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Colour Television
Chassis
Q549.2E
LA
18310_000_090317.eps 090317
Contents
1. 2. 3. 4. 5. 6. 7. 8. 9.
Page
Contents
SSB: SRP List Part 2 Light guide Wi-Fi Antenna
Page
136 139 141 140 141
Revision List 2 Technical Specifications and, Connections 2 Precautions, Notes, and Abbreviation List 6 Mechanical Instructions 10 Service Modes, Error Codes, and Fault Finding 15 Alignments 36 Circuit Descriptions 42 IC Data Sheets 53 Block Diagrams Wiring Diagram 32" (Elite Core) 59 Wiring Diagram 37" (Elite Core) 60 Block Diagram Video 62 Block Diagram Audio 63 Block Diagram Control & Clock Signals 64 Block Diagram I2C 65 Supply Lines Overview 66 10. Circuit Diagrams and PWB Layouts Drawing 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 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 (AL3) 77 8 LED Low-Pow: LED Drive Liteon (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 (AL3) 82 10 LED Low-Pow: LED Drive Liteon (AL4) 83 SSB (B01A-B10) 85-133 SSB: SRP List Explanation 134 SSB: SRP List Part 1 135
PWB 70 70 70 74 74 74 79 79 79 79 84 84 84 84 137-138
© 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
EN 2
1.
Q549.2E LA
Revision List
1. Revision List
Manual xxxx xxx xxxx.0 · First release. Manual xxxx xxx xxxx.1 · All Chapters: the following sets to the manual: see Table 2-1 Described Model numbers. · Chapter 5: paragraph 5.8.10 PCI bus added. · Chapter 6: paragraph 6.6 Service SSB delivered without main software loaded added.
2. Technical Specifications and, Connections
Index of this chapter: 2.1 Technical Specifications 2.2 Directions for Use 2.3 Connections 2.4 Chassis Overview Notes: · Figures can deviate due to the different set executions. · Specifications are indicative (subject to change).
2.1
Technical Specifications
For on-line product support please use the links in Table 2-1. Here is product information available, as well as getting started, user manuals, frequently asked questions and software & drivers. Table 2-1 Described Model numbers CTN 32PFL9604H/60 37PFL9604H/12 37PFL9604H/60 56PFL9954H/12 Styling Published in: 3122 785 18310 3122 785 18310 3122 785 18310 3122 785 18311 3122 785 18311
32PFL9604H/12 Elite Core
2.2
Directions for Use
You can download this information from the following websites: http://www.philips.com/support http://www.p4c.philips.com
2009-May-08
Technical Specifications and, Connections 2.3 Connections
Q549.2E LA
2.
EN 3
SERVICE UART
VGA
NETWORK
AUDIO IN VGA
4
3
2
1
18310_001_090317.eps 090317
Figure 2-1 Connection overview
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EN 4
2.
Q549.2E LA
Technical Specifications and, Connections
Cinch: S/PDIF - Out Bk - Coaxial Cinch: Audio - Out Rd - Audio - R Wh - Audio - L ot kq
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. 2.3.1 Side Connections Head phone (Output) Bk - Head phone 32 - 600 ohm / 10 mW Cinch: Video CVBS - In, Audio - In Rd - Audio R 0.5 VRMS / 10 kohm Wh - Audio L 0.5 VRMS / 10 kohm Ye - Video CVBS 1 VPP / 75 ohm S-Video (Hosiden): Video Y/C - In 1 - Ground Y Gnd 2 - Ground C Gnd 3 - Video Y 1 VPP / 75 ohm 4 - Video C 0.3 VPP / 75 ohm USB2.0
0.4 - 0.6VPP / 75 ohm
0.5 VRMS / 10 kohm 0.5 VRMS / 10 kohm
kq kq
jq jq jq
EXT3: Cinch: Video YPbPr - In, Audio - In Gn - Video Y 1 VPP / 75 ohm Bu - Video Pb 0.7 VPP / 75 ohm Rd - Video Pr 0.7 VPP / 75 ohm Rd - Audio - R 0.5 VRMS / 10 kohm Wh - Audio - L 0.5 VRMS / 10 kohm
jq jq jq jq jq
EXT1 & 2: Video RGB - In, CVBS - In/Out, Audio - In/Out H H j j
20 2
21
10000_001_090121.eps 090121
1
Figure 2-4 SCART connector
1 2 3 4
10000_022_090121.eps 090121
Figure 2-2 USB (type A) 1 2 3 4 - +5V - Data (-) - Data (+) - Ground k jk jk H
1 2 3 4 5 6 7 8
- Audio R - Audio R - Audio L - Ground Audio - Ground Blue - Audio L - Video Blue - Function Select
Gnd
HDMI: Digital Video, Digital Audio - In (see HDMI 1, 2, 3 & 4 - Rear Connections) Common Interface 68p - See diagram B07A SSB: CI: PCMCIA Connector 2.3.2 Rear Connections Service Connector (UART) 1 - Ground Gnd 2 - UART_TX Transmit 3 - UART_RX Receive VGA: Video RGB - In
1 6 11 5 10 15
jk
9 10 11 12 13 14 15 16 17 18 19 20 21
- Ground Green - n.c. - Video Green - n.c. - Ground Red - Ground P50 - Video Red - Status/FBL - Ground Video - Ground FBL - Video CVBS/Y - Video CVBS - Shield
