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Philips 109b5

1. IM IN SEE SESE SE 0 0 OOO OOOD COLO P OP COOQLOLOXO UO st 0000 SECO EGO P E SE gt CO CV LOO D 9 I OOMSNANN D P LO E FANNA OOM OR gt 45 NNN FANN St SE 00 0000000 0 0 TL C T T TE T TE OTLTITIOCOCOTLJOOTL OL OOCOCOCOACWWAALNLLI OOLIONMMMAMMAM t manc OUO c O00 c gt gt c gt OO CDCOCOC XO c cn c Ou LL OO OO Lb Li L OT COOL TOOL WTTOOTL b bc bc Lic Uc LL LLL TNS ILD 6 FLIP CO CNPO SEU AI E LOS 000 sEULD0000 CN CN SE 0000 COP CNIN FLOLOD CNIND SECODOCOCNILOT CNIN sELCOCGO TNO FO OWT CN SE Or FUR 00 sEOXO OMONIOOPM OO PO UO AON IS NNNMNNN SE SE SE SE SE FE 0200 O CNCOCOCOCOCOCOCO CNCNCNCOCOCOCOCOCOCO CNCNCNCNCNCNCNP I I S
2. 15 16 17 8 19 20 21 22 23 24 25 26 27 28 1401 15 383514 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 1401 585714 A 1603 2B10 3838 8 180119 38397 1806 4 3840 6 1 2501B3 3841 K9 V SYNC OUT 2502E7 3842 9 2503 08 3843 H4 CLBL 2504C9 3844 5 90 A 250584 384518 A A e 38 B B 3501 Y 2506 5 4717 a 2507 5 3871 K8 7502 25 520 2508 6 4601 5 2369 S lt S L Te I lo 12 43 o 250904 460215 Noy Y 3 2511 E7 4603 5 SB 57451 x1 22 BS ale ale 5 5 7626 251289 4604715 58361 Nev 54 2 eo 5 9 2521 86 5601012 n ed 7503 L 7501 S 5 F022 3630 SSX P 252246 5602 6 IDA4841 000 2 a a 9 3629 3628 2524C8 5603 C16 2 o gt 7 172W 12 769 2601 010 5604617 6 2 2 3554 2 1k 10K 2602011 5006 16 DLNS 12 VER 52 20 6 548 e V SYNC INPUT AAA B 2603D12 5608 15 3516 9 wamc 9 1603 2 7621 95 Rer 2606E14 5610 15 120 CORRECTION INTEGRATOR H SIZE amp V SIZE V LINEARITY o BC516 TAN 100K 1 AND ASE SEA 13 3555 yep oC F021 TS 2607F14 5611 7 ci 5 e va HSE BALANCE MV 47 5258 RGP1OD
3. UIN UIN UN UIN NA Feedback Control F092 2 e 2683 3698 68K 2413 A 5 7 IO 5 Y N gt O B 3413 1 5 3416 6677 10 9 gt RGPIOJ 2205 F094 3695 5 gt 159 A 12 12 150 50 92412 120 eS 3699 20 vel as32L 47R ABL owner 3696 47 ABL CON gt 2 0 3 1208 3688 3684 9K1 3686 4K7 6681 3687 6682 L al L i i 7414 D2 1N4148 33K BAS32L 7431 H1 R 7671 D8 ONS CN 3432 6421 3685 s lt 9 1 7672 E8 ce c CN 7673 3 470R 33K 7681 M RGP10D M 7681 9402 H3 F081 5 F082 C5 F083 D9 F084 D12 F085 D9 F086 E9 N F087 E9 N F088 E9 F089 F12 R STANDS FOR COMPONENTS RESERVED F090 F9 STANDS FOR CHIP COMPONENTS F091 G12 3691 1K5 8 470 gedeeltelijk is niet toegestaan dan met schriftelijke is prohibited without the written consent of the copyright Alle rechten voorbehouden Verveelvuldiging geheeNbfights reserved Reproduction in whole or in parts toestemming van de auteursrechthebbende 1 2 3 4 5 6 7 8 9 10 11 12 13 14 4 O O y TYT12 SETNAME V50
4. POCNICNCONCONCNPO CNONION SE SEPT 7 CN 7 CNIPO PO PONO CNNIONTLOLO nO F SE gt 2 42 COLO COO LOLOL sEUDUDUD 1 20001 SE SE 0000 CL NN ANAND ONIS NO NICO LO ONO OUST ONNA At COCOCOLO CONIC CONMIGO LL LL LL JUL C3 gt 09300 gt gt gt JOOS eee Pet LLL LTOTTOOTTULOTOOUW TT TC gt gt gt TL gt gt 206 gt gt gt gt 062622 SENN 00 007000 000 0006 QI 00 00 0000 6 00 0 6 NI 000 000 00 NAMNAMIN NO 0 CICICIOILOUOUOUOGXOQO T OO OO OOQQ S SELDUDUOUDUDUDCOOCOCOCOCOCOCO COT l 00000000000000 0000000000000 ANANNMMMMIM t F QIQIQOQNOOOOOQO 000000000 19 CO 19 19 19 CO CO CO CO CO CO CO 19 19 CO COO COCO CO 19 190 CO CO COCO CO CO CO CO CO COCO CO CO CO CO CO CO CO CO CO CO CO COO CO 0 0 000000000000 0900000000000000000000000000000000 BRIN INNA
5. 12 15K PM10A RST CRB 12 A 758 5 3778 213810113102 RSTCRBCFR 12 1KPM5 A RST 12 A 47 5 5301 242253597608 IND FXD 5 0305 108 10 RST 12 4K7PM5 5303 313816872621 BEAD COIL BF30TA 2 5X3X1B RST CFR 12 4K7PM5 5305 313816872621 BEAD COIL BF30TA 2 5X3X1B RST CRB CFR 12 1008 5 A 5307 242253597608 IND FXD 5 0305 108 10 RST CRB CFR 12 1008 5 5702 242253597608 IND FXD SPT0305A 108 10 RST SM 0805 RC11 1 5 R 5705 242253597608 IND FXD 5 0305 108 10 RST SM 0805 11 1 5 R 5721 242253597064 IND 0305 0033 20 B RST SM 0805 11 1 5 R 5751 242253597064 IND 0305 0033 20 B RST CRB CFR 12 688 5 5752 242253597064 IND 0305 0033 20 B RST CRB CFR 12 A 68RPM5 5771 243853598058 IND BEAD EMI 100MHZ 80R RST CFR 12 68RPM5 5779 242253597608 IND FXD SPT0305A 108 10 RST CFR 12 47RPM5 6301 933117810133 DIO BZX79 C12 A PHSE RST CRB CFR 12 1008 5 6302 933117810133 DIO REG 2 79 12 A PHSE RST CFR 12 2K2PM5 6303 933117810133 DIO REG BZX79 C12 A PHSE RST SM 0805 11 1 5 R 6304 933117730133 DIO REG BZX79 C5V6 A PHSE RST SM 0805 11 1 5 6721 933189210133 DIO SIG BAV21 RST 12 3K3PM5 6722 93
6. k k k k k k k K k K k k k k k k k k k k k k k k k k k k k k k k k K k k k k k k k k k k k k K EDID data 128 bytes K kk lt k k K k k K k k K k k k k k k k k k k k k k k k k k k k k k k k k k k K k k k k k k k k k k K k k k k 0 00 1 2 1 3 1 4 ff 5 15 6 ff 7 00 8 41 9 0 10 18 11 0 12 39 13 30 14 00 15 00 16 21 17 04 18 01 19 03 20 68 21 24 22 1b 23 24 25 bb 26 08 27 83 28 52 29 46 30 98 31 24 32 Of 33 48 34 4c 35 ff 36 37 80 38 31 39 59 40 45 41 59 42 61 43 59 44 81 45 99 46 9 47 4f 48 01 49 40 50 01 51 01 52 01 53 01 54 1a 55 4f 56 40 57 30 58 62 59 00 60 32 61 40 62 40 0 64 13 65 00 66 68 67 08 68 11 69 00 70 00 72 00 73 00 74 00 75 76 00 77 20 78 54 79 59 80 20 81 20 82 31 33 32 84 33 85 34 86 35 87 36 88 08 89 20 90 00 91 00 92 00 93 16 94 00 95 50 96 48 97 49 98 4 99 49 100 50 101 53 102 20 103 31 104 30 105 39 106 42 107 35 108 00 109 00 110 00 111 fd 112 00 113 32 114 0 115 1e 116 61 117 18 118 00 119 0a 120 20 121 20 122 20 123 20 124 20 125 20 126 00 127 49 V50 10965 gt 44 Go to cover page k k k k k k lt k k k k k k k k k K k K k k k k k k k k k k k k k k k K k k K k k k k k k k k k k k k k k kk k k k k k k k k
7. D 2 o 5 5 659 T S09 sac 8 Q 4 ol T 04 tQ 8 N 0 TO 7 N 2 gt 0 929 dO 10 5 ETS 26 2 9 5 gt 9 4 A 82 919 1 d di ki 2 8088 4 ps al m ed 8 8 2 s Ne N 00 TS 0 i gt 29 cigs 59 19 12 NA 1114 17 T 3 9 2 OY VIZ l 53 9 6 M Co 6v1 zs o I 1 18 9 6 5 9g T T ee 992 0 Z S09 915 B 2 5 01 45 3 9t TO TO T X 4 0 N l 5 KO 0 N wo 5 l LS TO 5 iva 3 5 5 N 081 0 N N ite 00 2 0 8 O 8 RIS 5 979A l y 979 T eal E 0 Le 099 za e lt CO O Li C5 L CLASS NO Board 105 0 RI MIR 5 2wr 61 V50 5 000 1425719 Co N cO c CN lectronics N V Philips Co N cO e C Co N n LJ gt 2 6 S O S 0 Eon O gt lt Z 5011141 8 43NMO 1101 0 H
8. 25 D P pi gt z 80 0 eO 5050 Sad O E 42 348 gt 22 1 4 25 Oe gt O 9 0 J gt 0 Occ 9 o D D 5 9 lt 65 552 592 8 0 0 9 65 5 6 cg 095 4 i 090 5 H H R STANDS FOR COMPONENTS RESERVED 1 2 3 Ay NO 12 V50 CLASS NO Control Schematics J 3138 178 6518 J 109 50 00 2003 06 20 NAMERoland lvy Su SUPERS 1 DATE 2003 06 20 KONINKLIJKE PHILIPS ELECTRONICS N V 2000 1 2 3 4 5 6 ES Control Panel board C B A 44 Go to cover page 1891 1892 1893 E 1894 1895 3891 5882 3853 3894 C A 6891 8899 D l A 3 z Cp b G Cp CN TYTI2 V20 107E5 CLASS NO Control Board 3138 10 J S V20 CRI MIR 2002 12 18 NAME Roland lvy Su SUPERS DATE 2002 12 18 Philips 08 PHILIPS is prohibited without the written consent of the copyright Owner m Alle rechten voorbehouden Verveelvuldiging geheel rights reserved Reproduction in whole or in parts gedeeltelijk is niet toegestaan dan met sc
9. 2154 0 5 107250 2139 120 aw 3125 390R 21 gt 6113 158 240K 3K3 100K 3144 22 3147 6141 RGP10D 2113 22 50 2 VCC 12 5 3144 2 r CTRL 1 V BZX79 B8V2 P 6132 2115 1u50 27K 47150 1 3107 03131 lt SENSE DEMAG 3145 _ DEVIATION LIST REF FOR 89 ChincOthers 3115 3145 2106 1504 450V 15041 400V t F 3146 G D Q 3127 7 8v 103 8 45 3149 PI 4 1 G n 01 07 AIX RGP10J 5 N gt 0 6144 7114 31546 1 500 L78LO5ACZ 3156113 B 5K6 3153 1 2W o N lt N 5123 47R BZX79 C7V5 3146 12 2117 8 6106 9 17808 6147 L Owner 2146 2 5 OO 61 40 7116 0 6 3156 6144 FI 0 548 1 Ad 6146112 M 6147 0 6146 gt 184148 2131 3n3 c N TT Oo gedeeltelijk is niet toegestaan dan met schriftelijke is prohibited without the written consent of the copyright Alle rechten voorbehouden Verveelvuldiging geheeNbfights reserved Reproduction in whole or in parts toestemming van de auteursrechthebbende R STANDS FOR COMPONENTS RESERVED STANDS FOR CHIP COMPONENTS 0 0 5 TYT1
10. Pattern A 355 mm All rights strictly reserved Reproduction or issue to third parties in any form whatever is not permitted without written authority from the proprietors FIG 5 CONTRAST AND BRIGHTNESS MEASUREMENT PATTERNS 109B50 00 8639 000 14291 2003 06 17 BRAND PHILIPS we C CLIAO surers 25 5 Gt 265 CHECK pate 2003 06 17 Property of PHILIPS ELECTRONICS INDUSTRIES TAIWAN LTD B E 2838 100 05424 lt y NF PHILIPS PHILIPS All rights strictly reserved Reproduction or issue to third parties in any form whatever is not permitted without written authority from the proprietors GENERAL PRODUCT SPECIFICATION Continued M4 Go to cover page Ah 8 amp NF FIG 6 MISCONVERGENCE MEASUREMENT AREA V50 19 109B5 97KHz HB TYPE 109B50 00 8639 000 14291 oo 2003 06 17 BRAND PHILIPS p TGS 58 2 o TY CHECK pare 2008 06 17 Propertyot PHILIPS ELECTRONICS INDUSTRIES TAIWAN LTD B E 2838 100 05424 x y GENERAL PRODUCT SPECIFICATION Continued 44 Go to cover page Ah PHILIPS PHILIPS All rights strictly reserved Reproductio
11. 2 2 2 6103 P RGP10J 7101 5102 011 STP6NK60Z 1 D 9 W6 RH 3105 5 a 5 4102 11GDT112DM TO MHR 1192 9 40 5122 2131113 330 gt 6A 2133 E11 D gt e gt 2124 E7 L D 013 9 2134 YTS 2139 1 2141 6135 11127 5123 2 t 2 1 Xa M 12 C C 6106 2111 lt 2202000 EN M ALA ALA A A C 100u 2144 BYV27 200 2145 2 2146 29 25 5 N 0 2147 3 DGCS3D4R5Q27C E 1113 3 3108 1 447 3109 1 4847 Pol 2150 C 2151 L 2152 5124 2153 4 3113 R47 AW ig 1 4W47 RGP10D F016 1N4148 lt 22 lt lt 0 0 aan gt 12 2154 BYV27 200 me 2155C 3101 B2 p 310284 3104 9 3105 87 3107 E7 3108 C8 3109 C8 3110 C9 3113 8 6109 11 3128 8115 1 2W JFE3309V 1 1 DEGAUSS SIV 7103 2 22250 3115 wv TO MHR 1193 0 221100 8 3v 7113 338 40 bl E _ 312504 017 R 24v 3127 8 GND A 7112 3128 D7 I TL43 1ACZ AP 3131 E8 3134 D6 H 3138 B11 3139 D12 3140 D12 3141 E10 ep
12. EDID log LG k k k kk k k k k k k k k k k k k k k k K k K k k k k k k k k k k k k k k k k k k k k k k k gt k k K k k k k k k k k Vendor Product Identification ID Manufacturer Name PHL ID Product Code E018 HEX ID SerialNumber 12345 DEC Week of Manufacture 523 Year of Manufacture 2003 EDID Version Revision Version 1 Revision to Basic Display Parameters Features Video Input Definition Analog Video Input 0 700V 0 000V 0 70Vpp without Blank to Black Setup Separate Sync without Composite Sync without Sync on Green no Serration required Maximum H Image Size 36 Maximum V Image Size 27 Display Transfer Characteristic 3 03 gamma Feature Support DPMS Standby Suspend Active Off Display Type RGB color display Standard Default Color Space Primary color space Preferred Timing Mode Detailed timing block 1 Color Characteristics Hed Xcoordinate 0 638 Hed Y coordinate 0 327 Green X coordinate 0 28 Green Y coordinate 0 602 Blue X coordinate 0 142 Blue Y coordinate 0 063 White X coordinate 0 283 White Y coordinate 0 297 Established Timings Established Timings 720 400 67072 720 400 88Hz IBM XGA2 640 x 480 60Hz IBM VGA 640 480 67Hz 11 640 480 72Hz VESA 640 480 75Hz VESA 800 600 56Hz VESA 800
13. X7R 100V S 100N PM10A 3725 232273061683 RST SM 0805 RC11 68K PM5 ELCAP 160V 1UPM20A 3726 213810113334 RSTCRBCFR 12 A330KPM5 3402 213811273188 RST CFR 25 A 1R8 5 A ELCAP KM 25V 5 470 PM20A 3727 213810113109 RST CRB CFR 12 A 108 5 5197 313818875671 MAINS HARM 70MH 2 SURGE PROTECT SGP 201M DRF 728 212010128121 RST ERC12 1208 10 5192 243853598058 IND FXD BEAD 100 2 80R ELCAP GS 25V 5 100 20 3729 232273061829 RST SM 0805 RC11 82RPM5 R 6191 933256030673 DIO SIG 134148 A VISH A ELCAP 100VS 1UPM20A 13731 212010128121 ERC12 1208 10 6192 933189210133 DIO SIG BAV21 A 652 500VS 1NPM10A 3732 232273061109 RST SM 0805 11 10RPM5 6193 933189210133 DIO SIG 21 A PHSE ELCAP 100 S 100 PM20A 3733 213810113471 CRB 12 A470R 5 6194 933256030673 DIO SIG 1N4148 ELCAP GS 25V 5 470 PM20A 3734 213810113334 RST 12 5 7191 933953420676 TRA SIG TBC338 40 ELCAP BP 160V S 1UPM20A 3735 232273061122 RST SM 0805 RC11 1K2PM5 ELCAP KM 100VS 1UPM20A 3736 232273061224 RST SM 0805 5011 220K PM5 R C B ASSY 313817865181 109B5 SURGE PROTECT SGP 201M DRF 9737 232273061683 RST SM 0805 RC11 68K PM5 ELCAP BP NK 160V 10 PM20A 3738 232273061223 RST SM 0805 RC11 22K PM5 R 4801 212211000385 MFLM MF1 2WS A 12K 1 ELCAP KM 100V S 1U
14. SOLDERING TIME SOLDER B lt 3 sec side 00 5 0 8 mm PRESURE SOLDERING IRON 2 Caution when attaching SMDs When soldering the SMD terminals do nottouch them directly with the soldering iron The soldering should be done as quickly as possible care must be taken to avoid damage to the terminals of the SMDs themselves Keep the SMD s body in contact with the printed board when soldering The soldering iron to be used approx 30 W should preferably be equipped with a thermal control soldering temperature 225 to 250 C Soldering should not be done outside the solder land Soldering flux of rosin may be used but should not be acidic After soldering let the SMD cool down gradually at room temperature The quantity of solder must be proportional to the size of the solder land If the quantity is too great the SMD might crack or the solder lands might be torn loose from the printed board see Fig 3 Fig 3 Examples Cx IRON Exploded View EJ ME Go to cover page 42 3138 104 60801 3138 188 78341 e 4154CORD SUB D 15 1M8 13 3300943 UL EON 3138 178 63851 MB 1 ASSY 109B5 3138 178 65191 MB 2 ASSY SDI 109B5 3138 178 66071 MB 3 ASSY CPT 109B5 3138 178 65171 V B ASSY LG 109B5 3138 188 78331 COI DEGAUS 62 9703 15D 3138 178 65181 C B ASSY 5 9301 930 50323 M46QEF903X01 H LGPD 9301 952
15. 5 to ground factory mode 5 Press both left amp right keys with IF cable 5 floating burn in mode check 25 26 DDC bus gt sda pin 25 hi scl pin 26 hi check check 7801 WT6ZPZ 31 32 IIC bus gt sda pin 31 hi gt 7501 4841 scl pin 32 hi 7304 NT 68273 7301 TDA4886A EJ Repair Flow Chart Continued 44 Go to cover page Basic check F TDA4841 gt Vcc OV 5 Vcc pin9 pin10 12V Check List during startup pin7 pin25 0v gt ifnoexist gt pne from H defl CLBL hi 2 Xray Ground Active LOT pin 12 13 to 7411 pin1 ifactive p floating 25681 pin2 3 4 5 6 control floating 27671 floating gt 7672 floating gt 5681 pin4 pin3 amplify pind and it compare to pin4 b pin4 generate the saw_tooth wave 8 HDRV c pin5 input voltage for the square output waveform d pin6 pwm output to 7617 amp 7618 base to H deflection v 7606 base 12 13 Vout1 Vout2 differential input to 7401 pin 1 7 14 15 the input sync from Vsync Hsync 16 CLBL cpu pin 33 34 Vertical blank will be activated hi 1 pin30 softstart pll2 OV
16. WordPad By using WordPad the texts of DDC data amp table 128 bytes hex code can be modified If DDC TEXTS amp HEX Table are completely correct it be saved as ddc to re load it into EEPROM for DDC Data application 21 Save A Documents 1 Corel User Files 1 german Fig 19 150P DDC ANALOG ddc Save as type Edid30 Files ddc w Cancel 2 Click Save ED DDC Instructions Continued K Go to cover page Step 9 Load DDC data Note 2 In Factory Mode Read Write DDC data Before Read Write EDID code please confirm that the 1 Click from the tool bar Software DDC only was enabled as shown in Fig 23 2 Select the you want to open as shown Fig 20 eb 4 Access Factory Mode and enable Software DDC only as shown Fao ree in Fig 17 amp Fig 16 5 Write EDID click DDC2B Fig 23 Cancel AOC command 107E AOC command 104E 105 Open 9 Look in E My Documents Corel User Files Racari mena J german Grace Enable Monitor must be enter made Fig 20 address Rex FO j109B5 V50 DDC 150P DDC ANALOG ddc Software DDC Filename 10985 V50 DDC Files of type Edia30 Files ddc Cancel 2 Step 10 Exit DDC program Pull down the File menu and select Exit as sh
17. 3845 DDC5V 3652 F046 9 8 3615818 8 8 a 1 5 3 0 1 IO 1l LAC 250 AC 600 5 2 5 F04819 586 9 2155 8 s 3618615 9 lt 5 12 3619Cl4 205018 T 3534 el E 58 4604 2642 3635 3620814 051 LI Y Y 0 359 50 3621017 05211 3K3 5 gt ew 3839 as Q4 3661 7643 33 H Syn 430K VR37 36 3622618 05311 175 1K BC547C LN 4M7 1 2W 3623019 F054Ll L 2T 5 40 72 SSIS SS ss LAN 5 2 3657 3024619 05511 S CES E 1 3637 1 CY A S e M SEE n i MPSA44 e 3627813 F058 MI 2813 40 3665 5 E 3628813 F059 1 I 1 5X 8 o 628152 F i3 363118 5002118 i 2 8 5 7646 96 L 3633119 Ql 10 6151208 5 15 547 3635 8 a6 5 3636 19 HE N ED a c 2 21 3637 J18 on N 638 Qo 5220 5 3639 J19 3641 15 2 T 94 DDC SCL 3645 612 56 0 TOOR 12 12 3646 G12 52 3842 DDC SDA Y Y 3647 H15 o 06 3650 H12 Q5 DDCDETECT ox Roy 3651 H12 os 3831 920 2 3652115 0 7851 57 gt 3655 112 e 2 SAN PBO 2 3656 112 es 100R HFO 3657 15 G 3813 5 2 LED 3814047 82 3671 3660112 gt 07 5608 eo Q K GBC548C 55 9 F050 048049 _ 10K 3662 K15 99 6 gt 3665 2 20 mt SOGIN 5 3666 K12 5 5 1 20 0 SELF TEST
18. DIO SIG BAV21 DIO REC RGP10D A DIO REC RGP10D A DIO REG 2 79 15 A DIO REG BZX79 B33 DIO REC RGP10J A DIO SIG 104148 5 DIO REC 31DF6 FC5 DIO REC RGP10J A VISH A DIO SIG 104148 5 DIO SIG SM BAS32L R DIO SIG 104148 5 DIO REG BZX79 C5V6 A PHSE A DIO REG BZX79 C5V6 A PHSE A IC TEA1507P NT PHSE L TRA SIG TBC338 40 TCET1103 G VISH L TLA31ACZ AP S STOO A TRA SIG TBC338 40 A IC L78LO5ACZ STOO A THYRIS BT169B PHSE A TRA SIG BC548C KECO IC L7808CV STOO L IC UC3843AN MOTA L SIG BC547C SIG SM 847 KECO R SIG SM 847 KECO R SIG SM 847 KECO R TDA4841PS V3 L SIG 2369 TRA SIG BF423 KECO A TRA SIG BC558C KECO FET SIGBSN254A TRA SIG BC337 40 FET POW 25 FSC0 L TRA SIG TBC338 40 TRA SIG TBC328 40 A TRA SIG 548 TRA SIG BC517 KECO A TRA SIG BC516 PHSE A TRA SIG BC516 PHSE A TRA SIG BC517 KECO A TRA SIG BF422 KECO A TRA SIG BC558C SIG MPSA44 5 FET POW IRF630B FSCO L TRA SIG 547 A FET POW IRF640B FSCO L TRA SIG 547 A TRA SIG BC547C A TR
19. R G B output wit W ite pattern check heater p EHT 26KV gk check J No 30 2725 80 no picture 6 3V 0 2kV VG1 gt 150 30 lt 2733 lt 80 30 lt 2753 lt 80 v cha check DC restoration VG2 gt 350V 7122 7732 7752 7721 7731 7751 check blanking 7501 pin16 Ok 2 Symptom no video or dim check Vg1 ia check cathod only raster with without retrace line Vgl 0V 9 83V 190V green LED on 7301 7701 7701 check 7301 24 2 lt ABL lt 5V Ok pin 6 8 10 pin6 7 9 pin 1 2 3 Input swing Input swing output swing Ok v check 7301 E D replace 11 HFLB check check 7301 7501 16 491 pins CLBL Ok replace 7301 3 Sympton check check 7304 no OSD or s 2 No 7304 10 pin2 VCO OSD out of sync VFLB pin3 RP Ok check Ok check check 7304 check 7304 7304 12 7301 pint pin5 HFLB 7 8 IIC v replace 7301 replace 7304 46 MEC 44 Go to cover page Repair Flow Chart Continued C Horizontal deflection output repair flow AE check HDRB check HDRB ch
20. gt 9 LJ q CO Lain in 5 NN Ld 272 7 lt Te e 5 m xr Q N en 2 p I O L 2 60 5 O 0 T Oy pape CO 214 63 2 O lt CN LC SS em ul edes algo SIE E 7 N es C3 co W CS NTs PowerSchematic diagram 44 Go to cover page 1 All 7 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Al 5 1 1 F03 4 71 FO4 11 71 FOS 6 81 5113 MAIN PCB A 2150 06 B1 8 0 SB 57451 1 SRW35EC 181V118 22062000 FO n 0 On 58361 6131 8 5125 FO9 B1 FOI2B 190 1101 2 FO13 C2 BYV36C 180u 0 1111 2 5103 400V DC AC INLET 688 060 7 1101 soci n W6 RH 2107 50 3104 47K 2W 2152 u 0 3142 150 150400 500V 4 i 1 Em 1 18 lt 83 2106A6 11 31DF4 FC5 210749 111 ee 2111 C9 C 2112010 2113 E2 2115 7 2121 F5 14 6134 F012 2123 F9 12 6133 5126 210584 0 0 2 0 3101 VR37 2103 1 Y GBUAK e 680r275 2 313
