
Wait 100ms
Reset Pacific clock
Initialize video processing IC 's
- PNX5050 in /82
- scaler EPLD
:
initialize AutoTV by triggering CHS AutoTV Init interface
Initialize Pacific or EPLD related Ambilight
settings (if applicable)
Initialize Ambilight with Lights off .
Do not enter semi- standby state in case of an LPL
scanning backlight LCD set before 4s preheating timer has
elapsed.
Semi-Standby
Figure 5-6 “Off” to “Semi Stand-by” flowchart (part 3)
2009-Dec-04
H_17650_094c.eps
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Service Modes, Error Codes, and Fault Finding
Q522.1HE LA
5.
EN 33
action holder: AVC
action holder: 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
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 display by sending the
PanelConfig.PanelOn (I²C) command to the Pacific
Initialize audio and video
processing IC's and functions
according needed use case.
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 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.
Wait until 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 audio mute and wait 100ms before any other audio
handling is done (e.g. volume change)
Restore dimming backlight feature, PWM output and unblank
the video.
Active
H_16770_110.eps
290307
Figure 5-7 “Semi Stand-by” to “Active” flowchart
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EN 34
5.
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Service Modes, Error Codes, and Fault Finding
Active
action holder: AVC
action holder: St-by
autonomous action
Mute all sound outputs via softmute
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
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 5-8 “Active” to “Semi Stand-by” flowchart
2009-Dec-04
H_16770_112.eps
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Service Modes, Error Codes, and Fault Finding
Q522.1HE LA
Semi Stand by
5.
EN 35
action holder: MIPS
action holder: St-by
autonomous action
If ambientlight functionality was used in semi -standby
(lampadaire mode), switch off ambient light
Delay transition until ramping down of ambient light is
finished. *)
*) If this is 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.
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
Wait 10ms
Switch the NVM reset line HIGH.
Disable all supply related protections and switch off
the +1V8 and the +3V3 DC/DC converter
Wait 5ms
switch off the +1V2 DC/DC converters
Switch OFF all supplies by switching HIGH the POD MODE and the ON-MODE I/O lines.
Important remark:
release reset audio 10 sec after
entering standby to save power
For PDP this means
CPUGO becomes low.
Stand by
H_16770_114.eps
260307
Figure 5-9 “Semi Stand-by” to “Stand-by” flowchart
2009-Dec-04
EN 36
5.
action holder: MIPS
Q522.1HE LA
Service Modes, Error Codes, and Fault Finding
MP
SP
action holder: St-by
autonomous action
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
Switch AVC in reset state
Wait 10ms
Switch the NVM reset line HIGH.
Disable all supply 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 in order to indicate
protection state*.
Protection
Figure 5-10 “Protection” flowchart
2009-Dec-04
(*): This can be the standby LED or the ON LED
depending on the availability in the set under
discussion .
H_16770_115.eps
290307
Service Modes, Error Codes, and Fault Finding
Q522.1HE LA
5.5
Service Tools
5.6
Error Codes
5.5.1
ComPair
5.6.1
Introduction
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.
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.
How to Connect
This is described in the ComPair chassis fault finding database.
Note: The TV must be in MTV mode for ComPair to work (see
5.2 Hotel mode).
TO TV
ComPair II
RC in
RC out
TO
I2C SERVICE
CONNECTOR
TO
UART SERVICE
CONNECTOR
Multi
function
Optional Power Link/ Mode
Switch
Activity
I2C
EN 37
The error code buffer contains all detected errors since the last
time the buffer was erased. The buffer is written from left to
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.
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).
TO
UART SERVICE
CONNECTOR
5.
RS232 /UART
5.6.2
How to Read the Error Buffer
PC
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).
ComPair II Developed by Philips Brugge
HDMI
I2C only
Optional power
5V DC
10000_036_090121.eps
091118
Figure 5-11 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.
• ComPair software: can be downloaded from the Philips
Service portal.
• ComPair RS232 cable: 3104 311 12742 (to be used with
chassis Q52x).
5.6.3
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.
Note: If you encounter any problems, contact your local
support desk.
2009-Dec-04
EN 38
5.6.4
5.
Q522.1HE LA
Service Modes, Error Codes, and Fault Finding
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 PNX85xx.
• Via a “not acknowledge” of an I2C communication.
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.
•
•
•
Table 5-2 Error code overview
Error/ Detected
Prot by
Device
Result
3
I2C3
E
MIPS
PNX85xx
Error logged.
5
PNX85xx does
not boot (HW
cause)
E
Stby P
PNX85xx
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.
11
I2C-MUX1
E
MIPS
PCA9540
Error logged.
12
I2C-MUX2
E
MIPS
PCA9540
Error logged.
23
HDMI mux
E
MIPS
AD8190/AD Error logged.
8191
24
I2C switch
E
MIPS
PCA9540
Error logged.
26
Master IF
E
MIPS
TDA9898/9
897/9890
Error logged.
28
MOP (Ambilight
MOP on DFI
panel)1)
E
MIPS
EP2CXXF4 Error logged.
84C7N
34
Tuner
E
MIPS
TD1716
Error logged.
37
Channel decoder E
MIPS
TDA10060/
TDA10048
Error logged.
46
Pacific3
E
MIPS
T6TF4
Error blinking + Error
logged.
53
PNX85xx does
not boot (SW
cause)
E
Stby P
PNX85xx
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.
75
iBoard
E
/
/
Error blinking + Error
logged.
Error Description
•
•
•
•
•
•
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 (I2C 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
2009-Dec-04
•
•
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 (PNX85xx 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 PNX85xx (supplies
not OK, PNX 8535 completely dead, I2C link between PNX
and Stand-by Processor broken, etc...). When error 5
occurs it is also possible that I2C2 bus is blocked (NVM).
I2C2 can be indicated in the schematics as follows: SCLUP-MIPS, SDA-UP-MIPS, SCL-SLAVE, SDA-SLAVE,
SCL-2 or SDA-2.
Error 11 (I2C MUX1). Indicates a blocked (short circuited)
I2C-MUX1 bus. At the time of release of this manual, this
error was not working as expected. Current situation: when
this error occurs the TV will constantly reboot due to the
blocked bus. The best way for further diagnosis, is to use
ComPair (e.g. read out the NVM content).
Error 12 (I2C MUX2). Indicates a blocked (short circuited)
I2C-MUX2 bus. At the time of release of this manual, this
error was not working as expected. Current situation: when
this error occurs the TV will constantly reboot due to the
blocked bus. The best way for further diagnosis, is to use
ComPair (e.g. read out the NVM content).
Error 24 (I2C 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 PNX85xx 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 I2C communication
towards the EPLD (picture processing EPLD, not the
Ambilight EPLD) on the DFI panel.
Error 75 (iBoard error). When this error occurs it means
that there is a problem with the I2C communication towards
the uP on the iBoard panel. A false error “75” (or “4B” in iTV
mode) will appear everytime an iBoard SW upgrade is
done via USB/JTAG, or after re-flash of NVM. This is
caused due to the termination of the iBoard I2C
communication line with the SSB (thus SSB detect a false
Service Modes, Error Codes, and Fault Finding
error). Service workshops need to clear this error via SAM.
This is the same with all TV522 ranges.
5.7
The Blinking LED Procedure
5.7.1
Introduction
5.8
Protections
5.8.1
Software Protections
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.
5.7.2
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.
EN 39
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.
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
visible via the front LED. This is especially useful for fault
finding, when there is no picture.
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.
Q522.1HE LA
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”).
5.8.2
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 Tip
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.
2009-Dec-04
EN 40
5.9
5.
Q522.1HE LA
Service Modes, Error Codes, and Fault Finding
Fault Finding and Repair Tips
Read also paragraph Extra Info
5.9.1
Ambilight
•
Due to a degeneration process of the AmbiLight, it is
recommended to change all ambilight units in case one unit
needs to be repaired.
5.9.2
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...)
5.9.3
•
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 12.7 V
(measured on decoupling capacitors 2U0W and 2U0Y and
the enable signals are “low” (active) then the output
voltages should have their normal values. The +1.2 V
supply starts-up via the ENABLE_1V2, then at least 100
ms later, the +3.3 V will be activated via ENABLE-3V3 from
the standby microprocessor. If +12 V value is less than
10 V then the last enumerated voltages will not show-up
due to the under-voltage detection circuit 7U01-1 + 6U04
and surrounding components.
Furthermore, if +12 V is less than 8 V then also +1.2 V will
not be available. The third DC-DC convertor that delivers
+1.4 V out of +12 V is started up when the ENABLE-1V2
becomes active (low) and +12 V is present. The +Vtun
generator (present only for the analogue version of China
platforms) will generate +33 V for the analogue tuner as
soon as the 12 V/3.3 V DC-DC converter will start to
operate.
• The consumption of controller IC 7U0A (for 3V3/1V2) is
around 19 mA (that means almost 200 mV drop voltage
across resistor 3U70) and the consumption of controller IC
7U0L (for 5V/1V4) is around 12mA.
• The current capability of the 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
1.8 V from +3.3 V with its output overloaded, the +3.3 V
stays usually at its normal value even though the
consumption from +3.3 V increases significantly.
• The SUPPLY-FAULT signal (active low) is an internal
protection (triggering error 9) for 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: +1.2 V not present (even for a short while
~10 ms). See diagram B02A.
1. Check 12 V availability (resistor 3U70, MOS-FETs 7U05
and 7U06), value of +12 V, and surrounding components)
2. Check the voltage on pin 9 of 7U0A (1.5 V),
3. Check for +1.2 V output voltage short-circuit to GND that
can generate pulsed over-currents 7 to 10 A through coil
5U00.
4. Check the over-current detection circuit (2U00 or 3U17
interrupted).
• Symptom: +1.4 V not present (even for a short while
~10 ms) while +12 V is okay (also across input capacitors
2U8A and 2U8E). See diagram B02C.
2009-Dec-04
•
•
1. Check resistor 3U3T and power MOS-FETs 7U0D-1/2.
2. Check the voltage on pin 4 of 7U0L (4 V).
3. Check enable signal ENABLE-1V2 (active “low”).
4. Check for +1.4 V output voltage short-circuit to GND that
can generate pulsed over-currents 7 to 10 A through coil
5U05.
Symptom: +1.2 V present for about 100 ms, +1 V, +2.5 V
and +3.3 V not rising.
1. Check the ENABLE-3V3 signal (active “low”),
2. Check the voltage on pin 8 of IC 7U0A (1.5 V),
3. Check the under-voltage detection circuit (the voltage on
collector of transistor 7U01-1 should be less than
0.8 V),
4. Check for output voltages short-circuits to GND (+3.3 V,
+2.5 V and +1 V) that can generate pulsed over-currents
7 to 10 A through coil 5U01,
5. Check the over-current detection circuit (2U04 or 3U14
interrupted).
Symptom: +1.2 V okay, but +2.5 V and +3.3 V only
present for about 100 ms. Possible cause: SUPPLYFAULT line stays “low” even though the +3.3 V and +1.2 V
are available - the stand-by microprocessor is detecting
that and switching “off” all supply voltages.
1. Check the drop voltage across resistor 3U70 (or 3U3T)
(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 7U0A
is less than 14 V (should be 19 V),
3. Check if +1.2 V or +3.3 V are higher than their normal
values - that can be due to defective DC feedback of the
respective DC-DC convertor (ex. 3U1J, 3U75).
Symptom: +1.2 V, +1.4 V, +2.5 V or +3.3 V show a high
level of ripple voltage (audible noise can come from the
filtering coils 5U00, 5U01 or 5U04). Possible cause:
instability of the frequency and/or duty cycle of a DC-DC
converter or stabiliser.
1. Check resistor 3U0H/3U2E and capacitor 2U0C/2U0A,
input and output decoupling capacitors.
2. Check a.c. feedback circuits (2U08+2U09+3U07+3U08
for +1.2 V, 2U8P+2U0Y+3U24 for +1.4 V and
2U03+2U05+3U04).
Symptom: +1.2 V, +1.4 V, +2.5 V and +3.3 V ok, but no
+Vtun (analogue sets only). Possible cause: the “+Vtun
generator” circuit (7U0P +7 U0Q + surroundings
components, diagram B02B) is defective: check transistor
7U0P (it has to have gate voltage pulses of about 10 V
amplitude and drain voltage pulses of about 35 V
amplitude) and surrounding 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 (7U02+7U08,
7U05+7U06 or 7U0D-1/2) becomes defective the controller IC
7U0A or 7U0L should be replaced as well.
5.9.4
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.
Service Modes, Error Codes, and Fault Finding
5.9.5
Q522.1HE LA
5.
EN 41
SSB Replacement
Follow the instructions in the flowchart in case you have to
exchange the SSB. See figure “SSB replacement flowchart”.
In st ru ct io n n o t e SSB rep lacem en t Q543.x - Q548.x - Q549.x
ST AR T
Before starting:
- prepare a USB memory stick with the latest software
- download the latest Main Software (Fus) from www.p4c.philips.com
- unzip this file
- create a folder ”upgrades” in the root of a USB stick (size > 50 MB) and
save the autorun.upg file in this "upgrades" folder.
Note: it is possible to rename this file, e.g."Q54x_SW_version.upg"; this in
case there are more than one "autorun.upg" files on the USB stick.
Set is still oper ating?
No
Yes
C onnect the U SB stick to the set,
go to SAM and save the current TV settings via “Upload to USB”
1. D isconnect the WiF i module fr om the PC I connector (only for Q549.x SSB)
2. Replace the SSB by a Service SSB.
3. Place the WiFi module in the PCI connector.
4. Mount the Service SSB in the set.
Start-up the set
Due to a possible wrong display option code in the received Service
SSB (NVM), it’s possible that no picture is displayed. Due to this
the download application will not be shown either. This tree enables you
to load the main software step-by-step via the UART logging on the PC
(this for visual feedback).
No pictur e displayed
1) Start up the TV set, equiped with the Service SSB,
and enable the UART logging on the PC.
Set behaviour?
Pictur e displayed
Set is starting up without software
upgrade menu appearing on screen
Pictur e displayed
Set is starting up with software
upgrade menu appearing on screen
2) The TV set will start-up automatically in the
download application if main TV software is not loaded.
3) Plug the prepared USB stick into the TV set. Follow the
instructions in the UART log file, press “Right” cursor key to enter
the list. Navigate to the “autorun.upg” file in the UART logging
printout via the cursor keys on the remote control. When the
correct file is selected, press “Ok”.
1) Plug the USB stick into the TV set and select
the “autorun .upg” file in the displayed browser.
2) Now the main software will be loaded automatically,
supported by a progress bar.
4) Press "Down" cursor and “Ok” to start flashing the main
TV software. Printouts like: “L: 1-100%, V: 1-100% and
P: 1-100%” should be visible now in the UART logging.
5) Wait until the message “Operation successful !” is logged in
the UART log and remove all inserted media. Restart the TV set.
3) Wait until the message “Operation successful !” is displayed
and remove all inserted media. Restart the TV set.
Set the correct “Display code” via “062598 -HOME- xxx” where
“xxx” is the 3 digit display panel code (see sticker on the side
or bottom of the cabinet)
After entering the “Display Option” code, the set is going to
Standby
(= validation of code)
No
Connect PC via the ComPair interface to Service connector.
Restart the set
Saved settings
on USB stick?
Yes
Start TV in Jett mode (DVD I + (OSD))
Open ComPair browser Q54x
Go to SAM and reload settings
via “Download from USB” function.
In case of settings reloaded from USB, the set type,
serial number, display 12 NC, are automatically stored
when entering display options.
Program set type number, serial number, and display 12 NC
Program E - DFU if needed.
If not already done:
Check latest software on Service website.
Update main and Stand-by software via USB.
Attention point for Net TV: If the set type and serial number are not
filled in, the Net TV functionality will not work. It will not be possible
to connect to the internet.
- Check if correct “display option” code is programmed.
- Verify “option codes” according to sticker inside the set.
- Default settings for “white drive” > see Service Manual.
Check and perform alignments in SAM according to the
Service Manual. Option codes, colour temperature, etc.
Final check of all menus in CSM.
Special attention for HDMI Keys and Mac address.
Check if E - D F U is present.
End
Q54x.E SSB Board swap – VDS
Updated 19-08-2009
H_16771_007a.eps
091119
Figure 5-12 SSB replacement flowchart [1/2]
2009-Dec-04
EN 42
5.
Q522.1HE LA
Service Modes, Error Codes, and Fault Finding
Set is st art in g u p in F act o ry m o d e
Set is starting up in F actory m ode?
Noisy picture with bands/lines is visible and the
RED LED is continuous on.
An “F” is displayed and the HDMI 1
input is displayed.
- Press the “volume minus” button on the TVs local keyboard for 10
seconds
- Press the “SOURCE” button for 10 seconds until the “F” disappears
from the screen or the noise on the screen is replaced by “blue mute”
The noise on the screen is replaced
with the blue mute or the “F” is disappeared!
Unplug the mainscord to verify the correct
disabling of the factory-mode.
Program display option code
via “062598 MENU”, followed by
the 3 digits code of the display
(this code can be found
on a sticker inside the set).
After entering “display option” code, the set is
going in stand-by mode (= validation of code)
R estart the set
H_16771_007b.eps
091119
Figure 5-13 SSB replacement flowchart [2/2]
2009-Dec-04
Service Modes, Error Codes, and Fault Finding
5.9.6
Q522.1HE LA
5.
EN 43
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.
5.9.7
Upgrade EDID NVM
To upgrade the EDID NVM you must short circuit pin 7 of the
EDID NVM to ground. Therefore some test points are foreseen
next to the HDMI connectors (see figure 5-14 EDID-NVM pins
HDMI-rear and 5-15 EDID-NVM pins HDMI-side). See section
ComPair for further instructions.
EDID side
18680_202_090825.eps
090825
Figure 5-15 EDID-NVM pins HDMI-side
EDID 3 EDID 2
EDID 1
H_17650_089.eps
160108
Figure 5-14 EDID-NVM pins HDMI-rear
5.10 Software Upgrading
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.
5.10.1 Introduction
The set software and security keys are stored in a NANDFlash, which is connected to the PNX85xx 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.
5.10.2 Main Software Upgrade
The software image resides in the NAND-Flash, and is
formatted in the following way (refer to next figure):
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, ...).
Table 5-3 NAND flash content
One ZIP
NAND Flash content
Fuse UPG
Partition
Content
JFFS2 partition 1 (application read write data)
Channel table, EPG data,...
JFFS2 partition 0 (Application read only once data)
HDMI keys, back up display file, …
Erase
JFFS2 partition 0 (Application read only upgradable data) wizard pictures, display file, cabinet file, upgrade assistant, …
Upgrade all UPG
Program Erase
X
X
X
X
X
X
X
X
SQUASHFS partition
Main software (MIPS), Linux structure (root file system)
X
X
X
X
BFFS partition 2 (DVD OK)
Default software upgrade application TriMedia software boot
batch file 2
X
X
X
X
BFFS partition 1 (DVD cursor down)
Back up software upgrade application boot batch file 1
Linux kernel JETT: needed for ComPair
X
X
BFFS partition 0
Jaguar Boot loader boot batch file 0
Block 0
mBTM partition table
•
•
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
Flash Utils UPG
Program Erase
X
X
Program
X
X
X
•
•
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.
2009-Dec-04
EN 44
5.
Q522.1HE LA
Service Modes, Error Codes, and Fault Finding
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 _Q582E_
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 web site 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.
2009-Dec-04
5.10.3 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.
Service Modes, Error Codes, and Fault Finding
5.10.4 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.
• 1.4 Display_DISPT_x.x.x.x.zip. Not to be used by Service
technicians.
• 1.5 EDID_Q582E_x.x.x.x.zip. Contains the EDID content
of the different EDID NVMs. 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_Q582X_x.x.x.x.zip. Only used by
service centra which are allowed to do component level
repair.
• 1.7 Factory_Q582X_x.x.x.x_commercial.zip. Only for
production purposes, not to be used by Service
technicians.
• 1.8 FlashUtils_Q582X_x.x.x.x_commercial.zip. Not to
be used by Service technicians.
• 1.9 FUS_Q582X_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_Q582X_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 Processor_NVM_SW_Q522_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 use this file, because it will overwrite
the HDCP keys ! ! !
Q522.1HE LA
5.
EN 45
5.10.5 VSecure self-test procedure
The self test has been developed to give a helpdesk the
possibility to verify Vsecure functionality independent of any
third party. Without this functionality it is very difficult for the
helpdesk to distinct installation issues from TV related issues.
By executing a test which uses all steps of the key loading,
encryption and decryption the problem can be narrowed down
to a TV related problem or an installation or head-end issue.
The full procedure must be downloaded from
http://philips.india.rsystems.com/.
The following prerequisites must be met before conducting the
procedure:
• The problem is narrowed down to a scrambling related
issue.
• No problems are present on non-scrambled channels.
• The problem is related to one single TV. Other TV’s in
this network do not have problems with the same
scrambled program / movie.
• The owner is (or has been made) aware that executing this
test requires the network specific keys to be reloaded
according to their head-end providers instructions. Philips
helpdesk cannot facilitate in this matter.
• In case of a new TV (or a replacement) the head-end
supplier installation procedure has been executed
including loading of network specific keys.
• An empty FAT formatted USB stick is available.
• A PC with internet connection is available.
• A green setup remote control is available (RC2573/01,
3139 228 88782).
• To prevent the network head-end interfering the test any
communication must be switched off during the test.
2009-Dec-04
EN 46
6.
Q522.1HE LA
Alignments
6. Alignments
Index of this chapter:
6.1 General Alignment Conditions
6.2 Hardware Alignments
6.3 Software Alignments
6.4 Option Settings
6.5 Reset of Repaired SSB
Note: The Service Default Mode (SDM) and Service Alignment
Mode (SAM) are described in chapter 5. Menu navigation is
done with the CURSOR UP, DOWN, LEFT or RIGHT keys of
the remote control transmitter.
6.1
General Alignment Conditions
Perform all electrical adjustments under the following
conditions:
• Power supply voltage: 230 VAC / 50 Hz (± 10%).
• Connect the set to the mains via an isolation transformer
with low internal resistance.
• Allow the set to warm up for approximately 15 minutes.
• Measure voltages and waveforms in relation to correct
ground (e.g. measure audio signals in relation to
AUDIO_GND).
Caution: It is not allowed to use heatsinks as ground.
• Test probe: Ri > 10 MW, Ci < 20 pF.
• Use an isolated trimmer/screwdriver to perform
alignments.
6.2
Picture Setting
Colour
0
Contrast
100
•
Go to the SAM and select “Alignments”-> “White point”.
White point alignment LCD screens:
• Use a 100% white screen as input signal and set the
following values (in SAM mode):
– “Colour temperature” to “Cool”.
– “Whitepoint red”, “Whitepoint green”, and “Whitepoint
blue” values to “127”.
– “Red BL offset” and “Green BL offset” values to “8”.
With a colour analyser:
• Measure with a calibrated, contactless (max. 25 mm
distance) colour analyser in the centre of the screen.
Consequently, the measurement needs to be done in a
dark environment.
• Adjust one or two registers (so holding one of the White
point registers R, G or B on 127) to obtain the “Cool” x,y
values (see table White D alignment values). Tolerance:
dx: ± 0.004, dy: ± 0.004.
• Repeat this step for the “Normal” and “Warm” colour
temperatures.
• When finished press “OK” on the RC and then press
“Store” (in the SAM root menu) to store the aligned values
into the NVM.
• Restore the initial picture settings after the alignments.
Hardware Alignments
Table 6-1 White D alignment values
Not applicable.
6.3
Software Alignments
Value
Normal (9000
Cool (11000 K) K)
Warm (6500 K)
x
0.278
0.289
0.314
Put the set in SAM mode (see chapter Service Modes, Error
Codes, and Fault Finding). The SAM menu will now appear on
the screen. Select ALIGNMENTS and go to one of the sub
menus. The alignments are explained below.
y
0.278
0.291
0.319
The following item can be aligned:
• Whitepoint.
To store the data:
• Press OK on the RC before the cursor is moved to the left.
• In main menu select “Store” and press OK on the RC.
• Press MENU on the RC to switch back to the main menu.
• Switch the set to stand-by mode.
For the next alignments, supply the following test signals via a
video generator to the RF input:
• EU/AP-PAL models: a PAL B/G TV-signal with a signal
strength of at least 1 mV and a frequency of 475.25 MHz
• DVB-T models: see table SDM default settings.
6.3.1
White Point
Without a colour analyser, you can use the default values.
This is the next best solution. The default values are average
values coming from production (statistics).
• Select a “Colour Temperature” (e.g. “Cool”, “Normal”, or
“Warm”).
• Set the “Whitepoint Red”, “- Green” and “- Blue” default
values according to the values in the “Tint settings” table.
• When finished press “OK” on the RC, then press “Store” (in
the SAM root menu) to store the aligned values into the
NVM.
• Restore the initial picture settings after the alignments.
Table 6-2 Tint settings
Colour Temp.
R
G
B
26-inch
Cool
?
?
?
Normal
?
?
?
Warm
?
?
?
32-inch
•
•
Set “Active control” to “Off”.
Choose “TV menu”, “TV Settings” and then “Picture” and
set picture settings as follows:
Picture Setting
Cool
123
116
127
Normal
127
115
109
Warm
127
105
73
37-inch
Cool
127
109
121
Off
Normal
127
107
105
Dynamic Contrast
Off
Warm
127
100
71
Colour Enhancement
Off
Picture Format
Unscaled
Cool
127
105
121
Light Sensor
Off
Normal
127
98
99
Brightness
50
Warm
127
85
63
Dynamic backlight
2009-Dec-04
42-inch
Alignments
Option Settings
6.4.1
Introduction
6.4.5
Disp.
code Options
26HFL5870D/10_1 214
33280 36877 04299 45096 08406 00106 00368 00000
32HFL5870D/10_1 213
33280 36877 04299 45096 08405 00106 00368 00000
37HFL5880D/10_1 201
33280 36877 04299 45096 08393 00106 00368 00000
42HFL5880D/10_1 205
33280 36875 04299 45096 08397 00106 00368 00000
Note: Option 2 is affected by the audio cabinet selection for
sound tuning, while option 5 is affected by the display code.
See also figure 6-1 Option code overview example
(32HFL5870D/10)
Important: After having edited the option numbers as
described above, you must press OK on the remote control
before the cursor is moved to the left!
Dealer Options
6.5
For dealer options, in SAM select “Dealer options”.
See Table 6-4 SAM mode overview (usage is model
dependent).
(Service) Options
Select the sub menu's to set the initialisation codes (options) of
the model number via text menus.
See Table 6-4 SAM mode overview (usage is model
dependent).
6.4.4
Option Code Overview
CTN_Alt-BOM
Notes:
• After changing the option(s), save them by pressing the OK
button on the RC before the cursor is moved to the left,
select STORE in the SAM root menu and press OK on the
RC.
• The new option setting is only active after the TV is
switched “off” / “stand-by” and “on” again with the Mains
switch (the NVM is then read again).
6.4.3
EN 47
Table 6-3 Option code overview (subject to change)
The microprocessor communicates with a large number of I2C
ICs in the set. To ensure good communication and to make
digital diagnosis possible, the microprocessor has to know
which ICs to address. The presence / absence of these specific
ICs (or functions) is made known by the option codes.
6.4.2
6.
another Option code. Refer to chapter 3. Precautions, Notes,
and Abbreviation List.
Note: Data of the 26" sets was not available at time of
publishing.
6.4
Q522.1HE LA
Opt. No. (Option numbers)
Select this sub menu to set all options at once (expressed in
two long strings of numbers).
An option number (or “option byte”) represents a number of
different options. When you change these numbers directly,
you can set all options very quickly. All options are controlled
via eight option numbers.
When the NVM is replaced, all options will require resetting. To
be certain that the factory settings are reproduced exactly, you
must set both option number lines. You can find the correct
option numbers on a sticker inside the TV set and in Table
“Option code overview”.
Reset of Repaired SSB
For Component Level Repair (CLR) workshops: A very
important issue towards a repaired SSB from a service repair
shop, implies the reset of the NVM on the SSB.
A repaired SSB in service should get the service Set type
“00PF0000000000” and Production code “00000000000000”.
Also the virgin bit must be set. To set all this, use ComPair.
For Board Level Repair (BLR) workshops: If any
repair/servicing of TV sets (HFL model) requires the SSB to be
replaced, you must write back the original TV serial number
into the new SSB. This is done using the ComPair tool.
After verifying that the serial number has been written correctly,
you need to check (press MENU button using the Green RC) if
the set is in iTV mode. If it asks for a password, then you need
to enter the password to activate the Hotel mode.
For password generation, if you do not have access, please
contact your local helpdesk.
Example: The options sticker gives the following option
numbers:
• 33280 36877 04299 45096
• 08406 00106 00368 00000
The first line (group 1) indicates hardware options 1 to 4.
Example: option no. “2” contains the “cabinet type”.
The second line (group 2) indicates software options 5 to 8.
Example: option no. “5” contains the “display code”.
Every 5-digit number represents 16 bits (so the maximum value
will be 65536 if all options are set).
When all the correct options are set, the sum of the decimal
values of each Option Byte (OB) will give the option number.
See table 6-3 Option code overview (subject to change) for the
options. Always refer to the sticker in the TV-set as leading.
Diversity
Not all sets with the same Commercial Type Number (CTN)
necessarily have the same option code!
Use of Alternative BOM
An alternative BOM number usually indicates the use of an
alternative display. This results in another Display Code thus in
2009-Dec-04
EN 48
6.6
6.
Alignments
Q522.1HE LA
Option Code Overview
OPTION 1
11B
15
Dimming
Backlight
TRUE
32768
14
PDP
contrast
reduction
FALSE
0
13
12
Light
Sensor
China IF
FALSE
0
FALSE
0
011A
11
10
9
8
FALSE
0
6
Ambilight
Tuner Type
FALSE
0
7
FALSE
0
FALSE
0
4
3
Ambient Light
Technology
TRUE
512
5
2
FALSE
0
FALSE
0
FALSE
0
6
5
4
1
MOP
Pacific 3
FALSE
0
FALSE
0
0
PNX5050
FALSE
0
FALSE
0
33280
OPTION 2
11D
15
14
Reset 12V
supply
TRUE
32768
13
12
11C
11
10
Perfect
Pixel
Light Sensor Type
FALSE
0
FALSE
0
9
TRUE
4096
FALSE
0
FALSE
0
8
AL Driver
FALSE
0
7
Clear LCD
FALSE
0
FALSE
0
3
Cabinet Type : 13
2
Dualscreen
1
0
FALSE
0
TRUE
1
Cabinet Type
FALSE
0
FALSE
0
FALSE
0
TRUE
8
TRUE
4
6
5
4
3
2
1
0
Video
Playback
HDMI 4
HDMI 3
HDMI 2
HDMI 1
TRUE
8
FALSE
0
TRUE
2
TRUE
1
3
2
Region
1
0
36877
OPTION 3
11F
15
14
Variant
I/F Type
FALSE
0
FALSE
0
13
12
Channel Decoder
FALSE
0
11E
11
10
I2C Config
TRUE
4096
FALSE
0
FALSE
0
9
8
No. SPDIF inputs
FALSE
0
FALSE
0
7
VGA
TRUE
128
USB Version
TRUE
64
FALSE
0
FALSE
0
7
6
5
Digital
4
Keyboard
Disable
Philips
LOGO
ATSC /
DVB
FALSE
0
FALSE
0
TRUE
32
6
5
04299
OPTION 4
15
14
CEC
HDMI
TRUE
32768
13
12
121
Interconnect
11
AV3
FALSE
0
TRUE
8192
120
10
9
AV2
TRUE
4096
FALSE
0
8
AV1
FALSE
0
FALSE
0
FALSE
0
DVBT Installation
FALSE
0
TRUE
8
Region
FALSE
0
FALSE
0
FALSE
0
2
1
0
TRUE
4
FALSE
0
TRUE
1
2
1
0
45096
OPTION 5
123
15
14
13
Virgin
Nyquist
SAW
Picture
Mute
FALSE
0
FALSE
0
TRUE
8192
12
11
Korean Stereo
FALSE
0
FALSE
0
10
9
Auto Store Mode
FALSE
0
FALSE
0
8
7
Upgrade
Assistant
FALSE
0
122
Display : 213
4
3
Display Type
TRUE
128
TRUE
64
FALSE
0
TRUE
16
7
6
5
4
TvTv EPG
Epg
Board
Identifier
FALSE
0
TRUE
64
TRUE
32
FALSE
0
6
5
4
FALSE
0
08405
OPTION 6
125
15
FALSE
0
14
FALSE
0
13
FALSE
0
12
124
11
FALSE
0
FALSE
0
10
FALSE
0
9
FALSE
0
8
FALSE
0
3
MPEG4
Hotel Mode
OAD
TRUE
8
FALSE
0
TRUE
2
3
2
1
FALSE
0
00106
OPTION 7
127
15
FALSE
0
14
FALSE
0
13
FALSE
0
12
126
11
FALSE
0
FALSE
0
10
FALSE
0
9
FALSE
0
8
7
RCPass
Through
PixelPlus
Link
TRUE
256
FALSE
0
DVBC
INSTALL
DVBC IF DVBC
TRUE
64
TRUE
32
TRUE
16
0
Light
Guide
DNM
FALSE
0
FALSE
0
FALSE
0
FALSE
0
00368
OPTION 8
129
128
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
0
FALSE
0
FALSE
0
FALSE
0
FALSE
0
FALSE
0
FALSE
0
FALSE
0
FALSE
0
FALSE
0
FALSE
0
FALSE
0
FALSE
0
FALSE
0
FALSE
0
FALSE
0
FALSE
0
00000
18680_200_090820.eps
091203
Figure 6-1 Option code overview example (32HFL5870D/10)
2009-Dec-04
Alignments
6.7
Q522.1HE LA
6.
EN 49
Total Overview SAM modes
Table 6-4 SAM mode overview (usage is model dependent)
Main Menu
Sub-menu 1
Sub-menu 2
Hardware Info
A. SW VERSION
e.g. “Q5492_1.26.15.0”
Sub-menu 3
B. Standby processor version e.g. “STDBY_88.68.0.0”
C. Production code
Description
Display TV & Standby SW version and CTN serial
number.
e.g. “See type plate”
Operation hours
Displays the accumulated total of operation hours.TV
switched “on/off” & every 0.5 hours is increase one
Errors
Displayed the most recent errors.
Reset error buffer
Start now
Clears all content in the error buffer.
Alignment
Tuner AGC
RF-AGC Take over point adjustment (AGC default
value is 80)
White point
Colour temperature
Normal
Warn
3 different modes of colour temperature can be
selected
Cool
White point red
LCD White Point Alignment. For values,
see Table 6-2 Tint settings.
White point green
White point blue
Red black level offset
Green black level offset
Dealer options
Personal options
Picture mute
Off/On
Select Picture mute On/Off. Picture is muted / not
muted in case no input signal is detected at input
connectors.
Virgin mode
Off/On
Select Virgin mode On/Off. TV starts up / does not
start up (once) with a language selection menu after
the mains switch is turned “on” for the first time (virgin
mode)
E-sticker
Off/On
Select E-sticker On/Off (USPs on-screen)
Auto store mode
None
PDC/VPS
TXT page
PDC/VPS/TXT
Options
Digital broadcast
Digital features
Data
Display
Video reproduction
DVB
Off/On
DVB - T installation
Off/On or Country dependent
Select DVB On/Off
Select DVB T installation On/Off or by country
DVB - T light
Off/On
Select DVB T light On/Off
DVB - C
Off/On
Select DVB C On/Off
DVB - C installation
Off/On or Country dependent
Select DVB C installation On/Off or by country
Over the air download
Off/On or Country dependent
Select Over the air download On/Off or by country
8 days EPG
Off/On
Select 8 day EPG On/Off
USB
Off/On
Select USB On/Off
Ethernet
Off/On
Select Ethernet On/Off
Wi-Fi
Off/On
Select Wi-Fi On/Off
DLNA
Off/On
Select DLNA On/Off
On-line service
Off
On-line service is Off
PTP (Picture Transfer Protocol)
Off/On
Select PTP On/Off
Update assistant
Off/On
Select Update assistant On/Off
Internet software update
Off
Internet software update is Off
Select EPG On/Off
EPG
Off/On
TvTv EPG
Off/On
Select TvTv EPG On/Off
Screen
201 / LCD LPL WUE SBA1 37"
Displayed the panel code & type model.
Dimming backlight
Off/On
Select Dimming Backlight On/Off
LightGuide
Off/On
Select LightGuide On/Off
Display fans
Not present/Present
Select Display fans Present/Not present.
Temperature sensor
Sensor present in display (only for
21:9)
N.A.
Temperature LUT
0
N.A
E-box & monitor
Off/On
Select E-box & monitor On/Off
Picture processing
None/PNX5100
Select Picture processing None/PNX5100 (Q549.xE
chassis).
MOP local contrast
Off/On
Select MOP local contrast On/Off
Light sensor
Off/On
Select Light sensor On/Off
Light sensor type
0/1/2/3
Select Light sensor type form 0 to 3 (for difference
styling).
Pixel Plus HD
Select type of picture improvement.
Pixel Plus type
Perfect Pixel HD
Pixel Precise HD
Pixel Plus
Off/On
Ambilight
Off/Mono/Stereo/Triple/Quad/Pixel Select type of Ambilight modules use.
ated quad
Select Pixel Plus On/Off
Ambilight technology
CCFL/LED
Select Ambilight technology.
Ambilight driver
Pacific 3/MOP/DFI
Select Ambilight driver.
Pacific 3
Not present/Present
Select Pacific 3 presence.
MOP
Not present/Present
Select MOP presence.
MOP ambilight
Off/On
Select MOP ambilight On/Off
2009-Dec-04
EN 50
6.
Main Menu
Q522.1HE LA
Alignments
Sub-menu 1
Sub-menu 2
Audio reproduction
Acoustic system
Source selection
EXT1/AV1 type
Sub-menu 3
Description
Cabinet design used for setting dynamic audio
parameters
SCART CVBS RGB LR
Select input source when connected with external
equipment
CVBS Y/C YPbPr LR
CVBS Y/C YPbPr HV LR
(CVBS) YPbPr LR
EXT2/AV2 type
SCART CVBS RGB LR
Select input source when connected with external
equipment
CVBS Y/C LR
(CVBS) YPbPr LR
CVBS Y/C LR
EXT3/AV3 type
None
Select input source when connected with external
equipment
CVBS
CVBS LR
YPbPr
YPbPr LR
YPbPr HV LR
Miscellaneous
Option number
VGA
Off/On
Select VGA On/Off
SIDE I/O
Off/On
Select SIDE I/O On/Off
HDMI 1
Off/On
Select HDMI 1 On/Off
HDMI 2
Off/On
Select HDMI 2 On/Off
HDMI 3
Off/On
Select HDMI 3 On/Off
HDMI 4
Off/On
Select HDMI 4 On/Off
HDMI side
Off/On
Select HDMI side On/Off
HDMI CEC
Off/On
Select HDMI CEC On/Off
HDMI CEC RC pass through
Off/On
Select HDMI CEC RC pass through On/Off
HDMI CEC Pixel Plus link
Off/On
Select Pixel Plus link On/Off
USB version
USB 1.0/USB 2.0
Select USB version
S/PDIF inputs
None/1 connector
Select no. of inputs
Region
Europe/AP-PAL-MULTI/Australia
Select Region/country
ATSC/DVB-T
Off/On
Select feature On/Off
Over the air download (AOD)
Off/On
Select feature On/Off
DVB-T installation
Off/Country dependent/On
Select feature On/Off
DVB-C
Off/On
Select feature On/Off
DVB-C installation
Off/Country dependent/On
Select feature On/Off
MPEG4
Off/On
Select feature On/Off
Tuner type
HD1816-MK1/TD1716-MK4/etc.
Select type of Tuner used
Nyquist SAW filter
Off/On
Select feature On/Off
I2C configuration
With PCA9540/9515/channel dec.
Select configuration
Channel decoder
TDA10048/etc.
Select channel decoder
System RC support
Off/On
Select System RC support On/Off
Embedded user manual
Off/On
Select Embedded user manual On/Off
Start-up screen
Off/On
Select Start-up screen On/Off
Wallpaper
Off/On
Select Wallpaper On/Off
Hotel mode
Off
Hotel mode is Off
Video playback
Off/On
Select feature On/Off
Update assistant
Off/On
Select feature On/Off
Board identifier
TV520/82 / TV520/82M
Select chassis
Light guide
Off/On
Select feature On/Off
Group 1
e.g. “08192.02181.01387.45160”
The first line (group 1) indicates HW options 1 - 4
Group 2
e.g. “10185.12448.00164.00000”
The second line (group 2) indicates SW options 5 - 8
Store - go right
Store after changing
Initialise NVM
N.A.
Store - go right
Select Store in the SAM root menu after making any
changes
SW maintenance
Software events
Display
Displayed information is for development purposes
Clear
Test reboot
Hardware events
Display
Displayed information is for development purposes
Clear
Operation hours display
Test settings
0003
Digital info
In case the display must be swapped for repair, you
can reset the “”Display operation hours” to “0”. So,
this one does keeps up the lifetime of the display
itself (mainly to compensate the degeneration
behaviour)
Displayed information is for development purposes.
Install start frequency
000
Install start frequency from “0” MHz
Install end frequency
999
Install end frequency as 999 MHz
Digital only
Select Digital only or Digital + Analogue before
installation.
Default install frequency
Installation
Digital + Analogue
2009-Dec-04
Alignments
Main Menu
Sub-menu 1
Sub-menu 2
Development file
versions
Development 1 file version
Display parameters DISPT 3.26.8.7
Sub-menu 3
Q522.1HE LA
6.
EN 51
Description
Displayed information is for development purposes.
Acoustics parameters ACSTS 3.6.6.5
PQ - PRFPP 1.26.10.4
Ambilight parameters PRFAM 2.6.1.3
Development 2 file version
12NC one zip software
Displayed information is for development purposes.
Initial main software
NVM version Q5492_0.4.0.0
Flash units SW Q5492_0.26.15.0
Upload to USB
Channel list
Personal settings
To upload several settings from the TV to an USB
stick
Option codes
Display-related alignment
History list
Download from USB
Channel list
Personal settings
To download several settings from the USB stick to
the TV.
Option codes
Display-related alignments
2009-Dec-04
EN 52
7.
Circuit Descriptions
Q522.1HE LA
7. Circuit Descriptions
New features and key differences with 2k8 System range:
• DVB-C tuner available in all TV sets.
• MPEG4 support.
• Content protection mechanisms (V-Secure and V-Track).
• Theme TV (customisable graphical interface for easy
channels filtering/selecting).
• Customisable pictograms controlled via SmartPort (Movie
Bar).
• HDMI CEC support.
• Guest menu available in stand-alone mode.
• Software upgrade via RF supported in stand-alone and
system mode.
• NVM size is two times bigger (cloning impact).
• CVBS-output on 32PIN card slot from tuner only, no
monitor-out on card slot.
Index of this chapter:
7.1 Introduction
7.3 PSU
Notes:
• Only new circuits (circuits that are not published recently)
are described.
• Figures can deviate slightly from the actual situation, due
to different set executions.
• For a good understanding of the following circuit
descriptions, please use the wiring, block and circuit
diagrams (see chapter 9. Block Diagrams and 10. Circuit
Diagrams and PWB Lats). Where necessary, you will find
a separate drawing for clarification.
7.1
Introduction
7.1.1
The Q522.1HE LA (2k9 UHD range) is the Hospitality version
of the Q522.1E LA chassis. Refer to the Service Manual of
the Q522.1E LA chassis for a description of most circuits.
TV522 Architecture Overview
For details about the chassis block diagrams refer to chapter
Block Diagrams. An overview of the TV522 architecture can be
found in figure Architecture of TV522/22E platform.
TV522/82M/22M - Architecture Block Diagram
HDMI Side
HDMI 1
HDMI 2
HDMI 3 /
MPEG4
DDR-II
64MB
ADI8191
HDMI switch
switch
HDMI
Hybrid Tuner
Saw
MASTER IF
TDA10048
DDR-I
32MB
32
32
YUV20
NXP
PNX8541
PNX5050
Matrix
Matrix
RGB30
Pac3
HD-DNM
Digital Colour
Digital
Colour Decoder
Decoder
10-bit video
3-field HD MADI
DVB-T
MPEG2
HD@50Hz
HD@50Hz
HD@100Hz
HD@100Hz
FHD@50Hz
FHD@50Hz
AmbiLight 2
Optional
PCI/XIO
CI
FLASH
64MB
DDR1
64MB
USB2.0
HP Amp
32
STi7101
Class D
TDA8932T
MPEG4 HD
8
I_17750_056.eps
050608
FLASH
Figure 7-1 Architecture of TV522/22E platform
2009-Dec-04
Circuit Descriptions
7.2
Hospitality Applications
7.3
This chassis supports three basic application types:
• Stand-alone.
• Interactive:
– via SmartCard (integrated slot in the TV).
– via third party Set Top Box.
7.2.1
7.2.2
7.
EN 53
PSU
All PSUs are so-called IPBs (Integrated Power Boards). That
are PSUs with integrated LCD inverters.
The power supplies are a black box for Service. When
defective, a new panel must be ordered and the defective one
must be returned, unless the main fuse of the panel is broken.
Always replace a defective fuse with one with the correct
specifications! This part is available in the regular market.
For an overview of the output voltages of the Power Supplies,
refer to the wiring diagrams in chapter Block Diagrams.
Stand-alone mode
In this mode, the sets provide advanced hospitality features:
• Advanced hotel mode (channel ring, volume lock, front
control lock-out, welcome message, multi RC, SmartRC,
Power SCART etc.).
• Integrated LCD clock display & wake-up alarm.
• Time synchronization via teletext download and DVB
broadcast.
• Channel protection.
• USB cloning.
• Easy channels filtering/selecting with Theme TV.
• Guest Menu.
• Support of remote control battery low detection.
• External bathroom speaker.
• Energy saving features.
• Multimedia Player.
• Active Connectivity Panel prepared.
Q522.1HE LA
7.3.1
External Applications Supply
All models have an integrated power supply. These supplies
also supply for interactive applications. The following supply
lines are available: on RJ48 connector: +12V and on 32pin
connector: +12V, +5V and +3.3V (for details see specifications
of connectors). When power consumption does not exceed
maximum output power offered by the TV, there is no need to
use external adaptor and only one mains socket is needed.
3rd party STB and modules not using the TV's internal power
supply may require an additional mains socket or use power
splitter.
Interactive mode
In “Interactive mode” the TV is controlled by an external STB /
DCM. Available communication protocols are: HM Link,
SmartPort Xpress, and Serial Xpress.
• SmartPort Xpress is based on a I2C or SPI physical
interface, and provides advanced bidirectional
communication with the TV set like TV control commands,
TV status requesting, etc.
In this mode, the TV works as a slave towards DCM. Local
control commands (keyboard and RC) are forwarded to the
DCM. Communication is bidirectional: DCM can send
commands and also request data from the TV
• SerialXpress is based on a RS232 physical interface and
provides basic bidirectional communication with the TV set.
Local control commands (keyboard and RC) can be
forwarded to the DCM or processed by the TV set.
• HM link protocol is based on RC commands and provides
basic TV control.
In HM link mode, the TV can be controlled by RC
commands sent from the DCM. The TV will handle system
0 and system 3 commands coming only from the RJ12
connector. It will not decode system 0 or system 3 from the
IR receiver input. System 7 commands will be processed
directly by the TV via the receiver input, so Setup Menu is
still available.
Interface card
"Smartcard" TV sets are equipped with an integrated card slot
that provides a carrier for interface cards. Communication
protocols available in this configuration: SmartPort Xpress SPI
or I2C, Serial Xpress.
External STB
Third party STBs can be connected using following
communication protocols: HM-Link, Serial Xpress, or
SmartPort Xpress SPI (I2C is not supported for external STB).
2009-Dec-04
EN 54
8.
IC Data Sheets
Q522.1HE LA
8. IC Data Sheets
This section shows the internal block diagrams and pin
configurations of ICs that are drawn as “black boxes” in the
electrical diagrams (with the exception of “memory” and “logic”
ICs).
8.1
Diagram B02A/B02C, NCP5422AD (IC 7U0A/7U0L)
Block Diagram
VCC
ROSC
BIAS
−
+
VCC
+
8.6 V
−
7.8 V
CURRENT
SOURCE
GEN
RAMP2
RAMP1
BST
IS+1
CLK1
+
IS−1
IS+2
CLK2
−
+
−
S
Reset
Dominant
70 mV
non−overlap
VCC
GATE(H)1
GATE(L)1
R
−
+
−
FAULT
PWM
Comparator 1
+
IS−2
BST
OSC
FAULT
70 mV
Q FAULT
S
−
+
Set
Dominant
RAMP1
BST
0.425 V
R
−
+
+
− 0.25 V
PWM
Comparator 2
non−overlap
VCC
GATE(L)2
R
FAULT
GND
E/A OFF
0.425 V
1.2 mA
−
E/A1
+
−
−
+
−
+
1.0 V
Reset
Dominant
FAULT
RAMP2
E/A OFF
5.0 A
GATE(H)2
S
+
FAULT
E/A2
1.0 V
VFB1
COMP1
VFB2
COMP2
Pin Configuration
SO−16
16
1
A
WL
Y
WW
NCP5422A
AWLYWW
GATE(H)1
GATE(L)1
GND
BST
IS+1
IS−1
VFB1
COMP1
GATE(H)2
GATE(L)2
VCC
ROSC
IS+2
IS−2
VFB2
COMP2
= Assembly Location
= Wafer Lot
= Year
= Work Week
Figure 8-1 Internal block diagram and pin configuration
2009-Dec-04
F_15400_129.eps
240505
IC Data Sheets
8.2
Q522.1HE LA
8.
EN 55
Diagram B03A, TDA9898HL (IC 7T57)
Block Diagram
R(2)
4 MHz reference
input
R(2)
SDA
SCL
23
i.c.
24
ADRSEL BVS
14
25
EXTERNAL SOUND
BAND-PASS FILTER(1)
GNDD
32
VP
43, 44
LFSYN2
1
22
I2C-BUS
SYNTHESIZER
AND VCO
GNDA
40, 41
EXTFILO
15
EXTFILI
17
FREF
46
OPTXTAL
39
4 MHz FREQUENCY
REFERENCE
SUPPLY
+3 dB
A
TDA9897
AGCDIN
AM average
36
SIF AGC
B
29
TDA9897
FM peak
30
OUT2A
OUT2B
BP on/off
IF3A
IF3B
sideband
3
OUTPUT
SWITCH
C
Q
4
SIDEBAND
FILTER
I
26
BAND-PASS
FILTER
27
D
IF1A
IF1B
IF2A
IF2B
6
21
VIF AGC
7
EXTFMI
20 CDEEM
I
NYQUIST
FILTER
Q
10
OUT1B
34 CAF2
sideband
9
OUT1A
FM SWITCH
E
31
FM
AMPLIFIER
AUD
28 CAF1
FM CARRIER AGC
I2C-BUS
TOPNEG
DECODER
i.c.
45
PEAK
AGC
TUNER
TAGC
47
RSSI
DETECTOR
AND
IF BASED
TUNER
AGC
VIF PLL
AND
ACQUISITION
HELP
SOUND
CARRIER
TRAP
VIF
AFC
GROUP
DELAY
EQUALIZER
AM
F
AM DEMODULATOR
FM
AND
FM NARROW-BAND PLL AM
trap reference
16
TAGC
SIF AGC
FM AGC
AFC
standard
SYNTHESIZER
AND VCO
33
VIF AGC
H
35, 42
38
LFSYN1
13
LFVIF
12
MPP1
port
19
LFFM
37 n.c.
40 GNDA
41 GNDA
42 n.c.
43 VP
44 VP
45 i.c.
46 FREF
48 GND
47 TAGC
Pin Configuration
38 LFSYN1
n.c.
LFSYN2
1
36 AGCDIN
n.c.
2
35 n.c.
IF3A
3
34 CAF2
IF3B
4
33 CVBS
CIFAGC(1)
5
IF1A
6
IF1B
7
CTAGC
8
29 OUT2A
IF2A
9
28 CAF1
32 BVS
31 AUD
TDA9897HL
TDA9898HL
30 OUT2B
EXTFMI 21
CDEEM 20
LFFM 19
n.c. 18
EXTFILI 17
MPP2 16
25 ADRSEL
EXTFILO 15
26 OUT1A
MPP1 12
i.c. 14
27 OUT1B
TOP2 11
LFVIF 13
IF2B 10
SCL 24
n.c.
11
TOP2
optional tuner
AGC TOP for
IF based tuner
AGC and
radio signal
strength detector
onset
39 OPTXTAL
CTAGC
SDA 23
8
GNDD 22
2, 5, 18, 37
GND
CVBS
G
I2C-BUS TOP2
AND RSSI
I2C-bus
48
MPP2
H_16800_029.eps
111007
Figure 8-2 Pin configuration
2009-Dec-04
EN 56
8.3
8.
IC Data Sheets
Q522.1HE LA
Diagram B03B, TDA10048HN (IC7T17-1)
Block Diagram
AGC_TUN
ANALOG
AGC_IF
ΣΛ
STEP INTERFACE
VIM
DUAL
AGC
ADC
VIP
DIGITAL FRONT-END
AND OFDM
DEMODULATION
ΣΛ
CHANNEL ESTIMATION
AND CORRECTION
STEP INTERFACE
XIN
TIME
RECOVERY
CARRIER
RECOVERY
OSCILLATOR
XOUT
DYNAMIC
TIMESHIFT
CCI
CANCELLER
ACI
FILTERING
COARSE
TIME
ESTIMATOR
CPE
CALCULATION
I2C-BUS
INTERFACE
ΣΔ
ΣΔ
ΣΔ
ΣΔ
DSP CORE SYNCHRONISATION
FREQUENCY
INTERPOLATION
FREQUENCY, TIME, FRAME RECOVERY
FFT WINDOW POSITIONING
TPS DECODING
GPIO[3:0]
PARTIAL
CHANNEL
ESTIMATION
TIME
INTERPOLATION
TDA10048HN
SCL_TUN
SDA_TUN
SCL, SDA
SADDR
FFT
2K / 4K / 8K
DIGITAL
AGC
PLL
CONFIDENCE
CALCULATION
CHANNEL
CORRECTION
confidence
MPEG TS
DO[7:0]/S_DO
(parallel/serial)
MPEG-2
OUTPUT
INTERFACE
DESCRAMBLER
OUTER
FORNEY
DEINTERLEAVER
RS
DECODER
CPT_UNCOR
BIT
DEINTERLEAVER
VITERBI
DECODER
CBER
VBER
DEMAPPER
(I,Q)
INNER
FREQUENCY
DEINTERLEAVER
CHANNEL DECODER
37 TMS
38 TDI
39 TCK
41 CLR_N
40 TDO
42 AGC_IF
44 VSSDC
43 AGC_TUN
45 VDDDC(1V2)
terminal 1
index area
46 VDDD(3V3)
48 VDDD(ADC/PLL)(1V2)
47 VSSD(ADC/PLL)
Pin Configuration
VDDA(ADC)(3V3)
1
36 TRST_N
VIM
2
35 SCL
VIP
3
34 SDA
VSSA(ADC)
4
33 SADDR
VDDD(ADC)(3V3)
5
32 GPIO0
VSSA(OSC)
6
XIN
7
30 VSSDC
XOUT
8
VDDA(OSC)(1V2)
9
29 VSSD
28 VDDD(3V3)
31 VDDDC(1V2)
TDA10048HN
DO4/GPIO3 24
DO3/GPIO2 23
DO2/GPIO1 22
DO1/S_DO 21
DO0/S_UNCOR 20
OCLK/S__OCLK 19
DEN/S_DEN 18
PSYNC/S_PSYNC 17
SCL_TUN 16
25 DO5
SDA_TUN 15
26 DO6
VDDDC(1V2) 12
VSSD 14
27 DO7
VSSDC 13
VSSA(PLL) 10
VDDA(PLL)(1V2) 11
Transparent top view
Figure 8-3 Internal block diagram and pin configuration
2009-Dec-04
H_16800_127.eps
090507
IC Data Sheets
8.
EN 57
Diagram B03C, TDA10023HT (IC7TA4)
Block Diagram
VDDA1
XIN
2
VSSA1
3
VSSD3
VDDD3
4
1
7, 24, 41
VSSD2
VDDD2
3
3
XOUT
VDDD1
VSSD1
VDDA2
VDDA3
VSSA3
VDDD4
50
49
61
55
59
60
3
3
8, 25, 42
15, 31, 44
14, 30, 43
9
PWM
PLL
SACLK
CTRL
ADC
10
BASEBAND
CONVERSION
DECIMATION
FILTERS
11
PWM
HALF
NYQUIST
TIMING
INTERPOLATOR
CLRB
VIP
VIM
29
32
RS
DECODER
DE-INTERLEAVER
GPIO
8
JQAM
FILTER
DE-SCRAMBLER
6
TRELLIS
DEMODULATOR
FRAME
SYNC
DERANDOMIZER
36
16
35
34
33
MPEG2
TS
CKSUM
REED
SOLOMON
DECODER
DEINTERLEAVER
37 to 40,
45 to 48
28
58
27
57
22
TDA10023HT
JTAG
23
IICDIV
26
10
21
19
I2C-BUS
INTERFACE
17
20
DO[7:0]
DEN
programmable
interface
OCLK
PSYNC
UNCOR
TDO
TMS
serial
interface
TCK
TDI
TRST
ENSERI
SDAT
SCLT
13, 51, 52, 53, 54, 56, 62, 63, 64
12
001aac555
n.c.
SADDR
49 VSSD1
50 VDDD1
52 n.c.
51 n.c.
53 n.c.
55 VDDA3
54 n.c.
56 n.c.
58 VIP
57 VIM
59 VSSA3
61 VDDA2
60 VDDD4
63 n.c.
62 n.c.
Pin Configuration
64 n.c.
VDDA1
1
48 DO[0]
XIN
2
47 DO[1]
XOUT
3
46 DO[2]
VSSA1
4
45 DO[3]
SACLK
5
44 VSSD2
TEST
6
43 VDDD2
VDDD3
7
42 VSSD3
VSSD3
8
AGCTUN
9
41 VDDD3
TDA10023HT
40 DO[4]
IICDIV 10
39 DO[5]
AGCIF 11
38 DO[6]
SADDR 12
37 DO[7]
n.c. 13
36 DEN
CTRL 32
VSSD2 31
VDDD2 30
TDO 28
GPIO 29
TMS 27
TRST 26
VSSD3 25
VDDD3 24
TDI 23
33 UNCOR
TCK 22
34 PSYNC
CLRB 16
SCLT 20
35 OCLK
VSSD2 15
ENSERI 21
VDDD2 14
SDAT 19
SCL
18
SCL 17
SDA
AGCIF
DECISION
DIFFERENTIAL
DECODER
CARRIER
RECOVERY
EQUALIZER
OUTPUT
INTERFACE
TEST
AGCTUN
AGC
5
IF
GPIO
CLOCK
RECOVERY
SDA 18
8.4
Q522.1HE LA
H_17650_072.eps
150108
Figure 8-4 Internal block diagram and pin configuration
2009-Dec-04
EN 58
8.5
8.
Q522.1HE LA
IC Data Sheets
Diagram B03D to H, STi7101 (IC7A00)
Block Diagram
DDR
SDRAM
32
5 x 2-ch
S/PDIF
PCM out
AudioL
2-ch
PCM in AudioR
32
Audio
DACs
ST40 core 266 MHz
16 K Icache
UDI
Video
LMI
Int. control
MMU
32 K Dcache
System
LMI
Serial
ATA
interface
Audio decoder
and interfaces
ST231
core
Peripheral I/O
and external interrupts
SD
video in
Digital
video input
USB
2.0
2x I/F
SmCard
IR
Tx/Rx
MAFE
interface
PWM
6x GPIO
ILC
4x
UARTs
3x
SSCs
STBus
2 x PDES
PTI
PTI
TSmerger/router
CP
Video decoder
H264/MPEG-2
FDMA
Clock
generator
and system
services
CUR
ST231
core
Ethernet,
MII/RMII
MII/RMII for 100BT
Ethernet
TSIN0 TSIN1 TS I/O
NRSS-A
2D gamma
blitter
DVI-HDCP
HDMI
TMDS main video
output (HD)
3 x GDP
Display
compositor
Output stage
DENC
DACs
DACs
Main video
output (HD)
YPbPr
Aux video
output (SD)
YC/CVBS
DEI
Main video
display
Aux video
display
EMI
EMPI
Flash
or companion chip
H_16780_085.eps
070907
Figure 8-5 Internal block diagram and pin configuration
2009-Dec-04
IC Data Sheets
8.6
Q522.1HE LA
8.
EN 59
Diagram B04x, PNX85xx (IC 7H00)
Block Diagram
DDR-II
32 MB
DDR-II
32 MB
16
16
LCD
Matrix Display
1368 × 768
PNX85xx
A/V INPUTS
MIPS32@240MHz
TV control, Pixel OSD
Source select
3D-Comb
Digital color decoder
Audio decoding
Full audio processing, inc SRS
MPEG-2 HD/SD decode
MA DI
8-bit video processing
Enhanced PQ processing
Single LVDS output
HDMI / DVI
CA option
VGA
HDMI
TDA10060
Channel
TD1736OF
TDA9897
Tuner
IF
SPDIF Out
TDA8933T
Audio Amp.
8/16
USB2 Option
FLASH
16 MB
Pin Configuration
ball A1
index area
2
1
B
D
F
H
K
M
P
T
V
Y
AB
AD
AF
AH
AK
4
3
6
5
7
8 10 12 14 16 18 20 22 24 26 28 30
9 11 13 15 17 19 21 23 25 27 29
A
C
E
G
J
PNX85xx
L
N
R
U
W
AA
AC
AE
AG
AJ
Transparent top view
H_16800_128.eps
230707
Figure 8-6 Internal block diagram and pin configuration
2009-Dec-04
EN 60
8.7
8.
IC Data Sheets
Q522.1HE LA
Diagram B04D, NCP303LSN (IC 7HD0)
Block Diagram
Pin Configuration
NCP303LSNxxT1
Open Drain Output Configuration
NCP302xSNxxT1
Complementary Output Configuration
2
2
Input
Vref
Gnd
5
Reset Output
RD
1
Reset
Output
3
1
Vref
3
CD
Gnd
5
CD
1
Input
2
Ground
3
5 CD
4 N.C.
xxx = 302 or 303
Y
= Year
W = Work Week
* Inverter for active low devices.
* Buffer for active high devices.
Reset
Output
xxxYW
RD
Input
This device contains 28 active transistors.
(Top View)
F_15400_133.eps
100405
Figure 8-7 Internal block diagram and pin configuration
8.8
Diagram B04E, CY2305 (IC 7HF1)
Block Diagram
Pin Configuration
CY2305SC-1
PLL
MUX
REF
CLKOUT
CLKA1
SOIC
Top View
CLKA2
CLKA3
CLKA4
1
8
2
7
3
6
4
5
CLKOUT
CLK4
VDD
CLK3
CLKB1
S2
Select Input
Decoding
S1
REF
CLK2
CLK1
GND
CLKB2
CLKB3
CLKB4
E_14620_146.eps
241004
Figure 8-8 Internal block diagram and pin configuration
2009-Dec-04
IC Data Sheets
8.9
Q522.1HE LA
8.
EN 61
Diagram B05A, BU7988KVT (IC 7CG0)
Block Diagram
Pin Configuration
I_17970_059.eps
060608
Figure 8-9 Internal block diagram and pin configuration
2009-Dec-04
EN 62
8.
IC Data Sheets
Q522.1HE LA
8.10 Diagram B06C, T6TF4HFG (IC 7GE2)
Content
Detection
30
AmbiLight
Timing
control
Unit
256B 16kB
MRAM XRAM
32kB
ROM
Control
reg. IF
Interrupt
contr
UART
3
3
PWM
Test
control
SPI
SPI
I2Cs0
SPI
I2Cs1
test
TMS
TRST
PWM
Interrupt
reset
6 X GPIO
PWM
OSC
108
107
106
105
104
103
102
101
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
60
59
58
57
56
55
A data output
Ambi-PWM
B data output
LVDS-o output
C data output
LVDS-e output
Figure 8-10 Internal block diagram and pin configuration
clko
PACIFIC3-N2
E data output
UART
162
161
160
159
158
157
156
155
154
153
152
151
150
149
148
147
146
145
144
143
142
141
140
139
138
137
136
135
134
133
132
131
130
129
128
127
126
125
124
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
D data output
Proc address bus
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
F data output
Proc data bus
216
215
214
213
212
211
210
209
208
207
206
205
204
203
202
201
200
199
198
197
196
195
194
193
192
191
190
189
188
187
186
185
184
183
182
181
180
179
178
177
176
175
174
173
172
171
170
169
168
167
166
165
164
163
I2Cm
sync o
R data input
LVDS-e input
G data input
LVDS-o input
B data input
sync i
JTAG
JTAG
6
GPIO
RSTN
Pin Configuration
INT_N
CS
SCK
SI
SO
I2C_3
I2C_2
I2C_1
6
BST
TDI
IC2_2
TCK
IC2_1
TRIGOUT
80C51
PWM
PSEN/TXD/RXD
SYNC
CLK_OUT
ADDR/DATA/RDN/WRN/
PLL2
T1
60 MHZ RES
LVDS/CMOS RGB OUT
Output buffering
inp_sync
2009-Dec-04
30
P FLASH AND UART
Video Q meter
Noise estimator
PLL1
CLK_IN
Sharpness
Contr. enhance
H LTI
Histogram
Text enhance
Color processing
Color LUT
& Dithering
2ND CMOS RGB OUT /
LVDS
decoder
Color gamut
mapping
Contrast Reserve
&
Clip Measure
CMOS
output
CMOS
input
MVL manager
LVDS
decoder
LVDS/CMOS RGB IN
30
Contr, Brightness
&
White-point corr
LVDS
encoder
Input Proc
Pat
gen
LVDS
encoder
2
TDO
SYNC
Block Diagram
G_16840_099.eps
090207
IC Data Sheets
Q522.1HE LA
8.
EN 63
8.11 Diagram B08A, ISP1564HL (IC 7P00)
Block Diagram
PME#
CLK
32
AD[31:0]
C/BE[3:0]#
SCL
SDA
96
99
97
77, 98, 100
7
10, 12 to 15, 20 to 22,
26 to 31, 33, 34,
50 to 54, 56, 57,
59, 62, 63, 65 to 70
PCI CORE
VOLTAGE
REGULATOR
(Vaux)
32-bit, 33 MHz PCI bus
23, 35, 48, 60
REQ#
9
GNT#
8
IDSEL
24
INTA#
36
DEVSEL#
39
IRDY#
37
CLKRUN#
42
PAR
47
PERR#
44
SERR#
45
TRDY#
38
STOP#
41
RST#
VCC(IO)
VCC(REG)
REG(1V8)
PCI MASTER
5
ISP1564
2, 73
CONFIGURATION SPACE
OHCI
(FUNCTION 0)
EHCI
(FUNCTION 2)
RAM
RAM
CONFIGURATION FUNCTION 0
81
CONFIGURATION FUNCTION 2
80
AUX(1V8)
RREF
GND
_RREF
1, 17, 46,
61, 72, 82,
84, 89, 91
PORT ROUTER
CORE
RESET_N
GNDA
POR
11, 25, 40,
55, 71
18, 43, 58
ATX2
ATX1
16
VCC
CORE
VOLTAGE
REGULATOR
ORIGINAL
USB ATX
ORIGINAL
USB ATX
Hi-SPEED
USB ATX
Hi-SPEED
USB ATX
19, 32, 49,
64, 76, 94, 95
6
74
GND
SYS_TUNE
XOSC
PLL
90
92
DP2
76 GND
77 VCC(IO)AUX
79 PWE1_N
78 OC1_N
DP1 OC2_N PWE2_N DM2
82 GNDA
83 DM1
84 GNDA
86 VCCA(AUX)
85 DP1
87 OC2_N
89 GNDA
88 PWE2_N
90 DM2
91 GNDA
93 VCCA(AUX)
92 DP2
94 GND
96 SCL
95 GND
97 SDA
99 PME#
98 VCC(IO)AUX
100 VCC(IO)AUX
88
87
85
OC1_N PWE1_N DM1
VCCA(AUX)
Pin Configuration
83
79
80 GND_RREF
78
81 RREF
86, 93
GNDA
1
75 XTAL2
AUX(1V8)
2
74 XTAL1
VCC(AUX)
3
73 AUX(1V8)
INTA#
4
72 GNDA
RST#
5
71 VCC(IO)
SYS_TUNE
6
70 AD[0]
CLK
7
69 AD[1]
GNT#
8
68 AD[2]
REQ#
9
67 AD[3]
AD[31] 10
66 AD[4]
65 AD[5]
VCC(IO) 11
ISP1564HL
AD[30] 12
64 GND
AD[29] 13
63 AD[6]
AD[28] 14
62 AD[7]
AD[27] 15
61 GNDA
60 C/BE[0]#
VCC(REG) 16
59 AD[8]
GNDA 17
58 REG(1V8)
REG(1V8) 18
57 AD[9]
GND 19
AD[26] 20
56 AD[10]
AD[25] 21
55 VCC(IO)
AD[24] 22
54 AD[11]
GND 49
AD[15] 50
C/BE[1]# 48
PAR 47
GNDA 46
SERR# 45
PERR# 44
REG(1V8) 43
CLKRUN# 42
STOP# 41
VCC(IO) 40
DEVSEL# 39
TRDY# 38
C/BE[2]# 35
AD[16] 34
GND 32
AD[17] 33
AD[18] 31
AD[19] 30
51 AD[14]
AD[20] 29
VCC(IO) 25
AD[21] 28
52 AD[13]
AD[23] 26
53 AD[12]
IDSEL 24
AD[22] 27
C/BE[3]# 23
IRDY# 37
75
FRAME# 36
XTAL2
VCC(AUX)
Vaux(1V8) core
VCC(I/O)
DETECT
XTAL1
3
PCI SLAVE
4
FRAME#
VCC(IO)AUX
GLOBAL CONTROL
H_17650_073.eps
150108
Figure 8-11 Internal block diagram and pin configuration
2009-Dec-04
EN 64
8.
IC Data Sheets
Q522.1HE LA
8.12 Diagram B08C, AD8197A (IC 7P70)
06471-001
Block Diagram
Figure 1.
TYPICAL APPLICATION
04:20
AMUXVCC
AUX_D1
AUX_D2
AUX_D3
PP_EQ
PP_EN
80
79
78
77
76
AUX_C3
AUX_D0
81
AUX_C2
84
82
83
AUX_COM3
87
AUX_C0
AUX_COM2
88
AUX_C1
AUX_COM1
89
85
AUX_COM0
86
AUX_B2
AUX_B3
92
91
90
AUX_B0
AUX_B1
93
DVEE
95
94
AUX_A2
AUX_A3
96
AUX_A1
97
AUX_A0
PP_OTO
99
100
98
Pin Configuration
75
AVCC
74
IP_C3
AVCC
1
IN_B0
2
IP_B0
3
73
IN_C3
AVEE
4
72
AVEE
IP_C2
PIN 1 INDICATOR
IN_B1
5
71
IP_B1
6
70
IN_C2
VTTI
7
69
VTTI
68
IP_C1
IN_B2
8
IP_B2
9
67
IN_C1
AVEE
10
66
AVEE
IN_B3
11
65
IP_C0
64
IN_C0
63
AVCC
62
IP_D3
AD8197
TOP VIEW
(Not to Scale)
IP_B3
12
AVCC
13
IN_A0
14
IP_A0
15
61
IN_D3
AVEE
16
60
AVEE
IN_A1
17
59
IP_D2
IP_A1
18
58
IN_D2
VTTI
19
57
VTTI
IN_A2
20
56
IP_D1
IP_A2
21
55
IN_D1
AVCC
22
54
AVCC
53
IP_D0
IN_A3
23
49
I2C_SCL
50
48
PP_OCL
I2C_SDA
46
47
DVCC
45
PP_PRE0
PP_PRE1
42
41
VTTO
44
40
OP2
43
39
ON2
OP3
38
ON3
37
OP1
DVCC
RESET
34
35
36
OP0
ON1
33
ON0
VTTO
31
32
DVCC
30
PP_CH0
PP_CH1
29
27
DVEE
26
AVEE
28
IN_D0
AVEE
I2C_ADDR0
52
51
I2C_ADDR2
24
25
I2C_ADDR1
IP_A3
H_17650_080.eps
150108
Figure 8-12 Internal block diagram and pin configuration
2009-Dec-04
IC Data Sheets
Q522.1HE LA
8.
EN 65
8.13 Diagram B09B, STE100P (IC 7NA1)
Block Diagram
LEDS
LEDS
TX Channel
100Mb/s
Parallel to
Serial
Scrambler
4B/5B
TX_CLK
TXD[3:0]
Binary To MLT3
Encoder
NRZ To NRZI
Encoder
TRANSMITTER
10/100
TX_ER
10Mb/s
MDC
MII
MDIO
RXD[3:0]
RX_ER
RX_DV
Interface / Controller
Serial Management
TX_EN
HW
configuration
pins
Loopback
Clock
Generation
RX Channel
Serial to
Parallel
NRZ To Manchester
Encoder
10Mb/s
NRZI To NRZ
Decoder
BaseLine
Wander
Clock Recovery
10 TX Filter
Link Pulse
Detector
System
Clock
Adaptive
Equalization
Binary To MLT3
Decoder
100Mb/s
Descrambler
Code Align
TXN
10 TX
Filter
Auto
Negotiation
REGISTERS
4B/5B
RX_CLK
Link Pulse
Generator
NRZ To Manchester
Encoder
TXP
RECEIVER
10/100
RXP
RXN
SMART
Squelch
Clock Recovery
HW Config
Power Down
rx_clk
gnde/i
tx_er/txd4
rx_er/rxd4
tx_clk
tx_en
txd1
txd0
txd3
txd2
col
crs
mdint
cfg1
vcce/i
cfg0
Pin Configuration
64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49
mf4
1
48
rx_dv
mf3
2
47
rxd0
mf2
3
46
rxd1
mf1
4
45
vcce/i
mf0
5
44
rdx2
fde
6
43
rdx3
gnda
7
42
mdc
nc
8
41
mdio
vcca
9
40
gnde/i
gnda
10
39
vcce/i
x2
11
38
ledr10
x1
12
37
ledtr
STE100P
vcca
13
36
ledl
gnda
14
35
ledc
iref
15
34
leds
vcca
16
33
test_se
nc
nc
nc
rip
reset
pwrdwn
test
gnde
txn
gnda
vcca
txp
gnda
rxp
rxn
vcca
17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32
H_17650_081.eps
150108
Figure 8-13 Internal block diagram and pin configuration
2009-Dec-04
EN 66
8.
IC Data Sheets
Q522.1HE LA
8.14 Diagram B10A, TDA8932B (IC 7D10)
Block Diagram
OSCREF
OSCIO
10
VDDA
31
8
28
IN1P
2
OSCILLATOR
29
DRIVER
HIGH
PWM
MODULATOR
VSSD
IN1N
INREF
IN2P
26
DRIVER
LOW
3
21
MANAGER
12
20
15
DRIVER
HIGH
PWM
MODULATOR
IN2N
27
CTRL
22
CTRL
23
DRIVER
LOW
14
PROTECTIONS:
OVP, OCP, OTP,
UVP, TF, WP
VDDP1
OUT1
VSSP1
BOOT2
VDDP2
OUT2
VSSP2
VDDA
STABILIZER 11 V
DIAG
BOOT1
4
25
STAB1
VSSP1
VDDA
STABILIZER 11 V
CGND
POWERUP
7
6
REGULATOR 5 V
18
DREF
VSSD
5
11
VDDA
30
TEST
STAB2
VSSP2
MODE
ENGAGE
24
VSSA
TDA8932B
13
19
HVPREF
HVP1
HVP2
HALF SUPPLY VOLTAGE
9
1, 16, 17, 32
VSSA
VSSD(HW)
Pin Configuration
VSSD(HW)
1
32 VSSD(HW)
IN1P
2
31 OSCIO
VSSD(HW)
1
IN1P
2
32 VSSD(HW)
31 OSCIO
IN1N
3
30 HVP1
IN1N
3
30 HVP1
DIAG
4
DIAG
4
ENGAGE
5
29 VDDP1
28 BOOT1
ENGAGE
5
29 VDDP1
28 BOOT1
POWERUP
6
27 OUT1
POWERUP
6
27 OUT1
CGND
7
CGND
7
VDDA
8
26 VSSP1
25 STAB1
VDDA
8
26 VSSP1
25 STAB1
VSSA
9
24 STAB2
VSSA
9
OSCREF 10
23 VSSP2
OSCREF 10
HVPREF 11
22 OUT2
HVPREF 11
TDA8932BT
TDA8932BTW
24 STAB2
23 VSSP2
22 OUT2
INREF 12
21 BOOT2
INREF 12
21 BOOT2
TEST 13
TEST 13
IN2N 14
20 VDDP2
19 HVP2
IN2N 14
20 VDDP2
19 HVP2
IN2P 15
18 DREF
IN2P 15
18 DREF
VSSD(HW) 16
17 VSSD(HW)
VSSD(HW) 16
17 VSSD(HW)
H_17650_082.eps
150108
Figure 8-14 Internal block diagram and pin configuration
2009-Dec-04
Block Diagrams
Q522.1HE LA
9.
