Here - DCEmulation
Contents
1. E BLOCK 2 2 802 166 HSTATC gt ions AN 1 1802314 LCCRET 203 LCCRTN 802 31b LCC 3 LANDING 802 80 LCC 1 202 2 2 802 300 LCC 20 1 LCC 12 DTM gt SAW 1 203 2 2 802 26a 18 1 NTC RETURN z DA 9v 802 265 DECODER 0 12 m SWITCH B0227a NTCRET He 182 802 275 RET 1 T 1558 802 298 ROTRET He 192 ROTRIN 2 802 29 _ ROT RET ROTATION 802 28 RO COIL2. DYNAMIC FOCUS LANDING NTC OUT H LIN CONV D A CONV 7 3 100 ABL2 4 8 0 bz enr 25V C 5 B il 10301 6517 LD BLK gt CXA1726AM T6 DF MOD ABL 1 4 gt AT eb 474 1501 2 2 L SCLK gt L S E 2 4 54 4 5 10503 1174 4 4 2 FA5301BN TE1 art i PWM CONTROL Bp C331 INSXA HV RTN DC 174 174 PEI 25V C ch 2 HV OFF 144 3 4 OUTA INSYA 78347 R50 5 AO 174 gt 1 5 K 2001 10205 B 470 1461 1405 MB88346BPFV EE INSYP R542 D A CONVER
3. ROTATION L SCLK L MOSI 1 ROTATION gt 3 COIL CY V OUT Q721 722 0725 727 729 LE SIGNAL GENERATOR f gt 4 fec ERES AG m sas 0301151 Q821322 Du BUFFER LANDING CORRECTION DFY OUT COIL RESET CONVERTER 1202 203 Q301 304 306 307 55 0201 DF MOD 1 1 4 V PARA Conv H DFX DRIVE Q802 804 COMPUTER SDA SCL V SAW OUT Q807 809 815 SIGNAL Q151 152 155 157 159 M E PROT GENERATOR EPROLPOWERON POWERONSW HERMES T901 FBT HV OCP SW aD OX NES et eee ea PRO H STAT Qoet 5 PW r 52 HOT IC101 44 HV RTN DC Hv OVP IK i H SIZ
4. 6 801 276 15V 801 29a 15V 801 29b MICRO COMPUTER rea sv 1 941 H V SIGNAL GENERATOR 12v DEFLECTION DRIVE E BLOCK 1 2 10 10 10 10 801 2 4 9 801 MISO 10 80148 DEGAUSS 00 801484 EPROT TOG Gas 801 19 POWERON T0G MICRO COMPUTER vate rey 1 1 2 2 2 613 C s 5 11 FROMBC CHSLOT2 801 20 SB oe 9 IC628 6 6 VBLK B 3 1 2 3 gt 180193 2 80 801 5 2 2 Q611 10628 5 6 7 11 gt 10 8014 VBLKP2 Jem BC HBLKW 0802 J HBLKPH 12602 12602 FROMBC MOSI 80150 IC628 1 6 1 2 gt ERE 180180 TO BC FROMBC gt 80174 1 V STOP V STOP TOBK IC205 DAC DETECT ToG Q121 122 FROM G GPROT4 801 16 VBLKB STOP STOP GPROT3 801460 VBLKT 22 2121 DETECT GPROT2 801174 VBLKW C301 151 GPROT1 1801 17 BLK PH _ 1 T 3l i HLC DFY 22 Ue LR
5. IC2 BACK UP RESET CPU m 2 007 532 DATA BUS 0007 22 33 40 45V BATS 43 53 ADDRESS BUS T As 14 CONTROL BUS 20 22 15 g 6 92 D5V 06 1 B26 PROGRAM ROM PROT EXPANDER 8 VBLANK2 22 28 2 m FROME VBLANK2 05 5 15 p 20 r 5V VBLANKI 1 824 8 a 4 2 FTH TRD 22 Q4 ES FROMBK HSYNC 1420 wR 27 4 FROMBK VSYNC 1820 59 OVERLOAD 2014 ES FROME AFC 819 22 Tm ics Suc 5081281 STANDBY H STANDBY 212 TES VSYNC 22 SC ONOFF 2B15 POWER 1 POWER 20034 gt AFCP 22 ane 1 121 1 6 3 6 IRQ2 gt 54 one 1 28 TALLY 4 IRQ1 s gt 8 000 wA _ IRQO 1 gt 9 001112 SENSE IC15 4 6 6 6 SADDISP 13 12 10 8 1 SAD BLK DISP na IIT gt gt 14 2 2 Ire i SELSYNC TP10
6. E fs ro GND TA BOARD TA BOARD D Y GND GND 2 B 1 LCC RET 0 2 B o pe RET i ano Lo H STAT 508 I GND 130 Lec 82 Tra 15V 89 ROT RET TO E BOARD TO E BOARD TO G BOARD sns ens GND 3 isV fe ROT RET 6P GND GND GND 12V a ROT GND E GND GND GND 12V 15V us ROT Bs B LCC RET 120V GND 1 1 H DY 6V B27 RET 1201 LCC RET 120V 02 CTRL 2 H DY 6V 127 ND B30 GND LCC GND STAT CTRL 3 H DY 6V B26 NTC GND GND LCC GND H DY 6V 126 NTC E 15V ROT RET 15V 5 V DY RET DU G 5 CY V RET To 15V ROT RET 15V e V DY 00 8 V TB BOARD 15V o 15V ROT 15V DU R cY 15 TO BK BOARD EET 15V ROT 15V V sP 4 cy v 6V NTC RET 6V ABL CY RET EET 6V NTC RET 6V G2 CNT
7. ow LCC RETURN 120V 120V Eee LCC RET LCC RET Loc ROTATION RETURN 15V ROTATION RETURN ROT RET 2 ROTATION ROTATION 15V NTC RETURN 6 eV 7 6V y NTC CY V RETURN UV PIT RET DUG a RET m DU B Ka 120V cy N DUR Boi S M1CRO v VSP hu v sP CY H RETURN C veu BET ABL OUT m ABL RETURN RET CONTROL hz 62 CNT ead RTN u H GY 3 cv v ha y PON H B22 HCR H RETURN 2 cv RTN I H px CY H 15 HV PROT B21 H CY a HV RETURN AC HV AC hot DO Azo STAT m ABL1 PROT ae POWER ON EER HT 5 DUG mie 15V OUT DEGAUSS DEGAUSS HT DUB E PROTECTOR kil ESEROTECT E PROTECTOR 7 1 G 12 6 GND DUR DUR 17 1 ap
8. 100 100 100 100 100 100 100 C211T C2127 C2137 C2147 C2157 C216 T C217 6 3V 6 3V 6 3V 6 3V 6 3V 6 3V 6 3V 16011641 0207 6011 6207 0 01 0 01 50V 50V 50V 50V 5 OV 0 77 5 F CHIPF CHIPF CHIPF CHIPF F CHIP E Hm WHT E i A in F i SSS SSS S MYCRO 2 Ei CONTRAST a ui ual 50 J Eike CHIP ENCODERT 288 1 TATA C ee T o ENCODER DTC144EKA T146 a TP202 203 ame T ENCODER3 Cdp 6307 ENCODERS 9 R209 tk CHIP 1 ANG CN201 8217 47 CHIP 215 0215 201 0201 76 WHT R208 SWITCH MATI SWITCH 001 62 ee Vee f 10202 10201 gt R306 BRIGHT CHIP CXP2003M 216 9216 20031 8202 0202 NM R207 1 9 5 CONV2 MA111 SWITCH SZP CONVI MATI SWITCH CHIP Tm MISO ik oo po 1 4 217 9217 5203 9203 1 MOSI 0 WAIT SWITCH MATT SWITCH 1 SCLK 579 gt P oo 0 218 9218 0 204 9204 ha MA111 SWITCH 5 MATI SWITCH 427 T 0905 GND SHIP SN METTE S205 SWITOM 0 0 oo ovo S208
9. s mani m c fi kaa Z Er rane s sss CN2 64 TO B GND GND FL200 Hayy 4 Y A2 NC 4 1 11 TP12 TP13 B2 NC 0351 0401 0402 33 NC T T 11 1 CURRENT LIMITER CURRENT LIMITER RY401 85 NC NJM79L05A C291 6292 C234 Ej A 45 en PB nt Nc HT CP HT CP HT CP F CHIPF CHIP M NC t t t CHIP 45 NC 4 1 2 3 6 9 3 B5 NC F p i A A A6 NC C231 LM2940CT 5 0 C241 0243 0248 R411 86 NC 100 5V REGULATOR foo 1000 cao 100 C393 R409 100k 0402 6 3 6 3V 0 01 6 3V 0 01 5V ANALOG 5V R401 R407 0 0 CHIP 25024120 AT NC HT CP HT CP HT Ak 3 3k CHIP k CURRENT LIMITER gt 1 tt CHIP CHIP P diss 87 NC 8 1 9 FL203 SV 1 3 CURRENT LIMITER FL210 112 NC 3 5 5 STBY 298 4 PY 4 8 88 NC CHIP R23 C10 1 6 t OPTION EMI p Ww R37 R13 12 815 Tk 0 001 t 7 gt 274 FL204 Ag NC 22k k k lt CHARA 2 RN CP CH CHIP R402 8408 10401 2 2 2 89 NC CHIP CHIP CHIP CHIP 174 106 id 3 5 POWER 838 eis 1017 3 4 5 ud CHIP CHIP 1 LM393PS E2 4 WER gt m NC Mab I 0 T CURRENT LIMITERZ 10401 1 2 FL211 7 3 B10 NC AN CP 0403 EE iu OPTION AXD gt
10. System data and MEMORY CARD data D1 cannot be stored on the same memory card To store memory card data use another memory card The BKM 12Y monitor memory card has a capacity of 256 Kbytes It can store either system data for up to 8 monitors or 38 files of memory card data C713 RE START MONITOR menu Turn the monitor off and on again automatically C714 ADJUST SIGNAL menu Adjust the SETUP level and 100 IRE level of the internal white signal which is used with the COLOR TEMP ADJ menu B 7111 RE LOAD FACTORY DATA menu The following message appears to confirm the data reload operation DATA RESET TO ITS FACTORY SETTING AND MONITOR WILL RESTART ARE YOU SURE OK ENTER KEY CANCEL MENU KEY OK To continue press the ENTER button gt Resets the data and automatically turn the monitor off and on again CANCEL To cancel press the MENU button gt Returns to the FACTORY DATA menu C711 7121 BACK UP SYSTEM DATA menu While the system is writing the data mark blinks at the top right of the menu It takes some time to save the data C7122 RE STORE SYSTEM DATA menu The following message appears to confirm the data restore operation ALL DATA WILL BE RESTORED ARE YOU SURE OK ENTER KEY CANCEL MENU KEY OK To continue press the ENTER button gt Read
11. G tke 635 880 170082005 MOTAHCAOS3FEL 20 QU T k ik 680 283545 6 9V 6 3V RN CP MATRIX AMP CHIP RN CP Y 8 Y MIX G CLAMP G CLAMP HALF BLK SWITCH HT CP 10305 R338 0350 R344 4 I XA1211M 910 TP302 2863545 2 2k R365 Mt 10310 2 3 MATRIX AMP RN CP v 8 Y pars MG74HC405areL T T 3 16 100 PULSE INSERT 10310 3 3 at V 275 MC74HCA053FEL 0374 2863545 4 6 1 7 1 0 R352 SELECT 28021125 G Y MATRIX AMP 0108 880 2802412 RN CP R333 i 2 Y BUFFER E 0308 GND M 8 0 7 CHIP 28A1087K 8123 gt 7 707 GREEN R332 R340 BUFFER iip 117 779 4 Tk RN CP prd ijs 5v CHIP R337 0409 ice fal 5V 0431 R331 47 68k 6 3y tL RN CP 8335 HT CP RN CP naa SET UP 9 9 AW RN CP B Y GAIN 9 9 R Y GAIN 9 9 BLACK SAMPLING R336 8320 179 3 9 4 9 5 9 6 9 7 9 C810 8330 1504 001 L k 4 E F CHIP T RN CP 8334 1001RE 9 9 gt m aite 6432 1 4 6 3 4 HT CP 1 14 8361 0880 esr 0851 WHITE INSERT P 1 9 7 9 B RN CP F CHIP RN CPF CHIP 16507 0547 C630 0549 6545 100 100 100 B OUT 1 9 TC4W53FU 0 01 6 3V 6 3V gt i B CLAMP F CHIP
12. Assigning slot and connector numbers Set which input connector on which slot will be assigned to the current channel The slots are numbered from the left as seen when facing the rear panel with the REMOTE connectors slot being number 1 the input option slots number 2 and the analog input connectors slot being number 6 The connectors are numbered 1 to 6 from the top for the slot Assigning the signal type and format The signal type and format which can be assigned to each channel number vary depending on what adaptors not supplied are installed in the rear panel 32 Level 1 Level 2 Level 3 Level 4 INPUT CONFIGURATION C1 FORMAT C11 COMPOSITE C111 NTSC REMOTE C2 SLOT NO YC C112 PAL PASSWORD C3 H INPUT NO COMPONENT C113 PAL M SYSTEM CONFIGURATION C4 SEP C12 SDI C114 SECAM ON SCREEN SET C5 H SYNC MODE AUTO ALIGNMENT C6 SCREEN MODE C13 4 3 NORM NTSC EXTEND MENU C7 M SAFE AREA 4 3 UNDR PAL MP SCALE C14 6 9 NORM PAL M APERTURE 6 9 UNDR AUTO I VALUE 80 H FILTER _ 90 YUV SMPTE EBU NIO F CHANNEL NAME C15 00 YUV H COLOR TEMP 16 9 80 RGB PHASE 16 9 90 _ NTSG SAD H POSITION 16 9 100 I PAL COPY C16 4 3 80 4 2
13. E Ross ea 55 1 4 WAR a of el 95 lt lt 25 amo Sup 9 NG E es ott 3 2 IE 95 s ct N or E um 25 Lo 9 a gt o9 Z a gt t b nm ag on 5 z gt 9 aS gt _ M ad gt ws a Cox 28 e gt Oo gt a 5 E a gt ih u 595 s R So gt ih 1 595 lt mo est z i 1 4 255 552 1 u 295 o 55 von Six 26 ac eo coco Dent zi ulta 425 lt 25 Mo o5 PE 2 2 228 gt s DE o s Ko S o 5 5 ahel a gt t 2o ala lt gt ooo gt lt 228 4 as 558 EP Rn a s 3045 625 5 5 w Es 5 22 work ORIS amp SSez 256 ess 16 4 14 PE sz m os e a ope 295 7 RES ROS o s ao Sauer P s S gt E X gt e E E E 5 5 E z9 So 25 a _
14. SDI Serial digital signal gt C114 If there is no input connector or decoder corresponding to a format that format will not be selectable the cursor will skip over that item C12 YC SEP menu Select a Y C separation filter TRAP BPF Select TRAP BPF filter 2 LINES COMB Select 2 LINES COMB filter 3LINES COMB Select 3 LINES COMB filter C13 SCREEN MODE menu xxCH Select the scan size 4 3 NORM Overscanned 4 3 aspect ratio when not using 16 9 mask 4 3 UNDR Underscanned 4 3 aspect ratio when not using 16 9 mask 16 9 NORM Overscanned 16 9 aspect ratio 16 9 UNDR Underscanned 16 9 aspect ratio C14 SAFE AREA SCALE Select the setting for each items of SAFE AREA setting list 80 Displays a 80 safe area in 4 3 screen 90 Displays a 90 safe area in 4 3 screen 100 Displays an 10096 safe area in 4 3 screen 16 9 80 Displays a 8096 of 16 9 aspect ratio safe area in 4 3 screen 33 nue Ja deyo nua Setting the Input Configuration SET UP 1 INPUT CONFIGURATION Menu 16 9 90 Displays a 90 s16 9 aspect ratio safe area in 4 3 screen 16 9 100 Displays an 10046 16 9 aspect ratio safe area in 4 3 screen 4 3 80 Displays a 80 4 3 aspect ratio safe area in 16 9 screen 4 3 90 Displays a 90 4 3 aspect ratio safe area in 16 9 screen 4 3 100 Displays an 100 4 3 a
15. REFNO PARTNO DESCRIPTION REMARK REFNO PART NO DESCRIPTION REMARK lt COIL gt R56 1 216 097 91 RES CHIP 100K 5 NOW R57 1 216 097 91 5 100K 5 LI 1 412 539 11 INDUCTOR 1504H R58 1 216 097 91 5 100K 5 12 1 412 537 31 INDUCTOR 1004H L3 1 412 537 31 INDUCTOR 1004H R60 1 216 089 91 5 47K 5 10W R61 1 216 089 91 5 47K 5 TRANSISTOR R62 1 216 089 91 RES CHIP 47 5 R63 1 216 089 91 5 47K 5 02 1 801 806 11 TRANSISTOR DTC144EKA T146 R64 1 216 089 91 5 47K 5 NOW 04 8 729 122 13 TRANSISTOR 2SA1221 K Q6 1 801 806 11 TRANSISTOR DTC144EKA T146 R65 1 216 089 91 5 47K 5 NOW R66 1 216 089 91 5 47 5 lt RESISTOR gt R67 1 216 089 91 5 47K 5 R68 1 216 097 91 RES CHIP 00K 5 RI 1 216 073 00 5 0K 5 NOW R69 1 216 049 91 5 K 5 R2 1 216 295 91 SHORT 0 R3 1 216 073 00 5 0K 5 NOW R70 1 216 097 91 5 00K 5 10W R4 1 216 073 00 5 0K 5 NOW R71 1 216 097 91 5 00K 5 R5 1 216 073 00 5 0K 5 NOW R7 1 216 097 91 5 00K 5 10W R73 1 216 097 91 5 00K 5 R6 1 216 073 00 5 0K 5 NOW R74 1 216 097 91 RES CHIP 00K 5 R7 1 216 097 91 5 00K 5 NOW RIO 1 216 057 00 5 22K
16. RN ME 10 4 BR LLLI 10 5 123148 627 NET 10 6 a tar iat Oi Deak ne 10 7 ai apse tote crea aL 10 8 cad acct A m oe 10 9 TT cae 10 10 12867 CERRO 10 11 aa 10 12 HA AB HC HD oeste nU eta 10 13 1 1 Printed ees e e a ree teres 11 1 BK Nga aa te hn due nea Re 11 2 BG ahua Gu ene veh tae 11 4 aene emo ntes 11 6 11 8 CU ua 11 10 HD ann Rate Rites 11 10 ele 11 10 YA UD 11 10 Hee eiit itt eg deep 11 10 YQ e eee eed emp RU RH 11 10 usen eene pde bte e Repo dts 11 11 quse ette 11 11 aei eet e 11 12 I c 11 13 TB ee om 11 14 11 2 Schematic Diagrams see ier tegeret aet 11 15 FRAME 173 inea eh uia EE 11 17 FRAME 2 3 tne ttt ertet tiet tea egeret des 11 18 ERAMPE 93 SY s gan sa bte ee Me ties te e eee 11 19 eio ee erem e ades 11 20 BK 2 9 o eene
17. Level 3 Level 4 Level 5 ADJUST B211 START B2111 SET PROBE ANALYZE B212 ON CRT r LOWLIGHT 20 IRE HIGHLIGHT 100IRE START B213 D65 x 93 Y SET PROBE LOWLIGHT 20 IRE ON THIS CRT B2121 HIGHLIGHT 100IRE D65 SET PROBE D93 ON CRT STD COLI COL2 D65 D93 MONITOR ADDRESS B321 STD r COLI COL2 FILE NAME B331 STD r COLI COL2 The lower levels of GRASEBY SLS9400 MINOLTA CA 100 PHILIPS PM5639 and THOMA TF6 are the same as B213 in level 3 and lower than that 11 1 Setting Lists in the COLOR TEMP ADJ Menu This section explains the setting lists displayed in the menu How to read the setting lists For purposes of explanation each setting list is preceded by a menu number These numbers are not displayed on the screen For more information about the menu number see About menu numbers on page 19 The arrow mark gt refers you to another setting list that appears after you make the setting or to an operation that is carried out as a result of the setting When there is no arrow mark the menu does not have any sub list B COLOR TEMP ADJ menu STD COL1 COL2 Select the adjustment method MANUAL Set with the MANUAL knob B1 PROBE Set using a probe B2 COPY Copy data from elsewhere B3 TRIM Perform fine adjustments after setting the color temperature gt B4
18. VINt VEE VIN2 MB88346BPFV 205 703 12 SHIFT REGISTER DO 01 02 03 04 05 07 09 010 Dii ADDRESS DECODER 2974 4176 07 8BIT R 2R CONVERTER osc 10M Hz I CLOCK CONTROL RESET WDT CMOS I O PORT EXTERNAL BUS INTERFACE INTERNAL BUS CMOS OUT PORT TIME BASE TIMER 8BIT PWM TIMER 8 BIT PULSE WIDTH COUNT TIMER 16 BIT TIMER COUNT 8BIT SERIAL 1 CMOS PORT 8BIT SERIAL 2 RAM 4 BUZZER OUT N CH OPEN DRAIN I O PORT N CH OPEN DRAIN I O PORT 256 X 8bit EXTERNAL INTERRUPT Z ROM 8K X 8bit INPUT PORT MC74HC4538AF IC602 623 VDD 2C 208 280 20K 2CR 20 20 ACR 1RD ROC 16 1 0 1 0 GND STV9379 031 VCC BOOST VBOOST FLYBACK GENERATOR TC74VHC175F 613 8 8 gt V 11 42 2504051 803 STATUS REGISTER COMMNAD DECODE AND X DECODE
19. 5V 10512 CXA1521M CONT BRT CONTROL F V I I I I BIAS REF 9 9 CONT 7 9 gt W amp D P 7 9 gt BIAS P 7 9 11 22 DRV CONT 4 9 TP505 27 R615 C622 d C OW Lage ep E HIP E N CPT F CHIP 10 8 R614 E 12V 5 RN CP CONT 6 9 3 4 R 10115 R DRIVE AMP 0175 0176 p esu Dn 4 9 2541462 2503545 R DRIVE AMP R DRIVE AM R223 1 D201 1 2k 806 8M T1B1 RN CP R DRIVE AMP muy 74 4 R IVE Al 2 5 1 22 K PL DRIVE AMP 7 3 1 3 am T TLOB2CPS R227 Ate 22310762 71 J P DRIVE CHIP 22k R232 CHIP 125 CHIP C182 0 047 8216 10k RN CP t R215 2 0 0201 RN CP r CHIP 12V 12 BK 3 9 BK 4 9 BK 4 9 120V 10117 2 3 MC74HC4053FEL SWITCH R DRV CONT 379 Y IK V SW 5 9 6 9 7 9 lt B SS3280 lt AEP gt BK P4 IKAN CONTROL DEO OUT VE
20. 474 474 474 474 74 0061 1 IRF 19630GS LF HP m HP 4 SE DAMPER cv HP 5 0054 36 01 52 SCL 1 4 2 4 gt 250084701 43 0 o SDA 1 4 2 4 gt 4 4 051 4 C056 1 41950957 4 B CHI n 8050 051 R052 PT a C065 L C066 Cay ELE iK Ede Mas Ta 1 8 8 3 148171465 mam 91 2 2 CHIP BUFFER C052 010 8026 558M TE2 100p dei 4 1 Es ds S AMP CH CHIP Sas D154 D153 m gt HSM83 TL SW HSM83 TL SW LHA 9 5 l 9 I 140112 HIH PROT 0 111 CcH CHIP 9 PROTECTOR w R028 R029 9 2 2k 10k RN CHIP RN CHIP 0036 0 01 8163 2501 F B CHIP MES k AFC ik 4 CHIP n M CHIP R040 0156 0111 M 4 D113 28A1037K cut WW 8115 MATTICTX AFC PULSE L s 4 PROTECTOR T 100V AFC P 1 4 gt 111 0151 111 HP 174 0 047 2061 gt RUM 12V RD4 0 033 1461 1465 PROTECTOR CHIP DAMPER 1031 i H B V OUT I V SAW 174 1 4N 0159 25 1606 1146 E DTC144EKA T146 0131 H LIN OUT P CHIP hi H STOP OUT vs 28A1037K STOP 174 aa m 1 V PROT STOP H STOP 1 4 gt P 1k 16V CHIP F CHIP low SW TP031 D031 Uns 024 GPO8DPKG23 100V 1 20801 PROTECTOR A HV OFF 1 4 2 4 gt INVER AN AM 4 12V
21. B1 MANUAL menu STD COL1 COL2 Adjust the gain and bias manually ADJUST Adjust the gain and bias To shift between gain adjustment and bias adjustment press UP DOWN buttons Use appropriate knobs in each adjustment as described below After the adjustment press the ENTER button to confirm the adjusted values RED CONTRAST knob Adjust the R gain or bias with the CONTRAST knob GREEN BRIGHT knob Adjust the G gain or bias with the BRIGHT knob BLUE CHROMA knob Adjust the B gain or bias with the CHROMA knob LUMINANCE PHASE knob Adjust luminance with the PHASE knob To reset RED GREEN BLUE to the value before adjustment When you are adjusting the gain or bias using the MANUAL adjustment knobs you can reset the setting to the one before adjustment by pressing the corresponding MANUAL button To reset all of settings at the same time press the PHASE button You cannot reset the setting after you press the ENTER button ORIGINAL VALUE Set the initial value STD Use common data factory setting D93 COLI Use common data factory setting D65 COL2 Use common data factory setting D93 SIGNAL Select the white signal to be used for adjustment INT Use an internal signal Simultaneously with the adjustment of the gain and bias the 100 IRE and 20 IRE signals are automatically switched EXT Use an external input signal When adjusting the gain and bias input the proper signal
22. CHIP CHIP 120 VIDEO COMP 7 9 3 31 120V 2 SEL 7 9 y GB SEL 7 9 ness 7159 sv pm R948 CHIP CHIP 10k R909 8910 8911 15V R903 CHIP 1 R Y CLAMP 1 9 15V m B Y GAIN 2 9 5a 1900 1 4 FE NCT4HCT2SAFEL 6906 TID p21 088 MB88346BPFV EF MB88346BPFV 1 0809 32 D A CONVERTER D A CONVE ev 22 6810 31 m 23 0811 30 25 ev 1900 2 4 24 0812 28 BIAS REF 3 9 RGB SW 1 9 2 9 G 1001RE 2 9 5 gt DUG P35 5 P25 0S13 20 BLUE ONLYi2 9 G SET UP 2 9 DU B 8 540 5 SUB MICRO P26 CS14 27 83 xd 1001RE 2 9 B SET UP 2 9 DU R 9a 199 0 4 COMPUTER P27 C815 26 R SET UP 2 9 1001 2 9 un 9b 7 9 9 7 EX CLAMP P DLY 8 9 co ABL 10a ABL 7 9 CH LEVEL 3 9 00 10900 3 4 G2 CONTROL 10b G2 CONTROLI7 9 ChIP q MC74BC125AFEL DRIVE REF 3 9 i GND 11a 2 22 2 82 7 9 Y 8 110 lt 1 9 8 9 NUR Tel ed EE P mobo 12a 588888686 2015 RSTX 20 12 1 1 2726 1 9 0200 et 82081880 646 200801 R Y PULSE LEVEL 1 9 2 26 y 9 PEU RNC AS AREE Y CLAMP 0 oND 13a PROE EW 9 B Y PULSE LEVEL 1 9 PB B 13b 1 9 8 00 I GND 14a C 2PB 2B 145 lt 2PB 2B 1 9 GND 15a PR R 15b X PRR
23. 0 4 VEE GND 10302 2 2 251 TLOB2CPS B R Y R CLAMP 5V lt PR OUT 2 9 emm R OUT 2 9 gt lt B OUT 2 9 lt PB OUT 2 9 10504 1 3 MC74HC4053FEL 0509 RGB SELECT 0268 16V F CHIP 0510 2802412 B Y B GAIN CONTROL Leh 1 7 2 16520 2 2 TLO82CPS B Y B GAIN CONTROL SIGNAL WHITE SAMPLING P 10525 TC4W53FU B Y B GAIN CONTROL 3 9 4 9 5 9 6 9 7 9 CHROMA 9 9 lt BLACK SAMPLING P 2 9 3 9 479 5 9 6 9 779 N SELECTOR RGB GAIN CONTROL x B SS3280 lt AEP gt BK P1 2 9 2 9
24. 51 EU CN101 CHIP CHIP RED 17 8101 SWITCH SMYCRO 21146 04878 07 OUT S108 SWITCH METTE FI F3 3o 19 uai T METTE 0 o F2 F4 7 8119 SWITCH 8104 0 3o TO HC BOARD ADDRESS SAFE AREA 2 8105 Dtos MA111 SWITCH 0 a D106 106 111 SWITCH 0 v R107 D127 R101 D121 I 550 CL 155Y PG 560 CL 155Y PG 2 o CHIP x w AM 0 1 9 COMB B 0 M jl TP101 R108 D128 8102 0122 560 CL 155Y PG 560 CL 155Y PG CHIP x CHIP 1 F1 F3 R109 D129 D123 880 CL 155Y PG NG cL 155Y PG CHIP 21 AW AM F2 F4 5 R110 D130 D124 1 560 CL 155Y PG We cL 155Y PG CHIP x CHIP 52 AW AM ADDRESS SAFE AREA D125 NG CL 155V PG CHIP x 0101 R121 AN 7 2501834 33 ORENGE LED DRIVE GRIP W D126 R106 C111 C112 C113 R122 w 560 CL 155Y PG C101 C102 0 01 0 01 0 01 82k R123 CHIP x 47 47 50V 50V 50V CHIP 33k AW ar 2 1 6 3V 6 3V F CHIP F CHIP F CHIP CHIP TA 12 20 aye 82k CHIP 0102 GREEN LED DRIVE FUNCTION CONTROL A B C D 1405 BKM 10R SHIFT 4 16 9 SYNC H BLUE ONLY MON R APT G TP102 B SS3280 lt AEP gt HB HB Board IC Block Diagram C
25. GND TO TB BOARD CN8 105 0102 01014 06 258 06 258 06 258 PROTECTOR PROTECTOR PROTECTOR D104 0103 PROTECTOR PROTECTOR H D RERAY B SS3280 lt AEP gt HD YA HD 11 45 G 12 G 12 12V SEC 272 RELAY DRIVE 2 2 RELAY DET1 2 2 MAIN ON OFF 2 2 t 0109 0103 0105 0106 16101 172 0105 t k lt 20v PRI 2 2 28C2412K SLR 325VCT31 2802412 29 1037K M393PS 8012882 1 PFC OVP RESET 2 2 BUFFER PFC OVP IND LATCH LATCH COMPARATOR LVL SHIFT 3 592 781 D9 GN
26. osc TIME BASE MAX 10MHz TIMER 8BIT CLOCK CONTROL PWM TIMER RESET 8 BIT PULSE won WIDTH COUNT TIMER 16 BIT TIMER COUNT CMOS 1 0 PORT SERIAL 1 EXTERNAL CMOS PORT INTERNAL BUS BUS INTERFACE 8BIT SERIAL 2 CMOS OUT PORT BUZZER OUT N CH OPEN DRAIN I O POR N CH OPEN DRAIN I O POR RAM 256 X 8bit EXTERNAL INTERRUPT 77 CPU INPUT PORT ROM 8K X 8bit MC74HC175FEL IC732 8 A E MC74HCA053F 1 101 104 110 113 117 124 126 301 304 310 313 317 324 326 500 501 504 510 513 517 524 526 701 702 706 800 SIGNAL IN GAIN ADJ GAIN ADJ TC4W53FU 107 307 325 507 508 525 TC7W74FU 707 22 ye E 8 8 GND gt CURRENT MIRROR SOURCE MIRROR DIFFERENIAL STAGE FOLLOWER MEE MIRROR VP VDDL VIN GND
27. 919 1 3 MAIN POWER switch H Ay Gi AC IN connector 0 O E 1 e EJ CJ BVM 20G1U 20G1E 20G1A 14G1U 14G1E 14G1A Analog input output connectors Input option slot REMOTE 1 connectors REMOTE 2 connector ISR connector CONTROL UNIT connector I Q MAIN POWER switch 2 AC IN connector Illustration BVM 20G1U 20G1E 20G1A 15 o 9 B 8 2 3 9 gt 8 8 5 3 Location and Function of Parts MAIN POWER switch When turned on the monitor enters standby mode By setting in the SYSTEM CONFIGURATION menu the monitor can also be set to enter operation mode when the MAIN POWER switch is turned on For information about the SYSTEM CONFIGURATION menu see Setting Power Up Conditions and Decoder SET UP 4 SYSTEM CONFIGURATION Menu on page 39 IN connector 3 pin Connects the monitor to an AC power source via the supplied AC power cord Attach the cord stopper to the AC power cord and connect it to the plug holder so that the cord does not come loose Analog input output connectors Y G connectors BNC 5 N py B Y B connectors BNC EO o cvi I R Y R connectors BNC oul
