Home

SERVICE MANUAL

1. WAIN CPU e Ba 30P DIG 101005 01002 sv star sv mm mn aav 8 8082810 sy sv CH DOERR gege E REGULATOR 2 494 KJ 31808 81068 R1069 45 01025 61028 te RS pn Ee 3 Wi Ve CHIP CHIP XD CA sg FINO 5 ums s vtr POWER su 7 w 1008 He INPUT SEL 1 21004 C1015 COMPARATOR 0 1 INPUT SEL 8 HN1D03FU mane 03 DETECT 0 LPF 101007 star sv asit et A wote aP BUT SERIAL 120 BUS EEPROM Line wure 3 ac fja 2 101020 V_STATUS suus js 80248 P1 P2 P5 E S 80842ANNP ED6 soa ts 16 SDALLS P1 P2 PSI STY sv RESET H_STATUS s
2. 5 7 BA033F E2 1017 2 7 11 1881 207 6 7 MB90098APF A 130 1 1205 Or Ne DOR COMPOSITE DISP 12 E L 68 Dao SYNC CLR 7 ODD EVEN EVEN GAL veo REFERENCE d FILED INDEX RESET 3 DISPLAY 07 CLK VSYNC 11 DISPLAY 05 DAB OUT COMPOSITE VERTICAL HSYNC 10 CONTROL 24 VIDEO a s 3 SYNC e SU SERIAL SIN OUTPUT SCLK 3 CONTROL 7 MEMORY 000 908 Nu a SO FOR FONT DISPLAY CAPACITOR BUSY TRANSFER DISPLAY ROM OUTPUT 6 CHARGE BURST GATE CONTROL CONTROL 17 083 CURRENT 1 5 BACK PORCH 0 VOBB I CLAMP TEST 1 M 1 TOLKI 8 COMMAND ROM 1 7 1211 5 GJ DOT CLOCK CONTROL gt 62 DCLKO 4X 663 a ps S A 3 7 52347 IC404 1 CLAMP CLAMP HD HD VD vss vss TIMING H POL OUT Vec our OUT OUT OUT IN 0 19 1 46 15 14 49 42 2 7 MC1416
3. 1 Input RGB 83014 ar Input RGB SOP MA157 TX ILU Input RGB 83005 Input m ege INPUTI 1 PROTECT FERRITE AN FERRITE OU 09945 1 0 Vp p H aucun agin JUUUL e FERRITE OUH HN J3002 117 potr TOT Den Du 12 Vp p 96 kHz a far dy wef TO 700 H canes DE Input RGB se B CHIP ACC Mo 0 47 103006 083001 83088 1 03014 VIDEO SW B E y aA 1 1 DEE S O 03051 R3049 KO 52758 arum 10 mora T d Aw preki AC VIDEO SW maged TI 03011 gt v oe 03013 um CH sole H CHP 03062 EUER MB TUJ 2SJ3T7 TEIEL me 97 MATST TX rm jev GE 83068 DRIVER 291 PROTECT mapzscsors SET bi gt EI So re 1 an aile PROTECT nsozscsozs Pm 4 FEM on bd a BE 1 H views MOVE HE ir CHIP 4 Rost Input RGB op KE i s 074 iy 02010 B A Lan 4 15 eno de 2980107 VD 1 03004 zm Di 1 0 Vp p H 6 BZU CONVERTER 03085 1 Sg o
4. EI A NE NONA OE a Una D ho a i 2 Vp COAST P7 qe op en 1 By REG 32V Ree 320 DATACK P7 2 1 N FL400 24 22 z 2 2223 ndi 85844 5555 4444 bet le ngaral s oh js i Ha ss Gaga casa case oa cup mn see n Gu ou zg an Un I Tay Gi Zen ee A mn 0008 x x x 0 0 o o u SE E 27 e1 55592531 ass 8222 5 8 55 94 kot 23528 Sa 5 5 EE i 88 aus P7 PLLHO SYNCINI 85 aL2 wj 2 SYNCIN2 GLI M ru wa X 1777 m es a 7 10 MN Z J 09 seen zeen Gap zx Aue Input RGB 3 Du Pn 4 680 mVp p RE RBA wv gt Di avecveo Deag A mm air oo s 2 6 32Vpp Vj AGNDVCO pre I ory la gt Bak Input RGB E rje sum J oh NI m nu Ka am lo tjs mag vv s gt 5 avecin ans 950 ju vem miam za Peng Ko
5. FORS e4 Por 81220 0 1 16 Pove POFLO P4 POCLK P4 eg S lt PA 3 REFEREE vie EE 2222 315131 5 3 2222525 1 71 22 2222 22333 3 3 3 3 8 3 3 Bi Kay alle 5 0772 tav dev 18 Sav che D TN CREE preki mon FERRITE 4 LI I m COOOCODOCOCOOOODUOEDE d ws Wi GIH E L E 5 5 sh CT ma D DONE Ap 81206 AL CP mz S1 3025LSA 21 47 E ET NV sh maa pode e Br AIDS H n 1 ka n 2 veco par om POLE si CLK PROGRAM 01205 0 1 18V 4 VBLK PS zam DO BLANK INIT mm re aie 802 DES 1 Ense P4 PS PPRT 205 2 3 3v 2 ma be BOS 27 85 uc lt s sa ka 101205 mt e ig 120 01 3 9v 2 mtr B2 OSD CONTROLLER z 80 6 Bt Bt eps me s esos Psi spa 4 24 B6 lt STX_4W P5 us zs VCCINT lL TTT RB1203 101203 ior 2 Ka n X02850 5701 440
6. 6 3 6 3 CN1002 B 3 3 STBY sv 2 TPU RESET 5 REG s EEE MAIN CPU 9 1161006 CURRENT Qo a fo UARTTK 2 VE 01001 Zeien mr ps H 23017 CN3002 3 4 CN1001 1 2 vol SDAHS 23 CPU RESET CPU RESET 20 Zu SDAHS D ScLHS 2s AT 1 1 RASH MODE FLASH MODE 22 fa SOL 66 ot 03024 mE P PNE aus ams UARTTX UARTTX 18 22 xo2 5 d sus DS m is UARTRX UARTRX Js 2 o2 T sw Drain 5 Je am stev Sss 803 8 x x 33 10E 13025 101005 i Lfs cru RESET 2 RESET 1 u i 41 L Je LY 052 BUS SW EZE E mm L SDA 232 VE om 103019 103020 2 m Oro 54 22 42 warm Je 87 os Ra sus mat S md m I Feo m 1002 2 4 UARTRX WSTATUS 5 STATUS Hr PLASMA DISPLAY PORI in STATUS 8 083009 3 3 EM 101018 m m RE po CPU 1 2 De SI mx TO 58 SYSHS Om gt 8 POPEO SYSVS i SYNC
7. E a 2254822 VDD V IN INTRO 00090 8 2 3 693418 1 SLICED DATA DATA LINE DATA DATA CLK ee SERIAL o 7 BUFFER slicer RECOVERY DT CONTROL PORT 2 DATA BUS ROW LOCK AW FEW STATUS REG 2 1 56 PG DIGITAL TEST REG II LOCK COMMAND gt KA PROCESSOR sync CsyNc SLICER SLICE LEVEL ROW 2 4 LATCH 10 ADDRESS 9 9 DOT CLK 6 MUR gt o 3 OT CLK DOT 5 DISPLAY je 8 DIV a RAM V LOCK ca CHAR CLK DES DISPLAY 8 LOGIC ERA cw 1 CHAR LATCH a CIR SCH 0 5 osc MSGR GENERATOR ADDR DECODER 1 A Y OUTPUT FLD gt I DRIVE LOGIC PH2 amux CONTROL LS eh SFLD FIELD CONTROL gt Se SLS gt TTT TTT vn POR LINE amp FID REF CKT DECODES 5 9 3 9 d 49 LPF VSS A RREF PFM 32C1 32C1E 7 23 7 23 peace 1 683 989 11 172091811 H1 H2 S SP H1 H1 A SIDE SUFFIX 11 1 172091811 2 SIDE SUFFIX 11 81502 C1504 S A SIDE SUFFIX 11 FL9001 683 991 11 SP A SIDE SUFFIX 11 H2 S SP U BONI ZER YN I 683 988 11 GE Om B SIDE SUFFIX 11 gt EP 6W
8. a LR GND 5 ADDRESS ADDRESS c 17 0 0 0 0 0 0 8 DETECT DECODER REGISTER CONTROL 18 ICR 10 20 20x 2Ro Cx GND Ce 5 7 TC7WH125FU IC1018 4 3 pee 4 1 8 INTERRUPT CONTROL gt SHIFT REGISTER _ 3 7 SN74LV4053APWR 1 405 16 von as 2 7 6 7 SI 3025LSA 201 1 202 IC1202 2 m a 15 XC Y1 G 49 zc 2 4 43 21 GND 4 5 6 5 7 TC7W14FU 1016 IC1009 8 vec 0 IZ 7 1 7 2 7 TCAWSSFU 1 208 209 VCC CH1 CHO ADR 5 7 SN74CBTD3306 1 1015 1 1019 COM INH VEE VSS wE D q gt vec JA 2 18 5 7 TC74VHC541F IC1010 1 1011 7 20 ER s GND 4 6 2B 20 19 18 47 46 12 2 2 Y8 o 459 44 43 e E 3 2 3 2 2 Ss 7 22 7 22 PFM 32C1 32C1E 1 7 Z8622912SSC 00TR 4
9. R 0 8 27 binnen en mast X dadd glass 443 58 mug FER nasos esos Favs re zz us yu Ka EOS S D EE m 7 DEI 0812 EN EAM a Gi 20 oats 820 vier Zei tev tev tev iv 1 tev N a Sip 00 au BLA VN mr e i 1 I e e PS E 20 0009 00 0 001 900000 2 72 OOLOQLQOGOLOOEOOO 581 5756 IE OO OOOOH OOo BOOS 3739 0 3029 289333 38545688884855888885 85 525 sacs 255 5255 Nej 555 555 28888 28888 8 ss 5 5 5 E 222 222 22222 22222 2 22 2 2 2 ARS AR2 Ko E tee ALS 10803 5425 451616220 ALS SDRAM ms H tay RL4 s Hie FT DIG 3 3 2 ALI a FERRITE jp ON DCH Be Gli we Pes z air Mp27 1 MD26 ter ate OKA 5 ceso 18 a GRI m ev Dis 3 30 2 47 Rene 1 SL7 1 168 UDOM ais A0 F902 615 SA FERR TE an 0 4 Mag THE Gi tv 9 CONT von I DSP 100 dur MAT 10801 cose 1 00 713 DN PICTURE PROCESSOR BA uns 3 m 18
10. ELE LM COLOR DECODER T 103004 VIDEO SW 169001 CT CN3001 oan H TE Doc ROGS Dirt ROGS 2 m RN 2 w Dm 6 4 ew Gv 4 8 SOL Gr Wi om sur 4 6 m 6 s rest d e DSUBH 8 COLOR DECODER u DSUBV 05084 hioj 18002 2 6060 5 161 60 LJ eure Do ar 28 RGB 7 181 033 16 BUFF 105 74 BUFF i n gt om C w 27 D m r 3 103003 BUFF 103002 SW 82 Kat 48 DOC a d 1 CN102 ROGS gt BUFF oT oT NU T 1 818210 Vasen 015 0162022 I Y va 288 cvBsw2 5 SDA 43162 060 V ena r 49 c2 7 TEST 5 62 E i r1 Y 08008 Te a 018 D Ti i 44 BUFF 23001 pd 4 SDALS KS PICAGCSW 32 end 482 8015 48 so i Ze 2 MAIN V CHIP CC 8 aT a adi Ge PNE vey 25 9 G4 spA RGS 1 Ae e 5 3 M 010 Y 03001 pe ers ici 103010 Tui 2 vou CN3009 1 3 2 Hi i m G Jem 8 oe 00 TETI vs 2 29 6 Bio 09 BG 63 82 gt s 89 4 SC OUT 6 Como SYNC SW T 46 42 OPTION w a I H B8 Gd 5 6 36
11. STANDARD MFID_IPC_MATRIX_293M FULL STANDARD MFID_IPC_MATRIX_293M FULL STANDARD MFID_IPC_MATRIX_293M FULL STANDARD MFID_IPC_MATRIX_293M NORMAL o o Jo Jo o o co N N 9 00 o N N IO co STANDARD MFID IPC MATRIX 293M NORMAL PFM 32C1 32C1E 2 17 Table 2 Factory Preset Data Format Resolution H V Scanning Pixel Clock Horizontal dot H dot x V line Sync Format MHz Polarity 575 50p 720 x 575 Progressive 480 60p 720 x 483 Progressive 1080 24psf 1920 x 1080 Interlace 1080 50i 1920 x 1080 Interlace 1080 60i 1920 x 1080 Interlace 1035 60i 1920 x 1035 Interlace 720 60p 1280 x 720 U Progressive NTSC_TV 720 x 483 Interlace NTSC_COMPOSITE 720 x 483 Interlace PAL_COMPOSITE 720 x 575 Interlace SECAM_COMPOSITE 720 x 575 Interlace 443NT COMPOSITE 720 x 483 Interlace PAL M COMPOSITE 720 x 575 Interlace PAL N COMPOSITE 720 x 575 Interlace BW COMPOSITE60 720 x 483 Interlace BW COMPOSITE50 720 x 483 Interlace NTSC YC 72
12. Reference information RESISTOR RN METAL FILM RC SOLID FPRD NONFLAMMABLE CARBON FUSE NONFLAMMABLE FUSIBLE RS NONFLAMMABLE METAL OXIDE RB NONFLAMMABLE CEMENT RW NONFLAMMABLE WIREWOUND ADJUSTMENT RESISTOR COIL LF 8L MICRO INDUCTOR CAPACITOR TANTALUM PS STYROL PP POLYPROPYLENE PT MYLAR MPS METALIZED POLYESTER MPP METALIZED POLYPROPYLENE ALB BIPOLAR ALT HIGH TEMPERATURE ALR HIGH RIPPLE PFM 32C1 32C1E Measuring conditions voltage and waveform A voltage value is the reference value between the measurement point and the earth when the RGB color bar signal is received from the color bar generator digital multi meter used 10 M ohms V DC Unit of voltage is V volt Voltage variations may occur due to normal production tolerances B line No mark NTSC 3 58 MHz color bar signal Signal path The components identified marked A are critical for safety Replace only with the part number specified Les composants identifi s par la marque A sont critiques pour la s curit Ne les remplacer que par une pi ce portant le num ro sp cifi 7 1 7 1 7 1 Frame Schematic Diagrams 15 1 STBYSV GND POWER THERMO 0103 3 GND GND
13. wm CHIP 10 10 11 FANS iw itn mm tie m 83019 PES D 03024 5 vija vitse E 2 28 10 47 MTZJ 4 70 SN74HC32APWR 0 15 12168 6 3 1 160 LAY FAN DRIVER ir QE A0 Steg 3 ev ON 1 NM OY LE ap D SV X2 Xt X X E LUNGEN SWITCHING REGULATOR EE E 6 AUDIO GND CN3005 CN3006 E RO Y pio Tag om 309 s lo 277 a zev DES Be 3 ansv 221 unc cd K l 13005 4 wv k 0 3026 PO use heme view slam u CN3002 Pa Cam 6516 1 ms coe nass mme 30 gt 47 220 UD2S TE 174 78 edv sew ie Bo conti Pa Y sio gt N Q_SENS 9 0 za sens 1 lt P3 pas gt vio_sia pri 27 ono m FANLDET 85 Le R 103010 26 FAN DETECT 03008 1 3005 nae TK15452V 03117 DTCTAAEKA 9 TO 8 BOARD D i PROTECT R3093 EE 59 FAN_DRV LED DRIVE sw 3080 INPUT2 non d FERRITE KO sv 14 24 ORIVE d 50 Be gt Eu H os oi 9 85 9001 DH THE Um unT ec Are Acer o ot ir PALETTE oiy 2 2I SN 22 FLASH MODE A ROTE EN M52758FP FERRITE OUH 8 94 3 3 03007 643003 4 srevev
14. Q U FU rg rg rg KA Jg rg rg rg rg Q U FU FU rg rg Q U FU rg rg rg Q Jg g tg rg rg Ca U FU rg rg rg Q U rg rg rg rg TOR ELECT 47 OO OO CH 80PF 25V F 6 3V 1 C 0 cx C C 6 00PF 50V 0 d trj Fa d Fa Pai 5 m 5 Pa jaj Pai d F 6 3V 105 B BOARD Ref No Q ty Part No 62 023 03 03 3 TI er A e Le E ae PE CI EE E L E Sp e E FP E EECH EC LE p 43 wm CO CO K Co lt gt KO CO 1 2
15. 7 13 B SIDE SUFFIX 13 7 13 1 7 AN 5 3 i AN 5 u ih dur d We po 7 Ze iw LIE Input Y C CN102 RGBYUV P3 6 0 Da nen tt of TP an sea PANC bd ES nos e E H o 560 mVp p E 7 HH 2 ce_viovvuv ps dii Z Z m 700 pS M DEC ENA P1 PSI SDALLS P1 P2 PSI EAM m SCL_LS P1 P2 PS TOMI KI T m sH G BI TO Q BOARD Input L3 100p osle s MR t Wir 3 ND TH vais 0 A By 526 Du 1 0 Vp p H 0 01 280 B CHIP 1 d GND Input Y C ou RT 476 1 160 28A1 037AK je LG Ez
16. us 3 2 Vp p H 2 Ge cots moe m 1 D ER pa CLP Die one pun o Rezi Wes RR4 Input IC ses Elte ane 111 COAST B Input Y C 212 UNO I 5 0 Vp p H MAO ani DIG 3 0 2 5 Eee DE e koda E EA H TEL ka e Me po rasna ss ez ano m m P1 100 1 108 mao pa bo z ien on 5 8634 10x 1 16W CHIP Pre paz RGB_H 003 3 ea Ros mol TESI 17168 75816 MO DS Input Y C R632 10k 1 16W CHIP 006 1 nes 104 1 160 Es igo Re 108 TITRES me ski 5 0Vpp H meos CHIP WE Cam Input RGB 104 1716W _ CHIP P a i IL am 16601 St 0 1 50 Vp p V SES EN 096060 Ge EM pas 0010 ruby SYSTEM 10 rm HEG Dele 0 1 16V B CHIP 941 0013 pag muss 22 1 16 CHIP PS SYS_HS WW 0014 007 008 svs vs w Em gr 1 m 3 2 Vp p V TEGOB Q 22 1 16N CHIP sume o Input Y C 11 Ee m Be 1 L DC soni me m 21201 aere 1 22 AN sche a A m M M D Q mA N m 42 AS EU m wo 10k 1 16W_ CHIPr Wr e BLO 1 Wes m len m m BL4 we AT W fa ms nale 1 T A9 D wm ol Deg i me 516 ow E E e m 8 5
17. D 515 MATO on BRA BR2 MAT 1 MAG 10802 cast BRO K48161622D 16804 BL7 uag 83 84 SDRAM K4S1616220 ip 1 eg psa 4 1 SDRAM a pz 18 DN DN mr M BL6 BLS wes wan BLA m MD14 Mp46 BL3 MAO 8L2 cas wes 45 ER tev BL1 RAS MD12 8L0 we wu SCENE BA Kat p7 Pins qu mn 4 upo Moat 4895 WI case P7 PIFLO icr 6835 pu 4 upas age DAD Ps ro man ve ZB You PS 08 50 Mode P5 ma RAS cs BA D IM MATO Er MAD MAT MAT pral m MAS MAG MAS MAS P5 Po sex gt HAS Mas UZ ma a pm 0823 A p 9 1 qu 9 1 A 24 9 tev d i tv tav tev le m athe DO e Die e Hie nr Nn 23543 4333 EEEEE EEEEE EEEEE 234353 3 33543 S 5 S S 4 7 PICTURE PROCESSOR 2 5511 065 WW B P4 PFM 32C1 32C1E 7 17 7 17 A B H Q BOARD 002 BOARD ouer FOR TOOL 5 7 B 5 7
18. es ven vent n z VEH3 1 AN 80 3 bo EE 4 88203 kap DO Si L 104 LT P5 NA PS NT PAL gt V OUT AN o 3 ut Y 0204 0208 chip N Dn 28048171 2904017TL AMP AMP Em 100 0203 0210 25046171 PES 29 ATL ah B 2 7 hm H Diels visu 100 Di EI 98 29 TESTIS 5 reene 39 TESTI7 30 37 reng 0226 0 1 10V B CHIP 0224 288 CH CHIP 38 DVDDIO 39 TEST20 40 4 TEST21 42 TEST22 4j TEST23 44 TEST24 49 man 46 AVDD 0222 24 CH CHIP GI 48 49 AGND 50 FSCO 5 EXTOYCO1 EXTDYCOO 10206 VPD64083GF 30 OMB 3 ovon TEST25 AGND acl VRBC Avon AVDO VRBY avi AGND AGND Avo Aco AVDO CON 1 1 587 9
19. 9e EI jE A SIDE SUFFIX 11 7 6 7 6 PFM 32C1 32C1E 111 m a ha 4 he 4 19 Q B SIDE SUFFIX 11 Q 1 3 Q 1 3
20. uses 1 SH m TROY DA ctae 277 DU 14 ana 16 15 veco tev 85 A os a DC en 01 1 30 G4 Ian 16V nata DCH er 63 ovci Sr RET208 07 W E 50 88 K 52 Psi Pop_scL gt et ano iN SYS RESET P4 P5 P7 H isl PDPESDA po rai at RB1212 47 1 168 CHIP 1208 heh P5 PDP_CPU gt 85 so PS popact gt RS M PS PDP_IRO j RT m R3 R3 3 3 2 ta EE D GIJA Tus z EH FB1202 a T 81208 all wm 5 pem A 3 14 WP h h FERRITE 1 FERRITE FEN Zait Y 220 1 PTT R1201 RES CHIP 63v x 16 4 76 d o BEI MUR Gh im x FS 7 DH GND nn Laer wel Ka oN s a 1 01230 8 DU 16V d 4734 5 mn PRT in M wee 85 I mn 277 ue Lu a mer RO ua I 1 we Losowo owo 0UT3 tt 0UT3 Bz outs 0013 Inte Bt 018 01 2060 02 wm Ts Weer wee DIG 2 FLASH MEMORY po mar oLKouT i 7 ovra PDP ints oms 5 1 PS PANELDETI om 4 zie aer ano rite outi PS PANELDET2 Wei i 12 D A
21. Fa Fa xj Fa Fa 1MF 10V 1 I Ca cay Cy F F F MF B 3216 01MF 25V B F 10V CHIP F 6 3V 105 0 1MF 0 1MF 0 1MF 3216 TOR CHIP ELECT 47MF 6 3V F 35V CHIP 30PF 50V ER 22 22 22 33 16 0PF 50V 22MF 5 22MF 5 0PF 50V 22 222 Fa Fj Fa Fj lt a Fa Fa BOARD Ref or Q ty Pa C426 x C427 0428 z C429 z C431 C432 0433 0434 435 C436 0437 0438 C439 H C440 C441 C442 0443 C444 1 C445 C446 C447 C448 C449 C450 C451 C452 0453 x C454 5 C455 C456 C457 C458 C459 C460 1 C461 C462 s C463 C464 C465 C466 5 C467 C468 C604 C605 C606 C607 C608 C609 C610 C611 C612 C613 C614 C615 C616 C617 C618 C619 0 t 1 826 1 826 1 826 15 670 1 826 9 982 1 826 1 826 9 982 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 15 566 15 566 62 970 62 970 64 230 15 566 15 566 15 566 07 826 07 826 26 394 07 826 26 391 07 826 62 927 64 230 62 919 07 826 28 361 07 826 64 227 64 227 64 227 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 28 360 1 826 28 304 28 304 1 826 26 392 1 8
22. POP 6 lt 1 T vak GD vek CN1001 22 16 50415 QBOARD STBYsv 3002 08806 BH nano 44 BET LED OAV 6 0 LED RED GI Sep RED 3 0300 8 mrurser INPUTSEL I ur D8504 E 4 LED GREEN j_J LED DRV 5 LEDA LEDA 5 99 LED GREEN UON 112 AUDIO MUTE GREEN 03008 5 AMUTE 13 LINE MUTE i L MUTE POWER 4 5 POWER 5 7 POWER SW POWER SW 7 12 POWER sw sl sme spalo 1 asia REMOTE E po cwn H LJ rs Tu 6 D SS D Las Tux 61 5 gt DIS mE 12V fu EC 11 ot 5 ms ms E KO FANLIMT ipp L Mich Tu cs RESET mi 2 i BRTVI dE TU RST 4 CONT lt 124 FAN DRIVE FAN DRIVE 24 030093010 CIJ i mm 814 Zu ccvipwuv PIC AGC SW IS 6 DECENA j DEC ENS 103028 EI w RP 1 sme sw SYNC SW 2 8 3 Denen ks mara gin mim 506 DUTY2 63 0e mm 6 a d q Fang H JN ov 15K RGB 38 101010 i a er 25 SO ern 1 Jos qu Mom secs IU I E ub 28 saw 55 lt 28 o A CN3011 salo 50644 28 Z THERMO 4 TEMPT TEMPI TEMPI 2 Zoe aw cake TT s Ha 2 TMP 6 2 oso 9 I TEMP3 81 44 TEMPS TEMPS 4 94
23. Input YIC 1 6 Vp p H Y en 10208 TO4WS3FU MULTIPLEXER E rn 1 COMF_20 80 Input YIC 000 10209 TO4WS3FU MULTIPLEXER 1 6 Ras Kc 1 0 EI Du Input Y C 118 q i mana A EI 1 8 Vp p H 0251 0 1 60 B CHIP AL 0252 47 6 9 C254 0 3 16V E ki 255 0 1 Bromip 2SA1774TL 8218 0 BUFF 0 8 Input YIC 0258 0 1 16 41 2 1 6 Vp p H E 6 1 P5 scL_Ls gt P1 P5 SDA_LS RB206 in 205 Ted THE CHIP R215 D visu emp Input 2 5 Vp p 3 58 MHz Input Y C En 4 k 800 2 7 FILTER 7 15 7 15 B SS11065 WW B P2 B 3 7
24. sn Euro MA on Gi P5 soo DUTY1 18V 10 18 16 S 0404 a aver az aus e Miel 2 DEL MEE Input RGB D Yoo 1 0407 0415 BUFF 25 Ur Tal il iin 10406 Input RGB RB403 ste amv sih 27 N 21112 Nm COMPARATOR LI g IE ERI T DUTY SW at rara j SOPP Gi soe AGE ou an ou 8 FPEPFEPPP bellis PS HLSTATUS si 5 2 402 TP403 E 5 V_STATUS mn m uo ue Ri po 74 Ke uns GE ST LO esmis 57 R433 17188 PA Hr 1 m D Vin a en I iE Tor ke G ien Ge sig Roy en e 1 ME usa D403 10V 9 1 DAN202K et SEDIS eL o cS BET vi gt n 1 A D CONN PLL B 5511065 WW B P3 7 16 7 16 PFM 32C1 32C1E A B H 47 B 4 7
25. DIG5V 2 3 4 5 6 0163 au 7 8 9 0 01854 11 evo 12 13 anov 14 anov 15 un 013005 DESEN GND GND GND AUDIO 12V AUDIO GND AUDIO GND AUDIO 12V CN1201 CN101 8 15 1 vec 2 TRST 2 Tol power 4 TRO 4 5 Tus 0163 3 5 6 Tek pies av 7 7 8 ano s 01854 9 01854 10 CN1003 12 1 srevsv anev 2 14 3 GND mav 15 B 4 3 CN3005 8 1 2 eno 55 4 8010 1245 33002 AUDIO 6 AUDIO am 7 unze 8 083014 8 wv 1 2 8 oy s a ono 4 o RN 5 33001 6 083015 8 V d BA omo 2 oy s 4 RN s 6 4 2 Is E 8 82 52281228 28 FAN FAN FAN 2 P SUPPLY Frame 1 2 Frame 1 2 CN1204 12 LVDSGND 0UT3 20P GND LVDS RXIN3 PDWN R
26. rg rg rg rg rg P P P P p P 10 33 2 10 Je 1 1 82 1 IP 3 68 10 10 10 1 5 STOR CH TOR OR CH OR CH 47 OR CHIP 1 OR CHIP 1 OR CHIP 1 OR CHIP 3 CONDUCTOR CHIP HIP 3 82 82 82 47 10 10 OR CHIP 1 2K 1 16W 1608 OR CHIP 1 8K 1 16W 1608 TOR CH TOR CH OR CHIP 18K 1 16W 1608 1 16W 1 16W 608 608 20 1 161 1 16W 16 1 168 1 168 K 1 168 O 16W 1 16 90 1 16W 16W 16 8K 1 16 BADD 8 8 8 8 16W 1608 16W 1608 16W 1608 16W 1608 16W a I OO m SK 5K 5K 5K 1 168 1608 608 608 K 1 16 1 16 1608 1 16 608 1608 1608 1 16W 1608 16W 1608 1 16W 1608 1 16W 1608 B BOARD Ref No or Q ty Part No R414 216 817 R415 216 817 R416 216 817 R417 216 823 R418 216 805 R419 218 722 R421 218 122 R423 218 144 R424 218 707 R425 218 738 R426 218 700 R427 218 700 R428 218 700 R429 218 692 R430 218 144 R431 218 144 R432 218 660 9 R433 218 124 11 R434 218 124 R435 216 805 R440 218 867 R441 216 825 R442 216 825 R443 216 821 R444 216 821 R445 216 821 R446 216 849 R447 216 827 R448 218 104
27. c gt Cy cy c C C C tion EC EC Exi GO 23 23 UO 20 DO 20 co co co co co R CO co R CO VIBRATOR CRYSTAL VIBRATOR CRYSTAL OSCILLATOR CRYSTA OSCILLATOR CRYSTA OSCILLATOR CRYSTA T Li L ECTO ECTO ECTO ECTO ECTO DO UJ UJ CO 50 ECTOR ECTOR ECTOR 16 2MHZ 14 318 2 70MHZ 65 0287 2 100MEZ S VIBRATOR CRYSTAL 32 768KEZ S VIBRATOR CRYSTAL 12 288MHZ PFM 32C1 32C1E SP S S S o 5 SP nn o Ref or Q ty Part 1 8 330 030 57 C8501 1 164 004 11 C8502 1 125 838 11 CN8501 1 506 487 11 08502 8 719 069 55 08503 8 719 053 43 08504 8 719 060 27 D8505 8 719 069 55 D8506 8 719 069 55 D8507 8 719 069 55 D8508 8 719 069 55 108501 6 600 098 01 88501 1 216 047 91 88503 1 216 043 91 88505 1 216 017 91 8501 1 692 829 11 H2 BOARD Ref or Q ty Part Ipc 8 330 030 60 C8601 115 566 C8602 162 915 CN8601 T64 088 R8601 216 839 R8602 216 833 R8603 216 829 R8604 216 833 R8605 216 826 R8606 216 824 S8601 692 829 S8602 692 829 S8603 692 829 S8604 692 829 S8605 692 829 S8606 692 829 PFM 32C1 32C1E Description MOUNTED CIRCUIT BOARD CAPACITOR CERAMIC 0 1MF 25V CAPACITOR CERAMIC 2 2MF 6 3V ECT
28. imi J OUTO vec B GHIP RSC LVOSGND Into D no D i 11 ano 1 D R4 i 1 D n 6 7 L PFM 32C1 32C1E A 7 18 7 19 B SS11065 WW B P6 FOR TOOL 4 77 B 7 7 P5 P6 SYS_RESET P3 IP_HD DATACK 10604 SNTALVI 23APNR pos 1 MULTI VIBRATOR 17168 mn Input Y C I 0 1 JIL DEE R637 m 3 2 Vp p H vw sicht PLLHD P3 UE 1 1 HH wor E 3 b es 23322224 22 224553543232332 om 51 5 5 5 5 5 5 EE EEE 8 ou CHES NUR CH CHIP site rA NM Hr sr VOD t Ka 0624 DP qu E d M Do BOG DIG 2 9066 66606666666066686668666 6
29. us I 1 1 pi um an von 5 navoja Pet na Leck x sis m m SET x E avoonupa ano N ago N mue Bam A D CONV PLL DGNOADTTL q Lm 2 1807 0 22 cr AGNDAMPG DVCCADTTL s i Gm E mio ter lje Zi b aS ELLA R V N rogi WEE 1 We 5n EPUM MT 600 mVp p H P pios 777 See 53 A a Us 69 opono oa eran P1 v so Gr 808181 BL4 Mara rum mae 27 WAIT u Di d vm ae OG 0 22 So boue Li 64 AVCCAMPB BL2 800182 skl 3 NU 830 mVp p gt B CBIN2 BLO BLO m Input RGB 1 AGNDAMPB DGNDADTTL p mmm vn preno SH o muss D 680 mVp p y Seni eegen 1 bi EN MR wem Bian LN de i E get Wm Ul gt Input RGB Tn E BP s ANE D A N majo 13Vpp H a 2 gg EE n m 53282 883 33 88 mu 20 m TU ES Koe EE E bi DS 600 mvp p H 855848 55222288 8 TEN om Vin G WA EE EE GO SC SKS T 757 27 2 6 itn 4T n i 5 1 2SMTZ4TL Acer sa d 84 45 Ev 8 o s at q Je IS vim SE SE dj 0406 in WI E E DT I44EE die 4 A 4 44
