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PFM-42B1/42B1E Service Manual

1. TO P5 11 12 X56 TO 12 TO P9 12 gt TO P12 VEQ gt 1 TO P7 3 3V S gt 2 6 Y TO P11 12 051 04032 lt AM TO P8 s 04036 R4053 XJocyo P12 EN FL4000 p 14005 UIN CH CHIP pice D KU 5 2 cete Za MI EMI kan af SE 28588 3 3 5 5 5 167 j e nj al ES ES E al al 5 al 21 5 5 5 4 L4002 FL4004 2 2uH a 8709328 4 I o 04046 1 91 L 1 ES 25V Z 25V 58 B CHIP FL4002 TI a 1 04009 e y 5 104003 A CXD23000 Ku 8BIT A D 04006 vU I Ent eu FL4001 o
2. STBY5V 5 gt 14 lt PW_RES 5512 10502 5 8 741 244 To P2 V POL gt pum DX c caPTION P9 10209 2 8 TC74LCX244AF TO P2 H_POL gt R636 22 CHIP I E 0503 5 TO Pi3 MODE2 gt AM 1 3 50 28A1213Y 8 REG TO P13 MODE gt FEM 16808 670 323 es 1 2 5V 0 1 STBYSV TC74VHC14F 22 TI 16209 6 8 CHIP 8 19 TC74LCX244AF L BUF 0 1 ent te 14 SOHMITTI R634 C545 B CHIP 7 5V R635 100 2 2 10512 RED 13 12 10 100 g B CHIP S 80842ANNP ED6 5109 CHIP RESET 6543 10508 1 6 0508 6 6 5 vec 1 TOTANHOTAE TC74VHC14F 1654 B CHIP TOTSOBFU CLOCK 2 GND 3 1 100 CHIP P 0528 ih t 0529 KE sekte 7 7 2902418 T 146 TO Pi RGB H gt 5 L0 1 aa e CORRENT SOURCE B CHIP CHIP 2 Jr 18562 S D STATUS 16504 100 C536 RS5C348A ms TT CHIP 0 1 1 TOPE BCE 855 16511 Y 6513 8556 1 0514 0510 47 CHIP ok ess M24C64 WMN A MATTA
3. B 4 13 B 4 13 1 5V 2 D5V FB203 5V OUH Y 10204 1059161 CLOCK GEN gt C258 0 1 B CHIP 6260 B CHIP 1 X200 14 318184 2 47 CHIP 1 03 3 3 2 205 204 OUH OUH 10202 3 4 1 SN74LVC125APW 10218 BUFF C298 ST49C101ACF8 05 2 0 0524 01 CLOCK GEN D CHIP 3 1 B CHIP 9 8 MW 5 10 R223 5 10202 2 4 F2 114 I SN74LVCT25APW HIER Gabi AW Hl 105 reser _ 1 853 CLKIN MEM A2 CHIP AF151 315 15 341 poker MEM A4 115 ucnso MEM AS gt FA 116 woten A6 gt m 19 Jean A7 gt 02 80 man R251 w Jn 107
4. 11 DEZ 12 DEZ 14 R503 1 4 4 9 330 Res GND PH500 dr 8 2 Ces 9 D504 VZ 6 aza 5 R324 R349 ge 3 155355 Vu 10 22 100 Cs R510 3 1 48 174 1 48 10k C 1 4 V IN cr I 4 4 6807 R507 EA 22k R511 50V 5 ON OFF RT2 S R516 R517 22k o 0302 0303 6 vret 1 R302 R306 R311 2581240 2801862 R329 R344 390K 470k 390K 390K 270k 1 28 vow 1 24 e 1 28 7 0UT1 OUT2Gd 18 F Ve Vc BG 10500 PH501 PC128 R321 R339 8345 VS CONTROL 470 270k 470k ed van A wa wa Rado R304 R307 R312 R313 R314 naie D304 PH502 390K 390K 390 1 3 HRUO103 123 1 24 1 2w 172W 1 i T 0309 x R318 0306 55355 2 57 474 22k R512 3 Mi R400 2 1k 4 7 T s T kos 47 CS 2SA1037AK R351 39 1000 E 4 7k 6503 R502 504 R504 c505 506 C509 510 C513 C514 C515 C516 1000 10 1000p 220 1000p47 0 1 0
5. DRC TO P11 3 3V 2 3 R207 chip lt VFLD TO P13 RGB R244 R245 0 TO P5 AD PDWN gt amp ju uu chip Z s s s o s 5 5 sl 5 s 5 CLK B16 VOLK RB201 10054 158 GCLKOUTI 817 VCLKEN p T T T 203 47 28 x R216 4 CHIP 152 GFBK VPEN 3 3V 3 1100 C213 i 3 3V 2 m 159 GREF 21 0 1 i vs 521 B CHIP 2 m AN 144 GBLKSPL ws 0221 HS A22 L200 3 0 1 0 1 151 PENSOG 6506 GCOAST VHS 1 T5 8201 R217 5 B CHIP B CHIP CHIP C21 2 ane AA 160 rigo GHSFOVT VETELI Voz 55 AE 157 Jean 7 AN vvo 2 208 Les w B4 214 10044 w 1 6205 0212 ee 0226 213 Jose 33 v va 22 4 ce 35V 1 preng 39x iB 215 ons AW 1 YS 85 100 216 Jose RB240 W CH erem GROO 223 Jones 10054 K YS MW A5 Vue 3 MN 6801 222 aes 88 R220 R221 R219 nga 2 w Sie EUR od sti MILLAS i ANN Ri PON 6803 133 SHIP chi 5 vn W RB239
6. se Ro ass 2 an SUPPLY e 4 1 CURRENT VOLTAGE ki na d u i gt ODD EVEN F SYNC pa o D FILED INDEX V GND R4 LATCHES 6LSB S R5 6 DECODER gt CURRENT C1 10UT 27 VERTICAL 8 SYNC 2 R1IN R8 DECODER CLOCK MSB R GENERATOR ee c2 RIOUT RCK 31 4 e LSB GO 11 H a 41585 45 m V EC r SN CAPACITOR 2 e RESET 6 CHARGE BURST GATE T20UT SIN dd 8 CURRENT 5 BACK PORCH LATCHES 6198 S CLAMP R2IN R20UT gt gt CURRENT 2 5 DECODER URREN 4 G7 18 G8 19 DECODER CLOCK 20 GENERATOR 4 GCK 32 LSB BO 47 55 AE 52347 101 2 23 24 AD CLAMP CLAMP HD HD VD VSS VS S B4 25 LATCHES 6LSBS TIMING VPOL H POL OUT Vec OUT OUT OUT OUT IN Bs 26 DECODER CURRENT 40 2 cus EA 39 28 NV B8 8 DECODER gt CLOCK a EDGE H V TIME V sme 1 4 MSB B9 GENERATOR 7 83 38 VG amp m P 48 BIAS VOLTAGE CURRENT CELLS lt Y 7 GENE
7. 5V 3 14009 04026 T 2H 28C2412K T 146 CHIP TEMP 5V I AW Y NT sim k ba gt 5 07 4 4 58 14007 25V l 1 8 uPC1862GS 84089 04027 5 SYNC Processor 1 22k 2SA1037AK 1 CHIP Se 25 BUFF ot gt a gt alex 04068 1 5 ox S 2 4 7 25 z es e 3 851 164010 5 6 GHIR JL38 TC74HCO4AF JL39 4 21 12 13 04070 140 04085 080 1 0 001 CH CHIP 1 208 CHIP 0 01 B CHIP 2 5 1 TINT VSSI 1 040 1 0 01 B 3 1 2 IN HDF 64075 000121 747 8280 4 0 6 doy 16v ACCF HOD B CHIP at 04088 0 47 to ES R4096 3 3M CHIP 3 4 AN CKF SGND 104010 4 6 1 5V 04082 TC74HCO4AF lt YUV VIDEO P2 5 INV 25 64086 84098 COUT HS 2 B CHIP 4 7 35V 2 2 ort 3 7 49 8 0 2 5v 3 O ko e 0 3 HSOFE 11000 094037 84139 Dei 44 CHIP 60081 F 25V TC74HC123AF 84134 TSV 25V 2 BS CHIP H POLSE GEN Y AR Bcuip 9 6021 AFCF 04039 016144 R4141 SE 3 SCOF2 svcc I d i L n 0 1 TAE rt 2 e Ein ele e 2 86083
8. B1 RGB SW PULSE GEN 06402 06403 00404 06401 28 2412 2802412 28 1037 03 2802412 BUFF 15V o BUFF CLAMP 1 R6403 L 06405 R6406 R6407 R6436 06401 st 7 4 TK 10 1k 2 7k 12k 540 A 1 108 I 16V 1 108 1 100 167 E 3 RN CP CHIP RN CP KN CP d 2 2 wt 27 86404 6404 2 2 H 2 7k 25 w 88401 NOS T OM 1 aie 06405 R6422 100 WE 2SA1037AK 22 I PE Me 1 108 CUN 1 6 aen 89405 V CLAMP CHIP k 12V REG H Iu eue Ede 06402 1210W 0 108 1710 25 17106 86213 16212 4 7 m CLAMP 5V HN CP HN CP HN CP B CHIP RN CP 16V Om 1 108 2 Tk RN CP Zait L 66407 96413 96426 196427 RTT w w 2 6 CP rs408 1 10 T 1 10w neza LION T 1 25V B CHIP 4 5 uh er 18 KN CP CHIP KN CP AN CP 3 N gt 06101 06103 06102 CHIP R6412 3 06107 06107 06104 06108 0 1 VA 2 4 2 4 CHIP 4 4 29 V TIU 2802412 47 2802412 2502412 2802412 2802412 28C2412K 25 T 1 2 Jk ey 100 06409 AW QUEM 2 BUFF 16V BUFF BUFF AMP BUFF aie 06406 24 0 4 4 Lei 061
9. R292 asv 5 3 1 2 2k FB101 CHIP OUH R291 Q102 9 9 100 2SA1037A 0108 0103 2802412 149 XV POL TO TO P2 S SEP BIAS gt 0 lt H_POL TO P5 TO P5 SYNC SEL gt R106 R290 TO P1 3 SOG gt 150k hem kije NI TO P1 3 5 EEN 105 Zwee MISSILE 10223 lt CLAMP toy 0104 1 E nu SYS VS TO P3 5 1 HIP ap 2802412 mel 188 ij TO ch w 5 LI MEE Ju STATE TIMING S X cur OFF TO P9 R105 Q101 A 2 9 w lt B Y GAIN TO P2 1 2802412 148 STATE pa Z R112 lom 4 5 17 R Y_GAIN TO P2 RN CH BUFF sle CHIP T SC d H POL 4 9 CH CHIP Y_GAIN TO P2 Ka 3 1 SHP TO P9 o Se 18652 HUE TO P9 Xu m 2 3 4 8 COL TO 1 9 103 100 ERA AU 4 DAN202K SM 1 2 3 VOK 0 3 Eel 146 DC TS VIDEO 107 4 18k VS S IN TO Pi gt C100 RN CH BUFF GATESW Mo c Od 0 7 C106 TO P1 C OUT1 gt B CHIF 4 7 Bal os 10 eua 10101 10V B CHIPr 50V 0 1 M52347 Y 4 B CHIP 1 em TO 1 gt gt e H BYNG SEP cH ir 5V 3 B CHIP 0103 1 TO PI R OUT gt
10. R9001 09002 47 16V lt C OUT1 TO P2 75 3 D9007 PROTECT R RN CHIP SC Youn TO gt 4 TO P2 D940 CN6910 gt T 05004 UDZ TE 17 4 7B 44 C9001 d T B 0 1 25V B CHIP 16V E RE gt m 09008 kl 9001 VE 155226 PROTECT 1 w me 155226 927 Roje Ti PROTECT 89002 QUE Rule 18 220 UDZ TE 17 4 7B 11 IN AN CHIP 09003 47 HIE VIDEO 0 1 25V B CHIP 161 lt VIDEO 09010 e 09009 13 620 GND UDZ TE 17 5 6B 4 4 1 R9003 1 n b19 EK 2809 mU D9011 0 1 25V B CHIP Ate aa 00831 09205 Kis UDZ TE 17 5 6B R115 47 CHIP w I R114 47 CHIP A18 0 AM 28004 817 oun 9004 09005 Ugici PROTECT 47k 09005 020210 ul AUDIO L 3 nini 18 020210 117 47 CHIP NUT ANG Bie AUDIO IN D H R116 47x CHIP E 16 AUDIO R 9005 espos 08008 Eu Sc GND SCHIP Ak 020210 sz 5V 6102 das kis Q SENSE mr A ji oah 514 2 R RN CHIP D9107 77 8 4 CONTA gt 188226 10103 2 813 5 gt T 09104 PROTECT 24LC21T 8N B 09101 47 poc 3 ES gt 0 1 25V B CHIP 16V R921 3 28 IN 1 2 312 SDA TEES 09108 22 D9101
11. B 6 6 10200 12071212 1C208 A D CONV SCAN PDP I F 10212 1 2 om IF RO 17 B19 Poel H 14 240 RI 2 18 gt 17 RAGA big 239 16 Ri 215 GREO DREO 248 10213 216 DRE7 238 9 B15 omg H 1 6 G1 223 237 8 gt Bi3 83 81 22 7 B11 RARA 1 6 B1 021 073 6 gt Bo R5 R3 mas 3 N 260 85 90 8 gt B3 R8 R6 ko 8800 DROO 812 2 Bi R9 R7 DRO7 338 poo 5807 3 507 11 1C210 1 2 37 60 8 11 B39 G0 10 61 9 12 837 61 33 4 128 T 10215 135 00 2 835 62 181 GGEO DGEO 297 3 833 GANG 182 GGE7 DGE7 270 4 1831 64 G0 183 24 5 gt 29 G5 G1 184 6 827 G6 G2 89 7 gt B25 67 63 d 8 gt B23 G8 G4 69 65 9 B21 65 104 PLASMA DISPLAY 118 6600 0600 10211 2 2 PANEL UNIT ur DG07 112 19 SYNC 119 gt A17 B1 V SYNC 20 A15 82 80 H X gt jA13 3 81 51 102 9 B4 B2 109 GBEO DBEO 822 a9 5 83 77 GBE7 819 a7 B6 B4 52 18 45 B7 B5 78 292 gt A3 B8 B6 yp 17 at PORT 99 0 AD PDWN 48 32 1 211 2 2 74 06 23 6800 0800 bg s 89 z el po 9 107 80 8 12 SYNC CLK 100 7 7 13 Jan SYNC BLANK 75 24 10210 2 2 ER m I
12. R306 260 130 91 CARBO 390 5 2 R429 216 081 00 RES CHIP 22 5 R307 260 130 91 CARBO 390 5 2 R430 216 073 00 RES CHIP 0 55 8309 216 097 91 RES CHIP 100 5 10W R431 216 081 00 RES CHIP 22 55 R310 216 081 00 RES CHIP 22K 10W R433 208 830 11 RES CHIP 00K 0 5 R311 260 130 91 CARBO 390 2 R434 216 085 00 RES CHIP 33 5 R312 260 130 91 CARBO 390 5 2 R436 216 073 00 RES CHIP 5 R313 216 061 00 RES CHIP 3 3 5 10W R437 216 073 00 RES CHIP 0 5 R314 216 052 00 RES CHIP 1 3 5 10W R438 216 049 11 RES CHIP 5 R315 216 073 00 RES CHIP 10K 5 10W R439 216 073 00 RES CHIP 0 5 R316 216 062 00 RES CHIP 3 6 5 10W R441 214 924 00 METAL 300 1 121 R317 216 121 91 RES CHIP IM 5 10W R442 214 900 00 METAL 30 1 2W R318 216 081 00 RES CHIP 22K 5 10W R443 208 183 11 RES CHIP 0 55 1 8319 216 105 91 RES CHIP 220 5 10W R444 208 798 11 RES CHIP 4 7 0 5 1 R320 216 065 91 RES CHIP 4 7 53 10W R445 216 073 00 RES CHIP 0 53 R321 249 413 11 CARBO 470 5 A R446 216 049 11 RES CHIP 5 R322 216 049 11 RES CHIP IK 5 10W R447 208 805 11 RES CHIP 9 1 0 5 1 R323 216 073 00 RES CHIP 10K 4 10W R448 216 655 11 METAL 5 0 5 1 R324 249 393 11 CARBO 10 4 R449 216 073 00 RES CHIP 0 5 R325 216 057 00 RES CHIP 2 2K 10W R450 216 049 11 RES CHIP 5 R326 216 101 00 RES CHIP 150K 5 1
13. TOR CH TOR CH TOR CH TOR TOR CH TOR CH TOR CH ption TOR CHI TOR CHI OOOOO R JU 9 R R R R R OR OR TOR TOR CHI TOR CHI TOR CHI OR CHI TOR CHIP 47 CHIP 47 CHIP 47 gt 99 09 2 3 mmm gt 99 09 a oe CH CHIP CHIP R CH CO HE E CD oy ET O O O nm p p p p IP IP D D D D p IP p p IP p p D D D D D TOR CHIP 47 TOR CHIP 47 TOR CHIP 47 TOR CHI TOR CHI 10K 10K 3 3K 3 3K 1 1 FU rg rg rg FU FU FU TU FU TU 10K 10K 18K FU Uu rg TU ka 1 rg rg rg 5 5 75 1 10 47K 100 47 10K 82K 1K 330 330 330 150 150 150 100 P 2 2K P 5 6K DD DD DO oo P 1K 1 10W P 2 2K P 8 2K oo ooo o Cor gt mp EA 1 lt to kA o o 2 1 100 2012 1 100 2012 1 10 2012 2012 10W 2012 10 10 10 10 201 10W 20 1 109 2012 10W 20 W 2 i gt gt g
14. 3 28 PFM 42B1 PFM 42B1E 4 Trouble Shooting 4 1 Judging Method When Image Does Not Appear 4 1 452 Self Diagnosis F nction u emt e cr e eO Ceres 4 2 2221 ua eko o went veh Sadie een eid tete oes 4 2 4 2 2 Criteria for Judgment of Abnormality 4 2 5 Semiconductors 5 1 6 Spare Parts 61 Repair een aee ee penes 6 1 6 2 Exploded Views us n u esa aut sed ete rp Eed de 6 2 6 2 Chassis mie ated 6 4 Packing Materials cem er epe petens Ped epe eee 6 6 6 3 Electrical Parts List eate ete s 6 8 6 4 Supplied pier 6 35 7 Block Diagrams EE 7 1 BOG QA EG 7 2 TCU Cam s uras aD Ea X uw 73 BANG CERRO PONE ERE 74 5 6 EE 7 5 BAG Gu ui O qr SR 7 6 r TEE 77 ESSE Ie AAN O E A 7 8 8 Diagrams 8 1 Frame Schematic 8 2 Frame NG aba ba E ERE EEEE Rede ps 8 2 8 2 Schematic Diagrams and Printed Wiring Boards sss 8 3 Schematic Diagrams QA ren AA padre b a e een 8 3 1 13 i istituti teneo eoi HERR 8 7 ER EE 8 8 3 13 ete e oce ipe e
15. Watching the Picture a VGA is a registered trademark of International Business Machines Corporation U S A b VESA is a registered trademark of the Video Electronics Standards Association c Mac Macintosh is a registered trademark of Apple 1 VGA 1 VGA 350 31 5kHz 70Hz Computer Inc 2 640 350 085 2 STD 37 9kHz 85Hz d This item is only available when you use a graphic 3 640x400 85Hz STD 37 9kHz 85Hz accelerator board manufactured by I O DATA 4 640x480 60Hz STD 31 5kHz 60Hz Corporation 5 Mac 13 35 0kHz 67Hz 6 640x480 72Hz STD 37 9kHz 73Hz a 7 640 4800 75 2 VESA STD 37 5kHz 75Hz When inputting an HDTV signal input the tri level 8 640x480 85Hz STD 43 3kHz 85Hz sync signal to the 2nd pin of the INPUTI or INPUT2 9 852x480 60Hz I O DATA 31 7kHz 60Hz D sub 15 pin connector 10 VGA VGA TEXT 31 5kHz 70Hz When inputting a computer signal at the resolution 11 1720x400Q85Hz VESA STD 37 9kHz 85Hz SC ee d uM 12 BUOXGONOSGHZ 2 36 22 ZOOM to 1 in the PIC SIZE menu or the picture 13 800x600 60Hz STD 37 9kHz 60Hz might oscillate 14 1800x600Q72Hz STD 48 1kHz 72Hz 15 1800x600Q75Hz STD 46 9 2 75Hz 16 1800x600Q85Hz STD 53 7 2 85Hz
16. Ref No or Q ty Part No R223 216 011 91 R224 216 017 91 R225 216 017 91 R226 216 057 R230 216 067 R231 216 073 R232 216 073 R233 216 061 R234 216 061 R235 216 049 11 R236 216 049 11 R238 216 295 R239 216 295 R240 216 295 R244 216 295 R245 216 295 R246 216 295 R248 216 295 R249 216 295 R250 216 295 R251 216 295 R252 216 295 R253 216 295 R254 216 295 R255 216 295 R256 216 295 R259 216 073 R262 216 073 R263 216 681 11 R269 216 295 R270 216 295 R271 216 295 R272 216 295 R274 216 295 R275 216 295 R276 216 295 R278 216 295 R281 216 295 R282 216 624 1 R283 216 631 1 R284 216 624 1 R286 216 089 00 R287 216 017 9 R288 216 017 9 R289 216 017 9 R290 216 651 R291 216 025 00 R292 216 057 00 R293 216 017 9 R294 216 673 R295 216 675 R296 216 697 9 R297 216 049 R437 216 037 00 R438 216 037 00 R439 216 037 00 R440 216 029 00 R441 216 029 00 R442 216 029 00 R443 216 025 00 SP cn cn cn XQ XQ cn XQ cn cn cn XQ XQ Des RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES cri CJ C32 CJ C2 CJ CJ CJ C2
17. REMOTE 28 E INDEX No o 2 REMOTE TV Ga REMOTE ONLY SELECT S E T ENTER E N D MENU 28 INDEX No Sets the index number of the monitor When you set the number use the buttons on the monitor For details about the index number see Operating a Specific Monitor With the Remote Commander on page 35 GB 29 REMOTE MODE Selects the Remote Commander mode TV The Sony monitor s or the TV s commander PJ The Sony projector s commander OFF Disables the remote control When you change the Remote Commander mode use the buttons on the monitor You cannot change the Remote Commander mode with the Remote Commander For details see Using Other Remote Commander Models on page 37 GB 30 REMOTE ONLY Select ON to disable the control buttons on the monitor The monitor can only be controlled with the Remote Commander To cancel the REMOTE ONLY mode set REMOTE ONLY to OFF with the Remote Commander or press the MENU button while pressing the D standby switch on the monitor The monitor turns to the standby mode and the REMOTE ONLY mode is cancelled The setting in this item is still retained when the AC power cord is disconnected or when you turn on off the monitor with the Remote Commander STATUS menu This menu is used for displaying the internal status of the monitor 81 s
18. Ca Ca OOOGO ZO UO HU UO co co co 3 CH CH ooooo vn Uu Cen Eet puis o 5 28C 25 25 25 25 25 25 25 25 25 OR 28C OR 28C OR 2SC TOR OR 2SA 2SA TOR 2SA TOR 2SA OR DTC OR 28C OR 2SC OR 28C OR 28C OR 28C OR 28C TOR 25 TOR 25 DTA TOR 25 OR 2SC OR 2SC OR DTC OR DTC OR DTA OR DTC TOR 25 R 2SA 250 250 250 250 DTA 28C 28C 28C 28C TOR 25 OR DTC TOR 25 TOR 2SC DTA OR DTC TOR 2SA OR DTC TOR 2SC OR 2SA TOR 2SC TOR 2SC OR 2SA OR 2SA OR 2SA 623 1516 037AK T146 R 623 1516 623 1516 623 1516 623 1516 162 623 1516 162 162 623 1516 623 1516 623 1516 162 162 162 037 146 14 623 1516 623 1516 623 1516 623 1516 623 1516 623 1516 037AK T146 R 62 6 44EKA T146 62 6 623 1516 623 1516 4EKA T146 4EK 62 6 62 6 623 1516 623 1516 623 1516 623 1516 14EKA T146 623 1516 623 1516 623 1516 623 1516 162 14 162 G 623 1516 I4EKA T146 14 162 0 44 623 1516 037AK T146 R 623 1516 623 1516 162 162
19. to audio input Audio amplifier For the 42 this be used when the BKM B10 video input adaptor not supplied is installed in the monitor 13 8 L LAZv Nad Using On screen Menus Using On screen Menus Operating Through Menus Menu operating buttons Use the buttons on the monitor or the Remote Commander for menu operations Remote Commander Control button section MENU SELECT MENU E O o ENTER The buttons on the control button section are used for purposes of explanation in this operating instructions The SELECT st button on the Remote Commander has the same functions as the A V buttons on the control button section 4 Press A V to adjust or select the setting and press ENTER to set The setting is registered and the menu returns to the previous menu To return to the normal screen press the MENU button repeatedly until the menu disappears Menu Guide appears next to an item when its function is not available The availability depends on the types of input signal PIC CONTROL menu This menu is used for adjusting the picture Configuration of the menu To select the language used in the menu see page 30 GB 1 Press MENU The main menu appears on the monitor screen
20. C TCTW126FU TE12 CONNECTOR D SUB INP CONNECTOR D SUB INP JACK INPUT1 AUDI JACK INPUT2 AUDI JACK AUDIO OUT SOCKET CONNECTOR CONDUCTOR CHIP INDUCTOR 2 2UH MICRO INDUCTOR 1 COIL CHOKE 150UH COIL CHOKE 150UH MICRO INDUCTOR 47 SMD 1 NDUCTOR CTOR LEAD LES NDUCTOR UCTOR 10 0UH Ua TOR 10 009 TOR 100 009 UH CJ C2 C2 CJ CJ c TOR 100 TOR 10 TOR 10 0UH INDUCTOR 10 10 00H TOR 100 0UH TOR 100 0UH CJ UU CJ DUCTOR 100 0UH DUCTOR 10 0UH DUCTOR 10 0U DUC CRO TOR 10 0UH DUCTOR 2 UCTOR 2 UCTOR 2 UCTOR 2 UCTOR O o CJ CJ CJ C2 tu 42 lt 2 TOR CHIP 2 TOR CHIP 2 CRO INDUCTOR HIP INDUCTOR 1 HIP INDUCTOR O G HIP INDUCTO IP INDUCTO IP INDUCTO HIP INDUCTO HIP INDUCTO D 9 50 50 50 en BO r gt r gt 0 TOR SMALL TYPE 0 1UH R R 15P UT1 IN 15P UT2 IN O IN O IN 9P REMOTE 2012 001 UH 5 1 0008 UH 2UH 6 15 B BOARD Ref No or Q ty Part No SP 4 4 01 01 01 01 01 02 02 05 05 05 05 07 07 07 0 tO KO KO KO O KO KO KO tO KO KO KO tO KO KO OO tO KO
21. dd DT22 4B TT11 DT22 4B TT11 DT22 4B TT11 DT22 4B TT11 BA7657F E2 L026CPS E05 L026CPS E05 BA10358F TC4W66F TC4W66F TC74HC123AF SC7S00F RO S S S S S co co co co co co co IS IS INDUCTOR STOR 2SC STOR 2SC STOR 2SC STOR 2SC STOR 2SC STOR 2SC STOR 2SC STOR 28C STOR 2SC STOR 2SC STOR 25 STOR 25 STOR 25 STOR 25 STOR DTC STOR DTC STOR 25 STOR 25 STOR 25 STOR 2SA STOR 2SA STOR 2SC STOR 2SC STOR 2SC STOR 2SA STOR 2SA STOR 2SC STOR 2SC STOR 2SC STOR 2SA STOR 2SA STOR 2SA STOR 2SA STOR 25 STOR 25 STOR 2SC STOR 2SC TOR CHIP TOR CHIP 5 6K TE12R TE12R 1000H 623 L 623 L 623 L 623 L 623 L 623 L 623 L 623 L 623 L 623 L 623 L 623 L 623 L 623 L 44 44 623 L 623 L 623 L 373 623 L 623 L 623 L 37A 373 623 L 623 L 623 L 373 373 373 37A 623 L 623 L 623 L 623 L 9 5 5 5 5 5 2 5 5 3 5 5 5 3 5 9 5 5 5 9 5 5 5 d s d 9 L6 L6 L6 L6 L6 L6 L6 L6 L6 L6 L6 L6 L6 L6 L6 L6 L6 L6 L6 L6 ECTOR BOARD TO BOARD 5 5 5 5 OK 1 100 2012 OW 2012 Bl BOARD Ref No or Q ty Part No R6103 216 649 R6104 216 667 R6105 216 667 R6106 216 667 R6107
22. 6216 12 1 ne EPC1LC20 42B1 3 3V TO P5 veko gt 10209 4 8 10209 5 8 TO P1 2 5 TC74LCX244AF 0741 0 244 DMP_CLK BUFF 504 BUFF DMP CLK_ 6 Toe 5 0 44 3 DMP TX z 331 080 8 08008 ra AN TO P5 ANG 080 8 91 m 050 6 s AN pa av 02 5 0282 0281 C270 6267 6266 0265 C269 2 AW 050 3 3V 2 2 5V 0 1 0 1 0 1 0 1 0 1 0 1 0 1 c 25 25V 25V 25V 25V 25V B CHIP 5 RB218 B CHIP 2254 C268 5 5 2 s RB219 096 4734 w 5 DHS 5 E E 1 DEN 2 w 9 W 050 RES DRE w r2 5V TO P5 DRES yw DRE4 i MW Wir DRES M DRE6 x W 90090009000000900C000 0 O W DGEO E Gus Wt 2 BEP RB213 za 4744 5 DGE1 WC z 2 t DGE2 MW gt 06 w DGE4 w 0312 DGES MA 0 1 B CHIP DGE6 TO P1 5 Ww DMP_RX W TO P5 See DBEO wo DPLD_CS gt 88215777 4744 nau VMUTE DBE1 iwy 10207 3 8 DBE2 PW164 20W SCAN CONVERTER 287 1013 DCLK DBE3 w Wert 289 1015 DvS DBE4 M 263 DHS RB216 ec GND GND I 343 VCCINT T 264 3616 DEN 1 50 144 3 PDP INTERFACE VECINT 290 3016 RB230 231 85 DREO 47 4 Ecl 240 26 DRE1 DBES 9 D DRE2 0 6 L Au AB26 DRE3 DBE7 248 WM 238 A424 DRE4 vrt 297 AA23 DRE5 274 26 DRE6 273 30
23. TO B BOARD CN112 TO LOGIC BLOCK CN4 TO B BOARD CN110 TO B BOARD CN109 TO Y SUS BLOCK CN41 TO Y SUS BLOCK 5 CN42 TO PLASMA DISPLAY CN12 CN9002 15P RED ELCO STBY STBY5V STBY5V 5VD 5VD DGND DGND 6 2V 6 2V GND GND 13 5V 13 5V 12V 12V CN9001 20P RX r VSAGO GND VXYGO GND Viss GND GND VEK GND VAK GND VSK GND VXK GND GND VYK GND CN9003 8P RED ELCO VS SENCE GND VA SENCE GND THERM 1 GND AUDIO S AUDIO CN9014 9P ELCO 5V P TEMP2 GND 5V P GND 5V A TEMP NC GND CN9011 10P VH f vs vs GND VA GND GND GND VE GND vec CN9012 4P VH GND VSC VY VEY CN9013 SDN 35 CN9008 15P WHT 5 MICRO STBY STBY5V STBY5V 5VD 5VD DGND DGND 6 2V 6 2V GND GND 13 5V 13 5V 12V 12V CN9007 20P RX VSAGO GND VXYGO GND Viss GND VIAA GND VEK GND VAK GND VSK GND VXK GND VOK GND GND CN9009 7P WHT S MICRO VS SENCE GND VA SENCE GND THERM 1 GND 26V STBY 5V THERMO GND STBY 5V THERMO GND STBY 5V THERMO GND CN9004 10P WHT VH VS vs GND VA GND GND GND VE GND vec CN9005 4P BLACK VH GND vse VEY CN9006 4P WHT VH TO APS 132 M BOARD CN7 TO DC DC gt BLOCK CN39
24. 16 PIXEL ADJUST Adjusts the dot phase and the total number of horizontal pixels when you see noise on the edges of the characters and the vertical lines For details see Adjusting the Pixels on page 27 GB CONFIG menu This menu is used for adjusting the signal or selecting the language This menu consists of two pages CONFIG 1 2 CONFIG 2 2 To toggle between pages press the A V buttons repeatedly until the other page appears 17 NGONE IG 172 DISPLAY ON 1 VGA OFF CLOSED CAPTION OFF COLOR SYSTEM AUTO 2 SCREEN FILL CENTER 21 POWER CONTROL SCREEN SAVER 23 SELECT S E T NER EN D MENU b CONFIG 2 2 TIME SET 2 LANGUAGE SELECT S E T ENTER E N D MENU 17 DISPLAY Select ON to display the input signal information for about five seconds at the top of the monitor screen when the power is turned on or when switching the input signal 15 3192 182 0144 6 1 Using On screen Menus W VGA elect ON to input the W VGA 852x480 signal hen you set this item to ON the VGA input signal determined to be 852 x 480 Otherwise the VGA input signal is determined to be 640 x 480 9 CLOSED CAPTION Displays closed captions For details see Displaying closed captions on page 19 GB 20 COLOR SYSTEM Selects the
25. B SS9704 T J TO APS 132 M BOARD CN8 TO APS 132 M BOARD CN6 TO S ICENTER TOP CN1501 TO S DD CON CN1501 TO S RIGHT CENTER CN1501 TO DC DC gt BLOCK CN32 TO DC DC BLOCK CN34 TO DC DC gt BLOCK CN31 8 30 PFM42B1 PFM 42B1E H 2 TO F BOARD TO OPTION BOARD C100 100p A AN C101 VDR100 NV270D03 A C102 2200p 250V C103 2200 250V VDR103 270003 0171 4700 250V C170 4700 250V 8 4 8 4 8 4 8 4 8 4 8 4 8 4 8 4 8 4 8 4 8 4 8 4 PFM42B1 PFM 42B1E A APS 132 1 4 APS 132M 1 4 T101 R190 22 0106 1 44 2SJ334 vec SW 1 102 11 REG Q105 FS7KM 16A 5V MAIN SWITCHING D108 HZU2282 VDR101 NV470D10 piao 150 RTO 0107 HZU7 582 ISIH 9 GND 57 0112 188355 4 Ictot R120 C121 c122 5 17 C124 128 8129 C156 157 470 330p 0 1 5V CONTROLL 1000 330 6 2k 82 56 Haw 85V 85V THP100 0104 28 1037 THERMO DET R119 4 7k Q150 T102 288624 18V MAIN SWITCHING Q152 FS10KM 10 13V MAIN SWITCHING VDR102 TRI NV470D10 D104 20JL2C41A R160 4 7 PFC RECT 0
26. D2 5V 03 2 54 13 3V 2 GND 002 5 20 120 1 en wona 25 251 4 GND vonz 5 56 14 SCANMODE wans a 59 L NC vpp2 5 82 1 GND vonz 59 L A ND 70 EL 4 1 GND 002 5 HH A GND vonz s 72 16201 A GND voz 96 9181 ND wonz 5 JL PL 4 1 GND 002 5 F123 91 A GND voo2 s 126 1624 GND 147131 4 GND 5 150 4 1 GND 176 Meel A GND voo2 s 203 19 1 ND 5 206 Mtl 4 GND 5 227 YS 1 GND vonz 5230 etl ND wona 234 4 1 eno 2 5 F 267 4 GND vbp2 s 278 Mil z 1 GND 5 281 GND vonz 5 284 18001 1 GND vop2 5 28118071 eno 002 5 293 10191 4 GND vonz 294 180201 4 GND 0002 5 99 11025 1 1 GND 002 5 321 GND vonz 340 eno 2 5 344 GND wona 5 345 19 A 1 GND wona s 352 AF26 GND VDD3 3 E GND VDD3 3 ap vesi 18 81 GND VDD3 3 GND VDD3 3 GND VDD3 3 GND VDD3 3 GND VDD3 3 174 malo Era ma GND VDD3 3 zs wn GND VDD3 3 e 248 Dem GND 008 3 GND vona 3 289 021 GND VDD3 3 ap d 280 ap w af 285 GND VDD3 3 GND VDD3 3 GND VDD3 3 GND VDD3 3 GND VDD3 3 1 207 5 5 PW164 20W SCAN CONVERTER B 4 13 MEMORY CONTROL VCC AND GND PORT 0 0257 1 B CHIP C256 0 1 B CHIP 0 0 0 0
27. o 9 18 7 gt gt 2 w 3 55 5 5 gt gt amp jug e 2 iir E ele gt gt gt gt ale ziz 2 8 2 8 2 gt gt o lt I 5 r u 1 gt gt 6 0o 2202090 gt gt lt o lt eoo N 2 2 2 5 5 8 8 6 5 16 ys gt veL noone CN9003 CN9009 nanos say Vac ELCO 8P 7P 5 VSA80 GRY RED RED WHT r BLK GND ELCO S MICRO yeu ET VE GND GE EL GND SC TEL CN9011 801 any JA son GND GND VEK vetj CN9007 Ys 20 AND ve V D Ver GND ET ver VAK end m ve vss SON VIE BL GND GND Vor A Voc GND end gp CN9013 CN9001 CN9004 cN9005 cN9006 GE Di EVA SDN 20 4P Sal RX GND GND a a gt ola 4 ziZizix z e e gt 2 z 8 Z z 55552 51 26 25125 2 o 4 4 s s s sad 45444 z a a i i i dela o i i s i 552685 RED RED BLK GRY BLK BLK RED BLK GRY RED REVERSE REVERSE ag BLK BLK Kus Erg RED RED
28. CN9013 1 LVA 3 CN9007 CN9006 12V 12V CN9009 CN8 VS SENCE 70V SENCE 180V SENCE APS 132M CN7 STBY 5V STBY 5V 12V 1 AUDIO AUDIO X SUS CN39 CN31 1 LVA VCC D CN30 1 RED VCC CN8 RVA BLU GC VCC LOGIC PLASMA DISPLAY PANEL UNIT VA RED i CN29 RVA 7 7 7 7 VCC APS 132 M F APS 132 M F 17 F7001 D101 LF101 103 D104 105 LINE gt Nu 2 FILTER Con CN7 B SWITCHING SV CONTROL STBY sv 23 e D100 ant 100 102 iB 10102 36 B REG 580 45 HP100 25 l 18 5V VOLTA
29. XQ XQ cn cn cn C XQ cn De CA CA CA CA CA CA CA CA CA CA CA scri PAC PAC PAC PAC PAC PAC PAC PAC PAC PAC PAC CAPAC CA CA ption TOR TOR TOR TOR TOR LECT LECT LECT LECT Er 23 23 TOR TOR TOR TOR TOR LECT LECT LECT LECT ti 21 DICH TOR TOR TOR TOR TOR LECT LECT LECT TOR TOR TOR TOR TOR LECT LECT LECT LECT bi pi p 23 o TOR TOR TOR TOR TOR ti 23 DICH E EJ Q Hi LECT TOR CERAMIC TOR ELECT TOR ELECT TOR ELECT TOR ELECT TOR CERAI TOR ELECT TOR ELECT TOR CERAI TOR CERAI TOR
30. GND vs vs vs VA GND GND GND VRS GND GND VRR GND CN5 VH APS 132 NEUTRAL LIVE 70V_SEN 180V_SEN THERMO1 AUDI 0 B EF VH STBY STBY 5V oH STBY 5V 5P S MICRO 5VD 5VD DGND DGND 6 2 6 2 gt GND 10 GND 1 18 5V 12 18 5V 13 12V 14 12V AUDIO B EJ o e n e e o a gt gt z 55 SEEBBHE 5 s 9 z 9 2 it 10 um m FAN DRV 1 CN6101 CN6102 FANI 2 30P 30P GND 3 NC NC M FAN DRV 4 NC NC 81 FAN2 5 PR R PR R M Guile GND 6 GND GND 82 ELCO FAN DRV 7 Y G Y G A3 FANS 8 GND GND 83 GND 9 PB B PB B M FAN DRV 10 GND GND B4 FAN4 11 506 506 45 GND 12 GND GND 85 FAN DRV 18 COL COL A6 FANS 14 GND GND 86 GND 15 MATRIX MATRIX D GND GND B7 5V 1 HD_YPBPR HD_YPBPR
31. MEM A9 03 3 3 2 892 El 106 IRRCVRI A10 1 53 A0 MEM Aii El 54 tort At MEM_A12 27 ronn A2 B2 28 15 A14 P 83 A4 _ REG 2 29 as 16 1 we 2 PORT A6 17 3 rosa MEM_A18 AS 9 uc MEM A19 16205 810136 wc MEM 00 M24C04 MN6T 10 10 NC MEM 01 MEMORY 211189 wc MEM 02 911163 wc MEM 03 811137 uc MEM 04 ne MEM 05 212190 wc MEM 06 38 6 MEM 07 gt 28186 wc 08 gt 8160 wc MEM 09 87133 MEM 010 D3 3V 3 3V 2 no MEM 011 B8134 wc MEM 012 29187 _ wc MEM 013 ae 09161 MEM 014 CHIP 81 8 015 D3 3V Revs aw B ISE Ro p 3 3 2 bs 81 WR 202 0229 E4 108 Niscanwoo BHEN OUH d AEA 304 Arer 10202 174 3 3051 253 PTsTEN ROMWE SN74LVC125APW 14 BE AF2 328 PTSTOUT RAMOE 3 CHIP RAMWE 08 0 10202 4 4 ei SN74LVC125APW e 13 5 2 11 08_3 7 EXTINT EXTINTI EXTINT2 1 MNI 10207 2 5 PW164 20W SCAN CONVERTER MBM 29406 MEMORY 202 U2 15 209 vi 1 M4 210 v2 A2 M3 217 W A3 M2 211 v3 A4 212 V4 5 A10 219 w3 A6 A9 20 181 A7 A8 0013 233 A8 005 242 Mz 9 NC D012 235 AA3 A10 WE 004 249 1 11 RESET ver 249 AB3 A12 NC 0011 275 s01 A13 NG 003
32. PH102 PFM42B1 PFM 42B1E Rv201 lig LNS SENSE 2NC SENSE R217 SES sko GEE C215 0156 0114 X C210 De C26 2 261 R226 be 2 cs C212 0200 0207 203 nd C206 16203 C205 0201 R126 Yo ws Ri32 C202 D202 1 251 JON OUTPUT 5V LINE TOTAL 28W STBY 5V 0 3A 19V LOA 5VD 1 8A 6 1 0A K SV 5A m 1_ GND CNG 3 vs 1253 150 170 1 7 4 vs 50 70 1 5 C253 L252 C256 13 5V 1 0 0252 10253 0251 RV250 PHIOS 7 KS SECONDARY PRIMARY R151 Mr pHing 0152 053 R300 R301 NN Ww VDR103 APS 132 M 700 702 701 C700 VDR100 18 LF101 C101 0100 8 35 5 132 M 1 675 974 12 APS 132 M 500 PH502 501 E H d T C500 6716 cn C518 C501 SONY MADE IN JAPAN INPUT AC100 240V 7 4 3 4 50 60Hz AC OUT MAX 0 5A CAUTION FOR CONTINUED PROTECTION AGAINST RISK OF FIRE REPLACE ONLY WITH SAME TYPE AND RATING OF FUSE REFER REPLACEMENT TO QUALIFIED L SERVICE PERSONNEL AC100 240 8 35 F101 250V 15A Ac oUT 0 5A MAX M BOARD APS 132 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 50 51 52 53 54 55 D200 D201 D202 D203 D205 D206 D250 D251 D252 D253 D254 D255
33. a 5 4 e PLU R9506 1 249 417 11 s RESISTOR CARBON 1K 1 4W SMALL S 0 R9507 249 411 11 s RESISTOR CARBO 1 4W SMALL R9508 249 417 s RESISTOR CARBO 1 4W SMALL 12 564 241 ECTOR B4P VH R9510 1 249 437 11 s RESISTOR CARBON 47K 1 4W SMALL UI EE R9511 1 249 437 11 s RESISTOR CARBON 47K 1 4W SMALL CN9015 1 506 474 11 s PIN CONNECTOR R9512 241 843 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 47K 1 4W SMALL R9515 249 437 11 s RESISTOR CARBON 47K 1 4W SMALL R9516 241 843 11 s RESISTOR CARBON SMALL 3 3 R9517 249 411 11 s RES CARBON 330 1 4W SMALL R9518 249 437 11 s RESISTOR CARBON 47K 1 4W SMALL R9519 249 437 11 s RESISTOR CARBON 47K 1 4W SMALL R9520 241 843 11 s RESISTOR CARBON SMALL 3 3K R9521 249 411 11 s RES CARBON 330 1 4W SMALL PFM 42B1 PFM 42B1E 6 27 A 1 468 447 11 SWITCHING REGULATOR YA BOARD APS 132 M BOARD Ref No or Q ty Part No SP Description HEAT SINK 55 1 1373 841 o MOUNTED CIRCUIT BOARD YA 2 434 993 21 SCREW 3X6 RS TIGHT SPRING WASHER C8501 1 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C8502 1 125 838 11 s CAPACITOR CERAMIC 2 2MF 6 3V lt DIODE gt CN8501 1 506 486 11 s PIN CONNECTOR 0101 A8 719 073 32 DIODE D25XB60 D102 8 719 073 56 TRIAC BT139X 600 D8502 8 719 158 15 s DIODE 5 65 D104 8 719 073 58 DIODE 20JL2C41A D8503 8 719 053 43 s LE
34. NC NC NC BA7657F 1 6905 1 6907 5 CXA1211M IC1000 IC1001 1 1005 Vcc IN 2 CONT2 OUT2 CONT1 0011 gt a 17395 1 1030 HUE amp COLOR PROCESS 7 Y GAMMA CONTROL 7 AUTOMATIC CUTOFF CONTROL PROCESS CXA1860Q 1C4001 3 z 8 m z z gt gt a gt gt gt gt o 09 03 09 2 S2 95 18 Y AMP amp INPUT SEC 06 8 CLAMP 18 v OUT SWITCH Voc ID amp SCP 14 RESET Y_MAT SELECTOR 13 CSW_OUT GND 09 SWITCH C_IN c s O 11 LINE SWITCH Ie sec 81 9 c our SWITCH CLAMP gt BY SEC C CLP amp SECAM RY MAT BY MAT C BIAS 8 20 C BY C 8 e 8 20 CXA2119M 1C1035 f9 SIG3 IN N SEL2 f SIG2 IN Cri IN YA IN Cb1 IN CXD2300Q IC 4003 1 9 INPUT SEL SIG1 IN vec SIG OUT YM 2
35. cn o XQ cn XQ Description CONDUCTOR CHIP 2012 RESISTOR CHIP 12K 1 10W 2012 RESISTOR CHIP 12K 1 10W 2012 RESISTOR CHIP 100K 1 10W 2012 RESISTOR CHIP 100K 1 10W 2012 RESISTOR CHIP 47K 1 10W 2012 RESISTOR CHIP 15K 1 10W 2012 RESISTOR CHIP 6 8K 1 10W 2012 RESISTOR CHIP 22K 1 10W 2012 RESISTOR CHIP 6 8K 1 10W 2012 RESISTOR CHIP 12K 1 10W 2012 RESISTOR CHIP 560 1 10W 2012 RESISTOR CHIP 680 1 10W 2012 RESISTOR CHIP 8 2K 1 10W 2012 RESISTOR CHIP 1K 1 10W 2012 RESISTOR CHIP 10 10W 2012 RESISTOR CHIP 56K 1 10W 2012 RESISTOR CHIP 100 1 10W 2012 RESISTOR CHIP 100 1 10W 2012 RESISTOR CHIP 10 10W 2012 RESISTOR CHIP 56K 1 10W 2012 RESISTOR CHIP 22K 1 10W 2012 RESISTOR CHIP 2 2K 1 10W 2012 RESISTOR CHIP 1K 1 10W 2012 RESISTOR CHIP 1K 1 10W 2012 RESISTOR CHIP 15K 1 10W 2012 RESISTOR CHIP 1K 1 10W 2012 RESISTOR CHIP 3 3K 1 10W 2012 RESISTOR CHIP 470 1 10W 2012 RESISTOR CHIP 22K 1 10W 2012 RESISTOR CHIP 22K 1 10W 2012 RESISTOR CHIP 1M 1 10W 2012 RESISTOR CHIP 1M 1 10W 2012 RESISTOR CHIP 1M 1 10W 2012 CONDUCTOR CHIP 2012 CONDUCTOR CHIP 2012 CONDUCTOR CHIP 2012 RESISTOR CHIP 10K 1 10W 2012 RESISTOR CHIP 10K 1 10W 2012 RESISTOR CHIP 1 10W 2012 RESISTOR CHIP 1 10W 2012 RESISTOR CHIP 1 10W 2012 RESISTOR CHIP 10K 1 10W 2012 RESISTOR
36. ooo co 1 020 021 022 023 024 025 26 x 027 028 029 5 030 031 032 033 034 035 036 037 038 039 040 041 x 042 043 5 044 045 046 047 048 049 050 z 051 052 053 2 055 5 056 x 057 058 059 060 061 T 6 10 rt N 07 64 07 07 64 26 26 26 64 64 26 64 63 26 64 26 64 64 26 64 64 26 26 64 07 64 26 26 64 26 64 64 09 28 64 64 64 64 26 28 64 0 181 4 181 4 181 4 396 396 396 4 4 396 4 21 9 401 4 3 4 4 3 4 4 398 396 4 781 4 781 4 405 405 4 396 4 4 982 416 4 4 4 4 401 416 346 XQ cn cn XQ cn cn XQ XQ cn cn cn XQ cn Q Descri CAPAC CAPACIT CAPAC CAPACIT CAPAC CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPAC CAPACIT CAPAC CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAP
37. 9501 2 2 A6 AUDIO L AUDIO L A7 BKM B10 for AEP AUDIO R AUDIO R J9103 Q6904 Q6907 J9101 INPUT1 AUDIO J9102 INPUT2 AUDIO TIT MUTE 06905 MUTE 06906 B 2 AUDIO CONTROL 7 2 AUDIO OUT CN6101 2 2 B BOARD 2 6 CN6102 1 3 PFM 42B1 PFM 42B1E B 3 6 B 3 6 30 COMB vic DECODER B 3 6 FL1004 CN115 3D COMB Y C DECODER CHROMA DECODER SECAM DECODER gt 101012 2 4 5 6 SDA 4 5 6 SCL 101012 101007 2 4 0646 VE 104004 DIGITAL COMB CHROMA DECODER 104006 D A CONV 94 73 m i 103 EXTYO 81 10 ROG RY 76 2 6004 83 92 211 BY 76 m BO 46 28 SCL XFSC2 104001 104003 81 FSC4 SW CLAMP A D CONV m 3 3V S CPI 1 6 FL4003 04018 4020 BUFF X4004 04024 19 14 302MHz 607 0 41 1 DAD IN T 7 FL4006 va ke 1 x27 X4001 14 3MHz 04003 46 te IA 6 VIDSEL2 24 SECJ 25 SECI 9V A Comp REG 7 83 FSC SECAM
38. 16151 021141 2 W 9804 128 e 10054 m A T 3 815 mo 8805 135 Jeer m w vvs A15 RI gt M mE 181 Jeer AN viva t CB5 016 5 0200 5 Au 6807 182 88238 AW YS De 2 2 pix 086 016 ov cool gt 0054 183 Joe 1004 AN Vue B CHIP 0 017 c227 184 087 AN 316 ia ESI 71022 18209 cas 2 m cm 100 189 CRO Na 2 vuo I l 0313 W 0209 Mi GGE1 CR1 812 Vli CR2 A12 4 B me w GGE2 26 100 4 AW 217 3 813 GGE3 102 AW WwW GBE2 G e GGE4 109 lc ond Na 3 am n 2 NW CRS 014 R283 Cp L w 2685 ZL Jess RB236 vus 450 tov 5 GGEG 52 Le 1002 wy 014 RN CP 02084 Ww CR7 814 0314 2 w al 18 ooo m JL 68 2 88208 110 ep me 3 10054 Ee 1207 4 5 coon 02074 me 0 428 88207 190 foroo 03 37 PW164 20W 0 1 T 16200 3 3v 2 CONVERTER 107 B CHIP 5 09884 MA 3800 191 SCAN Bi 4 AD CONVERTER MW 6601 192 eur XVS JUD TO P13 v i gt 3 MC 6602 197 uos 8 400 TO P13 0201 w 6603 198 Ja MV SW TO P5 0204 0 1 m 6604 199 faros 55 HS P1 2 5 B CHIP C315 9 A mE 200 Jonge w 6606 207 Napor 1 0 CHIP e 6607 1472 EEN L3 RB206 TO P4 PW SDA gt 7 can 10054 103
39. 52 GU i 01183 5 sov A E 25V 1 01203 2 0 1 25V B CHIP B CHIP o qu SE nad T B CHIP o on 25V 25V e 2 3 CURE 705 e 0 1 A Y ram Y CB CR DRC 110075101184 I 1 1 T t t Y R Y B Y 1 o 2 ol el o of wl 2 2 TO P10 chip J el o 2 S S 5 5 5 5 5 5 SI sl 2 5 lt S S 5 2 zj 5 2 g 3 2 3 3 2 2 S 3 S 9 S I o 3 3V 4 ED E MM MM ae OUOO OUO OO OU ODDO OUO UA E OU 0000 OOOO 8 81 lt gt gt gt gt gt gt gt lt lt 0 0 gt gt lt lt lt KK lt 0 1 Y lt lt OO co O 2 O O O O O O O O lt lt 0 G O O O O O o E gt O 25 1251 II lt X C C O G X X X Q III Fb Z Q CO CQ O m O Oo gt gt O O O o B CHIP 10k gt 25 5050319022 o zl a EE moos 01058 CHIP el 5 Ss o AV 6 7 1 CT Weg i DTC114EKA S pvsrT EH CAH M i X56 bei 5 DLINIT 01 07 SI 5 5 ST redirect DIYD6 hi k s non CHIP 54 LS 4 DIYD5 28 TO P5 a E H DIYD4 E o lt 01178 R1250 0 CHIP DIYD3 Ge D i We
40. AUDIO H H20A AUDTO 2 2uH FCH20A10 AUDIO TO T BOARD AUDIO 8 4 AUDIO CN9009 474 10254 AUDIO 48 1 282 8285 AUDIO REG 22k F D F D 474 0251 12 FCH30A06 18 5V RECT 10253 LG 3 10251 11 E 6 2V REG 8 0 0252 ons FCH30A04 6 2V RECT 60V SENSE NC 160V SENSE TO T BOARD Ze RA Ger Ze E GND INC 22009 C252 c253 C254 C256 0259 C260 C261 6262 262 THERMO1 1500 1500 1500 1000 155855 470 330 10V 25 25V 35 10v 25V 25 35 NC NC D260 0262 0263 188355 188355 188355 72 za a 4 za R260 C258 10k 0 033 10250 TA76431AS R261 R251 SHUNT REG dk 8 0 0253 0254 188855 155355 2255 0250 8 4 28 1037 SW 8 4 250012 10252 TA76431AS R256 3 5V ADJ SHUNT REG D257 10k 188355 RV250 2 2k R255 0257 18k oo 22 22 Wad TO PLASMA DISPLAY 0400 PANEL 20JL2C41A VS RECT 474 0401 DE 20JL2C41A ace Rast nago sw sw SW wa R454 R455 R457 0405 100k 100 100K wa 2SK1590 F D FA 0406 R459 10419 RAGO R462 R467 wa 40V pazi vs FORCED 6 Bie 1200 18k lek C418 net ngas Ve FORCED FO 200 SW sw 5 8 0 72 a 4 a 4 5 132 0 4 SWITCHING REGULATOR 8 32 8 32 PFM42B1 PFM 42B1E H APS 132 M 3 4 APS 132 M 3 4
41. CH CH TOR C TOR C TOR CH TOR CH T TOR C TOR C I I Jg rg HU rg rg Jg Jg rg rg U HU rg rg g PU rg rg Fg tg PU rg rg I Jg tg FU FO HIP HIP HIP HIP CHIP 1M 1 10W 2012 1M 1 10W 2012 47 1 108 2012 47 1 108 2012 47 1 108 2012 50 50 50 OK OK ooo gt 2 2 2 0 0 8K 5 6K OK OK 20 20 10W 2012 01 01 OK 2K K 1 10 47 1 10 20 1 10 20 1 20 1 47 1 10 ee Me ask et o 560 OK 8K 1 10W 2012 27 1 108 2012 820 1 10W 2012 2K 1 100 2012 6 8K 1 10W 2012 OK 1 10W OK 1 10W 20 mi 00 4 7K 1 10W 2012 22 1 10W 2012 1K 1 108 2012 15K 1 10 2012 12K 1 100 2012 Bl BOARD Ref No or Q ty Part No R6428 R6429 R6431 R6432 R6433 R6434 R6435 R6436 Ref No 2 2 2 2 2 2 2 2 6 685 6 699 6 661 6 655 6 659 6 659 6 675 6 671 or Q ty Part No 7001 A C7002 A CN7001 F7001 A 17001 A 17002 A R7000 A A VDR7001 N 680 712 131 955 131 955 580 843 516 365 433 843 433 843 220 825 500 051 801 073 3 SP XQ Description RES RES RES RES RES RES S RES SP
42. E R205 10 CHIP nB20577 0 1 B CHIP 104 1 TO P4 PW SCL gt mU T seria 5 Mo e GBEO 118 Joers BUFF gt h GBE1 111 2 6604 E me L wo 112 Lane gt w 119 Jeng 5 MA m 120 aco CLAMP TO P2 I 2 8 MW GBE5 99 5 2 SYS VS TO P2 5 o E S s 8 GBE6 48 MER e GBE7 74 5015 33 TO P5 C206 8 M 6802 a 88204 23 5 gt m 100x4 49 w 3 gt GXSXSXSXSXSXexexexey 100 nase EI NNN NNN NE I DJENG chip 6806 ST njo a 24 6807 w 10009 16207 4 5 R213 1 E 0 1 184208 CH CHIP T e 10k EI SCAN CONVERTER ders CHIP 555 0 1 n 0220 1 ati gt T s R212 SEERE 8 8 DECHE MSSBAF ED RB202 A 10054 10054 03 31 8 C216 0 01 L 0219 i B CHIP 0 1 si al zi s 3 3V 2 I our 55 28525285 217 S 5 sl s 5 S s 5 0 1 B CHIP T owe 2 RN CP 1 4 1 amp 0 1 ke m 3 5 SR t azea 6205 9 1 3 B 3 1 3 0201 18k CH CHIP 10221 2 2 BUFF x MAT RN C TC7W1 26FU CONV BUFF SCAN CONV 559704 2 1 PFM 42B1E 8 9 8 9 A B D E F G H TO P5 PCG CLK TO 5 PCG RES TO 5 UART TX TO P5 UART_RX TO P3 TO PW SDA PW_SCL
43. E R4109 nd 150 RN CP RN CP m m 2SB709A BUFF B 12 13 SYNC PROCESS DAC B 889704 B J P12 PFM42B1 PFM 42B1E H B 13 13 B 13 13 M ir Re 5V 2 TC213 TC74VHCT245AFT BUFF C277 47 je T 89 87 0276 0 1 R9 B1 R9 R7 A2 GND B2 GND A3 88 B6 B3 R8 R6 GND B4 GND 5 B7 B5 BUFF B5 R7 85 A6 GND B6 GND B6 B4 B7 R6 84 A8 GND B8 GND 9 B5 B3 B9 R5 R3 14 GND B14d GND B4 B2 R4 R2 Aid GND 81
44. 419 394 2 419 394 2 416 965 2 406 103 2 406 103 2 469 371 1 416 616 1 419 371 1 416 616 1 PFM 42B1 PFM 42B1E CJ CJ CJ CJ C2 OOOOO Tu Ms Mi eo Mav OOOOO CJ CJ CJ CJ C2 OOOOO CJ CJ C2 ooo O O CO CO CO CO CO CO CO CO CO CO CO CO Ca CI DE 155 DE 155 DE 155 DE 155 DE 155 DE 155 DE 155 DE 155 DE 155 DE 155 DE 155 DE 155 DE 155 DE 155 DE 155 DE 155 FA5317 PQ30RV CXA803 NJM79L TA7643 7811 TA7643 TA7643 TK8385 BA1039 TA7643 BA1035 CXA803 BA1035 7643 XRA103 BA1035 CXA803 L CH L CH L CH L CH L CH E E4 p ob L CH L CH L CH L CH L CH Eb b ES L CH L CH L CH ooom 355T 355T 355T 355T 355T DE HZU6 2BTRF 355TE 355TE 355TE DE HZU6 2BTRF 355T 355T 355T 355T 355T 355T 355T 355T P 1 8AP 05A AS 28 AS AS 4D 3F E2 5 8F E2 8F E2 1 5 24AF 8F E2 td ti 4 bi bi 24 Gi 1 EE gt bi bi bid Gi 4 4 bi p p LF10 LF10 LF10 Pk Sek PERPE I LS LS ES ES E HER PER kaka I 1 I 4 te 0103 0104 0150 0151 Q2 Q2 Q2 Q2 Q2 0206 0250 025 0300 03 03
45. Elzle 81176 au 51140 on S 3 3k k 4 2 16V 5 CHIP n I T CHIP 01096 k CHIP BESI 01105 lt HD TO P11 12 R1123 NAV M 811331 28 k k CHIP CHIP 4 9 TO P2 SHP gt AN CHIP CHIR 1 R1153 2 0 CHIP 01037 1 INV 4 9 101029 BA10358F 0 01036 DTC144EKA 1 9 13 0 101032 TO P2 ON OFF 01035 DTC144EKA INV C CAPTION TO P5 8 15 8 15 B SS9704 B J P9 01 1 0 1 25V C1149 0 1 25V B CHIP C1148 0 1 25V B CHIP R1184 4 7k CHIP C1147 0 1 25V B CHIP C1146 0 1 25V B CHIP C1145 0 1 25V B CHIP TO P2 9 11 12 cP gt TO P9 RA gt gt TO P9 GA gt TO P9 gt TO 9V A gt 101035 2119 YUV INTERFACE YCLP CBCLP CRCLP B 10 13 B 10 13 01047 2SB709A 01049 gt 2SB709A AMP 01164 6 3V JE C1165 10 50V 40 8 16 R1187 4 7k CHIP C115 BUFFER 0 1 25V B CHIP Dag R1186 R1217 4 7k CHIP 0 560 01157 CHIP oer 0 1 25V B CHIP A k R1185 R1188 4 Tk RITI CHIP 51 W 01156 P100 geje 50v R Y ius Rue RN CP 31601155 CHIP t 610 sov RN
46. Lo Cb2 IN o CLP RIN RGB YCbCr MATRIX 10 2 Cr OUT BIN Reference suppl Cb OUT Y OUT NC 2 YCLP CbCLP Clock generator Lower encoder 4 BIT Lower sampling comparator 4 BIT Lower encoder 4 BIT Lower sampling comparator 4 BIT Upper encoder 4 BIT Upper sampling comparator 4 BIT A 5 CLP 4 TEST or Vss 3 TEST or Vss PFM42B1 PFM 42B1E CXD2309 1 4006 LM1881M 1006 MAX202CSE 503
47. S S S S 5 TOR CH TOR CH TOR CH TOR CH TOR CH U rg rg rg rg Jg FU FU U rg rg rg rg U rg rg rg rg U rg rg rg rg U rg rg rg rg U rg rg rg rg U rg rg rg rg U rg rg rg rg U rg rg rg rg U rg rg rg rg U rg rg rg CO _1 1 Cn Cn Co lt 69 XX DD IK 1 10 430 1 100 1 390 1 41 1 10 390 1 560 1 470 1 10K 1 5 6K 1 1 8K 1 10K 5 6 5 6 IK 1 10 430 1 47 1 10 390 1 47 1 330 1 560 470 10K 1 5 6K 1 1 8K 1 1M 1 10 2 10W 10W DD DD o DO o DO 6 25 Bl BOARD Ref No or Q ty Part No R6162 218 176 R6163 218 T16 R6166 216 619 R6167 216 619 R6168 216 619 R6169 216 631 R6170 216 631 R6171 216 631 R6172 216 675 R6173 216 675 R6174 216 681 R6175 216 657 R6176 216 669 R6177 216 675 R6178 216 675 R6179 216 675 R6180 216 6T1 R618 216 651 R6182 216 619 R6183 216 629 R6184 216 629 R6185 216
48. SENS 1 2 GND GND 88 GND 3 SYS HS SYS HS Ag 5V 4 GND GND 89 0409 sENS 2 5 CP P CP P ELCO 6 GND GND 810 5V 7 5V sv M1 SENS 3 8 5V sv GND 9 5V 10 SENS 4 11 GND 12 STBY5V 1 GND 2 LED RED 3 LED GREEN 4 USA Ao GND 7 STBY5V 8 KEY_SENSE 9 GND 10 FAN DRV FANG 12 GND 13 SIRCS 29V SIRCS OUTJBI Son 18 5V SIRCS IN A2 ija SIRCS IN 18 5V 82 EXE D5V GND A3 cN6910 GND 05 83 40P STBY5V _ M 08 STBYSV 84 DMP TX DMP_RX 45 DMP DMP_TX 85 GND D GND DMP_CLK 86 Y GND D GND Y 87 I H GND m GND H 86 B GND Ag oua GND B 89 GND 10 GND bio 1 SS n GND u 8151215 GND R bii SDA SCL 12 H 801 SDA 2 GND RGB3 13 i i i i i s RGB3 GND bis 1 IN ORDER CONT2 CONTI 14 CONT CONT2 m GND O SENSE 5 Q SENSE GND bis GND AUDIO_R AUDIO R GND bis 1 5 z GND AUDIO L 7 52 m sla AUDIO L GND E 2 8 2 2 GND 18 Eis L2 GND 28 I GND Y 18 1 CN8501 Y GND dee GND VIDEO 20 VIDEO GND 20 IN ORDER 1 2 3 4