0.5 VRMS / 1 kohm 0.5 VRMS / 10 kohm 0.5 VRMS / 1 kohm Gnd Gnd 0.5 VRMS / 10 kohm 0.7 VPP / 75 ohm 0 - 2 V: INT 4.5 - 7 V: EXT 16:9 9.5 - 12 V: EXT 4:3 Gnd 0.7 VPP / 75 ohm Gnd Gnd 0.7 VPP / 75 ohm 0 - 0.4 V: INT 1 - 3 V: EXT / 75 ohm Gnd Gnd 1 VPP / 75 ohm 1 VPP / 75 ohm Gnd
k j k H H j jk j H j H H j j H H k j H
H k j
Aerial - In - - IEC-type (EU)
Coax, 75 ohm
D
RJ45: Ethernet (if present)
12345678
10000_002_090121.eps 090127
Figure 2-3 VGA Connector 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 - Video Red - Video Green - Video Blue - n.c. - Ground - Ground Red - Ground Green - Ground Blue - +5VDC - Ground Sync - n.c. - DDC_SDA - H-sync - V-sync - DDC_SCL 0.7 VPP / 75 ohm 0.7 VPP / 75 ohm 0.7 VPP / 75 ohm Gnd Gnd Gnd Gnd +5 V Gnd DDC data 0-5V 0-5V DDC clock j j j H H H H j H j j j j
E_06532_025.eps 210905
Figure 2-5 Ethernet connector 1 2 3 4 5 6 7 8 - TD+ - TD- RD+ - CT - CT - RD- GND - GND Transmit signal Transmit signal Receive signal Centre Tap: DC level fixation Centre Tap: DC level fixation Receive signal Gnd Gnd k k j j H H
2009-May-08
Technical Specifications and, Connections
Cinch: Audio - In (VGA/DVI) Rd - Audio R 0.5 VRMS / 10 kohm Wh - Audio L 0.5 VRMS / 10 kohm HDMI 1, 2, 3 & 4: Digital Video, Digital Audio - In
19 18 1 2
E_06532_017.eps 250505
Q549.2E LA
Gnd Data channel Data channel Gnd Data channel Data channel Gnd Data channel Control channel DDC clock DDC data Gnd Hot Plug Detect Gnd
2.
EN 5
H j j H j j H j jk j jk H j j H
jq jq
Figure 2-6 HDMI (type A) connector 1 2 3 4 - D2+ - Shield - D2- D1+ Data channel Gnd Data channel Data channel j H j j
5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
- Shield - D1- D0+ - Shield - D0- CLK+ - Shield - CLK- Easylink/CEC - n.c. - DDC_SCL - DDC_SDA - Ground - +5V - HPD - Ground
2.4
Chassis Overview
Refer to chapter Block Diagrams for PWB/CBA locations.
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EN 6
3.
Q549.2E LA
Precautions, Notes, and Abbreviation List
3. Precautions, Notes, and Abbreviation List
Index of this chapter: 3.1 Safety Instructions 3.2 Warnings 3.3 Notes 3.4 Abbreviation List · 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
Safety regulations require the following during a repair: · Connect the set to the Mains/AC Power via an isolation transformer (> 800 VA). · Replace safety components, indicated by the symbol h, only by components identical to the original ones. Any other component substitution (other than original type) may increase risk of fire or electrical shock hazard. Of de set ontploft! Safety regulations require that after a repair, the set must be returned in its original condition. Pay in particular attention to the following points: · Route the wire trees correctly and fix them with the mounted cable clamps. · Check the insulation of the Mains/AC Power lead for external damage. · Check the strain relief of the Mains/AC Power cord for proper function. · Check the electrical DC resistance between the Mains/AC Power plug and the secondary side (only for sets that have a Mains/AC Power isolated power supply): 1. Unplug the Mains/AC Power cord and connect a wire between the two pins of the Mains/AC Power plug. 2. Set the Mains/AC Power switch to the "on" position (keep the Mains/AC Power cord unplugged!). 3. Measure the resistance value between the pins of the Mains/AC Power plug and the metal shielding of the tuner or the aerial connection on the set. The reading should be between 4.5 M and 12 M. 4. Switch "off" the set, and remove the wire between the two pins of the Mains/AC Power plug. · Check the cabinet for defects, to prevent touching of any inner parts by the customer. 3.3.2
Schematic Notes · All resistor values are in ohms, and the value multiplier is often used to indicate the decimal point location (e.g. 2K2 indicates 2.2 k). Resistor values with no multiplier may be indicated with either an "E" or an "R" (e.g. 220E or 220R indicates 220 ). All capacitor values are given in micro-farads ( = × 10-6), nano-farads (n = × 10-9), or pico-farads (p = × 10-12). Capacitor values may also use the value multiplier as the decimal point indication (e.g. 2p2 indicates 2.2 pF). An "asterisk" (*) indicates component usage varies. Refer to the diversity tables for the correct values. The correct component values are listed on the Philips Spare Parts Web Portal.
