LCD TV SERVICE MANUAL
Contents
1. Beall O o SoSo eceb NcAMDa DW Double Window Mode nn WW Mu Window Mode C X E m o aE a bel 28 lt K K gt gt gt gt x 6 Optical Character No Specification Remark Te Mex 1 Viewing Angle R L 55 55 65 65 lt gt 10 gt U D 40 50 45 55 CIE Color Coordinates WHITE 0 283 In PC input Normal 0 328 Contrast 100 Brightness 50 WHITE n AV Warm 0 359 PSM Dynamic E Wx 0 313 White 0228 100 IRE WHIT Normal 7 Outgoing Condition 2 wm siw j 10 Language English Area Management On Time Auto Sleep Off 8 Engineering Specification 8 1 General Specification No Item Specification Remark 1 Power Supply H V Sync Power Consumption LED Color BLUE Stand On Off AMBER Off Off 22 Spectification 1 RED 2 3 Blue 4 ID2 GND 5 S T GND 6 RED GND D SUB Pin Configuraion 7 Green GND 8 Blue GND 10 Digital GND 9 10 D GND 11 IDO GND 12 SDA 13 14 V Sync 15 SCL Shell GND 1 Contrast Brightness 2 H Position V Position Control Function 3 Tracking Clock Phase 4 Auto Configu2. 85V KDS114 REEL TAPING USC UDZ 12B TP ROHM K SOD323 20 UDZ S 5 6B TP ROHM K SOD323 UDZ S 5 6B TP ROHM K SOD323 UDZ S 5 6B TP ROHM K SOD323 UDZ S 5 6B TP ROHM K SOD323 UDZ S 5 6B TP ROHM K SOD323 UDZ S 5 6B TP ROHM K SOD323 UDZ S 5 6B TP ROHM K SOD323 UDZ S 5 6B TP ROHM K SOD323 UDZ S 5 6B TP ROHM K SOD323 UDZ S 5 6B TP ROHM K SOD323 UDZ S 5 6B TP ROHM K SOD323 UDZ S 5 6B TP ROHM K SOD323 UDZ S 5 6B TP ROHM K SOD323 UDZ S 5 6B TP ROHM K SOD323 UDZ S 5 6B TP ROHM K SOD323 UDZ S 5 6B TP ROHM K SOD323 UDZ S 5 6B TP ROHM K SOD323 UDZ S 5 6B TP ROHM K SOD323 UDZ S 5 6B TP ROHM K SOD323 UDZ S 5 6B TP ROHM K SOD323 UDZ S 5 6B TP ROHM K SOD323 UDZ S 5 6B TP ROHM K SOD323 UDZ S 5 6B TP ROHM K SOD323 UDZ S 5 6B TP ROHM K SOD323 UDZ S 5 6B TP ROHM K SOD323 UDZ S 5 6B TP ROHM K SOD323 UDZ S 5 6B TP ROHM K SOD323 UDZ S 5 6B TP ROHM K SOD323 UDZ S 5 6B TP ROHM K SOD323 UDZ S 5 6B TP ROHM K SOD323 UDZS33B ROHM REEL TAPING UM UDZS33B ROHM REEL TAPING UM 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA M24C32 WMN6TPW LF SGS THOMS OIMMRSG036D OIMMRSGO36A OIPRP00639A OIPRP00007A OIPRP00641B 0IRH033200A 0IRH033200A OIKE780800J OIPMGSG018D 0155780500 0155780500 OISTLO0031 A COIL amp FILTER amp INDUCTOR 61409B0002A 61409B0002A 61409B0002A 61409B0002A 150 985B 6210TCE001H 6210TCE001H 6210TCE001H 6210TCE001H 6210TCE001H 6210TCE001H 6210TCE001H 6210TCE00
3. 3 Disassembly stand assy 4 Detached Backcover Remove the screw 5 Open the Backcover s latch with jig 6 Unlock latch between Cabinet and Backcover SPECIFICATION NOTE Specifications and others are subject to change without notice for Improvement 1 Application range This specification is applied to CL 81 chassis 2 Requirement for Test Testing for standard of each part must be followed in below condition Temperature 25 C 2 C Humidity 65 10 Power Standard input voltage AC 100 240V 50 60Hz Measurement must be performed after heat run more than 0 5 Adjusting standard for this chassis is followed a special standard Dt Dt Dt 1 2 3 4 3 General Specification 1 TFT Color LCD Module ActiveDisplay Area 15 0 inches 380 16mm diagonal Aspect 4 3 Pixel Pitch mm 0 297mm H x0 297mm V xRGB Electrical Interface LVDS Color Depth 16 777 216 colors Size mm 332 8 H x 262 2 V x 18 D Surface Treatment Anti Glare HAZE 396 Hard Coating 3H Operating Mode Normally Black Back light Unit 4 CCFL 4 lamps R T Typ R T 5ms F T 11ms Typ 4 Mechanical Specification Content Remark Product Width W Lengh D Height H Dimension Before Packing 377 6 242 8 394 5 Product Only SET 5 6Kg Weight With BOX 7 7Kg 5 Reference table Function PERITV Connector Rear OpionEU _ TRT 2 cwiree o
4. Change speaker Fail Pass Check the speaker wire 419 DIAGRAM iu oyeoedS ye 1J0exXeedg U wry uH 6609 Jeun AL 5 195 EN i ueq m 201 0172 U91IMS OON VOA ESJAR u oipny VOA OSLN 103 JOZISNEI oyeads Xe172 vas 198 enr W yse 4 0204 6 155 d 8110 g990r LOW 1 SANT 21425 671615201211 F1INION Sav A INQON TLL 9pIA Ipny MOd 2265 DIAGRAM DESCRIPTION Power Supply Block LIPS This Block Generates DC Voltage 5V 15V to Main Contro
5. i 2 gt 1 Zu BLUE BIRD 16 717 22 1 23 E ze CONNETOR amp JACK Tai 200 2012 200 2012 INSERT lt 7J102 2D108 Z2D110 C1iSS CLST gt PPJO24D1I nuTE amp lt B gt ROUT SPr ROUT E gt LOUT B lt 2 LOUT SPrK RED A GRN A a ELU a DOCSU D gt ID DSUB e SCL ucaG zD a 20125 PCIR s s PEIL 1 3 30 507 123o0 non ca S conuizdl ioe a d COMMERCIAL Risa 7125 Nr ru 3 emm lt a lt 3 5 gt lt 5 3 gt eta e 3 8 38 3 Po E Faro 3 9 24 38 e lt EZS gt 3 8 9 en lt 3 EE 1 2 RENZ 3 8 3 8 PRSP 3 5 52 59 a 3 5 3 5 ESN4 Ns 3 5 f 2 27 vs asus i pipes iere lt Ir ucc CONDLAP ai e So To amp T conpse c3 AUO 17 Su dy DIP 2 0 nm LPL 15 TU LPL 23 Tv 12v AUO 15 TV lt 3 3V gt LPL 17 18 SXGA MFM ev lt B gt 107202 5 3v STB KEYL CONDAP lt BIP 2 0 12041503 coc GOUT S9i4 lt
6. one operation by gently prying up on the lead with the soldering iron tip as the solder melts Draw away the melted solder with an anti static suction type solder removal device or with solder braid before removing the IC Replacement 1 Carefully insert the replacement IC in the circuit board 2 Carefully bend each IC lead against the circuit foil pad and solder it Clean the soldered areas with small wire bristle brush It is not necessary to reapply acrylic coating to the areas 3 Small Signal Discrete Transistor Removal Replacement 1 Remove the defective transistor by clipping its leads as close as possible to the component body Bend into a U shape the end of each of three leads remaining on the circuit board Bend into a U shape the replacement transistor leads Connect the replacement transistor leads to the corresponding leads extending from the circuit board and crimp the U with long nose pliers to insure metal to metal contact then solder each connection 2 Power Output Transistor Device Removal Replacement 1 Heat and remove all solder from around the transistor leads 2 Remove the heat sink mounting screw if so equipped 3 Carefully remove the transistor from the heat sink of the circuit board Insert new transistor in the circuit board Solder each transistor lead and clip off excess lead Replace heat sink 4 5 6 Diode Removal Replacement 1 Remove defective diode
7. LVDS Rx DTC34LF86L It is composed of DIC34LF86L THC63LVDF84B The LVDS Rx converts the LVDS data streams back into 24bits of CMOS TTL data with Falling edge or rising edge clock for convenient with variety of LCD panel controllers Switch IC PI3V512QE It is composed of PI3V512QE This IC selects between D sub RGB signal and LOC1 RGB signal and it transmits the selected signal to video signal processor TUNER Micom controls this through IIC Line TUNER makes IF and transmits IF signal to 91 WIRING DIAGRAM EA MA 6631T11012R 20P 6631900042B 11P 6631V00040A 2P To 6631900026B 4P En e e e N X A 79 6631T20029S 5P 22 EXPLODED VIEW 041 99 2 EXPLODED VIEW PARTS LIST No PARTNO BER LCD LIQUID CRYSTAL DISPLAY LC150X02 TLO1 LG PHILPS TFT COLOR TN LAMP MULTI PWB PCB ASSEMBLY SUB SUB T T CL81 15LC1R SNRULFT LED IR 060 687198T956A PWB PCB ASSEMBLY SUB SUB CL81 15LC1R SNRULFT CONTROL PWB PCB ASSEMBLY POWER MFT 4 LAMP POWER TOTAL BRAND LNNELIONILILLT X SROS SPEAKER FULLRANGE EF1527C 6428 6 TOPTONE FULL RANGE GENERAL 160HM 5 7W 82DB OTHERS 40 70 210HZ 24 REPLACEMENT PARTS LIST CK CN Ceramic Polyestor Electrolytic C