28. 32 GND 8 9 51076 1032 4 6 L cm Tas lue loe Lou lom lee Los low lom lou lose Less los lou los les lon 1 0321 l ND 5 2 Ww Wo SN74HCOSANS 0 01 0 01 ar Tetee 0 01 TF oH P TF oH P Tr cHip 16060 0 01 0 01 0 01 RA 0 01 ji 9 01 TO TB BOARD TO TB BOARD SLOT DRIVER E rice 1 richie 1 1 1 T 1 T 1 ee T recie richie 10 11 55077 1032 5 6 4 SN74HC05ANS 92 9 SLOT DRIVER 4 1032 1 6 0380 0881 0327 0339 5 1 1 los M 0323 6324 T 0325 hi 0326 1 a 0328 lcs Jt 0330 los 1 6332 M 0333 T 6334 Tos t 0336 T 0337 1 4 SLOT4 SNZ4NCOSANS 0 01 020 Trenle 001 TF Hip 5 o Wo SLOT DRIVER E CHIP CHIP T T CHIP T T I T CHIP I I I T I I I T T T F CHIP SLOTS t 50929024005 E C340 af C357 I 0358 I 0359 C360 1 0362 1 0363 0364 0365 0366 C367 T C368 T C369 36 C370 T C371 20 0373 1 0374 T 0394 1 SLOT DRIVER T rw pese 2210 132 8 6 6 5 SLOT2 SN74HC05ANS SLOT DRIVER I er dre M cL NUN 4 8 No 2 23 SLOT DRIVER 1083 2 6 i 1 4 3 SLOTO SN74HC05ANS 5 2 Ww Wo SLOT DRIVER 1033 8 6 1 6 5 SLOT SN74HCOSANS 5 2 Ww Wo SLOT DRIVER SLOT 174 I 5 2
29. 8 GND NC A8 A8 GND 15V 84 88 VIDEO NC 88 88 VIDEO 15 PY OUT NC Ag Ag GND TV is 89 PC OUT NC 89 89 PY 20 m Mol GND NC 310 310 GND 7 6V B6 8P 810 Y G NC 810 810 6V M Att GND NC GND TeV 57 1 V SYNC NC B11 PB B NC Bit 11 Y G 006 m 2 H SYNC NC GND NC 2 2 GND DUB a 3 RTS 12 PR R NC 812 27728 DUR m 4 GND SLoTe 12V 3 3 GND VSP is 5 NC B13 50077 TALLY 813 813 PB B ABL OUT 6 TXD 4 50074 5V 4 4 GND G2 CONTROL td 7 5V 4 SLOTS _STANDBY 14 14 2PB 2B PULSE 8 RXD 55012 POWER 5 s GND HS T Bis SLOTS OVERLOAD 815 815 PR R NS T 55010 H SYNC ju m GND T S Big SLOT _V SYNC Bie 2PR 2R FNS id 9P 5 1 GND 1 NC22B mq 2 TXD hiel _ NC 18 _ NC23A sid 5 Big _ OPTION _ _ NC23B ND 19 _ 5V 9 9 _ NC24A i B19 PULSE TXD OPTION pto Bis H PULSE V BLKT H SYNC GND 0 20 8 6 GND H BLK 820 V SYNC _TXD 820 820 NT rl DD hoi 2H SYNC RXD 2HS EN 8 _ 5V SENSE 817 bai 2V SYNC GND 821 B21 _2VS 9 GND RESET 8 22 NC 5V 22 22 NC22A NC era 22 NC GND B22 822 22 TEES in 123 NC TXD 3 123 2 MOST Pid 823 NC RXD 823 823 23 DIGITAL 5V 120
30. 2 4 HV OVP IK PROT 2 4 IK PROT AFC SW 10802 MB89613R 438 SUB MICRO COMPUTER 374 H B B PROT H DELAY V STOP 3 4 H STOP 3 4 H DELAY V DELAY 5 V STOP H STOP ASPECT SLOT 10 22 0807 DTC144EKA T146 HV 5 2H TIM 2 4 3 4 474 BLK W 2 4 H BLK P 10613 TC74VHC175F EL V BLK PULSE GENERATOR 5V R604 12k CHIP At CX2 RX2 RESET2 A2 2 R823 10k CHIP 0 0802 DTA144EKA T146 INVERTER 5V 2 9 5 3 0808 DTA144EKA T146 0 D E SYSTEM CONTROL EEP ROM H BLK V BLK P GEN H V SYNC GEN jat 10628 1 6 TC74VHC14F EL INVERTER Q815 144 PROT SW 5 2 P 12V 1461 1465 2061 10611 1 2 LM393PS E20 COMPARATOR DF BLK P lt LCC LCC ROT ROT 10611 2 2 LM393PS E20 COMPARATOR 58 12 25V CHIP 5v NTC V BLK P2 D TIM 3 4 R631 12k CHIP C626 0 1 62 1 5 25V 10k CHI PIB cule J CHI gt 10641 1 2 JM4558M TE2 SYNC GEN P 10622 1 2 393 5 20 HS P PHASE CX1 RX1 IY
31. 9 9 BK REFNO PARTNO DESCRIPTION REMARK REFNO PARTNO DESCRIPTION REMARK CONNECTOR IC3 8 759 701 88 IC NJM7912FA 0 8 759 011 65 IC MC74HC4053F CNI 1 774 523 11 CONNECTOR PC BOARD 64P IC102 8 759 981 48 IC TL082M CN2 1 564 507 11 PLUG CONNECTOR 4P CN3 1 564 507 11 PLUG CONNECTOR 4P 04 8 759 011 65 IC MC74HC4053F CN4 1 564 507 11 PLUG CONNECTOR 4P 06 8 759 981 48 082 CNS 1 564 506 1 PLUG CONNECTOR 07 8 759 082 61 TCAWS3FU IC110 8 759 011 65 MC74HC4053F lt DIODE gt 8 759 981 48 IC TL082M 8 719 158 19 DIODE RD62SB IC112 8 752 054 80 1521 D12 8 719 158 19 DIODE RD6 2SB 8 759 011 65 IC MC74HC4053F D13 8 719 158 19 DIODE RD62SB 8 759 981 48 IC TL082M D14 8 719 158 19 DIODE RD6 2SB 1 115 8 759 700 95 NIM1496M D102 8 719 404 49 DIODE 16 8 759 011 63 IC MC74HC4051F D103 8 719 404 49 DIODE 1 117 8 759 011 65 IC MC74HC4053F D164 8 719 404 49 DIODE IC118 8 759 981 48 IC TLO2M D165 8 719 404 49 DIODE IC119 8 759 346 42 IC TDA6101Q N3 D166 8 719 157 72 DIODE RD22M B 2 8 759 981 48 IC TL082M D167 8 719 901 83 DIODE 1SS83 22 8 759 981 48 IC TL082M D168 8 719 901 83 DIODE 1SS83 IC123 8 759 981 48 IC TL082M D200 8 719 404 49 DIODE 24 8 759 011 65 IC MC74HC4053F D201 8 719 106 16 DIODE RD6 8M BI
32. HD 2 2 SELECT SYNC SEP 1U 6 282 WO 1028 77 3 m RXQ 7 SYNC ON OFF 3 X1 20MHz EXTINTSGEN o uo IC14 1 2 s pa mp no 5 1446 8010 ene CN101 1 2 8 C12 1 4 1816 SLOT 1 TD 243 2 178 TP7 L 1 1 TD 1587 gt 5 oe 46 MOTA gt x ile IC12 2 4 va CN101 2 2 SOT 82 2 CONTROL C G 22 ct SLOTS OPTION t gt 1 B28 SCIK __ 5018 OPTION i 1813 SLOT 7 14G1 20G1 only 51077 OPTION 1 4G1 20G1 only 1 63 CHARA 3 MEN ER 1 kian aaa I IC12 3 4 62 gt 3 4 CHARA2 22 2 FROMBKE 80 1 B27 9 5 8 CHARA1 22 3 4 8 1034 3 IAD 22 I 5 SLOT DRIVER SCLK1 2p 76 6 2 22 Hii 12 RXD CN3 2 2 102522 REMOTE 1 4 6 M CN3 1 2 i IC26 2 2 REMOTE 1 5 CN4 2 2 IC25 1 2 REMOTE 1 TXD 5 OUT TXD 22 9 223 1 27 28 REM1 CONTROL 2728 ISR CONTROL ae YC 2 2 1 2 5 7 50 57 Rx np v 12 58 CN4 1 2 u RESET F V HD 35 pm REMOTE 1 Q8 15 CLK TXDATA 9 m RS 232C CONTROL 35V 3017 6 9 U U SWITCH CN302 1 2 10 36 2 3 OPTION cs2 ees cso 2816 OPTION RXD 316 22 C36 3 3 3 28 3 4 25
33. 5 1 SYNC AGC 1 1 8 2 9 C825 d fl pees P 28 6 0809 417 mias 5 224 8827 cu 1 CHIP CHIP UM RN CP 16803 2 2 MC74HCA53BAFEL H SYNC SEP s a CHIP CHIP 0823 C841 0804 286241 2K C840 1 R879 111 V SYNC BUFFER 0 015 16V F CHIP SYNC SEP 9 9 1H 1 2 wr 1210 5 BN CP NILUM w lt VS 9 9 SYNC SEP I 0 6 CHIP B CHIP 5 m 0 3 232412 mm V SYNC AMP __________________XcLAMP PULSE SEL 9 9 I 0 47 50V SYNC SEP SEL 9 9 0821 DTC144EKA j SYNC SEP SW 553280 lt gt 8 11 27 11 27 9 9 9 9 101 01001 01014 0101 01023 01037 01027 og puc ee 0 109 1002 61003 51005 1006 1007 61008 01008 01010 que ces 9 2 1015 que 42 21049 61022 2 0 61025 1026 51028 01031 1092 01093 1034 01088 01036 2 2 61038 01039 5V 6V 8 7 5 3 FiCHIP F CHIP CHIP FICHIP F CHIPF CHIP F CHIPF CHIP F CHIP F CHIPF CHI
34. 7 Set the 4 pole magnet of the DY to the OFFSET state J Align projections to each other Fig 1 13 3 7 3 7 1 1 1 2 3 8 Static Convergence Adjustment Horizontal Static Convergence Adjust RV501 H STAT of the C board so that the red and green dots coincide in the horizontal direction at the screen center If the blue dot is out of convergence from the red and green dots For the 14 inch model Perform HMC horizontal misconvergence correction using the 6 pole magnet of the DY See Fig 1 2 The 4 pole magnet of the DY is not used Set to the OFFSET state For the 20 inch model Perform HMC horizontal misconvergence correction using the 6 pole magnet of the NTC See Fig 1 2 Vertical Static Convergence Adjust the V STATIC CONV data so that the red and green dots coincide in the vertical direction at the screen center Note The V STATIC CONV adjustment menu is under the E BOARD menu of the MAINTENANCE menu If the blue dot is out of convergence from the red and green dots For the 14 inch model Perform VMC vertical misconvergence correction us ing the 6 pole magnet of the DY See Fig 1 2 The 4 pole magnet of the DY is not used Set to the OFFSET state For the 20 inch model Perform VMC correction using the 6 pole magnet of the NTC See Fig 1 2 Fig 1 14 RV501 H STAT Fig 1 15 14 inch model Neck Assy DY Assy 2
35. B 8832802AEP BC P2 ONS TSR CNS mEWOTE 2 BC 3 4 BC 3 4 v 35 I 10116 1 3 5V 2 MC74HC4053F SWITCH 16 10116 2 3 1106 10109 14 TC74VHC163F EL CXD1171M T6 MC74HC4053F x 0151 SWITCH Kil sy p 1817 COUNTER E D A CONVERTER 2802412 Y BUFFER m he 9 ACVEERGND PROTECTOR _ 115 nus ik RIT R153 1 6 90 A5 2 2k SYNC GEN 10 CHIP 4 01
36. 0K 5 R953 1 216 073 00 5 0K 5 R955 1 216 073 00 RES CHIP OK 5 CAPACITOR R956 1 216 073 00 5 0K 5 C504 1 162 114 00 CERAMIC 0 0047MF 2KV R958 1 216 073 00 5 0K 5 C505 1 162 114 00 CERAMIC 0 0047MF 2KV R959 1 216 073 00 RES CHIP 0K 5 C506 1 162 114 00 CERAMIC 0 0047MF 2KV R96 1 216 049 91 5 K 5 NOW C507 1 107 888 11 ELECT 47 20 25V R962 1 216 097 91 RES CHIP 00K 5 C508 1 107 888 11 ELECT 47 2090 25V R97 1 216 073 00 5 0K 5 C601 1 104 653 11 ELECT 220 20 16V R98 1 216 065 91 5 4 7K 5 C602 1 164 232 11 CERAMIC CHIP 0 01 10 50V 1001 1 216 685 11 METAL CHIP 27K 150 1 10W C701 1 164 232 11 CERAMIC CHIP 0 01 10 50V R1002 1 216 627 11 METAL CHIP 0 50 0 C702 1 107 960 11 ELECT 47MF 20 160V R1003 1 216 685 11 METAL CHIP 27K 150 1 10W C703 1 107 943 11 ELECT 10MF 20 160 R1004 1 216 627 11 METAL CHIP 0 50 1 10W C704 1 107 364 11 MYLAR 001 10 200 R1005 1 216 685 11 METAL CHIP 27K 150 1 10W C705 1 107 888 11 ELECT 47 2090 25V R1006 1 216 627 11 METAL CHIP 0 50 0 R1007 1 216 685 11 METAL CHIP 27K 150 1 10W lt CONNECTOR gt R1008 1 216 627 11 METAL CHIP 0 50 0 R1009 1 216 685 11 METAL CHIP 27K 150 1 10W CN501 1 508 786 00 CONNECTOR 5MM PITCH 2P CN502 1 695 915 11 TAB CONTACT R1010 1 216 627 11 METAL CHIP 0 50
37. 446 216 095 00 5 82K 5 R447 216 667 11 METAL CHIP 4 7K 50 1 10W 8527 216 679 1 METAL CHIP 15K 0 50 1 10W R448 216 073 00 5 10K 5 1 10W R528 216 690 11 METAL CHIP 43K 0 50 1 10W R449 216 671 11 METAL CHIP 6 8K 50 1 10W R529 216 025 91 5 100 5 1 10W R530 216 073 00 RES CHIP 10K 5 1 10W R450 216 669 11 METAL CHIP 5 6K 50 1107 R531 216 057 00 RES CHIP 2 2K 5 R451 216 651 11 METAL CHIP IK 50 1 10W R452 216 073 00 RES CHIP 10K 5 R532 216 049 91 RES CHIP IK 5 R453 216 672 11 METAL CHIP 1 5K 50 1 10W R540 216 637 11 METAL CHIP 210 0 50 1 10W R454 218 766 11 METAL CHIP 390K 50 1107 8541 216 674 11 METAL CHIP 9 1K 0 50 8542 216 647 11 METAL CHIP 680 0 50 1 10W R455 216 033 00 220 5 8543 216 047 91 RES CHIP 820 5 1 10W R456 216 669 11 METAL CHIP 5 6K 50 1 10W R457 216 669 11 METAL CHIP 5 6K 50 1107 R544 216 647 11 METAL CHIP 680 0 50 110 R458 214 903 31 METAL 39K 1 R546 216 053 00 RES CHIP 1 5K 5 459 216 669 11 METAL CHIP 5 6K 50 1107 8547 216 057 00 RES CHIP 22 5 8548 218 764 1 METAL CHIP 330K 50 1 10W R460 216 033 00 RES CHIP 220 5 R549 216 025 91 RES CHIP 100 5 R461 216 695 11 METAL CHIP 68K 50 1 10W R462 216 689 11 5 39K 5 8550 218 758 1 METAL CHIP 180K 50 1 10W R463 216 003 00 5 68K 5 8551 216 675 11 METAL CHIP
38. nei ASS SO 55 SS a o c 357 8 4 xL gt o 855 55 53 gt a 528 sum a BS 552 52 a a Sou Tu ud Lo Too NO PAR cric ue 5 Lug z ese aes ess X ego lt ors gt a E kX gt SUI SSE S ES 5 S25 gad gt Ov gt hs on M M e ON o ON c ribs ss a s E E zie o o lt 22 5 i m 2 m 11 23 11 23 BK 5 9 BK 5 9 D378 HSM83 TL lt G CONT 3 9 lt IK V SW 4 9 6 9 7 9 10317 2 3 MC74HC4053FEL SWITCH 5V 120V IKAN CONTROL 5 9 IDEO OUT RIVE K V D CONTROL 06 3 9 gt R447 4 Tk RN CP 5V VIDEO TIMING 4 9 6 9 7 9 CUTOFF 9 9 gt G2 8 7 9 10324 2 3 MC74HC4053FEL G BIAS CONTROL gt BIAS SAMPLING P 4 9 6 9 7 9 1 9 9 gt G BIAS 489 2 S m
39. 151 IC628 1203 1 2 Wo 22 SAW can gt 801244 VSP TOBK 2 DX 22 1C101 T052 HOT H CENTER CET 0101 16 5 7 4 H STOP 20 23 n 1 8 12 OH 2 H B 41 22 CVHP 22 gt E o 6V DY HM 2 2 CE LES 071 072 IC621 1 2 1 621 2 2 16622 1 2 1 001 SIGNAL GENERATOR 2 2 t 22 007 3 HDYRET 45V IC623 1 2 a 0074 HDYRET C627 PULSE 007 1 HDY 2 6 3 6 1 628 3 6 INTERFACE 14 2 0072 HDY 2 6 801 128 1 t gt 2 DEF OSP E Q112 1C627 5 6 0076 VDY 2HS _ 801 120 H AFC amp 4 12 AFGP IN 10 COUNT BUFFER P 007 5 VDYRET FROM BK HS _ 801 134 PROC 9 T2 E 4 gt 8011447 gt TIC641 1 2 10641 2 2 12V IC622 gt TO BK E 5 11 V DELAY 1 623 2 2 715031 Q Tos TOG Q622 gt 5 1 80 9b gt TO BC Ur SCL pb L W FROM G DIGITAL 51 8014 D 5V SDA 612 1 2 L TOG DIGITAL 5V_ 801 4b 3 1 801 31a4 1C921 035 1 DTM 15V 801 28 C991 412V REG 12V HV DRV 1 091 45V 1801 2801 SDA 5 1 2 Q091 ee i 45V REG 45V 15K av C981 FF E 2 2 E 2 2
40. 82111 COLOR TEMP ADJ menu STD COL1 COL2 The following message appears Perform operation according to the message to start adjustment SET PROBE ON CRT PRESS ENTER Adjustment starts when the probe is placed against the center of the screen and the ENTER button is pressed B2121 ANALYZE menu STD COL1 COL2 Display color temperature and luminance readout values from the BKM 14L X xxxx Display the x coordiate of the color system Y xxxx Display the y coordiate of the color system L xxxx Display the luminance value 31 4914 nue 39 1deuo Setting the Input Configuration SET UP 1 INPUT CONFIGURATION Menu Overview Data pertaining to the input signals are set with the INPUT CONFIGURATION menu When a channel number 1 to 90 is entered with the numeric keypad it is then possible to set which input connector on the rear panel will be assigned to that channel number and select the type of signal that will be connected The channel numbers from 91 to 99 are assigned to internal signals 091 PLUGE signal Picture Line Up Generating Equipment 092 20 gray signal 093 100 white signal 094 five step gray scale signal 095 cross hatch signal 096 cross hatch signal 097 dot signal 098 cross hatch signal 099 096 black signal Structure of the INPUT CONFIGURATION Menu
41. HIP A9 9203 L__ lt sync ON OFF 8 174 16117 474 122 EAST TC74VHCOOF EL 3 02 ip CC C T gt NAND 5 7n gt ChIP L1 L2 gt 8204 0107 5v ON OFF gt TOTES 578 16 34 Pos Gat GHI SN74HCOSANS 7862281 2PSC X 04 1 CHAR BLANK 1 54 10 11 INVERTER CLOSED CAPTION 0104 5V 0103 2 0 44 146 144 1146 R126 0108 5V 2 V SYNC SEL V SYNC SEL ik 2862412K TR BIB 114 C113 CHIP BUFFER 0 01 CHAR_R 5 242 1 INVERTER F CHIP 0 1 0 10125 2 6 5 5 1 AUTEUR SN74HCOSANS CHAR_G 5 248 9 INVERTER 1 16105 10110 0 023438 TC74HC166AF DOT CLK COUNTER P S CONVERTER S ARCUSANS CHAR_B 5 INVERTER 4 0 ED INVERTER 1 R127 NUM 19 11 174 474 47 4 7 T eie 2 5252825 gt M ud EL SWITCH 9 R192 2 15 SELECT SYNC 1 27 10 Y 10123 10117 374 2 174 5 v 2 en 5 2 Ha SING TCIAVHCTOE 3 5 625 D FLIP FLOP INT SG EN R202 10 t 8 Th Tod 10116 3 3 5 2 A NC74HC4053F 0 3 0 TOTS 0737 11181 8 SWITCH 2 5 2 MC74HC4053F 4 96 SWITCH 5 zo 2 14 2 4 7i 12 3 L 2 60 xi 1C122 6 6 TC74VHCO4F EL AVEE INVERTER
42. IK 5 R811 216 047 91 5 820 5 1 10W R869 216 059 00 RES CHIP 2 7K 5 1 10W R812 216 063 91 5 3 9K 5 1 10W R870 216 667 11 METAL CHIP 4 7K 0 50 1 10W R871 216 089 91 RES CHIP 47K 5 R813 216 053 00 RES CHIP 1 5K 5 R872 216 073 00 RES CHIP 10K 5 R814 216 065 91 5 4 7K 5 R815 216 077 00 5 15K 5 R873 216 089 91 RES CHIP 47K 5 R816 216 085 00 5 33K 5 R874 216 073 00 RES CHIP 10K 5 R817 216 097 91 5 100K 5 R875 216 067 00 RES CHIP 5 6K 5 R876 216 061 00 RES CHIP 3 3K 5 R818 216 081 00 RES CHIP 22K 5 R877 216 659 11 METAL CHIP 2 2K 0 50 1 10W R819 216 085 00 5 33K 5 R820 216 053 00 RES CHIP 1 5K 5 R878 216 057 00 RES CHIP 2 2K 5 R821 216 049 91 5 IK 5 R879 216 025 91 RES CHIP 100 5 R822 216 081 00 RES CHIP 2K 5 1 10W R880 216 097 91 5 100K 5 R881 216 057 00 RES CHIP 2 2K 5 R823 216 037 00 RES CHIP 330 5 1 10W R900 216 025 91 RES CHIP 100 5 R824 216 041 00 RES CHIP 470 5 1 10W R825 216 057 00 RES CHIP 2 2K 5 1 10W R901 216 097 91 RES CHIP 100K 5 R826 216 694 11 METAL CHIP 62K 50 1107 R902 216 097 91 RES CHIP 100K 5 R827 216 057 00 5 22K 5 R903 216 097 91 RES CHIP 100K 5 R904 216 025 91 5
43. riot 1 4 4 4 MOSI 4 4 5V 10008 SK s Bob cR b 5V 2 GND CHIP 24 CPU MEMORY CARD DRIVER oe CARD ADDRESS DECODER 5422 DRIVE HC Board Waveforms 2 1Vp p 20MHz HC Board IC Block Diagrams TC74VHC138F IC3 Wc YO Yl YS T A B C GB 01 GND TC74VHC245F ICA 8 ENABLE Bi B2 B4 B5 B6 B7 DIR A2 A4 A5 A7 GND TC74VHC541F IC5 6 TC74VHC574F 1 7 10 10 20 30 40 50 60 7 80 CLK OC 1D 2D 3D 40 5D 6D 70 80 GND 11 52 HC TA TA
44. COMPONENT YUV SMPTE EBU N 10 SLOT NO 6 SYNC MODE INT Select BK BOARD DATA LOAD from BK BOARD menu of MAINTENANCE menu and execute Connection YUV SMPTE EBU N 10 signal Extension board cable kit Part No A 1394 806 B Y G terminal 1 B Y B terminal terminal SYNC terminal 759 terminator x 4 Component signal Vv generator SMPTE BK board 10096 color bar eo Slot No 6 BKM 10R BVM 20G1 Fig 5 1 Arrangement Diagram for Adjustment Parts 1 Bright Center Adjustment BK board SIDE 1 Input the component color bar signal YUV SMPTE Setthe BRIGHT data to 2048 using the BRIGHT knob 104 3 Connect an oscilloscope to pin dof IC701 of the BK TP101 board B 4 As shown in Fig 5 3 adjust the BRT CENTER data so that the waveform becomes flat C Note CENTER adjustment menu is under the BK BOARD menu of MAINTENANCE D menu TP504 _ 506 502 m CN1 1 16 8119 Make flat G 1 701 Position of W B insert pulse Level difference 0 8 mV Fig 5 2 Fig 5 3 5 1 2 Clamp Level Adjustment Note The following adjustment menus are under the BK BOARD menu of the MAINTENANCE menu Y CLAMP OFFSET R Y CLAMP OFFSET B Y CLAMP OFFSET 1 Input the compone
45. Picture performance 5 overscan of CRT effective screen area adjustable range greater than 15 396 underscan of CRT effective screen area adjustable range greater than 15 Linearity Within a central area bounded by a circle with a diameter equal to the picture height less than 196 of the picture height and outside the same area about 296 of the picture height Normal scan Underscan Color temperature D93 D65 adjustable to other color temperatures Convergence error Within a central area bounded by a circle with a diameter equal to the picture height BVM 20G1U 20G1E 20G1A Less than 0 5 mm with a central area bounded by a circle and less than 0 9 mm at any other point BVM 14GIU 14GIE 14G1A 14G5U 14G5E 14G5A Less than 0 4 mm with a central area bounded by a circle and less than 0 8 mm at any other point Standard luminescence 100 cd m at standard 1 Vp p 10096 white signal Raster size stability Less than 1 of picture height at 100 cd m peak luminescence 10 to 9096 APL Horizontal Approx 1 4 line Vertical Approx field Resolution at screen center 100 cd m luminescence 800 TV lines Scan delay Environmental conditions Operating temperature to 35 C 32 F to 95 F Optimum operating temperature 20 C to 30 C 68 F to 86 F Operating humidity 0 to 90 no condensation Accessories supplied AC power cord 1 Cord stopper 1 Tally plate 1 Oper
46. INPUT Numeric buttons 0 s Ent button Confirms the g values and characters entered ENTER button of the menu operation buttons has the same function Del button Deletes the values and characters entered 10 Channel number entry method In the explanation below x and y represent any digit between 1 and 9 When selecting a number from 1 to 9 press the x button to display channel x When selecting a number from 10 to 99 press the 0 x and y buttons to display channel xy a two digit channel number MANUAL adjustment buttons and knobs Each press of one of these buttons turns the button s green LED on or off When the corresponding button is on lit it is possible to manually adjust the contrast brightness chroma and phase by turning the corresponding knobs They are also used to enter the setting values with the menus It is possible to set the preset value for each adjusting item with the CONTROL PRESET ADJ menu For Information about the CONTROL PRESET ADJ menu see Preset Adjustment of the Picture Level Control Knobs CONTROL PRESET ADJ menu on page 25 When using the composite SECAM composite PAL D component or SDI component or composite serial digital interface format note the following The signal phase cannot be adjusted The phase and chroma of RGB signals cannot be adjusted CONTRAST MANUAL CONTRAST button and
47. Number of analog 3 3 6 input Equipped with floating non floating ground mode selector for HAM reduction o 9 8 2 Overview Note on using the BKM 20D 21D When the input option slot on the rear of the monitor has a BKM 20D 21D SDI Decoder Adaptor option installed if you remove and insert the analog input connectors board the radiation shield see Fig 2 of the BKM 20D 21D may be damaged or detached Fig 1 Input option slot with a cover plate Analog input connectors board Fig 2 Radiation shield 56660 2 u u 200 210 Analog input connectors board When installing the analog input connectors board again remove the BKM 20D 21D temporarily while carrying out the other operations then reinstall it 4 Location Function of Parts Front Panel BVM 14G5U 14G5E 14G5A Tally lamp POWER switch SHIFT button DEGAUSS button Numeric keypad Function buttons MANUAL adjustment buttons and knobs Monitor Memory Card slot OPTION connector Menu operation buttons POWER lamp STANDBY lamp OVER LOAD lamp BVM 20G1U 20G1E 20G1A 14G1U 14G1E 14G1A Tally lamp OPTION connector PO
48. Perform the following checks when replacing the following components marked 4 on the schematic diagram 4 E board R501 R502 R503 R504 R505 R511 IC501 IC502 IC503 1 Turn OFF the power 2 Connect the digital voltmeter to pins of CN501 on the E board 3 Turn ON the power Input the dot signal 5 Set the BRIGHTNESS VR and CONTRAST VR to the minimum condition 6 Check that the 5 of CN501 voltage value is within the following range 20 inch model 21 8 to 23 0 V 14 inch model 19 5 to 21 0 V 4 1 High Voltage Hold Down Check Perform the following checks when replacing the following components marked 4 on the schematic diagram 4 E board R531 R532 R533 R534 R542 R543 R544 R545 R548 71 IC502 IC531 4 P board R904 R905 R906 1 Turn OFF the power 2 Connect the digital voltmeter to the pins CN501 on the E board 3 Connecta 200 kO variable resistor between pins 2 and D of CN501 on the E board Maximize the resistance of the 200 kQ variable risistor 4 Setthe BRIGHTNESS VR and CONTRAST VR to the minimum condition 5 Turn ON the power Input the dot signal 7 Check that when the resistance of the 200 kQ variable resistor connected to pin 2 of CN501 is gradually re duced HV protect operated at the following values 20 inch model 26 4 to 30 3 V 14 inch model 23 3 to
49. TB BOARD BRIGHTU 9 CUTOFF 6 9 ons B K 9 9 SYSTEM CONTROL D A CONVERTER 8 883280 BK Board Waveforms 1 2 BK Board Waveforms 2 2 BK BK 11 29 6 2 2Vp p H 2 3Vp p H 2 3Vp p H 4 6Vp p H 5 7Vp p 8MHz 4 2Vp p H 69 Th 111 1 8Vp p 990mVp p 2 8Vp p 4 2Vp p V 4 1Vp p H 5 1Vp p V 6 3 1Vp p 2 0Vp p H 2 8Vp p H 5Vp p H BT 3 2Vp p H 2 7Vp p H 2 8Vp p H 3 gt 1 3 1Vp p 3Vp p 3Vp p m 3 1Vp p H 2 2Vp p H 76Vp p H mr 2 3Vp p H 75Vp p H 1 9Vp p H 1 69Vp p H 4 7 5 2Vp p H nnr I TE H 128usec 63 5usec 5Vp p H 5Vp p 5Vp p 4 2Vp p H 4 2Vp p V 4 3Vp p H 11 29 BK Board IC Block Diagrams CXA1211M 1C305 1 2 CONT2 OUT2 lul gt Cur INT CONT OUTI GND CXA1521M IC112 303 312 503 512 REGULATOR 1 GAIN CONT DC CONT 12 BIT SHIFT REGISTER DO Di 02 D3 05 07 D8 09 010 Dii ADDRESS DECODER aH 8BIT LATCH 8BIT