· · · · ·
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 URL: http://www.atyourservice-magazine.com. Select "Magazine", then go to "Repair downloads". Here you will find Information on how to deal with BGA-ICs. BGA Temperature Profiles For BGA-ICs, you must use the correct temperature-profile. Where applicable and available, this profile is added to the IC Data Sheet information section in this manual.
3.2
Warnings
· All ICs and many other semiconductors are susceptible to electrostatic discharges (ESD w). Careless handling during repair can reduce life drastically. Make sure that, during repair, you are connected with the same potential as the mass of the set by a wristband with resistance. Keep components and tools also at this same potential. Be careful during measurements in the high voltage section. Never replace modules or other components while the unit is switched "on". When you align the set, use plastic rather than metal tools. This will prevent any short circuits and the danger of a circuit becoming unstable.
3.3.5
Lead-free Soldering Due to lead-free technology some rules have to be respected by the workshop during a repair: · Use only lead-free soldering tin. If lead-free solder paste is required, please contact the manufacturer of your soldering equipment. In general, use of solder paste within workshops should be avoided because paste is not easy to store and to handle. · Use only adequate solder tools applicable for lead-free soldering tin. The solder tool must be able: To reach a solder-tip temperature of at least 400°C. To stabilize the adjusted temperature at the solder-tip. To exchange solder-tips for different applications. · Adjust your solder tool so that a temperature of around 360°C - 380°C is reached and stabilized at the solder joint. Heating time of the solder-joint should not exceed ~ 4 sec. Avoid temperatures above 400°C, otherwise wear-out of tips will increase drastically and flux-fluid will be destroyed. To avoid wear-out of tips, switch "off" unused equipment or reduce heat. · Mix of lead-free soldering tin/parts with leaded soldering tin/parts is possible but PHILIPS recommends strongly to avoid mixed regimes. If this cannot be avoided, carefully clear the solder-joint from old tin and re-solder with new tin.
· · ·
3.3
3.3.1
Notes
General · Measure the voltages and waveforms with regard to the chassis (= tuner) ground (H), or hot ground (I), depending on the tested area of circuitry. The voltages and waveforms shown in the diagrams are indicative. Measure them in the Service Default Mode with a colour bar signal and stereo sound (L: 3 kHz, R: 1 kHz unless stated otherwise) and
2009-May-08
Precautions, Notes, and Abbreviation List
3.3.6 Alternative BOM identification It should be noted that on the European Service website, "Alternative BOM" is referred to as "Design variant". The third digit in the serial number (example: AG2B0335000001) indicates the number of the alternative B.O.M. (Bill Of Materials) that has been used for producing the specific TV set. In general, it is possible that the same TV model on the market is produced with e.g. two different types of displays, coming from two different suppliers. This will then result in sets which have the same CTN (Commercial Type Number; e.g. 28PW9515/12) but which have a different B.O.M. number. By looking at the third digit of the serial number, one can identify which B.O.M. is used for the TV set he is working with. If the third digit of the serial number contains the number "1" (example: AG1B033500001), then the TV set has been manufactured according to B.O.M. number 1. If the third digit is a "2" (example: AG2B0335000001), then the set has been produced according to B.O.M. no. 2. This is important for ordering the correct spare parts! For the third digit, the numbers 1...9 and the characters A...Z can be used, so in total: 9 plus 26= 35 different B.O.M.s can be indicated by the third digit of the serial number. Identification: The bottom line of a type plate gives a 14-digit serial number. Digits 1 and 2 refer to the production centre (e.g. AG is Bruges), digit 3 refers to the B.O.M. code, digit 4 refers to the Service version change code, digits 5 and 6 refer to the production year, and digits 7 and 8 refer to production week (in example below it is 2006 week 17). The 6 last digits contain the serial number.
MODEL : 32PF9968/10
MADE IN BELGIUM 220-240V ~ 50/60Hz 128W VHF+S+H+UHF
Q549.2E LA
3.