49. SIZE and press ENTER The following menu appears on the monitor screen H SIZE 5 00 Press A V to resize picture to increase the horizontal size V to reduce the horizontal size The horizontal picture size is indicated on the monitor screen in the range from MIN 50 to MAX 450 The factory preset value is 00 The lower limit of the setting may be above the MIN depending on the input signal type 5 press ENTER The menu returns to the PIC SIZE menu 6 8 Press A V to move the cursor gt to SIZE and press ENTER The following menu appears on the monitor screen V SIZE 00 Press A V to resize the picture to increase the vertical size V to reduce the vertical size The vertical picture size is indicated on the monitor screen in the range from MIN 50 to MAX 50 The factory preset value is 00 Press ENTER The menu returns to the PIC SIZE menu Adjusting the Picture Position 1 In the PIC SIZE menu press A V to move the cursor to H SHIFT and press ENTER The following menu appears on the monitor screen H SHIFT E 00 Press A V to shift the picture to shift the picture to the right V to shift the picture to the left The horizontal picture position is indicated on the monitor screen in the range from MIN 50 to MAX 50 The factory preset value is 00 Press ENTER The menu returns to the PIC
50. TLC2932IPW 1C1041 LOGIC VCO PFD LOGIC VDD SELECT OUT FINA FIN B OUT GND ST49C101ACF8 05 1 218 XTAL1 XTAL2 AVcc DVcc 1 2 DIVIDER VCO Oscillator Circuit ene eem 7 a RBIAS 0 vn vn PFD NC ee Output TC7SO4FU 12223 VDD IN GND INHIBIT INHIBIT i SEN TC74HC4538AF EL 1C220 VDD 2 0 20R 2480 20 248 20 2 0 ne o 5 TLC2933IPW 1C1037 AGND D GND OE INA D gt GND 3 4 OUT Y LOGIC Vo 14 VCO TC4W53FU 1C1004 1 1044 TEST 2 13 RBIAS CHI CHO ADR 8 2 8 8 VCO OUT 3 12 CONT VOL FIN A 4 i 12 GND FIN B 5 Zoe 10 VCO INH PFD OUT 6 9 PFD INH POO COM INH VEE VSS LOGIC GND 7 1 0 TCR 1 40 d CK 1 CK 1 0 1 0 GND 8 22 8 22 PFM42B1 PFM 42B1E TLC5733A 1C1042 PFM42B1 PFM 42B1E SAMPLING COMPARATOR CLAMP CONTROL SAMPLING COMPARATOR CLAMP CONTROL S
51. gt p opp me gt gt 1 1 Q S Q C Q LS LS LS LS LS IS LS Q CO LS LS Q Q Q Q Q IN B1 A SIDE SUFFIX 11 B1 B1 11 080 089 1 Lis s 2m 8 8 Lin s bp pup Hes M 08188 52188 m ERES LI q PES SE 7 H8 99198 101980 T 4 D 1017 O A B1 B SIDE SUFFIX 11 8 24 10358 1 6104 B1 Board Waveforms TC4W66F 6106 6107 IN OUT 1 TLO26CPS 1 6102 6103 VCC O vic 600mVp p Q vic 680mVp p H vic III 580mVp p H 4 vic 400mVp p 5 vic uu 680mVp p H 6 vic ILL 420mVp p H 7 vuv Y C 4 8Vp p H 1 2Vp p H 8 24 PFM42B1 PFM 42B1E B1 B1
52. 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0255 1 B CHIP 0254 1 B CHIP 0253 21 B CHIP 6252 1 B CHIP 0251 1 B CHIP 6250 1 B CHIP 6249 1 B CHIP 6248 1 B CHIP 0247 1 B CHIP 0246 1 B CHIP 0245 1 B CHIP 6244 1 B CHIP 6243 1 B CHIP 0242 1 B CHIP C241 1 B CHIP 6240 1 B CHIP 6239 1 B CHIP 6238 1 B CHIP 6237 1 B CHIP 6236 1 B CHIP 6235 1 B CHIP 6234 1 B CHIP 6233 1 B CHIP 6232 1 B CHIP 6231 1 B CHIP C230 1 B CHIP 8 10 D 8 10 B 889704 B J P4 PFM42B1 PFM 42B1E H 5 13 5 13 1
53. 10 O H SHIFT button Adjusts the horizontal centering Press this button and then adjust the horizontal centering with the SELECT 44 J button O v SHIFT button Adjusts the vertical centering Press this button and then adjust the vertical centering with the SELECT 44 J button D H SIZE button Adjusts the horizontal picture size Press this button and then adjust the horizontal picture size with the SELECT button Qj V SIZE button Adjusts the vertical picture size Press this button and then adjust the vertical picture size with the SELECT 44 J button STANDBY button Press to turn the monitor to the standby mode RGB YUV button Press to select the format matching that of the input signal connected to the INPUTI or INPUT2 connector Each press toggles between RGB and YUV D S VIDEO button Press to select the signal input from the COMPOSITE IN connector or Y C IN connector from among the VIDEO connectors Each press toggles between COMPOSITE IN and Y C IN D Number buttons Press to enter the index number D ID MODE ON SET OFF buttons Press the ON button to make an index number appear on the screen Then enter the index number of the monitor you want to operate using the number buttons D and press the SET button After you finish the operation press the OFF button to return from the ID mode to the normal mode For details about the index number see Operating a Spec
54. 2 GB Using On screen Menus 14 GB Operating Through Menus 4 GB Menu Guide v tu u anga te ers da aaa 4 GB Watching the Picture 18 GB Switching the Input Signal 8 GB Switching the Display Mode 9 GB Input Signal and Monitor Status Information Display 20 GB Adjusting the Picture 22 GB Adjusting the Contrast Brightness Chroma and Phase etc 22 GB Restoring the PIC CONTROL Menu Items to Their Original Settings 2 23 GB Resizing and Positioning the Picture 24 GB Resizing the Pict te Age ee eee 24 GB Adjusting the Picture Position 25 GB Restoring the Original Picture Size and Position 25 GB Changing the Aspect Ratio 26 GB Adjusting the Linearities 26 GB Adjusting the Pixels 27 GB Using the Memory Function 28 GB Storing the Current Setting 28 GB Calling Up a Stored Setting 29 GB Selecting the On screen Language 30 GB 3 GB 3192 182 0144 6 1 4 cB Reducing Afterimage Ghosting Screen Saver
55. 50 47 50 47 50 MF 25V 0 1MF 25V C22PF 50V ECT100MF 6 3V 0 1MF 25V 0ME 16V F 50V CHIP 00MF 16V 105C F 25V PF 50V OV CHIP 0 1MF 25V 0 1MF 25V o d lt gt 0 1MF 25V C 0 01MF 50V 50V CHIP 0 1MF 25V 50V CHIP 0MF 5 0MF 50V CHIP C 0 01MF 50V 00MF 16V 105C 0 1MF 25V V CHIP RAMIC 0 22MF 1000PF 50V C 0 01MF 50V C 0 01MF 50V 0 1MF 25V 00MF 16V 105C 00MF 16V 105C RAMIC 68PF 50 0 1MF 25V 0 1MF 25V 0 1MF 25V R CERAMIC 1000PF 50V HIP CE HIP CE LECI 2 RAMIC ERAMI RAMIC ERAMI RAMIC 18PF 50 RAMIC22PF 50V 20MF 35V CHIP 0 1MF 25V C 0 01MF 50V 0 1MF 25V C 0 01MF 50V B BOARD Ref No or Q ty Pa C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 36 37 38 39 40 41 42 43 44 45 46 47 48 49 30 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 10 11 12 13 14 15 16 17 18 19 80 81 82 83 84 85 86 88 89 90 91 92 93 94 95 t No 63 245 63 809 63 215 64 004 63 133 00 4 26 405 64 004 4 64 004 4 4 64 004 64 004 64 004 64 004 64 004 64 004 63 253 63 021 9 63 021 9
56. XFSC2 5 404020 0 0 A zk 3 10k Be Hr R4027 CHIP 64034 L ile t dus 4054 eE 8 emm z 5 2520120 1 FSC4 4 Se 4 e 2 84015 3k mU I TO P12 3 4 ipm 14 04023 deen eng DTC114EKA 57 cae inis bad 84087 05 i M gt X ovo k CH CHIP CHIA 3 2 u 55 FSM lt SDA TO P1 5 7 o cage os 7 100 76 ch CHIP lt 861 TO P1 5 7 m 6 104010 1 6 s R4047 B Ae 104000 T 1 ech e lt Fse TO P7 TDA8395T N3 o 840 3 378 CHIP CHIP JL24 JL25 lt CPI TO 12 SECAM DECODER mem 10k 0 i w 1 er x o aa 4 04003 04055 S 2 DAN202K D4005 84063 m0 T 1209 ES amp L DAN202 240 240 SCHIP cH CHIP 1 2 l 84026 a 84955 EN Jo en gt k 104010 3 6 E s ZH Gianni E VI 04024 E N 3 2 25 4 dni 262 25870 1 7 3E 04037 8 1 8213 16 57 5 B CHIP B CHIP s 5 2862412 1 148 3 ie A T 4042 CHIP I BUFF 22k 2562 412K 1 148 CHIP 84051 gt k CHIP K 04019 5 DTC114EKA INV 1 CHROMA DECODER 04004 04000 264000 DTC114EKA V 04013 BUFF INV Q4007 W SS SaaS SS ES F 2SB709A B SS9704 B J P8 BUFF R4021 1k 8 1 1 CHIP 15 2802412 146 3 0 BUFF 04008 3 0 2SB709A k BUFF 8 14 8 14 PFMA2B1 PFM 42B1E A B D E F G H PFM42B1 PFM 42B1E
57. gt Part No A 1391 125 A B1 board CN6102 nector Con 2 2 7 Power Supply Assy Removal PSW4 x 8 5 Screw 5 S x 5 P E S 20 5 at 2 8 2 2 8 Switching Regulator APS 132 M board Removal Remove the Power supply assy Refer to 2 2 7 Nine screws PSW4 x 8 Switching regulator APS 132 M board Screw PSW3 x 6 Heat transfer plate Screw PSW3 6 2 Screw PSW3 6 Two screws PSW3 x 16 PFM 42B1 PFM 42B1E 2 9 CN42 C Two screws PSW3 x 6 Remove the Power supply assy Refer to 2 2 7 2 2 9 T Board Removal AM Pu Two hooks 2 10 2 2 10 Plasma Display Panel Unit Removal 1 2 Remove the Bezel assy Refer to 2 2 3 Remove the B block assy Refer to 2 2 4 Remove the Power supply assy Refer to 2 2 7 Remove the T board Refer to 2 2 9 O Two screws Screw BVTP4 x 16 PSW4 x 8 Ga Remove those parts according to two screws bh numbers 1 through 09 PSW5 x 40 Inlet bracket 0 Corner bracket B B Ro 4 Two screws PSW5 40 42 Two screws lt gt PSW5 40 3 Screw PSW4 x 8 Corner bracket A PSW4 x 8 E 4100 Two screws PSW5 40 M Corner bracket A 49 Scre
58. sle o elelalela el le e ala 8 181212 21 2 2 2 27 S gt 5 gt s gt S 5 gt gt gt gt 1265 CN26 9P N25 VH OP VH CN39 20P RX 1 BLK RED BLK BLK B SS9704 KESSENZU J EN CN1 80 2 PFM42B1 PFM 42B1E H 10 GA QA BKM B10 8 2 Schematic Diagrams and Printed Wiring Boards GA BOARD NC R VIDEO D9501 B 3 D9502 A 3 88503 88502 SEI D9503 D 3 e D9504 3 1 gt ene D9505 B 3 9 II R508 ur 89506 ov Eu 1 gt ete ewe 09501 2 VIDEO IN Ves wb 88814 AF6 88510 09502 2 E exe 09503 B 2 CN9503 Mes 16V 09503 VIDEO OUT MTZJ T 77 10B most 09506 k PROTECT m 47k m 3 3 16V R9501 5V mui 75 AUDIO R Q SENSE gt lt T T T T T T z 5515 1 JAN 1 1 e posta 09502 spi R9507 47 2sC2785TP CONTI JE 2 5 BUFFER CONT2 Ku 1 89517 09505 380 A 09504 1 9 MTZJ T 77 10B PROTECT 83515 T mais
59. 1 5207 ou 1 44 J J J tJ zJ 8 8 8 G Gi JD p D t Q J Q O DJ I Q S SS Q Q OY Q O PS WN WW l Fe KE a 45 05 A D dedo 4b 1 A 1 E d Del OH Aes tb 4 od a H OY O1 2 iG IS N O Q I N N Q CO QON O O OY Q Q I OQ P ut sd jj npn C ANC NP S Q gt Q Q Q l 1 mm oo APS 132 M APS 132 M D 8 2 55 33 Hi mp 3 pt 3 8 90205 J 0601 8 ss m STEI ST E w 88 0250 2 8 Bi SECONDARY iC ERN WN CO ot E APS 132 M SIDE SUFFIX 12 8 36 8 36 PFM42B1 PFM 42B1E 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 manuf
60. 1266 62 800 63 NAME 1080 48 1080 50 1080 601 720 60P 852x480 60 856x480 60 STD 856x480 60 F60 856x480 60 WPS ASPECT 16x9 16 9 16 9 16 9 16 9 16 9 16 9 16 9 SHARPNES MID MID MID MID MID MID MID MID TOTAL H PIXEL 3 18 1462 1410 1190 1650 1072 1112 1048 1048 PFM 42B1 PFM 42B1E Table 3 Preset Timing 21 22 23 24 25 26 27 28 VGA 1 VESA640x350 VESA640x400 VGA Mac13 5 640 480 972 VESA640x480975 IVESA640x480 8 RESOLUTION 640 x 350 640 x 350 640 x 400 640 x 480 640 x 480 640 x 480 640 x 480 640 x 480 CLOCK 25 175 MHz 31 5 MHz 31 5 MHz 25 175 MHz 30 24 MHz 31 5 MHz 31 5 MHz 36 MHz HORIZONTAL H FREQ H FP H SYNC H BP H ACTIVE VERTICAL V FREQ EXT H V EXT COMP COMP VIDEO VIDEO LEVEL SYNC LEVEL PFM 42B1 PFM 42B1E 3 19 AREA 30 31 32 33 34 35 36 NAME VESA720x400 85 VESA800x600Q56 IVESA800x600 260 5 800 600 972 VESA800x6009975 VESAB800x600 285 Mac16 RESOLUTION 720 x 400 800 x 600 800 x 600 800 x 600 800 x 600 800 x 600 83
61. 12V Ne D1006 RN CP RN CP JL26 Y e CHIP MA111 TX R1118 1119 01095 R1104 01090 0 1 19 1k K I ERIE 25V R1135 R1144 CHIP 0 1k Ww Baum 1 CHIP RN CP B CHI RN CP 5 cH CHIP 8440 12V 1 01100 2150 DIr 1 Y 1 25V HM C1117 B CHIP 0 1 It 25V C1135 1 o e o o 0 1 TOUT a e si M 3 285 I OOS e Qi 68 te o d kan Gs E 2 a s 69 g oi sj Tee R1105 S v OOO ODD TO P2 PIC gt w o o o o o o o FE o o e 2 o s 01098 0 047 5 TO P2 10 11 12 B CHIP 55 22 83 81182 100 S Bet Ze ta TO P8 12 5 5 01132 m ki 0 1 Ze 84 Y L4019 TO P2 gt 1 5 H 82 AW X13V TO P1 6 gt 1 4 7 Ntc L1004 CHIP TOP2 Yi gt gt 1 4 61097 R1139 dd Tal 01138 z 4 28 470n 01029 B CHIP ET C1106 11003 01109 es SS tev 61142 p 28C2412K 0 8 120p 33uH 50V 50V 01124 100 s BEZE 25V 16V BUFF CH CHIP S 5 7 BE 16V 2 2 519 ks AW L E Se 18 28V nA a x 51 zla 01128 B CHIP w 521518 0 06 5 55 lt lt 25V 6V TO P6 R1142 pa reum SHIP 5 98 11 sm 011374 1 s e
62. 158226 pie ui SCL 5 8 T T 34188226PRoTECT PROTECT Ve s R9102 nim 64408 811 R i 4 z 2 2 2 1 289 tev att 55 HI UDZ TE 17 5 68 va 155226 58 A PROTECT 0 GND o R9103 koko B 8 o C9107 t 5 09111 BN CHIP 0 1 25V B CHIP 49 GND UDZ TE 17 5 68 al 4 GND 09104 R9104 09105 09105 lum 47k 10 26710 1 95226 CHIP 16V protect 4700 66974 vl GND Tra 106905 AT INPUT 2 3 1 68971 BAT657F 0 1 Y 4 7 si 86 DMP_CLK AUDIO IN Lv ud C9106 09106 09204 E RGB SW 25V STEVSVI Vo e GND CHIP 16V protect 3 AN kl Ci 2 42 46903 85 1 Bun wi v DTATA4EKA 0 R6945 sw S As _ gt 2 1 Sve 84 STBYSV 19103 2 RN 1 M oP cs 3 5 B 2 SW AUDIO OUT J9201 09201 A 1 R6946 83 05 026710 08203 3 BN A de 43 DET PROTECT PR 020210 PROTECT 0972 GEES R9302 D9202 R R6944 25V REMOTE e PAN Kat 23294 protect mao A SIRCS IN RS 2320 w sv 55 Bi 81808 OUT sa D9303 2 WENG 1 29 R9301 100 CHIP 026712 12 R6943 o w 6948 R9106 06909 5 0 09301 3 SHIA R6957 R6947 CHIP AM 47 2802412 89111 O20Z12 TEBSL 11 S Ts de T 4 7 PROTECT Su CHIP D9302 18 m i 5 0 852 cotto Eus 026212 TE85L corte 2 1 8 HUE Tatahi PROTEGT
63. 17 Mac 16 49 7kHz 75Hz Actual on screen display of the monitor status 18 1024 768 60 VESA STD 48 4kHz 60Hz 19 1024x768Q70Hz VESA STD 56 5kHz 70Hz Significance 20 1024 768 75 2 STD 60 0kHz 75Hz 31 5kHz 60Hz e g The selected input signal is computer RGB 2 VESA STO 68 E 525 60 e g The selected input signal is RGB or 22 1152x864Q75Hz STD 67 5kHz 75Hz component video 23 Mac 21 68 7kHz 75Hz NTSC e g The selected input signal is NTSC 24 1280 960 60 VESA STD 60 0kHz 60Hz OTHERS The input signal is out of the 25 1280x960 85Hz STD 85 9kHz 85Hz capture range 26 1280x1024 60Hz STD 64 0kHz 60Hz NO SYNC There is no input signal 27 1280x1024Q75Hz STD 80 0kHz 75Hz INPUT1 RGB The signal mode of INPUT1 is set to 28 1280 1024 985 2 STD 91 1kHz 85Hz BGB 29 1600x1200G60Hz VESA 75 0 60Hz SDTV HDTV VIDEO COMPOSITE Composite video input is selected 1 PAL PAL for VIDEO 2 NTSC NTSC VIDEO Y C Y C video input is selected for 3 SECAM SECAM VIDEO 4 NTSC4 43 NTSC 4 43 5 PAL60 PAL 60 6 PAL M PAL M 7 1080 24psf 1080 481 8 1080 501 1080 501 9 575 50 575 50 10 480 60 480 60P 11 1080 60 1080 601 12 720 60 720 60P 21 cil 3192 LAZv Nad Adjusting the Picture Adjusting the Picture While watching the picture you can adjust c
64. 202 m ee ENDS oc vrs 22 28 Y s 1 GCOAST 10219 4 4 5 6 PANEL MUTE 1 AST ONTNDISPEN 63 PORT 56 08005 ki GA PORTA 14016 5 6 OSD RES 56 MODE 437 MODE MEMDO 139164 56 Wope du MODE2 56 PWRES 09 RESET 015 145169 14617 1 6 CLAMP 4 GBLKSPL 153171 154172 10206 DS MEMORY VBLK 5 6 1 5 6 UARTTX 79 0923 5 6 UART RX 80 RXD 210249 10204 10218 211275 CLOCK GEN CLOCK GEN memar 127 000 35 5126 Pa eer 38 56 PCGDTA DATA HCLK 8 4 xTAL 5 19 18 0276 A17 001513 6 6 PCGCLK 10202 98 020244 xi 94 BOXEXT 4 I e Duk 42327 5 6 DMP CLK X200 14 318MHz 10102 VM 11 9 ROMWE 476 5 6 SYS HS GHS EID gt Pame 1 65 6 SYS VS PS 59 avs 10220 10221 10221 H 5N 3 216 7 1 DPLDCS I Se 9 7 5 6 H 7 6 7 6 PFM 42B1 42 1 B BOARD CN103 PFM 42B1 PFM 42B1E YEL RED 2 LVA VCC CN10 B BOARD CN106 B BOARD CN110 CN9002 CN9008 STBY 5V STBY 5V STBY 5V STBY 5V 12V CN9003 VS SENCE VA SENCE 1 VA SENCE AUDIO THERM1 CN9011 CN9004 CN9012 CN9005 CN9001
65. 6 35 BUFF 09501 COMPOSITE VIDEO CN9502 Y C IN BKM B10 for AEP PFM 42B1 PFM 42B1E Leid CN9501 1 2 VIDEO VIDEO A3 Section 7 Block Diagrams B 1 6 GA 1 2 B 1 6 GA 1 2 EEN Y C CONTROL CN6910 1 2 1 1002 1 3 O SENSE _ 15 5 6 Y GAIN 5 6 R Y GAIN 101001 Y vca 3 2 LH 1C1000 2 2 56 Y 3 6 3 6 RY B B9 3 6 YUV VIDEO X 5 6 YUV VIDEO 0105 si VOUT BUFF g 01004 1007 01010 OPSENS 56 OP CTL1 5 6 104013 DOC AMP BUFF 01005008 1 04023 04022 36 gt BUFF 01006 1009 01012177 cdm 04038 nmm 104012 SYNC PROC 101005 BUFF AMP 1 3 010141016 46 01018 1024 104005 X4002 503kHz 01017 4003 Q4025 500khz 46 6 6 4 6 5 6 X56 104010 9 1 8 04029 56 AFCSW BY1
66. A 9 13 9 13 01099 JL28 47 16V e R RN CP lt 4 run zc 16V RN CP 01121 2 AT JL30 TO P10 GA gt lt 61148 dev RH e ome B CHIP TO PIO Ba gt i R1167 100 CHIP 12V Q1038 01043 12V 2802412 2802412 7 Y BUFF BUFF i 1 8 TO P2 B CUTOFF gt 6 TO P2 8 BE ni izv 9 Y 4 z DE 0 R1110 coaz 01042 2 2k z DEA 28v 1 01033 181156 2841037 BOHR 2SA1037A 3 BUFF TO 1 2 coL Ww 1 RN 0P d 4 01091 a quon 25V k 68k mE EL TO P2 HUE gt w lt R1111 101028 81316 12V 2 i BA10358F 81315 Bets HN RN CP 22k RN CP REGE Me t 1051 R1180 ids Ra d i Sm 11031 SN74LV4053ANSR RN GP 01136 R1319 4 sw 0 1 61269 R1820 25 k DE 25 RN CP RN CP T CHIP 01044 1 81145 2802412 12V LIM 81183 150k 1
67. Cn 4 353 620 1 763 659 1 763 659 4 066 309 1 468 447 O to CO o 1 4 081 424 2 A 1 815 560 3 2 990 241 02 4 3 659 682 5 4 321 929 00 6 1 680 712 1 3 701 474 8 4 951 517 Screws Washers 1 682 565 04 7 682 947 1 682 948 09 7 682 950 09 7 682 952 09 7 682 961 01 1 682 965 01 7 685 648 79 7 685 663 79 PFM 42B1 PFM 42B1E SP 0 5 0 0 8 O O co O o o Description MOUNTED CIRCUIT BOARD T RIVE BRACKET 5 PWB T MOUNTED CIRCUIT BOARD S SCREW MACHINE P 4 8 HINGE PC BOARD FAN DC WITH SENSOR FAN DC WITH SENSOR SCREW MACHINE P 4 8 REGULATOR SWITCHING SHEET INSULATING INLET AC WITH NOISE FILTER HOLDER A PLUG HOLDER PC BOARD HOLDER PC BOARD PRI LOCK SCRE SCR SCR SCR SCR SCR Eu Eu Ei SCR SCR SCR SCR TED WIRING BOARD F URSE 5X40 PSW P 4X16 PSW 3X6 PSW 3X8 PSW 3X12 PSW 3X16 PSW 4X8 PSW 4X16 3X12 TYPE2 IT 3 BVTP 4X16 TYPE2 IT 3 Chassis 6 5 Packing Materials _ OTA M y 2 7 6 6 gt gt gt Cn BD BO O to CO 1 o 211 212 213 Part No 4 080 651 3 104 066 4 080 652 3 614 673 4 080 646 4 080
68. PRESET AREA63 856 x 480 60 T AREA18 PROGRAM18 PRESET AREA64 1024 x 1024 60 T AREA19 PROGRAM19 PRESET AREA65 1280 x 768 56 T AREA20 PROGRAM20 PRESET AREA21 640 x 350 70 PRESET AREA66 Line Doubler 575 x 501 YUV PRESET AREA67 Line Doubler 480 x 601 YUV PRESET AREA22 640 x 350 85 PRESET AREA68 Line Doubler NTSC LINE PRESET AREA23 640 x 400 85 PRESET AREA69 Line Doubler PAL LINE PRESET AREA24 640 x 480 60 PRESET AREA70 Line Doubler SECAM LINE PRESET AREA25 MAC13 PRESET AREA71 Line Doubler 443NT LINE PRESET AREA26 640 x 480 72 PRESET AREA72 Line Doubler PAL60 LINE PRESET AREA27 640 x 480 75 PRESET AREA73 Line Doubler PAL M LINE PRESET AREA28 640 x 480 85 PRESET AREA74 Line Doubler NTSC Y C PRESET AREA29 720 x 400 70 PRESET AREA75 Line Doubler PAL Y C PRESET AREA30 720 x 400 85 PRESET AREA76 Line Doubler SECAM Y C PRESET AREA31 800 x 600 56 PRESET AREA77 Line Doubler 443NT Y C PRESET AREA32 800 x 600 60 PRESET AREA78 Line Doubler PAL60 Y C PRESET AREA33 800 x 600 72 PRESET AREA34 800 x 600 75 PRESET AREA35 800 x 600 85 PRESET AREA36 MAC16 PRESET AREA37 1024 x 768 43 PRESET AREA38 1024 x 768 60 PRESET AREA39 1024 x
69. RES Description STOR CH STOR CH STOR CH STOR CH STOR CH STOR CH STOR CH STOR CH FU FU rg rg 27K 1 10W 2012 100K 1 10W 2012 2 TK 1 108 2012 1 5K 1 10W 2012 2 2K 1 108 2012 2 2K 1 108 2012 10K 1 100 2012 12K 1 100 2012 PRINTED WIRING BOARD F CAP FILM METALLIZED 1 5MF CAP FILM METALLIZED 1 5MF PIN CONNECTOR POWER FUSE 15A 250V TRANSFORMER LINE FILTER TRANSFORMER LINE FILTER RES SURGE RESISTANT 330K BEAD FERRITE WITH CASE VARISTOR ERZV14D471 PFM 42B1 PFM 42B1E Ref No Ref No or Q ty Part No SP Description or Q ty Part No SP Description 1270 443 o MOUNTED CIRCUIT BOARD 4 A 1391 080 A o MOUNTED CIRCUIT BOARD S C9501 126 964 11 s CAPACITOR ELECT 10MF 50V C150 1 126 392 11 s CAPACITOR CHIP ELECT100MF 6 3V C9502 126 964 11 s CAPACITOR ELECT 10MF 50V C1502 1 163 021 91 s CAPACITOR CERAMIC 0 01MF 50V C9503 102 129 00 s CAPACITOR CERAMIC 50V 0 01MF C1503 1 163 021 91 s CAPACITOR CERAMIC 0 01MF 50V C9504 104 664 11 s CAPACITOR ELECT 47MF 25V C1504 1 163 021 91 s CAPACITOR CERAMIC 0 01MF 50V C9505 104 664 11 s CAPACITOR ELECT 47MF 25V CN1501 1 506 482 11 s PIN CONNECTOR 3P C9506 104 664 11 s CAPACITOR ELECT 47MF 25V C9507 104 664 11 s C
70. V to move the cursor to the input source to be displayed and press ENTER INPUTI RGB Selects the audio and video signal input from the INPUTI connectors when the input signal is an RGB signal INPUTI YUV Selects the audio and video signal input from the INPUTI connectors when the input signal is a component signal INPUT2 RGB Selects the audio and video signal input from the INPUT2 connectors when the input signal is an RGB signal INPUT2 YUV Selects the audio and video signal input from the INPUT2 connectors when the input signal is a component signal VIDEO COMPOSITE Selects the audio and video signal input from the COMPOSITE IN connector and AUDIO IN jack among the VIDEO connectors VIDEO Y C Selects the audio and video signal input from the Y C IN connector and AUDIO IN jack among the VIDEO connectors For the 42 1 VIDEO COMPOSITE and VIDEO only appear when the BKM B10 video input adaptor not supplied is installed The selected input signal appears on the monitor screen Color system or horizontal vertical frequency Signal type PAL IDEO COMPOSITE You can also switch the input signal using the Remote Commander We recommend input source video equipment equipped with a TBC time base corrector If the monitor receives a signal without TBC the picture may disappear due to disturbance of the sync signal Switching the Display Mode Displaying closed captio
71. 01059 48 S 1 2502412 146 veis 85 Hz Sea SE 01172 DROP d 0 1 C1174 L1006 IVD 25 47 4 2 7 AM HE 16V 5V CHIP W131 lt FV TO P8 12 1 3 wPLLHD 81187 01061 2802412 146 CHIP BCON a BUFF a 2 RCON Os lt HD TO P9 12 1 ADHD 22 0 3 R1269 2 Dee Q 5 ius 122 122 CHIP CHIP 2 81275 0540 2 Vir 5 m HIP U P DRC pa 01201 01209 01218 01215 01218 2 A D 2 0 25V B cHIP Jel 0 3 9 1 R1226 25 25V 25V 25V 25V 224 Sun 81231 3 3V 4 B CHIP T B CHIP B CHIP CHIP 830 HIP i 4 4 VI T i A AN 01204 yee 11030 01057 46 T l ons 0 1 amp 1 L1010 25 1037 i NAP 11 13 4 LIM TP1009 CHIP 16V mi ce 84262 1199 UM TP1008 9 45 ae ni e Rizeg B OHIP R1265 28 DRC MF TP1007 270 CHIP Jose loo B SS9704 B J P11 42 1 PFM 42B1E 8 17 8 17 A B D E F G TO P2 TO P5 8 TO P5 TO P8 TO P8 B 12 13 B 12 13
72. 1 and the scan converter can be upgraded using this menu MAINTENANCE p WATCH ERROR MODEL NAME SERIAL No SC PROG LOAD WATCH ERROR Errors of the built in watch IC can be corrected To correct the error enter the measurement value of the frequency counter that is connected Range of adjustment is from 32761 85 Hz to 32774 25 Hz b MODEL NAME Model name can be set c SERIAL No Serial number can be set d SC PROGLOAD The built in program of the scan converter can be modified using this menu item Change the item from CANCEL to EXECUTE Then press ENTER Watch Error Adjustment Refer to section 3 6 Watch Error Adjustment 8 11 8 STATUS TEST b POWER SUPPLY Menu Structure The internal status of the PFM 42B1 B1E can be checked and its functions can be checked using the STATUS TEST STATUS TEST gt SIGNAL SYNC POWER SUPPLY TEMPERATURE FAN OTHERS SOFTWARE VERSION TEST FUNCTION menu a SIGNAL SYNC Information regarding the sync signal of the input signal is displayed Horizontal frequency Horizontal frequency of the input signal is displayed in four digits Vertical frequency Vertical frequency of the input signal is displayed in four digits Specifications of the signal Names of presets of the preset areas Table 1 corre sponding to input signal are displayed Polarity of sync signal Polarity of sync signal is displayed Status
73. 162 PFM 42B1 PFM 42B1E B BOARD Ref No or Q ty 04033 04034 04035 04036 04037 04038 04039 06181 06182 06193 069 069 069 069 069 Cn GW 06906 06907 06908 9 0 069 0691 06911 06912 08001 08002 rg UJ UJ UJ HI Cn gt Co 00 01 03 05 06 07 29 UJ UJ HI 08 09 10 11 12 HI UJ UJ UJ HI 14 15 16 17 204 29 UJ UJ UJ HI R205 R206 R207 R208 R211 R2 R2 R2 R2 R2 WD R218 R219 R220 R221 R222 Part No 8 729 216 22 8 729 216 22 8 729 216 22 8 729 027 38 8 729 027 38 1 801 806 11 1 801 806 11 8 729 120 28 1 801 806 11 8 729 120 28 8 729 027 38 8 729 027 38 8 729 027 38 1 801 806 11 8 729 203 31 8 729 203 31 1 801 806 11 1 801 806 11 8 729 120 28 8 729 120 28 8 729 026 49 8 729 027 38 801 806 11 801 806 11 2 2 2 2 2 2 2 2 2 2 2 r2 2 2 2 2 2 2 2 2 2 2 2 2 2 22 2 2 2 2 2 2 2 2 2 6 295 6 295 6 017 9 42 1 42 1 cn o o ANNAN o cn cn cn cC cn o Qo o Description TRANSISTOR 2SA1162 G TRANSISTOR 2SA1162 G TRANSISTOR 2SA1162 G TRANSISTOR 144 1146 TRANSISTOR 144 1146 TRANSISTOR DTC144EKA TRANSISTOR DTC144EKA TRANSISTOR 2SC1623 L5L6 TRANSISTOR DTC144EKA TRANSISTOR 2SC1623 L5L6 T
74. 216 639 R6108 216 667 R6109 216 667 R6110 216 639 R6111 216 669 R6112 216 669 R6113 216 651 R6114 216 642 R6115 216 621 R6116 216 641 R6117 216 619 R6118 216 641 R6119 216 645 R6120 216 643 R6121 216 675 R6122 216 669 R6123 216 657 R6124 216 615 R6125 216 669 R6126 216 649 R6127 216 633 R6128 216 649 R6129 216 619 R6130 216 641 R6131 216 637 R6132 216 659 R6133 216 645 R6134 216 643 R6135 216 675 R6136 216 669 R6137 216 657 R6138 216 675 R6139 216 669 R6140 216 649 R6141 216 667 R6142 216 667 R6143 216 667 R6144 216 639 R6145 216 667 R6146 216 667 R6147 216 639 R6148 216 669 R6149 216 669 R6150 216 651 R6151 216 642 R6152 216 619 R6153 216 641 R6154 216 619 R6155 216 639 R6156 216 645 R6157 216 643 R6158 216 675 R6159 216 669 R6160 216 657 R6161 218 776 SP Description XQ cn XQ cn XQ cn XQ cn cn cn cn XQ c Co 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 RES RES RES RES RES RES RES RES RES RES RES
75. 2595 3 8 TC74HC126AF Es 2 o p W d 5 lt a Z a 8 EL sa BUFF e 8 Eum 222535 z 2 e TO P4 3 3 3 5 0 z ER muco 2 228 e R518 E pu 2 LN un gt uet E ss eee 2 e CHIP BUFF o o 2 PFM42B1 PFM 42B1E A 8 11 8 11 TO P1 9 TO P9 TO T BOARD CN9002 TO P1 TO P5 STBY gt TO P5 gt 13V B 6 13 gt B 6 13 B 6 13 5V 3 TO P5 5 1700 S D STATUS 1006 3 0710 9v 8714 5 PTI 106 R708 1 5707 sv gt BAO9F E2 100k 100 9V REG CHIP 6 3V R713 1k CHIP T w P TEMP2 R707 L C706 100 100 TO S BOARD CHIP 63V gt m tk CHIP 706 T 0705 100
76. 3 7 11 VA OCP 1 Set the load on each output to the minimum 2 Apply 100 V AC 3 Turn the STBY signal ON short between pin 1 and pin 2 and also the VRR signal ON short be tween CN4 pin 7 and CN7 pin 2 4 Apply 0 V DC to the VRA CN4 pin 5 Use CN4 pin 6 as GND 5 Connect a voltmeter to the VA output between CN5 pin 5 and pin 1 6 Setthe load on VA output to 4 4 A and rotate the RV601 until the output voltage varies Note Be careful not to turn excssively because power can not be obtained PFM 42B1 PFM 42B1E Section 4 Trouble Shooting 4 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 X 506 TEMP DD CON 3 times Y 805 TEMP I O Block 4 times Center TEMP 5 times Digital 5V _ _ __ 6 times PANEL FAIL PDP 1 2 3 6 1 2 0 3 0 3 3 When the STBY LED does not flash the power supply circuit is defective 2 How to find PDP unit trouble 2 As input signals H SYNC negative polarity V SYNC negative polarity BLANKING negative polarity 1 The power must be supplied normally to the PDP unit CLOCK and RGB digital data 8 bit X 3 must be This power is supplied through two black 8 pin entered normally and DISPEN must be high conn
77. 32 000usec 31 469kHz 31 778usec 27 000kHz 37 038usec 28 125kHz 35 556usec 33 750kHz 29 630usec 45 000kHz SCAN PROG PROG l amp V l amp V l amp V V TOTAL 20 000msec 16 684msec 20 834msec 562 562 5 20 000msec 562 562 5 16 667msec 562 562 5 16 667msec V SYNG 0 089msec 0 178msec 0 186msec 0 178msec 0 149msec 0 149msec SERRATION 0 015msec 0 030msec 0 019msec 0 018msec 0 015msec 0 030msec EQP ON OFF O OFF O O OFF EOP FP 0 089msec 0 000msec 0 019msec 0 018msec 0 015msec 0 000msec EGP BP 0 060msec 0 000msec 0 019msec 0 018msec 0 015msec 0 000msec V DISP 17 038msec 14 312msec 20 001msec 19 201msec 16 001msec 540H 21 334msec 1 245msec 42 0 889msec 30H 0 556msec 0 534msec 0 445msec 15H 0 593msec 0 000msec 0 0 000msec OH 0 038msec 0 036msec 0 030msec 0 030msec 0 089msec 3 0 089msec 3H 0 186msec 0 178msec 0 149msec 5H 0 149msec 50Hz 20 000msec 60Hz 16 684msec 48Hz 20 834msec 50Hz 20 000msec 60Hz 16 667msec 60Hz OUTPUT ANALOG ANALOG HDTV1 2 HDTV1 2 HDTV1 2 HDTV1 2 ASPECT PFM 42B1 PFM 42B1E 4 3 43 16 9 16 9 16 9 16 9 3 23 AREA
78. 88603 571 737 21 s SWITCH KEY BOARD REFLOW Hm ii O T 0251 8 719 075 55 DIODE FCH30A06 D252 8 719 074 61 DIODE FCH30A04 lt 10 gt 10251 8 159 098 24 IC PQ30RV11 1C253 8 759 098 24 IC PQ30RV11 10254 8 159 284 06 IC PQ30RV31 TRANSISTOR 0204 8 729 047 67 TRANSISTOR 2SK3142 01 0207 8 729 047 67 TRANSISTOR 2SK3142 01 HEAT SINK D 55 2 434 993 21 SCREW 3X6 RS TIGHT SPRINGWASHER 6 28 PFM 42B1 PFM 42B1E TRANSISTORS 111 1 113 924 91 CERAMIC 4700pF 20 2501 C200 115 339 11 CERAMIC CHIP 10 501 0105 8 729 047 46 TRANSISTOR FSTKM 16A C201 117 219 51 ELECT 3900uF 20 10 0152 8 729 039 41 TRANSISTOR FS10KM 10 C202 117 350 91 ELECT 56uF 20 35V 0153 8 729 039 41 TRANSISTOR FS10KM 10 C204 117 219 51 ELECT 3900uF 20 10V C205 117 325 91 ELECT 330uF 20 25V HEAT SINK E ASSY C206 117 301 51 ELECT 820uF 205 167 C207 115 339 11 CERAMIC CHIP 0 1uF 10 501 2 434 993 21 SCREW 3X6 RS TIGHT SPRINGWASHER C208 107 904 11 ELECT 3 3uF 20 50V C209 163 037 11 CERAMIC CHIP 0 0220 10 501 DIODE C21 117 247 91 ELECT 820uF 20 6 3 D400 8 719 073 58 DIODE 20JL2C41A C21 107 904 11 ELECT 3 3uF 20 50V D401 8 719 073 58 DIODE 20JL2C41A C212 117 247 91
79. 9 1 25V 01081 28V 7 B CHIP 33 31 M 01080 1 0 1 25V B CHIP 101013 5 2 ISPLS12032E 107 Y C distributer R1078 0 1 25V B CHIP 2 8k CHIP 1077 81077 0 1 25V B CHIP C1089 01076 108 81076 0 1 25V B CHIP LE 25V k 5 101007 5 MSM514265C 60JS 8k FRAME MEMORY 1059 01075 0 1 0 1 25V 25V B CHIP nd B HIP L704 R1073 47H 479 HUS R1100 R110 1 5k 1 5k m CHIP CHIP 4 01278 01057 01062 RA 100 61045 1 1 AN our 01056 22 051 6 3V 16V F CHIP 26V 25V 1 1 B CHIP B CHIP R1071 1 5k CHIP 01025 1 DE 2SA1037AK x CHIP ntoos 81087 7 Uis 1 100 0 0 0 01069 R1091 R1099 BUFF I va Jee de due zal 5 GODI mbe si m CHIP 0 1 25V R1074 ds 01072 1 39 ORT 100 SE CHIP 1 a el ai nj 5 2 8 GEHIE 7 1 3 FL1001 01059 7 BK2125HM601 OUH CHIP CH CHIP inv 3D COMB FILTER TO P1 5 8 SCL gt EM TO P8 Fse gt FL1000 2125 601 OHU CHIP mr nm mmm Ehe B 889704 B J P7 PFM42B1 PFM 42B1E A 8 13 8 13 B 8 13 8 13 a a ep gt r ova 1
80. B Plasma display panel unit Glass side is lower 49 Outer box gt Plasma display panel unit Glass side is upper Two joint parts Two joint parts 5 Inner box bottom Notch Upper pad A Two joint parts Outer box Bottom PFM 42B1 PFM 42B1E 2 13 Section 3 Electrical Adjustments 3 1 Equipment Required Oscilloscope 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 Regulated DC power supply Remote commander RM 42B Note Perform the following adjustments at least 5 minutes after turning on the power 3 2 Electrical Adjustments Using the Service Mode The electrical adjustments can be performed using the remote commander RM 42B supplied with the 42 The remote commander has the Service Mode Select the Service Mode to perform the electrical adjustments as listed below Service Menu When you enter the Service Mode the mode menu appears as shown below The mode menu contains the three menus of MAIN MENU SERVICE MENU and MANUAL MENU as shown Select the SERVICE MENU to perform the electrical adjustments MODE SELECT MAIN MENU This is the user s menu Use the MAIN MENU when user adjustment items such as operat
81. CERAI TOR CERAI TOR ELECT TOR CERAI TOR CERAI TOR ELECT TOR CERAI TOR CERAI TOR CERAI TOR CERAI TOR TOR ELECT TOR ELEC TOR ELEC TOR FHI CH O ti Di Di LECT ERAI LECT ERAI LECT TOR TOR TOR TOR TOR TOR CHIP TOR CERAI TOR CERAI TOR CERAI ERAMIC ERAMIC ERAMIC 0 47 10 ERAMIC 47 47 10 68 47 47 47 47 47 47 47 47 47 10 47 47 47 47 47 MF 16V 105C 1MF 25V F 16V CHIP F 16V CHIP MF 16V 105 PF F 16V CH F 16V CH CH C C F 16V F 16V I FU 1MF 25V F 16V 1MF 25V F 16V CHIP F 16V CHIP FU TU F 16V 1MF 25V F 16V 16 F 16V BP F 16V BP F 25V 16V 105C 16V 105C F 25V F 25V MF MF F 25V F 25V 16V CHIP PF 50V F 25V om oh F 16V 105C 0PF 50V 0PF 50V 0PF 50V F 25V F 25V 16V BP 16V BP 16V BP F 25V d F 16V CHIP 1MF 25V F 16V CHIP 1MF 25V F 16V CHIP CERAMIC 47PF 50 F 25V 00PF 50V E PFM 42B1 PFM 42B1E Bl BOARD SP Ref No or Q ty Part No C6414 1 164 004 11 C6415 1 163 251 11 C6416 1 163 243 11 CN6101 1
82. CHIP 10 1 10W 2012 6 18 PFM 42B1 PFM 42B1E B BOARD B BOARD Ref No Ref No or Q ty Part No SP Description or Q ty Part No SP Description R616 216 083 00 s RESISTOR CHIP 27K 1 10W 2012 R1002 216 681 11 s RESISTOR CHIP 18K 1 10W 2012 R617 216 097 00 s RESISTOR CHIP 1 100 2012 R1003 216 687 11 s RESISTOR CHIP 33K 1 10W 2012 R618 216 083 00 s RESISTOR CHIP 27K 1 10W 2012 R1004 216 681 11 s RESISTOR CHIP 18K 1 10W 2012 R619 216 025 00 s RESISTOR CHIP 10W 2012 R1005 216 687 11 s RESISTOR CHIP 33K 1 10W 2012 R620 216 025 00 s RESISTOR CHIP 10W 2012 R1006 216 055 00 s RESISTOR CHIP 1 8K 1 104 2012 R621 216 113 00 s RESISTOR CHIP 470K 1 104 2012 R1007 216 061 00 s RESISTOR CHIP 3 3K 1 10W 2012 R624 216 025 00 s RESISTOR CHIP 10W 2012 R1008 216 049 11 s RESISTOR CHIP 1K 1 100 2012 R632 216 001 00 s RESISTOR CHIP 10 1 10W 2012 R1009 216 049 11 s RESISTOR CHIP 1K 1 100 2012 R633 216 025 00 s RESISTOR CHIP 10W 2012 R1010 216 687 11 s RESISTOR CHIP
83. COUPL COUPL ER PC123F2 ER PC123F2 HJ rm COUPLER PC123F2 COUPLER PC123F2 STOR 2SA1037AK T146 R STOR 28A1037AK T146 R STOR 287334 STOR 2SB624 BV345 STOR 2SB624 BV345 STOR 28 1623 1516 STOR DTC114EK STOR 28A1037AK T146 R STOR 28 1623 1516 STOR 28A1037AK T146 R STOR 28 1623 1516 STOR 28A1037AK T146 R STOR 28 1623 1516 STOR 25 1590 STOR 28A1037AK T146 R STOR 28B1240TV20R STOR 2SD1862TV20R STOR 28A1037AK T146 R STOR 28K1590 T1B STOR 25 1623 1516 STOR 25 1590 STOR 28C1623 L516 STOR 28K1590 T1B STOR 25 1590 STOR 25 1590 STOR 2SK2425 STOR 2SB624 BV345 STOR 2SB624 BV345 STOR 28 1623 1516 STOR 25 1590 STOR 28C1623 L516 STOR 28K1590 T1B STOR 28K1590 T1B STOR 25 1590 STOR 2SK3212 01 STOR 2SB624 BV345 STOR 2SB624 BV345 6 31 lt RESISTOR gt R206 216 049 11 RES CHIP 5 10W R207 208 798 11 RES CHIP 4 7K 0 5 1 10W R100 1 260 131 81 CARBON 470K 5 2W R208 208 782 11 RES CHIP 0 5 1 10W R101 240 313 11 CEMENT 4 7 5 5 R102 249 397 11 CARBON 22 5 141 R209 208 806 11 RES CHIP 0 0 5 10W R103 240 313 11 CEMENT 4 7 5 5 R210 216 049 11 RES CHIP 5 10W R104 240 910 11 CEMENT 4 7 5 5 8211 216 073 00 RES CHIP
84. H FREQUENCY V FREQUENCY SYNC POL H V TOTAL H PIXEL LEFT EDGE H RESOLUTION TOP EDGE V RESOLUTION DOT PHASE CP PLACEMENT CP DURATION INTERLACE MODE FILED MODE FRAMELOCK MODE MATRIX SELECT PICTURE AGC ASPECT ZOOM APERTURE INIT APERTURE HIGH APERTURE MID APERTURE LOW AUTO PLL SYNC WIDTH us 01100000 00000101 31 47 kHz 60 00 Hz 4 NEGA NEGA Et 0 7 Si WW ES A Si 7 4 Ex Ch za TA 1 Acceptable type of input signal Horizontal frequency Vertical frequency Sync signal polarity Total number of horizontal dots Horizontal dot position to start reading Horizontal resolution Number of dots Vertical dot position to start reading Vertical resolution Number of dots 0 Dot phase 1 Clamp pulse width Number of dots Clamp pulse position Number of dots Interlace setting In field processing setting Vertical sync setting Color difference matrix setting Automatic brightness adjustment setting Aspect ratio setting Zoom setting Aperture initial value setting Aperture data setting Aperture data setting Aperture data setting Automatic PIXEL ADJUST setting 2 3 4 5 6 7 8 9 1 1 1 1 1 1 1 1 1 1 2 2 2 2 2 25 Horizontal sync signal width 2 3 4 5 6 7 8 9 0 1 2 3 4 5 Note A maximum of 8 lines of the above menu can be displayed
85. METAL PLATE U rg rg rg RES CH DO EJ O I I U rg FU rg rg T Jg HU rg rg gt ca 323 Jg rg tg rg rg O METAL O RES CHIP O RES CHIP 0 RES CHIP CEMENT 0 RES CHIP CEMENT CEMENT CARBO CARBO 0 RES CHIP RES CH RES CH RES CH RES CH 0 RES CE Jg rg tg rg rg RES CH RES CH 0 RES CE 1 RES CH RES CH U rg rg rg O RES CHIP O RES CHIP METAL PLATE 1 RES CHIP O RES CHIP 39K 33K 3 6K 2 2K RRR c gt OK WI CO gt SK oe oe oo HB O lt gt lt gt oe 01 oo oo oe ove c AP oo oo oo oe oe oe oe O lt gt lt gt cn oe oe oe cn oo lt gt lt gt Cr cn oo n oo c ove oe oe oe oe oe oe A A e DO m ccc cc RV15 RV201 RV25 RV30 RV4 RV401 RV402 RV5 RV6 RV601 RV602 RV T101 1102 T105 T501 1502 1701 1702
86. Memory map of the preset data area is shown in Table 1 PROG PRESET FIXED PRESET The areas from 1 to 20 are assigned to store the additional signal The areas from 21 to 74 are assigned to store the internal signal Menu Structure PRESET EDIT gt ORIGINAL DATA SELECT DATA EDIT SAVE AREA SELECT How To Edit The Preset Data As shown in the illustration the system controller contains the memory area i e Editing RAM that is assigned only for data editing The source data that is used for editing must be firstly copied to the Editing RAM Edit then the copied data as desired Finally save the result of editing in the specified preset area of the EEPROM The illustration shows an example that the data in the preset area No 02 is once copied to the Editing RAM where data is edited The edited data is sent back to the preset area No 11 where the edited data is saved 3 6 EEPROM Preset areas Preset Area 01 System controller Preset Area 10 Preset Area 02 m rcd Editing RAM Preset Area 03 04 L 05 Preset Area 06 Editing Preset Area 07 PR 1 lt Preset Area 08 i Preset Area 09 Preset Area 11 amp lt 3 Preset Area 12 PFM 42B1 PFM 42B1E a ORIGINAL DATA SELECT Menu Structure Select the source data that is used for
87. R1123 216 049 11 s RESISTOR CHIP 1 10W 2012 R1185 216 065 91 s RESISTOR CHIP 4 7K 1 2012 R1124 216 049 11 s RESISTOR CHIP IK 1 100 2012 R1186 216 065 91 s RESISTOR CHIP 4 7K 1 2012 R1126 216 073 00 s RESISTOR CHIP 10K 1 10W 2012 R1187 216 065 91 s RESISTOR CHIP 4 7K 1 2012 R1127 216 073 00 s RESISTOR CHIP 10K 1 10W 2012 R1188 216 065 91 s RESISTOR CHIP 4 7K 1 2012 R1129 216 616 11 s RESISTOR CHIP 11K 1 10W 2012 R1189 216 065 91 s RESISTOR CHIP 4 7K 1 2012 R1130 216 045 00 s RESISTOR CHIP 680 1 10W 2012 R1190 216 071 00 s RESISTOR CHIP 8 2K 1 10W 2012 R1131 216 671 11 s RESISTOR CHIP 6 8K 1 104 2012 R1191 216 073 00 s RESISTOR CHIP 10K 1 10 2012 R1132 216 073 00 s RESISTOR CHIP 10K 1 10W 2012 R1192 216 017 00 s RESISTOR CHIP 15K 1 100 2012 R1133 216 073 00 s RESISTOR CHIP 10K 1 10W 2012 R1193 216 073 00 s RESISTOR CHIP 10K 1 10 2012 6 20 PFM 42B1 PFM 42B1E B BOARD B BOARD Ref No Ref No or Q ty Part No SP Description or Q ty Part No SP Description R1194 216 017 00 s RESISTOR CHIP 15K 1 10W 2012 R1263 216 035 00 s RESISTOR CHIP 270 1 104 2012 R1195 21
88. S 04098 des Sisi 64012 3 7 Ka re 28V TZ Lo TC74HC157AF 3 R4106 5 50 sj Y 95 i ex B CHIP Sz9 CHIP 252 330p 390 1 s o CH CHIP CH CHIP SE adc 11 1 1 1B 4 m 64077 7 1Y 4B L4013 0 1 64084 Zap Nnm m S T Ma 104005 n 0 2502412 146 2B au TIME CONSTANT SW 2Y 3B SN74LV4053ANSR 4076 0997 1 7 Lig SYSTEM SW 0 1 25V B CHIP 402 GND R4090 CHIP 16V 6 8k e e T lt TO P2 9 10 11 3 3 9 1 X HD gt 10k 25V 1C4008 11 X56 296204029 tad CHIP TC74HC123AF PUE lt CP To 01 144 INV POLSE GEN T C SM 51 n TO P8 see D I m 04110 MP if mus I i B CHIP 76 ANGGE 1 V PULSE GEN 4 e R4137 FC k AFC SW gt Libere RN CP 1 2uH CT 04111 iP on enm R Y gt esi m A soi E 1 B Y Y C410 04038 gt L 100 DTC144EKA INY 1 4 m AEN Y ge a Si 5s 5 CH CHIP 5 X VBL P8 9 L FV ro P8 11 2 5 1 7 gt 64092 w 124010874 lt B Y a 2 1 13 SC 2587084 te 20 30 To P5 04033 R447 Burt 11 gt lt 0 P2 k ovo 04 gt 5 Rate e 2SB709A RN CP 3 9 0 1 0 2 DYOS RNECR gt tz To Pa Za R4132 Coen 0 1 25V B CHIP 270 8 0 gv 6 FSC2 6 XFSC2 104006 02309 D A DCYO
89. SW 0403 0406 188355 HZU6 2B C420 R461 0 1 470k 16401 al 0409 x 4 C411 d TA76431AS 180 710 sov 2 R405 SHUNT REG 10V Tsoy Tio Pio R410 22k 22k 2 4 2 4 D604 20FL2C41A VA RECT 110k 0605 E 2SK1590 SW 2 4 R653 654 8644 ceto 120k 120k 10k F D i 5906 ed Iess nest 28 3212 15k laro 8659 Rep VA FORCED FD toov 18477 DISCHARGE 58 2 4 2 4 D603 155355 10k D608 188355 10600 BA10358F VA OUT CONTROL V D606 188355 R627 47k 10602 BA10324AF VA PROTECT R628 1k RV601 2 2k OCP ADJ 1603 BA10358F 0602 R606 188355 10k D600 HZU6 2B 0601 2SK1590 SW 0607 155355 0604 2SK1590 R614 3 6k s Q603 2SK1590 SW 0600 2802412 SW D601 0605 R609 HZU6 2B 1k C621 0 1 R660 C622 470k 0602 2802412 8605 SW 22k 2 C601 0 01 C602 0 1 R603 22k R602 1k 16601 TA76431AS SHUNT REG C611 180 10V C612 10 50V C618 10 50V C610 10 50V 5 132 M 474 SWITCHING REGULATOR 8 34 8 34 PFM42B1 PFM 42B1E B C D E F G H 4 lt 8232 C214 LJ 0204 PHI03
90. i Wr T 10606 8703328 4007 Va 2 04003 DTC114EK TO P5 S 3 C4113 4147 TO P5 47 VID SELI gt CHIP CHE GRIP 79V 17 4 z 1k CH 2yH R4023 vseno 1 Er GALE 849 240 50V C4114 CHIP AJ 04013 z RNC 1 de ep 302 S FLZ603 4004 KAJA 4 i M 7 H314LNKS 3989 w 04017 04018 020308 01008 04008 Y INPUT LPF R4052 2SC2412K T 1 46 2SB709A R4080 ud HVU359 I ONR RN 0407 BUFF R4040 Em R4079 GHIGHIE St gt es Mio 84043 1006 R4045 5 I CXD2030R 84083 k E CHIPS e tk CHIP TO P2 Y OUT w 00006 gt RN CP 0408 DIGITAL COMB CHROMA DECODER R4078 i 2 2un CHIP 2520 R4044 04020 AW 56k DE CHIP D4007 TO P2 7 V OUT l 2 2 SC dip 3 3 2887094 cuip 64058 HVU359 04025 0 1 REN R4038 R4039 17 7MHz chip 25V 220k C4038 oni TO P2 B CHIP CH De LM CHIP dije m TO P2 SECAM C gt R4084 SEH 51 CHIP ik 3 3 i CHIP z 5 6 Y C4060 d 5 7 2 I 680p X4001 HH 84030 eT onip CHIP 2520 s ik IRN CP 4 7k CHIP 10 3T 140 T 20 04005 154001 SW OUT Kr CXA18600 84081 24006 ur eLbsoe 1 I B CHIP SW amp CLAMP eis THVUS59 16V 04004 03 H314LNKS 3989 4059 4065 SOV C INPUT LPF 330 Be AE CH CHIP 64012 50V JE T 39V gt 5 46 Y Sa ST e AMP FSC2 55
91. press A V to move the cursor to ORBITING and press ENTER The following menu appears on the monitor screen PIC ORBITING PORBITING OFF ORBIT RANGE 5dot ORBIT CYCLE 10sec SELECT S E T ENTER E N D MENU Reducing Afterimage Ghosting Screen Saver Function Controlling Power On Off Automatically Power Control Function 2 Press A V to move the cursor f to ORBITING and press ENTER The following menu appears on the monitor Screen ORBITING 3 Select the ORBITING mode with A V OFF Cancel the PIC ORBITING function ON Set the PIC ORBITING function 4 Press MENU The menu returns to the PIC ORBITING menu 5 Select ORBIT RANGE moving distance or ORBIT CYCLE time with A V and press ENTER The following values can be selected ORBIT RANGE Sdot 10dot 15dot 20dot ORBIT CYCLE 10sec 30sec Imin 5min The following menu appears on the monitor screen The illustration below is for selecting ORBIT RANGE ORBIT RANGE 5dot 6 Adjust the ORBIT RANGE or ORBIT CYCLE with A V and press MENU When both PIC INVERSION and PIC ORBITING are set to ON If the PIC ORBITING function is actuated while the picture is reversed the reversed picture is displayed changing position Controlling Power On Off Automatically Power Control Function This monitor has two power controlling functions You can set it to turn off the power
