Text preview for : TPS1.0E LA Ch_15PFL4122_19PFL4322_20PFL4122.pdf part of Philips 20PFL4122/10 MST96885LD-LF
Back to : PHILIPS chassis TPS1.0E L | Home
Colour Television
Chassis
TPS1.0E
LA
15PFL4122/93 19PFL4322/93 20PFL4122/93
H_17090_000.eps 050607
Contents
1 2 3 4 5 6
Page
Contents
Page
7
Technical Specifications, Connections, and Chassis Overview 2 Safety Instructions, Warnings, and Notes 6 Directions for Use 8 Mechanical Instructions 10 Service Modes, Error Codes, and Fault Finding 12 Block Diagrams, Test Point Overview, and Waveforms Wiring Diagram 18 Block Diagrams 21 Circuit Diagrams and PWB Layouts Diagram Scaler Board: Power (S-01) 25 Scaler Board: Lips & Inverter I/F (S-02) 26 Scaler Board: Tuner (S-03) 27 Scaler Board: Video Inputs (S-04) 28 Scaler Board: DSUB Input (S-05) 29 Scaler Board: HDMI Input (S-06) 30 Scaler Board: SCART I/F (S-07) 31 Scaler Board: MST96885LD/ALD (S-08) 32 Scaler Board: Flash ROM & SDRAM (S-09) 33 Scaler Board: Key, IR BD & ComPair I/F (S-10) 34 Scaler Board: ITV I/F (S-11) 35 Scaler Board: Panel I/F (S-12) 36 Scaler Board: Audio I/F (S-13) 37 Scaler Board: Audio Amplifier (S-14) 38 Waveform Diagram 49 Inverter Board (IN) 51 Power Panel (For 19PFL4322) (P) 53 Power Panel (For 19PFL4322) (P) 54 Power Panel (For 20PFL4122) (P) 55 Power Panel (For 20PFL4122) (P) 56 Power Panel (For 20PFL4122) (P) 56 Data Transfer Board (For 20PFL4122) 61 Keyboard Panel (K) 63
IR & LED Panel (I) 66 8 Alignments 69 9 Circuit Descriptions, Abbreviation List, and IC Data Sheets 75 Abbreviation List 79 IC Data Sheets 82 10 Recommended / Spare Parts List 86 Styling Sheet 86 Recommended Parts List 92 Spare Parts List 93 11 Different Parts List 112 12 Revision List 113
© Copyright 2007 Philips Consumer Electronics B.V. Eindhoven, The Netherlands. All rights reserved. No part of this publication may be reproduced, stored in a retrieval system or transmitted, in any form or by any means, electronic, mechanical, photocopying, or otherwise without the prior permission of Philips.
Published by CS 0766 BG CD Customer Service
Printed in the Netherlands
Subject to modification
EN 3122 785 17080
2
TPS 1.0E LA
1. Technical Specifications,Connections,and Chassis Overview
1.Technical Specifications,Connections,and Chassis Overview
Index of this chapter: 1.1 Technical Specifications 1.2 Connections 1.3 Chassis Overview Notes: Figures below can deviate slightly from the actual situation, due to the different set executions. Specifications are indicative (subject to change)
User video timing specifications: Mode Resolution H. freq. / V. freq 1 640 x 350 31.469Khz/70.090Hz 2 720 x 400 31.469Khz/70.085Hz 3 640 x 480 35.000Khz/66.667Hz 4 640 x 480 37.861Khz/72.809Hz 5 640 x 480 37.500Khz/75.000Hz 6 800 x 600 35.200Khz/56.000Hz 7 800 x 600 48.077Khz/72.188Hz 8 800 x 600 46.875Khz/75.000Hz 9 832 x 624 49.700Khz/75.000Hz 10 1024 x 768 56.476Khz/70.069Hz Standard VGA VGA Macintosh VESA VESA VESA VESA VESA Macintosh VESA
1.1
Technical Specifications
1.1.1 Technical Specifications
Panel Display area(mm) : LCD : 304.128(H) X 228.096(V) (15") 410.4 mm X 256.5 mm (19") 408 mm X 306 mm (20") : 1024(H) x 768(V) (15") 1440(H) x 900(V)(19") 640(H) x480(V) (20") : 0.29(H) x 0.29(V) (15") 0.285(H) x 0.285 mm(V) (19") 0.6375(H) x 0.6375(V) (20") : Normally black (15",20") Normally White (19") : 16.7M colors ( 8 bits) (15") 16.2M colors (19") 16.7M colors ( 8 bits) (20") : 250(Center 1 points, Typ.) (15") 300(Center 1 points, Typ.) Min : 230 (19") 450(Center 1 points, Typ.) (20") : Viewing angle free 70/70/70/60(R/L/U/D) (15") Viewing angle free (R/L 85/85 (Typ.) ,U/D 80/80(Typ.)) (19") Viewing angle free (R/L 178(Typ.) ,U/D 178(Typ.)) (20") : Hard coating 3H (15",19",20") : LVDS (15",19") TTL (20") : 8ms (Gray to Gray) (15") 5ms (Typ) (19") 12ms (Gray to Gray) (20") : Typical 700 : 1 (15") Typical 850 : 1 Min : 500 (19") Typical 800 : 1 (20") : 326.5 mm(H) x 253.5mm(V) x 14.4(D) mm (Typ.) (15") 427.2 mm(H) x 277.4 mm(V) x 17.0(D) mm (Typ.) (19") 432 mm(H) x 331.5mm(V) x 25.0(D) mm (Typ.) (20") : 1350(Typ.) (15") 2500g(Typ.) (19") 3500g(Typ.) (20") : 2 CCFL (15") 4 CCFL (19") 6 CCFL (20")
Number of Pixels
Pitch ( mm )
TV system signal mode: RF support: WE: PAL B/G/D/K/I and SECAM L/L' /B/G /D/K . CVBS/S-video: Support PAL, NTSC and SECAM colour system. Comp video IN(YpbPr) : including 480i/p 50/60Hz,720p 50/60Hz, 1080i 50//59/60Hz,1080p 50//59/60Hz HDMI IN : 480p, 576p, 720p 50/60Hz, 1080i 50/59/60Hz, 1080p 50/59/60Hz
For 19PFL4322/10 PC timing table Mode Resolution 1 640 x 480 2 800 x 600 3 800 x 600 4 1024 x 768 5 1280 x 720 6 1280 x 768 7 1360 x 768 8 1440 x 900
Display operating mode Color depth
Brightness (cd/m^2)
Viewing angle(CR>10)
H. freq. / V. freq 31.469Khz/59.940Hz 35.156Khz/56.250Hz 37.879Khz/60.317Hz 48.363Khz/60.004Hz 44.772kHz/59.855 Hz 47.776kHz/59.87Hz 47.712kHz/60.015Hz 55.469kHz/59.901Hz
Standard VGA VESA VESA VESA CVT CVT CVT CVT
Surface treatment Electrical interface Response Time
Contrast ratio
Outline Dimension
User video timing specifications: Mode Resolution H. freq. / V. freq 1 640 x 350 31.469Khz/70.087Hz 2 720 x 400 31.469Khz/70.087Hz 3 640 x 480 35.000Khz/66.667Hz 4 640 x 480 37.861Khz/72.809Hz 5 640 x 480 37.500Khz/75.000Hz 6 800 x 600 48.077Khz/72.188Hz 7 800 x 600 46.875Khz/75.000Hz 8 832 x 624 49.700Khz/75.000Hz 9 1024 x 768 56.476Khz/70.069Hz 10 1024 x 768 60.023Khz/75.029Hz
Standard VGA VGA Macintosh VESA VESA VESA VESA Macintosh VESA VESA
Module weight (g)
Backlight
TV system signal mode: RF support: WE: PAL B/G/D/K/I and SECAM L/L'/B/G /D/K . CVBS/S-video: Support PAL, NTSC and SECAM colour system. Comp video IN(YpbPr) : including 480i/p 50/60Hz,720p 50/60Hz, 1080i 50//59/60Hz, 1080p 50//59/60Hz HDMI IN : 480p, 576p, 720p 50/60Hz, 1080i 50/59/60Hz, 1080p 50/59/60Hz
For 20PFL4122/10 PC timing table Mode Resolution 1 640 x 480 2 720 x 400
Allowed signal mode specified For 15PFL4122/10 PC timing table Mode Resolution 1 640 x 480 2 800 x 600 3 800 x 600 4 1024 x 768 5 1027 x 768
H. freq. / V. freq 31.469Khz/59.940Hz 35.156Khz/56.250Hz 37.879Khz/60.317Hz 48.363Khz/60.004Hz 60.000Khz/75.000Hz
Standard VGA VESA VESA VESA VESA
H. freq. / V. freq 31.469Khz/59.940Hz 30.240Khz/66.667Hz
Standard VGA VGA
1. Technical Specifications, Connections and Chassis Overview
TV WE model
PRG 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 28 CH AU37 AU2 E7 G47 I23 E12 AU7 G68 AU9 AU10 AU0 AU2 AU5 AU5A AU7 AU9 AU10 I23 G28 AU37 I40 CH44 I60 I66 K21 G28 Frequency Carriers Video Sound 590.25MHz 595.75MHz 64.25MHz 69.75MHz 189.25MHz 194.75MHz 679.25MHz 684.75MHz 487.25MHz 493.75MHz 224.25MHz 229.75MHz 182.25MHz 187.75MHz 847.25MHz 852.75MHz 196.25MHz 201.75MHz 209.25 MHz 214.75 MHz 46.25MHz 51.75MHz 64.25MHz 69.75MHz 102.25 MHz 107.75 MHz 138.25MHz 143.75MHz 182.25MHz 187.75MHz 196.25MHz 201.75MHz 209.25MHz 214.75MHz 487.25MHz 493.75MHz 527.25MHz 532.75MHz 590.25MHz 595.75MHz 623.25MHz 629.75MHz 655.25MHz 661.75MHz 783.25MHz 789.75MHz 831.25MHz 837.75MHz 471.25 MHz 477.75 MHz 527.25MHz 532.75MHz TV System Pattern PAL B Pure White PAL B Circle Pattern PAL B Circle Pattern PAL G Circle Pattern PAL I Circle Pattern PAL B Color Bar PAL B Color Bar PAL G 100% White PAL B Checkerboard PAL B Crosshatch PAL B Color Bar PAL B Color Bar PAL B Crosshatch PAL B Color Bar PAL B Pure White PAL B Pure White PAL B Circle Pattern PAL I Circle Pattern PAL G Circle Pattern PAL G Circle Pattern PAL I Color Bar PAL DK Color Bar PAL I 100% White PAL I Checkerboard SEC K1 Crosshatch PAL G Color Bar
TPS 1.0E LA
3
Ambient conditions Temperature Humidity
: 0 to40°C : 10 to 90%
1.2 Connectors
1.2.1 I/O interface 1. Tuner: Multi-standard for WE model 2. 3. 4. 5. 6. 7. 8. Audio 1 IN : audio R/L(RCA jack) input AV1 IN : Composite video input (CVBS) S-video IN : S-video input Comp video IN :YPbPr format input AV2 IN: Composite video (CVBS) input Audio 2 IN : Comp and AV2 audio R/L(RCA jack) input Scart IN : YPbPr/CVBS with audio input and CVBS with audio line out 9. PC Audio IN: audio R/L(mini-jack).
