LCD TV SERVICE MANUAL
Contents
1. R265 Ce ee gt2. mn P1101 RAL VOLTAGE WAFER STRAIGHT 4 Qmm tm ree ee ee ee ee ee a IC1102 t 5 5 lt lt 15830 2 amp amp 8 8 I PAL NON EU TUNER I I 1 i i Q n TAFT WOO3D 5 5 COMBONER T THE A SYMBOL MAAK OF THIS SCHEMETIC DIAGRAM INCORPORATES I I 1 o Rie I SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X RADIATION I I WAS Jor ares L FILRE AND ELECTRICAL SHOCK HAZARDS WHEN SERVICING IF IS I be be te te ES I ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR I I I 4 mm THE CRITICAL COMPONENTS IN THE AN SYMBOL MARK OF THE SCHEMETIC B aim 12V_AMP I me dne I L 16 iev ACD PST E
3. 5 6B Cio pupa Tmsexecomk 121 330pF TMDS D0 NC2 R709 2 7 gt PC HSYNC 320 8o Ec TAIN a TMOS GNDS TMDS QND2 gt PC B 1GND 201013 5 68 R100 75 I _ NC4 TMDS_GK 8706 2 7 81018 100 ENG NC5 TMDS DO R708 2 7 gt G TX1 R1019 ENG TMDS D1 NC1 71 7 PC_VSYNC ANN gt G_TX1 TMDS_GND5 TMDS GND1 4 20100 201004 ENG ENG 21000 C a TMDS D2 NCO R710 2 7 sa 1 PEJO24 01 20 10010 201002 16V ENG E_SPRING ENG MAX232ACSE TMDS_GND4 TMDS_GND0 gt DPM_DET 1C1000 L1008 ENG e e TOSI R711 2 7 T TERMI ENG HH 1M3216 501 NC7 TMDS D2 t TERMI i GNDO R_SPRING C1018 the 01019 I c SX DH 6101 TMDS_VDD 3V_SUPPLY T SPRING 16V ENG PC_SOUND_L SV_SUPPLY e 01017 DC 1RO 19WDH T TERMII Y 1 SHIELD HI IC700 68pF 50V 68pF 50V 68pF 50V TERMII C711 68pF 50V C710 C712 C713 D702 30V a BE 5V DSUB C714 0 1uF 50V 1LT1G eue CER TENTE
4. 6 gt o o o Io gt o 6 6 6 6 6 gt 3 i ays ai 312Z 2951 3333333312 7 gt gt lt 10K I I 16V SON onrna lt mu m Qm rm oun m m mr 0 mn m mo O mn xm gt 2 PWM3 9 1 Ilu u lw c 10 ww 0 ID q GN GN GN GN Y moo D o Q QI QI QU 4 O O x I gt L OJA TXCLK RXCKN Q Qi QJ QI Q q Q QJ Q QJ Q Q Q Q Q Q Q QU Qi QJ QJ QI QJ QU don onn on ENG ENG I 9 9 Nu 5 lt CON ues gt DIGO 8 R241 R245 R250 8255 5 lt 1 5 0160171 4 7K 4 7K 4 7K I I I 3 i u AXON DIGO 6 a 2 Wi Lu B TXO 4 E TN 05 5 0190181 a t SA er e a lt lt a Ji oy tt AVDD DVI 1 DIGO 4 HDMI 3V_MST las RX1N DIGO 3 e e lt lt lt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt g
5. 1805 PAL ee 18 601JT 3 P500 SMAW200 04 C818 cate 50V B AU0UT_SC_R c833 3 3UF 5 C836 Output Speaker Headphone 50 2200pF 8816 56K lt BMUTEC pa PAL Sov 0 10 I R SOUND N L SOUND P 1807 5 68 10K 04 LS2 LS4_NONEU NTSC 3 SCART AUIN L PAL 20805 RB15 zm LB02 500 ohm HB 1S2012 0 yv JAUOUT SC L SYMBOL ARK OF THIS SCHEMETIC DIAGRAM INCORPO ECIAL FEATURES IMPORTANT FOR PROTECTION FROM X RAD HE AND ELECTRICAL SHOCK HAZARDS WHEN SERVICING I ENTIAL THAT ONLY MANUF ATUR ED PARTS BE U CRITICAL COMPONENTS IN TH OL MARK OF TH R811 19 PAL SCART AUIN R I SCART 16ohm R814 I 10K IB14 K 9RB15 14 LS2 LS4_NONEU NTSC I 44K 44K I 154_ 02154_ 0 THE N SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES vex tat gon SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X RADIATION 2 FILRE AND ELECTRICAL SHOCK HAZARDS WHEN SERVICING IF IS m ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR P800
6. Hex files File Status Checksum Unused Bytes Start Addr 0x00 xFF End Addr Batch File Elapsed Time 12 Printer 138KHz 5 Click Auto tab and set as below 6 click Run 7 After downloading check OK message MStar ISP Utility V4 0 8 1 SZ i wed uy Device Load Read Blank Program Verify Erase Config Connect Dis Con Source File filexxx bin v ReConnect v Blank 7 I OK v Read File 1 Checksum Verify I i v ExitISP i v Erase Device File Area e i Erase First 5yri Bini Partial Erase mm Res mbar en poy sa Elapsed Time 2 Printer 138KHz 3 2 ADC Process 1 PC input ADC 1 Auto RGB Gain Offset Adjustment Convert to PC in Input source Signal equipment displays Output Voltage 700 mVp p Impress Resolution XGA 1024x 768 60 2 Model 107 in Pattern Generator Pattern 29 in Pattern Generator MSPG 925 Series gray pattern that left amp right is black and center is white signal Refer below picture Adjustment pattern gt Adjust by commanding AUTO COLOR ADJUST OxF1 0 00 0x02 instruction 2 Confirmation We confirm whether 0x8C address of EEPROM OxB4 is or not If 8 address of EEPROM OxB4 isn t OxAA we adjust once more We can confirm the ADC values 0x00 0x05 addresses page 4
7. I 5V TUNER I I I ag i n a D Guo lee R1101 23 23 R1129 20 1C1108 20 Ls4 J 50V EAU I 2 5 33 2 5 KA7BM05 R LS2 LS4 NONEU NTSC LSe LS4 NONEU NTSC 16V I 83 PWR_ONOFF_1 x 81106 5V_TUNER 19 R1128 20 1 22509 33 2 5 400uF BoA TOR 81105 1K 20 e3 I TION 18V ENG 606 I I I PWM_DIM 01102 INV CTL I 10005 28C3875S TUR SA aa 2527 tur R1105 1 d 7 R605 10K 5 100 154 R1129 1R1128 1 8 25 89800 I 430 LS4 430154 1 1103 A VE I R amp 02 I ER MP1583DN Z 18 n 125 C1117 023 IB 1520 12 0B0JT DIMMING_CTL 0 1UF R610 R611 I m 50v 20 LS4 4 7 4 7K ENG JSDA 1 nion 050105 IN 10K 20 isa I 5v TUNER I ISCL_4 R622 Tok L901 i D1102 3700pF T OH E Cu I ENG e e IF vIDE0_ouT MBRS340 50V 20 LS4 HB 182012 080JT 152012 080 39pF 39pF 20 LS4 8 Iw 50v R638 I R1127 PNG gt 5V TUNER 10K 4 5V PANEL ibd I mE e R633 am 5 s 28415048 I 50 16 15V TUNER deos 16V zZ I R630 CvBS_0UT I H Z lt O I ENG ERA L lt EE lt lt lt A OUT 2500 10K c 8631 Waw g0 1uF hea 8 i i wa Sr a I n n I SIF
8. ij B 1101 1802 20806 1803 in P zx 8 255 gt 5 Om 652 125 4 9820 6 2 So l JP JP 5 JP i 22 wp JP L 2 Le 3 R630 Co Jaen 8 P306 i 2 8 22 I JP Orn 2 28 142 Ex i Eh 40 cal a ILI 2 7 aq wc A n LED LSILIBLUE BIRD III ors EG an 2 exeun DOEI iH 85 tiri R633 cli 061201 J D H zoz COO C1127 55 R309 C1002R1016 0606 AG gt R909 65 S 8 307 caos 8100481012 0303 0302 5 5 1500 L503 225 24 2 N 288 8 BET emen 202841 D ros LAL R1008R1013 222 5 8 1907 S vj n 552 503 C900 za 583 1900 o 292 aT 8 DEL eng 01009 PC SOUND R 28 I 8 8 2 z2 8 COMP SOUND L R I s ismi E s jeszs E EE i C502 2 E JP R637 5 g 8 z gaa 00 JP o L504 PC SOUND L ed 3 2 COMP Pr Bae O 552 R 06 i JP 2 ait I R508 z R904 alls Sen 83 28 R511 R506 p s Mes LE EDO 08 i 52 ge 61 o I El C500 m se C163 8504 rue Je gt
9. lt gt lt gt gt eae dogm m suwa a ey 8265 C207 10uF 16 20 Lga RENE p a maa u s sia sm iue a eS I ST 5V gt 22 9789 IC I I I 20 227 8 I 573 3V O R261 103 I 8 I E 3795 24 4 10SU 2 7 I I I ns gt T 8 LLJ cou 5202 HH 1M2012 601JT 8 I ung 8 22uF ress Bess 100 HPDCTRLC3 TY I 20 LS4 20 LS4 ST_3 33 7 I I I 8 Mas AURST CO 2185 L Jns 3 c_TxD I Ox du o 20 54 AUWS I I I ST_5V 0101 AUSCKC 248 e 1 5 3 aris 2 AUSDOC 1 1 AXE2 2 RX00 1 RX01 2 RX02 RX03 AXO3 RXOC I I I 555 8 I b 100 SDA 1C 3 amp zt m J SCL_O I E Sa zr at Saco C107 8 na I I I E Sr an 22228520 i n a 1 4 1 85545284 8d I FS AO mis 1007 ciee I I I wea 23 0 108 1 5 5 5 8
10. THE CRITICAL COMPONENTS IN THE N SYMBOL MARK OF THE SCHEMETIC ENG a ac a a e pus ratus a rae n ear PRINTED CIRCUIT BOARD MAIN TOP Abe EN C P500 e LSII BLUE BIRD III EAX32382701 8 C526 1511 1512 C527 CHASSIS LP69A 061201 J D H e e 7 LESE C524 1509 L510 C525 I I I I I 16500 22 21 20 l I 5 I lt lt lt lt lt lt 1503 2m 1500 L504 _ 1501 f 5 i I 40 a 7 arm I 3 5 I 20 I 298 I e 1 I 1 I I I R723 C706S ZD10 ak r5 1125 8230 8223 R229R224 R238R187 C513 ci108 C510 e emmu 1 73 R163R162 ES 8 2 5 n e 5 I 5 006 81129 ICt105 s 5 P s 5 a R263 R104R2 C309 8239 8815 R813 C805 R836R835 R822R168 R821 R166 R820R165 R819R159 C13 es 197 LPL P300 41105 1104 2 Ul 3 mns LO HES SSO R814 10 L1 1800 803 80 MET C833 In P800 ess 91004
11. 1 1 8216 3 3V_MST lt 555 5 5 5 5 5 2 5 5 5 235 51015 33 CASZ i I H 200 lt lt lt lt lt lt lt Z 2 2 3 O O O 2001 Z lt lt ZJO lt lt lt lt gt 002 8217 C160 06 126 gt gt gt 4 gt 2 55 55 55 555 5 5 lt lt n214 VVV33 L RASZ u O 1uF C162 79 4 47 lt lt 94 7898987 842 E zm gt SBA0 I M I n 50V O 1uF 999 9 9 9 appe pu EE ge gt 57 8215 33 gt SBA1 I 8 T apy aaja g B207 AA SS 500 cul cul cul cul cul cul our cy 33 M p164 8208 vas ES CKE DDR SDRAM SIF OUT R140 2 ENG gt N 0 gt paso i 8583 I ol ol ol l d o o ol O ja o 0051 i 5974 Y m ale 2 8 8 3 559 o turz 2 N 9 404945 qaqa 9090 I C114 E 0 1uF I I Tw 5 C s CLOSE TO IC I 2 5V_MST DDR i 10uF 5V_ 1 C163 184 4