8. SDA rao DD LAL LEO I 9 Gi p amp 222 we ET HS DSUE GN enis SCL VS DSUB xD SUBYNG HERS Ici VDD gt lt 725 sup lt AAZ gt SD oGa ROUT SK Tel SEL P o gt eL USCL JUL 35 54 Her 1M2012 601 C175 CUBSZ2 2 8 sar cs lt B23 gt 2 76 e 2195 23 2013 Ho GND YE E 1 128 en YD ous Ici YDD SEEN Rig TES eye Rloso I RED 0 IEL SEL Ta PESO PB 5 HD PR Su VESTRI lt a 20138 MTZI9 eB 251272 HTZIS EE 25152 nNTZIS 6B 3 30 51 ciso 10 v SEIN 7Dizo E 5193 Gor OTS 111225 332P ie mn _ T B SCARTIACHKZIP AV HDb Y 5Sn 20131 20103 HMTZIE GE nTZJE EE Scorn ScIr E cori h 3 EN QSCOET P ROUT SLI 10 2 9 80 Scemr a 924 os SCART R 033 KSCLEZIT FELIN BIB P HD PP SL h lh lh BL Ih 1 lb a Scegmr coes 20 0 5 5B CONDLAP S5 HD PB GLOS HD 2 SBOE sade es 23 ONLY LED BL1 erao 30
9. 1608 R T 0 OHM 1 10 W 5 1608 R TP 4 7 OHM 1 10 W 5 1608 R T 0 OHM 1 10 W 5 1608 R TP 0 OHM 1 10 W 5 1608 R TP 0 OHM 1 10 W 5 1608 R TP 0 OHM 1 10 W 5 1608 R TP 0 OHM 1 10 W 5 1608 R TP 0 OHM 1 10 W 5 1608 R TP 0 OHM 1 10 W 2012 5 00 D OHM 1 10 W 2012 5 00 D 68 1 10 W 5 1608 R TP 100K OHM 1 10 W 5 1608 R T 15K OHM 1 10 W 5 1608 R TP 10K OHM 1 10 W 5 1608 R TP 120K OHM 1 10 W 5 1608 R T 18K OHM 1 10 W 5 1608 R TP 0 1 10 W 5 1608 R TP 4 7K OHM 1 10 W 5 1608 R T 1K OHM 1 10 W 5 1608 R TP 1K OHM 1 10 W 5 1608 R TP 09210000677 09210000677 09215020677 09215020677 09210000677 09202220677 09202220677 09210000677 08400000677 09210000677 09210010677 09210000677 09210000677 09220020677 08403320677 0810000677 08406820677 09210000677 09210000677 09210000677 09210000677 09210000677 09210000677 09210000677 08210020677 08210020677 09247010677 09203320677 09239000677 09203320677 08212020677 09247010677 08203320677 08403320677 08203320677 08203320677 09222020677 0856000677 08400000677 08400000677 0847010677 0847010677 08210020677 09212010677 09247020677 09205620677 08215010677 0830000677 08406820677 2005 11 13 LOC NO PART DESCRIPTION SPECIFICATION 100 OHM 1 10 W 5 1608 R TP 100 OHM 1 10 W 5 1608 R TP 15K OHM 1 10 W 5 1608 R TP 15K OHM 1 10 W 5 1608 R TP 100 OHM 1 10 W 5 1608 R TP 22 OHM 1 10 W 5 1608 R TP 22 OHM 1 10 W 5 1608 R
10. After Confirming color coordinate and luminance SW must set 1 1955 4 4 Other quality m Confirm that each items satisfy under standard condition that was written product spec Confirm Video and Sound at each source 1 AV Select input AV1 and whether picture is displayed or not Select input AV2 and whether picture is displayed or not Select input S video and whether picture is displayed or not 2 TV m Select input TV and check below item 1 In Gumi Factory C05 E05 ELETEXT Function Check Applicable to the model that has Teletext code set up item in Product spec C07 E07 Nicam DUAL Check C52 E52 Nicam Stereo Check Preset CH information 3 RGB DTV Select input RGB DTV and whether picture is displayed or not 4 5 DPM operation confirmation Check if Power LED Color and Power Consumption operate as standard m Measurement Condition 230V 50Hz Analog m Confirm DPM operation at the state of screen without Video Signal 4 6 DDC EDID Write m Connect D sub Signal Cable to D Sub Connector m Write EDID DATA to EEPROM 24C02 by using DDC2B protocol m Check whether written EDID data is correct or not refer to Product spec 4 7 Outgoing condition Configuration m After all test is finished Outgoing Option setting in Service OSD And Make Ship Condition mPress IN START Key by using the SVC Remote Controller mPress 8 digit code by SVC Remote controller refer 3854 TAA001 A in BOM m After optio
11. L327 HH 112012 601 m 9 52 Soszoo_azzzzzz s o sScemT a ki ser 1 FELIN ca wur our UESA ih Se rrr Too OHH AUBES STEr molis To vnus 2258 rEF B 1 9 a0c SCALER 3 REF une 2 14 ener resos SCALER rer aawe BA A I San usa AAT o gt 2222222722222222222202222 2 ios B us 8 en AI amp GPIOLO USS_COPE41 AE AS As AS AS Al UH tmc emicat 5 XU a RES ur 0 7 9 gt PSS a Me PSPS i Pepa CES Bees E para UE WE eseo 1 5 A Beute Sie db dei wes qe rid c POWER ue sus DC MOD l2V_ 15US5 Levy LSU AMP u Sty 898 3 1621 Leu SUS ON OFF 2 a lt AELS gt Dy W406 READY KIATS12AF L2UV 15US s 2206 3 SU SW S LDLDSSVIS 1 SU SW s l pa E rout 3 3U STB SU SM VN 45 51386504 R2 OFF VOUTL 77 C403 470U7 LDU 3 gt 77 C420 DC MOD 3 cls Sp 7 414 LAGU 15V
12. ADC Vol W B adjustment enter the screen W B Exit two times Adjustment completed adjustment mode 10 MPX To select the multiple sound mode Mmegmesweetomr Dat To release the adjustment mode 7 Liz APCS To easly ads sven according surawara bins 13 ASCSM To easly adjust sound according he progam pe efons Tome care upon oro sella anon samen o e VoL To adustthe volume or acouretely controla speci aa ENTER To set a spec und or compete sting Tose as are Key inte teletext mode 18 COPY Tewessagmenkeyiieieimde 20 To seas a yellow key hine ton mode Fat INPUT OP To use asa Bue key inthe telex mode ss MENU To select the functions such as video voice function or channel IN STOP To set the delivery condition status after manufacturing the TV set 253555 24 HOLD NN RN 25 TIME Displays the teletext time in the normal mode 26 SIZE Used as the size keyin the teletextmode 27 INDEX Used as the index key in the teletext mode EUS BE 28 UPDATE Used as the update key in the teletext mode MODE Used as Mode in the teletext mode DE 30 set SW 0 1 in the adjustment mode 31 0 9 To manually select the channel 15 POWER a CAPTION SOUND zu LT TV AV WER O ADJUST REMOCON TROUBLESHOOTING No power A Process LED indica
13. Do not use a line Isolation Transformer during this check Connect 1 5K 10watt resistor in parallel with a 0 15uF capacitor between a known good earth ground Water Pipe Conduit etc and the exposed metallic parts Measure the AC voltage across the resistor using AC voltmeter with 1000 ohms volt or more sensitivity Reverse plug the AC cord into the AC outlet and repeat AC voltage measurements for each exposed metallic part Any voltage measured must not exceed 0 75 volt RMS which is corresponds to 0 5mA In case any measurement is out of the limits specified there is possibility of shock hazard and the set must be checked and repaired before it is returned to the customer Leakage Current Hot Check circuit AC Volt meter Good Earth Ground such as WATER PIPE CONDUIT etc METALLIC PARTS 1 5 Kohm 10W SERVICING PRECAUTIONS CAUTION Before servicing receivers covered by this service manual and its supplements and addenda read and follow the SAFETY PRECAUTIONS on page 3 of this publication NOTE If unforeseen circumstances create conflict between the following servicing precautions and any of the safety precautions on page 3 of this publication always follow the safety precautions Remember Safety First General Servicing Precautions 1 Always unplug the receiver AC power cord from the AC power source before a Removing or reinstalling any component circuit board module or any other receiver assembly Disconnec
14. TP 100 OHM 1 10 W 5 1608 R TP 0 OHM 1 10 W 5 1608 R TP 100 OHM 1 10 W 5 1608 R TP 1K OHM 1 10 W 5 1608 R TP 100 OHM 1 10 W 5 1608 R TP 100 OHM 1 10 W 5 1608 R TP 20000 OHM 1 10 W 5 1608 R 33 OHM 1 10 W 5 1608 R TP 100 OHM 1 10 W 5 1608 R TP 68 OHM 1 10 W 5 1608 R TP 100 OHM 1 10 W 5 1608 R TP 100 OHM 1 10 W 5 1608 R TP 100 OHM 1 10 W 5 1608 R TP 100 OHM 1 10 W 5 1608 R TP 100 OHM 1 10 W 5 1608 R TP 100 OHM 1 10 W 5 1608 R TP 100 OHM 1 10 W 5 1608 R TP 10K OHM 1 10 W 5 1608 R TP 10K OHM 1 10 W 5 1608 R TP 4 7 OHM 1 10 W 5 1608 R T 33 OHM 1 10 W 5 1608 R TP 390 OHM 1 10 W 5 1608 R TP 33 OHM 1 10 W 5 1608 R TP 12K OHM 1 10 W 5 1608 R TP 4 7 OHM 1 10 W 5 1608 R T 33 OHM 1 10 W 5 1608 R TP 33 OHM 1 10 W 5 1608 R TP 33 OHM 1 10 W 5 1608 R TP 33 OHM 1 10 W 5 1608 R TP 22K OHM 1 10 W 5 1608 R TP 560 OHM 1 10 W 5 1608 R TP 0 OHM 1 10 W 5 1608 R TP 0 OHM 1 10 W 5 1608 R TP 4 7 OHM 1 10 W 5 1608 R T 4 7 OHM 1 10 W 5 1608 R T 10K OHM 1 10 W 5 1608 R TP 1200 OHM 1 10 W 5 1608 R T 47000 OHM 1 10 W 5 1608 R 56 OHM 1 10 W 5 1608 R TP 1 5K OHM 1 10 W 5 1608 R T 300 OHM 1 10 W 5 1608 R TP 68 OHM 1 10 W 5 1608 R TP 6202TST003G 6620F00017A 6700VS0003H HC 49 SMSH 24 576MHZ CCSD 32T SM WOOYOUNG 32P PL TAEW G053P LGIT MULTI FS PH LED amp IR BOARD ZD504 U501 LED551 LED552 0DZ560009CF 67125 232 048 ODLBE0048AA MTZJ5 6B ROHM K