10. PC IN: VGA input (D-SUB connectors) 11. HDMI : digital video and audio input 12. Earphone : earphone jack
Comp video input mode: 480i, 480p, 576i, 576p, 720p50, 720p59, 720p60, 1080i50, 1080i59, 1080i60, 1080p50, 1080p59, 1080p60
HDMI input mode 1 720x480p/59Hz, 60Hz,720x576p/50Hz, 2 1280X720p, 50Hz , 59Hz, 60Hz 3 1920X1080i, 50Hz, 59Hz, 60Hz 4 1920X1080p, 50Hz, 59Hz, 60Hz
1.2.2 PC mode signal type a.Analog Video : 15 pin D-sub ,0.7 Vp-p linear, positive polarity & separate sync.( TTL level, positive or negative polarity) : 3.5mm stereo mini-jack Level: Nominal : 0.5 V rms. - Maximum : 1.5 V rms. -Impedance > 10 kW. c.Signal source: Pattern generator format as attachment table 1 to 12. Reference generator : CHROMA 2200 or QuantumData 802R TV mode signal type RF Signal : Aerial input / 10mV(30-100dBuV) Video signal : CVBS input ( RCA jack) / 1Vpp (300mV-sync, 700mV-video.) S video input / 1VppY-signal, +/-300mV C-signal SCART input: CVBS only) Comp video in(YPbPr input)/ 1Vpp Y signal, +/-350mV Pb,Pr signal HDMI:Digital interface with 4 channels TMDS signal CVBS output ( SCART line out) / 1Vpp (300mV-sync, 700mV-video.) Audio signal : Audio (1) R/L for AV IN(AV and S-Video). Level: - Nominal : 0.5 V rms. - Maximum : 1.5 V rms. - Impedance > 10 kW. Audio (2) R/L for SCART IN Level: - Nominal : 0.5 V rms. - Maximum : 1.5 V rms. - Impedance > 10 k W. Audio (3) R/L for Comp video IN. Level: - Nominal : 0.5 V rms. -Maximum : 1.5 V rms. -Impedance > 10 k W. YPbPr signal ( for WE model b.Audio signal
1.1.2 Sound
Sound systems Maximum power : Mono / Stereo / Virtual Surround : 2 x 3W
1.1.3 Miscellaneous
Power Supply AC-input : 90V ~ 264VAC, 50/60 2Hz (15",19") : 90V ~ 264VAC, 50/60 3Hz (20") Power consumption : 35W/Max(at PC mode),35W/Max(at TV mode) with Audio. (15") 70W/Max(at PC mode),70W/Max(at TV mode) with Audio. (19") Normal: (20") 1. PC Mode: TYP 60 W (with audio) 2. TV Mode: TYP 60 W (with audio) Maximum: 65W (with audio) (20") Power cord length 1.8m Power cord type : European type and China type (15",19") 3 lead with earth plug, pluggable (20") Power indicator : LED (On: Blue ,Sleeping mode: Red ) (15") LED (On: Blue ,Sleeping mode: Amber ) (19") LED (On: Blue, Standby mode: Amber) (20") Auto power saving : < 2W (15",19") VESA DPMS (20")
4
TPS 1.0E LA
Audio
1. Technical Specifications,Connections,and Chassis Overview
1.2.5 Scart
(4) digital audio for HDMI Video IN.
Scart output: ( for WE model only) Video: CVBS output 1Vpp / Impedance : 75W. Audio: R/L output (from CVBS) Level: - Nominal : 0.5 V rms. - Maximum : 1.5 V rms. - Impedance < 1 k W. Headphone Audio: R/L output -10mW at 32W. 3.5mm stereo jack with switch Impedance is between 8 and 600 W.
1.2.3 VGA Pin assignment
Pin 1 2 3 4 5 6 7
TV SCART N/C Right audio input N/C Audio ground Blue ground Left audio input Blue output 0-2.5 volts (low) when: TV output 4.5-7.5 volts (High-to-6v) when: -inputting picture format setting is '16:9', 9-12 volts (high-to-12v) when: -inputing picture format setting is '4:3' Green ground N/C Green output N/C Red ground N/C Red output 0 volt (low) when:- pin 8 of the TV scart is low or when: - Composite video signal 1-3 volts (high) when: - video input setting is 'RGB', Composite video output ground Composite video input ground N/C Composite video input Ground
8
PIN No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 SIGNAL Red video input Green video input /SOG Blue video input GND GND cable detect Red video ground Green video ground Blue video ground DDC +3.3V (or 5V) Logic ground GND Serial data line (SDA) H. Sync / H+V V. Sync Data clock line (SCL)
9 10 11 12 13 14 15
16
1.2.4 HDMI Pin assignment
Type A Connector
No. 1 No. 19
17 18 19 20 21
No. 2
No. 18
Pin No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19
Description RX2+ GND RX2RX1+ GND RX1RX0+ GND RX0RXC+ GND RXCCEC NC DDC clock DDC data GND +5V POWER Hot Plug Detect
1. Technical Specifications, Connections and Chassis Overview
TPS 1.0E LA
5
1.3 Chassis Overview
Type: 15PFL4122/10 Key Board
K
IN
Inverter Board
Scaler Board
S
I
IR Board
Type: 19PFL4322/10
Key Board
K
P
Power Board
Scaler Board
S
I
IR Board
Type: 20PFL4122/10
Key Board
K
P
Power Board Scaler Board
S
I
IR Board
6
TPS 1.0E LA
2.Safety Instructions,Warnings,and Notes
· Where necessary,measure the waveforms and voltages with( ) and without( )aerial signal.Measure the voltages in the power supply section both in normal operation( ) and in stand-by( ). These values are indicated by means of the approprate symbols. · The semiconductors indicated in the circuit diagram and in the parts lists,are interchangeable per position with the semiconductors in the unit,irrespective of the type indication on these semiconductors. · Manufactured under license from Dolby Laboratories. "Dolby ", "Pro Logic" and the "double-D symbol",are trademarks of Dolby laboratories. 2.3.2 Schematic Notes · All resistor values are ohms,and the value multiplier is often used to indicate the decimal point location(e.g. 2K2 indicates 2.2 kohm). · Resistor values with no munltiplier may be indicated with either an "E" or an "R"(e.g.220E or 220R indicates 220 ohm). · All capacitor values are given in micro-farads(u=x10-6),nanofarads9n=x10 -9 ),or pico-farads(p=x10 -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 in the Spare Parts List. Therefore,always check this list when there is amy doubt.
2.Safety Instructions,Warnings,and Notes
Index of this chapter: 2.1 Safety instructions 2.2 Warnings 2.3 Notes 2.1 Safety Instructions Safety regulations require the following during a repair: · Connect set to the Mains/AC Power via an isolation transformer(>800VA) · Replace safety components,indicated by the symbol ! , only by components identical to the original ones.Any other component substitution(other than original type)may increase risk of fire or electrical shock hazard Safety regulations require that after a repair,the set must be returned in its original condition.pay in particular attention to the following points: · Route the wire trees correctly and fix them with the mounted cable clamps. · Check the insulation of the Mains/AC power lead for external damage. · Check the strain relief of the Main/AC power cord for proper function. · Check the electrical DC resistance between the pins of the Mains/AC Power plug and secondary side(only for sets that have a Mains/AC power isolated poer supply): 1. Unplug the Mains/AC Power cord and connect a wire between the two pins of the Mains/AC power plug.\ 2.Set the Mains/AC Power switch to the "ON " position (keep the Mains/AC Power cord unplugged!) 3.Measure the resistance value between the pins of the Mains/AC Power plug and the metal shielding of the tuner or the aerial connection on the set.The reading should be between 4.5 Mohm and 12 Mohm. 4.Switch "OFF" the set,and remove the wire between the two pins of the Mains/AC plug. · Check the cabinet for defects,to prevent touching of any inner parts by the customer. 2.2 Warnings
2.3.3 Lead-free Solder Philips CE is producing Lead-free sets (PBF) from 1.1.2005 onwards. Idntification:The bottom line of a type gives a 14-digit serial number.Digial 5 and 6 refer to the production year,digits 7 and 8 refer to production week( inexample below it is 2007 week14)
MODEL ID.20PFL4122/10
01
0714
· All ICs and many other semiconductors are susceptible to electrostatic discharges(ESD ).Careless handling during repair can redure life drastically.Make sure that,during repair, you are connected with same potential as the mass of the set by wristband ith resistance .Keep components and tools also at this same potential.Available EDS protection equipment: -Complete kitEDS3(small tablemat,wrisband,connection box ,extension cable and earth cable)4822 310 10671. -Wristband tester 4822 344 13999. · Be careful suring measurements in the high voltage section. · Never replace modues or other components while the unit is switched"ON". · When you align the set,use plastic rather than metal tools.This will prevent any shurt circuits and danger of a circuit becoming unstable. 2.3 Notes 2.3.1 General
0714
Figure 2-1 Serial number example Regardless of the special lead-free logo(which is not always indicated),one must treat all sets from this date onwards according to the rules as described below.
P Ab
Figure 2-2 Lead-free logo
· Measure the voltages and waveforms with regard to the chassis (=tuner)ground( ),or hot ground( ), depending on the tested area of curcuitry.The voltages and waveforms shown in the diagrams are indicative.Measure them in the Service Default Mode(see chapter 5)with a colour bar signal and stereo sound(L:3 khz, R:1 kHz unless statedotehrwise)and picture carrier at 475.25 Mhz for PAL,or 61.25 MHZ for NTSC(channel 3).
Due to lead-free technology some rules have to be respected by the workshop during a repair:
2. Safety Instructions,Warnings and Notes
Use only lead-free soldering tin Philips SAC305 with order code 06622 149 00106.If lead-free solder paste is required please contact the manufacturer of your soldering equipment.In general,use of solder paste within workshops should be avioded 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 stabilise the adjusted temerature 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 stablilised at the solder joint. Heating time of the solder-joint should not exceed~4sec. Aviod temperatures above 400 C,otherwise wear-out of tips will increase drastically and flux-fluid will be destroyed. To aviod wear-out of tips,switch"off" unused equipment or reduce heat. Mix of lead-free soldering tim/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. Use only original spare -parts listed in the Service-Manuals. Not listed standed material(commodities)has to be purchased at external companies. For sets produced before 1.1.2005,containing leaded soldering tin and components,all needed spare parts will be available till the end of the service period.For the repair of such sets nothing changes In case of doubt whether the board is lead-free or not(or with mixed technologies),you can use the following method: Always use the highest temperature to solder,when using SAC305(see also instructions below). De-solder thoroughly(clean solder joints to avoid mix of two alloys). 2.3.4 Alternative BOM identification In September 2005,Philips CE introduced a change in the way the serial number(or production number,see Figure 2-1)is composed.From this data on,the third digit in the serial number (example:AG2B0335000005) indicates the number of the
TPS 1.0E LA
7
Alternativ BOM(bill of Materials used for producing the sepcific model of TV set).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 O.E.M.s. By looking at the third digit of the serial number,the serivce technician can see if there is more than one type of B.O.M. Used in theproduction of the TV set he is working with.He can used in the Commercial type Version Number of the TV set (e.g.20PFL4122/93),after which a screen will appear that gives information about the number of alternative B.O.M.s used. If the third digit of serial nuber contains the number 1(example: AG1B0335000001),then there is only one B.O.M. Version of the TV set on the market.If tje third digit is a 2(example: AG2B033500001),then there are two different B.O.M.s. Information about this is important for ordering the correct spare parts! For the third digit,the number 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. 2.3.5 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 degective board.Otherwise,it cannot be returned to the O.E.M. Supplier for back charging! 2.3.6 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.
8
TPS 1.0E LA
3. Directions for Use
3. Directions for Use
You can download this information from the following websites: http://www.philips.com/support http://www.p4c.philips.com
PC MODE 3rd Layer Normal Warm Cool
1st Layer Picture
2nd Layer Color temp
Brightness Contrast Auto adjust Manual adjust
Yes Phase Clock Horizontal Vertical Personal Speech Music Movie Mulitimedia Treble Bass Balance On Off Full screen 4:3 English No Yes
Sound Smart sound
Settings
Virtual surround Features Picture format Install Language Factory reset
1st layer Picture
2nd layer Smart picture
TV / AV/ S-VIDEO / HD MODE 3rd layer 4th layer Personal Rich Nature Soft Multimedia
5th layer
Contrast Brightness Color Sharpness Tint Color temp
Picture format
Normal Warm Cool Super zoom 4:3 Movie expand 14:9 Movie expand 16:9 16:9 subtitle Widescreen
3. Directions for Use
Sound Smart sound Personal Speech Music Movie Mulitimedia Treble Bass Balance On Off Clock Start time Stop time Sleep timer On Off Lock program Change code Clear all TV HDMI Comp video Scart S-video AV 1 AV 2 PC
TPS 1.0E LA
9
Settings
Virtual surround Features Timer
NR Auto lock
Yes On Off
Source list
Install Language Auto store English Start ? Auto store Please wait Prog. found Frequency MHz Start ?
Manual store
Manual store Prog. no Finetune Store
Channel setting
Channel edit
Store ? Stored Channel Skipped From To Exchange Channel Name Sort ?