21. gt 2 H Centering 8 9 12MhZ check cpu 6 pin 5 5V check pin 4 pwm from OV to 5V check pin2 pwm from OV to 5V Repair Flow Chart Continued 10985 S CAPACITOR SWITCH TABLE 51 49 55 07 55 07 61 96 61 96 66 29 66 29 74 32 74 32 82 96 82 96 89 00 89 00 0 19 19 Blank gt normal low change timing Hi 14 10 check Q1 Q5 Q5 Q4 Q3 low 0 Q2 Q1 hi 1 S cap switch I check pin 3 Bon pwm from OV to 5V check pin18 18 p normal Hi blank low 2027 PS 7 check pin20 27 normal off 27 20 hi hi low hi Repair Flow Chart Continued E 44 Go to cover page check 22 Degauss X active hi no active low check 5 Reset check pwm from OV to 5V 37 Brightness check pwm from OV to 5V check keys Enter Left bri Right con Exit keys check pin 24 1 H V sync amp IF cable pind floating show msg 24 Selftest 2 H V sync exist amp IF cable 5 to ground normal 8 3 H V sync non exist 8 IF cable pind gnd power saving 4 Press both left amp right keys with IF cable
22. 352V Ch1 Min 16 0V Ch1 RMS 122V NiO Ons chi 7 ij 0 00000 s 64 Tek Prevu Ch1 Freq 66 2 Low resolution Ch1 692 Chi Min 172 Ch1 RMS 286 V aa ooms TES chi 7 Hv ii 0 00000 s sa 200 V V 55 Stop Freq 67 50 2 810mVv Ch1 Min 89 9mV Ch1 RMS 565mv EI Chr lly 0 00000 s oom T Tek stop Ch1 Freq 67 49kH2 1 75 V Ch1 Min 850mV Ch1 RMS 1 45 V waa Guts Ach chi 7 0 00000 s Sev 57 Tek Stop Ch1 Freq 67 50 2 Low signal amplitude 4 98 V Ch1 Min 3 98 V Ch1 RMS 4 61V 1 7 0 00000 s Pk Stop i Freq 67 50 2 3 68 V Ch1 Min 760mV Ch1 RMS 2 94 V oops TEE Chi 27 gt 0 00000 s eue 69 Control Panel Scahematic V50 109B5 44 Go to cover page 0 1 2 2 4 5 6 2 2 3 5 Fl C3 F2 C3 7 F3 C3 m CONTROL PCB 1892 D 58 57231 1 1893 2 1894 D2 B PB 58361 1895 D3 t A 389101 3892 D lt lt 3893 D 5 6 3894 2 5 6891 Eg 8899 C3 29 c C 25 zo 5 5 oc B B D SE
23. 4 Note 1 If the connection is improper you will see the following error message as shown in Fig 7 before entering the main menu Meanwhile the read EDID function will be disable At this time please make sure all cables are connected correctly and fixedly and the procedure has been performed properly edid3 01 Vendor ID 0x0000 Device ID 0x0000 Fig 7 Method 2 After create a shortcut of EDID301 EXE Double click EDID301 icon shown in Fig 8 which is on the screen of Windows Wallpaper Bring up main menu of EDID301 as shown in Fig 9 This is for initialize alignment box untitled EDID Tool 3 01 5 x File 12 View Help gjejm alel 52 s HE S PHILIPS Fig 8 d Fig 9 Note 2 During the loading EDID301 will verify the EDID data which just loaded from monitor before proceed any further function once the data structure of EDID can not be recognized the following error message will appear on the screen as below Please confirm following steps to avoid this message 1 The data structure of EDID was incorrect 2 DDC IC that you are trying to load data is empty 3 Wrong communication channel has set at configuration setup windows 4 Cables loosed or poor contact of connection 2 read error DDC Instructions Continued to cover page Re programming EEPROM Software DDC Step
24. 933913910115 933913910115 933913910115 933751660673 933256030673 933256030673 933256030673 933117810133 933493960673 933751660673 933957760673 933189210133 933117710133 932205787683 933117830133 933189210133 933751660673 933751660673 933166910133 933166990133 933497950673 933256030673 932212636682 933497950673 933256030673 933913910115 933256030673 933117730133 933117730133 935267356112 933953420676 932214014667 932208697676 933953420676 932208234676 933826850126 932209011673 933920810682 932201959682 932216833676 932217438685 932217438685 932217438685 935267455112 933450090126 932214472676 932210142676 934003960126 932216831676 932218832687 933953420676 933953410676 932209011673 932214474676 933567120126 933567120126 932214474676 932214469676 932210142676 934025870126 932217995687 932216833676 932217996687 932216833676 932216833676 932216833676 932209011673 932209011673 933450090126 933967380685 823827444541 932212662682 932209011673 DIO SIG SM BAS32L DIO SIG SM BAS32L DIO SIG SM BAS32L DIO REC RGP10D A VISH DIO SIG 1 4148 5 DIO SIG 184148 5 DIO SIG 184148 5 DIO REG 2 79 12 A PHSE DIO REC RGP10G A VISH A DIO REC RGP10D A DIO 58140 5 DIO SIG BAV21 DIO REG BZX79 C4V7 A PHSE DIO REC 5602086 R DIO REG 2 79 15 PHSE PHSE PHSE
25. BEAD 100MHZ 800 A 7117 IND BEAD 100MHZ 80RA 7411 FERRITE BEAD 7412 LINE FILTER 15 mH MIN 7413 TFM SMT LAYER SRW35EC T81V 1187414 IND 5 0406 330 PM10 B 7431 IND FXD TSLO808 S 100U PM10A 7501 IND 1510808 1000 PM10A 7502 IND 1510808 1800 PM10A 7503 IND 1510808 1800 PM10A 7505 SIG DRIVER SRW16UW T14H002601 DRUM COIL 20MH 7611 TFM SIG DRIVER SRW25EF T24V0047616 COI CHOKE 6000UH6 80HM DR10X112617 COI LINCOR 1 80UH HL2455H 083N 7618 BEAD COIL 7619 BEAD COIL BF30TA 2 5X3X1B 7620 TFM POW DAF SRW19ES T38V005 7621 TFM LOT LAYER 11MM WIRE 7626 IND 7510808 1800 PM10A 7627 BRIDGE GBU4K PAJI B 7628 DIO REC RGP10J A 7629 DIO REC RGP10D 7631 DIO REC RGP10J A 7638 DIO SIG 1 4148 5 7639 DIO SIG BAV21 7640 DIO SIG SM 88532 PHSE R 7641 DIO REC BYV36C 7643 DIO REG BZX79 B8V2 A PHSE A 7646 DIO REC 31DF4 FC5 NIECOB 7647 DIO 8140 5 7648 DIO REC SBYV27 200 A VISH A 7673 DIO REC SBYV27 200 A VISH A 7681 DIO SIG 1 4148 5 7801 DIO REC RGP10D 7803 DIO SIG 1 4148 5 7831 DIO REC RGP10J A VISH A DIO SIG 184148 5 DIO REG BZX79 C7V5 A PHSE DIO 58140 5 DIO SIG SM BAS32L R DIO SIG 1 4148 5 5010985 44 Go to cover page
26. ENGLISH LANGUAGE eia ITALIANO PORTUGUES feel 233 BLOOD mudah INPUT SIGNAL SELECTION INPUT For 20782027 oto UT B ZOOM ADILIST HORIZONTAL POSITION YZE ADILIST VERTICAL POSITION SIZE ADILIST SHAPE ADILT SIDE CURVE PINCLISHIKON BALANCED ADJUST SIDE ANGLES TRAPEZOID PARALLELOGRAM ROTATE ADILIST COLOR 800K FOR GENERAL USE USER PRESET RED GREEN BLUE B300K FOR GENERAL USE por TOSE MEF mode 52 GREEN BLLIE 0006 FOR IMAGE MANAGEMENT Mor FOR PHOTO RETOUCH USER PRESET E GREEN ALUE RESET TO FACTORY SETTINGS YES EXTRA CONTROLS ADIUST MOIRE HORIZONTAL VERTICAL ADIUST MOIRE HORIZONTAL far NOBEL ME TOSF mea DEG VERTICAL UGHTFRAME nac tor 109 ADJUST HORIZONTAL DEGALISS MERTICAL Tor zo moie ALTO CALIBRATE OFF ADJUST MOIRE HORIZONTAL VERT AUTO CALIBRATE ADIUST PURITY TOP LEFT TOP RIGHT BOTTOM LEFT BOTTOM RIGHT ADJUST CONVERGENCE eee CLOSE MAIN CONTROLS Es 44 Go to cover page Lock Unlock Factory Mo
27. GES EMI USA FCC PART 15 Class 2 8 CANADA D O C Class B gt 5 EN55022 CLASS 99 C tick 28d Ergonomics E2000 EPA MPRI Nutek ISO 9241 3 amp 8 9241 7 99 03 Compatibility PC99 Windows 2000 Windows PC2001 Windows XP LOW EMISSION TCO99 03 7 3 3 X RAY radiation requirement regulation USA CANADA 21 CFR CHAPTER 1 SUBCHAPTER J GERMANY RONTGEN VERORDNUNG ROV 1987 01 08 X ray explosure at 5cm distance from any point of the external surface must not exceed 0 1 mR H 109850 00 8639 000 14291 pd 2003 06 17 BRAND PHILIPS p TRENE CHECK pare 2003 06 17 Property ot PHILIPS ELECTRONICS INDUSTRIES TAIWAN LTD B E 2838 100 05424 lt y NF GENERAL PRODUCT SPECIFICATION Continued Ab M4 Go to cover page 8 0 Reliability 8 1 Mean time between failures MTBF to be calculated according to Military standard MIL HDBK 217C PHILIPS MTBF gt 75 000 Hours Excluding CRT TOTAL HRS POWER ON X TOTAL SETS PRACO ee NBR OF FAILURED SETS PHILIPS 9 0 Quality assurance requirements 9 1 Acceptance test According to MIL STD 105D level II AQL 0 65 Major 2 5 Minor Customer acceptance criteria VAW0377 00 Target Field repair rate gt 2 NF 10 0 Serviceability The service ability of this monitor should fulfill the requirements which are prescribed in UAW 0346 and must be ch
28. PE P PIU 3 3 NM Ch1 RMS 97 8 V sv A a NET ov ly 0 00000 s Trig d Freq 67 49kHz 11 6V Ch1 Min 0 00 V Ch1 RMS 7 45 V a 00V Ni 10 0us E Chr ij 0 000005 e Stop i 1 Freq 305 2 Low signal amplitude 193 v Ch1 Min 173 V Ch1 RMS 184 V 1 i i chi So 8 CENE N Chr sav 115 0 00000 s Freq 67 53 2 Ch1 204 V Ch1 Min 6 00 Ch1 RMS 137 V M1 di 9 ij 0 00000 s ERENT 5010986 _ 44 Go to cover page Freq 67 50 2 202 Chi Min 10 0 Ch1 RMS 136 V Sa 100v 1 30 Tek Run_ 1 iss chi 7 ii 0 00000 s Ch1 Freq 67 56 2 960 Ch1 Min 50 2 Ch1 RMS 277 500v 00 at chr r 536 V i 0 00000 s 31 Stop Ch1 Freq 65 61 2 Low resolution Max 121 Ch1 Min 72 8 V Ch1 RMS 100 V chi 7 73 3 5 1257 0 00000 s Tek Stop Freq 65 96 2 Low resolution 121 Chi Min 68 4 V Ch1 RMS 101 i 0 00000 s 33 Tek Stop Freq 34 36kH2 Low resolution Ch1 Max 121V Chi Min 54 8 Ch1 RMS 101 M 4 00ms Ooms a chi 54 5v ii 0 00000 s Ch1 Fr
29. PHILIPS we C CLIAO surers 25 590 St TY CHECK pate 2003 06 17 Property of PHILIPS ELECTRONICS INDUSTRIES TAIWAN LTD B E 2838 100 05424 x y NF GENERAL PRODUCT SPECIFICATION Continued M4 Go to cover page 1 0 Introduction This document is related to the 19 AUTOSCAN color monitor and resolut ion 1920 X 1440 by 60HZ refresh rate 2 0 General description PHILIPS This AUTOSCAN analog colour monitor is specified as a display peripheral within an IBM compatible PC The AUTOSCAN a nalog colour monitor is to operate at 30 to 97 KHz 50 to 160 Hz can be applied to all RGB analog computers within this scanning frequencies PHILIPS The AUTOSCAN analog colour monitor is intended to be a fin ished product basically a display device mounted inside a plastic enclosure which provides the aesthetic mechanical ergonomic and safety requirements 21 General condition The unit will produce a usable ima ge after switching on measurements are to be carried out with a full stabilised set after about 30 minutes warm up at room ambient temp of 25 Repetitive power on off cycles al lowed though should be avoided within 4 sec NF 3 0 Electrical characteristics 3 Signal interface to third parties in any form whatever is not permitted without written authority from tne proprietors All rights strictly reserved Reproduction or issue This AUTOSCA
30. Picture shift control range Geometric distortions Picture tilt TYPE 109B50 00 8639 000 14291 esee BRAND PHILIPS 50 10985 EJ 44 Go to cover page NF EE _ A 590 CHECK owe 2003 06 17 Property ot PHILIPS ELECTRONICS INDUSTRIES TAIWAN LTD B E 2838 100 05424 NF 54 GENERAL PRODUCT SPECIFICATION Continued 44 Go to cover page Ax 47 Horizontal Vertical linearity 4 8 Mis convergence 4 9 Focus check 4 10 Luminance uniformity 4 11 White color adjustment PHILIPS 4 12 Color tracking on full white pattern 4 13 Purity PHILIPS 4 14 Moi re 5 0 Mechanical characteristics 5 1 User controls at front left to right Connector and cables 1 Power Cord 2 Signal Cable 7 0 Environmental characteristics ouo 320 BES 5 7 1 Susceptibility of display to external environment 558 7 1 1 Operation limits 3 5 7 1 2 Transportation packages oot 55 8 7 2 Display disturbance from external environment 9 22 7 2 1 ESD disturbances POE 555 92 2 7 3 Display disturbance to external environment zee 7 3 1 Ionizetic radiation 5 5 7 3 2 Safety and EMS requirements 25 7 3 3 X radiation requirement regulation OLE of 25 8 0 Reliability 8 1 Mean time between f ailures 9 0 Quality assurance requirements 9 1 Acceptance test 10 0 Serviceability TYPE 109B50 00 8639 000 14291 2003 06 17 BRAND
31. PinNo Assignment Pin Assignment ma Redwdeoipu 9 5 I program shown as Fig 4 Software DDC Alignment kits 4822 310 11184 shown as Fig 2 2 19 Syne The kit contents a Alignment box 3 Blue video input 11 Ground b Printer cable x1 4 Ground c D Sub 12 Bi directional data SDA 5 for selftest PC ground 13 H Sync Note The EDID301 EXE Release Version 1 58 20000818 is a 6 Red video ground 14 V Sync VCLK windows based program which cannot be run in MS DOS 7 Green video ground 15 Data clock line SCL 8 Blue video ground EDID301 EXE Ver 1 58 Figure 1 Diskette with EDID301 EXE DORA PAR Monitor Printer e 4 F 1 Video Card Fig 2 Alignment Kits DDC Instructions Continued 4 Configuration and procedure There is no Hardware DDC DDC IC anymore Main EEPROM stores all factory settings and DDC data EDID code which is so called Software DDC The following section describes the connection and procedure for Software DDC application The main EEPROM can be re probrammed by enabling factory memory data write function on the DDC program EDID301 EXE INITIALIZE ALIGNMENT BOX In order to avoid that monitor entering power saving mode due to sync will cut off by alignment box it is necessary to initialize alignment box before re programming DDC Data Following
32. VESA DDC2B Picture tilt control Low emission TCO99 TCO 03 All rights strictly reserved Reproduction or issue to third parties in any form whatever is not permitted without written authority from the proprietors V50 19 109B5 97KHz HB TYPE 109B50 00 8639 000 14291 E 2003 06 17 BRAND PHILIPS x 580 31 TY CHECK pate 2003 06 17 Propertyot PHILIPS ELECTRONICS INDUSTRIES TAIWAN LTD B E 2838 100 05424 x y NF GENERAL PRODUCT SPECIFICATION Continued A 1 0 2 0 211 e 3 0 02 Us LA W N 22 3 2 1 3 2 2 3 3 3 4 9g 3 5 12 3 6 2868 3 6 1 352 3 6 2 HE 3 6 3 3 7 928 gt 5 3 283 3 9 SEE prg 25 3 10 2411 4 0 4 1 42 4 3 4 4 4 5 4 6 INDEX Introduction General description General condition Electrical characteristics Signal interface Input requirements Input signal Impedance Signals input Factory pre set modes Timing requirements Horizontal scanning Vertical scanning Power supply Power saving management system CRT description RGB amplifier Video amplifier Brightness and contrast SRGB Variation of image size after warm up 30 minutes 8 Degaussing Phosphor protection Low emission requirements TCO99 TCO 03 Display data channel DDC2B VESA STANDARD Display Display resolution Image size Image centering deviation
33. 1 After initialize alignment box connecting all cables and box as shown in Fig 10 PC Rear view of the monitor Fig 10 Sr n MET CMM a 9 5 8 5 8 12 gt 2 Video cable i b Step 2 Read DDC data from monitor 1 1 Click the left key of Mouse or hit any key on the keyboard then the characters disappear from the screen 1 2 Click 28 icon as shown if Fig 11 from the tool bar to bring up the Configuration Setup windows as shown in Fig 12 Untitled EDID Tool 3 01 i ml File 2 View Help ale HE PHILIPS Fig 11 2 Select the DDC2B as the communication channel Select Enable amp fill out FO for Mapped EDID page address as shown in Fig 12 Configuration Setup Fa 3 DDC communication channel 8 i AOC command 107 C AOC command 104E 105E Factory memory data write Enable Monitor must be enter factory mode Mapped EDID page address Hex Software DDC Software DDC only Click OK button to confirm your selection 4 Click E icon Read EDID function to read DDC EDID data from monitor The EDID cod
34. 200mV 4 00 45 0045 E SIN Chi eS lly 0 00000 s Ch1 Freq 113 2 5 92 v Ch1 Min 3 16 V Ch1 RMS 4 62 V Ch 200 V E hi7 4557 ij 0 00000 s Tek Run 1 Freq 67 49 5 16 v Ch1 Min 680 Ch1 RMS 1 77 V 7555 156v i 0 00000 s Ch1 Freq 67 50 2 11 7 V Ch1 Min 300mv Ch RMS 7 40 V SH 500v TO Ops A a Chi 7 6 50 V ij 0 00000 s Tek Run Ch1 Freq 67 00kHz 2 62 Chi Min 840 Ch1 RMS 1 57 V Tow i i 1 00 Chr gt 0 00000 s Freq 67 48 2 1 12 0 Ch1 Min 500 Ch1 RMS 7 75 V PEEN E E 1 5 00 0 0us a chi ii 0 00000 s Ch1 Freq Er cu usd s ws wh pa Sea gs ma scl T20 7 HZ 4 1 Low signal amplitude Ch1 Max 6 72V Ch1 Min 5 76 V DEEST PER A UDIN Chi RMS 6 33V 2000 mS 7 oma ij 0 00000 s Freq 259 8 Hz Ch1 Max 1 47 V Ch1 Min 90 0mV Ch1 RMS 1 01V Ch1 500 4 00 5 Toms chi F HIN gt 0 00000 s Stop Ch1 Freq 92 38 2 1 1 74 V Ch1 Min 360 Ch1 RMS 1 10 gt 0 00000
35. 4 V M ooms A chi 7 amp Video Panel Freq 67 49 2 12 8 Chi Min 900mV Ch1 RMS 4 46 V ii 0 00000 s 45 Tos Run 1 Freq 67 50 2 11 7 Chi Min 600mvV Chi RMS 4 74 V si AINA moons lly 0 00000 s Tek Run Freq 67 48kH2 Ch1 Max 3 96 V Ch1 Min 240 Chi RMS 1 13 V brum T TESI chi F gt 0 00000 5 stop Freq 1 379MH2 Ch1 Max 600mVv Ch1 Min 20 0mV Ch1 RMS 294mV RE gt 0 00000 s Tun Chi Freq 67 50 2 10 8 Ch1 Min 600 Ch1 RMS 6 15 V gt 0 00000 s 49 Run_ 6 Tok Run 62 Bk Run sa 9v 1 Trig Freq 67 45 2 12 4 Ch1 Min 300 Chi RMS 7 76 V Ons Chr 7 NAE XI i1 0 00000 s Freq 67 53kHz Ch1 Max 81 0V Ch1 Min 5 00 Ch1 RMS 47 7 V aio ons a Chi 7 48 11 7 0 00000 s Ch1 Freq 67 56 2 98 0 v Ch1 Min 256 V Ch1 RMS 88 3 V gt 0 00000 s Freq 67 33kH2 Ch1 Max 9 60V Ch1 Min 500 Chi RMS 4 12 Mi LATE EN chi P gt 0 00000 s 63 V 200 Ch1 Freq 67 50kHz Ch1 Max
36. 41 20030421 If OSD menu disappears on the screen of monitor press 84 again anytime then the OSD menu comes on the screen again If you do not access Factory mode when you execute write EDID it will bring up an error message as below Factory write error x e EEPROM verified error 0x01 0x00 V50 109B5 lt to cover page Step 6 Write DDC data 1 Click Write EDID icon from the tool bar to write DDC data Bring up Writing 0 100 ready a progressing bar on the left down corner 2 Click Read EDID to confirm it Step 7 Confirm Serial Number in User Mode 1 Press the button to turn off the monitor Press the button again to turn on the monitor 2 Press the button to bring up the OSD Main Menu 3 Pressthe button to select Extra Controls press the button to confirm your selection 4 Confirm the Serial Number 123456 is updated as shown in Fig 18 EXTRA CONTROLS ADJUST MOIR 5 BACK TO MAIN CONTROLS 9 MOVE SELECTION THEN SERIAL NUMBER TY RESOLUTION 1024 74 FREQUENCY 69 23456 8 1280 1024 BSHZ 64K 60HZ Fig 18 Step 8 Save DDC data Sometimes you may need to save DDC data as a text file for using in other IC chip To save DDC data follow the steps below 1 Click Save icon or click file gt save as from the tool bar and give a file name as shown in Fig 19 The file type is EDID30 1 file ddc which can be open
37. 4708 92354 68R 2341 2547 5307 1u8 25 Sparkgap 1 0 mm N ixl N N 100 lu 3305 4K7 P 6301 3734 330K BAV21 6731 3367 6732 3732 BAV21 10 2732 3731 1 33240 3K3 N 4R7 aS 9 3K3 3323 13 0 5752 1 2731 3306 1 6302 7 4 5 9301 9302 R 1 7 79 12 7 79 12 SDA 5 5 lOn 7t 8 9 Sparkgap 1 8 mm 1 6303 5 303 5305 1715 BEAD F704 3703 R s001 I 1 1 1 1715 9 12 17115 0 San 100MHZ 5771 1 2771 gt 100R 3332 3333 100R 3704 1 4W P 6772 2772 330p 500V K5 3771 RGP10G lt 6771 47 12 79 012 87 N I 171 N eo rm 0 3V3 DDC lt 25 10u 2356 Q 2 o 4 4 3750 57518 2751 3 120R 160 1 2W C C 3363 E
38. 555 3 b i 4 5 0 2 Container loading 2509 Container size 5 lt ag 40Feet 20Feet High cube 40 feet 2 Q ty W Pallet W Pallet W Pallet lt 2 Yes No Yes No Yes No Layers 5 5 5 5 5 5 Sets per layer 4 4 4 4 4 4 Sets per block 16 16 16 16 20 20 Blocks percontainer 22 22 10 10 22 22 Total set 352 352 160 160 440 440 109B50 00 8639 000 14291 2003 06 17 EU BRAND PHILIPS o NAME C 77 seems 2 590 16 10 CHECK DATE TY 2838 100 05424 72003 06 17 NF Propertyof PHILIPS ELECTRONICS INDUSTRIES TAIWAN LTD B E GENERAL PRODUCT SPECIFICATION Continued Go to cover page Ab 7 2 Display disturbances from external environment 7 2 1 ESD Disturbances According to IEC65 also refer to IEC801 2 for detail 7 3 Display disturbances to external environment PHILIPS The disturbances induced by the display and tolerated by the environment are defined as follows 7 3 1 Ionizetic radiation Completely fulfilled International Commission of Radio logical Protection ICRP requirement 0 5 mr hrs Actually the set can reach 0 1 mr hrs PHILIPS 7 3 2 Safety and EMI EMS requirements safety USA UL 1950 CANADA CSA 22 2 NO 950 M89 NORDIC IEC950 60950 29 SEMKO TSE 74SEC 207 94 E EUROPE CE Poland PCBC 528 Singapore PSB 5 Germany SUV HH gt EMS 61000 4 3 80 11117 AM modulation picture jitter 4mm
39. 6 3 2 2418 05 MAIN PCB 5419 D2 2420 C1 SB 57451 x1 mu 2431 H2 PB 58361 GENERATOR 2275 VER 1 267309 POWER 5 42 F081 267409 VER 7 pea 1 2675 7 5 1401 2401 2676 G8 2681112 2682 H14 2683 G12 2685 F12 3401 D 1 THERMAL PROTECTION 3402 1R8 UJ 3409 2K2 220R 1 2W 2405 20 00 3402 B5 3403 B5 3405 C4 3406 C5 3407 5 3408 C5 3409 B3 gt 3411 4 4 3413 G4 4 350 3415 5 3416 G5 3417 5 3418 olco 3419 F2 556 2122 5681 3420 F1 8 2087 3421 E1 3682 7671 3422 6 470R A STP NK OZFP E 3423 D3 1 F0835 3681 3426 6675 gt e P vu 3424 C2 o C ds Z SG E V YOKE 3408 8 3406 188 1 2W 3407 E 4 IR8 1 2w 98 N 11 05501 3 3 9 0 4 o 2419 je 2U2 50 BAS32L 3423 330K Vas 2418 47K 1 4148 E 3426 01 5753 3 L 3427 E1 311 0 3431 62 DAF 11 700 DAF 3432 12 6415 BAS32L 47K 3425 3433 H2 i 3680 F9 3681 D8 368