15. by clipping its leads as close as possible to diode body Bend the two remaining leads perpendicular y to the circuit board Observing diode polarity wrap each lead of the new diode around the corresponding lead on the circuit board Securely crimp each connection and solder it Inspect on the circuit board copper side the solder joints of the two original leads If they are not shiny reheat them and if necessary apply additional solder Fuse and Conventional Resistor Removal Replacement 1 Clip each fuse or resistor lead at top of the circuit board hollow stake Securely crimp the leads of replacement component around notch at stake top 2 2 Solder the connections CAUTION Maintain original spacing between the replaced component and adjacent components and the circuit board to prevent excessive component temperatures Circuit Board Foil Repair Excessive heat applied to the copper foil of any printed circuit board will weaken the adhesive that bonds the foil to the circuit board causing foil to separate from or lift off the board The following guidelines and procedures should be followed whenever this condition is encountered At IC Connections To repair a defective copper pattern at IC connections use the following procedure to install a jumper wire on the copper pattern side of the circuit board Use this technique only on IC connections 1 Carefully remove the damaged copper pattern with a sharp
16. damage ES devices Do not use freon propelled chemicals These can generate electrical charges sufficient to damage ES devices Do not remove a replacement ES device from its protective package until immediately before you are ready to install it Most replacement ES devices are packaged with leads electrically shorted together by conductive foam aluminum foil or comparable conductive material Immediately before removing the protective material from the leads of a replacement ES device touch the protective material to the chassis or circuit assembly into which the device will be installed CAUTION Be sure no power is applied to the chassis or circuit and observe all other safety precautions Minimize bodily motions when handling unpackaged replacement ES devices Otherwise harmless motion such as the brushing together of your clothes fabric or the lifting of your foot from a carpeted floor can generate static electricity sufficient to damage an ES device General Soldering Guidelines 1 Use a grounded tip low wattage soldering iron and appropriate tip size and shape that will maintain tip temperature within the range or 500 F to 600 F Use an appropriate gauge of RMA resin core solder composed of 60 parts tin 40 parts lead Keep the soldering iron tip clean and well tinned Thoroughly clean the surfaces to be soldered Use a mall wire bristle 0 5 inch or 1 25cm brush with a metal handle Do not use freon
17. of this data 3 3 1 PC input ADC 3 3 1 1 Auto Gain Offset Adjustment 2 Designation m Convert to PC in Input source 2 1 The adjustment is according to the order which is Signal equipment displays designated and which must be followed according to the Output Voltage 700 mVp plan which can be changed only on agreeing Impress Resolution XGA 1024 x 768 60Hz ae d E Pattern gray pattern that left amp right is black and center is 9 Magnetic Field Gonaition white signal Refer below picture 2 4 Input signal Unit Product Specification Standard Model 37 Pattern 29 at MSPG925L 2 5 Reserve after operation Above 30 Minutes q wa 2 6 Adjustment equipments Pattern Generator MSPG 925L m Adjust by commanding AUTO COLOR ADJUST OxF1 or Equivalent DDC Adjustment Jig equipment SVC 0x00 0x00 instruction remote controller 3 3 1 2 Confirmation m We confirm whether 0x00 address of 0xA0 is OxAA or not 3 Main PCB check process Caution mif 0x00 address of EEPROM isn t OxAA we If DDC CMD don t work please check below adjust once more 1 Enter SVC menu by SVC Remote controller push IN We can confirm the ADC values from 0x06 0x0B START key addresses in a page OxAO 2 Enter ETC menu Check please SW is 0 or 1 3 3 2 AV input ADC SW 0 DDC Communications DDC2AB in 3 3 2 1 Auto Gain Offset Adjustment Factory Side m Convert to AV in I
18. propelled spray on cleaners Use the following unsoldering technique a Allow the soldering iron tip to reach normal temperature 500 F to 600 F b Heat the component lead until the solder melts c Quickly draw the melted solder with an anti static suction type solder removal device or with solder braid CAUTION Work quickly to avoid overheating the circuitboard printed foil Use the following soldering technique a Allow the soldering iron tip to reach a normal temperature 500 F to 600 F First hold the soldering iron tip and solder the strand against the component lead until the solder melts Quickly move the soldering iron tip to the junction of the component lead and the printed circuit foil and hold it there only until the solder flows onto and around both the component lead and the foil CAUTION Work quickly to avoid overheating the circuit board printed foil Closely inspect the solder area and remove any excess or splashed solder with a small wire bristle brush b Remove Replacement Some chassis circuit boards slotted holes oblong through which the IC leads are inserted and then bent flat against the circuit foil When holes are the slotted type the following technique should be used to remove and replace the IC When working with boards using the familiar round hole use the standard technique as outlined in paragraphs 5 and 6 above Removal 1 Desolder straighten each IC lead
19. 1 10 W 2012 5 00 51K OHM 1 10 W 2012 5 00 100 OHM 1 10 W 2012 5 00 18K OHM 1 10 W 2012 5 00 390 OHM 1 10 W 2012 5 00 390 OHM 1 10 W 2012 5 00 ORH3900D622 ORH3900D622 ORH1500D622 ORH0752D622 ORH0752D622 ORH0752D622 ORH1001D622 ORH1001D622 ORH1003D622 ORH1003D622 ORH1801D622 ORH0000D622 ORH4701D622 ORH1002D622 ORH4701D622 ORH4701D622 ORH1002D622 ORH4701D622 ORH0000D622 ORH1200D622 ORH0222D622 ORH4701D622 ORH1002D622 ORH1002D622 ORH1501D622 ORH1502D622 ORH1002D622 ORH1001D622 ORH1001D622 ORH4701D622 ORH1000D622 ORH1002D622 ORH4701D622 ORH0472D622 ORH4701D622 ORH1001D622 ORH1002D622 ORH1000D622 ORH0000D622 ORH0000D622 ORH1500D622 ORH1200D622 ORH1002D622 ORH0752D622 ORH0000D622 ORH0752D622 ORH0000D622 ORH0222D622 ORH0222D622 ORH0222D622 ORH0752D622 ORH0472D622 ORH0752D622 ORH0000D622 ORH0000D622 ORH1502D622 ORH4702D622 ORH0000D622 ORH0000D622 ORH0000D622 ORH0000D622 ORH0000D622 390 OHM 1 10 W 2012 5 00 390 OHM 1 10 W 2012 5 00 150 OHM 1 10 W 2012 5 00 75 OHM 1 10 W 2012 5 00 75 OHM 1 10 W 2012 5 00 75 OHM 1 10 W 2012 5 00 1K OHM 1 10 W 2012 5 00 1K OHM 1 10 W 2012 5 00 100K OHM 1 10 W 2012 5 00 100K OHM 1 10 W 2012 5 00 1 8K OHM 1 10 W 2012 5 00 0 OHM 1 10 W 2012 5 00 D 4 7K OHM 1 10 W 2012 5 00 OHM 1 10 W 2012 5 00 4 7K OHM 1 10 W 2012 5 00 4 7K OHM 1 10 W 2012 5 00 10K OHM 1 10 W 2012 5 00 4 7K OHM 1 10 W 2012 5 00 0 OHM 1