Active Skipped
Channel swap
Exchange ? Exchanged
Name edit Channel sort Factory reset No Yes
Sorting. . . . . . Sort complete
10
TPS 1.0E LA
4. Mechanical Instructions
Step 2. Remove the Back cover and SHIELD-MAIN as Fig.4~5. a. Remove the 4 screws, then remove the back cover as Fig.4. b. Remove the 5 screws , then remove SHIELD-MAIN as Fig.5.
4. Mechanical Instructions
Index of this chapter: 4.1 Assy/Panel Removal 4.2 Set Re-assembly
4.1 Assy/Panel Removal
Note:Please put your mechine on a soft material to avoid to scrape panel when you disassemble it. Front view
Fig.4
Fig.1 Back view
Fig.5
Step 3. Remove the Scaler, Power, IR and Key as Fig.6. a. Remove the 7 screws and disconnect the 6 cables to remove the scaler board . b. Remove the 7 screws and disconnect the 5 cables to remove the Power board. c. Remove the 2 screws and disconnect the 1 cable to remove the IR board. d. Remove the 2 screws and disconnect the 1 cable to remove the Key board.
Fig.2
Step 1. Remove the Base. Remove the 4 screws as Fig.3.
Fig.6
Step 4. Remove the Front bezel as Fig.7.
a. Remove the 27 screws to remove the Frame assy as Fig.7.
Fig.3
4. Mechanical Instructions
TPS 1.0E LA
11
Fig.10 Fig.7 Step 5. Remove the Frame assy as Fig.8~9.
a. Remove the 4 screws as Fig.8. b. Remove the Frame assy as Fig.9. c. Remove the Datatransfer board as Fig.10.
Fig.11
Insulation material Fig.8
4.2 Set Re-assembly
To re-assemble the whole set, execute all processes in reverse order. Notes: a. While re-assembling, make sure that all cables are placed and connected in their original position. b. Pay special attention not to damage the EMC foams at the SSB shielding. Check that EMC foams are put correctly on their places.
In warranty, it is not allowed to disassembly the LCD panel, even the backlight unit defect. Out of warranty, the replacment of backlight unit is a correct way
Fig.9
when the defect is cused by backlight (CCFL,Lamp).
12
TPS 1.0E LA
5. Service Modes, Error Codes and Fault Finding
5. Service Modes, Error Codes and Fault Finding
index of this chapter: 5.1 CSM 5.2 Factory Mode 5. 3 Repair Flow Chart
5.1 CSM
It can display CSM windows message when press 1-2 3-6 5-4 on the button (RC) remote control in normal operation mode. The following information is displayed on screen:
Set type: Model type would be displayed on this item. E.g. 15PFL4122/10, 19PFL4322/10 or 20PFL4122/10. Production code: S/N would be displayed on this item. SW main-processor: Firmware version would be displayed on this item. E.g. 1.77 is the version. SW other-processor: N/A Code 1: 5 last logged errors. Code 2: 5 first logged errors. Error code 0x01 0x02 0x03 0x04 0x05 Event Audio decoder error IIC bus error Tuner error NVRAM error Scaler chip error
Key (HDCP): HDCP key valid or invalid status would be displayed on this item. NVM-Name: Same as set type
Software naming, version 19PFL4322/10 TPS1.0E LA1A_,SWMainVersion, 15PFL4122/10 TPS1.0E LA1C_,SWMainVersion, 20PFL4122/10 TPS1.0E LA1C_,SWMainVersion,
1. Press "Menu" to enter the OSD menu as Fig 1.
5. Service Modes, Error Codes and Fault Finding
5.2 Factory Mode
TPS 1.0E LA
13
Press "Menu062596 " on remote control then Press "Up " or "Down " button to move cursor to bottom item and then press "OK " button to enter factory mode.
Factory indicate
For white balance alignment
For auto color adjustment
For design only, please don' adjust it. t
Use or to select the item that you want to change. Use and to change the value. When you finish to set , use or to select " Save " and press " OK " to save your setup. Then use or to select " exit " and press "Menu " to leave factory mode.
14
TPS 1.0E LA
5.3 Repair flow chart
5. Service Modes, Error Codes and Fault Finding
1.No work/LED is off
Check if power switch is normal Yes
No
Replace Power switch
Check IR board CN001 pin1=0V,pin2=3.7V, pin3=3V,pin4=2.85V ,pin5=5V,pin6 =3.3V Yes Check scaler board U102 pin1=14V,pin4=1.22V, pin7=16V,pin8=5V,
No
Check IR board
2.No raster/picture too dim
Check Inverter board CN852,pin1=16V, pin5=0.9V,pin6 =3V Yes
No
Check Scaler board
Check Inverter board U811 pin2=5V,Q821 pin=5,6=16V
No
Check U811,Q821
Yes Check scaler board
5. Service Modes, Error Codes and Fault Finding
TPS 1.0E LA
15
3.No picture/LED is green
Check scaler board U102 pin1=14V,pin4=1.22V, pin7=16V,pin8 =5V Yes
No
Check power
Check if working voltage U152,pin2=3.3V pin3=5V
No
Check circuit around each regulator and eliminate short and open situation
Yes
Check if clock source X350
No
Replace X350
Yes
Check if RGB,clk,H/V and DE signal output 128 bits TTL
No
Try to replace flash Rom EEPROM
Yes Check resistors-network
No
Replace bad resistorsnetwork
Yes Replace LVDS cable
16
TPS 1.0E LA
5. Service Modes, Error Codes and Fault Finding
4.No TV sound
Check if tuner TU201 pin11 output IF signal
No
Replace TU201
Yes Check U301
5.No earthphone sound
Check U760 pin15=3.3V
No
Eliminate short and open situation
Yes
Check U760 pin20=HPOUTL pin6=HPOUTR
No
Replace U760
Yes Replace Side AV Board
5. Service Modes, Error Codes and Fault Finding
TPS 1.0E LA
17
6.No remote function
Tty another remote control Yes Check IR receiver
No
Replace one good remote control
7.LED and function key poor
Check circuit around control board and cable between control board and scaler board
8.No HDMI picture
Enter CSM mode to check item 6 Valid Check Scaler Board
Invalid Change U701 writen HDCP KEY
CN0101
K
095T8014 9924 FP 095T8013 2980 FP
095T8014 4953 FP
6. Block Diagram
S Wiring Diagram IN
CN6202
2pin
CN7201
CN7302
9pin
4pin
CN6201
CN7301
2pin
CN7504
089G179E20D904
6pin
20pin
Panel
6pin I
095T8013 2981 FP
Block Diagram
Index of this chapter: 6.1 Wiring Diagram 6.2 Block Diagram
095T8014 6951 FP Type: 15PFL4122/10
CN0201
18
TPS 1.0E LA
6.
19
K
TPS 1.0E LA
095T8014 4948 FP 095T8013 2973 FP
095T8013 2974 FP
095T8014 6947 FP P S
6. Block Diagram
095T8014 11937 FP
089T179E30C917
Type: 19PFL4322/10
I
089T176E 50912 K
4pin
095T8014 11938 FP
095T8014 4949 FP
6. Block Diagram
P S 4pin 11pin 50pin 6pin 2pin 2pin
Panel
095T8013 2975 FP
TPS 1.0E LA
I Type: 20PFL4122/10
6pin
095T8014 6948 FP
095T8013 2976 FP
20
6.2 Block Daigram
PWR I-BD Speaker Headphone CVBS Audio S-Video
I-BD
Key BD
IR BD
INVERTER
PWR
Audio Amplifier TA333AW
4M X 16 SDRAM HY57V641620ETP
15" 20 P LVDS
20" TTL
23 " 30 P LVDS
19" 30 P LVDS
6. Block Diagram
MST 96885LD/ALD
150 mm
Y Pb Pr Audio R/L
15" 20" 19W" Model Scalar Board PCB Layout
16 V DC AUDIO IN
D-SUB
SCART
iTV Level 1
TUNER ComPair
HDMI
TPS 1.0E LA
230 mm
21
22
TPS 1.0E LA
6. Block Diagram
15 " 20 " 19W " Europe - System Block Diagram
S-05
CVBS0 MM Tuner SIF0 24C02 DSUB EDID
S-06
24C02 DVI EDID
S-02
HDMI TMDS / Video & Audio
S-08
24C32 NVRAM
S-06
24C16 HDCP
S-09
SPI Flash ROM
S-09
SPI SDRAM I2C
S-06
D-SUB R1,G1,B1
S-05
CVBS S-Video Component-1
S-04
CVBS1 Y0,C0 Y,Pb,Pr (R0,G0,B0) MST96885LD/ALD
S-12
TTL/LVDS LCD Panel
SCART
S-04
RGB/ CVBS UART1
S-10
