Colour Television
Chassis
Q549.2E
LA
18310_000_090317.eps
090317
Contents
1. Revision List
Page
2
Contents
136
SSB: SRP List Part 2
2. Technical Specifications and, Connections
3. Precautions, Notes, and Abbreviation List
4. Mechanical Instructions
2
6
10
Light guide
Wi-Fi Antenna
139
141
140
141
5. Service Modes, Error Codes, and Fault Finding 15
6. Alignments
7. Circuit Descriptions
8. IC Data Sheets
36
42
53
9. Block Diagrams
Wiring Diagram 32" (Elite Core)
Wiring Diagram 37" (Elite Core)
Block Diagram Video
59
60
62
Block Diagram Audio
63
Block Diagram Control & Clock Signals
Block Diagram I2C
64
65
Supply Lines Overview
66
10. Circuit Diagrams and PWB Layouts
Drawing PWB
Interface Ambilight: Interface + Single DC-DC(AB1)67
Interface Ambilight: Dual DC-DC (AB2) 68
Interface Ambilight: Microcontrollerblock (AB3) 69
6 LED Low-Pow: Microcontroller Block Liteon(AL1)71
6 LED Low-Pow: Microcontroller Block Liteon(AL2)72
70
70
70
74
74
74
79
79
79
79
84
84
84
84
6 LED Low-Pow: LED Liteon
(AL3) 73
8 LED Low-Pow: Microcontroller Block Liteon(AL1)75
8 LED Low-Pow: Microcontroller Block Liteon(AL2)76
8 LED Low-Pow: LED Liteon
8 LED Low-Pow: LED Drive Liteon
(AL3) 77
(AL4) 78
10 LED Low-Pow: Microcontroller Block Liteon(AL1)80
10 LED Low-Pow: Microcontroller Block Liteon(AL2)81
10 LED Low-Pow: LED Liteon
10 LED Low-Pow: LED Drive Liteon
SSB
(AL3) 82
(AL4) 83
(B01A-B10) 85-133 137-138
SSB: SRP List Explanation
SSB: SRP List Part 1
134
135
©
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 ER/EL 0965 BU TV Consumer Care, the Netherlands
Subject to modification
EN 3122 785 18311
2009-May-08
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Technical Specifications and, Connections
EN 4
2.
Q549.2E LA
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.
Cinch: S/PDIF - Out
Bk - Coaxial
0.4 - 0.6VPP / 75 ohm
kq
Cinch: Audio - Out
Rd - Audio - R
Wh - Audio - L
2.3.1 Side Connections
0.5 VRMS / 10 kohm
0.5 VRMS / 10 kohm
kq
kq
Head phone (Output)
Bk - Head phone
32 - 600 ohm / 10 mW
ot
EXT3: Cinch: Video YPbPr - In, Audio - In
Gn - Video Y
Bu - Video Pb
Rd - Video Pr
Rd - Audio - R
Wh - Audio - L
1 VPP / 75 ohm
jq
jq
jq
jq
jq
0.7 VPP / 75 ohm
0.7 VPP / 75 ohm
0.5 VRMS / 10 kohm
0.5 VRMS / 10 kohm
Cinch: Video CVBS - In, Audio - In
Rd - Audio R
0.5 VRMS / 10 kohm
jq
jq
jq
Wh - Audio L
Ye - Video CVBS
0.5 VRMS / 10 kohm
1 VPP / 75 ohm
EXT1 & 2: Video RGB - In, CVBS - In/Out, Audio - In/Out
S-Video (Hosiden): Video Y/C - In
1
2
3
4
- Ground Y
- Ground C
- Video Y
Gnd
Gnd
H
H
20
2
1 VPP / 75 ohm
0.3 VPP / 75 ohm
j
j
- Video C
21
1
10000_001_090121.eps
090121
USB2.0
Figure 2-4 SCART connector
1
2
3
4
1
2
3
4
5
6
7
8
- Audio R
- Audio R
- Audio L
0.5 VRMS / 1 kohm
0.5 VRMS / 10 kohm
0.5 VRMS / 1 kohm
Gnd
k
j
10000_022_090121.eps
090121
k
H
- Ground Audio
- Ground Blue
- Audio L
- Video Blue
- Function Select 0 - 2 V: INT
4.5 - 7 V: EXT 16:9
Figure 2-2 USB (type A)
Gnd
H
0.5 VRMS / 10 kohm
0.7 VPP / 75 ohm
j
1
2
3
4
- +5V
k
jk
jk
H
jk
- Data (-)
- Data (+)
- Ground
Gnd
9.5 - 12 V: EXT 4:3
Gnd
j
H
9
- Ground Green
10 - n.c.
HDMI: Digital Video, Digital Audio - In
11 - Video Green
12 - n.c.
0.7 VPP / 75 ohm
j
(see HDMI 1, 2, 3 & 4 - Rear Connections)
13 - Ground Red
14 - Ground P50
15 - Video Red
16 - Status/FBL
Gnd
Gnd
H
H
j
Common Interface
68p- See diagram B07A SSB: CI: PCMCIA
Connector
0.7 VPP / 75 ohm
0 - 0.4 V: INT
1 - 3 V: EXT / 75 ohm
Gnd
jk
j
H
2.3.2 Rear Connections
Service Connector (UART)
17 - Ground Video
18 - Ground FBL
19 - Video CVBS/Y
20 - Video CVBS
21 - Shield
Gnd
H
1 VPP / 75 ohm
1 VPP / 75 ohm
Gnd
k
j
H
1
2
3
- Ground
- UART_TX
- UART_RX
Gnd
Transmit
Receive
H
k
j
Aerial - In
VGA: Video RGB - In
-
- IEC-type (EU)
Coax, 75 ohm
D
1
6
5
10
RJ45: Ethernet (if present)
11
15
10000_002_090121.eps
090127
1 2 3 4 5 6 7 8
Figure 2-3 VGA Connector
E_06532_025.eps
210905
1
2
3
4
5
6
7
8
9
- Video Red
0.7 VPP / 75 ohm
0.7 VPP / 75 ohm
0.7 VPP / 75 ohm
j
j
j
- Video Green
- Video Blue
- n.c.
Figure 2-5 Ethernet connector
- Ground
Gnd
Gnd
Gnd
Gnd
+5 V
Gnd
H
H
1
2
3
4
5
6
7
8
- TD+
- TD-
- RD+
- CT
Transmit signal
Transmit signal
Receive signal
Centre Tap: DC level fixation
Centre Tap: DC level fixation
Receive signal
Gnd
Gnd
k
k
j
- Ground Red
- Ground Green
- Ground Blue
- +5VDC
H
H
j
H
- CT
10 - Ground Sync
11 - n.c.
12 - DDC_SDA
13 - H-sync
14 - V-sync
15 - DDC_SCL
- RD-
- GND
- GND
j
H
H
DDC data
0 - 5 V
0 - 5 V
j
j
j
j
DDC clock
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Technical Specifications and, Connections
Q549.2E LA
2.
EN 5
Cinch: Audio - In (VGA/DVI)
5
6
7
8
9
- Shield
- D1-
- D0+
- Shield
- D0-
Gnd
Data channel
H
j
j
H
Rd - Audio R
Wh - Audio L
0.5 VRMS / 10 kohm
0.5 VRMS / 10 kohm
jq
jq
Data channel
Gnd
Data channel
Data channel
Gnd
j
j
H
HDMI 1, 2, 3 & 4: Digital Video, Digital Audio - In
10 - CLK+
11 - Shield
12 - CLK-
13 - Easylink/CEC
14 - n.c.
19
18
1
2
Data channel
Control channel
j
E_06532_017.eps
jk
250505
15 - DDC_SCL
16 - DDC_SDA
17 - Ground
18 - +5V
19 - HPD
20 - Ground
DDC clock
DDC data
Gnd
j
jk
H
1
2
3
4
- D2+
- Shield
- D2-
Data channel
Gnd
Data channel
Data channel
j
H
j
j
j
Hot Plug Detect
Gnd
j
H
- D1+
2.4 Chassis Overview
Refer to chapter Block Diagrams for PWB/CBA locations.
2009-May-08
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Precautions, Notes, and Abbreviation List
EN 6
3.
Q549.2E LA
3. Precautions, Notes, and Abbreviation List
Index of this chapter:
3.1 Safety Instructions
3.2 Warnings
3.3 Notes
3.4 Abbreviation List
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.
3.1 Safety Instructions
3.3.2 Schematic Notes
Safety regulations require the following during a repair:
•
Connect the set to the Mains/AC Power via an isolation
transformer (> 800 VA).
•
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).
•
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!
•
•
•
•
•
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.
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.
The correct component values are listed on the Philips
Spare Parts Web Portal.
3.3.3 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
“Magazine”, then go to “Repair downloads”. Here you will find
Information on how to deal with BGA-ICs.
4. Switch “off” the set, and remove the wire between the
BGA Temperature Profiles
two pins of the Mains/AC Power plug.
Check the cabinet for defects, to prevent touching of any
inner parts by the customer.
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.
•
3.2 Warnings
3.3.5 Lead-free Soldering
•
All ICs and many other semiconductors are susceptible to
Due to lead-free technology some rules have to be respected
by the workshop during a repair:
electrostatic discharges (ESD w). Careless handling
during repair can reduce life drastically. Make sure that,
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.
•
•
•
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.
3.3 Notes
3.3.1 General
•
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.
•
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
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Precautions, Notes, and Abbreviation List
Q549.2E LA
3.
EN 7
3.3.6 Alternative BOM identification
3.4 Abbreviation List
It should be noted that on the European Service website,
“Alternative BOM” is referred to as “Design variant”.
0/6/12
SCART switch control signal on A/V
board. 0 = loop through (AUX to TV),
6 = play 16 : 9 format, 12 = play 4 : 3
format
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
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!
AARA
ACI
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
ADC
AFC
AGC
AM
AP
AR
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.
ASF
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.
ATSC
ATV
Auto TV
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
Board-Level Repair
MADE IN BELGIUM
MODEL :32PF9968/10
220-240V 50/60Hz
~
AV
128W
VHF+S+H+UHF
AVC
AVIP
B/G
PROD.NO:AG 1A0617 000001
BJ3.0E LA
S
10000_024_090121.eps
090121
BLR
BTSC
Broadcast Television Standard
Committee. Multiplex FMstereosound
system, originating from the USA and
used e.g. in LATAM and AP-NTSC
countries
Figure 3-1 Serial number (example)
3.3.7 Board Level Repair (BLR) or Component Level Repair
(CLR)
B-TXT
C
CEC
Blue TeleteXT
Centre channel (audio)
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!
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
See “E-DDC”
Monochrome TV system. Sound
carrier distance is 6.5 MHz
Dynamic Frame Insertion
Directions For Use: owner's manual
Digital Media Reader: card reader
Digital Multi Standard Decoding
Digital Natural Motion
CL
CLR
ComPair
CP
CSM
CTI
3.3.8 Practical Service Precautions
•
It makes sense to avoid exposure to electrical shock.
While some sources are expected to have a possible
dangerous impact, others of quite high potential are of
limited current and are sometimes held in less regard.
Always respect voltages. While some may not be
dangerous in themselves, they can cause unexpected
reactions that are best avoided. Before reaching into a
powered TV set, it is best to test the high voltage insulation.
It is easy to do, and is a good service precaution.
CVBS
•
DAC
DBE
DDC
D/K
DFI
DFU
DMR
DMSD
DNM
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Precautions, Notes, and Abbreviation List
EN 8
3.
Q549.2E LA
DNR
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
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
DRAM
DRM
DSP
ITV
LS
DST
DTCP
LATAM
LCD
LED
DVB-C
DVB-T
DVD
DVI(-d)
E-DDC
Digital Video Broadcast - Cable
Digital Video Broadcast - Terrestrial
Digital Versatile Disc
L/L'
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)
LPL
LS
LVDS
Mbps
M/N
EDID
Monochrome TV system. Sound
carrier distance is 4.5 MHz
Microprocessor without Interlocked
Pipeline-Stages; A RISC-based
microprocessor
EEPROM
Electrically Erasable and
MIPS
Programmable Read Only Memory
Electro Magnetic Interference
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
EMI
EPLD
EU
MOP
MOSFET
Matrix Output Processor
Metal Oxide Silicon Field Effect
Transistor, switching device
Motion Pictures Experts Group
Multi Platform InterFace
MUTE Line
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
EXT
MPEG
MPIF
MUTE
NC
FDS
FDW
FLASH
FM
NICAM
FPGA
FTV
Gb/s
G-TXT
H
HD
HDD
HDCP
NTC
Giga bits per second
Green TeleteXT
H_sync to the module
High Definition
NTSC
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
enabled for HDCP “software key”
decoding.
High Definition Multimedia Interface
HeadPhone
Monochrome TV system. Sound
carrier distance is 6.0 MHz
Inter IC bus
NVM
O/C
OSD
OTC
On Screen Display
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=
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 Pre-
conditioner)
P50
PAL
HDMI
HP
I
I2C
PCB
PCM
PDP
PFC
I2D
Inter IC Data bus
Inter IC Sound bus
Intermediate Frequency
Infra Red
I2S
IF
IR
IRQ
ITU-656
Interrupt Request
PIP
PLL
Picture In Picture
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.
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,
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
POD
POR
PTC
PWB
Printed Wiring Board (same as “PCB”)
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Precautions, Notes, and Abbreviation List
Q549.2E LA
3.
EN 9
PWM
QRC
QTNR
QVCP
RAM
Pulse Width Modulation
Y
Y/C
Luminance signal
Luminance (Y) and Chrominance (C)
signal
Component video. Luminance and
scaled color difference signals (B-Y
and R-Y)
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.
YPbPr
YUV
RGB
Component video
RC
Remote Control
RC5 / RC6
Signal protocol from the remote
RESET
ROM
RESET signal
Read Only Memory
RSDS
Reduced Swing Differential Signalling
data interface
R-TXT
SAM
S/C
Red TeleteXT
Service Alignment Mode
Short Circuit
SCART
Syndicat des Constructeurs
d'Appareils Radiorécepteurs et
SCL
SCL-F
SD
SDA
SDA-F
SDI
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
SDRAM
SECAM
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
SIF
SMPS
SoC
SOG
SOPS
SPI
Sync On Green
Self Oscillating Power Supply
Serial Peripheral Interface bus; a 4-
wire synchronous serial data link
standard
S/PDIF
SRAM
SRP
Sony Philips Digital InterFace
Static RAM
Service Reference Protocol
Small Signal Board
SSB
STBY
SVGA
SVHS
SW
STand-BY
800 × 600 (4:3)
Super Video Home System
Software
SWAN
Spatial temporal Weighted Averaging
Noise reduction
SXGA
TFT
1280 × 1024
Thin Film Transistor
THD
TMDS
Total Harmonic Distortion
Transmission Minimized Differential
Signalling
TXT
TXT-DW
UI
TeleteXT
Dual Window with TeleteXT
User Interface
uP
Microprocessor
UXGA
V
VESA
1600 × 1200 (4:3)
V-sync to the module
Video Electronics Standards
Association
VGA
VL
640 × 480 (4:3)
Variable Level out: processed audio
output toward external amplifier
Vestigial Side Band; modulation
method
VSB
WYSIWYR
What You See Is What You Record:
record selection that follows main
picture and sound
WXGA
XTAL
XGA
1280 × 768 (15:9)
Quartz crystal
1024 × 768 (4:3)
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Mechanical Instructions
EN 10
4.
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4. Mechanical Instructions
Index of this chapter:
4.1 Cable Dressing and Taping
4.2 Service Positions
Notes:
•
Figures below can deviate slightly from the actual situation,
due to the different set executions.
4.3 Assy/Panel Removal
4.4 Set Re-assembly
4.1 Cable Dressing and Taping
18310_210_090318.eps
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Figure 4-1 Cable dressing 32”
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4.
EN 11
18310_211_090318.eps
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Figure 4-2 Cable dressing 37"
18311_200_090506.eps
090506
Figure 4-3 Cable dressing 56" (21:9)
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Mechanical Instructions
EN 12
4.
Q549.2E LA
4.3.3 Ambi Light
4.2 Service Positions
Each Ambi Light unit is mounted on a subframe. Refer to
Figure 4-5 for details.
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 Foam Bars
1
1
Required for sets
42"
1
E_06532_018.eps
171106
18310_212_090318.eps
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Figure 4-4 Foam bars
Figure 4-5 Ambi Light unit
The foam bars (order code 3122 785 90580 for two pieces) can
be used for all types and sizes of Flat TVs.
1. Remove the Ambi Light cover [1].
2. Unplug the connector(s).
3. The PWB can now be taken from the subframe.
When defective, replace the whole unit.
Note: the screws that secure the AmbiLight units are longer
than the other screws.
See Figure 4-4 for details. Sets with a display of 42" and larger,
require four foam bars [1]. Ensure that the foam bars are
always supporting the cabinet and never only the display.
Caution: Failure to follow these guidelines can seriously
damage the display!
By laying the TV face down on the (ESD protective) foam bars,
a stable situation is created to perform measurements and
alignments. By placing a mirror under the TV, you can monitor
the screen.
4.3.4 Main Supply Panel
1. Unplug all connectors.
2. Remove the fixation screws.
3. Take the board out.
4.3 Assy/Panel Removal
When defective, replace the whole unit.
4.3.1 Rear Cover
4.3.5 IR & LED Board
Warning: Disconnect the mains power cord before you remove
the rear cover.
Note: it is not necessary to remove the stand while removing
the rear cover.
Refer to Figure 4-6 for details.
Removing the Piezo Touch Control Panel PWB requires
special attention. Refer to Piezo Touch Control Panel for
details.
2
1. Remove all screws of the rear cover.
flat coils are not damaged while lifting the rear cover from
the set.
2
2
4.3.2 Speakers
1
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 front side of the set.
When defective, replace the whole unit.
18310_213_090318.eps
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Figure 4-6 IR & LED Board
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Mechanical Instructions
Q549.2E LA
4.
EN 13
1. Remove the Main Supply Panel as earlier described.
2. Remove the stand [1] and its subframe [2].
3. Now you gain access the IR & LED board.
When defective, replace the whole unit.
4.3.6 Piezo Touch Control Panel
4
The flexfoil between Piezo Flexfoil Assy (mounted on the
plastic rim of the set), and the PWB as described below, is
extremely vulnerable. Do not pull hard at the PWB or
flexfoil.
3
Once the flexfoil has been damaged, the entire plastic rim
of the set (with the touch-control pads) has to be swapped!
The Piezo Touch Control Panel PWB contains ESD sensitive
components, implying that necessary industrial ESD
precautions must be taken during removing or remounting.
Refer to Figure 4-7, Figure 4-8 and Figure 4-9 for details.
18310_215_090318.eps
090319
Figure 4-9 Piezo Touch Control Panel -3-
1. To unplug the flexfoil connector, first the outer part of the
connector has to be moved upwards [3], before this part
can be turned sidewards [4] as shown in the picture. Now
the flexfoil can be removed from the connector and the
PWB can be taken out of the set.
When defective, replace the whole unit.
4.3.7 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. Remove the Wi-Fi module that is mounted on the SSB.
2. Unplug all connectors.
3. Remove the screws that secure the board.
4. The SSB can now be taken out of the set.
1
4.3.8 LCD Panel
18310_214_090318.eps
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1. Remove the Piezo Touch Control Panel PWB as earlier
described.
Figure 4-7 Piezo Touch Control Panel -1-
2. Remove the AL covers as earlier described.
3. Remove both Main Supply Panel and SSB as earlier
1. Gently pull the bottom side of the PWB out of the cabinet
until you can unplug the connector [1].
4. Remove the subframes of Main Power Supply and SSB [1].
5. Remove both AL subframes (with the AL unit still mounted
on it) by unplugging the connector [2] and removing the
screws [3].
6. Remove all remaining adhesive tapes and remove all
cables from their clamps.
7. Carefully remove the conducting tape [4], it must be re-
used during re-assembly!
2
8. Remove the remaining screws (indicated with an arrow)
that hold the plastic rim and remove the rim.
9. Now the LCD Panel can be lifted from the front cabinet.
The panel has to be slided downwards once it has been
lifted, because the brackets on the top cannot be removed
from the cabinet. You will see a conducting foam between
metal front and panel, near the location of the Piezo Touch
Control Panel.
When mounting a new LCD Panel:
1. Check if this conducting foam between panel and metal
front is in place !
18310_216_090318.eps
090319
2. Re-attach the conducting tape between LCD Panel and
metal rim [4] !
Figure 4-8 Piezo Touch Control Panel -2-
1. Now gently pull the top side of the PWB out of the cabinet
without damaging the flexfoil until you can unplug the
connector [2].
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Mechanical Instructions
EN 14
4.
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4
1
1
18310_217_090318.eps
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Figure 4-10 LCD Panel -1-
2
3
18310_218_090318.eps
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Figure 4-11 LCD Panel -2-
4.3.9 Wi-Fi antenna
Follow the instructions for LCD Panel until “remove plastic rim”.
After removal of this rim, you gain access to the Wi-Fi
antennas.
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.
•
Pay special attention not to damage the EMC foams in the
set. Ensure that EMC foams are mounted correctly.
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Service Modes, Error Codes, and Fault Finding
Q549.2E LA
5.
EN 15
5. Service Modes, Error Codes, and Fault Finding
Index of this chapter:
5.1 Test Points
5.2 Service Modes
5.3 Stepwise Start-up
5.4 Service Tools
5.5 Error Codes
•
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.
5.6 The Blinking LED Procedure
5.7 Protections
5.8 Fault Finding and Repair Tips
5.9 Software Upgrading
How to Activate SDM
For this chassis there are two kinds of SDM: an analog SDM
and a digital SDM. Tuning will happen according Table 5-1.
•
•
•
Analog SDM: use the standard RC-transmitter and key in
the code “062596”, directly followed by the “MENU” (or
HOME) button.
Note: It is possible that, together with the SDM, the main
menu will appear. To switch it “off”, push the “MENU”(or
HOME) button again.
the code “062593”, directly followed by the “MENU” (or
HOME) button.
Note: It is possible that, together with the SDM, the main
menu will appear. To switch it “off”, push the “MENU” (or
HOME) button again.
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.
Analog SDM can also be activated by grounding for a
moment the solder pad on the SSB, with the indication
“SDM” (see Service mode pad).
5.2 Service Modes
Service Default mode (SDM) and Service Alignment Mode
(SAM) offers several features for the service technician, while
the Customer Service Mode (CSM) is used for communication
between the call centre and the customer.
This chassis also offers the option of using ComPair, a
hardware interface between a computer and the TV chassis. It
offers the abilities of structured troubleshooting, error code
reading, and software version read-out for all chassis.
(see also section “5.4.1 ComPair”).
SDM
Note: For the new model range, a new remote control (RC) is
used with some renamed buttons. This has an impact on the
activation of the Service modes. For instance the old “MENU”
button is now called “HOME” (or is indicated by a “house” icon).
5.2.1 Service Default Mode (SDM)
18310_219_090318.eps
Purpose
090319
•
To create a pre-defined setting, to get the same
measurement results as given in this manual.
Figure 5-1 Service mode pad
•
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 “5.3 Stepwise Start-up”.
After activating this mode, “SDM” will appear in the upper right
corner of the screen (when a picture is available).
•
To start the blinking LED procedure where only LAYER 2
errors are displayed. (see also section “5.5 Error Codes”).
How to Navigate
When the “MENU” (or HOME) button is pressed on the RC
transmitter, the TV set will toggle between the SDM and the
normal user menu.
Specifications
Table 5-1 SDM default settings
How to Exit SDM
Use one of the following methods:
Default
system
•
•
Switch the set to STAND-BY via the RC-transmitter.
Via a standard customer RC-transmitter: key in “00”-
sequence.
Region
Freq. (MHz)
Europe, AP(PAL/Multi)
Europe, AP DVB-T
475.25
PAL B/G
DVB-T
546.00 PID
Video: 0B 06 PID
PCR: 0B 06 PID
Audio: 0B 07
5.2.2 Service Alignment Mode (SAM)
Purpose
•
•
•
To perform (software) alignments.
To change option settings.
To easily identify the used software version.
•
•
All picture settings at 50% (brightness, colour, contrast).
All sound settings at 50%, except volume at 25%.
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5.
Q549.2E LA
•
•
To view operation hours.
To display (or clear) the error code buffer.
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” button. After activating SAM
with this method a service warning will appear on the screen,
continue by pressing the “OK” button on the RC.
Display Option
Code
Contents of SAM (see also Table 6-4)
39mm
•
Hardware Info.
PHILIPS
040
MODEL:
–
A. SW Version. Displays the software version of the
32PF9968/10
main software (example: Q5492-1.2.3.4 =
PROD.SERIAL NO:
AG 1A0620 000001
AAAAB_X.Y.W.Z).
(CTN Sticker)
•
•
AAAA= the chassis name.
E_06532_038.eps
B= the SW branch version. This is a sequential
number (this is no longer the region indication, as
the software is now multi-region).
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).
240108
Figure 5-2 Location of Display Option Code sticker
•
•
•
Store - go right. All options and alignments are stored
when pressing “cursor right” (or the “OK” button) and then
the “OK”-button.
SW Maintenance.
–
–
–
B. STBY PROC Version. Displays the software
version of the stand-by processor.
SW Events. Not useful for Service purposes. In case
of specific software problems, the development
department can ask for this info.
HW Events. Not useful for Service purposes. In case
of specific software problems, the development
department can ask for this info.
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 display. Displays the accumulated total
of display operation hours. So, this one keeps up the
lifetime of the display itself, mainly to compensate the
degeneration behaviour.
Test settings. For development purposes only.
Development file versions. Not useful for Service
purposes, this information is only used by the development
department.
Upload to USB. To upload several settings from the TV to
an USB stick, which is connected to the SSB. 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 select each item
separately, press “cursor right” (or the “OK” button),
confirm with “OK” and wait until “Done” appears. In case
the download to the USB stick was not successful “Failure”
will appear. In this case, check if the USB stick is
connected properly and if the directory “repair” is present in
the root of the USB stick. Now the settings are stored onto
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 if a picture is available. This
method is created to be able to save the customer’s TV
settings and to store them into another SSB.
•
•
•
•
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 maximum 10 errors). The most recent
error is displayed at the upper left (for an error explanation
see section “5.5 Error Codes”).
Reset Error Buffer. When “cursor right” (or the “OK
button) is pressed and then the “OK” button is pressed, the
error buffer is reset.
Alignments. This will activate the “ALIGNMENTS” sub-
menu. See Chapter 6. Alignments.
Dealer Options. Extra features for the dealers.
Options. Extra features for Service. For more info
regarding option codes, 6. Alignments.
Note that if the option code numbers are changed, these
have to be confirmed with pressing the “OK” button before
the options are stored. Otherwise changes will be lost.
Initialize NVM. The moment the processor recognizes a
corrupted NVM, the “initialize NVM” line will be highlighted.
Now, two things can be done (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.
•
Download to USB. To download several settings from the
USB stick to the TV, same way of working needs to be
followed 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.
–
Note: When the NVM is corrupted, or replaced, there is a high
possibility that no picture appears because the display code is
not correct. So, before initializing the NVM via the SAM, a
picture is necessary and therefore the correct display option
has to be entered. Refer to Chapter 6. Alignments for details.
To adapt this option, it’s advised to use ComPair (the correct
HEX values for the options can be found in Chapter 6.
Alignments) or a method via a standard RC (described below).
How to Navigate
•
In SAM, the 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 screen, move the “CURSOR UP/DOWN” key to
display the next/previous menu items.
Changing the display option via a standard RC: Key in the
code “062598” directly followed by the “MENU” (or HOME)
button and “XXX” (where XXX is the 3 digit decimal display
code as mentioned in Table 6-3). 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
•
With the “CURSOR LEFT/RIGHT” keys, it is possible to:
–
–
(De) activate the selected menu item.
(De) activate the selected sub menu.
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Q549.2E LA
5.
EN 17
•
With the “OK” key, it is possible to activate the selected
action.
NVM. ComPair will foresee in a possibility to do this. This
identification number is the 12nc number of the SSB.
12NC display. Shows the 12NC of the display.
12NC supply. Shows the 12NC of the supply.
12NC “fan board”. Shows the 12NC of the “fan board”-
module (for sets with LED backlight)
•
•
•
How to Exit SAM
Use one of the following methods:
•
•
Switch the TV set to STAND-BY via the RC-transmitter.
Via a standard RC-transmitter, key in “00” sequence, or
select the “BACK” key.
•
12NC “LED Dimming Panel”. Shows the 12NC of the
LED dimming Panel (for sets with LED backlight).
Software versions
•
5.2.3 Customer Service Mode (CSM)
Current main SW. Displays the built-in main software
software can be upgraded. As this software is consumer
upgradeable, it will also be published on the Internet.
Example: Q5492_1.2.3.4
Standby SW. Displays the built-in stand-by processor
software version. Upgrading this software will be possible
via ComPair or via USB (see section 5.9 Software
Upgrading).
Example: STDBY_88.68.1.2.
MOP ambient light SW. Displays the MOP ambient light
EPLD SW.
LED Dimming SW. Displays the LED Dimming EPLD SW-
version (for sets with LED backlight).
Local contrast SW. Displays the MOP local contrast SW-
version.
Purpose
When a customer is having problems with his TV-set, he can
call his dealer or the Customer Helpdesk. The service
technician can then ask the customer to activate the CSM, in
order to identify the status of the set. Now, the service
technician can judge the severity of the complaint. In many
cases, he can advise the customer how to solve the problem,
or he can decide if it is necessary to visit the customer.
The CSM is a read only mode; therefore, modifications in this
mode are not possible.
When in this chassis CSM is activated, a testpattern will be
displayed during 5 seconds (1 second Blue, 1 second Green
and 1 second Red, then again 1 second Blue and 1 second
Green). This test pattern is generated by the PNX5100. So if
this test pattern is shown, it could be determined that the back
end video chain (PNX5100, LVDS, and display) of the SSB is
working.
•
•
•
•
Quality items
•
•
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 info can be handy if no information is displayed.
Child lock. Not active / active. This is a combined item for
locks. If any lock (Preset lock, child lock, lock after or
parental lock) is active, the item shall show “active”.
HDMI HDCP key. 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.
Ethernet MAC address. Displays the MAC address
present in the SSB.
Wireless MAC address. Displays the wireless MAC
address to support the Wi-Fi functionality.
•
Also when CSM is activated, the LAYER 1 error is displayed via
blinking LED. Only the latest error is displayed. (see also
section 5.5 Error Codes).
•
•
How to Activate CSM
Key in the code “123654” via the standard RC transmitter.
•
•
BDS key. Indicates if the “BDS level 1” key is valid or not.
CI slot present. If the common interface module is
detected the result will be “YES” or “NO”.
Note: Activation of the CSM is only possible if there is no (user)
menu on the screen!
•
•
•
HDMI input format. The detected input format of the
HDMI.
HDMI audio input stream. The HDMI audio input stream
is displayed: present / not present.
HDMI video input stream. The HDMI video input stream
is displayed: present / not present.
How to Navigate
By means of the “CURSOR-DOWN/UP” knob on the RC-
transmitter, can be navigated through the menus.
Contents of CSM
The contents are reduced to 3 pages: General, Software
versions and Quality items. The group names itself are not
shown anywhere in the CSM menu.
How to Exit CSM
Press “MENU” (or HOME) / “Back” key on the RC-transmitter.
General
•
Set Type. This information is very helpful for a helpdesk/
workshop as reference for further diagnosis. In this way, it
is not necessary for the customer to look at the rear of the
TV-set. Note that if an NVM is replaced or is initialized after
corruption, this set type has to be re-written to NVM.
ComPair will foresee in a possibility to do this.
•
Production Code. Displays the production code (the serial
number) of the TV. Note that if an NVM is replaced or is
initialized after corruption, this production code has to be
re-written to NVM. ComPair will foresee a in possibility to
do this.
•
•
•
•
Installed date. Indicates the date of the first installation of
the TV. This date is acquired via time extraction.
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
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Service Modes, Error Codes, and Fault Finding
EN 18
5.
Q549.2E LA
mode with a faulty FET 7U08 is done, you can destroy all IC’s
5.3 Stepwise Start-up
supplied by the +3V3, due to overvoltage (12V on 3V3-line). It
is recommended to measure first the FET 7U08 or others
FET’s on shortcircuit before activating SDM via the service
pads.
When the TV is in a protection state due to an error detected by
stand-by software (error blinking is displayed) and SDM is
activated via shortcutting 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 layer 2 = 18 is blinking
while the TV is restarted via SDM, the Stand-by Processor will
enable the 3V3, but the TV set 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
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.
Mains
off
Mains
on
WakeUp
- WakeUp requested
requested
- Acquisition needed
- No data Acquisition
required
- tact SW pushed
- last status is hibernate
Semi
St by
St by
Active
- St by requested
after mains ON
- tact SW pushed
- Tact switch Pushed
- last status is hibernate
after mains ON
Tact switch
pushed
WakeUp
requested
(SDM)
GoToProtection
Hibernate
GoToProtection
Protection
I_17660_124.eps
140308
Figure 5-3 Transition diagram
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Q549.2E LA
5.
EN 19
Off
Stand by or
Protection
Mains is applied
Standby Supply starts running.
All standby supply voltages become available .
st-by µP resets
Initialise I/O pins of the st-by µP:
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 reset-AVC LOW (reset state)
- Switch WP-NandFlash LOW(protected)
- Switch reset-system LOW (reset state)
- Switch reset-5100 LOW (reset state)
- Switch reset-Ethernet LOW (reset state)
- Switch reset-ST7100 LOW (reset state)
- keep reset-NVM high, Audio-reset and Audio-Mute-Up HIGH
- Switch Audio-Reset high.
It is low in the standby mode if the standby
mode lasted longer than 10s.
start keyboard scanning, RC detection. Wake up reasons are
off.
Important remark; the appearance of the +12V
will start the +1V2 DCDC converter automatically
Switch ON Platform and display supply by switching
LOW the Standby line.
+12V, +/-12Vs, AL and Bolt-on power
is switched on, followed by the +1V2 DCDC converter
Power-OK error:
Layer1: 3
Layer2: 16
Detect2 should be polled on the standard 40ms
interval and startup should be continued when
detect2 becomes high.
Detect2 high received
No
within 1 second?
Yes
Enter protection
The supply-fault line is a
1V2 DCDC or class D error:
Layer1: 2
Supply-fault I/O
High?
combination of the DCDC
converters and the audio
protection line.
No
Layer2: 19
Yes
Enter protection
This enables the +3V3 and
+5V converter. As a result,
also +5V-tuner, +2V5, +1V8-
PNX8541 and +1V8-PNX5100
become available.
Enable the DCDC converter for+3V3 and
+5V. (ENABLE-3V3)
Delay of 50ms needed because of the latency of the detect-1 circuit.
This delay is also needed for the PNX5100. The reset of the
PNX5100 should only be released 10ms after powering the IC.
Wait 50ms
3V3 / 5V DCDC or class D error:
Layer1: 2
Supply-fault I/O
High?
No
Layer2: 11
yes
Enter protection
Detect-1 I/O line
High?
Detect-2 I/O line
High?
Disable 3V3, switch standby
line high and wait 4 seconds
No
No
Yes
Added to make the system more robust to
power dips during startup. At this point the
regular supply fault detection algorithm which
normally detects power dips is not up and
running yet.
Yes
Voltage output error:
Layer1: 2
Layer2: 18
Enable the supply fault detection
algorithm
Enter protection
Set I²C slave address
of Standby µP to (A0h)
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.
Switch LOW the RESET-NVM line to allow access to NVM. (Add a
2ms delay before trying to address the NVM to allow correct NVM
initialization , this is not issue in this setup , the delay is automatically
covered by the architectural setup)
Switch HIGH the WP-NandFlash to
allow access to NAND Flash
No
Release Reset-PNX5100.
PNX5100 will start booting.
Before PNX8541 boots, the PNX5100 should have
set its PCI arbiter (bootscript command). To allow
this, approx. 1ms is needed. This 1ms is extended
to 10ms to also give some relaxation to the supplies.
Wait 10ms (minimum) to allow the bootscript
of the PNX5100 to configure the PCI arbiter
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 ?
Yes
No
No
Cold boot?
Yes
Release AVC system reset
Feed warm boot script
Release AVC system reset
Feed cold boot script
Release AVC system reset
Feed initializing boot script
disable alive mechanism
I_17660_125a.eps
140308
To I_17660_125b.eps
To I_17660_125b.eps
Figure 5-4 “Off” to “Semi Stand-by” flowchart (part 1)
2009-May-08
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Service Modes, Error Codes, and Fault Finding
EN 20
5.
Q549.2E LA
From I_17660_125a.eps
From I_17660_125a.eps
Reset-system is switched HIGH by the
AVC at the end of the bootscript
Reset-system is switched HIGH by the
AVC at the end of the bootscript
Release reset MPEG4 module:
BOLT-ON-IO: High
Reset-system is connected to USB-reset,
4to1HDMI Mux and channel decoder.
AVC releases Reset-Ethernet when the
end of the AVC boot-script is detected
AVC releases Reset-Ethernet when the
end of the AVC boot-script is detected
MPEG4 module will start booting
autonomously.
This cannot be done through the bootscript,
the I/O is on the standby µP
Reset-Audio and Audio-Mute-Up are
switched by MIPS code later on in the
startup process
Reset-Audio and Audio-Mute-Up are
switched by MIPS code later on in the
startup process
Wait 3000 ms
Timing need to be updated if
more mature info is available.
Log SW event:
STi7100PorFailure
POR polling positive ?
No
Bootscript ready
in 1250 ms?
No
No
Yes
Wait 200 ms
yes
Set I²C slave address
of Standby µP to (60h)
Alive
Start alive IIC polling
mechanism
yes
POR polling positive ?
No
polling
RPC start (comm. protocol)
NOK
Timing needs to
Log SW event
STi7100AliveFailedError
and generate fast cold reboot
eventually followed by a cold
reboot.
be updated if more
mature info is
available.
bootSTi7100PorFailure:
Log HW error
Flash to Ram
image transfer succeeded
within 30s?
No
Layer1: 2
Code =
Layer1: 2
Layer2: 15
Layer2: 38
and generate cold boot
Yes
Timing needs to be
updated if more
mature info is
available .
Code =
Layer1: 2
Layer2: 53
Switch AVC PNX8541
in reset (active low)
SW initialization
succeeded
within 20s?
No
Wait 10ms
Yes
Enable Alive check mechanism
Switch the NVM reset
line HIGH.
MIPS reads the wake up reason
from standby µP.
Wait until AVC starts to
communicate
Disable all supply related protections and
switch off the +3V3 +5V DC/DC converter.
Initialize audio
Wait 5ms
In case of a LED backlight display, a LED DIM panel is
present which is fed by the Vdisplay. To power the LED DIM
Panel, the Vdisplay switch driven by the PNX5100 must be
closed. The display startup sequence is taken care of by the
LED DIM panel.
Switch on the display in case of a LED backlight
display by sending the TurnOnDisplay(1) (I²C)
command to the PNX5100
switch off the remaining DC/DC
converters
Switch Standby
I/O line high.
3-th try?
Yes
Download firmware into the channel
decoder
No
Blink Code as
error code
Downloaded
successfully ?
Third try?
No
Enter protection
Yes
Yes
Log channel decoder error:
Layer1: 2
initialize tuner, Master IF and channel
decoder
Layer2: 37
Initialize source selection
Initialize video processing IC 's
initialize AutoTV
Initialize Ambilight with Lights off .
Semi-Standby
I_17660_125b.eps
140308
Figure 5-5 “Off” to “Semi Stand-by” flowchart (part 2)
2009-May-08
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Service Modes, Error Codes, and Fault Finding
Q549.2E LA
5.
EN 21
Constraints taken into account:
- Display may only be started when valid LVDS output clock can be delivered by the AVC.
- Between 5 and 50 ms after power is supplied, display should receive valid lvds clock .
- minimum wait time to switch on the lamp after power up is200ms.
action holder: AVC
action holder: St-by
autonomous action
Semi Standby
The assumption here is that a fast toggle (<2s)
can only happen during ON-> SEMI ->ON. In
these states, the AVC is still active and can
provide the 2s delay. If the transition ON-> SEMI-
>STBY->SEMI -> ON can be made in less than 2s,
the semi -> stby transition has to be delayed
until the requirement is met.
Wait until previous on-state is left more than 2
seconds ago. (to prevent LCD display problems)
Assert RGB video blanking
and audio mute
CPipe already generates a valid output
clock in the semi -standby state: display
startup can start immediately when leaving
the semi-standby state.
The timings to be used in
combination with the PanelON
command for this specific display
Switch on the display by sending the
TurnOnDisplay(1) (I²C) command to the PNX5100
wait 250ms (min. = 200ms)
Initialize audio and video
processing IC's and functions
according needed use case.
Switch on LCD backlight
(Lamp-ON)
Wait until valid and stable audio and video, corresponding to
the requested output is delivered by the AVC.
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.
Switch Audio-Reset low and wait 5ms
Release audio mute and wait 100ms before any other audio
handling is done (e.g. volume change)
unblank the video.
The higher level requirement is that the
ambilight functionality may not be switched on
before the backlight is turned on in case the
set contains a CE IPB inverter supply.
Switch on the Ambilight functionality according the last status
settings.
I_17660_126.eps
140308
Active
Figure 5-6 “Semi Stand-by” to “Active” flowchart
2009-May-08
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Service Modes, Error Codes, and Fault Finding
EN 22
5.
Q549.2E LA
Constraints taken into account:
- Display may only be started when valid LVDS output clock can be delivered by the AVC.
- Between 5 and 50 ms after power is supplied, display should receive valid lvds clock .
- minimum wait time to switch on the lamp after power up is200ms.
- To have a reliable operation of the backlight, the backlight should be driven with a PWM duty cycle of 100%
during the first second. Only after this first one or two seconds, the PWM may be set to the required output level
(Note that the PWM output should be present before the backlight is switched on). To minimize the artefacts, the
picture should only be unblanked after these first seconds.
action holder: AVC
action holder: St-by
autonomous action
Semi Standby
The assumption here is that a fast toggle(<2s)
can only happen during ON->SEMI ->ON. In
these states, the AVC is still active and can
provide the 2s delay. If the transition ON -> SEMI-
Wait until previous on-state is left more than 2
seconds ago. (to prevent LCD display problems)
->STBY -> SEMI -> ON can be made in less than 2s,
the semi-> stby transition has to be delayed
until the requirement is met.
Assert RGB video blanking
and audio mute
CPipe already generates a valid output
clock in the semi -standby state: display
startup can start immediately when leaving
the semi-standby state.
Switch on the display by sending the
TurnOnDisplay(1) (I²C) command to the PNX5100
wait 250ms (min. = 200ms)
Initialize audio and video
processing IC's and functions
according needed use case.
Switch off the dimming backlight feature, set
the BOOST control to nominal and make sure
PWM output is set to 100%
Switch on LCD backlight
(Lamp-ON)
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 1s (internal inverter LPL displays
OR the backlight PWM has been on for 2s (external inverter LPL displays)] .
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.
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 and BOOST output
and unblank the video.
The higher level requirement is that the
ambilight functionality may not be switched on
before the backlight is turned on in case the
set contains a CE IPB inverter supply.
Switch on the Ambilight functionality according the last status
settings.
I_17660_127.eps
Active
140308
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Service Modes, Error Codes, and Fault Finding
Q549.2E LA
5.
EN 23
action holder: AVC
Constraints taken into account:
- Display may only be started when valid LVDS output clock can be delivered by the AVC.
- Between 5 and 50 ms after power is supplied, display should receive valid lvds clock .
- minimum wait time to switch on the lamp after power up is200ms.
action holder: St-by
autonomous action
Semi Standby
The assumption here is that a fast toggle(<2s)
can only happen during ON-> SEMI -> ON. In
provide the 2s delay. If the transition ON -> SEMI-
>STBY->SEMI->ON can be made in less than 2s,
the semi -> stby transition has to be delayed
until the requirement is met.
Wait until previous on-state is left more than 2
seconds ago. (to prevent LCD display problems)
Assert RGB video blanking
and audio mute
CPipe already generates a valid output
clock in the semi -standby state: display
startup can start immediately when leaving
the semi-standby state.
Switch on the display by sending the OUTPUT-
ENABLE (I²C) command to the LED DIM panel
wait 250ms (min. = 200ms)
TBC in def. spec
Initialize audio and video
processing IC's and functions
according needed use case.
Switch on LCD backlight
(Lamp-ON)
Wait until valid and stable audio and video, corresponding to
the requested output is delivered by the AVC.
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.
Switch Audio-Reset low and wait 5ms
Release audio mute and wait 100ms before any other audio
handling is done (e.g. volume change)
unblank the video.
The higher level requirement is that the
ambilight functionality may not be switched on
before the backlight is turned on in case the
set contains a CE IPB inverter supply.
Switch on the Ambilight functionality according the last status
settings.
Active
I_17660_128.eps
140308
Figure 5-8 “Semi Stand-by” to “Active” flowchart (LED backlight)
2009-May-08
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Service Modes, Error Codes, and Fault Finding
EN 24
5.
Q549.2E LA
action holder: AVC
Active
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 Ambilight
The higher level requirement is that the
backlight may not be switched off before the
ambilight functionality is turned off in case the
set contains a CE IPB inverter supply.
Wait until Ambilight has faded out
(fixed wait time of x s)
switch off LCD backlight
Mute all video outputs
Wait 250ms (min. = 200ms)
Switch off the display by sending the
TurnOnDisplay(0) (I²C) command to the PNX5100
I_17660_129.eps
Semi Standby
140308
Figure 5-9 “Active” to “Semi Stand-by” flowchart (LCD non DFI)
2009-May-08
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Service Modes, Error Codes, and Fault Finding
Q549.2E LA
5.
EN 25
Semi Stand by
action holder: MIPS
action holder: St-by
autonomous action
If ambientlight functionality was used in semi -standby
(lampadaire mode), switch off ambient light
*) If this is not performed and the set is
Delay transition until ramping down of ambient light is
finished. *)
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
Switch reset-PNX5100 LOW
Switch reset-ST7100 LOW
Switch Reset-Ethernet LOW
Wait 10ms
Switch the NVM reset line HIGH
Switch het WP-Nandflash LOW
Disable all supply related protections and switch off
the DC/DC converters (ENABLE-3V3)
Wait 5ms
Switch OFF all supplies by switching HIGH the
Standby I/O line
Important remark:
release reset audio 10 sec after
entering standby to save power
I_17660_130.eps
Stand by
140308
Figure 5-10 “Semi Stand-by” to “Stand-by” flowchart
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Service Modes, Error Codes, and Fault Finding
EN 26
5.
Q549.2E LA
MP
action holder: MIPS
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
If needed to speed up this transition,
this block could be omitted . This is
depending on the outcome of the
safety investigations .
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 all supplies by switching HIGH the
Standby I/O line.
Flash the Protection-LED in order to indicate
protection state*
(*): This can be the standby LED or the ON LED
depending on the availability in the set
I_17660_131.eps
140308
Protection
Figure 5-11 “To Protection State” flowchart
2009-May-08
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Service Modes, Error Codes, and Fault Finding
Q549.2E LA
5.
EN 27
5.4.2 Memory and Audio Test
5.4 Service Tools
5.4.1 ComPair
Introduction
With this tool you can test the memory of the PNX8543, as well
if the PNX5100 is enabled and audio-testing.
What is needed?
ComPair (Computer Aided Repair) is a Service tool for Philips
–
–
An USB-stick
Consumer Electronics products. and offers the following:
1. ComPair helps 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
knowledge on I2C or UART commands is necessary,
because ComPair takes care of this.
“TESTSCRIPT Q549”. Downloadable from the Philips
Service website from the section “Software for Service
only”
–
A ComPair/service cable (3138 188 75051).
Procedure
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 up possibilities.
Create a directory “JETTFILES” under the root of the USB-stick
–
–
–
Place “MemTestTV543.bin” and “autojett.bin” (available in
“TESTSCRIPT Q549”) under the directory “JETTFILES”
Install the computer program “BOARDTESTLOGGER”
(available in “TESTSCRIPT Q549”) on the PC
Connect a “ComPair/service”-cable from the service-
connector in the set, into the “multi function” jack at the
front of the ComPair II box :
Specifications
ComPair consists of a Windows based fault finding program
The ComPair II interface box is connected to the PC via an
USB cable. For the TV chassis, the ComPair interface box and
the TV communicate via a bi-directional cable via the service
connector(s).
The ComPair fault finding program is able to determine the
problem of the defective television, by a combination of
automatic diagnostics and an interactive question/answer
procedure.
Required settings in ComPair :
- start up the ComPair application.
- Select the correct database (open file “Q549.2E LA”, this
will set the ComPair interface in the appropriate mode).
- Close ComPair
–
–
Start up the program “BOARDTESTLOGGER” and select
“COMx”
Put the USB stick into the TV and start up the TV while
pressing the “i+”-button on a Philips DVD RC6 remote
control (it’s also possible to use a TV remote in “DVD”-
mode)
How to Connect
This is described in the chassis fault finding database in
ComPair.
–
–
On the PC the memory test is shown now. This is also
visible on the TV screen.
In “BOARDTESTLOGGER” an option “Send extra UART
command” can be found where you can select “AUD1”.
This command generates hear test tones of 200, 400,
1000, 2000, 3000, 5000, 8000 and 12500Hz.
TO TV
TO
TO
SERVICE
CONNECTOR
TO
2
UART SERVICE
CONNECTOR
I
C
UART SERVICE
CONNECTOR
ComPair II
Multi
function
RC in
RC out
5.5 Error Codes
Optional Power Link/ Mode
2
Switch
Activity
I
C
RS232 /UART
5.5.1 Introduction
PC
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.
ComPair II Developed by Philips Brugge
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).
Optional power
5V DC
HDMI
2
I
C only
E_06532_036.eps
150208
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.
Figure 5-12 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!
New in this chassis is the way errors can be displayed:
How to Order
ComPair II order codes:
•
There is a simple blinking LED procedure for board level
repair (home repair) so called LAYER 1 errors next to the
existing errors which are LAYER 2 errors (see Table 5-2).
•
•
•
ComPair II interface: 3122 785 91020.
Software is available via the Philips Service web portal.
ComPair UART interface cable for Q54x.x.
–
–
LAYER 1 errors are one digit errors.
LAYER 2 errors are 2 digit errors.
(using 3.5 mm Mini Jack connector): 3138 188 75051.
•
•
In protection mode.
–
–
From consumer mode: LAYER 1.
From SDM mode: LAYER 2.
Note: While encounting problems, contact the local support
desk.
Fatal errors, if I2C bus is blocked and the set reboots,
CSM and SAM are not selectable.
–
–
From consumer mode: LAYER 1.
From SDM mode: LAYER 2.
Important remark:
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Service Modes, Error Codes, and Fault Finding
EN 28
5.
Q549.2E LA
For all errors detected by MIPS which are fatal =>
rebooting of the TV set (reboot starts after LAYER 1
error blinking), one should short the solder paths
(SDM) at start-up from the power OFF state by mains
interruption and not via the power button to trigger the
SDM via the hardware pins.
•
•
Via polling on I/O pins going to the stand-by processor.
Via sensing of analog values on the stand-by processor or
the PNX8543.
•
Via a “not acknowledge” of an I2C communication.
Take notice that some errors need several minutes 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.
•
•
•
In CSM mode
–
When entering CSM: error LAYER 1 will be displayed
by blinking LED. Only the latest error is shown.
In SDM mode
When SDM is entered via Remote Control code or the
hardware pins, LAYER 2 is displayed via blinking LED.
In the ON state
In “Display error mode”, set with the RC commands
–
–
“mute_06250X _OK” LAYER 2 errors are displayed via
blinking LED.
•
Error display on screen.
–
–
In CSM no error codes are displayed on screen.
In SAM the complete error list is shown.
Basically there are three kinds of errors:
•
Errors detected by the Stand-by software which lead to
protection. These errors will always lead to protection and
an automatic start of the blinking LED LAYER 1 error.
(see section “5.6 The Blinking LED Procedure”).
•
Errors detected by the Stand-by software which not
lead to protection. In this case the front LED should blink
the involved error. See also section “5.5 Error Codes, 5.5.4
Error Buffer, Extra Info”. Note that it can take up several
minutes before the TV starts blinking the error (e.g. LAYER
1 error = 2, LAYER 2 error = 15 or 53).
•
Errors detected by main software (MIPS). In this case
the error will be logged into the error buffer and can be read
out via ComPair, via blinking LED method LAYER 1-2
error, or in case picture is visible, via SAM.
5.5.2 How to Read the Error Buffer
Use one of the following methods:
•
On screen via the SAM (only when a picture is visible).
E.g.:
–
–
00 00 00 00 00: No errors detected
23 00 00 00 00: Error code 23 is the last and only
detected error.
–
–
37 23 00 00 00: Error code 23 was first detected and
error code 37 is the last detected error.
Note that no protection errors can be logged in the
error buffer.
•
•
Via the blinking LED procedure. See section 5.5.3 How to
Clear the Error Buffer.
Via ComPair.
5.5.3 How to Clear the Error Buffer
Use one of the following methods:
•
•
•
By activation of the “RESET ERROR BUFFER” command
in the SAM menu.
With a normal RC, key in sequence “MUTE” followed by
“062599” and “OK”.
If the content of the error buffer has not changed for 50+
hours, it resets automatically.
5.5.4 Error Buffer
In case of non-intermittent faults, clear the error buffer before
starting to repair (before clearing the buffer, write down the
content, as this history can give 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.
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Service Modes, Error Codes, and Fault Finding
Q549.2E LA
5.
EN 29
Table 5-2 Error code overview
Monitored Error/ Error Buffer/
Layer 1 Layer 2 by Prot Blinking LED Device
Description
I2C3
I2C2
Defective Board
SSB
2
2
2
13
14
15
MIPS
E
E
P
BL / EB
BL / EB
BL
SSB
SSB/Display
MIPS
SSB/display
PNX doesn’t boot (HW cause)
PNX 5100 doesn’t boot
Stby µP
PNX8543/PNX51XX SSB
I2C blocked
12V
3
3
2
3
2
2
2
2
2
16
17
18
12
21
23
24
25
27
Stby µP
MIPS
Stby µP
MIPS
MIPS
MIPS
MIPS
MIPS
MIPS
P
E
P
E
E
E
E
E
E
BL
EB
BL
EB
EB
EB
EB
EB
EB
/
Supply
Inverter or display supply
1V2, 3V3, 5V to low
Temp protection
PNX 5100
/
/
SSB
Display
SSB
SSB
SSB
SSB
SSB
/
PNX5100
TDA9996
PCA9540
STM24C08
HDMI mux
I2C switch
Boot-NVM PNX5100
Multi Standard demodulator
(Micronas IF)
DRX3616K
DRX3626K
ARM (ambilight)
FPGA (Local contrast)
Tuner
8
2
2
7
7
7
7
2
2
5
28
29
34
41
42
43
44
/
MIPS
MIPS
MIPS
MIPS
MIPS
MIPS
MIPS
MIPS
Stby µP
MIPS
E
E
E
E
E
E
E
E
E
E
EB
EB
EB
EB
EB
EB
EB
X
NXP LPC2103
Altera
AL module or DC/DC
SSB
UV1783S/HD1816
PCA9533
SSB
Fan I2C expander
T° sensor
FAN module
T° sensor
FAN
LM 75
FAN 1
FAN 2
FAN
Main NVM
STM24C128
PNX8543
Altera
SSB
PNX doesn’t boot (SW cause)
Display (only 56PFL9954H)
53
64
BL
SSB
BL / EB
Display
Extra Info
•
Error 21 (PNX 5100). When there is no I2C communication
towards the PNX5100, the TV set will start rebooting and
display LAYER 1 error = 2. Disconnect the mains cord now
and start up the TV set with the solder path (SDM) short to
ground during start-up to activate the LAYER 2 error
blinking. Error “21” will be logged and displayed via the
blinking LED procedure after a few moments from start-up.
Remark : the rebooting can be recognized via a ComPair
interface and Hyperterminal (for Hyperterminal settings,
see section “5.8 Fault Finding and Repair Tips, 5.8.6
Logging”). It is shown that the loggings which are
generated by the main software keep continuing. Check in
the logging for keywords like e.g. “Device error 21”.
Error 23 (HDMI). When there is no I2C communication
towards the HDMI mux after start-up, LAYER 2 error = 23
will be logged and displayed via the blinking LED
procedure if SDM is switched on. It should be noted that in
case a new spare EDID MUX device is used for repair, the
initial default address must be changed from “C0” to “CE”,
to be done via ComPair.
•
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 section “5.8 Fault Finding and Repair Tips, 5.8.6
Logging). It’s shown that the loggings which are generated
by the main software keep continuing. In this case
diagnose has to be done via ComPair.
•
•
Error 13 (I2C bus 3 blocked). 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 here, is to use ComPair.
Error 15 (PNX8543,PNX5100 doesn’t boot). Indicates
that the main processor/PNX5100 was not able to read his
bootscript. This error will point to a hardware problem
around the PNX8543 (supplies not OK, PNX 8543
completely dead, I2C link between PNX and Stand-by
Processor broken, etc...). When error 15 occurs it is also
possible that I2C1 bus is blocked (NVM). I2C1 can be
indicated in the schematics as follows: SCL-UP-MIPS,
SDA-UP-MIPS, SCL-1, SDA-1, SCL-2 or SDA-2.
Other root causes for this error can be due to hardware
problems from the NVM PNX5100, DDR’s and the
bootscript reading from the PNX5100.
•
•
Error 24 (I2C switch). When there is no I2C
communication towards the I2C switch, LAYER 2
error = 24 will be logged and displayed via the blinking LED
procedure when SDM is switched on. Remark : this only
works for TV sets with an I2C controlled screen included.
Error 25 (Boot-NVM PNX5100). Same behaviour as
described in “Error 21 (PNX5100)”.
•
•
•
•
Error 16 (12V). This voltage is made in the power supply
and results in protection (LAYER 1 error = 3) in case of
absence. When SDM is activated we see blinking LED
LAYER 2 error = 16.
Error 27 (Micronas IF). When there is no I2C
communication towards the multi standard demodulator,
LAYER 2 error = 27 will be logged and displayed via the
blinking LED procedure if SDM is switched on.
Error 17 (Invertor or Display Supply). Here the status of
the “Power OK” is checked by software, no protection will
occur during failure of the invertor or display supply (no
picture), only error logging. LED blinking of LAYER 1
error = 3 in CSM, in SDM this gives LAYER 2 error = 17.
Error 18 (1V2-3V3-5V too low). All these supplies are
generated by the DC/DC supply on the SSB. If one of these
supplies is too low, protection occurs and blinking LED
LAYER 1 error = 2 will be displayed automatically. In SDM
this gives LAYER 2 error = 18.
•
•
•
Error 28 (ARM ambilight). When there is no I2C
communication towards the ARM processor, LAYER 2
error = 28 will be logged and displayed via the blinking LED
procedure if SDM is switched on.
•
Error 29 (FPGA local contrast). When there is no I2C
communication towards this FPGA, LAYER 2 error = 29
will be logged and displayed via the blinking LED
procedure if SDM is activated.
Error 34 (Tuner). When there is no I2C communication
towards the tuner after start-up, LAYER 2 error = 34 will be
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5.
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logged and displayed via the blinking LED procedure when
SDM is switched on.
•
Activate the CSM. The blinking front LED will show only
the latest layer 1 error, this works in “normal operation”
mode or automatically when the error/protection is
monitored by the standby processor.
•
•
Error 42 (Temp sensor). Only applicable for TV sets with
an I2C controlled screen.
Main NVM. When there is no I2C communication towards
the main NVM, LAYER 1 error = 2 will be displayed via the
blinking LED procedure. In SDM, LAYER 2 error will be
blinked as “15”. Errors here can not be logged due to
inaccessibility of the NVM device.
In case no picture is shown and there is no LED blinking,
read the logging to detect whether “error devices” are
mentioned. (see section “5.8 Fault Finding and Repair
Tips, 5.8.6 Logging”).
Activate the SDM. The blinking front LED will show the
entire content of the LAYER 2 error buffer, this works in
“normal operation” mode or when SDM (via hardware pins)
is activated when the tv set is in protection.
•
•
Error 53. This error will indicate that the PNX8543 has
read his bootscript (when this would have failed, error 15
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 a few minutes
before the TV starts blinking LAYER 1 error = 2 or in SDM,
LAYER 2 error = 53.
Important remark:
For all errors detected by MIPS which are fatal =>
rebooting of the TV set (reboot starts after LAYER 1 error
blinking), one should short the solder paths at start-up from
the power OFF state by mains interruption and not via the
power button to trigger the SDM via the hardware pins.
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.
•
Error 64. Only applicable for TV sets with an I2C controlled
screen .
•
•
5.6 The Blinking LED Procedure
5.6.1 Introduction
The blinking LED procedure can be split up into two situations:
•
Blinking LED procedure LAYER 1 error. In this case the
error is automatically blinked when the TV is put in CSM.
This will be only one digit error, namely the one that is
referring to the defective board (see table “5-2 Error code
overview”) which causes the failure of the TV. This
approach will especially be used for home repair and call
centres. The aim here is to have service diagnosis from a
distance.
5.7 Protections
5.7.1 Software Protections
Most of the protections and errors use either the stand-by
microprocessor or the MIPS controller as detection device.
Since in these cases, checking of observers, polling of ADCs,
and filtering of input values are all heavily software based,
these protections are referred to as software protections.
There are several types of software related protections, solving
a variety of fault conditions:
•
Blinking LED procedure LAYER 2 error. Via this procedure,
the contents of the error buffer can be made visible via the
front LED. In this case the error contains 2 digits (see table
“5-2 Error code overview”) and will be displayed when SDM
(hardware pins) is activated. This is especially useful for
fault finding and gives more details regarding the failure of
the defective board.
•
Protections related to supplies: check of the 12V, +5V,
+3V3 and 1V2.
•
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.
Important remark:
For all errors detected by MIPS which are fatal => rebooting of
the TV set (reboot starts after LAYER 1 error blinking), one
should short the solder paths at start-up from the power OFF
state by mains interruption and not via the power button to
trigger the SDM via the hardware pins.
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.
When one of the blinking LED procedures is activated, the front
LED will show (blink) the contents of the error buffer. Error
codes greater then 10 are shown as follows:
1. “n” long blinks (where “n” = 1 to 9) indicating decimal digit
2. A pause of 1.5 s
Protections during Start-up
3. “n” short blinks (where “n”= 1 to 9)
4. A pause of approximately 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.
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 section “5.3 Stepwise Start-up”).
Example: Error 12 8 6 0 0.
After activation of the SDM, the front LED will show:
decimal digit) followed by a pause of 1.5 s
2. Two short blinks of 250 ms followed by a pause of 3 s
3. Eight short blinks followed by a pause of 3 s
4. Six short blinks followed by a pause of 3 s
5. One long blink of 3 s to finish the sequence
6. The sequence starts again.
5.7.2 Hardware Protections
The only real hardware protection in this chassis appears in
case of an audio problem e.g. DC voltage on the speakers. This
protection will only affect the Class D (7D10) and puts the
amplifier in a continuous burst mode (cyclus approximately 2
seconds).
5.6.2 How to Activate
Use one of the following methods:
Repair Tip
•
There will be still picture available but no sound. While the
Class D amplifier tries to start-up again, the cone of the
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5.
EN 31
loudspeakers will move slowly in one or the other direction
until the initial failure shuts the amplifier down, this cyclus
starts over and over again.
started immediately when +12V incoming voltage is available
(+12V is enabled by STANDBY signal, active low). Supply
voltages +3V3, 2V5, +1V8-PNX5100, +1V8-PNX85XX, +5V
and +5V-TUN are switched-on directly by signal ENABLE-3V3
(active low), provided that +12V (detected via 7U40 &7U41) is
available. +12V is considered OK (=> DETECT -12V signal
becomes high and 12V/3V3 and 12V/5V DC-DC converter can
be started up) if it rises above 10V5 (typical) and doesn’t drop
below 10V (typical).
5.7.3 Important remark regarding the blinking LED indication
As for the blinking LED indication, the blinking led of LAYER 1
error displaying can be switched off by pushing the power
button on the keyboard.
This condition is not valid after the set was unpowered (via
mains interruption). The blinking LED starts again and can only
be switched off by unplugging the mains connection.
This can be explained by the fact that the MIPS can not load
the keyboard functionality from software during the start-up and
doesn’t recognizes the keyboard commands at this time.
Debugging
The best way to find a failure in the DC/DC converters is to
check their start-up sequence at power-on via the mains cord,
presuming that the standby microprocessor and the external
supply are operational. Take STANDBY signal high-to-low
transition as time reference.
When +12V becomes available (maximum 1 second after
STANDBY signal goes low) then +1V2-PNX85XX and +1V2-
PNX5100 are started immediately. Then, after ENABLE-3V3
goes low, all the other supply voltages should rise within 2ms.
5.8 Fault Finding and Repair Tips
Read also section “5.5 Error Codes, 5.5.4 Error Buffer, Extra
Info”.
Tips
•
•
•
When an output supply voltage is short-circuited to GND
the corresponding DC-DC converter is not making any
audible noise, the converter switches-off immediately and
will attempt a re-start only after +12V drops and rises
again.
Check the integrity (at least no short-circuit between drain
and source) of power MOS-FETs, especially the high-side
ones: 7U05, 7U08, 7U0D-1 and 7U0H-1 before starting the
platform in SDM mode, otherwise it can be easily
damaged.
5.8.1 Ambilight
Due to degeneration process of the AmbiLights, there can be a
difference in the colour and/or light output of the spare
ambilight module in comparison with the originals ones
contained in the TV set. Via ComPair the light output can be
adjusted.
5.8.2 Audio Amplifier
Switching frequency of DC-DC converters should be
around 290KHz for 12V to 1V2 DC-DC converters and
around 370KHz for 12V to 3V3 and 12V to 5V DC-DC
converters.
The Class D-IC 7D10 has a powerpad for cooling. When the IC
is replaced it must be ensured that the powerpad is very well
pushed to the PWB while the solder is still liquid. This is needed
to insure that the cooling is guaranteed, otherwise the Class D-
IC could break down in short time.
5.8.5 Exit “Factory Mode”
When an “F” is displayed in the screen’s right corner, this
5.8.3 CSM
means the set is in “Factory” mode, and it normally
happens after a new SSB is mounted. To exit this mode, push
the “VOLUME minus” button on the TV’s local keyboard for 10
seconds (this disables the continuous mode).
Then push the “SOURCE” button for 10 seconds until the “F”
disappears from the screen.
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. If this mechanism works it can be concluded that a large
part of the operating system is already working (MIPS, USB...)
5.8.4 DC/DC Converter
5.8.6 Logging
Description
When something is wrong with the TV set (f.i.the set is
rebooting) you can check for more information via the logging
in Hyperterminal. The Hyperterminal is available in every
Windows application via Programs, Accessories,
Communications, Hyperterminal. Connect a “ComPair UART”-
cable (3138 188 75051) from the service connector in the TV to
the “multi function” jack at the front of ComPair II box.
Required settings in ComPair before starting to log :
- Select the correct database (open file “Q549.2E LA”, this will
set the ComPair interface in the appropriate mode).
- Close ComPair
After start-up of the Hyperterminal, fill in a name (f.i. “logging”)
in the “Connection Description” box, then apply the following
settings:
The onboard supply consists of 5 DC/DC converters and 4
linear stabilizers. All DC/DC converters have +12V input
voltage and deliver :
•
•
+1V2-PNX85XX supply voltage (1.24V nominal), stabilized
close to PNX8543 chip.
+1V2-PNX5120 supply voltage (1.26V nominal), stabilized
close to PNX5120 chip.
•
•
+3V3 (3.34V nominal, overall 3.3 V for onboard IC’s).
+5V (5.15V nominal) for USB and Conditional Access
Interface and +5V5-TUN for +5V-TUN tuner stabilizer.
+33VTUN (34V nominal) for analog-only tuners.
•
The linear stabilizers are providing:
1. COMx
2. Bits per second = 115200
3. Data bits = 8
4. Parity = none
5. Stop bits = 1
•
•
+1V2-STANDBY (out of +3V3-STANDBY), 1.24V nominal.
+1V8-PNX85XX and +1V8PNX5100 (connected via
CFH1), 1.84V nominal.
6. Flow control = none
•
•
+2V5 (WOW FPGA diversity only), 2.5V nominal.
+5V-TUN (out of +5V5-TUN), 5V nominal.
During the start-up of the TV set, the logging will be displayed.
This is also the case during rebooting of the TV set (the same
logging appears time after time). Also available in the logging
is the “Display Option Code” (useful when there is no picture),
+3V3-STANDY and +1V2-STANDBY are permanent voltages.
Supply voltages +1V2-PNX85XX and +1V2-PNX5100 are
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look for item “DisplayRawNumber” in the beginning of the
logging. Tip: when there is no picture available during rebooting
you are able to check for “error devices” in the logging (LAYER
2 error) which can be very helpful to determine the failure cause
of the reboot. For protection state, there is no logging.
5.8.7 Loudspeakers
Make sure that the volume is set to minimum during
disconnecting the speakers in the ON-state of the TV. The
audio amplifier can be damaged by disconnecting the speakers
during ON-state of the set!
EDID4
5.8.8 IPB
In case of no picture when CSM-test pattern from PNX5100 is
activated and backlight doesn’t light up, it’s recommended first
to check the inverter on the IPB + wiring (LAYER 2 error = 17
is displayed in SDM).
18310_220_090318.eps
090319
5.8.9 Tuner
Figure 5-13 4th HDMI EDID NVM pin
5.8.14 Wi-Fi module
Attention: In case the tuner is replaced, always check the tuner
options!
5.8.10 PCI bus
To prevent damage on the coax wires, especially the female
core of the coax wires (can be bend over during dis- and
reconnecting), this should be carried out by use of pliers.
The splash screen image is not distributed via the regular YUV
signal path from the PNX8543 to the PNX51XX, but loaded one
time via the PCI bus.Once the splash screen image is loaded
into the PNX51XX, it will be continuously generated by the
PNX51XX until the first incoming video disables the splash
screen.So when teletext and/or general UI is available, but no
splash screen (option “ON”) is visible during start-up, check the
PCI bus as possible root cause.
5.8.11 Display option code
Attention: In case the SSB is replaced, always check the
display option code in SAM, even when picture is available.
Performance with the incorrect display option code can lead to
unwanted side-effects for certain conditions.
5.8.12 Upgrade HDMI EDID NVM
The EDID MUX device (including all HDMI NVM except the 4th)
is upgradeable via USB, see ComPair for further instructions. It
should be noted that in case a new spare EDID MUX device is
used for repair, the initial default address must be changed
from “C0” to “CE”, to be done via ComPair.
5.8.13 Upgrade VGA/4th HDMI EDID NVM
The EDID for VGA connector or the 4th HDMI can only be
upgraded via external I2C. To upgrade the EDID for the VGA
connector or 4th HDMI, pin 7 of the EDID NVM has to be short
circuited to ground. Therefore a test point is foreseen (see
Figure 5-13). For the VGA EDID NVM it’s most suitable to
connect pin 7 to ground on the NVM device itself. See ComPair
for further instructions.
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Q549.2E LA
5.
EN 33
5.8.15 SSB Replacement
Follow the instructions in the flowchart in case a SSB has to be
exchanged. See figure “SSB replacement flowchart”.
Instruction note: SSB replacement Q528.x, Q522.x, Q529.x, Q54x.x
START
Set is still
operating?
Set is going into protection after
replacing the SSB
(blinking LED, error 2).
No
Create “repair” directory on USB stick and
connect USB stick to TV-set
Take care that speakers are connected!
In some sets, the speakers are in the rear
cover, and when the set is switched “on”
without speakers, it is possible that the Audio
protection is triggered.
Go to SAM mode (062596 i+) and
save the TV settings via “Upload to USB”.
- Replace SSB board by a Service SSB.
- Make the SSB fit mechanically to the set.
“on” (see also SCC_71772).
Start-up set.
Set behaviour?
Set is starting up but no display.
Set is starting up & display is OK.
Set is starting up in “Factory” mode.
Noisy picture with bands/lines is visible and the
red LED is continuous “on”
Update main software in this step, by using
“autorun.upg” file.
(sometimes also the letter “F” is visible).
Press 5 s. the “Volume minus” button on the local
cntrl until the red LED switches “off”, and then
press 5 s. the MENU (*) button of the local cntrl.
(* in some chassis this button is named SOURCE)
The picture noise is replaced by blue mute!
Program “Display Option” code via 062598
MENU/HOME, followed by 3 digits code (this
code can be found on a sticker inside the set).
After entering “Display Option” code, set is
going to Standby (= validation of code).
Unplug the mainscord to verify the correct
disabling of the factory-mode.
Program “Display Option” code via 062598 MENU/
HOME, followed by 3 digits code (this code can be
found on a sticker inside the set).
Restart the set.
Saved settings
on USB stick?
No
After entering “Display Option” code, set is going
to Standby (= validation of code).
Connect PC via ComPair interface to Service
connector.
Restart the set.
Yes
Start TV in Jett mode (DVD i+/OSD)
Open ComPair browser Q52x.
In case of settings reloaded from USB, the set type,
serial number, Display 12NC, are automatically stored
when entering display options.
Go to SAM mode, and reload settings
via “Download from USB”.
Program “set type number”, “serial number”,
and “display 12NC”.
If not already done;
Check latest software on Service website.
Update Main and Standby software via USB.
- Check if correct “Display Option” code is
programmed.
- Verify “Option Codes” according sticker inside the set.
- Default settings for White drive ...see Service Manual
Check and perform alignments in SAM
according to the Service Manual.
E.g. option codes, colour temperature...
Final check of all menus in CSM.
Special attention for HDMI Keys.
Q52xE SSB Board swap – v5.1
VDS/JA Updated 18-03-2009
(changes are indicated in red)
END
H_16771_007.eps
090318
Figure 5-14 SSB replacement flowchart
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Service Modes, Error Codes, and Fault Finding
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5.
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5. The renamed “upg” file will be visible and selectable in the
5.9 Software Upgrading
upgrade application.
5.9.1 Introduction
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, try activating 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 “INFO”-button on a Philips remote control or
“CURSOR DOWN” button on a Philips DVD RC-6 remote
control (it is also possible to use a TV remote in “DVD”
mode). Keep the “INFO”-button (or “cursor down” button)
pressed while reconnecting the TV to the Mains/AC Power.
3. The software upgrade application will start.
The set software and security keys are stored in a NAND-
Flash, which is connected to the PNX8543 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.
Important: When the NAND-Flash must be replaced, a new
SSB must be ordered, due to the presence of the security keys!
(copy protection keys, MAC address, ...).
Perform the following actions after SSB replacement:
1. Set the correct option codes (see sticker inside the TV).
2. Update the TV software => see the eUM (electronic User
Manual) for instructions.
3. Perform the alignments as described in chapter 6 (section
6.5 Reset of Repaired SSB).
4. Check in CSM if the HDMI key, MAC address.. are valid.
For the correct order number of a new SSB, always refer to the
Spare Parts list!
5.9.3 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 the USB stick.
2. Copy the Stand-by software (part of the one-zip file, e.g.
StandbySW_CFT72_88.0.0.0.upg) into this directory.
3. Insert the USB stick into the TV.
5.9.2 Main Software Upgrade
4. Start the download application manually (see section “
Manual Software Upgrade”.
5. Select the appropriate file and press the “OK” button to
upgrade.
•
•
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.
5.9.4 Content and Usage of the One-Zip Software File
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 05661 _FUS
_Q5492_ 1.26.15.0_commercial.zip). This can also be done by
the consumers themselves, but they will have to get their
software from the commercial Philips website or via the
Software Update Assistant in the user menu (see eUM). The
“autorun.upg” file must be placed in the root of the USB stick.
How to upgrade:
1. Copy “AUTORUN.UPG” to the root of the USB stick.
2. Insert USB stick in the set while the set is in ON MODE.
The set will restart and the upgrading will start
automatically. As soon as the programming is finished, a
message is shown to remove the USB stick and restart the
set.
Below the content of the One-Zip file is explained, and
instructions on how and when to use it.
•
BootProm_PNX5120_Q5492_x.x.x.x.zip. A programmed
device can be ordered via the regional Service
organization.
•
•
•
Ceisp2padll_P2PAD_x.x.x.x.zip. Not to be used by
Service technicians. For ComPair development only.
DDC_Q5492_x.x.x.x.zip. Contains the content of the VGA
NVM. See ComPair for further instruction.
EDID_Q5492_x.x.x.x.zip. Contains the EDID content of
the different EDID NVM’s. See ComPair for further
instructions.
•
•
•
EJTAGDownload_Q5492_x.x.x.x.zip. Only used by
service centra which are allowed to do component level
repair.
FUS_Q5492_x.x.x.x_commercial.zip. Contains the
“autorun.upg” which is needed to upgrade the TV main
software and the software download application.
production purposes, not to be used by Service
technicians.
Manual Software Upgrade
In case that the software upgrade application does not start
automatically, it can also be started 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 TV remote control or a
Philips DVD RC-6 remote control (it is also possible to use
a 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.
•
•
FlashUtils_Q5492_x.x.x.x_commercial.zip. Not to be
used by Service technicians.
MOP_RAC3_x.x.x.x.zip. Contains the MOP local contrast
software and is upgradeable via USB (UPG). This SW is
not part of the FUS autorun.upg!
•
•
•
•
OAD_Q5492_x.x.x.x.zip. Not to be used by Service
Technicians.
OpenSourceFile_Q5492_x.x.x.x.zip. Not to be used by
Service technicians.
PQPrivate_Q5492_x.x.x.x.zip. Not to be used by Service
technicians.
StandbySW_CFTxx_x.x.x.x_commercial.zip. Contains
the Stand-by software in “upg” and “hex” format.
Attention!
In case the download application has been started manually,
the “autorun.upg” will maybe not be recognized.
What to do in this case:
1. Create a directory “UPGRADES” on the 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 the USB stick.
3. Copy the renamed “upg” file into this directory.
4. Insert USB stick into the TV.
–
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.
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5.
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–
The files “StandbySW_xxxxx_exhex.hex” and
“StandbySW_xxxxx_dev.upg” may not be used by
Service technicians (only for development purposes).
•
UpgradeAll_Q5492_x.x.x.x_commercial.zip. Only for
production purposes, not to be used by Service
technicians.
Caution: Never try to use this file, because it will
overwrite the HDCP keys ! ! !
•
•
•
•
•
•
UpgradeExe_Q5492X_x.x.x.x.zip. Not to be used by
Service Technicians.
Ambilight_Q5492_x.x.x.x.zip. Not to be used by Service
technicians.
Cabinet_Q5492_x.x.x.x.zip. Not to be used by Service
technicians.
Display_Q5492_x.x.x.x.zip. Not to be used by Service
technicians.
LightGuide_TV522_x.x.x.x_.zip. Not to be used by
Service Technicians.
ProcessNVM_Q5492_x.x.x.x.zip. Default NVM content.
Must be programmed via ComPair or can be loaded via
USB, be aware that all alignments stored in NVM are
overwritten here.
5.9.5 Content of the MOP Ambilight ARM SW File
•
MOP_AMBILIGHT_V1-2_UPG_jettsigned.zip. Contains
the MOP ambientlight software (ARM processor on the
DC-DC AL interface board) and is upgradeable via USB
(UPG). This SW is not part of the FUS autorun.upg! and is
not available in the One-Zip software file but provided
separately via the commercial Philips website (software for
servicers only). Instructions for upgrading are included in
the zip file.
5.9.6 UART logging 2K9 (see section “5.8 Fault Finding and
Repair Tips, 5.8.6 Logging)
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6.
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6. Alignments
Index of this chapter:
•
•
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
US/AP-NTSC models: an NTSC M/N TV-signal with a
signal strength of at least 1 mV and a frequency of 61.25
MHz (channel 3).
6.1 General Alignment Conditions
6.2 Hardware Alignments
6.3 Software Alignments
6.4 Option Settings
6.5 Reset of Repaired SSB
6.7 Total Overview SAM modes
•
LATAM models: an NTSC M TV-signal with a signal
strength of at least 1 mV and a frequency of 61.25 MHz
(channel 3).
6.1 General Alignment Conditions
6.3.1 Tuner AGC (RF AGC Take Over Point Adjustment)
Perform all electrical adjustments under the following
conditions:
Purpose: To keep the tuner output signal constant as the input
signal amplitude varies.
No alignment is necessary, for the AGC alignment you can use
the default value : “80”.
•
Power supply voltage (depends on region):
–
–
–
–
–
AP-NTSC: 120 VAC or 230 VAC / 50 Hz (± 10%).
AP-PAL-multi: 120 - 230 VAC / 50 Hz (± 10%).
EU: 230 VAC / 50 Hz (± 10%).
LATAM-NTSC: 120 - 230 VAC / 50 Hz (± 10%).
US: 120 VAC / 60 Hz (± 10%).
Store settings and exit SAM.
6.3.2 White Point
•
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).
•
•
Set “Active control” to “Off”.
Choose “TV menu”, “TV Settings” and then “Picture” and
set picture settings as follows:
•
•
Picture Setting
Dynamic backlight
Off
Caution: It is not allowed to use heat sinks as ground.
Test probe: Ri > 10 MΩ, Ci < 20 pF.
Use an isolated trimmer/screwdriver to perform
Dynamic Contrast
Colour Enhancement
Picture Format
Light Sensor
Brightness
Off
•
•
Off
Unscaled
Off
alignments.
50
Colour
0
6.1.1 Alignment Sequence
Contrast
100
•
First, set the correct options:
•
Go to the SAM and select “Alignments”-> “White point”.
–
–
In SAM, select “Options”, and then “Option numbers”.
Fill in the option settings for “Group 1” and “Group 2”
according to the set sticker (see also paragraph 6.4
Option Settings).