EN 67
9. Block Diagrams
Wiring Diagram 26" with Smartcard (ME8)
14P
iBOARD
8204
LCD DISPLAY (1004)
1205 (HC02)
10P
1209 (HC02)
5P
(1152)
1108 (HC01)
3P
1109 (HC01)
1207 (HC02)
8208
HC
1208 (HC02)
1104
8R09
9P
8D11
1110 (HC01)
14P
1101
8207
1102 (HC01)
6P
8P
7P
7P
8P
1001
1100
1103
DC/DC CONVERTER
8109
SI
(0169)
DC
8209
9P
INTEGRATED
SMARTCARD SLOT
SYSTEM INTERFACE
WIRING DIAGRAM 26" WITH INTEGRATED SMARTCARD SLOT (STYLING ME8)
3P
LVDS INPUT
30P
8R06
8R07
8HA1
8HV1
8G50
8316
1R09 (B07D)
1G50 (B06A)
41. VDISP
40. VDISP
39. VDISP
38. VDISP
...
2. SCL-I2C4-DISP
1. SDA-I2C4-DISP
1. HV2
2. N.C.
3. HV2
MAIN POWER SUPPLY
IPB 26PLHL-T847B B
(1150)
1R07 (B07D)
1.
2.
3.
4.
5.
6.
7.
8.
1HV1 (B04M)
1303
3p
11p
1302
9.
8.
7.
6.
5.
4.
3.
2.
1.
8302
(1153)
RIGHTGNDSND
GNDSND
LEFT+
KEYBOARD
+5V
KEYBOARD
LED1
+3V3-STANDBY
LED2
RC
GNDSND
LIGHT-SENSOR
1HA1 (B04K)
1.
2.
3.
4.
5.
6.
HD-PR-PC-R
HD-Y-PC-G
HD-PB-PC-B
GND
H-SYNC-VGA
V-SYNC-VGA
1R08 (B07D)
1. GND
2. RXD-BOLT-ON
3. TXD-BOLT-ON
4.
5. SCL-SSB
6. SDA-SSB
7. RC
8. AV1-STATUS
9. STANDBY
10 CVBS-OUT-SC1-ITV
1M95 (B02B)
11. -AUDIO-POWER
10. GNDSND
9. +AUDIO-POWER
8. +12V
7. +12V
6. +12V
5. GND
4. GND
3. GND
2. STANDBY
1. +3V3-STANDBY
8p
1301
8p
4.
3.
2.
1.
1D10 (B10A)
8301
CN1
2. L
1. N
1304
8304
12V SWITCH PANEL
12V
12V
SGND
SGND
BL_ON_OFF
EXT_PWM
BOOST
BL_GND
1305
1.
2.
3.
4.
5.
6.
7.
8.
3P
11p
8303
CN5
J1
SC1-B
SC1-G
SC1-R
AV1-BLK-BO
GND
AP-SCART-OUT-L
AP-SCART-OUT-R
GND
1D12 (B10A)
SP
(1114)
1. 3.3VSB
2. PSON
3. SGND
4. SGND
5. SGND
6. 12V
7. 12V
8. 12V
9. 12VA
10. SGND2
11. -12VA
FRONT-Y_CVBS
FRONT-C
GND
AUDIO-IN5-L
AUDIO-IN5-R
N.C.
GND
AUDIO-OUT-R
AUDIO-OUT-L
SSB
CN4
(1005)
TO
BACKLIGHT
1.
2.
3.
4.
5.
6.
7.
8.
9.
1. ADAC(3)
2. GND
3. ADAC(4)
CN3
1. HV1
2. N.C.
3. HV1
B
E
KEYBOARD CONTROL
CN2
8319
TO
BACKLIGHT
1M99 (B02B)
8.
7.
6.
5.
4.
3.
2.
1.
8308
INLET
J2
3P
J
IR LED PANEL
(1112)
CLOCK
+ 5P
(1151)
C1
+ -
GND
BACKLIGHT-BOOST
BACKLIGHT-OUT
LAMP-ON-OUT
GND
GND
+12VD
+12VD
J3
RIGHT SPEAKER
LEFT SPEAKER
9P
(5213)
(5213)
18680_400_090811.eps
091203
2009-Dec-04
Block Diagrams
Q522.1HE LA
9.
EN 68
Wiring Diagram 32" with Smartcard (ME8)
WIRING DIAGRAM 32" WITH INTEGRATED SMARTCARD SLOT (STYLING ME8)
14P
8204
LCD DISPLAY (1004)
1205 (HC02)
10P
1209 (HC02)
1208 (HC02)
(1152)
1108 (HC01)
3P
1109 (HC01)
9P
1207 (HC02)
8208
iBOARD
HC
5P
1104
8R09
6P
1110 (HC01)
8D11
1102 (HC01)
8P
7P
7P
1001
1100
8P
8207
14P
1101
8109
SI
(0169)
DC/DC CONVERTER
9P
INTEGRATED
SMARTCARD SLOT
DC
8209
1103
SYSTEM INTERFACE
8HA1
3P
LVDS INPUT
30P
8R06
8R07
8G50
8316
8HV1
1. HV2
2. N.C.
3. HV2
MAIN POWER SUPPLY
MOD IPB 32 PLHL-T827C B
(1005)
41. VDISP
40. VDISP
39. VDISP
38. VDISP
...
2. SCL-I2C4-DISP
1. SDA-I2C4-DISP
1.
2.
3.
4.
5.
6.
7.
8.
9.
4.
3.
2.
1.
(1150)
1R07 (B07D)
9.
8.
7.
6.
5.
4.
3.
2.
1.
8303
CN5
3P
1.
2.
3.
4.
5.
6.
7.
8.
12V
12V
SGND
SGND
BL_ON_OFF
EXT_PWM
BOOST
BL_GND
1.
2.
3.
4.
5.
6.
7.
8.
RIGHTGNDSND
GNDSND
LEFT+
SC1-B
SC1-G
SC1-R
AV1-BLK-BO
GND
AP-SCART-OUT-L
AP-SCART-OUT-R
GND
1D10 (B10A)
KEYBOARD
+5V
KEYBOARD
LED1
+3V3-STANDBY
LED2
RC
GNDSND
LIGHT-SENSOR
1HA1 (B04K)
1.
2.
3.
4.
5.
6.
HD-PR-PC-R
HD-Y-PC-G
HD-PB-PC-B
GND
H-SYNC-VGA
V-SYNC-VGA
1R08 (B07D)
1. GND
2. RXD-BOLT-ON
3. TXD-BOLT-ON
4.
5. SCL-SSB
6. SDA-SSB
7. RC
8. AV1-STATUS
9. STANDBY
10 CVBS-OUT-SC1-ITV
1M95 (B02B)
11. -AUDIO-POWER
10. GNDSND
9. +AUDIO-POWER
8. +12V
7. +12V
6. +12V
5. GND
4. GND
3. GND
2. STANDBY
1. +3V3-STANDBY
8304
J1
FRONT-Y_CVBS
FRONT-C
GND
AUDIO-IN5-L
AUDIO-IN5-R
N.C.
GND
AUDIO-OUT-R
AUDIO-OUT-L
SSB
1D12 (B10A)
CN4
1. 3.3VSB
2. PSON
3. SGND
4. SGND
5. SGND
6. 12V
7. 12V
8. 12V
9. 12VA
10. SGND2
11. -12VA
(1114)
1R09 (B07D)
1HV1 (B04M)
1. ADAC(3)
2. GND
3. ADAC(4)
CN3
1. HV1
2. N.C.
3. HV1
B
E
1M99 (B02B)
CN1
2. L
1. N
8.
7.
6.
5.
4.
3.
2.
1.
TO
BACKLIGHT
GND
BACKLIGHT-BOOST
BACKLIGHT-OUT
LAMP-ON-OUT
GND
GND
+12VD
+12VD
8308
8R02
INLET
8R01
1303
1302
1301
3p
11p
8p
SP
12V SWITCH PANEL
(1153)
1305
1304
11p
8p
TO
BACKLIGHT
+ -
+ -
CLOCK
3P
J
IR LED PANEL
(1112)
RIGHT SPEAKER
J3
(1151)
(5213)
9P
LEFT SPEAKER
5P
J2
C1
KEYBOARD CONTROL
CN2
1G50 (B06A)
8319
(5213)
18680_401_090811.eps
091203
2009-Dec-04
Block Diagrams
Q522.1HE LA
9.
EN 69
Wiring Diagram 37" with Smartcard (ME8)
WIRING DIAGRAM 37" WITH INTEGRATED SMARTCARD SLOT (STYLING ME8)
8207
1207 (HC02)
9P
14P
DC/DC CONVERTER
7P
1109 (HC01)
8P
1001
1110 (HC01)
DC
8209
1. 3.3VSB
2. PSON
3. SGND1
4. SGND1
5. SGND1
6. 12V
7. 12V
8. 12V
9. 12VA
10. SGND2
11. -12VA
9P
1103
8P
7P
8R07
8HA1
8303
INTEGRATED
SMARTCARD SLOT
(0169)
SI
6P
3P
8204
CN4
1102 (HC01)
3P
1100
DANGEROUS
HIGH VOLTAGE
CN3
1. HV2
2. N.C.
3. HV2
CN2
1. HV1
2. N.C.
3. HV1
DANGEROUS
HIGH VOLTAGE
(1152)
1209 (HC02)
1108 (HC01)
8319
iBOARD
SYSTEM INTERFACE
LVDS INPUT (1080p)
51P
HC
1104
8316
10P
1205 (HC02)
5P
LCD DISPLAY (1004)
14P
1208 (HC02)
1101
8208
8R09
8R06
8G51
1R09 (B07D)
1.
2.
3.
4.
5.
6.
7.
8.
9.
41. VDISP
40. VDISP
39. VDISP
38. VDISP
...
2. SCL-I2C4-DISP
1. SDA-I2C4-DISP
8p
4.
3.
2.
1.
RIGHTGNDSND
GNDSND
LEFT+
1HA1 (B04K)
1.
2.
3.
4.
5.
6.
1D10 (B10A)
9.
8.
7.
6.
5.
4.
3.
2.
1.
8D11
J1
KEYBOARD
+5V
KEYBOARD
LED1
+3V3-STANDBY
LED2
RC
GNDSND
LIGHT-SENSOR
HD-PR-PC-R
HD-Y-PC-G
HD-PB-PC-B
GND
H-SYNC-VGA
V-SYNC-VGA
8302
8301
CN1
1. N
2. l
1M95 (B02B)
11. -AUDIO-POWER
10. GNDSND
9. +AUDIO-POWER
8. +12V
7. +12V
6. +12V
5. GND
4. GND
3. GND
2. STANDBY
1. +3V3-STANDBY
TO
BACKLIGHT
1R06 (B07D)
1.
2.
3.
4.
5.
+3V3-STANDBY
HP-DETECT
AV2-BLK
GND
+5V
1M99 (B02B)
8.
7.
6.
5.
4.
3.
2.
1.
INLET
SC1-B
SC1-G
SC1-R
AV1-BLK-BO
GND
AP-SCART-OUT-L
AP-SCART-OUT-R
GND
1R08 (B07D)
1. GND
2. RXD-BOLT-ON
3. TXD-BOLT-ON
4.
5. SCL-SSB
6. SDA-SSB
7. RC
8. AV1-STATUS
9. STANDBY
10 CVBS-OUT-SC1-ITV
3P
8308
FRONT-Y_CVBS
FRONT-C
GND
AUDIO-IN5-L
AUDIO-IN5-R
N.C.
GND
AUDIO-OUT-R
AUDIO-OUT-L
1R07 (B07D)
1.
2.
3.
4.
5.
6.
7.
8.
1. ADAC(3)
2. GND
3. ADAC(4)
11p
(1150)
1HV1 (B04M)
1G50 (B06A)
3p
1303
1302
SSB
1D12 (B10A)
(1153)
SP
11p
B
1301
(1114)
1304
1305
8304
8p
12V
12V
SGND1
SGND1
BL_ON_OFF
DIM
BOOST
ANALOG_PWM
E
KEYBOARD CONTROL
MAIN POWER SUPPLY
IPB 37 PLHL-T846A (1005)
1.
2.
3.
4.
5.
6.
7.
8.
12V SWITCH PANEL
CN6
GND
BACKLIGHT-BOOST
BACKLIGHT-OUT
LAMP-ON-OUT
GND
GND
+12VD
+12VD
TO
BACKLIGHT
8109
+ -
+ -
3P
J
IR LED PANEL
(1112)
J3
9P
(1151)
RIGHT SPEAKER
(5213)
5P
J2
C1
CLOCK
LEFT SPEAKER
(5213)
18680_402_090811.eps
091203
2009-Dec-04
Block Diagrams
Q522.1HE LA
9.
EN 70
Wiring Diagram 42" with Smartcard (ME8)
WIRING DIAGRAM 42" WITH INTEGRATED SMARTCARD SLOT (STYLING ME8)
8207
10P
DC
8209
1108 (HC01)
DC/DC CONVERTER
7P
9P
14P
SYSTEM INTERFACE
(0169)
SI
1104
1101
8P
INTEGRATED
SMARTCARD SLOT
1001
1205 (HC02)
3P
1209 (HC02)
5P
8319
1208 (HC02)
8316
1103
6P
7P
1102 (HC01)
(1152)
1100
iBOARD
14P
1109 (HC01)
9P
LVDS INPUT (1080p)
51P
8P
LCD DISPLAY (1004)
HC
1110 (HC01)
1207 (HC02)
8HA1
3P
8204
(1114)
41. VDISP
40. VDISP
39. VDISP
38. VDISP
...
2. SCL-I2C4-DISP
1. SDA-I2C4-DISP
1HV1 (B04M)
1. ADAC(3)
2. GND
3. ADAC(4)
1G50 (B06A)
1303
3p
RIGHTGNDSND
GNDSND
LEFT+
9.
8.
7.
6.
5.
4.
3.
2.
1.
E
8D11
J1
KEYBOARD
+5V
KEYBOARD
LED1
+3V3-STANDBY
LED2
RC
GNDSND
LIGHT-SENSOR
1.
2.
3.
4.
5.
6.
HD-PR-PC-R
HD-Y-PC-G
HD-PB-PC-B
GND
H-SYNC-VGA
V-SYNC-VGA
8302
8301
8308
1M95 (B02B)
11. -AUDIO-POWER
10. GNDSND
9. +AUDIO-POWER
8. +12V
7. +12V
6. +12V
5. GND
4. GND
3. GND
2. STANDBY
1. +3V3-STANDBY
TO
BACKLIGHT
+3V3-STANDBY
HP-DETECT
AV2-BLK
GND
+5V
1M99 (B02B)
8.
7.
6.
5.
4.
3.
2.
1.
INLET
1.
2.
3.
4.
5.
1R08 (B07D)
1. GND
2. RXD-BOLT-ON
3. TXD-BOLT-ON
4.
5. SCL-SSB
6. SDA-SSB
7. RC
8. AV1-STATUS
9. STANDBY
10 CVBS-OUT-SC1-ITV
3P
CN1
2. L
1. N
SC1-B
SC1-G
SC1-R
AV1-BLK-BO
GND
AP-SCART-OUT-L
AP-SCART-OUT-R
GND
1R06 (B07D)
1HA1 (B04K)
1D10 (B10A)
FRONT-Y_CVBS
FRONT-C
GND
AUDIO-IN5-L
AUDIO-IN5-R
N.C.
GND
AUDIO-OUT-R
AUDIO-OUT-L
1R07 (B07D)
1.
2.
3.
4.
5.
6.
7.
8.
(1150)
11p
1302
4.
3.
2.
1.
1.
2.
3.
4.
5.
6.
7.
8.
9.
SSB
1D12 (B10A)
8p
8304
B
1301
12V
12V
SGND1
SGND1
BL_ON_OFF
DIM
BOOST
ANALOG_PWM
1304
1.
2.
3.
4.
5.
6.
7.
8.
(1153)
CN6
12V SWITCH PANEL
8303
SP
(1005)
1R09 (B07D)
11p
MAIN POWER SUPPLY
IPB 42 PLHL-T828B
KEYBOARD CONTROL
8R09
8R06
8G51
1. 3.3VSB
2. PSON
3. SGND1
4. SGND1
5. SGND1
6. 12V
7. 12V
8. 12V
9. 12VA
10. SGND2
11. -12VA
1305
CN3
1. HV2
2. N.C.
3. HV2
CN4
8p
DANGEROUS
HIGH VOLTAGE
CN2
1. HV1
2. N.C.
3. HV1
8R07
DANGEROUS
HIGH VOLTAGE
GND
BACKLIGHT-BOOST
BACKLIGHT-OUT
LAMP-ON-OUT
GND
GND
+12VD
+12VD
TO
BACKLIGHT
8109
+ -
+ -
J2
3P
J
IR LED PANEL J3
(1112)
9P
RIGHT SPEAKER
LEFT SPEAKER
(5213)
(5213)
18680_403_090811.eps
091203
2009-Dec-04
Block Diagrams
Q522.1HE LA
9.
EN 71
Block Diagram Video
VIDEO
B03A MAIN TUNER
2
1T04
TD1716F/BHXP
4
IF-FILTN3
4
5
IF-FILTP3
3
IF-FILTP1
6
SAW 36M125
1T55
4
1
2
5T61
MAIN HYBRID
TUNER
11
IF-OUT2
10
IF-OUT1
5
IF-FILTN1
7
IF-FILTP2
9
2
IF-FILTN2
10
5
IF3-A
IF1-A
CVBS
3
RF-AGC
47
TUN-AGC
8
4-MHz
46
TUN-AGC-MON 16
VTUN
B03E STI7100: FLASH
B03D STI7100: CONTROL
FLASH
EPROM
EMI-D(0-15)
8Mx8
4Mx16
EMI-A(1-22)
43
AGC-COMP
32
4-MHz
7
B04K ANALOGUE AV
IF2-B
OUT1-A
OUT1-B
TAGC
FREF
TDA-IF-IN-N
3T59
27
TDA-IF-IN-P
3T58
M1
IF-P
M2
VIDEO
LAYER
B03C CHANNNEL DECODER DVB-C
7TA4
TDA10023HT
TDA-IF-AGC
VIP
9
AGC_TUN
DTV
3
RECEIVERVI-P
XIN
VI-M
16
B04E
DATA
Only for DVB-C
7AA1
EDD2516AETA
MSP
VMPG
MPEG
DEMUX
AND
DECODING
B09A DIGI I/O: PCMCIA INTERFACE & BUFFERS
TSI0-ST-D(0-7)
DDR
SDRAM
B03F
DDR1
LMI-D(0-31)
LMI
7AA2
EDD2516AETA
DDR
SDRAM
LMI-A(0-12)
TSI1-ST-D(0-7)
P33 MPEG-TX2+
B03G
P34 MPEG-TX2AV-INTER
R33 MPEG-TX1+
FACE
R34 MPEG-TX1AV
T33 MPEG-TX0+
INTER
T34 MPEG-TX0FACE
U33 MPEG-TXC+
U34 MPEG-TXC-
16Mx16
MEMORY
CONTROLLER
VIDEO
OUTPUT
LVDS
m
n
o
7N09
74LVC245
1N00
7
AH15
DV-VS
8
LVDS
TRANSMITTER
PCMCIA
TXEA-
48
TXEA+
47
TXEB-
46
TXEB+
44
TXEC-
43
TXEC+
42
TXECLK-
41
TXECLK+
40
TXED-
39
TXED+
31
1G55
30
29
1G56
28
27
1G57
25
24
1G58
22
21
LVDS
CONNECTOR
TX8535oA-
AJ22
TX8535oB-
AK22
TX8535oB+
AG22
TX8535oC-
AH22
TX8535oC+
AJ23
TX8535oCLK-
AK23
TX8535oCLK+
AG23
TX8535oD-
AH23
TX8535oD+
AJ24
TX8535oE-
AK24
TX8535oE+
37
TXOA-
36
TXOA+
35
TXOB-
34
TXOB+
32
TXOC-
31
TXOC+
30
TXOCLK-
29
TXOCLK+
28
TXOD-_
27
TXOD+
TXOE-_
BUFFER
MDO(0-7)
r
49
32
TX8535oA+
VIDEC, 3D COMB AND VBI
CAPTURING
p
q
38
1G54
TXOE+
1G60
17
16
1G61
15
14
1G62
13
12
1G63
10
9
1G64
7
6
1G64
4
3
CA-MDO(0-7)
68P
16Mx16
DV-HS
B04O DIGITAL
AJ21
VIDEO OUT
AK21
LVDS
B04N VIDEO
STREAMS
FE-DATA(0-7)
B03F STI7100: DDR1
AG15
OR
CLRB
RESET-SYSTEM
DV-UV(0-9)
B06A LVDS
DTV
RECEIVER
2
CLR 41
DATA
VIM
VIDEO
OUTPUT
TTL
GFX LAYER
STILL
MPEG/PC
MBVP-TV
SNR/TNR
EDDI
HV SCALER
40
DV-Y(0-9)
58
57
41
39
DUAL LVDS ONLY
GFX OSD
LAYER
VIDEO ANALOGUE
SWITCH/
ADC/MUX/SRC
VDISP
10-bit YUV
MAIN
VIDEO OUT
36
AGC-DIN
7CG0
BU7988KVT
PNX8541
DIF-P
30
AGC_TUN
42
AGCT_CTL
STI7101
IF-N
DIF-N
29
OUT2-A
MPP-2
26
1G50
B04O DIGITAL
VIDEO OUT
LVDS
IF2-A
7T17
TDA10048HN
7T18
B03E
FLASH
EMI
J3
CVBS-TER-OUT
B03B CHANNNEL DECODER DVB-T
7A00
ST-7101BWC
7A50
M29W640FT70N6
CVBS4
IF1-B
OUT2-B
+5V
9
7H00
PNX8541E/M1
7T56
EF
33
SAW 36M18
XTAL_OUT
B06A LVDS
IF3-B
IF
PROCESSING
SAW 37M67
1T70
4
1
B05A DUAL LVDS
CPIPE-TV
1
B04 PNX8541
7T57
TDA9898HL
1T65
s
t
CA-MDI(0-7)
CONDITIONAL
ACCESS
B08B DIGI I/O: HDMI CONNECTORS + DVI AUDIO INPUTS
1
2
1P33
1
CRX2+
74
3
CRX2CRX1+
73
71
CRX1CRX0+
70
68
19
18
4
6
7
HDMI 2
CONNECTOR
9
10
CRX0-
67
CRXC+
65
12
CRXC-
64
1
2
1P32
19
18
HDMI
SWITCH
1
2
m
61
59
DRX2DRX1+
n
o
58
56
DRX1DRX0+
p
q
55
DRX0-
r
s
t
12
BRX2BRX1+
11
9
BRX1BRX0+
8
6
BRX0-
5
53
DRXC+
BRXC+
3
52
DRXC-
12
RESET-SYSTEM
1E01
B04E
24
3
ARX2ARX1+
23
21
1
ARX1ARX0+
20
18
7
17
15
12
ARXC-
14
16
20
4
VGA-H
5
8
VGA-V
6
Y_CVBS-MON-OUT-SC
5
CVBS-TER-OUT
15
SC1-R
7
SC1-B
3
HD-PB-IN
3
1
HD-PR-IN
1
1
B04A
B07D
PCI XIO
h
9EA3
AV1-PR
K2
9EA1
AV1-PB
P5
AV1-Y
F2
9EA6
AV1-Y_CVBS
H2
7
AV3_PB
R1
15
AV3-PR
K3
SC1-G
SC1-CVBS
21
8
AV1_STATUS
i
AV1_BLK
B04A
7HG0
EDE5116AJBG
B04G DDR2
(0-12)
7
d
AV2-STATUS
20
AV2-Y_CVBS
21
16
11
e
16
VGA
CONNECTOR
DDR2-D(0-15)
B04A
J1
DDR
7HG1
EDE5116AJBG
7E14
20
HC02 IBOARD
1207
CVBSterr
RJ48
1205
7215
EF
SC1_CVBS_RF_OUT
10
SCART2
AV2-BLK
AV3-Y
b
20
FBL_IN
1101
11
CONTROL
CONTROL
SC1-B
1
1
SC1-G
3
3
AV1-BLK-BO
4
4
PB
V-SYNC-VGA
T4
L1
9
AV4-PB
R3
AV4-Y
G3
12
Y
e
B07C ANALOGUE I/O: SIDE AV
HD-PR_PC-R
K4
HD-PB_PC-B
R2
HD-Y_PC-G
G2
d
c
2
CVBS
1104
1R09
31 FRONT-Y_CVBS
1
1
FRONT-C
2
2
FRONT-Y_CVBS
J2
FRONT_C
P2
k
1
l
FRONT-Y_CVBS
FRONT-C
1E14
k
32
EXT 3
F3
AV4-PR
1E11
CONTROL
SC1_G_IN
g
j
7100
SC1_B_IN
18
1R07
2
H-SYNC-VGA
7
i
CONTROL
17
7110-7112
SC1_R_IN
7104-7106
CVBSterr
19
PR
h
7107-7109
INTEGRATED
SMARTCARD SLOT
22
2
DDR2
SDRAM
8Mx16x4
a
SC1-R
DDR2-A(0-12)
(16-31)
B07B ANALOGUE I/O: YPBPR AUDIO OUT
1103
1102
G1
f
1E03
SYSTEM INTERFACE
B04A
11
1R08
10
11
1107
9
B07D
DDR2
SDRAM
8Mx16x4
8
15
EXT 2
NAND
FLASH
512Mx8
B04G PNX 8541: DDR2
7E04
19
2
PCI-AD<->NAND-AD
B04A
7E09
1
c
SI
7HA0
NAND512W3A2CN6E
B04F CONTROL
PCI
REGIMBEAU_CVBS-SWITCH
9EA2
11
1E02
b
3
B04Q PNX8541: FLASH
Y_CVBS-MON-OUT A3
f
CVBS-OUT-SC1-ITV
20
a
2
SINGLE LVDS (50Hz 768P)
7E16
7E06
1
7E05
16
6
HD-Y-IN
BYPASS
9G13-9G15
HDMI
B07B
11
1HA1
5
5
10
1
14
15
B8
j
1102
5
2
1
RX2-
19
SCART1
1101
13
6
B9
15
EXT 1
B04K
11
A7
g
7110
74LCX14T
HC01 IBOARD
RX1RX2+
B04N DIGITAL
VIDEO IN
14
ARX2+
ARX0-
B6
A8
7E02
1
ARXC+
B7
RX0RX1+
9,10,11
44
9
10
RX0+
B07A ANALOGUE I/O: SCART 1 & 2
2
BRXC-
4
6
7
19
18
DRX2+
BRX2+
1P35
HDMI SIDE
CONNECTOR
62
3
9
10
HDMI 1
CONNECTOR
ON1 36
OP2 40
ON2 39
43
OP3
ON3 42
HOT-PLUG D10
A10
A9
B08B
RXC+
RXC-
34
OP0
ON0 33
OP1 37
1
4
6
7
(ONLY FOR SETS WITH 1080P DISPLAY)
7P70
AD8197A-ASTZ
3
l
SVHS IN 5
2
4
18680_404_090813.eps
090825
2009-Dec-04
Block Diagrams
Q522.1HE LA
9.
EN 72
Block Diagram Audio
AUDIO
B03A MAIN TUNER
4
IF-FILTN3
4
5
IF-FILTP3
3
SAW 36M125
1T55
4
IF-FILTP1
6
2
5
IF-FILTN1
7
SAW 37M67
1T70
4
IF-FILTP2
9
IF-FILTN2
10
1
2
1T04
TD1716F/BHXP
1
5T61
MAIN HYBRID
TUNER
11
IF-OUT2
1
10
IF-OUT1
B04 PNX8541
7T57
TDA9898HL
1T65
2
5
B04K ANALOGUE AV
IF3-B
IF3-A
IF1-A
47
TUN-AGC
46
4-MHz
TUN-AGC-MON 16
VTUN
B03E STI7100: FLASH
B03D STI7100: CONTROL
IF2-B
OUT1-A
FLASH
EPROM
EMI-D(0-15)
8Mx8
4Mx16
OUT1-B
TAGC
FREF
OUT2-A
3T59
27
TDA-IF-IN-P
3T58
43
AGC-COMP
32
7
M2
30
DIF-P
PCI-AD <-> NAND-AD
B03C CHANNNEL DECODER DVB-C
TDA-IF-AGC
9
VIP
AGC_TUN
16
CLR 41
B04E
DATA
VIM
58
57
7HG0
EDE2516ACSE
DTV
RECEIVER
2
VI-M
B04G DDR2
(0-12)
CLRB
RESET-SYSTEM
B04N VIDEO
STREAMS
DATA
8Mx16x4
B09A DIGI I/O: PCMCIA INTERFACE & BUFFERS
DDR2-A(0-12)
TSI0-ST-D(0-7)
DDR
SDRAM
B03F
DDR1
LMI-D(0-31)
P33 MPEG-TX2+
B03G
P34 MPEG-TX2AV-INTER
R33 MPEG-TX1+
FACE
R34 MPEG-TX1AV
T33 MPEG-TX0+
INTER
T34 MPEG-TX0FACE
LMI
7AA2
EDD2516AETA
LMI-A(0-12)
U33 MPEG-TXC+
U34 MPEG-TXC-
16Mx16
DDR2
SDRAM
8Mx16x4
TSI1-ST-D(0-7)
(16-31)
m
n
o
7N09
74LVC245
1N00
p
q
MDO(0-7)
r
PCMCIA
BUFFER
CA-MDO(0-7)
B04I PNX 8541:
68P
16Mx16
DDR
SDRAM
7HG1
EDE2516ACSE
DDR
Only for DVB-C
7AA1
EDD2516AETA
DDR2
SDRAM
DDR2-D(0-15)
FE-DATA(0-7)
B03F STI7100: DDR1
NAND
FLASH
512Mx8
B04G PNX 8541: DDR2
7TA4
TDA10023HT
XIN
STI7101
IF-P
DIF-N
DTV
3
RECEIVERVI-P
4-MHz
M1
29
AGC_TUN
42
AGCT_CTL
EMI-A(1-22)
IF-N
36
AGC-DIN
MPP-2
TDA-IF-IN-N
7T17
TDA10048HN
7T18
B03E
FLASH
EMI
7HA0
NAND512W3A2BN6E
B04F CONTROL
PCI
PCI XIO
26
B03B CHANNNEL DECODER DVB-T
7A00
ST-7101BWC
7A50
M29W640FT70N6
PNX8541
J3
IF2-A
OUT2-B
+5V
9
CVBS4
IF
PROCESSING
8
XTAL_OUT
7T56
EF
33
CVBS
IF1-B
SAW 36M18
3
RF-AGC
B04Q PNX8541: FLASH
7H00
PNX8541E/M1
s
t
B10A CLASS D
AUDIO
CA-MDI(0-7)
CONDITIONAL
ACCESS
B08B DIGI I/O: HDMI CONNECTORS + DVI AUDIO INPUTS
1
2
1P33
1
CRX2+
74
3
CRX2CRX1+
73
71
CRX1CRX0+
70
68
19
18
4
6
7
HDMI 2
CONNECTOR
9
10
CRX0-
67
CRXC+
65
12
CRXC-
64
1
2
1P32
1
BRX2+
12
3
BRX2BRX1+
11
9
BRX1BRX0+
8
6
4
6
7
19
18
9
10
12
HDMI 1
CONNECTOR
ON1 36
OP2 40
ON2 39
43
OP3
ON3 42
HDMI
SWITCH
62
DRX2+
m
61
59
DRX2DRX1+
n
o
58
56
DRX1DRX0+
p
q
55
DRX0-
r
s
t
BRX0-
5
53
DRXC+
3
52
DRXC-
BRXC-
2
44
1
2
19
18
HDMI SIDE
CONNECTOR
ARX2+
24
3
ARX2ARX1+
23
21
ARX1ARX0+
20
18
ARX0-
17
4
6
7
9
10
ARXC+
15
12
ARXC-
14
RESET-SYSTEM
RX0+
B7
RX0RX1+
B6
A8
RX1-
A7
RX2+
B9
RX2-
B8
B04I AUDIO
B07A ANALOGUE I/O: SCART 1 & 2
3EA8
AUDIO-CL-R
7
5 ADAC(8)
AP-SCART-OUT-L
3EA7
AUDIO-CL-L
1
3 ADAC(7) AK8
20
15
21
AK12
2
SC1-AUDIO-R
9HM1
6
SC1-AUDIO-L
9HM2
7E01
AP-SCART-OUT-R
A-PLOP
A-PLOP
7
EXT 2
11
16
B07D ANALOGUE I/O:
1103
6
7
SC1_AUDIO_OUT_R
3
AP-SCART-OUT-L
AUDIO-IN5-L
AUDIO-IN5-R
9HM2
-AUDIO-R
14
3
22
4
7D11
7D12
7D15
AK6
AUDIO-IN1-L
AJ6
AUDIO-PROT
ENGAGE
6D01
AUDIO-IN1-R
Speaker R
IN2N
OUT2
5
Speaker L
2
7D13
DETECT1
B02A DC / DC 3V3_1V2
DC
DETECTION
7U00
SUPPLY-FAULT
B04A
CONTROL
B04A
CONTROL
DAC
AIN1
2
AUDIO-IN2-R
B04M
ADC
7
AUDIO-IN2-L
V4
AF5
SPDIF DECODING,
MULTICHANNEL,
DOWNMIX AND SRC
B07B ANALOGUE I/O: YPBPR_AUDIO OUT
AUDIO IN
L+R
AUDIO-IN3-L
AUDIO-IN3-R
3
AJ5
AIN3
AUDIO-OUT-L
8
8
AUDIO-OUT-R
4
4
AUDIO-IN5-L
5
5
AUDIO-IN5-R
N.C.
B07A
AUDIO-RESET
6H03
A-PLOP
DIGITAL
AUDIO
OUT
AMPLIFIER
8
10
ADAC(5)
AJ10
6
AUDIO-OUT-R
14
12
ADAC(6)
AK9
7E03
EF
2
A-PLOP
AUDIO-RESET
7HV0
TPA6111A2DGN
7HM1
AUDIO-OUT-L
7E10
AH11
ADAC(3)
2
AH10
ADAC(4)
6
DAC
DAC
IN-_1
VO_1
IN-_2
VO_2
1
7
AUDIO-HDPH-L-AP
1E15
2
AUDIO-HDPH-R-AP
3
4
SCHUTDOWN
A-PLOP
B07C ANALOGUE I/O: SIDE AV
B07B
SPDIF OUT
DELAYED
B04I AUDIO
4
1R09
9
6H00
7HVA
EPICS
AH5
AP-SCART-OUT-R
9
AUDIO-MUTE-UP
B04M PNX 8541: AUDIO
1E03
AUDIO OUT
L+R
1104
W2
MEMORY
CONTROL
AUDIO-MUTE
21
5
AP-SCART-OUT-L
I²C
Main
AIN2
1R07
6
DEMDEC
B04A STANDBY
CONTROL
AG5
1E08
30
1D12
1
27
CLASS D
POWER
AMPLIFIER
AJ8
15
INTEGRATED
SMARTCARD SLOT
29
ADAC(2)
OUT1
IN1P
B04A PNX 8541: STANDBY CONTROLLER
BOLT-ON
27
2
+AUDIO-L
B07D BOLT-ON
11
6
SC1_AUDIO_OUT_L
9HM1
7
EXT 1
SCART1 1E02
1
1
SYSTEM INTERFACE
28
ADAC(1)
AUDIO-MUTE
3
20
1102
AJ13
DAC
SCART2
SI
7D10
TDA8932BTW/N2
B04L AUDIO
AP-SCART-OUT-R
1
B04E
B04L AUDIO
HDMI-DVI
RX/RX2DTL
RECEIVER
DETECTION
MATRICING
7HM1
1E01
1
16
1P35
HOT-PLUG D10
A10
A9
B08B
RXC+
RXC-
34
OP0
ON0 33
OP1 37
BRXC+
1
B04H DIGITAL
VIDEO IN
7P70
AD8197A-ASTZ
5
B04A
CONTROL
HP-DETECT
B04M
SPDIF-OUT
Headphone
Out 3.5mm
(ONLY FOR SETS WITH INTEGRATED SMARTCARD SLOT)
AJ15
HC01 IBOARD
B07C ANALOGUE I/O: SIDE AV
7109
TDA1517ATW/N1
1E11
AUDIO IN
L+R
5
AUDIO-IN5-L
AJ4
8
AUDIO-IN5-R
AK4
POWER
AMPLIFIER
AIN5
7HV1
EF
1HV1
7HV2
EF
1108
1
1
2
2
3
3
HP_AUDIO_OUT_L
3
HP_AUDIO_OUT_R
18
B08B DIGI I/O: HDMI CONNECTORS + DVI AUDIO INPUTS
1P6A
7108
2
AUDIO IN
L+R
3
AUDIO-IN4-L
AUDIO-IN4-R
AK5
AIN4
HC02
17
IN1+
IN2-
OUT1
OUT2
8
1100
2
12
3
BATHROOM
SPEAKER
4
MODE
MUTE
AH4
4
18680_405_090813.eps
090814
2009-Dec-04
Block Diagrams
Q522.1HE LA
9.
EN 73
Block Diagram Control & Clock Signals
CONTROL + CLOCK SIGNALS
B03F STI7101:
DDR1
B03D STI7101: CONTROL
B03E STI7101: FLASH B02B DC/DC 2V5_1V
7A00
ST-7101BWC
7AA1
EDD2516AETA
7AA2
EDD2516AETA
EMI-D(0-15)
EMI-A(1-22)
STI7101
LMI-A(0-12)
LMI-CLK
LMI-CLKnot
U1
LMI-CLKEN
Y5
BACKLIGHT-BOOST
B06B
N.C.
STANDBY
B04A
DDR2-A(0-12)
M8
DDR2-CLK_P
N28
N8
DDR2-CLK_N
N29
FE-CLK
19
D5
FE-VALID
18
C4
FE-SOP
17
PCMCIA
C1
CONDITIONAL
ACCESS
7A12
MAIN
TUNER
4-MHz
8
7TA4
TDA10023HT
FE-CLK
35
FE-VALID
36
FE-SOP
34
CA-DATADIR
CA-DATAEN
3
16M
FE-DATA(0-7)
Only for DVB-C
PCI-AD(24-31)
B04F PNX 8541: CONTROL_PCI
B04F CONTROL
7N11
7N12
CA-ADDEN
B22
PCI-AD(24-31) --> NAND-AD(0-7)
CA-MDI(0-7)
7N09
B04E PNX 8541: CONTROL_MIPS
B04E CONTROL
AK26
CA-MDO(0-7)
NAND
FLASH
(512Mx8)
PCI-CLK-PNX8535
A21
MDO(0-7)
B04Q PNX 8541: FLASH
7HA0
NAND512W3A2CN6E
PCI-AD(0-14)
PCMCIA-A(0-14)
E27
2
B04E
D22
A22
1TA1
DTV
RECEIVER
DVB-C
16
41
RESET-SYSTEM
7N13
COMMON INTERFACE
7A10-3
7
DTV
RECEIVER
DVB-T
PNX8541
1N00
1
PCMCIA-D(0-7)
27MHZ-3V3
C5
B09A DIGI I/O: PCMCIA INTERFACE & BUFFER
Only for MPEG4
CPU-27MHZ
46
7T17
DA10048HN
B03C CHANNEL DECODER DVB-C
1T04
TD1716F
IF
PROCESSING
DDR2-D(0-31)
PCI-AD(0-31)
1
7T57
TDA9898HL
B04G SDRAM
DDR
SDRAM 1-2
U2
Only for MPEG4
B03A MAIN TUNER
B04N VIDEO STREAMS
8Mx16x4
TO
2
POWER SUPPLY
B03B CHANNEL DECODER DVB-T
7H00
PNX8541E
7HG1
EDE5116AJBG
B06B
BACKLIGHT-OUT
1M95
8Mx8
4Mx16
AH30 WP-FLASH-ST
16Mx16
LAMP-ON-OUT
6
TO
POWER SUPPLY 7
FLASH
EPROM
LMI-D(0-31)
DDR
SDRAM
7HG0
EDE5116AJBG
5
7A50
M29W640FT70N6
B04 PNX8541
B04G PNX 8541: DDR2
1M99
PCI-CLK-OUT
68
27M
3HF4
PCI-CLK-USB20
3HFH
PCI-CLK-PNX5050
3HF2
PCI-CLK-PNX8535
B08A
7HA1
WP-NANDFLASH-INV
B05A
RESET-SYSTEM
AJ26
19
B03B B03C B04A
B05A B08C
B06B PACIFIC 3:DISPLAY-INTERFACING
TSI1-ST-D(0-7)
7G58
TSI0-ST-D(0-7)
T1
BACKLIGHT-CONTROL
T2
CTRL1-MIPS_LCD-PWR-ON
BACKLIGHT-OUT
Only for MPEG4
+12VD
B04F PNX8535: CONTROL
B08A DIGI I/O: USB CONNECTOR + CONTROLLER
B04F CONTROL
7G54
7P00
ISP1564HL
3 2
4
1
4
USB20-OC2
87
PCI-CLK-USB20
7
B04E
USB20-1-DM
USB20-1-DP
83
9
85
8
RESET-USB20
5
B05A DUAL LVDS
HOT-PLUG
D10
75
1P01
1P07
1
B04H DIGITAL
VIDEO IN
PCI-AD(0-31)
VDISP
CONTROL
7CG0
BU7988KVT
B08B
7CG1
12M
USB-OC
PCI
HOST
CONTROLLER
78
USB20-OC1
2
3
B02B
17
LVDS
TRANSMITTER
74
PCI-REQ-USB20
PCI-GNT-USB20
E22
E20
DV-CLK
AK17
10
ONLY FOR SETS WITH 1080P DISPLAY
1209
TO 1303 3
SP
SI
12V SW
PANEL
KEYBOARD CONTROL
KEYB
ON / OFF
STANDBY
9
51
31
39
MUTE
HC01
(AUDIO)
RST 1
2
3
32
IN
J1
2
AB4
SUPPLY-FAULT
AB3
DETECT2 (P2.5)
W1
B10A
DETECT1
AB2
B07C
HP-DETECT (P0.0)
U5
B04E
RESET-SYTEM
AC3
AV1-BLK
W4
3H41
35
B07A
B07A
CONTROL
B07A
2
B07A
B07D
J3
N.C.
Q2
U1
+3.3V
+3.3V
+5V
IR
+5V
7P12
CEC-HDMI
Q1
+5V
+3.3V
AA3
GND
HC01 iBOARD
J2
D2
RESET-STBY
B02A
7207
R12
AA4
B08B
10
28
D1
EA
LIGHT_SENSOR
1109
9
9
7
7
LED1
6
6
LED2
4
4
5
5
8
8
3
3
2
2
1
1
1110
N.C.
KEYBOARD
LED1_OUT
LED2_OUT
RC_IR
3H08
RESET-STBY
B10A CLASS D
40
R11
Y2
+12VD
1
IR/LED PANEL
R3
52
25
VOLUME +
VOLUME MENU
Y1
ALE
+3V3-STANDBY
7HD0
NCP303LSN
MCU
CTRL_12VPBS
CHANNEL +
CHANNEL -
J
34
PSEN
3H07
+3V3-STANDBY
7
7
6
6
LED2
4
4
5
5
8
8
3
3
1
AV2-BLK
AC2
AF2
AV2-STATUS
AF1
BOLT-ON-IO_RESETSTI7100 (P2.0)
AF1
KEYBOARD
AF4
LED1
LED2
+5V
RC
RESET-NVM_WP-NANDFLASH
U4
AC1
SDM
9H01
SPI-PROG
9H08
AA1
9H0D
RC_uP
LIGHT-SENSOR
1
AE2
EEPROM
(8Kx8)
B08C DIGI I/O: HDMI MUX
SPI-PROG
CTRL1-STBY_LAMP-ON
V5
LAMP-ON-OUT
7P70
AD8197A-ASTZ
B02B
AG1
HDMI
SWITCH
7H02
M25P05-AVMN6P
AG2
SPI-CLK
6
AE4
SPI-WP
3
AE3
AD4
AE1
SPI-CSB
SPI-SDO
SPI-SDI
1
5
2
512K
FLASH
W3
STANDBY (P2.3)
U2
REGIMBEAU_CVBS-SWITCH (P0.3)
U1
ENABLE-3V3 (P0.4)
U3
ENABLE-1V2 (P0.2)
V3
UART-SWITCH (P0.7)
V4
AUDIO-RESET (P0.6)
W2
AUDIO-MUTE-UP (P2.4)
AA2
AF3
8
SDM
AD2
+3V3-STANDBY
7HC3
M24C64-WDW6P
7HC4
AD1
AV1-STATUS
1D10
9
LED1
IR_IN_TV
B04A STANDBY CONTROLLER
27M
E
9
STANDBY
AV1-STATUS
B04A PNX 8541: STANDBY CONTROLLER
3H06
7209
UPSD3354DV
3HD3
B03D B04A
B04D PNX 8541: MISCELLANEOUS
1205
8
B04E
24M
1R08
BOLT0ON-IO_
8
RESET-STI7100
B03E
B04A
HC02 iBOARD
1203
B07D ANALOG I/O: BOLT-ON
B04C PNX 8541: NVM
RESET-SYSTEM
1H00
USB 2.0
CONNECTOR
SIDE
44
B04E
RESET-SYSEM
B02B B04B B07D
B04B B07A
B02A B02C B04B
B02A B02C B04B
B04B B04C
B04M
AUDIO-MUTE
B10A
18680_406_090813.eps
091203
2009-Dec-04
Block Diagrams
Q522.1HE LA
9.
EN 74
I2C IC Overview
I²C
PNX8541: CONTROL_MIPS
B08C
7H00
PNX8541E
DIGI I/O: HDMI MUX
B08B
B03B
CHANNEL DECODER DVB-T
B03A
MAIN TUNER
B03C
CHANNEL DECODER DVB-C
B03D
STI7101: CONTROL
SDA-SSB
PCI XIO
ERR
26
7P31
M24C02
EEPROM
EEPROM
EEPROM
FLASH
EPROM
8Mx8
4Mx16
I2C2-SCL
SCL1
SCL-UP-MIPS
AK28
SDA2
3HPG
SDA-UP-MIPS
AK29
SCL2
3HPF
SCL-UP-MIPS
AK27
B04A
B04A
SCL-I2C4-DISP
3G53
2
+3V3-PER
1
B03A
SDA-SSB-MUX2
9T62
SCL-SSB-MUX2
9T65
ERR
12
7
3H02
I2C uP-SCL AG4
3H38-1
HC02
IBOARD
DDC_5V
7101
M24C02
7209
ST3232C
MAIN
TUNER
5
EEPROM
256x8
SDA-UP-MIPS
TXD0
11
RXD0
12
6
CONTROL
7HC3
M24C64
RESET-NVM_WP-NANDFLASH
B07D
8
TXD
2
TXD-UP
9
TXD
E27
RXD-MIPS
3
D28
TXD-MIPS
10
B04O
VID_OUT
TTL
B0_UART
B1_UART
6
LEDIN_CLK_TXD_SCL1
1
IR-IN_DTA_IN_RXD_SDA1
2
SI
RJ12
SDA3_IR_OUT
1207
9
LEDIN_CLK_TXD_SCL1
1
SYSTEM INTERFACE
1102
1101
9
SDA_I2C
1
TVCLK_SCL_TXD
14 INTEGRATED
TVCLK_SCL_TXD
7
15
2
SCL1
1
RXD
9
8
TXD
10
1208
2
TO
CLOCK
3 (OPTIONAL)
3275
SDA1
5
7E17
ST3232C
4
6
7214
M24C64
R2-OUT
EEPROM
4Kx8
T2-IN
RS232
INTERFACE
R2-IN 8
3J11
7
3J12
T2-OUT
B04O
11
3274
3H60
3H58
5
RXD-UP
11
RXD
5
RXD232
RXD0
7HC0
74HC4066PW
+3V3-STANDBY
AC5
TXD232
13
+3V3_STANDBY
ANALOG I/O: BOLT-ON
UART-SWITCH
AB1
14
CARD SLOT
24 TXD0
7HC1
RXD
RS232
42 SDA3
EEPROM
(MAIN NVM)
7HC4
P0.7
VGA
CONNECTOR
1107
RJ48
3276
512K
FLASH
V3
15
1202
3277
5
U4
12
SCL_VGA
7205
7206
SCL-UP-MIPS
P0.1
SDA_VGA
7107
ST202ECDR
7H02
M25P05
STANDBY
CONTROL
1101
6
MICRO
PROCESSOR
ERR
34
IBOARD
30
1T04
TD1716F/BHXP
+3V3-STANDBY
3H38-2
29
6
HC01
IBOARD
PNX8541: NVM
PNX8541: STANDBY CONTROLLER
I2C uP-SDA AH3
3A44
MAIN TUNER
HC02
8
B04C
LVDS
CONNECTOR
TO DISPLAY
1R08
CG02
10
SDA-UP-MIPS
1
SCL-SSB-MUX1
3132
I2C2-SDA
3HPE
3HPD
3G52
3T36
I2C1-SCL
SDA1
AH27
SDA-I2C4-DISP
ERR
24
7
I2C1SDA
CG01
3264
SCL-SSB
SDA-SSB-MUX1
ERR
11
2
3HPZ
SDA-SSB
ANALOGUE I/O: BOLT-ON
1G50
5
3HPC
DDR2
SDRAM
8Mx16x4
DDR2-A
EMI-A(1-22)
Only for DVB-C
B07D
PACIFIC 3: LVDS
3241
2 CHANNEL
I2C
MULTIPLEXER
B06A
EMI-D(0-15)
3ECV
4
7HG1
EDE5116AJBG
DDR2-D
PACIFIC 3: DISPLAY-INTERFACING
3T35
DDR
3HPY
7HP5
PCA9540BDP
7HG0
EDE5116AJBG
B04G
B06B
3HPX
+3V3-PER
PNX8541: DDR2
LMI-A
STI7101:
FLASH
7A50
M29W640FT70N6
HDMI 3 CONNECTOR IS OPTIONAL
(HDMI 3 or MPEG4)
B04G
DDR
SDRAM
16Mx16
DIGITAL
INTERFACE
B03E
6
7P44
M24C02
LMI-D
HDMI 2
BACK
3x HDMI
CONNECTOR
7P36
M24C02
3A45
3TB8
3T56
3T57
3T28
3T26
3P3D
3P46
3P3B
5
ERR
37
7AA2
EDD2516A
15
PCI-AD<>NAND-AD
NAND
FLASH
(512x8)
6
CHANNEL
RECEIVER
3ECU
7HA0
NAND512W3A
5
6
15
IF
PROCESSING
AJ30
7A00
ST-7101BWC
5
5
CRX-DDC-SDA
CRX-DDC-SCL
CHANNEL
RECEIVER
AJ31
7AA1
EDD2516A
6
PNX8541: FLASH
B04F
3P44
3P3F
7TA4
TDA10023HT
5
PCRX-DDC-SCL
15
1P33
16
7T57
TDA9898HL
1205
6
PCRX-DDC-SDA
86
BRX-DDC-SCL
HDMI 1
BACK
7T17
TDA10048HN
STI7101:
DDR1
5
B04Q
85
3P3G
BRX-DDC-SDA
HDMI
SIDE
B03F
17
1
ERR
53
PBRX-DDC-SCL
94
3P3S
PNX8541
3P48
15
1P32
16
18
6
ERR
23
3P4C
PBRX-DDC-SDA
93
ARX-DDC-SCL
24
11
90
3P3Y
23
35
3131
DDC-SCL
PARX-DDC-SCL
1
2
DDC-SCL
99
ARX-DDC-SDA
19
18
C9
DDC-SDA
HDMI
MUX
89
3P3Z
34
1P35
16
3P3C
DDC-SDA
PARX-DDC-SDA
3P3A
E10
98
3P40
7P70
AD8197A
PNX8541: DIGITAL VIDEO IN
B04H
HDMI
49
3P43
B04H
50
CIN-5V
BIN-5V
AIN-5V
3P3V
ERR
03
3TB7
SCL-SSB
3P3U
3HPH
3P3T
3HPJ
SCL3
3HPK
SDA3
AJ28
3HPM
AJ27
3P76
I2C3-SCL
3P79
I2C3-SDA
ERR
05
DIGI I/O: HDMI CONNECTORS + DVI AUDIO INPUTS
+3V3-PER
3H03
B04E
1E06
3
UART
SERVICE
CONNECTOR
2
PNX8541: DIGITAL VIDEO OUT / LVDS
AF15
9HWH
DV-B0_UART2-RX
12 R1-OUT
AK16
9HWG
DV-B1_UART2-TX
11
1E50
3
T1-IN
UART
LEVEL ADAPTER
2
1
UART
FOR
FACTORY
USE ONLY
18680_407_090813.eps
090825
2009-Dec-04
Block Diagrams
Q522.1HE LA
9.
EN 75
Supply Lines Overview
SUPPLY LINES OVERVIEW
DC / DC 2V5_1V
B02C
1U02
5U51
BL-ON
MAIN BL-DIM
POWER SUPPLY
BOOST
3
B04A
7U0L
NCP5422
7U0H-1
15
12V/5V
CONVERSION
1
4
4
5
5
LAMP-ON-OUT
6
6
BACKLIGHT-OUT
Dual
7U0H-2
Out-of-Phase
Synchronous
2
Buck Controller
B04A
B03a,
B04a,l,B06b,
B07a,d,B08a,
c,B09a,B10a
B02a
B02c
B02a
B02b
7
7
BACKLIGHT-BOOST
7U0D-1
N.C.
12V/1V4
CONVERSION
8
7U0D-2
8
15
3.3VSB
1M95
1
+3V3-STANDBY
7U0N
VOLT.
REG.
PSON
SGND1
SGND1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
+1V2-STANDBY
7U0M
12V
12V
STANDBY
+2V5
+12VD
+12VD
+5V
B02c
B04A
B07d
+5V
+5V-TUN
5T53
5U52
B03B
+12V
7U0R
+2V5-REF
VOLT.
REG.
T3A
11
11
B02b
+3V3-STANDBY
+3V3-STANDBY
+1V2-STANDBY
+1V2-STANDBY
+5V
B02c
B02a
B02a
+3V3-STANDBY
5HYA
+3V3-PER
5HK3
RREF-PNX8535
5HY1
VDDA-LVDS
+12V
5001 14
5003
Dual Non- 3
1 Synchronous
5004
Converter 12
B04o
VDDA-DAC
5
+5V
3
+3V3
B08A
B02a
B05a
CHANNEL DECODER DVB-T
B04c
HC01
+3V3
TO 1D10
B10A
SSB
DIGI I/O: USB CONNECTOR + CONTROLLER
+3V3
+3V3
+5V
+5V
+5VSSB
5T08
AUDIO-ADC
+5VSSB
+VCC-LM
B04Q
+3V3-PER
+3V3
+3V3
5T09
+1V2DVB
B05A
+3V3-STANDBY
5CD1
PNX8541: CONTROL_MIPS
B06b
+3V3-PER
+12VD
3CD8
B02a
B04F
B02a
1P32
18
1P33
18
HDMI 3
CONNECTOR
+2V5-REF
1P34*
18
AIN-5V
3CD7
3CD0
+1V8-PNX8541
+3V3-STANDBY
B02b
+3V3-PER
1101
9
3101 6101 5101
DDC_+5V
+12V
+12V
+5VB
+5VB
+5VA
+5VA
1107
1
+12VA
HC02
HC02
CIN-5V
RJ45
IBOARD
1209
1
TO CN8
A
SUPPLY
DIN-5V
+12V
1211
HC01
+12VA
HC01
+5V-CON
1A85
B08c
+3V3-STANDBY
B04P
7TA1
TO
IR/LED
BIN-5V
7C00-2
PNX8541: CONTROL_PCI
+3V3-PER
+3V3
HDMI 2
CONNECTOR
1P35
18
+V-LM833
+2V5-REF
CHANNEL DECODER DVB-C
HDMI 1
CONNECTOR
VDISP
+12VD
+1V2-PNX8541
+3V3-PER
B04P
+3V3
+3V3-D
VDISP
+1V2-PNX8541
B02a
HC02
HC02
HDMI SIDE
CONNECTOR
+3V3
B02a
B04i,B10a
B03C
B08B
DIGI I/O: HDMI CONNECTORS +
DVI AUDIO INPUTS
DUAL LVDS
+3V3
B02b
B04i,B10a
+3V3-NAND
HC02
+3V3-STANDBY
+5V-TUN
+5V-TUN
-AUDIO-POWER
VGA
CONNECTOR
+3V3
5HA0
PNX8541: MISCELANEOUS
+1V2-PNX8541
B02a
5
PNX8541: FLASH
B02a
B04E
1109
8
+3V3-EXT
B03b
+3V3DVB
HC02
+3V3_STANDBY
5
+3V3_STANDBY
+3V3
B02a
5005 +3V3
IBOARD
PNX8541: NVM
+3V3
B02b
5002 +5V
3V3-EXT
1110
8
B04h
VDDA-AUDIO
5HY4
1E50
4
B04c,e,f,k,n
B02a
B02l
TO 1100
SI
SI
TO
5 CLOCK
14
+5V
FACTORY
USE ONLY
+3V3
PNX8541: DEBUG
+AUDIO-POWER
10
B02a
+1V2-PNX8541
V1
+1V2-PNX8541
10
DUAL DC CONVERTER
7U0A
TPS54383PWP
1R06
6
1
+1V2-PNX8541
+5V
+3V3-PER
B04P
B02a
B04D
1U01
9
DC
1001
1
+3V3-STANDBY
PNX8541: POWER
+3V3
+3V3-EXT
MAIN TUNER
5T63
9
+3V3
+3V3-STANDBY
B02b
B04P
5HY7
B03A
+12VA
1207
6
*(Optional)
TO 1101
SI
SI
14
+1V8DVB
IN OUT
COM
+12VF
+12VF
3U42
5U08
6U0B
B04G
+3V3-10023
7TA2
B02a
B06A
PNX8541: DDR2
7TA3
+1V8DVB
+3V3F
B02a
+3V3F
B03D
+3V3F
B02a
+2V5
7U71
+2V5
+2V5
5A10
B03d,f,h,B04a
B04H
B03E
B04I
PNX8541: AUDIO
+AUDIO-POWER
STI701: DDR1
+2V5
+12V
+12VF
7UA0
NCP5422
7U08
14]0
1
Dual
7U02
Out-of-Phase
Synchronous
2
Buck Controller
B02b,c
12V/3V3
COVERTER
5U01
+3V3
5U03
+3V3F
B03b,c,d,e,h,i,
B04a,c,l,m,p,q,
B05a,c,d,B06b,c,
B07a,d,B08a,c,
B09a,b,B10a
LMI-VREF
3AAA
LMI-VREF-ST
LMI-VREF2-ST
B03H
STI701: AV-INTERFACE
B06C
+2V5
5AE4
VDDE-2V5
5AE7
+2V5-CLKGENA
+3V3
3N09
PCMCIA-VCC-VPP
+5V
B09B
+3V3-P3
B02a
+5V
5GE0
+2V5-P3
5GE1
+2V5-PLL
+3V3TMDS
5GE3
+1V5-P3
5GE4
+1V5-PLL
+3V3AN
5NA2
+3V3DN
B04P
B10A
5GE5
+1V5-TX
B02a
5AE0
VDDE-3V3
5GE6
+1V5-RX
B02b
B02b
+3V3-STANDBY
B07A
+3V3
+3V3
+3V3
+5V
+5V
B02a
ANALOGUE I/O: SCART 1 & 2
PNX8541: VIDEO STREAMS
B02b
B07B
+3V3-PER
+3V3
B02a
2V5-LMI
10
INTEGRATED
CARD SLOT
+12V
3
+3.3V
5
+5V
+AUDIO-POWER
3D19
+12VD
-AUDIO-POWER
ANALOGUE I/O: YPBPR AUDIO OUT
+3V3
VDDA
(12V2)
VDD
(12V2)
-AUDIO-POWER
3D15
VSSA
(-12V2)
VSS
(-12V2)
5D10
B02c
B03f
1
+5V
+3V3
+AUDIO-POWER
5D15
B02c
+3V3-PER
3
+3.3V
CLASS D
+3V3
PNX8541: AUDIO
+3V3
1100
1
TO 1001
DC
DC/DC
1102
16
+1V5
IN OUT
COM
+3V3
+3V3-STANDBY
B04N
+3V3STBY
+3V3
5NA1
5D11
B03g
+12V
+3V3STBY
14
7GE5
+5V
+3V3
5AE2
TO 1207
HC02
IBOARD
DIGI I/O: ETHERNET
+3V3
+2V5-PF
IN OUT
COM
PNX8541: AUDIO
+3V3
B02a
TO
CLOCK
SYSTEM INTERFACE
1101
6
+3V3
+3V3-PER
B04P
2V5-LMI
PACIFIC 3
5GE2
VDDA-AUDIO
SENCE+1V
B02a
+3V3_BUF
+12V
7HQ0
B04M
SI
+3V3
5N01
5D14
+2V5
1V2-STANDBY
B02c
7GE3
+5V
+1VTMDS
5
DIGI IO: PCMCIA INTERFACE & BUFFER
+3V3
+1V
5AE8
B02b,B03b,
B04a,e,p
B09A
+T
B04P
B02c
+5VSSB
+5VSSB
HC01
B02c
AUDIO-VEE
+3V3-PER
B02b
1V2-STANDBY
+5V
STI701: POWER
15
B02b
+3V3
+5V
PNX8541: ANALOGUE AV
+3V3TMDS
+1V
B02b
B02b
+3V3
B02a
B04K
1208
1
5207
+5V
B05aB06a
+3V3-STANDBY
+3V3
B04L
B03G
AUDIO-VDD
B03h
B02a
12V/1V2
COVERTER
5U00 +1V2-PNX8541
B02b
IN OUT
COM
7U05
7U06
3AAN
+3V3TMDS
B03h
16
+2V5-LMI
3AAR
+5V-MUX
-AUDIO-POWER
5HM1
+2V5
5AA0
HC01
HC01
+5V-CON
+5V
B02c
7G55
CTRL1-MIPS_LCD-PWR-ON
+AUDIO-POWER
-AUDIO-POWER
B02b
5U02
VDISP
+5V
5202 +5VB
B08b
B02a
+3V3
DC/DC 3V3_1V2
+12V
5G55
B02a
B02b
+3V3-ANA
5P76
RREF-PNX8535
5HM0
B02b
+12VD
+3V3-STANDBY
B02a
B03F
5P75
16
5
DC/DC
CONVERTER
5203 +5VA
B02b
STI701: FLASH
+3V3
+3V3-DIG
PNX8541: DIGITAL VIDEO IN
RREF-PNX8535
B02b
B02A
+12VD
5206 7
5P74
+5V-CON
B04P
B03h
7U70-2
+2V5-REF
DDR2-VREF-DDR
+3V3_STANDBY
7229
TPS60111PWP
+3V3
PACIFIC 3: DISPLAY-INTERFACING
7G54
+1V2-PNX8541
+1V
+3V3
B02a
1205
4
TO 1R08
B07D
SSB
+8V2-PAS
B02a
7U72
3HJ3
B06B
V_LVC04
B02a
+1V2-PNX8541
DDR2-VREF-CTRL
+3V3
+3V3
7U70-1
+2V5-REF
3HJ1
STI701: CONTROL
B02b
1G50
41
DIGI I/O: HDMI MUX
+1V8-PNX8541
B05d
(RESERVED)
VDISP
+3V3F
+1V8-PNX8541
VSW
B08C
PACIFIC 3: LVDS
VDISP
B06b
+33VTUN
7U0P
3U70
-12VA
+3V3
+2V5
B04C
B03a
SGND2
+3V3
B04B
TO 1205
HC02
IBOARD
B02a
3U60
12VA
+3V3-STANDBY
+3V3-STANDBY
B02b
1R08
4
+3V3
B02a
B02c
SGND1
12V
+1V4-PNX5050
VDDA-AUDIO
SENCE+1V4-PNX5050
SENCE+1V4-PNX5050
B05d
B04b,d,m,B07d
B08b,B10a
+1V2-PNX8541
+1V4-PNX5050
5U04 +1V4-PNX5050
B04a,B05d
CN6
1
+1V2-PNX8541
+5V
B02c
ANALOGUE I/O: BOLT-ON
PNX8541: STANDBY CONTROLLER
+3V3-STANDBY
B02b
B02b
B06B
16
SGND1
+5V
5U05
VDDA-LVDS
VDDA-LVDS
B04P
+12VFF
9U82
B04a,B06b,
B07b
B07D
PNX8541: DIGITAL VIDEO OUT / LVDS
+3V3
6P63
SGND1
3
B04O
STI701: DEBUG
+3V3
B02a
6P66
12V
SGND1
2
+12VF
B02a
+12VD
T3A
2
B03I
DC/DC 5V_1V4
+12VF
1M99
1
6P64
12V
CN7
1
6P65
B02B
SUPPLY
3U3T
A
+3V3-STANDBY
+3V3-STANDBY
+5V
+5V
5D16
1D10
5
8
TO 1110
HC01
IBOARD
+12VD
B02c
18680_408_090813.eps
090817
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 76
9
10
10. Circuit Diagrams and PWB Lats
SSB: DC / DC 3V3 1V2
3
2
1
4
6
5
7
8
13
12
11
14
16
15
17
18
20
19
A
A
2U00 D5
2U01 E7
2U02 E6
2U03 B8
2U04 C6
2U05 B8
2U06 B9
B
2U07 D9
2U08 E8
2U09 D8
2U0A C4
2U0B G2
2U0C C2
2U0D G2
2U0E G2
2U0F A5
2U0G B4
2U0H B8
2U0J E8
2U0K E8
2U0M B7
1
C
2U0W A5
2U0Y A11
2U0Z B9
2U10 D12
2U11 D13
2U12 C8
2U13 B6
2U0N A2
2U0P G9
2U0R D9
2U0S C3
2U0T D9
2U0U D9
2U0V D9
3U03 B8
3U04 C8
3U05 C5
3U06 C6
3U07 D8
3U08 E8
3U09 F8
2U14 A11
2U15 B13
2U16 D12
2U17 D13
3U00 D5
3U01 D6
3U02 E7
2
3U0H C4
3U0J B8
3U0K D8
3U0M C6
3U0N B5
3U0P B5
3U0R B6
3U0A F9
3U0B D3
3U0C D3
3U0D D2
3U0E D1
3U0F G1
3U0G G1
3
4
3U0S B3
3U0T A3
3U0U A3
3U0V B2
3U0W B2
3U0Y E10
3U0Z D11
3U10 E11
3U11 E11
3U12 D11
3U13 D11
3U14 C6
3U15 C7
3U16 D7
6
5
3U1N B5
3U1P C6
3U1R B6
3U1S B5
3U1T B6
3U1U D4
3U1V D2
3U1E D7
3U1F E7
3U1G B3
3U1H B3
3U1J F14
3U1K E7
3U1M B8
3U17 D6
3U18 E2
3U19 E4
3U1A D4
3U1B E5
3U1C G9
3U1D F11
3U70 A4
3U71 B5
3U72 B5
3U73 B6
3U74 D8
3U75 E9
3U76 D9
7
3U77 B1
5U00 D8
5U01 B8
5U02 A11
5U03 D12
6U00 D6
6U01 E7
6U02 B3
6U03 F7
6U04 E5
7U00-1 B3
7U00-2 A2
7U01-1 E3
7U01-2 E4
8
7U02 B6
7U03 E7
7U04-1 D4
7U04-2 C2
7U05 B7
7U06 C6
7U07-1 D11
9
FU00 B8
FU01 C10
FU02 G12
FU03 E4
FU04 C6
FU05 A7
FU06 E10
7U07-2 E10
7U08 A5
7U09 C3
7U0A B4
9U01 D3
9U02 B5
9U03 B6
10
11
IU0D D5
IU0E D5
IU0F C5
IU0G B5
IU0H C5
IU0K C6
IU0M C6
IU06 A4
IU07 E8
IU08 B8
IU09 A3
IU0A D11
IU0B G9
IU0C E2
FU0E D12
IU00 E7
IU01 B8
IU02 C8
IU03 E7
IU04 D8
IU05 E8
FU07 B4
FU08 B3
FU09 D6
FU0A D7
FU0B D9
FU0C D11
FU0D E7
12
IU0N B7
IU0P B5
IU0R A6
IU0S C4
IU0T C4
IU0U C4
IU0V C4
IU0W C4
IU0Y D3
IU0Z E5
IU10 D2
IU11 B2
IU12 A2
IU13 B 3
13
IU1F D11
IU1G F14
IU1H D4
IU1K C6
IU1M C6
IU1N C6
IU1P A 5
IU14 B3
IU15 E11
IU16 E4
IU19 G3
IU1B C8
IU1D E9
IU1E E8
14
IU1R C2
IU1S D6
IU1T A12
B
15
C
DC / DC 3V3_1V2
D
D
+12VF
IU1T
5U02
22u
22u
2U0Y
RES 2U14
2U15
2U17
RES
2U16
100R
330u 6.3V
I
+3V3F
2U11
100u 4V
2U10
10u
1K0
3U13
3U12
1u0
2U09
3n3
2U0R
6K8
22R
3U07
1% 120R
3U75
3U74
IU0A
D
FU0E
5U03
10K
5
IU15
3U11
J
E
3K3
3U10
7U07-2
BC847BS
4
FU0D
1% 1K0
3U0A
RES 3U09
PDZ18-B
BOOSTER
6U03
1
7U03
BC817-25W
2
K
100n
2U0J
2U0K
470R
3
2
7U07-1
BC847BS
1
3U0Y FU063
470R
IU03
6
10K
330u 6.3V
RES
3U76
47u
10R
2U0V
2U0U RES
22u
3U0Z FU0C
IU1D
IU05
IU1E
3U02
12V UNDER-VOLTAGE DETECTION
220u 25V
22u
22u
2U0Z
2U07
*
IU04
3U08
6U01
100n
3U1K
BAS316
3
2U01
IU00
1n0
+12VF
1n0
IU07
68R
IU0Z
1K0
2U08
68R
3U1F
22R
3U0K
3U1E
3U1B
6U04
3U19
E
IU1S
1u0
IU16
IU0C
5 FU03
2U02
4
BC857BS
7U01-2
6U00
PDZ9.1-B
2
BAS316
100K
6
10K
22u
5U00
H
+1V2-PNX8541
IU1F
10u
1K0
1
BC857BS
7U01-1
3U18
2U05
100n
2U03
1K0
FU0A
22u
6K8
2U0T RES
1K0
3K3
GND-SIG
GND-SIG GND-SIG GND-SIG
3U1U
IU1H
GND-SIG
FU01
FU0B
3U16
3U00
3U1A
GND-SIG
3n3
2U06
6K8
22R
3U03
3U0J
22R
3U1M
3U04
22R
1n0
4R7
4R7
3U72
3U1T
2U0H
12V/1V2 CONVERSION
FU09
3U01
IU0E
330R
owner.
1n0
2U12
6K8
2K2
22u
6K8
RES
3U0B
GND-SIG
G
C
3U15
6K8
GND
39K
100n
3U0H
2U0A
1 2 3
SI4800BDY
FU04
3U05
3
7U04-1
BC847BS
1
+1V2-STANDBY
K
3U1D 1%
+1V2-PNX8541
GND-SIG
F
1K0
GND-SIG
3U1J
IU1G
F
SENSE+1V2-PNX8541
120R 1%
ENABLE-3V3
PROT-DC
L
L
ENABLE-1V2
FU02
IU19
470n
RES 2U0P
2U0D
G
G
GND-SIG
GND-SIG
M
100n
2U0E
4K7
3U0G
100p
3U0F
M
RES
3U1C
22K
100p
2U0B
IU0B
1% 470R
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
IU0K
IU0D
I
J
IU0F
F
IU02
IU1B
3K3
12
11
B
5 6 78
4
1K0
*
D
4R7
3U06
3n3
4K7
10K
2
+2
-2
2U00
33K
4
6
IU0Y
22K
100n
RES 3U0C
ROSC
IU1N
9U01
33K
3U0D
*
7U04-2
BC847BS 3
5
IS
13
+1V2-PNX8541
2
3K3
GND-SIG
IU10
IU0W
RES
2U0S
2
IU1M
5
6
+1
-1
COMP
9
1
RES
3U1V
3U0E
100n
2U0C
H
IU1R
1
IU0U
IU0V
3
15
3U0M
3K3
8
RES
7U09
* BC847BW
2U0M
IU0M
7U06
4R7
IU1K
3U14
L2
16
IU08
10R
10R
IU01
1 2 3
RES 3U0R
3U1P
3U17
IU0T
C
H2
GATE
RES 3U1R
100n
VFB
2
IU0H
5 6 7 8 7U05
SI4800BDY
4
9U03
22R
1
IU0G
2U04
G
2
L1
10
7U02
1 2 3 SI4800BDY
1
H1
GATE
IU0S
10u
IU0N
BST
7
4
+3V3
5U01
FU00
3U73
4
3n3
14
Φ
E
VSW
100n
10K
10K
7U0A
NCP5422ADR2G
12V/3V3 CONVERSION
2U13
A
10u
5 6 7 8
IU0P
GND-SIG
FU07
IU0R
10R
RES
3U1S
10R
9U02
3U0P
7U00-1
BC847BPN
1
10K
3U0N 22R
3V3
3U1N
100R
SUPPLY-FAULT
5 6 7 8
SI4800BDY
1 2 3
4
RES 3U71
VCC
FU08
22K
3U0S
3U1H
IU14
3U1G
B
IU11 0V
2
3U77
3U0W
F
AUDIO-PROT
10K
3U0V
BAS316
6
IU1P
22R
IU13
22u
2U0W
3U70
IU06
22K
6U02
3
10R
RES 2U0F
3U0U
5
IU09
IU12
1u0
E
2U0G
4
BC847BPN
7U00-2
22K
2U0N
100n
RES 3U0T
FU05
7U08
100u 4V
A
+12V
GND-SIG
N
N
1
2
3
5
4
6
7
8
9
10
12
11
13
14
15
O
O
CHN
1X08
EMC REF HOLE
DC320600
SETNAME
CLASS_NO
TV522
3PC332
P
" XU00 ~ XU1Z "
1
2
3
4
5
6
7
8
9
10
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14381
11
12
14
13
-- -- --
1
-- -- --
2
2008-03-17
3
SV
CHECK
15
DATE
16
2008-03-17
130
10
C
17
1
2008-03-17
P
42
SUPERS.
2008-09-05
3139 123 6423.2
PCB SB SSB TV522/22M-1080P_2
NAME Kailash
2
1
A2
ROYAL PHILIPS ELECTRONICS N.V. 2008
18
19
20
18680_500_090827.eps
090827
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 77
SSB: DC / DC +2V5 +1V
1
2
3
1
4
3
2
5
4
6
7
6
5
8
9
9
8
7
10
B
2
4
2U64
3U41
330p
IU3H
22R
7U71
PHD38N02LT
IU3U
1n0
68K
+1V2-PNX8541
8
IU3K
IU3M
6
3
C
7U70-2 IU3N
LM833 7
5
A
10K
3U4B
7U72
PHD38N02LT
IU3V
9U55
68K
1
RES
3U46
4K7
3U3W
*
1n0
NC
K
IU35
4
150R
1K0
1u0
1u0
3K3
2U50
K
A
3U54
G
1K0
F
*
3U42
RESERVED
+3V3-Standby stabilizer
H
100K
1u0
3U43
2U2A
68R
68R
3U47
7U0Q
BC847BW
IU37
IU39
220p
33p
2U28
2U27
2
10K
3U53
2K2
3U40
7U0P
BSH112
1
R
7U50
TS2431
3
33K
3U45 RES
220n
3U44 RES
RES
2U2B RES
BZX384-C27
220n
6U0C
2U29
220u
5U08
3
1K0
3U3Y
*
IU3R
2
+33VTUN
+12VF
IU36
3U3Z
*
33K
100n
RES
2U23
100n
RES
2U22
RES
2U72
100n
FU1G
IU38
1
2
3
4
5
E
1
VSW
+12VD
F
7U51
BC847BW
2K2
IU3B
1M96
IU3T
IU3S
-AUDIO-POWER
F
I
RES
+5V-TCON
CHN
DC320600
TV522
3PC332
FOR +5V-TCON (PAC3)
J
3
2
3
4
4
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14381
7
5
6
5
6
7
2009-Dec-04
-- -- --
1
-- -- --
2
2008-03-17
3
SUPERS.
CHECK
DATE
8
10
9
2008-09-05
1
2008-03-17
J
130
2
A3
ROYAL PHILIPS ELECTRONICS N.V. 2008
C
9
8
10
42
2008-03-17
2
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Wang Bing Bing
SV
G
SETNAME
CLASS_NO
1735446-5
2
3U51
3U52
BAS316
1
3U50
150R
+12V
3U3V
6U0B
I
2U70
22n
2
5
H
D
+1V2-STANDBY
+3V3-STANDBY
GNDSND
1-1735446-1
G
E
FU1F
2U26
2U57
2U25
SENSE+1V
1K0
7U0M
BC847BW
2
7U0N
TS431AILT
+AUDIO-POWER
1n0
3U69
3
1
REF
120R
2U67
4K7
1u0
1n0
2U56
5U52
1K0
3
+12V
3.0A T 3A 452
IU3C
3U4A
NC
E
1U01
STANDBY
A
F
1u0
2U24
1n0
2U55
FU1A
FU1B
FU20
FU23
FU1C
FU22
FU21
FU1D
FU10
FU11
FU12
1
2
3
4
5
6
7
8
9
10
11
68R
330p
IU3P
3U68
IU34
3U58
+1V
2U66
+3V3-STANDBY
E
D
FU29
22R
1u0
2U71
RES 3U55
2
FOR ANALOG
BACKLIGHT
DIMMING
+3V3-STANDBY
1
2U68
22K
3U67
100n
2U63
+VCC-LM
4
1M95
C
R
100p
100p
2U53
2U54
100p
100p
3U64
7U0R
TS2431
+2V5
4K7
1K0
FU27
B
FU28
2U65
3U66
+2V5-REF
1
+3V3
2U51
2U52
D
LAMP-ON-OUT
BACKLIGHT-OUT
BACKLIGHT-BOOST
3U65
2K2
68R
68R
2K2
3U56
3U57
FU16
FU17
FU18
FU15
3U49
3U48
FU14
10K
3U62
+12V
120R
6K8
+12VD
3.0A
1735446-8
owner.