92. the monitor screen LOAD No 01 seen 1 58 59 9R POL N N CHROMA B 00 PHASE 00 PICTURE AGC ON SHARPNESS MID H LINEARITY 00 V LINEARITY 00 DOT PHASE 50 TOTAL H PIXEL 800 SELECT S T ENTER E N D MENU The signal type and the color system or horizontal vertical frequency are displayed in cyan showing that the signal type of the selected memory number is the same as that of the current setting and you can call up the stored setting or in red showing that the signal type of the selected memory number is not the same as that of the current setting and you cannot call up the stored setting 3 Press ENTER The LOAD COMPLETED message appears for about five seconds and the picture is adjusted to the selected setting If the loading fails the LOAD ERROR message appears on the monitor screen Try to load the setting again 30 Selecting the On screen Language You can select the on screen language from among English German French Italian Spanish or Japanese 1 Press MENU The main menu appears on the monitor screen MAIN MENU SELECT PIC CONTROL PIC SIZE CONFIG MEMORY REMOTE STATUS SELECT S E TENTER EN D MENU 2 Press A V to move the cursor to CONFIG and press ENTER The CONFIG 1 2 menu appears on the monitor screen CONFIG 1 2 DISPLAY ON W VGA OFF CLOSED CAPTION OFF COLOR SYSTEM AUTO SCREE
93. there are cases that the PIXEL ADJUST mis opera tions Therefore set the AUTO PLL PIXEL to the OFF position In such a case the TOTAL H PIXEL can be adjusted only manually This function becomes valid only when the signal that enables the PIXEL ADJUST is inputted to the PFM 42B Set the AUTO PLL PIXEL item to the ON position normally H V SHIFT Selects the method to control the horizontal and f vertical picture shift EDGE When EDGE is selected a picture is shifted by changing the starting position when reading data into memory Using this function the entire area including blanking of all pictures can be displayed by shifting The variable range of shifting is 1 horizontal and vertical period respectively CAPT When CAPT is selected the picture that is already written into memory is shifted by a scan converter Using this function a picture can be shifted as much as 50 of a picture When a picture is partly lacked at an end of a picture the lacked portion of a picture cannot be displayed Set the H V SHIFT item to the EDGE position normal ly PFM 42B1 PFM 42B1E VIDEO SHARP SW Sets analog aperture ON or OFF The two methods are used for the aperture correction of the video signals NTSC PAL SECAM NTSC4 43 PAL60 PAL M and YUV signal having horizontal frequency of 15 KHz These two methods are the scaling filter and the analog aperture of the scan converter ON Both the scaling filter and the analog
94. 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 ma kun ske med batteri af samme fabrikat og type Lev r det brugte batteri tilbage til leveranderen ADVARSEL Lithiumbatteri Eksplosjonsfare Ved utskifting benyttes kun batteri som anbefalt av apparatfabrikanten Brukt batteri returneres apparatleveranderen VARNING Explosionsfara vid felaktigt batteribyte Anvand samma batterityp eller en likvardig typ som rekommenderas av apparattillverkaren Kassera anv nt batteri enligt g llande f reskrifter VAROITUS Paristo voi rajahtaa jos se on virheellisesti asennettu Vaihda paristo ainoastaan laitevalmistajan suosittelemaan tyyppiin H vit k ytetty paristo valmistajan ohjeiden mukaisesti Table of Contents 1 Operating Instructions 1 1 2 Service Informations 2 1 Board Layout ceno t p e eU RR RE 2 1 2 2 Disassembly tmd ege EXE ENS YE ENS eves 2 2 2 2 1 Board BKM B10 Removal 2 2 2 2 2 Rear Cover Assy Removal 2 3 2 2 3 Bezel Assy and YA YB Boards Removal 2 4 2 2 4 Block Assy Removal 2 5 2 2 5 Band BI Boards
95. um av 0 1 25V B 5 60281 Toe CHIP 106909 1 4 B CHIP AM u lt TO P1 6 9 ots 14 TO74HC125AF 4 3 0944 R941 SEG luz 19910 2 5 UDZ TE 17 4 7B 47 I ara SIRCS2 P5 35 STESTT lt R286 47k CHIP 1 AW h PROTECT pesi e 2 5 0937 ae 4 08 TO P5 a 287 47 CHI L9 z rwn SHIP 6 3V Go lt DMP TX TO P2 5 13 ja 0 1 R288 47 CHIP D804 CHIP CHIP 5V X2 X1 X X3 A SHB R9109 UDZ TE 17 128 lt DMP RX TO 13 19105 106909 2 4 4 R289 47 Eur 106906 822 CHIP TC74HC1 25AF W sta UDZ TEL 1774 7H TC74HC4052AF EL 5 0 lt DMFZGEK P2 I D9309 74 10 3 S R922 SYNC SW ti lt SDA TO P5 7 8 UDZ TE 17 5 6B 5AF 8 5V Vode Y MI 10 lt SCL P5 7 8 ut PROTECT sil d m 0000000 LE 556 0 9 1 0805 0942 DTC144EKA Ze TE Sie 104013 UDZ TE 17 12 UDZ TE 17 4 7B et 7 5 S qa TC74HC125AF i 24LC21T 8N 0938 2 1945 4 i m OP CTL2 PT 6 3V UDZ TE 17 4 7B 86950 Zoe cN6102 mim w CHIP 4842 lt OP SENS TO P5 i NC M 12V REG EN i 3 J lt A MUTE TO P5 io a TO P1 6 9 13V CHIP lt RGB1 RGB2 TO P5 DEM R6985 TE 17 4 17 AM TO P2 R6986 100 CHIP LT AN lt V TO P2 SECHS GN mp SND sH 5 28V Q2 16V ii RN CP PB B de Me TETES lt 2320 MOS TO P5 100 GND T RN CP 50
96. 11 s CAPACITOR CERAMIC 0 1MF 25V C1087 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1088 163 021 91 s CAPACITOR CERAMIC 0 01MF 50V C1089 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1090 164 004 11 s CAPACITOR CERAMIC F 25V C1091 164 004 11 s CAPACITOR CERAMIC F 25V C1092 164 004 11 s CAPACITOR CERAMIC F 25V C1093 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1094 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1095 164 004 11 s CAPACITOR CERAMIC F 25V C1096 164 004 11 s CAPACITOR CERAMIC F 25V C1097 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1098 163 809 11 s CAPACITOR CHIP CERAMIC 0 047MF C1099 107 781 11 s CAPACITOR ELECT 47MF 16V BP C1100 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1101 163 809 11 s CAPACITOR CHIP CERAMIC 0 047MF C1102 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1103 163 809 11 s CAPACITOR CHIP CERAMIC 0 047MF C1104 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1105 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1106 163 253 11 s CAPACITOR CERAMIC 120PF 50V 1107 163 235 11 s CAPACITOR CHIP CERAMIC22PF 50V C1108 107 181 11 s CAPACITOR ELECT 47MF 16V BP C1109 126 401 11 s CAPACITOR ELECT 1MF 50V CHIP C1110 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V 1111 164 162 11 s CAPACITOR CHIP CERAMIC 100PF C1112 126 401 11 s CAPACITOR ELECT 1MF 50V CHIP C1113 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1115 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP C1116 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1117 164 0
97. 15 GND 1 1 AM Spo ve FAN DRV TO P5 REG FAN DRV SW 8 12 8 12 B SS9704 B J P6 PFM42B1 PFM 42B1E H 01026 2802412 146 01027 2802412 146 2591055 AK BUFF B 7 13 B 7 13 TO P1 5 8 SDA gt R1067 1049 di m 7 2701068 CHIP 16V 01044 11002 01005 10044 0 1 47 TO P2 8 Hk 16V 21146 18uH 25V 16v 188355 J CHIP B CHIP R1080 15k 0107 10 1 16V 957 FL1003 51053 5 R1098 5 2 QUH 0 1 82 CHIP 25 5 CHIP R107 2 18k CHIP 8 E R1081 3 3V S 100 gt EE TO P8 A I 5V 101009 ES a 3 a 2 4 3 3 3 8 2 122 z 2 2 5 25 35 3 2 3 3 ned z 5 a Z 5 z z 5 5 3 3V Y 1 01050 47 16v 1 01061 R1069 R1070 24 47 68 CH CHIP u CHIPS Sou 01058 m 24p CH CHIP 1 01084 0 1 25V f 1060 B CHIP
98. 2 6 2 2 6 Extention Board Connection 2 7 2 2 7 Power Supply Assy Removal 2 8 2 2 8 Switching Regulator APS 132 M board Removal 2 9 2 2 9 T Board Removal tester ete 2 10 2 2 10 Plasma Display Panel Unit Removal 1 2 2 11 2 2 10 Plasma Display Panel Unit Removal 2 2 2 12 2 2 11 Plasma Display Panel Unit Packing When Sending it to FUJITSU 2 13 3 Electrical Adjustments 3 1 Equipment Required eatem egredere 3 1 3 2 Electrical Adjustments Using the Service Mode 3 1 3 3 White Balance Adjustment 3 25 3 4 Calibration Adjustment 3 25 3 5 Video Processor 3 26 3 6 Watch Error Adjustment 3 26 3 7 Switching Regulator APS 132 M Board Adjustments 3 27 3 7 1 Preparation 3 Re bre EC RR UTERE EHI mE 3 27 3 7 2 13 V System Minimum Frequency Adjustment 3 27 3 7 3 VS System Minimum Frequency Adjustment 3 27 3 7 4 System Minimum Frequency Adjustment 3 27 3 7 5 Voltage Adjustment 3 27 327 6 5 Adjustment eei edocet etti tee 3 27 3 7 7 13 5 V Adjustment rhet 3 27 3 7 8 VS Adjustment 3 28 3 1 9 NVS OCP e mU 3 28 3 7 10 VA Adjustment 3 28 3 7 11
99. 2012 R1296 216 295 00 s CONDUCTOR CHIP 2012 R1226 216 081 00 s RESISTOR CHIP 22K 1 10W 2012 R1297 216 655 11 s RESISTOR CHIP 1 5K 1 10W 2012 R1227 216 033 00 s RESISTOR CHIP 220 1 10W 2012 R1298 216 666 11 s RESISTOR CHIP 4 3K 1 10W 2012 R1228 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R1301 216 295 00 s CONDUCTOR CHIP 2012 R1229 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R1305 216 671 11 s RESISTOR CHIP 6 8K 1 104 2012 R1230 216 049 11 s RESISTOR CHIP 1 10W 2012 R1306 216 667 11 s RESISTOR CHIP 4 7K 1 104 2012 R1231 216 037 00 s RESISTOR CHIP 330 1 10W 2012 R1308 216 671 11 s RESISTOR CHIP 6 8K 1 10W 2012 R1232 216 033 00 s RESISTOR CHIP 220 1 10W 2012 R1309 216 667 11 s RESISTOR CHIP 4 7K 1 10W 2012 R1233 216 061 00 s RESISTOR CHIP 3 3K 1 10W 2012 R1311 216 667 11 s RESISTOR CHIP 4 7K 1 10W 2012 R1234 216 653 11 s RESISTOR CHIP 1 2K 1 10W 2012 R1313 216 611 11 s RESISTOR CHIP 6 8K 1 10W 2012 R1235 216 675 11 s RESISTOR CHIP 10K 1 10W 2012 R1314 216 093 00 s RESISTOR CHIP 68K 1 10W 2012 R1236 216 651 11 s RESISTOR CHIP 1K 1 10 2012 R1315 216 683 11 s RESISTOR CHIP 22K 1 10W 2012 R1237 216 057 00 s RESISTOR CHIP 2 2K 1 10W 2012 R1316 216 669 11 s RESISTOR CHIP 5 6K 1 104 2012 R1238 216 062 00 s RESISTOR CHIP 3 6K 1 104 2012 R1317 216 661 11 s RESISTOR CHIP 2 7K 1 10W 2012 R1240 216 295 00 s CONDUCTOR CHIP 2012 R1318 216 669 11 s RESISTOR CHIP 5 6K 1 10W 2012 R1241 216 113 00 s RESISTOR
100. 22 0 1 0 22 00 1 C304 0310 F D 50V 25V CH 25V 1000p 47 10k 50V d bd bd bd o d bd ki f MIN ADJ R317 1M 0303 22 HZS7 582 10301 T702 0702 BA10393F E2 Pozos ae E 17 48 mE 188355 47 VA MAIN SWITCHING GND OUT AM Q R706 0702 2 PK LMT Vcc 5 4 Tk 188355 2 R325 m 2 2k C707 2 9 00S ZS m m A A Vr 0700 0701 VA MAIN SWITCHING 4 D wa 4 sense SS 3 22 e 0703 450V Po TT j 2SK2370 1SS355 VA MAIN SWITCHING 5 OUT 2 1 W lt 2 188355 Rset Has y Radi 7 R707 0703 C716 4 Tk 188355 0 018 KE l V sense 1 2 9 ne a 10009 Gi 1250 25 1590 C708 VOLTAGE DET 470p 0701 OUT o P 298624 716 0717 0 05 0 018 V rmsVref VA MAIN SWITCHING 2W 1250V 7 z 8 o w R319 10300 R326 0311 R341 220k TK83854D 150k 0 1 510 0300 PFC CONTROL 25 1590 e R309 Eno PET 100k 10302 9 0 TA76431AS 7 7 0301 SHUNT REG mg 25 1037 R322 2 BUFF 1k W AM R704 gt 0 46 F D Res GND 2 474 10099 T 1323 0808 ves sr 5 R711 D704 dok 155355 10k 155355 2 WoW 100 3 RT IM e 1 4W 4 R708 V IN i C302 D301 0302 303 E a R70 0817 R352 0300 9305 0301 18310 10927 HRU 470p R342 R343 0312 0313 314 R346 c315 ON OFF RT Bria R717 R718 0 22 470k 0 01 330k 0 1 5 2 3 3k 25
101. 25V C1240 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1182 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1241 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1183 126 405 11 s CAPACITOR ELECT 10MF 50V CHIP C1242 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1184 126 392 11 s CAPACITOR CHIP ELECT100MF 6 3V C1243 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1185 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1244 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V PFM 42B1 PFM 42B1E B Re 0 Le Nep Ke a Ta Cy 4 4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 BOARD f No Q ty Pa 245 5 246 241 z 248 249 x 250 251 252 260 5 261 262 263 264 265 5 266 261 268 x 269 270 211 3 278 E 282 283 000 001 0 c O 1 Cn 6 12 rt No 64 004 64 004 64 004 64 004 26 405 64 004 26 396 26 396 64 004 64 004 64 004 63 243 63 243 63 243 63 243 63 243 63 243 64 004 64 004 63 235 26 392 64 004 28 416 26 405 28 416 64 004 63 215 26 405 64 004 64 004 64 004 63 021 9 26 405 64 004 26 405 26 4 26 405 63 021 9 2
102. 46 4 5 6 PIC AGC SW ERIC ARG SW 1900 04026 peas 104011 VEL 5640 3 6 a 01013 56 Ysw 3 6 51 04039 166905 RGB SW MUTE 06901 06902 MUTE 06903 106906 SYNC SW 06182 CN6102 2 3 PR R Y G 4 PB B SYSHS 5 5 SYNCSEL 5 6 S SEP BIAS INPUT2 INPUT1 6 6 6 6 6 6 CN6102 1 3 ROUT M5 B1 BOARD G OUT M4 CN6101 2 2 B OUT M3 506 5 06908 6 56 RGB3 6 56 VIDEO RGB 6 56 RGB1 RGB2 10101 SYNC SEP 10223 100 4 BUFF 0100 B1 BOARD CN6101 1 2 RGB SW B BOARD 1 6 B 2 6 QA 2 2 B1 B 2 6 QA 2 2 B1 CN6102 2 3 106102 CHROMA CONTROL 185 106106 MATRIX SW B BOARD 5 6 106104 106103 5V 3 106103 MATRIX SW CHROMA CONTROL CN6102 3 8 106401 HD YPBPR 2 166401 D 4 J9501 RGB SW VIDEO AUDIO IN
103. 5 6K 1 10W 2012 RESISTOR CHIP 100K 1 10W 2012 RESISTOR CHIP 100K 1 10W 2012 RESISTOR CHIP 680 1 10W 2012 RESISTOR CHIP 12K 1 10W 2012 RESISTOR CHIP 12K 1 10W 2012 CONDUCTOR CHIP 2012 CONDUCTOR CHIP 2012 PFM 42B1 PFM 42B1E B BOARD Ref No or Q ty Part No R4132 216 295 00 R4133 216 6T1 R4134 216 6T1 R4135 216 699 R4136 216 699 R4137 216 691 R4138 216 679 R4139 216 069 00 R4140 216 683 R4141 216 069 00 R4142 216 6T1 R4143 216 645 R4144 216 647 R4145 216 673 R4146 216 049 R4147 216 097 00 R4148 216 091 00 R6164 216 627 R6165 216 621 R6201 216 699 R6202 216 693 R6203 216 683 R6204 216 659 R6205 216 651 R6206 216 651 R6207 216 679 R6208 216 651 R6209 216 663 R6220 216 643 R6941 216 081 R6942 216 081 R6943 216 121 R6944 216 121 R6945 216 121 R6946 216 295 R6947 216 295 R6948 216 295 R695 216 073 R6952 216 073 R6953 216 121 R6954 216 121 R6955 216 121 R6956 216 073 R6957 216 073 R697 216 073 R6985 216 025 R6986 216 025 R6987 216 025 R6988 216 089 R6989 216 113 R6991 216 073 R6992 216 073 R8001 216 025 R8002 216 073 R8003 216 097 R8004 216 025 R8005 216 025 R8006 216 089 R8007 216 001 R8008 216 073 PFM 42B1 PFM 42B1E SP S S S S S cn XQ cn XQ
104. 60 61 62 63 Resolution 852 x 480 856 x 480 at 60Hz 856 x 480 at 60Hz 856 x 480 at 60Hz Pixel Clock 34 0252 MHz 33 627 MHz 31 500 MHz 31 500 MHz Horizontal Freguency 31 740 kHz 30 240 kHz 30 057 kHz 30 057 kHz Vertical Freguency 60 000 Hz 60 000 Hz 59 637 Hz 60 115 Hz Horizontal Sync Polarity NEGATIVE NEGATIVE selectable NEGATIVE selectable NEGATIVE selectable Vertical Sync Polarity NEGATIVE NEGATIVE selectable NEGATIVE selectable NEGATIVE selectable Scan Type PROGRESSIVE PROGRESSIVE PROGRESSIVE PROGRESSIVE Horizontal Total Active Sync Front Porch Back Porch Total Active Sync Front Porch Back Porch 3 24 PFM 42B1 PFM 42B1E 3 3 White Balance Adjustment Switch the WINDOW to either TYPE or TYPE2 Select the COLOR TEMP HIGH Select RED GAIN and GREEN GAIN Perform the white balance adjustment until the color temperature satisfies the specifications of 9300 K Set BLUE GAIN to 255 normally Select the COLOR TEMP LOW Using BLUE GAIN RED GAIN and GREEN GAIN perform the white balance adjustment until the color temperature satisfies the specifications of 6500 K Note When the white balance at 6500 K cannot be obtained by any means decrement the BLUE GAIN by 16 steps
105. 623 L5L6 623 L5L6 3TAK T 623 L5L6 623 L5L6 46 R STOR 2SA1037AK T146 R STOR DTA144EKA T146 STOR 28 1623 1516 STOR 258798 STOR DTA144EKA T146 STOR DTC114EK STOR 2SA1037AK STOR 28C1623 L516 STOR 287377 TE16L STOR 25 103 46 R STOR 2SA1037AK T146 R STOR 2SA1037AK T146 R STOR 2SA1037AK T146 R STOR 28C1623 L516 STOR 28C1623 L516 STOR 28C1623 L516 STOR 2SA1037AK T146 R STOR 2SA1037AK T146 R STOR 2SA1037AK T146 R STOR 28C1623 L516 STOR 25 STOR 28 1623 1516 STOR DTC144EKA STOR 2SA1037AK T146 R STOR DTC144EKA 623 L5L6 STOR 2SA1037AK T146 R STOR DTC144EKA STOR 25 1623 1516 STOR 25 1623 1516 STOR 28C1623 L516 STOR 25 STOR 25 STOR 25 STOR 2SA STOR 2SA 623 L5L6 623 1516 623 1516 3TAK T 3TAK T STOR 25 STOR 25 STOR 2SA STOR 25 STOR 2SA 623 L5L6 623 L5L6 3TAK T 623 L5L6 3TAK T STOR 2SC STOR 25 STOR 2SA STOR 25 STOR DTC 623 L5L6 623 L5L6 37AK T 623 1516 44EKA STOR DTC STOR DTC STOR 25 STOR 2SC STOR 25 44 44 623 1516 623 1516 623 1516 B BOARD Ref No or Q ty Part No 41 42 43 44 45 46 47 48 49 30 31 32 33 34 35 36 57 58 59 60 tO tO IO OO 45 RE ooooo 4 Cn m tO tO IO OO gt L3 O tO tO IO OO p Cn 20 21 22 IO tO IO OO par 23 24 25 26 21 IO tO IO OO 28 29 30 31
106. 75 8 759 447 90 8 759 528 48 8 759 082 61 8 759 430 79 8 752 070 58 8 752 352 09 8 752 369 15 8 759 595 97 8 752 369 84 8 759 296 53 8 759 239 55 8 759 239 55 8 759 235 14 8 759 239 55 PFM 42B1 PFM 42B1E SP Description XQ XQ cn XQ cn cn cn XQ cn XQ lt gt cy TC7S04FU TE85R TC74HC126AF M62352GP TC74LCX244F EL MAX202CSE RS9C348A E2 TC74HC126AF TC74HC125AF TC74HCT244AF TC74VHC14F HD64F2633TE TC7S08FU TE85R M24C64 WMN6T S 80842ANNP ED6 T2 S 80842ANNP ED6 T2 JM2903 3175 1211 1211 T4LV4053ANSR SN74LV4053ANSR TC4W53FU CXA1211 L M 1881M SM514265C 60JSDR1 BA033FP BA033FP SC7S04F UPD6408 SCTS04F 2GF 3BA ISPLSI2023E 110LT48 BA10358F BA10358F BA10358F 17395 SN74LV4053ANSR 28622812 5 1 29405 5 0 BA12FP E2 CXA2119 PQ07V2012P TLC2933IPWR 12 PQ3T253U MSM56V16160F 10TS K CXD20900 TLC2932IPWR TLC5733AIPM NJU7032M TE2 TC4W53FU TDA8395T N3 CXA18600 14 CXD23000 CXD2030R SN74LV4053ANSR CXD2309Q T6 UPC1862GS E2 TC74HC123AF TC74HC123AF TC74HCO4AF TP2 TC74H
107. 759 646 02 s IC M52347FP TE D9101 8 719 800 76 s DIODE 155226 C102 8 759 475 21 s IC TC74LCX244F EL D9104 8 719 800 76 s DIODE 155226 C103 8 759 442 20 s IC 24LC21A SN D9105 8 719 402 16 s DIODE MA3100 TX D9106 8 719 402 16 s DIODE MA3100 TX C200 8 759 645 12 s IC AD9884AKS 140 D9107 8 719 800 76 s DIODE 155226 C202 8 759 481 73 s IC SN74LVC125APW E20 C204 8 759 362 35 s IC ICS9161A 01CW16T D9108 8 719 800 76 s DIODE 155226 C205 8 759 575 71 s IC M24C04 WMN6T D9 8 719 800 76 s DIODE 155226 C206 8 759 669 11 o IC MBM29LV400TC 70PFTN SV9695 D9110 8 119 977 28 s DIODE DTZ10B D911 8 719 977 28 s DIODE DTZ10B C207 8 759 646 32 s IC PW164 20W D92 8 719 402 16 s DIODE MA3100 TX C208 8 759 712 67 o IC EP1K50TC144 3 C209 8 759 475 21 s IC 7416 244 EL D9202 8 719 402 16 s DIODE MA3100 TX C210 8 759 491 51 s IC TC74VHCT245AFT EL D9203 8 719 402 16 s DIODE MA3100 TX C211 8 759 491 51 s IC TC74VHCT245AFT EL D9204 8 719 402 16 s DIODE MA3100 TX D93 8 719 025 47 s DIODE 02C212 TE85L C212 8 759 491 51 s IC TC74VHCT245AFT EL D9302 8 719 025 47 s DIODE 02C212 TE85L C213 8 759 491 51 s IC TC74VHCT245AFT EL C214 8 759 599 99 s IC MB90096PF G 182 D9303 8 719 025 47 s DIODE 02C212 TE85L C215 8 759 491 51 s IC TC74VHCT245AFT EL D9304 8 719 025 47 s DIODE 02C212 TE85L C216 8 759 829 32 s IC EPC1LC20 42B1 V100 D9305 8 719 025 47 s DIODE 02C212 TE85L D9306 8 719 025 47 s DIODE 02C212 TE85L C218 8 759 646 15 s IC ST49C101ACF8 05 TR D9307 8 719 025 47 s DIOD
108. 815 258 11 D610 8 719 977 95 D6102 8 719 977 95 D6103 8 719 977 95 D6104 8 719 977 95 C6101 8 759 360 07 C6102 8 759 383 61 C6103 8 759 383 61 C6104 8 759 970 89 C6106 8 759 366 35 C6107 8 759 366 35 C6401 8 759 239 55 C6402 8 759 035 87 L10 1 406 580 11 06101 8 729 120 28 06102 8 729 120 28 06103 8 729 120 28 06104 8 729 120 28 06105 8 729 120 28 06106 8 729 120 28 06107 8 729 120 28 06108 8 729 120 28 06109 8 729 120 28 06110 8 729 120 28 0611 8 729 120 28 06112 8 729 120 28 06113 8 729 120 28 06114 8 729 120 28 06200 1 801 806 11 062 1 801 806 11 064 8 729 120 28 06402 8 729 120 28 06403 8 729 120 28 06404 8 729 026 49 06405 8 729 026 49 06406 8 729 120 28 06407 8 729 120 28 06408 8 729 120 28 06409 8 729 026 49 06410 8 729 026 49 06411 8 729 120 28 06412 8 729 120 28 06413 8 729 120 28 06414 8 729 026 49 06415 8 729 026 49 06416 8 729 026 49 06417 8 729 026 49 06418 8 729 120 28 06419 8 729 120 28 06420 8 729 120 28 06421 8 729 120 28 8 86101 1 216 675 11 R6102 1 216 669 11 PFM 42B1 PFM 42B1E Description CAPACITOR CERAMIC 0 1MF 25V CAPACITOR CERAMIC 100PF 50V CAPACITOR CHIP CERAMIC 47PF 50 CON DIO DIO DIO DIO C C C MIC TRA TRA TRA TRA TRA TRA TRA TRA TRA TRA TRA TRA TRA TRA TRA TRA TRA TRA TRA TRA TRA TRA TRA TRA TRA TRA TRA TRA TRA TRA TRA TRA TRA TRA TRA TRA TRA RES RES N D D D D ni
109. 91 CERAMIC CHIP 0 01uF 50V D255 8 719 988 61 DIODE 155355 17 C611 163 021 91 CERAMIC CHIP 0 01uF 50V D256 8 719 988 61 DIODE 155355 17 C618 115 339 11 CERAMIC CHIP uF 50V D257 8 719 988 61 DIODE 155355 17 C619 115 339 11 CERAMIC CHIP luF SQV D258 8 719 988 61 DIODE 155355 17 C620 131 945 11 ELECT 470uF 20 100V D259 8 719 988 61 DIODE 155355 17 C62 115 339 11 CERAMIC CHIP uF 50 D260 8 719 988 61 DIODE 155355 17 C623 115 339 11 CERAMIC CHIP luF 50 D261 8 719 988 61 DIODE 155355 17 C624 115 339 11 CERAMIC CHIP 0 1uF 50 D262 8 719 988 61 DIODE 155355 17 0700 127 822 51 FILM luF 0 4207 D263 8 719 988 61 DIODE 155355 17 CI 121 835 11 ELECT 22uF 20 450V D300 8 719 056 84 DIODE UDZ TE 17 7 5B C102 136 165 00 FILM 0 luF 5 50V D301 8 719 071 94 DIODE HRUOLO3ATRF C103 163 275 11 CERAMIC CHIP 1000 5 50V D302 8 719 071 94 DIODE C704 163 275 11 CERAMIC CHIP 1000 5 50V D303 8 719 056 84 DIODE UDZ TE 17 7 5B C105 163 275 11 CERAMIC CHIP 1000 5 50V D304 8 719 071 94 DIODE C106 107 909 11 ELECT 4TuF 20 50 D305 8 719 988 61 DIODE 155355 17 0707 163 133 00 CERAMIC CHIP 470pF 5 50V D306 8 719 988 61 DIODE 155355 17 C108 163 133 00 CERAMIC CHIP 470pF 5 50V D307 8 719 988 61 DIODE 155355 17 C109 115 339 11 CERAMIC CHIP 0 luF 10 509 D402 8 719 071 63 DIODE HZU6 2BTRF C710 115 340 11 CERAMIC CHIP 0 22uF 10 25 D403 8 7
110. C516 115 339 11 CERAMIC CHIP 0 1uF 50V D110 8 719 313 16 DIODE 002 C517 131 924 11 FILM 068uF 5 1 25KV 9111 8 719 313 16 DIODE AU02A C518 131 924 11 FILM 068uF 5 1 25KV D112 8 719 988 61 DIODE 155355 17 C519 131 924 11 FILM 0 068uF 5 1 25KV D113 8 719 063 70 DIODE 0180200 C600 115 339 11 CERAMIC CHIP 1uF 6 50V D114 8 719 063 70 DIODE DINL20U C601 163 021 91 CERAMIC CHIP OluF 50 D116 8 719 071 81 DIODE HZU30BTRF C602 115 339 11 CERAMIC CHIP 0 1uF 50V D150 8 719 988 61 DIODE 155355 17 C604 131 945 11 ELECT 470uF 20 100V D151 8 719 988 61 DIODE 155355 17 C605 104 760 11 CERAMIC CHIP 04TuF 10 50V D152 8 719 988 61 DIODE 155355 17 C606 164 344 11 CERAMIC CHIP 0 068uF 10 25V D153 8 719 063 70 DIODE D1NL20U C607 131 945 11 ELEC 470uF 20 100 D154 8 719 988 61 DIODE 155355 17 C608 163 021 91 CERAMIC CHIP 1 50 D155 8 719 988 61 DIODE 155355 17 C609 163 021 91 CERAMIC CHIP 01uF 50V D201 8 719 063 70 DIODE DINL20U C610 107 906 11 ELEC 10uF 20 50 202 8 719 063 70 DIODE DINL20U C611 117 272 11 ELEC 180uF 20 10 D203 8 719 988 61 DIODE 155355 17 C612 107 906 11 ELEC 10uF 20 50 D205 8 719 071 94 DIODE C613 107 906 11 ELEC 10uF 20 50 D206 8 719 071 94 DIODE HRUOLO3ATRF C614 163 021 91 CERAMIC CHIP 0 01uF 50V D253 8 719 988 61 DIODE 155355 17 C615 163 021 91 CERAMIC CHIP luF D254 8 719 988 61 DIODE 155355 17 C616 163 021
111. CE C101 164 004 11 s CAPACITOR CE C102 163 021 91 s CAPACITOR C C103 163 021 91 s CAPACITOR C C104 115 566 11 s CAPACITOR C105 115 566 11 s CAPACITOR CE C106 115 566 11 s CAPACITOR C107 115 566 11 s CAPACITOR C108 117 148 11 s CAPACITOR EL C109 164 004 11 s CAPACITOR CE C110 126 405 11 s CAPACITOR EL 111 164 004 11 s CAPACITOR CE C113 126 396 11 s CAPACITOR EL C114 164 004 11 s CAPACITOR CE C115 163 251 11 s CAPACITOR CE C116 163 259 91 s CAPACITOR CH C117 164 004 11 s CAPACITOR CE C200 125 889 11 s CAPACITOR C C201 163 021 91 s CAPACITOR C C202 125 889 11 s CAPACITOR C C203 125 889 11 s CAPACITOR C C204 164 004 11 s CAPACITOR CE C205 126 400 11 s CAPACITOR EL C206 164 004 11 s CAPACITOR CE C207 164 004 11 s CAPACITOR CE C208 163 021 91 s CAPACITOR C C209 164 004 11 s CAPACITOR C210 163 021 91 s CAPACITOR C C211 164 004 11 s CAPACITOR CE C212 164 004 11 s CAPACITOR CE 6 8 UIT BOARD B RY 100MF 16V 105C 100MF 16V 105C ECT 100MF 16V 105C ECT 100MF 16V 105C RAMIC 0 1MF 25V RAMIC 0 1MF 25V RAMIC 0 1MF 25V RAMIC 0 1MF 25V RAMIC 0 1MF 25V 100MF 16V 105C 47MF 16V CHIP RAMIC 0 1MF 25V RAMIC 0 1MF 25V RAMIC 0 1MF 25V RAMIC 0 1MF 25V ECT 100MF 16V 105C ECT 100MF 16V 105C ECT 100MF 16V 105C ECT 100MF 1
112. CHIP 47 10 2012 R1319 216 683 11 s RESISTOR CHIP 22K 1 10W 2012 R1242 216 295 00 s CONDUCTOR CHIP 2012 R132 216 661 11 s RESISTOR CHIP 2 7K 1 10W 2012 R1243 216 057 00 s RESISTOR CHIP 2 2K 1 10W 2012 R1322 216 295 00 s CONDUCTOR CHIP 2012 R1244 216 073 00 s RESISTOR CHIP 10K 1 10W 2012 R1323 216 025 00 s RESISTOR CHIP 100 1 1000 2012 R1247 216 295 00 s CONDUCTOR CHIP 2012 R1324 216 025 00 s RESISTOR CHIP 100 1 100 2012 R1249 216 295 00 s CONDUCTOR CHIP 2012 R1326 216 295 00 s CONDUCTOR CHIP 2012 R1250 216 295 00 s CONDUCTOR CHIP 2012 R1327 218 758 11 s RESISTOR CHIP 180K 1 10W 2012 R1251 216 073 00 s RESISTOR CHIP 10K 1 100 2012 R4000 216 049 11 s RESISTOR CHIP 1 10W 2012 R1252 216 061 00 s RESISTOR CHIP 3 3K 1 10W 2012 R400 216 681 11 s RESISTOR CHIP 18K 1 10W 2012 R1253 216 295 00 s CONDUCTOR CHIP 2012 R4002 216 057 00 s RESISTOR CHIP 2 2K 1 104 2012 R1254 216 295 00 s CONDUCTOR CHIP 2012 R4003 216 055 00 s RESISTOR CHIP 1 8K 1 10W 2012 R1256 216 295 00 s CONDUCTOR CHIP 2012 R4004 216 025 00 s RESISTOR CHIP 100 1 100 2012 R1261 216 646 11 s RESISTOR CHIP 620 1 10W 2012 R4005 216 061 00 s RESISTOR CHIP 3 3K 1 10W 2012 R1262 216 635 11 s RESISTOR CHIP 220 1 10W 2012 R4006 216 675 11 s RESISTOR CHIP 10K 1 1000 2012 PFM 42B1 PFM 42B1E 6 21 B BOARD Ref No or Q ty Par
113. CP 4 01050 2SB709A Y 4 2 sla 01048 AMP 01053 01154 1200 2502412 2802412 47 16V CH AMP BUFFER BUFF 9V 9 0 3 HIR CHIP urs 1191 RN CP R1215 Z 470 sej RN CP 8 16 10713 RGB2 YUV CONVERTER 559704 8 3 10 TO P11 Y CB CR 080 PFM42B1 PFM 42B1E H B 1113 11 13 574 101038 uon 3377 POGTZ53U 1 tan Xe EL0607 TSV TES 01062 Y 01064 161043 01065 5V 4 TO P2 9 10 12 1216 2802412 148 2802412 146 NJU7032M TE2 2SA1037A CHIP 3 e E m Har set DRC MF VDIH IT K 0 6 3V I MEE BUFF Los 3 3V 4 R1292 01252 n EU la I n 1 01186 3 0 81298 4 3k 01238 291 iud 8 2k 101036 50V L 61249 PQ07VZ012 RN CP 81297 d 1 2 2V REG CHIP 101039 ech 1 50V 01189 T M Ee F I de 11017 5V 4 d 0 1 5 HIP u 777 rok 1 1 C1260 5
114. D256 D257 D258 D259 D260 D261 D262 D263 D300 D301 D302 D303 D304 D305 D306 D307 D400 D401 D402 D403 D404 D405 D406 D407 D408 D409 D500 D501 D502 D503 D504 D600 D601 D602 D603 D604 D605 D606 D607 D608 D700 D701 D702 D703 D704 UUUUUUUUUUUUUUUUUUUUUuJg IC101 IC102 IC150 IC200 IC201 SIDE 1C203 1 250 IC25 1C252 TE253 1C254 1C300 1C30 1C302 1 400 40 1 402 1C403 x 1 500 1 600 IC60 IC602 IC603 d IC700 Leh d AT 11 l l 1 Sassari Educ tea mit m t mom IECIT C gc and Ud Casca oll UJ c CEU U ME a aea arak 1 C Q i gt OY O OY 1 III IO IO IO IO IO IO IO IO IO IO o Pe qom edem o x 1 vadi J PI b d 0 O N o Lk AA DALA x Q m Q m tJ tJ Ja J Q Q H G N A X Q D P gt DOO Em IJ 2 gt 2 gt gt gt gt O Q U Q gt tD t Ji gt J Q DA hod 4071 4744 db 1 O1 Q I9 QQ Q GALA Q bs t z S Q Q 0 Q Q 0 Qn OY O O OY Oy B Q Q Q Q S N WUW o 1 THP100 THP101 1 D C Us APS 132 M a SIDE SUFFIX 12
115. E 8 04021 p 5 D504 F 9 C207 8 0507 C 8 04022 D 3 D505 F 9 C208 H 8 0700 D 9 04023 p 3 D506 F 9 C209 G 6 0701 D 8 04024 TESS D507 F 9 C210 H 8 0702 p 9 04025 G 6 D508 F 9 C211 H 8 01000 E 2 04026 6 5 D509 F 9 C212 H 7 01001 2 04027 G 4 D510 c 8 C213 H 7 01002 E 2 04028 H 5 D51 C 8 C214 7 01003 E 2 04029 H 5 D512 E 8 C215 H 8 01004 E 2 04030 C 4 D513 D 8 C216 G 7 01005 E 2 04031 D 4 D514 c 8 C218 1 8 01006 E 2 04032 D 4 D515 D 7 C219 I 9 01007 E 2 04033 C 3 D516 D 7 C220 G 8 01008 E 3 04034 C 3 D700 9 6221 F 8 01009 D 2 04035 D 3 D70 c 9 C222 H 7 01010 D 2 04036 6 6 D702 D 9 C223 A 4 01011 D 2 04037 P 6 D703 C 9 C500 D 8 01012 D 2 04038 G 6 D704 c 9 C501 A 5 01013 D 2 04039 F 5 D705 c 9 C502 F 7 01014 B 3 Q6181 B 2 D804 C C503 9 01015 0 3 06182 A 3 D805 c C504 D 8 01016 B 3 06193 B 2 D940 B 2 C505 F 8 01017 B 3 Q6804 p D94 B 2 C507 E 7 01018 B 3 06901 B D942 B 3 C508 F 8 01019 B 3 06902 B D943 B 2 C509 E 7 01020 C 3 06903 0944 C C510 F 8 01021 3 06905 2945 C 511 F 8 01022 2 3 06906 2946 B C512 E 8 01023 B 3 Q6907 D D947 B C513 E 8 01024 C 3 06908 D 2 D948 E C703 D 8 01025 G 3 06909 F D1000 c 2 C831 B 8 01026 E 3 06910 F D1001 2 1000 G 2 01027 E 3 Q6911 E D1002 x c 2 C1001 D 2 01028 F 2 08001 7 D1003 1002 2 01029 2257 08
116. ELECT 820uF 20 6 31 D604 8 719 077 10 DIODE 20FL2C41A C214 117 247 91 ELECT 820uF 205 6 3V C215 117 301 51 ELECT 820uF 205 167 lt CAPACITOR gt C25 115 339 11 CERAMIC CHIP 0 1uF 507 C252 117 216 51 ELECT 1500uF 205 10V C100 A1 115 380 91 CERAMIC 00pF 105 1257 C253 117 329 51 ELECT 1500uF 20 257 C101 1 115 380 91 CERAMIC 00pF 105 1257 C254 117 329 51 ELECT 1500uF 20 257 C102 1 113 920 91 CERAMIC 2200pF 20 2501 C255 163 021 91 CERAMIC CHIP 0 01uF 10 50 C103 1 113 920 91 CERAMIC 2200pF 20 2507 C104 A1 131 955 51 FIL 5uF 10 2757 C256 117 344 51 ELECT 1000uF 20 357 C257 163 021 91 CERAMIC CHIP 0 01uF 10 50 C105 1 125 933 51 FIL uF 0 2757 C258 115 185 11 CERAMIC 0 033uF 10 50 C107 A1 125 933 51 FIL uF 03 2157 C259 163 021 91 CERAMIC CHIP 10 50V C108 163 021 91 CERAMIC CHIP 0 01uF 10 50 C260 117 266 91 ELECT 470uF 20 C109 121 822 51 FIL uF 0 4207 C110 121 822 51 FIL uF 0 4207 C26 117 325 91 ELECT 330uF 20 25V C262 117 328 51 ELECT 820uF 20 257 C111 127 822 51 FIL uF 0 4207 C263 117 355 51 ELECT 560uF 20 35V C112 165 127 11 CERAMIC 470pF 10 5007 C264 115 339 11 CERAMIC CHIP 0 10 10 507 C113 165 127 11 CERAMIC 470pF 10 5007 C268 115 339 11 CERAMIC CHIP 0 10 10 50 114 117 716 51 FIL 2 2uF 10 4207 115 131 942 11 ELECT 270uF 30 450V C3 163 021 91 CERAMIC CHIP 0 01uF 10 50 C3 115 339 11 CERAMIC CHIP 0 10 10 50 C116 131 942 11 ELECT 270 30 450 C30
117. EN D MENU 2 Press A V to move the cursor gt to H LINEARITY or V LINEARITY and press ENTER H LINEARITY to change the linearity in the horizontal direction V LINEARITY to change the linearity in the vertical direction The following menu appears on the monitor screen The illustration below is for selecting H LINEARITY ASPECT W ZOOM H LINEARITY 5 00 Adjust the linearity with A V To restore wide zoom mode items to their original settings In the ASPECT menu select W ZOOM and press ENTER Press A V to move the cursor gt to RESET and press ENTER Then select YES with A V and press ENTER Changing the Aspect Ratio Adjusting the Pixels Adjusting the Pixels If there is too much noise on the edges of the characters or the vertical lines you can adjust the dot phase and the total number of horizontal pixels 1 Press MENU The main menu appears on the monitor screen MAIN MENU INPUT SELECT PIC CONTROL PIC SIZE CONFIG MEMORY REMOTE STATUS SELECTEE S T ENTER E N D MENU 2 Press A V to move the cursor gt to PIC SIZE and press ENTER The PIC SIZE menu appears on the monitor Screen PIC SIZE gt H SIZE 00 H SHIFT 00 V SIZE 00 V SHIFT 00 RESET ASPECT 4x3 ZOOM 1 PIXEL ADJUST SELECTEE S E T ENTER E N D MENU 3 Press A V to move the cursor gt to PIXEL ADJUST and press ENTER The followi
118. Function 31 GB Reversing the Image 31 GB Changing the Display Position Automaticall 32 GB Controlling Power On Off Automatically Power Control Function 33 GB Power Saving Function sss 33 GB On Off Timer Function 34 GB Self diagnosis Function 35 GB Operating a Specific Monitor With the Remote Commander esent 35 GB Using Other Remote Commander Models 37 GB Specifications esses 38 GB Precautions On safety A nameplate indicating operating voltage power consumption etc is located on the back of the unit Should any solid object or liquid fall into the cabinet unplug the unit and have it checked by qualified personnel before operating it any further e Unplug the unit from the wall outlet if it is not to be used for several days or more To disconnect the AC power cord pull it out by grasping the plug Never pull the cord itself When the unit is installed on the floor be sure to use the optional stand On installation Allow adequate air circulation to prevent internal heat build up Do not place the unit on surfaces rugs blankets etc or near materials curtains draperies that may block the ventilation holes Do not install the unit in a location near heat sources such as radiators or air ducts or in a place
119. KO KO KO KO KO OO KO KO KO KO lt gt KO KO KO KO 018 019 00 01 02 03 04 00 03 02 Cn Sooo oo O o CO o Oooo o Cn O O to CO 021 022 023 024 025 026 027 028 029 030 031 032 033 034 035 036 037 038 039 040 6 16 1 414 248 11 s 1 416 668 11 s 8 729 120 28 8 729 120 28 8 729 026 49 8 729 120 28 8 729 120 28 8 729 026 49 8 729 027 38 8 729 120 28 8 729 101 07 8 729 027 38 cn o o o 8 729 900 53 s 8 729 026 49 s 8 729 120 28 s 8 729 041 37 s 8 729 026 49 s 8 729 8 729 026 49 8 729 026 49 8 729 120 28 8 729 120 28 26 49 o 8 729 120 28 8 17129 026 4 8 729 026 4 8 729 026 4 8 729 120 2 o 8 729 12 8 729 120 28 28 8 8 1 801 806 11 8 8 8 8 729 026 49 1 801 806 11 8 729 026 49 1 801 806 11 8 729 120 28 8 729 120 28 8 729 120 28 o 8 729 120 28 8 729 120 28 8 729 120 28 8 729 026 49 8 729 026 49 cn o Qo o 8 729 120 28 8 729 120 28 8 729 026 49 8 729 120 28 8 729 026 49 o o 8 729 8 729 8 729 026 49 8 729 120 28 1 801 806 11 28 28 Qo o 1 801 806 11 s 1 801 806 11 s 8 729 120 28 s 8 729 120 28 s 8 729 120 28 s ption TOR CHIP 2 2UH CHOKE 10UH STOR 25 STOR 25 STOR 2SA STOR 25 STOR 25
120. MF 35V CHIP 7 50 0 01MF 50V 1MF 25V 1MF 25V 1MF 25V 0 01MF 50V 0 01MF 50V MIC 220PF PFM 42B1 PFM 42B1E B BOARD B BOARD Ref No Ref No or Q ty Part No SP Description or Q ty Part No SP Description C4096 126 398 11 s CAPACITOR ELECT 4 7MF 35V CHIP C9108 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP C4097 163 145 00 s CAPACITOR CHIP CERAMIC 1500PF C9109 163 021 91 s CAPACITOR CERAMIC 0 01MF 50V C4098 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C9110 163 021 91 s CAPACITOR CERAMIC 0 01MF 50V C4099 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP C9111 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C4100 126 392 11 s CAPACITOR CHIP ELECT100MF 6 3V C9112 163 021 91 s CAPACITOR CERAMIC 0 01MF 50V C4103 163 137 00 s CAPACITOR CHIP CERAMIC 680PF C9201 163 005 11 s CAP CHIP CERAMIC 470PF C4104 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C9202 163 005 11 s CAP CHIP CERAMIC 470PF C4105 163 263 11 s CAPACITOR CERAMIC 330PF 50V C9203 163 005 11 s CAP CHIP CERAMIC 470PF C4106 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C9204 163 005 11 s CAP CHIP CERAMIC 470PF C4107 163 131 00 s CAPACITOR CHIP CERAMIC 390PF 09205 163 005 11 s CAP CHIP CERAMIC 470PF C4108 163 131
121. PRESET AREA70 PRESET AREA25 PRESET AREA71 PRESET AREA26 PRESET 72 PRESET AREA27 PRESET AREA73 PRESET AREA28 PRESET AREA74 PRESET AREA29 PRESET AREA30 PRESET AREA31 PRESET AREA32 PRESET AREA33 PRESET AREA34 PRESET AREA35 PRESET AREA36 PRESET AREA37 PRESET AREA38 PRESET AREA39 PRESET AREA40 PRESET AREA41 PRESET AREA42 PRESET AREA43 PRESET AREA44 PRESET AREA45 3 16 PFM 42B1 PFM 42B1E Data Configuration MEMORY No 1 Standard Value MEMORY No 2 MEMORY No 3 MEMORY No 4 MEMORY No 5 MEMORY No 6 MEMORY No 7 MEMORY No 8 MEMORY No 9 MEMORY No 10 MEMORY No 11 MEMORY No 12 MEMORY No 13 MEMORY No 14 MEMORY No 15 MEMORY No 16 MEMORY No 17 MEMORY No 18 MEMORY No 19 MEMORY No 20 NAME No 1 NAME No 2 NAME No 3 NAME No 4 NAME No 5 NAME No 6 NAME No 7 NAME No 8 NAME No 9 NAME No 10 NAME No 11 NAME No 12 NAME No 13 NAME No 14 NAME No 15 NAME No 16 NAME No 17 NAME No 18 NAME No 19 NAME No 20 PFM 42B1 PFM 42B1E 3 17 Table 2 Factory Preset Data AREA 22 23 26 27 28 NAME VESA640x350 VESA640x400 VESA640x480 72
122. R Y ee X 51 TO P8 01001 0103 lt SECAM C TO P8 MA157 TX dev lt R Yi TO P9 61007 1 TO P9 25V B CHIP gt M 1 na lt Y 1 C1006 01018 5V 3 lt B Y To P12 47 16V RN CP 9 4 47 T 16V XR Y To P12 gt Y P Y_GAIN TO P2 1005 lt B Y GAIN P2 51000 lt R Y_GAIN TO P2 B CH CHIP v gt m re R1308 25 B ok 81306 lt TO P3 47 7k I 61004 47 16V AN cp 18V or 1 5 8 Y lt ke 1 01008 47 16V SS Z ZZ R1313 6 med RN CP 1309 4 78 RN CP VIDEO RGB Y C Me AMP w I R1311 k RN CP 8 8 8 8 B SS9704 B J P2 PFM42B1 PFM 42B1E H B 3 13 B 3 13
123. R538 216 017 91 s RESISTOR CHIP 47 1 10W 2012 R599 216 089 00 s RESISTOR CHIP 47K 1 10W 2012 R539 216 097 00 s RESISTOR CHIP 1 100 2012 R600 216 001 00 s RESISTOR CHIP 108 2012 R540 216 073 00 s RESISTOR CHIP 10K 1 10W 2012 R601 216 057 00 s RESISTOR CHIP 2 2K 1 108 2012 R541 216 073 00 s RESISTOR CHIP 10K 1 10W 2012 R602 216 049 11 s RESISTOR CHIP 10W 2012 R542 216 073 00 s RESISTOR CHIP 10K 1 10W 2012 R603 216 001 00 s RESISTOR CHIP 10W 2012 R543 216 025 00 s RESISTOR CHIP 10W 2012 R604 216 057 00 s RESISTOR CHIP 2 2K 1 108 2012 R544 216 025 00 s RESISTOR CHIP 10W 2012 R605 216 057 00 s RESISTOR CHIP 2 2K 1 10W 2012 R545 216 025 00 s RESISTOR CHIP 10W 2012 R606 216 057 00 s RESISTOR CHIP 2 2K 1 108 2012 R546 216 025 00 s RESISTOR CHIP 10W 2012 R607 216 001 00 s RESISTOR CHIP 10 1 10W 2012 R548 216 025 00 s RESISTOR CHIP 10W 2012 R608 216 001 00 s RESISTOR CHIP 10 1 10W 2012 R549 216 025 00 s RESISTOR CHIP 10W 2012 R609 216 017 91 s RESISTOR CHIP 47 1 10 2012 R550 216 009 00 s RESISTOR CHIP 22 1 10W 2012 R610 216 017 91 s RESISTOR CHIP 47 1 10W 2012 R551 216 025 00 s RESISTOR CHIP 10W 2012 R611 216 017 91 s RESISTOR CHIP 47 1 10W 2012 R552 216 073 00 s RESISTOR CHIP 10K 1 10W 2012 R612 216 017 91 s RESISTOR CHIP 47 1 10W 2012 R553 216 025 00 s RESISTOR CHIP 10W 2012 R613 216 001 00 s RESISTOR CHIP 10 1 10W 2012 R554 216 025 00 s RESISTOR CHIP 10W 2012 R614 216 001 00 s RESISTOR
124. VARIABLE RESISTOR gt 241 764 11 RES ADJ CER 241 162 11 RES ADJ CERI 241 762 11 RES ADJ CERI 241 762 11 RES ADJ CERI 241 159 11 RES ADJ CER 241 762 11 RES ADJ CERI 241 760 11 RES ADJ CER 241 764 11 RES ADJ CER 241 760 11 RES ADJ CER 241 762 11 RES ADJ CERI 241 160 11 RES ADJ CER 241 164 11 RES ADJ CER TRANSFORMER 435 218 11 TRANSFORMER 435 219 11 TRANSFORMER 426 931 21 TRANSFORMER 435 216 11 TRANSFORMER 426 931 21 TRANSFORMER 435 217 11 TRANSFORMER 426 931 21 TRANSFORMER lt VARISTOR gt ET 10K ET 2 2K ET 2 2K ET 2 2K ET 2 2K ET 47 ET 10K ET 2 2K ET 47 ET 10K CONVERTOR CONVERTOR DRIVE CONVERTOR DRIVE CONVERTOR DRIVE VDR100 A 1 809 909 22 VARISTOR NV270D03 TB2 VDRI01 A 1 801 625 21 VARISTOR 470NR10D VDRI02 A 1 801 625 21 VARISTOR 470NR10D VDR103 A 1 809 909 22 VARISTOR NV270D03 TB2 PFM 42B1 PFM 42B1E 6 4 Supplied Accessories Ref No or Q ty Part No pc 1 476 545 1 pc 9 900 029 0 1 534 827 14 A 1 590 151 1 pc A 1 777 649 1 4 080 938 0 PFM 42B1 PFM 42B1E SP 5 5 5 5 Description REMOTE COMMANDER RM 42B BATTERY COVER RM 42B CORD POWER 10A 125V US CND CORD SET POWER 10A 250V UK Ireland Australia Newzealand CORD POWER 10A 250V Continental Europe OPERATING INSTRUCTIONS JAPANESE ENGLISH FRENCH GERMAN SPANISH ITALIAN SIMPLIFIED CHINESE
125. YA J ONG 38838713 184818 10988 11 770 089 5V SUFFIX 11 Y 1 MENU 8601 gt nah eme RN CP UP 8602 CN8601 I 9 0 O R8602 TO B RI CP DOWN BOARD 8603 CN8001 PIN8 10 R8603 1 m SE ENTER 8604 gt O 1 8604 Y B k RN CP PANEL SW 1 m B 889704 YB J 8 26 8 26 A B D E F G H PFM42B1 PFM 42B1E CN1501 3P WHT 5V 101502 1 2 uPC358G2 T2 AMP TO B BOARD memo z CN109 3 i 161501 LM35DZ TEMP SENSOR R1504 100 CHIP AW 7 101502 2 2 6 uPC358G2 T2 SENSOR PFM42B1 PFM 42B1E A gt CN7001 2P B SS9704 S J TO APS 132 M BOARD CN2 1 TO APS 132 M 15A L7001 L7002 R7000 250V 4 Ann 4 Ann 330k 8A 8A 1 2W SUMI 1 L 1 B SS9704 F J S F 8 27 1 680 078 1 61502 1 a 81502 1504 S A SIDE SUFFIX 11 100240A rima 9143 100 2 CN1501 S B SIDE SUFFIX 11 20023 uaa gt 59489 d3 T3NNOSU3d 321AH3S 031317 0 01 183833 1438 43434 3814 40 ONILYU ONY 250V 15A en Ido 10000 SONY 2 087001 N 1 680 712 11 7 8 27 JAVS HLIM AINO JIVId4JH F A SIDE SUFFIX 11 F B SIDE SUFFIX 11 T A SIDE SUFFIX 11 42 1 42 1
126. an item or to adjust a value in a menu ENTER button Press to select the desired item from the menu displayed z g 8 INPUTI connectors RGB YUV D sub 15 pin Connects to the RGB signal or component YUV signal output of a computer or a piece of video eguipment This monitor also accepts an HD analog component Y PB PR signal See Pin assignment on page 39 GB when inputting a component signal AUDIO Stereo minijack Inputs an audio signal Connects to the audio output of a computer or a piece of video equipment Location and Function of Parts and Controls INPUT2 connectors RGB YUV D sub 15 pin Connects to the RGB signal or component YUV signal output of a computer or a piece of video equipment This monitor also accepts an HD analog component Y PB PR signal See Pin assignment on page 39 GB when inputting a component signal AUDIO Stereo minijack Inputs an audio signal Connects to the audio output of a computer or a piece of video equipment AUDIO OUT jack Stereo minijack From among the audio signals input at the audio input jacks outputs the audio signal displayed on the monitor screen REMOTE RS 232C connector D sub 9 pin This connector allows remote control of the monitor using the RS 232C protocol For details contact your authorized Sony dealer VIDEO connectors The 42 1 is not equipped with VIDEO co
127. and repeat the adjustment of step 5 6 Switch the WINDOW to OFF PFM 42B1 PFM 42B1E 3 4 A D Calibration Adjustment A Connect the 640 x 480 260 signal to the INPUTI connector Connect the cross hatch signal to the INPUT connec tor Execute the AUTO item of the PIXEL ADJUST Select the video signal of the 10 flat field pattern Set the CAL mode to ON Check the following values that are shown in the bottom of the menu in cyan R XXX G XXX B XXX Adjust RED BIAS and BLUE BIAS until the follow ing two equations are satisfied value 1 S value lt value 1 and value 1 S B value lt value 1 Do not adjust GREEN BIAS Select the video signal of the maximum brightness 90 gray scale pattern Select the gray scale pattern that has the left half of display in black and the right half of display in white Check the following values that are shown in the bottom of the menu in cyan R XXX G XXX B XXX Adjust RED BIAS and BLUE BIAS until the follow ing two equations are satisfied value 1 lt R value lt value 1 and value 1 S B value lt value 1 Do not adjust GREEN BIAS Set the CAL mode to OFF 3 25 3 5 Video Processor Adjustment YUV Level Check and Adjustment Note Be sure to use the Z MOUNT extension board 1 Connect the YUV 480 60 signal to the INPUT 1 connector Select the color bar signal 3 Measure the vol