20. 1 10 W 2012 5 00 100 OHM 1 10 W 2012 5 00 100 OHM 1 10 W 2012 5 00 100 OHM 1 10 W 2012 5 00 100K OHM 1 10 W 2012 5 00 82K OHM 1 10 W 2012 5 00 1 2K OHM 1 10 W 2012 5 00 10 OHM 1 10 W 2012 5 00 10K OHM 1 10 W 2012 5 00 100 OHM 1 10 W 2012 5 00 10K OHM 1 10 W 2012 5 00 10K OHM 1 10 W 2012 5 00 10K OHM 1 10 W 2012 5 00 15K OHM 1 10 W 2012 5 00 10K OHM 1 10 W 2012 5 00 15K OHM 1 10 W 2012 5 00 10K OHM 1 10 W 2012 5 00 3 3 OHM 1 10 W 2012 5 00 10K OHM 1 10 W 2012 5 00 3 3 OHM 1 10 W 2012 5 00 10K OHM 1 10 W 2012 5 00 2 2K OHM 1 10 W 2012 5 00 2 2K OHM 1 10 W 2012 5 00 4 7K OHM 1 10 W 2012 5 00 10K OHM 1 10 W 2012 5 00 10K OHM 1 10 W 2012 5 00 47K OHM 1 10 W 2012 5 00 0 OHM 1 10 W 2012 5 00 D 0 OHM 1 10 W 2012 5 00 D 0 OHM 1 10 W 2012 5 00 D 470 OHM 1 10 W 2012 5 00 100 OHM 1 10 W 2012 5 00 DATE 2005 11 13 S l AL LOC NO PART NO DESCRIPTION SPECIFICATION ORH1000D622 ORH0000D622 ORH0000D622 ORH1501D622 ORH4702D622 ORH4700D622 ORH1002D622 ORH6802D622 ORH1002D622 ORH1000D622 ORH1000D622 ORH4701D622 ORH8200D622 ORH1000D622 ORJ1300D477 0RJ0752D477 0RJ1300D477 0RJ0752D477 ORJ1300D477 0RJ0752D477 ORJ4701D677 ORH0000D622 ORJ4701D677 08407520677 09203320677 09203320677 09210000677 09202220677 08400000677 08407520677 0847010677 0847000677 08407520677 08407520677 08211020677 08211020677 09247010677 09220010677 092100106
21. 10 W 2012 5 00 D 120 OHM 1 10 W 2012 5 00 22 OHM 1 10 W 2012 5 00 4 7K OHM 1 10 W 2012 5 00 10K OHM 1 10 W 2012 5 00 10K OHM 1 10 W 2012 5 00 1 5K OHM 1 10 W 2012 5 00 15K OHM 1 10 W 2012 5 00 10K OHM 1 10 W 2012 5 00 1K OHM 1 10 W 2012 5 00 1K OHM 1 10 W 2012 5 00 4 7K OHM 1 10 W 2012 5 00 100 OHM 1 10 W 2012 5 00 10K OHM 1 10 W 2012 5 00 4 7K OHM 1 10 W 2012 5 00 47 OHM 1 10 W 2012 5 00 4 7K OHM 1 10 W 2012 5 00 1K OHM 1 10 W 2012 5 00 10K OHM 1 10 W 2012 5 00 100 1 10 W 2012 5 00 0 OHM 1 10 W 2012 5 00 D 0 OHM 1 10 W 2012 5 00 D 150 OHM 1 10 W 2012 5 00 120 OHM 1 10 W 2012 5 00 10K OHM 1 10 W 2012 5 00 75 1 10 W 2012 5 00 0 OHM 1 10 W 2012 5 00 D 75 OHM 1 10 W 2012 5 00 0 OHM 1 10 W 2012 5 00 D 22 OHM 1 10 W 2012 5 00 22 OHM 1 10 W 2012 5 00 22 OHM 1 10 W 2012 5 00 75 1 10 W 2012 5 00 47 OHM 1 10 W 2012 5 00 75 OHM 1 10 W 2012 5 00 0 OHM 1 10 W 2012 5 00 D 0 OHM 1 10 W 2012 5 00 D 15K OHM 1 10 W 2012 5 00 47K OHM 1 10 W 2012 5 00 0 OHM 1 10 W 2012 5 00 D 0 OHM 1 10 W 2012 5 00 D OHM 1 10 W 2012 5 00 D 0 OHM 1 10 W 2012 5 00 D 0 OHM 1 10 W 2012 5 00 D ORH0000D622 ORH0000D622 ORH1201D622 ORH0000D622 ORH1002D622 ORH1002D622 ORH1000D622 ORH0331D622 ORH0331D622 ORH0331D622 ORH0331D622 ORH1502D622 ORH1502D622 ORH4701D622 ORH1000D622 ORH1000D622 ORH1001D622 ORH1000D622 ORH1
22. 1H 6210TCE001H 6200J00005E 6200J00005E 6210TCE0014 6210TCE0014 6210TCE0014 6210TCE0014 6200J00005E 6200J00005E 6200J00005E 6200J00005E 6200J00005E 6200J00005E 6200J00005E 6200J00005E 6200J00005E 6200J00005E 6200J00005E 6200J00005E 6200J00005E 6200J00005E 6200J00005E 6200J00005E 6200J00005E 97 DATE 2005 11 13 LOC NO PART NO DESCRIPTION SPECIFICATION UDZ 5 6B ROHM K SOD323 UDZ 5 6B ROHM K SOD323 UDZ 5 6B 00323 UDZ 5 6 00323 UDZ 5 6B 500323 UDZ 5 6B 00323 007 5 6B ROHM K 500323 M24C02 WMN6T P LF SGS THOM PI3V512QE PERICOM 24P QSOP TPA3005D2PHPRG4 PB FREE TEX TDA15521E PHILIPS 388PIN BG 2 MOLD 3 TP REGULA 2 MOLD 3 TP REGULA KIA7808API 3 ST REGULATOR LD1086DT18TR LF SGS THOMSON KA78MO5 R 3P D PAK TP 5V 0 KA78MO5 R 3P D PAK 5V 0 MC74HC4066ADR2G LF ON SEMI DBF 1030S DONGBANG 30UH 15 DBF 1030S DONGBANG 30UH 15 DBF 1030S DONGBANG 30UH 15 DBF 1030S DONGBANG 30UH 15 DR8 11 2 4MH 0 16MM 270 5 HB 1T2012 301JT 201 HB 1T2012 301JT 201 HB 1T2012 301JT 201 HB 1T2012 301JT CERATEC 201 HB 1T2012 301JT CERATEC 201 HB 1T2012 301JT CERATEC 201 HB 1T2012 301JT CERATEC 201 HB 1T2012 301JT 201 HB 1T2012 301JT CERATEC 201 HH 1M2012 601JT CERATEC R T HH 1M2012 601JT CERATEC R T HB 1M2012 221 C
23. 502D622 ORH0000D622 ORH0000D622 ORH1000D622 ORH0102D622 ORH0102D622 ORH0000D622 ORH4702D622 ORH0102D622 ORH1000D622 ORH2203D622 ORH1000D622 ORH4701D622 ORH1000D622 ORH1000D622 ORH1000D622 ORH1003D622 ORH8202D622 ORH1201D622 ORH0102D622 ORH1002D622 ORH1000D622 ORH1002D622 ORH1002D622 ORH1002D622 ORH1502D622 ORH1002D622 ORH1502D622 ORH1002D622 ORH0331D622 ORH1002D622 ORH0331D622 ORH1002D622 ORH2201D622 ORH2201D622 ORH4701D622 ORH1002D622 ORH1002D622 ORH4702D622 ORH0000D622 ORH0000D622 ORH0000D622 ORH4700D622 ORH1000D622 DATE 2005 11 13 DESCRIPTION SPECIFICATION 0 OHM 1 10 W 2012 5 00 D 0 OHM 1 10 W 2012 5 00 D 1 2K OHM 1 10 W 2012 5 00 0 OHM 1 10 W 2012 5 00 D 10K OHM 1 10 W 2012 5 00 10K OHM 1 10 W 2012 5 00 100 OHM 1 10 W 2012 5 00 3 3 OHM 1 10 W 2012 5 00 3 3 OHM 1 10 W 2012 5 00 3 3 OHM 1 10 W 2012 5 00 3 3 OHM 1 10 W 2012 5 00 15K OHM 1 10 W 2012 5 00 15K OHM 1 10 W 2012 5 00 4 7K OHM 1 10 W 2012 5 00 100 OHM 1 10 W 2012 5 00 100 1 10 W 2012 5 00 1K OHM 1 10 W 2012 5 00 100 OHM 1 10 W 2012 5 00 15K OHM 1 10 W 2012 5 00 0 OHM 1 10 W 2012 5 00 D 0 OHM 1 10 W 2012 5 00 D 100 OHM 1 10 W 2012 5 00 10 OHM 1 10 W 2012 5 00 10 OHM 1 10 W 2012 5 00 0 OHM 1 10 W 2012 5 00 D 47K OHM 1 10 W 2012 5 00 10 OHM 1 10 W 2012 5 00 100 OHM 1 10 W 2012 5 00 220K OHM 1 10 W 2012 5 00 100 OHM 1 10 W 2012 5 00 4 7K OHM
24. 566 OCH3104K566 OCH3104K566 OCH5102K416 OCH3104K566 OCH3104K566 OCH3104K566 OCH3104K566 OCH3104K566 OCH3104K566 OCH3104K566 OCH3104K566 OCK475DDS7A OCH3103K516 OCK105DHS6A OCH3104K566 OCH3104K566 OCH3104K566 OCH3105H946 OCH3104K566 OCH3104K566 OCH3104K566 OCH3103K516 2 2UF 2012 25V 80 20 F Y 2 2UF 2012 25V 80 20 F Y 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 4 7UF 2012 10V 10 X5R R TP 0 1UF 50V 1095 X7R 2012 R TP 10000PF 50V 1096 B Y5P 2012 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 1000PF 50V 5 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1U
25. 77 08400000677 09282010677 09282010677 08400000677 0847010677 08400000677 08400000677 08400000677 08400000677 08400000677 08400000677 ORH0000D622 ORH0000D622 08406820677 0810030677 09215020677 08210020677 08212030677 09218020677 08400000677 0847010677 0810010677 09210010677 100 OHM 1 10 W 2012 5 00 OHM 1 10 W 2012 5 00 D OHM 1 10 W 2012 5 00 D 1 5K OHM 1 10 W 2012 5 00 47K OHM 1 10 W 2012 5 00 470 OHM 1 10 W 2012 5 00 OHM 1 10 W 2012 5 00 68K OHM 1 10 W 2012 5 00 10K OHM 1 10 W 2012 5 00 100 OHM 1 10 W 2012 5 00 100 OHM 1 10 W 2012 5 00 4 7K OHM 1 10 W 2012 5 00 820 OHM 1 10 W 2012 5 00 100 OHM 1 10 W 2012 5 00 130 OHM 1 10 W 1 1608 R TP 75 OHM 1 10 W 1 1608 R TP 130 OHM 1 10 W 1 1608 R TP 75 OHM 1 10 W 1 1608 R TP 130 OHM 1 10 W 1 1608 R TP 75 OHM 1 10 W 1 1608 R TP 4 7 OHM 1 10 W 5 1608 R T 0 OHM 1 10 W 2012 5 00 D 4 7 OHM 1 10 W 5 1608 R T 75 OHM 1 10 W 5 1608 R TP 33 OHM 1 10 W 5 1608 R TP 33 OHM 1 10 W 5 1608 R TP 100 OHM 1 10 W 5 1608 R TP 22 OHM 1 10 W 5 1608 R TP 0 OHM 1 10 W 5 1608 R TP 75 OHM 1 10 W 5 1608 R TP 4 7 OHM 1 10 W 5 1608 R T 470 OHM 1 10 W 5 1608 R TP 75 OHM 1 10 W 5 1608 R TP 75 OHM 1 10 W 5 1608 R TP 11K OHM 1 10 W 5 1608 R TP 11K OHM 1 10 W 5 1608 R TP 4 7 OHM 1 10 W 5 1608 R T 2K OHM 1 10 W 5 1608 R TP 1K OHM 1 10 W 5 1608 R TP 0 OHM 1 10 W 5 1608 R TP 8 2K OHM 1 10 W 5 1608 R T 8 2K OHM 1 10 W 5