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
C
FU19
5U51
1U02
K
1
2
3
4
5
6
7
8
FU13
3U63
T 3A 452
1M99
1u0
2U62
100n
2U60
10R
7U70-1 IU3G
LM833 1
3
IU3F
1K0
100n
B
B
A
+3V3F
8
IU3E
3U61
+2V5-REF
1u0
2U69
IU3D
+VCC-LM
H
13
+VCC-LM
3U60
G
12
11
A
DC / DC 2V5_1V
D
12
A
A
C
11
10
11
10
12
11
13
12
H
1M95 D2
1M96 G2
1M99 B2
1U01 E3
1U02 B3
2U22 E3
2U23 E3
2U24 D5
2U25 D7
2U26 E7
2U27 G5
2U28 G6
2U29 F6
2U2A F6
2U2B F7
2U50 F10
2U51 C3
2U52 C3
2U53 C3
2U54 C3
2U55 D3
2U56 E3
2U57 E4
2U60 B6
2U62 B8
2U63 C8
2U64 B9
2U65 B9
2U66 C9
2U67 D9
2U68 B10
2U69 B11
2U70 D10
2U71 D11
2U72 E3
3U3V E7
3U3W D6
3U3Y G5
3U3Z G5
3U40 G6
3U41 B10
3U42 F7
3U43 F7
3U44 F7
3U45 F8
3U46 D7
3U47 G6
3U48 B6
3U49 B6
3U4A D6
3U4B C10
3U50 E9
3U51 E9
3U52 E9
3U53 E10
3U54 F9
3U55 C4
3U56 C3
3U57 C3
3U58 D3
3U60 B6
3U61 B8
3U62 B7
3U63 B8
3U64 C7
3U65 B9
3U66 B9
3U67 C9
3U68 D9
3U69 D9
5U08 F6
5U51 B3
5U52 E4
6U0B F6
6U0C F6
7U0M D7
7U0N E6
7U0P G5
7U0Q G7
7U0R C5
7U50 F9
7U51 E9
7U70-1 B9
7U70-2 C9
7U71 B10
7U72 C10
9U55 C4
FU10 E2
FU11 E2
FU12 E2
FU13 B2
FU14 B2
FU15 C2
FU16 C2
FU17 C2
FU18 C2
FU19 B2
FU1A D2
FU1B E2
FU1C E2
FU1D E2
FU1F D7
FU1G F7
FU20 E2
FU21 E2
FU22 E2
FU23 E2
FU27 C6
FU28 B11
FU29 C11
IU34 D6
IU35 E7
IU36 G4
IU37 G6
IU38 F6
IU39 G7
IU3B F6
IU3C D6
IU3D B6
IU3E B9
IU3F B9
IU3G B10
IU3H B9
IU3K C8
IU3M C9
IU3N C10
IU3P D9
IU3R E9
IU3S E9
IU3T E9
IU3U B10
IU3V C10
18680_501_090827.eps
090827
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 78
SSB: DC / DC 5V 1V4
1
2U80 C2
2U81 B4
2U82 D4
2U83 G2
2U84 G2
2U85 E6
A
B
4
3
2
2U8J B13
2U8K D9
2U8L D7
2U8M D9
2U8N G9
2U8P E8
2U8C B9
2U8D B9
2U8E A9
2U8F B13
2U8G D9
2U8H D9
2U86 D5
2U87 E7
2U88 C7
2U89 B6
2U8A A5
2U8B B8
1
5
2U8Q E8
2U8R E8
2U8S C6
2U8T G2
2U8U C8
2U8V C8
2U8W C8
2U8Y E9
2U8Z D8
3U1W D5
3U1Y D6
3U1Z E7
2
6
7
3U26 F8
3U27 F9
3U28 D3
3U29 D3
3U2A D2
3U2B D2
3U20 B8
3U21 C8
3U22 D6
3U23 C6
3U24 D8
3U25 E8
3
3U2C G1
3U2D G1
3U2E D4
3U2F E9
3U2G B8
3U2H D8
3U2J C6
3U2K B5
3U2N B5
3U2R A3
3U2U E11
3U2V D11
4
3U2W E11
3U2Y E12
3U2Z E11
3U30 D11
3U31 C6
3U32 C7
3U33 D7
3U34 D6
3U39 G9
3U3A F12
3U3B E6
3U3C E6
3U3K B5
3U3L C6
3U3M B5
3U3N D8
3U3P C6
3U3Q C6
3U3D B3
3U3E B3
3U3F D10
3U3G F13
3U3H E7
3U3J B8
6
5
11
10
9
8
3U3T A4
5U04 D8
5U05 B8
5U06 A10
5U09 A10
6U05 E6
7
13
12
7U0E F7
7U0G-1 D2
7U0G-2 D3
7U0H-1 A6
7U0H-2 B6
7U0I-1 D11
6U06 E7
6U07 B3
6U08 F7
6U09 F7
7U0D-1 B7
7U0D-2 C6
8
7U0I-2 E11
7U0L B4
9U81 D3
9U82 A10
9U83 A10
9U84 D4
9
11
IU28 B6
IU29 B5
IU2A A5
IU2C C4
IU2D C4
IU2E C4
18
IU2R E6
IU2T G3
IU2V C8
IU2Y E9
IU2Z E8
IU80 B3
IU2F C4
IU2G C4
IU2H D3
IU2J D2
IU2M B3
IU2P E11
IU81 B5
IU82 B8
IU83 B8
IU84 C8
IU85 E8
IU86 E8
13
12
20
19
IU87 E8
IU88 E7
IU89 F14
IU8A D11
IU8B G9
IU8C E7
IU8D D5
IU8E D5
14
A
B
15
9U82
+12VF
RES 5U09
220R
RES 5U06
A
2U8W
3U30
2
1n0
EMC
2U8J
H
IU8A
3U2Z
1% 120R
10K
FU82
3
5
7U0I-2
BC847BS
4
IU2P
E
3U2Y
I
3K3
1K0
1K0
470R
6
3U2W
3U25
6K8
470R
3U26
470R
3U1Z
10R
2U8M RES
1u0
2U8Z
6K8
3U2U
IU87
IU2Z
IU88
FU81
7U0I-1
BC847BS
1
IU2Y
100n
2U8P
2U8Q
3U3H
2U8R
2U85
I
1u0
6U06
E
IU85
IU8C
3U2V
IU86
1n0
68R
100n
1n0
68R
3U3C
BAS316
6U05
3n3
2U8Y
3U3B
+12VFF
D
10K
3U2F
IU2R
22R
BAS316
3U24
10u
100n
2U87
*
1K0
2U8L
3K3
GND-SIG1
G
+1V4-PNX5050
RES 3U3F
5U04
2U8K RES
FU87
22u
6K8
22u
2U86
1K0
2U8H
IU8E
3U1W
GND-SIG1
GND-SIG1
2U8F
100n
FU80
FU85
3U33
22u
9U85
9U86
220u 25V
22u
22u
2U8D
2U8B
3n3
2U8C
6K8
3U20
22R
22R
3U3J
12V/1V4 CONVERSION
FU88
3U1Y
22R
3U3N
GND-SIG1
1K0
3
3K3
100n
3U31
6K8
22u
3K3
F
3U32
3U22
9U81
GND-SIG1
C
SI4936BDY
IU8D
GND-SIG1
H
3U21
22R
IU20
1n0
2U8U
22R
3U3L
2U8V
1
4R7
3U3Q
IU25
FU89
1K0
12
11
+2
-2
4R7
3U23
E
IU84
IU2V
5 6
4
2U8G
GND-SIG1
4
IU24
IU26
RES
3U28
33K
3U2A
D
5
IS
ROSC
3U2J
3U2H
10K
1
3
2
1n0
7U0D-2
4R7
5
6
+1
-1
2U88
B
IU83
IU82
3K3
2
33K
7U0G-2
BC847BS
IU2H
13
1
7 8
SI4936BDY
2
3U3P
IU23
15
L2
COMP
IU22
3U34
RES
3U29
3U2E
7U0G-1
BC847BS 6
RES 9U84
GND-SIG1
IU2J
22K
3U2B
2U82
100n
IU2G
16
H2
GATE
39K
100n
2U80
G
9
IU21
2U8S
8
IU2E
IU2F
VFB
2
GND
IU2D
1
3
C
10
2
L1
9U99
IU2C
4R7
1
H1
GATE
7
3U3M
3U2N
BST
100n
4
IU28
Φ
+5V
5U05
3U2G
7U0D-1
3
4
14
VCC
22K
10K
3U3E
3U3D
7U0L
NCP5422ADR2G
FU8A
D
10u
5 6
SI4936BDY
1n0
22R
22R
FU8C
7U0H-2
IU29
GND-SIG1
E
+12VFF
12V/5V CONVERSION
1n0
3U3K
B
C
9U83
2U89
1u0
IU2M
BAS316
3U2K
22K
6U07
2U81
IU80
1
IU81
D
7 8
SI4936BDY
2
22u
7U0H-1
IU2A
3U2R
A
220R
2U8E
22u
2U8A
10R
3U3T
FU8B
F
17
16
IU21 C5
IU22 C5
IU23 C6
IU24 C6
IU25 C6
IU26 C6
FU88 D6
FU89 C6
FU8A C4
FU8B A7
FU8C B8
IU20 C5
FU82 E11
FU83 F12
FU84 G12
FU85 D9
FU86 E7
FU87 D7
10
DC / DC 5V_1V4
C
9U85 D5
9U86 D5
9U87 F9
9U99 D5
FU80 D11
FU81 D11
15
14
9U87
1% 1K0
*
3U27
PDZ18-B
PDZ18-B
6U09
BOOSTER
6U08
J
3U3A
F
+1V4-PNX5050
GND-SIG1
F
1%
1K0
GND-SIG1
J
IU89
3U3G
SENSE+1V4-PNX5050
270R 1%
ENABLE-3V3
FU83
PROT-DC
K
470n
100p
2U8T
IU2T
G
GND-SIG1
L
100n
2U84
1K8
3U2D
3U2C
1% 270R
100p
L
M
ENABLE-1V2
FU84
22K
RES 2U8N
G
K
RES
3U39
IU8B
2U83
owner.
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
FU86
7U0E
BC817-25W
GND-SIG1
GND-SIG1
H
H
N
1
2
3
4
5
6
8
7
9
10
11
12
13
14
M
N
15
O
O
CHN
DC320600
SETNAME
CLASS_NO
TV522
3PC332
P
1
2
3
4
5
6
7
8
9
2009-Dec-04
10
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14381
12
14
11
13
-- -- --
1
-- -- --
2
2008-03-17
3
SV
CHECK
15
SUPERS.
DATE
16
C
17
2008-03-17
P
10
42
2008-03-17
2008-09-05
1
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Wang Bing Bing
2
130
3
A2
ROYAL PHILIPS ELECTRONICS N.V. 2008
18
19
20
18680_502_090827.eps
090827
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 79
SSB: Main Tuner
2
1
1T04 D2
1T06 A2
1T55 C5
1T60 A5
1T65 E5
1T70 D5
A
1T71 E13
1T75 B5
1T85 G13
2T03 H8
2T44 E10
2T45 E10
3
2T46 E10
2T47 G8
2T48 D9
2T49 D9
2T51 F13
2T53 F3
5
4
2T61 G1
2T62 F5
2T63 H11
2T64 E12
2T65 H11
2T66 G13
2T59 F2
2T5A B8
2T5B B9
2T5C B10
2T5D B7
2T60 F13
2T67 G1
2T68 G2
2T69 G3
2T71 G1
2T72 G2
2T73 G13
2T74 G13
2T75 G13
2T77 H10
2T78 F13
2T79 E11
2T80 G10
2
1
2T81 H10
2T82 H10
2T83 H10
2T84 E12
2T85 H14
2T86 F8
3
6
2T97 H10
2T98 I8
2T99 E13
3T24 G8
3T25 G9
3T35 F2
2T87 E9
2T88 E8
2T91 F2
2T92 H12
2T93 F5
2T96 F13
7
3T36 F2
3T37 F2
3T38 G2
3T39 H13
3T40 G10
3T41 G14
4
5
3T5F C8
3T64 F13
3T65 D7
3T66 D7
3T67 D9
3T70 I9
3T71 I8
3T74 H10
3T75 H10
3T76 E13
3T78 G9
3T79 G9
11
10
9
8
3T59 F8
3T5A B7
3T5B B7
3T5C B8
3T5D B9
3T5E C9
3T42 G9
3T54 G10
3T55 H10
3T56 F13
3T57 F13
3T58 F9
3T85 I9
3T86 E10
3T87 E10
5T52 D9
5T53 E12
5T54 F5
7T57 F11
7T5A B7
7T5B B9
9T53 F1
9T54 F1
9T55 D4
5T61 F4
5T63 A10
6T56 D8
6T57 D8
7T20 H8
7T56 I9
7
6
9T56 G2
9T57 G7
9T58 G2
9T59 G5
9T60 G5
9T61 F3
13
12
9T62 G5
9T63 F3
9T64 F3
9T65 G5
9T66 F14
9T67 G14
9T78 E8
9T79 E8
A T62 F3
AT63 F4
AT64 E9
AT65 E9
9T68 G13
9T69 G13
9T6A G14
9T6B G14
9T70 H7
9T77 F3
8
14
FT50 G11
FT51 G11
FT56 I8
FT57 H13
FT58 D10
FT5B B8
9
16
15
IT21 G9
IT23 G13
IT28 E14
IT5A B8
IT70 E12
IT71 F13
IT09 E2
IT12 E2
IT13 E2
IT14 E2
IT19 I9
IT20 I9
FT5C B9
FT76 H8
IHC6 B8
IT01 E2
IT02 G8
IT06 E2
IT73 G10
IT74 G11
IT75 H10
IT76 H12
IT77 H10
IT78 E13
11
10
18
17
IT86 H11
IT89 F4
IT90 G4
IT91 G4
IT92 F13
IT93 H11
IT79 D8
IT7A E3
IT7B E3
IT81 D9
IT82 E7
IT83 E7
12
20
19
ITAC G9
ITAD G14
ITAE E11
IT94 H10
IT95 H10
IT96 H11
IT97 H11
ITAA G9
ITAB F1
A
13
14
15
B
B
Main Tuner
+5V
2
7T5B
PHD38N02LT
IT5A
IF-FILTN2
IF-FILTP2
3
22n
3T5C
3T5D
1K0
1K0
+5V-TUN
OFWK6274K
38M
K
R
7T5A
TS2431
FT5C
IHC6
2
3T5E
A
E
RES
C
3
10K
O1
O2
4
5
IF-FILTP1
IF-FILTN1
1K0
I
IGND
3
* 1T55
3T5F
1
2
2T5B
1
GND
2T5C
6
7
NC
1
FT5B
2T5A
1u0
O1
O2
GND
X6874D
36M125
F
SDA-SSB-MUX2
220n
220n
RES 2T48
3T79
3T38
G
47R
IT91
*
9T65
TUN-AGC
3T40
SCL-SSB-MUX2
V1
12
16
4K7
IT21
2T81
1T70
CVBS-TER-OUT
3
2
3
4
5
6
8
7
2T64
100u 16V
22u
2T84
44
FREF
SDA
SCL
BVS
ADRSEL
A
OUT1
B
IF1
A
OUT2
B
IF2
TAGC
AUD
CVBS
IF3
A
B
A
B
A
B
FILI
1
MPP
2
EXT
FMI
EXTFILO
AGCDIN
RES
IT92 100p
46
I
*
2T96
2T78
4-MHz
100p
3T57
23
24
32
25
3T56
100R
RES 2T51 10n
9T68
TOP2
CAF1
CTAGC
CIFAGC
GND
GNDD
48
CDEEM
CAF2
GNDA
J
9T66
2T60
10n
RES
6
7
IF-FILTP1
IF-FILTN1
9T67
RES 2T74
10n
9
10 RES 2T73
10n
9T69
3
4
IF-FILTP2
IF-FILTN2
RES
9T6A
RES 2T75
10n
RES 2T66
10n
RES
9T6B
IF-FILTP3
IF-FILTN3
G
IT23
17
21
1T85
36
3
RES
3T39
150R
I
11
GND
1
150R
2
SFSKA
4M5
RES
L
28
FT57
34 IT76
TDA-IF-AGC
H
M
I
100R
220R
9
10
11
12
DC320600
13
14
15
TV522
3PC332
P
2
3
4
5
6
7
8
9
10
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14391
12
13
11
14
-- -- --
1
-- -- --
2
2008-03-17
3
CHECK
15
DATE
16
2008-03-17
10
C
17
2008-09-05
1
2008-03-17
P
42
SUPERS.
2
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Wang Bing Bing
SV
O
SETNAME
CLASS_NO
1
N
BC847BW
CHN
" XT40 ~ XT9Z "
K
RES
3T41
ITAD
O
VIF
FM
LF
SYN1
SYN2
F
SDA-SSB
SCL-SSB
100R
3T70
2
IT20
3T85
68R
100n
IF
PROCESSING
2K2
39
7T56
IT19
3T71
CVBS4
3K3
I…C ADRESS 86
1
FT56
1
20
4M0
*
3T64 RES
OPTXTAL
NC
V1
I
O
4n7
FT76
2T98
1T65
IT93 19
IT86 38
1
IT96 8
IT97 5
IT77
470n
TUN-AGC-MON
X6768
K7266D
(video not M)
(video + audio DK)
M1973D
M1973D
(video + audio M) (video + audio M)
K9362M
(aidio not M)
1T55
M
UV1718
2T83
1K8 IT75
RES
X6768 (ana video) +
X6872 (ana audio + dig)
470R
100n
2n2
IT94
3T74
2T65
TD1716
3T75
9T70
2T97
47p
2T82
22p
3T55 IT95
100n
7T20
BC847BW
CH
TUN-AGC
IT74 13
220n
E
22u
1T04
1T06
1T75
AP
EUR
TD1716
2T80
IT73
3T54
330R
5K6
H
N
10K
470R
3T42
330R
2T63
ITAA
3T24
2T77
L
1n0
2T03
IT02
3T25
4n7
2T69
4n7
9T58
2T68
*
43
4p7
9T57
15
* *
220R
5T53
47
31
33
Φ
IC
G
*
1T71
2T85
9T62
3T78
D
3T76
1n5
SCL-TUNER
IT78
IT71
2T92
SDA-TUNER
9T60
ITAC
*
29
30
*
22p
41
40
9T59
RES
FT50
FT51
1K0
RES
26
27
DIF-N
DIF-P
1K0
*
TUN-AGC
4-MHz
F
H
2T99
VP
22
2T86
IF-P
*
IT90
2
18
35
37
42
IF-N
100n
2T93
22u
4n7
*
2T72
4n7
*
9T56
2T71
K
*
4n7
2T61
4n7
*
2T67
9T64
7T57
TDA9898HL/V2
14
45
0R
220R
2T62
*
330R
3T87
C
RES
10n
+5V-TUN
3T59
560n
5T61
2T91
9T61
AT65
D
E
IT28
330R
3T86
RES 2T45
9T79
TDA-IF-IN-P
5T54
AT64
9T78
IT83
IT89
3T37
*
PDZ33-B
IT82
TDA-IF-IN-N
10n
B
IT70
V1
2T79
GND
AT63
47R
47R
3T36
3T35
47R
9T54
ITAB
owner.
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
J
9T53*
10n
+VTUN
9T77
150p
9T63
2T53
220n
*
*
* *
ITAE
2T46
RES 2T44
AT62
*
*
+5V-TUN
IF-FILTN3
IF-FILTP3
X6874D
36M125
150p
2T59
4
5
2T87
IT7A
O1
O2
0R
3T58
IT7B
IT14
*
30R
3p3
3
* 1T65
I
IGND
4p7
IT12
F
100R
IT79
RES
1
2
I
100R
12
IT06
IT13
*
FT58
+VTUN
*
IT09
E
RES
5T52
IT81
RES 2T49
MT
RES
3T67
6T57
9T55
13
1
2
3
4
5
6
7
8
9
10
11
IT01
H
100R
3T66
+33VTUN
100n
MT
15
IF-FILTP2
IF-FILTN2
GND
2T47
14
4
5
X6874D
36M125
TUNER
RF-IN
O1
O2
2T88
D
3
* I…C ADRESS C0
DC_PWR
NC1
RF_AGC
NC2
AS
SCL
SDA
XTAL_OUT
+5V
IF_OUT1
IF_OUT2
G
1T04
TD1716F/BHXP-3
I
IGND
RES
3T65
PDZ33-B
6T56
*
1
2
RES
1T70
C
10n
2K2
1T75
IN
ISWI
IGND
3
8
3T5A
*
1
10
2
12
A
ITEMS
DVB-T ONLY MHP DVB-T/DVB-C
1T04
TD1716MK3
X
TDXXXXX
X
1T06 UV1316LMK5
X
1T55
X7355B
X
X9263B
1T65
X
1T70
X7356B
X
4MHZ
X
1T71
1T75
X3451K
X
X
10N
X
2T44
X
2T45
X
X
10N
X
X
X
220N
2T53
2T67
X
X
4N7
2T71
X
X
4N7
2T72
X
X
4N7
X
2T78
X
100P
X
X
2T87
3P3
4P7
X
22P
X
2T99
3T35
47R
X
47R
X
X
3T36
X
X
47R
3T37
47R
3T38
X
330R
3T86
X
330R
X
3T87
9T53
X
0R
X
X
9T54
0R
9T55
X
0R
9T56
0R
X
9T58
X
X
0R
9T61
0R
X
X
9T62
X
X
0R
9T63
0R
X
X
0R
X
9T64
X
X
9T65
X
0R
X
X
9T77
0R
2T28
X
100N
100N
X
2T29
3T01
X
330R
0R
X
330R
3T02
X
X
0R
330R
3T05
X
X
0R
3T05
1K
4K7
X
10K
3T09
X
X
4K7
0R
X
9T01
X
0R
9T02
2K2
3T64
X
4u7
IF-FILTP1
IF-FILTN1
+12VD
OFWK6274K
38M
13
MT
1
2
3
4
5
6
7
8
9
10
11
B
4
5
RESERVED
10K
15
IF-FILTN1
IF-FILTP1
1n0
3T5B
MT
AGC
TU
AS
SCL
SDA
NC1
+5V
ADC
+33V_TUN
NC2
IF_OUT1
14
6
7
GND
TUNER
RF-IN
IF-FILTN3
IF-FILTP3
5T63
NC
3
8
* I…C ADRESS C0
4
5
EMC
2T5D
1T06
UV1316L
O1
O2
IN
ISWI
IGND
1u0
1
10
2
C
D
1T60
RES
A
130
4
A2
ROYAL PHILIPS ELECTRONICS N.V. 2008
18
19
20
18680_503_090827.eps
090827
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 80
SSB: Channel Decoder DVB-T
1
2T01 A8
2T04 C8
2T05 C8
2T07 D8
A
2
3
2T08 D9
2T09 D9
2T12 D11
2T13 D11
2T14 D12
2T15 D12
2T16 D11
2T18 E8
2T19 E8
2T20 E6
2T21 E6
2T24 F6
1
5
4
2T29 H5
2T31 D2
2T32 A8
2T35 D9
2T25 B7
2T26 D4
2T27 B8
2T28 H5
2
7
6
2T36 D9
3T01 H4
3T02 H4
3T05 E11
3T06 D8
3T07 G8
3T08 E7
3T09 E7
3
3T10 E7
3T11 E7
3T13 D2
3T14 D4
4
3T16 D3
3T17-1 F11
3T17-2 F11
3T17-3 F11
3T17-4 F11
3T18 G8
3T19 C2
3T20 B7
5
6
3T30 G8
3T31 H8
3T32 G13
3T33 G13
7
Channel decoder DVB-T
B
3T27-2 F12
3T27-3 G12
3T28 G6
3T29 G8
3T22-4 F11
3T23 H9
3T26 G6
3T27-1 G12
3T21 D3
3T22-1 G11
3T22-2 G11
3T22-3 F11
11
10
9
8
+1V2-PNX8541
12
8
IT41
5T09
9T01 H5
9T02 H5
9T03 G9
9T20 C3
7T17-2 H10
7T18-1 D4
7T18-2 D3
7T25 A8
3T34 H9
5T08 B8
5T09 A8
7T17-1 E9
14
13
IT08 E7
IT11 C3
IT15 D3
IT16 H12
FT41 F4
FT42 D2
IT03 B7
IT07 D9
10
9
FT15
FT37 G9
FT38 H9
FT39 H9
FT40 F9
FT11 B8
FT15 A8
FT17 G9
FT36 G9
16
15
17
IT25 B8
IT26 D3
IT27 D3
IT31 G6
IT17 H12
IT18 F8
IT22 D4
IT24 B8
11
IT43 F11
IT45 H9
IT32 F6
IT33 H10
IT41 A7
IT42 C2
A
13
12
20
19
18
14
B
+1V2DVB
C
7T25
LD3985M122
1
IT24
1u0
3T20
3
IN
5
OUT
INH
100K
IT25
4
BP
COM
B
2
B
100n
RES
2T25
A
2T27
C
D
100n
2T32
2T01
A
22u 6.3V
120R
IT03
5T08
FT11
D
+3V3DVB
+3V3
C
+1V2DVB
+1V2DVB
+1V2DVB
+3V3DVB
+1V2DVB
+3V3DVB
+1V2DVB
+3V3DVB
+3V3DVB
+1V2DVB
IT11
9T20
RES
22u 6.3V
2T04
E
100n
2T05
120R
E
C
+3V3DVB
IT42
3
IT22
100n
100n
2T15
100n
2T14
100n
2T13
100n
2T12
2T16
100n
100n
2T36
100n
2T09
100n
2T08
F
100n
RES 2T35
5
2T07
4
BC847BPN
7T18-2
IT15
100K
2T26
TUN-AGC-MON
3T13
10K
100K RES
FT42
100n
3T14
3T19
TUN-AGC
F
6
IT27 2
7T18-1
BC847BPN
1
18K
TDA-IF-AGC
100n
2T19
100n
4K7
RES 2T18
1K8
3T08
IT08
3T10
E
G
IT07
AGC-COMP
RESET-SYSTEM
H
D
+5V-TUN +5V-TUN
56K
3T21
2T31
G
100n
1K0
47K
RES
3T16
3T06
IT26
3T09
D
3T11
H
E
TDA-IF-AGC-SPLIT
JTAG-TMS
FT38
JTAG-TRST
FT39
TDA-IF-IN-N
RES 2T28
100n
RES 2T29
330R
100n
33R
3T05
12
31
45
VDDI12
28
VDDE33 46
11
VDDA12_PLL
9
1
VDDA33_ADC
VDDA12_OSC
OCLK
PSYNC
M
VI
P
GND_HS
4
3
2
1
4
3
2
1
0R
0R
0R
0R
0R
0R
0R
0R
5
6
7
8
5
6
7
8
FE-DATA0
FE-DATA1
FE-DATA2
FE-DATA3
FE-DATA4
FE-DATA5
FE-DATA6
FE-DATA7
TUN
SCL
SDA
19
3T27-1 1
17
3T27-3
8 0R
FE-CLK
0R
FE-SOP
16
15
G
K
+3V3DVB
IT16
SCL-TUNER
IT33
IT17
IT45
50
51
52
L
SDA-TUNER
H
VIA
VIA
10K
9T02
3T31
J
GPIO<0:3>
7T17-2
TDA10048HN
VIA
56
55
VIA
VIA
M
53
54
M
F
AGC-COMP
3T17-4
3T17-3
3T17-2
3T17-1
3T22-4
3T22-3
3T22-2
3T22-1
20
21
22
23
24
25
26
27
58
57
H
3T01
330R
3T02
TCK
TDI
TDO
TMS
TRST
49
FT37
JTAG-TD-PACIFIC-TDA10048
TDA-IF-IN-P
2
3
FT36
9T01
L
RES
9T03
3T18
RES
3K3
10K
RES 3T29
owner.
JTAG-TCK
3K3
RES 3T07
G
RES 3T30
K
+3V3DVB
I2C ADDRESS 10
0
1
2
3
4
5
6
7
4K7
10K
FE-VALID
3T32
RES
FT17
JTAG-TD-TDA10048-TDA10023
0R
RES
4K7
100R
3T27-2
3T33
100R
DO
SCL
SDA
I
18
VSSIS
39
38
40
37
36
IT43
43
13
30
44
3T28
SCL-SSB
IT31
SADDR
VSSE
35
34
42
32
14
29
IT32
3T26
SDA-SSB
MAIN
VSSA_PLL
J
DEN
CLR
10
33
AGC_IF
AGC_TUN
XOUT
VSSA_OSC
41
VSSA_ADC
8
XIN
6
FT40
100n
F
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
7
4
FT41
4-MHz
IT18
VSA_ANA
2T24
VDA_12_ANA
I
48
5
VDD33_ADC
7T17-1
TDA10048HN
47
47n
100n
2T21
2T20
10K
I
I
N
N
1
2
3
4
5
6
7
8
9
10
11
12
13
14
O
O
CHN
DC320600
SETNAME
CLASS_NO
TV522
3PC332
P
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14391
" XT00 ~ XT4Z "
1
2
3
4
5
6
7
8
9
10
11
12
13
14
-- -- --
1
-- -- --
2
2008-03-17
3
SV
CHECK
15
SUPERS.
DATE
16
P
C
17
130
10
42
2008-03-17
2008-09-05
2008-03-17
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Wang Bing Bing
2
1
5
A2
ROYAL PHILIPS ELECTRONICS N.V. 2008
18
19
20
18680_504_090827.eps
090827
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 81
SSB: Channel Decoder DVB-C
2
1
4
3
1
6
5
3
2
8
7
4
5
10
9
6
11
8
7
12
13
A
Channel Decoder DVB-C
A
B
2TAK
22K
ITA3
3TB1
ITA5
3
SI2301BDS
7TA2
2
OUT
IN
ITA6
5TA1
2TA3 2TA4 2TA5 2TA6 2TA7
C
2TA8 2TAA 2TA9
100n 100n 100n
100n 100n 100n 100n 100n
5TA2
B
2TA2
22u
100n
1
100n
2TA1
COM
100n
2TAN
2TAL
6TA1
BAS316
EMC
2TAP
FTA8
1n0
2TAM
5K6
D
+1V8DVB
60R
C
FTA1
+1V8DVB
60R
2TAB 2TAD 2TAC
E
330R
330R
330R
330R
3TB7
3TB8
RES 3TB9
RES 3TBA
RES 3TB3
2TAG
2TAJ
100R
100R
100R
100R
10K
100n FTA4
100n FTA5
FTA7
FTA3
4K7
G
SCL-SSB
SDA-SSB
SCL-TUNER
SDA-TUNER
3TB5
3TB6
3TBK
3TBL
H
+3V3-10023
F
21
6
16
58
57
10
12
17
18
20
19
13
51
52
53
54
56
62
63
64
4K7
TDA-IF-IN-P
TDA-IF-IN-N
DIF-P
DIF-N
3
ITA9
50
60
VDDD33
ADC
VDD18
ADCPLL
7
24
41
14
30
43
55
RES
XOUT
ENSERI
TEST
CLRB
9TA1
TCK
TDI
TRST
TMS
TDO
AGCTUN
AGCIF
SACLK
VIP
VIM
IICDIV
SADDR
SCL
SDA
SCLT
SDAT
0
1
2
3
4
5
6
7
DO
DEN
OCLK
PSYNC
UNCOR
NC
59
4
VSSA GNDA
OSC
ADC
VSSI
VSSE
GND
ADCPLL
GPIO
CTRL
22
23
26
27
28
D
JTAG-TCK
JTAG-TD-TDA10048-TDA10023
JTAG-TRST
JTAG-TMS
JTAG-TDO
9 ITA2
11
5
FTA2
4K7
2TAR
3TB4
9TA2
9TA3
ITAF
TDA-IF-AGC-SPLIT
TDA-IF-AGC
ITAG
47n
48
47
46
45
40
39
38
37
3TA5-1
3TA5-2
3TA5-3
3TA5-4
3TA2-1
3TA2-2
3TA2-3
3TA2-4
36
35
34
33
3TBB
3TBC
3TBD
1
2
3
4
1
2
3
4
8
7
6
5
8
7
6
5
33R
33R
33R
33R
33R
33R
33R
33R
FE-DATA0
FE-DATA1
FE-DATA2
FE-DATA3
FE-DATA4
FE-DATA5
FE-DATA6
FE-DATA7
E
33R
33R
33R
FE-VALID
FE-CLK
FE-SOP
29
32
F
49
RESET-SYSTEM
56p
10K
XIN
VDDE
15
31
44
2TAF
3TBM
2
Φ VDDI
CHANNEL
RECEIVER
8
25
42
F
ITA8
1TA1
16M
D
56p
VDDA18
OSC PLL
2TAE
VDDA33
ADC
1
7TA4
TDA10023HT
61
100n 100n 100n
E
RES
3TBG
RES
3TBH
owner.
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
+1V8DVB
7TA1
LD1117ADT18
7TA3
PDTC114ET
100R
B
+3V3
100u 16V
+1V8DVB
ITA4
3TB2
3TB0
+3V3-10023
22u
ITA7
C
A
+3V3
I
1
3
2
4
5
6
CHN
7
DC320600
8
TV522
" XTA0 ~ XTAZ "
1
2
3
4
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14391
7
6
5
1
-- -- --
2
2008-03-17
3
CHECK
8
C
D
E
F
G
H
I
42
SUPERS.
DATE
9
2008-03-17
130
10
C
10
2
2008-09-05
1
2008-03-17
J
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Wang Bing Bing
SV
B
9
CLASS_NO
-- -- --
A
SETNAME
3PC332
J
ITA9 D4
ITAF E8
ITAG E8
1TA1 D4
2TA1 B6
2TA2 B7
2TA3 C4
2TA4 C4
2TA5 C4
2TA6 C4
2TA7 C4
2TA8 C6
2TA9 C7
2TAA C7
2TAB C4
2TAC C4
2TAD C4
2TAE D4
2TAF D4
2TAG E3
2TAJ E3
2TAK A3
2TAL B4
2TAM B6
2TAN B4
2TAP B5
2TAR E7
3TA2-1 E7
3TA2-2 E7
3TA2-3 E7
3TA2-4 E7
3TA5-1 E7
3TA5-2 E7
3TA5-3 E7
3TA5-4 E7
3TB0 A3
3TB1 B3
3TB2 B2
3TB3 E3
3TB4 E7
3TB5 E3
3TB6 E3
3TB7 E3
3TB8 E3
3TB9 E3
3TBA E3
3TBB F7
3TBC F7
3TBD F7
3TBG F3
3TBH F4
3TBK E3
3TBL E3
3TBM D4
5TA1 C7
5TA2 C3
6TA1 B2
7TA1 B6
7TA2 B4
7TA3 B3
7TA4 D5
9TA1 D8
9TA2 E8
9TA3 E8
FTA1 C3
FTA2 D7
FTA3 E4
FTA4 E4
FTA5 E4
FTA7 E4
FTA8 B4
ITA2 E7
ITA3 B3
ITA4 B2
ITA5 B6
ITA6 C6
ITA7 B3
ITA8 D4
9
A3
6
ROYAL PHILIPS ELECTRONICS N.V. 2008
11
12
13
18680_505_090827.eps
090827
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 82
SSB: STI7100: Control
1
2
3
1
A
4
6
5
2
3
7
8
4
9
5
10
6
11
7
13
12
8
9
14
15
11
10
17
16
12
18
19
1A10 C4
2A18 A2
2A19 A2
2A20 A3
2A21 C6
2A22 C3
2A23 C4
2A24 F11
2A25 F11
3A01 D12
3A02 D11
3A10 E9
3A11 D9
3A12 C9
3A13 C9
3A14 B9
3A15 C9
3A16 B6
3A17 B7
3A18 B9
3A19 G1
3A20 A8
3A21 G2
3A22 A9
3A23 A9
3A24 A9
3A25-1 C8
3A25-2 C9
3A25-3 C8
3A25-4 C9
3A26 B6
3A27 C4
3A28 C4
3A29-1 E2
3A29-2 E2
3A29-3 E2
3A29-4 E2
3A30-1 F2
3A30-2 F2
3A30-3 F2
3A30-4 F2
3A31-2 G2
3A31-3 F1
3A31-4 G2
3A32-1 G2
3A32-3 H2
3A33 B11
3A34 F11
3A35 G2
3A36-1 H2
3A36-2 H2
3A43 B7
3A44 C11
3A45 C12
3A46 A6
3A47 A6
3A48 B6
3A49 B6
3A4A E11
3AC8-4 D11
5A10 A2
7A00-4 A10
7A10-1 B3
7A10-2 B4
7A10-3 B6
7A10-4 B2
7A10-5 C2
7A10-6 C2
7A12 C4
9A21 B5
9A22 C5
9A29 B9
9A30 B9
9A31 F11
FA10 B7
FA11 B9
IA10 C9
IA11 D9
IA16 B4
IA17 B5
IA18 C4
IA19 A2
IA20 C3
IA21 C5
IA22 C5
IA23 B11
IA24 B9
IA25 C11
IA26 F11
IA27 G11
IA28 F11
IA29 B7
IA2A D11
IA2B E11
IA2C E11
13
10K
RES 3A49
V_LVC04
JTAG-TRSTn-ST
RES 3A16
JTAG-TDO-ST
3A24
3A18
V_LVC04
10K
3A14
27MHZ-3V3
FA11
4
IA17
9A21
RES
1
+3V3
3A26
6
RES
+3V3
3A28
TRIG-IN
27M
9A22
D17
D18
AK25
AK26
AK27
AK28
8
6
3A25-2 2
10K
3A25-4 4
10K
27MHZ-3V3
7
5
IA10
3A15
10K
TSI0-ST-CLK
TSI0-ST-VAL
2
18p
RES
27M
RES
2A23
12
18p
RES
2A22
14
1
3A25-1 1
10K
3A25-3 3
10K
IA24
3A13
10K
TRIG-IN
TRIG-OUT
IA21
3
IA18
9A29
9A30
+3V3
10K
IA22
1A10
7A10-6
74LVCU04APW
13
3A43
TMUCLK
BOLT-ON-IO_RESET-STI7100
BUF-RST-TARGETn
ASEBRKn
4
10
7A12
2560TK
1
560R
RES
1
1M0
RES
7
C
TMUCLK
CPU-27MHZ
3A27
IA20
14
7A10-5
74LVCU04APW
11
IA29
10K
FA10
68R
15p
1
14
14
IA16
3A17
2A21
2
7A10-3
74LVCU04APW
5
7
1
7
7
8
7A10-2
74LVCU04APW
3
7
1
14
14
22R
7A10-1
74LVCU04APW
1
C1
AP27
AN27
E27
E17
D16
E18
D19
E19
E20
CPU-27MHZ
10K
V_LVC04
V_LVC04
D
Φ
D22
E21
D21
D20
E22
JTAG-TDI-ST
JTAG-TMS-ST
JTAG-TCK-ST
JTAG-TRSTn-ST
JTAG-TDO-ST
10K
B
7A10-4
74LVCU04APW
9
7A00-4
STI7101BWC
E16
AK6
AJ5
10K AH4
AJ4
3A12
7
TSI0-ST-STRT
F
IA11
TSI0-ST-D0
TSI0-ST-D1
TSI0-ST-D2
TSI0-ST-D3
TSI0-ST-D4
TSI0-ST-D5
TSI0-ST-D6
TSI0-ST-D7
D
AG5
AF5
10K AE4
AF4
TSI1-ST-CLK
TSI1-ST-VAL
G
3A11
Mode pin
EMI-A2
2 3A29-2 7
EMI-A1
1 3A29-1 8
EMI-A4
4 3A29-4 5
10K
E
MODE[1:0]
Purpose
EMI pin
EMIADDR[2:1]
TSI1-ST-STRT
10K
H
EMI-A3
3
10K
3A29-3
MODE[3:2]
EMIADDR[4:3]
AE5
AD4
AD5
AC4
AC5
AB4
AB5
AA4
TSI1-ST-D0
TSI1-ST-D1
TSI1-ST-D2
TSI1-ST-D3
TSI1-ST-D4
TSI1-ST-D5
TSI1-ST-D6
TSI1-ST-D7
PLL0 startup configuration
PLL1 startup configuration
6
3A10
10K
10K
EMI-A8
4 3A30-4 5
EMI-A7
3
EMI-A6
2 3A30-2 7
EMI-A5
10K
1 3A30-1 8
I
MODE[7:4]
EMIADDR[8:5]
AM3
AN3
AP2
AP3
AP1
AN2
AN1
AM2
AM1
AL2
AL1
AL3
6
10K
F
Reserved
DIGITAL
INTERFACE
DAA
PIO0
0
1
2
3
4
5
6
7
PIO1
0
1
2
3
4
5
6
7
PIO2
0
1
2
3
4
5
6
7
PIO3
0
1
2
3
4
5
6
7
IN
TRIGGER
OUT
0
1
SYSITRQ
2
3
NMI
BYTECLK
BYTECLKVALID
TSIN0
ERROR
PACKETCLK
0
1
2
3
TSIN0DATA
4
5
6
7
BYTECLK
BYTECLKVALID
TSIN1
ERROR
PACKETCLK
0
1
2
3
TSIN1DATA
4
5
6
7
BYTECLK
BYTECLKVALID
TSIN2
ERROR
PACKETCLK
0
1
2
3
TSIN2DATA
4
5
6
7
PIO4
0
1
2
3
4
5
6
7
PIO5
0
1
2
3
4
5
6
7
REF
RXN
ATA RXP
TXN
TXP
AP5
AN5
AM25
AP25
AN25
IA23
3A33
1K5
B
AM32
AP33
AN33
AP34
AN34
AM33
AM34
AL32
AL34
AL33
AK34
AK33
AJ34
AJ33
AH34
AH33
C
IA25
3A44
AJ30
AJ31
AH30
AH31
AG30
AG31
AE31
AE30
AE32
AE34
AE33
AD34
AD33
AC34
AC33
AB34
EMIADDR[10:9]
EMI banks port size at boot
MODE[10]
PCMOUT4
STx71000 master/slave mode
MODE[12:11]
EMIADDR[13:12]
Reserved
MODE[13]
EMIADDR[14]
Long resetout mode
MODE[14]
EMIADDR[15]
Reserved
MODE[15]
PCMOUT3
Reserved
MODE[16]
PCMOUT2
Reserved
MODE[9:8]
EMI-A9
PCMOUT4
SCL-SSB
SDA-SSB
3A45
100R
100R
+3V3
D
3A02
IA2A
3AC8-4
3A4A
WP-FLASH-ST
100R
5
4
33R
33R
LAN-RST
PHY-CLK
USED FOR IPTV
AD32
AD30
AD31
AC30
AC31
AB30
AB31
AA30
RXD-ASC2
TXD-ASC2
E
AB33
AA34
AA33
Y34
Y33
AA31
Y30
Y31
IA2C
IA2B
RES
9A31
IA28
AM30
AP31
AN31
AP30
AN30
MII-RX-ER
3A34
F
470R
2A24
IA26
EMI-A10
10K
J
C2A
C1A
REF
USB DM
DP
SYSA
CLKIN
SYSB
SYSBCLKOSC
SYSBCLKINALT
SYSCLKOUT
RTCCLKIN
TMUCLK
RSETIN
WDOGRSTOUT
ASEBRK
10K
3A31-3
+3V3
IA27
10n
2A25
10n
2 3A31-2 7
10K
3A21
10K
G
K
EMI-A13
1 3A32-1 8
EMI-A12
10K
4 3A31-4 5
G
10K
3A19 RES
+3V3
owner.
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
10K
3A30-3
AH5
AG4
AK1
AK2
AJ1
AJ2
AH1
AH2
TDI
TMS
TCK
TRST
TDO
10K
C
JTAG-TDI-ST
JTAG-TMS-ST
JTAG-TCK-ST
10K
10K
10K
3A23
3A22
3A20
100n
2A20
2A19
100n
2A18
1n0
RES 3A46
RES 3A47
RES 3A48
+3V3
E
A
220R
3A01
V_LVC04
+2V5
10K
10K
IA19
5A10
A
10K
STI7100 : Control
B
EMI-A14
EMI-A14
10K
3A35
EMI-A15
10K
3 3A32-3 6
PCMOUT3
2 3A36-2 7
PCMOUT2
1 3A36-1 8
10K
L
H
H
10K
20
A
B
C
D
E
F
G
H
I
J
K
L
10K
M
M
2
1
3
4
5
6
8
7
9
10
11
12
13
N
N
O
O
CHN
DC320600
SETNAME
CLASS_NO
TV522
3PC332
P
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14401
" XA00 ~ XA4Z "
1
2
3
4
5
6
7
8
9
10
11
12
13
14
-- -- --
1
-- -- --
2
2008-03-17
3
SV
CHECK
15
DATE
16
P
42
SUPERS.
2008-03-17
10
C
17
2008-09-05
2008-03-17
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Li LingHuan
2
1
130
7
A2
ROYAL PHILIPS ELECTRONICS N.V. 2008
18
19
20
18680_506_090827.eps
090827
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 83
SSB: STI7100: Flash
1
2
A
3
4
1
B
5
6
7
3
2
8
4
9
5
10
6
11
7
12
13
9
8
STI7100 : FLASH
A
14
A
+3V3
C
2A50
100n
D
E
C
3A54
FA54
+3V3
F
10K
3A52
10K
3A55
FA53
EMI-OEn
+3V3
FA55
EMI-RB-WAIT
RESET-FLASH-STn
EMI-WRn
EMI-OEn
15
12
11
28
26
47
B
0
1
2
3
4
5
6
7
8
9
10
11 A
12
13
14
15
16
17
18
19
20
21
EMI-FLASH-CSn
+3V3
EPROM
8Mx8/4Mx16
0
1
2
3
4
5
6
7
D
8
9
10
11
12
13
14
15
A-1
0
64M-1
RB
RP
WE
OE
CE
BYTE
VPP/WP_
29
31
33
35
38
40
42
44
30
32
34
36
39
41
43
45
EMI-D0
EMI-D1
EMI-D2
EMI-D3
EMI-D4
EMI-D5
EMI-D6
EMI-D7
EMI-D8
EMI-D9
EMI-D10
EMI-D11
EMI-D12
EMI-D13
EMI-D14
EMI-D15
14
WP-FLASH-ST
18
20
19
A
2A50 B5
3A50 D7
3A51 F3
3A52 D2
3A53-1 E6
3A53-2 F7
3A53-3 F6
3A54 D2
3A55 D2
3A56 D2
3A57 E2
7A00-2 E4
7A50 B4
9A51 F3
FA50 D7
FA51 D8
FA52 D2
FA53 D2
FA54 D2
FA55 D2
FA56 F3
FA57 F3
IA50 E5
IA53 F4
B
C
D
E
C
FA50
WP-FLASH-ST
RES
3A50
F
FA51
10K
D
27
+3V3
10K
3A56
25
24
23
22
21
20
19
18
8
7
6
5
4
3
2
1
48
17
16
9
10
13
EMI-RB-WAIT
FA52 RESET-FLASH-STn
+3V3
D
EMI-A1
EMI-A2
EMI-A3
EMI-A4
EMI-A5
EMI-A6
EMI-A7
EMI-A8
EMI-A9
EMI-A10
EMI-A11
EMI-A12
EMI-A13
EMI-A14
EMI-A15
EMI-A16
EMI-A17
EMI-A18
EMI-A19
EMI-A20
EMI-A21
EMI-A22
17
16
46
B
37
7A50
M29W640FT70N6F
15
EMI-FLASH-CSn
10K
G
3A57
100R
G
RESET-FLASH-STn
BOLT-ON-IO_RESET-STI7100
7A00-2
STI7101BWC
AP9
AL6
AM5
G5
E
H
AK9
AL8
AM8
AP8
AK8
EMI-FLASH-CSn
AP11
AN11
I
EMI-OEn
F
FA56
FA57
IA53
3A51
J
G
K
L
9A51
AK22
10K
AN10
AP20
AP19
AP18
AP17
AP15
AP14
AP13
AP12
AN20
AN19
AN18
AN17
AN15
AN14
AN13
AN12
EMI-D0
EMI-D1
EMI-D2
EMI-D3
EMI-D4
EMI-D5
EMI-D6
EMI-D7
EMI-D8
EMI-D9
EMI-D10
EMI-D11
EMI-D12
EMI-D13
EMI-D14
EMI-D15
owner.
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
RES
EMI-RB-WAIT
EMI-WRn
AP10
AP22
AP21
Φ
AM31
L31
C30
A29
AN9
EMI
NC
NC
CSA
CSB
CSC EMI
CSD
CSE
EMIBUS
EMIDMAREQ
BE0
EMI
BE1
READYORWAIT
EMI
RDNOTWR
EMIADDR
EMIDATA
H
+3V3
IA50
8 3A53-1 1
10K
AN22
AL22
0
1
6 3A53-3 3
10K
7
2
AL9
AK10
AL10
AK11
AL11
AK12
AL12
AK13
AL13
AK14
AL14
AK15
AL15
AK17
AL17
AK18
AL18
AK19
AL19
AK20
AL20
AK21
AL21
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
3A53-2
10K
AN21
EMIFLASHCLK
OE
LBA EMI
BAA
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
AM21
AM20
GNT
REQ
E
I
F
EMI-A1
EMI-A2
EMI-A3
EMI-A4
EMI-A5
EMI-A6
EMI-A7
EMI-A8
EMI-A9
EMI-A10
EMI-A11
EMI-A12
EMI-A13
EMI-A14
EMI-A15
EMI-A16
EMI-A17
EMI-A18
EMI-A19
EMI-A20
EMI-A21
EMI-A22
J
G
K
H
H
I
I
L
M
M
N
N
1
2
4
3
5
6
7
8
9
O
O
CHN
DC320600
SETNAME
CLASS_NO
TV522
3PC332
P
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14401
" XA50 ~ XA5Z "
1
2
3
4
5
6
7
8
9
10
11
12
13
14
-- -- --
1
-- -- --
2
2008-03-17
3
SV
CHECK
15
DATE
16
2008-03-17
10
C
17
1
2008-03-17
P
42
SUPERS.
2008-09-05
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Li LingHuan
2
130
8
A2
ROYAL PHILIPS ELECTRONICS N.V. 2008
18
19
20
18680_507_090827.eps
090827
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 84
SSB: STI7100: DDR1
4
3
1
2
5
6
3
7
4
8
5
A
9
6
10
11
7
12
8
13
14
10
9
13
2AA2
DQS
LMI-DQS0
LMI-DQS2
5
6
7
8
3AA6-4
3AA6-3
3AA6-2
3AA6-1
5
6
7
8
3AA8-2
3AA8-1
3AA8-4
3AA8-3
3AA9
22R
3AAL
22R
LMI-DQS0
LMI-DQS1
LMI-DQS2
LMI-DQS3
J
7
8 22R
5 22R
6 22R
22R
3AA4-4
3AA4-3
3AA4-2
3AA4-1
2
1
4
3
8
7 22R
6 22R
5 22R
22R
4
3 22R
2 22R
1 22R
22R
4
3 22R
2 22R
1 22R
22R
7
8 22R
5 22R
6 22R
22R
AB1
J2
AC2
K1
3AAK
22R
3AAM
22R
A14
B14
A15
B15
A16
B16
A17
B17
A1
B2
A2
B3
A3
B4
A4
B5
A20
B20
A21
B21
A22
B22
A23
B23
A7
B8
A8
B9
A9
B10
A10
A11
G
K
H
M
I
A18
A5
B19
B7
N
2
4
3
5
6
7
8
LMISYSADD
LMISYSDATA
0
1
2
3
4
5
6
7
8
9
10
11
12
LMIVIDBKSEL
LMISYSDATAMASK
LMISYS
0
1
LMISYSDATASTROBE
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
0
1
0
1
2
3
VREF
CLKEN
REF
GNDBCOMP
CLK
CLK
CS0
LMIVID CS1
RAS
CAS
WE
LMIVIDADD
LMIVIDDATA
0
1
2
3
4
5
6
7
8
9
10
11
12
LMIVIDBKSEL
0
1
0
1
LMIVIDDATAMASK
2
3
LMIVID
0
1
LMIVIDDATASTROBE
2
3
9
61
55
15
9
3
33
18
52
12
6
66
48
22R
LMI-CLKnot
VREF
CLKEN
REF
GNDBCOMP
U1
U2
L4
M5
K5
J4
J5
3AAF
RES
D
LMI-CLKnot
LMI-CSnot
LMI-RASnot
LMI-CASnot
LMI-WEnot
LMI-A(0)
LMI-A(1)
LMI-A(2)
LMI-A(3)
LMI-A(4)
LMI-A(5)
LMI-A(6)
LMI-A(7)
LMI-A(8)
LMI-A(9)
LMI-A(10)
LMI-A(11)
LMI-A(12)
K4
L5
LMI-BA0
LMI-BA1
AB2
J1
AC1
K2
LMI-DQM0
LMI-DQM1
LMI-DQM2
LMI-DQM3
LMI-VREF-ST
IAA1
3AAH
120K
RES 3AAG
9AA2
A13
B13
D11
E11
E14
D15
E15
33R
E
F
LMI-CLKEN
G
LMI-VREF-ST
2V5-LMI
E10
D10
E9
D9
D6
E6
D5
E5
D4
E7
D8
E8
D7
FAA2
H
FAA3
D14
E13
2V5-LMI
A6
A19
B6
B18
C11
D13
B12
B11
AT T-POINT
IAA5
M4
N5
N4
P5
U4
V5
V4
W5
W4
U5
P4
T5
T4
H5
Y5
R1
R2
3AAQ
120R
9AA1
CLK
CLK
CS0
LMISYS CS1
RAS
CAS
WE
3AAR
2
1
4
3
4
3 22R
2 22R
1 22R
22R
1
2
3
4
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
IAA2
I
IAA3
LMI-VREF2-ST
LMI-VREF2-ST
3AAT
3AAS
3AA7-2
3AA7-1
3AA7-4
3AA7-3
5
6
7
8
4
3 22R
2 22R
1 22R
22R
3AA2-1
3AA2-2
3AA2-3
3AA2-4
V1
V2
W1
W2
Y1
Y2
AA1
AA2
E2
E1
F2
F1
G2
G1
H2
H1
AD1
AD2
AE1
AE2
AF1
AF2
AG1
AG2
L2
L1
M2
M1
N2
N1
P2
P1
LMI-CLK
100n
1n0
1n0
2AAW
2AAV
1n0
2AB7
1n0
1n0
2AB6
1n0
2AB5
1n0
2AB4
1n0
2AB3
1n0
2AB2
1n0
2AB1
1n0
2AB0
2AAZ
3AA5-4
3AA5-3
3AA5-2
3AA5-1
5
6
7
8
8
7 22R
6 22R
5 22R
22R
owner.
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
F
3AA3-4
3AA3-3
3AA3-2
3AA3-1
1
2
3
4
LMI-DQS1
LMI-DQS3
IAA4
LMI-CLK
1n0
2ABA
100n
100n
2AAU
100n
2AAT
100n
2AAS
100n
2AAR
100n
2AAP
100n
2AAN
100n
2AAM
100n
2AAL
100n
2AAK
100n
2AAJ
100n
2AAH
100n
2AAG
100n
2AAF
100n
2AAE
100n
2AAB
2AAA
1n0
EMC
2ABC
E
3AA1-1
3AA1-2
3AA1-3
3AA1-4
16
51
C
22R
3AAA
LMI-D(7)
LMI-D(6)
LMI-D(5)
LMI-D(4)
LMI-D(3)
LMI-D(2)
LMI-D(1)
LMI-D(0)
LMI-D(15)
LMI-D(14)
LMI-D(13)
LMI-D(12)
LMI-D(11)
LMI-D(10)
LMI-D(9)
LMI-D(8)
LMI-D(23)
LMI-D(22)
LMI-D(21)
LMI-D(20)
LMI-D(19)
LMI-D(18)
LMI-D(17)
LMI-D(16)
LMI-D(30)
LMI-D(31)
LMI-D(28)
LMI-D(29)
LMI-D(26)
LMI-D(27)
LMI-D(24)
LMI-D(25)
G
1
3AAE
RES
LMI
2V5-LMI
220R
L
U
B
VSSQ
10u
2AB9
IAA0
+2V5
DQS
LMI-D(8)
LMI-D(9)
LMI-D(10)
LMI-D(11)
LMI-D(12)
LMI-D(13)
LMI-D(14)
LMI-D(15)
LMI-D(24)
LMI-D(25)
LMI-D(26)
LMI-D(27)
LMI-D(28)
LMI-D(29)
LMI-D(30)
LMI-D(31)
9AA0
Φ
H
CK
CK
CKE
CS
RAS
CAS
WE
3AAD
5AA0
VREF
34
7A00-3
STI7101BWC
D
L
LMI-CLKnot
LMI-CLK
LMI-CLKEN
LMI-CSnot
LMI-RASnot
LMI-CASnot
LMI-WEnot
VSS
F
I
49
3AAC RES
390R
46
45
44
24
23
22
21
LMI-VREF
D
L
DM
U
2
4
5
7
8
10
11
13
54
56
57
59
60
62
63
65
560R 1%
12
6
66
48
16
51
20
47
VSSQ
VSS
34
L
U
26
27
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
560R
1%
CK
CK
CKE
CS
RAS
CAS
WE
LMI-BA0
LMI-BA1
LMI-DQM1
LMI-DQM3
NC
120K
560R
1%
VREF
LMI-D(0)
LMI-D(1)
LMI-D(2)
LMI-D(3)
LMI-D(4)
LMI-D(5)
LMI-D(6)
LMI-D(7)
LMI-D(16)
LMI-D(17)
LMI-D(18)
LMI-D(19)
LMI-D(20)
LMI-D(21)
LMI-D(22)
LMI-D(23)
A
14
17
19
25
43
50
53
VDDQ
Φ
DDR
SDRAM
16Mx16
64
D
L
DM
U
2
4
5
7
8
10
11
13
54
56
57
59
60
62
63
65
VDD
0
1
2
3
4
5
A
6
7
8
9
10
11
12
AP
0
BA
1
58
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
29
30
31
32
35
36
37
38
39
40
28
41
42
1
61
55
9
3
33
18
15
NC
LMI-A(0)
LMI-A(1)
LMI-A(2)
LMI-A(3)
LMI-A(4)
LMI-A(5)
LMI-A(6)
LMI-A(7)
LMI-A(8)
LMI-A(9)
LMI-A(10)
LMI-A(11)
LMI-A(12)
560R 1%
2AB8
C
DDR
SDRAM
16Mx16
14
17
19
25
43
50
53
1n0
100n
1n0
2AA8
10u
2AA7
560R 1%
2AA6
3AAP
49
3AAB RES
390R
46
45
44
24
23
22
21
LMI-CLKnot
LMI-CLK
LMI-CLKEN
LMI-CSnot
LMI-RASnot
LMI-CASnot
LMI-WEnot
7AA2
EDD2516AETA-5B-E
VDDQ
14
2V5-LMI
2AA9
20
47
FAA0
FAA1
E
26
27
LMI-DQM0
LMI-DQM2
Φ
2AA0 A5
2AA1 A6
2AA2 A11
2AA3 A12
2AA6 C3
2AA7 C3
2AA8 C3
2AA9 C9
2AAA D1
2AAB D2
2AAE D2
2AAF D2
2AAG D2
2AAH D3
2AAJ D3
2AAK D3
2AAL D3
2AAM D3
2AAN D4
2AAP D4
2AAR D4
2AAS D4
2AAT D5
2AAU D5
2AAV E5
2AAW E5
2AAZ E3
2AB0 E3
2AB1 E3
2AB2 E3
2AB3 E3
2AB4 E4
2AB5 E4
2AB6 E4
2AB7 E4
2AB8 H11
2AB9 H11
2ABA H12
2ABB I12
2ABC D1
3AA1-1 D7
3AA1-2 D7
3AA1-3 D7
3AA1-4 D7
3AA2-1 D8
3AA2-2 E8
3AA2-3 E8
3AA2-4 E8
3AA3-1 E7
3AA3-2 E7
3AA3-3 E7
3AA3-4 E7
3AA4-1 E8
3AA4-2 E8
3AA4-3 E8
3AA4-4 E8
3AA5-1 F7
3AA5-2 E7
3AA5-3 E7
3AA5-4 E7
3AA6-1 F8
3AA6-2 F8
3AA6-3 F8
3AA6-4 F8
3AA7-1 F7
3AA7-2 F7
3AA7-3 F7
3AA7-4 F7
3AA8-1 F8
3AA8-2 F8
3AA8-3 F8
3AA8-4 F8
3AA9 G7
3AAA G11
3AAB B4
3AAC B10
3AAD H11
3AAE D10
3AAF D10
3AAG F11
3AAH F10
3AAK G8
3AAL G7
3AAM G8
3AAN B3
3AAP C3
3AAQ D13
3AAR I12
3AAS I12
3AAT I10
5AA0 D1
7A00-3 D9
7AA1 A5
7AA2 A11
9AA0 D10
9AA1 D10
9AA2 F11
FAA0 B3
FAA1 C2
FAA2 H11
FAA3 H12
IAA0 D1
IAA1 F10
IAA2 I10
IAA3 I12
IAA4 D13
IAA5 D13
10u
10u
64
D
LMI-BA0
LMI-BA1
VDD
0
1
2
3
4
5
A
6
7
8
9
10
11
12
AP
0
BA
1
58
3AAN
B
LMI-VREF
560R 1%
2V5-LMI
29
30
31
32
35
36
37
38
39
40
28
41
42
52
C
LMI-A(0)
LMI-A(1)
LMI-A(2)
LMI-A(3)
LMI-A(4)
LMI-A(5)
LMI-A(6)
LMI-A(7)
LMI-A(8)
LMI-A(9)
LMI-A(10)
LMI-A(11)
LMI-A(12)
1
7AA1
EDD2516AETA-5B-E
A
20
19
2AA3 RES
2V5-LMI
B
18
LMI DDR SDRAM SYS
10u
10u
17
12
2AA1 RES
2AA0
16
11
LMI DDR SDRAM SYS
STI7100 : DDR1
15
A
B
C
D
E
F
G
H
I
J
K
L
M
100n
2
2ABB
1
N
10
11
12
13
14
O
O
CHN
DC320600
SETNAME
CLASS_NO
TV522
3PC332
P
" XAA0 ~ XABZ "
1
2
3
4
5
6
7
8
9
10
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14401
11
12
13
14
-- -- --
1
-- -- --
2
2008-03-17
3
SV
CHECK
15
DATE
16
2008-03-17
130
10
C
17
1
2008-03-17
P
42
SUPERS.
2008-09-05
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Li LingHuan
2
9
A2
ROYAL PHILIPS ELECTRONICS N.V. 2008
18
19
20
18680_508_090827.eps
090827
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 85
SSB: STI7100: AV-Interface
1
2
3
4
5
6
7
8
9
10
12
11
13
14
15
16
17
18
20
19
A
A
B
1
2
3
6
5
4
7
8
A
C
A
D
STI7100 : AV-INTERFACE
B
B
E
7A00-1
STI7101BWC
Φ
USED FOR IPTV
C
F
G
3AC6-1
3AC6-2
3AC6-3
3AC6-4
3ACB-4
3ACC
3ACD
3ACB-1
3AC8-2
3AC8-1
3A03
3A04
3ACB-3
3AC7-1
3AC7-2
3AC7-3
MII-TXD(0)
MII-TXD(1)
MII-TXD(2)
MII-TXD(3)
MII-TXEN
MII-MDIO
MII-MDC
MII-RXCLK
MII-RXD(0)
MII-RXD(1)
MII-RXD(2)
MII-RXD(3)
MII-TXCLK
MII-COL
MII-CRS
MII-MDINT
D
8
7
6
5
5
1
2
1
8
7
8
3
1
2
3
6
8
7
6
3ACB-2 2
3AC8-3 3
MII-RX-ER
MII-RX-DV
H
7
6
33R
33R
33R
33R
33R
33R
33R
33R
33R
33R
47R
47R
33R
33R
33R
33R
33R
33R
IAC4
IAC5
1u0
2AC0
3AC1
560R
5%
L34
L33
K34
K33
J34
J33
H34
H33
U30
T31
T30
R31
R30
P31
P30
N31
M34
M33
C28
C27
B28
A28
B27
A27
E
IAC6
SPDIF-IN
3AC0
68R
I
IAC7
D24
E24
E26
D26
A25
B25
C25
D25
E25
PCMOUT2
PCMOUT3
PCMOUT4
AV
INTERFACE
0
1
2
3
4
5
6
7
8 VIDDIGOUTYC
9
10
11
12
13
14
15
R0OUT
VIDANA G0OUT
B0OUT
IDUMPR0
VIDANA IDUMPG0
IDUMPB0
C1OUT
VIDANA CV1OUT
Y1OUT
IDUMPC1
VIDANA IDUMPCV1
IDUMPY1
VIDANA
VSYNC
VIDDIGOUT
HSYNC
VBGFIL
AUDANA
IREF
REXT0
REXT1
GNDAREXT0
VIDANA
GNDAREXT1
MRIGHT
PRIGHT
TXCP
TXCN
TX0P
TX0N
TMDS TX1P
TX1N
TX2P
TX2N
AUDANAOUT
MLEFT
PLEFT
SPDIF
SCLK
AUDOUT
LRCLK
PCMCLK
TMDSREF
C
D34
F34
E34
D33
F33
E33
IAC2
A33
C33
B33
DATAIN
AUDDIG DSTRBIN
DLRCLKIN
A31
A32
E
F
IAC3
B31
B32
T32
22K
3AC4
PEND NEW 12NC
6AC1
ESDA6V1SC6
12K
3AC5
22K
U33
U34
T33
T34
R33
R34
P33
P34
FAC0
D29
D28
E28
G
D
MPEG-TXC+
MPEG-TXC+
MPEG-TXCMPEG-TX0+
MPEG-TX0MPEG-TX1+
MPEG-TX1MPEG-TX2+
MPEG-TX2-
1
6
2
5
3
4
MPEG-TX0+
6
MPEG-TX1-
MPEG-TXC-
H
MPEG-TX0-
E
PEND NEW 12NC
6AC2
ESDA6V1SC6
3AC9
+3V3TMDS
MPEG-TX1+
I
1
3ACA
100R 1%
MPEG-TX2-
2
5
3
4
MPEG-TX2+
F
F
J
D
3AC2
12K
3AC3
100R 1%
0
1
2 AUDPCMOUT
3
4
C
A34
FAC1
C34
B34
COMPENSATION RESISTOR
J
K
K
G
G
owner.
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
1
2
3
4
4
B
2AC0 D3
3A03 D3
3A04 D3
3AC0 E3
3AC1 E3
3AC2 D6
3AC3 D6
3AC4 D6
3AC5 D6
3AC6-1 C3
3AC6-2 C3
3AC6-3 C3
3AC6-4 C3
3AC7-1 D3
3AC7-2 D3
3AC7-3 D3
3AC8-1 D3
3AC8-2 D3
3AC8-3 D3
3AC9 E6
3ACA F6
3ACB-1 D3
3ACB-2 D3
3ACB-3 D3
3ACB-4 C3
3ACC C3
3ACD C3
6AC1 D8
6AC2 E8
7A00-1 C5
FAC0 E5
FAC1 D5
IAC2 D6
IAC3 D6
IAC4 D4
IAC5 E3
IAC6 E3
IAC7 E3
9
L
L
2
1
3
4
5
6
7
8
9
M
M
N
N
O
O
CHN
DC320600
SETNAME
CLASS_NO
TV522
3PC332
P
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14401
" XAC0 ~ XACZ"
1
2
3
4
5
6
7
8
9
10
11
12
13
14
-- -- --
1
-- -- --
2
2008-03-17
3
SV
CHECK
15
DATE
16
2008-03-17
10
C
17
1
2008-03-17
P
42
SUPERS.
2008-09-05
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Li LingHuan
2
130
10
A2
ROYAL PHILIPS ELECTRONICS N.V. 2008
18
19
20
18680_509_090827.eps
090827
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 86
SSB: STI7100: Power
1
2
A
3
1
4
5
2
6
7
4
3
8
5
11
10
9
6
7
12
8
13
9
14
10
16
15
11
12
19
18
17
13
20
STI7100 : POWER
B
A
A
7A00-5
STI7101BWC
B29
D31
+2V5-CLKGENA
100n
B1
F3
C2
E4
C3
CKGA_PLL1_AVDDPLL2V5
CKGA_PLL1_DVDDPLL1V0
CKGA_PLL2_AVDDPLL2V5
CKGA_PLL2_DVDDPLL1V0
CKGA_PLL_VDDE2V5
M30
J30
L30
H30
G32
N30
K30
E29
VDDE-2V5
IAE3
VDDE-2V5
100n
I
CLOCKGENC
C29
G30
E31
IAE4
+2V5-CLKGENA
LMI
100n
2V5-LMI
J
IAE8
2V5-LMI
1n0
owner.
IAE9
5AE5
+1V
IAE5
5AE0
VDDE-3V3
220R
F
B
C
D
E
F
G
H
I
J
G
K
LMIVIDVDDE2V5
LMIVIDDLL_VDD
L
D27
M32
+1V
+1V
H
100n
100n
2AEU
GND_ANA1
GND_ANA2
100n
2AEM
1n0
ANALOG
2AE5
H
100n
2AGH
2AGG
30R
LMISYSDLL_VDD
1n0
2AEA
L
LMISYSVDDE2V5
1n0
2AEZ
2AEH
G
100n
2AGT
30R
G3
C12
LMISYSDLL_VSS
LMIVIDDLL_VSS
1n0
2AEL
5AE9
+1V
T1
T2
U3
V3
W3
Y3
Y4
AA3
AA5
AB3
AC3
H4
C4
C5
C6
C7
C8
C9
C10
C13
D12
E12
A12
1n0
2AE9
2AGC
1n0
2AGD
30R
C31
G31
F32
FS0_GNDA
FS0_GNDD
GNDE_FS0_ANA
D
+3V3
100n
2AFT
+2V5
F
FS0_VCCA
FS0_VDDD
VDDE2V5_FS0_ANA
1n0
2AE6
5AE7
C
E
100n
2AFS
100n
2AGN
100n
2AGB
1n0
2AGA
1n0
2AG9
1n0
2AG8
1n0
2AG7
1n0
2AG6
1n0
2AG5
100n
2AG4
1n0
2AFY
2AFW
220R
GNDE 3V3
100n
2AER
+2V5
M31
J31
L32
H31
F31
D32
K31
K32
CKGB_4FS0_GNDA
CKGB_4FS0_GNDD
CKGB_4FS1_GNDA
CKGB_4FS1_GNDD
GNDE_4FS_ANA
AGNDPLL80v0
DGNDPLL80v0
GNDE_PLL80_ANA
CKGB_4FS0_VCCA
CKGB_4FS0_VDDD
CKGB_4FS1_VCCA
CKGB_4FS1_VDDD
VDDE2V5_4FS_ANA
AVDDPLL80v0
DVDDPLL80v0
VDDE2V5_PLL80_ANA
VDDE-2V5
100n
2AGP
5AE4
D1
D3
D2
E3
CKGA_PLL1_AGNDPLL2V5
CKGA_PLL1_DGNDPLL1V0
CKGA_PLL2_AGNDPLL2V5
CKGA_PLL2_DGNDPLL1V0
GND
100n
2AFL
1n0
2AF5
2AF4
+1V
CLOCKGENB
E
A30
B30
E32
AUD_GNDA
AUD_GNDAS
GNDE_AUD_ANA
AUD_VCCA
VDDE2V5_AUD_ANA
CLOCKGENA
+3V3TMDS
30R
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
C32
F30
J32
DA_HD_0_GNDA
DA_SD_0_GNDA
GNDE_VID_ANA
IAE2
5AE2
+3V3
K
DA_HD_0_VCCA
DA_SD_0_VCCA
VDDE2V5_VID_ANA
ADAC
G
H
D30
E30
H32
GNDE
100n
VDDE-2V5
100n
100n
2AE7
D
1n0
2AE2
2AE8
1n0
2AEB
220R
VDD
VDDE 3V3
B
100n
2AFK
VDAC
A24
B24
C14
C15
C16
C17
C18
C19
C20
C21
C22
C23
C24
D23
E23
J3
K3
L3
M3
N3
P3
R3
R4
R5
T3
AD3
AE3
AF3
AG3
AH3
AJ3
AM4
AM6
AN4
AN6
AP4
AP6
V30
U31
AH32
AK32
AJ32
AG34
AG33
AG32
100n
2AFJ
+1VTMDS
A26
B26
C26
G33
G34
AF31
AF32
AF33
AF34
AK23
AK24
AM9
AM10
AM11
AM12
AM13
AM14
AM15
AP7
AN8
1n0
2AFF
+3V3TMDS
IAE1
5AE8
+1V
100n
2AF8
F
N34
N33
V34
V32
P32
V33
U32
N32
R32
TMDSVSSC0
TMDSVSSC1
TMDSVSSC2
TMDSVSSCK
TMDSVSSP
TMDSVSSX
TMDSVSSSL
TMDSVSSD
TMDSGNDE
TMDSVDDC0
TMDSVDDC1
TMDSVDDC2
TMDSVDDCK
TMDSVDDP
TMDSVDDX
TMDSVDDSL
TMDSVDDD
TMDSVDDE3V3
TMDSVDD
100n
2AF0
C
W31
Y32
W34
W32
AC32
W33
AA32
AB32
W30
V31
VDDE-3V3
VDDE 2V5
1n0
2AFE
+1VTMDS
AK3
AK7
1n0
2AFD
TMDS
POWER
(2V5, 3V3)
VDDE-2V5
1n0
2AFC
AP28
AN28
AM27
AL27
AM28
SATAVSST
SATAVSSR
SATAVSSREF
SATAVSSOSC
SATAVSSDLL
SATAVDDT0
SATAVDDT1
SATAVDDR0
SATAVDDR1
SATAVDDREF
SATAVDDOSC2V5
SATAVDDOSC
SATAVDDDLL
H3
N13
N14
N15
N20
N21
N22
P13
P14
P15
P16
P19
P20
P21
P22
R14
R15
R16
R19
R20
R21
T15
T16
T17
T18
T19
T20
U15
U16
U17
U18
U19
U20
V15
V16
V17
V18
V19
W15
W16
W17
W18
W19
W20
Y14
Y15
Y16
Y19
Y20
Y21
AA13
AA14
AA15
AA16
AA19
AA20
AA21
AA22
AB13
AB14
AB15
AB20
AB21
AB22
AK4
AK5
AK29
AK30
AK31
AL4
AL5
AL31
AM22
AN26
AN32
AP26
AP32
V20
1n0
2AFB
1n0
1n0
2AFR
1n0
2AFQ
1n0
2AFP
1n0
2AFN
1n0
2AEP
100n
2AEN
100n
2AEK
100n
2AEJ
100n
2AEG
1u0
2AEF
1u0
2AEE
VDDE-2V5
E
AN29
AP29
AM29
AL28
AL30
AM26
AL26
AL29
POWER
(1V0)
2AEC
SATA-I
IAE6
+1V
2AED
F4
F5
G4
N16
N17
N18
N19
P17
P18
R13
R17
R18
R22
T13
T14
T21
T22
U13
U14
U21
U22
V13
V14
V21
V22
W13
W14
W21
W22
Y13
Y17
Y18
Y22
AA17
AA18
AB17
AB18
AB19
AF30
AK16
AL7
AB16
AL16
AM7
AM16
AM17
AM18
AM19
AN7
AN16
AP16
+1V
AN23
AL23
AM23
AP23
USBVSSC2V5
USBVSSBS
USBVSSP2V5
USBVSSP
USBVDDBC2V5
USBVDDBS
USBVDDP2V5
USBVDDP
1n0
B
AL24
AM24
AL25
AN24
AP24
1n0
2AET
D
VDDE-3V3
VDDE-2V5
SENSE+1V
Φ
EMC
IAEA
USB2
cA00
+1V
7A00-6
STI7101BWC
Φ
100n
2AFH
Φ
100n
2AFG
7A00-7
STI7101BWC
POWER (MISC)
2AGU
C
A
2AE2 D2
2AE5 H8
2AE6 H9
2AE7 D2
2AE8 D1
2AE9 H9
2AEA H10
2AEB D1
2AEC F12
2AED B2
2AEE B2
2AEF B3
2AEG B3
2AEH G5
2AEJ B3
2AEK B3
2AEL H9
2AEM H10
2AEN B3
2AEP B4
2AER H11
2AET H9
2AEU H10
2AEZ H10
2AF0 H10
2AF4 E1
2AF5 E1
2AF8 H11
2AFB F12
2AFC F12
2AFD F12
2AFE F13
2AFF F13
2AFG F13
2AFH F13
2AFJ F13
2AFK F14
2AFL H11
2AFN B4
2AFP B4
2AFQ B4
2AFR B4
2AFS H11
2AFT H12
2AFW E1
2AFY E1
2AG4 E2
2AG5 E2
2AG6 E2
2AG7 E2
2AG8 E2
2AG9 E3
2AGA E3
2AGB E3
2AGC F1
2AGD F1
2AGG H5
2AGH H5
2AGN E3
2AGP H11
2AGT G5
2AGU F11
5AE0 E12
5AE2 D1
5AE4 E1
5AE5 H4
5AE7 F1
5AE8 D1
5AE9 G4
7A00-5 A10
7A00-6 A13
7A00-7 A7
IAE1 D1
IAE2 D1
IAE3 E1
IAE4 F1
IAE5 E12
IAE6 B2
IAE8 G5
IAE9 H5
IAEA B9
cA00 B2
14
M
M
2
1
3
4
5
7
6
8
11
10
9
13
12
14
N
N
O
O
CHN
DC320600
SETNAME
CLASS_NO
TV522
3PC332
P
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14401
" XAE0 ~ XAGZ "
1
2
3
4
5
6
7
8
9
10
11
12
13
14
-- -- --
1
-- -- --
2
2008-03-17
3
SV
SUPERS.