12. Fail Fail Check 5V of TU600 nyo y Re Soldering or change the defect part Repeat A B process Check the output of TU600 Pass the input output of Change L804 L1002 L804 L1002 L1003 L1003 L1004 Fail Re soldering of Change defect part Check input output of IC100 Check the X100 Pass Check input source cable and jack 18 8 sound Check the input Source 55 Check input Output of IC100 Fail Change the source input Fail gt Check the X110 Re soldering of Change the defect part Pass Check the input Fail output of IC500 Re soldering or Change the defect Pass Check the Speaker Fail n Change Speaker Pass Check the Speaker wire 29s BLOCK DIAGRAM 019919p d 1911 5 1011003 031 p1eog 41 031 nding yoef yoef yoer yoer u 08J8 ng IN 1 00M L3V L J un AL i l 009 2 401180 2060 54 ___ 5 l 1 l 1 l UT O DIA ojpny 14 qd lu uoduo9 1 0 Ul oipny A H 8 9 u OIpnV Od q 9 u 05 1905 041009 dl 031 VV V V 2578 2590 ZIM 410 Zoor W0Hd33 1
13. Manual ADC process using Service Remote control After enter Service Mode by pushing INSTART key execute Auto RGB by pushing gt key at Auto RGB 2 COMPONENT input ADC 1 Component Gain Offset Adjustment Convert to Component in Input source Signal equipment displays Impress Resolution 480P MODEL 212 in Pattern Generator 480p Mode Y 100 Pb Pr 75 PATTERN 08 in Pattern Generator MSPG 925 Series 10 Adjust by commanding AUTO_COLOR_ADJUST OxF1 0 00 0x02 instruction 2 Confirmation We confirm whether Ox8E address of EEPROM 4 is or not f Ox8E address of EEPROM OxB4 isn t OXAA we adjust once more We can confirm the ADC values from 0x00 0x05 addresses in a page OxB4 3 3 Function Check Check display and sound Check Input and Signal items cf work instructions 1 TV 2 AV1 SCART 3 AV2 CVBS S Video 4 COMPONENT 480P 5 RGB PC 1024 x 768 60hz 6 HDMI 7 PC Audio In and H P Out Display and Sound check is executed by Remote control 4 Total Assembly line process 4 1 Adjustment Preparation 1 Above 30 minutes H run in RF no signal 2 15 Pin D Sub Jack is connected to the signal of Pattern Generator 4 2 Confirm color coordinate of RGB 1 Set Input to RGB 2 Input signal 1440 x 900 60Hz Full white 216 255 gray level 100 IRE Model 112 Pattern 4 at MSPG925L 3 Set CSM Cool
14. 0 Auto COLOR Adjustment O N 0 1 2 3 0 COOL 1 NORMAL 2 WARM 3 USER Factory mode off amp Il SW is 1 amp Input change 10 TV F4 0 1 2 4 TV 1 AV2 Component RGB DVI 5 2 EEPROM DATA READ 1 Signal Table 90 2 FACTORY DEFAULT AUTO INPUT CHANGE Delay 100ms 128 Bytes 2 Command Set Adjustment contents CMD hex ADH hex ADL hex Details EEPROM READ E7 A o 0 0 7F Read 80 O Page 80 FF Read A2 o 1 Page 0 7F Read 80 1 80 FF Read 4 2 Page O 7F Read 80 2 80 FF Read A6 3 Page 0 7 Read 6 3 Page 80 FF Read Purpose To read the appointment Address of E2PROM by 128 80h byte 5 3 E2PROM Data Write 1 Signal Table C LEN 84h Bytes CMD 8Eh ADH E PROM Slave Address A0 A2 A4 A6 A8 Not OOh Reserved by BufferTOEEPROM ADL E PROM Sub Address 00 FF Data Write data 2 Command Set Adjustment contents CMD hex ADH hex E8 16 Byte Write EEPROM WRITE Purpose 1 EDID write 16 byte by 16 byte 8 order 128 byte write TO 00 7F of EEPROM Page 4 2 FOS Default write 16 mode data HFI STD HP VP Clk CIKPh PhFine write 3 Random Data write write the appointment Address of E2PROM 5 4 VRAM Read 1 Send CMD 70h to read Video RAM value from MICOM And save its value to
15. 4 Confirm whether x 0 283 0 03 0 298 0 03 or not 4 3 Confirm color coordinate of AV2 1 Set Input to AV2 2 Input signal CVBS PAL 50Hz Full white 216 255 gray level 85 IRE Model 202 Pattern 78 at MSPG925L 3 Set PSM Dynamic CSM Cool 4 Confirm whether x 0 283 0 03 0 298 0 03 or not 4 4 Confirm color coordinate of component 1 Set Input to COMPONENT 2 Input signal 480P Full white 216 255 gray level 85 IRE Model 212 Pattern 78 at MSPG925L 3 Set PSM Dynamic CSM Cool 4 Confirm whether x 0 283 0 03 0 298 0 03 or not 4 5 Other quality Confirm that each items satisfy under standard condition that was written product spec Confirm Video and Sound at each source 1 AV 1 Select input AV1 and whether picture is displayed or not SCART output displayed or not 2 Select input AV2 S video and whether picture is displayed or not 3 Select input AV2 CVBS and whether picture is displayed or not 2 TV Select input TV and check below item In Gumi Factory C05 E05 TELETEXT 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 Refer to 7 Preset CH information 3 RGB Select input RGB and whether picture is displayed or not 4 COMPONENT Select input COMPONENT and whether picture is displayed or not 5 HDMI Select in
16. 52 100 1ST_3 3V sc R 2 8134 251 Eu RINIM SDI 2 ae Serial Flash x I ei P135 A 448852 0 04705 gay BINON 29 SCK R254 100 SL ul S mE R264 EREE I R136 A27 53 0 0479 BINOP GND 11 So NON ON ON PC B 30 2 10K 10K I 28 55585 m 8127 428 441 0 O47uF GINOM 3 VDDP 2 S RAN am m m ag 8888 IM B nice 45 fo o47ur GINOP 32 AE 8191 100 E Sree es I 595 333354 8 VGA soc MEIES 42 46 0 0479 SOGINO 802 8192 100 9 oun e I h 8130 4 47 10 047UF RINOM WAZ og R193 100 4 2 R131 742 0 047uF RINOP 35 407 e R190 100 I I san ES i 250 9 37 gt PC_HSYNC 5 85 S CO AD e P187 A00 gt INV CTL PC_VSYNC 2 eo NE 39 EE 96 I 40 Coup bol r EN 122 426135 0 0470660 BINeP ADI 4 5 S 7 I I COMP_Pb amp F123 0 o 0272069 AD 0 2 2 soy 8124 424841 1000pF 50 SOGIN2 43 11 dll ST 3 3V E I I MADATT Coney e 2 R125 421 0 0474 50 GINEP 44 MADR 10 un I I compy 4 CSS 0 448823 0 0470 50 45 MADR 9 q x Ry cone pet R119 36 0 047uF 5 RIN2P 46 MADR 8 Em as I d 8120 428837 0 047 RIN2M
17. 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 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 circuit board printed foil Use the following soldering technique a Allow the soldering iron tip to reach a normal temperature 500 F to 600 F b First hold the soldering iron tip and solder the strand against the component lead until the solder melts c 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 d Closely inspect the solder area and remove any excess or splashed solder with a small wire bristle brush IC Remove Replacement Some chassis circuit boards have 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 repl
18. ce T l H y gt zoo 8902 z2 22 S82 MO Qn BM 000 gt O n 0006 S R903 000 5 LE ime COMP Y a 1128 2 20901 R901 2 20900 R900 2 2 0052 202 2 5 pel c R107 223 Ey TE 2219 QN9 8 25 OND 9 9S OND 8 250 9 100 58 2 5081 2189 R304 R308 R307 R303 Piri pi gt rs us CONTROL cao 4000 CHHO 204001 CRO Heo R4005 5 O O 204000 c a 5 544004 504006 5 4007 R4003 R4000 R4001 Eu la si 0 SW4001 W4000 W4003 6 EJ a a LG Electronics Inc Jan 2007 P NO MFL37421401 Printed in Korea
19. 50V C0 C1608C0G1H220JT 22pF 5 50V C0 C1608C0G1H220JT 22pF 5 50V C0 C1608C0G1H220JT 22pF 5 50V C0 MVK4 0TP16VC10M 10uF 20 16V 1 MVK4 0TP16VC10M 10uF 20 16V 1 0603B104K500CT 100nF 10 50V X MVK5 0TP25VC10M 10uF 20 25V 2 C1608C0G1H331JT 330pF 5 50V MVK4 0TP16VC10M 10uF 20 16V 1 0603B104K500CT 100nF 10 50V X MVK4 0TP50VC3 3M 3 3uF 20 50V MVK4 0TP50VC3 3M 3 3uF 20 50V 0603B104K500CT 100nF 10 50V X MVK4 0TP50VC3 3M 3 3uF 20 50V MVK4 0TP50VC3 3M 3 3uF 20 50V 0603B104K500CT 100nF 10 50V X 0603B222K500CT 2 2nF 10 50V Y 0603B222K500CT 2 2nF 10 50V Y 0603B104K500CT 100nF 10 50V X 0603B104K500CT 100nF 10 50V X C1608C0G1H102JT 1nF 5 50V C0G C1608C0G1H102JT 1nF 5 50V C0G KDS181 1 2V 85V 2A 4NSEC MBRS340 525MV 40V 4A 0SEC OF 0 MBRS340 525MV 40V 4A OSEC OF 0 KDS181 1 2V 85V 2A 4NSEC KDS181 1 2V 85V 300MA 2A 4NSEC KDS181 1 2V 85V 2A 4NSEC KDS184 KDS184 TP KEC 85V KDS184 KDS184 TP KEC 85V MMBD301LT1G 600MV 30V 1 5p KDS226 1 2V 85V 2A 4NSEC D705 D706 ZD1000 ZD1005 ZD1006 ZD1007 ZD1008 ZD1009 ZD1010 ZD1011 ZD1013 ZD1014 ZD1015 ZD1016 ZD1017 ZD1018 ZD1019 ZD1020 201021 20701 20702 20703 20704 20705 20800 20801 20802 20803 20804 20809 20811 20900 20901 20902 20903 20904 20905 20906 20907 102 100 101 103 1100 1101 1102 1103 1104 1105 1106 1108 400 005226009
20. 596 1 10W 1 KCN DS 0 0089 D SUB 15P 2 29MM SMW200 11P 11P 2 00MM 1R STRAI SMW200 28C 28 2 0MM 28 STRAIG SMAW200 05P 5P 2 00MM 18 ANGLE SMAW200 08P 2 00 1R ANGLE SMAW200 04P 4P 2 00MM 18 ANGLE PEJ024 01 1P 4P STRAIGHT TR 3 PPJ148 07 14 0MM 1RX3C STRAIGH PSJ014 01 SOCKET 4P ANGLE DIP PEJ024 01 1P 4P STRAIGHT TR 3 DC1R019WDH SOCKET 21P STRAIGHT PPJ209 01 14 0MM 1RX3C ANGLE PSC003 01 21P 21P 1C 3 81MM ST TAFT W003D PAL B G I D K SECAM DESCRIPTION SPECIFICATION SPECIFICATION LOC NO PART NO LOC DESCRIPTION SPECIFICATION LOC NO PART NO DESCRIPTION SPECIFICATION CONTROL BOARD C4000 OCN1040K949 CH UP050 F104Z B B Z 100nF 20 C4001 OCN1040K949 CH UP050 F104Z B B Z 100nF 20 P4000 6602T20009B SMAW200 03P 2 00 18 ANGLE R4000 ORN6801F409 RN 96T1F6K80 6 8KOHM 1 1 6W 3 R4001 ORN2201F409 RN 96T1F2K20 2 2KOHM 1 1 6W 3 R4002 ORN1001F409 RN 96T1F1K00 1KOHM 1 1 6W 3 2 R4003 ORN6801F409 RN 96T1F6K80 6 8KOHM 1 1 6W 3 R4004 ORN2201F409 RN 96T1F2K20 2 2KOHM 1 1 6W 3 R4005 ORN1001F409 RN 96T1F1K00 1KOHM 1 1 6W 3 2 SW4000 140 058B EVQPB205K 1C1P 15VDC 0 02 VER SW4001 140 058B EVQPB205K 1C1P 15VDC 0 02 VER SW4002 140 058B EVQPB205K 1C1P 15VDC 0 02 VER SW4003 140 058B EVQPB205K 1C1P 15VDC 0 02 VER SW4004 140 058B EVQPB205K 1C1P 15VDC 0 02 VER SW4005 140 058B EVQPB205K 1C1P 15VDC 0 02 VER SW4006 140 058B EVQPB205K 1C1P 15VDC 0 02 VER SW4007 140 058B EV