26. 8 50V 1096 R TP X7R 0 01UF 1608 50V 10 R TP B 0 01UF 1608 50V 10 R TP B 0 01UF 1608 50V 1096 R TP B 47PF 2012 50V 5 NPO R TP DATE 2005 11 13 S AL LOC NO PART NO DESCRIPTION SPECIFICATION 0CH6470K416 OCH6101K416 0 6101 416 0CH6680K416 0CH6331K416 0CH6470K416 0CH6470K416 0CH6470K416 0CH6470K416 0CH6470K416 0CH6470K416 0CH6470K416 0CH6470K416 0CH6151K416 0CH2392K516 0CH6470K416 0CH2472K516 2334 566 0CC101CK41A 0CC101CK41A 0CC101CK41A 0CC101CK41A 47 47 0CC271CK41A 0CC271CK41A 0CC271CK41A 0CC221CK41A 0CC470CK41A 47 47 0CC150CK41A 0CC150CK41A 0CC150CK41A 0CC150CK41A 0CC470CK41A 0CC470CK41A 0CC150CK41A 0CC101CK41A 0CC270CK41A 47 47 47 0CC100CK41A 0 102 41 0 228 0618 OCE108EH618 477 618 477 618 0 477 0610 OCE107WF6DC OCE107WF6DC OCE107WF6DC OCE107WF6DC OCH8106F691 OCH8106F691 OCH8106F691 0CH8476H691 0CE337SC6D8 OCH8106F691 OCE475WJ6DC OCE107WF6DC 47PF 2012 50V 5 NPO R TP 100PF 50V 5 NPO 2012 R TP 100PF 50V 5 NPO 2012 R TP 68PF 2012 50V 5 R TP 330PF 2012 50V 5 R TP 47PF 2012 50V 5 NPO R TP 47PF 2012 50V 5 NPO R TP 47 2012 50V 5 NPO R TP 47 2012 50V 5 NPO R TP 47PF 2012 50V 5 NPO R TP 47 2012 50V 5 NPO R TP 47PF 2012 50V 5 NPO R TP 47PF 2012 50V 5 NPO R TP 150PF 2012 50V 5 NP
27. AE OTR390409AE OTR388109AA OTFVI80067A 0 492509 KSC1623 SAMSUNG SOT23 KSC1623 TP SAMSUNG SOT23 N KSC1623 TP SAMSUNG SOT23 N KSC1623 TP SAMSUNG SOT23 N KSC1623 TP SAMSUNG SOT23 N KSC1623 TP SAMSUNG SOT23 N FAIRCHILD KST3904 LGEMTF T FAIRCHILD KST3904 LGEMTF FAIRCHILD KST3904 LGEMTF T FAIRCHILD KST3906 MTF TP SO FAIRCHILD KST3904 LGEMTF T FAIRCHILD KST3904 LGEMTF T FAIRCHILD KST3904 LGEMTF T CHIP 25C3875S ALY BK 1270 562 1270 562 FAIRCHILD KST3904 LGEMTF FAIRCHILD KST3904 LGEMTF T CHIP 2SA1504S ASY FAIRCHILD KST3904 LGEMTF FAIRCHILD KST3904 LGEMTF FAIRCHILD KST3904 LGEMTF FAIRCHILD KST3904 LGEMTF KTC3881 SI3865BDV E3 VISHAY RAP T Sl4925DY TEMIC 30V 6 1A T T T T RESISTORs ORH1004D422 ORH3902D422 ORH3902D422 ORX0202K665 ORH4701D622 ORH1002D622 ORH4701D622 ORH1002D622 ORH4701D622 ORH1002D622 ORH4701D622 ORH4701D622 ORH4701D622 ORH1001D622 ORH5102D622 ORH1000D622 ORH1802D622 ORH3900D622 ORH3900D622 1M OHM 1 10 W 1 D RAP 39K OHM 1 10 W 1 D R TP 39K OHM 1 10 W 1 D R TP 20 OHM 2 W 5 SF15 4 7K OHM 1 10 W 2012 5 00 OHM 1 10 W 2012 5 00 4 7K OHM 1 10 W 2012 5 00 OHM 1 10 W 2012 5 00 4 7K OHM 1 10 W 2012 5 00 10K OHM 1 10 W 2012 5 00 4 7K OHM 1 10 W 2012 5 00 4 7K OHM 1 10 W 2012 5 00 4 7K OHM 1 10 W 2012 5 00 1K OHM
28. B Scan Test 3 4 2 Check display and sound SW must set 1 m Check Input and Signal items 1 TV 2 AV1 5 3 AV2 CVBS S Video 4 RGB DTV 5 RGB PC 6 PC Audio IN and H P Out 3 4 3 DCXO setting 3 4 4 SW setting for Total Assembly line process m After finished all function check SW must set 0 by pushing TILT key in SVC remote controller 4 Total Assembly line process Caution lf DDC CMD don t work please check below 1 Enter SVC menu by SVC Remote controller 2 Enter ETC menu Check please SW is 0 or 1 IIC SW 0 DDC Communications DDC2AB SW 1 EDID Write Read DDC2B and Factory default We can change SW by pushing TILT key in SVC remote controller 4 1 Adjustment Preparation IC SW must set 0 m Above 30 minutes H run in RF no signal m15 Pin D Sub Jack is connected to the signal of Pattern Generator 4 2 Confirmation of Luminance B Set Statement Input RGB PC Contrast 100 Max Brightness 50 CSM Normal m Signal equipment displays Output Voltage 700 mVp p Output Mode Full White pattern and XGA 60 Hz m Confirm whether luminance is over 200cd or not 4 3 Confirmation of Color Coordinate m Input Full White Pattern RGB PC mg Set CSM Normal 9300K m Confirm whether 0 283 0 03 0 298 0 03 or not m Input Full White Pattern AV2 CVBS m Set CSM Normal 9300K m Confirm whether 0 283 0 030 y 0 298 0 03 or not
29. DO34 0 5 TSOP34838S01 VISHAY 38KHZ L BRIGHT LED ELECTRONICS BL H BRIGHT LED ELECTRONICS BL H DATE 2005 11 13 LOC NO PART DESCRIPTION SPECIFICATION OTR390409AE ORJ1001D677 ORJ3001D677 ORJ1001D677 ORJ3001D677 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA 3508V00069A FAIRCHILD KST3904 LGEMTF T 1K OHM 1 10 W 5 1608 OHM 1 10 W 5 1608 R TP 1K OHM 1 10 W 5 1608 R TP OHM 1 10 W 5 1608 R TP UDZ S 5 6B TP ROHM K SOD323 UDZ S 5 6B TP ROHM K SOD323 UDZ 5 6B TP ROHM K 00323 UDZ 5 6B ROHM K 00323 UDZ S 5 6B TP ROHM K SOD323 PLATE CF 29H40 LED CONTROL BOARD 30 0 1040 949 OCN1040K949 ORN2201F409 ORN8200F409 ORN1501F409 ORN1501F409 ORN8200F409 ORN2201F409 140 058B 140 058B 140 058B 140 058B 140 058B 140 058B 140 058B 140 058B 0DZ560009CF 0DZ560009CF 0 1UF D 50V 80 20 F Y5V 0 1UF D 50V 80 20 F Y5V 2 2K OHM 1 6 W 1 0096 TA52 820 1 6W 1 52 1 5K OHM 1 6 W 1 0096 TA52 1 5K OHM 1 6 W 1 0096 TA52 820 1 6W 1 52 2 2K OHM 1 6 W 1 0096 TA52 EVQ PB2 05K MATUSHITA NON 1 EVQ PB2 05K MATUSHITA NON 1 EVQ PB2 05K MATUSHITA NON 1 EVQ PB2 05K MATUSHITA NON 1 EVQ PB2 05K MATUSHITA NON 1 EVQ PB2 05K MATUSHITA NON 1 EVQ PB2 05K MATUSHITA NON 1 EVQ PB2 05K MATUSHITA NON 1 MTZJ5 6B ROHM K DO34 0 5 MTZJ5 6B ROHM K DO34 0 5 prisacca 9 7 4 7 li r 2 e sm de
30. ERATEC R TP HB 1M2012 221 CERATEC R TP HB 1M2012 221 CERATEC R TP HB 1M2012 221 CERATEC R TP 1 2012 601 CERATEC R T HH 1M2012 601JT CERATEC R T HH 1M2012 601JT CERATEC R T HH 1M2012 601JT CERATEC R T HH 1M2012 601JT CERATEC R T HH 1M2012 601JT CERATEC R T HH 1M2012 601JT CERATEC R T HH 1M2012 601JT CERATEC R T HH 1M2012 601JT CERATEC R T HH 1M2012 601JT CERATEC R T HH 1M2012 601JT CERATEC R T HH 1M2012 601JT CERATEC R T HH 1M2012 601JT CERATEC R T HH 1M2012 601JT CERATEC R T HH 1M2012 601JT CERATEC R T HH 1M2012 601JT CERATEC R T HH 1M2012 601JT CERATEC R T 6200J00005E 6200J00005E 6200J00005E 6200J00005E 6200J00005E 6200J00005E 6200J00005E 6200QL3003A 6200QL3003B 0LC0562001A 0LC1020101A DATE 2005 11 13 DESCRIPTION SPECIFICATION HH 1M2012 601JT CERATEC R T HH 1M2012 601JT CERATEC R T HH 1M2012 601JT CERATEC R T HH 1M2012 601JT CERATEC R T HH 1M2012 601JT CERATEC R T HH 1M2012 601JT CERATEC R T HH 1M2012 601JT CERATEC R T K3965D EPCOS BULK PAL VIDEO K9656D EPCOS BULK PAL SOUND 0 56UH 10 2012 R TC 20 10 2012 R TC 2012 DATE 2005 11 13 S AL LOC NO PART NO DESCRIPTION SPECIFICATION TRANSISTOR OTR162309CA OTR162309CA OTR162309CA OTR162309CA OTR162309CA OTR162309CA OTR390409AE OTR390409AE OTR390409AE OTR390609FA OTR390409AE OTR390409AE OTR390409AE 0TR387500AA OTR127009AA OTR127009AA OTR390409AE OTR390409AE OTR150400BA OTR390409AE OTR390409AE OTR390409
31. F Fixed Film Carbon Film Metal Oxide Film Metal Film CHIP Metal Glazed Chip Drawing For Capacitor amp Resistors the charactors at 2nd and 3rd digit in the P No means as follows DATE 2005 1i 13 S TAL LOC NO OCH3104K566 0 1UF 50V 10 X7R 2012 0CH3224K946 0CH3224K946 0CH3224K946 0CH3224K946 0CH3224K946 0CH3224K946 0CH3224K946 0CH3224K946 0CH3224K946 0CH3224K946 0CH3224K946 OCH3104K566 OCK105DHS6A OCK105DHS6A 0CH5220K416 OCH3104K566 OCK105DHS6A OCH3104K566 OCH5102K416 OCH5102K416 OCH3104K566 OCH3104K566 OCH3104K566 OCH3104K566 OCK475DDS7A OCK475DDS7A OCH3104K566 OCH3104K566 OCH3104K566 OCH3104K566 OCH3104K566 OCH3474H946 OCH3474H946 OCH3104K566 OCH3104K566 OCH3474H946 OCH3474H946 OCH3104K566 OCH3104K566 OCH3474H946 OCH5102K416 OCH5102K416 OCH5102K416 OCH5102K416 OCH3474H946 OCH3104K566 OCH3104K566 OCH3103K516 OCH3104K566 OCH3474H946 OCH3474H946 OCH3474H946 OCH3104K566 0 22UF 50V ZF 2012 R TP 0 22UF 50V ZF 2012 R TP 0 22UF 50V ZF 2012 R TP 0 22UF 50V ZF 2012 R TP 0 22UF 50V Z 2012 R TP 0 22UF 50V Z F 2012 R TP 0 22UF 50V Z 2012 R TP 0 22UF 50V Z 2012 R TP 0 22UF 50V 7 2012 R TP 0 22UF 50V Z 2012 R TP 0 22UF 50V Z 2012 R TP 0 1UF 50V 10 7 2012 R TP 1 2012 25V 10 7 1UF 2012 25V 10 7 22 50V 5 2012 R TP 0 1UF 50V 10 7 2012 R TP 1UF 2012 25V 10 7 0 1UF 50V 10 7 2012