50. rl o 5795 T E on z AE s co ui e 224 su Ed 5 225 aq est ase 55 552 ot 1 On or codo a eae 2 Sz a ot a g o 25 ui 22 2 ot Z bi 35 DENS gt oo gt ux a gt gt o wa a E a a a oo oo lt o 1 oo 1 mo mes S M a E 5 E 5 55 325 325 552 552 o9 x 3 gt a 1 M a E no lt ps m Y Sen 325 55 ep E SR go ze 5 wis gt n 54 dur E 5 see D 2 2 2 52 1 _ lt lt we Nor 2 M 555 ook an ost an V pd 5 55 ET or 55 Sox os 6 5 25 295 5 Sec ON ew t m o 995 1 585 55 855 582 825 5 K ae a m m ott 295 zoo ETE w Hic gt 1 gt 02 N aga 5 5 gt ned s 2 90 58 sre a 29 222 e ao mo NON ESE 9 vcl AW 0 W a 58 T a 5 5 55 E zE E 5 gtu 815 a ISE 58 M o BLACK SAMPLING P 1 9 2 9 3 9 4
51. 1 804 8 759 908 15 TL431CLP D103 8 719 053 43 DIODE SLR 325VCT31 1 901 8 759 231 58 78125 D104 8 719 404 49 DIODE D105 8 719 158 49 DIODE RD12SB2 lt COIL gt D106 8 719 110 50 DIODE RDISESB3 1201 1 406 661 11 INDUCTOR D202 8 719 988 55 DIODE 5 6179 L301 1 406 661 11 INDUCTOR D203 8 719 979 58 DIODE EGP10D 1300 1 406 661 11 INDUCTOR D204 8 719 510 37 DIODE DSLC20U D205 8 719 060 27 DIODE SLR 325MCT31 lt PHOTO COUPLER gt D206 8 719 510 37 DIODE DSLC20U 201 A 8 749 010 64 PHOTO COUPLER PC123F2 D207 8 719 510 37 DIODE DSLC20U 301 A 8 749 010 64 PHOTO COUPLER 123 2 D208 8 719 510 37 DIODE DSLC20U PH802 A 8 749 010 64 PHOTO COUPLER 123 2 D209 8 719 510 37 DIODE DSLC20U PH803 A 8 749 010 64 PHOTO COUPLER PC123F2 D210 8 719 404 49 DIODE 901 A 8 749 010 64 PHOTO COUPLER PC123F2 221 8 719 404 49 DIODE lt TRANSISTOR gt D212 8 719 110 50 DIODE RDISESB3 D300 8 719 404 49 DIODE Ql 8 729 043 95 TRANSISTOR 25 3840 3 D302 8 719 988 55 DIODE 15 6179 02 8 729 043 95 TRANSISTOR 25 3840 3 D303 8 719 031 79 DIODE DSSC4M Q4 8 729 043 95 TRANSISTOR 25 3840 3 D304 8 719 029 04 DIODE D5L60 Q5 8 729 118 44 TRANSISTOR 25 1413 Q6 8 729 027 87 TRANSISTOR 25 1261 D305 8 719 404 49 DIODE D306 8 719 404 49 DIODE Q7 1 801 806 11 TRANSISTOR DTC144EKA T146 D307 8 719 110 50 DIODE RDISESB3 Q8 8 729 118 44 TRANSISTOR 25 1413 D801 8 719 060 27 DIODE SLR
52. 80228b 194 ROTATION 180248 80224 1173 1802 25a CY V RET m 802255 4 1 1174 CY VJRTN cy v CY H 802 234 CY H RET 1 eH al 802 235 RET CY HJRTN 12 2H TIM 2 Q721 722 Q725 727 729 Ce 16703 C cow 12 2 2 CYHP 1 2 802 224 CY H 1 1741 CY H 22 80222b 22 12 251542 22 cemere a 52220 pee x coe 18843215 Ce masta 422 2 551 9034 G20UT T0C D555 600V RECT 1 0551 HV REG HV SWITCHING 902 1 FBT H FBT H 902 1 gt TO PICTURE TUBE 9022 FBT O FBT C 9022 902 11 HV RTN DC BVM 20G1 only i T Q561 12 HV DRV 12 9 BAN 902 1 HV RTNIAC 12503 Q501 502 TO C BOARD 151 HV HVRTN AC 802 21a WS CRT SOCKET G4 15 11 HV RTN DC HV RTN DC 802 20a 904 1 DFX IC502 5 HVPROT 9029 9042 DFY DC REF 2 FV2 REE RT SOCKET GM wor 1 531 1 2 2 2 Ks 155 ABLi 2198 5 7 0534 1759 HV PROT 802210 fe 924 3 HV OVP 12 5 wa Tu vnRFF AER 0321 322 0545 0502 10 1 CET l 9052 DFX Q301 304 Q3
53. 8515 219 744 11 CARBON 220 5 C001 164 004 11 CERAMIC CHIP 10 25V C004 164 004 11 CERAMIC CHIP 10 25V 8516 219 753 11 CARBON 220K 5 12 C005 164 004 11 CERAMIC CHIP 10 25V R601 216 103 00 RES CHIP 180K 5 C006 110 501 11 CERAMIC CHIP 33MF 10 16V R602 216 097 91 RES CHIP 100K 5 C008 164 004 11 CERAMIC CHIP 10 25V R603 216 093 00 68K 5 R604 216 065 91 5 4 7K 5 C009 164 004 11 CERAMIC CHIP 10 25V C010 164 004 11 CERAMIC CHIP 10 25V R605 216 097 91 5 100K 5 011 164 004 11 CERAMIC CHIP 10 25V R606 216 073 00 RES CHIP 10K 5 C012 164 004 11 CERAMIC CHIP 10 25V R607 208 612 11 METAL OXIDE 10M 5 1W C013 164 004 11 CERAMIC CHIP IMF 10 25V R608 208 612 11 METAL OXIDE 10M 5 IW R609 216 073 00 RES CHIP 10K 5 C014 164 232 11 CERAMIC CHIP 10 50V C015 163 017 00 CERAMIC CHIP 0047 10 50V R610 216 103 00 RES CHIP 180K 5 C016 164 346 11 CERAMIC CHIP IMF 16V R611 216 073 00 RES CHIP 10K 5 1 10W C017 163 275 1 CERAMIC CHIP 001 5 50V R612 216 073 00 RES CHIP 10K 5 018 110 501 11 CERAMIC CHIP 33MF 10 16V R613 216 111 00 5 390K 5 R614 219 759 11 CARBON IM 5 C019 164 004 11 CERAMIC CHIP 10 25V C020 163 275 CERAMIC CHIP MF 5 50V R615 216 081 00 RES CHIP 22K 5 C021 1
54. Accessories not supplied BKM 12Y Monitor Memory Card MB 510 Rack Mount Kit Related equipment BVM 20F1U 20F1E 14F1U 14F1E Color Video Monitor Design and specifications are subject to change without notice 5 Lot UEN VS 111111 WA lt lt lt SECTION 2 SERVICE INFORMATIONS 2 1 2 BVM 14G1A 14G1E 14G1U 20G1A 20G1E 20G1U 2 1 CIRCUIT BOARDS LOCATION 2 1 1 BVM 14G5A 14G5E 14G5U 2 1 3 BKM 10R 2 2 2 2 DISASSEMBLY 2 2 1 1 CABINET REMOVAL 14G1A 14G1E 14G1U 14G5A 14G5E 14G5U 2222 Claw case screw OS Left cabinet RT cabinet Rear panel Loosen four screws B4x20 Three screws Claw case screw OS Right cabinet Three screws Claw case screw OS 2 2 1 2 CABINET REMOVAL 20G1A 20G1E 20G1U Two screws Two screws Claw case screw OS Claw case screw OS Screw b B4x20 Top cabinet Left cabinet 3 Rear panel Loosen four screws B4x20 a gt Right cabinet 9 Screw Claw case screw OS Two screws Claw case screw OS Screw 42 84 20 Blind cover Claw case screw OS 5 Blind cover 2 3 2 2 2 1 FBT BLOCK ASSY REMOVAL 14G1A 14G1E 14G1U 14G5A 14G5E 14G5U Card slot assy Anode cap Four screws 4 8 CN904 A Screw PS4x8 Four screws 4 8 3 Two screws P4x8 Handle assy 2 2 2 2 FBT BL
55. iit i nus RES 8562 55 RN CP y PB Ml ns 820 dk 10510 2 3 T 2 2 oso 5 CHIP CHIP 16 859 BUFFER B 10504 2 3 0543 mW ce PULSE INSERT lt B 1 5 MC74HC4053FEL 0542 PB OUT 1 9 gt 4 um RGB SW P503 2803545 0 5 PB BUFEER 0 5 E 2802072 1 4 gt 20 d B BUFFER gt 3 92 25 1037 20 0 4 T BUFFER 228 lt A C BLUE R532 2 2k 0 8570 00091 dip F CHIP C546 zov 5 01 So x F CHIP HTS 6 3 1 I 531 4 14 8548 10513 1 3 10510 3 I Bt 305 Mo HO Der Eh Ea EL 10304 3 3 10504 3 3 SET UP 9 9 gt w 16 MC74HC4053FEL MC74HC4053FEL VCC 20 15 15 a e L R550 Y 10 180k 9 RN CP b B 1001RE 9 9 gt w VEE GND 0632 fe aly oe 4 P 111 A551 857 4 5V RN CP F CHIP E 2 OUT 1 9 gt 180 6 07 6 9V 6 3V BUFFER SWITCH aap 1 0 5V 8144 0141 R162 10 19 YAR MIX oo 1 50 0140 CHIP ui L e 10110 3 3 lt R 3 9 2803412 2503545 04 2 3 4 5 S BUFFER WC74HC4053FEL 124 0143 Y PR MIX MC74HC4053FEL 0142 R RGB SW 103 2563545 4 8531482 6 B R SELECT NUM R142 CLAMP 0 3 101 680 2 8 1 4 1 5 0 2 22385 Y PER PR OUT 1 9 gt 20 RN CP amp 20 HE ass Pase 55555 zo z C ve 0 8 3
56. usce 11 13 jun se 11 14 For Printed Wiring Boards Pattern from the side which enables seeing Chip IC Chip transistor C T 9 BE 456 321 Chip diode 3 2 1 CE BK BK 1 667 740 11 11 7 C325 B 6 0169 4 0813 5 012 F 7 C326 B 2 Q170 A 3 0814 G 5 D13 F 1 C327 2 0171 A 4 Q815 5 D14 F 7 C328 2 0172 4 0816 0 5 D102 A 1 C329 2 0174 A 4 0817 F 2 D103 D 7 C331 5 0175 3 0818 3 D164 A 5 C500 D 6 0176 A 4 0819 G 3 D165 A 2 C501 E 6 Q177 A 3 0820 G 4 D166 A 3 C502 D 6 0178 3 0821 G 3 D167 A 5 C503 D 6 0190 2 0822 5 D168 A 5 C504 D 6 0200 4 0823 F 5 D200 4 C506 D 5 0300 1 0824 G 5 D201 A 4 C507 D 5 0301 1 0825 G 5 D302 1 C508 D 5 0302 D 7 0826 P 4 D303 D 7 C509 D 5 0303 C 1 0827 F 5 D374 C 5 C510 D 4 0304 C 1 0828 F 3 D375 2 C511 D 4 0305 C 1 0829 G 5 D376 3 C512 D 4 0306 C 2 0900 F 7 D377 C 5 C513 D 4 0307 C 2 0902 6 D378 B 5 C514 E 4 0308 C 2 D400 4 C515 D 4 0309 C 2 TPL 5 D401 B 4 C516 E 4 0310 6 100 6 0502 1 C517 D 3 0350 B 6 TP101 B 5 D503 D 7 C518 D 3 0351 B 6 TP102 B 6 D567 D 5 C519 D 3 0352 5 103 5 D568 D 2 C520 E 6 0353 5 104 5 D569 D 3 C521 D 2 Q354 5 105 4 D570 D 5 C522 D 2 Q374 B 3 TP106 B 3 D571 D 5 C523 D 2 0375 4 10
57. 10 50 C314 1 107 877 11 ELECT 1000MF 20 10V C34 1 136 021 11 FILM IMF 5 50 C315 1 162 116 00 CERAMIC 680PF 10 2 C316 1 162 116 00 CERAMIC 680PF 10 2 C35 1 136 021 11 FILM IMF 5 50 C317 1 107 947 11 ELECT 220MF 20 160V C36 1 165 319 11 CERAMIC CHIP IMF 50V C37 1 163 989 11 CERAMIC CHIP 033MF 10 25 C318 1 107 947 11 ELECT 220MF 20 160V C38 1 164 004 11 CERAMIC CHIP IMF 10 25 C319 1 136 169 00 FILM 0 22MF 5 50 C39 1 164 489 11 CERAMIC CHIP 22MF 10 16V C320 1 107 372 1 FILM 0 22MF 10 200 C321 1 107 909 11 ELECT 47MF 20 10V C40 1 104 539 11 FILM CHIP 001 5 50 C324 1 163 031 11 CERAMIC CHIP 0 01MF 50V C41 1 163 031 11 CERAMIC CHIP 50V 9 27 REFNO PARTNO DESCRIPTION REMARK REFNO PART NO DESCRIPTION REMARK C325 1 163 031 11 CERAMIC CHIP 0 01MF 50V D804 8 719 404 49 DIODE C802 1 164 005 11 CERAMIC CHIP 0 47MF 16V D806 8 719 404 49 DIODE C804 1 107 888 11 ELECT 47MF 20 25V D807 8 719 404 49 DIODE C805 1 107 906 11 ELECT 10 20 50 D810 8 719 106 23 DIODE RD7 5M B2 C806 1 107 888 11 ELECT 47MF 20 25 D811 8 719 159 13 DIODE RD5 1SB3 T2 C807 1 107 906 11 ELECT 10 20 50 D812 8 719 159 13 DIODE RD5 ISB3 T2 C809 1 107 906 11 ELECT 10 20 50 D901 8 719 911 19 DIODE 1SS119 25 C810 1 107 906 11 ELECT 10 20 50 C90 1 113 912 11 CERAMIC 0 0047 20 250V FUSE C902 1 113 912 11 CE
58. 100 5 1 10W R828 216 037 00 RES CHIP 330 5 1 10W R905 216 025 91 5 100 5 R829 218 766 11 METAL CHIP 390K 50 1107 R830 218 755 11 METAL CHIP 130K 50 1107 R906 216 025 91 RES CHIP 100 5 R831 216 661 11 METAL CHIP 2 7K 50 1 10W R907 216 097 91 RES CHIP 100K 5 R832 216 637 11 METAL CHIP 210 50 1 10W R908 216 121 91 RES CHIP IM 5 1 10W R909 216 097 91 RES CHIP 100K 5 R833 216 637 11 METAL CHIP 210 50 1 10W R910 216 097 91 RES CHIP 100K 5 R834 216 659 11 METAL CHIP 22K 50 1 10W R835 216 069 00 RES CHIP 6 8K 5 R911 216 097 91 RES CHIP 100K 5 1 10W R836 216 051 00 5 12K 5 R912 216 687 11 METAL CHIP 33K 0 50 1 10W R837 216 081 00 RES CHIP 2K 5 R913 216 673 11 METAL CHIP 82K 0 50 1 10W R914 216 065 91 RES CHIP 4 7K 5 R838 216 067 00 RES CHIP 5 6K 5 R915 216 097 91 RES CHIP 100K 5 R839 216 676 11 METAL CHIP 11K 50 1107 R840 216 079 00 RES CHIP 18K 5 R916 216 097 91 RES CHIP 100K 5 R841 216 097 91 5 100K 5 R917 216 097 91 RES CHIP 100K 5 R842 216 695 11 METAL CHIP 68K 50 1 10W R918 216 097 91 RES CHIP 100K 5 R919 216 661 11 METAL CHIP 2 1K 0 50 1 10W R843 216 057 00 RES CHIP 22K 5 R920 216 097 91 RES CHIP 100K 5 R844 216 059 00 5 2 7K 5 R845 216 697 91 METAL CHIP 82K 50 1 10W R921 216 667 11 METAL CHIP 4 7
59. 26 8 759 011 65 IC MC74HC4053F D302 8 719 404 49 DIODE 27 8 759 981 48 IC TL082M D303 8 719 404 49 DIODE 28 8 759 100 96 uPC4558G2 D374 8 719 404 49 DIODE 1 129 8 759 988 13 IC LM393PS D375 8 719 404 49 DIODE 8 759 058 64 IC TC7S32FU TE85R D376 8 719 157 72 DIODE RD22M B 1 300 8 759 981 48 IC TL082M D377 8 719 901 83 DIODE 1SS83 IC301 8 759 011 65 IC MC74HC4053F D378 8 719 901 83 DIODE 1SS83 1 302 8 759 981 48 IC 1 082 D400 8 719 404 49 DIODE MAII 1C303 8 752 054 80 CXA1521M D401 8 719 106 16 DIODE RD6 8M B1 IC304 8 759 011 65 IC MC74HC4053F D502 8 719 404 49 DIODE MAII 305 8 752 053 21 CXADIIM D503 8 719 404 49 DIODE MAII 1 306 8 759 981 48 IC TL082M D567 8 719 404 49 DIODE MAII 1C307 8 759 082 61 IC TCAWS3FU D568 8 719 404 49 DIODE MAII IC310 8 759 011 65 IC MC74HC4053F D569 8 719 157 72 DIODE RD22M B 8 759 981 48 IC TLO2M D570 8 719 901 83 DIODE 1SS83 IC312 8 752 054 80 IC CXA1521M D571 8 719 901 83 DIODE 1SS83 IC313 8 759 011 65 MC74HC4053F D600 8 719 404 49 DIODE MAII IC314 8 759 981 48 IC TL082M D601 8 719 106 16 DIODE RD6 8M B1 IC315 8 759 700 95 NIM1496M D701 8 719 404 49 DIODE MAII IC316 8 759 011 63 IC MC74HC4051F D802 8 719 404 49 DIODE MAII IC317 8 759 011 65 IC MC74HC4053F D803 8 719 404 49 DIODE MAII IC318 8 759 981 48 IC TL082M D804 8 719 404 49 DIODE MAII IC319 8 759 346 42 IC TDA6101Q N3 D900 8 719 158 19 DIODE RD62SB 1 320 8 759 981 48 I
60. 74 4051 8 759 011 65 MC74HC4053F lt TRANSISTOR gt 8 759 981 48 IC TL082M 8 759 346 42 IC TDA6101Q N3 Q100 8 729 112 65 TRANSISTOR 2SA1462 Y33 Q101 8 729 027 38 TRANSISTOR DTAI44EKA T146 8 759 981 48 IC TL082M Q102 8 729 107 31 TRANSISTOR 25 3545 43 8 759 981 48 IC TL082M Q103 8 729 112 65 TRANSISTOR 2SA1462 Y33 8 759 981 48 IC TL082M Q104 8 729 107 31 TRANSISTOR 25 3545 43 8 759 981 48 IC TL082M 8 759 011 65 MC74HC4053F Q105 8 729 107 31 TRANSISTOR 25 3545 43 Q106 8 729 112 65 TRANSISTOR 25 1462 33 8 759 082 61 IC TCAW53FU Q107 8 729 120 28 TRANSISTOR 2SC1623 L5L6 8 759 011 65 IC MC74HC4053F Q108 8 729 120 28 TRANSISTOR 2SC1623 L5L6 8 759 981 48 082 Q140 8 729 107 31 TRANSISTOR 25 3545 43 8 759 100 96 IC 55802 8 759 988 13 IC LM393PS 0141 8 729 107 31 TRANSISTOR 25 3545 43 0142 8 729 107 31 TRANSISTOR 25 3545 43 8 759 058 64 TC7S32FU TE85R 0143 8 729 112 65 TRANSISTOR 2SA1462 Y33 8 759 981 48 IC TLO82M Q144 8 729 112 65 TRANSISTOR 2SA1462 Y33 8 759 011 65 IC MC74HC4053F Q164 8 729 107 31 TRANSISTOR 25 3545 43 8 759 011 65 IC MC74HC4053F 8 759 988 13 393 5 Q165 8 729 120 28 TRANSISTOR 2SC1623 L5L6 Q166 8 729 120 28 TRANSISTOR 2SC1623 L5L6 8 759 981 48 IC 1082 Q167 8 729 107 31 TRANSISTOR 25 3545 43 8 759 100 96 IC 55802 Q168 8 729 112 65 TRANSISTOR 2SA1462 Y33 8 759 011 65 MC74HC4053F Q169 8 729 107 31 TRANSISTOR 25 3545 43 8 759 083 94 IC TC7W74FU
61. 8 8 3 Location and Function of Parts SHIFT button Press to select one of the two functions designated to the function buttons QD Each time the SHIFT button is pressed the LED turns on SHIFT ON lit in orange and off SHIFT OFF lit in green SHIFT OFF The functions indicated on the left side of the function buttons can be used SHIFT ON The functions indicated on the right side of the function buttons can be used Function buttons Change the operation conditions for the monitor Each time the button is pressed the LED turns on and turns off and the operation conditions are changed Each button has two functions Select one of the two functions by pressing the SHIFT button QD When the SHIFT button is set to ON the LED lights in orange and when the SHIFT button is set to OFF the LED of each button lights in green SHIFT OFF LEDs of function buttons in green MONO APT COMB F1 F2 ADDRESS Underscan button When this button is pushed ON the picture is underscanned by 396 and four ends of the raster is displayed on the screen H delay button When this button is pushed in ON the picture moves horizontally and a horizontal sync signal appears approximately one quarter in the left edge of the screen The brightness of the picture increases automatically and it makes it easy to check the sync part If itis pre
62. BRIGHT BRT CONTROL 5 a 1 704 1 2 10 4 12 120 15 3S 17 4 1 5 REG 5 6 1 6a GV 15 162 45V 14 6V REG 5V 45V _ 14 1 4 DIGITAL BV 1 29a 03 DIGITALSV 1 29 12v REG REGL 12V 5V 2 Gi 5 amp 1 TOC 507 1 701 2018 TP701 3 4 MICRO COMPUTER D A CONVERTER PULSE GENERATOR MISO 127b TO BC 1 27b BK BLOCK 1 4 BK 2 4 BK 2 4 Q101 BK SELECT SWITCH Q309 ene Q100 102 01 1 3 100 BUFFER 2 4 C G Tm 1 ANALOG UN Y G B
63. Ig SU SLOT O 6 aie H SYNC GND SLOT 1 Pi 16 V SYNC 44 2PR 2R GND 17 RTS En SND B Y BIN CHAR BLANK a GND INTERACTIVE CHAR BLK CHAR G 18 aT NC REPORTING ar CHAR G CHARB Pu bioPTION CHARTS 8 78 607 CHAR R jus nm 5V CHAR R AFC TXD PULSE H SYNC jq ha GND HS V SYNC 20 820 TXD 2H SYNC RXD 293 2V SYNC 21 821 NC E 22 EX NC NC a 522 GND NS NC 23 TXD NC NC 823 823 RXD NC NC 124 124 GND A24 H PULSE V BLANKI 24 524 NC BEKI SYNC OUT H BLANK 05 125 NC BLK V BLANK2 25 525 NC V BLK2 NC 26 26 NC 26 5V SENSE RESET am NC RESET SAMPLE PULSE 97 NC 527 S PULSE MISO 27 T NC MISO MOSI 28 4 28 NC A28 MOSI SCLK _ 28 528 NC SCLK DIGITAL 5V 29 E NC DIGITAL 45V DIGITAL 5V 29 E NC DIGITAL 5V DIGITAL GND o NC DIGITAL GND DIGITAL GND 1830 830 NC DIGITAL GND I NC lisi NG mi CH SLOTS INT SG b31 NC 831 NC GND 132 32 GND GND i GND m CNS m GND GND 11 19 11 19 BK SELECT 9 9 gt Y G 8 9 9 9 0101 0 144 BK SELECT SW 26 9 9 gt sv 0102 2963545 WG BUFFER R109 5 2 D103 22 M CHIP PROTECTORS R107 R108 CHIP
64. Q5 Q6 010 ait vcc GND TC74VHC541F 1029 TC74VHC74F 1C113 123 Di PRI TLC2932IPW IC114 LOGIC PFD LOGIC VDD SELECT OUT GND 12 DIVIDER 0 VCO PFD NC IN GND INHIBIT INHIBIT uPD6453GT 101 E1 IC7 1 INSTRUCTION ay 0 DATA INPUT DECODER CONTROL SIGNAL SHIFT REGISTER cm DATA BUFFER REGISTER DATA 2 1 I I 1 CHARACTER ADDRESS WRITE ADDRESS VIDEO RAM SIZE REGISTER REGISTER COUNTER BACK pispLAY GROUND CONTROL CHARACTER COLOR PRINT CONTROL DATA DATA DATA DATA RA _ HORIZONTAL H ADDRESS _ REGISTER OUT SIZE COUNTER COUNTER COUNTER a m 1 288 word 288 word 288 word OSCIN p CHARACTER CHARACTER V ADDRESS GENERATOR GENERATOR REGISTER RAM ROM 42x18 bit 12X18 bit OUTPUT TIMING VERTICAL V POSITION V ADDRESS GENERATOR SIZE COUNTER COUNTE
65. 00K 5 R93 1 216 097 91 RES CHIP 00K 5 R31 1 216 089 91 RES CHIP 47K 5 NOW R94 1 216 097 91 RES CHIP 00K 5 10W R32 1 216 089 91 5 47K 5 NOW R33 1 216 089 91 RES CHIP 41K 5 NOW lt CRYSTAL gt R34 1 216 089 91 RES CHIP 41K 5 NOW R35 1 216 089 91 5 47 57 NOW XI 1 767 892 21 VIBRATOR CRYSTAL 20MHz R37 1 216 089 91 5 47K 5 NOW R38 1 216 089 91 RES CHIP 47K 5 NOW A 1372 136 A MOUNTED PWB HD 14G1 20G1 BKM 10R R40 1 216 065 91 5 47K 5 NOW R41 1 216 073 00 5 10K 5 NOW CONNECTOR R42 1 216 073 00 5 10K 5 NOW R43 1 216 073 00 5 10K 5 NOW CNIOI 1 565 269 11 SOCKET CONNECTOR D DUB L 9P R44 1 216 073 00 5 10K 5 NOW CN102 1 506 474 11 CONNECTOR 9P R45 1 216 089 91 5 47K 5 NOW R48 1 216 061 00 5 33K 5 NOW lt DIODE gt R49 1 216 061 00 5 33K 5 NOW D101 8 719 037 00 DIODE RD6 2SB2 T1 R50 1 216 097 91 5 100K 5 NOW D102 8 719 037 00 DIODE RD6 2SB2 T1 R51 1 216 097 91 5 100K 5 NOW D103 8 719 037 00 DIODE RD6 2SB2 T1 R52 1 216 097 91 5 100K 5 NOW D104 8 719 037 00 DIODE RD6 2SB2 T1 R53 1 216 097 91 5 100K 5 NOW D105 8 719 037 00 DIODE RD6 2SB2 T1 R55 1 216 097 91 5 100K 5 NOW 9 34 P TA TB YA YB REF
66. 1 202 884 11 SOLID 820K 20 R68 215 477 00 METAL 220K 1 R2 202 962 11 CEMENTED 3 3 5 10W R3 215 900 11 METAL OXIDE 22K 5 2W F R69 216 673 11 METAL CHIP 82K 0 50 1 10W R4 215 900 11 METAL OXIDE 22K 5 2W F R70 249 303 CARBON 10 5 R5 215 900 11 METAL OXIDE 22K 5 2W F R73 216 073 00 RES CHIP 10K 5 1 10W R74 211 881 11 FUSIBLE 0 47 10 R6 247 891 00 CARBON 330K 5 R101 215 865 11 METAL OXIDE 220 5 1W F R7 247 891 00 CARBON 330K 5 R8 247 891 00 CARBON 330K 5 R102 216 089 91 5 47K 5 R9 216 073 00 RES CHIP 10K 5 R103 216 081 00 RES CHIP 22K 5 9 29 REFNO DESCRIPTION REMARK REFNO PART NO DESCRIPTION REMARK R104 1 216 081 00 RES CHIP 22K 5 R255 1 216 073 00 RES CHIP OK 5 NOW R105 1 216 055 00 RES CHIP SK 5 R256 1 249 411 11 CARBO 33 5 4W F R106 1 216 097 91 5 00K 5 NOW R257 1 247 747 11 CARBO 47 5 NW R107 1 216 073 00 RES CHIP OK 5 R258 1 216 073 00 RES CHIP OK 5 NOW R108 1 216 073 00 RES CHIP OK 5 R259 1 249 415 11 CARBO 68 5 4W F R109 1 216 081 00 RES CHIP 22K 5 NOW R260 1 249 415 11 CARBO 68 5 R110 1 216 065 91 RES CHIP 4 7K 5 NOW R261 1 215 891 11 METAL OXIDE 68 5 2W F 1 216 675 11 METAL CHIP OK 0 50 1 10W R262 1 216 073
67. 1 21 ___ 2 214 ae ER AT O M 13 120 TP9 149 WR 9 146 8 9 1 2 11 147 8 i 201 214 1 48 A19 T m 0201 1014 1 10 149 12 SWITCH OUT 201 5 50 MEMORY 12202 5V SWITCH ERIAL PARALLEL TP204 CONVERTER S231 MEMORY CARD 5V 1 15 9 CONTRAST 19 OE j MOSI BAAN 4 17 1 42 mE L 202 10 ENCODER 33 158 RESET ds 202 9 ENCODER3 34 1 61 REG 52232 w 2028 ENCODER 2 EN2A 35 w 2027 ENCODER 2 EN2B 36 146 RDYIBSY 202 6 ENCODER 1 37 133 WP 8233 202 5 ENCODER 1 ENIB 38 167 202 4 ENCODER ENOA 39 1 63 202 3 ENCODER 0 ENOB 3 10 EDGE TRIG F E 162 BVD2 Wm a CD1 S234 00 01 02 03 04 C D5 IC102 06 SERIAL PARALLEL i D7 CONVERTER 5107 110 Q103 1014 SWITCH OUT 101 5 MISO 1013 10156 i D111 x IC101 SERIAL PARALLEL i MISO 55 5V MISO 45 46 MOSI 44 50 43 SCLK 53 MOSI 54 CE2 56 FUNCTION SELECT i a HC SYSTEM CONTROL FUNCTION SELECT SYSTEM CONTROL RELAY 10 13 10 13 HA HB HC HD BLOCK A B C D E F G H SECTION 11 DIAGRAMS 11 1 PRINTED WIRING BOARDS
68. 120V 5105 MONO R CONTROL PFC OUT 0806 81 C803 Si AP Q300 301 306 107 COMB B wy Q102 1 5 Fi RELAY SWITCH PROTEOT 08 F3 DETECT IC80LD34 ENCODER I S109 F2 F4 110 ADDRESS SAFE AREA HB 4 PFC FAILURE G SSS 6 BVM 14G5 BKM 10R only E G DY P HA HB HC HD BOARDS 10 3 10 3 OVERALL BLOCK 2 2 A B C D E F G H FROM E 801 144 FROM E 801 94 gt 731 1 6 4 6 AFC PULSE 1 19b BK 1 4 C731 H PULSE 1 24a 13 222 1 2 V BLK P1 1 24b 730 3 4 1C736 1 4 2 4 3 4 734 0731 12 80 8 2 6 11 gt Dampo 18 5 IC711 1 736 4 4 4 4 6 16735174 2 2 Ic735 2 4 5 gt W B INSERT P 3 4 BLACK SAMPLING 2 4 3 4 4 4 WHITE SAMPLING 2 4 3 4 4 4 WHITE INSERT P 2 4 3 4 WBINSERTP 2 434 W amp DP 34 9 gt FROM E 801 244 VSP 1 9b 8 VIDEO TIMING P 13 IC728 1 4 12 5V DRIVE SAMPLING P 11 728 2 4 13 21 gt 1 735 3 4 BIAS SAMPLING P 1C730 4 4 1C731 5 6 124 5 3 gt 6 4 51 6 4410735044 13 7 12 1 73
69. 4 Look forunauthorized replacement parts particularly transistors that were installed during a previous repair Point them out to the customer and recommend their replacement 5 Look for parts which though functioning show obvious signs of deterioration Point them out to the customer and recommend their replacement 6 Check the line cord for cracks and abrasion Recommend the replacement of any such line cord to the customer 7 Check the condition of the monopole antenna if any Make sure the end is not broken off and has the plastic cap on it Point out the danger of impalement ona broken antenna to the customer and recommend the antenna s replacement 8 Check the B and HV to see they are at the values specified Make sure your instruments are accurate be suspicious of your HV meter if sets always have low HV 9 Check the antenna terminals metal trim metallized knobs screws and all other exposed metal parts for AC leakage Check leakage as described below LEAKAGE The AC leakage from any exposed metal part to earth ground and from all exposed metal parts to any exposed metal part having a return to chassis must not exceed 0 5 mA 500 microampers Leakage current can be measured by any one of three methods 1 A commercial leakage tester such as the Simpson 229 or RCA WT 540A Follow the manufacturers instructions to use these instruments 2 battery operated AC milliammeter The Data Precisi
70. 5 1 10W C85 126 206 11 ELECT CHIP 100MF 20 63V R115 216 049 91 5 IK 5 1 10W C86 126 206 11 ELECT CHIP 100MF 20 63V R116 216 097 91 RES CHIP 100K 5 C87 126 206 11 ELECT CHIP 100 20 63V C88 126 206 11 ELECT CHIP 100MF 20 63V 117 216 065 91 5 4 7K 5 R121 216 085 00 RES CHIP 33K 5 C89 126 206 11 ELECT CHIP 100MF 20 63V R122 216 095 00 RES CHIP 82K 5 C90 126 206 11 ELECT CHIP 100MF 20 63V R123 216 085 00 5 33K 5 C92 126 206 11 CHIP 100 20 63V R124 216 095 00 5 82K 5 C93 126 206 11 ELECT CHIP 100MF 20 63V R125 216 089 91 RES CHIP 47K 5 CONNECTOR R126 216 089 91 5 47K 5 R127 216 089 91 RES CHIP 47K 5 774 534 11 CONNECTOR IC CARD CN2 506 474 11 CONNECTOR 9P lt SWITCH gt CN3 1 564 009 11 CONNECTOR 10 1 564 005 11 CONNECTOR 101 692 037 31 SWITCH KEY BOARD SHIFT CNS 506 471 11 CONNECTOR 6P 102 692 037 31 SWITCH KEY BOARD 16 9 103 692 037 31 SWITCH KEY BOARD D SYNC lt DIODE gt 104 692 037 31 SWITCH KEY BOARD BLUE ONLY 5105 692 037 31 SWITCH KEY BOARD MONO R DI 8 719 158 19 DIODE RD62SB D2 8 719 158 19 DIODE RD62SB 106 692 037 31 SWITCH KEY BOARD APT G D3 8 719 158 19 DIODE RD62SB 107 692 037 31 SWITCH KEY BOARD COMB B D4 8 719 158 19 DIODE RD62SB 108 692