128. aperture of the scan converter are used for aperture correction OFF Only the scaling of the scan converter is used for aperture correction This function becomes valid only when the signal NTSC PAL SECAM NTSC4 43 PAL60 PAL M and YUV signal having horizontal frequency of 15 kHz is inputted to the PFM 42B Set the VIDEO SHARP SW item to the ON position normally AUTO FT CANCEL Sets the FT field tearing cancel circuit ON or OFF The PFM 42B1 B1E has the FT field tearing preven tion circuit caused by the overrun of memory while it is displaying the moving picture video and However there can be cases that noise appears on screen when the FT field tearing prevention is being executed ON The FT field tearing is cancelled in every picture size and in every shift conditions as long as the PFM 42B1 B1E is receiving the moving picture When this item is set to ON noise may appear only once after the size shift is adjusted Noise does not last long but appears only once when the size shift adjustment is complete The FT field tearing cancel circuit is disabled When OFF is selected there can be a case that the FT field tearing appears on screen depending on the adjustment condi tions of picture size shift However the noise due to operation of the processing circuit does not occur Set the AUTO FT CANCEL item to the ON position normally OFF 6 PRESET EDIT Preset Data Configuration
129. critiques pour la s curit Ne les remplacer que par une pi ce portant le num ro sp cifi lt tems marked and parts marked with at SP Supply Code column of the spare parts list are not stocked since they are seldom required for routine service Some delay should be anticipated when ordering these items Items with no part number and no description are not stocked be cause they are seldom required for routine service Due to standardization replacements in the parts list may be different from the parts specified in the diagrams or the components used on the set RESISTORS All resistors are in ohms F nonflammable METAL Metal film resistor METAL OXIDE Metal oxide film resistor PFM 42B1 PFM 42B1E 6 1 Cover 6 2 Exploded Views BVTP 4x16 10 M BVTP 4x16 N 1427 BVTP 4x16 P 2x5 L Sch SS O 4x16 4BVTP 3x12 A SAC Blank panel AEP Only PSW 33D Available separately AEP Only 6 2 PFM 42B1 PFM 42B1E I I Cn GROFF lt gt 9 20 21 22 23 24 Part No 038 606 038 606 2 158 596 1 1373 841 A 081 423 4 4 1373 842 4 080 980 4038 607 4038 607 2 4 080 966 4 080 966 1 4 043 825 4
130. input signal AUTO to display NTSC PAL or SECAM signals 443NT to display NTSC4 43 signals PAL6O to display PAL60 signals PAL M to display PAL M signals 21 SCREEN FILL Selects the point of origin for resizing the picture CENTER Sets the point of origin at the center of the monitor CORNER Sets the point of origin at the upper left corner of the monitor 022 POWER CONTROL Sets the length of time until the system goes into the power saving mode For details see Controlling Power On Off Automatically Power Control Function on page 33 GB 23 SCREEN SAVER Enables a screen saver to reduce afterimage or ghosting For details see Reducing Afterimage Ghosting Screen Saver Function on page 31 GB 24 TIME SET Sets the time For details see Adjusting the time on page 19 GB 025 LANGUAGE Selects the on screen language English German French Italian Spanish or Japanese For details see Selecting the On screen Language on page 30 GB 16 MEMORY menu This menu is used for saving or recalling the settings in the PIC CONTROL and PIC SIZE menus MEMORY 20 OAD 27 SAVE SELECT S E T ENTER E ND MENU For details see Using the Memory Function on page 28 GB 26 LOAD Recalls the preset settings 27 SAVE Saves the settings REMOTE menu This menu is used for remote control settings
131. items and press MENU The menu returns to the COLOR TEMP menu When you rename the adjusted color temperature follow the steps below 5 Press A V to move the cursor P to NAME SET and press ENTER The following menu appears on the monitor screen COLOR TEMP 11 NAME SET x7 2 01234 S E T ENTER EN D MENU Character list 6 Select the character to be changed with A V and press ENTER The background of a character in the character list changes to cyan Adjusting the Picture 7 Select a character in the character list with A V and press ENTER The selected character is input 8 Repeat steps 6 and 7 until you finish inputting the name then press MENU The menu returns to the COLOR TEMP menu SHARPNESS You can change the outline correction level to one of three levels HIGH MID or LOW 1 Press A V to move the cursor gt to SHARPNESS and press ENTER 2 Select the outline correction level with A V and press ENTER HIGH sharper picture MID standard value LOW softer picture Notes CHROMA and PHASE controls do not function with an RGB signal PHASE control does not function with a component signal PHASE control does not function with a PAL or SECAM color source Do not change the CHROMA PHASE NTSC only level when the selected signal is black and white Although it has no effect on the current picture it does affect the pic
132. ma I DAN202K 8 w TO P1 G OUT gt 2101016 C104 gt B Tih 470 SCHIP 4 7 10V B CHIP TO P1 OUT gt 2 o qul BRT TO P9 TO H HV gt 81008 1029 T SIE PIC TO P9 0 1 KE CHIP lt DAC1 CS TO P5 25V U TOPI V 810055 2 5 01002 B CHIP 61028 VIDEO RN CP 2SA1037A 81037 9 1 gt SCH E B ip lt s SEP_BIAS P2 tax 1 amp R1036 1 0 01 TO P1 5 18 19 01029 47 16V RN CP CHIP ih LK TO P1 5 13 kad Kini 01027 47 16V RN CP a R1032 5 80 gt Cour TO P8 CHIP X ER lt 00 TO P8 XV OUT TO P7 8 c 5 I lt Y SW TO P5 gt SYNC TO 12 lt TO P9 10 11 12 pi 254108 7AK EUN o t a 55 amp 2802412K T 146 BUFF gt ES 25 5 AK z Fa 7 g A amp 10100 lt o TC4W53FU e a S 3 01022 1 5 2802412 146 1 BUFF H m gt RN CP Yi To pg 81055 P105 81064 01024 lt 01025 OK dm dn 2SA1037A zl TIM v4 BUFF 01004 55 a 4 2802412 1 146 s nioso 01023 AMP 5 470 2SC2412K T 14 AM 5 RN CP s 01001 51009 8 101044 CHIP 25V 2 4 TC4W53FU 0 7 153 su 2 1 R1018 01010 R1056 gt d 2802412 146 1 tk R1059 1 n cp BUFF RN cp 0 1 1 2k D I E RN CP H C1002 4 53 0 01017 tev 101001 XPICAGC SW P5 CXA1211M XYUV VIDEO P5 12 gt
133. minutes if there is no input signal 10min Changes to the power saving mode after 10 minutes if there is no input signal The ON indicator flashes when the unit is in the power saving mode To cancel the power saving function Input the sync signal again Press the D switch on the 1 standby switch indicator section or the POWER ON switch on the Remote Commander Signal specification for using the power saving function The sync signal should be connected to the 13th pin of the RGB YUV D sub 15 pin connector in the INPUT or INPUT2 connectors 34 On Off Timer Function 1 In the CONFIG 1 2 menu Press A V to move the cursor gt to POWER CONTROL and press ENTER The following menu appears on the monitor screen POWER CONTROL POWER SAVING OFF ON OFF TIMER OFF SELECT S E T ENTER END MENU 2 Press A V to move the cursor to ON OFF TIMER and press ENTER The following menu appears on the monitor screen ON OFF TIMER OFF 3 Select ON with A V and press ENTER The following menu appears on the monitor screen ON OFF TIMER ON gt ON TIME 16 30 OFF TIME 17 20 SELECT amp amp AD JUS T NER E N D MENU Controlling Power On Off Automatically Self diagnosis Function Operating a Specific Monitor With the Remote Commander 4 Press A V to move the cursor to TIME and press ENTER The following menu appears and the back
134. of DOT PHASE of the user menu The pulse phase can be set in the range of 000 to 255 12 CP PLACEMENT Clamp pulse position is set The clamp pulse position is set starting from the trailing edge of horizontal sync signal when data is 000 Increasing this value moves the clamp pulse in the direction toward the picture area The clamp pulse generating position is given by the following equation starting from the trailing edge of horizontal sync signal Tcp CP PLACEMENT horizontal sync frequency x TOTAL PIXEL in seconds 13 CP DURATION Clamp pulse width is set The clamp pulse width is set starting from the position that is determined by CP PLACEMENT Increasing this value widens the clamp pulse width in the direc tion toward the picture area The clamp pulse width is given by the follow ing CP DURATION horizontal sync frequency TOTAL PIXEL in seconds 3 9 14 INTERLACE MODE Whether the input signal is interlaced or not is set ON When the input signal is the interlaced signal OFF When the input signal is not the interlaced signal 15 FIELD MODE Whether the interlaced signal is processed within a field or within a frame is set ON When the input interlaced signal is processed within a field OFF When the interlaced signal is processed within a frame Select the ON position when a signal has a low co relationship between the two fields within a fram
135. on screen The other menu items can be displayed by scrolling the display by moving the cursor up or down 3 8 PFM 42B1 PFM 42B1E 1 INPUT SELECT The input signals that are acceptable to the 42 1 BIE are set This item consists of 8 bits Each bit corresponds to each type of input signal Only the input channel to which 1 is set can be received by the PFM 42B INPUTSELECT 00000000 Yuv3 L pv RGB1 RGB2 LINE YUV1 YUV2 Note Regarding the LINE and Y C input channels these signals having horizontal frequency of 15 kHz can be inputted Because these input signals pass through the double speed processing circuit in the PFM 42B circuit configuration do not use the LINE and Y C input channels 2 INPUT SELECT 2 INPUT SELECT2 00000000 L RGB3 4 3 H FREQUENCY The horizontal frequency is set Note This menu item cannot be modified in the DIRECT mode because the DIRECT mode can edit the signal that is being inputted at present 4 V FREQUENCY The vertical frequency is set Note This menu item cannot be modified in the DIRECT mode because the DIRECT mode can edit the signal that is being inputted at present 5 SYNC POL H V Polarity of sync signal is set SYNC POL H V NEGA NEGA Horizontal sync polarity l Vertical sync polarity To set the polarity select as follows Negative polarity NEGA Positive polarity POSI SOG Note This men
136. raise the contrast level to enhance the brightness This function works well for displaying dark images Select PICTURE with A V and press ENTER Set PICTURE AGC to ON or OFF with A V COLOR TEMP Color temperature You can also set the color temperature You can select HIGH or LOW or adjust each gain more precisely Up to six adjusted color temperatures can be registered You can rename them up to six characters in length 1 select COLOR TEMP with A V and press ENTER 2 Select the color temperature with A V and press ENTER HIGH to set the color temperature to high LOW to set the color temperature to low 1 6 to set the gain more precisely When you select HIGH or LOW the menu returns to the PIC CONTROL menu When you select 1 to 6 When you select 1 to 6 the following menu appears on the monitor screen COLOR TEMP 1 RED GAIN 255 GREEN GAIN 255 BLUE GAIN 255 NAME SET SELECT amp AD JUS T NER E N D MENU 1 Select a number to register with A V and press ENTER The cursor gt appears on the monitor screen 2 Press A V to move the cursor to the gain item that you want to set and press ENTER The following menu appears on the monitor screen COLOR TEMP 1 RED GAIN 255 3 Adjust the gain 10 to 255 with A V and press MENU The menu returns to the COLOR TEMP menu 4 Repeat steps 2 and 3 to set the other gain
137. to move the cursor gt to CONFIG and press ENTER The CONFIG 1 2 menu appears on the monitor screen CONFIG 1 2 DISPLAY ON W VGA OFF CLOSED CAPTION OFF COLOR SYSTEM AUTO SCREEN FILL CENTER POWER CONTROL SCREEN SAVER SELECT S E T ENTER E ND MENU 3 Press A V to move the cursor gt to SCREEN SAVER and press ENTER The following menu appears on the monitor screen SCREEN SAVER gt PIC INVERSION OFF PIC ORBITING SELECT S E T ENTER EN D MENU 4 Press V to move the cursor gt to PIC INVERSION and press ENTER The following menu appears on the monitor screen PIC INVERSION OFF 5 select the PIC INVERSION mode with A V OFF to set the PIC INVERSION to OFF ON to set the PIC INVERSION to ON AUTO Carry out the PIC INVERSION process once a day 31 3192 182 0144 111 Reducing Afterimage Ghosting Screen Saver Function When you select AUTO the following menu appears PIC INVERSION AUTO START TIME 16 30 END TIME H 16 45 POWER OFF NO SELECT AD JUS E N D MENU 1 Press ENTER The cursor gt appears on the monitor screen 2 Press A V to move the cursor gt to START TIME and press ENTER The following menu appears and the background of the hour is displayed in cyan PIC INVERSION AUTO START TIME 16 30 S E TENT END MENU 3 Set the
138. 00 s CAPACITOR CHIP CERAMIC 390PF C9206 163 005 11 s CAP CHIP CERAMIC 470PF C4109 104 760 11 s CAPACITOR CERAMIC 0 047MF 50V C4110 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V CN103 815 257 11 o HEADER CONNECTOR 411 104 760 11 s CAPACITOR CERAMIC 0 047MF 50V CN104 506 474 11 s PIN CONNECTOR 9P C4112 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V CN105 506 468 11 s PIN CONNECTOR 3P CN106 564 877 31 o PIN CONNECTOR 15P C4113 163 227 11 s CAPACITOR CERAMIC 10PF 50V CH CN109 506 491 11 s PIN CONNECTOR 12P C4114 163 137 00 s CAPACITOR CHIP CERAMIC 680PF C6142 128 416 11 s CAPACITOR ELECT 100MF 16V 1056 CN110 506 487 11 s PIN CONNECTOR 8P C6143 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V CN112 506 494 11 s PIN CONNECTOR 15P C6144 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V CN115 506 473 11 s PIN CONNECTOR 8P CN118 506 468 11 s PIN CONNECTOR 3P C6145 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP CN801 166 809 11 o PIN CONNECTOR PC BOARD C618 127 573 11 s CAPACITOR CERAMIC 1 2012 C6182 127 573 11 s CAPACITOR CERAMIC 1 2012 CN6102 110 418 11 o CONNECTOR BOARD TO BOARD 30P C6183 127 573 11 s CAPACITOR CERAMIC 1 2012 CN6103 118 529 11 s PIN CONNECTOR PC BOARD 7P C6184 127 573 11 s CAPACITOR CERAMIC 1 2012 CN6104 T 8 529 11 s PIN CONNECTOR PC BOARD 7P CN6910 815 410 11 o CONNECTOR SOCKET 44P C695 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V CN8001 506 492 11 o PIN CONNECTOR 13P C6952 126 3
139. 001 1 2 n EVITA EN 2 KEY SENSE KEY SENSE Tat 9 KEY AD 23 M FANG 12 Fane CN801 STBY Y A FAN7 1 dal D D8503 CN8501 08002 POWER 3 LEDRED LEDRED 3 20 LED RED 1 08001 FOWER 4 LEDGREEN LED GREEN 4 19 LED GREEN 168001 POWER 5 POWER POWER 5 2 gt 617 KEY POWER i 1C8501 REMOTE 168001 3 CONTROL 1 6 SIRCS SIRCS 16 5 3 RECEIVER 10509 1 2 B 5 MAIN Er MATRIX 1 8 pz MAIN CPU HD YPBPR 2 3 6507 VID RGB 3 m 13 5V D5V RGB1 RGB2 4 zi gt 6 gt ev A MUTE 45 AMUTE 26 n 1644 DMP RX 19 DMPRX 66 10 4 DMP TX 12 56 66 4 sv 33 1 aay DMP LK 3 1 DMP CLK 6 6 13 3 0506 66 UARTRX B Y GAIN 6 6 UARTTX 5 SEP BIAS DAC CS 16 I 25 ilo gt 23 PA2 RXD2 FWR B CUT OFF losos 2 2 lt q 22 PA1 TXD2 FWR 10504 4 CLOCK 2 sck 32k OUT 1 10506 UART TX 10 N RTC IRAGO le eng 60 UART RX 1C500 32 768kHz 3 63 UART SW RIC cs 84 gt PI AGC 40 AGC SW 1 SYNC SEL 43 SYNC SEL M YUV VIDEO YUV VIDEO 71 RES VIDEOS 74 FWE 19 gt sal SDA RX 62 SDA TX 63 SDA 36 801 65 36 VID SEL1 87 36 VID SEL2 06 VIDSEL2 36 75 XTAL 20 30 88 80 16
140. 002 E D1004 B 3 C1003 B 2 01030 B 6 09302 F D1005 E 2 C1004 D 2 01031 B 6 D1006 C 6 C1005 B 3 01032 6 2 B 8 D1007 sg C1006 P 3 01033 B 6 TP3 D 9 D4000 B 4 C1007 F 2 01034 B 8 4 1 7 4001 B 4 C1010 G A 01035 C 8 TP5 E 2 D4002 A 5 C1011 F 2 01036 C 8 TP7 D 5 D4003 A 4 C1012 F 3 01037 C 7 TP9 H 9 D4005 p 4 C1013 F 4 01038 B 5 TP15 I 4 D4006 D 3 C1027 C 6 01039 B 8 TP1007 L 7 D4007 E 3 C1028 C 6 01040 B 6 TP1008 L 7 D4008 E 3 C1029 6 3 01041 B 8 TP1009 L 7 D6181 B 2 C1030 7 01042 A 5 D6182 B 3 01031 0 8 01043 A 6 D6183 A 3 C1032 B 7 01044 B 6 D6184 A 2 C1033 A 7 01045 D 6 D8001 G 9 C1034 A 6 01046 E 6 D8002 H 9 C1035 D 7 01047 D 6 D8003 H 9 C1037 L 6 Q1048 D 6 D8004 G 9 C1039 K 4 01049 E 6 D9001 A C1040 K 5 01050 D 6 D9004 B C1041 K 6 01051 D 6 D9005 C1042 J 6 01052 E 6 D9006 c C1043 2 5 01053 D 6 D9007 B C1044 D 2 01054 E 6 D9008 A C4000 B 5 01055 E 6 D9009 C4001 8 3 01056 E 6 D9101 D C4003 E 5 01057 L 6 D9104 ZG 4004 F 4 01058 L 5 D9105 D C4005 G 5 01059 L 7 D9106 D C4006 D 4 01061 J 6 D9107 D C4007 H 4 01062 K 5 D9108 D C4008 G 6 01063 7 6 D9109 C4009 6 01064 7 5 D9202 F C4010 A 4 01065 I 5 D9203 E C4011 G 6 01066 C 3 29204 P C4012 F 5 01067 6 D9301 F C4013 01080 K 6 D9302 F C4020 B 5 04000 A 4 D9303 G C6105 A 5 04001 B 3 D9304 G C690
141. 004 11 s CAPACITOR CERAMIC 0 1MF 25V C294 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C545 125 838 11 s CAPACITOR CERAMIC 2 2MF 6 3V C295 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C546 125 838 11 s CAPACITOR CERAMIC 2 2MF 6 3V C296 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C547 163 021 91 s CAPACITOR CERAMIC 0 01MF 50V C297 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C548 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C298 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C549 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C299 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C550 163 253 11 s CAPACITOR CERAMIC 120PF 50V C300 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP C551 163 253 11 s CAPACITOR CERAMIC 120PF 50V C304 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C552 163 253 11 s CAPACITOR CERAMIC 120PF 50V C305 163 243 11 s CAPACITOR CHIP CERAMIC 47PF 50 C553 163 253 11 s CAPACITOR CERAMIC 120PF 50V C312 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C554 163 275 11 s CAPACITOR CERAMIC 1000PF 50V C313 163 113 00 s CAPACITOR CHIP CERAMIC 68PF 50 C555 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C314 163 113 00 s CAPACITOR CHIP CERAMIC 68PF 50 C556 163 253 11 s CAPACITOR CERAMIC 120PF 50V C315 163 113 00 s CAPACITOR CHIP CERAMIC 68PF 50 C557 163 021 91 s CAPACITOR CERAMIC 0 01MF 50V C317 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C560 163 233 11 s CAPACITOR CHIP CERAMIC 18PF 50 C318 164 161 11 s CAPACITOR CERAMIC 2200PF 100V C703 126 396 11 s CAPACITOR ELECT 47MF 16V C
142. 01 RY BY 0010 276 402 15 NC 002 244 AB4 A16 MT 251 aca A17 AT 001 327 1 18 A6 008 302 A5 000 131 00 A4 OE 130 2 DI A3 vss 140 4 D2 A2 AL 28 M AQ 145 Ki 04 146 K2 D5 153 LI D6 154 L2 D7 155 L3 D8 156 L4 D9 163 M3 D10 164 M4 D11 169 Ni 012 170 2 013 171 014 172 D15 195 13 196 14 201 ut 186 82 185 Ri 178 P2 177 187 188 193 194 12 122 52 ei 121 Gt 129 HI 113 R250 0 CHIP C264 0 1 1 B CHIP LS A 18 8 19 9 pe 45 em us 500 m ui ss 181 sa psi D17 9 020 98 023 10 54 4 523 H24 4 J2 8 K23 149 123 16 DES DES 80 04 20 u23 20 EG mi Y4 8 Y28 9 AME 6 1825 4 ACA ACT ACTO 8 ACH 9 1013 6 6 1017 6 3018 66 1020 68 1023 022 96 META 4 AE20 0 AE25 AE26 6 9 5 AF9 AF16 4 AF20 46 AF21 4 AF22 48
143. 012 RESISTOR CHIP 2 2K 1 2012 RESISTOR CHIP 75 1 10W 2012 RESISTOR CHIP 10 2012 RESISTOR CHIP 100 1 108 2012 RESISTOR CHIP 3 9K 1 2125 RESISTOR CHIP 56K 1 100 2012 RESISTOR CHIP 56K 1 10 2012 RESISTOR CHIP 100K 1 2012 RESISTOR CHIP 56K 1 10 2012 RESISTOR CHIP 10 2012 RESISTOR CHIP 1K 1 10 2012 RESISTOR CHIP 1K 1 10 2012 RESISTOR CHIP 56K 1 10 2012 CONDUCTOR CHIP 2012 RESISTOR CHIP 10K 1 108 2012 RESISTOR CHIP 22K 1 10 2012 RESISTOR CHIP 6 8K 1 10W 2012 RESISTOR CHIP 1K 1 10 2012 RESISTOR CHIP 20K 1 10W 2012 RESISTOR CHIP 100 1 108 2012 RESISTOR CHIP 47K 1 10 2012 RESISTOR CHIP 220 1 100 2012 RESISTOR CHIP 3 3M 1 2012 RESISTOR CHIP 510 1 10W 2012 RESISTOR CHIP 2 2K 1 2012 RESISTOR CHIP 3 3K 1 2012 RESISTOR CHIP 2 4K 1 108 2012 RESISTOR CHIP 3 3K 1 2012 RESISTOR CHIP 100K 1 2012 RESISTOR CHIP 2 7K 1 108 2012 RESISTOR CHIP 180 1 108 2012 RESISTOR CHIP 2 2K 1 2012 RESISTOR CHIP 8 2K 1 108 2012 RESISTOR CHIP 1 5K 1 2012 RESISTOR CHIP 150 1 10W 2012 RESISTOR CHIP 10K 1 10W 2012 RESISTOR CHIP 270 1 10W 2012 RESISTOR CHIP 10K 1 10W 2012 RESISTOR CHIP 150 1 10W 2012 RESISTOR CHIP 680 1 10W 2012 RESISTOR CHIP 560 1 10W 2125 RESISTOR CHIP 680 1 10W 2012 RESISTOR CHIP 680 1 10W 2012 RESISTOR CHIP 560 1 10W 2012 RESISTOR CHIP 560 1 10W 2012 RESISTOR CHIP 5 6K 1 10W 2012 RESISTOR CHIP 680 1 10W 2012 RESISTOR CHIP 680 1 10W 2012 RESISTOR CHIP 5 6K 1 10W 2012 RESISTOR CHIP
144. 012 R567 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R503 216 001 00 s RESISTOR CHIP 10W 2012 R568 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R504 216 001 00 s RESISTOR CHIP 10W 2012 R569 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R505 216 001 00 s RESISTOR CHIP 10W 2012 R570 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R506 216 001 00 s RESISTOR CHIP 10W 2012 R571 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R507 216 001 00 s RESISTOR CHIP 10W 2012 R572 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R508 216 001 00 s RESISTOR CHIP 10W 2012 R573 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R509 216 001 00 s RESISTOR CHIP 10W 2012 R574 216 025 00 s RESISTOR CHIP 10W 2012 R510 216 001 00 s RESISTOR CHIP 10W 2012 R575 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R511 216 001 00 s RESISTOR CHIP 10W 2012 R576 216 025 00 s RESISTOR CHIP 10W 2012 R512 216 073 00 s RESISTOR CHIP 10K 1 10W 2012 R577 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R513 216 001 00 s RESISTOR CHIP 10W 2012 R578 216 017 91 s RESISTOR CHIP 47 1 10W 2012 R514 216 001 00 s RESISTOR CHIP 10W 2012 R579 216 017 91 s RESISTOR CHIP 47 1 10 2012 R515 216 031 00 s RESISTOR CHIP 180 1 10W 2012 R580 216 025 00 s RESISTOR CHIP 10W 2012 R516 216 025 00 s RESISTOR CHIP 10W 2012 R581 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R517 216 025 00 s RESISTOR CHIP 10W 2012 R582 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R518 216 001 00 s RESISTOR CHIP 10 1
145. 02 MEETS Tus R6111 M M M 2802412 06407 47 Kme 06416 oct Li yas 01 106106 06420 AK ou 2502412 k gt a 2 164 06417 jev Du KAS 25V 1 10W R6211 R6120 R6121 06105 TC4W66F 2SC2412K BUFF Q6409 06410 R6425 4 9 E 2SA1037AK II ID 560 1 108 ww PUES 96105 2602412 MATRIX SW THERMO COMP NW 5 0 Gar bei ES R6210 RN CP RN CP BUFF WA 50406 RN CP sov GER 2 1 47 1 10 RN CP 12 06421 06410 S CH CHIP PR R 1 108 8 5 25 2412 12011 Wl 251 28 1037 pes PR R RN CP 518 ri 7 9 CHIP RN CP CHIP 06415 gt Ik 217 sa R THERMO COMP CLAMP ini gt 06108 86102 e 58 R6123 i NUM V R6435 5 6k 3 5 a 5 1 8k 0 1 106401 10k toe E LA Par mm 2 7 TC74HC123AF FIKON sens ogra 25 5 zie T 47 16V 15k 06411 2 2 PULSE GEN 0 47 5 22 8 R iow 2SC2412K AW 1 WI 167 5 gt eu 0 86161 Lei CLAMP m Q6415 I 8 t 257 o 1 108 06418 1 108 2706 R6124 5 R6127 R6128 a e bd THERMO COME pi E 0 b 2 Tk 10k rj 780 820 06117 R NS 1 108 48 4 1 1075007 110 1 10w 1 108 47 gt 0 6 Wa RN CP RN CP RN CP 16V ve 1 RN CP 4 9 5 6128 06131 4 1 106102 cepa meus L 0556 PROBAT 16V Der 0 14F 25V B 1 f
146. 03 03 03 04 04 04 04 04 04 05 05 06 06 06 06 06 06 06 07 0701 lt gt Cn gt 0 1 2 lt gt DOr lt FILTER gt A 1 423 804 11 TRANSFORMER LINE FILTER A 1 433 843 11 TRANSFORMER LINE FILTER A 1 433 843 11 TRANSFORMER LINE FILTER PHOTO COUPLER gt 8 719 062 33 P 8 149 010 64 P 8 149 010 64 P 8 149 010 64 P 8 149 010 64 P 8 749 010 64 P 149 010 64 P 149 010 64 P 149 010 64 P 149 010 64 P 8 149 010 64 P 8 149 010 64 P lt TRANSISTOR gt 8 129 026 49 T 8 129 026 49 T 8 129 035 71 T 8 129 141 48 T 8 129 141 48 T 8 129 120 28 T 8 129 900 53 T 8 129 026 49 T 8 129 120 28 T 8 129 026 49 T 8 129 120 28 T 8 129 026 49 T 8 129 120 28 T 4 2 89 T 6 49 T 8 129 040 88 T 8 129 040 23 T 8 129 026 49 T 8 129 040 89 T 8 129 120 28 T 89 T 28 T 89 T 89 T 89 T mane 8 129 033 07 T 8 729 141 48 T 8 729 141 48 T 8 129 120 28 T 8 129 040 89 T 8 129 120 28 T 8 129 040 89 T 8 129 040 89 T 8 129 040 89 T 8 129 050 53 T 8 729 141 48 T 8 729 141 48 T HOTO HOTO HOTO HOTO HOTO HOTO HOTO HOTO HOTO HOTO HOTO HOTO TRIAC COUPLER S21MT2F COUPLER PC123F2 COUPLER PC123F2 COUPLER PC123F2 COUPLER PC123F2 CO CO UPLER PC123F2 COU LER PC123F2 LER PC123F2
147. 04 216 065 91 RES CHIP 4 7 5 10W R505 216 065 91 RES CHIP 4 7K 5 R405 216 081 00 RES CHIP 22K 5 10W R506 216 065 91 RES CHIP 4 7K 5 R406 216 070 00 RES CHIP 148 5 10W R507 216 081 00 RES CHIP 22 55 8407 216 073 00 RES CHIP OK 5 10W R508 216 308 00 RES CHIP 4 7 5 R408 216 065 91 RES CHIP 4 7 5 10W R509 216 308 00 RES CHIP 4 7 5 R409 216 049 11 RES CHIP K 5 10W R510 216 073 00 RES CHIP 0 5 R410 216 049 11 RES CHIP K 5 10W R511 216 061 00 RES CHIP 3 3K 5 R411 216 081 00 RES CHIP 22K 5 10W R512 216 049 11 RES CHIP K 5 R412 214 914 11 METAL 10K 1 2 R513 216 081 00 RES CHIP 22 53 R413 214 914 11 METAL 10K 1 2 R514 216 081 00 RES CHIP 22 5 R414 208 795 11 RES CHIP 3 6K 0 5 1 10W R515 217 625 00 METAL PLATE 0 05 1 2W F R415 216 057 00 RES CHIP 2 2K 5 10W R516 216 081 00 RES CHIP 22 5 R416 208 782 11 RES CHIP K 0 5 1 10W R517 216 073 00 RES CHIP 5 R417 216 065 91 RES CHIP 4 7K 5 10W R600 216 065 91 RES CHIP 4 7K 5 R418 208 782 11 RES CHIP K 0 5 1 10W R601 216 065 91 RES CHIP 4 7K 5 8419 208 782 11 RES CHIP K 0 5 1 10W R602 216 049 11 RES CHIP 5 R420 208 806 11 RES CHIP OK 0 5 10W R603 216 081 00 RES CHIP 22 5 R421 217 625 00 METAL PLATE 0 05 105 20 R604 216 065 91 RES CHIP 4 TK 5 R422 208 807 11 RES CHIP IK 0 5 1 10W R605 216 081 00 RES CHIP 22 5 R423 216 105 91 RES CHIP 220K 5 10W R606 216 073 00 RES CHI
148. 04 11 s CAPACITOR CERAMIC 0 1MF 25V C1147 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1211 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1148 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1212 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1149 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1213 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1150 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1214 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1151 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1215 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1152 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1216 126 392 11 s CAPACITOR CHIP ELECT100MF 6 3V C1153 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1217 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1154 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP C1218 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1155 126 405 11 s CAPACITOR ELECT 10MF 50V CHIP C1219 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1156 126 405 11 s CAPACITOR ELECT 10MF 50V CHIP C1220 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1157 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1221 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1158 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1222 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1159 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1223 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1160 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP C1224 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1161 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1225 126 396 11 s
149. 04 11 s CAPACITOR CERAMIC F 25V C1118 164 004 11 s CAPACITOR CERAMIC F 25V C1119 164 004 11 s CAPACITOR CERAMIC F 25V C1120 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1121 107 781 11 s CAPACITOR ELECT 47MF 16V BP PFM 42B1 PFM 42B1E B BOARD B BOARD Ref No Ref No or Q ty Part No SP Description or Q ty Part No SP Description C1122 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1186 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP C1123 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1187 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP C1124 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP C1188 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1125 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1189 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP C1126 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1190 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1127 164 182 11 s CAPACITOR CERAMIC 3300PF 100V C1191 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP C1128 164 344 11 s CAPACITOR CERAMIC 68000PF M C1192 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1129 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1193 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1130 163 259 91 s CAPACITOR CHIP CERAMIC 220PF C1194 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1131 164 004 11 s CAPACITOR
150. 073 00 RES CHIP 5 10W R257 216 049 11 RES CHIP 5 10W R127 215 904 11 METAL OXIDE 100K 5 F R258 216 073 00 RES CHIP 0 5 10W R128 216 037 00 RES CHIP 33 5 R129 216 068 00 RES CHIP 6 2K 55 8259 216 113 00 RES CHIP 4T0K 5 10W R130 216 029 00 RES CHIP 15 5 R260 216 073 00 RES CHIP 5 10W R131 216 047 00 RES CHIP 82 5 R261 216 049 11 RES CHIP 5 10W R262 208 812 11 RES CHIP 8 5 1 108 R132 216 345 11 METAL OXIDE 0 47 5 W F R263 208 793 11 RES CHIP 3 5 1 108 R133 216 089 91 RES CHIP 47 8134 216 061 00 RES CHIP 3 3K 5 R264 208 798 11 RES CHIP 4 7 5 10W R135 216 073 00 RES CHIP 0 5 R265 208 765 11 RES CHIP 20 55 10W R136 216 089 91 RES CHIP 47K R266 208 782 11 RES CHIP 5 10W R267 249 417 11 CARBO 5 R137 216 085 00 RES CHIP 33 5 R268 208 798 11 RES CHIP 4 7 5 10W R150 241 807 31 CARBO 0 5 4W R151 249 401 11 CARBO 4 5 4W R269 208 169 11 RES CHIP 3 5 1 108 R152 216 081 00 RES CHIP 22 5 R270 208 797 11 RES CHIP 4 3K 5 7104 8153 216 025 00 8 5 0 55 R271 216 073 00 RES CHIP 0 5 10W R272 216 049 11 RES CHIP 5 10W R154 216 029 00 RES CHIP 5 5 R273 208 798 11 RES CHIP 4 1K 5 10W R155 216 065 91 RES CHIP 4 7K 5 R156 216 065 91 RES CHIP 4 7 5 R274 208 764 11 RES CHIP 8 5 1 10W R157 216 065 91 RES CHIP 4 7K 5 R275 208 770 11 RES CHIP 33 5 1 10W R158 216 065 91 RES CHIP 4 7 5 R276 208 806 1
151. 073 01 s DIODE 111 8 50 C90 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V D515 8 719 073 01 s DIODE 111 8 50 D516 8 719 073 01 s DIODE 111 88 5 C9002 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP D700 8 719 158 15 s DIODE RD5 6SB 09003 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V 09004 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP D701 8 719 073 01 s DIODE 111 8 50 09005 126 394 11 s CAPACITOR ELECT 10MF 16V CHIP D702 8 119 059 22 s DIODE 5003 06 161 C9006 126 394 11 s CAPACITOR ELECT 10MF 16V CHIP D703 8 719 073 01 s DIODE 111 8 5 D704 8 719 073 01 s DIODE 111 8 50 C9007 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V D705 8 719 073 01 s DIODE MA111 K8 S0 C9008 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP C9101 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V D804 8 719 158 49 s DIODE RD12SB2 C9102 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP D805 8 719 158 49 s DIODE RDI2SB2 C9103 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V D940 8 719 976 96 s DIODE DT24 7B D941 8 719 976 96 s DIODE DTZ4 7B C9104 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP D942 8 719 976 96 s DIODE DT24 7B C9105 126 394 11 s CAPACITOR ELECT 10MF 16V CHIP C9106 126 394 11 s CAPACITOR ELECT 10MF 16V CHIP D943 8 719 976 96 s DIODE DT24 7B C9107 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V D944 8 719 976 96 s DIODE DT24 7B D945 8 719 976 96 s DIODE DTZ4 7B D946 8 719 976 96 s DIODE DT24 7B D947 8 719 976 96 s DIODE DT24 7B PFM 42
152. 081 315 4 049 122 4 081 318 4 080 989 1 763 670 1 1136 195 1 900 257 96 4 081 317 X 4038 605 X 4038 608 4 080 962 4 081 302 4 081 636 A 1270 443 A Screws Washers 1 628 000 10 1 628 253 20 1 682 647 09 1 682 948 09 7 685 103 19 7 685 648 79 SP O c c c D OO OO O O Cx ef e Oe 1 685 663 19 s 42 1 42 1 Desc BEZ BEZ GLA MOU PLAT MOU BRAC COVE COVE GASK GASK HAND KNOB RIVET m SHE PANE DC F MOU CO GASK PANE SPAC GASK MOU SCRE SCRE SCRE SCRE SCRE SCRE SCRE ription L ASSY SILVER L ASSY GRAY S OPTICAL FILTER CIRCUIT BOARD E EARTH CIRCUIT BOARD KET Y PWB R ASSY REAR SILVER R ASSY REAR GRAY ET 1X5 ET 1X5 LE SHIELD L S C AN CIRCUIT BOARD B ECTOR ASSY 80P ET EMI L ASSY QA L ASSY QB L BLANK AEP ONLY ER ET EMI ED CIRCUIT BOARD QA PSW M6X20 PS 2X6 PS 3X6 W 5 3X8 P 2X5 2 NON SLIT 3X12 TYPE2 IT 3 W 4X16 TYPE2 IT 3 Cover 6 3 Chassis 2016 16 PSW 3x16 PANEL PLASMA DISPLAY FPF42C128128UA 24 Made by Fujitsu 6 4 PFM 42B1 PFM 42B1E No Part No A 1391 081 A 4 049 122 0 4 081 421 0 A 1391 080 A 4 066 309 0
153. 0W 2012 R1280 216 066 00 s RESISTOR CHIP 5 1K 1 104 2012 R1211 216 295 00 s CONDUCTOR CHIP 2012 R1281 216 057 00 s RESISTOR CHIP 2 2K 1 100 2012 R1212 216 645 11 s RESISTOR CHIP 560 1 10W 2012 R1282 216 045 00 s RESISTOR CHIP 680 1 10W 2012 R1213 216 641 11 s RESISTOR CHIP 390 1 10W 2012 R1283 216 117 00 s RESISTOR CHIP 680K 1 10W 2012 R1214 216 295 00 s CONDUCTOR CHIP 2012 R1284 216 295 00 s CONDUCTOR CHIP 2012 R1215 216 643 11 s RESISTOR CHIP 470 1 10W 2012 R1286 216 089 00 s RESISTOR CHIP 47K 1 10W 2012 R1216 216 295 00 s CONDUCTOR CHIP 2012 R1287 216 037 00 s RESISTOR CHIP 330 1 10W 2012 R1217 216 645 11 s RESISTOR CHIP 560 1 10W 2012 R1288 216 295 00 s CONDUCTOR CHIP 2012 R1218 216 645 11 s RESISTOR CHIP 560 1 10W 2012 R1289 216 037 00 s RESISTOR CHIP 330 1 10W 2012 R1219 216 669 11 s RESISTOR CHIP 5 6K 1 104 2012 R1290 216 077 00 s RESISTOR CHIP 15K 1 10W 2012 R1220 216 043 91 s RESISTOR CHIP 560 1 104 2125 R1291 216 613 11 s RESISTOR CHIP 8 2K 1 104 2012 R1221 216 669 11 s RESISTOR CHIP 5 6K 1 10W 2012 R1292 216 668 11 s RESISTOR CHIP 5 1K 1 1090 2012 R1222 216 043 91 s RESISTOR CHIP 560 1 104 2125 R1293 216 077 00 s RESISTOR CHIP 15K 1 10W 2012 R1223 216 669 11 s RESISTOR CHIP 5 6K 1 104 2012 R1294 216 077 00 s RESISTOR CHIP 15K 1 10W 2012 R1224 216 043 91 s RESISTOR CHIP 560 1 104 2125 R1295 216 295 00 s CONDUCTOR CHIP 2012 R1225 216 113 00 s RESISTOR CHIP 470K 1 10W
154. 0W R451 242 914 11 CEMENT 0 5 51 R327 216 081 00 RES CHIP 22K 5 10W R452 208 806 11 RES CHIP 0 0 55 8328 216 065 91 RES CHIP 4 TK 55 10W R453 216 655 11 METAL 5 0 5 R329 260 128 11 CARBO 210 54 2 R454 208 830 11 RES CHIP 00 0 5 1 R339 260 128 11 CARBO 270K 5 2 8455 208 830 11 RES CHIP 00 0 55 1 R340 216 049 11 RES CHIP IK 5 10W R456 216 073 00 RES CHIP 0 5 R341 216 042 00 RES CHIP 510 5 10W R457 208 830 11 RES CHIP 00 0 5 1 R342 216 073 00 RES CHIP 10K 5 10W 8459 208 802 11 RES CHIP 6 8 0 5 1 R343 216 077 91 RES CHIP 15K 5 10W R460 242 916 11 CEMENT 6 5 5 R344 214 929 00 METAL 47 1 12 R461 216 113 00 RES CHIP 470 5 R345 214 929 00 METAL 47 1 12 R462 242 916 11 CEMENT 6 5 5 R346 208 799 11 RES CHIP 5 1 0 5 1 10W R465 216 389 91 METAL OXIDE 5 3 R347 216 037 00 RES CHIP 330 5 10W R466 216 389 91 METAL OXIDE 5 3 R348 216 073 00 RES CHIP 10K 5 10W R467 242 916 11 CEMENT 6 5 5 R349 241 191 91 CARBO 22 5 4 R468 242 914 11 CEMENT 00 5 5 R351 216 065 91 RES CHIP 4 1 5 10W 8469 242 914 11 CEMENT 00 5 5 R352 216 113 00 RES CHIP 470 5 10W R500 247 807 31 CARBO 00 5 JAM R400 216 065 91 RES CHIP 4 7 5 10W R501 249 401 11 CARBO 47 58 8401 216 065 91 RES CHIP 4 7 53 10W R502 216 073 00 RES CHIP 0 5 R402 216 049 11 RES CHIP 1K 5 10W R503 216 037 00 RES CHIP 33 5 R403 216 081 00 RES CHIP 22K 5 10W R504 208 166 11 RES CHIP 22 0 5 1 R4
155. 1 100 2012 1 10 ORK ORK ORK ORK ORK ORK ORK ORK ORK ORK ORK ORK NETWORK 47 1608 TOR NETWORK 47 1608 TOR NETWORK 47 1608 22 TOR NETWORK 47 1608 22 22 22 22 22 22 22 22 22 22 7 1608 ORK 1 ORK 1 ORK 1 ORK 1 ORK 1 co ccc ORK 100 6 23 B BOARD Ref No or Q ty Part No SP 9 400 061 11 8 51 553 510 11 8 TH100 809 350 21 s X20 521 122 00 s X5 579 886 11 s X501 181 659 11 s 4000 160 457 11 8 4001 521 122 00 s 4002 579 583 11 s 4003 5TI 611 11 s 4004 167 147 11 s 6 24 Description BEAD FERRITE WITH CASE SWITCH SLIDE THERMISTOR CRYSTAL OSCILLATOR 14 31818MHz VIBRATOR CRYSTAL 32 768kHz VIBRATOR CRYSTAL 12 288MHz VIBRATOR CRYSTAL VCO 17 7MHz CRYSTAL OSCILLATOR 14 31818MHz OSCILLATOR CERAMIC 503kHz VIBRATOR CERAMIC 500kHz VIBRATOR CRYSTAL FOR VC 14 302MBz o t No 28 416 64 004 26 396 26 396 28 416 63 113 00 26 396 26 396 26 396 26 396 64 004 07 781 64 004 26 396 26 396 64 004 07 781 26 396 26 396 28 416 63 113 00 26 396 26 396 26 396 26 396 64 004 07 781 07 781 07 781 07 781 64 004 28 416 28 416 64 004 64 004 64 004 64 004 26 396 63 263 64 004 28 416 63 253 63 253 63 253 64 004 6 394
156. 1 RES CHIP 0 55 10W R277 208 183 11 RES CHIP 5 1 10W R159 216 073 00 RES CHIP 0 55 8218 208 788 11 RES CHIP 8K 25 10W R160 216 308 00 RES CHIP 4 7 5 R16 216 308 00 RES CHIP 4 7 55 8219 208 806 11 8 5 0 55 10W R162 216 081 00 RES CHIP 22 5 R280 208 782 11 RES CHIP K 5 10W R163 216 081 00 RES CHIP 22 5 R281 208 788 11 RES CHIP 8K 25 10W R282 208 806 11 RES CHIP 0 5 10W R164 249 429 11 CARBO 0 5 4W R283 208 767 11 RES CHIP 24 5 1 104 R165 216 077 91 RES CHIP 5 5 R166 216 073 00 RES CHIP 0 53 R284 208 768 11 RES CHIP 21 5 1 10 R167 216 341 11 METAL OXIDE 0 22 5 W F R285 208 814 91 RES CHIP 22 5 1 104 R19 241 191 91 CARBO 22 5 4W R286 208 165 11 RES CHIP 20 5 1 104 R287 208 792 11 RES CHIP 2 7K 5 1 10W R191 216 089 91 RES CHIP 47 R288 216 073 00 RES CHIP 10 5 10W R192 216 073 00 RES CHIP 10K 5 R201 216 065 91 RES CHIP 4 7 5 R300 249 413 11 CARBO 47 5 4 R202 216 065 91 RES CHIP 4 7K 5 R301 249 413 11 CARBO 47 5 4 R203 216 065 91 RES CHIP 4 1K 5 R302 260 130 91 CARBO 390K 5 12 8304 260 130 91 390 5 2 R204 216 065 91 RES CHIP 4 7K 5 R305 216 109 00 RES CHIP 330K 5 10W R205 216 057 00 RES CHIP 2 2K 5 6 32 PFM 42B1 PFM 42B1E
157. 100 8711 6 3 ATEMP 1k 3 3V 3 Ww de 1 29405 705 0704 A 5V REG PH 100k 100 6 3V 100 100 CHIP 16V 16V w A 4 AUDIO 100 81 1 iM CHIP w THERM 1 TO T BOARD CN9003 5V 2 DSV VA SENCE 020 100 3 3V REG 100 D3 3V 16V 16V s VS SENCE hi 1 291 10831 54 3 LM317SX RS mailet D703 MA111 TX R729 0 T CHIP R831 m 70V AM D2 5V cns d R728 22 2 5V 35V 7 C717 102 22 R830 o LM317SX Rage 35V mL 1 100 2 5V REG FPRD D701 RS op 16V MA111 TX iw 1 1 12V 024 Y L 025 28V 100 072041 9 1 B d del 25V CHIP 1 Q702 28J377 TE16L 1 pA FAN DAY eV me 0721 1 0 1 B R709 7 PROTECT CHIP 8 STBY5V STBY3 3V E 101 oz R720 E Z Mr 5 Do 5 E 10 FAN DRV 100 3 3V REG 100 n 0700 CHIP 1 16V 16V FAN DRV 7 4 5 bU 2SA1037K 2SA1037AK 16703 2 2 CHIP XSY FAN DRV CONT T 0 1 NJM2903M 5V 3 C716 FAN DRV COMP 0 1 2 R715 R718 R721 B CHIP 1 10k CHIP CHIP CHIP 4 m e e o 16703 1 2 EANZORY R710 V i NJM28003M gt TO FANI 5 10k CHIP FAN DRV TO m Fi R727 10 CHIP F2 1 R726 10 CHIP m F3 R725 10 CHIP FAN DRV 2 TP4 TPS TP7 TP9 TPIS Ei 8724 10 1 S FANS j 9 FE R723 CHIP
158. 103 0107 28 1037 1 0101 0102 THERMO DET 275 2370 252370 SWITCHING SWITCHING D105 20JL2C41A PFC RECT 0100 2sK2370 0153 SWITCHING FS10KM 10 HH 13V MAIN SWITCHING A D101 8115 0112 0113 D25XB60 22 4709 470p 0100 500V 500V R116 R117 R118 16 22K 10k 450v 05 46 A R109 110 R111 10 H0 10 w nw R112 10K 0151 288624 13 MAIN SWITCHING R101 R103 4 7 4 7 0153 D1NL20U D102 84165247 RUSH PROTECT R102 22 1 44 e 1 Res GND Ces ST PH100 S21MT2 RUSH PROTECT Ce RT V IN CT ON OFF RT2 D154 185355 OVP Vref OUT1 OUT2 Ve Ve 1150 R301 8300 470 470 18V CONTROL D155 174w 1 4 155355 8159 10k 410154 151 152 6152 R154 153 1000 22k 1000p 150 1000 47 50V R192 10k 0500 288624 VS MAIN SWITCHING 0502 25 2370 VS MAIN SWITCHING D500 188355 R505 4 7k C507 4709 0503 28 2370 VS MAIN SWITCHING D501 188355 R509 C500 c501 1 4 7 22 420V 450v R506 4 7k D503 0512 188355 1501 484uH C508 470p R515 C517 C518 C519 0 05 0 068 0 068 0 06
159. 1037AK T146 QR 2SA1162 G 2SB624 BV345 2SB709A QRS TX 2SC1623 L5L6 2SC2412K T 146 QR DTA114EKA T146 DTA144EKA T146 DTC114EKA T146 DTC144EKA T146 B E 2SA1213Y TE12L 2SB798 T1 DLDK ES 2SB1240TV2QR 2SC2785TP HFE 2SD1862TV2QR SIDE 2SJ106 GR G S D 254334 25 2425 25 3142 01 25 3212 01 FS10KM 10 FS7KM 16A PFM 42B1 PFM 42B1E 2SJ377 TE16L 21 25 1590 1 25 2370 2 25 3142 01 25 3212 01 02CZ10 TE85L 02CZ12 TE85L MA3100 TX 3 2 3 ac E 05NH46 CATHODE d ANODE PFM 42B1 PFM 42B1E 1SS226 TE85L MA157 TX 1SS355TE 17 DTZ4 7B HVU359TRF MA111 TX RD12SB2 RD5 6SB UDZ TE 17 12B UDZ TE 17 3 9B UDZ TE 17 4 7B UDZ TE 17 5 6B UDZ TE 17 7 5B ANODE CATHODE 20DL2C41A 20FL2C41A 20JL2C41A AUO2A D1NL20U DTZ2 4B TT11 MTZJ T 77 10B RD10ES B2 CATHODE ANODE BT139X 600 DAN202K T 146 3 2 1 3 4 1 FCH20A10 FCH30A04 FCH30A06 HRUO103ATRF HZU22B2TRF HZUSOBTRF HZU6 2BTRF RD5 6SB2 T1 d Transistor Diode MA8039 ANODE CATHODE NSGO3A06 TE16L ANODE CATHODE SLR 325MCT31 li ANODE CATHODE SLR 325VCT31 ANODE CATHODE 5 3 Section 6 Spare Parts 6 1 Notes on Repair Parts NOTE 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
160. 10602 1 2 702 D I PHOTO COUPLER 1 5 132 SWITCHING REGURATOR 7 8 7 8 PFM 42B1 PFM 42B1E Section 8 Diagrams Note Parts marked differ according to the model destination Refer to the mount table for each function The parts marked on 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 tw fusible resistor wt 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 because it is easily damaged by the heat Reference information RESISTOR RN METAL FILM RC SOLID FPRD NONFLAMMABLE CARBON FUSE NONFLAMMABLE FUSIBLE RS NONFLAMMABLE METAL OXIDE RB NONFLAMMABLE CEMENT RW NONFLAMMABLE WIREWOUND ES ADJUSTMENT RESISTOR COIL LF 8L MICRO INDUCTOR CAPACITOR TA TANTALUM PS STYROL PP POLYPROPYLENE PT MYLAR MPS METALIZED POLYESTER MPP METALIZED POLYPROPYLENE ALB BIPOLAR ALT HIGH TEMPERATURE ALR HIGH RIPPLE PFM42B1 PFM 42B1E Measuring conditions voltage and waveform A voltage value is the reference value between the measurement point