32. F 50V 1095 X7R 2012 R TP 4 7UF 2012 10V 10 X5R R TP 10000PF 50V 10 B Y5P 2012 1UF 2012 25V 10 X7R R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 2012 25V 80 20 F Y5V 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 0 1UF 50V 1095 X7R 2012 R TP 10000PF 50V 1096 B Y5P 2012 OCH3104K566 OCK105DHS6A OCK105DHS6A OCK104CK56A OCK104CK56A OCK104CK56A OCK103CK51A OCK104CK56A OCK104CK56A OCK224CF56A OCK105CF94A OCK105CF94A OCK224CF56A OCK224CF56A OCK224CF56A 0 474 94 0 474 94 OCK105CF94A 0 474 94 0 474 94 0 474 94 0 474 94 OCK104CK56A OCK104CK56A OCK104CK56A 0 474 94 0 474 94 OCK225DH94A OCK333CK56A OCK224CF56A 0CK225DH94A OCK104CK56A OCK333CK56A OCK333CK56A OCK104CK56A OCK223CK51A OCK333CK56A OCK333CK56A OCK333CK56A 0CK225DH94A 0CK225DH94A OCK104CK56A 0 474 94 OCK104CK56A OCK104CK56A OCK224CF56A OCK224CF56A OCK104CK56A OCK104CK56A OCK104CK56A OCK104CK56A OCK224CF56A OCK104CK56A OCK104CK56A OCK104CK56A OCK104CK56A OCK104CK56A OCK104CK56A OCK103CK51A OCK103CK51A OCK103CK51A 0CH6470K416 DATE 2005 11 13 DESCRIPTION SPECIFICATION 0 1UF 50V 10 X7R 2012 1UF 2012 25V 10 X7R R TP 1UF 2012 25V 10 X7R R TP 0 1UF 1608 50V 1096 R TP X7R 0 1UF 1608 50V 1096 R TP X7R 0 1UF 1608 50V 1096 R TP X7R 0 01UF 1608 50V 1096 R TP B 0 1UF 1608 50V 1096 R TP X7
33. F6DC OCH8106F691 OCH8106F691 OCE107WF6DC OCE107WF6DC OCE226WF6DC OCE107WF6DC OCE107WF6DC OCE107WF6DC OCE226SK6DC OCE107WF6DC OCE226WF6DC ODSON00138A 00 226009 ODSON00138A 0DS226009AA 0DS226009AA 0DS226009AA 000184009 ODSKE00248A 002120009 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA 0DZ560009DA ODZRM00448A ODZRM00448A DATE 2005 11 13 LOC NO PART DESCRIPTION SPECIFICATION 100UF MVK 16V 20 R TP SMD 100UF MVK 16V 20 R TP SMD 1UF MVK 50V 20 R TP SMD S 100UF MVK 16V 20 R TP SMD 10UF 16V 20 105STD CYL R 100UF MVK 16V 20 R TP SMD 100UF MVK 16V 20 R TP SMD 10UF 16V 20 105STD CYL R 10UF 16V 20 105STD CYL R 100UF MVK 16V 20 R TP SMD 100UF MVK 16V 20 R TP SMD 22UF MVK 16V 20 R TP SMD 100UF MVK 16V 20 R TP SMD 100UF MVK 16V 20 R TP SMD 100UF MVK 16V 20 R TP SMD 22UF MVG 50V 20 SMD R TP 100UF MVK 16V 20 R TP SMD 22UF MVK 16V 20 R TP SMD MMBD301LT1G LF ON SEMI R TP KDS226 80V ANS MMBD301LT1G LF ON SEMI R TP KDS226 80V ANS KDS226 80V ANS KDS226 TP 80V ANS KDS184
34. O 3900PF 50V 1096 B Y5P 2012 47PF 2012 50V 5 NPO R TP 4700PF 50V 10 B Y5P 2012 0 33UF 16V 10 X7R 2012 R T 100PF 1608 50V 5 R TP NPO 100PF 1608 50V 5 R TP NPO 100PF 1608 50V 5 R TP NPO 100PF 1608 50V 5 R TP NPO 47 1608 50V 5 R TP NPO 47PF 1608 50V 5 R TP NPO 270PF 1608 50V 5 R TP NPO 270PF 1608 50V 5 R TP NPO 270PF 1608 50V 5 R TP NPO 220PF 1608 50V 5 R TP NPO 47 1608 50V 5 R TP NPO 47 1608 50V 5 R TP NPO 47 1608 50V 5 R TP NPO 15PF 1608 50V 595 R TP NPO 15PF 1608 50V 595 R TP NPO 15PF 1608 50V 595 R TP NPO 15PF 1608 50V 595 R TP NPO 47 1608 50V 5 R TP NPO 47 1608 50V 5 R TP NPO 15PF 1608 50V 595 R TP NPO 100PF 1608 50V 5 R TP NPO 27PF 1608 50V 5 R TP NPO 47 1608 50V 5 R TP NPO 47 1608 50V 5 R TP NPO 47 1608 50V 5 R TP NPO 10PF 1608 50V 595 R TP NPO 1000PF 1608 50V 595 R TP NPO 2200UF KMG RD 10V 20 FL TA 1000UF KMG 25V 20 FL TP 5 470UF 25V 20 FL TP 5 470UF 25V 20 FL TP 5 470UF KMG RD 10V 20 FL BUL 100UF MVK 16V 2095 R TP SMD 100UF 16V 20 R TP SMD 100UF 16V 20 R TP SMD 100UF 16V 20 R TP SMD 10UF 16V 2096 105STD CYL R 10UF 16V 2096 105STD CYL R 10UF 16V 2096 105STD CYL R 47UF 25V 20 105STD CYL 330UF MVG MC VC 6 3V 20 SM 10UF 16V 20 105STD CYL 4 7UF 35V 20 R TP SMD 100UF MVK 16V 20 R TP SMD OCE107WF6DC OCE107WF6DC OCE105WK6DG OCE107WF6DC 0CH8106F691 OCE107WF6DC OCE107W
35. R 0 1UF 1608 50V 1096 R TP X7R 0 22UF 1608 16V 1096 R TP X7 1608 16V 80 20 R TP 1608 16V 80 20 R TP 0 22UF 1608 16V 10 R TP X7 0 22UF 1608 16V 10 R TP X7 0 22UF 1608 16V 1096 R TP X7 0 47UF 1608 25V 80 20 R 0 470 1608 25V 80 20 R 1608 16V 80 20 R TP 0 47UF 1608 25V 80 20 R 0 47UF 1608 25V 80 20 R 0 47UF 1608 25V 80 20 R 0 47UF 1608 25V 80 20 R 0 1UF 1608 50V 1096 R TP X7R 0 1UF 1608 50V 1096 R TP X7R 0 1UF 1608 50V 1096 R TP X7R 0 47UF 1608 25V 80 20 0 47UF 1608 25V 80 20 2 2UF 2012 25V 80 20 F Y 33000PF 1608 50V 10 R TP X 0 22UF 1608 16V 10 R TP X7 2 2UF 2012 25V 80 20 F Y 0 1UF 1608 50V 1096 R TP X7R 33000PF 1608 50V 1096 R TP X 33000PF 1608 50V 1096 R TP X 0 1UF 1608 50V 1096 R TP X7R 223 1608 50V 10 B Y5P R T 33000PF 1608 50V 1096 R TP X 33000PF 1608 50V 1096 R TP X 33000PF 1608 50V 1096 R TP X 2 2UF 2012 25V 80 20 F Y 2 2UF 2012 25V 80 20 F Y 0 1UF 1608 50V 1096 R TP X7R 0 47UF 1608 25V 80 20 R 0 1UF 1608 50V 10 R TP X7R 0 1UF 1608 50V 1096 R TP X7R 0 22UF 1608 16V 1096 R TP X7 0 22UF 1608 16V 1096 R TP X7 0 1UF 1608 50V 1096 R TP X7R 0 1UF 1608 50V 1096 R TP X7R 0 1UF 1608 50V 1096 R TP X7R 0 1UF 1608 50V 10 R TP X7R 0 22UF 1608 16V 1096 R TP X7 0 1UF 1608 50V 1096 R TP X7R 0 1UF 1608 50V 1096 R TP X7R 0 1UF 1608 50V 1096 R TP X7R 0 1UF 1608 50V 1096 R TP X7R 0 1UF 1608 50V 1096 R TP X7R 0 1UF 160
36. R TP 1000PF 50V 5 2012 R TP 1000PF 50V 5 2012 R TP 0 1UF 50V 10 7 2012 R TP 0 1UF 50V 10 7 2012 R TP 0 1UF 50V 10 7 2012 R TP 0 1UF 50V 10 7 2012 R TP 4 7UF 2012 10V 10 X5R R TP 4 7UF 2012 10V 10 X5R R TP 0 1UF 50V 10 7 2012 R TP 0 1UF 50V 10 X7R 2012 R TP 0 1UF 50V 10 7 2012 R TP 0 1UF 50V 10 7 2012 R TP 0 1UF 50V 10 7 2012 R TP 0 47UF 25V 80 20 F Y5V 0 47UF 25V 80 20 F Y5V 0 1UF 50V 1096 X7R 2012 R TP 0 1UF 50V 10 X7R 2012 R TP 0 47UF 25V 80 20 F Y5V 0 47UF 25V 80 20 F Y5V 0 1UF 50V 10 X7R 2012 R TP 0 1UF 50V 10 X7R 2012 R TP 0 47UF 25V 80 20 F Y5V 1000PF 50V 5 2012 R TP 1000PF 50V 5 2012 R TP 1000PF 50V 5 2012 R TP 1000PF 50V 5 2012 R TP 0 47UF 25V 80 20 F Y5V 0 1UF 50V 1096 X7R 2012 R TP 0 1UF 50V 10 X7R 2012 R TP 10000PF 50V 10 B Y5P 2012 0 1UF 50V 10 X7R 2012 R TP 0 47UF 25V 80 20 F Y5V 0 47UF 25V 80 20 F Y5V 0 47UF 25V 80 20 F Y5V 0 1UF 50V 1096 X7R 2012 R TP 0CH3474H946 0 47UF 25V 80 20 F Y5V 0CK225DH94A 0CK225DH94A OCH3104K566 OCH3104K566 OCK475DDS7A OCH3104K566 OCH3103K516 OCH3104K566 OCH3104K566 OCH3104K566 OCH3104K566 OCH3104K566 OCH3104K566 OCH3104K566 OCH3104K566 OCH3104K566 OCH3104K566 OCH3104K566 OCH3104K566 OCH3104K566 OCH3104K566 OCH3104K566 OCH3104K566 OCH3104K566 OCH3104K566 OCH3104K566 OCH3104K566 OCH3104K566 OCH3104K566 OCH3104K
37. SUS R410 eek lt R420 C 411 4 LSU A lr W TU CSU Lv MFM 19 MFM ceu 15 TU Su LPL 23 W TU 1299 AUO 15 TU 3 Spe en 20 Tu SU LPL 20 TU 120 LPL 15 MFM lt 3 3U gt 12u LSU AMP N Sy IDEO LU BEES L2UV LSU AMP ANGE 33 hl 212 9317 LEE dq PAL SEAN ET Eam OBL 120 k Lemn UNER ue EYDS a a OT d 4 LAN 2 KD 326 scis 1 ssu puM 3 lt AF 21 gt AGC Gas SCL 15s gt SDA lt l 3 gt SuU TU 33U TUNER L731 lt SMDp TAENTYPE 2012 1UH uvol 21 1 KSSSSD 2204160 1794 1 ONDAF occ MD 2212 4 v rz I f S I lt eu Tu 12v 1Sv AMP pm A urr LSD BLU 2 DOLL N S 23 lt as KSCI623Y os u702 C750 KTE LAN o 5 EN KOISSSD au su VN lt AE23 gt R702 b n 7 124 GNDIF em emean em iJ DE E U SYNC B H SYNC EB RSUD C OR 3 3U 5U L2U MOD lt 1 4 gt BOUTA lt S gt BOUTA lt 4 gt H SYNC B BOUTA lt 3 gt U SYNC B BOUTA lt 2 gt DE B BOUTA lt 1 gt CLOCK B BOUTA lt 7 gt BOUTA lt S gt BOUTA lt 7 gt BOUTA lt gt lt 5 gt BOUTA lt S gt GOUTA lt S gt BOUTA lt 4 gt GOUTA lt 4 g