71. A 1372 134 A MOUNTED PWB HB 1405 8 10 lt RESISTOR gt lt CAPACITOR gt R201 1 216 043 91 5 560 5 R202 1 216 043 91 5 560 5 C101 1 126 391 11 ELECT CHIP 47 20 63V R203 1 216 043 91 5 560 5 102 1 126 391 11 ELECT CHIP 47MF 20 63V R204 1 216 043 91 5 560 5 1 163 031 11 0 01 50V R205 1 216 097 91 5 100K 5 C112 1 163 031 11 CERAMIC CHIP 0 01 50V C113 1 163 031 11 CERAMIC CHIP 0 01 50V R206 1 216 049 91 RES CHIP IK 5 10W R207 1 216 049 91 5 IK 5 10W lt CONNECTOR gt R208 1 216 065 91 5 4 7K 5 10W R209 1 216 049 91 5 IK 5 CNIOI 1 506 471 11 CONNECTOR 6P R210 1 216 097 91 5 100K 5 DIODE R211 1 216 085 00 5 33K 5 R212 1 216 095 00 RES CHIP 82K 5 D101 8 719 404 49 DIODE MAII R213 1 216 085 00 RES CHIP 33K 5 NOW D102 8 719 404 49 DIODE MAII R214 1 216 095 00 5 82K 5 10W D103 8 719 404 49 DIODE MA11 R215 1 216 089 91 5 47K 5 10W D104 8 719 404 49 DIODE MA11 D105 8 719 404 49 DIODE MA11 R216 1 216 089 91 5 47K 5 10W R217 1 216 089 91 5 47K 5 NOW D106 8 719 404 49 DIODE R301 1 216 065 91 5 4 7K 5 10W D107 8 719 404 49 DIODE MA11 R302 1 216 065 91 5 4 7K 5 10W D108 8 719 404 49 DIODE MA11
72. B4x8 BVTP3x10 YB board 2 2 8 1 PICTURE TUBE REMOVAL 14G1A 14G1E 14G1U 14G5A 14G5E 14G5U 5 Deflection yoke Anode cap Four nuts x B flange nut M5 Two washers Picture tube position washer 2 9 2 2 8 2 PICTURE TUBE REMOVAL 20G1A 20G1E 20G1U Anode cap Four nuts B flange nut M5 Picture tube Two washers Picture tube position washer lt REMOVAL OF ANODE CAP NOTE Short circuit the anode of the picture tube and the anode cap to the metal chassis picture tube shield or carbon painted on the picture tube after removing the anode REMOVING PROCEDURES gt _ E 22 1 Turn up one side of the rubber cap 2 Using athumb pull up the rubber cap 3 When one side of the rubber cap is in the direction indicated by the arrow firmly in the direction indicated by the separated from the anode button the arrow 5 anode cap can be removed by turning up the rubber cap and pulling up it in the direction of the arrow HOW TO HANDLE AN ANODE CAP 1 Don t hurt the surface of anode caps with sharp shaped material 2 Don t press the rubber hardly not to hurt inside anode caps A material fitting called as shatter hook terminal is built in the rubber 3 Don t turn the foot of rubber over hardly The shatter hook terminal will stick out or hurt the rubber 2 10 2 2 9 UPPER COVER REMOVAL BKM 10R 8 Remove top cover i
73. Channel number and name Main Menu Level 1 Level 2 Level 3 SET UP C INPUT CONFIGURATION C1 CAPTION VISION C51 OFF REMOTE C2 ANCILLARY DATA CAPTION 1 PASSWORD C3 CH NO C52 CAPTION 2 SYSTEM CONFIGURATION C4 j NAME C52 TEXT 1 ON SCREEN SET C5 CH NO POSITION C53 TEXT 2 ALIGNMENT C6 CH NAME POSITION C53 EXTEND MENU C7 Setting Lists of the ON SCREEN SET Menu This section explains the setting lists displayed in the menu How to read the setting lists For purposes of explanation each setting list is preceded by a menu number These numbers are not displayed on the screen For more information about the menu number see About menu numbers on page 19 The arrow mark gt refers you to another setting list that appears after you make the setting or to an operation that is carried out as a result of the setting When there is no arrow mark the menu does not have any sub list C5 ON SCREEN SET menu Select items to be displayed on the screen CAPTION VISION Select the caption display mode gt 51 ANCILLARY DATA Select whether or not to display the ancillary data in the serial digital signal OFF or ON CH NO Select the display mode of the channel number gt C52 CH NAME Select the display mode of the channel name gt C52 CH NO POSITION Select the display posi
74. DRIVE 5v idle Ai lt 3 9 PULSE GENERATOR Wi G2 BRT CONTR CONTROL 10736 1 4 i 24 1734 1 3 10731 2 6 MC74HCO2AFEL T5 6f MC74HC11FEL MC74HC14AFEL PULSE GEN 8 PULSE GEN INVERTER 12 2p 1 9 19 M BLACK SAMPLING P 1 9 2 9 3 9 4 9 5 9 6 9 3 416710 172 16711 172 5 y gt 10736 2 4 BLACK SAMPLING P H PULSE 9 9 LM393PS TC7WO8FU 4 10 MC74HCO2AFEL WHITE SAMPLING P PULSE GEN 10731 8 6 1 PULSE GEN HE 1 NCTAHCIAAFEL 8 9 25 INVERTER 2 10 4 WHITE SAMPLING P 1 9 3 9 4 9 5 9 6 9 6 5 4 48731 0729 2 Ade X D PULSE GEN WHITE INSERT 179 2 9 CHIP W B INSERT P 2 9 ii W B INSERT P 179 3 9 5V 10711 272 ls 14 TC7WOBFU 6 AFC PULSE 9 9 gt Ta S01 T 2 FUSE SEN 5 5 VIDEO TIMING P 4 9 5 9 6 9 1C731 1 6 utn 0735 2 4 MC74HC14AFEL INVERTER MC74HCO2AFEL INVERTER PULSE GEN 14 5 8 10 tI MX DRIVE SAMPLING 4 9 5 9 6 9 10728 4 47 10130 4 4 NCTAHCOOAFEL RS MC74HCO2AFEL 12 10730 3 4 PULSE GEN 15 lt BIAS P 3 9 MC7ANCOZAFEL 5 t 4 4 Nx DRIVE P ON OFF 9 9 a gt 10 i 1 12 PULSE GEN 13 amp DRIVE P 4 9 5 9 6 9 GND CLOCK 10735 3 4 PULSE GEN MC74HCO2AFEL 2 PULSE GEN 11 3 1 81 8 SAMPLING P 14 9 5 9 6 9 V BLK1 1 9 9 9 gt 4
75. N gt 2 02 02 9 19 lt lt lt 2 229 Z o 2 BC CLOSED CAPTION DISPLAY COUNTER D A CONVERTER ejes s sie s esa ee a PME gt Xdc c A OPEN 11 33 11 33 4 4 4 4
76. Replace only with the part number specified Ne les remplacer que par une pi ce portant le num ro sp cifi PFC DET 4 2 RELAY DRIVE 1 2 gt ba GND SEC 072 D 5V D 5V 12 SEO 072 Pa gt TP201 15V PRI 4 2 4 8 D204 1000p 10002 22 D5LC20U 20V PRI 1 2 9 21 7 R230 9 k 2 CP CHIP D GND 1 say 20V RECT 86 1 0207 REG ee ee a 500V 500V RS s de Rage 7 R24 PFC OUT 1 2 gt 15V 20V 60508 9228 w TLASTCLP 2 0214 FE 1 1 4 4700 4 i 5V OUT 2 1 0206 0208 0510200 2541469 R251 823 T NA 16V RECT 16V SWITCH 10 RD 4 W 2802785 12 7 DEG SWITCH R903 0 2 0209 des R255 R256 DTC144EKA 280 16V DRV p 222 Gate 90 2555 0207 D5LC20U 7V RECT 8904 I I SLR 325MCT31 uu D 6 1 5V IND 0206 205 25V 25 w 007 MT e 2541469 6V SWITCH 0212 2503746 6V SWITCH B CHIP 7 D G 902 1 DTC144EKA 8214 J if um SW
77. 11 35 BC CXD1171M 109 LATCHS f DECODER 1 GENERATOR CURRENT CELLS FOR FULL SCALE 10 BIT BINARY COUNTER CLOCK OSCILLATOR 0 2k BYTE CONTROLLER PROM MASK ROM 62k BYTE 8 536 WEDGE IN CONTROLLER TRANSFER CONTROLLER DATA BUS HIGH RANK ADDRESS BUS DATA BUS LOW RANK SERIAL COMMUNICATION INTERFACE X 2 CH BIT TIMER ERES PWM TIMER X 3 CH 10 BIT AID CONVERTER X 8 CH 16 BIT FREE RUN TIMER X 3 CH WATCH DOG TIMER 11 35 LTC485CS8 IC25 26 VOLTAGE DOUBLER VOLTAGE INVERTER T20UT 3 31 VOLTAGE DETECT CIRCUIT 4 2V VOLTAGE DETECT CIRCUIT TC74VHC138F IC10 13 Vc YO Yi Y4 YS TG A B GA GB YW GND TC74VHC4040F 1 30 104 00 02
78. 1373 638 YB MOUNTED 1461 18 1373 661 MOUNT 1405 19 A 1373 636 A YC MOUNTED 1401 19 1373 643 YC MOUNT 1405 20 4 061 920 01 INSULATOR YC 21 X 4033 128 1 4 3 ASSY 2 X 4033 276 1 GUARD ASSY HARNESS L 14G1 23 X 4033 277 1 GUARD ASSY HARNESS S 14G1 24 X 4033 145 1 BEZEL ASSY 1461 25 X 4033 130 1 BEZEL ASSY 1405 26 4 050 922 01 HANDLE 1465 7 4337121211 HANDLE 1465 28 4050 51 01 CONTROL 1405 29 A 1372 133 A MOUNTED PWB 1465 30 4405092501 BRACKET RIGHT BEZEL 1405 31 A 1372 134 A MOUNTED PWB HB 1465 3 4405092401 BRACKET LEFT BEZEL 1405 33 A1375155 A HC COMPLETE PWB 1405 34 1 500 249 1 FERRITE CASE 14G5 BEZEL CABINET CARD SLOT 8 2 CARD SLOT 14G1A 14G1E 14G1U 14G5A 14G5E 14G5U 7 685 648 79 BVTP3x12 7 685 872 09 BVTT3x8 0 7 682 161 01 P4x8 7 432 114 11 SCREW LOCK 14G1A 14G1E 14G5A 14G5E 14G1A 14G1E MA 14G1U 8 4 REFNO PART NO DESCRIPTION REMARK 5 1390 771 TA MOUNT 55 4050 95 01 BRACKET L T 53 4053287121 GASKET 54 A 1390 77 A MOUNT 55 4405096401 BRACKET R T 56 4405328101 GASKET 57 40532871 GASKET 58 4 050 969 01 BOARD CARD SLOT 1461 58 4 050 844 01 BOARD CARD SLOT 1405 59 A 1316 334A G COMPL 60 61 72 75 60 X 4033 116 1 FRAME ASSY POWER 6l X
79. 3 CY H RE SV 6V NTC 6V HCR 822 CY H zo 6 NTC 6V DE CY H I DU G DU G CY V RET GND i MAT eee H cY HV PROT DUE DU B V RET GND TO BK BOARD 2602 AC DU R GND 3 H STAT 20 ABL2 18 vs P cy GND ENG STAT 0 HV DO BL OUT ABL CY H RET GND LCC J501 HCT 15 Ga CONTROL G2 CNT CY H RET GND CRT SOCKET POWER ON POWER AECTRUESE HCR CY H GND DEGAUSS 18 15V DEGAUSS HS VCR CY H GND ROT RTN ar BOARD I E PROT NC E PROT E H CY HV PROT GND ROTATION 7 GND G PROT SHS V CY HV R AC GND ROT 201NCH ONLY G PROT2 GND G PROT 2 VS H STAT ABL2 GND PNT 6 PROT3 6 H STAT G PROT 3 NGA V STAT HV R DC GND G PROT4 82 C G PROT 4 HCT 15V GND GND 515 12V NODS POWER ON ABL1 POWER ON TORK BOARD C GND WD 12V NCZSB DEGAUSS 15V _DEGAUSS ane 801 GND E PROTECT NC _E PROT AFC P ju GND AFC PULSE NC24A PICTURE TUBE G GND 6 HS 12V G PROTECT2 GND _G PROT2 V RTN vs 12V G PROTECTS 5 _G PROT3 cy 2Hs NC SSVSSENSE 4 02 C _G PROT4 CY H RTN 2 I 278 NC RESET GND 12V GND NC HU NC HT NG27 GND 12 GND INCH ONLY NC NC HT GND VD euis NC NC HT C MOSI AFC P GND AFC PULSE CHASSIS NC A 10 NC HT HS 12V HS HP 89 N
80. 414 x 444 x 570 169 x 178 x 221 inches w h d BVM 14G1U I4GIE 14G1A 280 x 346 x 530 11 x 13 5 x 207 s inches w h d BVM 14G5U 14G5E 14G5A 280 x 482 573 11 s x 19 x 22 s inches w h d 51 o D gt 5 5 x Specifications Dimensional drawing BVM 20G1U 20G1E 20G1A 444 17 2 gt 410 167 gt gt 414 1698 399 1594 257 101 8 0 1 30 26 7 4 Unit mm inches 13 1 30 13 6 15 9 3 51 7 2 BVM 14G1U 14G1E 14G1A Unit mm inches 346 13 r 330 13 4 j 18 Jas EI 2 elele 2 hi LI LI M 14 5014 5 14 5 Unit mm inches 482 19 426 167 410 167 4 H ee Hi g JINBE sss M PPP eje 3 1 LI og 52 Mass BVM 20G1U 20G1E 20GIA approx 36 kg 79 Ib 6 oz BVM 14G1U 14GIE 14GIA approx 21 kg 46 Ib 5 oz 14050 14 5 14 5 approx 24kg 52 Ib 15 oz Power consumption BVM 20G1U 20G1E 20G1A 125W When an optional adaptor is installed 140 W BVM 14G1U 14G1E 14G1A 105W When an optional adaptor is installed 120 W 14050
81. 5 R500 216 085 00 RES CHIP 33K 5 R501 216 107 00 RES CHIP 270K 5 8572 216 049 91 RES CHIP IK 5 1 10W R502 216 049 91 RES CHIP IK 5 8573 216 053 00 5 1 5K 5 R503 216 097 91 5 100K 5 R574 216 049 91 RES CHIP IK 5 R575 216 025 91 5 100 5 1 10W R504 216 009 00 RES CHIP 22 5 1 10W R576 216 057 00 RES CHIP 2 2K 5 1 10W R505 216 051 00 5 12K 5 R506 216 025 91 5 100 5 1 10W R577 216 065 91 RES CHIP 4 1K 5 1 10W R507 216 049 91 5 IK 5 R578 216 073 00 RES CHIP 10K 5 R508 216 049 91 5 IK 5 R579 216 658 11 METAL CHIP 2K 0 50 1 10W R580 216 683 11 METAL CHIP 22K 0 50 1 10W R509 216 009 00 RES CHIP 22 5 1 10W R581 216 687 11 METAL CHIP 33K 0 50 1 10W 8510 216 009 00 RES CHIP 22 5 1 10W R511 216 697 91 METAL CHIP 82K 0 50 1 10W R582 216 662 11 METAL CHIP 3K 0 50 1 10W R512 216 657 11 METAL CHIP 1 8K 0 50 1 10W R583 216 025 91 100 5 1 10W R513 216 663 11 METAL CHIP 3 3K 0 50 1 10W R584 216 657 11 METAL CHIP 1 8K 0 50 110 8585 216 653 1 METAL CHIP 12K 0 50 1 10W 8514 216 009 00 RES CHIP 22 5 1 10W R586 216 067 00 RES CHIP 5 6K 5 1 10W R515 216 674 11 METAL CHIP 9 1K 0 50 1 10W 8516 216 697 91 METAL CHIP 82K 0 50 1 10W 8587 216 025 91 5 100 5 1 10W R517 216 651 11 METAL CHIP IK 0 50 1 10W R588 216 051 00 RES CHIP
82. 5 100K 5 R110 216 079 00 18K 5 NOW R33 216 097 91 5 100K 5 R111 216 061 00 RES CHIP 33K 5 1 10W R34 216 097 91 RES CHIP 100K 5 1 10W R35 216 097 91 5 100K 5 R112 216 065 91 5 4 7K 5 NOW R36 216 057 00 5 22K 5 R113 216 061 00 RES CHIP 3 3K 5 NOW R114 216 634 11 METAL CHIP 200 0 50 1 10 R37 216 057 00 RES CHIP 2 2K 5 1 10W R115 216 049 91 5 IK 5 NOW R38 216 057 00 RES CHIP 22K 5 R116 216 081 00 22K 5 NOW R41 216 097 91 RES CHIP 100K 5 R42 216 097 91 5 100K 5 117 216 073 00 5 10 5 NOW R43 216 097 91 5 100K 5 R118 216 061 00 RES CHIP 3 3K 5 NOW R119 216 073 00 5 10K 5 NOW R44 216 097 91 5 100K 5 R120 216 073 00 RES CHIP 10K 5 1 10W R45 216 097 91 5 100K 5 R121 216 057 00 RES CHIP 2 2K 5 46 216 097 91 5 100K 5 R47 216 097 91 5 100K 5 R122 216 077 00 5 15K 5 1 10W R48 216 097 91 RES CHIP 100K 5 1 10W R123 216 065 91 RES CHIP 4 1K 5 1 10W R124 216 061 00 RES CHIP 3 3K 5 1 10W R51 216 049 91 RES CHIP IK 5 R125 216 065 91 5 4 7K 5 852 216 049 91 5 IK 5 R126 216 049 91 RES CHIP IK 5 R53 216 049 91 RES CHIP IK 5 R54 216 049 01 RES CH
83. 5 4 Two screws 4 8 2 6 2 2 6 TA AND TB BOARDS REMOVAL CN102 14G1U 14G1E 14G1A 20G1U 20G1E 20G1A Card slot assy 2 TA board Six screws BVTT3x8 2 Two screws Ps BVTT3x8 E 74 Three screws _ Y BVTT3x8 T shield e 9 Two screws BVTT3x8 2 2 7 1 YA YB AND YC BOARDS REMOVAL 14G1A 14G1E 14G1U Screw Two claws BVTP3x10 9 YC insulator 9 YA board Screw BVTP3x10 5 2 board 2 D Two screws B4x8 7 YB board 3 Bezel assy Two screws B4x8 2 7 2 2 7 1 1 BEZEL ASSY REMOVAL 14G5A 14G5E 14G5U 2 Three screws PSW4x14 2 3 Handle assy Two screws B4x8 Screw BVTT4x8 Bezel assy Three screws 6 Two screws B4x8 Handle assy 2 2 7 1 2 HA HB YA YB AND YC BOARDS REMOVAL 14G5A 14G5E 14G5U Screw Bezel bracket L BVTP3x10 Three screws Four screws YC insulator BVTP3x12 BVTP3x12 49 Screw 4BVTP3x10 HB board Screw PSW3x6 YC board DK 3 YA board Two claws Screw 4PSW3x6 2 Four screws 4BVTP3x12 3 Bezel bracket R Five screws BVTP3x12 HA board 49 Screw BVTP3x10 49 YB board Four control knobs 2 8 2 2 7 2 YA YB AND YC BOARDS REMOVAL 20G1A 20G1E 20G1U Two screws B4x8 Two claws Two screws BVTP3x10 YC board Two screws
84. CONTROL LOGIC D gt 512 11 42 61 G2 G4 GM m 1904 20NT3 20610 20111 12061 V901 20111 12068 14111 1461J 1465J 3 PICTURE 20111 9 20614 TUBE 14113 14610 1465U 014614 1461E 14654 1465E KG KB TO P BOARD T901 F B T 2 6 R G B OUT WHT I MINI 1 GND CHASSIS GND 8509 e Eco Nus ma w y C507 4 1720 18 GND 0501 EGPI0GPKG23 6705 BLANKING CLAMP 0701 801558 11 27 TO BK BOARD 7 9 CN508 CN5 PROTECTOR Wat s Wicro TO TA BOARD MUN T H STAT CTRL PROTECTOR 2 62 CTRL 3 GND BOARD 912 10601 2 2 4 12V k k LM358PS E20 Ten Sa CHIP STAT CONTRO 5 6 GND 7 H1 CN504 600V 4 NC GND CN503 3P TO E BOARD D601 CN903 111 TO BK BOARD 4 9 DISCHARGE 2 CN505 WHT S MICRO 601 220 16V E 68k 1 TO BK BOARD 5 9 B SS3280 lt AEP gt C CN506 RC 4P B TO BOARD 6 9 PAH e T C Boa
85. ELECT CHIP 22MF 20 16 C303 164 505 11 CERAMIC CHIP 22 16V C406 107 943 1 ELECT 10 20 160 C304 163 809 11 CERAMIC CHIP 0 047 10 25V C407 163 031 11 CERAMIC CHIP 50V C305 163 037 11 CERAMIC CHIP 0 022MF 10 50V C400 164 505 11 CERAMIC CHIP 2 2MF 16V C410 163 031 11 CERAMIC CHIP 50V C307 164 505 11 CERAMIC CHIP 22 16V C411 163 031 11 CERAMIC CHIP 0 01MF 50V C308 164 700 11 CERAMIC CHIP 0 68MF 16V C309 163 809 11 CERAMIC CHIP 0 047 10 25V C412 163 031 11 CERAMIC CHIP 50V C310 163 031 11 CERAMIC CHIP 0 01MF 50V C420 163 127 00 CERAMIC CHIP 5 50 163 031 11 CERAMIC CHIP 0 01MF 50V C42 126 390 11 ELECT CHIP 22MF 20 63V C422 163 031 11 CERAMIC CHIP 50V 322 126 392 11 ELECT CHIP 100 20 63V C430 126 392 11 ELECT CHIP 100MF 20 63V C323 164 505 11 CERAMIC CHIP 22 16V 324 163 031 11 CERAMIC CHIP 0 01MF 50V C43 126 391 1 ELECT CHIP 47MF 20 63V C326 164 222 11 CERAMIC CHIP 0 22 25V C432 126 391 1 ELECT CHIP 47MF 20 63V C327 163 809 11 CERAMIC CHIP 0 047 10 25V C440 163 031 11 CERAMIC CHIP 0 01MF 50V C45 163 085 00 CERAMIC CHIP 2PF 0 25PF 50V C328 164 505 11 CERAMIC CHIP 22 16V C500 163 227 11 gt CERAMIC CHIP 0 5 50V C329 164 505 11 CERAMIC CHIP 22 16V C330 164 505 11 CERAMIC CHIP 22 16V C50 163 229 11 CERAMIC CHIP 12PF 5 50V C331 163 087 00 CERAMIC CHIP 4PF 0 25PF 50V C502 115 155 11 E
86. R 100 IRE FROM BC 1 17b gt CHAR BLK 1 170 1 4 1 4 1 4 2 4 4 4 1 4 2 4 4 4 CH BACK H B 509 2 WB INSERT BLACK SAMPLING P C 1 4 BIASREF GCA GAIN CONT DC CONT Q570 572 B BUFFER 313 2 3 3 3 IC314 5 22 s gt DG 44 DB 44 C DR 44 IC506 2 2 TP104 Q165 IC110 3 3 IC110 2 3 3 2 5 4 1 5 12513 273 3 3 12514 0569 7 1 2 2 2 B BRT BUFFER BLUE ONLY 14 BRT Q166 R BUFFER 2112 Q167 169 BUFFER GAIN CONT DC CONT 2 11 306 2 2 DRVEREF 3 224 3 14 CHLEVEL gt 2 d 1C106 2 2 Q164 113 2 3 3 3 IC114 5 12 212 R BUFFER s gt WHITE SAMPLING P WBPSW AUTO C P P SW FROM BC 1 27a gt S PULSE 1 27a 10420 WBINSERTP gt NC FROMBC1 18a CHARG 1 18a 2 FROM BC 1 18b 1 1 Ay 10531 FROM 1 19 CHARR 110 RU
87. To access the MANUAL menu directly When the F2 button is assigned as the short cut key to the MANUAL menu you can directly access the MANUAL menu that corresponds to the color temperature setting set to the image on the screen For details of how to assign the short cut key see Setting the Power Up Conditions SET UP 4 SYSTEM CONFIGURATION Menu on page 39 B2 PROBE menu STD COL1 COL2 Select the probe for color temperature adjustment SONY BKM 14L Use BKM 14L P B21 GRASEBY SLS 9400 Use the SLS 9400 gt 213 MINOLTA 100 Use the CA 100 gt B213 PHILIPS PM 5639 Use the PM 5639 B213 THOMA TF6 Use the TF6 gt B213 If you cannot execute an ADJUST or ANALYZE menu operation when using the Sony BKM 14L probe try again after disconnecting and reconnecting the probe When using the Thoma TF6 probe set the TF6 PRINT menu to off 29 nue 2 Ja deyo nua 191deuo Adjusting the Color Temperature COLOR TEMP ADJ Menu 813 COPY SOURCE menu STD COL1 COL2 Select the adjustment method and the source to be copied from OTHER VALUE Copy data from one of STD COL 1 COL 2 gt 831 OTHER MONITOR Copy data from another monitor gt B32 MEMORY CARD Copy data from a memory card gt B33 B4 TRIM menu STD COL1 C
88. e Fe ot 25 5 t o 4 5 ck 5 oe o o 3 on AWE i 284 5 u i RU z Sio est ET w ud Se 4 _ 25 ose e ALS e alu amp DI ote I 8 5 gt gt 5 1 1 22 21 _ j p 21027 7 122 gt m e 5 53 gt j A d 2 9 8 5 8 5 oo 3 95 8 i ZL 22 x m Ex m a mulos 2 3 pM 1 55 x Oo m m 2 5 as an os 2 a 11 25 11 25 BK 7 9 BK 7 9 I BRT 3 9 B SS3280 lt AEP gt BK P7 10736 4 4 MCTAHCOZAFEL R731 R732 2 7 9 31 3 C782 C783 p
89. 1 13 14 222 CRT SOCKET IC828 1 2 6 10 12 gt 5 6 2 2 3 2 2 FROM 3 gt H STAT 14 GDRVEIK gt 5 5 8801 3 72084 HSTATCTRL OVT 9 sigue SO cm RV501 H STAT IC324 1 3 Q601 602 1C326 2 3 ss IC326 1 3 IC326 3 3 IC321 21 1 2 7 13 14 CGDRVECOMP 14 1 15 22 22 582 122 BUEEER i IC601 1 2 yep IC518 1C517 1 3 s 5 2 601 1 5 IE 1 2 5 10 2 ___ Ti Q600 128 810515 9577573 1518 1 517 3 3 506 m 5054 KG 1 5 i 525 E gt 2 1 3 1 KB 4i 861 B DRIVE 5 i 54 9 5 504 1 KR 0528 272 0580 C 14 BDRVEV gt NIE 9V 10523 10522 10524 1 523 SN i ic524 2 3 10522 622 2 83 1 2 FROM 5571 Gi 2 1 15 2002 5 BK 5 10 12 1 1C528 1 2 IC529 2 2 3 EL CR gt gt 5 4 3 11 2 23a b 508 9 5087 HI 3 22a 0 FV2 IC526 2 3 IC526 1 3 IC526 3 3 1 521 IC521 1 2 FROMP 134 CBDRVECOMP 14 1 is 6 2 2 24 or FL IC118 1 117 1 3 5 s gt 3 IE 5 10 a200 28 810115 1 117 3 3 TP106 1 12 5 3 4 DR R BUFFER gt T is R DRIVE 1 5 i AMP 5V i4 RCUTOFF Q190 14 RDRVEV gt Am 9V 716123 10122 10124 16123 ae ci 2 3 1 16122 2 2 1 2 3 3 1
90. 1 13 Drive Control Amplifier To prevent the drive current of the CRT cathode from ex ceeding the reference value and the drive voltage from ex ceeding the reference value the levels of the R G and B signals are controlled The drive current of the CRT cathode is detected by the cur rent of pin of the VIDEO OUT amplifier IC119 The current of pin is clamped I V converted by IC123 sam pled by IC126 2 3 and compared with the reference volt age R DRIVE IK at IC127 2 2 When the drive current exceeds the reference value the signal output from IC127 2 2 is passed through IC117 3 3 Q170 to Q172 and in put to IC115 R drive control amplifier to lower its gain The drive voltage of the CRT cathode is detected by the volt age of pin 9 of the VIDEO OUT amplifier IC119 The voltage of pin 9 is clamped by IC121 sampled by IC126 1 3 and compared with the reference voltage R DRIVE V at IC127 1 2 When the drive voltage exceeds the refer ence value the signal output from IC127 1 2 is passed through IC117 2 3 and Q170 to Q172 and input to IC115 R drive control amplifier to lower its gain The SUB CPU 1C902 sets whether to control the drive amount based on the drive current current mode or control the drive amount according to the drive voltage voltage mode IK V SW Normally the SUB CPU operates in the voltage mode and sets into the current mode during WB ad justment The DRIVE COMP is used for c
91. 1063 3 3 Mo MC74HC4053F 5 2 10113 16121 15 6 24 vo 1584 20 24 BLANK T 74VHCUO4F EL Lily 3 12 10121 4 6 1 552 14 15 10 INVERTER B C TC74VHCUO4F EL 0104 4 CH CHIP CH CHIP INVERTER 0 0 22 6 0112 16V 10 0115 1 282412K TR 22 0116 PR BUFFER CH CHIP 22p 10119 2 3 10119 3 3 CHIP MC74HC4053F MC74HC4053F SWITCH SWITCH 16115 2 3 07 TC74VHC10F T r 0622 280241 SINGU NANY S TC7886F BUFFER EXCLUSIVE on 052 5 2 28C2412K TR 0116 BUFFER DTC144EK T146 o 525 625 SWITCH CHIP 474 ENABL 12 ANT SG 474 0114 DTA144bK T146 EXT INT 16 SW XE INT SG lt SAD DISP dns 4 2802412K TR 01 gt lt SAD BLK DISP 11747 Y BUFFER 174 1 0 rc74vHCO0F EL 013 124 2 MAND SAD BLANKING 1 7 gt CHAR_BLANK CHAR BLANK urs Hon RET 7 4 Y G 4 4 MAT TK iq SAD BED CHARLA 4 4 lt 04 5 590 GREEN CHAHSG lt CHAR_G 4 4 5 0 474 TC74VHCOOF EL SSE lt SENSE 1 4 lt cs 1 4 RD WR 174 274 5V 2 Y 000 007 9 174 2 4 DX 0 4 a x ae 174 12 lal 616 s sie 2 sisi zs IIS 822288 SIGNAL GENERATOR INTERNAL SIGNAL DATA PLL zl z a a a a bul o gt gt gt gt N
92. 16622 2 2 R651 10k CHIP V SP 2 4 0 5 10 112 AFC P 42 _ 10627 5 6 TC74VHC14F EL INVERTER V DELAY RTN 2 4 2 4 RTN 474 4 4 RTN 2 4 NTC 2 4 CY V RTN 474 4 4 CY H RTN 474 CY H 4 4 3 4 H DELAY RET RET RET RET RET RET RET RET HV PROT HV R AO ABL2 HV R DO 15V ABL1 15V NC GND GND H STAT C G2 C 12V 12V GND GND 12V 12V NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC GND B SS3280 lt AEP gt E GND TO TA BOARD CN13 E 24 2 4 2 4 SIGNAL GEN PWM CONTROL REG HV OUT SWITCHING lt H LIN 6 4 lt lt
93. 2 3 4 7k MALTY dfir dip lt l4 1230 112 CHIP BRT CONTROL A VEE GND NJM4558M 5 hop 2 9 2314 G2 CONTROL d 1703 2 2 0201 LM393PS 28A1037K 2 1037 S PULSE SEP 8706 G2 6 CONTROL G2 R CONTROL k 5V CHIP 5 AUTO P SW 6711 BRT CENTER 7 9 gt 5V WAB P SW 9 9 S PULSE 9 9 gt F CHIP G2 CONTROL 9 9 RN CP G2 REF 9 9 10705 2 2 NJMA558M G2 CONTROL BK 8 BK 8 9 CLAMP DLY 9 9 gt 10802 1 2 CONTROL B K 8 9 R864 gt V Y R873 10k RN CP RN CP RN CP 47k RN CP 4 6 4 6 pu CHIP 846 I H V SYNC SEPARATOR CLAMP P GENERATOR 4 1 i A mum 2 6 0820 0826 Y CL P BUFFER 4 1 1 0824 X m 2SA1037K 1 3 2803326 5 4 2841037 AM 4 CLAMP OLY C CL P BUFFER CLAMP DLY CONTROL 1 8875 3 9 CONTROL R842 43 9 0 9 386 un 10802 2 2 4 5 Rm 45 2 0838 CHIP ANCP NJM4558M 5837 2 Y CLAMP PULSE 1 9 CLAMP DLY 25V R872 0 F CHIP R874 CONTROL R845 0827 8850 F HM I lt CLAMP PULSE 1 9 R876