40. 7627 0 260914 DS H UNLOCK CLAMPING pp V POSITION 1 DC 200 9605 200 Vpp F02 DoD T 2611E15 6503 amp V BLANK V SIZE VOVSCN 56 12 7616 3215 DA a Peru do 92x 2616 E17 6601 E11 nk 8 E SSA 2617E17 6602 D12 Yee Satin m gt gt 6026 3621 8 8 228 gs 2021 665 B17 D EW CORR NN j pne 3567 nS zu 205 5148 5 m WW WEE BF422 262314 6607 Ela 1 HORIZONTAL 5 S 3005 83 761 Qao sS 2 33R 2W Noy 7628 2624018 83 6 100R are AND VERTICAL QoS 180338 40 TAN 854 SOR q AS O56 2625 18 6609113 SCL RECEIVER 6 5 13 2 6 6 3616 m 2 S 1895 DLT 2626 H19 6621 5 TOOR 1 C BUS REGISTERS 5 SRW2SEF T24V004 DC SHIFT 2629 B12 6622 C14 T A 28 5603 Asx 2631118 85 11 8v SUPPLY pum 5 4 64 2504 67 2623 3618 JL 5602 5604 F027 RGP10D 55 us 2632118 6626 C17 AND COINCIDENCE DETECTOR PROTECTION CONTROL 3 5 T 1 TT 4 1 100R 460 20 82 558 2634018 6820 7 I REFERENCE eee M cog x 5 5 U 2636 015 6821 7 52 59 TO N 8 5 9 gt 9 53 7618 21 2638 H15 682219 3505 528 OSH NT 5601 18328 40 2640115 7501 BS H SYNC OUT 3569 9 PLL1 AND HORIZONTAL PLL2 PARAL 1 VALUE 6623 2642 15 7502 4 H C SYNC INPUT H POSITION SCILLATOR PIN UNBALANCE a
41. 85 44 Go to cover page Standard Timing Identification 5 Horizontal active pixels 1600 Aspect Ratio 4 3 Refresh Rate 75 Standard Timing Identification 6 Horizontal active pixels 1920 Detailed Timing 1 Aspect Ratio 4 3 Refresh Rate 0 Pixel Clock MHz 202 5 Active pixels 1600 H Blanking pixels 0 V Active lines 1200 V Blanking lines 50 H Sync Offset F Porch pixels 64 H Sync Pulse Width pixels 192 V Sync Offset F Porch lines 1 V Sync Pulse Width 3 H Image Size mm 360 V Image Size mm 270 H Border pixels 0 V Border lines 0 Flags Non interlaced Normal Display No stereo Digital Separate sync Positive Vertical Sync Positive Horizontal Sync Monitor Descriptor 2 Serial Number TY 123456 Monitor Descriptor 3 Monitor Name PHILIPS 109B5 Monitor Descriptor 4 Monitor Range Limits Min Vt rate Hz 50 Max Vtrate Hz 160 Min Horiz rate kHz 0 Horiz rate kHz 97 Max Supported Pixel 240 No secondary GTF timing formula supported Extension Flag 0 Check sum HEX k k K lt k k k k k k k k k k k k k k k k k k k k k k k k k k k K k k k k k k k k k k k k k k k K k k k k K k lt k k k k k k k k k lt x EDID data 128 bytes k k k k k K k k k k K lt k k k k k k k k k k k k k k K k k K k k k k k k k k K k k k k k k k k k gt
42. LL LL bb bb OO OU COL Lb Flac x gt 000000000000000 gt 4 PD NIT AOR 0000 NMIO 14060 CNOO CN 7 POOR FTN O 00 0 2 UO sEULOQOP 0009 O rO 01 00 00 NOR 0000 AINSI SEUOO SE PO PO SE SE SE SE SECO 7 CNCOCOCOCOOOOOCOCOCOCOONCNCONCNE IS ISIS ISIS 000 CNCNCN CO O OCOOCD CNN CNCNCNIONIN DSF E SEE SE SE SE SE SEDI II OO NNANNNNNOOO 7 7 7 7 096262606 7 wESE SELOUOUOCGOCOCOCOCOCOCOCOCOCOCOCOCOCOCOCOCOCOCOOQ 0000 0 SE SE SEULDUDUDUOCOCOCOCOCOLOCOCOCOCOCOCOCOCOCOCOCOCOCOCOCOCOCOLOCOCOCOCOCO 000000 sr lt rsr lt srsP lt SPSE lt SPSESESEPSHELOLOLOLOLCOLOLOLOLOLOLOLOLOLOCOCOCOCOCOCOCOCO C DC OC OC OC OCOCOCOCOCOCOCOCOCOCOCOCOCOCOCOCOCOCOCOCOCOCOCOCOCOCOCOCOCOCOCOCOCOCOCOCOLOTS P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P
43. MO o O O gedeeltelijk is niet toegestaan dan met schriftelijke is prohibited without the written consent of the copyright Alle rechten voorbehouden Verveelvuldiging geheeNbfights reserved Reproduction in whole or in parts toestemming van de auteursrechthebbende M N N R STANDS FOR COMPONENTS RESERVED 9316 BS STANDS FOR CHIP COMPONENTS 97164 TYT12 SETNAME V50 F304 D2 4 CLASS NO 3XX000 Video Schematics 3138 178 6517 F311 D2 09B50 00 2003 06 20 3 Q NAMBVichael Wang lvy Su SUPERS 1 MGr CHECK DATE 2003 04 08 KONINKLIJKE PHILIPS ELECTRONICS 2000 705 F19 I I 706 19 1 2 3 4 5 6 7 8 9 10 11 12 13 14 SZ 15 16 17 8 19 20 21 22 23 24 25 26 27 28 F708 F22 716 G22 OW LO CNLOCOCO CO CNLOLOLOLOLOCNCNLO O OLOLO OWOLO PII SE 6 6 oC30D0D0D0C CODD gt gt x 00x 000 gt CO CO c C333 000007 OX COCNPO XE LO NMF NAANA COPS 0000 SELOCOCNIFO 00 00 NIPNOPOPN C6OCOP 0000 CNCWYCNCNCNCNPINO NONO POPOPOLOLOLOLOLOCOCOCOCOCO 609
44. Mos 1280 x 1024 64 0 60 Automatic Power Saving If you have VESA s DPMS compliance display card or software installed in your PC the monitor can automatically reduce power consumption when power saving function active And if an input from keyboard mouse or other input devices is detected the monitor will automatically wake up The following table shows the power consumption and signaling of this automatic power saving feature Power Management Definition VESA s POWER POWER LED VIDEO H SYNC V mode SAVING COLOR Active Yes Yes Tyical 75 w 0 Green Flashin OFF Blanked No w 97 p This monitor is ENERGY STAR compliant As an ENERGY STAR Partner PHILIPS has determined that this product meets the ENERGY STAR guidelines for energy ENERGY STAR is a U S registered mark AS AN ENERGY STAR PARTNER DELL Computer Corporation HAS DETERMINED THAT THIS PRODUCT MEETS THE ENERGY STAR GUIDELINES FOR ENERGY EFFICIENCY efficiency V50 109B5 I4 Go to cover page Front View 5 C M A kx 0 4 k ee 2 Power button switches your monitor on gt OK button which when pressed will take you to the OSD controls Contrast hotkey When the button is pressed the adjustment controls for the CONTRAST will show up Z Brightness hotkey When the
45. PM20A 3739 232273061829 RST SM 0805 RC11 82RPM5 R 3892 212211000389 RST MFLM MF1 2WS A 18K PM1 SURGE PROTECT SGP 201M DRF 9751 232273061471 SM 0805 RC11 470R 5 R 3893 212211000401 RST MFLM MF1 2WS A 47K PM1 A CER1 0805 NPO 50V 470P 5 R 3752 213810113334 12 A330K PM5 A 6801 932218424682 LED VS L 34GD KIEL B ELCAP GS 25VS 470 PM20A 3753 232273061122 RST SM 0805 RC11 1K2PM5 CER2 0805 X7R 50 4N7 PM10R 3754 232273061224 RST SM 0805 RC11 220K PM5 R CER2 0805 X7R 25V 100N PM10R 3755 232273061683 RST SM 0805 RC11 68K PM5 CER2 500V 330P PM10A 3756 232273061223 RST SM 0805 RC11 22K PM5 R CER2 0805 X7R 25V 100N PM10R 3757 213810113109 RSTCRBCFR 12 108 PM5 A 2 0805 X7R 25V 100N PM10R 3758 212010128121 RST ERC12 A120RPM10A CER2 0805 X7R 25V 100N PM10R 3759 213810113829 RST CFR 12 828 PM5 A ELCAP KM 25V 5 470 PM20A 3761 213810113478 RST CRB CFR 12 A 4R7 PM5 CER2 0805 X7R 25V 100N PM10R 3762 232273061103 RST SM 0805 RC11 10K PM5 CER2 0805 X7R 25V 100N PM10R 3763 232273061332 RST SM 0805 RC11 5 MPOL 100 100 10 3764 232273061472 RST SM 0805 RC11 4 7 CER2DC 2KVS 10N PM20B 3765 232273061682 RST SM 0805 RC11 6K8PM5 2 0805 X7R 25V 100N PM10R 3767 232273061472 RST SM 0805 11 4 7 5 RST CRB 12 758 5 3771 232224522152 RSTMGLLSR37 1K5 PM10R RST CRB CFR 12 758 5 3772 212010128153
46. TOP BOTTOM lines Picture tube should be mounted without tilt w r t Cabinet 6 1 7 Adjust pincushion to get optimum vertical line 6 1 8 Adjust trapezoid to get optimum vertical line 6 1 9 Adjust balanced pincushion to get optimum vertical line 6 1 10Agjust the parallelogram to get optimum vertical line 6 1 11 Adjust the Top Bottom corner control to get optimum corner geometry 6 1 6 6 1 7 6 1 8 and 6 1 9 may need to be readjusted 6 1 12 Store the set result and exit OSD the values for pincushion trapezoid balance pincushion and parallelogram can be copied to the other inspection modes to shorten alignment time 6 2 Other inspection mode geometry adjustment Use following procedure for all inspection modes except 68 7kHz 85Hz Timing Table 1 8 6 2 1 Adjust the Horizontal Size to 355mm 6 2 2 Adjust the Horizontal Position to center position 6 2 3 Adjust the Vertical Size to 265 mm 6 2 4 Adjust the Vertical Position for correctly centered vertical video 6 2 5 Adjust pincushion to get optimum vertical line 6 2 6 Adjust trapezoid to get optimum vertical line 6 2 7 Adjust balanced pincushion to get optimum vertical line 6 2 8 Adjust the parallelogram to get optimum vertical line 6 2 5 6 2 6 6 2 7 and 6 2 8 may need some iteration 6 2 9 Store the set result and exit OSD 12 Electrical Adjustments Continued 44 Go to cover page 7 Alignment of Vg2 cut off point white tracking Equipment 1 Video Test
47. Vertical Sync Positive Horizontal Sync Monitor Descriptor 2 Serial Number TY 123456 Monitor Descriptor 3 Monitor Name PHILIPS 109B5 Monitor Descriptor 4 Monitor Range Limits Min Vt rate Hz 50 Max Vt rate Hz 160 Min Horiz rate kHz 30 Horiz rate kHz 97 Max Supported Pixel 240 No secondary GTF timing formula supported Extension Flag 0 Check sum HEX Hex Data 8 E k k k k k k k k k k k k k k k k k K k K k k k k k k k k K K k K K k k kk EDID log file CPT tube kk k k k K K k k K k k k k k k K k K k k K k k k k k k k k k k k k k k k k k k k k k k k k k k k Vendor Product Identification ID Manufacturer Name PHL ID Product Code E018 ID Serial Number 3039 HEX Week of Manufacture 3 Year of Manufacture 2003 EDID Version Revision Version 21 Revision gt Basic Display Parameters Features Video Input Definition Analog Video Input 0 700V 0 000V 0 70Vpp without Blank to Black Setup Separate Sync without Composite Sync without Sync on Green no Serration required Maximum H Image Size 36 Maximum V Image Size 27 Display Transfer Chara
48. button is pressed the adjustment controls for BRIGHTNESS will show up buttons are used for adjusting the OSD of your monitor Front control amp OSD Rear view 1 Power in attach power cable here 2 Video In this is a cable which is already attached to your monitor Connect the other end of the cable to your PC Description of the On Screen Display What is the On Screen Display This is a feature in all Philips monitors which allows an end user to adjust screen performance of monitors directly though an on screen instruction window The user interface provides user friendliness and ease of use when operating the monitor Basic and simple instruction on the control keys On the front controls of your monitor once you press the button the On Screen Display OSD Main Controls window will pop up and you can now start making adjustments to your monitor s various features Use the the keys to make your adjustments within MAIN CONTROLS gt INPUT SIGNAL SELECTION HORIZONTAL ADJUST VERTICAL ADJUST SHAPE ADJUST COLOR RESET TO FACTORY EXTRA CONTROLS CN SETTINGS CLOSE MAIN CONTROLS MOVE SELECTION THEN OSD menu tree The OSD Tree Below is an overall view of the structure of the On Screen Display You can use this as reference when you want to later on work your way around the different adjustments CRT OSD tree English
49. must not exceed 0 5 milliamps If a measurement is outside of the specified limits there is a possibility of shock hazard The receiver should be repaired and rechecked before returning it to the customer Repeat the above procedure with the ac plug reversed Note An ac adapter is necessary when a polarized plug is used Do not defeat the polarizing feature of the plug Picture Tube Replacement The primary source of X radiation in this television receiver is the picture tube The picture tube utilized in this chassis is specially constructed to limit X radiation emissions For continued X radiation protection the replacement tube must be the same type as the original including suffix letter or a Philips approved type Parts Replacement Many electrical and mechanical parts in Philips television sets have special safety related characteristics These characteristics are often not evident from visual inspection nor can the protection afforded by them necessarily be obtained by using replacement components rated for higher voltage wattage etc The use of a substitute part which does not have the same safety characteristics as the Philips recommended replacement part shown in this service manual may create shock fire or other hazards SERVICE NOTE The CRT DAG is not at chassis ground WARNING Before removing the CRT anode cap turn the unit OFF and short the HIGH VOLTAGE to the CRT DAG ground
50. or damaged insulation including the ac cord Be certain to remove loose solder balls and all other loose foreign particles Check across the line components and other components for physical evidence of damage or deterioration and replace if necessary Follow original layout lead length and dress No lead or component should touch a receiving tube or a resistor rated at 1 watt or more Lead tension around protruding metal surfaces or edges must be avoided Critical components having special safety characteristics are identified with ans by the Ref No in the parts list and enclosed within a broken line where several critical components are grouped in one area along with the safety symbols on the schematic diagrams and or exploded views When servicing any unit always use a separate isolation transformer for the chassis Failure to use a separate isolation transformer may expose you to possible shock hazard and may cause damage to servicing instruments Many electronic products use a polarized ac line cord one wide pin on the plug Defeating this safety feature may create a potential hazard to the service and the user Extension cords which do not incorporate the polarizing feature should never be used After reassembly of the unit always perform an leakage test or resistance test from the line cord to all exposed metal parts of the cabinet Also check all metal control shafts with knobs removed antenna terminals handl
51. press PJ v again anytime then the OSD menu comes on the screen again Using W to select V50 10985 97K V0 41 20030421 Press button to access confirm the selection Bring up the function adjustment as shown in Fig 2 2 Press button for function selection as shown in Fig 2 2 Press button to access confirm each item selection The cursor indicator will be changed from yellow colour to red colour Using to increase or decrease the value 9300 BIAS 6 8 for ref 75 107 116 218 174 161 6500 BIAS GAIN R G B for ref 80 110 117 206 141 93 5500 BIAS RGB GAIN R G B for ref 86 112 118 206 121 56 SRGB BIAS RGB GAIN R G B for ref 89 115 124 145 85 40 SRGB X OSD for ref 128 255 180 FOCUS H V VLINBAL USER P tor ref 0 140 100 50 RASTER V LINH V SUB tor ref 79 127 255 120 50 V OFFSET GAIN SUB for ref 128 220 184 SUB VPOSITION CORNER T B ABL SUB XX e es 88 255 LF BRIGH SHARP 22 2 for ref 3 3 for example 75 is value of BIAS BIAS RGB R red G green B blue cutoff GAIN R GB R red G green B blue gain OSD contrast OSD window contrast V OFFSET Vertical raster center V GAIN Vertical size center VLIN BAL Vertical Linearity Balance V FOCUS Vertical Focus adiustment T CORNER Corner Correctionof TOP B CORNER Corner Correctionof BOTTOM EHT H
52. 0 CNCNCN COCOCNCN CNCN NCO ACCC ON NNN NN CO CO OLLICO I CCC OC LOL COLLICOCOCOCOCOL 1 oc oo gt rj o ao en 71 o gt COP DO NOINMORONAISANOM MF COO 000 FP 00 xELOU OXGO QT 00000 NANG PON NONO OO OO OO OO P P P P P P P P P PS I NONO NONO gt 3 TF ORION SE SE LO CN POCNLO xEPOCNCGCOLOCNCNCN LOLOL SY COLI CORNY lt OOM gt gt CoCOCOCOCO x gt OL C OCOC OC gt gt gt gt gt cu pu COL OOO MUO gt POLOP CNLO ON O lt CN NTN OS CN CONUM 10060 CNPO OP SEPOCNLO CO COCOCOCOCOCNLOLOP DI CO COCOCOCNCNPOPOLOLO PS T COCOCOCOCOQCNCNPOPOLOLOGCO COO9COOCOCOCOCO 7 CNONCNCONCO LO LO LO LO LOLO LO CO OO WOOO OWMO WMPFYPRPRPRPRPRPRIRPRIPRPRPS 000009010 O O O O O OS OSO OI O O
53. 0 B ELCAP KM 250V S 33U PM20 B CAP MPOL 250V S 10N PM5 A ELCAP KM 25V S 100U PM20 A ELCAP KM 25V S 100U PM20 A CAP MPP MPSA 400V 270 5 ELCAP GS 25V S 2U2 PV20A CERHDT RR 2KV S 100P PM10A CERHDT F Y5R 2KV S 150P PM10 CERHDT RR 1KV 5 680P PM10A ELCAP KM 50V S 10U PM20A CAP MPP MPS 250V S 100N PM5 B CAP MPP MPS 250V 220N 5 CAP MPP MPS 250V 5 510 5 CAP MPP MPS 250V 1U5 PM5 ELCAP KF 100V S 100U PM20 B ELCAP KM 100V S 4U7 PM20A CAP MPOL 630V S 47N PM10 B CAP PP PPN 630V 5 B CER2 DCB 50V S 2N2 PM10A ELCAP RGA 160V S 10U PM20 B CAP MPOL 250V S 47N PM10 B ELCAP GS 50V S 1U PM20 MPOL 100VS 1UPM5 CAP MPOL 100V S 470N 10 ELCAP GS 16V S 470 20 CER1 0805 NPO 50V 10P PM5 R ELCAP GS 16V S 470 20 CER1 0805 NPO 50V 10P PM5 CER1 0805 NPO 50V 220P PM5 R ELCAP GS 50V S 202 20 CER2 DC F 50V 22N P8020 A CER1 0805 NPO 50V 100P PM5 CER2 DC F 50V S 22N P8020 A 2824 2825 2826 2827 2828 2835 3101 3104 3105 3107 3108 3109 3110 3113 3115 3117 3121 3124 3125 3127 3128 3131 3134 3138 3139 3140 3141 3142 3144 3145 3146 3147 3149 3153 3154 3156 3403 3405 3406 3407 3408 3409 3411 3412 3413 3415 3416 3417 3418 3419 3420 3421 3422 3423 3424 3425 3426 3427 3431 3432 3433 3501 3502 3503 3504 3505 3507 3508 3509 3510 3512 3513 3515 3516 3517 3518 3519 3522 3523 202202000805 202202000805 2
54. 0113479 213810113472 213810113472 213810113101 213810113101 232273061102 232273061102 232273061102 213810113689 213810113689 213810113689 213810113479 213810113101 213810113222 232273061102 232273061102 213810113332 232273061332 213810113822 213810113332 232273061562 232273061332 232273061562 232273061105 Spare Parts List 3332 232273061101 RST SM 0805 11 100RPM5 R 6771 933493960673 DIO RGP10G A VISH A 3333 232273061101 RST SM 0805 RC11 100RPM5 R 6772 933117810133 DIO REG 79 012 82 A PHSE 3334 232273061479 SM 0805 RC11 479 5 7301 935266857112 TDA4886 V2 PHSE L CER1 0805 NPO 50V 100P 5 R 3361 213810113101 RSTCRBCFR 12 1008 5 7302 935270542112 IC TDA4823PS V1 L CER1 0805 NPO 50V 47 5 33620 232273061101 RST 0805 11 1008 5 R 7303 932210611676 ICLE33CZ STOO A 2 0805 X7R 25V 100N PM10R 3363 232273061101 RST SM 0805 RC11 1008 5 R 7304 932218565682 NT68275 00031 NOVA L 2 0805 X7R 25V 100N PM10R 3367 213810113478 RSTCRBCFR 12 4R7 5 A 7721 932214469676 TRA SIG BF422 KECO A CER2 0805 X7R 25V 100N PM10R 3376 232273061689 RST SM 0805 RC11 68 5 7722 932214469676 TRA SIG 2 KECO CER2 0805 X7R 25V 100N PM10R 3378 213810113689 RSTCRBCFR 12 68RPM5 A 7731 932214469676 TRA SIG 2 KECO A CER2 0805 X7R 25V 100N PM10R 3381 232273061689 SM 0805 RC11 68 5 R 7732 932214469676 TRA SIG 2
55. 1 1 NI Repair Tips 0 Warning All ICs and many other semi conductors are susceptible to electrostatic discharges ESD Careless handling during repair can reduce life drastically When repairing make sure that you are connected with the same potential as the mass of the unit via a wrist wrap with resistance Keep components and tools also at the same potential 1 Servicing of SMDs Surface Mounted Devices 1 1 General cautions on handling and storage Oxidation on the terminals of SMDs results in poor soldering Do not handle SMDs with bare hands Avoid using storage places that are sensitive to oxidation such as places with sulphur or chlorine gas direct sunlight high temperatures or a high degree of humidity The capacitance or resistance value of the SMDs may be affected by this Rough handling of circuit boards containing SMDs may cause damage to the components as well as the circuit boards Circuit boards containing SMDs should never be bent or flexed Different circuit board materials expand and contract at different rates when heated or cooled and the components and or solder connections may be damaged due to the stress Never rub or scrape chip components as this may cause the value of the component to change Similarly do not slide the circuit board across any surface 1 2 Removal of SMDs Heat the solder for 2 3 seconds a