30. 1 2 PFM 32C1 32C1E 1 2 2 Rear Cover Removal D Four screws PSW 5 x 20 2 Four knobs Da 4 Seven screws BVTP 4 x 12 3 Seven screws BVTP 4 12 5 EG GRIP screws N 2 PWH 3 12 N NE o gt 6 Rear cover N Two screws E 2 BVTP 3 x 12 N860 q SS Control panel assy Ten screws PWH 3 x 6 H1 Eight screws BVTP 4 x 12 Q Eight screws BVTP 4 x 12 2 EMI shield assy Main chassis PFM 32C1 32C1E 1 3 1 2 3 Bezel Assy Removal Four screws 4 12 T Wire for reference ff Note If two wires attached on the glass surface of plasma display panel be careful not to te cut them 2 Main chassis 3 Bezel complete assy Cushion 1 2 4 DC Fan 1 Removal CN1501 2 Four screws PWH 3 x 6 5 board 3 DC fan een Fan bracket Mini clamper CD Connector 3pins 2 st Cushion Main chassis 1 4 PFM 32C1 32C1E 1 2 5 DC Fan 2 Removal amp Two screws PWH 3 6 Screw DC fan Sl T PSW 4 x 8 Fan bracket V D Two screws PWH 3 x 6 2 Two screws 74 PWH 3 x 6 N Cushion Two screws PSW 5 x 10 5 Hook bracket Main chassis PWH 3 x 6 1 2 6 Switching Regulator Removal To remove the switching regulator remove the DC fan 2 befor
31. 02 13001 13002 Part 9 971 28 9 971 28 9 971 28 9 977 28 9 073 01 9 041 97 9 991 00 9 025 47 9 025 47 9 025 47 9 9 9 9 9 25 47 69 55 69 55 25 47 25 47 9 025 47 9 025 47 9 977 28 9 977 28 9 056 23 4 234 11 4 234 11 4 234 11 4 234 11 4 234 11 4 234 11 0 396 41 8 759 697 54 8 759 697 54 8 759 541 25 8 759 541 25 8 759 011 64 8 759 541 25 8 759 700 07 8 759 460 81 6 700 571 01 8 759 331 71 8 759 172 60 6 700 481 01 6 700 481 01 8 759 335 28 8 759 232 44 8 759 252 59 8 759 439 67 8 759 327 60 8 759 351 0 8 759 673 52 793 183 1 793 183 1 566 822 2 566 822 2 563 330 1 563 330 1 565 269 31 216 295 9 406 666 2 406 666 2 SP C2 CJ C2 C2 0 0 0 0 0 CZ C2 CJ C2 C2 0 0 0 0 0 CJ C2 C2 0 0 C2 CJ C2 0 ND ND ND ND ND cn IND 5 2 02 2 63 MANN cn o 5 5 JAC JAC JAC 50 0 5 ODE ODE ODE ODE ODE DIZ1 DIZ1 DIZ1 DIZ1 A11 DE MA11 DE DAP2 DE 0267 DE 0267 DE 0267 DE DE DE DE DE 2C2 0075 0075 207 207 DE DE 2C2 2C2 ODE DTZ10B ODE DTZ10B DE MA2S UCTOR F UCTOR
32. 38604 CHIP SWITCH TACTILE ENTER 3 88605 CHIP SWITCH TACTILE oo en 3 38606 CHIP SWITCH TACTILE VOL H2 FUNCTION SWITCH B SS11065 WW H2 ET J9001 FILTER EMI I NIU 2 R9001 CHIP FERRITE Je M CUIRE T z E 89003 chie FERRITE SP902 SPEAKER 1 De x 89004 cule FERRITE TO Q BOARD CN3008 1 5 7 25 B SS11065 WW SP PFM 32C1 32C1E SAFETY CHECK OUT After correcting the original service problem perform the following safety checks before releasing the set to the customer Check the metal trim metallized knobs screws and all other exposed metal parts for AC leakage Check leakage as described below LEAKAGE TEST The AC leakage from any exposed metal part to earth ground and from all exposed metal parts to any exposed metal part having a return to chassis must not exceed 0 5 mA Leakage current can be measured by any one of three methods 1 A commercial leakage tester such as the Simpson 229 or RCA WT 540A Follow the manufacturers instructions to use these instruments 2 A battery operated AC milliammeter The Data Precision 245 digital multimeter is suitable for this job 3 Measuring the voltage drop across a resistor by means of a VOM or battery operated AC voltmeter The limit indication is 0 75 V so analog meters must have an ac
33. OxOFAO to OxOFCO to OxOFDF OxOFEO to OxOFFF LAST MEMORY AREA 0x1000 to 0 101 0x1020 to 0 103 0x1040 to 0 105 0x1060 to 0x107F 0x1080 to 0 109 0x10A0 to Ox10BF 0x10C0 to Ox10DF 0x10E0 to Ox10FF 0x1100 to Ox111F 0x1120 to Ox113F 0x1140 to Ox115F 0x1160 to Ox117F 0x1180 to Ox119F 0x11A0 to Ox11BF 0x11C0 to Ox11DF 0x11E0 to 0x11FF 0x1200 to 0x121F 0x1220 to 0x123F 0x1240 to 0x125F 0x1260 to 0x127F 0x1280 to 0x129F 0x12A0 to 0x12BF 0x12C0 to 0x12DF 0x12E0 to 0x12FF 0x1300 to 0x131F 0 1320 to 0x133F 0 1340 to 0x135F 0x1360 to 0x137F Area 28 0 1380 to 0x139F 0x13A0 to 0x13BF 0x13C0 to 0x13DF 0x13E0 to 0x13FF Area 29 0x1400 to 0x141F 0x1420 to 0x143F 0x1440 to 0x145F 0x1460 to 0x147F Area 30 0x1480 to 0x149F 0x14A0 to 0x14BF 0 14 0 to 0x14DF 0x14E0 to 0x14FF Area 31 0x1500 to 0x151F 0x1520 to 0x153F 0x1540 to 0x155F 0x1560 to 0x157F PFM 32C1 32C1E LAST MEMORY AREA 0 1580 to 0x159F 0x15A0 to 0x15BF 0 15 0 to 0x15DF 0x15E0 to 0x15FF USER MEMORY AREA 0x1600 to 0x161F 0x1620 to 0x163F 0x1640 to 0x165F 0x1660 to 0x167F 0x1680 to 0x169F 0x16A0 to 0x16BF 0 16 0 to 0x16DF 0
34. co CO M 202 20 29 20 M co M 202 20 23 DO 23 CO co ana M 202 20 V 20020 co 20 29 292 29 tn M M 202 20 292 20 5 5 5 TOR CH STOR CH TOR CH TOR CH CONDUCTOR TOR CH TOR ST STOR CH STOR CHIP 680K ST ST ST R R 0 TO OR CH 1 160 2 2K 27 1 47 1 HIP 680K HIP 3 9K P 1 0K 47 1 P 100 1 P 10K 1 P 47 1 1 6W 1608 6W 1608 6W 1608 6W 1608 8 16W 1608 EN 1608 6W 1608 16W 1608 16W 1608 16 1608 6W 1608 16W 1608 6W 1608 EN 1608 6W 1608 32 1 32 1 BOARD BOARD Ref Ref or Q ty Part SP Description Q ty Part No SP Description R17 216 809 11 s RESISTOR CHIP 100 1 16W 1608 R77 216 820 11 s RESISTOR CHIP 820 1 16W 1608 R18 218 713 11 RESISTOR METAL 7 5K 1 16W R78 218 676 11 s RESISTOR CHIP 220 1 16W 1608 R19 216 809 11 s RESISTOR CHIP 100 1 16W 1608 R79 216 864 11 s CONDUCTOR CHIP 1608 R20 216 809 11 s RESISTOR CHIP 100 1 16W 1608 R80 218 692 11 s
35. m dir i KON n 1a doune ET E A D en mm Ki Toru 1 za eee ee aie HH 05 FILTER LOW PASS 14168 VAB vss 2587094 m II 5870 DEC_ENA PI PS 870 i 2587094 D 3 ot 2SA1037AK AVDD von 1 prr VAT CH CHIP d i input YIC crna vo i EI DI 50 Vp p Ras ass se D CH CHIP d 560 lt SDA_LS P2 PS envio n pr be 2 0 1 P2 PS 7 Ret 560 1 4 100 1716W ag H355LNK7849 1 5 LLL D 100 Input YIC pr m 2987094 FILTER LOR Piss Di 1 w BUFF E sim 1 SER ds on 2 9 5 m y i 18 50 Vp p V m vis 298709 m ess GE BUFF 8 pas SAJE BUN Wi Z 1 Eu N B COM IN P2 un emm sv COLOR DECODER AUTOWIDE ee CN103 1 D B SS11065 WW B P1 ano a Dia 35 2 e5 Tux yT POWER s POWER P7 P5 9 12 so THERMO P7 ev P5 c k cik 5 P5 cs Tu ost pias en FACTORY 100 P5 TURES gt s RESET USE SWITCHING ano 7 ent Diasv 9 Die 01854 10 ka ev u TEE an sva wuer ka 1 en Ais lis 7 me D o4 iie bi 1 2 i 1 7 14 7 14 PFM 32C1 32C1E A B G H PFM 32C1 32C1E A Fse 2 7
36. 2 Part 6 822 6 824 6 809 6 839 6 836 6 813 6 809 6 821 8 692 6 821 8 690 6 821 6 816 8 688 8 712 6 809 6 809 6 809 6 855 6 864 6 823 6 809 6 823 8 867 6 825 6 821 8 684 6 815 6 839 6 836 8 708 6 821 6 821 8 686 8 684 8 688 8 720 6 809 6 809 6 821 6 809 6 817 6 817 6 817 6 823 6 823 6 823 6 823 6 827 6 864 6 864 8 703 8 690 6 864 8 690 8 690 6 805 6 809 6 809 SP cn o cn 00 cn Q o o cn o oc XQ o cn 00 cn cn Qo o cn cn Q cn 00 Description RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES CONDUCTOR TOR CH OR CH RES RES s S S 5 S s s S 5 S Sj g 5 S 5 5 5 STOR CH OR CH OR CH OR CH OR M TOR CH TOR CH TOR CH TOR CH OR CHIP 1 CONDUCTOR RES RES RES RES RES OR CH OR CH OR CH OR CH ETAL 6 TOR CH TOR CH TOR OR CHIP 680K CONDUCTOR OR CH OR CH TOR CH TOR CH OR CH OR CH P P OR CHIP I P P D D D D D D p p
37. DAP222 DAP222 TL DTZ10B 111 8 50 111 113 113 RD5 6SB T1 ANODE CATHODE HN1D03FU TE85L HN1D03FU TE85R MA2S111 K8 UDZS TE17 12B UDZSTE 1710B UDZSTE 174 7B UDZSTE 175 6B ANODE ES CATHODE MA3075WA TX 3 2 3 1 NSQ03A06 TE16L ANODE CATHODE SLR 325MCT31 1 ANODE CATHODE SLR 325VCT31 ANODE CATHODE UDZS TE17 5 6B ANODE ES CATHODE PFM 32C1 32C1E 5 1 1 Section 5 Spare Parts Notes on Repair Parts Safety Related Components Warning Components marked A are critical to safe operation Therefore specified parts should be used in the case of replacement WARNHINWEIS Les composants identifi s par marque A sont critiques pour la s curit Ne les remplacer que par une pi ce portant le num ro sp cifi Standardization of Parts Some repair parts supplied by Sony differ from those used for the unit These are because of parts common ality and improvement Parts List has the present standardized repair parts Stock of Parts Parts marked with o at SP Supply Code column of the Spare Parts list may not be stocked Therefore the delivery date will be delayed Items with no part number and no description are not stocked because they are seldom required for routine service Units for Capacitors Inductors and Resistors The following units are assumed in Schematic Dia grams Electrical Parts List
38. J 16 RL7 199 9 83 60 ume 0UT3 VRY 9 RICR IN1 ke 1 uo 80 67 4 Der 0 8 CLK OUT 15 76 6 99 2 CLKOUT 1 a d T FEM si GRO 77 21487 00 POD22 162 gt o AM AB vey 48 B OB IN1 GRO 67 GRO 74 67 12 4 85 T GR7 80 2116000 POD29 155 67 By 129 14 87 82 2 19 133 18 506 889 506 11 ds 1 5 63 2 J 10 9D RIOR CLP GLO 68 gi GLO GLO 65 225 67 EV 4 T Y Dee 75 19 ka EH kal 8 NS GNCLP 58 BRO I 0416 BR7 60 1 BRO 63487 OD N o BR7 227 OD a 1 BBCP an 49 BLO BLO za 87 EV 16406 N 0417 BL7 51 207 BL7 BL7 ag DOEN 38 15K RGB 53 imi E T 0 CLK GE PICLK TN ADCLK PIHS POHS 1 0 HS D u COAST ovo PIVS POVS 19 400 vs 84 TDO CES en OFLD PIFLD m 33 SOLHS soL e 5 2 SYNO DIV OUT 09 IHD HSO m TMS 42 TMS 78 IVD vso 0 101201 10604 si 68 si FLASH MEMORY SCLK 60 SOLK d SYNC INI 1 101205 050 SYNC IN ft 000 182 115 129 0015 S8 Aoi 42 SDA Daz an i 13 SCL DA3 25 03 ADDRO 34 43 seet OFA 0 ADDRIO 542 4 DOLKI 40 18 pact 178 RGBH Doo 6 43 CS HSYNC IO HSYNC i 0015 8 45 SYNC 11 42 VSYNC ADDRIT ad 6 nis g 11 48 ss 178 RGBV 5 i 2 12 49 69
39. TOR 1 D TOR CHIP TOR ELECT 10 TOR CHIP CERAMIC 0 TOR ELECT 22MF 6 3V TOR ELECT 47MF 16V CHIP TOR ELECT 47MF 16V CHIP TOR ELECT 47MF 16V CHIP MF TOR ELECT 10MF 16V TOR ELECT 10MF 16V TOR CERAMIC 1MFB 2012 TOR CERAMIC 1 2012 TOR ELECT 10MF 16V TOR ELECT 10MF 16V COATING COATING LEAD LEAD CONNECT CTOR F CO CO CO PC BOARD 10P ZIF 30P PC BOARD 7P PC BOARD 8P 10P L TYPE O PC BOARD 15P ECTOR PC BOARD 5P ECTOR 6P ECTOR 6P 155226 155226 155226 155226 UDZS TE17 5 6B UDZS TE17 5 6B UDZS TE17 5 6B UDZS TE17 5 6B 155226 155226 155226 155226 155226 155226 0025 17 128 0025 17 128 0025 17 128 0025 17 128 TZJ 4 7C TaJ 4 1C UDZSTE 174 7B UDZSTE 174 7B TZJ 4 7C TZJ 4 7C UDZSTE 174 7B UDZSTE 174 7B RD5 6SB T1 SQ03A06 TE16L Q BOARD Ref Q ty 35 36 37 38 42 43 44 48 49 50 51 52 53 54 55 56 57 D306 D3061 D3062 FB30 FB30 FB30 FB30 FB30 Cn FB30 FB30 4 C3 C3 C3 C3 C3 Cn CO C3 C3 C3 C3 C3 lt gt 1 ox C3 C3 C3 C3 C30 SD Cn C3018 3019 C3020 C3022 C3023 CO CO CO CO CO WRF CO CO 4
40. 03123 162 587 11 8 CAPACITOR CHIP CERAMIC 0 039 C3187 107 826 11 s CAPACITOR CHIP CERAMIC F 3124 162 587 11 s CAPACITOR CHIP CERAMIC 0 039 C3188 107 826 11 s CAPACITOR CHIP CERAMIC F 3125 126 602 11 5 CAPACITOR ELECT 3 3MF 50V CHIP C3189 107 826 11 s CAPACITOR CHIP CERAMIC F C3126 124 779 00 s CAPACITOR ELECT 10MF 16V C3190 107 826 11 s CAPACITOR CHIP CERAMIC F C3127 163 135 00 s CAPACITOR CHIP CERAMIC 560PF C3191 107 826 11 s CAPACITOR CHIP CERAMIC F 63128 121 513 11 s CAPACITOR CERAMIC 1 2012 63192 107 826 11 s CAPACITOR CHIP 0 1MF C3129 127 573 11 s 1MFB 2012 C3197 126 205 11 s CAPACITOR ELECT 47M 6 3 3130 124 779 00 s CAPACITOR ELECT 10MF 16V C3198 107 826 11 s CAPACITOR CHIP CERAMIC 0 1MF C3131 124 779 00 s CAPACITOR ELECT 10MF 16V C3199 126 205 11 s CAPACITOR ELECT 47M 6 3 C3132 124 779 00 s CAPACITOR ELECT 10MF 16V C3200 126 205 11 5 CAPACITOR ELECT 47M 6 3 C3133 124 779 00 s CAPACITOR ELECT 10MF 16V C3201 107 826 11 s CAPACITOR CHIP CERAMIC 0 1MF 5 18 PFM 32C1 32C1E 0 BOARD Ref No or Q ty Part No SP Descri C3202 107 826 11 s CAPAC C3203 107 826 11 s CAPAC C3204 107 826 11 s CAPAC C3205 107 826 11 s CAPAC C3206 117 681 11 s CAPAC C3207 107 826 11 s CAPAC C3208 124 778 00 s CAPAC C3209 126
41. 2 Connect a frequency counter as shown below and measure the frequency CN1003 10kQ VCC 1 CLOCK 2 GND 3 lt gt Make the cable as short as possible Frequency counter Select Watch Error in General of the Service Mode and enter the measurement result Select 32k Clock Out in General of the Service Mode and set it to Off PFM 32C1 32C1E Section 3 Troubleshooting 3 1 Judging Method When Image Does Not Appear 1 Flow chart Picture does not appear Check the indication on the indicator in the lower right of the front panel STAND BY STBY LED flashes 2 times When error code is detected from panel 3 times When temperature increases 4 times When 5 V digital system power voltage decreases 2 5 V or less or becomes excess voltage 6 V or more 5 times When 3 3 V digital system power voltage decreases 1 6 V or less or becomes excess voltage 4 V or more 6 times When 6 V analog system power voltage decreases 3 V or less or becomes excess voltage 7 2 V or more 1 2 3 6 12 When the STBY LED does not flash the power supply circuit is defective 2 How to find PDP unit trouble 2 The input signal is supplied to the PDP panel correctly The LVDS signal is supplied to CNI of the circuit board 1 The power voltage for the PDP is supplied correctly in the bottom of the PDP panel The pow
42. 5 Cb Offset Adjustment range is from 0 to 15 Fixed value 8 Cr Offset Adjustment range is from 0 to 15 Fixed value 8 By Adj SECAM The blue offset when receiving the SECAM signal is adjusted Adjustment range is from 0 to 15 Ry Adj SECAM The red offset when receiving the SECAM signal is adjusted Adjustment range is from 0 to 15 Sub Color and Sub Hue Adjustments Refer to section 2 5 Sub Color and Sub Hue Adjust ment Video Decoder Adjustment Refer to section 2 6 Video Decoder Adjustment 2 3 3 Converter 4 White Balance Menu structure This adjustment corrects non uniformity between RGB or YCbCr channels of AD converter IC403 a b 9 AD Converter Cal Mode off RGB Calibration YUV Calibration Video Calibration Cal Mode Set to On to enter the calibration mode Off Normal operation On Calibration mode RGB Calibration The RGB signals are calibrated The signals are calibrated by Sub Cont Red Gain Green Gain Blue Gain Red Bias Green Bias and Blue Bias that are located in the lower layer below this sub menu Adjustment range is from 0 to 255 in each adjustment item YUV Calibration The component video signal is calibrated The component video signal is calibrated by Sub Cont YUV Sub Brt YUV Cb
43. RESISTOR CHIP 1 0K 1 16W 1608 RESISTOR CHIP 1 0K 1 16W 1608 RESISTOR CHIP 220K 1 16W 1608 RESISTOR CHIP 3 3K 1 16W 1608 RESISTOR CHIP 3 3K 1 16W 1608 RESISTOR CHIP 3 3K 1 16W 1608 RESISTOR CHIP 2 7K 1 16W 1608 RESISTOR CHIP 4 7K 1 16W 1608 RESISTOR CHIP 4 7K 1 16W 1608 RESISTOR CHIP 4 7K 1 16W 1608 RESISTOR CHIP 1 16W 1608 RESISTOR CHIP 100 1 16W 1608 RESISTOR CHIP 68K 1 16W 1608 RESISTOR CHIP 68K 1 16W 1608 RESISTOR CHIP 68K 1 16W 1608 RESISTOR CHIP 10K 1 16W 1608 RESISTOR CHIP 5 6K 1 16W 1608 RESISTOR CHIP 100 1 16W 1608 RESISTOR CHIP 100 1 16W 1608 RESISTOR CHIP 10K 1 16 1608 RESISTOR CHIP 10K 1 16W 1608 RESISTOR CHIP 22 1 16W 1608 RESISTOR CHIP 22 1 16W 1608 RESISTOR CHIP 22 1 16W 1608 RESISTOR CHIP 22 1 16W 1608 RESISTOR CHIP 22 1 16W 1608 RESISTOR CHIP 10K 1 16W 1608 RESISTOR CHIP 10K 1 16W 1608 RESISTOR CHIP 10K 1 16W 1608 RESISTOR CHIP 10K 1 16W 1608 RESISTOR CHIP 10K 1 16W 1608 RESISTOR CHIP 10K 1 16W 1608 RESISTOR CHIP 10K 1 16W 1608 RESISTOR CHIP 10K 1 16W 1608 RESISTOR CHIP 10K 1 16W 1608 PFM 32C1 32C1E BOARD 6 833 6 805 6 805 6 833 6 833 6 833 6 833 6 801 6 801 8 724 8 700 6 809 6 805 6 805 6 805 6 845 6 821 6 833 6 809 6 809 6 841 6 833 6 841 6 841 6 805 6 833 6 833 6 809 Ref No or Q ty Part R627 2 R629 2 R630 2 R6
44. STBY 5V 1 1 STBY sv Bema sE 1 CN9001 3008 4P 4P R_SP 5 L_SP L_SP L_SP L_SP R_SP R_SP Be CN8501 CN3003 Lu STBY 5V STBY5V GND GND LED_RED LED R H 1 LED_GREEN LED 6 POWER SIRCS SIRCS GND GND PFM 32C1 32C1E A B 2 2 2 2 CN3002 CN1001 30P 30P STBYSV 1 1 STBYSV GND 2 2 GND SIRCS 3 3 SIRCS GND 4 4 GND LEDA 5 5 LEDA LED B 6 6 LED B POWER SW 7 7 POWER SW INPUT SEL 8 8 INPUT SEL GND 9 9 GND D3 DETECT 10 10 D3 DETECT LPF 11 11 LPF AUDIO MUTE 12 12 AUDIO MUTE LINE MUTE 13 13 LINE MUTE GND 14 14 GND SCL LS 15 15 SCL LS SDA LS 16 16 SDA LS GND 17 17 GND UART TX 18 18 UART TX UART RX 19 19 UART RX CPU RESET 20 20 CPU FWE 21 21 FWE FLASH MODE 22 22 FLASH MODE GND 23 23 GND FAN DRIVE 24 24 FAN DRIVE FAN FB 25 25 FAN FB FAN DETECT 26
45. Service Mode General Vs Va Setting Uvrs 72 Uvra 106 Set Reset You can establish the setup regarding the panel power supply Vs Calculate the setup value Uvrs from equations 1 and 2 below Vs 70 10 X Vrs equation 1 where Vrs 2 99 X Uvrs 255 equation 2 You can establish the setup regarding the panel power supply Va Calculate the setup value Uvra from equations 3 and 4 below Va 30 20 X Vra equation 3 where Vra 2 99 X Uvra 255 equation 4 You can make the entered Uvrs and Uvra valid Change the menu item from Cancel to OK and press ENTER Perform this setup only when the logic board located in the bottom center on the rear of the PDP panel is replaced Take reading of the Vs voltage value and the Va voltage value that is written on the label on the rear of the PDP panel and enter the Vs and Va values in the equations 1 and 3 You can return the Uvrs and Uvra to their default value Change the menu item from Cancel to OK and press ENTER 6 Manual Control These submenu items are used in factory for operation checks Do not operate this function PFM 32C1 32C1E 7 Preset Edit a Original Data Select Preset data structure You can add the preset signals in addition to the default preset data The additional preset data are stored in PROGRAMI to PROGRAM 12 of PRESET DATA AREA PRO GRAM 13
46. b 9 8 Chroma Decoder Hue Sub Contrast 8 Sub Color Sharp Gain 8 Sharp 10 3 Y Out Level 18 C Out Level 10 Y Delay Cb Offset Cr Offset By Adj SECAM Ry Adj SECAM Hue To adjust NTSC signal hue adjust Hue NTSC in the lower layer below this sub menu To adjust NTSC4 43 signal hue adjust Hue NT443 in the lower layer below this sub menu Adjustment range is from 0 to 63 Sub Contrast Adjustment range is from 0 to 63 Fixed value 8 Sub Color Adjust Col NTSC Col PAL and Col SE CAM for the respective signals of NTSC PAL and SECAM Adjustment range is from 0 to 15 Fixed value for Col NTSC only 6 Sharp Gain Adjustment range is from 0 to 15 Fixed value 8 Sharp 10 Adjustment range is from 0 to 3 Fixed value 3 Y Out Level Adjustment range is from 0 to 63 Fixed value 18 C Out Level Receive the NTSC signal and adjust color The color adjustment of PAL and SECAM signals are performed upon completion of the NTSC signal adjustment and use step c Sub Color Adjustment range is from 0 to 63 PFM 32C1 32C1E h j k Y Delay Y delay for the respective signals can be adjusted by YDL NTSC YDL PAL YDL SECAM YDL NT443 YDL PALM and YDL PALN respectively Adjustment range is from 0 to 15 Fixed value
47. is displayed 1 Detecting stoppage of fans and detecting failure of the 2 Detecting temperature increase of the power fan drive circuit supply block and shutting it down 2 Detecting temperature increase of the power supply Service Status block and shutting it down 3 Detecting temperature increase at the center of the top Fan amp Temp Status of the PDP panel and shutting power supply down Fan Drive OK 4 Detecting temperature increase at the I O block side of Fan OK the top of the PDP panel and shutting power supply P S Temp down P S Temp 44 C 5 Detecting temperature increase at the left side of the NOACKDEV 0004 PDP panel and shutting power supply down 6 Detecting the communication error with each device 1 P S Temp If temperature inside the power supply 7 Detecting the EEPROM error block exceeds 81 C is displayed If 8 Detecting decrease of the watch backup power voltage temperature exceeds 86 C the shutting and detecting abnormal oscillation down is activated 9 Detecting PDP initialization error 10 Detecting chroma decoder initialization error 11 Detecting abnormal voltage of the internal power supply and shutting it down 12 Detecting abnormal power off sequence If any abnormality is detected the Standby indicator flashes at the interval of 0 4 seconds continuously At the same time the corresponding item shows the NG indicatio
48. 03144 AL CP 83199 1005 33k CH CHIP 63105 1 A 03211 330 DT R3112 47 16 CHIP 4 7 Da AL CP 13004 63169 63172 08175 03177 CHIP 3004 7 047 047 047 voie Voie Voir voir CHIP VD D Tm 560 Let 63213 voie 330 vir 2 Um A o 83137 Je T 15 jev 18 03120 03123 03129 03131 03133 E 24 D qe i Wat GC 18V 16 160 03216 8 CHIP B CHIP B CHIP Ce AL CP 22 pets kA G T R3147 KATI mm Cor d R3125 Uu 150 TA AL CP ja 20 DIM j 2 F 116 CHIP gt Ka E D 16 gt Di SME astos 3 3k 1 16 CHIP 03164 01 tev B CHIP DER Wei 1 CHIP TUM AUDIO 8 E 03109 1000 2 2 19 25V CH CHIP 1 20 oe 03152 To i 16V tev B CHIP I PFM 32C1 32C1E A Q 2 3 AUDIO PROCESS B SS11065 WW Q P2 TO SP BOARD CN9001 3007 o o P1 CONTROL 3 2820 TX 2820 RX 83153 3 3 R3162 100 1 16W CHIP T gt Pt RX R3161 100 1 16W CHIP Q 3 3 R3163 3164 100 100 19 Lian RN CP RN CP 8983 en 30118 P2 SDA_LS P2 RGB3 Pi CONTI PY Q_SENS 10 8 2 UD UD 163020 11 27 TOTWI 25FU 63191 BUFF 0 BUFF 49 2 i E 19V B CHIP CONTROL 5 1 STBY o 0 1 5 2 7 tev WE MAX20205
49. 07 826 26 391 07 826 26 394 62 975 26 391 62 975 1 826 1 826 1 826 1 826 1 826 1 826 65 872 1 826 1 826 9 982 1 826 26 392 1 826 11 SP 00 o o o o o Descri CA CA CA CA CA TOR CERAMIC 0 TOR CERAMIC 0 PAC PAC PAC u PACIT PACIT PACIT PACIT PACIT PAC PAC PACIT PACIT PACIT PACIT PACIT PACIT PACIT PACIT PACIT PACIT PACIT PACIT PACIT PAC PAC PAC PAC PAC PAC PACIT PACIT PACIT PACIT TOR CHIP CHIP TOR CHIP TOR ELECT 47 CHIP TOR CERAMIC 1 TOR CERAMIC 1 LECT 100 HIP TOR ELECT 470 HIP LECT 47M 5 5 F 1 I