White point alignment LCD screens:
•
Use a 100% white screen as input signal and set the
following values:
–
–
Press OK on the remote control before the cursor is
moved to the left.
In submenu “Option numbers” select “Store” and press
OK on the RC.
–
–
–
–
“Colour temperature”: “Normal”.
All “White point” values to: “127”.
“Red BL offset” values to “8”.
“Green BL offset” values to “8”.
•
•
OR:
–
In main menu, select “Store” again and press OK on
the RC.
In case you have a colour analyser:
•
Measure with a calibrated contactless colour analyser in
the centre of the screen. Consequently, the measurement
needs to be done in a dark environment.
–
Switch the set to Stand-by.
Warming up (>15 minutes).
•
Adjust the correct x,y coordinates (while holding one of the
White point registers R, G or B on 127) by means of
decreasing the value of one or two other white points to the
correct x,y coordinates (see Table 6-1 White D alignment
values). Tolerance: dx: ± 0.004, dy: ± 0.004.
Repeat this step for the other colour temperatures that
need to be aligned.
When finished press OK on the RC and then press STORE
(in the SAM root menu) to store the aligned values to the
NVM.
6.2 Hardware Alignments
Not applicable.
•
•
6.3 Software Alignments
Put the set in SAM mode (see Chapter 5. 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.
•
Restore the initial picture settings after the alignments.
The following items can be aligned:
Table 6-1 White D alignment values
•
•
Tuner AGC.
White point.
Value
Cool (11000K )
0.270
Normal (9000K)
0.279
Warm (6500K)
0.309
x
y
To store the data:
0.279
0.287
0.328
•
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.
If you do not have a colour analyser, you can use the default
values. This is the next best solution. The default values are
average values coming from production.
•
Select a COLOUR TEMPERATURE (e.g. COOL,
NORMAL, or WARM).
For the next alignments, supply the following test signals via a
video generator to the RF input:
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6.
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•
•
•
Set the RED, GREEN and BLUE default values according
to the values in Table 6-2.
When finished press OK on the RC, then press STORE (in
the SAM root menu) to store the aligned values to the NVM.
Restore the initial picture settings after the alignments.
The first line (group 1) indicates hardware options 1 to 4, the
second line (group 2) indicate software options 5 to 8.
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 and display code overview for the
options.
Table 6-2 White tone default setting
White Tone
32"
37"
Black level
offset
Diversity
Colour Temp
Normal
Cool
R
G
95
B
97
R
G
B
R
8
8
8
G
8
8
8
Not all sets with the same Commercial Type Number (CTN)
necessarily have the same option code!
127
127
127
124
127
121
127
111
106
119
64
100
89
112
52
Use of Alternative BOM => an alternative BOM number usually
indicates the use of an alternative display or power supply. This
results in another display code thus in another Option code. For
the power supply there is no difference. Refer to Chapter 2.
Technical Specifications and, Connections.
Warm
White Tone
56"
Black level
offset
Colour Temp
Normal
Cool
R
G
B
R
8
8
8
G
8
8
8
127
124
127
117
124
95
111
125
65
6.4.5 Option Code Overview
Warm
Table 6-3 Option and display code overview
CTN
Options Group 1
Options Group 2
Disp.
code
6.4 Option Settings
32PFL9604H/12 08211 35971 18431 45288 30645 47282 00184 00000 181
32PFL9604H/60 08211 35971 18431 45288 30645 47282 00184 00000 181
37PFL9604H/12 08227 35972 18431 45288 30625 47282 00176 00000 161
37PFL9604H/60 08227 35972 18431 45288 30625 47282 00176 00000 161
6.4.1 Introduction
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
PNX5100 ICs (back-end advanced video picture improvement
IC which offers motion estimation and compensation features
(commercially called HDNM) plus integrated Ambilight control)
is made known by the option codes.
56PFL9954H/12 08275 33925 18431 45288 30644 47282 00161 00000 180
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!
6.5 Reset of Repaired SSB
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).
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 is to be set. To set all this, you can use the
ComPair tool.
In case of a display replacement, reset the “Operation hours
display” to “0”, or to the operation hours of the replacement
display.
•
6.4.2 Dealer Options
For dealer options, in SAM select “Dealer options”.
See Table 6-4 SAM mode overview.
New here in this chassis is the “Net TV” functionality. Therefore
the CTN (“set type” item in CSM1) must be filled into the spare
SSB to ensure access to the Net TV portals.
6.4.3 (Service) Options
The loading of the CTN can be done via ComPair (Model
number programming).
The reset item (Clear NET TV memory) can be selected via
MENU (or HOME) => Setup => Installation => Clear NET TV
memory (customer preferences stored at provider side will be
reset now).
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.
6.4.4 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 6-3
Option and display code overview.
Example: The options sticker gives the following option
numbers:
•
•
08192 00133 01387 45160
12232 04256 00164 00000
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6.
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6.5.1 SSB identification
3. 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.
"Q549_SW_version.upg", this in case there are more than
one "autorun.upg" files on your USB stick
4. Plug the prepared USB stick into the TV set, and select the
"autorun" file in the displayed browser on the screen
5. Now the main TV software will be loaded automatically,
supported by a progress bar
Whenever ordering a new SSB, it should be noted that the
correct ordering number (12nc) of a SSB is located on a sticker
on the SSB. The format is <12nc SSB><serial number>. The
ordering number of a “Service” SSB is the same as the ordering
number of an initial “factory” SSB.
6. Set the correct "display code" via "062598-HOME-xxx",
where "xxx" is the 3-digit display panel code (see sticker on
the side/bottom of the cabinet).
6.6.2 When no picture is available
Due to a possible wrong display option code in the received
Service SSB (NVM), no picture can be available at start-up and
thus no download application will be visible. Here you can
proceed and finalize step by step to load the main TV software
1. Start-up the TV set, equipped with the Service SSB, and
enable the UART logging on the PC (see for settings 5.8
Fault Finding and Repair Tips 5.8.6 Logging)
2. The TV set will start-up automatically in the download
application if main TV software is not loaded
18310_221_090318.eps
3. Plug the prepared USB stick into the TV set, press cursor
"Right" to enter the list, and navigate to the "autorun" file in
the UART logging printout via the cursor keys on the
remote control. When the correct file is selected, press
"OK"
090319
Figure 6-1 SSB identification
4. Press cursor "Down" and "OK" to start the flashing of 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
displayed and remove all inserted media. Restart the TV
set
6. Set the correct "display code" via "062598-HOME-xxx",
where "xxx" is the 3-digit display panel code (see sticker on
the side/bottom of the cabinet).
6.6 Service SSB delivered without main software
loaded
Due to a changed manufacturing process, new Service SSB’s
can be delivered to the warehouse without main TV
software loaded. Below you find the steps to follow when such
an SSB is received.
6.6.1 When a picture is available
6.6.3 Use of repaired SSBs instead of new
1. Mount the Service SSB into the TV set. After start-up,
normally the download application will appear on the
screen.
2. Download the latest main software (FUS) from the
www.p4c.philips.com website.
Repaired SSBs on stock will obviously already contain main TV
software. This implies that only a main software upgrade is
required if you use a “repaired” SSB for board swap instead of
a “new” SSB.
6.7 Total Overview SAM modes
Table 6-4 SAM mode overview
Main Menu
Sub-menu 1
Sub-menu 2
Sub-menu 3
Description
Hardware Info
A. SW VERSION
e.g. “Q5492_1.26.15.0”
Display TV & Standby SW version and CTN serial
number.
B. Standby processor version e.g. “STDBY_88.68.0.0”
C. Production code
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
Error
Displayed the most recent errors.
Clears all content in the error buffer.
Reset error buffer
Alignment
Tuner AGC
Whitepoint
RF-AGC Take over point adjustment (AGC default
value is 80)
Colour temperature
Normal
Warn
Cool
3 different modes of colour temperature can be se-
lected
White point red
LCD White Point Alignment. For values,
see Table 6-1 White D alignment values.
White point green
White point blue
Red black level offset
Green black level offset
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Main Menu
Sub-menu 1
Sub-menu 2
Sub-menu 3
Description
Dealer 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 (USP’s on-screen)
Auto store mode
None
PDC/VPS
TXT page
PDC/VPS/TXT
DVB
Options
Digital broadcast
Off/On
Select DVB On/Off
DVB - T installation
DVB - T light
DVB - C
Off/On or Country dependent
Select DVB T installation On/Off or by country
Select DVB T light On/Off
Off/On
Off/On
Select DVB C On/Off
DVB - C installation
Over the air download
8 days EPG
USB
Off/On or Country dependent
Select DVB C installation On/Off or by country
Select Over the air download On/Off or by country
Select 8 day EPG On/Off
Off/On or Country dependent
Off/On
Digital features
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
Online service
PTP (Picture Transfer Protocol)
Update assistant
Internet software update
Screen
Off
Online service is Off
Off/On
Select PTP On/Off
Off/On
Select Update assistant On/Off
Internet software update is Off
Displayed the panel code & type model.
Select LightGuide On/Off
Off
Display
180 / LCD Sharp Z3LA13 56"
Off/On
LightGuide
Display fans
Temperature sensor
Not present/Present
Select Display fans Present/Not present.
Sensor present in display (only for N.A.
21:9)
Temperature LUT
E-box & monitor
Picture processing
0
N.A
Off/On
Select E-box & monitor On/Off
Video reproduction
None/PNX5100
Select Picture processing None/PNX5100 (Q549.xE
chassis).
MOP local contrast
Light sensor
Off/On
Off/On
0/1/2/3
Select MOP local contrast On/Off
Select Light sensor On/Off
Light sensor type
Select Light sensor type form 0 to 3 (for difference
styling).
Pixel Plus type
Ambilight
Pixel Plus HD
Perfect Pixel HD
Pixel Precise HD
None,
Select type of picture improvement.
Select type of Ambilight modules use.
For 8400 series only
2 sided 2/2
2 sided 4/4
3 sided 2/3/2
3 sided 4/3/4
3 sided 4/5/4
4 sided 4/3/4/3
LED/Future use
Off/On
Ambilight technology
MOP ambilight
Ambilight technology LED is in use.
Select MOP ambilight On/Off
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6.
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Main Menu
Sub-menu 1
Sub-menu 2
Sub-menu 3
Description
Audio reproduction
Acoustic system
Cabinet design used for setting dynamic audio pa-
rameters.
Source selection
EXT1/AV1 type
EXT2/AV2 type
EXT3/AV3 type
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
SCART CVBS RGB LR
Select input source when connected with external
equipment.
CVBS Y/C LR
(CVBS) YPbPr LR
CVBS Y/C LR
None
Select input source when connected with external
equipment.
CVBS
CVBS LR
YPbPr
YPbPr LR
YPbPr HV LR
VGA
Off/On
Select VGA On/Off
SIDE I/O
Off/On
Select SIDE I/O On/Off
Select HDMI 1 On/Off
HDMI 1
Off/On
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
HDMI CEC
HDMI CEC RC passthrough
HDMI CEC Pixel Plus link
Region
Off/On
Select HDMI side On/Off
Select HDMI CEC On/Off
Select HDMI CEC RC passthrough On/Off
Select Pixel Plus link On/Off
Select Region/country.
Select type of Tuner used.
Off/On
Off/On
Off/On
Miscellaneous
Europe/AP-PAL-MULTI/Australia
Tuner type
HD1816-MK1/TD1716-MK4/
TD1716-MK3/HD1816-MK2
System RC support
Embedded user manual
Start-up screen
Off/On
Off/On
Off/On
Off/On
Off
Select System RC support On/Off.
Select Embedded user manual On/Off.
Select Start-up screen On/Off.
Select Wallpaper On/Off.
Wallpaper
Hotel mode
Hotel mode is Off.
Option number
Group 1
Group 2
Store
e.g. “08192.02181.01387.45160”
The first line (group 1) indicates hardware options 1
to 4.
e.g. “10185.12448.00164.00000”
The second line (group 2) indicates software options
5 to 8.
Store after changing.
N.A
Initialise NVM
Store
Select Store in the SAM root menu after making any
changes.
Software maintenance
Software events
Hardware events
Display
Clear
Display information is for development purposes.
Test reboot
Display
Clear
Display information is for development purposes.
Operation hours display
Test setting
0003
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 it-
self (mainly to compensate the degeneration behav-
iour).
Digital info
QAM modulation: 64-QAM
Symbol rate: 23:29
Original network ID: 12817
Network ID:12817
Transportstream ID: 2
Service ID: 3
Display information is for development purposes.
Hierarchical modulation: 0
Selected video PID: 35
Selected main audio PID: 99
Selected 2nd audio PID: -1
000
Install start frequency
Install end frequency
Default install frequency
Installation
Install start frequency from "0" MHz
Install end frequency as 999 MHz
Digital only
Select Digital only or Digital + Analogue before instal-
lation.
Digital + Analogue
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Alignments
Q549.2E LA
6.
EN 41
Main Menu
Sub-menu 1
Sub-menu 2
Sub-menu 3
Description
Development file ver- Development 1 file version
sions
Display parameters DISPT 3.26.8.7
Acoustics parameters ACSTS 3.6.6.5
PQ - PRFPP 1.26.10.4
Display information is for development purposes.
Ambilight parameters PRFAM 2.6.1.3
12NC one zip software
Development 2 file version
Display 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
To upload several settings from the TV to an USB
stick
Personal settings
Option codes
Display-related alignment
History list
Download from USB
Channel list
To download several settings from the USB stick to
the TV.
Personal settings
Option codes
Display-related alignment
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Circuit Descriptions
EN 42
7.
Q549.2E LA
7. Circuit Descriptions
Index of this chapter:
7.1 Introduction
Main difference with the previous platform is the introduction of
“Net TV” and “CI+”.
7.2 Power Architecture
7.3 Front-End
7.4 HDMI
7.5 Video and Audio Processing - PNX8543
7.6 Common Interface CI+
7.7 Net TV
7.1.1 Implementation
Key components of this chassis are:
•
•
•
•
•
•
•
PNX8543 Digital Colour Decoder
EP3C25F324C7N FPGA (“Local Contrast”)
HD1816AF Hybrid Tuner
DRX3926K Demodulator
TDA9996 HDMI Switch
TPA3123D2PWP Class D Power Amplifier
DP83816AVNG PCI ethernet media access controller and
physical layer (MacPhyter-II).
7.8 Ambi Light
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 (see chapter
9. Block Diagrams) and circuit diagrams (see chapter
10. Circuit Diagrams and PWB Layouts).Where necessary,
you will find a separate drawing for clarification.
7.1.2 TV543 Architecture Overview
•
chapter 9. Block Diagrams. An overview of the TV543
architecture can be found in Figure 7-1.
7.1 Introduction
The Q549.2E LA chassis (platform name TV543/92) is the
successor of the Q529.1E LA chassis (platform TV522/92).
DDR
16
DDR-II
DDR-II
CY3
32
32
Matrix
FHD@120p
FHD@100p
Local
Contrast
PNX5120
Halo Reduced
HD-NM
NXP
PNX8543
MICRONAS
DRX39xyK
Hybrid Tuner
Saw
FHD 120Hz
H264
USB 2.0
Ambient Light
Led Dimming
CA
Pixelated Ambi
PCI
8
FLASH
Ethernet
SPI
Spartan
XC3S250E
Led Dimming
LVDS
hdmi
Mini
PCI (Wifi)
TDA9996
MUX
hdmi
hdmi
hdmi
2 channel
Audio Amp.
18310_200_090317.eps
090317
Figure 7-1 Architecture of TV543/92 Elite Core platform
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Circuit Descriptions
Q549.2E LA
7.
EN 43
7.1.3 SSB Cell Layout
1M01
1M71
1M59
1F02
1R12
serv
L/R
VGA
Y
Lo
Ro
Pb
Xilinx
1E51
GPI
O
DDR2
1E50
Pr
SPO
CY3
C40
D D R
L
uart
Head
PCI/
XIO
I
²
C
pci/xio
R
Right
Left
G
A
T
J
DDR2
CVBS
Tuner
3
5 4 8 2 X / P N
R
D D
O
G P I
Y/C
Wifi
C A
I
P C
DDR2
USB
2.0
HD
MI
1.3
HDMI
MUX
RJ45
Ethernet
FLASH
1P00
CA
I
I
M
D
H
I
M
D
H
I
M
D
H
M
D
H
Class-D
18310_201_090317.eps
090317
Figure 7-2 SSB layout cells (top view)
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Circuit Descriptions
EN 44
7.
Q549.2E LA
7.2 Power Architecture
Refer to figure Figure 7-3 for the power architecture of this
platform.
Fuse
12VDisp
V display
PSU
Platform
Power
LCD
Power-on
SSB
Standby
+3V3 stby
3V3stby
PNX5100
+1V2
+1V2-STANDBY
Boost control (Opt)
BL DIM
BL DIM*
Inverter**
Lamp On *
Lamp On
Fuse
+1V2
+1V2-PNX85XX
+12V
Dual
DC/DC
Display
Enable-3V3
+3V3
+3V3
12V
Undervoltage
detect
Switches off
+3V3 and
+5V
+2V5
+2V5
+2V5 (loc.Contr.FPGA)
+1V8-PNX85XX
+1V8-PNX5100
+3V3F
+1V8
+1V8
2.5V 1%
voltage ref
Detect 2
(12V sense)
+1V8
Boost con.v
(opt)
+33V
+33V-TUN(analog)
AND
+1V2
+5V
+1V2-PNX5100
+5V
24V** Inverter*
Power-OK
Dual
DC/DC
+5V
tuner
+5V-T un
+5V-TUN
24 Vs
(+/-12 Vs opt)
Stby P
Detec1t
Audio proc
+ Class D
24V
+3V3 (SSB)
Ambilight
Bolt-on
*: present in inverterless displays
**:present in displays with internal inverter
V inverter 4kV*
V backlight 24 V**
18310_202_090317.eps
090317
Figure 7-3 Power Architecture TV543/92 platform
7.2.2 Diversity
7.2.1 Power Supply Unit
All power supplies are a black box for Service. When defective,
a new board must be ordered and the defective one must be
returned, unless the main fuse of the board is broken. Always
replace a defective fuse with one with the correct
Below find an overview of the different PSUs that are used:
Table 7-1 Supply diversity
specifications! This part is available in the regular market.
Consult the Service website for the order codes of the boards.
Supplier
LGIT
PSU
Model
Input Voltage Range
PLHL-T826A
32"
High Mains (198- 265 Vac)
Delta
DPS-298CP A
37"
56"
High Mains (198- 265 Vac)
High Mains (198- 265 Vac)
In the TV543 Elite Core platform, for sets up to and including
47", the Integrated Power Board (IPB) - incl. inverter is used.
For sets of 52 " and 56", a conventional PSU (with additional
inverters) is used.
Delta
DPS-411AP-3 A
In this manual, no detailed information is available because of
design protection issues.
The output voltages to the chassis are:
•
•
•
•
•
+3V3-STANDBY (standby-mode only)
+12V (on-mode)
+Vsnd (+24V) (audio power) (on-mode)
+24V (bolt-on power) (on-mode)
IPB: High voltage to the LCD panel (for sets up to and
including 47").
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Circuit Descriptions
Q549.2E LA
7.
EN 45
7.3 Front-End
Platform with embedded EDID
The Front-End consist of the following key components:
•
•
•
•
Tuner HD1816AF
SAW filter 36M125
IF demodulator DRX3926K
AGC amplifier UPC3221GV.
EDID: 253B
IIC
CPU
TDA9996
3B 3B 3B 3B
253commonBytes
+ 1B subaddres of
SourcePhysical Address
+3B for input A
Below find a block diagram of the front-end application.
I2C-SSB
+3B for input B
+3B forinput C
+3B forinput D
CVBS
4 × HDMI
inputs
SAW
Filter
NXP Hybrid
Tuner
IF Amplifier
DRX3926K
PNX8543
2nd SIF
TS
18440_214_090227.eps
IF-AGC
I2C-TUNER
090227
18440_211_090227.eps
Figure 7-6 EDID control (embedded EDID)
090227
The delta’s with respect to the use of the TDA9996 as HDMI
multiplexer compared with earlier chassis/platforms are:
Figure 7-4 Front-End block diagram
•
•
•
•
•
•
•
•
•
+5V detection mechanism
Stable clock detection mechanism
Integrated EDID
RT control
HPD control
The DRX3926K is a multi-standard demodulator supporting
DVB-C, DVB-T and analogue standards. The demodulated
digital stream is fed into the parallel transport stream data ports
of the PNX8543. The demodulated analogue signal in the form
of CVBS is connected to the analogue video CVBS/Y input
channel, while the SIF is connected via the SSIF2 positive input
port.
TMDS output control
CEC control
New hotplug control for PNX8543 for 5th HDMI input
New EDID structure: EDID stored in TDA9996, therefore
there are no EDID pins on the SSB. Only in the event of a
5th HDMI input, an additional EEPROM is foreseen, as
was implemented in previous platforms.
7.4 HDMI
In this platform, the TDA9996 HDMI multiplexer is
implemented. Only for one HDMI input, a separate EEPROM is
implemented to store the EDID values. For the other HDMI
inputs, the EDID contents are no longer stored in a separate
EEPROM, but directly in the multiplexer. Each input has its own
physical subaddress: the first 253 bytes are common, where
the last 3 bytes define the specific input. The EDID contents
are, at +5V power-up, downloaded to RAM. The following
figures show the HDMI input configuration and EDID control.
After replacement of the TDA9996 HDMI mux, the default I2C
address should be reprogrammed from C0 to CE, and the
HDMI EDIDs should be reprogrammed as well. Both actions
should be executed via ComPair.
7.5 Video and Audio Processing - PNX8543
The PNX8543 is the main audio and video processor (or
System-on-Chip) for this platform. It is a member of the
PNX85xx SoC family (described in earlier chassis) with the
addition of the MPEG4 functionality; the separate STi710x
MPEG4 decoder is no longer implemented in this platform.
PNX8543
A
B
HDMIB-RX
Out
Some more delta’s compared to the previous PNX85xx are:
DRX
HDMIA-RX
D
•
•
2 HDMI inputs (A & B)
HDMI deep colour RGB/YCbCr 4:4:1 10/12 bit detection.
HDMI Side
(optional)
TDA9996
CRX
The PNX8543 handles the digital and analogue audio- and
video decoding and processing. The processor is a MIPS32
general purpose CPU and a 8051-based TV controller for
power management and user event handling.
ARX
E did
B
BRX
HDMI 4
(optional)
•
For a functional diagram of the PNX8543, refer
to Figure 7-7.
HDMI 3
(optional)
HDMI 2
HDMI 1
1M96
18440_213_090227.eps
090227
Figure 7-5 HDMI input configuration
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Circuit Descriptions
EN 46
7.
Q549.2E LA
PNX8543x
MEMORY
CONTROLLER
TS in from
channel decoder
MPEG
SYSTEM
PROCESSOR
CI/CA
LVDS for
PRIMARY
VIDEO
OUTPUT
TS out/in for
PCMCIA
flat panel display
(single or dual
channel)
LVDS
DV-ITU-656
DV INPUT
AV-PIP
SUB-PICTURE
VIDEO
DECODER
CVBS, Y/C,
3D COMB
RGB
SECONDARY
VIDEO
OUTPUT
VIDEO
ENCODER
analog CVBS
Low-IF
DIGITAL IF
MPEG/H.264
VIDEO
DECODER
SCALER,
DE-INTERLACE
AND NOISE
REDUCTION
AUDIO DEMOD
AND DECODE
SSIF, LR
AUDIO DACS
analog audio
AUDIO DSP
2
I S
Dual SPDIF
AUDIO OUT
AUDIO IN
2
SPDIF
I S
300 MHz
AV-DSP
HDMI
RECEIVER
Dual HDMI
DRAWING
ENGINE
SYSTEM
CONTROLLER
(8051)
300 MHz
MIPS32 4KEc
CPU
DMA BLOCK
2
2
I C PWM GPIO
IR
ADC
SPI
UART I C
GPIO Flash USB 2.0 CA PCI 2.2
x 22
x 10
18440_202_090226.eps
090226
Figure 7-7 PNX8543 functional diagram
7.5.1 Video Subsystem
Refer to Figure 7-8 for the main video interfaces for the
PNX8543 and the video signal flow between blocks and
memory.
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Circuit Descriptions
Q549.2E LA
7.
EN 47
DDR2-SDRAM
PNX8543x
MCU-DDR
A
VCP/PC
2D_DE
VCP_
UIP
VCP_RX
LOW IF
CVBS
RGB
GFX1
GFX2
VCP_
WIFD
LCD panel
AFE
(ADC)
FPD-LVDS1
CPIPE_
L2QTV
LVDS_BUF
LVDS_TX
PIP
YPbPr
VGA
LCD panel
PC_
UIP
PC_RX
FPD-LVDS2
main
HDMI
HDMI_UIP
MBVP_
L2QTV
HDMI_
RX
Dual HDMI
MBVP_
L2VO1
monitor
CVBS1/Y
DAC
DAC
CVBS/Y
CPIPE_
L2VO
DENC
MBVP_
L2VO2
C
DV (including
ITU-656)
VIP
(ITU-656)
monitor
CVBS2/C
MUX
A
TS
TSI
PCMCIA
CAI
MSVD
TSDO
TSDI
CMD
VMSP
18440_203_090226.eps
090226
Figure 7-8 PNX8543 video flow diagram
The Video Subsystem consist of the following blocks:
•
•
•
•
•
•
•
•
•
•
•
•
Analogue Front-End (AFE) block
Video and PC Capture (VPC/PC) pipe
HDMI Receiver interface
Memory-Based Video Processor MBVP)
Video Composition Pipe (CPIPE)
Memory Based Video Processor (MBVP) VO-1
Memory Based Video Processor (MBVP) VO-2
Video Composition Pipe (CPIPE)
Dual Flat Panel Display-LVDS (FPD-LVDS)
Digital Encoder (DENC)
Digital Video VIP
2D graphics block.
7.5.2 Audio Subsystem
Refer to Figure 7-9 for the main audio interfaces for the
PNX8543 and the audio signal flow between blocks and
memory.
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Circuit Descriptions
EN 48
7.
Q549.2E LA
DDR2-SDRAM
PNX8543x
MCU
TM2270
(MPEG, AC-3, MP3
DECODER)
TS-IN
CAI
VMSP
XB4
XB1
SPDIF-IN1
SPDIF-IN
SPDIF-Out
SPDIF-OUT
SPDIF-IN2
fast SPDIF
XB2
I2S-IN-SD1
I2S-IN-SD2
I2S-IN-SD3
I2S-IN-SD4
AI
AO
I2S-IN-WS
I2S-IN-SCK
I2S-IN-OSC
2
4 × I
S
SPDIF
2
4 × I
S
HDMI
HDMI_RX
XB3
4
2
I S
2
4 × I
S
I2S-OUT-SD1
I2S-OUT-SD2
I2S-OUT-SD3
I2S-OUT-SD4
4
IF
SSIF
ADC
ASDEC
(DEMODULATION
AND DECODING)
APP - AUDIO DSP
(POST PROCESSING)
DigIF
from
XB4
I2S-OUT-WS
I2S-OUT-SCK
I2S-OUT-OSC
SPDIF
L, R
ADC
2
Main L, R
HP L, R
DAC
2
DAC
2
DAC
SCART2 L, R
2
DAC
SCART1 L, R
18440_204_090226.eps
090226
Figure 7-9 PNX8543 audio flow diagram
The Audio Subsystem consist of the following blocks:
•
Analogue Audio Front End (AAFE) used to capture
Baseband Audio Inputs and to sample Secondary Sound
IF (SSIF) directly or via Low-IF input
HDMI Receiver interface block
SPDIF input block
Audio Input (AI) block
•
•
•
•
•
Audio Output (AO) block
Demodulation & Decoding (ASDEC) DSP for decoding all
analogue terrestrial TV sound standards
Audio Post-Processing (APP) block
Digital Audio decoder.
•
•
7.5.3 Connectivity and Compute Subsystem
Refer to Figure 7-10 for the connectivity and compute
subsystem.
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Circuit Descriptions
Q549.2E LA
7.
EN 49
DDR2-SDRAM
MCU_DDR
I2C-1
IIC4_DMA
I2C-2
I2C-3
IIC2_DMA
MIPS
4KEc
EJTAG
IIC3_DMA
AVDSP
UART-1
UART-2
USB
UART1
UART2
USB2.0
PCI_XIO
PCI/XIO
CI/CA
CAI
I2C-MC
UART-3
PWMs
GPIOs
SYSTEM
CONTROLLER
80C51
JTAG_MMIO
EJTAG
18440_205_090226.eps
090226
Figure 7-10 PNX8543 connectivity and compute subsystem
The Connectivity Subsystem consists of:
keys in the components, unauthorised exchange of these
•
•
•
•
•
PCI/XIO interface
USB2.0 interface
Three 2-wire UARTs
components will always result in a defective board.
Four Master/Slave I2C interfaces
Common Interface/Conditional Access Interface.
The Computing Subsystem consists of:
•
•
•
•
•
•
32-bit MIPS RISC core
Enhanced JTAG (EJTAG) block inside the MIPS
JTAG_MMIO blocks
TV controller
Audio/Video DSP (AV_DSP)
Memory Control Unit (MCU).
7.5.4 Service Notice - FLASH RAM / PNX8543 exchange
The FLASH RAM (item 7P10) and/or PNX8543 (item 7H00)
can only be exchanged by an authorised central workshop with
dedicated programming tools. Due to the presence of (CI+)
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Circuit Descriptions
EN 50
7.
Q549.2E LA
Access Module (CAM) and the Integrated Digital Television
(IDTV). The security mechanisms in CI+ are derived/copied
from POD (with the exception of Out Of Band (OOB) used in
US CA systems). For more information about conventional CA
systems using a CI module, refer to the BJ3.0E L/PA or BL2.xU
Service Manual.
7.6 Common Interface CI+
Together with this platform, an extention to the Common
Interface (CI) Conditional Access system is added, called CI+.
CI+ or Common Interface Plus is a specification that extends
the Common Interface (DVB-CI) as described in the digital
broadcasting standard DVB.
The CI+ standard is downwards compatible with the existing CI
standard.
The weakness of the conventional CI module as Conditional
Access system was the absence of a Copy Protection
mechanism, as decrypted content could be sent over the
PCMCIA interface unscrambled. With the CI+ extension, a
form of copy protection is established between the Conditional
The following figure shows the implementation of the CI+
Conditional Access system in the TV543 platform.
TS-INPUT
channel
decoder
M atrix
DES/AES
descram bler
decoder
dem ux
tuner
M HEG CI+
PNX8543
Transport stream
interface
Com m and
interface
Transport Stream s
C A-Control
Proprietary C A
scram bling
CAM
CI + Standardised CCS
scram bling
(SC)
18440_221_090227.eps
090227
Figure 7-11 CI+ Conditional Access implementation
7.7 Net TV
In this chassis, a feature that enables access to dedicated
internet pages from a limited group of information suppliers,
called “Net TV”, is introduced. A separate Wi-Fi module
enables wireless communication with a local network.
7.8 Ambi Light
The Ambi Light architecture in this platform has been entirely
renewed. The characteristics are:
The use of the DC/DC board is optional. In case no DC/DC
board is implemented, the ARM processor is located on one of
the AL boards.
•
•
•
•
•
•
Additional DC/DC board generating 12/16/24 V (optional)
ARM processor (on DC/DC panel or AL board)
Low-power LEDs
Refer to Figure 7-12 for the Ambi Light architecture.
SPI interface from ARM to LED drivers
I2C upgradeable via USB
Each AL module has a temperature sensor.
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Circuit Descriptions
Q549.2E LA
7.
EN 51
18310_203_090317.eps
090317
Figure 7-12 Interface between Ambi Light and SSB
7.8.1 ARM controller
Refer to Figure 7-13 below for signal interfacing to and from the
The SPI bus is a synchronous serial data link standard that
operates in full duplex mode.
ARM controller. The ARM controller is located on the DC/DC
board (item no. 7302) or AL panel (item no. 7102).
For debugging purposes, the working principle is given below:
•
•
•
•
•
At startup the controller will read-out matrix data from the
EEPROM devices (via SPI DATA RETURN)
Before operation, the driver current is set via SPI, with
driver in DC mode
During normal operation the controller receives RGB-,
configuration-, operation mode- and topology data via I2C
The controller converts the I2C RGB data via the matrixes
to SPI LED data
SD A
SC L
SPI CLOCK
Sda1
Scl1
tbd
Sck
SPI LATCH
P0.7
SPI LATCH
(only on dc/dc for aurea)
2
SEL1
SEL2
P0.8
tbd
SPI DATA OUT
PW M CLOCK
SPI DATA RETURN
BLANK
Via data return the controller receives error data (if
applicable).
M OSI
M AT0.0
M ISO
Also PWM clock and BLANK signals are generated by the
controller. The controller can be reprogrammed via I2C (via
USB). The controller can receive matrix values via I2C, which
will be stored in the EEPROM of each AL module via the SPI
bus. The temperature sensor in each AL module controls the
TEMP line; in case of a too high temperature the controller will
reduce the overall brightness.
ARM
M AT1.0
PROG
tbd
tbd
TxD
Txd0
R xd0
CS EEPROM
TEM P
R xD
P0.10
7.8.2 LED driver communication (via SPI bus)
18310_204_090318.eps
090318
Refer to Figure 7-14 below for signal interfacing between the
ARM controller and the LED drivers on the AL boards, and the
LED drivers and the EEPROMs on the AL boards.
Figure 7-13 ARM controller interface
Data transfer between ARM processor and LED drivers is
executed by a Serial Peripheral Interface (SPI) bus interface.
Am bilight m odule 1
Am bilight m odule 2
Am bilight m odule N
Sout
Sin
Sout
Sin
Sout
LED
DRIVER
1
LED
DRIVER
2
LED
DRIVER
N
SPI d ata return
SPI clo ck (SCLK)
SPI latch (XLAT)
PRO G (VPRG )
BLANK
ARM
PW M CLO CK ( G SCLK)
18310_205_090318.eps
090318
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Circuit Descriptions
EN 52
7.
Q549.2E LA
Figure 7-14 SPI communication between ARM controller and LED drivers
The ARM controller communicates with the LED drivers (on
each AL module) via an SPI bus. For debugging purposes, the
working principle is given below:
•
•
•
Data from the ARM controller is linked through the drivers,
which are connected in cascade
SPI CLK, SPI LATCH, PROG, BLANK and PWM CLOCK
are going directly from the controller to each driver
SPI DATA RETURN is linked from the last driver to the
controller: controller decides which driver returns data.
7.8.3 Temperature Control
Refer to Figure 7-15 for signal interfacing between the ARM
controller and the temperature sensor on the AL boards.
Am bilight m odule 1
Am bilight m odule 2
Am bilight m odule N
Vcc
Vcc
Vcc
Pull-up
Pull-up
TEMP
TEMP
TEMP
SENSOR
SENSOR
SENSOR
ARM
18310_206_090318.eps
090318
Figure 7-15 Communication between ARM controller and
temperature sensor
Each AL board is equipped with a temperature sensor. If one of
the sensors detects a temperature over the threshold, the
TEMP line is pulled LOW which results in brightness reduction.
2009-May-08
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IC Data Sheets
Q549.2E LA
8.
EN 53
8. IC Data Sheets
This chapter 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 SSB: DC/DC B01A, TPS53124PW (IC 7U03)
Pin Configuration
VBST1
NC
28 DRVH1
1
27
2
LL1
EN1
26
3
DRVL1
VO1
25
4
PGND1
VFB1
NC
24
5
TRIP1
23
6
VIN
GND
TEST1
NC
22
21
20
19
18
17
16
15
VREG5
7
V5FILT
TEST2
TRIP2
8
9
VFB2
VO2
10
11
12
13
14
PGND2
DRVL2
LL2
EN2
NC
DRVH2
VBST2
18250_300_090319.eps
090319
Figure 8-1 Internal block diagram and pin configuration
2009-May-08
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IC Data Sheets
EN 54
8.
Q549.2E LA
8.2 Diagram SSB: Front End B02B, DRX3926K (IC 7T50)
Block Diagram
RF AGC
MPEG-2
TS
DVB-T/QAM
FEC
IF AGC
SAW
Main
Tuner
IF AMP
ADC
CVBS
DVB-T/QAM/ATV
Demodulator
DAC
DAC
Stereo Decoder
SIF
Integrated Tuner
I2S Audio
Presaw
Sense
I2C
I2C
System Controller
GPIO
Pin Configuration
VSSAH_CVBS
VDDAH_CVBS
CVBS
SIF
INP
INN
VSSAH_AFE1
VDDAH_AFE1
VDDAL_AFE1
VSSAL_AFE1
IF_AGC
VSSAL_AFE2
VDDAL_AFE2
PDP
PDN
RF_AGC
48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33
XI 49
XO 50
32 RSTN
31 SAW_SW
30 GPIO2
29 VSYNC
28 VSSL
27 VDDL
26 VDDH
25 VSSH
24 I2C_SDA1
23 I2C_SCL1
22 MD7
VSSAH_OSC 51
VDDAH_OSC 52
VDDH 53
VSSH 54
VSSL 55
VDDL 56
DRXK
TDO 57
TMS 58
TCK 59
TDI 60
21 MD6
I2C_SDA2 61
I2C_SCL2 62
I2S_CL 63
I2S_DA 64
20 MD5
19 MD4
18 VDDH
17 VSSH
1
2
3
4
5
6
7
8
9
10 11 12 13 14 15 16
I2S_WS
VDDL
VDDL
VSSL
GPIO1
MSTRT
MERR
VSSH
VDDH
VSSL
MD3
MD2
MD1
MD0
MVAL
MCLK
18440_300_090303.eps
090303
Figure 8-2 Pin configuration
2009-May-08
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IC Data Sheets
Q549.2E LA
8.
EN 55
8.3 Diagram SSB: PNX8543 - Stand-by Controller B04A, PNX8543 (IC7H00)
Block Diagram
PNX8543x
MEMORY
CONTROLLER
TS in from
channel decoder
MPEG
SYSTEM
PROCESSOR
CI/CA
LVDS for
PRIMARY
VIDEO
OUTPUT
TS out/in for
PCMCIA
flat panel display
(single or dual
channel)
LVDS
DV-ITU-656
DV INPUT
AV-PIP
SUB-PICTURE
VIDEO
DECODER
CVBS, Y/C,
3D COMB
RGB
SECONDARY
VIDEO
OUTPUT
VIDEO
ENCODER
analog CVBS
Low-IF
DIGITAL IF
MPEG/H.264
VIDEO
DECODER
SCALER,
DE-INTERLACE
AND NOISE
REDUCTION
AUDIO DEMOD
AND DECODE
SSIF, LR
AUDIO DACS
analog audio
AUDIO DSP
2
I S
Dual SPDIF
AUDIO IN
AUDIO OUT
2
SPDIF
I S
300 MHz
AV-DSP
HDMI
RECEIVER
Dual HDMI
DRAWING
ENGINE
SYSTEM
CONTROLLER
(8051)
300 MHz
MIPS32 4KEc
CPU
DMA BLOCK
2
2
I C PWM GPIO
x 22
IR
ADC
SPI
UART I C
GPIO Flash USB 2.0 CA PCI 2.2
x 10
Pin Configuration
ball A1
index area
4
6
8
33
1
3
5
7
9
11 13 15 17 19 21 23 25 27 29 31
A
B
C
D
E
F
G
H
J
K
PNX8543xEH
L
M
N
P
R
T
U
V
W
Y
AA
AB
AC
AD
AE
AF
AG
AH
AJ
AK
AL
AM
AN
AP
Transparent top view
18440_301_090303.eps
090303
Figure 8-3 Internal block diagram and pin configuration
2009-May-08
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IC Data Sheets
EN 56
8.
Q549.2E LA
8.4 Diagram SSB: Ethernet B05A, PNX5120 (IC7C00)
Block Diagram
PNX51xx
MEMORY
CONTROLLER
TM327x 1
LVDS RX 1
GIC 1
GIC 2
GIC 3
Video
UIP L3K7
TM327x 2
LVDS RX 2
TM327x 3
PCI/XIO
LVDS TX 1
Video
I2C
I2C
LVDS TX 2
I2C-DMA
CPIPE L3K7
GFX
LVDS TX 3
LVDS TX 4
UART
UART
16 X GPIO
EJTAG
CLOCK
CAB
AUDIO IN
AUDIO OUT
Pin Configuration
ball A1
index area
2
4
6
8 10 12 14 16 18 20 22 24 26
1
3
5
7
9 11 13 15 17 19 21 23 25
A
B
C
D
E
F
G
H
PNX51xx
J
K
L
M
N
P
R
T
U
V
W
Y
AA
AB
AC
AD
AE
AF
Transparent top view
18560_300_090403.eps
090403
Figure 8-4 Internal block diagram and pin configuration
2009-May-08
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IC Data Sheets
Q549.2E LA
8.
EN 57
8.5 Diagram SSB: Ethernet B07G, DP83816 (IC7N04)
Pin Configuration
Block Diagram
TPRDP/M
TPTDP/M
3V DSP Physical Layer
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
MA2/LED100N
MA1/LED10N
MA0/LEDACTN
MD7
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
NC
VSS
IAUXVDD
VREF
MD6
Pin1
RESERVED
NC
MD5
Identification
MD4/EEDO
AUXVDD
VSS
NC
VSS
25 MHz Clk
TPRDM
TPRDP
IAUXVDD
REGEN
VSS
MD3
MD2
SRAM
MD1/CFGDISN
MD0
RX-2 KB
MWRN
RESERVED
VSS
MII RX
MII TX
MII Mgt
RAM
MRDN
MCSN
SRAM
RXFilter
.5 KB
VSS
BIST
EESEL
TPTDM
TPTDP
VSS
Interface
RESERVED
NC
Logic
Logic
BIOS ROM Cntl
BIOS ROM Data
EEPROM/LEDs
NC
DP83816
AUXVDD
VSS
NC
SRAM
TX-2 KB
PWRGOOD
3VAUX
AD0
AUXVDD
PMEN/CLKRUNN
PCICLK
INTAN
RSTN
AD1
AD2
AD3
GNTN
PCIVDD
AD4
REQN
VSS
AD5
AD31
VSS
AD30
AD6
AD29
AD7
PCIVDD
AD28
PCI CLK
PCI CNTL
PCI AD
CBEN0
AD8
AD27
AD9
AD26
MAC/BIU
DP83816
F_15710_167.eps
230905
Figure 8-5 Internal block diagram and pin configuration
2009-May-08
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IC Data Sheets
EN 58
8.
Q549.2E LA
8.6 Diagram SSB: Audio B10A, TPA3123D (IC 7D10)
Block Diagram
1
F
0.22
F
LIN
RIN
BSR
ROUT
PGNDR
PGNDL
LOUT
22
H
470
470
F
F
1
F
0.68
0.68
F
F
1
F
BYPASS
AGND
22
H
BSL
0.22
F
PVCCL
PVCCR
AVCC
VCLAMP
Shutdown
Control
SD
1
F
MUTE
GAIN0
GAIN1
Control
}
Pin Configuration
1
2
3
4
5
6
7
8
24
PVCCL
SD
PVCCL
MUTE
LIN
RIN
BYPASS
AGND
PGNDL
PGNDL
LOUT
BSL
AVCC
AVCC
GAIN0
GAIN1
BSR
23
22
21
20
19
18
17
16
15
14
13
9
AGND
10
11
12
PVCCR
VCLAMP
PVCCR
ROUT
PGNDR
PGNDR
TERMINAL
I/O/P
DESCRIPTION
24-PIN
(PWP)
NAME
Shutdown signal for IC (low = disabled, high = operational). TTL logic levels with compliance to
AVCC
SD
2
I
RIN
LIN
6
5
I
I
I
I
Audio input for right channel
Audio input for left channel
GAIN0
GAIN1
18
17
Gain select least-significant bit. TTL logic levels with compliance to AVCC
Gain select most-significant bit. TTL logic levels with compliance to AVCC
outputs enabled). TTL logic levels with compliance to AVCC
MUTE
4
I
BSL
21
1, 3
22
I/O
P
Bootstrap I/O for left channel
PVCCL
LOUT
Power supply for left-channel H-bridge, not internally connected to PVCCR or AVCC
Class-D 1/2-H-bridge positive output for left channel
Power ground for left-channel H-bridge
O
P
PGNDL
VCLAMP
BSR
23, 24
11
P
Internally generated voltage supply for bootstrap capacitors
Bootstrap I/O for right channel
16
I/O
O
P
ROUT
PGNDR
PVCCR
AGND
AGND
15
Class-D 1/2-H-bridge negative output for right channel
Power ground for right-channel H-bridge.
13, 14
10, 12
9
P
Power supply for right-channel H-bridge, not connected to PVCCL or AVCC
Analog ground for digital/analog cells in core
P
8
P
Analog ground for analog cells in core
Reference for preamplifier inputs. Nominally equal to AVCC/8. Also controls start-up time via
external capacitor sizing.
BYPASS
AVCC
7
O
P
P
19, 20
Die pad
High-voltage analog power supply. Not internally connected to PVCCR or PVCCL
Connect to ground. Thermal pad should be soldered down on all applications to properly
secure device to printed wiring board.
Thermal pad
18440_302_090303.eps
090303
Figure 8-6 Internal block diagram and pin configuration
2009-May-08
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Block Diagrams
Q549.2E LA
9.
EN 59
9. Block Diagrams
Wiring Diagram 32" (Elite Core)
WIRING DIAGRAM 32"
(ELITE CORE)
WIFI ANTENNA
WIFI ANTENNA
(1044)
(1043)
LCD DISPLAY
(1004)
1M85 (AL4)
14. GND
13. VLED2
12. GND
11. VLED1
1M83 (AL1)
1. SCL
2. SPI-DATA-IN
3. SDA
4. CONTROL-1
5. CONTROL-2
6. +3V3
7. BLANK
8. EEPROM-CS
9. TEMP-SENSOR
10. PROG
11. VLED1
10. PROG
9. TEMP-SENSOR
8. EEPROM-CS
7. BLANK-BU
6. +3V3
5. PWM-CLOCK-BUF
4. SPI-LATCH
3. SPI-DATA-RETURN
2. SPI-DATA-OUT
1. SPI-CLOCK-BUF
8684
TO
BACKLIGHT
TO
8319
8316
BACKLIGHT
12. GND
13. VLED2
14. GND
8159
1G50 (B05C)
41. N.C
40. TXDAT-
39.TXDAT
...
...
...
3. TX2E+
2. SCL-DISP
1. SDA-DISP
8151
8159
1G51 (B05C)
51. N.C.
50. SDA-DISP
49. SCL-DISP
...
...
...
3. +VDISP1
2. +VDISP1
1. +VDISP1
SSB
B
(1011)
WIFI
MODULE
ON 1A01
(1042)
CN4
1M20 (B01B)
8. +5V
7. KEYBOARD
6. LED1
11. NC
10. GND_SND
9. +VSND
8. +12V
MAIN POWER SUPPLY
5. +3V3-STANDBY
4. LED2
3. RC
2. GND
1. LIGHT-SENSOR
7. +12V
6. +12V
IPB 32 PLHL-T826A
5. GND1
4. GND1
3. GND1
2. STANDBY
1. 3V3_ST
(1050)
1M95 (B01B)
11. N.C
10. GND
9. +AUDIO-POWER
8. +12V
7. +12V
6. +12V
5. GND
4. GND
3. GND
2. STANDBY
1. +3V3-STANDBY
CN5
12. NC
11. NC
10. NC
9. INV_OK
8. A/P_DIM
7. BOOST
6. DIM
5. BL_ON_OFF
4. GND1
3. GND1
2. +12V
1M99 (B01B)
12. GND
1. +12V
11. SDA-SET
10. SCL-SET
9. POWER-OK
8. BACKLIGHT-PWM...
7. BACKLIGHT-BOOST
6. BACKLIGHT-OUT
5. LAMP-ON-OUT
4. GND
3. GND
2. +12VD
1. +12VD
1M83 (AL1)
14. GND
13. VLED2
12. GND
11. VLED1
10. PROG
9. TEMP-SENSOR
8. EEPROM-CS
7. GND
6. +3V3
5. CONTROL-2
4. CONTROL-1
3. SDA
8735
2. GND
1. SCL
8408
-
+
-
+
INLET
LEFT SPEAKER
RIGHT SPEAKER
(5213)
(5214)
8101
Board Level Repair
IR LED PANEL
(1112)
1M01
1M20
3P
8P
Component Level Repair
Only For Authorized Workshop
18310_400_090305.eps
090421
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Block Diagrams
Q549.2E LA
9.
EN 60
Wiring Diagram 37" (Elite Core)
WIRING DIAGRAM 37"
(ELITE CORE)
WIFI ANTENNA
WIFI ANTENNA
(1044)
(1043)
8802
8802
1M83 (AL1)
1. SCL
1M84 (AL1)
14. GND
2. GND
13. VLED2
3. SDA
12. GND
4. CONTROL-1
5. CONTROL-2
6. +3V3
11. VLED1
10. PROG
9. TEMP-SENSOR
8. EEPROM-CS
7. BLANK-BU
6. +3V3
5. PWM-CLOCK-BUF
4. SPI-LATCH
3. SPI-DATA-RETURN
2. SPI-DATA-OUT
1. SPI-CLOCK-BUF
8684
7. GND
8. EEPROM-CS
9. TEMP-SENSOR
10. PROG
11. VLED1
12. GND
13. VLED2
14. GND
LCD DISPLAY
(1004)
TO
BACKLIGHT
TO
8319
BACKLIGHT
8159
1G50 (B05C)
41. N.C
40. TXDAT-
39.TXDAT
...
8150
...
...
3. TX2E+
2. SCL-DISP
1. SDA-DISP
8590
1G51 (B05C)
51. N.C.
50. SDA-DISP
49. SCL-DISP
...
8151
...
...
3. +VDISP1
2. +VDISP1
1. +VDISP1
SSB
(1150)
1M84 (AL1)
1. SPI-CLOCK-BUF
2. SPI-DATA-OUT
3. SPI-DATA-RETURN
4. SPI-LATCH
5. PWM-CLOCK-BUF
6. +3V3
7. BLANK-BU
8. EEPROM-CS
9. TEMP-SENSOR
10. PROG
1M83 (AL1)
14. GND
13. VLED2
12. GND
11. VLED1
10. PROG
9. TEMP-SENSOR
8. EEPROM-CS
7. GND
B
WIFI
MODULE
ON 1A01
(1042)
DC-DC
AB
6. +3V3
INTERFACE
5. CONTROL-2
4. CONTROL-1
3. SDA
2. GND
1. SCL
(1028)
11. VLED1
12. GND
13. VLED2
14. GND
CN4
1M20 (B01B)
8. +5V
7. KEYBOARD
6. LED1
5. +3V3-STANDBY
4. LED2
3. RC
1M84 (AB1)
11. NC
14. GND
10. GND_SND
9. +VSND
8. +12V
7. +12V
6. +12V
5. GND1
4. GND1
3. GND1
2. STANDBY
1. 3V3_ST
13. VLED2
MAIN POWER SUPPLY
12. GND
11. VLED1
10. PROG
IPB DPS-298CPA B
9. TEMP-SENSOR
8. EEPROM-CS
7. BLANK-BUF
6. +3V3
5. PWM-CLOCK-BUF
4. SPI-LATCH1CONN
3. SPI-DATA-RETURN
2. SPI-CLOCK-BUF
1. SPI-LATCH2CONN
(1050)
2. GND
1. LIGHT-SENSOR
1M95 (B01B)
11. N.C
10. GND
9. +AUDIO-POWER
8. +12V
7. +12V
6. +12V
5. GND
4. GND
3. GND
1M83 (AL1)
1. SCL
2. GND
1M84 (AL1)
14. GND
13. VLED2
12. GND
11. VLED1
CN5
12. NC
3. SDA
11. NC
10. NC
4. CONTROL-1
5. CONTROL-2
6. +3V3
8395
9. INV_OK
8. A/P_DIM
7. BOOST
6. DIM
5. BL_ON_OFF
4. GND1
3. GND1
2. +12V
10. PROG
7. GND
9. TEMP-SENSOR
8. EEPROM-CS
7. BLANK-BU
6. +3V3
5. PWM-CLOCK-BUF
4. SPI-LATCH
3. SPI-DATA-RETURN
2. SPI-DATA-OUT
1. SPI-CLOCK-BUF
8. EEPROM-CS
9. TEMP-SENSOR
10. PROG
11. VLED1
12. GND
2. STANDBY
1. +3V3-STANDBY
13. VLED2
14. GND
1M99 (B01B)
12. GND
11. SDA-SET
10. SCL-SET
1. +12V
9. POWER-OK
8. BACKLIGHT-PWM...
7. BACKLIGHT-BOOST
6. BACKLIGHT-OUT
5. LAMP-ON-OUT
4. GND
8399
FUSE
3. GND
2. +12VD
1. +12VD
8585
8408
8735
INLET
- +
- +
- +
- +
1M84 (AL1)
1. SPI-CLOCK-BUF
2. SPI-DATA-OUT
3. SPI-DATA-RETURN
4. SPI-LATCH
5. PWM-CLOCK-BUF
6. +3V3
7. BLANK-BU
8. EEPROM-CS
9. TEMP-SENSOR
10. PROG
1M83 (AL1)
14. GND
13. VLED2
12. GND
11. VLED1
10. PROG
9. TEMP-SENSOR
8. EEPROM-CS
7. GND
RIGHT SPEAKER
LEFT SPEAKER
(5214)
(5213)
11. VLED1
12. GND
13. VLED2
14. GND
6. +3V3
5. CONTROL-2
4. CONTROL-1
3. SDA
2. GND
1. SCL
8101
TWEETER
TWEETER
Board Level Repair
IR LED PANEL
(1112)
1M01
1M20
3P
8P
Component Level Repair
Only For Authorized Workshop
18310_401_090305.eps
090420
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Block Diagrams
Q549.2E LA
9.
EN 61
Wiring Diagram 56" (Elite Core)
WIRING DIAGRAM 56"
(ELITE CORE)
WIFI ANTENNA (1044)
WIFI ANTENNA (1043)
AMBI-LIGHT MOD.
4/4 (1073)
AMBI-LIGHT MOD.
3/3 (1080)
AMBI-LIGHT MOD.
3/3 (1076)
AMBI-LIGHT MOD.
3/3 (1074)
AMBI-LIGHT MOD.
4/4 (1072)
1M85 (AL4)
14. GND
13. VLED2
12. GND
11. VLED1
1M83 (AL1)
1. SCL
2. GND
AL
AL
AL
AL
AL
3. SDA
4. CONTROL-1
5. CONTROL-2
6. +3V3
10. PROG
9. TEMP-SENSOR
8. EEPROM-CS
7. BLANK-BU
6. +3V3
5. PWM-CLOCK-BUF
4. SPI-LATCH
3. SPI-DATA-RETURN
2. SPI-DATA-OUT
1. SPI-CLOCK-BUF
7. GND
8583
8586
8587
8588
8589
8590
8. EEPROM-CS
9. TEMP-SENSOR
10. PROG
11. VLED1
12. GND
8801
8802
Board Level Repair
13. VLED2
14. GND
Component Level Repair
Only For Authorized Workshop
LCD DISPLAY
(1004)
CN2
CN1
CN3
41P
51P
5P
TO
BACKLIGHT
8319
8303
TO
BACKLIGHT
8159
1G50 (B05C)
41. N.C
40. TXDAT-
39.TXDAT
...
8150
...
...
3. TX2E+
2. SCL-DISP
1. SDA-DISP
8690
1G51 (B05C)
51. N.C.
50. SDA-DISP
49. SCL-DISP
...
...
...
3. +VDISP1
2. +VDISP1
1. +VDISP1
CN2 / 1319
14. PDIM_Select
13. PWM
12. On/Off
11. Vbri
10. GND3
9. GND3
8. GND3
8151
1M83 (AL1)
14. GND
13. VLED2
12. GND
11. VLED1
10. PROG
9. TEMP-SENSOR
8. EEPROM-CS
7. GND
1M85 (AL4)
1. SPI-CLOCK-BUF
2. SPI-DATA-OUT
3. SPI-DATA-RETURN
4. SPI-LATCH
5. PWM-CLOCK-BUF
6. +3V3
7. BLANK-BU
8. EEPROM-CS
9. TEMP-SENSOR
10. PROG
7. GND3
6. GND3
CN9
SSB
(1011)
5. GND1
4. GND1
3. N.C.
5. 24Vinv
4. 24Vinv
3. 24Vinv
2. 24Vinv
1. 24Vinv
MAIN POWER SUPPLY
B
WIFI
6. +3V3
MODULE
ON 1A01
2. +12V
1. +12V
5. CONTROL-2
4. CONTROL-1
3. SDA
2. GND
1. SCL
PSU DPS-411AP3A B
11. VLED1
12. GND
13. VLED2
14. GND
(1050)
(1042)
CN3 / 1316
12. N.C.
11. N.C.
DC-DC
CN4
AB
11. NC
INTERFACE
10. GND3
9. GND3
8. GND3
7. GND3
6. GND3
5. 24Vinv
4. 24Vinv
3. 24Vinv
2. 24Vinv
1. 24Vinv
10. GND_SND
9. +VSND
8. +12V
7. +12V
6. +12V
5. GND1
4. GND1
3. GND1
2. STANDBY
1. 3V3_ST
(1028)
1M20 (B01B)
8. +5V
7. KEYBOARD
6. LED1
5. +3V3-STANDBY
4. LED2
3. RC
1M84 (AB1)
14. GND
13. VLED2
12. GND
11. VLED1
10. PROG
1M83 (AL1)
1. SCL
2. GND
9. TEMP-SENSOR
8. EEPROM-CS
7. BLANK-BUF
6. +3V3
5. PWM-CLOCK-BUF
4. SPI-LATCH1CONN
3. SPI-DATA-RETURN
2. SPI-CLOCK-BUF
1. SPI-LATCH2CONN
1M84 (AL1)
14. GND
13. VLED2
12. GND
11. VLED1
2. GND
1. LIGHT-SENSOR
3. SDA
4. CONTROL-1
5. CONTROL-2
6. +3V3
CN5
12. GND1
11. I2C_DATA
10. I2C_CLK
9. INV_OK
8. A/P_DIM
7. BOOST
6. DIM
1M95 (B01B)
11. N.C
10. GND
9. +AUDIO-POWER
8. +12V
7. +12V
6. +12V
5. GND
4. GND
3. GND
10. PROG
9. TEMP-SENSOR
8. EEPROM-CS
7. BLANK-BU
6. +3V3
5. PWM-CLOCK-BUF
4. SPI-LATCH
3. SPI-DATA-RETURN
2. SPI-DATA-OUT
1. SPI-CLOCK-BUF
7. GND
8. EEPROM-CS
9. TEMP-SENSOR
10. PROG
11. VLED1
12. GND
8395
5. BL_ON_OFF
4. GND1
3. GND1
2. +12V
1. +12V
13. VLED2
14. GND
2. STANDBY
1. +3V3-STANDBY
1M99 (B01B)
12. GND
11. SDA-SET
10. SCL-SET
9. POWER-OK
8. BACKLIGHT-PWM...
7. BACKLIGHT-BOOST
6. BACKLIGHT-OUT
5. LAMP-ON-OUT
4. GND
8399
FUSE
3. GND
2. +12VD
1. +12VD
8585
8408
8735
8735
- +
- +
- +
- +
INLET
1M84 (AL1)
1. SPI-CLOCK-BUF
2. SPI-DATA-OUT
3. SPI-DATA-RETURN
4. SPI-LATCH
5. PWM-CLOCK-BUF
6. +3V3
7. BLANK-BU
8. EEPROM-CS
9. TEMP-SENSOR
10. PROG
1M83 (AL1)
14. GND
13. VLED2
12. GND
11. VLED1
10. PROG
9. TEMP-SENSOR
8. EEPROM-CS
7. GND
LEFT SPEAKER
RIGHT SPEAKER
(5213)
(5214)
8109
11. VLED1
6. +3V3
12. GND
13. VLED2
14. GND
5. CONTROL-2
4. CONTROL-1
3. SDA
2. GND
1. SCL
1M09
1M20
1M01
TWEETER
TWEETER
4P
3P
8P
LIGHT STRIP
(1046)
(5215)
1P09
(5216)
L
4P
IR LED PANEL (1047)
8101
18310_407_090420.eps
090508
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Block Diagrams
Q549.2E LA
9.
EN 62
Block Diagram Video
VIDEO
7P15-7P16
74LVC245APW
FRONT-END
CI: PCMCIA CONNECTOR
PNX8543:
FPGA WOW - IO BANKS
PNX5100:VIDEO-IN
PNX5100: LVDS
B05E
B02A
B07A
B04
B06G
B05B
1G50
1P00
20
7H00
1
2
+3V3
PNX85439EH/M2
B04N VIDEO STREAMS
CA_MD0
7FN0
EP3C25F324C7N
7C00
PNX5120EH/M2
I2C
B04O LVDS
TX1
TX2
B05B LVDS
RX
3
B05E LVDS
TX
TX851A+
TX851A-
AP18
AN18
AL18
AK18
AP19
AN19
AP20
AN20
AM20
AL20
AM19
AL19
L14
L15
K17
K18
L17
M17
L13
M14
P17
P18
N17
N18
TXF1A+
TXF1A-
RX51001A+
K5
L5
K2
K1
M2
M1
L2
L1
P2
P1
T3
R3
AE20
AF20
AC20
AD20
AC19
AD19
AE19
AF19
AE18
AF18
AC18
AD18
MDO(0-7)
CA-MDO(0-7)
BUFFER
A_P
A_N
RX51001A-
RX51001B+
RX51001B-
RX51001CLK+
RX51001CLK-
RX51001C+
RX51001C-
RX51001D+
RX51001D-
RX51001E+
RX51001E-
TX851B+
TX851B-
PCMCIA
TXF1B+
TXF1B-
TO DISPLAY
1080p 50/60Hz
B_P
CA-MDI(0-7)
CA_MDI
B_N
TX851C+
TX851C-
17
37
TXF1CLK+
TXF1CLK-
TXF1C+
TXF1C-
PCMCIA-VCC-VPP
C_P
18
33
51
52
CONDITIONAL
ACCESS
C_N
38
39
40
41
FPGA
WOW
TX851D+
TX851D-
D_P
D_N
TX851E+
TX851E-
TXF1D+
TXF1D-
PNX5120
E_P
N.C.
E_N
TX851CLK+
TX851CLK-
TXF1E+
TXF1E-
DEMODULATOR
B02B
CLK_P
CLK_N
7T50
DRX3926K
QUAD LVDS
1920x1080
100/120HZ
1G51
51
1T11
HD1816AF/BHXP
LOCAL
CONTRAST
HD-NM
FHD 100Hz
TXF2A+
TXF2A-
RX51002A+
RX51002A-
RX51002B+
RX51002B-
RX51002CLK+
RX5100CCLK-
RX51002C+
RX51002C-
RX51002D+
RX51002D-
RX51002E+
RX51002E-
U2
V3
U4
V4
U6
V6
U5
V5
U7
V7
U8
V8
AE17
AF17
AC17
AD17
AC16
AD16
AE16
AF16
AE15
AF15
AC15
AD15
TX852A+
TX852A-
AP22
AN22
AL22
AK22
AP23
AN23
AP24
AN24
AM24
AL24
AM23
AL23
U17
V17
U15
V15
U14
V14
U13
V14
U11
V11
U10
V10
LOUT2_A_P
LOUT2_A_N
LOUT2_B_P
LOUT2_B_N
LOUT2_C_P
LOUT2_C_N
LOUT2_D_P
LOUT2_D_N
LOUT2_E_P
LOUT2_E_N
50
2T19
2T20
3T53
3T55
9T11
9T21
11 TUN-P11
B-IF-_N-IF-
B-IF+_N-IF+
PDP
PDN
47
48
FE-DATA(0-7)
PD_P
PD_N
MD
SIF
IF-OUT2
TXF2B+
TXF2B-
I2C
TNR_TSDI
TX852B+
TX852B-
49
40
TX3
10
TUN-P10
TXF2CLK+
TXF2CLK-
TXF2C+
TXF2C-
IF-OUT1
TX852C+
TX852C-
B04K ANALOGUE AV
7T10
UPC3221GV
3T70
3T70
44
43
IF-P
CVBS4
F2
H3
AI51
TX852D+
TX852D-
TX4
+5V-TUN
1
7T52
DEMODULATOR
TO DISPLAY
1080p 100/120Hz
AGC AMPLIFIER
VCC
9T61
9T63
11
TXF2D+
TXF2D-
TX852E+
TX852E-
AI44
CVBS
MAIN HYBRID
TUNER
5
4
3
2
1
1T25
1
2T15
2
3000
3T50
CVBS-TER-OUT
7
6
IF-
39
40
49
5
4
TXF2E+
TXF2E-
TX852CLK+
TX852CLK-
LOUT2_CLK_P
LOUT2_CLK_N
3
4
IF+
2
8,18,26,53
2,16,27,56
37
AK19
VDDH
VDDL
+3V3
VDDA-LVDS
IN
OUT
IREF_LVDS
SAW 36M125
B05E
+VDISP1
FPGA WOW - DDR
B06F
+1V2
AGC CONTROL
XI
AB20
AA5
L16
9T18
VDDAH_AFE1
VDDAH_CVBS
VDDAH_OSC
VDDAL_AFE
+3V3A
+3V3E
+3V3D
+1V2A
SUPPLY
TUN-P1
TUN-P9
+3V3
1
ANTENNA-SUPPLY
42
DC_POWER
XTAL_OUT
1T50
27M
+5V-TUN
+1V2-PNX5100
52
PNX8543
9T23
50
9
+1V8-PNX5100
7FL0
+5V-TUN-PIN
+5V-TUN
XO
36,46
P22
AB18
J5
EDD1216AJTA
+1V2-PNX5100-DDR-PLL1
+3V3-PNX5100-LVDS-IN
+1V2-PNX-TRI-PLL1
+1V2-PNX-TRI-PLL2
+1V2-PNX-TRI-PLL3
+1V2-PNX5100-DLL
+3V3-PNX5100-DDR-PLL0
+1V2-PNX5100-LVDS-PLL
+3V3-PNX5100-LVDS-PLL
3T22
IF-AGC
34
33
IF_AGC
DDR
SDRAM
8Mx16
MM1-D(0-15)
MM1-A(0-12)
L5
9T20
3
TUN-P3
RF-AGC
RF_AGC
RF-AGC
T5
H264
USB 2.0
1
M22
AE25
E15
B15
AE14
AD14
+2V5-DDR1
VREF-DDR1
49
ANALOGUE EXTERNALS A
ANALOGUE EXTERNALS B
B08B
B08A
7E02
74HC4053PW
16
+5V
MDX
+1V2-PNX5100-CLOCK
+3V3-PNX5100-CLOCK
1P05
5
CVBS-TER-OUT
1
3
4
6
7
DRX2+
14
7E16-7E06
DRX2-
DRX1+
DRX1-
DRX0+
DRX0-
DRXC+
DRXC-
Y_CVBS-MON-OUT-SC
A3
1E01
19
Y-CVBS-MON-OUT
FPGA LOCAL CONTRAST
- LVDS IN/OUT
1
B06D
B05A DDR2
PNX5100: SDRAM
B05A
7E05
CVBS1Y_P
P24
9,10,11
VREF
PNX5100-DDR2-VREF-CTRL
7C01
REGIMBEAU_CVBS-SWITCH
AV1_STATUS
B04A
CONTROL
B04A
CONTROL
B04A
9
EDE5116AJBG-8E-E
1
8
9FG2
9FG3
9FG4
9FG5
9FG6
9FG7
9FG8
9FG9
9FGA
9FGB
9FGC
9FGD
10
7E09
12
DDR2
SDRAM
HDMI SIDE
CONNECTOR
7
16
AV1_BLK
(0-12)
11
15
EXT 1
1P02
ANALOGUE EXTERNALS D
9EA3
B08D
J1
VDDL
J2
1
3
4
6
7
PNX5100-DDR2-D(0-15)
D
A
+1V8-PNX5100
CRX2+
CRX2-
CRX1+
CRX1-
CRX0+
CRX0-
CRXC+
CRXC-
16
20
J2
15
AV1-R
AV1-PR
AV1-PB
AV1-Y
AI32
AI22
AI12
AI41
VREF
PNX5100-DDR2-
VREF-DDR
21
9EA1
9EA2
7
AV1-B
AV1-G
L2
7C02
EDE5116AJBG-8E-E
11
N2
*JUMPERS IN CASE OF NO FPGA
9
20
9EA7
G4
AV1-CVBS
AV1-Y_CVBS
DDR2
SDRAM
PNX5100-DDR2-A(0-12)
(16-31)
B04P VDD
SCART1
1
10
1E02
19
7E04
AJ6
12
HDMI 1
VDDA-DAC
VDDA_3V3_AADC
VDDA_3V3_ADAC
VDD_3V3_LVDS
CONNECTOR
J1
VDDL
J2
AK12
AK20
F16
+1V8-PNX5100
VDDA-ADC
1P03
7
15
11
L3
J3
AV3_PB
AV3-PR
VREF
PNX5100-DDR2-
VREF-DDR
AI23
1
3
4
6
7
BRX2+
BRX2-
BRX1+
BRX1-
BRX0+
BRX0-
BRXC+
BRXC-
VDDA-LVDS
AI33
AI13
AI42
7
RREF-PNX85XX
+3V3-STANDBY
+1V2-PNX85XX
1V2-STANDBY
VDDA_HDMI_3V3_BIAS
VDD_3V3_SBPER
VDD_1V2_CORE
N3
H1
AV3-Y
11
AC6
AJ12
AF5
EXT 2
20
16
8
AV2-Y_CVBS
15
16
7E14
9
AV2-BLK
20
21
B04A
CONTROL
B04A
10
VDD_1V2_SBCORE
12
HDMI 2
CONNECTOR
AV2-STATUS
AJ21
+3V3-PER
VDD_3V3_PER
VDD_1V8_DDR
SCART2
CONTROL
AG30
1P04
1V8-PMNX85XX
ANALOGUE EXTERNALS B
B08B
1
3
4
6
7
ARX2+
ARX2-
ARX1+
ARX1-
ARX0+
ARX0-
ARXC+
ARXC-
1E05
USB CONNECTOR
B07C
1
R-VGA
G-VGA
K4
P4
M4
T1
T2
PC3_AI3
B04E CONTROL
+5V
2
PC1_AI3
PC2_AI3
HSYNCIN
VSYNCIN
3
B-VGA
13
14
H-SYNC-VGA
V-SYNC-VGA
9
1P07
1
10
AL16
AN16
AP16
USB-OC
USB 2.0
CONNECTOR SIDE
SW UPLOAD
JPEG
USB_FAULT
12
2
USB20-DM
HDMI 3
CONNECTOR
VGA
USB_DM
USB_DP
3
CONNECTOR
USB20-DP
4
1E03
MP3
3H37
3H45
AM17
AN17
AV4-PR
AV4-PB
K1
+3V3-PER
+3V3-PER
USB_RPU
PR
PC3_AI1
PC1_AI1
7P02
TDA9996
USB_VBUS
M1
PB
DRX2+
EXT 3
72
71
69
68
66
65
63
62
42
41
39
39
36
35
90
89
87
86
84
83
81
80
CRX2+
CRX2-
CRX1+
CRX1-
CRX0+
CRX0-
CRXC+
CRXC-
BRX2+
BRX2-
BRX1+
BRX1-
BRX0+
BRX0-
PNX8543: FLASH
B07F
1E04
DRX2-
DRX1+
DRX1-
DRX0+
DRX0-
DRXC+
DRXC-
AV4-Y
P1
B04F CONTROL
7P10
Y
PC2_AI1
NAND01GW3B2BN6F
HDMI
SWITCH
ANALOGUE EXTERNALS C
B08C
NAND
FLASH
1G
1E11
PCI-AD24<->NAND-AD
PCI_AD
H2
G1
FRONT-Y_CVBS
FRONT-C
AI43
AI54
CVBS
12,37
8,45,91,24,
75,95
+3V3-NAND
VCC
SIDE
I/O
1E14
VDDx_1V8
VDDO_3V3
VDDx_3V3
+1V8-PNX85XX
+3V3
1
3
4
SVHS IN
5
46,55
+3V3
4
PNX8543: SDRAM
B04G
15,21,34,40,
64,70,85,88
2
33
32
23
22
20
19
17
16
BRXC+
BRXC-
ARX2+
ARX2-
ARX1+
ARX1-
ARX0+
ARX0-
B04H DIGITAL VIDEO IN
VDDH_3V3
REF-3V3
B04G SDRAM
HDMI SWITCH
B07E
3HJ5
AA31
AB32
+1V8-PNX85XX
M_IREF
M_VREF
2
3
HDMIB-RXC+
HDMIB-RXC-
HDMIB-RX0+
A14
A15
B13
B14
A12
A13
B11
B12
DDR2-VREF-CTRL
HDMI_RXC_B_N
HDMI_RXC_B_P
HDMI_RX0_B_N
HDMI_RX0_B_P
HDMI_RX1_B_N
HDMI_RX1_B_P
HDMI_RX2_B_N
HDMI_RX2_B_P
C_+
C_-
7HG0
99
EDE1116AEBG
D0_+
D0_-
D1_+
D1_-
HDMIB-RX0-
HDMIB-RX1+
HDMIB-RX1-
HDMIB-RX2+
100
96
DDR2
(0-12)
97
SDRAM
14
13
ARXC+
ARXC-
93
D2_+
D2_-
J1
J2
HDMIB-RX2-
94
DDR2-D(0-15)
DQ
VDDL
VREF
+1V8-PNX85XX
3HK0
C16
DDR2-VREF-DDR
HDMI_RREF
RREF-PNX85XX
7HG1
EDE1116AEBG
HDMI SWITCH
B07E
1P06
1
3
4
6
7
B15
B16
A16
A17
B17
B18
A18
A19
HDMIA-RX2+
HDMIA-RX2-
HDMIA-RX1+
HDMIA-RX1-
HDMIA-RX0+
HDMIA-RX0-
HDMIA-RXC+
HDMIA-RXC-
HDMI_RX2_A_N
HDMI_RX2_A_P
HDMI_RX1_A_N
HDMI_RX1_A_P
HDMI_RX0_A_N
HDMI_RX0_A_P
HDMI_RXC_A_N
HDMI_RXC_A_P
DDR2
SDRAM
DDR2-A(0-12)
A
J1
J2
(16-31)
VDDL
VREF
+1V8-PNX85XX
DDR2-VREF-DDR
9
10
12
HDMI 4
CONNECTOR
18310_402_090305.eps
090324
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Block Diagrams
Q549.2E LA
9.
EN 63
Block Diagram Audio
AUDIO
FRONT-END
CI: PCMCIA CONNECTOR
PNX8543:
PNX8543: AUDIO
AUDIO
B10A
B02A
B07A
B04
B04I
7P15-7P16
74LVC245APW
20
1P00
7H00
PNX85439EH/M2
+3V3
B04N VIDEO STREAMS
B04L AUDIO
MDO(0-7)
BUFFER
CA-MDO(0-7)
CA_MD0
5HRW
5HRZ
AN8
AM9
7D10
TPA3123D2PWP
AADC
VDDA-AUDIO
PCMCIA
VREF_POS
CA_MDI
AK9
CA-MDI(0-7)
5D07
5D08
VDDA_3V3_DAC
VDDA-DAC
1,3
PVCC_L
PVCC_R
+AUDIO-POWER
17
10,12
PCMCIA-VCC-VPP
18
33
51
52
CONDITIONAL
ACCESS
1735
1
7HM2-1
EF
LEFT-SPEAKER
22
5
6
ADAC(1)
+AUDIO-L
AN14
OUT-L
IN-L
ADAC1
CLASS D
POWER
AMPLIFIER
2
3
4
SPEAKER-L
SPEAKER-R
7HM2-2
EF
DEMODULATOR
B02B
ADAC(2)
-AUDIO-R
AP13
AC5
IN-R
ADAC2
7T50
DRX3926K
1T11
HD1816AF/BHXP
RIGHT-SPEAKER
15
OUT-R
SD
A-STBY
2
4
2T19
2T20
3T53
3T55
9T11
9T21
B04A STANDBY
11 TUN-P11
B-IF-_N-IF-
B-IF+_N-IF+
PDP
PDN
47
48
FE-DATA(0-7)
PD_P
PD_N
MD
SIF
IF-OUT2
CONTROLLER
AUDIO-MUTE
10
TUN-P10
PO_7
MUTE
IF-OUT1
B04K ANALOGUE AV
7T10
UPC3221GV
3T70
3T70
44
IF-P
F2
H3
7D03
AI51
+5V-TUN
1
A-STBY
STANDBY &
PROTECTION
7T52
DEMODULATOR
AGC AMPLIFIER
VCC
3T56
43
CVBS4
CVBS
AI44
MAIN HYBRID
TUNER
1T25
1
2T15
2
3052
3T50
7
6
IF-
39
40
49
5
4
PNX8543: AUDIO
ANALOGUE EXTERNALS C
B08C
B04M
2T17
3
4
IF+
2
8,18,26,53
2,16,27,56
37
7HVA-1
7HVA-2
VDDH
VDDL
+3V3
IN
OUT
SAW 36M125
AD1
B08A
B08B
A-PLOP
RESET-AUDIO
+1V2
PO_6
AGC CONTROL
XI
VDDAH_AFE1
VDDAH_CVBS
VDDAH_OSC
VDDAL_AFE
+3V3A
+3V3E
+3V3D
+1V2A
9T18
TUN-P1
TUN-P9
1
42
ANTENNA-SUPPLY
DC_POWER
+5V
1T50
27M
+5V-TUN
52
9T23
50
9
36,46
+5V-TUN-PIN
+5V-TUN
XO
7HV0
TPA6111A2DGN
PNX8543
3T22
IF-AGC
34
33
IF_AGC
HEADPHONE
AMPLIFIER
9T20
3
TUN-P3
RF-AGC
RF_AGC
RF-AGC
1
7
5
RESET-AUDIO
ADAC(3)
SHUTDOWN
VO_1
1E15
AUDIO-HDPH-L-AP
AUDIO-HDPH-R-AP
2
H264
USB 2.0
HDMI
AUDIO IN HDMI
B07B
B07D
AM12
AM11
2
6
ADAC3
ADAC4
IN-1
3
1
1P05
VO_2
1P0A
1
3
4
6
7
Headphone
Out 3.5mm
DRX2+
2
AUDIO-IN4-L
AUDIO-IN4-R
AP6
ADAC(4)
8
AIN_4_L
AIN_4_R
IN-2
VDD
+3V3
DRX2-
DRX1+
DRX1-
DRX0+
DRX0-
DRXC+
DRXC-
AUDIO IN
VGA
DVI -> HDMI
1P0B
2
AM5
9
10
12
USB CONNECTOR
B07C
ANALOGUE EXTERNALS A
PNX8543: AUDIO
B08A
B04I
HDMI SIDE
CONNECTOR
+5V
1E01
7HM1
1
3EA7
3
1
6
2
AP-SCART-OUT-L
AUDIO-CL-L
AUDIO-CL-R
3
5
ADAC(7)
ADAC(8)
AL9
AL8
AN7
AP7
1P02
ADAC7
ADAC8
AIN_1_L
1
1
3
4
6
7
CRX2+
CRX2-
CRX1+
CRX1-
CRX0+
CRX0-
CRXC+
CRXC-
B04E CONTROL
3EA8
9EA4
9EA4
1P07
AP-SCART-OUT-R
AV1-AUDIO-L
7
7
AL16
AN16
AP16
1
2
3
4
USB-OC
USB 2.0
USB_FAULT
EXT 1
11
15
USB20-DM
USB20-DP
CONNECTOR SIDE
SW UPLOAD
JPEG
AUDIO-IN1-L
AUDIO-IN1-R
USB_DM
USB_DP
16
20
AV1-AUDIO-R
AIN_1_R
9
10
12
MP3
21
3H37
3H45
AM17
AN17
SCART1
+3V3-PER
+3V3-PER
USB_RPU
HDMI 1
CONNECTOR
1E02
3
USB_VBUS
7E01
A-PLOP
AP-SCART-OUT-L
AP-SCART-OUT-R
AUDIO-IN2-L
1
1P03
A-PLOP
B04M
1
3
4
6
7
BRX2+
BRX2-
BRX1+
BRX1-
BRX0+
BRX0-
BRXC+
BRXC-
1
6
2
7
EXT 2
PNX8543: FLASH
B07F
11
AK6
AL6
AIN_2_L
AIN_2_R
15
16
AUDIO-IN2-R
9
10
12
20
21
SCART2
7P10
HDMI 2
CONNECTOR
NAND01GW3B2BN6F
B04F CONTROL
ANALOGUE EXTERNALS B
B08B
1P04
NAND
FLASH
1G
1
3
4
6
7
ARX2+
ARX2-
ARX1+
ARX1-
ARX0+
ARX0-
ARXC+
ARXC-
1E04
PCI_AD
PCI-AD<->NAND-AD
7HM1
4
6
AUDIO-OUT-L
AUDIO-OUT-R
8
10
12
AN11
AP10
ADAC(5)
ADAC(6)
ADAC5
ADAC6
AUDIO OUT
L+R
12,37
VCC
+3V3-NAND
14
9
10
12
7E10
A-PLOP
A-PLOP
1E03
1E10
B04M
6
2
AUDIO-IN3-L
AUDIO-IN3-R
AM6
AN6
HDMI 3
CONNECTOR
AIN_3_L
AIN_3_R
B04G SDRAM
PNX8543: SDRAM
AUDIO IN
L+R
B04G
EXT 3
3HJ5
AA31
AB32
7P02
TDA9996
+1V8-PNX85XX
M_IREF
M_VREF
DDR2-VREF-CTRL
1E07
7E03
EF
DRX2+
72
71
69
68
66
65
63
62
42
41
39
39
36
35
90
89
87
86
84
83
81
80
CRX2+
CRX2-
CRX1+
CRX1-
CRX0+
CRX0-
CRXC+
CRXC-
BRX2+
BRX2-
BRX1+
BRX1-
BRX0+
BRX0-
DIGITAL
AUDIO
OUT
7HG0
EDE1116AEBG
2
SPDIF-OUT
V1
DRX2-
DRX1+
DRX1-
DRX0+
DRX0-
DRXC+
DRXC-
SPDIF_OUT
DDR2
SDRAM
(0-12)
HDMI
ANALOGUE EXTERNALS C
B08C
SWITCH
1E11
J1
J2
DQ
DDR2-D(0-15)
VDDL
VREF
+1V8-PNX85XX
5
8
AUDIO-IN5-L
AUDIO-IN5-R
AN5
AP5
AIN_5_L
AIN_5_R
DDR2-VREF-DDR
AUDIO IN
L+R
SIDE
I/O
8,45,91,24,
75,95
7HG1
EDE1116AEBG
VDDx_1V8
VDDO_3V3
VDDx_3V3
+1V8-PNX85XX
+3V3
4
46,55
DDR2
SDRAM
+3V3
DDR2-A(0-12)
A
HDMI SWITCH
B07E
15,21,34,40,
64,70,85,88
B04H DIGITAL VIDEO IN
VDDH_3V3
REF-3V3
33
32
23
22
20
19
17
16
BRXC+
BRXC-
ARX2+
ARX2-
ARX1+
ARX1-
ARX0+
ARX0-
J1
J2
(16-31)
VDDL
VREF
+1V8-PNX85XX
A14
A15
B13
B14
A12
A13
B11
B12
2
3
HDMIB-RXC+
HDMIB-RXC-
HDMIB-RX0+
HDMI_RXC_B_N
HDMI_RXC_B_P
HDMI_RX0_B_N
HDMI_RX0_B_P
HDMI_RX1_B_N
HDMI_RX1_B_P
HDMI_RX2_B_N
HDMI_RX2_B_P
C_+
C_-
DDR2-VREF-DDR
99
D0_+
D0_-
D1_+
D1_-
B04P VDD
HDMIB-RX0-
HDMIB-RX1+
HDMIB-RX1-
HDMIB-RX2+
100
96
AJ6
VDDA-DAC
VDDA-ADC
VDDA-LVDS
VDDA_3V3_AADC
VDDA_3V3_ADAC
VDD_3V3_LVDS
97
AK12
AK20
F16
93
D2_+
D2_-
14
13
HDMIB-RX2-
ARXC+
ARXC-
94
3HK0
C16
HDMI_RREF
RREF-PNX85XX
+3V3-STANDBY
+1V2-PNX85XX
1V2-STANDBY
VDDA_HDMI_3V3_BIAS
VDD_3V3_SBPER
VDD_1V2_CORE
RREF-PNX85XX
AC6
AJ12
AF5
1P06
1
3
4
6
7
B15
B16
A16
A17
B17
B18
A18
A19
HDMIA-RX2+
HDMIA-RX2-
HDMIA-RX1+
HDMIA-RX1-
HDMIA-RX0+
HDMIA-RX0-
HDMIA-RXC+
HDMIA-RXC-
HDMI_RX2_A_N
HDMI_RX2_A_P
HDMI_RX1_A_N
HDMI_RX1_A_P
HDMI_RX0_A_N
HDMI_RX0_A_P
HDMI_RXC_A_N
HDMI_RXC_A_P
VDD_1V2_SBCORE
AJ21
+3V3-PER
VDD_3V3_PER
VDD_1V8_DDR
AG30
1V8-PMNX85XX
9
10
12
HDMI 4
CONNECTOR
18310_403_090305.eps
090313
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Block Diagrams
Q549.2E LA
9.