161. 10W 2012 R583 216 025 00 s RESISTOR CHIP 10W 2012 R519 216 001 00 s RESISTOR CHIP 10 1 10W 2012 R584 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R520 216 073 00 s RESISTOR CHIP 10K 1 10W 2012 R585 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R521 216 049 11 s RESISTOR CHIP 1 10W 2012 R586 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R525 216 049 11 s RESISTOR CHIP 1 10W 2012 R587 216 025 00 s RESISTOR CHIP 10W 2012 R526 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R588 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R527 216 025 00 s RESISTOR CHIP 10W 2012 R589 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R528 216 073 00 s RESISTOR CHIP 10K 1 10W 2012 R590 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R529 216 073 00 s RESISTOR CHIP 10K 1 10W 2012 R591 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R530 216 073 00 s RESISTOR CHIP 10K 1 10W 2012 R592 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R531 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R593 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R532 216 073 00 s RESISTOR CHIP 10K 1 10W 2012 R594 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R534 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R595 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R535 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R596 216 025 00 s RESISTOR CHIP 10W 2012 R536 216 017 91 s RESISTOR CHIP 47 1 10W 2012 R597 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R537 216 017 91 s RESISTOR CHIP 47 1 10W 2012 R598 216 017 91 s RESISTOR CHIP 47 1 10W 2012
162. 15 5 6927 Brow 8 11008 086102 casa C1004 1 canoe CB004 C902 8 CNIIS 4 5 1 08310 aer TUE 00308 1 09304 A SIDE SUFFIX 11 8 4 8 4 PFM42B1 PFM 42B1E R276 R275 839 840 M38 MO 8274 R230 8270 8289 2 25 0240 RI244 81281 81231 81283 1175 1198 2 gt 1223 Ek 1208 m mm EE IDA nin R1258 H SEE 8 Ero 2e 5 a 28 d 58 328 mm LL B 42 1 PFM 42B1E E Ee 88 n WA 58113 50011 E OE 2 we HEI 81011 gt e Ws 1 CN8001 2 FAN_DRV 90 4 200 a 1185 155 T 18 N 4 Er LEH Le sk Tuk cati prs 19212 102134 Gil BR z 04 E LEE TE BEBE 5 se EI ho 81158429 me E word 91019 29079 49014 09014 OB mo SE mn 109 son E 02018 S S JE 5 um 5 F 10019 mm TE E EL sch CH 5 8 89013 050 2 mm H 10011 8601 i 20011 re I 80014 0010 g I 4047 84023 359 4021 ME qug 84030 Si 5 8 n LIC I 88012 H
163. 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C719 115 670 11 s CAPACITOR ELECT 220MF 35V CHIP C516 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C720 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP C517 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C721 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C519 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C801 128 396 11 s CAPACITOR ELECT 470MF 10V CHIP C520 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C927 125 817 11 s CAPACITOR CERAMIC 10MF 6 3V C521 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C928 115 459 11 s CAPACITOR ELECT 47MF 6 3V BP C522 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C937 125 817 11 s CAPACITOR CERAMIC 10MF 6 3V C523 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP C938 115 459 11 s CAPACITOR ELECT 47MF 6 3V BP C524 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1000 163 229 11 s CAPACITOR CHIP 12PF 50V 2125 C525 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP C1001 163 089 00 s CAPACITOR CHIP CERAMIC 6 0PF PFM 42B1 PFM 42B1E B BOARD Ref No 0 L Rap GC aa Ca TA Fata Ka a Ta Le Ne O O a Ca Ta Q ty Pa C lt gt lt gt oo D DO lt gt lt gt gt O 1 lt gt lt gt lt gt D Cn
164. 19 988 61 DIODE 155355 17 C711 163 275 11 CERAMIC CHIP 1000 5 50V D404 8 719 988 61 DIODE 155355 17 712 163 275 11 CERAMIC CHIP 1000 5 50V D405 8 719 988 61 DIODE 155355 17 713 115 339 11 CERAMIC CHIP 10 50V D406 8 719 071 63 DIODE HZU6 2BTRF 0714 163 263 91 CERAMIC CHIP 330pF 5 50V D407 8 719 988 61 DIODE 155355 17 C715 115 340 11 CERAMIC CHIP 22uF 10 257 D408 8 719 988 61 DIODE 155355 17 C716 125 916 11 FILM 0 018uF 5 1 25KV D409 8 719 988 61 DIODE 155355 17 6 30 PFM 42B1 PFM 42B1E D50 D50 D50 K lt gt 050 060 060 060 060 060 Cn lt gt D60 D60 D70 70 m O co 1 lt 70 gt 70 F101 C101 C102 C15 C20 C201 C203 C25 C252 C3 C301 C302 C4 C401 C402 C403 C500 C600 C601 C602 C603 C700 L100 L101 L201 L202 L203 L250 L251 L252 L253 L254 L400 L401 L501 L600 lt FUSE gt A1 576 365 11 FUSE 15A 250V 1C 8 759 464 69 8 759 098 24 8 759 470 07 8 759 700 65 8 759 648 34 8 759 170 73 8 759 648 34 8 759 648 34 8 759 354 43 8 759 510 73 8 759 648 34 8 759 510 7 8 759 648 34 8 759 058 5 8 759 510 7 8 759 470 07 8 759 510 7 8 759 648 34 8 759 058 5 8 759 510 7 8 759 470 07 lt COIL gt 416 489 1 419 372 1 406 103 2 406 103 2 406 103 2
165. 2 107 823 11 CERAMIC CHIP 0 47uF 10 16V 0117 113 920 11 CERAMIC 2200pF 20 2507 C303 163 133 00 CERAMIC CHIP 470pF 5 501 C118 115 339 11 CERAMIC CHIP 0 1uF 10 50 0304 163 275 11 CERAMIC CHIP 1000pF 5 50 0119 115 339 11 CERAMIC CHIP 0 10 10 50 C120 115 340 11 CERAMIC CHIP 0 22uF 10 257 C305 163 275 11 CERAMIC CHIP 1000pF 5 50 C306 163 275 11 CERAMIC CHIP 1000pF 5 50 C121 163 263 91 CERAMIC CHIP 330pF 5 50 C307 107 909 11 ELECT 4TuF 20 50V C122 115 339 11 CERAMIC CHIP 0 1uF 105 50 C308 115 339 11 CERAMIC CHIP 0 1uF 10 50 C123 164 645 11 CERAMIC 1000pF 10 5007 C309 115 339 11 CERAMIC CHIP 0 1uF 507 C124 163 275 11 CERAMIC CHIP 1000pF 5 507 C125 163 021 91 CERAMIC CHIP 0 010 10 50 C310 107 909 11 ELECT 4TuF 20 50V C311 115 339 11 CERAMIC CHIP 0 1uF 10 507 C150 136 165 00 luF 5 50V C312 104 760 11 CERAMIC CHIP 0 0470 10 501 C151 163 275 11 CERAMIC CHIP 1000pF 5 50 C313 163 143 00 CERAMIC 1200pF 5 50 C152 163 275 11 CERAMIC CHIP 1000pF 5 507 C314 115 339 11 CERAMIC CHIP 0 10 105 50 C153 163 275 11 CERAMIC CHIP 1000pF 55 507 C154 107 909 11 ELECT 4TuF 208 50V C315 115 339 11 CERAMIC CHIP 0 1uF 507 C316 115 339 11 CERAMIC CHIP 0 1uF 507 C155 115 340 11 CERAMIC CHIP 0 22uF 10 257 0317 115 340 11 CERAMIC CHIP 0 22uF 10 25 C156 117 351 91 ELECT 82uF 20 35V 0400 115 339 11 CERAMIC CHIP 0 1uF 10 507 C157 117 350 91 ELECT 56uF 20
166. 2 inch diagonal 1 058 mm Inputs and Outputs INPUT1 INPUT2 RGB YUV D sub 15 pin female See Pin assignment on page 39 GB AUDIO Stereo minijack 500 mVrms high impedance VIDEO NTSC PAL SECAM 5 4 43 PAL60 PAL M COMPOSITE IN BNC type x1 Composite video 1 Vp p 2 dB sync negative 75 ohm automatic termination Y C IN Mini DIN 4 pin type x1 Y luminance 1 Vp p 2 dB sync negative 75 ohms terminated C chrominance Burst 0 286 Vp p 2 dB NTSC 75 ohms terminated Burst 0 3 Vp p 2 dB PAL 75 ohms terminated AUDIO IN Stereo minijack 500 mVrms high impedance COMPOSITE OUT BNC type x1 Loop through AUDIO OUT Stereo minijack 500 mVrms high impedance REMOTE RS 232C D sub 9 pin type x1 Safety regulations UL1950 CSA No 950 c UL FCC Class B IC Class B EN60 950 NEMKO CE C Tick General Power requirements 100 V to 240 V AC 50 60 Hz 4 5 A to 1 8 Power consumption 400 W Operating conditions Temperature 0 to 35 32 F to 95 F Humidity 20 to 90 no condensation Atmospheric pressure 700 to 1 060 hPa Storing transporting conditions Temperature 10 C to 40 C 14 F to 104 F Humidity 20 to 90 no condensation Atmospheric pressure 700 to 1 060 hPa Dimensions 1 032 x 630 x 83 mm 40 3 4 x 24 x 3 inches w h d excluding projections Mass 29 4 kg 64 Ib 13 oz Supplied accessories AC power cord 1 AC plug hol
167. 2 x 624 CLOCK 35 5 MHz 36 MHz 40 MHz 50 MHz 49 5 MHz 56 25 MHz 57 285 MHz HORIZONTAL H FREQ H FP H SYNC H BP H ACTIVE VERTICAL V FREQ V BP V ACTIVE SYNC SOG EXT H V EXT COMP COMP VIDEO VIDEO LEVEL SYNC LEVEL 3 20 PFM 42B1 PFM 42B1E 38 39 40 41 42 43 44 45 VESA1024x768 260 VESA1024x768 070 5 1024 768 975 VESA1024x768 285 VESA1152x864 075 Mac21 VESA1280x960 60 IVESA1280x960 8 RESOLUTION 1024 x 768 1024 x 768 1024 x 768 1024 x 768 1152 x 864 1152 x 870 1280 x 960 1280 x 960 CLOCK 65 MHz 75 MHz 78 75 MHz 94 5 MHz 108 MHz 100 MHz 108 MHz 148 5 MHz HORIZONTAL H FREQ H FP H SYNC H BP H ACTIVE VERTICAL V FREQ EXT H V EXT COMP COMP VIDEO VIDEO LEVEL SYNC LEVEL PFM 42B1 PFM 42B1E 3 21 AREA 46 47 48 49 50 51 NAME VESA1280x1024 060 1280 1024 75 VESA1280x1024 085 VESA1600x1200 060 PAL NTSC RESOLUTION 1280 x 1024 1280 x 1024 1280 x 1024 1600 x 1200 932 x 573 753 x 483 CLOCK 108 MHz 1
168. 201 REMOTE RXD RS232 PWM CONTROL TXD RS232 TXD 5V CONTROL B 5 6 S1 YA YB B 5 6 S1 YA YB e STI 5 1 1501 2 CN1501 MATRIX HD YPBPR B1 BOARD SENSOR THERMO CN6101 2 2 011501 2 CLOCK 1 1C509 2 2 MAIN FAN LIMIT AD A TEMP t AMBIENT TEMP AD 1 2 97 PANEL TEMP AD 1 PTEMP2 5 98 PANEL TEMP2 AD 8 99 PANEL TEMP3 AD FAN DRV 112 SWITCH 1 FANDRV mE 2 PEST FAN DRV E FAN DRV PWM Ha 2 nr I 7 FANDRV STBY YB Bel mt 5V 58601 MENU H CN110 FANI 8 110 ranpRv 1 4 ian THERMI 4 03 PS TEMP Bez CNO005 VASENCE 6 94 70V SENS AD cuis VSSENCE 8 93 180V SENS AD 6 rd FANS 414 Fans CN8601 CN8
169. 2K 1 10W 2012 R727 216 001 00 s RESISTOR CHIP 10W 2012 R1043 216 057 00 s RESISTOR CHIP 2 2K 1 10W 2012 R728 216 073 00 s RESISTOR CHIP 10K 1 10W 2012 R1044 216 065 91 s RESISTOR CHIP 4 7K 1 10W 2012 R729 216 073 00 s RESISTOR CHIP 10K 1 10W 2012 R1045 216 057 00 s RESISTOR CHIP 2 2K 1 10W 2012 R830 216 369 00 s RESISTOR METAL FILM 1 00 2W R1046 216 669 11 s RESISTOR CHIP 5 6K 1 10W 2012 R831 249 317 11 s RES CARBON 0 47 1 4W R1047 216 667 11 s RESISTOR CHIP 4 7K 1 104 2012 R832 249 317 11 s RES CARBON 0 47 1 4W R1048 216 676 11 s RESISTOR CHIP 11K 1 10 2012 R901 216 033 00 s RESISTOR CHIP 22 0W 2012 R1049 216 661 11 s RESISTOR CHIP 2 7K 1 10W 2012 R902 216 033 00 s RESISTOR CHIP 220 1 10W 2012 R1050 216 651 11 s RESISTOR CHIP 1K 1 100 2012 R918 216 057 00 s RESISTOR CHIP 2 2K 1 10W 2012 R1051 216 651 11 s RESISTOR CHIP 1K 1 10W 2012 R919 216 033 00 s RESISTOR CHIP 220 1 10W 2012 R1052 216 635 11 s RESISTOR CHIP 220 1 10W 2012 R921 216 057 00 s RESISTOR CHIP 2 2K 1 10W 2012 R1053 216 651 11 s RESISTOR CHIP 1K 1 10W 2012 R922 216 033 00 s RESISTOR CHIP 220 1 10W 2012 R1054 216 651 11 s RESISTOR CHIP 1K 1 10W 2012 R931 216 057 00 s RESISTOR CHIP 2 2K 1 10W 2012 R1055 216 073 00 s RESISTOR CHIP 10K 1 10 2012 R932 216 033 00 s RESISTOR CHIP 220 1 10W 2012 R1056 216 652 11 s RESISTOR CHIP 1 1K 1 104 2012 R934 216 057 00 s RESISTOR CHIP 2 2K 1 10W 2012 R1057 216 663 11 s RESISTOR CHIP 3 3K 1 10W 2012 R
170. 3 D 1 04002 B 4 D9305 F C6904 E 1 04003 B 4 D9306 F C6905 CHL 04004 B 4 D9307 F C6906 A 2 04005 B 4 D9308 p C6907 2 04006 C 4 D9309 F C6908 I 4 04007 B 5 D9310 C6909 F 6 04008 B 4 C8001 E 7 04009 A 4 8 6 8 6 PFM42B1 PFM 42B1E B 1 13 B 1 13
171. 32 tO tO IO OO 8 729 120 28 8 729 026 49 8 729 120 28 8 729 120 28 8 729 120 28 8 729 120 28 8 729 216 22 8 729 120 28 8 729 216 22 8 729 216 22 8 729 12 8 729 120 28 8 729 120 28 8 729 216 22 8 729 216 22 28 8 729 216 22 8 729 026 49 8 129 900 53 8 729 120 28 8 729 120 28 8 729 120 28 8 729 120 28 8 729 120 28 8 729 120 28 8 729 026 49 8 729 216 22 8 729 027 38 8 729 216 22 8 729 120 28 8 729 120 28 8 129 900 53 8 129 900 53 8 729 027 23 8 129 900 53 8 129 216 22 8 129 216 22 8 729 120 28 8 729 120 28 8 729 120 28 8 729 120 28 8 729 027 23 8 729 120 28 8 729 120 28 8 729 120 28 8 729 120 28 8 729 216 22 8 129 900 53 8 129 216 22 8 729 120 28 8 729 027 23 8 129 900 53 8 129 216 22 1 801 806 11 8 729 120 28 8 729 026 49 8 729 120 28 8 729 120 28 8 729 216 22 8 729 216 22 8 729 216 22 5 cn cn cn cn cn cn C XQ cn cn cn cn cn cn o cn cn o XQ TRA OGOGO UO co co co co co
172. 33K 1 10W 2012 R634 216 025 00 s RESISTOR CHIP 10W 2012 R1011 216 681 11 s RESISTOR CHIP 18K 1 10W 2012 R635 216 025 00 s RESISTOR CHIP 10W 2012 R1012 216 041 00 s RESISTOR CHIP 470 1 104 2012 R636 216 009 00 s RESISTOR CHIP 22 1 10W 2012 R1013 216 657 11 s RESISTOR CHIP 1 8K 1 10W 2012 R637 216 009 00 s RESISTOR CHIP 22 1 10W 2012 R1014 216 069 00 s RESISTOR CHIP 6 8K 1 10W 2012 R700 216 615 11 s RESISTOR CHIP 10K 1 10W 2012 R1015 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R701 216 681 11 s RESISTOR CHIP 18K 1 10W 2012 R1016 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R702 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R1017 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R703 216 071 00 s RESISTOR CHIP 8 2K 1 10W 2012 R1018 216 651 11 s RESISTOR CHIP 2012 R704 216 085 00 s RESISTOR CHIP 33K 1 10W 2012 R1019 216 049 11 s RESISTOR CHIP IK 1 10W 2012 R705 216 097 00 s RESISTOR CHIP 100K 1 10W 2012 R1020 216 651 11 s RESISTOR CHIP 10 2012 R706 216 097 00 s RESISTOR CHIP 100K 1 10W 2012 R1021 216 049 11 s RESISTOR CHIP 1K 1 10W 2012 R707 216 097 00 s RESISTOR CHIP 100K 1 10W 2012 R1022 216 651 11 s RESISTOR CHIP 10 2012 R708 216 097 00 s RESISTOR CHIP 100K 1 10W 2012 R1023 216 049 11 s RESISTOR CHIP 1K 1 10W 2012 R709 216 059 00 s RESISTOR CHIP 2 7K 1 10W 2012 R1024 216 651 11 s RESISTOR CHIP 2012 R710 216 073 00 s RESISTOR CHIP 10K 1 10W 2012 R1025 216 025 00 s RESISTOR CHIP 10W 2012 R711 216 049 11 s RESI
173. 35 291 100 CHIP 3 8 0544 n 8536 47 CHIP 5 0 5 0 TCTALCX244AF ip A AN 17 DMP_TX 50 60 34 BUFF 0549 5 0 a 5 9 R590 119 29 TO gt F 019000 8 sync PXI TO P11 cule 6 32 EI TO P1 04081 3 IA I 5 en z 8 5 85 8 22 JH aS 5 0g 193 TO P8 11 12 i 4 290 R534 100 CHIP 5885 _ gt 225 28 32 10502 6 8 e TO 2820 MISO Me 555 s 7410 244 MR 2 ars To DACI CS HHE EE E e R588 100 CHIP 10508 3 6 22 T CHIP SCHMITT Sess Jol s 21212 211121 Me SYS VS TO P2 3 FLASH W H 0519 sls 5 0 3 7 8 CHIP 21212 m V BLK TO P13 R527 100 na 14 LA sa m 5 47 CHIP 2 t M TC505 11747 2 5 5 SCHMITT 3 ROS HO S HIP 1 1674 126 0527 e 0 4 10508 2 6 8 2 52555555655 TOTAVHCTAF z DS A sli ala a 57857 C504 5V C517 H 5 1 B E s 2 2 2 2 2 SCHMITT s STBY5V sH 1 0 1 zer guy s EE 4 2 2 zco z sz7s z s z 2 z 10508 4 6 5 joe 3 B CHIP 0 3 3 Ma zlelslslaisizle al sla 74 14 E 6 70509 7 16505 3 4 0820 e 5 3 218 R578 INV 7 1 R520
174. 35 MHz 157 5 MHz 162 MHz 17 75 MHz 14 318 MHz HORIZONTAL H FREQ H FP H SYNC H BP H ACTIVE VERTICAL V FREQ V BP V ACTIVE SYNC SOG EXT H V EXT COMP COMP VIDEO VIDEO LEVEL SYNC LEVEL 3 22 PFM 42B1 PFM 42B1E 52 53 54 55 56 59 575 50P 480 60P 1080 48 1080 50 1080 601 720 60P 72 00MHz 13 889nsec 54 00MHz 18 519nsec 74 25MHz 13 469nsec 74 25MHz 13 469nsec 74 25MHz 13 469nsec 74 25MHz 32 001 2304dots 31 779usec 1716dots 37 040usec 2750dots 35 559usec 2640dots 29 632usec 2200dots 22 224usec 26 001 1872do 26 668usec 1440dots 25 861usec 1920do 25 861usec 1920dots 25 861yusec 1920dots 17 241usec 2 362 17040 2 371ysec 128dots 0 593usec 44do 0 593usec 44dots 0 593usec 44dots 0 539usec 2 889 208do 2 149usec 116dots 2 58 7 usec 192do 2 587usec 192dots 2 587usec 192dots 3 502usec 0 000usec Odots 0 000usec Odots 0 593usec 44dots 0 593usec 44dots 0 593usec 44dots 0 539usec 2 334 sec 168dots 2 371usec 128dots 0 593usec 44dots 0 054usec 4dots 0 593usec 44dots 0 539usec H FREQ 31 250kHz
175. 357 C401 163 021 91 CERAMIC CHIP 0 01uF 10 50v C158 163 133 00 CERAMIC CHIP 470pF 5 50 C159 163 133 00 CERAMIC CHIP 470pF 5 50V 0402 115 339 11 CERAMIC CHIP 0 10 10 50 C404 163 037 11 CERAMIC CHIP 0 022uF 10 50 C160 115 339 11 CERAMIC CHIP 0 10 10 50 C405 164 344 11 CERAMIC CHIP 0 068uF 10 25 C161 163 215 11 CERAMIC CHIP 1000pF 5 50 C406 131 944 11 ELECT 470uF 20 2007 C162 163 215 11 CERAMIC CHIP 10002 5 50 C407 163 021 91 CERAMIC CHIP 0 01uF 10 50 C163 163 263 91 CERAMIC CHIP 330pF 5 50V C164 163 017 00 CERAMIC CHIP 4700pF 10 50 C408 163 021 91 CERAMIC CHIP 0 01uF 10 50 C409 117 272 11 ELECT 180uF 205 C165 117 350 91 ELECT 56u 20 35V 0410 107 906 11 ELECT 10uF 20 50V C166 115 339 11 CERAMIC CHIP 0 10 10 50 cai 107 906 11 ELECT 10uF 20 50V C167 121 161 11 FILM 0 0082uF 5 1 25KV 0412 107 906 11 ELECT 10uF 20 50V C169 107 903 11 ELECT 2 2uF 20 50 C170 1 113 924 91 CERAMIC 4700pF 20 250V C413 163 021 91 CERAMIC CHIP 0 01uF 10 501 C414 163 021 91 CERAMIC CHIP 0 01uF 10 501 C415 163 021 91 CERAMIC CHIP 0 01uF 10 50 C416 163 021 91 CERAMIC CHIP 0 01uF 10 501 C417 115 339 11 CERAMIC CHIP 10 501 PFM 42B1 PFM 42B1E 6 29 C418 11
176. 396 11 s CAPACITOR ELECT 47MF 16V CHIP C529 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C279 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C530 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C280 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C531 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C281 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C532 163 227 11 s CAPACITOR CERAMIC 10PF 50V CH C282 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C533 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C283 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C534 163 227 11 s CAPACITOR CERAMIC 10PF 50V CH C284 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C535 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C285 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C536 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C286 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V 0537 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C287 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C538 163 133 00 s CAPACITOR CHIP CERAMIC 470PF C288 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C539 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C289 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C540 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C290 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C541 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C291 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C542 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C292 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C543 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C293 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C544 164
177. 4 04 04 4 SP Descri XQ XQ XQ o XQ XQ XQ cn ption TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC 0 1MF 25V TOR CERAMIC 0 01MF 50V TOR CHIP CERAMIC 0 22MF TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR ELECT 22MF 35V CHIP TOR CERAMIC 0 1MF 25V TOR CERAMIC F 25V
178. 4 GND B3 B1 R3 R1 14 GND 814 GND 18 B2 BO 814 R2 RO 19 GND 8146 GND 11 B1 V SYNC 1 R1 G7 GND GND BO SYNC CLK 814 RO G6 20 GND 820 GND 21 V SYNC BLANK 821 G9 G5 22 GND 822 GND zs sss ss amp RB221 2234 23 SYNC CLK DEN B23 G8 G4 HOEN PRT 24 GND 60 824 GND R255 0 CHIP 61 25 BLANK NC 60 B25 G7 G3 23323323 G1 26 GND 826 GND RB220 2254 27 CLK DISPEN R278 0 CHIP CLK B27 G6 G2 28 GND 828 GND DEN 10215 TC74VHCT245AFT BUFF 29 NC B29 G5 G1 30 GND CNT 0 830 GND 1 DISPEN CNT 1 64 G0 GND CNT 2 GND MODE2 63 NC CNT 0 INC GND NC CNT 1 G2 CNT 2 GND MODE1 61 GND GND R272 0 CHIP 04 R271 0 CHIP 5 6k 62 61
179. 4067 216 636 1 R4068 216 659 1 R4069 216 651 1 R4070 216 057 00 R4071 216 624 1 R4072 216 097 0 R4073 216 025 0 R4074 216 063 9 R4078 216 091 00 R4079 216 091 00 R4080 216 097 0 R4081 216 091 00 R4082 216 097 0 R4083 216 049 11 R4084 216 049 11 R4085 216 091 00 R4086 216 295 00 R4088 216 073 0 R4089 216 081 00 R4090 216 069 0 R4091 216 049 11 R4092 216 682 11 R4093 216 025 00 R4094 216 089 00 R4095 216 033 0 R4096 216 133 0 R4097 216 644 11 R4098 216 057 00 R4099 216 663 11 R4100 216 660 11 R4101 216 663 11 R4102 216 097 00 R4103 216 059 0 R4104 216 031 0 R4105 216 057 00 R4106 216 071 00 R4107 216 053 00 R4109 216 631 1 R4110 216 073 00 R4111 216 637 1 R4112 216 073 00 R4113 216 631 1 R4114 216 045 00 R4115 216 043 9 R4116 216 045 00 R4117 216 045 0 R4118 216 645 1 R4119 216 645 1 R4120 216 067 0 R4121 216 045 00 R4122 216 045 00 R4123 216 669 11 R4124 216 669 11 R4125 216 699 11 R4126 216 699 11 R4127 216 045 00 R4128 216 677 11 R4129 216 677 11 R4130 216 295 00 R4131 216 295 00 SP o XQ XQ 00 XQ Description RESISTOR CHIP 240 1 10W 2012 RESISTOR CHIP 2 2K 1 108 2012 RESISTOR CHIP 1K 1 10W 2
180. 5 10W R212 216 049 11 RES CHIP 5 10W R105 249 407 91 CARBON 50 5 4W R213 216 073 00 RES CHIP 0 5 10W R106 219 393 11 METAL PLATE 0 05 10 5 F R107 219 393 11 METAL PLATE 0 05 108 5 F R214 216 065 91 RES CHIP 4 TK 5 10W R109 215 857 11 METAL OXIDE 0 5 W F R215 216 073 00 RES CHIP 5 10W R110 215 857 11 METAL OXIDE 0 F R216 216 073 00 RES CHIP 0 53 10W R218 208 790 11 RES CHIP 2 2K 0 5 1 10W R111 215 857 11 METAL OXIDE 0 5 F R219 208 782 11 RES CHIP 0 5 1 10W R112 216 073 00 RES CHIP 0 55 R113 216 073 00 RES CHIP 0 5 R220 216 049 11 RES CHIP 5 10W R114 216 073 00 RES CHIP 0 55 R221 216 073 00 RES CHIP OK 5 7104 115 215 882 51 METAL OXIDE 22 5 F R222 216 049 11 RES CHIP 5 10W R223 216 073 00 RES CHIP K 5 10W R116 216 081 00 RES CHIP 22 5 R224 216 065 91 RES CHIP 4 1K 5 10W R117 216 065 91 RES CHIP 4 7K 5 R118 216 073 00 RES CHIP 10 5 R225 216 073 00 RES CHIP K 5 10W R119 216 065 91 RES CHIP 4 7 5 8250 216 013 00 8 5 5 10W R120 249 413 11 CARBO 4 5 8251 216 065 91 RES CHIP 4 TK 5 10W R252 216 071 00 RES CHIP 8 2K 5 10W R121 216 070 00 RES CHIP 7 5K 5 R253 216 049 11 RES CHIP 5 10W R122 216 308 00 RES CHIP 4 7 5 R124 215 903 11 METAL OXIDE 68 5 8254 216 079 00 RES CHIP 8 5 10W R125 216 017 91 RES CHIP 4 5 8255 216 079 00 RES CHIP 8 5 10W R126 215 903 11 METAL OXIDE 68 5 8256 216
181. 5 339 11 CERAMIC CHIP 0 luF 10 507 717 1 125 916 11 FILM 0 018uF 5 1 25KV C419 131 943 11 ELECT 1200uF 30 200 C718 1 115 339 11 CERAMIC CHIP 0 1 10 50 C42 115 339 11 CERAMIC CHIP luF 10 50V C422 115 339 11 CERAMIC CHIP luF 10 50V C423 115 339 11 CERAMIC CHIP 0 luF 10 50 CONNECTOR C5 127 822 51 FILM uF 10 420 CNI 1 691 960 11 PIN CONNECTOR 3P C501 121 835 11 ELECT 22uF 20 4500 CN2 1 580 843 11 PIN CONNECTOR POWER C502 136 165 00 FILM 0 luF 5 50V CN4 1 691 757 11 PIN CONNECTOR 8P C503 163 275 11 CERAMIC CHIP 000 5 50V CN5 1 770 291 11 PIN CONNECTOR 7P C504 163 275 11 CERAMIC CHIP 000 5 50V CN6 1 564 507 11 PLUG CONNECTOR 4P C505 163 275 11 CERAMIC CHIP 000pF 5 50V CN7 1 564 596 11 PLUG CONNECTOR 15P C506 107 909 11 ELECT 47uF 20 CN8 1 564 511 11 PLUG CONNECTOR 8P C507 163 133 00 CERAMIC CHIP 470pF 5 50V C508 163 133 00 CERAMIC CHIP 470pF 5 50V C509 115 339 11 CERAMIC CHIP 0 1uF 50V lt DIODE gt C510 115 340 11 CERAMIC CHIP 22uF 25V D100 A8 719 055 11 DIODE 05NH46 C511 163 275 11 CERAMIC CHIP 1000 5 50V 0103 A8 719 055 11 DIODE 05NH46 C512 163 275 11 CERAMIC CHIP 1000 5 50V D106 8 719 988 61 DIODE 155355 17 C513 115 339 11 CERAMIC CHIP 0 1uF 50 D107 8 719 056 84 DIODE UDZ TE 17 7 5B C514 163 263 91 CERAMIC CHIP 330pF 5 50V D108 8 719 071 79 DIODE HZU22B2TRF C515 115 340 11 CERAMIC CHIP 0 22uF 25 D109 8 719 988 61 DIODE 155355 17
182. 6 808 TO P2 3 A AW lt 2326 MISO TO GND 85 5V Svo COL Ze COL TO P2 9 TO P6 5V 2 5 oND sH 96198 s 2SCPAIAK S HE Se 06912 E 2802412 8 0 5 BATES MATRIX PS Aub BUFF INV CHIP 86992 DTATA4EKA z GND 10k 29 HD YPBPR De YPBPR TO P5 C618 SIRCS1 TO P5 GND 88 tev 98250 svs TO 2 3 5 B CHIP RN CP SYS HS De 106908 1 2 Gun P A du TC7WI26FU o CP P CP P 10 pa az 1 H 6 GND 814 je d sv re RN CP EM D6182 B CHIP ET Em AN CP MA111 L 12V 12V ZH lt RGB H P5 B OUT 17 B OUT TO P2 SE 1 13 OUT KR G 0UT To P2 GND 814 RGB SW R OUT M H R OUT TO P2 AUDIO SW ss Bi PFM42B1 PFM 42B1E A 8 7 B SS9704 B J P1 J B 213 2 13
183. 6 025 00 s RESISTOR CHIP 108 2012 R1264 216 663 11 s RESISTOR CHIP 3 3K 1 10W 2012 R1196 216 649 11 s RESISTOR CHIP 820 1 10W 2012 R1265 216 635 11 s RESISTOR CHIP 220 1 10W 2012 R1197 216 647 11 s RESISTOR CHIP 680 1 10W 2012 R1266 216 635 11 s RESISTOR CHIP 220 1 10W 2012 R1198 216 651 11 s RESISTOR CHIP 1 10W 2012 R1267 216 295 00 s CONDUCTOR CHIP 2012 R1199 216 025 00 s RESISTOR CHIP 1101 2012 R1269 216 057 00 s RESISTOR CHIP 2 2K 1 10W 2012 R1200 216 025 00 s RESISTOR CHIP 10W 2012 R1270 216 045 00 s RESISTOR CHIP 680 1 10W 2012 R1201 216 649 11 s RESISTOR CHIP 820 1 10W 2012 R1271 216 025 00 s RESISTOR CHIP 10W 2012 R1202 216 647 11 s RESISTOR CHIP 680 1 10W 2012 R1272 216 025 00 s RESISTOR CHIP OW 2012 R1203 216 651 11 s RESISTOR CHIP 1 10W 2012 R1273 216 047 91 s RESISTOR CHIP 820 1 10W 2125 R1204 216 627 11 s RESISTOR CHIP 10W 2012 R1274 216 025 00 s RESISTOR CHIP 10W 2012 R1205 216 649 11 s RESISTOR CHIP 820 1 10W 2012 R1275 216 057 00 s RESISTOR CHIP 2 2K 1 10W 2012 R1206 216 647 11 s RESISTOR CHIP 680 1 10W 2012 R1276 216 045 00 s RESISTOR CHIP 680 1 10W 2012 R1207 216 651 11 s RESISTOR CHIP 1 10W 2012 R1277 216 049 11 s RESISTOR CHIP IK 1 10 2012 R1208 216 627 11 s RESISTOR CHIP 10W 2012 R1278 216 025 00 s RESISTOR CHIP 10W 2012 R1209 216 627 11 s RESISTOR CHIP 10W 2012 R1279 216 117 00 s RESISTOR CHIP 680K 1 10W 2012 R1210 216 643 11 s RESISTOR CHIP 470 1 1
184. 629 R6210 216 619 R62 216 645 R6212 216 073 00 R6213 216 657 R6214 216 613 R6215 216 649 R6216 216 653 R6217 216 671 R6218 216 073 00 R6219 216 073 00 R6401 216 025 00 R6402 216 049 R6403 216 661 R6404 216 661 R6405 216 025 00 R6406 216 049 R6407 216 661 R6408 216 025 00 R6409 216 049 R6410 216 661 R6411 216 661 R6412 216 025 00 R6413 216 049 R6414 216 655 R6415 216 661 R6416 216 025 00 R6417 216 049 R6418 216 667 R6419 216 661 R6420 216 025 00 R6421 216 049 R6422 216 009 00 R6423 216 009 00 R6424 216 009 00 R6425 216 651 11 R6426 216 679 11 R6427 216 677 11 6 26 SP cn XQ cn XQ cn XQ cn cn cn cn XQ cn XQ cn cn 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 RES RES RES RES RES RES RES RES RES RES RES 5 5 5 5 5 TOR C TOR C CH
185. 63 137 00 63 263 1 63 137 00 63 092 00 63 021 9 63 227 26 396 64 004 64 004 64 004 17 148 26 396 63 275 26 402 64 004 64 004 26 401 26 396 64 004 64 004 63 227 26 396 26 396 64 004 64 004 63 021 9 63 021 9 63 021 9 26 398 1 28 235 1 63 021 9 64 004 1 64 004 1 64 004 1 63 021 9 63 021 9 63 259 9 SP Descri cn XQ XQ cn XQ cn XQ XQ 00 cn ption TOR CERA TOR CHIP CERA TO
186. 645 4 080 653 1 416 545 1 2 990 242 4 066 900 3 613 640 4 080 938 4 081 316 PFM 42B1 PFM 42B1E SP mo o o o Description DIVIDUAL CARTON ANDLE B TOPPER A USHION LOWER ASSY SHION UPPER ASSY LDER B PLUG AMP MINI 0 EMOTE COMMANDER RM 42B 0 PLUG HOLDER C OPERATING INSTRUCTIONS JAPANESE ENGLISH FRENCH GERMAN SPANISH ITALIAN SIMPLIFIED CHINESE HOLDER CABLE Packing Materials 6 7 6 3 Electrical Parts List B BOARD Ref No or Q ty Part No SP Description A 1136 195 A o MOUNTED CIRC 251 093 11 s SOCKET IC 500 550 104 11 s HOLDER BATTE C1 128 416 11 s CAPACITOR EL C2 128 416 11 s CAPACITOR EL C3 128 416 11 s CAPACITOR EL C4 128 416 11 s CAPACITOR EL C6 164 004 11 s CAPACITOR CE 7 164 004 11 s CAPACITOR CE C8 164 004 11 s CAPACITOR CE C9 164 004 11 s CAPACITOR CE C10 164 004 11 s CAPACITOR CE C12 128 416 11 s CAPACITOR EL C13 126 396 11 s CAPACITOR EL C14 164 004 11 s CAPACITOR CE 15 164 004 11 s CAPACITOR CE C16 164 004 11 s CAPACITOR CE C18 164 004 11 s CAPACITOR CE C19 128 416 11 s CAPACITOR EL C20 128 416 11 s CAPACITOR EL C21 128 416 11 s CAPACITOR EL C23 128 416 11 s CAPACITOR EL C24 164 004 11 s CAPACITOR CE C25 128 416 11 s CAPACITOR EL C26 164 004 11 s CAPACITOR CE C27 128 416 11 s CAPACITOR EL C100 164 004 11 s CAPACITOR
187. 6511 20208 TC74HCT26AF 0 1 5 218 dz zc ccm 5 47 5 Ue 83 2320 INTERFACE Burg s s w eqs 8 a aioe 1 2 4 9 1 Sisi 140506 1 4 CONTROL 9 o E op 6509 TC74HC125AF ALD 0 1 2 3 BUFF I D3 3V 9 4 85 20 82595 5 0 4 5 0 2 27 APR ARE Jer Ui a 5 8 5 oz 0522 RES gt mA B OB i R544 8545 REXS 53 bus B CHIP I 5 gt jg 44 520 u 994 CHI es To pi 02 5 0502 1 8 T Lor iud 5 0 15508 8 4 oT t AED SE 2 m TALOXZAAAF svs_Hs TO P1 2 3 FWR p m ki R517 100 CHIP 10505 2 4 BUFF U SW sa Ga pi e m lt DPLD_CS TO P13 TC74HC126AF 15 17 5 0 3 3 b uus B 5 13 3P WHT ELCO w 16506 2 4 a C544 JL18 JL19 JL20 CONTROL R516 100 CHIP 7 TC74HC125AF sz 0 dac 0 1 BR e dizi MEF chip SYSTEM CONTROL TxD 85282 m ui lis EB 255 Seeks 5232 1 sso 5 2 5 0 get E 0516 o 5 ns232 2 13 10506 4 4 5 525 MANT iod B SS9704 B J P5 10 TC74HC125AF sE 22 m 10502 7 8 R529 5 0 gc U TX DEINE ANE IAN A ARAA 0515 R519 TC74LCX244AF 10k 0 1 5 0 2 DEES 822234 2 mcr 8 5 10 BUFF CHIP B CHIP o a 1 oC uu dlje 16505 4 4
188. 6V 105C RAMIC 0 1MF 25V ECT 100MF 16V 105C RAMIC 0 1MF 25V ECT 100 16 105C RAMIC 0 1MF 25V RAMIC 0 1MF 25V ERAMIC 0 01MF 50V ERAMIC 0 01MF 50V RAMIC 4 7MF B 6 3V RAMIC 4 7MF B 6 3V RAMIC 4 7MF B 6 3V RAMIC 4 7MF B 6 3V ECT 4 7 50V RAMIC 0 1MF 25V ECT 10MF 50V CHIP RAMIC 0 1MF 25V ECT 47MF 16V CHIP RAMIC 0 1MF 25V RAMIC 100PF 50V IP CERAMIC 220PF RAMIC 0 1MF 25V CERAMIC 2 2MF ERAMIC 0 01MF 50V CERAMIC 2 2MF CERAMIC 2 2MF RAMIC 0 1MF 25V ECT 22MF 35V CHIP RAMIC 0 1MF 25V RAMIC 0 1MF 25V ERAMIC 0 01MF 50V RAMIC 0 1MF 25V ERAMIC 0 01MF 50V RAMIC 0 1MF 25V RAMIC 0 1MF 25V B BOARD Ref No or Q ty Pa C213 C214 C215 C216 C217 C218 C219 x C220 s C221 C222 C223 5 C224 C225 z C226 5 C227 z C228 C229 C230 231 C232 s C233 C234 z C235 C236 C231 C238 2 C239 5 C240 E C241 z C242 243 C244 C245 C246 C247 C248 C249 250 s C251 C252 C253 z C254 C255 C256 C257 C258 2 C259 z C260 C262 C264 C265 3 C266 C261 x C268 C269 C270 C271 C272 C213 2 04 04 04 04 04 04 28 04 04 04 04 04 89 4 4 21 9 4 04 04 4 4 4 4 04 0 04 04 1 4 4 4 04 4 04 04 4 4 4 4 04 4 04 04 4 4 4 4 04 4 16 04 4 4 4 4 04
189. 7 EXTAL 8 65022 50 60 84 X56 16 648 AFC SW 50 16 6 GC LUL2 65 ON OFF CC ON OFF 66 T 65 nimo PX 46 10507 AD PDWN 47 AD DOWN 6 6 10502 gt 88 RGB H PRESE spu 4 PCG DATA BT Ginn eet POR Cik 1 6 V POL 82 v POL Sw15 33 Q8 5415 33 10508 SW 49 s gt 29 080 CS 15 1C508 OSD RES 27 OSD RES smo 83 v SNG 10508 0515 Y 0516 10502 VBIK 1 0 v BLK DISPLAY PLD CSL 2 r gt DPLDCS 66 OP CS 1 6 OP SENS 09 OP SENSE AD 9 OPTION 8 OPCILI 16 OPTION CTL2 12 2 26 10209 SW 86 5 MODE 66 2N 18 APC SW 85 IS gt MODE 66 V MUTE 46 VMUTE 6 6 PANEL MUTE 51 507 due MUTE 66 POWER 8 gt 67 D5 EEP SDA RX 67 EEPROM EEP SDA TX 68 EEP SCL 69 WDTOVF 67 PFM 42B1 PFM 42B1E 0503 2 10510 CURRENT 1 SOURCE 0502 5 STBY T BOARD CN9002 FAN 1 FAN2 FAN3 FAN 4 FAN 5 FAN 6 FAN 7 6 6 B 6 6
190. 75 DRE7 245 A823 DGEO 272 DGE1 300 _ 1026 DGE2 297 8028 DGE3 0 AC22 DGE4 324 REZA DGES 351 AF25 DGE6 350 DE DGE7 323 DBEO E 2 22 349 DE 55 295 021 DBE2 322 DBE3 319 DBE4 1 18 0 5 9 018 DBE6 317 Je DBE7 339 AF13 DROO 260 A612 DRO1 286 A012 DRO2 I 312 DRO3 338 DRO4 311 FETT DRO5 337 0806 10 0807 I 336 AF10 0600 Ce 283 D 0601 a 21 257 D 0602 309 RES 0603 k 282 D 0604 R259 8458 CHIP 10k 0 256 Jo DG05 CHIP CHIP 1 334 DES 0606 Me 10209 3 8 10209 7 8 10209 8 8 53 27 333 AF7 0607 TCTALCX244AF TCTALCX244AF 7410 244 quema 0 1 07 0800 xE 9 B CHIP ese2s 7 is 5 010209 1 8 AF6 0801 3388 19 306 REG 0802 2 2 10 254 Ace DBO3 305 0804 279 D 0805 330 Di 0806 303 RES 0807 PFM42B1 PFM 42B1E A NC 60 GND GND 60 C 0 1 250 TO P5 lt PANEL MUTE L lt MODE TO P5 TO P5 B 13 13 DISPLAY PORT PANEL INTERFACE B 889704 B J P13 TO LOGIC BLOCK CN1 24LC21T SN 1C103 1 4013 SDA VCLK SCL 6 8 VSS 4 H V GENERATOR I O CONTROL LOGIC MEMORY CONTROL LOGIC XDEC EEPROM ARRAY 3 PAGE LATCHES YDEC SENSE R W CONTROL
191. 768 70 PRESET AREA40 1024 x 768 75 PRESET AREA41 1024 x 768 85 PRESET AREA42 1152 x 864 75 PRESET AREA43 MAC21 PRESET AREA44 1280 x 960 60 PRESET AREA45 PFM 42B1 PFM 42B1E 1280 x 960 85 PRESET AREA79 Line Doubler PAL M Y C 3 15 Data Configuration Standard Value PRESET AREA46 PRESET AREA 1 PROGRAM 1 PRESET AREA47 PRESET AREA 2 PROGRAM 2 PRESET AREA48 PRESET AREA 3 PROGRAM 3 PRESET AREA49 PRESET AREA 4 PROGRAM 4 PRESET AREA50 PRESET AREA 5 PROGRAM 5 PRESET AREA51 PRESET AREA 6 PROGRAM 6 PRESET AREA52 PRESET AREA 7 PROGRAM 7 PRESET AREA53 PRESET AREA 8 PROGRAM 8 PRESET AREA54 PRESET AREA 9 PROGRAM 9 PRESET AREA55 PRESET AREA10 10 PRESET AREA56 PRESET AREA11 11 PRESET AREA57 PRESET AREA12 12 PRESET AREA58 PRESET AREA13 13 PRESET AREA59 PRESET AREA14 14 PRESET AREA60 PRESET AREA15 PROGRAM15 PRESET AREA61 PRESET AREA16 16 PRESET AREA62 PRESET 17 17 PRESET AREA63 PRESET AREA18 PROGRAM18 PRESET AREA64 PRESET AREA19 PROGRAM19 PRESET AREA65 PRESET AREA20 PROGRAM20 PRESET AREA66 PRESET AREA21 PRESET AREA67 PRESET AREA22 PRESET AREA68 PRESET AREA23 PRESET AREA69 PRESET AREA24
192. 8 12507 1250V 12507 mim 0501 288624 VS MAIN SWITCHING APS 132 M 74 SWITCHING REGULATOR 8 31 8 31 2 4 2 4 0 4 2 4 2 4 2 4 8 4 8 4 2 4 2 4 2 4 2 4 2 4 2 4 2 4 274 274 2 4 2 4 4 4 2 4 2 4 0 4 2 4 4 4 2 4 APS 132 M 2 4 APS 132 2 4 0201 1203 DINL20U TA78L12S 12V REG 12V RECT as STBY 5V od za STBY 5V STBY 5V mu 0200 Svo 20DL2C41A 0207 BY FECT 0204 bor 2SK3142 DGND 2SK3142 x VCC SW ais SVD su 0205 TO T BOARD SW CONT 10k ea CN9008 SW CONT EN GND R220 GND C201 204 ik 3900 3900 13 5V tov 13 5V 0215 0206 18V 0203 18 V 2502412 0206 SW CONT 2502412 SW CONT 0205 HRUO103 8 0 3 uza PH101 D202 10200 Hed DINL20U 791005 m 5V RECT 5V REG za a 4 D203 10201 TA76431AS 155355 943145 0201 DTC114EKA SW 474 9200 2502412 SW
193. 8 416 64 004 5 64 489 63 215 63 021 9 63 021 9 64 004 28 416 28 416 63 113 00 64 004 64 004 64 004 63 215 63 233 63 235 15 670 64 004 63 021 9 64 004 63 021 9 cn XQ XQ cn o XQ cn cn cn cn cn cn c Co Description CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT OOOOO OOOOO OOOOO OOOOO OOOOO OOOOO OOOOO OOOOO OOOOO oooo bi td HA ECT LECT LECT CERAM E ECT RAMIC HIP CE ERAMIC CERAMI C E ERAMI RAMIC LECT 1 LECT 1 HIP CE ERAMIC ERAMIC ERAMIC F 25V F 25V F 25V F 25V 50V CHIP gt oo 0 1ME 25V 169 CHIP 169 CHIP 0 1MF 25V 0 1MF 25V C 0 1MF 25V 47 50 47 50 47 50 47
194. 802 R8008 AW 180V io CHIP 3 3 5 0 mu 225 KEV SENSE 00 18 mr geet O 38 80v SENS AD EEP SDA seje AM i ice 58 5 0 Ts Gre Add A 94 70V SENS AD EEP SDA RX 57 Reds 0 GND 4 R513 10 CHIP 1 5 C542 CHIP 10 gt 50 AM 95 05V SENS AD vss 56 0 MP FAN DRV R8007 10 CHIP li R511 10 CHIP 1 4 5 0 08002 AM 96 KEY AD scL 55 KE lt SCL TO P1 7 8 lt CAT iss226PR0TEcT PTI 510 10 CHIP 0 a 98095 97 PANEL TEMP1 AD PVCC2 54 IH AW XSDA TO P1 7 8 B CHIP PT2 R509 10 CHIP 1 1 5 0 R603 10 CHIP M 5 TM 557 4 Se sss 1 2 AD spa m Dir tus J z 115 226 0 5 2 o sv dis AD SDA 83 G 109 2 27 578757 5 5 gt AN 00 0PT ON SENSE AD PANEL MUTE 51 AN lt PANEL MUTE P13 08004 ATEMP R507 10 CHIP O 5 0 R586 100 1 1 18S226PROTECT 01AMB I ENT TEMP AD AFC SW 50 AN lt AFO SW TO P12 LT Seu 1 1 FAN_FB 506 10 CHIP 0 4 8 R585 100 CHIP BH TO FAN DRV gt NN o2FAN LIMIT AD 49 AN Hae Mv SW TO 4 py _ 8505 10 CHIP O 47 5 0 8584 100 5 f 5 0 TO Pi sires m 1 POWER D r Zeg cup lt STBY 6 16500 1 4 R504 10 CHIP TO Pi siResse 3 hF BE
195. 9 C Warning of high temperature when 80 C or higher Shut down at the temperature of 85 or higher Increase of temperature at the center in the top of the panel is detected and shut down of the machine Name of this function on the service menu TEMPERATURE CENTER The normal operating range is up to 74 C Warning of high temperature when 75 C or higher Shut down at the temperature of 80 or higher Increase of temperature at the rear of the PDP and DC DC converter block is detected Name of this function on the service menu TEMPERATURE DD CON TOP The normal operating range is up to 84 C Warning of high temperature when 85 C or higher Shut down at the temperature of 90 C or higher PFM 42B1 PFM 42B1E 6 Detection of at the left side of panel temperature Name of this function on the service menu TEMPERATURE PANEL SIDE Occurrence of abnormality and fault is judged solely from the internal temperature of the PFM 42B1 B1E Measurement of the ambient temperature aims mainly at the confirmation of the operating environment Therefore there is no chance to indicate this warning message Warning of high temperature at 85 or higher Detection of fan stop and that of drive circuit failure Detection if fan is stopped or not Name of this function on the service menu FAN Status of the respective fans are displayed as OK or NG on the service menu STATUS FAN DRIVE CIRCUIT OK
196. 935 216 033 00 s RESISTOR CHIP 220 1 10W 2012 R1058 216 661 11 s RESISTOR CHIP 2 7K 1 10W 2012 R941 216 017 91 s RESISTOR CHIP 47K 1 10W R1059 216 653 11 s RESISTOR CHIP 1 2K 1 10W 2012 R942 216 017 91 s RESISTOR CHIP 47K 1 10W R1060 216 643 11 s RESISTOR CHIP 470 1 10W 2012 R1000 216 681 11 s RESISTOR CHIP 18K 1 10W 2012 R1062 216 049 11 s RESISTOR CHIP 1K 1 100 2012 R1001 216 687 11 s RESISTOR CHIP 33K 1 10W 2012 R1063 216 631 11 s RESISTOR CHIP 150 1 10W 2012 PFM 42B1 PFM 42B1E B BOARD B BOARD Ref No Ref No or Q ty Part No SP Description or Q ty Part No SP Description R1064 216 627 11 s RESISTOR CHIP 100 1 10W 2012 R1134 216 073 00 s RESISTOR CHIP 10K 1 10W 2012 R1065 216 661 11 s RESISTOR CHIP 2 7K 1 10W 2012 R1135 216 295 00 s CONDUCTOR CHIP 2012 R1066 216 667 11 s RESISTOR CHIP 4 7K 1 10W 2012 R1136 216 073 00 s RESISTOR CHIP 10K 1 10W 2012 R1067 216 017 91 s RESISTOR CHIP 47 1 100 2012 R1137 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R1068 216 117 00 s RESISTOR CHIP 680K 1 10W 2012 R1138 216 061 00 s RESISTOR CHIP 3 3K 1 10W 2012 R1069 216 017 91 s RESISTOR CHIP 47 1 10W 2012 R1139 216 037 00 s RESI
197. 9507 Set 18y 35V s V B BOARD 8 ossos KN ew 228 18 88508 28621851 i k ni 2 5 5 1 TW id Pe 89505 09505 75 MTZJ T 77 10 09508 RN PROTECT R9519 R9520 m 47k 3 3k 09501 D9501 mcm 10 WTZJ T 77 108 e n TE QA mem m i mes A SIDE m SUFFIX 11 ma m bs meer 47k 09502 09502 10 MTZJ T 77 10B 69508 oi bas 29V Q 22 29V INPUT BUFFER 8 889704 0A J BKM B10 is available separately for AEP model Cie QA B siDE SUFFIX 11 PFM42B1 PFM 42B1E 8 3 8 3 A B D E F G gt EP GW lt lt DIPI us v 2 m 8 8 S e 4 K vvvvvvv 7 NS Ts n 8 B m i 8 8 2 87 1 a8 4 8 4 EAE gt gt 5 305 4 8 5 Wie a 8 4 8 4444 s 5 TE 8 EI 8 8228 s 4 m d 8 8 TT m 8225 t 8 fast EG sens ika 4444 X wm z 1 s JS 18 8 mat Emi 8 8458 if 5 5 16508 H 8 371131 BEOR JE 88239 RB237 mur 12200 01162 A 8 E SINE 4841 548 Tyta am RI Wm m 8 1 EFE O I UTE JEN s E 88 2 18 w w vov b
198. 96 11 s CAPACITOR ELECT 47MF 16V CHIP C6953 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V D1 8 719 073 01 s DIODE MA111 K8 S0 C697 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V D100 8 719 914 43 s DIODE DAN202K C6972 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V D101 8 719 158 49 s DIODE RD12SB2 D102 8 719 158 49 s DIODE RD12SB2 C6973 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V D103 8 719 914 43 s DIODE DAN202K C6974 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP C698 126 394 11 s CAPACITOR ELECT 10MF 16V CHIP D201 8 719 073 01 s DIODE MA111 K8 S0 C6982 126 394 11 s CAPACITOR ELECT 10MF 16V CHIP D504 8 719 158 15 s DIODE RD5 6SB C6985 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V D505 8 719 158 15 s DIODE RD5 6SB D506 8 719 158 15 s DIODE RD5 6SB C6986 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V D507 8 719 158 15 s DIODE RD5 6SB C699 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C6992 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V D508 8 719 158 15 s DIODE RD5 6SB C6993 126 394 11 s CAPACITOR ELECT 10MF 16V CHIP D509 8 719 158 15 s DIODE RD5 6SB C80 126 392 11 s CAPACITOR CHIP ELECT100MF 6 3V D510 8 719 073 01 s DIODE 111 8 5 D511 8 719 073 01 s DIODE MA111 50 C8002 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V D512 8 719 073 01 s DIODE 111 8 50 C8003 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C8004 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V D513 8 719 073 01 s DIODE 111 88 5 C8005 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V D514 8 719
199. ACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT CAPACIT ption TOR ELECT 47MF 16V BP OR CERAMIC 0 1MF 25V TOR ELECT 47MF 16V OR CERAMIC 0 1MF 25V TOR ELECT 47MF 16V BP OR CERAMIC 0 1MF 25V OR ELECT 47MF 16V CHIP OR ELECT 47MF 16V CHIP OR ELECT 47MF 16V CHIP OR CERAMIC 0 1MF 25V OR CERAMIC 0 1MF 25V OR ELECT 47MF 16V CHIP OR CERAMIC 0 1MF 25V OR CERAMIC 0 01MF 50V OR ELECT 1MF 50V CHIP OR CERAMIC 0 1MF 25V OR ELECT 47MF 16V CHIP OR CERAMIC 0 1MF 25V OR CERAMIC 0 1MF 25V OR ELECT 47MF 16V CHIP OR CERAMIC 0 1MF 25V OR CERAMIC 0 1MF 25V OR ELECT 4 7MF 35V CHIP OR ELECT 47MF 16V CHIP OR CERAMIC 0 1MF 25V TOR ELECT 47MF 16V BP OR CERAMIC 0 1MF 25V TOR ELECT 47MF 16V BP OR CERAMIC 0 1MF 25V OR ELECT 10MF 50V CHIP OR ELECT 10MF 50V CHIP OR CERAMIC 0 1MF 25V OR ELECT 47MF 16V CHIP OR CERAMIC 0 1MF 25V OR CERAMIC 0 1MF 25V OR CHIP CERAMIC 1MF 10V OR ELECT 100MF 16V 1052 OR CERAMIC 0 1MF 25V OR CERAMIC 0 1MF 25V OR CERAMIC 0 1MF 25V OR CERAMIC 0 1MF 25V OR ELECT 1MF 50V CHIP OR ELECT 100MF 16V 105C OR CHIP CERAMIC 1MF 16V OR CERAMIC 0 1MF 25V OR CERAMIC 0 1MF 25V OR CERAMIC 0 1MF 25V OR ELECT 47MF 16V CHIP OR ELECT 47MF 16V CHIP OR ELECT 47MF 16V CHIP OR ELECT 47MF 16V CHIP OR CERAMIC 0 1MF 25V OR CERAMIC 100PF 50V OR CERAMIC 0 1
200. ALN MENU INPUT SELECT PIC CONTROL PIC SIZE CONFIG MEMORY REMOTE STATUS SELECT S E E N D MENU 2 Press A V to move the cursor gt to MEMORY and press ENTER The MEMORY menu appears on the monitor screen MEMORY LOAD SAVE SELECT SE T ENTER E N D MENU To restore PIXEL ADJUST menu items to their original settings In the PIXEL ADJUST menu press Y to move the cursor to RESET and press ENTER Then select YES with Y and press ENTER 28 3 Press V to move the cursor gt to SAVE and press ENTER The following menu appears on the monitor screen Memory number Setting name SELECT S E T ENTER EN D MENU Signal type Color system or horizontal vertical frequency If there is no data in the selected memory number the EMPTY message appears on the monitor screen in cyan The signal type and the color system or horizontal vertical frequency are displayed in cyan showing that the signal type of the selected memory number is the same as that of the current setting or in yellow showing that the signal type of the selected memory number is not the same as that of the current setting Select a memory number 01 to 20 with A V and press ENTER The cursor appears on the monitor screen Press A V to move the cursor gt to SAVE EXECUTE and press ENTER The current dat
201. AMPLING COMPARATOR CLAMP CONTROL CLAMP PULSE INT EXT CONTROL MUX WITH OUTPUT FORMAT CLOCK A GENERATOR OUTPUT FORMAT TEST SWITCHING CLK XSYNC VDD GA DGND GA D B 1 8 VDD GB DGND QB D C 1 8 00 DGND QC MODEO MODE1 TEST B Board Waveforms D LINE 61 SECAM 6 vuv d 6 v c Y C 1 7Vp p H 580mVp p H 1 3Vp p 2H 620mVp p H 1 2Vp p H 3 9Vp p H 720mVp p H 2 vic 3 63 vic 62 vuv 09 vuv 62 v c 62 v c 1 7Vp p H 3 0Vp p V 920mVp p H 600mVp p H 2 3Vp p 86MHz 4 2Vp p H 720mVp p H 3 vic 43 63 63 e YUV 63 vic 63 N 1 8Vp p 3 4Vp p 148 7MHz 950mVp p H 5 0Vp p V 3 2Vp p V a 9Vp p mi 600mVp p H 4 03 vuv 62 04 yuv 64 4 6Vp p V 3 8Vp p 78MHz 3 3Vp p H 5 0Vp p H 3 2Vp p H 4 9Vp