50. 12 49 MCLKSEL 77 POCLK rss 97 MOLK 9 v MUTE i 29 P DET2 SYSHS 32 svsvs 33 88 SYS RESET GS SE 101202 i D3 3v 2 A5V 4 Gs SCPLL 10401 10402 33 SRX4W gt Ta 33V 3 3 ema ABV REG REG gt 99V 3 8 SOKAW G 5050 i 8 3 CSPLD vw gt 01003 PANEL DETI gt 0104 G PANEL DET2 4 PLASMA DISPLAY PFM 32C1 32C1E PFM 32C1 32C1E FAN 3 3 Q 2 2 2 S 3 3 Q 2 2 H1 H2
51. 234 369 2 1002 234 369 2 RB1003 234 369 2 1004 234 369 2 1005 234 371 1006 234 371 RB1007 234 371 RB1008 234 371 RB1009 234 371 1010 234 371 1011 234 371 1012 234 371 1013 234 371 1014 234 371 RB1201 234 371 RB1202 234 371 RB1203 234 371 RB1204 234 371 RB1205 234 371 1206 234 371 RB1207 234 371 RB1211 234 371 RB1212 234 371 401 809 350 2 IP 535 757 ER 535 751 535 751 535 751 P5 535 751 P 535 751 EN 535 757 8 535 751 9 535 751 201 535 757 P202 535 757 P401 535 757 P402 535 757 P403 535 757 P608 535 751 P609 535 757 P611 535 757 612 535 757 P613 535 757 614 3535 155 P615 535 757 P801 535 757 802 535 757 5 16 SP cn 00 XQ o cn o cn o Q o XQ Q Co cn cn oco cn cn Q cn nn Description RES NETWOR RES NETWOR RES NETWOR RES NETWOR RES NETWOR RES NETWOR RES NETWOR RES NETWOR RES NETWOR RES NETWOR RES NETWOR RES NETWOR RES NETWOR RES NETWOR RES NETWOR RES NETWOR RES NETWOR RES NETWOR RES NETWOR RES NETWOR RES NETWOR RES NETWOR RES NETWOR RES NETWOR RES NETWOR RES NETWOR RES NETWOR RES NETWOR RES NETWOR RES NETWOR RES NETWOR RES NETWOR RES NETWOR
52. APL FIL PALNM 46 mE Ap 15 vin lere Ze TT JU EB 2 2 ONTRASTI SH I i a 3 PAL NTSC 47 14 CVBS2 Y2 IN 44 SE ER T 19 YL IN CLOCK PN UL BLACK E GEN DEMO PIN ID Demo ADJ ve A kl COMB SYS 4 t 3 2 18 CBL IN sen m Er FSC OUT 46 COLOR 2 17 CRL IN 9 1 LDwe FS EE S 1 HROMA 1 SEPA INTEC ISEPA 1 D CHROMA 4 T AFC FIL 47 1 rue Mrz mil TRAP Ross 16 SYNC GND DEN gt erga EE ot 48 VCO AFC 15 BUS CONTROL 1 i l l T 2 0 01 0 03 03 03 0 10 11 12 13 1 te de 8 5 2 8 5 85 Gm 5 5 9 8 6 gt 8 PFM 32C1 32C1E 7 21 7 21 5 7 RS5C348A 1003 7 7 SN74LV123APSR 604 5 7 TC74VHCT14AFT IC1012 VCC 1Ro Cx 105 10 20 2CLR 2B 2A 2 N 1 32kHz See ALARM_W REGISTER ODDO 64 E OUTPUT We WEEK MIN HOUR 40 Voo s Y CONTROL ALARM_W REGISTER VOLTAGE CLR NEKE COMPARATOR D CT MIN HOUR DETECT a 2 a Sn a Geen TIME COUNTER 5 Vss I osc MIN HOUR WEEK DAY MONTH YEAR c 0 OSCOUT
53. Board Removal Lithium Battery 1 7 1 2 9 Block Assy Removal 1 8 1 2 10 Power Cord z Renten ende ER 1 8 1 2 11 Plasma Display Panel Unit Packing When Sending it to FUJITSU FHP 1 9 2 Electrical Adjustments 2 1 Equipment messen 2 1 2 2 Electrical Adjustments Using the Service Mode 2 1 2 3 White Balance Adjustment 2 20 2 4 Calibration Adjustment 2 20 2 5 Sub Color and Sub Hue Adjustments aa 2 21 2 6 Video Decoder Adjustment 2 21 2 7 Watch Error Adjustment 2 22 3 Troubleshooting 3 1 Judging Method When Image Does Not Appear 3 1 3 2 Self Diagnosis 3 2 3 251 EE 3 2 3 2 2 Abnormality Judgment Criterion 3 2 4 Semiconductors 1 sees 4 1 5 Spare Parts 5 1 Notes on Repair 5 1 3 2 Exploded Views ees etd eser eerte trier 5 2 2 3 Electrical Parts KASP session uiti at 5 8 6 Block Diagrams 6 1 ija 2012 OR mem 6 1 u e o e eg 6 2 3 3 O O HAA 6 3 7 Diagrams 7 1 Frame Schematic
54. CJ CJ CJ CJ CJ S 80842ANNP ED6 T2 xC18V01PC20C SI 3025LSA TL 2550 570144 THC63LVDM83R T ALL TYPE ALL TYPE ALL TYPE A L LL TYPE C C CTOR SMALL CTORS POWER C L TYPE L TYPE L TYPE L TYPE L TYPE 58888 ex 5 a Ma P L Li L L Li Ug ci TOR 2SC4617R co TOR 28A1162 G TOR 2SC4617R TOR DIC144EE TOR 2SC4617R TOR 28A1162 G TOR 2SC4617R co co TOR 2SC4617R TOR 28A1162 G TOR 28A1162 G TOR 28A1162 G TOR 2SA1774R co co co TOR 2SA1774R TOR 2SC4617R TOR DIC144EE TOR 2SA1774R TOR 2SC4617R TOR 2SC4617R TOR 2SC4617R TOR 2SC4617R TOR 2SC4617R TOR 2SC4617R ca caca TOR 2SC4617R TOR 2SA1774R TOR 2541462 25 1462 Co TOR SMALL TYPE 680 B90098APF A 130 BND ER 1 00UH 1 00UH 1 00UH 1 00UH L TYPE 10UH TOR SMALL TYPE 10UH TOR SMALL TYPE 10UH 330 OVH OVH OVH OVH OVH BE CTOR SMALL TYPE 10UH CTOR CHIP 22UH 3225 CTOR SMALL 10UH CTOR CHIP 22UH 3225 0 INDUCTOR CHIP 41P750S TOR 2SA1037AK T146 R TOR 2SA1037AK T146 R TOR 2SA1037AK T146 R TOR 2SA1037AK T146 R TOR 2SA1037AK T146 R TO
55. Convert Pic Mode MATRIX STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL
56. INPUT2 1075108 Su 2 UDZSTE 17108 R3120 mmm 2 PROTECT CHIP e3113 0 087 190 03042 16 wJ 09027 0025108 UDZSTE 1710B 83170 08017 DEA 3008 TAS DTC144EE 2980184 CHIP MUTE SWITCH MU INPUTI 03036 1075108 na 03044 UDZSTE 1710B 2 DAP222 PROTECT HEU 0 087 03035 16 1075108 103016 AUD SV 174 NU WEM 0 01 22 PROTECT 03145 AUDIO 1 1005 AL CP genes 53065 100 i 2 1 j 1868 tor m t EU AMUTE cule D 22 mn sis 2 Ni Ki 801219 a 03139 tev R3132 47005 CN3008 100 Dn B CHIP 0 00 13005 63103 E HA 1716W 4 CHIP 25V 330 CHIP B CHIP jev CHIP SCH 03173 03176 63178 AUD SV 0 47 0 47 0 47 0 47 0 47 m E 8 6HIP B CHIP E 560 03104 DES 13003 63126 Ta Ta Ta T 103022 Ier 83148 SHIP TEAG422DT AP E AUDIO SWITCH a D s CHIP i 2 2 Ta Te d 03090 03098 5 2 03160 100 81 8 03127 jevo 5 5608 03432 AL CP s nn 5 19 van 3 3 Biz x 10 om E 83081 Z a I 1718W CHIP A Mav 08167 E 01 AUD dsv 03135 DZ A3116 163012 18 F CHIP 63148 03153 63209 sh 83115 TA8776N 1000 0 1 16 103011 03210 SURROUND PROCESSOR M 152 NJM4558E TE2 2 A SE za
57. J9501 1 566 822 21 s JACK AUDIO I Q9501 8 729 119 78 s TRANSISTOR 2SC2785 HFE Q9502 8 729 119 78 s TRANSISTOR 2SC2785 HFE 09503 8 729 119 78 s TRANSISTOR 25C2785 HFE R9501 215 394 00 s RESISTOR METAL FILM 75 1 4W R9502 249 437 11 s RESISTOR CARBON 47K 1 4W SMALL R9503 249 437 11 s RESISTOR CARBON 47K 1 4W SMALL R9504 215 394 00 s RESISTOR METAL FILM 75 1 4W R9505 215 394 00 s RESISTOR METAL FILM 75 1 4W R9506 249 411 11 s RESISTOR CARBON 1K 1 4W SMALL R9507 249 411 11 s RESISTOR CARBON 1K 1 4W SMALL R9508 249 411 11 s RESISTOR CARBON 1K 1 4W SMALL R9510 249 437 11 RESISTOR CARBON 47K 1 4W SMALL R9511 249 437 11 s RESISTOR CARBON 47 1 4W SMALL R9512 247 843 11 s RESISTOR CARBON SMALL 3 3 R9513 249 411 11 s RES CARBON 330 1 4W SMALL R9514 249 437 11 s RESISTOR CARBON 47 1 4W SMALL R9515 249 437 11 s RESISTOR CARBON 47 1 4W SMALL R9516 247 843 11 s RESISTOR CARBON SMALL 3 3 R9517 249 411 11 5 RES CARBON 330 1 4W SMALL R9518 249 437 11 s RESISTOR CARBON 47 1 4W SMALL R9519 249 437 11 s RESISTOR CARBON 47 1 4W SMALL R9520 247 843 11 s RESISTOR CARBON SMALL 3 3 R9521 249 411 11 s RES CARBON 330 1 4W SMALL 5 22 Description MOUNTED CIRCUIT BOARD 5 CAPACITOR CHIP ELECT100MF 6 3V CAPACITOR CERAMIC 0 01MF 50V CAPACITOR CERAMIC 0 01MF 50V CAPACITOR CERAMIC 0 01MF 50V PIN CONNECTOR 3P
58. RS 2320 INTERFACE TC7W125FU BUFF arr 103020 272 ux 260 UART_RX 103019 2 2 TC7W126FU BUFF R3156 119 CHIP STBY 9 03050 020212 TEB5L 03051 02CZ12 TE85L 03053 UDZSTE 175 6B 83155 83158 47k 100 03024 2802412 BUFF 03025 2802412 BUFF wee 03055 020Z12 TE85L 103017 2 4 08057 TC74HC125AF 020712 85 BUFF 03049 02C212 TE85L 03048 02C212 TE85L ig EZ R31 47 1 1 03052 UDZSTE 175 68 54 83157 k 100k 1 168 CHIP Eu 03054 CHIP 109047 0 4 3 03056 020712 TEB5L L CPU RES Tato 03184 7 Zi 02 212 851 Y Y 8 Is 03183 9 1 18V B CHIP F MODE FWE 53001 CN3011 SWITCH SLIDE 5 81 5V 2 P3 GND TO B BOARD CN1005 CN3012 9P STBY 5V TEM GND 81 5V TEM P2 GND STBY 5V TEM P3 GND TO 8 BOARD 081501 TO BOARD 081501 TO 8 BOARD 081501 Pn CN3009 44 SOCKET CONNECTOR RX NC T VIDEO GND NC GND Y GND GND AUDIO
59. TEMP3 PLO CS 19 VMUYE 23 i VIDEO MUTE 4 lt I 5 mmm stev H N een PANEL DET 6 101863 Tu ss 01006 BER 2 THERMO Li 50 255 or Tam N 2 cock KEY SENSE 2 an kev SOK mae mop im 2 mea 2 CN1501 5 ATG 00 ae H THERMO I fe BUFF 6 1 69 0205 zov 18 8 inm SI i L n i tres 5 676 4 990 0206 209 Im Pr em i power Power 3j G9 power mm j TS ST e cot sys NM 7 NTSC PAL 06 13 sur IO 0212217 am aw sev 0332 dm a a RS BUFF 10202 pur 0215218 Zen REG PV 2 0214 cour 20 30 67 H Section 7 Diagrams Note Parts marked differ according to the model destination Refer to the mount table for each function The parts marked schematic diagrams are not mounted All capacitors are in uF unless otherwise noted pF uuF 50WV or less are not indicated except for electrolytics All electrolytics are in 50 V unless otherwise specified fw fusible resistor fwd nonflammable resistor A internal component panel designation and adjustment for repair Caution when replacing chip parts New parts must be attached after removal of the chip Be careful not to heat the minus side of a tantalum capacitor be cause it is easily damaged by the heat
60. The data stored in the preset area is used for editing 1 Current Data Select When you select the signal data that is being input at this moment for editing move the cursor to this item and press ENTER The selected data is copied to the editing RAM This mode is prepared for the case that the signal specification is unknown and you can make editing by confirming the specification on screen Select the respective adjustment items and change the data as desired using the TA key or the key changed data are reflected on screen If you press the ENTER key again the screen returns to the previous menu Among the adjustment items the three types of adjustment Freq V Freq and Sync Pol cannot be modified Table When you select the data stored in the preset area 2 move the cursor to this item and press ENTER Select the desired data using the TA key The selected data is copied to the editing RAM This mode is prepared for the case that the signal specification is already known You can make adjust ment and edit data of all items but the modified data are not reflected to the actual picture images 2 7 b Data Edit Menu structure You can edit the data contents of the editing RAM Service Mode Preset Edit Data Edit H Freq 031 469 kHz 1 Horizontal frequency V Freq 059 94 Hz 2 Vertical frequency Sync Pol N N 3 Sync signa
61. e sna ts 69 2 elen ed Ne 1 stevev A AN pie Die 51 2 01 0 1 16 B CHIP e2 BUS SWITCH 22k 2 26 3 3 2 p 99 D e ker 2 p ID Gt m 1 27 EN 9 sw 3 vena aa F 01007 ha k ven nc KIA 9 ics rm ten E vao ip AM a You i iis ville 1 Moss m L lees 0 1 16V B CHIP ho VEKI 1 101010 NS d T TAN tev NO TOZANHOSA JET Ap coL svs wu wu en IENE DRIVER 8 101004 NT PAL e E D Bian TE e EL NTSC PAL mim r te PICAGC SW A Bas wu memo gt e MAIN PU Asc mm i PVCCT 9 AT ern 80 d BR ous LW doza vss am gt sev gt Ei ee Saa vr L 01005 mm SE Greg 4 vs DTC144EE wa 68 080 91024 osv 15KRGB OUT ENABLE SWITCH gt Wi 2 am 1 We STBY sv ER i 2 1 Can en tev T 199987 STBY sv TH v srne 39 Pei 5 s D I 1 3 amp 101011 STBY SV MM Bp as ge Yu a Keup at TC7AVHCTSAIAFT o P 161008 2 865 dE 5 A AN LINE DRIVER sie E E Se Boas v BUFF 1258 EEA Bia pi Suse REE Dr i TOME CHIP CHIP 225 2 z z 2 z
62. to PROGRAM30 are not used Menu structure Service Mode Preset Edit Original Data Select Data Edit Save Area Select Editing procedure An independent memory area editing RAM is assigned for data editing inside the system controller as shown First copy the source data for editing to the editing RAM Then modify the data on the editing RAM and save the editing contents to the specified preset area of In addition to the default preset data that has been set already when shipped from the factory you can edit the various data from the already saved data in EEP ROM or the signal data that is being input at this moment An example shows the case the data stored in the EEP ROM preset area No 2 is used for editing and the edited data is stored in the area No 11 EEP ROM preset data area 1 PROGRAM2 PROGRAM3 PROGRAM4 PROGRAM5 PROGRAM6 PROGRAM PROGRAM8 PROGRAM9 PROGRAM10 11 12 System controller Editing Editing PFM 32C1 32C1E Menu structure You can select the original data that is used for editing and copy the selected original data to the editing RAM Service Mode Preset Edit Original Data Select Current Data Select Table 1 The signal data that is being input at this moment is used as the original data for editing L 2
63. to 0x1EBF 0 1 to 0x1EDF 0 1 to Ox1EFF Area 19 Ox1F00 to Ox1F1F Ox1F20 to Ox1F3F 0x1F40 to Ox1F5F Ox1F60 to Ox1F7F Area 20 Ox1F80 to Ox1F9F Ox1FA0 to Ox1FBF 0x1FCO to Ox1FDF 0x1FEO to Ox1FFF 2 15 Table 2 Factory Preset Data a Format VGA 640x350 70Hz VESA 640x350 85Hz Resolution H dot x V line 640 x 350 H V Sync Polarity Scanning Format Progressive Pixel Clock MHz Horizontal dot Progressive VESA 640x400 85Hz 640 x 400 Progressive VESA 640x480 60Hz MAC 13inch VESA 640x480 72Hz VESA 640x480 75Hz VESA 640x480 85Hz 640 x 480 Progressive Progressive Progressive Progressive Progressive o 03 VGA 720x400 70Hz a o VESA 720x400 Q85Hz 720 x 400 Progressive Progressive a a DATA 852x480 60Hz 852 x 480 Progressive a 61 856x480 60Hz a 99 MATROX S2 856 480 960 2 za gt MATROX_S3 856 480 960 2 856 480 Progressive Progressive Progressive a VESA 800x600 56Hz a VESA 800x600 60Hz a N VESA 800x600 72Hz a co VESA 800x600 75Hz a co VESA 800x600 85Hz 800 x 600 Progressive Progressive Progressive Pr
64. 1 1 RESISTOR CHIP 47K 1 1 ow 6 6 6W 16 6W 16 8 RESISTOR CHIP 47 1 16W 160 RESISTOR CHIP 10K 1 16W 1608 RESISTOR CHIP 10K 1 16W 1608 RESISTOR CHIP 100 1 16W 1608 RESISTOR CHIP 27K 1 16W 1608 RESISTOR CHIP 10K 1 16W 1608 RESISTOR CHIP 100 1 16W 1608 RESISTOR CHIP 200 1 16W 1608 RESISTOR CHIP 3 0K 1 16 1608 RESISTOR CHIP 47K 1 16W 1608 RESISTOR CHIP 1 0K 1 16W 1608 RESISTOR CHIP 1 16W 1608 RESISTOR CHIP 1 16W 1608 RESISTOR CHIP 2 2K 1 16W 1608 RESISTOR CHIP 2 2K 1 16W 1608 RESISTOR CHIP 1 16W 1608 RESISTOR CHIP 1 16W 1608 RESISTOR CHIP 10K 1 16W 1608 RESISTOR CHIP 10K 1 16W 1608 RESISTOR CHIP 3 3K 1 16W 1608 RESISTOR CHIP 3 3K 1 16W 1608 RESISTOR CHIP 47K 1 16W 1608 RESISTOR CHIP 10K 1 16W 1608 RESISTOR CHIP 47 1 16W 1608 RESISTOR CHIP 47K 1 16W 1608 RESISTOR CHIP 47K 1 16W 1608 RESISTOR CHIP 1 0K 1 16W 1608 RESISTOR CHIP 47K 1 16W 1608 RESISTOR CHIP 22K 1 16W 1608 CONDUCTOR CHIP 1608 CONDUCTOR CHIP 1608 CONDUCTOR CHIP 1608 CONDUCTOR CHIP 1608 RESISTOR CHIP 47K 1 RESISTOR CHIP 47K 1 6W 1608 6W 1608 B BOARD Ref No or Q ty Part No SP R1061 216 825 11 R1062 216 825 11 s R1063 216 833 11 s R1065 216 864 11 s R1066 216 864 11 s R1067 216 864 11 s R1068 216 838 11 s R1069 216 833 11 s R1070 216 864 11 s R1071 218 740 11 s R1201 216 829 11 s R1202 216 829 11 s R120
65. 1 8 V or less 3 RTC XSTOP Watch oscillator error PFM 32C1 32C1E 9 Detecting PDP initialization error Service Mode Service Status Warning Status EEP ID OK EEP Save OK EEP Load RTC Init VDET OK RTC XSTOP Init 1 DEC Init E OK DC Init OK Power 1 PDP Init In the case of the PDP unit initialization error the NG indication is displayed 10 Detecting chroma decoder initialization error Service Mode Service Status Warning Status EEP ID OK EEP Load RTC Init VDET XSTOP OK PDP Init OK Init OK 1 DC Init OK 1 DEC Init In the case of the chroma decoder unit initialization error the NG indication is displayed PFM 32C1 32C1E 11 Detecting abnormal voltage of the internal power supply and shutting power supply down Service Mode Service Status Warning Status EEP ID OK EEP Load Init VDET 2 Init 2 OK DEC Init x OK DC Init 5 OK 1 Power Off OK 1 DC Init When the internal power supply digital system 5 V digital system 3 3 V or analog system 6 V does not start up the NG indication is displayed If any one of these power supplies does not start
66. 10 20 30 40 SURROUND LPF FILTERADJ TPL TPR 2 0 0 0 3 VOL LIN EHE Lour BUFFER AND PHASE SHIFT LPF LIR SWITCH VOL RIN BAL 9 ROUT VOL 63 L R OUT DOLBY IN 5 BUFFER VOL L ROUT Spa L R SCL 121 AND D A CONVERTER GND E 9 3 2 9 B BASS L R TREBLE BALANCE VOLUME DACI VCC 9V VCC 12V OUT 7 1 1 3 TC74HC4052AF EL IC3005 2 3 TDA7480 IC3014 IC3015 NC VCCSIGN 513 9 5 STBY MUTE 12 6 INT PWM 4 OUT 77 5 BOOTDIODE FEEDCAP 8 5 VREG SGN GND 9 9 3 18 20 4 FREQ vec vec Q 1 3 TK15452V IC3010 VCC STANDBY GND INPUTI INPUT1 OUTPUT1 GND 750 T Iech 6 1 DRIVER 3 DRIVER 4 750 5 DRIVE ZA T 9 INPUTS 03 INPUTS 02 OUTPUT3 1 1 VCC 1 49 OUTPUT2 9 INPUT2 8 INPUT2 B ae S 5 s se s rz ssE 5 5 055250 a pe 2 lo 20218355 14 28897 1682 1 778210841 Cp sn 6683 7 780 1343 05
67. 1M35D2 IC UPC358G2 E2 RESISTOR CHIP 100 1 10 2012 RESISTOR CHIP 2 2K 1 10W 2012 RESISTOR CHIP 6 8K 1 10W 2012 S BOARD Ref No or Q ty Part No SP 4pcs 8 330 030 56 s C1501 1 126 392 11 s 01502 1 163 021 91 8 C1503 1 163 021 91 s 1504 1 163 021 91 8 11501 1 506 482 11 s 101501 8 759 947 34 s 101502 8 759 144 72 s R1501 1 216 627 11 s R1502 1 216 659 11 s R1503 1 216 671 11 s R1504 1 216 049 11 s SP BOARD Ref No or Q ty Part No SP 1 8 330 030 59 5 CN9001 506 483 21 s FL9001 233 895 11 s J9001 536 705 00 s R9001 469 869 21 s R9002 469 869 21 s R9003 469 869 21 s R9004 469 869 21 s Miscellaneous Ref No or Q ty Part No SP pc 469 778 11 pc 469 969 11 5 469 241 11 s 500 249 11 5 500 051 11 s 543 653 21 5 543 993 12 5 500 263 11 s 500 459 11 5 500 511 11 543 798 11 5 RESISTOR CHIP 1K 1 10W 2012 Description MOUNTED CIRCUIT BOARD SP PIN CONNECTOR 4P FILTER EMI ZJY91R5 4P TERMINAL BOARD SP SPEAKER INDUCTOR EMI FERRITE 2012 INDUCTOR EMI FERRITE 2012 INDUCTOR EMI FERRITE 2012 INDUCTOR EMI FERRITE 2012 Description CLAMP FERRITE RFC 5 CLAMP FERRITE RFC 6 CLAMP FERRITE RFC 8 BEAD FERRIT BEAD FERRIT CORE ASSY B CORE FERRIT CORE TROIDA FILTER CLAM CORE FERRIT FILTER CLAM E SFC 3 E SFC 4 EAD TFCM 16 8 16 E TFCM 16 8 16
68. 204 11 s CAPAC C3210 126 204 11 s CAPAC C3211 126 204 11 s CAPAC C3212 124 779 00 s CAPAC C3213 124 779 00 s CAPAC C3214 127 573 11 s CAPAC C3215 127 573 11 s CAPAC C3216 124 779 00 s CAPAC C3217 124 779 00 5 CLP3001 4 042 408 01 PIN CLP3002 4 042 408 01 PIN CN3001 764 095 11 PIN CN3002 184 625 11 o CONNE CN3003 164 092 11 o PIN CN3004 164 080 21 s PIN CN3005 564 525 11 o PLUG CN3007 695 210 21 o PIN CN3008 506 483 21 s PIN CN3009 815 410 11 o SOCKE CN3011 764 090 11 PIN CN3014 564 509 11 s PLUG CN3015 564 509 11 s PLUG D3001 8 719 800 76 s DIODE D3002 8 719 800 76 s DIODE D3003 8 719 800 76 s DIODE D3004 8 719 800 76 s DIODE D3005 8 719 069 55 s DIODE D3006 8 719 069 55 s DIODE D3007 8 719 069 55 s DIODE D3008 8 719 069 55 s DIODE D3009 8 719 800 76 s DIODE D3010 8 719 800 76 s DIODE 03011 8 719 800 76 5 DIODE 03012 8 719 800 76 5 DIODE 03013 8 719 800 76 5 DIODE 03014 8 719 800 76 5 DIODE 03015 8 719 083 82 5 DIODE 03016 8 719 083 82 5 DIODE 03017 8 719 083 82 5 DIODE D3018 8 719 083 82 s DIODE D3019 8 719 921 40 s DIODE D3020 8 719 921 40 s DIODE D3021 8 719 083 60 s DIODE D3022 8 719 083 60 s DIODE D3023 8 719 921 40 s DIODE D3024 8 719 921 40 s DIODE D3025 8 719 083 60 s DIODE D3026 8 719 083 60 s DIODE D3027 8 719 036 94 DIODE D3028 8 719 059 22 s DIODE PFM 32C1 32C1E ption IC 0 IC 0 0 1MF 0 1MF MF 16V MF
69. 218 731 11 s RESISTOR METAL 43K 1 16 R69 216 821 11 s RESISTOR CHIP 1 0K 1 16 1608 R232 216 833 11 s RESISTOR CHIP 10K 1 16W 1608 R70 218 708 11 s RESISTOR CHIP 4 7K 1 16W 1608 R233 216 864 11 s CONDUCTOR CHIP 1608 R71 218 714 11 s RESISTOR CHIP 8 2K 1 16W 1608 R236 216 864 11 s CONDUCTOR CHIP 1608 R72 218 702 11 s RESISTOR CHIP 2 7K 1 16W 1608 R239 216 864 11 s CONDUCTOR CHIP 1608 R73 216 821 11 s RESISTOR CHIP 1 0K 1 16W 1608 R240 216 835 11 RESISTOR CHIP 15K 1 16W R74 216 809 11 s RESISTOR CHIP 100 1 16W 1608 R245 216 813 11 RESISTOR CHIP 220 1 16W 1608 R75 218 692 11 RESISTOR CHIP 1 0K 1 16W 1608 R246 216 809 11 s RESISTOR CHIP 100 1 16W 1608 R76 218 692 11 s RESISTOR CHIP 1 0K 1 16W 1608 R248 216 809 11 s RESISTOR CHIP 100 1 16W 1608 PFM 32C1 32C1E 5 13 BOARD Ref or Q ty R252 R255 R256 R257 R258 R260 R261 R262 R263 R265 R266 R269 R271 R272 R273 R274 R275 R276 R277 R278 R279 R280 R281 R282 R283 R284 R285 R286 R287 R288 R289 R290 R291 R292 R293 R294 R295 R296 R298 R299 Co Cn CO Co co o 5 14 22 2 2 2 2 2 2 z 2 2 2 2 2 2 2 3 2 2 2 2 2 PZ 2 2 2 sz 2 2 2 2 Al 2 52 2 2 2 52 2 2 2 2 2 2 x 2 2 2 2 2 2 2 22 2 2 2 2
70. 26 FAN DETECT GND 27 27 GND 0 SENS 28 28 0 SENS RGB3 29 29 RGB3 CONTI 30 30 CN3011 CN1005 5P 5 STBY 5v 1 1 8 2 2 2 3 3 2 TEM P3 4 4 5 5 GND CN3001 CN401 10P 10P GND 1 NICI av 2 2 RA GND GND oy 4 DEA GND 5 5 GND BU 6 6 gu 7 GND DSUB_H 8 8 DSUB_H 9 9 GND DSUB_V 10 10 DSUB_V CN3006 CN102 10P 10 GND 1 NICI GND 2 2 GND ANSV 3 3 ANSV ANSV 4 4 AN5V 5 5 GND csie 6 6 c_sia 7 GND _ 16 8 8 Ysi 9 9 GND 410 510 10 10 VID_SIG B SS11065 WW FRAME P2 7 2 Schematic Diagrams and Printed Wiring Boards ee lt gt oa I TT CN9501 44 NC v Bi RX M gt gt 2 VIDEO 82 TX al NC at 83 GND Y gt A4 Y Q9501 1 09510 2 Rosto 2802785 01 8 484 c R9506 47 BUFFER B asl o VIDEO 2 5 VIDEO IN O de w 89513 9 185 GND 530 A6 AUDIO_L 1 9 AWw ke 09503 TOK 21 1 77 108 86 GND VIDEO OUT PROTECT H TON 47 AT AUDIO R 16V R9501 5V 57 GND 75 T RN A8 O SENSE m 09502 bus 9 188 89507 47k BUFFER 2