CHECK
15
DATE
16
130
10
C
17
1
2008-03-17
P
42
2008-03-17
2008-09-05
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Li LingHuan
2
A2
11
ROYAL PHILIPS ELECTRONICS N.V. 2008
18
19
20
18680_510_090827.eps
090827
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 87
SSB: STI7100: Debug
1
2
3
4
A
5
6
1
7
8
2
10
9
3
11
12
5
4
6
A
B
13
A
STI7100 : DEBUG
C
B
B
RESERVED
2AM0
100n
IAM2
E
1
100R
F
C2+
2AM3
100n
C2-
11
10
13
8
15
16
18
17
19
20
A
1AM0 D6
1AM2 E6
2AM0 C4
2AM1 C3
2AM2 C4
2AM3 C4
2AM4 C3
3AM0 F5
3AM1 D3
3AM2 D4
3AM3 D4
3AM4 G3
3AM7 E4
3AM8 G4
7AM0 C3
7AM1-1 E3
7AM1-2 G3
9AM0 F5
9AM1 E2
9AM2 H3
FAM0 D5
FAM1 D5
FAM2 D5
FAM3 E5
FAM4 F5
FAM5 F5
FAM6 F5
FAM7 F5
FAM8 F5
FAM9 F5
FAMA F5
FAMB G5
FAME G6
FAMJ E5
IAM1 C3
IAM2 C3
IAM3 C4
B
C
D
E
RS232 FOR MPEG4
T1
IN
T2
OUT
R1
IN
R2
OUT
100R
12
9
R1
R2
1AM0
3AM2
14
7
T1
T2
FAM0
3AM3
FAM1
FAM2
5
100R
4
1
2
3
F
D
B3B-PH-SM4-TBT(LF)
15
D
C
2AM2
100n
2
V+
5
3AM1
TXD-ASC2
IAM3
6
C1-
4
100n
VCC
RS232
V-
3
2AM4
Φ
C1+
GND
C
IAM1
16
7AM0
ST3232C
2AM1
100n
+3V3
D
14
G
G
RXD-ASC2
+3V3
14
E
9AM1
7AM1-1
74LVC07APW
3AM7
1
H
1AM2
FAMJ
TRIG-OUT
FAM3
TRIG-IN
FAM4
9AM0
RES
ASEBRKn
33R
JTAG-TDI-ST
FAM5
FAM7
FAM8
JTAG-TDO-ST
FAM9
RST-TARGETn
FAMA
FAMB
JTAG-TRSTn-ST
+3V3
FAME
J
H
F
I
J
5-147279-5
7AM1-2
74LVC07APW
3AM8
3
4
+3V3
10K
7
BUF-RST-TARGETn
G
14
10K
3AM4
G
K
K
9AM2
owner.
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
3AM0
JTAG-TCK-ST
F
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
FAM6
JTAG-TMS-ST
I
E
ST40 DEBUG LINK
+3V3
10K
7
2
H
H
L
L
2
1
3
4
5
6
M
M
N
N
O
O
CHN
DC320600
SETNAME
CLASS_NO
TV522
3PC332
P
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14401
" XAM0 ~ XAMZ "
-- -- --
1
-- -- --
2
2008-03-17
3
SV
1
2
3
4
5
6
7
8
9
10
11
12
13
14
CHECK
15
DATE
16
2008-03-17
C
17
1
2008-03-17
P
10
42
SUPERS.
2008-09-05
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Li LingHuan
2
130
12
A2
ROYAL PHILIPS ELECTRONICS N.V. 2008
18
19
20
18680_511_090827.eps
090827
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 88
SSB: PNX8541: Stand-by Controller
1
2
3
1
5
4
2
6
3
7
4
9
8
5
10
6
7
11
8
12
9
14
13
10
15
16
11
17
12
19
18
13
1H00 A4
2H00 C3
2H01 E3
2H02 B3
2H03 F6
2H04 A3
2H06 C14
2H07 C14
2H10 D11
3H00 B11
3H01 B12
3H02 B11
3H03 B12
3H04 B11
3H05 C12
3H06 C11
3H07 C12
3H08 C11
3H0A B3
3H0B G13
3H0C G11
3H10 B2
3H12 F12
3H13 B1
3H14 B2
3H15 B1
3H16 B2
3H17 B1
3H19 B2
3H20 C1
3H21 C2
3H22 F12
3H23 C1
3H24 C2
3H25 E12
3H26 C1
3H27 C2
3H28 C1
3H29 G12
3H30 D2
3H31 D1
3H32 B11
3H36 D2
3H37 D4
3H38-1 B7
3H38-2 B7
3H38-3 B7
3H38-4 C7
3H39 C2
3H41 F9
3H42 C1
3H43 F8
3H44 I4
3H46 C2
3H48 C1
3H51 C2
3H52 D2
3H53-2 C7
3H54 C7
3H56 C7
3H58 D2
3H60 D1
3H64 D1
3H70 E2
3H78-1 E5
3H78-2 E6
3H78-3 H4
3H78-4 H4
3H86-1 F4
3H86-2 F4
3H86-3 F3
3H86-4 F2
3H87-1 I3
3H87-2 I3
3H87-3 I2
3H87-4 I4
3H92-1 G4
3H92-2 G4
3H92-3 G3
3H92-4 H3
6H00 H13
6H02 F5
6H03 H13
7H00-6 A5
7H02 D11
7H03 F12
7H06 G12
7H07 G13
7H14 F6
7H16-1 F5
7H16-2 G5
7H93-1 H5
7H93-2 H4
9H01 D14
9H02 D14
9H03 C14
9H04 B13
9H05 F12
9H06 E2
9H07 G12
9H08 C14
9H0A C8
9H0B C8
9H0C H5
9H0D A1
9H0E B1
9H0F B2
AH00 A4
FH00 C13
FH01 D13
14
A
PNX 8541 : STANDBY CONTROLLER
A
10K
22K
+3V3-STANDBY
3H48
100K
1H00
27p
P0.5
IH9P
P0.6
P0.7
2H00
1n0
RC_uP
LED2
CEC-HDMI
SUPPLY-FAULT
DETECT1
10K
3H46
27K
3H51
3H21 100K
3H23
E
+3V3-STANDBY
10K
3H24
10K
3H27
10K
3H30
10K
10K
3H26
10K
3H28
100K
3H31
10K
+3V3-STANDBY
P2.0
P2.1
P2.2
P2.3
P2.4
P2.5
IH9F
P2.6
P2.7
3H58
3H60
10K
RXD-UP
TXD-UP
10K
3H36
Include for 22M
D
IH9Q
IH9R
10K
27p
RC_uP
LED2
CEC-HDMI
SUPPLY-FAULT
DETECT1
AA2
AA1
AB4
AB3
AB2
P2.0
P2.1
P2.2
P2.3
P2.4
P2.5
P2.6
P2.7
V2
V1
W4
W3
W2
W1
Y4
Y3
RXD-UP
TXD-UP
IRQ-FRAME-SYNC
AB1
AC5
AC4
AC3
AC2
AC1
IRQ-FRAME-SYNC
IH02
3H37
10K RES
RESET-SYSTEM
3H64
10K
3H52
10K
3H70
BOOTMODE
G
SDM
KEYBOARD
100n
IRQ-FRAME-SYNC
680R
2H01
9H06
Include for 22M
10K
3H00
SPI-PROG
SPI-WP
0
1
2
3
P0
4
5
6
7
I2C uP
SCL
SDA
0
1
PWM
0
1
2 P1
3
7
PSEN
ALE
EA
AG4
AH3
3H38-2 7
AD3
AD2
3H38-4 5
8
Y1
Y2
IH9K
AA4
3H38-1
2
1
100R
SCL-UP-MIPS
SDA-UP-MIPS
100R 3H38-3
6
3
100R
4
100R
3H53-2
3H54
100R
100R
3H56
CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3
LED1
IH9H
PSEN
ALE
EA
9H0A
7H02
M25P05-AVMN6
C
100p
RES
100p
FH01
5
SPI-SDO
IH03
6
SPI-CLK
IH06
1
SPI-CSB
IH07
3
SPI-WP
4
P6
5
7
7 3H78-2 2
C
Φ
IH01
512K
FLASH
Q
2
FOR SERVICE ONLY
SPI-SDI
W
HOLD
VSS
4
+5V
+3V3
+12VD
3H41
10K
3
3K3
IH09
3H43
2
E
+3V3
RES
10K
FH04
DETECT2
7H03
BC847BW
RES
IH10
IH11
9H05
IH16
1
1
2H03
D
S
4K7 RES
DETECT1
7H14
PDTC114EU
1
7H16-1
BC847BS
1
D
10K
IH9T
9H01
9H02
VCC
IH00
10K
8 3H78-1 1
F
2
1
6H02
10K
9H03
FH03
2H07 RES
CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3_BOOTMODE
0
1
P5
2
3
IH14
FH00
SPI-PROG
SDM
1
IH19
2 3H86-2 7
BAS316
I
IH9D
10K
10K
6 3H86-3 3
1 3H86-1 8
IH9E
10K
10K
9H08
BOOTMODE
+3V3-STANDBY
6
4 3H86-4 5
3H08
FOR SERVICE ONLY
CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3
RES 9H0B
Include for 22M
3
+3V3
3H07
10K
+3V3-STANDBY
H
10K
10K
2H06 RES
SPI-PROG
SPI-WP
E
3H06
EA
B
3H05
+3V3-STANDBY
0
1
2
P3
3
4
5
AE2
AE4
3H03
10K
ALE
DEVELOPMENT ONLY
4K7
3H04
PSEN
KEYBOARD
10K
4K7
CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3
LED1
+3V3-STANDBY
3H01
10K
3H02
SCL-UP-MIPS
SDA-UP-MIPS
100R
0
1
2
3
P2
4
5
6
7
AF4
AF3
AF2
AF1
RESET-SYSTEM
AV2-BLK
SDM
KEYBOARD
LIGHT-SENSOR
AV1-STATUS
AV2-STATUS
3H32
SPI-SDI
RES
9H04
P0.4
3H39
3H42
10K
C
P0.2
P0.3
U5
U4
U3
U2
U1
V5
V4
V3
SPI-SDO
SPI-SDI
SPI-CLK
SPI-CSB
2
3H17
3H20
P0.1
P0.0
P0.1
P0.2
P0.3
P0.4
P0.5
P0.6
P0.7
AD4
AE1
AD1
AE3
3H25
10K
P0.0
RESET_IN
SDO
SDI
CLK
CSB
1
10K
3H14
10K
3H16
10K
3H19
4K7
10K
3H15
D
IH9M
IH9N
SPI
3H22
3H13
+3V3-STANDBY
O
3H12
4K7 RES
3H10
XTAL
AG2
AA3
RESET-STBY-J
B
I
100n
C
AG1
2H10
RES
3H0A
RC2
RC1
RES FOR ITV
F
STANDBY CONTROL
+3V3-STANDBY
2H02
9H0F
9H0E
AH00
8
RC
7H00-6
PNX8535
10K
9H0D
RC_uP
27M
A
2H04
B
CTRL1-STBY_LAMP-ON
2
F
LAMP-ON-OUT
1u0
3H29
2
7H16-2
BC847BS
4
10K
5
10K
3H92-2
10K
3H0B
9H07
7
J
3H0C
10K
IH17
1
7H06
PDTC114EU
100R
G
7H07
PDTC114EU
+12VD
8
3H92-1
CTRL3-STBY_POWER-OK-DISP
100R
1
G
+1V4-PNX5050
IH26
2
7H93-1
BC847BS
1
FH02
AUDIO-MUTE-UP
6H03
H
IH91
AUDIO-MUTE
AUDIO-RESET
IH08
5
BAS316
4
10K
10K
7 3H87-2 2
10K
10K
1 3H87-1 8
5 3H87-4 4
IH18
1
2
3
5
1
4
I
N
3
10K
IH9G
3 3H87-3 6
7H93-2
BC847BS
3H44
+5V
H
IH0Z
10K
3H78-4
L
M
6H00
BAS316
Include for 22M
3
3H78-3
10K
10K
6
4 3H92-4 5
9H0C
6
K
owner.
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
IH04
6 3H92-3 3
+3V3-STANDBY
RESERVED
3
+1V2-PNX8541
I
5
4
7
6
8
9
10
12
11
13
20
FH02 H13
FH03 C13
FH04 E8
IH00 D10
IH01 D11
IH02 D4
IH03 D10
IH04 G4
IH06 D10
IH07 D10
IH08 H5
IH09 F12
IH0Z H13
IH10 F12
IH11 F12
IH14 F5
IH16 F5
IH17 G5
IH18 I4
IH19 F4
IH26 H4
IH91 H4
IH9D F3
IH9E F3
IH9F D3
IH9G I3
IH9H C8
IH9K C6
IH9M B3
IH9N B3
IH9P B3
IH9Q C3
IH9R C3
IH9T E6
A
B
C
D
E
F
G
H
I
J
K
L
M
N
14
O
O
CHN
SETNAME
DC320600
CLASS_NO
TV522
3PC332
P
" XH00 ~ XH9Z "
1
2
3
4
5
6
7
8
9
10
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14411
11
12
13
14
-- -- --
1
-- -- --
2
2008-03-17
3
SV
CHECK
15
DATE
16
2008-03-17
10
C
17
1
2008-03-17
P
42
SUPERS.
2008-09-05
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Vincent Yap / Yeam SL
2
130
13
A2
ROYAL PHILIPS ELECTRONICS N.V. 2008
18
19
20
18680_512_090827.eps
090827
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 89
SSB: PNX8541: Debug
1
2
3
4
5
Personal Notes:
6
A
A
1H10-1 A1
1H10-2 A4
9H09 C3
9H10 C3
B
B
1
2
4
C
PNX8541 : DEBUG
A
A
RES
RES
ROW_2
1H10-2
ROW_1
1H10-1
D
owner.
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
C
3
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
45
47
49
B
E
F C
HP-DETECT
RESET-NVM_WP-NANDFLASH
ENABLE-1V2
REGIMBEAU_CVBS-SWITCH
ENABLE-3V3
CTRL1-STBY_LAMP-ON
AUDIO-RESET
UART-SWITCH
P0.0
P0.1
P0.2
P0.3
P0.4
P0.5
P0.6
P0.7
BOLT-ON-IO_RESET-STI7100
EJTAG-DETECT
AV1-BLK
STANDBY
AUDIO-MUTE-UP
DETECT2
CTRL4-STBY_SELECT-PWM-ANA
CTRL3-STBY_POWER-OK-DISP
P2.0
P2.1
P2.2
P2.3
P2.4
P2.5
P2.6
P2.7
RES 9H09
RES 9H10
ALE
PSEN
EA
+3V3-STANDBY
+3V3-STANDBY
RESET-STBY-J
RESET-STBY
D
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
B
C
G
G
2
1
3
4
H
H
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711 I
CELL 12NC : 8239 125 14411
" XH00 ~ XH1Z "
CHN
DC320600
SETNAME
CLASS_NO
TV522
3PC332
J
F
FTSH-125-01-L-DV
FTSH-125-01-L-DV
I
E
-- -- --
1
-- -- --
2
2008-03-17
3
CHECK
SV
1
42
SUPERS.
DATE
2
2008-03-17
10
J
130
14
A4
ROYAL PHILIPS ELECTRONICS N.V. 2008
C
3
2008-09-05
2008-03-17
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Vincent Yap / Yeam SL
2
1
4
5
6
18680_513_090827.eps
090827
2009-Dec-04
E_06532_012.eps
131004
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 90
SSB: PNX8541: NVM
1
2
3
4
2
1
5
6
3
8
7
5
4
9
6
10
7
11
+3V3-PER
2
IHC2
FHC6
RESET-NVM_WP-NANDFLASH
1
3HC2-1
10K
A
FHC9
8
BC857BW
7HC4
10K
3HC2-3
6
8
Φ
(8Kx8)
EEPROM
0
1
2
B
7
WC
6
SCL
ADR
5
SDA
FHC1
SCL-UP-MIPS
FHC2
SDA-UP-MIPS
4
10K
IHC7
1
2
3
100n
FHC7
A
B
C
D
D
MAIN NVM
6HC1
BAS316
C
IHC5
C
+3V3-EXT
+3V3
2HC1
E
RXD
2
1
13
E
RXD-UP
X1
7
FHC3
100n
14
7HC0-1
74HC4066PW
1
1
D
F
5
1
3
1
9
RXD-MIPS
F
X1
7
UART-SWITCHn
D
14
7HC0-2
74HC4066PW
4
1
6
TXD-UP
X1
E
E
7
G
14
7HC0-3
74HC4066PW
8
1
TXD
1
12
G
14
7HC0-4
74HC4066PW
11
1
10
TXD-MIPS
3HC8
H
F
UART-SWITCHn
FHC4
FHC5
UART-SWITCH
10K
2
7
X1
1
1
owner.
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
B
3HC9
7HC3
M24C64
C
3
2HC0 RES
IHC1
+3V3-PER
10K
B
7
3HC2-2
A
13
2HC0 B5
2HC1 C7
3HC2-1 A4
3HC2-2 A4
3HC2-3 B5
3HC7 F7
3HC8 F6
3HC9 B4
6HC1 C6
7HC0-1 C7
7HC0-2 D7
7HC0-3 E7
7HC0-4 E7
7HC1 F6
7HC2 F7
7HC3 B4
7HC4 A4
FHC1 B5
FHC2 B5
FHC3 D6
FHC4 F5
FHC5 F5
FHC6 A3
FHC7 C5
FHC9 A4
IHC1 B4
IHC2 A4
IHC5 C7
IHC7 B4
8
A
PNX 8541 : NVM
12
3HC7
H
2
F
10K
7HC2
PDTC144EU
7HC1
PDTC144EU
I
I
1
2
3
4
5
6
CHN
7
DC320600
8
SETNAME
CLASS_NO
TV522
3PC332
J
" XHC0 ~ XHCZ "
1
2
3
4
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14411
7
5
6
-- -- --
1
-- -- --
2
2008-03-17
3
CHECK
SV
8
SUPERS.
DATE
9
C
10
130
10
42
2008-03-17
2008-09-05
1
2008-03-17
J
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Vincent Yap / Yeam SL
2
A3
15
ROYAL PHILIPS ELECTRONICS N.V. 2008
11
12
13
18680_514_090827.eps
090827
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 91
SSB: PNX8541: Miscellaneous
1
3
2
4
1
5
2
6
3
4
8
7
5
9
6
11
10
7
12
8
A
PNX 8541 : MISCELLANEOUS
A
A
13
2HD0 D2
3HD3-1 C2
3HD3-2 D2
3HD3-3 D2
3HD3-4 C3
7HD0 C3
FHD0 C4
FHD1 C2
IHD0 C2
A
B
B
B
B
2
FHD1
3
IHD0
CD
NC
4
RESET-STBY
C
1
4
E
D
10K
6
3HD3-3
3
D
RST
GND
D
FHD0
100n
2HD0
2
E
10K
3HD3-2
7
5
IN
10K
8
7HD0
NCP303LSN10T1
1
C
10K
3HD3-1
D
C
+3V3-STANDBY
3HD3-4
5
+3V3-STANDBY
owner.
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
C
F
F
E
E
G
G
H
H
F
F
1
I
2
3
4
6
5
CHN
7
DC320600
8
I
SETNAME
CLASS_NO
TV522
3PC332
J
" XHD0 ~ XHDZ "
1
2
3
4
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14411
7
5
6
-- -- --
1
-- -- --
2
2008-03-17
3
SV
CHECK
8
42
SUPERS.
DATE
9
2008-03-17
10
C
10
2008-09-05
2008-03-17
J
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Vincent Yap / Yeam SL
2
1
130
16
A3
ROYAL PHILIPS ELECTRONICS N.V. 2008
11
12
13
18680_515_090827.eps
090827
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 92
SSB: PNX8541: Control Mips
1
4
2
5
6
3
8
7
5
4
9
6
7
A
AK1
AJ2
AK3
AJ3
AK2
AK27
AH27
AK29
AK28
AJ28
AJ27
SCL1
SDA1
SCL2
SDA2
SCL3
SDA3
B
TDI
TCK
TMS EJTAG
TRST
TDO
9HF8
D
C
+3V3-PER
AE27
IHF8
IRQ-CA
3HP8
AJ26
AK26
3HF0
A
7HF2
PDTC114EU
RESET-SYSTEM
IHF6
PCI-CLK-OUT
33R
B
PCI-CLK-OUT
IHF5
3HFH
IHF0
VPP_ID
0
1
2
GPIO
3
4
5
IHFA
3HF2
PCI-CLK-PNX8535
33R
IHFB
3HF4
PCI-CLK-USB20
C
33R
+3V3-PER
10K
RESERVED
USE FOR PCI CLK
2HF5
IHF9
E
3HFY
BOOTMODE
10n
2HF6
+3V3-PER
10K
Φ
10K
VDD
ZERO
DELAY
BUFFER
D
3HFR
PCI-CLK-OUT
1
REF
1
2
CLK
33R
F
100n
6
7HF1
CY2305S
3HF1
IRQ-PCI
3
4
CLKOUT
2HF7
3
10p
2
8
3HFM
33R
SDA2
3HPH
3HPJ
A
B
C
D
E
F
G
4K7
100R
4K7
100R
2HF2 C1
2HF5 C7
2HF6 D7
2HF7 D8
2HF8 D8
2HP1 E5
3HF0 B5
3HF1 D2
3HF2 C6
3HF3 A6
3HF4 C6
3HF9 A7
3HFH B6
3HFK D8
3HFM E8
3HFN E8
3HFR D6
3HFY D2
3HP8 C1
3HPC E7
3HPD E1
3HPE E1
3HPF E1
3HPG E1
3HPH E1
3HPJ F1
3HPK E3
3HPM F3
3HPX E7
3HPY E7
3HPZ E6
6HF0 A7
7H00-4 A3
7HF1 D7
7HF2 B7
7HP5 E5
9HF1 F7
9HF2 F7
9HF3 C2
9HF4 C3
9HF8 B2
FHP2 E3
FHP3 E7
FHP4 F7
FHP5 F3
FHPA F7
FHPB F7
IHF0 B6
IHF5 B7
IHF6 B4
IHF7 C3
IHF8 C2
IHF9 C2
IHFA C7
IHFB C7
E
SCL-UP-MIPS
3HPY
3HPG
SCL3
SDA3
SDA-UP-MIPS
4K7
SCL2
3HPX
3HPF
3HPC
100R
100R
4K7
3HPE
PCI-CLK-USB20
33R
3HPZ
SDA1
PCI-CLK-PNX5050
3HFN
100p
E
15p
SCL-UP-MIPS
2HP1
3HPD
33R
D
PCI-CLK-PNX8535
7
+3V3-PER
SCL1
3HFK
2HF8
5
4
GND
G
USE WHEN PCI CLK IS DIRECT FROM 8541
PCI-CLK-PNX5050
33R
T1
T2
T3
G27
E27
D28
IHF7
27MHz_OUT
9HF4
RES
2HF2
100n
BOOTMODE
CTRL1-MIPS_LCD-PWR-ON
IRQ-PCI
9HF3
IRQ-CA
RXD-MIPS
TXD-MIPS
RESET_SYS
SCL
I2C1
SDA
SCL
I2C2
SDA
SCL
I2C3
SDA
+1V2-PNX8541
owner.
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
C
RESET-SYSTEM
MIPS C0NTROL
EJTAG-TDI
EJTAG-TCK
EJTAG-TMS
EJTAG-TRSTN
EJTAG-TDO
9
RES
6HF0
B
10K
3HF3
3HF9
PNX8541 : CONTROL_MIPS
A
8
13
12
11
+3V3-PER
+3V3-PER
7H00-4
PNX8535
10
330R
3
2
SML-310
1
SDA-UP-MIPS
SCL-SSB
SCL-SSB
100R
SDA-SSB
SDA-SSB
FHP2
3HPK
+3V3-PER
FHP5
100R
2K2
7HP5
PCA9540BDP
3
VDD
3HPM
SC0
2K2
H
F
1
SCL
2
SDA
INP
FIL
I2 C
-BUS
CTRL
FHP3
5
SC1
8
SD0
4
SD1
7
SCL-SSB-MUX1
FHP4
SCL-SSB-MUX2
FHPA
SDA-SSB-MUX1
FHPB
H
SDA-SSB-MUX2
F
VSS
6
RES
RES
SDA-SSB
SCL-SSB
I
1
2
3
4
5
6
CHN
J
2
3
4
SDA-SSB-MUX2
SCL-SSB-MUX2
7
DC320600
8
I
9
SETNAME
CLASS_NO
" XHF0 ~ XHFZ & XHP0 ~ XHPZ "
1
9HF1
9HF2
TV522
3PC332
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14411
7
5
6
-- -- --
1
-- -- --
2
2008-03-17
3
CHECK
SV
8
SUPERS.
DATE
9
C
10
130
10
42
2008-03-17
2008-09-05
1
2008-03-17
J
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Vincent Yap / Yeam SL
2
A3
17
ROYAL PHILIPS ELECTRONICS N.V. 2008
11
12
13
18680_516_090827.eps
090827
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 93
SSB: PNX8541: Control PCI
1
3
2
4
5
6
8
7
9
10
11
12
13
A
A
2
1
B
3
5
4
8
7
6
PNX 8541 : CONTROL_PCI
A
A
7H00-5
PNX8535
PCI XIO
B
A11
B10
XIO-ACK
D
owner.
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
C
XIO-SEL-NAND
3HE5
100R
E
B11
C11
D11
E11
FHE1
FHE2
FHE3
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
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
C
F
D
G
ACK
XIO
AD25
0
1
XIO SEL
2
3
0
1
2
3
4
5
6
7
8
9
10 PCI AD
11
12
13
14
15
16
17
18
19
20 PCI AD
21
22
23
24
25
26
27
28
29
30
31
0
1
CBE
2
3
PCI_CLK
DEVSEL
FRAME
IRDY
TRDY
PCI CTRL
STOP
IDSEL
PAR
PERR
SERR
REQ
GNT
REQ_B
GNT_B
INTA_OUT
D12
C12
B12
A12
3HED-1 8
PCI-DEVSEL
PCI-FRAME
PCI-IRDY
PCI-TRDY
PCI-STOP
PCI-PERR
PCI-SERR
PCI-CBE0
PCI-CBE1
PCI-CBE2
PCI-CBE3
A21
PCI-CLK-PNX8535
A16
C17
D17
E17
B16
B21
E16
C16
D16
PCI-DEVSEL
PCI-FRAME
PCI-IRDY
PCI-TRDY
PCI-STOP
PCI-AD24
PCI-PAR
PCI-PERR
PCI-SERR
3HEU
100R
1 10K
3HED-3 6
4 10K
3HED-2 7
310K
110K
3HEE-2 7
3HED-4 5
3HEE-3 6
3HEE-1 8
7 3HES-2
PCI-REQ
PCI-GNT
PCI-REQ-B
PCI-GNT-B
PCI-REQ
PCI-GNT
PCI-REQ-B
1
10K
8 3HES-1
PCI-GNT-B
3
10K
6 3HES-3
4
10K
5 3HES-4
B
+3V3-PER
D
E
PCI-REQ-PNX5050
C
+3V3-PER
PCI-GNT-PNX5050
+3V3-PER
9HE4
PCI-REQ-USB20
+3V3-PER
9HE5
C21
C
2 10K
9HE7
D21
E21
E22
E20
B
3 10K
2 10K
9HE6
2
10K
3HE5 B2
3HED-1 B7
3HED-2 B7
3HED-3 B7
3HED-4 B7
3HEE-1 B7
3HEE-2 B7
3HEE-3 B7
3HES-1 C7
3HES-2 C7
3HES-3 C7
3HES-4 D7
3HEU C5
7H00-5 B3
9HE4 C7
9HE5 D7
9HE6 C7
9HE7 C7
FHE1 B2
FHE2 B2
FHE3 B2
PCI-GNT-USB20
+3V3-PER
F
D
G
E
E
H
H
1
2
3
4
5
6
8
7
I
I
CHN
DC320600
SETNAME
CLASS_NO
TV522
3PC332
J
" XHE0 ~ XHEZ "
1
2
3
4
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14411
7
5
6
-- -- --
1
-- -- --
2
2008-03-17
3
SV
CHECK
8
SUPERS.
DATE
9
C
10
130
10
42
2008-03-17
2008-09-05
2008-03-17
J
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Vincent Yap / Yeam SL
2
1
A3
18
ROYAL PHILIPS ELECTRONICS N.V. 2008
11
12
13
18680_517_090827.eps
090827
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 94
SSB: PNX8541: DDR2
1
2
1
A
4
3
2
5
6
3
7
4
8
9
10
6
5
7
11
12
8
13
9
14
15
16
11
10
17
18
13
12
19
20
2HG0 E2
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 E12
2HGW E13
2HGX A11
2HGY E13
2HGZ E13
2HH0 E13
2HH1 E14
2HH2 E14
2HH3 F13
2HH4 A3
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
2HHQ A10
2HHR B10
2HHS B10
2HHT A11
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 C11
3HHM G13
3HHN G14
3HHP G13
3HHQ A9
3HHR G14
3HHS G13
3HHT G14
3HHU G13
3HHV G14
14
3HKR
DDR2-DQS0_N
3HKS 10K RES
DDR2-DQS1_N
3HKT 10K RES
DDR2-DQS2_N
10K RES
DDR2-DQS3_N
10K RES
3HGD
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
22R
3HGC
22R
3HGA
22R
3HG8
22R
3HG6
22R
3HG4
22R
3HG2
22R
3HGB
22R
3HG9
22R
3HG7
22R
3HG5
22R
3HG3
22R
3HG1
22R
100u 4V
2HHQ
0
BA
1
P26
R30
N26
U28
M26
R27
M27
V26
M28
R26
T28
L26
U27
J27
0
1
2
3
4
5
6
7 A
8
9
10
11
12
NC
3HJ3
560R
330u 6.3V
560R
2HGX
3HJ1
1u0
2HHT
3HJ4
560R
3HJ2
560R
7HG2
NCP5208DR2G
VDDQ
IHG6
4
Φ
SD
6
8
VTT
IN
7
PV
3
VFB
GND
C
1
POK
AV
FHG0
VTT-TERM-DDR
D
100n
T27
R29
22R
3HGF
100n
2HHJ
DDR2-BA0
DDR2-BA1
+1V8-PNX8541
100n
2HHH
22R
B
100n
2HHG
E C
3HKV
22R
P
CLK
N
ODT
CKE
WEB
CSB
RASB
CASB
22R
220R
F
3HGK
3HGH
3HJW
0R
3HGM
22R
3HGJ
22R
3HGG
22R
3HGE
+1V8-PNX8541
22u
3HJ0
DDR2-ODT
DDR2-CLK_P
DDR2-CLK_N
22R
DDR2-VREF-DDR
2HHF
RES
3HJU
47R
N28
N29
P27
U26
R28
P28
P29
P30
0R
3HGN
0
1
DQM
2
3
FH06
FH07
DDR2-VREF-CTRL
2HHE
3K3
3HJV
DDR2-CLK_P
DDR2-CLK_N
DDR2-ODT
DDR2-CKE
DDR2-WE
DDR2-CS
DDR2-RAS
DDR2-CAS
DQS3
6HD2
IHG5
5
D
U29
U30
M30
M29
DQS2
A
22R
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
2
RES
RES
DDR2-DQM0
DDR2-DQM1
DDR2-DQM2
DDR2-DQM3
DQS1
V30
AD28
AB28
AB30
AD29
V29
AD27
V28
W30
AC30
AA30
AC28
AD30
W28
AC29
Y30
E30
L28
J29
J28
L29
E29
L27
E28
F30
K30
H30
K28
L30
F29
J30
F28
+1V8-PNX8541
10K
RES
B
DDR2-BA0
DDR2-BA1
DDR2-CAS
DDR2-RAS
DDR2-CS
DDR2-WE
DDR2-CKE
0
1
2
3
4
5
6
7
8
9
DQ 10
11
12
13
14
15
16
17
18
19
DQ 20
21
22
23
24
25
26
27
28
29
30
31
DQS0
3HHL
RES
P
N
P
N
P
N
P
N
+1V8-PNX8541
SS24
1u0
C
AA28
AA29
Y28
Y29
H28
H29
G28
G29
7H01
PHD38N02LT
IHG1
22u
RES
DDR2-DQS0_P
DDR2-DQS0_N
DDR2-DQS1_P
DDR2-DQS1_N
DDR2-DQS2_P
DDR2-DQS2_N
DDR2-DQS3_P
DDR2-DQS3_N
3HHQ
CONTR+1V8-PNX8541
VREF
IREF
100n
RES
T30
AE26
2HHR
RES
2HH5
100n
2HHD
RES
RES
DDR
DDR2-VREF-CTRL
820R
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
2HHS
B A
3HJ6
47R RES
3HJ7
3HJ8
47R
47R RES
3HJ9
3HJA
47R
47R RES
3HJB
3HJC
47R
47R RES
3HJD
3HJE
47R
47R RES
3HJF
3HJG
47R
47R RES
3HJH
3HJJ
47R
RES
47R
3HJK
47R RES
3HJM
3HJN
47R
47R RES
3HJP
3HJR
47R
47R RES
3HJS
3HJT
47R
RES 3HJZ 47R
7H00-2
PNX8535
100n
5K6
3HJY
PNX 8541 : DDR2
VTT-TERM-DDR
IHG0
2HHC
3HJ5
100n
+1V8-PNX8541
2HH4
+3V3F
D
RESERVED
+1V8-PNX8541
1u0
330u 6.3V
2HHP
1u0
RES 2HHN
E
330u 6.3V
2HHM
+1V8-PNX8541
RES 2HHK
G
E
22u
100n
2HH2
100n
2HH1
100n
2HH0
100n
2HGZ
100n
2HGY
100n
2HGW
100n
2HGV
2HGU
100n
100n
2HGT
100n
2HGS
100n
2HGR
100n
2HGP
100n
2HGN
100n
2HGM
100n
2HGK
100n
2HGJ
2HGH
22u
100n
2HGG
100n
2HGF
100n
2HGE
100n
2HGD
100n
2HGC
100n
2HGB
2HG9
100n
2HGA
100n
100n
2HG8
100n
2HG7
100n
2HG6
100n
2HG5
100n
2HG4
100n
2HG3
100n
2HG2
100n
2HG1
2HG0
H
P2
P3
P1
DDR2-BA0
DDR2-BA1
G
RES 3HKM
K
M8
N8
P8
N2
N7
P7
N3
N9
220R
DDR2-CLK_P
DDR2-CLK_N
DDR2-CS
DDR2-CKE
DDR2-RAS
DDR2-CAS
DDR2-WE
DDR2-ODT
E3
J3
DDR2-DQM1
DDR2-DQM0
VDDQ
VREF
DDR2
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
SDRAM
8MX16X4
DQ
0
1 BA
2
CK
CK
CS
CKE
RAS
CAS
WE
ODT
DQS
U
U
L
L
U
DM
L
NC
L H
RFU
VSSDL
K8
K2
L7
L3
L1
L9
J1
J9
F8
F2
G7
G3
G1
G9
E1
E9
E7
D8
J7
H8
2HHA
100n
3HGR
22R
3HGT
22R
3HGV
22R
3HGY
22R
3HH0
22R
3HH2
22R
3HH4
22R
3HH6
22R
3HH8
22R
3HHA
DDR2-VREF-DDR
3HGP
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
22R
3HGS
22R
3HGU
22R
3HGW
22R
3HGZ
22R
3HH1
22R
3HH3
22R
3HH5
22R
3HH7
22R
3HH9
22R
DDR2-DQS1_P
DDR2-DQS1_N
DDR2-DQS0_P
DDR2-DQS0_N
22R
A1
A2
A8
A9
D2
H2
V8
AA1
AA2
AA8
AA9
P2
P3
P1
DDR2-BA0
DDR2-BA1
RES
3HKN
M8
N8
P8
N2
N7
P7
N3
N9
220R
DDR2-CLK_P
DDR2-CLK_N
DDR2-CS
DDR2-CKE
DDR2-RAS
DDR2-CAS
DDR2-WE
DDR2-ODT
E3
J3
DDR2-DQM3
DDR2-DQM2
D9
F1
F3
F7
F9
H9
K1
K3
K7
K9
M1
7HG1
MT47H32M16BT-37E
R8
R3
R7
T2
T8
T3
T7
U2
U8
U3
R2
U7
V2
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
VDDL
VDD
VDDQ
Φ
0
1
2
3
4
5
6 A
7
8
9
10
11
12
VREF
DDR2
SDRAM
8MX16X4
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
DQ
0
1 BA
2
CK
CK
CS
CKE
RAS
CAS
WE
ODT
DQS
U
U
L
L
U
DM
L
NC
V3
V7
RFU
VSS
VSSQ
D7
E2
E8
G2
G8
H7
J2
J8
L2
L8
D3
H3
M3
T1
U9
VSS
M7
V3
V7
M2
D1
H1
M9
R9
V1
D9
F1
F3
F7
F9
H9
K1
K3
K7
K9
Φ
CODE 9322 249 12668 IN ECM
M2
2HH3
100n
K8
K2
L7
L3
L1
L9
J1
J9
F8
F2
G7
G3
G1
G9
E1
E9
DDR2-VREF-DDR
3HHB
3HHC
22R
3HHE
22R
3HHG
22R
3HHJ
22R
3HHM
22R
3HHP
22R
3HHS
22R
3HHU
22R
E7
D8
J7
H8
3HHW
22R
3HHZ
22R
3HHD
22R
3HHF
22R
3HHH
22R
3HHK
22R
3HHN
22R
3HHR
22R
3HHT
22R
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
3HHV
22R
3HHY
22R
DDR2-DQS3_P
DDR2-DQS3_N
DDR2-DQS2_P
DDR2-DQS2_N
F
G
22R
A1
A2
A8
A9
D2
H2
V8
AA1
AA2
AA8
AA9
H
VSSQ
VSSDL
D7
E2
E8
G2
G8
H7
J2
J8
L2
L8
J
VDDL
M7
F
VDD
0
1
2
3
4
5
6 A
7
8
9
10
11
12
D3
H3
M3
T1
U9
R8
R3
R7
T2
T8
T3
T7
U2
U8
U3
R2
U7
V2
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
owner.
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
I
M1
D1
H1
M9
R9
V1
7HG0
MT47H32M16BT-37E
CODE 9322 249 12668 IN ECM
M
I
I
N
1
2
3
5
4
8
7
6
10
9
12
11
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 B1
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
6HD2 A10
7H00-2 A6
7H01 A10
7HG0 F5
7HG1 F11
7HG2 C12
FH06 A12
FH07 A11
FHG0 D13
IHG0 A4
IHG1 A10
IHG5 A10
IHG6 C10
A
B
C
D
E
F
G
H
I
J
K
L
M
N
14
13
O
O
CHN
DC320600
SETNAME
CLASS_NO
TV522
3PC332
P
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14411
" XHG0 ~ XHHZ & XHJ0 ~ XHKZ "
1
2
3
4
5
6
7
8
9
10
11
12
13
14
-- -- --
1
-- -- --
2
2008-03-17
3
SV
CHECK
15
DATE
16
2008-03-17
C
17
1
2008-03-17
P
10
42
SUPERS.
2008-09-05
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Vincent Yap / Yeam SL
2
130
19
A2
ROYAL PHILIPS ELECTRONICS N.V. 2008
18
19
20
18680_518_090827.eps
090827
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 95
SSB: Digital Video In
1
2
3
4
5
1
6
2
8
7
3
9
4
10
5
11
12
3HK0 C2
7H00-3 B2
9HK0 C2
IHKM C2
7
6
13
A
A
PNX 8541 : DIGITAL VIDEO IN
A
A
B
B
C
B
B
7H00-3
PNX8535
HDMI
B8
B9
A7
A8
B6
B7
A9
A10
RX2RX2+
RX1RX1+
RX0RX0+
RXCRXC+
D
RREF-PNX8535
E
RES
9HK0
CEC-HDMI
DDC-SCL
DDC-SDA
C
owner.
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
C
3HK0
C10
C9
E10
C7
P
N
P
N
P
N
P
N
RX_0
HOT_PLUG
D10
HOT-PLUG
RX_1
D
RX_2
RX_C
CEC
SCL
DDC
SDA
RREF
C
IHKM
E
12K
F
D
D
E
E
F
G
G
H
H
1
2
3
5
4
6
7
I
I
CHN
DC320600
SETNAME
CLASS_NO
TV522
3PC332
J
" XHK0 ~ XHKZ "
1
2
3
4
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14411
7
6
5
-- -- --
1
-- -- --
2
2008-03-17
3
SV
CHECK
8
SUPERS.
DATE
9
C
10
130
10
42
2008-03-17
2008-09-05
1
2008-03-17
J
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Vincent Yap / Yeam SL
2
A3
20
ROYAL PHILIPS ELECTRONICS N.V. 2008
11
12
13
18680_519_090827.eps
090827
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 96
SSB: PNX8541: Audio
1
2
3
4
5
6
7
8
9
10
11
12
13
15
14
16
17
18
19
20
A
A
1
2
3
5
4
6
7
8
10
9
12
11
2HM3 D4
2HM4 D5
2HM5 F5
2HM8 F4
2HMG D2
2HMH D2
2HMJ A10
2HMN B10
2HMP C10
2HMT E10
2HMW G10
2HMY H9
2HMZ I10
2HN1 F9
3HMA D6
3HMB F6
3HMC D5
3HMD F5
3HME-1 B10
3HME-2 B9
3HME-3 E9
3HME-4 E10
3HML D7
3HMM-1 G9
3HMM-2 G10
3HMM-3 I9
3HMM-4 I10
3HMU F7
3HMV F5
3HMW E6
3HMY C6
3HMZ C5
5HM0 D2
5HM1 D2
7HM1-1 B10
7HM1-2 D10
7HM1-3 F10
7HM1-4 H10
7HM2-1 C6
7HM2-2 F6
7HM3 C7
7HM4 E7
9HM1 D5
9HM2 F5
FHM0 B11
FHM1 D11
FHM2 F11
FHM3 H11
IHM1 D7
IHM2 C4
IHM3 E4
IHM6 D2
IHM9 D2
IHMG F7
IHMV B9
IHMW B9
IHMY A10
IHMZ B10
IHN0 C6
IHN3 D9
IHN4 E6
IHN6 D10
IHN8 C6
IHNA F10
IHNB F9
IHND H9
IHNE H10
IHNF E6
IHNG D6
IHNH F6
IHNJ D6
IHNK F6
13
B
PNX 8541 : AUDIO
A
A
AUDIO-VDD
2HMJ
C
IHMY
100n
IHMW
3
ADAC(7)
IHMV
4
7HM1-1
LM324 1
FHM0
AUDIO-CL-L
2
11
B
B
2HMN
IHMZ
100n
D
AUDIO-VEE
RESERVED
2 3HME-2 7
1 3HME-1 8
10K
10K
2HMP
AUDIO-VDD
3HMY
C
1K2
33p
E
2
BC857BW
7HM3
1
IHN8
C
3
6
IHM2
3HMZ
ADAC(1)
IHN0
2
5K6
AUDIO-VDD
3HMA
2HM4
3n3
1u0
2HMG
2HM3
220R
IHM6
IHM1
3HML
9HM1
1u0
F
5HM0
180R
+AUDIO-POWER
AUDIO-VDD
7HM2-1
BC847BS
1
IHNG
+AUDIO-L
820R
IHN3
5
ADAC(8)
4
IHN6
FHM1
AUDIO-CL-R
6
D
IHNJ
3HMC
5HM1
AUDIO-VEE
IHM9
2HMH
220R
AUDIO-VEE
1u0
G
D
11
5K6
-AUDIO-POWER
3 3HME-3 6
5 3HME-4 4
10K
10K
2HMT
AUDIO-VDD
33p
E
2
BC857BW
7HM4
1K2
3HMW
E
H
7HM1-2
LM324 7
1
IHNF
3
3
I
5
180R
3HMB
1u0
2HM5
3n3
2HM8
IHMG
3HMU
-AUDIO-R
4
IHNB
7HM1-3
LM324 8
10
ADAC(5)
820R
IHNA
FHM2
AUDIO-OUT-L
9
F
11
J
5K6
3HMD
IHNK
C
D
E
F
G
H
I
J
AUDIO-VEE
1
3HMM-1
2
8
3HMM-2
10K
7
10K
2HMW
33p
G
G
K
K
owner.
AUDIO-VDD
L
IHND
12
ADAC(6)
H
4
IHNE
7HM1-4
LM324 14
FHM3
L
H
AUDIO-OUT-R
13
3n3
2HMY
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
7HM2-2
BC847BS
4 IHNH
9HM2
F
AUDIO-VDD
IHN4
5K6
3n3
3HMV
2HN1
IHM3
ADAC(2)
B
11
M
M
AUDIO-VEE
I
33HMM-36
53HMM-44
10K
10K
2HMZ
I
33p
N
N
2
1
3
4
6
5
7
8
9
11
10
12
13
O
O
CHN
DC320600
SETNAME
CLASS_NO
TV522
3PC332
P
" XHM0 ~ XHNZ "
1
2
3
4
5
6
7
8
9
10
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14411
11
12
13
14
-- -- --
1
-- -- --
2
2008-03-17
3
SV
CHECK
15
SUPERS.
DATE
16
C
17
1
2008-03-17
P
130
10
42
2008-03-17
2008-09-05
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Vincent Yap / Yeam SL
2
21
A2
ROYAL PHILIPS ELECTRONICS N.V. 2008
18
19
20
18680_520_090827.eps
090827
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 97
SSB: PNX8541: Analogue AV
7
4
5
9
10
6
11
7
12
8
2HS4
330n
27R
100p
3HSJ
47R
2HTP
22n
3HSH
RESERVED FOR ITV
27R
330n
27R
100p
2HS9
100p
47R
2HS8
IHSS
AV1-Y
HD-PB_PC-B
5HR0
3HRR
330n
27R
NON MHP
2HT8
2HUP
22n
2HSV
100p
2HSM
100p
100p
47R
2HTU
100p
47R
2HSD
3HRY
47R
3HS0
IHR6
3HS9
2HS0
22n
IHRB
IHRF
2HSP
75R
3HSW
270p
FHR4
IHSG
4K7
3HSR
AV4-PR
27R
330n
2HTB
+3V3-PER
3HS5
3HT9
L4
K5
5HR7
IHSP
5HRL
IHRE
2HSN
22n
22n
30R
FHR2
5HR9
3HSB
330n
27R
AV4-Y
2HTE
22n
4K7
G
FHR3
IHR8
3HSE
330n
27R
AV4-PB
G
5HR6
30R
IHS6
22n
RESERVED FOR ITV
H
PC
VGA
1HA1
3HTB
120R
220R
2K2
8
3HTA
3HTC
7
3HS3
100n
390R
3HT4
CVBS4
27R
H
IF-N
12p
2HSQ
HD-PR_PC-R
HD-Y_PC-G
HD-PB_PC-B
100p
M
FHR7
FHR8
FHR9
FHRA
FHRB
FHRC
2HUC
1
2
3
4
5
6
2HSR
3HT3
2HUB
47R
10u
22n
2HT1
2HSZ
100n
2HT0
+3V3-PER
K
L
5HRA
100p
IHS3
2HKL
F
2HTG
270p
47R
2HTF
IHSE
2HUK
3HSD
3HS6
75R
3HS7
75R
FRONT-C
27R
47R
IHSB
D4
C3
3HST
22n
22n
3HSV
2HSY
IHSH
E
FRONT-Y_CVBS
27R
22n
RES
22n
22n
A1
3V3_TEST_DAC
3V3_VIDEO_REF
D
AV2-Y_CVBS
27R
100p
IHSM 2HSW
2HSB
F3
T4
3V3_VIDEO_DAC
VDAC_BIAS
3HRZ
22n
IHSL 2HST
A2
B2
AGC
J
22n
22n
A3
B3
HSYNC_IN
VSYNC_IN
27R
2HUN
2HTK
100p
P
N
AV3-PB
22n
IHSK
47R
2HTC
P
N
2HT6
IHSD
3HSA
DAC1 CVBS1_Y
DAC2 CVBS2_C
C
3HRW
IHR4
owner.
2HSS
H-SYNC-VGA
V-SYNC-VGA
3HS4
IF-P
390R
100n
I
270p
2HTL
Y_CVBS-MON-OUT
75R
220R
IHS2
3HSF
3HTE
120R
2K2
3HTD
3HTF
I
100p
BM06B-SRSS-TBT
2HUD
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
F
5HR3
330n
AV3-PR
22n
100p
I
22n
2HU0
N2
N3
N4
P1
P2
P3
IHR3
2HSF
100n
SPARE60
C4
C1|YC1
ADC4
C2|YC2
C3|YC3
REF6
27R
AV3-Y
2HT5
22n
IHSC
2HA5
100p
E
27R
3HSM
330n
22n
M1
M2
M3
M4
M5
N1
IF_N
IF_P
SPARE52
ADC4
SPARE53
FM_P
FM_N
3HS1
330n
5HRG
47R
ADC3
5HR5
47R
2HTZ
P4
P5
R1
R2
R3
R4
SPARE40
Pb1_B1
Pb2_B2
Pb3_B3
Pb4_B4
REF4
G
22n
2HA4
3HSU
D
IHR5
2HSJ
22n
2HT7
3HS2
SPARE30
Pr1_R1
Pr2_R2
ADC2
Pr3_R3
Pr4_R4
REF3
22n
22n
47R
2HSK
K1
K2
K3
K4
L1
L2
2HSC
2HTH
22n
IHSA
2HA3
3HS8
F
H
H1
H2
J1
J2
J3
J4
SPARE20
CVBS1_Y1_YC1
CVBS2_Y2_YC2
ADC2
CVBS3_Y3_YC3
CVBS4
REF2
2HA2
10u
C
F1
F2
G1
G2
G3
G4
3HSN
22n
SPARE10
Y1_G1
Y2_G2
Y3_G3
Y4_G4
REF1
ADC1
IHRC
2HSA
100n
2HT4
VSYNC_OUT
B
AV1-PB
22n
2HT2
R5
E
AV1-PR
27R
VIDEO ANALOGUE
IHSN
9HS4
9HS3
MHP
IHR0
47R
2HS2
3HU6
100p
47R
2HU6
3HU3
7H00-9
PNX8535
MHP
NON MHP
HD-PR_PC-R
2HS1
5HU1
330n
100p
330n
2HU7
IHS5
22n
100p
2HU8
AV1-Y_CVBS
27R
A
IHST 3HRU
2HS3
3HU5
100p
5HU2
3HRV
100p
2HU2
100n
5HR2
FHR1
2HS7
22n
D
13
12
3HRS
19
9HS2
MHP
HD-Y_PC-G
3HRP
3HU1
47R
2HU3
B
27R
100p
47R
2HU1
IHRA
22n
3HU4
330n
100p
2HT3
100p
C
11
18
17
NON MHP
5HU0
2HU4
IHS4
22n
3HU0
2HU5
NON MHP
47R
RES FOR MHP
3HRT
2HRZ
A
9HS1
5HRC
10
IHR1
16
15
100p
IHPF
2HTR
MHP
PNX 8541 : ANALOGUE AV
14
9
22n
B
13
100p
3
8
2HTV
2
6
100p
1
A
5
2HSE
4
3
100p
2
2HTD
1
N
FHR5
FHR6
1
O
3
2
5
4
6
7
8
H-SYNC-VGA
V-SYNC-VGA
9
10
11
CHN
1HA1 H1
2HA2 C2
2HA3 C3
2HA4 D3
2HA5 D3
2HKL F3
2HRZ A7
2HS0 E3
2HS1 B7
2HS2 B7
2HS3 B7
2HS4 A8
2HS7 A7
2HS8 B7
2HS9 B7
2HSA C9
2HSB E3
2HSC C9
2HSD C9
2HSE C9
2HSF D9
2HSJ D7
2HSK D7
2HSM D7
2HSN F7
2HSP F8
2HSQ H8
2HSR H8
2HSS H8
2HST E3
2HSV E3
2HSW E3
2HSY F2
2HSZ G3
2HT0 G3
2HT1 G4
2HT2 G3
2HT3 B3
2HT4 G4
2HT5 D2
2HT6 E2
2HT7 D2
2HT8 E7
2HTB F8
2HTC G9
2HTD G9
2HTE G10
2HTF G10
2HTG G10
2HTH C2
2HTK E3
2HTL I9
2HTP A7
2HTR A8
2HTU C9
2HTV C10
2HTZ F7
2HU0 F8
2HU1 A4
2HU2 A4
2HU3 B4
2HU4 B4
2HU5 A3
2HU6 B4
2HU7 B4
2HU8 B3
2HUB H10
2HUC I2
2HUD I2
2HUK F3
2HUN E3
2HUP E3
3HRP B7
3HRR B8
3HRS A10
3HRT A9
3HRU A8
3HRV B7
3HRW C10
3HRY C9
3HRZ D10
3HS0 D9
3HS1 D8
3HS2 D7
3HS3 H9
3HS4 H9
3HS5 G3
3HS6 F3
3HS7 F3
3HS8 E7
3HS9 E10
3HSA G8
3HSB F9
3HSD G10
3HSE G11
3HSF I8
3HSH A8
3HSJ A7
3HSM C10
3HSN C9
3HSR F9
3HST F10
3HSU F7
3HSV F9
3HSW F4
3HT3 H10
3HT4 H11
3HT9 G3
3HTA I2
3HTB I3
3HTC I2
3HTD I2
3HTE I3
3HTF I2
3HU0 A3
3HU1 B3
1
2
3
4
5
6
7
8
9
10
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14411
14
11
13
12
1
-- -- --
2
2008-03-17
3
C
D
E
F
G
H
I
J
K
L
M
N
CHECK
15
DATE
16
2008-03-17
C
17
2008-09-05
1
2008-03-17
P
130
10
42
SUPERS.
2
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Vincent Yap / Yeam SL
SV
B
O
TV522
3PC332
-- -- --
A
SETNAME
CLASS_NO
P
3HU3 B3
3HU4 A4
3HU5 B4
3HU6 B4
5HR0 B7
5HR2 A7
5HR3 C9
5HR5 D7
5HR6 G4
5HR7 G4
5HR9 F9
5HRA G10
5HRC A7
5HRG C9
5HRL F8
5HU0 A4
5HU1 B4
5HU2 B4
7H00-9 B1
9HS1 A7
9HS2 A7
9HS3 B7
9HS4 A10
FHR1 A7
FHR2 F9
FHR3 G3
FHR4 G3
FHR5 I8
FHR6 I8
FHR7 H2
FHR8 H2
FHR9 H2
FHRA H2
FHRB I2
FHRC I2
IHPF A7
IHR0 B7
IHR1 A9
IHR3 C9
IHR4 D9
IHR5 D7
IHR6 E7
IHR8 G10
IHRA B4
IHRB E4
IHRC C9
IHRE F7
IHRF F9
IHS2 I8
IHS3 F4
IHS4 A4
IHS5 B4
IHS6 H10
IHSA C2
IHSB F2
IHSC D2
IHSD E2
IHSE F2
IHSG G2
IHSH F2
IHSK E2
IHSL E3
IHSM E3
IHSN C2
IHSP F8
IHSS A8
IHST A8
13
12
DC320600
20
22
A2
ROYAL PHILIPS ELECTRONICS N.V. 2008
18
19
20
18680_521_090827.eps
090827
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 98
SSB: PNX8541: Audio
1
2
1
A
4
3
5
6
3
2
7
8
5
4
9
6
11
10
7
12
8
13
9
14
10
15
16
A
A
ITEM NO
IHBJ
33K
IHB1
2 3HB3-2 7
33K
RES
33p
3HB3-3
6
33K
RES
2HB6
33p
G
1
RES
2HBE
33p
2HBF
3HBJ-3 6
33K
RES
2HBJ
33p
2HBK
5
3
IHBT
5
33K
3 3HBC-3 6
33K
2
3HBJ-2
7
33K
IHBU
1u0
1u0
RES
2HBH
33p
8
33K
IHQW
AK6
AJ6
AG5
AF5
AJ5
AH5
AH4
AK5
AK4
AJ4
1u0
2HBG
1u0
IHBG
AG6
AF6
AH8
AH7
IHBF
5HBZ
E
AJ7
AK7
VDDA-AUDIO
AH6
L5
L3
M6
10u
100n
2HBP
100n
2HBV
100n
2HBU
2HBM
100n
2HBN
30R
H
AK15
AIN2
ADAC2
AIN3
ADAC3
AIN4
ADAC4
AIN5
ADAC5
ADAC6
P
N
P
N
P
N
P
N
P
N
P
N
R
AADC
L
VREF
POS
VSSA_AUDIO_DAC1
3V3A_AUDIO_DAC1
NEG
POS
AADC1_VR
NEG
DAC_CAP
R
L
1
2
3
4
ADAC
5
6
7
8
VCOM_ADC1
AOUT1
RES_REF
GND1
SPDIF_IN
SPDIF_OUT
OSCLK
SCK
WS
1
SD
2
4K7
IHBL
4K7
10u
3HBK
100n
2HBY
2HBW
ADAC1
AIN1
AG12
AK13
AH12
AJ12
AK11
AJ11
AF10
AG10
AG9
AK10
AH9
AJ9
5HQ2
IHQ3
FHQE
5
IHQC
30R
4
OUT
BP
IN
INH
+5V
1
3
COM
D
3HQG
+3V3
22K
AE10
AF11
AG7
AG8
3HQ8-1 1
3HQ8-2 7
AJ13
AK12
AH11
AH10
AJ10
AK9
AK8
AJ8
3HQ8-4 4
3HQ8-3 3
3HQ5-1 1
3HQ5-2 2
3HQ5-3 3
3HQ5-4 4
RES 3HQ1
RES 3HQ0
3HQN
AJ15
8 33R
2 33R
ADAC(8)
ADAC(7)
5 33R
6 33R
8 33R
7 33R
6 33R
5 33R
33R
33R
ADAC(1)
ADAC(2)
ADAC(3)
ADAC(4)
ADAC(5)
ADAC(6)
ADAC(7)
ADAC(8)
IHQD
68R
ADAC(8)
ADAC(7)
E
SPDIF-OUT
AF14
AJ14
AK14
AH14
AG14
F
J
G
G
K
owner.
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
F
75R
3HBM
IHBM
IHBK
R
L
R
L
R
L
R
L
R
L
3HBN
SPDIF-IN1
I
7HQ0
LD2985BM33R
AUDIO
2HBD
33p
10u
IHBV
2HBC
RES
2HQA
33K
3HBJ-4
3HBJ-1
AUDIO-IN5-L
2 3HBC-2 7
33K
7H00-1
PNX8535
1u0
3n3
4
IHBW
1u0
2HBB
3n3
2HQT
4
AUDIO-IN5-R
2HBA
33p
8
33K
3HBC-4
AUDIO-IN4-L
33p
RES
VDDA-AUDIO
IHQY
33K
1
RES
3 3HB8-3 6
33K
5
3HBC-1
AUDIO-IN4-R
IHBZ
IHBY
2HB9
22K
4
1u0
7
33K
8
C
1u0
2HB7
2HB8
3HQH
33K
3HB8-4
3HB8-2
2HQS
1
AUDIO-IN3-L
D
2
3HB8-1
AUDIO-IN3-R
F
3
IHB0
5
33K
2
4
1u0
2HB5
10n
33K 8
3HB3-4
AUDIO-IN2-L
2HB3
2HB4
2HQ4
C
RES
1u0
10u
2HQB
E
AUDIO-IN2-R
33p
2HB2
33p
IHBH
33K
1 3HB3-1
2HB1
RES
100n
AUDIO-IN1-L
33K
3HB4
100n
2HQ5
33K
3HB1
B
2HB0
3HB2
3HB0
AUDIO-IN1-R
JMP
JMP
RES
RES
JMP
JMP
100n
2HQ6
D
33K
33K
33K
33K
33K
33K
100n
2HQ7
B
MHP
NO MHP
3HB0
3HB1
3HB2
3HB4
2HB1
2HB3
2HQ8
C
L
H
H
M
1
3
2
4
6
5
7
8
9
10
18
19
20
2HB0 B4
2HB1 B4
2HB2 C4
2HB3 C4
2HB4 C4
2HB5 C4
2HB6 C4
2HB7 C4
2HB8 C4
2HB9 C4
2HBA D4
2HBB D4
2HBC D4
2HBD D4
2HBE D4
2HBF D4
2HBG D4
2HBH D4
2HBJ D4
2HBK D4
2HBM E2
2HBN E3
2HBP E3
2HBU E3
2HBV E3
2HBW F3
2HBY F4
2HQ4 D8
2HQ5 D8
2HQ6 D8
2HQ7 D7
2HQ8 D7
2HQA D10
2HQB D9
2HQS E10
2HQT E10
3HB0 B2
3HB1 C2
3HB2 B3
3HB3-1 C2
3HB3-2 C3
3HB3-3 C3
3HB3-4 C2
3HB4 C3
3HB8-1 C2
3HB8-2 C3
3HB8-3 C3
3HB8-4 D2
3HBC-1 D2
3HBC-2 D3
3HBC-3 D3
3HBC-4 D2
3HBJ-1 D2
3HBJ-2 D3
3HBJ-3 D3
3HBJ-4 D2
3HBK F4
3HBM F4
3HBN F4
3HQ0 F7
3HQ1 F7
3HQ5-1 E7
3HQ5-2 E7
3HQ5-3 E7
3HQ5-4 F7
3HQ8-1 E7
3HQ8-2 E7
3HQ8-3 E7
3HQ8-4 E7
3HQG D10
3HQH E9
3HQN F7
5HBZ E2
5HQ2 D8
7H00-1 C5
7HQ0 D9
FHQE D8
IHB0 C3
IHB1 C3
IHBF E4
IHBG E5
IHBH C3
IHBJ C3
IHBK F3
IHBL F4
IHBM F4
IHBT D3
IHBU D3
IHBV D3
IHBW D3
IHBY D3
IHBZ C3
IHQ3 D10
IHQC D9
IHQD F8
IHQW D7
IHQY D9
11
PNX 8541 : AUDIO
B
17
A
B
C
D
E
F
G
H
I
J
K
L
M
11
N
N
O
O
CHN
SETNAME
DC320600
CLASS_NO
TV522
3PC332
P
" XHB0 ~ XHBZ & XHQ0 ~ XHQZ "
1
2
3
4
5
6
7
8
9
10
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14411
11
12
13
14
-- -- --
1
-- -- --
2
2008-03-17
3
SV
SUPERS.
CHECK
15
DATE
16
C
17
1
2008-03-17
P
130
10
42
2008-03-17
2008-09-05
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Hor Siew Lee
2
23
A2
ROYAL PHILIPS ELECTRONICS N.V. 2008
18
19
20
18680_522_090827.eps
090827
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 99
SSB: PNX8541: Audio
1
2
3
1
4
5
6
4
3
2
8
7
5
9
10
8
7
6
11
12
13
9
A
PNX 8541 : AUDIO
2HVH
1
33p
3HV3-1
8
22K
B A
4
3HV3-4
A
5
22K
2HVK
+3V3-STANDBY
33p
1u0
6
IHV4
7
3HV3-2
Φ
IHVF
3
2
IHVC
2
6
22K
D
5
2HVF
IHV5
3
1
2
IHVD
AUDIO-HDPH-L-AP
IHV1
AUDIO-HDPH-R-AP
B
VO
SHUTDOWN
7
2
IHV8
7
3HV4-2
22K
2
IHVA
5
4
BC847BPN
7HVA-2
A-PLOP
3
10
11
BYPASS
4
IHV7
6
AUDIO-RESET
3HV5
FHV3 3HV4-4
4
5
IHV9
IHVB
22K
3HV4-3
C
1
1
IN-
VIA
GND GND_HS
1u0
AUDIO-RESET
VDD
AMPLIFIER
1
3HV3-3
22K
2
7HVA-1
BC847BPN
1
C
3
10K
1n0
ADAC(4)
2HVE
IHV2
6
1u0
22K
2HVG
2HVD
9
ADAC(3)
22K
3HV4-1
8
1u0
2HVC
8
7HV0
TPA6111A2DGN
B
IHVH
3HVA
7HV1
BC847BW
IHVG
FHV5
ADAC(4)
FHV6
5
E
A
B
C
D
E
F
RESERVED FOR ITV
BATHROOM SPEAKER
1HV1
FHV4
ADAC(3)
G
D
7HV2
BC847BW
5K6
3HVB
5K6
470R
F D
IHV3
10K
3HV9
10K
3HV6
IHV6
3HV7
RESERVED
AUDIO-VDD
AUDIO-VDD
470R
E
3HV8
owner.
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
C
+3V3
1HV1 E4
2HVC B3
2HVD B1
2HVE B1
2HVF B2
2HVG C6
2HVH A2
2HVK A2
3HV3-1 A2
3HV3-2 B1
3HV3-3 B1
3HV3-4 A2
3HV4-1 B8
3HV4-2 B8
3HV4-3 C6
3HV4-4 C6
3HV5 C1
3HV6 D2
3HV7 D1
3HV8 D2
3HV9 D3
3HVA D2
3HVB D3
7HV0 B2
7HV1 D2
7HV2 D3
7HVA-1 C8
7HVA-2 B8
FHV3 C6
FHV4 E3
FHV5 E3
FHV6 E3
IHV1 B3
IHV2 B1
IHV3 D1
IHV4 B1
IHV5 B2
IHV6 D2
IHV7 C9
IHV8 B7
IHV9 C7
IHVA B8
IHVB C6
IHVC B2
IHVD B3
IHVF B2
IHVG D2
IHVH D3
4
1
2
3
G
E
BM03B-SRSS-TBT
H
H
1
2
3
4
5
7
6
8
9
I
I
CHN
DC320600
SETNAME
CLASS_NO
TV522
3PC332
J
" XHV0 ~ XHVZ "
1
2
3
4
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14411
7
5
6
-- -- --
1
-- -- --
2
2008-03-17
3
SV
8
DATE
9
2008-03-17
C
10
130
10
42
SUPERS.
CHECK
2008-09-05
1
2008-03-17
J
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Hor Siew Lee
2
A3
24
ROYAL PHILIPS ELECTRONICS N.V. 2008
11
12
13
18680_523_090827.eps
090827
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 100
SSB: PNX8541: Video Streams
1
2
1
3
4
2
5
3
6
8
7
4
5
9
6
11
10
8
7
12
13
3HWK D2
3HWM C8
3HWN C7
3HWP C8
3HWR B7
3HWS B8
3HWT B7
3HWU B8
3HWV B7
3HWW A8
3HWY A7
3HWZ A8
7H00-10 B5
9HW0 D2
9HY0 A8
9HY1 A8
9HY2 A8
9HY3 A8
9HY4 B8
9HY5 B8
9HY6 B8
9HY7 B8
9HY8 C8
9HY9 C8
9HYA C8
IHW0 D2
9
A
PNX 8541 : VIDEO STREAMS
9HY0
RES 3HWZ
A
33R
CA-MDI0
A
9HY1
RES
B
3HWY
33R
CA-MDI1
9HY2
RES 3HWW
33R
CA-MDI2
9HY3
RES
3HWV
33R
CA-MDI3
9HY4
RES 3HWU
B
RES
3HWT
CA-MDO0
CA-MDO1
CA-MDO2
CA-MDO3
CA-MDO4
CA-MDO5
CA-MDO6
CA-MDO7
C25
D23
C23
C29
C30
D30
A28
A29
CA-MOVAL
CA-MOSTRT
CA-MOCLK_VS2
A24
D25
C24
CA-VS1
CA-CD1
CA-CD2
A30
D29
B23
FE-DATA0
FE-DATA1
FE-DATA2
FE-DATA3
FE-DATA4
FE-DATA5
FE-DATA6
FE-DATA7
E5
A4
B4
C6
D6
E6
A5
B5
FE-VALID
FE-SOP
FE-CLK
FE-ERR
D5
C4
C5
A6
D
C
E
D
IHW0
3HWK
F
FE-ERR
+3V3-PER
0
1
2
3
CA_MDO
4
5
6
7
MOVAL
MOSTRT
VS2_MOCLK_CI
A26
C27
B27
A27
A25
D26
C26
B26
0
1
2
3
CA_MDI
4
5
6
7
3HWS
33R
RES 3HWR
33R
CA-MDI7
C
9HY8
RES
3HWM
33R
CA-MIVAL
D
9HY9
RES 3HWN
33R
CA-MISTRT
9HYA
RES 3HWP
33R
B24
D22
A22
C22
B22
A23
D24
RST
DATA_DIR
DATA_EN
OOB_EN
ADD_EN
VCCEN
VPPEN
CA-MDI6
9HY7
B25
B30
B28
MIVAL
MISTRT
MICLK
VS1
1
CD
2
0
1
2
3
FEDATA TNR_TSDI
4
5
6
7
B
CA-MDI5
9HY6
B
C
CA-MICLK
CA-RST
CA-DATADIR
CA-DATAEN
E
CA-ADDEN
D
FEVAL
FESOP
FECLK
FEERR
F
RES
9HW0
4K7
CA-MDI4
33R
VIDEO STREAMS
RES
owner.
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
C
33R
9HY5
7H00-10
PNX8535
A
G
E
E
G
H
H
F
F
I
I
1
2
3
4
5
6
7
CHN
DC320600
9
8
SETNAME
CLASS_NO
TV522
3PC332
J
" XHW0 ~ XHWZ "
1
2
3
4
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14411
7
5
6
-- -- --
1
-- -- --
2
2008-03-17
3
CHECK
SV
8
SUPERS.
DATE
9
10
42
2008-03-17
C
10
2008-09-05
2008-03-17
J
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Vincent Yap / Yeam SL
2
1
130
A3
25
ROYAL PHILIPS ELECTRONICS N.V. 2008
11
12
13
18680_524_090827.eps
090827
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 101
SSB: PNX8541: Digital Video Out / LVDS
1
2
3
4
2
1
5
3
6
4
8
7
5
9
6
10
7
11
12
13
9
8
A
PNX8541 : DIGITAL VIDEO OUT / LVDS
A
B
7H00-8
PNX8535
CODE 47R IN ECM
VID_OUT_TTL
R0_Y2
R1_Y3
R2_Y4
R3_Y5
R_OUT
R4_Y6
R5_Y7
R6_Y8
R7_Y9
G0_UV2
G1_UV3
G2_UV4
G3_UV5
G_OUT
G4_UV6
G5_UV7
G6_UV8
G7_UV9
D
owner.
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
C
B0_UART
B1_UART
B2_GPIO
B3_GPIO
B_OUT
B4_UV0
B5_UV1
B6_Y0
B7_Y1
E
CLK
VSYNC
HSYNC
AUX2
AJ19
AH19
AG19
AF19
AK20
AJ20
AH20
AG20
9HW5
9HW4
9HW3
9HWZ
9HWY
9HWW
9HWV
9HWU
DV-R0_Y2
DV-R1_Y3
DV-R2_Y4
DV-R3_Y5
DV-R4_Y6
DV-R5_Y7
DV-R6_Y8
DV-R7_Y9
AG17
AF17
AK18
AJ18
AH18
AG18
AF18
AK19
9HWT
9HWS
9HWR
9HWP
9HWN
9HWM
9HWK
9HWJ
DV-G0_UV2
DV-G1_UV3
DV-G2_UV4
DV-G3_UV5
DV-G4_UV6
DV-G5_UV7
DV-G6_UV8
DV-G7_UV9
AF15
AK16
AJ16
AH16
AG16
AF16
AJ17
AH17
9HWH
9HWG
9HWF
9HWE
9HWD
9HWC
9HWB
9HWA
AK17
AH15
AG15
AF20
9HW6
9HW7
9HW8
9HW9
DV-B0_UART2-RX
DV-B1_UART2-TX
DV-B2_DEBUG-BREAK IHWA
DV-B3_MHP-SWITCH
DV-B4_UV0
DV-B5_UV1
DV-B6_Y0
DV-B7_Y1
7H00-7
PNX8535
B
LVDS
IHWB
AG21
IREF
CLK
A
RES 9HW1
RES 9HW2
DV-B0_UART2-RX_1
DV-B1_UART2-TX_1
DV-B3_MHP-SWITCH RES 9HWL
FOR MHP
DV-B3_MHP-SWITCH_1
DV-B0_UART2-RX
DV-B1_UART2-TX
B
C
D
E
VDDA-LVDS
12K
AK23
AJ23
AK21
AJ21
AK22
AJ22
AH22
AG22
AH23
AG23
AK24
AJ24
P
N
P
N
P
N
P
N
P
N
P
N
3HP9
Tx8535oCLK+
Tx8535oCLKTx8535oA+
Tx8535oATx8535oB+
Tx8535oBTx8535oC+
Tx8535oCTx8535oD+
Tx8535oDTx8535oE+
Tx8535oE-
C
3HP9 B7
7H00-7 B6
7H00-8 A1
9HW1 C4
9HW2 C4
9HW3 B2
9HW4 B2
9HW5 A2
9HW6 C2
9HW7 C2
9HW8 D2
9HW9 D2
9HWA C2
9HWB C2
9HWC C2
9HWD C2
9HWE C2
9HWF C2
9HWG C2
9HWH C2
9HWJ C2
9HWK C2
9HWM B2
9HWN B2
9HWP B2
9HWR B2
9HWS B2
9HWT B2
9HWU B2
9HWV B2
9HWW B2
9HWY B2
9HWZ B2
IHWA C3
IHWB B7
A
B
C
D
E
DV-CLK
DV-VS
DV-HS
DV-FF_DE
D
F
G
F
G
E
H
H
1
3
2
4
5
7
6
9
8
I
I
CHN
DC320600
SETNAME
CLASS_NO
TV522
3PC332
J
1
2
3
4
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14411
7
5
6
-- -- --
1
-- -- --
2
2008-03-17
3
SV
CHECK
8
SUPERS.