56. 109 5 ee 2633 202055890556 Main Board 313817863851 1 ASSY LG 2634 203803527501 2638 203830100315 2640 203830100224 2103 203831000014 CAPMPP 275 680 10 2642 203830100332 2104 202055490163 CERSAF NSB 250V S 2N2 PM20 B 2647 203830100217 2105 202055490163 CERSAF NSB 250V S 2N2PM20B 2671 202203100151 2106 203803524008 ELCAP 400V 1500 PM20B 2672 203803527701 2107 203830250229 CAPMPOL 2501 5 10NPM5 26 3 203830200203 2111 225260214216 CER2DC 7 2KV 5 220 10 2674 203830100109 2112 202055490158 250 5 2N2PM20B 2675 202055290812 2113 202055290834 2 50VS 22NP8020A 2676 203803513803 2115 202203600002 ELCAPBPNK 50VS 1UPM20A 2681 203830200151 2121 202055290607 CER DC NPO 50 220P PM5 2682 202202000836 2123 203803521306 GS 25 5 470 20 2683 203830200209 2124 223858015645 2 0805 X7R50V 47NPM10R_ 2685 203830250099 2131 202055290814 CER2DCB 50VS 3N3PM10A 2806 203803521206 2133 203830250219 100 5 22NPM5 2813 223886115109 2134 225256108406 1KVS 47PPM10A 2814 203803521206 2139 203830250229 250 5 10 5 2815 223886115109 2141 203803521201 ELCAP GS 16VS 100 20 2816 223886115221 2142 202202000716 GS 10 5 47000 PM20B 2817 202202000805 2143 203803521206 GS 161 5 470 20 2818 202055290834 2144 203803521206 ELCAP GS 16VS 470 20 2819 22
57. 19 Auto scan Colour Monitor Services Service Service Se Chassis V50 V50 109B5 109B50 109B55 ice Manuail Horizontal frequencies TABLE OF CONTENTS SE KEZ Description Page Description Page Important Safety Notice 2 81061210128 018100 32 2222 E 23 Technical Data 3 Video Schematic Diagram amp C B A 24 25 Front control amp OSD 4 Main Schematic Diagram amp 26 30 OSD menu tree 5 Waveform of all Schematic 31 32 Lock Unlock Burn Service mode 6 Key Control amp MHR Schematic Diagram 33 36 Wiring Diagram 7 l 6 510 9 37 Mechanical Instructions 8 9 Exploded View 38 Warning and Notes 10 Recommended parts list 39 Electrical Adjustments 11 13 Spare parts list 40 42 DDC Instructions 14 18 Different parts 1 8 ere 43 He
58. 2 V50 CLASS NO Power Schernatics 3138 178 6385 109B50 00 2003 06 20 3 NAMBMichael Wang J Cheng SUPERS 3 CHECK DATE 2003 06 20 KONINKLIJKE PHILIPS ELECTRONICS 2000 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 27 V50 109B5 44 Go to cover page Schematic diagram of Main Board 3
59. 2 7 3683112 3684 12 3685112 3686 13 3687 13 H 3688 H14 3689 H14 3690114 3691111 3692 7 10 F089 3693 F7 3694 E7 1 3695 9 3696 8 gt 3697 12 3698 G13 2685 3699 G12 WHITE 1 4 4401 4 4700 5682 08 5681 0 F091 3697 6401 A4 12 2 4 6411 G5 i 1M 6412 F2 6413 D3 6414 D3 13 6415 D1 G 642113 6671 F9 6672 F8 6673 F8 K 6674 D9 6675 D7 6676 E8 6677 G9 6681 H11 6682 H14 7401 4 7411 4 L SSA H 7412E2 CN 7413 C2 6414 O BASIL lt q 2675 50 toou 7411 1 6 4 9 5682 E FO85 L 7 UC3843AN 8 8 100 5 5 ro N N KL ese H FLY INTERNAL BIAS IRFGAOFP 616676 lt 1DF FC5 VREF GOOD LOGIC 3094 F086 F087 F088 4 47 UJ N Os Rw N 0 3418 8 2 2 5 62 350 2415 2414 4 10 c 100 4K7 AI 3693 RROR AMP poo b PWM LATCH RRENT SENSE 6673 6672 F gt COMPARATOR 47 3420 330R 641 1 4148 3419 X ray Control 6671 F090 3 BZX79 B33 7 79 1 RGPIOD TR 447
60. 2 pin26 pll1 is unlock in searching mode 3 pin1 HFLB no exist 4 pin10 2 Vcc 9V inhibit pin6 output bi if pins is pulled to ground by 7505 Repair Flow Chart Continued E 4 Go to cover page 17 Hunlock Hunlock pin is floating while pll1 pin26 is unlock in searching mode 18 scl hi initial sequence of IC 7501 7301 7304 22 23 24 22 determin the AGC pin23 pin24 determin frequency P 26 determin the 26 27 9 pll1 loop filter Hpll1 Hbuf Href Heap pin 27 28 29 H Freq 0 working range 1 PLL2 1 the HFLB and control the phase of 2 softstart 32 Focus to 7631 for the V dynamic focus GENERAL PRODUCT SPECIFICATION 44 Go to cover page Ax V50 10965 HB 19 General Specification Sheet 590 FEATURES BENEFITS Extremely high over 75K Hours exclude PHILIPS User friendly OSD display for mode identification and adjustment Professional look with non flammable cabinet 94V 0 Better display performance Flat square display tube Finer CRT dot pitch 0 25 mm Full screen size application Real multi freq PHILIPS Power saving management system
61. 219 us Sync width 0 050 ms Sync polarity Sync polarity TABLE 3 68 677KHz 84 997Hz 1024 X 768 pixel 94 500 MHz Horizontal Vertical Frame border 0 Frame border 0 Total size 14 561 us Total size 11 765 ms Display size 10 836 us Display size 11 183 ms Rear porch 2 201 us Rear porch 0 524 ms Sync width 1 016 us Sync width 0 044 ms Sync polarity Sync polarity TABLE 4 77 094KHz 84 999Hz 1152 X 864 pixel 121 500 MHz Horizontal Vertical Frame border 0 Frame border 0 Total size 12 971 us Total size 11 765 ms Display size 9 481 us Display size 11 207 ms GENERAL PRODUCT SPECIFICATION Continued V50 19 109B5 97KHz HB L TYPE 109B50 00 8639 000 14291 E 2003 06 17 200308 17 BRAND PHILIPS x Te x wes 2 590 d 10 j l A TY 2838 100 05424 CHECK DATE 72003 06 17 Propertyof PHILIPS ELECTRONICS INDUSTRIES TAIWAN LTD B E NF PHILIPS PHILIPS All rights strictly reserved Reproduction or issue to third parties in any form whatever is not permitted without written authority from the proprietors CLASS NO 0 TYPE 56 5 0 2003 06 17 BRAND PHILIPS C C LIAO TY 2838 100 05424 GENERAL PRODUCT SPECIFICATION Continued 50 10985 EJ 44 Go to cover page Ah TABLE 5 79 976K Hz 75 025Hz 1280 X 1024 pixel 135 00MHz Horizontal Vertical Frame border 0 Frame border 0 T
62. 23858015641 202055290603 202055290603 202202000805 232224213105 313810050511 212020200019 213810113102 213811273477 213811273477 213811273477 213811273477 213810113331 213810113103 213810113159 213866000037 213810113391 213810100369 212211000423 232273061273 212211000419 232273061154 213811273332 212211000412 213810113102 213810113154 212211000367 212211000339 213810113479 213810113222 212211000409 212211000376 232273061102 213810113472 212211000338 213810113222 212211000302 212211000302 212261200062 232273061222 232273061154 232273061473 213810113152 213810113472 232273061479 232273061103 232273061822 213811273479 213810113331 232273061103 213810113101 213810113334 213810113223 232273061473 232273061473 232273061472 212020200019 232273061471 232273061121 213810113752 213810113273 212211000385 213810113123 213810113473 213810113472 232224182704 213810113152 212211000349 213810113153 213810113471 213810113153 232224181004 232273061155 232273061154 213810113225 212211000311 232273061332 ELCAP GS 50V S 2U2 PM20 A ELCAP GS 50V S 2U2 PM20 CER2 0805 X7R 50V 22N PM10 R CER1 DC NPO 50V S 100P PM5 A CER1 DC NPO 50V S 100P PM5 A ELCAP GS 50V S 2U2 PM20 RST MGL VR37 A 1 5 MET FLM RST RSS2T 47K 6E RST FUSE RFU1 3 A 10R PM5 A RST CRB 12 A 1K PM5 A RST 25 0947 PM5 RST 25 0947 PM5 RST CRB 25 AOR47PM5 RST CRB 25 AOR47P
63. 3 3334 478 5 47 3761 all 2773 TO MAIN BD 8502 J 3381 D9 T PO ON 3383 6 L 100n MERE 3385 F5 5 25 41921 ita 7304 721 9 168275 2 5303 amp k 955 583 100MHZ 3778 4 e MK F725 m 4 3328 3K3 3763 4 7 ANN 3764 4150 2763 5A F728 3326 i FBKG 3K3 0 42700 CN 1 PWMCKINT eo 064 VFLB 100R 3308 VCE 7761 1008 1 548 n x 5 4 00 00 00 00 6590947 PHILIPS 100r25 2774 100 25 il 2726 BZX79 C5V6 P 6304 03765 M 5 ro lt i a 4 0000 188p 3325 3757 H 2306 02 95776 po TO MAIN BD 8501 3772G _ 8713 41990 1 vE SW 5303 3 v sync O 5705 2 H SYNC EE 4 i 5751 H _ Sstest 57716 6SCL DDC 5779B 936 6301 7 SDA DDC 6302 F3 Ff 8 GND 6304 J2 dus 9 SCL 6722C 10 SDA 6 N 3 SN a a 0 N owner 9
64. 3 06 17 BRAND PHILIPS p TGS 58 25 o TY CHECK pare 2008 06 17 Propertyot PHILIPS ELECTRONICS INDUSTRIES TAIWAN LTD B E 2838 100 05424 x y GENERAL PRODUCT SPECIFICATION Continued 414 Go to cover page Ah PHILIPS PHILIPS 355 mm All rights strictly reserved Reproduction or issue to third parties in any form whatever is not permitted without written authority from tne proprietors gt 2 mm FIG 3 IMAGE ROTATION 1 TYPE 109850 00 8639 000 14291 2003 06 17 BRAND PHILIPS p TRENE 0 2 49 TY CHECK pare 2003 06 17 Property ot PHILIPS ELECTRONICS INDUSTRIES TAIWAN LTD B E 2838 100 05424 lt y NF GENERAL PRODUCT SPECIFICATION Continued Ah M4 Go to cover page PHILIPS e 0 5 rf E 9 gt 15 E iE E E b TE o gt 25 285 Ne P 282 JC 9 gt lt 2 355 mm A B lt 2 0 mm C D lt 2 0 mm FIG 4 IMAGE GEOMETRY V50 19 109B5 97KHz HB NENNEN _ d TYPE 109B50 00 8639 000 14291 oo 2003 06 17 BRAND PHILIPS p 29 1 39 J pare 2003 06 17 Propertyot PHILIPS ELECTRONICS INDUSTRIES TAIWAN LTD B E 2838 100 05424 x y GENERAL PRODUCT SPECIFICATION Continued M4 Go to cover page Ab PHILIPS PHILIPS
65. 30323 M46QEF903X01 H M LGPD 8238 274 44501 M46QCK761X123 TCO MDT 8238 274 44481 M46AJS53X76 MV 4 3138 127 53821 CHIN ASSY 3138 127 53831 FRONT CABINET ASSY Recmmended parts list Recommended parts list of V50 109B50 00 86390001 4291 0001 0003 0004 0042 0057 0212 0213 0450 0451 0452 0454 0601 0615 1053 1054 1101 1104 1111 1151 1152 1153 1154 1155 1191 5681 7102 7111 7112 7114 7115 7117 7191 7301 7302 7303 7304 7411 7501 7502 7601 7611 7616 7631 7638 7640 7673 7801 7803 313812753831 313812753811 313812753821 313810460801 313810440571 313811577881 313811577891 313810662131 313810662141 313810662151 313810656651 313811705601 313811705001 313816874231 313818878341 242208600208 242213207402 313817876762 930193050323 313817863851 313817865171 313817865181 313817863681 242213207401 313818878571 935267356112 932214014667 932208697676 932208234676 933826850126 933920810682 933953420676 935266857112 935270542112 932210611676 932218565682 932201959682 935267455112 933450090126 934003960126 932216831676 932218832687 934025870126 932217995687 932217996687 933450090126 823827444541 932212662682 FRONT CABINET ASSY PEDESTAL ASSY CHIN ASSY BACK COVER HOUSING COVER LABEL CPU LABEL EEPROM LPL CARTON CUSHION TOP CUSHION BOTTOM PE BAG E D F U ASSY HEX CODE OF F W NO MATL MAINS CORD CORD SUB D 15 1M8 13 330943 UL FUSE 5X20
66. 3189210133 DIO SIG BAV21 RST SM 0805 RC11 5 6723 933952580685 DIO SIG SMBAV103 VISH R RST 12 A 8K2PM5 6731 933189210133 DIO SIG BAV21 RST CFR 12 A 3K3PM5 A 6732 933189210133 DIO SIG BAV21 A PHSE A RST SM 0805 RC11 5 6 5 6733 933952580685 DIO SIG SMBAV103 VISH R RST SM 0805 RC11 3K3PM5 R 6751 933189210133 DIO SIG BAV21 A PHSE A RST SM 0805 11 5 6 5 R 6752 933189210133 DIO SIG BAV21 A PHSE A RST SM 0805 011 1MPM5 6753 933952580685 DIO SIG SMBAV103 VISH R Different Parts List Diversity V50 109B50 97 comparing with V50 109B501 00 _ ee Diversity V50 109B50 75 comparing with V50 109B501 00 CRT M46QEF903X01 H S LGPD B CRT M46QEF903X01 H SM LGPD B _ ee Diversity V50 109B50 74 comparing with 50 0 Diversity V50 109B50 89 comparing with 50 109 501 00 2632 206271214216 3407 212211600293 3503 212211600363 3508 23224162704 3558 2632 225271214216 3407 212211600295 3503 3508 232224183304 3558 2106 202202000844 44 Go to cover page Diversity V50 109B55 74 comparing with V50 109B501 00 MB 1 ASSY LG BLK MB 2 ASSY SDI BLK MB 3 ASSY CPT BLK E Repair Flow Chart 44 Go to cover page A Power Supply Failure no startup sound Check 7102 check 7102 gy Check 7102 LED light off 140V lt pin8 lt 360V 1 Pin6 ou
67. 3810113103 212010593644 213810113222 213810113103 232273061102 212211000317 232224213224 212211000406 232224213434 212211000442 213810113222 212211000346 213810113223 232273061154 213810113682 213810113102 213810113154 213810113682 213810113102 213810113154 213810113682 213810113102 213810113154 213810113682 213810113102 213810113103 213810113103 213810113104 213810113473 213810113103 212020200015 212020200019 213810113471 212211000427 213810113912 232273061333 213810113472 232273061333 213810113103 232273061224 213810113334 213810113152 212211000349 232273061472 213810113472 Spare Parts List RST MFLM MF1 2WS 732R PM1 695 RST MFLM MF1 2WS 2K7 PM1 RST CRB CFR 12 8K2 PM5 RST MFLM MF1 2WS A 22K PM1 A RST CRB 12 A 1K PM5 RST CRB 12 A 1K PM5 RST MGL VR25 180 1 RST CRB 12 A100RPM5 RST CRB CFR 12 A100RPM5 A RST CRB CFR 12 5 A RST CRB 12 A100RPM5 A RST CFR 12 A100RPM5 A RST CRB 12 1KPM5 RST CRB 12 4K7 PM5 A RST SM 0805 3011 100R 5 RST MOX 2W RSS 15K PM5 RST MOX 3W RSS S 680R PM5 B RST MOX 2W RSS S 2R2 PM5 B RST MOX 3W RSS 1 5 5 RST MFLM MF1 2WS A 68R PM1 RST CRB 25 A270R PM5 RST MOX 2W RSS 1 5 B 3696 3697 3698 3699 3811 3812 3813 3814 3815 3816 3817 3818 3821 3822 3823 3825 3827 3828 3829 3830 3831 RST MFLM MF1 2WS A 100R PM1 A3833 R
68. 3810662151 CUSHION BOTTOM 2413 223858015632 0454 313810656651 BAG 2414 203830250218 2415 202055290816 2417 203803521207 202202000805 2418 202202000805 2419 2420 203803521501 0601 313811705601 E D F U ASSY 2431 922858015641 1053 313816874231 MAINS CORD 2501 203803521207 1054 313818878341 CORD SUB D 15 1 8 13 330943 UL 2502 202055290597 2503 202055290807 2504 203830250095 Others 2505 203803521209 2506 223858015635 0212 313811577881 LABEL CPU ee 0213 313811577891 LABEL EEPROM LPL gin 0615 313811705001 CODE OF F W MATL 1101 242208600208 FUSES5X20HT4A 250VIECB 2511 203830150157 1104 242213207402 RELAY 1P 12V 10 80A SDT SS 2212 202202000836 2521 203830250095 2522 203830250125 2524 203830150135 CRT 2601 202055290821 2602 203830250099 1151 930193050323 M46QEF903X01 H LGPD B 2603 203803522801 1151 930195230323 M46QEF903X01 H M LGPD B 2606 6 1151 823827444501 M46QCK761x123 TCO MDT 2607 225260214216 1151 823827444481 M46AJS53X76 MV 2608 203830150191 2611 202233300222 2616 225260114416 Main PCB 2617 203830250212 2621 203830200162 2622 202203100154 1152 313817863851 1 ASSY 109B5 1152 313817865191 2 ASSY SDI 109B5 1152 313817866071 MB 3 ASSY 1153 313817865171 VB ASSY LG 109B5 1153 313817866101 2 ASSY SDI CPT 109B5 1154 313817865181 C B ASSY eat 1155 313817863681 MHR ASSY
69. 3886115101 2145 202055790151 2 500VS 1 10 2821 202055290834 GS 25V S 220 20 CER2 DC 7 2KV S 2200 PM10 A ELCAP KF 100 1000 20 GS 160V S 470 5 KM 16V 5 10000 PM20 KM 25V 5 4700 PM20 KM 16V 5 10000 PM20 B GS 16V 5 4700 20 GS 35V S 470 20 GS 16V 54700 20 CAP MPOL 100V 220 10 CER1 0805 NPO 50V 150P 5 CER2 0805 X7R 50V 22N PM10R CER2 0805 X7R 50V PM10R MPOL 100 10N PM2 CER2 DCB 50V S AN7 PM10A ELCAP GS 16V S 1000 20 A ELCAP GS 50V S 2U2 PV20A ELCAP GS 50V S 2U2 PV20A ELCAP GS 50V S 10U 20 CER2 0805 X7R 50V 22N PM10R ELCAP GS 16V S 1000 20 CER1 DC NPO 50V PM5 CER2DCB 50VS 1NPM10A CAP MPOL 100V S 100N 10 ELCAP GS 16V S 220U PM20 A CER2 0805 X7R 50V 8N2 PM10R CER2 0805 X7R 25V 100N PM10 MPOL 100 10N PM2 A CER1 DC NPO 50V 100P PM5 CAP PP PPN 100V S 5N6 PM2 A ELCAP GS 50V S 1U PM20 A MPOL 100V 100 10 CAP MPOL 100V 220 10 CAP PP PPN 100V 2N2 5 CER2 DCB 50VS 10N PM10A MPOL 100V 470 10 160V 1U 20 CER2 DC X7R 2KV S 2200 PM10 CER2 DC X7R 2KV S 220P PM10A PP PPN 100V S 2 CAP PP MPP 2KV S 7 4 PM5 CER2 DC X7R 1KV S 470P PM10A CAP MPOL 100V S 100 PM5 A CAP MPOL 250V S 330N PM1
70. 3957760673 932210346673 932210346673 933256030673 933751660673 933256030673 933497950673 933256030673 933117760133 933957760673 933913910115 933256030673 RST FUSE RFU1 3 10RPM5 A 3 RST SM 0805 RC11 1 5 6414 RST MFLM MF1 2WS A 1M PM1 6415 RST CRB CFR 12 A 68K PM5 6421 RTRM CER LIN 20K V 067 1 B 6501 RST CFR 12 A 15K PM5 6502 RST CRB CFR 12 A 2K2 5 6503 RST CRB CFR 12 4 7 5 6601 RST CRB CFR 12 A560RPM5 6602 RST CRB 12 A100RPM5 6605 RST CRB CFR 12 A 3K9 PM5 6606 RST MFLM MF1 2WS A 22K PM1 6608 RST CRB 12 A100R PM5 A 9 RST SM 0805 RC11 4K7 PM5 6621 RST SM 0805 RC11 212 5 6622 RST SM 0805 RC11 4K7 PM5 6623 RST CRB 12 A 4K7 PM5 6626 RST CRB CFR 12 A 10K PM5 A 6671 RST CRB 12 A100R PM5 A 6672 RST CRB 12 A100R PM5 A 6673 RST SM 0805 RC11 27 PM5 6674 RST CRB CFR 12 A 22K PM5 A 6675 RST SM 0805 RC11 4K7 PM5 6676 RST CRB CFR 12 A 5 6677 RST SM 0805 RC11 4K7 PM5 6681 RST CRB CFR 12 A 10K PM5 A 6682 RST CFR 12 A100R PM5 6802 RST SM 0805 RC11 4K7 PM5 6820 RST CRB CFR 12 A 22K PM5 A 6821 RST CRB 12 A100R PM5 A 7102 RST CRB 12 A100R PM5 3 RST CFR 12 A 22K PM5 7111 RST SM 0805 11 4 7 7112 RST CRB CFR 12 47RPM5 7113 RST SM 0805 011 4 7 7114 RST CRB CFR 12 A 4K7PM5 7115 COIL DEGAUS 62 9703 15 7116 IND
71. 45 LG High Brightness AR ASC CPT AR Filming SDI AR AS LG coating P22 26 0KV Visible screen area 360mm 270 mm North South Magnetic field 109B50 00 V50 19 109B5 97KHz HB 8639 000 14291 NAME C C LIAO 590 9 13 A CHECK pate 2003 06 17 Property of PHILIPS ELECTRONICS INDUSTRIES TAIWAN LTD B E 2838 100 05424 NF NF GENERAL PRODUCT SPECIFICATION Continued M4 Go to cover page 3 6 RGB Amplifier Vi 3 6 1 Video amplifiers a Dot Rate 202 5 MHz Rise fall time 5 6ns al Over undershoot 15 Max Transient response Sag background 5 Max pulses of 0 70H a uniformity 3 6 2 Brightness and contrast Reference mode 68 7K 85Hz full white pattern small window pattern Fig 5 Brightness Contrast Light output Light output full white wawa window PHILIPS lt 0 5 30 Go GHTL 5FL 41 HIELO FL 3 6 3 SRGB When sRGB is selected the light output Full white pattern will be 23 3FL regardless of contrast and brightness controls Adjusting contrast or brightness will auto exit SRGB setting and go to 6500K 3 7 Variation of image size after warm up 30 minutes Due to brightness change from 3 to 30 FL Max gt 9o NF Due to aging 0 10 40 C gt 1 0 vo Due to mains voltage variation gt 1 0 to third parties in any form whatever is not permitted without written authority from th
72. 470K PM1 A RST 12 A 9 1 5 RST SM 0805 RC11 33K PM5 RST CRB CFR 12 4K7 PM5 A RST SM 0805 3011 33K PM5 RST CFR 12 A 10K PM5 RST SM 0805 RC11 220K PM5 R RST CRB CFR 12 A330K PM5 A RST CRB CFR 12 A 1K5 PM5 A 5126 5601 5602 5603 5604 5606 5608 5610 5611 5681 5682 6101 6103 6106 6107 6109 6113 6118 6131 6132 6133 6134 6135 6136 6140 6141 6143 6144 6146 6147 RST MFLM MF1 2WS A560R PM1 6401 RST SM 0805 RC11 4 7 5 R RST CRB CFR 12 4 7 5 6411 6412 212020200019 232273061105 212211000436 213810113683 213836500084 213810113153 213810113222 213810113472 213810113561 213810113101 213810113392 212211000392 213810113101 232273061472 232273061222 232273061472 213810113472 213810113103 213810113101 213810113101 232273061272 213810113223 232273061472 213810113332 232273061472 213810113103 213810113101 232273061472 213810113223 213810113101 213810113101 213810113223 232273061472 213810113479 232273061472 213810113472 313818878331 243853598058 243853598058 313816874511 313817870891 313818874691 242253597416 242253600036 242253600036 242253600039 242253600039 313818878231 313817871732 313818878261 313818878241 313818878221 313816872631 313816872621 313818878251 313818878571 242253600039 932215736682 933497950673 933751660673 933497950673 933256030673 933189210133 933913910115 933730980133 933166850133 932211574682 93
73. 600 60Hz VESA Established Timings 800 600 67202 VESA 800 600 67572 VESA 832 x 624 75Hz Apple Mac 1 1024 768 87Hz IBM 1024 x 768 60Hz VESA 1024 x 768 70Hz VESA 1024 x 768 67572 VESA 1280 1024 67572 VESA Manufacturer s timing 1152 870 6752 1 Standard Timing Identification 1 Horizontal active pixels 640 Aspect Ratio 4 3 Refresh Rate 199 Standard Timing Identification 2 Horizontal active pixels 800 Aspect Ratio 4 3 Refresh Rate 85 Standard Timing Identification 3 Horizontal active pixels 1024 Aspect Ratio 4 3 Refresh Rate 85 Standard Timing Identification 4 Horizontal active pixels 1280 Aspect Ratio 4 Refresh Rate 5 Hex Data of DDC2B Standard Timing Identification 5 Detailed Timing 1 Horizontal active pixels 1600 Aspect Ratio 4 3 Refresh Rate 5 Standard Timing Identification 6 Horizontal active pixels 1920 Aspect Ratio 4 3 Refresh Rate 60 Pixel Clock MHz 202 5 H Active pixels 1600 H Blanking pixels 560 V Active lines 1200 V Blanking lines 50 H Sync Offset F Porch pixels 64 H Sync Pulse Width pixels 192 V Sync Offset F Porch lines 1 V Sync Pulse Width lines 3 H Image Size mm 360 V Image Size mm 270 H Border pixels 0 V Border lines 0 Flags Non interlaced Normal Display No stereo Digital Separate sync Positive