38. Ziel a ee se E AUDIO AMP 2005 1 2012 221 C228 1 A J L206 1112 12 221 lt 1 gt ROUT B 1 Il N S N p Y D lt 1 gt ROUT B AMR UCC 1 2 E 2 1 0 4 1 2 2 m 4 SE C227 prr 4721251 A LIP A C202 A LU 021 gt 1 AMP UCG BE18 21 KSClIO23r LC220 330U 6 cCDl1l MOR MOL CL Pate mede 1 19K 7 1 T Vv 3 gt Reis 1 s caia AFR e 1 ISK ah ah gt J 2 L207 HB LM2012 221 1 Lour B e e C240 208 1 12 8 4 5 lt 1 gt LOUT B 1 amp J J C238 C239 LODOP dus CU BLUE BIRD ITI FOoe lt Sl rr 15 177 20 1L 25 Besen PAL SECAM w SCALER MEMORY E 3 ST6 SEART 1D Sets 6 10 7 Z FF 45 ONOIF ies b Uy ESS pui P Lola 12012 01 ums ume nereo z eo 2 2 1 1 amu lt zu 1 tu 1 iu Te imc 2 60 30 STB 221 HH 1HB LE EOL PB B T 9 10
39. ground lead last Use with this receiver only the test fixtures specified in this service manual CAUTION Do not connect the test fixture ground strap to any heat sink in this receiver Electrostatically Sensitive ES Devices Some semiconductor solid state devices can be damaged easily by static electricity Such components commonly are called Electrostatically Sensitive ES Devices Examples of typical ES devices are integrated circuits and some field effect transistors and semiconductor chip components The following techniques should be used to help reduce the incidence of component damage caused by static by static electricity 1 Immediately before handling any semiconductor component or semiconductor equipped assembly off any electrostatic charge on your body by touching a known earth ground Alternatively obtain and wear a commercially available discharging wrist strap device which should be removed to prevent potential shock reasons prior to applying power to the unit under test After removing an electrical assembly equipped with ES devices place the assembly on a conductive surface such as aluminum foil to prevent electrostatic charge buildup or exposure of the assembly Use only a grounded tip soldering iron to solder or unsolder ES devices Use only an anti static type solder removal device Some solder removal devices not classified as anti static can generate electrical charges sufficient to
40. knife Remove only as much copper as absolutely necessary carefully scratch away the solder resist and acrylic coating if used from the end of the remaining copper pattern Bend a small U in one end of a small gauge jumper wire and carefully crimp it around the IC pin Solder the IC connection Route the jumper wire along the path of the out away copper pattern and let it overlap the previously scraped end of the good copper pattern Solder the overlapped area and clip off any excess jumper wire 2 At Other Connections Use the following technique to repair the defective copper pattern at connections other than IC Pins This technique involves the installation of a jumper wire on the component side of the circuit board 1 Remove the defective copper pattern with a sharp knife Remove at least 1 4 inch of copper to ensure that a hazardous condition will not exist if the jumper wire opens 2 Trace along the copper pattern from both sides of the pattern break and locate the nearest component that is directly connected to the affected copper pattern Connect insulated 20 gauge jumper wire from the lead of the nearest component on one side of the pattern break to the lead of the nearest component on the other side Carefully crimp and solder the connections CAUTION Be sure the insulated jumper wire is dressed so the it does not touch components or sharp edges DISASSEMBLY 1 2 Detached stand assy Remove the screws
41. l system from AC Power 100 240 V 50 60 Hz 1 0A Also it has the inverter function that converts input voltage to Rms value for the LCD lamp DC DC Converter block DC DC Converter convert the input 5V 15V to proper 3 3V 8V 12V for Main control system For shooting heat trouble we use the DC DC converting IC Audio Amplifier This block is composed of TPA3005D2 and peripheral device The function of the audio amplifier is that to amplify audio L R signal transmitted from audio decoder The audio signal is amplified according to pre defined DC volume control curve Audio Video IF Decoder Scaler This block is composed of and peripheral devices 1 Video Decoder This Block Selects input Video signals like CVBS Y C SCART RGB and output RGB signal On decoding We can control signal like Contrast Brightness Sharpness Color tint signals including Adaptive Comb Filter 2 Audio Decoder This block analyzes audio input signal through A V Jack and PC audio and Tuner IF The analyzed signals transmitted to audio amplifier On decoding We can control signal like Bass treble 3 IF Decoder This block can change IF signal to audio and video signal that transmitted to Video audio decoder 4 Scaler This IC includes A D Converter and LVDS Transmitter This IC is directly Inputted Analog Signal and transmits it to LCD Module 5 Micom This block controls each IC through IIC communication line
42. m being damaged by accidental shorts of the circuitry that may be inadvertently introduced during the service operation If any fuse or Resistor in this TV receiver is blown replace it with the specified When replacing a high wattage resistor Oxide Metal Film Resistor over 1W keep the resistor 10mm away from PCB Keep wires away from high voltage or high temperature parts Before returning the receiver to the customer always perform an AC leakage current check on the exposed metallic parts of the cabinet such as antennas terminals etc to be sure the set is safe to operate without damage of electrical shock Leakage Current Cold Check Antenna Cold Check With the instrument AC plug removed from AC source connect an electrical jumper across the two AC plug prongs Place the AC switch in the on position connect one lead of ohm meter to the AC plug prongs tied together and touch other ohm meter lead in turn to each exposed metallic parts such as antenna terminals phone jacks etc If the exposed metallic part has a return path to the chassis the measured resistance should be between 1 and 5 2 0 When the exposed metal has no return path to the chassis the reading must be infinite An other abnormality exists that must be corrected before the receiver is returned to the customer rer To Instrument s exposed Leakage Current Hot Check See below Figure Plug the AC cord directly into the AC outlet
43. n configuration is complete Press IN STOP Key m Amber LED is blink And then Automatically turn off Must not AC OFF during blink SERVICE OSD m Description of operation Service Menu 0000000 County Option Code Option 4 Detail Country Option 1 4 Refer Adjust spec sheet Auto ADC Adjust ADC in PC or AV by SVC Remote Control Audio Setup Only Engineering Don t setting ETC ETC Setting II SW 0 Auto adjustment amp DDC Communication in factory side 1 EDID Read and Write and shipping condiition Write Protect 0 EDID write 1 EDID write protection Full Reset Factory Reset 200X OX OX Firmware update date PAL XX inchi LOC Ver Video amp Audio Decoder Firmware Version Sedna Ver Scaler Firmware Version m How to enter SVC Menu 1 Push IN Start key in SVC remote controller 2 Push Menu key in remote controller over 5 seconds the while pushing Menu key of Local button If SVC OSD appear remove the finger on Menu key in remote controller first of all re SVC NO KE REMARK 1 POWER ToummeVonrol WUTE Toacivate the mut union _ 5 ARC 23inch To select size of the main screen Shortcut keys 6 CAPTION Switchto closed caption broadcasting _ TXT Totoggle onfotttheteletextmode TV AV External input D IN START To enter adjustment mode when manufacturing the TV sets Use the AV key to In Start 5 Vol Auto