DATE
9
10
42
2008-03-17
C
10
2008-09-05
2008-03-17
J
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Vincent Yap / Yeam SL
2
1
130
26
A3
ROYAL PHILIPS ELECTRONICS N.V. 2008
11
12
13
18680_525_090827.eps
090827
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 102
SSB: PNX8541: Power
2
1
3
1
A
4
5
2
6
7
4
3
8
5
9
10
6
11
7
12
9
8
14
13
15
10
16
11
17
18
13
12
19
20
14
PNX 8541 : POWER
7H00-11
PNX8535
E7
F7
E8
AG24
AH24
AF23
5HK1
+3V3-PER
120R
D
IHK4
VDDA-LVDS
AE22
+3V3-PER
IHY8
5HY9
AE21
100n
5HY6
IHYF
30R
2HYB
2HK2
100n
2HK4
PLLCCO
3V3A HDMI
P6
R6
1n0
100n
EMC
2HZQ
100n
2HZ1
100n
2HZ0
100n
2HYZ
100n
2HYY
1u0
2HYW
1u0
2HYV
1u0
2HYU
1u0
2HYT
2HYS
100n
100n
2HZ4
1u0
2HZ2
2HZ3
1n0
1n0
EMC 2HZZ
100n
100n
2HYR
100n
2HYP
100n
2HYN
100n
2HYM
100n
2HYK
C
+3V3-STANDBY
BIAS
3V3 HDMI
1n0
EMC 2HZY
1V2A HDMI
PLL
+3V3
220R
100n
2HYJ
EQ
5HYA
100n
2HYH
3V3 PER
V6
W5
W6
3V3 SB PER
AD25
AG11
AG13
AH1
AH13
E23
E24
K25
K26
Y5
3V3 LVDS
3V3A LVDS
NC
3V3A LVDS PLL
1V2A CAB
3V3A 1.7 MCAB
D
100n
120R
120R
1u0
2HZJ
+1V2-PNX8541
1u0
30R
2HYA
100n
RREF-PNX8535
1u0
IHK3
2HK6
G
5HK3
2HZN
+3V3-PER
2HZT
IHK2
100n
5HK2
+3V3-PER
+1V2-PNX8541
2HZA
30R
3V3A DDR
IHY7
5HY8
100n
F
DLL1
DLL2
+3V3-PER
EMC 2HZW
C8
PLL
IHYA
10u
D7
AC26
AC27
AD26
AE17
AE18
AE19
F14
F15
F16
F17
F24
F25
F6
G25
G6
1V8_2V5 DDR
B
+1V2-STANDBY
2HYG
IH28
1V2 SB CORE
100n
100n
1u0
2HY8
2HY9
W27
F27
1V2A DDR
SENSE+1V2-PNX8541
AA5
AA6
AB5
AB6
DLL0
DLL3
CHY1
10u
2HYF
100n
G26
100n
2HH7
100n
2HH8
100n
1u0
2HK8
2HK7
100n
2HKA
IHYB
30R
30R 5HG1
330u 6.3V
2HKC
100n
2HY0
100n
5HY5
IHYD
+3V3-PER
P18
R18
T18
U18
+1V8-PNX8541
+3V3-PER
30R
C
100n
2HH9
2HH6
J26
IHK1
5HK4
AB27
30R
D
+1V2-PNX8541
100n
2HY1
IHYC
1u0
5HG0
1V2A VIDEO ADC
2HZ9
100n
2HK1
+1V2-PNX8541
2HY3
30R
2HY2
30R
B
1V2 CORE
10u
2HYE
5HK0
REF 3V3A AUDIO
DAC
100n
IHY4
5HY0
+1V2-PNX8541
J5
J6
K6
AE12
AE13
AE14
F10
F21
F22
F9
U25
V25
W25
ADC
2HZ8
AF8
VDDA-DAC
+1V2-PNX8541
E
AF7
+1V2-PNX8541
10u
2HYD
100n
1u0
2HY6
2HY7
C
AE6
VDDA-ADC
1V2A AUDIO ADC
1u0
AE7
30R
A
VDD
IHY6
5HY3
+1V2-PNX8541
2HYC
A
2HZ7
B
5HY2
E
IHY5
E
+3V3-PER
100n
2HY4
H
1u0
2HY5
30R
VDDA-LVDS
IHY0
5HY1
+3V3-PER
1u0
2HZU
100n
F
F
IHY1
J
5HY4
VDDA-AUDIO
VDDA-DAC
100n
2HZH
AF9
AE9
AE16
AE15
7H00-12
PNX8535
G
VSSA AUDIO
J25
F26
W26
AB26
N6
N5
H5
H4
H3
G5
F5
F4
E4
E3
E2
E1
D3
D2
D1
C2
C1
B1
VSS
VSSA VIDEO
K
VSSA VIDEO
VSS
VSS
VSS
G
VSSA DDR DLL
AJ25
AJ1
AH30
AH29
AH28
AH26
AH25
AH21
AH2
AG30
AG3
AG29
AG28
AG27
AG26
AG25
AF30
AF29
AF28
AF27
AF26
AF25
AF24
AF22
AF21
AF13
AF12
AE5
AE30
AE29
AE28
AE25
AE24
AD6
AD5
AB29
AB25
AA27
AA26
AA25
30R
owner.
IHY2
5HY7
VDDA-ADC
VDDA-AUDIO
100n
2HZV
VSS
VSS
VSS
VSS
H
VSS
L
VSS
30R
H
Y27
Y26
W29
V27
V18
V17
V16
V15
V14
V13
U6
U17
U16
U15
U14
U13
T6
T5
T29
T26
T25
T17
T16
T15
T14
T13
R25
R17
R16
R15
R14
R13
P25
P17
P16
P15
P14
P13
N30
N27
N25
N18
N17
N16
N15
N14
N13
M25
K29
K27
H27
H26
G30
F19
F18
F13
F12
E9
E26
E25
D9
D8
D27
C28
B29
AK30
AK25
AJ30
AJ29
10n
10n
2HZG
10n
2HZF
+1V8-PNX8541
10n
2HZE
1u0
M
2HZD
2HZB
IHY3
1u0
2HZC
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
I
100n
2HZS
2HZP
100n
2HZR
220R
I
I
N
2
1
3
4
6
5
7
8
9
10
11
13
12
2HH6 B5
2HH7 C5
2HH8 C5
2HH9 B5
2HK1 B3
2HK2 E2
2HK4 E2
2HK6 E4
2HK7 C2
2HK8 C3
2HKA C2
2HKC C1
2HY0 B7
2HY1 B7
2HY2 B7
2HY3 B7
2HY4 E8
2HY5 E7
2HY6 A8
2HY7 A8
2HY8 C6
2HY9 C6
2HYA E9
2HYB E8
2HYC C11
2HYD C11
2HYE C11
2HYF C12
2HYG C12
2HYH C12
2HYJ C12
2HYK C12
2HYM C13
2HYN C13
2HYP C13
2HYR C13
2HYS B12
2HYT B12
2HYU B12
2HYV B12
2HYW B13
2HYY B13
2HYZ B13
2HZ0 B13
2HZ1 B14
2HZ2 B12
2HZ3 B12
2HZ4 B13
2HZ7 D11
2HZ8 D11
2HZ9 D12
2HZA D7
2HZB I10
2HZC I10
2HZD I10
2HZE I10
2HZF I11
2HZG I11
2HZH G10
2HZJ D7
2HZN D6
2HZP F10
2HZQ B14
2HZR F10
2HZS F10
2HZT D6
2HZU F11
2HZV H10
2HZW C14
2HZY C14
2HZZ C14
5HG0 B4
5HG1 C4
5HK0 B2
5HK1 D4
5HK2 D1
5HK3 D2
5HK4 C2
5HY0 B6
5HY1 F11
5HY2 E7
5HY3 A8
5HY4 G11
5HY5 C6
5HY6 D8
5HY7 H11
5HY8 D6
5HY9 D7
5HYA C14
7H00-11 A9
7H00-12 G7
CHY1 B11
IH28 C8
IHK1 C2
IHK2 D1
IHK3 D2
IHK4 D4
IHY0 E11
IHY1 G11
IHY2 H10
IHY3 H10
IHY4 B9
IHY5 E9
IHY6 A9
IHY7 D9
IHY8 D9
IHYA B13
IHYB C7
IHYC B5
IHYD C5
IHYF D9
A
B
C
D
E
F
G
H
I
J
K
L
M
N
14
O
O
CHN
DC320600
SETNAME
CLASS_NO
TV522
3PC332
P
1
2
3
4
5
6
7
8
9
10
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14411
11
12
14
13
-- -- --
1
-- -- --
2
2008-03-17
3
SV
CHECK
15
SUPERS.
DATE
16
C
17
1
2008-03-17
P
10
42
2008-03-17
2008-09-05
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Vincent Yap / Yeam SL
2
130
A2
27
ROYAL PHILIPS ELECTRONICS N.V. 2008
18
19
20
18680_526_090827.eps
090827
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 103
SSB: PNX8541: Flash
1
2
3
5
2
1
A
4
6
3
8
7
4
6
5
10
9
7
11
8
12
13
2HA0 B7
2HA1 B7
3HA0 B2
3HA1 C9
3HA3 B9
3HA4-1 B3
3HA4-2 B3
3HA4-3 C3
3HA4-4 C3
3HA8-1 C3
3HA8-2 C3
3HA8-3 C3
3HA8-4 C3
3HAC-1 E3
3HAC-2 D3
3HAC-3 E3
3HAC-4 E3
5HA0 B2
7HA0 B6
7HA1 C9
9HA1 C8
IHAR B6
IHAS D7
IHAT D7
IHAU C9
9
PNX 8541 : FLASH
A
A
5HA0
+3V3-NAND
+3V3
IHAR
+3V3-NAND
100n
100n
2HA0
30R
B
D
1
2
3
4
1
2
3
4
C
8
7 100R
6 100R
5 100R
8 100R
7 100R
6 100R
5 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)
100R
E
D
Φ
[FLASH]
512Mx8
NC
3HAC-2
3HAC-3
3HAC-4
3HAC-1
PCI-AD0
PCI-AD1
PCI-CBE1
PCI-CBE2
2
3
4
1
7
6
5
8
100R
100R
100R
+3V3-NAND
D
2K2
29
30
31
32
41
42
43
44
NAND-AD(0)
NAND-AD(1)
NAND-AD(2)
NAND-AD(3)
NAND-AD(4)
NAND-AD(5)
NAND-AD(6)
NAND-AD(7)
16
17
9
8
18
19
7
NAND-CLE
NAND-ALE
IHAT XIO-SEL-NAND
NAND-REn
NAND-WEn
WP-NANDFLASH-INV
IHAS
XIO-ACK
IHAU
WP-NANDFLASH-INV
3HA1
+3V3-NAND
10K
C
E
RESET-NVM_WP-NANDFLASH
CLE
ALE
CE
RE
WE
WP
R
B
7HA1
PDTC144EU
D
F
VSS
NAND-CLE
NAND-ALE
NAND-WEn
NAND-REn
100R
G
C
3HA3
XIO-ACK
0
1
2
3
IO
4
5
6
7
36
F
VCC
RES
3HA4-1
3HA4-2
3HA4-3
3HA4-4
3HA8-1
3HA8-2
3HA8-3
3HA8-4
PCI-AD24
PCI-AD25
PCI-AD26
PCI-AD27
PCI-AD28
PCI-AD29
PCI-AD30
PCI-AD31
7HA0
NAND512W3A2CN6
9HA1
1
2
3
4
5
6
10
11
14
15
20
21
22
23
24
25
26
27
28
33
34
35
38
39
40
45
46
47
48
10K
12
+3V3-NAND
XIO-SEL-NAND
B
13
3HA0
37
B
owner.
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
C
2HA1
B
A
G
E
E
H
H
2
1
3
4
6
5
7
9
8
I
I
CHN
DC320600
SETNAME
CLASS_NO
TV522
3PC332
J
" XHA0 ~ XHAZ "
1
2
3
4
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14411
7
5
6
-- -- --
1
-- -- --
2
2008-03-17
3
SV
CHECK
8
SUPERS.
DATE
9
C
10
130
10
42
2008-03-17
2008-09-05
1
2008-03-17
J
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Vincent Yap / Yeam SL
2
A3
28
ROYAL PHILIPS ELECTRONICS N.V. 2008
11
12
13
18680_527_090828.eps
090828
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 104
SSB: Dual LVDS
1
2
3
4
1
A
5
6
3
2
8
7
4
9
10
6
5
11
7
13
12
8
14
15
2CEN G1
2CFB B4
2CFH G3
2CFR G3
2CFT H2
2CG0 B5
2CG1 B5
2CG2 B5
2CG3 B5
2CG4 B5
2CG5 B7
2CG6 B6
2CG7 B7
2CG8 B6
2CG9 B6
2CGA C8
3C30 A1
3C31 A1
3C32 B1
3C33 A1
3C34 B1
3C35 B1
3CD0 G1
3CD1 G1
3CD2 G1
3CD3 H1
3CD6 H3
3CD7 H3
3CD8 F4
3CG0 C4
3CG1 C4
3CG2 C4
3CG3 C4
3CG4-1 D4
3CG4-2 D4
3CG4-3 D4
3CG4-4 D4
3CG5-1 D4
3CG5-2 D4
3CG5-3 D4
3CG5-4 D4
3CG6-1 D4
3CG6-2 D4
3CG6-3 D4
3CG6-4 D4
3CG7-1 D4
3CG7-2 E4
3CG7-3 E4
3CG7-4 E4
3CG8-1 E4
3CG8-2 E4
3CG8-3 E4
3CG8-4 E4
3CG9-1 E4
3CG9-2 E4
3CG9-3 E4
3CG9-4 E4
3CGA C7
3CGB C7
3CGC B5
3CGD B5
3CGE B5
3CGF B5
3CGG C9
3CGH C9
3CGI C9
3CGJ C8
5CD1 A3
5CG0 A6
5CG1 A6
5CG2 A6
7CD0-2 G2
7CG0 C5
7CG1 C9
9C04 B1
9C10 B1
9CG0-1 C2
9CG0-2 C2
9CG0-3 C2
9CG0-4 C2
9CG1-1 D2
9CG1-2 D2
9CG1-3 D2
9CG1-4 D2
9CG2-1 D2
9CG2-2 D2
9CG2-3 D2
9CG2-4 D2
9CG3-1 D2
9CG3-2 D2
9CG3-3 D2
9CG3-4 D2
9CG4-1 D2
9CG4-2 E2
9CG4-3 E2
9CG4-4 E2
9CG5-1 E2
9CG5-2 E2
9CG5-3 E2
9CG5-4 E2
9CG6-1 E2
9CG6-2 E2
9CG6-3 E2
9CG6-4 E2
10
9
DUAL LVDS
B
FOR BOUNDARY SCAN
A
+3V3
+3V3
A
+3V3
JTAG-TDO
D
G
H
E
2CG3
100n
2CG4
100n
8
7
6
5
8
7
6
5
DV-R0_Y2
DV-R1_Y3
DV-R2_Y4
DV-R3_Y5
DV-R4_Y6
DV-R5_Y7
DV-R6_Y8
DV-R7_Y9
RXP3ECLK-_G0
RXP3ECLK+_G1
RXP3EC+_G2
RXP3EC-_G3
RXP3EB+_G4
RXP3EB-_G5
RXP3EA+_G6
RXP3EA-_G7
1
2
3
4
1
2
3
4
9CG3-1
9CG3-2
9CG3-3
9CG3-4
9CG4-1
9CG4-2
9CG4-3
9CG4-4
8
7
6
5
8
7
6
5
DV-G0_UV2
DV-G1_UV3
DV-G2_UV4
DV-G3_UV5
DV-G4_UV6
DV-G5_UV7
DV-G6_UV8
DV-G7_UV9
2
1
3
4
1
2
3
4
9CG5-2
9CG5-1
9CG5-3
9CG5-4
9CG6-1
9CG6-2
9CG6-3
9CG6-4
33R
33R
DV-VS
DV-HS
3CG2
3CG3
33R
33R
8
7
7
DV-B0_UART2-RX
8
DV-B1_UART2-TX
6 DV-B2_DEBUG-BREAK
5
DV-B3_MHP-SWITCH
8
DV-B4_UV0
7
DV-B5_UV1
6
DV-B6_Y0
5
DV-B7_Y1
3CG4-1
3CG4-2
3CG4-3
3CG4-4
3CG5-1
3CG5-2
3CG5-3
3CG5-4
1
2
3
4
1
2
3
4
8
7
6
5
8
7
6
5
33R
33R
33R
33R
33R
33R
33R
33R
51
52
53
54
57
58
59
60
DV-G0_UV2
DV-G1_UV3
DV-G2_UV4
DV-G3_UV5
DV-G4_UV6
DV-G5_UV7
DV-G6_UV8
DV-G7_UV9
3CG6-1
3CG6-2
3CG6-3
3CG6-4
3CG7-1
3CG7-2
3CG7-3
3CG7-4
1
2
3
4
1
2
3
4
8
7
6
5
8
7
6
5
33R
33R
33R
33R
33R
33R
33R
33R
61
62
63
64
65
66
67
68
DV-B0_UART2-RX
DV-B1_UART2-TX
DV-B2_DEBUG-BREAK
DV-B3_MHP-SWITCH
DV-B4_UV0
DV-B5_UV1
DV-B6_Y0
DV-B7_Y1
3CG8-1
3CG8-2
3CG8-3
3CG8-4
3CG9-1
3CG9-2
3CG9-3
3CG9-4
1
2
3
4
1
2
3
4
8
7
6
5
8
7
6
5
33R
33R
33R
33R
33R
33R
33R
33R
69
70
73
74
75
76
77
78
F
ICD1
+12VD
100n
470R
3CD0
+V-LM833
8
1n0
30R
+
TCLK1
-
+
TA1
10
11
12
13
G
14
15
16
17
-
+
DATA
TB1
DATA
TC1
10
11
12
13
B
14
15
16
17
-
TD1
-
20
21
22
23
R
24
25
26
27
+
TCLK2
-
ICG6
ICG7
17
21
18
ICG8
27K
3CGG
RES 9CGA
9CGC
9CGB
RES 9CGG
3CGJ
9CGH
22K
3CGI
7CG1
BC847BW
C
CTRL1-MIPS_LCD-PWR-ON
47K
41
TXECLK+
42
TXECLK-
48
TXEA+
49
TXEA-
46
TXEB+
47
TXEB-
43
TXEC+
44
TXEC-
39
TXED+
40
TXED-
29
TXOCLK+
30
TXOCLK-
36
TXOA+
D
F
+
TA2
20
21
22
23
G
24
25
26
27
ICG9
16
15
E
+
-
DATA
TB2
-
2nd PIXEL
DATA
+
TC2
20
21
22
23
B
24
25
26
27
-
+
TD2
-
37
TXOA-
34
TXOB+
35
TXOB-
31
TXOC+
32
TXOC-
27
TXOD+
28
TXOD-
G
LVDS_GND PLL_GND
1K0
4
56
72
88
GND
3CD6
-
1st PIXEL
+
330p
2CFT
2CFR
4
10K
470R
3CD2
100n
3CD1
FCD2
1K0
3CD3
ICDF
30R
10
11
12
13
R
14
15
16
17
97
98
99
100
1
2
5
6
7 CONTR+1V8-PNX8541
6
owner.
2CEN
K
2CFH
10R
OE
FLIP
SEL_BIT
MAP
89
90
91
92
93
94
95
96
3CD8
+V-LM833
+2V5-REF
0
MODE
1
VSYNC
HSYNC
ICG514
DV-R0_Y2
DV-R1_Y3
DV-R2_Y4
DV-R3_Y5
DV-R4_Y6
DV-R5_Y7
DV-R6_Y8
DV-R7_Y9
13 NC
20
10K
9CG1-1
9CG1-2
9CG1-3
9CG1-4
9CG2-1
9CG2-2
9CG2-3
9CG2-4
3CG0
3CG1
22 NC
NC
Φ
0
RESERVED
LVDS
1
TRANSMITTER
3CGH
1
2
3
4
1
2
3
4
DV-CLK
DV-FF_DE
LVDS_VDD PLL_VDD
1u0
RXP3R0
RXP3R1
RXP3R2
RXP3R3
RXP3R4
RXP3R5
RXP3EE+_R6
RXP3EE-_R7
7CD0-2
LM833
100n
2CGA
DV-VS
DV-HS
5
2CG9
10K
3 9CG0-3 6
2 9CG0-2 7
ICDD
100n
10K
RXP3VS
RXP3HS_DE
G
B
+3V3
16V 10u
2CG8
3CGB
DV-CLK
DV-FF_DE
9CG8
RS
XRST
RF
CLKIN
DE
79
80
81
82
83
84
85
86
J
100n
2CG7
VDD
I
L
3CD7
H
FCD3
+1V8-PNX8541
H
100R
M
17
20
19
18
9CG7 C4
9CG8 C4
9CG9 C4
9CGA C7
9CGB C8
9CGC C8
9CGG C8
9CGH C8
FC17 A1
FC1A B1
FC1B B1
FC1C B1
FC1D B1
FC1E A1
FCD2 G3
FCD3 H3
ICD1 F3
ICDA A3
ICDD G2
ICDF G1
ICG0 B6
ICG1 B6
ICG2 C5
ICG3 C5
ICG4 C5
ICG5 C5
ICG6 C7
ICG7 C7
ICG8 C7
ICG9 C7
A
B
C
D
E
F
G
H
I
J
K
Shifting same test-jig as TV522/8M
Testlands used in TV522/82M
IC00
IC01
IC02
IC03
IC04
IC05
FC14
FC16
FC10
FC11
FC12
FC13
ICA0
ICA1
ICA2
ICA3
ICA4
FCA2
FCA3
IC56
IC43
IC44
FC41
FC42
FC43
FC44
FC45
FC46
FC47
ICDB
ICDC
FCD1
ICDE
IC06
IC07
IC08
L
FC1F
FC48
M
IC57
1
3
2
4
5
6
7
8
10
9
N
N
1X01
EMC REF HOLE
O
O
CHN
DC 320600
SETNAME
CLASS_NO
TV522
9C1F
9C1E
9C1D
9C1B
9C1C
3PC332
P
9C1A
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
100n
2CG6
3CGA
RXP3CLK
RXP3FF
RES
4 9CG0-4 5
1 9CG0-1 8
RXP3OD+_B0
RXP3OD-_B1
RXP3OCLK-_B2
RXP3OCLK+_B3
RXP3OC+_B4
RXP3OC-_B5
RXP3OB+_B6
RXP3OB-_B7
2CG2
ICG212
ICG319
ICG411
10
9
9CG9
F
100n
7CG0
BU7988KVT
9CG7
RES
C
16V 10u
2CG1
VDISP
RES 3CGC
3CGD
3CGE
3CGF
RES
JTAG-TCK
JTAG-TMS
JTAG-TD-PNX5050-PACIFIC
E
10u 16V
+3V3
10K
10K
10K
10K
9C04
9C10
2CG5
ICG1
ICG0
FC1C
D
5CG2
2CG0
RES
10K
+3V3
30R
24
10K
5CD1
23
25
3C32
3C34
ICDA
+3V3-D
+3V3-D
33
45
B
10K
26
38
50
FC1A
FC1B
3C35
30R
5CG1
22R
10K
3
55
71
87
FC1D
10K
RES 3C31
2CFB
3C30
3C33
47u 16V
FC17
FC1E
5CG0
JTAG-TRST
C
16
MULTI 12NC : 3139 123 63701
BD 12NC
: 3139 123 63711
CELL 12NC : 8239 125 14461
" XCG0 ~ XCGZ "
1
2
3
4
5
6
7
8
9
10
11
12
13
14
-- -- --
1
-- -- --
2
2008-03-17
3
SV
CHECK
15
DATE
16
2008-03-17
C
17
1
2008-03-17
P
10
42
SUPERS.
2008-09-05
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Vincent Yap / Yeam SL
2
130
A2
29
ROYAL PHILIPS ELECTRONICS N.V. 2008
18
19
20
18680_528_090828.eps
090828
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 105
SSB: Pacific 3: LVDS
1
3
2
A
1
4
2
5
6
7
4
3
9
8
5
7
6
11
10
12
8
13
9
14
10
15
17
16
11
12
18
13
19
20
PACIFIC 3 : LVDS
B
A
A
FOR /32 ONLY
1G50
FX15SC-41S-0.5SH
BYPASS
VDISP
Tx8535oC-
4
9G14-4 5
RxP3oC-_B5
Tx8535oC+
3
9G14-3 6
RxP3oC+_B4
Tx8535oCLK+
1
9G14-1 8
RxP3oCLK+_B3
Tx8535oCLK-
2
9G14-2 7
RxP3oCLK-_B2
Tx8535oD-
4
9G15-4 5
RxP3oD-_B1
Tx8535oD+
3
9G15-3 6
RxP3oD+_B0
Tx8535oE-
2
9G15-2 7
RxP3oE-_G9
Tx8535oE+
1
9G15-1 8
RxP3oE+_G8
RxP3oA-_B9
CTRL-DISP1
CTRL-DISP2
CTRL-DISP3
CTRL-DISP4
Dual LVDS only
RxP3oB+_B6
FG01
FG02
FG03
FG04
FG05
FG06
TXEA-
RxP3oB-_B7
2G00
2G01
4p7
4p7
2G02
2G03
4p7
4p7
2G04
2G05
4p7
4p7
TXEA+
RxP3oC+_B4
FG07
FG08
TXEB-
RxP3oC-_B5
FG09
FG10
FG11
FG12
TXEB+
RxP3oCLK-_B2
3G04
D
100R
RxP3oD+_B0
F
TXEC+
100R
3G05
FG19
FG20
TXECLK-
RxP3oD-_B1
RxP3oE+_G8
G
FG13
FG14
FG15
FG16
FG17
FG18
TXEC-
RxP3oCLK+_B3
2G06
2G07
4p7
4p7
2G08
2G09
4p7
4p7
2G10
2G11
4p7
4p7
2G12
2G13
4p7
4p7
FG21
FG22
FG23
FG24
TXECLK+
TXED-
RxP3oE-_G9
RES 3G52
100R
2G53
TXEE-
E
H
FG25
RES 3G53
SCL-I2C4-DISP
SDA-I2C4-DISP
TXED+
FG26
100R
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
B
C
D
LVDS CONNECTOR
100p
RxP3oB+_B6
100p
9G13-1 8
2G52
1
100R
RxP3oB-_B7
Tx8535oB+
100R
9G13-2 7
3G01
9G13-3 6
2
100R
3
3G02
C
RxP3oA+_B8
Tx8535oA+
Tx8535oB-
100R
E
RxP3oA-_B9
3G03
D
9G13-4 5
TO PACIFIC
FROM PNX8541
B
4
3G00
RxP3oA+_B8
Tx8535oA-
50 51
48 49
46 47
44 45
42 43
FG00
C
E
RESERVED FOR DFI
TXEE+
TXOA-
TXOA+
I
F
F
TXOB2G14
2G15
4p7
4p7
2G16
2G17
4p7
4p7
2G18
2G19
4p7
4p7
TXOB+
B
C
D
E
F
G
H
I
TXOC-
J
J
TXOC+
G
G
TXOCLK-
K
K
TXOCLK+
TXODowner.
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
A
1G50 A13
2G00 C9
2G01 C9
2G02 C9
2G03 C9
2G04 D9
2G05 D9
2G06 D9
2G07 D9
2G08 E9
2G09 E9
2G10 E9
2G11 E9
2G12 F9
2G13 F9
2G14 F9
2G15 F9
2G16 G9
2G17 G9
2G18 G9
2G19 G9
2G20 H9
2G21 H9
2G22 H9
2G23 H9
2G52 E13
2G53 E12
3G00 B4
3G01 B4
3G02 C4
3G03 C4
3G04 D4
3G05 D4
3G52 E12
3G53 D13
9G13-1 B2
9G13-2 B2
9G13-3 B2
9G13-4 B2
9G14-1 C2
9G14-2 C2
9G14-3 C2
9G14-4 B2
9G15-1 C2
9G15-2 C2
9G15-3 C2
9G15-4 C2
FG00 A13
FG01 B13
FG02 B13
FG03 C13
FG04 C13
FG05 C13
FG06 C13
FG07 C13
FG08 C13
FG09 C13
FG10 C13
FG11 C13
FG12 C13
FG13 C13
FG14 D13
FG15 D13
FG16 D13
FG17 D13
FG18 D13
FG19 D13
FG20 D13
FG21 D13
FG22 D13
FG23 D13
FG24 D13
FG25 D13
FG26 E13
14
2G20
2G21
4p7
4p7
2G22
2G23
4p7
4p7
TXOD+
H
L
H
TXOE-
L
TXOE+
M
2
1
3
4
5
6
7
8
10
9
12
11
M
14
13
N
N
O
O
CHN
DC 320600
SETNAME
CLASS_NO
TV522
3PC332
MULTI 12NC : 3139 123 63701
BD 12NC
: 3139 123 63711
CELL 12NC : 8239 125 14461
P
" XG00 ~ XG2Z & XG50 ~ XG5Z "
-- -- --
1
-- -- --
2
2008-03-17
3
SV
1
2
3
4
5
6
7
8
9
10
11
12
13
14
CHECK
15
SUPERS.
DATE
16
C
17
1
2008-03-17
P
10
42
2008-03-17
2008-09-05
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Vincent Yap / Yeam SL
2
130
30
A2
ROYAL PHILIPS ELECTRONICS N.V. 2008
18
19
20
18680_529_090828.eps
090828
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 106
SSB: Pacific 3: Display Interfacing
1
2
3
1
A
4
2
5
6
3
8
7
4
9
7
6
5
11
10
12
8
9
14
13
10
15
17
16
11
12
18
19
1G01 C13
1G02 C13
1GC0 C14
2G54 B5
2G55 E11
2G57 C3
2G58 G12
2G59 F12
2G60 D5
2G63 F5
2G64 F5
2G65 F5
2G66 F6
2G67 B11
2G68 C11
2G73 C13
2G74 C12
2G75 D13
2G76 B4
2G7A C13
2G7B B1
2G7C C14
2G7D C14
2G7E C14
2G7F C14
3G55 E13
3G56 B4
3G57 E11
3G58 E11
3G60 D4
3G61 E11
3G62 F11
3G63 C2
3G65 F12
3G66 F13
3G67-1 C4
3G67-2 C2
3G67-3 C5
3G67-4 C5
3G69 F11
3G70 F12
3G72 D4
3G73 G11
3G76 E5
3G77 E5
3G78 E5
3G79 E5
3G86 E4
3G88 F4
3G90 F4
3G91 F4
3G92-1 B11
3G92-2 B10
3G92-3 C10
3G92-4 C11
3G93 F4
3G94 F4
3G95 C12
3G96 F4
3G97 C12
3G98 G4
3G99 G4
3GA0 B11
3GA3 C11
3GA4 G11
3GA6 E12
3GC5 E12
5G55 B4
5G56 B4
6G50 C3
6G51 B5
7G52 B2
7G53 E12
7G54 B3
7G55 C4
7G56 F12
7G57 G4
7G58-1 E13
7G58-2 E13
7G59-1 G11
7G59-2 G12
7G61-1 B11
7G61-2 C11
9G48 I11
9G56 F13
9G59 C11
9G60 C11
9G61 B3
9GA0 B2
9GA1 B2
9GA2 B2
9GA3 B2
9GA4 C2
9GA5 C2
9GA6 B13
9GA7 B13
9GA8 B13
9GA9 B13
9GAA G5
9GAB G5
9GAC G5
9GAD G6
CG01 I3
CG02 I3
FG50 B5
FG51 E6
FG52 E6
FG53 E6
FG54 F6
FG55 B1
FG56 B1
FG59 D14
FG5A C14
FG5B C14
FG5C C14
IG53 C2
14
13
PACIFIC 3 : DISPLAY-INTERFACING
B
A
A
C
+3V3 +3V3
FOR AMBILIGHT ONLY
1
IG71 3G67-4 IG94 3G67-3
4
5
6
3
VDISP-SWITCH
IGBA
RES
9GA6
RES
9GA9
9GA8
2K2
2
6
FG5A
FG5B
FG5C
I2C_SEL1
I2C_SEL2
9G60
1
2
3
4
5
6
7
+3V3
1n0
1n0
1n0
1n0
1n0
2K2
10p
1G02
2G73
10p
1G01
2G74
1
SDA-AMBI-3V3
3G97
100R
IG70
+12VD
3G72
+3V3
4K7
3G60
C
1735446-7
SDA-AMBI
100n
2G60
+5V
IG97
CTRL4-P3
CTRL1-MIPS_LCD-PWR-ON
+3V3
47K
47K
10K
RES
7G61-2
BC847BS
100R
2G7A
2G7F
2G7C
2G7D
2G7E
EMC
3
+3V3
2
D
RES
3GA0
7
7G55
BC847BW
1GC0
3G95
IG67
470p
5 3G92-4 4
47K
BZX384-C5V6
IG72
10K
2
IG93
6G50
SCL-AMBI
RES
2G68
RES
3GA3
IG95
1u0
F
9G59
SCL-AMBI-3V3
8 3G67-1 1
TO AMBILIGHT BD
3
47R
C
IGB9
2 3G67-2 7
47K
IGB5 2G57
+5V
5
E
6G51
SML-310
10K
RES
7G61-1
BC847BS
4
3G63
2K2
6
IG53
7G54
SI3441BDV
+3V3
B
IGB7
IGB8
470p
8 3G92-1 1
100n
IGB6
10K
9GA3
9GA4
9GA5
220R
3G56
3G92-3
FG56
+12VD
RES
2G67
2G54
3G92-2
7G52
SI4835BDY
RES
5G56
2G76
2G7B
D
VDISP
220R
IG92
10u 16V
RES
1n0
9G61
RES
FG50
3
9GA0
9GA1
9GA2
+5V-TCON
B
5G55
9GA7
RES
FG55
D
100R RES
FG59
47K
3G55
1M0
27K
RES
3G57
RES
3GC5
+3V3
FOR PDP ONLY
1u0 RES
2G75
+8V2-PAS
G
7G58-1
BC847BPN
1
BC847BPN
7G58-2
5
E
3
470p
RES
IG90
1K0
9G56
1K0
3G66
3G62
+3V3
3G65
PDP-GO
IGBB
15K RES
CTRL-DISP4
RES
2G55
3G70
CPU-GO
3G69
100p
100p
2G66
CTRL-DISP3
2
4
RES 12K
7G53
BC847BW
2
1
4K7
F
IGB1
7G56 RES
PDTC114EU
CTRL4-STBY_SELECT-PWM-ANA
+3V3
RES
7G57
BC847BW
RES
10K
3GA4
9GAD
9GAB
RES
9GAC
100K
3G98
STANDBY
G
3G99
IG65
9GAA
47R RES
IGB2
3
IGB3
IGB4
2
7G59-1
BC847BS
1
47K
2G58
1u0
7G59-2
BC847BS
4
5
6
3G73
FOR LCD ONLY
100K RES
G
K
BACKLIGHT-OUT
owner.
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
J
2G65
47R RES
3G96
100p
IG79
CTRL4-STBY_SELECT-PWM-ANA
2G64
47R RES
3G93
100p
IG78
CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3
+3V3-STANDBY
4K7
CTRL1-STBY_LAMP-ON
2G63
47R RES
3G91
IG77
F
FG54
47R RES
3G90
CTRL5-STBY_BACKLIGHT-BOOST
3G94
I
FG53
PDWN
BACKLIGHT-CONTROL
RES
3G58
1u0 RES
47R
3G88
CTRL3-STBY_POWER-OK-DISP
CTRL-DISP2
IG89
2G59
IG75
CTRL1-MIPS_LCD-PWR-ON
RESET
22K RES
3G86
IRQ
2K2
RES
CTRL-DISP1
FG52
IG73
FHP
3
FG51
3G61
10K RES
47R RES
3G79
3G78
47R RES
3G77
3G76
E
RES
3GA6
10K
H
47R RES
6
IGBC
SDI
L
H
H
IGA9
CTRL5-STBY_BACKLIGHT-BOOST
SDA-SSB-MUX1
CG01
SDA-I2C4-DISP
SCL-SSB-MUX1
CG02
SCL-I2C4-DISP
CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3
M
9G48
RES
I
I
N
1
O
2
4
3
5
7
6
8
10
9
11
12
CHN
13
20
MULTI 12NC : 3139 123 63701
BD 12NC
: 3139 123 63711
CELL 12NC : 8239 125 14461
-- -- --
1
-- -- --
2
2008-3-17
3
2
3
4
5
6
7
8
9
10
11
12
13
14
CHECK
15
C
D
E
F
G
H
I
J
K
L
M
N
O
SUPERS.
DATE
16
10
C
17
2008-09-05
1
2008-03-17
P
42
2008-03-17
2
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Vincent Yap / Yeam SL
SV
1
B
14
TV522
3PC332
" XG00 ~ XG0Z & XG40 ~ XG9Z & XGA0 ~ XGCZ & XGJ0 ~ XGJZ "
A
SETNAME
DC 320600
CLASS_NO
P
IG65 G4
IG67 C11
IG70 D11
IG71 C5
IG72 D2
IG73 E2
IG75 F2
IG77 F2
IG78 F2
IG79 F2
IG89 E10
IG90 F13
IG92 B4
IG93 C4
IG94 C5
IG95 C3
IG97 D4
IGA9 H11
IGB1 F12
IGB2 G12
IGB3 G11
IGB4 G11
IGB5 C2
IGB6 B5
IGB7 B13
IGB8 B13
IGB9 C10
IGBA C10
IGBB E12
IGBC E13
130
31
A2
ROYAL PHILIPS ELECTRONICS N.V. 2008
18
19
20
18680_530_090828.eps
090828
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 107
SSB: Pacific 3
1
3
2
1
4
2
6
5
3
7
4
8
5
9
6
10
11
8
7
13
12
9
14
15
16
11
10
17
12
18
13
19
20
1GE0 F10
1GE1 B11
2G79 D14
2GE0 A1
2GE1 A2
2GE2 A2
2GE3 A2
2GE4 A2
2GE5 A2
2GE6 A3
2GE7 A3
2GE8 A3
2GE9 A3
2GF0 A4
2GF1 A4
2GF2 A4
2GF3 A4
2GF4 A5
2GF5 A5
2GF6 A6
2GF7 A6
2GF8 A6
2GF9 A6
2GG0 A10
2GG1 A10
2GG2 A11
2GG3 A12
2GG4 A12
2GG5 A13
2GG6 A6
2GG7 A5
2GG8 A5
2GG9 A6
2GH0 B8
2GH1 B5
2GH2 B6
2GH3 B6
2GH4 B6
2GH5 B7
2GH6 B5
2GH7 B6
2GH8 B6
2GH9 B6
2GJ0 B11
2GJ1 G12
2GJ2 H10
2GJ3 G10
2GJ4 G9
2GJ5 B1
2GJ6 B2
2GJ7 B2
2GK0 C2
2GK1 C3
2GK2 C3
2GK3 C2
2GK4 A7
2GK5 A7
2GK6 A7
2GL1 A1
2GL2 B10
2GL3 B10
3GB8 C13
3GB9 C14
3GC8 C14
3GE0 A11
3GE1 A12
3GE3 B11
3GE4 B11
3GE5-1 B8
3GE5-3 B8
3GF0-1 C10
3GF0-2 C10
3GF0-3 G10
3GF0-4 G10
3GF1-1 C11
3GF1-4 B8
3GG0 C2
3GG1 D9
3GG2-3 E11
3GG2-4 E11
3GG6 H13
3GG7 H13
3GG9 I13
3GH0 H9
3GH2 I8
3GH3 C2
3GH4 C2
3GH5 D2
5GE0 A10
5GE1 A12
5GE2 A1
5GE3 A5
5GE4 A5
5GE5 B5
5GE6 B5
6GE0-1 G8
6GE0-2 H8
6GE1 G9
6GE3 I8
6GE6 C1
6GE7 C1
7G65 D13
7GE0 G11
7GE1 C7
7GE2-1 F4
7GE2-2 B12
7GE2-3 E1
7GE3 A2
7GE5 B2
9GE0 B13
9GE1 D9
9GE4 C1
9GE5-1 D5
9GE5-2 D5
9GE5-3 D5
9GE5-4 D5
9GE6-1 D5
14
A
5GE3
+1V5
PACIFIC 3
+1V5-P3
RxP3oA-_B9
RxP3oA+_B8
3
4
9GE5-3
9GE5-4
6
5
TXOATXOA+
RxP3oB-_B7
RxP3oB+_B6
1
2
9GE5-1
9GE5-2
8
7
TXOBTXOB+
FGE5
JTAG-TD-PNX5050-PACIFIC
G
EE
RxP3oC-_B5
RxP3oC+_B4
3
4
9GE6-3
9GE6-4
6
5
TXOCTXOC+
RxP3oCLK-_B2
RxP3oCLK+_B3
1
2
9GE6-1
9GE6-2
8
7
TXOCLKTXOCLK+
RxP3oD-_B1
RxP3oD+_B0
3
4
9GE7-3
9GE7-4
6
5
RxP3oE-_G9
RxP3oE+_G8
1
2
9GE7-1
9GE7-2
8
7
177
+3V3-P3
3GG1
178
179
183
185
187
188
CTRL4-P3
CTRL4-P3
4K7
3GG2-3
3 100R 6
SDA-SSB
SCL-SSB
TXODTXOD+
4
FGF2
TXOETXOE+
IGE8
100R
5
3GG2-4
IGE9
FGF3
00
01
02
GPIO
03
04
05
SCL
SDA
198
200
II
N
+1V5-P3
SSCG_GND
1
10n
2GG5
10n
9GE0
FOR /22M
10K
9GE8
3GC8
C
BACKLIGHT-BOOST
1K0
RES
3
1
7G65
BC847BW
2
133
134
135
137
139
140
141
RES
D
BACKLIGHT BOOST
143
145
146
CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3
PE<7:9>
7
6
5
4
D
3
2
1
0
PSEN
WRN
SSDA
SSCL
DEO
148
149
151
153
154
155
159
160
161
162
E
64
73
88
104
59
RxP3eC-_G3
RxP3eC+_G2
34
35
RxP3eCLK-_G0
RxP3eCLK+_G1
38
37
40
41
RxP3eE-_R7
RxP3eE+_R6
44
45
55
213
PLL2_GNDD
PLL1_GNDD
57
215
2
3
N
ERX1
P
ETX0
N
ERX2
P
P
N
TXOA+
TXOA-
95
96
TXOB+
TXOB-
98
99
TXOC+
TXOC-
100
101
TXOCLK+
TXOCLK-
IGHG BAS316
3
PWM-3
6GE1
3GH0
PWM-3
2K2
PB<0:9>
N
ECLK
P
N
ERX3
P
N
ERX4
P
ETX1
P
N
ETX2
P
N
ETX3
P
N
P
ETX4
N
ETX5
P
N
102
103
TXOD+
TXOD-
106
107
TXOE+
TXOE-
10p RES
92
93
2GJ3
TXEE+
TXEE-
2GJ4
89
90
2
TXED+
TXED-
G
FGG3
P87LPC764BDH
7GE0
7
FGG4
6
1
20
19
18
17
16
14
13
PWM-OR
SDA-AMBI-3V3
SCL-AMBI-3V3
IGHH
Φ
100n
P
N
P
OTX5
N
VDD
CLKOUT uC
X2
4Kb OTP TXD
X1
RXD
P2<0:1>
SCL
CMP2
T0
2B
2A
SDA
CIN
0
1B
INT
1
1A
CMPREF
RST
6
CMP1
7
T1
P0<0:7>
P1<0:7>
12
11
10
H
9
8
4
3
2
3GG6
PWM-OR
1K0
3GG7
RES
+3V3
4K7
VSS
3GG9 RES
PC<0:9>
I
+3V3
4K7
R<9:0>
PLL2_GNDA
PLL1_GNDA
TXECLK+
TXECLK-
86
87
2GJ1
N
ERX0
P
46
47
48
49
52
53
RxP3R5
RxP3R4
RxP3R3
RxP3R2
RxP3R1
RxP3R0
P
N
OTX4
G<9:0>
RxP3eD-_R9
RxP3eD+_R8
P
N
OTX3
10K
N
ORX4
P
OTX2
+3V3
5 3GF0-4 4
N
ORX3
P
6
15
31
32
83
84
PA<0:9>
10K
RxP3eB-_G5
RxP3eB+_G4
TXEC+
TXEC-
+3V3
6 3GF0-3 3
28
29
80
81
FOR AMBILIGHT ONLY
1GE0
10M
10n
199
216
211
208
203
195
189
186
181
175
171
163
157
152
142
131
125
112
108
5
RxP3eA-_G7
RxP3eA+_G6
TXEB+
TXEB-
2GJ2
25
26
TXEA+
TXEA-
77
78
10p RES
N
OCLK
P
74
75
6GE0-1
18
50
63
70
79
91
11
30
42
P
OTX1
N
B<9:0>
RxP3oE-_G9
RxP3oE+_G8
P
N
BAV70S
22
23
RxP3oD-_B1
RxP3oD+_B0
N
ORX2
P
F
1
20
19
OTX0
LVDS
N
ORX1
P
61
62
66
67
68
69
5
RxP3oCLK-_B2
RxP3oCLK+_B3
3
4
5
6
7
8
6GE0-2
15
16
PWM
BAV70S
13
14
RxP3oC-_B5
RxP3oC+_B4
N
ORX0
P
GND
GND-RX
O
+3V3
1K0
RES
5
M
3GB9
4K7
209
197
190
182
176
156
147
136
119
111
105
94
85
72
65
43
39
33
24
21
12
RxP3oB-_B7
RxP3oB+_B6
CLKI
HSI
3GH2
L HH
VDD_2V5
GND
166
6
+2V5-P3
VDD_1V5
owner.
+3V3-P3
9
10
4
K
SUPPLY
GG
VDD_3V3
J
VIA
210
201
196
184
180
174
167
158
150
144
138
130
124
118
113
110
7
8
6GE3
SSCG_VCC_1V5
PLL2_VCCD_1V5
56
PLL1_VCCD_1V5
214
RxP3CLK
RxP3HS_DE
RxP3oA-_B9
RxP3oA+_B8
BAV70W
58
+1V5-PLL
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
VDD_TX_3V3
FF
7GE2-1
T6TF4HFG-0002
VDD_RX_3V3
PLL2_VCCA_2V5
54
PLL1_VCCA_2V5
212
IGA8
PF<0:9>
242
VDD_TX_1V5
+2V5-PLL
RXD
RDN
TXD
MSDA
MSCL
202
204
117
120
121
122
123
126
127
128
129
132
BACKLIGHT-CONTROL
IGA7
A<19:0>
+3V3-P3
17
27
36
51
60
71
76
82
97
I
+1V5-TX
VDD_RX_1V5
GND_HS
+1V5-RX
0
1
2
PE 3
4
5
6
MINTN
114
7GE2-3
T6TF4HFG-0002
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
T1
TCK
TDI
TDO
TMS
TRST
TRIGOUT
168
169
170
3GB8
1M0
3GE3
8
3GF1-1 4K7
VSI
109
115
116
1u0
1
0
1
2
3
4
PD
5
6
7
8
9
B
2G79
RES
FGG1
7 10K
8 10K
3GF0-1 1
JTAG-TCK
JTAG-TD-PNX5050-PACIFIC
JTAG-TD-PACIFIC-TDA10048
JTAG-TMS
JTAG-TRST
CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3_BOOTMODE
RES FOR /22M
2GL3
60M
2GL2
10p RES
4K7
1
3
RES 3GF0-2 2
+3V3
IGHC
JTAG-TD-PACIFIC-TDA10048
CLKO
VSO
HSO
0
PWM 1
2
RSTN
SI
SCK
SO
CS
4
FGG0
173
207
3
205
1
2
206
RxP3VS
IGHB
RxP3FF
H
47K RES
3GE0
1u0
7
HOLD
120R
2GK3
3GE5-3 4K7
6
4
3
MISC
OSC_CLK_I
193
191
192
194
IGA2
1
VSS
7GE1
M25P05-AVMN6
4
BYPASS
OSC_Z
164
6
C
W
F
4u7
2GJ0
512K
FLASH
120R
3GH4
240R
165
IGE2
5
D
IGHE
4K7
7GE2-2
T6TF4HFG-0002
172
Φ
9GE1
Q
S
3GH5
47R
VCC
2
DD
1u0
2GG4
2GG3
10n
10n
2GG2
2GG0
GND-RX
3
1
10p RES
1GE1
GND-RX
47u 4V
100n
2GK2
1K0
2GK1
1 IGH0
3GH3
GND
GND-RX
+1V5
3GE1
IGHD
3GE4
2
8
FGE9
2
OUT
COM
100n
RES 9GE4
CC
OUT
IN
3GE5-1 4K7
8
3GF1-4
5
+1V5-RX
10n
2GH0
IGA3
10n
10n
GND-TX
2GH9
2GH8
10n
2GH7
1u0
2GH6
10n
2GH5
10n
10n
2GH4
2GH3
2GH2
1u0
10n
GND-TX
GND-TX
GND-RX
3
IN
RES
3GG0
E
6GE7
2GK0
6GE6
1u0
2GG1
10n
10n
2GG9
1u0
2GG8
2GG7
2GH1
2GJ6
220R
+3V3-P3
7GE5
LD1117DT
IGH7
STPS2L30A
STPS2L30A IGH8
A
+3V3-P3
+1V5-TX
IGE0
GND-TX
GND-TX
5GE6
10n
2GJ7
2
1u0
4
BP
5GE1
+3V3-P3
+1V5-PLL
IGA4
220R
IGHA
COM
FGE1 +2V5-PLL
120R
FGE3
+2V5-PF
D
+3V3
FGE0
+2V5-PF
120R
10n
10n
10n
10n
10n
2GG6
10n
2GF9
10n
2GF8
10n
2GF7
10n
2GF6
FGE8
5GE5
5
OUT
INH
100n
2GJ5
3
BB
4u7
2GF5
2GF4
10n
10n
2GF3
10n
2GF2
10n
2GF1
10n
2GF0
10n
2GE9
10n
2GE8
10n
2GE7
10n
2GE6
10n
2GE5
10n
2GE4
10n
2GE3
10n
2GE2
1u0
2GL1
2GE0
10n
2GE1
IN
+2V5-P3
220R
7GE3
LD3985M25
1
2GK4
5GE4
120R
+3V3
5GE0
IGH9
+3V3-P3
FGE2
C
2GK5
5GE2
+2V5-PF
220R
IGF5
2GK6
B AA
+3V3
FGE4
CODE 9322 247 80671 IN ECM
GND-TX
4
6
5
7
8
10
9
11
12
CHN
MULTI 12NC : 3139 123 63701
BD 12NC
: 3139 123 63711
CELL 12NC : 8239 125 14461
" XGE0 ~ XGKZ "
1
-- -- --
2
2008-03-17
3
2
3
4
5
6
7
8
9
10
11
12
13
14
CHECK
15
D
E
G
H
I
J
K
L
M
N
DATE
16
2008-03-17
130
C
17
2008-09-05
1
2008-03-17
P
42
SUPERS.
2
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Vincent Yap / Yeam SL
SV
1
C
O
TV522
3PC332
P
B
F
14
13
A
SETNAME
DC 320600
CLASS_NO
-- -- --
9GE6-2 E5
9GE6-3 D5
9GE6-4 D5
9GE7-1 E5
9GE7-2 E5
9GE7-3 E5
9GE7-4 E5
9GE8 C13
FGE0 A11
FGE1 A13
FGE2 A1
FGE3 A10
FGE4 A6
FGE5 D10
FGE8 A6
FGE9 C3
FGF2 E10
FGF3 E10
FGG0 C11
FGG1 D9
FGG3 H10
FGG4 H11
IGA2 C9
IGA3 B7
IGA4 B7
IGA7 C13
IGA8 C13
IGE0 B10
IGE2 B11
IGE8 E11
IGE9 E11
IGF5 A5
IGH0 C2
IGH7 C1
IGH8 C2
IGH9 A10
IGHA B2
IGHB C8
IGHC C8
IGHD B11
IGHE A12
IGHG G9
IGHH H8
32
A2
ROYAL PHILIPS ELECTRONICS N.V. 2008
18
19
20
18680_531_090828.eps
090828
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 108
SSB: Analog I/O: Scart 1 & 2
1
3
2
1
4
A
6
5
3
2
8
7
4
11
7
8
13
12
9
15
14
10
RES
6E01
PESD5V0S1BA
2E87
PESD5V0S1BA
0001
1n0
0001
PESD5V0S1BA
0001
RES
6E07
PESD5V0S1BA
0001
RES
6E09
1015
100p
2E04
100K
3E22
2E82
1n0
5
RES
PESD5V0S1BA
2E15
100p
1E12
100p
2E1B
100p
FE75
11
FE80
11
330p
10
12
13
12
9E1B
NON MHP
17
F
100p
1E18
100p
MRC-021H-09 PC
MHP
IEC9
9E1C
5E13
IECA
3EBD
27R
RES
100p
3E54
47R
2E1E
330n
100p
NON MHP
PESD5V0S1BA
0001
RES
6E35
1011
75R
RES
3E55
100p
21
21
SC1-R
2E19
20
FE85
AV3-PR
G
19
FE84
20
MRC-021H-09 PC
J
100p
3E38
19
FE83
PESD5V0S1BA
2E12
FE79
18
27R
0001
6E28
PESD5V0S1BA
1E13
0001
RES
6E34
75R
RES
3E51
100p
2E17
FE78
3EBC
1E19
FE77
AV3-Y
47R
2E1C
18
F
IEC8
330n
PESD5V0S1BA
2E14
5E12
SC1-G
17
0001
RES 6E26
MHP
IEC7
16
2E1D
FE76
16
15
7
8
FE67
CVBS-TER-OUT
VSS VEE
E
15
FE82
14
100p
H
14
FE81
13
3
5
9
4
2E1F
E
D
8
9
2E18
8K2
0001
FE66
7
10
PESD5V0S1BA
IE96
6
FE74
3E31
IE18
AV1-STATUS
1001
Y_CVBS-MON-OUT-SC
8
9
FE65
RES
6E22
0001
RES
6E02
1028
3K3
3E17
330p
2E33
8K2
27R
3K3
FE64
3E16
FE73
3EBB
7
3E32
IE05
IEC5
330n
5
PESD5V0S1BA
AV2-STATUS
5E11
MHP
0001
6E23
IEC4
SC1-B
6
1
2
10
15
4
4
FE63
13
12
11
3
9E1A
3
6
1
2
4X1
4X2
2
FE72
NON MHP
7E02
74HC4053PW
C
1
2
FE68
VDD
G4
1E01
FE70
FE71
3E28
1027
0001
RES
6E24
100p
2E16
2E75
2
75R
RES
3E02
1
MDX
RES
1E02
AV3-PB
REGIMBEAU_CVBS-SWITCH
F
RES
SCART1
(AV1)
1
7E15
PDTC114EU
+5V
SCART2
(AV2)
47R
2E1A
3
IE98
PESD5V0S1BA
0001
RES
6E14
1025
100p
RES
2E31
100K
3E99
100n
2E77
8K2
RES
3E34
+5V
PESD5V0S1BA
C
2E91
1K0
3E14
1K0
1n0
3E19
SC1-AUDIO-L
IE21
2E90
RES
IE23
AUDIO-IN2-L
1009
100p
2E10
RES
3E30
1n0
FE62
1n0
A-PLOP
B
3E15
470R
2E70
RES
6E12
0001
1024
100p
100K
RES
2E32
RES
3E21
D
16
1E31
100p
2E06
100K
RES
AP-SCART-OUT-L
3E64
100K
AP-SCART-OUT-L
470R
100n
2E88
1K0
1n0
2E51
3E07
SC1-AUDIO-R
RES
PESD5V0S1BA
4
BC847BS
14
A
5
1K0
IE04
RES
6E03
IEC3
3EB0
PESD5V0S1BA
RES
0001
AP-SCART-OUT-R
100p
RES
2E30
10u
FEA1
RES
6E08
1K0
100K
150R
7E01-2 3
G
1E00
100p
100K
2E01
RES
IE22
FE61
3E11
AUDIO-CL-R
1023
2EA5
3E18
IEC2
3E27
IE20
AUDIO-IN2-R
C
G
AV1-BLK-BO
+3V3
+3V3
K
100n
2E24
2E02
22u 10V
4K7
3E44
100n
4K7
2E13
3E73
IE91
3
IE09
3E68
NON MHP
0001
H
75R
100R
1E22
1
7E09
BC847BW
2
RES
6E29
100R
0001
IE06
3E43
3E69
1
75R
1E26
7E14
BC847BW
2
IE48
AV1-BLK
3
IE51
CVBS-OUT-SC1
RES
6E36
3EB7
H
IE92
390R
7E05
BC847BW
PESD5V0S1BA
AV2-BLK
100R
PESD5V0S1BA
3E61
3EB6
100n
2E74
+5V
owner.
9E1D
IECB
1
O
1X02
EMC REF HOLE
1X03
EMC HOLE
3
4
7
8
9
0001
1E25
PESD5V0S1BA
RES
6E32
2E44
10
11
CHN
1X12
EMC REF HOLE
0001
1E23
RES
6E30
6
5
47R
3E59
100p
2E41
0001
1E27
68R
0001
RES
6E31
2
I
3E45
CVBS-OUT-SC1
68R
390R
N
75R
3E52
7E04
BC847BW
MHP
PESD5V0S1BA
IE93
RES
3E62
RES
6E37
IE94
100R
3EBA
27R
1E24
3EB9
PESD5V0S1BA
I
100n
2E73
+5V
PESD5V0S1BA
RES
9E10
M
AV2-Y_CVBS
100p
SC1-CVBS
3EB8
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
1001 E11
1009 B12
1011 G6
1015 C12
1022 A6
1023 B6
1024 B6
1025 C6
1027 D6
1028 E6
1E00 A12
1E01 C14
1E02 C8
1E12 D12
1E13 F6
1E18 F12
1E19 G12
1E22 H13
1E23 I13
1E24 I6
1E25 I13
1E26 H7
1E27 I6
1E31 B12
2E01 A11
2E02 G11
2E04 C11
2E06 B11
2E10 B11
2E12 G12
2E13 H6
2E14 F12
2E15 D12
2E16 D5
2E17 F5
2E18 E12
2E19 G5
2E1A D11
2E1B D11
2E1C F11
2E1D F11
2E1E G11
2E1F G11
2E24 G12
2E29 A5
2E30 B5
2E31 C5
2E32 B5
2E33 E5
2E41 I6
2E44 I12
2E50 A7
2E51 B7
2E70 B6
2E73 I2
2E74 G2
2E75 D1
2E77 C2
2E82 C6
2E87 A11
2E88 B11
2E90 B11
2E91 C11
2EA4 A3
2EA5 A3
3E02 D5
3E07 A11
3E11 A6
3E12 A11
3E14 C6
3E15 B11
3E16 D6
3E17 E5
3E18 B5
3E19 C11
3E21 B5
3E22 C11
3E24 A5
3E27 B11
3E28 D10
3E30 B11
3E31 D11
3E32 E11
3E34 C5
3E37 A11
3E38 F10
3E43 H12
3E44 G11
3E45 I11
3E51 F5
3E52 I5
3E54 G10
3E55 G5
3E59 I11
3E61 H7
3E62 I6
3E63 A6
3E64 B6
3E68 H12
3E69 H6
3E73 H6
3E99 C2
3EA7 A2
3EA8 A2
3EA9 A2
3EB0 B2
3EB6 H1
3EB7 H2
3EB8 I1
3EB9 I1
3EBA I11
3EBB D11
3EBC E11
3EBD G11
5E11 D11
5E12 E11
5E13 G11
1
3EA8
D
1n0
1n0
2E50
470R
2
BC847BS
L
20
19
14
3E37
AP-SCART-OUT-R
RES
3E12
RES
PESD5V0S1BA
0001
RES
6E10
100p
2E29
RES
AP-SCART-OUT-L
IEC1
3EA9
B
3E24
10u
FEA0
7E01-1 6
A
470R
AUDIO-CL-L
1022
2EA4
100K
IEC0
150R
1K0
I
13
12
FE60
3E63
AP-SCART-OUT-R
E
18
17
16
11
Analog IO : Scart 1 & 2
3EA7
B
10
9
6
5
12
13
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14431
-- -- --
2
2008-03-17
3
2
3
4
5
6
7
8
9
10
11
12
13
14
D
E
F
G
H
I
J
K
M
N
CHECK
15
DATE
16
2008-03-17
10
C
17
2008-09-05
1
2008-03-17
P
42
SUPERS.
2
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Vincent Yap / Yeam SL
SV
1
C
O
TV522
3PC332
1
B
L
14
CLASS_NO
P
A
SETNAME
DC320600
-- -- --
6E01 A12
6E02 E6
6E03 B12
6E07 B12
6E08 B6
6E09 C12
6E10 A6
6E12 B6
6E14 C6
6E22 E12
6E23 D12
6E24 D6
6E26 F12
6E28 G12
6E29 H12
6E30 I12
6E31 I5
6E32 I12
6E34 F6
6E35 G6
6E36 H6
6E37 I5
7E01-1 A2
7E01-2 B2
7E02 D2
7E04 I1
7E05 H1
7E09 H11
7E14 H6
7E15 C3
9E10 I2
9E1A D11
9E1B E11
9E1C F11
9E1D I11
FE60 A7
FE61 A7
FE62 B7
FE63 D7
FE64 D7
FE65 E7
FE66 E7
FE67 E7
FE68 D7
FE70 C13
FE71 C13
FE72 C13
FE73 D13
FE74 D13
FE75 D13
FE76 E7
FE77 F7
FE78 F7
FE79 F7
FE80 D13
FE81 E13
FE82 E13
FE83 F13
FE84 F13
FE85 F13
FEA0 A3
FEA1 B3
IE04 D1
IE05 D5
IE06 H6
IE09 H11
IE18 D10
IE20 A5
IE21 C5
IE22 A11
IE23 C11
IE48 H11
IE51 H5
IE91 H1
IE92 H2
IE93 I2
IE94 I1
IE96 E2
IE98 C2
IEC0 A3
IEC1 A2
IEC2 A3
IEC3 B2
IEC4 D10
IEC5 D11
IEC7 E10
IEC8 E11
IEC9 G10
IECA G11
IECB I10
130
33
A2
ROYAL PHILIPS ELECTRONICS N.V. 2008
18
19
20
18680_532_090828.eps
090828
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 109
SSB: Analog I/O: YPBr Audio Out
1
2
1
A
4
3
2
7
6
5
3
8
5
4
10
9
6
11
7
13
12
8
15
14
9
10
11
18
17
16
12
13
19
20
14
Analog IO : YPBr _Audio Out
B
A
A
IE68
3E25
150R
75R
100p
470R
5
3E08
2E71
RES
6E48
1E0T
D
6E52
12p
2E22
120R
22p
RES
3E40
2E23
RES
100p
1
2E07
AUDIO-IN3-R
2E72
RES
+3V3
2E52
E
1
10p
4K7
3E04-1
8
100p
3E98
100n
IE31
1K0
RES
100K
PESD5V0S1BA
E
3E95
1K0
RES
100K
PESD5V0S1BA
1E0Y
6E06
1E0Z
1n0
2E93
AUDIO-IN3-L
3E97
FE50
G
IE29
1E08-1
BLACK
MSP-303H-BBB-132-03
2
FE59
1E0Q
IE15
3E96
RES 6E38
2E92
D
1n0
FE49
C
AV4-PR
2E68
100p
75R
9E00
4
PESD5V0S1BA
IE26
1n0
5
7E10-2
BC847BS
RES
2E95
2E67
100p
75R
IE35
3E56
30R
F
1E0S
2E64
1E08-3
RED
MSP-303H-BBB-132-03
6
FE53
3E48
150R
1K0
RES
3E36
6EA1
1E0W
IE33
3E50
1u0
A-PLOP
FE48
MSP-636H1-01
IE34
PESD5V0S1BA
3
2
1
PESD5V0S1BA
E
AV4-PB
3E53
RES
4
2E34
AUDIO-OUT-R
IE03
9E02
3
RES
3E92
PESD5V0S1BA
6EA0
1E0V
5
C
B
FE51
6
RES
AV4-Y
RES
100p
7
9E03
2E28
100K
8
D
RES
3E42
6E53
9
PESD5V0S1BA
1E0R
B
1
IE00
FE52
12
11
10
6E47
1K0
1E03
PESD5V0S1BA
2
3E60
RES
C
3
100p
3E58
A-PLOP
470R
6 BC847BS
7E10-1
IE62
2E49
100K
1u0
1E08-2
WHITE
MSP-303H-BBB-132-03
4
FE69
3E33
1n0
IE57
RES
2E96
2E21
AUDIO-OUT-L
4K7
7E03
BC847BW
I
3E13
3E20
2E08
47R
100n
IE01
180R
IE02
3
3E04-3
100n
IE24
2 3E04-2 7
6
SPDIF-OUT
IE25
4K7
H
2E05
F
F
IE90
5E02
+12VD
+5V
5
IE07
1
IE60
IE38
2E78
2
10u
3EB1
IE61
22K
3EA5
330R
3EB2
10K
3EA6
330R
100R
RES
9E21
H
560R
3EB3
H
3EB5
6
7E06-1
BC847BPN
1
3
L
100K
IE70
3
7E16
BC847BW
2
3EA1
1K0
4
BC847BPN
7E06-2
K
Y_CVBS-MON-OUT-SC
3EA2
G
IE89
100n
2E76
G
3EA3
33R
3EA4
100n
2E81
1n0
EMC
2E9A
J
1u0
220R
owner.
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
RES
9E06
M
I
I
Y_CVBS-MON-OUT
N
1
2
3
4
5
6
7
8
9
10
11
12
13
1E03 B1
1E08-1 C11
1E08-2 A11
1E08-3 B11
1E0Q D10
1E0R B3
1E0S B10
1E0T C10
1E0V C3
1E0W C3
1E0Y D3
1E0Z E3
2E05 E7
2E07 E8
2E08 E10
2E21 A8
2E22 D8
2E23 D7
2E28 C9
2E34 B8
2E49 B9
2E52 E8
2E64 B4
2E67 C4
2E68 C4
2E71 D5
2E72 E5
2E76 G9
2E78 G12
2E81 G10
2E92 D3
2E93 E3
2E95 C10
2E96 B10
2E9A G9
3E04-1 E8
3E04-2 E8
3E04-3 F8
3E08 D8
3E13 F9
3E20 E10
3E25 A8
3E33 A10
3E36 C4
3E40 D8
3E42 B4
3E48 B10
3E50 B8
3E53 C9
3E56 C8
3E58 B8
3E60 B9
3E92 C4
3E95 D4
3E96 D4
3E97 E4
3E98 E4
3EA1 G12
3EA2 G11
3EA3 G11
3EA4 G10
3EA5 H12
3EA6 H11
3EB1 H11
3EB2 H11
3EB3 H9
3EB5 H10
5E02 G10
6E06 E3
6E38 D3
6E47 B10
6E48 C10
6E52 D10
6E53 B3
6EA0 C3
6EA1 C3
7E03 E9
7E06-1 G11
7E06-2 G11
7E10-1 B9
7E10-2 C8
7E16 H9
9E00 C5
9E02 C5
9E03 B5
9E06 F9
9E21 H10
FE48 C4
FE49 D3
FE50 E3
FE51 C4
FE52 B4
FE53 B10
FE59 D9
FE69 A10
IE00 B5
IE01 F10
IE02 F9
IE03 B5
IE07 H10
IE15 D8
IE24 E8
IE25 E8
IE26 C5
IE29 D4
IE31 D4
IE33 B9
IE34 B8
IE35 C8
IE38 H10
IE57 A8
IE60 G12
IE61 H11
IE62 B8
IE68 A9
IE70 G11
IE89 G11
IE90 F11
A
B
C
D
E
F
G
H
I
J
K
L
M
N
14
O
O
CHN
DC320600
SETNAME
CLASS_NO
TV522
3PC332
P
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14431
1
2
3
4
5
6
7
8
9
10
11
12
13
14
-- -- --
1
-- -- --
2
2008-03-17
3
SV
CHECK
15
SUPERS.
DATE
16
C
17
1
2008-03-17
P
10
42
2008-03-17
2008-09-05
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Vincent Yap / Yeam SL
2
130
34
A2
ROYAL PHILIPS ELECTRONICS N.V. 2008
18
19
20
18680_533_090828.eps
090828
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 110
SSB: Analog I/O: Side A/V
1
3
2
1
4
2
6
5
3
8
7
4
5
10
9
6
7
11
8
13
12
9
A
1
100p
100p
100p
FE88
FE89
FE21
AUDIO-IN5-R
CVBS
FE98
1
2
3
4
5
6
7
8
9
10
11
AUDIO-HDPH-L-AP
1E11-1 1
YELLOW
IE58
AUDIO-HDPH-R-AP
(YELLOW)
D
100p
100p
2E57
2E97
100K
3E76
100p
6E21
1004
30R
RES
RES
FE91
RES
PESD5V0S1BA
1002
6E46
2E80
100p
100u 4V
2E45
100u 4V
100p
2E98
100K
3E77
100R
FOR ITV
E
RC1
IE66
IE67
RC2
3E26-1
8
33R
FE24
LEFT
2
9E15
FE25
RIGHT
3E26-2
3
7
33R
3E26-3
6
1n0
1K0
2E40
33R
3E80
1010
6E44
1n0
1K0
RES
RES
2E39
FOR ITV
PESD5V0S1BA
IE73
PESD5V0S1BA
3E79
F
100p
RES
1
5
4
2
1000
6E45
H
RES
3E82
HEADPHONE
3
7
8
FE18
1
MSJ-035-10A B AG PPO
D
1K0
FEA2
E
IE72
3E78
2E37
F
PESD5V0S1BA
1003
6E43
FE23
30R
2E58
(RED)
MTJ-032-37BAA-432 NI
8
9
1E11-3 7
RED
FE17
1E15
C
5E00
FE90
5E01
RIGHT
G
TO SIDE I/O
1-1735446-1
1K0
E
9E16
owner.
3E81
2E42
(WHITE)
LEFT
MTJ-032-37BAA-432 NI
5
6
1E11-2 4
WHITE
PESD5V0S1BA
FE22
B
1M36
HP-DETECT
1005
MTJ-032-37BAA-432 NI
2
D
AUDIO-IN5-R
AUDIO-IN5-L
1E14
C
AUDIO-IN5-L
100R
100p
2E56
FE86
FRONT-C
100R
3EC0
FE87
A
FRONT-C
FRONT-Y_CVBS
3EC1
2E55
75R
FRONT-Y_CVBS
MDC-013V1-B
C B
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
75R
2E54
1006
FE20
100p
3
RES
6E41
Y/CVBS
RES
3E75
C
4
5
2E36
SVHS IN
9E13
9E14
FE56
PESD5V0S1BA
2
RESERVED
2E53
B
RES
3E74
PESD5V0S1BA
100p
A
6E20
1007
2E35
ANALOG IO : SIDE AV
4
3E26-4
F
5
33R
I
1
2
3
4
5
6
CHN
7
DC320600
8
TV522
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14431
1
2
3
4
5
6
7
1
-- -- --
2
2008-03-17
3
CHECK
8
C
D
E
F
G
H
I
SUPERS.
DATE
9
C
10
130
10
42
2008-03-17
2
2008-09-05
1
2008-03-17
J
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Vincent Yap / Yeam SL
SV
B
9
CLASS_NO
-- -- --
A
SETNAME
3PC332
J
IE58 C5
IE66 E5
IE67 E6
IE72 D5
IE73 F2
1000 F3
1002 E3
1003 D3
1004 C3
1005 B3
1006 B3
1007 A3
1010 F4
1E11-1 B2
1E11-2 C2
1E11-3 D2
1E14 B1
1E15 E1
1M36 B8
2E35 A3
2E36 B3
2E37 D4
2E39 F3
2E40 F4
2E42 C4
2E45 D5
2E53 A7
2E54 A7
2E55 A8
2E56 B8
2E57 C8
2E58 D8
2E80 E5
2E97 C4
2E98 D4
3E26-1 E5
3E26-2 F5
3E26-3 F5
3E26-4 F5
3E74 A4
3E75 B4
3E76 C4
3E77 D4
3E78 D4
3E79 F3
3E80 F4
3E81 C4
3E82 E4
3EC0 A8
3EC1 A8
5E00 C8
5E01 D8
6E20 A3
6E21 C3
6E41 B3
6E43 D3
6E44 F4
6E45 F3
6E46 E3
9E13 A8
9E14 A8
9E15 F2
9E16 F2
FE17 D2
FE18 F2
FE20 B2
FE21 B2
FE22 C3
FE23 D3
FE24 F3
FE25 F4
FE56 A2
FE86 B7
FE87 B7
FE88 B7
FE89 B8
FE90 C8
FE91 D7
FE98 B8
FEA2 E3
A3
35
ROYAL PHILIPS ELECTRONICS N.V. 2008
11
12
13
18680_534_090828.eps
090828
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 111
SSB: Analog I/O: Bolt - On
2
1
1
A
4
3
2
3
7
6
5
4
8
5
9
6
10
7
12
11
8
14
13
9
10
16
15
11
17
12
18
1008 C12
1029 C12
1E06 C13
1E50 B13
1E51 B13
1HE0 A1
1HP0 B1
1R07 C1
1R08 D1
1R09 F1
1R12 H1
2E03 E1
2E09 E2
2E20 E2
2E60 A10
2E61 A10
2E62 A9
2E63 A9
2EA1 F8
2EA2 F8
2EA3 F8
2EA6 F8
2EA7 H7
2EA8 H7
2EA9 E10
2EAA G10
2EAB G10
2EAC H7
2EAD H7
2EAE I7
2EAF I7
2EAK I2
2EAL I2
2EAM I3
2EAN I3
2EAP F8
2EAQ F8
2EAR A10
2ECB I2
2ECC I2
2ECD I2
2ECE G2
2ECF G2
2ECG G2
2ECH G2
2ECK G3
2ECL G3
2ECM E2
2ECN E2
2ECP E2
3E09 D2
3E23 E2
3E39-1 A3
3E39-2 A3
3E39-4 A3
3E41 A3
3E57 E2
3E85 B2
3E93 C2
3EAA G9
3EAB G9
3EAC G9
3EAD H8
3EAE H8
3EAF H9
3EAG H9
3EAH H9
3EAJ H9
3EAK I8
3EAL I8
3EAM I9
3EAN I9
3EAP I9
3EAQ I9
3EAR A3
3EAS B3
3EAT E8
3EAV E8
3EAW H11
3EAY I3
3EAZ I3
3EC2 E9
3EC3 E9
3EC4 E9
3EC5 E9
3EC6 G8
3EC7 G8
3EC8 G9
3ECA G7
3ECB G7
3ECC G8
3ECD I7
3ECE H3
3ECF H3
3ECG H3
3ECH H3
3ECK E11
3ECL F2
3ECM F2
3ECN F2
3ECP F2
3ECQ H8
3ECR H8
3ECS I8
3ECT I8
3ECU E2
3ECV E2
3ECW E2
3ECY E2
5E03 E1
5EA1 E10
5EA2 G10
6E50 A10
7E17 A9
7EA1 E10
7EA3 G10
14
13
Analog IO : Bolt - ON
FE47
1
2
3
4
5
6
7
8
9
10
11
12
13
14
EJTAG-TDO
FE43
EJTAG-TMS
7E17
ST3232C
8 3E39-1 1
EJTAG-TMS
+3V3
EJTAG-TCK
2E62
IE85
100n
IE86
+3V3
10K
3EAR
2E63
IE87
100n
IE88
10K
FE41
FE40
FE39
IE81
DV-B1_UART2-TX_1
+3V3
1
3
4
5
11
10
5-147279-3
B
TXD
FOR DEBUG
1HP0
2
3E85
100R
100n
2EAR
V+
6
2E60
100n
2
2E61
100n
IE76
C2+
RS232-2
C2-
T1
IN
T2
OUT
R1
IN
R2
R1
OUT
R2
14
7
T1
T2
B3B-PH-SM4-TBT(LF)
1E51
FE92
TXD2
FE93
RXD2
IE79
12
9
5
FE28
FE95
+3V3-EXT
IE84
1R07
FE32
FE31
FE30
FE97
9EA1
SC1-B
9EA2
AV1-Y
SC1-R
9EA3
AV1-PR
FEB4
FEB5
FEB6
3ECU
3ECV
3ECW
FE34 3E57
FEB7 3ECY
DV-B0_UART2-RX_1
9EA8
DV-B1_UART2-TX_1
FOR MHP BOLT-ON
100R
100R
100R
100R
100R
SCL-SSB
SDA-SSB
9EA9 RES
RXD2
RC
9EAA RES
TXD2
IEA1
2EA9
IEBA BOLT-ON-IO_RESET-STI7100
STANDBY
CVBS-TER-OUT
+5V
7EA1
ADG733BRU
Φ EN
IEA2
4u7
12
S1A
4u7
IEA3
13
2EA3
4u7
IEA4
2
4u7
IEA5
1
3ECL
3ECM
1K0
1K0
AUDIO-IN5-L
AUDIO-IN5-R
SC1-B
2EAP
BO-G
2EAQ
4u7
IEA6
5
3ECN
3ECP
1K0
1K0
AUDIO-OUT-R
AUDIO-OUT-L
SC1-G
2EA6
4u7
IEA7
3
NC
FEB2
FEB3
2EA2
BO-B
D1
S2A
DV-B3_MHP-SWITCH_1
14
AV1-PR
D2
15
AV1-PB
F
S2B
S3A
4
D3
AV1-Y
S3B
7
VSS GND
47K
47K
3EAC
3EAB
47K
47K
3EAA
47K
3EC8
47K
3EC7
3EC6
47R
47R
3ECC
47R
3ECB
3ECA
1n0
1n0
2ECL
2ECK
1n0
1n0
2ECH
1n0
2ECG
1n0
2ECF
100K
S1B
10 11
BM09B-SRSS-TBT
3ECK
8
FEA4
2ECE
J
FEA3
SC1-R
G
2EAA
K
IEA8
+5V
10u
2EAB
7EA3
ADG733BRU
VDD
33K
33K
3EAJ
3EAH
47K
47K
3EAG
33K
3EAF
33K
3EAE
3EAD
16
100n
Φ EN
A0
A1
A2
FOR MHP BOLT-ON
3ECE
13
4u7
IEB2
2
IEB3
1
2u2 3ECR
SC1-AUDIO-R
IEBD
2EA8
BO-CVBS
12
2EAF
2u2
3ECS
3K3
IEB4
5
SC1-AUDIO-L
2EAE
2u2
3ECT
3K3
IEB5
3
S1A
D1
IEBC
3EAW
100K
DV-B3_MHP-SWITCH_1
H
14
AUDIO-IN1-R
15
AV1-Y_CVBS
4
AUDIO-IN1-L
S1B
S2A
D2
S2B
S3A
D3
S3B
7
VSS GND
33K
3ECD
BO-R
BO-G
BO-B
33K
3EAQ
BO-AUDIO-L
3EAP
4u7
47K
2EA7
47K
3EAN
BO-CVBS
SC1-CVBS
33K
BO-AUDIO-L
BO-AUDIO-R
3EAM
68R
1K0
1K0
3EAY
3EAZ
3K3
IEB1
2EAC
33K
3EAL
FEA9
FEB0
IEB0
2u2 3ECQ
SPDIF-IN-MHP
FE12
FE11
FE10
I
1
2
100p
100p
RES 2EAN
RES 2EAM
1n0
1n0
2EAL
N
2EAK
15 16
BM14B-SRSS-TBT
O
BOLT-ON-IO_RESET-STI7100
RXD-BOLT-ON
TXD-BOLT-ON
3K3
2EAD
3EAK
FEB1
22p
I
FEA6
FEA7
100R
100R
100R
3ECF
3ECG
3ECH
FEA8
100p
RES 2ECD
M
FEA5
100p
RES 2ECC
1
2
3
4
5
6
7
8
9
10
11
12
13
14
BO-AUDIO-R
6
11
10
9
8
1R12
47R
H
RES 2ECB
L
G
60R
5EA2
+5V
owner.