Com Pair Cloning (ITV1) (5P) Video I/F (ITV-2) IR Board Key Board
S-07
Component Audio-1
S-13 S-13 S-13
AUL0, AUR0 AUL1, AUR1 Line-out AUL2, AUR2
CVBS Audio
S-11
IIS
PC Audio
(7P)
S-10
(3P)
S-07
SCART Audio Output
S-07
TL062
STA333AW AMP
S-10
11P LIPS control
S-02 S-14 S-14
HP/Bathroom Speaker (ITV-2) 2x(2P L-R Speaker
S-14
Analog RGB/YPbPr ADC Scaler 2D/3D DI
Analog RGB/YPbPr MStarACE HDMI Rx 3D NR 3 TTL/LVDS VD w/ 2D/3D Comb Teletext OSD Audio DRAM Interface Processor MCU CC/V-chip Tx LVDS TTL/ 10-bit
Analog RGB/YPbPr
LCD Panel
DVI/HDCP/HDMI
16-bit digital video
6. Block Diagram
CVBS x4 YC x2
L/Rx4 + mono
Function Diagram MST96885LD/ALD
SIF*2
GPIO/PWM
SPDIF out I2S out 2.1 Speaker out & L/R Line out SDRAM
16bits Flash
SPI
TPS 1.0E LA
23
24
TPS 1.0E LA
6. Block Diagram
Power Management
+1V8 U7103 AME8815) - U4101 (MST) : VDDC +16V U7102 (AIC1596) - For IR Board - U1101 (24C02 :DSUB) - U5101 (24C02 :DVID) - U4101 (MST) : AVVD_DVI, AVDDA, AVDD_MPLL, VDDP - U4202 (Flash ROM) - U4102,4 (NVRAM) - U4103,5 (HDCP) +3V3_STBY +3V3_STBY
LIPS
ITV_5V_SW +16V +5V_ITV U7105 (AIC1596) PWR_SW +16V +5V U7101 (AIC1596) U7104 (AME8815) or (AIC1084/5) +3V3 - For ITV use (Reserve) - U7401 (Sync Slicer)
- TU2101 (TUNER) - U6202 (Bath AMP)
- U4101 (MST) : AVDD_SIF, AVDD_AV, AVDD_MemPLL,, VDDM - U4201, 3 (SDRAM)
ITV_12V_SW +16V +12V - PANEL (+12V)
U106 (AIC1596)
+16V_AUDIO
- U6201 ( AUD AMP)
7.Circuit Diagrams and PWB Layouts
Scaler Board Schematic Diagram-DC-DC POWER
1 2 3 4 5 6 7 8 9 10 11
TPS 1.0E LA
25
S-01
+16V FB7101 CN7101
A
+5V_STBY U7105 2 +16V C7118 0.1uF C7102 0.1uF C7103 470uF 25V 1 5 3 IN OUT 2 TP73 T POINT R
A
F7101 1 7A 125V 2 C7101 0.1uF(NC) 1 BEAD
L7103
2
35uH Q7109 ZD7103 SSA34-E3 C7119 470uF 25V 0R 0.1uF(NC) +5V_STBY 47K C7132 220N 16V 22K R7101 R7102 R7112 C7120 4 3 2 1 G D D D S D D D 5 6 7 8 C7133 0.1uF C7134 10uF 50V
ON/OFF GND FB AIC1596-50PM5
4
EAR
EAR R7111 0R
SI5441DC +5V
PWR JACK 2.5MM R7113 0R(NC) T POINT R L7101 OUT 2 35uH ZD7101 SSA34-E3 C7105 470uF 25V 0R 0.1uF(NC) 1 R7121 0R D7103 R7105 0R(NC)
C
1 C7104 0.1uF 5 3
IN
+3V3_STBY 9 PWR_SW 2
3
B
U7101
R7125 2 1K Q7101 MUN2211J
3
TP71 T POINT R
+16V
TP72
47K R7124
Q7106 BC847C
ON/OFF GND FB AIC1596-33PM5
4
R7104 R7103 0R C7106
R7122 U7103 AME8815AEGT180Z 2 1 VIN VOUT 3 TP74 T POINT R +1V8 +5V 0R05 (NC) D7102 1 A K S1D 2 1 U7104 AME8815AEGT330Z VIN VOUT 3 TP75 T POINT R +3V3
+3V3_STBY
A K
GND
GND
S1D(NC) C7110 0.1uF C7113 10uF 50V
2
4
2
+16V U7106 1 C7125 0.1uF(NC) +16V +5V_STBY
D
L7104 2 35uH(NC) ZD7104 SSA34-E3(NC) C7126 470uF 25V(NC) 0R(NC) 0.1uF(NC) C7128 0.1uF R7118 0R(NC) C7130 10uF +5V_ITV +5V R7132 0R05 +5V_ITV R7133 0R05(NC) +5V_PANEL +5V_PANEL R7123 0R05 (NC) D7104 1 A K S1D 2 1 VIN VOUT 3 +3V3_PANEL U7107 AME8815AEGT330Z
IN
OUT
5 3
ON/OFF GND FB
4
AIC1596-50PM5(NC)
1
2
R7117 R7109 220K(NC) C7127
GND
TH
R7126 47K(NC) R7127 2 1K(NC) 9 ITV_5V_SW 2
2
100R(NC) Q7107 BC847C(NC) R7116 0R(NC)
3
+12V
R7135 0R05 R7134 0R05(NC) +12V_PANEL +12V_PANEL +5V_PANEL +3V3_PANEL
3
Q7102 MUN2211J(NC)
1
+12V_ITV
1
1
1
+16V U7102
E
FB7102 220R(NC) L7102 OUT 2 35uH(NC) ZD7102 SSA34-E3(NC) C7108 470uF 25V(NC) 22K R7136 R7119 22K R7120 4 3 2 1
FB7104 220R(NC)
1
220R FB7103
2
2
C7107 0.1uF(NC)
5 3
ON/OFF GND FB
4
2
AIC 1596-12PM5(NC) +16V +5V_STBY R7114 220K(NC) R7128 47K(NC) R7129 2
F
Q7103 G D D D S D D D 5 6 7 8
2
1
IN
+12V
TP76 T POINT R
4
R7110
C7129 0.1uF
C7131 10uF
4
C7111 0.1uF
C7114 100uF 10V
C7112 0.1uF
C7115 10uF 50V
C7116 0.1uF
C7117 100uF 10V
CN7101 A1 C7102 A3 C7104 B2 C7106 C3 C7108 E4 C7110 C5 C7112 C8 C7114 C6 C7116 C9 C7118 A5 C7120 B6 C7122 F6 C7124 F8 C7126 D4 C7128 D7 C7130 D7 C7132 B7 C7134 A8 D7103 C5 FB7101 A2 FB7103 E7 FB7106 F7 L7101 B3 L7103 A6 Q7101 B6 Q7103 E7 Q7105 F2 Q7107 D2 Q7109 A7 R7102 A7 R7104 B3 R7106 F3 R7108 F3 R7110 D2 R7112 A6 R7114 E2 R7116 D2 R7118 D3 R7120 F6 R7122 C7 R7124 B6 R7126 D1 R7128 F2 R7130 F1 R7132 D5 R7134 D5 R7136 E5 TP72 B4 TP74 C6 TP76 E6 U7101 B3 U7103 C6 U7105 A5 U7107 D7 ZD7102 E3 A6
C7101 A2 C7103 A3 C7105 B4 C7107 E2 C7109 E4 C7111 C6 C7113 C5 C7115 C8 C7117 C9 C7119 A6 C7121 E7 C7123 F7 C7125 D2 C7127 D3 C7129 D8 C7131 D8 C7133 A8 D7102 C7 D7104 D7 FB7102 E6 FB7104 E6 F7101 A2 L7102 E4 L7104 C3 Q7102 D1 Q7104 F5 Q7106 B7 Q7108 F2 R7101 A7 R7103 C2 R7105 C3 R7107 E4 R7109 D2 R7111 A5 R7113 B6 R7115 F2 R7117 D3 R7119 E6 R7121 C5 R7123 D7 R7125 B6 R7127 D2 R7129 F2 R7131 F1 R7133 D5 R7135 D5 TP71 B2 TP73 A7 TP75 C9 TP77 F7 U7102 E3 U7104 C8 U7106 C3 ZD7101 B3 ZD7103
3
4
1
B
2
1
TH
1
1
TH
C
D
E
C7121 0.1uF
1
R7107 C7109
0R(NC) 0.1uF(NC)
SI5441DC 1 C7122 100N
FB7106 220R 2
TP77 T POINT R PANEL_VCC C7123 10uF 50V C7124 0.1uF
F
R7115
3
100R(NC) Q7108 BC847C(NC) R7106 0R(NC)
R7108 0R(NC) 9 PANEL_PWR 2
3
100K Q7104 MUN2211J
3
1K(NC) Q7105 BC847C(NC)
3,9 ITV_12V_SW
R7130 33K(NC)
1
2 R7131 47K(NC)
G
1
1
G
H
H
1
2
3
4
5
6
7
8
9
10
11
26
TPS 1.0E LA
7. Circuit Diagrams and PWB Layouts
2 3 4 5 6 7 8
Scaler Board Schematic Daigram-LIPS & INVERTER I/F
1
S-02
+5V R7201 1K R7202 22K R7203 10R BRIGHT_ADJ
A
9
BL_ADJ
R7204
10R
2
Q7201 MUN2211J
1U C7201
0.1uF C7202
+5V R7205 1K R7206 2K2 R7207 10R INVERTER_ON_OFF
B
9
BL_EN
R7208
10R
2
Q7202 MUN2211J
C7203 1U(NC)
C7204 0.1uF
FB7201 1 120R 2 C7206 0.1uF +16V C7210 220UF 25V
C7205 0.1uF FB7202
For Inverter
C
1 CN7201
120R
2 0.1uF C7209
+16V_AUDIO
CN7202 1 2 3 4 5 6 7 8 63388 8P 2.0MM (NC)
C7208 0.1uF 1 2 3 4 5 6 7 8 9 10 11 FB7206 1 120R 2
CN7201 C1 CN7202 C1 C7201 A4 C7202 A4 C7203 B4 C7204 B4 C7205 C2 C7206 C3 C7208 C2 C7209 C3 C7210 C3 C7211 C2 C7212 C3 FB7201 B2 FB7202 C2 FB7203 D2 FB7204 D2 FB7205 D2 FB7206 C2 Q7201 A3 Q7202 B3 R7201 A3 R7202 A3 R7203 A4 R7204 A2 R7205 B3 R7206 B3 R7207 B4 R7208 B2 R7209 D3 R7210 D3 R7211 D3 R7212 D3 R7213 D3 TP78 D3 TP79 D2
A
3
1
3
B
1
C
+12V_ITV 0.1uF C7212 TP78 T POINT R R7209 R7210 R7211 R7213 10K
0.1uF C7211
1 2 FB7203 120R 1 2 FB7204 120R TP79 T POINT R 1 2 FB7205 120R R7212 0R(NC)
47R 47R 47R
BRIGHT_ADJ INVERTER_ON_OFF
63391 11P 2.0MM
D
For LIPS/PS
ITV_12V_SW 2,9
D
E
E
1
2
3
4
5
6
7
8
7.Circuit Diagrams and PWB Layouts
Scaler Board Schematic Diagram-TUNER
1 2 3 4 5 6 7
TPS 1.0E LA
27
8
S-03
TU2101 15 16 17 18 C2101 C5 C2102 B6 C2103 B4 C2104 B5 C2105 B6 C2106 B5 C2107 B6 C2108 C2 C2109 C6 C2110 C3 C2111 C3 C2112 B2 C2113 B2 C2114 B3 FB2102 C3 L2101 C3 R2102 B5 R2103 B3 R2104 B4 R2105 B1 R2106 B1 R2107 B2 R2108 B5 R2109 B4 R2110 B5 R2111 C4 R2112 C5 R2113 B5 TP20 B5 TP21 B5 TU2101 A1
A
TH1
A
TH2
2ND IF SOUND
TH3 TH4
AS_TU
AS_IF
SCL +5V
SDA
N.C.
N.C
NC
AF O/P
CVBS
+5V,IF
TP20
10
12
13
14
11
T POINT R TV_CVBS R2104 75R 1% R2113 0R R2102 C2104 330P(NC) 47R C2102 47N TUNER_CVBS 9
1
2
3
4
5
6
9
9,12,15 I2C_SCL
B
R2105 R2106
47R 47R
R2103 0R
C2103 330P(NC)
C2114 0.1uF TV_SIF TP21 T POINT R R2109 2K2 R2108 0R C2105 0.1uF
9,12,15 I2C_SDA
B
R2107 C2112 22P C2113 22P 0R(NC) 22P C2106 R2110 0R C2107 0.1uF
SIFP0
9
SIFM0
9
L2101 C2108 0.1uF MONO 22uH(NC) FB2102 1
C
R2111
10K(NC) R2112 10K(NC) C2101 100P(NC)