21. F9 w WW D E 20 6 28 55 Fa E S a All Data Value b Changeble Data Serial No Controlled Data 01 Month Controlled Data 00 Year Controlled Check sum 4 8 HDCP SETTING High Bandwidth Digital Contents Protection 1 Connect D sub Signal Cable to D Sub Jack 2 Input HDCP key with HDCP key in program 3 HDCP Key value is stored on EEPROM AT24C64 which is 00 20 addresses of page 4 AC off on and on HDCP button of MSPG925 and confirm whether picture is displayed or not of using MSPG925 5 HDCP Key value is different among the sets 4 9 Outgoing condition Configuration 1 After all function test press IN STOP Key by SVC Remote control And Make Ship Condition 2 When pressing IN STOP key by SVC remote control Green and red LED are blinked alternatively And then Automatically turn off Must not AC power OFF during blinking 4 10 Internal pressure Confirm whether is normal or not when between power board s ac block and GND is impacted on 1 5kV dc or 2 2kV dc for one second 4 11 Option data setting SVC OSD setting 1 PAL Model Change by Suffix m e ondton _ No ACMS Y TEXT FLOF CH AU BOOSTER 2S 5 3 N U JJ TOP FLOF 0 Except below area 1 China Australia ES ES BG IDK
22. L Acting FM ST after checking Nicam Y SAVE HDEV MONO 2 8 key 1 KEY TYPE 2 Option4 DefaultLang J3 2 Lang English Deutsch French Italiano Spanish Nederlands Svenska Norsk Dansk Suomi Portuguese Romaneste Polski Magyar Chesky gt Y c C E H ii 3 T Lang AUSTRIA BULGARIA CROATIA CZECH DENMARK ENGLAND ESTONIA FINLAND FRANCE GERMANY GREECE HUNGARY ITALY LATVIA NETHERLANDS NORWAY POLAND PORTUGAL RUMANIA RUSSIA SERBIA SLOVAKIA SLOVENIA SPAIN SWEDEN SWITZERLAND TURKEY ARAB HEBREW Others Option5 Yes 0 0 0 0 0 0 0 00 TV LINK TUNER No FACTORY MODE Yes lt c lt m 12 5 Adjustment 5 1 Adjustment Commands LENGTH 84 Adjustment Contents CMD ADR VAL hex FACTORYON EO 00 _ E2 00 EEPROMALLINT E4 00 E7 00 Write data COLOR SAVE R G B cutoff Drive EB Contrast Bright ADJUST CHANGE_COLOR _TEMP Description Factory mode on Factory mode off EEPROM clear EEPROM Read EEPROM Write by some values Color Save 1001 They have different range 100 each mode FOS Adjustment 00 00 00 100 0 0 00 100 00 Drive adjustment 00 FF 00 00 00 00 00 00 00 00 FF 00 0 7F Offset adjustment 00 00 7F 00 00 00 00 Bright adjustment 00 64 Luminance adjustment
23. NT 1 I R1022 1 15 LS4 EU HEADPHONE OUT R I w I 9610 25 38755 E Luca 1014 75 R_SPRING S VIDEO C SPRING e T SPRIMNG 1504 S VIDEO DET JHEADPHONE 0UT L 81024 5 6 b Luc3 3 3uH B_TERMENAL2 2 LS4 NONEU NT 201048 201019 5 68 5 68 E LuG64 81019775 T TERMINAL2 C1013 R1025 12 23 10 10V ZD1005 5 68 201000 SHIELD PLATE 7 SHIELD 5 68 884 201021 W 201020 5 68 5 68 5 6B 201007 9701 KCN DS 0 0088 D704 KDS226 KDS226 KDS226 HPDCTRL HOTPLUG DET OUT HOTPLUG DET IN 80 gt SDA HD V AUDIO R ODE DDC RA TIN PPJ148 07 RD O SPRING gt SCL HD RD GND DDC CLK OUT DDC CLK IN wH c LUb L 10 yeavoro t uk SUK CE REMOTE OUT CE REMOTE IN t SP LS4_NONEU NTBC BU I 201010 LSP LS4_NONI _ Dien 201005 5 68 81004 C1004 1008 R1016 81017 ENG TMDS CK NC3 DDCA_SDA 1 50V wok TE 16 1004 201008 201011 7 KCN DS 0 0088 KSD TMDS_GND7 TMDS GND3 L PCG YL J0 SPRING
24. OUT TOK 7 5509 I I D DETUR s s IF AUDIO OUT R606 I 1K 0 027uF BY VOLTAG 104405 1 Q I T I 2 CD a RE L1114 I HH 1M3216 501 3 3V_MST I I 1 1100 LD1086D2M33 x IS I HH 1M3216 504 62420 RA 2 0 4UF I 15V_TUNER aN our 16V T SPL 8 74 I 1 O 1100 m ADJ GND 20603 I 100 15045 16V eu 10v 1 1105 4 Revision 1 1104 2 AZ1117H 2 5TR E1 T E I T e I 1 1101 HH 1M3216 501 C602 LD10BED2T18TR EE Svr eje SHIELD G Qiur B S I 150 I s SIF_OUT I R604 1140 LT C1141 77 I 196 Reo8 I 100uF 50v 330 16 2 5V DDR lt lt gt D lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt 0 24 01 G Video S 77 HEADPHONE OUTPUT 160hm J1002 T TERMINAL1 PSJ014 01 061 1 R102512 23 R1021 k1 15 LS4 EU I LSA NONEU
25. 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 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 T Immediately before handling any semiconductor component or semiconductor equipped assembly drain 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 2 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
26. gt ust Sov TA ists T s 0 tur 0 iuF 8 lt 14 31810 BT P aT a A a ee ee 9 SR 88 e 55 Se meom 215 PESE T 5 50v 4 28 Sul lys 4 Be48 AA I I I I EB 4 x 3 cov Bov B219 A0 Mode Selection I I 5 E I 4 me WL Seas 3 SECAM L 9 9 1 2 gt 2 J a x ST 3 3V e a a NC CICLOS 3 TES 1 2999 9999 99 lt 99999929999 m D gt 4 I CU E EE 3 Q ijo s mi d 1 22 x gt ENG wiam ajo x olololo m al R242 ENG I I I L102 110 G Re46 R251 R256 moro HH 1M3216 501 C118 gt a HHS n 2 gt gt gt gt gt gt gt gt gt gt 09 29 gt gt gt gt gt gt gt gt gt gt gt 4K 10K 1K ui 10uF 0 1uF gt
27. or Inverter Pass Check Output of L300 Fail Change L300 Pass Check the LVDS Output of IC100 Pass Fail Check Input source Cable and Jack gt Change Module Fail Change IC100 2465 3 RASTER Signal Repeat B process Pass Check the input output of R735 R736 Pass Check Fail Check the J701 the input output Fail He soldering or Change of R128 R131 the defect part H136 Pass Check the Fail Re soldering or change the input output of IC100 Pass Check input source cable and jack defect part Check the X100 316 4 No Raster Component Signal Repeat B process Pass Check the input output of R901 Fail p Check J900 Pass Check the input output of R125 Fail Re soldering or Change the defect part Pass Check the Fail input output of IC100 Pass Check input source cable and jack Re soldering or change the defect part Check the X100 zd 5 No Raster HDMI Signal Repeat A B process 55 Fail Check the input ii output of 1 100 Re soldering or change the defect part Check the X100 Pass Check input source cable and jack 6 No Raster on AV Scart in 7 No Raster on TV RF Signal Video S Video Signal Pass Pass
28. 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 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 T 4 Use a grounded tip low wattage soldering iron and appropriate tip size and shape that will maintain tip temperature within the range 500 F to 600 F Use an appropriate gauge of RMA resin core solder composed of 60 parts tin 40 parts lead
29. 0 6210 0010 6210 0010 6210TCE001G 6210 0010 6210TCE001G 6210TCE001A 6210 6210 6210 6210 6200J00005E 6200J00005E 6200J00005E 6210TCE001A 6210 6202VDT002B LOC NO PART NO DESCRIPTION SPECIFICATION YDA138 EZ D 3 9TO13 5V 7mV 0 CM2021 00TR 1VTO5 5V 0VTO0V 0V AT24C02BN 10SU 1 8 2KBIT 256x8 AT24C02BN 10SU 1 8 2KBIT 256x8 COILs FILTERs INDUCTORs HB 1S2012 080JT 8OHM 2X1 25X1M HB 1S2012 080JT 8OHM 2X1 25X1M FI B2012 332KJT 3 3UH 10 50 FI B2012 332KJT 3 3UH 10 50 FI B2012 332KJT 3 3UH 10 50 HB 1S2012 080JT 8OHM 2X1 25X1M HB 1S2012 080JT 8OHM 2X1 25X1M HB 1S2012 080JT 8OHM 2X1 25X1M HH 1M3216 501JT 500OHM 3 2X1 6 HH 1M3216 501JT 500OHM 3 2 1 6 HH 1M3216 501JT 500OHM 3 2 1 6 HB 1S2012 080JT 8OHM 2X1 25X1M HB 1S2012 080JT 8OHM 2X1 25X1M DBF 1030A 30uH 2 5 10 8X10M HH 1M2012 601JT 600OHM 2X1 25X HH 1M3216 501JT 500OHM 3 2 1 6 HH 1M3216 501JT 500OHM 3 2X1 6 HH 1M3216 501JT 500OHM 3 2 1 6 HH 1M3216 501JT 500OHM 3 2 1 6 HH 1M3216 501JT 500OHM 3 2X1 6 HB 1S2012 080JT 8OHM 2X1 25X1M HB 1S2012 080JT 8OHM 2X1 25X1M HB 1S2012 080JT 8OHM 2X1 25X1M DBF 1030A 30uH 2 5 10 8X10M DBF 1030A 30uH 2 5 10 8X10M 1030 30uH 2 5 10 8X10M 1030 30uH 2 5 10 8X10M HH 1M3216 501JT 500OHM 3 2X1 6 HH 1M3216 501JT 500OHM 3 2 1 6 HH 1M3216 501JT 500OHM 3 2 1 6 HH 1M3216 501JT 500OHM 3 2X1 6 HH 1M3216 501JT 500