EN 64
Block Diagram Control & Clock Signals
CONTROL + CLOCK SIGNALS
B07G ETHERNET
B07A CI: PCMCIA CONNECTOR
B04 PNX8543:
B02A FRONT END
7H00
PNX85439EH/M2
7303
DRX3926K-XK-A3
TUN_CA
B04N
49
50
7N04
1P00
1
1N00
DP83816AVNGNOPB
TNR_TSDI
FE-DATA(0-7)
FE-CLK
DEMODULATOR
CA-MICLK
H32
CA_MICLK
CA_MDI
17
B10
C10
B9
9
10
5
CA-MDI(0-7)
MOCLKA
TNR_MICLK
MAC
FE-VALID
FE-SOP
7P15-7P16
TNR_MIVAL
TNR_MISTRT
PHYTER II
10/100 Mb/S
A34
CA_VSN_0
ETHERNET
CONNECTOR
18
32
RESET-SYSTEM
CA-MOCLK_VS2
H31
B03G
CA_MOCLK
PNX8543
CA_MDO
PCI-CLK-ETHERNET
60
62
MDO(0-7)
CA-MDO(0-7)
LVDS
B04O
B04F
B04A
RESET-ETHERNET
PCI-AD(0-31)
TX852CLK-
AL23
AM23
AL19
B06G
B06G
B06G
B06G
LOUT2_CLK_N
LOUT2_CLK_P
CLK_N
TX852CLK+
TX851CLK-
B07H BUFFERING
PCMCIA
7N13
TX851CLK+
CA-DATADIR
CA-DATAEN
AM19
D31
CLK_P
CA_DATA_DIR
CA_DATA_EN
61
IRQ-PCI
A31
CONDITIONAL
ACCESS
MEMORY
M_DQ
M_A
B04G
B04G PNX8543: SDRAM
DDR2-D(0-31)
PCMCIA-D(0-7)
PCI-AD(24-31)
7HG0
EDE1116AEBG
7N11
7N12
B09A MINI PCI CONNECTOR
7HG1
CA-ADDEN
B31
CA_ADD_EN
CA_RDY
EDE1116AEBG
PCMCIA-A(0-14)
IRQ-CA
PCI-AD(0-14)
DDR2-A(0-12)
J34
1A01
1
SDRAM
DDR2-CLK_P
DDR2-CLK_N
J8
K8
AB34
M_CLK_P
M_CLK_N
RESET-mPCI
IRQ-PCI
68
AB33
B07F PNX8543: FLASH
MINI PCI CONNECTOR
FOR WIFI PANEL
PCI
B04F
PC1-GNT-MINI
PCI-GNT-B
E29
GNT_B
PCI_AD
B03G PNX8543: CONTROL
B05F PNX5100: CONTROL
3HFG
PCI-CLK-OUT
PCI-CLK-ETHERNET
AP28
PCI-AD(0-31)
PCI-AD(0-31)
PCI-AD(0-31)
PLL_OUT
B07G
B05G
3HFH
PCI-CLK-PNX5100
7P10
68
NAND01GW3B2BN6F
3HF4
PCI-CLK-MINI
B09A
3HF2
NAND-AD(0-7) <-- PCI-AD(24-31)
PCI-CLK-PNX8535
NAND
FLASH
19
WP-NANDFLASH
B05 PNX5100:
A30
CLK
7CD0
M24C08-WDW6P
7
A20
B20
XIO-ACK
7C00
PNX5120EH/M2/F4
XIO_ACK
(1G)
9
XIO-SEL-NAND
XIO_SEL_0
PCI_XIO
B05G
L3
PCI-CLK-PNX5100
CONTROL
B04E
EEPROM
(2Kx8)
B04A
WC-EEPROM-PNX5100
U3
7
GPIO_1
GPIO_6
L34
IRQ-CA
IRQ-PCI
PCI-AD(24-31)
GPIO_3
PNX8543-LCD-PWR-ON_SPI-DI
V2
B07B
U4
GPIO_2
RESET-SYSTEM
AN28
B02B B04A B04B
DDR2
RESET_SYS
B05A
B05A PNX5100: SDRAM
B07C USB CONNECTOR
B08D ANALOGUE EXTERNAL D
1P07
1
7C01
1E06
EDE5116AJBG
USB-OC
AL16
AN16
AP16
USB_FAULT
7C02
EDE5116AJBG
2
3
4
L32
3
USB20-DM
PNX5120
PNX5100-DDR2-D(0-31)
USB 2.0
CONNECTOR
SIDE
GPIO_4
GPIO_5
USB_DM
USB_DP
UART
SERVICE
CONNECTOR
USB20-DP
L31
2
1
DDR2-A(0-12)
STANDBY
B04A
AD2
AG2
AK2
1E50
3
SDRAM
9E05
9E41
9E40
P0_5
PNX5100-DDR2-CLK_P
PNX5100-DDR2-CLK_N
J8
P26
P25
RXD-UP
TXD-UP
AG1
AH5
UA_RX_0
UA_TX_1
UP
STANDBY
9E03
K8
B04B PNX8543: DEBUG
3
2H07
SDM
2H06
SDM
P1_7
P6_4
RES
RES
B04A PNX8543: STANDBY CONTROLLER
B01B DC / DC
CONTROL
SPI-PROG
B05F
1M20
1
AF24
RESET-PNX5100
LIGHT-SENSOR
AN2
SPI-PROG
B04A
CADC_1
AE13
2
3
4
5
B04A PNX8543: STANDBY CONTROLLER
9H25
RC_UP
RC
AF2
AJ2
AB2
P1_0
PWM_1
P0_3
AF13
LED2
TO
IR/LED PANEL
AND
9H13
CLK-OUT-PNX5100
AF14
DETECT-12V
DETECT2
AD3
RESET-ETHERNET
B01B
B04A
B04E
P2_5
+3V3-STANDBY
B07G
7U11
LCD-PWR-ON
B26
A26
KEYBOARD CONTROL
GPIO
DETECT1
RESET-SYSTEM
AV1-BLK
AD4
AH3
AH1
AH2
B05H
6
7
8
B05H
B01B
P2_4
LED1
AJ3
PWM_0
CADC_0
BACKLIGHT-PWM-ANA-DISP
P3_3
KEYBOARD
AN3
P3_5
B08A
B08A
B08A
B08A
7CG8
RESET-AUDIO
+5V
AD1
B23 A24
P0_6
P0_7
P2_2
B04M
AV2-BLK
BOOST-CTRL
BACKLIGHT-BOOST
P3_4
B01B
AUDIO-MUTE
AC5
AE1
1M99
5
B10A
AP2
AP1
AV1-STATUS
CADC_2
LAMP-ON
9CG8
BACKLIGHT-CTRL
AV2-STATUS
CADC_3
TO
POWER
SUPPLY
6
7
9
8
ENABLE-3V3
BACKLIGHT-OUT
AE4
AF1
AE5
AB3
B07A
B05H
+3V3-STANDBY
NCP303LSN30G
P2_7
B01A B01B B01C
B06G FPGA WOW - IO-BANKS:
+3V3-STANDBY 7HD0
REGIMBEAU_CVBS-SWITCH
POWER-OK
BACKLIGHT-BOOST
7FN0
P1_1
P2_6
B08A
EP3C25F324C7N
1
AF3
RESET-STBY
I/O BANK
B06G
OUTP
E18
BACKLIGHT-CONTROL-FPGA-IN
CLK-OUT-PNX5100
RESET_IN
2
RESET-PNX5100
BACKLIGHT-PWM-ANA-DISP
INP
B05H
P0_2
B05F
F18
1M95
2
TO
POWER
SUPPLY
3
B06F FPGA WOW - DDR
GND
STANDBY
AD5
P2_3
7FL0
7HC3
M24C64-WDW6P
EDD1216AJTA
7HC4
B07D HDMI
MM1-D(0-15)-->DQ1(0-15)
FPGA
WOW
7P32
CONTROL
7P02
TDA9996
RESET-NVM
AC1
W1
8
P0_1
CEC-HDMI
AG4
EEPROM
(8Kx8)
P1_2
DDDR
SDRAM
8Mx16
MM1-A(0-11)
MM1-CLK+
MM1-CLK-
XTAL_I
TO PIN:
1P04-13
1P03-13
1P02-13
1P05-13
HDMI_DV
45
46
B04H
A2
A1
PCEC-HDMI
57
HDMI
SWITCH
7H02
M25P05-AVMN6P
W2
XTAL_O
ARX-DDC-SCL
BRX-DDC-SCL
CRX-DDC-SCL
DRX-DDC-SCL
12
31
61
79
HDMI_RX
HDMIB-RX
B06E FPGA WOW - POWER & COTROL
1P04-15
1P03-15
7P10
SPI-CLK
SPI-WP
6
3
1
5
2
AJ1
SPI_CLK
512K
FLASH
STANDBY
SW
NAND01GW3B2BN6F
AK4
AK3
AJ4
AK1
1P02-15
1P05-15
P6_5
4x HDMI
CONNECTOR
ASDO
5
6
D1
H4
SPI-CSB
SPI-SDO
SPI_CSB
SPI_SDO
SPI_SDI
DCLK
NAND
FLASH
(1G)
HOTPLUG-A
D19
HOT_PLUG_A
B07E
nCSO
DATA0
1
2
E2
H3
SPI-SDI
18310_404_090305.eps
090327
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Block Diagrams
Q549.2E LA
9.
EN 65
2
Block Diagram I C
I²C
PNX8543: CONTROL
HDMI
DEMODULATOR
B02B
FRONT-END
PNX5100: CONTROL
FPGA WOW
POWER & CONTROL
FPGA WOW - IO BANKS
FPGA BACKLIGHT - LVDS & I2C - MUX
ANALOGUE EXTERNALS D-
B08D
B04E
B07D
B02A
B05F
B06E
B06G
B06A
+3V3-PER
7H00
PNX85439EH
SSB BUS
400 kHz
SDA-SSB
SCL-SSB
3HPJ
G32
SDA3
SDA 3
3HPH
D33
SCL3
SCL 3
+5V-DDC
+5V-DDC
ERR
13
7F01
M25P20
7FH0
M25P16
9T16
49
7P02
50
11
24
7T50
23
K1
7C00
K2
5
6
G17
7FN0
G18
54
7F00
53
1P04
+3V3
PNX8543
16
9T15
ARX-DDC-SDA
TUNER BUS
400 kHz
7CD0
1HP0
3
RES
HDMI
CONNECTOR 3
2M
FLASH
16M
FLASH
PNX8543: SDRAM
B04G
3U67
TDA9996
DRX3926K
PNX5120EH
M24C08
EP3C25F324C7N
XC3S250E
15
ARX-DDC-SCL
12
B04G
SDA
7HG0
EDE1116AEBG
3T16
3T15
9T71
9T70
61
62
TUN-SDA
TUN-P7
TUN-P6
3U66
HDMI
MUX
DEMODULATOR
MICRONAS
PNX5120
FHD 120Hz
BOOT
EEPROM
FPGA
LOCAL
CONTRAST
SPARTAN-3
FPGA
1
SCL
MEMORY
M_DQ
7HG1
EDE1116AEBG
TUN-SCL
DDR2-D
DDR2-A
9FNA
9FN9
FPGA WOW - DDR
D18
B06F
1P03
ERR
23
ERR
27
ERR ERR
ERR
25
ERR
29
16
BRX-DDC-SDA
30
7FL0
EDD1216AJTA
15
21
M_A
C18
SDRAM
HDMI
CONNECTOR 2
7
6
15
BRX-DDC-SCL
31
MM1-D
RESERVED
DDR
SDRAM
8Mx16
+5V-DDC
+5V-DDC
1T11
HD1816AF
MM1-A
1P02
16
+3V3
MAIN
TUNER
CRX-DDC-SDA
60
61
AMBILIGHT BUS
HDMI
CONNECTOR 1
30 kHz
15
1M59
CRX-DDC-SCL
ERR
34
3CDA
3FA6
3FA5
9F22
L1
L2
3
SDA-AMBI-3V3
3CD9
9F21
1
SCL-AMBI-3V3
B04H
TO
1P05
16
3
AMBI-LIGHT
MODULE
+3V3
D15
C15
DDC-SDA
DRX-DDC-SDA
6
5
78
4
5
7
HDMI
CONNECTOR
SIDE
DDC_SDA_B
15
DDC-SCL
DRX-DDC-SCL
79
DDC_SCL_B
HDMI SWITCH
ANALOGUE EXTERNALS B
PNX5100: SDRAM
PNX8543:VIDEO STREAMS
PNX8543: FLASH
B07F
B07E
B08B
B05A
B04N
HDMI_DV
+5V-DDC
7C01
1P06
16
EDE5116AJBG
+5VDCOUT
9P19
9P20
7E18
M24C02
E19
7C02
EDE5116AJBG
DDCA-SDA
ERX-DDC-SDA
DDC_SDA_A
PNX5100-DDR2-D(0-31)(0-31)
HDMI
15 CONNECTOR 4
C18
DDCA-SCL
ERX-DDC-SCL
1E05
12
DDC_SCL_A
PNX5100-DDR2-A(0-12)
SDRAM
1M97
15
DATA-SDA
CLK-SCL
EEPROM
256x8
5
6
3HB2
I2C-SDA
PNX5100: SDRAM
B07F
15
5
6
3HB1
14
I2C-SCL
7P10
NAND01GW3B2BN
1M96
5
B04F
7P07
M24C02
9P29-4
VGA
CONNECTOR
FLASH
1G
9P29-3
6
EEPROM
PCI-AD
256x8
PCI
RES
DC/DC
TEMPERATURE & FAN CONTROL
FPGA BACKLIGHT - LVDS & I2C - MUX
FPGA LOCAL CONTRAST
B06D
LVDS IN/OUT
B01B
B06C
B06A
+3V3-PER
+3V3
SET BUS
100 kHz
SDA-SET
SCL-SET
1R08
6
3HPU
3E83
9F20
9F19
B33
SDA2
SDA-BOLT-ON
SCL-BOLT-ON
9F16
9F14
SDA-DISP
SCL-DISP
SDA 2
TO BOLT-ON
MODULE
3HPS
3E84
D32
5
SCL2
SCL 2
1F53
2
9F18
+3V3
3F17
ERR
14
+3V3-PER
DISPLAY BUS
100 kHz
1
2
7
6
2
1
9F17
3F18
STANDBY BUS
400 kHz
3
1F51
7F50
7F51
7F08
3FH4
1M99
11
9F15
1
4
5
SDA-SET0
3HPE
3U67
LM75ADP
PCA9533DP
PCA9540BDP
H33
SDA1
SDA-UP-MIPS
TO
DISPLAY
SDA 1
TO
POWER
SUPPLY
3FH5
9F13
2
SCL-SET0
1M71
3
3HPD
3U66
RES
IC TEMP
SENSOR
I2C LED
DIMMER
I2C
F33
10
SCL1
SCL-UP-MIPS
3F41
SCL 1
MULTIPLEXER
3F40
7
SDA-SET1
TO
TEMP
SENSOR
1
PNX8543: STANDBY CONTROLLER
B04A
5F05
4
2
8
SCL-SET1
+3V3
+3V3-STANDBY
RESERVED
RESERVED
B04A
3H66
AK5
AL5
SDA-UP-MIPS
ANALOGUE EXTERNAL D
PNX5100: LVDS
B08D
B05E
MC_SDA
3H55
SCL-UP-MIPS
7E19
MC_SCL
74HC4066PW
RES
+3V3-PER
QUAD
STANDBY
9E41
9E40
2
9
RXD-UP
5
6
BILATERAL
SWITCHES
6
7HC4
EF
TXD-UP
3HC2-1
AC1
7HC3
RESET-NVM
8
UART-SWITCH
UART-SWITCHn
13
PO_1
M24C64
B04A
7E17
ST3232C
1G50
2
1R12
2
5
EEPROM
(NVM)
7H02
M25P05
RXD-UP
TXD-UP
3CA3
7E20
ERR
53
RS232
INTERFACE
FOR
MHP BOLT-ON
1E50
3
12
TO
DISPLAY
3
3CA2
1
13
R1-IN
512K
FLASH
4
1
UP
14
1
1R08
2
T1-OUT
R1-OUT
3ECK
3
12
11
RXD-UP
TXD-UP
3ECP
10
8
1G51
50
3
1E51
3
T1-IN
R2-IN
3CA4
8
+3V3-STANDBY
11
TO
DISPLAY
MIPS
3CA5
7
1
49
T2-OUT
9E05
9E03
AG1
AH5
RXD-UP
TXD-UP
UA_RX_0
UA_TX_1
+3V3-PER
L32
9
RXD-MIPS
R2-OUT
T2-IN
GPIO_4
GPIO_5
L31
10
TXD-MIPS
LEVEL SHIFTER FOR
DEBUG ONLY
LED PANEL CONTROL
B06B
+3V3-PER
RESERVED
1E06
1R20
3
3E41
9E35
5FC7
RXD
TXD
AL27
AK27
RXD-MIPS2
3
UA2_RX
UA2_TX
UART
SERVICE
CONNECTOR
3E91
9E36
5FC5
1
TXD-MIPS2
2
1
RES
18310_405_090305.eps
090316
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Block Diagrams
Q549.2E LA
9.
EN 66
Supply Lines Overview
SUPPLY LINES OVERVIEW
SUPPLY
DC / DC
CI: PCMCIA CONNECTOR
PNX8543: AUDIO
A
B01B
B07A
B04I
DC/DC
PNX5100: CONTROL
PNX5100: PCI
MINI PCI CONNECTOR
B01C
+12V
B05F
+3V3
B09A
+3V3
+AUDIO-POWER
9HM0
+AUDIO-POWER
AUDIO-VDD
+3V3
+3V3
+5V
CN5
1
1M99
1
B01b
B01a
+3V3
+12V
+12VD
+3V3
+5V
12V
12V
B01a
B05h
B01b
B01a
B01c
RES
5A00
+12VF2
5U31
+3V3-mPCI
3P09
2
2
PCMCIA-VCC-VPP
3HMF
7HM5
7U01
+T
+5V
+5V
B04m
TPS53124PW
3
4
5
3
4
5
B01c
7HM6
CONTROL
B05G
+3V3
GND1
23
7U0H-1
5A01
12V/5V
+5V-mPCI
+3V3
Dual
CONVERSION
GND1
AUDIO IN HDMI
USB CONNECTOR
HDMI
RES
B01a
Synchronous
Step-Down
Controller
B07B
15
7U0H-2
17
LAMP-ON-OUT
+5V5-TUN
5U05
BL-ON_OFF
B04A
CONTROL
B05H
B07h
+12V
+12V
+5V
6
7
6
7
BACKLIGHT-OUT
B01b
PNX8543: AUDIO
SS36
PNX5100: DISPLAY-INTERFACING
+5V
B01b,B04a,l
B06a,B07a,c,
d,B08a,b,d,
B09a,d
B04L
B05H
+3V3F
+3V3
DIM
DDR SUPPLY
B09B
CONTROL
+3V3F
BACKLIGHT-BOOST
B05H
CONTROL
BOOST
B01a
B01a
B01b
+3V3
+3V3
+3V3F
+3V3F
7U0D-1
28
7U0D-2
26
12V/1V2
B01a
+3V3
+12VD
+VDISP
B07C
+5V
8
8
B01a
BACKLIGHT-PWM-ANA-DISP
CONVERSION
B05H
CONTROL
B05H
+5V
+5V
A/P_DIM
INV_OK
+2V5
7A01
B01c
+12VD
B06a,e,f
B01c
7HP0
9
9
+1V2-PNX5100
POWER-OK
5U04
B04a
B05c
VDDA-AUDIO
VDDA-DAC
7CG1
B06d
B05e
IN OUT
COM
7A00-1
LCD-PWR-ON
7A02
CONTROL
B04p
MAIN
POWER SUPPLY
1C02
5CG2
5CG0
+VDISP1
+1V8-PNX85XX
VDDA-DAC
B04g,p,
B06e,B07d
7CG2
B07D
+1V8-PNX85XX
B04p
T3A
LCD-PWR-ON
+1V8-PNX85XX
7A00-2
LCD-PWR-ON
B09b
1C01
CN4
1
1M95
1
+VDISP2
FRONT-END
B05e
B02A
+3V3-STANDBY
+3V3
+3V3
B04a,p
B07d,B08d
PNX8543: AUDIO
RES
+12V
+12V
3.3V_ST
T3A
B01a
B04M
7U50
B01b
5P11
REF-3V3
3A07
+1V2-STANDBY
+V-LM833
IN OUT
COM
B01a,B04p
+3V3
+3V3
7P01
7A07
VOLT.
REG.
+3V3A
+3V3A
B01a
3A26
+2V5-REF
B02b
1V8-HDMI
IN OUT
COM
+AUDIO-POWER
AUDIO-VDD
+AUDIO-POWER
ADIO-VDD
PNX5100: DEBUG
+5V-TUN
+5V-TUN
+5V-TUN-PIN
+33VTUN
B01b
B05I
+3V3
7U0M
7U0N
VOLT.
REG.
B07h
RES
5T11
+3V3
B04i
B01a
+3V3-STANDBY
+5V
+3V3-STANDBY
+33VTUN
B01b
RESERVED
AUDIO
B01b
B10A
+5V
3T10
B01c
2
3
4
5
2
3
4
5
STANDBY
PNX8543:VIDEO STREAMS
FPGA BACKLIGHT-LVDS & I2C-MUX
3P47
B04N
B06A
+5V-EDID
STANDBY
B04A
CONTROL
3T11
3T12
+VTUN
1M59
6
B07e
+AUDIO-POWER
+AUDIO-POWER
1F50
5F05
1P04
18
+3V3-PER
+3V3-PER
HDMI 3
CONNECTOR
B01b
TO 1M59
AB1
DC-DC
OR
AMBI-LIGHT
MODULE
ANTENNA-SUPPLY
ANTENNA-SUPPLY
AIN-5V
GND1
B02b
B04p
T1A
+3V3
+3V3
+3V3
+3V3
GND1
GND1
B01a
B01a
INTERFACE + SINGLE DC-DC
1P03
18
AB1
5F04
7F06
+3V3M
HDMI 2
CONNECTOR
BIN-5V
7F07
1M90
1
1U01
DEMODULATOR
+12V
B01c,B02b,
B06c,B07b,h,
B08b,B09b
B02B
6
7
8
6
7
8
+1V2M
+24V
PNX8543: DIGITAL VIDEO OUT / LVDS
+12V
B04O
IN OUT
COM
TO CN7
SUPPLY
1P05
18
T3A
HDMI SIDE
CONNECTOR
DIN-5V
CIN-5V
+12V
+12V
1101
5102
+24VF
+3V3
+12V
+1V2-PNX85XX
+1V2-PNX85XX
3U42
6U0B
+2V5M
5U08
+33VTUN
AB2
IN OUT
COM
B01a
VDDA-LVDS
VDDA-LVDS
1M59
6
B02a
T3A
9T64
B04p
7U0P
1P02
18
TO 1M59
B06A
SSB
HDMI 1
CONNECTOR
AB3
9T62
7T54
+1V2
VSW
+12V
+1V2-PNX85XX
+2V5
+1V2-PNX85XX
+2V5
AB2
5T51
5T54
+1V2A
B01a
RESERVED
PNX8543: POWER
B04P
VLED1
+16V
c001
c002
IN OUT
COM
B09b
1U03
+16V
+1V2-PNX85XX
+1V2-STANDBY
+1V8-PNX85XX
+3V3-STANDBY
+1V2-PNX85XX
+1V2-STANDBY
+1V8-PNX85XX
+3V3-STANDBY
+5V
+5V
+12VF
AB2
B01a
RES
B01c
B01a
+3V3
+3V3
HDMI SWITCH
RES
B07E
+5V-EDID
VLED2
1M84
T3A
+AUDIO-POWER
B01a
B04i,m,B10a
9
9
B01b
+VSND
+3V3A
B02a
+5V-EDID
6
5U20
10
10
TO
B07d
B09b
5T53
11
+3V3D
+3V3E
GND_SND
6P06
U-WAND
AMBI-LIGHT
B06B
+3V3
5U21
B01b
13 MODULE
5T52
2K9 SUPPLIES
+3V3
B01a
1P06
18
5U06
5U17
+5V-TUN
+5V-TUN
11
11
HDMI SIDE
CONNECTOR
EIN-5V
B07h
N.C.
+3V3
+3V3
+12V
+12V
OPTIONAL
B01a
B01b
5T55
+5V-TUN-CVBS
2K8 SUPPLIES
5HVH
5HV8
5HVD
+3V3-PER
+5V-DDC
1M96
3
B04a,b,e,f,n
B04h
DUAL DC-DC
AB2
+24VF
7200
3T69
RREF-PNX85xx
VDDA-LVDS
7T56
ANTENNA-SUPPLY
B02a
TEMPERATURE & FAN CONTROL
B06C
RES
+24VF
AB1
B04o
+3V3
+3V3
+12V
RES
B01a
CN7
VDDA-AUDIO
VDDA-AUDIO
VDDA-DAC
AUDIO-ADC
+12V
+12V
B04l
1
2
3
4
5
6
TPS54283PWP
B01b
24Vb
GND1
24Vb
5HY4
5HY7
+12V
+12V
+3V3
+3V3
14
12
PNX8543: FLASH
B01b
B04l
TO
B07F
+3V3
B01a
NON
SYNCHRONOUS
CONVERTER
(VLED1)
(VLED2)
+12V
+16V
5201
5200
DC-DC INTERFAC
(OPTIONAL)
+5V
+5V
AB1
AB1
+3V3
B01c
FPGA WOW - LVDS IN / OUT
B06D
+VDISP
B01a
GND1
24Vb
1M20
5
3
5P09
+3V3-NAND
+3V3-STANDBY
5FH4
5FG1
5FG2
+VDISP
TO
IR/LED
PANEL
PNX5100: SDRAM
B05h
B05A
GND1
1F51
41
8
OPTIONAL
+1V8-PNX5100
+1V8-PNX5100
PNX5100-DDR2-VREF-CTRL
PNX5100-DDR2-VREF-DDR
PNX8543: STANDBY CONTROLLER
B04A
B06e
1316
ETHERNET
3C20
B07G
MICROCONTROLLER BLOCK
AB3
1
2
3
HVR
HVR
HVR
3C22
+1V2-PNX85XX
+1V2-PNX85XX
+3V3
+3V3
B01a
TO DISPLAY
B01a
FPGA WOW - POWER & CONTROL
+3V3
+3V3
+1V2-PNX5100
+1V2-PNX5100
B06E
5N06
5N07
+3V3-ET-DIG
+3V3-ET-ANA
B01b
B01c
7301
+3V3-STANDBY
+3V3
+3V3-STANDBY
+1V8
IN OUT
COM
B01b
+1V2-PNX85XX
+1V2-PNX85XX
1319
+3V3
B01a
1
2
3
PNX5100:VIDEO-IN
PNX5100: POWER
B01a
B05B
+3V3
+1V2-FPGA
+1V2-PLL
CFH0
HVL
HVL
HVL
+3V3-PER
+5V
B06g
B06g
+3V3-PER
OPTIONAL
B04p
TO DISPLAY
5FH0
+3V3
BUFFERING
+5V
B01a
B07H
B01c
+1V8-PNX85XX
+1V8-PNX85XX
+1V8-PNX5100
B09b
+3V3
+3V3
B01a
CFH1
5FH2
B05a,c
+5V5-TUN
7P11
+5V5-TUN
B01c
B05C
+2V5
+2V5
B09b
+5V-TUN
DC/DC
B01A
PNX8543: DEBUG
B04B
B02a,b
+2V5out-FPGA
B06g
B06g
B06g
+1V2-PNX5100
7P13
VOLT.
REG.
+1V2-PNX5100
+1V2-PNX5100-CLOCK
+1V2-PNX5100-TRI-PLL1
+1V2-PNX5100-TRI-PLL2
+1V2-PNX5100-TRI-PLL3
+1V2-PNX5100-DDR-PLL1
+1V2-PNX5100-LVDS-PLL
+1V2-PNX5100-DLL
B01c
5FH3
+2V5in-FPGA
+2V5-PLL
+3V3
+3V3-PER
+3V3-PER
5C60
5C61
5C62
5C63
5C64
5C65
5C66
B04p
1V2-STANDBY
1V2-STANDBY
5FH4
B01b
+12V
+12V
B01b
+3V3
+12VF
+12VF
B01b
B01a
5FH1
+3V3-FPGA
PNX8543: CONTROL
+12VF1
5U33
B04E
B06g
7U03
+3V3-PER
+3V3-PER
TPS53124PW
FPGA WOW - DDR
ANALOGUE EXTERNALS A
B04p
B06F
B08A
+3V3
23
B01b,B02b,
B04a,l,m,n,p,
B05b,c,e,h,
f,g,i,
B06a,b,c,e,
B07a,d,f,g,h,
B08a,b,d,
B09a
12V/3V3
COVERSION
+3V3
7U08
Dual
B01a
+2V5
+2V5
Synchronous
Step-Down
Controller
B09b
+5V
+5V
15
17
B01c
+1V8-PNX5100
+1V8-PNX5100
+3V3
5U01
PNX8543: CONTROL
B04F
5FL0
+2V5-DDR1
VREF-DDR1
VREF-FPGA1
B06e
7U02
B06g
B06g
+3V3
+3V3
3FLK
B01a
+3V3-PER
+3V3-PER
5C67
5C68
5C69
5C70
+3V3-PNX5100-LVDS-IN
+3V3-PNX5100-CLOCK
+3V3-PNX5100-DDR-PLL0
+3V3-PNX5100-LVDS-PLL
B04p
3FLM
+3V3F
5U03
ANALOGUE EXTERNALS B
B05h,B09b
B08B
+3V3
7U05
7U06
12V/1V2
COVERSION
+3V3
+5V
B01a
28
FPGA WOW - IO BANKS
PNX8543: SDRAM
B06G
+5V
B04G
B01c
+1V2-PNX85XX
5U00
B02b,B04a,p
B06a,e
+12V
+12V
+1V8-PNX85XX
+1V8-PNX85XX
DDR2-VREF-CTRL
DDR2-VREF-DDR
B01b
B09b
+1V2-PLL
+1V2-PLL
26
B06e
B06e
B06e
3HJ1
PNX5100: LVDS
B05E
+3V3
+1V2-FPGA
+1V2-FPGA
3HJ3
+3V3
+2V5-PLL
+2V5-PLL
+2V5out-FPGA
+2V5in-FPFA
+2V5-DDR1
3V3-FPGA
B01a
ANALOGUE EXTERNALS D
B08D
+3V3
+VDISP2
+2V5out-FPGA
+2V5in-FPFA
+2V5-DDR1
3V3-FPGA
+VDISP2
B06e
B06e
+3V3
+3V3-STANDBY
+5V
1G50
B05h
B01a
41
+3V3-STANDBY
B01c
PNX8543: DIGITAL VIDEO IN
+VDISP1
+VDISP1
B04H
1G51
+5V
B06f
B05h
B01b
1
RREF-PNX85XX
RREF-PNX85XX
B06e
B04p
VREF-FPGA1
VREF-FPGA1
B06f
18310_406_090305.eps
090306
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
10. Circuit Diagrams and PWB Layouts
Interface Ambilight: Interface + Single DC-DC
Q549.2E LA
10.
EN 67
1
2
3
4
5
6
8
9
10
11
12
13
7
1100 A6
1101 A7
1M59 C2 F125 B3
1M84 A2 F126 A2
1M85 A2 I100 A6
1M90 D2 I101 C6
F123 E2
F124 E2
A
B
C
D
E
F
G
H
I
A
B
C
D
E
F
G
H
I
1
2
3
4
5
6
7
8
9
2100 A6
2101 B5
I102 C6
I103 C6
INTERFACE + SINGLE DC-DC
5107 RES
2102 C6 I104 D9
2103 D6 I105 D5
2104 D5 I106 D7
2105 D9 I108 D6
2106 D9 I109 A8
30R
5108 RES
+24VF
+16V
A
B
C
D
A
B
C
D
30R
I100
5102
1100
2107 E9
c001 E2
+24V
F126
SPI-LATCH2CONN
I109
2108 D3 c002 E2
2109 E3
3100 B5
3101 C5
3102 D6
3103 D9
3104 D6
3105 D5
3106 D5
3107 D5
3108 E9
3109 D2
3110 D3
3111 E8
3112 B6
5100 A8
5101 A8
5102 A7
5103 B8
5104 B8
5105 B8
5106 B8
5107 A6
5108 A6
6100 C8
7100 B7
9101 C3
9102 C3
9103 C3
9104 C3
F101 B3
F102 B3
F103 B3
F104 B3
F105 B3
F106 B3
F107 A7
F108 B3
F109 B3
F110 B3
F111 B3
F112 B3
F113 B3
F114 B5
F115 C2
F116 D2
F117 D2
F118 D2
F119 D2
F120 D2
F121 E2
F122 E2
T 3.0A 32V
10u
1101
*
F107
*
1M85
1M84
2.0A
T
63V
F101
F102
F103
F104
F105
F106
F108
F109
SPI-CLOCK-BUF
SPI-DATA-OUT
SPI-DATA-RETURN
SPI-LATCH1CONN
PWM-CLOCK-BUF
1
2
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
*
*
*
*
3
4
5
6
7
8
9
10
11
12
13
14
15
+12V
+16V
+3V3
3100
BLANK-BUF
EEPROM-CS
TEMP-SENSOR
PROG
0R1
RES
F110
F111
F112
VLED1
VLED2
7100
NCP3163BMNR2G
F113
F125
F114
VCC
Φ
16
16
4
5
15
LPK_SENSE
LVI_OUT
502382-1470
502382-1470
10
11
12
13
VSW
DRV_COL
SWI_COL
BOOT_IN
3101
I101
6
7
8
9
SWI_EMIT
SPI-LATCH1
SPI-LATCH1CONN
47R
9101
9102(RES)
20
21
22
23
24
25
26
27
28
29
30
31
(RES)
9103
9104
I103
2102
2n2
14
SPI-LATCH2CONN
SPI-LATCH2
1M59
17
16
1
VFB
2
F115
I102
SCL
1
2
3
4
5
6
7
VIA
I108
+16V
1
2
F116
F117
F118
F119
F120
SDA
CONTROL1
CONTROL2
TIM_CAP
NC
3109
100R
RES
3110
100R
RES
+3V3
I104
1735446-7
GND
GND_HS
I105
I106
1M90
F121
F122
F123
F124
+24V
1
2
3
4
5
6
+24V
+24V
1735446-6
E
E
c001
VLED1
+12V
+16V
c002
VLED2
1
2
3
4
5
6
7
8
9
STUFFING DIVERSITIES FOR DC/DC INTERFACE AMBI 2K9
See the stuffing diversities table in the case of components marked with one star (*)
1101
DC/DC INTERFACE
1M85
5103/5104 5105/5106
VLED1 VLED2
CHN
SETNAME
CLASS_NO
1
2
3
4
5
08-06-19
3104 328 58341
3104 328 58351
3104 328 58361
3104 328 58371
out
in
in
in
24V
12V
16V
12V
16V
12V
16V
16V
08-08-06
08-09-18
08-10-23
08-12-06
DC-DC INTERFACE
out
out
out
out
out
out
out
out
out
08-06-19
08-08-06
08-10-23
1
2
3
in
in
out
J
J
3104 313 6325
AMBI 2K9
NAME Peter Van Hove
CT MGr CHECK ********
SUPERS.
3
**
130
1
***
A3
DATE
08-06-06
C
ROYAL PHILIPS ELECTRONICS N.V. 2008
7
1
2
3
4
5
6
8
9
10
11
12
13
18310_600_090305.eps
090305
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 68
Interface Ambilight: Dual DC-DC
1 2
3
4
5
6
8
9
10
11
12
13
7
A
B
C
D
E
F
G
H
I
A
B
C
D
E
F
G
H
I
2200 A4
2201 A4
2202 A5
2203 A5
2204 B3
2205 B6
2206 B1
2207 B2
2208 B7
2209 B7
2210 B8
2211 C3
2212 C4
2213 C6
2214 C3
2215 C6
2216 C2
2217 C7
2218 D1
2219 D2
2220 D7
2221 D3
2222 D5
2223 D8
2224 D8
3200 A3
3201 A6
3202 B3
3203 B6
3204 B3
3205 B6
3206 D3
3207 D2
3208 D7
3209 D5
3210 D3
3211 D3
3212 D6
3213 D6
5200 B2
5201 B7
6200 B2
6201 B7
7200 B4
9201 B5
9202 C4
F200 B2
F201 C7
F202 D3
F203 B5
F204 B4
F207 C4
I200 A3
I201 A6
I204 B2
I205 B6
I206 B6
I208 B3
I209 B6
I210 C6
I211 C3
I212 C3
I213 D5
I214 D4
I215 D3
I216 B5
I217 B4
1
2
3
4
5
6
7
8
DUAL DC-DC
+24VF
A
B
C
D
E
A
RES
RES
3201
I200
I201
I205
3200
VSW
6R8
6R8
7200
2204
47n
2205
47n
3202
3203
**
TPS54283PWP
**
*
*
PVDD1 Φ PVDD2
(VLED1)
+12V
6R8
F204
F203
6R8
(VLED2)
+16V
*5*200
2
3
5
7
13
12
6
I204
5201
F200
BOOT1
SW1
EN1
BOOT2
SW2
EN2
*
10u
10u
B
C
D
E
RES
8
RES
**
FB1
FB2
**
**
**
*
*
*
I206
I217
9
10
11
16
17
18
19
20
21
22
23
24
25
26
I216
ILIM2
SEQ
BP
I208
*
I209
I210
**
**
*
*
**
VIA2
I211
F207
GND
GND_HS
RES
2217
I212
F201
2216 RES
+12V
+16V
22n
22n
3207
**
68K
1%
3208
*
47K
1%
**
**
*
I213
I214
VLED1
*
*
F202
7200 : TPS54383 in case of 16V or dual dc-dc converter
The components marked with one star (*) belong to the 12V versions (3104 328 58351, 3104 328 58371).
The components marked with two stars (**) belong to the 16V versions
(3104 328 58331, 3104 328 58341, 3104 328 58361, 3104 328 58371).
1
2
3
4
5
6
7
8
CHN
SETNAME
CLASS_NO
1
2
3
4
5
08-06-19
08-08-06
08-09-18
08-10-23
08-12-06
DC-DC INTERFACE
08-06-19
08-08-06
08-10-23
1
2
3
J
J
3104 313 6325
AMBI 2K9
NAME Peter Van Hove
SUPERS.
3
130
2
A3
CHECK
DATE
08-06-09
C
ROYAL PHILIPS ELECTRONICS N.V. 2008
7
1
2
3
4
5
6
8
9
10
11
12
13
18310_601_090305.eps
090305
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 69
Interface Ambilight: Microcontrollerblock
1
2
3
4
5
6
7
8
9
10
11
12
13
14
9
15
16
17
18
19
20
A
B
C
A
B
C
1300 E2
9303 F3
1
2
3
4
5
6
7
8
10
11
1301 H5
1302 C4
2300 A3
2301 A4
2302 A5
9305 G1
9307 H4
C300 B8
F300 A5
F301 A8
F302 A10
F303 B11
F304 C4
F305 C4
F306 D4
F307 F3
F308 F3
F309 G6
F310 G6
F311 G8
F312 G8
F313 G8
F314 G5
F315 H4
F316 C9
F317 F1
F320 E9
I300 E9
I302 F9
I303 A4
I304 C10
I305 E6
I306 E7
I307 G6
I308 G2
I309 G5
I310 D5
I311 E7
I312 E7
I313 E7
I314 F7
I315 F7
I316 F8
I317 F6
I318 F7
I319 F5
I320 F8
I321 F6
I322 G5
MICROCONTROLLER
3310
2303 A4
2304 B8
+3V3
+3V3
7301
LD2985BM18R
RES
2305 B10
2306 B9
2307 B10
2308 D4
2309 D5
2310 F6
2311 F7
2312 F7
2313 F7
2314 F7
100K
RES
+3V3
A
B
C
D
E
F
F300
A
1
5
4
+1V8
+3V3
IN OUT
I303
7300-2
LM393PT
3
INH BP
F301
COM
5
7
F302
6
2315 F7
2316 F8
+3V3
F303
2305
2318 G2
2319 G6
2320 H5
2321 H4
2322 H4
2323 H4
2324 H4
3300-2 D5
3300-3 D7
3300-4 D7
3301-1 D6
3301-2 E5
3301-3 E6
3301-4 D7
3302-1 D7
3302-2 D6
3302-3 E6
3302-4 D6
3303-1 E6
3303-2 D6
3303-3 E6
3304-1 D6
3304-2 D7
3304-3 D7
3304-4 D7
3305-1 E7
3305-2 G8
3305-3 G9
3305-4 G8
3306-1 E8
3306-2 E8
3306-3 E8
3306-4 E8
3307-1 E8
3307-2 F8
3307-4 F8
3308-1 F8
3308-2 F8
3308-4 F8
3309-1 F8
3309-4 F8
3310 A10
3311 A8
D
E
D
E
10n RES
3315
B
C
D
E
F
+3V3
47K
RES
7300-1
LM393PT
3
I304
3318
1
F316
2
10K
RES
+3V3 +3V3
+3V3
RES
1302
F304
1
2
3
F
G
H
I
F
G
H
I
F305
4
5
F306
B3B-PH-SM4-TBT(LF)
7302
LPC2103FBD48
VSSA
VSS
Φ
11
12
13
14
18
21
22
23
24
28
29
30
35
36
37
41
44
45
46
47
48
1
X1
X2
P0.0|TXD0|MAT3.1
P0.1|RXD0|MAT3.2
P0.2|SCL0|CAP0.0
P0.3|SDA0|MAT0.0
P0.4|SCK0|CAP0.1
P0.5|MISO0|MAT0.1
P0.6|MOSI0|CAP0.2
P0.7|SSEL0|MAT2.0
P0.8|TXD1|MAT2.1
P0.9|RXD1|MAT2.2
MICRO-
CTRL
I306
I300
3306-3
RES 3330
3331
3306-2
3306-1
3306-4
3307-1
3338
3307-4
3307-2
3308-4
3308-2
3
6
CONTROL1
PWM-CLOCK-BUF
SPI-CLOCK-BUF
SPI-DATA-RETURN
SPI-DATA-OUT
SPI-LATCH1
100R
100R
100R
100R
100R
100R
100R
100R
100R
100R
100R
100R
I311
I312
20
2
1
4
1
7
8
5
8
RTXC1
RTXC2
RES 9300
3332
25
26
4
F320
SPI-LATCH2
RTCK
VBAT
I313
+3V3
PWM-CLOCK-BUF
TEMP-SENSOR
EEPROM-CS
10K
RES
9301
4
2
4
2
5
7
5
7
TEMP-SENSOR
P0.10|RTS1|CAP1.0|AD0.3
P0.11|CTS1|CAP1.1|AD0.4
P0.12|DSR1|MAT1.0|AD0.5
P0.13|DTR1|MAT1.1
P0.14|DCD1|SCK1|EINT1
P0.15|RI1|EINT2
P0.16|EINT0|MAT0.2
P0.17|CAP1.2|SCL1
P0.18|CAP1.3|SDA1
P0.19|MAT1.2|MISO1
P0.20|MAT1.3|MOSI1
P0.21|SSEL1|MAT3.0
P0.22|AD0.0
I314
3312 A10
3313 B8
3314 B8
3315 B10
3316 B10
3317 B8
3318 C10
3319 C8
3320 C5
3321 C5
3322 D5
3323 D5
3324 D7
3325 D6
3326 D6
3327 D6
3328 E5
F307
RES 9302
RES 9303
BLANK-BUF
PROG
I315
27
6
DBGSEL
I316
+3V3
3308-1
1
8
CONTROL2
F308
+3V3
100R
RST
I317
I318
I302
I319
3309-4
3309-1
5
8
4
1
SCL
SDA
100R
100R
I320
J
J
2
3
7303
I321
NCP303LSN10T1
2
3
5
32
33
34
38
39
8
IN
1
4
RST
GND
P0.23|AD0.1
P0.24|AD0.2
P0.25|AD0.6
P0.26|AD0.7
F317
I308
I307
UD-MD
I322
CD
NC
F309
P0.27|TRST|CAP2.0
P0.28|TMS|CAP2.1
P0.29|TCK|CAP2.2
P0.30|TDI|MAT3.3
P0.31|TDO
9
F310
10
15
16
F311
F312
F313
4
5
K
L
K
L
3305-4
2
10K
7
3
6
10K
3334
3305-3
+3V3
G
H
G
H
3329 E5
3330 E8
3331 E8
3332 E3
10K
22R
F314
3305-2
VDD_3V3
VDD_1V8
VDDA
3335
I309
3333 F2
100R
3334 G5
3335 G5
3336 G6
3337 G6
3338 E8
9307
+3V3
F315
+1V8
3339 F1
7300-1 B9
7300-2 A10
7301 A4
7302 E3
7303 F2
9300 E3
9301 F3
9302 F3
M
N
M
N
O
P
1
2
3
4
5
6
7
8
9
10
11
O
P
CHN
SETNAME
CLASS_NO
1
2
3
4
5
08-06-19
08-08-06
08-09-18
08-10-23
08-12-06
DC-DC INTERFACE
08-06-19
08-08-06
08-10-23
1
2
3
3104 313 6325
AMBI 2K9
NAME Peter Van Hove
CHECK
SUPERS.
3
130
3
A2
DATE
08-06-09
C
ROYAL PHILIPS ELECTRONICS N.V. 2008
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_602_090305.eps
090410
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 70
Layout DC/DC Interface Ambilight
Personal Notes:
2208
1M85
1302
5201
2209
3338
6201
9104
9103
2301
2210
2203
3306
2302
2321
3308
2218
2323
2319
3324
3326
9201
9202
2312
2206
2200
6200
5200
2207
1M84
F115
F119
F116
F108
2108
F102
F103
F106
F109
c001
I302
F113
F101
F105
F110
F111
3109
F117
F122
F307
3110
5106
5105
5103
5104
F118
F112
F304
c002
I205
F306
I210
F120
I311
3300
3322 3323
2215 2213
F312
3304
I305
I209
2308 2309
2212
F313
I312
F305
3205
I213
2318
I317
2222
3213
3212
3208
2217
F201
I201
F203
I308
I303
2205
7303
6100
F310
3337
3336
9301
3207
2216
3210
3211
3206
2221
I214
F317
F200
7302
3204
I105
I321
I204
3105
3200
3202
2204
2106
2105
3106
I320
F123
2313
I318
F107
3107
3325
3329
3327
3328
2320
3335
2107
5107
I307
I103
I319
F204
I200
3302
3108
F315
2314
2324 9307
3301
I316
5108
I211
I208
C300
2214 2211
I309
F314
5100
F303
F302
I109
7100
5101
2109
I304
7300
F124
I100
I108
F316
3112
3317
F104
F121
I215
2101
3319
3101
3100
10000_012_090121.eps
090121
18310_550_090309.eps
31043136325.5
090309
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 71
6 LED Low-Pow: Microcontroller Block Liteon
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
12
17
18
19
20
1101 E4
1105 B5
7116-2 A12
A
B
C
A
B
C
1
2
3
4
5
6
7
8
9
10
11
13
9101 E5
9102 F5
9103 F5
9104 F5
9106 H8
9107 A5
9108 A5
9109 A5
9110 B5
9111 A3
9112 B2
9113 B3
9114 B2
9119 H6
9121 G4
C140 B10
F101 A8
F102 F5
F103 H7
F104 F5
F105 D7
F106 B12
F107 C7
F108 D7
F109 G3
F112 G8
F116 A10
F117 B13
F118 C11
F120 A1
F121 A1
F122 A1
F123 A1
F124 B1
F125 B1
F126 B1
F127 B1
F128 B1
F129 B1
F130 B1
F131 B1
F132 B1
F133 E1
F134 F1
F135 E1
F136 F1
F137 F1
F138 F1
F139 F1
I110 G8
I111 G8
I113 G10
I114 G10
I115 G10
I124 E11
I125 E11
I126 F11
1M1A C1
1M2A G1
1M83 A1
1M84 E1
2101 A6
2102 A7
2103 A8
2104 B7
2105 B10
2106 B13
2107 B11
2108 B12
2109 D7
2110 D7
2111 G4
2112 H7
2113 H7
2114 F9
2115 F9
2116 F9
2117 F9
2118 H8
2119 H6
2120 H6
2121 H6
MICROCONTROLLER LITEON
3134
+3V3
+3V3
7101
100K
RES
IN
A
A
B
C
D
E
F
LD2985BM18R
+3V3
1M83
F101
9107
9108
1
5
4
F120
F121
F122
F123
F124
F125
F126
F127
F128
F129
SCL
SCL
SPI-CLOCK
1
2
3
4
5
6
7
8
9
10
11
12
13
14
+3V3
IN OUT
9111
RES
SPI-DATA-IN
SDA
CONTROL-1
CONTROL-2
SPI-DATA-RETURN
SDA
+1V8
7116-2
3
LM393PT
INH BP
COM
9109
9110
CONTROL-1
CONTROL-2
SPI-LATCH
PWM-CLOCK
F116
5
7
+3V3
F106
9113
RES
6
BLANK
EEPROM-CS
TEMP-SENSOR
PROG
+3V3
F130
F131
F132
VLED1
VLED2
F117
2106
B
C
D
E
F
D
E
D
E
1105
1.5A
10n RES
15 16
1M1A
VLED1
VLED1-F
3138
2122 F9
+3V3
T
2123 F10
2124 F10
2125 B3
2126 F10
2127 B1
2128 B1
2129 B2
2130 F2
47K
RES
7116-1
LM393PT
3
3141
1
F118
2
SCL
1
2
3
4
5
6
7
8
9
10
11
12
13
14
10K
RES
+3V3 +3V3
SDA
CONTROL-1
CONTROL-2
+3V3
2131 F10
3101-2 D7
3101-3 D9
3101-4 E9
3102-1 D9
3102-2 D9
3102-3 E9
3102-4 D9
3103-1 E9
3103-2 G10
3103-3 G11
3103-4 G10
3104-1 D8
3104-2 E8
3104-3 E8
3104-4 D9
3105-1 E9
3105-2 D8
3105-3 E8
3105-4 D8
3106-1 E8
3106-2 D8
3106-3 E8
3107 C7
3108 C7
3109 D7
3110 D7
3111 B10
3112 D9
3113 D8
3114 E8
3115 E8
3116 E8
3117 E7
3118 E5
3119 F4
3120 F5
3123 C11
3124-1 E11
3124-2 E11
3124-3 E11
3124-4 E11
3125-1 F11
3125-2 F11
3125-4 F11
3126-1 F11
3126-2 F11
3126-4 F11
3127-1 F11
3127-4 F11
3128 E11
3129 E11
3130 G8
+3V3
EEPROM-CS
TEMP-SENSOR
PROG
F107
F105
VLED1
VLED2
F
G
H
I
F
G
H
I
F108
15 16
7102
LPC2103FBD48
VSSA
VSS
Φ
11
12
13
14
18
21
22
23
24
28
29
30
35
36
37
41
44
45
46
47
48
1
X1
X2
P0.0|TXD0|MAT3.1
P0.1|RXD0|MAT3.2
P0.2|SCL0|CAP0.0
P0.3|SDA0|MAT0.0
P0.4|SCK0|CAP0.1
P0.5|MISO0|MAT0.1
P0.6|MOSI0|CAP0.2
P0.7|SSEL0|MAT2.0
P0.8|TXD1|MAT2.1
P0.9|RXD1|MAT2.2
MICRO-
CTRL
3124-4
3128
3129
4
5
I124
CONTROL-1
PWM-CLOCK-BUF
SPI-CLOCK-BUF
SPI-DATA-RETURN
SPI-DATA-IN
100R
100R
100R
100R
100R
100R I125
100R
100R
100R
100R
100R
100R
OUT
1M84
20
3124-1
3124-2
3124-3
3125-1
3142
3125-2
3125-4
3126-2
3126-4
1
2
3
1
8
7
6
8
RTXC1
RTXC2
9101
3118
10K
25
26
4
F133
F135
F136
F139
F137
SPI-CLOCK-BUF
SPI-DATA-OUT
SPI-DATA-RETURN
SPI-LATCH
1
2
3
4
5
6
7
8
9
SPI-LATCH
SPI-LATCH-2
RTCK
VBAT
+3V3
RES
9102
2
4
2
4
7
5
7
5
PWM-CLOCK-BUF
TEMP-SENSOR
EEPROM-CS
BLANK-BUF
PROG
TEMP-SENSOR
P0.10|RTS1|CAP1.0|AD0.3
P0.11|CTS1|CAP1.1|AD0.4
P0.12|DSR1|MAT1.0|AD0.5
P0.13|DTR1|MAT1.1
P0.14|DCD1|SCK1|EINT1
P0.15|RI1|EINT2
P0.16|EINT0|MAT0.2
P0.17|CAP1.2|SCL1
P0.18|CAP1.3|SDA1
P0.19|MAT1.2|MISO1
P0.20|MAT1.3|MOSI1
P0.21|SSEL1|MAT3.0
P0.22|AD0.0
+3V3
F102
RES 9103
9104
F138
F134
BLANK-BUF
27
6
EEPROM-CS
TEMP-SENSOR
PROG
DBGSEL
RES
+3V3
3126-1
1
8
I126
CONTROL-2
F104
10
+3V3
100R
VLED1
VLED2
11
12
13
14
RST
3127-1
3127-4
1
4
8
5
SCL
SDA
100R
100R
2
3
15 16
1M2A
7110
J
J
NCP303LSN10T1
2
3
5
32
33
34
38
39
8
IN
1
4
RST
GND
P0.23|AD0.1
P0.24|AD0.2
P0.25|AD0.6
P0.26|AD0.7
F109
UD-MD
CD
NC
I111
P0.27|TRST|CAP2.0
P0.28|TMS|CAP2.1
P0.29|TCK|CAP2.2
P0.30|TDI|MAT3.3
P0.31|TDO
9
SPI-CLOCK-BUF
SPI-DATA-OUT
SPI-DATA-RETURN
SPI-LATCH
1
2
3
4
5
6
7
8
9
10
11
12
13
14
I110
10
15
16
I113
I114
I115
3103-4
5
G
H
G
H
4
2
10K
3103-3
6
K
L
K
L
3130
7
3
10K
3103-2
+3V3
10K
PWM-CLOCK-BUF
22R
VDD_3V3
VDD_1V8
VDDA
+3V3
BLANK-BUF
3131
F112
EEPROM-CS
TEMP-SENSOR
PROG
100R
3131 G7
3132 H8
3133 H8
VLED1
VLED2
9119
3134 A13
3135 A11
3136 A12
3137 B11
3138 B13
3139 B12
3140 C11
3141 C13
3142 F11
7101 A7
+3V3
F103
15 16
+1V8
M
N
M
N
O
P
7102 E6
7110 F4
7116-1 B11
1
2
3
4
5
6
7
8
9
10
11
12
13
1X03
REF EMC HOLE
O
P
CHN
SETNAME
CLASS_NO
1
2
3
2008-06-10
2008-08-08
2008-10-27
DRIVER 6LED LITEON
8204 000 8857
2008-08-08
2
2K9
2008-10-27
3
NAME Peter Van Hove
CHECK
SUPERS.
3
130
1
A2
DATE
2008-06-02
C
ROYAL PHILIPS ELECTRONICS N.V. 2008
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_610_090305.eps
090410
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 72
6 LED Low-Pow: Microcontroller Block Liteon
1
2
3
4
5
6
7
5
8
9
10
11
12
13
14
15
16
12
17
13
18
19
20
2201 B8
2202 C8
2203 D8
2209 B2
2210 G6
2211 I6
1
2
3
4
6
7
8
9
10
11
A
B
C
A
B
C
MICROCONTROLLER LITEON
2214 A6
2215 F7
2216 F7
2217 B12
2218 C12
2219 D12
2220 E9
3121 D9
3203 B5
3204 B7
3205 C5
3207 B9
3209 C9
3210 B3
3211 C9
3212 D11
3213 B3
3214 H6
3215 H6
3216 H6
3217 H6
3218 H6
3219 B11
3220 C11
3221 H11
3222 I8
INPUT BUFFER
A
B
C
D
E
F
G
H
I
A
B
C
D
E
F
G
H
I
+3V3
+3V3
+3V3
7201-1
74HCT125PW
2
3219
3
3207
1
+3V3
100R
EN
RES
1K0
7212
PDTC144EU
7209
9209
PDTC144EU
7214
8
F202
3
+3V3
VCC
1
5
6
1
3
2
7
Φ
D
C
S
Q
(64K)
2
7201-4
74HCT125PW
+3V3
3204
12
+3V3
HOLD
3220
11
10K
W
3209
M95010-WDW6
D
E
D
E
13
+3V3
27R
EN
GND
4
RES
1K0
9212 RES
3223 C11
3224 H11
6216 I8
7201-1 A10
7201-2 C10
7201-3 D10
7201-4 B10
7209 B2
7210 C2
7212 B3
7214 B6
7215 G7
9208 A10
9209 B9
9210 B10
9211 C9
9212 C10
9213 D9
9214 D10
F202 B3
F203 C5
F204 H6
F205 B10
F206 C10
F207 C10
F208 D10
F209 H11
F210 G9
F211 G9
F212 G9
F213 H9
F214 H9
F215 H9
3223
F207
+3V3
100R
EN
9213
9214 RES
F
G
H
I
F
G
H
I
+3V3
7201-3
74HCT125PW
9
3121
8
F208
3212
100R
10
100R
EN
2216
2215
100n
1u0
7215
TLC5946PWP
VCC
Φ
J
J
LED DRIVER
PWM CONTROL
F210
7
8
9
0
1
2
3
4
5
6
7
8
25
2
F211
F212
F213
GSCLK
10
11
12
13
14
15
16
17
18
19
20
21
22
BLANK
MODE
IREF
3217
6
K
L
K
L
100R
100R
F204
27
+3V3
+3V3
OUT
3215
1K2
9
3
XLAT
10
11
12
13
14
15
4
5
24
SCLK
SIN
SOUT
F209
3216
3214
26
23
+3V3
XHALF
XERR
VIA
10K
GND GND_HS
M
N
M
N
O
P
+3V3
1
2
3
4
5
6
7
8
9
10
11
12
13
O
P
1
DRIVER 6LED LITEON
2K9
8204 000 8857
2008-08-08
2008-10-27
NAME
2
3
SUPERS.
A2
CHECK
DATE
C
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_611_090305.eps
090410
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 73
6 LED Low-Pow: LED Liteon
1
2
3
4
5
6
4
7
8
9
10
11
12
13
14
15
16
12
17
18
19
20
3301 F9
3302 F9
3303 F9
3304 G9
3305 G9
3306 H9
3307 H9
3308 H9
3309 I9
3310 D12
3311 D12
3312 E12
3313 E12
3314 E12
3315 E12
3316 E12
3317 F12
3318 F12
3319 F12
3320 F12
3321 G12
3322 G12
3323 G12
3325 G4
3326 H4
3327 H4
3328 G4
3330 I4
9310-2 B8
9310-4 B8
9311-1 H13
9311-3 H13
9311-4 H12
9312-1 B10
9312-3 B10
9312-4 B10
9313-1 B12
9313-2 B12
9313-4 B12
9314 G5
1
2
3
5
6
7
8
9
10
11
13
A
B
C
A
B
C
LED LITEON
A
B
A
B
C
D
E
F
G
H
I
VLED1-F VLED2
9315-1 C12
9315-2 C12
9315-4 C12
9316 H5
9317 F5
9318-1 C8
9318-3 C8
9318-4 C8
9319-1 D9
9319-3 D9
9319-4 D9
9320-1 D7
9320-2 D7
9320-4 D7
9325 F10
9326 G10
9327 H10
F302 G5
F303 G4
F304 H5
F305 H5
F307 F5
F308 F4
F325 F10
F326 F9
F327 G10
F328 G9
F329 H10
F330 H10
F340 D1
VLED1-F VLED2
D
E
D
E
3331 F4
3332 F4
3333 H4
3334 F4
7000
LTW-E500T-PH1
7001
LTW-E500T-PH1
7002
LTW-E500T-PH1
7003
7004
LTW-E500T-PH1
G
B
R
3335 D12
3336 D2
3337 D2
3338 D1
3339 D2
3340 D1
3341 D1
3342 E2
3343 D1
3344 D1
3345 D12
3346 E1
3347 D1
3348 E12
3349 E1
3350 E1
3351 E12
3352 E1
3353 E1
3354 D13
3355 E1
3356 E1
3357 D13
3358 E13
3359 E13
3360 E13
3361 E13
3362 E13
3363 F13
3364 F13
3365 F13
3366 F13
3367 G13
3368 G13
3369 F1
4
5
6
4
5
6
4
5
6
2
4
1
9305-2
9305-4
9305-1
7
4
3
9303-3
6
5
2
4
9315-2
7
5
GREEN
RED
3
GREEN
RED
3
GREEN
RED
3
GREEN
3
GREEN
RED
3
GREEN
RED
RED
9318-1
2
2
2
5
5
2
8
1
4
5
6
2
4
9303-4
9315-4
C
D
E
F
G
H
I
9318-4
1
1
1
8
6
5
1
BLUE
BLUE
BLUE
BLUE
BLUE
BLUE
GND_HS
GND_HS
GND_HS
GND_HS
GND_HS
GND_HS
G
R
B
F341 D1
F342 D1
F343 D2
F344 D12
F345 D12
F346 D13
F347 G12
F348 G13
F349 G13
B
R
G
F
G
H
I
F
G
H
I
3336
3341
1K5
3344
390R
3335
3354
3340
560R
390R
3345
560R
1K5
3311
3357
3339
560R
390R
3348
1K5
3312
2
9304-2
7
390R
3358
3342
3346
560R
390R
1K5
560R
390R
3349
3353
560R
1K5
3360
560R
3315
3384
1K5
3316
1K5
3385
3362
3369
VLED1-F
VLED1-F
560R
1K5
3317
560R
1K5
3363
3370
F307
F325
3370 F1
3371 F1
3372 F1
3373 F1
3374 G1
3384 E1
3385 F1
3386 F1
3387 F1
560R
1K5
560R
7317
BC847BW
3364
3387
560R
F308
F326
3334
1K5
3388
1K0
1K5
3389
3320
3366
560R
1K5
3321
1K5
3390
3388 F1
3389 F1
Place jumper 9325, 9326, 9327
J
J
1K5
3322
3390 G1
3391 G1
7000 C2
7001 C3
7002 C4
7003 C6
7004 C8
7005 C11
7305 G4
7306 H5
7307 F4
1K5
3391
if VLED < 17V
1K5
3323
1K5
F302
Place jumper 9314, 9316, 9317
7315
BC847BW
1K5
if VLED < 17V
F303
F328
F348
K
L
K
L
7315 G9
7316 H10
7317 F9
VLED1-F
9301 C1
9302 C1
9303-1 C10
9303-3 C10
9303-4 C10
9304-1 E10
9304-2 E10
9304-4 E10
9305-1 C6
9305-2 C6
9305-4 C6
9306-1 D5
9306-3 D5
9306-4 D5
9307 A6
9308 A6
9309-1 B6
9309-2 B6
9309-4 B6
9310-1 B8
F329
7316
BC847BW
F330
3308
1K0
M
N
M
N
O
P
1
2
3
4
5
6
7
8
9
10
11
12
13
O
P
CHN
SETNAME
CLASS_NO
1
2008-06-10
2
2008-08-08
DRIVER 6LED LITEON
3
2008-10-27
8204 000 8857
2008-08-08
2
2K9
2008-10-27
3
NAME Peter Van Hove
CHECK
SUPERS.
3
130
3
A2
DATE
2008-06-02
C
ROYAL PHILIPS ELECTRONICS N.V. 2008
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_612_090305.eps
090305
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 74
Layout 6 LED Low-Pow
9313
3120
3119
9121
3128
2129 2128
3129
9315
2101
1M83
3132
1M84
3133
3138 3136
21063139
2108
C140
3106
3127
2117
I110
3222
7110
2209
2119
I113
1101
3103
I111
3342
2116
3115
2126
2107
3339
I114
3131
2112
3116
9119
3126
3338 3374 33853389
I115
3213
3340 3369 33843390
3121
3124
3130
3343 3373 33563391
2203
9212
2120
2214
2113
3346 3372 33503386
3349 3371 33473387
3352 3370 33443388
9308
9307
2123
2124
3134
7102
2121
3141
2216
7201
7214
3355
3337
33413353
3207
32142215
2131
2217
9209
3203 3205
3336
3223
3101
3125 3105
2219
F120
F122
F128
F135
F132
F130
F346
F107
F108
F105
F123
F215
F127
F348
F347
F349
F214
F139
F126
F345
F344
F209
F104
I124
F212
F109
F213
F137
1M2A
1M1A
F131
F121
F210
F134
F138
F330
F326
F328
I125
F202
F203
F206
F207
F103
F133
F305
F211
F340
F343
F112
F136
F118
F208
F303
F329
F325
F327
F125
F102
F205
F307
F117
F342
F204
F304
F302
18310_551_090309
3104 313 6313.3
090309
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 75
8 LED Low-Pow: Microcontroller Block Liteon
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
12
17
18
19
20
1101 E4
1105 B5
7116-2 A12
A
B
C
A
B
C
1
2
3
4
5
6
7
8
9
10
11
13
9101 E5
9102 F5
9103 F5
9104 F5
9106 H8
9107 A5
9108 A5
9109 A5
9110 B5
9111 A3
9112 B2
9113 B3
9114 B2
9119 H6
9121 G4
C140 B10
F101 A8
F102 F5
F103 H7
F104 F5
F105 D7
F106 B12
F107 C7
F108 D7
F109 G3
F112 G8
F116 A10
F117 B13
F118 C11
F120 A1
F121 A1
F122 A1
F123 A1
F124 B1
F125 B1
F126 B1
F127 B1
F128 B1
F129 B1
F130 B1
F131 B1
F132 B1
F133 E1
F134 F1
F135 E1
F136 F1
F137 F1
F138 F1
F139 F1
I110 G8
I111 G8
I113 G10
I114 G10
I115 G10
I124 E11
I125 E11
I126 F11
1M1A C1
1M2A G1
1M83 A1
1M84 E1
2101 A6
2102 A7
2103 A8
2104 B7
2105 B10
2106 B13
2107 B11
2108 B12
2109 D7
2110 D7
2111 G4
2112 H7
2113 H7
2114 F9
2115 F9
2116 F9
2117 F9
2118 H8
2119 H6
2120 H6
2121 H6
MICROCONTROLLER BLOCK LITEON
3134
+3V3
+3V3
7101
100K
RES
IN
A
A
B
C
D
E
F
LD2985BM18R
+3V3
1M83
F101
9107
9108
1
5
4
F120
F121
F122
F123
F124
F125
F126
F127
F128
F129
SCL
SCL
SPI-CLOCK
1
2
3
4
5
6
7
8
9
10
11
12
13
14
+3V3
IN OUT
9111
RES
SPI-DATA-IN
SDA
CONTROL-1
CONTROL-2
SPI-DATA-RETURN
SDA
+1V8
7116-2
3
LM393PT
INH BP
COM
9109
9110
CONTROL-1
CONTROL-2
SPI-LATCH
PWM-CLOCK
F116
5
7
+3V3
F106
9113
RES
6
BLANK
EEPROM-CS
TEMP-SENSOR
PROG
+3V3
F130
F131
F132
VLED1
VLED2
F117
2106
B
C
D
E
F
D
E
D
E
1105
1.5A
10n RES
15 16
1M1A
VLED1
VLED1-F
3138
2122 F9
+3V3
T
2123 F10
2124 F10
2125 B3
2126 F10
2127 B1
2128 B1
2129 B2
2130 F2
47K
RES
7116-1
LM393PT
3
3141
1
F118
2
SCL
1
2
3
4
5
6
7
8
9
10
11
12
13
14
10K
RES
+3V3 +3V3
SDA
CONTROL-1
CONTROL-2
+3V3
2131 F10
3101-2 D7
3101-3 D9
3101-4 E9
3102-1 D9
3102-2 D9
3102-3 E9
3102-4 D9
3103-1 E9
3103-2 G10
3103-3 G11
3103-4 G10
3104-1 D8
3104-2 E8
3104-3 E8
3104-4 D9
3105-1 E9
3105-2 D8
3105-3 E8
3105-4 D8
3106-1 E8
3106-2 D8
3106-3 E8
3107 C7
3108 C7
3109 D7
3110 D7
3111 B10
3112 D9
3113 D8
3114 E8
3115 E8
3116 E8
3117 E7
3118 E5
3119 F4
3120 F5
3123 C11
3124-1 E11
3124-2 E11
3124-3 E11
3124-4 E11
3125-1 F11
3125-2 F11
3125-4 F11
3126-1 F11
3126-2 F11
3126-4 F11
3127-1 F11
3127-4 F11
3128 E11
3129 E11
3130 G8
+3V3
EEPROM-CS
TEMP-SENSOR
PROG
F107
F105
VLED1
VLED2
F
G
H
I
F
G
H
I
F108
15 16
7102
LPC2103FBD48
VSSA
VSS
Φ
11
12
13
14
18
21
22
23
24
28
29
30
35
36
37
41
44
45
46
47
48
1
X1
X2
P0.0|TXD0|MAT3.1
P0.1|RXD0|MAT3.2
P0.2|SCL0|CAP0.0
P0.3|SDA0|MAT0.0
P0.4|SCK0|CAP0.1
P0.5|MISO0|MAT0.1
P0.6|MOSI0|CAP0.2
P0.7|SSEL0|MAT2.0
P0.8|TXD1|MAT2.1
P0.9|RXD1|MAT2.2
MICRO-
CTRL
3124-4
3128
3129
4
5
I124
CONTROL-1
PWM-CLOCK-BUF
SPI-CLOCK-BUF
SPI-DATA-RETURN
SPI-DATA-IN
100R
100R
100R
100R
100R
100R I125
100R
100R
100R
100R
100R
100R
OUT
1M84
20
3124-1
3124-2
3124-3
3125-1
3142
3125-2
3125-4
3126-2
3126-4
1
2
3
1
8
7
6
8
RTXC1
RTXC2
9101
3118
10K
25
26
4
F133
F135
F136
F139
F137
SPI-CLOCK-BUF
SPI-DATA-OUT
SPI-DATA-RETURN
SPI-LATCH
1
2
3
4
5
6
7
8
9
SPI-LATCH
SPI-LATCH-2
RTCK
VBAT
+3V3
RES
9102
2
4
2
4
7
5
7
5
PWM-CLOCK-BUF
TEMP-SENSOR
EEPROM-CS
BLANK-BUF
PROG
TEMP-SENSOR
P0.10|RTS1|CAP1.0|AD0.3
P0.11|CTS1|CAP1.1|AD0.4
P0.12|DSR1|MAT1.0|AD0.5
P0.13|DTR1|MAT1.1
P0.14|DCD1|SCK1|EINT1
P0.15|RI1|EINT2
P0.16|EINT0|MAT0.2
P0.17|CAP1.2|SCL1
P0.18|CAP1.3|SDA1
P0.19|MAT1.2|MISO1
P0.20|MAT1.3|MOSI1
P0.21|SSEL1|MAT3.0
P0.22|AD0.0
+3V3
F102
RES 9103
9104
F138
F134
BLANK-BUF
EEPROM-CS
TEMP-SENSOR
PROG
27
6
DBGSEL
RES
+3V3
3126-1
1
8
I126
CONTROL-2
F104
10
+3V3
100R
VLED1
VLED2
11
12
13
14
RST
3127-1
3127-4
1
4
8
5
SCL
SDA
100R
100R
2
3
15 16
1M2A
7110
J
J
NCP303LSN10T1
2
3
5
32
33
34
38
39
8
IN
1
4
RST
GND
P0.23|AD0.1
P0.24|AD0.2
P0.25|AD0.6
P0.26|AD0.7
F109
UD-MD
CD
NC
I111
P0.27|TRST|CAP2.0
P0.28|TMS|CAP2.1
P0.29|TCK|CAP2.2
P0.30|TDI|MAT3.3
P0.31|TDO
9
SPI-CLOCK-BUF
SPI-DATA-OUT
SPI-DATA-RETURN
SPI-LATCH
1
2
3
4
5
6
7
8
9
10
11
12
13
14
I110
10
15
16
I113
I114
I115
3103-4
5
G
H
G
H
4
2
10K
3103-3
6
K
L
K
L
3130
7
3
10K
3103-2
+3V3
10K
PWM-CLOCK-BUF
22R
VDD_3V3
VDD_1V8
VDDA
+3V3
BLANK-BUF
EEPROM-CS
TEMP-SENSOR
PROG
3131
F112
100R
3131 G7
3132 H8
3133 H8
VLED1
VLED2
9119
3134 A13
3135 A11
3136 A12
3137 B11
3138 B13
3139 B12
3140 C11
3141 C13
3142 F11
7101 A7
+3V3
F103
15 16
+1V8
M
N
M
N
O
P
7102 E6
7110 F4
7116-1 B11
1
2
3
4
5
6
7
8
9
10
11
12
13
1X03
REF EMC HOLE
O
P
CHN
SETNAME
CLASS_NO
1
2
3
2008-06-10
2008-08-08
??
DRIVER 6LED LITEON
8204 000 8857
2008-08-08
2
2K9
3
3104 313 6314.3
NAME Peter Van Hove
CHECK
SUPERS.
3
130
1
A2
DATE
2008-06-02
C
ROYAL PHILIPS ELECTRONICS N.V. 2008
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_650_090508.eps
090507
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 76
8 LED Low-Pow: Microcontroller Block Liteon
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
12
17
13
18
19
20
2201 B8
2202 C8
2203 D8
2209 B2
2210 G6
2211 I6
1
2
3
4
5
6
7
8
9
10
11
A
B
C
A
B
C
MICROCONTROLLER BLOCK LITEON
2214 A6
2215 F7
2216 F7
2217 B12
2218 C12
2219 D12
2220 E9
3121 D9
3203 B5
3204 B7
3205 C5
3207 B9
3209 C9
3210 B3
3211 C9
3212 D11
3213 B3
3214 H6
3215 H6
3216 H6
3217 H6
3218 H6
3219 B11
3220 C11
3221 H11
3222 I8
INPUT BUFFER
A
B
C
D
E
F
G
H
I
A
B
C
D
E
F
G
H
I
+3V3
9208 RES
+3V3
+3V3
+3V3
7201-1
74HCT125PW
2
PWM-CLOCK
3219
3
PWM-CLOCK-BUF
F205
3207
1
+3V3
100R
EN
RES
1K0
7212
PDTC144EU
9209
SPI-CS
SPI-CS
SPI-DATA-IN
7209
PDTC144EU
7214
8
F202
3
+3V3
VCC
Φ
1
5
6
1
3
2
7
9210 RES
EEPROM-CS
SPI-DATA-RETURN
D
C
S
Q
(64K)
2
7201-4
74HCT125PW
+3V3
3204
10K
12
SPI-CLOCK
+3V3
HOLD
3220
11
SPI-CLOCK-BUF
F206
W
3209
M95010-WDW6
D
E
D
E
13
F203
+3V3
27R
EN
GND
4
RES
1K0
7210
PDTC144EU
3
9211
1
9212 RES
EEPROM-CS-LOCAL
SPI-CLOCK-BUF
3223 C11
3224 H11
6216 I8
2
+3V3
7201-2
74HCT125PW
5
7201-1 A10
7201-2 C10
7201-3 D10
7201-4 B10
7209 B2
7210 C2
7212 B3
7214 B6
7215 G7
9208 A10
9209 B9
9210 B10
9211 C9
9212 C10
9213 D9
9214 D10
F202 B3
F203 C5
F204 H6
F205 B10
F206 C10
F207 C10
F208 D10
F209 H11
F210 G9
F211 G9
F212 G9
F213 H9
F214 H9
F215 H9
BLANK
3223
6
BLANK-BUF
F207
4
3211
+3V3
100R
EN
RES
1K0
9213
9214 RES
SPI-DATA-OUT-FIL
F
G
H
I
F
G
H
I
+3V3
7201-3
74HCT125PW
9
3121
8
SPI-DATA-RETURN
F208
3212
100R
10
DATA-RETURN-SWITCH
100R
EN
+3V3
2216
2215
100n
1u0
7215
TLC5946PWP
VCC
Φ
J
J
LED DRIVER
PWM CONTROL
F210
7
8
9
PWM-R1
0
1
2
3
4
5
6
7
8
25
2
PWM-CLOCK-BUF
BLANK-BUF
F211
F212
F213
GSCLK
10
11
12
13
14
15
16
17
18
19
20
21
22
PWM-G1
PWM-B1
PWM-R2
2210
BLANK
MODE
IREF
33p
3217
6
PROG
K
L
K
L
100R
1K2
F204
27
RES
3218
3215
1K2
+3V3
+3V3
OUT
F214
F215
9
3
SPI-LATCH
PWM-G2
PWM-B2
XLAT
10
11
12
13
14
15
4
5
24
SPI-CLOCK-BUF
SPI-DATA-IN
SPI-DATA-OUT
SPI-DATA-OUT-FIL
SCLK
SIN
SOUT
F209
3216
EEPROM-CS-LOCAL
DATA-RETURN-SWITCH
EEPROM-CS-LOCAL
DATA-RETURN-SWITCH
100R
3214
26
23
+3V3
XHALF
XERR
VIA
10K
GND GND_HS
M
N
M
N
O
P
+3V3
1
2
3
4
5
6
7
8
9
10
11
12
13
O
P
CHN
SETNAME
CLASS_NO
1
2
3
2008-06-10
2008-08-08
DRIVER 6LED LITEON
??
8204 000 8857
2008-08-08
2
2K9
3104 313 6314.3
3
NAME Peter Van Hove
CHECK
SUPERS.