74. 723123 G20 F724123 F725 J23 E19 F726 3 F23 F728 J23 9 F729 3 9 F730 K23 9 F732M23 D19 F733 M23 F24 F734M23 2622 F735M23 5 AF21 F736M23 DI9 F737 M23 2 F738 N23 9 F739 N23 9 5002019 9 5003 19 19 004 219 23 5001 623 lt VIDEO BOARD 83 SB 57871 12 58361 83 12 83 2728 ia NN N NN N N N NN N N NI N NN SN CO 5702 1 3724 o F7151703 532218 1 D 232319 2729 47u 7301 2778 TDA4886 V2 24 10025 2312 3318 23 GNDref VDDref 68310 1K 23366 3309 7302 10085 AAA TDA4823P8 y o 03311 29376 63319 0025 Y 3381 23380 688 92309 00 5 23530 L 100725 1251 8 3729 5721 2723 3728 2356 5 82 0433 0 lt se 1 2W 1715 0 11 22 3315 47R 21 100 5 2342 103 gt YY 0 gt 9 3304 R 005 2319 NIN NON W 17 F703 1715 3363 100R 3383 68R OOR 6 47 3706 3733
75. 8 824 NIVW OL 1 27 22 2 A gt 222 777 LNIOd 01 0 13115 O3QlA OL 8 1NIOd WLE CTSIHS OL N g NI ZH LNIOd HOHONIS lV3H 01 1 E 2 V 10 dOl TT3IHS OL y ee 2 LNIOd 55 xti 001 0131015 03018 OL gt Ras 0 SSS eee IE per rE J V HHN zc WALI NOI O3GIA OL 1315 01 0 LNIOd LNIOd 01 118 5 01 x 7 9 T s T T 1 7 8 LNIOd 401 0301 OL Mechanical Instructions 0 General To be able to perform measurements and repairs on the circuit boards these unit should placed in the service position first 1 Remove the rear cover in Fig 1 Remove 2 screws as shown Remove back cover as shown Remove pedestal as shown 2 Video panel Disconnect the wire between metal shield of Video panel and CRT neck as shown in Fig 2 Disconnect the CRT ground from Video panel Remove screw grounding and grounding wire in Fig 3 3 Main board connector in Fig 4 Disconnect york wire Disconnect rotation connector Disconnect control board connector Remove Screw for fixed I F cable Remove signal connector Remove degaussing wire connector Clip Pedestal ass y Screw Fig 1 p CRT grouding Video P
76. 931 CIE chromaticity colour triangle diagram x y coordination coordination of white display on screen center should be 9300 degree K X 0 283 0 015 Y 0 297 5 5 6500 degree K X 0 313 0 015 0 329 0 015 5500 degree K X 0 332 5 0347 0 015 for sRGB degree X 0 313 0 015 0 329 0 015 Check conditions Set brightness control at 50 position and contrast at maximum SRGB luminance Full white pattern at 68 67K 85Hz regardless of brightness 50 and contrast controls 23 4 12 Color tracking on full white pattern Ref to white balance alignment result and set brightness at 50 adjust contrast control from 5FL to max position the colour coordinate should not deviate more than following tolerance when compare to display center NF X Xnominal 0 015 Y Y nominal 0 015 4 13 Purity Test patterns Full White Red Green Blue Conditions As stated in item 4 0 the purity must be checked under specific destinations of earth magnetic environments and the monitor to be well degaussed After warming up time of 30 min no coloured stains may occur in above four patterns to third parties in any form whatever is not permitted without written authority from tne proprietors All rights strictly reserved Reproduction or issue 4 14 Moire Condition Displaying white pattern at any pre set mode the display siz
77. A 7K5 PM5 RST CRB 12 A 27K PM5 RST MFLM MF1 2WS A 12K PM1 A RST CRB CFR 12 A 12K PM5 A RST CRB CFR 12 A 47K PM5 RST CRB 12 407 PM5 RST MGL VR25 27 1 RST CRB CFR 12 A 1 5 5 RST MFLM MF1 2WS 560R PM1 RST CFR 12 A 15K PM5 RST CFR 12 A470R PM5 A RST CRB CFR 12 A 15K PM5 RST MGL VR25 100 1 RST SM 0805 RC11 1 5 5 R RST SM 0805 3011 150K PM5 RST CRB 12 2M2PM5 RST MFLM MF1 2WS A 4R7 PM1 A RST SM 0805 3011 PM5 3524 3525 3528 3553 3554 3555 3558 3567 3568 3569 3576 3577 3601 3602 3603 3604 3605 3606 3607 3608 3609 3610 3611 3612 3613 3614 3615 3616 3618 3619 3621 3622 3623 3624 3625 3626 3627 3628 3629 3630 3631 3633 3635 3636 3637 3638 3639 3647 3650 3651 3652 3655 3656 3657 3660 3661 3662 3665 3666 3667 3668 3669 3670 3671 3680 3681 3682 3683 3684 3685 3686 3687 3688 3689 3690 3691 3692 3693 3694 212211000445 212211000367 213810113822 212211000392 213810113102 213810113102 232224181804 213810113101 213810113101 213810113339 213810113101 213810113101 213810113102 213810113472 232273061101 213810500061 212010592186 212010592383 212010592399 212211000327 213811273271 212010592163 212211000329 213811273391 212010592389 213811273108 232273061102 212010592388 212020200012 213810113223 212020200015 232273061103 213810113104 213810113123 21
78. A SIG 547 A TRA SIG 548 TRA SIG BC548C TRA SIG PH2369 TRA SIG SM 858 ONSE CPU IC IC M24C16 BN6 STOO L TRA SIG 548 KECO 5010985__ 44 Go to cover page VB 1 ASSY 313817865171 LG 109B5 2306 2307 2308 2309 2311 2312 2319 2322 2323 2324 2336 2337 2338 2341 2342 2353 2354 2356 2702 2721 2722 2723 2724 2725 2726 2727 2728 2729 2730 2731 2732 2733 2751 2752 2753 2760 2761 2763 2771 2772 2773 2774 2776 2778 2779 2781 2782 2783 2787 3301 3302 3303 3304 3305 3306 3307 3308 3309 3310 3311 3312 3313 3314 3315 3316 3317 3318 3319 3323 3324 3325 3326 3327 3328 3329 3330 223886115101 223886115479 223891015649 223891015649 223891015649 223891015649 223891015649 223858015636 223858015636 203803521306 223891015649 223891015649 223891015649 203803527303 223891015649 223891015649 223891015649 203803526301 223891015649 203803527703 225232626104 203803522801 203803527303 242254945382 203803521303 202203100153 202055790151 203803527702 203803521306 203803522801 202203100153 242254945382 203803522801 202203100153 242254945382 223886115471 203803521306 223858015632 223891015649 225261808311 223891015649 223891015649 223891015649 203803527303 223891015649 223891015649 203830250095 223555900099 223891015649 213810113759 213810113759 213810113759 21381
79. B Digital Grounding Continuity Tester ChenHwa 901 AC Hi pot test 902 AC DC Hi pot test Withstanding Tester 3 2 Connection Turn on the power switch of monitor before Hipot and Ground Continuity testing Clip ChenHwa 9032 tester Video cable Connect the video cable or grounding screw to the CLIP on your tester Grounding screw Connect the power cord to the monitor Power outlet Rear view of monitor 4 Recording Hipot and Ground Continuity testing records have to be kept for a period of 10 years Block Diagram of V50 109B5 EJ 44 Go to cover page mn a d lc d f A 3 s 1 Flying 15 pn LF III Pre Amp FIM DC EU al TDA4823 TDA4886 LM2435T ME Restore OSD NOVA 68275 00031 UC3843 AN MCU SW 4 SDA SCL E 6 BN6 DDC 2B Linearlty i Horizontal Sync Processor TDA4841 Deflection Vertical TDAS172 Horizontal Frequency 30 97kHz Muting amp Gl Power Supply 1507 Gl Vertical Frequency 50 160 Hz Spot Killer H UNLOCK 35 5 E Video Panel Schematic diagram 44 Go to cover page IOTMOOFSOL N N F721 123 9 2722123 G20
80. CLASS 3138 178 6385 109B50 00 2003 06 20 3 NAMEMichael Wang J Cheng SUPERS 3 CHECK DATE 2003 06 20 KONINKLIJKE PHILIPS ELECTRONICS 2000 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 44 gt 94 h LO gt 5 lt 4 x C B A Of Main Board AATA E E e mm SSS CRDI MOON s sss N 5 AA AME Se cee ISe gt gt gt 00 gt gt gt gt gt JL lt L C CO TL Ob 626 L INOMAMNO ANITFLAS 00010 CNPO SELOCOT 000300 CNIPO PO SELOO1 SELOGCOTP CAM ND SSS CNCNCN CN CNCN CON CN ONIS 87 7 7787 IN IIIS SE SE OOOO NNN OXOXO OCQOCOCQOCQOCOCOC QDOCGOCQOC COC QDCQDOCOCOCOQOCOCOCOCOCOCOCO 0000 0000000000 000000000000 0 CNOXODODCNCNPOOOCO 170 6606 IF ODOR 400000 sr gt PO PO 0000 gt 01 01 NINN INI SE SE SE lt 4 20 OOOWLLOTWOWLWOWOL JL IL ECCE CC LOLLU Li SE ELT Ow gt gt Lu L OO LL LL
81. CTR L BD 8899 DEVIATION LIST 3663 1 9 N 52 SE 144148 19K 3669 UNLOCK REF LG TUBE SDI TUBE CPT TUBE 71 se 5 PC4 TBC548C TOOK 2631 100 2KV NONE NONE 381218 559 DEGAUSS Boy 2632 150P2KV 220P2KV 220P2KV lt 5 8 un 853 3407 188 1 20 28 1 2W 2R 1 2W 381514 559 381614 ZEL e BAL BRS 3503 12K 1 2W 18K 1 2W 8K2 1 2W 3817 M otc 585 3505 47K 1 6W 68K 1 6 47K 1 6W 2529 5 N N as 5 3508 270K VR25 270K VR25 330K 5 3822 J8 L 23 3558 180K VR25 180K VR25 150K VR25 3825 K8 ooo 3827 M8 280 3828 9 9 3829 19 SES 383019 R 9425 3831110 ewe R STANDS FOF COMPONENTS RESERVED 383219 383314 STANDS FOR CHIP COMPONENTS 900 298 15 16 17 18 19 20 Oo 1 2 3 4 5 6 7 8 9 10 11 12 13 14 5 TYT12 SETNAME V50 CLASS Schematics 3138 178 6385 109 50 00 2003 06 20 3 Wang J Cheng SUPERS CHECK DATE 2003 06 20 K NINKLIJKE PHILIPS ELECTRONICS 2000 1 2 3 4 5 7 9 10 11 12 13 14 NIZ 15 16 17 8 19 20 21 22 23 24 26 28 7 Schematic Diagram 44 Go to cover page l 8 9 1 1401 6 9 5 1 2 3 4 5 6 7 8 9 10 11 12 13 14 1401 DC6 2093 6121 2401 09469 2402 4 2403 4 2405 5 2411 4 12 2412 2402 2413 65 I 5 He 44 2414 SBTAO AD 2415 2 74 4 2417 D4 d CO 2
82. Check PF value with MHR function option 3 3 1 Apply 91kHz 85Hz resolution with cross hatch contrast Max brightness 50 Apply input voltage 230VAC input power consumption about 55W 65W The PF value about 0 7 0 8 measure equipment AC Power Analyzer PM1200 3 3 2 4 General conditions for alignment 4 1 During all alignments supply a distortion free AC mains voltage to set via an isolating transformer with low internal impedance 4 2 Align in pre warmed condition at least 30 minutes warm up with nominal picture brightness 4 3 Purity geometry and subsequent alignments should be carried out in magnetic cage with correct magnetic field Northern hemisphere H 0 V 430 50 mG Z 0 Southern hemisphere H 0 V 520 50 mG Z 0 4 4 All voltages are to be measured or applied with respect ground Note Do not use heatsink as ground 4 5 Adjust brightness controls to center position except for contrast control which should be 561 4 6 Any external voltage sources should have alowinternal impedance 4 7 Adjust function controls to center position unless otherwise stated 4 8 The white balance and purity has to be adjusted in dully lighted room 4 9 All alignments have to be done a room with a temperature of 25 10 C 5010985 44 Go to cover page 5 To access factory mode 5 1 Turn off monitor don t turn off PC 5 2 Press and simultaneously on the front control pane
83. DJUST VERTICAL E ADJUST SHAPE 2 ADJUST COLOR Il RESET TO FACTORY SETTINGS EXTRA CONTROLS MODEL SELECT Factory CLOSE CONTROLS Mode Indicator V50 109B5 97K V0 41 20030421 3 OSD menu disappears on the screen of monitor press Bd again anytime then the OSD menu comes on the screen again 4 Using toselect OSD menu 5 Using to increase or decrease the setting 6 Using 69 to access confirm the selection To leave factory mode 7 After alignment of factory mode turn off monitor if you do not turn off monitor the OSD menu is always at the factory mode then turn on monitor again at this moment the OSD menu goes back to user mode To access BURN IN mode First of all monitor displays an image 1 Disconnect the video cable interface cable 2 Turn off monitor 3 Press and simultaneously on the front control panel then the BURN IN mode comes on the screen of monitor as below 50 seconds around 5 seconds around repeatly 4 Reconnect the video cable then return to normal image SERVICE MODE Indication Factory mode MAIN CONTROLS 00010 00010 stands for 1 using 10 hours already 2 turn on off 10 times 3 using several hours turn on off monitor 8 200M ADJUST HORIZONTAL ADJUST VERTICAL ADJUST SHAPE ADJUST COLOR RESET TO FACTORY SETTINGS EXTRA CONTROLS MODEL SELECT CLOS
84. E MAIN CONTROLS V50 109B5 97K 0 41 20030421 Default setting of MODEL SELECT Do not change it V50 10985 97K RESERVE RESERVE RESERVE RESERVE RESERVE SWDDC LF 3 LF ON OSD Q 5 L 9 M V 9 039 011 NVMIVI 531841500 1 521840812113 4 54 Q 11 90 6002 y23H2 O ev El 01 2 syzans DUDA PJOMOH 6 ODL SdITIHd anyyg 290 004 9 7 2 16271 000 9 00 0 860 3441 _ lt y 5 lU 396 6860 OSA 61 LL LO 3 E s gt 8 5 a nn al 00071 5 18 O3GIA D f dOL TTHHS 0301 01 319NV SNOISN3WIQ P 031918 381083810 553180 531 5 DH 92 3NHONOY 1Y83N39 LO 5 1 Vd 214 gt 66 8860 9NIMVUG 0 0789 5 18 673 010 13Q0N GZ9IG NVN 8 9944 2d dd 3 ZL6SIQ NVN 1 gt 5 LNIOd dOl d T3IHHS 0301 01 lt g m T m 9 4 0 3015 3015 1431 NOILISOd dl 8 iagram D A SSV YHN iring 41018 824 NIVW OL aT B n PG 6669 A SSSV 89d MINOS SaN 3 MET W t A 1 91
85. E SE SEP ISSN 00000000 CO CO CO CO CO CO QO T CNONICNICNCONIPO PO SE SE SE SE SE SE SE SEULOQLOCOCOCOCOCOQO CNCNCNCNIY 0000 6 Y Y tt r 42 CO CO CO CO CO 00 00 0000 00 a0 00 00 00 0O lt lt SES sassa was CNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNCNPOPFOPFOPFOrOrOrOrOrOrOrorororororororororororororororororororororororroro9rororororor 2003 06 0 v50 109 TYT12 lt 00 C Li C5 X gt 6 2 4 617 NP 179 Lj oz 1011 D 89 lt t LOLS E 89 199 x 4k x eU 92 BE co 4 CY 4F 16 Am utl 2012 69 2296 ci o 2 4 NEN 6 v9 9 2 y e 5 556 8 00 o _ e 0 0 my I om 6 ol m 6 O A in n 5 4k w Hr 7112 iO 3 offic oie N N IN E
86. ER Invisible laser radiation when open AVOID DIRECT EXPOSURE TO BEAM CAUTION Use of controls or adjustments or performance of procedures other than those specified herein may result in hazardous radiation exposure CAUTION The use of optical instruments with this product will increase eye hazard TO ENSURE THE CONTINUED RELIABILITY OF THIS PRODUCT USE ONLY ORIGINAL MANUFACTURER S REPLACEMENT PARTS WHICH ARE LISTED WITH THEIR PART NUMBERS IN THE PARTS LIST SECTION OF THIS SERVICE MANUAL Technical Data Technical Specification CRT Size and deflection Dot pitch Horizontal pitch Tube type Phosphor Recommended display area Maximum display area Scanning Horizontal scanning Vertical scanning Video Video dot rate Input impedance Video Sync Signal input level Sync input signal Sync polarities White Color Temperature Chromaticity CIE coordinates y 0 297 0 015 0 015 0 283 y 0 329 0 015 0 015 0 313 y 0 347 0 015 0 015 0 332 2 0 313 0 015 y 2 0 329 0 015 at 9300 k at 6500 at 5500 at SRGB Carton box Size with pedestal Net weight Power supply Operating condition Temperature Relative Humidety Storage condition Temperature Relative Humidity Pin assignment 19 inch 46cm 90 deflection angle 0 25 mm with black matrix 0 21 mm Shadow mask real flat high contr
87. ESA 157 500 VESA 1600x1200 162 000 VESA 175 500 VESA 189 000 VESA 75 93 750k 202 500 VESA 204 750 VESA P 218 250 VESA P 234 000 VESA P sss 41 denote it is main preset timing V50 19 109B5 97KHz HB BE CREEK TYPE 109B50 00 8639 000 14291 BEEN 2003 06 17 BRAND PHILIPS EE NENNEN ww C CLIAO js 25 590 6 4 4 T 2838 100 05424 Y CHECK pate 2003 06 17 NF Propetyot PHILIPS ELECTRONICS INDUSTRIES TAIWAN LTD B E ES ETIN 44 Go to cover page PHILIPS PHILIPS All rights strictly reserved Reproduction or issue to third parties in any form whatever is not permitted without written authority from tne proprietors Ab 3 2 Timing requirements The main timing table 1 8 are shown as below TIMING FOR V50 109B5 AUTOSCAN COLOR MONITOR REFERENCE PATTERN GENERATOR CHROMA 2250 TABLE 1 53 674KHz 85 061Hz 800 X 600 pixel 56 250MHz Horizontal Vertical Frame border 0 Frame border 0 Total size 18 631 us Total size 11 756 ms Display size 14 222 us Display size 11 179 ms Rear porch 2 702 us Rear porch 0 503 ms Sync width 1 138 us Sync width 0 056 ms Sync polarity Sync polarity Horizontal Vertical Frame border 0 Frame border 0 Total size 16 660 us Total size 13 328 ms Display size 13 003 us Display size 12 795 ms Rear porch 2 235 us Rear porch 0 466 ms sync width 1
88. Generator 801GC Quantum Data 2 Color analyzer Minolta CA 100 Adjustment mode 68 67 2 85 2 with correctly adjusted video size 355x265mm Use color analyzer Minolta CA 100 to adjust cut off and white balance Before alignment set initial data as below all values show on factory OSD Brightness 50 Sub Contrast 85 ABL 70 9300K cut off 40 65 G cut off 40 G 55 B cut off 40 65 6500K cut off 40 R gain 55 1 G cut off 40 G gain 65 B cut off 40 B gain 55 I C 5500K cut off 40 R 55 G cut off 40 G gain 55 cut off 40 55 Setting RGB cut off 50 at 9300K 6500K 5500K only for SDI tube Vg2 screen to fully counterclockwise zero beam current Manual Step 1 To access factory mode Turn off monitor don t turn off PC Press simultaneously on the front control panel then press wait till the OSD menu with characters V40 109S5 V0 45 20030410 below OSD menu comes on the screen of monitor as shown in Fig 2 1 MAIN CONTROLS 317 LANGUAGE ADJUST HORIZONTAL ADJUST VERTICAL ADJUST SHAPE ADJUST COLOR RESET TO FACTORY SETTINGS EXTRA CONTROLS MODEL SELECT Factory CLOSE MAIN CONTROLS Mode Indicat V50 10985 97 0 41 20030421 Fig 2 1 If OSD menu disappears the screen of monitor
89. HT4A 250V IEC B RELAY 1P 12V 10 80A SDT SS L AC INLET ASSY CRT M46QEF903X01 H LGPD B MB 1 ASSY 109B5 VB ASSY LG 109B5 C B ASSY MHR ASSY 109B5 RELAY 1P 12V 10A FTR H2A TFM LOT LAYER 11MM WIRE IC TEA1507P N1 PHSE L TCET1103 G VISH L IC TLAS31ACZ AP S 00 A IC L78LO5ACZ STOO A THYRIS BT169B PHSE A IC L7808CV STOO L TRA SIG 780338 40 A IC TDA4886 V2 PHSE L TDA4823PS V1 L IC LE33CZ STOO IC NT68275 00031 NOVA L IC UC3843AN MOTA L IC TDA4841PS V3 L SIG PH2369 FET SIG 254 TRA SIG 0337 40 KECO FET POW FQP6P25 FSC0 L SIG MPSA44 PHSE FET POW IRF630B FSC0 L FET POW IRF640B FSC0 L TRA SIG PH2369 CPU IC IC M24C16 BN6 STOO L WI IIIWIIMIYZILACIIIT EJ 4 Go to cover page 40 5010985 44 Go to cover page Spare Parts List ELCAP GS 16VS 47U 21 208 2146 203803521206 Model V50 109B50 00 8639 000 14291 2147 203803521304 Mechanical 2150 225260214216 2151 202203100151 0001 313812753831 FRONT CABINET ASSY 55 0003 313812753811 PEDESTAL ASSY shea 509308400 126 0004 313812753821 CHIN ASSY 0042 313810460801 BACK COVER 0057 313810440571 HOUSING COVER ao 2402 203803521404 Various 2403 203803521218 2405 203830250125 0450 313810662131 CARTON 2411 223886115151 0451 313810662141 CUSHION TOP 2412 223858015641 0452 31
90. Horizontal Size compensation ABL Auto brightness Limitation SUB 9 Sub Contrast allowance range SUB gt Sub Brigntness allowance range 50 4 Horizontal size range adjustment range HLIN Horizontal Linearity V LIN Vertical Linearity RANGE 2 Zoom range 7 2 Setup A manually increase Vg2 voltage until brightest color reaches 100 scale 7 3 Setup A adjust R G B cut off for all colors at 100 7Scale 7 4 Setup B adjust sub contrast for RGB readings around 100 then adjust RGB gain for all colors at 100 2 scale 7 5 Repeat 5 3 2 5 3 3 RGB cut off and gain to get both low and high 9300 scales at 100 0 10FL 0 05FL for low scaale 41FL 1 1 for high scale x y tolerance 0 005 7 6 Setup C adjust R G B cut off for all colors at 100 7 scale 7 7 Setup D adjust RGB gain for all colors at 100 2 scale 7 8 Repeat 5 3 5 5 3 6 RGB cut off and gain to get both low and high 6500 scales at 100 0 10FL 0 05FL for low scale 35FL 1FL for high scale x y tolerance 0 005 7 9 Setup E adjust R G B cut off C for all colors at 100 7 scale 7 10 Setup F adjust RGB gain for all colors at 100 2 scale 7 11 Repeat 5 3 8 5 3 9 RGB cut off and gain to get both low and high 5500 scales at 100 0 10FL 0 05FL for low scale 32FL 1FL for high scale x y tolerance 0 005 7 12 Setup G Adjust ABL I C for 30FL 0 5FL 7 13 Apply full white pattern sRGB sRGB cutoff