71. 779 00 5 CAPACITOR ELECT 10MF 16V C3072 107 826 11 s CAPACITOR CHIP CERAMIC 0 1MF C3137 124 779 00 s CAPACITOR ELECT 10MF 16V C3074 107 826 11 s CAPACITOR CHIP CERAMIC 0 1MF C3138 162 968 11 s CAPACITOR CERAMIC 4700PF 50V B C3076 107 826 11 s CAPACITOR CHIP CERAMIC 0 1MF C3139 162 968 11 s CAPACITOR CERAMIC 4700PF 50V B C3077 107 826 11 s CAPACITOR CHIP CERAMIC 0 1MF 3140 115 416 11 8 1000 25 C3078 126 204 11 s CAPACITOR ELECT 47MF 16V CHIP C3141 115 416 11 s CAPACITOR CERAMIC 1000PF 25V C3079 107 826 11 s CAPACITOR CHIP CERAMIC 0 1MF 63142 164 505 11 s CAPACITOR CHIP CERAMIC 2 2MF C3080 126 205 11 s CAPACITOR ELECT 47M 6 3 C3143 164 505 11 s CAPACITOR CHIP CERAMIC 2 2MF C3081 117 681 11 s CAPACITOR ELEC F 16V C3144 162 927 11 s CAPACITOR CERAMIC 100PF 50V CH C3082 107 826 11 s CAPACITOR CHIP CERAMIC 0 1MF C3145 162 927 11 s CAPACITOR CERAMIC 100PF 50V CH C3083 107 826 11 s CAPACITOR CHIP CERAMIC 0 1MF C3147 107 884 11 s CAPACITOR ELECT 1000MF 16V C3084 117 681 11 s CAPACITOR ELEC F 16V C3148 107 884 11 s CAPACITOR ELECT 1000MF 16V C3085 107 826 11 s CAPACITOR CHIP CERAMIC 0 1MF C3150 107 826 11 s CAPACITOR CHIP CERAMIC 0 1MF C3086 107 826 11 s CAPACITOR CHIP CERAMIC 0 1MF C3151 107 826 11 s CAPACITOR CHIP CERAMIC 0 1MF C3087 117 681 11 s CAPACITOR ELEC F 16V C3152 107 826 11 s CAPACITOR CHIP CERAMIC 0 1MF C3088 165 176 11 s CAPACITOR CERAMIC 47000PF 16V C3153 107 826 11
72. 8449 218 104 R450 218 702 R451 216 829 R452 216 829 R453 218 708 R454 216 797 R455 216 809 R456 216 843 R457 216 843 R458 216 843 R459 216 833 R460 216 830 R604 216 809 R607 216 809 R608 216 833 R609 216 833 R610 216 801 R611 216 801 R612 216 801 R613 216 801 R614 216 801 R615 216 833 R616 216 833 R620 216 833 R621 216 833 R622 216 833 R623 216 833 R624 216 833 R625 216 833 R626 216 833 SP 00 o Description RESISTOR CHIP 470 1 16W 1608 RESISTOR CHIP 470 1 16W 1608 RESISTOR CHIP 470 1 16W 1608 RESISTOR CHIP 1 5K 1 16W RESISTOR CHIP 47 1 16W 1608 RESISTOR CHIP 18K 1 16W 1608 RESISTOR CHIP 18K 1 16W 1608 RESISTOR CHIP 150K 1 16W RESISTOR CHIP 4 3K 1 16W 1608 RESISTOR CHIP 82K 1 16W 1608 RESISTOR CHIP 2 2K 1 16W 1608 RESISTOR CHIP 2 2K 1 16W 1608 RESISTOR CHIP 2 2K 1 16W 1608 RESISTOR CHIP 1 0K 1 16W 1608 RESISTOR CHIP 150K 1 16W RESISTOR CHIP 150K 1 16W RESISTOR CHIP 47 1 16W 1608 RESISTOR CHIP 22K 1 16W 1608 RESISTOR CHIP 22K 1 16W 1608 RESISTOR CHIP 47 1 16W 1608 RESISTOR CHIP 6 8K 1 16W 1608 RESISTOR CHIP 2 2K 1 16W 1608 RESISTOR CHIP 2 2K 1 16W 1608 RESISTOR CHIP 1 0K 1 16W 1608
73. 845 11 s RESISTOR CHIP 100K 1 16W 1608 R3135 216 845 11 s RESISTOR CHIP 100K 1 16W 1608 R3136 216 852 11 s RESISTOR CHIP 390K 1 16W 1608 R3137 216 839 11 s RESISTOR CHIP 33K 1 16 1608 R3138 216 833 11 s RESISTOR CHIP 10K 1 16W 1608 R3139 216 839 11 s RESISTOR CHIP 33K 1 16W 1608 R3141 216 834 11 s RESISTOR CHIP 12K 1 16W 1608 R3142 216 832 11 s RESISTOR CHIP 8 2K 1 16W 1608 R3143 218 823 11 s RESISTOR CHIP K 1 16W 1608 R3144 218 823 11 s RESISTOR CHIP K 1 16W 1608 R3145 218 823 11 s RESISTOR CHIP K 1 16W 1608 R3147 216 811 11 s RESISTOR CHIP 150 1 16W 1608 R3148 216 811 11 s RESISTOR CHIP 150 1 16W 1608 R3153 216 809 11 s RESISTOR CHIP 1 16W 1608 R3154 216 841 11 s RESISTOR CHIP 47K 1 16W 1608 R3155 216 841 11 s RESISTOR CHIP 47K 1 16W 1608 R3156 216 809 11 s RESISTOR CHIP 1 16W 1608 R3157 216 845 11 s RESISTOR CHIP K 1 16W 1608 R3158 216 845 11 s RESISTOR CHIP K 1 16W 1608 R3159 216 829 11 s RESISTOR CHIP 4 7K 1 16W 1608 R3160 216 829 11 s RESISTOR CHIP 4 7K 1 16W 1608 R3161 216 809 11 s RESISTOR CHIP 1 16W 1608 R3162 216 809 11 s RESISTOR CHIP 1 16W 1608 R3163 218 668 11 s RESISTOR CHIP 1 16W 1608 R3164 218 668 11 s RESISTOR CHIP 1 16W 1608 R3168 216 825 11 s RESISTOR CHIP 2 2K 1 16W 1608 R3169 216 825 11 s RESISTOR CHIP 2 2K 1 16W 1608 R3170 216 825 11 s RESISTOR CHIP 2 2K 1 16W 1608 R3171 216 825 11 s RESISTOR CHIP 2 2K 1 16W 1608 R3172 216 197 11 8 RESISTO
74. C C C C C C C C C C C C C C C E C 6 C E C C C sc oo O 00 o Tei et o Qo o Nas Koo er beet O t3 C3 C3 ODE ODE ODE ODE ODE ODE ODE APACIT APACIT APACIT APACIT APACIT APACIT APACIT APACIT APACIT APACIT APACIT APACIT APACIT APACIT APACIT APACIT ODE H ption TOR CHIP CERAMIC 0 1MF TOR CHIP CERAMIC 0 1MF TOR CHIP CERAMIC 0 1MF TOR CHIP CERAMIC 0 1MF TOR ELECT 47MF 6 3V 105 TOR CHIP CERAMIC F TOR CHIP CERAMIC TOR CHIP CERAMIC OR CHIP CERAMIC OR CHIP CERAMIC F OR CHIP CERAMIC F OR CHIP CERAMIC F TOR CHIP CERAMIC TOR CHIP CERAMIC F OR CHIP CERAMIC F TOR CHIP CERAMIC F OR CHIP CERAMIC F OR CHIP CERAMIC F TOR CHIP CERAMIC F OR CHIP CERAMIC F TOR CHIP CERAMIC F TOR CHIP CERAMIC F OR CHIP CERAMIC F TOR CHIP CERAMIC F TOR CHIP CERAMIC F OR CHIP CERAMIC F TOR CHIP CERAMIC 0 1MF TOR ELECT 47MF 6 3V 105 TOR ELECT 47MF 6 3V 105 TOR ELECT 47MF 6 3V 105 OR CHIP CERAMIC 0 1MF TOR CHIP CERAMIC 0 1MF OR CHIP C
75. Diagrams seen sen 7 2 Frame 1 2 esse inire edited 7 2 Frame 2 20 s dati 7 3 7 2 Schematic Diagrams and Printed Wiring Boards sse 7 4 Schematic Diagrams QA M ds 7 4 aito ede Ree PRAE 7 8 EE 7 9 de cte a usa 7 10 B 1I e en RO HR IDEE 7 14 sea ree Ete 7 15 B OLD rem PERI 7 16 B AMT iae oreet TE noe 7 17 B SIPER SRS REESE 7 18 B 6T EE 7 19 BTL OE A RO 7 20 7 25 Pam m hm er Q 7 25 S ina Rd Eeer A 7 25 Na e e ono 7 25 Printed Wiring Boards QA E E Ss Ek le OU 7 5 oeste t 7 6 7 12 uude bed Eee Een 7 24 KEE 7 24 Bi nn su gH OO HH e 7 24 aieo deg Be tr e s 7 24 PFM 32C1 32C1E Section 1 Service Information 1 1 Board Layout NOLA ENT N 1 2 Disassembly 1 2 1 Board Removal 32 1 i QA board AM 9 9 I 0 5 Remove blank panel Loosen two panel stopper screws 77 35 s ENER y PFM 32C1E J KJ Blank panel CN3009 Pd Two screws i PS3x6
76. Gain to 00 normally Set the color temperature to Low as follows Select Color Temp gt Low Adjust white balance using the R G and B gain adjustments as follows Adjust white balance by adjusting Red Gain Green Gain and Blue Gain until color temperature satisfies the specification of 3200 K During this adjustment set Green Gain to 00 normally However if the white balance adjustment cannot be performed by all means decrease the Green Gain until the specification is satisfied 2 4 AD Calibration Adjustment 1 Adjustment Preparation 1 2 1 Set the RGB Mode of the Custom Setup menu to PC Set Cal Mode of AD Converter of the Service Setup menu to On AD Adjustment of RGB Input Connect the RGB signal VGA 640 480 60 all white 90 IRE to INPUTI 2 20 2 3 4 5 6 1 2 3 4 5 6 7 8 9 1 2 3 4 5 Obtain the RGB balance by adjusting Red Gain and Blue Gain of RGB Calibration until the R detection value and the B detection value come very close to the G detection value Adjust Sub Cont RGB until the R B and G detection values become the setup value Setup value 230 3 Set the RGB signal to the VGA 640 480 60 all gray 20 IRE Adjust Red Bias Green Bias and Blue Bias until the R B and G detection values become the setup value Setup value 51 3 Repeat the above steps 1 to 5 until all the
77. Grm Rose w DIE moro 2 100 d en irn wb OZ m N FOE 7 99 T y e war 1 a i o Aba 03010 cai 4 vocz mi p s izo iow e sv o EM ca004 k CIES B CHIP R N R2 wW e 6 63200 PS UART_RX gt bal UART RX LEDA WI Co MACH est 83085 DR 4T a 2 em Pa AX 4 UART 19 T Kos 85108 o PROTECT 03020 Mim ont DO 120 CPU RES TOOL roost y wn s la 5 3 RESET N 1 4 11 m lo 12108 CHIP 03038 83143 03114 4 LED G BOARD Fue 6 1 POE Di E s 7 FLASH 4 Lm EU ip 2 P3 90 15 lt Lin E 100 eV ue Ver Vun 6531 um 210 atar s rcst s sins Pa CONTROL gt 0 4 B CHIP 82 4 0 i ot EN e mtr so w U rH 03009 LINE LINE wre PNEU MEO x P iiy TO 8 BOARD i 9 T one GT las Ah Dias sh ar pep une cnie 120 H Loud LPF Wan Dar EH poa 0 vr By B2 SV HE oa nur BO En E k le i Ee D zs DU 10 os VS CONTROL P3 SC ka 4 t RM i MR d slav 1 a vie ur 3 1 1 8 M UN 108 INPUT SEL
78. Offset YUV and Cr Offset YUV Adjustment range is from 0 to 255 for Sub Cont and Sub YUV and from 0 to 63 for Cb Offset YUV and Cr Offset YUV Video Calibration The composite video signal is calibrated The composite video signal is calibrated by Sub Cont Video Sub Video Cb Offset Video and Cr Offset Video Adjustment range is from 0 to 255 for Sub Cont Video and Sub Video and from 0 to 63 for Offset Video and Cr Offset Video AD Calibration Adjustment Refer to section 2 4 AD Calibration Adjustment 2 4 Menu structure White balance of PDP panel is adjusted a b 9 White Balance Window 3 Off Color Temp High Red Gain Green Gain Blue Gain Window This machine has the built in window signal for white balanced adjustment Select either small or large window for suitable adjustment Off Small Small window is displayed Window is not displayed Large Large window is displayed Color Temp Select the desired color temperature that you want to adjust located in the lower layer below this sub menu Select the desired color temperature from High Mid Low User 1 User 2 and User 3 Note Because User 1 User 2 and User 3 can be adjusted from the u
79. R3110 216 864 11 s CONDUCTOR CHIP 1608 R3190 216 833 11 s RESISTOR CHIP 10K 1 16W 1608 R3111 216 829 11 s RESISTOR CHIP 4 7K 1 16W 1608 R3191 216 833 11 s RESISTOR CHIP 10K 1 16W 1608 R3112 216 829 11 s RESISTOR CHIP 4 7K 1 16W 1608 R3192 216 821 11 s RESISTOR CHIP 1 0K 1 16W 1608 R3113 216 829 11 s RESISTOR CHIP 4 7K 1 16W 1608 R3193 216 809 11 s RESISTOR CHIP 100 1 16W 1608 R3114 216 829 11 s RESISTOR CHIP 4 7K 1 16W 1608 R3194 216 825 11 s RESISTOR CHIP 2 2K 1 16W 1608 R3115 216 197 11 s RESISTOR CHIP 10 1 16W 1608 R3195 216 821 11 s RESISTOR CHIP 1 0K 1 16W 1608 R3116 216 837 11 s RESISTOR CHIP 22K 1 16W 1608 R3196 216 825 11 s RESISTOR CHIP 2 2K 1 16W 1608 R3117 216 837 11 s RESISTOR CHIP 22K 1 16W 1608 R3197 216 821 11 s RESISTOR CHIP 1 0K 1 16W 1608 R3118 216 837 11 s RESISTOR CHIP 22K 1 16W 1608 3001 553 510 11 SWITCH SLIDE R3119 216 837 11 RESISTOR CHIP 22K 1 16W 1608 R3120 216 834 11 RESISTOR CHIP 12K 1 16W 1608 R3121 216 864 11 s CONDUCTOR CHIP 1608 R3122 216 864 11 s CONDUCTOR CHIP 1608 R3123 216 829 11 s RESISTOR CHIP 4 7K 1 16 1608 R3125 216 829 11 s RESISTOR CHIP 4 7K 1 16 1608 R3126 216 837 11 RESISTOR CHIP 22K 1 16W 1608 R3127 216 829 11 s RESISTOR CHIP 4 7K 1 16 1608 R3128 216 829 11 s RESISTOR CHIP 4 7K 1 16 1608 R3129 216 857 11 s RESISTOR CHIP 1 16W 1608 R3132 216 809 11 s RESISTOR CHIP 100 1 16 1608 R3133 216 809 11 s RESISTOR CHIP 100 1 16W 1608 R3134 216
80. RES NETWOR THERMISTOR CHIP CHECKER CHIP CHECKER CHIP CHECKER CHIP CHECKER CHIP CHECKER CHIP CHECKER CHIP CHECKER CHIP CHECKER CHIP CHECKER CHIP CHECKER CHIP CHECKER CHIP CHECKER CHIP CHECKER CHIP CHECKER CHIP CHECKER CHIP CHECKER CHIP CHECKER CHIP CHECKER CHIP CHECKER CHIP CHECKER CHIP CHECKER CHIP CHECKER CHIP CHECKER 47X4 47X4 47X4 47X4 47X4 47X4 47X4 47X4 47X4 47X4 47X4 0x4 0x4 0x4 0x4 47X4 47X4 47X4 47X4 47X4 47X4 47X4 47X4 47X4 47X4 47X4 47X4 47X4 47X4 47X4 47X4 47X4 47X4 47X4 co co co co co co co co co co co co co co co co co co co co co co EC EC EC EC EC EC EC EC EC EC EC EC EC EC EC EC EC EC ECT ECT OOOO 000900 0000 Cn Cn Cn BOARD Ref No or Q ty Part No TP803 535 757 804 535 757 TP805 535 757 TP1201 535 757 TP1202 535 757 TP1203 535 757 TP1204 535 757 TP1205 535 757 X1 781 914 21 X2 160 502 601 195 283 21 801 160 348 2 x802 161 365 2 1001 579 886 11 X1002 781 659 1 SP Descrip CH 6 r Fr rr Fr rr Uu rn FE
81. RESISTOR CHIP 1 0K 1 16W 1608 R21 216 809 11 s RESISTOR CHIP 100 1 16W 1608 R81 218 692 11 s RESISTOR CHIP 1 0K 1 16W 1608 R22 216 819 11 s RESISTOR CHIP 680 1 16W 1608 R82 216 809 11 s RESISTOR CHIP 100 1 16W 1608 R23 216 818 11 s RESISTOR CHIP 560 1 16W 1608 R83 218 693 11 RESISTOR CHIP 1 1K 1 16W 1608 R24 216 819 11 s RESISTOR CHIP 680 1 16W 1608 R84 218 704 11 s RESISTOR CHIP 3 3K 1 16W 1608 R25 216 829 11 RESISTOR CHIP 4 7K 1 16W 1608 R85 218 704 11 s RESISTOR CHIP 3 3K 1 16W 1608 R26 216 819 11 s RESISTOR CHIP 680 1 16W 1608 R86 216 833 11 s RESISTOR CHIP 10K 1 16W 1608 R27 216 829 11 RESISTOR CHIP 4 7K 1 16W 1608 R89 216 833 11 RESISTOR CHIP 10K 1 16W 1608 R28 216 819 11 s RESISTOR CHIP 680 1 16W 1608 R90 218 684 11 s RESISTOR CHIP 470 1 16W 1608 R29 216 830 11 s RESISTOR CHIP 5 6K 1 16W 1608 R91 218 694 11 s RESISTOR CHIP 1 2K1 16W 1608 R30 216 829 11 RESISTOR CHIP 4 7K 1 16W 1608 R92 216 821 11 s RESISTOR CHIP 1 0K 1 16W 1608 R31 216 839 11 s RESISTOR CHIP 33K 1 16 1608 R93 218 672 11 s RESISTOR CHIP 150 1 16W 1608 R32 216 841 11 s RESISTOR CHIP 47K 1 16W 1608 R94 218 708 11 s RESISTOR CHIP 4 7 1 16W 1608 R33 218 867 11 5 RESISTOR CHIP 6 8K 1 16W 1608 R95 218 702 11 s RESISTOR CHIP 2 7K 1 16W 1608 R34 216 819 11 s RESISTOR CHIP 680 1 16 1608 R96 216 809 11 s RESISTOR CHIP 100 1 16W 1608 R35 216 821 11 s RESISTOR CHIP 1 16W 1608 R97 216 809 11 s RESISTOR CHIP 100 1 16W 1608 R36 2
82. Stable Stable Insecure Unstable No Sync Sync signal does not exist PFM 32C1 32C1E b Power Supply Menu structure Service Mode Service Status Power Supply Digital 5V 5 0 V 5 V for digital circuit Digital 3V 3 3 V 3 V for digital circuit Analog 6V 6 0 V 6 V for analog circuit Main DC voltages of this model are displayed Digital 5 Internal 5 V power supply voltage is dis played Digital 3 V Internal 3 3 V power supply voltage is displayed Analog 6 V Internal 6 V power supply voltage is dis played Fan 4 Temp Status Menu structure Service Mode Service Status Fan amp Temp Status Fan Drive 5 2 5 44 C NO 0004 The internal temperature of the machine and the fan operating status are displayed Fan Drive Operating status of the fan drive circuit is displayed OK appears when it operates normally NG appears when it does not operate normally Operating status of the fan is displayed OK appears when all fans operate normally NG appears when any one of the fans does not operate normally P S Temp Temperature status inside the power supply block is displayed OK appears when temperature is normal NG appears when temperature is abnormal P S Temp Temperature inside the power supply block is displayed NO DEV S
83. X 17 KOSTAK GND eje m AN er 19 SIS nas a30 ir 1 2Vp p H gu ae Ed 8200 TE tjem T iie TE QUIE ETS ant Tan a V ce se view oe mally 5007 An k T I e jeje Ai 18 22 680 mVp p H D I T co cio TAE Wiesn d OD A us TAA NEGET 23 i E ichip KA E cas 154 f gt d vw Wi ga Tal 18622912880 00 CHIP D fi EX MAIN V CHTP CC 2 z t T5 SND 1 8 1 164 RN CP 1 168 Ew 1 1 2 TI x joo 5 x A one iy 7 0 1 el eon EEN 630 6 Y VIDEO E COLOR DECODER 3 KE 2 Ka ad Ka Pa FSC gt SHIP lt D RV 2541774 Weis mm a ae 8 5 TB VD 5 i 5 e Mis 8 H 1F H 3 Input RGB RE D 7 x dn T Vee Oh 1 ug b 1 H TEAT o ise Input Y C SHIP a RO m MN HN Input RGB Input RGB 2 S PLU DAS amanta 1151 Wm KK es S mVp p H p p H 306 pa 1 s fos sre sv a 8 9 get sl Tom dn sh dw Haka a Sio ete C84 L5 n KR 8 3 4 1 Dei Ich 106 1 CXD2057W T6 1 7 AUTO WIDE TN 19 m omm oux 2 1 168 680 R52 016 A
84. Z 249 g x 2006 DOOTOOCOOTCOCOCOOCOOE 5 4 i o pa mmm gt i E E 3 3 eroe z site If SR tev I E TOTAVHOTI4AFT iN e nmn 81008 a 881005 Des zm PT ina 8 5 n MIN 255 15 Di 5 3 3333 190 am IE cross DIE 8 at tar P l 01035 TF CHIP D 1 i mass er tar ud 101018 Gaji Ba D H BUS BUFF m D Don n PANELOET UART PANELDET2 re H ag UART RX POWER GPU RESET Po E sv DS R1066 L FLASH MODE de i LJ P6 POP CPU m 61036 5 7 R1070 view m a 7 18 7 18 B SS11065 WW B P5 PFM 32C1 32C1E H 6 7 6 7
85. block assembly is dis played If temperature exceeds 61 C the Standby indicator flashes at the interval of 0 4 seconds continuously If temperature exceeds 66 C the shutting down is activated PFM 32C1 32C1E Service Mode General Fan Status Fan Control Auto Ref Voltage 8 5 V F B Voltage 8 5 V Drive Data 2B5F P S Temp 43 C Center Temp 43 C Block Temp 43 C Left Temp 43 C 5 Detecting temperature increase at the left side ofthe PDP panel and shutting it down 1 The temperature that is measured by the S board installed in the vicinity of the fan large is displayed If temperature exceeds 67 C the Standby indicator flashes at the interval of 0 4 seconds continuously If temperature exceeds 72 C the shutting down is activated 3 3 6 Detecting the communication error with each device Service Mode Service Status Fan amp Temp Status Fan Drive OK Fan OK P S Temp OK P S Temp 44 C NO ACK DEV 0004 1 1 NO ACK DEV It indicates if the communication with the respective devices that are controlled by the bus is correctly established or not BitO Audio Processor Each bit 0 1 Bit1 Audio Switch Bit2 AV Switch Bit3 Closed Caption Decoder Bit4 3D Combfilter Bit5 Chroma Decoder Bit6 PDP Bit7 Tuner No Use for PFM Bit 8 Auto Wide Decoder Bit9 AD Converter Bit 10 EEP ROM Bi
86. by Fujitsu 5 4 KS q 7 2 Il ZE D T lt 1 9 Ch e ALL lt J Ke 4 2 PSW 3 12 116 Ho N D lt PFM 32C1E re _PFM 32C1 8 Tos 5x10 PFM 32C1 32C1E Part 8 330 030 58 8 330 030 56 8 330 030 59 8 330 030 6 A 1 468 658 2 Cn CO 469 241 469 778 469 969 500 051 543 993 O to CO 1 500 459 2 543 653 3 163 659 4 163 822 5 A 1 816 545 6 2 990 241 02 7 4 049 122 8 4 080 962 02 9 0 4 081 421 4 083 966 21 4 087 748 02 22 4 087 861 23 4 088 056 24 4 389 025 25 500 455 1 26 A 1270 443 A 27 X 4038 605 28 4 082 873 29 4 082 874 30 3 961 055 31 3 972 239 Screws Washers 1 682 647 7 682 903 1 7 682 950 09 7 682 951 7 682 961 7 682 973 19 7 685 648 79 7 685 661 19 7 682 948 09 PFM 32C1 32C1E SP O Dm OO OO Description MOUNTED CIRC MOUNTED CIRC MOUNTED CIRC MOUNTED CIRC REGULATOR SW U U U U CORE FERRITE CLAMP FERRITE CLAMP FERRITE BEAD FERRITE CORE FERRITE FERRITE CLAMP CORE ASSY BEA FAN DC T INLET AC WITH HOLDER A PL RIVE PANEL BLANK BRACKET S PWB SCREW PANEL Q SCRE
87. em Austausch der Batterie Ersatz nur durch denselben oder einen vom Hersteller empfohlenen hnlichen Typ Entsorgung gebrauchter Batterien nach Angaben des Herstellers ATTENTION Il a danger d explosion s il y a remplacement incorrect de la batterie Remplacer uniquement avec une batterie du type ou d un type quivalent recommand par le constructeur Mettre au rebut les batteries usag es conform ment aux instructions du fabricant ADVARSEL Lithiumbatteri Eksplosionsfare ved fejlagtig h ndtering Udskiftning kun ske med batteri af samme fabrikat og type Lev r det brugte batteri tilbage til leverandgren PFM 32C1 32C1E ADVARSEL Lithiumbatteri Eksplosjonsfare Ved utskifting benyttes kun batteri som anbefalt av apparatfabrikanten Brukt batteri returneres apparatleverandgren VARNING Explosionsfara vid felaktigt batteribyte Anv nd samma batterityp eller en likv rdig typ som rekommenderas av apparattillverkaren Kassera anv nt batteri enligt g llande f reskrifter VAROITUS Paristo voi r j ht jos se on virheellisesti asennettu Vaihda paristo ainoastaan laitevalmistajan suosittelemaan tyyppiin H vit k ytetty paristo valmistajan ohjeiden mukaisesti the customers the Netherlands Voor de klanten in Nederland Hoe u de batterijen moet verwijderen leest u in de tekst van deze handleiding Gooi de batterij niet weg maar lever deze in als klein che
88. s CAPACITOR CHIP CERAMIC 0 1MF C3089 165 176 11 s CAPACITOR CERAMIC 47000PF 16V C3154 115 339 11 s CAPACITOR CERAMIC MF 50V C3090 117 681 11 s CAPACITOR ELEC F 16V C3155 115 339 11 s CAPACITOR CERAMIC MF 50V C3091 124 119 00 s CAPACITOR ELECT 10MF 16V C3158 107 826 11 s CAPACITOR CHIP CERAMIC 0 1MF C3092 124 779 00 s CAPACITOR ELECT 10MF 16V C3159 107 884 11 s CAPACITOR ELECT 1000MF 16V C3093 124 779 00 s CAPACITOR ELECT 10MF 16V C3160 107 826 11 s CAPACITOR CHIP CERAMIC 0 1MF C3094 124 119 00 s CAPACITOR ELECT 10MF 16V C3161 107 884 11 s CAPACITOR ELECT 1000MF 16V C3096 162 970 11 s CAPACITOR CERAMIC 0 01MF 25V B C3162 126 395 11 s CAPACITOR ELECT 22MF 16V CHIP c3097 126 395 11 CAPACITOR ELECT 22MF 16V CHIP C3164 107 826 11 s CAPACITOR CHIP CERAMIC 0 1MF 3100 162 970 11 s CAPACITOR CERAMIC 0 01MF 25V C3165 162 970 11 s CAPACITOR CERAMIC 0 01MF 25V B 3101 107 826 11 s CERAMIC 0 1MF C3166 163 135 00 s CAPACITOR CHIP CERAMIC 560PF 03102 104 661 91 8 CAPACITOR ELECT 330MF 16V C3167 107 826 11 s CAPACITOR CHIP CERAMIC F 3103 104 661 91 s CAPACITOR ELECT 330MF 16V C3168 163 135 00 s CAPACITOR CHIP CERAMIC 560PF C3104 104 661 91 s CAPACITOR ELECT 330MF 16V C3169 137 980 91 s CAPACITOR CHIP CERAMIC 0 47MF C3105 104 661 91 s CAPACITOR ELECT 330MF 16V C3170 137 980 91 s CAPACITOR CHIP CERAMIC 0 47MF C3106 104 661 91 s CAPACITOR ELECT 330MF 16V C3171 162 970 11 s CAPACITOR CERAMIC 0
89. up the shutting down operation is activated and this indication is stored in log after the PDP unit returns to the normal operation 12 Detecting abnormal power off sequence Service Mode Service Status Warning Status EEP ID OK EEP Load RTC Init VDET 2 PDP Init Init DC Init OK Power Off D 1 1 Power Off If the power off sequence is not per formed correctly NG is displayed Failure of the power supply block or failure of the PDP is suspected 3 5 2 2 BR24C21F E2 CXA1211M CXA1211M T4 LM1881M LM1881MX M24C64 WMN6T A NJM2903M NJM2903M T2 NJM4556AM TE2 NJM4558E TE2 SI 3025LSA TL SN74CBTD3306PWR 12 TC4W53FU TC4W53FU TE12R TC7W126FU TE12R TC7W14FU TE12R TC7W241FU TE12R TC7W241FU TE12R TC7WH125FU TE12R UPC358G2 E2 UPC358G2 T2 PAAR AR HEEHH VIEW 8 SOP 5 2 BA12FP E2 CXA2163Q T6 MC141627FT 1 TOP VIEW 48pin QFP CXA3516R TOP VIEW 144 QFP PFM 32C1 32C1E Section 4 Semiconductors CXD2057M T6 LM35DZ MB90098APF A 130 BND ER TEA6422DT 321 28 SOP CXD9606Q M52347FP TE XC2S50 5TQ144C TC74VHC541FT EL TC74VHCT541AFT EL 1 TOP VIEW 208pin QFP 20pin SOP HD64F2633TE M52758FP 1 TOP VIEW 120pi