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
F
FRONT-Y_CVBS
FRONT-C
IEBB
6
11
10
9
A0
A1
A2
47K
47K
3EC5
47K
3EC4
47K
3EC3
47K
2E20
2EA1
BO-R
1
2
3
4
5
6
7
8
9
E
100n
VDD
1R09
I
60R
9EA7
TXD-BOLT-ON
5EA1
RXD-BOLT-ON
100p
100p
2E09
100p
100p
100p
2ECM
2ECN
2ECP
100p
RXD-BOLT-ON
TXD-BOLT-ON
30R
+3V3-STANDBY
2E03
IEB8
IEB9
100R
3EAT
5E03
100R
3E23
16
3E09
FE35
11 12
D
+5V
FE36
FE33
AV1-PB
SC1-G
FE37
1R08
E
FE57
9 10
D
1
2
3
4
5
6
7
8
9
10
C
AP-SCART-OUT-L
AP-SCART-OUT-R
BM08B-SRSS-TBT
G
5
USE ONLY
1 TXD1
2
3 RXD1
4
MSJ-035-29D PPO (PHT) RS232
2
SERVICE
3
CONNECTOR
1 1E06
1029
9EAB
FE14
3EC2
F
H
6
B
B4B-PH-SM4-TBT(LF)
FOR ITV
SC1-B
SC1-G
SC1-R
AV1-BLK-BO
47K
3EAV
1
2
3
4
5
6
7
8
FOR
FACTORY
3E93
100R
FE96
C
1
2
3
1E50
DV-B0_UART2-RX_1
E
4
RS232-1
FE94
IE80
SCL-SSB
SDA-SSB
5
IE75
V-
15
FE29
FE27
4
RS232
C1-
RXD
SCL 1
SDA 3
C1+
VCC
1008
D
13
8
IE82
A
16
Φ
100K
EJTAG-TCK
FE42
FE38
FE99
RES 3E41
EJTAG-TDI
+3V3-EXT
BAS316
+3V3
10K
C
FE44
6E50
+3V3
DEBUG / RS232 INTERFACE
10K
EJTAG-TRSTN
EJTAG-DETECT
EJTAG-TDI
FE46
FE45
EJTAG-TDI
10K
7 3E39-2 2
RES
A
5 3E39-4 4
3EAS
B
1HE0
EJTAG-TRSTN
GND
FOR FACTORY
USE ONLY
3
4
5
SC1-AUDIO-R
9EA4
AUDIO-IN1-R
SC1-AUDIO-L
9EA5
AUDIO-IN1-L
SC1-CVBS
9EA6
AV1-Y_CVBS
6
7
8
9
10
12
11
CHN
DC320600
13
20
19
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14431
1
-- -- --
2
2008-03-17
3
2
3
4
5
6
7
8
9
10
11
12
13
14
C
D
E
F
G
H
I
J
K
L
M
N
O
CHECK
15
DATE
16
2008-03-17
10
C
17
2008-09-05
1
2008-03-17
P
42
SUPERS.
2
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Vincent Yap / Yeam SL
SV
1
B
14
TV522
3PC332
-- -- --
A
SETNAME
CLASS_NO
P
9EA1 D10
9EA2 D10
9EA3 D10
9EA4 I10
9EA5 I10
9EA6 I10
9EA7 D5
9EA8 E5
9EA9 E5
9EAA E5
9EAB C2
FE10 I4
FE11 I4
FE12 I4
FE14 C1
FE27 B2
FE28 C2
FE29 B2
FE30 D2
FE31 D2
FE32 C1
FE33 E1
FE34 E2
FE35 E2
FE36 D2
FE37 D1
FE38 A1
FE39 B1
FE40 B1
FE41 B1
FE42 A1
FE43 A1
FE44 A1
FE45 A1
FE46 A1
FE47 A1
FE57 C12
FE92 B12
FE93 B12
FE94 B12
FE95 B12
FE96 C12
FE97 C12
FE99 A10
FEA3 F2
FEA4 F2
FEA5 H2
FEA6 H2
FEA7 H2
FEA8 H2
FEA9 I2
FEB0 I2
FEB1 I1
FEB2 F1
FEB3 F1
FEB4 E2
FEB5 E2
FEB6 E2
FEB7 E2
IE75 A10
IE76 A10
IE79 B10
IE80 B9
IE81 B9
IE82 B9
IE84 C9
IE85 A9
IE86 A9
IE87 A9
IE88 B9
IEA1 E10
IEA2 F10
IEA3 F10
IEA4 F10
IEA5 F10
IEA6 F10
IEA7 F10
IEA8 G10
IEB0 H10
IEB1 H10
IEB2 H10
IEB3 H10
IEB4 I10
IEB5 I10
IEB8 D3
IEB9 E3
IEBA E3
IEBB E11
IEBC H11
IEBD H7
130
36
A2
ROYAL PHILIPS ELECTRONICS N.V. 2008
18
19
20
18680_535_090828.eps
090828
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 112
SSB: Digital I/O: USB Connector + Control
6
7
8
14
9
10
A
1n0
EMC 2P0P
30R
IP0K
100n
2P0F
3P0G
30R
B
U1 C11
1P01 E6
1P07 C13
2P00 E9
2P01 D9
2P02 D10
2P03 C7
2P04 D6
2P05 D6
2P06 D6
2P07 D7
2P08 D7
2P09 E10
2P0A E9
2P0B C7
2P0C C6
2P0D C7
2P0E C6
2P0F B7
2P0G E6
2P0H E6
2P0K C12
2P0L E10
2P0M E9
2P0N D9
2P0P B12
2P0Q B12
2P0R B12
2P0T B12
2P0U B13
2P0V D10
2P0W E10
3P00 G6
3P01 H3
3P02 H3
3P03 H3
3P04 H3
3P05 F6
3P06 C3
3P07 G6
3P08 H3
3P0A F3
3P0B F2
3P0C G3
3P0D G3
3P0E C12
3P0F C12
3P0G B12
3P0H F3
3P0L H3
5P00 D6
5P01 C6
5P02 B6
5P03 B6
5P04 A6
5P07 B12
7P00 E7
7P01 D3
9P00 E6
9P01 D2
9P02 I8
FP00 E6
FP07 D13
FP08 D13
FP09 D13
FP0A D13
IP00 D9
IP01 G6
IP02 B12
IP04 D7
IP05 D9
IP06 C7
IP07 B7
IP08 E7
IP09 D9
IP0A E9
IP0B E9
IP0C G6
IP0D F6
IP0E G3
IP0F H6
IP0G H6
IP0H D3
IP0J D2
IP0K B7
IP0L E6
IP0M F3
IP0N E9
IP0P F3
13
+5V
5P03
B
IP02
5P07
47u 6.3V
2P0K
100n
100n
2P03
100n
2P0B
10K
RES
3P06
2P0C
1P07
IP0H
FP07
FP08
FP09
FP0A
USB20-1-DM
USB20-1-DP
5
2P01
22u 6.3V
100n
2P0V
22u
100n
100n
2P08
100n
2P07
100n
2P06
100n
2P05
2P0N
IP09
30R
2P04
1
2
3
4
IP05
IP04
+3V3
2P02
5P00
IP0J
D
6
292303-4
D
100n
9P01
C
USB
CONNECTOR
IP06
30R
RES
7P01
PDTC114EU
RESET-SYSTEM
56K
100n
100n
2P0D
2P0E
5P01
RESET-USB20
F
U1
USB-OC
+3V3
C
E
3P0E
IP07
30R
100K
5P02
3P0F
220R
D
3P0H
F
I
+3V3
PCI-REQ-USB20
4K7
IP0D
RES
3P0A
10K
J
IRQ-PCI
IP0E
3P0D
G
PCI-REQ-USB20
PCI-GNT-USB20
PCI-AD22
IRQ-PCI
PCI-FRAME
PCI-DEVSEL
PCI-IRDY
USB20-OC2
PCI-PAR
PCI-PERR
PCI-SERR
PCI-TRDY
PCI-STOP
3P0C
USB20-OC1
USB20-OC1
USB20-1-DM
USB20-1-DP
USB20-1-DM
USB20-1-DP
USB20-OC2
USB20-OC2
USB20-2-DM
USB20-2-DP
USB20-2-DM
USB20-2-DP
33R
3P00
+3V3
3P0L
10K
owner.
15K
3P02
RES 10K
15K
IP0C
11K
81
3P03
15K
IP0G
87
88
90
92
100n
2P00
16
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
18
43
58
E
2P09
IP0A
IP0N
22u 6.3V
100n
2P0W
2
73
3
86
93
AD
OC1
PWE1
ATX1
DM1
DP1
100n
2P0L
100n
70
69
68
67
66
65
63
62
59
57
56
54
53
52
51
50
34
33
31
30
29
28
27
26
22
21
20
15
14
13
12
10
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
F
G
OC2
PWE2
ATX2
DM2
DP2
IP0F
L
AD
RREF
78
79
83
85
15K 3P01
+3V3
H
9
8
24
4
36
39
37
42
47
44
45
38
41
IP01
100R
3P07
RES
3P08
K
C0
BE0
C1
BE1
C2
BE2
C3
BE3
REQ
GNT
IDSEL
INTA
FRAME
DEVSEL
IRDY
CLKRUN
PAR
PERR
SERR
TRDY
STOP
23
USB20-OC1
33R
USB-OC
PCI-CBE2
35
PCI-GNT-USB20
10K
3P0B
48
PCI-CBE3
IP0M
+3V3
RES
60
PCI-CBE0
PCI-CBE1
VREG1V8
PCICLK
PME
10K
RES
+3V3
SCL
SDA
7
99
3P05
IP0P
PCI
HOST
CONTROLLER
RST
96
97
IP0B
VREG3V3
Φ
XTAL
2
5
1 2 3V3 1V8
VDDA
VAUX
AUX
22u
2P0A
1
75
9P00
27p
PCI-CLK-USB20
11
25
40
55
71
12M
IP08
H
A
B
C
D
E
F
G
H
I
J
K
H
L
3P04
GNDA
9P02
M
GNDA
1
17
46
61
72
80
82
84
89
91
GNDD
6
19
32
49
64
76
94
95
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
VCCIO
74
IP0L
2P0G
RESET-USB20
AUX
2P0M
E
1P01
27p
7P00
ISP1564HL
FP00
2P0H
77
98
100
IP00
G
20
19
18
12
11
5P04
C
17
16
15
1n0
EMC 2P0U
5
13
1n0
EMC 2P0T
4
12
11
Digi IO : USB Connector + Controller
A
B
3
10
9
1n0
EMC 2P0R
2
8
7
1n0
EMC 2P0Q
1
A
6
5
0R4
4
3
+T
2
1
I
1
N
2
4
3
5
6
7
M
I
8
9
10
11
13
12
N
O
O
CHN
1X05
EMC HOLE
1X06
EMC HOLE
1X07
EMC HOLE
DC320600
SETNAME
CLASS_NO
TV522
3PC332
P
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14441
"XP00 ~ XP2Z"
-- -- --
1
-- -- --
2
2008-03-17
3
SV
1
2
3
4
5
6
7
8
9
10
11
12
13
14
SUPERS.
CHECK
15
DATE
16
C
17
1
2008-03-17
P
130
10
42
2008-03-17
2008-09-05
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Li LingHuan
2
A2
37
ROYAL PHILIPS ELECTRONICS N.V. 2008
18
19
20
18680_536_090828.eps
090828
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 113
SSB: Digital I/O: HDMI + DVI Connectors
1
2
4
3
1
5
2
A
7
6
3
4
5
10
9
8
11
7
6
12
9
8
14
13
10
16
15
11
12
1P32 A8
1P33 A1
1P34 E8
1P35 E1
1P36 C8
1P3Q G4
1P3R E3
1P3S E3
1P3T E4
1P3V A3
1P3W C4
1P3Y A3
1P3Z A3
1P45 H14
1P4R E10
1P4S E10
1P4T E11
1P4U G11
1P4V D11
1P4W A10
1P4Y A10
1P4Z A10
1P6A H1
1P6Y I1
1P6Z I1
2P37 A5
2P38 A5
2P3A C5
2P3K E5
2P3L E5
2P3M G5
2P45 A12
2P46 A12
2P4C D12
2P4L E12
2P4M E12
2P4P G12
2P61 I3
2P66 I1
2P68 I3
2P69 I1
3P33 C4
3P34 C6
3P35 C3
3P36 D3
3P3A B5
3P3B B6
3P3C B5
3P3D B6
3P3E B5
3P3F A6
3P3G A6
3P3L G4
3P3M G6
3P3N G3
3P3P H3
3P3S G5
3P3T F6
3P3U F5
3P3V F6
3P3W F5
3P3Y E6
3P3Z E6
3P40 B12
3P41 C11
3P43 B13
3P44 B13
3P45 D10
3P46 B13
3P47 B12
3P48 A13
3P4A C13
3P4B D10
3P4C A13
3P4L E13
3P4M E13
3P4N F12
3P4P F13
3P4Q F13
3P4R G11
3P4S F12
3P4T G10
3P4U H10
3P4W F12
3P4Z G13
3P65 I2
3P66 I3
3P67 H2
3P68 I3
3P6A D6
3P6B H6
3P6C D13
3P6D G13
3P6E H8
3P6F H10
3P6G I8
5P32 A5
5P3K E5
5P41 A12
5P4L E12
6P30 B4
6P3M F4
6P41 A11
6P4L E11
6P61 I2
6P62 I2
6P63 D3
6P64 H4
6P65 D10
6P66 H11
7P30 G5
7P31 B4
7P32 C5
7P36 F4
7P38 F11
7P41 C12
14
47K
3P3B
10K
47K
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
22
IP3G
IP3A
3P34
7P32
BC847BW
HOT-PLUG
2P3A
1P3W
10K
1K0
3P35
22R
10n
CRX-HOTPLUG
RES
3P6A
10K
BAT54
4K7
RES
3P36
D
6P63
CIN-5V
F
100n
2P46
100n
2P45
0001-0015
0001-0015
1P4Y
EDID NVM
HDMI 1
BRX-HOTPLUG
20
FP4C
1
2
3
0
1
2
7
WC
47K
47K
3P44
3P46
10K
B
100R
5
SDA
FP0B
3P40
6
SCL
ADR
3P47
EDID1
IP5K
9P43 RES
8
Φ
(256x8)
EEPROM
3P43
100R
1P36
HDMI CONNECTOR 2
E C
7P44
M24C02-WDW6
HDMI CONNECTOR 1
3P3A
100R
3P33
BRX-DDC-SCL
BRX-DDC-SDA
BIN-5V
+5V-CON
ITV PROVISION
C
5
6
9P63-4
9P63-3
4
3
BRXCBRXC+
7
8
9P63-2
9P63-1
2
1
BRX0BRX0+
5
6
9P64-4
9P64-3
4
3
BRX1BRX1+
7
8
9P64-2
9P64-1
2
1
BRX2BRX2+
IP4H
3P41
BRX-HOTPLUG
22R
IP4B
IP42
3P4A
7P41
BC847BW
HOT-PLUG
10K
2P4C
DC1R019WBER220
6P41
RES
BRXCPCEC-HDMI
DC1R019WBER220
100R
5
SDA
+5V
1P4V
ADR
A
30R
BAV70W
FP47
23 22
25 24
26
3P3C
6
SCL
0
1
2
BRX0BRXC+
PBRX-DDC-SDA
100R
10n
7
WC
9P42
BIN-5V
FP48
FP49
FP4A
PBRX-DDC-SCL
IP4C
3P4C
IP49
RES
3P6C
21
D
BIN-5V
10K
G
4K7
6P65
RES
3P45
1759392-1
BAT54
1
2
3
FP3K
3P3D
(256x8)
EEPROM
IP3L
3P3E
EDID2
5P41
1K0
FP35
Φ
9P31 RES
EDID NVM
HDMI 2
CRX-HOTPLUG
8
7P31
M24C02-WDW6
IP3H
BRX1BRX0+
FP46
IP4D
3P48
100R
4
100n
2P38
100n
+5V
20
23 22
25 24
26
PCRX-DDC-SDA
IP3F
6P30
RES IP3J
CRX-DDC-SCL
CRX-DDC-SDA
CIN-5V
2P37
1P3V
1P3Y
BAV70W
CRXCPCEC-HDMI
FP32
FP33
100R
30R
CRX0CRXC+
FP30
FP31
3P3G
5P32
9P30
CIN-5V
CRX1CRX0+
PCRX-DDC-SCL
100R
IP3B
BRX-DDC-SDA
1P4W
CRX-DDC-SDA
BRX-DDC-SCL
BRX2BRX1+
0001-0015
1P4Z
CRX-DDC-SCL
BRX2+
3P4B
FP34
D
CRX2+
CRX2CRX1+
4
B
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
21
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
21
IP3E
3P3F
1P3Z
A
C
+5V-CON
1P34
IP3M
7P30
BC847BW
3P3M
HOT-PLUG
2P3M
8
7
6
5
8
7
6
5
DRXCDRXC+
DRX0DRX0+
DRX1DRX1+
DRX2DRX2+
2P4M
100n
3P4N
10K
100n
2P4L
1P4S
1P4T
SCL
ADR
5
SDA
47K
47K
3P4P
FP41
3P4Q
9P4L RES
8
IP4M
6
F
3P4W
100R
3P4S
100R
IP4P
3P4R
FP42
3P4Z
7P4P
BC847BW
HOT-PLUG
10K
DIN-5V
10K
FOR 3X HDMI VERSION
+5V-CON
IP64
CEC-HDMI
+5V-CON
AUDIO-IN4-R
RES
3P6E
1K0
RES
3P6F
100R
9P4M
PCEC-HDMI
100p
7P4Q
BSH111
3
FP63
100R
H
1P45
5
IP4Y
4
1
2
3
9P4J
2
BM03B-SRSS-TBT
FOR IKEA PROJECT
1
RES
2P61
100K
IP4U
RES
3P68
RES
6P62
PESD5V0S1BA
1n0
1P6Z
RES
9P4K
IP67
3P67
2P69
1P6A 1
3
2
MSJ-035-29D PPO (PHT)
RES
9P65
FP61
G
RES
3P6D
BAT54
6P64
4K7
RES
3P3P
0
1
2
22R
10K
M
1
2
3
DRX-HOTPLUG
FOR MPEG4 BOLT-ON
RES
3P6B
owner.
9P61-1
9P61-2
9P61-3
9P61-4
9P62-1
9P62-2
9P62-3
9P62-4
10n
10K
1
2
3
4
1
2
3
4
AIN-5V
L H
EDID3
7
WC
10n
MPEG-TXCMPEG-TXC+
MPEG-TX0MPEG-TX0+
MPEG-TX1MPEG-TX1+
MPEG-TX2MPEG-TX2+
IP3Q
1P3Q
K
1K0
3P3N
22R
FP4Q
Φ
(256x8)
EEPROM
HDMI CONNECTOR 3
100R
3P3L
ARX-HOTPLUG
EDID NVM
HDMI 3
DRX-HOTPLUG
DC1R019WBER220
3P3S
E
IP33
4
47K
10K
47K
23 22
25 24
26
PDRX-DDC-SDA
IP4Q
6P4L
RES
7P38
M24C02-WDW6
20
HDMI CONNECTOR SIDE
G
DIN-5V
100R
2P4P
5
100R
+5V
1P4U
SDA
FP0V
3P3U
BAV70W
DRXCPCEC-HDMI
DRX-DDC-SCL
DRX-DDC-SDA
FP4S
FP4N
3P4M
5P4L
30R
DRX0DRXC+
FP4L
FP4T
IP3K
9P4N
BAT54
ADR
6
4
J
WC
SCL
100R
FP4M
6P66
10029449-002
0
1
2
FP4P
DRX1DRX0+
PDRX-DDC-SCL
DIN-5V
1K0
(256x8)
EEPROM
1
2
3
EDID SIDE
IP3T
7
3P3T
EDID NVM
HDMI SIDE
ARX-HOTPLUG
FP3W
Φ
3P3V
AIN-5V
7P36
M24C02-WDW6
3P3W
ARX-DDC-SCL
ARX-DDC-SDA
9P3L RES
IP5R
20
23 22
100n
6P3M
RES
ARXCPCEC-HDMI
FP3T
FP3U
2P3L
+5V
100n
1P3T
1P3S
BAV70W
2P3K
30R
ARX0ARXC+
FP3R
FP3S
PARX-DDC-SDA
IP3P
DRX-DDC-SDA
3P4T
9P3K
AIN-5V
100R
5P3K
DRX2DRX1+
IP4L
3P4L
4K7
IP3D
3P3Z
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
21
DRX-DDC-SCL
RES
3P4U
FP3V
ARX-DDC-SDA
ARX1ARX0+
PARX-DDC-SCL
100R
8
F
ARX2ARX1+
IP3N
3P3Y
ARX-DDC-SCL
1P3R
H
ARX2+
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
21
DRX2+
1P4R
1P35
E
1
9P4P
+3V3-STANDBY
100p
RES
2P68
I
RES
7P4R
BC847BW
AUDIO-IN4-L
1K0
RES
3P66
RES
6P61
PESD5V0S1BA
1P6Y
1n0
N
IP32
3P65
FP62
100K
I
2P66
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
20
19
Digi IO : HDMI Connectors + DVI Audio Inputs
1P33
I
18
13
1P32
B
17
RES 3P6G
IP5Z
180K
2
3
5
4
6
7
8
10
9
11
12
13
7P44 B11
7P4P G12
7P4Q H9
7P4R I9
9P30 A4
9P31 B5
9P3K E4
9P3L F5
9P42 A11
9P43 B12
9P4J I10
9P4K H9
9P4L F12
9P4M I9
9P4N E11
9P4P I8
9P61-1 G9
9P61-2 G9
9P61-3 G9
9P61-4 G9
9P62-1 G9
9P62-2 G9
9P62-3 G9
9P62-4 G9
9P63-1 C9
9P63-2 C9
9P63-3 C9
9P63-4 C9
9P64-1 D9
9P64-2 D9
9P64-3 D9
9P64-4 D9
9P65 H14
FP0B B12
FP0V F5
FP30 B1
FP31 B1
FP32 B1
FP33 B1
FP34 B1
FP35 B1
FP3K B5
FP3R F1
FP3S F1
FP3T F1
FP3U F1
FP3V F1
FP3W F1
FP41 F12
FP42 G12
FP46 A9
FP47 B8
FP48 B8
FP49 B9
FP4A B9
FP4C B8
FP4L F8
FP4M E10
FP4N F8
FP4P F8
FP4Q F8
FP4S F8
FP4T F8
FP61 H1
FP62 I1
FP63 H13
IP32 I3
IP33 F11
IP3A C5
IP3B A4
IP3D E4
IP3E A6
IP3F A7
IP3G C5
IP3H A11
IP3J B4
IP3K E11
IP3L B5
IP3M G5
IP3N E6
IP3P E7
IP3Q G5
IP3T F5
IP42 C13
IP49 A12
IP4B C12
IP4C A14
IP4D A13
IP4H C11
IP4L E13
IP4M F12
IP4P G12
IP4Q E14
IP4U I9
IP4Y I10
IP5K B12
IP5R F4
IP5Z I9
IP64 H14
IP67 H3
A
B
C
D
E
F
G
H
I
J
K
L
M
N
14
O
O
CHN
DC320600
SETNAME
CLASS_NO
TV522
3PC332
P
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14441
" XP30 ~ XP6Z "
1
2
3
4
5
6
7
8
9
10
11
12
13
14
-- -- --
1
-- -- --
2
2008-03-17
3
SV
15
DATE
16
2008-03-17
130
10
C
17
1
2008-03-17
P
42
SUPERS.
CHECK
2008-09-05
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Dave Tan YH
2
38
A2
ROYAL PHILIPS ELECTRONICS N.V. 2008
18
19
20
18680_537_090828.eps
090828
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 114
SSB: Digital I/O: HDMI Multiplexer
3
2
1
1
4
5
2
A
3
6
8
7
4
5
10
9
6
7
11
8
12
13
9
Digi IO : HDMI MUX
A
+5V-MUX
82
D2
AUX
D3
29
95
F
81
80
79
78
PDRX-DDC-SCL
PDRX-DDC-SDA
E
+3V3-DIG
220R
G
FP71
5P75
+3V3-ANA
AVEE
4
10
16
25
51
60
66
72
DVEE
H
D0
D1
D2
D3
PCRX-DDC-SCL
PCRX-DDC-SDA
E
220R
+5V-CON
FP73
IP70
5P76
9P71
FP4B
1n0
D1
86
85
84
83
D
FP70
5P74
+3V3
1n0
2P7J
D0
PBRX-DDC-SCL
PBRX-DDC-SDA
100n
C0
C1
AUX
C2
C3
94
93
92
91
2P7L
C3
B0
B1
B2
B3
100n
2P7H
AUX
C
F
2P7G
C1
C2
PARX-DDC-SCL
PARX-DDC-SDA
1n0
C0
99
98
97
96
B
1n0
A0
A1
AUX
A2
A3
D
DDC-SCL
DDC-SDA
1n0
2P7C
B3
90
89
88
87
100n
B2
COM0
COM1
COM2
COM3
RX2+
RX2-
2P7F
75
63
54
22
13
1
AUX
43
42
1n0
2P7B
IN
IP
IN
IP
IN
IP
IN
IP
B1
RX1+
RX1-
2P7E
52
53
55
56
58
59
61
62
DRXCDRXC+
DRX0DRX0+
DRX1DRX1+
DRX2DRX2+
OP3
ON3
B0
40
39
1n0
2P7A
2K2
IN
IP
IN
IP
IN
IP
IN
IP
OP2
ON2
A3
RX0+
RX0-
100n
2P79
64
65
67
68
70
71
73
74
A2
37
36
100n
2P76
2K2
IN
IP
IN
IP
IN
IP
IN
IP
OP1
ON1
A1
A
H
F
FP72
+5V-MUX
220R
BAV70W
+5V
100K
E
2
3
5
6
8
9
11
12
OP0
ON0
A0
1n0
CRXCCRXC+
CRX0CRX0+
CRX1CRX1+
CRX2CRX2+
IP7E 3P77
100K
IN
IP
IN
IP
IN
IP
IN
IP
RXC+
RXC-
100n
2P75
F
14
15
17
18
20
21
23
24
C
34
33
1n0
3P7A
D
2K2
100
48
76
77
100n
2P78
BRXCBRXC+
BRX0BRX0+
BRX1BRX1+
BRX2BRX2+
IP7D 3P75
0
PP_PRE
1
OTO
OCL
EN
EQ
100n
2P74
E
PP
100n
2P7D
ARXCARXC+
ARX0ARX0+
ARX1ARX1+
ARX2ARX2+
IP7C 3P73
0
PP_CH
1
35
41
10u
IP7B 3P71
VTTO
2P72
C
SCL
I2C
SDA
+3V3-ANA
2P73
45
46
VTTI
2P77
30
31
Φ
0
1 I2C_ADDR
2
7
19
57
69
2P70
D
49
50
B
AMUXVCC
10u
100R
AVCC
2P71
3P79
SDA-SSB
26
27
28
DVCC
RESET
2P7K
3P76
44
7P70
AD8197A-ASTZ
220u 25V
IP7A
9P70
RESET-SYSTEM
100R
G
47
38
32
B
SCL-SSB
owner.
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
C
10K
RES
3P78
+3V3-DIG
B
+3V3-ANA
A
2P70 E6
2P71 F6
2P72 E7
2P73 F7
2P74 F7
2P75 F7
2P76 F7
2P77 F7
2P78 E7
2P79 F7
2P7A F8
2P7B F8
2P7C F8
2P7D F7
2P7E E8
2P7F E8
2P7G F8
2P7H F9
2P7J F9
2P7K F6
2P7L F9
3P71 C1
3P73 D1
3P75 D1
3P76 B1
3P77 E1
3P78 B1
3P79 C1
3P7A F7
5P74 E6
5P75 E6
5P76 F6
6P70 F6
7P70 B3
9P70 B1
9P71 F5
FP4B F5
FP70 E7
FP71 E7
FP72 F7
FP73 F2
IP70 F6
IP7A B1
IP7B C1
IP7C D1
IP7D D1
IP7E E1
6P70
RES
I
1
2
3
4
I
5
6
CHN
7
DC320600
8
9
SETNAME
CLASS_NO
TV522
3PC332
J
" XP70 ~ XP9Z "
1
2
3
4
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14441
7
6
5
-- -- --
1
-- -- --
2
2008-03-17
3
SV
SUPERS.
CHECK
8
DATE
9
42
2008-03-17
130
10
C
10
2008-09-05
1
2008-03-17
J
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Dave Tan YH
2
39
A3
ROYAL PHILIPS ELECTRONICS N.V. 2008
11
12
13
18680_538_090828.eps
090828
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 115
SSB: Digital I/O: PCMCIA Interf. & Buffer
3
4
5
9
6
7
8
Digi IO : PCMCIA Interface & Buffer
I
J
G
K
10u
2N03
20
PCMCIA-A7
PCMCIA-A6
PCMCIA-A5
PCMCIA-A4
3
5
7
9
PCMCIA-A0
PCMCIA-A1
PCMCIA-A2
PCMCIA-A3
IN29
3N12 10K
CA-CD1
IN03
3N13 10K
CA-CD2
IN10
3N14 10K
IN11
3N15 10K
IN2A
3N19 10K
IN2C
3N25
10K
MOSTRTA
MOVALA
PCMCIA-VCC-VPP
IN2D
3N26-4 10K
5
4
IN2E
3N26-3 10K
6
3
MDO0
MDO1
IN2F
3N26-2 10K
7
2
IN2G
3N26-1 10K
8
1
MDO2
MDO3
IN2H
3N27-4 10K
5
4
IN2J
3N27-3 10K
6
3
IN2K
3N27-2 10K
7
2
IN2L
3N27-1 10K
8
1
MDO4
MDO5
MDO6
MDO7
20
CA-MDO0
47R
47R
47R
47R
47R
47R
47R
CA-MDO1
CA-MDO2
CA-MDO3
CA-MDO4
CA-MDO5
CA-MDO6
CA-MDO7
CA-ADDEN
PCI-AD14
PCI-AD13
PCI-AD12
PCI-AD11
2
4
6
8
2N16
3
1
CA-ADDEN
7N12-2
74LVC244APW
19
3N18-1 1
8
47R
CA-MOCLK_VS2
3N23
10K
6
4
PCMCIA-A14
PCMCIA-A13
PCMCIA-A12
PCMCIA-A11
3N18-4 4
5
47R
D
EN
3
5
7
9
17
15
13
11
PCI-AD8
PCI-AD9
PCI-AD10
5
MOSTRTA
18
16
14
12
100n
EN
7N10-2
SN74LVC125APW
C
100n
EN
+3V3_BUF
2
MOCLKA
20
2N22
7N12-1
74LVC244APW
1
14
7N10-1
SN74LVC125APW
10
47R
6
7
8
5
6
7
8
3
2
1
4
3
2
1
PCMCIA-A8
PCMCIA-A9
PCMCIA-A10
IN22
CA-MOSTRT
EN
7N10-3
SN74LVC125APW
E
9
MOVALA
8
10
3N18-3 3
6
47R
CA-MOVAL
EN
7N10-4
SN74LVC125APW
7N14-1
74LVC244APW
+3V3
11
EN
1
EN
2
4
6
8
PCI-AD17
PCI-AD16
PCI-CBE2
PCI-CBE1
12
13
IN20
CA-ADDEN
100n
10K
5
3N16-3
3N16-2
3N16-1
3N17-4
3N17-3
3N17-2
3N17-1
2N21
3N24
3N16-4 4
3
4
5
6
7
8
9
20
IN2B
2
7
MOCLKA
2
14
CA-VS1
1
20
IRQ-CA
17
16
15
14
13
12
11
10
18
MDO1
MDO2
MDO3
MDO4
MDO5
MDO6
MDO7
20
MDO0
3N11 10K
9N02
10
3N10 10K
IN28
IN26
10K
10u
IN27
CA-INPACK
1
19
7
IN18
3EN1
3EN2
G3
+3V3_BUF
10
PCMCIA-VCC-VPP
CA-WAIT
CA-MIVAL
CA-MICLK
PCMCIA-A12
PCMCIA-A7
PCMCIA-A6
PCMCIA-A5
PCMCIA-A4
PCMCIA-A3
PCMCIA-A2
PCMCIA-A1
PCMCIA-A0
PCMCIA-D0
PCMCIA-D1
PCMCIA-D2
3N20
2N04
7N09
74LVC245A
100n
B
EN
17
15
13
11
PCI-AD0
PCI-AD1
PCI-AD2
PCI-AD3
18
16
14
12
CA-CE1
CA-CE2
CA-OE
CA-WE
F
CA-RST
CA-MICLK
CA-MIVAL
CA-MISTRT
9N11-1 8
9N11-4 5
9N11-3 6
1
4
3
TSI0-ST-CLK
TSI0-ST-VAL
TSI0-ST-STRT
CA-MDI0
CA-MDI1
CA-MDI2
CA-MDI3
9N10-1
9N10-4
9N10-3
9N10-2
8
5
6
7
1
4
3
2
TSI0-ST-D0
TSI0-ST-D1
TSI0-ST-D2
TSI0-ST-D3
CA-MDI4
CA-MDI5
CA-MDI6
CA-MDI7
9N12-4
9N12-3
9N12-1
9N12-2
5
6
8
7
4
3
1
2
TSI0-ST-D4
TSI0-ST-D5
TSI0-ST-D6
TSI0-ST-D7
7N14-2
74LVC244APW
19
CA-ADDEN
EN
17
15
13
11
PCI-AD23
PCI-AD22
PCI-AD19
CA-WAIT
3
5
7
9
CA-IOWR
CA-IORD
CA-REG
PCI-AD18
G
H
M
I
CA-MICLK-OUT
CA-MIVAL-OUT
CA-MISTRT-OUT
1 9N16-1
3 9N16-3
4 9N16-4
CA-MICLK-OUT
CA-MIVAL-OUT
CA-MISTRT-OUT
8
6
5
CA-MICLK
CA-MIVAL
CA-MISTRT
CA-MOCLK_VS2
CA-MOVAL
CA-MOSTRT
4
2
1
9N15-4
9N15-2
9N15-1
5
7
8
TSI1-ST-CLK
TSI1-ST-VAL
TSI1-ST-STRT
IN24
CA-DATADIR
7N13
74LVC245A
1
IN25
19
CA-DATAEN
CA-MDI0-OUT
CA-MDI1-OUT
CA-MDI2-OUT
CA-MDI3-OUT
1
2
3
4
9N17-1
9N17-2
9N17-3
9N17-4
8
7
6
5
CA-MDI0
CA-MDI1
CA-MDI2
CA-MDI3
CA-MDO0
CA-MDO1
CA-MDO2
CA-MDO3
3
1
2
4
9N14-3
9N14-1
9N14-2
9N14-4
6
8
7
5
TSI1-ST-D0
TSI1-ST-D1
TSI1-ST-D2
TSI1-ST-D3
CA-MDI4-OUT
CA-MDI5-OUT
CA-MDI6-OUT
CA-MDI7-OUT
1
2
3
4
9N18-1
9N18-2
9N18-3
9N18-4
8
7
6
5
CA-MDI4
CA-MDI5
CA-MDI6
CA-MDI7
CA-MDO4
CA-MDO5
CA-MDO6
CA-MDO7
4
2
3
1
9N13-4
9N13-2
9N13-3
9N13-1
5
7
6
8
TSI1-ST-D4
TSI1-ST-D5
TSI1-ST-D6
TSI1-ST-D7
PCMCIA-D2
2
PCMCIA-D1
PCMCIA-D3
PCMCIA-D4
PCMCIA-D5
PCMCIA-D6
PCMCIA-D7
PCMCIA-D0
3
4
5
6
7
8
9
100n
CA-MDI0-OUT
CA-MDI1-OUT
CA-MDI2-OUT
CA-MDI3-OUT
CA-MDI4-OUT
CA-MDI5-OUT
CA-MDI6-OUT
CA-MDI7-OUT
3EN1
3EN2
G3
H
1
2
18
PCI-AD26
17
16
15
14
13
12
11
PCI-AD25
PCI-AD27
PCI-AD28
PCI-AD29
PCI-AD30
PCI-AD31
PCI-AD24
10
L
20
1N01
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
22
2N23
10074595-050LF
owner.
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
F
2N15
PCMCIA-VCC-VPP
ROW_B
1N00-B
GND3
35
CD1
CA-CD1
36
D11
MDO3
37
D12
MDO4
38
D13
MDO5
39
D14
MDO6
40
D15
MDO7
41
CE2
CA-CE2
42
VS1
CA-VS1
43
IORD
CA-IORD
44
IOWR
CA-IOWR
45
A17
CA-MISTRT
46
A18
CA-MDI0
47
A19
CA-MDI1
48
A20
CA-MDI2
49
A21
CA-MDI3
50
VCC2
51
PCMCIA-VCC-VPP
VPP2
52
A22
CA-MDI4
53
A23
CA-MDI5
54
A24
CA-MDI6
55
A25
CA-MDI7
56
VS2
MOCLKA
57
RESET
CA-RST
58
WAIT
CA-WAIT
59
INPACK
CA-INPACK
60
REG
CA-REG
61
BVD2|SPKR
MOVALA
62
BVD1|STSCHG
MOSTRTA
63
D8
MDO0
64
D9
MDO1
65
D10
MDO2
66
CD2
CA-CD2
67
GND4
68
FN05
71 72
E
7N11-2
74LVC244APW
19
18
16
14
12
10
H
CA-ADDEN
EN
14
G
PCMCIA-D3
PCMCIA-D4
PCMCIA-D5
PCMCIA-D6
PCMCIA-D7
CA-CE1
PCMCIA-A10
CA-OE
PCMCIA-A11
PCMCIA-A9
PCMCIA-A8
PCMCIA-A13
PCMCIA-A14
CA-WE
IRQ-CA
7
D
60R
14
F
2
4
6
8
7
C
PCI-AD7
PCI-AD6
PCI-AD5
PCI-AD4
9N01
E
7N11-1
74LVC244APW
1
IM2Q
5N04
100K
22u
2N05
+T 0R4
CA-ADDEN
+3V3
3N28
PCMCIA-VCC-VPP
+5V
10u
2N02
5N03
CABLE CARD INTERFACE
B
A
100n
+3V3
(POD IS THE EQUIVALENT OF COMMON INTERFACE)
D
2N20
IM2P
60R
ROW_A
1N00-A
10074595-050LF
GND1
1
D3
2
D4
3
D5
4
D6
5
D7
6
CE1
7
A10
8
OE
9
A11
10
A9
11
A8
12
A13
13
A14
14
WE|P
15
RDY|BSY
16
VCC1
17
VPP1
18
A16
19
A15
20
A12
21
A7
22
A6
23
A5
24
A4
25
A3
26
A2
27
A1
28
A0
29
D0
30
D1
31
D2
32
WP|IOIS16
33
GND2
34
69 70
1N00-A B2
1N00-B E2
1N01 H2
2N01 A7
2N02 A7
2N03 B7
2N04 B7
2N05 B1
2N15 B8
2N16 D8
2N20 A12
2N21 E12
2N22 C12
2N23 H12
3N09 B1
3N10 C5
3N11 C5
3N12 C5
3N13 C5
3N14 D5
3N15 D5
3N16-1 C8
3N16-2 C8
3N16-3 C8
3N16-4 C8
3N17-1 D8
3N17-2 C8
3N17-3 C8
3N17-4 C8
3N18-1 D8
3N18-3 E8
3N18-4 E8
3N19 D5
3N20 D3
3N21 E11
3N23 E11
3N24 D5
3N25 D5
3N26-1 E5
3N26-2 E5
3N26-3 E5
3N26-4 D5
3N27-1 E5
3N27-2 E5
3N27-3 E5
3N27-4 E5
3N28 F4
5N01 A7
5N02 A7
5N03 A7
5N04 B7
7N09 B7
7N10-1 D8
7N10-2 D7
7N10-3 E7
7N10-4 F8
7N11-1 A11
7N11-2 B11
7N12-1 C11
7N12-2 D11
7N13 H12
7N14-1 E12
7N14-2 G12
9N01 F7
9N02 C8
9N10-1 G9
9N10-2 G9
9N10-3 G9
9N10-4 G9
9N11-1 G9
9N11-3 G9
9N11-4 G9
9N12-1 H9
9N12-2 H9
9N12-3 G9
9N12-4 G9
9N13-1 I9
9N13-2 I9
9N13-3 I9
9N13-4 I9
9N14-1 H9
9N14-2 H9
9N14-3 H9
9N14-4 H9
9N15-1 H9
9N15-2 H9
9N15-4 H9
9N16-1 H7
9N16-3 H7
9N16-4 H7
9N17-1 H7
9N17-2 H7
9N17-3 H7
9N17-4 H7
9N18-1 I7
9N18-2 I7
9N18-3 I7
9N18-4 I7
FN05 G3
IM2N A8
IM2P A8
IM2Q B8
IN03 C5
IN10 C5
IN11 D5
IN18 D3
IN20 F11
IN22 E11
IN24 H11
IN25 H11
IN26 D3
IN27 C5
IN28 C5
IN29 C5
13
10u
2N01
IM2N
5N02
POD : SUPPLY / CONTROL
3N09
12
11
I
21
1759392-1
N
FOR ITV
1
O
2
3
4
5
6
7
9
8
10
11
CHN
12
DC320600
20
19
18
+3V3
60R
C
10
17
16
+3V3_BUF
60R
A
9
15
14
13
IN2M
5N01
+3V3
B
12
11
10
10
2
8
20
1
7
6
10
A
5
4
10K
3
2
3N21
1
D
E
F
G
H
I
J
K
L
M
N
13
O
SETNAME
TV522
3PC332
P
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14441
" XN00 ~ XN2Z "
1
2
3
4
5
6
7
8
9
10
11
12
13
14
1
-- -- --
2
2008-03-17
3
CHECK
15
DATE
16
2008-03-17
10
C
17
2008-09-05
1
2008-03-17
P
42
SUPERS.
2
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Dave Tan YH
SV
B
C
CLASS_NO
-- -- --
A
IN2A D5
IN2B D5
IN2C D5
IN2D D5
IN2E D5
IN2F E5
IN2G E5
IN2H E5
IN2J E5
IN2K E5
IN2L E5
IN2M A7
130
40
A2
ROYAL PHILIPS ELECTRONICS N.V. 2008
18
19
20
18680_539_090828.eps
090828
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 116
SSB: Digital I/O: Ethernet
2
1
5
4
3
7
6
8
11
10
9
12
13
14
16
15
18
17
20
19
A
A
2
1
B
3
4
5
6
7
8
10
9
1NA1 B11
2NA1 A1
2NA2 A2
2NA3 A2
2NA4 A2
2NA5 A2
2NA6 B1
2NA7 B2
2NA8 B2
2NA9 B2
2NAA C9
2NAB C9
2NAC C10
2NAD C10
2NAE F9
2NAF F9
2NAG F9
2NAH G9
3NA2 C4
3NA3 D4
3NA4 D4
3NA5 C6
3NA6 E6
3NA7 E6
3NA8 E7
3NA9 E6
3NAA E7
3NAB E6
3NAC E6
3NAD B9
3NAE B9
3NAH E1
3NAJ E1
3NAK E1
3NAL E1
3NAM E1
3NAN E1
3NAP E1
3NAQ E1
3NAR F1
3NAT F1
3NAU F1
3NAV F1
3NAW F1
3NAY F1
3NB1 G1
3NB2 G1
3NB3 F9
3NB4 F10
3NB5 G9
3NB6 G12
5NA1 A1
5NA2 B1
7NA1 C4
7NA2-1 F10
7NA2-2 F11
7NA2-3 H10
7NA2-4 G11
7NA2-5 G10
7NA2-6 H11
9NA1 B2
9NA2 B10
9NA3 F4
9NA4 E10
9NA5 F8
9NA6 G8
FNA4 B10
FNA5 B10
FNA6 B10
FNA7 B10
FNA8 B10
FNA9 B10
FNAA B11
FNAB B12
FNAC B12
FNAD A2
FNAE B2
FNAF C4
INAF F9
INAG G9
INAK F10
INAM F11
INAN F12
INAP E1
INAQ E1
INAR D4
INAS C6
INAT E6
INAU E6
INAV E6
INAW E6
INAY E6
INAZ E4
13
12
11
Digi IO : Ethernet
5NA1
+3V3AN
FNAD
A
10n
10n
2NA5
10n
2NA4
10n
2NA3
2NA1
30R
2NA2
A
100u 16V
+3V3
+3V3AN
C
49R9
3NAD
10n
10n
2NA9
10n
2NA8
RJ45
FNA4
TPOP
TPOM
TPIP
FNA6
FNA8
9NA1
TPIM
GNDLAN
28
F
64
63
MII-TXD(0)
MII-TXD(1)
MII-TXD(2)
MII-TXD(3)
D
3NA3
INAR
G
1K0
RES
3NAL
+3V3DN
3NAK
1K0
1K0
+3V3DN
3NAM
RES
3NAN
+3V3DN
F
1K0
3NAP
RES
3NAQ
1K0
1K0
3NAR
RES
3NAT
1K0
1K0
TPIM
19
18
MII-MDC
MII-MDIO
MII-MDINT
42
41
61
5
4
3
2
1
6
INAZ
9NA3
27
X2
9
13
16
17
22
CRS
RESET
IREF
0
CFG
1
RIP
0
1
2 TXD
3
4
TX_ER
0
1
2
3
4
RX_ER
RXD
TX_EN
TX_CLK
RX_CLK
RX_DV
P
RX
N
TX
C
IO MD
INT
0
1
2 MF
3
4
TEST
TEST_SE
FDE
PWRDWN
GNDE
P
N
R10
TR
L
LED
C
S
NC
59
MII-COL
60
MII-CRS
3NA5
15
29
4K99
1%
100n
100n
2NAD
10p
2NAC
FNAC
1840419-1
GNDLAN
C
MII-RXD(0)
MII-RXD(1)
MII-RXD(2)
MII-RXD(3)
MII-RX-ER
49
48
MII-RXCLK
MII-RX-DV
TPOP
21
23
D
TPOM
INAY
INAT
INAU
INAV
INAW
3NA6
3NA7
3NA9
3NAB
3NAC
1K5
270R
270R
1K5
1K5
RJLED_G
RJLED_Y
3NA8
3NAA
1K5
1K5
+3V3DN
E
26
33
9NA4
8
30
31
32
+3V3
NC
GNDLAN
GNDA
INAF
RES
3NAU
3NAV
1K0
3NAW
RES
3NAY
2NAE
1K0
F
INAK
INAM
3NB4
22K
100n
1
7NA2-5
74HCU04PW
11
7NA2-3
74HCU04PW
5
1
1
4
10
7NA2-4
74HCU04PW
9
6
7NA2-6
74HCU04PW
13
3NB6
SPDIF-IN1
68R
G
1
8
7
1
12
7
owner.
L
1
INAN
14
7NA2-2
74HCU04PW
3
2
7
G
7NA2-1
74HCU04PW
1
7
1K0
2NAH
14
INAG
7
9NA6
14
9NA5
SPDIF-IN
3NB5
1K0
SPDIF-IN-MHP
7
1K0
RES
3NB2
14
1K0
3NB1
14
+3V3DN
75R
J
K
YELLOW
11
14
GNDLAN
GNDLAN
+3V3DN
FNAA
INAS
47
46
44
43
51
38
37
36
35
34
B
FNAB
NC
10u
+3V3DN
1K0
100R
COL
100n
2NAG
+3V3DN
I
INAP
INAQ
3NA4
VCCA
1n0
2NAF
1K0
E
RES
3NAJ
3NAH
54
53
MII-TXEN
MII-TXCLK
TPIP
Φ
ETHERNET
TRANSCEIVER
25
40
50
+3V3DN
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
1K0
55
56
57
58
52
VCCE
X1
GREEN
9
12
2R2
NC
FNAF
LAN-RST
11
3NB3
12
10
13
GNDLAN
GNDLANGNDLANGNDLANGNDLAN
7
10
14
20
24
PHY-CLK
39
45
62
7NA1
E-STE100P
3NA2
C
H
2NAA
+3V3AN
10K
E
10p
2NAB
+3V3DN
+3V3DN
1NA1
1
2
3
4
FNA7
5
6
FNA9
7
NC
8
FNA5
14
D
B
2NA7
2NA6
30R
100u 16V
+3V3
9NA2
+3V3DN
49R9
FNAE
3NAE
5NA2
RES
H
H
B
C
D
E
F
G
H
I
J
K
L
M
M
1
2
3
4
5
6
7
8
9
10
11
12
13
N
N
O
O
CHN
DC320600
SETNAME
CLASS_NO
TV522
3PC332
P
" XNA0 ~ XNBZ "
1
2
3
4
5
6
7
8
9
10
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14441
12
13
14
11
-- -- --
1
-- -- --
2
2008-03-17
3
SUPERS.
SV
CHECK
15
DATE
16
P
42
2008-03-17
10
C
17
2008-09-05
2008-03-17
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Li LingHuan
2
1
130
41
A2
ROYAL PHILIPS ELECTRONICS N.V. 2008
18
19
20
18680_540_090828.eps
090828
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 117
SSB: Class-D
2
1
3
5
4
8
7
6
11
10
9
13
12
14
16
15
17
18
19
20
A
A
1
2
3
4
6
5
7
8
9
10
11
12
13
B
CLASS D
A
A
C
+5V
TO LED PANEL
5D14
FD20
1D10
LED1
KEYBOARD
C
FD10
FD11
FD12
FD13
FD14
FD15
FD16
FD17
100R
100R
100R
30R
100R
100p
100p
100p
F
100p
9D0A
11 10
1
2
3
4
5
6
7
8
9
2D22
2D23
100p
2D21
100p
2D20
100p
100p
100p
2D18
2D19
100p
2D5E
2D5C
2D5A
2D5B
5D15
12V2
GNDSND
5D11
ID13
B
VSSA
-12V2
30R ID18
GNDSND
2D16
220u 25V
30R ID17
5D10
VDD
GNDSND
12V2
VSS
-12V2
2D17
220u 25V
GNDSND
C
GNDSND
GNDSND
BM09B-SRSS-TBT
GNDSND
GNDSND
GNDSND
G
-AUDIO-POWER
10R
3D15
1n0
3D11
3D12
5D16
ID14
3D16
ID15
9D10
VDDA
FD19
10u
2D14
ID11
ID12
RC
LED2
1n0
3D10
LIGHT-SENSOR
E
ID16
ID21
2D12
ID10
10R
100n
+AUDIO-POWER
3D14
2D11
10u
100n
+3V3-STANDBY
B
2D10
D
D
D
1D11
VDDA
VDD
EMC
2D51
1n0
GNDSND
470n
5D13
22u
15n
ID39
3D29
10R
ID43
ENGAGE
POWERUP
TEST
CGND VSSA VSSP
7D11
BC857BW
ID40
AUDIO-PROT
24 -1V3
2D48
100n
2D49
1n0
VSS
VSSD|HW
ID49
2D53
1n0
VSSA
FD29
ID45
7D12
BC847BW
10K
STAB2
15n
3D35
DREF
21 3V9
25
2D44
ID36
2D45
ID38
F
2D41
1n0
47K
STAB1
LEFT +
GNDSND
GNDSND
RIGHT -
+3V3
2D40
470n
3D28
BOOT2
HVPREF
28 8V9
2D38
1n0
47K
OSCIO
19
3D33
BOOT1
GNDSND
2D37
1n0
220n
OSCREF
ID30
1
2
3
4
1735446-4
30
2D46
HVP2
47K
2D52
VDDA
3D41
10K
22K
3D39
L
RESERVED
+3V3
7D13
BC847BW
INREF
EMC 2D35
FD27 1n0
(DC-DC)
G
ID47
3D36
220K
3D38
GNDSND
220K
1u0
ID51
10K
3D40
3D37
AUDIO-MUTE
HVP1
ID28
4 2V6
10u
G
IN2N
22
2D54
4K7
DIAG
2D5F
3D34
TO SPEAKERS
ID44
VSSA
FD30
100n
OUT2
IN2P
220n
MUTE
2D47
31
11
-8V2
ID41
18
ID42 4V7
5
3V2
ID46
6
-2V6
ID48
13
470n
K
6D01
BAS316
NC
GNDSND
E
22R
FD22
FD23
FD24
FD26
2D50
DETECT1
1735446-3
3D18
2D31
1n0
ID25
ID50
VSSA
1u0
2D42
2D43
3D27
ID20
220n
2D29
1n0
22R
2D39
2D25
GNDSND
3D42
10K
IN1N
GNDSND
1D12
OUT1
27
GNDSND
*
3D25
CLASS D
POWER
AMPLIFIER
IN1P
ID19
220n
ID24
VDDP
GND_HS
-AUDIO-R
ID32
3D24
12K
2
-2V8
ID27
3
ID29
-2V8
15
2D36 -2V8
220p
14
ID33
-2V8
ID34 12
100n
-7V6
100n
ID35 10
39K
2D24
1
16
17
32
FD28
1u0
1u0
*
ID31
2D32
220p
33
J
owner.
GNDSND
7D15
BC847BW
10K
7D16
PDTC114ET
STANDBY
GNDSND
GNDSND
2D55
2D56
10K
GNDSND
12K
GNDSND
H
3D44
VSSA
ID52
ID53
3D43
100n
100n
VSS
A-STDBY
3D45
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
F
ID26
10K
2D33
10K
2D34
3D22
** 3D23
Φ
VDDA
3D21
12K
GNDSND
29
20
8
1u0
*
FD25
7D10
TDA8932BTW
ID23
2D30
26
23
ID22
10K
7
*
3D20
9
FD21
+AUDIO-L
5D12
22u
3D19
10R
2D28
GNDSND
I
1
2
3
100n
PDP
6K8
22K
6K8
6K8
22K
6K8
2D27
E
LCD
10K
12K
10K
10K
12K
10K
100n
*
3D20
3D21
3D22
3D23
3D24
3D25
2D26
H
DC-DETECTION
GNDSND
GNDSND
H
GNDSND GNDSND
M
GNDSND
GNDSND
N
1
2
3
5
4
6
7
8
9
10
12
11
1D10 B5
1D11 E12
1D12 F12
2D10 B8
2D11 B12
2D12 C7
2D14 C10
2D16 C9
2D17 C12
2D18 C3
2D19 C3
2D20 C3
2D21 C4
2D22 C4
2D23 C4
2D24 E10
2D25 E10
2D26 E6
2D27 E7
2D28 E9
2D29 E10
2D30 E5
2D31 F9
2D32 F6
2D33 F5
2D34 F5
2D35 F8
2D36 F6
2D37 F9
2D38 F9
2D39 F5
2D40 F9
2D41 F10
2D42 F5
2D43 F5
2D44 F8
2D45 F8
2D46 G10
2D47 G5
2D48 G7
2D49 G9
2D50 G10
2D51 G6
2D52 G5
2D53 G9
2D54 H11
2D55 H7
2D56 H7
2D5A C2
2D5B C2
2D5C C2
2D5E C2
2D5F H11
3D10 B3
3D11 C3
3D12 C3
3D14 B8
3D15 B11
3D16 C3
3D18 E11
3D19 E9
3D20 E4
3D21 F5
3D22 F4
3D23 F4
3D24 F5
3D25 F4
3D27 F5
3D28 F12
3D29 G9
3D33 G12
3D34 G5
3D35 G12
3D36 G11
3D37 G2
3D38 G11
3D39 G2
3D40 G4
3D41 G4
3D42 G10
3D43 H4
3D44 H5
3D45 H4
5D10 C11
5D11 C8
5D12 E9
5D13 F9
5D14 B8
5D15 B11
5D16 C3
6D01 G4
7D10 E6
7D11 F12
7D12 G11
7D13 G3
7D15 G12
7D16 H4
9D0A C5
9D10 C3
FD10 B4
FD11 C4
FD12 C4
FD13 C4
FD14 C4
FD15 C4
FD16 C4
FD17 C4
FD19 B11
FD20 B7
FD21 E4
FD22 F12
FD23 F12
FD24 F12
FD25 F4
FD26 F12
FD27 F7
FD28 F4
FD29 G12
FD30 G4
ID10 B2
ID11 C2
ID12 C2
ID13 B12
ID14 C2
ID15 C2
ID16 B9
ID17 C12
ID18 C9
ID19 E10
ID20 E11
ID21 B8
ID22 E4
ID23 E5
ID24 E9
ID25 F7
ID26 F4
ID27 F5
ID28 F7
ID29 F5
ID30 F9
ID31 F4
ID32 F4
ID33 F5
ID34 F6
ID35 F6
ID36 F7
ID38 F7
ID39 G7
ID40 G12
ID41 G6
ID42 G6
ID43 G9
ID44 G10
ID45 G11
ID46 G6
ID47 G11
ID48 G6
ID49 G9
ID50 G10
ID51 G2
ID52 H4
ID53 H5
B
C
D
E
F
G
H
I
J
K
L
M
N
13
O
O
CHN
1X09
EMC HOLE
DC320600
SETNAME
CLASS_NO
TV522
3PC332
P
MULTI 12NC : 3139 123 63401 / 63701
BD 12NC
: 3139 123 63411 / 63711
CELL 12NC : 8239 125 14451
" XD10 ~ XD5Z "
1
2
3
4
5
6
7
8
9
10
11
12
13
14
-- -- --
1
-- -- --
2
2008-03-17
3
SUPERS.
SV
CHECK
15
DATE
16
10
C
17
1
2008-03-17
P
42
43
2008-03-17
2008-09-05
3139 123 6423
PCB SB SSB TV522/22M-1080P_2
NAME Hor Siew Lee
2
130
42
A2
ROYAL PHILIPS ELECTRONICS N.V. 2008
18
19
20
18680_541_090828.eps
090828
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 118
SSB: SRP List Explanation
Example
Net Name
Diagram
+12-15V
AP1 (4x)
+12-15V
AP4 (4x)
+12-15V
AP5 (12x)
+12-15V
AP6 (4x)
+12-15V
AP7 (8x)
+12V
AP1 (4x)
+12V_NF
AP1 (2x)
+12VAL
AP1 (2x)
+25VLP
AP1 (4x)
+25VLP
AP2 (1x)
+3V3-STANDBY
AP5 (3x)
+400V-F
AP1 (2x)
+400V-F
AP2 (2x)
+400V-F
AP3 (2x)
+5V2
AP1 (6x)
+5V2
AP2 (1x)
+5V2-NF
AP1 (1x)
+5V2-NF
AP2 (1x)
+5V-SW
AP1 (6x)
+5V-SW
AP2 (1x)
+8V6
AP1 (3x)
+AUX
AP1 (2x)
+AUX
AP2 (1x)
+DC-F
AP1 (2x)
+DC-F
AP3 (2x)
+SUB-SPEAKER
AP5 (1x)
+SUB-SPEAKER
AP6 (2x)
-12-15V
AP1 (4x)
-12-15V
AP4 (6x)
-12-15V
AP5 (14x)
-12-15V
AP6 (6x)
-12-15V
AP7 (8x)
AL-OFF
AP1 (2x)
AUDIO-L
AP4 (1x)
AUDIO-L
AP5 (1x)
AUDIO-PROT
AP5 (3x)
AUDIO-R
AP4 (1x)
AUDIO-R
AP5 (1x)
AUDIO-SW
AP5 (1x)
AUDIO-SW
AP7 (1x)
BOOST
AP1 (2x)
CPROT
AP4 (2x)
CPROT
AP5 (1x)
CPROT-SW
AP5 (1x)
CPROT-SW
AP6 (2x)
-DC-F
AP1 (2x)
-DC-F
AP3 (2x)
DC-PROT
AP1 (1x)
DC-PROT
AP5 (2x)
DIM-CONTROL
AP1 (2x)
FEEDBACK+SW
AP6 (2x)
FEEDBACK-L
AP4 (2x)
FEEDBACK-R
AP4 (2x)
FEEDBACK-SW
AP6 (2x)
GND-AL
AP1 (2x)
GNDHA
AP1 (40x)
GNDHA
AP2 (20x)
GNDHA
AP3 (2x)
GNDHOT
AP3 (2x)
GND-L
AP1 (2x)
GND-L
AP4 (4x)
GND-L
AP5 (34x)
GND-LL
AP4 (7x)
GND-LL
AP5 (1x)
GND-LR
AP4 (7x)
GND-LR
AP5 (1x)
GND-LSW
AP5 (1x)
GND-LSW
AP6 (15x)
GND-S
AP1 (11x)
GND-SA
AP4 (8x)
GND-SA
AP5 (2x)
GND-SA
AP6 (8x)
GND-SA
AP7 (6x)
GNDscrew
AP3 (2x)
GNDscrew
AP5 (2x)
GND-SSB
AP5 (3x)
GND-SSP
AP1 (51x)
GND-SSP
AP2 (15x)
IN+SW
AP6 (2x)
IN-L
AP4 (2x)
IN-R
AP4 (2x)
IN-SW
AP6 (2x)
INV-MUTE
AP4 (1x)
INV-MUTE
AP5 (1x)
INV-MUTE
AP6 (1x)
LEFT-SPEAKER
AP4 (1x)
LEFT-SPEAKER
AP5 (1x)
MUTE
AP4 (2x)
MUTE
AP5 (1x)
MUTE
AP6 (2x)
ON-OFF
AP1 (3x)
OUT
AP6 (1x)
OUT
AP7 (2x)
OUTN
AP6 (1x)
OUTN
AP7 (1x)
POWER-GOOD
AP1 (2x)
POWER-OK-PLATFORM AP1 (2x)
RIGHT-SPEAKER
AP4 (1x)
RIGHT-SPEAKER
AP5 (1x)
SOUND-ENABLE
AP5 (3x)
STANDBY
AP1 (5x)
STANDBY
AP2 (1x)
-SUB-SPEAKER
AP5 (1x)
-SUB-SPEAKER
AP6 (2x)
V-CLAMP
AP1 (1x)
V-CLAMP
AP3 (2x)
1.1.
Personal Notes:
Introduction
SRP (Service Reference Protocol) is a software tool that creates a list with all references to signal lines. The list contains
references to the signals within all schematics of a PWB. It replaces the text references currently printed next to the signal
names in the schematics. These printed references are created manually and are therefore not guaranteed to be 100%
correct. In addition, in the current crowded schematics there is often none or very little place for these references.
Some of the PWB schematics will use SRP while others will still use the manual references. Either there will be an SRP
reference list for a schematic, or there will be printed references in the schematic.
1.2.
Non-SRP Schematics
There are several different signals available in a schematic:
1.2.1.
Power Supply Lines
All power supply lines are available in the supply line overview (see chapter 6). In the schematics (see chapter 7) is not
indicated where supplies are coming from or going to.
It is however indicated if a supply is incoming (created elsewhere), or outgoing (created or adapted in the current schematic).
+5V
Outgoing
1.2.2.
+5V
Incoming
Normal Signals
For normal signals, a schematic reference (e.g. B14b) is placed next to the signals.
B14b
1.2.3.
signal_name
Grounds
For normal and special grounds (e.g. GNDHOT or GND3V3 etc.), nothing is indicated.
1.3.
SRP Schematics
SRP is a tool, which automatically creates a list with signal references, indicating on which schematic the signals are used.
A reference is created for all signals indicated with an SRP symbol, these symbols are:
+5V
name
name
+5V
Power supply line.
name
Stand alone signal or switching line (used as less as possible).
name
Signal line into a wire tree.
name
name
Switching line into a wire tree.
name
Bi-directional line (e.g. SDA) into a wire tree.
name
Signal line into a wire tree, its direction depends on the circuit (e.g. ingoing for PDP, outgoing for LCD sets).
Remarks:
•
When there is a black dot on the "signal direction arrow" it is an SRP symbol, so there will be a reference to the signal
name in the SRP list.
•
All references to normal grounds (Ground symbols without additional text) are not listed in the reference list, this to keep
it concise.
•
Signals that are not used in multiple schematics, but only once or several times in the same schematic, are included
in the SRP reference list, but only with one reference.
Additional Tip:
When using the PDF service manual file, you can very easily search for signal names and follow the signal over all the
schematics. In Adobe PDF reader:
•
Select the signal name you want to search for, with the "Select text" tool.
•
Copy and paste the signal name in the "Search PDF" tool.
•
Search for all occurrences of the signal name.
•
Now you can quickly jump between the different occurrences and follow the signal over all schematics. It is advised to
"zoom in" to e.g. 150% to see clearly, which text is selected. Then you can zoom out, to get an overview of the complete
schematic.
PS. It is recommended to use at least Adobe PDF (reader) version 6.x, due to better search possibilities in this version.