91. K k k k k k k 0 00 8 41 16 21 2 7 3 1 4 11 5 1 6 ff 7 00 9 0 10 18 11 60 12 39 13 30 14 00 15 00 17 0 18 01 19 03 20 68 21 24 22 10 23 05 25 98 26 88 27 81 28 54 29 46 30 99 31 24 33 48 34 4c 35 ff 36 ff 37 80 38 31 39 59 41 59 42 61 43 59 44 81 45 99 46 a9 47 4f 49 40 50 01 51 01 52 01 53 01 54 1a 55 4f 57 30 58 62 59 00 60 32 61 40 62 40 65 00 66 68 67 0e 68 11 69 00 70 00 71 1e 73 00 74 00 75 ff 76 00 77 20 78 54 79 59 81 20 82 31 83 32 84 33 85 34 86 35 87 36 89 20 90 00 91 00 92 00 93 94 00 95 50 97 49 98 4c 99 49 100 50 101 53 102 20 103 31 104 30105 39 106 42 107 35 108 00109 00 110 00 111 fd 112 00 113 32 114 0 115 1e 116 61 117 18 118 00 119 120 20 121 20 122 20 123 20 124 20 125 20 126 00 127 7f 44 Go to cover page All units that are returned for service or repair must pass the original manufactures safety tests Safety testing requires both Hipot and Ground Continuity testing HI POT TEST INSTRUCTION 1 Application requirements 1 1 All mains operated products must pass the Hi Pot test as described in this instruction 1 2 This test must be performed again after the covers have been refitted following the repair inspection or modification of the product 2 Test method 2 1 Connecting conditions 2 1 1 The test specified must be applied between the parallel blade plug of the mainscord and all accessible
92. KECO CER2 0805 X7R 50V 10N PM10R 3383 213810113101 RSTCRBCFR 12 A100RPM5 7751 932214469676 TRA SIG 2 KECO A 2 0805 X7R 50V 10NPM10R 3385 232273061478 RSTSMO805RC11 4R7PM5 7752 932214469676 TRA SIG BF422 KECO ELCAP GS 25VS 470 PM20A 3704 213811273479 RSTCRBCFR 25 47RPM5 A 7761 932209011673 TRA SIG 805480 2 0805 X7R 25V 100N PM10R 3705 212211000329 RST MFLM MF1 2WS 100R 1 0805 X7R 25V 1004 51 110 8 3706 213810113479 RST CRB CFR 12 47RPM5 A MHR ASSY 313817863681 109B 2 0805 X7R 25V 100N PM10R 3707 213810113101 RST CFR 12 1008 5 A ELCAP 25VS 47UPM20A 3716 212211000392 RST MFLM MF1 2WS A 22K PM1 A cao INPMIOA 2 0805 X7R 25V 100N PM10R 3718 212211000392 RST MFLM MF1 2WS A 22K PM1 2192 203803521502 ELCAP GS 50V S 220 20 2 0805 X7R 25V 100N PM10R 3719 212211000392 RST MFLM MF1 2WS A 22K PM1 2 0805 X7R25V 100NPM10R 3721 232273061471 RSTSMO0805RC11 4708 5 2195 203803521603 ELCAP GS 63V 5 220 PM20 A ELCAP LL 25V S 10UPM10A 3722 232273061122 RSTSMO805RC11 1K2PMs R 2194 203803521209 ELCAP GS 16V S 220U PM20 2195 203830250166 MPOL 400V S 10N PM10A 2 0805 X7R 25V 100N PM10R 3723 232273061224 RST SM 0805 RC11 220K PM5 R ELCAP KM 100VS 220 20 3724 232273061223 857 0805 11 22 R 9 212211000372 RST MFLM MF1 2WS 3K9 3192 212211000378 MFLM MF1 2WS A 6K8 PM1 CER2
93. LIM 3l 09 gl 10 34 JAY 3H 088 S 03 9353 18 0 NI IN3SNOO 311 Iam 40 3 10HM SLHOIY IIV CL EJ 10985 _ 44 Go to cover C B A Of Main Board gt y OO PHILIPS gt E HIBITE ITHOUT TH HE COPYRIGHT OWNER WRITTEN CONSENT OF 1 C ALL RIGHTS ARE RESERVED REPRODUCTION IN WHOLE OR IN PART IS PRO D WITHOU E G2 5525 08 560 5 A5 5615 C5 5622 C4 5629 C5 5641 A8 5647 5685 1 569 5 A1 5696 D3 5821 5822 H8 5823 68 3830 H7 5833 G7 5855 G7 5859 08 5844 G7 3847 8 6118 2 6411 D 6413 01 6414 DI 6415 El 6682 Al 7413 7414 6 9 CN TYT12 V50 8 i 2003 06 0 P wrtDefl Board 3138 103 5745 UPERS 2 10 1j 7 2003 06 20 Philips Electronics N V 1 Trig d Freq 8 621kHz Low signal amplitude 176 V Ch1 Min 128 V MILES ONE ECL TEES PENAS Ch1 RMS 154V as gt 0 00000 s Prevu 1 Freq 1 252 2 Ch1 364 Ch1 Min 44 0 Ch1 RMS 157 V WU 100 V a0 OMS A pj 104 V ii 0 00000 s T
94. M4 Go to cover PHILIPS PHILIPS All rights strictly reserved Reproduction or issue to third parties in any form whatever is not permitted without written authority from the proprietors GENERAL PRODUCT SPECIFICATION Continued 3 2 2 Vertical scanning Scanning frequency 50 160 Hz V shift range 8 mm Min 3 3 Powersupply display device maintains the specified performance in the range described as below Type Mainscurrent Mains Voltage Mains freq 1 6A max 90 264 VAC 47 63Hz Power consumption 100W 75W typical Powercordlength 1 5M Power cord type 3 leads detachable power cord with protective earth plug 3 4 Power saving management system SIGNAL POWER RECOVERY MODE H SYNC V SYNC VIDEO TIME ON ACTIVE ACTIVE ACTIVE 75W typical NA OFF INACTIVE ACTIVE BLANKED lt 2W 7 SEC OFF ACTIVE INACTIVE BLANKED lt 2W 7 SEC OFF INACTIVE INACTIVE BLANKED lt 2W 7 SEC 3 5 CRT Description CLASS NO 2003 06 17 BRAND PHILIPS This display unit employs a high resolution CRT complying with the following specifications Dimensions 19 inches Flat Faceplate Square Shadow Mask Diagonal VIS Pitch Horizontal pitch Deflection angle Light transmission Face treatment Phosphors EHT 18 inches 0 25mm dotted 0 21mm 90 degrees 53 CPT SDI 52 6
95. M5 RST CFR 12 A330R PM5 A RST CRB CFR 12 A 10K PM5 RST CRB CFR 12 15 5 DBL MONO 270V 4R5 P3020 B RST 12 A390RPM5 A RST JUMP 12 0R01 A RST MFLM MF1 2WS 330K 1 RST SM 0805 3011 27K PM5 RST MFLM MF1 2WS 240K PM1 RST SM 0805 3011 150K PM5 RST CFR 25 A 5 RST MFLM MF1 2WS A 120K PM1 RST CRB 12 A 1K PM5 RST CFR 12 150 PM5 RST MFLM MF1 2WS 2K7 PM1 RST MFLM MF1 2WS 240R PM1 RST CRB 12 47RPM5 RST CRB CFR 12 2K2 PM5 RST MFLM MF1 2WS A 100K PM1 RST MFLM MF1 2WS A 5K6 PM1 A RST SM 0805 RC11 1 5 RST CRB CFR 12 4 7 5 RST MFLM MF1 2WS 220R PM1 RST CFR 12 2K2 PM5 RST MFLM MF1 2WS A 1R8 PM1 A RST MFLM MF1 2WS A 1R8 PM1 A NTC DC TTC 501 5008 5 A RST SM 0805 3011 212 PM5 RST SM 0805 3011 150K PM5 RST SM 0805 3011 47K PM5 RST CRB 12 1K5 PM5 A RST CRB CFR 12 4 7 5 RST SM 0805 RC11 47 5 R RST SM 0805 RC11 1 5 RST SM 0805 3011 8K2 5 RST CRB 25 47RPM5 RST CRB 12 A330R PM5 RST SM 0805 3011 10K PM5 RST 12 A100RPM5 A RST CRB CFR 12 A330K PM5 A RST CRB 12 A 22K PM5 RST SM 0805 3011 47K PM5 RST SM 0805 RC11 47K PM5 RST SM 0805 3011 4K7 PM5 R RST FUSE RFU1 3 10R PM5 RST SM 0805 3011 470R 5 RST SM 0805 3011 120R 5 RST CRB CFR 12
96. N analog colour display has an analog video interface to operates at a multi frequencies timing in several display modes 3 1 1 Input requirements A Input signals Video 0 7Vp p 75 ohms for individual of R G and B signals must not devia te 0 015Vp p from each other for balance of white pattern Sync TTL level between 0 and 0 6 V to be considered as low level between 2 3 and 5 0 V as high level B Impedance Video Terminated with 75 ohms Sync Terminated with 4 7K ohms pull down resistors V50 19 109B5 97KHz HB po TYPE 109B50 00 8639 000 14291 BEEN 2003 06 17 BRAND PHILIPS L p ww C CLIAO js 2 590 4 10 4 TY CHECK pare 2003 06 17 Property ot PHILIPS ELECTRONICS INDUSTRIES TAIWAN LTD B E lt 05424 100 2838 GENERAL PRODUCT SPECIFICATION Continued 44 Go to cover page Ab 3 1 2 Signals input The input video signals are applied to the display device through a video cable which 1s fixed to the monitor flying cable length 1 8M PHILIPS Video input cable 15 pin D Sub connector type with pin assignment as follows PHILIPS Pin assignment of 15 D SUB connector Assignment Red video input Green video input Blue video input Ground Self test Red video ground Green video ground Blue video ground Not connect Ground Ground Bi directional data SDA H SYNC V SYNC DDC Data CLOCK SCL All rights strictly reserved Reproduct
97. O O O O5SO5O O O LO CNIPOCNCO CO SE SE SECO SE NN FON SEP POCNUOGO CNCOLOLOLO LOPOrOCOLOLOLOCOCOCOCNCN SE COCOLO CNONCO CO CN ON 0 3C OCOCOLLICOCO gt CCO gt gt Cu C gt gt gt C OY YK OC C Y Li gt LLL COL LE oL IL Lb IIL IO COLL JC9YCOLUCOLLICO c COCOCOCOCoCOCO COCO gt gt Li gt OLI I C D PO NII SE LO OPS 00 CNOOCN FLO COPS OOCNPO FLO OPS SILO WO PR OOD xELOCOP OTD CO PISANI 00 CNOO CN SE LO CNCONL CON COP P 0000 CO COCOCOCOCOCOCO NNN WD OP 00COCOCOCOCO CNCNCNPOPOPOLOULOLOLOCOP P DP OO ANNAN ISIN NONO NO NO NO NONO MIN NO NO NO OY OY P P Ps PP P PPP PPP PPP PPP CNCNCNCNCNCNCNCNCNCNCNCNCOCNCNCNCNICNCNCNCNCNCNCNCNPOL 3 gt gt gt SA L Cy 3 OO m LC 0 O Is 5
98. ST CRB CFR 25 A390R PM5 A RST MOX 2W RSS S 15R PM5 B RST CRB CFR 25 1RPM5 RST SM 0805 RC11 116 PM5 RST MOX 2W RSS S PM5 B RST FUSE RFS1 2 A 1008 PM5 RST CRB CFR 12 A 22K PM5 A RST FUSE RFU1 3 18 PM5 A RST SM 0805 3011 10K PM5 RST 12 A100K 5 RST CRB 12 A 12K PM5 RST CRB CFR 12 A 10K PM5 A RST 1W RSS A 33K PM5 A RST CRB CFR 12 A 2K2 PM5 A RST CRB CFR 12 A 10K PM5 A RST SM 0805 RC11 116 PM5 RST MFLM MF1 2WS 15R PM1 RST MGL VR37 A220K PM5 A RST MFLM MF1 2WS A 75K PM1 A RST MGL VR37 A430K PM5 RST MFLM MF1 2WS A 4 7 1 RST CRB 12 A 2K2 PM5 3834 3835 3837 3838 3839 3840 3841 3842 3843 3844 3845 3847 3871 5007 5101 5102 5103 5108 5113 5122 5123 5124 RST MFLM MF1 2WS 430 1 5125 RST CFR 12 A 22K PM5 RST SM 0805 3011 150K PM5 RST CRB CFR 12 A 6K8 PM5 RST CRB CFR 12 A 1K PM5 RST CFR 12 150 PM5 RST CRB CFR 12 6K8 PM5 RST CRB 12 1KPM5 RST CFR 12 150 PM5 RST CRB CFR 12 6K8 PM5 RST CRB CFR 12 1KPM5 RST CFR 12 150 PM5 RST CRB CFR 12 6K8 PM5 RST CRB 12 A 1K PM5 RST CRB 12 A 10K PM5 A RST CRB CFR 12 A 10K PM5 A RST 12 100 PM5 A RST CFR 12 A 47K PM5 RST CRB CFR 12 A 10K PM5 A RST FUSE RFU1 3 18 PM5 A RST FUSE RFU1 3 A 10R PM5 A RST CRB 12 A470R PM5 RST MFLM MF1 2WS A
99. T L 4602 3510D8 7646 1 5 A F038 3512A4 7647113 e CLBL 3513A4 7648 3 E NE 5 351504 780115 5 2 123 351683 7803 9 gt i l 3517E9 783119 gt 8 351804 8501 1 351909 8502F 352284 9601118 gt 3523 5 9604 4 G 352486 5 3525 6 FO21 B11 3528E7 022 11 gt 83 AE AN 2056 DISENO 355386 23 17 3554 B8 F024 C16 3646 3555 88 22025 6 ES W gl 355889 026 17 BRIGHTNESS R 3641 91 3567 027 17 V SYNC OUT 4 3568 028 16 Hun SYNC o 3838 eal V SYNC IN 3650 357752 E15 3843 3844 9 2 100R H12 3601 010 2 17 Lr H DC SHIFT 9 6 5K8 2638 T 185 i 3602E10 F033 E17 0 22k 5 TRO H SYNC IN 3651 855 eu 1 3603E11 FDO34F1 atl 5 92 ee 23 Np 5611 3604D11 FO35F1 amp Ta Y 4 3828 SDA 1k adis EN SRW19ES T38V005 3605C12 FO36Fl E 3647 3606 013 7 1 K 5 100R L L 7 350 3607 13 038 16 e SS 3829 SCL 1 AC 250 Vpop 24 F045 2633 3608 513 F039 F1 o 1 7 3609512 2040 FI ABL CON 2097 u 1068 pec os 6808 361012 F041 1 K BRE 2640 AC 250 op 3 2 88 3 53 555 8 3611F17 F042Gl 5 BYE T po 3612817 043 1 428 Y 89 3056 32 2207 AC 250 op 1 eR howe 2 3613817 44 3832 2 C R 3614 18 8
100. Vertical non linearity lt 8 lt T 76 lt 6 Horizontal two adjacent lt 6 lt 5 lt 4 Vertical two adjacent lt 6 gt 4 Xmax Xmin H linearity 100 Xmin Ymax Ymin V linearity x 100 Ymax Ymin Mis convergence The maximum convergence error to be measured on a white spot or white display line to represents the maximum distance between the energy centers of any two primary colors See Fig 6 Mis Convergence SPEC Zone C is 0 3 0 4 When 45kHz CRT Pitch Focus check with 79 976K Hz 75 025Hz 1280 x 1024 mode Generate 9 blocks ME character pattern Fig 7 to cover entire of the picture area 90mm x 90mm display size respect to Fig 1 adjust brightness control contrast at 10096 the ME character should be clearly identified in all display 4 10 Luminance uniformity CLASS NO V50 19 109B5 97KHz HB condition With full white pattern set contrast control at max and adjust brightness control to get 30FL in center the max deviation to the rest of the screen shall not exceed 25 3 TYPE 109B50 00 8639 000 14291 pd 2003 06 17 BRAND PHILIPS p TRENE aS TY CHECK pare 2003 06 17 Property ot PHILIPS ELECTRONICS INDUSTRIES TAIWAN LTD B E 2838 100 05424 NF NF GENERAL PRODUCT SPECIFICATION Continued 65 M4 Go to cover page Ah 4 11 White color adjustment Based on the 1
101. With respect to Fig 2 the target relationships are the following IA B lt 6mm C D 6mm Note This centering is adjustable by the end user Picture shift control range H shift range 10mm min 3mm from center to each side V shift range 8 mm min 2mm from center to each side Picture tilt With respect to Fig 3 Tilt to be measured on extremes of center line from bezel NF Tilt lt 2 mm Geometric distortions It is acceptable that pincushion trapezoid rhomboid rotation and various waves distortions must remain within the limits of tolerance as in fig 4 The waviness of any vertical or horizontal shall be less than 1 0 mm over a 50 mm distance V50 19 109B5 97KHz HB TYPE 109850 00 8639 000 1 2003 06 17 BRAND PHILIPS m 5900 12 19 TY CHECK 2838 100 05424 pate 2003 06 17 Propetyot PHILIPS ELECTRONICS INDUSTRIES TAIWAN LTD B E NF EE 5010985 44 Go to cover page PHILIPS PHILIPS 4 8 to third parties in any form whatever is not permitted without written authority from tne proprietors All rights strictly reserved Reproduction or issue 4 9 to 50 and area GENERAL PRODUCT SPECIFICATION Continued 47 Horizontal Vertical linearity 12 equal blocks along horizontal axis 9 equal blocks along vertical axis see Fig 1 30 31 5 31 6 64kHz gt 64kHz Horizontal non linearity lt 8 a7 lt 6
102. ameters Features Video Input Definition Analog Video Input 0 700V 0 000V 0 70Vpp without Blank to Black Setup Separate Sync without Composite Sync without Sync on Green no Serration required Maximum H Image Size 36 Maximum V Image Size 27 Display Transfer Characteristic 2 9 gamma Feature Support DPMS Standby Suspend Active Off Display Type RGB color display Standard Default Color Space Primary color space Preferred Timing Mode Detailed timing block 1 Color Characteristics Hed Xcoordinate 0 639 Hed Y coordinate 0 323 Green X coordinate 0 275 Green Y coordinate 0 597 Blue X coordinate 0 143 Blue Y coordinate 0 062 White X coordinate 0 283 White Y coordinate 0 297 Established Timings Established Timings 1 720 400 70Hz IBM VGA 720 400 88Hz IBM XGA2 640 480 60Hz IBM VGA 640 x 480 67Hz Apple Mac 1 640 480 67272 VESA 640 480 67572 VESA 800 600 56Hz VESA 800 600 6072 VESA 800 600 72Hz VESA 800 600 67572 VESA 832 x 624 75Hz Apple Mac 1 1024 768 0 8772 1024 768 6 6072 VESA 1024 x 768 67072 VESA 1024 x 768 75Hz VESA 1280 1024 67572 VESA Manufacturer s timings 1152 870 67572 Apple Mac Il Standard Timing Identification 1 Established Timings Il NN Horizontal active pixels 640 Aspect Ratio 4 3 Refresh Rat
103. and gain same as 6500 color temperature Setting brightness at 50 then set sRGB contrast at 23 1 FL Electrical Adjustments Continued 8 Focus adjustment With 9 blocks ME pattern display at timing 79 9KHz 1280 X 1024 each block is a square of 90mm x 90mm Set brightness at 50 and contrast at 100 at the center of the screen and adjust focus pot meter which is located at fly back transformer until the haze just disappears on 2 3 east and west top and down of the screen 9 Loading DDC code The DDC HEX data should be written into the EEPROM 7802 by EDID301 EXE Program 3138 106 10103 and software DDC Alignment kits 4822 310 11184 10 Purity adjustment Make sure the monitor is not exposed to any external magnetic field Produce a full red pattern on the screen adjust the purity magnet rings on the PCM assy on CRT to obtain a complete field of the color red This is done by moving the two tabs 2 pole in such a manner that they advance in an opposite direction but at the same time to obtain the same angle between the two tabs which should be approximately 180 degree Check by full green pattern and full blue pattern again to observe their respective color purity 11 Static convergence Introduction Slight deviation in the static convergence can be corrected by using two permanent pairs of magnets which are fitted around the neck of the CRT These are the 4 pole magnet and the 6 pole magnet T
104. anel Fig 2 Control connector Rotation connector Fig 3 Degaussing wire connector Signal connector Fig 4 Mechanical Instructions 4 Main panel with Bottom Tray Remove 2 screws for disconnect the Bottom tray as Fig 5 Pull the bottom tray on press right and left side clip from fig 6 to fig 7 5 SERVICE POSITION Reconnect connectors some wires and panels chassis service position can be available for DC AC measurement as shown in Fig 8 Press clip then Pull up Fig 7 Screw Fig 5 Main panel Fig 8 SERVICE POSITION Press CLIP Fig 6 44 Go to cover page Warnings 1 10 11 Safety regulations require that the unit should be returned 1 in its original condition and that components identical to the original components are used The safety components are indicated by the symbol In order to prevent damage to ICs and transistors all high voltage flash overs must be avoided In order to prevent damage to the picture tube the method shown in Fig 1 should be used to discharge the picture tube 2 Use a high voltage probe and a multimeter position DC V Discharge until the meter reading is 0 V after approximately 30 seconds ESD All ICs and many other semiconductors are sensitive to electrostatic discharges ESD Careless handling during repair can drastically shorten their life Make sure that during re
105. ast anti glare anti static anti reflection light transmission 45 P22 14 0 x 10 4 355 x 265 mm 14 4 x 10 8 365 x 270 mm 30 97 KHz 50 160 2 203 Mhz 75 Ohms 2 2K Ohms 0 7Vpp Separate sync Composite sync Positive or negative 440 W x433 H x449 D 20 Kg 90 264 VAC 50 60 Hz 0 C to 40 C 10 90 W O condensation 25 C to 65 C 5 to 95 W O condensation The 15 pin D sub connector male of the signal cable Assignment Pin Assignment 1 Red video input 9 2 Green video input 10 Logic Ground 3 Blue video input 11 Identical output connected to pin 10 4 Identical output connected to pin 10 12 Serial data line SDA 5 fground 13 H Sync H V 6 Red video ground 14 V Sync VCLK for DDC 7 Green video ground 15 Data clock line SCL 8 Blue video ground WI XTIISIIISII III 44 Go to cover page Data Storage Factory preset modes This monitor has 8 factory preset modes as indicated in the following table Frequen Sync polarity Mode Resolution H KHz V Hz H V MO1 VGA 720 400 31 5 70 Mo2 VGA 640 x 480 31 47 60 1 640 480 43 3 85 MO4 SVGA 800 0 46 9 75 MOS SVGA 800x600 53 674 85 T 06 EVGA 1080 x 960 60 0 60 07 EVGA 1024 x 768 68 7 85 ii ii
106. cteristic 2 81 gamma Feature Support DPMS Standby Suspend Active Off Display Type RGB color display Standard Default Color Space Primary color space Preferred Timing Mode Detailed timing block 1 Color Characteristics Hed Xcoordinate 0 631 Hed Y coordinate 0 329 Green X coordinate 0 276 Green Y coordinate 0 6 Blue X coordinate 0 143 Blue Y coordinate 0 057 White X coordinate 0 283 White Y coordinate 0 297 Established Timings Established Timings 720 400 67002 IBM VGA 720 400 8872 IBM XGA2 640 480 6072 IBM VGA 640 480 67Hz Apple Mac Il 640 480 67202 VESA 640 480 75Hz VESA 800 600 5672 VESA 800 x 600 6 6072 VESA Established Timings 11 800 x 600 72Hz VESA 800 600 67572 VESA 832 x 624 75Hz Apple Mac 1 1024 768 0 8772 1024 768 6 6072 VESA 1024 x 768 67072 VESA 1024 x 768 75Hz VESA 1280 1024 75Hz VESA Manufacturer s timings 1152 870 675702 Apple 11 Standard Timing Identification 1 Horizontal active pixels 640 Aspect Ratio 4 3 Refresh Rate 85 Standard Timing Identification 2 Horizontal active pixels 800 Aspect Ratio 4 3 Refresh Rate 85 Standard Timing Identification 3 Horizontal active pixels 1024 Aspect Ratio 4 3 Refresh Rate 85 Standard Timing Identification 4 Horizontal active pixels 1280 Aspect Ratio 4 Refresh Rate
107. de Burn In Service Mode 44 Go to cover page OSD Lock OSD lock is a feature which disables the OSD controls It can be used when the monitor is set up for demonstration purposes or when adjustment of the OSD is not desirable Switch on OSD lock feature Press and hold the 9 button continuously for 15 seconds Release the button when the message CONTROL MENU IS LOCKED appears MAIN CONTROLS 3 LANGUAGE 9 200M 5 ADJUST HORIZONTAL ADJUST VERTICAL ADJUST SHAPE 5 ADJUST COLOR 4 RESET TO FACTORY SETTINGS EXTRA CONTROLS CONTROL MENU IS LOCKED CLOSE MAIN CONTROLS VA MOVE SELECTION THEN Switch off OSD lock feature Press and hold the bd button continuously for 15 seconds or until the message window CONTROL MENU IS LOCKED disappears and MAIN CONTROLS appears ATTENTION MAIN CONTROLS 3 LANGUAGE 200M ADJUST HORIZONTAL ADJUST VERTICAL CONTROL MENU IS LOCKED E ADJUST SHAPE ADJUST COLOR RESET TO FACTORY SETTINGS EXTRA CONTROLS CLOSE MAIN CONTROLS MOVE SELECTION THEN To access factory mode 1 Turn off monitor don t turn off PC 2 Press and simultaneously on the front control panel then press wait till the OSD menu with characters V50 109B5 97K 0 41 20030421 below OSD menu come the screen of monitor MAIN CONTROLS 9 LANGUAGE 200M ADJUST HORIZONTAL A