90. 0 68000PF 470PF 50V CH 6800PF 2 22 C 0 6 C 15PF 50V TME 6 IC 0 IC 0 120PF 50V CH F 6 3V IC 0 F 16V C F 16V C F 6 3V 1C 0 1C 0 1C 0 MF B3 F 6 3V F 10V IC 18P F 16V C e V B TOR CERAMIC 0 01MF 25V B TOR CERAMIC 0 01MF 25V B TOR CERAMIC 0 01MF 25V B TOR CHIP CERAMIC 0 1MF TOR CHIP CERAMIC 0 1MF TOR CHIP CERAMIC 0 1MF TOR CERAMIC 4 7MF B 6 3V CERAMIC 0 22MF CERAMIC 0 22MF CERAMIC 0 22MF 3V CH 3V MF M MF 5V B 105 MF HIP HIP 105 216 105 CERAMIC 470PF 50V CH F 50 HIP B BOARD Ref or Q ty Part No C57 C58 C59 C60 C61 C62 C63 C64 C65 C66 C67 C68 C69 C70 71 C72 74 75 C16 CTI C78 C79 CH C82 C83 C84 C2 C2 C2 C2 DOF C2 C2 C2 C2 C2 KO I 0 C210 C211 C212 C214 C216 C218 C220 C221 C222 C223 C224 C225 C226 C221 C228 C229 C230 C231 C232 C233 C234 C235 C236 C231 9 982 1 826 62 970 62 970 1 826 1 826 26 391 1 826 62 917 62 917 31 661 07 826 28 361 07 826 26 391 28 400 62 927 62 927 11 62 927 62 968 62 927 62 927 62 927 31 661 27 692 26 392 07 826 26 392 07 826 11 26 392 07 826 26 391 26 391 15 670 62 970 26 392 11 62 964 62 970 07 826
91. 0 x 483 Interlace PAL YC 720 x 575 Interlace SECAM YC 720 x 575 Interlace 443 720 483 Interlace PAL M_YC 720 x 575 Interlace PAL N_YC 720 x 575 Interlace BW_YC60 720 x 483 Interlace BW_YC50 720 x 483 Interlace PAL60 720 x 483 Interlace OTHERS 640 x 480 Progressive NO_SYNC 640 x 480 Progressive 2 18 PFM 32C1 32C1E Vertical line Format Flag Default Data Position PLL IP Enable Interlace Convert Pic Mode MATRIX STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_274M FULL STANDARD MFID_IPC_MATRIX_274M FULL STANDARD MFID_IPC_MATRIX_274M FULL STANDARD MFID_IPC_MATRIX_274M FULL STANDARD MFID_IPC_MATRIX_274M FULL a o a o a STANDARD MFID IPC 293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC
92. 01 C3107 104 661 91 s CAPACITOR ELECT 330MF 16V C3172 137 980 91 s CAPACITOR CHIP CERAMIC 0 47 C3108 124 779 00 s CAPACITOR ELECT 10MF 16V C3173 137 980 91 s CAPACITOR CHIP CERAMIC 0 47MF 3109 124 779 00 CAPACITOR ELECT 10MF 16V C3174 126 395 11 s CAPACITOR ELECT 22MF 16V CHIP C3111 124 779 00 s CAPACITOR ELECT 10MF 16V C3175 137 980 91 s CAPACITOR CHIP CERAMIC 0 47MF 03112 126 206 11 s CAPACITOR ELECT 100MF 6 3V C3176 137 980 91 s CAPACITOR CHIP CERAMIC 0 47MF C3113 117 681 11 s CAPACITOR ELECT 100MF 16V C3177 137 980 91 s CAPACITOR CHIP CERAMIC 0 47MF 3114 162 970 11 s CAPACITOR CERAMIC 0 F 25V C3178 137 980 91 s CAPACITOR CHIP CERAMIC 0 47MF C3115 126 206 11 s CAPACITOR ELECT 100MF 6 3V C3179 137 980 91 s CAPACITOR CHIP CERAMIC 0 47MF C3116 126 205 11 s CAPACITOR ELECT 47M 6 3 C3180 137 980 91 s CAPACITOR CHIP CERAMIC 0 47 C3117 162 970 11 s CAPACITOR CERAMIC 0 F 25V B C3181 162 970 11 s CAPACITOR CERAMIC 0 01MF 25V B C3118 126 206 11 s CAPACITOR ELECT 100MF 6 3V C3182 162 970 11 s CAPACITOR CERAMIC 0 01MF 25V B C3119 162 587 11 s CAPACITOR CHIP CERAMIC 0 039 C3183 107 826 11 s CAPACITOR CHIP CERAMIC 0 1MF C3120 162 970 11 5 CAPACITOR CERAMIC 0 F 25V B C3184 162 970 11 s CAPACITOR CERAMIC 0 01MF 25V B C3121 127 573 11 s CAPACITOR CERAMIC 1MFB 2012 C3185 107 826 11 s CAPACITOR CHIP CERAMIC 0 1MF C3122 127 573 11 s CAPACITOR CERAMIC 1MFB 2012 C3186 107 826 11 s CAPACITOR CHIP CERAMIC
93. 0x021F Tv Tuner 6 Mode Flag4 0x0220 to 0x023F PRESET PROGRAM1 0x0240 to 0 025 DATA PROGRAM2 0x0260 to 0x027F AREA PROGRAM3 0 0280 to 0 029 PROGRAM4 0 02 0 to 0x02BF PROGRAM5 0 02 0 to 0x02DF PROGRAM6 0x02E0 to 0x02FF PROGRAM7 0x0300 to 0x031F PROGRAM8 0x0320 to 0x033F PROGRAM9 0x0340 to 0x035F PROGRAM10 0x0360 to 0x037F PROGRAM11 0 0380 to 0x039F PROGRAM12 0x03A0 to PROGRAM13 0x03C0 to 0x03DF PROGRAM14 0x03E0 to 0x03FF PROGRAM15 0x0400 to 0x041F PROGRAM16 0x0420 to 0x043F PROGRAM17 0x0440 to 0x045F PROGRAM18 0x0460 to 0x047F PROGRAM19 0x0480 to 0x049F PROGRAM20 0x04A0 to 0x04BF PROGRAM21 0 04 0 to 0x04DF PROGRAM22 0 04 to 0x04FF PROGRAM23 0 0500 to 0x051F PFM 32C1 32C1E PROGRAM24 0x0520 to 0x053F LAST MEMORY AREA Area 1 0x0600 to 0x061F 0 0620 to 0x063F 0x0640 to 0x065F 0 0660 to 0x067F 0 0680 to 0x069F 0x06A0 to 0x06BF 0 06 0 to 0x06DF 0 06 to 0x06FF 0x0700 to 0x071F 0x0720 to 0x073F 0x0740 to 0x075F 0x0760 to 0x077F 0x0780 to 0x079F 0x07A0 to 0x07BF 0x07C0 to 0x07DF 0x07E0 to 0x07FF 0x0800 to 0x081F 0x0820 to 0x083F 0x0840 to 0x085F 0x0860 to 0x087F 0x0880 to 0
94. 1 22 23 24 25 26 27 28 29 30 31 32 33 34 39 36 37 39 39 40 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 201 202 203 07 826 07 826 26 391 07 826 07 826 07 826 26 391 1 826 7 826 7 826 26 391 26 391 1 826 1 826 1 826 25 889 62 915 1 826 1 826 62 915 1 826 1 826 64 315 1 826 1 826 1 826 1 826 1 826 1 826 1 826 26 392 1 826 1 826 1 826 1 826 1 826 1 826 1 826 62 921 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 25 889 1 826 1 826 1 826 1 826 26 391 1 826 1 826 11 1 826 11 1 826 11 SP Qo o Descri CA PACIT PAC PACIT PAC PACIT PACIT PA
95. 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 26 391 8 cn 00 cn 00 cn o o o cn o o o cn cn oc XQ cn cn oco cn Q o o cn cn Q cn cn Co Description CAPAC CA PAC CAPAC CA CA CA CA PAC PAC PAC PAC CAPAC CA PAC CAPAC CA CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT PACIT CAPACIT PACIT CA CA CAPACIT PACIT CAPACIT CAPACIT PACIT CA CA CAPACIT PACIT CAPACIT PACIT PACIT CA CA CA CA CA CA PAC CAPAC CAPAC CA PAC PACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT PACIT PACIT TOR CHIP TOR CHIP TOR ELECT 220 TOR CHIP TOR CHIP TOR CERAMIC 6 TOR CHIP TOR CERAMIC 1 TOR ELECT 47M TOR CHIP Q U FU rg rg rg 3 I U rg rg rg rg
96. 1 826 26 205 26 206 26 206 26 206 62 923 62 923 126 206 62 923 62 923 62 923 62 923 126 205 26 205 26 206 26 205 26 206 07 826 07 826 07 826 62 964 62 964 62 964 62 964 cn o Q o o Oo o o cn o oco cn o o o cn 00 Q XQ cn C C cn Qo o o oc Description MOUNTED CIRCUIT CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAP CHIP CERAM CAPAC CAPAC CAP CHIP CERAM CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC s CAPAC BOA TOR CERAM TOR CERAM TOR CERAM TOR CERAM TOR CERAM KEES KA TOR CERAM TOR ELECT 1 TOR ELECT 1 TOR ELECT 10 TOR ELECT 1 TOR TOR ELECT 10 ELECT 1 Cl TOR ELECT 47 TOR ELECT 47 C1 TOR CHIP CERA TOR CHIP CERA TOR CHIP CERA TOR CHIP CERA TOR CHIP CERA TOR CHIP CERA TOR ELECT 47M TOR ELECT 47M TOR CERAMIC 0 TOR CH TOR CH P CERA P TOR CHIP CERA TOR CHIP CERA TOR ELECT 47M P CERA P TOR CHIP CERA TOR CHIP CERA TOR ELECT 47 TOR CH TOR CH TOR ELECT 1 TOR ELECT 10 TOR ELECT 1 TOR CE
97. 15 i 21 EE KE 8 IL 1 I coos co 3 qu 18 Ki STF E le d E B CHIP a REGIO E rega ES b Mis 5 Wwe Op am 3 ls Eme Input Y C i ij li K ma 1177 IT 1 47X4 Input Y C alal al 25 58 5 32323353 PENE dad oe 55355525 85444444 ZEEE BEES gt 4 RR pen R G7B FINE har yt VS roo 32Vpp V IPGLK geess 0 7 ma Input s bale JUI am SYSTEM CONTROL B SS11065 WW B P7 7 20 7 20 PFM 32C1 32C1E B H
98. 16 821 11 s RESISTOR CHIP 1 16W 1608 R98 218 668 11 s RESISTOR CHIP 100 1 16W 1608 R37 216 821 11 s RESISTOR CHIP 1 16W 1608 R99 216 864 11 s CONDUCTOR CHIP 1608 R38 216 817 11 s RESISTOR CHIP 470 1 16 1608 R100 216 805 11 s RESISTOR CHIP 47 1 16W 1608 R39 216 830 11 s RESISTOR CHIP 5 6K 1 16W 1608 R101 216 805 11 s RESISTOR CHIP 47 1 16W 1608 R40 216 813 11 s RESISTOR CHIP 220 1 16W 1608 R102 216 805 11 RESISTOR CHIP 47 1 16W 1608 R41 216 821 11 s RESISTOR CHIP 1 16W 1608 R103 216 821 11 s RESISTOR CHIP 1 0K 1 16W 1608 R42 218 712 11 s RESISTOR METAL 6 8 1 16W R104 216 821 11 s RESISTOR CHIP 1 0K 1 16W 1608 R43 216 819 11 s RESISTOR CHIP 680 1 16W 1608 R105 216 821 11 s RESISTOR CHIP 1 0K 1 16W 1608 R44 216 827 11 s RESISTOR CHIP 3 3K 1 16W 1608 R106 216 813 11 s RESISTOR CHIP 220 1 16W 1608 R45 218 692 11 s RESISTOR CHIP 1 0K 1 16W 1608 R107 216 813 11 s RESISTOR CHIP 220 1 16W 1608 R46 218 684 11 s RESISTOR CHIP 470 1 16W 1608 R108 216 805 11 s RESISTOR CHIP 47 1 16W 1608 R47 218 716 11 s RESISTOR CHIP 10K 1 16W 1608 R109 216 805 11 s RESISTOR CHIP 47 1 16W 1608 R48 216 818 11 s RESISTOR CHIP 560 1 16W 1608 R110 216 805 11 s RESISTOR CHIP 47 1 16W 1608 R49 216 809 11 s RESISTOR CHIP 100 1 16W 1608 R111 216 295 91 5 CONDUCTOR CHIP 2012 R50 216 809 11 s RESISTOR CHIP 100 1 16W 1608 R112 216 864 11 s CONDUCTOR CHIP 1608 R51 216 815 11 s RESISTOR CHIP 330 1 16W 1608 R113 216 864 11 s CONDUCTO
99. 22MF 25V CAPACITOR CERAMIC 0 022MF 25V CAPACITOR CERAMIC 0 022MF 25V CAPACITOR CHIP CERAMIC 0 1 CAPACITOR CHIP CERAMIC F CAPACITOR CHIP CERAMIC F CAPACITOR CHIP CERAMIC F CAPACITOR CHIP CERAMIC F CAPACITOR CHIP CERAMIC F CAPACITOR CHIP CERAMIC F CAPACITOR CHIP CERAMIC F CAPACITOR CHIP CERAMIC F CAPACITOR CHIP CERAMIC F CAPACITOR CHIP CERAMIC 0 1 CAPACITOR ELECT 220MF 10V CHIP CAPACITOR CHIP CERAMIC 0 1MF CAPACITOR CHIP ELECT 330MF CAPACITOR CHIP ELECT 330MF CAPACITOR CHIP CERAMIC 0 1MF CAPACITOR CHIP ELECT100MF 6 3V CAPACITOR CHIP CERAMIC 0 1 5 9 BOARD Ref or Q ty Pa C621 C624 C625 C626 C627 C628 C629 C630 C801 C802 5 CH CH CH CH CH 4 gt Co CH CH CH CH CH m O co co CH CH CH CH CH 4 On C818 C819 C820 C821 5 C822 C823 C824 C825 C826 5 C827 C828 5 C829 C830 C831 C832 C833 C834 C835 5 C836 x C837 C838 x C839 C840 z C841 C842 C843 C844 C845 2 C846 C847 C848 3 C849 C850 C851 5 10 t No 1 826 1 826 28 360 1 826 1 826 15 412 1 826 62 964 26 391 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826 1 826
100. 26 ca P cn 00 cn 00 cn o cn cn o o o o o cn oco cn o cn 00 oco o o o o cn o 00 Co Description CAPACITOR CHIP CERAMIC F CAPACITOR CHIP CERAMIC F CAPACITOR CHIP CERAMIC 0 1 CAPACITOR ELECT 220MF 35V CHIP CAPACITOR CHIP CERAMIC 0 1MF CAPACITOR CHIP CERAMIC 1MF 10V CAPACITOR CHIP CERAMIC 0 1 CAPACITOR CHIP CERAMIC 0 1 CAPACITOR CHIP CERAMIC 1MF 10V CAPACITOR CHIP CERAMIC 0 1MF CAPACITOR CHIP CERAMIC F CAPACITOR CHIP CERAMIC F CAPACITOR CHIP CERAMIC F CAPACITOR CHIP CERAMIC F CAPACITOR CHIP CERAMIC F CAPACITOR CHIP CERAMIC F CAPACITOR CHIP CERAMIC F CAPACITOR CHIP CERAMIC 0 1 CAPACITOR CERAMIC 4 7 B 6 3V CAPACITOR CERAMIC 4 7 B 6 3V CAPACITOR CERAMIC 0 01MF 25V B CAPACITOR CERAMIC 0 01MF 25V B CAPACITOR CERAMIC 220PF 50V CAPACITOR CERAMIC 4 7 B 6 3V CAPACITOR CERAMIC 4 7 B 6 3V CAPACITOR CERAMIC 4 7 B 6 3V CAPACITOR CHIP CERAMIC 0 1MF CAPACITOR CHIP CERAMIC 0 1MF CAPACITOR ELECT 10MF 16V CHIP CAPACITOR CHIP CERAMIC 0 1MF CAPACITOR ELECT 47MF 6 3V 105 CAPACITOR CHIP CERAMIC 0 1MF CAPACITOR CERAMIC 100PF 50V CH CAPACITOR CERAMIC 220PF 50V CAPACITOR CERAMIC 22PF 50V CH CAPACITOR CHIP CERAMIC 0 1MF CAPACITOR ELECT 470MF 10V CHIP CAPACITOR CHIP CERAMIC 0 1MF CAPACITOR CERAMIC 0 0
101. 266 C270 c271 C272 C213 C274 C275 C276 2 C401 c4 C4 c4 C4 c4 Cn 4 Co c4 C4 C4 c4 C4 O co U C4 c4 c4 c4 c4 GO gt W C417 C418 x C419 C420 C421 C422 C423 5 C424 C425 2 PFM 32C1 32C1E 07 826 07 826 07 826 07 826 26 391 62 970 62 970 9 982 26 391 1 826 1 826 1 826 26 391 1 826 1 826 1 826 1 826 1 826 1 826 1 826 9 982 1 826 1 826 1 826 1 826 21 692 62 970 31 661 26 391 07 826 07 826 07 826 27 692 26 391 15 670 62 959 25 898 25 898 25 898 25 898 10 501 62 927 25 898 25 898 62 927 25 898 25 898 1 826 1 826 15 670 26 391 1 826 1 826 1 826 7 826 1 826 1 826 1 826 1 826 SP Qo De CA CA CA CA CA CA CA CA CA CA CA CA scri PAC PAC PAC PAC PAC PAC PAC PAC PAC PAC PAC PAC CAPAC CA CA CA CA CA CA CA CA CA CA CA CA CA PAC PAC PAC PAC PAC PAC PAC PAC PAC PAC PAC PAC D T CAPAC CA CA P PAC PAC PAC PAC CAPAC CA CA CA CA
102. 29 928 8 8 729 216 22 8 729 928 8 8 729 120 28 8 729 120 28 8 729 928 8 8 729 927 99 8 729 928 27 2 2 2 2 6 805 6 841 6 805 6 805 6 841 x 2 2 22 6 805 6 805 8 666 8 666 8 666 S2 2 2 22 2 8 666 8 666 8 666 6 805 6 805 22 2 2 2 2 6 805 6 805 6 805 6 825 6 825 216 8 216 8 216 8 216 8 216 8 216 8 216 8 216 8 216 8 216 8 216 8 216 8 216 8 216 8 216 8 2 cn o 00 XQ o cn o cn 00 o o o cn o cn 00 o cn Qo cn cn oc cn COI COI CHI RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES Li Li p co CO Ca Ca co Co SP Description TROIDAL 65UH TROIDAL 65UH NDUCTOR 10UH 3225 STOR DTC144EE STOR DTC144EE STOR 2SA1462 STOR 2SA1462 STOR 2SA1462 STOR DTC144EE STOR DTCI44EKA STOR DTCI44EKA STOR 2SA1037AK T146 R STOR 2SC4617R STOR 257377 TE16L STOR DICIA4EE STOR 2SA1162 G STOR DTC144EE STOR 25 1623 1516 STOR 25C1623 L516 STOR DTC144EE STOR 28046178 STOR DTA144EE OR CHIP 47 1 16W 1608 OR CHIP 47 1 16W 1608 OR CR
103. 2FT 205 E S 8 8 8 8 8 S 8 8 CLAMP EDGE V TIME V SYNC s 5 5 z SEN SW GATE SER 4 3 3 3 3 3 3 3 3 1 3 s s 8 2 2 2 5 i IN1 CONTI OUT1 GND 5 3 3 2 3 B 3 A IT fo 36 35 34 33 32 31 30 29 28 427 26 25 1 Bi hd LOGIC wn m 1 7 CXA2163Q T6 2 nm 87 RE un 2 gt NC D2 38 1 23 z 8 Z z 2 SYNC 8 z z z z g 4 Z z z SEP SHAPE DET SHAPE DET k b Se B S S E o 89 u 22 m z z 38 37 36 35 34 33 32 31 30 29 28 27 26 25 TET Y Es T 4 Y 1 3 4 5 6 7 8 9 10 40 L 07 iti H STATE V STATE GREEN GND COMPH VDET VTIME GATE a CLAMP CLAMP CLAMP sw IN IN DET sw 5 Hf rnr TI oo Bypass 41 AFi 5 00 ADCLK 3 1 T um OFFSET MATRIX are 9 scan Adaptive Ween base 42 Vertical 19 nena Enhancer Vertical Dot gery APC FIL 40 J 23 CR OUT PRCESSING 8 DGnd 03 18 Ne SUB alt ze RT JC i COLOR a CVBS3 Y3 IN 41 112 z 22 CB OUT rm su D la z EJ kl S se me yp Oe BAND SW DL Eo 5 5 ADDRESS 42 4 SS feel SE a 7 HEH 8 2 8 45214 45 cour 2 LPF I 8 C2 IN 43 20
104. 3 216 829 11 s R1204 216 829 11 s R1205 218 679 11 R1206 218 679 11 s R1207 216 829 11 s R1208 216 829 11 s R1209 216 805 11 s R1210 216 805 11 s R1211 216 797 11 s R1213 216 805 11 s R1214 216 805 11 s R1215 216 864 11 R1216 216 864 11 s R1217 216 864 11 s R1218 218 740 11 s R1220 216 864 11 s R1222 216 864 11 s R1226 216 864 11 s R1227 216 864 11 s R1228 216 864 11 s RB201 234 371 11 s RB202 234 371 11 s RB203 234 371 11 s 88204 234 375 21 8 88205 234 375 21 s 88206 234 375 21 s RB401 234 371 11 s 88402 234 371 11 s 88403 234 371 11 s RB404 234 371 11 s RB405 234 371 11 s RB406 234 371 11 s RB407 234 371 11 s 88408 234 371 11 s 88409 234 371 11 s 88410 234 371 11 s RB411 234 371 11 s RB412 234 371 11 s RB601 234 371 11 s RB602 234 371 11 s RB603 234 371 11 s RB604 234 371 11 s RB605 234 371 11 s 88606 234 371 11 s RB607 234 371 11 s RB608 234 371 11 s Description RESISTOR CHIP 2 2K 1 16W 1608 RESISTOR CHIP 2 2K 1 16W 1608 RESISTOR CHIP 10K 1 16W 1608 CONDUCTOR CHIP 1 CONDUCTOR CHIP 1 CONDUCTOR CHIP 1 RESISTOR CHIP 27K RESISTOR CHIP 10K CONDUCTOR CHIP 1 RESISTOR CHIP 100K RESISTOR CHIP 4 7 RESISTOR CHIP 4 7K RESISTOR CHIP 4 7K RESISTOR CHIP 4 7K RESISTOR CHIP 300 RESISTOR CHIP 300 RESISTOR CHIP 4 7K RESISTOR CHIP 4 7K RESISTOR CH
105. 31 2 R632 2 R633 2 R634 2 R635 2 R636 52 R637 2 R638 2 R801 2 R802 2 R803 2 R804 2 R805 2 R1001 2 81003 2 R1004 2 R1005 2 R1007 2 81008 2 R1009 2 81010 2 R1011 2 R1013 2 R1015 2 R1016 2 R1017 2 R1018 2 R1019 2 81020 2 R1021 2 R1022 2 81023 2 R1024 2 R1025 2 R1026 2 R1027 2 R1028 2 R1029 2 81030 2 R1031 2 R1032 2 R1033 2 R1034 2 R1035 2 R1041 2 R1044 2 R1045 2 R1046 2 R1047 2 R1048 2 R1050 2 R1052 2 R1055 2 R1056 2 R1057 2 R1058 2 PFM 32C1 32C1E o SP Description RESISTOR CHIP 10K 1 16W 1608 RESISTOR CHIP 47 1 16W 1608 RESISTOR CHIP 47 1 16W 1608 RESISTOR CHIP 10K 1 16W 1608 RESISTOR CHIP 10K 1 16W 1608 RESISTOR CHIP 10K 1 16W 1608 RESISTOR CHIP 10K 1 16W 1608 RESISTOR CHIP 22 1 16W 1608 RESISTOR CHIP 22 1 16W 1608 RESISTOR CHIP 22K 1 16W 1608 RESISTOR CHIP 2 2K 1 16W 1608 RESISTOR CHIP 100 1 16W 1608 RESISTOR CHIP 47 1 16W 1608 RESISTOR CHIP 47 1 16W 1608 RESISTOR CHIP 47 1 16W 1608 RESISTOR CHIP 100K 1 16W 1608 RESISTOR CHIP 1 0K 1 16W 1608 RESISTOR CHIP 10K 1 16W 1608 RESISTOR CHIP 100 1 16W 1608 RESISTOR CHIP 100 1 16W 1608 RESISTOR CHIP 47K 1 1 RESISTOR CHIP 10K 1 16W RESISTOR CHIP 47K
106. 4 19 19 19 37 385 36 32 39 09 26 41 41 249 381 2 2 2 2 2 22 2 2 2 2 22 2 2 2 22 2 2 2 2 2 2 2 2 2 6 8 6 1 6 8 6 1 6 8 6 8 6 8 6 8 6 8 6 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 6 8 6 8 6 8 6 8 8 8 8 8 33 97 33 97 25 25 49 49 49 49 67 69 39 25 25 39 67 71 30 21 30 25 39 SP o o Description CONDUCTOR CHIP 1608 CONDUCTOR CHIP 1608 RESISTOR CHIP 150 1 16W 1608 RESISTOR CHIP 150 1 16W 1608 RESISTOR CHIP 150 1 16W 1608 RESISTOR CHIP 100 1 16W 1608 RESISTOR CHIP 150 1 16W 1608 RESISTOR CHIP 150 1 16W 1608 RESISTOR CHIP 150 1 16W 1608 RESISTOR CHIP 100 1 16W 1608 RESISTOR CHIP 47 1 16W 1608 RESISTOR CHIP 470 1 16W 1608 RESISTOR CHIP 470 1 16W 1608 RESISTOR CHIP 470 1 16W 1608 RESISTOR CHIP 47 1 16W 1608 RESISTOR CHIP 47 1 16W 1608 RESISTOR CHIP 47 1 16W 1608 RESISTOR CHIP 47 1 16W 1608 RESISTOR CHIP 47 1 16W 1608 CONDUCTOR CHIP 1608 CONDUCTOR CHIP 1608 CONDUCTOR CHIP 1608 RESISTOR CHIP 680 1 16W 1608 RESISTOR CHIP 680 1 16W 1608 RESISTOR CHIP 680 1 16W 1608 RESISTOR CHI
107. 759 277 C1017 8 759 652 C1018 8 759 497 C1019 8 759 669 SP Description 23 s DIODE MA2S111 K8 59 s DIODE MA3130WA TX 11 s INDUCTOR FERRITE BEAD 11 s INDUCTOR FERRITE BEAD 11 s INDUCTOR FERRITE BEAD 11 s INDUCTOR FERRITE BEAD 11 s INDUCTOR FERRITE BEAD 11 s INDUCTOR FERRITE BEAD 11 s INDUCTOR FERRITE BEAD 21 5 INDUCTOR EMI FERRITE 1608 21 5 INDUCTOR EMI FERRITE 1608 11 5 CONDUCTOR CHIP 1608 21 5 FILTER LOW PASS 21 s FILTER LOW PASS 21 5 FILTER LOW PASS 11 FILTER CHIP EMI 08 s IC TC7W241FU TE12R 30 s IC CXA2163AQ T6 61 s IC TC4W53FU 04 s IC 2862291288C 00TR 21 s IC CXA1211 35 s IC CXD2057M T6 85 s IC L88M05T FA TL 41 s IC SI 3025LSA TL 41 s IC SI 3025LSA TL 84 s IC SC7S04F 89 s IC MC141627FT 01 s IC UPD64083GF 3BA 27 s IC LM1881 61 s IC TC4W53FU 61 s IC TC4W53FU 85 s IC L88M05T FA TL 12 s IC 84 s IC CXA3516R 02 s IC M52347FP TE 34 s IC SN74LV4053APWR 62 s IC TC7S08FU TE85R 36 s IC CXD96060 10 s IC MSM56V16160F 10TS K 00 5 IC SN74LV123APWR 01 s IC IP00C713 19 s IC MSM56V16160D 10TS K 19 s IC MSM56V16160D 10TS K 19 5 IC MSM56V16160D 10TS K 17 s IC RS5C348A E2 10 s IC HD64F2633TE 01 s IC S 80828ANNP EDR T2 62 s IC TC7S08FU TE85R 72 s IC M24C64 WMN6T A 08 5 IC TC7W241FU TE12R 50 s IC TC74VHC541FT EL 41 s IC TC74VHCT541AFT E
108. C 0 1MF F 1 IC 0 1MF 6 37 105 TOR ELECT 47 TOR CERA TOR CERA TOR CERA TOR CERA TOR CERAMIC TOR CERAMIC TOR CERAMIC 1MF 10V C 0 1MF 01MF 25V B 01MF 25V B C 0 1MF 1 F 6 3V 105 C 0 1MF PF 50V CH PF 50V CH V CHIP V CHIP F 25V PF 50V C PF 50V C PF 50V C 0PF 50V F 50V C TOR EL CHIP CE OR EL to MI C2 C2 gt lt td O O O TOR CHIP C ECT 47 LECT 47 ECT 22 RAMIC ECT 47 IP CERAI ECT 10 RAMIC 24PF 50V CH C P H PF 50V CH PF 50V CH 00MF 10V CHIP F B 3216 LECT10 ERAMIC LECT10 ERAMIC LECT10 F 6 3V F 6 3V F 6 3V ERAMIC 0 1MF F 6 3V 105 F 6 3V 105 F 35V CHIP 01MF 25V B IP ELECT100MF 6 3V RAMIC 1 RAMIC IP CERAI IP CERAI 00PF 50V B 01MF 25V B IC 0 1MF IC 0 1MF F 6 3V 105 IC 0 1MF F 16V CHIP F 6 3V 105 TOR CERAMIC 24PF 50V CH PACIT PACIT PACIT PACIT ERAMIC 0 1MF ERAMIC 0 1MF ERAMIC 0 1MF ERAMIC 0 1MF C F C 0 1MF LECT47MF 6 3V C 0 1MF C F 1MF 10V 1 lMF 0MF 6 3V PFM 32C1 32C1E BOARD Ref or Q ty Part C238 C239 C240 C241 C242 C243 x C244 C245 x C247 C249 5 C250 251 C252 r C253 E C254 C255 5 C256 E C251 C258 C259 E C260 C261 C262 C263 C264 5 C265 C
109. C F TOR CHIP CERAMIC F TOR CHIP CERAMIC OR CHIP CERAMIC 0 1MF OR CHIP CERAMIC 0 1MF OR ELECT 47MF 6 3V 105 OR CHIP CERAMIC 0 1MF PFM 32C1 32C1E BOARD Ref or Q ty Part c1204 107 826 C1205 107 826 C1206 107 826 C1207 107 826 C1208 126 391 C1209 107 826 C1210 107 826 C1211 107 826 C1212 107 826 C1213 107 826 C1214 107 826 C1215 107 826 C1216 107 826 C1217 107 826 C1218 107 826 C1219 107 826 C1220 107 826 C1221 107 826 C1222 107 826 C1223 107 826 C1224 107 826 C1225 107 826 C1226 107 826 C1227 107 826 C1228 107 826 C1229 107 826 C1230 107 826 C1231 126 391 C1232 126 391 C1233 126 391 C1234 107 826 C1235 107 826 C1236 107 826 C1237 126 391 C1238 164 315 C1239 107 682 C1240 107 826 C1241 107 826 CN101 695 209 2 CN102 764 082 2 CN103 764 081 2 CN401 695 889 2 C 1 119 339 2 011002 164 080 2 C 3 764 078 1 CN1004 764 078 1 CN1005 150 635 2 CN1201 764 080 2 CN1203 764 093 2 CN1204 764 097 1 D 8 719 056 23 D401 8 719 056 23 D402 8 719 914 43 D403 8 719 914 43 D1002 8 719 056 23 01003 8 719 056 23 D1004 8 719 024 77 D1005 8 719 056 23 PFM 32C1 32C1E SP Descri Qo XQ C C C C C C C C C C C
110. CA CA CA CA CA CA CA PAC PAC PAC PAC PAC PAC PAC PAC PAC PAC PAC CAPAC CA CA CA CA CA CA CA CA CA PAC PAC PAC PAC PAC PAC PAC PAC PAC ption TOR CHIP CERA TOR CHIP TOR CHIP CERA TOR CHIP TOR ELECT 47M TOR CERAMIC 0 TOR CERAMIC 0 TOR CHIP CERA TOR ELECT 47M TOR CHIP TOR CH TOR CH TOR ELECT TOR CHIP TOR CHIP 47 ERA ERA CHIP C ERA ERA TOR CH TOR CH TOR CH TOR CH TOR CH C C ERA ERA U FU rg rg rg CHIP CERAMIC 1 TOR ELECT 100 TOR ELECT 47 TOR CHIP CERA TOR CHIP CERA TOR CHIP CERA CHIP CERAMIC 1 TOR ELECT 220 TOR CERAMIC 3 TOR CERAMIC TOR CERAMIC TOR CERAMIC TOR CERAMIC TOR CERAMI TOR CERAMI TOR CERAMIC TOR CERAMIC TOR CERAMIC 1 TOR CERAMIC TOR CERAMIC TOR CHIP TOR CHIP TOR ELECT TOR ELE TOR CH TOR CH TOR CH TOR CH T 47M Jg HU rg ru 3 2 2 63 TOR CH TOR CH TOR CH TOR CH U rg rg rg TOR CERAMIC 0 IC 0 1MF IC 0 1MF IC 0 1MF IC 0 1MF F 6 3V 105 01MF 25V B 01MF 25V C 1MF 10V F 6 3V 105 C 0 1MF C F C F F 6 05