EN 7
3.4
Abbreviation List
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 Automatic Aspect Ratio Adaptation: algorithm that adapts aspect ratio to remove horizontal black bars; keeps the original aspect ratio Automatic Channel Installation: algorithm that installs TV channels directly from a cable network by means of a predefined TXT page Analogue to Digital Converter Automatic Frequency Control: control signal used to tune to the correct frequency Automatic Gain Control: algorithm that controls the video input of the feature box Amplitude Modulation Asia Pacific Aspect Ratio: 4 by 3 or 16 by 9 Auto Screen Fit: algorithm that adapts aspect ratio to remove horizontal black bars without discarding video information Advanced Television Systems Committee, the digital TV standard in the USA See Auto TV A hardware and software control system that measures picture content, and adapts image parameters in a dynamic way External Audio Video Audio Video Controller Audio Video Input Processor Monochrome TV system. Sound carrier distance is 5.5 MHz Board-Level Repair Broadcast Television Standard Committee. Multiplex FM stereo sound system, originating from the USA and used e.g. in LATAM and AP-NTSC countries Blue TeleteXT Centre channel (audio) Consumer Electronics Control bus: remote control bus on HDMI connections Constant Level: audio output to connect with an external amplifier Component Level Repair Computer aided rePair Connected Planet / Copy Protection Customer Service Mode Color Transient Improvement: manipulates steepness of chroma transients Composite Video Blanking and Synchronization Digital to Analogue Converter Dynamic Bass Enhancement: extra low frequency amplification 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
2009-May-08
AARA
ACI
ADC AFC
AGC
AM AP AR ASF
ATSC
ATV Auto TV
PROD.NO: AG 1A0617 000001
S
BJ3.0E LA
10000_024_090121.eps 090121
AV AVC AVIP B/G BLR BTSC
Figure 3-1 Serial number (example) 3.3.7 Board Level Repair (BLR) or Component Level Repair (CLR) If a board is defective, consult your repair procedure to decide if the board has to be exchanged or if it should be repaired on component level. If your repair procedure says the board should be exchanged completely, do not solder on the defective board. Otherwise, it cannot be returned to the O.E.M. supplier for back charging! 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. B-TXT C CEC
CL CLR ComPair CP CSM CTI
·
CVBS DAC DBE DDC D/K DFI DFU DMR DMSD DNM
EN 8
DNR DRAM DRM DSP DST
3.
Q549.2E LA
Precautions, Notes, and Abbreviation List
uses 8 bit or 10 bit data words, and has a maximum data rate of 270 Mbit/s, with a minimum bandwidth of 135 MHz. Institutional TeleVision; TV sets for hotels, hospitals etc. Last Status; The settings last chosen by the customer and read and stored in RAM or in the NVM. They are called at start-up of the set to configure it according to the customer's preferences Latin America Liquid Crystal Display Light Emitting Diode Monochrome TV system. Sound carrier distance is 6.5 MHz. L' is Band I, L is all bands except for Band I LG.Philips LCD (supplier) Loudspeaker Low Voltage Differential Signalling Mega bits per second Monochrome TV system. Sound carrier distance is 4.5 MHz Microprocessor without Interlocked Pipeline-Stages; A RISC-based microprocessor Matrix Output Processor Metal Oxide Silicon Field Effect Transistor, switching device Motion Pictures Experts Group Multi Platform InterFace MUTE Line Not Connected Near Instantaneous Compounded Audio Multiplexing. This is a digital sound system, mainly used in Europe. Negative Temperature Coefficient, non-linear resistor National Television Standard Committee. Color system mainly used in North America and Japan. Color carrier NTSC M/N= 3.579545 MHz, NTSC 4.43= 4.433619 MHz (this is a VCR norm, it is not transmitted off-air) Non-Volatile Memory: IC containing TV related data such as alignments Open Circuit On Screen Display 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 Preconditioner) Picture In Picture Phase Locked Loop. Used for e.g. FST tuning systems. The customer can give directly the desired frequency Point Of Deployment: a removable CAM module, implementing the CA system for a host (e.g. a TV-set) Power On Reset, signal to reset the uP Positive Temperature Coefficient, non-linear resistor Printed Wiring Board (same as "PCB")
DTCP
DVB-C DVB-T DVD DVI(-d) E-DDC
EDID EEPROM EMI EPLD EU EXT FDS FDW FLASH FM FPGA FTV Gb/s G-TXT H HD HDD HDCP
HDMI HP I I2 C I2 D I2 S IF IR IRQ ITU-656