94. 3392 5 2SC3545 T1T43T44 2SC3837KT146Q B E IMT2 T109 f IMX2 T109 7 2 IRFI9630GS LF IRFI9680GS 2SA1469 R 2SA1606 E 2SB1261 K 2SB1565EF 25 3746 25 4159 2SC4686A LBSONY 2SD2394 EF 52 2785 2SA1413 K LETTER SIDE 2SA120BS TP 2SC2362KG AA 2SA1221 T KLM 25 2958 2SC2688 L 2SC3840K LETTER SIDE E CB 7 27 25 4927 01 2SD1834 T101 On 2SK520K44K45 T1B G 5 D 2SK2209 01R F165 2SK2655 01R F165 2SK2766 01R F165 CL 155Y PG CD TL cathode D1NS4 TR2 CATHODE ANODE D5LC20U D5SC4M EGP10DPKG23 ERB91 02TP1 ERC91 02TP11 RGP15K 6179G23 cathode anode EGP10GPKG23 RD18ES T1B3 RD20ES T1B1 RD24ES T1B1 155119 25 0 GPO8DPKG23 RD24SB T1 RGP02 20EL 6394 CATHODE ANODE HSM83 TL RD6 8M T1B1 RD7 5M T1B2 RD22M T1B3 MA111 TX RD3 0SB T1 RD4 3SB3 T1 RD5 6SB T1 RD6 2SB T1 RD12SB T1 RD12SB2 T1 RD12SB3 T1 RD15SB T1 CATHODE SLR 325DCT31 SLR 325MCT31 ANODE CATHODE SLR 325VCT31 Wl CATHODE V19E T52 cathode anode SECTION 8 EXPLODED VIEWS NOTE lt Items with no part number no description are not stocked be cause they are seldom required for routine service The construction parts of an assembled part are indicated with a collation number in the remarks column lt Items marked are not stocked since they are seldom required for routine service
95. 474 12 5 2411 R302 SLOT VER 5246 1034 13 CHIP M 14 MC74HC30FEL SAMPLE PULSE GEN 4 5 SLOT RECEIVER 12 5 5 2 CURRENT LIMITER 434 T7 SNZ4HCOSANS SN7AHCOSANS 524 2 SLOT DRIVER SLOT DRIVER SLOT DRIVER RS422 NTERFACE 5 24 FLO CHARACTOR OUT D 5V 0403 EWI Y 806 25B PROTECTOR BC Board Waveforms 6 5Vp p 20MHz TAA 6 4Vp p 4 9152MHz 7 3Vp p 14 1875MHz 11 6Vp p 14 32MHz WWW 7 5Vp p 14 53MHz SVp p V AA 5 1Vp p H 9 5 V 7 4Vp p 10MHz BC Board IC Block Diagrams CAT28F020P 15 VOLTAGE sw ADDRESS X DECODER 3 LATCH Y DECODER DELETE VOLTAGE SWITCH 262 144BIT MEMORY ARRAY PROGRAM VOLTAGE ISTER SWITCH INIOUT BUFFER Y xz SUB CARRIER CONTROL H DECODER V DECODER GENERATOR CONTROL OUTPUT CONTROL RESET GENERATOR gt LATCH T DATA SELECT fe
96. 5 9 INSERT P 1 9 7 9 gt DC SHIFT TP305 R473 ifo CH LEVEL 9 9 BLACK SAMPLING P 1 9 2 9 4 9 5 9 6 9 7 9 WHITE SAMPLING P 179 4 9 5 9 6 9 7 9 2963545 CONT BRT CONTROL 0166 2802412 2541462 BRT BUFFER CONT BRT CONTROL 12V DRV CONT 5 9 5 10515 NJM1496M B DRIVE AMP 2541462 2503545 5V G DRIVE AMP DRIVE AMP 1C317 073 MC74HC4053FEL 6 DRIVE AMP D401 RD6 8M T181 16 G DRIVE 1 9 3 12 vec x 0 oss 13 NMH 8436 1 AS L4 6 onive 886 2 7 0381 net A VEE GND bi Eu 4 10208 i 0 7 5 li 1 5k b B 0 442 C392 a 5 a CHIP 10k RN CP 425 C422 0 01 12v 6 9 7i 2541462 2563545 B DRIVE AMP B DRIVE AMI 805 nhs 2503845 2 14 E agys P DRIVE 15 207 2 AJE DRIVE AMP 6 100 4 RN CP CHIP 22 D601 8M T B Ba Ve AMP 0574 G 8631 0 6 8633 61 R625 2 3k 1 5k RW CP 82 CHIP MC74HC4053FEL SWITCH
97. 5 Ci 434 WBINSERTP IC912 1 2 3 C 14 CHROMA 1 4 MONO C CLAMP PULSE 30802 0824 Y CLAMP PULSE 14 CLAMPPDLY Fs 1 CLP CONTROL Q820 Q801 S7 CLP 4 IC803 CONTROL IN IC80 1 804 ANALOG J IC800 3 3 2800 TP801 2 2 1 2 2 SYNC OUT 0802 8190 10804 BUFFER 5 2 800 2 3 SORS dier 11 Q828 829 Q822 823 O TP802 IC800 1 3 14 SYNC INTEXT SYNC SEP BUFFER 12 147 13 IC805 Q827 1 2 gt BUFFER IC AMP CEL C 14 PULSE SEL 0821 SYNC SEP SEL SYNC SEP SEL 14 SYNCSEP SEL SWITCH RGBSW TOE 1 13b 3 SIGNAL INPUT SELECT Lef 120a HS TO BC 1 20a 120b VS TO BC 1 206 SIGNAL PROCESSING BLOCK 2 4 10 5 10 5 2 4 BK 3 4 C3 2 14 SETUP 5 12 61001 ap TP503 9 542 544 24 B 1 4 TP504 Q568 510 2 3 BK 3 4 1C310 3 8 3 LYGCA GAIN CONT DC CONT Q376 Q377 379 G BUFFER G BRT 0374 IC 2 B CLAMP B SET UP B 100 IRE C 14 2 4 14 14 C 1 42 4 WHITE INSERT P TP103 Q142 144 R CLAMP RSETUP
98. Board BK BC HD YA YB YC HA HB HC TA TB Function Page R G B In Selector R G B Gain Control Y G B Y B R Y R Signal Processing R G B Drive Out Contrast Bright G2 Control Pulse Generator R G B Drive IK V Control System Control D A Converter Y C Clamp Pulse 11 2 Micro Computer Program ROM S Video RAM Character Gen Address Selector Parallel In Out Serial Controller RS485 RS232C Interface Signal Character Generator D A Converter Closed Caption Display Current Limitter Slot RECEIVER eaa arenae ee ec Ars 11 4 System Control EEP ROM H BLK V BLK Pulse Gen H V Sync Gen PWM Control HV Reg HV Out Switching Dynamic Focus ROT NTC LCC CY Out D A Converter 11 6 PFC Control Main Rect Converter Out PWM Control D 5V 6V 15V 120 HT 11 8 R G B Out BLK Out H STAT Out 11 10 Relay BVM 14G1 20G1 11 10 EU E E un 11 10 san Samay papu rre e ee Rer E 11 10 Indicator s ace 11 10 Rel y asus a genet et etu Eee tige 11 10 Function Control BVM 14G5 BKM 10R 11 11 Function Control BVM 14G5 BKM 10R 11 11 CPU Memory Card Driver RS422 Driver Card Address Decoder BVM 14G5 BKM 10R 11 12
99. C302 6 C912 F 6 0581 3 C303 6 0590 E 2 C304 C 6 0100 1 0600 D 3 C305 6 0101 1 0700 B 5 C306 B 5 0102 D 7 0701 C 5 C307 C 5 0103 B 1 Q702 E 5 C310 C 4 0104 B 1 Q705 G 4 C31 c 4 Q105 A 1 0706 G 4 C312 B 4 0106 B 2 Q800 E 1 C313 4 0107 C 2 0801 1 C314 C 4 0108 B 2 0802 F 2 C315 4 0140 6 0803 F 2 C316 C 4 0141 6 0804 F 2 C317 3 0142 5 0805 F 2 C318 3 0143 5 0806 F 2 C319 c 3 Q144 A 5 0807 F 6 C320 6 0164 A 3 0808 F 2 C321 B 2 0165 4 0809 2 322 2 0166 4 0810 G 2 C323 2 0167 A 4 0811 F 2 BK A SIDE C324 2 0168 4 0812 0 5 1 667 740 11 BC BC BC 1 668 433 11 D1 B 1 C35 F 6 D2 B 1 1 36 B 6 D3 B 1 1 37 D 6 D4 B 1 C51 7 D5 B 1 52 D 7 D6 B 7 C61 A 3 D7 B 7 1C62 B 3 D8 B 7 C63 B 2 D9 B 7 C104 B 4 D10 B 7 IC105 B 4 bis B 2 5 LAYS D12 B 1 1C107 B 5 251 D13 E 2 C108 A 5 144422224 D21 7 1 109 B 6 2422 D22 7 1 110 6 N D23 7 C111 5 3 162 D24 7 IC113 4 1624 2 29 A 7 C114 B 2 25 2208 D30 A 7 1 115 4 032 cA C3 01 D33 A 7 1 119 3 233 PJ aren D35 D 7 IC121 2 036 E 7 C122 3 D37 D 7 IC123 3 5 D38 E 7 1C124 6 D39 E 7 C125 F 5 D40 E 7 1 401 4 D41 E 7 D103 E 2
100. R181 216 653 11 METAL CHIP 12K 0 50 1 10W R182 216 067 00 RES CHIP 5 6K 5 249 216 669 11 METAL CHIP 5 6K 50 1 10W R183 216 025 91 5 100 5 R250 216 033 00 RES CHIP 220 5 R184 216 051 00 RES CHIP 12K 5 R251 216 695 METAL CHIP 68K 50 1 10W R185 216 073 00 RES CHIP 10K 5 R252 216 689 11 5 39K 5 R253 216 003 00 RES CHIP 68K 5 R186 216 073 00 5 10K 5 R187 216 679 11 METAL CHIP 15K 0 50 1 10W R254 216 055 00 RES CHIP 1 8K 5 R188 216 049 91 RES CHIP IK 5 R255 216 073 00 RES CHIP 10K 5 1 10W R189 216 025 91 5 100 5 R256 216 073 00 5 10K 5 R190 216 073 00 RES CHIP 10K 5 R257 219 743 11 CARBON 100 5 R258 216 699 11 METAL CHIP 100K 0 50 110 R191 216 675 11 METAL CHIP 10K 50 1 10W R192 216 687 11 METAL CHIP 33K 50 1 10W R259 216 073 00 5 10K 5 1 10W R193 216 679 11 METAL CHIP 15K 50 1107 R272 216 025 91 5 100 5 R194 216 025 91 5 100 5 R273 216 073 00 RES CHIP 10K 5 R195 216 653 11 METAL CHIP 1 2K 50 1107 R287 216 033 00 RES CHIP 220 5 1 10W R288 216 033 00 RES CHIP 220 5 1 10W R196 216 025 91 RES CHIP 100 5 1 10W R197 216 665 11 METAL CHIP 3 9K 50 1 10W R300 216 085 00 5 33K 5 1 10W R198 216 658 11 METAL CHIP 2K 50 1 10W R301 216 107 00 RES CHIP 270K 5 1 10W R1
101. SYNC connectors BNC S RGB signals component signals Y R Y B Y or composite sync signals can be fed in the IN connectors The type of signal applied to each connector is set with the INPUT CONFIGURATION menu The OUT connectors are used for loop through output of the input signal When not using loop through connect a 75 ohm terminator not supplied to the OUT connectors 16 For information about the INPUT CONFIGURATION menu see Setting the Input Configuration SET UP 1 INPUT CONFIGURATION Menu on page 32 Input option slot One optional decoder adaptor or input expansion adaptor can be installed into this option slot REMOTE 1 connectors female D sub 9 pin REMOTE 1 IN REMOTE 1 IN connector 9090 REMOTE 1 OUT connector These are RS 485 serial interface connectors used for connecting two or more BVM HDM series monitors The IN and OUT connectors form a loop through connection Connect two monitors using a cable with D sub 9 pin plugs such as an RCC 5G not supplied as shown in the figure on the next page LEL Monitor 1 Monitor 2 Cable with D sub 9 pin plugs not supplied Q REMOTE 2 connector female D sub 9 pin Forms a pararell switch and controls the monitor externally The pin assignment and factory setting unction assigned to each pin are given below 5 1 8 9 6 Pin number Function
102. Ze ES 20V RECT 507 6V D1 G MAIM w 3 B7 6V 1 7V RECT 036 DEGAUSS T COIL 1 z Q12 D5 IC201 PWM CTRL 11 0208 PEINT 6V SWITCH 3 A6 6V KICK Q203 204 0205 3 388 21 RY 3 CONVERTER 10 ACSWOUT 25 DC REF PFCT UR 27 ACSWOUT 24 D4 16V SWITCH 15V 1 24 Q5 PROT IND M B 5 iid ACSWIN 23 15V edo ACSWIN 27 MAIN POWER Q7 5 i RESET 1 12 20 Q206 LINE ees o 03 Ico 0 2 PROTECTOR ra 2802 FILTER PFC OFF Prc OVP IND 16804 AC IN Q101 103 Q104 Q105 106 Q107 110 IC801 2 4 5 OFF SWITCH M Q801 N i 2 1 2 D102 D105 5V OVP lt 7 3 NEUTRAL 11 a 15V 1G101 2 2 0109 0210 5 th F1 2 Pos 1 IC801 3 4 T4AH 250V 2 4 0305 GENENG AW re 1301 _ IC801 4 4 RLA DET 13 8 i g 0303 i 1 i 14 13 ti 6 5V i i5 TP301 TP302 IC31 PEC CONTROL 12 9 4 VPFC 12301 PWM CTRL a 3423 IC32 Q303 304 0305 3 823 HTO 1 2 3 22 HT Q32 i 3 B22 HT s gt GAN a 21 o OTP303 CONT e 4 3 A2 120V OTP304 3 82 120V 1 302 120V REG 3 1 2 TP305 4 3814 300 301 D300 Q PH802 1 4 SWITCH t caos 0812 0813 Q815 08064 X D807 ENCODER SWITCH PROTECT 0809 081 45
103. expressly approved in this manual could void your authority to operate this equipment The shielded interface cable recommended in this manual must be used with this equipment in order to comply with the limits for a digital device pursuant to Subpart B of Part 15 of FCC Rules For customers in Canada This Class A digital apparatus meets all requirements of the Canadian Interference Causing Equipment Regulations Pour les utilisateurs au Canada Cet appareil num rique de la classe A respecte toutes les exigences du R glement sur le mat riel brouilleur du Canada F r Kunden in Deutschland Dieses Produkt kann im kommerziellen und in begrenztem MaBe auch im industriellen Bereich eingesetzt werden Dies ist eine Einrichtung welche die Funk Entst rung nach Klasse B besitzt Voor de klanten in Nederland Bij dit produkt zijn batterijen geleverd Wanneer deze leeg zijn moet u ze niet weggooien maar inleveren als KCA Dit apparaat bevat een Li ion batterij voor memory back up De batterij voor memory back up is vastgesoldeerd op de BC printplaat BAT1 Raadpleeg uw leverancier over de verwijdering van de batterij op het moment dat u het apparaat bij einde levensduur afdankt Gooi de batterij niet weg maar lever hem in als KCA Note Be sure to use the supplied power cord for this monitor or this monitor may not conform with the FCC Rules or EEC Directive 89 336 EEC Remarque Utiliser le cordon d alimentation
104. o NH m 111 SIDE 1 667 738 12 r O E 8 15 C i f 11 13 TB TB gt o gt lt 2 ic 5 c o 5 gt E 8 2 A 3 o 600 Vp p Care must be paid to prevent an electric shock in inspection or repairing TB B SIDE 1 667 739 12 N TUTTI Bi E Hm IE 1 NGA TB A SIDE 1 667 739 12 11 14 11 14 11 2 SCHEMATIC DIAGRAMS Board FRAME 1 3 FRAME 2 3 FRAME 3 3 BK 1 9 BK 2 9 BK 3 9 BK 4 9 BK 5 9 BK 6 9 BK 7 9 BK 8 9 BK 9 9 BC 1 4 BC 2 4 BC 3 4 BC 4 4 E 1 4 E 2 4 E 3 4 E 4 4 C P YA YB YC HD G 1 2 G 2 2 HA HB HC TA TB Function Page FN e D OMM 11 17 ai 11 18 ay asya 11 19 Signal Selector R G B Gain Control 11 20 G Y Matrix Y PB PR Mix Signal Processor Blue Only SW ni treffen e ee ees 11 21 R G B Signal Processing R G B Drive 11 22 R Drive Out R Drive IK V Control 11 23
105. o 15V e 15V kj i 33 s GND 81010 6 GND EM A9 DU R En CHi SLOTA mz SLOTT Bie 2PRA2R 2 89 V SP ga GND 17 GND MO ABL OUT S MICRO CHAR BLK OHAR BLK CHAR BLK CHAR G2 CONTROL bid G2 CONTROL To tee el pem p CHAR G ae CHAR es PULSE AFC F CHAR B SES nod cmt CHAR R arc purse CHAR R NS i AFC PULSE PULSE 812 2HS Duc 10 H SYNC 20 HS A13 2 5 B20 V SYNC B20 VS NC22A ms 2H SYNC 2 5 21 2 8 No22B M NC22B ns 2V SYNC evs B21 814 NC23A z NC NC22A 22 NC22A NC23B Aij _ NC23B NC 2 22 NC24A Bi NC24A pem NC hz NC23A I I UOS Ad B23 NC 23 2 Bid H BLK nasa NC NC24A NC24A BLK2 M v BLK2 UTI S V BLK1 24 817 5V SENSE H BLK es H BLK RESET M RESET vez S V BLK2 825 v BLK2 Bi 27 Lo sv sense x NC D 5V SENSE j 5v SENSE VET Aj MISO B26 RESET RESET p26 RESET B SPL PULSE 1 s PULSE SPL PULSE 1 s PULSE DAE 420 DIGITAL 5V 82 miso MISO miso 82 DIGITAL 5V Mos MOS 28 421 DIGI TAL 5V Nc SCLK Scr SCLK 82 DIGI TAL 5V 129 DIGI TAL 5V 29 DIGI TAL 5V A2 DIGITAL
106. the data from the monitor memory card and automatically turn the monitor off and on again CANCEL To cancel press the MENU button gt Return to the MEMORY CARD menu C712 45 nue Ja deyo Monitor Memory Data Operations MEMORY CARD Menu Overview Operations on monitor memory card data are performed with the MEMORY CARD menu Structure of the MEMORY CARD Menu D Main Menu Level 1 Level 2 Level 3 NEW MEMORY CARD SAVE 51 FILE NAME LOAD D2 FILE NAME DELETE D3 FILE NAME Confirmation message L FORMAT 54 Confirmation message Setting Lists of the MENU CARD Menu This section explains the setting lists displayed in the menu How to read the setting lists For purposes of explanation each setting list is preceded by a menu number These numbers are not displayed on the screen For more information about the menu number see About menu numbers on page 19 The arrow mark gt refers you to another setting list that appears after you make the setting or to an operation that is carried out as a result of the setting When there is no arrow mark the menu does not have any sub list Dj MEMORY CARD menu Select MEMORY CARD from the menu list CONTROL PRESET ADJ COLOR TEMP ADJ SET
107. vertical sync signal The picture is shifted vertically and the vertical signal is displayed near the center of the screen Picture brightness is adjusted automatically for easy observation Press the button together with the horizontal delay button to display a pulse cross off the monitor switches automatically between T MENG SCOMB B Fek ADDRESS color and monochrome mode depending on the presence or absence of color burst signal BLUE SAFE 16 9 SYNC ONLY R G B F3 F4 MONO monochrome Turn the button on to display color pictures in monochrome When the button is ADDRESS Turn the button on to display the ADDRESS menu on the monitor screen You can use the ADDRESS menu to set operating parameters for monitor groups For details refer to the monitor s operation manual F1 and F2 These buttons are reserved for future use a aperture the button on to perform COMB comb filter Turn the comb filter on and off This function is available when an optional decoder adaptor such as a BKM 24N is installed correction of frequency characteristics Use the monitor menu to select the amount of correction This function is available when an optional decoder adaptor such as a BKM 24N is installed 3 E Location and Function of Parts Shift On functions orange LED coms F F2 ADDR
108. 0 18505 1 216 295 91 SHORT 0 18506 1 216 295 91 SHORT 0 18507 1 216 295 91 SHORT 0 18508 1 216 295 91 SHORT 0 lt COIL gt L50 1 408 595 31 INDUCTOR 2 2uH L502 1 408 595 31 INDUCTOR 22uH L503 1 408 595 31 INDUCTOR 2 2uH 9 18 C E REFNO DESCRIPTION REMARK REFNO PARTNO DESCRIPTION REMARK Q601 8 729 020 07 TRANSISTOR 2SC4686A LBSONY 1346 666 E COMPL 1461 1465 Q602 8 729 020 07 TRANSISTOR 2SC4686A LBSONY 592772075 0603 8 729 020 07 TRANSISTOR 2SC4686A LBSONY A 1346 667 A ECOMPL 20G1 8501 219 745 11 CARBON 470 5 X 4033 108 1 HEAT SINK ASSY DEF R502 219 745 11 CARBON 470 5 3 648 057 00 150 4 U R503 219 745 11 CARBON 470 5 4 050 794 01 INSULATOR R504 219 746 11 CARBON IK 5 12 4 050 814 01 SHIELD PWB R505 219 746 11 CARBON IK 5 12 4 053 101 01 SPACER DY CONNECTOR 8506 219 746 11 CARBON IK 5 12 4 381 905 01 SPRING D R507 219 696 11 METAL OXIDE 30M 5 IW 4 381 907 01 INSULATOR 8508 219 755 11 CARBON 10M 5 4 382 854 01 SCREW 3 8 P SW 8509 219 759 11 CARBON IM 5 7 322 065 19 RUBBER SILICON RTV KE490W 8510 219 743 11 CARBON 100 5 7 682 566 04 SCREW B 4X20 8511 219 743 11 CARBON 100 5 7 682 647 09 SCREW PS 3X6 8512 219 743 11 CARBON 100 5 8513 219 744 11 CARBON 220 5 CAPACITOR 8514 219 744 11 CARBON 220 5
109. 0 01MF 50V C356 126 392 11 ELECT CHIP 100MF 20 63V C178 163 031 11 CERAMIC CHIP 0 01MF 50V C357 126 392 11 ELECT CHIP 100MF 20 63V C179 163 031 11 CERAMIC CHIP 0 01MF 50V C360 163 031 11 CERAMIC CHIP 50V C361 163 031 11 CERAMIC CHIP 50V C180 163 031 11 CERAMIC CHIP 0 01MF 50V C362 163 249 1 CERAMIC CHIP 82PF 5 50V C181 164 232 11 CERAMIC CHIP 0 01 10 50V C182 163 809 11 CERAMIC CHIP 0 047 10 25V C363 163 091 00 CERAMIC CHIP 8PF 0 25 50V C183 163 033 91 CERAMIC CHIP 0 022MF 50V C374 164 222 11 CERAMIC CHIP 22 25V C187 163 031 11 CERAMIC CHIP 0 01MF 50V C375 164 700 CERAMIC CHIP 68MF 16V C376 164 505 11 CERAMIC CHIP 2 2MF 16V C188 163 038 11 CERAMIC CHIP 0 1 25V C377 163 031 11 CERAMIC CHIP 50V C189 163 031 11 CERAMIC CHIP 0 01MF 50V C190 164 222 11 CERAMIC CHIP 0 22 25V C378 163 075 00 CERAMIC CHIP 0 047MF 10 25 C191 163 251 11 CERAMIC CHIP 100PF 5 50V C379 163 075 00 CERAMIC CHIP 0 047MF 10 25 C192 164 232 11 CERAMIC CHIP 001 10 50V C380 164 336 11 CERAMIC CHIP 33MF 25V C381 163 031 11 CERAMIC CHIP 50V C193 163 035 00 CERAMIC CHIP 0 047MF 50V C382 104 823 11 TANTAL CHIP 47MF 20 16V C194 107 364 11 MYLAR 0 01 10 200V C195 164 505 11 CERAMIC CHIP 22 16V C383 164 005 11 CERAMIC CHIP 47 25V C196 107 943 11 ELECT 10 20 160 C384 164 505 11 CERAMIC CHIP 2 2MF 16V C197 163 031 11 CERAMIC CHIP 0 01MF 50V C3
110. 00 RES CHIP OK 5 NOW R112 1 216 675 11 METAL CHIP OK 0 50 110 R263 1 249 415 11 CARBO 68 5 4W F R113 1 216 081 00 RES CHIP 22K 5 NOW R264 1 249 415 11 CARBO 68 5 4W F 1 216 049 91 5 K 5 NOW R265 1 249 415 11 CARBO 68 5 4W F 115 1 216 049 91 5 5 NOW R266 1 249 415 11 CARBO 68 5 4W F R200 1 216 073 00 RES CHIP OK 5 R290 1 216 073 00 RES CHIP OK 5 NOW R201 1 216 073 00 RES CHIP OK 5 NOW R291 1 216 073 00 RES CHIP OK 5 NOW R202 1 216 017 00 5 47 5 NOW R301 1 216 073 00 RES CHIP OK 5 NOW R203 1 216 041 00 RES CHIP 470 5 NOW R302 1 216 029 00 RES CHIP 50 5 NOW R204 1 216 073 00 RES CHIP OK 5 R303 1 216 041 00 RES CHIP 470 5 NOW R206 1 216 073 00 RES CHIP OK 5 NOW R304 1 216 073 00 RES CHIP OK 5 NOW R207 1 216 057 00 RES CHIP 2 2K 5 R306 1 216 073 00 RES CHIP OK 5 NOW R208 1 216 669 11 METAL CHIP 5 6K 0 50 110 R307 1 216 057 00 22K 5 NOW R209 1 216 677 11 METAL CHIP 2K 0 50 1 10W R308 1 216 669 11 METAL CHIP 5 6K 0 50 1 10W R210 1 216 073 00 RES CHIP OK 5 NOW R309 1 216 677 11 METAL CHIP 2K 0 50 1 10W R211 1 216 683 11 METAL CHIP 22K 0 50 1 10W R310 1 216 073 00 RES CHIP OK 5 NOW R212 1 216 033 00 RES CHIP 220 5 NOW R311 1 216 683 11 METAL CHIP 22K 0 50 110 R213 1 216 073 00 RES CHIP OK 5 R312 1 216 033 00 RES CHIP 220 5 NOW R214 1 216 033 00 RES CHIP 220 5 NOW R313 1 216 073 00 RES CHIP OK 5 NOW R215 1 216 073 00 RES
111. 01 F 6 D104 E Q2 F 6 D105 E 2 03 E 5 D106 E 04 D 6 D107 E Q5 D 5 D108 E 2 Q6 D 6 D109 E Q7 D 6 D111 F 2 Q8 A 2 D112 F 2 Q9 7 D113 F 2 010 E 5 D114 B 2 Q51 B 5 3 D115 c 052 B 5 5 0401 4 0103 3 C D402 A 4 Q104 C 4 D403 G 0106 2 5 550 F 7 0107 B 2 lt D551 F 6 Q108 B 2 a m D552 0109 B 6 05 52 X D553 F 6 0110 E 2 il D554 F 7 0111 E D555 F 6 0112 E D556 F 7 0113 E D557 F 6 0114 E 2 D558 F 7 Q115 E D559 F 6 Q116 D 4 D560 F 7 Q151 E 6 D561 F 6 0152 E 0401 4 F 4 Q402 4 C2 E 3 Q403 A 4 4 C4 D 4 RV101 A 6 C5 D 2 C6 E 5 TPI A F 5 TP3 G C8 F 5 TP5 6 c9 D 4 TP6 6 10 F 5 TPT G 6 c11 F 5 TP8 G 6 c12 G 5 TP9 6 13 F 5 TP10 6 C14 6 TP11 D 1 C15 G 4 TP12 G 6 C16 G 5 TP13 5 C17 G 5 C19 3 i B SIDE MOUNT 20 G 3 C21 F 3 C22 B 2 C23 2 24 2 C25 A 2 C26 A 2 C27 F 2 C28 F 2 C29 E 1 C30 F 2 C31 F 2 C32 E 6 C33 E 6 _ e BC a SIDE 1 668 433 11 gt Sc m SSS E 1 667 742 11 D031 7 0091 2 D061 6 4 0111 E 5 D062 F 4 Q112 E 2 D101 D 4 0121 F 4 D102 D 4 0122 F 4 0103 D 4 0131 C 2 0111 E 5 0132 C 2 D112 E 2 0133 C 2 D113 E 2 0151 F 2 D121 F 2 0152 F 2 D122 F 5 0155 G
112. 037 31 SWITCH KEY BOARD 1 DS 8 719 158 19 DIODE RD62SB 109 692 037 31 SWITCH KEY BOARD F2 F4 S110 692 037 31 SWITCH KEY BOARD ADDRESS SAFE AREA D6 8 719 158 19 DIODE RD62SB D7 8 719 158 19 DIODE RD62SB A 1375 155 A HC COMPLETE PWB 1405 10 lt IC gt SRO kk AR kakak kakak RRR RR 8 759 467 21 HD6473258P10 EG2 0 1 540 044 11 SOCKET IC ISC1 IC2 8 759 991 19 IC PSTS29CMT 7 628 253 35 SCREW PS 2X8 IC3 8 759 186 47 IC TC74VHC138F 7 688 001 01 W 2 SMALL IC4 8 759 186 63 IC TC74VHC245F IC5 8 759 186 77 IC 74 541 lt CAPACITOR gt 1 6 8 759 186 77 IC 74 541 Cl 163 227 11 CERAMIC CHIP 10PF 0 5 50V IC7 8 759 175 27 IC TC74VHCS74F 163 227 11 CERAMIC CHIP 10PF 0 5 50V IC8 8 759 186 63 IC TC74VHC245F C4 163 031 11 CERAMIC CHIP 0 01MF 50V 1 9 8 759 186 30 ICTC74VHCMF 50 163 031 11 CERAMIC CHIP 0 01MF 50V IC10 8 759 186 30 IC 74 14 C52 163 031 11 CERAMIC CHIP 0 01MF 50V 8 759 175 27 IC TC74VHCS74F C53 163 031 11 CERAMIC CHIP 0 01MF 50V IC12 8 759 174 16 IC TC74VHC244F C54 163 031 11 CERAMIC CHIP 0 01MF 50V IC13 8 759 289 43 IC LTC490CS8 C55 163 031 11 CERAMIC CHIP 0 01MF 50V 4 8 759 186 26 IC TC74VHC02F C56 163 031 11 CERAMIC CHIP 0 01MF 50V 6 1 810 899 11 877 5 C57 163 031 11 CERAMIC CHIP 0 01MF 50V IC21 8 759 186 44 IC TC74VHC125F C58 163 031 11 CERAMIC CHIP 0 01MF 50V 9 33 HC HD
113. 061 96 DIODE SLR 325DCT31 CN20 564 506 11 PLUG CONNECTOR 3P D202 8 719 053 43 DIODE SLR 325VCT31 D203 8 719 060 27 DIODE SLR 325MCT31 SRA A SRR RRR 9 35 YB REF NO PARTNO DESCRIPTION REMARK REF NO PART NO DESCRIPTION REMARK CN301 CN302 JR301 JR302 JR303 JR304 1373 636 MOUNT 1401 kakak kk ak akak ak kakak 1373 643 MOUNT 1465 2061 CONNECTOR 1 506 487 1 1 774 533 1 PIN CONNECTOR 8P SOCKET SMALL TYPE DIN 8P lt CHIP CONDUCTOR gt 1 216 295 9 1 216 295 9 1 216 295 9 1 216 295 9 SHORT SHORT SHORT SHORT gt c OR RR k k k k V901 V901 V901 V901 V901 A A A A A A A A A A A A A MISCELLANEOUS RRR 1 452 032 00 MAGNET DISC 10MM 1 452 094 00 MAGNET ROTA TABLE DISK 15MM 1 500 249 11 BEAD FERRITE CASE 14G1 14G5 1 500 278 11 FILTER CLAMP FERRITE CORE 20G1 1 543 653 11 CORE ASSY BEAD DIVISION TYPE 20G1 4 051 735 22 PIECE A 75 CONV CORRECT 4 051 736 21 PIECE A 90 CONV CORRECT 2061 1 411 657 11 COIL LANDING CORRECTION 20G1 1 411 658 21 LANDING CORRECTION 14G1 14G5 1 411 659 21 COIL DEMAGNETIC 20G1 1 411 660 2 1 452 436 4 8 451 470 13 8 451 473 1 8 453 003 1 COIL DEMAGNETIC 1461 1465 NECK ASSY CRT