111. CIT PACIT PACIT PACIT PACIT PACIT PACIT PACIT PACIT PACIT PACIT PACIT PACIT PACIT PACIT PACIT PACIT PACIT PACIT PACIT PACIT PACIT PACIT PACIT PACIT PACIT PACIT PACIT PAC PAC PACIT PAC PAC PACIT PACIT PACIT PACIT ption TOR CHIP CERAMIC 0 1MF TOR CHIP CERAMIC 0 1MF TOR ELECT 47MF 6 3V 105 TOR CHIP CERAMIC 0 1MF TOR CHIP CERAMIC 0 1MF TOR CHIP CERAMIC 0 1MF TOR ELECT 47MF 6 3V 105 TOR CHIP CERAMIC 0 1MF CHIP CERAMIC 0 1MF CHIP CERAMIC 0 1MF OR ELECT 47MF 6 3V 105 OR ELECT 47MF 6 3V 105 OR CHIP CERAMIC 0 1MF OR CHIP CERAMIC F OR CHIP CERAMIC F TOR C CERAMIC 2 2MF TOR CERAMIC 10PF 50V CH CHIP CERAMIC 0 1MF OR CHIP CERAMIC F CHIP CERAMIC F OR CERAMIC 10PF 50V CH OR CHIP CERAMIC 0 1MF OR CHIP CERAMIC 0 1MF OR CERAMIC 470PF 50V CH OR CHIP CERAMIC 0 1MF OR CHIP CERAMIC F OR CHIP CERAMIC F OR CHIP CERAMIC F OR CHIP CERAMIC F OR CHIP CERAMIC F OR CHIP CERAMIC F OR CHIP CERAMIC F OR CHIP ELECTIOOMF 6 3V OR CHIP CERAMIC F OR CHIP CERAMIC 0 1MF OR CHIP CERAMIC F OR CHIP CERAMIC F OR CHIP CERAMIC F OR CHIP CERAMIC F OR CHIP CERAMIC OR CERAMIC 100PF 50V CH OR CHIP CERAMIC 0 1MF OR CHIP CERAMIC F OR CHIP CERAMIC F OR CHIP CERAMIC F OR CHIP CERAMIC F OR CHIP CERAMIC F OR CHIP CERAMIC F OR CHIP CERAMIC F OR CHIP CERAMIC F TOR CHIP CERAMIC 0 1MF TOR C CERAMIC 2 2MF OR CHIP CERAMI
112. ERAMIC 0 1MF OR ELECT 47MF 6 3V 105 OR CERAMIC 470PF 50V CH OR CHIP 1MF 16V 3216 OR CHIP CERAMIC 0 1MF TOR CHIP CERAMIC 0 1MF CONNECTOR PC BOARD 15P CONNECTOR PC BOARD 11P CONNECTOR PC BOARD 9P CONNECTOR PC BOARD 10P CTOR FFC FPC 30P CONNECTOR PC BOARD 8P CONNECTOR PC BOARD 3P CONNECTOR PC BOARD 3P CONNECTOR PC BOARD 5P CONNECTOR PC BOARD 8P CONNECTOR PC BOARD 8P CONNECTOR PC BOARD 12P A2S111 K8 A2S111 K8 DAN202K DAN202K A2S111 K8 A2S111 K8 N1D03FU TE85L A2S111 K8 B BOARD Ref No or Q ty Part No D1006 8 719 056 D1007 8 719 42 FB401 414 234 FB801 414 92 FB802 414 92 FB1201 414 92 FB1202 414 92 FB1203 414 92 FB1204 414 92 FB1205 400 179 FB1206 400 179 FB1207 216 864 FL 233 505 FL2 233 505 FL3 233 505 FL400 239 558 C1 8 759 443 C2 8 752 107 C3 8 159 082 C4 8 759 638 C5 8 752 053 C6 8 752 390 7 8 759 533 C201 8 749 018 C202 8 749 018 C204 8 759 031 C205 8 759 436 C206 6 700 960 C207 8 759 987 C208 8 759 082 C209 8 759 082 C401 8 759 533 0402 8 759 460 C403 8 152 095 C404 8 759 646 C405 8 759 596 C406 8 759 058 C601 8 759 837 C603 8 759 676 C604 8 759 549 C801 6 100 681 C802 8 759 573 C803 8 759 573 C804 8 759 573 C1003 8 759 56 1004 8 759 648 1005 8 759 544 C1006 8 759 058 C1007 8 759 684 C1009 8 759 443 1010 8 759 524 C1011 8 759 49 1012 8 759 599 1015 8 759 669 C1016 8
113. F UCTOR F UCTOR F UCTOR F UCTOR F BR24C21 BR24C21 921585 921585 52758F JM2903 BA12FP JM4558 TA8776N TDA7480 TDA7480 78 09 TC74HC1 2 TC7W126 TC7W125 TEA6422 M74HC3 2C ECTOR ECTOR INP INP K 3 5 3 5 DUCTOR L CHO TK15452V Description 0B 0B 0B 0B K8 S0 3 TX 22 2 TE85L 2 TE85L 2 TE85L 2 TE85L 17 5 17 5 2 TE85L 2 TE85L 2 TE85L 2 TE85L 11 8 ERRI ERRI ERRI ERRI ERRI BEAD BEAD BEAD BEAD BEAD ERRITE BEAD RITE BEAD INDUCTOR 0 4508 F E2 F E2 052 E TE2 TE16L 25AF SE FU TE12R FU TE12R DT 2MTCX D SUB 15P INPUT2 D SUB 15 1 AUDIO T2 AUDIO SIRCS IN SIRCS OUT ECTOR D DUB L 9P REMOTE CHIP 2012 1500H L CHO 15008 5 19 0 BOARD or 13 13 13 f No 4 Do Cn O to CO 10 17 19 21 24 25 29 30 O CO I m Cn Co O to 10 22 23 24 25 26 21 28 29 30 31 32 33 34 35 36 5 20 Q ty Part No 1 416 857 11 1 416 857 11 1 412 029 11 8 729 928 81 8 729 928 81 8 729 112 65 8 729 112 65 8 729 112 65 8 729 928 81 1 801 806 11 1 801 806 11 8 729 026 49 8 729 927 99 8 729 041 37 8 7
114. GN lt 1 683 989 11 9 gt NO A9 43 lt B SIDE SUFFIX 11 41 44 H 60088 0116160241 E 7 di 186 689 1 70063 10083 ur EH 10087 SP B SIDE SUFFIX 11 H2 B SIDE SUFFIX 11 PFM 32C1 32C1E CN1501 STBY 5V GND BOARD CN9 PFM 32C1 32C1E A THERMO 1 H2 S SP 88501 CHIP a D8506 UDZSTE 175 6B CN8501 8P GC 8 5 1 ER 2 08504 LED_RED 3 oes uozsTE 175 68 08509 UDZSTE 175 68 s rcs 6 58501 ano 7 s A 0 BOARD CN3003 108501 GP1UM26SXK REMOCON RECEIVER R8505 47 CHIP 08502 1 08505 UDZSTE 175 6B T UDZSTE 175 6B PROTECT PROTECT 08501 0 1 25V I B CHIP REMOTE SENSOR B SS11065 WW H1 T 101501 101502 1 2 LM35DZ 35862 2 7 TEMP SENSOR AMP e 0 01 R1504 CHIP AM 5 101502 2 2 6 uPC358G2 T2 S TEMP SENSOR B SS11065 WW S 7 25 H1 H2 S SP d CN8601 10x CHIP 1 sTevsv 2 KEY SENSE 3 GND 58601 SWITCH TACTILE TG TO B BOARD MENU CN1004 3 68602 8601 10 47 KEN H EI 58602 CHIP SWITCH TACTILE DOWN 10k S 58603 CHIP SWITCH TACTILE UP s
115. H PER CHP POS 7 POWER sw 3008 D3002 47 non lan MA157 TX LEDA PROTECT 5 LED A SCH 83004 2 2 1 Aen ER OM ra 518082 3 sins em 83001 STBY 5 2 1 BET Eun Ba J Se ira 2 eno it ar Aen SH as 9X3 F 03001 d MA157 TX PROTECT 19002 I d 1 0 173 R G B we P DX gt VIDEO SW 1 L EE B SS11065 WW 0 P1 7 8 7 8 PFM 32C1 82C1E A B D E F G H PS AUDIO_L AUDIO_R No connect Q 2 3 Q 2 3 ROSI 811682 2 R3194 2 2 R QUT chip 03030 P2 12007 2504617 01 100 03029 BORU R3183 DTC144EE CHIP 28005 D SWITCH 1716W BI 1 nalo 03032 03060 WOH DTATA4EE UDZS10B oni SWITCH UDZSTE 17108 R3196 es PROTECT niga Z 22006 4 SME A sa M AUDIO 03061 83195 03062 D 12 025108 158387 CHIP UDZSTE 17108 CHIP PROTECT R3121 03094 83168 0 19 PES 110 tev teu CHIP 13004 wm CHIP R3122 D 1168 03043 03038 CHIP watts
116. IP 47 RESISTOR CHIP 47 RESISTOR CHIP 10 RESISTOR CHIP 47 RESISTOR CHIP 47 CONDUCTOR CHIP CONDUCTOR CHIP CONDUCTOR CHIP RESISTOR CHIP 100K CONDUCTOR CHIP CONDUCTOR CHIP CONDUCTOR CHIP CONDUCTOR CHIP CONDUCTOR CHIP RES NETWORK 47 4 RES NETWORK 47 4 RES NETWORK 47 4 RES NETWORK 1 4 RES NETWORK 1 4 RES NETWORK 1 4 RES NETWORK 47 4 RES NETWORK 47 4 RES NETWORK 47 4 RES NETWORK 47 4 RES NETWORK 47 4 RES NETWORK 47 4 RES NETWORK 47 4 RES NETWORK 47 4 RES NETWORK 47 4 RES NETWORK 47 4 RES NETWORK 47 4 RES NETWORK 47 4 RES NETWORK 47 4 RES NETWORK 47 4 RES NETWORK 47 4 RES NETWORK 47 4 RES NETWORK 47 4 RES NETWORK 47 4 RES NETWORK 47 4 RES NETWORK 47 4 608 608 608 1 16W 1608 1 16W 16 608 16 16 6 6 16W 16 6 1 1 6 1 16W 16W 16W 6W 1608 6W 1608 DAD 16W 1608 16W 1608 6 6 EN 1608 8 8 608 8 8 DAD 8 8 1 16W 1608 8 Cn Cn Cn Cn Cn 5 15 BOARD Ref or Q ty Part RB609 234 371 RB610 234 371 611 234 371 RB612 234 371 801 234 371 RB802 234 371 RB803 234 371 RB804 234 371 RB805 234 371 RB806 234 371 RB807 234 371 1001
117. IP 47 1 16W 1608 OR CHIP 47 1 16W 1608 OR CHIP 47 1 16W 1608 OR CHIP 47 1 16W 1608 OR CHIP 47 1 16W 1608 OR CHIP 82 1 16W 1608 OR CHIP 82 1 16 1608 OR CHIP 82 1 16W 1608 OR CHIP 82 1 16W 1608 OR CHIP 82 1 16W 1608 OR CHIP 82 1 16W 1608 OR CHIP 47 1 16W 1608 OR CHIP 47 1 16W 1608 OR CHIP 47 1 16W 1608 OR CHIP 47 1 16W 1608 OR CHIP 47 1 16W 1608 OR CHIP 2 2K 1 16W 1608 OR CHIP 2 2K 1 16W 1608 OR CHIP 2 2K 1 16W 1608 OR CHIP 2 2K 1 16W 1608 OR CRIP 47 1 16W 1608 OR CRIP 47 1 16W 1608 OR CHIP 220 1 16W 1608 OR CHIP 220 1 16W 1608 OR CHIP 47 1 16W 1608 TOR CHIP 47 1 16W 1608 OR CHIP 47 1 16W 1608 OR CRIP 47 1 16W 1608 OR CHIP 47 1 16W 1608 OR CHIP 47 1 16W 1608 OR CHIP 47 1 16W 1608 OR CRIP 47 1 16W 1608 OR CHIP 47 1 16W 1608 OR CHIP 47 1 16W 1608 O BOARD Ref No or Q ty Part No 38 39 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 9 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 13 74 75 76 77 78 81 85 86 87 88 92 93 94 95 96 97 98 99 R3101 R3102 R3103 R3104 R3105 R3106 2 2 2 2 2 2 2 x 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 x 2 2 2 2 22 2 2 6 8 6 8 6 8 6 8 6 8 6 8 6 8 6 8 6 8 6 8 6 8 6 8 6 8 6 8 6 8 6 8 6 8 6 8 6 8 64 64 12 je 1 9 1 1 1 9 5 1 1 1 5 5 5 5 5 64 6
118. L 01 5 IC 74 14 EL 50 s IC SN74CBTD3306PWR 12 63 s TCTWI4FU TE12R 56 s IC BAQ33F E2 44 s TCTWH125FU TE12R 50 s IC SN74CBTD3306PWR 12 BOARD SP Description cn o o o cn o cn o oco cn o o o cn cn cn 00 cn o o cn o 00 00 XQ cn o oc cn o oc Ref or Q ty Part C1020 8 759 582 9 1201 6 700 750 0 C1202 8 749 018 4 1203 6 700 751 0 C1204 6 701 098 1 C1205 6 700 683 0 11 412 052 2 12 412 052 2 13 412 052 2 14 412 052 2 15 412 058 1 L6 412 058 1 17 412 058 1 18 412 061 1 12 419 098 2 1202 412 063 2 1204 412 052 2 1205 412 052 2 1207 412 052 2 1208 412 052 2 14 412 052 2 16 412 058 1 L602 412 030 1 L603 412 058 1 L604 412 030 1 18 500 451 1 01 8 729 026 49 02 8 729 026 49 03 8 729 927 99 04 8 729 026 49 05 8 729 216 22 06 8 729 927 99 07 8 729 928 81 08 8 729 927 99 09 8 729 216 22 010 8 729 927 99 011 8 729 927 99 012 8 729 216 22 013 8 729 216 22 014 8 729 216 22 015 8 729 928 19 016 8 729 928 19 017 8 729 927 99 018 8 729 928 81 019 8 729 928 19 020 8 729 927 99 021 8 729 927 99 022 8 729 927 99 023 8 729 927 99 024 8 729 927 99 025 8 729 927 99 026 8 729 927 99 027 8 729 928 19 028 8 729 026 49 029 8 729 026 49 030 8 729 026 49 031 8 729 112 65 032 8 729 112 65 5 5 12 C C C C CJ CJ CJ CJ CJ CJ CJ CJ CJ CJ
119. L TFC 23 11 14 TFC 16813 E TFC 16816 ZCAT2035 0930A PFM 32C1 32C1E 1 3 Q 1 2 GA B 1 3 Q 1 2 GA Section 6 Block Diagrams
120. OR CERAMI TOR CERAMI TOR CERAMI TOR CERAMI F 25V B B 6 3V F 25V TME 022 ATME 16V 01MF 25V B OOOO CAPAC CAPAC CAPAC CAPAC CAPAC TOR CHIP CERAM TOR C CERAMIC C 0 1MF 2 TOR CHIP ELECT10 0 1 2MF F 6 3V F 6 3V F 25V B TOR CHIP ELECT TOR CERAMIC 0 0 CAPAC CAPAC CAPAC CAPAC CAPAC TOR CERA TOR CERA TOR CERA TOR CHIP TOR CHIP 1MF 25V B 1MF 25V B MF B 6 3V 00MF 6 3V C 0 0 C 0 0 C 4 7 ELECT 10PF 50V CH CAPACITOR ELECT 10MF 16V CHIP CAPACIT CERAMIC 0 1MF CAPACIT CERAMIC 0 1MF CAPACIT CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CAPAC CHIP C 4 C4 TOR CHIP TOR CERA TOR CERA TOR CHIP TOR CERA TOR ELECT 47 TOR CHIP TOR ELECT 10M TOR ELECT 10M TOR ELECT 47M TOR CHIP TOR CHIP TOR CHIP CAP CHIP CERAMIC 1 CAPAC CAPACIT CAPACIT CAPACIT CAPACIT TOR ELECT 47M ELECT 100 CHIP CERA ELECT 10M O O Ed TOR CERAMIC
121. OR 8P UDZS TE17 5 6B R 325VCT31 LED SLR 325MCT31 UDZS TE17 5 6B UDZS TE17 5 6B ODE UDZS TE17 5 6B ODE UDZS TE17 5 6B GP1UM26SXK RESISTOR CHIP 820 1 10W 2125 RESISTOR CHIP 560 1 10W 2125 RESISTOR CHIP 47 1 100 2012 SWITCH TACTILE POWER Description MOUNTED CIRCUIT BOARD H2 CAPACITOR CERAMIC 4 7MF B 6 3V CAPACITOR CERAMIC 10PF 50V CH PIN CONNECTOR PC BOARD 3P RESISTOR CHIP 33K 1 16W 1608 RESISTOR CHIP 10K 1 16W 1608 RESISTOR CHIP 4 7K 1 16W 1608 RESISTOR CHIP 10K 1 16W 1608 RESISTOR CHIP 2 7K 1 16W 1608 RESISTOR CHIP 1 8K 1 16W 1608 SWITCH TACTILE MENU SWITCH TACTILE DOWN SWITCH TACTILE UP SWITCH TACTILE ENTER SWITCH TACTILE VOL SWITCH TACTILE VOL Ref No or Q ty Pa 1 C3 C3 C3 C3 C3 C3 C3 C3 C3 C3 C3 C3 t No 330 030 6 62 970 62 970 62 970 62 970 62 970 62 970 26 206 126 206 26 206 26 206 26 206 26 206 27 692 15 459 15 459 27 692 07 826 107 826 07 826 07 826 07 826 07 826 26 205 26 205 64 004 1 826 1 826 71 826 71 826 26 205 1 826 1 826 71 826 7
122. Osrus M e uw 8 037 1 8 56013 ve 0147 1 5 8 GE m Zeen B H 089 2082 9092 d Bei 1 CE 01012 58701 60010 U 5 0 9 az 5 I EE GES 9099 AE m mne 170188 22 14 CG Sun 1 5 zn ci 9999 C204 1 683 675 13 172080813 8 GW lt 0120 8828 e simi RI ndi sep 5 i 01007 802183 8 100121 1027 20288 9611 MAPA AA e en AANA mH mM 0 qa 00 00 00 1 NNHMNNHHNHHNNNNNHNHNHNN ANNAN AN Ts Sess Lo zi ale d acte et e en E esce SEE EE E pep E E 35 21518 4mmoodm ooaoaodmmhmoad nanomumhmmuoo0uumunmniuuommummnimuon damdm nmmnmhmnmdmmoomomnmmmd oooOoO0OOOO m a a e a mood msoooooodd oooooooooo odanm vnonono nan TOO ci eie N N N Ol Ol Ol Ol Ol O OI Ol OI O Ol Ol O Ol OI O OF OI O OI O O O B BOARD B SIDE 1C1006 1 1015 024 025 026 027 028 029 930 931 PFM 32C1 32C1E 7 12 7 12 PFM 32C1 32C1E Ps D 5 ST 31224
123. P 22K 1 16W 1608 RESISTOR CHIP 10K 1 16W 1608 RESISTOR CHIP 18K 1 16W 1608 RESISTOR CHIP 8 2K 1 16W 1608 RESISTOR CHIP 33K 1 16W 1608 RESISTOR CHIP 100 1 16W 1608 RESISTOR CHIP 2 7K 1 16W 1608 RESISTOR CHIP 47K 1 16W 1608 RESISTOR CHIP 47K 1 16W 1608 RES CARBON 1 1 4W RESISTOR CHIP 10K 1 16W 1608 RESISTOR CHIP 10 1 16W 1608 RESISTOR CHIP 10K 1 16 1608 RESISTOR CHIP 10 1 16W 1608 RESISTOR CHIP 2 2K 1 16W 1608 RESISTOR CHIP 2 2K 1 16W 1608 RESISTOR CHIP 22 16W 1608 RESISTOR CHIP 22 16W 1608 RESISTOR CHIP 22 16W 1608 RESISTOR CHIP 22 16W 1608 RESISTOR CHIP 6 8K 1 16W 1608 RESISTOR CHIP 8 2K 1 16W RESISTOR CHIP 470 1 16W 1608 RESISTOR CHIP 120 1 16 1608 RESISTOR CHIP 120 1 16 1608 RESISTOR CHIP 470 1 16W 1608 RESISTOR CHIP 6 8K 1 16W 1608 RESISTOR CHIP 10K 1 16W RESISTOR CHIP 3 3K 1 16W 1608 RESISTOR CHIP 5 6K 1 16W 1608 RESISTOR CHIP 3 3K 1 16W 1608 RESISTOR CHIP 5 6K 1 16W 1608 RESISTOR CHIP 120 1 16 1608 RESISTOR CHIP 470 1 16W 1608 PFM 32C1 32C1E 0 BOARD 0 BOARD Ref No Ref No or Q ty Part No SP Description Q ty Part SP Description R3107 218 867 11 s RESISTOR CHIP 6 8K 1 16 1608 R3188 216 833 11 s RESISTOR CHIP 10K 1 16W 1608 R3108 218 869 11 s RESISTOR CHIP 8 2K 1 16W R3189 216 833 11 s RESISTOR CHIP 10K 1 16W 1608
124. P S Temp Center Temp VO Block Temp Left Temp Service Mode General Fan Status Fan Control Auto Ref Voltage 8 5 V F B Voltage 8 5 V Drive Data 2B5F P S Temp 43 dC Center Temp 43 dC I O Block Temp 43 dC Left Temp 43 dC You can select Auto or Manual If you select Manual you can set the any desired voltage to the fan drive voltage using Ref Voltage Use this command for checking operation of the fan drive circuit Select Auto during normal operation You can set the any desired voltage to the fan drive voltage when you have selected Manual in the Fan Control Range of setting is from 0 0 V to 13 0 V The fan drive voltage returns to the default value when the POWER is turn off and back on again It indicates the fan drive voltage The voltage that is actually driving the fan is displayed as the setting voltage is being supplied It indicates the fan drive data It indicates the temperature that is measured by the temperature sensor built in the power board It indicates the temperature that is measured by the temperature sensor attached on top of the power board It indicates the temperature that is measured by the temperature sensor attached on top of the Q block assy It indicates the temperature that is measured by the temperature sensor attached near the fan large 2 5 Vs Va Setting Menu structure Uvrs Uvra Set Reset 2 6
125. R CHIP 1608 R52 216 819 11 s RESISTOR CHIP 680 1 16W 1608 R118 216 857 11 s RESISTOR CHIP 1 R53 216 809 11 s RESISTOR CHIP 100 1 16W 1608 R119 216 857 11 RESISTOR CHIP 1 R54 216 830 11 s RESISTOR CHIP 5 6K 1 16W 1608 R201 218 867 11 5 RESISTOR CHIP 6 8K 1 16W 1608 R55 216 818 11 s RESISTOR CHIP 560 1 16W 1608 R202 216 840 11 5 RESISTOR CHIP 39K 1 16W 1608 R56 216 821 11 s RESISTOR CHIP 1 16W 1608 R204 216 813 11 s RESISTOR CHIP 220 1 16W 1608 R57 218 700 11 s RESISTOR CHIP 2 2K 1 16 1608 R205 216 825 11 s RESISTOR CHIP 2 2K 1 16W 1608 R58 216 845 11 s RESISTOR CHIP 10 16W 1608 R207 218 668 11 s RESISTOR CHIP 100 1 16W 1608 R59 216 809 11 s RESISTOR CHIP 100 1 16W 1608 R213 216 809 11 s RESISTOR CHIP 100 1 16W 1608 R60 218 724 11 s RESISTOR CHIP 22K 1 16W 1608 R214 218 661 11 s RESISTOR CHIP 51 1 16 1608 R61 218 698 11 s RESISTOR CHIP 1 8K 1 16 1608 R215 216 864 11 s CONDUCTOR CHIP 1608 R62 216 825 11 s RESISTOR CHIP 2 2K 1 16W 1608 R216 216 824 11 s RESISTOR CHIP 1 8K 1 16W 1608 R64 216 825 11 s RESISTOR CHIP 2 2K 1 16W 1608 R217 216 824 11 s RESISTOR CHIP 1 8K 1 16W 1608 R65 216 829 11 s RESISTOR CHIP 4 7 1 16W 1608 R218 216 824 11 s RESISTOR CHIP 1 8K 1 16W 1608 R66 216 809 11 s RESISTOR CHIP 100 1 16W 1608 R219 216 824 11 s RESISTOR CHIP 1 8K 1 16W 1608 R67 218 710 11 s RESISTOR CHIP 5 6K 1 16 1608 R220 216 864 11 s CONDUCTOR CHIP 1608 R68 216 821 11 s RESISTOR CHIP 1 0K 1 16W 1608 R223
126. R 2SA1037AK T146 R B BOARD Ref or Q ty Part No 033 8 729 112 65 035 8 729 928 81 0201 8 729 928 19 0203 8 729 928 19 0204 8 729 927 99 0205 8 729 928 19 0206 8 729 927 99 0207 8 729 927 99 0208 8 729 927 99 0209 8 729 928 19 0210 8 729 927 99 0211 8 729 928 19 0212 8 729 927 99 0213 8 729 928 19 0214 8 729 928 81 0215 8 729 927 99 0216 8 729 927 99 0217 8 729 928 19 0218 8 729 928 19 0401 8 729 928 19 0402 8 729 927 99 0403 8 729 927 99 0404 8 729 928 81 0405 8 729 928 81 0406 8 729 928 81 0407 8 729 927 99 0408 8 729 927 99 0409 8 729 927 99 0410 8 729 927 99 0411 8 729 928 19 0412 8 729 928 19 0413 8 729 928 19 0414 8 729 928 19 0415 8 729 928 19 0416 8 729 928 8 0417 8 729 928 8 0418 8 729 928 8 01001 8 729 927 99 01002 8 729 928 19 01003 8 729 928 8 01004 8 729 928 8 01005 8 729 928 8 R1 22 R2 2 R3 2 R4 22 R5 2 R6 2 R7 22 R8 2 R9 2 R10 2 R11 2 R12 2 R13 2 R14 2 R15 2 R16 2 6 809 6 809 6 805 6 809 6 864 6 825 8 726 6 805 6 855 6 828 8 692 6 805 6 855 6 809 6 833 11 6 805 SP Descri Ben ne co 00 5 5 5 5 5 5 5 5 5 5 5 co
127. R CHIP 10 1 16W 1608 R3173 216 197 11 s RESISTOR CHIP 10 1 16W 1608 R3183 216 864 11 s CONDUCTOR CHIP 1608 R3184 216 797 11 s RESISTOR CHIP 10 1 16W 1608 R3185 216 197 11 8 RESISTOR CHIP 10 1 16W 1608 R3186 216 197 11 8 RESISTOR CHIP 10 1 16 1608 R3187 216 197 11 s RESISTOR CHIP 10 1 16W 1608 PFM 32C1 32C1E 5 21 BOARD 10 For PFM 32C1 Ref No or Q ty Part No SP Description A 1270 443 A MOUNTED CIRCUIT BOARD C9501 126 964 11 s CAPACITOR ELECT 10MF 50V C9502 126 964 11 s CAPACITOR ELECT 10MF 50V 09503 102 129 00 s CAPACITOR CERAMIC 50V 0 01MF 09504 126 947 11 s CAPACITOR ELECT 47MF 35V C9505 126 947 11 s CAPACITOR ELECT 47MF 35V C9506 126 947 11 s CAPACITOR ELECT 47MF 35V C9507 126 947 11 s CAPACITOR ELECT 47MF 35V C9508 102 129 00 s CAPACITOR CERAMIC 50V 0 01MF 09509 126 947 11 s CAPACITOR ELECT 47MF 35V C9510 102 129 00 s CAPACITOR CERAMIC 50V 0 01MF 09511 102 129 00 s CAPACITOR CERAMIC 50V 0 01MF 09512 102 129 00 s CAPACITOR CERAMIC 50V 0 01MF CN9501 815 409 11 PIN CONNECTOR WITH PC PWB 44P CN9502 566 849 11 s CONNECTOR S TERMINAL 4P Y C IN CN9503 194 872 11 CONNECTOR BNC 2P VIDEO IN OUT D9501 8 719 110 17 s DIODE RD10ES B2 D9502 8 719 110 17 s DIODE RD10ES B2 D9503 8 719 110 17 s DIODE RD10ES B2 D9504 8 719 110 17 s DIODE RD10ES B2 D9505 8 719 110 17 s DIODE RD10ES B2
128. RAMIC 4 TOR CERAMIC 4 TOR ELECT 1 TOR CERAMIC 4 TOR CERAMIC 4 TOR CERAMIC 4 TOR CERAMIC 4 TOR ELECT 47M TOR ELECT 47M TOR ELECT 10 TOR ELECT 47M TOR ELECT 10 TOR CHIP CERA TOR CHIP CERA TOR CHIP CERA TOR CERAMIC 1 TOR CERAMIC 1 TOR CERAMIC 1 TOR CERAMIC 1 RD Q 01MF 25V B 01MF 25V B 01MF 25V B 01MF 25V B 01MF 25V B 01MF 25V B F 6 3V F 6 3V F 6 3V F 6 3V F 6 3V F 6 3V F B 3216 F 6 3V BP F 6 3V BP CICA CA oo 6 3 6 3 1MF 25V r ER F 6 3V F 6 3V F 6 3V TPF 50V CH TPF 50V CH F 6 3V TPF 50V CH TPF 50V CH TPF 50V CH TPF 50V CH 6 3 6 3 MF 6 3V 6 3 MF 6 3V 0 1 IC 0 1MF 0 1 00PF 50V B 00PF 50V B 00PF 50V B 00PF 50V B 5 17 0 BOARD 0 BOARD Ref Ref Q ty Part SP Description or Q ty Part SP Description C3068 162 964 11 s CAPACITOR CERAMIC 1000PF 50V B C3134 117 681 11 s CAPACITOR ELECT 100MF 16V C3069 162 964 11 s CAPACITOR CERAMIC 1000PF 50V B C3135 117 681 11 s CAPACITOR ELECT 100MF 16V C3070 126 205 11 s CAPACITOR ELECT 47M 6 3 C3136 124
129. RD B SIDE 03001 4 IC3001 4 03002 c a 163002 c a 03003 B 4 163003 C 3 19 8 3004 4 103004 4 C N VES 03005 C 4 163005 c 3 I 03006 4 1C3006 8 3 fi 7 Bm U 03007 C 4 163007 8 1 ki Ars pal aD 03008 B 4 1C3008 8 1 Hire NI D3009 4 IC3010 H 2 N m 3010 4 163011 D 3 z 2 3181 4 Bo 83 y i 3 MELA D301 A 4 IC3014 D 2 13008 TA i z D3013 aa Be Ho 2 03014 4 1 3016 2 U A 1 7 dica d 03015 C 4 1 3017 4 74 i 9ooooooooooo 3 12 03016 B 4 163018 6 1 fi APT EN d g 23017 C 4 163019 6 1 EI m 03018 B 4 IC3020 6 1 r r 3 03019 3 IC3021 1 1 5 01 23020 C 3 163022 D 3 5 6 0 03021 4 1C3023 B 1 D3022 C 4 03023 C 4 03001 03024 4 03002 3 3025 C 3 03003 3 3026 C 3 03004 3 53027 1 03005 B 3 03028 2 03006 B 3 03035 B 4 03007 1 D3036 B 4 03008 H 1 03037 C 4 03009 2 03038 C 4 03010 2 03042 D 3 03011 2 3043 D 3 03017 D 3 03044 D 4 03019 D 3 D3048 E 4 03021 D 4 D3049 E 4 03024 4 D3050 D 4 03025 E 4 D3051 D 4 03026 H 2 D3052 4 03029 D 4 D3053 D 4 03030 D 4 D3054 E 4 03032 4 03055 4 03056 4 03057 4 3060 D 4 03061 D 4 D3062 D 4 3 zei 2 Be R ole 010101010 x e S_
130. SERVICE MANUAL MODEL DEST CHASSIS MODEL DEST CHASSIS NO PFM 32C1 WORLD RM 971 WORLD PFM 32C1E WORLD NN FLAT PANEL DISPLAY SONY 2 7 H EZEJHTT BERI Ne ASE AFFIORA AZ 57989037 BREEDER US AUR CRIT A WARNING This manual is intended for qualified service personnel only To reduce the risk of electric shock fire or injury do not perform any servicing other than that contained in the operating instructions unless you are qualified to do so Refer all servicing to qualified service personnel A WARNUNG Die Anleitung ist nur f r qualifiziertes Fachpersonal bestimmt Alle Wartungsarbeiten d rfen nur von qualifiziertem Fachpersonal ausgef hrt werden Um die Gefahr eines elektrischen Schlages Feuergefahr und Verletzungen zu vermeiden sind bei Wartungsarbeiten strikt die Angaben in der Anleitung zu befolgen Andere als die angegeben Wartungsarbeiten d rfen nur von Personen ausgef hrt werden die eine spezielle Bef higung dazu besitzen A AVERTISSEMENT Ce manual est destin uniquement aux personnes comp tentes en charge de l entretien Afin de r duire les risques de d charge lectrique d incendie ou de blessure n effectuer que les r parations indiqu es dans le mode d emploi moins d tre qualifi pour en effectuer d autres Pour toute r paration faire appel une perso