E_06532_031.eps
230606
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 119
SSB: SRP List Part 1
Netname
+12V
B02A (1 ×)
+12V
B02B (3 ×)
+12VD
B02B (2 ×)
+12VD
B03A (1 ×)
+12VD
B04A (2 ×)
+12VD
B05A (1 ×)
+12VD
B06B (2 ×)
+12VD
B07B (1 ×)
+12VF
B02A (2 ×)
+12VF
B02B (1 ×)
+12VF
B02C (1 ×)
+12VFF
B02C (2 ×)
+1V
B02B (1 ×)
+1V
B03H (9 ×)
+1V2DVB
B03B (7 ×)
+1V2-PNX8541 B02A (3 ×)
+1V2-PNX8541 B02B (1 ×)
+1V2-PNX8541 B03B (1 ×)
+1V2-PNX8541 B04A (1 ×)
+1V2-PNX8541 B04E (1 ×)
+1V2-PNX8541 B04P (8 ×)
+1V2-STANDBY B02A (1 ×)
+1V2-STANDBY B02B (1 ×)
+1V2-STANDBY B04P (1 ×)
+1V4-PNX5050 B02C (2 ×)
+1V4-PNX5050 B04A (1 ×)
+1V5
B06C (2 ×)
+1V5-P3
B06C (2 ×)
+1V5-PLL
B06C (2 ×)
+1V5-RX
B06C (2 ×)
+1V5-TX
B06C (2 ×)
+1V8DVB
B03C (4 ×)
+1V8-PNX8541 B04G (7 ×)
+1V8-PNX8541 B04P (2 ×)
+1V8-PNX8541 B05A (1 ×)
+1VTMDS
B03H (2 ×)
+2V5
B02B (1 ×)
+2V5
B03D (1 ×)
+2V5
B03F (1 ×)
+2V5
B03H (2 ×)
+2V5-CLKGENA B03H (2 ×)
+2V5-P3
B06C (2 ×)
+2V5-PF
B06C (4 ×)
+2V5-PLL
B06C (2 ×)
+2V5-REF
B02B (2 ×)
+2V5-REF
B05A (1 ×)
+33VTUN
B02B (1 ×)
+33VTUN
B03A (1 ×)
+3V3
B02A (1 ×)
+3V3
B02B (1 ×)
+3V3
B03B (1 ×)
+3V3
B03C (2 ×)
+3V3
B03D (7 ×)
+3V3
B03E (7 ×)
+3V3
B03H (2 ×)
+3V3
B03I (5 ×)
+3V3
B04A (3 ×)
+3V3
B04C (1 ×)
+3V3
B04L (1 ×)
+3V3
B04M (1 ×)
+3V3
B04P (1 ×)
+3V3
B04Q (1 ×)
+3V3
B05A (6 ×)
+3V3
B06B (10 ×)
+3V3
B06C (9 ×)
+3V3
B07A (2 ×)
+3V3
B07B (1 ×)
+3V3
B07D (5 ×)
+3V3
B08A (7 ×)
+3V3
B08C (1 ×)
+3V3
B09A (5 ×)
+3V3
B09B (3 ×)
+3V3
B10A (2 ×)
+3V3_BUF
B09A (3 ×)
+3V3-10023
B03C (2 ×)
+3V3AN
B09B (3 ×)
+3V3-ANA
B08C (3 ×)
+3V3-D
B05A (2 ×)
+3V3-DIG
B08C (2 ×)
+3V3DN
B09B (12 ×)
+3V3DVB
B03B (8 ×)
+3V3-EXT
B04C (1 ×)
+3V3-EXT
B07D (2 ×)
+3V3F
B02A (2 ×)
+3V3F
B02B (1 ×)
+3V3F
B04G (1 ×)
+3V3-NAND
B04Q (5 ×)
+3V3-P3
B06C (7 ×)
+3V3-PER
B04C (2 ×)
+3V3-PER
B04E (7 ×)
+3V3-PER
B04P (11 ×)
+3V3-STANDBY B02B (3 ×)
+3V3-STANDBY B04A (10 ×)
+3V3-STANDBY B04B (2 ×)
+3V3-STANDBY B04D (2 ×)
+3V3-STANDBY B04M (1 ×)
+3V3-STANDBY B04P (1 ×)
+3V3-STANDBY B06B (1 ×)
+3V3-STANDBY B07D (1 ×)
+3V3-STANDBY B08B (1 ×)
+3V3-STANDBY B10A (1 ×)
+3V3TMDS
B03G (1 ×)
+3V3TMDS
B03H (2 ×)
+5V
B02C (1 ×)
+5V
B03A (1 ×)
+5V
B04A (2 ×)
+5V
B04L (1 ×)
+5V
B06B (2 ×)
+5V
B07A (4 ×)
+5V
B07B (1 ×)
+5V
B07D (4 ×)
+5V
B08A (1 ×)
+5V
B08B (4 ×)
+5V
B08C (1 ×)
Diagram
+5V
B10A (1 ×)
+5V-CON
B08B (4 ×)
+5V-CON
B08C (1 ×)
+5V-MUX
B08C (2 ×)
+5V-TCON
B02B (1 ×)
+5V-TCON
B06B (1 ×)
+5V-TUN
B03A (3 ×)
+5V-TUN
B03B (2 ×)
+8V2-PAS
B06B (1 ×)
+AUDIO-L
B04I (1 ×)
+AUDIO-L
B10A (1 ×)
+AUDIO-POWER
+AUDIO-POWER
+AUDIO-POWER
+VCC-LM
B02B (3 ×)
+V-LM833
B05A (2 ×)
+VTUN
B03A (2 ×)
27MHZ-3V3
B03D (2 ×)
2V5-LMI
B03F (6 ×)
2V5-LMI
B03H (2 ×)
4-MHz
B03A (2 ×)
4-MHz
B03B (1 ×)
ADAC(1)
B04I (1 ×)
ADAC(1)
B04L (1 ×)
ADAC(2)
B04I (1 ×)
ADAC(2)
B04L (1 ×)
ADAC(3)
B04L (1 ×)
ADAC(3)
B04M (2 ×)
ADAC(4)
B04L (1 ×)
ADAC(4)
B04M (2 ×)
ADAC(5)
B04I (1 ×)
ADAC(5)
B04L (1 ×)
ADAC(6)
B04I (1 ×)
ADAC(6)
B04L (1 ×)
ADAC(7)
B04I (1 ×)
ADAC(7)
B04L (3 ×)
ADAC(8)
B04I (1 ×)
ADAC(8)
B04L (3 ×)
AGC-COMP
B03B (2 ×)
AIN-5V
B08B (3 ×)
ALE
B04A (2 ×)
ALE
B04B (1 ×)
A-PLOP
B04M (1 ×)
A-PLOP
B07A (1 ×)
A-PLOP
B07B (2 ×)
AP-SCART-OUT-L
AP-SCART-OUT-L
AP-SCART-OUT-R
AP-SCART-OUT-R
ARX0B08B (1 ×)
ARX0B08C (1 ×)
ARX0+
B08B (1 ×)
ARX0+
B08C (1 ×)
ARX1B08B (1 ×)
ARX1B08C (1 ×)
ARX1+
B08B (1 ×)
ARX1+
B08C (1 ×)
ARX2B08B (1 ×)
ARX2B08C (1 ×)
ARX2+
B08B (1 ×)
ARX2+
B08C (1 ×)
ARXCB08B (1 ×)
ARXCB08C (1 ×)
ARXC+
B08B (1 ×)
ARXC+
B08C (1 ×)
ARX-DDC-SCL B08B (2 ×)
ARX-DDC-SDA B08B (2 ×)
ARX-HOTPLUG B08B (2 ×)
ASEBRKn
B03D (1 ×)
ASEBRKn
B03I (1 ×)
AUDIO-CL-L
B04I (1 ×)
AUDIO-CL-L
B07A (1 ×)
AUDIO-CL-R
B04I (1 ×)
AUDIO-CL-R
B07A (1 ×)
AUDIO-HDPH-L-AP
AUDIO-HDPH-L-AP
AUDIO-HDPH-R-AP
AUDIO-HDPH-R-AP
AUDIO-IN1-L
B04L (1 ×)
AUDIO-IN1-L
B07D (2 ×)
AUDIO-IN1-R
B04L (1 ×)
AUDIO-IN1-R
B07D (2 ×)
AUDIO-IN2-L
B04L (1 ×)
AUDIO-IN2-L
B07A (1 ×)
AUDIO-IN2-R
B04L (1 ×)
AUDIO-IN2-R
B07A (1 ×)
AUDIO-IN3-L
B04L (1 ×)
AUDIO-IN3-L
B07B (1 ×)
AUDIO-IN3-R
B04L (1 ×)
AUDIO-IN3-R
B07B (1 ×)
AUDIO-IN4-L
B04L (1 ×)
AUDIO-IN4-L
B08B (1 ×)
AUDIO-IN4-R
B04L (1 ×)
AUDIO-IN4-R
B08B (1 ×)
AUDIO-IN5-L
B04L (1 ×)
AUDIO-IN5-L
B07C (2 ×)
AUDIO-IN5-L
B07D (1 ×)
AUDIO-IN5-R
B04L (1 ×)
AUDIO-IN5-R
B07C (2 ×)
AUDIO-IN5-R
B07D (1 ×)
AUDIO-MUTE B04A (1 ×)
AUDIO-MUTE B10A (2 ×)
AUDIO-MUTE-UP
AUDIO-MUTE-UP
AUDIO-OUT-L B04I (1 ×)
AUDIO-OUT-L B07B (1 ×)
AUDIO-OUT-L B07D (1 ×)
AUDIO-OUT-R B04I (1 ×)
AUDIO-OUT-R B07B (1 ×)
AUDIO-OUT-R B07D (1 ×)
-AUDIO-POWER B02B (1 ×)
-AUDIO-POWER B04I (1 ×)
-AUDIO-POWER B10A (1 ×)
AUDIO-PROT B02A (1 ×)
AUDIO-PROT B10A (1 ×)
-AUDIO-R
B04I (1 ×)
B02B (1 ×)
B04I (1 ×)
B10A (1 ×)
B07A (3 ×)
B07D (1 ×)
B07A (3 ×)
B07D (1 ×)
B04M (1 ×)
B07C (1 ×)
B04M (1 ×)
B07C (1 ×)
B04A (1 ×)
B04B (1 ×)
-AUDIO-R
B10A (1 ×)
AUDIO-RESET B04A (1 ×)
AUDIO-RESET B04B (1 ×)
AUDIO-RESET B04M (2 ×)
AUDIO-VDD
B04I (7 ×)
AUDIO-VDD
B04M (2 ×)
AUDIO-VEE
B04I (5 ×)
AV1-BLK
B04B (1 ×)
AV1-BLK
B07A (1 ×)
AV1-BLK-BO
B07A (1 ×)
AV1-BLK-BO
B07D (1 ×)
AV1-PB
B04K (1 ×)
AV1-PB
B07D (2 ×)
AV1-PR
B04K (1 ×)
AV1-PR
B07D (2 ×)
AV1-STATUS
B04A (1 ×)
B07A (1 ×)
AV1-STATUS
AV1-Y
B04K (1 ×)
AV1-Y
B07D (2 ×)
AV1-Y_CVBS B04K (1 ×)
AV1-Y_CVBS B07D (2 ×)
AV2-BLK
B04A (1 ×)
AV2-BLK
B07A (1 ×)
AV2-STATUS
B04A (1 ×)
AV2-STATUS
B07A (1 ×)
AV2-Y_CVBS B04K (1 ×)
AV2-Y_CVBS B07A (1 ×)
AV3-PB
B04K (1 ×)
AV3-PB
B07A (1 ×)
AV3-PR
B04K (1 ×)
AV3-PR
B07A (1 ×)
AV3-Y
B04K (1 ×)
AV3-Y
B07A (1 ×)
AV4-PB
B04K (1 ×)
AV4-PB
B07B (1 ×)
AV4-PR
B04K (1 ×)
AV4-PR
B07B (1 ×)
AV4-Y
B04K (1 ×)
AV4-Y
B07B (1 ×)
BACKLIGHT-BOOST
BACKLIGHT-BOOST
BACKLIGHT-CONTROL
BACKLIGHT-CONTROL
BACKLIGHT-OUT
BACKLIGHT-OUT
BIN-5V
B08B (3 ×)
BO-AUDIO-L
B07D (2 ×)
BO-AUDIO-R
B07D (2 ×)
BO-B
B07D (2 ×)
BO-CVBS
B07D (2 ×)
BO-G
B07D (2 ×)
BOLT-ON-IO_RESET-STI7100
BOLT-ON-IO_RESET-STI7100
BOLT-ON-IO_RESET-STI7100
BOLT-ON-IO_RESET-STI7100
BOOTMODE
B04A (2 ×)
BOOTMODE
B04E (2 ×)
BO-R
B07D (2 ×)
BRX0B08B (2 ×)
BRX0B08C (1 ×)
BRX0+
B08B (2 ×)
BRX0+
B08C (1 ×)
BRX1B08B (2 ×)
BRX1B08C (1 ×)
BRX1+
B08B (2 ×)
BRX1+
B08C (1 ×)
BRX2B08B (2 ×)
BRX2B08C (1 ×)
BRX2+
B08B (2 ×)
BRX2+
B08C (1 ×)
BRXCB08B (2 ×)
BRXCB08C (1 ×)
BRXC+
B08B (2 ×)
BRXC+
B08C (1 ×)
BRX-DDC-SCL B08B (2 ×)
BRX-DDC-SDA B08B (2 ×)
BRX-HOTPLUG B08B (2 ×)
BUF-RST-TARGETn
BUF-RST-TARGETn
CA-ADDEN
B04N (1 ×)
CA-ADDEN
B09A (6 ×)
CA-CD1
B04N (1 ×)
CA-CD1
B09A (2 ×)
CA-CD2
B04N (1 ×)
CA-CD2
B09A (2 ×)
CA-CE1
B09A (2 ×)
CA-CE2
B09A (2 ×)
CA-DATADIR
B04N (1 ×)
CA-DATADIR
B09A (1 ×)
CA-DATAEN
B04N (1 ×)
CA-DATAEN
B09A (1 ×)
CA-INPACK
B09A (2 ×)
CA-IORD
B09A (2 ×)
CA-IOWR
B09A (2 ×)
CA-MDI0
B04N (1 ×)
CA-MDI0
B09A (3 ×)
CA-MDI0-OUT B09A (2 ×)
CA-MDI1
B04N (1 ×)
CA-MDI1
B09A (3 ×)
CA-MDI1-OUT B09A (2 ×)
CA-MDI2
B04N (1 ×)
CA-MDI2
B09A (3 ×)
CA-MDI2-OUT B09A (2 ×)
CA-MDI3
B04N (1 ×)
CA-MDI3
B09A (3 ×)
CA-MDI3-OUT B09A (2 ×)
CA-MDI4
B04N (1 ×)
CA-MDI4
B09A (3 ×)
CA-MDI4-OUT B09A (2 ×)
CA-MDI5
B04N (1 ×)
CA-MDI5
B09A (3 ×)
CA-MDI5-OUT B09A (2 ×)
CA-MDI6
B04N (1 ×)
CA-MDI6
B09A (3 ×)
CA-MDI6-OUT B09A (2 ×)
CA-MDI7
B04N (1 ×)
B02B (1 ×)
B06C (1 ×)
B06B (1 ×)
B06C (1 ×)
B02B (1 ×)
B06B (1 ×)
B03D (1 ×)
B03E (1 ×)
B04B (1 ×)
B07D (2 ×)
B03D (1 ×)
B03I (1 ×)
CA-MDI7
B09A (3 ×)
CA-MDI7-OUT B09A (2 ×)
CA-MDO0
B04N (1 ×)
CA-MDO0
B09A (2 ×)
CA-MDO1
B04N (1 ×)
CA-MDO1
B09A (2 ×)
CA-MDO2
B04N (1 ×)
CA-MDO2
B09A (2 ×)
CA-MDO3
B04N (1 ×)
CA-MDO3
B09A (2 ×)
CA-MDO4
B04N (1 ×)
CA-MDO4
B09A (2 ×)
CA-MDO5
B04N (1 ×)
CA-MDO5
B09A (2 ×)
CA-MDO6
B04N (1 ×)
CA-MDO6
B09A (2 ×)
CA-MDO7
B04N (1 ×)
CA-MDO7
B09A (2 ×)
CA-MICLK
B04N (1 ×)
CA-MICLK
B09A (3 ×)
CA-MICLK-OUT B09A (2 ×)
CA-MISTRT
B04N (1 ×)
CA-MISTRT
B09A (3 ×)
CA-MISTRT-OUT
B09A (2 ×)
CA-MIVAL
B04N (1 ×)
CA-MIVAL
B09A (3 ×)
CA-MIVAL-OUT B09A (2 ×)
CA-MOCLK_VS2
B04N (1 ×)
CA-MOCLK_VS2
B09A (2 ×)
CA-MOSTRT
B04N (1 ×)
CA-MOSTRT
B09A (2 ×)
CA-MOVAL
B04N (1 ×)
CA-MOVAL
B09A (2 ×)
CA-OE
B09A (2 ×)
CA-REG
B09A (2 ×)
CA-RST
B04N (1 ×)
CA-RST
B09A (1 ×)
CA-VS1
B04N (1 ×)
CA-VS1
B09A (2 ×)
CA-WAIT
B09A (3 ×)
CA-WE
B09A (2 ×)
CEC-HDMI
B04A (2 ×)
CEC-HDMI
B04H (1 ×)
CEC-HDMI
B08B (1 ×)
CIN-5V
B08B (3 ×)
CONTR+1V8-PNX8541
B04G (1 ×)
CONTR+1V8-PNX8541
B05A (1 ×)
CPU-27MHZ
B03D (2 ×)
CRX0B08B (1 ×)
CRX0B08C (1 ×)
CRX0+
B08B (1 ×)
CRX0+
B08C (1 ×)
CRX1B08B (1 ×)
CRX1B08C (1 ×)
CRX1+
B08B (1 ×)
CRX1+
B08C (1 ×)
CRX2B08B (1 ×)
CRX2B08C (1 ×)
CRX2+
B08B (1 ×)
CRX2+
B08C (1 ×)
CRXCB08B (1 ×)
CRXCB08C (1 ×)
CRXC+
B08B (1 ×)
CRXC+
B08C (1 ×)
CRX-DDC-SCL B08B (2 ×)
CRX-DDC-SDA B08B (2 ×)
CRX-HOTPLUG B08B (2 ×)
CTRL1-MIPS_LCD-PWR-ON
B04E (1 ×)
CTRL1-MIPS_LCD-PWR-ON
B05A (1 ×)
CTRL1-MIPS_LCD-PWR-ON
B06B (2 ×)
CTRL1-STBY_LAMP-ON
B04A (1 ×)
CTRL1-STBY_LAMP-ON
B04B (1 ×)
CTRL1-STBY_LAMP-ON
B06B (1 ×)
CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3
B04A (3 ×)
CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3
B06B (2 ×)
CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3
B06C (1 ×)
CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3_BOOTMODE
B04A (1 ×)
CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3_BOOTMODE
B06C (1 ×)
CTRL3-STBY_POWER-OK-DISP B04A (1 ×)
CTRL3-STBY_POWER-OK-DISP B04B (1 ×)
CTRL3-STBY_POWER-OK-DISP B06B (1 ×)
CTRL4-P3
B06B (1 ×)
CTRL4-P3
B06C (2 ×)
CTRL4-STBY_SELECT-PWM-ANA
B04B (1 ×)
CTRL4-STBY_SELECT-PWM-ANA
B06B (2 ×)
CTRL5-STBY_BACKLIGHT-BOOST
B06B (2 ×)
CTRL-DISP1
B06A (1 ×)
CTRL-DISP1
B06B (1 ×)
CTRL-DISP2
B06A (1 ×)
CTRL-DISP2
B06B (1 ×)
CTRL-DISP3
B06A (1 ×)
CTRL-DISP3
B06B (1 ×)
CTRL-DISP4
B06A (1 ×)
CTRL-DISP4
B06B (1 ×)
CVBS4
B03A (1 ×)
CVBS4
B04K (1 ×)
CVBS-OUT-SC1 B07A (2 ×)
CVBS-TER-OUT B03A (1 ×)
CVBS-TER-OUT B07A (1 ×)
CVBS-TER-OUT B07D (1 ×)
DDC-SCL
B04H (1 ×)
DDC-SCL
B08C (1 ×)
DDC-SDA
B04H (1 ×)
DDC-SDA
B08C (1 ×)
DDR2-A0
B04G (4 ×)
DDR2-A1
B04G (4 ×)
DDR2-A10
B04G (4 ×)
DDR2-A11
B04G (4 ×)
DDR2-A12
B04G (4 ×)
DDR2-A2
B04G (4 ×)
DDR2-A3
B04G (4 ×)
DDR2-A4
B04G (4 ×)
DDR2-A5
B04G (4 ×)
DDR2-A6
B04G (4 ×)
3139 123 6423.2
DDR2-A7
B04G (4 ×)
DDR2-A8
B04G (4 ×)
DDR2-A9
B04G (4 ×)
DDR2-BA0
B04G (4 ×)
DDR2-BA1
B04G (4 ×)
DDR2-CAS
B04G (4 ×)
DDR2-CKE
B04G (4 ×)
DDR2-CLK_N B04G (4 ×)
DDR2-CLK_P B04G (4 ×)
DDR2-CS
B04G (4 ×)
DDR2-D0
B04G (2 ×)
DDR2-D1
B04G (2 ×)
DDR2-D10
B04G (2 ×)
DDR2-D11
B04G (2 ×)
DDR2-D12
B04G (2 ×)
DDR2-D13
B04G (2 ×)
DDR2-D14
B04G (2 ×)
DDR2-D15
B04G (2 ×)
DDR2-D16
B04G (2 ×)
DDR2-D17
B04G (2 ×)
DDR2-D18
B04G (2 ×)
DDR2-D19
B04G (2 ×)
DDR2-D2
B04G (2 ×)
DDR2-D20
B04G (2 ×)
DDR2-D21
B04G (2 ×)
DDR2-D22
B04G (2 ×)
DDR2-D23
B04G (2 ×)
DDR2-D24
B04G (2 ×)
DDR2-D25
B04G (2 ×)
DDR2-D26
B04G (2 ×)
DDR2-D27
B04G (2 ×)
DDR2-D28
B04G (2 ×)
DDR2-D29
B04G (2 ×)
DDR2-D3
B04G (2 ×)
DDR2-D30
B04G (2 ×)
DDR2-D31
B04G (2 ×)
DDR2-D4
B04G (2 ×)
DDR2-D5
B04G (2 ×)
DDR2-D6
B04G (2 ×)
DDR2-D7
B04G (2 ×)
DDR2-D8
B04G (2 ×)
DDR2-D9
B04G (2 ×)
DDR2-DQM0
B04G (2 ×)
DDR2-DQM1
B04G (2 ×)
DDR2-DQM2
B04G (2 ×)
DDR2-DQM3
B04G (2 ×)
DDR2-DQS0_N B04G (3 ×)
DDR2-DQS0_P B04G (2 ×)
DDR2-DQS1_N B04G (3 ×)
DDR2-DQS1_P B04G (2 ×)
DDR2-DQS2_N B04G (3 ×)
DDR2-DQS2_P B04G (2 ×)
DDR2-DQS3_N B04G (3 ×)
DDR2-DQS3_P B04G (2 ×)
DDR2-ODT
B04G (4 ×)
DDR2-RAS
B04G (4 ×)
DDR2-VREF-CTRL
DDR2-VREF-DDR
DDR2-WE
B04G (4 ×)
DETECT1
B04A (3 ×)
DETECT1
B10A (1 ×)
DETECT2
B04A (1 ×)
DETECT2
B04B (1 ×)
DIF-N
B03A (1 ×)
DIF-N
B03C (1 ×)
DIF-P
B03A (1 ×)
DIF-P
B03C (1 ×)
DIN-5V
B08B (3 ×)
DRX0B08B (2 ×)
DRX0B08C (1 ×)
DRX0+
B08B (2 ×)
DRX0+
B08C (1 ×)
DRX1B08B (2 ×)
DRX1B08C (1 ×)
DRX1+
B08B (2 ×)
DRX1+
B08C (1 ×)
DRX2B08B (2 ×)
DRX2B08C (1 ×)
DRX2+
B08B (2 ×)
DRX2+
B08C (1 ×)
DRXCB08B (2 ×)
DRXCB08C (1 ×)
DRXC+
B08B (2 ×)
DRXC+
B08C (1 ×)
DRX-DDC-SCL B08B (2 ×)
DRX-DDC-SDA B08B (2 ×)
DRX-HOTPLUG B08B (2 ×)
DV-B0_UART2-RX
DV-B0_UART2-RX
DV-B0_UART2-RX_1
DV-B0_UART2-RX_1
DV-B1_UART2-TX
DV-B1_UART2-TX
DV-B1_UART2-TX_1
DV-B1_UART2-TX_1
DV-B2_DEBUG-BREAK
DV-B2_DEBUG-BREAK
DV-B3_MHP-SWITCH
DV-B3_MHP-SWITCH
DV-B3_MHP-SWITCH_1
DV-B3_MHP-SWITCH_1
DV-B4_UV0
B04O (1 ×)
DV-B4_UV0
B05A (2 ×)
DV-B5_UV1
B04O (1 ×)
DV-B5_UV1
B05A (2 ×)
DV-B6_Y0
B04O (1 ×)
DV-B6_Y0
B05A (2 ×)
DV-B7_Y1
B04O (1 ×)
DV-B7_Y1
B05A (2 ×)
DV-CLK
B04O (1 ×)
DV-CLK
B05A (2 ×)
DV-FF_DE
B04O (1 ×)
DV-FF_DE
B05A (2 ×)
DV-G0_UV2
B04O (1 ×)
DV-G0_UV2
B05A (2 ×)
DV-G1_UV3
B04O (1 ×)
B04G (2 ×)
B04G (3 ×)
B04O (2 ×)
B05A (2 ×)
B04O (1 ×)
B07D (2 ×)
B04O (2 ×)
B05A (2 ×)
B04O (1 ×)
B07D (2 ×)
B04O (1 ×)
B05A (2 ×)
B04O (2 ×)
B05A (2 ×)
B04O (1 ×)
B07D (2 ×)
DV-G1_UV3
B05A (2 ×)
DV-G2_UV4
B04O (1 ×)
DV-G2_UV4
B05A (2 ×)
DV-G3_UV5
B04O (1 ×)
DV-G3_UV5
B05A (2 ×)
DV-G4_UV6
B04O (1 ×)
DV-G4_UV6
B05A (2 ×)
DV-G5_UV7
B04O (1 ×)
DV-G5_UV7
B05A (2 ×)
DV-G6_UV8
B04O (1 ×)
DV-G6_UV8
B05A (2 ×)
DV-G7_UV9
B04O (1 ×)
DV-G7_UV9
B05A (2 ×)
DV-HS
B04O (1 ×)
DV-HS
B05A (2 ×)
DV-R0_Y2
B04O (1 ×)
DV-R0_Y2
B05A (2 ×)
DV-R1_Y3
B04O (1 ×)
DV-R1_Y3
B05A (2 ×)
DV-R2_Y4
B04O (1 ×)
DV-R2_Y4
B05A (2 ×)
DV-R3_Y5
B04O (1 ×)
DV-R3_Y5
B05A (2 ×)
DV-R4_Y6
B04O (1 ×)
DV-R4_Y6
B05A (2 ×)
DV-R5_Y7
B04O (1 ×)
DV-R5_Y7
B05A (2 ×)
DV-R6_Y8
B04O (1 ×)
DV-R6_Y8
B05A (2 ×)
DV-R7_Y9
B04O (1 ×)
DV-R7_Y9
B05A (2 ×)
DV-VS
B04O (1 ×)
DV-VS
B05A (2 ×)
EA
B04A (2 ×)
EA
B04B (1 ×)
EJTAG-DETECT B04B (1 ×)
EJTAG-DETECT B07D (1 ×)
EJTAG-TCK
B04E (1 ×)
EJTAG-TCK
B07D (2 ×)
EJTAG-TDI
B04E (1 ×)
EJTAG-TDI
B07D (3 ×)
EJTAG-TDO
B04E (1 ×)
EJTAG-TDO
B07D (1 ×)
EJTAG-TMS
B04E (1 ×)
EJTAG-TMS
B07D (2 ×)
EJTAG-TRSTN B04E (1 ×)
EJTAG-TRSTN B07D (2 ×)
EMI-A1
B03D (1 ×)
EMI-A1
B03E (2 ×)
EMI-A10
B03D (1 ×)
EMI-A10
B03E (2 ×)
EMI-A11
B03E (2 ×)
EMI-A12
B03D (1 ×)
EMI-A12
B03E (2 ×)
EMI-A13
B03D (1 ×)
EMI-A13
B03E (2 ×)
EMI-A14
B03D (2 ×)
EMI-A14
B03E (2 ×)
EMI-A15
B03D (1 ×)
EMI-A15
B03E (2 ×)
EMI-A16
B03E (2 ×)
EMI-A17
B03E (2 ×)
EMI-A18
B03E (2 ×)
EMI-A19
B03E (2 ×)
EMI-A2
B03D (1 ×)
EMI-A2
B03E (2 ×)
EMI-A20
B03E (2 ×)
EMI-A21
B03E (2 ×)
EMI-A22
B03E (2 ×)
EMI-A3
B03D (1 ×)
EMI-A3
B03E (2 ×)
EMI-A4
B03D (1 ×)
EMI-A4
B03E (2 ×)
EMI-A5
B03D (1 ×)
EMI-A5
B03E (2 ×)
EMI-A6
B03D (1 ×)
EMI-A6
B03E (2 ×)
EMI-A7
B03D (1 ×)
EMI-A7
B03E (2 ×)
EMI-A8
B03D (1 ×)
EMI-A8
B03E (2 ×)
EMI-A9
B03D (1 ×)
EMI-A9
B03E (2 ×)
EMI-D0
B03E (2 ×)
EMI-D1
B03E (2 ×)
EMI-D10
B03E (2 ×)
EMI-D11
B03E (2 ×)
EMI-D12
B03E (2 ×)
EMI-D13
B03E (2 ×)
EMI-D14
B03E (2 ×)
EMI-D15
B03E (2 ×)
EMI-D2
B03E (2 ×)
EMI-D3
B03E (2 ×)
EMI-D4
B03E (2 ×)
EMI-D5
B03E (2 ×)
EMI-D6
B03E (2 ×)
EMI-D7
B03E (2 ×)
EMI-D8
B03E (2 ×)
EMI-D9
B03E (2 ×)
EMI-FLASH-CSn
EMI-OEn
B03E (3 ×)
EMI-RB-WAIT B03E (3 ×)
EMI-WRn
B03E (2 ×)
ENABLE-1V2
B02A (1 ×)
ENABLE-1V2
B02C (1 ×)
ENABLE-1V2
B04B (1 ×)
ENABLE-3V3
B02A (1 ×)
ENABLE-3V3
B02C (1 ×)
ENABLE-3V3
B04B (1 ×)
FE-CLK
B03B (1 ×)
FE-CLK
B03C (1 ×)
FE-CLK
B04N (1 ×)
FE-DATA0
B03B (1 ×)
FE-DATA0
B03C (1 ×)
FE-DATA0
B04N (1 ×)
FE-DATA1
B03B (1 ×)
B03E (3 ×)
FE-DATA1
B03C (1 ×)
FE-DATA1
B04N (1 ×)
FE-DATA2
B03B (1 ×)
FE-DATA2
B03C (1 ×)
FE-DATA2
B04N (1 ×)
FE-DATA3
B03B (1 ×)
FE-DATA3
B03C (1 ×)
FE-DATA3
B04N (1 ×)
FE-DATA4
B03B (1 ×)
FE-DATA4
B03C (1 ×)
FE-DATA4
B04N (1 ×)
FE-DATA5
B03B (1 ×)
FE-DATA5
B03C (1 ×)
FE-DATA5
B04N (1 ×)
FE-DATA6
B03B (1 ×)
FE-DATA6
B03C (1 ×)
FE-DATA6
B04N (1 ×)
FE-DATA7
B03B (1 ×)
FE-DATA7
B03C (1 ×)
FE-DATA7
B04N (1 ×)
FE-ERR
B04N (2 ×)
FE-SOP
B03B (1 ×)
B03C (1 ×)
FE-SOP
FE-SOP
B04N (1 ×)
FE-VALID
B03B (1 ×)
FE-VALID
B03C (1 ×)
FE-VALID
B04N (1 ×)
FRONT-C
B04K (1 ×)
FRONT-C
B07C (2 ×)
FRONT-C
B07D (1 ×)
FRONT-Y_CVBSB04K (1 ×)
FRONT-Y_CVBSB07C (2 ×)
FRONT-Y_CVBSB07D (1 ×)
GNDLAN
B09B (10 ×)
GND-RX
B06C (5 ×)
GND-SIG
B02A (14 ×)
GND-SIG1
B02C (14 ×)
GNDSND
B02B (1 ×)
GNDSND
B10A (29 ×)
GND-TX
B06C (6 ×)
HD-PB_PC-B
B04K (2 ×)
HD-PR_PC-R B04K (2 ×)
HD-Y_PC-G
B04K (2 ×)
HOT-PLUG
B04H (1 ×)
HOT-PLUG
B08B (4 ×)
HP-DETECT
B04B (1 ×)
HP-DETECT
B07C (1 ×)
H-SYNC-VGA B04K (2 ×)
I2C_SEL1
B06B (1 ×)
I2C_SEL2
B06B (1 ×)
IF-FILTN1
B03A (4 ×)
IF-FILTN2
B03A (3 ×)
IF-FILTN3
B03A (3 ×)
IF-FILTP1
B03A (4 ×)
IF-FILTP2
B03A (3 ×)
IF-FILTP3
B03A (3 ×)
IF-N
B03A (1 ×)
IF-N
B04K (1 ×)
IF-P
B03A (1 ×)
IF-P
B04K (1 ×)
IRQ-CA
B04E (2 ×)
IRQ-CA
B09A (2 ×)
IRQ-FRAME-SYNC
IRQ-PCI
B04E (2 ×)
IRQ-PCI
B08A (2 ×)
JTAG-TCK
B03B (1 ×)
JTAG-TCK
B03C (1 ×)
JTAG-TCK
B05A (1 ×)
JTAG-TCK
B06C (1 ×)
JTAG-TCK-ST B03D (2 ×)
JTAG-TCK-ST B03I (1 ×)
JTAG-TDI-ST
B03D (2 ×)
JTAG-TDI-ST
B03I (1 ×)
JTAG-TDO
B03C (1 ×)
JTAG-TDO
B05A (1 ×)
JTAG-TDO-ST B03D (2 ×)
JTAG-TDO-ST B03I (1 ×)
JTAG-TD-PACIFIC-TDA10048
JTAG-TD-PACIFIC-TDA10048
JTAG-TD-PNX5050-PACIFIC
JTAG-TD-PNX5050-PACIFIC
JTAG-TD-TDA10048-TDA10023
JTAG-TD-TDA10048-TDA10023
JTAG-TMS
B03B (1 ×)
JTAG-TMS
B03C (1 ×)
JTAG-TMS
B05A (1 ×)
JTAG-TMS
B06C (1 ×)
JTAG-TMS-ST B03D (2 ×)
JTAG-TMS-ST B03I (1 ×)
JTAG-TRST
B03B (1 ×)
JTAG-TRST
B03C (1 ×)
JTAG-TRST
B05A (1 ×)
JTAG-TRST
B06C (1 ×)
JTAG-TRSTn-ST B03D (2 ×)
JTAG-TRSTn-ST B03I (1 ×)
KEYBOARD
B04A (3 ×)
KEYBOARD
B10A (1 ×)
LAMP-ON-OUT B02B (1 ×)
LAMP-ON-OUT B04A (1 ×)
LAN-RST
B03D (1 ×)
LAN-RST
B09B (1 ×)
LED1
B04A (2 ×)
LED1
B10A (1 ×)
LED2
B04A (2 ×)
LED2
B10A (1 ×)
LIGHT-SENSOR B04A (1 ×)
LIGHT-SENSOR B10A (1 ×)
LMI-A(0)
B03F (3 ×)
LMI-A(1)
B03F (3 ×)
LMI-A(10)
B03F (3 ×)
B04A (3 ×)
B03B (1 ×)
B06C (2 ×)
B05A (1 ×)
B06C (2 ×)
B03B (1 ×)
B03C (1 ×)
18680_545_090828.eps
090828
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 120
SSB: SRP List Part 2
Netname
LMI-A(11)
LMI-A(12)
LMI-A(2)
LMI-A(3)
LMI-A(4)
LMI-A(5)
LMI-A(6)
LMI-A(7)
LMI-A(8)
LMI-A(9)
LMI-BA0
LMI-BA1
LMI-CASnot
LMI-CLK
LMI-CLKEN
LMI-CLKnot
LMI-CSnot
LMI-D(0)
LMI-D(1)
LMI-D(10)
LMI-D(11)
LMI-D(12)
LMI-D(13)
LMI-D(14)
LMI-D(15)
LMI-D(16)
LMI-D(17)
LMI-D(18)
LMI-D(19)
LMI-D(2)
LMI-D(20)
LMI-D(21)
LMI-D(22)
LMI-D(23)
LMI-D(24)
LMI-D(25)
LMI-D(26)
LMI-D(27)
LMI-D(28)
LMI-D(29)
LMI-D(3)
LMI-D(30)
LMI-D(31)
LMI-D(4)
LMI-D(5)
LMI-D(6)
LMI-D(7)
LMI-D(8)
LMI-D(9)
LMI-DQM0
LMI-DQM1
LMI-DQM2
LMI-DQM3
LMI-DQS0
LMI-DQS1
LMI-DQS2
LMI-DQS3
LMI-RASnot
LMI-VREF
LMI-VREF2-ST
LMI-VREF-ST
LMI-WEnot
MDO0
MDO1
MDO2
MDO3
MDO4
MDO5
MDO6
MDO7
MII-COL
MII-COL
MII-CRS
MII-CRS
MII-MDC
MII-MDC
MII-MDINT
MII-MDINT
MII-MDIO
MII-MDIO
MII-RXCLK
MII-RXCLK
MII-RXD(0)
MII-RXD(0)
MII-RXD(1)
MII-RXD(1)
MII-RXD(2)
MII-RXD(2)
MII-RXD(3)
MII-RXD(3)
MII-RX-DV
MII-RX-DV
MII-RX-ER
MII-RX-ER
MII-RX-ER
MII-TXCLK
MII-TXCLK
MII-TXD(0)
MII-TXD(0)
MII-TXD(1)
MII-TXD(1)
MII-TXD(2)
MII-TXD(2)
MII-TXD(3)
MII-TXD(3)
MII-TXEN
MII-TXEN
MOCLKA
MOSTRTA
MOVALA
MPEG-TX0MPEG-TX0MPEG-TX0+
MPEG-TX0+
Diagram
B03F (3 ×)
B03F (3 ×)
B03F (3 ×)
B03F (3 ×)
B03F (3 ×)
B03F (3 ×)
B03F (3 ×)
B03F (3 ×)
B03F (3 ×)
B03F (3 ×)
B03F (3 ×)
B03F (3 ×)
B03F (3 ×)
B03F (4 ×)
B03F (3 ×)
B03F (4 ×)
B03F (3 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (3 ×)
B03F (2 ×)
B03F (2 ×)
B03F (2 ×)
B03F (3 ×)
B09A (3 ×)
B09A (3 ×)
B09A (3 ×)
B09A (3 ×)
B09A (3 ×)
B09A (3 ×)
B09A (3 ×)
B09A (3 ×)
B03G (1 ×)
B09B (1 ×)
B03G (1 ×)
B09B (1 ×)
B03G (1 ×)
B09B (1 ×)
B03G (1 ×)
B09B (1 ×)
B03G (1 ×)
B09B (1 ×)
B03G (1 ×)
B09B (1 ×)
B03G (1 ×)
B09B (1 ×)
B03G (1 ×)
B09B (1 ×)
B03G (1 ×)
B09B (1 ×)
B03G (1 ×)
B09B (1 ×)
B03G (1 ×)
B09B (1 ×)
B03D (1 ×)
B03G (1 ×)
B09B (1 ×)
B03G (1 ×)
B09B (1 ×)
B03G (1 ×)
B09B (1 ×)
B03G (1 ×)
B09B (1 ×)
B03G (1 ×)
B09B (1 ×)
B03G (1 ×)
B09B (1 ×)
B03G (1 ×)
B09B (1 ×)
B09A (3 ×)
B09A (3 ×)
B09A (3 ×)
B03G (2 ×)
B08B (1 ×)
B03G (2 ×)
B08B (1 ×)
MPEG-TX1B03G (2 ×)
MPEG-TX1B08B (1 ×)
MPEG-TX1+
B03G (2 ×)
MPEG-TX1+
B08B (1 ×)
MPEG-TX2B03G (2 ×)
MPEG-TX2B08B (1 ×)
MPEG-TX2+
B03G (2 ×)
MPEG-TX2+
B08B (1 ×)
MPEG-TXCB03G (2 ×)
MPEG-TXCB08B (1 ×)
MPEG-TXC+
B03G (2 ×)
MPEG-TXC+
B08B (1 ×)
NAND-AD(0)
B04Q (2 ×)
NAND-AD(1)
B04Q (2 ×)
NAND-AD(2)
B04Q (2 ×)
NAND-AD(3)
B04Q (2 ×)
NAND-AD(4)
B04Q (2 ×)
NAND-AD(5)
B04Q (2 ×)
NAND-AD(6)
B04Q (2 ×)
NAND-AD(7)
B04Q (2 ×)
NAND-ALE
B04Q (2 ×)
NAND-CLE
B04Q (2 ×)
NAND-REn
B04Q (2 ×)
NAND-WEn
B04Q (2 ×)
P0.0
B04A (2 ×)
P0.0
B04B (1 ×)
P0.1
B04A (2 ×)
P0.1
B04B (1 ×)
P0.2
B04A (2 ×)
P0.2
B04B (1 ×)
P0.3
B04A (2 ×)
P0.3
B04B (1 ×)
P0.4
B04A (2 ×)
P0.4
B04B (1 ×)
P0.5
B04A (2 ×)
P0.5
B04B (1 ×)
P0.6
B04A (2 ×)
P0.6
B04B (1 ×)
P0.7
B04A (2 ×)
P0.7
B04B (1 ×)
P2.0
B04A (2 ×)
P2.0
B04B (1 ×)
P2.1
B04A (2 ×)
P2.1
B04B (1 ×)
P2.2
B04A (2 ×)
P2.2
B04B (1 ×)
P2.3
B04A (2 ×)
P2.3
B04B (1 ×)
P2.4
B04A (2 ×)
P2.4
B04B (1 ×)
P2.5
B04A (2 ×)
P2.5
B04B (1 ×)
P2.6
B04A (2 ×)
P2.6
B04B (1 ×)
P2.7
B04A (2 ×)
P2.7
B04B (1 ×)
PARX-DDC-SCL B08B (1 ×)
PARX-DDC-SCL B08C (1 ×)
PARX-DDC-SDA B08B (1 ×)
PARX-DDC-SDA B08C (1 ×)
PBRX-DDC-SCL B08B (1 ×)
PBRX-DDC-SCL B08C (1 ×)
PBRX-DDC-SDAB08B (1 ×)
PBRX-DDC-SDAB08C (1 ×)
PCEC-HDMI
B08B (5 ×)
PCI-AD0
B04F (1 ×)
PCI-AD0
B04Q (1 ×)
PCI-AD0
B08A (1 ×)
PCI-AD0
B09A (1 ×)
PCI-AD1
B04F (1 ×)
PCI-AD1
B04Q (1 ×)
PCI-AD1
B08A (1 ×)
PCI-AD1
B09A (1 ×)
PCI-AD10
B04F (1 ×)
PCI-AD10
B08A (1 ×)
PCI-AD10
B09A (1 ×)
PCI-AD11
B04F (1 ×)
PCI-AD11
B08A (1 ×)
PCI-AD11
B09A (1 ×)
PCI-AD12
B04F (1 ×)
PCI-AD12
B08A (1 ×)
PCI-AD12
B09A (1 ×)
PCI-AD13
B04F (1 ×)
PCI-AD13
B08A (1 ×)
PCI-AD13
B09A (1 ×)
PCI-AD14
B04F (1 ×)
PCI-AD14
B08A (1 ×)
PCI-AD14
B09A (1 ×)
PCI-AD15
B04F (1 ×)
PCI-AD15
B08A (1 ×)
PCI-AD16
B04F (1 ×)
PCI-AD16
B08A (1 ×)
PCI-AD16
B09A (1 ×)
PCI-AD17
B04F (1 ×)
PCI-AD17
B08A (1 ×)
PCI-AD17
B09A (1 ×)
PCI-AD18
B04F (1 ×)
PCI-AD18
B08A (1 ×)
PCI-AD18
B09A (1 ×)
PCI-AD19
B04F (1 ×)
PCI-AD19
B08A (1 ×)
PCI-AD19
B09A (1 ×)
PCI-AD2
B04F (1 ×)
PCI-AD2
B08A (1 ×)
PCI-AD2
B09A (1 ×)
PCI-AD20
B04F (1 ×)
PCI-AD20
B08A (1 ×)
PCI-AD21
B04F (1 ×)
PCI-AD21
B08A (1 ×)
PCI-AD22
B04F (1 ×)
PCI-AD22
B08A (2 ×)
PCI-AD22
B09A (1 ×)
PCI-AD23
B04F (1 ×)
PCI-AD23
B08A (1 ×)
PCI-AD23
B09A (1 ×)
PCI-AD24
B04F (2 ×)
PCI-AD24
B04Q (1 ×)
PCI-AD24
B08A (1 ×)
PCI-AD24
B09A (1 ×)
PCI-AD25
B04F (1 ×)
PCI-AD25
B04Q (1 ×)
PCI-AD25
B08A (1 ×)
PCI-AD25
B09A (1 ×)
PCI-AD26
B04F (1 ×)
PCI-AD26
B04Q (1 ×)
PCI-AD26
B08A (1 ×)
PCI-AD26
B09A (1 ×)
PCI-AD27
B04F (1 ×)
PCI-AD27
B04Q (1 ×)
PCI-AD27
B08A (1 ×)
PCI-AD27
B09A (1 ×)
PCI-AD28
B04F (1 ×)
PCI-AD28
B04Q (1 ×)
PCI-AD28
B08A (1 ×)
PCI-AD28
B09A (1 ×)
PCI-AD29
B04F (1 ×)
PCI-AD29
B04Q (1 ×)
PCI-AD29
B08A (1 ×)
PCI-AD29
B09A (1 ×)
PCI-AD3
B04F (1 ×)
PCI-AD3
B08A (1 ×)
PCI-AD3
B09A (1 ×)
PCI-AD30
B04F (1 ×)
PCI-AD30
B04Q (1 ×)
PCI-AD30
B08A (1 ×)
PCI-AD30
B09A (1 ×)
PCI-AD31
B04F (1 ×)
PCI-AD31
B04Q (1 ×)
PCI-AD31
B08A (1 ×)
PCI-AD31
B09A (1 ×)
PCI-AD4
B04F (1 ×)
PCI-AD4
B08A (1 ×)
PCI-AD4
B09A (1 ×)
PCI-AD5
B04F (1 ×)
PCI-AD5
B08A (1 ×)
PCI-AD5
B09A (1 ×)
PCI-AD6
B04F (1 ×)
PCI-AD6
B08A (1 ×)
PCI-AD6
B09A (1 ×)
PCI-AD7
B04F (1 ×)
PCI-AD7
B08A (1 ×)
PCI-AD7
B09A (1 ×)
PCI-AD8
B04F (1 ×)
PCI-AD8
B08A (1 ×)
PCI-AD8
B09A (1 ×)
PCI-AD9
B04F (1 ×)
PCI-AD9
B08A (1 ×)
PCI-AD9
B09A (1 ×)
PCI-CBE0
B04F (1 ×)
PCI-CBE0
B08A (1 ×)
PCI-CBE1
B04F (1 ×)
PCI-CBE1
B04Q (1 ×)
PCI-CBE1
B08A (1 ×)
PCI-CBE1
B09A (1 ×)
PCI-CBE2
B04F (1 ×)
PCI-CBE2
B04Q (1 ×)
PCI-CBE2
B08A (1 ×)
PCI-CBE2
B09A (1 ×)
PCI-CBE3
B04F (1 ×)
PCI-CBE3
B08A (1 ×)
PCI-CLK-OUT B04E (3 ×)
PCI-CLK-PNX5050
PCI-CLK-PNX8535
PCI-CLK-PNX8535
PCI-CLK-USB20 B04E (2 ×)
PCI-CLK-USB20 B08A (1 ×)
PCI-DEVSEL
B04F (2 ×)
PCI-DEVSEL
B08A (1 ×)
PCI-FRAME
B04F (2 ×)
PCI-FRAME
B08A (1 ×)
PCI-GNT
B04F (2 ×)
PCI-GNT-B
B04F (2 ×)
PCI-GNT-PNX5050
PCI-GNT-USB20 B04F (1 ×)
PCI-GNT-USB20 B08A (2 ×)
PCI-IRDY
B04F (2 ×)
PCI-IRDY
B08A (1 ×)
PCI-PAR
B04F (1 ×)
PCI-PAR
B08A (1 ×)
PCI-PERR
B04F (2 ×)
PCI-PERR
B08A (1 ×)
PCI-REQ
B04F (2 ×)
PCI-REQ-B
B04F (2 ×)
PCI-REQ-PNX5050
PCI-REQ-USB20
PCI-REQ-USB20
PCI-SERR
B04F (2 ×)
PCI-SERR
B08A (1 ×)
PCI-STOP
B04F (2 ×)
PCI-STOP
B08A (1 ×)
PCI-TRDY
B04F (2 ×)
PCI-TRDY
B08A (1 ×)
PCMCIA-A0
B09A (2 ×)
PCMCIA-A1
B09A (2 ×)
PCMCIA-A10
B09A (2 ×)
PCMCIA-A11
B09A (2 ×)
PCMCIA-A12
B09A (2 ×)
PCMCIA-A13
B09A (2 ×)
PCMCIA-A14
B09A (2 ×)
PCMCIA-A2
B09A (2 ×)
PCMCIA-A3
B09A (2 ×)
PCMCIA-A4
B09A (2 ×)
PCMCIA-A5
B09A (2 ×)
PCMCIA-A6
B09A (2 ×)
PCMCIA-A7
B09A (2 ×)
PCMCIA-A8
B09A (2 ×)
PCMCIA-A9
B09A (2 ×)
PCMCIA-D0
B09A (2 ×)
PCMCIA-D1
B09A (2 ×)
PCMCIA-D2
B09A (2 ×)
PCMCIA-D3
B09A (2 ×)
PCMCIA-D4
B09A (2 ×)
B04E (2 ×)
B04E (2 ×)
B04F (1 ×)
B04F (1 ×)
B04F (1 ×)
B04F (1 ×)
B08A (2 ×)
PCMCIA-D5
B09A (2 ×)
PCMCIA-D6
B09A (2 ×)
PCMCIA-D7
B09A (2 ×)
PCMCIA-VCC-VPP
PCMOUT2
B03D (1 ×)
PCMOUT2
B03G (1 ×)
PCMOUT3
B03D (1 ×)
PCMOUT3
B03G (1 ×)
PCMOUT4
B03D (1 ×)
PCMOUT4
B03G (1 ×)
PCRX-DDC-SCLB08B (1 ×)
PCRX-DDC-SCLB08C (1 ×)
PCRX-DDC-SDA
PCRX-DDC-SDA
PDRX-DDC-SCLB08B (1 ×)
PDRX-DDC-SCLB08C (1 ×)
PDRX-DDC-SDA
PDRX-DDC-SDA
PHY-CLK
B03D (1 ×)
PHY-CLK
B09B (1 ×)
PROT-DC
B02A (1 ×)
PROT-DC
B02C (1 ×)
PSEN
B04A (2 ×)
PSEN
B04B (1 ×)
B06C (2 ×)
PWM-3
PWM-OR
B06C (2 ×)
RC
B04A (1 ×)
RC
B07D (1 ×)
RC
B10A (1 ×)
RC_uP
B04A (3 ×)
RC1
B04A (1 ×)
RC1
B07C (1 ×)
RC2
B04A (1 ×)
RC2
B07C (1 ×)
REGIMBEAU_CVBS-SWITCH
REGIMBEAU_CVBS-SWITCH
RESET-FLASH-STn
RESET-NVM_WP-NANDFLASH
RESET-NVM_WP-NANDFLASH
RESET-NVM_WP-NANDFLASH
RESET-STBY B04B (1 ×)
RESET-STBY B04D (1 ×)
RESET-STBY-J B04A (1 ×)
RESET-STBY-J B04B (1 ×)
RESET-SYSTEM
RESET-SYSTEM
RESET-SYSTEM
RESET-SYSTEM
RESET-SYSTEM
RESET-SYSTEM
RESET-USB20 B08A (2 ×)
RJLED_G
B09B (1 ×)
RJLED_Y
B09B (1 ×)
RREF-PNX8535 B04H (1 ×)
RREF-PNX8535 B04P (1 ×)
RST-TARGETn B03I (2 ×)
RX0B04H (1 ×)
RX0B08C (1 ×)
RX0+
B04H (1 ×)
RX0+
B08C (1 ×)
RX1B04H (1 ×)
RX1B08C (1 ×)
RX1+
B04H (1 ×)
RX1+
B08C (1 ×)
RX2B04H (1 ×)
RX2B08C (1 ×)
RX2+
B04H (1 ×)
RX2+
B08C (1 ×)
RXCB04H (1 ×)
RXCB08C (1 ×)
RXC+
B04H (1 ×)
RXC+
B08C (1 ×)
RXD
B04C (1 ×)
RXD
B07D (1 ×)
RXD2
B07D (2 ×)
RXD-ASC2
B03D (1 ×)
RXD-ASC2
B03I (1 ×)
RXD-BOLT-ON B07D (3 ×)
RXD-MIPS
B04C (1 ×)
RXD-MIPS
B04E (1 ×)
RXD-UP
B04A (2 ×)
RXD-UP
B04C (1 ×)
RXP3CLK
B05A (1 ×)
RXP3CLK
B06C (1 ×)
RXP3EA-_G7 B05A (1 ×)
RXP3EA-_G7 B06C (1 ×)
RXP3EA+_G6 B05A (1 ×)
RXP3EA+_G6 B06C (1 ×)
RXP3EB-_G5 B05A (1 ×)
RXP3EB-_G5 B06C (1 ×)
RXP3EB+_G4 B05A (1 ×)
RXP3EB+_G4 B06C (1 ×)
RXP3EC-_G3 B05A (1 ×)
RXP3EC-_G3 B06C (1 ×)
RXP3EC+_G2 B05A (1 ×)
RXP3EC+_G2 B06C (1 ×)
RXP3ECLK-_G0 B05A (1 ×)
RXP3ECLK-_G0 B06C (1 ×)
RXP3ECLK+_G1
RXP3ECLK+_G1
RXP3ED-_R9 B06C (1 ×)
RXP3ED+_R8 B06C (1 ×)
RXP3EE-_R7 B05A (1 ×)
RXP3EE-_R7 B06C (1 ×)
RXP3EE+_R6 B05A (1 ×)
RXP3EE+_R6 B06C (1 ×)
RXP3FF
B05A (1 ×)
RXP3FF
B06C (1 ×)
RXP3HS_DE
B05A (1 ×)
RXP3HS_DE
B06C (1 ×)
RXP3OA-_B9 B06A (2 ×)
RXP3OA-_B9 B06C (2 ×)
RXP3OA+_B8 B06A (2 ×)
RXP3OA+_B8 B06C (2 ×)
RXP3OB-_B7 B05A (1 ×)
RXP3OB-_B7 B06A (2 ×)
3139 123 6423.2
B09A (5 ×)
B08B (1 ×)
B08C (1 ×)
B08B (1 ×)
B08C (1 ×)
B04B (1 ×)
B07A (1 ×)
B03E (3 ×)
B04B (1 ×)
B04C (1 ×)
B04Q (1 ×)
B03B (1 ×)
B03C (1 ×)
B04A (2 ×)
B04E (2 ×)
B08A (1 ×)
B08C (1 ×)
B05A (1 ×)
B06C (1 ×)
RXP3OB-_B7 B06C (2 ×)
RXP3OB+_B6 B05A (1 ×)
RXP3OB+_B6 B06A (2 ×)
RXP3OB+_B6 B06C (2 ×)
RXP3OC-_B5 B05A (1 ×)
RXP3OC-_B5 B06A (2 ×)
RXP3OC-_B5 B06C (2 ×)
RXP3OC+_B4 B05A (1 ×)
RXP3OC+_B4 B06A (2 ×)
RXP3OC+_B4 B06C (2 ×)
RXP3OCLK-_B2 B05A (1 ×)
RXP3OCLK-_B2 B06A (2 ×)
RXP3OCLK-_B2 B06C (2 ×)
RXP3OCLK+_B3
RXP3OCLK+_B3
RXP3OCLK+_B3
RXP3OD-_B1 B05A (1 ×)
RXP3OD-_B1 B06A (2 ×)
RXP3OD-_B1 B06C (2 ×)
RXP3OD+_B0 B05A (1 ×)
RXP3OD+_B0 B06A (2 ×)
RXP3OD+_B0 B06C (2 ×)
RXP3OE-_G9 B06A (2 ×)
RXP3OE-_G9 B06C (2 ×)
RXP3OE+_G8 B06A (2 ×)
RXP3OE+_G8 B06C (2 ×)
RXP3R0
B05A (1 ×)
RXP3R0
B06C (1 ×)
RXP3R1
B05A (1 ×)
RXP3R1
B06C (1 ×)
RXP3R2
B05A (1 ×)
RXP3R2
B06C (1 ×)
RXP3R3
B05A (1 ×)
RXP3R3
B06C (1 ×)
RXP3R4
B05A (1 ×)
RXP3R4
B06C (1 ×)
RXP3R5
B05A (1 ×)
RXP3R5
B06C (1 ×)
RXP3VS
B05A (1 ×)
RXP3VS
B06C (1 ×)
SC1-AUDIO-L B07A (1 ×)
SC1-AUDIO-L B07D (2 ×)
SC1-AUDIO-R B07A (1 ×)
SC1-AUDIO-R B07D (2 ×)
SC1-B
B07A (1 ×)
SC1-B
B07D (3 ×)
SC1-CVBS
B07A (1 ×)
SC1-CVBS
B07D (2 ×)
SC1-G
B07A (1 ×)
SC1-G
B07D (3 ×)
SC1-R
B07A (1 ×)
SC1-R
B07D (3 ×)
SCL1
B04E (2 ×)
SCL2
B04E (2 ×)
SCL3
B04E (2 ×)
SCL-AMBI
B06B (1 ×)
SCL-AMBI-3V3 B06B (1 ×)
SCL-AMBI-3V3 B06C (1 ×)
SCL-I2C4-DISP B06A (1 ×)
SCL-I2C4-DISP B06B (1 ×)
SCL-SSB
B03A (1 ×)
SCL-SSB
B03B (1 ×)
SCL-SSB
B03C (1 ×)
SCL-SSB
B03D (1 ×)
SCL-SSB
B04E (3 ×)
SCL-SSB
B06C (1 ×)
SCL-SSB
B07D (2 ×)
SCL-SSB
B08C (1 ×)
SCL-SSB-MUX1 B04E (1 ×)
SCL-SSB-MUX1 B06B (1 ×)
SCL-SSB-MUX2 B04E (6 ×)
SCL-TUNER
B03A (1 ×)
SCL-TUNER
B03B (1 ×)
SCL-TUNER
B03C (1 ×)
SCL-UP-MIPS B04A (2 ×)
SCL-UP-MIPS B04C (1 ×)
SCL-UP-MIPS B04E (2 ×)
SDA1
B04E (2 ×)
SDA2
B04E (2 ×)
SDA3
B04E (2 ×)
SDA-AMBI
B06B (1 ×)
SDA-AMBI-3V3 B06B (1 ×)
SDA-AMBI-3V3 B06C (1 ×)
SDA-I2C4-DISP B06A (1 ×)
SDA-I2C4-DISP B06B (1 ×)
SDA-SSB
B03A (1 ×)
SDA-SSB
B03B (1 ×)
SDA-SSB
B03C (1 ×)
SDA-SSB
B03D (1 ×)
SDA-SSB
B04E (3 ×)
SDA-SSB
B06C (1 ×)
SDA-SSB
B07D (2 ×)
SDA-SSB
B08C (1 ×)
SDA-SSB-MUX1 B04E (1 ×)
SDA-SSB-MUX1 B06B (1 ×)
SDA-SSB-MUX2 B04E (6 ×)
SDA-TUNER
B03A (1 ×)
SDA-TUNER
B03B (1 ×)
SDA-TUNER
B03C (1 ×)
SDA-UP-MIPS B04A (2 ×)
SDA-UP-MIPS B04C (1 ×)
SDA-UP-MIPS B04E (2 ×)
SDM
B04A (3 ×)
SENSE+1V
B03H (1 ×)
SENSE+1V2-PNX8541
SENSE+1V2-PNX8541
SENSE+1V4-PNX5050
SPDIF-IN
B03G (1 ×)
SPDIF-IN
B09B (1 ×)
SPDIF-IN1
B04L (1 ×)
SPDIF-IN1
B09B (1 ×)
SPDIF-IN-MHP B07D (1 ×)
SPDIF-IN-MHP B09B (1 ×)
SPDIF-OUT
B04L (1 ×)
SPDIF-OUT
B07B (1 ×)
SPI-CLK
B04A (2 ×)
B05A (1 ×)
B06A (2 ×)
B06C (2 ×)
B02A (1 ×)
B04P (1 ×)
B02C (1 ×)
SPI-CSB
B04A (2 ×)
SPI-PROG
B04A (3 ×)
SPI-SDI
B04A (3 ×)
SPI-SDO
B04A (2 ×)
SPI-WP
B04A (3 ×)
STANDBY
B02B (1 ×)
STANDBY
B04B (1 ×)
STANDBY
B06B (1 ×)
STANDBY
B07D (1 ×)
STANDBY
B10A (2 ×)
SUPPLY-FAULT B02A (1 ×)
SUPPLY-FAULT B04A (2 ×)
TDA-IF-AGC
B03A (1 ×)
TDA-IF-AGC
B03B (1 ×)
TDA-IF-AGC
B03C (1 ×)
TDA-IF-AGC-SPLIT
TDA-IF-AGC-SPLIT
TDA-IF-IN-N
B03A (1 ×)
TDA-IF-IN-N
B03B (1 ×)
TDA-IF-IN-N
B03C (1 ×)
TDA-IF-IN-P
B03A (1 ×)
TDA-IF-IN-P
B03B (1 ×)
TDA-IF-IN-P
B03C (1 ×)
TMUCLK
B03D (2 ×)
TPIM
B09B (2 ×)
TPIP
B09B (2 ×)
TPOM
B09B (2 ×)
TPOP
B09B (2 ×)
TRIG-IN
B03D (2 ×)
TRIG-IN
B03I (1 ×)
TRIG-OUT
B03D (1 ×)
TRIG-OUT
B03I (1 ×)
TSI0-ST-CLK
B03D (1 ×)
TSI0-ST-CLK
B09A (1 ×)
TSI0-ST-D0
B03D (1 ×)
TSI0-ST-D0
B09A (1 ×)
TSI0-ST-D1
B03D (1 ×)
TSI0-ST-D1
B09A (1 ×)
TSI0-ST-D2
B03D (1 ×)
TSI0-ST-D2
B09A (1 ×)
TSI0-ST-D3
B03D (1 ×)
TSI0-ST-D3
B09A (1 ×)
TSI0-ST-D4
B03D (1 ×)
TSI0-ST-D4
B09A (1 ×)
TSI0-ST-D5
B03D (1 ×)
TSI0-ST-D5
B09A (1 ×)
TSI0-ST-D6
B03D (1 ×)
TSI0-ST-D6
B09A (1 ×)
TSI0-ST-D7
B03D (1 ×)
TSI0-ST-D7
B09A (1 ×)
TSI0-ST-STRT B03D (1 ×)
TSI0-ST-STRT B09A (1 ×)
TSI0-ST-VAL
B03D (1 ×)
TSI0-ST-VAL
B09A (1 ×)
TSI1-ST-CLK
B03D (1 ×)
TSI1-ST-CLK
B09A (1 ×)
TSI1-ST-D0
B03D (1 ×)
TSI1-ST-D0
B09A (1 ×)
TSI1-ST-D1
B03D (1 ×)
TSI1-ST-D1
B09A (1 ×)
TSI1-ST-D2
B03D (1 ×)
TSI1-ST-D2
B09A (1 ×)
TSI1-ST-D3
B03D (1 ×)
TSI1-ST-D3
B09A (1 ×)
TSI1-ST-D4
B03D (1 ×)
TSI1-ST-D4
B09A (1 ×)
TSI1-ST-D5
B03D (1 ×)
TSI1-ST-D5
B09A (1 ×)
TSI1-ST-D6
B03D (1 ×)
TSI1-ST-D6
B09A (1 ×)
TSI1-ST-D7
B03D (1 ×)
TSI1-ST-D7
B09A (1 ×)
TSI1-ST-STRT B03D (1 ×)
TSI1-ST-STRT B09A (1 ×)
TSI1-ST-VAL
B03D (1 ×)
TSI1-ST-VAL
B09A (1 ×)
TUN-AGC
B03A (3 ×)
TUN-AGC
B03B (1 ×)
TUN-AGC-MON B03A (1 ×)
TUN-AGC-MON B03B (1 ×)
Tx8535oAB04O (1 ×)
Tx8535oAB06A (1 ×)
Tx8535oA+
B04O (1 ×)
Tx8535oA+
B06A (1 ×)
Tx8535oBB04O (1 ×)
Tx8535oBB06A (1 ×)
Tx8535oB+
B04O (1 ×)
Tx8535oB+
B06A (1 ×)
Tx8535oCB04O (1 ×)
Tx8535oCB06A (1 ×)
Tx8535oC+
B04O (1 ×)
Tx8535oC+
B06A (1 ×)
Tx8535oCLK- B04O (1 ×)
Tx8535oCLK- B06A (1 ×)
Tx8535oCLK+ B04O (1 ×)
Tx8535oCLK+ B06A (1 ×)
Tx8535oDB04O (1 ×)
Tx8535oDB06A (1 ×)
Tx8535oD+
B04O (1 ×)
Tx8535oD+
B06A (1 ×)
Tx8535oEB04O (1 ×)
Tx8535oEB06A (1 ×)
Tx8535oE+
B04O (1 ×)
Tx8535oE+
B06A (1 ×)
TXD
B04C (1 ×)
TXD
B07D (1 ×)
TXD2
B07D (2 ×)
TXD-ASC2
B03D (1 ×)
TXD-ASC2
B03I (1 ×)
TXD-BOLT-ON B07D (3 ×)
TXD-MIPS
B04C (1 ×)
TXD-MIPS
B04E (1 ×)
TXD-UP
B04A (2 ×)
TXD-UP
B04C (1 ×)
TXEAB05A (1 ×)
TXEAB06A (1 ×)
B03B (1 ×)
B03C (1 ×)
TXEAB06C (1 ×)
TXEA+
B05A (1 ×)
TXEA+
B06A (1 ×)
TXEA+
B06C (1 ×)
TXEBB05A (1 ×)
TXEBB06A (1 ×)
TXEBB06C (1 ×)
TXEB+
B05A (1 ×)
TXEB+
B06A (1 ×)
TXEB+
B06C (1 ×)
TXECB05A (1 ×)
TXECB06A (1 ×)
TXECB06C (1 ×)
TXEC+
B05A (1 ×)
TXEC+
B06A (1 ×)
TXEC+
B06C (1 ×)
TXECLKB05A (1 ×)
TXECLKB06A (1 ×)
TXECLKB06C (1 ×)
TXECLK+
B05A (1 ×)
TXECLK+
B06A (1 ×)
TXECLK+
B06C (1 ×)
TXEDB05A (1 ×)
TXEDB06A (1 ×)
TXEDB06C (1 ×)
TXED+
B05A (1 ×)
TXED+
B06A (1 ×)
TXED+
B06C (1 ×)
TXEEB06A (1 ×)
TXEEB06C (1 ×)
TXEE+
B06A (1 ×)
TXEE+
B06C (1 ×)
TXOAB05A (1 ×)
TXOAB06A (1 ×)
TXOAB06C (2 ×)
TXOA+
B05A (1 ×)
TXOA+
B06A (1 ×)
TXOA+
B06C (2 ×)
TXOBB05A (1 ×)
TXOBB06A (1 ×)
TXOBB06C (2 ×)
TXOB+
B05A (1 ×)
TXOB+
B06A (1 ×)
TXOB+
B06C (2 ×)
TXOCB05A (1 ×)
TXOCB06A (1 ×)
TXOCB06C (2 ×)
TXOC+
B05A (1 ×)
TXOC+
B06A (1 ×)
TXOC+
B06C (2 ×)
TXOCLKB05A (1 ×)
TXOCLKB06A (1 ×)
TXOCLKB06C (2 ×)
TXOCLK+
B05A (1 ×)
TXOCLK+
B06A (1 ×)
TXOCLK+
B06C (2 ×)
TXODB05A (1 ×)
TXODB06A (1 ×)
TXODB06C (2 ×)
TXOD+
B05A (1 ×)
TXOD+
B06A (1 ×)
TXOD+
B06C (2 ×)
TXOEB06A (1 ×)
TXOEB06C (2 ×)
TXOE+
B06A (1 ×)
TXOE+
B06C (2 ×)
UART-SWITCH B04B (1 ×)
UART-SWITCH B04C (1 ×)
UART-SWITCHn B04C (2 ×)
USB20-1-DM
B08A (3 ×)
USB20-1-DP
B08A (3 ×)
USB20-2-DM
B08A (2 ×)
USB20-2-DP
B08A (2 ×)
USB20-OC1
B08A (3 ×)
USB20-OC2
B08A (3 ×)
USB-OC
B08A (2 ×)
V_LVC04
B03D (5 ×)
V1
B03A (3 ×)
VDD
B10A (2 ×)
VDDA
B10A (3 ×)
VDDA-ADC
B04P (2 ×)
VDDA-AUDIO B04L (2 ×)
VDDA-AUDIO B04P (2 ×)
VDDA-DAC
B04P (2 ×)
VDDA-LVDS
B04O (1 ×)
VDDA-LVDS
B04P (2 ×)
VDDE-2V5
B03H (7 ×)
VDDE-3V3
B03H (3 ×)
VDISP
B05A (1 ×)
VDISP
B06A (1 ×)
VDISP
B06B (1 ×)
VSS
B10A (3 ×)
VSSA
B10A (5 ×)
VSW
B02A (1 ×)
VSW
B02B (1 ×)
V-SYNC-VGA B04K (2 ×)
VTT-TERM-DDR B04G (2 ×)
WP-FLASH-ST B03D (1 ×)
WP-FLASH-ST B03E (2 ×)
WP-NANDFLASH-INV
XIO-ACK
B04F (1 ×)
XIO-ACK
B04Q (2 ×)
XIO-SEL-NAND B04F (1 ×)
XIO-SEL-NAND B04Q (2 ×)
Y_CVBS-MON-OUT
Y_CVBS-MON-OUT
Y_CVBS-MON-OUT-SC
Y_CVBS-MON-OUT-SC
B04Q (2 ×)
B04K (1 ×)
B07B (1 ×)
B07A (1 ×)
B07B (1 ×)
18680_546_090828.eps
090828
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 121
Layout Small Signal Board (Overview Top Side)
3G66
CH21
CH24
2E37
2TA9
2TAC
5TA2
3P0F
3T5F
3T5E
3T5D
1P6Z
2T5A
3T5A
3T5C
5T63
1P3S
1P3R
IP3T
2T64
7P70
3NA2
3NAE
2NAB
3NAD
2NAA
2U8D
3AA5
1AM0
9N17
9N18
9N16
1P36
1X06
2NAG
2NAF
2NAE
3NB4
9NA4
2NAH
9NA6
9NA5
3AA6
1X07
9N13
9N15
3A34
3A18
3A33
2AEA
3A53
3AAB
1N00
3NB5
5U05
2U8C
2AEM
2AEU
3AAL
7NA2
9N14
7AA1
9P63
1P32
9P64
1P33
3NB3
3AA9
1N01
3NB2
3NA5
2NA5
2NA2
3NB1
3NAP
3NAU
3NAM
3NAR
3NAT
3NAV
9P61
3U34
3U1Y
3U33
3AA2
2U8V
1P34
9P62
2U8G
3AA1
9NA1
2U8U
2U8A
3U2G
3U3J
3NAN
6AC2
7A00
2U86
7U0H
7U0D
2U8E
IP5K
1AM2
2U8H
2U8R
2U8Q
3U3T
3NAQ
9AA1
3AAF
9AA0
3AAE
IA2C
9U85
1M96
3NAW
9A31
FAC1
9U86
3U2H
3NA4
9AM2
9AM1
CA00
5U08 5U04
3U1W
7U0Q
3AA7
3NAY
3AA8
9U82
5U09
3U3N
IP3L
6AC1
2U10
2U11
3U42
2U15
3AM7
3AAC
2U8K
2U51
3AM8
9NA3
IP4M
3U70
3AM4
7NA1
9A30
9A29
5U01
9U83
5U06
3P3P
3AAM
2U14
2U8M
3U56
7AM1
7AA2
2U0Y
5U03
3P3L
3AA4
INAZ
2U06
2U05
3P3N
3P3M
2P3M
1P35
1P3Q
1P45
2NAD
7P30
2NA1 2NA6
2NAC
1P6Y
2P7K
9NA2
1NA1
1X05
7T5A
3T5B
5NA2
1P6A
7P01
5NA1
9T77 5T61
2T5B
2T53
2T5C
9T63
2T93
2T69
5T54
2T91
9T61
9T64
2T68
3T36
3T37
3T35
9T58
2T62
3T38
2T72
9T56
2N20
9AM0
3U66
2U65
3P0E
3T66
3T65
5T52
9H01
3HA8
2T49
2N02
7N11
3P0G
1P07
2T48
2T67 9T53 2T61 9T54 2T71
5N02
5P07
6T57
6T56
9HA1
2P0G
3AAK
7U02 7U08
3U65
2E35
2TA6
1T70
3T67
2P0K
2TA4
2TAR
1T75
3HA4
2HA0
7HA1
7HA0
2E98
3E77
2E42
5HRC
3HRR
2HS3
3TB3
5TA1
2T59
9P00
1HP0
3EC0
3E26
1HA1
2TAB
2TA8
3TB4
3HA3
3HA0
2HA1
3HAC
2P0H
1M36
1E0Y
1E0Z
2HB1
3HBJ
2HBE
2HBF
2HTP
3HSJ
5HRG
2TAL
2HS8
IHR5
3HS2
2HSK
3HRV
1T55
1T04
1T06
2TAD
3TB7
2TAA
3H12
3H22
9H05
7H03
1000
1015
2HB8
2HB9
3HB4
2HB0
2HB2
2HB6
2HBJ
2HSE
3HRW
2HSC
2HSD
3HSV
2HS2
3HRP
2HS1
2HT8
3HS8
2HTU
3HSN
3HS0
3TB8
3TBM
1006
2TA7
9T55
7N12
5P04
2P00
2P08
2P0M
2U0J
2U09
2HS9
5HR2
1E14
2E36
2TA3
3TB9
3TBA
2N22
2U0Z
2U64
2U56
2U52
2U53
2P02
3U61
2U62
3U4A
7U06 7U05
3AA3
9U55
2U54
3TBH
3TBG
2NA8
5U02
3U67
1M95
2U57
2U55
2P0A
3U55
1X08
1T60
2AGU
2U69
3U57
9TA1
3E74
3E75
2HTL
2U0W
2U68
3U58
5U00
2U0F
3HS1
2HSM
3HRU
2TA5
5U52
1U01
2U23
7P00
IP0P
2P0W
2U0K
3U07
2HTV
3P0H
3U76
3U75
2U0R
2U26
3U3W
3U46
2U24
7U0M
3U1J
3U0A
3U0K
5HR5
9HS2
3HSW
1P01
3P0A
3U09
3HSM
2P0F
3U68
5P03
3P0B
2U25
2U8F
7U50
3U53
7U51
2U22
2U72
2P01
3E76
3E78
1007
1T65
3H25
3P06
2U08
IHRC
3HSF
9D0A
1D10
2P0N
3U69
2U67
3U08
IHPF
3HRZ
2HS4
7HG1
3HA1
1E11
1005
3HRS
9HS4
2P0V
3U51
3U50
3HS9
IHR4
2HSJ
5HA0
9E13
2E53
9E14
2E542E55
2E97 3EC1
3E81
3HSH
2TAP
IHR6
2HS7
2HKA
3D22
2D5B
2E58
1T71
2HSB
3HRT
2HGX
2D33
2D39
3D25
3D23
3D10
2D34
2D30
3D11
2D23
3D20
3D12
2D22
3U74
5HR0
5E01
9HS1
7H00
3HJ0
7D10
2D45
2D55
2D21
2U60
3U60
IHR0
2HTR
2HKC
3U62
3U3V
3HST
9HS3
6D01
7U0N
3U52
FH03
2E40
3E80
2E80
5HR3
9H08
2E45
2HRZ
CHY1
3U63
2U66
IHR3
2HS0
2HSF
2D5E
3U64
3HBC
2HBC
2HSA
2D5A
1003
2E56
5E00
3HB2
IHBU
2HBD
3P01 3P0L
2U63
2HBG
2HBK
2D51
2D48
3D44
3D16
1E31
1E00
2HB4
3HB1
2HBH
3D37
3D41
2D19
3EAZ
2HB5
IHBT 2HB7
7D13
3D45
3D39
9D10
3EAY
2EAK
2EAM
1023
1022
3HB0
2D5C
2D14
2D12
3D43
3D40
3D15
2D11
5D15
2D10
3D14
5D14
2D20
5D16
2D18
3ECE
2EAN
1009
3HB3
2HBB
2HU8
3D34
1004
2HBA
2HB3
2D26
7D16
1R09
1E0W
7H02
IH06
2HSP
2D56
1001
1E12
3HB8
IHRF
5D10
5D11
CH20
CH22
CH25
CH26
CH29
CH27
CH28
CH30
CH33
CH31
CH32
CH37
CH34
CH36
CH38
3H54
2H10
5HM1
3HQ1
1X03
3HKM
2D44
1E01
1028
3H53
3H07
3H08
3H56
3H06
2HMH
9CG2
6HF0
1E15
1010
1025
7HV0
3H01
1R07
CG01
CG02
9H09
9H10
CH39
CH42
CH43
7HV2
1H10
IC57
2D47
1E02
3HV5
2HVF
1002
1E18
1E13
1027
3HRY
2D17 2D16
5D13
5D12
3D38
3D36
2D29
2D38
1E26
1E03
9P01
1G01 1G02
1D11 1D12
2D41
2D28
1011
1E19
7HG0
2D27
1E22
1024
3HQ5
2G74
3E09
2E09
2E20 3E23
1E0V
2E57
7H07
3H29
1HE0
1E23
2HVC
3HQ0
9CG1 9CG4 9CG3
9CG6
2HHQ
7CD0
9CG5
9CG0
3CG2
3CG1
3CG3
5CG0
2CG0
3HV6
3HVA
6HD2
7H01
9G13
7HF2
9G14
3HF9
3G97
2D40
1E08
3H41
3HHQ
9G15
1E25
1E27
1E24
3HVB
3HV9
3G00
3G01
3G02
3G03
3G04
3G05
9CG8
2CFB
3HV8
2HHT
9CG7
3CGE
9GA7
9GA8
9GA6
1GC0
9EA7
3H43
3G95
C051
3U54
9EA8
9EA9
2G73
1X09
2U50
7H06
3H0C
2GF8
9H07
3CGC
9GA9
3G52
3H0B
1HV1
3CGI
9CG9
3G53
7CG1
7HV1
3CGF
2G52
2G53
2GG2
3CGJ
3HV7
2CGA
3CGA
3CG0
1M99
2GG8
2GH6
2GH9
3CGH
7CG0
2G7B
5GE6
2GG5
2GH7
2GE5
2GH8
2GF6
2GF9
3CGB
9CGB
9CGG
3CGG
3CG9 3CG8 3CG7 3CG6 3CG5
9CGA
2GE6
2GG7
2GG6
9CGH
2GG9
2GG4
3CG4
3CGD
5CG2
2CG5
9CGC
2GF7
5GE4
2CG6
2CG7
5GE3
2GG0
2GK1
2G00
2GK2
2GF0
5GE0
2GH4
2GH2
5GE1
2GG3
2G02
2G01
2GF4
2GE4
2G03
5CG1
9EAA
5E03
3C30
2G04
1029
2E03
9C10
1X12
1R12
1R08
2GJ6
2GH3
3C33
2ECD
9C04
2GJ5
1E0S
2GJ7
1E0R
1E0T
3C35
1008
3G92
2G67
2GH0
2G68
3C32
5GE2
1E0Q
3GB8
3C34
3GA3
3GA0
1E51 1E50
2GK4
1E06
3G61
9GE8
2G79
3GB9
7G65
3G55
3GC5
2GG1
2GJ4
3GH0
6GE0
2G06
2G05
7G61
2GJ2
3C31
2GL1
2GH1
2GE3
2GJ3
2G08
2G07
1X02
9G48
CH35
2G57
5GE5
2G09
9G60
7GE3
6G50
6GE3
2G10
6GE1
3GH2
2G12
2G11
2G55
9G59
3GF0
2G54
2G13
2GF2
2GF1
2GK5
2GE0
2GJ1
9GA0
3G63
2GE2
7GE0
5G55
5G56
9GA1
3G56
9GA2
6G51
9GA3
2GF5
IGHH
3GG6
2G76
2CFH
3CD8
7G52
9GA4
2GF3
2GE1
1GE0
2GK6
2G14
3GG9
2GE9
2GE7
2G16
3G57
3G58
3GG7
2G18
2G17
2G15
9GA5
9G56
2G75
1G50
7G54
2GE8
9G61
9C1E
9C1D
IGBC
2G19
3GC8
7G53
2G20
2GH5
1X01
2G21
3GA6
2G22
9C1B
7G58
CGC4
2G23
3NB6
18490_550_090721.eps
090721
31391236423.2
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 122
Layout Small Signal Board (Overview Bottom Side)
2GL3
2GL2
1GE1
3GE4
3GF1
2GK0
CG71
FG17
FG16
IHV3
2HF6
2CFR
7HM4
2HF5
2HF7
3HJ4
2HHA
2HG5
2HG0
2HG7
2HG2
2HGB
2HGA
2HG6
2HH0
3HHG
3HHJ
3HHB
3HHS
3HJB
3G60
2G60
3G67
IGB5
7G55
IG95
ICA3
FG5B
3HJD
ID24
2D54
7D15
FD29
FD30
ID42
FD28
FD25
ID52
ID51
FD19
ID11
ID12
IH09
ID22
ID26
ID31
ID10
ID14
ID15
FD21
ID21
FD16
2U16
2U17
5P01
IP0G
IU34
IP0K
2U0N
2AAT
FA55
3U1K
7U03
3U02
IU3S
IU04
3U13
3U0Z
3U0Y
7U07
3U1D
IU15
IU3F
3U41
FU01
IU1P
3U43
FU21
FU16
5U51
6U0B
2U27
2U82
2U80
9U84
FU14
3U29
7U0G
3U2J
3U2E
3U3P
1U02
3U2B
3U49
IU2R
3U3C
3U3B
3U48
7U0R
2U29
2U2B
3U44
3U20
IU2Z
IU2C
2U8T
IU20
3U2D
FU8A
3U2C
IU22
3U23
3U3M
IU2A
IU29
2U89
2U8S
FU80
3U21
FU13
FU19
IU85
IU2E
3U2N
IU2P
2U84
FU89
3U2W
2AAU
7U0L
IU26
FU82
2U8N
2U83
3U2V
FU81
IU84
IU8A
FU84
3U39
IU2F
7U0I
3U3G
FU05
FU8B
IU8B
IU2D
IU23
2U81
IU2Y
3U30
IU89
FU17
FU27
IU2T
3U22
3U3F
2AA0
IAE5
FU18
IU3B
9U81
3U28
IU83
IU2V
IU21
3U2F
3U3E
3U3D
FU15
2U2A
3U2A
IU8D
IU2G
3U32
3U27
9U87
2AAL
6U07
FU83
6U0C
IU39
9U99
2AFD
3U3Q
IU24
IU2M
FU85
7U0P
IU36
6U05
2U88
3AAQ
IU87
3U25
3U2Z
2AFB
FA53
3A56
INAF
IU8C
7U0E
3AAG
9AA2
2AGN
2AAP
2AA1
7A50
IA50
IA28
2AAR
IU38
3U40
3U47
3U3Z
3U31
3A57
INAM
2AAS
IU37
2U28
IU25
FU8C
3U2U
FA57
3A10
FA56
IU1B
2U0H
3U03
IU01
IU2J
IU28
IU81
2U8Y
2AF0
FA52
IA26
IA23
INAK
2AGA
5AE0
IA27
3A55
2A24
2A25
FAMB
3N13
2U8L
IU8E
IU82
2U8Z
2AFC
2AEC
3A52
IN2J
FAMA
IN2H
3A49
3A24
2AAM
2U8P
2AG9
2AF8
2AFL
IN2G
3U1Z
FU88
IU86
2AAN
FU1G
2U87
2AB4
FA51
IA25
3U1M
FU1A
2U03
IU2H
FU87
3A19
2AGB
3A44
FAM9
6U06
2U8W
2AFK
3A45
FAM8
IN2K
FU23
3U0J
3U04
2U12
IU08
IU88
3U3H
FU86
IA11
IN2L
3A16
6U08
3A31 3A32
3A51 FA54
IA53 9A51
3A25
IN11
FAME
2AB5
3A29 3A30
3A50
IA2A
IAA4
2AB6
2AFF
2AGP
2AB7
3U2Y
2AE8
FU20
IU0R
3U0F
3U3Y
2U85
3U3A
FAM1
3AM1
FA50
3U2R
3AM3
2AAV
3A02
2AER
3A46
3A20
3N15
7AM0
IAM3
3AM0
6U09
3U24
2AM2
3A48
3A23
IAA5
3A12
3A11
2AM4
FAM6
FAM7
IM2Q
IN2M
2AAW
3A35
2AE7
2AE9
FAM0
2AEB
IAM2
IAEA
2AE5
2AM0
2AM1
FAM5
2AE2
2AE6
IAE1
2AEL
IA2B
FU22
FU1C
2U13
3U0G
3U3K
2AFR
3U71
3U1S
9U02
FU1D
2U0B
IU19
FU08
3U2K
2AFQ
2AEP
3U72
FU0E
2U8B
2AEN
3U0P
IU0H
2U0D
IU14
3U1H
IAE2
3A01
2AM3
5AE8
FAM4
IU3H
9000
3U1N
3U77
3U0V
IU12
7U00
IU3U
FU1B
2U70
2U71
IU0N
3U0T
IU09
FU29
3U45
2AFP
FU07
3U0N
IU11
3U0W
IU02
3AAH
2AFN
2AEK
FU28
3U1G
2AF4
3A54
3AC9
FU04
3U1T
3U3L
IAE6
2AEJ
FU10
3U14
3U15
IU1N
IU0G
2U0G
3U73
2AB3
5AE2
FU11
2U04
3U06
7U71
IU1K
3U10
3U11
3U05
IU0F
IU0P
7U0A
IU1M
3U1R
9U03
2U0E
3U4B
3U1P
3U0R
IU0M
FU12
FU0C
IU06
IAE8
3AAA
IU0W
3U0S
2AA9
IU3V
3U0H
6U02
2AAK
3U1A
3U1B
7U04
IU0E
3U16
2AA3
FA10
IU1E
3U1V
7U09
3U0C
IU0S
IU0U
IU80
3U12
3U19
IU16
2U0C
3U0M
IU0K
IU3T
IU0A
7U01
FU03
3U18
IU0V
3U0U
7U72
3A14
9A21 3A262A21
IU3R
IU05
2U02
IU1H
IU0C
IU0T
3U01
2U0M
2AAE
2AGC
2AGD
5AE9
3U17
2ABC
2AAF
3U1U
FU00
2A18
2AAG
2AGT
2AB9
3U0B
9U01
2P0L
3N23
7A10
2A20
3A28 2A23
3A27
1A10
2A22
5AA0
3AAR
IAA3
3ACA
FAM3
INAG
2AAH
2AFT
FAA2
3U0E
IU10
2U00
2AAJ
2AFS
2ABA
FP4Q
IAM1
FD10
IU1T
IU07
3U00
FU09
FAA3
2AB0
2AFY
3A43
IU3G
IU35
6U04 6U03
IU0Z
FU0A
2AB1
2AG4
FAC0
3A22
3A47
7N09
FU0B
2AAA
2AAB
6U00
IU1S
IU0Y
IU13
3AM2
2N15
IA10
3AAS
3U1F
3U1E
IU1R
3U0D
3AAD
INAN
5N04
2AB2
3A15
IA29
3A13 3A17
2AFW
FP46
FP4P
7A12
FU0D
FU06
IA22
2AA2
2AEH
2AG6
1P4R
1P4S
1P3V
IU3D
IU0D
IAA1
3P4M
IA21
IAE4
2AAZ
IU0B
2U01
IU00
2U0A
5AE5
2ABB
1P4U
FP34
2N04
2U0S
3U1C
FU02
IAE9
2AET
2AEE
3P4L
IA16
IA24
2AFH
2AG5
FAMJ
FP4M
FP4C
9N02
2P0Q
IP0B
2AGG
FA11
3A36
2AG8
IP4P
3P4T
3P4U
2AGH
3AAT
IAC5
FP4L
3N12
IN03
2P04
3N21
2N21
3AC7
2NA3
IAA2
2AF5
3N17
IP01
2AC0
2AFE
2AG7
3P4P
2AFG
6P66
3P6D
IAC4
3AC2
3AC5
3A21
3P4R
FP4N
5AE7
IA20
IAA0
3AC3
3AC4
3A4A
3P4Q
FP35
3N16
3P00
6U01
IU03
IA19
5A10
IA17
IAC2
IAC3
3AC1
INAP
IP33
7P4P
3AC0
3AC6
3NAJ
IAE3
3ACB
3AC8
3NAL
5AE4
IAC7
IN29
3N27
IP0A
9A22
FNAE
2NA9
3NAH
INAQ
3NAK
3NAC
3NA9
3NA7
3NAB
3NA8
2P4M
9P4N
3NAA
7P38
7P31
3P3C
3P3A
3P3B
FP31
1P3W
1P3Z
1P3Y
2NA4
3P4W
9P4L
3P4N
3A03
2AED
7P32
FP32
FP33
3A04
2AFJ
3N28
IM2P
FNA8
IP3G
3ACD
2AEF
2P3A
FP4T
1P4T
3P34
IP3A
3NA3
3ACC
3P4S
2P4P
3P4Z
FP4B
9P30
2N05
3N25
INAR
2NA7
INAT
FP41
FP42
9P31
3P3E
6P63
3P6A
FP4S
3P3D
IP3B
FP30
5N01
IP04
IN20
2AB8
FP47
2N16
2N01
INAU
3NA6
INAW
2AEG
FP48
IN2A
1P4V
1P4W
1P4Z
1P4Y
3P3G
3P3F
FP4A
3P4B
2P38
2P37
5P4L
2AEZ
FP49
IN28
9P42
3P41
IP3F
IP3E
3P35
6P41
3P4C
3P48
3P45
6P65
3N11
3P6C
7N10
3N18
3N10
2P45
IP3H
IP4D
IP3J
5P32
5P41
IN2B
IN2C
IP49
3P36
IP4C
6P30
3P44 3P43
3N19
3N24
9N01
IN2E
FP3K
3P33