3
130
2
A2
DATE
2008-06-02
C
ROYAL PHILIPS ELECTRONICS N.V. 2008
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_651_090508.eps
090508
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 77
8 LED Low-Pow: LED Liteon
1
2
3
4
5
6
4
7
8
9
10
11
12
13
14
15
16
12
17
18
19
20
3301 F9
3302 F9
3303 F9
3304 G9
3305 G9
3306 H9
3307 H9
3308 H9
3309 I9
3310 D12
3311 D12
3312 E12
3313 E12
3314 E12
3315 E12
3316 E12
3317 F12
3318 F12
3319 F12
3320 F12
3321 G12
3322 G12
3323 G12
3325 G4
3326 H4
3327 H4
3328 G4
3330 I4
9310-2 B8
9310-4 B8
9311-1 H13
9311-3 H13
9311-4 H12
9312-1 B10
9312-3 B10
9312-4 B10
9313-1 B12
9313-2 B12
9313-4 B12
9314 G5
1
2
3
5
6
7
8
9
10
11
13
A
B
C
A
B
C
LED LITEON
A
B
A
B
C
D
E
F
G
H
I
VLED1-F VLED2
9315-1 C12
9315-2 C12
9315-4 C12
9316 H5
9317 F5
9318-1 C8
9318-3 C8
9318-4 C8
9319-1 D9
9319-3 D9
9319-4 D9
9320-1 D7
9320-2 D7
9320-4 D7
9325 F10
9326 G10
9327 H10
F302 G5
F303 G4
F304 H5
F305 H5
F307 F5
F308 F4
F325 F10
F326 F9
F327 G10
F328 G9
F329 H10
F330 H10
F340 D1
VLED1-F VLED2
D
E
D
E
3331 F4
3332 F4
3333 H4
3334 F4
7000
7001
LTW-E500T-PH1
7002
7003
LTW-E500T-PH1
7004
LTW-E500T-PH1
7005
LTW-E500T-PH1
LTW-E500T-PH1
LTW-E500T-PH1
G
B
R
9318-3
4
4
4
2
4
1
9305-2
9305-4
9305-1
7
5
8
4
6
3
1
4
4
3
4
1
9303-3
9303-4
9303-1
6
5
8
4
5
6
2
4
1
9315-2
9315-4
9315-1
7
5
8
3335 D12
3336 D2
3337 D2
3338 D1
3339 D2
3340 D1
3341 D1
3342 E2
3343 D1
3344 D1
3345 D12
3346 E1
3347 D1
3348 E12
3349 E1
3350 E1
3351 E12
3352 E1
3353 E1
3354 D13
3355 E1
3356 E1
3357 D13
3358 E13
3359 E13
3360 E13
3361 E13
3362 E13
3363 F13
3364 F13
3365 F13
3366 F13
3367 G13
3368 G13
3369 F1
GREEN
3
GREEN
3
GREEN
3
GREEN
RED
3
GREEN
RED
3
GREEN
RED
3
RED
5
RED
5
RED
5
9318-1
2
2
2
5
6
2
8
5
6
2
2
C
D
E
F
G
H
I
9318-4
6
1
6
1
6
1
1
5
1
1
BLUE
BLUE
BLUE
BLUE
BLUE
BLUE
GND_HS
GND_HS
GND_HS
GND_HS
GND_HS
GND_HS
G
R
B
F344
F345
F346
F340
F341
F342
F343
F341 D1
F342 D1
F343 D2
F344 D12
F345 D12
F346 D13
F347 G12
F348 G13
F349 G13
B
R
G
RED-1
GREEN-1
BLUE-1
F
G
H
I
F
G
H
I
3336
3338
3341
560R
1K5
3344
390R
3335
3310
3354
3337
3340
560R
390R
3345
1K5
3311
560R
1K5
3347
390R
3357
3339
3343
560R
390R
3348
1K5
3312
GREEN6
RED6
GREEN6
RED6
2
1
4
9304-2
9304-1
9304-4
7
8
5
560R
1K5
3350
390R
3358
3342
3346
560R
390R
3351
1K5
3313
560R
1K5
3353
390R
3359
BLUE6
BLUE6
3349
560R
390R
1K5
3314
560R
1K5
3356
3360
3352
560R
1K5
3315
560R
1K5
3384
3361
3355
560R
1K5
3316
560R
1K5
3385
3362
3369
VLED1-F
VLED1-F
560R
1K5
3317
560R
1K5
3386
3363
3370
F307
F325
3370 F1
3371 F1
3372 F1
3373 F1
3374 G1
3384 E1
3385 F1
3386 F1
3387 F1
BLUE-2
560R
1K5
3318
7307
BC847BW
560R
7317
BC847BW
1K5
3387
3364
3371
560R
1K5
3319
F308
F326
3334
3302
560R
1K5
3388
3365
3372
1K0
1K0
560R
1K5
3320
560R
1K5
3389
3366
3373
560R
1K5
3321
560R
1K5
3390
3367
3388 F1
3389 F1
PWM-B1
PWM-B2
3374
Place jumper 9325, 9326, 9327
J
J
560R
1K5
3322
560R
3390 G1
3391 G1
7000 C2
7001 C3
7002 C4
7003 C6
7004 C8
7005 C11
7305 G4
7306 H5
7307 F4
1K5
3391
3368
if VLED < 17V
VLED1-F
VLED1-F
560R
1K5
3323
1K5
F302
F327
RED-2
Place jumper 9314, 9316, 9317
7305
BC847BW
7315
BC847BW
1K5
if VLED < 17V
F303
F328
3328
3305
F347
F348
F349
K
L
K
L
1K0
1K0
7315 G9
7316 H10
7317 F9
PWM-R1
PWM-R2
VLED1-F
VLED1-F
9301 C1
9302 C1
9303-1 C10
9303-3 C10
9303-4 C10
9304-1 E10
9304-2 E10
9304-4 E10
9305-1 C6
9305-2 C6
9305-4 C6
9306-1 D5
9306-3 D5
9306-4 D5
9307 A6
9308 A6
9309-1 B6
9309-2 B6
9309-4 B6
9310-1 B8
F304
F329
GREEN-2
7306
BC847BW
7316
BC847BW
F305
F330
3333
3308
1K0
1K0
GREEN-2
RED-2
M
N
M
N
O
P
BLUE-2
PWM-G1
PWM-G2
1
2
3
4
5
6
7
8
9
10
11
12
13
O
P
CHN
SETNAME
CLASS_NO
1
2008-06-10
2
2008-08-08
DRIVER 6LED LITEON
3
??
8204 000 8857
2008-08-08
2
2K9
3104 313 6314.3
3
NAME Peter Van Hove
CHECK
SUPERS.
3
130
3
A2
DATE
2008-06-02
C
ROYAL PHILIPS ELECTRONICS N.V. 2008
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_652_090508.eps
090508
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 78
8 LED Low-Pow: LED Drive Liteon
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
A
B
C
A
B
C
1M3A E2
1
2
3
4
5
6
7
8
9
10
1M85 D2
3536 E9
3537 E9
3538 E7
3539 E9
3540 E7
3541 E8
3542 E9
3543 E7
3544 E8
3546 E7
3547 E8
3549 F7
3550 E8
3552 F7
3553 F8
3555 F7
3556 F8
3569 F7
3570 F7
3571 G7
3572 G7
3573 G7
3574 G7
3584 F8
3585 F8
3586 F8
3587 G8
3588 G8
3589 G8
3590 G8
3591 G8
7006 A5
7007 A7
LED DRIVE
A
B
C
D
E
F
A
B
C
D
E
F
7006
LTW-E500T-PH1
7007
LTW-E500T-PH1
D
E
D
E
4
5
6
4
5
6
GREEN
RED
3
GREEN
RED
3
2
1
GREEN-1
RED-1
2
1
BLUE-1
BLUE
BLUE
GND_HS
GND_HS
F
G
H
I
F
G
H
I
1M85
SPI-CLOCK-BUF
SPI-DATA-OUT
1
2
3
4
5
6
7
8
9
10
11
12
13
14
SPI-DATA-RETURN
SPI-LATCH
PWM-CLOCK-BUF
GREEN-2
+3V3
BLANK-BUF
EEPROM-CS
TEMP-SENSOR
PROG
RED-2
BLUE-2
VLED1
VLED2
15 16
3536
3538
3541
560R
1K5
3544
390R
3537
3540
1M3A
560R
1K5
3547
390R
3539
SPI-CLOCK-BUF
SPI-DATA-OUT
3543
1
2
3
4
5
6
7
8
9
10
11
12
13
14
SPI-DATA-RETURN
SPI-LATCH
560R
1K5
3550
390R
3542
3546
PWM-CLOCK-BUF
560R
1K5
3553
390R
+3V3
BLANK-BUF
EEPROM-CS
TEMP-SENSOR
PROG
3549
560R
1K5
3556
3552
VLED1
VLED2
J
J
560R
1K5
3584
3555
15 16
560R
1K5
3569
3585
560R
1K5
3570
3586
560R
1K5
3587
K
L
K
L
3571
560R
1K5
3588
3572
560R
1K5
3589
G
G
3573
560R
1K5
3590
3574
560R
1K5
3591
1K5
M
N
M
N
O
P
1
2
3
4
5
6
7
8
9
10
1X04
REF EMC HOLE
O
P
CHN
SETNAME
CLASS_NO
1
2
3
2008-05-23
2008-08-08
2LED + CONNECTOR
2008-05-23
2008-08-08
2008-10-31
1
2
3
0
8204 000 8874
2K9
3104 313 6314.3
NAME Peter Van Hove
CHECK
SUPERS.
1
130
1
A2
DATE
2008-04-20
C
ROYAL PHILIPS ELECTRONICS N.V. 2008
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_653_090508.eps
090508
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 79
Layout 8 LED Low-Pow
9313
3120
3119
9121
3128
3129
3132
3133
9315
21292128
2101
1M83
1M84
1M85
3138 3136
21063139
2108
C140
3106
3127
2117
I110
3222
7110
2209
2119
I113
1101
3103
I111
3342
2116
3115
2126
2107
3339
I114
3131
2112
3116
9119
3126
3338 3374 33853389
I115
3213
1X03
3340 3369 33843390
3343 3373 33563391
3346 3372 33503386
3349 3371 33473387
3352 3370 33443388
1X04
3124
3130
3121
2203
9212
2120
2214
2113
9308
2123
2124
2121
9307
3134
3141
2216
7201
7102
3355
3337
33413353
7214
3207
32142215
2131
2217
9209
3203 3205
3336
3223
3101
3125 3105
2219
F120
F122
F128
F135
F132
F130
F346
F107
F108
F105
F123
F215
F127
F348
F347
F349
F214
F139
F126
F345
F344
F209
F104
I124
F212
F109
F213
F137
1M3A
1M2A
1M1A
F131
F121
F210
F134
F138
F330
F326
F328
I125
F202
F203
F206
F207
F103
F133
F305
F211
F340
F343
F112
F136
F118
F208
F303
F329
F325
F327
F125
F102
F205
F307
F117
F342
F204
F304
F302
18490_550_090326.eps
31043136314.3
090326
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 80
10 LED Low-Pow: Microcontroller Block Liteon
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
12
17
18
19
20
1101 E4
1105 B5
7116-2 A12
A
B
C
A
B
C
1
2
3
4
5
6
7
8
9
10
11
13
9101 E5
9102 F5
9103 F5
9104 F5
9106 H8
9107 A5
9108 A5
9109 A5
9110 B5
9111 A3
9112 B2
9113 B3
9114 B2
9119 H6
9121 G4
C140 B10
F101 A8
F102 F5
F103 H7
F104 F5
F105 D7
F106 B12
F107 C7
F108 D7
F109 G3
F112 G8
F116 A10
F117 B13
F118 C11
F120 A1
F121 A1
F122 A1
F123 A1
F124 B1
F125 B1
F126 B1
F127 B1
F128 B1
F129 B1
F130 B1
F131 B1
F132 B1
F133 E1
F134 F1
F135 E1
F136 F1
F137 F1
F138 F1
F139 F1
I110 G8
I111 G8
I113 G10
I114 G10
I115 G10
I124 E11
I125 E11
I126 F11
1M1A C1
1M2A G1
1M83 A1
1M84 E1
2101 A6
2102 A7
2103 A8
2104 B7
2105 B10
2106 B13
2107 B11
2108 B12
2109 D7
2110 D7
2111 G4
2112 H7
2113 H7
2114 F9
2115 F9
2116 F9
2117 F9
2118 H8
2119 H6
2120 H6
2121 H6
MICROCONTROLLER BLOCK LITEON
3134
+3V3
+3V3
7101
100K
RES
IN
A
A
B
C
D
E
F
LD2985BM18R
+3V3
1M83
F101
9107
9108
1
5
4
F120
F121
F122
F123
F124
F125
F126
F127
F128
F129
SCL
SCL
SPI-CLOCK
1
2
3
4
5
6
7
8
9
10
11
12
13
14
+3V3
IN OUT
9111
RES
SPI-DATA-IN
SDA
CONTROL-1
CONTROL-2
SPI-DATA-RETURN
SDA
+1V8
7116-2
3
LM393PT
INH BP
COM
9109
9110
CONTROL-1
CONTROL-2
SPI-LATCH
PWM-CLOCK
F116
5
7
+3V3
F106
9113
RES
6
BLANK
EEPROM-CS
TEMP-SENSOR
PROG
+3V3
F130
F131
F132
VLED1
VLED2
F117
2106
B
C
D
E
F
D
E
D
E
1105
1.5A
10n RES
15 16
1M1A
VLED1
VLED1-F
3138
2122 F9
+3V3
T
2123 F10
2124 F10
2125 B3
2126 F10
2127 B1
2128 B1
2129 B2
2130 F2
47K
RES
7116-1
LM393PT
3
3141
1
F118
2
SCL
1
2
3
4
5
6
7
8
9
10
11
12
13
14
10K
RES
+3V3 +3V3
SDA
CONTROL-1
CONTROL-2
+3V3
2131 F10
3101-2 D7
3101-3 D9
3101-4 E9
3102-1 D9
3102-2 D9
3102-3 E9
3102-4 D9
3103-1 E9
3103-2 G10
3103-3 G11
3103-4 G10
3104-1 D8
3104-2 E8
3104-3 E8
3104-4 D9
3105-1 E9
3105-2 D8
3105-3 E8
3105-4 D8
3106-1 E8
3106-2 D8
3106-3 E8
3107 C7
3108 C7
3109 D7
3110 D7
3111 B10
3112 D9
3113 D8
3114 E8
3115 E8
3116 E8
3117 E7
3118 E5
3119 F4
3120 F5
3123 C11
3124-1 E11
3124-2 E11
3124-3 E11
3124-4 E11
3125-1 F11
3125-2 F11
3125-4 F11
3126-1 F11
3126-2 F11
3126-4 F11
3127-1 F11
3127-4 F11
3128 E11
3129 E11
3130 G8
+3V3
EEPROM-CS
TEMP-SENSOR
PROG
F107
F105
VLED1
VLED2
F
G
H
I
F
G
H
I
F108
15 16
7102
LPC2103FBD48
VSSA
VSS
Φ
11
12
13
14
18
21
22
23
24
28
29
30
35
36
37
41
44
45
46
47
48
1
X1
X2
P0.0|TXD0|MAT3.1
P0.1|RXD0|MAT3.2
P0.2|SCL0|CAP0.0
P0.3|SDA0|MAT0.0
P0.4|SCK0|CAP0.1
P0.5|MISO0|MAT0.1
P0.6|MOSI0|CAP0.2
P0.7|SSEL0|MAT2.0
P0.8|TXD1|MAT2.1
P0.9|RXD1|MAT2.2
MICRO-
CTRL
3124-4
3128
3129
4
5
I124
CONTROL-1
PWM-CLOCK-BUF
SPI-CLOCK-BUF
SPI-DATA-RETURN
SPI-DATA-IN
100R
100R
100R
100R
100R
100R I125
100R
100R
100R
100R
100R
100R
OUT
1M84
20
3124-1
3124-2
3124-3
3125-1
3142
3125-2
3125-4
3126-2
3126-4
1
2
3
1
8
7
6
8
RTXC1
RTXC2
9101
3118
10K
25
26
4
F133
F135
F136
F139
F137
SPI-CLOCK-BUF
SPI-DATA-OUT
SPI-DATA-RETURN
SPI-LATCH
1
2
3
4
5
6
7
8
9
SPI-LATCH
SPI-LATCH-2
RTCK
VBAT
+3V3
RES
9102
2
4
2
4
7
5
7
5
PWM-CLOCK-BUF
TEMP-SENSOR
EEPROM-CS
BLANK-BUF
PROG
TEMP-SENSOR
P0.10|RTS1|CAP1.0|AD0.3
P0.11|CTS1|CAP1.1|AD0.4
P0.12|DSR1|MAT1.0|AD0.5
P0.13|DTR1|MAT1.1
P0.14|DCD1|SCK1|EINT1
P0.15|RI1|EINT2
P0.16|EINT0|MAT0.2
P0.17|CAP1.2|SCL1
P0.18|CAP1.3|SDA1
P0.19|MAT1.2|MISO1
P0.20|MAT1.3|MOSI1
P0.21|SSEL1|MAT3.0
P0.22|AD0.0
+3V3
F102
RES 9103
9104
F138
F134
BLANK-BUF
EEPROM-CS
TEMP-SENSOR
PROG
27
DBGSEL
RES
+3V3
3126-1
1
8
I126
CONTROL-2
F104
10
+3V3
6
100R
VLED1
VLED2
11
12
13
14
RST
3127-1
3127-4
1
4
8
5
SCL
SDA
100R
100R
2
3
15 16
1M2A
7110
J
J
NCP303LSN10T1
2
3
5
32
33
34
38
39
8
IN
1
4
RST
GND
P0.23|AD0.1
P0.24|AD0.2
P0.25|AD0.6
P0.26|AD0.7
F109
UD-MD
CD
NC
I111
P0.27|TRST|CAP2.0
P0.28|TMS|CAP2.1
P0.29|TCK|CAP2.2
P0.30|TDI|MAT3.3
P0.31|TDO
9
SPI-CLOCK-BUF
SPI-DATA-OUT
SPI-DATA-RETURN
SPI-LATCH
1
2
3
4
5
6
7
8
9
10
11
12
13
14
I110
10
15
16
I113
I114
I115
3103-4
5
G
H
G
H
4
2
10K
3103-3
6
K
L
K
L
3130
7
3
10K
3103-2
+3V3
10K
PWM-CLOCK-BUF
22R
VDD_3V3
VDD_1V8
VDDA
+3V3
BLANK-BUF
EEPROM-CS
TEMP-SENSOR
PROG
3131
F112
100R
3131 G7
3132 H8
3133 H8
VLED1
VLED2
9119
3134 A13
3135 A11
3136 A12
3137 B11
3138 B13
3139 B12
3140 C11
3141 C13
3142 F11
7101 A7
+3V3
F103
15 16
+1V8
M
N
M
N
O
P
7102 E6
7110 F4
7116-1 B11
1
2
3
4
5
6
7
8
9
10
11
12
13
1X03
REF EMC HOLE
O
P
CHN
SETNAME
CLASS_NO
1
2
3
2008-06-10
2008-08-08
??
DRIVER 6LED LITEON
8204 000 8857
2008-08-08
2
2K9
3
NAME Peter Van Hove
CHECK
SUPERS.
3
130
1
A2
DATE
2008-06-02
C
ROYAL PHILIPS ELECTRONICS N.V. 2008
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_630_090306.eps
090306
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 81
10 LED Low-Pow: Microcontroller Block Liteon
1
2
3
4
5
6
7
5
8
9
10
11
12
13
14
15
16
12
17
13
18
19
20
2201 B8
2202 C8
2203 D8
2209 B2
2210 G6
2211 I6
1
2
3
4
6
7
8
9
10
11
A
B
C
A
B
C
MICROCONTROLLER BLOCK LITEON
2214 A6
2215 F7
2216 F7
2217 B12
2218 C12
2219 D12
2220 E9
3121 D9
3203 B5
3204 B7
3205 C5
3207 B9
3209 C9
3210 B3
3211 C9
3212 D11
3213 B3
3214 H6
3215 H6
3216 H6
3217 H6
3218 H6
3219 B11
3220 C11
3221 H11
3222 I8
INPUT BUFFER
A
B
C
D
E
F
G
H
I
A
B
C
D
E
F
G
H
I
+3V3
9208 RES
+3V3
+3V3
+3V3
7201-1
74HCT125PW
2
PWM-CLOCK
3219
3
PWM-CLOCK-BUF
F205
3207
1
+3V3
100R
EN
RES
1K0
7212
PDTC144EU
9209
SPI-CS
SPI-CS
SPI-DATA-IN
7209
PDTC144EU
7214
8
F202
3
+3V3
VCC
1
5
6
1
3
2
7
9210 RES
EEPROM-CS
SPI-DATA-RETURN
Φ
D
C
S
Q
(64K)
2
7201-4
74HCT125PW
+3V3
3204
12
SPI-CLOCK
+3V3
HOLD
3220
11
SPI-CLOCK-BUF
10K
F206
W
3209
M95010-WDW6
D
E
D
E
13
F203
+3V3
27R
EN
GND
4
RES
1K0
7210
PDTC144EU
3
9211
1
9212 RES
EEPROM-CS-LOCAL
SPI-CLOCK-BUF
3223 C11
3224 H11
6216 I8
2
+3V3
7201-2
74HCT125PW
5
7201-1 A10
7201-2 C10
7201-3 D10
7201-4 B10
7209 B2
7210 C2
7212 B3
7214 B6
7215 G7
9208 A10
9209 B9
9210 B10
9211 C9
9212 C10
9213 D9
9214 D10
F202 B3
F203 C5
F204 H6
F205 B10
F206 C10
F207 C10
F208 D10
F209 H11
F210 G9
F211 G9
F212 G9
F213 H9
F214 H9
F215 H9
BLANK
3223
6
BLANK-BUF
F207
4
3211
+3V3
100R
EN
RES
1K0
9213
9214 RES
SPI-DATA-OUT-FIL
F
G
H
I
F
G
H
I
+3V3
7201-3
74HCT125PW
9
3121
8
SPI-DATA-RETURN
F208
3212
100R
10
DATA-RETURN-SWITCH
100R
EN
+3V3
2216
2215
100n
1u0
7215
TLC5946PWP
VCC
Φ
J
J
LED DRIVER
PWM CONTROL
F210
7
8
9
PWM-R1
0
1
2
3
4
5
6
7
8
25
2
PWM-CLOCK-BUF
F211
F212
F213
GSCLK
10
11
12
13
14
15
16
17
18
19
20
21
22
BLANK-BUF
PWM-G1
PWM-B1
PWM-R2
2210
BLANK
MODE
IREF
33p
3217
6
PROG
K
L
K
L
100R
1K2
F204
27
RES
3218
3215
1K2
+3V3
+3V3
OUT
F214
F215
9
3
SPI-LATCH
PWM-G2
PWM-B2
XLAT
10
11
12
13
14
15
4
5
24
SPI-CLOCK-BUF
SPI-DATA-IN
SPI-DATA-OUT
SPI-DATA-OUT-FIL
SCLK
SIN
SOUT
F209
3216
EEPROM-CS-LOCAL
DATA-RETURN-SWITCH
EEPROM-CS-LOCAL
DATA-RETURN-SWITCH
100R
3214
26
23
+3V3
XHALF
XERR
VIA
10K
GND GND_HS
M
N
M
N
O
P
+3V3
1
2
3
4
5
6
7
8
9
10
11
12
13
O
P
CHN
SETNAME
CLASS_NO
1
2
3
2008-06-10
2008-08-08
DRIVER 6LED LITEON
??
8204 000 8857
2008-08-08
2
2K9
3
NAME Peter Van Hove
CHECK
SUPERS.
3
130
2
A2
DATE
2008-06-02
C
ROYAL PHILIPS ELECTRONICS N.V. 2008
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_631_090306.eps
090306
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 82
10 LED Low-Pow: LED Liteon
1
2
3
4
5
6
4
7
8
9
10
11
12
13
14
15
16
12
17
18
19
20
3301 F9
3302 F9
3303 F9
3304 G9
3305 G9
3306 H9
3307 H9
3308 H9
3309 I9
3310 D12
3311 D12
3312 E12
3313 E12
3314 E12
3315 E12
3316 E12
3317 F12
3318 F12
3319 F12
3320 F12
3321 G12
3322 G12
3323 G12
3325 G4
3326 H4
3327 H4
3328 G4
3330 I4
9310-2 B8
9310-4 B8
9311-1 H13
9311-3 H13
9311-4 H12
9312-1 B10
9312-3 B10
9312-4 B10
9313-1 B12
9313-2 B12
9313-4 B12
9314 G5
1
2
3
5
6
7
8
9
10
11
13
A
B
C
A
B
C
LED LITEON
A
B
A
B
C
D
E
F
G
H
I
VLED1-F VLED2
9315-1 C12
9315-2 C12
9315-4 C12
9316 H5
9317 F5
9318-1 C8
9318-3 C8
9318-4 C8
9319-1 D9
9319-3 D9
9319-4 D9
9320-1 D7
9320-2 D7
9320-4 D7
9325 F10
9326 G10
9327 H10
F302 G5
F303 G4
F304 H5
F305 H5
F307 F5
F308 F4
F325 F10
F326 F9
F327 G10
F328 G9
F329 H10
F330 H10
F340 D1
VLED1-F VLED2
D
E
D
E
3331 F4
3332 F4
3333 H4
3334 F4
7000
7001
LTW-E500T-PH1
7002
7003
LTW-E500T-PH1
7004
LTW-E500T-PH1
7005
LTW-E500T-PH1
LTW-E500T-PH1
LTW-E500T-PH1
G
B
R
9318-3
9318-1
9318-4
4
4
4
2
4
1
9305-2
7
5
8
4
6
8
5
3
1
4
4
3
4
1
9303-3
9303-4
9303-1
6
5
8
4
5
6
2
4
1
9315-2
9315-4
9315-1
7
5
8
3335 D12
3336 D2
3337 D2
3338 D1
3339 D2
3340 D1
3341 D1
3342 E2
3343 D1
3344 D1
3345 D12
3346 E1
3347 D1
3348 E12
3349 E1
3350 E1
3351 E12
3352 E1
3353 E1
3354 D13
3355 E1
3356 E1
3357 D13
3358 E13
3359 E13
3360 E13
3361 E13
3362 E13
3363 F13
3364 F13
3365 F13
3366 F13
3367 G13
3368 G13
3369 F1
GREEN
3
GREEN
3
GREEN
3
GREEN
RED
3
2
1
GREEN
RED
3
GREEN
RED
3
RED
5
RED
5
RED
5
2
2
2
9305-4
5
6
5
6
2
2
C
D
E
F
G
H
I
6
1
6
1
6
1
9305-1
1
1
BLUE
BLUE
BLUE
BLUE
BLUE
BLUE
GND_HS
GND_HS
GND_HS
GND_HS
GND_HS
GND_HS
G
R
B
F344
F345
F346
F340
F341
F342
F343
F341 D1
F342 D1
F343 D2
F344 D12
F345 D12
F346 D13
F347 G12
F348 G13
F349 G13
B
R
G
RED-1
GREEN-1
BLUE-1
F
G
H
I
F
G
H
I
3336
3338
3341
560R
1K5
3344
390R
3335
3310
3354
3337
3340
560R
390R
3345
1K5
3311
560R
1K5
3347
390R
3357
3339
3343
560R
390R
3348
1K5
3312
GREEN6
RED6
GREEN6
RED6
2
1
4
9304-2
9304-1
9304-4
7
8
5
560R
1K5
3350
390R
3358
3342
3346
560R
390R
3351
1K5
3313
560R
1K5
3353
390R
3359
BLUE6
BLUE6
3349
560R
390R
1K5
3314
560R
1K5
3356
3360
3352
560R
1K5
3315
560R
1K5
3384
3361
3355
560R
1K5
3316
560R
1K5
3385
3362
3369
VLED1-F
VLED1-F
560R
1K5
3317
560R
1K5
3386
3363
3370
F307
F325
3370 F1
3371 F1
3372 F1
3373 F1
3374 G1
3384 E1
3385 F1
3386 F1
3387 F1
BLUE-2
560R
1K5
3318
7307
BC847BW
560R
7317
BC847BW
1K5
3387
3364
3371
560R
1K5
3319
F308
F326
3334
3302
560R
1K5
3388
3365
3372
1K0
1K0
560R
1K5
3320
560R
1K5
3389
3366
3373
560R
1K5
3321
560R
1K5
3390
3367
3388 F1
3389 F1
PWM-B1
PWM-B2
3374
Place jumper 9325, 9326, 9327
J
J
560R
1K5
3322
560R
3390 G1
3391 G1
7000 C2
7001 C3
7002 C4
7003 C6
7004 C8
7005 C11
7305 G4
7306 H5
7307 F4
1K5
3391
3368
if VLED < 17V
VLED1-F
VLED1-F
560R
1K5
3323
1K5
F302
F327
RED-2
Place jumper 9314, 9316, 9317
7305
BC847BW
7315
BC847BW
1K5
if VLED < 17V
F303
F328
3328
3305
F347
F348
F349
K
L
K
L
1K0
1K0
7315 G9
7316 H10
7317 F9
PWM-R1
PWM-R2
VLED1-F
VLED1-F
9301 C1
9302 C1
9303-1 C10
9303-3 C10
9303-4 C10
9304-1 E10
9304-2 E10
9304-4 E10
9305-1 C6
9305-2 C6
9305-4 C6
9306-1 D5
9306-3 D5
9306-4 D5
9307 A6
9308 A6
9309-1 B6
9309-2 B6
9309-4 B6
9310-1 B8
F304
F329
GREEN-2
7306
BC847BW
7316
BC847BW
F305
F330
3333
3308
1K0
1K0
GREEN-2
RED-2
M
N
M
N
O
P
BLUE-2
PWM-G1
PWM-G2
1
2
3
4
5
6
7
8
9
10
11
12
13
O
P
CHN
SETNAME
CLASS_NO
1
2008-06-10
2
2008-08-08
DRIVER 6LED LITEON
3
??
8204 000 8857
2008-08-08
2
2K9
3
NAME Peter Van Hove
CHECK
SUPERS.
3
130
3
A2
DATE
2008-06-02
C
ROYAL PHILIPS ELECTRONICS N.V. 2008
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_632_090306.eps
090306
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 83
10 LED Low-Pow: LED Drive Liteon
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
A
B
C
A
B
C
1M3A E2
1M85 D2
3536 E9
3537 E9
3538 E7
3539 E9
3540 E7
3541 E8
3542 E9
3543 E7
3544 E8
3546 E7
3547 E8
3549 F7
3550 E8
3552 F7
3553 F8
3555 F7
3556 F8
3569 F7
3570 F7
3571 G7
3572 G7
3573 G7
3574 G7
3584 F8
3585 F8
3586 F8
3587 G8
3588 G8
3589 G8
3590 G8
3591 G8
7006 A2
7007 A4
7008 A5
7009 A6
1
2
3
4
5
6
7
8
9
10
LED DRIVE
A
A
7006
7007
7008
LTW-E500T-PH1
7009
LTW-E500T-PH1
2
LTW-E500T-PH1
LTW-E500T-PH1
D
E
D
E
4
5
6
4
5
6
4
5
6
4
5
6
GREEN-1
GREEN
RED
3
GREEN
RED
3
GREEN
RED
3
GREEN
RED
3
RED-1
1
1
1
1
BLUE-1
BLUE
BLUE
BLUE
BLUE
B
C
D
E
F
B
C
D
E
F
GND_HS
GND_HS
GND_HS
GND_HS
2
2
2
F
G
H
I
F
G
H
I
1M85
SPI-CLOCK-BUF
SPI-DATA-OUT
SPI-DATA-RETURN
SPI-LATCH
1
2
3
4
5
6
7
8
9
10
11
12
13
14
PWM-CLOCK-BUF
GREEN-2
+3V3
BLANK-BUF
EEPROM-CS
TEMP-SENSOR
PROG
RED-2
BLUE-2
VLED1
VLED2
15 16
3536
3538
3541
560R
1K5
3544
390R
3537
3540
1M3A
560R
1K5
3547
390R
3539
SPI-CLOCK-BUF
SPI-DATA-OUT
SPI-DATA-RETURN
SPI-LATCH
3543
1
2
3
4
5
6
7
8
9
10
11
12
13
14
560R
1K5
3550
390R
3542
3546
PWM-CLOCK-BUF
560R
1K5
3553
390R
+3V3
BLANK-BUF
EEPROM-CS
TEMP-SENSOR
PROG
3549
560R
1K5
3556
3552
VLED1
VLED2
J
J
560R
1K5
3584
3555
15 16
560R
1K5
3569
3585
560R
1K5
3570
3586
560R
1K5
3587
K
L
K
L
3571
560R
1K5
3588
3572
560R
1K5
3589
3573
G
G
560R
1K5
3590
3574
560R
1K5
3591
1K5
M
N
M
N
O
P
1
2
3
4
5
6
7
8
9
10
1X04
REF EMC HOLE
O
P
CHN
SETNAME
CLASS_NO
1
2
3
2008-08-14
2008-10-24
4 LED + CONNECTOR
2008-10-31
8204 000 8897
2008-08-14
2
LITEON 2K9
2008-10-31
3
NAME Peter Van Hove
CHECK
SUPERS.
1
130
1
A2
DATE
2008-07-29
C
ROYAL PHILIPS ELECTRONICS N.V. 2008
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_633_090306.eps
090306
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 84
Layout 10 LED Low-Pow
9313
3120
3119
9121
3128
3129
9315
21292128
2101
3132
1M83
1M84
1M85
3133
31383136
C140
3106
3127
2117
I110
21063139
3222
7110
2209
2108
2119
I113
1101
3103
I111
3342
2116
3115
2126
2107
3339
I114
3131
2112
3116
9119
3126
3338 3374 33853389
I115
3213
1X03
3340 3369 33843390
3343 3373 33563391
3346 3372 33503386
3349 3371 33473387
3352 3370 33443388
1X04
3124
3130
3121
2203
9212
2120
2214
2113
9308
2123
2124
2121
9307
3134
3141
2216
7201
7102
3355
3337
3336
33413353
7214
3207
32142215
2131
2217
9209
3203 3205
3223
3101
3125 3105
2219
F120
F122
F128
F135
F132
F130
F346
F215
F107
F108
F105
F123
F127
F348
F347
F349
F214
F139
F126
F345
F344
F209
F104
I124
F212
F109
F213
F137
1M3A
1M2A
1M1A
F131
F121
F210
F134
F138
F330
F326
F328
I125
F202
F203
F206
F207
F133
F103
F305
F340
F343
F211
F112
F136
F118
F208
F329
F325
F327
F303
F125
F102
F205
F307
F117
F342
F204
F304
F302
18310_553_090309
3104 313 6315.2
090309
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 85
SSB: DC/DC
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
2U06 B10
2U07 E11
2U0B H9
2U0D H6
2U0F A5
2U0H C9
2U0J E9
2U0K F9
2U0R G10 2U0V E12 2U10 C14
2U15 B13
2U16 E13
2U17 E13
2U19 A13
2U1B E14 2U55 D4
2U59 E2
2U60 E6
2U61 E4
2U62 F2
2U63 F6
2U64 G9
2U65 G8
3U06 B6
3U09 H9
3U0J B9
3U16 C5
3U17 D3
3U18 D5
3U19 D5
3U1D F6
3U20 D5
3U24 F7
3U25 F8
3U30 E6
3U31 G8
3U74 E9
5U01 B9
5U33 B13
6U02 E2
6U03 D5
7U02 B6
7U03 D3
7U09 E1
CU77 G2
FU04 E2
FU05 A8
FU06 F5
FU07 B9
FU0B E14 IU07 E9
FU0C B14 IU08 B9
IU0P B6
IU11 B6
IU12 D7
IU19 H9
IU1B C9
IU1D G10
IU1E F9
IU1P B6
IU1R F1
IU1T A13
IU30 E6
IU31 G9
IU55 C4
IU56 D3
IU57 D3
IU58 E3
IU59 E3
IU60 E3
IU61 D5
IU62 F6
IU63 D5
2U0S F1
2U0W A5
2U11 C14
2U39 B6
2U56 D4
2U57 D2
2U58 D3
3U0A H10 3U0K E9
3U1J G14 3U21 E2
3U75 G10 5U02 A13
7U05 C8
7U06 D8
7U08 A6
IU0S G5
IU0T G9
IU0U E1
2U0T E11
2U0Y A12 2U12 C9
2U50 D7
2U54 C2
3U0F H5
3U0G H6
3U13 C7
3U15 C5
3U1M B9
3U1V F1
3U22 E3
3U23 F2
3U76 E11
5U00 E9
5U03 C13
5U32 A13
FU08 G14 FU0E C14 IU0K D7
A
B
C
A
B
C
2U0U E12 2U0Z B10 2U14 A12
FU0A E8
IU06 G9
IU0N C7
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
DC / DC
+12VF1
A
B
C
D
E
F
A
B
C
D
E
F
IU1T
FU05
5U02 RES
+12VF
10u
5U32 RES
7U08
30R
5U33
5
6
7
8
IU1P
SI4800BDY
4
12V/3V3 CONVERSION
1
2
3
30R
D
E
D
E
VSW
2U39
FU07
5U01
10u
FU0C
+3V3
1n0
IU11
IU0P
7U02
5
6
7
8
SI4800BDY
4
IU08
IU1B
1
2
3
5U03
10u
FU0E
+3V3F
7U05
4
3U15
F
G
H
I
F
G
H
I
5
6
7
8
IU55
IU0N
IU12
SI4800BDY
10R
3U16
1
2
3
10R
2U50
1n0
IU56
2U55
100n
IU61
GND-SIG
IU57
7U03
TPS53124PW
7U06
VIN
Φ
IU63
5
6
2
7 8
28
DRVH1
DRVL1
26
4
1
SI4800BDY
3
1
IU0K
VBST1
EN1
12V/1V2 CONVERSION
15
17
DRVH2
DRVL2
3
5U00
IU58
IU60
FU0B
3U21
20K
24
14
12
19
21
27
16
+1V2-PNX85XX
GND-SIG
TRIP1
VBST2
EN2
LL1
LL2
FU0A
BAT54 COL
6U02
IU59
10u
4
5
VO1
VFB1
+1V2-PNX85XX
+3V3
RES
2U1B
ENABLE-3V3-5V
3U22
20K
11
10
22
IU30
TRIP2
V5FILT
VO2
VFB2
VREG5
3U30
4K7
GND-SIG
FU04
IU07
IU1E
IU0U
8
20
2
6
9
1
TEST
2
7U09
GND-SIG
2U61
NC
3
BC847BW
13
2U63
3n3
3U24
33K
IU1R
1
RES
+3V3
PGND
IU62
+1V2-PNX85XX
GND-SIG
GND-SIG
2
2U0S
FU06
1% 3K3
3U1D
100n
RES
GND-SIG
J
J
GND-SIG
IU0S
IU06
2U64
3n3
K
L
K
L
CU77
+1V2-STANDBY
GND-SIG
3U1J FU08
120R 1%
SENSE+1V2-PNX85XX
IU1D
IU31
IU0T
G
H
G
H
IU19
GND-SIG
GND-SIG
GND-SIG
GND-SIG
GND-SIG
GND-SIG
M
N
M
N
O
P
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
1X08
O
P
REF EMC HOLE
CHN
SETNAME
CLASS_NO
2
2008-11-21
DC/DC
8204 000 8932
TV543 R2 LDIPNX
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
3
130
1
A2
DATE
2007-11-20
C
ROYAL PHILIPS ELECTRONICS N.V. 2008
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_500_090302.eps
090302
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 86
SSB: DC/DC
1
2
3
4
5
6
8
9
10
11
12
13
5U13 A1
7
1M20 A1
1M95 E1
1M99 C1
1U01 E2
1U03 E2
2U21 B1
2U22 D2
2U23 D2
2U24 A7
2U25 B8
2U26 B9
2U27 F7
2U28 F8
2U29 E8
2U2A E8
2U2B E8
2U2C B1
2U30 D2
2U31 D3
2U32 E1
2U33 F1
2U34 F1
2U35 F1
2U36 F1
2U37 C1
2U40 F3
2U41 A2
2U42 A2
2U43 A2
2U44 A2
2U45 B2
2U46 B2
2U47 D8
2U48 D8
2U49 D7
2U51 D1
2U52 D1
2U53 C1
3U35 B6
3U37 A6
3U3V B8
3U3W A8
3U3Y E6
3U3Z F6
3U40 E8
3U41 B5
3U42 E9
3U43 E8
3U44 E9
3U45 E9
3U46 A8
3U47 E8
3U4A B8
3U4B B4
3U55 C3
3U56 C3
3U57 C3
3U58 C3
3U59 B6
3U60 E5
3U61 E5
3U62 F5
3U63 F5
3U64 C2
3U65 C2
3U66 D1
3U67 D2
3U80 E3
3U81 E3
3U82 E4
3U83 E4
3U84 F2
3U85 F4
3U86 F4
3U88 F3
3U89 F3
3U90 A3
3U91 A3
3U92 A3
3U93 B2
3U94 B3
3U95 B3
3U96 A4
3U97 A4
3U98 C3
5U06 F2
5U07 A1
5U08 E7
5U10 A1
5U11 A1
5U12 A1
1
2
3
4
5
6
7
8
9
5U14 A1
5U15 B1
5U16 B1
5U17 F2
5U20 F2
5U21 F2
6U0B E8
6U0C E8
6U40 E3
7U0M A9
7U0N B7
7U0P E7
7U0Q E9
7U10 B4
7U11 B3
7U40-1 E3
7U40-2 E4
7U41-1 F4
7U41-2 F5
7U50 C7
9U06 A2
9U07 B3
9U08 B5
CU70 D1
CU71 D1
FU10 F1
FU11 F1
FU12 F1
FU13 C1
FU14 C1
FU15 C2
FU16 C1
FU17 C2
FU18 C2
FU19 C1
FU1A E1
FU1B E1
FU1C E1
FU1D F1
FU1F B9
FU1G E9
FU1H C4
FU20 E1
FU21 E1
FU22 E1
FU23 E1
FU24 C1
FU25 D1
FU26 D1
FU30 A1
FU31 A1
FU32 A1
FU33 A1
FU34 A1
FU35 A1
FU36 B1
FU38 B1
FU39 E5
FU40 F4
IU20 B4
IU21 B4
IU34 A8
IU35 B8
IU36 F7
2U41
100p
2U42
100p
2U43
100p
A
B
C
D
E
F
G
H
I
A
B
C
D
E
F
G
H
I
DC / DC
IU48
+3V3
3U90
100R
3U37
100K
LIGHT-SENSOR
RC
LIGHT-SENSOR
RESERVED
TO
IU49
3U91
100R
+3V3-STANDBY
LED PANEL
A
A
+3V3-STANDBY
+3V3
1M20
5U07
30R
FU32
IU51
5U10
1
2
3
4
5
6
7
8
3U92
3
FU30
FU31
30R
5U11
5U13
100R
+3V3-STANDBY
5U12
30R
30R
1
FU33
FU34
FU35
FU36
5U16
FU38
7U0M
RES
RES
+3V3-STANDBY
RES
+5V
BC847BW
30R
9U06
2U44
IU34
IU3C
5U14
2
IU50
+1V2-STANDBY
9U08
30R
5U15
30R
2U25
22n
3U4A
1K0
FU1F
IU52
100p
2U45
100p
3U93
7U10
RES
30R
+5V
RES
RES
IU20
100R
3U41
3U59
LED2
LED2
LED1
3
IU53
1
9U07
RES
7U0N
10K
10K
TS431AILT
RES
2U21
100p
B
C
D
E
B
C
D
E
BC847BW
IU35
1K0
4
+3V3
IU21
3U3V
3U4B
10K
3U35
10K
LED1
7U11
BC847BW
2
5
+12VD
3U98
10R
1M99
KEYBOARD
2U37
1u0
FU13
FU1H
1
2
FU19
FU14
3
4
FU16
LAMP-ON-OUT
5
FU17
100R
100R
100R
100R
3U55
3U56
3U57
3U58
7U50
6
FU18
LD3985M122
BACKLIGHT-OUT
7
8
1K0
FU24
1
3
5
4
BACKLIGHT-BOOST
+3V3-STANDBY
+1V2-STANDBY
9
IN OUT
IU3T
3U64
10
11
12
FU15
BACKLIGHT-PWM-ANA-DISP
INH BP
COM
1-1735446-2
RES
2U49
2U48
RES
POWER-OK
SCL-SET
RES
FU25 100R
3U66
RES
100R
3U67
FU26
SDA-SET
CU71
CU70
FU1G
6U0B
BAS316
+33VTUN
STANDBY
GND-AUDIO
2U32
10n
7U40-2
BC847BPN(COL)
4
IU37 F8
IU41
VSW
IU38 E7
IU39 F9
1U03
3.0A
+12VF
5
1M95
+3V3-STANDBY
3
FU1A
IU3B E8
IU3C B8
IU3T C8
IU40 E3
IU41 E3
IU42 E4
IU43 E3
IU44 F3
1
2
3
4
5
6
7
8
9
T
32V
3U60 FU39
22K
FU1B
FU20
FU23
FU1C
FU22
FU21
FU1D
ENABLE-3V3-5V
IU42
IU3B
3U42
2K2
+12V
IU38
1U01
IU43
6
+12V
7U0P
2N7002
7U40-1
BC847BPN(COL)
3.0A
T
32V
7U0Q
BC847BW
IU40
FU40
DETECT-12V
ENABLE-3V3
FU10
FU12
2
+AUDIO-POWER
IU45 F4
FU11
IU37
1
1
IU47 F3
10
11
3
IU36
IU48 A4
IU49 A4
IU50 A5
IU51 A3
IU52 B3
IU53 B4
IU54 F5
IU44
IU39
3U62
22K
1-1735446-1
+1V2-STANDBY
5
7U41-2
5U06
*
BC847BS(COL)
4
IU45
3U88
10K
3U89
22K
IU47
IU54
30R
F
F
6
* IN CASE OF ONLY-ANALOG TUNER
5U17
2K8 supplies
2K9 supplies
*
*
7U41-1
BC847BS(COL)
1
2
30R
5U20
30R
5U21
*
30R
1
2
3
4
5
6
7
8
9
CHN
SETNAME
CLASS_NO
2
2008-11-21
DC/DC
J
J
8204 000 8932
TV543 R2 LDIPNX
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
3
130
2
A3
DATE
2007-11-20
C
ROYAL PHILIPS ELECTRONICS N.V. 2008
7
1
2
3
4
5
6
8
9
10
11
12
13
18310_501_090302.eps
090302
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 87
SSB: DC/DC
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
A
A
B
C
2U00 A12
2U04 D3
2U13 E3
2U18 E6
2U20 F8
2U38 F8
2U66 B6
2U83 G7
2U8E A10
2U8F B12
2U8G D10
2U8H D10
2U8K D10
2U8T H6
2U90 A12
3U00 C5
3U01 C5
3U02 C6
3U03 C5
3U04 C3
3U05 C5
3U07 D2
3U08 D3
3U10 E2
3U11 E7
3U12 E8
3U14 B6
3U2C H6
3U2H D9
3U32 E6
3U33 F8
3U3A B12
3U3F E11
3U3G F11
3U3J B9
3U3N D9
5U04 D9
5U19 C11
5U30 A11
5U31 A11
6U00 C5
6U01 D2
7U0D-2 C7
FU00 E2
FU87 D8
FU90 E5
IU03 C3
IU10 D3
IU13 D3
IU14 B6
IU15 E6
IU16 C7
IU2A B6
IU2C E5
IU2D D5
IU2T G7
IU2V C9
IU2Y F9
IU2Z E9
IU32 D6
IU33 F8
2U01 A4
2U02 C4
2U03 D2
2U05 D2
2U08 E6
2U09 E4
2U67 C7
2U80 C4
2U81 C2
2U8A A5
2U8C B10
2U8D B10
2U8M D10
2U8Q E9
2U8R E9
2U8U C8
2U8V C8
2U8Y F9
3U26 G9
3U27 G10
3U28 C6
3U2D H6
3U2F F10
3U2G B8
5U05 B9
5U09 A11
5U18 B11
6U09 B11
7U01 C3
7U0H-1 A6
7U0H-2 B6
CU25 G2
FU0D F13
FU80 B14
FU85 D14
FU8B A14
FU8C B8
FU8D B14
IU00 C4
IU01 C3
IU02 C5
IU04 D5
IU05 D3
IU09 E8
IU25 D6
IU28 C7
IU29 B6
IU82 C9
IU85 E9
7U0D-1 B7
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
B
FU8B
DC / DC
+12VF2
5U09 RES
C
A
B
C
D
E
F
A
B
C
D
E
F
+12V
10u
5U30 RES
30R
7U0H-1
7
5U31
8
IU2A
30R
SI4936BDY
2
4
12V/5V CONVERSION
D
E
D
E
FU8D
FU80
+5V5-TUN
+5V
2U66
FU8C
5U05
10u
SS36
7U0H-2
1n0
IU14
6U09
5U18
6
5
SI4936BDY
RES
RES
7U0D-1
2
IU29
30R
5U19
7
8
3U00
IU82
IU2V
IU00
IU28
SI4936BDY
10R
3U01
30R
1
10R
2U67
1n0
IU16
7U0D-2
4
IU01
2U02
100n
IU02
5
6
F
G
H
I
F
G
H
I
GND-SIG1
SI4936BDY
3
IU03
7U01
TPS53124PW
VIN
Φ
IU04
28
26
IU25
DRVH1
DRVL1
12V/1V2 CONVERSION
1
VBST1
EN1
15
17
DRVH2
DRVL2
3
5U04
10u
IU05
3U07
20K
FU87
24
14
12
19
21
27
16
FU85
GND-SIG1
TRIP1
VBST2
EN2
LL1
LL2
+1V2-PNX5100
BAT54 COL
6U01
IU10
4
5
+1V2-PNX5100
+5V5-TUN
VO1
VFB1
RES
IU2D
ENABLE-3V3-5V
IU13
3U08
18K
11
10
22
IU32
TRIP2
V5FILT
VO2
VFB2
VREG5
3U32
4K7
IU2C
IU85
IU2Z
GND-SIG1
FU00
8
20
2
6
9
1
TEST
2
GND-SIG1
NC
13
2U18
3n3
3U11
22K
+5V5-TUN
PGND
IU15
GND-SIG1
GND-SIG1
FU90
GND-SIG1
IU09
2U20
3n3
GND-SIG1
3U3G
FU0D
SENSE+1V2-PNX5100
IU2Y
IU33
120R 1%
J
J
CU25
K
L
K
L
IU2T
GND-SIG1
G
H
G
H
GND-SIG1
GND-SIG1
GND-SIG1
GND-SIG1 GND-SIG1 GND-SIG1
M
N
M
N
O
P
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
O
P
CHN
SETNAME
CLASS_NO
2
2008-11-21
DC/DC
8204 000 8932
TV543 R2 LDIPNX
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
3
130
3
A2
DATE
2007-11-20
C
ROYAL PHILIPS ELECTRONICS N.V. 2008
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_502_090302.eps
090302
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 88
SSB: Front End
1
2
3
4
5
6
7
5
8
9
10
11
12
13
10
14
15
16
17
13
18
14
19
20
1T01 A5
1T11 C5
1T21 E5
1T25 C10
2T10 B3
2T11 B3
2T12 C2
2T13 C12
2T14 C2
2T15 C10
2T16 C13
2T17 C10
2T18 C13
2T19 F10
2T20 G10
2T21 E11
2T22 B7
2T23 D5
2T25 B7
2T26 E5
2T27 D7
2T28 E5
2T29 E7
2T35 B5
2T36 B5
2T37 C7
2T39 H9
3T10 B2
3T11 B2
3T12 B2
3T13 B5
3T14 B5
3T15 E5
3T16 E5
3T17 E11
3T18 E11
3T19 E11
3T22 G9
3T98 E11
5T10 B7
5T11 C2
5T12 F11
6T10 B2
6T11 B2
7T10 C11
9T10 B5
9T11 B7
9T12 B5
9T13 B7
9T14 C10
9T18 D5
9T20 D5
9T21 D7
9T22 D10
9T23 D7
9T24 E9
9T25 F5
9T27 G5
9T29 G7
9T30 G5
9T31 C13
9T32 D13
9T33 F11
9T34 G11
9T40 B7
9T41 E7
9T43 C10
9T44 D10
9T45 G7
AT10 B7
AT11 D7
FT17 C2
FT18 G5
FT21 H9
FT22 B3
FT23 B2
IT03 B5
1
2
3
4
6
7
8
9
11
12
A
B
C
A
B
C
1T01
FRONT-END
UV1316E
16 17
TUNER
18 19
RF-IN
14
13
MT
15
M1T2
A
A
TUN-P1
TUN-P2
TUN-P3
TUN-P4
TUN-P5
TUN-P11
TUN-P10
TUN-P9
TUN-P8
TUN-P7
TUN-P6
AT10
IT12
RESERVED
IT03
9T10
9T11
5T10
RF-AGC
TUN-P1
B-IF-_N-IF-
TUN-P11
IT11
IT09
3T10
9T12
TUN-P3
TUN-SCL
TUN-P4
TUN-SDA
TUN-P5
TUN-P9
+VTUN
100R
IT04
IT10
2T35
18p
30R
2T25
3T13
FT23
FT22
3T11
3T12
100R
+VTUN
B
C
D
E
F
G
H
I
B
C
D
E
F
G
H
I
+33VTUN
47R
100R
220n
IT05
IT13
2T36
18p
3T14
9T13
TUN-P7
TUN-P10
TUN-P8
+5V-TUN-PIN
D
E
D
E
47R
9T40
2T22
IT0D
IT16
IT17
9T14
RES
4n7
2T37
2T13
TUN-P6
+5V-TUN
1T11
HD1816AF/BHXP
IT08
5T11
4n7
10n
+5V-TUN
TUNER
30R
2T12
FT17
7T10
+5V-TUN-PIN
RF-IN
UPC3221GV-E1
14
MT
13
22u
2T14
IT20
2
IT21
IT24
2T15
2T16
M1T2
IT19
IT22
IT25
1T25
INPUT1
INPUT2
VAGC
OUTPUT1
OUTPUT2
7
6
IF-
15
1
2
5
4
B-IF-_N-IF-
B-IF+_N-IF+
100n
I
O1
O2
10n
2T17
10n
2T18
IT23
IGND
3
IF+
IT26
3
TUN-P1
TUN-P2
TUN-P3
TUN-P4
TUN-P5
TUN-P11
TUN-P10
TUN-P9
TUN-P8
TUN-P7
TUN-P6
GND
10n
10n
F
G
H
I
F
G
H
I
OFWX6966M
36M125
4
AGC CONTROL
IT30
9T18
TUN-P1
ANTENNA-SUPPLY
AT11
9T21
B-IF+_N-IF+
TUN-P10
IT28
2T23
4n7
9T23
TUN-P9
TUN-P2
IT32
+5V-TUN-PIN
9T20
9T22
RF-AGC
TUN-P3
2T27
RES
IT14
2T26
18p
4n7
3T15
TUN-SCL
TUN-P6
9T41
TUN-P5
TUN-P4
47R
3T98
2T28
18p
2T29
4n7
3T16
+5V-TUN
TUN-SDA
TUN-P7
10K
47R
RES
3T17
IF-AGC
+3V3A
IF 1T11 IS USED THEN 2T25 AND 9T11 ARE ALSO STUFFED
6K8
1T21
HD1816AF/BHXP
TUNER
RF-IN
14
MT
13
15
M1T2
IT34
2T19
B-IF-_N-IF-
PDP
10n
TUN-P1
TUN-P2
TUN-P3
TUN-P4
TUN-P5
TUN-P11
TUN-P10
TUN-P9
TUN-P8
TUN-P7
TUN-P6
IT15
9T25
RF-AGC
TUN-P2
9T45
9T29
PDN
TUN-P8
2T20
10n
J
J
B-IF+_N-IF+
PDN
IT04 B5
IT05 B1
IT08 C1
IT09 B5
IT0D B7
IT10 B5
IT11 B7
IT12 B7
IT13 B7
9T27
TUN-P3
ANTENNA-SUPPLY
IT36
FT18
9T30
IF-AGC
TUN-P9
+5V-TUN
IF 1T21 IS USED THEN 2T23,2T25,3T14, 3T15, 9T13, 9T11 AND 9T21 ARE ALSO STUFFED
K
L
K
L
IT14 E5
IT15 F5
IT16 B9
RF-AGC
FT21
IT17 B11
IT19 C10
IT20 C11
IT21 C12
IT22 C13
IT23 C11
IT24 C12
IT25 C13
IT26 D10
IT28 D7
IT30 D9
IT32 D11
IT34 F11
IT36 G11
M
N
M
N
O
P
1
2
3
4
5
6
7
8
9
10
11
12
13
14
O
P
CHN
SETNAME
CLASS_NO
2
2008-11-21
FRONT-END
8204 000 8929
TV543 R2 LDIPNX
2008-10-10
3
NAME Randal De Keyzer
CHECK
SUPERS.
3
130
1
A2
DATE
2008-06-03
C
ROYAL PHILIPS ELECTRONICS N.V. 2008
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_503_090302.eps
090302
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 89
SSB: Demodulator
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1T50 A5
2T24 G5
2T50 A4
2T51 A4
2T52 A4
2T53 B3
2T54 B4
2T55 B3
2T56 B4
2T57 B3
2T58 B4
2T59 B3
2T60 C8
2T61 E10
2T62 D12
2T63 D9
2T64 F6
2T65 G6
2T66 G6
2T67 G7
2T68 G7
2T69 G7
2T70 G7
2T71 G8
2T72 G8
2T73 H6
2T74 H7
2T75 H6
2T76 H7
2T77 I6
AT50 A4
AT51 B4
FT20 E6
FT24 C5
FT25 C3
FT50 B8
FT51 C3
FT52 C3
FT53 C3
FT54 C3
FT55 F7
FT56 G8
FT57 G6
FT58 H7
FT59 I7
FT60 C10
FT61 D11
FT62 E11
FT63 I6
IT50 A5
IT51 A5
IT53 B5
IT55 B4
IT56 B3
IT57 B4
IT58 B10
IT59 B9
IT60 B4
IT61 B3
IT62 B9
IT63 B9
IT65 C3
IT66 C4
IT67 C4
IT68 C3
IT69 C8
IT70 C9
IT73 C9
IT75 D9
IT76 D8
IT77 D9
IT79 D3
IT80 E9
IT81 E10
IT83 E9
IT84 E2
IT85 E3
IT86 F6
IT88 F6
IT89 F3
IT90 F3
IT91 F4
IT93 G2
IT94 G3
IT95 G3
IT96 E11
IT97 E11
IT98 E5
1
2
3
4
5
6
7
8
9
10
11
12
13
A
B
C
A
B
C
DEMODULATOR
IT50
2T50
12p
+3V3E
+1V2A
A
B
C
D
E
F
G
H
I
A
B
C
D
E
F
G
H
I
+3V3A
+3V3D
+3V3
+1V2
+3V3
2T51
12p
IT51
AT50
AT51
7T50
2T52
3T50
220R
DRX3926K-XK-A2
IF+
3T51
10K
VDDH
VDDL
100p
2T54
IT53
49
50
IT55
RES
XI
3T52
5
6
IF-
FE-SOP
MSTRT
MERR
MCLK
MVAL
0
220R
3T53
FT50
100p
XO
9
FE-CLK
FE-VALID
FE-DATA0
FE-DATA1
FE-DATA2
FE-DATA3
FE-DATA4
FE-DATA5
FE-DATA6
FE-DATA7
IT56
IT61
IT57
Φ
2T55
10n
40
39
10
11
12
13
14
19
20
21
22
PDP
DEMODULATOR
2T56
560R
IT58
100n
1
IT59
47
48
IT60
2T57
10n
P
N
2
3T55
560R
PD
PDN
3
4
2T58
RES
100n
MD
D
E
D
E
32
31
IT62
RESET-SYSTEM
RSTN
5
6
7
IT63
SAW_SW
IT65
IT66
+3V3
+3V3
3T57
23
24
33
34
SCL-SSB
SDA-SSB
SCL-SSB
SDA-SSB
RF-AGC
IF-AGC
SCL1
I2C
RF_AGC
IF_AGC
2T78 I6
IT67
3T59
100R
3T58
SDA1
2T79 I6
IT68
IT69
100R
FT24
3T60
IT70
9T15 RES
9T16 RES
9T70
9T71
4K7
62
61
44
43
2T60
100n
TUN-SCL
TUN-SDA
TUN-SCL
TUN-SDA
2T80 I7
SCL2
I2C
SIF
+5V-TUN-CVBS
2T81 I7
18K
SDA2
3T61
FT25
CVBS
2T82 I7
FT51
4K7
59
60
57
58
4
JTAG-TCK-DRXK
JTAG-TDI-DRXK
TCK
TDI
IT73
2T83 E4
2T84 E3
2T85 E2
3T50 A2
3T51 A10
3T52 B2
3T53 B2
3T54 B3
3T55 B2
3T56 D11
3T57 C3
3T58 C4
3T59 C4
3T60 C9
3T61 C4
3T62 C9
3T63 C9
3T64 C9
3T65 C9
3T66-1 D4
3T66-2 D4
3T66-3 D3
3T66-4 D4
3T67 D4
3T68 E2
3T69 E3
3T70 D9
3T71 D9
3T72 E9
3T73 E11
3T74 E12
3T75 E9
3T76 E9
3T77 E9
3T78 E11
3T79 E12
3T80 A9
3T81 A9
3T82 A9
3T83 E3
3T84 F3
3T86 F3
3T87 F3
3T88 F5
3T89 F3
3T90 F3
3T91 F5
3T92 G3
3T93 G3
3T94 H3
3T95 E9
5T50 B3
5T51 G7
5T52 G6
5T53 H6
5T54 I7
FT52
FT53
FT54
64
63
1
DA
I2S CL
WS
7T51-2
5
BC847BPN(COL)
RES
JTAG-TDO-DRXK
JTAG-TMS-DRXK
TDO
TMS
3T63
10K
7T51-1
BC847BPN(COL)
3
RES
4
30
29
GPIO1
GPIO2
VSYNC
FT60
3T64
150R
3T65
IF-P
150R
IT75
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
F
G
H
I
F
G
H
I
RESERVED
+3V3 +3V3 +3V3 +3V3
+3V3
ANTENNA-CTRL
3T70
100R
3T67
4K7
FT61
3T56
68R
CVBS4
VIA
VIA
+5V-TUN-CVBS
ANTENNA-SUPPLY
IT79
IT76
IT77
2T63
22u
3T71
18K
+5V-TUN
1
IT96
3T73
100R
4
7T53-1
RES
IT80
5
6
2
5
7T52-2
BC857BS(COL)
6
BC847BPN(COL)
3T75
10K
2
7T52-1
BC847BPN(COL)
3
IT98
VSSH
VSSL
1
+5V-TUN-CVBS
FT62
3T76
150R
3T77
+5V-TUN
IT81
9T63
CVBS-TER-OUT
FT20
IT84
IT83
180R
3T95
3T68
4K7
1
4
7T56
IT97
+12V
3T78
100R
BCP56
7T53-2
RES
3T69
2R2
2K2
BC857BS(COL)
3
IT85
9T64
9T62
6T51
3T84
FT55
IT86
+5V-TUN-CVBS
2R2
+1V2-PNX85XX
+3V3
BAS316
7T54
+12V
RESERVED
LD1117DT12
IT88
3
2
7T55-1
+1V2
IN OUT
COM
3
2
LM393PT
1
IT89
IT90
3T88
10K
IT91
RES
FT56
5T51
600R
J
J
+1V2
+1V2A
+12V
7T55-2
IT93
IT94
IT95
3T92
10K
LM393PT
5
6
ANTENNA-CTRL
7
3T93
2K7
FT57
+3V3
5T52
K
L
K
L
+3V3E
+3V3D
+3V3
+3V3
+3V3
30R
RESERVED
5T55 I6
5T53
30R
FT58
6T50 E3
6T51 F2
7T50 A6
7T51-1 C9
7T51-2 C10
7T52-1 E9
7T52-2 E10
7T53-1 E11
7T53-2 E11
7T54 F7
7T55-1 F4
7T55-2 G4
7T56 E3
9T15 C1
9T16 C1
9T62 F6
9T63 E11
9T64 F6
9T70 C2
9T71 C2
FT59
5T54
600R
+3V3A
M
N
M
N
O
P
5T55
30R
FT63
+5V-TUN-CVBS
+5V-TUN
1
2
3
4
5
6
7
8
9
10
11
12
13
O
P
SETNAME
CLASS_NO
2
2008-11-21
FRONT-END
8204 000 8929
TV543 R2 LDIPNX
2008-10-10
3
NAME Randal De Keyzer
CHECK
SUPERS.
3
130
2
A2
DATE
2008-06-03
C
ROYAL PHILIPS ELECTRONICS N.V. 2008
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_504_090302.eps
090302
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 90
SSB: PNX8543 - Stand-by Controller
1
2
3
4
5
6
7
8
9
10
11
12
13
14
11
15
16
17
18
14
19
20
1HF0 A4
2H00 C3
2H01 E3
FHC7 I13
FHD0 E13
FHD1 F11
FHD2 D13
IH00 D10
IH01 D11
IH02 D3
IH03 D10
IH04 G4
IH06 D10
IH07 D10
IH08 H5
IH09 C13
IH14 F5
1
2
3
4
5
6
7
8
9
10
12
13
A
B
C
A
B
C
2H03 F6
2H10 D11
2H11 H7
2H12 H6
2HC0 H13
2HD0 F12
2HF0 A3
2HF1 B3
3H00 E2
PNX 8543 : STANDBY CONTROLLER
A
B
C
D
E
F
G
H
I
A
B
C
D
E
F
G
H
I
3H01 E2
3H02 B11
3H03 B11
3H04 B11
3H05 B11
3H06 C11
3H07 C11
3H08 C11
3H10 B2
3H12 C12
3H13 B1
3H14 B2
3H15 B1
3H16 B2
3H17 B1
3H19 B2
3H20 C1
3H21 C2
3H22 C13
3H23 C1
3H24 C2
3H25 C13
3H26 C1
3H27 C2
3H28 C1
3H30 D2
3H31 D1
3H32 B11
3H36 D2
3H39 C2
3H41 H6
3H42 C1
3H43 H7
3H44 I4
IH15 C10
IH16 F5
7H00-6
PNX85439EH/M2/24182
IH17 G5
IH18 I4
STANDBY
W1
W2
W3
I
XTAL
IH19 F4
AJ1
AK3
AK1
AJ4
SPI-CLK
O
CLK
CSB
SDI
IH20 F7
SPI-CSB
SPI-SDI
SPI-SDO
3H32
10K
IH21 I12
IH26 H4
IH32 C10
IH33 H7
IH34 G8
IH35 H7
IH36 H7
IH37 C10
IH91 H4
IH92 F9
SPI
MC
SPI-SDI
+3V3-STANDBY
VSS_XTAL
RES
SDO
3H10
IHW1
IHW2
AC2
AC1
AB3
AB2
AB1
AD2
AD1
AC5
BOLT-ON-TS-ENn
RESET-NVM
BOLT-ON-TS-ENn
RESET-NVM
0
1
2
3H02 RES
3H13
3H65
100R
100R
100R
10K
IHW3
AL5
AK5
SCL-UP-MIPS
SDA-UP-MIPS
SCL-UP-MIPS
SCL
SDA
3H14 RES
3H66
10K
RES
IHW4
IHW9
SDA-UP-MIPS
4K7
3H03 RES
3H05
RESET-PNX5100
RESET-ETHERNET
UART-SWITCH
WP-NANDFLASH
RESET-AUDIO
AUDIO-MUTE
2H00
RESET-PNX5100
RESET-ETHERNET
UART-SWITCH
WP-NANDFLASH
RESET-AUDIO
AUDIO-MUTE
+3V3-STANDBY
3H15
3H17
10K
IHW5
3
4
4K7
10K
RES
3H04
10K
LED1
LED2
3H16
3H67
100R
P0
AJ3
AJ2
10K
LED1
LED2
0
1
3H68
RES
10K
10K
IHW6
PWM
5
6
7
D
E
D
E
3H19
4K7
3H20
3H42
IHWA
IH15
IH32
IH37
3H69
100R
3H06
10K
AE2
AE3
AF4
AF3
10K
PSEN
ALE
PSEN
ALE
FHC3
PSEN
ALE
3H39
10K
1n0
AF2
AF1
AG4
AG3
AG2
RC-UP
RC-UP
+3V3-STANDBY
0
1
2
3
7
3H54
100R
3H07
10K
IHC1 H12
IHC2 G12
IHD0 F12
IHW1 B4
IHW2 B4
IHW3 B4
IHW4 B4
IHW5 B5
IHW6 B4
IHW9 B4
IHWA C5
IHWB C4
IHWC C4
IHWD C4
IHWF C5
IHWG C4
IHWH C4
IHWM D4
IHWN D5
RES
10K
10K
REGIMBEAU_CVBS-SWITCH
CEC-HDMI
SUPPLY-FAULT
REGIMBEAU_CVBS-SWITCH
CEC-HDMI
SUPPLY-FAULT
SDM
+3V3-PER +3V3-PER
+5V
3H46
P1
P2
3H56
100R
3H08
10K
3H48
10K
27K
EA
EA
EA
3H51
3H21
SDM
RESET-STBY
RESET_IN
RES
IHWB
AC4
AC3
AE1
AD5
AD4
AD3
AE5
AE4
MHP-SWITCH
EJTAG-DETECT
LAMP-ON
MHP-SWITCH
EJTAG-DETECT
LAMP-ON
0
1
2
3
4
5
6
7
3H23
10K
3H24 RES
IHWC
IHWD
IHWF
IHWG
IHWH
IHWM
IHWN
+3V3-STANDBY
+3V3-STANDBY
10K
3H26
3H28
10K
3H27
10K
3H30
10K
STANDBY
STANDBY
IH09
7H03
RES
10K
DETECT1
DETECT1
RES
10K
DETECT2
DETECT2
BC847BW
POWER-OK
ENABLE-3V3
POWER-OK
ENABLE-3V3
3H31
10K
3H58
AG1
AH5
AH4
AH3
AH2
AH1
RXD-UP
TXD-UP
RXD-UP
TXD-UP
+3V3-STANDBY
0
1
2
3
4
5
UA_RX
UA_TX
FHD2
3H60
10K
10K
F
G
H
I
F
G
H
I
9H05
RES
BOLT-ON-IO
LAMP-ON
LAMP-ON-OUT
7H02
3H36 RES
10K
P3
M25P05-AVMN6
BOLT-ON-IO
IH02
VCC
IH00
IH01
5
6
1
3
7
2
3H46 C2
3H48 C1
3H51 C2
3H52 I13
3H53 I13
3H54 C7
3H56 C7
3H58 D2
3H60 D1
3H64 D2
3H65 B7
3H66 B7
3H67 B7
3H68 B7
3H69 C7
3H70 E2
3H72 G7
3H78-1 E6
3H78-2 E5
3H78-3 H4
3H78-4 H4
3H86-1 F4
3H86-2 F4
3H86-3 F3
3H86-4 F2
3H87-1 I2
3H87-2 I3
3H87-3 I3
3H87-4 I4
3H92-1 G4
3H92-2 G4
3H92-3 G3
3H92-4 H3
3HC2-1 H12
3HC2-2 G12
3HC2-3 H12
3HC2-4 H13
3HD4 E13
6H10 H7
6HW2 F5
7H00-6 A5
7H02 D10
7H03 C13
7H11 H8
7H14 F6
SPI-SDO
SPI-CLK
SPI-CSB
SPI-WP
SPI-SDI
Φ
D
C
S
Q
IH03
IH06
IH07
512K
3H64 RES
10K
RESET-SYSTEM
AN3
AN2
AP2
AP1
RESET-SYSTEM
AV2-BLK
0
1
2
3
FLASH
CADC
P6
AV1-BLK
KEYBOARD
LIGHT-SENSOR
AV1-STATUS
AV2-STATUS
3H70
100K
KEYBOARD
2H01
W
AK2
AK4
4
5
HOLD
VSS
100n
3H00
SPI-PROG
SPI-PROG
SPI-WP
+3V3-STANDBY
3H01
10K
SPI-WP
10K
+3V3-STANDBY
+3V3-STANDBY
+3V3-STANDBY
9H25
9H26
9H27
RC
RC-UP
RC
RC-OUT
RC-UP
RC-IN
*
*
HOTEL TV
*
FHD0
RESET-STBY
7HD0
NCP303LSN30
2
IHD0
5
IH92
FHD1
1
INP
CD
IH20
3
1
DETECT1
DETECT2
OUTP
IH14
7H14
6
1
NC GND
PDTC114EU
+3V3
IH19
3H86-4
3H86-3
6
3H86-2
4
5
3
2
7
2
2
7H16-1
BC847BS(COL)
1
10K
10K
10K
IH16
2H03
1u0
3
+1V2-PNX85XX
IH04
3H92-3
3
J
J
6
5
7H16-2
BC847BS(COL)
10K
4
RES
+3V3-STANDBY
+3V3-PER
IH17
IHC2
IH34
9H13
K
L
K
L
RES
FH09
1
6
7H11
RESET-NVM
FHC6
3HC2-1
10K
NCP303LSN30
2
8
BC857BW
7HC4
+1V2-PNX5100
IH26
IH33
BAS316
3H92-4
4
3H41
10K
IH36
5
2
7H93-1
DETECT-12V
INP
CD
BC847BS(COL)
1
10K
6H10
IH35
5
OUTP
1
2HC0
RES
NC GND
7H16-1 F5
7H16-2 G5
7H93-1 H5
7H93-2 I5
7HC3 H12
7HC4 H12
7HD0 E12
9H05 D13
9H13 G8
9H14 E11
9H15 F11
9H25 E3
IHC1
+3V3-PER
100n
7HC3
M24C64
IH91
IH08
Φ
(8Kx8)
7
6
5
WC
EEPROM
FHC1
FHC2
3H52
100R
1
2
3
SCL-UP-MIPS
SDA-UP-MIPS
IH21
0
1
2
SCL
7H93-2
ADR
3H53
100R
BC847BS(COL)
3
SDA
+5V
3H87-1
10K
10K
10K
3H87-3
10K
3H87-4
IH18
1
8
5
M
N
M
N
O
P
7
2
3
6
5
4
3H87-2
4
FHC7
9H26 E3
9H27 E3
9H28 H13
FH09 H12
FHC1 H13
FHC2 I14
FHC3 C5
FHC6 H11
MAIN NVM
1
2
3
4
5
6
7
8
9
10
11
12
13
14
1X03
EMC HOLE
O
P
CHN
SETNAME
CLASS_NO
2
2008-11-21
STANDBY CONTROLLER
PNX8543 TV543 R2 LDIPNX
8204 000 8927
2008-10-10
NAME Randal De Keyzer
CHECK
3
SUPERS.
DATE
16
130
1
A2
2007-11-29
C
ROYAL PHILIPS ELECTRONICS N.V. 2005
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_505_090302.eps
090302
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 91
SSB: PNX8543 - Debug
Personal Notes:
1
2
3
4
5
6
A
B
C
D
E
F
G
H
I
A
1H11 C2 2H06 C3 2H07 D3 3HF3 A3 6HF0 B3 7HF2 B3 FH00 C2 FH01 D2 FH08 D3 IH93 C2
IH94 C3
IH95 D2
B
C
D
E
F
G
H
I
1
2
3
4
PNX8543 : DEBUG
+3V3-PER
A
B
C
D
A
B
C
D
7HF2
RESET-SYSTEM
PDTC114EU
IH93
FH00
2H06 RES
100p
SPI-PROG
TSTPOINT
FOR DEBUG
SPI-PROG
IH94
GND TSTPOINT
FOR DEBUG
IH95
2H07 RES
100p
FH01
SDM
TSTPOINT
FOR DEBUG
SDM
FH08
1
2
3
4
CHN
SETNAME
CLASS_NO
2
2008-11-21
DEBUG STBY CTRL
J
8204 000 8927
J
PNX8543 TV543 R2 LDIPNX
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
DATE
16
130
2
A4
2007-11-29
C
ROYAL PHILIPS ELECTRONICS N.V. 2005
10000_012_090121.eps
1
2
3
4
5
6
090121
18310_506_090302.eps
090302
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 92
SSB: PNX8543 - Control
1
2
3
4
5
6
8
9
10
11
12
13
7
3H09 C6
1
2
3
4
5
6
7
8
9
3H11 C1
3H33 C6
3H37 D4
3H38 D5
3H45 D4
3H49 E4
3H50 E4
3HF9 A3
3HFY C1
3HP2 C4
3HP3 B1
3HP4 B1
3HP6 B1
3HP8 C1
3HPA C1
3HPB C1
3HPC C1
3HPD E2
3HPE E2
3HPF E2
3HPG E2
3HPH E2
3HPJ F2
3HPK E4
3HPL C1
3HPM F4
3HPP D1
3HPR D1
3HPS F2
3HPT F4
3HPU F2
3HPV F4
3HPW B3
7H00-8 B3
9H17 D3
FH03 C5
FH04 E4
FH05 F4
FH11 F4
FH12 F4
IH12 C1
IHF4 B3
IHF6 C3
IHF7 C3
IHF8 C3
IHF9 C3
IHFA C3
IHFB B3
IHS8 C1
A
A
B
C
D
E
F
G
H
I
PNX8543 : CONTROL
+3V3-PER
A
A
B
C
D
E
F
B
7H00-8
PNX85439EH/M2/24182
CONTROL
IHF4
IHFB
AP27
F33
H33
SCL1
SDA1
BL_PWM
SCL 1
B
C
SDA 1
AN28
RESET-SYSTEM
RESET_SYS
D32
B33
SCL2
SDA2
+3V3-PER
10K
SCL 2
SDA 2
3HP3
3HP4
3HP6
3HPA
3HPB
AN4
AP3
AP4
AM4
AL4
EJTAG-TCK
EJTAG-TDI
EJTAG-TDO
EJTAG-TMS
EJTAG-TRSTN
EJTAG-TCK
EJTAG-TDI
EJTAG-TDO
TCK
TDI
TDO
TMS
10K
10K
10K
10K
3HPW
EJTAG
33R
D33
G32
EJTAG-TMS
SCL3
SDA3
SCL 3
SDA 3
EJTAG-TRSTN
TRSTN
IHS8
10K
3HFY
U2
U3
U4
L34
L32
L31
V2
BOOTMODE
BOOTMODE
WC-EEPROM-PNX5100
IRQ-PCI
USB20-DM
USB20-DP
GPIO_0
GPIO_1
GPIO_2
GPIO_3
GPIO_4
GPIO_5
GPIO_6
GPIO_7
GPIO_8
GPIO_9
IH12
10K
3H11
3HP8
3HPC
3HPL
D
IRQ-PCI
IHF7
10K
IRQ-CA
RXD-MIPS
TXD-MIPS
IRQ-CA
+3V3-PER
10K
AN16
AP16
AL16
AK16
AM16
RXD-MIPS
USB20-DM
USB20-DP
USB-OC
DM
DP
C
10K
TXD-MIPS
IHF6
USB
FAULT
PWR_EN
RREF
IHF8
IHF9
IHFA
V3
FH03
3HP2
12K 1%
1K5
V4
V5
+3V3-PER
10K
3HPP
3HPR
AK27
AL27
TXD-MIPS2
RXD-MIPS2
TXD-MIPS2
RXD-MIPS2
UA2_TX
UA2_RX
10K
AM17 3H37
AP17
AN17 3H45
+3V3-PER
+3V3-PER
USB_RPU
USB_ID
USB_VBUS
E
3H38
10K
10K
9H17
RES
AP29
PCI-CLK-OUT
CLK_27_OUT
D
F
3HPD
3H49
4K7
SCL1
SDA1
SCL2
SDA2
SCL3
SDA3
SCL-UP-MIPS
SDA-UP-MIPS
SCL-UP-MIPS
SDA-UP-MIPS
SCL-SSB
SCL-UP-MIPS
SDA-UP-MIPS
+3V3-PER
100R
3HPE
100R
3H50
4K7
E
3HPF RES
100R
G
RES 3HPG
100R
FH04
3HPH
100R
3HPK
SCL-SSB
SDA-SSB
+3V3-PER
+3V3-PER
1K5
FH05
3HPJ
100R
3HPM
1K5
SDA-SSB
FH11
FH12
3HPS
100R
3HPT
4K7
SCL2
SDA2
SCL-SET
SDA-SET
SCL-SET
SDA-SET
3HPU
100R
3HPV
4K7
H
F
1
2
3
4
5
6
7
8
9
I
CHN
SETNAME
CLASS_NO
2
2008-11-21
MIPS , I2C & EJTAG
J
J
8204 000 8927
PNX8543 TV543 R2 LDIPNX
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
DATE
16
130
5
A3
2007-11-29
C
ROYAL PHILIPS ELECTRONICS N.V. 2005
7
1
2
3
4
5
6
8
9
10
11
12
13
18310_507_090302.eps
090302
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 93
SSB: PNX8543 - Control
1
2
3
4
5
6
8
9
10
11
12
13
7
A
B
A
B
C
D
E
F
G
H
I
2HF5 D7
2HF6 D7
2HF7 D7
3HES-1 C5
3HES-2 B5
3HES-3 C5
3HES-4 C5
3HEU B3
3HF2 E2
3HF4 E2
3HF5 C3
3HFD-1 A6
3HFD-2 A5
3HFD-3 A6
3HFD-4 A5
3HFE-1 A6
3HFE-2 A6
3HFE-3 A6
3HFG D2
3HFH E2
3HFK E7
3HFM E7
3HFN E7
3HFP E7
3HFR E5
7H00-3 A2
7HF1 D6
9HF4 C6
9HF5 C6
9HF6 B6
9HF7 B6
9HG3 C3
IH30 B4
1
2
3
4
5
6
7
8
PNX 8543 : CONTROL
3HFD-4
5
4
PCI-DEVSEL
PCI-FRAME
PCI-IRDY
PCI-TRDY
PCI-STOP
PCI-PERR
PCI-SERR
A
A
B
C
D
E
4K7
3HFD-1
2
8
1
4K7
3
3HFD-2
7
4K7
7
7H00-3
+3V3-PER
6
PNX85439EH/M2/24182
3HFD-3
C
2
3
4K7
3HFE-2
3HFE-3
PCI
A29
B29
C29
D29
A28
B28
C28
D28
E28
A27
B27
C27
D27
E27
A26
B26
E24
D24
C24
B24
A24
E23
D23
C23
B23
A23
E22
D22
C22
B22
A22
E21
D21
C21
B21
A21
4K7
4K7
6
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
PCI-CBE0
PCI-CBE1
PCI-CBE2
PCI-CBE3
0
0
1
2
3
3HFE-1 8
1
4K7
1
PCI_CBE
2
3
4
A30
A25
C26
B30
C30
D26
E25
C25
D25
B25
E26
PCI-CLK-PNX8535
PCI-DEVSEL
5
CLK
DEVSEL
FRAME
IDSEL
6
PCI-FRAME
7
3HEU
100R
PCI-AD24
8
IH30
D
B
9
INTA_OUT
IRDY
PCI-IRDY
PCI-PAR
PCI-PERR
PCI-SERR
PCI-STOP
PCI-TRDY
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
PAR
TRDY
9HF6
PCI-REQ-ETH
PCI-GNT-ETH
PCI-REQ-MINI
PCI-GNT-MINI
PERR
2
4K7
7 3HES-2
+3V3-PER
SERR
STOP
9HF7
TRDY
3HES-3
3HES-1
3HES-4
PCI_AD
3
4K7
6
8
5
+3V3-PER
D30
E30
PCI-REQ
PCI-GNT
PCI-REQ
PCI-GNT
REQ
GNT
9HF4
1
4K7
+3V3-PER
E
PCI-REQ-B
PCI-GNT-B
IHF0 E2
E31
E29
PCI-REQ-B
PCI-GNT-B
REQ_B
GNT_B
9HF5
IHF1 C3
4
4K7
IHF2 C3
+3V3-PER
IHS7
9HG3
AP28
PCI-CLK-OUT
XIO-ACK
PLL_OUT
C
IHF3 D3
IHF5 E2
A20
B19
XIO_ACK
XIO_AD25
IHS7 C3
3HF5
B20
XIO-SEL-NAND
0
C20 IHF1
D20 IHF2
E20 IHF3
100R
1
XIO_SEL
2
F
3
RESERVED
+3V3-PER
2HF5
10n
2HF6
D
7HF1
CY2305S
100n
G
VDD
3HFG
Φ
PCI-CLK-OUT
PCI-CLK-ETHERNET
PCI-CLK-PNX5100
2HF7
10p
ZERO
DELAY
BUFFER
3
2
5
7
8
10R
1
2
3
4
3HFK
33R
PCI-CLK-PNX8535
3HFH
3HFR
33R
1
PCI-CLK-OUT
IHF0
REF
CLK
3HFP
PCI-CLK-ETHERNET
IHF5
10R
33R
3HF2
PCI-CLK-PNX8535
PCI-CLK-MINI
10R
E
H
CLKOUT
3HF4
3HFM
33R
*
GND
PCI-CLK-PNX5100
PCI-CLK-MINI
10R
3HFN
33R
I
1
2
3
4
5
6
7
8
CHN
SETNAME
CLASS_NO
2
2008-11-21
CONTROL
PNX8543 TV543 R2 LDIPNX
J
J
8204 000 8927
2008-10-03
2
NAME Maelegheer Ingrid
CHECK
SUPERS.