30. 005226009 ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA ODZ560009DA EAN36363801 EAN33715803 OIMMRALO26C OIPRPSGO25A OIPMGSG016A OIMCRMZ001A OIMCRMZ001A OIPMG00107A OIMCRRHO01A EAN33594801 0155780500 EAN32205201 LOC NO PART NO DESCRIPTION SPECIFICATION KDS226 1 2V 85V 300MA 2A 4NSEC KDS226 1 2V 85V 300MA 2A 4NSEC UDZS5 6B 5 6V 5 49TO5 73V 600H UDZS5 6B 5 6 5 49TO5 73V 60 UDZS5 6B 5 6V 5 49TO5 73V 600H UDZS5 6B 5 6 5 49TO5 73V 60 UDZS5 6B 5 6V 5 49TO5 73V 600H UDZS5 6B 5 6 5 49TO5 73V 600H UDZS5 6B 5 6V 5 49TO5 73V 600H UDZS5 6B 5 6V 5 49TO5 73V 600H UDZS5 6B 5 6 5 49TO5 73V 60 UDZS5 6B 5 6V 5 49TO5 73V 600H UDZS5 6B 5 6V 5 49TO5 73V 600H UDZS5 6B 5 6 5 49TO5 73V 600H UDZS5 6B 5 6 5 49TO5 73V 600H UDZS5 6B 5 6 5 49TO5 73V 600H UDZS5 6B 5 6V 5 49TO5 73V 600H UDZS5 6B 5 6V 5 49TO5 73V 600H UDZS5 6B 5 6V 5 49TO5 73V 600H UDZS5 6B 5 6V 5 49TO5 73V 600H UDZS5 6B 5 6V 5 49TO5 73V 600H UDZS5 6B 5 6 5 49TO5 73V 60 UDZS5 6B 5 6 5 49TO5 73V 600H UDZS5 6B 5 6 5
31. 04K500CT 100nF 1096 50V X 0603B104K500CT 100nF 1096 50V X 0603B104K500CT 100nF 1096 50V X 0603B104K500CT 100nF 1096 50V X 0603B104K500CT 100nF 1096 50V X 0603B104K500CT 100nF 1096 50V X 0603B104K500CT 100nF 1096 50V X C1608C0G1H102JT 1nF 5 50V 0603B104K500CT 100nF 1096 50V X 0603B104K500CT 100nF 1096 50V X C2012Y5V225ZFT 2 2uF 20 80 MVK8 0TP25VC47M 47uF 20 25V 8 0603B103K500CT 10nF 10 50V X7 0603B103K500CT 10nF 10 50V X7 C2012X7R1E474KT 470nF 10 25V C1608X7R1A105KT 1 10 10V X7 MVK6 3TP16VC100M 100uF 20 16V C3216X7R1C475KT 4 7uF 10 16V C3216X7R1C475KT 4 7uF 10 16V C1608X7R1A105KT 1 10 10V X7 MVK10TP25VC330M 330uF 20 25V C3216X7R1C475KT 4 7uF 10 16V C2012X7R105KFT 1uF 10 25V X7R MVK10TP25VC330M 330uF 20 25V C3216X7R1C475KT 4 7uF 10 16V 0603B104K500CT 100nF 1096 50V X MVK4 0TP16VC10M 10uF 20 16V 1 C1608X7R1A105KT 1 10 10V X7 C1608X7R1A105KT 1 10 10V X7 0603B104K500CT 100nF 1096 50V X C1608X7R1A105KT 1 10 10V X7 C2012X7R1E474KT 470nF 10 25V 0603B103K500CT 10nF 1096 50V X7 0603B103K500CT 10nF 1096 50V X7 C1608C0G1H102JT 1nF 5 50V C1608C0G1H102JT 1nF 5 50V C1608C0G1H102JT 1nF 5 50V C1608C0G1H102JT 1nF 5 50V 0603B103K500CT 10nF 1096 50V X7 0603B103K500CT 10nF 1096 50V X7 0603B103K500CT 10nF 1096 50V X7 MVK6 3TP16VC100M 100uF 20 16V MVK6 3TP16VC100M 100uF 20 16V 0603B273K500CT 27nF 1096 50V X7 0603B273K500CT 27nF 1096 50V X7 0603B104K500CT 100nF 1096 50
32. 0603B104K500CT 100nF 1096 50V X 0603B104K500CT 100nF 1096 50V X 0603B104K500CT 100nF 1096 50V X MVK4 0TP16VC10M 10uF 20 16V 1 0603B104K500CT 100nF 1096 50V X 0603B104K500CT 100nF 1096 50V X 0603B104K500CT 100nF 1096 50V X 0603B104K500CT 100nF 1096 50V X C2012Y5V1C225MT 2 2uF 20 16V C3216X7R1C106KT 10uF 10 16V X 0603B104K500CT 100nF 1096 50V X MVK10TP35VC220M 220uF 20 35V C1608C0G1H102JT 1nF 5 50V C1608C0G1H101JT 100pF 5 50V C C1608C0G1H101JT 100pF 5 50V 0CC101CK41A 47 0CC101CK41A 0CC101CK41A OCE226WF6DC OCK105DH56A OCE107WF6DC OCK104CK56A OCK104CK56A OCK104CK56A OCK104CK56A OCK104CK56A OCK104CK56A OCK104CK56A 0CC102CK41A OCK104CK56A OCK104CK56A OCK225DH94A OCE476WH6DC OCK103CK56A OCK103CK56A OCK474DH56A OCK105CD56A OCE107WF6DC OCK475EF56A OCK475EF56A OCK105CD56A OCE337WH6DC OCK475EF56A OCK105DH56A OCE337WH6DC OCK475EF56A OCK104CK56A OCE106WFKDC OCK105CD56A OCK105CD56A OCK104CK56A OCK105CD56A OCK474DH56A OCK103CK56A OCK103CK56A 0CC102CK41A 0CC102CK41A 0CC102CK41A 0CC102CK41A OCK103CK56A OCK103CK56A OCK103CK56A OCE107WF6DC OCE107WF6DC OCK273CK56A OCK273CK56A OCK104CK56A OCK104CK56A OCK104CK56A LOC NO PART NO DESCRIPTION SPECIFICATION C1608C0G1H101JT 100pF 5 50V C C1608C0G1H470JT 47pF 5 50V CO C1608C0G1H101JT 100pF 5 50V C1608C0G1H101JT 100pF 5 50V MVK5 0TP16VC22M 22uF 20 16V C2012X7R105KFT 1uF 10 25V X7R MVK6 3TP16VC100M 100uF 20 16V 0603B1
33. 0M 470uF 20 25V MVK6 3TP16VC100M 100uF 20 16V MVK8 0TP25VC100M 100uF 20 25V OCK104CK56A OCK104CK56A OCK105DH56A OCK105CD56A OCK225DFK4A OCK104CK56A OCE107WF6DC 0 477 6 OCK104CK56A OCE107WF6DC OCE107WF6DC OCK104CK56A OCK104CK56A OCK104CK56A OCE106WFKDC OCK104CK56A OCK104CK56A 0CC102CK41A OCK104CK56A OCK104CK56A OCC560CK41A OCC560CK41A OCK473CK56A OCK473CK56A OCK473CK56A OCK473CK56A OCK473CK56A OCK473CK56A OCK473CK56A OCK473CK56A OCK473CK56A OCK473CK56A OCK473CK56A OCK473CK56A OCK473CK56A 0CC102CK41A OCK473CK56A OCK473CK56A OCK473CK56A OCK473CK56A OCK473CK56A OCK473CK56A OCK473CK56A OCK473CK56A OCK473CK56A OCK473CK56A OCK473CK56A OCK473CK56A OCK473CK56A OCK473CK56A DATE 2007 01 09 LOC NO PART NO DESCRIPTION SPECIFICATION 0603B104K500CT 100nF 10 50V X 0603B104K500CT 100nF 10 50V X C2012X7R105KFT 1uF 10 25V X7R C1608X7R1A105KT 1 10 10V X7 C2012Y5V1C225MT 2 2uF 20 16V 0603B104K500CT 100nF 1096 50V X MVK6 3TP16VC100M 100uF 20 16V KMG5 0TP16VB470M 470uF 20 16V 0603B104K500CT 100nF 1096 50V X MVK6 3TP16VC100M 100uF 20 16V MVK6 3TP16VC100M 100uF 20 16V 0603B104K500CT 100nF 1096 50V X 0603B104K500CT 100nF 1096 50V X 0603B104K500CT 100nF 1096 50V X MVK4 0TP16VC10M 10uF 20 16V 1 0603B104K500CT 100nF 1096 50V X 0603B104K500CT 100nF 1096 50V X C1608C0G1H102JT 1nF 5 50V 0603B104K500CT 100nF 1096 50V X 0603B104K500CT 100nF 1096 50V X C1608C0G1H560JT 56pF 5 50V CO C
34. 1 MCROSEZPJ104 100KOHM 5 1 10W MCROSEZPJ102 1KOHM 5 1 10W 16 MCROSEZPJ102 1KOHM 5 1 10W 16 MCROSEZPJ000 5 1 10W 160 MCROSEZPJ103 10KOHM 5 1 10W 1 MCROSEZPJ103 10KOHM 5 1 10W 1 MCROSEZPJ103 10KOHM 5 1 10W 1 MCROSEZPJ103 10KOHM 5 1 10W 1 MCROSEZPJ103 10KOHM 5 1 10W 1 0RJ1002D677 0RJ1001D677 0RJ4700D677 ORJ3300D677 0RJ1001D677 0RJ4701D677 0RJ4701D677 ORJ2700D677 0RJ1000D677 0RJ1500D677 0RJ1000D677 0RJ1500D677 ORJ2700D677 0RJ1001D677 0RJ1000D677 0RJ1000D677 0RJ4701D677 0RJO271D677 0RJO271D677 0RJO271D677 0RJO271D677 0RJO271D677 0RJO271D677 0RJO271D677 0RJO271D677 0RJ1000D677 0RJ4701D677 0RJ1000D677 0RJ1002D677 0RJ4701D677 0RJ4701D677 ORJ0752D477 ORJ0752D477 ORJ0752D477 0RJ0000D677 0RJ0000D677 0RJ1002D677 0RJ0682D677 0RJ0682D677 ORJ0332D677 0RJ0000D677 0RJ4701D677 0RJ4701D677 0RJ0000D677 ORJ0332D677 ORJ1000D677 ORJ4703D677 ORJ4703D677 ORJ0752D477 ORJ0752D477 ORJ0752D477 ORJ0752D477 ORJ0752D477 ORJ0222D677 ORJ0682D677 LOC NO PART NO DESCRIPTION SPECIFICATION MCR03EZPJ103 10KOHM 5 1 10W 1 MCROSEZPJ102 1KOHM 5 1 10W 16 MCROSEZPJ471 470OHM 5 1 10W 1 MCROSEZPJ331 330OHM 5 1 10W 1 MCROSEZPJ102 1KOHM 5 1 10W 16 2 72 4 7KOHM 5 1 10W MCROSEZPJ472 4 7KOHM 5 1 10W MCROSEZPJ271 270 5 1 10W 1 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ151 150 5 1 10W 1 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ151 150 5 1 10W 1 MCROSEZPJ271 270 5 1 10
35. 128 Bytes Buffer Common Buffer for the use of EDID 2 Delay 500ms Time to Wait and Read Video RAM from MICOM 3 Be transmitted the contents of MICOM s 128 bytes Buffer to PC 128th Data is the CheckSum of 127 bytes data That s OK if the value of adding 128 bytes Data is Zero _ Pata 128 A CS NA 2132 TROUBLE SHOOTING 1 No Power LED indicator off A Process Check 15V or ST_5V of Power B D Check short of Main B D or Change Power B D Check Output of Fail Check short of Fail Re soldering or Change IC1100 IC1101 100 Q307 defect part of IC100 Q307 Pass PRSE Change 1 1100 IC1101 Check Output of Fail Check short of Fail Re soldering or Change IC1102 Q307 TU600 IC500 defect part of Q307 TU600 500 Pass Change 1 1102 IC1103 Fail Fail Check Output of Check short of Re soldering or Change IC1104 IC1105 C100 IC400 gt defect part of IC100 1 400 Boss Pass Change IC1104 IC1105 E LE Check LED Assy Change LED Assy Change LED Assy Assy Pass Check P304 Connector 14 2 No RASTER B Process Repeat A PROCESS Check LED status On Display Unit Pass Check Panel Link Cable or Module Pass Check Inverter Connector or inverter Fail s Change Panel Link Cable or Module Fail Change Inverter Connector