C2109
0.1uF(NC)
AUMONO
9
+5V 2 C2111 0.1uF
100R
C2110 1000uF 16V
C
D
D
E
E
1
2
3
4
5
6
7
8
28
TPS 1.0E LA
7. Circuit Diagrams and PWB Layouts
2 3 4 5 6 7 8
Scaler Board Schematic Daigram- VIDEO INPUTS
1
S-04
PR Y
A
TP26 T POINT R 1 FB2201 2 30R 1 FB2202 2 30R
TP27 T POINT R
TP28 T POINT R R2202 R2203 47R 47R 47R C2202 C2203 C2204 47N 47N 47N 1N PR+ Y+ PB+ SOY PR+ Y+ PB+ SOY 9 9 9 9
PB R2206 75R 1% RCA JACK 2*3 G/B/R+G/B/R R2207 C2206 75R 1% 10P(NC) R2208 C2207 75R 1% 10P(NC)
1 FB2203 C2208 10P(NC)
2 30R
R2204 R2205
CN2201
470R C2205
R2209 R2210 R2211
47R 47R 47R
C2209 C2210 C2211
47N 47N 47N
PRYPB-
PRYPB-
9 9 9
YPbPr_AU_INR
14
B
YPbPr_AU_INL 14TP25 T POINT R R2212 1 2 FB2204 30R R2213 75R 1% C2213 330P(NC) C2214 330P(NC)
47R
C2212
47N
AV1_CVBS
9
+3V3_ESD
D2202 PR 3
2 C2215 Y 0.1uF(NC) 1
D2203 3
2 C2216 PB 0.1uF(NC) 1
D2204 3
2 C2217 0.1uF(NC) 1
BAV99(NC) CN2202 RCA_S_JACK
BAV99(NC) D2201 BAS32L(NC)
BAV99(NC)
2
C
1 FB2205 R2201 75R 1% C2201 330P(NC)
TP22 T POINT R R2214 2 30R C2219 330P(NC)
47R
C2218
47N
SV_Y0
9
4
1 FB2206 R2216 75R 1% C2221 330P(NC)
TP23 T POINT R R2215 2 30R C2222 330P(NC) TP24 T POINT R R2220 2 30R C2225 330P(NC)
47R
C2220
47N
SV_C0
9
D
1 FB2207 R2219 75R 1% C2224 330P(NC)
47R
C2226
47N
AV2_CVBS
9
CN2201 A1 CN2202 C1 C2201 C2 C2202 A5 C2203 A5 C2204 A5 C2205 A5 C2206 A2 C2207 A3 C2208 A4 C2209 A5 C2210 A5 C2211 B5 C2212 B3 C2213 B2 C2214 B2 C2215 B4 C2216 B5 C2217 B6 C2218 C3 C2219 C3 C2220 C3 C2221 D2 C2222 D3 C2224 D2 C2225 D3 C2226 D3 D2201 C5 D2202 B4 D2203 B5 D2204 B6 FB2201 A3 FB2202 A3 FB2203 A4 FB2204 B2 FB2205 C2 FB2206 C2 FB2207 D2 R2201 C2 R2202 A4 R2203 A4 R2204 A4 R2205 A4 R2206 A2 R2207 A3 R2208 A3 R2209 A4 R2210 A4 R2211 B4 R2212 B2 R2213 B1 R2214 C3 R2215 C3 R2216 D2 R2219 D2 R2220 D3 TP22 C3 TP23 C3 TP24 D3 TP25 B2 TP26 A3 TP27 A4 TP28 A4
A
2
5 6 4
3 1
9 7
8
B
1
A K
1
8
2
C
7
6
3
5
D
E
E
1
2
3
4
5
6
7
8
7.Circuit Diagrams and PWB Layouts
Scaler Board Schematic Diagram-DSUB INPUT
1 2 3 4 5 6 7
TPS 1.0E LA
29
8
S-05
+5V_STBY D1101 BAT54C
A
VGA5V +3V3_STBY
1
2
R1131 10K +3V3_ESD
VGA_5V C1102 0.1uF U1101 1 2 3 4 +3V3_STBY NC/NC/NC/E0/E0 NC/NC/E1/E1/E1 NC/E2/E2/E2/E2 VSS M24C02-WMN6TP VCC WC SCL SDA 8 7 6 5 C1106 22P
B
R1102 4K7
R1101 4K7
R1103 10K R DDC_PC_WP 7
D1102 3
2 C1103 G 0.1uF(NC) 1
D1103 3
2 C1104 B 0.1uF(NC) 1
D1104 3
2 C1105 0.1uF(NC) 1
BAV99(NC) 22P C1107 R1104 100R R1105 100R 22K R1106
BAV99(NC)
BAV99(NC)
3
2
R1107 10K(NC) 1
RS232_SW
9 R1108 47R(NC) VGA_5V DDCSDA
Q1101 BC847C(NC)
1Z VCC
CN1102 1 2 63132 2P(NC)
R1109 10K(NC)
U1102 11 10 9 6
C1108 0.1uF 12 13 2 1 5 3 R1111 R1112 0R05(NC) 0R05(NC)
R1110 0R05
0R05 R1129 TP10 TP11 TP12 30R
S1 S2 S3 E
C
1Y0 1Y1 2Y0 2Y1 3Y0 3Y1
17
TXD RXD
9,11 9,11
DDC_SDA DDC_SCL 11 12
CN1101 1 6 2 7 3 8 4 9 5 10 R G B VGA5V 1 2 FB1104 120R R1118 75R 1% RC1101 0.1uF GBR1119 75R 1% FB1101 1
GND VEE
2Z 3Z
R1115 0R05 74LV4053PW(NC) R1121 47R(NC)
R1130 0R05 DDCSCL
HS VS
13 14 15
T POINT R T POINT R T POINT R R1113 2 FB1102 30R R1114 1 2 FB1103 30R R1116 1 2 R1117 R1120 75R 1% R1122 R1123 R1124
47R 47R 47R 47R
C1109 C1110 C1111 C1112
47N 47N 47N 47N
RIN+ GIN+ BIN+ SOG
9 9 9 9
BZX84-C5V6
BZX84-C5V6
BZX84-C5V6
16
3
3
47R 47R 47R
C1113 C1114 C1115
47N 47N 47N
ZD1101
ZD1102
ZD1103
RINGINBIN-
9 9 9
D-SUB 15PIN F TP14 T POINT R
100R
D
TP13 T POINT R
R1125 R1126
HS_RGB VS_RGB 100R
9 9
R1127 2K2
R1128 2K2
C1116 47P 50V
C1117 47P 50V
E
CN1101 C4 CN1102 C1 C1101 D5 C1102 A3 C1103 B6 C1104 B6 C1105 B7 C1106 B3 C1107 B3 C1108 C2 C1109 C7 C1110 C7 C1111 C7 C1112 C7 C1113 C7 C1114 D7 C1115 D7 C1116 D4 C1117 D4 D1101 A3 D1102 A5 D1103 A6 D1104 A7 FB1101 C6 FB1102 C6 FB1103 C6 FB1104 C5 Q1101 B1 R1101 A4 R1102 A3 R1103 A4 R1104 B3 R1105 B4 R1106 B4 R1107 B1 R1108 B2 R1109 C1 R1110 C2 R1111 C2 R1112 C2 R1113 C7 R1114 C7 R1115 C2 R1116 C7 R1117 C7 R1118 C6 R1119 C6 R1120 C6 R1121 C2 R1122 C7 R1123 D7 R1124 D7 R1125 D4 R1126 D4 R1127 D3 R1128 D4 R1129 C3 R1130 C3 R1131 A6 TP10 C6 TP11 C6 TP12 C7 TP13 D4 TP14 D4 U1101 A2 U1102 C1 ZD1101 D3 ZD1102 D4 ZD1103 C5 ZD1104 D3 ZD1105 D3
A
3
B
14 16
C
15 4
8 7
1
1
1
3
D
3
BZX84-C5V6
3 ZD1105 1
1
BZX84-C5V6
ZD1104
E
1
2
3
4
5
6
7
8
30
TPS 1.0E LA
7. Circuit Diagrams and PWB Layouts
2 3 4 5 6 7 8
Scaler Board Schematic Daigram- HDMI INPUT
1
S-06
+5V_STBY CN5101 20 22
A
HD5V D5102 BAT54C CN5101 A1 C5101 B3 C5102 A5 C5103 B4 C5104 B4 C5105 D1 D5101 D4 D5102 A5 FB5101 B3 Q5101 C3 Q5102 D4 R5101 C3 R5102 A2 R5103 A2 R5104 A2 R5105 A2 R5106 A2 R5107 A2 R5108 A2 R5109 A4 R5110 A4 R5111 A4 R5112 A2 R5113 B3 R5114 B3 R5115 B2 R5116 B4 R5117 B3 R5118 B4 R5119 B4 R5120 C4 R5121 C4 R5122 C4 R5123 A5 U5101A C1 U5101B C4 U5102 A5 ZD5101 B3
TH1 TH3 D2+ D2 Shield D2D1+ D1 Shield D1D0+ D0 Shield D0CK+ CK Shield CKCE Remote NC DDC CLK DDC DATA GND +5V HP DET
23 21
B
TH4 TH2
BZX84-C5V6
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19
RX2+ RX2RX1+ RX1RX0+ RX0RXC+ RXC-
R5102 R5103 R5104 R5105 R5106 R5107 R5108 R5112
10R 10R 10R 10R 10R 10R 10R 10R
R_TX2+ R_TX2G_TX1+ G_TX1B_TX0+ B_TX0TXCLK+ TXCLK-
9 9 9 9 9 9 9 9 DDC_HDMI_WP R5109 4K7 R5110 4K7
1
2 R5123 100R(NC)
HD_5V R5111 10K 8 7 6 5 C5103 22P(NC) C5101 0.1uF C5104 R5116 22P(NC) 22K 0.1uF C5102 U5102 VCC WC SCL SDA NC/NC/NC/E0/E0 NC/NC/E1/E1/E1 NC/E2/E2/E2/E2 VSS M24C02-WMN6TP 1 2 3 4
DDC_CLK_IN DDC_DAT_IN HPD_IN R5115
R5113 R5114 1K
100R 100R 1 2 FB5101 120R HD5V
5300-519-141-E1
ZD5101
3
3
A
B
1
HD_5V
R5117 47K HD_5V U5101A TMDS_D2+_4 TMDS_D2+_35 TMDS_D2-_6 5V TMDS_D2-_33 TMDS_D1+_7 TMDS_D1+_32 TMDS_D1-_9 TMDS_D1-_30 TMDS_D0+_10 TMDS_D0+_29 TMDS_D0-_12 TMDS_D0-_27 TMDS_CK+_13 TMDS_CK+_26 TMDS_CK-_15 TMDS_CK-_24 3.3V TMDS_GND TMDS_GND TMDS_GND NC TMDS_GND TMDS_GND TMDS_GND TMDS_GND TMDS_GND GND TMDS_BYP GND 4 35 6 33 7 32 9 30 10 29 12 27 13 26 15 24 5 34 8 31 11 28 14 25 3 36 RX2+ RX2RX1+ R5101 RX0+ RX0RXC+ RXC9 HPDCTRL 4K7 2
47K R5118
R5119 47K U5101B 16 17 18 19 CEC_IN SCL_IN SDA_IN HPDET_IN CEC_OUT SCL_OUT SDA_OUT HPDET_OUT 23 22 21 20 DDC_CLK_IN DDC_DAT_IN HPD_IN
1
C
3
RX1-
CM2021-00TR Q5101 BC847C R5120 R5121 100R 100R SCL_HD SDA_HD 9 9
C
1
+3V3_STBY
2
DDC_HDMI_WP
R5122 47K
2
D5101 BAT54C
3
3
2
1 Q5102 BC847C
38
DDC_WP
9
D
D
C5105 0.1uF CM2021-00TR
6 DDC_PC_WP
E
1
37
E
1
2
3
4
5
6
7
8
7.Circuit Diagrams and PWB Layouts
Scaler Board Schematic Diagram-SCART I/F
1 2 3 4 5 6 7 8 9 10 11
TPS 1.0E LA
31
S-07
A
R2302 C2302 C2303 47P R2304 75R 1%
0R05 10uF(NC)
SC_Vout SC_Vout CN2301 A1 CN2302 E9 C2301 C4 C2302 A2 C2303 A2 C2304 A2 C2305 A6 C2306 B6 C2307 B7 C2308 B7 C2309 B6 C2310 B6 C2311 B6 C2312 B7 C2313 B6 C2314 B6 C2315 C2 C2316 C5 C2317 C4 C2318 C4 C2319 C2 C2320 C5 C2321 C4 C2322 D2 C2323 D3 C2324 D6 C2325 D6 C2326 E2 C2327 E1 C2328 E4 C2329 E4 C2330 E5 C2331 F3 C2332 F2 C2333 F1 C2334 F4 C2335 F4 C2336 F5 C2337 D4 C2338 B3 D2301 C7 D2302 C8 D2303 C8 D2304 C9 FB2301 A4 FB2302 A7 FB2303 A4 FB2304 B4 FB2305 B4 FB2306 B3 FB2307 B3 FB2308 D6 FB2310 E5 FB2311 F5 Q2301 A9 Q2302 B8 R2301 C4 R2302 A2 R2303 A9 R2304 A2 R2305 A9 R2306 A8 R2307 A5 R2308 B5 R2309 B8 R2310 B5 R2311 B5 R2312 B9 R2313 B3 R2314 B4 R2315 B4 R2316 B4 R2317 B7 R2318 B5 R2319 B5 R2320 B8 R2321 B5 R2322 C2 R2323 C2 R2324 C4 R2325 C4 R2326 C2 R2327 C4 R2328 D2 R2329 D4 R2330 D3 R2331 D3 R2333 E3 R2334 E2 R2335 E3 R2336 E4 R2337 E5 R2338 E3 R2339 E3 R2341 F3 R2342 F2 R2343 F3 R2344 F4 R2345 F5 R2348 B3 U2301A D4 U2301B F4