Digital Noise Reduction: noise reduction feature of the set Dynamic RAM Digital Rights Management Digital Signal Processing Dealer Service Tool: special remote control designed for service technicians Digital Transmission Content Protection; A protocol for protecting digital audio/video content that is traversing a high speed serial bus, such as IEEE-1394 Digital Video Broadcast - Cable Digital Video Broadcast - Terrestrial Digital Versatile Disc Digital Visual Interface (d= digital only) Enhanced Display Data Channel (VESA standard for communication channel and display). Using E-DDC, the video source can read the EDID information form the display. Extended Display Identification Data (VESA standard) Electrically Erasable and Programmable Read Only Memory Electro Magnetic Interference Erasable Programmable Logic Device Europe EXTernal (source), entering the set by SCART or by cinches (jacks) Full Dual Screen (same as FDW) Full Dual Window (same as FDS) FLASH memory Field Memory or Frequency Modulation Field-Programmable Gate Array Flat TeleVision Giga bits per second Green TeleteXT H_sync to the module High Definition Hard Disk Drive High-bandwidth Digital Content Protection: A "key" encoded into the HDMI/DVI signal that prevents video data piracy. If a source is HDCP coded and connected via HDMI/DVI without the proper HDCP decoding, the picture is put into a "snow vision" mode or changed to a low resolution. For normal content distribution the source and the display device must be enabled for HDCP "software key" decoding. High Definition Multimedia Interface HeadPhone Monochrome TV system. Sound carrier distance is 6.0 MHz Inter IC bus Inter IC Data bus Inter IC Sound bus Intermediate Frequency Infra Red Interrupt Request The ITU Radio communication Sector (ITU-R) is a standards body subcommittee of the International Telecommunication Union relating to radio communication. ITU-656 (a.k.a. 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,
ITV LS
LATAM LCD LED L/L'
LPL LS LVDS Mbps M/N MIPS
MOP MOSFET MPEG MPIF MUTE NC NICAM
NTC NTSC
NVM O/C OSD OTC P50 PAL
PCB PCM PDP PFC PIP PLL
POD
POR PTC PWB
2009-May-08
Precautions, Notes, and Abbreviation List
PWM QRC QTNR QVCP RAM RGB Pulse Width Modulation Quasi Resonant Converter Quality Temporal Noise Reduction Quality Video Composition Processor Random Access Memory Red, Green, and Blue. The primary color signals for TV. By mixing levels of R, G, and B, all colors (Y/C) are reproduced. Remote Control Signal protocol from the remote control receiver RESET signal Read Only Memory Reduced Swing Differential Signalling data interface Red TeleteXT Service Alignment Mode Short Circuit Syndicat des Constructeurs d'Appareils Radiorécepteurs et Téléviseurs Serial Clock I2C CLock Signal on Fast I2C bus Standard Definition Serial Data I2C DAta Signal on Fast I2C bus Serial Digital Interface, see "ITU-656" Synchronous DRAM SEequence Couleur Avec Mémoire. Color system mainly used in France and East Europe. Color carriers= 4.406250 MHz and 4.250000 MHz Sound Intermediate Frequency Switched Mode Power Supply System on Chip Sync On Green Self Oscillating Power Supply Serial Peripheral Interface bus; a 4wire synchronous serial data link standard Sony Philips Digital InterFace Static RAM Service Reference Protocol Small Signal Board STand-BY 800 × 600 (4:3) Super Video Home System Software Spatial temporal Weighted Averaging Noise reduction 1280 × 1024 Thin Film Transistor Total Harmonic Distortion Transmission Minimized Differential Signalling TeleteXT Dual Window with TeleteXT User Interface Microprocessor 1600 × 1200 (4:3) V-sync to the module Video Electronics Standards Association 640 × 480 (4:3) Variable Level out: processed audio output toward external amplifier Vestigial Side Band; modulation method What You See Is What You Record: record selection that follows main picture and sound 1280 × 768 (15:9) Quartz crystal 1024 × 768 (4:3) Y Y/C YPbPr
Q549.2E LA
3.
EN 9
YUV
Luminance signal Luminance (Y) and Chrominance (C) signal Component video. Luminance and scaled color difference signals (B-Y and R-Y) Component video
RC RC5 / RC6 RESET ROM RSDS R-TXT SAM S/C SCART
SCL SCL-F SD SDA SDA-F SDI SDRAM SECAM
SIF SMPS SoC SOG SOPS SPI
S/PDIF SRAM SRP SSB STBY SVGA SVHS SW SWAN SXGA TFT THD TMDS TXT TXT-DW UI uP UXGA V VESA VGA VL VSB WYSIWYR
WXGA XTAL XGA
2009-May-08
EN 10
4.
Q549.2E LA
Mechanical Instructions
4. Mechanical Instructions
Index of this chapter: 4.1 Cable Dressing and Taping 4.2 Service Positions 4.3 Assy/Panel Removal 4.4 Set Re-assembly Notes: · Figures below can deviate slightly from the actual situation, due to the different set executions.
4.1
Cable Dressing and Taping
18310_210_090318.eps 090318
Figure 4-1 Cable dressing 32"
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Mechanical Instructions
Q549.2E LA
4.
EN 11
18310_211_090318.eps 090318
Figure 4-2 Cable dressing 37"
18311_200_090506.eps 090506
Figure 4-3 Cable dressing 56" (21:9)
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EN 12 4.2
4.