DATE
16
130
6
A3
2007-11-29
C
ROYAL PHILIPS ELECTRONICS N.V. 2005
7
1
2
3
4
5
6
8
9
10
11
12
13
18310_508_090302.eps
090302
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 94
SSB: PNX8543 - SDRAM
1
2
3
4
5
6
7
8
9
10
11
12
13
10
14
11
15
16
17
18
14
19
20
2HG0 E3
2HG1 E3
2HG2 E3
2HG3 E3
2HG4 E3
2HG5 E4
2HG6 E4
2HG7 E4
2HG8 E4
2HG9 E6
2HGA E7
2HGB E7
2HGC E7
2HGD E7
2HGE E7
2HGF E8
2HGG E8
2HGH E9
2HGJ E9
2HGK E9
2HGM E9
2HGN E10
2HGP E10
2HGR E10
2HGS E10
2HGT E10
2HGU E12
2HGV E13
2HGW E13
2HGY E13
2HGZ E13
2HH0 E13
2HH1 E14
2HH2 E14
2HH3 H13
2HH4 C8
2HH5 C8
2HHA H7
2HHB A11
2HHK E6
2HHM E6
2HHN E11
2HHP E12
3HGP F7
3HGR F7
3HGS F8
3HGT G7
3HGU G8
3HGV G7
3HGW G8
3HGY G7
3HGZ G8
3HH0 G7
3HH1 G8
3HH2 G7
3HH3 G8
3HH4 G7
3HH5 G8
3HH6 G7
3HH7 H3
3HH8 H4
3HH9 H3
3HHA H4
3HHB F13
3HHC F13
3HHD G14
3HHE F13
3HHF G13
3HHG G13
3HHH G14
3HHJ G13
3HHK G14
3HHM G13
3HHN G14
3HHP G13
3HHR G14
3HHS G13
3HHT G14
3HHU G13
3HHV H10
3HHW H10
3HHY H9
3HHZ H10
3HJ0 C1
1
2
3
4
5
6
7
8
9
12
13
A
B
C
A
B
C
PNX 8543 : SDRAM
7H00-2
PNX85439EH/M2/24182
MEMORY
AA34
AE33
AA33
AD31
Y34
AD32
W33
AC32
W34
Y31
AH34
DDR2-A0
DDR2-A1
DDR2-A2
DDR2-A3
DDR2-A4
DDR2-A5
DDR2-A6
DDR2-A7
DDR2-A8
DDR2-A9
DDR2-A10
DDR2-A11
DDR2-A12
DDR2-D0
0
1
2
3
4
0
1
+1V8-PNX85XX
+1V8-PNX85XX
AK33
AH33
AL34
AL33
AE34
AK34
AF34
AG32
AK31
AJ32
AL32
AL31
AF31
AK32
AF32
P34
DDR2-D1
DDR2-D3
2
DDR2-D2
3
4
A
A
DDR2-D6
DDR2-D5
5
5
M_A
DDR2-D4
6
6
DDR2-D7
7
7
DDR2-D8
8
8
DDR2-D9
9
9
AD34
V33
Y32
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
FH07
FH06
10
11
12
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
DDR2-VREF-CTRL
DDR2-VREF-DDR
AC34
AD33
AA32
DDR2-BA0
DDR2-BA1
DDR2-BA2
0
1
2
M_BA
M_DQ
T34
W32
R33
DDR2-CAS
DDR2-CKE
M_CASB
M_CKE
U34
B
C
D
E
F
G
H
I
B
C
D
E
F
G
H
I
AE31
V34
M33
T33
DDR2-CLK_N
DDR2-CLK_P
AB33
AB34
N
D
E
D
E
M_CLK
P
M34
P31
W31
T32
DDR2-CS
M_CSB
P32
DDR2-CLK_P
DDR2-DQM0
AJ34
AJ31
R34
U31
0
3HJ0
DDR2-CLK_N
U32
DDR2-DQM1
DDR2-DQM2
DDR2-DQM3
1
M_DQM
M31
R32
220R
2
R31
3
M32
DDR2-DQS0_N
DDR2-DQS0_P
AG33
+1V8-PNX85XX
N
3HJ5
IHG0
AG34 M_DQS0
P
AA31
V31
IREF
ODT
5K6
3HJY
DDR2-DQS1_N
DDR2-DQS1_P
AH31
AH32
N
2HH4
M_DQS1
M_DQS2
M_DQS3
P
V32
820R
M
RASB
VREF
WEB
100n
N34
N33
DDR2-DQS2_N
DDR2-DQS2_P
N
P
DDR2-VREF-CTRL
AB32
AE32
2HH5
100n
DDR2-DQS3_N
DDR2-DQS3_P
N31
N32
N
P
DDR2-ODT
DDR2-RAS
DDR2-WE
F
G
H
I
F
G
H
I
+1V8-PNX85XX
+1V8-PNX85XX
7HG1
7HG0
VDD
VDDQ
VDD
VDDQ
K9
K2
K3
L8
K7
L7
K9
K2
K3
L8
K7
L7
DDR2-ODT
DDR2-CKE
DDR2-WE
DDR2-CS
DDR2-RAS
DDR2-CAS
DDR2-ODT
DDR2-CKE
DDR2-WE
DDR2-CS
DDR2-RAS
DDR2-CAS
ODT
CKE
WE
ODT
CKE
WE
CS
RAS
CAS
A2
E2
R3
R7
R8
A2
E2
R3
R7
R8
Φ
SDRAM
SDΦRAM
CS
NC
NC
RAS
CAS
L2
L3
L1
L2
L3
L1
DDR2-BA0
DDR2-BA1
DDR2-BA2
DDR2-BA0
DDR2-BA1
DDR2-BA2
0
1
2
0
1
2
3HGP
3HHB
G8
G2
H7
H3
H1
H9
F1
F9
C8
C2
D7
D3
D1
D9
B1
B9
G8
G2
H7
H3
H1
H9
F1
F9
C8
C2
D7
D3
D1
D9
B1
B9
DDR2-D0
DDR2-D1
DDR2-D3
DDR2-D2
DDR2-D4
DDR2-D5
DDR2-D6
DDR2-D7
DDR2-D8
DDR2-D9
DDR2-D10
DDR2-D11
DDR2-D12
DDR2-D13
DDR2-D14
DDR2-D15
DDR2-D16
BA
0
1
BA
0
3HGR
3HGT
33R
3HHC
3HHE
33R
DDR2-D17
DDR2-D19
DDR2-D18
DDR2-D20
DDR2-D21
DDR2-D22
DDR2-D23
DDR2-D24
DDR2-D30
DDR2-D26
DDR2-D25
DDR2-D28
DDR2-D29
DDR2-D27
DDR2-D31
EDE1116AEBG-8E
1
2
33R
33R
33R
33R 33R
3HGS
33R
2
EDE1116AEBG-8E
M8
M3
M7
N2
N8
N3
N7
P2
P8
P3
M2
P7
R2
M8
M3
M7
N2
N8
N3
N7
P2
P8
P3
M2
P7
R2
3HHD
DDR2-A0
DDR2-A1
DDR2-A2
DDR2-A3
DDR2-A4
DDR2-A5
DDR2-A6
DDR2-A7
DDR2-A8
DDR2-A9
DDR2-A10
DDR2-A11
DDR2-A12
DDR2-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
0
3
0
3
J
J
3HGU
1
4
1
4
33R
3HGW
33R
3HHF
33R
33R
3HHH
33R
3HHK
33R
3HHN
33R
3HHR
33R
3HGV
3HGY
3HHG
3HHJ
3HHM
3HHP
3HHS
3HHU
2
5
2
5
33R
33R
3
6
3
6
4
7
4
7
DQ
3HGZ
33R
3HH1
33R
3HH3
33R
3HH5
33R
DQ
33R
33R
33R
33R
5
8
5
8
3HH0
6
A
9
6
A
9
33R
7
8
10
11
12
13
14
15
7
10
11
12
13
14
15
3HH2
3HH4
3HH6
8
33R
33R
9
9
3HJ1 A11
3HJ2 B11
3HJ3 A13
3HJ4 B13
3HJ5 C8
3HJY C8
3HKM G3
3HKN G10
7H00-2 A7
7HG0 F5
7HG1 F11
FH06 A12
FH07 A11
IHG0 C7
10
11
12
10
11
12
K
L
K
L
3HHT
33R
3HKN
RES
220R
3HKM
RES
33R
33R
DDR2-CLK_P
DDR2-CLK_N
220R
J8
K8
B3
F3
J8
K8
B3
DDR2-DQM1
DDR2-DQM0
DDR2-CLK_P
DDR2-CLK_N
DDR2-DQM3
DDR2-DQM2
UDM
LDM
UDM
LDM
CK
CK
F3
F7
E8
3HH9
33R
J2
3HHY
33R
F7
E8
J2
DDR2-DQS0_P
DDR2-DQS0_N
DDR2-DQS2_P
DDR2-DQS2_N
VREF
DDR2-VREF-DDR
VREF
DDR2-VREF-DDR
3HHA
3HH8
LDQS
UDQS
2HHA
100n
3HHZ
33R
LDQS
UDQS
2HH3
100n
33R
3HH7
33R
B7
A8
3HHV
33R
B7
A8
DDR2-DQS1_P
DDR2-DQS1_N
DDR2-DQS3_P
DDR2-DQS3_N
3HHW
33R
33R
VSS
VSSQ
VSS
VSSQ
M
N
M
N
O
P
1
2
3
4
5
6
7
8
9
10
11
12
13
14
O
P
CHN
SETNAME
CLASS_NO
2
2008-11-21
DDR2 INTERFACE
PNX8543 TV543 R2 LDIPNX
8204 000 8927
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
DATE
16
130
7
A2
2007-11-29
C
ROYAL PHILIPS ELECTRONICS N.V. 2005
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_509_090302.eps
090302
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 95
SSB: PNX8543 - Digital Video In
1 2
3
4
5
6
8
9
10
11
12
13
7
3HK0 B2
1
2
3
4
5
6
7
7H00-4 A3
9HK0 D2
IHSM B2
TH01 C2
TH02 C2
TH03 C2
TH04 C2
TH05 C2
TH06 C2
TH07 D2
TH08 D2
TH09 B2
TH10 B2
TH11 B2
TH12 B2
TH13 B2
TH14 C2
TH15 C2
TH16 C2
A
B
C
D
E
F
G
H
I
A
B
C
D
E
F
G
H
I
PNX 8543 : DIGITAL VIDEO IN
A
B
C
D
E
A
B
C
D
E
7H00-4
PNX85439EH/M2/24182
HDMI_DV
C18
DDCA-SCL
DDCA-SDA
DDC_SCL_A
E19
DDC_SDA_A
C15
DDC-SCL
DDC-SDA
DDC_SCL_B
D15
DDC_SDA_B
RREF-PNX85XX
3HK0
12K
IHSM
C16
B8
C9
D9
HDMI_RREF
CLK
DV FID
HS
TH09
TH11
TH13
TH15
TH01
TH03
TH05
TH07
B18
B17
HDMIA-RX0-
HDMIA-RX0+
P
N
HDMI_RX0_A
TH10
TH12
TH14
TH16
TH02
TH04
TH06
TH08
B6
A6
E7
D7
C7
B7
A7
E8
D8
C8
0
1
2
3
4
5
6
7
8
9
A17
A16
HDMIA-RX1-
HDMIA-RX1+
P
N
HDMI_RX1_A
B16
B15
HDMIA-RX2-
HDMIA-RX2+
P
N
HDMI_RX2_A
DV_UVIN
A19
A18
HDMIA-RXC-
HDMIA-RXC+
P
N
HDMI_RXC_A
B14
B13
HDMIB-RX0-
HDMIB-RX0+
P
N
HDMI_RX0_B
A8
E9
DV_VALID
DV_VS
A13
A12
HDMIB-RX1-
HDMIB-RX1+
P
N
HDMI_RX1_B
B4
A4
E5
D5
C5
B5
A5
E6
D6
C6
0
1
2
3
B12
B11
HDMIB-RX2-
HDMIB-RX2+
P
N
HDMI_RX2_B
4
DV_YIN
5
A15
A14
HDMIB-RXC-
HDMIB-RXC+
P
N
HDMI_RXC_B
6
7
8
9
9HK0
D19
E15
HOT-PLUG-A
HOT-PLUG
HOT_PLUG_A
HOT_PLUG_B
1
2
3
4
5
6
7
CHN
SETNAME
CLASS_NO
2
2008-11-21
VIDEO IN
PNX8543 TV543 R2 LDIPNX
J
J
8204 000 8927
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
DATE
16
130
8
A3
2007-11-29
C
ROYAL PHILIPS ELECTRONICS N.V. 2005
7
1
2
3
4
5
6
8
9
10
11
12
13
18310_510_090302.eps
090302
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 96
SSB: PNX8543 - Audio
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
A
B
C
A
B
C
2HM1 G5
2HM2 H5
2HM3 G4
2HM4 G5
2HM5 H5
2HM8 H4
2HMG B3
2HMJ A10
2HMP C10
2HMT E10
2HMW G10
2HMY H9
2HMZ I10
2HN1 F9
3HM0-1 C5
3HM0-2 B4
3HM0-3 C4
3HM0-4 D5
3HM1 D4
3HMA G6
3HMB H6
3HMC G5
3HMD I5
1
2
3
4
5
6
7
8
9
10
11
12
13
PNX 8543 : AUDIO
A
B
C
D
E
F
G
H
I
A
B
C
D
E
F
G
H
I
AUDIO-VDD
2HMJ
FHR3
100n
IHMW
4
7HM1-1
LM324
3
2
ADAC(7)
FHM0
1
AUDIO-CL-L
IHMV
9HM0
11
7HM5
BC807-25W
3HMF
2
3
+AUDIO-POWER
AUDIO-VDD
3HME-1 B10
3HME-2 B9
3HME-3 E9
3HME-4 E10
3HMF B3
3HML G6
3HMM-1 I10
3HMM-2 I9
3HMM-3 G9
3HMM-4 G10
3HMU H6
3HMV H5
3HMW H5
3HMY F5
3HMZ F5
6HM0 B4
7HM1-1 B10
7HM1-2 D10
7HM1-3 F10
7HM1-4 H10
7HM2-1 F5
7HM2-2 H5
7HM3 F7
7HM4 H7
7HM5 B5
7HM6 C5
9HM0 B5
FHM0 B11
FHM1 D11
FHM2 F11
FHM3 H11
FHR3 A10
IH22 F4
D
E
D
E
4R7
IHM6
IHM0
3HME-2
10K
3HME-1
2
7
8
1
1
10K
2HMP
IHM8
33p
IHM7
3HM0-3
22K
6
3
AUDIO-VDD
7HM6
IHM2
BC847BW
IHM4
F
G
H
I
F
G
H
I
IHM5
IHN3
4
7HM1-2
LM324
5
6
ADAC(8)
FHM1
7
AUDIO-CL-R
IHN6
11
3HME-3
10K
3HME-4
3
6
5
4
10K
2HMT
33p
IH23 H4
IHM0 B3
IHM1 F7
IHM2 C4
AUDIO-VDD
IHM4 C4
AUDIO-VDD
IHM5 D5
IHM6 B3
IHM7 C5
IHM8 C5
4
IHNB
7HM1-3
LM324
2
10
9
IHMG H7
IHMV B9
ADAC(5)
FHM2
8
BC857BW
AUDIO-OUT-L
IHNA
7HM3
1
IHMW B9
IHN0 F5
IHN8
11
3
IHN3 D9
6
IHN4 H5
IH22
IHN0
3HMZ
2
7HM2-1
ADAC(1)
ADAC(2)
4
IHN6 D10
IHN8 F6
BC847BS(COL)
22K
2HM1
1
IHNG
IHM1
3HML
2K2
IHNA F10
IHNB F9
J
J
+AUDIO-L
3HMM-3
10K
3HMM-4
4
3
6
5
1u0
IHND H9
10K
2HMW
IHNE H10
IHNF H6
33p
IHNG F6
IHNJ
IHNH H6
IHNJ G5
IHNK I5
K
L
K
L
AUDIO-VDD
AUDIO-VDD
2
BC857BW
7HM4
1
IHNF
3
3
IHND
4
7HM1-4
LM324
12
13
ADAC(6)
IH23
IHN4
FHM3
3HMV
5
14
7HM2-2
BC847BS(COL)
AUDIO-OUT-R
IHNE
22K
2HM2
4
IHNH
IHMG
3HMU
2K2
11
-AUDIO-R
1u0
M
N
M
N
O
P
IHNK
3HMM-2
10K
3HMM-1
1
2
7
8
10K
2HMZ
33p
1
2
3
5
6
7
8
9
10
11
12
13
O
P
CHN
SETNAME
CLASS_NO
2
2008-11-21
AUDIO
PNX8543 TV543 R2 LDIPNX
8204 000 8927
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
DATE
16
130
9
A2
2007-11-29
C
ROYAL PHILIPS ELECTRONICS N.V. 2005
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_511_090302.eps
090302
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 97
SSB: PNX8543 - Analogue AV
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
2H80 A6
2H81 A5
2H82 A5
2H83 A5
2H84 B6
2H85 B5
2H86 D3
2H87 A5
2H88 A4
2H89 B4
2H90 B5
2H91 C4
2H92 C5
2H93 C5
2H94 C4
2H95 C4
2H96 D5
2H97 D4
2H98 D4
2H99 D3
2HA3 E3
2HA4 E3
2HA5 F5
2HKL E1
2HRZ A8
2HS0 G4
2HS1 B8
2HS2 B8
2HS3 B9
2HS4 A10
2HS7 B8
2HS8 B8
2HS9 B9
2HSA C10
2HSB E8
2HSC C10
2HSD D10
2HSE D11
2HSF D10
2HSJ D8
2HSK D8
2HSM D9
2HSN G8
2HSP F10
2HSR H10
2HSS I10
2HST G3
2HSU I9
2HSV G4
2HSW D1
2HSY G3
2HT1 E5
2HT5 F3
2HT6 F3
2HT7 E5
2HT8 F8
2HTB G9
2HTC G10
2HTD G10
2HTE G10
2HTF G11
2HTG G11
2HTH D3
2HTK G3
2HTL B2
2HTP A8
2HTR A9
2HTU C10
2HTV C11
2HTZ G8
2HU0 G9
2HU5 E3
2HU8 F3
2HUB H11
2HUC H9
2HUK E1
2HUN G4
2HUP G4
3H29 C4
3H34 F9
3H40 G10
3H47 G11
3H79 A4
3H80 A5
3H81 A4
3H82 A5
3H83 B4
3H84 B5
3H85 B4
3H88 C5
3H89 C4
3H90 C5
3H91 D4
3H93 D5
3H95 A4
3H96 A4
3H97 B4
3H98 B4
3H99 C4
3HRP B8
3HRR B9
3HRS A12
3HRT A10
3HRU B9
3HRV B8
3HRW C12
3HRY D10
3HRZ D12
3HS0 E10
3HS1 D9
3HS2 D8
3HS3 H9
3HS4 I9
1
2
3
4
5
6
7
8
9
10
11
12
13
A
B
C
A
B
C
3H95
3HS5 E1
3HS6 E1
3HS7 E1
3HS8 F8
3HS9 F12
3HSA G9
3HSB G10
3HSD G10
3HSE G11
3HSF B2
3HSH A9
3HSJ A8
3HSK E1
3HSM C12
3HSN C10
3HSQ E8
3HSR G10
3HST F12
3HSU G8
3HSV F10
3HSW E1
3HT3 H11
3HT4 H11
3HT9 E1
5H80 A5
5H81 A5
5H82 B5
5H85 B4
5H86 C4
5H87 D4
5HR0 B9
5HR2 B9
5HR3 C11
5HR5 D9
5HR9 G10
5HRA G11
5HRC A9
5HRG C11
5HRL F9
7H00-1 D2
9H50 D4
9H51 D5
9H52 E4
9H53 E5
9H54 E4
9H55 E5
FHR1 B8
FHR5 B2
FHR6 B2
IH38 A4
2HS4
IHR1
3HRS
27R
AV1-Y_CVBS
IH38
18R
5H80
IH80
3H79
18R
PNX 8543 : ANALOGUE AV
2H80
AV4-PR
22n
330n
22n
IHSR
5HRC
330n
IHPF
3HSH
27R
A
A
2HRZ
AV1-PR
3H96
18R
22n
IH39
5H81
330n
IH44
IH81
2H82
22n
3H81
18R
AV4-PB
AV4-Y
IHS2
Y_CVBS-MON-OUT
IHSS
IHST
5HR2
330n
2HS7
22n
FHR1
IHR0
3HRU
27R
3H97
18R
AV1-Y
IH40
IH41
5H82
330n
2H84
22n
3H83
18R
FHR5
FHR6
H-SYNC-VGA
V-SYNC-VGA
B
C
D
E
F
G
H
I
B
C
D
E
F
G
H
I
2HS1
22n
5HR0
330n
3HRR
27R
3H98
18R
AV1-PB
AV3-PR
2H90
5H85
330n
IH85
3H85
AV5-PR
18R
22n
D
E
D
E
5HRG
330n
IHRC
3HSM
2HSA
22n
27R
3H99
3H89
18R
18R
IH42
IH43
5H86
330n
IH45
IH87
2H93
22n
AV5-PB
AV5-Y
AV4-Y
AV5-Y
2HSC
22n
5HR3
330n
3HRW
27R
3H29
3H91
18R
IHR3
AV3-PB
AV3-Y
18R
5H87
330n
2H96
22n
7H00-1
5HR5
330n
IHR5
PNX85439EH/M2/24182
3HS1
27R
2HSJ
ANALOG_VIDEO
SYNC_IN_1
22n
F
G
H
I
F
G
H
I
R1
R3
SYNC_IN_2
9H50
9H52
9H54
9H51
T1
P1
P3
P4
P5
N1
N2
N3
N4
PC1_AI1
HSYNCIN
IN
PC1_AI2
PC1_AI3
PC1_AID
AI11
2HSF
IHR4
3HRZ
27R
T2
U1
AV2-Y_CVBS
2HSW IHVE
22n
VSYN
2HTH
IHSA
OUT
22n
22n
2HT1
22n
3HSK
3HS5
3HT9
A1
C3
C2
CURREF
BIAS DAC
AGC
AI12
AI13
REF 1
10K
IHSG
4K7
2HA3
22n
IH39 A4
IHRD
9H53
9H55
2HSB
IH40 B4
22n
M1
M3
M4
M5
L1
PC2_AI1
PC2_AI2
PC2_AI3
PC2_AID
AI21
AI22
AI23
REF 2
IH41 B4
4K7
IH42 C4
A3
B3
P
IHS4
3HS6
CVBS1Y
N
2HU5
22n
IH43 D4
2HT7
2HUK
IHSB
75R
3HSW
75R
IH44 A5
270p
3HS7
75R
22n
A2
B2
L2
IH45 C5
P
IHS3
IHSE
CVBS2C
N
L3
IH46 G10
IH80 A5
2HKL
270p
L4
2HA4
22n
22n
K1
K3
K4
K5
J1
J2
J3
J4
IH81 B5
2HT8
22n
PC3_AI1
PC3_AI2
PC3_AI3
PC3_AID
AI31
AI32
AI33
REF 3
IHR6
3HS9
FRONT-Y_CVBS
FRONT-C
IH85 B5
27R
IH87 D5
2HT5
IHSC
IHPF A8
IHR0 B8
IHR1 A10
IHR3 C11
IHR4 D10
IHR5 D8
IHR6 F9
2HA5
22n
IHRF
3H40
3HST
27R
2HU8
22n
2HT6
IHSD
IHS5
2HSP
22n
G3
G4
H1
H2
H3
H4
AI4N
AI41
3H34
22n
18R
5HRL
120n
AI42
IHR8 G11
IHRB F4
IHRC C10
IHRD E8
IHRE F8
IHRF F10
IHS2 A2
IHS3 E1
AI43
AI44
IHRB
IHRE
3HSR
18R
2HSN
22n
2HS0
22n
R-VGA
G-VGA
REF 4
F1
F2
F3
F4
G1
G2
18R
5HR9
AI5N
AI51
2HTB
22n
IH46
3HSB
18R
2HSV
RES
AI52
J
J
22n
AI53
120n
3H47
AI54
2HSY
2HTK
REF 5
IHS4 E3
IHS5 F4
22n
IHSH
IHV3
18R
D2
D1
E1
E2
2HUN
2HUP
2HTE
22n
AI1N_IF
AI1P_IF
AI2P_IF
AI2N_IF
IHR8
3HSE
5HRA
22n
22n
IHS6 H11
IHSA E3
IHSB E1
IHSC F3
IHSD F3
IHSE E1
IHSG E1
IHSH G3
IHSR A12
IHSS B12
IHST B12
IHV3 G3
IHV6 G3
IHVE D1
B-VGA
CVBS4
22n
22n
18R
120n
J5
IHV6 2HST
GND_A3_TG
K
L
K
L
2HUB
22n
IHS6
3HT4
27R
2HUC
100p
2HSR
3HS3
820R
IF-N
IF-P
100n
2HSS
100n
3HS4
820R
M
N
M
N
O
P
1
2
3
4
5
6
7
8
9
10
11
12
13
O
P
CHN
SETNAME
CLASS_NO
2
2008-11-21
ANALOG AV
PNX8543 TV543 R2 LDIPNX
8204 000 8927
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
DATE
16
130
11
A2
2007-11-29
C
ROYAL PHILIPS ELECTRONICS N.V. 2005
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_512_090302.eps
090302
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 98
SSB: PNX8543 - Audio
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
2HP4 D10
2HP5 D9
2HP6 D9
2HP7 D9
2HP8 D9
2HPA C11
2HPB D10
2HR0 C4
2HR1 D5
2HR2 C4
2HR3 C5
2HR4 D4
2HR5 D4
2HR6 D4
2HR7 D4
2HR8 E4
2HR9 E4
2HRA D4
2HRB D4
2HRC E4
2HRD E4
2HRE E4
2HRF E4
2HRG E3
2HRH F4
2HRJ F3
1
2
3
4
5
6
7
8
9
10
11
12
A
B
C
A
B
C
PNX 8543 : AUDIO
A
B
C
D
E
F
G
H
I
A
B
C
D
E
F
G
H
I
2HRK F4
2HRM D6
2HRN D6
2HRP C6
2HRS E11
2HRT E11
2HRU C6
2HRV C6
2HRW G6
2HRY G6
3H62 F6
D
E
D
E
VDDA-AUDIO
FHPE
VDDA-DAC
7HP0
LD2985BM33R
9H12
IHSW
IH13
5HP2
30R
+5V
5
4
1
3
IHSU
OUT IN
3HR0-2
2
2HR2
8
5
7
IH11
2HR3
1u0
3HR0-1
33K
1 IHRH
33K
9H11
RES 33p
AUDIO-IN1-L
BP INH
COM
3H63 F6
3HAG D11
3HAH D11
3HP0 F9
3HR0-3
2HR0
6
3
2HR1
1u0
3HR0-4
4
3
IHRJ
33K
RES 33p
AUDIO-IN1-R
AUDIO-IN2-L
AUDIO-IN2-R
AUDIO-IN3-L
AUDIO-IN3-R
AUDIO-IN4-L
AUDIO-IN4-R
AUDIO-IN5-L
AUDIO-IN5-R
3HP1 F10
3HP5-1 E10
3HP5-2 E9
3HP5-3 F10
3HP5-4 F9
3HPN G9
3HR0-1 C3
3HR0-2 C4
3HR0-3 C3
3HR0-4 D3
3HR3-1 D3
3HR3-2 D4
3HR3-3 D3
3HR3-4 D3
3HR8-1 E3
3HR8-2 E3
3HR8-3 D3
3HR8-4 D3
3HRC-1 E3
3HRC-2 E3
3HRC-3 E3
3HRC-4 E2
3HRJ-1 F2
3HRJ-2 E3
3HRJ-3 F3
3HRJ-4 F2
3HRK H6
3HRM G5
3HRN G5
3HT8-1 F9
3HT8-2 F9
3HT8-3 D10
3HT8-4 E9
5HP2 C10
5HRW D6
5HRZ D6
7H00-7 D7
7HP0 C10
9H11 C4
33K
3HAG
22K
+3V3
6
33K
3HR3-3
IHS0
2HR6
4
2HR7
1u0
F
G
H
I
5
F
G
H
I
3HR3-4
RES 33p
7H00-7
IHSV
33K
5HRZ 30R
5HRW 30R
PNX85439EH/M2/24182
2HR4
3HR3-2
VDDA-AUDIO
VDDA-AUDIO
2
7
33K
2HR5
3HR3-1
33K
IHSZ
AUDIO
1
IHS1
RES 33p
AK7
AL7
8
L
R
1u0
VREF_AADC
AK9
AJ10
VDDA_3V3_DAC
VSSA_ADAC
3
3HR8-3
IHRY
6
33K
2HRA
RES 33p
AM8
AM9
2HRB
1u0
NEG
POS
3HR8-4
4
AN14
AP14
AL13
VREF
3HT8-3
33R
ADAC(1)
ADAC(2)
ADAC(3)
ADAC(4)
ADAC(5)
ADAC(6)
5
ADAC(8)
ADAC(7)
33K
ADAC1
ADAC2
ADAC3
ADAC4
ADAC5
ADAC6
N
P
AP8
AN8
2HR8
VRNEG
AADC
3HR8-2
AADC
2
7
33K
2HR9
3HR8-1
1
IHRZ
RES 33p
AP13
AN13
AM13
3HT8-4
33R
8
1u0
AN7
AP7
33K
L
N
P
AIN_1
R
3
6
3HRC-3
IHRV
2HRE
RES 33p
3HRC-4
2HRF
33K
AK6
AL6
AM12
AN12
AP12
3HP5-1
33R
L
4
5
AIN_2
R
33K
1u0
N
P
2HRC
3HRC-2
2
AM6
AN6
7
2HRD
L
3HRC-1
3HP5-2
33R
1
IHRW
33K
RES 33p
AIN_3
R
AM11
AL11
AK11
8
1u0
33K
N
P
AP6
AM5
2
2HRG
RES 33p
L
3HRJ-2
IHRU
7
33K
AIN_4
R
2HRH
3HRJ-1
33K
1
4
3HP5-3
33R
AN11
AP11
AL10
8
1u0
AN5
AP5
L
N
P
AIN_5
R
3HRJ-3
6
33K
2HRJ
RES 33p
3
2HRK
1u0
3HRJ-4
33K
3H62
47K
3HP5-4
33R
IHRT
U5
C19
AP10
AN10
AM10
VDDA-AUDIO
SPDIF-IN1
1
2
SPDIF_IN
5
N
P
AN15
AL14
OSCLK
SCK
I2S_IN
AP9
AN9
3HP1
33R
ADAC(7)
ADAC(8)
ADAC7BUF
ADAC8BUF
3HP0
RES
RES
33R
3HT8-2
AK14
AP15
AM15
AL15
SD1
SD2
SD3
SD4
AL9
AL8
ADAC(7)
ADAC(8)
7
ADAC
8
I2S_IN
33R
3HT8-1
33R
IHPD
3HPN
68R
V1
SPDIF-OUT
SPDIF_OUT
OSCLK
AM14
B1
I2S_IN_WS
RESREF
J
J
AA2
Y2
I2S_OUT
SCK
Y3
AA1
AA3
AA4
1
2
3
4
AM7
C1
9H12 C4
VCOM_ADC
AOUT
I2S_OUT_SD
FHPE C10
IH11 C10
IH13 C11
IHPD F9
IHRK
IHRL
IHRM
D3
Y1
AGND1
I2S_OUT_WS
K
L
K
L
IHRH C4
IHRJ D4
IHRK G5
IHRL G6
IHRM G6
IHRT F3
IHRU F3
IHRV E3
IHRW E3
IHRY D3
IHRZ E3
IHS0 D3
IHS1 D3
IHSU C6
IHSV D6
IHSW C9
IHSY D11
IHSZ D6
M
N
M
N
O
P
1
2
3
4
5
6
7
8
9
10
11
12
O
P
CHN
SETNAME
CLASS_NO
2
2008-11-21
AUDIO
PNX8543 TV543 R2 LDIPNX
8204 000 8927
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
DATE
16
130
12
A3
2007-11-29
C
ROYAL PHILIPS ELECTRONICS N.V. 2006
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_513_090302.eps
090302
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 99
SSB: PNX8543 - Audio
1
2
3
4
5
6
8
9
10
11
12
13
7
A
A
B
C
D
E
F
G
H
I
1HV9 B3
2H02 D4
2H04 A2
2H05 B2
2H25 D1
2H26 D1
2HVA A5
2HVB B5
2HVC C5
2HVD C1
2HVE C2
2HVG E6
2HYC B3
2HYD C3
3H18-1 B5
3H18-2 C2
3H18-3 C2
3H18-4 B5
3H35 C7
3H71 A1
3H74 B1
3H75 A3
3H76 B2
3H77 B2
3H94 C2
3HV3 D2
3HV4-1 D7
3HV4-2 C8
3HV4-3 E6
3HV4-4 E6
7H01-1 A2
7H01-2 B2
7HV0 C4
7HVA-1 E7
7HVA-2 D8
FH50 B3
FHV3 E6
FHV4 A3
FHV5 C3
IH24 C2
1
2
3
4
5
6
7
8
PNX 8543 : AUDIO
AUDIO-VDD
B
A
A
B
C
D
E
6
7H01-1
3H71
5K6
2
BC847BS(COL)
2HVA
1
FHV4
IH51
IH52
2H04
1u0
33p
3H18-1
3H75
100R
1
4
8
5
C
22K
3H18-4
AUDIO-VDD
3
22K
2HVB
B
1HV9
33p
FH50
1
2
3
IH53
7H01-2
3H74
+3V3
5
BC847BS(COL)
2H05
D
IH55
5K6
3H76
100R
4
1735446-3
+AUDIO-POWER
FHV5
IH54
1u0
7HV0
TPA6111A2DGN
C
VDD
AMPΦLIFIER
IH47
IH48
IH24
AUDIO-HDPH-L-AP
AUDIO-HDPH-R-AP
IH31
2HVD
IHWJ
IHV1
3H18-3
IHWL
IHWE
E
6
3
2
6
5
3
1
7
ADAC(3)
1
2
1
2
22K
100n2HVE
100n
IN-
3H18-2
22K
7
2
ADAC(4)
VO
IH25
SHUTDOWN
IH25 C2
IH27
2H02
1u0
10
11
BYPASS
IH27 D4
VIA
IH29 D8
GND GND_HS
IH31 C8
4
3HV4-1
IHW7
8
1
BC847BPN(COL)
IH47 C1
F
7HVA-2
5
IH48 C1
22K IHVA
3HV3
10K
D
RESET-AUDIO
A-PLOP
IH51 A2
3
IH29
IH52 A2
IH53 B1
IH54 C2
IH55 B2
IHV1 C5
IHVA D8
IHW7 D7
IHW8 E7
IHWE C2
IHWJ C5
IHWL C2
A-STBY
6
FHV3
IHW8
G
3HV4-4
22K
RESET-AUDIO
4
5
2
7HVA-1
BC847BPN(COL)
1
E
H
I
1
2
3
4
5
6
7
8
CHN
SETNAME
CLASS_NO
2
2008-11-21
AUDIO
PNX8543 TV543 R2 LDIPNX
J
J
8204 000 8927
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
DATE
16
130
13
A3
2007-11-29
C
ROYAL PHILIPS ELECTRONICS N.V. 2005
7
1
2
3
4
5
6
8
9
10
11
12
13
18310_514_090302.eps
090302
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 100
SSB: PNX8543 - Video Streams
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
A
B
C
A
B
C
2H08 D3
2H09 F3
3H73 F2
3HB1 C2
3HB2 C2
3HB3 C2
3HB4 D2
3HB5 D2
3HB6 F2
3HB7 F4
3HWK D5
1
2
3
4
5
6
7
8
9
10
11
PNX 8543 : VIDEO STREAMS
3HWN-1 B11
3HWN-2 B11
3HWP C10
3HWR-1 B11
3HWR-2 B11
3HWR-3 C10
3HWR-4 B10
3HWV-1 B10
3HWV-2 C10
3HWV-3 C10
3HWV-4 B10
7H00-12 B9
7H04 D3
A
B
C
D
E
F
A
B
C
D
E
F
D
E
D
E
9H06-4
FE-ERR
4
5
TSO-BIT-ERR
7H00-12
PNX85439EH/M2/24182
9H06-3
9H06-2
9H06-1
9H07-4
9H07-3
9H07-2
9H07-1
9H08-4
9H08-3
9H08-2
9H08-1
FE-CLK
FE-VALID
FE-SOP
3
2
1
4
3
2
1
4
3
2
1
6
7
8
5
6
7
8
5
6
7
8
TSO-BIT-CLK
TSO-BIT-VALID
TSO-SYNC
TUN_CA
E33
C32
B32
J30
K34
K33
H30
J33
G33
G31
G30
H34 3HWR-4
F34
F32 3HWV-4
F31
G34 3HWR-3
2
7 3HWR-2
47R
CA-MDO0
CA-MDO1
CA-MDO2
CA-MDO3
CA-MDO4
CA-MDO5
CA-MDO6
CA-MDO7
CA-MDI0
7H05 F3
0
1
2
3
4
5
6
7
0
1
2
3
4
5
6
7
1
4
83HWV-1
47R2
CA-MDI1
CA-MDI2
CA-MDI3
CA-MDI4
CA-MDI5
CA-MDI6
CA-MDI7
9H06-1 B2
9H06-2 B2
9H06-3 B2
9H06-4 B2
9H07-1 B2
9H07-2 B2
9H07-3 B2
9H07-4 B2
9H08-1 C2
9H08-2 C2
9H08-3 C2
9H08-4 B2
9HW0 D6
7 3HWN-2
FE-DATA0
FE-DATA1
FE-DATA2
FE-DATA3
FE-DATA4
FE-DATA5
FE-DATA6
FE-DATA7
TSINO-DATA0
TSINO-DATA1
TSINO-DATA2
TSINO-DATA3
TSINO-DATA4
TSINO-DATA5
TSINO-DATA6
TSINO-DATA7
5
5
6
47R
1
CA_MDO
CA_MDI
47R
4
47R
3
47R
2
8 3HWR-1
47R
1
47R
8
3HWN-1
E34
D34
H31
J31
E32
H32
B31
7
3HWV-2
3
CA-MOSTRT
CA-MOVAL
CA-MISTRT
CA-MIVAL
CA-MICLK
CA-ADDEN
CA_MOSTRT
CA_MOVAL
CA_MOCLK
CA_MISTRT
CA_MIVAL
47R
3HB1
3HWV-3
6
47R
SCL-BOLT-ON
SDA-BOLT-ON
I2C-SCL
I2C-SDA
100R
3HB2
100R
F
G
H
I
F
G
H
I
9HW2
3HWP
33R
CA-MOCLK_VS2
CA_MICLK
CA_ADD_EN
3HB3
100R
BOLT-ON-IO
RESET-BOLT-ON
FE-DATA0
FE-DATA1
D10
E10
A9
A11
C11
D11
E11
A10
K32
A32
CA-CD1
CA-CD2
9HW1 D10
9HW2 C8
0
1
2
3
4
5
6
7
0
CA_CDN
1
FE-DATA2
FE-DATA3
FE-DATA4
FE-DATA5
FE-DATA6
FE-DATA7
IH50 F2
D31
A31
CA-DATADIR
CA-DATAEN
DIR
EN
IHW0 D6
TNR_TSDI CA_DATA
C31
J34
CA_OOB_EN
CA_RDY
IRQ-CA
CA-RST
+3V3
+3V3
C12
B10
B9
C34
C33
A33
FE-ERR
FE-CLK
FE-SOP
FE-VALID
TNR_ERROR
TNR_MICLK
TNR_MISTRT
TNR_MIVAL
CA_RST
2H08
100n
CA_VCCEN
CA_VPPEN
IHW0
3HWK
4K7
FE-ERR
+3V3-PER
7H04
74LVC245A
1
C10
J32
A34
CA-VS1
CA-MOCLK_VS2
0
CA_VSN
1
3HB5
9HW1
3EN1
3EN2
G3
10K
19
2
18
FE-DATA7
TSINO-DATA7
1
2
3
4
5
6
7
8
9
17
16
15
14
13
12
11
FE-DATA6
FE-DATA5
FE-DATA4
FE-DATA3
FE-DATA2
FE-DATA1
FE-DATA0
TSINO-DATA6
TSINO-DATA5
TSINO-DATA4
TSINO-DATA3
TSINO-DATA2
TSINO-DATA1
TSINO-DATA0
IH50
+3V3
J
+3V3
J
2H09
100n
7H05
74LVC245A
1
3EN1
3EN2
G3
19
2
BOLT-ON-TS-ENn
3HB6
10K
3HB7
10K
K
L
K
L
18
1
2
3
4
5
6
7
8
9
17
16
15
14
13
12
11
FE-SOP
FE-VALID
FE-CLK
FE-ERR
TSO-SYNC
TSO-BIT-VALID
TSO-BIT-CLK
TSO-BIT-ERR
G
G
M
N
M
N
O
P
1
2
3
4
5
6
7
8
9
10
11
O
P
CHN
SETNAME
CLASS_NO
2
2008-11-21
CONDITIONAL ACCESS
8204 000 8927
PNX8543 TV543 R2 LDIPNX
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
DATE
16
130
14
A2
2008-06-05
C
ROYAL PHILIPS ELECTRONICS N.V. 2008
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_515_090302.eps
090302
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 101
SSB: PNX8543 - Digital Video Out/LVDS
1
2
3
4
5
6
8
9
10
11
12
13
7
3HP9 A7
1
2
3
4
5
6
7
8
9
7H00-11 B2
7H00-5 A6
IHPG A7
A
B
C
D
E
F
G
H
I
A
B
C
D
E
F
G
H
I
PNX8543 : DIGITAL VIDEO OUT / LVDS
A
B
C
D
E
F
A
B
C
D
E
F
7H00-5
PNX85439EH/M2/24182
IHPG
LVDS
3HP9
AK19
IREF_LVDS
VDDA-LVDS
12K 1%
AN18
AP18
TX851A-
TX851A+
7H00-11
N
P
PNX85439EH/M2/24182
A
B
NC
Y4
AK28
AL28
AM28
AK29
AL29
AM29
AN29
K29
AK18
AL18
TX851B-
TX851B+
N
P
R2
C4
R4
T4
W4
R5
W5
F11
F12
F13
F14
F15
C14
AJ11
AL12
AK15
AN19
AP19
TX851C-
TX851C+
NC
N
P
C
AN20
AP20
TX851D-
TX851D+
N
P
D
L29
NC
NC
M29
N29
AL20
AM20
TX851E-
TX851E+
N
P
E
P29
R29
AL19
AM19
TX851CLK-
TX851CLK+
N
P
T29
CLK
U29
V29
AN22
AP22
TX852A-
TX852A+
N
P
LOUT2_A
LOUT2_B
LOUT2_C
LOUT2_D
LOUT2_E
LOUT2_CLK
NC
AK22
AL22
TX852B-
TX852B+
N
P
AN23
AP23
TX852C-
TX852C+
N
P
AN24
AP24
TX852D-
TX852D+
N
P
AL24
AM24
TX852E-
TX852E+
N
P
AL23
AM23
TX852CLK-
TX852CLK+
N
P
1
2
3
4
5
6
7
8
9
CHN
SETNAME
CLASS_NO
2
2008-11-21
LVDS
PNX8543 TV543 R2 LDIPNX
J
J
8204 000 8927
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
DATE
16
130
15
A3
2007-11-29
C
ROYAL PHILIPS ELECTRONICS N.V. 2005
7
1
2
3
4
5
6
8
9
10
11
12
13
18310_516_090302.eps
090302
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 102
SSB: PNX8543 - Power
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
2H13 E4
5HVB D11
5HVC C13
5HVD C13
5HVE B12
5HVF B13
5HVG B10
5HVH A12
5HY2 A12
5HY3 C11
5HY4 H3
5HY5 D12
5HY6 A13
5HY7 I3
A
B
C
A
B
C
1
2
3
4
5
6
7
8
9
10
11
12
13
14
2H14 D2
2H15 A3
2H16 A3
2H17 A3
2H18 A3
2H19 A4
2H20 A4
2H21 A4
2H22 A4
2H23 A5
2H24 F11
2H27 D10
2H28 D11
2H29 D11
2H30 A9
2H31 A9
2H32 A10
2H33 A10
2H34 A10
2H35 A10
2H36 A11
2H37 A11
2H38 A11
2H39 C10
2H40 C11
2H41 C11
2H42 C2
2H43 D2
2H44 D2
2H50 C4
2H51 C4
2H52 C3
2HH6 E11
2HH9 E11
2HU1 B3
2HU2 A12
2HU3 C12
2HU4 F9
2HU6 F9
2HU7 F3
2HU9 B2
2HUA A2
2HV0 B4
2HV1 C3
2HV2 F2
2HV3 C4
2HV4 C3
2HV5 D4
2HV6 D4
2HV7 E2
2HV8 D2
2HV9 F2
2HVF E3
2HVH E5
2HVJ F4
2HVK D10
2HVL C12
2HVM C10
2HVN B11
2HVP B13
2HVR B10
2HVS B3
2HVT B4
2HVU A11
2HVV A10
2HVW A9
2HVY G3
2HVZ G3
2HY2 E2
2HY3 E3
2HY4 B11
2HY5 B12
2HY6 C10
2HY7 C11
2HY8 D11
2HY9 D12
2HYA A13
2HYB A13
2HYE F4
2HYF F5
2HZB F10
2HZC-1 F11
2HZC-2 F11
2HZC-3 F10
2HZC-4 F10
2HZD F11
2HZE F10
2HZF F9
2HZG F9
2HZH H4
2HZK A5
2HZL A4
2HZM A3
2HZV I4
PNX 8543 : POWER
IHY4
5HVH
30R
+3V3
+3V3-PER
+1V2-PNX85XX
A
A
5HY6
30R
5HYB E4
7H00-10 F6
7H00-9 A6
7H06 C2
9H18 E5
9H19 E5
9H20 E5
9H21 E5
CH53 F3
FHK1 D4
IH05 E5
IHSP
+1V2-PNX85XX
5HY2
30R
IHY5
+3V3
IHK1
7H00-9
PNX85439EH/M2/24182
5HVG
30R
IH28
+1V2-STANDBY
+1V2-PNX85XX
AJ21
AJ22
AJ27
AJ28
AJ8
F10
F23
F24
F28
F6
H29
J29
J6
W6
+3V3-STANDBY
AJ12
AJ13
AJ14
AJ20
AJ23
F18
F19
F20
F25
F26
F9
K30
L30
U30
V30
V6
5HVF
30R
5HV0
30R
+3V3
IHY9
B
C
D
E
F
G
H
I
B
C
D
E
F
G
H
I
VDD_3V3_PER
IH10 E5
+3V3
IH28 B10
IH49 C4
IHSL
5HVE
30R
D
E
D
E
VDD_1V2_CORE
+1V2-PNX85XX
IH60 C2
IH61 D2
5HV1
30R
IHYF
IHK1 B12
IHK2 D11
IHK3 C12
IHK4 C12
IHSK E11
IHSL B11
IHSN D11
IHSP A13
IHY0 E5
VDDA-LVDS
+3V3
VDD
5HVD
+3V3
30R
IHK4
AF5
AF6
AA6
AB6
7H06
VDDA_1V2_CAB
LD1117
5H50
30R
VDDA_3V3_MCAB
2
IH49
AG5 VDD_1V2_SBCORE
AG6
IH60
IHK3
+1V2-PNX85XX
5HV2
30R
+3V3
5HVC
30R
3
4
AM3
+3V3
IN OUT
COM
JTAG_VSST1
+3V3
IHY6
5HY3
30R
AC6
AK17
AJ17
AJ16
VDDA_1V2_USB_PLL
VDDA_3V3_USB
GNDA_USB
5HV4
30R
IHY1 H3
IHY2 I4
AD6 VDD_3V3_SBPER
P6
+1V2-PNX85XX
IHY3 F11
IHY4 A12
IHY5 A11
IHY6 C10
IHY7 E4
VDDA_3V3_VID_1_1
R6
AJ18
AK20
AK21
IH61
VDDA_1V2_LVDS_PLL
VDDA_3V3_VID_1_2
H5
VDDA_3V3_VID_4
T5
F
G
H
I
F
G
H
I
IHYC
VDDA_3V3_DCSCCO
VDDA_1V2_DCS_A
RES
T3
VDD_3V3_LVDS AK24
AL21
L6
5HVB
IHK2
M6
AJ19
IHY8 D4
IHY9 B5
FHK1
VDDA_1V2_VID
N6
VDDA_3V3_LVDS
+1V2-PNX85XX
5HY5
30R
+1V2-PNX85XX
5HV5
30R
30R
T6
AJ7
VSS_CL
VDDA_1V2_AADC
VDDA_3V3_AADC
IHYA E2
IHYC D4
IHYF C3
IHYH D2
IHYM F5
IHYN F2
IHYP F3
IHSN
AJ6
AK8
AK12
+3V3
D16
5HV6
VDDA_1V2_HDMI_EQ
VDDA_3V3_ACT
VDDA-ADC
VDDA-DAC
IHYH
E17
VDD_3V3_HDMI_TERM_2
VDDA_3V3_ADAC
+1V2-PNX85XX
F16
30R
VDDA_HDMI_3V3_BIAS
E16
Y30
VDDA_3V3_HDMI_PLL_2
C13
AJ30
VDDA_1V2_DLL
P30
+3V3
IHY8
5HV9
30R
VDD_1V2_HDMI_1
VDD_1V2_HDMI_2
C17
D14
AF30
5HYB
30R
VDDA_1V2_HDMI_EQ
E13
IHY0
AC30
5HV7
30R
VDD_3V3_HDMI_TERM_1
E14
VDDA_3V3_DDRPLL0
IHYA
AD30
VDDA_3V3_HDMI_PLL_1
VSSA_DDRPLL0
+3V3
5HG0
30R
IHSK
AB30
+1V2-PNX85XX
VDD_1V2_DDRPLL0
+1V2-PNX85XX
AJ26
AA30
VPP_ID_8542
VSS_DDRPLL
F17
W30
0
VPP_ID_8543
D4
AK30
1
VDDA_3V3_VIDOUT
K6
VSSA_DLL
N30
VDDA_1V2_ADC4A
4
7
IH05
RES 9H18
RES 9H19
9H20
AE30
+3V3-PER
+1V2-PNX85XX
+3V3-PER
VDD_1V8_DDR
RREF-PNX85XX
RES 9H21
IHY7
IH10
5HVA
30R
+1V2-PNX85XX
+3V3
IHYN
5HV8
30R
+3V3
+1V8-PNX85XX
IHYM
RREF-PNX85XX
5HV3
30R
IHY3
+1V2-PNX85XX
IHYP
CH53
7H00-10
+1V2-PNX85XX
SENSE+1V2-PNX85XX
J
J
PNX85439EH/M2/24182
VSS
AA14
AA15
AA16
AA17
AA18
AA19
AA20
AA21
AA5
AB31
AB4
AB5
AC31
AC33
AE6
AF33
AG31
AH29
AH6
L5
M2
N5
P14
P15
P16
P17
P18
P19
P2
+1V8-PNX85XX
K
L
K
L
P20
P21
P33
R14
R15
R16
R17
R18
R19
R20
T14
T15
T16
T17
T18
T19
T20
T31
U14
U15
U16
U17
U18
U19
U20
U33
VSS
VSS
VSS
IHY1
5HY4
30R
AJ15
AJ24
AJ25
AJ29
AJ33
AJ5
VDDA-AUDIO
VDDA-DAC
2HZY-1 B3
2HZY-2 B2
2HZY-3 B2
2HZY-4 B2
3H55 D2
3H57 C2
5H50 C3
5HG0 E12
5HV0 B4
5HV1 C3
5HV2 C1
5HV3 F4
5HV4 C3
5HV5 D3
5HV6 D1
5HV7 E1
5HV8 F2
5HV9 E3
5HVA E3
AJ9
AK10
AK13
AK23
AK25
AL1
M
N
M
N
O
P
AL2
AL3
AL30
AM1
AM18
IHY2
5HY7
30R
VDDA-ADC
VDDA-AUDIO
VSS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
O
P
CHN
SETNAME
CLASS_NO
2
2008-11-21
POWER
PNX8543 TV543 R2 LDIPNX
8204 000 8927
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
DATE
16
130
16
A2
2007-11-29
C
ROYAL PHILIPS ELECTRONICS N.V. 2005
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_517_090302.eps
090302
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 103
SSB: PNX5100 - SDRAM
1
2
3
4
5
6
77
8
9
10
11
12
13
14
15
16
17
18
19
20
A
B
C
A
B
C
1C00 D9
1
2
3
4
5
6
7
8
9
10
11
12
13
2C00 E4
2C01 D4
2C02 E4
2C13 F4
2C14 F5
2C15 F5
2C16 F5
PNX5100 : SDRAM
2C17 F5
A
B
C
D
E
F
G
H
I
A
2C18 F6
2C19 F6
+1V8-PNX5100
+1V8-PNX5100
7C00-8
2C29 E10
2C30 E10
2C32 F11
2C33 F11
2C34 F12
2C35 F12
2C36 F12
2C38 F12
2C39 I12
PNX5100E
Φ
DDR2
N26
0
Y26
AB25
Y25
AC26
AC25
U26
AB26
V26
W24
AB23
AA24
AC24
AC23
V23
PNX5100-DDR2-A0
PNX5100-DDR2-A1
PNX5100-DDR2-A2
PNX5100-DDR2-A3
PNX5100-DDR2-A4
PNX5100-DDR2-A5
PNX5100-DDR2-A6
PNX5100-DDR2-A7
PNX5100-DDR2-A8
PNX5100-DDR2-A9
PNX5100-DDR2-A10
PNX5100-DDR2-A11
PNX5100-DDR2-A12
PNX5100-DDR2-D0
PNX5100-DDR2-D1
PNX5100-DDR2-D2
PNX5100-DDR2-D3
PNX5100-DDR2-D4
PNX5100-DDR2-D5
PNX5100-DDR2-D6
PNX5100-DDR2-D7
PNX5100-DDR2-D8
PNX5100-DDR2-D9
PNX5100-DDR2-D10
PNX5100-DDR2-D11
PNX5100-DDR2-D12
PNX5100-DDR2-D13
PNX5100-DDR2-D14
PNX5100-DDR2-D15
PNX5100-DDR2-D16
PNX5100-DDR2-D17
PNX5100-DDR2-D18
PNX5100-DDR2-D19
PNX5100-DDR2-D20
PNX5100-DDR2-D21
PNX5100-DDR2-D22
PNX5100-DDR2-D23
PNX5100-DDR2-D24
PNX5100-DDR2-D25
PNX5100-DDR2-D26
PNX5100-DDR2-D27
PNX5100-DDR2-D28
PNX5100-DDR2-D29
PNX5100-DDR2-D30
PNX5100-DDR2-D31
0
1
U25
1
N25
2
2
T23
3
3
M26
4
4
T24
5
FC06
FC05
5
L25
PNX5100-DDR2-VREF-CTRL
PNX5100-DDR2-VREF-DDR
6
A
6
R24
L26
M23
T26
K25
M24
2C40 I6
7
7
B
C
D
E
F
G
H
I
8
9
8
2C41-1 F1
2C41-2 F1
2C41-3 F2
2C41-4 F2
2C42-1 F2
2C42-2 F2
2C42-3 F2
2C42-4 F3
2C43-1 F8
2C43-2 F8
2C43-3 F8
2C43-4 F8
2C44-1 F9
2C44-2 F9
2C44-3 F9
2C44-4 F9
3C00 C2
9
10
11
12
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
D
E
D
E
R26
T25
N24
AB24
V24
F26
PNX5100-DDR2-BA0
PNX5100-DDR2-BA1
BA0
BA1
BA2
D
H26
G25
J26
K24
L24
U24
L23
PNX5100-DDR2-RAS
PNX5100-DDR2-CAS
PNX5100-DDR2-WE
PNX5100-DDR2-CS
RASB
CASB
WEB
CSB
K26
D25
H25
D26
F23
K23
U23
PNX5100-DDR2-ODT
PNX5100-DDR2-CKE
ODT
CKE
H24
F24
J23
J24
D23
G24
D24
3C10
3K3 RES
3C00
IC04
+1V8-PNX5100
N23
P24
5K6 1%
IREF
VREF
PNX5100-DDR2-VREF-CTRL
3C01
3C01 D2
2C01
PNX5100-DDR2-CLK_P
PNX5100-DDR2-CLK_N
820R
1%
100n
P26
P25
3C02 D3
P
N
F
G
H
I
F
G
H
I
CLK
3C03 H2
3C04 H8
RES
3C02
AA26
AA23
G26
PNX5100-DDR2-DQM0
PNX5100-DDR2-DQM1
PNX5100-DDR2-DQM2
PNX5100-DDR2-DQM3
0
1
2
3
3C05-1 G6
3C05-2 G6
3C05-3 I5
3C05-4 H5
3C06-1 H5
3C06-2 H5
3C06-3 H2
3C06-4 I2
3C07-1 G6
3C07-2 G5
3C07-3 G5
3C07-4 H6
3C08-1 H5
3C08-2 H5
3C08-3 H6
3C09-1 H6
3C09-2 H5
3C09-3 H5
3C09-4 H6
3C10 C4
DQM
100R
G23
W26
W25
PNX5100-DDR2-DQS0_P
PNX5100-DDR2-DQS0_N
1C00
P
N
DQS0
DQS1
DQS2
DQS3
HOOK1
Y24
Y23
PNX5100-DDR2-DQS1_P
PNX5100-DDR2-DQS1_N
P
N
E25
E26
PNX5100-DDR2-DQS2_P
PNX5100-DDR2-DQS2_N
P
N
E24
E23
PNX5100-DDR2-DQS3_P
PNX5100-DDR2-DQS3_N
P
N
+1V8-PNX5100
+1V8-PNX5100
3C11 H6
3C12 I2
3C13 I2
3C20 B9
3C21 B9
3C22 B12
3C23 B12
3C25-1 G12
3C25-2 G12
3C25-3 H11
3C25-4 H12
3C26-1 G12
3C26-2 G11
3C26-3 G11
3C26-4 H12
3C27-1 H11
3C27-2 H11
3C27-3 H9
3C27-4 I8
3C28-1 H12
3C28-2 H11
3C28-3 H11
3C28-4 H12
3C30-1 H11
3C30-2 H11
3C30-3 I8
3C30-4 I9
3C31 H12
3C32 H12
7C00-8 A6
7C01 F3
7C01
7C02
HYB18TC512160CF-2.5
HYB18TC512160CF-2.5
VDD
VDDQ
VDD
VDDQ
J
J
K9
K2
K3
L8
K7
L7
K9
K2
K3
L8
K7
L7
PNX5100-DDR2-ODT
PNX5100-DDR2-CKE
PNX5100-DDR2-WE
PNX5100-DDR2-CS
PNX5100-DDR2-RAS
PNX5100-DDR2-CAS
PNX5100-DDR2-ODT
PNX5100-DDR2-CKE
PNX5100-DDR2-WE
PNX5100-DDR2-CS
PNX5100-DDR2-RAS
PNX5100-DDR2-CAS
ODT
CKE
WE
CS
RAS
CAS
ODT
CKE
WE
A2
E2
L1
R3
R7
R8
A2
E2
L1
R3
R7
R8
Φ
Φ
SDRAM
SDRAM
CS
NC
NC
RAS
CAS
L2
L3
L2
L3
PNX5100-DDR2-BA0
PNX5100-DDR2-BA1
PNX5100-DDR2-BA0
PNX5100-DDR2-BA1
0
1
0
1
BA
G8
G2
H7
H3
H1
H9
F1
F9
C8
C2
D7
D3
D1
D9
B1
B9
8
7
1
4
6
1
BA
G8
G2
H7
H3
H1
H9
F1
F9
C8
C2
D7
D3
D1
D9
B1
B9
8
1
3C25-1
3C05-1
3C05-2
3C07-1
3C07-4
3C08-3
PNX5100-DDR2-D0
PNX5100-DDR2-D16
PNX5100-DDR2-D17
PNX5100-DDR2-D18
PNX5100-DDR2-D19
PNX5100-DDR2-D20
PNX5100-DDR2-D21
PNX5100-DDR2-D22
PNX5100-DDR2-D23
PNX5100-DDR2-D24
PNX5100-DDR2-D25
PNX5100-DDR2-D26
PNX5100-DDR2-D27
PNX5100-DDR2-D28
PNX5100-DDR2-D29
PNX5100-DDR2-D30
PNX5100-DDR2-D31
0
0
3C07-3
3C07-2
3C06-1
3C06-2
3C09-3
3C09-2
3C08-1
3C08-2
3
2
8
7
3
2
8
7
5
6
33R
7
33R
1
33R
2
33R
6
33R
7
33R
1
3C26-3
3C26-2
3C27-1
3
2
8
7
7
6
8
7
6
33R
33R
PNX5100-DDR2-D1
PNX5100-DDR2-D2
PNX5100-DDR2-D3
PNX5100-DDR2-D4
PNX5100-DDR2-D5
PNX5100-DDR2-D6
PNX5100-DDR2-D7
PNX5100-DDR2-D8
PNX5100-DDR2-D9
PNX5100-DDR2-D10
PNX5100-DDR2-D11
PNX5100-DDR2-D12
PNX5100-DDR2-D13
PNX5100-DDR2-D14
PNX5100-DDR2-D15
1
2
1
2
K
L
K
L
M8
M3
M7
N2
N8
N3
N7
P2
P8
P3
M2
P7
R2
2
M8
M3
M7
N2
N8
N3
N7
P2
P8
P3
M2
P7
R2
33R
7
33R
1
33R
2
7
2
33R
8
33R
5
33R
3C31
33R
3C32
33R
3C25-2
PNX5100-DDR2-A0
PNX5100-DDR2-A1
PNX5100-DDR2-A2
PNX5100-DDR2-A3
PNX5100-DDR2-A4
PNX5100-DDR2-A5
PNX5100-DDR2-A6
PNX5100-DDR2-A7
PNX5100-DDR2-A8
PNX5100-DDR2-A9
PNX5100-DDR2-A10
PNX5100-DDR2-A11
PNX5100-DDR2-A12
PNX5100-DDR2-A0
PNX5100-DDR2-A1
PNX5100-DDR2-A2
PNX5100-DDR2-A3
PNX5100-DDR2-A4
PNX5100-DDR2-A5
PNX5100-DDR2-A6
PNX5100-DDR2-A7
PNX5100-DDR2-A8
PNX5100-DDR2-A9
PNX5100-DDR2-A10
PNX5100-DDR2-A11
PNX5100-DDR2-A12
0
0
33R
8
33R
1
3
1
3
1
4
3C26-1
3C26-4
2
4
2
4
3
5
3
5
5
4
6
4
6
33R
3
33R
3C11
33R
3C27-2
3C28-2
3C28-3
3C30-1
3C30-2
5
7
5
7
DQ
DQ
33R
2
6
A
8
6
A
8
7
9
7
9
33R
3
33R
1
33R
2
33R
8
10
11
12
13
14
15
8
10
11
12
13
14
15
9
9
1
4
8
5
8
4
3C09-1
3C28-4
10
11
12
10
11
12
33R
33R
33R
2
5
1
3C28-1
3C09-4
3C04
33R
33R
7C02 F9
PNX5100-DDR2-CLK_P
PNX5100-DDR2-CLK_N
J8
K8
33R
150R
J8
K8
PNX5100-DDR2-CLK_P
PNX5100-DDR2-CLK_N
3C05-4
3C25-4
CK
B3
F3
4
CK
B3
F3
5
4
33R
PNX5100-DDR2-DQM1
PNX5100-DDR2-DQM0
PNX5100-DDR2-DQM3
PNX5100-DDR2-DQM2
FC05 B11
FC06 B9
UDM
LDM
UDM
LDM
3C03
3C06-4
6
3
33R
3C25-3
6
3
3C06-3
3C12
3C27-3
3C30-4
150R
5
3
6
F7
E8
3
6
33R
F7
E8
PNX5100-DDR2-DQS0_P
PNX5100-DDR2-DQS0_N
PNX5100-DDR2-DQS2_P
PNX5100-DDR2-DQS2_N
33R
3C05-3
33R
IC04 C2
4
33R
LDQS
UDQS
J2
4
5
LDQS
UDQS
J2
PNX5100-DDR2-VREF-DDR
PNX5100-DDR2-VREF-DDR
VREF
VREF
33R
2C40
100n
3C27-4
3
2C39
100n
33R
M
N
M
N
O
P
B7
A8
4
6
5
B7
A8
PNX5100-DDR2-DQS1_P
PNX5100-DDR2-DQS1_N
PNX5100-DDR2-DQS3_P
PNX5100-DDR2-DQS3_N
3C13
33R
33R
33R
VSS
VSSQ
3C30-3 33R
VSS
VSSQ
1
2
3
4
5
6
7
8
9
10
11
12
13
1X01
REF EMC HOLE
O
P
CHN
SETNAME
CLASS_NO
2
2008-11-21
DDR2 PNX5100
8204 000 8928
TV543 R2 LDIPNX
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
DATE
9
130
1
A2
C
ROYAL PHILIPS ELECTRONICS N.V. 2008
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_518_090302.eps
090302
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 104
SSB: PNX5100 - Video-In
1
2
3
4
5
6
8
9
10
11
12
13
7
3C14 B2
1
2
3
4
5
6
7
8
9
3C15 B2
3C16 B2
3C17 C2
3C18 C2
3C19 D2
3C24 D2
3C29 D2
3C33 E2
3C34 E2
3C35 E2
3C36 F2
3C50 C6
3C51 C7
7C00-5 B4
7C00-9 C7
IC54 C7
A
B
C
D
E
F
G
H
I
A
B
C
D
E
F
G
H
I
PNX5100 : VIDEO-IN
A
A
B
C
D
E
F
RES
RX51002A+
RX51002A-
RX51002B+
7C00-5
B
C
D
E
F
PNX5100E
LVDΦS_RX
RX51002B-
RX51002CLK+
AE17
AF17
AP
AN
AC17
AD17
BP
BN
RX51002CLK-
RX51002C+
7C00-9
AC16
AD16
PNX5100E
CLKP
CLKN
Φ
LIN1
IC54
VDI
AE16
AF16
D6
A4
E2
G4
CP
CN
1
2
3
4
RX51002C-
RX51002D+
3C50
1K0
CLK
+3V3
AE15
AF15
3C51
DP
DN
1K0
G3
G2
G1
F4
F3
F2
F1
E3
E1
D2
D1
C1
A2
A3
B3
B4
C4
A5
B5
C5
D5
A6
B6
C6
A7
B7
C7
D7
A8
B8
C8
D8
0
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
AC15
AD15
EP
EN
1
RX51002D-
RX51002E+
2
3
AE20
AF20
AP
AN
4
5
6
AC20
AD20
RX51002E-
RX51001A+
BP
BN
7
D
D
8
9
AC19
AD19
CLKP
CLKN
10
11
12
13
14
15
RX51001A-
RX51001B+
LIN2
AE19
AF19
CP
CN
AE18
AF18
DP
DN
RX51001B-
RX51001CLK+
AC18
AD18
EP
EN
RX51001CLK-
RX51001C+
RX51001C-
RX51001D+
RX51001D-
RX51001E+
RX51001E-
1
2
3
4
5
6
7
8
9
CHN
SETNAME
CLASS_NO
2
2008-11-21
VIDEO PNX5100
TV543 R2 LDIPNX
J
J
8204 000 8928
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
DATE
9
130
2
A3
C
ROYAL PHILIPS ELECTRONICS N.V. 2008
7
1
2
3
4
5
6
8
9
10
11
12
13
18310_519_090302.eps
090302
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 105
SSB: PNX5100 - Power
1
2
3
4
5
6
8
9
10
11
12
13
7
2C45 D1
5C62 E6
1
2
3
4
5
6
7
8
9
2C55 D1
5C63 E6
5C64 F6
5C65 F6
5C66 D8
5C67 E8
5C68 E8
5C69 E8
5C70 F8
7C00-10 A4
7C00-11 A7
CC60 A3
FC07 A2
IC80 D7
IC81 D7
IC82 E7
IC83 E7
IC84 E7
IC85 F7
IC86 D9
IC87 E9
IC88 E9
IC89 E9
IC90 F9
2C56 D1
A
A
B
C
D
E
F
G
H
I
2C57 D9
2C58 F9
PNX5100 : POWER
2C59 A1
2C60-1 B1
2C60-2 B1
2C60-3 B1
2C60-4 B1
2C61-1 B2
2C61-2 B2
2C61-3 B2
2C61-4 B2
2C62-1 B2
2C62-2 D6
2C62-3 B2
2C62-4 E6
2C63-1 B3
2C63-2 B3
2C63-3 E6
2C63-4 B3
2C64 B3
7C00-11
SUPΦPLY_2
PNX5100E
AB18
AB19
V22
U22
+1V2-PNX5100-DLL
+1V2-PNX5100
+3V3-PNX5100-LVDS-IN
+1V2-PNX5100
VDDA_3V3_LVDSIN
VSSA_LVDSIN
VDDA_1V2_DLL7
VSSA_DLL7
A
A
B
C
D
E
F
FC07
CC60
SENSE+1V2-PNX5100
+1V2-PNX5100
H5
J3
AD25
AD26
B
VDDD_1V2_TRI_PLL1
VSSD_TRI_PLL1
VDD_1V2_DDRPLL0
VSS_DDRPLL0
J5
J4
P22
T22
7C00-10
+1V2-PNX5100-TRI-PLL1
+1V2-PNX5100
+1V2-PNX5100-DDR-PLL1
+3V3-PNX5100-DDR-PLL0
+1V2-PNX5100
VDDA_1V2_TRI_PLL1
VSSA_TRI_PLL1
VDDA_1V2_DDRPLL1
VSSA_DDRPLL1
PNX5100E
SUPΦPLY_1
K5
K3
AE25
+1V2-PNX5100
VDDD_1V2_TRI_PLL2
VSSD_TRI_PLL2
VDDA_3V3_DDRPLL0
AA5
AB16
AB8
AB9
AC9
AD9
AE9
AF9
E16
E8
E9
F5
J22
K22
P5
AD3
AE1
AE2
AF1
B1
A10
A13
A17
B2
L5
K4
N22
R22
+1V2-PNX5100-TRI-PLL2
VDDA_1V2_TRI_PLL2
VSSA_TRI_PLL2
VDD_1V2_DDRPLL1
VSS_DDRPLL1
C
B
T5
U4
E15
B15
D15
A15
C15
+1V2-PNX5100-LVDS-PLL
+3V3-PNX5100-LVDS-PLL
+1V2-PNX5100-TRI-PLL3
+1V2-PNX5100
VDDA_1V2_TRI_PLL3
VSSA_TRI_PLL3
VDDA_1V2_LVDS_PLL
VDDA_3V3_LVDS1
VDDA_3V3_LVDS2
VSSA_LVDS1
2C65 B3
U5
U3
2C66-1 C1
2C66-2 C2
2C66-3 C2
2C66-4 C2
2C67-1 C2
2C67-2 C2
2C67-3 C2
2C67-4 C2
2C68-1 D1
2C68-2 D2
2C68-3 D2
2C68-4 D2
2C69-1 D2
2C69-2 D2
2C69-3 D2
2C69-4 D2
2C70-1 D3
2C70-2 D3
2C70-3 D3
2C70-4 D3
2C71 E2
VDD_1V2_CORE
VSS
VDDD_1V2_TRI_PLL3
VSSD_TRI_PLL3
VSSA_LVDS2
A20
C2
M22
L22
AB14
AC14
AE14
AF12
AD14
AC13
AB13
+1V2-PNX5100
+1V2-PNX5100-DLL
VDDA_1V2_DLL0
VSSA_DLL0
VDD_1V2_MCAB1
VDD_1V2_MCAB2
VDDA_1V2_1_7_MCAB
VDDA_1V2_UIP_PLL
VDDA_3V3_SYS_PLL
VSS_MCAB1
C25
C3
+1V2-PNX5100-CLOCK
+3V3-PNX5100-CLOCK
D3
AA22
AB22
VDDA_1V2_DLL1
VSSA_DLL1
R5
Y5
D4
D
E4
E5
F22
E22
VDDA_1V2_DLL4
VSSA_DLL4
VSS_MCAB2
L16
M16
N16
P16
R16
T16
F25
H23
J25
L11
L12
L13
L14
L15
M11
M12
M13
M14
M15
M25
N11
N12
N13
N14
N15
P11
P12
P13
P14
P15
P23
R11
R12
R13
R14
R15
R23
R25
T11
T12
T13
T14
T15
V25
W23
AE26
+1V8-PNX5100
C
AD13
AE12
+1V2-PNX5100-CLOCK
VDDA_1V2_XTAL
VSSA_XTAL
VDD_1V8_DDR
VDD_3V3_PER
VSS
AB20
AB6
AB7
D22
E6
E
+3V3
IC80
5C60
30R
E7
+1V2-PNX5100
+1V2-PNX5100
+1V2-PNX5100
+1V2-PNX5100
+1V2-PNX5100
+1V2-PNX5100
+1V2-PNX5100-CLOCK
G5
M5
IC86
5C66
30R
+1V2-PNX5100-DLL
D
N5
+1V2-PNX5100
2C72 E2
V5
2C73 E2
W5
IC81
IC82
IC83
IC84
IC85
5C61
30R
VSS
2C74 E2
+1V2-PNX5100-TRI-PLL1
F
2C75 E2
AB15
AB17
+3V3
VDD_3V3_LVDSIN
2C76 E3
2C77 C9
5C67
30R
D10
D13
D17
D20
+3V3
+3V3
+3V3
+3V3-PNX5100-LVDS-IN
+3V3-PNX5100-CLOCK
2C78-1 B1
2C78-2 B1
2C78-3 B1
2C78-4 D3
2C79 D6
5C62
30R
IC87
VDD_3V3_LVDSOUT
+1V2-PNX5100-TRI-PLL2
+1V2-PNX5100-TRI-PLL3
+1V2-PNX5100-DDR-PLL1
+1V2-PNX5100-LVDS-PLL
+3V3
A1
IC88
IC89
5C68
30R
AA25
AB3
AB4
AB5
AC1
AC2
AC3
AC4
AD1
AD2
AD24
2C80 D6
E
5C63
30R
G
VSS
2C81 B3
2C82 F6
2C83 F6
2C84 D8
5C69
30R
VSS
+3V3-PNX5100-DDR-PLL0
+3V3-PNX5100-LVDS-PLL
2C85 D9
5C64
30R
2C86 D9
2C87 D9
2C88 E9
2C89 E9
H
5C70
30R
2C90 F9
IC90
+3V3
5C65
30R
2C91 F8
F
2C92 F9
2C94 F7
2C95 A1
2C96 A2
2C97 A2
5C60 D6
5C61 D6
I
1
2
3
4
5
6
7
8
9
CHN
SETNAME
CLASS_NO
2
2008-11-21
SUPPLY PNX5100
TV543 R2 LDIPNX
J
J
8204 000 8928
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
DATE
9
130
3
A3
C
ROYAL PHILIPS ELECTRONICS N.V. 2008
7
1
2
3
4
5
6
8
9
10
11
12
13
18310_520_090302.eps
090302
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 106
SSB: PNX5100 - Audio
1
2
3
4
5
6
8
9
10
11
12
13
7
3C41 D4
1
2
3
4
5
6
7
8
9
3C95-1 B5
3C95-2 B5
3C95-3 B4
3C95-4 B4
7C00-6 B3
7C00-7 C3
A
A
B
C
D
E
F
G
H
I
PNX5100 : AUDIO
A
B
C
D
E
A
B
C
D
E
B
C
D
E
F
G
H
I
7C00-6
PNX5100E
Φ
3C95-4
100R
AC22
AD22
AF21
AC21
BL-OSCLK
BL-SCK
OSCLK
SCK
OSCLK
AUDIO
4
3
5
SCK
3C95-1
AF22
AD23
AE23
AF23
8
7
1
2
100R
0
OUT
SD0
3C95-3
100R
AE21
AD21
BL-SD0
1
IN
SD
6
2
3
WS
3C95-2
100R
BL-WS
AE22
WS
7C00-7
PNX5100E
Φ
AMBI
AF10
0
1
2
3
4
5
6
7
AE10
AD10
AC10
AB10
AF11
AE11
AD11
AMBI
AC11
AB11
CLK
DE
AB12
AC12
SYNC_H
SYNC_V
3C41
100R
AMBI-VS
1
2
3
4
5
6
7
8
9
CHN
SETNAME
CLASS_NO
2
2008-11-21
AUDIO PNX5100
J
J
8204 000 8928
TV543 R2 LDIPNX
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
DATE
9
130
4
A3
C
ROYAL PHILIPS ELECTRONICS N.V. 2008
7
1
2
3
4
5
6
8
9
10
11
12
13
18310_521_090302.eps
090302
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 107
SSB: PNX5100 - LVDS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
A
B
C
A
B
C
1G50 E8
FCAB C8
1
2
3
4
5
6
7
8
9
10
11
12
13
14
1G51 F14
2CA0 A5
2CA1 A5
2CA2 B5
2CA3 B5
2CA4 B5
2CA5 B5
2CA6 C5
2CA7 C5
2CA8 C5
2CA9 C5
2CAA D5
2CAB D5
2CAC E5
2CAD E5
2CAE E5
2CAF E5
2CAG F5
2CAH F5
2CAJ F5
FCAC D7
FCAD D7
FCAE D7
FCAF D8
FCAG D8
FCAH D8
FCAJ E8
PNX5100 : LVDS
FCAK E8
FCAM E8
FCAN E7
FCAP E7
FCAR E7
FCAS B12
FCAT B12
FCAV C12
FCAW C12
FCAY C12
FCAZ C12
FCB0 C12
FCB1 C12
FCB2 C12
FCB3 D12
FCB4 D12
FCB5 D12
FCB6 D12
FCB7 D12
FCB8 D12
FCB9 D12
FCBA D12
FCBB D12
FCBC D12
FCBD D12
FCBE E12
FCBF E13
FCBG E12
FCBH E12
FCBJ E12
FCBK E12
FCBM E14
FCBN B8
FCBP E8
FCBR E8