108. e 5 Standard Timing Identification 2 Horizontal active pixels 800 Aspect Ratio 4 3 Refresh Rate 55 Standard Timing Identification 3 Horizontal active pixels 1024 Aspect Ratio 4 3 Refresh Rate 85 Standard Timing Identification 4 Horizontal active pixels 0 Aspect Ratio 5 4 Refresh Rate 85 9010985 44 Go to cover page Standard Timing Identification 5 Horizontal active pixels 1600 Aspect Ratio 4 3 Refresh Rate 75 Standard Timing Identification 6 Horizontal active pixels 1920 Aspect Ratio 4 3 Refresh Rate 60 Detailed Timing 1 Pixel Clock MHz 202 5 H Active pixels 1600 H Blanking pixels 0 V Active lines 1200 V Blanking lines 50 Sync Offset F Porch pixels 64 H Sync Pulse Width pixels 192 V Sync Offset F Porch lines 1 V Sync Pulse Width lines 3 H Image Size mm 360 V Image Size mm 270 H Border pixels 0 V Border lines 0 Flags Non interlaced Normal Display No stereo Digital Separate sync Positive Vertical Sync Positive Horizontal Sync Monitor Descriptor 2 Serial Number TY 123456 Monitor Descriptor Monitor Name PHILIPS 109B5 Monitor Descriptor 4 Monitor Range Limits Min Vt rate Hz 50 Max Vt rate Hz 160 Min Horiz rate kHz 30 Horiz rate kHz 97 Max Supported Pixel 240 No secondary GTF timing formula supported Extension Flag 0 Check sum 49 HEX
109. e of the sets to be set as stated in Fig 1 Moire area should be less than 1 3 area 15FL via moire control However the OSD moire data of V moire should have a default value mode dependent for product outgoing Increasing the moire control value will have side effect on resolution degrade focus and phenomenon of flicker and sawtooth V50 19 109B5 97KHz HB _ TYPE 109B50 00 8639 000 14291 2003 06 17 BRAND PHILIPS p TGS 5 14 T TY CHECK pare 2008 06 17 Propertyot PHILIPS ELECTRONICS INDUSTRIES TAIWAN LTD B E 2838 100 05424 x y L3 EAUS GENERAL PRODUCT SPECIFICATION Continued M4 Go to cover page PHILIPS PHILIPS All rights strictly reserved Reproduction or issue to third parties in any form whatever is not permitted without written authority from the proprietors Ab 5 0 Mechanical characteristics 5 User controls at front left to right Contrast tact switch control With Decrease and Increase Brightness tact switch control With Decrease and Increase OSD Ok menu tact switch control Power on off button tact switch control 6 0 Connectors and cables 6 1 1 Power cord plugable type Wall Plug non shielded and non attached Length 1 8 m 50 mm Plug curved at 90 6 1 2 Signal cable Length of video 1 8 m 50 mm flying in 15pins D sub 7 0 Environmental characteristics The following sections to define the interference and susceptibility c
110. e proprietors All rights strictly reserved Reproduction or issue 3 8 Degaussing An automatic degaussing circuit is provided which requires no intervention The degaussing activated at the time of switch on or switch on again or pressing manual degaussing key after switching off degaussing circuits for longer than 30 minutes 3 9 Phosphor protection The display device is sufficiently protected against the burning of phosphors case of repetitive power cycling or absence of horizontal deflection V50 19 109B5 97KHz HB 109B50 00 8639 000 14291 2003 06 17 m UNS 39 o L Ta TY CHECK pate 2003 06 17 Property ot PHILIPS ELECTRONICS INDUSTRIES TAIWAN LTD B E lt 05424 100 2838 E 44 Go to cover PHILIPS PHILIPS All rights strictly reserved Reproduction or issue to third parties in any form whatever is not permitted without written authority from the proprietors GENERAL PRODUCT SPECIFICATION Continued Ab 3 10 Low emission requirements TCO99 TCO 03 4 0 4 1 Band I Band II ELF rms VLF rms Alternating Electric MPR II gt 25 V M MPR II lt 2 5V M Field 99 03 lt 10 99 03 lt 1 0 Magnetic Field lt 250nT lt 25 nT TCO 99 03 lt 200 nT TCO 99 03 lt 25 nT Band I 5 to 2K Hz Band II 2K to 400K Hz Test procedure according to Low emi
111. eck HDRB check B DRB ae 76186 7616 gate 7501 8 7501 pin6 H deflection a 9 pu NO Y refer 7501 check list or replace 7503 Symptom check 7501 2 East West gt pint tel nd check list corr parabola exist Symptom enter factory mode check 3 H linearity gt check linearity data gt 3615 3611 freq range in eeprom 7611 collector refer cou check list 6 7611 11 14 check check cpu Symptom MEN check check 7619 gt 3627 3628 7801 pin38 4 rotation 7620 7621 control range 3629 check check cpu Symptom check 5 H_dc shift gt 7628 7629 1 pne 7627 enter OSD Symptom 6 Focus 7501 32 Repair Flow Chart Continued D Vertical Deflection Failure basic check 12 12V Symptom one horizontal line V_size is abnormal too large small v check 7501 pin 12 13 Ok No replace 7501 1 50 5 44 Go to cover page v check 7401 pin1 pin7 ramp exist No v check 3554 3552 EG 44 Go to cover page E CPU check list 1 Basic Check gt 4 H linearity
112. ecked with the check list UAT 0361 All rights strictly reserved Reproduction or issue to third parties in any form whatever is not permitted without written authority from tne proprietors V50 19 109B5 97KHz HB TYPE 0 8639 000 1 oo 2003 06 17 BRAND PHILIPS p TGS o pare 2003 06 17 Propertyot PHILIPS ELECTRONICS INDUSTRIES TAIWAN LTD B E 2838 100 05424 x y 50 5 M4 Go to cover page PHILIPS GENERAL PRODUCT SPECIFICATION Continued 5 261 265 All rights strictly reserved Reproduction or issue to third parties in any form whatever is not permitted without written authority from the proprietors 109B50 00 8639 000 14291 2003 06 171 BRAND PHILIPS TYPE wwe C C LIAO X ME c 10 TY CHECK 2838 100 05424 DATE Fig 1 IMAGE DIMENSION 2003 06 17 Property of PHILIPS ELECTRONICS INDUSTRIES TAIWAN LTD B E NF 5 5 All rights strictly reserved Reproduction or issue to third parties in any form whatever is not permitted without written authority from the proprietors GENERAL PRODUCT SPECIFICATION Continued Ah M4 Go to cover 265 mm NF 355 mm AND C D gt 6 mm FIG 2 IMAGE CENTERING V50 19 109B5 97KHz HB TYPE 109B50 00 8639 000 1 oo 200
113. ek Stop Ch1 Freq 45 50kHz Ch1 11 0 Ch1 Min 600 Ch1 RMS 6 20 V WU 5 00 V gt 0 00000 Prevu 1 Freq 49 06 2 37 2 Ch1 Min 26 4 V Ch1 RMS 19 9 V alto oas C SV ii 0 00000 s Tek Prevu Freq 3 896 2 Ch1 520 Ch1 Min 730 Chi RMS 124 0 00000 s 4 Prevu 1 j Freq 22 1 1 2 64 01 2 Ch1 200 Chi Min 72 0 V Chi RMS 136 V 100v 777 T0 OMS hr 366 V ij 0 00000 s Tek Run 1 Tug Ch1 Freq 74 99 H2 5 20V Chi Min 280mVv Chi RMS 303 1 i waveform Intensity Ch CTE Chr 7 272 3v i 0 00000 5 Tek Stop 1 ji Chi Freq 3 2 4 80 Ch1 Min 280 RMS 1 21 aa Chi EAE 20 V ij 0 00000 s Tek Stop 1 i Ch1 Freq 3 j 1 74 98 H2 Ch1 Max 1 14 V Ch1 Min 50 0mV Ch1 RMS 244mV i 0 00000 5 Freq 67 50kH2 Ch1 Max 5 08 V Ch1 Min 240 Chi RMS 1 41 V Ch 9v WA E Chr d EN ij 0 00000 s Waveform of Main Board Tek j Freq j 67 53 2 Ch1 480 Chi Min 284 Ch1 RMS 137 1
114. emiconductors indicated in the circuit diagram s and in the parts lists are completely interchangeable per position with the semiconductors in the unit irrespective of the type indication on these semiconductors R Qx 2 Fig 1 Electrical Adjustments 1 General 2 Input signal mode Inspection modes 8 Resolution modes H freq V freq H V Inspection timing 1 800 x 600 53 7 Khz 85HZ VESA Don tCare 2 1024x768 60 0Khz 75HZ VESA Don t Care 3 1024x768 68 7 Khz 85 2 Don t Care 4 1152 x 864 77 1Khz 85HZ VESA Don t Care 5 1280x1024 80 0 Khz 75Hz VESA Don t Care 6 1920x1440 90 0 Khz 60 Hz VES Don t Care 7 1280 1024 91 1 Khz 85Hz VESA Don t Care 8 1600x1200 93 8 Khz 75Hz VESA Don t Care 3 0 Main chassis alignment 3 1 Power supply adjustment 3 1 1 Set Vg2 manually screen to fully counterclockwise zero beam current 3 1 2 Apply 80KHz 75Hz full black pattern 3 1 3 Monitor the following auxiliary voltages 197 0V source across C2152 and gnd 197 7 2 5 VDC 82 5V source across C2151 80 5 2 0 VDC 6 2V source across C2155 6 2 0 35 VDC 12 4V source across C2153 12 4 0 7 VDC 12 6V source across C2154 12 6V 0 7VDC 3 2 High Tension Voltage EHT adjustment 3 2 1 Apply 68 7 KHz 85 Hz 1024x768 resolution signal Adjust manually R3699 EHT to obtain 26 00 3KV at CRT anode at zero beam Current did
115. eq 1 252 2 1 08 V Ch1 Min 200 Chi RMS 700 ChT 4 36 XT ij 0 00000 s 50 500 _ Tek Stop _ Freq 1 783kH2 Ch1 Max 313V Ch1 Min 67 0V Ch1 RMS 169 V Ch 0oms Ohr 7 TY ii 0 00000 s Tek Prevu Ch1 Freq 66 19kHz Low resolution Ch1 Max 700 v Ch1 Min 188 Ch1 RMS 288 V 1 200 v ij 0 00000 5 Freq 67 49kH2 Ch1 Max 4 92 V Ch1 Min 280mV Ch1 RMS 1 33 V M is Chr 7 2 68 V i1 0 00000 s SU 200v Tek Run_ Ch1 Freq 74 98 2 Ch1 5 08 V Ch1 Min 280 Chi RMS 301 212 Waveform Intensity 90 11 7 0 00000 s Run Chi Tek Run 47 Tek Run 20 0 v 50 SOOmV Waveform of Main 11 7 0 00000 s Hl 2 00 V M 40 0ns a Chi 4 2 2 V i 0 00000 5 m ooms A Chl f EV i 0 00000 5 W o0ms at GPE 2 ij 0 00000 s i 0 00000 s Ch1 Freq 12 03MH2 Ch1 5 21V Chi Min 281 Chi RMS 3 02V Freq 11 97 2 1 5 56 V Ch1 Min 439 Ch1 RMS 3 18 V Ch1 Freq 75 00 2 Ch1 39 6V Ch1 Min 10 8V chi RMS 6 64 Ch1 Freq 84 68 H2 Ch1 910 Chi Min 1 09V Chi RMS 442mv Freq 75 00 2 Ch1 13 0V Chi Min 13 3 V Chi RMS 12
116. es Screws etc to be sure the unit may be safety operated without danger of electrical shock Broken line Implosion 1 2 1 2 4 picture tubes used in current model receivers are equipped with an integral implosion system Care should always be used and safety glasses worn whenever handling any picture tube Avoid scratching or otherwise damaging the picture tube during installation Use only replacement tubes specified by the manufacturer radiation Be sure procedures and instructions to all your service personnel cover the subject of X radiation Potential sources of X rays TV receivers the picture tube and the high voltage circuits The basic precaution which must be exercised is to keep the high voltage at the factory recommended level To avoid possible exposure to X radiation and electrical shock only the manufacturer s specified anode connectors must be used It is essential that the service technician has an accurate HV meter available at all times The calibration of this meter should be checked periodically against a reference standard When the HV circuitry is operating properly there is no possibility of an x radiation problem High voltage should always be kept at the manufacturer s rated value no higher for optimum performance Every time a color set is serviced the brightness should be run up and down while monitoring the HV with a meter to be certain that the HV
117. es will display on screen as shown in Fig 13 Fig 13 2004 x 00 32 1 47 00 2 0 x 20 20 20 20 20 20 00 67 Suspend E CAP NUM Step 3 Modify DDC data verify EDID version week year 1 Click Br new function icon from the tool bar bring up Step 1 of 9 as shown in Fig 14 EDID301 DDC application provides the function selection and text change select amp fill out from Step 1 to Step 9 Step 1 of 9 EDID Structure version Production Identification EDID Structure Version Cio Cll C12 GI PE VID Vendor ID ID Manufacturer Name Fig 14 PID vendor assigned Product ID ID Product Code 00 Hex Dec Byte swap SNO Serial Number ID ID Serial Number 55 Hex C C ASCII Unused Date Code Week of Manufacture 0 53 use 0 if unused 41 Year of Manufacture 1990 2053 2 Step 4 Modify DDC data Monitor Serial No 1 Click Next till the Step 7 of 9 window appears as shown in Fig 15 2 Fill out the new Serial No for example 503960 TY 123456 3 Click Next till the last step window appears then click Finish to exit the Step window 7 Monitor Descriptor Descriptor Data Type Tag Monitor S N ASCII Y Monitor S N ASCII TY 503960 gt two space for example change it from TY 503960 Fia 1 to TY 123456 0 29 gt Back Defin
118. he 4 pole magnet move the outermost electron beams R and B parallel in the opposite direction from the other The 6 pole magnet moves the outermost electron beam R B and G parallel in the opposite direction from the other The magnetic field of the above magnets do not affect the center of the CRT neck Setting Before the static convergence setting can be made the monitor must be switched on for 30 minutes The focus setting must be made correctly Signal 640 480 31 5 kHz 60 Hz mode Set the tabs of the 4 pole magnet in the neutral position This is when the tabs are opposite one another In this position the magnets do not affect the deflection of the and B electron beams Set the tabs of the 6 pole magnet in the neutral position This is when the tabs are opposite one another In this position the magnets do not affect the deflection of the R B and G electron beams First set the 4 pole magnet optimally Then set the 6 pole magnet optimally If the convergence is not now optimal then adjust to the optimal setting with the 4 pole magnet and then with the 6 Pole magnet again Set the tabs of the 6 pole magnet in the neutral position This is when the tabs are opposite one another In this position the magnets do not affect the deflection of the R B and G electron beams First set the 4 pole magnet optimally Then set the 6 pole magnet optimally If the convergence is not now optimal then adjust to the optimal
119. hriftelijke toestemming van de auteursrechthebb MHR Panel Scahematic 44 Go to cover page 4 d TO MAIN PCB 8101 M H R BOARD F3 D3 SB 55781 FS 2 PB 58361 F7 ba gt 2192 2 2193 2 2194 E 2195 1 3191 02 3192 2 3193 D 5191 2 5192 6191 2 619203 6193 6194 D2 719101 9191 1 9192 D 9193 1 9194 DI 6191 5 1 4148 NY 1 2W 01 6194 102 3191 0 TO MAIN PCB M K 8115 K 1N4148 7191 BC338 40 NOTES R STANDS FOR RESERVED NOT INSERTED CHN SEINAME V50 CLASS NO MHR BOARD 3138 178 63681 J 109B50 00 2003 06 20 3 SUPERS 1 MGr 2003 06 20 KONINKLIJKE PHILIPS ELECTRONICS 2000 1 2 3 4 5 6 V50 109 5 44 Go to cover page PIPPIN ANAT lt lt lt gt gt gt C C c t wc CD 6 EENM ST ON 5 2 5 62 10 59100232913 Sd 6 7 l 01 90 90 6006 393H9 543405 101 pUD OM any 8 45 501 8515 142 2 N 000XX ON SSV19 4401 8601 OPN
120. ion or issue to third parties in any form whatever is not permitted without written authority from the proprietors V50 19 109B5 97KHz HB L TYPE 109B50 00 8639 000 14291 E 2003 06 17 BRAND PHILIPS x 5 pate 2003 06 17 Property ot PHILIPS ELECTRONICS INDUSTRIES TAIWAN LTD B E 2838 100 05424 x y NF PHILIPS PHILIPS to third parties in any form whatever is not permitted without written authority from the proprietors All rights strictly reserved Reproduction or issue GENERAL PRODUCT SPECIFICATION Continued 3 1 3 Factory pre set modes Factory modes User modes OO N N O gt TI 99 ON 1 50 5 M4 Go to cover page Item 7 Resolution Pixel rate Mhz Remark 4 _____ 2 640 480 0 31 469 25 175 VGA 2 8 37 861k 31 500 VESA 5 37 500k 31 500 VESA 5 43 269k 36 000 VESA 100 1 50 60k 40 500 SNI 6 720 400 28 321 VGA VESA 8 800 600 40 000 VESA 9 72 12 48 077k 50 000 75 46 875 49 500 VESA 856656740 66 250 VESA 100 1 63 90k 67 500 SNI 57 280 MAC 1024x768 65 000 VESA 75 000 VESA 78 750 VESA h 84 997 68 677K 64 500 VESA 1152 864 108 000 VESA 121 500 VESA P 20 1152x870 7566868 1100 000 MAC 108 000 SUN 1280x960 108 000 VESA 5 VESA 1280x1024 108 000 VESA V
121. is important to understand that these CAUTIONS and NOTICES ARE NOT EXHAUSTIVE PHILIPS could not possibly know evaluate and advise the service trade of all conceivable ways in which service might be done or of the possible hazardous consequences of each way Consequently PHILIPS has not undertaken any such broad evaluation Accordingly a servicer who uses a service procedure or tool which is not recommended by PHILIPS must first satisfy himself thoroughly that neither his safety nor the safe operation of the equipment will be jeopardized by the service method selected Hereafter throughout this manual PHILIPS Company Will be referred to as PHILIPS WARNING Critical components having special safety characteristics are identified with a by the Ref No in the parts list and enclosed within a broken line where several critical components are grouped in one area along with the safety symbol on the schematics or exploded views Use of substitute replacement parts which do not have the same specified safety characteristics may create shock fire or other hazards Under no circumstances should the original design be modified or altered without written permission from PHILIPS PHILIPS assumes no liability express or implied arising out of any unauthorized modification Of design Servicer assumes all liability Broken Line m mmm os IMPORTANT SAFETY NOTICE FOR PRODUCTS CONTAINING LASER DANG
122. is regulated correctly and does not exceed the specified value We suggest that you and your technicians review test procedures so that HV and HV regulation are always checked as a standard servicing procedure and the reason for this prudent routine is clearly understood by everyone It is important to use an accurate and reliable HV meter It is recommended that the HV recorded on each customer s invoice which will demonstrate a proper concern for the customer s safety When troubleshooting and making test measurements in a receiver with a problem of excessive high voltage reduce the line voltage by means of a Variac to bring the HV into acceptable limits while troubleshooting Do not operate the chassis longer than necessary to locate the cause of the excessive HV New picture tubes are specifically designed to withstand higher operathng voltages without creating undesirable X radiation It is strongly recommended that any shop test fixture which is to be used with the new higher voltage chassis be equipped with one of the new type tubes designed for this service Addition of a permanently connected HV meter to the shop test fixture is advisable The CRT types used in these new sets should never be replaced with any other types as this may result in excessive X radiation It is essential to use the specified picture tube to avoid a possible X diation problem Most TV receivers contain some type of emergency Hold Down circuit to preven
123. ition of Serial Number barcode format 03 15000001 gt Serial Number U S A 8 digit Week Others regions 6 digit gt Year gt TY Code TY Chungli CX Dong Guan HD Hungary BZ Suzhou DDC Instructions Continued Step 5 Configuration Setup amp Enter Factory Mode for write EDID data 1 Click Z9 icon from the tool bar to bring up the Configuration Setup windows again Then select Software DDC only as shown in Fig 16 Click OK Configuration Setup DOC communication channel command 107E C ADC command 104E 105E Factory memory data write Enable Monitor must be enter factory mode Mapped EDID page address Hex FO Software DDC Software DOC only If you do not select Software DDC only when you execute write EDID it will bring up an error message as below e EDID code verified error To access factory mode 1 Turn off monitor don t turn off PC 2 Press and simultaneously on the front control panel then press 6 wait till the OSD menu with characters V5040 109B5 97K 0 41 20030421 below OSD menu come on the screen of monitor CONTROLS wl LANGUAGE 200M 2 ADJUST HORIZONTAL ADJUST VERTICAL E ADJUST SHAPE ADJUST COLOR RESET TO FACTORY Fig 17 SETTINGS EXTRA CONTROLS MODEL SELECT Factory CLOSE MAIN CONTROLS Mode Indicator V50 109B5 97K V0