36. 1608C0G1H560JT 56pF 5 50V CO C1608X7R1H473KT 47nF 10 50V X C1608X7R1H473KT 47nF 10 50V X C1608X7R1H473KT 47nF 10 50V X C1608X7R1H473KT 47nF 10 50V X C1608X7R1H473KT 47nF 10 50V X C1608X7R1H473KT 47nF 10 50V X C1608X7R1H473KT 47nF 10 50V X C1608X7R1H473KT 47nF 10 50V X C1608X7R1H473KT 47nF 10 50V X C1608X7R1H473KT 47nF 10 50V X C1608X7R1H473KT 47nF 10 50V X C1608X7R1H473KT 47nF 10 50V X C1608X7R1H473KT 47nF 10 50V X C1608C0G1H102JT 1nF 5 50V C1608X7R1H473KT 47nF 10 50V X C1608X7R1H473KT 47nF 10 50V X C1608X7R1H473KT 47nF 10 50V X C1608X7R1H473KT 47nF 10 50V X C1608X7R1H473KT 47nF 10 50V X C1608X7R1H473KT 47nF 10 50V X C1608X7R1H473KT 47nF 10 50V X C1608X7R1H473KT 47nF 10 50V X C1608X7R1H473KT 47nF 10 50V X C1608X7R1H473KT 47nF 10 50V X C1608X7R1H473KT 47nF 10 50V X C1608X7R1H473KT 47nF 10 50V X C1608X7R1H473KT 47nF 10 50V X C1608X7R1H473KT 47nF 10 50V X 0CK473CK56A 0CC561CK41A OCK104CK56A OCE106WFKDC OCK104CK56A 0CC561CK41A OCK104CK56A 0CK475CC94A OCK105CD56A OCK225DFK4A OCK225DFK4A OCK104CK56A OCK225DFK4A OCK225DFK4A OCK225DFK4A OCK225DFK4A OCK225DFK4A OCK103CK56A OCK225DFK4A OCK225DFK4A OCK225DFK4A OCK104CK56A OCK104CK56A OCK103CK56A OCK103CK56A OCK104CK56A OCK104CK56A OCK104CK56A OCE106WFKDC OCK104CK56A OCK104CK56A OCK104CK56A OCK104CK56A OCK104CK56A OCK104CK56A OCK104CK56A 0CC102CK41A OCK104CK56A OCK104CK56A OCK104CK56A OCK104CK56A OCK104CK56A OCK104CK56A OCE106
37. 191 08 198 O DIA 1821228 4 1 0 16896 151 9262 54 E due olpny n SELVA 9 VdS 19 NOHd33 119 NIQ WMd 101 ____ PPS 14 5 DIA jno u 011009 A8 1 4 AS q emm FINGON FINGON TII 71 lt lt 4 411 20 21 VIEW 22 VIEW PARTS LIST Frame Assembly 19LS4R 19 19LS4R METAL FRAME ASSY _ PAL CKD N O C e O Q O 4 gt 43 NO O N P E E EN EN E E O 10 1 521 1 53 591 23 LOC DESCRIPTION SPECIFICATION MAIN BOARD CAPACITORs 0CC331CK41A 0CC331CK41A 0CC331CK41A 0CC331CK41A 0CC561CK41A 0CC561CK41A 0CC331CK41A 0CC561CK41A 0CC331CK41A OCK104CK56A 0CC331CK41A 0CC561CK41A OCK105CD56A OCK105CD56A 0CH3224K946 OCK104CK56A OCK104CK56A OCK104CK56A OCC200CK41A OCC200CK41A OCE106WFKDC OCE106WFKDC OCE107WF6DC OCE107WF6DC OCK105DH56A OCEA477EF638 477 618 OCK104CK56A OCE107WF6DC OCK104CK56A OCK474DH56A OCK474DH56A OCK103CK56A OCK103CK56A OCK104CK56A OCK272CK46A OCK104CK56A OCK272CK46A OCK104CK56A OCK104CK56A OCE107WF6DC OCK226FF67A OCK226FF67A OCE227WF6DC 477 618 OCE10
38. 2 C197 50V 8223 33 _ 47 3t 8 2 i a 10 n R224 33 3 E R121 796138 0 047uF 5 5 TE T I i MADR 8 I j 4 50 C198 0 1uF 50 z EN S Video 3 114 az 0 047uF 5 Yo 51 MADR 6 MADE l Q ys nus a 0 047uF 5 52 MADR 5 MADRI I 2 I 3 CVBS3 53 MADRI 4 lt 8117 47 34 10 047uF 50 54 MADR 3 MADR 8 SC_CVBS CVBS 7 pot e R148 4 35 0 047uF 50 CvBS 55 2 2 I 2 4 B R111 47 C128 0 0474 50 VCOM1 56 MADRI 1 MADR 915 w CVBS_VCOM MADAT I g PE M ESI OUT 9 8116 47 45133 0 047uF 50 cvBso 57 0 gg ye IF R112 129 0 o47uF 5 58 WEZ I lt 85 w R113 47 C130 0 0470 50 CVBSOUT ss CASZ p I GND 4 so AVDD_MEN PL 3 3V_MST MADR 0 11 I ho Sod 8 C128 56 50V SIFOM 4 VDDM 4 eo 2 50 ee GND_9 1 9 mer AVDD_SIF 63 RASZ VA e 559 I s Banalo 7 50 B iD 0 n 0o 10 o v DID a I QD O ODO NNNRROOHODHOOD a 88 gt B213 33 I 8 828 8 2 2 oja m 33 gt WEZ 2 z
39. 49TO5 73V 600H UDZS5 6B 5 6V 5 49TO5 73V 600H UDZS5 6B 5 6V 5 49TO5 73V 600H UDZS5 6B 5 6 5 49TO5 73V 600H UDZS5 6B 5 6V 5 49TO5 73V 600H UDZS5 6B 5 6V 5 49TO5 73V 600H UDZS5 6B 5 6V 5 49TO5 73V 600H UDZS5 6B 5 6V 5 49TO5 73V 60 UDZS5 6B 5 6 5 49TO5 73V 600H UDZS5 6B 5 6V 5 49TO5 73V 600H UDZS5 6B 5 6 5 49TO5 73V 600H UDZS5 6B 5 6 5 49TO5 73V 600H UDZS5 6B 5 6V 5 49TO5 73V 600H UDZS5 6B 5 6 5 49TO5 73V 600H UDZS5 6B 5 6V 5 49TO5 73V 600H UDZS5 6B 5 6 5 49TO5 73V 600H 19LS4R MICOM VERSION ASS Y LGE9689AD LF 300MVTO3 6V 300MV KIA7442F 0 3TO7 5V 4 2V 500MW AT24C64AN 10SU 2 7 64KBIT 8192 LD1086D2M33 4 9 3 3V D2 LD1086D2T18TR 3 4TOSOV 1 8V MP1583DN Z LF 4 75TO23V 21V OW MP1583DN Z LF 4 75TO23V 21V OW AZ1117H 2 5TR E1 15V 2 5V SO 2 4 3TO25V 3 3V 1W TO CS4352 CZZR 8 55T012 6 3 13TO3 KA78MOSRTM 7TO20V 5V R HY5DU281622FTP 5 128MBIT 8 x 1 EAN33643401 OIPRP00623A OIMMRALO14D OIMMRALO14D 6210 6210 01 0233002 01 0233002 01 0233002 6210 6210 6210 6210 0010 6210 0010 6210 0010 6210 6210 61409 0002 6200J00005E 6210 0010 6210 0010 6210 0010 6210 0010 6210 0010 6210 6210 6210 61409 0002 61409 0002 61409 0002 61409 0002 6210 0010 6210 0010 6210 001
40. 7 ORJ0472D677 ORJ0000D677 ORJ0000D677 ORX0332K665 ORX0332K665 ORJ0472D677 0RJO472D677 ORJ0472D677 ORJ0472D677 ORJ0472D677 0RJO472D677 0RJO472D677 ORJ0472D677 ORJ0472D677 0RJO472D677 0RJ4700D677 0RJO472D677 ORJ0472D677 ORJ0472D677 ORJ0472D677 ORJ0472D677 ORJ0472D677 ORJ0472D677 ORJ0472D677 ORJ0472D677 ORJ0472D677 ORJ0472D677 ORJ0472D677 ORJ0472D677 ORJ0472D677 ORJ0472D677 0RJ0000D677 ORJ0222D677 ORJ0222D677 ORJ3900D677 0RJ0000D677 0RJ1002D677 0RJ1202D677 0RJ1000D677 0RJ1000D677 0RJ1000D677 0RJ1000D677 0RJ1000D677 0RJ1000D677 0RJ1000D677 LOC NO PART NO DESCRIPTION SPECIFICATION MCROSEZPJ103 10KOHM 5 1 10W 1 MCROSEZPJ470 47OHM 5 1 10W 16 MCROSEZPJ103 10KOHM 5 1 10W 1 MCROSEZPF682 6 8KOHM 1 1 10W MCROSEZPJ103 10 5 1 10W 1 MCROSEZPJ103 10KOHM 5 1 10W 1 MCROSEZPF682 6 8KOHM 1 1 10W MCROSEZPF5902 59KOHM 1 1 10W MCROSEZPJ103 10 5 1 10W 1 MCROSEZPJ103 10 5 1 10W 1 MCROSEZPJ470 47OHM 5 1 10W 16 MCROSEZPJ000 5 1 10W 160 MCROSEZPJ000 5 1 10W 160 RSDO2F4J33R0 5 2W 12 0X RSD02F4J33R0 5 2W 12 0X MCROSEZPJ470 47OHM 5 1 10W 16 MCROSEZPJ470 47OHM 5 1 10W 16 MCROSEZPJ470 47OHM 5 1 10W 16 MCROSEZPJ470 47OHM 5 1 10W 16 MCROSEZPJ470 47OHM 5 1 10W 16 MCROSEZPJ470 47OHM 5 1 10W 16 MCROSEZPJ470 47OHM 5 1 10W 16 MCROSEZPJ470 47OHM 5 1 10W 16 MCROSEZPJ470 47OHM 5 1 10W 16 MCROSEZPJ470 47OHM 5 1 10W 16 MCROSEZPJ471 470OHM 5 1 10W 1 MC
41. 74250 HDTVTXPSURZ 5 8 RGB Input PC 7m ao oo sa Jos 72 lewo 5994 2517 VES 6403 5145 700 298 bOS 74 sov S787 os 400 VESKSVGN 1024 768 48 363 60 00 65 00 VESA XGA 1280 1024 63 981 60 02 108 0 VESA WXGA 1440 900 59 90 88 75 WXGA 19LS4R ZA only 1680 1050 65 290 59 954 146 25 WXGA 221 548 7 only 9 RGB input DTV 1260920 o 600 7420 _ 1620400 as 6000 ____ _ 10 HDMI DVI input PC 1 eao _ 2 aao 5994 2517 1 6400 aas 7000 25175 DOS 4 eso 949 4000 VESNSVGA 5 asses 6000 6500 VESAXGA 76 1280024 100 16801050 65290 59954 14625 WXGA 22LS4RZAony 11 HDMI DVI input DTV 6 1280720 7400 76 00 7480 HDTV 720P 8 19201080 8375 6400 7450 HDIV1080 ___ 9 19203080 7 2845 5000 7 74250 10801 50Hz ADJUSTMENT INSTRUCTION 1 Application Range This specification sheet is applied to 19 22 LCD TV which is manufactured in TV or Monitor Factory is produced on the basis of this data 2 Specification 1 The adjustment is according to the order which is designated and which must be followed according to the plan which can be changed only on agreeing 2 Powe
42. 7WF6DC OCE107WH6DC REPLACEMENT PARTS LIST C1608C0G1H331JT 330pF 5 50V C1608C0G1H331JT 330pF 5 50V C1608C0G1H331JT 330pF 5 50V C1608C0G1H331JT 330pF 5 50V C1608C0G1H561JT 560pF 5 50V C1608C0G1H561JT 560pF 5 50V C1608C0G1H331JT 330pF 5 50V C1608C0G1H561JT 560pF 5 50V C1608C0G1H331JT 330pF 5 50V 0603B104K500CT 100nF 1096 50V X C1608C0G1H331JT 330pF 5 50V C1608C0G1H561JT 560pF 5 50V C1608X7R1A105KT 1 10 10V X7 C1608X7R1A105KT 1 10 10V X7 C2012Y5V1H224ZT 220nF 20TO 80 0603B104K500CT 100nF 1096 50V X 0603B104K500CT 100nF 1096 50V X 0603B104K500CT 100nF 1096 50V X C1608C0G1H200JT 20pF 5 50V CO C1608C0G1H200JT 20pF 5 50V MVK4 0TP16VC10M 10uF 20 16V 1 MVK4 0TP16VC10M 10uF 20 16V 1 MVK6 3TP16VC100M 100uF 20 16V MVK6 3TP16VC100M 100uF 20 16V C2012X7R105KFT 1uF 1096 25V X7R KMG5 0TP16VB470M 470uF 20 16V KMG5 0TP50VB470M 470uF 20 50V 0603B104K500CT 100nF 1096 50V X MVK6 3TP16VC100M 100uF 20 16V 0603B104K500CT 100nF 1096 50V X C2012X7R1E474KT 470nF 10 25V C2012X7R1E474KT 470nF 10 25V 0603B103K500CT 10nF 1096 50V X7 0603B103K500CT 10nF 1096 50V X7 0603B104K500CT 100nF 1096 50V X 0603B272J500CT 2 7nF 1050 50V X 0603B104K500CT 100nF 1096 50V X 0603B272J500CT 2 7nF 10 50V X 0603B104K500CT 100nF 1096 50V X 0603B104K500CT 100nF 1096 50V X MVK6 3TP16VC100M 100uF 20 16V EMK325BJ226MM T 22uF 20 16V X EMK325BJ226MM T 22uF 20 16V X MVK8 0TP16VC220M 220uF 20 16V KMG5 0TP25VB47
43. C181 _ 2185 C186 C488 c199 8 8 4 7u 1u o tur o tur o ur O tur R484 10uF amp 6 EDU 50V 2 5V MST 16V I i I L P SS ye m o m o 2 u L a ee Zoo p _ 103 2 8174 0 1 8 8 I HH 1M3216 501 le 22K C I ax B B ul ST 3 3V 0 0 50 SE A aT ENG MX25L4005AM2C 126 L 2 C179 j enn 8153 0 SPI CZI g ST 3 3V 16 J g I 5 5 10K 50v ye I 12 d _ 5 SP1 D0 nue PB es Sov IU sa 8204 o male DLUDU 5 5 9 EET MES is e Ja i THE N SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES 2324 88835 88 ST 1 8V i 55 Lir SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X RADIATION Sepp C0 8 gt gt 3 I 5 of I FILRE AND ELECTRICAL SHOCK HAZARDS WHEN SERVICING IF IS 8655 1907 8 54 THE CRITICAL COMPONENTS IN THE AN SYMBOL MARK OF THE SCHEMETIC ces I B 5 1 ga u I 9 d 9 a 40 I m lt gt lt gt lt gt lt gt