SC_FBL C2304 0.1uF
9
1 FB2302 SC_CVBS_INPUT FB2301 30R 1 2 FB2303 30R 1 2 FB2304 30R 1 2 FB2305 1 9 R2313 75R 1% R2314 75R 1% R2315 75R 1% R2316 75R 1% R2318 47R 47R 47R C2311 C2313 C2314 47N 47N 47N R2307 R2308 R2310 30R 2 R2311 47R 47R 47R 47R C2305 C2306 C2309 C2310 47N 47N 47N 47N +5V SC_CVBS SCR+ SCG+ SCB+ 9 9 9 9 2 1 600R 2 C2307 0.1uF C2308 10U 10V R2306 1K R2309 470R
BC858CG Q2301
R2303 75R
A
22
B
SCART CN2301
21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
3
2
SC_AV-OUT SC_R+ SC_FBL SC_G+ SC_B+ SCART_P50 1N C2338 FS 1 FB2306 SC_INR R2322 10K C2315 0.1uF R2323 3K3 SC_FS 9 1 FB2307 2 30R 2 30R R2348 1K2
R2305 75R
3
Q2302 BC847C
9,12 CVBSOut SCRSCGSCB9 9 9
R2317 C2312
0R 10uF(NC) R2320 1K
1
75R R2312
B
R2319 R2321
23
R2324
C
10K R2325 12K C2318 560P
C2316
2.2uF
AUL1
9
+3V3_ESD
AUDIO_OUT_L C2319 1N 1K R2326
22P C2317 R2327 22P C2301 10K
C
D2301 C2320 12K R2301 560P C2321 2.2uF AUR1 9 SC_CVBS_INPUT 3
2
D2302 SC_R+ 3
2
D2303 SC_G+ 3
2 SC_B+ 1
D2304 3
2
1 BAV99(NC) BAV99(NC)
1 BAV99(NC)
1 BAV99(NC)
AUDIO_OUT_R C2322 1N R2328 1K +16V_OPAMP
D
100R R2329 R2330 C2323 1uF 47K R2331 3 R2333 9 AUOutR C2326 2.2uF 4K7 C2327 10N 22K R2334 R2335 C2329 39K 100P R2336 33K(NC) C2328 2.2uF 1 FB2310 1 2 47K U2301A TL062CD C2337 0.1uF
D
+16V_AUDIO
1 FB2308
2 120R C2324 0.1uF C2325 100uF 25V
+16V_OPAMP
4
8
2 120R R2337 22K
AUDIO_OUT_R 1N C2330
E
For BS Model
CN2302 SC_R+ SC_G+ SC_B+ SC_FBL 1 2 3 4 5 63385 5P 2.0mm (NC)
E
R2338 C2331 1uF R2339 47K
47K U2301B TL062CD 7 6
5 R2341 9
F
AUOutL
C2332
2.2uF 4K7
4
8
F
C2333 10N
R2342 22K
R2343 C2335
39K 100P
C2334 R2344 33K(NC)
2.2uF 1 FB2311
2 120R 22K R2345
AUDIO_OUT_L 1N C2336
G
G
H
H
1
2
3
4
5
6
7
8
9
10
11
32
TPS 1.0E LA
7. Circuit Diagrams and PWB Layouts
2 3 4 5 6 7 8 9 10 11
Scaler Board Schematic Daigram- SCALER MST96885LD/ALD
1
S-08
A
TP44 TP45 T POINT R T POINT R
A
+3.3AVDD for AVDD_DVI
600R +3V3_STBY 1 FB4102 C4104 10U 10V 0.1uF C4105 C4106 0.1uF SYS_RST R4102 C4107 22P FB4103 +3V3_STBY
B
AUOutR1 AUOutL1 TP40 T POINT R AVDD_DVI VDDP C4102 10uF 50V(NC) 100R AVDD_AU AVDD_MemPLL R4104 24K(NC) AVDD_SIF VDDM AVDD_DVI X4101 14.318MHZ 1M R4105 AVDDA VDDP AVDD_MPLL VDDC AUOutR2 AUOutL2 AUMONO
R2332 R2340
100R 100R
AUOutR AUOutL
8 8 AUOutR AUOutL 8 8 CN4101 B8 C4102 A3 C4104 A2 C4106 A2 C4108 B4 C4110 B7 C4112 B7 C4114 C2 C4116 B2 C4118 C2 C4120 C2 C4122 C2 C4124 C2 C4126 C3 C4128 C3 C4130 D2 C4132 D2 C4134 D2 C4136 D3 C4138 E2 C4140 E8 C4142 E2 C4144 F2 C4147 F2 C4149 F2 C4151 F2 D4101 B3 FB4102 A2 FB4104 B2 FB4106 C1 FB4108 E1 FB4110 E4 R2332 A6 R2346 A6 R4101 G4 R4103 B7 R4105 B4 R4107 C3 R4111 B8 R4115 B8 R4119 D3 R4123 B6 R4125 E4 R4127 E4 R4129 E3 R4131 B7 R4133 E3 R4135 E3 R4137 E8 R4139 E9 R4141 F6 R4143 F4 R4145 F6 R4151 F6 R4153 F4 R4155 F6 R4157 G4 R4159 G5 R4161 G4 R4163 G6 R4165 G4 R4167 G6 R4169 G6 R4171 G5 R4173 G5 R4175 G6 R4177 G4 R4179 G4 R4181 F6 R4183 G4 R4185 C8 R4187 D8 R4189 F6 R4191 G4 TP40 A2 TP42 C2 TP44 A5 TP46 C8 TP48 E9 TP4105 E4 TP4107 C6 TP4109 C6 TP4111 C6 U4102 E8 U4106 C8 C4101 C3 C4103 B7 C4105 A2 C4107 B4 C4109 B7 C4111 B7 C4113 C2 C4115 B2 C4117 C3 C4119 C2 C4121 C2 C4123 C2 C4125 C3 C4127 C3 C4129 D2 C4131 D2 C4133 D2 C4135 D3 C4137 D3 C4139 E2 C4141 E2 C4143 F2 C4146 F2 C4148 F2 C4150 F2 C4152 C8 FB4101 F1 FB4103 B2 FB4105 C1 FB4107 E1 FB4109 F1 FB4111 E4 R2340 A6 R2347 A6 R4102 B4 R4104 B3 R4106 B7 R4109 B8 R4114 B8 R4118 D3 R4120 D3 R4124 B6 R4126 E4 R4128 E4 R4130 E3 R4132 B7 R4134 E3 R4136 E3 R4138 E8 R4140 F6 R4142 F6 R4144 F4 R4146 F4 R4152 F6 R4154 G4 R4156 F6 R4158 G4 R4160 G5 R4162 G5 R4164 G6 R4166 F6 R4168 F5 R4170 G4 R4172 G5 R4174 G6 R4176 F4 R4178 B6 R4180 B7 R4182 G4 R4184 G4 R4186 C8 R4188 F6 R4190 F6 R4192 E7 TP41 C3 TP43 F2 TP45 A6 TP47 E8 TP4104 C6 TP4106 E4 TP4108 C6 TP4110 C6 U4101 B4 U4104 E8 X4101 B4
2
Pin6, Pin12
+3.3AVDD for AVDDA
Pin36
AVDDA C4115 10U 10V C4116 0.1uF
A K
D4101 BAS32L(NC)
AUR3 AUL3 AUR2 AUL2 AUCOM AUR1 AUL1 AUR0 AUL0 AUVREF AUVRADP AUVRADN
2
R2346 100R(NC) R2347 100R(NC) AUMONO 4 AUR3 14 AUL3 14 AUR2 14 AUL2 14 C4103 AUR1 AUL1 AUR0 AUL0 8 8 14 14
ISP & Debug PORT
+3V3_STBY +5V_STBY R4109 0R 0R R4111 0R(NC)
0.1uF
R4103
1
2
1
600R
2
C4108 22P
1
255 254
253
6 12 36 63 70 106 112 117 132 144 97 162 180 196 209 223 237 252 256 194 99 146 182 195 242 133
87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 69 68 67 65 64 62 61
SIFP0 SIFM0
SIFP0 SIFM0
4 4
C4109 10uF 50V
C4110 0.1uF
C4111 1uF
+VCC_RS232 C4112 4.7uF R4106 +VCC_RS232 0R 1 2 3 4 CN4101
B
AVDD_DVI AVDD_DVI AVDD AVDD_SIF AVDD_AU VDDM VDDM VDDM VDDM VDDM VDDP VDDP VDDP VDDP VDDP VDDP VDDP VDDP AVDD_MPLL AVDD_MPLL VDDC VDDC VDDC VDDC VDDC AVDD_MemPLL
AUOS AUOR AUOL NC/AUOR2 NC/AUOL2 AUOR3 AUOL3 AUMONO AUR3 AUL3 AUR2 AUL2 AUCOM AUR1 AUL1 AUR0 AUL0 AUVREF AUVRADP AUVRADN SIF1M SIF1P SIF0P SIF0M
XIN XOUT
HWRESET
+3.3V for AVDD_MPLL
FB4104 +3V3_STBY 1 600R 2
Pin194, Pin256
AVDD_MPLL C4113 10U 10V C4114 0.1uF C4118 0.1uF AVDD_DVI R4107 C4117 C4101 390R 1% 0.1uF 0.1uF
7 7 7 7 7 7 7 7 7 7
TXCLKTXCLK+ B_TX0B_TX0+ G_TX1G_TX1+ R_TX2R_TX2+ SDA_HD SCL_HD
FB4105
C
+3V3_STBY
1 120R/3000mA
2 C4119 10U 10V
Pin97, Pin 162, Pin180, Pin196, Pin209, Pin223, Pin237, Pin252
0.1uF C4120 C4121 0.1uF C4122 0.1uF C4123 0.1uF C4124 0.1uF
TP41 T POINT R VDDP C4125 0.1uF C4126 0.1uF C4127 0.1uF
6 6 6 6 6 6 6 6 6 8 8 8 8 8 8 8 8 5 5 5 5 5 5 5
HS_RGB VS_RGB BIN+ BINSOG GIN+ GINRIN+ RINSCBSCB+ SCGSCG+ SCRSCR+ SC_FS SC_FBL PB+ PBSOY Y+ YPR+ PR-
1 2 4 5 7 8 10 11 13 14 15 18 19 20 21 16 17 22 23 24 25 26 27 28 29 30 31 32 33 34 35 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59
DVI_CKN DVI_CKP DVIRX0N DVIRX0P DVIRX1N DVIRX1P DVIRX2N DVIRX2P REXT DDCD_SDA DDCD_SCL RMID VCLP REFP REFM HSYNC1 VSYNC1 BIN1P BIN1M SOGIN1 GIN1P GIN1M RIN1P RIN1M BIN0M BIN0P GIN0M GIN0P SOGIN0 RIN0M RIN0P HSYNC0 VSYNC0 VSYNC2 BIN2P BIN2M SOGIN2 GIN2P GIN2M RIN2P RIN2M C1 Y1 C0 Y0 VCOM2 CVBS3 CVBS2 CVBS1 VCOM1 CVBS0 VCOM0 CVBSO
R4131 251 250 249 248 247 246 245 244 241 240 239 238 236 235 234 233 232 231 230 229 R4123 R4124 R4178 47R 47R 47R R4132 R4180 TP4104 T POINT R
10K 10K 10K
+3V3_STBY +3V3_STBY +3V3_STBY HP_DET 15 PANEL_PWR 2 BL_EN 3
DI15 DI14/AISD3 DI13/AISD2 DI12/AISD1 DI11/AISD DI10/AISCK DI09/AIWS DI08/SPDIF_IN DIO7 DI06 DI05/AUSD0 DI04/AUSCK DI03/AUWS DI02/AUMUTE DI01/AUMCKO DI00/SPDIFO IVSYNC/UATX1 IHSYNC/UARX1 IDE/UATX0 ICLK/UARX0
RXD TXD
R4114 R4115
10R 10R
63384 4P 2.0MM
GPIOE[0]/LVSYNC GPIOE[1]/LHSYNC GPIOE[2]/LDE GPIOE[3]/LCK LB0M LB0P LB1M LB1P LB2M LB2P LBCKM LBCKP LB3M LB3P GA5 GA4 LA0M LA0P LA1M LA1P LA2M LA2P LACKM LACKP LA3M LA3P RA1 RA0 MD0 MD1 MD2 MD3 MD4 MD5 MD6 MD7 MD8 MD9 MD10 MD11 MD12 MD13 MD14 MD15 MCLK MCLKZ MCLKE MVREF DQM DQS0 DQS1 RASZ CASZ WEZ BADR1 BADR0 MA11 MA10 MA9 MA8 MA7 MA6 MA5 MA4 MA3 MA2 MA1 MA0