Q549.2E LA
Mechanical Instructions
4.3.3 Ambi Light Each Ambi Light unit is mounted on a subframe. Refer to Figure 4-5 for details.
Service Positions
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
Figure 4-4 Foam bars The foam bars (order code 3122 785 90580 for two pieces) can be used for all types and sizes of Flat TVs. See Figure 4-4 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. Figure 4-5 Ambi Light unit
18310_212_090318.eps 090319
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. 4.3.4 Main Supply Panel 1. Unplug all connectors. 2. Remove the fixation screws. 3. Take the board out. When defective, replace the whole unit. 4.3.5 IR & LED Board Refer to Figure 4-6 for details.
4.3
4.3.1
Assy/Panel Removal
Rear Cover Warning: Disconnect the mains power cord before you remove the rear cover. Note: it is not necessary to remove the stand while removing the rear cover. Removing the Piezo Touch Control Panel PWB requires special attention. Refer to Piezo Touch Control Panel for details. 1. Remove all screws of the rear cover. 2. Lift the rear cover from the TV. Make sure that wires and flat coils are not damaged while lifting the rear cover from the set.
2
2
2
4.3.2
Speakers Each speaker unit is mounted with two screws. A sticker on the the unit indicates if it is the right ("R") or left ("L") box, seen from the front side of the set. When defective, replace the whole unit.
1
18310_213_090318.eps 090319
Figure 4-6 IR & LED Board
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Mechanical Instructions
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
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4.
EN 13
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. 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
3
Figure 4-9 Piezo Touch Control Panel -31. 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. 4.3.8
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1
LCD Panel Refer to Figure 4-10 and Figure 4-11 for details. 1. Remove the Piezo Touch Control Panel PWB as earlier described. 2. Remove the AL covers as earlier described. 3. Remove both Main Supply Panel and SSB as earlier described. 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 reused during re-assembly! 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 ! 2. Re-attach the conducting tape between LCD Panel and metal rim [4] !
Figure 4-7 Piezo Touch Control Panel -11. Gently pull the bottom side of the PWB out of the cabinet until you can unplug the connector [1].
2
18310_216_090318.eps 090319
Figure 4-8 Piezo Touch Control Panel -21. 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
4
1
1
18310_217_090318.eps 090320
Figure 4-10 LCD Panel -1-
2
3
18310_218_090318.eps 090319
Figure 4-11 LCD Panel -24.3.9 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
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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 5.6 The Blinking LED Procedure 5.7 Protections 5.8 Fault Finding and Repair Tips 5.9 Software Upgrading · All service-unfriendly modes (if present) are disabled, like: (Sleep) timer. Child/parental lock. Picture mute (blue mute or black mute). Automatic volume levelling (AVL). Skip/blank of non-favourite pre-sets.
How to Activate SDM For this chassis there are two kinds of SDM: an 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. · Digital SDM: use the standard RC-transmitter and key in 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. · 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).
5.1
Test Points
As most signals are digital, it will be difficult to measure waveforms with a standard oscilloscope. However, several key ICs are capable of generating test patterns, which can be controlled via ComPair. In this way it is possible to determine which part is defective. Perform measurements under the following conditions: · Service Default Mode. · Video: Colour bar signal. · Audio: 3 kHz left, 1 kHz right.
5.2
Service Modes
Service Default mode (SDM) and Service Alignment Mode (SAM) offers several features for the service technician, while the Customer Service Mode (CSM) is used for communication between the call centre and the customer. This chassis also offers the option of using ComPair, a hardware interface between a computer and the TV chassis. It offers the abilities of structured troubleshooting, error code reading, and software version read-out for all chassis. (see also 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) Purpose · To create a pre-defined setting, to get the same measurement results as given in this manual. · To override SW protections detected by stand-by processor and make the TV start up to the step just before protection (a sort of automatic stepwise start-up). See section "5.3 Stepwise Start-up". · To start the blinking LED procedure where only LAYER 2 errors are displayed. (see also section "5.5 Error Codes"). Specifications Table 5-1 SDM default settings Default system PAL B/G 5.2.2
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Figure 5-1 Service mode pad After activating this mode, "SDM" will appear in the upper right corner of the screen (when a picture is available). 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. How to Exit SDM Use one of the following methods: · Switch the set to STAND-BY via the RC-transmitter. · Via a standard customer RC-transmitter: key in "00"sequence. Service Alignment Mode (SAM) Purpose · To perform (software) alignments. · To change option settings. · To easily identify the used software version.
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Region Europe, AP(PAL/Multi) Europe, AP DVB-T
Freq. (MHz) 475.25
DVB-T 546.00 PID Video: 0B 06 PID PCR: 0B 06 PID Audio: 0B 07
· ·
All picture settings at 50% (brightness, colour, contrast). All sound settings at 50%, except volume at 25%.
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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.
To view operation hours. To display (or clear) the error code buffer.