114. 0800 pneus Qi 10 V SYNC eet a 14 Q2 11 10 1 122 4 6 12 SELECT SYNC SEP 1443 ROS _ OPEN 0116 12 SYNC ON OFF 525 526 IC113 IC115 2 3 1 117 1 4 2 4 12 NTSGEN IC61 1 2 1062 5152 CLOSED CAPTION 4 3 11 10 CHAR BLANK P GHARR Q151 152 1 2 CHARR 21215 27 140172 CHAR G BUFFER 8 CHAR G 8 3 CHARB ale ld OPEN YIN 740 CHARB D113 5V 1125 CC 1 6 3 6 5 6 0114 CC RESET 12 BLK DISP 5 12 EXTINTSGE COE 12 SADDISP 7418 7 42 HSIN 21150109 7 M8 5251526 FROMBK INT SG 80 NC IN OUT EXPANDER SYNC GNERATOR 10 9 10 9 1 2 1 2
115. 1 10 Adjust the H KEY BAL H KEY H PIN BAL and H PIN data so that there is no side trapezoid distortion and PIN distortion as shown in Fig 1 11 Adjust the H U COR PIN and H L COR PIN data as shown in Fig 1 12 Check the H CENTER BOW and H MID PIN is very bad should it be adjusted Repeat the above adjustment to optimize the horizontal and vertical linearity Adjust in the same way in the following modes 4 3 UNDER SCAN mode 16 0 NORMAL SCAN mode 169 UNDER SCAN mode Common adjusting items for modes H CENT H PHASE H LIN BALANCE H LIN AMP H SEZE ROTATION ROTATION 2 1 4 3 NORM 16 9 NORM Copy the data 4 3 16 9 UNDR 2 3 Adjusting items differing between modes V SIZE H PIN BAL H PIN H KEY BAL H KEY V LIN BALANCE V LIN AMP 4 H KEY 1 BAL 5 1 LET Fig 1 12 H PIN BAL 3 7 Convergence Adjustment Preparation Set the SCREEN MODE to 4 3 NORM at the INPUT CONFIGURATION menu Input the cross hatch signal Check that the H STATIC CONV data is the center value 128 Note The H STATIC CONV adjustment menu is under the E BOARD menu of the MAINTENANCE menu For the 14 inch model set the 4 pole magnet of the DY to the OFFSET state See Fig 1 2 For the 20 inch model set the 6 pole magnet of the DY to the OFFSET state See Fig 1 2
116. 1 9 GND 16a 2PR 2R 160 2PR72R 1 9 GND 17a 2 CHAR BLK m CHAR BLK 17b 2 9 CHAR G 18a CHAR G 3 9 CHAR B 18b CHAR B 3 9 CHAR R 19a CHAR R 3 9 AFC PULSE 19b AW lt AFC PULSE 7 9 Rit 100 CHIP 24 8926 HS 2041 4 HS 8 9 fd 5 509 BIAS 1 4 9 G BIAS 1 5 9 vs 205 VS 8 9 id E NT RoG RDB 258 06 2 215 gt PROTECTOR PROTECTOR NC 22a NC 22b NC 23a mM T R DRIVE 1K 4 9 gt G DRIVE IK 5 9 100k us 358 E CHIP H PULSE 24 AN 814 100 CHIP lt H PULSE 7 9 JR903 R DRIVE 4 9 gt G DRIVE V 5 9 V BLKI 24b 12 100 CHIP XV BLK1 1 9 7 9 H BLK 25a AW 813 100 CHIP lt H BLK 7 9 8 9 I 014 V BLK2 25b RD6 258 45V SENSE 26a PROTECTOR CUTOFF4 9 RESET 26b S PULSE 27a lt S PULSE 7 9 MISO 27b MOS 28a 10906 10911 abu x SCLK 28b MB88346BPFV EF MB88346BPFV EF gt ang EN D A CONVERTER D A CONVERTER PS i o DIGITAL 295 Jr D 5V lt CHROMA 1 9 5 DIGITAL GND 30a T I 1 1 1 T 1 2 I I T T T 9 DIGITAL GND 305 E 1 2 0902 C905 0910 0914 C927 0929 0907 C908 0909 0911 0915 0917 0921 0926 0924 0925 B DRIVE 1 6 9 0 01 0 01 0 01 0 01 47 47 0 01 0 01 0 01 0 01 0 01 0 01 0 01 0 01 47 47 2 CH SLOTS 31a F CHIPF CHIP F CHIPF CHIP F CHIPF CHIPF CHIPF CHIPF CHIPF CHIPF CHIPF CHIP Hu HH 6 9 INTERNAL SIG 1318 BUDRINESV GND 32a GND 32b m 7 9
117. 11 CERAMIC CHIP 0 01MF 50V C377 1 164 505 11 CERAMIC CHIP 22 16V C378 1 163 031 11 CERAMIC CHIP 0 01MF 50V C309 1 163 031 11 CERAMIC CHIP 0 01MF 50V C379 1 163 031 11 CERAMIC CHIP 0 01MF 50V C310 1 163 031 11 CERAMIC CHIP 0 01MF 50V Cal 1 163 031 11 CERAMIC CHIP 0 01MF 50V C380 1 163 031 11 CERAMIC CHIP 0 01MF 50V C312 1 163 031 11 CERAMIC CHIP 0 01MF 50V C381 1 163 031 11 CERAMIC CHIP 0 01MF 50V C313 1 163 031 11 CERAMIC CHIP 0 01MF 50V C382 1 163 031 11 CERAMIC CHIP 0 01MF 50V C391 1 163 031 11 CERAMIC CHIP 0 01MF 50V C314 1 163 031 11 CERAMIC CHIP 0 01MF 50V C392 1 163 031 11 CERAMIC CHIP 0 01MF 50V C315 1 163 031 11 CERAMIC CHIP 0 01MF 50V C316 1 163 031 11 CERAMIC CHIP 0 01MF 50V C393 1 163 031 11 CERAMIC CHIP 0 01MF 50V C317 1 163 031 11 CERAMIC CHIP 0 01MF 50V C394 1 163 031 11 CERAMIC CHIP 0 01MF 50V C318 1 163 031 11 CERAMIC CHIP 0 01MF 50V C401 1 163 251 11 CERAMIC CHIP 100PF 5 50 C402 1 163 251 11 CERAMIC CHIP 100PF 5 50 C319 1 163 031 11 CERAMIC CHIP 0 01MF 50V C403 1 126 394 11 ELECT CHIP 10 20 16 C320 1 163 031 11 CERAMIC CHIP 0 01MF 50V C321 1 163 031 11 CERAMIC CHIP 0 01MF 50V C404 1 126 390 11 ELECT CHIP 22MF 20 63V C322 1 163 031 11 CERAMIC CHIP 0 01MF 50V C405 1 163 031 11 CERAMIC CHIP 0 01MF 50V C323 1 163 031 11 CERAMIC CHIP 0 01MF 50V C406 1 163 031 11 CERAMIC CHIP 0 01MF 50V C407 1 163 031 11 CERAMIC CHIP 0 01MF 50V C324 1 163 031 11 CERAMIC CHIP 0 01MF 50V C551 1 163 031 11 CERAMIC CHIP 0 01MF 50V C325 1 163 031
118. 11 PIN POST C160 1 163 031 11 CERAMIC CHIP 0 01 50V CRYSTAL 161 1 163 031 11 CERAMIC CHIP 0 01MF 50V C162 1 163 249 11 CERAMIC CHIP 82PF 5 50V 1 767 892 21 VIBRATOR CRYSTAL 20MHz C163 1 163 091 00 CERAMIC CHIP 8PF 0 25PF 50V 2 1 760 464 11 VIBRATOR CRYSTAL 4 9152MHz C164 1 163 031 11 CERAMIC CHIP 0 01 50V X101 1 767 655 21 VIBRATOR CRYSTAL 14 31818MHz X102 1 767 891 21 VIBRATOR CRYSTAL 14 1875MHz C165 1 164 222 11 CERAMIC CHIP 0 22MF 25V X103 1 760 429 11 VIBRATOR CRYSTAL 14 5MHz C166 1 164 700 11 CERAMIC CHIP 0 68MF 16V C167 1 164 505 11 CERAMIC CHIP 2 2MF 16V C169 1 163 075 00 CERAMIC CHIP 0 047MF 10 25V 9 6 REFNO DESCRIPTION REMARK REFNO PARTNO DESCRIPTION REMARK C170 164 336 11 CERAMIC CHIP 0 33MF 25V C350 163 031 11 CERAMIC CHIP 0 01MF 50V 163 031 11 CERAMIC CHIP 0 01MF 50V C172 104 823 11 TANTAL CHIP 47MF 20 16V C351 163 031 11 CERAMIC CHIP 50V C173 164 005 11 CERAMIC CHIP 0 47MF 25V C352 163 809 11 CERAMIC CHIP 047 10 25 C174 164 505 11 CERAMIC CHIP 22MF 16V C353 164 232 1 CERAMIC CHIP 10 50V C354 163 031 11 CERAMIC CHIP 50V C175 164 505 11 CERAMIC CHIP 22 16V C355 163 031 11 CERAMIC CHIP 50V C176 163 809 11 CERAMIC CHIP 0 047 10 25 C177 163 031 11 CERAMIC CHIP
119. 1146 R071 216 669 11 METAL CHIP 5 6K 0 50 1108 0815 8 729 027 38 TRANSISTOR 144 1146 R072 216 675 11 METAL CHIP 10K 0 50 110 R074 216 662 11 METAL CHIP 3K 0 50 1 10W 20G1 lt RESISTOR gt R074 216 663 11 METAL CHIP 33K 0 50 1 10W 14G1 14G5 R001 216 673 11 METAL CHIP 82K 0 50 1 10W R075 216 083 00 RES CHIP 27K 5 NOW R002 216 073 00 RES CHIP 10K 5 8003 216 073 00 RES CHIP 10K 5 1109 R076 216 073 00 RES CHIP 10K 5 NOW R004 216 133 00 RES CHIP 33M 5 R077 216 073 00 RES CHIP 10K 5 NOW R005 216 025 91 RES CHIP 100 5 In0W R078 216 083 00 RES CHIP 27K 5 109 R079 216 069 00 RES CHIP 68K 5 NOW R006 216 025 91 RES CHIP 100 5 NOW R080 216 685 11 METAL CHIP 27 0 50 110 R007 216 093 00 RES CHIP 68K 5 110 R008 216 689 11 RES CHIP 39K 5 110 R081 216 049 91 RES CHIP 1K 5 NOW R009 216 057 00 RES CHIP 22K 50 R082 216 073 00 RES CHIP 10K 5 In0W R010 216 025 91 RES CHIP 100 5 NOW R083 249 413 11 CARBON 470 5 W OF R084 216 113 00 RES CHIP 470K 5 NOW R011 216 065 91 RES CHIP 47K 5 R086 216 675 11 METAL CHIP 10K 0 50 1 10W R012 216 025 91 RES CHIP 100 5 NOW R013 216 095 00 RES CHIP 82K 5 109 R087 216 675 11 METAL CHIP 10K 0 50 110 R014 216 103 00 RES CHIP 180K 59 R088 216 675 11 METAL CHIP 10K 0 50 110 R016 216 085 00 RES CHIP 33K 5 110 R089 216 675 11 METAL CHIP 10K 0 50 1 10W R091 216 073 00 RES CHIP 10K 5 NOW R017 216 059 00 RES CHIP MK 5
120. 12K 5 9 15 BK REFNO PARTNO DESCRIPTION REMARK REFNO PART NO DESCRIPTION REMARK 8589 1 216 073 00 RES CHIP OK 5 R655 1 216 695 11 METAL CHIP 68K 0 50 1 10W R590 1 216 073 00 RES CHIP OK 5 R656 1 216 689 11 5 39K 5 NOW R591 1 216 679 11 METAL CHIP 5K 0 50 1 10W R657 1 216 093 00 RES CHIP 68K 5 NOW R658 1 216 055 00 RES CHIP SK 5 NOW R592 1 216 049 91 5 K 5 NOW R659 1 216 073 00 RES CHIP OK 5 NOW R593 1 216 025 91 RES CHIP 00 5 NOW 8594 1 216 073 00 RES CHIP OK 5 R660 1 216 073 00 RES CHIP OK 5 NOW R595 1 216 675 11 METAL CHIP 0K 50 1 10W R661 1 219 743 11 CARBON 00 5 NW R596 1 216 687 11 METAL CHIP 33K 50 1 10W R662 1 216 699 11 METAL CHIP 00K 0 50 1 10W R663 1 216 073 00 RES CHIP OK 5 NOW R597 1 216 679 11 METAL CHIP 5K 50 1 10W R672 1 216 025 91 RES CHIP 00 5 NOW R598 1 216 025 91 RES CHIP 00 5 NOW R599 1 216 653 11 METAL CHIP 2K 50 1 10W R673 1 216 073 00 RES CHIP OK 5 NOW R600 1 216 025 91 RES CHIP 00 5 NOW R674 1 216 033 00 RES CHIP 220 5 NOW R601 1 216 665 11 METAL CHIP 3 9K 50 1 10W R680 1 218 764 11 METAL CHIP 330K 0 50 110 R681 1 216 121 91 RES CHIP M 5 NOW R602 1 216 658 11 METAL CHIP 2K 50 1 10 R682 1 216 665 11 METAL CHIP 3 9K 0 50 1 10W R603 1 216 661 11 METAL CHIP 2 7K 50 1 10W R605 1 216 073 00 RES CHIP 10K 5 R683 1 216 04
121. 14 5 14 5 105W When an optional adaptor is installed 120 W Power requirements BVM 20G1U AC100 120 V 1 6 A 50 60 Hz 2001 20 1 AC 100 120 220 240 V 1 6 0 7 A 50 60 Hz BVM 14GIU GSU AC 100 120 V 1 3 A 50 60 Hz BVM 14GIE 14G1A 14G5E 14G5A AC 100 120 220 240 V 1 3 0 6 A 50 60 Hz Input output connectors BNC type x 3 with loop through outputs Video input R G B 1 Vp p 6 dB positive high impedance 1 Vp p 6 dB positive high impedance R Y B Y 0 7 Vp p 6 dB positive high impedance Sync input BNC type x 1 with loop through output Composite sync 0 3 to 8 Vp p negative high impedance Return loss More than 46 dB 6 MHz with 75 ohm termination Remote control OPTION Mini DIN 8 pin x 1 CONTROL UNIT D sub 9 pin x 1 REMOTE 1 D sub 9 pin x 1 with loop through output RS 485 serial interface REMOTE 2 D sub 9 pin x 1 ISR D sub 9 pin x 1 Video signal Differential gain Less than 5 for luminance from 0 to 100 cd m Differential phase Less than 5 for luminance from 0 to 100 cd m Frequency response 50 Hz to 7 MHz 1 dB 3 dB Back porch type Black level fluctuation less than 1 for 10 96 to 90 APL input signal variation DC restoration Synchronization AFC time constant 2ms Line pull range line hold range Greater than 500 Hz Vertical blanking time Less than 1 ms Horizontal blanking time Less than 10 us
122. 163 031 11 CERAMIC CHIP 50V R907 216 061 00 RES CHIP 33K 5 1 10W C304 1 163 031 11 CERAMIC CHIP 01 MF 50V C305 1 163 031 11 CERAMIC CHIP 01MF 50V lt RELAY gt C306 1 163 031 11 CERAMIC CHIP 01 50V 1 515 738 1 RELAY C307 1 163 031 11 CERAMIC CHIP 50V RY901 A 1 515 738 11 RELAY C308 1 163 031 11 CERAMIC CHIP 50V SWITCH CONNECTOR S901 1 762 300 11 SWITCH AC POWER SEESAW CN201 1 564 005 11 CONNECTOR 6P CN202 1 564 009 11 CONNECTOR 10 TRANSFORMER lt DIODE gt 1 424 461 11 TRANSFORMER LINE FILTER T2 A 1 424 461 11 TRANSFORMER LINE FILTER D201 8 719 404 49 DIODE T3 1 429 283 11 TRANSFORMER CONVERTER PFT D202 8 719 404 49 DIODE T201 1 431 703 11 TRANSFORMER CONVERTER D203 8 719 404 49 DIODE T301 1 431 704 11 TRANSFORMER CONVERTER D204 8 719 404 49 DIODE D205 8 719 404 49 DIODE lt THERMISTOR gt D206 8 719 404 49 DIODE A 1 808 059 31 THERMISTOR POSITIVE D207 8 719 404 49 DIODE D208 8 719 404 49 DIODE lt TEST PIN gt D209 8 719 404 49 DIODE D210 8 719 404 49 DIODE TP31 1 537 864 11 POST TP32 1 537 864 11 PIN POST D211 8 719 404 49 DIODE TP33 1 537 864 11 POST D212 8 719 404 49 DIODE TP201 1 537 864 11 POST D213 8 719 404 49 DIODE TP202 1 537 864 11 POST D214 8 719 404 49 DIODE D215 8 719 404 49 DIODE TP2
123. 2 14 W amp DP 1 4 9 1 4 COT GB SEL 701 1 3 2 3 1 4 gt C 14 R SEL 1C700 2 2 10 6 10 6 1 4 VIDEO COMP PULSE INSERT SIGNAL PROCESS BK BLOCK 3 4 4 4 BK 4 4 0400 TP305 1C317 3 3 TP306 34 DG G BUFFER Sa h gH G DRIVE KG 37 V901 AMP PICTURE TUBE 5V n 210328 2 2 14 GCUTOFF 24 Q390 1 4 G DRIVE V SP ICS23 2 702 3 9V 1716323 IC322 16324 16323 E EN 2r 115 IC324 2 3 10322 pee
124. 2 2 H5 3 2 2 5 IC128 1 2 10 12 1 IC129 2 2 3 5V 14 6 7 112122 s 3 2 2 Ti 5 5 5 9 IC124 1 3 126 2 3 126 1 3 12126 3 3 16121 1 121 1 2 13 14 CRORNECOMP 18 21 r i hs e22 iae C14 RBIAS IK 2 s gt 3 11 9 10 C 14 DRIVE SAMPLING 5 1 SW 1 4 VIDEO TIMING P IBIAS SAMPLING P 142434 WHITE SAMPLING P 1 4 2 4 3 4 BLACK SAMPLING P 1 42 43 4 BIAS amp DRIVE P BIAS CLAMP P Q700 702 1 705 1 2 an 4 G2 CONTROL G2 CONTROL 11 10 1C705 2 2 6 5 gt 10 7 10 7 RGB DRIVE OUT RGB DRIVE IK V CONTROL BK BLOCK 4 4 1 4 G2 REF
125. 216 025 91 5 0 5 2061 R852 1 216 025 91 5 0 5 R718 1 249 411 11 CARBON 330 5 14W F R853 1 216 025 91 5 0 5 2061 R719 1 249 395 11 CARBON 5 5 14W F R854 1 216 025 91 5 0 5 2061 R855 1 216 097 91 5 00K 5 R721 1 216 073 00 RES CHIP 0K 5 10W 20G1 R856 1 216 041 00 RES CHIP 47 5 R857 1 216 097 91 5 00K 5 R72 1 216 073 00 5 0K 5 10W 20G1 R858 1 216 041 00 RES CHIP 47 5 R724 1 216 043 91 5 560 5 10W 20G1 R725 1 216 057 00 5 2 2K 5 10W 20G1 R859 1 216 097 91 5 00K 5 726 1 216 001 00 RES CHIP 0 5 10W 20G1 R860 1 216 041 00 RES CHIP 47 5 R727 1 215 869 11 METAL OXIDE K 5 W F R861 1 216 097 91 5 00K 5 2061 R862 1 216 049 91 RES CHIP K 5 R863 1 216 049 91 5 K 5 R728 1 249 377 11 CARBON 0 47 5 14W F 20G1 R864 1 216 041 00 RES CHIP 47 5 R729 1 249 377 11 CARBON 0 47 5 14W F R865 1 216 041 00 RES CHIP 47 5 2061 R866 1 216 041 00 RES CHIP 47 5 R731 1 249 377 11 CARBON 0 47 5 14W F R867 1 216 041 00 RES CHIP 4 5 2061 R868 1 216 025 91 5 10 5 R732 1 215 877 11 METAL OXIDE 22K 5 W F 20G1 R869 1 216 025 91 5 10 5 R733 1 216 349 00 METAL OXIDE 1 5 W F R870 1 216 025 91 5 10 5 20G1 R871
126. 216 057 00 RES CHIP 2 2K 5 R307 1 208 610 11 METAL OXIDE 2M 5 W R205 1 216 073 00 RES CHIP OK 5 R308 1 216 035 00 RES CHIP 270 5 NOW R206 1 216 073 00 RES CHIP OK 5 R309 1 216 069 00 RES CHIP 6 8K 5 NOW R310 1 249 377 11 CARBON 0 47 5 4W F R207 1 216 693 11 METAL CHIP 56K 0 50 110 R311 1 249 377 11 CARBON 0 47 5 MW F R208 1 216 073 00 RES CHIP OK 5 209 1 216 073 00 RES CHIP 0K 5 R312 1 249 401 11 CARBON 47 5 4W F R210 1 216 109 00 RES CHIP 330K 5 R313 1 216 025 91 5 00 5 NOW R211 1 216 025 91 5 00 5 NOW R221 1 216 085 00 RES CHIP 33K 5 NOW R32 1 208 610 11 METAL OXIDE 2M 5 W R221 1 216 073 00 RES CHIP OK 5 R323 1 208 612 11 METAL OXIDE 0M 5 W R222 1 216 073 00 RES CHIP OK 5 R223 1 216 073 00 RES CHIP OK 5 NOW R324 1 202 830 00 SOLID OK 20 R224 1 216 073 00 RES CHIP OK 5 R331 1 216 073 00 RES CHIP OK 5 NOW R225 1 216 073 00 RES CHIP OK 5 R332 1 216 089 91 5 47K 5 NOW R333 1 216 073 00 RES CHIP OK 5 NOW R226 1 216 073 00 RES CHIP OK 5 R334 1 216 073 00 RES CHIP OK 5 NOW R227 1 216 073 00 RES CHIP OK 5 R228 1 216 073 00 RES CHIP OK 5 R335 1 216 085 00 RES CHIP 33K 5 NOW R229 1 216 097 91 RES CHIP 00K 5 R336 1 216 085 00 RES CHIP 33K 5 NOW R230 1 216 025 91 5 00 5 NOW R337 1 216 073 00 RES CHIP OK 5 NOW R338 1 216 089 91 RES CHIP 47K 5 NOW R231 1 216 07
127. 216 065 91 RES CHIP 4 7K 5 NOW R649 1 216 033 00 RES CHIP 220 5 NOW R732 1 216 065 91 5 4 7K 5 NOW R733 1 216 295 91 SHORT 0 R650 1 216 669 11 METAL CHIP 5 6K 50 1 10W R735 1 216 033 00 RES CHIP 220 5 NOW R651 1 216 669 11 METAL CHIP 5 6K 50 1 10W R652 1 214 903 31 METAL 39K 1 NW R736 1 216 033 00 RES CHIP 220 5 NOW R653 1 216 669 11 METAL CHIP 5 6K 50 1 10W R741 1 216 073 00 RES CHIP 10K 5 NOW R654 1 216 033 00 RES CHIP 220 5 NOW R800 1 216 025 91 5 100 5 NOW R801 1 216 063 91 5 3 9K 5 NOW 9 16 BK REFNO PARTNO DESCRIPTION REMARK REFNO PARTNO DESCRIPTION REMARK R802 216 085 00 RES CHIP 33K 5 R860 216 065 91 5 4 7K 5 1 10W R861 216 667 11 METAL CHIP 4 7K 0 50 1 10W R803 216 049 91 5 IK 5 R862 216 699 11 METAL CHIP 100K 0 50 110 R804 216 063 91 5 3 9K 5 R805 216 091 00 RES CHIP 56K 5 R863 216 674 11 METAL CHIP 9 1K 0 50 1 10W R806 216 049 91 RES CHIP IK 5 R864 216 675 11 METAL CHIP 10K 0 50 1 10W R807 216 079 00 5 18K 5 R865 216 649 11 METAL CHIP 820 0 50 1 10W R866 216 057 00 RES CHIP 2 2K 5 R808 216 049 91 RES CHIP IK 5 R867 216 025 91 5 100 5 1 10W R809 216 049 91 RES CHIP IK 5 R810 216 045 00 RES CHIP 680 5 R868 216 049 91 5
128. 25 3746 R23 249 437 11 CARBON 47K 5 R31 219 728 11 METAL 0 22 10 SW Q208 8 729 112 61 TRANSISTOR 2SA1441 L R33 216 653 11 METAL CHIP 1 2K 0 50 1 10W Q209 8 729 900 53 TRANSISTOR DTC114EK Q210 8 729 112 61 TRANSISTOR 2SA1441 L R34 216 672 11 METAL CHIP 75K 0 50 1 10W 021 1 801 806 11 TRANSISTOR DTC144EKA T146 R35 216 081 00 RES CHIP 22K 5 0212 8 729 820 73 TRANSISTOR 25 3746 R36 216 665 11 METAL CHIP 3 9K 0 50 1 10W R37 216 665 11 METAL CHIP 3 9K 0 50 1 10W Q213 8 729 027 38 TRANSISTOR 144 146 R38 216 109 00 RES CHIP 330K 5 0214 8 729 820 73 TRANSISTOR 25 3746 Q215 8 729 027 38 TRANSISTOR DTAI44EKA T146 R39 216 109 00 5 330K 5 0300 8 729 027 38 TRANSISTOR 144 1 146 R40 216 109 00 RES CHIP 330K 5 0301 8 729 120 28 TRANSISTOR 2SC1623 L5L6 R41 216 105 91 5 220K 5 1 10W R42 216 109 00 RES CHIP 330K 5 1 10W Q303 8 729 019 85 TRANSISTOR 25 3392 5 R43 216 109 00 RES CHIP 330K 5 1 10W Q304 8 729 824 26 TRANSISTOR 25 1338 5 Q305 8 729 044 62 TRANSISTOR 2SK2766 01R F165 R44 216 109 00 RES CHIP 330K 5 1 10W Q306 801 806 11 TRANSISTOR DTC144EKA T146 R45 216 097 91 RES CHIP 100K 5 0801 8 729 027 38 TRANSISTOR DTAI44EKA T146 R46 216 081 00 RES CHIP 22K 5 R47 216 081 00 RES CHIP 22K 5 0802 801 806 11 TRANSISTOR DTC144EKA T146 R48 216 089 91 47K 5 0805 801 806 11 TRANSISTOR DTC144EKA T146
129. 2K 0 50 1 10W R338 1 216 650 11 METAL CHIP 910 0 50 1 10W R406 1 216 025 91 5 00 5 NOW R340 1 216 651 11 METAL CHIP K 50 1 10W R32 1 216 057 00 RES CHIP 2 2K 5 407 1 216 665 11 METAL CHIP 3 9K 0 50 110 R343 1 216 025 91 5 00 5 NOW R408 1 216 658 11 METAL CHIP 2K 0 50 1 10W R344 1 216 057 00 RES CHIP 2 2K 5 409 1 216 661 11 METAL CHIP 2 7K 0 50 1 10W R411 1 216 073 00 5 10K 5 NOW R345 1 216 049 91 5 K 5 NOW R412 1 216 677 11 METAL CHIP 12K 0 50 1 10W R346 1 216 675 11 METAL CHIP K 0 50 1 10W R349 1 216 053 00 RES CHIP JK 5 R413 1 216 666 11 METAL CHIP 43K 0 50 1 10W R350 1 216 638 11 METAL CHIP 3 0 50 1 10W R414 1 216 670 11 METAL CHIP 6 2K 0 50 1 10W R351 1 216 674 11 METAL CHIP 9 1 0 50 1 10 R415 1 216 025 91 5 100 5 NOW R416 1 216 679 11 METAL CHIP 15K 0 50 1 10W R352 1 216 647 11 METAL CHIP 68 0 50 1 10W R417 1 216 649 11 METAL CHIP 820 0 50 1 10W R353 1 216 047 91 RES CHIP 82 5 NOW R354 1 216 647 11 METAL CHIP 68 0 50 1 10W R418 1 216 647 11 METAL CHIP 680 0 50 1 10W R357 1 216 057 00 RES CHIP 2 2K 5 NOW R420 1 216 647 11 METAL CHIP 680 0 50 1 10W R358 1 218 764 11 METAL CHIP 330K 50 1 10W R421 1 216 025 91 RES CHIP 100 5 NOW R422 1 216 025 91 5 100 5 NOW R359 1 216 025 91 5 0 5 NOW R423 1 216 667 11 METAL CHIP 4 7K 0 50 1 10W R360 1 218 758 11 METAL CHIP 80K 50 1 10W R361 1 216 675 11 METAL CHIP
130. 4033 109 6 PANEL ASSY POWER UNIT 62 A 1346 666 A E COMPL 63 63 X 4033 108 1 SINK ASSY DEF 64 1135 941 BK COMPL 65 65 X 4033 105 1 PANEL BK ASSY CONNECTOR 66 A L135 920 A BC COMPL 67 67 X 4033 106 2 PANEL BC ASSY CONNECTOR 68 4405081601 BRACKET HD 1461 69 A 1372 136 A MOUNTED PWB HD 14G1 70 1 500 278 11 FILTER CLAMP FERRITE CORE 14G1A 14G1E 14G5A 14G5E 7 1 500 249 11 FERRITE CASE 14G1A 14GIE 7 A 1251260410 INLET AC 73 A 176230011 SWITCH AC POWER SEESAW 7A 2 990 241 02 HOLDER PLUG A 75 4 050 798 01 PLATE NUT AC INLET CARD SLOT 8 5 PICTURE TUBE 8 3 PICTURE TUBE 14G1A 14G1E 14G1U 14G5A 14G5E 14G5U O 7 682 564 09 P4x14 A 7 685 872 09 BVTT3x8 7 682 161 01 4 8 lt gt 7 682 661 01 PS4x8 7 688 004 02 8 6 REFNO PARTNO DESCRIPTION REMARK 101 4 306 034 00 M5 FLANGE 102 4 348 567 00 WASHER CRT POSITION 103 A 873833305 PICTURETUBE 14G1A 14G1E 14G5A 14G5E 103 A 873833505 PICTURE TUBE 14MT3 14G1U 14G5U 104 4 047 349 01 HOLDER HV CABLE 105 4 050 492 01 SPACER DY 106 4 053 410 01 SHIELD DY 107 A 8451473141 _ DYYI4MPDT 108 X 2105 533 1 PLATE ASSY CORRECTION 109 14524364 _ NECK ASSY CRT NA292 110 1331 724 MOUNT 4 303 774 XX SPRING 12 A 1411 66021 DEMAGNETIC 13 A 141165821 LANDING CORR
131. 46 SIGNAL LINE EEP ROM x S PULSE BLK OUT MOSI BUFFER D A CONVERTER CH SLOT 3 RESET FROM OPTION BRIGHT 1 701 704 1 901 904 BRIGHT ABL CONTROL BRT CONTRAST BUFF CONTR BVM 14G5 only i e a ee e I m AFC P V BLK P2 BVM 14G1 20G1 only 5 1 2 22 2 23 RXD TXD RXD TXD 107 8 11 16 17 16 rie gt AFC P V BLK P2 HS VS CHARACTER et 118 HSNS CHARA 1 CHARA 3 GENERATOR DATA BUS 04 7 5V 12V SAMPLE PULSE CHARA CHARA RGB J 1 1 AFC P V BLK 2 ADDRESS BUS 45V H12V GENERATOR IC701 CONTROL BUS SWITCH INVERTER G1 BLANKING CN3 MISO MOSI S CLK TXD SCK 1 3 4 9 10 13 G2 0601 0601 603 REMOTE 1 RXD OX BD CTRL 1014 E isa bois i ROM RESET G2 CONTROL TXD TXD MAIN ADDRESS DE
132. 5 F R337 1 214 905 11 METAL 47K 1 NW R240 1 215 886 11 METAL OXIDE 00 5 2W F R338 1 216 658 11 METAL CHIP 2K 0 50 1 10W R246 1 247 791 91 CARBON 22 5 4W R339 1 219 728 11 METAL 0 22 10 SW R247 1 247 791 91 CARBON 22 5 4W R340 1 216 651 11 METAL CHIP K 0 50 1 10W R248 1 216 659 11 METAL CHIP 22K 0 50 1 10W R801 1 216 049 91 5 K 5 NOW R249 1 216 659 11 METAL CHIP 22K 0 50 1 10W R802 1 216 057 00 RES CHIP 2 2K 5 NOW R250 1 215 891 11 METAL OXIDE 680 5 F R803 1 216 065 91 RES CHIP 4 7K 5 NOW R251 1 216 073 00 RES CHIP 10K 5 NOW R804 1 216 053 00 RES CHIP JK 5 NOW R252 1 249 413 11 CARBON 470 5 4W F R805 1 216 121 91 RES CHIP M 5 NOW R253 1 249 413 11 CARBON 470 5 4W F R806 1 216 073 00 RES CHIP OK 5 NOW R254 1 247 747 11 CARBON 470 5 NW R807 1 216 061 00 RES CHIP 3 3K 5 NOW R808 1 216 073 00 RES CHIP OK 5 NOW 9 30 HA REFNO PARTNO DESCRIPTION REMARK REFNO PART NO DESCRIPTION REMARK R809 216 073 00 5 10K 5 1 10W lt VARISTOR gt R811 216 661 11 METAL CHIP 2 7K 50 1 10W VDRI 1 801 073 31 VARISTOR TNR14V471K660 R812 216 658 11 METAL CHIP 2K 50 1 10W VDR2 1 810 622 11 VARISTOR R813 216 049 91 RES CHIP 1K 5 1 10W R815 216 659 11 METAL CHIP 22K 50 1 10W A 1372 133 A MOUNTED PWB HA 14G5 BKM 10R R816 216 659 11 METAL CHIP 22K 50 1 10W KANAKA R817 216 677 11 MET
133. 5 11077 R144 216 647 11 METAL CHIP 680 50 1 10W R207 216 649 11 METAL CHIP 820 0 50 1 10W R146 216 053 00 RES CHIP 1 5K 5 208 216 647 11 METAL CHIP 680 0 50 1 10 R147 216 057 00 RES CHIP 2 2K 5 210 216 647 11 METAL CHIP 680 0 50 110 R148 218 764 11 METAL CHIP 330K 50 1107 R211 216 025 91 5 100 5 R212 216 025 91 5 100 5 1 10W R149 216 025 91 RES CHIP 100 5 1 10W R150 218 758 11 METAL CHIP 180K 50 1 10W R213 216 667 11 METAL CHIP 4 7K 50 1 10W R151 216 675 11 METAL CHIP 10K 50 1107 R214 216 659 11 METAL CHIP 2 2K 50 1 10W R152 216 121 91 5 IM 5 R215 216 658 11 METAL CHIP 2K 50 1 10W 8153 216 671 11 METAL CHIP 6 8K 50 1107 R216 216 675 11 METAL CHIP 10K 50 1 10W R217 216 073 00 5 10K 5 8155 216 047 91 5 820 5 8156 216 651 11 METAL CHIP IK 50 1 10W R219 216 033 00 RES CHIP 220 5 1 10W R157 216 676 11 METAL CHIP 50 1 10W R221 216 655 11 METAL CHIP 1 5K 50 1 10W 8158 216 691 11 METAL CHIP 47K 50 1107 R222 216 025 91 5 100 5 1 10W R159 216 051 00 5 12K 5 R223 216 653 11 METAL CHIP 12K 50 1 10W R224 216 675 11 METAL CHIP 10K 50 1 10W R160 216 025 91 5 100 5 R162 216 049 91 5 IK 5 R225 216 659 11 METAL CHIP 22K 50 1 10W R163 216 073 00 5 10K 5 R226 216 669 11 METAL CHIP 5 6K 50 1 10W R164 216