124. l then press 6 wait till the OSD menu with characters V40 109F5 0 45 20030410 below OSD menu come on the screen of monitor MAIN CONTROLS 317 LANGUAGE ADJUST ADJUST ADJUST SHAPE ADJUST COLOR RESET TO FACTORY EXTRA CONTROLS HORIZONTAL VERTICAL SETTINGS Factory Mode Indicator CLOSE MAIN CONTROLS V50 109B5 97K 0 41 20030421 5 3 If OSD menu disappears on the screen of monitor press 9 again anytime then the OSD menu comes on the screen again 5 4 Using to select OSD menu 5 5 Using 3 to increase or decrease the setting 5 6 Using gg to access confirm the selection leave factory mode 5 7 After alignment of factory mode turn off monitor if you do not turn off monitor the OSD menu is always at the factory mode then turn on monitor again at this moment the OSD menu goes back to user mode 6 Adjustment of the picture geometry 6 1 1 Apply Table 4 79 976 2 75 025 2 without video signal set Brightness at 100 set H size V size for raster size around 355x265 mm and set vertical position to 50 Adjust Raster H and Raster V centering for centered raster via I2C bus 6 1 2 Adjust the Horizontal Size to 355mm 6 1 3 Adjust the Horizontal Position to center position 6 1 4 Adjust the Vertical Size to 265 mm 6 1 5 Set Vertical Position 5096 adjust the Raster V for correctly centered vertical video 6 1 6 Adjust picture tilt Rotate for correct
125. metal parts of the product 2 1 2 Before carrying out the test reliable conductive connections must be ensured and thereafter be maintained throughout the test period 2 1 3 The mains switch es must be in the ON position 2 2 Test Requirements All products should be HiPot and Ground Continuity tested as follows Condition HiPot Test for HiPot Test for Ground Continuity products where products where Test requirement the mains input the mains input is range is Full 110V AC USA range or 220V type AC Test 2820VDC 1700VDC Test current voltage 2000VAC 1200VAC 25A AC Test time Test time seconds 1 second 3 seconds min min Resistance required Trip setat100 UA 5 lt 0 09 R ohm current for Max R is the Tester limitation set resistance of at 0 1 uA for the mains cord Min limitation Ramp set at 2 time seconds 2 2 1 The test with AC voltage is only for production purpose Service center shall use DC voltage 2 2 2 The minimum test duration for Quality Control Inspector must be 1 minute No breakdown during the test 2 2 3 The test voltage must be maintained within the specified voltage 5 2 2 4 The grounding blade or pin of mains plug must be conducted with accessible metal parts Safety test requirements 3 Equipments and Connection 3 1 Equipments For example ChenHwa 9032 PROGRAMMABLE AUTO SAFETY TESTEH ChenHwa 510
126. mp nog 8 47K Lf _ 2645 5 7503 3 p 3R SOFT START L o Bf 3 5 2647 665 9 CORRECTION 49 12 412 3601 S 280614 7601011 6 e ox Y Y _ SE 4 2813 7606 8 i 81 928 ob DUX v 2 5 al 3606 28144 7611 18 952 2594 972 Fla cen ay 281566 7016 15 L gt SA 522 T Opts 1 282 2W 2816H7 7617 13 1 Z 2817J3 7618013 3522 AAA 69 558 5 281818 7619813 pe 3524 1 a 1907 601 63d 7606 ees AC250Vpp 6 AR 3523 non 9 BSN254A 145 802827 04 1200 1401 1401028 F029 2821 6 7021811 732 575 28 QV 922 SING e 28244 7626818 Ot 6 TW amp he gt S TZ aot STR 6606 5 FO31 282514 7627 18 TAT sls 9 1 855 9 Poy Al lt 6 5 a ee VE alles r 2826M8 7628 C19 G DON 5 59 9 lt 2 010978 BSS 6190 58140 2 95 5 15 ud 5 LB 2827 8 7629 C19 6 1 la ex eser 9 STER STO sas 7 2828K7 7631 J19 1 69 9 lt gt BC337 4 2835 7 7636 G14 u 5 lie 26167039 ow 63615 s u oo n x 15 2 ers 5606 d 4209 1K 3503B3 7639 H13 STN 6 HL2455H 083M 6 1 3504 09 7640115 Gl 3609 lle AH ab 350509 764113 HINES 2 ala gt 0 E H F H FLY Sle 3 8 F 350908 5 5 STS S
127. n or issue to third parties in any form whatever is not permitted without written authority from tne proprietors FIG 6 SYMBOL FORMAT FOR FOCOS CHECK TYPE 109B50 00 8639 000 14291 2003 06 17 BRAND PHILIPS TEN 5 L CHECK owe 2003 06 17 propery of PHILIPS ELECTRONICS INDUSTRIES TAIWAN LTD B E 2838 100 05424 lt y NF 44 Go to cover page TELEVISION MONITOR SAFETY GUIDELINES FOR THE PROFESSIONAL SERVICE TECHNICIAN Safety Checks After the original service problem has been corrected a complete safety check should be made Be sure to check over the entire set not just the areas where you have worked Some previous servicer may have left an unsafe condition which could be unknowingly passed on to your customer Be sure to check all of the following Fire and Shock Hazard ils Be sure all components are positioned in such a way as to avoid the possibility of adjacent component shorts This is especially important on those chassis which are transported to and from the service shop Never release a repaired unit unless all protective devices such as insulators barries covers strain reliefs and other hardware have been installed in accordance with the original design Soldering and wiring must be inspected to locate possible cold solder joints solder splashes sharp solder points frayed leads pinched leads
128. ondition limits that might occur between external environment and the display device 7 1 Susceptibility of display to external environment 7 1 1 Operating limits A Temperature 0 C to 40 C Humidity 10 to 90 W O condensation Air pressure 10000 to 39000 ft B Non operating limits storage Temperature 25 C to 65 C Humidity 5 to 95 W O condensation Altitude 10000 to 39000 ft 7 1 2 Transportation packages A Carton box outside dimension 526 W 476 H 560 D mm TYPE 109B50 00 8639 000 14291 2003 06 17 BRAND PHILIPS TEN 35 o u CHECK owe 2003 06 17 propery of PHILIPS ELECTRONICS INDUSTRIES TAIWAN LTD B E 2838 100 05424 lt y NF GENERAL PRODUCT SPECIFICATION Continued B Ah Transportation conditions see table shown as below B 1 Transportation standards V50 109B5 M4 Go to cover page PHILIPS TEST Standard reference Philips severity Remarks _ Drop Gross weight Drop height W O 10 drop 1C 3E 6F Kg cm heightincrement NSTA Rear Front drop height 45cm 2321 61 Random vibration Truck spectrum 0 73 Grms 30 min axis 3 axes Shock 1 2 sine pulse Design stage Non oper 100G lt 3ms 6 shocks only boundary curve 9 CRT supplier spec is used g 8 to define maximum 5 acceptable CRT fragility 528 5 Boe
129. otal size 2 504 us Totalsize 13 329 ms Display size 9 481 us Display size 12 804 ms Rear porch 1 837 us Rear porch 0 475 ms Syne width 1 067 us sync width 0 038 ms Sync polarity Sync polarity TABLE 6 90 000 KHz 60 000Hz 1920 X 1440 pixel 234 000 MHz Horizontal Vertical Frame border 0 Frame border 0 Total size 11 111 us Total size 16 667 ms Display size 8 205 us Display size 16 000 ms Rear porch 1 470 us Rear porch 0 622 ms Syne width 0 889 us Sync width 0 033 ms Sync polarity Sync polarity TABLE 7 91 146 KHz 85 024Hz 1280 X 1024 pixel 157 500 MHz Horizontal Vertical Frame border 0 Frame border 0 Total size 10 971 us Total size 11 761 ms Display size 8 127 us Display size 11 234 ms Rear porch 1 422 us Rear porch 0 483 ms Syne width 1 016 us Sync width 0 033 ms Sync polarity Sync polarity Horizontal Vertical Frame border 0 Frame border 0 Total size 10 667 us Total size 13 334 ms Display size 7 901 us Display size 12 800 ms Rear porch 1 501 us Rear porch 0 491 ms Syne width 0 948 us Syne width 0 032 ms Sync polarity Sync polarity 3 2 1 Horizontal scanning Scanning frequency 30 97 KHz shift range 10 mm min CHECK V50 19 109B5 97KHz HB 8639 000 14291 29 s J pate 2003 06 17 NF A Propertyof PHILIPS ELECTRONICS INDUSTRIES TAIWAN LTD B E NF EX 5 10985 _
130. own in Fig 21 EDID Tool 3 01 File 2 View Help New Ctrl N Open 0 5 GNTS Fig 21 Save As Print Ctrl P Print Preview Print Setup Recent File Note1 In User Mode Read DDC data only Before read EDID code please confirm that the Software DDC only was disabled as shown in Fig 22 Configuration Setup X DDC communication channel Cancel Fig 22 AOC command 107E AOC command 104E 105 Factory memory data write Enable Monitor must be enter factory mode Mapped EDID page address Hex Fo Software DDC Software DDC only If you do not disable Software DDC only when you execute read EDID it will bring up an error message as below I2C read error 1 ZC transfer error 2 Hex Data of DDC2B k k k k k k k k k k k k k k k k k k k k k k k k k k k K k k k k k k k k k k k k k k k kk EDID log file for SDI tube k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k K k k k k k k k k k k k k k k K k k k k k k k k k k k kk Vendor Product Identification ID Manufacturer Name PHL ID Product Code E018 ID Serial Number 12345 DEC Week of Manufacture 33 Year of Manufacture 2003 EDID Version Revision Version 1 Revision 3 Basic Display Par
131. pair you are connected by a pulse band with resistance to the same potential as the ground of the unit Keep components and tools also at this same potential When repairing a unit always connect it to the AC Power voltage via an isolating transformer Be careful when taking measurements in the high voltage section and on the picture tube panel It is recommended that saferty goggles be worn when replacing the picture tube When making adjustments use plastic rather than metal tools This will prevent any short circuit or the danger of a circuit becoming unstable Never replace modules or other components while the unit is switched on Together with the defleciton unit the picture tube is used as an integrated unit Adjustment of this unit during repair is not recommended After repair the wiring should be fastened in place with the cable clamps All units that are returned for service or repair must pass the original manufactures safety tests Warning and Notes Notes The direct voltages and waveforms are average voltages They have been measured using the Service test software and under the following conditions Mode 640 480 31 5kHz 60Hz Signal pattern grey scale Adjust brightness and contrast control for the mechanical mid position click position The picture tube panel has printed spark gaps Each spark gap is connected between an electrode of the picture tube and the Aquadag coating The s
132. s Freq 2 022 2 Low signal amplitude Ch1 2 96 Ch1 Min 2 20 v Chi RMS 2 57 V WU 1009 Ooms Ohr ij 0 00000 s a9 Tek Stop 2 H 4 ChlFreq j A d 77 44 Ch1 Max 4 12 V Ch1 Min 1 36 V dence eine X UE Chi RMS 2 83 V 29027210000 a s 4 00ms er Chi 7 3700 V gt gt 0 00000 s Ch1 Freq d 67 42 2 4 1 Chi 7 40 V chi Min 1 30 Chi RMS 4 34 V Ch 00v gt 10 00000 s Run 1 sul a Ch1 Freq Eo else aa 1 4 10 1 4 1 1 67 49 2 137 Chi Min 5 00 cues oh EUR Chi RMS 89 8 V Lo 0 00000 1 Ch1 Freq 415 6kHz Chl 2 30 Ch1 Min 211 6 Es aes RS Chi RMS 2 11 V 5 00 4 00 5 soy thi so V ii 0 00000 s Ch1 Freq 67 46 2 Ch1 970 Ch1 Min 60 3 V Ch1 RMS 277 V Ch 500 NEN TEXTO TW hr 56 gt 0 00000 s 24 44 Go to cover Ch1 Freq 67 44 2 26 0V Ch1 Min 1 20 Chi RMS 7 31V gt 0 00000 s Tek Run 1 rigid i 4 Freq cu pura Sih 66 99 2 Ch1 122 Ch1 Min 61 0 v NOTI PM
133. setting with the 4 pole magnet and then with the 6 pole magnet again KH 44 Go to cover page EM purity magnet 6 pole convergence magnet 4 pole convergence magnet Deflection Yoke 4 pole Beam motion producced by the 4 pole convergence magnet Beam displacement Magnetic flux direction lines 6 pole Beam motion producced by the 6 pole convergence magnet DDC Instructions lt Go to cover page 1 General DDC Data Re programming 3 Pin assignment In case the main EEPROM with Software DDC which store all factory Connector settings were replaced because defect repaired monitor the serial numbers have to be re programmed It is advised to re soldered the main EEPROM with Software DDC from the old board onto the new board if circuit board have been replaced in this case the DDC data does not need to be re programmed The 15 pin D sub connector male of the signal cable on the 3rd row for DDC feature Additional information Additional information about DDC Display Data Channel may be obtained from Video Electronics Standards Association VESA Extended Display Identification Data EDID information may be also obtained from VESA 1 5 DDC EDID structure 6 10 For the monitor Standard Version 3 0 11 15 Structure Version 1 2 2 System and equipment requirements 1 Ani486 or above personal computer or compatible
134. ssion test method Display data channel DDC2B VESA STANDARD The software DDC HEX Data should be written into the EEPROM AO page y Display image CRT facing east The monitor 15 aligned in a magnetic cage having the following magnetic field components Northern Hemisphere H 0 0 43 0 056 7 0 Southern Hemisphere 0 0 52 0 Conditions for visual testing unless otherwise stated Input video signal 700 mVp p cross hatch Brightness control 50 Contrast control Adjusted to 30 3 FL of luminance with full white pattern Display resolutions See 3 1 3 V50 19 109B5 97KHz HB fell TYPE 109B50 00 8639 000 14291 2003 06 17 BRAND PHILIPS p pate 2003 06 17 Property of PHILIPS ELECTRONICS INDUSTRIES TAIWAN LTD B E NF NF PHILIPS PHILIPS All rights strictly reserved Reproduction or issue to third parties in any form whatever is not permitted without written authority from the proprietors GENERAL PRODUCT SPECIFICATION Continued 63 4 2 4 3 4 4 4 5 4 6 M4 Go to cover page Image size Factory pre set modes only The dimensions of guaranteed display area to be measured along the picture center of horizontal and vertical axis of the screen as listed below preset modes only refer to Fig 1 Width 355 4 mm Fig 1 Height 265 4 mm Fig 1 Image centering deviation Factory main preset modes only
135. steps show you the procedures and connection Step 1 Supply 8 12V DC power source to the Alignment box by plugging a DC power cord or using batteries Step 2 Connecting printer cable and video cable of monitor as shown in Fig 3 PC H ros Rear view of the monitor 2 5 5 Cy 2 8 12 V 0 gt z gt Video cable Step 3 Installation of EDID301 EXE Method 1 Start on DDC program Start Microsoft Windows 1 Insert the disk containing EDID301 EXE program into floppy disk drive 2 Click shown in Fig 4 Programs 4 Favorites 4 Documents 4 Fig 4 Settings gt h Log Off 021016 Shut Down 5010985 44 Go to cover page 3 At the submenu type the letter of your computer s floppy disk drive followed by EDID301 for example A EDID301 as shown in Fig 5 3 xl Type the name af a program folder document ar Internet resource and Windows will open it For you Fig 5 a edid M Cancel Browse 4 Click OK button The main menu appears as shown in Fig 6 This is for initialize alignment box Untitled EDID Tool 3 01 ol x File 12 View Help Ee amp Fig 6 PHILIPS El CAPINUM
136. t HV from rising to excessive levels in the presence of a failure mode These various circuits should be understood by all technicians servicing them especially since many hold down circuits are inoperative as long as the receiver performs normally Leakage Current Cold Check 1 Unplug the ac line cord and connect jumper between the two prongs of the plug 2 Turnon the power switch 3 Measure the resistance value between the jumpered ac plug and all exposed cabinet parts of the receiver such as screw heads antennas and control shafts When the exposed metallic part has a return path to the chassis the reading should be between 1 megohm and 5 2 megohms When the exposed metal does not have a return path to the chassis the reading must be infinity Remove the jumper from the ac line cord TO 0 15 UF WATER INSTRUMENTS BPE EXPOSED EX METAL PARTS 1500 ohm 10W GROUND Leakage Current Hot Check 1 2 Do not use isolation transformer for this test Plug the completely reassembled receiver directly into the ac outlet Connect a 1 5k 10w resistor paralleled by a 0 15uf capacitor between each exposed metallic cabinet part and a good earth ground such as a water pipe as shown above Use an ac voltmeter with at least 5000 ohms volt sensitivity to measure the potential across the resistor The potential at any point should not exceed 0 75 volts A leakage current tester may be used to make this test leakage current
137. t each terminal of the chip By means of litz wire and a slight horizontal force small components can be removed with the soldering iron They can also be removed with a solder sucker see Fig 1A Fig 1 DISMOUNTING VACUUM PISTON SOLDERING 4822 395 10159 IRON e g WELLER SOLDER TIP PT H7 SOLDERING IRON SOLDER WICK 4822 321 40042 e g APAIR OF TWEEZERS SOLDERING IRON SOLDER WICK While holding the SMD with a pair of tweezers take it off gently using the soldering iron s heat applied to each terminal see Fig 1 Remove the excess solder on the solder lands by means of litz wire or a solder sucker see Fig 1C 1 3 Caution on removal When handling the soldering iron use suitable pressure and be careful When removing the chip do not use undue force with the pair of tweezers The soldering iron to be used approx 30 W should V50 109B5 K Go to cover page preferably be equipped with a thermal control soldering temperature 225 to 250 The chip once removed must never be reused 1 4 Attachment of SMDs Locate the SMD on the solder lands by means of tweezers and solder the component on one side Ensure that the component is positioned correctly on the solder lands see Fig 2A Next complete the soldering of the terminals of the component see Fiq 2B Fig 2 MOUNTING e g A PAIR OF TWEEZERS SOLDER 9 0 5 0 8 mm PRESURE SOLDERING
138. tput 7101 3105101 v heck check replace 7102 dx replace 71 e Symptom check the resistance for pourra all output voltages 190 2 blinking LED 83 12 12 6 3 5 8 V check 6131 6133 6136 short No Y OCP possibly active check 3108 3109 3110 6106 3113 replace sna check 7114 pin3 Ok check 7114 pin1 voltage dip 7 5V lt pint gt 8V u check 5V loading current 6146 3153 7115 2 3154 7116 214 3 Symptom check check 7101 check Prid ha 0 frequency Ok drain waveform No 6103 3104 F 30KHz 97KHz right 2111 3131 Ok Y replace 5113 45 Go to cover page Repair Flow Chart Continued rough check for R G B B Video 1 video input 0 7V Repair Flow 2 7301video output 2 5V check blanking 3 7701 video output gt 35V swing 7501 pin17 8
139. x Data of DDC2B 19 21 Repair flow chart 44 51 Safety test requirements Hipot amp Ground 22 General Product Specification 52 76 SAFETY NOTICE ANY PERSON ATTEMPTING TO SERVICE THIS CHASSIS MUST FAMILIARIZE HIMSELF WITH THE CHASSIS AND BE AWARE OF THE NECESSARY SAFETY PRECAUTIONS TO BE USED WHEN SERVICING ELECTRONIC EQUIPMENT CONTAINING HIGH VOLTAGES CAUTION USE A SEPARATE ISOLATION TRANSFORMER FOR THIS UNIT WHEN SERVICING REFER TO BACK COVER FOR IMPORTANT SAFETY GUIDELINES Published by BCU Monitors th 1588 Printed in Taiwan Copyright reserved Subject to modification Aug 01 2003 3138 106 10302 PHILIPS 2 5010985 44 Go to cover page Proper service and repair is important to the safe reliable operation of all PHILIPS Company Equipment The service procedures recommended by PHILIPS and described in this service manual are effective methods of performing service operations Some of these service operations require the use of tools specially designed for the purpose The special tools should be used when and as recommended It is important to note that this manual contains various CAUTIONS and NOTICES which should be carefully Read in order to minimize the risk of personal injury to service personnel The possibility exists that improper Service methods may damage the equipment It also

Philips 109b5

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