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. Contents of SAM (see also Table 6-4) · Hardware Info. A. SW Version. Displays the software version of the main software (example: Q5492-1.2.3.4 = AAAAB_X.Y.W.Z). · AAAA= the chassis name. · 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). B. STBY PROC Version. Displays the software version of the stand-by processor. C. Production Code. Displays the production code of the TV, this is the serial number as printed on the back of the TV set. Note that if an NVM is replaced or is initialized after corruption, this production code has to be re-written to NVM. ComPair will foresee in a possibility to do this. · Operation Hours. Displays the accumulated total of operation hours (not the stand-by hours). Every time the TV is switched "on/off", 0.5 hours is added to this number. · Errors (followed by 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" submenu. 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. 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). 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
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Display Option Code
39mm
PHILIPS
27mm
040
MODEL: 32PF9968/10
PROD.SERIAL NO: AG 1A0620 000001
(CTN Sticker)
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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. 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. 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. 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.
·
·
· ·
·
·
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. · With the "CURSOR LEFT/RIGHT" keys, it is possible to: (De) activate the selected menu item. (De) activate the selected sub menu.
Service Modes, Error Codes, and Fault Finding
· With the "OK" key, it is possible to activate the selected action. · · · ·
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How to Exit SAM Use one of the following methods: · 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. 5.2.3 Customer Service Mode (CSM) Purpose When a customer is having problems with his TV-set, he can call his dealer or the Customer Helpdesk. The service technician can then ask the customer to activate the CSM, in order to identify the status of the set. Now, the service technician can judge the severity of the complaint. In many cases, he can advise the customer how to solve the problem, or he can decide if it is necessary to visit the customer. The CSM is a read only mode; therefore, modifications in this mode are not possible. When in this chassis CSM is activated, a 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. 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. 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. Note: Activation of the CSM is only possible if there is no (user) menu on the screen! How to Navigate By means of the "CURSOR-DOWN/UP" knob on the RCtransmitter, can be navigated through the menus. 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. 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
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) 12NC "LED Dimming Panel". Shows the 12NC of the LED dimming Panel (for sets with LED backlight).
Software versions · Current main SW. Displays the built-in main software version. In case of field problems related to software, software can be upgraded. As this software is consumer upgradeable, it will also be published on the Internet. Example: 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 SWversion (for sets with LED backlight). · Local contrast SW. Displays the MOP local contrast SWversion. Quality items · Signal quality. Poor / average /good · 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. · 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". · 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 Exit CSM Press "MENU" (or HOME) / "Back" key on the RC-transmitter.
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Service Modes, Error Codes, and Fault Finding
mode with a faulty FET 7U08 is done, you can destroy all IC's 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.
Stepwise Start-up
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 requested - Acquisition needed - No data Acquisition required - tact SW pushed - last status is hibernate after mains ON
WakeUp requested
St by
- Tact switch Pushed - last status is hibernate after mains ON
Semi St by
Active
- St by requested - tact SW pushed
Tact switch pushed
WakeUp requested (SDM) GoToProtection
Hibernate
GoToProtection
Protection
I_17660_124.eps 140308
Figure 5-3 Transition diagram
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Service Modes, Error Codes, and Fault Finding
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Off
Mains is applied
Stand by or Protection
Standby Supply starts running. All standby supply voltages become available .
st-by µP resets
Initialise I/O pins of the st-by µP: - 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
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.
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 Audio-Reset high. It is low in the standby mode if the standby mode lasted longer than 10s.
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
Detect2 should be polled on the standard 40ms interval and startup should be continued when detect2 becomes high.
Detect2 high received within 1 second?
No
Power-OK error: Layer1: 3 Layer2: 16
Yes
Enter protection
No 1V2 DCDC or class D error: Layer1: 2 Layer2: 19 The supply-fault line is a combination of the DCDC converters and the audio protection line.
Supply-fault I/O High?
Yes
Enter protection
This enables the +3V3 and +5V converter. As a result, also +5V-tuner, +2V5, +1V8PNX8541 and +1V8-PNX5100 become available. 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. 3V3 / 5V DCDC or class D error: Layer1: 2 Layer2: 11
Enable the DCDC converter for +3V3 and +5V. (ENABLE-3V3)
Wait 50ms
Supply-fault I/O High?
No
yes
Enter protection
No Detect-2 I/O line High? No Disable 3V3, switch standby line high and wait 4 seconds
Detect-1 I/O line High?
Yes Enable the supply fault detection algorithm
Yes Voltage output error: Layer1: 2 Layer2: 18
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.
Set I²C slave address of Standby µP to (A0h)
Enter protection
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. Yes
EJTAG probe connected ?
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
To I_17660_125b.eps
To I_17660_125b.eps
I_17660_125a.eps 140308
Figure 5-4 "Off" to "Semi Stand-by" flowchart (part 1)
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From I_17660_125a.eps
From I_17660_125a.eps
Reset-system is connected to USB -reset, 4to1HDMI Mux and channel decoder.