44. D677 ORJ5602D477 ORJ1102D677 ORJ0222D677 ORJ0222D677 ORJ0222D677 ORJ0222D677 ORJ5600D677 ORJ5600D677 ORJ0000D677 ORJ4701D677 ORJ0000D677 ORJ0752D477 ORJ0222D677 ORJ0752D477 ORJ0222D677 ORJ0752D477 ORJ0222D677 ORJ4703D677 ORJ1002D677 ORJ4703D677 ORJ1102D677 ORJ1002D677 ORJ1102D677 CONNECTORs 6630TGA004H 6602T20008K 6630V90219A 6602T20009D 6602T20009B 6602T20009C 6612F00099A 6612J10003K 6612F00024C 6612F00099A 6612B00015B 6612J10031B 6612M00010A OTHER C C ge EBL35311201 LOC NO PART NO DESCRIPTION SPECIFICATION MCROSEZPJ000 5 1 10W 160 MCROSEZPJ103 10KOHM 5 1 10W 1 MCROSEZPJ103 10KOHM 5 1 10W 1 MCROSEZPJ113 11KOHM 596 1 10W 1 MCROSEZPJ113 11KOHM 596 1 10W 1 MCROSEZPF563 56KOHM 1 1 10W 1 MCROSEZPJ113 11KOHM 596 1 10W 1 MCROSEZPJ220 22 5 1 10W 16 MCROSEZPJ220 220HM 5 1 10W 16 MCROSEZPJ220 22 5 1 10W 16 MCROSEZPJ220 22 5 1 10W 16 MCROSEZPJ561 560 5 1 10W 1 MCROSEZPJ561 560 5 1 10W 1 MCROSEZPJ000 5 1 10W 160 MCR03EZP4J472 4 7KOHM 5 1 10W MCROSEZPJ000 5 1 10W 160 MCROSEZPF750 750HM 1 1 10W 16 MCROSEZPJ220 220 5 1 10W 16 MCROSEZPF750 750HM 1 1 10W 16 MCROSEZPJ220 220HM 5 1 10W 16 MCROSEZPF750 750HM 1 1 10W 16 MCROSEZPJ220 22 5 1 10W 16 MCROSEZPJ474 470KOHM 5 1 10W MCROSEZPJ103 10KOHM 5 1 10W 1 MCROSEZPJ474 470KOHM 5 1 10W MCROSEZPJ113 11KOHM 596 1 10W 1 MCROSEZPJ103 10KOHM 5 1 10W 1 MCROSEZPJ113 11KOHM
45. DPHONE OUT R eum D D D D lt lt D lt lt lt D lt gt D lt lt lt lt lt D Gu D502 KDS181 20 LS4 0501 KDS181 5 gt gt HEADPHONE OUT L AVSS AMP MUTE 5 h gt VSSBGR PVDDREG VREFR VREFL C515 i i INR INL 1uF25V 0 5 C517 10 AUDIO L Lh Sc cvas HP DET PVDDPR PVDDPL OUTPR OUTPL PVSSR 1 PVSSL_5 16v 20800 5 68 CVBS INPUT PAL 4 CVBS OUT JCVBS OUT R SOUND P C XU L _S0UND_P C508 PVSSR_4 514 1504 30uH 5 4 16V 20801 5 6B PAL 1 1106 CS4352 CZZH 4 7uF 16V PVSSR OUTMA OUTML Z PVDDMR PVDDML 100 L503 30uH H SOUND N AUSDO amp PROTN VOL 4 AUSCK SLEEPN VOLO DVSS MODE2 AUOUT SC L C835 MODE1 2200pF LB06 PAL BEI HH 1M2012 601JT 7 PAL AUMCK 112 lt Option gt MODEO Da
46. EZPJ330 5 1 10W 16 MCR03EZPJ330 5 1 10W 16 MCROSEZPJ000 0OHM 5 1 10W 160 MCROSEZPJ000 5 1 10W 160 MCROSEZPJ330 5 1 10W 16 MCROSEZPJ330 5 1 10W 16 MCROSEZPJ103 10KOHM 5 1 10W 1 MCROSEZPJ332 5 1 10W MCROSEZPJ103 10KOHM 5 1 10W 1 MCROSEZPJ103 10KOHM 5 1 10W 1 MCROSEZPJ332 5 1 10W MCROSEZPJ103 10KOHM 5 1 10W 1 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ102 1KOHM 5 1 10W 16 MCROSEZPJA472 4 7KOHM 5 1 10W MCROSEZPJ000 5 1 10W 160 2 72 4 7KOHM 5 1 10W MCROSEZPJA472 4 7KOHM 5 1 10W MCROSEZPJA472 4 7KOHM 5 1 10W ORJ1000D677 ORJ1000D677 ORJ1001D677 ORJ1000D677 ORJ1000D677 ORJ1000D677 ORJ1002D677 ORJ3301D677 ORJ4701D677 ORJ1002D677 ORJ0000D677 ORJ0000D677 ORJ1002D677 ORJ2202D677 ORJ3301D677 ORJ3301D677 ORJ4701D677 ORJ4701D677 ORJ4701D677 ORJ4701D677 ORJ1002D677 ORJ2202D677 ORJ2202D677 ORJ1601E472 ORJ1601E472 ORJ0000G676 ORJ2201D677 ORJ0000D677 ORJ1000D677 ORJ1000D677 ORJ0222D677 ORJ1000D677 ORJ1500D677 ORJ1001D677 ORJ1001D677 ORJ1000D677 ORJ1003D677 ORJ1001D677 ORJ0000D677 ORJ1500D677 ORJ4701D677 ORJ1002D677 ORJ1003D677 ORJ0000D677 ORJ1000D677 ORJ1000D677 ORJ1003D677 ORJ1001D677 ORJ1001D677 ORJ0000D677 ORJ1002D677 ORJ1002D677 ORJ1002D677 ORJ1002D677 ORJ1002D677 LOC NO PART NO DESCRIPTION SPECIFICATION MCROSEZPJ101 100OHM 5 1 10W 1 MCROSEZPJ101 100 5 1 10W 1 MCRO
47. NPN 5V 60V 50V 1 2SC3875S ALY NPN 5V 60V 50V 1 2SC3875S ALY NPN 5V 60V 50V 1 2SA1504S ASY PNP 5V 50V 50 2SA1504S ASY PNP 5V 50V 50 2SA1504S ASY PNP 5V 50V 50 NPN 5V 60V 50V 1 2SC3875S ALY RCA86TRJ100R 100 5 1 16W 4 RCA86TRJ100R 100 5 1 16W 4 RCA86TRJ100R 100 5 1 16W 4 RCA86TRJ100R 100 5 1 16W 4 MCROSEZPF750 750HM 1 1 10W 16 MCROSEZPF750 750HM 1 1 10W 16 MCROSEZPJ474 470KOHM 5 1 10W MCROSEZPJ474 470KOHM 5 1 10W MCROSEZPJ474 470KOHM 5 1 10W MCROSEZPF750 750HM 1 1 10W 16 MCROSEZPJ153 15KOHM 5 1 10W 1 MCROSEZPJ153 15KOHM 5 1 10W 1 MCROSEZPJ474 470KOHM 5 1 10W MCROSEZPJ912 9 1KOHM 5 1 10W MCROSEZPF105 1MOHM 1 1 10W 16 MCROSEZPJ912 9 1KOHM 5 1 10W MCROSEZPF750 750HM 1 1 10W 16 MCROSEZPJ103 10 5 1 10W 1 MCROSEZPJ103 10KOHM 5 1 10W 1 MCROSEZPF750 75OHM 1 1 10W 16 MCROSEZPF750 750HM 1 1 10W 16 MCROSEZPJ113 11KOHM 596 1 10W 1 MCROSEZPJ113 11KOHM 596 1 10W 1 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ150 15OHM 5 1 10W 16 MCROSEZPJ150 15OHM 5 1 10W 16 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ122 1 2KOHM 5 1 10W MCROSEZPJ333 5 1 10W 1 MCROSEZPJ112 1 1KOHM 5 1 10W MCROSEZPJ102 1KOHM 5 1 10W 16 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ101 100 5 1 10W 1 ORJ1002D677 ORJ0472D677 ORJ1002D677 ORJ6801D477 ORJ1002D677 ORJ1002D677 ORJ6801D477 ORJ5902C477 ORJ1002D677 ORJ1002D67
48. OHM 3 2X1 6 HH 1M3216 501JT 500OHM 3 2X1 6 HH 1M3216 501JT 500OHM 3 2 1 6 HH 1M3216 501JT 500OHM 3 2X1 6 HB 1S2012 080JT 8OHM 2X1 25X1M HB 1S2012 080JT 8OHM 2X1 25X1M HB 1S2012 080JT 8OHM 2X1 25X1M HB 1S2012 080JT 8OHM 2X1 25X1M HB 1S2012 080JT 8OHM 2X1 25X1M HH 1M2012 601JT 6000HM 2X1 25X HH 1M2012 601JT 6000HM 2X1 25X HH 1M2012 601JT 6000HM 2X1 25X HB 152012 080JT 8OHM 2X1 25X1M 152012 080 8OHM 2X1 25X1M 5 1 14 31818MHZ 30PPM 16PF 1 TRANSISTORs LOC NO PART NO DESCRIPTION SPECIFICATION OTR387500AA OTR387500AA OTR390609FA OTR390609FA OTR387500AA OTR387500AA EBK32753101 OTR150400BA OTR387500AA OTR387500AA OTR387500AA OTR387500AA OTR150400BA OTR150400BA OTR150400BA OTR387500AA RESISTORs ORJ1000C687 ORJ1000C687 ORJ1000C687 ORJ1000C687 ORJ0752D477 ORJ0752D477 ORJ4703D677 ORJ4703D677 ORJ4703D677 ORJ0752D477 ORJ1502D677 ORJ1502D677 ORJ4703D677 ORJ9101D677 ORJ1004D477 ORJ9101D677 ORJ0752D477 ORJ1002D677 ORJ1002D677 ORJ0752D477 ORJ0752D477 ORJ1102D677 ORJ1102D677 ORJ1000D677 ORJ0152D677 ORJ0152D677 ORJ1000D677 ORJ1000D677 ORJ1201D677 ORJ3302D677 ORJ1101D677 ORJ1001D677 ORJ1000D677 ORJ1000D677 2SC3875S ALY NPN 5V 60V 50V 1 2SC3875S ALY NPN 5V 60V 50V 1 KST3906 MTF PNP 5V 40V 40V KST3906 MTF PNP 5V 40V 40V 2SC3875S ALY NPN 5V 60V 50V 1 2SC3875S ALY NPN 5V 60V 50V 1 SI4925BDY P CHANNEL MOSFET 30 2SA1504S ASY PNP 5V 50V 50 2SC3875S ALY NPN 5V 60V 50V 1 2SC3875S ALY
49. QPB205K 1C1P 15VDC 0 02 VER ZD4000 ODZ560009CF MTZJ5 6B 5 6V 5 45TO5 73V 400H ZD4001 ODZ560009CF MTZJ5 6B 5 6V 5 45TO5 73V 400H 6631900022P SMH200 3P SMH200 3P 400mM 2 00 LED BOARD C5000 0CH5101K416 C2012C0G1H101JT 100pF 5 50V C5001 0CH5101K416 C2012C0G1H101JT 100pF 5 50V C5002 0CH5470K416 0805N470J500LT 47pF 5 50V C5003 0CH3104K566 0805B104K500CT 100nF 10 50V X LED5000 ODLBEO138AA BL BUBGE301 ROUND SUPER RE P5000 6602T20009D SMAW200 05P 5P 2 00MM 1R ANGLE PA5000 6712SCA232A TSOP34838S01 2 7TO5 5V 1 5MA Q5001 OTR387500AA 25 38755 NPN 60V 50V 1 Q5002 OTR387500AA 25 38755 NPN 60V 50V 1 R5001 ORH1501D622 MCR10EZHJ152 1 5KOHM 5 1 8W 2 R5002 ORH1001D622 MCR10EZHJ102 1KOHM 5 1 8W 201 R5003 ORH1001D622 MCR10EZHJ102 1KOHM 5 1 8W 201 R5004 ORH1001D622 MCR10EZHJ102 1KOHM 5 1 8W 201 R5005 ORH1001D622 MCR10EZHJ102 1KOHM 5 1 8W 201 205000 0028 00178 UDZS5 1B 5 1V 4 98TO5 2V 800HM 6631T20033X SMH200 05P SMH200 05P 550mM 2 MISCELLANEOUS 6631900109A Harness DCE153B 23024 SMH200 ACCESSORIES MFL33997808 PRINTING USER LP63A BRAND 19LS SAC30033604 15 20LS1R ZK 20 23LS2R ZK CD 6410TEWO10A CEE LP 34A amp HO05VV FX3C LS 60 1 MKJ32816602 MOLD ABS 380 CL81 20 15LS1R 20
50. R T ELE T tel D RTT te ku k a Wr Vi eite Cr TO TEN IT Qe ERR A 701 1 0 1 jov MDAIA O 15 0 15 1050 1 8 2 5v_DDR DDC CTL DDC CTL IC400 2 5V_DDA HYSDU281622FT DDCA SCL CSCL HO DDCA SDA gt SDA HD AR401 100 1 16W R402 100 2 5V_DDA C407 loe Due 1000pfZZOo 1uF R403 100 50V 50V R406 150 L R503 0 23 BAO 11 12V_AMP MADRI 111 BA1 9 8502 0 20 LS4 9 ST_5V A10 AP MADR 8 MADRI 10 JMADR 8 AO MADAI 7 MADR O MADR 7 1 1 MADRI 1 161 5 MADR 2 MADR 5 A3 MADR 4 MADR 3 MADR 4 5500 12 _ KDS181 R504 1K 84 0500 MADR O 11 2 205 Headpohone 25V IC500 YDA 138 EZ 0 3 25415045 500 gt HEA