TP4111 TP4110 TP4109 T POINT R TP4108 T POINT R TP4107 T POINT R T POINT R 228 T POINT R 227 226 225 222 221 220 219 218 217 216 215 214 213 212 211 208 207 206 205 204 203 202 201 200 199 198 197 121 120 119 118 116 115 114 113 110 109 108 107 105 104 102 101 127 126 125 124 123 122 100 130 134 135 128 129 150 149 148 147 143 142 141 140 139 138 137 136 MDATA0 MDATA1 MDATA2 MDATA3 MDATA4 MDATA5 MDATA6 MDATA7 MDATA8 MDATA9 MDATA10 MDATA11 MDATA12 MDATA13 MDATA14 MDATA15
POWER ON RESET
VDDP LVSYNC LHSYNC LDE LCK RXO0RXO0+ RXO1RXO1+ RXO2RXO2+ RXOCRXOC+ RXO3RXO3+ GA5 GA4 RXE0RXE0+ RXE1RXE1+ RXE2RXE2+ RXECRXEC+ RXE3RXE3+ RA1 RA0 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 VDDP
C
C4128 FB4106 +1V8 1 120R/3000mA C4129 10U 10V C4130 0.1uF C4131 0.1uF C4132 0.1uF C4133 0.1uF C4134 0.1uF TP42 T POINT R 2
TP46 T POINT R R4186 SYS_RST 100R
R4185 4K7 1 2
U4106 GND VCC RESET AP1702EWL 3 C4152 0.1uF
Pin99, Pin146, Pin182, Pin195, Pin242
8 VDDC
SC_CVBS 1N 50V
SOG1
U4101
MST96885LD/ALD
100K R4187
D
D
R4118
47R
C4135
47N
5 5 5 8 5
SV_C0 SV_Y0 AV2_CVBS SC_CVBS AV1_CVBS
NVRAM
I2C address at A0
R4119 R4120
47R 47R
C4136 C4137
47N 47N
4 TUNER_CVBS 8,12 CVBSOut
+3V3_STBY
+3.3V for AVDD_SIF
FB4107 +3V3 1 600R 2
FB4110 600R 11 PC_TV_LED 11 LED_SEL_OUT 2 151 AD0 2 152 AD1 FB4111 TP4105 153 AD2 600R TP4106 154 AD3 R4125 47R 155 T POINT R AD4 R4126 47R 156 T POINT R AD5 R4127 47R 157 AD6 R4128 47R 158 AD7 1 1
C4140 0.1uF U4102 1 2 3 4 MDATA[0..15] R4192 100R E0 E1 E2 VSS VCC WC SCL SDA 8 7 6 5
R4137 4K7
R4138 4K7
R4139 4K7 NVRAM_WP I2C_SCL I2C_SDA
Pin63
AVDD_SIF C4138 10U 10V C4139 0.1uF
7 HPDCTRL 2 ITV_5V_SW 2,3 ITV_12V_SW 2 PWR_SW
M24C32WBN6P PDIP8(NC) MDATA[0..15] 10 MCLK CKE DQM RASZ CASZ WEZ BA1 BA0 MADR[0..11] 10 10 10 10 10 10 10 10 1 2 3 4 U4104 A0 A1 A2 GND VCC WP SCL SDA 8 7 6 5 TP47 TP48 T POINT R POINT R T
E
10K 10K 4K7 10K
10K 10K
E
CKE DQM RASZ CASZ WEZ BA1 BA0 MADR11 MADR10 MADR9 MADR8 MADR7 MADR6 MADR5 MADR4 MADR3 MADR2 MADR1 MADR0 +3V3_STBY R4140 10K DDC_WP +3V3_STBY R4142 10K 10K +3V3_STBY R4155 10K +5V_STBY R4166 10K SCART_P50 8 NVRAM_WP R4174 10K 10K RS232_SW 6 7
R4129 R4130
R4133 R4134 R4135 R4136
+3.3V for AVDD_AU
FB4108 +3V3 1 600R 2
Pin70
AVDD_AU C4141 10U 10V C4142 0.1uF
+3V3_STBY
88 89 90 91 92 93 94 95 96
NC NC NC NC NC NC NC NC NC
M24C32-WMN6TP
MADR[0..11] 10
FB4101 +3V3 1 600R
F
165 SPI_DI 167 SPI_DO 164 SPI_CK 166 SPI_CZ
AVDD_MemPLL C4143 10U 10V C4144 0.1uF
PAD_IRIN
2
Pin133
DDCR_DA DDCR_CK DDCA_DA DDCA_CK SAR0 SAR1 SAR2 SAR3 PWM0/MCUCFG0 PWM1/MCUCFG1 PWM2/MCUCFG2 PWM3/MCUCFG3
+3.3V for AVDD_MemPLL
DIGO0 DIGO1 DIGO2 DIGO3 DIGO4 DIGO5 DIGO6 DIGO7 DIGO8 WRZ RDZ ALE INT
GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND
174 175 176 177 168 169 170 171 172 173 192 193
179
3 9 37 60 66 98 163 181 210 224 145 243 103 111 131
+3V3_STBY
183 184 185 186 187 188 189 190 191 159 160 161 178
F
R4141
47R
+3V3
1 120R/3000mA
2 C4146 10U 10V
Pin106, Pi n112, Pin117, Pin132, P144
C4147 0.1uF C4148 0.1uF C4149 0.1uF C4150 0.1uF
47R R4190 10 10 47R R4189 10 10
FB4109
TP43 T POINT R VDDM C4151 0.1uF 6,11 6,11
R4144 100R 4,12,15 I2C_SDA 4,12,15 I2C_SCL I2C_SDA I2C_SCL R4143 R4146 47R 47R
R4168 15K RC_IR +3V3_STBY 11
R4145 R4152 R4156
47R R4151 47R 47R
+3V3_STBY
AMP_PW_STBY 15 AMP_RST_CTRL 15
10K R4153 10K R4154 10K R4179 10K R4101 3K3 R4161 3K3 R4184 1K R4170 10K(NC) R4171 10K R4172 10K R4173 10K(NC) 1K 47R 1K R4191 PWM0 100R PWM3 PWM2 PWM1 22R 22R R4158 10K R4159 10K(NC) R4162 10K(NC) R4160 10K
SPI_DI SPI_DO SPI_CK SPI_CZ
+3V3_STBY R4176 TXD RXD +3V3_STBY R4177 +3V3_STBY R4182 +3V3_STBY R4165 +3V3_STBY R4157 +3V3_STBY R4183
47R R4188
47R R4181
R4163 R4164 R4167 R4169
100R 47R 47R R4175 47R +3V3_STBY +3V3_STBY
11 LightSensor 11 PWR_ON_OFF
G
TXD1 RXD1
12 12
G
11 11
KEY1 KEY2
BL_ADJ
3
H
AUMCK AUWS AUSCK AUSD0
15 15 15 15
H
1
2
3
4
5
6
7
8
9
10
11
7.Circuit Diagrams and PWB Layouts
Scaler Board Schematic Diagram-FLASH ROM & SDRAM
1 2 3 4 5 6 7
TPS 1.0E LA
33
8
S-09
FB4201 +3V3
A
+3V3_MC 2
+3V3_MC
+3V3_MQ
1 C4202 10U 10V 1 600R FB4202 600R
+3V3_MQ 2
C4211 10U 10V
C4203 0.1uF
C4204 0.1uF
C4213 0.1uF
C4212 10U 10V
C4205 0.1uF
C4201 0.1uF
C4206 0.1uF
C4207 0.1uF
+3V3_STBY +3V3_STBY R4201 R4203 100R U4202 9 SPI_DO 100R 1 2 3 4 CS# VCC SO HOLD# W# SCK GND SI S25FL008A 8 7 6 5 C4208 0.1uF C4210 10U 10V
R4202 10K
B
9
SPI_CZ
R4204 R4206
100R 100R
SPI_CK SPI_DI
9 9
R4205 10K(NC)
MDATA[0..15] 9 MADR[0..11]
C
MDATA[0..15] 9
MADR[0..11] MADR0 MADR1 MADR2 MADR3 MADR4 MADR5 MADR6 MADR7 MADR8 MADR9 MADR10 MADR11 U4203 23 24 25 26 29 30 31 32 33 34 22 35 18 17 16 38 19 15 39 20 21 28 41 54 6 12 46 52 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 RAS CAS WE# CLK CS LDQM UDQM BA0 BA1 VSS VSS VSS VSSQ VSSQ VSSQ VSSQ D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 CKE NC NC VCC VCC VCC VCCQ VCCQ VCCQ VCCQ 2 4 5 7 8 10 11 13 42 44 45 47 48 50 51 53 37 36 40 1 14 27 3 9 43 49 DATA8 DATA9 DATA10 DATA11 DATA12 DATA13 DATA14 DATA15 DATA0 DATA1 DATA2 DATA3 DATA4 DATA5 DATA6 DATA7 CKE +3V3_MC +3V3_MQ RP4201 4 3 2 1 4 3 2 1 RP4202 RP4203 4 3 2 1 4 3 2 1 RP4204 CKE 68R 5 6 7 8 5 6 7 8 68R 68R 5 6 7 8 5 6 7 8 68R MDATA8 MDATA9 MDATA10 MDATA11 MDATA12 MDATA13 MDATA14 MDATA15 MDATA0 MDATA1 MDATA2 MDATA3 MDATA4 MDATA5 MDATA6 MDATA7
C4201 A5 C4202 A1 C4203 A3 C4204 A4 C4205 A5 C4206 A5 C4207 A6 C4208 B6 C4209 D3 C4210 B7 C4211 A3 C4212 A5 C4213 A4 FB4201 A2 FB4202 A2 RP4201 C5 RP4202 C5 RP4203 C5 RP4204 D5 R4201 B5 R4202 B5 R4203 B5 R4204 B6 R4205 B5 R4206 B6 R4207 D3 R4208 D3 R4209 D3 R4210 D3 R4211 D3 R4212 D2 R4213 D2 U4202 B6 U4203 C4
A
B
C
+3V3_MC 9 9 9 9 9
D
R4212 4K7
R4213 4K7
RASZ CASZ WEZ MCLK DQM
R4207 R4208 R4209 R4210
100R 100R 100R 47R
RASZM CASZM WEZM MCLKM DQM
9 9
BA0 BA1
BA0 BA1
9
D
R4211 4K7
C4209 22P(NC)
HY57V641620ETP-6 +3V3_MC
E
E
1
2
3
4
5
6
7
8
34
TPS 1.0E LA
7. Circuit Diagrams and PWB Layouts
2 3 4 5 6 7 8
Scaler Board Schematic Daigram- KEY, IR BD, & Compair I/F
1
S-10
For Key BOARD
A
For Compair I/F
R7307 100R R7302 R7310 100R 100R R7303 0R 1 2 3 4 CONN CN7302 R7308 R7309 100R(NC) 100R(NC) 1 2 3 CN7303 6,9 6,9 RXD TXD
9 PWR_ON_OFF 9 9 KEY1 KEY2
ZD7304
ZD7301
ZD7303
C7304 0.1uF
C7302 0.1uF
1
1
1
ZD7302
63363 3P 2.0mm(NC)
B
CN7301 B3 CN7302 A3 CN7303 A6 C7301 C2 C7302 A2 C7303 C2 C7304 A2 FB7301 C2 FB7302 C2 FB7303 C2 R7301 B2 R7302 A3 R7303 A3 R7307 A2 R7308 A5 R7309 A5 R7310 A3 ZD7301 A2 ZD7302 A5 ZD7303 A5 ZD7304 A1
A
BZX84-C5V6 (NC)
BZX84-C5V6 (NC)
3
3
3
BZX84-C5V6(NC)
3 1
BZX84-C5V6(NC)
B
For IR BOARD
9 LightSensor 9 RC_IR FB7301 1 FB7302 1 FB7303 1 C7301 33P C7303 33P R7301 100R(NC) 600R 2 600R 2 +5V_STBY 600R 2 CN7301 1 2 3 4 5 6 CONN
C C
9 LED_SEL_OUT 9 PC_TV_LED
D
D
E
E
1
2
3
4
5
6
7
8
7.Circuit Diagrams and PWB Layouts
Scaler Board Schematic Diagram-ITV I/F
1 2 3 4 5 6 7 8 9 10 11
TPS 1.0E LA