134. 505 11 CERAMIC CHIP 22 16V C782 1 163 031 11 CERAMIC CHIP 0 01MF 50V C783 1 163 031 11 CERAMIC CHIP 0 01MF 50V C570 1 163 031 11 CERAMIC CHIP 0 01MF 50V C800 1 163 229 11 CERAMIC CHIP 12PF 5 50V 571 1 163 075 00 CERAMIC CHIP 0 047 10 25V C572 1 163 075 00 CERAMIC CHIP 0 047 10 25V C801 1 163 229 11 CERAMIC CHIP 12PF 5 50V C573 1 164 336 11 CERAMIC CHIP 0 33MF 25V C802 1 163 031 11 CERAMIC CHIP 0 01MF 50V C574 1 163 031 11 CERAMIC CHIP 0 01MF 50V C803 1 163 031 11 CERAMIC CHIP 0 01 50 C804 1 115 155 11 ELECT CHIP 22MF 20 16V C575 1 104 823 11 TANTAL CHIP 47MF 20 16 C805 1 163 031 11 CERAMIC CHIP 0 01MF 50V C576 1 164 005 11 CERAMIC CHIP 0 47MF 25V 577 1 164 505 11 CERAMIC CHIP 22 16V C806 1 163 031 11 CERAMIC CHIP 0 01MF 50V C578 1 164 505 11 CERAMIC CHIP 22 16V C807 1 163 031 11 CERAMIC CHIP 0 01MF 50V C579 1 163 809 11 CERAMIC CHIP 0 047 10 25V C808 1 163 031 11 CERAMIC CHIP 0 01MF 50V C809 1 163 031 11 CERAMIC CHIP 0 01MF 50V C580 1 163 031 11 CERAMIC CHIP 0 01MF 50V C810 1 163 031 11 CERAMIC CHIP 0 01MF 50V C581 1 163 031 11 CERAMIC CHIP 0 01MF 50V C582 1 163 031 11 CERAMIC CHIP 0 01MF 50V C812 1 163 031 11 CERAMIC CHIP 0 01MF 50V C583 1 163 031 11 CERAMIC CHIP 0 01MF 50V C813 1 126 394 11 ELECT CHIP 10 20 16 584 1 164 232 11 CERAMIC CHIP 001 10 50V C814 1 163 251 11 CERAMIC CHIP I00PF 5 50 C815 1 163 257 11 CERAMIC CHIP 5 50 C585 1 163 809 11 CERAMIC CHIP 0 047 10 25V C816 1
135. 50V C1017 164 505 CERAMIC CHIP 2 2MF 16V C1019 163 031 11 CERAMIC CHIP 0 01MF 50V C832 163 133 00 CERAMIC CHIP 470 5 50 C1020 164 505 11 CERAMIC CHIP 22 16V C833 163 133 00 CERAMIC CHIP 470PF 5 50V C834 163 133 00 CERAMIC CHIP 470 5 50V C1021 163 031 11 CERAMIC CHIP 0 01MF 50V C835 163 251 11 CERAMIC CHIP 100PF 5 50V C1022 163 031 11 CERAMIC CHIP 0 01MF 50V C836 163 133 00 CERAMIC CHIP 470 5 50V C1023 164 505 11 CERAMIC CHIP 2 2MF 16V C1024 163 031 11 CERAMIC CHIP 0 01MF 50V C837 164 222 11 CERAMIC CHIP 0 22 25V C1025 163 031 11 CERAMIC CHIP 0 01MF 50V C838 164 222 11 CERAMIC CHIP 0 22 25V C840 163 023 00 CERAMIC CHIP 0 015 10 50V C1026 163 031 11 CERAMIC CHIP 0 01MF 50V C84 164 346 11 CERAMIC CHIP IMF 16V C1027 126 396 11 ELECT CHIP 47MF 20 16V C847 163 031 11 CERAMIC CHIP 0 01MF 50V C1028 163 031 11 CERAMIC CHIP 0 01MF 50V C1029 163 031 11 CERAMIC CHIP 0 01MF 50V C850 126 392 11 ELECT CHIP 100MF 20 63V C1030 163 031 11 CERAMIC CHIP 0 01MF 50V C85 126 168 11 ELECT 1000MF 20 63V C852 126 391 11 ELECT CHIP 47MF 20 63V C1031 163 031 11 CERAMIC CHIP 0 01MF 50V C853 126 168 11 ELECT 1000MF 20 63V C1032 163 031 11 CERAMIC CHIP 0 01MF 50V C86 163 251 11 CERAMIC CHIP 100PF 5 50 C1033 163 031 11 CERAMIC CHIP 0 01MF 50V C1034 163 031 11 CERAMIC CHIP 0 01MF 50V C863 163 031 11 CERAMIC CHIP 0 01MF 50V C1035 163 031 11 CERAMIC CHIP 0 01MF 50V C900 163 031 11 CERAMIC CHIP 0 01
136. 6 4 1 5 Landing Circuit The LANDING voltage output from the D A converter of IC201 inside is input to IC231 to control the current flowing through the LANDING coil 1 6 NTC Drive Circuit The NTC signal output from IC201 is amplified by the IC801 to drive the NTC 1 7 HLinearity Circuit The H LIN signal output from IC151 is amplified by Q151 to Q159 T151 HLT is driven and the H linearity compen sation current is passed through the H DY 1 8 Rotation Circuit 20 Inch Model The ROTATION voltage output from IC703 of the D A con verter is input to IC401 to control the current flowing through the ROTATION coil 1 9 H Convergence Circuit 20 Inch Model The H CONV correct signal output from IC701 is amplified by Q721 to Q729 to drive the CY H The H CONT correct signal output from IC701 is amplified by IC702 to drive the CY V 2 Vertical System 2 1 V DELAY Circuit IC641 is composed of the circuit generating the sawtooth signal which uses the V SYNC of the input signal as the trig ger and the amplifier circuit It outputs the signal synchro nized with the sawtooth signal IC622 compares this signal with the reference voltage and outputs the rectangular wave The falling edge is deviated by about 1 2 of the vertical pe riod from the input signal Therefore in the V DELAY mode the signals are synchronized after a delay of about 1 2 verti cal period 2 2 V OSC Circuit The V OSC circuit of IC001 adopts the c
137. 7 and HIGHLIGHT 100 cover the CRT screen with a black cloth and select START to start automatic opera tions Select the SYSTEM COLOR TEMP COPY OTHER VALUE menu on the MAINTENANCE menu Select STD of COLOR TEMP perform the following 065 and copy the color temperature data to STD Select COLOR 1 of COLOR TEMP perform the follow ing D93 and copy the color temperature data to COLORI Select COLOR2 of COLOR TEMP perform the follow ing step and copy the color temperature data to COLOR2 For BVM 14G1U 14G5U 20G1U Select AUX For BVM 14G1A 14G1E 14G5A 14G5E 20G1A 20 Select D65 Execute this adjustment only for BVM 14G1A 14G1E 14G5A 14G5E 20G1A 20G1E Select AUX of COLOR TEMP perform the following 065 and copy the color temperature data to AUX 3 13 SECTION 4 SAFETY RELATED ADJUSTMENTS B 120V Voltage Check Perform the following checks when replacing the following components marked 44 on the schematic diagram 4 board R307 R332 R333 R336 R337 R338 IC301 IC302 PH301 1 Connecta digital voltmeter to TP303 120 V and TP304 GND of the G board Digital voltmeter More than 4 digits 2 Inputthe cross hatch signal 3 Set the BRIGHTNESS VR and CONTRAST VR but tons to the preset condition The LEDs green on the buttons go off 4 Turn ON the power and check the TP303 120 V volt age to 120 0 4 0 V High Voltage Regulator Check
138. 759 252 59 IC MAX202CSE 1 28 8 759 252 59 MAX202CSE 06 8 729 122 13 TRANSISTOR 25 1221 IC29 8 759 186 77 IC TC74VHCS41F Q7 8 729 122 13 TRANSISTOR 25 1221 1 30 8 759 186 24 IC TC74VHC4040F EL Q8 1 801 806 11 TRANSISTOR DTC144EK T146 IC31 8 759 081 46 IC TC74VHCU04F Q9 8 729 921 12 TRANSISTOR 2501834 Ql 1 801 806 11 TRANSISTOR DTC144EK T146 1 32 8 759 925 75 IC SN74HCOSANS 1C33 8 759 925 75 SN74HCOSANS 051 8 729 120 28 TRANSISTOR 2SC1623 LSL6 IC34 8 759 007 56 MC74HC30F Q52 8 729 120 28 TRANSISTOR 2SC1623 L5L6 35 8 759 186 77 IC TC74VHCS41F Q103 8 729 901 06 TRANSISTOR 144 1C36 8 759 252 59 IC MAX202CSE Q104 8 729 901 06 TRANSISTOR DTA144EK Q106 8 729 216 22 TRANSISTOR 2SA1162 G 1C37 8 759 182 91 IC PQI2TZSU IC51 8 759 700 65 791 05 0107 8 729 120 28 TRANSISTOR 2SC1623 L5L6 IC52 8 759 144 82 IC uPC2405HF Q108 8 729 120 28 TRANSISTOR 2SC1623 L5L6 1 61 8 759 186 43 IC TC74VHC123AF Q109 8 729 216 22 TRANSISTOR 2SA1162 G 1 62 8 759 195 02 IC TC7S86F TE85L 010 8 729 901 06 TRANSISTOR DTA144EK 011 8 729 120 28 TRANSISTOR 2SC1623 L5L6 1C63 8 759 011 65 MC74HC4053F 04 8 759 186 24 IC TC74VHC4040F EL 012 8 729 120 28 TRANSISTOR 25 1623 151 6 IC105 8 752 357 15 IC CXD2343S Q113 8 729 120 28 TRANSISTOR 25 1623 151 6 IC106 8 759 186 53 IC TC74VHC163F 014 8 729 901 06 TRANSISTOR DTA144EK IC109 8 752 334 64 IC CXD1171M 015 8 729 120 28 TRANSISTOR 2SC1623 L5L6 016 1 801 806 11 TRANSISTOR DTC144EK T1
139. 759 988 13 IC LM393PS Q201 8 729 216 22 TRANSISTOR 2SA1162 G IC612 8 759 100 96 wPC4558G2 0271 8 729 120 28 TRANSISTOR 2SC1623 L5L6 Q272 8 729 216 22 TRANSISTOR 2SA1162 G IC613 8 759 186 57 IC 74 175 Q273 8 729 216 22 TRANSISTOR 2SA1162 G IC621 8 759 981 48 IC TL082M Q301 8 729 216 22 TRANSISTOR 2SA1162 G IC622 8 759 988 13 IC LM393PS 1C623 8 759 038 15 IC MC74HC4538AF Q302 8 729 216 22 TRANSISTOR 2SA1162 G IC625 8 759 011 65 IC MC74HC4053F Q303 8 729 120 28 TRANSISTOR 2SC1623 L5L6 Q304 8 729 120 28 TRANSISTOR 2SC1623 L5L6 1C627 8 759 186 30 IC Q306 8 729 019 01 TRANSISTOR 2502394 IC628 8 759 186 30 IC TC74VHC14F Q307 8 729 024 95 TRANSISTOR 2SB1565EF IC641 8 759 100 96 LPC4558G2 IC701 8 752 068 37 IC CXA1726AM 20G1 Q221 8 729 020 07 TRANSISTOR 2SC4686A LBSONY 9 22 E REFNO PARTNO DESCRIPTION REMARK REFNO PARTNO DESCRIPTION REMARK 0322 8 729 020 07 TRANSISTOR 2SC4686A LBSONY 8034 216 669 11 METAL CHIP 56K 0 50 110 0501 8 729 019 85 TRANSISTOR 28C3392 5 TB R035 216 374 00 METAL OXIDE 27 5 2W F 0502 8 729 824 26 TRANSISTOR 28 1338 5 2061 0551 8 729 015 28 TRANSISTOR IRFI9630GS R035 216 377 11 METALOXIDE 47 5 F 14G1 14G5 0552 8 729 031 37 TRANSISTOR 25 3837 0 R036 216 061 00 RES CHIP 33K 5 NOW Q553 8 729 019 85 TRANSISTOR 25 3392 5 R037 249 383 11 CARBON 15 5 W F Q554 8 729 824 26 TRANSISTOR 28 1338 5 0
140. 8 759 988 13 IC LM393PS 0170 8 729 920 59 TRANSISTOR IMX2 T109 0171 8 729 920 59 TRANSISTOR 2 109 8 759 082 58 IC TC7WO8FU 0172 8 729 920 59 TRANSISTOR 2 109 8 759 424 13 IC MC74HCOOAFEL 0174 8 729 107 31 TRANSISTOR 25 3545 43 8 759 424 14 IC MC74HCO2AFEL 0175 8 729 112 65 TRANSISTOR 25 1462 33 8 759 367 67 IC MC74HC14AFEL 8 759 424 31 IC MC74HC175FEL Q176 8 729 107 31 TRANSISTOR 25 3545 43 0177 8 729 033 31 TRANSISTOR 25 520 44 45 8 759 424 18 IC MC74HC11FEL 0178 8 729 033 31 TRANSISTOR 25 520 44 45 8 759 424 14 MC74HCO2AFEL Q190 1 801 806 11 TRANSISTOR DTC144EKA T146 8 759 424 14 MC74HCO2AFEL Q200 8 729 107 31 TRANSISTOR 25 3545 43 8 759 011 65 MC74HC4053F 8 759 038 15 MC74HC4538AF Q300 8 729 112 65 TRANSISTOR 2SA1462 Y33 Q301 8 729 027 38 TRANSISTOR 144 146 8 759 100 96 IC wPC4558G2 Q302 8 729 107 31 TRANSISTOR 25 3545 43 8 759 038 15 MC74HC4538AF Q303 8 729 112 65 TRANSISTOR 2SA1462 Y33 8 759 038 15 MC74HC4538AF Q304 8 729 107 31 TRANSISTOR 25 3545 43 8 759 058 55 IC TC7S02FU TE85L 8 759 367 70 MC74HC125AFEL Q305 8 729 107 31 TRANSISTOR 25 3545 43 Q306 8 729 107 31 TRANSISTOR 25 3545 43 8 759 100 96 IC wPC4558G2 Q307 8 729 112 65 TRANSISTOR 2SA1462 Y33 8 759 346 47 MB89613R 236 Q308 8 729 216 22 TRANSISTOR 25 1162 8 759 156 54 2504051 0309 8 729 112 65 TRANSISTOR 2SA1462 Y33 8 759 988 13 IC LM393PS 8 759 064 36 IC MB
141. 9 6 9 7 9 WHITE SAMPLING P 179 3 9 4 9 6 9 7 9 gt G DRIVE V 5 9 B SS3280 lt AEP gt BK P5 11 24 11 24 BK 6 9 BK 6 9 B SS3280 lt AEP gt BK P6 SS 5 21 5 cc 3 z z lt 9 3 5 5 2 5 x m 1 a gt 59 cO MOI sso EL 552 gt a er s iens b 7 I o eo gt 1 NA i E 55 RR Pu Sake ps nozi 72 None oj oo A368 X aos er eta s e 83 s 79 Sor 255 8022 55 2 5 5c Boe Loc 5 Suo e 2 og e 5 78 55 at oo 35 al cj EE z 185 lt QF NOI H a e os 295 b a N No oZr 225 oe 5 z on ae E 537 x 9 lt 825 5 2 225 q P 3 s x 5 z o a S gt OS ug a ag gt ay
142. 91 5 10 5 NOW 0567 8 729 107 31 TRANSISTOR 25 3545 43 R14 1 216 025 91 5 10 5 NOW 0568 8 729 920 59 TRANSISTOR IMX2 T109 Q569 8 729 120 28 TRANSISTOR 2SC1623 L5L6 R20 1 249 400 11 CARBON 39 5 4W Q570 8 729 107 31 TRANSISTOR 25 3545 43 R100 1 216 085 00 33K 5 NOW R101 1 216 107 00 5 270K 5 NOW 0571 8 729 112 65 TRANSISTOR 25 1462 33 R102 1 216 049 91 K 5 NOW 0572 8 729 107 31 TRANSISTOR 25 3545 43 R103 1 216 097 91 5 00K 5 NOW 0573 8 729 920 59 TRANSISTOR IMX2 T109 Q574 8 729 920 59 TRANSISTOR IMX2 T109 R104 1 216 027 00 5 2 5 NOW 0575 8 729 920 59 TRANSISTOR IMX2 T109 R105 1 216 051 00 RES CHIP 2K 5 NOW R106 1 216 025 91 RES CHIP 0 5 NOW 0577 8 729 107 31 TRANSISTOR 25 3545 43 R107 1 216 049 91 5 K 5 NOW 0578 8 729 112 65 TRANSISTOR 25 1462 33 R108 1 216 049 91 5 K 5 NOW 0579 8 729 107 31 TRANSISTOR 25 3545 43 Q580 8 729 033 31 TRANSISTOR 25 520 44 45 R109 1 216 009 00 22 5 NOW 0581 8 729 033 31 TRANSISTOR 25 520 44 45 R110 1 216 009 00 5 22 5 NOW R111 1 216 657 11 METAL CHIP SK 0 50 110 Q590 1 801 806 11 TRANSISTOR DTC144EKA T146 R112 1 216 663 11 METAL CHIP 33K 0 50 110 Q600 8 729 107 31 TRANSISTOR 25 3545 43 R113 1 216 025 91 RES CHIP 00 5 NOW 0700 8 729 216 22 TRANSISTOR 2SA1162 G Q701 8 729 216 22 TRANSISTOR 2SA1162 G 1 216 651 1
143. Blanking Adjustment Refer to 3 SET UP Adjustment 3 4 H Blanking Adjust ment Page 3 3 5 3 5 V Blanking Adjustment Refer to 3 SET UP Adjustment 3 5 V Blanking Adjust ment Page 3 5 5 3 6 Linearity Adjustment Refer to 3 SET UPAdjustment 3 6 Linearity Adjustment Page 3 6 5 12 5 3 7 Convergence Adjustment Preparation Refer to 3 SET UP Adjustment 3 2 Focus Adjustment 3 3 Landing Adjustment 3 4 H Blanking Adjustment Page 3 2 and 3 3 5 3 8 Static Convergence Adjustment Horizontal Static Convergence Adjust H STATIC CONV data so that red and green dots match in the horizontal direction at the center of the screen Note H STATIC CONV adjustment menu is under E BOARD menu of MAINTENANCE menu See Fig 1 14 Vertical Static Convergence Adjust V STATIC CONV data so that red and green dots match in the horizontal direction at the center of the screen Note V STATIC CONV adjustment menu is under E BOARD menu of MAINTENANCE menu See Fig 1 14 5 3 9 Convergence Adjustment 20 Inch Model Preparation Refer to 3 SET UP Adjustment 3 7 2 20 Inch Model Convergence Adjustment Page 3 9 Vertical convergence adjustment Adjust V STATIC BOTTOM data and V STATIC TOP data so that a vertical mis convergence is minimized at the top and bottom areas of the screen Note V STATIC BOTTOM data and V STATIC TOP data adjustment menu is under E BOARD menu of MAINTENANCE menu
144. ELECT CHIP 000MF 20 63V C244 1 126 392 11 ELECT CHIP 00 20 63V C359 1 163 031 11 CERAMIC CHIP 0 01MF 50V C245 1 126 392 11 ELECT CHIP 00 20 63V C360 1 163 031 11 CERAMIC CHIP 0 01MF 50V C246 1 126 392 11 ELECT CHIP 00 20 63V C362 1 163 031 11 CERAMIC CHIP 0 01MF 50V C363 1 163 031 11 CERAMIC CHIP 0 01MF 50V CMT 1 126 397 11 ELECT CHIP 33MF 20 25V C364 1 163 031 11 CERAMIC CHIP 0 01MF 50V C248 1 126 392 11 ELECT CHIP 00 20 63V C251 1 126 397 11 ELECT CHIP 33MF 20 25V C365 1 163 031 11 CERAMIC CHIP 0 01MF 50V C232 1 126 396 11 ELECT CHIP 47MF 20 16 C366 1 163 031 11 CERAMIC CHIP 0 01MF 50V C271 1 126 396 11 ELECT CHIP 47MF 20 16 C367 1 163 031 11 CERAMIC CHIP 0 01MF 50V C368 1 163 031 11 CERAMIC CHIP 0 01MF 50V C281 1 126 392 11 ELECT CHIP 100MF 20 63V C369 1 163 031 11 CERAMIC CHIP 0 01MF 50V C291 1 126 396 11 ELECT CHIP 47MF 20 16 C301 1 163 031 11 CERAMIC CHIP 0 01MF 50V C370 1 163 031 11 CERAMIC CHIP 0 01MF 50V C302 1 163 031 11 CERAMIC CHIP 0 01MF 50V C371 1 163 031 11 CERAMIC CHIP 0 01MF 50V C303 1 163 031 11 CERAMIC CHIP 0 01MF 50V C372 1 163 031 11 CERAMIC CHIP 0 01MF 50V C373 1 163 031 11 CERAMIC CHIP 0 01MF 50V C304 1 163 031 11 CERAMIC CHIP 0 01MF 50V C374 1 163 031 11 CERAMIC CHIP 0 01MF 50V C305 1 163 031 11 CERAMIC CHIP 0 01MF 50V C306 1 163 031 11 CERAMIC CHIP 0 01MF 50V C375 1 163 031 11 CERAMIC CHIP 0 01MF 50V C307 1 163 031 11 CERAMIC CHIP 0 01MF 50V C376 1 163 031 11 CERAMIC CHIP 0 01MF 50V C308 1 163 031
145. FILM 047MF 20 250V C224 1 102 038 00 CERAMIC 0 001 500V 1 113 912 11 CERAMIC 0 0047 20 250V C3 1 113 912 11 CERAMIC 0047 20 250V C225 1 102 038 00 CERAMIC 0 001 500V C4 1 113 912 11 CERAMIC 0047 20 250V C226 1 107 880 11 ELECT 4700 20 10V C5 1 113 912 11 CERAMIC 0047 20 250V C227 1 107 880 11 ELECT 4700 20 10V C228 1 107 890 11 ELECT 2200MF 20 25V C6 1 104 708 11 FILM 47 20 250V C229 1 107 890 11 ELECT 2200MF 20 25V C7 1 113 924 11 CERAMIC 0047 20 250V C8 1 113 924 11 CERAMIC 0047 20 250V C301 1 164 004 11 CERAMIC CHIP IMF 10 25V C9 1 113 924 11 CERAMIC 0047 20 250V C302 1 164 004 11 CERAMIC CHIP 10 25V CIO 1 113 924 11 CERAMIC 0047 20 250V C303 1 104 539 11 FILM CHIP 001 5 50 C304 1 107 907 11 ELECT 22MF 20 50 CH 1 137 484 11 FILM 47 10 630V C305 1 164 004 11 CERAMIC CHIP 10 25V C12 1 107 906 11 ELECT 10MF 20 50 1 104 653 11 ELECT 220MF 20 16V C306 1 107 888 11 ELECT 47MF 20 25V 5 1 107 906 11 ELECT 10MF 20 50 C307 1 107 909 11 ELECT 47MF 20 10V C16 1 107 888 11 ELECT 47MF 20 25V C308 1 129 718 00 FILM 022 5 630V C311 1 102 038 00 CERAMIC 0 001 500V C17 1 107 906 11 ELECT 10MF 20 50 C312 1 102 038 00 CERAMIC 001 500V C31 1 163 009 11 CERAMIC CHIP 001 10 50 C32 1 163 251 11 CERAMIC CHIP 100PF 5 50 C313 1 107 877 11 ELECT 1000MF 20 10V C33 1 163 009 11 CERAMIC CHIP 001
146. G Drive G Drive IK V Control 11 24 B Drive B Drive IK V Control 11 25 Pulse Generator G2 BRT CONTR Control 11 26 Sync Separator Y C Clamp P Generator 11 27 System Control D A Converter see 11 28 Micro Computer Program ROM S RAM Address Selector Parallel In Out Chracter Gen eese 11 31 Serial Control RS485 RS232C Interface 11 32 Signal Generator Internal Signal Data Counter Closed Caption Display PLL D A Converter 11 33 Slot Receiver Sample Pulse Gen RS422 Interface Charactor Out Current 11 34 System Control H BLK V BLK P Gen H V Sync Gen gerit 11 37 Signal Gen PWM Control HV REG HV Out Switching Dynamic Focus Landing NTC Out H LIN Conv D A Convettet a em etis 11 38 Signal Generator PWM Control H V Out H LIN Amp 11 39 Signal Generator CY H CY V Out ROT Out D A Converter cseteris 11 40 R G B Out BLK Out H STAT Out 11 43 eii 11 44 Tally eerte 11 45 Indicator ies LESE eee 11 45 Rel y eonim hee eee te rm 11 45 Relay 1461 206 0 11 45 Control Main 220202000 00 11 46 PWM Control Conve
147. G PROTECTOR2 AM 5 12V TO m VSP Ce PROTECTORA 17 PROTECT2 12V E 2 C BOARD I ABL OUT ABI GUT H STAT CONTROL E G PROTECTORS Bid PROTECTORS 3 GND CN508 G2 CONTROL G2 CONTROL G2 CONTROL E G 4 Miel G PROTECT4 G G2 CONTROL E 2 G2 CTRL AFC PULSE AFC PULSE 12V E 815 GND HES TAT CONTROL E H STAT CTRL Bs Hs v 15 GND T 5 GND m VD LSE S MICRO 275 12V E HS E HS VS 12V hus vs 2HS 2 5 m BVSRETURNADOI HV RTN DO NC B12 2HS a nv m a 8 one V BLK1 HT m NG HT HT C savam r asv w 15V OUT e 15v uw P BOARD H BLK wc E 10 NC Hro ABL1 IK PROT CN902 V BLK2 wc 89 HP Nc24A oj IK PROT V BLK1 V ABL D SV RETURN rSv SENSE ia VK ABL OUT BLK BLK V BLK2 V BLK2 SETA e veike vsu HV RETURN AC MISO MISO D 5V RETURN 87 5V SENSE 5V SENSE RESET RESET DIGITAL 5V z N NC27A T T DIGITAL 5V ws DIGITAL 5V NC 16 MISO WU DIGITAL 5V A5 NC SEEK 45 SCLK sock DIGITAL 5V DIGITAL 5V ETE DIGITAL 1 sc 84 DIGITAL 5V nd DIGITAL GND jas sc M DIGITAL 5V D 5V DIGITAL 5V DIGITAL GND B3 DIGITAL GND DIGITAL GND DIGITAL GND A3 DIGITAL GND DIGITAL GND CH SLOT SLOT2 82 NC CH SLO
148. G terminal Extension board cable kit p lt gt Part No A 1394 806 B S 750 terminator x 4 Component signal generator 319000 rmm 1313 1323 BKM 10R BVM 20G1 BRIGHT VR NTRAST VR Front Panel of BKM 10R CONTRAS SHIFT BRIGHT SW CONTRAST SW 3 1 B Y B terminal R Y R terminal SYNC terminal 3 2 Focus Adjustment 1 2 Input the dot signal or cross hatch signal Set the following DF adjustment data to the center value 128 DF T amp B DF SIDE DF CORNER Note The above adjustment menu is under the E BOARD menu of the MAINTENANCE menu Adjust the center of the screen to the optimum focus us ing the FOCUS 1 VR vertical focus adjustment and FOCUS 2 VR horizontal focus adjustment Input the cross hatch signal Adjust the following DF adjustment data so that the cross hatch lines at the ends of the screen become the same thickness as those at the center of the screen DF T amp B DF SIDE DF CORNER fixed at value Adjust the DF data in the same way in the following modes 4 3 UNDERSCAN mode 16 9 NORMAL SCAN mode 169 UNDER SCAN mode Focus 1 Focus Fig 1 1 3 2 3 3 Landing Adjustment 1 2 Input the white signal Press the BRIGHTNESS VR and CONTRAST VR but tons to the preset condition The LEDs green on the buttons go off Face the CRT screen towards the east west and press the DEGAUSS button Set the Purity knob to the mechanical
149. GND 2 5 gt 2 DIGITAL 5V D 5V 829 DIGI TAL 5V DIGITAL 5V 8240 IGI TAL GND mE GND mie rra esp DIGITAL GND A23DIGITAL GND bso p 1G ITAL GND bso p 161 TAL GND DIGITAL GND 8230161 TAL GND lat NC CH SLOTS 12 CH SLOT2 INT 518 Bai INT SIG NT SIG B3i INTERNAL 816 GH SLOTI SLOTTI ge GND GND 1 1 A28 SCLK B32 GND GND 825 INTERNAL 16 T B MOTHER TO BC BOARD 4 4 TO BC BOARD 4 4 TO OPTION BOARD TO BK BOARD 9 9 TO TA BOARD 2 CN14 B SS3280 lt AEP gt TB 11 54 11 54 The material contained in this manual consists of information that is the proterty of Sony Corporation and is intended solely for use by the purchasers of the equipment described in this manual Sony Corporation expressly prohibits the duplication of any portion of this manual or the use there of for any purpose other thanthe poeration or maintenance ofthe equipment described in this manual without the express written permission of Sony Corporation Le mat riel contenu dans ce manuel consiste en informations qui sont la propri t de Sony Corporation et sont destin es exclusivement l usage des acqu reurs de l quipement d crit dans ce manuel Sony Corporation interdit formellement la copie de quelque partie que ce soit de ce manuel ou son emploi pour tout autre but que des op rations ou entretiens de l quipement moins d une permission crite de Sony Corporation Das in dieser Anleitung
150. I 124 NC GND 124 4 H PULSE DIGITAL 824 V BLK1 NC 824 824 V BLK1 I DIGITAL 5V 1121 BLK NC 5 DIGITAL 551 871 825 V BLK2 NC 825 825 V BLK2 DIGITAL GND 122 p2 N Md SY SENSE DIGITAL GND 822 I 826 RESET NC 826 826 RESET DIGITAL GND 123 1461 2061 ONLY 27 S PULSE NC 7 127 S PULSE DIGITAL GND 82 s i ios CH SLOT HD GND 9 CH SLOT1 824 TXO 28 SCLK NC 828 828 SCLK SCLK 5 hod DIGITAL 5V NC 29 29 DIGITAL 5V INTERNAL 816 82 NB 5 829 DIGITAL 5V NC B29 B29 DIGITAL 5V T1 VER aso DIGITAL GND NC 30 3 DIGITAL GND GND baso DIGITAL GND NC 830 83 DIGITAL GND TXD i NC NC Asi CH SLOTS 2231 INT SIG NC pat B31 INTERNAL 516 GND 132 GND GND 132 432 GND ecc J 832 GND GND 832 832 GND CN1 CN5 CN2 1405 ONLY 10 10 n x r r Y sy B SS3280 lt AEP gt KESSENZU P2 BKM 10R ONLY MEMORY ARD FRAME 2 3 FRAME 2 3
151. MAINTENANCE G KEY PROTECT H Level 1 01 Level 2 NEW NAME D2 DELETE D3 FORMAT D4 MONITOR ADDRESS STATUS 1 3 STATUS 2 3 1 STATUS 3 3 E1 ALL E11 F2 I CONTROL PRESET D11 E12 I COLOR TEMP E13 SET UP E14 21 3 N 2 Basic Menu Operations Menu Operation Buttons The menus are operated using the menu operation buttons on the front panel 5 m m 3 2 INPUT D Numeric keypad Ent button Del button PHASE PHASE knob MENU button UP MENU enren UP DOWN buttons ENTER button The functions of the menu operation buttons are described below Button Function GMENU button Displays the Menus Goes back to the menu of the upper level on the Main Menu goes back to the normal picture QUP button Moves the cursor upward In setting mode increases the setting and adjustment values QDOWN button Moves the cursor downward In setting mode decreases the setting and adjustment values PHASE knob By turning this knob clockwise the cursor moves upward In setting mode increases the setting and adju