44. nput source IC_ SW 1 EDID Write Read DDC2B and Factory m Signal equipment displays default Shipping Condition Output Voltage 700 mVp p Impress Resolution CVBS 50Hz 3 1 APC Pattern gray pattern that left amp right is black and center is After Manual Insult executing APC white signal Refer below picture Model 202 Pattern 29 at MSPG925L 3 2 ISP file m Adjust by commanding AUTO COLOR ADJUST OxF1 0x00 0x00 instruction 3 2 1 Required Equipment JIG for ISP 3 3 2 2 Confirmation ped EISEN 2 m We confirm whether 0x01 address of EEPROM Control Power LED PCB Ass y is or not 3 2 2 ISP Sequence mif 0x01 address of EEPROM isn t OxAA we 1 Connect main pcb ass y with JIG for ISP adjust once more 2 Execute WISP Program m We can confirm the ADC values from Ox0C 0x11 3 Compare version in BOM with version of hex file addresses a page 0 4 Push Browse button in WISP program and select hex file 5 Push Auto Execute button 6 Occur an Error try again and again 2 5 7 After finishing ISP Must AC ON 8 Amber LED is blink during write default value in EEPROM 24C32 9 ALL ISP process is finished when Amber LED is off and Blue LED is ON EEPROM 24C32 write Adjustment pattern PC and CVBS gt 12 3 4 Function Check 3 4 1 DDC2B test IC SW must set 1 After ADC automatically set 1 m Execute DDC2
45. re 5 RESET Component Jack PAL Multi Only ids 9 SVC MENU OPTION No Item Option1 ACMS Yes Condition Remark Yes ZG NO TG 2 ITEXT Refer remark TOP below nation GERMANY BENELUX SWITZERLAND FINLAND AUSTRIA POLAND SWEDEN ITALY NORWAY SPAIN FLOP Except above nation CH AU Refer remark YES China Australia NO Except above area AGC L Option2 2 5 SAVE remark YES TG __ ZG V esse ooo 8 Lan 68 According SU 2 TG Lang Group 1 ZG 00 english dansk 01 deutsch suomi 02 francais portugues 03 italiano 04 espanol polski 05 nederlands magyar 06 svenska chesky 07 norsk pyccknn 00 english 01 deutsch 02 francais 03 italiano 04 espanol 05 pyccknn 06 chineese 0 According to Nation 0 WEST EU English Deutsch Svenska ltaliano Francais Espanol Turkey 1 EAST EU Polski Deutsch Estonia Slovenia Chesky Romaneste 2 CYRILLIC1 Polski Deutsch Estonia Letisi oyccknn Slovenia 3 CYRILLIC2 Polski Deutsch Svenska Magyar pyccknn Chesky Slovenia Estonia 4 ARABIC English Francais Turkey Arabic 1 2 hour Off YES 2 _ Navigation Key 3 Favorite key ADJUSTMENT INSTRUCTION 1 Application 3 3 ADC Process This document is applied to 15 LCD TV which is hie se u Au O AUST TANER SE manufactured in Monitor or TV Factory or is produced on the automatically set 0 basis
46. t GOUTR lt 3 BOUTA lt 3 GOUTA lt 7 gt BOUTA lt 2 gt BouTA lt 1 SQUTA lt amp gt BOUTA lt gt GOUTA lt 2 gt GOUTA lt L gt GOUTA lt 7 gt GOUTR lt gt GOUTA lt 5 gt GOUTA lt S gt ROUTA lt S gt GOUTA lt 4 gt ROUTA lt 7 gt ROUTA lt 4 gt GOUTA lt 3 gt ROUTA lt 3 gt GOUTA lt 2 gt FOUTA amp GOUTA 1 ROUTA lt 2 gt GouTa cao ROUTA lt L gt lt gt ROUTA lt 7 gt ROUTRA lt 5 gt ROUTA lt S gt ROUTA lt 4 gt CT1S CTIS CTI 718 cris crea 2 108 108 LID LU O 1009 10 0 nir HH D 4m CLKInNP 8 2 ojos o 1 3 T 3 3 3 3 3 s L ibo jn jb io a v ole w ROUTA lt 3 gt CLOGK B ROUTA lt gt ROUTA lt 1 gt ROUTA lt gt ELI x Du OM a LG Electronics Inc Nov 2005 P NO 3828950022X Printed in Korea
47. ting or reconnecting any receiver electrical plug or other electrical connection Connecting a test substitute in parallel with an electrolytic capacitor in the receiver CAUTION A wrong part substitution or incorrect polarity installation of electrolytic capacitors may result an explosion hazard b Test high voltage only by measuring it with an appropriate high voltage meter or other voltage measuring device DVM FETVOM etc equipped with a suitable high voltage probe Do not test high voltage by drawing an arc Do not spray chemicals on or near this receiver or any of its assemblies Unless specified otherwise in this service manual clean electrical contacts only by applying the following mixture to the contacts with a pipe cleaner cotton tipped stick or comparable non abrasive applicator 10 by volume Acetone and 90 by volume isopropyl alcohol 90 99 strength CAUTION This is flammable mixture Unless specified otherwise in this service manual lubrication of contacts in not required Do not defeat any plug socket B voltage interlocks with which receivers covered by this service manual might be equipped Do not apply AC power to this instrument and or any of its electrical assemblies unless all solid state device heat sinks are correctly installed Always connect the test receiver ground lead to the receiver chassis ground before connecting the test receiver positive lead Always remove the test receiver
48. tor off Check short of main B D Check Output of Q402 Change 0402 Fail Check Output of 0406 Change 0406 Pass w s Change LED Assy ai Pass Check J103 J125 J126 Connector 16 Check LED Status Repeat APROCESS on display unit Check Change U401 U405 U401 U405 0407 0409 1407 0409 Check the input Output of U301 Change U301 Check inverter Change inverter Connector or inverter connector or inverter Check panel link Change panel link Cable or module cable or module Pass Check input source cable and jack S47 No Raster AV Signal SCART CVBS S VHS Repeat A Process Check the signal L108 L109 L110 L112 R194 R198 R184 Check the input output of U301 Check the input output of U101 Check input source cable and jack Fail No Raster on TV RF signal Check the output of TU701 Change L108 L109 L110 L112 R194 R198 R184 Re soldering or Change the defect part Check X301 Re soldering or Change the defect part 18 Fail Check 5V 33V of TU701 Re soldering or Change the defect part Check the input source Change source input Re soldering or Change the defect part Check X301 Check the input output of U301 Check the input output Re soldering or of U201 Change the defect part Pass Check the speaker
49. website http biz LGservice com e mail http www LGEservice com techsup html LG LCD TV CHASSIS CL 81 MODEL 15LC1R ZG CAUTION BEFORE SERVICING THE CHASSIS READ THE SAFETY PRECAUTIONS IN THIS MANUAL CONTENTS GONIENTS eec 2 PRODUCT SAFETY aaa eh 3 DISASSEMBLY x ee essen 6 SPECIFICATION sa 7 ADJUSTMENT INSTRUCTION uu u u snar 12 SERVICE OSD AS 14 SVO REMOGON seele 15 TROUBLE SHOOTING u uuu ll el 16 BLOCK DIAGRAM uuu uu uuu a ae 20 WIRING DIAGRAM u 1 ee le 22 EXPLODED VIEW i u u ai 23 REPLACEMENT PARTS LIST une 25 SVC SHEET aa an E a anea SAFETY PRECAUTIONS IMPORTANT SAFETY NOTICE Many electrical and mechanical parts in this chassis have special safety related characteristics These parts are identified by in the Schematic Diagram and Replacement Parts List is essential that these special safety parts should be replaced with the same components as recommended in this manual to prevent Shock Fire or other Hazards Do not modify the original design without permission of manufactu General Guidance An isolation Transformer should always be used during the servicing of a receiver whose chassis is not isolated from the AC power line Use a transformer of adequate power rating as this protects the technician from accidents resulting in personal injury from electrical shocks It will also protect the receiver and it s components fro
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