131. W M3X3 PROTECTION SCREW M4 EXT CORE FERRITE MOUNTED CIRCUI PANEL ASSY GASKET 2X4 GASKET L TYPE SCREW 3X8 EXT CLAMP MINIATUR SCREW PS 3X6 SCREW PWH 3X6 SCREW PSW 3X1 SCREW PSW 3X1 SCREW PSW 4X8 SCREW PSW 5X10 SCREW BVTP 3X SCREW 4X SCREW PSW 3X8 T BOARD B T BOARD 5 T BOARD SP T BOARD Q TCHING RFC 8 BK WITH CASE FERRITE CORE D OISE FILTER UG PP PFM 32C1E EG GRIP TE TOOGH WASHER T BOARD OA PFM 32C1 32 1 PFM 32C1 PFM 32C1 HOOTH E EP FE ZNBK CM2 2 EP FE ZNBK CM2 4 EP FE ZN CM2 12 EP FE ZNBK CM2 12 EP FE ZNBK CM2 Chassis 5 5 Packing Group Packing Group No Part No SP Description 201 477 278 12 s REMOTE COMMANDER RM 971 202 2 990 242 01 HOLDER PLUG BLACK 203 3 613 640 01 HOLDER PLUG BROWN 204 4 080 653 01 HOLDER 205 4 090 021 01 INDIVIDUAL CARTON PFM 32C1 205 4 086 357 02 INDIVIDUAL CARTON PFM 32C1E 206 4 086 358 01 TRAY 207 4 086 359 01 CUSHION UPPER ASSY 210 4 086 360 01 o CUSHION LOWER ASSY 213 4 087 731 01 s OPERATING INSTRUCTIONS JAPANESE ENGLISH FRENCH SPANISH GERMAN ITALIAN SIMPLIFIED CHINESE KOREAN 214 4 087 818 03 s PROTECTION BAG 215 4 088 028 01 HOLDER 216 4 978 977 01 s LID BATTERY CASE 21 A CORD POWER See Secti
132. XIN3 IRQ RXCLKIN PDPGO RXOLKIN CPUGO RXIN2 GND LVDS RXIN2 SDA RXINI GND RXINI 801 RXINO GND LVDS RXINO 0013 CLKOUT CLKOUT 0UT2 0UT2 our 0011 00104 0010 LVDSGND CN1203 PDWN IRQ 60 CPU G0 SDA GND SOL LVDSGND CN1002 8P STBY5V UART TX GND UART RX CPU RESET TOOLS FLASH MODE GND Sle Ss gus 5 i O B SS11065 WW FRAME P1 PFM 32C1 32C1E H CN3009 30P 26V 2 s rcs our SIRCS IN 4 13 5 5 OP DET 6 osv lo 8 sTBYSV 9 pue Rx 10 DMP_TX 11 eno 12 _ 13 GND 14 v 15 GND OPTION 16 H 17 GND 18 8 19 GND 20 21 GND 22 23 SCL Le 24 SDA CN1501 25 RGB3 WHT 26 GND eno 27 THERMO 2 28 CONT2 STBY 5V 1 29 Q SENSE CN1501 3P WHT s CN3012 9P THERMO 2 9 STBY 5V 1 ve SEE 7 STBY sv e CN1501 5 TEM P2 3P WHT 4 8 sv S s THERMO 2 2 TEM Pi
133. _MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL STANDARD MFID_IPC_MATRIX_293M NORMAL 0 0 0 0 0 0101010 0 0 0 0101 01010 0 21212222 12 12 2 2 2 2 2 12 12 2 2 Z 2 O OJO O Z Z Z Z Z Z Z Z Z Z Z Z Z 12 Z 2 Z Z N N NE N N N CO PFM 32C1 32C1E 2 19 2 3 White Balance Adjustment Enter the Service Mode as follows Generate the built in adjustment signal Select Service Mode gt White Balance gt Win dow and select either Small or Large Set the color temperature to High as follows Select Color Temp gt High Adjust white balance using the R G and B gain adjustments as follows Adjust white balance by adjusting Red Gain Green Gain and Blue Gain until color temperature satisfies the specification of 9300 K During this adjustment set Green Gain to 00 normally Set the color temperature to Mid as follows Select Color Temp gt Mid Adjust white balance using the R G and B gain adjustments as follows Adjust white balance by adjusting Red Gain Green Gain and Blue Gain until color temperature satisfies the specification of 6500 K During this adjustment set Green
134. _R GND AUDIO_L GND 0 5 5 23035 CONT2 CONTI GND RGB3 SDA SOL R GND 6 GND B GND H GND v GND DMP_CLK GND DMP_TX STBYSV OP 05 05 OP DET 13 5 SIROS IN SIROS OUT 26V 33 Pt 1 1 FB3101 u 311047 0 3 3 RS 232C INTERFACE B SS11065 WW Q P3 PFM 32C1 32C1E H 1 3 BR24C21F IC3001 1 3002 NC 1 NC 2 NC 3 GND 4 1k BIT EEPROM ARRAY rer en 8 vec ADDRESS SUB WORD DATA DECODER ADDRESS REGISTER REGISTER 7 VOLK EE T 1 1 START STOP CONTROL 6 CIRCUIT I i ACK HIGH VOLTAGE POWER SUPPLY I 5 SDA GENERATING CIRCUIT VOLTAGE DETECTION 1 3 M52758FP 1 3003 IC3004 IC3006 Ct V C1 02 C2 T20UT R2IN Vec GND TIOUT BIN R10UT VOLTAGE INVERTER PFM 32C1 32C1E T2IN R20UT 2 3 NJM4558E 1C3009 1 3013 Q 1 3 SN74HC32APWR 3023 VCC 4B 4 3B 3A 0 3 19 9 8 2 3 TA8776N 1 3012
135. adjustment values are satisfied at the same time AD Adjustment of Component Input Set INPUT 1 to the Component input Connect the component signal 1080 60i all white 90 IRE to INPUTI Adjust Sub Cont YUV of YUV Calibration until the G detection value becomes the setup value Setup value 230 3 Set the component signal to the 1080 60 all gray 20 IRE Adjust Sub Brt YUV until the detection value becomes the setup value Setup value 51 3 Adjust Cb Offset YUV until the B detection value agrees with the G detection value Adjust Cr Offset YUV until the R detection value agrees with the G detection value Repeat the above steps 5 to 7 until all adjustment values are set to the setup value of step 5 Repeat the above steps 2 to 8 until all adjustment values are set to the setup values of steps 3 and 5 AD Adjustment of Video Input When the Video Input connector is installed Set the INPUT to the Video input Connect the NTSC all white 90 IRE video signal to INPUT Adjust Sub Cont Video of Video Calibration until the G detection value becomes the setup value Setup value 230 3 Set the video signal to the NTSC all gray 20 IRE Adjust Sub Brt Video until the G detection value becomes the setup value Setup value 51 3 PFM 32C1 32C1E 6 7 8 9 5 Adjust Cb Offset Video until the detection value agrees with the G detection value Adjust Cr Offset Video until th
136. alization error Power voltage digital system 5 V digital system 3 3 V analog system 6 V error Power off sequence error e Operation Time Accumulative operating hours are indicated In units of hour f Software Version Software version is indicated g PLD Version PLD version is indicated PFM 32C1 32C1E Table 1 ROM memory Common 1 General COMMON 0 0000 to 0x001F DATA Common 2 General 0x0020 to 0x003F AREA Common 3 Parental Control 0x0040 to 0x005F System 0x0060 to 0x007F Service 1 AD Converter 0x0080 to 0x009F Service 2 Chroma Decoder 0x00A0 to PRESET DATA AREA PROGRAM25 Address 0x0540 to 0x055F PROGRAM26 0 0560 to 0x057F PROGRAM27 0x0580 to 0x059F PROGRAM28 0x05A0 to 0x05BF PROGRAM29 0 05 0 to 0x05DF PROGRAM30 0x05E0 to 0x05FF Service 3 IP Converter 0x00C0 to 0x00DF reserved 0 00 to 0x00FF reserved 0x0100 to 0x011F Color Temp 1 Data 8 Name 0x0120 to 0x013F Color Temp 2 Name 0x0140 to 0x015F Programmable Gamma 0x0160 to 0x017F Tv Tuner 1 Common 0x0180 to 0x019F Tv Tuner 2 Channel Number 0x01A0 to 0x01BF 0 01 0 to 0x01 DF Tv Tuner 4 Mode Flag2 0x01E0 to 0x01FF Tv Tuner 3 Tv Tuner 5 Mode Flag3 Mode Flag1 0x0200 to
137. and Exploded Views unless otherwise specified Capacitors Inductors uH Resistors 0 40001 and higher for CE PFM 32C1 32C1E 5 1 Exploded Views BVTP 4x12 BVTP 4x12 BVTP 3x10 BVTP 4x12 Du 5 2 Exploded Views BVTP 4x10 32 1 32 1 5 2 Part 8 330 030 57 8 330 030 60 X 4040 029 2 X 4040 030 2 158 132 2 DOF 704 176 6 080 965 2 80 965 3 087 733 02 087 744 02 1 mom gt CO 1 11 12 087 840 0 087 918 0 13 088 041 0 14 089 037 0 15 4 641 838 0 4 4 4 4 Screws Washers 7 682 903 1 1 685 647 1 1 685 648 79 7 685 660 1 7 685 661 19 PFM 32C1 32C1E SP 5 5 5 5 5 Description OUNTED CIRCUIT BOARD Hl OUNTED CIRCUIT BOARD H2 ASSY CONTROL PANEL BEZEL ASSY GLASS OPTICAL FILTER BLEM NO 6 SONY ASKET 1X7 ASKET 1X7 OB COVER REAR Eri SULATED PLATE CREW PSW 5X20 UST PROTECTION SHEET CREW PWH M3X12 EG GRIP USHION SP FAB NW PSA O co CJ Co SCREW 3X6 SCREW 3X10 SCREW BVTP 3X12 SCREW 4X10 SCREW 4X12 EP FE ZNBK CM2 EP FE ZNBK CM2 EP FE ZN CM2 EP FE ZNBK CM2 Exploded Views 5 3 5 PSW 3x14 PANEL PLASMA DISPLAY FPF32C106128UA 61 Made
138. c signal polarity set it as shown below Nagative polarity N Positive polarity SOG SOG When Current Data Select is selected in the Original Data Select this item cannot be modified because the presently entered signal is selected for editing H Total Pixel It sets the total number of dots within a single horizon tal cycle This setup value becomes the default value of the user menu Total H Pixel Note You should set in a way that number of H Total Pixels is equal or more than sum of H Active Pixel H Sync Pixel H BP Pixel PFM 32C1 32C1E 5 H Active Pixel It sets the horizontal resolution power 6 H Sync Pixel It sets the number of dots of horizontal sync signal 7 H BP Pixel It sets the number of dots during the horizontal back porch 8 total Line It sets the total number of vertical lines Note You should set in a way that number of V Total Line 15 equal or more than sum of V Active Line V Sync Line V BP Line 9 V Active Pixel It sets the vertical resolution power 10 V Sync Line It sets the total number of lines of vertical sync signal 11 V BP Pixel It sets the number of lines during the vertical back porch 12 Clamp Posi It sets clamp pulse position The clamp pulse position is set starting when data is 0 from the trailing edge of the horizontal sync signal When this data is increased picture moves toward the picture area The clamp puls
139. curate low voltage scale The Simpson 250 and Sanwa SH 63Trd are examples of a passive VOM that is suitable Nearly all battery operated digital multimeters that have a 2 V AC range are suitable See Fig A To Exposed Metal Parts on Set A q 4 0 15uF 1 5 voltmeter 0 75V 4 Earth Ground Fig A Using an AC voltmeter to check AC leakage English 02FS16 1 Sony Corporation Printed in Japan 9 870 331 01 B amp P Company 2002 6
140. e Tektronix 2465 or equivalent band width 350 MHz or more VG Programmable video signal generator VG814 or equivalent Frequency counter Advantest TR5821AK or equivalent Digital voltmeter Advantest TR6845 or equivalent Potential transformer e Regulated DC power supply Remote commander RM 971 Perform the following adjustments at least 5 minutes after turning on the power 2 2 Electrical Adjustments Using the Service Mode The electrical adjustments can be performed using the remote commander RM 42B supplied with the PFM 32C1 32C1E The remote commander has the Service Mode Select the Service Mode to perform the electrical adjustments as listed below Service Mode When the machine enters the service menu the Service Mode submenu is displayed in addition to the ordinary user menu The electrical adjustment is executed using the Service Mode submenu Press the key once and back on to enter STAND BY state or turn off the main power to exit the Service Mode Operation of remote commander in the Service Mode The six keys of MENU ENTER lt gt and J are the basic operation keys in the same manner as in the user adjustment The other keys can be operated in the same manner as in the user adjustment The electrical adjustments using the Service Mode become necessary in the following cases When either one of the following adjustment is made adjustmen
141. e R detection value agrees with the G detection value Repeat the above steps 5 to 7 until all adjustment values are set to the setup value of step 5 Repeat the above steps 2 to 8 until all adjustment values are set to the setup values of steps 3 and 5 Set Cal Mode to Off The above described adjustment items 2 3 and 4 must be performed while the picture quality mode User is in the standard condition 2 5 Sub Color and Sub Hue 1 Adjustments Connect the NTSC SMPTE color bar signal to Video Input 55 E SMPTE color bars Set the picture quality setting Userl in the standard condition as follows Select Picture Mode gt User1 Then set Reset of Adjust Picture to OK Enter the Service Mode and then select the Blue Only mode as follows Select Service Mode gt General gt Blue Only and set 1 PFM 32C1 32C1E 4 While observing the screen display adjust the NTSC Sub Color and Sub Hue as follows Select Service Mode gt Chroma Decoder gt Sub Color and set Col NTSC to 6 Adjust C Out Level of Chroma Decoder until 1 has the same brightness as A and 4 has the same brightness as D Select Hue of Chroma Decoder and adjust Hue NTSC until 2 has the same brightness and 3 has the same brightness as C Repeat the above described adjustments until all the adjustment values are satisfied at th
142. e generation position is given by the equation below starting from the trailing edge of sync signal Clamp Posi Horizontal sync frequency X H Total Pixel seconds 13 Clamp Width It sets the clamp pulse width The clamp pulse width increases starting from the position that is set by the Clamp Posi When this value is increased the clamp pulse width is widened in the direction toward picture area The clamp pulse width Wcp is given by the equation below Wep Clamp Width Horizontal sync frequency H Total Pixel seconds PFM 32C1 32C1E 14 Format Flag It sets ON OFF of the following respective items in units of bit 0 0 0 0 0 0 0 0 1 ON 0 0 90 0 Upper 4 bits not used 0 Setting the IP converter Set to OFF during normal operation Setting interlace It sets the interlace input ON When the input signal is the interlaced signal OFF When the input signal is the progressive signal 9 Setting to enable the dot adjustment It enables or disables the dot adjustment in the user menu ON The dot adjustment is enabled in the user menu OFF The dot adjustment is disabled in the user menu If the actual input signal specification is different from the setups of H Total Pixel and H Active Pixel due to fetching the interlace set this item to OFF 4 Frame synchronization setting It sets synchronization setting of the picture input to scan c
143. e same time Tracking 5 Connect the PAL SMPTE color signal to Video Input 6 While observing the screen display adjust the PAL Sub Color as follows Select Service Mode gt Chroma Decoder gt Sub Color Adjust Col PAL of Chroma Decoder until 1 has the same brightness as A and 4 has the same brightness as D 7 Connect the SECAM SMPTE color signal to Video Input 8 While observing the screen display adjust the SECAM Sub Color as follows Select Service Mode gt Chroma Decoder gt Sub Color Adjust Col SECAM of Chroma Decoder until 1 has the same brightness as A and 4 has the same brightness as D 2 6 Video Decoder Adjustment 1 Connect the SECAM all gray 30 IRE signal to Video Input 2 Set Cal Mode of AD Converter of the Service Mode menu to On 3 Adjust By Adj SECAM of Chroma Decoder of the Service Mode menu until the Blue detection value has the same value as the Green value 4 Adjust Ry Adj SECAM of Chroma Decoder of the Service Mode menu until the Red detection value has the same value as the Green value 5 Repeat steps 3 and 4 until the detection values of R G and are within the range 5 of tolerance error 6 Set Cal Mode of AD Converter of the Service Mode menu to Off 2 21 2 22 2 7 Watch Error Adjustment 1 Select 32k Clock Out in General of the Service Mode and set it to On
144. ehand CN3005 CN6 CN2 CN42 D Six screws z CN7 PWH 3 x 6 EIS Sl NI DI 23 2 Switching regulator Cushion Main chassis PFM 32C1 32C1E 1 5 1 2 7 Q Block Assy Removal Q Board 3 Four screws CN3002 GN3001 P3 x 8 EXT TOOTH CN3006 CN3003 CN3011 CN3012 lt CN3008 CN3005 CN3007 1 CN3003 1 Two lock hinges Q block assy Main chassis N Q board removal Seven screws y 4 PWH 3 x 6 Three screws PS 3 x 6 Six hexagon screws 1 6 PFM 32C1 32C1E 1 2 8 Board Removal Lithium Battery Lithium battery removal Lithium battery CR 1220 Battery holder Remove the lithium battery in the direction of arrow PFM 32C1 32C1E Three screws PWH 3 x 6 CN1204 u CN1001 8 Two screws PWH 3 x 6 Screw PWH 3 x 6 Cushion CN1005 CN101 CN401 CN1004 B board 5 Hook bracket Screw PWH 3 x 6 4 Two screws PSW 5 x 10 Two screws PWH 3 x 6 Main chassis 1 7 1 2 9 Block Assy Removal To remove the block assy remove the block and the board hook bracket beforehand referring to B Board Removal CN101 CN102 CN1005 2 Two screws BVTP 4 x 12 CN1 lt NI 8 B block assy 1 SP board Scr
145. er voltages are supplied from the switching pin 1 pin 3 pin 5 pin 7 pin 9 pin 11 13 regulator board CN6 CN23 CN33 CN42 and CN52 pin 15 pin 17 and pin 19 to the PDP panel The four types of power voltage that are 3 3 5 55 V and 80 are supplied If no images appears through the above conditions are satisfied the PDP unit will be defective PFM 32C1 32C1E 3 1 3 2 Self Diagnosis Function 3 2 2 Abnormality Judgment Criterion 3 2 1 Overview 1 Detecting stoppage of fans and detecting failure of the fan drive circuit The self diagnosis function of this model detects abnor Service Mode mality by checking the power voltages detecting tempera Service Status ture detecting operation of fans and by checking EE Fan amp Temp Status PROM register and the watch timer using the A D convert kan Drive BUS DS 2 er When abnormality is detected the self diagnosis P S Temp function displays the abnormality by flashing the Standby indicator and displays the detected data on the service P S Temp 44 C menu 0004 If the abnormal condition exceeds the allowable limit it forcibly activates the shutdown operation 1 Fan Drive If the fan drive circuit is defective NG is displayed The self diagnosis function detects operations of the 2 Fan If any of the four built in fans stops its following points rotation
146. es the user name to User1 User and User3 d Prog Gamma This command is not used in this machine e Tuner This command is not used in this machine f Prog Preset It initializes the PRESET DATA AREA shown in Table 1 It resets the backup preset area g Last Memory It initializes LAST MEMORY AREA shown in Table 1 It initializes the last memory data that user has adjust ed for each signal h User Memory It initializes USER MEMORY AREA shown in Table 1 It resets all of the 20 types of the adjustment data that are saved in the User Memory function of the user menu i Factory It resets the EEP ROM to the factory default status All of the EEP ROM areas except the following are initialized by this command Items that are not initialized by the FACTORY RESET function In the COMMON DATA AREA CD Index Number stored in the Common 1 General 2 Watch Error and Serial Number data stored in the Common 2 General 3 Service 1 AD Converter Adjustment data of 2 4 AD Calibration Adjustment 4 Service 2 Chroma Decoder Adjustment data of 2 5 Sub Color Sub Hue Adjustment and 2 6 Video Decoder Adjustment 5 Adjustment data in Color Temp 1 Data amp Name at the factory except user adjustment value Adjustment data of 2 3 White Balance Adjustment PFM 32C1 32C1E 2 Chroma Decoder Menu structure Hue and color of the video signal are adjusted a
147. ew PWH 3 x 6 CN9001 Cushion Main chassis 1 2 10 Power Cord Use the proper power cord for your local power supply United States Continental United Kingdom Ireland Canada Europe Australia New Zealand Plug type VM0233 COX 07 VM1296 Female end VM0089 COX 02 VM0303B VM1313 Cord type SVT HO5VV F CEE 13 53rd HVCTF Minimum cord set rating 10A 125V 10A 250V 10A 250V 10A 125V Safety approval UL CSA VDE VDE DENAN HO a Note Use an appropriate rating plug which is applied to local regulations 1 8 PFM 32C1 32C1E 1 2 11 Plasma Display Panel Unit Packing When Sending it to FUJITSU FHP Before sending the panel to FHP remove the boards B Hl H2 Q QA S SP and switching regulator producted by SONY 3 Lower retainer Attached to cushion of plywood 4 Four fixing screws Y gt Inner box Lid 2 Wrapping by polyethylene D Plasma display panel unit Glass face is lower side mirror mat 45 Bottom box Lid Plasma display Two joint parts panel unit Glass face is upper side 9 Two joint parts 5 Inner box Bottom Two upper parts 2 Two lower parts 3 Inner box Packing E 2 Two joint parts Outer box Bottom PFM 32C1 32C1E 1 9 Section 2 Electrical Adjustments 2 1 Equipment Required Oscilloscop
148. g RAM Select the desired area from PROGRAMI to PROGRAM 12 2 Data Save It executes saving of the data into the area that is selected by the Save Area Change the menu item from Cancel to OK and press ENTER You can judge coincidence of the preset data with the input signal using the sync signal polarity of horizontal vertical frequencies If the same sync signal data exists within a preset area the specification that has the smaller preset number has priority 2 10 8 Service Status Menu structure You can confirm internal status of the PDP panel Service Mode Service Status Signal Sync Power Supply Fan amp Temp Status Warning Status Operation Time 00001 Software Version 1 00 PLD Version 000 Signal Sync Menu structure Service Mode Service Status Signal Sync Format 640 x 480 60 Signal specification H Freq 031 469 kHz Horizontal frequency V Freq 059 94 Hz Vertical frequency Sync Pol N N Sync signal polarity Condition Stable Sync signal status The sync signal status of the input signal is displayed Format The preset signal name for the input signal is displayed H Freq Horizontal frequency of the input is displayed in 6 digits V Freq Vertical frequency of the input is displayed in 5 digits Sync Pol Sync signal polarity is displayed Conditions Sync signal status is displayed
149. l polarity H Total Pixel 800 4 Total number of dots within horizontal H Active Pixel 640 5 Horizontal resolution power H Sync Pixel 96 6 Number of dots of horizontal sync signal H BP Pixel 48 7 Number of dots during the horizontal back porch V total Line 525 8 Total number of vertical lines V Active Line 480 9 Vertical resolution power number of lines V Sync Line 2 10 Total number of lines of vertical sync signal V BP Line 33 11 Number of lines during the vertical back porch Clamp Posi 60 12 Clamp pulse position Clamp Width 8 13 Clamp pulse width number of dots Format Flag 14 Format flag Picture Mode Standard 15 Picture quality mode Color Matrix 12 16 Color difference matrix Zoom Mode 4 3 17 Wide selection 1 H Freq 3 Sync Pol It sets the horizontal frequency When Current Data Select is selected in the Original Data Select this item cannot be modified because the presently entered signal is selected for editing 2 V Freq It sets the vertical frequency When Current Data Select is selected in the Original Data Select this item cannot be modified because the presently entered signal is selected for editing 2 8 4 It sets the sync signal polarity Sync polarities are displayed in the order of Horizontal Vertical Sync Pol N N Horizontal sync polarity Vertical sync polarity When you set the syn