202. APACITOR ELECT 47MF 25V IC1501 8 759 947 34 s IC LM35DZ C9508 102 129 00 s CAPACITOR CERAMIC 50V 0 01MF IC1502 159 144 72 s IC UPC358G2 E2 C9509 104 664 11 s CAPACITOR ELECT 47MF 25V C9510 102 129 00 s CAPACITOR CERAMIC 50V 0 01MF R1501 1 216 627 11 s RESISTOR CHIP 100 1 10W 2012 R1502 1 216 659 11 s RESISTOR CHIP 2 2K 1 10 2012 C9511 102 129 00 s CAPACITOR CERAMIC 50V 0 01MF R1503 1 216 671 11 s RESISTOR CHIP 6 8K 1 10 2012 C9512 102 129 00 s CAPACITOR CERAMIC 50V 0 01MF R1504 1 216 025 00 s RESISTOR CHIP 100 1 10 2012 CN9501 815 409 11 o CONNECTOR PIN HEADER 44P CN9502 566 849 11 s CONNECTOR S TERMINAL 4P Y C IN CN9503 794 872 11 o CONNECTOR 2P VIDEO IN OUT D95 8 719 110 17 s DIODE RDl0ES B2 D9502 8 119 110 17 s DIODE RD10ES B2 09503 8 719 110 17 s DIODE RDIOES B2 Ref No D9504 8 719 110 17 s DIODE RD10ES B2 Aber et 09505 8 719 110 17 s DIODE RD10ES B2 M SEH 1 A 1391 081 A o MOUNTED CIRCUIT BOARD M 1 900 257 89 o CONNECTOR ASSY SDN 4P 095 8 729 119 78 s TRANSISTOR 25 2785 1 815 408 NECTOR 20 09502 8 729 119 78 s TRANSISTOR 25C2785 HFE 2 x 2 15 ae D a QU 1 779 092 1 s CONNECTOR PC BOMO 109 R9502 249 437 11 s RESISTOR CARBON 47K 1 4W SMALL R95 3 249 431 S RES STOR CARBO 47 1 4W SMALL 2 D ECTOR PC BOARD 4P 9504 1 215 394 00 s RESISTOR METAL FILM 75 1 4W oM
203. B BOARD OK P SBLOCK TOP OK P S BLOCK MID OK PIS BLOCKLOWL OK PIS BLOCK LOWR OK DD CON SIDE OK e O BLOCK SIDE OK Detection of fan drive circuit failure Name of this function on the service menu FAN DRIVE CIRCUIT The warning when the fan drive data is 6 V or more and the actual drive voltage is 2 V or less warning Detection of temperature rise in the power supply block Name of this function on the service menu TEMPERATURE P S INTERNAL Warning of high temperature when temperature of the heat sink for main converter inside the power supply unit exceeds the allowable limit warning WARNING at 90 Shut down at 95 Shut down when the 5 V for internal digital circuit has abnormality Name of this function on the service menu POWER SUPPLY DIGITAL 5V The voltage that is input to pin 62 of the system controller IC252 is detected Shut down when there is no input voltage PFM 42B1 PFM 42B1E 10 11 12 13 14 Detection of failure of the EEPROM Name of this function on the service menu OTHERS Warning when communication with EEPROM cannot be performed normally EEPROM ID code error EEP ROM ID EEPROM data write error EEP ROM SAVE EEPROM data read error EEP ROM LOAD EEPROM failure EEP ROM ACK Detection of abnormality in communication with scan converter Name of this function on the service menu OTHERS Warning when comm
204. B1 PFM 42B1E B BOARD B BOARD Ref No Ref No or Q ty Part No SP Description or Q ty Part No SP Description D948 8 719 073 01 s DIODE 111 50 FB101 414 234 11 s INDUCTOR FERRITE BEAD D1000 8 719 800 76 s DIODE 185226 FB200 414 234 11 s INDUCTOR FERRITE BEAD D10 8 719 800 76 s DIODE 155226 FB201 414 234 11 s INDUCTOR FERRITE BEAD D1002 8 719 800 76 s DIODE 155226 FB202 414 234 11 s INDUCTOR FERRITE BEAD D1003 8 719 073 01 s DIODE MA111 K8 S0 FB203 414 234 11 s INDUCTOR FERRITE BEAD D1004 8 119 073 01 s DIODE MA111 K8 S0 FB204 414 234 11 s INDUCTOR FERRITE BEAD D1005 8 719 988 61 s DIODE 155355 17 FB205 414 234 11 s INDUCTOR FERRITE BEAD D1006 8 119 073 01 s DIODE MA111 K8 S0 FB700 410 396 41 s FERRITE BEAD INDUCTOR 0 45UH D1007 8 719 422 12 s DIODE MA8039 FB701 414 230 11 s INDUCTOR FERRITE BEAD D40 8 719 073 01 s DIODE MA111 K8 S0 FL1000 414 234 11 s INDUCTOR FERRITE BEAD D4001 8 119 073 01 s DIODE 111 50 FL1001 414 234 11 s INDUCTOR FERRITE BEAD D4002 8 719 914 43 s DIODE DAN202 11002 543 175 11 s BEAD FERRITE D4003 8 719 914 43 s DIODE DAN202K FL1003 543 175 11 s BEAD FERRITE D4004 8 719 073 01 s DIODE MA111 K8 S0 FL1004 239 847 11 s FILTER LOW PASS D4005 8 719 914 43 s DIOD
205. C123AF B BOARD Ref No or Q ty Part No C4012 8 759 232 65 04013 8 759 442 20 C6105 8 759 460 81 6903 8 759 446 66 6904 8 759 446 66 C6905 8 759 360 07 C6906 8 759 011 64 C690 8 759 360 07 C6908 8 759 439 67 C6909 8 759 232 44 C8001 8 759 439 67 J90 114 361 1 79002 114 361 1 791 566 822 2 J9102 566 822 2 J9103 566 822 2 J92 565 269 1 JR6102 216 295 00 L2 414 152 1 170 410 482 3 170 406 666 2 1702 406 666 2 1704 410 671 3 180 414 404 11001 410 200 3 11002 414 042 2 11003 410 210 2 11004 414 154 11005 414 154 11006 414 757 11007 412 052 2 11008 414 151 11009 414 754 11010 414 754 11011 410 663 3 11012 414 154 11013 414 151 11014 414 757 11015 414 151 11016 414 754 11017 414 754 11018 414 154 14000 408 595 3 14001 408 591 14002 410 373 3 14003 408 595 3 14004 410 373 3 14005 408 591 14006 414 248 14007 414 248 14008 408 591 14009 410 193 5 14010 410 193 5 14011 410 193 5 14012 410 193 5 14013 410 193 5 14014 410 193 5 14017 410 193 5 SP XQ o XQ nn XQ cn cn XQ cn cn cn cn Aer XQ Description TC74HC157AF 24LC21A SN 12 2 MM1113XFBE MM1113XFBE 7657 82 MC74HC4052F BA1651F E2 TC7W126FU TE12 TC74HC125AF
206. CAPACITOR ELECT 47MF 16V CHIP C1162 126 405 11 s CAPACITOR ELECT 10MF 50V CHIP C1226 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V 1164 126 392 11 s CAPACITOR CHIP ELECT100MF 6 3V C1227 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1165 126 405 11 s CAPACITOR ELECT 10MF 50V CHIP C1228 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1168 126 405 11 s CAPACITOR ELECT 10MF 50V CHIP C1229 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP C1169 163 021 91 s CAPACITOR CERAMIC 0 01MF 50V C1230 126 398 11 s CAPACITOR ELECT 4 7MF 35V CHIP C1170 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP C1231 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP C1171 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1232 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1172 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1233 163 021 91 s CAPACITOR CERAMIC 0 01MF 50V C1173 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1234 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1174 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP C1235 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1175 163 243 11 s CAPACITOR CHIP CERAMIC 47PF 50 C1236 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP C1176 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1237 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP C1177 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1238 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP C1178 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1239 126 405 11 s CAPACITOR ELECT 10MF 50V CHIP C1179 164 004 11 s CAPACITOR CERAMIC 0 1MF
207. CERAMIC 0 1MF 25V C1195 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1132 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1196 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1133 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1197 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1134 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1198 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1135 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1199 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1136 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1200 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1137 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP C1201 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1138 137 993 11 s CAP CHIP ELECI 470MF 16V C1202 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1139 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1203 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1140 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1204 164 004 11 s CAPACITOR CERAMIC F 25V C1141 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1205 164 004 11 s CAPACITOR CERAMIC F 25V C1142 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1206 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1143 137 993 11 s CAP CHIP ELECT 470MF 16V C1207 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V 1144 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP C1208 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1145 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1209 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1146 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1210 164 0
208. CHIP 10K 1 10W 2012 RESISTOR CHIP 10K 1 10W 2012 RESISTOR CHIP 17101 2012 RESISTOR CHIP 101 2012 RESISTOR CHIP 7101 2012 RESISTOR CHIP 47K 1 10W 2012 RESISTOR CHIP 470K 1 10W 2012 RESISTOR CHIP 10K 1 10W RESISTOR CHIP 10K 1 10 RESISTOR CHIP 10W 2012 RESISTOR CHIP 10K 1 10W 2012 RESISTOR CHIP 1 100 2012 RESISTOR CHIP 10 2012 RESISTOR CHIP 10 2012 RESISTOR CHIP 47K 1 10W 2012 RESISTOR CHIP 10 1 10W 2012 RESISTOR CHIP 10K 1 10W 2012 B BOARD Ref No R90 R90 R90 R90 bo gt bo CO I Ga bo mono 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 z2 2 2 6 624 6 624 6 624 6 089 6 089 6 624 6 624 6 624 6 6 6 6 6 6 6 6 6 6 6 or Q ty Part No 89 89 89 97 89 97 65 65 297 25 25 233 516 233 516 233 576 233 576 233 516 233 576 233 576 233 516 233 516 233 516 233 516 233 516 239 409 239 409 239 409 239 409 239 409 233 515 239 409 233 515 233 515 233 515 233 515 233 515 233 515 233 515 233 515 233 515 233 515 239 409 233 516 233 516 233 576 233 576 233 516 233 516 00 00 SP o Qo Q o Qo o o Qo cn o
209. D SLR 325VCT31 D105 8 719 073 58 DIODE 20JL2C41A D8504 8 719 060 27 s LED SLR 325MCT31 D8505 8 719 158 15 s DIODE 5 65 D8506 8 719 158 15 s DIODE 5 65 lt TRANSISTOR gt D8507 8 719 158 15 s DIODE 5 65 Q100 8 729 035 65 TRANSISTOR 2SK2370 2 D8508 8 719 158 15 s DIODE 5 65 0101 8 729 035 65 TRANSISTOR 2SK2370 2 0102 8 729 035 65 TRANSISTOR 2SK2370 2 108501 8 748 035 08 s IC SBX8035 H R8501 1 216 047 91 s RESISTOR CHIP 820 1 10W 2125 lt THERMISTOR gt R8503 1 216 043 91 s RESISTOR CHIP 560 1 10W 2125 R8505 1 216 017 91 s RESISTOR CHIP 47 1 10W 2012 THP100 1 809 789 61 THERMISTOR POSITIVE THP101 1 809 789 51 THERMISTOR POSITIVE S8501 1 571 737 21 s SWITCH KEY BOARD REFLOW POWER HEAT SINK B ASSY 22223 2 434 993 21 SCREW 3X6 RS TIGHT SPRINGWASHER YB BOARD Ref No TRANSISTOR ty Part No i o Paru Nos 0502 8 729 035 65 TRANSISTOR 2SK2370 2 1 2 1373 842 0503 8 129 035 65 TRANSISTOR 2SK2370 2 p 0702 8 729 035 65 TRANSISTOR 2962370 2 CN8601 564 013 11 o PIN CONNECTOR 3P 0703 8 729 035 65 TRANSISTOR 2SK2370 2 R8601 216 649 11 s RESISTOR CHIP 820 1 10W 2012 R8602 216 641 11 s RESISTOR CHIP 390 1 10W 2012 HEAT SINK ASSY R8603 216 635 11 s RESISTOR CHIP 220 1 10W 2012 iw RORIS ISTIS TR 2 625 194 01 RUBBER TO 3P INSULATING S8601 571 737 21 s SWITCH KEY BOARD REFLOW MENU 88602 571 737 21 s SWITCH KEY BOARD REFLOW UP lt DIODE gt
210. DECODER lt 1 WA m 1 64 6 5 d X56 104010 IN 2 04013 BUFF 04015 04003 H 1 6 VEQ e M SECAM o 04010 04016 104010 04019 Jen PFM 42B1 42 1 7 3 7 3 101042 3CH A D CONV 1C207 1 2 SCAN CON 101040 DRC PROCESSOR Bue RGB MATRIX DRC PROCESSOR LVDS SWITCH 11030 101035 RGB MATRIX 1C1031 YUV VF FL1005 1 6 BUFF AMP BUFF BUFF 01030 1031 01045 1047 051 054 LIMIT 01032 16 Bon BUFF 1006 CAPTION DECODER EN 01033 1038 LIMIT 01040 BUFF 07 a 3 01042 1043 LIMIT ON OFF ee 5V 4 T 101043 12V Get TIT 5V 4 101043 REF VOL 124 2 sp z TIT e e 12V 101041 5 4 WRITE PLL 5 6 R CUT OFF 5 6 B CUT OFF 1 6 CP 161037 5 4 READ PLL 5V 2 101008 3 3V 3 3V S 4 t VCO DROP Q1059 14 VDD vco 0UT 3 VCO LIM 12 VCO IN FINB 5 01057 1 63 6 FV E 6 3 6 5 6 56 166105 101033 PXI 13V SC 12V 6V Ee 5V 4 FPD 5V 4 5V 2 101038 102010 V 33 4 D 3 3V 101036 22N A 3 3V S 7 4 ge 101039 SDRAM 60 WPLL HD ADDRO ADDR11 PFM 42B1 PFM 42B1E J9
211. E 02C212 TE85L C219 8 759 058 62 s TC7S08FU TE85R C220 8 759 239 34 s IC TC74HC4538AF D9308 8 719 025 47 s DIODE 02C212 TE85L C221 8 759 439 67 s IC TCTW126FU TE12R D9309 8 719 158 15 s DIODE RD5 6SB C222 8 759 491 32 s IC TCT4VHCTO4AF EL D9310 8 719 158 15 s DIODE RD5 6SB 6 14 PFM 42B1 PFM 42B1E B BOARD Ref No or Q ty Part No C223 C5 C5 C5 C5 lt gt C5 C5 C5 C5 C5 Go C509 C510 C511 C512 C513 C103 C831 C1000 C C PH Ca Co 10 11 12 13 27 28 29 30 31 32 33 34 35 36 37 38 39 gt gt gt S WE O e 8 759 058 58 8 759 232 46 8 759 635 27 8 759 475 21 8 759 252 59 8 759 560 17 8 759 232 46 8 759 232 44 8 759 233 73 8 759 186 30 8 759 648 10 8 759 058 62 8 759 684 72 8 759 582 9 8 759 582 9 8 759 700 07 8 759 581 89 8 752 053 2 8 752 053 2 8 759 595 97 8 759 595 97 8 759 082 6 8 752 053 2 8 759 987 21 8 759 568 27 8 759 460 72 8 759 460 72 8 759 031 84 8 759 594 44 8 759 031 84 8 759 645 68 8 759 970 89 8 759 970 89 8 759 970 89 8 752 067 05 8 759 595 97 8 759 328 12 8 759 539 90 8 759 460 81 8 752 082 49 8 749 015 18 8 759 669 78 8 759 431 14 8 759 676 70 8 752 398 47 8 759 669
212. E DAN202 FL1005 233 505 21 s FILTER LOW PASS D4006 8 719 031 68 s DIODE HVU359 TRU VARI CAP FL1006 233 504 21 s FILTER LOW PASS D4007 8 719 031 68 s DIODE HVU359 TRU VARI CAP FL1007 233 504 21 s FILTER LOW PASS D4008 8 719 031 68 s DIODE HVU359 TRU VARI CAP FL4000 233 136 21 s FILTER EMI D618 8 719 073 01 s DIODE MA111 K8 50 FL4001 233 136 21 s FILTER EMI D6182 8 719 073 01 s DIODE 111 8 50 FL4002 233 136 21 s FILTER EMI D6183 8 719 073 01 s DIODE 111 8 50 FL4003 233 434 11 s FILTER LOW PASS D6184 8 719 158 49 s DIODE RD12SB2 FL4004 233 136 21 s FILTER EMI D80 8 719 158 15 s DIODE RD5 6SB FL4005 233 136 21 s FILTER EMI D8002 8 719 800 76 s DIODE 155226 FL4006 233 434 11 s FILTER LOW PASS 08003 8 719 800 76 s DIODE 155226 14007 233 505 21 s FILTER LOW PASS D8004 8 719 800 76 s DIODE 155226 FL4008 233 504 21 s FILTER LOW PASS D90 8 719 800 76 s DIODE 155226 FL4009 233 504 21 s FILTER LOW PASS D9004 8 719 800 76 s DIODE 155226 D9005 8 719 402 16 s DIODE MA3100 TX C 8 759 460 72 s IC D9006 8 719 402 16 s DIODE MA3100 TX C2 8 759 581 89 s IC LM317SX C3 8 759 460 72 s IC D9007 8 719 800 76 s DIODE 155226 C4 8 759 539 90 s IC 1M2940SX 5 0 D9008 8 719 800 76 s DIODE 155226 C6 8 759 460 79 s IC BAO9FP E2 D9009 8 719 800 76 s DIODE 155226 D9010 8 719 977 28 s DIODE DTZ10B C7 8 759 460 72 s IC D9011 8 719 977 28 s DIODE DTZ10B C100 8 759 595 97 s IC SN74LV4053ANSR C101 8
213. ECT 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 any of the following repairs is performed adjust ment using the service mode becomes necessary When any repairs that are related to picture quality are performed WHITE BALANCE ADC CALIBRATION When IC200 and its peripheral ADC CALIBRATION parts the parts that are shown in schematic diagram B 2 14 are replaced When PDP is replaced WHITE BALANCE When memory IC511 on EEPROM RESET the B board is replaced WHITE BALANCE ADC CALIBRATION MAINTENANCE STATUS TEST When any of the following boards is replaced e B board 6 S1 board si STATUS TEST Operation check only Power supply board APS 132 M 3 1 SERVICE MENU 1 EEPROM RESET EEPROM Configuration Table 1 shows the configuration of EEPROM The entire area 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 EEPROM RESET gt WHOLE AREA COMMON COLOR TEMP PROG PRESET FIXED PRESET LAST MEMORY USER MEMORY
214. ESISTOR CHIP 1 8K 1 2012 R1086 216 295 00 s CONDUCTOR CHIP 2012 R1155 216 681 11 s RESISTOR CHIP 18K 1 10W 2012 R1087 216 295 00 s CONDUCTOR CHIP 2012 R1156 216 643 11 s RESISTOR CHIP 470 1 10W 2012 R1088 216 627 11 s RESISTOR CHIP 100 1 10W 2012 R1157 216 651 11 s RESISTOR CHIP 1K 1 10W 2012 R1090 216 067 00 s RESISTOR CHIP 5 6K 1 10W 2012 R1158 216 667 11 s RESISTOR CHIP 4 7K 1 10W 2012 R1091 216 077 00 s RESISTOR CHIP 15K 1 10W 2012 R1159 216 647 11 s RESISTOR CHIP 680 1 10W 2012 R1092 216 295 00 s CONDUCTOR CHIP 2012 R1160 216 667 11 s RESISTOR CHIP 4 7K 1 2012 R1093 216 055 00 s RESISTOR CHIP 1 8K 1 10W 2012 R1161 216 647 11 s RESISTOR CHIP 680 1 10W 2012 R1094 216 001 00 s RESISTOR CHIP 10 1 10W 2012 R1162 216 667 11 s RESISTOR CHIP 4 7K 1 2012 R1095 216 645 11 s RESISTOR CHIP 560 1 10W 2012 R1163 216 647 11 s RESISTOR CHIP 680 1 10W 2012 R1096 216 045 00 s RESISTOR CHIP 680 1 10W 2012 R1164 216 647 11 s RESISTOR CHIP 680 1 10W 2012 R1097 216 057 00 s RESISTOR CHIP 2 2K 1 10W 2012 R1165 216 657 11 s RESISTOR CHIP 1 8K 1 2012 R1098 216 023 00 s RESISTOR CHIP 82 1 10W 2012 R1166 216 069 00 s RESISTOR CHIP 6 8K 1 10W 2012 R1099 216 627 11 s RESISTOR CHIP 10W 2012 R1167 216 025 00 s RESISTOR CHIP 100 1 10 2012 R1100 216 053 00 s RESISTOR CHIP 1 5K 1 100 2012 R1168 216 069 00 s RESISTOR CHIP 6 8K 1 10W 2012 R1101 216 053 00 s RESISTOR CHIP 1 5K 1 10W 2012 R1169 216 061 00 s RESISTOR CHIP 3 3
215. FACTORY To initialize the desired area firstly select the desired item from the EEPROM RESET menu Change the selected item from CANCEL to EXECUTE Then press ENTER a b d WHOLE AREA The entire area of the EEPROM is initialized Initializ ing the entire area of the EEPROM has the same result as all menu items of COMMON COLOR TEMP PROG PRESET FIXED PRESET LAST MEMORY USER MEMORY and FACTORY are executed COMMON Only the COMMON area of the EEPROM as shown in Table 1 is initialized When the COMMON area is initialized the data that is unique to the particular machine and the common data CONFIG MENU REMOTE MENU are initialized COLOR TEMP Only the COLOR TEMP area of the EEPROM as shown in Table 1 is initialized When the COLOR TEMP area is initialized the color temperature data in HIGH LOW and the user setup data from 1 to 6 are initialized to 255 The users names are also initialized to 1 to 6 PROG PRESET Only the PROG PRESET area of the EEPROM as shown in Table 1 is initialized When the PROG PRESET area is initialized the preset area for 20 types that is reserved as spare is initialized e FIXED PRESET Only the FIXED PRESET area of the EEPROM as shown in Table 1 is initialized When the FIXED PRESET area is initialized the basic preset area is initialized to the built in standard value that is stored in the system controller f LASTMEMORY Only the LAST MEMORY area of th
216. GE PH100 D102 TO DETECT PHOTO Git OPTION 0300 COUPLER 12 BOARD R104 RV201 igi 62 TO G2 BOARD BV ADJ CN4006 101 COUPLER PH102 P 1 STBY COUPLER 4B PH103 PHOTO 101 COUPLER 10150 4 13V CONTROL 1105 21020026 10254 xs NE l2 SWITCHING gt 00 Eh x 0150 152 est k 10300 10301 i PFC CONTROL comp PFC ADJ g 11 SWITCHING 10253 0151 153 12V REG 0252 EE 10251 i 6 2V REG eier RV250 104 1358 ADJ COUPLER MIN ADJ PH105 PHOTO COUPLER 1 pet 10500 VS CONTROL 1502 amp i switcHine 0500 502 1 sobe 0400 TO SWITCHING 1 0501 503 gt 10400 RV400 9 040207 Ge e on 11401 VSOUTCONTROL VSADJ mi nien 1 1 1 mak 11 E PESE 3 SW RV500 losos Du 0405 406 7 5 1 5V I A 4 3 T 1 MIN ADJ RV401 VS ADJ PLASMA OCP ADJ 12 DISPLAY SW 18427 PANEL Q401 3 SS 10402 1 2 ES EY 2 SW 1 0400 t 134 1 C700 VA CONTROL T702 THERMO 1 TO G2 BOARD T701 4001 ra 4 D604 60V SEN SWITCHING LN 1 0701 703 10600 RV600 S 22 VA OUT CONTROL VAADI pu 4 1 IL 1 m Bhce 3 SW eps 8 602 0605 606 700 2 5 PHOTO 7 5 psa 5V COUPLER TMIN ADJ ADJ See OCP ADJ 1 COUPLER lt T gt 2
217. H 801 pe kre M E 3 001 ra e 7112 erin zm EE 1431124 E Fa d On PO gh 5 0 3 E De en ig EE Se di 8 S 2 g 3 5 z S 61185 b maa s 8 d 210 spon medi n 518 E my E 4 2 61019 14018 8 Ju H JE e ER 1060 7 SNE un SLOW 86013 L etry S807 l Tags 10011 m ram 22 08019 n 1 11013 Bic CH 8 enn 8 90071 ri E T 45012 84019 zB B 08018 868 014 19012 3 esp E Bis ABD as mam KE TES ory geni ALL ENT 60010 m 11016 M ps E t je 7812 02014 E stem cu SS ah m H 8 L T z 01010 A 8 5 8 5 B B SIDE SUFFIX 11 B BOARD B SIDE D1 A 8 C2 A 8 Q100 A 3 04010 C 4 D100 A 3 C4 7 0101 A 3 04011 B 4 D101 A 2 C100 A 2 0102 A 2 04012 C 5 D102 A 3 C101 A 3 0103 A 2 04013 B 3 D103 A 3 C102 G 8 0104 A 3 04014 B 5 D201 F 8 C103 A 2 0200 L 8 04015 B 3 D404 E 5 C200 6 0203 G 7 04016 B 5 D500 F 9 C202 H 6 0500 0 8 04017 C 4 D501 9 C204 H 6 0501 C 8 04018 C 4 D502 9 C205 8 0502 E 8 04019 A 4 D503 F 9 C206 L 8 0503
218. HIP C320 126 401 11 s CAPACITOR ELECT 1MF 50V CHIP C704 126 392 11 s CAPACITOR CHIP ELECT100MF 6 3V C500 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C105 126 392 11 s CAPACITOR CHIP ELECT100MF 6 3V C501 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C706 126 392 11 s CAPACITOR CHIP ELECT100MF 6 3V C502 128 416 11 s CAPACITOR ELECT 100MF 16V 105C C107 126 392 11 s CAPACITOR CHIP ELECT100MF 6 3V C503 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C708 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C504 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C109 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C506 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C710 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP C507 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V 711 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C508 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C712 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C509 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C713 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C510 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C714 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C511 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C115 126 400 11 s CAPACITOR ELECT 22MF 35V CHIP C512 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP C716 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C513 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP C717 126 400 11 s CAPACITOR ELECT 22MF 35V CHIP C514 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C718 115 670 11 s CAPACITOR ELECT 220MF 35V CHIP C515
219. ING SIDE VIEW INPUT OUTPUT LM35DZ 324 M52347FP TE M62352GP 70ED TC74HCT244AF EL TC74LCX244F EL TC74VHCT245AFT EL TDA8395T N3 1 TOP VIEW 20pin SOP MBM29LV400TC 70PFTN SV9695 m 1 TOP VIEW 48pin SOP MSM514265C 60JSDR1 TOP VIEW 40pin SOJ MSM56V16160F 10TS K 1 TOP VIEW 50pin SOP NJM79L05A 5 1 IC Transistor PQ07VZ012P PQ30RV11 B 1 4 PQ30RV31 OOOOOOOOOOO OOOOOOOOOOO 00000000000 ooo ooo ANDOOOOOOOOOO 1 BOTTOM VIEW 352pin PGA RPM6940 V4 5 2 RS5C348A E2 TOP VIEW an 10pin SOP S 80842ANNP ED6 T2 J 4pin CHIP SBX8035 H 1 OUT 2 GND 3 Vcc SC7S00F SC7S04F TC7S00F TE85R TC7S04F TE85R TC7S04FU TE85R TC7SO8FU TE85R 5 CHIP SN74LVC125APWR TC74HCO4AF TP2 TC74HC125AF EL TC74VHC14F EL TC74VHCTO4AF EL TLC2932IPWR TLC2933IPWR 12 TC74HC126AF EL PI TOP VIEW 14pin DIP TA76431AS REF CATHODE ANODE TA78L12S 3 2 1 TLC5733AIPM 51 33 186205 2 ARR AAA AHH MN TOP VIEW and 36pin SOP UPD64082GF 3BA 80 51 81 50 0 10 1 TOP VIEW XRA10324AF TOP VIEW 14pin SOP Z8622812PSC IMI TOP VIEW 18pin DIP 2SA
220. K 1 2012 R1102 216 073 00 s RESISTOR CHIP 10K 1 10W 2012 R1170 216 069 00 s RESISTOR CHIP 6 8K 1 2012 R1103 216 073 00 s RESISTOR CHIP 10K 1 10W 2012 R1171 216 643 11 s RESISTOR CHIP 470 1 10W 2012 R1104 216 049 11 s RESISTOR CHIP 1 10W 2012 R1172 216 651 11 s RESISTOR CHIP 1K 1 10W 2012 R1105 216 069 00 s RESISTOR CHIP 6 8K 1 10W 2012 R1173 216 061 00 s RESISTOR CHIP 3 3K 1 2012 R1109 216 073 00 s RESISTOR CHIP 10K 1 10W 2012 R1174 216 647 11 s RESISTOR CHIP 680 1 10W 2012 R1110 216 659 11 s RESISTOR CHIP 2 2K 1 10W 2012 R1175 216 657 11 s RESISTOR CHIP 1 8K 1 2012 R1111 216 659 11 s RESISTOR CHIP 2 2K 1 10W 2012 R1176 216 049 11 s RESISTOR CHIP 1K 1 104 2012 R1115 216 615 11 s RESISTOR CHIP 10K 1 10W 2012 R1177 216 679 11 s RESISTOR CHIP 15K 1 10W 2012 R1116 216 073 00 s RESISTOR CHIP 10K 1 10W 2012 R1178 216 681 11 s RESISTOR CHIP 18K 1 10W 2012 R1117 216 053 00 s RESISTOR CHIP 1 5K 1 10W 2012 R1179 218 758 11 s RESISTOR CHIP 18 2012 R1118 216 073 00 s RESISTOR CHIP 10K 1 10W 2012 R1180 216 671 11 s RESISTOR CHIP 6 8K 1 2012 R1119 216 073 00 s RESISTOR CHIP 10K 1 10W 2012 R1181 216 615 11 s RESISTOR CHIP 10K 1 10W 2012 R1120 216 615 11 s RESISTOR CHIP 10K 1 10W 2012 R1182 216 025 00 s RESISTOR CHIP 100 1 10 2012 R1121 216 065 91 s RESISTOR CHIP 4 7K 1 104 2012 R1183 218 756 11 s RESISTOR CHIP 150K 1 2012 R1122 216 619 11 s RESISTOR CHIP 47 1 10W 2012 R1184 216 065 91 s RESISTOR CHIP 4 7K 1 10W 2012
221. LL SETUP NAME USER2 AUTO PLL PIXEL NAME USER3 H V SHIFT NAME USER4 VIDEO SHARP SW ON NAME USERS AUTO FT CANCEL ON WATCH ERROR 32768 05 Y GAIN 111 R Y GAIN 82 B Y GAIN R CUTOFF B CUTOFF ADC R GAIN ADC G GAIN ADC B GAIN 3 14 NAME USER6 PFM 42B1 PFM 42B1E Data Configuration T AREA 1 PROGRAM 1 Standard Value PRESET AREA46 1280 x 1024060 PRESET AREA47 1280 x 1024075 T AREA 2 PROGRAM 2 PRESET AREA48 1280 x 1024085 T AREA 3 PROGRAM 3 PRESET AREA49 1600 x 1200060 T AREA 4 PROGRAM 4 PRESET AREA50 575 x 501 T AREA 5 PROGRAM 5 PRESET 51 480 601 T AREA 6 PROGRAM 6 PRESET AREA52 575 x 50P T AREA 7 PROGRAM 7 PRESET AREA53 480 x 60P T AREA 8 PROGRAM 8 PRESET AREA54 1080 x 48l T AREA 9 PROGRAM 9 PRESET AREA55 1080 x 501 T AREA10 PROGRAM10 PRESET AREA56 1080 601 T 11 PROGRAM 1 PRESET AREA57 1035 601 T AREA12 PROGRAM12 PRESET AREA58 720 x 50P T AREA13 PROGRAM13 PRESET AREA59 720 x 60P T AREA14 PROGRAM14 PRESET AREA60 852 x 480 60 T AREA15 PROGRAM15 PRESET AREA61 856 x 480 60 T AREA16 PROGRAM16 PRESET AREA62 856 x 480 60 T AREA17 PROGRAM17
222. M T4 LM1881MX M24C04 WMN6T M24C64 WMN6T A MM1113XFBE NJM2903M T2 NJU7032M TE2 ST49C101ACF8 05 TR TC4W53FU TE12R TC4W66F TE12R TC7W126FU TE12R TLO26CPS E05 uPC358G2 T2 TOP VIEW 8pin SOP AD9884AKS 140 TOP VIEW 2 BAO9FP E2 BA12FP E2 BA7657F E2 H HERE ETE TOP VIEW 24pin SOP CXA1739S 1 TOP VIEW 48pin DIP PFM 42B1 PFM 42B1E Section 5 Semiconductors CXA2119M T6 MB90096PF G 182 BND ER TOP VIEW 28pin SOP CXA8038AP TC74HC4053AP TK83854D 1 TOP VIEW 16pin DIP CXD2030R EP1K50TC144 3 iii TOPVIEW 144 CXD2090Q j TOP VIEW 208pin 18600 4 CXD2300G T4 A TOPVIEW 32pin QFP CXD2309Q T6 Top VIEW 48pin QFP EPC1LC20 42B1 V100 191 3 TOP VIEW FA5317P TOPVIEW 8pin SOP HD64F2633TE TOP VIEW 120pin ICS9161A 01CW16T MAX202CSE T MC74HC4052F SN74LV4053ANSR TC74HC123AF EL TC74HC157AF EL TC74HC4052AF EL TC74HC4538AF EL 1 TOP VIEW 16pin SOP ISPLSI2023E 110LT48 1 TOP VIEW 44pin QFP LM2940SX 5 0 MARKING SIDE VIEW INPUT opp OUTPUT LM317SX MARK
223. MATTA 15V CHIP T 2585 0639 5 See KI 4 B CHIP vous Z X501 12 288MH S 1 CORRENT SOURCE R525 JL45 a Tr lt le 214855555 5V tk CHIP e ail e I BAT500 agis 22 5 dz sssssss CR2025 C514 10513 5 8 5 52 T 65 21514 el pa ba pa pa 5 20 1 80842ANNP ED6 5 5 51 582255 B CHIP RESET 5 3 0533 2 Tc 2 2 2 2 22 oi z 088001 3 3V gt z CHIP Kb 13P g s 4 I 32 768K STHYEV STBY3 OV 18 5 5V 8 2 Y Se L LED RED STBY5V Joes 575757 BA e el e o lt T o D lt 168001 1 2 lt POWER 5V 2 R605 55 1 90X89X88X87X86X85X84X83X82X81X80X79X78X77XT8X75XT4XTXT2XT XTAX69XG8X67X60X65X64X63X62X61 TC7WI 26FU 1 2 2k R606 gt lt LED GREEN 51805 STBYEV E u la lt 2 R8001 100 CHIP BUF gag 56 3 5V 3 sv R633 Gs gt P gt W HIP E C8003 0 100 B CHIP 1 e I z o l gt S o x e 5 R607 DSV en Hi d ig agl gt E E 5 0 9 1 R530 auer 5 lt gt lt 10 5V 2 R8004 I 25V Wee 10k a ego 2 s 5 0 CHIP 1 gt ON CHIP 514 92 VREF 8 801 59 Me 220 STBYSV 0
224. MF 25V OR CERAMIC 0 1MF 25V OR CHIP CERAMIC 24PF 50 OR CERAMIC 0 1MF 25V OR CERAMIC 0 1MF 25V OR CHIP CERAMIC 24PF 50 B BOARD Ref No or Q ty Part No SP Description C1062 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1063 164 004 11 s 0 1MF 25V C1064 126 392 11 s CAPACITOR CHIP ELECT100MF 6 3V C1065 163 113 00 s CAPACITOR CERAMIC 68PF 50V C1066 163 231 11 s CAPACITOR CHIP CERAMICISPF 50V 1067 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1068 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP C1069 164 346 11 s CAPACITOR CHIP CERAMIC 1MF 16V C1070 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1071 115 154 11 s CAPACITOR ELECT 10MF 16V BP C1072 163 241 11 s CAPACITOR CHIP CERAMIC 39PF 50 C1073 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1074 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V 1075 164 004 11 s CAPACITOR CERAMIC F 25V C1076 164 004 11 s CAPACITOR CERAMIC F 25V C1077 164 004 11 s CAPACITOR CERAMIC F 25V C1078 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1079 126 396 11 s CAPACITOR ELECT 47MF 16V CHIP C1080 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1081 164 004 11 s CAPACITOR CERAMIC F 25V C1082 164 346 11 s CAPACITOR CHIP CERAMIC 1MF 16V C1083 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1084 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C1085 163 021 91 s CAPACITOR CERAMIC 0 01MF 50V C1086 164 004
225. N FILL CENTER POWER CONTROL SCREEN SAVER SELECT S E T ENER END MENU 3 Press A V to move the cursor to LANGUAGE on the CONFIG 2 2 menu and press ENTER The following menu appears on the monitor screen LANGUAGE ENGLISH DEUTSCH FRANCAIS ITALIANO ESPA OL SELECT S E T ENTER E N D MENU Selecting the On screen Language Reducing Afterimage Ghosting Screen Saver Function 4 Press A V to move the cursor P gt to the desired language and press ENTER The on screen language is switched to the one you selected ENGLISH English DEUTSCH German FRANCAIS French ITALIANO Italian ESPANOL Spanish Japanese 5 Press MENU The menu returns to the CONFIG 2 2 menu Reducing Afterimage Ghosting Screen Saver Function If a bright image that does not change is displayed on a screen e g a PC screen for a long time an afterimage ghosting may occur To reduce this afterimage this monitor has a screen saver function The screen saver function has two screen savers One screen saver reverses the image PIC INVERSION while the other automatically changes the display position PIC ORBITING Reversing the Image 1 Press MENU The main menu appears on the monitor screen vs oDzOvv gt gt 20052 CAD HOFE om lt o o m NZOZ mame ro EI Ammo z SELECT S E T ENTER E N D MENU 2 Press V
226. N do not agree with specifications of the actual input signal 26 SYNC WIDTH us Sync pulse width of the horizontal sync signal is set in units of microseconds useconds This menu item is prepared for the purpose of stabili zation of the sync signal separation circuit Therefore accurate setting is not necessarily needed If the sync signal width is not known select Not set source data c SAVE AREA SELECT Menu Structure The data that is copied in the Editing RAM is saved in the preset area SAVE AREA SELECT gt SAVE AREA PROGRAMI 1 Select the DATASAVE desired preset area to which 2 Execute to save the data 1 SAVE AREA SELECT Select the desired preset area from Table 1 to which the content of the Editing RAM is saved 2 DATA SAVE Execute to save the data to the preset area that is selected by the SAVE AREA SELECT Change the item from CANCEL to EXECUTE Then press ENTER Note Judgment whether the input signal agrees with the preset data or not is performed using the horizontal sync frequency vertical sync frequency and polarity of the sync signals If the same sync signal already exists in the preset area Table 1 the specification that has the small preset No has a higher priority PFM 42B1 PFM 42B1E the data is saved 7 MAINTENANCE Menu Structure The data that is unique to the particular machine of the 42 1
227. OIT 7 eno ET ET D VCOIN 4 VCO GND ere SC 5 6 7 8 9 10 Vss 4 AOS AO6 07 9 A010 VDD Vref L Vref U PFM42B1 PFM 42B1E 8 21 8 21 RS5C348A 1C504 TC74HC123AF IC4008 1 4009 1 4011 TC74LCX244F 102 TC7S08FU 1 219 S2KOVT 1 32kHz COMPARATOR W ALARM W REGISTER e OUTPUT WEEK MIN HOUR 40 IN B 1 5 MN mamama ALARM_W REGISTER Sne D 1 5 MIN HOUR DETECT INA 2 TIME COUNTER Vss I osc I CORRECTION DIV gt SEC MIN HOUR pe DAY MONTH YEAR r OSCOUT Rm GND 3 4 OUT Y 1 2 E um SL Ja mE s 3 so SHIFT T4 FJ VE z TDA8395T N3 IC4000 SN74LV4053ANSR IC100 IC1002 IC1003 IC1031 BANDGAP TUNING CLOCHE FILTER Y IDENT IFICATION INTERFACE CONTROL 1
228. P 0506 Jee Zeie 3 STBYSV 04 1 AD PDWN 47 Ne S lt AD PDWN TO P3 ade if BUFF F2 8508 10 CHIP 0 16509 0 R582 100 CHIP 5 0 3 3 18 0 0 09 2 V MUTE 46 AN lt V MUTE P13 5 E sv R502 10 CHIP O HD64F 2633 TE 0 R581 100 CHIP e O 10502 2 8 4 F3 gor AN MAIN CPU A MUTE 45 ANG TOT4LOX244AF TO74LCX244AF 4 e 5 0 R532 F4 R614 10 CHIP O 13 0 BUFF 5 0 Be 0 4 14 lt A MUTE TO P1 1507 2 8 18 10k 10507 15787 TO74HCT244AF CHIP F5 ER NSTATUS 0 TO74HCT244AF TO P1 2 18 9 Ts 4 D511 o8F ANS SYNC SEL 43 eT 0812 R580 100 CHIP TO P1 13 DMP_RX gt 16 R8006 47 CHIP vss AN SYNC SEL TO P2 x 16V 0 Me 219 rue lt y sw P2 10500 4 4 10500 3 4 4 TCTAHCTG F Rate Reit 47 GHIP 11 FANT PICAGC SW 40 A598 100 CHIP XPICAGC SW TO P2 TO 1 2 13 DMP TX gt pot CHIP R612 47 CHIP 50 05 20 30 394 Aw 8598 100 CHIP 20 80 TO P12 E SU p o 9 R609 47 CHIP 5 0 2 0 R594 100 TO PA PCG CLK gt AN 13 PCG CLK YUVVIDEO 38 AM lt YUV VIDEO P2 12 R610 47 5 0 5 0 R593 100 CHIP TO P4 PCG_DTA gt HA c KLLJPOG DATA vio seLi DE AN lt VID SEL1 TO P8 5 3 R538 47 CHIP R621 A R57 a7 5 9 D EN VID sEL2 D r E592 100 CHIP lt VID SEL2 P8 m S PX
229. P 5 R424 216 061 00 RES CHIP 3 3K 5 10W R607 216 073 00 RES CHIP 0 5 R425 216 061 00 RES CHIP 3 3K 55 10W R608 216 065 91 RES CHIP 4 1K 5 R426 216 081 00 RES CHIP 22K 5 10W R609 216 049 11 RES CHIP 5 R427 216 089 91 RES CHIP 41K 10W R610 216 049 11 RES CHIP 5 R428 216 049 11 RES CHIP IK 5 10W R611 216 081 00 RES CHIP 22 5 PFM 42B1 PFM 42B1E 6 33 1 o 1 o Cn 215 459 0 215 451 0 208 195 216 051 0 208 182 216 065 9 208 182 208 182 208 806 211 625 0 208 806 216 105 9 216 061 216 061 0 216 081 0 216 089 9 216 049 1 216 081 0 216 073 0 216 081 208 816 216 085 0 216 073 0 216 073 216 049 216 073 214 914 215 456 0 208 195 208 198 216 073 0 216 049 208 192 216 655 216 073 0 216 049 242 913 208 806 216 655 208 832 208 832 216 013 0 208 810 242 915 216 113 0 242 915 242 913 241 801 3 249 401 216 073 0 208 168 208 766 216 065 9 216 065 9 216 081 0 216 308 0 216 308 0 216 073 0 216 049 1 216 061 0 216 081 0 216 081 0 211 625 0 216 689 1 216 073 0 0 METAL 0 METAL RES CHIP 0 RES CHIP RES CHIP RES CH RES CH RES CH RES CH
230. Qo o cn Qo o o c 00 cn cn o Qo o 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 RES RES RES RES RES RES RES Cry 75 75 75 47K 47K TOR CH o m a U rg FU 15 15 15 47K 47K o 29 O I U rg rg rg rg 47 47K o 29 e I U rg FU rg rg o 29 I Jg rg tg rg rg rg rg rg Gi H e e I U rg rg rg rg es H TOR NET TOR NET P NETWORK CHIP NETWORK ETWORK ETWORK ORK ETWORK ETWORK I U rg FU rg rg z H P NETWORK HIP NETWORK P NETWORK P NETWORK TOR NETWORK 4 CHIP NET CHIP NET TOR CHIP NET TOR CHIP NET CHIP NET CHIP NET TOR NETWORK 47 1608 TOR NETWORK 47 1608 M 1 10 1 10 1 10 1 100 2012 K 1 10W 2012 1 10W 2012 K 1 10W 2012 4 7K 1 108 2012 4 7K 1 108 2012 1 100 2012
231. R CERAMIC 1 TOR CERAMIC TOR CHIP CERA Ga TOR CERAMIC ELECT 10 TOR CERAMIC TOR CERAMIC TOR CHIP TOR CERAI TOR CERAI TOR CERAI TOR CERAI TOR CERAI CAGA TOR CERAI TOR CERAI TOR CERAI TOR CERAI TOR CERAI 1 TOR CERAMIC TOR CERAMIC TOR CHIP CERA TOR CERAMIC 3 TOR CHIP CERA TOR CHIP CERA TOR CERAMIC TOR CERAMIC 1 TOR ELECT 47 TOR CERAMIC TOR CERAMIC TOR CERAMIC TOR ELECT 4 TOR ELECT 4 TOR CERA TOR ELECT 2 TOR CERAMIC TOR CERAMIC TOR ELECT TOR ELEC H O TOR CERAMIC 1 TOR ELECT 47 TOR ELECT 47 TOR CERAMIC TOR CERAMIC TOR CERAMIC TOR CERAMIC TOR CERAMIC TOR ELECT 4 7 TOR ERECT 0 4 TOR CERAMIC TOR CERAMIC 0 TOR CERAMIC 0 TOR CERAMIC 0 TOR CERAMIC TOR CERAMIC TOR CHIP CERA 6PF 50V MIC 0 047MF 000PF 50V 1MF 25V MIC 470PF 1MF 25V F 50V CHIP F 25V F 25V 270 F 25V F 25V F 25V F 25V F 25V F 25V F 25V F 25V 1MF 25V 20PF 50V 0 01MF 50V 0 01MF 50V C 680PF 30PF 50V C 680PF C 9PF 50V 0 01MF 50V 0PF 50V CH F 16V CHIP 1MF 25V F 25V 1MF 25V MF 50V F 16V CHIP 000PF 50V 2MF 50V 1MF 25V 1MF 25V F 50V CHIP F 16V CHIP 1MF 25V 1MF 25V 50 F 16V CHIP F 16V CHIP 1MF 25V 1MF 25V 0 01MF 50V 0 01MF 50V 0 01MF 50V Ex
232. RANSISTOR 144 1146 TRANSISTOR DTA144EKA T146 TRANSISTOR DTA144EKA T146 TRANSISTOR DTC144EKA TRANSISTOR 2SJ106N GR TRANSISTOR 2SJ106N GR TRANSISTOR DTC144EKA TRANSISTOR DTC144EKA TRANSISTOR 2SC1623 L5L6 TRANSISTOR 2SC1623 L5L6 TRANSISTOR 2SA1037AK T146 R TRANSISTOR 144 1146 TRANSISTOR DTC144EKA TRANSISTOR DTC144EKA RESISTOR METAL FILM 0 22 1 RESISTOR CHIP 510 1 10W 20 RESISTOR CHIP 470 1 10W 20 RESISTOR METAL FILM 10 2W RESISTOR CHIP 470 1 10W 20 RESISTOR CHIP 470 1 10W 20 RESISTOR CHIP 18K 1 10W 20 RESISTOR CHIP 18K 1 10W 20 RESISTOR CHIP 150K 1 10 20 RESISTOR CHIP 82K 1 10W RESISTOR CHIP 4 3K 1 10W 20 RESISTOR CHIP 2 2K 1 10W 20 RESISTOR CHIP 2 2K 1 10W 20 RESISTOR CHIP 2 2K 1 10W 20 RESISTOR CHIP 47 1 10W 20 RESISTOR CHIP 47 1 10W 20 RESISTOR CHIP 47 1 10W 20 RESISTOR CHIP 47K 1 10W 20 RESISTOR CHIP 47 1 10W 20 RESISTOR CHIP 10 1 10W 20 RESISTOR CHIP 10 1 10W 20 RESISTOR CHIP 3 3K 1 10W 20 CONDUCTOR CHIP 2012 RESISTOR CHIP 3 3K 1 10W 20 RESISTOR CHIP 10K 1 10W 20 RESISTOR CHIP 1 2K 1 10W 20 RESISTOR CHIP 10K 1 10W 20 RESISTOR CHIP 22 1 10W 20 RESISTOR CHIP 22 1 10W 20 RESISTOR CHIP 47 1 10W 20 RESISTOR CHIP 47 1 10W 20 CONDUCTOR CHIP 2012 RESISTOR CHIP 47 1 10W 20 CONDUCTOR CHIP 2012 RESISTOR CHIP 47 1 10W 20
233. RATOR FOR FULL SCALE 30 IREF LOGIC VB LOGIC DVss 54 SYNC H 1 H Vo V SEP SHAPE DET SHAPE 1 MB90096 182 1C214 ze veri 1 2 3 4 5 6 7 8 9 40 H STATE V STATE CLAMP GREEN GND COMP H COMP H VIN VDET _ VTIME GATE ICS9161A 204 wo N N DET sw DISES S 1709 VSYNC 03 19 ROUT VoD VoD EXTCLK EXTSEL EVEN 3 13 10 05 RESET 18 GOUT Es DISPLAY CONTROL DISPLAY CS 26 SERIAL OUTPUT 17 IOUT M62352GP 501 SIN 09 INPUT CONTROL 014 020 00 03 011 013 SCLK 24 CONTROL 16 VOB1 xi Om XTAL 4 REF co CMOS 2 02 DI CLK LD DO 012 AOM 15 7 4 OSC r prve voo ul 9 VOLK 20 19 18 17 16 18 14 13 12 11 23 COMMAND Geen 2 TABLE ROM FONT Get 9 DOCKO pm CONTROL MEMORY ROM SELO CLK 1 2 EEN 2101 Noel 12BIT 9 3 KO Lom ADELA POTIJO BEE le SHIFT RESISTOR 82FIGURE 16LINE TEST 2 014 020 00 03 011 013 DIA CONVERTER D A DA DIA 02 dic a L Ls mu DOT CLOCK S INIT2 14 ROM VCO v co OUTPUT 8 MCLK DECODER x TABLE ROM 09 DIVIDER paz 04 010 2 15 16KByte 07 AVCC YS ei DOCK 8 DOT CLOCK DIVIDE L L Esse L CH CH7 CH8 ot HSYNG 12 GENERATOR 0 FH 5 o DA NEBA LA JERA CPOUT 1 PLL CIRL
234. RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES RES 5 5 5 5 5 TOR C TOR C TOR TOR TOR C TOR TOR TOR C TOR TOR TOR CH TOR TOR C TOR HIP HIP CHIP HIP HIP p p HIP p p CHIP CHIP HIP HIP CHIP HIP HIP CHIP CHIP CHIP HIP p HIP HIP CHIP CHIP HIP HIP HIP HIP CHIP CHIP CHIP CHIP I J FU tg rg rg I J rg rg rg rg 3 3K 1 10W 1 5K 1 10W 1K 1 108 2012 IK 1 108 2012 12K 3 9K 1 10W 3 3K 1 10W 22K 1 5 33K 10 1 6 8 4 1K 1K 240 10K 2 2K 10 1K 1K SK K 1 10W 3 9K 1 4 7K 1 10W OK 1 100 1 100 3 9K 1 10W 5K 1 10W IK 1 10W IK 1 10W 220K 1 100K 1 4 1K 1 1 1 750 1 1 22K KARE 240 1 10W 2 7K 1 10W 2K 1 10W 3 6K 1 10W ed o na S K 1 108 2012 2012 2012 2125 B BOARD Ref No or Q ty Part No R
235. RN CP 47 R6185 1 108 TC4W66F 11 cense Q6114 R6217 UR MATRIX SW RN CP 1200 280241 2K G ck A 108103 33 47 161 ai 6148 tk 50V TLO26CPS Be er 50V 2 1 CH CHIP CHROMA CONT e 88157 g CH GHIP 96180 see sos 5 6k AN 7 VLS A T PE LAKU 1 HN CP 1 108 KN CP A AM 5 me int ws T Vi H CN6101 i 06200 01 e 25V 6201 25 sr ke 06200 DTC144EKA INV 201 DTC144EKA INV 1 5 MATRIX 2 5 HD_YPBPR 5 5 A SYS_HS 2 1 1 1 B SS9704 B1 J PFM42B1 PFM 42B1E 8 25 8 25 A B C D E F G H YA YB YA YB 10680 105952 NV i 11 940 089 1 5 SUR n POWER YA A SIDE CHIP e SUFFIX 11 08506 UDZ TE17 5 68 08504 648501 SLR 325MCT31 18508 POWER GREEN STBY 5V CHIP GND AM dei A TO B LED RED 8507 1 201 GREEN UDZ TE17 5 6B PIN1 7 ATE 58501 GND POWER 55 YA B SIDE 08508 108501 SUFFIX 11 6940 REMOCON RECEIVER 1 88505 chip NU YA 58801 gt EP 0W lt SEO SONY 8807 08502 KN us A 68 UDZ TE17 5 6 EA PROTECT 1 REMOCON RECEIVER I 1 680 077 11 SUFFIX 11 1 B 889704
236. SERVICE MANUAL MODEL DEST CHASSIS NO MODEL DEST CHASSIS NO PFM 42B1 US CND E BKM B10 AEP PFM 42B1E AEP RM 42B FLAT PANEL MONITOR SONY ASS A COvYlIaayY Wi v ASSHCS BERI 417 RIE nim TEMBVES SIT SEM DB CHASES AN 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 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 effec
237. SIZE menu Resizing and Positioning the Picture 4 Press A V to move the cursor gt to SHIFT and press ENTER The following menu appears on the monitor screen V SHIFT 00 5 Press A V to shift the picture A to shift the picture upward V to shift the picture downward The vertical picture position is indicated on the monitor screen in the range from MIN 50 to MAX 50 The factory preset value is 00 6 Press ENTER The menu returns to the PIC SIZE menu Restoring the Original Picture Size and Position 1 In the PIC SIZE menu press A V to move the cursor gt to RESET and press ENTER The following menu appears on the monitor screen RESET S NO SELECT amp amp SE T ENTER E N D MENU 2 Press A V changes to YES RESET 5 YES SELECTEE S E T ENTER E N D MENU 25 3192 182 0144 Resizing and Positioning the Picture Changing the Aspect Ratio 3 Press ENTER The original picture size and position are restored To cancel the reset function Press MENU before pressing ENTER Changing the Aspect Ratio This monitor can display images in various aspect ratios such as the normal 4 3 TV program ratio a widescreen image etc That means you can choose a suitable aspect ratio to display images 1 In the PIC SIZE menu press A V to move the cursor P to ASPECT and press ENTER The following men