51. RJ0332D677 ORJ1002D677 ORJ3301D677 ORJ1002D677 ORJ1002D677 ORJ3301D677 ORJ1002D677 ORJ1000D677 ORJ1001D677 ORJ4701D677 ORJ0000D677 ORJ4701D677 ORJ4701D677 ORJ4701D677 LOC NO PART NO DESCRIPTION SPECIFICATION MCROSEZPJ101 100OHM 5 1 10W 1 MCROSEZPJ101 100OHM 5 1 10W 1 MCROSEZPJ101 100OHM 5 1 10W 1 MCROSEZPJ101 100OHM 5 1 10W 1 MCROSEZPJ223 22KOHM 5 1 10W 1 MCROSEZPJ223 22KOHM 5 1 10W 1 MCROSEZPJ330 5 1 10W 16 MCROSEZPJ330 5 1 10W 16 MCROSEZPJ102 1KOHM 5 1 10W 16 MCROSEZPJ102 1KOHM 5 1 10W 16 MCROSEZPJ103 10KOHM 5 1 10W 1 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ000 5 1 10W 160 MCROSEZPJ330 5 1 10W 16 MCROSEZPJ330 5 1 10W 16 MCROSEZPJ330 5 1 10W 16 MCROSEZPJ330 5 1 10W 16 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ332 5 1 10W MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ330 5 1 10W 16 MCROSEZPJ330 5 1 10W 16 MCROSEZPJ330 5 1 10W 16 MCROSEZPJ330 5 1 10W 16 MCROSEZPJ330 5 1 10W 16 MCROSEZPJ330 5 1 10W 16 MCROSEZPJ330 5 1 10W 16 MCROS
52. ROSEZPJ470 47OHM 5 1 10W 16 MCROSEZPJ470 47OHM 5 1 10W 16 MCROSEZPJ470 47OHM 5 1 10W 16 MCROSEZPJ470 47OHM 5 1 10W 16 MCROSEZPJ470 47OHM 5 1 10W 16 MCROSEZPJ470 47OHM 5 1 10W 16 MCROSEZPJ470 47OHM 5 1 10W 16 MCROSEZPJ470 47OHM 5 1 10W 16 MCROSEZPJ470 47OHM 5 1 10W 16 MCROSEZPJ470 47OHM 5 1 10W 16 MCROSEZPJ470 47OHM 5 1 10W 16 MCROSEZPJ470 47OHM 5 1 10W 16 MCROSEZPJ470 47OHM 5 1 10W 16 MCROSEZPJ470 47OHM 5 1 10W 16 MCROSEZPJ470 47OHM 5 1 10W 16 MCROSEZPJ000 5 1 10W 160 MCROSEZPJ220 22 5 1 10W 16 MCROSEZPJ220 220 5 1 10W 16 MCROSEZPJ391 3900HM 5 1 10W 1 MCROSEZPJ000 5 1 10W 160 MCROSEZPJ103 10 5 1 10W 1 MCROSEZPJ123 12KOHM 5 1 10W 1 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ101 100 5 1 10W 1 0RJ1000D677 0RJ1000D677 0RJ1000D677 0RJ1000D677 ORJ2202D677 ORJ2202D677 ORJ0332D677 ORJ0332D677 0RJ1001D677 0RJ1001D677 0RJ1002D677 0RJ1000D677 0RJ1000D677 0RJ1000D677 0RJ1000D677 0RJ1000D677 0RJ1000D677 0RJ1000D677 0RJ1000D677 0RJ0000D677 ORJ0332D677 ORJ0332D677 ORJ0332D677 ORJ0332D677 ORJ1000D677 ORJ1000D677 ORJ3301D677 ORJ1000D677 ORJ1000D677 ORJ0332D677 ORJ0332D677 ORJ0332D677 ORJ0332D677 ORJ0332D677 ORJ0332D677 ORJ0332D677 ORJ0332D677 ORJ0332D677 ORJ0000D677 ORJ0000D677 ORJ0332D677 O
53. SEZPJ102 1KOHM 5 1 10W 16 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ103 10 5 1 10W 1 MCROSEZPJ332 5 1 10W 2 72 4 7KOHM 5 1 10W MCROSEZPJ103 10KOHM 5 1 10W 1 MCROSEZPJ000 5 1 10W 160 MCROSEZPJ000 5 1 10W 160 MCROSEZPJ103 10KOHM 5 1 10W 1 MCROSEZPJ223 22KOHM 5 1 10W 1 MCROSEZPJ332 5 1 10W MCROSEZPJ332 3 3KOHM 5 1 10W MCROSEZPJA472 4 7KOHM 5 1 10W MCROSEZPJA472 4 7KOHM 5 1 10W 2 72 4 7KOHM 5 1 10W MCROSEZPJ472 4 7KOHM 5 1 10W MCROSEZPJ103 10 5 1 10W 1 MCROSEZPJ223 22KOHM 5 1 10W 1 MCROSEZPJ223 22KOHM 5 1 10W 1 MCR10EZHF162 1 6KOHM 1926 1 8W 2 MCR10EZHF162 1 6KOHM 1 1 8W 2 MCR18EZHJ000 5 1 4W 321 MCROSEZPJ222 2 2KOHM 5 1 10W MCROSEZPJ000 5 1 10W 160 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ220 220 5 1 10W 16 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ151 150 5 1 10W 1 MCROSEZPJ102 1KOHM 5 1 10W 16 MCROSEZPJ102 1KOHM 5 1 10W 16 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ104 100KOHM 5 1 10W MCROSEZPJ102 1KOHM 5 1 10W 16 MCROSEZPJ000 5 1 10W 160 MCROSEZPJ151 150 5 1 10W 1 MCROSEZPJ472 4 7KOHM 5 1 10W MCROSEZPJ103 10KOHM 5 1 10W 1 MCROSEZPJ104 100KOHM 5 1 10W MCROSEZPJ000 5 1 10W 160 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ101 100 5 1 10W
54. V X 0603B104K500CT 100nF 1096 50V X 0603B104K500CT 100nF 1096 50V X LOC DESCRIPTION SPECIFICATION OCK104CK56A OCK104CK56A OCC680CK41A OCC680CK41A OCC680CK41A OCC680CK41A OCK104CK56A OCK104CK56A OCK104CK56A OCK104CK56A 0CC101CK41A 0CC101CK41A 0CC102CK41A 0CC331CK41A 0CC102CK41A 0CC331CK41A 0CC101CK41A OCE107WF6DC 0CC221CK41A 220 220 220 220 OCE106WFKDC OCE106WFKDC OCK104CK56A OCE106WH6DC 0CC331CK41A OCE106WFKDC OCK104CK56A OCE335WK6D8 OCE335WK6D8 OCK104CK56A OCE3835WK6D8 OCE3835WK6D8 OCK104CK56A OCK222CK51A OCK222CK51A OCK104CK56A OCK104CK56A 0CC102CK41A 0CC102CK41A DIODEs 0DS181009AA ODR340009AA ODR340009AA 0DS181009AA 0DS181009AA 0DS181009AA 000184009 000184009 ODSON00138A 0DS226009AA 0603B104K500CT 100nF 10 50V X 0603B104K500CT 100nF 10 50V X C1608C0G1H680JT 68pF 5 50V C0 C1608C0G1H680JT 68pF 5 50V C0 C1608C0G1H680JT 68pF 5 50V C0 C1608C0G1H680JT 68pF 5 50V C0 0603B104K500CT 100nF 10 50V X 0603B104K500CT 100nF 10 50V X 0603B104K500CT 100nF 10 50V X 0603B104K500CT 100nF 10 50V X C1608C0G1H101JT 100pF 5 50V C C1608C0G1H101JT 100pF 5 50V C C1608C0G1H102JT 1nF 5 50V C0G C1608C0G1H331JT 330pF 5 50V C1608C0G1H102JT 1nF 5 50V C0G C1608C0G1H331JT 330pF 5 50V C1608C0G1H101JT 100pF 5 50V C MVK6 3TP16VC100M 100uF 20 16V C1608C0G1H221JT 220pF 5 50V C C1608C0G1H220JT 22pF 5
55. W 1 MCROSEZPJ102 1KOHM 5 1 10W 16 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ101 100 5 1 10W 1 2 72 4 7KOHM 5 1 10W MCROSEZPJ2H7 2 7OHM 5 1 10W 1 MCROSEZPJ2H7 2 7 5 1 10W 1 MCROSEZPJ2H7 2 7 5 1 10W 1 MCROSEZPJ2H7 2 7 5 1 10W 1 MCROSEZPJ2H7 2 7OHM 5 1 10W 1 MCROSEZPJ2H7 2 7OHM 5 1 10W 1 MCROSEZPJ2H7 2 7 5 1 10W 1 MCROSEZPJ2H7 2 7 5 1 10W 1 MCROSEZPJ101 100 5 1 10W 1 2 72 4 7KOHM 5 1 10W MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ103 10KOHM 5 1 10W 1 MCROSEZPJA472 4 7KOHM 5 1 10W MCROSEZPJA472 4 7KOHM 5 1 10W MCROSEZPF750 75OHM 1 1 10W 16 MCROSEZPF750 75OHM 1 1 10W 16 MCROSEZPF750 750HM 1 1 10W 16 MCROSEZPJ000 5 1 10W 160 MCROSEZPJ000 5 1 10W 160 MCROSEZPJ103 10KOHM 5 1 10W 1 MCROSEZPJ680 680HM 5 1 10W 16 MCROSEZPJ680 680HM 5 1 10W 16 MCROSEZPJ330 5 1 10W 16 MCROSEZPJ000 5 1 10W 160 MCROSEZPJA472 4 7KOHM 5 1 10W MCROSEZPJA472 4 7KOHM 5 1 10W MCROSEZPJ000 5 1 10W 160 MCROSEZPJ330 5 1 10W 16 MCROSEZPJ101 100 5 1 10W 1 MCROSEZPJ474 470KOHM 5 1 10W MCROSEZPJ474 470KOHM 5 1 10W MCROSEZPF750 750HM 1 1 10W 16 MCROSEZPF750 75OHM 1 1 10W 16 MCROSEZPF750 750HM 1 1 10W 16 MCROSEZPF750 750HM 1 1 10W 16 MCROSEZPF750 750HM 1 1 10W 16 MCROSEZPJ220 220 5 1 10W 16 MCROSEZPJ680 680HM 5 1 10W 16 ORJ0000D677 ORJ1002D677 ORJ1002D677 ORJ1102D677 ORJ1102
56. WFKDC OCK104CK56A OCK104CK56A OCK104CK56A OCK104CK56A OCK225DFK4A OCK106EF56A OCK104CK56A OCE227WJ6DC 0CC102CK41A 0CC101CK41A 0CC101CK41A LOC NO PART NO DESCRIPTION SPECIFICATION C1608X7R1H473KT 47nF 10 50V X C1608C0G1H561JT 560pF 5 50V 0603B104K500CT 100nF 1096 50V X MVK4 0TP16VC10M 10uF 20 16V 1 0603B104K500CT 100nF 1096 50V X C1608C0G1H561JT 560pF 5 50V 0603B104K500CT 100nF 1096 50V X C1608Y5V0J475ZT 4 7uF 20TO 80 C1608X7R1A105KT 1 10 10V X7 C2012Y5V1C225MT 2 2uF 20 16V C2012Y5V1C225MT 2 2uF 20 16V 0603B104K500CT 100nF 1096 50V X C2012Y5V1C225MT 2 2uF 20 16V C2012Y5V1C225MT 2 2uF 20 16V C2012Y5V1C225MT 2 2uF 20 16V C2012Y5V1C225MT 2 2uF 20 16V C2012Y5V1C225MT 2 2uF 20 16V 0603B103K500CT 10nF 1096 50V X7 C2012Y5V1C225MT 2 2uF 20 16V C2012Y5V1C225MT 2 2uF 20 16V C2012Y5V1C225MT 2 2uF 20 16V 0603B104K500CT 100nF 1096 50V X 0603B104K500CT 100nF 1096 50V X 0603B103K500CT 10nF 1096 50V X7 0603B103K500CT 10nF 1096 50V X7 0603B104K500CT 100nF 1096 50V X 0603B104K500CT 100nF 1096 50V X 0603B104K500CT 100nF 1096 50V X MVK4 0TP16VC10M 10uF 20 16V 1 0603B104K500CT 100nF 1096 50V X 0603B104K500CT 100nF 1096 50V X 0603B104K500CT 100nF 1096 50V X 0603B104K500CT 100nF 1096 50V X 0603B104K500CT 100nF 1096 50V X 0603B104K500CT 100nF 1096 50V X 0603B104K500CT 100nF 1096 50V X C1608C0G1H102JT 1nF 5 50V 0603B104K500CT 100nF 1096 50V X 0603B104K500CT 100nF 1096 50V X 0603B104K500CT 100nF 1096 50V X
57. ace 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 and straighten each IC lead in one operation by gently prying up on the lead with the soldering iron tip as the solder melts 2 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 3 Clean the soldered areas with a small wire bristle brush It is not necessary to reapply acrylic coating to the areas Small Signal Discrete Transistor Removal Replacement 1 Remove the defective transistor by clipping its leads as close as possible to the component 2 Bend into a U shape the end of each of three leads remaining on the circuit board 3 Bend into a U shape the replacement transistor leads 4 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 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 boar
58. d 4 Insert new transistor in the circuit board 5 Solder each transistor lead and clip off excess lead 6 Replace heat sink Diode Removal Replacement 1 Remove defective diode by clipping its leads as close as possible to diode body 2 Bend the two remaining leads perpendicular y to the circuit board 3 Observing diode polarity wrap each lead of the new diode around the corresponding lead on the circuit board 4 Securely crimp each connection and solder it 5 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 2 Securely crimp the leads of replacement component around notch at stake top 3 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 the 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 followin