FCJ4 B7
TX1A-
TX3A-
RES
4p7
RES
4p7
2CAT 4p7
RES
A
B
C
D
E
F
A
B
C
D
E
F
2CA0
2CA1 4p7
RES
2CAS
TX1A+
TX1B-
TX3A+
TX3B-
+VDISP2
RES
RES
4p7
RES
4p7
2CA2
2CA3 4p7
RES
2CAV
2CAW 4p7
RES
2CAK F5
2CAM G5
2CAN G5
2CAP G5
2CAR G5
2CAS A10
2CAT A10
2CAV B10
2CAW B10
2CAY B10
2CAZ B10
2CB0 C10
2CB1 C10
2CB2 C10
2CB3 C10
2CB4 D10
2CB5 D10
2CB6 E10
2CB7 E10
2CB8 E10
2CB9 E10
2CBA F10
2CBB F10
2CBC F10
2CBD F10
2CBE G10
2CBF G10
2CBG G10
2CBH G10
2CBJ B13
2CBK B13
2CBL B13
2CBM B13
2CBN B13
2CBP B13
2CBR B13
2CBS B14
2CBY F8
2CBZ F8
2CH4 B6
2CH5 B6
2CH6 B7
2CH7 C7
3CA2 E7
3CA3 E7
3CA4 B12
3CA5 B12
3CA6 B1
3CA7 B1
3CA9 B12
3CAA B12
3CAB C12
3CAC C12
3CAD C12
3CAE C12
7C00-4 B1
9C10 B7
FI-RE51S-HF
TX1B+
TX1C-
TX3B+
TX3C-
+3V3 +3V3
FC08
TXDAT-
TXDAT+
TXCLK-
TXCLK+
RES
FI-RE41S-HF
60 61
58 59
56 57
54 55
D
E
D
E
50
48
46
44
42
51
49
47
45
43
2CH4
10p
2CH5 10p
RES
4p7
RES
RES
4p7
FCBN
ICA1
ICAE
9CA1
52 53
2CA4
2CA5 4p7
RES
2CAY
2CAZ 4p7
RES
7C00-4
FC10
FCJ4
3CA4
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
SDA-DISP
SCL-DISP
LAMP-ON-OUT
BACKLIGHT-OUT
PNX5100E
FCAS
FCAT
9C10
RES
3CA5
100R
100R
3CA9
3CAA
FC12
TX1C+
TX3C+
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
Φ
ICAA ICA9
LVDS_TX RGB_CLK
FC19
FC13
3CAB
E17
E14
A22
100R
LVDS1
2CH6
RES
ICA2
IREF
9C11
RES
TX1CLK-
TX3CLK-
100R
LVDS2
RES
RES
4p7
RES
4p7
CTRL-DISP4
CTRL-DISP3
CTRL-DISP2
CTRL-DISP1
10p
B21
A21
B14
A14
RES
RES
FCAV
3CAC
100R
3CAE
100R
100R
3CAD
100R
FC14
TX2E+
TX4E+
TX4E-
2CA6
2CA7 4p7
RES
2CB0
2CB1 4p7
RES
AP
AN
AP
AN
RES 9C31
RES 9C32
FC15
TX2E-
2CH7
RES
FCJ5
FC16
RES
TX1CLK+
TX1D-
TX3CLK+
TX3D-
D21
C21
D14
C14
10p
TX2D+
TX2D-
TX4D+
TX4D-
FCAB
BP
BN
BP
BN
TX1A-
TX1A+
TX1B-
TX1B+
TX1C-
TX1C+
TX3A-
TX3A+
TX3B-
TX3B+
TX3C-
TX3C+
FCA0
FCA1
FCAW
FCAZ
FCB1
E21
E20
E13
E12
FCAY
FCB0
RES
4p7
RES
4p7
TX2CLK+
TX2CLK-
TX4CLK+
TX4CLK-
CLKP
CLKN
CLKP
LOUT3
CLKN
LOUT1
2CA8
2CA9 4p7
RES
FCA2
FCA4
2CB2
2CB3 4p7
RES
FCA3
C20
B20
C13
B13
TX2C+
TX2C-
TX4C+
TX4C-
TX1D+
TX1E-
TX3D+
TX3E-
CP
CN
CP
CN
F
G
H
I
F
G
H
I
FCA5
FCA7
TX1CLK-
TX1CLK+
TX3CLK-
TX3CLK+
FCB2
B19
A19
B12
A12
FCA6
TX2B+
TX2B-
TX4B+
TX4B-
FCB3
DP
DN
DP
DN
RES
4p7
RES
FCB4
FCJ5 C7
2CAA
2CAB 4p7
RES
TX1D-
TX1D+
TX1E-
TX1E+
2CB4
2CB5
TX3D-
TX3D+
TX3E-
TX3E+
4p7
D19
C19
D12
C12
FCA8
FCAA
4p7
FCB5
FCB7
TX2A+
TX2A-
TX4A+
TX4A-
ICA1 B8
EP
EN
EP
EN
TX1E+
FCA9
TX3E+
RES
FCB6
ICA2 B8
ICA9 B1
B18
A18
B11
A11
TX1E+
TX1E-
TX3E+
TX3E-
AP
AN
AP
AN
ICAA B1
FCB8
FCBA
FCBC
ICAE B14
TX2A-
TX2A+
TX2B-
TX2B+
TX2C-
TX2C+
FCAC
FCAE
TX4A-
TX4A+
TX4B-
TX4B+
TX4C-
TX4C+
D18
C18
D11
C11
FCB9
FCBB
FCBD
TX1D+
TX1D-
TX3D+
TX3D-
FCAD
BP
BN
BP
BN
FCAF
E19
E18
E11
E10
FCAG
FCAH
TX1CLK+
TX1CLK-
TX3CLK+
TX3CLK-
CLKP
CLKN
CLKP
LOUT4
CLKN
LOUT2
TX2A-
TX2A+
TX2B-
TX4A-
TX4A+
TX4B-
FCAJ
FCBE
C17
B17
C10
B10
RES
4p7
RES
4p7
TX1C+
TX1C-
TX3C+
TX3C-
TX2CLK-
TX2CLK+
TX4CLK-
TX4CLK+
CP
CN
CP
CN
2CAC
2CAD 4p7
RES
FCAK
2CB6
2CB7 4p7
RES
FCBF
8
7
B16
A16
B9
A9
FCAM
FCBG
TX1B+
TX1B-
TX3B+
TX3B-
TX2D-
TX2D+
TX2E-
TX2E+
TX4D-
TX4D+
TX4E-
TX4E+
DP
DN
DP
DN
6
FCAN
FCAR
FCBH
FCBK
5
FCAP
FCBJ
4
D16
C16
D9
C9
TX1A+
TX1A-
TX3A+
TX3A-
EP
EN
EP
EN
3
2
RES
4p7
RES
4p7
FCBP
FCBR
RES
1
FCBM
3CA2
100R
2CAE
2CAF 4p7
RES
SCL-DISP
SDA-DISP
2CB8
2CB9 4p7
RES
8
3CA3
1G50
7
TX2B+
TX2C-
TX4B+
TX4C-
100R
RES
6
9CA0
FC17
+VDISP1
5
TO DISPLAY
4
3
RES
4p7
RES
4p7
2
2CAG
2CAH 4p7
RES
2CBA
2CBB 4p7
RES
1
1G51
TX2C+
TX4C+
TO DISPLAY
TX2CLK-
TX4CLK-
RES
4p7
RES
4p7
J
J
2CAJ
2CAK 4p7
RES
2CBC
2CBD 4p7
RES
TX2CLK+
TX2D-
TX4CLK+
TX4D-
9C11 C7
9C31 C8
RES
4p7
RES
4p7
2CAM
2CAN 4p7
RES
2CBE
2CBF 4p7
RES
9C32 C8
9CA0 E14
9CA1 B14
9CA2 B8
9CA3 B8
9CA4 B8
9CA5 B8
FC08 B7
TX2D+
TX2E-
TX4D+
TX4E-
K
L
K
L
G
H
G
H
RES
4p7
RES
4p7
2CAP
2CAR 4p7
RES
2CBG
2CBH 4p7
RES
TX2E+
TX4E+
FC10 B7
FC12 C12
FC13 C13
FC14 C13
FC15 C13
FC16 C13
FC17 E14
FC19 B12
FCA0 C7
FCA1 C7
FCA2 C8
FCA3 C7
FCA4 C8
FCA5 C7
FCA6 D8
FCA7 D7
FCA8 D8
FCA9 D7
FCAA D8
M
N
M
N
O
P
1
2
3
4
5
6
7
8
9
10
11
12
13
14
O
P
CHN
SETNAME
CLASS_NO
2
2008-11-21
LVDS PNX5100
8204 000 8928
TV543 R2 LDIPNX
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
DATE
9
130
5
A2
C
ROYAL PHILIPS ELECTRONICS N.V. 2008
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_522_090302.eps
090302
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 108
SSB: PNX5100 - Control
1
2
3
4
5
6
8
9
10
11
12
13
7
A
B
A
B
C
D
E
F
G
H
I
1CD0 A2
2CD0 A2
2CD1 A2
3C40 C1
3CD0 B2
1
2
3
4
5
6
7
3CD1-1 C2
3CD1-2 C2
3CD1-3 C2
3CD1-4 C1
3CD2 C2
3CD3 B2
3CD7 B5
3CD8 B5
3CD9 B5
3CDA B5
3CDB D7
3CDC D6
3CDD D6
7C00-1 A3
7CD0 C4
9CD0 D7
FCD0 B3
FCD1 B3
FCD2 B3
FCD3 B3
FCD4 B3
FCD6 D5
FCD8 B3
FCD9 D5
ICD8 B3
PNX5100 : CONTROL
C
A
A
7C00-1
1CD0
27M
PNX5100E
Φ
CONTROL
AE13
AF13
AF14
AE8
IN
TX
RX
UA1
UA2
1
AF8
OUT XTAL
OUT2
AC8
AD8
TX
RX
3CD0
CLK-OUT-PNX5100
3CD3
100R
K2
K1
3CD7
100R
100R
D
SCL-SSB
SDA-SSB
10K
SCL
SDA
FCD0
FCD2
FCD4
H4
H2
H3
J1
3CD8
3CDA
EJTAG-PNX5100-TCK
EJTAG-PNX5100-TDI
EJTAG-PNX5100-TDO
EJTAG-PNX5100-TMS
EJTAG-PNX5100-TRSTn
TCK
TDI
TDO
TMS
TRST
FCD1
L2
L1
3CD9
100R
100R
RES
SCL-AMBI-3V3
SDA-AMBI-3V3
SCL
SDA
FCD3
2
B
B
C
D
J2
RES
AD12
PNX5100-RST-OUT
RESET_SYS
FCD8
ICD8
AF24
R1
RESET-PNX5100
RESET_IN
OBSERVE
VPP_ID
G22
H22
W22
Y22
NC
E
AB21
+3V3
+3V3
+3V3 +3V3 +3V3 +3V3
C
+3V3
F
7CD0
M24C16-WDW6
Φ
C08 OR C16
FCD6
3CDB
4K7
(2Kx8)
EEPROM
7
6
5
WC-EEPROM-PNX5100
WC-EEPROM-PNX5100
+3V3
WC
SCL
SDA
3CDC
1
2
3
SCL-SSB
SDA-SSB
0
1
2
100R
ADR
3CDD
100R
only for DEBUG
D
G
H
I
FCD9
1
2
3
4
5
6
7
CHN
SETNAME
CLASS_NO
2
2008-11-21
CONTROL PNX5100
TV543 R2 LDIPNX
J
J
8204 000 8928
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
DATE
9
130
6
A3
C
ROYAL PHILIPS ELECTRONICS N.V. 2008
7
1
2
3
4
5
6
8
9
10
11
12
13
18310_523_090302.eps
090302
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 109
SSB: PNX5100 - PCI
1
2
3
4
5
6
8
9
10
11
12
13
7
3CF1 C5
1
2
3
4
5
6
7
8
3CFK-1 B5
3CFK-2 B5
3CFK-3 B5
3CFL-1 B5
3CFL-2 B5
3CFL-3 B5
3CFN B5
7C00-2 A3
IC50 C5
A
A
B
C
D
E
F
G
H
I
PNX5100 : PCI
7C00-2
PNX5100E
Φ
AF5
0
AE5
AD5
AC5
AF4
W3
U2
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
PCI-CBE0
PCI-CBE1
PCI-CBE2
PCI-CBE3
PCI-PAR
PCI-FRAME
PCI-IRDY
PCI-TRDY
PCI-STOP
PCI-DEVSEL
PCI-AD25
PCI-PERR
PCI-SERR
0
PCI_XIO
A
A
B
C
D
E
AE4
1
1
2
3
AD4
2
CBE
IC51 C5
AF3
3
AE3
4
PAR
FRAME
IRDY
TRDY
STOP
DEVSEL
IDSEL
PERR
SERR
REQ
REQA
REQB
GNT
GNTA
GNTB
INTA
AF2
5
B
AB2
6
V1
AB1
7
V2
AA4
8
V4
AA3
9
V3
AA2
10
AA1
11
Y4
12
Y3
13
Y2
14
Y1
15
W4
16
U1
17
T4
18
T3
19
T2
20
T1
21
R4
22
R3
23
R2
24
P4
25
P3
26
P2
27
P1
28
N4
29
N3
30
N2
31
L4
W1
W2
AD6
AC7
AD7
AE6
AF6
AE7
M1
RES 3CFK-1 1
RES 3CFK-3 3
RES 3CFK-2 2
RES 3CFL-1 1
RES 3CFL-3 3
RES 3CFL-2 2
3CFN
8
6
7
8
6
7
100R
100R
100R
100R
100R
100R
10K
B
AD
C
+3V3
L3
H1
PCI-CLK-PNX5100
CLK
PLL_OUT
XIO
IC50
IC51
M2
M3
M4
N1
AC6
AF7
0
1
2
3
SEL
D
3CF1
10K
C
+3V3
ACK
AD25
E
D
F
E
G
1
2
3
4
5
6
7
8
H
I
CHN
SETNAME
CLASS_NO
2
2008-11-21
PCI PNX5100
J
J
8204 000 8928
TV543 R2 LDIPNX
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
DATE
9
130
7
A3
C
ROYAL PHILIPS ELECTRONICS N.V. 2008
7
1
2
3
4
5
6
8
9
10
11
12
13
18310_524_090302.eps
090302
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 110
SSB: PNX5100 - Display-Interfacing
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1C01 A5
ICG3 C2
ICG4 D4
ICG5 D4
ICG6 D5
ICG7 E2
ICG8 E2
ICG9 E2
ICGA E2
ICGH H12
ICGK G13
ICGM G12
ICGN G11
ICGP G11
ICGR G10
ICGV B8
ICGW C3
ICGY B12
ICGZ B8
ICH1 G9
ICH2 G9
ICH3 H9
ICH4 A8
ICH5 D10
ICH6 D11
ICH7 D11
ICH8 D12
ICH9 D13
ICHA B8
ICHB B8
1
2
3
4
5
6
7
8
9
10
11
12
13
14
1C02 B5
A
B
C
A
B
C
2C03 H5
2C04 G4
2CG0 A5
2CG1 B5
2CG2 C4
2CG3 C2
2CG4 D5
2CG5 F5
2CG6 F5
2CG7 F5
2CG8 F5
2CGB H12
2CGC H12
2CGD G11
2CH0 E11
2CH1 E12
3C37 G3
+VDISP
PNX5100 : DISPLAY-INTERFACING
A
B
C
D
E
F
G
H
I
A
BACKLIGHT-OUT2
CTRL4-PNX5100
5CG0
FCG0 BCG5
1C01
3.0A 32V
+VDISP2
30R
T
7C00-3
PNX5100E
5CG1
+3V3
GΦPIO
AE24
AF25
AF26
C24
C26
B25
B26
A26
A25
A24
B24
A23
B23
C23
B22
C22
ICH4
30R
0
1
RES
ICHA
ICHB
2
3
4
3C44
BACKLIGHT-PWM-ANA-SSB
LCD-PWR-ON
BACKLIGHT-PWM-ANA-DISP
7CG8
PDTA114EU
5
100R
6
ICGY 3CH0
100R
9CG1
RES
9CG0
BACKLIGHT-BOOST
3C38 G3
+3V3
7
GPIO
B
C
D
E
F
G
H
I
3C39 G3
5CG2
FCG1
BCG6
+VDISP1
1C02
8
BOOST-CTRL
3C42 G9
9
ICGZ
RES
FAN-CTRL-1
30R
3.0A
T
32V
10
11
12
13
14
15
3C43 A7
ICGV
FAN-CTRL-2
3C44 B8
BACKLIGHT-CTRL
CTRL3-PNX5100
CTRL2-PNX5100
CTRL1-PNX5100
5CG3
FCG8
3CG0-2 D5
3CG0-3 D5
3CG0-4 C3
3CG1 C2
3CG5 D4
3CG6 E5
3CG7 E5
3CG8 E5
3CG9 E5
3CGA E3
3CGF E3
3CGG E3
3CGH E3
3CGJ E3
3CGN H11
3CGP H12
3CGR H13
3CGS G12
3CGT G11
3CGV G13
3CGZ B12
3CH0 B12
3CH1 B12
3CH2 C4
3CH3 G11
3CH4 H11
3CH5 G11
3CH7 C2
3CH8 D11
3CH9 D11
3CHA D13
3CHB D12
3CHC D11
3CHD D11
3CHE E11
3CHF E12
3CHG E13
5CG0 A4
5CG1 A4
5CG2 B4
5CG3 B4
6CG0 C3
6CG2 C5
7C00-3 A9
7C03 G4
7CG0
30R
3CH2
SI4835DDY
BOOST-CTRL
D
E
6CG2
D
E
RES
7CG1
SI3441BDV
2K2
LTST-C190KGKT
+12VD
ICG2
3CH7
+3V3
+12VD
47K
2CG3
ICG1
3CG1
47R
3CG0-4
47K
5
4
ICGW
1u0
ICG3
7CG2
BC847BW
6CG0
ICG4
ICG6
3CG0-3
3
BZX384-C5V6
3CG0-2
47K
1
2
7
3
6
+3V3
47K
2
7CH1-1
BC847BPN(COL)
RES
6
1
ICH9
2
F
G
H
I
ICG5
F
G
H
I
VDISP-SWITCH
4
ICH7
3CG5
4K7
3CHB
ICH8
3
+3V3
BC847BPN(COL)
7CH1-2
+3V3
ICH6
RES
5
12K
3CHC
4K7
1
7CH0
BC847BW
2
3
ICH5
IC01
2CH0
470p
3CGA
LCD-PWR-ON
100R
3CGF
RES
ICG7
ICG8
ICG9
ICGA
BCG0
BCG1
BCG2
BCG3
FCG2
FCG3
FCG4
FCG5
3CHE
FCG7
9CH0
RES
CTRL1-PNX5100
CTRL2-PNX5100
CTRL3-PNX5100
CTRL4-PNX5100
CTRL-DISP1
CTRL-DISP2
CTRL-DISP3
CTRL-DISP4
47R RES
3CGG
1K0
RES
47R RES
3CGH
47R RES
3CGJ
47R RES
+12VD
RESERVED
NOTE : CAN BE
CAPACITOR OR
WIRE BRIDGE
RES
RES
7CG0 B2
7CG1 C3
7CG2 C4
7CG4 H12
7CG5 G12
7CG6-1 G13
7CG6-2 G13
7CG8 B12
7CH0 D12
7CH1-1 D13
7CH1-2 D13
9CG0 B3
9CG1 B3
9CG4 H13
9CG7 G10
9CG8 G10
9CG9 H10
9CH0 E13
BCG0 E6
BCG1 E6
BCG2 E6
BCG3 E6
BCG5 A5
BCG6 B5
FCG0 A5
FCG1 B5
FCG2 E6
FCG3 E6
FCG4 E6
FCG5 E6
FCG6 H13
FCG7 E13
FCG8 B4
IC01 E3
+3V3
+3V3
2C04
100n
6
7C03
IC02
3C37
ICGK
2
74LVC1G125GW
7CG6-1
BACKLIGHT-CTRL
CTRL4-PNX5100
BC847BPN(COL)
1
4
ICGN
3CGS
3
ICGM
J
J
47R
2
1
7CG6-2
BC847BPN(COL)
4
ICGP
5
CTRL-DISP4
ICH1
ICH2
470K
7CG5
RES
3CH5
4K7
9CG7
ICGR
1
BACKLIGHT-CTRL
EN
BC847BW
3
IC03
RES
3C38
RES
2
9CG8
RES
BACKLIGHT-CONTROL-FPGA-IN
47R
2CGD
470p
RES
FCG6
3CH4
10K
9CG4
RES
+3V3F
K
L
K
L
+3V3
+3V3
ICGH
ICH3
7CG4
BACKLIGHT-PWM-ANA-SSB
PDTC114EU
BACKLIGHT-OUT
M
N
M
N
O
P
IC02 G3
IC03 G3
ICG1 C4
ICG2 C2
1
2
3
4
5
6
7
8
9
10
11
12
13
14
O
P
CHN
SETNAME
CLASS_NO
2
2008-11-21
DISPLAY INTERF PNX5100
TV543 R2 LDIPNX
8204 000 8928
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
DATE
9
130
8
A2
C
ROYAL PHILIPS ELECTRONICS N.V. 2008
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_525_090302.eps
090302
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 111
SSB: PNX5100 - Debug
Personal Notes:
1
2
3
4
5
6
A
A
3CJ0 C3
3CJ1 C3
6CJ0 C3
7CJ0 D3
FCJ0 D3
B
C
D
E
F
G
H
I
B
C
D
E
F
G
H
I
1
2
3
4
PNX5100 : DEBUG
RESERVED
A
B
C
D
A
B
C
D
+3V3
+3V3
PNX5100-RST-OUT
7CJ0
PDTC114EU
FCJ0
1
2
3
4
CHN
SETNAME
CLASS_NO
2
2008-11-21
DEBUG SHEET PNX5100
TV543 R2 LDIPNX
J
8204 000 8928
J
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
DATE
9
130
9
A4
C
ROYAL PHILIPS ELECTRONICS N.V. 2008
10000_012_090121.eps
1
2
3
4
5
6
090121
18310_526_090302.eps
090302
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 112
2
SSB: FPGA Backlight-LVDS I C-Mux
1
2
3
4
5
6
7
8
9
10
11
12
13
10
14
15
16
17
13
18
19
20
1F03 H5
1F05 H1
1F29 I6
6F13 E2
6F82 E6
6F83 E6
6F84 E6
6F85 F6
7F00 B8
7F01 H9
7F05 E2
7F06 B2
7F07 D2
7F08 A6
9F00 D11
9F01 E11
9F02 E11
9F03 D10
9F04 D7
9F05-1 F9
9F05-2 F9
9F05-3 F9
9F05-4 F9
9F06 D10
9F08 E10
9F09 A5
9F10 A5
9F11 A5
9F12 A5
9F13 A8
9F14 A8
9F15 A8
9F16 A8
9F17 B6
9F18 B6
9F19 B6
9F20 B6
9F21 A12
9F22 A12
9FA1 A6
9FA2 A6
FF00 I2
1
2
3
4
5
6
7
8
9
11
12
14
+3V3
A
B
C
A
B
C
1F50 B14
1F53 E14
RESERVED
RES 3F36
SCL-DISP
+3V3
+3V3
+3V3
FPGA Backlight-LVDS & I2C-MUX
4K7
1M59 A14
1M71 C14
2F00 I2
2F01 H9
2F02 I10
2F03 D11
2F04 C11
2F05 I4
RES 3F37
SDA-DISP
4K7
3F38
+3V3
SCL-BOLT-ON
5F04
120R
FF17
+3V3M
+3V3
+3V3M
RES 4K7
9F13
7F08
A
A
PCA9540B
SCL-DISP
SCL-SET0
SCL-BOLT-ON
SCL-SET1
SDA-DISP
SDA-SET0
SDA-BOLT-ON
SDA-SET1
VDD
SC0
SC1
SD0
SD1
5
8
4
7
1M59
FFA7
3FA5
3FA6
220R
IFA8
2F06 D13
2F07 D13
2F08 E13
2F09 C2
2F10 C2
2F11 D3
2F12 C2
2F13 C3
2F14 C3
2F15 C3
2F16 C2
2F17 C3
2F18 D1
2F19 D2
2F20 B2
2F21 C3
2F22 B2
2F23 B2
2F24 B2
2F25 B3
2F26 A11
2F27 A11
2F28 E13
2F29 F13
2F30 A2
2F31 A2
2F32 A2
2F33 A2
2F34 B3
2F35 B3
2F36 A3
2F37 A3
2F38 A3
2F39 A3
2F40 F13
2F41 G13
2F42 G13
2F46 C13
2F47 C13
2F48 C14
2F49 A6
2FA6 B13
2FA7 B13
2FND F11
2FNE F11
3F00-1 I3
3F00-2 I2
3F00-3 H2
3F00-4 H2
3F01 I2
9F14 RES
9F15
9F21
9F22
SCL-AMBI-3V3
SDA-AMBI-3V3
1
2
3
4
5
6
7
9FA1
9FA2
FFA8
SCL-SET
SCL-SET0
SCL-SET1
220R
FFA9
9F09 RES
9F10 RES
1
2
SCL
SDA
IFA9
2
I
C
9F16 RES
INP
FIL
RES
5F03
-BUS
9F11 RES
9F12 RES
SDA-SET0
SDA-SET1
SDA-SET
CTRL
VSS
FF10
+2V5M
+2V5
120R
3F39
SDA-BOLT-ON
+3V3
FF20
4K7
RES
TO
+3V3
AMBILIGHT
1F50
5F05
B
C
D
E
F
G
H
I
B
C
D
E
F
G
H
I
9F17
9F18
9F19
9F20
FF08
SCL-SET
SDA-SET
SCL-SET
SDA-SET
SCL-DISP
SDA-DISP
SCL-BOLT-ON
SDA-BOLT-ON
7F06
LD3985M25
FF11
FF16
+3V3
RES
RES
FF15
30R
D
E
D
E
1
5
4
+3V3
IF29
IN OUT
IF12
5F06
3
7F00
+5V
INH BP
XC3S100E-4VQG100C
RES 30R
COM
VCCAUX
VCCINT
Φ
SPARTAN-3 FPGA
1M71
IF20
FF21
FF22
2
3F40
3F41
SCL-SET
SDA-SET
RES
5F02
1
2
3
4
100R
FF09
IF21
78
79
83
84
85
86
24
25
26
27
32
33
35
36
CSO-B
BACKLIGHT-CONTROL-FPGA-IN
+1V2-PNX85XX
+1V2M
IO_L01P
IO_L01P|CSO_B
IO_L01N|INIT_B
3F13
RES 10K
IF13
INIT
1
+3V3M
100R
120R
IO_L01N
IO_L02P|GCLK4
IO_L02N|GCLK5
IO_L03P|GCLK6
IO_L03N|GCLK7
IO_L02P|DOUT|BUSY
IO_L02N|MOSI|CSI_B
IO_L03P|D7|GCLK12
IO_L03N|D6|GCLK13
IO_L04P|D4|GCLK14
IO_L04N|D3|GCLK15
1735446-4
3F12
MOSI
BL-CS
BL-MISO
FF01 I1
100R
TO
FF02 H10
FF03 H8
FF04 I8
IF07
IF09
90
91
94
95
98
TEMPERATURE
SENSOR
BL-MOSI
BL-CLK
IO_L05P|GCLK10
IO_L05N|GCLK11
IO_L06P
IO_L06N|VREF
IO_L07P
IO_L07N|HSWAP
FF05 I8
40
41
43
44
47
48
49
50
7F07
IO_L06P|D2|GCLK2
IO_L06N|D1|GCLK3
IO_L07P|M0
LD1117DT12
BL-HS
BL-VS
CLK-OUT-PNX5100
MISO
FF06 G4
FF07 G4
FF08 B6
FF09 C3
FF10 A3
FF11 B6
FF12 F7
FF13 G5
FF14 G4
FF15 B6
FF16 B6
FF17 A3
FF20 B14
FF21 C14
FF22 C14
FF23 F14
FF24 F14
FF25 F14
FF30 G5
FF31 F14
FF40 E14
FF41 E14
FF42 E14
FF43 E14
FF44 E14
FF54 F6
FFA7 A13
FFA8 A14
FFA9 A13
IF00 H9
3F17
100R
F
G
H
I
F
G
H
I
IF02 9F06
SDA-SET
SCL-SET
BL-CLK
+3V3
3
2
9F04
RES
1K0
99
IF14
+3V3
+3V3M
IN OUT
COM
IO_L07N|DIN|D0
IO_L08P|VS2
IF15
IF16
IF17
3F11
88
89
IP_L04P|GCLK8
IP_L04N|GCLK9
IO_L08N|VS1
IO_L09P|VS0
3F09
100R
CCLK
IO_L09N|CCLK
3F18
100R
1
2F03
92
IO
10p
38
39
IF08
IF18
IP_L05P|RDWR_B|GCLK0
IP_L05N|M2|GCLK1
82
97
9F03
9F00
+3V3M
+3V3M
+3V3
VCCO
3F07
3F08
1K0 RES
1K0 RES
30
BANK0
IP|VREF
9F01
9F02
+3V3
+3V3
3F19
100R
53
54
57
58
60
61
62
63
65
66
67
68
70
71
34
42
3F22
3F23
100R
100R
SCL-SSB
SDA-SSB
IO_L01P
IO|D5
IO|M1
3F10
9F08
RES
1K0
IF19
IO_L01N
IO_L02P
IF32
IF33
31
45
+3V3M
+3V3M
IO_L02N
VCCO
BL-SCK
BL-WS
BL-SD0
BL-OSCLK
IO_L03P|RHCLK0
IO_L03N|RHCLK1
IO_L04P|RHCLK2
IO_L04N|RHCLK3
IO_L05P|RHCLK4
IO_L05N|RHCLK5
IO_L06P|RHCLK6
IO_L06N|RHCLK7
IO_L07P
1F53
BANK2
3F20
100R
FF40
FF41
BL-MOSI
1
2
3
2
3
IO_L01P
IO_L01N
IO_L02P
IF36
IF37
LTST-C190KGKT
LTST-C190KGKT
LTST-C190KGKT
LTST-C190KGKT
+2V5M +2V5M
6F82
3F82
3F83
3F84
3F85
470R
6F13
SML-310
4
470R
470R
470R
FF44
4
7F05
BC847BW
3F24
470R
FF42
3F02 H8
3F03 H10
3F06 I8
6F83
5
+3V3M
5
6
IO_L02N|VREF
IO_L03P|LHCLK0
IO_L03N|LHCLK1
IO_L04P|LHCLK2
IO_L04N|LHCLK3
IO_L05P|LHCLK4
IO_L05N|LHCLK5
IO_L06P|LHCLK6
IO_L06N|LHCLK7
IO_L07P
9
3F25
100K
DONE
10
11
12
15
16
17
18
22
23
6F84
6F85
FF43
7
IF34
IF35
8
IO_L07N
3F21
100R
3F07 D11
3F08 D11
3F09 D11
3F10 E11
3F11 D7
3F12 C11
3F13 C10
3F14 F7
FF23
BL-MISO
BL-CS
BL-VS
+2V5M
9
69
9F05-4
9F05-3
9F05-2
9F05-1
IP|VREF
VCCO
10
FF24
FF31
TXDAT-
TXDAT+
11
12
13
55
73
+3V3M
+3V3M
FOR
DEBUG
AMBI-VS
FF25
BANK1
14
IF38
IF39
16 15
IO_L07N
3F29
100R
TXCLK-
TXCLK+
FF54
51
1
13
DONE
502382-1470
IF01
DONE
IP
3F15-1 G4
3F15-2 G4
3F15-3 G5
3F16-1 H4
3F16-2 H4
3F16-3 H4
3F16-4 H5
3F17 D13
3F18 D13
3F19 E13
3F20 E13
3F21 F13
3F22 E7
3F23 E7
3F24 E1
3F25 E2
3F26 F6
IF01 F10
IF02 D10
IF07 C10
IF08 D9
IF09 C10
IF12 B3
IF13 C10
IF14 D7
8
20
PROG-B
+2V5M
+2V5M
PROG_B
VCCO
FF12
77
TCK
TDI
TDO
TMS
BANK3
FF06
100
76
3F30
J
J
FF14
FF13
75
100R
GND
FF07
IF15 D10
IF16 D10
IF17 D10
IF18 D9
3F31
100R
BL-HS
IF19 E9
K
L
K
L
IF20 C13
IF21 C13
IF29 B14
IF32 E7
FF30
+3V3
3F27 F2
3F28 F4
IF33 E7
IF34 F7
FOR FACTORY USE ONLY
3F29 F13
3F30 G13
3F31 G13
3F36 A8
3F37 A8
3F38 A8
3F39 B8
3F40 C13
3F41 C13
3F79 F10
3F80 F10
3F82 E7
3F83 E7
3F84 E7
3F85 E7
3FA5 A12
3FA6 A12
3FAA A10
3FAB A10
5F02 C1
5F03 A2
5F04 A2
5F05 B14
5F06 B14
IF35 F7
3F02
IF00
CSO-B
IF36 E10
IF37 E10
IF38 F10
IF39 F10
IFA8 A11
IFA9 A10
4K7 RES
7F01
M25P20-VMN
1F05
*
3F00-4
4
5
7
1F03
VCC
CSO-B
MOSI
MISO
CCLK
FF03
1
2
3
4
5
6
7
FF02
3F03
10R
100R
3F00-2
100R
FF00
3
1
6
3F00-3
100R
3F00-1
5
6
1
3
7
MOSI
CCLK
CSO-B
MISO
Φ
1
2
3
4
5
6
7
D
C
S
Q
2
2
1F29
2M
FF04
FF05
8
HOOK1
FLASH
100R
3F06
100R
M
N
M
N
O
P
FF01
+3V3M
+3V3M
W
9
8
HOLD
VSS
FOR
DEBUG
3F01
PROG-B
100R
1
2
3
4
5
6
7
8
9
10
11
12
13
14
1X02
EMC HOLE
O
P
CHN
SETNAME
CLASS_NO
2
2008-11-21
FPGA Backlight-LVDS & I2C-MUX
8204 000 8933
TV543 R2 LDIPNX
2008-10-10
NAME Maelegheer Ingrid
CHECK
3
SUPERS.
DATE
8
130
1
A2
2007-12-04
C
ROYAL PHILIPS ELECTRONICS N.V. 2005
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_527_090302.eps
090302
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 113
SSB: U-Wand
Personal Notes:
1
2
3
4
5
6
A
A
B
C
D
E
F
G
H
I
B
1F10 B3
1R20 A3
5FC5 A3
5FC6 A2
5FC7 A3
5FC8 A2
5FC9 A3
FFC2 A3
FFC3 A3
FFC5 A3
FFHC B3 FFHE B3 FFHG C3 FFHJ C3
FFHL C3 IFC1 A3
IFC5 A2
FFC4 A3
FFHB B3 FFHD B3 FFHF C3 FFHH C3 FFHK C3 IFC0 A2
C
1
2
3
4
D
U-WAND
RES U-WAND
1R20
A
A
B
C
FFC2
5FC5
30R
IFC0
TXD-MIPS2
RXD-MIPS2
1
2
3
4
5
5FC6
IFC5
5FC8
FFC3
FFC4
30R
30R
5FC7
IFC1
5FC9
E
30R
30R
+12V
FFC5
1735446-5
1F10
B
C
F
G
H
I
FFHB
EJTAG-TRSTN
EJTAG-DETECT
EJTAG-TDI
1
2
FFHC
FFHD
3
4
FFHE
FFHF
FFHG
EJTAG-TDO
EJTAG-TMS
EJTAG-TCK
5
FOR FACTORY
USE ONLY
6
7
8
9
10
11
12
13
14
FFHJ
FFHK
FFHL
FFHH
5-147279-3
+3V3
1
2
3
4
CHN
SETNAME
CLASS_NO
2
2008-11-21
U-WAND
J
8204 000 8933
J
TV543 R2 LDIPNX
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
8
130
2
A4
DATE
2007-12-04
C
ROYAL PHILIPS ELECTRONICS N.V. 2007
10000_012_090121.eps
1
2
3
4
5
6
090121
18310_528_090302.eps
090302
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 114
SSB: Temperature & Fan control
1
2
3
4
5
6
8
9
10
11
12
13
7
1F01 A1 IF66 B9
1F02 B1 IF67 E4
2F50 B2 IF68 D7
2F51 B2 IF69 D7
2F52 B2
2F53 C2
2F54 C2
2F55 C2
2F56 E4
2F57 E4
2F58 B8
2F59 C8
2F60 E8
2F61 F8
3F50 E3
3F51 E2
3F52 E5
3F53 E3
3F54 E4
3F55 E5
3F56 E2
3F57 F2
3F58 F3
3F59 D2
3F60 A7
3F61 B7
3F62 B7
3F63 C8
3F64 C9
3F65 B9
3F66 D7
3F67 D7
3F68 E8
3F69 E8
3F70 E6
3F71 F8
3F72 F8
3F73 F8
6F50 B7
6F51 D2
7F50 B7
7F51 C8
7F52 D3
7F53 E4
7F54 D9
7F55 E3
7F56 F9
7F57 F6
9F07 F6
9F50 B8
9F51 B9
9F52 C9
FF49 A2
FF50 A3
FF51 B3
FF52 C3
FF53 C3
IF50 D2
1
2
3
4
5
6
7
8
9
A
B
C
D
E
F
G
H
I
A
B
C
D
E
F
G
H
I
TEMPERATURE- & FAN-CONTROL
+3V3
A
B
C
D
E
F
A
B
C
D
E
F
1F01
FF49
FF50
+12V
1
2
3
FAN1-DRV
TACHO1
FF51
7F50
LM75ADP
IF62
3
1
2
7
6
5
OS
A0
A1
A2
IF63
IF65
3F61
IF64
SDA-SET
SCL-SET
SDA
SCL
100R
3F62
IF66
100R
1F02
FF52
FF53
1
2
3
+12V
FAN2-DRV
TACHO2
+3V3
7F51
+12V
VDD
1
2
3
5
FAN1-OUT
Φ
LED0
LED1
LED2
LED3
3F66
100R
IF69
IF68
6
SCL-SET
SDA-SET
TACHO1-INV
SCL
3F67
100R
7
SDA
PCA9533
VSS
TACHO2-INV
+12V
+12V
+12V
IF50
7F54
7F52
BCP53
3F51
10R
FAN1-DRV
7F53
TACHO1
IF51
IF52
3F53
100R
BC857BW
IF57
TACHO1-INV
3F68
27K
1
IF67
3F54
100R
IF53
3F55 IF54
22K
IF58
PDTA114EU
+3V3
3F56
10R
RES
PDTC114EU
7F57
IF51 E3
IF52 E3
+3V3
+12V
7F56
IF53 E4
RES
FAN1-OUT
RES
3F57
IF59
7F55
IF55
IF54 E5
BCP53
FAN2-DRV
IF55 F2
RES
3
10R
IF56
3F58
IF56 F3
1
TACHO2
IF57 E8
100R
IF60
IF58 E8
TACHO2-INV
3F71
27K
FAN-CTRL-1
IF59 E6
IF61
PDTA114EU
IF60 F8
IF61 F8
IF62 B8
IF63 B7
IF64 B9
IF65 B7
1
2
3
4
5
6
7
8
9
CHN
SETNAME
CLASS_NO
2
2008-11-21
TEMPERATURE- & FAN-CONTROL
J
J
8204 000 8933
TV543 R2 LDIPNX
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
DATE
8
130
3
A3
2007-12-04
C
ROYAL PHILIPS ELECTRONICS N.V. 2007
7
1
2
3
4
5
6
8
9
10
11
12
13
18310_529_090303.eps
090303
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 115
SSB: FPGA WOW - LVDS In/Out
1
2
3
4
5
6
8
9
10
11
12
13
5FG2 E8
7
1F51 B9
1
2
3
4
5
6
7
8
9
2F62 A6
2F63 A6
2F64 A6
2F65 A6
2F66 B6
2F67 B6
2F68 B6
2F69 B6
2F70 C6
2F71 C6
2F72 C6
2F73 D6
2F74 D6
2F75 D6
2F76 E6
9FG2-1 A2
9FG2-2 A2
9FG2-3 A2
9FG2-4 A2
9FG3-1 B2
9FG3-2 B2
9FG3-3 B2
9FG3-4 B2
9FG4-1 C2
9FG4-2 C2
9FG4-3 C2
9FG4-4 C2
9FG5-1 E2
9FG5-2 D2
9FG5-3 D2
9FG5-4 D2
9FG6-1 F2
9FG6-2 E2
9FG6-3 E2
9FG6-4 E2
9FG7-1 F2
9FG7-2 F2
9FG7-3 F2
9FG7-4 F2
9FG8-1 A3
9FG8-2 A2
9FG8-3 A3
9FG8-4 A2
9FG9-1 B3
9FG9-2 B2
9FG9-3 B3
9FG9-4 B2
9FGA-1 C3
9FGA-2 C2
9FGA-3 C3
9FGA-4 C2
9FGB-1 E2
9FGB-2 D3
9FGB-3 D2
9FGB-4 D3
9FGC-1 F2
9FGC-2 E3
9FGC-3 E2
9FGC-4 E3
9FGD-1 F2
9FGD-2 F3
9FGD-3 F2
9FGD-4 F3
FFL2 E8
FPGA WOW - LVDS IN/OUT
With FPGA
RES
A
B
C
D
E
F
G
H
I
A
B
C
D
E
F
G
H
I
With FPGA
No FPGA
2F62
4p7
3FF4-4
9FG2-1
1
9FG8-1
1
TX851A-
RX51001A-
TXF1A-
RX51001A-
4
8
8
5
180R
RES
2F63 4p7
3FF4-3
9FG2-2
9FG8-2
2
TX851A+
TX851B-
RX51001A+
RX51001B-
TXF1A+
TXF1B-
RX51001A+
RX51001B-
3
2
2
7
6
7
6
7
RES
2F64 4p7
180R
3FF4-2
A
B
C
D
E
A
B
C
D
E
9FG2-3
3
9FG8-3
3
6
180R
RES
2F65 4p7
3FF4-1
180R
9FG2-4
9FG8-4
TX851B+
TX851C-
RX51001B+
RX51001C-
TXF1B+
TXF1C-
RX51001B+
RX51001C-
1
4
2F77 E6
8
5
4
5
8
4
5
FFL3
3FH4
SDA-DISP
SCL-DISP
2F78 E6
RES
2F66 4p7
2F79 E6
100R
RES
3FF6-4
180R
9FG3-1
1
9FG9-1
1
2F80 F6
8
6
8
6
2F81 F6
RES
2F67 4p7
2F82 F6
3FF6-3
9FG3-2
2
9FG9-2
2
TX851C+
RX51001C+
TXF1C+
RX51001C+
2F83 F6
3
2
7
6
7
6
7
RES
2F68 4p7
2F84 F6
180R
3FF6-2
3FH5
FFL4
2F85 C6
2FN8 F8
2FN9 B8
2FNA B8
3FE0 E5
3FE3 F5
3FE6 F5
3FF4-1 A5
3FF4-2 A5
3FF4-3 A5
3FF4-4 A5
3FF5 A5
3FF6-1 B5
3FF6-2 B5
3FF6-3 B5
3FF6-4 B5
3FF7-1 C5
3FF7-2 C5
3FF7-3 C5
3FF7-4 C5
3FF8 A5
3FF9-1 E5
3FF9-2 D5
3FF9-3 D5
3FF9-4 D5
3FFA-1 F5
3FFA-2 E5
3FFA-3 E5
3FFA-4 E5
3FFB B5
3FFC-1 F5
3FFC-2 F5
3FFC-3 F5
3FFC-4 F5
3FFE B5
3FFH C5
3FFL C5
3FFP D5
3FFT D5
3FFW E5
3FG1 A2
3FG2 A2
3FG3 B2
3FG4 B2
3FG5 C2
3FG6 C2
3FG8 D2
3FG9 D2
3FGA E2
3FGB F2
3FGC F2
3FGE E2
3FH4 A8
3FH5 B8
5FG1 E8
9FG3-3
3
9FG9-3
3
TX851CLK-
RX51001CLK-
TXF1CLK-
RX51001CLK-
100R
RES
180R
RES
RES
2F69 4p7
1F51
3FF6-1
9FG3-4
9FG9-4
TX851CLK+
TX851D-
RX51001CLK+
RX51001D-
TXF1CLK+
TXF1D-
RX51001CLK+
RX51001D-
1
1
4
8
5
4
5
8
4
5
RES
2F70 4p7
180R
3FF7-4
2
RX51001A-
RX51001A+
RX51001B-
RX51001B+
3
9FG4-1
1
9FGA-1
1
4
180R
5
RES
2F71 4p7
6
7
3FF7-3
9FG4-2
2
9FGA-2
2
TX851D+
TX851E-
RX51001D+
RX51001E-
TXF1D+
TXF1E-
RX51001D+
RX51001E-
RX51001C-
RX51001C+
8
3
2
7
6
7
6
7
RES
2F72 4p7
180R
3FF7-2
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
9FG4-3
3
9FGA-3
3
RX51001CLK-
RX51001CLK+
RX51001D-
RX51001D+
RX51001E-
180R
RES
2F85 4p7
3FF7-1
180R
9FG4-4
9FGA-4
TX851E+
TX852A-
TX852A+
TX852B-
RX51001E+
RX51002A-
RX51002A+
RX51002B-
TXF1E+
TXF2A-
TXF2A+
TXF2B-
RX51001E+
RX51002A-
RX51002A+
RX51002B-
1
4
3
2
8
5
6
7
4
5
5
6
7
4
5
RX51001E+
RES
2F73 4p7
3FF9-4
180R
9FG5-4
4
9FGB-4
4
RX51002A-
RX51002A+
RX51002B-
RX51002B+
5
RES
2F74 4p7
3FF9-3
180R
9FG5-3
3
9FGB-3
3
6
RX51002C-
RX51002C+
RES
2F75 4p7
3FF9-2
180R
9FG5-2
2
9FGB-2
2
RX51002CLK-
RX51002CLK+
RX51002D-
RX51002D+
RX51002E-
FFL3 A8
FFL4 B8
7
5
7
5
7
RES
2F76 4p7
3FF9-1
9FG5-1
9FGB-1
TX852B+
TX852C-
RX51002B+
RX51002C-
TXF2B+
TXF2C-
RX51002B+
RX51002C-
1
4
8
5
1
8
5
1
1
1
8
RX51002E+
RES
2F77 4p7
180R
3FFA-4
9FG6-4
4
9FGC-4
4
180R
+VDISP
RES
2F78 4p7
3FFA-3
9FG6-3
3
9FGC-3
TX852C+
RX51002C+
TXF2C+
RX51002C+
3
2
6
7
3
6
6
7
RES
2F79 4p7
180R
3FFA-2
FFL2
9FG6-2
2
9FGC-2
2
TX852CLK-
RX51002CLK-
TXF2CLK-
RX51002CLK-
180R
42
44
46
48
50
43
45
47
49
51
RES
2F80 4p7
3FFA-1
9FG6-1
9FGC-1
TX852CLK+
TX852D-
RX51002CLK+
RX51002D-
TXF2CLK+
TXF2D-
RX51002CLK+
RX51002D-
1
4
8
5
1
8
5
8
RES
2F81 4p7
180R
3FFC-4
9FG7-4
4
9FGD-4
4
FI-RE41S-HF
180R
RES
2F82 4p7
3FFC-3
9FG7-3
9FGD-3
3
TX852D+
TX852E-
RX51002D+
RX51002E-
TXF2D+
TXF2E-
RX51002D+
RX51002E-
F
F
3
2
3
6
7
6
6
RES
2F83 4p7
180R
3FFC-2
TO DISPLAY
9FG7-2
2
9FGD-2
2
7
180R
RES
2F84 4p7
3FFC-1
180R
9FG7-1
9FGD-1
TX852E+
RX51002E+
TXF2E+
RX51002E+
1
8
1
8
8
1
2
3
4
5
6
7
8
9
CHN
SETNAME
CLASS_NO
2
2008-11-21
FPGA WOW - LVDS IN/OUT
TV543 R2 LDIPNX
J
J
8204 000 8933
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
DATE
8
130
4
A3
2007-12-04
C
ROYAL PHILIPS ELECTRONICS N.V. 2007
7
1
2
3
4
5
6
8
9
10
11
12
13
18310_530_090303.eps
090303
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 116
SSB: FPGA WOW - Power & Control
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
11
16
12
17
18
19
20
1F00 E12
1
2
3
4
5
6
7
8
9
10
13
2FH0 B5
2FH1 B5
2FH2 A3
2FH3 A3
2FH4 A3
2FH5 A4
2FH6 E2
2FH7 E2
2FH8 E3
2FH9 E3
2FHA A3
2FHB C3
2FHC B3
2FHD B4
2FHE B4
2FHF B4
2FHG B4
2FHH B4
2FHJ B5
2FHK B5
2FHL B2
2FHM B2
2FHN C2
2FHP C3
2FHR C3
2FHS C3
2FHT B3
2FHV C3
2FHW D3
2FHZ D3
2FJ0 D3
2FJ1 D2
2FJ2 D2
2FJ3 F11
2FJ4 F11
2FJ5 F11
2FJ6 F11
2FJ7 D12
2FJ8 C2
2FJ9 C2
2FJA C3
2FJB C3
2FJC C3
2FJD F12
2FJJ B8
2FJK B7
2FJP B3
3FH0 H2
3FH1 H2
3FH2 H2
3FH3 H3
3FH6 H3
3FH7 H3
3FH8 D9
3FH9-1 D9
3FH9-2 D9
3FH9-3 E9
3FHB-1 E10
3FHB-2 E10
3FHB-3 E10
3FHB-4 E10
3FHG C9
3FHJ C12
3FHK C12
3FHL B11
3FHM B12
5FH0 A2
5FH1 B2
5FH2 C2
5FH3 D2
5FH4 E2
6FH0 I2
A
B
C
A
B
C
FPGA WOW - POWER & CONTROL
A
B
C
D
E
F
G
H
I
A
B
C
D
E
F
G
H
I
FFH0
+3V3
+1V2-PLL
IFH4
+2V5in-FPGA
+3V3
FFH1
CFH0
+1V2-FPGA
+1V2-PNX85XX
8
7FH0
M25P16
VCC
FFHP
2
5
6
1
3
7
ASDO
DCLK
nCSO
1Φ6M
Q
D
C
FFHN
FFHM
FLASH
S
FFH2
5FH1
30R
+3V3
+3V3-FPGA
W
D
E
D
E
HOLD
VSS
CONF-DONE
3FHK
100K
7FH2
BC847BW
FFHT
4
FFHS
FFH3
5FH2
30R
+2V5
+2V5out-FPGA
FFHR
+2V5
3FHG
47R
DATA0
+2V5
+2V5
+2V5 +2V5
F
G
H
I
F
G
H
I
FFH4
5FH3
30R
+2V5
+2V5in-FPGA
CFH1
+1V8-PNX5100
+1V8-PNX85XX
1F00
FFH5
FFH6
FFH7
3FHB-1
1
4
2
8
TCK
TDO
TMS
1
2
3
4
5
6
7
8
9
10
100R
3FHB-4
5
FOR
DEBUG
100R
5FH4
30R
FFHA
3FHB-2
7
+2V5
+2V5-PLL
100R
FFH8
3FHB-3
3
6
TDI
100R
FFH9
5-147279-2
FOR DEBUG
6FH1 I2
CON27
CON26
CON23
CON22
CON21
CON20
6FH2 I2
6FH3 I3
6FH6 I3
6FH7 I3
J
J
6FH8 B12
7FH0 B8
7FH2 C12
9FH0 D11
CFH0 B2
CFH1 D6
FFH0 A3
FFH1 B3
FFH2 B3
FFH3 C3
FFH4 D3
FFH5 E10
FFH6 E10
FFH7 E10
FFH8 E10
FFH9 E10
FFHA E3
FFHM B9
FFHN B9
FFHP B9
FFHR C9
FFHS C9
FFHT C11
IFH4 A7
K
L
K
L
M
N
M
N
O
P
1
2
3
4
5
6
7
8
9
10
11
12
13
O
P
CHN
SETNAME
CLASS_NO
2
2008-11-21
FPGA WOW - POWER & CONTROL
TV543 R2 LDIPNX
8204 000 8933
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
DATE
8
130
5
A2
2007-12-04
C
ROYAL PHILIPS ELECTRONICS N.V. 2007
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_531_090303.eps
090303
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 117
SSB: FPGA WOW - DDR
1
2
3
4
5
6
8
9
10
11
12
13
7
A
A
B
C
D
E
F
G
H
I
2FL0 A1
1
2
3
4
5
6
7
8
9
2FL1 A1
2FL2 B3
2FL3 B4
2FL4 B4
2FL5 B5
2FL6 C1
2FL7 B6
2FL9 B6
2FLA B8
2FLB B8
2FLC B8
2FLD C6
2FLE C6
2FLF D7
2FLH C7
2FLJ C8
2FLK C8
2FLL C8
2FLM C8
2FLN C9
2FLP A1
2FLR B4
2FLS B4
3FL0 B4
3FL1 B4
3FL2 C4
3FL3 C4
3FL4 C4
3FL5 C4
3FL6 C4
3FL7 C4
3FL8 C4
3FL9 C4
3FLA C4
3FLB C4
3FLC C4
3FLD C4
3FLE C4
3FLF C4
3FLG D4
3FLH D4
3FLJ D1
3FLK B6
3FLL B6
3FLM B9
3FLN B9
5FL0 C7
5FL1 C7
7FL0 B2
FFL0 B8
FFL1 B7
IFL1 C7
B
FPGA WOW - DDR
A
A
B
C
D
E
+2V5-DDR1
+2V5-DDR1
+2V5-DDR1
VDDQ
+2V5-DDR1
C
7FL0
EDD1216AJTA-5B-E
14
17
19
25
43
50
53
42
VDD
29
FFL1
FFL0
MM1-A0
MM1-A1
MM1-A2
MM1-A3
MM1-A4
MM1-A5
MM1-A6
MM1-A7
MM1-A8
MM1-A9
MM1-A10
MM1-A11
VREF-FPGA1
0
DΦDR
VREF-DDR1
30
31
32
35
36
37
38
39
40
28
41
1
2
SDRAM
8Mx16
NC
3
B
C
D
E
4
5
D
E
F
G
H
I
MM1-A12
6
A
7
3FL0
3FL1
2
4
22R
22R
22R
22R
22R
22R
22R
22R
22R
22R
22R
22R
22R
22R
22R
22R
DQ1(0)
DQ1(1)
DQ1(2)
DQ1(3)
DQ1(4)
DQ1(5)
DQ1(6)
DQ1(7)
DQ1(8)
DQ1(9)
DQ1(10)
DQ1(11)
DQ1(12)
DQ1(13)
DQ1(14)
DQ1(15)
DQ1(0)
DQ1(1)
DQ1(2)
DQ1(3)
DQ1(4)
DQ1(5)
DQ1(6)
DQ1(7)
DQ1(8)
DQ1(9)
DQ1(10)
DQ1(11)
DQ1(12)
DQ1(13)
DQ1(14)
DQ1(15)
MM1-D0
MM1-D1
MM1-D2
MM1-D3
MM1-D4
MM1-D5
MM1-D6
MM1-D7
MM1-D8
MM1-D9
MM1-D10
MM1-D11
MM1-D12
MM1-D13
MM1-D14
MM1-D15
8
0
1
9
3FL2
3FL3
3FL4
3FL5
3FL6
3FL7
3FL8
3FL9
3FLA
3FLB
3FLC
3FLD
3FLE
3FLF
5
10
11
AP
2
7
3
8
4
10
11
13
54
56
57
59
60
62
63
65
5
26
27
MM1-BA0
MM1-BA1
0
1
6
BA
D
7
8
9
20
47
L
U
DM
IFL1
5FL0
10
11
12
13
14
15
2FL6
+2V5
+2V5-DDR1
VREF-DDR1
MM1-CLK-
100n
49
VREF
120R
5FL1
46
45
44
24
23
22
21
CLK
CLK
CKE
CS
RAS
CAS
WE
RES
120R
3FLG
3FLH
16
51
22R
22R
DQS10
DQS11
DQS10
DQS11
MM1-DQS0
MM1-DQS1
L
U
DQS
MM1-CLK+
VSSQ
VSS
MM1-CKE
MM1-CS0
MM1-RAS
MM1-CAS
MM1-WE
1
2
3
4
5
6
7
8
9
CHN
SETNAME
CLASS_NO
2
2008-11-21
FPGA WOW - DDR
J
J
8204 000 8933
TV543 R2 LDIPNX
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
8
130
6
A3
DATE
2007-12-04
C
ROYAL PHILIPS ELECTRONICS N.V. 2007
7
1
2
3
4
5
6
8
9
10
11
12
13
18310_532_090303.eps
090303
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 118
SSB: FPGA WOW - I/O Banks
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
A
B
C
A
B
C
2F43 E7
2FN0 D9
2FN1 D9
2FN2 D9
2FN6 D13
2FN7 D13
3F74-2 B4
3F74-3 B2
3F74-4 B5
3FN1 A1
3FN2 B1
3FN3 B1
3FNF E7
3FNG E7
7FN0-2 A6
7FN0-3 A10
7FN0-4 A13
7FN0-5 C1
7FN0-6 C5
7FN0-7 C10
7FN0-8 C13
7FN0-9 E4
9FN0 D4
9FN1 D4
9FN7 E4
9FNA D7
9FNB D7
9FNC E7
9FND C9
FF18 A1
FF19 B1
FF48 B1
IFN2 B8
IFN3 B8
IFN4 B9
IFN5 B9
IFN6 B11
IFN7 B11
IFN8 B13
IFN9 B13
IFNA B15
IFNB B15
IFNF D7
IFNG D5
IFNH D3
IFNJ D3
IFNK D4
IFNL D4
IFNM D5
IFNN D5
2FN3 D9
7FN0-1 A3
9FN4 E4
9FN6 E4
9FN8 D5
9FN9 D7
IFN0 A2
IFN1 A4
IFNC D13
IFND E11
2FN5 D12
7FN0-10 F11
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
FPGA WOW - IO-BANKS
+1V2-PLL
+2V5-PLL
+1V2-PLL
+2V5-PLL
VCCA1
7FN0-1
EP3C40F324C7N
7FN0-2
7FN0-3
VCCD_PLL3
VCCA3
EP3C40F324C7N
EP3C40F324C7N
7FN0-4
A
B
C
D
E
F
VCCD_PLL1
EP3C40F324C7N
A
B
C
D
E
F
BANK1
BANK2
BANK3
F2
BANK4
IFN1
CLK0|CLK_0P
CLK1|CLK_0N
B2
N2
N1
L1
L4
U9
V9
U5
V5
R8
T8
P9
U6
V6
U7
V7
U8
V8
U2
V2
TXF2C+
TXF2C-
TXF1B-
TXF1C+
IO_B2|L1P
IO_B1|L1N
IO_C1|L3N
CLK2|CLK_1P
CLK3|CLK_1N
IO_L1|L32N
IO_L4|L33P
IO_L3|L33N
IO_M2|L34P
IO_M1|L34N
IO_P2|L44P
IO_P1|L44N
IO_R2|L45P
IO_T3|L52P
IO_R3|L52N
IO_M5
CLK15|CLK_6P
IO_U5|B18P
IFN0
F1
B1
C1
C3
D3
D2
D1
U10
U14
V14
U15
V15
R11
V16
U17
V17
R13
P12
T13
T14
U18
V18
TX852CLK+
TX852CLK-
TX852C+
IO_V5|B18N
IO_R8|B21P
CLK13|CLK_7P
CLK12|CLK_7N
IO_U14|B34P
L3
TXF1C-
TXF1CLK+
TXF1CLK-
TXF1D+
TX852C-
TX852B+
TX852B-
FF18
CLK14|CLK_6N
IO_V14|B34N
IO_U15|B35P
IO_V15|B35N
IO_R11|B36N
IO_V16|B44N
IO_U17|B47P
IO_V17|B47N
IO_R13|B48N
IO_P12
3FN1 1K0
nCE
nCONFIG
nCE
K6
M2
M1
P2
P1
R2
T3
R3
M5
R4
T2
T1
V10
P13
U16
T11
V12
CE
IO_C3|L4P|RESET_
IO_D3|L7P
IO_T8|B21N
3FN2
nCONFIG
DCLK
nSTATUS
TCK
H5
H4
G5
J1
J6
J5
J2
L6
P8
P7
T6
T4
3F74-3
47R
CONFIG
DCLK
STATUS
TCK
IO_L6|VREFB2N0
IO_M3|VREFB2N1
IO_R1|VREFB2N2
IO_R5|VREFB2N3
IO_P8|VREFB3N0
IO_P7|VREFB3N1
IO_T6|VREFB3N2
IO_T4|VREFB3N3
IO_P9|B23N
IO_P13|VREFB4N0
IO_U16|VREFB4N1
IO_T11|VREFB4N2
IO_V12|VREFB4N3
D
E
D
E
3
6
M3
R1
R5
TXF2CLK+
TXF2CLK-
TXF2D+
TXF2D-
+3V3-FPGA
FF48
10K
10K
3FN3
IO_D2|L8P
IO_U6|B24P
nSTATUS
3F74-2
2
4
ASDO
nCSO
5
TXF1D-
IO_D1|L8N|DATA1|ASDO
IO_E2|L10P|FLASH_CE_|CSO_
IO_E1|L10N
IO_V6|B24N
E2 47R
E1
3F74-4
7
TX852A+
TX852A-
+3V3-FPGA
IO_U7|B26P
FF19
TDI
TXF1E+
TXF1E-
47R
TDI
TDO
TMS
IO_V7|B26N
TDO
G2
TXF1A+
TXF1A-
K2
K1
K5
L5
L2
U1
V1
P6
U3
V3
U4
V4
TXF2E+
TXF2E-
U11
V11
U12
U13
V13
P10
P11
TX852E+
TX852E-
IO_G2|L20P
IO_K2|L26P
IO_K1|L26N
IO_K5|L28P
IO_L5|L28N
IO_L2|L32P
IFN4
IFN5
IO_U1|B1P
IO_V1|B1N
IO_P6|B6P
IO_U3|B16P
IO_V3|B16N
IO_U4|B17P
IO_V4|B17N
IO_U8|B27P
IO_V8|B27N
IO_U11|B28P
IO_V11|B28N
IO_U12|B29P
IO_U13|B32P
IO_V13|B32N
IO_P10|B33P
IO_P11|B33N
TMS
G1
IO_G1|L20N
H2
H3
IO_H2
IO_H3|DATA0
IO_R4
IO_T2|RUP1
IO_T1|RDN1
IO_U2|PLL1_CLKOUTP
IO_V2|PLL1_CLKOUTN
IFN6
IFN7
IO_T13|RUP2
IO_T14|RDN2
C2
F3
H6
H1
DATA0
TXF2A+
TXF2A-
TXF2B+
TXF2B-
TX852D+
TX852D-
IFN2
IFN3
IO_C2|VREFB1N0
IO_F3|VREFB1N1
IO_H6|VREFB1N2
IO_H1|VREFB1N3
TXF1B+
IFNA
IFNB
IO_U18|PLL4_CLKOUTP
IO_V18|PLL4_CLKOUTN
IFN8
IFN9
GNDA1
GNDA3
F
G
H
I
F
G
H
I
+1V2-PLL
+2V5-PLL
VCCA4
+1V2-PLL
+2V5-PLL
9FND
RES
CLK-OUT2-PNX5100
7FN0-5
EP3C40F324C7N
7FN0-7
7FN0-6
7FN0-8
EP3C40F324C7N
VCCD_PLL4
EP3C40F324C7N
EP3C40F324C7N
VCCD_PLL2
VCCA2
BANK5
+3V3-FPGA
BANK6
BANK7
BANK8
IFNH
IFNJ
TX851CLK+
TX851CLK-
N17
N18
L16
IFNF
IFNC
B9
CLK6|CLK_3P
CLK7|CLK_3N
IO_L16|R33P
IO_M17|R33N
IO_L14|R36P
IO_L15|R36N
IO_L13|R38P
IO_M14|R38N
IO_P17|R42P
IO_P18|R42N
IO_T17|R54N
IO_N15|R55P
IO_T18
IFNG
F17
M17
L14
L15
L13
M14
P17
P18
T17
N15
T18
T16
R16
B10
A10
B14
C5
B5
A5
B6
A6
B7
A7
B8
A8
D9
C9
B18
MM1-D4
MM1-D9
MM1-A9
MM1-DQS1
MM1-A7
MM1-D10
MM1-D11
MM1-D12
MM1-A5
MM1-D13
MM1-DQS0
MM1-D14
MM1-A4
CLK4|CLK_2P
CLK5|CLK_2N
CONF_DONE
IO_B18|R4N|PADD20
IO_C17|R5P|PADD21
IO_C18|R5N|PADD22
IO_G14|R7N|PADD23
IO_H13|R8P|RDY
IO_H14|R8N|AVD_
IO_D17|R12P|OE_
IO_D18|R12N|WE_
IO_H16|R23N
CLK9|CLK_5P
CLK8|CLK_5N
IO_B14|T36P|PADD6
IO_A14|T36N|PADD5
IO_B15|T37P|PADD4
IO_A15|T38N|PADD3
IO_B16|T41P|PADD2
IO_A16|T41N|PADD1
IO_E12|T45P|PADD0
IO_A18|T48P
CLK11|CLK_4P
CLK10|CLK_4N
IO_C5|T11P|DATA5
IO_B5|T16P|DATA13
IO_A5|T16N|DATA14
IO_B6|T18P|DATA15
IO_A6|T18N|PADD19
IO_B7|T19P|DATA4
IO_A7|T19N|PADD18
IO_B8|T20P|DATA3
IO_A8|T20N|DATA2
IO_D9|T24P|PADD17
IO_C9|T24N|PADD16
IO_E10|T25P|PADD15
IO_A2|PLL3_CLKOUTP
IO_A1|PLL3_CLKOUTN
A14
B15
A15
B16
A16
E12
A18
D16
C16
E14
E13
D14
C14
TX851A+
TX851A-
TX851D+
TX851D-
TX851E+
TX851E-
CLK-OUT2-PNX5100
CLK-OUT-PNX5100
C17
C18
G14
H13
H14
D17
D18
H16
E17
E18
G17
G18
H17
CON27
MM1-D3
MM1-RAS
MM1-D5
MM1-D6
MM1-CAS
MM1-D0
MM1-D7
9FN8
F18
K14
9FN9
RES
SCL-AMBI-3V3
A9
L18
N16
R17
R18
TX851B+
IO_L18|VREFB5N0
IO_N16|VREFB5N1
IO_R17|VREFB5N2
IO_R18|VREFB5N3
CONF-DONE
A17
D12
C12
E11
E9
C7
D7
E6
VREF-FPGA1
VREF-FPGA1
VREF-FPGA1
VREF-FPGA1
VREF-FPGA1
VREF-FPGA1
VREF-FPGA1
VREF-FPGA1
IO_A17|VREFB7N0
IO_D12|VREFB7N1
IO_C12|VREFB7N2
IO_E11|VREFB7N3
IO_E9|VREFB8N0
IO_C7|VREFB8N1
IO_D7|VREFB8N2
IO_E6|VREFB8N3
IFNK
MSEL0
MSEL1
MSEL2
K13
J18
J17
J14
CON26
MSEL0
MSEL1
MSEL2
MSEL3
IFNL
9FNA RES
9FNB RES
SDA-AMBI-3V3
IFNM
K17
K18
L17
M18
TX851B+
CON22
IO_K17|R29P
IO_K18|R29N
IO_L17|R32P|DEV_CLR_
IO_M18|R32N|DEV_OE
IO_D16|T49P
IFNN
D10
C10
B11
A11
B12
A12
B13
A13
D5
B3
A3
E7
B4
A4
E8
TX851B-
TX851C+
MSEL3
BACKLIGHT-OUT
MM1-A2
MM1-WE
MM1-BA0
MM1-BA1
MM1-A8
IO_E17|R24P|CLKUSR
IO_E18|R24N|CEO_
IO_D10|T27P|PADD14
IO_C10|T27N|PADD13
IO_B11|T29P|PADD12
IO_A11|T29N|PADD11
IO_B12|T31P|PADD10
IO_A12|T31N|PADD9
IO_B13|T35P|PADD8
IO_A13|T35N|PADD7
IO_C16|T49N
IO_D5|T3P|DATA12
IO_B3|T4P|DATA11
IO_A3|T4N|DATA10
IO_E7|T5N|DATA9
IO_B4|T6P|DATA8
IO_A4|T7N|DATA7
IO_E8|T8P|DATA6
RES BACKLIGHT-CONTROL-FPGA-IN
MM1-A12
MM1-A3
IO_T16|RUP3
IO_R16|RDN3
IO_E14|RUP4
9FNC
TX851C-
B17
H15
H18
J13
MM1-A0
MM1-CKE
E10
A2
BACKLIGHT-OUT2
CON23
CON20
3FNF
100R
SDA-SSB
SCL-SSB
CON21
IO_B17|VREFB6N0 IO_G17|R27P|CRC_ERROR
IO_H15|VREFB6N1 IO_G18|R27N|INIT_DONE
IO_H18|VREFB6N2
IO_J13|VREFB6N3
IO_E13|RDN4
3FNG
100R
MM1-A1
MM1-A10
MM1-D1
MM1-D2
MM1-CS0
MM1-A6
MM1-A11
MM1-D8
MM1-D15
MM1-CLK+
MM1-CLK-
IFND
IO_D14|PLL2_CLKOUTP
IO_C14|PLL2_CLKOUTN
GNDA4
A1
IO_H17|R28P
GNDA2
7FN0-9
EP3C40F324C7N
7FN0-10
EP3C40F324C7N
VCC
GND
F4
G4
J4
+3V3-FPGA
+3V3-FPGA
+3V3-FPGA
J
J
F10
F12
F6
C4
K3
K8
K9
+1V2-FPGA
VCCIO1
C6
+1V2-FPGA
+1V2-FPGA
+1V2-FPGA
+1V2-FPGA
+1V2-FPGA
+1V2-FPGA
+1V2-FPGA
+1V2-FPGA
+1V2-FPGA
+1V2-FPGA
+1V2-FPGA
+1V2-FPGA
+1V2-FPGA
+1V2-FPGA
+1V2-FPGA
+1V2-FPGA
+1V2-FPGA
+1V2-FPGA
+1V2-FPGA
+1V2-FPGA
+1V2-FPGA
+1V2-FPGA
+1V2-FPGA
+1V2-FPGA
+1V2-FPGA
+1V2-FPGA
+1V2-FPGA
C8
F8
K4
M4
N4
C11
C13
C15
E3
K10
K11
K16
L8
+2V5out-FPGA
+2V5out-FPGA
+2V5out-FPGA
G10
G11
G12
G13
G7
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCIO2
VCCIO3
VCCIO4
VCCIO5
VCCIO6
VCCIO7
VCCIO8
GND
GND
GND
GND
GND
GND
GND
GND
R6
R7
R9
E16
F7
F9
F11
F13
G3
G6
G9
G16
H8
H9
H10
H11
J3
J8
J9
J10
J11
J16
L9
+2V5out-FPGA
+2V5out-FPGA
+2V5out-FPGA
L10
L11
M10
M13
M16
N3
G8
K
L
K
L
H12
H7
J12
J7
K12
K7
L12
L7
R10
R12
R14
+2V5in-FPGA
+2V5in-FPGA
+2V5in-FPGA
N6
N8
N10
N12
P3
P16
T5
T7
T9
K15
M15
R15
+2V5in-FPGA
+2V5in-FPGA
+2V5in-FPGA
G
H
G
H
M11
M12
M6
F16
G15
J15
+3V3-FPGA
+3V3-FPGA
+3V3-FPGA
M7
M8
M9
D11
D13
D15
T10
T12
T15
+2V5-DDR1
+2V5-DDR1
+2V5-DDR1
N11
N13
N7
N9
D4
D6
D8
+2V5-DDR1
+2V5-DDR1
+2V5-DDR1
M
N
M
N
O
P
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
O
P
CHN
SETNAME
CLASS_NO
2
2008-11-21
FPGA WOW - IO-BANKS
8204 000 8933
TV543 R2 LDIPNX
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
8
130
7
A2
DATE
2007-12-06
C
ROYAL PHILIPS ELECTRONICS N.V. 2007
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_533_090303.eps
090303
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 119
SSB: CI: PCMCIA Connector
1
2
3
4
5
6
81
92
130
7P16 C8
FP04 A2
FP05 D6
141
IP03 A6
IP04 A6
IP05 A6
152
163
7
1P00-A B1
1P00-B B5
2P15 A8
2P16 C8
2P40 A2
3P09 A2
3P10-1 A6
3P10-2 A6
3P10-4 A6
3P11 C7
3P12 A6
3P13-1 A6
3P13-2 A6
3P13-3 A6
3P20 D2
3P24 D6
3P26-2 E6
3P26-3 E6
3P26-4 E6
3P27-1 E6
3P27-2 E6
3P27-3 E6
3P27-4 E6
3P80-1 B9
3P80-2 B9
3P80-3 B9
3P80-4 B9
3P81 B9
3P82-1 D9
3P82-2 D9
3P82-3 D9
3P82-4 D9
3P84-1 E8
3P84-4 E8
3P85-1 E8
3P85-2 E8
3P85-3 E8
3P85-4 E8
3P86 E8
3P87 E8
3P88 E8
7P15 A8
IP00 A6
IP01 A6
IP02 A6
IP08 D2
IP09 C9
IP18 D2
3P25 E6
3P26-1 E6
3P83-3 D9
3P83-4 D9
3P84-2 E8
3P84-3 E8
A
B
C
D
E
F
G
H
I
A
B
C
D
E
F
G
H
I
1
2
3
4
5
6
7
8
9
10
+3V3 PCMCIA-VCC-VPP
CI : PCMCIA CONNECTOR
IP00
IP01
3P10-4
CA-INPACK
CA-WAIT
5
4
10K
2
10K
1
10K
3P10-2
7
+3V3
3P10-1
3P12
8
MOCLK_VS2
IRQ-CA
IP02
IP03
IP04
IP05
RES
A
A
10K
1
3P09
0R4
FP04
3P13-1
CA-CD1
CA-CD2
CA-VS1
8
6
7
PCMCIA-VCC-VPP
+5V
10K
+T
3P13-3
3
7P15
74LVC245A
1
10K
2P40
22u
3P13-2
2
3EN1
3EN2
G3
10K
CABLE CARD INTERFACE
19
2
ROW_A
1P00-A
ROW_B
1P00-B
3P80-4
47R
GND1
GND3
18
4
2
MDO3
CA-MDO3
1
2
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
1
D3
CD1
D11
PCMCIA-D3
PCMCIA-D4
PCMCIA-D5
PCMCIA-D6
PCMCIA-D7
CA-CE1
CA-CD1
MDO3
2
3P80-3
D4
17
16
15
14
13
12
11
3
4
5
6
7
8
9
3
MDO4
MDO6
MDO5
MDO7
CA-MDO4
CA-MDO6
CA-MDO5
CA-MDO7
3
3P80-2
47R 1
3P81
47R
D5
D12
47R
3P80-1
47R
MDO4
4
D6
D13
MDO5
5
D7
D14
MDO6
6
CE1
A10
OE
D15
B
C
D
B
C
D
MDO7
7
CE2
VS1
PCMCIA-A10
CA-OE
CA-CE2
CA-VS1
CA-IORD
CA-IOWR
CA-MISTRT
CA-MDI0
CA-MDI1
CA-MDI2
CA-MDI3
8
9
A11
A9
A8
IORD
IOWR
A17
PCMCIA-A11
PCMCIA-A9
PCMCIA-A8
PCMCIA-A13
PCMCIA-A14
CA-WE
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
A13
A14
WE|P
RDY|BSY
VCC1
VPP1
A16
A15
A12
A7
A18
A19
+3V3
A20
A21
IRQ-CA
VCC2
VPP2
A22
PCMCIA-VCC-VPP
PCMCIA-VCC-VPP
CA-MIVAL
CA-MICLK
CA-MDI4
A23
CA-MDI5
CA-MDI6
CA-MDI7
MOCLK_VS2
CA-RST
A24
PCMCIA-A12
PCMCIA-A7
PCMCIA-A6
PCMCIA-A5
PCMCIA-A4
PCMCIA-A3
PCMCIA-A2
PCMCIA-A1
PCMCIA-A0
PCMCIA-D0
PCMCIA-D1
A25
7P16
A6
VS2
74LVC245A
3P11
100K
A5
RESET
WAIT
INPACK
REG
1
19
2
CA-RST
3EN1
3EN2
G3
A4
CA-WAIT
CA-INPACK
CA-REG
MOVAL
MOSTRT
MDO0
MDO1
MDO2
CA-CD2
A3
A2
IP09
A1
BVD2|SPKR
BVD1|STSCHG
D8
D9
D10
CD2
GND4
18
4
3P82-4
47R
MOCLK_VS2
CA-MOCLK_VS2
1
A0
2
3P82-3
D0
17
16
15
14
13
12
11
3
4
5
6
7
8
9
3
MDO0
CA-MDO0
CA-MDO2
CA-MDO1
CA-MOVAL
CA-MOSTRT
D1
2
4
3P82-2
47R 1
3P83-4
47R 3
47R
MDO2
3P82-1
D2
PCMCIA-D2
MDO1
WP|IOIS16
GND2
3P20
47R
MOVAL
MOSTRT
PCMCIA-VCC-VPP
3P83-3
IP18
IP08
10K
47R
FP05
69 70
71 72
3P24
3P25
MOSTRT
10K
10K
MOVAL
MDO0
MDO1
MDO2
MDO3
MDO4
MDO5
MDO6
MDO7
RESERVED
3P26-3
3
2
1
4
4
3
2
1
5
8
3P84-4
47R
3P84-1
47R
3P88
47R
3P85-3
47R
3P85-1
47R
MDO3
MDO4
MDO5
MDO6
MDO7
MDO1
MDO2
MDO0
MOVAL
MOSTRT
CA-MDO3
CA-MDO4
CA-MDO5
CA-MDO6
CA-MDO7
CA-MDO1
CA-MDO2
CA-MDO0
CA-MOVAL
CA-MOSTRT
6
3P84-3
47R
3P84-2
47R
3P85-2
47R
3P85-4
47R
3P86
47R
10K
3P26-2
7
10K
3P26-1
7
10K
3P26-4
6
8
E
E
5
10K
3P27-4
3P27-3
3P27-2
3P27-1
10K
10K
10K
10K
3P87
47R
MOCLK_VS2
CA-MOCLK_VS2
1
2
3
4
5
6
7
8
9
10
CHN
SETNAME
1X06
EMC HOLE
1X05