35
S-11
A
CN7402 FB7401 1 2 3 +12V_ITV 1 C7402 470uF 25V(NC) 63172 3P 2.5mm(NC) 2 120R(NC) +5V_ITV C7403 0.1uF(NC)
CN7401 1 2 3 4 5 CVBS_TERR_OUT 100R(NC) CVBS_VSYNC R7402 CVBS_HSYNC R7403 100R(NC) R7404 75R(NC)
C7401 0.1uF(NC)
63385 5P 2.0mm(NC) 1 FB7402 +5V_ITV
B
BC858CG(NC) Q7401
1
2 600R(NC) C7404 C7405 0.1uF(NC) 10U 10V(NC)
R7406 R7407 10K(NC)
470R(NC) R7405 75R(NC)
2 R7401 C7406 +5V_ITV 1 2 3 4 CN7403 0R(NC) 10uF(NC) R7409 10K(NC)
Q7402 BC847C(NC) R7408 75R(NC)
8,9
CVBSOut
4,9,15 I2C_SCL 4,9,15 I2C_SDA
C
63384 4P 2.0MM(NC)
+5V_ITV
+5V_ITV
CN7401 A5 CN7402 A1 CN7403 C2 CN7404 D2 CN7405 F3 C7401 A2 C7402 A2 C7403 A3 C7404 B5 C7405 B6 C7406 C5 C7407 D5 C7408 D7 C7409 E7 C7410 D7 C7411 D7 C7412 D7 C7413 D7 C7414 D6 FB7401 A2 FB7402 B5 FB7403 D7 Q7401 B7 Q7402 B6 R7401 B5 R7402 A5 R7403 A5 R7404 A7 R7405 B7 R7406 B6 R7407 B6 R7408 B7 R7409 C6 R7410 F2 R7411 F2 R7412 D5 R7413 D5 R7414 E6 R7415 D7 R7416 D6 R7417 D6 TH7401 E3 U7401 D5 ZD7401 F2 ZD7402 F2 ZD7403 F3
A
3
2
B
1
3
C
C7412 470N(NC) R7417 C7407 100P(NC) R7412 120K 1%(NC) +5V_ITV 470K(NC) R7416 C7414 2N2(NC) 10K(NC) C7413 470N(NC) C7410 47uF 25V(NC) R7413 10K(NC) CVBS_HSYNC 63384 4P 2.0MM CVBS_VSYNC 1 2 3 4 U7401 BA7046F(NC) H. Osc. Res. Phase O/P Hd O/P VCC SYNC O/P Video I/P Vd O/P GND 8 7 6 5 R7414 C7408 R7415 470K(NC) 1uF(NC) C7409 1N(NC) 330R(NC)
2
FB7403 120R(NC)
I2C_SCL I2C_SDA
1 2 3 4
1
D
+5V_ITV
CN7404
D
C7411 22N(NC)
CVBS_TERR_OUT
E
E
+5V_STBY
TH7401 PTCR CN7405 9 9 RXD1 TXD1 R7410 R7411 100R 100R
2
1
BZX84-C5V6
BZX84-C5V6
4 3 2 1
3
3
ZD7401
ZD7402
ZD7403
3 BZX84-C5V6 (NC)
F
61264 4P 2.5mm
F
1
1
G
1
G
H
H
1
2
3
4
5
6
7
8
9
10
11
36
TPS 1.0E LA
7. Circuit Diagrams and PWB Layouts
2 3 4 5 6 7 8
Scaler Board Schematic Daigram- PANEL I/F
1
S-12
51
A
CN7503
A
CN7501
B
CN7504
C
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
R7503 RXE3+ RXE3-
0R (NC) TP50 TP51 T POINT R T POINT R
RXEC+ RXECRXE2+ RXE2RXE1+ RXE1RXE0+ RXE0TP52 TP53 T POINT R POINT R T
30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
PANEL_VCC R7501 R7504 RXE3+ RXE3RXEC+ RXECRXE2+ RXE2RXE1+ RXE1RXE0+ RXE0RXO3+ RXO3RXOC+ RXOCRXO2+ RXO2RXO1+ RXO1RXO0+ RXO00R (NC) 0R (NC)
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50
TP57 TP58 T POINT R T POINT R RA_0 RA_1 RA_2 RA_3 RA_4 RA_5 RA_6 RA_7 GA_0 GA_1 GA_2 GA_3 GA_4 GA_5 GA_6 GA_7 BA_0 BA_1 BA_2 BA_3 BA_4 BA_5 BA_6 BA_7 DCLK DE R7507 R7508 R7506 22R(NC) LDE LVSYNC LHSYNC 9
RA0 RA1 RXE3+ RXE3RXEC+ RXECRXE2+ RXE2RXE1+ RXE1RXE0+ RXE0GA4 GA5 RXO3+ RXO3RXOC+ RXOCRXO2+ RXO2RXO1+ RXO1RXO0+ RXO0-
9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 R7505 22R(NC) LCK 9
CN7501 B3 CN7503 A4 CN7504 C1 C7501 C6 R7501 B3 R7503 C2 R7504 B3 R7505 C6 R7506 C5 R7507 C5 R7508 C5 TP50 C2 TP51 C2 TP52 C2 TP53 C2 TP54 D5 TP55 D5 TP56 C6 TP57 A5 TP58 A5
32
B
21
C
22R(NC) 22R(NC)
TP56 9 T POINT R 9
C7501 22P(NC)
PANEL_VCC
31
PANEL_VCC
TP54 TP55 T POINT R T POINT R
D
52
AL230D-A0G1V-P(NC)
D
22
AF7501-A2G1T 50P 0.5mm(NC) AFM201-N2G1Z 20P 1.25mm
E
E
1
2
3
4
5
6
7
8
7.Circuit Diagrams and PWB Layouts
Scaler Board Schematic Diagram - AUDIO I/F
1 2 3 4 5 6 7
TPS 1.0E LA
37
8
S-13
A
5 YPbPr_AU_INL
R6102 C6102 22P
10K R6103 12K C6103 560P
C6108
2.2uF
AUL0
9
5 YPbPr_AU_INR
R6111 C6121 22P
10K R6112 12K C6122 560P
C6114
2.2uF
AUR0
9
B
AV2_AU_INL
R6104 C6104 22P
10K R6105 12K C6105 560P
C6110
2.2uF
AUL2
9
CN6102 RCA JACK 2*1 W/R AV2_AU_INR
R6113 C6123 22P
10K R6114 12K C6124 560P
C6116
2.2uF
AUR2
9
C
CN6101 C1 CN6102 B1 C6102 A4 C6103 A4 C6104 B4 C6105 B4 C6106 C4 C6107 C4 C6108 A5 C6110 B5 C6111 C5 C6114 B5 C6116 C5 C6118 D5 C6121 B4 C6122 B4 C6123 C4 C6124 C4 C6126 D4 C6127 D4 R6102 A4 R6103 A4 R6104 B4 R6105 B4 R6106 C4 R6107 C4 R6111 B4 R6112 B4 R6113 C4 R6114 C4 R6115 D4 R6116 D4
A
B
3 1
2
C
CN6101 1 3 5 4 2 PHONEJACK
PC_AU_INL
R6106 C6106 22P
10K R6107 12K C6107 560P
C6111
2.2uF
AUL3
9
PC_AU_INR
R6115 C6126 22P
10K R6116 12K C6127 560P
C6118
2.2uF
AUR3
9
D
D
E
E
1
2
3
4
5
6
7
8
38
TPS 1.0E LA
7. Circuit Diagrams and PWB Layouts
1 2 3 4 5 6 7 8 9 10 11
Scaler Board Schematic Daigram- AUDIO AMP
S-14
A A
R6202 +16V_AUDIO +5V 0R05(NC) R6244 R6204 0R05 TP61 T POINT R
B
U6202 LD1117S33 3 VI VO 2 4
TP62 +3V3_AMP T POINT R
Bath Room SP WITH
C6233,4 NO YES
R6221,2 NO YES
R6223 NO YES
R6224,5 YES NO
R6226,7 YES NO
+5V_STBY
0R05 C6201 0.1uF
TH
C6203 10uF 50V
C6202 0.1uF
C6204 100uF 10V
WITHOUT
1 FB6203
2 120R C6206 1uF C6207 0.1u 50V C6208 470uF 25V
AMP_VCC1
TP69 T POINT R OUT2A 1 FB6205 2 120R
L6202 R6240 33uH 10% C6212 0.1uF 50V 0R05 LOUT+
1 FB6204
2 120R C6209 1uF C6210 0.1u 50V C6211 470uF 25V
AMP_VCC2
C
U6201 STA333BW R7510 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 GND_SUB SA TEST_MODE VSS Vcc_REG OUT2B GND2 VCC2 OUT2A OUT1B Vcc1 GND1 OUT1A GND_REG Vdd CONFIG DDX3B DDX3A Vdd_DIG GND_DIG SCL SDA INT_LINE RESET SDI_12 LRCKI BICKI XTI PLL_GND PLL_FILTER PLL_Vdd PWRDN GND_DIG Vdd_DIG TWARN/OUT4B EAPD/OUT4A 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19 3R3 1/10W R6238 R6239 47R 47R
TP65 T POINT R TP66 T TP68 T POINT R POINT R TP67 T POINT R
+3V3_AMP
R6205 22R
C6244 1N
C6213 0.1uF 50V
R6206 6R2 1/4W CN6202 C6214 470NF 50V R6207 6R2 1/4W SPLOUT+ LOUT1 2 69072 2P 2.5MM
C6215 100N 50V I2C_SCL I2C_SDA AUSD0 AUWS AUSCK AUMCK C6221 0.1u 50V 1 FB6202 C6223 0.1u 50V +3V3_AMP 2 120R 9 GND_PLL 1 FB6215 4,9,12 4,9,12 9 9 9 2 120R
C6216 1uF C6218 330P C6245 1N L6203 OUT2B C6205 0.1uF +3V3_AMP OUT1A 1 FB6207 2 120R 1 FB6206 2 120R 33uH 10% C6217 0.1uF 50V
0.1u 50V C6219
OUT2B AMP_Vcc2 OUT2A OUT1B AMP_Vcc1 OUT1A C6222 0.1u 50V
AMP_RST R6208 33R R6209 33R R6210 33R R6211 33R PLL_FILTER AMP_STBY R7511 3R3
0.1uF 50V C6220 R6241 0R05 LOUT-
D
L6201 R6242 33uH 10% C6224 0.1uF 50V C6225 330P C6247 1N C6226 0.1uF 50V R6213 6R2 1/4W CN6201 C6229 470NF 50V SPROUT+ ROUT1 2 63362 2P 2.0MM 0R05 ROUT+
OUT3B OUT3A
C6248 0.1uF
C6249 0.1uF
C6227 +3V3_AMP 680pF R6214 TP63 4K7 T POINT R
E
R6212 2K2 C6228 4N7 GND_PLL +3V3_AMP R6216 22R C6246 1N L6204 OUT1B Q6202 BC847C C6232 1N SPLOUT+ R6224 0R05(NC) LOUT+ FB6214 120R(NC) ROUT+ C6233 R6221 C6234 100uF 10V R6222 C6235 100N (NC) 8 7 6 5 C6236 1uF(NC) SPROUT+ BATHSPOUT+ BATHSPOUTR6226 R6227 0R05(NC) 0R05(NC) C6250 1N C6251 1N 100uF 10V R6225 0R05(NC) 470R 9 HP_DET R6223 0R05 470R CN6203 1 5 4 3 2 6 7 8 9 1 FB6201 2 120R R6243 33uH 10% 0R05 ROUTC6230 0.1uF 50V
R6215 6R2 1/4W
AMP_STBY
9 AMP_PW_STBY
R6217
10K
2 R6218 10K
Q6201 BC847C
TP64 T POINT R
R6201 10K AMP_RST
C6231 0.1uF 50V
CN6201 E9 CN6203 F9 C6202 B5 C6204 B5 C6206 B2 C6208 B3 C6210 C2 C6212 C7 C6214 C8 C6216 C5 C6218 C6 C6220 D7 C6222 D2 C6224 D7 C6226 D7 C6228 E4 C6230 E7 C6232 E5 C6234 F7 C6236 F6 C6238 F4 C6240 G3 C6242 G5 C6244 C7 C6246 E7 C6248 D4 C6250 G8 FB6201 E6 FB6203 B2 FB6205 B6 FB6207 D6 FB6215 D5 L6202 B7 L6204 E7 Q6202 E4 R6202 A4 R6205 C6 R6207 C8 R6209 D4 R6211 D4 R6213 D8 R6215 E8 R6217 E2 R6219 E4 R6221 F7 R6223 F8 R6225 F7 R6227 G7 R6229 F3 R6231 F4 R6233 G3 R6235 G4 R6237 G5 R6239 C4 R6241 D8 R6243