238. STOR CHIP 1 10W 2012 R1026 216 651 11 s RESISTOR CHIP 2012 R712 216 049 11 s RESISTOR CHIP 1K 1 10W 2012 R1027 216 025 00 s RESISTOR CHIP 10W 2012 R713 216 049 11 s RESISTOR CHIP 1K 1 10W 2012 R1028 216 651 11 s RESISTOR CHIP 2012 R714 216 049 11 s RESISTOR CHIP 1K 1 10W 2012 R1029 216 025 00 s RESISTOR CHIP 10W 2012 R715 216 073 00 s RESISTOR CHIP 10K 1 10W 2012 R1030 216 045 00 s RESISTOR CHIP 680 1 10W 2012 R716 249 381 11 s RES CARBON 1 1 4W R1031 216 045 00 s RESISTOR CHIP 680 1 10W 2012 R717 216 049 11 s RESISTOR CHIP IK 1 100 2012 R1032 216 045 00 s RESISTOR CHIP 680 1 10W 2012 R718 216 073 00 s RESISTOR CHIP 10K 1 10W 2012 R1033 216 009 91 s RESISTOR CHIP 22 1 10W 2012 R719 216 073 00 s RESISTOR CHIP 10K 1 10W 2012 R1034 216 009 91 s RESISTOR CHIP 22 1 10W 2012 R720 216 001 00 s RESISTOR CHIP 10W 2012 R1035 216 069 00 s RESISTOR CHIP 6 8K 1 104 2012 R721 216 073 00 s RESISTOR CHIP 10K 1 10W 2012 R1036 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R722 216 073 00 s RESISTOR CHIP 10K 1 10W 2012 R1037 216 069 00 s RESISTOR CHIP 6 8K 1 10W 2012 R723 216 001 00 s RESISTOR CHIP 10W 2012 R1038 216 659 11 s RESISTOR CHIP 2 2K 1 10W 2012 R724 216 001 00 s RESISTOR CHIP 10W 2012 R1039 216 097 00 s RESISTOR CHIP 10 10 2012 R725 216 001 00 s RESISTOR CHIP 10W 2012 R1040 216 657 11 s RESISTOR CHIP 1 8K 1 10W 2012 R726 216 001 00 s RESISTOR CHIP 10W 2012 R1041 216 683 11 s RESISTOR CHIP 2
239. STOR CHIP 330 1 10W 2012 R1070 216 021 00 s RESISTOR CHIP 68 1 10W 2012 R1140 216 643 11 s RESISTOR CHIP 470 1 10W 2012 R1071 216 053 00 s RESISTOR CHIP 1 5K 1 10W 2012 R1141 216 651 11 s RESISTOR CHIP 1 10W 2012 R1073 216 041 00 s RESISTOR CHIP 470 1 10W 2012 R1142 216 049 11 s RESISTOR CHIP 1K 1 10W 2012 R1074 216 295 00 s CONDUCTOR CHIP 2012 R1143 216 065 91 s RESISTOR CHIP 4 7K 1 10W 2012 R1075 216 055 00 s RESISTOR CHIP 1 8K 1 10W 2012 R1144 216 651 11 s RESISTOR CHIP 1K 1 104 2012 R1076 216 055 00 s RESISTOR CHIP 1 8K 1 10W 2012 R1145 216 673 11 s RESISTOR CHIP 8 2K 1 10W 2012 R1077 216 055 00 s RESISTOR CHIP 1 8K 1 10W 2012 R1146 216 045 00 s RESISTOR CHIP 680 1 10W 2012 R1078 216 055 00 s RESISTOR CHIP 1 8K 1 104 2012 R1147 216 647 11 s RESISTOR CHIP 680 1 10W 2012 R1079 216 079 00 s RESISTOR CHIP 18K 1 10W 2012 R1148 216 025 00 s RESISTOR CHIP 100 1 108 2012 R1080 216 077 00 s RESISTOR CHIP 15K 1 10W 2012 R1149 216 661 11 s RESISTOR CHIP 2 7K 1 10W 2012 R1081 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R1150 216 667 11 s RESISTOR CHIP 4 7K 1 2012 R1082 216 055 00 s RESISTOR CHIP 1 8K 1 10W 2012 R1151 216 073 00 s RESISTOR CHIP 10K 1 10 2012 R1083 216 001 00 s RESISTOR CHIP 10 1 10W 2012 R1152 216 061 00 s RESISTOR CHIP 3 3K 1 2012 R1084 216 043 91 s RESISTOR CHIP 560 1 10W 2125 R1153 216 057 00 s RESISTOR CHIP 2 2K 1 10W 2012 R1085 216 295 00 s CONDUCTOR CHIP 2012 R1154 216 657 11 s R
240. TATUS MODEL NAME PFM 42B1E I32 SERIAL 2000001 33 OPERATION 000001H 83 SOFTWARE Vr 1 00 E TEMPERATURE OK FAN OK B5 861 81 MODEL NAME Indicates the model name 32 SERIAL No Indicates the serial number 33 OPERATION Indicates the total number of hours of operation The standby mode is not counted as part of the OPERATION time 34 SOFTWARE Indicates the system software version Using On screen Menus 35 TEMPERATURE Indicates whether the internal temperature of the monitor is normal OK Normal NG Unusual When the internal temperature is unusual NG is displayed and the item flashes in red The STANDBY indicator on the D standby switch indicator section also flashes The TEMPERATURE message may appear when the ventilation holes are blocked or the monitor is installed in a poorly ventilated location In this case check that the ventilation holes are not blocked and install the monitor in a well ventilated location If the message is still displayed contact your authorized Sony dealer When the STANDBY indicator flashes or NG is indicated see Self diagnosis Function on page 35 GB 36 FAN Cooling fans are built into this monitor This item indicates whether the cooling fans work properly OK Normal NG Unusual When the cooling fans are not working normally NG is displayed and the item flashes in red Th
241. TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC 0 1MF 25V TOR TANTATUM 10MF 10V TOR CERAMIC 0 1MF 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V TOR CERAMIC F 25V PFM 42B1 PFM 42B1E B BOARD B BOARD Ref No Ref No or Q ty Part No SP Description or Q ty Part No SP Description C274 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C526 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C215 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C527 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C216 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C528 164 004 11 s CAPACITOR CERAMIC 0 1MF 25V C277 126
242. UNCTION gt AUTO ASPECT AUTO PLL SETUP AUTO PLL PIXEL H V SHIFT VIDEO SHARP SW AUTO FT CANCEL a AUTO ASPECT Japanese Model only When the BKM B11 is installed the aspect ratio is automatically switched by the identification signal at the D terminal ON Aspect ratio is automatically switched by the identification signal OFF Automatic switching of aspect ratio is prohibited b AUTO PLL SETUP Sets enable disable of automatic execution of the PIXEL ADJUST function ON When the AUTO PLL SETUP is set to ON the PIXEL ADJUST is automatically executed when the main power is turned on or when the input signal is switched Be noted that about 10 seconds are required to output the video signal after switching the input signal when this function is kept to the ON position OFF The automatic PIXEL ADJUST is executed only when AUTO item of the user menu PIXEL ADJUST is activated This function becomes valid only when the signal that enables the PIXEL ADJUST is inputted to the PFM 42B Set the AUTO PLL SETUP item to the OFF position normally PFM 42B1 PFM 42B1E d AUTO PLL PIXEL e Selects the functions that are automatically adjusted when PIXEL ADJUST is executed ON Both the TOTAL H PIXEL and DOT PHASE are automatically adjusted OFF Only the DOT PHASE is automatically adjusted In the case that the PFM 42B1 B1E is used under the environment where input signal contains much noise
243. V 16V 0103 0103 10k 15k 0 047 1200p 0 1 5 1k 0 1 39k 10k PFC ADJ s 6 0 vret Deg RV300 0 1 2 2 e 7 0011 001240 E 5 10700 e o o o 6 e oe o e o o 0300 HZS7 5NB2 4 9 d 4 4 wa PH702 123 12V D d ee 1 3 2 MW 66 22 R712 R600 4 7k TS C o C703 R703 C704 705 705 C706 709 C710 eng oa 1000 10k 1000 220 1000 47 0 1 0 22 Rv700 0 k Fo 50V 25V CH 25V 10 bd bd bd bd e 1 MIN ADJ APS 132 37 4 SWITCHING REGULATOR 8 33 8 33 PFM42B1 PFM 42B1E A 2 4 2 4 a 4 a 4 8 4 8 4 2 4 8 4 8 4 8 4 8 4 8 4 8 4 8 4 8 4 374 374 8 4 8 4 8 4 APS 132 M 4 4 APS 132 4 4 vec GND VRS GND GND VRR GND TO PLASMA DISPLAY PANEL 0405 188355 R407 10k D409 185355 RV401 2 2k 16402 BA10324AF VS PROTECT 1400 BA10358F VS OUT CONTROI OCP ADJ R418 1k F D D404 R406 185355 7 5 1403 BA10358F AMP R450 1 0401 28 1590 0408 RAS SW 188355 F D 0404 28 1590 SW 0403 2SK1590 SW Q400 R409 2802412
244. VESA640x480 75 VESA640x480 85 ASPECT 4x3 4x3 4x3 4x3 4x3 SHARPNES MID MID MID MID MID TOTAL H PIXEL AREA 29 832 30 832 31 32 33 832 34 840 35 832 NAME VGA TEXT VESA720x400 85 VESA800x600 56 VESA800x600 960 VESA800x600 72 VESA800x600Q75 VESA800x600 85 ASPECT 4x3 4x3 4x3 4x3 4x3 4x3 4x3 SHARPNES MID MID MID MID MID MID MID TOTAL H PIXEL AREA 900 38 936 39 1024 40 1056 41 1040 42 1056 43 1048 44 45 NAME IVESA1024x768 060 5 1024 768 970 VESA1024x768 075 IVESA1024x768 085 VESA1152x8640075 Mac21 VESA1280x960 260 VESA1280x960 8 ASPECT 4x3 4x3 4x3 4x3 4x3 4x3 4x3 4x3 SHARPNES MID MID MID MID MID MID MID MID TOTAL H PIXEL AREA 1344 46 1328 47 1312 48 1376 49 1600 50 1456 51 1800 52 1728 53 NAME VESA1280x1024 60 VESA1280x1024Q75 VESA1280x1024 085 VESA1600x1200 60 575 501 480 601 575 50 480 60 4x3 4x3 4x3 4x3 4x3 4x3 4x3 4x3 SHARPNES MID MID MID MID LOW LOW MID MID TOTAL H PIXEL AREA 1688 54 1688 55 1728 56 2160 59 60 61
245. a is stored under the selected memory number The SAVE COMPLETED message appears for about five seconds When you name the setting follow the steps below Using the Memory Function 6 Press ENTER then press A V to move the cursor P to NAME SET and press ENTER again The following menu appears on the monitor screen 01 UI 1 NAME tes Mive D SELECT S E T ENTER MENU Character list 7 Select the character to be changed with A V and press ENTER The background of a character in the character list changes to cyan 8 Select a character in the character list with V and press ENTER The selected character is input 9 Repeat steps 7 and 8 until you finish inputting the name then press MENU The menu returns to the SAVE menu If the storing of the setting fails the SAVE ERROR message appears on the monitor screen Try to store the setting again Calling Up a Stored Setting 1 In the MEMORY menu press V to move the cursor gt to LOAD and press ENTER The first page of the stored settings appears on the monitor screen 5 d 00 P HI ZmI ri oodoz Zooooor SELECT VER F Y ENTER E N D MEN 29 91 1 3L8ev WAd 182 1144 Using the Memory Function Selecting the On screen Language 2 Select a memory number 01 to 20 with A V and press ENTER The second page of the stored settings appears on
246. acturers 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 accurate 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 1 46 09 0 15uF 2 1 5 voltmeter 0 75V lt Earth Ground Fig A Using an AC voltmeter to check AC leakage English 00LS16 1 Sony Corporation Printed in Japan 9 929 692 01 Communication System Solutions Network Company 2000 12
247. and the earth when the NTSC color bar signal RGB color bar signal and YUV signal are received from the color bar generator digital multi meter used 10 M ohms V DC Unit of voltage is V volt Lys Baline Se B line Voltage variations may occur due to normal production tolerances No mark RGB color bar signal Circled numbers indicate the reference waveform gt _ Signal path The components identified marked 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 8 1 8 1 8 1 Frame Schematic Diagram VS SENCE 8 q Frame Frame 9 IN ORDER
248. ator APS 132 M Board Adjustments 3 7 1 Preparation 1 Remove the switching regulator from the set and adjust it under no load 2 Ifadjusting the switching regulator with each output loaded set as follows Load on each output Output VCC VS VA AUDIO B STBY 5 V 5VD 6 2 V 13 5 V 13 V 3 7 2 13 V System Minimum Freguency Adjustment 1 Apply 18 V DC to both ends of C169 2 Connect a frequency counter between gate and source of Q153 Note As the input of frequency counter use 10 1 oscilloscope probes and raise the input impedance 3 Adjust the RV 150 so that the oscillation frequency is 93 0 5 kHz 3 7 3 VS System Minimum Frequency Adjustment 1 Short between pin 3 and pin 4 of PH501 2 Apply 18 V DC to both ends of C169 3 Connect a frequency counter between gate and source of Q503 Note As the input of frequency counter use 10 1 oscilloscope probes and raise the input impedance 4 Adjust the RV500 so that the oscillation frequency is 49 0 5 kHz PFM 42B1 PFM 42B1E 3 7 4 VA System Minimum Frequency Adjustment 1 Short between pin 3 and pin 4 of PH701 Apply 18 V DC to both ends of C169 3 Connect a frequency counter between gate and source of Q703 Note As the input of frequency counter use 10 1 oscilloscope probes and raise the input impedance 4 Adjust the RV700 so that the oscillation frequency is 65 0 5 KHz 3 7 5 PFC Voltage Adjustmen
249. attach the AC plug holder supplied to the AC power cord AC IN socket AC power cord AC plug holder 2 Slide the AC plug holder over the cord until it connects to the AC IN socket cover AC IN socket cover To remove the AC power cord After squeezing the AC plug holder and freeing it grasp the plug and pull out the AC power cord Connection Example Before you start First make sure that the power to each piece of equipment is turned off Use connecting cables suitable for the equipment to be connected The cable connectors should be fully inserted into the jacks A loose connection may cause hum and other noise To disconnect the cable pull it out by grasping the plug Never pull the cable itself Refer to the instruction manual of the equipment to be connected Insert the plug securely into the AC IN socket Use one of the two AC plug holders supplied that will securely hold the AC plug Connections Betacam SP video Computer cassette recorder dol oe Fr aue 0000 8 0020000 4 1 1 to component m to audio IS to audio to video output output to RGB YUV to AUDIO to Y C IN or COMPOSITE IN to AUDIO IN to video 4 d to audio output 4 4 output A 8 VCR game machine DVD player etc to RGB YUV to AUDIO to AUDIO OUT signal output
250. automatically after a certain period if there is no input signal from the INPUTI or INPUT2 connectors POWER SAVING function You can set the time when the power automatically turns on off ON OFF TIMER function Power Saving Function 1 Press MENU The main menu appears on the monitor screen vz o2 Oovv gt 20052 om lt o o m 202 mame ro Ammo z 400m SELECT S E T ENTER E N D MENU 2 Press A V to move the cursor gt to CONFIG and press ENTER The CONFIG 1 2 menu appears on the monitor screen CONFIG 1 2 DISPLAY ON W VGA OFF CLOSED CAPTION OFF COLOR SYSTEM AUTO SCREEN FILL CENTER POWER CONTROL SCREEN SAVER SELECT S E T ENTER E N D MENU 33 81 1 3192 LAZv Nad Controlling Power On Off Automatically Power Control Function 3 Press A V to move the cursor gt to POWER CONTROL and press ENTER The following menu appears on the monitor screen POWER CONTROL SAVING OFF ON OFF TIMER OFF SELECT S E T ENTER E ND MENU 4 Press V to move the cursor to POWER SAVING and press ENTER The following menu appears on the monitor screen POWER SAVING OFF 5 Press A V to select the length of time until the change to power saving mode OFF The power saving function does not work 5min Changes to the power saving mode after five
251. can converter Improved image quality The PFM 42B 42B E series achieves higher image quality with its PDP Plasma Display Panel set to 1024 dots x 1024 lines This makes for a finely detailed HDTV or PC image Internal high performance scan converter The monitor has a high performance scan converter Using a unique algorithm the monitor processes signals in a wide range of formats Video HDTV PC etc Flexibility An option slot is in place for future expansion The slot in optional adaptor allows for quick and easy system upgrades Other features Three sets of video inputs with audio input one composite video or Y C input and two RGB component inputs For the PFM 42BIE the BKM 10 video input adaptor is required to input the composite video and Y C signals Displays the HDTV signal with a tri level sync signal Three dimensional comb filter for NTSC Y C separation e Line correlation comb filter for PAL Y C separation Automatic input signal detection with on screen indication e Windows 95 98 PnP Plug and Play compatible Picture AGC function this function automatically adjusts and improves the contrast when a low intensity signal is input On screen menu for various adjustments and settings On screen display in six languages for user friendly access Languages English German French Italian Spanish and Japanese Fine adjustment of image size and position Memory function f
252. control button section see Control Button Section Rear on page 8 GB Carrying handles AC IN socket Connect the supplied AC power cord to this socket and to a wall outlet Once you connect the AC power cord the STANDBY indicator lights up in red and the monitor turns to the standby mode O Stand installation hooks Use these hooks to install the stand not supplied Q Connector panel For details on the connector panel see Connector Panel on page 9 GB 7 cB 3L8ev NAd 182 0144 8 1 Location and Function of Parts and Controls D standby Switch Indicator Section 5 standby switch Press to turn on the monitor Press again to go back to the standby mode STANDBY indicator Lights up in red in the standby mode When the STANDBY indicator flashes see Self diagnosis Function on page 35 GB ON indicator Lights up in green when the monitor is turned on Remote control detector Receives the signal from the Remote Commander 8 Control Button Section Rear Connector Panel MENU O vie ENTER C9 34 Ha Q MENU button Press to make the menu appear When the menu is displayed on the monitor screen press to return to the previous menu level To clear the menu display press this button repeatedly until the menu disappears A Y buttons Press to move the cursor to
253. d Function of Parts and Controls Caution Caution When you use the monitor make sure there is more space between the edges of the unit and other walls or the ceiling than that shown in the figure below This will allow for proper ventilation The ambient temperature must be 0 C to 35 32 F to 95 F Use the SU 42B monitor stand not supplied as a stand The wall should be reinforced to bear at least five times the weight of the monitor approx 29 4 kg plus the wall bracket you are planning to use Regarding installation of hardware such as brackets screws and bolts we cannot specify what to use because actual installation is up to the authorized local dealers For installation consult with qualified Sony personnel When using the stand not supplied Front Wall 20 7 76 Wall Floor 6 5 258 Side 10 4 Wall Units cm inches 11 3192 182 0144 1 1 Caution Connections When using the monitor horizontally Front Wall 25 970 Wall Wall Side 2 Units cm inches When using the monitor vertically Front Wall Make sure that the D standby Switch is at the bottom Side Wall Units cm inches 12 Connections Connecting the AC Power Cord 1 Plug the AC power cord into the AC IN socket Then
254. der 2 Remote Commander RM 42B 1 Size AA R6 batteries 2 Operating instructions 1 Optional accessories Monitor stand SU 42B Video input adaptor BKM B10 for the PFM 42BIE only Design and specifications are subject to change without notice 1 The 42 1 is not equipped with VIDEO connectors For the 42 1E composite video and Y C input can be input to the monitor when the 10 video input adaptor not supplied is installed in the monitor 38 Pin assignment RGB YUV connector D sub 15 pin Pin No Signal Red video or R Y or Pa Green video or Y Blue video or B Y or Ground Ground Red ground Green ground Blue ground Not used o Ground Ground sync or composite sync V sync a SCL Specifications 39 Section 2 Service Informations 2 1 Board Layout SWITCHING s REGULATOR APS 132 M 24 Z CH T F QA BKM B10 2 2 Disassembly 2 2 1 QA Board BKM B10 Removal 9 Blank panel Only AEP model 3 Two screws PSW3 x 8 La D Loosen two panel stopper screws Connector 2 QA board BKM B10 BKM B10 is available separately for AEP model 2 2 PFM 42B1 PFM 42B1E 2 2 2 R
255. desired aperture is selected from HIGH or MID or LOW Result of this setting becomes the initial value of the user menu APERTURE 22 APERTURE HIGH The scaling filter value when selecting HIGH of the APERTURE is set The scaling filter value can be set in the range of 000 to 011 Refer to the Supplement to APERTURE in the following paragraph 23 APERTURE MID The scaling filter value when selecting MID of the APERTURE is set The scaling filter value can be set in the range of 000 to 011 Refer to the Supplement to APERTURE in the following paragraph 24 APERTURE LOW The scaling filter value when selecting LOW of the APERTURE is set The scaling filter value can be set in the range of 000 to 011 Refer to the Supplement to APERTURE in the following paragraph lt Supplement to APERTURE gt The PFM 42B1 B1E has the 12 different types of built in scaling filter Select an appropriate filter using the follow ing filter characteristics chart as a guideline 8 3 4 5 6 7 PFM 42B1 PFM 42B1E Wide Sharp Frequency bandwidth Narrow Soft 0 1 2 9 10 11 25 AUTO PLL Whether the user menu adjustment PIXEL ADJUST is enabled or disabled is set ON The user menu adjustment PIXEL ADJUST is enabled OFF All items of the adjustment PIXEL ADJUST show the indication The user menu adjustment PIXEL ADJUST is disabled Select the OFF position when the setup of the TOTAL H and that of RESOLUTIO
256. dge 8 9 PFM 42B1 PFM 42B1E PFM 42B1 PFM 42B1E pd tees NE Mee 8 10 eee 8 11 bi e eie mn 8 12 8 13 EE 8 14 8 15 CIO T3 WEE 8 16 pe er PE A ROE REPRE REFIERE 8 17 BAUZ QU e ER REDE 8 18 B 13 43 panau pais 8 19 xS en SP EN tan UIN 8 25 EE 8 26 SUE GNU SD Set DUUM D 8 27 E EN ane eee aie heats 8 30 APS 132 M 1 4 i iii he pp e eR 8 31 5 132 iie Stem eer ep e ANA PR 8 32 APS 132 M 3 4 iii e tr e dr ARP S 8 33 APS 132 M iii tp tre dee 8 34 Printed Wiring Boareds QA onse eoi opea teet ree e d 8 3 RR E pedet 8 4 BI ues ves 8 24 K E EE 8 26 SB god de ana id ota di dd O EE 8 27 Gh hes a doza 8 28 APS 132 M sr aa o i aa aste ie eee it ke et Na Gee AU EE US 8 35 Section 1 Operating Instructions from operation manual This section is extracted 4 080 938 01 1 Flat Panel Monitor PFM 42B1 PFM 42B1E Operating Instructions 2000 Sony Corporation SONY PFM 42B1 42B1E PFM 42B1 PFM 42B1E 1 1 3192 LAZv Nad WARNING Owner s Record The model and serial numbers are located o
257. e such as moving picture 16 MODE Whether the PDP display picture is synchronized with the input signal to scan converter or not is set ON The PDP display picture is synchronized with the input signal OFF The PDP display picture is asynchronous with the input signal When moving picture animation is going be dis played select the ON position Note This item can be set to ON as long as the vertical frequency of the input signal is in the range of 50 to 60 Hz 17 MATRIX SELECT The color difference matrix when the YUV signal is being input is set MATRIX SELECT ITU601 MATRIX SELECT 170709 18 PICTURE AGC Whether the PICTURE AGC is turned ON or OFF is set Result of this setting becomes the initial value of the user menu PICTURE AGC This function becomes valid only when the COMPOS ITE YC YUV signal is being received 19 5 The desired aspect ratio is selected from the aspect ratios of 4 X 3 or 16 x 9 or W ZOOM or LB ZOOM Result of this setting becomes the initial value of the user menu ASPECT Note The W ZOOM can not be selected when the ZOOM is in the range of x2to x 4 3 10 20 ZOOM The desired zoom ratio is selected from the zoom ratios of X 1 or X 2 or X 3 or X 4 Result of this setting becomes the initial value of the user menu ZOOM Note Any zoom ratios other than x 1 cannot be selected when the ASPECT is W ZOOM LB ZOOM 21 APERTURE INIT The
258. e STANDBY indicator The flashing pattern informs you of the monitor s current condition If the STANDBY indicator flashes check the number of flashes and contact your authorized Sony dealer 1 Check the flashing pattern of the STANDBY indicator The indicator flashes with an image showing on the monitor or flashes at intervals of three seconds with no image showing on the monitor Count the number of flashes if the indicator flashes at intervals of three seconds For example the indicator flashes twice followed by a three second pause two more flashes and this pattern repeats In this case the count for the number of flashes is two 2 Unplug the unit Inform your authorized Sony dealer of the number of flashes Operating a Specific Monitor With the Remote Commander Using the supplied Remote Commander you can operate a specific monitor without affecting other monitors that are installed at the same time 1 Press ID MODE ON on the Remote Commander Monitor index numbers appear in white characters on all the monitors Every monitor is allocated an individual preset index number from 1 to 255 See To change the index number in the right hand column on the next page to change the index number OFF SET ON DOGA INDEX No 117 Index number 35 3192 182 0144 61 1 Operating a Specific Monitor With the Remote Commander 2 Input the index number of the monitor you want to ope
259. e STANDBY indicator on the D standby switch indicator section also flashes When the FAN NG message appears contact your authorized Sony dealer When the STANDBY indicator flashes or NG is indicated see Self diagnosis Function on page 35 GB The cooling fans detect the monitor s internal temperature and control the fan rotation If the ambient temperature is high the fan speed increases and the fan noise will be louder 17 01 1 3192 LAZv Nad Watching the Picture Watching the Picture Before you start Turn on the monitor Turn on the connected equipment and play a video source To display the input signal information on the screen when turning on the power or switching the input signal set DISPLAY in the CONFIG 1 2 menu to ON To select the on screen language used in the menu see page 30 GB Switching the Input Signal 1 Press MENU The main menu appears on the monitor screen MAIN MENU INPUT SELECT PIC CONTROL PIC SIZE CONFIG MEMORY REMOTE STATUS SELECT S E T ENTER E N D MENU 2 Press A V to move the cursor gt to INPUT SELECT and press ENTER The currently selected input signal and INPUT SELECT menu appear on the monitor screen PAL VIDEO COMPOSITE INPUT SELECT PINPUT1 RGB INPUT1 YUV INPUT2 RGB INPUT2 YUV VIDEO COMPOSITE VIDEO SELECT S E T ENTER MENU 18 Press A
260. e EEPROM as shown in Table 1 is initialized When the LAST MEMORY area is initialized only the last memory data of every signal that is adjusted by user is initialized g USER MEMORY Only the USER MEMORY area of the EEPROM as shown in Table 1 is initialized When the USER MEMORY area is initialized all of the 20 types of adjustment data that is saved by the MEMORY function of the user menu are initialized to EMPTY h FACTORY Only the FACTORY area of the EEPROM as shown in Table 1 is initialized When the FACTORY area is initialized all areas of the MEMORY except the areas that are listed below are initialized Items that are not initialized by the FACTORY RESET function EEPROM ID CODE INDEX NUMBER MODEL NAME SERIAL NUMBER AUTO PLL SETUP AUTO PLL PIXEL H V SHIFT VIDEO SHARP SW AUTO FT CANCEL WATCH ERROR Y GAIN R Y GAIN B Y GAIN R CUTOFF B CUTOFF GAIN ADC G GAIN ADC B GAIN ADC R OFFSET ADC G OFFSET ADC B OFFSET PFM 42B1 PFM 42B1E 2 WHITE BALANCE 3 ADC CALIBRATION Menu Structure Adjust the white balance of the desired color temperature by selecting the items of the WHITE BALANCE menu and by adjusting the R G B gain of the digital gamma circuit WHITE BALANCE gt WINDOW OFF COLOR TEMP HIGH RED GAIN 255 GREEN GAIN 255 BLUE GAIN 255 a WINDOW The 42 has the built in window signal for white balance adjustment There are two siz
261. ear Cover Assy Removal 2 2 3 Bezel Assy and YA YB Boards Removal 8 Eighteen screws BVTP4 16 6 Main chassis 9 Filter bracket V Wire for reference Sf Note If two wires attached on the glass surface of plasma display panel be careful not to cut them 2 4 A N CN8501 27 Two screws BVTP4 x 16 D Screw BVTP4 16 2 2 YB board bracket gt x DERI CN8601 d vs Board Lec Two screws P2 x 5 Te Screw x 12 5 Q Earth plate 3 YA board PFM 42B1 PFM 42B1E 2 2 4 B Block Assy Removal 2 S C cover 4 Screw PS3 x 6 1 Four screws CN8001 NONG SE T GBvrP8 x 12 GND K CN12 Iza Remove the lithium battery in the direction of arrow Lithium uod battery CR2025 5 B block assy Battery holder Cushion X 3 Two PC board hinges PFM 42B1 PFM 42B1E 2 5 2 2 5 B and B1 Boards Removal Remove the B block assy Refer to 2 2 4 7 Fan bracket L B1 board 2 Six screws pe PS3 x 6 6 Screw PS3 x 6 Three screws n 5 S C panel 4 Two screws 3 Two screws 2 Two screws 2 6 PFM 42B1 PFM 42B1E 2 2 6 Extention Board Connection S C cover N 5 9 2 g 2 OG 5 8 ae s 5 25
262. ection 3 4 A D Calibration Adjustment 3 3 4 VIDEO PROCESSOR 5 SPECIAL FUNCTION Menu Structure The following items of the video processor can be adjusted using this menu However all items of the video processor have the default values on which normal operations are per formed Therefore the video processor normally needs no adjustment VIDEO PROCESSOR gt Y GAIN 111 R Y GAIN 082 B Y GAIN 128 RED CUTOFF 143 BLUE CUTOFF 100 GREEN C O SW ON a Y GAIN The range of adjustment is from 000 to 255 Default value 111 b R Y GAIN The range of adjustment is from 000 to 255 Default value 082 c B Y GAIN The range of adjustment is from 000 to 255 Default value 128 d RED CUTOFF The range of adjustment is from 000 to 255 Default value 143 e BLUE CUTOFF The range of adjustment is from 000 to 255 Default value 100 f GREEN C OSW This switch is set to ON normally However if white balance cannot be obtained at the CUTOFF position set this switch to the OFF position and adjust the white balance Video Processor Adjustment Refer to section 3 5 Video Processor Adjustment Perform the service menu adjustment of the video proces sor only when the specifications cannot be satisfied by sec tion 3 5 Video Processor Adjustment Menu Structure Various special functions as listed in the SPECIAL FUNCTION menu can be independently set as required SPECIAL F
263. ectors from the power unit The kinds of power supply are 160 V line 60 V line and 5 V line If no images appears through the above conditions are satisfied the PDP unit will be defective PFM 42B1 PFM 42B1E 4 1 4 2 Self Diagnosis Function 4 2 1 Outline The PFM 42B 1 B1E has the self diagnosis function using converter to detect the power supply analog voltages 8 channels of temperature sensor fan operations power unit temperature DC voltage status and to check the EEPROM and the watch register When any abnormality occurs or defect is detected the standby indicator on the control panel flashes and the detected data is displayed on the service menu STATUS TEST block If the abnormal status exceeds the allowable limit the PFM 42B1 B1E is forced to shut down The detection items are shown as follows l Increase and decrease of the panel DC voltage Vs is detected 2 Increase and decrease of the panel DC voltage Va is detected 3 Increase of temperature at the I O block on top of the panel is detected Shut down of machine 4 Increase of temperature at the center in the top of the panel is detected Shut down of machine 5 Increase of temperature at the DC DC converter on top of the panel is detected Shut down of machine 6 Temperature at the left side of the panel is detected 7 Detection of fan stop and that of drive circuit failure Two fans at the bottom of the panel and the four fans for power supp
264. editing Then the selected source data is copied to the Editing RAM ORIGINAL DATA SELECT gt CURRENT DATA SELECT 1 The signal that is being inputted at present FORMAT TABLE PROGRAMI is selected as the source data L 2 The signal that is already stored in the preset ORIGINAL FORMAT area is selected as the source data FREQUENCY 3147 kHz V FREQUENCY 60 00 Hz F 3 Frequency of the signal that is selected SYNC POL H V NEGE NEGA as the source data is displayed EDIT MODE DIRECT 4 Type of the signal that is selected as the Source data is displayed 1 CURRENT DATA SELECT When an editing is performed using the signal that is being inputted at present is selected as the source data move the cursor to this item and press ENTER The selected data is copied to the Editing RAM 2 FORMAT TABLE PROGRAM 1 When an editing is performed using the signal that is already stored in the preset area is selected as the source data move the cursor to this item and press ENTER Select the desired area from Table 1 by pressing the keys The selected data is copied to the Editing RAM 3 ORIGINAL FORMAT Frequency of the signal that is selected as the source data in step 1 or 2 is displayed Use the frequency data as the fundamental information when selecting a source data 4 EDIT MODE When the signal that is being inputted at present
265. es that are the large and small windows Select the optimum size of window for white balance adjustment OFF Window does not appear Small window TYPE2 Large widow Note When white balance is going to be adjusted using an external signal perform the A D converter calibration referring to the next paragraph 3 ADC CALIBRATION before starting the white balance adjustment b COLOR TEMP To adjust the white balance firstly select the desired color temperature from HIGH LOW 1 2 3 4 5 or 6 on the COLOR TEMP sub menu Color temperature of items 1 to 6 are the same as those of the user menu c RED GAIN Adjust the red gain of the selected color temperature The range of adjustment is from 010 to 255 d GREEN GAIN Adjust the green gain of the selected color tempera ture The range of adjustment is from 010 to 255 e BLUE GAIN Adjust the red blue of the selected color temperature The range of adjustment is from 010 to 255 White Balance Adjustment Refer to section 3 3 White Balance Adjustment PFM 42B1 PFM 42B1E Menu Structure Calibrate the A D converter IC200 until non uniformity between the R G and B channels of the A D converter is removed ADC CALIBRATION gt AUTO OFF CAL MODE 128 RED GAIN 128 GREEN 128 128 RED BIAS 128 GREEN BIAS 128 BLUE BIAS 128 R G B a AUTO The A D converter is automatically calibrated N
266. ev 1 10W at CHROMA CONT iow vow E agr R6162 56416 06412 06413 06414 06415 RN CP R6126 WI raki 150 iAy 28C2412K 2SC2412K 2SA1037AK 25 1037 va L KN CP CH CHIP BUFF CLAMP BUFF CLAMP k W t 66129 150 06419 2802412 h R6131 R6132 47 16V 2802412 270 2 2k R6163 104 17108 w ah THERMO COMP 15V RN CP RN CP 06130 86171 M 1 R6141 47 150 RN CP 06109 k 88147 R6148 06110 06112 86158 06113 16 tL 56194 2802412 HIU 1 10 17108 Z 2502412 2802412 o 2802412 RN CP m 100 25V BUFF AN GR RN CP AN CP BUFF RN CP BUFF 5 E da I R6138 R6142 R6143 R6145 113 R6152 10k Tk 4 Tk 4 7k emee 47 061404 06141 1101 47 16v 10108 1 108 1 108 1 104 T 25V o 1 10 5 8 5 0 1 Z 100 12V 100pH RN cP PB B RN CP 4 1 RN CP RN CP RN CP B RN CP 25V T iv Ze de F R6153 m KRE wa 8 2390 Y 06126 meteo R6172 k n 1 1 108 FAVARA 5 6k Ius 1 8k 10k R6174 00403 N CP s PADE 4 251 1 108 1 108 18k T 618 B A RN CP CP 1 108 DATE B EU pep E 40 1 108 6123 R6150 R6156 86155 Z RN CP aT ev ROOM 560 330 1 108 im 1710 Tos RN CP 0 1 86215 25V T gt 820 1 CH CHIP Q6111 VAT R6167 uia i R6166 m z 10 PR R 2802412 erg 1 10w 1 108 BUFF RN CP 106107 RN CP RN CP RN CP I
267. ground of the hour is displayed in cyan ON OFF TIMER ON ON TIME 16 30 SELECT S E T ENTER E N D MENU 5 Set the hour with Y and press ENTER The setting for the hour is entered and the backeround of the minute is displayed in cyan 6 Set the minute with Y and press MENU The setting for the minute is entered and the menu returns to the ON OFF TIMER menu T Similarly set the OFF TIME The ON indicator flashes when the OFF TIME is reached and the monitor turns off The power saving function does not work when the signal is input from the VIDEO connectors If the sync signal is not connected to the 13th pin of the RGB YUV D sub 15 pin connector in the INPUTI or INPUT2 connectors the monitor does not turn on even if the sync signal is input Be sure to set POWER SAVING to OFF when only an RGB signal is connected The power saving function on off timer function and power off function in the PIC INVERSION mode cannot be used simultaneously When one of those functions is set to ON YES appears next to the others and their functions are not available If you set ON TIME and OFF TIME to the same time the setting of ON TIME takes priority over that of OFF TIME The monitor does not turn off at the OFF TIME Self diagnosis Function The unit has a self diagnosis function This function displays the monitor s condition based on the pattern shown by the flashing of th
268. hour when the image is to be reverse with A V and press ENTER The setting for the hour is entered and the background of the minute is displayed in cyan 4 Set the minute with A V and press MENU The setting for the minute is entered and the menu returns to the PIC INVERSION menu 5 Similarly set the time when the PIC INVERSION function is to be cancelled The display will be reversed at the START TIME and will return to the original display at the END TIME This cycle is carried out automatically once a day 32 To set the change to the standby mode at the END TIME 1 After selecting AUTO for PIC INVERSION mode select POWER OFF and press ENTER The following menu appears on the monitor screen PIC INVERSION AUTO POWER OFF NO SELECT S E T ENTER E N D MENU 2 Select YES with A V and press MENU The monitor changes to standby mode at the designated END TIME Notes The power off function power saving function and on off timer function in the POWER CONTROL menu cannot be used simultaneously When one of those functions is set to ON YES appears next to the others and their functions are not available If you set START TIME and END TIME to the same time the setting of START TIME takes priority over that of END TIME The display does not return to the original display at the END TIME Changing the Display Position Automatically 1 In the SCREEN SAVER menu
269. i 2 P 1 880 074 11 i oe w 2 1 102 e R8210w 88208 R8208 wy 85 104 gt ec 5 E CH 8110 S 5 8115801110 wmm 8 1080 Kid 4107 SIS 3 5 Ks 6 esr 1088 nen LEE un sr EB 5 ILS 2 85 mu gt 4 K D E La eom 2 53 Kiem 5 121009 lt 4 P 8 1 L 128 8 16 8 LIIS z Cam S Im ian g S CZ0ARAVISA A rale a ei TL F ANE 5 06 a S 2 Si alt 2 8 45 oki sz 38 non ge i 5 0205 19 8 am le M 15 0055 8 3 2 y D wwe A 5 1052 d E Suz E 5 tii 5 34003 auer 1 cum 08810 5 al eun 2 ze 8 tor 3 A 5 I s s gal e eo TPIS GND 161038 2 5 E 14022 ees 34 5 C1050 14108 2 1 8 18 BE 408 Mons 101013 2 C4071 gaman a Mn N TE 84058 CS AA 12 TN E 5 oe En 5 a 5 ls em E FL4007 9 Bes wa 101010 m gt T se ins me 811011 z mum z ss 1 oe dna 4064 Hi ij 11062 i en FL4008 FL4008 8 1010 3 SS v TP E Pi rEg s n E EE DES u A m 7 P Send Z Te SC L E 527 0102 610
270. ific Monitor With the Remote Commander on page 35 GB SELECT button Press to move the cursor to an item or to adjust a value in a menu MENU button Press to make the menu appear When the menu is displayed on the monitor screen press to return to the previous menu level To clear the menu display press this button repeatedly until the menu disappears D ENTER button Press to select the desired item in a menu BRIGHT 4 button Adjusts the brightness 6 CONTRAST button Adjusts the contrast Installing batteries Insert two size AA R6 batteries in correct polarity Be sure to install the negative O end first n normal operation batteries will last up to half a year If the Remote Commander does not operate properly the batteries might be exhausted sooner Replace them with new ones To avoid damage from possible battery leakage remove the batteries if you do not plan to use the Remote Commander for a fairly long time When the Remote Commander does not work Check that the STANDBY indicator lights up and the REMOTE MODE in the REMOTE menu is not set to OFF The Remote Commander operates the monitor only when both of the two conditions below are met The monitor is turned on or it is in the standby mode The REMOTE MODE in the REMOTE menu is set to TV or to PJ For details about the REMOTE MODE see REMOTE menu on page 16 GB Location an
271. ion checks upon completion of adjustments are going to be made This is the menu that is used for electrical adjustments This section of this manual describes how to use the SERVICE MENU This menu is used in production factory Do not make any attempts to use this menu and do not make any operations using this menu O SERVICE MENU MANUAL MENU SERVICE MENU EEPROM RESET Initialization of EEPROM WHITE BALANCE Gain adjustment of digital gamma circuit ADC CALIBRATION Calibration of A D converter VIDEO PROCESSOR Level adjustment of video processor circuit SPECIAL FUNCTION Setting the special functions PRESET EDIT Editing the preset signals MAINTENANCE Setting the data that are unique to the particular machine STATUS TEST Internal status and function test How to enter the Service Mode using the RM 42B In the STAND BY state press the keys in the following order DISPLAY 5 BRT gt ON PFM 42B1 PFM 42B1E How to enter the Service Mode using the commanders other than RM 42B In the STAND BY state press the keys in the following order DISPLAY 5 gt VOL gt POWER How to exit the Service Mode Press the ON key once and back on to enter the STAND BY state or turn off the main power to exit the Service Mode Operation of remote commander in the Service Mode The four keys of MENU ENTER SELECT and SE L
272. is selected as the source data the message DIRECT appears When the signal that is already stored in the preset area is selected as the source data the message TABLE appears Note The editing items that can be editing here are different in the DIRECT mode and the TABLE mode Refer to the next sub section b DATA EDIT for the editing items When DIRECT mode is used for editing gt The DIRECT mode is used when editing is performed while watching the picture on screen in the case that the specifications of the signal are not known When DIRECT mode is selected select the desired adjustment item referring to the next sub section b DATA EDIT by pressing the keys Press the EN TER key Then the result of data adjustment is reflected on the display screen Pressing the MENU key returns to the previous menu display However the three adjustment items H FREQUENCY V FREQUENCY and SYNC POL cannot be changed by the menu operation When TABLE mode is used for editing gt The TABLE mode is used when the specifications of the signal to edit are already known adjustment items adjusted by the menu but result of adjustment is not reflected on the actual picture Data can be edited only PFM 42B1 PFM 42B1E b DATA EDIT Menu Structure The following items of the source data that is copied to the Editing RAM can be modified as described below DATA EDIT gt INPUT SELECT INPUT SELECT2