CLASS_NO
2
2008-11-21
REF EMC HOLE
UFD2K8
DIGI i/O TV543 R2 LDIPNX
J
J
8204 000 8934
J
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
DATE
8
130
1
A3
2007-10-18
C
ROYAL PHILIPS ELECTRONICS N.V. 2007
7
1
2
3
4
5
6
81
92
130
141
152
163
18310_534_090303.eps
090303
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 120
SSB: Audio In HDMI
1
2
3
4
5
6
8
9
10
11
12
13
7
A
A
B
C
D
E
F
G
H
I
1P0A B2
1P0B D2
1P9A B3
1P9B D3
2P06 B2
2P07 B3
2P08 B4
2P09 D2
2P10 D3
2P11 D4
3P05 B3
3P06 B4
3P07 D3
3P08 D4
6P01 B3
6P02 D3
FP01 D2
FP02 B2
FP24 D2
IP06 B4
IP07 D4
1
2
3
4
5
6
7
AUDIO IN HDMI
B
A
A
+12V
C
IP06
FP02
3P05
1K0
B
B
C
D
E
YKB11-3004
2
AUDIO-IN4-L
1P0A
1
D
+12V
C
E
IP07
FP01
FP24
3P07
1K0
YKB11-3004
2
AUDIO-IN4-R
F
1P0B
1
D
G
E
H
I
1
2
3
4
5
6
7
CHN
SETNAME
CLASS_NO
2
2008-11-21
UFD2K8
DIGI I/O TV543 R2 LDIPNX
J
J
8204 000 8934
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
DATE
8
130
2
A3
2007-10-18
C
ROYAL PHILIPS ELECTRONICS N.V. 2005
7
1
2
3
4
5
6
8
9
10
11
12
13
18310_535_090303.eps
090303
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 121
SSB: USB Connector
Personal Notes:
1
2
3
4
5
6
A
A
1P07 C4
1P10 C2
2P17 A1
2P24 B2
2P31 A1
3P18 A2
3P19 A3
3P21 A3
3P23 A4
3P59 A2
3P60 B2
3P62 B2
5P07 A2
9P21 C3
9P22 C3
FP27 C3
FP28 C3
FP29 C3
FP2A C3
FP45 B1
IP12 A2
IP13 C2
IP19 C2
2P27 A1
2P30 A1
3P16 A2
3P17 A2
3P55 A4
3P56 A4
B
C
D
E
F
G
H
I
B
C
D
E
F
G
H
I
1
2
3
4
USB CONNECTOR
+5V
+5V
A
B
C
A
B
C
+3V3
IP12
5P07
220R
FP45
USB-OC
USB
CONNECTOR
1P07
FP27
FP28
1
2
3
4
USB20-DM
USB20-DP
FP29
FP2A
5
6
1P10
292303-4
1
2
3
4
5
IP13
IP19
9P21
9P22
6
7
502382-0570
1
2
3
4
CHN
SETNAME
CLASS_NO
2
2008-11-21
DIGI I/O UFD2K8
J
8204 000 8934
J
TV 543 R2 LDIPNX
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
8
130
3
A4
DATE
2007-10-18
C
ROYAL PHILIPS ELECTRONICS N.V. 2007
10000_012_090121.eps
1
2
3
4
5
6
090121
18310_536_090303.eps
090303
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 122
SSB: HDMI
1
2
3
4
5
6
7
8
9
10
11
12
9
13
10
14
15
16
17
13
18
14
19
20
1P02 E1
FP0S I1
1
2
3
4
5
6
7
8
11
12
1P03 C1
1P04 A1
1P05 H1
2P03 C6
2P05 C10
2P28 H13
2P32 H13
2P33 I12
2P34 D12
2P35 D12
2P36 D10
2P37 D10
2P38 D9
2P39 D9
2P41 D9
2P42 D9
2P43 D12
2P44 C10
2P45 C11
2P46 B10
2P47 C10
2P48 A5
2P49 A6
2P50 D12
2P51 D12
2P52 D13
2P53 D13
2P54 D13
2P55 D13
2P56 F12
2P57 F12
FP0T I2
A
A
B
C
FP0U I2
FP0W I1
FP10 B1
FP11 B1
FP12 B1
FP13 B1
FP14 B2
FP15 B1
FP16 G1
FP17 I1
HDMI
RES
7P01
LD1117DT18
HDMI CONNECTOR 3
FP42
1V8-HDMI
1P04
3
2
BP1J
IN OUT
COM
B
ARX2+
1
2
+3V3
Remark for service:
I2C Address = 0xCE
Replacing the TDA 9996
Requires reprogramming
of its I2C address from
0xC0 to 0xCE
FP20 B11
FP21 E9
FP22 H12
FP23 I10
FP25 D8
FP26 D12
FP39 C12
FP40 C11
FP41 C10
FP42 A6
FP43 H12
FP44 F13
IP10 G12
IP11 H12
IP17 F13
IP26 H5
BP1K
BP1L
A
A
B
C
D
E
F
ARX2-
ARX1+
3
4
5
BP1M
BP1N
ARX1-
ARX0+
6
7
AIN-5V
8
BP1P
BP1R
ARX0-
ARXC+
9
10
11
12
13
14
15
16
17
C
BP1S
ARXC-
PCEC-HDMI
FP11
FP12
ARX-DDC-SCL
ARX-DDC-SDA
ARX-DDC-SCL
ARX-DDC-SDA
5P11
30R
FP20
B
B
FP15
+3V3
AIN-5V
18
19
21
FP14
ARX-HOTPLUG
FP10
BP1T
20
D
D
E
23 22
25 24
26
FP13
IP5U G6
IP5V G7
IP5Y G6
IP5Z H6
FP40
5P12
30R
DC1R019WBER220
AIN-5V
+3V3
5P13
2P58 G12 IP60 H13
2P59 G12
3P14 F13
3P34 E14
3P36 F14
3P38 H6
3P43 E9
3P47 H14
3P53 H5
3P58 B4
3P61 B4
3P63 D4
3P64 D4
3P65 I4
FP39
RES
5P08
30R
+3V3
E
HDMI CONNECTOR 2
30R
1V8-HDMI
1P03
C
D
E
F
BP5A
C
BRX2+
5P14
1
2
FP41
BP5B
BP5C
BRX2-
BRX1+
3
30R
+1V8-PNX85XX
4
5
BP5D
BP5E
BRX1-
BRX0+
6
7
BIN-5V
8
REF-3V3
BP5F
BP5G
BRX0-
BRXC+
9
F
F
G
H
I
10
11
12
13
14
15
16
17
BP5H
BRXC-
PCEC-HDMI
3P66 I4
3P67 F3
FP0E
FP0F
D
3P68 G3
3P75 G5
3P76 E9
3P77 E9
5P08 C12
5P11 B10
5P12 C10
5P13 C10
5P14 C10
5P15 H13
6P03 G13
7P01 A6
7P02 D10
7P12 H5
7P32 G6
9P0J G7
9P33 E9
BP1A F2
BP1B F1
BP1C F2
BP1D F1
BP1E F2
BP1F F1
BP1G F2
BP1H F2
BP1J A2
BP1K A2
BP1L A2
BP1M A2
BP1N A2
BP1P A2
BP1R B2
BP1S B2
BP1T B1
BP1U E1
BP1V G1
BP1W I1
BP5A C2
BP5B C2
BP5C C2
BP5D C2
BP5E D2
BP5F D2
BP5G D2
BP5H D2
BP5J H2
BP5K H2
BP5L H2
BP5M H2
BP5N I2
BRX-DDC-SCL
BRX-DDC-SDA
BRX-DDC-SCL
BRX-DDC-SDA
FP25
FP0G
FP0H
BIN-5V
18
BRX-HOTPLUG
19
FP26
G
FP0P
21
20
7P02
TDA9996
23 22
25 24
26
FP0J
BP1U
VDDH_3V3
9P33
51
52
Φ
IN
XTAL
3P76
DC1R019WBER220
SCL-SSB
SDA-SSB
BIN-5V
OUT
100R
3P77
50
49
2
3
HDMIB-RXC+
SCL
SDA
0
+
-
+
-
+
-
+
-
I2C
C
D0
D1
D2
HDMIB-RXC-
HDMIB-RX0+
HDMIB-RX0-
HDMIB-RX1+
HDMIB-RX1-
HDMIB-RX2+
HDMIB-RX2-
+5V
99
100
96
97
93
94
E
100R
3P43
H
SEL
FP21
+3V3
1
53
47
INT
OUT
1K0
HP_CTRL
MODE
HDMI CONNECTOR 1
1P02
BP1A
CRX2+
1
2
CIN-5V
FP03
14
13
17
16
20
19
23
22
5
6
ARXC+
ARXC-
ARX0+
ARX0-
ARX1+
ARX1-
ARX2+
ARX2-
DDC-SCL
DDC-SDA
+
C
-
CLK
DAT
BP1B
DDC
CRX2-
CRX1+
3
BP1C
BP1E
BP1G
4
+
FP44
D0
-
48
74
5
PD
I
BP1D
BP1F
RXA
+
CRX1-
CRX0+
IP17
2P56
REF-3V3
6
3P14
D1
7
-
R12K
12K 1%
8
+
AIN-5V
D2
-
10
12
11
9
100n
F
CRX0-
CRXC+
9
5V
CLK
DAT
HPD
ARX-DDC-SCL
ARX-DDC-SDA
ARX-HOTPLUG
10
11
12
13
33
32
36
35
39
38
42
41
RXA DDC
RXB DDC
RXC DDC
BRXC+
BRXC-
BRX0+
BRX0-
BRX1+
BRX1-
BRX2+
BRX2-
BP1H
+
C
-
CRXC-
+5V
FP06
FP07
2P57
2P58
2P59
PCEC-HDMI
+
100n
100n
BIN-5V
D0
-
29
31
30
28
14
15
16
17
18
FP1619
21
5V
CLK
DAT
HPD
RXB
+
CRX-DDC-SCL
CRX-DDC-SDA
CRX-DDC-SCL
CRX-DDC-SDA
BRX-DDC-SCL
BRX-DDC-SDA
BRX-HOTPLUG
J
J
D1
-
FP08
+
D2
-
FP09
FP0A
CIN-5V
CIN-5V
59
61
60
58
CRX-HOTPLUG
5V
CLK
DAT
HPD
63
62
66
65
69
68
72
71
20
CRXC+
CRXC-
CRX0+
CRX0-
CRX1+
CRX1-
CRX2+
CRX2-
CRX-DDC-SCL
CRX-DDC-SDA
CRX-HOTPLUG
+
C
-
FP0C
23 22
25 24
26
G
H
G
H
IP5U
IP5Y
IP5V
BP1V
+
-
3P75
100R
9P0J
D0
G
K
PCEC-HDMI
CEC-HDMI
100n
6P03
DIN-5V
RXC
77
79
78
76
+
5V
CLK
DAT
HPD
D1
DRX-DDC-SCL
DRX-DDC-SDA
DRX-HOTPLUG
DC1R019WBER220
CIN-5V
-
K
L
RXD DDC
CDEC
+
BC847BW
7P32
D2
-
WC-EEPROM-PNX5100
IP10
IP11
81
80
84
83
87
86
90
89
44
54
DRXC+
DRXC-
DRX0+
DRX0-
DRX1+
DRX1-
DRX2+
DRX2-
IP5Z
+
C
-
DDC
STBY
BAT54 COL
BC847BW
7P12
FP22
+
D0
57
27
25
WRITE-PROT
-
CEC
TEST
NC
RXD
+3V3-STANDBY
+
D1
-
HDMI CONNECTOR SIDE
+
L
1P05
D2
-
BP5J
H
DRX2+
1
2
DIN-5V
VSS
PCEC-HDMI
BP5K
BP5L
DRX2-
DRX1+
+5V
IP60
IP26
5P15
30R
3
FP43
3P47
4R7
4
BP5P I2
5
BP5M
BP5N
DRX1-
DRX0+
BP5R I2
FP23
6
7
BP5S I2
8
FP03 F14
FP06 F1
FP07 F1
FP08 G1
FP09 G1
FP0A G1
FP0C G1
FP0E D1
FP0F D1
FP0G D2
FP0H D2
FP0J E1
FP0P D1
FP0R I1
BP5P
BP5R
DRX0-
DRXC+
+5V-EDID
9
M
N
M
N
O
P
10
11
12
13
14
15
16
17
BP5S
+3V3
DRXC-
PCEC-HDMI
FP0R
FP0S
I
DRX-DDC-SCL
DRX-DDC-SDA
DRX-DDC-SCL
DRX-DDC-SDA
3P66
47K
I
I
DIN-5V
FP0T
DIN-5V
FP0U
18
DRX-HOTPLUG
19
FP17 21
20
23 22
FP0W
BP1W
DC1R019JB1E400
1
2
3
4
5
6
7
8
9
10
11
CHN
12
SETNAME
13
14
O
P
1X07
EMC HOLE
CLASS_NO
2
2008-11-21
UFD2K8
DIGI IO TV543 R2 LDIPNX
8204 000 8934
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
DATE
8
130
4
A2
2007-10-18
C
ROYAL PHILIPS ELECTRONICS N.V. 2005
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_537_090303.eps
090303
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 123
SSB: HDMI Switch
1
2
3
4
5
6
8
9
10
11
12
13
7
1M96 D1
1P06 A1
2P04 A5
2P12 A5
2P23 E6
2P60 B1
3P15 C5
3P22 B5
3P28 B5
3P29 B6
3P30 B5
3P31 B5
3P32 C6
3P33 C4
3P35 C3
5P06 A5
6P06 D6
7P07 B4
7P17 C5
9P19 A6
9P20 A6
9P29-3 D2
9P29-4 D2
9P30-1 E2
9P30-2 E2
9P30-3 E2
9P30-4 E2
9P31-1 E2
9P31-2 E2
9P31-3 E2
9P31-4 E2
9P32-1 D1
9P32-2 D1
9P32-4 D1
BP50 A1
BP51 A2
BP52 A1
BP53 A2
BP54 A1
BP55 A1
BP56 B2
BP57 B1
BP5Z B1
FP00 B1
FP0B A4
FP30 B1
FP31 B1
FP32 B1
FP33 B1
FP34 B1
FP35 B5
FP36 D1
FP37 D2
FP38 D2
IP14 A6
1
2
3
4
5
6
7
8
9
A
A
B
C
D
E
F
G
H
I
HDMI SWITCH
1P06
IP14
B
BP50
9P20
HDMIA-RX2+
ERX-DDC-SCL
ERX-DDC-SDA
DDCA-SCL
DDCA-SDA
1
2
BP51
9P19
A
A
B
C
D
E
HDMIA-RX2-
HDMIA-RX1+
3
BP52
BP54
IP15
4
5P06
120R
FP0B
BP53
5
HDMIA-RX1-
HDMIA-RX0+
6
+5V-DDC
7
BP55
8
HDMIA-RX0-
HDMIA-RXC+
9
10
11
12
13
14
15
16
17
C
BP56
BP57
HDMIA-RXC-
PCEC-HDMI
IP28
FP30
FP31
ERX-DDC-SCL
ERX-DDC-SDA
7P07
M24C02-WDW6
2P60
EDID0
IP16
B
Φ
100n
EIN-5V
18
19
21
FP35
(256x8)
EEPROM
FP32
FP33
FP34
7
6
5
ERX-HOTPLUG
EDID NVM
HDMI 4
FP00
WC
20
3P31
22R
1
2
3
23 22
25 24
26
0
1
2
SCL
SDA
D
BP5Z
ADR
3P30
22R
DC1R019WBER220
HDMI CONNECTOR 4
WRITE-PROT
HOT-PLUG-A
IP20
3P33
22R
ERX-HOTPLUG
EIN-5V
IP23
IP68
3P32
10K
7P17
BC847BW
C
D
E
E
F
G
H
I
RES
1M96
FP36
1
9P32-4
9P32-2
5
7
4
2
ERX-HOTPLUG
2
EIN-5V
3
FP37
5
4
5
6
7
8
6P06
9P29-4
9P29-3
4
3
ERX-DDC-SDA
ERX-DDC-SCL
EIN-5V
+5V-EDID
6
FP38
BAT54
9P32-1
8
1
PCEC-HDMI
9
10
11
12
13
14
15
16
17
18
19
20
2P23
100n
9P30-1
9P30-2
9P30-3
9P30-4
9P31-1
9P31-2
9P31-3
9P31-4
1
2
3
4
1
2
3
4
8
7
6
5
8
7
6
5
HDMIA-RXC-
HDMIA-RXC+
HDMIA-RX0-
HDMIA-RX0+
HDMIA-RX1-
HDMIA-RX1+
HDMIA-RX2-
HDMIA-RX2+
IP15 A6
IP16 B5
IP20 C4
+5V-DDC
IP23 C5
IP28 B4
IP68 C6
21
23 22
25 24
27 26
29 28
31 30
FI-RE21S-HF-R1500
1
2
3
4
5
6
7
8
9
CHN
SETNAME
CLASS_NO
2
2008-11-21
UFD2K8
DIGI I/O TV543 R2 LDIPNX
J
J
8204 000 8934
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
DATE
8
130
5
A3
2007-10-18
C
ROYAL PHILIPS ELECTRONICS N.V. 2006
7
1
2
3
4
5
6
8
9
10
11
12
13
18310_538_090303.eps
090303
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 124
SSB: PNX8543: Flash
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
A
B
C
A
B
C
1M97 C12
1
2
3
4
5
6
7
8
9
10
11
12
13
2P13 C6
2P14 C7
3P37 C1
3P39-1 C3
3P39-2 C3
3P39-3 C3
3P39-4 D3
3P40-1 D3
3P40-2 D3
3P40-3 D3
3P40-4 D3
3P42 E3
PNX 8543 : FLASH
A
B
C
D
E
F
G
H
I
A
B
C
D
E
F
G
H
I
3P44 D3
3P48-1 E3
3P48-2 E3
3P48-3 F3
3P48-4 F3
3P57 C11
5P09 B1
7P10 C5
IP24 E5
IP27 D5
IP29 B5
D
E
D
E
IP30 E4
IP29
+3V3-NAND
5P09
+3V3-NAND
+3V3
30R
7P10
NAND01GW3B2BN6F
1
2
1M97
VCC
[FLΦASH]
1
3P37
10K
3P57
10K
3
2
XIO-SEL-NAND
TSO-BIT-CLK
TSO-BIT-VALID
TSO-SYNC
+3V3-NAND
1G
4
3
4
5
3P39-1
3P39-2
3P39-3
3P39-4
3P40-1
3P40-2
3P40-3
3P40-4
1
8
7
29
30
31
32
41
42
43
44
6
5
PCI-AD24
PCI-AD25
PCI-AD26
PCI-AD27
PCI-AD28
PCI-AD29
PCI-AD30
PCI-AD31
NAND-AD(0)
NAND-AD(1)
NAND-AD(2)
NAND-AD(3)
NAND-AD(4)
NAND-AD(5)
NAND-AD(6)
NAND-AD(7)
NAND-AD(0)
NAND-AD(1)
NAND-AD(2)
NAND-AD(3)
NAND-AD(4)
NAND-AD(5)
NAND-AD(6)
NAND-AD(7)
TSINO-DATA0
TSINO-DATA1
TSINO-DATA2
TSINO-DATA3
TSINO-DATA4
TSINO-DATA5
TSINO-DATA6
TSINO-DATA7
0
1
2
3
4
5
6
7
2
3
4
1
2
3
4
10
11
14
15
20
21
22
23
24
25
26
27
28
33
34
35
38
39
40
45
46
47
48
6
100R
6100R
7
5
8
100R
8100R
IO
9
F
G
H
I
F
G
H
I
7
10
11
12
13
14
15
16
17
18
19
20
21
100R
6100R
5100R
NC
100R
I2C-SCL
I2C-SDA
3P44
2K2
16
17
9
8
18
19
7
XIO-ACK
NAND-CLE
NAND-ALE
XIO-SEL-NAND
NAND-REn
NAND-WEn
WP-NANDFLASH
XIO-ACK
RESET-BOLT-ON
CLE
ALE
CE
RE
WE
WP
R
+3V3-NAND
+3V3-NAND
IP27
22 23
24 25
26 27
28 29
3P42
10K
WP-NANDFLASH
B
IP24
IP30
FI-RE21S-VF-R1300
VSS
3P48-1
3P48-2
3P48-3
3P48-4
1
2
3
4
8
PCI-AD0
PCI-AD1
PCI-CBE1
PCI-CBE2
NAND-CLE
NAND-ALE
NAND-WEn
NAND-REn
7
6
5
100R
100R
100R
100R
J
J
K
L
K
L
M
N
M
N
O
P
1
2
3
4
5
6
7
8
9
10
11
12
13
O
P
CHN
SETNAME
CLASS_NO
2
2008-11-21
UFD 2K8
DIGI I/O TV543 R2 LDIPNX
8204 000 8934
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
DATE
8
130
6
A2
2007-10-18
C
ROYAL PHILIPS ELECTRONICS N.V. 2007
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_539_090303.eps
090303
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 125
SSB: Ethernet
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
A
B
A
B
C
1N00 A11
1N02 C8
1
2
3
4
5
6
7
8
9
10
11
12
13
2N0K D8
2N0L D8
2N0M D3
2N0N H4
2N0P G10
2N0Q G10
2N0R A9
2N0S C8
2N0T B10
2N0U B9
2N0V H10
2N0W H10
2N0Y G12
2N0Z G13
2N10 G12
2N11 G12
2N12 G12
2N13 G11
2N14 G12
2N15 G11
2N16 G11
2N17 G11
2N1C H3
3N0F C7
3N0G D3
3N0H C7
3N0J E8
+3V3-ET-DIG
3N0L-4
3N0N-3
ETHERNET
4
3
5
6
3
4
6
5
22R
3N0L-3
33R
3N0N-4
22R
33R
A
A
FN05
+3V3-ET-ANA
FN06
C
IN0P
3N0L-1
22R
3N0N-1
33R
3N0N-2
33R
3N0L-2
22R
1
8
1
8
7
2
7
2
1N00
BN0A
BN0B
BN0C
BN0D
1
2
3
4
5
6
7
8
FN15
FN07
100n
FN08
D
D
E
7N04-1
DP83816AVNG
2N0U
2N0T
100n
ETHERNET CONNECTOR
+3V3-ET-ANA
IAUXVDD
PCIVDD
AUXVDD
IP0H
MacPhyter II
10/100 Mb/s
59
PMEM
B
B
C
D
E
F
54
53
46
45
17
18
40
28
29
5
CLKRUN
TPTDP
TPTDM
TPRDP
TPRDM
X1
13 14
123
122
61
60
99
92
93
97
98
91
63
96
76
95
64
62
PWRGOOD
3VAUX
INTA
1840420-1
3N0K F8
3N0L-1 A8
3N0L-2 A9
3N0L-3 A8
3N0L-4 A8
3N0N-1 A9
3N0N-2 A9
3N0N-3 A9
3N0N-4 A9
3N0T-1 B9
3N0T-2 B9
3N0T-3 C9
3N0T-4 C9
3N0V C8
3N0W E8
3N0Y D1
5N06 G10
5N07 H10
6N00 F8
E
IRQ-PCI
2N0S
100n
IN0V
FN09
PCI-CLK-ETHERNET
PCI-PAR
PCICLK
PAR
3N0F
470R
IN0T
X2
PCI-IRDY
IRDY
VREF
COL
IN0M
3N0V
C
PCI-TRDY
TRDY
PERR
SERR
FRAME
GNT
1M0
F
F
G
H
I
PCI-PERR
CRS
1N02
PCI-SERR
MDC
4
NX5032GB
25M
PCI-FRAME
PCI-GNT-ETH
PCI-STOP
MDIO
RXCLK
TXCLK
RXOE
TXE
6
31
13
30
129
130
131
128
STOP
IDSEL
DEVSEL
REQ
3N0G
100R
G
PCI-AD23
6N01 F8
D
PCI-DEVSEL
PCI-REQ-ETH
RESET-ETHERNET
7N04-1 B3
7N04-2 H7
BN0A A10
BN0B B10
BN0C B10
BN0D B10
FN05 A10
FN06 A10
FN07 B10
FN08 B11
FN09 C11
FN0A E9
FN0B F9
FN0C D3
FN15 B10
IN0K E7
MCS
IP0J
3N0Y
10K
RESET-ETHERNET
+3V3-ET-DIG
RST
MRD
FN0C
2N0M
1u0
48
REGE
+3V3-ET-ANA
MWR
EESEL
H
111
100
89
PCI-CBE0
PCI-CBE1
PCI-CBE2
PCI-CBE3
0
1
2
3
132
133
134
135
138
139
140
141
CMD/ BE
IN0K
0
3N0W
1K0
75
CFGDIS
E
121
120
119
118
116
115
113
112
110
109
108
106
105
104
102
101
88
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
0
EEDO
MD<0:7>
RES
I
FN0A
7
IN0W
3N0J
IN0L G10
IN0M C7
270R
6N00
142
143
144
1
2
3
7
10
11
12
14
15
22
23
24
25
LEDACT
LED10LNK
LED100LNK
EEDI
IN0Y
IN0Z
IN0N H3
BAS316
6N01
IN0P A9
FN0B
3N0K
IN10 220R
IN0T C8
EECLK
MA5
0
1
RXD
2
3
RXER
RXDV
0
IN0U H10
IN0V C8
BAS316
J
K
L
F
G
H
J
IN0W E7
IN0Y F7
AD<0:31>
DATA
IN0Z F7
87
IN10 F8
86
83
IP0H B10
IP0J D1
82
1
TXD
2
3
81
79
78
IN0L
5N06
220R
K
L
74
+3V3
+3V3-ET-DIG
MA<0:15>
73
72
41
50
71
G
H
70
RESERVED
68
67
127
66
31
VSS
IN0U
5N07
220R
+3V3
+3V3-ET-ANA
7N04-2
IN0N
DP83816AVNG
34
36
37
42
43
84
85
124
125
126
NC1
NC2
NC3
NC4
NC5
NC6
NC7
NC8
NC9
M
N
M
N
O
P
NC10
1
2
3
4
5
6
7
8
9
10
11
12
13
O
P
CHN
SETNAME
CLASS_NO
2
2008-11-21
UFD 2K8
DIGI I/O TV543 R2 LDIPNX
8204 000 8934
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
DATE
8
130
7
A2
2007-10-18
C
ROYAL PHILIPS ELECTRONICS N.V. 2007
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_540_090303.eps
090303
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 126
SSB: Buffering
1
2
3
4
5
6
8
9
10
11
12
10
13
7
2N30 D3
1
2
3
4
5
6
7
8
9
2N31 B5
2N32 D5
2N33 B3
2P18 E9
2P19 E9
2P20 D7
2P21 C8
2P22 C8
2P25 D8
2P26 E9
2P61 C7
2P62 C8
3N30 D1
3N31 B4
3N32 D4
3N33 E4
3N34 D2
3P46 C7
3P49 D6
3P50 D8
3P51 D8
3P52 E8
3P54 E8
5P10 C9
7N10 D2
7N11 B5
7N12 D5
7N13 B2
7P11 D9
7P13 D7
FP18 D7
FP19 D8
IN20 B4
IN21 D4
IN22 D2
IN30 D2
IN32 E4
IN34 B2
IN35 B2
IP31 D8
IP32 D8
A
A
B
C
D
E
F
G
H
I
BUFFERING
A
A
B
C
D
E
F
B
+3V3
+3V3
B
C
7N13
74LVC245A
1
IN34
IN35
2N31
100n
CA-DATADIR
CA-DATAEN
PCMCIA-D2
3EN1
3EN2
G3
IN20
7N11
19
2
74LVC245A
1
3EN1
3EN2
G3
18
PCI-AD26
1
CA-ADDEN
PCI-AD7
19
2
+5V5-TUN
2
3
4
5
6
7
8
9
17
16
15
14
13
12
11
PCMCIA-D1
PCMCIA-D3
PCMCIA-D4
PCMCIA-D5
PCMCIA-D6
PCMCIA-D7
PCMCIA-D0
PCI-AD25
PCI-AD27
PCI-AD28
PCI-AD29
PCI-AD30
PCI-AD31
PCI-AD24
18
PCMCIA-A7
1
D
2
3
4
5
6
7
8
9
17
16
15
14
13
12
11
PCI-AD6
PCI-AD5
PCI-AD4
PCI-AD3
PCI-AD2
PCI-AD1
PCI-AD0
PCMCIA-A6
PCMCIA-A5
PCMCIA-A4
PCMCIA-A3
PCMCIA-A2
PCMCIA-A1
PCMCIA-A0
+12V
C
7P11
PHD38N02LT
IP31
+3V3
1
E
+3V3
2N32
100n
FP18
2P20
22n
3P50
1K0
3P51
1K0
+5V-TUN
D
74LVC245A
7N10
IN22
IN30
7P13
TS2431
1
FP19
3EN1
3EN2
G3
7N12
IP32
IN21
F
19
2
74LVC245A
CA-ADDEN
1
2
3EN1
3EN2
G3
3P52
18
CA-WAIT
PCI-AD18
1
CA-ADDEN
PCI-AD14
19
2
10K RES
2
3
4
5
6
7
8
9
17
16
15
14
13
12
11
PCI-CBE1
PCI-CBE2
PCI-AD16
PCI-AD17
PCI-AD19
PCI-AD22
PCI-AD23
CA-WE
CA-OE
CA-CE2
CA-CE1
CA-REG
CA-IORD
CA-IOWR
18
PCMCIA-A14
1
2
3
4
5
6
7
8
9
17
16
15
14
13
12
11
PCI-AD13
PCI-AD12
PCI-AD11
PCI-AD10
PCI-AD9
PCMCIA-A13
PCMCIA-A12
PCMCIA-A11
PCMCIA-A10
PCMCIA-A9
PCMCIA-A8
E
G
PCI-AD8
3N33
IN32
10K
H
F
I
1
2
3
4
5
6
7
8
9
10
CHN
SETNAME
CLASS_NO
2
2008-11-21
UFD 2K8
DIGI I/O TV543 R2 LDIPNX
J
J
8204 000 8934
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
DATE
8
130
8
A3
2007-10-18
C
ROYAL PHILIPS ELECTRONICS N.V. 2007
7
1
2
3
4
5
6
8
9
10
11
12
13
18310_541_090303.eps
090303
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 127
SSB: Analogue Externals A
1
2
3
4
5
6
7
8
9
10
11
12
13
10
14
11
15
16
17
18
14
19
20
1001 E11
1009 B12
1015 C12
1022 A7
1023 B7
1024 B7
1025 C7
1027 D6
1028 E6
1E00 A12
1E01 C14
1E02 C8
1E12 D12
1E13 E7
1E16 F7
1E18 F12
1E19 G12
1E22 H13
1E23 I11
1E24 I7
6E26 F12
6E28 G12
6E29 H12
6E30 I11
6E31 I6
6E32 I11
6E34 E6
6E35 F6
6E36 H7
6E37 I6
7E01-1 A2
7E01-2 B2
7E02 D2
7E04 I1
7E05 H1
7E09 H11
7E14 H5
7E15 C3
9E10 I3
1
2
3
4
5
6
7
8
9
12
13
A
B
C
A
B
C
ANALOGUE EXTERNALS A
FE60
3E63
470R
AP-SCART-OUT-R
3E37
470R
AP-SCART-OUT-R
IEC0
2EA4
3EA7
150R
AUDIO-CL-L
1u0 16V
RES
RES
FEA0
7E01-1
6
1
AP-SCART-OUT-L
RES
RES
A
A
IEC1
3EA9
6K8
2
BC847BS(COL)
IE20
IE22
FE61
AUDIO-IN2-R
3E11
1K0
3E07
1K0
AV1-AUDIO-R
AP-SCART-OUT-L
AV1-AUDIO-L
IEC2
2EA5
3EA8
150R
AUDIO-CL-R
1u0 16V
9E12 C5
9E15 D5
9E16 E5
9E17 E5
9E18 F5
9E19 F5
9E20 G10
9E22 D10
9E23 D10
9E24 E10
9E25 F10
9E26 G10
9E27 G10
9E33 F2
FE60 A7
FE61 A7
FE62 B7
FE63 D7
FE64 D7
FE65 E7
FE66 E7
FE67 E7
FE68 C7
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
RES
RES
RES
FEA1
RES
3
4
7E01-2
AP-SCART-OUT-R
1E25 I11
1E26 H7
1E27 I7
IEC3
5
3EB0
6K8
3E15
470R
1E31 B12
2E01 A11
2E04 C11
2E06 B11
2E10 B11
2E12 G12
2E13 G6
2E14 F12
2E15 D12
2E16 D5
2E17 E6
2E18 E12
2E19 F6
2E24 H11
2E29 A5
2E30 B5
2E31 C5
2E32 B5
2E33 E5
2E41 I6
FE62
AP-SCART-OUT-L
3E64
470R
BC847BS(COL)
B
C
D
E
F
B
C
D
E
F
RES
RES
D
E
D
E
RES
RES
A-PLOP
IE23
3E19
1K0
SCART1
(AV1)
IE21
AUDIO-IN2-L
3E14
1K0
* EU
+5v
1E01
SCART2
(AV2)
1E02
RES
RES
FE70
1
FE71
2
FE72
1
3
7E15
PDTC114EU
3
IE14
IE98
2
9E12
4
REGIMBEAU_CVBS-SWITCH
AV3-PB
FE68
+5v
1
3
5
IE97
2E44 I12
2E50 A7
2E51 A7
2E70 B7
2E73 I2
2
FE73
F
G
H
I
F
G
H
I
4
9E15
9E22
9E23
6
AV5-PB
AV1-B
FE74
FE75
5
7
7E02
6
74HC4053PW
8
AV4-PB
* EU
2E74 G2
2E75 D1
2E77 C2
2E82 C7
2E87 A13
2E88 A12
2E90 B12
2E91 C12
2EA4 A3
2EA5 A3
3E02 D6
3E06 D4
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 D11
3E30 B11
3E31 D11
3E32 E11
3E34 C5
3E37 A11
3E38 F11
3E43 H12
3E44 H11
3E45 I10
3E51 E5
3E52 I5
VDD
FE63
FE64
MDX
7
6
9
G4
* EU
IE04
+3V3
IE05
AV2-STATUS
3E16
8K2
8
14
13
12
11
10
11
12
13
14
15
16
17
18
19
20
21
IE18
1
2
4X1
4X2
3E31
8K2
AV1-STATUS
FE80
9
FE65
FE66
10
11
12
13
14
15
16
17
18
19
20
21
Y_CVBS-MON-OUT-SC
15
4
1
2
10
IE96
FE81
FE82
3
5
9
IE16
AV3-Y
AV5-Y
9E16
9E17
IE05 D5
FE67
FE76
IE06 H6
CVBS-TER-OUT
VSS VEE
IE09 H11
IE14 C5
9E24
9E25
AV1-G
AV4-Y
IE16 E5
FE83
FE84
IE17 F5
IE18 D10
IE20 A5
FE77
FE78
9E33
RES
IE21 C5
IE22 A11
IE23 C11
IE48 H11
IE51 H5
FE85
IE17
9E18
AV3-PR
AV5-PR
MTJ-505H-01 NI LF
FE79
IE91 H1
9E19
IE92 H2
MTJ-505H-01 NI LF
IE93 I2
9E26
9E27
AV1-R
IE94 I1
J
J
IE96 E2
IE97 D3
AV4-PR
IE98 C2
IEC0 A3
IEC1 A2
IEC2 A3
IEC3 B2
RES
G
H
G
H
9E20
AV1-BLK-BO
+3V3
3E54 G11
3E55 F5
3E59 I11
3E61 H6
3E62 I6
+5V
+3V3
K
L
K
L
* EU
IE91
3EB6
100R
3E63 A6
3E64 B6
3E68 H12
3E69 H6
3E73 G5
3E99 C2
3EA7 A3
3EA8 A3
3EA9 A2
3EB0 B2
3EB6 H1
3EB7 H2
3EB8 I2
3
AV2-BLK
IE92
IE48
IE51
3E69
10K
7E05
1
3
7E14
CVBS-OUT-SC1
AV1-BLK
BC847BW
BC847BW
IE09
3E68
10K
IE06
2
1
7E09
BC847BW
2
AV1-CVBS
AV2-Y_CVBS
M
N
M
N
O
P
+5V
3EB9 I1
6E01 A12
6E02 E6
6E03 B12
6E07 B12
6E08 B6
6E09 C12
6E10 A6
6E12 B6
6E14 C6
6E22 E12
6E23 D11
6E24 D6
2E73
IE94
3EB9
100R
I
I
3E45
68R
CVBS-OUT-SC1
IE93
7E04
BC847BW
3E52
68R
1
2
3
4
5
6
7
8
9
10
11
12
13
ANA + SIDE I/O
14
O
P
CHN
CLASS_NO
SETNAME
1X04
EMC HOLE
2
2008-11-21
8204 000 8930
TV543 R2 LDIPNX
2008-10-10
NAME Maelegheer Ingrid
CHECK
3
SUPERS.
4
130
1
A2
DATE
2008-01-18
C
ROYAL PHILIPS ELECTRONICS N.V. 2005
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_542_090303.eps
090303
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 128
SSB: Analogue Externals B
1
2
3
2
4
5
6
7
8
6
9
10
11
12
13
10
14
15
16
17
13
18
14
19
20
6E53 A5
1011 G12
1012 C4
1013 F3
1
3
4
5
7
8
9
11
12
6E54 A3
7E03 H9
7E06-1 I13
7E06-2 I13
7E10-1 E9
7E10-2 F9
7E16 I11
7E18 B12
9E00 G5
9E01 H5
9E02 H5
9E04 F5
9E06 H9
9E07 I8
1014 F11
1016 A4
1026 E11
1235 G3
1240 A5
1241 A6
1242 C5
1246 H3
1250 I3
A
B
C
A
B
C
ANALOGUE EXTERNALS B
1226-02B-15S-FAE-02
1E05
16
1255 I3
1E03-1 I3
1E03-2 G3
1E03-3 H3
1E04-1 F11
1E04-2 E11
1E04-3 E3
1E05 A2
1E07 F14
1E10 I3
FE58
+5V
1
9
2
FE55
A
B
C
D
E
F
A
B
C
D
E
F
IE19
9E11 G5
9E21 I12
9E28 I8
10
FE52
6E54
3
11
4
VGA
CONNECTOR
9E29 C14
9E37 C14
FE13 B4
FE16 B6
FE19 B9
FE26 C10
FE38 C4
FE39 C12
FE40 E11
FE41 G14
FE42 G3
FE43 I3
BAT54
12
5
13
6
14
7
15
8
2E05 G8
2E07 G8
2E08 H11
2E11 A5
2E21 D8
2E22 G12
2E26 C10
2E27 F4
2E28 F9
2E34 F8
2E46 C5
2E49 E9
2E52 G8
2E64 C6
2E65 A6
2E67 H5
2E68 G5
2E71 I5
EDID NVM VGA
IE10
5E05
120R
17
+5VDCOUT
FE19
FE13
7E18
M24C02-WDW6
D
E
D
E
FE48 G4
FE49 I3
FE50 I3
FE16
3E42
100R
Φ
IE32
1
FEB2
(256×8)
7
6
5
9E29
WRITE-PROT
WC
EEPROM
FE51 G4
FE52 A6
FE53 F10
FE54 E3
FE55 A5
FE58 A4
FE59 F13
FE69 D10
FEB2 C13
FEB3 D13
IE01 H10
IE02 H9
IE03 G5
IE07 I12
IE08 F5
1
2
3
0
1
2
SCL
9E37
RES
ADR
3E72
100R
SDA
FE39
3E65
100R
CLK-SCL
FE38
2E72 I5
2E76 I11
2E78 H14
2E79 I14
2E81 H12
2E92 I3
FE26
FEB3
F
G
H
I
F
G
H
I
DATA-SDA
2E93 I3
2E95 F10
2E96 E10
2E99 C9
2EB1 H12
2EB3 H14
2EB4 A4
2ECF B3
3E01 B6
3E03 B7
3E04-1 G8
3E04-2 G8
3E04-3 H8
3E05 A4
3E10 F4
3E13 H9
3E20 H10
3E25 D9
3E29 E5
3E33 D10
3E35 C6
3E36 G4
3E42 B7
3E46 C5
3E47 C11
3E48 F10
3E50 F9
3E53 F10
3E56 F8
3E58 E8
3E60 E10
3E65 C12
3E70 B13
3E71 B13
3E72 C13
3E82 B7
3E89 C7
3E90 B8
3E92 H4
3E95 I5
IE10 B12
IE13 I9
IE15 F11
IE19 A2
IE24 G8
IE25 G8
IE26 G5
IE27 E5
IE57
IE68
6
2E21
3E25
150R
3E33
470R
FE69
MSP-305H-BBB-732-03 NI
4
AUDIO-OUT-L
A-PLOP
1u0
IE29 I5
3 1E04-2
WHITE
RES
RES
IE31 I5
IE62
3E58
6K8
IE32 C13
IE33 F9
2
FE40
7E10-1
1
RES
IE34 F8
BC847BS(COL)
IE35 F9
*AP
IE38 I12
IE57 D8
IE60 I14
IE61 I14
IE62 E9
IE27
FE54
3E29
MSP-305H-BBB-732-03 NI
2
CVBS-MON-OUT-CINCH
AV4-Y
68R
1E04-3 1
GREEN
*EU
IE08
IE68 D9
IE70 H13
IE89 H13
IE90 H13
9E04
IE34
IE33
2E34
1u0
FE53
3E50
150R
3E48
470R
MSP-305H-BBB-732-03 NI
6
AUDIO-OUT-R
A-PLOP
3
4
5 1E04-1
RED
RES
RES
IE35
3E56
6K8
5
RES
7E10-2
1E07
CON_JACK
BC847BS(COL)
IE15
5E06
30R
FE59
2
*EU
1
IE26
FE48
YKB11-3004
FE41
J
J
MSP-305H-BBB-523-03 NI
4
9E00
AV4-PR
1E03-2
RED
3
2E07
*AP
9E11
+3V3
AV1-Y_CVBS
FE42
G
H
G
H
2E52
3E96 I4
10p
3E97 I4
K
L
K
L
*EU
3E98 I5
IE03
IE25
IE24
FE51
2E05
100n
3E04-2
+5V
MSP-305H-BBB-523-03 NI
2
9E02
7
2
3EA1 H14
3EA2 H13
3EA3 H13
3EA5 I14
3EA6 I13
3EB1 I13
3EB2 I13
3EB4 I11
3EB5 I12
3ED3 H14
5E02 H12
5E05 B10
5E06 F12
6E04 C4
6E05 A7
6E06 I4
AV4-PB
SPDIF-OUT
7E03
BC847BW
4K7
2E08
100n
3E20
47R
1E03-3
BLUE
1
IE90
5E02
220R
IE02
IE01
+12V
9E01
AV2-Y_CVBS
*AP
+5V
IE89
9E06
4
IE70
2E78
1u0
BC847BPN(COL)
IE29
FE49
3E96
1K0
7E06-2
MSP-305H-BBB-523-03 NI
6
5
6
AUDIO-IN3-L
IE60
3
2
7E06-1
M
N
M
N
O
P
BC847BPN(COL)
1
1E03-1 5
WHITE
RES
3
6E11 C6
6E13 C10
6E15 C11
6E16 C13
6E17 B14
6E18 A4
6E38 I4
6E40 F4
6E46 G13
6E47 E10
6E48 F10
6E51 H4
6E52 G4
2E79
1u0
IE07
IE38
3EB5
470R
3EB1
330R
1
7E16
IE61
BC847BW
IE13
Y_CVBS-MON-OUT-SC
9E28
2
9E21
I
I
RES
IE31
FE50
3E97
1K0
YKB11-3001V
2
AUDIO-IN3-R
*AP
1E10
1
9E07
CVBS-MON-OUT-CINCH
Y_CVBS-MON-OUT
RES
FE43
1
2
3
4
5
6
7
8
9
10
11
12
13
14
O
P
CHN
SETNAME
CLASS_NO
2
2008-11-21
ANA + SIDE I/O
8204 000 8930
TV543 R2 LDIPNX
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
4
130
2
A2
DATE
2008-01-18
C
ROYAL PHILIPS ELECTRONICS N.V. 2005
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_543_090303.eps
090303
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 129
SSB: Analogue Externals C
1
2
3
4
5
6
8
9
10
11
12
13
7
1000 F3
1002 E2
1003 D3
1004 C2
1005 B2
1006 B3
1007 A3
1010 F4
FE87 B7
FE88 B7
FE89 B8
FE90 C8
FE91 D7
FE98 B8
IE58 C4
IE66 E5
IE67 F5
IE72 D5
1
2
3
4
5
6
7
8
9
A
B
C
D
E
F
G
H
I
A
B
C
D
E
F
G
H
I
ANALOGUE EXTERNALS C
1E11-1 C1
1E11-2 C2
1E11-3 D2
1E14 B1
1E15 E2
1M36 B8
2E35 A3
2E36 B3
2E37 D3
2E39 F4
2E40 F5
2E42 C3
2E45 D5
2E53 A7
2E54 A7
2E55 B7
2E56 B8
2E57 D8
2E58 D8
2E80 D5
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
3EC0 B8
3EC1 A8
5E00 C8
5E01 D8
6E20 A3
6E21 C3
6E41 B3
6E43 D3
6E44 F4
6E45 F3
9E13 A8
9E14 A8
9E32 F2
9E34 F3
BE20 A3
BE21 B2
BE22 B2
BE23 C3
BE24 D2
BE25 D2
BE26 F3
BE27 F4
BE28 F2
FE17 D2
FE18 F2
FE20 B2
FE21 B2
FE22 C3
FE23 D3
FE24 F3
FE25 F5
FE56 A2
FE86 B7
RESERVED
A
B
C
D
E
F
A
B
C
D
E
F
9E13
3EC0
FRONT-C
9E14
3EC1
FRONT-Y_CVBS
AUDIO-IN5-L
2
4
3
1
BE20
FE56
100R
C
SVHS IN
Y/CVBS
AUDIO-IN5-R
5
FRONT-Y_CVBS
FRONT-C
100R
FE20
BE22
FE21
FE87
FE88
MDC-013V1-B
1E14
AUDIO-IN5-L
FE86
FE89
AUDIO-IN5-R
BE21
AUDIO-HDPH-L-AP
AUDIO-HDPH-R-AP
CVBS
1M36
FE98
1
2
2
3
1E11-1 1
YELLOW
IE58
4
5
TO SIDE I/O
6
7
BE23
FE22
8
3E81
1K0
9
10
11
5
6
B11B-PH-K
LEFT
5E00
30R
FE90
1E11-2 4
RES
RES
WHITE
RIGHT
8
9
7
5E01
30R
FE91
1E11-3
RED
BE24
IE72
FE23
BE25
FE17
3E78
1K0
RES
RES
FOR ITV
RC-IN
IE66
RC-OUT
3E26-1
1E15
5
4
2
1
2
8
7
HEADPHONE
33R
3E26-2
BE26
FE24
LEFT
IE67
3
33R
7
8
1
BE28
FE18 9E34
FE25
3E26-3
RIGHT
3
6
5
FOR ITV
33R
BE27
MSJ-035-10A B AG PPO
3E26-4
4
33R
1
2
3
4
5
6
7
8
9
CHN
SETNAME
CLASS_NO
2
2008-11-21
ANA + SIDE I/O
J
J
8204 000 8930
TV543 R2 LDIPNX
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
4
130
3
A3
DATE
2008-01-18
C
ROYAL PHILIPS ELECTRONICS N.V. 2007
7
1
2
3
4
5
6
8
9
10
11
12
13
18310_544_090303.eps
090303
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 130
SSB: Analogue Externals D
1
2
3
4
5
6
7
8
9
10
11
12
13
10
14
11
15
16
17
18
14
19
20
1008 F5
9E31 A6
9E35 C6
9E36 C6
9E40 F3
9E41 E3
9EA1 A11
9EA2 A11
9EA3 A11
9EA4 G11
9EA5 G11
9EA7 A11
BEB0 E5
BEB1 D5
BEB2 E5
BEB3 E5
BEB4 D10
BEB5 D10
BEB6 C10
BEB7 C10
BEB8 C10
BEB9 C10
FE10 G2
FE11 G1
FE12 F1
FE14 G2
FE15 G1
FE27 I2
1
2
3
4
5
6
7
8
9
12
13
A
B
C
A
B
C
1029 F5
1E06 F6
1E50 D6
1E51 E6
1HP0 I1
ANALOGUE EXTERNAL D
HOTEL TV
1R07 F1
1R08 H1
1R12 H9
2E03 I1
2E09 I2
2E20 I2
9E31
+3V3-STANDBY
7E19-1
IE79
2ECH
100n
74HC4066
9EA1
9EA2
9EA3
9EA7
AV1-B
AV1-PB
A
B
C
D
E
F
G
H
I
A
B
C
D
E
F
G
H
I
3ECK
1
RXD
1
2
2E25 G2
2E38 G2
2E60 D3
2E61 D4
2E62 D2
2E63 D2
2EA1 C8
2EA2 C8
2EA3 C8
2EA6 D8
2EA9 B11
2EAA B11
2EAB E11
2EAC E9
2EAD E9
2EAE F9
2EAF G9
2EAK I10
2EAL I10
2EAM I11
2EAN I11
2EAP C8
2EAQ D8
2EB6 D12
2ECB I9
RXD-UP
AV1-G
AV1-Y
AV1-PR
100R
1
3ECL
100R
13
UART-SWITCH
X1
AV1-R
7E19-2
74HC4066
AV1-CVBS
AV1-Y_CVBS
4
1
FOR MHP BOLT-ON
+5V
3
RXD-MIPS
TXD-UP
1
3ECN
100R
5
UART-SWITCHn
TXD
X1
7E19-3
74HC4066
2EAA
3ECP
100R
8
1
9
1
10u
2EA9
100n
IEA1
6
X1
7E19-4
74HC4066
11
7EA1
FE95
3ECM
10K
D
E
D
E
ADG734BRU
UART-SWITCHn
UART-SWITCH
+3V3-STANDBY
1
10
VDD
FE28 I1
FE29 I2
TXD-MIPS
1
12
MHP-SWITCH
Φ
IE81
FE47
X1
3E08
100R
SPDT
7E20
FE30 G2
FE31 G2
FE32 G1
FE33 H1
FE34 H2
FE35 H2
FE36 H1
FE37 H1
FE44 E5
FE45 E5
FE47 C1
FE57 F5
FE92 D5
FE93 E5
FE94 E5
FE95 B1
FE96 F4
FE97 F4
FE99 C3
FEA5 H10
FEA6 H10
FEA7 H10
FEA8 H10
FEA9 H10
FEB0 H10
FEB1 H9
FEB4 H2
FEB5 I10
FEB6 I10
FEB7 I10
FEB8 I10
FEB9 D1
FEC0 E1
IE11 H1
SWITCH
PDTC114EU
1
11
12
13
14
20
19
18
17
15
IN1
IN3
+3V3-STANDBY
BEB9
2
RES
S1A
D1
S3A
D3
2EA1
2EA2
2EA3
2EAP
2EAQ
2EA6
4u7
4u7
4u7
4u7
4u7
4u7
IEA2
IEA3
IEA4
IEA5
IEA6
IEA7
BO-R
3
+3V3
AV1-Y
BO-CVBS
RES
9E08
BEB8
BEB7
BEB6
47K
4
AV1-R
BO-B
S1B
IN2
S2A
D2
S3B
IN4
S4A
D4
9E35
9E36
RXD-MIPS
TXD-MIPS
RXD
TXD
2ECE
4u7
3EAT
IE78
IE95
10
9
6E50
2ECC I9
2ECD I9
+3V3
47K
AV1-B
BO-G
FE99
PMEG1020EA
DEBUG / RS232 INTERFACE
3EB3
2ECE C12
2ECH A5
3E00 G3
3E08 C2
3E09 H2
3E23 H2
3E39 I5
7E17
ST3232C
8
AV1-Y_CVBS
16
7
VCC
AV1-G
S2B
S4B
NC
Φ
47K
2E62
RS232
F
G
H
I
F
G
H
I
IE99
1
3
4
5
2EB6
4u7
3EC9
C1+
C1-
C2+
C2-
2E60
6
BEB5
AV1-CVBS
100n
2E63
100n
V-
GND VSS
100n 2E61
47K
2
V+
3E40 C2
3E41 F2
3E57 H3
3E67 G2
3E83 H3
3E84 H3
3E85 I2
3ED1
100n
B4B-PH-SM4-TBT(LF)
1E50
AV1-PB
AV1-PR
BEB4
LEVEL
FE92
FE93
BEB1
FEB9
9E03
11
10
14
7
TXD-UP
T1
T2
T1
T2
1
2
IN
OUT
SHIFTED
FE94
BEB2
UP
3
4
13
8
12
9
3E86 H3
3E87 H5
3E88 G14
3E91 F2
IE82
IE84
R1
R2
R1
R2
IN
OUT
TXD-MIPS
RXD-MIPS
6
5
FOR
+3V3
1E51
FE44
FE45
BEB3
BEB0
DEBUG
1
2
3
15
3E93 I2
MIPS
IEA8
3EAA D9
3EAB D9
3EAC D9
3EAT C12
3EAV C8
3EAY H10
3EAZ H10
3EB3 C12
3EC2 C9
3EC3 C9
3EC4 C9
3EC5 C9
3EC6 D8
3EC7 D8
3EC8 D9
3EC9 D12
3ECE H11
3ECF H10
3ECG H10
3ECH H10
3ECK A1
3ECL A2
3ECM B3
3ECN B1
3ECP B1
3ECQ-1 E8
3ECQ-2 F9
3ECQ-3 E9
3ECQ-4 E9
3ECS-1 G8
3ECS-2 G9
3ECS-3 F8
3ECS-4 F9
3ED1 D12
3ED2 C8
5E03 H1
5EA1 B10
6E19 C3
6E25 F3
USE ONLY
5
4
2EAB
100n
FEC0
3ECQ-3
IEC4
IEC5
2EAC
IEB1
9E05
3
6
1
1u0
1u0
RXD-UP
BO-AUDIO-R
AV1-AUDIO-R
B3B-PH-SM4-TBT(LF)
7EA3
74HC4053PW
33K
3ECQ-1
9E41
9E40
2EAD
IEB0
8
VDD
GM4 DX
6
IE75
IE12 H1
3E91
100R
TXD
RXD
33K
FE96
FE97
IE75 F1
2
3
13
12
11
14
15
4
AUDIO-IN1-R
AUDIO-IN1-L
1
2
4X1
4X2
IE76 F1
IE76
1E06
3E41
100R
IE78 C12
IE79 A4
1
FE57
IE81 C2
1
2
10
UART
SERVICE
IE82 E2
IE84 E2
IE95 C12
IE99 D12
IEA1 B10
IEA2 C10
IEA3 C10
IEA4 C10
IEA5 C10
IEA6 C10
IEA7 D10
IEA8 E11
IEB0 E10
IEB1 E10
IEB4 G10
IEB5 F10
IEC4 E9
TO ITV BOLT - ON MODULE
CONNECTOR
3ECS-3
33K
1R07
3
5
9
FE12
IEC6
IEC7
2EAE
IEB5
IEB4
AV1-B
AV1-G
AV1-R
3
1
6
8
1u0
1u0
BO-AUDIO-L
AV1-AUDIO-L
1
FE11
2
2EAF
FE10
3
4
5
6
7
8
9
J
J
FE14
3E67
AV1-BLK-BO
VEE VSS
33K
3ECS-1
FE31
FE32
+3V3
AV1-AUDIO-L
AV1-AUDIO-R
3E88
10K
100R
3E00
MHP-SWITCH
MHP-SWITCH
100R
FE30
FE15
AV1-CVBS
11
10
IEC8
IEC9
9EA4
9EA5
AV1-AUDIO-R
AV1-AUDIO-L
AUDIO-IN1-R
AUDIO-IN1-L
K
L
K
L
IEC5 E9
IEC6 F9
IEC7 G9
IEC8 G12
IEC9 G12
IED0 H12
IED1 H11
IED2 H11
FE37
1R08
FOR MHP BOLT-ON
FE36
1
2
3E09
3E23
100R
1R12
RXD-UP
TXD-UP
FE35
FEA5
FEA8
100R
100R
100R
3ECF
3ECG
3ECH
BOLT-ON-IO
RXD-UP
1
2
3
4
5
3
5E03
FEA6
FEA7
100R
3E83
4
3E84
30R
IE12
IE11
SCL-BOLT-ON
SDA-BOLT-ON
RC-UP
BOLT-ON-IO
STANDBY
TXD-UP
FE33
5
+3V3-STANDBY
100R
9E30
68R
AV1-BLK
6
3E86
100R
IED0
SPDIF-IN1
FEB4
100R
7
3E87
10K
3E57
100R
BOLT-ON-IO
3ECE
1K0
6
FEB1
8
+3V3
IED1
IED2
FEA9
FEB0
3EAY
3EAZ
BO-AUDIO-L
BO-AUDIO-R
7
9
FE34
1K0
6E27 F4
CVBS-TER-OUT
8
10
6E50 C3
7E17 D2
7E19-1 A3
7E19-2 A4
7E19-3 B5
7E19-4 B5
7E20 C3
7EA1 B10
7EA3 E11
9E03 D2
9E05 E1
9E08 C3
9E09 C4
9E30 H11
9
B10P-PH-K-S
FEB5
BO-CVBS
10
11
12
13
14
3E39 RES
10K
FEB6
FEB7
FEB8
BO-R
BO-G
BO-B
M
N
M
N
O
P
15 16
BM14B-SRSS-TBT
1HP0
1
FE29
3E85
100R
SCL-SSB
SDA-SSB
SCL
FE27
100R
2
3
SDA
3E93
4
5
FE28
1
2
3
4
5
6
7
8
9
10
11
12
13
14
O
P
CHN
SETNAME
CLASS_NO
2
2008-11-21
ANA + SIDE I/O
8204 000 8930
TV543 R2 LDIPNX
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
4
130
4
A2
DATE
2008-01-18
C
ROYAL PHILIPS ELECTRONICS N.V. 2007
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
18310_545_090303.eps
090303
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 131
SSB: Mini PCI Connector
1
2
3
4
5
6
8
9
10
11
12
13
7
1A01-A A1
1A01-B A6
2A00 A3
2A01 A3
2A02 A3
2A03 A3
2A04 A4
2A05 A4
2A06 A4
2A07 A4
2A08 A5
2A09 A5
2A50 A7
2A51 A7
2A52 A8
3A00 E9
3A01 C4
3A02 B9
3A03 D9
3A04 D9
3A05 D9
3A06 E9
5A00 A2
5A01 A7
9A00 B3
9A01 B7
9A02 B9
FA30 E1
FA31 E2
FA32 E1
FA33 E1
FA34 E6
FA35 E6
FA36 E6
FA37 A8
IA20 B9
IA21 D9
IA22 D9
IA23 D9
IA24 E9
IA25 E9
IA26 B7
IA27 B7
IA28 A3
IA29 B2
IA30 C4
A
B
C
D
E
F
G
H
I
A
B
C
D
E
F
G
H
I
1
2
3
4
5
6
7
8
9
MINI PCI CONNECTOR
RES
IA28
5A00
+3V3-mPCI
5A01
FA37
+3V3
+5V-mPCI
+5V
30R
30R
ROW_B
1A01-B
A
A
ROW_A
1A01-A
1
3
5
7
9
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
52
54
56
58
60
62
64
66
68
70
72
74
76
78
80
82
84
86
88
90
92
94
96
98
100
102
104
106
108
110
112
114
116
118
120
122
124
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
45
47
49
51
53
55
57
59
61
63
65
67
69
71
73
75
77
79
81
83
85
87
89
91
93
95
97
99
101
103
105
107
109
111
113
115
117
119
121
123
IA29
IRQB-mPCI
9A00
RES
IRQ-PCI
+5V-mPCI
IA27
9A01
IRQ-PCI
+3V3-mPCI
IRQA-mPCI
IA26
9A02
PCI-CLK-MINI
PCI-REQ-MINI
RESET-mPCI
PCI-GNT-MINI
PME
RESET-mPCI
PME
RESET-ETHERNET
+3V3-mPCI
B
C
D
+3V3-mPCI
B
C
D
3A02
10K
IA20
+3V3-mPCI
PCI-AD31
PCI-AD29
PCI-AD30
PCI-AD27
PCI-AD25
+3V3-mPCI
PCI-AD28
PCI-AD26
PCI-AD24
IDSEL
PCI-CBE3
PCI-AD23
PCI-AD21
PCI-AD19
PCI-AD22
PCI-AD20
PCI-PAR
PCI-AD18
PCI-AD16
PCI-AD17
PCI-CBE2
PCI-IRDY
PCI-FRAME
PCI-TRDY
PCI-STOP
3A01
10K
IA30
+3V3-mPCI
PCI-CLKRUN
PCI-SERR
PCI-CLKRUN
+3V3-mPCI
+3V3-mPCI
PCI-PERR
PCI-CBE1
PCI-AD14
PCI-DEVSEL
PCI-AD15
PCI-AD13
PCI-AD11
IA21
IDSEL
3A05
PCI-AD13
PCI-AD11
100R
3A04
PCI-AD12
PCI-AD10
IA22
IA23
100R RES
3A03 RES
100R
PCI-AD9
PCI-CBE0
PCI-AD8
PCI-AD7
PCI-AD12
PCI-AD6
PCI-AD4
PCI-AD2
PCI-AD0
+3V3-mPCI
+5V-mPCI
PCI-AD5
PCI-AD3
PCI-AD1
3A00
10K
IA24
M66EN
M66EN
FA30
FA31
FA32
FA34
FA35
E
E
FA36
3A06
10K
MPCIACT
MPCIACT
+3V3-mPCI
IA25
FA33
126
125
1734065-3
1734065-3
1
2
3
4
5
6
7
8
9
1X09
REF EMC HOLE
CHN
SETNAME
CLASS_NO
2
2008-11-21
MINI PCI
J
J
8204 000 8935
TV543 R2 LDIPNX
2008-10-10
NAME Maelegheer Ingrid
CHECK
3
SUPERS.
2
130
1
A3
DATE
2007-10-16
C
ROYAL PHILIPS ELECTRONICS N.V. 2008
7
1
2
3
4
5
6
8
9
10
11
12
13
18310_546_090303.eps
090303
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 132
SSB: DDR Supply
1
2
3
4
5
6
8
9
10
11
12
13
7
1M01 E3
2A10 E3
2A11 E5
2A12 E5
2A13 B6
2A14 B6
2A15 C4
2A16 C4
2A19 A5
2A20 A4
2A21 B5
2A22 C1
2A23 E6
2A24 E6
2A25 A7
2A26 A7
2A27 B7
2A28 D7
2A29 D7
2A30 E7
2AC0 E1
3A07 C1
3A08 A3
3A09 A3
3A10 B3
3A11 A3
3A12 A4
3A13 A6
3A14 B5
3A15 B5
3A16 E5
3A17 B5
3A18 E6
3A19 D6
3A20 C3
3A21 C3
3A22 C4
3A23 C5
3A24 D4
3A25 D4
3A26 A1
3A27 A1
3AC0 E1
5AC1 E2
5AC2 E2
5AC4 E3
6A01 E7
7A00-1 A5
7A00-2 D5
7A01 A6
7A02 D7
7A03 D3
7A07 A1
FA01 A6
FA02 E6
FA03 E6
FA04 A1
FA06 C4
FAC0 E3
IA01 B3
IA02 A4
IA03 A5
IA04 B5
IA05 A6
IA06 B5
IA07 D4
IA08 D3
IA09 E5
IA10 C1
IA11 E5
IA12 E7
IA13 E6
1
2
3
4
5
6
7
8
IAC2 E3
IAC3 E3
IAC4 E1
A
A
B
C
D
E
F
G
H
I
DDR SUPPLY
+3V3F
+2V5-REF
B
+12V
+V-LM833
7A01
PHD38N02LT
A
A
B
C
D
+2V5-REF
FA04
7A00-1
LM833
IA02
3
2
IA03
IA05
1
3A13
22R
1
1
7A07
TS2431
FA01
2
C
IA01
IA04
3
B
3A14
1K0
+2V5
IA06
+12V
D
IA10
3A07
RES
+V-LM833
+12V
10R
C
RES
E
RES
2A15
RES
3A22
RES
FA06
3A23
1K0
1K0 1%
RES
22n
IA07
4
RES
7A03
F
+3V3F
TS431AILT
RES
D
+V-LM833
7A02
PHD38N02LT
7A00-2
LM833
5
6
IA08
3A19
22R
7
FA02
IA13
IA12
G
IA09
1M01
E
IAC2
E
5AC1
30R
IAC4
1
2
3
3AC0
3A18
1K0
KEYBOARD
FA03
FAC0
IAC3
+1V8-PNX85XX
5AC4
5AC2 30R
H
+3V3-STANDBY
IA11
10R
2AC0
100p
30R
1
2
3
4
5
6
7
8
I
CHN
SETNAME
CLASS_NO
2
2008-11-21
MINI PCI
J
J
8204 000 8935
TV543 R2 LDIPNX
2008-10-10
3
NAME Maelegheer Ingrid
CHECK
SUPERS.
2
130
2
A3
DATE
2008-01-18
C
ROYAL PHILIPS ELECTRONICS N.V. 2008
7
1
2
3
4
5
6
8
9
10
11
12
13
18310_547_090303.eps
090303
2009-May-08
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Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 133
SSB: Audio
1
2
3
4
5
6
8
9
10
11
12
13
7
1735 E9
ID10 C7
ID11 A4
ID12 A4
ID16 C4
ID18 C5
ID19 B5
ID27 A6
ID28 B6
ID29 C5
ID30 C5
ID31 C6
ID32 C6
ID33 D2
ID36 B4
ID37 C4
ID38 D4
1
2
3
4
5
6
7
8
9
1D38 E6
1D50 E9
1D51 F8
1D52 F9
1D53 F5
1D54 F6
2D01 E2
2D02 D2
2D05 A4
2D06 A5
2D07 A5
2D08 A7
2D09 C7
2D10 C7
2D11 C8
2D12 C8
2D13 F9
2D14 E9
2D15 C8
2D16 C4
2D17 C4
2D18 B8
2D19 A7
2D20 A5
2D21 D8
2D22 B8
2D23 C4
2D24 B4
2D25 F8
2D26 B8
2D27 D8
2D30 A5
2D31 A6
3D03 E2
3D06-1 D2
3D06-2 D2
3D06-3 D2
3D06-4 D2
3D09 A3
3D10-1 D8
3D10-2 D8
3D10-3 D7
3D10-4 D7
3D11-1 F7
3D11-2 F8
3D11-3 E8
3D11-4 E7
3D14-1 B8
3D14-2 B8
3D14-3 B8
3D14-4 B7
3D16 A4
3D17 C4
5D01 C7
5D02 C7
5D04 C9
5D05 C9
5D07 A6
5D08 A6
5D09 F8
7D03-1 A4
7D03-2 C2
7D10-1 B6
7D10-2 D3
CD10 D5
FD02 F9
FD05 E9
FD06 F9
FD07 D2
FD14 A5
ID05 C8
A
A
B
C
D
E
F
G
H
I
AUDIO
7D03-1
+AUDIO-POWER
BC847BS(COL)
FD14
3D09
4R7
+AUDIO-POWER
GND-AUDIO
GND-AUDIO
2D30
A
A
B
C
D
E
F
3D16
ID11
220u 25V
2D20
22K
B
ID12
GND-AUDIO
220u 25V
2D07
ID27
ID28
220n
C
B
ID36
2D24
47n
ID19
-AUDIO-R
7D10-1
TPA3120D2PWP
2D18
AVCC
L
R
2D10
220n
25V 220u
2D12
PVCC
ID32
16
5D02
22u
5D05
BSR
ID10
ID09
RIGHT-SPEAKER
LEFT-SPEAKER
Φ
6
5
R
L
CLASS-D
15
R
D
ID18
ID08
ID16
2D23
47n
IN
25V 220u
220R
5D04
ID06
AUDIO AMP
+AUDIO-L
OUT
22
5D01
22u
L
2D11 ID07
18
17
0
1
ID31 2D09
220n
GND-AUDIO
C
GAIN
21
220R
ID05
BSL
25V 220u
2D15
2D16
ID29
11
7
4
2
VCLAMP
BYPASS
MUTE
SD
1u0
25V 220u
2D17
1u0
3D17
A-STBY
ID30
ID37
1
2
AUDIO-MUTE
A-STBY
7D03-2
BC847BS(COL)
PGND
E
4K7
AGND
L
R
GND_HS
3
4
ID38
FD07
3D06-4
100K
3D06-2
5
LEFT-SPEAKER
5
4
2
7
100K
CD10
3D06-1
100K
D
1
8
ID33
GND-AUDIO
GND-AUDIO
GND-AUDIO
GND-AUDIO
F
2D02
10u
7D10-2
3D06-3
100K
6
3
TPA3120D2PWP
RIGHT-SPEAKER
VIA
26
27
28
29
37
36
35
34
GND-AUDIO
VIA
VIA
VIA
LEFT-SPEAKER
GND-AUDIO
GND-AUDIO
VIA
E
G
3D03
100R
2D01
1D38
LEFT-SPEAKER
1
2
3
GND-A
1735
FD05
FD06
10n
GND-AUDIO
GND-AUDIO
RIGHT-SPEAKER
5D09
220R
1
2
3
4
1735446-3
FD02
GND-AUDIO
GND-A
1735446-4
H
GND-AUDIO
GND-AUDIO
F
ID06 C8
RIGHT-SPEAKER
ID07 C8
ID08 C8
ID09 C7
I
1
2
3
4
5
6
7
8
9
CHN
SETNAME
CLASS_NO
2
2008-11-21
CLASS D
J
J
8204 000 8931
TV543 R2 LDIPNX
2008-10-10
3
NAME Randal De Keyzer
CHECK
SUPERS.
1
130
1
A3
DATE
2007-10-12
C
ROYAL PHILIPS ELECTRONICS N.V. 2007
7
1
2
3
4
5
6
8
9
10
11
12
13
18310_548_090303.eps
090303
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 134
SSB: SRP List Explanation
Example
Personal Notes:
1.1.
Introduction
Net Name
Diagram
+12-15V
+12-15V
+12-15V
+12-15V
+12-15V
+12V
AP1 (4x)
AP4 (4x)
AP5 (12x)
AP6 (4x)
AP7 (8x)
AP1 (4x)
AP1 (2x)
AP1 (2x)
AP1 (4x)
AP2 (1x)
AP5 (3x)
AP1 (2x)
AP2 (2x)
AP3 (2x)
AP1 (6x)
AP2 (1x)
AP1 (1x)
AP2 (1x)
AP1 (6x)
AP2 (1x)
AP1 (3x)
AP1 (2x)
AP2 (1x)
AP1 (2x)
AP3 (2x)
AP5 (1x)
AP6 (2x)
AP1 (4x)
AP4 (6x)
AP5 (14x)
AP6 (6x)
AP7 (8x)
AP1 (2x)
AP4 (1x)
AP5 (1x)
AP5 (3x)
AP4 (1x)
AP5 (1x)
AP5 (1x)
AP7 (1x)
AP1 (2x)
AP4 (2x)
AP5 (1x)
AP5 (1x)
AP6 (2x)
AP1 (2x)
AP3 (2x)
AP1 (1x)
AP5 (2x)
AP1 (2x)
AP6 (2x)
AP4 (2x)
AP4 (2x)
AP6 (2x)
AP1 (2x)
AP1 (40x)
AP2 (20x)
AP3 (2x)
AP3 (2x)
AP1 (2x)
AP4 (4x)
AP5 (34x)
AP4 (7x)
AP5 (1x)
AP4 (7x)
AP5 (1x)
AP5 (1x)
AP6 (15x)
AP1 (11x)
AP4 (8x)
AP5 (2x)
AP6 (8x)
AP7 (6x)
AP3 (2x)
AP5 (2x)
AP5 (3x)
AP1 (51x)
AP2 (15x)
AP6 (2x)
AP4 (2x)
AP4 (2x)
AP6 (2x)
AP4 (1x)
AP5 (1x)
AP6 (1x)
AP4 (1x)
AP5 (1x)
AP4 (2x)
AP5 (1x)
AP6 (2x)
AP1 (3x)
AP6 (1x)
AP7 (2x)
AP6 (1x)
AP7 (1x)
AP1 (2x)
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.
+12V_NF
+12VAL
+25VLP
+25VLP
+3V3-STANDBY
+400V-F
+400V-F
+400V-F
+5V2
1.2.
Non-SRP Schematics
+5V2
+5V2-NF
+5V2-NF
+5V-SW
There are several different signals available in a schematic:
Power Supply Lines
+5V-SW
+8V6
1.2.1.
+AUX
+AUX
+DC-F
+DC-F
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).
+SUB-SPEAKER
+SUB-SPEAKER
-12-15V
-12-15V
-12-15V
-12-15V
+5V
+5V
-12-15V
AL-OFF
Outgoing
Normal Signals
For normal signals, a schematic reference (e.g. B14b) is placed next to the signals.
Incoming
AUDIO-L
AUDIO-L
AUDIO-PROT
AUDIO-R
AUDIO-R
AUDIO-SW
AUDIO-SW
BOOST
1.2.2.
CPROT
CPROT
CPROT-SW
CPROT-SW
-DC-F
B14b
signal_name
-DC-F
DC-PROT
DC-PROT
DIM-CONTROL
FEEDBACK+SW
FEEDBACK-L
FEEDBACK-R
FEEDBACK-SW
GND-AL
GNDHA
1.2.3.
Grounds
For normal and special grounds (e.g. GNDHOT or GND3V3 etc.), nothing is indicated.
GNDHA
GNDHA
1.3.
SRP Schematics
GNDHOT
GND-L
GND-L
GND-L
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:
GND-LL
GND-LL
GND-LR
GND-LR
GND-LSW
GND-LSW
GND-S
+5V
+5V
Power supply line.
GND-SA
GND-SA
GND-SA
GND-SA
GNDscrew
GNDscrew
GND-SSB
GND-SSP
GND-SSP
IN+SW
name
name
Stand alone signal or switching line (used as less as possible).
name
name
Signal line into a wire tree.
IN-L
IN-R
IN-SW
name
name
INV-MUTE
INV-MUTE
INV-MUTE
LEFT-SPEAKER
LEFT-SPEAKER
MUTE
Switching line into a wire tree.
name
MUTE
MUTE
ON-OFF
OUT
Bi-directional line (e.g. SDA) into a wire tree.
OUT
OUTN
name
OUTN
POWER-GOOD
Signal line into a wire tree, its direction depends on the circuit (e.g. ingoing for PDP, outgoing for LCD sets).
POWER-OK-PLATFORM AP1 (2x)
RIGHT-SPEAKER
RIGHT-SPEAKER
SOUND-ENABLE
STANDBY
AP4 (1x)
AP5 (1x)
AP5 (3x)
AP1 (5x)
AP2 (1x)
AP5 (1x)
AP6 (2x)
AP1 (1x)
AP3 (2x)
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.
STANDBY
-SUB-SPEAKER
-SUB-SPEAKER
V-CLAMP
V-CLAMP
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.