7P44
2P46
9P43
3P47
3P46 3P40
IP4H
IN18
FP0B
FN05
IN2F
IN27
6P4L
7P41
3N09
IP4B
IN10
IN2D
2P4L
IP3K
IP4L
2P4C
3N20
7N14
3P77
2P73
INAV
FNAF
IP4Q
IP00
IP0N
2U0P
2A19
INAY
2P7D
2P77
FD15
FD13
IU1F
FD12
2P0U
IA18
3P4A
3N14
IN22
FNAB
IP42
FD17
7U70
IU3P
IU3C
FNAA
FNAD
IU3E
FU1F
2P09 2P07
2P7J 3P75
IP7D
9P71
6P70
3P73
2P7L
3P7A
IU3K
IU3M
IU1D
FNAC
2P0R
IP7B
2P3K
IP7C
6P64
5P76
FP72
IP05
IP0H
IM2N
IP7E
2P74 2P79
2P7B
IP7A
IP70
FP71
IP0E
FNA9
IU1G
2P05
IP0J
2P75
FNA7
INAS
FP73
2P7H
6P3M
FP63
FP70
2P78
3P78
9P70
2P7F
2P7G
2P7E
3P76
2P72 2P71
3P79
IN24
2P7A
2P76
5P75
2P70
2P7C
2P68
3P66
IP3Q
3N26
2P0B
IP0D
IP0M
7N13
3P67
2P69
6P62
6P61
FNA6
5P74
2P66
IP3D
IN26
5N03
FNA5
3P65
7T5B
2P61
3P68
3P71
9P3L
IP64
7P4Q
9P4K
IP3M
2P3L
IP5Z
3P6F
9P4J
IP67
IP32
FNA4
9P4P
3P6G
IP4Y
9P65
IP5R
3P3V
7P4R
7P36
3P3W
1P3T
3P3S
IP3N
FT5C
2P03
IP07
2P06
2N03
FP3W
FP0V
3P3Y
IP4U
IP0F
2P0E
FP00
5P02
2T5D
IP08
FP62
9P4M
3P6E
2P0D
2U8J
3P04 3P05
IP0C
IN25
IT89
FP61
3P3U
9P02
3P02
2U07 2U0V
2U0U 2U0T
IT01
3P0C
2P0P
IT06
3U26
IT09
5P00
IT12
3P03
IT13
3P08
IT14
2P0T
IT7B
IU3N
3P0D
FT5B
2P0C
3P07
U1
IP09
IT7A
FT58
AT62
IT5A
FP3R
FD22
2D24
FD24
ID47
ID32
IHAU
IHC6
FP3T
FD26
7D12
3D35
ID17
2D5F
3D18
ID45
7D11
2D32
3D21
7HG2
ID40
3D28
ID20
2D25
ID19
ID53
2HHD
IHY3
ID27
2N23
3P3T
2D53
3D24
2D36
3HJG
3HJJ
3HJE
3HHL
2HGN
2HH2
IH11
2HZQ
9H02
ID25
2HGM
IHAR
IHAS
FD11
ID36
ID46
2HGV
2HGU
2HGR
3HHU
ID44
ID30
ID23
2HHC
2HHR
3HHW
3HHK
2D31
FD14
3HP8
9HK0
3D19
2HHS
2HGK
FP3V
5P3K
3D42
3HJ6 2HHJ
3HJF
3HJ9
2HHH
3HJP
2HH3
2HGP
2HGS
3HKN
2HGW
2D50
2D35
3HHF
3HHH
3HHR
3HHM
3HHC
3HHT
2HGT
2HGJ
3HHD
3HHZ
5HYA
9HY2
3HWW
9HYA
3HWP
3HWN
9HY9
3HWV
9HY3
3HWZ
9HY0
2HGH
3HHY
IHF8
3HWR
9HY7
2HGY
3HHE
3HHN
3HKV
3HWM
9HY8
2HGZ
2HHP
5HG1
9HY1
3HWY
9HE4
3HWS
9HY6
9HY5
3HWT
9HE6
9HE7
3HEU
2HHE
IHG6
2HH1
3HKT
IHYD
3HHV
9HF3
ID50
ID39
3D33
3HGP
3HGV
3HGZ
3HGY
3HH4
3HH7
3HH6
3HKS
3HHP
2HHN
9HF4
2HH6
IHYB
2HY8
ID49
2D46
2HHF
3HG9
3HG5
2HY9
3HWU
9HY4
2D49
3D29
3D27
ID35
FD27
IP06
3P6B
2G63
9GAA
2G7D
3HGU
3HGR
3HH3
3HGW
2HG1
2HG8
3HKR
3HH1
FH07
2HZC
2D43
2D52
IHYC
IHAT
ID43
ID38
2D42
ID34
ID16
3HGB
3HG2
2HYP
2HYM
ID33
2HHG
3HJH
3HJ7
IHF7
3HEE
FG5A
ID29
IP0L
3P3Z
FD23
ID28
ID41
3HJM
3HJN
3HGJ
3HGD
2HYY
2HYU
5CD1
3HFR
3HC9
2HG9
3HJR
2HZY
ITAB
9P3K
3G76
IHFB
3HH5
3HPK
2HYH
2HH9
2HH8
3HG3
3HGE
3HG1
5HY9
3HJZ
2HH4
2HZA
3HJ2 3HJ1
2HZ0
3HG4
3HGF
5HY5
3HES
3HE5
ID13
ID48
3HJC
3HG7
3HBK
IHK3
5HK1
5HK3
2HK7
FHG0
FD20
AT63
IP3P
3G86
3G90
3G88
3G93
2CG2
3CD3
3CD1
ICDD
2HM4
IHN0
3HML
7HM3
3HMA
IHM1
9HM2
3HMU
3HMC
3HMB
IHV5
IHNH
3HFK
3HPM
3HPJ
3HPH
IHF6
9HWU
5HY8
2HZU
2HZJ
2HZB
2HY4
5HY0
3HJU
2HH5
3HGC
2HH7
3HK0
IHK1
3HJK
3HJS
3HJV
5HG0
3HED
3HJ8
3HGH
2HYE
2HYN
IH28
5HK4
3HH8
9HWZ
2HZN
3HP9
2HYK
2HYS
2HY7
5HY3
2HY5
5HY6
5HY2
2HYB
3HJT
IH10
IHSB
FG5C
2HG3
2HUK
FHR6
IGB8
2HGF
IHM6
2HHK
3HGG
2HYT
IHK4
9HE5
3HWK
IHW0
IHM9
3HGN
2HK8
IHSE
5HRA
5HR7
3HT9
2HGE
3HGK
2HYF
FHE2
FHE1
IHSG
IGB7
3HGS
3HHA
FHC9
ID18
2HYZ
FHR4
3HS6
FHR5
2HTF
IG70
IG67
3HJA
FHE3
IHR8
IT81
FP3S
3G91
2G65
9GAC
3G99
2CG3
2HVG
3HV3
6H00
6H03
9HWA
9HW3
9HWB
9HW7
9HWD
9HWC
9HWS
9HWH
2HYW
2HQ8
5HY4
2HY6
2HYR
2HY2
2HTH
FHR3
2HA2
3HSA
2HTC
2HTG
2HTD
3HSB
2HUB
3HSD
2G7A
2HGG
3HJ3
2D37
7HD0
9HWL
3HQ8
9HWE
9HWT
5HBZ
2HQ7
2HQ6
2HBM
2HZV
2HZ8
2HYA
2HA5
2HSW
2HT5
2HT0
2HSZ
3HBN
3HBM
2HA4
2HTB
2HSN
IHSP
FH06
3HH9
3HGA
IHK2
3HS5
2HG4
2HGD
3HGT
3HH2
IP02
FP0A
FP3U
3G77
9GAB
2G64
3G79
2G66
9GAD
3G96
FG04
2CG4
IHVH
9HW1
9HW2
2HMY
2HMW
2HBW
2HBN
2HBU
2HBV
2H02
2H04
3H42
3H46
2HST
2HSV
2HTK
2HUP
2HUN
2HSQ
2HU4
3HU5
2HTZ
3HSU
2HU0
3HSR
IHS5
3HU3
IHS6
5HK0
2HK1
IHKM
9HW0
2HGC
3HG6
3HG8
2HK6
5HK2
IHC2
7HC4
2HHM
2HYC
2G7C
3HJW
5HR6
IHSN
2HC0
3HC2
2HYG
3HGM
2HYV
3HF1
ICDA
2HF8
IHC1
3HJ5
IHY8
5HY1
IHBM
IC56
FC48
IC07
3HF0
FHC7
2HZ1
2HK2
2HK4
3HF4
3HJY
2HZP
IHSA
5HRL
3HU6
2HY0
2HT1
FHC1
3HPF
2HZT
IHY7
2HZF
3HFN
7HC3
3HPE
3HPG
9HF8
IHG0
2HZE
FC47
FC41
IC43
3HH0
2HF2
2HZD
IC02
IC04
3HFH
FHC2
2HZS
2HYD
ICDF
3HMY
IHF0
2HZR
2HZG
FCD3
IHC7
3HPD
2HKL
FHR2
2TAF
2HY3
IHY4
3HS7
5HR9
3HT4
2HY1
2HU5
IT07
1TA1
3G98
IGBA
2HP1
ICG1
3HPZ
3HPY
3HPC
3HPX
3H78
2HQT
2HZH
3H36
2H00
IH9F
3HU4
ITA2
IHWB
IHYF
2HT4
7TA2
IHS3
IHS2
3HT3
ITA8
IHY5
IHSM
IHSC
2HU1
FHR1
IHST
5HU1
IT79
IHSD
IHSK
2HA3
3HU0
IHSS
FT36
FTA7
3TB1
3TB0
2TAK
5HU0
2HU6
2TAM
3H60
2HUC
3TA2
3TA5
3T27
9T65 3T32
9T60 3T33
9T62
9T59
2TA2
2HT3
2HU2
IT91
ITAD
2HZ9
2HSY
2HT7
IHRE
ITA6
3G78
FG15
9GE5 9GE6 9GE7
7GE1
3GH3
2GK3
3GH4
IGF5
3GG2
2E63
2E9A
3H31
3H30
3H28
3H27
3H26
3H24
3HME
1H00
9H03
FHR7
FHRB
2HBP
3H02
2HQ4
3H03
3H64
9H04
2T26
3T14
7T18
2T15
2HSS
3HU1
IHS4
IHR1
FTA3
2TAE
3T41
3TB2
3T26
ITA5
IHY2
2HMG
IHF5
3HF3
IHYA
3T25
1T85
7TA4
FTA4
2TAN
9HWY
2HYJ
IC44
FHC6
9HWJ
IHY0
IHY1
3CD2
3CD7
3HMW
7HF1
9HWW
9HW8
2CFT
9HWN
9HWK
9HWV
3CD6
FCD2
IC01
3HFM
9HWM
9HW5
3HQN
IHY6
2HSR
9HWP
5HM0
IHNF
9HM1
ICG4
2CEN
IC03
IHFA
IHQW
5HY7
ITA9
IT21
FP07
3T56
3T28
IT28
7T20
5HU2
2TAG
6TA1
IHBF
2HZ2
IHRA
FTA1
2HM3
9HW4
9HW9
2HZ4
3HMZ
IHNG
3HF2
3HFY
FTA8
7TA3
IHWA
IHNJ
IHM2
7HM2
IHN8
IHQD
2HQS
2HZ7
IHSH
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2TAJ
9HWF
IHMG
3HMV
3HMD
2HM5
IHNK
9HWR
FH02
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IH9P
2HU3
ITA3
FHV3
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3TBB
IHVC
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2HVH
9HWG
IH9Q
3TBD
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ITA7
IHBG
2HZ3
3H51
3HS4
IHM3
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IHNB
5HQ2
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FH01
FTA5
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IHV2
2HVE
9H06
3TBC
IT90
3T55
IHVD
2HVD
3HMM
2HQ5
IH07
FH00
IHSL
ITA4
3T57
ICA1
2HM8
IHVF
2HMN
IHNA
2HT6
3TB5
9T70
ITAA
FP08
2T82
2T81
3T54
3T42
2T80
3T39
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FP09
IT31
3H05
3HS3
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7TA1
9T78 9T79
2T87
2T44
3T86
IT93
FT41
IH03
3H48
IH9N
3TBK
IT82
3T58
3T59
IT32
IT23
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3H04
2H06
3HSE
3TB6
IT45
3H32
IT17
2T16
2T35
2T07
2T14
IHBK
2H07
2HU7
2T20
3T29
3T18
IT43
3T79
3T78
AT65
2T45
3T87
AT64
IT74
2E61
6E50
3H23
3H21
3H20
3H19
2HQB
2H01
AH00
IH9R
IH9M
FT40
2TA1
IT42
2T12
2HBY
FHR9
3HTE
2T08
2T24
FT57
IT76
FT50
3HTD
ICA0
3CD0
IHMZ
IHQC
9H0A
3H52
2HUD
FHRC
FHM2
3H38
9H0B
FHR8
3HTC
3HTB
3T10
9TA3
3T11
2T21
3T09
2T18 3T08
3T21
IT15
IT02
3T40
3T24
2T13
9T01
2T28
IT83
3T01
2T29
9T02
2T88 3T02
IT33
FT51
7T57
IT96
5T53
IT26
2T85
2T92
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2T65
9T66
2T60
9T68
2T51
2T63
9T67
2T74
9T69
2T73
2T03
IT25
FT76
ITAG
7T17
9TA2
IT86
IT77
3HTA
3T06
2T19
FCA2
IHV8
IHND
3H0A
3HTF
3T05
FTA2
3T19
IT22
3T07
3T30
IT08
ITAC
3T17
FT17
2T27
2T83 9T57
6E41
3T75
2T77
9T6A
2T75
9T6B
2T66
FHRA
3T22
FT37
9T03
7T25
IT24
IT70
IT75
FT38
2T86
FE21
3T31
IT11
ITAF
3T76 2T97
IT92
FE20
IT03
3T13
9T20
2T31
FT39
2T25
3T20
3T74
IT94
IT71
FT42
2T04
5T08
2T01
IT19
3T70
2T99
2T84
ITAE
2T46
2T79
2T47
6E20
FT15
7T56
3T85
3T71
2T98
3T64
2T96
2T05
2T32
IT20
FE56
9H0C
3H92
IHMW
7HC0
IHQY
3H00
2T36
IT27
FT11
2T09
3T16
3EAW
2T78
2E62
IE79
3E41
3H17
3H44
FHQE
7HQ0
IHF9
FT56
7HP5
FE66
FHC4
2HQA
IHQ3
3HC8
IHN3
2HTE
2EAA
7HC1
IHBH
IHBJ
ICDE
IHV7
IH0Z
2HMT
3H39
IHB1
IE29
9H0E
3H70
3EAP
3EAJ
3ECR
2HMJ
IHB0
IH02
IT41
7HVA
IHVB
IHV9
2HMZ
ICA2
2CG1
2G7F
IHG1
2HD0
3HV4
9H0D
IHBZ
FC16
ICG2
IHG5
6HC1
3HD3
2HN1
IHBV
5T09
FHD1
9H0F
IEBA
FE17
3GG0
3GH5
IE84
IE82
IEB9
7E03
2E05 9E06
2E52
3E04
3E39
FE67
3E48
3E53 IE33
2E28
3E50
3H13
3H10
FE50
FHC3
3EAH
IHN6
IEB0
IT78
FC46
FC1F
IH9K
7HM1
IHMY
3EAQ
9EA4
IEBC
IC08
ICDB
ICG5
FHV6
IH9H
2HMP
IH01
FHM1
IE05
2CG9
2CG8
FGE5
FGG1
FHPA
IHNE
IHBW
2EAF
9GE1
IHV1
IHBY
6E10
IEB1
3ECQ
9EA5
7EA3
2EAD 2EAC
9EA6
2EAB
5EA2
2EA7
3ECS
IEB5
3EAD
3ECT
3EAK
FE23
2EAE
3EAL
IEB4
IE72
3EAE
6E43
FE22
IEA8
FC45
ICG7
FC1A
FHM3
3E63 2E29
2E50 3E24
3EAF
2EA8
IEB2
3EAM
FE88
IE58
3EAG
IC06
ICG3
FC44
FHP4
IHVA
FHM0
2E72 3E97
3E98 2E93
IECB
3EAN
7H14
IH9E
6E06
FEA1
IC00
ICG8
IH26
FHP2
3HQG
FE25
ICG0
IC05
ICG6
ICG9
IGA4
IH14
IE31
IEC2
3E12 2E01
IE67
IEB3
3EB9
2E73
3EC3
3EAA
3EAC
FE76
FE60
2E87 3E37
3ECD
IH9T
IH08
IHMV
6E01
FC42
FG01
FC1B
FGE0
2HVK
3HQH
IE22
IE66
FE87
IH9D
FHP5
6E12
3E64 3E21
2E70 2E32
6E08
2E30 3E11 2E51
FE70
2E06 3E07
2E88
FC12
FG02
FGF2
FGF3
IGA3
IH16
3H37
6E03
FE86
IH04
7H16
FHC5
2HC1
3E27
FE89
6E44
FE62
FE61
2H03
7H93
IH17
3EA9
IEC3
IH18
IH9G
IE20
3E18
ICDC
IHVG
2HZZ
IH91
IH19
6H02
FE49
6E38
IEC1
IGB6
FC14
FCD1
FHD0
3EB0
FE10
IE00
3H87
2E16
3E02
2E92
FCA3
FC11
FC43
FG06
FG05
FGE4
FGE9
IHC5
2HT2
FE72
ICA4
FC13
FG07
FG03
9HF1
6E24
FE63
2G7E
IHV6
FE52
3HC7
2ECN
FE71
2E91
FE34
FEB7
FE90
3EA7
IEC0
6E09
FE11
2ECM
FE18
IE23
FGG3
FHV4
FE64
FE68
FG55
FG56
IG94
3G94
IGH9
FHV5
7HC2
3ECF
2ECP
3ECY
2E04
3E22 3E19
FE12
3E57
3ECV
3ECW
FE91
FEA0
IEBD
FEA9
3ECU
2EA4
FEB4
FEB5
FE42
3EAS
3H86
FE73
FEB1
IG78
7G57
FG08
7GE2
FGG4
IGE8
IHD0
IEC5
2E82
6E14 3E14
IE21
3E34
6E07 2E31
2E90 3E15 3E30
2E10
FE75
2EAL
FEB6
FEB0
9EA1
7E01
3E31 2E18
3E32
FEA8
7G59
FC10
2E15
FE74
IG71
IG65
FG10
IGHA
IGHB
9HF2
2E64
3E42
9E03
6E22
IE18
FG11
FGE1
FH04
2E17
FG54
FG51
FGE8
FE53
3E28
6E23
FE33
3EAR
FE39
6E53
FG12
3G72
IG93
FG52
IGH7
FHP3
FE65
IG75
FG53
FHPB
FE43
2E68
2E1B
FC1C
FG14
IGHG
9GE4
IG97
IG77
FG09
IGA2
9C1F
IG53
IGA9
FE47
FE44
3E51
2E1A
FGG0
9C1C
ICD1
IG73
FG50
FG00
FG13
IE57
IE34
FE40
6E34
2EA5
6E21
3EBB
6GE7
6GE6
9C1A
FG18
IGE9
FC17
IG92
FG25
FG19
FGE3
3GG1
IGH8
IE85
2EAR
FE46
IE88
IE76
2HZW
9E1A
3ECH
IE87
FE45
FE48
3E36
6E02
FEA7
FE99
FE38
3E60
IE35
IEC8
2E14
3E17
2E33
3E16
9EA2
2E95
7GE5
2E60
IE86
FE92
2E49
3E25
6E48
FE41
IE26
6EA1
9E1B
6E26
FE80
3ECG
2ECC
FEA5
IE25
7E10
IE62
2E19
9E00
3EBC
3E38
3E44
2E1C
FEA6
2E39
3E79
IE06
IE51
5E12
2E1D
2ECB
IE68
3E56
3E58
2E71
3E96
3E95
FE24
6E45
FE69
IE03
3E55
9EAB
IE48
5E11
IE73
6E35
3E69
2E13
7E14 3E73
3E68
2E02 7E09
2E24
9E16
9E15
FEA2
9E02
3E61
2E12
3E43
IE09
6E46
FE57
6E36
FE81
FE95
IE80
7E17
FE93
2E21
FE82
6E29
6EA0
3EBD
FE96
IE75
IE24
2E34
FE35
FE31
3E82
IE15
6E47
9E1C
3H16
9EA3
IECA
2E1F
6E28
FE14
2E1E
IE81
IE01
IE02
3E08
2E22
FE51
2E44
FE30
FC1D
6E52
6E31
FE77
FE79
FE78
IE91
3E54
5E13
3E59
IE92
FE83
FE36
9E1D
3EB6
2E74
FE84
IEB8
3EBA
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FE94
3H15
6E32
2ECL
2ECH
2ECG
FE27
3H14
7E05
3ECM
3ECP
3ECN
3GE5
IGB9
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3E92
FE85
2ECK
IG72
FG22
FG21
IGHC
3E52
9E10
2ECF
3E93
FG26
FG23
FGE2
3G70
FE59
FC1E
3EB8
3EB7
3E45
6E30
IGBB
IE94
IEC7
IEC9
3GE0
IGB1
FE37
FEA3
FG59
IGHD
3GE1
IE04
6E37
IEA4
3EA8
3ECL
FE28
FEB3
FEA4
2ECE
2E41
3EC5
7E04
7E15
FEB2
3E85
IEA2
FG24
IGE2
IG89
9GE0
FG20
2G58
3G65
3EC4
2E67
2EA2
IEA7
IE98
2G59
IGHE
2GJ0
3G62
7G56
3E62
7EA1
IEBB
3ECK
IGE0
IGB4
3G73
FE97
2EA3
IEA6
2EA6
2E75
2E76
3E99
3EAV
2EAQ
FE98
FE29
IG79
3EAB
3EC7
3ECC
7E02
IE38
5EA1
IEA3
3EC6
IG90
IGB2
IGA7
2EA9
3EAT
3ECB
IGB3
3G69
IEA1
FE32
3ECA
3GA4
IEA5
3EC2
2E96
2E23 2E08
3E33
3E20
3E40
3E13
2E07
3EB5
9E21
IE96
3EA1
IEC4
2EA1
IE70
3EA6
IE61
IE60
2E78
7E06
3EA5
3EA2
IE07
7E16
IE89
3EB2
3EC8
2EAP
3EB3
3EB1
2E81
2E77
5E02
3EA3
3GE3
IGA8
IE90
3EA4
9N11 9N10 9N12
IAC6
FAM2
2A50
2AA8
FAA1
3AAN
2AA6
2AA7
3AAP
FAA0
18490_551_090721.eps
090721
31391236423.2
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 123
7001
2010
2003
2018
100u 25V
2001
10u
22u
10u
2002
5001
2006
2009
5004
2001
3006
A
I100
6001
2012
A
+12V
2017
2007
2002
3009 3010
4005
4001
5003
1099
2018
5001
1001
DC
3011
7002
DC
3012
6002
DC/DC CONVERTER
2013
3007 2004
3004 3002
4
5002
3
I117 C4
I118 B1
3005
I111 B3
I112 B4
I113 B4
I114 B4
I115 B4
I116 B4
I105 B2
I106 B2
I107 B2
I108 B1
I109 C1
I110 C2
3001
2005
2
F105 C3
I100 A2
I101 B1
I102 B1
I103 B2
I104 B2
2016
3008
3003
7002 C2
F100 D1
F101 D1
F102 D1
F103 D1
F104 D2
2011
1
5003 B1
5004 B4
5005 B4
6001 B4
6002 C2
7001 B3
4002 D3
4003 C1
4004 C4
4005 B2
5001 A2
5002 B1
2014
Layout DC / DC Converter Panel
3006 C4
3007 C1
3008 C4
3009 C2
3010 D2
4001 B2
2018 A2
3001 B4
3002 B1
3003 C4
3004 C1
3005 C1
5005
2012 B4
2013 C1
2014 C1
2015 C1
2016 C4
2017 D3
2005 B4
2006 B1
2007 B2
2009 B4
2010 C2
2011 B4
4002 2015
DC / DC Converter Panel
1001 D1
1099 C4
2001 A2
2002 A2
2003 B3
2004 B1
I112
I114
B
100u 25V
2012
2011
10u
100u 25V
3001
I115
I113
6K8
1n5
5n6
6K8
3008
C
I113
I101
1099
EMC HOLE
1K2
F104
3012
100p
10K
4002
I102
2016
3006
2010
4u7
3010
22K
2005 1n0
5005
7002
BC847BW
2017
680R
6001 SS34
5004 33u
2009
I116
16
17
33n
3003
4
GND_HS
15
1n5
2006
I108
VIA1
VIA2
3K9
3005
5K6
ILIM2
SEQ
BP
13
12
6
8
2003
I110
I105
I110
I117
I118
I109
I114
I115
I106
F105
I107
I104
I103
1001
F104
I100
F103
2
3
4
5
6
7
I111
D
I112
I108
F102
BOOT2
SW2
EN2
FB2
I111
I117
4K7
F100 1
D
9
10
11
BOOT1
SW1
EN1
FB1
+3V3
Φ PVDD2
F105
+5V +3V3 +12V
F101
2
3
5
7
GND
3009
3011
I104
4005 I105
4001 I106
I107
600210R SS34
15K
2n2
3002
2015
10n
3007
I109
C
I103
33u
I118
100u 25V
2014
2004
10u
PVDD1
2007
33n
10R
1
5003
I101
3004
I102
5002
100u 25V
2013
B
14
7001
TPS54283PWP
+5V
F102
9
F101
8
I116
B7B-PH-SM4-TBT(LF)
F100
I_18030_051.eps
141009
3139 123 6389.1
1
F103
2
3
4
31391236389.1
2009-Dec-04
18680_552_090721.eps
090721
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 124
iBoard (Part 1)
1
2
3
4
2
1
3
5
4
6
5
7
6
8
9
8
7
10
11
10
9
11
12
IBOARD
5109
DDC_5V
HD_PR_IN
HD_Y_IN
HD_PB_IN
F118
5103
2150
1
LED1_OUT
T1
T2
R1
IN
R2
OUT
R1
R2
14
7
12
9
B
100R
NC
15
C
I119
3121
TXD00
RXD00
POR1
3
SDA3_IR_OUT
CVBSterr
2
E
RXD232
2108
100p
I177
3153
1100
MSJ-035-18A SR
6u8
2145
F132 2
3
NC
7
NC
8
1
I
5112
6u8
CHN
+5VA
DC398042
SETNAME
10K
3172
1u0
2113
47K
3113
3114
1 I174
1K0
I175
-- -- --
1
2009-04-24
2
2009-07-17
3
BDS MODULES
PCB SB IBoard EU iLC09
1
2009-07-17
1
2009-04-24
J
3139 283 3011
3
NAME Ronnie Tan
MULTI 12NC : 3129_283_3010
BD 12NC
: 3129_283_3011
1
2
3
3
4
4
5
5
7
6
6
DATE
8
7
2009-Dec-04
SUPERS.
CHECK
SV
2
G
I187
3PB310
2
BC857BW
7105
H
NC
5
NC 4
1n0
2134
HS
CLASS_NO
J
10K
5107
I168
F131
I188
F
10K
3168
2143
2
220u 16V
I166
21
11
4
PGND
SGND 1
2
10
2129
7108
BC847BW
100u 16V
47K I170
I164
220u 16V
SVRR
1
2
6
7
14
19
20
3167
2u2
2130
220u 16V
2131
16
15
2127
470p
47K
MODE
12
13
G
1 I191
12K
3171
10K
F133
3129
2126
10K
3
I172
10K
I186
5
3130
3127
+12V
I176
+12V
NC
4101
7120
BSH111
IN2-
OUT2A
OUT2B
17
I169
F135
F134
Φ OUT1A
POWER OUT1B
AMPLIFIER
IN1+
7119
3 BC847BW
PEND_IR
8
9
47K
F145
NC GND
4
100n
100n
2111
2136
I
CD
Reset pin
1
18
I167
RES 3128
OUTP
5
3174
TOP SIDE
3
2144
3126
INP
1u0
+5VD
I171
NCP303LSN45/SN30
2
I163
100p
10K
2125
EMC
I162
POWER ON RESET
2K2
7103
7109
TDA1517ATW
VP1 VP2
3123
I161
2112
2156
3111
RES
0R
3125
1u0
E
1104
250mA
1n0
PESDXS2UT
PESD15VS2UT
6103
PESDXS2UT
10K
1u0
MUTE
POR
H
1
D
F
+12V
I156
10u
BM03B-SRSS-TBT
2124
I155
2128
F130
2123
1u0
NOT CONNECTED ANYWHERE
1u0
2114
4
+5VSSB
3122
HP_AUDIO_OUT_L
F144
HP_AUDIO_OUT_R
1
2
3
5
LED1
I185
RES
3157 1K0
2122
1u0
1108
LED2
+5VA
H
3120
I118
NC
F141
3124
I150
IR_IN_TV
3158 1K0 I192
F142
F
OUT
TXD232
6102
2110 1u0
4110
I146
I147
I193
BM08B-SRSS-TBT
13
8
T1
IN
T2
14
F137
F138
F139
F140
F146
F147
I151
F129
F143
B
7
1u0
I183
2109
9
C2+
C2-
5450-V01-112-A2
I144
1u0
10n
TO SSB
G
2121 100n
PESD12VL2BT
1
1110
1
2
3
4
5
6
7
8
10
2120 100n
I194
6100
2155
1
2
3
4
5
6
7
8
9
10
4111
100K
4112
4102
I142
I116
2
D
PESD15VS2UT
E
RC_IR
LED2_OUT
6
RJ45
RES
TO IR LED PANEL
10
BM09B-SRSS-TBT
I140
I141
V+
6
+12VA
1 LIGHT_SENSOR
2
3
4
5
I184
6
7 KEYBOARD
I143
8
9
NC
11
VC1-
C
5
4
1109
VCC
100R
1107
3175
E
3119
7
100p
I182
3108
2K2
3106
5
SDA
I181
11
10
100R
A
RS232
I117
3118
7
C1+
A
220R
33p
6
SCL
ADR
TXD0
RXD0
2107
2K2
3105
33p
10K
10K
5106
2154
WC
3132
F125
7
8
4
3
7110-3
74LCX14T
Φ
3131
8
I180
+5VB
+3V3_STANDBY
F
G
3107
I179
9
220R
100n
(256x8)
EEPROM
0
1
2
2153
DDC_5V
2135
I123
7101
M24C02-WMN6
owner.
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
D
5105
5
100R
7110-2
74LCX14T
DDC_5V
1
2
3
2
2151
75R
33p
3104
2106
100n
2101
330p
5104
4
7110-4
14 74LCX14T
2152
F124
I115
100n
7
F123
SCL_VGA
3
2117
100n
F122
1
100n
7
+3V3_STANDBY
7110-1
74LCX14T
Φ
2116
14
75R
F121
33p
3103
2105
F119
7107
ST3232C
14
SDA_VGA
C
1
2
3
4
VGA_H 5
VGA_V 6
F120 8
F136
F117
1226-02B-15S-FAE-02
D
F110
F112
F114
16
I178
GND
5101
2149
I111
75R
BAS316
33p
3102
6101
2104
I110
3101
150R
10u
1102
5102
F111
F113
F115
2102
B
2119
6u8
SSB
16
1
9
2
10
3
11
4
12
5
13
6
14
7
15
8
17
B
C
13
+5VB
1101
330p
2103
A
A
VGA
12
2
2009-04-24
10
9
8
10
9
130
1
A3
ROYAL PHILIPS ELECTRONICS N.V. 2009
C
11
10
12
11
13
12
H
1100 F12
1101 A1
1102 A7
1104 E9
1107 D5
1108 E5
1109 D1
1110 E1
2101 B2
2102 B2
2103 B2
2104 A4
2105 B4
2106 B4
2107 C5
2108 C5
2109 F3
2110 E2
2111 G3
2112 F2
2113 H5
2114 F3
2116 A10
2117 B10
2119 A11
2120 A12
2121 B12
2122 E6
2123 F6
2124 E7
2125 F7
2126 F7
2127 E7
2128 F7
2129 G8
2130 E8
2131 E9
2134 G11
2135 C2
2136 G3
2143 F9
2144 F9
2145 G11
2149 A5
2150 B5
2151 B5
2152 B6
2153 C4
2154 C4
2155 D6
2156 F2
3101 A2
3102 A5
3103 B5
3104 B5
3105 C4
3106 C4
3107 C5
3108 C5
3111 F4
3113 H5
3114 H5
3118 B10
3119 B10
3120 B12
3121 C10
3122 E6
3123 F6
3124 E6
3125 E7
3126 F7
3127 G7
3128 G7
3129 F7
3130 G7
3131 C3
3132 C3
3153 G7
3157 F3
3158 E3
3167 F11
3168 F11
3171 G6
3172 H6
3174 G6
3175 D2
4101 G6
4102 E2
4110 E2
4111 D2
4112 D2
5101 A4
5102 A5
5103 B5
5104 B5
5105 C4
5106 C4
5107 F9
5109 A11
5112 G9
6100 D9
6101 A3
6102 E7
6103 E7
7101 C2
7103 G4
7105 H5
7107 A11
7108 G7
7109 F8
7110-1 B6
7110-2 B6
7110-3 C6
7110-4 B7
7119 F11
7120 G6
F110 A6
F111 A2
F112 A6
F113 A2
F114 A6
F115 A2
F117 A2
F118 B6
F119 B2
F120 B6
F121 B2
F122 B2
F123 B2
F124 B2
F125 C3
F129 E6
F130 F6
F131 G11
F132 G11
F133 H5
F134 G5
F135 G5
F136 A6
F137 D6
F138 D6
F139 D6
F140 D6
F141 D6
F142 F2
F143 F2
F144 F5
F145 G4
F146 D6
F147 D6
I110 A2
I111 A3
I115 B10
I116 A12
I117 B10
I118 B11
I119 C10
I123 C2
I140 D3
I141 D3
I142 D3
I143 D2
I144 E2
I146 E3
I147 E3
I150 E3
I151 E8
I155 E6
I156 E7
I161 F6
I162 F7
I163 F7
I164 F9
I166 F9
I167 F7
I168 F9
I169 G7
I170 G7
I171 F6
I172 G7
I174 H5
I175 H5
I176 G4
I177 G4
I178 A4
I179 C4
I180 C5
I181 C4
I182 C5
I183 E3
I184 D2
I185 E6
I186 G6
I187 H6
I188 G9
I191 F11
I192 E3
I193 E2
I194 B12
18680_543_090828.eps
090828
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 125
iBoard (Part 2)
1
2
3
2
1
4
5
4
3
6
5
8
7
6
7
9
9
8
10
A
14
13
14
1
3
13
12
11
12
1
5
15
15
16
16
17
16
17
19
18
18
20
A
A
+5VA
1200
RXD0
POR
TXD0
TDO
TDI
TCK
TMS
6216
10K
150R
1 IB_IR_OUT1
2
10 HEFSW4
100n
2K2
2271
32A2
15K
10n
2272
22n
5208
100u 16V
22u
2245
2244
1u0
2243
GND_HS
22p
10n
22p
10n
10n
3K3
3207
2238
2247
2237
2248
2236
J
4219
H
220R
5207
4K7
4K7
3277
3276
4218
AV1-STATUS
STANDBY
SCL1
+5VSSB
K
100n
WC
6
5
6
2250
100R
I275
I276
LCD
Clock
L
SCL
ADR
SDA
2218
220R
1
2
3
4
5
7
F236
5205
SDA1
3274
100R
47K
3251
560R
+3V3_STANDBY
+5VA
Φ
(4Kx8)
EEPROM
G
I
1
2
3
0
1
2
4
47K
3252
M
J
4201
1098
REF EMC HOLE
1099
REF EMC HOLE
I230
1096
REF EMC HOLE
1097
REF EMC HOLE
N
3
3225
+5VB
1
1K0
7211
2
BC847BW
VSS VEE
7
8
7210
BC847BW
3222
3
4K7
DC398042
SETNAME
CLASS_NO
3226
1
K
O
CHN
7212
BC847BW 3
1
3PB310
BDS MODULES
PCB SB IBoard EU iLC09
1K0
-- -- --
1
2009-04-24
2
2009-07-17
3
2
SV
6
7
6
8
7
9
8
12
11
10
9
10
13
11
14
12
1
2009-07-17
1
2009-04-24
3139 283 3011
P
NAME Ronnie Tan
5
F234 7
I
1u0
220R
220R
MULTI 12NC : 3139_283_3010
BD 12NC
: 3139_283_3011
4
21
1u0
2242
22u 6.3V
2241
4227
1
20
1
4210
4209
7214
M24CB4WMN6 8
1
REMOTE
BOLTON_IO_RESET
STANDBY
11
2
3250
100R
4211
3248
0R
3 IB_IR_OUT1
I289
5 RC+PEND_IR
I290
9 HEFSW3
4
5
F222 1
F223 2
F224 3
F238 4
F225 5
F226 6
F228 7
F229 8
F230 9
F239 10
12
3 BC857BW
I231
2
4
F
BM10B-SRSS-TBT
2220 100n F235
I215
7217
BC847BW
3247
1K0
1K0
3294
1K0
I216
3
G
H
10K
F231
F233
0R
4221
32A1
1
7215
BC847BW
I227
2
3246
3297
68R
13 RC_IR
12 RJIR_IN
11 HEFSW5
10K
RES
3288
+3V3_STANDBY
+5VD
2K2
6
3245
3249
100n
2217
2
7216
BC857BW
13
I281
22
23
1208
+5VB
+12V
1
7228
BC847BW
9
10
11
12
10K
3282
4K7
RESERVED
3
3230
1
PGND
STANDBY
SC1_CVBS_RF_OUT
3206
3275
1
2
4X1
4X2
3227
G4
3224
5
7233-2
SI1902DL
MDX
14
22u
2268
6217
BAT54 COL
22u
2270
2219
100u 16V
2226
+3V3_STANDBY
10K
27p
3280
SYNC
SCL_SSB
SDA_SSB
RXD0
10K
VIA
I280
15
1205
LEDIN_CLK_TXD_SCL1
+5VB
3292
10K
7213
3229
I288
4
6210
3
BAT54 COL
6209
2
7233-1
SI1902DL
BAT54 COL
32A0
10K
1
3298
P
3
ENABLE
RXD_BOLT_ON
TXD_BOLT_ON
RES
+5VD
3293
+5VB
10K
2
100u 16V
F218
3254 10K
3255 10K
3244 10K
10K
10K
10K
6u8
RES
RES
2228 100p
2227 100p
6
7
7235
BC847BW
2
I291
1
C2-
C1-
2
100R
32A5
+5VB
7207
100n
74HC4053PW 16
VDD
4207
3262
10K
6215
BAT54 COL
PESDXS2UT
6206
PESDXS2UT
6205
6
O
3
C2+
+3V3_STANDBY
+5VD
MODE
I293
1K2
220p
3205
100R
15
2
FB
C1+
5
16
4
SSB
+3V3_STANDBY
4212
1K0
4208
1
2
SKIP
GND
7225
BSH111
3
2
TXD0
3
32A6
I292
K
2
1
7223
BSH111
3
* 1204 use as I2C
8
I283
3
E
OUT
2
RES
4215
NOTE:
7226
BSH111
3
IR-IN_DATA_IN_RXD_SDA1
4214
RES
PEND_IR
3295-4 4
3295-1 1
+5VA
10K
8 10K
I267
2
4213
2204
N
+5VA
IN
5
2224
100n
1
+5VD
M
7
14
17
I282
6
RES
SDA3_IR_OUT
UPSD3333D-40 /
5
I284
4226
I285
Φ
DC/DC
CONVERTER
COM
CLK
1
3
9
19
45
DATA_OUT1
10K
18
5206
6u8
+5VA
F
7229
TPS60111PWP
19
1
+5VB
3221
F217
6u8
10K
7224
BSH111
3
F232
J
3253 10K
100R
3237
100R
3239
+3V3_STANDBY
+5VA
D
+3V3_STANDBY
F216
3284
4K7
5
3281
6
4
2213
220R
+3V3_STANDBY
10K
3234
5204
6
3231
10K
3232
100R
3
+5VA
3279
27p
27p
2215
2214
7
+5VA
10K
10K
10K
10K
I270
IR_OUT
RJ12
L
2
8
E
100n
LEDIN_CLK_TXD_SCL1
IR-IN_DATA_IN_SDA1
6207
3273
I261
1
27p
100K
I238
C
D
2216
100R F247
2246
F248
BZX384-C5V6
F241 LEDIN_CLK_TXD_SCL1
F242 IR-IN_DATA_IN_SDA1
F246
STATUS_DATA_OUT_RXD
BZX384-C5V6
6208
1
2
3
4
5
6
10n
3296-1
3296-2
3296-3
3296-4
3295-3 3
3295-2 2
RES
7227
74HC1G08
4
+5VA
+5VA
6u8
5202
MODE
LED2_OUT
TCM<0:5>
I269
1202
100R
100R
100R
100R
2231
22
21 IR_PULLUP_SW
20
I263
I264
18
17
16
15
14
IR_IN_TV
7
8
VSS VEE
TXD0
RXD0
1n0
2266
CTRL_12VPBS
1n0
1n0
1n0
2263
+3V3_STANDBY
100K
3228
3272
100K
3270
100R
27p
3269
I268
L
1
1
5203
4205
3240
3236
3241
3264
HEFSW2
I257
3
5
9
+5V
I249
UPS93333DV-40
RJIR_IN
HEFSW1
C
3
7
1
F252
+3V3_STANDBY
PCACLK 0:1
1
2
10
4
F237
F244
F245
K
15
S
+5VD
RXD0
TXD0
GND
13
12
11 HEFSW0
1
2
4X1
4X2
10n
23
24
25 RC+PEND_IR
26 RJ_PEND_IR
I250
27
I251
28
I252
29
F116
30
2232 10n
T2
T2X
RXD1
TXD1
SPICLK
SPIRXD
SPITXD
SPISEL
6
G4
HEFSW0
POR1
100n
MDX
14
2240
CVBSterr
CVI_75R
BAT54 COL
6213
SDA3_IR_OUT
POR1
2203
100R
P4 <0:7>
TDI
TDO
JTAG
TMS
TCK
I239
6214
BAT54 COL
100R
3201
3286
100R
3258
100K
3271
+5VB
7206
74HC4053PW
VDD
4
3
13
12
3235
I241
EXINT 0:1
10n
RXD00
TXD00
2264
2265
J
TMS
TCK
100R
100R
100R
3208
3209
3299
TXD00
RXD00
1
R
U
2
7
+5VB
+5VA
+3V3_STANDBY
I240
2230
RXD0
TXD0
TG0
TG1
C0
C1
SDA
SCL
VSTBY
TSTAT
TERR
PC7
PD1
CLKIN
2
I260
X>U
Y<
AV1-STATUS
LED2
KEYBOARD
I233
I234
I235
I237
P3 <0:7>
2233
TDO
F227
11
10
7
I255
RC_PULLUP
1n0
1n0
1n0
1n0
1n0
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
owner.
G
2256 1n0
LEDIN_CLK_TXD_SCL1
DATA_IN_SLOT
2257 1n0
STATUS_DATA_OUT_RXD
2258
2259
2260
2261
2262
1
2
3
4
5
6
7
8
9
10
11
12
13
14
100R
TDI
SYSTEM
1207
100R
3220
3
I266
I
3219
RXD0
4206
RES
1
F219
LED1
GPIOF220
SCL1 3263
100R
100R
10K
100R
LED1_OUTI258
2
BC857BW
7221
3257
PB
10n
3203
*
ADC<0:7>
PC <2:4>
16
2 7202
BC847BW
2251
POR
SDA1
6201
BAS316
100K
1K5 3289
3285 10K
4K7
1
+5VA
100n
3200
3204
3256
1n0
2255
2200
3
I245
10K
I294
H
100R
+5VA
2K2
3
3259
F
1
3261
+3V3_STANDBY
+12VA
3260
7219
BC857BW
10K
3218
I248
*
I256
2212
+3V3_STANDBY
2
10K
1
2
3
4
G
6
2
4
10n
10K
4202
0R
DEBUG
0
1
2
3
4
5
6
7
34
35
36
37
38
39
40
41
2229
STATUS_DATA_OUT_RXD
8
+5VA
MUTE
4203
0R
1.85A
U
AU
X
Y
R1
UART
RC_IR
+T
1212
RESET_IN
52
51
I254
50
IB_IR_OUT 49
48
46
43
SDA3 42
BOLTON_RST
BOLTON_PWR
100n
T2
T2X
RXD1
TXD1
SPICLK
SPIRXD
SPITXD
SPISEL
2
I253
F250
P1 <0:7>
MCU
1
2
3
4
5
6
F251 8
10K
USB
VSS VEE
+5VB
3223
100K
7
1
2
3
10K
3287
2211
32A4
32
5
100u 16V
3242 10K
I232
10n
+5VA
GPIO
RC_IR
+12V
+12VA
1850mA
1211
1209
8
COMP
5
1204
F249
10n
22p
2207
100n
2239
3
5
9
Φ
XTAL
2221
3V3VCC
VDD
1
44
4
CTRL_12VPBS
E
2269
+3V3_STANDBY
+5VA
31
I219
2210
3278
2206
7209
AVCC
I229
22p
220R
100n
2
2205
1
2
10
I224
5201
1
10K
I228
100n
2209
100R
3238
15
10K
3217
10K
3214
16
10K
I226
2208
PEND_IR
I271
6
13
12
11
1
2
4X1
4X2
220R
I274
47
1
4223
I223
3215
MDXG4
14
3216
6211
BAT54 COL
10K
I273
I217
8
33
6
4
4222
7208
BC847BW 3
7205
100n
74HC4053PW
VDD
24M
1
4225
2202
5
1203
6
I295
F
32A3
B
CTRL_12VPBS
5200
+5VB
3
2
I272
I298
I296
I299
E
7231-2
SI1902DL
4
4224
I297
IR_DATA_IN
6212
BAT54 COL
3
2
3210
3211
2254
2253
5
10K
7231-1
SI1902DL
3
2
1u0
2252
10K 7232-2
SI1902DL
SHDN BP
+5VA
+5VA
7234
NE555D
I287
I278
B
I277
I279
3212
OUT
+5VA
10K
7232-1
SI1902DL
IN
1
COM
D
STANDBY
6220
BAT54 COL
4
22u
5
100n
D
BAT54 COL
7230
LK112SM50
1
2 F240
3 NC
4 F243
5
3213
+12V
1210
C
+5VD
+5VD +3V3_STANDBY
BAT54 COL
+3V3_STANDBY
100R
6219
2267
6218
3290
C
+3V3_STANDBY
I286
+5VD
22u
I213
I218
I220
I222
100R
100R
100R
100R
PESDXS2UT
6204
PESDXS2UT
6203
6202
JTAG
100R
3265
3266
3267
3268
F212
F213
F214
F215
PESDXS2UT
B
3202
F210
F211
BZX384-C5V6
1
2
3 NVM_LOAD
4
5
6
7
8
B
I
11
IBOARD
A
H
10
SUPERS.
CHECK
DATE
2
2009-04-24
13
17
14
2
130
A2
ROYAL PHILIPS ELECTRONICS N.V. 2009
C
16
15
10
18
15
19
16
20
L
1096 J16
1097 J16
1098 J15
1099 J14
1200 A1
1202 I1
1203 D7
1204 C12
1205 F16
1207 G1
1208 H16
1209 E1
1210 C1
1211 E2
1212 E1
2200 F4
2202 C6
2203 F6
2204 J6
2205 D7
2206 D7
2207 E7
2208 C8
2209 D8
2210 C9
2211 D9
2212 F11
2213 F12
2214 G7
2215 G7
2216 I15
2217 I11
2218 I13
2219 E14
2220 H15
2221 C9
2224 G9
2226 E13
2227 D11
2228 D12
2229 D11
2230 E11
2231 F11
2232 F10
2233 F8
2236 G15
2237 G15
2238 G15
2239 F11
2240 H4
2241 F15
2242 F15
2243 F16
2244 E17
2245 E17
2246 J3
2247 G15
2248 G15
2250 I17
2251 E7
2252 C2
2253 D3
2254 D3
2255 F2
2256 G2
2257 G2
2258 H2
2259 H2
2260 H2
2261 H2
2262 H2
2263 H3
2264 H3
2265 H3
2266 H3
2267 B14
2268 B16
2269 B14
2270 C15
2271 B15
2272 C15
3200 F4
3201 G5
3202 A4
3203 F7
3204 G4
3205 J4
3206 G15
3207 G14
3208 G3
3209 G3
3210 D4
3211 D4
3212 D3
3213 D3
3214 C6
3215 D7
3216 D7
3217 C7
3218 E7
3219 F7
3220 F7
3221 H7
3222 K7
3223 E7
3224 K7
3225 K8
3226 K8
3227 J8
3228 E6
3229 J8
3230 J9
3231 D10
3232 D10
3234 D10
3235 E10
3236 E11
3237 D10
3238 D11
3239 D10
3240 E11
3241 F11
3242 E11
3244 E11
3245 J11
3246 J11
3247 J12
3248 J12
3249 I12
3250 J12
3251 I13
3252 J13
3253 E12
3254 E12
3255 E12
3256 F2
3257 F2
3258 G3
3259 F3
3260 E3
3261 F3
3262 J4
3263 F5
3264 F11
3265 B4
3266 B4
3267 B4
3268 B4
3269 H3
3270 E6
3271 E6
3272 E6
3273 I3
3274 I14
3275 I14
3276 H15
3277 H15
3278 G11
3279 G12
3280 F12
3281 F12
3282 F13
3284 F14
3285 E5
3286 G4
3287 E7
3288 K5
3289 E5
3290 B9
3292 H9
3293 J9
3294 J10
3295-1 G11
3295-2 G11
3295-3 G11
3295-4 G11
3296-1 F11
3296-2 F11
3296-3 F11
3296-4 F11
3297 J7
3298 J7
3299 G3
32A0 J4
32A1 I12
32A2 B15
32A3 C14
32A4 E11
32A5 I9
32A6 I8
4201 J12
4202 E2
4203 E2
4205 E14
4206 H6
4207 J5
4208 J4
4209 G13
4210 G13
4211 J12
4212 H9
4213 H7
4214 H7
4215 I4
4218 H16
4219 H16
4221 I13
4222 D5
4223 D4
4224 D4
4225 D3
4226 E14
4227 F15
5200 C8
5201 D9
5202 E13
5203 E14
5204 C9
5205 H17
5206 E14
5207 H16
5208 D16
6201 F4
6202 B2
6203 B2
6204 B3
6205 J3
6206 J3
6207 I3
6208 I3
6209 J4
6210 J5
6211 D5
6212 D5
6213 G5
6214 G5
6215 J4
6216 B14
6217 B15
6218 B14
6219 C3
6220 C3
7202 F3
7205 C6
7206 F6
7207 J6
7208 C7
7209 D8
7210 K7
7211 K8
7212 K8
7213 J9
7214 I15
7215 I12
7216 I12
7217 I12
7219 E3
7221 F3
7223 G12
7224 F12
7225 F13
7226 F13
7227 G8
7228 J10
7229 E16
7230 C2
7231-1 D4
7231-2 C4
7232-1 D3
7232-2 C3
7233-1 J4
7233-2 J5
7234 B15
7235 I9
F116 F9
F210 A2
F211 A2
F212 B2
F213 B2
F214 B2
F215 B2
F216 E14
F217 E14
F218 E13
F219 F5
F220 F5
F222 F16
F223 F16
F224 G16
F225 G16
F226 G16
F227 G3
F228 G16
F229 G16
F230 G16
F231 H14
F232 I3
F233 H14
F234 I14
F235 H16
F236 I16
F237 H2
F238 G16
F239 G16
F240 C1
F241 I2
F242 I2
F243 C1
F244 H2
F245 H2
F246 I2
F247 I4
F248 I2
F249 C11
F250 D10
F251 D12
F252 D16
I213 B4
I215 I13
I216 I13
I217 C8
I218 B4
I219 C9
I220 B4
I222 B4
I223 D7
I224 D8
I226 D6
I227 J11
I228 D7
I229 D8
I230 J12
I231 J11
I232 D8
I233 D9
I234 D9
I235 E9
I237 E9
I238 H6
I239 G7
I240 E9
I241 E11
I245 F3
I248 E7
I249 E10
I250 E9
I251 E9
I252 F9
I253 E7
I254 E8
I255 F8
I256 D9
I257 H6
I258 F5
I260 F8
I261 F10
I263 F9
I264 F9
I266 F2
I267 H9
I268 I3
I269 H8
I270 I3
I271 D4
I272 D4
I273 D5
I274 C8
I275 I14
I276 I14
I277 B16
I278 C14
I279 C14
I280 E16
I281 F16
I282 E15
I283 F15
I284 E15
I285 E14
I286 B15
I287 B15
I288 K7
I289 K7
I290 K7
I291 K6
I292 J4
I293 J5
I294 F2
I295 D3
I296 D4
I297 D3
I298 D4
I299 D4
17
18680_544_090828.eps
090828
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 126
iBoard: SRP List Part 1
Netname
+12V
+12V
+12VA
+12VA
+3V3_STANDBY
+3V3_STANDBY
+5V
+5VA
+5VA
+5VB
+5VB
+5VD
+5VD
+5VSSB
+5VSSB
DDC_5V
Diagram
HC01 (3 ×)
HC02 (3 ×)
HC01 (1 ×)
HC02 (2 ×)
HC01 (2 ×)
HC02 (17 ×)
HC02 (1 ×)
HC01 (2 ×)
HC02 (19 ×)
HC01 (2 ×)
HC02 (10 ×)
HC01 (1 ×)
HC02 (8 ×)
HC01 (1 ×)
HC02 (1 ×)
HC01 (3 ×)
3139 283 3011.1
18680_548_090828.eps
090828
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 127
2255
I193
F143
F231
F226
I218
I192
I253
2205
F223
3279
3258
7217
2101
2125
2128
2122
I167
6202
6203
6204
I188
5112
3129
3268
5107
2126
3252
3124
7216
F211
3130
3201
F241
6205
6101
I185
2145
F246
2124
3122
I110
3101
3104
2106
2105
3103
3102
2104
5102
F115
F125
F239
I155
I272
I296
F248
I182
F214
F212
I156
2134
I298
I299
3266
3265
F210
I297
I151
3125
I294
I231
F132
I111
F131
5104
I295
I168
3267
2155
5103
2267
6216
2268
F118
6209
I293
I215
F215
I277
F114
3202
3204
I286
2269
2151
I271
3126
I166
I163
2218
I220
I213
I292
6218
6217
2149
2270
32A3
32A1
3251
4211
I273
F136
2150
1102
2152
7110
I279
I222
I228
4221
2217
3248
I191
F112
3246
F213
2272
I227
3249
I194
3245
2121
I216
3221
32A2
F120
3250
3120
I267
I257
I238
I287
I278
3281
F129
I282
3247
I116
F130
2123
I164
I283
2242
2203
2120
7235
4212
I140
F139
I239
3123
I170
I118
2116
I249
F243
I162
7215
I269
I284
F227
I248
3289
I161
2127
2117
I119
F220
I280
F217
I115
3119
F140
3121
I117
2228
3118
I288
2243
F218
5109
2119
I263
I285
4226
F144
6215
F110
4202
2244
I281
I241
3237
3259
3294
I289
F250
3260
7224
3230
2213
2212
3200
7228
32A4
F240
4203
4201
F116
I290
3264
3241
3236
I252
3261
7221
I264
7223
3280
2200
7219
I251
3214
I245
7202
I261
I250
4215
F249
F225
F252
3298
2232
3255
2227
F251
F224
F238
F216
3218
F236
F235
I224
I255
7234
F228
F222
2206
I229
3240 2239
4224
3212
2216
I147
2207
I291
3167
3274
3287
7108
I169
F230
F229
F233
F219
3263
2271
7214
3217
I234
I260
I230
3278
I232
I219
F142
2251
5204
3290
I233
2230
I275
I276
3275
2264
2261
2258
3234
3231
1203
I240
I258
3153
I186
2209
I146
3128
3297
1204
3242
2231
3244
7208
I237
2221
I141
7213
3229
3224
7207
3157
3127
I226
I274
32A5
32A0
4207
7232
I223
32A6
6210
7233
3262
I150
I184
2114
I217
3226
3168
7119
7231
2252
3235
3286
3211
4223
7230
I235
3238
I144
I142
I266
3215
I256
7212
7210
2204
3222
6214
6219
6220
3209
3208
3299
2240
3175
3232
3257
3256
3254
7211
3225
3288
6213
1200
3239
2256
3285
3220
2233
2214
7107
4209
4206
2143 2130
2144
3284
7226
6211
4214
I143
2263
I183
3293
3205
2265
I172
3282
7225
F234
I254
6201
2254
2131
3296
3227
7206
6212
1104
2202
7205
2224
3292
F245
3216
3295
3253
2241
5206
7229
4227
7109
1108
2129
4210
7227
2259
3269
F237
2260
7209
2253
4208
5208
4213
F244
2229
2215 3219
3271
3270
5201
3223
2211
2208
5200
3203
3228
3272
4205
1210 2245
2257
4222
3210
3213
4225
2226
1209
5202
5203
1212
2262
4111
2219 2210
2109
3158
3206
3207
2238
2110
2266
2112
4110
4102
5205
4218 3277
4219
3276
2236
2248 5207
2247
2237
2156
2250
1207
1109
4112
1110
1208
2220
1205
1211
Layout i Board
F146
F113
F141
F147
I123
3106
I181
3108
2108
6208
I171
4101
I175
2111
I176
I177
I174
I268
3114
3113
7105
6207
F133
3172
3132
F138
3174
F247
3171
3131
I178
3105
I179
2135
7120
2153
2136
5105
F135
5106
F134
7103
2154
3107
2103
2107
F124
F122
3273
F119
2246
F121
F123
6100
6206
I180
F137
6103
F242
5101
1101
7101
1202
2102
1107
I270
2113
1100
F232
F117
F111
6102
F145
I187
3111
18680_553_090721.eps
090721
31392833011.1
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 128
Keyboard Control Panel
Layout Keyboard Control Panel
1
E
A
2
3
4
1
KEYBOARD CONTROL
E
+3.3 V
J1
A
R9 6.8 kΩ
3
2
1
CON3 GND
C2
10 nF
R2
10 Ω
R3
2.2 kΩ
R4
1.5 kΩ
R5
3.9 kΩ
R6
5.6 kΩ
R7
18 kΩ
R8
8.2 kΩ
ZD1
4.7 V
B
B
GND
GND
GND
GND
C
GND
GND
GND
GND
GND
GND
CH+
CH-
MENU
VOL+
VOL-
ON/OFF
C
2722 171 00826
1
2
1
3
A
A
A
A
B
B
B
B
C
C
C
C
D
D
D
D
E
E
E
E
F
F
F
F
G
G
G
G
H
H
H
H
I
I
I
I
J
J
J
J
4
18681_503_091130.eps
091130
2722 171 00826
1
2722 171 00826
1
18681_504_091130.eps
091130
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 129
IR & LED Panel
1
J
2
3
4
5
6
7
8
IR & LED PANEL
J
+5V
+3.3V
A
TO ME8 SSB
11
10
9
8
7
6
5
4
3
2
1
J1
8
7
6
5
4
3
2
1
FROM ME8 KEYB
B
2.0- 8 pin
R11
8.2kΩ
R1
6.8 kΩ
J3
+3.3V
GND
GND
NC
+5V
R22
270Ω
R12
1.8kΩ
D3
D2
D1
WHITE
LED1
+3.3V
LED2
IR
GND
LIGHT
RED
TSML1020
LED1
IR-out
LED2
R7
10kΩ
Q1
BC847
2
LED1
R9
Q2
BC847
2
LED2
10kΩ
R8
10kΩ
B
1
1
JST 1.0
A
R10
10kΩ
3
3
TO ME8 LIGHT GUIDE
J2
GND
C
3
2
1
GND
C
+3.3V
GND
2.0- 3 pin
+5V
+3.3 V
"LIGHT SENSOR"
R18
0Ω
R3
100 Ω
D
G1
D
TEMT6200FX01
C2
6.8 kΩ
U1 × not
R4
GND
10 μF
R14
LIGHT
100 kΩ
U1 × not
GP1UE260RKRF
ESD
R5
U1 × TSOP39236CZ1
C5
100 μF
C3
C4
10 μF 10 μF
R15
2
3
BC847
8.2 kΩ
R17
3.3 MΩ
R16
10 kΩ
ZD1
E
3.3 V
GND
1
Q3
200 Ω
1
0Ω
U1 × 10 Ω
1
2
2
E
U1 × 4.7 μF
C1
10 μF
U1
3
2
1
R6
IR
R13
100 kΩ
GND
3
4
2009-Dec-04
5
6
7
8
18681_500_091130.eps
091130
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 130
Layout IR & LED Panel (Top Side)
1
R12
R11
Q2
R1
R7
R8
Q1
4
5
U1
C1
R3
6
R18
R16
Q3
A
D2
D1
R15
C3
A
3
R6
R13
R9
R10
2
R5 R4 ESD
R17
R14
G1
ZD1
Personal Notes:
2722 171 00805
1
2
3
4
5
4
5
6
18681_501_091130.eps
091130
Layout IR & LED Panel (Bottom Side)
2
3
2722 171 00805
XXXXXX-X0001
9
3
1
C4
1
A
6
GWA7.820.628-6
1
A
J2
2722 171 00805
1
2
3
4
5
6
18681_502_091130.eps
091130
E_06532_012.eps
131004
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 131
System Interface Panel
2
3
4
2
3
4
6
5
7
6
8
9
8
7
10
9
+5V
+12V
+12V
10K
4110
4111
I113
4K7
4K7
4K7
3110
3111
I112
+5V +12V+3.3V
2100
5100
2
3
+5V
10K
SC1_AUDIO_OUT_R
SC1_AUDIO_OUT_L
AUDIO_IN5_L
AUDIO_IN5_R
FRONT_Y_CVBS
FRONT_C
+12V
I122
I123
10 11
1102
B
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
NC
31
NC
32
NC
C
C
D
E
I137
1
3
1
7102
BC847BW
2
RES
75R
RES
3105
F114
F
1
7103
BC847BW
2
E
I157
I143
330R
3153
3154
100u
DC323175
-
-
2008-05-27
2
2008-08-25
3
2
3
3
3136
100K
22K
1
SUPERS.
2
2008-12-12
2008-10-25
1
2008-08-25
2008-10-25
2008-08-25
J
3139 283 3001
PCB SB 32PIN INTF
NAME DIRK
CHECK
100R
2
3142
ITV
130
1
A3
3145
4108
1
1K0
SETNAME
CLASS_NO
22K
3132
3131
330R
120R
3130
330R
10K
100R
CHN
10u
3128
390R
I147
I148
I160
3133
2111
7108
BC847B
3127
4
4
G
100R
I145
12K
3149
100n
2110
68R
7109
BC847BW
2120
I
3146
4109
I144
BC857B
7107
I146
100u
3141
100u
I161
VBUF
J
330R
10K
3140
3143
120R
3126
100K
1K0
3125
33R
3124
100n
1u0
2109
2108
I163
2121
I159
3129
3135
33R
3134
12K
100n
I155
330R
100R
H
10u
3138
330R
68R
I154
390R
100u
3137
3155
3139
2115
3156
2118
7112
BC847BW
I152
7111
BC847B
120R
5106
120R
100n
1u0
2113
2112
5108
120R
2114
I153
VBUF
2117
F
I151
BC857B
7110
3150
3151
3152
VBUF
I142
5105
I
I164
I150
100R
+12V
G
I162
3144
4107
H
390R
100u
120R
VBUF
22K
3122
3120
120R
3123
I158
330R
I141
3121
68R
3118
330R
100R
I149
5107
10u
330R
100u
3117
I140
+12V
2107
7105
BC847B
10K
7106
BC847BW
3119
I138
12K
3148
100n
2106
2116
2119
F
D
82R
3109
82R
3108
82R
3107
3116
100K
1K0
F113
3
7101
BC847BW
2
BC857B
7104
I139
G
1
B
I156
VBUF
H
F112
3
I136
BM09B-SRSS-TBT
G
3115
33R
2104
4105 RES
4106 RES
5104
NC
3114
120R
VBUF
100n
F110
F111
I132
A
52613-3229
I135
5103
1K0
3104
F127
F128
F109
1u0
2102
3147
120R
E
CVBSterr
7100
BC847BW
I119
1u0
2105
1104
F
FBL_IN
I120
I121
E
I134
+3V3STBY
SC1_B_IN
SC1_G_IN
SC1_R_IN
9 10
BM08B-SRSS-TBT
FRONT_Y_CVBS 1
2
FRONT_C
3
AUDIO_IN5_L 4
AUDIO_IN5_R 5
6
7
AUDIO_OUT_R 8
AUDIO_OUT_L 9
1u0
2101
TVCLK_SCL_TXD
SDA_I2C
1
3103
F124
SC1_B_IN_1
F125
SC1_G_IN_1
SC1_R_IN_1
F122
I116
F126 SC1_FBL_IN
3102
F123
100R
I117
4103
4104
I118
560R
D
1u0
120R F101
I127
I109
4100
4101
F121
1103
owner.
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
D
I106
I108
+5V
1
2
3
4
5
AP_SCART_OUT_L 6
AP_SCART_OUT_R 7
8
319804000070
5101
120R
2103
1u0
RC_PULLUP
POR
TVCLK_SCL_TXD
DATA_IN_SLOT
DATA_OUT_RXD
F103
5102
120R
F120
C
C
I125
100R
+3V3STBY
319804000140
A
1
2
3
4
5
6
7
F117
3100 F118
100R
13
1100
F115
+5V
F116
I111
B
+12V
+3.3V
VBUF
I110
B
3113
F131 TVCLK_SCL_TXD
F133 DATA_IN_SLOT
F134 DATA_OUT_RXD
F135 RC_PULLUP
F132
F119
HSYNC_OUT
VSYNC_OUT
I133
SDA_I2C
POR
F138
CVBSterr
F139
I114
CVI75R 3101
I115
CTRL_POW
1
2
3
4
5
6
7
8
9
10
11
12
13
14
12
+5V
4102
1101
12
3112
A
A
11
11
10
75R
1
5
3106
1
5
5
7
6
6
8
7
2009-Dec-04
DATE
2008-05-27
9
8
ROYAL PHILIPS ELECTRONICS N.V. 2008
C
10
9
11
10
12
11
13
12
H
1100 A11
1101 A2
1102 B11
1103 C2
1104 D2
2100 B10
2101 C10
2102 D10
2103 B10
2104 E4
2105 E4
2106 E4
2107 E6
2108 G4
2109 G4
2110 G4
2111 G6
2112 F8
2113 F8
2114 F7
2115 F10
2116 F3
2117 H3
2118 G7
2119 F3
2120 H3
2121 G7
3100 A10
3101 B3
3102 C2
3103 D3
3104 E3
3105 E10
3106 E10
3107 D7
3108 D8
3109 D9
3110 B8
3111 B8
3112 B9
3113 A4
3114 E5
3115 E5
3116 E5
3117 F4
3118 F5
3119 F4
3120 F5
3121 F5
3122 F5
3123 F4
3124 G5
3125 G5
3126 G5
3127 H4
3128 H5
3129 H3
3130 H5
3131 H5
3132 H5
3133 H4
3134 F8
3135 F9
3136 F9
3137 F8
3138 F9
3139 G7
3140 G8
3141 G9
3142 G9
3143 G8
3144 F5
3145 H5
3146 G9
3147 D4
3148 E4
3149 G4
3150 F8
3151 F6
3152 F6
3153 H6
3154 H6
3155 G10
3156 G10
4100 C8
4101 C8
4102 A9
4103 D2
4104 D2
4105 E2
4106 E2
4107 F4
4108 H4
4109 G7
4111 A9
5100 B10
5101 B10
5102 C10
5103 D4
5104 E4
5105 G4
5106 G4
5107 E8
5108 F7
7100 D3
7101 E7
7102 E8
7103 E9
7104 E5
7105 E5
7106 F4
7107 G5
7108 G5
7109 H4
7110 F8
7111 F9
7112 G8
F101 B10
F103 C10
F109 E2
F110 E2
F111 E2
F112 E7
F113 E8
F114 E9
F115 A10
F116 A10
F117 A10
F118 A10
F119 B2
F120 B2
F121 C3
F122 C2
F123 C2
F124 C2
F125 C2
F126 C2
F127 D2
F128 E2
F131 A2
F132 A2
F133 A2
F134 A2
F135 A2
F138 B2
F139 B2
I106 C8
I108 C8
I109 C8
I110 B8
I111 B8
I112 B9
I113 B5
I114 B2
I115 B2
I116 C3
I117 C2
I118 D2
I119 D3
I120 D3
I121 D3
I122 E2
I123 E2
I125 A10
I127 C8
I132 B10
I133 B2
I134 C10
I135 D5
I136 E5
I137 E5
I138 E5
I139 F4
I140 F5
I141 F5
I142 G5
I143 G5
I144 G5
I145 G5
I146 H4
I147 H5
I148 H5
I149 E9
I150 F9
I151 F9
I152 F9
I153 F8
I154 F8
I155 G9
I156 E4
I157 E6
I158 F4
I159 G4
I160 H4
I161 G6
I162 F8
I163 G8
I164 F10
18680_542_090828.eps
090828
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 132
Layout System Interface
4102
4101 4100
3104
7110
5107
3134 2112
3135 2113
3143
2110 5106
3140 3137
3149
7108
3124 2109
2108
3125 5105
3128
I116
F132
F101
F139
I106
F123
I114
5102
I132
F131
F103
I120
F133
I127
I133
I134
I109
F120
I115
I122
I121
5100
I162
3150
3131
I123
I118
F135
5101
3147
F126
I117
F109
7100
F118
I119
2101
2100
2103
3132
F138
3100
I125
F117
7107
I108
F119
F116
7105
3121
3117
7106
2104
3114 2105
5103
3148
3115
3118
7104
7111
3138
3129
3127
7109
3154
3130
3153
2111
3126
2107 3151
3116
3120
3122
F115
2106 5104
3123 3119
3152
3105
3106
1102
7112
4109 3139
5108 2114
3133
3101
1100
4110
4105 4106
2119
2116
Personal Notes:
2118
2121
1101
1103
3102
3103
4103
4104
1104
2117
2120
2102
F134
I163
I153
F124
I149
I151
I164
I157
F127
F110
3144
3112
7102
I158
7101
I145
3109
I139
I136
I111
I156
F121
I143
4107
F113
I142
I160
3108
4108
3111
I146
F112
F111
F128
F114
7103
F122
3110
3156
3145
3146
3136
3155
I161
F125
2115
3113
I159
3142
3141
I152
I150
3107
I154
I155
I144
I147
I113
I148
31392833001.2
I110
I135
I140
I137
I141
I112
I138
18680_554_090721.eps
090721
E_06532_012.eps
131004
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 133
Switch Panel
1
4
3
2
1
5
2
6
3
4
5
8
6
7
10
9
7
11
1301 B8
1302 C8
1303 E1
1304 B1
1305 C1
1306 F1
1307 E1
1308 B3
1X99 A1
2301 B6
2302 B5
2303 C3
2304 C7
2305 D2
2306 D2
2307 D2
2308 C2
2309 C2
2310 C2
2311 C2
2312 C4
2313 F2
2314 F2
3301 B5
3302 B4
3303 B5
3305 B6
3306 A3
3307 A4
3308 C5
3309 C6
3310 C6
3311 D6
3312 D6
4301 B5
4302 E3
4303 E3
4304 E2
4305 C6
4306 C5
6301 B5
7301 A5
7302 B6
7303 A4
7304 A3
7305 C4
7306 C6
7307 D5
F301 B8
F302 B8
F303 C8
F304 C8
F305 C8
F306 C8
F314 B1
F315 B1
F320 C1
F321 D1
F322 D1
F323 D1
F324 D1
F325 D1
F326 D1
F328 F2
F329 F2
F331 F2
F335 E2
F336 A4
F337 A4
F338 D5
F339 D5
F340 C6
F341 E2
F342 E2
I303 B4
I304 B5
I305 B6
I306 B6
+12VGOOD
A
12V Switch Panel
7303
PDTA124EU
F337
7304
BC847BW
1X99
REF EMC HOLE
A
3306
7301
SI4435DDY
F336
A
STBY_SSB
RES 3307
B
33K
33K
3301
I303
3302
47R
I305
3303
4K7
RES
7302
BC847BW
I306
RES
3305
CTRL_12VPBS
B
LAMP-ON-OUT
BACKLIGHT-OUT
BACKLIGHT-BOOST
ANALOG-DIMMING
F
3309
1 F338
4
2 F339
RES 3310
10K
RES 4306
5
3308
2312
100n
7305
74LVC1G08GW
STBY_PSU
2u2
47K
+AUDIO-POWER
F324
F325
F326
+3V3-STANDBY
To SSB
47K
-AUDIO-POWER
From PSU
D
1-1735446-1
4303
100n
2305
100n
100n
2306
4302
E
1
2
3
4
5
6
7
8
9
10
11
+12VGOOD
3311
7307
BC847BW
F323
1302
STBY_SSB
1-1735446-1
RES
1307
C
CTRL_12VPBS
+3V3-STANDBY
F320
F321
F322
2304
2u2
2303
100p
F340
To SSB
1735446-8
7306
BC847BW
3312
D
+3V3-STANDBY
3
From PSU
100p
RES 2311
100p
RES 2310
100p
RES 2309
RES 2308
E
1
2
3
4
5
6
7
8
F303
F304
F305
F306
RES 4305
1305
1
2
3
4
5
6
7
8
9
10
11
F301
F302
1735446-8
C
100n
4301
1308
4.0A T
F315
47K
D
1301
+12VOUT
47K
From PSU
+12VIN
F314
1
2
3
4
5
6
7
8
I308
RES 2301
1K0
BZX384-C5V6
1304
G
I304
1u0
6301
B
2307
GNDSND
F341
1
2
3
4
5
E
RES 4304
F342
F335
1735446-5
CTRL_12VPBS
1735446-3
RES
1306
F
To IBOARD
1
2
3
4
F
F331
+3V3-STANDBY
1735446-4
I
100n
H
F328
F329
100n
To IBOARD
2313
1303
1
2
3
RES 2314
All rights reserved. Reproduction in whole or in parts
is prohibited without the written consent of the copyright
owner.
C
10K
2302
2
1
3
4
5
6
CHN
7
DC398042
SETNAME
13
12
8
J
1
2009-04-24
2
2009-07-17
3
SV
1
2
3
4
5
6
7
MGr
8
SUPERS.
CHECK ********
DATE
9
C
D
E
F
G
H
I
**** *** *****
1
2009-04-24
10
C
10
1
2009-07-17
1
2009-04-24
J
3139 283 3013
PCB SB 12V SWITCH PANEL
NAME Ronnie Tan
B
8
ITV
-- -- --
A
********
CLASS_NO
3PB310
I308 B6
130
1
***
A3
ROYAL PHILIPS ELECTRONICS N.V. 2009
11
12
13
18680_547_090828.eps
090828
2009-Dec-04
Circuit Diagrams and PWB Lats
Q522.1HE LA
10.
EN 134
Layout Switch Panel
1306
4303
4302
7305
1305
3312
3310
3311 3309 2312
4305 3308
7307
1304
1308
Personal Notes:
7306
4306
31392833013.1
F306
2311
F314
2310
F320
2309
F321
F315
F340
I308
F302
F339
F303
F338
F304
F322
1303
F301
F341
F335
F342
2313
F328
F323
2308
I303
2307
6301
2306
7304
3306
3307
4304
3301
I304
7301
I305
3302
I306
2302
F329
7302
2301
3303
4301
7303
2314
3305
F324
F305
F325
F326
2303 2305
F337
F331
F336
1307
1302
2304
1301
18680_555_090721.eps
090721
E_06532_012.eps
131004
2009-Dec-04
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