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
This cannot be done through the bootscript, the I/O is on the standby µP
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.
Timing need to be updated if more mature info is available.
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
No No
Bootscript ready in 1250 ms?
POR polling positive ?
No
Log SW event: STi7100PorFailure
Yes yes Set I²C slave address of Standby µP to (60h) Alive polling RPC start (comm. protocol) Timing needs to be updated if more mature info is available. NOK Log SW event STi7100AliveFailedError and generate fast cold reboot eventually followed by a cold reboot. Start alive IIC polling mechanism yes
Wait 200 ms
POR polling positive ?
No bootSTi7100PorFailure: Log HW error Layer1: 2 Layer2: 38 and generate cold boot
No Code = Layer1: 2 Layer2: 15
Flash to Ram image transfer succeeded within 30s? Yes
Switch AVC PNX8541 in reset (active low)
Code = Layer1: 2 Layer2: 53
No
SW initialization succeeded within 20s? Yes
Timing needs to be updated if more mature info is available .
Wait 10ms
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 PNX 5100 must be closed. The display startup sequence is taken care of by the LED DIM panel.
switch off the remaining DC/DC converters
Switch on the display in case of a LED backlight display by sending the TurnOnDisplay(1) (I²C) command to the PNX5100
3-th try?
Switch Standby I/O line high.
Yes No Blink Code as error code
Download firmware into the channel decoder
Enter protection
Third try?
No
Downloaded successfully ?
Yes Log channel decoder error: Layer1: 2 Layer2: 37
Yes initialize tuner , Master IF and channel decoder
Initialize source selection
Initialize video processing IC 's
initialize AutoTV
Initialize Ambilight with Lights off .
Semi-Standby
Figure 5-5 "Off" to "Semi Stand-by" flowchart (part 2)
I_17660_125b.eps 140308
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Service Modes, Error Codes, and Fault Finding
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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 is 200ms. 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)
CPipe already generates a valid output clock in the semi -standby state: display startup can start immediately when leaving the semi-standby state.
Assert RGB video blanking and audio mute
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.
Active
Figure 5-6 "Semi Stand-by" to "Active" flowchart
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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 is 200ms. - 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->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)
CPipe already generates a valid output clock in the semi -standby state: display startup can start immediately when leaving the semi-standby state.
Assert RGB video blanking and audio mute
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.
Active
Figure 5-7 "Semi Stand-by" to "Active" flowchart LCD with preheat
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Service Modes, Error Codes, and Fault Finding
Q549.2E LA
5.
EN 23
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 is 200ms.
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)
CPipe already generates a valid output clock in the semi -standby state: display startup can start immediately when leaving the semi-standby state.
Assert RGB video blanking and audio mute
Switch on the display by sending the OUTPUTENABLE (I²C) command to the LED DIM panel
wait 250ms (min. = 200ms) TBC in def. spec
Switch on LCD backlight (Lamp-ON)
Initialize audio and video processing IC's and functions according needed use case.
Wait until valid and stable audio and video , corresponding to the requested output is 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
Figure 5-8 "Semi Stand-by" to "Active" flowchart (LED backlight)
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EN 24
5.
Q549.2E LA
Service Modes, Error Codes, and Fault Finding
Active
Mute all sound outputs via softmute
action holder: AVC action holder: St-by autonomous action
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
Wait until Ambilight has faded out (fixed wait time of x s)
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.
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
Semi Standby
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Figure 5-9 "Active" to "Semi Stand-by" flowchart (LCD non DFI)
2009-May-08
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
Delay transition until ramping down of ambient light is finished. *)
*) If this is not performed and the set is switched to standby when the switch off of the ambilights is still ongoing , the lights will switch off abruptly when the supply is cut.
transfer Wake up reasons to the Stand by µP.
Switch Memories to self-refresh (this creates a more stable condition when switching off the power).
Switch AVC system in reset state 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
Stand by
Figure 5-10 "Semi Stand-by" to "Stand-by" flowchart
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5.
Q549.2E LA
Service Modes, Error Codes, and Fault Finding
action holder: MIPS action holder: St-by autonomous action
MP
Log the appropriate error and set stand-by flag in NVM
SP
Redefine wake up reasons for protection state and transfer to stand-by µP.
Switch off LCD lamp supply
If needed to speed up this transition, this block could be omitted . This is depending on the outcome of the safety investigations .
Wait 250ms (min. = 200ms)
Switch off LVDS signal
Switch off 12V LCD supply within a time frame of min. 0.5ms to max. 50ms after LVDS switch off.
Ask stand-by µP to enter protection state
Switch AVC in reset state
Wait 10ms
Switch the NVM reset line HIGH.
Disable all supply related protections and switch off the +1V8 and the +3V3 DC/DC converter.