273. k P S BLOCK LOW Lower left side of the power supply block P S BLOCK LOW R Lower right side of the power supply block DD CON SIDE Lower left side I O BLOCK SIDE Lower right side e OTHERS OTHERS EEPROM ID OK EEPROM SAVE OK EEPROM LOAD OK EEPROM ACK OK PW164 ACK OK RTC INITIALIZE RTC BATTERY OK RTC XTAL OK EEP ROM ID ID code error EEP ROM SAVE write error EEP ROM LOAD Data read error EEP ROM ACK Defective PW164 ACK Communication error with scan converter RTC INITIALIZE Time data initializatioin due to abnormal register value RTC BATTTERY Low backup voltage warning RTC XTAL Warning due to stoppage of PFM 42B1 PFM 42B1E crystal oscillator for watch When the FAN DRIVE is changed from AUTO to MANUAL and ENTER is pressed the DRIVE DATA indication changes to cyan In this setup the drive register value can be manually modified When the drive register value is changed the pulse width of the PWM signal in the fan voltage control PWM circuit is changed accordingly Fans can be checked whether they operate normally or not by comparing the register value and the actual drive voltage and by comparing the actual drive voltage and the actual operations of the fans Variable range of the drive register value 00000 to 16383 Blue only When Blue only is selected all of the R G and B colors become the blue data 3 13 Table 1 EEPROM Config
274. ly circuit One fan in the I O block 8 Detection of temperature rise in the power supply block 9 Shut down when the 5 V for internal digital circuit has abnormality 10 Detection of failure of the EEPROM 11 Detection of abnormality in communication with scan converter 12 Detection of failure in the ON OFF control of power supply 13 Detection of decreased backup power supply voltage for watch and detection of abnormality in oscillator 14 Detection of PDP failure using the combination of the voltage detection and shut down of the machine 4 2 1 4 2 2 Criteria for Judgment of Abnormality Increase and decrease of the panel DC voltage Vs is detected Name of this function on the service menu POWER SUPPLY PDP VS The normal operating range is 160 V 24 V 22 V Warning of increase of the voltage Vs when 184 V or more Warning of decrease of the voltage Vs when 138 V or less Increase and decrease of the panel DC voltage Va is detected Name of this function on the service menu POWER SUPPLY PDP VA The normal operating range is 60 V 15 V 14 V Warning of increase of the voltage Va when 75 V or more Warning of decrease of the voltage Va when 46 V or less Increase of temperature at the top of the I O block in the top of the panel is detected and shut down of the machine Name of this function on the service menu TEMPERATURE I O BLOCK TOP The normal operating range is up to 7
275. n the rear Record the model and serial numbers in the spaces provided below Refer to these numbers whenever you call upon your Sony dealer regarding this product Model No Serial No To prevent fire or shock hazard do not expose the unit to rain or moisture To avoid electrical shock do not open the cabinet Refer servicing to gualified personnel only For the customers in the U S A If you have any guestions about this product you may call Sony s Business Information Center BIC at 1 800 686 SONY 7669 or Write to Sony Customer Information Services Center 6900 29 Daniels Parkway PMB 330 Fort Myers Florida 33912 Declaration of Conformity Trade Name SONY Model PFM 42B1 Responsible Party Sony Electronics Inc Address 1 Sony Drive Park Ridge NJ 07656 U S A Telephone Number 201 930 6972 This device complies with Part 15 of the FCC Rules Operation is subject to the following two conditions 1 This device may not cause harmful interference and 2 this device must accept any interference received including interference that may cause undesired operation This eguipment has been tested and found to comply with the limits for a Class B digital device pursuant to Part 15 of the FCC Rules These limits are designed to provide reasonable protection against harmful interference in a residential installation This eguipment generates uses and can radiate radio freguency energy and if not ins
276. ng menu appears on the monitor screen PIXEL ADJUST AUTO DOT PHASE 50 TOTAL H PIXEL 800 RESET SELECTEG S E T ENTER EN D 27 cB 3192 182 0144 Sil Adjusting the Pixels Using the Memory Function 4 You can adjust the dot phase and the total number of horizontal pixels automatically or manually Adjusting automatically 1 Select AUTO with A V and press ENTER The following menu appears on the monitor screen PIXEL ADJUST AUTO NO SELECT S E T ENTER END MENU 2 Select YES with A V and press ENTER The dot phase and the total number of horizontal pixels are adjusted automatically Adjusting manually 1 Select DOT PHASE or TOTAL H PIXEL with A V and press ENTER The following menu appears on the monitor screen The illustration below is for selecting DOT PHASE DOT PHASE 50 2 Adjust the dot phase or the total number of horizontal pixels with A V and press ENTER Using the Memory Function You can save the current picture setting for each input signal using the MEMORY function The saved settings can be restored whenever necessary The items in the PIC CONTROL and PIC SIZE menus can be memorized You can save the picture settings of up to twenty input signals You can name the settings of the items up to 10 characters in length Storing the Current Setting 1 Press MENU The main menu appears on the monitor screen M
277. ngs in the PIC CONTROL menu items 1 to 7 For details on using the reset function see Restoring the PIC CONTROL Menu Items to Their Original Settings on page 23 GB PIC SIZE menu This menu is used for resizing and positioning the picture xx oooo e oooo SELECT S E T ENTER END MENU 9 H SIZE Adjusts the horizontal picture size Press A to enlarge the horizontal size and press V to diminish it 10 H SHIFT Adjusts the horizontal centering Press A to move the picture to the right and press V to move it to the left 11 V SIZE Adjusts the vertical picture size Press A to enlarge the vertical size and press V to diminish it 12 V SHIFT Adjusts the vertical centering Press A to move the picture up and press V to move it down 13 RESET Restores the factory settings in PIC SIZE menu items 9 to 12 For details on using the reset function see Restoring the Original Picture Size and Position on page 25 GB Using On screen Menus 14 ASPECT Changes the aspect ratio of the picture For details see Changing the Aspect Ratio on page 26 GB 15 ZOOM Enlarges the image in order to double x2 triple x3 and quadruple x4 When you set ASPECT to W ZOOM or LB ZOOM appears and you cannot set ZOOM to x2 x3 or x4
278. nnectors For the 42 1 composite video and Y C input can be input to the monitor when the BKM 10 video input adaptor not supplied is installed in the monitor COMPOSITE IN BNC type Connects to the composite video signal output of a piece of video equipment COMPOSITE OUT BNC type Connects to the composite video signal input of a piece of video equipment Y C IN Mini DIN 4 pin Connects to the Y C signal output of a piece of video equipment AUDIO IN Stereo minijack Inputs an audio signal Connects to the audio output of a piece of video equipment 9 9 1 3L8ev WAd LAZv Nad Location and Function of Parts and Controls Remote Commander RM 42B DISPLAY VIDEO OPTION SMIDEO SONY RM 428 POWER ON switch Press to turn on the monitor DISPLAY button Displays the input signal information and the time at the top of the monitor screen Press again to clear it INPUTI button Selects the signal input from the INPUTI connectors O INPUT2 button Selects the signal input from the INPUT2 connectors VIDEO button Selects the signal input from the COMPOSITE IN connector or Y C IN connector from among the VIDEO connectors Q OPTION button Selects the signal input from the optional adaptor when you install it in the unit Q ASPECT button Changes the aspect ratio of the picture
279. ns 1 Press MENU The main menu appears on the monitor screen MAIN MENU INPUT SELECT PIC CONTROL PIC SIZE CONFIG MEMORY REMOTE STATUS SELECT SET ENTER E ND MENU 2 Press A V to move the cursor to CONFIG and press ENTER The CONFIG 1 2 menu appears on the monitor screen CONFIG 1 2 DISPLAY 2 ON W VGA CLOSED CAPTION OFF COLOR SYSTEM AUTO SCREEN FILL CENTER POWER CONTROL SCREEN SAVER SELECT S E T ENTER E N D MENU Press V to move the cursor to CLOSED CAPTION and press ENTER The following menu appears on the monitor screen CLOSED CAPTION OFF Watching the Picture 4 Select the caption type with A V OFF The caption is not displayed Displays caption over the picture CAPT2 Displays caption2 over the picture Displays caption against a black background TEXT2 Displays caption2 against a black background 5 Press MENU The menu returns to the CONFIG 1 2 menu Adjusting the time 1 In the CONFIG 2 2 menu press A V to move the cursor amp to TIME SET and press ENTER The following menu appears on the monitor screen TIME SET 00 00 00 SELECT S E T ENTER E N D MENU 2 Press ENTER The background of the hour is displayed in cyan 3 Adjust the hour with A V and press ENTER The setting for the hour is entered and the backgr
280. of sync signal Status of sync signal is displayed in cyan STABLE Sync signal is stable INSECURE Sync signal is unstable NO SYNC Sync signal does not exist 3 12 POWER SUPPLY PDP VS HV 160 PDP drive voltage VS PDP VA MV 060 PDP drive voltage VA DIGITAL 5V EN leen 5 V power for digital circuitry The main DC power voltages of the PFM 42B are displayed PDP drive voltage VS High voltage power to PDP is displayed PDP drive voltage VA Medium voltage power to PDP is displayed 5 V power for digital circuitry Internal 5 V power is displayed c TEMPERATURE SIGNAL SYNC FREQUENCY 31 47 kHz 1 Horizontal frequency V FREQUENCY 60 00 Hz Vertical frequency FORMAT 640 x 480 60 1 Specifications of SYNC POL NEGA NEGA 1 the signal STABLE Polarity of sync signal TEMPERATURE INSECURE Status of sync signal PANEL BACK SIDE NO SYNG BLOCK TOP 44 CENTER 55 DD CON TOP 48 PANEL SIDE 82 C P S INTERNAL OK Internal temperature information of PFM 42B1 B1E is displayed Temperature at the top on the rear of the panel Temperatures upper side of the rear panel are dis played as follows I OBLOCK SIDE Temperature at the input output terminal board CENTER Center temperature PANEL SIDE Left side of the set DD CON TOP Temperatu
281. oltage 3 7 9 VS OCP Set the load on each output to the minimum Apply 100 V AC Turn the STBY signal ON short between pin 1 and pin 2 and also the VRR signal ON short be tween CN4 pin 7 and CN7 pin 2 Apply 0 V DC to the VRS CN4 pin 3 Use CN4 pin 4 as GND Connect a voltmeter to the VS output between CN5 pin 2 and pin 6 Set the load on VS output to 3 8 A and rotate the RV401 until the output voltage varies Note Be careful not to turn excssively because power can not be obtained 3 28 3 7 10 VA Adjustment 1 Open the load on VS and VA outputs and set the load on the other outputs to the minimum 2 Apply 100 V AC 3 Turn the STBY signal ON short between CN7 pin 1 and pin 2 and also the VRR signal ON short be tween CN4 7 and 7 pin 2 4 Apply 0 V DC to the VRA CN4 pin 5 Use CN4 pin 6 as GND 5 Adjust the RV602 so that the voltage of VA output between CN5 5 and pin 1 is about 49 V 6 Adjust the RV600 so that the voltage satisfies 49 2 V 7 Adjust the RV602 so that the voltage satisfies 50 0 1 V 8 Apply 2 V DC to 9 Check that the voltage satisfies 70 0 3 V If the measured value is out of the range repeat the above steps from 4 where in step 6 shift the adjustment value a little then check the voltage Note As the output voltage varies according to the voltage applied to the VRA do not shift the applied voltage 2 V DC
282. ontrast brightness chroma phase and so on to suit your taste The adjustments can be carried out for each input signal separately You can also store the adjusted levels in memory Adjusting the Contrast Brightness Chroma and Phase etc Press MENU so that the main menu appears on the monitor screen and select CONTRAST BRIGHTNESS CHROMA PHASE PICTURE AGC COLOR TEMP or SHARPNESS from the PIC CONTROL menu with A V CONTRAST Select CONTRAST with A V and press ENTER Adjust the contrast with A V in the range from MIN 0 to MAX 100 to increase picture contrast V to decrease picture contrast BRIGHTNESS Select BRIGHTNESS with A V and press ENTER Adjust the brightness with A V in the range from MIN 50 to MAX 50 to make the picture brighter to make the picture darker CHROMA Select with A V and press ENTER Adjust the chroma with A V in the range from MIN 50 to MAX 50 to increase color intensity to decrease color intensity 22 PHASE Select PHASE with A V and press ENTER Adjust the phase with A V in the range from MIN 50 to MAX 50 A to make the overall picture greenish V to make the overall picture purplish Automatic brightness control Enhancing the image contrast If the average brightness of the image is low the system can automatically
283. or storage of up to twenty picture settings ID control Self diagnosis function Remote RS 232C connector D sub 9 pin Accepts infrared Sony Remote Commanders using SIRCS code Vertical setup Closed caption decoder Screen saver to reduce afterimage or ghosting Warning on power connection Use the proper power cord for your local power supply United States Continental United Kingdom Ireland Japan Canada Europe Australia New Zealand Plug type VM0233 07 636 a VM1296 Female end VM0089 02 VM0310B VM0303B VM1313 Cord type SVT CEE 13 53rd O C HVCTF Minimum cord set rating 10A 125V 10A 250V 10A 250V 10A 125V Safety approval UL CSA VDE VDE DENTORI Note Use an appropriate rating plug which is applied to local regulations regi red trademark of the Microsoft Corporation U S A and other countri Location and Function of Parts and Controls Front Rear Right Side Front The shaded areas shown in the illustration above are all ventilation holes Right side Location and Function of Parts and Controls o O standby switch indicator section For details on the standby switch indicator section see standby Switch Indicator Section on page 8 GB O Control button section For details on the
284. ote When sufficient adjustment accuracy cannot be obtained by the automatic calibration perform basically the manual calibration using the following ADC CALIBRATION menu items b CAL MODE The A D converter has the calibration mode as its oper ating mode as follows The A D converter has the R G B GAIN adjust ments and the R G B BIAS adjustments The GAIN adjustments of the A D converter are used for CONTRAST adjustment in the machine The R G B BIAS adjustments of the A D converter are used for BRIGHTNESS adjustment in the machine CAL OFF Standard display state The R G B GAIN values and the R G B BIAS values are controlled by the CONTRAST BRIGHT data of the user menu The R G B GAIN values and the R G B BIAS values of this menu cannot be adjusted independently CAL MODE OFF Calibration mode The R G B GAIN values and the R G B BIAS values of this menu can be adjusted independently The R G B data that appear in the most bottom part of the menu in cyan change from the indication to the indi cation of any digital output data of the A D converter c RED GAIN GREEN GAIN BLUE GAIN The respective R G B GAIN values can be adjusted independently The range of adjustment is from 000 to 255 d RED BIAS GREEN BIAS BLUE BIAS The respective R G B BIAS values can be adjusted independently The range of adjustment is from 000 to 255 A D Calibration Adjustment Refer to s
285. ound of the minute is displayed in cyan 4 Similarly adjust the minute and press ENTER The setting for the minute is entered and the second is reset to 00 To display the time Press the DISPLAY button on the Remote Commander The time is displayed in the upper right corner of the monitor 19 3192 182 0144 LE Watching the Picture Input Signal and Monitor Status Information Display Input signal and monitor status information is displayed on the monitor screen for about five seconds when the power is turned on or when switching the input signal To disable this function follow the steps below 1 In the CONFIG 1 2 menu press V to move the cursor to DISPLAY and press ENTER The following menu appears on the monitor screen DISPLAY ON 2 Press A V to set DISPLAY to OFF and press ENTER The DISPLAY function is disabled To display the information Set DISPLAY to ON in step 2 above The factory default is ON You can display the input signal information and the time anytime by pressing the DISPLAY button on the Remote Commander regardless of the above setting The input signal information list Color system or horizontal vertical frequency Signal type Time Hz 16 30 49 20 Preset input signals Signal name Color system or horizontal vertical frequency Computer signals
286. p H vuv 65 69 i 69 4 8Vp p H 4 4Vp p 3 6MHz 3 3Vp p H 4 8Vp p H 700mVp p H 4 9Vp p H 6 vuv LINE 09 vuv 69 vuv YUV 69 v c 880mVp p H 960mVp p H 3 3Vp p H 740mVp p H 700mVp p 4 9Vp p V 7 vuv GD LINE 62 vuv 6 ES 02 vuv 62 vic 600mVp p H 560mVp p H 800mVp p H 700mVp p H 840mVp p H 4 2Vp p V YUV LINE YUV 68 vuv 09 yuv Y C Cd Dg 740mVp p H 500mVp p H 760mVp p H 1 2Vp p H 2 2Vp p V 1 3Vp p H 9 LINE 09 vuv 69 vuv YUV 69 v c 580mVp p H 4 7Vp p 14 285 2 600mVp p 980mVp p H 3 3Vp p H 800mVp p H 00 SECAM 69 vuv YUV 69 vuv 800mVp p 1Vp p 2H 640mVp p H 1 2Vp p H 4 6Vp p 13 3MHz 680mVp p H 8 23 8 23 11 080 089 1 EH v 198 jai DICH s 8 01831 1 B SIDE D6101 D6102 D6103 D6104 1 1 N C ND CO IC6016 IC6017 6102 6103 6104 6401 6402 1 1 tu m tu Q UJ D WWENNEE 1 1 06101 06102 06103 06104 06105 06106 06107 06108 06109 06110 06111 06112 06113 06114 06200 06201 06401 06402 06403 06404 06405 06406 06407 06408 06409 06410 06411 06412 06413 06414 06415 06416 06417 06418 06419 06420 06421 1 1 1 1 1 1 1 Hee XX XXX X XX HK KK V od 1 UJ J D UJ DS Ds gt gt gt
287. pparaat bij einde levensduur afdankt Gooi de batterij niet weg maar lever hem in als KCA Bij dit product zijn batterijen geleverd Wanneer deze leeg zijn moet u ze niet weggooien maar inleveren als KCA For the customers in the Netherlands Voor de klanten in Nederland Bij dit product zijn batterijen geleverd Wanneer deze leeg zijn moet ze niet N 4 weggooien maar inleveren als KCA 22 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 langerer 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 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 unsachgemaBem Austausch der Batterie Ersatz nur durch denselben oder einen vom Hersteller empfohlenen ahnlichen Typ Entsorgung gebrauchter Batterien nach Angaben des Herstellers ATTENTION Il y a danger d explosion s il y a remplacement incorrect de la batterie Remplacer uniquement avec une batterie du
288. rate using the 0 9 buttons on the Remote Commander The input number appears right next to the index number of each monitor Input number INDEX No 117 117 9000 3 Press ID MODE SET The character on the selected monitor changes to cyan while the others change to red SET ON You can operate only the monitor specified All operations are available in ID mode except power on off 4 After the necessary adjustment press ID MODE OFF The monitor returns to the normal mode OFF SET ON 36 To change the index number You can change the index number if necessary When you change the number use the buttons on the control button section of the monitor 1 Press MENU The main menu appears on the monitor screen vz omzovv gt zzzoovz c omxo o m Nzoz mame mr ro 4 BEER SELECT Using Other Remote Commander Models The following operations can be carried out using other Remote Commander models Power on off Input selection Menu operations Picture adjustments contrast phase and chroma On screen display on off S E T ENTER END MENU 2 Press A V to move the cursor to REMOTE and press ENTER The REMOTE menu appears on the monitor screen SELECT S E T ENTER END MENU 3 Press A V to move the cursor to INDEX and pre
289. re at the DC DC converter Power supply internal temperature information Temperature status inside the power supply block is displayed The message OK appears when tempera ture is normal The message NG appears when temperature is abnormal PFM 42B1 PFM 42B1E d FAN FAN DRIVE CIRCUIT B BOARD P S BLOCK TOP P S BLOCK MID P S BLOCK LOW L PIS BLOCK LOW DD CON SIDE O BLOCK SIDE OK OK OK OK OK OK OK OK Fan drive circuit Indicates the operating status of the fan control circuit OK appears when the fan control circuit is operating normally NG appears when the fan control circuit is defective f SOFTWARE VERSION SOFTWARE VERSION MAIN CPU Ver 1 00 System controller SCAN CONVERTER Ver 1 00 F Scan converter Version of each software is displayed System controller Version of the main microprocessor is displayed Scan converter Version of the scan converter IC207 is displayed g TEST FUNCTION TEST FUNCTION FAN DRIVE Fan operation BLUE ONLY Check only Blue only This is the test function Fan operation check only FAN DRIVE AUTO DRIVE DATA 10783 r Drive register data DRIVE VOLTAGE 08 9 V Actual drive voltage P S BLOCK TOP Power supply block P S BLOCK MID Left side of the power supply bloc
290. rked with the letter E or by the safety earth symbol or coloured green or green and yellow The wire which is coloured blue must be connected to the terminal which is marked with the letter N or coloured black The wire which is coloured brown must be connected to the terminal which is marked with the letter L or coloured red Voor de klanten in Nederland Dit apparaat bevat een Li ion batterij voor clock back up De batterij voor clock back up is vastgesoldeerd op de B printplaat BAT500 Raadpleeg uw leverancier over de verwijdering van de batterij op het moment dat u het apparaat bij einde levensduur afdankt Gooi de batterij niet weg maar lever hem in als KCA Table of Contents The socket outlet should be installed near the equipment and be easily accessible 5 Features 6 Location and Function of Parts and Controls 7 GB Front Rear Right Side z 1 standby Switch Indicator Section 8 GB Control Button Section Rear 8 GB ConneGtor PA I k a ret yu a aaa 9 GB Remote Commander RM 42B 0 GB 11 GB Connections aaa ananasa 12 GB Connecting the AC Power Cord 2 GB Connection Example
291. ss ENTER The following menu appears on the monitor screen INDEX No 001 4 Select the index number with A V and press ENTER The menu returns to the REMOTE menu Using Other Remote Commander Models The operations available and the buttons to be used for each operation are limited depending on each Remote Commander See the table below Remote Commander model RM 854 RM 921 RM 1271 RM PJ1292 RM PJ1000 REMOTE MODE setting TV TV PJ PJ PJ Input selection INPUT1 RGB RGB1 A A A INPUT2 RGB2 B B B VIDEO LINE1 LINE VIDEO VIDEO VIDEO Menu operation MENU MENU MENU PAGE or 4 PAGE or lt MENU or lt ENTER ENTER ENTER ENTER or gt A SELECT t t t Y SELECT Y Picture adjustment Contrast CONTRAST CONTR CONTR Chroma CHROMA ad COLOR COLOR COLOR Phase PHASE e HUE HUES On screen information DISPLAY DISPLAY STATUS ON STATUS ON 37 02 1 3192 LAZv Nad Specifications Specifications Video processing Preset signal See page 21 GB Sampling rate 13 5 MHz to 140 MHz Panel system AC type Plasma Display Panel Display resolution 1 024 dots horizontal x 1 024 lines vertical Pixel pitch 0 90 horizontal x 0 51 vertical mm inches Picture size 921 horizontal x 522 vertical mm 36 x 20 inches Panel size 4
292. subject to direct sunlight excessive dust mechanical vibration or shock When you install multiple equipment with the unit the following problems such as malfunction of the Remote Commander noisy picture noisy sound may occur depending on the position of the unit and other equipment On the PDP Plasma Display Panel There may be some tiny black points and or bright points on the PDP These points are normal Do not display the same still image on the screen for a long time Otherwise an afterimage or ghost may appear on a part of the panel Use the screen saver function to equalize use of the screen display On cleaning To keep the unit looking brand new periodically clean it with a mild detergent solution Never use strong solvents such as thinner or benzine or abrasive cleansers since these will damage the cabinet As a safety precaution unplug the unit before cleaning it Precautions On repacking Do not throw away the carton and packing materials They make an ideal container in which to transport the unit When shipping the unit to another location repack it as illustrated on the carton If you have any questions about this unit contact your authorized Sony dealer 5 vt LAZv Nad Features Features The PFM 42B I 42B E series are 16 9 42 inch flat panel monitors utilizing a PDP Plasma Display Panel which can accept various types of signals with the built in s
293. t o gt gt gt 6 17 B BOARD B BOARD Ref No Ref No or Q ty Part No SP Description or Q ty Part No SP Description R444 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R555 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R445 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R556 216 073 00 s RESISTOR CHIP 10W 2012 R446 216 643 11 s RESISTOR CHIP 470 1 10W 2012 R557 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R447 216 651 11 s RESISTOR CHIP 1K 1 10W 2012 R558 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R448 216 045 00 s RESISTOR CHIP 680 1 10W 2012 R559 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R449 216 663 11 s RESISTOR CHIP 3 3K 1 10W 2012 R560 216 025 00 s RESISTOR CHIP 10W 2012 R450 216 691 11 s RESISTOR CHIP 47K 1 10W 2012 R561 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R451 216 695 11 s RESISTOR CHIP 68K 1 10W 2012 R562 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R452 216 697 91 s RESISTOR CHIP 82K 1 10W R563 216 634 11 s RESISTOR CHIP 2 10W 2012 R453 216 295 00 s CONDUCTOR CHIP 2012 R564 216 662 11 s RESISTOR CHIP 3K 1 10W 2012 R456 216 295 00 s CONDUCTOR CHIP 2012 R565 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R501 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R566 216 025 00 s RESISTOR CHIP 100 1 10W 2012 R502 216 001 00 s RESISTOR CHIP 10W 2
294. t 1 Set the load on each output to the minimum Apply 100 V AC 3 Turn the STBY signal ON short between pin 1 and pin 2 4 Adjust the RV300 so that the voltage across C115 is 385 2 V 3 7 6 5 V Adjustment 1 Set the load on each output to the minimum Apply 100 V AC 3 Adjust the RV201 so that the voltage of STBY 5 V output between pin 2 and pin 6 is 5 12 0 03 V 3 7 7 13 5 V Adjustment 1 Set the load on each output to the minimum Apply 100 V AC 3 Turn the STBY signal ON short between pin 1 and pin 2 4 Adjust the RV250 so that the voltage of 13 5 V output between CN7 pin 12 and pin 11 satisfies 13 7 0 05 V 3 27 3 7 8 VS Adjustment Open the load on VS and VA outputs and set the load on the other outputs to the minimum Apply 100 V AC Turn the STBY signal ON short between pin 1 and pin 2 and also the VRR signal ON short be tween CN4 pin 7 and CN7 pin 2 Apply 0 V DC to the VRS CN4 pin 3 Use CN4 pin 4 as GND Adjust the RV402 so that the voltage of VS output between CN5 pin 2 and pin 6 is about 149 V Adjust the RV400 so that the voltage satisfies 149 2 V Adjust the RV402 so that the voltage satisfies 150 0 1 V Apply 2 V DC to the VRS Check that the voltage satisfies 170 0 3 V If the measured value is out of the range repeat the above steps from 4 where in step 6 shift the adjustment value a little then check the v
295. t No R4007 216 061 R4008 216 053 R4009 216 049 11 R4010 216 651 11 R4011 216 075 R4012 216 063 91 R4013 216 061 R4014 216 081 R4015 216 053 R4016 216 085 R4017 216 001 R4018 216 049 11 R4019 216 069 R4020 216 065 91 R4021 216 049 11 R4022 216 648 11 R4023 216 636 11 R4024 216 073 00 R4025 216 057 00 R4026 216 001 00 R4027 216 049 1 R4028 216 049 1 R4029 216 077 00 R4030 216 651 1 R4031 216 063 9 R4032 216 065 9 R4033 216 073 00 R4034 216 049 1 R4035 216 063 9 R4036 216 053 00 R4037 216 049 1 R4038 216 049 1 R4039 216 105 9 R4040 216 097 00 R4041 216 065 9 R4042 216 081 00 R4043 216 049 R4044 216 049 R4045 216 049 R4046 216 049 R4047 216 063 9 R4048 216 650 R4049 216 626 R4050 216 057 00 R4051 216 049 R4052 216 049 R4053 216 624 R4054 216 073 R4055 216 083 R4056 216 073 R4057 216 065 91 R4058 216 073 R4059 216 053 R4060 216 073 R4061 216 073 R4062 216 073 R4063 216 636 11 R4064 216 059 R4065 216 051 R4066 216 664 11 6 22 SP XQ cn cn XQ cn XQ XQ XQ cn cn cn cn XQ 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
296. tage waveform at pin 14 of IC1003 on the B board with an oscilloscope Confirm that amplitude of the signal portion excluding the sync signal is in the range of 600 mV 5 If the video signal excluding sync is outside the specifications adjust the video signal level using the Y GAIN 4 Measure the voltage waveform at pin 15 of IC1003 with an oscilloscope Confirm that the R Y signal has the following amplitude 580 mV t 5 If the R Y signal is outside the specifications adjust the R Y signal level using the R Y GAIN 5 Measure the voltage waveform at pin 4 of IC1003 with an oscilloscope Confirm that the B Y signal has the following amplitude 700 mV 5 If the B Y signal is outside the specifications adjust the B Y signal level using the B Y GAIN Cutoff Adjustment 1 Connect the Y signal of the 525 60 signal to the Y input only of the YUV input connector Select the gray scale signal 3 Observe the dark area of display screen Adjust R CUTOFF and B CUTOFF until the dark area has completely no color at all 3 26 3 6 Watch Error Adjustment Connect the jig circuit as shown in Fig b and a frequency counter to the B board CN18 Enter the measurement value on a frequency counter in the WATCH ERROR WATCH ERROR Jig Circuit 10kQ CN18 1 e 2 CLOCK 3 GND Frequency counter Fig b PFM 42B1 PFM 42B1E 3 7 Switching Regul
297. talled and used in accordance with the instructions may cause harmful interference to radio communications However there is no guarantee that interference will not occur in a particular installation If this equipment does cause harmful 2 cB interference to radio or television reception which can be determined by turning the equipment off and on the user is encouraged to try to correct the interference by one or more of the following measures Reorient or relocate the receiving antenna Increase the separation between the equipment and receiver Connect the equipment into an outlet on a circuit different from that to which the receiver is connected Consult the dealer or an experienced radio TV technician for help You are cautioned that any changes or modifications not expressly approved in this manual could void your authority to operate this equipment For the customers in Canada This class B digital apparatus complies with Canadian ICES 003 For PFM 42B1E users THIS APPARATUS MUST BE EARTHED IMPORTANT The wires in this mains lead are coloured in accordance with the following code Green and yellow Earth Blue Neutral Brown Live As the colours of the wires in the mains lead of this apparatus may not correspond with the coloured markings identifying the terminals in your plug proceed as follows The wire which is coloured green and yellow must be connected to the terminal in the plug which is ma
298. tuer d autres Pour toute r paration faire appel une personne 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 A AMARK ONTHE SCHEMATIC DIAGRAMS EXPLODED VIEWS AND INTHE 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 VITER TOUT RISQUE D LECTROCUTION PROVENANT D UN CH SSIS SOUS TENSION UN TRANSFORMATEUR D ISOLEMENT DOIT ETRE UTILIS LORS DE TOUT D PANNAGE LE CH SSIS DE CE R CEPTEUR EST DIRECTEMENT RACCORD L ALIMENTATION SECTEUR ATTENTION AUX COMPOSANTS RELATIFS LA S CURIT LES COMPOSANTS IDENTIFI S PAR UNE MAPQUE A SUR LES SCH MAS DE PRINCIPE LES VUES EXPLOS ES ET LES LISTES DE PIECES SONT D UNE IMPORTANCE CRITIQUE POUR LA S CURIT DU FONCTIONNEMENT NE LES REMPLACER QUE PAR DES COMPOSANTS SONY DONT LE NUMERO DE PIECE EST INDIQU DANS LE PR SENT MANUEL OU DANS DES SUPPL MENTS PUBLI S PAR SONY For the customers in the Netherlands Voor de klanten in Nederland Dit apparaat bevat een CR2025 batterij voor memory back up Raadpleeg uw leverancier over de verwijdering van de batterij op het moment dat het a
299. ture of color signals such as NTSC or PAL which may be input later Restoring the PIC CONTROL Menu Items to Their Original Settings 1 In the PIC CONTROL menu Press A V to move the cursor gt to RESET and press ENTER The following menu appears on the monitor Screen RESET 5 NO S E T ENTER EN D MENU 23 Adjusting the Picture Resizing and Positioning the Picture v m a E 2 Press A V 2 changes to YES U m RESET YES SELECT S E T ENTER E N D MENU 3 Press ENTER The PIC CONTROL menu items are restored To cancel the reset function Press MENU before pressing ENTER Resizing and Positioning the Picture You can shift the position of the picture so that it fits the screen or adjust the vertical and horizontal size of the picture separately Resizing the Picture 1 Press MENU The main menu appears on the monitor screen MALN MENU INPUT SELECT PIC CONTROL PIC SIZE CONFIG MEMORY REMOTE STATUS SELECT amp amp W S E T ENTER EN D MENU 24 cB 2 Press A V to move the cursor to PIC SIZE and press ENTER The PIC SIZE menu appears on the monitor screen PIC SIZE H SIZE 00 H SHIFT 00 V SIZE 00 V SHIFT 00 RESET ASPECT 4x3 ZOOM xi PIXEL ADJUST SELECT S E T ENTER E N D MENU Press A V to move the cursor gt to
300. u appears on the monitor screen ASPECT 4X8 2 Select an aspect ratio item with A V and press ENTER 4x3 to display a standard 4 3 image 16x9 to display a 16 9 widescreen image W ZOOM to enlarge a 4 3 image to a 16 9 screen naturally as illustrated below LB letterbox ZOOM to enlarge images in various aspect ratios to fit proportionally to the left and right sides of the screen as illustrated below Setting ASPECT to W ZOOM and both linearities to The 4 3 standard image standard 00 5 4 Widescreen image such as CinemaScope VistaVision Setting ASPECT to LB etc ZOOM Notes If you select W ZOOM or LB ZOOM it is recommended that you set the H SIZE H SHIFT V SIZE and V SHIFT to the standard 00 If you change them too much a W ZOOM or LB ZOOM display may be distorted Before you select W ZOOM or LB ZOOM set ZOOM to 1 If ZOOM is set to x2 x3 or x4 W ZOOM or LB ZOOM cannot be selected Black bands may display at the top and bottom of the screen depending on the input signal type Adjusting the Linearities When you select W ZOOM for ASPECT you can change the linearities by adjusting the H LINEARITY and V LINEARITY settings 1 In the ASPECT menu press A V to move the cursor gt to ZOOM and press ENTER The following menu appears on the monitor screen ASPECT W ZOOM Kn LINEARITY 00 V LINEARITY 00 RESET SELECT S E T ENTER
301. u item cannot be modified in the DIRECT mode because the DIRECT mode can edit the signal that is being inputted at present 6 TOTAL H PIXEL The total number of dots in a horizontal period is set The number of dots that is set here becomes the initial value of the user menu TOTAL PIXEL Note Set the total number of dots to satisfy the following conditions TOTAL H PIXEL Z LEFT EDGE RESOLUTION PFM 42B1 PFM 42B1E 7 LEFT EDGE The horizontal sync width in dots horizontal back porch width in dots are set 8 H RESOLUTION Horizontal resolution power is set Note When 1280 or more is set to the horizontal resolution picture may not be displayed normally on screen When a signal that has the higher resolution than the SXGA signal is going to be preset reduce the number of horizontal resolution by skipping or any other means down to 1280 or less 9 TOP EDGE The vertical sync width in lines vertical back porch width in lines are set Note Set the TOP EDGE value to satisfy the following conditions TOP EDGE V RESOLUTION lt horizontal frequency vertical frequency 10 V RESOLUTION The vertical resolution is set Note Set the V RESOLUTION value to satisfy the following conditions TOP EDGE V RESOLUTION lt horizontal frequency vertical frequency 11 DOT PHASE Pulse phase of the horizontal sampling frequency is set The pulse phase that is set here becomes the initial value
302. unication with scan converter cannot be performed normally PW164ACK Detection of failure in the ON OFF control of power supply Name of this function on the service menu Nil When the digital 5 V power does not decrease even in the STBY state the machine enters the POWER ON state automatically Detection of decreased voltage of the backup power supply for watch and detection of abnormality of oscillator Name of this function on the service menu OTHERS Normal abnormal is detected from the register value inside the watch IC Initialization of time due to abnormal register value RTC INITIALIZE Warning of low voltage of backup power supply RTC BATTERY Warning that crystal oscillator for watch has stopped RTC XTAL Detection of PDP failure Name of this function on the service menu Nil PDP is suspected to be defective when DIGITAL 5 V is normal among the voltages VS VA DIGITAL 5 V required to drive PDP while both VS and VA are not inputted When all the following conditions are satisfied the machine enters once to the STANDBY mode then turn the main power back on again 1 DC 180 V power is 40 V or less 2 DC 70 V power is 20 V or less 3 DIGITAL 5 V is normal The above described operation is repeated three times If the above three conditions are still satisfied the PDP is judged to be faulty and the main power is shut down 4 3 24LC21A SN BA10358F E2 BA10358F T2 BA10393F E2 CXA1211
303. uration Data Configuration EEPROM ID CODE Standard Value Pass code for model ID Data Configuration ADC R OFFSET Standard Value POWER OFF ADC G OFFSET WIDE VGA OFF ADC B OFFSET DISPLAY ON COLOR TEMP RED GAIN HIGH CLOSED CAPTION OFF GREEN GAIN HIGH COLOR SYSTEM AUTO BLUE GAIN HIGH SCREEN FILL CENTER RED GAIN LOW POWER SAVING OFF GREEN GAIN LOW ON OFF TIMER OFF BLUE GAIN LOW POWER ON TIME 0 RED GAIN USER1 POWER OFF TIME 0 GREEN GAIN USER1 PICTURE INVERSION BLUE GAIN USER1 POWER OFF INVERT NO RED GAIN USER2 PICTURE ORBITING OFF GREEN GAIN USER2 ORBIT RANGE 5dot BLUE GAIN USER2 ORBIT CYCLE 10sec RED GAIN USER3 LANGUAGE ENGLISH GREEN GAIN USERS INDEX NUMBER 1 BLUE GAIN USERS REMOTE MODE TV RED GAIN USER4 REMOTE ONLY OFF GREEN GAIN USER4 MODEL NAME PFM 42B1 BLUE GAIN USER4 INPUT CHANNEL INPUT1 RGB RED GAIN USER5 OPERATION TIME 000000H GREEN GAIN USER5 SERIAL NUMBER 2000001 BLUE GAIN USER5 INPUT1 SW RGB RED GAIN USER6 INPUT2 SW RGB GREEN GAIN USER6 INPUT3 SW RGB BLUE GAIN USER6 VIDEO SW COMPOSITE NAME HIGH AUTO ASPECT ON NAME LOW G CUTOFF SW ON NAME USER1 AUTO P
304. verit 627 cos E SE pivot 69 1 38 die 2 pivo 29 soie z Go 91 5 Ty OE Gun 01007 H x n R1253 Cer 01006 2 Sc LT EE RD SUE ghe 01005 97 ima ABR aR ees 8 Ku CRCT 01004 z R1252 3 3k CHIP A C 01603 se LS PITT 9 propa O Sz m M243 chi rio 01001 ire CHIP 5 8 8 zJ2 2 z 5 nam A DICDO 314 1 I 01195 zk a VSI Tou 01241 902154 1295 1 01246 ni vos Wer Je Sal Lohe I ou vse TDO B CHIP ERES B CHIP B2 TMS 01242 81217 ee MD DO 101040 TDI dias EM 5V 4 B CHIP CXD20900 TCK 282412K T 146 220 339 REG n 0 DIY7 lt E Gi L1013 um Vu 01 6 7 em tri ME DIYS om a 0 1 25V B CHIP 1 83 avs3 DIYA E 01193 eH 0 1 25V B CHIP DIY3 lt Lu 1 gt ORDER DIY2 lt Yi 01238 NsEL pivi 47 Yo 16V hm LEVEL pivo 11 chip XCLH es 5 9 7 JL36 DIC7 Om R1284 0 GU EP nice DT a pics cie ZEN 0164 Ca s 06 1 8 0103 62 S z 38 0102 Di ad I 0161 ES JIM 5 4 DICO lt 5V 4
305. vz gt Ammo z zzzoovz om lt o O m Nzoz mame Dr SELECT S TENTER E N D MENU 2 Press V to move the cursor and press ENTER to select a menu The selected menu appears on the monitor screen 3 Press A V to move the cursor and press ENTER to select an item The menu for the selected item appears on the monitor screen 14 1 PIC CONTROL CONTRAST 80 2 BRIGHTNESS 00 3 CHROMA 00 PHASE 00 4 PICTURE AGC ON COLOR TEMP HIGH 5H SHARPNESS MID RESET 6H 7H mE SELECT S E TENTER E N D MENU 1 CONTRAST Press A to increase the contrast and press V to decrease it 2 BRIGHTNESS Press A to make the picture brighter and press V to make it darker 3j CHROMA Press A to increase color saturation and press V to decrease it 4 PHASE Press A to make the overall picture greenish and press Y to make it purplish 5 PICTURE AGC Select ON to automatically increase the brightness when a low brightness signal is input This function works only for VIDEO input or 15 kHz YUV input 6j COLOR TEMP Changes the color temperature For details see COLOR TEMP on page 22 GB 7 SHARPNESS Changes the outline correction level using the following three levels HIGH MID or LOW For details see SHARPNESS on page 23 GB 8 RESET Restores the factory setti
306. w PSW3 x 16 CEN S board 6 2 S board bracket Corner bracket B Three screws PSW4 16 Three S boards ZA A 09 Three S board brackets Cushion Wire for reference f f Note If two wires attached on the glass surface of plasma display panel be careful not to cut them PFM 42B1 PFM 42B1E 2 11 2 2 10 Plasma Display Panel Unit Removal 2 2 Remove the parts according to numbers 6 through Change toward of the DC DC converter as shown Attach the DC DC converter according to numbers 09 through 09 After that pack it according to the item 2 2 11 63 DC DC converter Two screws 4 PSW3 6 9 Spacer 4 e Dees Two supports DC DC bracket a beh Two screws PSW3 x 6 09 Two screws PSW3 x 6 Secure the screw that is removed in item 2 2 9 1 3 DC DC converter Four screws PSW3 x 6 Secure the screw that is removed items and 02 lt gt Two hooks ASS 2 21 Plasma display panel unit Cushion 2 12 PFM 42B1 PFM 42B1E 2 2 11 Plasma Display Panel Unit Packing When Sending it to FUJITSU 3 Eight screws M5 x 50 2 Lower pad B 2 Inner box Cap Eight spacers FPF11R KM6 1 Name Spacer for fixing bracket 100 unit Polyethlene sheet Silicagel Upper pad

PFM-42B1/42B1E Service Manual

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