59. eceiver AC power cord from the AC power source before a Removing or reinstalling any component circuit board module or any other receiver assembly b Disconnecting or reconnecting any receiver electrical plug or other electrical connection c 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 in an explosion hazard 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 1096 by volume Acetone and 90 by volume isopropyl alcohol 9096 9995 strength CAUTION This is a flammable mixture Unless specified otherwise in this service manual lubrication of contacts in not required Do not defeat any plug socket 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
60. eiver is returned to the customer Leakage Current Hot Check See below Figure Plug the AC cord directly into the AC outlet 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 To Instrument s CONDUIT etc exposed 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 r
61. er 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 from being damaged by accidental shorts of the circuitry that may be inadvertently introduced during the service operation If any fuse or Fusible 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 1MQ and 5 2MQ 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 rec
62. g 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 knife Remove only as much copper as absolutely necessary 2 carefully scratch away the solder resist and acrylic coating if used from the end of the remaining copper pattern 3 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 4 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 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 3 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
63. ication 5 1 19 LCD MODULE 190 1 102 5 a T 3 pitch 0 285 H x 0 285mm V mm 1Pixel 3RGB Cells Color arrangement RGB vertical stripe 5 Weight net 2 5 Kg Max amp Weghne i 7 Operating Environment Temperature 0 50 deg JHmi 10 90 9 8 Storage Environment Temperature 20 6 deg misty 10 90 5 2 Electro optical characteristic specifications module standard n T Remark ee lt CR gt 10 gt 80 80 Luminance PSM PSM Dynamic CSM Cool White 100 IRE CSM Cool White 100 IRE CIE Color Coordinates WHITE x 285 0 015 293 0 015 PSM Dynamic 640 CSM Cool 334 White GREEN 286 85 599 BLUE Hume 154 0 077 077 6 Model Specification Specification Remark J Broadcasting system PAL BG I DK SECAM L L SECAM BG DK RF Input Channel VHF E2 E12 PAL UHF E21 E69 CATV 51 520 HYPER S21 541 SCART PALSEOMMNTSG 4 System Rear PAL50 SECAM NTSC PAL60 HDMI Input 1EA HDMI PC HDMI DTV Audio Input 3 EA 3EA CVBS Scart PC Audio L R Input 2 7 Component Video Input Y 74986 2700 8 imo72 o 7420 0 izmo720 sso soo
64. put HDMI and whether picture is displayed not 4 6 DPM operation confirmation Check if Power LED Color and Power Consumption operate as standard 1 Set Input to RGB and connect D sub cable to set 2 Measurement Condition 230V 50Hz Analog 3 Confirm DPM operation at the state of screen without Signal 4 7 DDC EDID Write 1 Connect D sub Signal Cable to D Sub Jack 2 Connect HDMI Signal Cable to HDMI Jack 3 Write EDID DATA to EEPROM 24C02 by using DDC2B protocol 4 Check whether written EDID data is correct or not refer to Product spec 1 19LS4R EDID DATA 1 ANALOG DATA 128Byte adio 2 DIGITAL DATA 256Byte qoo per ow o FF 60 4 m m 8 a 78 B A 5 4B DD M 14 am 54 21 00 00 81 10 01 01 01 01 oi 01 01 01 m m m m 01 29 51 84 22 30 50 a8 00 FF 00 FO OO GF 1 ni 00 a 20 20 20 20 20 20 00 00 00 00 il 3 5 20 20 20 2 20 20 0 a 20 a a aa na n a m oar per par fer oos pes o lt 1C rf 0 4 81 03 6 13 12 03 10 D 16 12 16 20 EB 2 25 00 BC F3 10 10 01 10 80 C 6 2 ee 5 95 BC Fa oo 5E oo wl B8 5 4 BC Fa im 00 00 ac D 90 20 40 Fi 20 40 5 00 BC
65. r Adjustment Free Voltage 3 Magnetic Field Condition Nil 4 Input signal Unit Product Specification Standard 5 Reserve after operation Above 30 Minutes 6 Adjustment equipments Color Analyzer CA 210 or CA 110 Pattern Generator MSPG 925L or Equivalent DDC Adjustment Jig equipment SVC remote control 3 Main PCB check process After Manual Insult executing 3 1 Download 1 Execute ISP program Mstar ISP Utility and then click Config tab 2 Set as below and then click Auto Detect and check OK message If display Error Check connect computer jig and set 3 Click Connect tab If display Can t Check connect computer jig and set H MStar ISP Utility V4 0 8 1 F 4 4 Device Load Read Auto Blank Program Verify E2PROM Device Setting I2C Pin Definition SBA in S L in Communication Setting Speed 99 4 Lin SDA out SEL out ort LPT1 Port Type af Roughly Speed 138 KHz Base Addr 0 03 EETNL M SPI Setting 2 Auto DetectOK Reverse High USE SPI v pin 1 switch UART I2c Sue eds E Pull all Pin High 926 Apply Elapsed Time 12 Printer 138KHz 4 Click Read tab and then load download file XXXX bin by clicking Read H MStar ISP Utility V4 0 8 1 F sx c i Device i Aut Blank Program Verify Erase Config Connect Dis Con
66. solder the connections CAUTION Be sure the insulated jumper wire is dressed so the it does not touch components or sharp edges SPECIFICATION NOTE Specifications and others are subject to change without notice for improvement 1 Application range 3 Test method This specification is applied to the 19 22 Wide LCD TV used LP69C chassis 1 Performance LGE TV test method followed 2 Demanded other specification I Safety CE IEC Specification 2 Requirement for Test 1 IE Testing for standard of each part must be followed in below condition 1 Power Standard input voltage 100 240V 50 60Hz Standard Voltage of each products is marked by models 2 Specification and performance of each parts are followed each drawing and specification by part number in accordance with BOM 3 The receiver must be operated for about 20 minutes prior to the adjustment 4 General Specification TV EN Video input applicable system PAL D K B G SECAML NTSC NTSC 443 X ZA Receivable Broadcasting System PAL SECAM BG ZA TA PAL SECAM DK EU Non EU PAL PAL Market SECAM L L RF Input Channel VHF E2 E12 UHF E21 E69 51 S20 HYPER S21 S41 FRANCE Tuning System FVS 100 program PAL 200 PR Option k Operating Environment Temp 0 40 deg j C Storage Environment Temp 20 50 deg Humidity 10 90 RH Display LCD Module 5 Specif
67. t lt gt lt gt 9 AX1P 8 016012 I I GND 2 9 DIGO 1 1o 016010 0 4UF I G_TX4 AX2P voDC_3 20v 6 TX1 l C1214 10 1uf mowie 5 GND_12 1l Hu M ba I s 8 mm RICE GE UE ACTAE L 50V 8144 390 43 VDDP_3 5 3 3V 407 E Li 5 5555 R142 22 DDCD_DA 8203 100 1 ST 3 agg 4 dd 8 55555 SDA HD 14 9 1UF 50v JIR I BS 5 58888 I cE HD 45 INT 100 arg 55 K R102 100 HSYNC1 16 R200 33 x I I 55 L JDDCA SCL x R103 10 5 17 DDCA DA EIN uicina I 80 PIOS AMID DDCR CK R198 33 ee m ob t 50 qe VCLAMP 19 DDCR_DA Em 428 gt I I 0 1uF 50V 20 na 2 5 572 Biia oues EM 21 1 O O ey 48239 100 DIMMING CTL 50 8137 42 i54 9 047uF 22 SAR3 8195 0 ENG C101 PAL 5 8138 ALAA 551 0 47 SAR2 ud A197 0 0 1UF 23 SOV SC_CVBS C123 1000 50 SOGIN1 24 R19 100 5 PAL 20 10 n8 8 KEY CTL O g SCART SOV R139 47 1561 10 047UF Soy GINIP 25 SAPO 9 100 PEGA I 2 PAL SC_6 G P132 A 29 0 0479 26 Spo M e 5 R133 so 0 o47uF 27 J
68. website http biz LGservice com LG LCD CHASSIS LP69C MODEL 19LSAR 19LS4R ZA CAUTION BEFORE SERVICING THE CHASSIS READ THE SAFETY PRECAUTIONS IN THIS MANUAL CONTENTS CONTENTS qe 2 SAFETY PRECAUTHONS u u A dnx 6 ADJUSTMENT INSTRUCTION 10 TROUBLE SHOO TING UU UU ALL uu u 14 PLOCICDIAORAM cess pastes ance u u uu s 20 EXPLODED VIEW uu Su ss 22 REPLACEMENT PARTS LIST 24 SUC 24 e PRECAUTIONS IMPORTANT NOTICE Many electrical and mechanical parts in this chassis have special safety related characteristics These parts are identified in the Schematic Diagram and Replacement Parts List It 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 manufacturer 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 pow
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