150. misch afval KCA ch F r Kunden in Deutschland Entsorgungshinweis Bitte werfen Sie nur entladene Batterien in die Sammelboxen beim Handel oder den Kommunen Entladen sind Batterien in der Regel dann wenn das Ger t abschaltet und signalisiert Batterie leer oder nach l ngerer Gebrauchsdauer der Batterien nicht mehr einwandfrei funktioniert Um sicherzugehen kleben Sie die Batteriepole z B mit einem Klebestreifen ab oder geben Sie die Batterien einzeln in einen Plastikbeutel For the customers in the U S A and Canada RECYCLING LITHIUM ION BATTERIES Lithium lon batteries are recyclable You can help preserve our environment by returning your used rechargeable batteries to the collection and recycling location nearest you For more information regarding recycling of re chargeable batteries call toll free 1 800 822 8837 or visit http www rbrc org Caution Do not handle damaged or leaking Lithium lon batteries PFM 32C1 32C1E PFM 32C1 32C1E Table of Contents 1 Service Information 1 1 Board E3yOoutus so va Raka an 1 1 1 2 Disassembly u a 1 2 1 2 1 Board Removal 1 2 1 2 2 Rear Cover Removal 1 3 1 2 3 Bezel Assy Removal sassa 1 4 1 2 4 DC Fan 1 Removal 1 4 1 2 5 DC Fan 2 Removal 1 5 1 2 6 Switching Regulator Removal 1 5 1 2 7 Block Assy Removal Board 1 6 1 2 8
151. n QFP 36pin SOP IP00C713 MAX202CSE MAX202CSE T MC74HC4052F SN74LV4053APWR TC74HC4052AF EL 1 TOP VIEW 256pin QFP K4S161622D TC80 MSM56V16160D 10TS K MSM56V16160F 10TS K MM74HC32MTCX SN74HC32APWR 16pin SOP SN74LV123APWR TC74HC125AF IER TOP VIEW TC74HC125AF EL TC74VHCT14AFT EL TK15452V 50pin SOP 188 05 14 SOP RS5C348A E2 10pin SOP S 80828ANNP EDR T2 S 80842ANNP ED6 T2 4 5 7504 7504 5 TC7SO8FU TES5R TC7S08FU TE85R mi Spin CHIP TA78MO9F TE16L 1 TOPVIEW 30pin TC7W125FU TE12R mi 8pin CHIP TDA7480 CI TOP VIEW 20pin DIP 4 1 IC Diode Transistor THC63LVDM83R T AAR ARR VIEW 56pin SOP UPD64083GF 3BA VIEW 100 XC18V01PC20C 1 VIEW 20 Z8622912SSC 00TR RRA RAAB AR VIEW 18 SOP 2SA1037AK T146 R 2SA1162 G 2SA1462 2SA1462 T1Y33Y34 2SA1774R 2SA1774TL QR 2SB709A QRS TX 2SC1623 L5L6 25C2412K T 146 QR 25C4617R 2SC4617TL QR DTC144EE DTC144EKA DTC144EKA T146 4 2 2SJ377 TE16L D 21 DTA144EE DTA144EE TL DTC144EE TL OUT IN GND 02CZ12 TE85L 3 5 3 E 155226 157 MA3130WA TX 7 X DAN202K DAN202K T 146 2 w X
152. n the service menu The NG indication is not reset and is accumulated unless the AC cord is disconnected If the abnormal condition exceeds the allowable limit it forcibly activates the shutdown operation and picture will not be displayed any more At this time the Standby indicator flashes to indicate that the PDP unit is in the error mode as shown in Section 3 1 3 2 PFM 32C1 32C1E 3 Detecting temperature increase at the center of the top of the PDP panel and shutting it down Service Mode General Fan Status Fan Control Auto Ref Voltage 8 5 V F B Voltage 8 5 V Drive Data 2B5F P S Temp 43 C Center Temp 43 C I O Block Temp 43 Left Temp 43 C 1 Left Temp 1 Center Temp The temperature that is measured by the S board installed in the top of the power supply board is displayed If temperature exceeds 69 C the Standby indicator flashes at the interval of 0 4 seconds continuously If temperature exceeds 74 C the shutting down is activated 4 Detecting temperature increase at the I O block side of the top of the PDP panel and shutting it down Service Mode General Fan Status Fan Control Auto Ref Voltage 8 5 V F B Voltage 8 5 V Drive Data 2B5F P S Temp 43 C Center Temp 43 C I O Block Temp 43 C Left Temp 43 C 1 VO Block Temp The temperature that is measured by the S board installed in the top of the
153. nne comp tente uniquement WARNING AN INSULATED TRANSFORMER SHOULD BE USED DURING ANY SERVICE TO AVOID POSSIBLE SHOCK HAZARD BE CAUSE OF LIVE CHASSIS THE CHASSIS OF THIS RECEIVER IS DIRECTLY CONNECTED TO THE AC POWER LINE SAFETY RELATED COMPONENT WARNING COMPONENTS IDENTIFIED BY AAMARK SCHEMATIC DIAGRAMS EXPLODED VIEWS AND IN THE PARTS LIST ARE CRITICAL TO SAFE OPERATION REPLACE THESE COMPO NENTS WITH SONY PARTS WHOSE PART NUMBERS APPEAR AS SHOWN IN THIS MANUAL OR IN SUPPLEMENTS PUB LISHED BY SONY ATTENTION AFIN D EVITER TOUT RISQUE D ELECTROCUTION PROVENANT D UN CHASSIS SOUS TENSION UN TRANSFORMATEUR D ISOLEMENT DOIT ETRE UTILISE LORS DE TOUT DEPANNAGE LE CHASSIS DE CE RECEPTEUR EST DIRECTEMENT RACCORDE L ALIMENTATION SECTEUR ATTENTION AUX COMPOSANTS RELATIFS A LA SECURITE LES COMPOSANTS IDENTIFIES PAR UNE MAPQUE SUR LES SCHEMAS DE PRINCIPE LES VUES EXPLOSEES ET LES LISTES DE PIECES SONT D UNE IMPORTANCE CRITIQUE POUR LA SECURITE DU FONCTIONNEMENT NE LES REMPLACER QUE PAR DES COMPOSANTS SONY DONT LE NUMERO DE PIECE EST INDIQUE DANS LE PRESENT MANUEL OU DANS DES SUPPLEMENTS PUBLIES PAR SONY PFM 32C1 32C1E CAUTION Danger of explosion if battery is incorrectly replaced Replace only with the same or equivalent type recommended by the manufacturer Dispose of used batteries according to the manufacturer s instructions Vorsicht Explosionsgefahr bei unsachgem
154. ogressive Progressive o MAC 16inch 832 x 624 Progressive 2 SPECIAL 1024x576 60Hz 1024 x 576 Progressive VESA 1024x768 60Hz N VESA 1024x768 70Hz N VESA 1024x768 75Hz VESA 1024x768 85Hz 1024 x 768 Progressive Progressive Progressive Progressive o VESA 1152x864 75Hz 1152 x 864 Progressive SI 21inch 1152 x 870 Progressive VESA 1280x960 60Hz VESA 1280x960 85Hz 1280 x 960 Progressive Progressive o VESA 1280x1024 60Hz 2 SUN 1280x1024 67Hz VESA 1280x1024 75Hz SUN 1280x1024 76Hz VESA 1280x1024 85Hz 1280 x 1024 Progressive Progressive Progressive Progressive Progressive VESA 1600x1200 60Hz 1600 x 1200 Progressive 852 480 960 852 480 Progressive A PFM 1024 1024 60 1024 x 1024 Progressive 1280x768 56 1280 x 768 Progressive VIDEO 525_60 720 x 483 Interlace gt VIDEO 2 16 625_50 720 x 575 Interlace PFM 32C1 32C1E Vertical line Format Flag Default Data Position PLL IP Enable Interlace
155. onl l 2 10 Power Cord PFM 32C1 32C1E 5 7 5 3 Electrical Parts List Ref No or Q ty Part SP 500 Cl C2 C3 C5 C6 CI C8 C9 C C CAC CD W DO O O O co 1 C20 C21 C22 C23 C24 C25 C26 C27 C28 C29 C30 C31 C32 C33 C34 C35 C36 C37 C38 C39 C40 C41 C42 C43 C44 C45 C46 C49 C50 C51 C52 C53 C54 C55 C56 5 8 8 330 030 58 s 156 157 11 s 156 156 11 0 162 970 115 566 164 221 107 823 162 970 cn Qo co 107 826 125 889 126 392 126 392 162 970 162 970 162 970 115 566 126 392 107 826 cn o o 162 915 126 394 107 826 107 826 107 826 cn 00 00 115 467 107 826 162 910 162 910 162 970 cn o 107 826 107 826 107 826 115 566 164 489 cn o 00 164 489 164 489 127 760 162 917 127 760 cn 107 826 164 344 164 315 107 826 162 969 cn o 00 162 928 126 391 107 826 126 394 126 394 cn Q 126 391 107 826 107 826 107 826 127 692 cn o o o 126 391 131 661 164 315 163 233 9 126 394 cn o oco Description MOUNTED CIRCUIT BOARD B BATTERY LITHIUM CR 1220 HOLDER BATTERY CAPAC CAPAC CAPAC CAPAC CAPAC TOR CERAMI T
156. onri ao J Jm soars 234 10405213 0404405 ma suis 16 a RGBH 23 gt AUDIO MUTE 12 03017 3019 H P 4 6 Y wm ID SIRCS 1 poi 10405 3 3 18006 i tai 956 vn oun 097 Lag LINE MUTE 13 Pa BUFF 5185 OUT SIRCS 3 03030 03029 5 3 SYNC SW 0406 103016 H dr SIRCS IN i G2 sms Mav 8 av 03032 33 508 DUTT 33 506 pUTY2 PFM 3201 32C1E 6 1 6 1 22 d 2 3 2 3 101203 SYSTEM CONTROL PDP PULS PICTURE PROC PDP UF PDP DRIVE da CN1204 10403 93 ka 5 0UT0 2 oum AD CONV RRO 96 mom op ROD2 S 3 52 ouro 7 3 i 18 89 RRO 34 PRIO 98 1908000 RODS 9 ale Ro 54 INO 6 4 4 om RR7 41 PRIZ qot 1 py 5 OST 429 T 5 0 d pal E 3 ap 0072 02 8 oum 506 IN2 gt u Ger ev f 6 50 7 i 18 BU 9 B CB INZ RLO 8 RLO opio 9 88 1 2 0UT3 8
157. onverter ON Vertical sync of PDP panel synchronizes with the input signal OFF The PDP panel display signal is no more synchronized with the input signal When the motion picture is going to be displayed set this item to ON Note This item can be set to ON only when the vertical frequency of input signal is in the range from 50 to 60 Hz 15 Picture Mode It sets the picture quality mode Select the desired mode from Standard Vivid Use1 User2 or User3 This setting becomes the default value of the Picture Mode of user menu 2 9 16 Color Matrix It sets the color difference matrix when the color difference component signal is input Either 12 or 13 can be set 12 In the case when the signal conforms to SMPTE293M 13 In the case when the signal conforms to SMPTE294M 17 Zoom Mode It sets the wide selection Select the desired mode from Expd 4 3 Letterbx Restore Subtitle or 4 37 This setting becomes the default value of the Picture Quality Mode of user menu c Save Area Select Menu structure It saves the data of the editing RAM to the preset area Service Mode Preset Edit Save Area Select Save Are 1 1 Select the preset data area Data Save Sp that stores the data 2 Executes saving of the data 1 Save Area It selects the preset data area that saves contents of the editin
158. postu 2802785 B as CONTI 2 5 89 CONT2 YE w R9517 10 RGB3 R9504 330 69505 47 1 9 AW kp 4 4 nosts i R9516 03307 ul SCL 47 09504 184 MTZJ T 77 10B PROTECT 89k 16V B11 SDA TO B BOARD 1 13 CN6910 E 9 144 BER 09503 BRE 2s 27857P Ga Jul BUFFER bis G 2 5 m d e a GND 1 9 n 09505 MTZJ T 77 10B 09508 nis GND PROTECT R9519 R9520 0 01 47 3 3k 9502 A16 GND 09501 bid v 69501 MTZJ T 77 10B 10 94141 GND AUDIO IN 1 IH Bi7 DMP CLK kia Ate ms 9501 Bre DMP_TX YE 19 5 R9503 09502 47 10 09502 MTZJ T 77 10B Bis STBYSV PROTECT 09509 9 20 GND e 820 D5V at 16V 71 21 13 5V 0 22 29V 822 29V INPUT BUFFER LO _ a B SS9743 WW QA 7 4 7 4 PFM 3201 32C1E A B D E F G H R9503 omo 69502 efe e 4 gu 056 50580 C vost E 0869 PFM 32C1 32C1E QA A SIDE SUFFIX 11 QA B SIDE SUFFIX 11 QA BOARD D9501 B 3 D9502 3 09503 0 3 29504 c 3 D9505 3 09501 2 09502 2 09503 2 Q BOA
159. rea or the respective areas of the EEPROM can be separately initialized Menu Structure Select the desired area of EEPROM to be initialized using the following menu Service Mode EEP ROM Initialize Whole Area Common White Balance Prog Gamma Tuner Prog Preset Last Memory User Memory Factory To initialize the desired area firstly select the desired item from the EEPROM RESET menu Change the selected item from CANCEL to Then press ENTER a Whole Area It initializes whole area of EEP ROM This command is identical to executing the all items of Common White Balance Prog Gamma Tuner Prog Preset Last Memory User Memory and Factory Execute this command only when the memory IC1007 on the B board is replaced b Common It initializes Common 1 Common 2 and Common 3 of the COMMON DATA AREA shown in Table 1 It initializes the data unique to the particular machine and the shared data various setup values of the user menu Because it initializes the serial number and accumula tive operation hours do not execute this command 2 2 c White Balance It initializes Color Temp 1 and Color Temp 2 of the COMMON DATA AREA shown in Table 1 It initializes the color temperature High Mid and Low and all data of user setup 1 to 3 to all 0 It also initializ
160. ser menu they are not adjusted here Red Gain Red gain of the selected Color Temp is adjusted Adjustment range is from 127 to 128 Green Gain Green gain of the selected Color Temp is adjusted Adjustment range is from 127 to 128 Blue Gain Blue gain of the selected Color Temp is adjusted Adjustment range is from 127 to 128 White Balance Adjustment Refer to section 2 3 White Balance Adjustment PFM 32C1 32C1E 5 General 6 Fan Status Menu structure The data that are unique to the particular machine and the fan control are checked Menu structure a Blue Only When 1 is set all colors of RGB channels on the PDP become blue data only b AGC Wide This command is not used in this machine c AGC Narrow This command is not used in this machine d 32k Clock Out The clock signal that is used for the Watch Error adjustment is output Off Not output Output e Watch Error It corrects error of the built in watch Set the measurement value of the frequency counter connected Adjustment range is from 32 76180 to 32 77420 kHz f Serial Number Service Mode General Blue Only 0 Wide 3 14 Narrow 13 32k Clock Out Off Watch Error 32 76800 Serial Number 2000001 Fan Status Vs Va Setting It sets serial number PFM 32C1 32C1E Fan Control Ref Voltage Voltage Drive Data
161. t V ene a a le gt 7 om 1 1 5 ir R3042 03072 8 DSUB_H LF Ja D K N b i 5 103007 2 2 n H 7 m 2 4 NM290350 d HEH P y Ho ANP 93075 103007 1 2 03049 941 NC R3061 1 16 NUM2903M 1 Air CHIP 680 CN3014 083015 TO B BOARD 0 03009 CHIP lt CN401 1 5 3069 2SA1037AK 3 3045 IP 1100 CONVERTER 103008 7 150 6 GND 4 9 6 BA12FP 17100 12V REG one 77 OMS s 8 i tr 1 1 won 1 4 m DER 47 VAI onte Ka BLE CHIP rar 3 3 ev 1414 1418 i 4 Di Fr pum m p L m HED oe 02088 03087 2 8 REES rau 180 tev fav 16 por vi ese E SHOE Input RGB in oM D i ji TRENT BHI 05 658 83188 R3190 150 2541462 83064 o aer On Ke 03008 12188 M 28 20 D I 700 mVp p o 63055 A CHIP 03101 3076 A3189 pe i fa L K Eon 25 INPUT_SEL s a Du INV w Input RGB 10k EEPROM gt 1 16W 3077 83184 L 4 mara fw Tem 700 mVp p H 27 te ono 1 ASV um 7 FAN DAV 0 7 di Pt P31 Rab YN a Fana to eno 03018 3028 83027 N NEA D A LE DEIER 93020 s al
162. t 11 IP Converter System IC Bit 12 OSD No Use for PFM Bit 13 PLD No Use for PFM Bit 14 RTC No Use for PFM Bit 15 Scan Converter No Use for PFM Because this model does not contain the AV switch bit 2 always goes to 1 high This function has the detection of the device containing error It does not activate displaying the warning nor shutting down operation 3 4 7 Detecting the EEPROM error Service Mode Service Status Warning Status EEP ID 1 2 EEP Load 3 RTC Init I OK VDET XSTOP 3 OK PDP Init i OK DEC Init OK DC Init OK Power Off OK If communication with EEPROM is not established correctly the NG indication is displayed on the corre sponding item 1 EEPID ID CODE error 2 EEP Save Data write error 3 EEP Load Data read error 8 Detecting decrease of the watch backup power voltage and detecting abnormal oscillation Service Mode Service Status Warning Status EEP ID OK EEP Save Load OK RTC Init 1 VDET 2 3 Init I OK DEC Init i OK DC Init E OK Power Off If the watch IC does not work correctly the indica tion is displayed on the corresponding item 1 RTC Init 2 VDET Watch initialization error Watch power voltage error
163. t using the service mode becomes necessary When any repair related to picture Chroma Decoder quality is executed AD Converter White Balance When 403 board and its m AD Converter peripheral part is replaced When PDP is replaced White Balance When memory 1007 on the EEP ROM Initialize B board is replaced Chroma Decoder AD Converter White Balance General Service Status When any of the circuit boards below is replaced m board Chroma Decoder Service Mode m board AD Converter ROM Initialize Initializes the EEP ROM Service Status Chroma Decoder Chroma decoder adjustment AD Converte A D converter adjustment S board Service Status White Balance White balance adjustment Operation confirmation only General Other adjustments and the Manual Control gt functions required for confirmation Preset Edit gt Factory check menu Not used in service Service Status Editing the preset signal Internal status confirmation How to enter the Service Mode using the RM 971 In the STAND BY state press the keys in the following order DISPLAY 5 5 gt VOL POWER ON PFM 32C1 32C1E 2 1 1 EEPROM Initialize EEPROM Configuration Table shows the configuration of EEPROM The entire a
164. tatus whether the communication with the respective devices that are controlled by the bus is established or not is displayed PFM 32C1 32C1E When the value that is displayed on the PDP panel is converted to the binary number the each bit has the following meaning Bit 0 Audio Processor Bit 1 Audio Switch Bit2 AV Switch Bit 3 Closed Caption Decoder Bit 4 3D Comb filter Bit 5 Chroma Decoder Bit6 PDP Bit 7 Tuner No Use Bit 8 Auto Wide Decoder Bit9 AD Converter Bit 10 EEP ROM Bit 11 IP Converter System Bit 12 OSD No Use for PFM Bit 13 PLD No Use for PFM Bit 14 RTC No Use for PFM Bit 15 Scan Converter No Use for Because this type of PDP panel is not equipped with the Each bit 0 OK 1 NG AV switch bit 2 always goes to 1 Warning Status Menu structure Service Mode Service Status Warning Status EEP ID OK EEP Save OK EEP Load 3 OK Init OK VDET OK RTC XSTOP Init DEC Init DC Init The warning information is displayed EEP ID EEP Save EEP Load RTC Init RTC VDET RTC XSTOP PDP Init DEC Init DC Init Power Off ID CODE error Data write error Data read error Watch initialization error Watch power voltage error 1 8 V or less Watch oscillator error PDP initialization error Chroma decoder initi
165. van T P 1 9 wEL ai oves our ter Ta 5 1 03 Ki 1 n O 5 2 SYNC IN we D Fr B7 amp ki 1 come Y G LF comy 33 83002 18 CIA BBOARD _ Zeene 4 0 A H mmm 7 BUFF rie BUFF 29 9 W De COMB 7 LPF 013 come 38 G XTAL BKM B10 x i M we In 162MHz Den T Gb sen Ci As VIDEO CN3009 2 3 08001 CN3006 dr COMPOSITE Luke 10 vioo SIG 4 z a voto Je 51 VSE pi am DIC 1 AUTO WIDE c AUDOL 416 Lf ame 6 ADIN oL bv o VIDEO SpA jene ET Se S P K i or om H 46 soL m2 AUDIO MATRIX SURROUND PROC SP AMP GB sci a GONTI ai CN3008 j sen E gt QSENCE 15 Au 10102 8 LIN Qo ON our TM 08 DF T tn BUFF ENO Lay PRI 27 50 9 78 SPEAKER 1 23003 pu H 9 S R 38 4 N T 5x0 Mn Gm mg 7 RIN rase 01 49 K 7 AUDIO R AMI Q4 Ra 30208 JW G kij J J3004 43 58 S INPUT2 gt H Voies ti 10404 AUDIO 5 Sim SYNC SEP 28 SCL 03012 I 2 BUFF BUFF AMP BUFF HSTATUS 33 013002 24 Y Ceser AD Obi 4 GREEN H POL 18 B BOARD VSTAUS Tas we oam i c
166. w NOETAGENDFTEGTUN I um 16100 s mem 1002 61005 omg 88503483 Fi TURES vant Era sS i PLL 12 288MHz zem mm 4 0 GPU RESET RES RECT db ade A AR 2 pipe RE n Ce 5 A ne II F MODE 01003 9 3 214 81 Ins TURK en FLASH move a 847801 49 ser BE 888 ee Tel i ow bt mm s 7 i ithe s sun Pa P7 LI k 4 9 47 Yo zi e CHIP zane ART GIE EFF Eeu e P GERD D nie Car 1 5 FEN_DET zum L HE FAN DETECT ke HB vn 7 4 noen dame e sv sv na lal 9 m 3 39 qug a sens E ta TI Ka H BUS SWITCH B i m x 1 a H Poot OTOLO OOOO OCOC com T vilae 23 ES VIII a 2 fay z 1 168 22 2 2 5 58384 EB 22 1 168 B CHIP STBY 16 tev 0 1 2 ESL E n E 11 5 gag pie DOERR sch z E 22282522 TE E ee 2228 or Pop_scL 6 Tw D er 8 88 man reg 93 SCL_HS 58 4 t ap ra ae 5 61002 01003 61004 STBY 5V 94 pa 30 Sh Tet STUNT peT 9 vss 59 mm T 081005 st ept opi imo fior 9 m No UE 5 aer T MO 4 Qj H mum mo o EA p
167. x089F 0x08A0 to 0x08BF 0 08 0 to 0x08DF 0x08E0 to 0x0900 to 0x091F 0x0920 to 0x093F 0x0940 to 0x095F 0x0960 to 0x097F 0x0980 to 0x099F 0x09A0 to 0x09BF 0x09C0 to 0x09DF 0x09E0 to 0x09FF 0x0A00 to 0x0A20 to 0x0A40 to 0x0A5F 0x0A60 to Ox0A7F 2 13 LAST MEMORY AREA 0 0 80 to to 0x0ACO to OXOADF OxOAEO to OxOAFF 0x0B00 to OxOB1F 0x0B20 to 0x0B40 to 0x0B5F 0x0B60 to 0x0B7F 0x0B80 to OxOB9F OxOBAO to 0 0 0 to OXOBDF OxOBEO to OxOBFF 0x0C00 to 0x0C20 to 0x0C40 to 0x0C5F 0x0C60 to 0x0C7F 0x0C80 to 0x0C9F to 0 0 0 to OXOCDF 0 0 to 0 0000 to OxOD1F 0x0D20 to 0x0D40 to 0x0D5F 0 0060 to 0x0D7F 0x0D80 to 0x0D9F OxODAO to OxODBF OxODCO to OXODDF OxODEO to OxODFF Area 17 OxOEO0 to OxOE1F OxOE20 to 40 to 0x0E5F OxOE60 to 0x0E7F Area 18 0 0 80 to OxOE9F OxOEAO to OXOEBF OxOECO to OXOEDF OxOEEO to OxOEFF Area 19 OxOFO00 to OxOF1F OxOF20 to 40 to OxOF5F OxOF60 to OxOF7F Area 20 OxOF80 to OxOF9F
168. x16E0 to 0x16FF 0x1700 to 0x171F 0x1720 to 0x173F 0x1740 to 0x175F 0x1760 to 0x177F 0x1780 to 0x179F 0x17A0 to 0x17BF 0 17 0 to 0x17DF 0x17E0 to 0x17FF 0x1800 to 0x181F 0x1820 to 0x183F 0x1840 to 0x185F 0x1860 to 0x187F 0x1880 to 0x189F 0x18A0 to 0x18BF 0x18C0 to 0x18DF 0x18E0 to 0x18FF 0x1900 to 0x191F 0x1920 to 0x193F 0x1940 to 0x195F 0x1960 to 0x197F 0x1980 to 0x199F 0x19A0 to 0x19BF 0 19 0 to 0x19DF 0x19E0 to 0x19FF 0x1A00 to 0x1A1F 0x1A20 to 0x1A3F 0x1A40 to 0x1A5F 0x1A60 to 0x1A7F PFM 32C1 32C1E Area 10 0x1A80 to Ox1A9F Ox1AA0 to 0x1ABF 0 1 to OX1ADF Ox1AE0 to 0x1B00 to Ox1B1F 0x1B20 to 0x1B3F 0x1B40 to 0x1B5F 0x1B60 to 0x1B7F 0x1B80 to 0x1B9F 0 1 to 0x1BBF 0x1BC0 to 0x1BDF Ox1BEO to 0x1BFF 0x1C00 to Ox1C1F 0x1C20 to Ox1C3F 0x1C40 to Ox1C5F 0x1C60 to Ox1C7F 0x1C80 to Ox1C9F 0x1CA0 to Ox1CBF 0 1 0 to Ox1CDF Ox1CEO to 0x1CFF 0x1D00 to Ox1D1F 0x1D20 to 0x1D3F 0x1D40 to 0x1D5F 0x1D60 to 0x1D7F 0x1D80 to 0x1D9F Ox1DA0 to 0x1DBF 0 10 0 to 0x1DDF 0x1DEO to Ox1DFF Ox1E00 to Ox1E1F 0x1E20 to 0x1E3F 0x1E40 to 0x1E5F Ox1E60 to Ox1E7F Area 18 Ox1E80 to Ox1E9F 0 1

SERVICE MANUAL

Contents

Download Pdf Manuals

Related Search

Related Contents