10000_031_090121.eps
090121
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 135
SSB: SRP List Part 1
B08D
B09B
B01B
B01C
B04A
B04L
B06A
B07C
B07D
B08A
B08B
B08D
B09A
B01C
B07H
B07E
B07D
B07E
B09A
B02A
B02B
B07H
B02B
B02A
B04I
B10
B01B
B04I
B04M
B10
B05H
B06D
+3V3-STANDBY
+3V3-STANDBY
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V5-TUN
+5V5-TUN
+5V-DDC
+5V-EDID
+5V-EDID
B08A (1×)
B08D (3×)
B04A (1×)
B08A (1×)
B08D (1×)
B08A (1×)
B08D (1×)
B08A (1×)
B08D (3×)
B08A (1×)
B08D (3×)
B04K (1×)
B08D (2×)
B04K (1×)
B08D (2×)
B08A (1×)
B08D (3×)
B04A (1×)
B08A (1×)
B04K (1×)
B08D (2×)
B04K (1×)
B08B (1×)
B08D (2×)
B04A (1×)
B08A (1×)
B04A (1×)
B08A (1×)
B04K (1×)
B08A (1×)
B08B (1×)
B04K (1×)
B08A (1×)
B04K (1×)
B08A (1×)
B04K (1×)
B08A (1×)
B04K (1×)
B08A (1×)
B08B (1×)
B04K (1×)
B08A (1×)
B08B (1×)
B04K (2×)
B08A (1×)
B08B (1×)
B04K (1×)
B08A (1×)
B04K (1×)
B08A (1×)
B04K (2×)
B08A (1×)
B01B (1×)
B05H (1×)
B05H (1×)
B06A (1×)
B06G (1×)
B05H (3×)
B01B (1×)
B05E (1×)
B05H (1×)
B06G (1×)
B05H (1×)
B06G (1×)
B01B (1×)
B05H (1×)
B05H (2×)
B02A (3×)
B02A (3×)
B07D (4×)
B06A (2×)
B06A (2×)
B06A (2×)
B06A (2×)
B06A (2×)
B05D (1×)
B06A (1×)
B05D (1×)
B06A (1×)
B05D (1×)
B06A (1×)
B06A (2×)
B05D (1×)
B06A (1×)
B08D (2×)
B08D (2×)
B08D (2×)
B08D (2×)
B08D (2×)
B04A (2×)
B04N (1×)
B08D (3×)
B04A (2×)
B04N (1×)
B05H (3×)
B04E (2×)
B08D (2×)
B07D (2×)
B07D (2×)
B07D (2×)
B07D (2×)
B07D (2×)
B07D (2×)
B07D (2×)
B07D (2×)
B07D (3×)
B07D (3×)
B07D (2×)
B04K (1×)
B08B (1×)
B04N (1×)
B07H (3×)
B04N (1×)
B07A (2×)
B04N (1×)
B07A (2×)
B07A (1×)
B07H (1×)
B07A (1×)
B07H (1×)
B04N (1×)
B07H (1×)
B04N (1×)
AV1-B
AV1-B
AV1-BLK
AV1-BLK
B07H (1×)
CA-DATAEN
CA-INPACK
CA-IORD
B04H (1×)
B07D (1×)
B04H (1×)
B07D (1×)
B04G (3×)
B04G (3×)
B04G (3×)
B04G (3×)
B04G (3×)
B04G (3×)
B04G (3×)
B04G (3×)
B04G (3×)
B04G (3×)
B04G (3×)
B04G (3×)
B04G (3×)
B04G (3×)
B04G (3×)
B04G (2×)
B04G (3×)
B04G (3×)
B04G (4×)
B04G (4×)
B04G (3×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (2×)
B04G (3×)
B04G (3×)
B04G (2×)
B04G (3×)
B04G (3×)
B04A (3×)
B01B (1×)
B04A (1×)
B04A (3×)
B07D (4×)
B06A (2×)
B06F (2×)
B06F (2×)
B06F (2×)
B06F (2×)
B06F (2×)
B06F (2×)
B06F (2×)
B06F (2×)
B06F (2×)
B06F (2×)
B06F (2×)
B06F (2×)
B06F (2×)
B06F (2×)
B06F (2×)
B06F (2×)
B06F (2×)
B06F (2×)
B07D (2×)
B07D (2×)
B07D (2×)
B07D (2×)
B07D (2×)
B07D (2×)
B07D (2×)
B07D (2×)
B07D (3×)
B07D (3×)
B07D (2×)
B04A (2×)
B07E (4×)
B04A (2×)
B06B (1×)
B05F (1×)
B05F (1×)
B05F (1×)
B05F (1×)
B05F (1×)
B04E (2×)
B06B (1×)
B04E (2×)
B06B (1×)
B04E (2×)
DDC-SCL
DDC-SCL
DDC-SDA
DDC-SDA
DDR2-A0
DDR2-A1
DDR2-A10
DDR2-A11
DDR2-A12
DDR2-A2
DDR2-A3
DDR2-A4
DDR2-A5
DDR2-A6
DDR2-A7
DDR2-A8
DDR2-A9
DDR2-BA0
DDR2-BA1
DDR2-BA2
DDR2-CAS
DDR2-CKE
DDR2-CLK_N
DDR2-CLK_P
DDR2-CS
B06B (1×)
B04E (2×)
B06B (1×)
B04E (2×)
B06B (1×)
B01B (1×)
B04A (2×)
B01A (1×)
B01B (1×)
B01C (1×)
B07E (3×)
B07E (3×)
B07E (3×)
B06C (2×)
B06C (2×)
B06C (2×)
B05H (1×)
B06C (1×)
B05H (1×)
B02B (1×)
B04N (3×)
B02B (1×)
B04N (3×)
B02B (1×)
B04N (3×)
B02B (1×)
B04N (3×)
B02B (1×)
B04N (3×)
B02B (1×)
B04N (3×)
B02B (1×)
B04N (3×)
B02B (1×)
B04N (3×)
B02B (1×)
B04N (3×)
B04N (4×)
B02B (1×)
B04N (3×)
B02B (1×)
B04N (3×)
B04K (1×)
B08C (2×)
B04K (1×)
B08C (2×)
B10 (2×)
B01B (1×)
B10 (16×)
B01A (15×)
B01C (15×)
B04K (1×)
B08B (1×)
B04H (1×)
B07E (2×)
B04H (1×)
B07E (2×)
B04H (1×)
B07E (2×)
B04H (1×)
B07E (2×)
B04H (1×)
B07E (2×)
B04H (1×)
B07E (2×)
B04H (1×)
B07E (2×)
B04H (1×)
B07E (2×)
B04H (1×)
B07D (1×)
B04H (1×)
B07D (1×)
B04H (1×)
B07D (1×)
B04H (1×)
B07D (1×)
B04H (1×)
B07D (1×)
B04H (1×)
B07D (1×)
B04H (1×)
B07D (1×)
B04H (1×)
B07D (1×)
B04H (1×)
B04H (1×)
B07E (1×)
B04K (1×)
B08B (1×)
B04N (1×)
B07F (1×)
B04N (1×)
B07F (1×)
B09A (2×)
B02A (1×)
B02B (1×)
B02A (1×)
B02B (1×)
B02A (2×)
B02B (1×)
B04K (1×)
B02B (1×)
B04K (1×)
B09A (1×)
B09A (1×)
B04E (2×)
B04N (1×)
B07A (2×)
B04E (2×)
B07G (1×)
B09A (2×)
B01B (1×)
B04A (2×)
B09B (1×)
B04A (3×)
B01B (1×)
B04A (1×)
B05E (1×)
B05H (2×)
B01B (2×)
B04A (2×)
B01B (2×)
EJTAG-TDO
EJTAG-TMS
EJTAG-TMS
EJTAG-TRSTN
EJTAG-TRSTN
ENABLE-3V3
ENABLE-3V3
ENABLE-3V3-5V
ENABLE-3V3-5V
ENABLE-3V3-5V
ERX-DDC-SCL
ERX-DDC-SDA
ERX-HOTPLUG
FAN1-DRV
FAN1-OUT
FAN2-DRV
FAN-CTRL-1
FAN-CTRL-1
FAN-CTRL-2
FE-CLK
FE-CLK
FE-DATA0
FE-DATA0
FE-DATA1
FE-DATA1
FE-DATA2
FE-DATA2
FE-DATA3
FE-DATA3
FE-DATA4
FE-DATA4
FE-DATA5
FE-DATA5
FE-DATA6
FE-DATA6
FE-DATA7
FE-DATA7
FE-ERR
FE-SOP
FE-SOP
FE-VALID
FE-VALID
FRONT-C
FRONT-C
FRONT-Y_CVBS
FRONT-Y_CVBS
GND-A
GND-AUDIO
GND-AUDIO
GND-SIG
GND-SIG1
G-VGA
G-VGA
HDMIA-RX0-
HDMIA-RX0-
HDMIA-RX0+
HDMIA-RX0+
HDMIA-RX1-
HDMIA-RX1-
HDMIA-RX1+
HDMIA-RX1+
HDMIA-RX2-
HDMIA-RX2-
HDMIA-RX2+
HDMIA-RX2+
HDMIA-RXC-
HDMIA-RXC-
HDMIA-RXC+
HDMIA-RXC+
HDMIB-RX0-
HDMIB-RX0-
HDMIB-RX0+
HDMIB-RX0+
HDMIB-RX1-
HDMIB-RX1-
HDMIB-RX1+
HDMIB-RX1+
HDMIB-RX2-
HDMIB-RX2-
HDMIB-RX2+
HDMIB-RX2+
HDMIB-RXC-
HDMIB-RXC-
HDMIB-RXC+
HDMIB-RXC+
HOT-PLUG
HOT-PLUG-A
HOT-PLUG-A
H-SYNC-VGA
H-SYNC-VGA
I2C-SCL
B04A (2×)
B10 (3×)
LED2
Netname
Schematic
B07A (2×)
B07A (1×)
B07H (1×)
B07A (1×)
B07H (1×)
B04N (1×)
B07A (1×)
B04N (1×)
B07A (1×)
B04N (1×)
B07A (1×)
B04N (1×)
B07A (1×)
B04N (1×)
B07A (1×)
B04N (1×)
B07A (1×)
B04N (1×)
B07A (1×)
B04N (1×)
B07A (1×)
B04N (1×)
B07A (2×)
B04N (1×)
B07A (2×)
B04N (1×)
B07A (2×)
B04N (1×)
B07A (2×)
B04N (1×)
B07A (2×)
B04N (1×)
B07A (2×)
B04N (1×)
B07A (2×)
B04N (1×)
B07A (2×)
B04N (1×)
B07A (1×)
B04N (1×)
B07A (1×)
B04N (1×)
B07A (1×)
B04N (2×)
B07A (2×)
B04N (1×)
B07A (2×)
B04N (1×)
B07A (2×)
B07A (1×)
B07H (1×)
B07A (1×)
B07H (1×)
B04N (1×)
B07A (2×)
B04N (1×)
B07A (2×)
B07A (2×)
B07H (1×)
B07A (1×)
B07H (1×)
B06A (3×)
B04A (2×)
B07D (1×)
B07D (4×)
B06G (2×)
B05F (1×)
B06A (1×)
B06G (1×)
B06E (1×)
B06G (1×)
B06E (1×)
B06G (1×)
B06E (1×)
B06G (1×)
B06E (1×)
B06G (1×)
B06E (1×)
B06G (1×)
B06E (1×)
B06G (1×)
B06E (1×)
B06G (1×)
B07D (2×)
B07D (2×)
B07D (2×)
B07D (2×)
B07D (2×)
B07D (2×)
B07D (2×)
B07D (2×)
B07D (3×)
B07D (3×)
B07D (2×)
B06A (4×)
B05H (2×)
B05H (2×)
B05H (2×)
B05H (3×)
B05E (1×)
B05H (1×)
B05E (1×)
B05H (1×)
B05E (1×)
B05H (1×)
B05E (1×)
B05H (2×)
B02B (1×)
B04K (1×)
B08B (2×)
B08A (2×)
B02B (1×)
B08A (1×)
B08D (1×)
B06E (1×)
B06G (1×)
B06E (1×)
B06G (1×)
B04H (1×)
B07E (1×)
B04H (1×)
B07E (1×)
LEFT-SPEAKER
LIGHT-SENSOR
LIGHT-SENSOR
M66EN
MDO0
MDO1
MDO2
MDO3
MDO4
MDO5
MDO6
MDO7
MHP-SWITCH
MHP-SWITCH
MISO
MM1-A0
MM1-A0
MM1-A1
MM1-A1
MM1-A10
MM1-A10
MM1-A11
MM1-A11
MM1-A12
MM1-A12
MM1-A2
MM1-A2
MM1-A3
MM1-A3
MM1-A4
MM1-A4
MM1-A5
MM1-A5
MM1-A6
MM1-A6
MM1-A7
MM1-A7
MM1-A8
B01B (2×)
B04A (1×)
B09A (2×)
B07A (4×)
B07A (4×)
B07A (4×)
B07A (4×)
B07A (4×)
B07A (4×)
B07A (4×)
B07A (4×)
B04A (2×)
B08D (3×)
B06A (3×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B06F (1×)
B06G (1×)
B01B
B01C
B02B
B06B
B06C
B07B
B07H
B08B
B09B
B01B
B05H
B01A
B01B
B01A
B01C
B02B
B02B
B06E
B06G
B06A
B06E
B06G
B01C
B04A
B05C
B05C
B05C
B05C
B05C
B05C
B05C
B05C
B01A
B02B
B04A
B04P
B06A
B06E
B01A
B01B
B04P
B05A
B05C
B06E
B04G
B04P
B06E
B07D
B09B
B06A
B06E
B06F
B09B
B06F
B06G
B06E
B06G
B06A
B06E
B06G
B06E
B06G
B09B
B01B
B02A
B01A
B01B
B02B
B04A
B04L
B04M
B04N
B04P
B05C
B05E
B05F
B05G
B05H
B05I
B06A
B06B
B06C
B06E
B07A
B07C
B07D
B07F
B07G
B07H
B08A
B08B
B08D
B09A
B02A
B02B
B02B
B02B
B07G
B07G
B01A
B05H
B09B
B06E
B06G
B06A
B09A
B07F
B04A
B04B
B04E
B04F
B04N
B04P
B05C
B05C
B05C
B05C
B01B
B04A
B04P
B07D
+12V
+12V
+12V
+12V
+12V
+12V
+12V
+12V
+12V
+12VD
+12VD
+12VF
+12VF
+12VF1
+12VF2
+1V2
CA-IORD
AV1-BLK
CA-IOWR
CA-IOWR
CA-MDI0
CA-MDI0
CA-MDI1
CA-MDI1
CA-MDI2
CA-MDI2
CA-MDI3
CA-MDI3
CA-MDI4
CA-MDI4
CA-MDI5
CA-MDI5
CA-MDI6
CA-MDI6
CA-MDI7
AV1-BLK-BO
AV1-BLK-BO
AV1-CVBS
AV1-CVBS
AV1-G
AV1-G
AV1-PB
AV1-PB
AV1-PR
AV1-PR
AV1-R
AV1-R
AV1-STATUS
AV1-STATUS
AV1-Y
+5V-mPCI
+5V-TUN
+5V-TUN
+1V2A
+1V2-FPGA
+1V2-FPGA
+1V2M
AV1-Y
+5V-TUN
AV1-Y_CVBS
AV1-Y_CVBS
AV1-Y_CVBS
AV2-BLK
CA-MDI7
+5V-TUN-CVBS
+5V-TUN-PIN
+AUDIO-L
+AUDIO-L
+AUDIO-POWER
+AUDIO-POWER
+AUDIO-POWER
+AUDIO-POWER
+VDISP
+VDISP
+VDISP1
+VDISP1
+VDISP2
+VDISP2
+V-LM833
+VTUN
1V8-HDMI
ADAC(1)
ADAC(1)
ADAC(2)
ADAC(2)
ADAC(3)
ADAC(3)
ADAC(4)
ADAC(4)
ADAC(5)
ADAC(5)
ADAC(6)
ADAC(6)
ADAC(7)
ADAC(7)
ADAC(8)
ADAC(8)
AIN-5V
ALE
CA-MDO0
CA-MDO0
CA-MDO1
CA-MDO1
CA-MDO2
CA-MDO2
CA-MDO3
CA-MDO3
CA-MDO4
CA-MDO4
CA-MDO5
CA-MDO5
CA-MDO6
CA-MDO6
CA-MDO7
CA-MDO7
CA-MICLK
CA-MICLK
CA-MISTRT
CA-MISTRT
CA-MIVAL
CA-MIVAL
CA-MOCLK_VS2
CA-MOCLK_VS2
CA-MOSTRT
CA-MOSTRT
CA-MOVAL
CA-MOVAL
CA-OE
CA-OE
CA-REG
CA-REG
CA-RST
CA-RST
CA-VS1
CA-VS1
CA-WAIT
CA-WAIT
CA-WE
CA-WE
CCLK
CEC-HDMI
CEC-HDMI
CIN-5V
CLK-OUT2-PNX5100
CLK-OUT-PNX5100
CLK-OUT-PNX5100
CLK-OUT-PNX5100
CON20
+1V2-PLL
+1V2-PLL
+1V2-PNX5100
+1V2-PNX5100
+1V2-PNX5100
+1V2-PNX5100-CLOCK
+1V2-PNX5100-DDR-PLL1
+1V2-PNX5100-DLL
+1V2-PNX5100-LVDS-PLL
+1V2-PNX5100-TRI-PLL1
+1V2-PNX5100-TRI-PLL2
+1V2-PNX5100-TRI-PLL3
+1V2-PNX85XX
+1V2-PNX85XX
+1V2-PNX85XX
+1V2-PNX85XX
+1V2-PNX85XX
+1V2-PNX85XX
+1V2-STANDBY
+1V2-STANDBY
+1V2-STANDBY
+1V8-PNX5100
+1V8-PNX5100
+1V8-PNX5100
+1V8-PNX85XX
+1V8-PNX85XX
+1V8-PNX85XX
+1V8-PNX85XX
+1V8-PNX85XX
+2V5
AV2-BLK
DDR2-D0
DDR2-D1
AV2-STATUS
AV2-STATUS
AV2-Y_CVBS
AV2-Y_CVBS
AV2-Y_CVBS
AV3-PB
AV3-PB
AV3-PR
AV3-PR
AV3-Y
AV3-Y
AV4-PB
AV4-PB
AV4-PB
AV4-PR
AV4-PR
AV4-PR
AV4-Y
AV4-Y
AV4-Y
AV5-PB
AV5-PB
AV5-PR
AV5-PR
AV5-Y
AV5-Y
BACKLIGHT-BOOST
BACKLIGHT-BOOST
BACKLIGHT-CONTROL-FPGA-IN
BACKLIGHT-CONTROL-FPGA-IN
BACKLIGHT-CONTROL-FPGA-IN
BACKLIGHT-CTRL
BACKLIGHT-OUT
BACKLIGHT-OUT
BACKLIGHT-OUT
BACKLIGHT-OUT
BACKLIGHT-OUT2
BACKLIGHT-OUT2
BACKLIGHT-PWM-ANA-DISP
BACKLIGHT-PWM-ANA-DISP
BACKLIGHT-PWM-ANA-SSB
B-IF-_N-IF-
B-IF+_N-IF+
BIN-5V
DDR2-D10
DDR2-D11
DDR2-D12
DDR2-D13
DDR2-D14
DDR2-D15
DDR2-D16
DDR2-D17
DDR2-D18
DDR2-D19
DDR2-D2
DDR2-D20
DDR2-D21
DDR2-D22
DDR2-D23
DDR2-D24
DDR2-D25
DDR2-D26
DDR2-D27
DDR2-D28
DDR2-D29
DDR2-D3
B05E
B05H
B05E
B05H
B09B
B02A
B07D
B04I (1×)
B04L (1×)
B04I (1×)
B04L (1×)
B04L (1×)
B04M (1×)
B04L (1×)
B04M (1×)
B04I (1×)
B04L (1×)
B04I (1×)
B04L (1×)
B04I (1×)
B04L (3×)
B04I (1×)
B04L (3×)
B07D (4×)
B04A (2×)
B05D (1×)
B02B (2×)
B02A (2×)
B02B (1×)
B04M (1×)
B08A (1×)
B08B (2×)
B08A (3×)
B08A (3×)
B07D (2×)
B07D (2×)
B07D (2×)
B07D (2×)
B07D (2×)
B07D (2×)
B07D (2×)
B07D (2×)
B07D (3×)
B07D (3×)
B07D (2×)
B06E (1×)
B06G (1×)
B04M (1×)
B10 (2×)
B04I (1×)
B08A (1×)
B04I (1×)
B08A (1×)
B04M (1×)
B08C (1×)
B04M (1×)
B08C (1×)
B04L (1×)
B08D (2×)
B04L (1×)
B08D (2×)
B04L (1×)
B08A (1×)
B04L (1×)
B08A (1×)
B04L (1×)
B08B (1×)
B04L (1×)
B08B (1×)
B04L (1×)
B07B (1×)
B04L (1×)
B07B (1×)
B04L (1×)
B08C (2×)
B04L (1×)
B08C (2×)
B04A (2×)
B10 (1×)
B04I (1×)
B08B (1×)
B04I (1×)
B08B (1×)
B04I (1×)
B10 (1×)
B04I (7×)
B04M (2×)
B08A (1×)
B08D (3×)
B08A (1×)
B08D (3×)
MM1-A8
MM1-A9
MM1-A9
MM1-BA0
MM1-BA0
MM1-BA1
MM1-BA1
MM1-CAS
MM1-CAS
MM1-CKE
MM1-CKE
MM1-CLK-
MM1-CLK-
MM1-CLK+
MM1-CLK+
MM1-CS0
MM1-CS0
MM1-D0
MM1-D0
MM1-D1
MM1-D1
MM1-D10
MM1-D10
MM1-D11
MM1-D11
MM1-D12
MM1-D12
MM1-D13
MM1-D13
MM1-D14
MM1-D14
MM1-D15
MM1-D15
MM1-D2
MM1-D2
MM1-D3
MM1-D3
MM1-D4
MM1-D4
MM1-D5
MM1-D5
MM1-D6
MM1-D6
MM1-D7
MM1-D7
MM1-D8
MM1-D8
MM1-D9
MM1-D9
MM1-DQS0
MM1-DQS0
MM1-DQS1
MM1-DQS1
MM1-RAS
MM1-RAS
DDR2-D30
DDR2-D31
DDR2-D4
DDR2-D5
DDR2-D6
DDR2-D7
DDR2-D8
DDR2-D9
+2V5
+2V5
+2V5
+2V5-DDR1
+2V5-DDR1
+2V5in-FPGA
+2V5in-FPGA
+2V5M
+2V5out-FPGA
+2V5out-FPGA
+2V5-PLL
+2V5-PLL
+2V5-REF
+33VTUN
+33VTUN
+3V3
+3V3
+3V3
+3V3
+3V3
+3V3
+3V3
+3V3
+3V3
+3V3
+3V3
+3V3
+3V3
+3V3
+3V3
+3V3
+3V3
+3V3
+3V3
+3V3
+3V3
+3V3
+3V3
AMBI-VS
DDR2-DQM0
DDR2-DQM1
DDR2-DQM2
DDR2-DQM3
DDR2-DQS0_N
DDR2-DQS0_P
DDR2-DQS1_N
DDR2-DQS1_P
DDR2-DQS2_N
DDR2-DQS2_P
DDR2-DQS3_N
DDR2-DQS3_P
DDR2-ODT
DDR2-RAS
DDR2-VREF-CTRL
DDR2-VREF-DDR
DDR2-WE
DETECT1
DETECT-12V
DETECT-12V
DETECT2
DIN-5V
DONE
DQ1(0)
DQ1(1)
DQ1(10)
DQ1(11)
DQ1(12)
DQ1(13)
DQ1(14)
DQ1(15)
DQ1(2)
DQ1(3)
DQ1(4)
DQ1(5)
DQ1(6)
DQ1(7)
DQ1(8)
ANTENNA-CTRL
ANTENNA-SUPPLY
ANTENNA-SUPPLY
A-PLOP
A-PLOP
A-PLOP
AP-SCART-OUT-L
AP-SCART-OUT-R
ARX0-
ARX0+
ARX1-
ARX1+
ARX2-
ARX2+
ARXC-
BL-CLK
BL-CS
BL-HS
BL-MISO
CON20
CON21
CON21
CON22
CON22
CON23
CON23
CON26
CON26
CON27
CON27
CONF-DONE
CONF-DONE
CRX0-
CRX0+
CRX1-
ARXC+
ARX-DDC-SCL
ARX-DDC-SDA
ARX-HOTPLUG
ASDO
ASDO
A-STBY
BL-MOSI
BL-OSCLK
BL-OSCLK
BL-SCK
BL-SCK
BL-SD0
BL-SD0
BL-VS
BL-WS
BL-WS
BO-AUDIO-L
BO-AUDIO-R
BO-B
BO-CVBS
BO-G
BOLT-ON-IO
BOLT-ON-IO
BOLT-ON-IO
BOLT-ON-TS-ENn
BOLT-ON-TS-ENn
BOOST-CTRL
BOOTMODE
BO-R
BRX0-
BRX0+
BRX1-
BRX1+
BRX2-
BRX2+
BRXC-
BRXC+
BRX-DDC-SCL
BRX-DDC-SDA
BRX-HOTPLUG
B-VGA
A-STBY
AUDIO-CL-L
AUDIO-CL-L
AUDIO-CL-R
AUDIO-CL-R
AUDIO-HDPH-L-AP
AUDIO-HDPH-L-AP
AUDIO-HDPH-R-AP
AUDIO-HDPH-R-AP
AUDIO-IN1-L
AUDIO-IN1-L
AUDIO-IN1-R
AUDIO-IN1-R
AUDIO-IN2-L
AUDIO-IN2-L
AUDIO-IN2-R
AUDIO-IN2-R
AUDIO-IN3-L
AUDIO-IN3-L
AUDIO-IN3-R
AUDIO-IN3-R
AUDIO-IN4-L
AUDIO-IN4-L
AUDIO-IN4-R
AUDIO-IN4-R
AUDIO-IN5-L
AUDIO-IN5-L
AUDIO-IN5-R
AUDIO-IN5-R
AUDIO-MUTE
AUDIO-MUTE
AUDIO-OUT-L
AUDIO-OUT-L
AUDIO-OUT-R
AUDIO-OUT-R
-AUDIO-R
-AUDIO-R
AUDIO-VDD
AUDIO-VDD
AV1-AUDIO-L
AV1-AUDIO-L
AV1-AUDIO-R
AV1-AUDIO-R
CRX1+
CRX2-
CRX2+
CRXC-
+3V3
+3V3
+3V3
+3V3
+3V3
+3V3A
+3V3A
+3V3D
CRXC+
I2C-SCL
I2C-SDA
I2C-SDA
IDSEL
IF-
IF-
IF+
IF+
IF-AGC
IF-AGC
IF-N
IF-P
CRX-DDC-SCL
CRX-DDC-SDA
CRX-HOTPLUG
CSO-B
DQ1(9)
DQS10
DQS11
DRX0-
DRX0+
DRX1-
DRX1+
DRX2-
DRX2+
DRXC-
DRXC+
DRX-DDC-SCL
DRX-DDC-SDA
DRX-HOTPLUG
EA
CTRL1-PNX5100
CTRL2-PNX5100
CTRL3-PNX5100
CTRL4-PNX5100
CTRL-DISP1
CTRL-DISP1
CTRL-DISP2
CTRL-DISP2
CTRL-DISP3
CTRL-DISP3
CTRL-DISP4
CTRL-DISP4
CVBS4
+3V3E
+3V3-ET-ANA
+3V3-ET-DIG
+3V3F
+3V3F
+3V3F
+3V3-FPGA
+3V3-FPGA
+3V3M
+3V3-mPCI
+3V3-NAND
+3V3-PER
+3V3-PER
+3V3-PER
+3V3-PER
+3V3-PER
+3V3-PER
+3V3-PNX5100-CLOCK
+3V3-PNX5100-DDR-PLL0
+3V3-PNX5100-LVDS-IN
+3V3-PNX5100-LVDS-PLL
+3V3-STANDBY
+3V3-STANDBY
+3V3-STANDBY
+3V3-STANDBY
IF-P
IRQA-mPCI
IRQB-mPCI
IRQ-CA
IRQ-CA
IRQ-CA
IRQ-PCI
IRQ-PCI
IRQ-PCI
KEYBOARD
KEYBOARD
KEYBOARD
LAMP-ON
LAMP-ON-OUT
LAMP-ON-OUT
LAMP-ON-OUT
LCD-PWR-ON
LED1
B-VGA
CVBS4
CA-ADDEN
CA-ADDEN
CA-CD1
CA-CD1
CA-CD2
CA-CD2
CA-CE1
CA-CE1
CA-CE2
CVBS-MON-OUT-CINCH
CVBS-OUT-SC1
CVBS-TER-OUT
CVBS-TER-OUT
CVBS-TER-OUT
DATA0
DATA0
DCLK
DCLK
DDCA-SCL
DDCA-SCL
DDCA-SDA
DDCA-SDA
EIN-5V
EJTAG-DETECT
EJTAG-DETECT
EJTAG-PNX5100-TCK
EJTAG-PNX5100-TDI
EJTAG-PNX5100-TDO
EJTAG-PNX5100-TMS
EJTAG-PNX5100-TRSTn
EJTAG-TCK
EJTAG-TCK
EJTAG-TDI
EJTAG-TDI
EJTAG-TDO
CA-CE2
CA-DATADIR
CA-DATADIR
CA-DATAEN
LED1
LED2
18310_700_090309.eps
090309
3104 313 6343.2
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 136
SSB: SRP List Part 2
B05G (2×)
B07F (1×)
B07G (1×)
B07H (1×)
B09A (1×)
B04F (1×)
B05G (1×)
B07F (1×)
B07G (1×)
B07H (1×)
B09A (1×)
B04F (1×)
B05G (1×)
B07F (1×)
B07G (1×)
B07H (1×)
B09A (1×)
B04F (1×)
B05G (1×)
B07F (1×)
B07G (1×)
B07H (1×)
B09A (1×)
B04F (1×)
B05G (1×)
B07F (1×)
B07G (1×)
B07H (1×)
B09A (1×)
B04F (1×)
B05G (1×)
B07G (1×)
B07H (1×)
B09A (1×)
B04F (1×)
B05G (1×)
B07F (1×)
B07G (1×)
B07H (1×)
B09A (1×)
B04F (1×)
B05G (1×)
B07F (1×)
B07G (1×)
B07H (1×)
B09A (1×)
B04F (1×)
B05G (1×)
B07G (1×)
B07H (1×)
B09A (1×)
B04F (1×)
B05G (1×)
B07G (1×)
B07H (1×)
B09A (1×)
B04F (1×)
B05G (1×)
B07G (1×)
B07H (1×)
B09A (1×)
B04F (1×)
B05G (1×)
B07G (1×)
B07H (1×)
B09A (1×)
B04F (1×)
B05G (1×)
B07G (1×)
B07H (1×)
B09A (1×)
B04F (1×)
B05G (1×)
B07G (1×)
B07H (1×)
B09A (1×)
B04F (1×)
B05G (1×)
B07G (1×)
B09A (1×)
B04F (1×)
B05G (1×)
B07F (1×)
B07G (1×)
B07H (1×)
B09A (1×)
B04F (1×)
B05G (1×)
B07F (1×)
B07G (1×)
B07H (1×)
B09A (1×)
B04F (1×)
B05G (1×)
B07G (1×)
B09A (1×)
B04F (2×)
B07G (1×)
B04F (2×)
B09A (1×)
B04E (1×)
B04F (3×)
B04F (2×)
B05G (1×)
B04F (3×)
B09A (2×)
B04F (2×)
B05G (1×)
B07G (1×)
B09A (1×)
B04F (2×)
B05G (1×)
B07G (1×)
B09A (1×)
B04F (2×)
B04F (2×)
B04F (1×)
B07G (1×)
B04F (1×)
B09A (1×)
B04F (2×)
B05G (1×)
B07G (1×)
PCI-AD25
PCI-AD25
PCI-AD25
PCI-AD25
PCI-AD25
PCI-AD26
PCI-AD26
PCI-AD26
PCI-AD26
PCI-AD26
PCI-AD26
PCI-AD27
PCI-AD27
PCI-AD27
PCI-AD27
PCI-AD27
PCI-AD27
PCI-AD28
PCI-AD28
PCI-AD28
PCI-AD28
PCI-AD28
PCI-AD28
PCI-AD29
PCI-AD29
PCI-AD29
PCI-AD29
PCI-AD29
PCI-AD29
PCI-AD3
B09A (1×)
B04F (1×)
B05G (1×)
B07G (1×)
B09A (1×)
B04F (2×)
B05G (1×)
B07G (1×)
B09A (1×)
B04F (2×)
B04F (2×)
B04F (1×)
B07G (1×)
B04F (1×)
B09A (1×)
B04F (2×)
B05G (1×)
B07G (1×)
B09A (1×)
B04F (2×)
B05G (1×)
B07G (1×)
B09A (1×)
B04F (2×)
B05G (1×)
B07G (1×)
B09A (1×)
B07A (1×)
B07H (1×)
B07A (1×)
B07H (1×)
B07A (1×)
B07H (1×)
B07A (1×)
B07H (1×)
B07A (1×)
B07H (1×)
B07A (1×)
B07H (1×)
B07A (1×)
B07H (1×)
B07A (1×)
B07H (1×)
B07A (1×)
B07H (1×)
B07A (1×)
B07H (1×)
B07A (1×)
B07H (1×)
B07A (1×)
B07H (1×)
B07A (1×)
B07H (1×)
B07A (1×)
B07H (1×)
B07A (1×)
B07H (1×)
B07A (1×)
B07H (1×)
B07A (1×)
B07H (1×)
B07A (1×)
B07H (1×)
B07A (1×)
B07H (1×)
B07A (1×)
B07H (1×)
B07A (1×)
B07H (1×)
B07A (1×)
B07H (1×)
B07A (1×)
B07H (1×)
B07A (5×)
B02A (2×)
B02B (1×)
B02A (1×)
B02B (1×)
B09A (2×)
B05A (3×)
B05A (3×)
B05A (3×)
B05A (3×)
B05A (3×)
B05A (3×)
B05A (3×)
B05A (3×)
B05A (3×)
B05A (3×)
B05A (3×)
B05A (3×)
B05A (3×)
B05A (3×)
B05A (3×)
B05A (3×)
B05A (3×)
B05A (3×)
B05A (3×)
B05A (3×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
PCI-IRDY
PCI-PAR
PCI-PAR
PCI-PAR
PCI-PAR
PCI-PERR
PCI-PERR
PCI-PERR
PCI-PERR
PCI-REQ
PCI-REQ-B
PCI-REQ-ETH
PCI-REQ-ETH
PCI-REQ-MINI
PCI-REQ-MINI
PCI-SERR
PCI-SERR
PCI-SERR
PCI-SERR
PCI-STOP
PCI-STOP
PCI-STOP
PCI-STOP
PCI-TRDY
PCI-TRDY
PCI-TRDY
PCI-TRDY
PCMCIA-A0
PCMCIA-A0
PCMCIA-A1
PCMCIA-A1
PCMCIA-A10
PCMCIA-A10
PCMCIA-A11
PCMCIA-A11
PCMCIA-A12
PCMCIA-A12
PCMCIA-A13
PCMCIA-A13
PCMCIA-A14
PCMCIA-A14
PCMCIA-A2
PCMCIA-A2
PCMCIA-A3
PCMCIA-A3
PCMCIA-A4
PCMCIA-A4
PCMCIA-A5
PCMCIA-A5
PCMCIA-A6
PCMCIA-A6
PCMCIA-A7
PCMCIA-A7
PCMCIA-A8
PCMCIA-A8
PCMCIA-A9
PCMCIA-A9
PCMCIA-D0
PCMCIA-D0
PCMCIA-D1
PCMCIA-D1
PCMCIA-D2
PCMCIA-D2
PCMCIA-D3
B05A (2×)
PNX5100-DDR2-D30
PNX5100-DDR2-D31
PNX5100-DDR2-D4
PNX5100-DDR2-D5
PNX5100-DDR2-D6
PNX5100-DDR2-D7
PNX5100-DDR2-D8
PNX5100-DDR2-D9
PNX5100-DDR2-DQM0
PNX5100-DDR2-DQM1
PNX5100-DDR2-DQM2
PNX5100-DDR2-DQM3
PNX5100-DDR2-DQS0_N
PNX5100-DDR2-DQS0_P
PNX5100-DDR2-DQS1_N
PNX5100-DDR2-DQS1_P
PNX5100-DDR2-DQS2_N
PNX5100-DDR2-DQS2_P
PNX5100-DDR2-DQS3_N
PNX5100-DDR2-DQS3_P
PNX5100-DDR2-ODT
PNX5100-DDR2-RAS
PNX5100-DDR2-VREF-CTRL
PNX5100-DDR2-VREF-DDR
PNX5100-DDR2-WE
PNX5100-RST-OUT
PNX5100-RST-OUT
POWER-OK
POWER-OK
PROG-B
PSEN
RC
RC
RC-IN
RC-IN
RC-OUT
RC-OUT
RC-UP
RC-UP
REF-3V3
REGIMBEAU_CVBS-SWITCH
REGIMBEAU_CVBS-SWITCH
RESET-AUDIO
RESET-AUDIO
RESET-BOLT-ON
RESET-BOLT-ON
RESET-ETHERNET
RESET-ETHERNET
RESET-ETHERNET
RESET-mPCI
RESET-NVM
RESET-PNX5100
RESET-PNX5100
RESET-STBY
RESET-SYSTEM
RESET-SYSTEM
RESET-SYSTEM
RESET-SYSTEM
RF-AGC
B05F (1×)
B06A (1×)
B06G (1×)
B04N (1×)
B06A (3×)
B08D (1×)
B05E (2×)
B06A (3×)
B06D (1×)
B01B (1×)
B04E (2×)
B06A (5×)
B06C (2×)
B06A (2×)
B06A (2×)
B02B (2×)
B04E (2×)
B05F (2×)
B06A (1×)
B06G (1×)
B07D (1×)
B08D (1×)
B04A (3×)
B04E (3×)
B04E (2×)
B04E (3×)
B04E (2×)
B05F (1×)
B06A (1×)
B06G (1×)
B04N (1×)
B06A (3×)
B08D (1×)
B05E (2×)
B06A (3×)
B06D (1×)
B01B (1×)
B04E (2×)
B06A (5×)
B06C (2×)
B06A (2×)
B06A (2×)
B02B (2×)
B04E (2×)
B05F (2×)
B06A (1×)
B06G (1×)
B07D (1×)
B08D (1×)
B04A (3×)
B04E (3×)
B04A (2×)
B04B (1×)
B04P (2×)
B04L (1×)
B08D (1×)
B04L (1×)
B08B (1×)
B04A (2×)
B04A (2×)
B04A (2×)
B04B (1×)
B04A (3×)
B04A (2×)
B04A (3×)
B01B (1×)
B04A (2×)
B08D (1×)
B04A (2×)
B06C (2×)
B06C (2×)
B06C (2×)
B06C (2×)
B06E (1×)
B06G (1×)
B06E (1×)
B06G (1×)
B06E (1×)
B06G (1×)
B06E (1×)
B06G (1×)
B04N (2×)
B07F (1×)
B04N (2×)
B07F (1×)
B04N (2×)
B07F (1×)
B04N (2×)
B07F (1×)
B04N (2×)
B07F (1×)
B04N (2×)
B07F (1×)
B04N (2×)
B07F (1×)
B04N (2×)
B07F (1×)
B04N (2×)
B07F (1×)
B04N (2×)
B04N (2×)
B07F (1×)
B04N (2×)
B07F (1×)
B02A (5×)
B02A (5×)
B02A (4×)
B02A (5×)
B02A (6×)
B02A (5×)
B02A (5×)
B02A (5×)
B02A (5×)
B02A (5×)
B02A (6×)
B02A (2×)
B02B (2×)
B02A (2×)
B02B (2×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
SCL-AMBI-3V3
SCL-AMBI-3V3
SCL-AMBI-3V3
SCL-BOLT-ON
SCL-BOLT-ON
SCL-BOLT-ON
SCL-DISP
SCL-DISP
SCL-DISP
SCL-SET
SCL-SET
SCL-SET
SCL-SET
SCL-SET0
SCL-SET1
SCL-SSB
SCL-SSB
SCL-SSB
SCL-SSB
SCL-SSB
SCL-SSB
SCL-SSB
SCL-UP-MIPS
SCL-UP-MIPS
SDA1
SDA2
SDA3
SDA-AMBI-3V3
SDA-AMBI-3V3
SDA-AMBI-3V3
SDA-BOLT-ON
SDA-BOLT-ON
SDA-BOLT-ON
SDA-DISP
SDA-DISP
SDA-DISP
SDA-SET
SDA-SET
SDA-SET
SDA-SET
SDA-SET0
SDA-SET1
SDA-SSB
SDA-SSB
SDA-SSB
SDA-SSB
SDA-SSB
SDA-SSB
SDA-SSB
SDA-UP-MIPS
SDA-UP-MIPS
SDM
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B05E (3×)
B04O (1×)
B06D (1×)
B06G (1×)
B04O (1×)
B06D (1×)
B06G (1×)
B04O (1×)
B06D (1×)
B06G (1×)
B04O (1×)
B06D (1×)
B06G (2×)
B04O (1×)
B06D (1×)
B06G (1×)
B04O (1×)
B06D (1×)
B06G (1×)
B04O (1×)
B06D (1×)
B06G (1×)
B04O (1×)
B06D (1×)
B06G (1×)
B04O (1×)
B06D (1×)
B06G (1×)
B04O (1×)
B06D (1×)
B06G (1×)
B04O (1×)
B06D (1×)
B06G (1×)
B04O (1×)
B06D (1×)
B06G (1×)
B04O (1×)
B06D (1×)
B06G (1×)
B04O (1×)
B06D (1×)
B06G (1×)
B04O (1×)
B06D (1×)
B06G (1×)
B04O (1×)
B06D (1×)
B06G (1×)
B04O (1×)
B06D (1×)
B06G (1×)
B04O (1×)
B06D (1×)
B06G (1×)
B04O (1×)
B06D (1×)
B06G (1×)
B04O (1×)
B06D (1×)
B06G (1×)
B04O (1×)
B06D (1×)
B06G (1×)
B04O (1×)
B06D (1×)
B06G (1×)
B04O (1×)
B06D (1×)
B06G (1×)
B04O (1×)
B06D (1×)
B06G (1×)
B05E (1×)
B06A (1×)
B05E (1×)
B06A (1×)
B08D (3×)
B05E (1×)
B06A (1×)
TX1C-
TX1C+
TX1CLK-
TX1CLK+
TX1D-
TX1D+
TX1E-
TX1E+
TX2A-
TX2A+
TX2B-
TX2B+
TX2C-
B05E (1×)
B06A (1×)
B04E (2×)
B08D (3×)
B04E (2×)
B06B (1×)
B04A (2×)
B08D (4×)
B06D (1×)
B06G (1×)
B06D (1×)
B06G (1×)
B06D (1×)
B06G (1×)
B06D (1×)
B06G (1×)
B06D (1×)
B06G (1×)
B06D (1×)
B06G (1×)
B06D (1×)
B06G (1×)
B06D (1×)
B06G (1×)
B06D (1×)
B06G (1×)
B06D (1×)
B06G (1×)
B06D (1×)
B06G (1×)
B06D (1×)
B06G (1×)
B06D (1×)
B06G (1×)
B06D (1×)
B06G (1×)
B06D (1×)
B06G (1×)
B06D (1×)
B06G (1×)
B06D (1×)
B06G (1×)
B06D (1×)
B06G (1×)
B06D (1×)
B06G (1×)
B06D (1×)
B06G (1×)
B06D (1×)
B06G (1×)
B06D (1×)
B06G (1×)
B06D (1×)
B06G (1×)
B06D (1×)
B06G (1×)
B04A (2×)
B08D (2×)
B08D (2×)
B04E (2×)
B07C (1×)
B04E (2×)
B07C (1×)
B04E (1×)
B07C (1×)
B04P (2×)
B04L (4×)
B04P (2×)
B04L (1×)
B04P (2×)
B04O (1×)
B04P (1×)
B06F (2×)
B06F (1×)
B06G (16×)
B01A (1×)
B01B (1×)
B04K (1×)
B08B (1×)
B04E (1×)
B05F (2×)
B07D (1×)
B04A (2×)
B07F (2×)
B07D (1×)
B07E (1×)
B08B (1×)
B04F (1×)
B07F (2×)
B04F (1×)
B07F (2×)
B04K (1×)
B08B (1×)
B08A (1×)
B08B (1×)
TXDAT+
TXDAT+
Netname
Schematic
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (2×)
B05A (3×)
B05A (3×)
B05A (2×)
B05A (3×)
B05A (3×)
B05F (1×)
B05I (1×)
B01B (1×)
B04A (2×)
B06A (2×)
B04A (2×)
B01B (1×)
B04A (2×)
B04A (1×)
B08C (1×)
B04A (1×)
B08C (1×)
B04A (4×)
B08D (1×)
B07D (2×)
B04A (2×)
B08A (1×)
B04A (2×)
B04M (2×)
B04N (1×)
B07F (1×)
B04A (2×)
B07G (2×)
B09A (1×)
B09A (2×)
B04A (3×)
B04A (2×)
B05F (1×)
B04A (2×)
B02B (1×)
B04A (2×)
B04B (1×)
B04E (1×)
B02A (4×)
B02B (1×)
B10 (3×)
B04H (1×)
B04P (2×)
B04K (1×)
B08B (1×)
B05B (1×)
B06D (3×)
B05B (1×)
B06D (3×)
B05B (1×)
B06D (3×)
B05B (1×)
B06D (3×)
B05B (1×)
B06D (3×)
B05B (1×)
B06D (3×)
B05B (1×)
B06D (3×)
B05B (1×)
B06D (3×)
B05B (1×)
B06D (3×)
B05B (1×)
B06D (3×)
B05B (1×)
B06D (3×)
B05B (1×)
B06D (3×)
B05B (1×)
B06D (3×)
B05B (1×)
B06D (3×)
B05B (1×)
B06D (3×)
B05B (1×)
B06D (3×)
B05B (1×)
B06D (3×)
B05B (1×)
B06D (3×)
B05B (1×)
B06D (3×)
B05B (1×)
B06D (3×)
B05B (1×)
B06D (3×)
B05B (1×)
B06D (3×)
B05B (1×)
B06D (3×)
B05B (1×)
B06D (3×)
B08D (3×)
B04E (2×)
B08D (3×)
B04E (2×)
B06B (1×)
B04A (2×)
B08D (4×)
B04E (2×)
B04E (3×)
B04E (2×)
TXD-MIPS
TXD-MIPS
TXD-MIPS2
TXD-MIPS2
TXD-UP
TXD-UP
TXF1A-
TXF1A-
TXF1A+
TXF1A+
TXF1B-
TXF1B-
TXF1B+
TXF1B+
TXF1C-
TXF1C-
TXF1C+
B06F (1×)
B06G (1×)
B07A (4×)
B06A (3×)
B07A (4×)
B07A (4×)
B09A (2×)
B06G (1×)
B06G (1×)
B06G (1×)
B06G (1×)
B07F (2×)
B07F (2×)
B07F (2×)
B07F (2×)
B07F (2×)
B07F (2×)
B07F (2×)
B07F (2×)
B07F (2×)
B07F (2×)
B07F (2×)
B07F (2×)
B06G (2×)
B06G (2×)
B06E (1×)
B06G (1×)
B06G (2×)
B07D (6×)
B07E (2×)
B04F (1×)
B05G (1×)
B07F (1×)
B07G (1×)
B07H (1×)
B09A (1×)
B04F (1×)
B05G (1×)
B07F (1×)
B07G (1×)
B07H (2×)
B09A (1×)
B04F (1×)
B05G (1×)
B07G (1×)
B07H (1×)
B09A (1×)
B04F (1×)
B05G (1×)
B07G (1×)
B07H (1×)
B09A (2×)
B04F (1×)
B05G (1×)
B07G (1×)
B07H (1×)
B09A (2×)
B04F (1×)
B05G (1×)
B07G (1×)
B07H (1×)
B09A (2×)
B04F (1×)
B05G (1×)
B07G (1×)
B07H (1×)
B09A (1×)
B04F (1×)
B05G (1×)
B07G (1×)
B09A (1×)
B04F (1×)
B05G (1×)
B07G (1×)
B07H (1×)
B09A (1×)
B04F (1×)
B05G (1×)
B07G (1×)
B07H (1×)
B09A (1×)
B04F (1×)
B05G (1×)
B07G (1×)
B07H (1×)
B09A (1×)
B04F (1×)
B05G (1×)
B07G (1×)
B07H (1×)
B09A (1×)
B04F (1×)
B05G (1×)
B07G (1×)
B07H (1×)
B09A (1×)
B04F (1×)
B05G (1×)
B07G (1×)
B09A (1×)
B04F (1×)
B05G (1×)
B07G (1×)
B09A (1×)
B04F (1×)
B05G (1×)
B07G (1×)
B07H (1×)
B09A (1×)
B04F (1×)
B05G (1×)
B07G (2×)
B07H (1×)
B09A (1×)
B04F (2×)
B05G (1×)
B07F (1×)
B07G (1×)
B07H (1×)
B09A (1×)
B04F (1×)
MM1-WE
MM1-WE
MOCLK_VS2
MOSI
MOSTRT
MOVAL
MPCIACT
MSEL0
MSEL1
MSEL2
MSEL3
TX2C+
NAND-AD(0)
NAND-AD(1)
NAND-AD(2)
NAND-AD(3)
NAND-AD(4)
NAND-AD(5)
NAND-AD(6)
NAND-AD(7)
NAND-ALE
NAND-CLE
NAND-REn
NAND-WEn
nCE
nCONFIG
nCSO
nCSO
nSTATUS
PCEC-HDMI
PCEC-HDMI
PCI-AD0
TX2CLK-
TX2CLK+
TX2D-
TX2D+
TX2E-
TX2E+
TX3A-
TX3A+
TX3B-
TX3B+
TX3C-
TX3C+
TX3CLK-
TX3CLK+
TX3D-
TX3D+
TX3E-
TX3E+
TX4A-
TX4A+
TX4B-
TX4B+
TX4C-
TX4C+
TX4CLK-
TX4CLK+
TX4D-
TX4D+
TX4E-
TXF1C+
TXF1CLK-
TXF1CLK-
TXF1CLK+
TXF1CLK+
TXF1D-
TXF1D-
TXF1D+
TXF1D+
TXF1E-
TXF1E-
TXF1E+
TXF1E+
TXF2A-
TXF2A-
TXF2A+
TXF2A+
TXF2B-
TXF2B-
TXF2B+
TXF2B+
TXF2C-
TXF2C-
TXF2C+
TXF2C+
TXF2CLK-
TXF2CLK-
TXF2CLK+
TXF2CLK+
TXF2D-
TXF2D-
TXF2D+
TXF2D+
TXF2E-
PCI-AD3
PCI-AD3
PCI-AD3
PCI-AD3
PCI-AD0
PCI-AD0
PCI-AD0
PCI-AD0
PCI-AD0
PCI-AD1
PCI-AD1
PCI-AD1
PCI-AD30
PCI-AD30
PCI-AD30
PCI-AD30
PCI-AD30
PCI-AD30
PCI-AD31
PCI-AD31
PCI-AD31
PCI-AD31
PCI-AD31
PCI-AD31
PCI-AD4
PCI-AD4
PCI-AD4
PCI-AD4
PCI-AD4
PCI-AD5
PCI-AD5
PCI-AD5
PCI-AD5
PCI-AD5
PCI-AD6
PCI-AD6
PCI-AD6
PCI-AD6
PCI-AD6
PCI-AD7
PCI-AD7
PCI-AD7
PCI-AD7
PCI-AD7
PCI-AD8
PCI-AD8
PCI-AD8
PCI-AD8
PCI-AD8
PCI-AD1
PCI-AD1
PCI-AD1
TX4E+
TX851A-
TX851A-
TX851A-
TX851A+
TX851A+
TX851A+
TX851B-
TX851B-
TX851B-
TX851B+
TX851B+
TX851B+
TX851C-
TX851C-
TX851C-
TX851C+
TX851C+
TX851C+
TX851CLK-
TX851CLK-
TX851CLK-
TX851CLK+
TX851CLK+
TX851CLK+
TX851D-
TX851D-
TX851D-
TX851D+
TX851D+
TX851D+
TX851E-
TX851E-
TX851E-
TX851E+
TX851E+
TX851E+
TX852A-
TX852A-
TX852A-
TX852A+
TX852A+
TX852A+
TX852B-
TX852B-
TX852B-
TX852B+
TX852B+
TX852B+
TX852C-
TX852C-
TX852C-
TX852C+
TX852C+
TX852C+
TX852CLK-
TX852CLK-
TX852CLK-
TX852CLK+
TX852CLK+
TX852CLK+
TX852D-
TX852D-
TX852D-
TX852D+
TX852D+
TX852D+
TX852E-
TX852E-
TX852E-
TX852E+
TX852E+
TX852E+
TXCLK-
TXCLK-
TXCLK+
TXCLK+
TXD
PCI-AD10
PCI-AD10
PCI-AD10
PCI-AD10
PCI-AD10
PCI-AD11
PCI-AD11
PCI-AD11
PCI-AD11
PCI-AD11
PCI-AD12
PCI-AD12
PCI-AD12
PCI-AD12
PCI-AD12
PCI-AD13
PCI-AD13
PCI-AD13
PCI-AD13
PCI-AD13
PCI-AD14
PCI-AD14
PCI-AD14
PCI-AD14
PCI-AD14
PCI-AD15
PCI-AD15
PCI-AD15
PCI-AD15
PCI-AD16
PCI-AD16
PCI-AD16
PCI-AD16
PCI-AD16
PCI-AD17
PCI-AD17
PCI-AD17
PCI-AD17
PCI-AD17
PCI-AD18
PCI-AD18
PCI-AD18
PCI-AD18
PCI-AD18
PCI-AD19
PCI-AD19
PCI-AD19
PCI-AD19
PCI-AD19
PCI-AD2
SDM
SENSE+1V2-PNX85XX
SPDIF-IN1
SPDIF-IN1
SPDIF-OUT
SPDIF-OUT
SPI-CLK
TXF2E-
TXF2E+
TXF2E+
UART-SWITCH
UART-SWITCH
UART-SWITCHn
USB20-DM
USB20-DM
USB20-DP
USB20-DP
USB-OC
RF-AGC
SPI-CSB
RIGHT-SPEAKER
RREF-PNX85XX
RREF-PNX85XX
R-VGA
R-VGA
RX51001A-
RX51001A-
RX51001A+
RX51001A+
RX51001B-
RX51001B-
RX51001B+
RX51001B+
RX51001C-
RX51001C-
RX51001C+
RX51001C+
RX51001CLK-
RX51001CLK-
RX51001CLK+
RX51001CLK+
RX51001D-
RX51001D-
RX51001D+
RX51001D+
RX51001E-
RX51001E-
RX51001E+
RX51001E+
RX51002A-
RX51002A-
RX51002A+
RX51002A+
RX51002B-
RX51002B-
RX51002B+
RX51002B+
RX51002C-
RX51002C-
RX51002C+
RX51002C+
RX51002CLK-
RX51002CLK-
RX51002CLK+
RX51002CLK+
RX51002D-
RX51002D-
RX51002D+
RX51002D+
RX51002E-
RX51002E-
RX51002E+
RX51002E+
RXD
RXD-MIPS
RXD-MIPS
RXD-MIPS2
RXD-MIPS2
RXD-UP
RXD-UP
SCL1
SCL2
SPI-PROG
SPI-PROG
SPI-SDI
SPI-SDO
SPI-WP
STANDBY
STANDBY
STANDBY
SUPPLY-FAULT
TACHO1
TACHO1-INV
TACHO2
TACHO2-INV
TCK
TCK
TDI
TDI
TDO
TDO
TMS
TMS
TSINO-DATA0
TSINO-DATA0
TSINO-DATA1
TSINO-DATA1
TSINO-DATA2
TSINO-DATA2
TSINO-DATA3
TSINO-DATA3
TSINO-DATA4
TSINO-DATA4
TSINO-DATA5
TSINO-DATA5
TSINO-DATA6
TSINO-DATA6
TSINO-DATA7
TSINO-DATA7
TSO-BIT-CLK
TSO-BIT-CLK
TSO-BIT-ERR
TSO-BIT-VALID
TSO-BIT-VALID
TSO-SYNC
TSO-SYNC
TUN-P1
PCMCIA-D3
PCMCIA-D4
PCMCIA-D4
PCMCIA-D5
PCMCIA-D5
PCMCIA-D6
PCMCIA-D6
PCMCIA-D7
PCMCIA-D7
PCMCIA-VCC-VPP
PDN
PDN
PDP
USB-OC
VDDA-ADC
VDDA-AUDIO
VDDA-AUDIO
VDDA-DAC
VDDA-DAC
VDDA-LVDS
VDDA-LVDS
VREF-DDR1
VREF-FPGA1
VREF-FPGA1
VSW
PCI-AD9
PCI-AD9
PCI-AD9
PCI-AD9
PCI-AD9
PCI-CBE0
PCI-CBE0
PCI-CBE0
PCI-CBE0
PCI-CBE1
PCI-CBE1
PCI-CBE1
PCI-CBE1
PCI-CBE1
PCI-CBE1
PCI-CBE2
PCI-CBE2
PCI-CBE2
PCI-CBE2
PCI-CBE2
PCI-CBE2
PCI-CBE3
PCI-CBE3
PCI-CBE3
PCI-CBE3
PCI-CLK-ETHERNET
PCI-CLK-ETHERNET
PCI-CLK-MINI
PCI-CLK-MINI
PCI-CLK-OUT
PCI-CLK-OUT
PCI-CLK-PNX5100
PCI-CLK-PNX5100
PCI-CLK-PNX8535
PCI-CLKRUN
PCI-DEVSEL
PCI-DEVSEL
PCI-DEVSEL
PCI-DEVSEL
PCI-FRAME
PCI-FRAME
PCI-FRAME
PCI-FRAME
PCI-GNT
VSW
PDP
PME
V-SYNC-VGA
V-SYNC-VGA
WC-EEPROM-PNX5100
WC-EEPROM-PNX5100
WC-EEPROM-PNX5100
WP-NANDFLASH
WP-NANDFLASH
WRITE-PROT
WRITE-PROT
WRITE-PROT
XIO-ACK
PNX5100-DDR2-A0
PNX5100-DDR2-A1
PNX5100-DDR2-A10
PNX5100-DDR2-A11
PNX5100-DDR2-A12
PNX5100-DDR2-A2
PNX5100-DDR2-A3
PNX5100-DDR2-A4
PNX5100-DDR2-A5
PNX5100-DDR2-A6
PNX5100-DDR2-A7
PNX5100-DDR2-A8
PNX5100-DDR2-A9
PNX5100-DDR2-BA0
PNX5100-DDR2-BA1
PNX5100-DDR2-CAS
PNX5100-DDR2-CKE
PNX5100-DDR2-CLK_N
PNX5100-DDR2-CLK_P
PNX5100-DDR2-CS
PNX5100-DDR2-D0
PNX5100-DDR2-D1
PNX5100-DDR2-D10
PNX5100-DDR2-D11
PNX5100-DDR2-D12
PNX5100-DDR2-D13
PNX5100-DDR2-D14
PNX5100-DDR2-D15
PNX5100-DDR2-D16
PNX5100-DDR2-D17
PNX5100-DDR2-D18
PNX5100-DDR2-D19
PNX5100-DDR2-D2
PNX5100-DDR2-D20
PNX5100-DDR2-D21
PNX5100-DDR2-D22
PNX5100-DDR2-D23
PNX5100-DDR2-D24
PNX5100-DDR2-D25
PNX5100-DDR2-D26
PNX5100-DDR2-D27
PNX5100-DDR2-D28
PNX5100-DDR2-D29
PNX5100-DDR2-D3
XIO-ACK
XIO-SEL-NAND
XIO-SEL-NAND
Y_CVBS-MON-OUT
Y_CVBS-MON-OUT
Y_CVBS-MON-OUT-SC
Y_CVBS-MON-OUT-SC
PCI-AD2
PCI-AD2
PCI-AD2
PCI-AD2
PCI-AD20
PCI-AD20
PCI-AD20
PCI-AD20
PCI-AD21
PCI-AD21
PCI-AD21
PCI-AD21
PCI-AD22
PCI-AD22
PCI-AD22
PCI-AD22
PCI-AD22
PCI-AD23
PCI-AD23
PCI-AD23
PCI-AD23
PCI-AD23
PCI-AD24
PCI-AD24
PCI-AD24
PCI-AD24
PCI-AD24
PCI-AD24
PCI-AD25
TUN-P10
TUN-P11
TUN-P2
TUN-P3
TUN-P4
TUN-P5
TUN-P6
TUN-P7
TUN-P8
TUN-P9
TUN-SCL
TUN-SCL
TUN-SDA
TUN-SDA
TX1A-
TX1A+
TX1B-
PCI-GNT-B
PCI-GNT-ETH
PCI-GNT-ETH
PCI-GNT-MINI
PCI-GNT-MINI
PCI-IRDY
PCI-IRDY
PCI-IRDY
TXDAT-
TXDAT-
SCL3
TX1B+
18310_701_090309.eps
090309
3104 313 6343.2
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 137
Layout Small Signal Board (Top Side)
1242
1012
1M71
1F05
1M59 1R20
2FND
1FA1
1FA0
1R12
3F01
1F53
3F362F463F383F392F47
2EB3
3F379F179F19 9F20
1E05
3ED3
9FA1
9FA2
9F18
2FNE
1029
3F40
3F803F79
1016
3EB9
1240
1241
9F05
IF37
2E73
9CG9
2EAA
IF38
5EA1
3E70
2E99 5E05 2E26
3E47
3E352E64
2E65
6E11
6E53
3E46
3E03
IF36
6E17
3E85
3E71
2E46
IF39
1F01
3F11
6E18
3E05
3E42
3E01
2F49
9F12
2E74
3E65
3EB8
9F04
3E82
9E29
3E89
7E18
6E13
3CA2
3E90
3E52
9E37
2E41
2EB4
3E72
3E62
9E01
9E02
3CA3
2FJ6
9FH0
3E93
2F522F51
2F50
3E59
1E27
1E25
6E31
3EB6
3EB7
5F03
2F34
2F35
3C42
3F59
2E44
3F51
3F57
9E103E45
3F00
2FJ7
6E32
3F56
6E51
1E24
1E16
1E13
1027
3C07
1E23
1E19
1E18
1E12
3C26
1246
2E13
3E73
3E09
2F09
1E51
1E50
7E19
2E09
2E20 3E23
3F02
2F02
7F01
9EA1
3C30
3C25
3C28
3C08
3C09
3C05
2F01
3F06
3ECM
1E26
5E00
2E07
1E22
5E03
1013
1F02
3E69
2E19
2E03
2F10 1F00
3E54
3ECN
IF34
3E55
2E12
3E68
3E20
6E36
3E61
6E35
9E18
9E19
9E279E26
2FJ3
5E06
2E08
5F02
3ECK
IF35
9EA3
6E29
9E009E11
6E52
2F54
6E28
6E46
1011
3E44
IF32
IF33
2F57
3E43
2ECH
9E31
3E86
9E20
3FH5
3F71
2F603F69
2FJ4
9F07
6E34
3E38
2E14
9E24
3CD0
2FNA
3F73
1026
1235
3E88
3E573E87
3E51
2E24
2E17
9E16
9E17
3E39
2EAB
7F51
6E26
9E25
3E06
2E33
3E17
3E16
2E18
2E92
3E32
6E24
3FLL
1028
1001
1015
3E31
6E38
2FL7
2FL6
6E02
1255
3E28
2E96
9E15
2E16
3E02
9E12
6E22
3FLJ
9E23
2E15
3E96
3E95
2E71
2E82
3E002E25
3E67
6E23
1025
2E90
6E14
2E38
6E07
3E14
2E31
3E34
6E48
3E21
1014
3E303E15
2E32
2E10
3EA7
3E22
3ECS
2E95
7C00
3E19
1024
1022
1009
1E00
2E04
1002
6E12
3E18
2E70
9EA5
6E09
7FN0
7FL0
1023
2E30
1E31
9E32
3E24
2E29
3E63
3EB0
3EA9
3E11
CC60
2E913E27
3C41
9E34
2E87
3E072E06
1000
6E08
2E51
6E01
6E45
3E79
2FLF
6E10
6E03
2E88
3EA8
3E37
2E01
3E12
2FL1
2E39
2FLH
1E15
2E40
3E97 2E93
6E44
1010
1250
2FLD
9H26
9H25
3FG2
3FG1
3E80
6FH7
6FH2
2F43
9H27
3FG4
3FG3
6FH0 6FH6
1E10
3FG5
2FHA
6FH3 6FH1
3FG6
3E81
5FH0
3HMA
3HML
6E21
2HVC
7HM2
6CG2
3CFK 3CFL
3HMU
3HME
2E42
3E76
3E78
2E98
3E77
1HV9
2HMJ
2FHL
7HV0
7HM1
2CBS
3CAE
2HYC
3H18
2HM5
3HRJ
1003
1004
1005
3HRC
2H26
2HVE
2C03
2C45
3HR3
3CHA
BCG1
2CBK
3HR8
3HR0
BCG3
BCG2
3HT8 3HP5
6E43
BCG0
3CHF
3CHB
2CH1
3CH8
IH93
3T74
3T56
3T73
2E37
3CAA
3CA9
7T53
2CBM
2CBL
3H00
3H36
3H67
3H68
3H04
3H05
1H11
7T52
IH94
3T72
3T71
3T75
7HG0
7HG1
3T70
3T65
3T64
2T63
1HF0
3HPN
3H99
3H89
3H64
3H58
3H24
3H29
2H93
2H99
2H96
2H98
3H25
3H91
5H86
5H87
3H90
7HF2
2H95
2H94
3H93
2H97
2H91
2HTB
2HTC
1T01
1T11
1T21
3HSB
5HR9
2H90
5H85
3H85
3HSA
3H40
2HTD
3H88
2H92
3H98
3H72
2HTG
2HTE
5HRA
2H86
2H84
2H85
3H83
2HTF
5H82
3HSD
3H47
3H84
3H97
2H89
2HSJ
5HR5
3HS1
7H00
3HRU
3HRR
3HSH
2HSK
5HR2
3HS2
2HSM
2HS7
2HS8
2HS9
2H82
3H81
5H81
3HRV
2H83
5HR0
3H82
2H88
2HS1
3HRP
2HS3
2H80
3H79
5H80
2HS2
9E14
5HRC
2H81
9T24
3H80
2H87
3H95
2HRZ
3HSJ
2HSF
2HT8
2HSP
3E74
2HTP
2HTR
2HSC
3HRW
5HR3
2HSD
3HRZ
3HS0
3HRY
2HSE
3H34
3HSR
1007
6E20
3HS9
3HS8
2HSN
5HRL
2HTZ
3HST
3HSV
9E13
1E14
3HSU
2HU0
2HSR
3HS3
2HSS
2HUB
3HT3
3HRS
2HSA
2HUC
2HSB
5HRG
2HTU
6E41
3HS4
3HSN
2HTV
3HSQ
3HT4
1006
2HTL
3HSF
2HS4
TH03
1P10
TH05
TH04
TH01
TH02
TH07
3HB6
TH08
3H92
3T152T26
9H07
9H08
9T102T39 2T27
9T12
9T20
3T13
3T142T36
9T41
9T13
2T22
9T23
5T10
2T25
9T30
9T40
9H06
2T233T22
2T29
9T25
9T16
5T11
3HWR
2H08
3T16
9HK0
3HF5
3T11
3HFE
3HWN
5AC4
5AC2
3T10
9T15
3T12
3HWV
3HB7
2AC0
3AC0
5AC1
3P18
BP5J
BP5L
BP5P
BP5R
BP5S
2U2C
2P61
2P62
2U46
3U98
9U07
5U15
3U93
3U95
3U94
5U14
2U45
7U11
7U50
BP5K
9U08
3P21
3P34
2U49
2U24
3U96
9U06
5U13
3U1J
3P36
3U3W
2P27
2P17
7U41
1P0A 1P0B
2U44
3U83
3U86
5U12
2P56
6U40
7U40
1N00
2U43
7U0N
5U11
2U42
3U3V
3U80
7P02
3N0G
3P42
5U10
3U74
3U90
3U0K
5U07
2U41
5U00
2U0F
2U0W
BN0D
2P31
BN0C
2P573P64
3P76
7P10
3P63
3P77
IP68
BN0B
3P37 5P09
3P32
3P44
3P15
IP0J
BN0A
2P05
BP50
2P47
7U067U05
5P13 2P49
5P14
BP52
IP16
2P12
9P203P28
5U02
IN0K
BP51
3P29
BP5A
BP55
7U027U08
3P303P313P22
BP1J
9P19
5U32
2U06
5U33
BP54
2U0Y
2U14
BP1N
BP1G
BP1K
2N1C
BP57
BP53
BP1P
BP1C
IN0V
BP1H
BP1L
BP1D
BP1S
BP5D
5U01
BP56
BP1M
BP1R
BP5F
BP1F
BP1B
BP5H
5U03
2U8M
BP5E
BP5B
2U51
3U67
2U52
3U66
2U53
3U64
3U65
3U58
2U22
3U57
2U23
3U56
2U30
3U55
2U31
2U8K
BP5C
2D20
2D30
2D31
2D19
2D12
2D18
2D15
2D11
5D02
2U8H
2U15 5U08
BP5Z
BP1T
BP1U
BP1V
5U04
2D16
2U8G
2D07
2D09
2D08
2D10
2D06
3P87
2U90
7P16
3D11
2P15
2D14
2U8C
2U8D
5U05
6U09
3P81
7P15
1M96
1D38
1M97
1735
1D50
1D52
18310_554_0900309.eps
3104 313 6343.2
090309
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 138
Layout Small Signal Board (Bottom Side)
5E02
FF42
2E81
FF24
FF23
2EB1
IE13
IE07
FF41
FF40
3EA3
FF31
FF44
IE89
FEA8
FF43
3EB2
3EA2
FEA9
7E16
FEA5
FEB1
FF50
FEA7
FEA6
FF21
7E06
IE60
2FA7
FEB0
FEB3
FF01
FFC5
IFC1
FFC4
FFC3
FFC2
FF20
FFA8
FFA9
FF22
FF25
5F06
5F05
2F30
IC02
2F192F11
3EA6
FF17
IE61
IF21
IE70
FF51
5F04
FEB9
FF00
IE96
ICH2
FE26
FCJ0
IE04
FE98
2F26
3FAB
IF12
3FAA
9CG4
ICGK
ICGP
FCG6
IEA1
IFA8
3CH3
7E02
FE58
2F17 7F06
FE37
IE10
FE13
IE38
IED0
FE52
FE16
IF51
FEB2
IE94
IE19
IE99
FE38
IC03
3CGT
FC05
IE32
FE19
FE29
IF29
FEB5
IE98
FE40
3CGS
3C23
IF13
IF50
FF05
ICGN
FEB7
IEA6
2C40
6E54
FE85
2CBZ
FCBR
FE57
FCBP
2C14
FE79
ICGR
2C39
3CH4
ICGM
FE28
IE93
2C17
IE91
FE96
IE75
2F04
BEB5
FF12
2CAN
2C56
IF14
FE84
IF01
2F14
2F32
IF09
2CAP
IEA7
3F12
FCAR
FE94
2CAM
2CAK
2CAJ
FE41
2C43
BEB3
IF55
FCAP
IE84
2E60
ICGH
2C36
2CAR
IF07
BEB4
3F27
ICH1
FE77
FE54
IF56
2C41
2C42
BEB0
FE45
3C43
FE78
IF18
2C44
FCAN
FE32
FE36
IF08
IE82
2F18
2CAH
2CAG
IF19
FF03
FCAM
FE83
3C44
IEA3
IE95
IEA5
9F03
9F08
9F06
ICH3
FE39
FCAK
FCAG
IFA9
3F22
FCAJ
2C33
3C02
IE81
FE91
9E41
2C32
2CAF
2CAE
2CAD
2CAC
2CAB
2CAA
FE35
FF30
3F23
FCAH
FCAE
FCAA
FCA7
FCA4
BEB8
BEB6
7E17
FE93
2E61
FE99
2C15
FF13
BEB9
FE95
2C18
3CGJ
FCAF
FCAC
FCA8
FCA5
2C38
IE25
BEB1
FEC0
ICHA
3CGH
FE92
FF06
FE90
2F33
FE51
IE27
IF15
FE33
FF53
9F00 3F07
9F01 3F08
9F02 3F10
2F03 3F09
2C02
FF07
IE12
IE24
FF10
FE76
1F03
3F28
IEA2
IF16
FEB8
FCG4
IE06
FF09
BEB2
ICH4
ICGA
ICG9
IE62
IF52
FFH9
IE09
FE81
3CGG
2CA9
FEB6
FF08
3F50
IF17
IE08
FE82
FF11
FE67
2F132F36
FE89
IE33
2CA8
IE17
IE15
FE59
FF14
ICG8
FFHR
IE26
IE02
IF54
IF67
FCA6
FCG5
FFH7
FFH6
FFH5
ICG7
3CGF
IE76
7F53
2CA7
2CA6
3FHG
FE48
2CA5
2CA4
IE48
FEB4
IF60
IE79
FFHM
FE88
3ECQ
IF57
IF53
FCG2
FF52
FCA2
IE01
FCA3
IEC4
IE11
ICGZ
ICGV
FE66
2F56
2F593F70
ICHB
FCG3
IF58
IED2
IC89
3C21
FE34
FFL4
IEC5
FCA1
2EAD 2EAC
2F62
IF65
3C20
3C01
3C00
2F63
3C10
FC06
2F64
2F65
9C32
9C31
IE05
5C69
FCA0
FE69
IF63
ICG4
FE86
IEB0
FE80
IC86
IEB1
FFHK
2C84
IC01
2F66
2F67
2CH7
FC10
5FH2
IF20
IC04
FE65
2C85
2C86
2CA1
2CA0
IF61
IF69
3C40
2CG4
ICG6
2F68
3F61
IFN5
FCJ5
FFH3
IE57
FCJ4
2C82
FCD8
2C57
2F69
IEC8
FE49
3F62
IFN4
2C97
2F70
2F71
3F74
FFHP
3FN3
3CGA
IE18
IC84
2C76
FCAB
ICG1
7CG2
2F72
FFHJ
ICG5
ICA1
FF48
IFN2
IFN3
FE87
FE15
FFHN
FF19
FE64
IFN0
3CG5
2F85
2CD0
3FN2
ICA2
9C11
9C10
FE75
3F649F51
IEB5
IF66
IFN6
IC87
ICA9
2FH3
FE30
IE29
IF64
9F50
3F63
IF62
2FH9
FE63
IFN1
2F77 2F75
2F78
FFL1
2FL9
2C69
2C61
IC90
2FLS
2FLJ
2FL3
2F76
2FH2
2FH8
IFN7
IC85
FE68
3CG9
FE27
IED1
2C91
FEA0
2F79
IE14
2C92
FFHL
IC88
3CG8
IEC6
2CG8
5FH4
FFHA
FE14
IE21
2C89
2F80
3CA6
3CG7
3CG6
2CG7
2CG6
2CG5
IEC7
2F81
FE18
2C77
FE10
IFH4
2FJB
2FHZ
FE11
5C60
3CJ1
2C95
ICAA
FE53
FFHH
IFNC
2F82
2F83
2F84
FFL0
2CD1
IFN8
FC07
2C79
FF16
2FN2
2FN1
IE23
BE28
FE72
FE62
IFN9
7CJ0
2FLL
ICGY
3CH0
IE20
IEC0
2FN6
FE73
IE34
IFC0
IEC1
FE61
2FN3
2FHH
3CJ0 6CJ0
FC17
2FHW
IE22
2C59
FE24
2FHG
FE71
IFC5
2C81
2FLR
2FH7
FE60
2FL4
2FH6
FE70
IFND
2FLM
IFNJ
IFNA
IFL1
FCBM
FFHC
3FHL
IC81
3CFN
IC82
2FN0
2FH4
IEC2
ICGW
2CBF
FFH4
FE25
BE26
2FLN
FCBK
IFNH
9CD0
FFHE
IFNG
9FND
FFHG
IC54
6CG0
IC51
FFHF
2FL5
IC83
3CDB
FEA1
2FJ2
ICG3
IE97
FCD0
IFNB
FFHD
FCBJ
IFNF
IE67
5FG1
5FG2
3CF1
3C51
ICG2
FCBH
2CBC
2CBB
2CBA
2CB9
2CB8
2CB7
2CB6
2CB5
2CB4
2CB3
2CB2
2CB1
2CB0
2CAZ
2CAY
2CAW
2CAV
3FH7
2FN8
FCD2
FCD4
FCBG
FCBD
FCBA
IE66
IE31
3FH6
FCD6
9FN6
FFL2
9CG0
FCBF
FCBC
FCB9
FCB6
FCB3
FCB0
FFHT
3FH2
9FN1
7CD0
FCBE
FCBB
ICD8
3FH0
3FH1
3FH3
9CG1
IFNL
FCD9
2FHR
IFNM
IC50
FCD3
BE23
9FN0
9FN4
IFNK
FFH2
FE22
IFNN
9FN7
IH29
9HM0
FCB7
IHM0
7CG1
FCB8
FCB5
FCB2
FCAZ
2HMG
2FHM
IHN8
IHNG
FHV5
FHV4
6HM0
IE58
3HM0
IHM2
IH31
FHM2
FCB4
FCB1
FCAY
7HM5
3CD1
IHM5
IHM4
FE50
IHWJ
3HMY
7HVA
IHM8
2HMW
FHM1
FE43
IHN0
IHNH
IE16
IHW7
2FHT
IHW8
7HM6
IHN6
IHNA
7HM4
IH27
IHM7
3H35
IHNK
FHM0
CFH0
IHW9
IHNE
FHR3
3HV4
IHMV
IH51
3H75
FCAV
IE72
IHWL
IHNF
IHM1
FH50
FC14
IH54
FC16
3H77
2H04
IH52
FCAW
IHM6
FHM3
IHVA
IHV1
IHNB
2CG1
FC15
IHWE
IH47
3H76
2H05
IHRT
1C01
IH25
IH24
FCG0
2HYD
FCBN
BE24
IT68
ICH9
IT85
IT90
FC13
IHRV
IHN4
IHMG
IHRW
IHND
IH23
FCAT
IH55
IHS1
IT98
3T57
IHMW
FCG7
3HP6
3HP3
3HP4
3H70
3HPA
IH48
IH22
3H94
FT62
FCAS
3T84
IHRZ
ICAE
IH53
3HAG
IT91
2T85
IHRY
IHRJ
IHWM
ICH6
IT79
3CHD
ICH5
IH11
2HF6
IHSY
6T50
FC12
ICH7
3CHC
2CH0
3CHE
IT95
IHN3
2HPB
IT89
FT61
2HF5
7T55
ICH8
7T56
3T69 3T87
FHV3
IHRH
2HP4
FHPE
3T92
IHF5
FC19
2T83
IHWF
IT84
IT93
FH06
3HPB
IHSZ
IT96
FT56
3T68
6T51
IH13
IT97
FH08
2HRM
3T82
2HHA
2HG1
IT62
FT18
IT63
FT21
FH00
IHS7
3HPW
3HFR
IHY2
3T81
2HP7
IHY1
IT81
3HFK
9HG3
IHF4
FT20
3HH5
FT59
IT59
IH02
2H01
IHRL
IT83
IT22
3T80
2HRW
FH03
9H17
FH07
IH06
FE17
3H52
FT63
2HRV
IA25
IT58
IHSW
3HP2
IHF0
2HRY
3T52
FHC1
2T68
FHC7
3H53
2HG5
2HG3
2HGD
IHFB
IT80
3T51
3H02
3H65
AT51
2T81
2T82
2T54
IT53
IH28
2A23
BE25
9T31
2T16
3HH1
3H56
3HPR
IH01
FHC2
IHC1
IH37
2HVM
2HG8
IA13
IT77
3H03
3H66
FT60
3HPP
2A24
IT55
3H31
3H54
3H69
IHWN
3H07
3HH8
3A19
IHY6
2HC0
3H60
3H46
3H48
3H30
3H26
3H20
IHK2
IT24
2T79
FT50
IH32
2H36
IT25
IT70
IT20
IT21
2HVR
9H19
3HH7
7H02
FA32
IT19
2T13
IH03
FH01
3H51
IT75
IHSU
3T50
5HY3
FT57
2H07
IHSN
5HVE
IHPG
7T50
IH15
FHC6
2HG2
FA31
FA35
IHWG
2HZY
2HU9
IT73
IT76
IH00
IHWH
2H00
3H39
3H42
3H17
3H19
3H13
3H16
3H15
3T67
5T52
IHSL
IHK3
3H32
3H28
FT55
2HY9
IHSK
AT50
7T10
IT69
FH09
IHW3
IHWA
IHK1
FA34
IHW6
FA30
3H01
IT57
3H21
IH87
2HH6
IT56
FT24
FA36
IT34
9T33
2T552T56
IHWB
7A02
IT26
IT23
2T21
IH21
5HY5
IH45
3H10
IT86
IHC2
2T19
3T98
3T53
9T43
9T44
IT32
IT60
IT51
FT53
5HG0
2HH9
2T572T58
IT61
3H14
IHW4
2HVT
FT51
FHD0
IH42
IT16
IA12
3T18
3T55
FT25
IHW2
IHWD
2T20
9T34
3H23
IH09
IH46
IH41
IHY5
FT54
3HD4
IH85
IT17
IT50
FT52
FHD2
IT36
9T45
IT88
IHF8
IHF9
2HZF
2HZG
1T50
FHD1
IH36
2HYB
IH33
FT58
3T66
IHR8
2T51
5T53
IHFA
IHW5
3HFY
IHSP
IH40
IH81
FHR5
3H63
2H20
2H21
6H10
FA03
IHS8
3A18
IHD0
IHYC
IA22
AT11
IHS4
IHR5
2HU6
FHR6
2HZC
2HU4
2H11
5HV4
IHYF
IH34
3H41
FHR1
3A04
IHSS
2H50
2HZB
2HZD
2H27
IHY3
IH35
IHVE
9H50
3A03
IH49
2HV0
IH39
3A07
IA23
2HSW
2HT1
2HTH
IHR0
IHST
IHY9
2HH4
IH91
IH18
IHSA
3A05
2HV5
2HA3
AT10
3H43
IA09
IH92
IH80
3HPL
2H16
2HZM
IA21
2HU5
2HA4
2HA5
2HU8
2HSY
2HSV
2HST
2HUN
3HS5
3HS7
9H52
9H54
FHK1
5HV5
2HYE
2HV6
IHYH
BE21
IA03
IH38
2HT7
7H93
FE21
IHSR
IHYM
3HPC
IHR3
IHY4
FA02
5HV6
2H14
IH19
IHR4
IHR6
IHRF
5HV7
3HP8
2HT5
2HS0
2HT6
2HUP
2HTK
3HT9
IHSC
IHF3
5HV3
2HY3
IA30
2A20
3HWP
FH05
2H34
2H33
IH20
2HVF
3HHM
7H14
2HH1
2HY2
2HV7
7A00
IHSH
3A12
IA11
FE20
IT30
2HV8
3HPJ
3HPM
IHSD
3HHT
IHRE
IHY8
6HW2
IA02
5HVH
2H19
9H21
2HVW
IH14
IHRB
IHS5
IA08
IHW0
IHYA
IT08
IHV6
IT0D
IT15
IT12
IT13
FT17
IT14
IT10
IT04
IT09
7H16
3HPG
3HPU
9HW1
3HPF
2H32
IHF2
IHV3
2HGY
IP13
IP19
IHSG
IH61
3H55
3H57
2HGJ
IHSM
IH17
IH16
FE56
IHRD
3HPK
3HPH
3HRK
2HGK
2HV9
2HV2
3HHN
3HHY
3HHZ
3HHW
3HHV
IHF1
2HGN
3A10
IH30
IHRM
IH10
3HK0
IT11
IHSE
IHY0
3HEU
IH60
IHRK
3A26
2HUK
3HS6
IHYN
3HPV
3HPS
3HPT
3HRM
3HRN
IHS2
3HSK
5HV8
IA07
3A27
3H86
IT28
IH04
IHS3
IHSB
3HSW
IHR1
2H42
5HV2
FA33
FA06
2HGV
IHS6
7A03
IAC4
IAC3
IA20
2A50
5A01
FT22
IT03
IH26
2A07
2HVY
FA37
IA28
3A20 3A21
FH11
FT23
IT05
IHYP
5A00
9HF4
3A02
CH53
FP29
IA29
IA06
IA05
3A17
3A15
2A51
3A14
2A19
FH12
IA27
IP07
3P23
FP28
2A14
2A00
FA01
2A13
2P11
2P08
3P06
IP12
9A02
9A01
3P08
2A25
2A26
2A27 7A01
FP18
IAC2
FAC0
FP03
FP44
FP02
IA26
IP31
3P46
7P12 3P53
FP01
FP27
3P49
IP26
IP32
2P30
2P55
5P11
FU38
FP19
FU1H
FN09
3P56
FP2A
IU53
IU3T
FU36
IU21
IP0H
2N0T
2P39 2P38
2P50
2P51
FP25
IU52
FP41
FU35
IU50
FP17
3U59
2P45
IU54
IP17
IU1D
FP39
5P08
IU49
FU34
IU34
FP0W
FU40
FP14
FN05
IU51
3P61
FU08
IU48
FP20
FP0T
3P65
3P66
3P58
IU42
FU33
FP0R
IU47
FP0S
3P75
IU41
IU40
FU31
IU44
FP22
FP24
IU43
IU3C
FP0U
IP5Z
2P32
FU30
FP21
IP5Y
9P0J
IP30
IU1E
IU07
2N12
IP5V
FU32
2N14
2N33
IN34
2N10
FP42
2P36
2P54
2P52
FP23
FU05
2P43
IP10
FP26
7P01
2P44
FU1F
IU12
IP29
FU0A
IU1R
5P12
FU06
3U13
IU61
3U20
6P03
2U0S
IP24
FP40
IU55
IU0N
7N13
FU0B
IP11
6U03
IP27
3U15
IP23
FU12
FU11
FU10
FU21
FU1D
FU22
FU1C
FU20
FU23
IU56
3U16
IU0K
IU31
IU19
FN07
3P19
IN20
IU06
IU58
IU0T
2P40
FN06
2U54
2U62
CU77
FN0C
2P23
FU04
IN0P
2N0R
3P09
IU0S
IP14
3U23
3U30
FN15
IU30
IP28
IN0U
FP04
IP18
2U63
2U60
3P47
IU0P
FP35
3P20
IP60
FN0A
IU60
FP0B
3N0J
IU62
IN22
FN08
IP04
IU63
IN0W
FU0C
IU1T
3N32
3N0H
6N00
6N01
2U57
3U17
FP16
IP15
IN10
3N30
IU0U
IN30
IU1P
IN0L
2U58
IN0M
2N0P
FN0B
3N0K
IU57
6U02
FP34
IU11
IN21
3U06
2N0Q
IN0Z
IU59
3P24
3P25
IP00
FP0A
IP20
FU0E
1N02
2N32
FU1A
IN32
IU08
2U12
IU1B
FP32
FP0H
FU07
FP33
3U0J
3U1M
FP09
FP15
FP0G
2U0H
FP31
FP08
FP0F
3D17
FP0E
FP12
FP11
FP30
FP07
3D16
3D09
IP01
FP06
9P32
FD14
ID11
IU37
FU1G
3D14
IP08
2U28
IU38
ID33
3U40
6U0C
7D03
ID16
ID36
3U3Y
3U47
IU39
FP10
FP13
3U3Z
FU26
FU25
FU24
FU15
FU18
FU17
FU16
2U2A
7U0P
IU36
ID37
ID19
IP02
IU3B
ID18
3P12
FU87
ID28
ID38
FP0J
FP0C
IU33
ID06
ID29
ID27
FU0D
CU25
IU2Z
FP0P
IU2C
IU32
IU15
IU2D
IU09
2U8T
IU2Y
3U2F
3U32
3U26
3U2D
2U20
2U8U
2U18
3U27
3U2C
IU82
FU8C
3U3J
3U2G
3U12
2U83
2U05
7D10
2U80
IU01
IP05
2U02
5D07
IU10
IU02
ID10
ID32
2U04
IU03
ID09
ID31
FU90
2U66
7U01
IU28
IU05
FU00 3U10
IU14
IU29
2P163P11
IP09
FU13
3U14
FP05
3U01
IU2A
3U08
3U02
IU25
3U28
FU19
3U03
IU04
IP03
3P86
ID08
ID05
FD06
IU2T
IU16
FD02
5D08
FU8D
3D10
FD05
FP36
FD07
2D01
ID07
FU80
3D03
FP38
3P88
18310_555_090309.eps
3104 313 6343.2
090309
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 139
Light guide
1
2
3
4
5
6
8
9
10
11
12
13
7
A
B
C
D
E
F
G
H
I
A
B
C
D
E
F
G
H
I
1P09 C1
1
2
3
4
5
6
7
8
2001 B4
2002 B3
3000 B4
3001 B4
3002 B4
3003 B5
3004 B5
3005 B5
3007 B6
3008 B6
3009 B6
3015 C3
3016 C3
6001 B4
6002 B4
6003 B4
6004 B5
6005 B5
6006 B5
6007 B6
6008 B6
6009 B6
7001 C4
I000 C3
I001 C4
I002 B4
I003 B4
I004 B4
I005 B5
I006 B5
I007 B5
I008 B6
I009 B6
I010 B6
LIGHT GUIDE
A
B
C
D
A
B
C
D
WHITE
+5V2
I002
I003
I004
I005
I006
I007
I008
I009
I010
I001
1P09
I000
3015
1K0
7001
1
2
3
4
BC817-25W
+5V2
1735446-4
1
2
3
4
5
6
7
8
CHN
SETNAME
2K9
CLASS_NO
1
2008-10-16
LIGHT STRIP PANEL
9 LEDS 2K9
J
J
3104 313 6344
2008-10-17
3
NAME Luc Buffel
SUPERS.
DATE
1
130
1
A3
CHECK
C
ROYAL PHILIPS ELECTRONICS N.V. 2007
7
1
2
3
4
5
6
8
9
10
11
12
13
18310_560_090508.eps
090508
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 140
Layout guide panel
7001
6001
6002
6003
6004
6005
6006
6007
6008
6009
2001
1P09
3000
I010
I008
I009
I001
I000
I005
I006
I003
I007
I002
18310_559_090420.eps
31043136344.1
090508
2009-May-08
Download from Www.Somanuals.com. All Manuals Search And Download.
Circuit Diagrams and PWB Layouts
Q549.2E LA
10.
EN 141
Wi-Fi Antenna
Layout Wi-Fi Antenna
1
2
3
4
5
6
A
B
C
D
E
F
G
H
I
A
B
C
1000
1000 B1
1
2
3
D
A
A
E
18310_557_090309
3104 313 6328.2
090309
1
HOT
1000
U.FL-R-SMT-1(10)
3
2
B
B
C
F
C
G
1
2
3
H
I
CHN
********
SETNAME
********
CLASS_NO
1
2
*
08-07-07
08-10-20
******
WIFI antenna
**-**-**
*
**-**-**
**-**-**
**-**-**
J
3104 303 5212
J
08-07-07
08-10-20
2
3
*
*
NAME Maelegheer Ingrid
CHECK
SUPERS.
1
130
1
A4
DATE
****-**-**
C
ROYAL PHILIPS ELECTRONICS N.V. 2008
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18310_640_090306.eps
090306
2009-May-08
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