152. METAL CHIP 33K 0 50 1 10W R318 1 216 033 00 RES CHIP 220 5 NOW R388 1 216 662 11 METAL CHIP 3K 0 50 1 10W R319 1 216 057 00 RES CHIP 22K 5 10W R389 1 216 025 91 RES CHIP 00 5 NOW R390 1 216 657 11 METAL CHIP 8K 0 50 1 10W R320 1 216 057 00 RES CHIP 2 2K 5 R391 1 216 653 11 METAL CHIP 2K 0 50 1 10W R321 1 216 009 00 RES CHIP 22 5 NOW R322 1 216 067 00 RES CHIP 5 6K 5 NOW R392 1 216 067 00 5 5 6K 5 NOW R324 1 216 049 91 5 IK 5 NOW R393 1 216 025 91 5 00 5 NOW R327 1 216 025 91 5 100 5 NOW R394 1 216 051 00 RES CHIP 2K 5 NOW R395 1 216 073 00 RES CHIP OK 5 NOW R328 1 216 073 00 RES CHIP 10K 5 R396 1 216 073 00 OK 5 NOW R329 1 216 687 11 METAL CHIP 33K 50 1 10W R330 1 216 687 11 METAL CHIP 33K 50 R397 1 216 679 11 METAL CHIP 5K 0 50 1 10W R331 1 216 695 11 METAL CHIP 68K 50 1 10W R398 1 216 049 91 5 K 5 NOW R332 1 216 667 11 METAL CHIP 4 7K 50 1 10 R399 1 216 025 91 5 00 5 NOW R400 1 216 073 00 RES CHIP OK 5 NOW R333 1 216 658 11 METAL CHIP 2K 50 1 10W R401 1 216 675 11 METAL CHIP OK 0 50 1 10W R334 1 216 687 11 METAL CHIP 33K 50 1 10W R335 1 216 695 11 METAL CHIP 68K 50 1 10W R402 1 216 687 11 METAL CHIP 33K 0 50 1 10W R336 1 216 687 11 METAL CHIP 33K 50 1 10W R403 1 216 679 11 METAL CHIP 5K 0 50 1 10W R337 1 216 675 11 METAL CHIP OK 50 1 10W R404 1 216 025 91 RES CHIP 00 5 NOW RAOS 1 216 653 11 METAL CHIP
153. Menu Overview When multiple monitors are connected via their serial remote ports data can be shared between the monitors by data copy The data copy from one monitor to another is accomplished with the COPY menu Structure of the COPY Menu E Main Menu Level 1 Level 2 COPY MONITOR ADDRESS E1 ALL E11 Setting Lists of the COPY Menu This section explains the setting lists displayed in the menu How to read the setting lists For purposes of explanation each setting list is preceded by a menu number These numbers are not displayed on the screen For more information about the menu number see About menu numbers on page 19 The arrow mark gt refers you to another setting list that appears after you make the setting or to an operation that is carried out as a result of the setting When there is no arrow mark the menu does not have any sub list E COPY menu Select COPY from the menu list CONTROL PRESET ADJ COLOR TEMP ADJ SET UP MEMORY CARD COPY gt 1 STATUS MAINTENANCE KEY PROTECT OFF CONTROL PRESET E11 I COLOR TEMP E11 L SET UP E11 MONITOR ADDRESS menu Select the copy source monitor MONITOR ADDRESS Enter the address number gt EN E11 COPY menu Select the data to be copied gt Copy is carried out ALL Copy data for al
154. PS 2 10921 NJM7812FA V REG gt gt 5 2978 3 11 8 E 5V REG 3 341 m 0 47 0 47 0 47 0 47 25V 7 25V 25V T 25V F CHIPIF onm CHI PIF CHI P 999 m m Q809 10 DTA144EKA T146 E PROT 81 0804 DTC144EKA T1 46 POWER ON SW R82 4 ik cuip 0 5V R861 100k 10 CHIP R857 k 886 CHIP CHIP CHIP CHIP V BLK P1 H BLK P V BLK P2 5V SENCE RESET 44 eL MISO MOS I SCLK DIGITAL 5V DIGITAL 5V DIGITAL GND DIGITAL GND CH_SLOT2 INTERNAL 516 9 GND TO TA BOARD CN11 o z lt 1 1 o rs z go lt lt lt lt L SCLK 2 4 4 4 L MOSI 274 4 4 gt 4 10801 1 4 IP MC74HC125AF BUFFER P2 R852 851 100 100 CHIP 0859 06 25 SCL SDA FL901 274 3 4 gt 274 3 4 gt 1 RDS 658 1 DC LEVEL SHIFT G 1 G PROTI G PROT2 G PROT3 G PROT4 DEGAUSS G PROT2 G PROT3 G PROT4
155. Q806 801 806 11 TRANSISTOR DTC144EKA T146 R49 216 109 00 RES CHIP 330K 5 0807 8 729 027 38 TRANSISTOR 144 146 R50 216 677 11 METAL CHIP 12K 0 50 1 10W Q808 801 806 11 TRANSISTOR DTC144EKA T146 R51 249 393 11 CARBON 10 5 LAW F R3 249 429 11 CARBON 10K 5 0809 801 806 11 TRANSISTOR DTC144EKA T146 R53 215 481 00 METAL 330K 1 0810 8 729 027 38 TRANSISTOR 144 146 081 801 806 11 TRANSISTOR DTC144EKA T146 R54 215 481 00 METAL 330K 1 0812 801 806 11 TRANSISTOR DTC144EKA T146 R55 215 481 00 METAL 330K 1 0813 801 806 11 TRANSISTOR DTC144EKA T146 R56 216 679 11 METAL CHIP 15K 0 50 110 R57 216 661 11 METAL CHIP 2 7K 0 50 1 10W Q814 8 729 027 31 TRANSISTOR DTA124EKA T146 R58 215 477 00 METAL 220K 1 0815 801 806 11 TRANSISTOR DTC144EKA T146 Q816 801 806 11 TRANSISTOR DTC144EKA T146 R59 215 477 00 METAL 220K 1 0817 8 729 027 38 TRANSISTOR 144 1 146 R60 215 477 00 METAL 220K 1 0901 8 729 119 78 TRANSISTOR 25 2785 R61 216 677 11 METAL CHIP 12K 0 50 1 10W R62 216 673 11 METAL CHIP 82K 0 50 1 10W Q902 801 806 11 TRANSISTOR DTC144EKA T146 R63 216 645 11 METAL CHIP 560 0 50 1 10W Q903 801 806 11 TRANSISTOR DTC144EKA T146 Q904 801 806 11 TRANSISTOR DTC144EKA T146 R64 216 089 91 5 47K 5 R65 216 097 91 RES CHIP 100K 5 lt RESISTOR gt R66 215 477 00 METAL 220K 1 R67 215 477 00 METAL 220K 1
156. R095 216 073 00 RES CHIP 10K 5 NOW R019 216 041 00 RES CHIP 470 5 NOW R020 216 073 00 RES CHIP 10K 5 R100 249 381 11 CARBON 1 5 W OF R021 216 073 00 RES CHIP 10K 5 NOW R101 249 381 11 CARBON 1 5 W F R022 216 073 00 RES CHIP 10K 5 NOW R102 249 381 11 CARBON 1 5 W F R103 216 369 00 METAL OXIDE 1 5 W R023 216 049 91 RES CHIP 1K 5 1109 R104 216 065 91 RES CHIP 47K 5 HOW R024 216 049 91 RES CHIP 1K 5 110 R025 216 073 00 RES CHIP 10K 5 1109 R105 216 053 00 RES CHIP 15K 59 R026 216 049 91 RES CHIP 1K 5 110 R106 216 081 00 RES CHIP 2K 5 NOW R028 216 659 11 METAL CHIP 22K 050 1 10W R107 216 081 00 RES CHIP 2K 5 In0W R108 249 393 11 CARBON 10 5 14W F R029 216 675 11 METAL CHIP 10K 0 50 1 10W R109 216 057 00 RES CHIP 22K 56 R030 216 129 00 RES CHIP 22M 5 R031 249 377 11 CARBON 047 5 W F R111 216 049 91 RES CHIP 1K 5 NOW R032 249 377 11 CARBON 0 47 5 W F R112 216 065 91 RES CHIP 41K 5 R033 216 682 11 METAL CHIP 20K 0 50 1 10W R113 216 049 91 RES CHIP 1K 5 NOW 9 23 REFNO DESCRIPTION REMARK REFNO PARTNO DESCRIPTION REMARK R114 1 216 089 91 5 47K 5 R232 1 216 089 91 5 47K 5 NOW 115 1 216 065 91 RES CHIP 4 7K 5 NOW R233 1 216 079 00 RES CHIP 8K 5 NOW R234 1 216 063 91 5 3 9K 5 NOW
157. R303 1 216 065 91 5 47K 5 D109 8 719 404 49 DIODE MAII D110 8 719 404 49 DIODE R304 1 216 065 91 5 4 7K 5 R305 1 216 065 91 5 4 7K 5 D111 8 719 158 19 DIODE RD6 2SB R306 1 216 065 91 5 4 7K 5 NOW DI21 8 719 987 45 DIODE CL 155Y PG CD R307 1 216 065 91 5 4 7K 5 10W D122 8 719 987 45 DIODE CL 155Y PG CD R308 1 216 065 91 5 4 7K 5 0123 8 719 987 45 DIODE CL 155Y PG CD D124 8 719 987 45 DIODE CL 155Y PG CD lt SWITCH gt D125 8 719 987 45 DIODE CL 155Y PG CD 5201 1 692 037 31 SWITCH KEY BOARD POWER D126 8 719 987 45 DIODE CL 155Y PG CD S202 1 692 037 31 SWITCH KEY BOARD DEGAUSS D127 8 719 987 45 DIODE CL 155Y PG CD 203 1 692 037 31 SWITCH KEY BOARD 1 D128 8 719 987 45 DIODE CL 155Y PG CD S204 1 692 037 31 SWITCH KEY BOARD 2 D129 8 719 987 45 DIODE CL 155Y PG CD 5205 1 692 037 31 SWITCH KEY BOARD 3 D130 8 719 987 45 DIODE CL 155Y PG CD S206 1 692 037 31 SWITCH KEY BOARD Del 5207 1 692 037 31 SWITCH KEY BOARD 4 IC S208 1 692 037 31 SWITCH KEY BOARD 5 S209 1 692 037 31 SWITCH KEY BOARD 6 IC101 8 752 842 86 IC CXP2003M S210 1 692 037 31 SWITCH KEY BOARD 0 IC102 8 752 842 86 IC CXP2003M 5211 1 692 037 31 SWITCH KEY BOARD 7 TRANSISTOR 5212 1 692 037 31 SWITCH KEY BOARD 8 5213 1 692 037 31 SWITCH KEY BOARD 9 0101 8 729 921 12 TRANSISTOR 2501834 5214 1 692 037 31 SWITCH KEY BOARD Ent 0102 8 729 9
158. RIS 1 216 049 91 5 K 5 JR117 1 216 296 91 SHORT 0 JR118 1 216 296 91 SHORT 0 R16 1 216 073 00 RES CHIP 0K 5 NOW JR119 1 216 296 91 SHORT 0 R17 1 216 073 00 5 OK 5 RIS 1 216 057 00 RES CHIP 2 2K 5 BC REFNO PARTNO DESCRIPTION REMARK REFNO PARTNO DESCRIPTION REMARK R19 216 069 00 RES CHIP 6 8K 5 R92 216 097 91 RES CHIP 100K 5 R20 216 065 91 5 4 7K 5 R93 216 097 91 100K 5 R94 216 097 91 RES CHIP 100K 5 11077 R21 216 077 00 5 15K 5 1 10W R95 216 097 91 5 100K 5 R22 216 073 00 RES CHIP 10K 5 R96 216 097 91 RES CHIP 100K 5 R23 216 651 11 METAL CHIP IK 0 50 1 10W R24 216 651 11 METAL CHIP IK 0 50 1 10W R97 216 097 91 RES CHIP 100K 5 R25 216 651 11 METAL CHIP IK 0 50 1 10W R101 216 669 11 METAL CHIP 5 6K 0 50 110 R102 216 097 91 RES CHIP 100K 5 11077 R26 216 651 11 METAL CHIP IK 0 50 1 10W R103 216 059 00 RES CHIP 2 7K 5 R27 216 049 91 RES CHIP IK 5 R104 216 691 11 METAL CHIP 47K 0 50 1 10W R28 216 049 91 5 IK 5 R29 216 073 00 5 10K 5 R105 216 661 11 METAL CHIP 2 7K 0 50 1 10W R31 216 121 91 RES CHIP IM 5 R106 216 059 00 RES CHIP 2 7K 5 R109 216 073 00 RES CHIP 10K 5 R32 216 097 91
159. S G PORT 4 Q808 Q811 2 G PORT 3 M6 GPORTI 3 816 GPORT2 77 77 3315 EPROT MAIN 6 15 REG REG D5V REG 10 12 10 12 G BLOCK A B D E F G H HA HB HC HD HA HB HC HD RELAY 10 1022 RXD 28 Ea M 1027 TXD RXD 2 3 ADDRESS BUS A0 A7 BVM 14G1 20G1 SERIES TO MONITOR xD 53 127 1028 RXD ADDRESS BUS A8 A15 A8 A13 SEES 45V 80 55 15 Ed oe 154 A5 45V 2 5 gt 1 23 A6 IC10 IC14 14 1 22 4 1 12 TB BOARD TP6 TP7 A9 BVM BVM 14G5 SERIES I ONE i 718 A10 d E 4 1400 All a _
160. See Fig 1 20 Horizontal convergence adjustment Refer to 3 SET UP Adjustment 3 7 2 20 Inch Model Convergence Adjustment Page 3 9 4 3 UNDER SCAN mode convergence adjustment Refer to 3 SET UP Adjustment 3 7 2 20 Inch Model Convergence Adjustment Page 3 9 16 9 NORMAL SCAN mode convergence adjustment Refer to 3 SET UP Adjustment 3 7 2 20 Inch Model Convergence Adjustment Page 3 9 16 9 UNDER SCAN mode convergence adjustment Refer to 3 SET UP Adjustment 3 7 2 20 Inch Model Convergence Adjustment Page 3 9 5 3 10 Convergence Adjustment of 14 Inch Model Preparation Refer to 3 SET UP Adjustment 3 7 3 14 Inch Model Convergence Adjustment Page 3 10 Convergence adjustment Adjust V STATIC BOTTOM data and V STATIC TOP data so that a vertical mis convergence is minimized at the top and bottom areas of the screen Note V STATIC BOTTOM data and V STATIC TOP data adjustment menu is under E BOARD menu of MAINTENANCE menu See Fig 1 22 4 3 UNDER SCAN mode convergence adjustment Refer to 3 SET UP Adjustment 3 7 3 14 Inch Model Convergence Adjustment Page 3 10 16 9 NORMAL SCAN mode convergence adjustment Refer to 3 SET UP Adjustment 3 7 3 14 Inch Model Convergence Adjustment Page 3 10 16 9 UNDER SCAN mode convergence adjustment Refer to 3 SET UP Adjustment 3 7 3 14 Inch Model Convergence Adjustment Page 3 10 5 13 SECTION 6 CIRCUIT DESCRIPTIONS 6 1 BK Boa
161. Some delay should be anticipated when order ing these items The components identified marked A are critical for safety Replace only with the part number specified Les composants identifi s par une marque A sont critiques pour la s curit Ne les remplacer que par une pi ce portant le num ro sp cifi 8 1 BEZEL CABINET 8 1 BEZEL CABINET 14G1A 14G1E 14G1U 14G5A 14G5E 14G5U 7 685 648 79 BVTP3x12 7 682 947 01 PSW3x6 7 682 561 09 B4x8 7 628 000 04 55 14 7 682 161 01 4 8 7 682 547 09 P3x6 7 685 647 79 BVTP3x10 7 682 963 09 PSW4x14 gt 14G5A 14G5E 14G5U 8 2 REFNO PART NO DESCRIPTION REMARK 1 4 050 931 01 CABINET UPPER 14G5 1 4 050 967 01 CABINET UPPER 14G1 2 4405328111 _ 3 4 063 969 01 05 CASE CLAW 4 4 050 933 01 CABINET LEFT 5 4 050 932 01 CABINET RIGHT 6 4 053 255 01 S EMI 7 405325401 5 L EMI 8 X 3642 018 3 HANDLE ASSY 9 9 364204101 STOP HANDLE 10 4405092801 BRACKET HANDLE 4035 465 1 PANEL ASSY REAR 1401 X40354662 PANEL ASSY REAR 1405 12 4033 104 1 PANEL ASSY BLANK 13 14 13 4 050 804 01 SCREW PANEL STOPPER 14 3 648 057 00 NUT ISO 4 U 15 4405041301 INSULATOR ANODE 16 1373 641 YA MOUNT 17 44050 87601 PLATE LIGHT INTERCEPTION 18
162. TC74VHC4040F EL CLOCK DIVIDER TXD C46 7 1 1 15 CH CHIP 1C31 2 6 1031 3 6 TC74VHCUO4F EL TC74VHCUO4F EL INVERTER INVERTER 3 gt 5 56 9 595 1 210 1031 5 6 1031 4 6 TC74VHCUO4F EL TC74VHCUO4F EL INVERTER INVERTER CNS IN REMOTE 1 11 32 INTERACTIVEN 8951 5 5 CHIP CHIP CHIP CHIP CHIP STATUS REPORTING R556 k CHIP 1522 Rios ngak 8355 5V 2 RXDATA VDD 0 5 GND RXCLK Di RD6 2SB 1020 1021 BE 2 PROTECTOR TC74HC151AF EL TC74HC151AF EL 05 RTS 8 TO 1 SELECTER LONI SELEG TER 06 DSR 07 RESET TXCLK CLK WR TXDATA RXDATA cs TXEMP GND RXCLK 0 C D CTS m 0 RI NC BRK D SYNC BAUD20 RXRDY TXRDY 088 BAUD21 0 RESET XCLK 5 2 644 TXDATA 1036 x MAX202CSE TE2 0 5232 INTERFACE CTS SYNC BRK RXRDY TXRDY F CHIP 2
163. TT ves 16735 4 4 MC74HCO2AFEL MC74HC14AFEL PULSE GEN 001 INVERTER 11 CHIP 3 lt BIAS CLAMP P V S P 9 9 gt gt 9 8 12 4 9 5 9 6 9 1731 6 6 MC74HC14AFEL 2 0705 INVERTER asesor 1 0728 3 4 10734 3 3 9 4 02700 T4HCOOAFEL MC74HC11FEL 8722 PULSE GEN PULSE GEN 11 8 17 40 10730 2 4 10 10730 1 4 MC74HCO2AFEL 2 6 MC74HCO2AFEL AW PULSE GEN 4 7 BULSE GEN 10 w 13 28 1037 CN507 BLK 879 9 9 5 11 BLK OUT 10728 4 4 4 HO WC74HCOOAFEL HN I aem PULSE GEN BLUE 2 9 MEI a 12307 A C GREEN 2 9 2 TC7W74FU A C RED 2 9 gt CONTRAST 9 9 gt 6901 5904 LATCH 35V 5V 10701 3 3 SAMPLING HOLD SW SAMPLING HOLD SW NUM 16901 1 214 ABU CONTROL PE 10901 2 2 4 RN CP NJM4558M TP901 R960 CONTRAST BUFFER ik ABL 9 9 gt CHIE AM CONT 3 9 d MATIS VIDEO COMP 9 9 gt PROTECTOR 1C904 2 2 LM393PS 100k CHIP 1904 1 2 J J OVER LOAD 9 9 CHIP C900 C903 10703 1 2 a 6 01 6 01 COMPARATOR 8702 5 CHIP CHIP 5 PULSE SEP nd BRIGHT 9 9 5V 16701 1 3 MC74HC4053FEL 8710 10704 1 2 gu BRT REF SELECT RN CP TLOB2CPS RN CP 16704 2 2 BUFFER 8715 6706 TLO82CPS 16 ET 8717 3 2 2 2053 2023 0 8 vec CHIP 100k 6V x CHIP AW 14 t Ro80 0905 A714 2 3 R713
164. To reset the setting to the default Press the corresponding MANUAL button The adjusted value is reset to 1000 default 25 nue 1 nua Preset Adjustment of the Picture Level Control Knobs CONTROL PRESET ADJ Menu eee A2 AUTO menu Select the color bar signal to be used for automatic adjustment gt Adjustment is carried FULL FIELD CB 100 100 full field color bar FF CB 75 WHITE 100 75 full field color bar with 100 white signal SMPTE CB SMPTE standard color bar EIA CB EIA standard color COPY menu Select the source to be copied from OTHER MONITOR Copy data from another monitor gt A31 MEMORY CARD Copy data from a memory card A32 A31 OTHER MONITOR menu Input the address of the monitor from which the data will be copied gt Copy is carried out MONITOR ADDRESS Input the address A32 MEMORY CARD menu Select the file name gt Copy is carried out FILE NAME Select the file name 26 91 1 Adjusting the Color Temperature COLOR TEMP ADJ Menu Overview The color temperature is adjusted with the COLOR TEMP ADJ menu The color temperature can be set to one of STD COLI or COL 2 for each channel Use the factory setting value or the adjusted value as an original values to shorten the adjustment time Color temperature adjustment can be made in the
165. UP MEMORY CARD gt 51 to D4 COPY STATUS MAINTENANCE KEY PROTECT OFF Select the operation to perform It takes some time to load and save the data SAVE Write data to a monitor memory card gt 01 LOAD Read data from a monitor memory card gt 2 DELETE Delete a file gt D3 FORMAT Format a monitor memory card D4 46 D1 SAVE menu Select the name of the file to which to write data or create a new file name NEW NAME Enter a new name max 20 characters D2 LOAD menu Select the name of the file from which to read data D3 DELETE menu Select the name of the file to delete The following confirmation message appears DELETE THIS FILE OK ENTER KEY CANCEL MENU KEY OK To continue press the ENTER button gt The file is deleted CANCEL To cancel press the MENU button gt Return to the level 2 of the DELETE menu D3 File name list D4 FORMAT menu Confirm the format operation The following confirmation message appears All files will be deleted at formatting ALL FILES WILL BE DELETED ARE YOU SURE OK ENTER KEY CANCEL MENU KEY OK To continue press the ENTER button gt The format is performed CANCEL To cancel press the MENU button gt Return to the MEMORY CARD menu D 92 1 Monitor to Monitor Data Copy COPY
166. VON voc 25040 1 903 STATUS REGISTER X DECODE 512 BYTE ARRAY COMMNAD DECODE 4 Y DECODE DATA REGISTER 11 30 BK BC 1 4 BC 1 4 RD WR 274 374 3 ETN 174 a lt lt lt lt lt P nA A UA S HORS 8888 MICROCOMPUTER lt lt lt 8 4 Roz 94 R96 163 0 1100 100k 100k 100k 9 CAT28F020P 15 PROGRAM S RAM 2 4 CHIP PROGRAM 5V 2 ADDRESS SELECTOR __ PARALLEL 1 0 donee a p 5 NCHR
167. allowing you to control multiple monitors from one control unit BKM 12Y Monitor Memory Card Memory cards which can be read and written by the BVM 14G5U 14G5E 14G5A or BKM 10R 11R BKM 14L Auto Setup Probe This probe allows automatic adjustment of this monitor s color temperature For screen BKM 33H20 Monitor 16 9 Mask Adapts the BVM 20G1U 20G1E 20G1A screen for 16 9 aspect ratio display BKM 33H14 Monitor 16 9 Mask Adapts BVM 14G1U 14G1E 14G1A 14G5U 14G5E 14G5A screen for 16 9 aspect ratio display For installation BKM 30E20 Rack Mount Kit Rack mount kit for mounting the BVM 20G1U 20G1E 20G1A in an EIA standard 19 inch rack BKM 30E14 Rack Mount Kit Rack mount kit for mounting the BVM 14G5U 1465 1465 in an standard 19 inch rack BKM 31E14 Rack Mount Kit Rack mount kit for mounting the BVM 14G1U 14G1E 14G1A in an EIA standard 19 inch rack BKM 32H Monitor Control Unit Attachment Kit Assembly kit for attaching a BKM 10R Monitor Control Unit to the BVM 20G1U 20G1E 20G1A Decoder and input expansion adaptors The input connector panel is configured by sliding optional decoder adaptor or input expansion adaptor into the input option slot at the rear of the monitor When installing the adaptor be sure to perform the necessary input signal setup with the INPUT CONFIGURATION menu If the setup is not performed the adaptors may not function correctly For information about the INPUT CO
168. down the H BLK WIDTH data Set the original H SIZE data Signal range H BLK M V ewe gt A lt H BLK WIDTH H BLK PHASE Fig 1 7 3 UNDER SCAN Mode Set the SCREEN MODE to 4 3 UNDR at the INPUT CONFIGURATION menu of the SETUP menu Set the H CENTER data to the same value as the 4 3 NORMAL SCAN mode Set the H PHASE data to the same value as the 4 3 NOR MAL SCAN mode Adjust the H BLK PHASE data until the blanking at the right side of the screen just disappears outside the effec tive screen Set the H BLK PHASE data to 30 Write down the H BLK PHASE data Adjust the H BLK WIDTH data until the blanking at the left side of the screen just disappears outside the effec tive screen Set the H BLK WIDTH data to 30 Write down the H BLK WIDTH data 16 9 NORMAL SCAN Mode 1 Set the SCREEN MODE to 16 9 NORM at the INPUT CONFIGURATION menu of the SETUP menu Set the H CENTER data to the same value as the 4 3 NORMAL SCAN mode Set the H PHASE data to the same value as the 4 3 NOR MAL SCAN mode Set the H BLK PHASE data to the same value as the 4 3 NORMAL SCAN mode Set the H BLK WIDTH data to the same value as the 4 3 NORMAL SCAN mode 16 9 UNDER SCAN Mode 1 Set the SCREEN MODE to 16 9 UNDR at the INPUT CONFIGURATION menu of the SETUP menu Set the H CENTER data to the same value as the 4 3 UNDR SCAN mode Set the H PHASE data to the same value as the 4 3 UND
169. enthaltene Material besteht aus Informationen die Eigentum der Sony Corporation sind und ausschlieBlich zum Gebrauch durch den Kaufer der in dieser Anleitung beschriebenen Ausr stung bestimmt sind Die Sony Corporation untersagt ausdr cklich die Vervielfaltigung jeglicher Teile dieser Anleitung oder den Gebrauch derselben f r irgendeinen anderen Zweck als die Bedienung oder Wartung der in dieser Anleitung beschriebenen Ausr stung ohne ausdr ckliche schriftliche Erlaubnis der Sony Corporation English 98BT0911 1 Sony Corporation Printed in Japan 9 922 695 01 Broardcasting amp Professional Systems Company 1998 2 Published by Global Support Promotion Dept
170. fourni pour ce moniteur sinon il pourrait ne pas tre conforme aux r gles FCC ou la directive CEE 89 336 EEC Hinweis Dieser Monitor darf ausschlieBlich mit dem mitgelieferten Netzkabel betrieben werden weil anderenfalls der Monitor nicht mehr die FCC Vorschriften oder die EG Richtlinie 89 336 EWG erf llt Nota Utilice sin falta el cable el ctrico que viene con este monitor de lo contrario el monitor puede no cumplir con los reglamentos de la FCC o de la directiva 89 336 EEC de la Comunidad Europea Nota Assicurarsi di usare il cavo di alimentazione in dotazione per questo monitor altrimenti il monitor pu non essere conforme alle norme FCC o alla Direttiva CEE 89 336 ATTENTION When the product is installed in a rack a Elevated operating ambient temperature If installed in a closed or multi unit rack assembly the operating ambient temperature of the rack environment may be greater than room ambient Therefore consideration should be given to installing the equipment in an environment compatible with the manufacture s maximum rated ambient temperature Tmra 0 C to 35 C 32 F to 95 F b Reduced air flow Installation of the equipment in a rack should be such that the amount of air flow required for safe operation of the equipment is not compromised c Mechanical loading Mounting of the equipment in the rack should be such that a hazardous condition is not achieved due to uneven mechanical loading
171. la copie de quelque partie que ce soit de ce manuel ou son emploi pour tout autre but que des op rations ou entretiens de l quipement moins d une permission crite de Sony Corporation Das in dieser Anleitung enthaltene Material besteht aus Informationen die Eigentum der Sony Corporation sind und ausschlieBlich zum Gebrauch durch den Kaufer der in dieser Anleitung beschriebenen Ausr stung bestimmt sind Die Sony Corporation untersagt ausdr cklich die Vervielf ltigung jeglicher Teile dieser Anleitung oder den Gebrauch derselben f r irgendeinen anderen Zweck als die Bedienung oder Wartung der in dieser Anleitung beschriebenen Ausr stung ohne ausdr ckliche schriftliche Erlaubnis der Sony Corporation 5 1 lt BKM 10R WARNING To prevent fire or shock hazard do not expose the unit to rain or moisture To avoid electrical shock do not open the cabinet Refer servicing to qualified personnel only This symbol is intended to alert the user to the presence of important operating and maintenance servicing instructions in the literature accompanying the appliance For customers in the USA This equipment has been tested and found to comply with the limits for a Class A digital device pursuant to Part 15 of the FCC Rules These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment This equipment generates uses and can radiate radi
172. m X gt o 2 z 3 gt 5 4 5 2 gt T xS a 5 69 x 2 95 5 GET Ser m o lt us o 228 adc oor o 357742 85 M E oor g i 5 gt oo S S gt 225 iS o S aor a SEE a 2 lt lt EE Y Bost EET 228 Sz 572 Ce 4 Dl z m PT 58 esse 23 ES gs EO Fe oF roi a o Read ES 4 5 bow 5 22 1 Aone 4 oe zu 5 S 27 idt 27 gn HE Woo 5 ers gt gt 23 1 Be 22 F 25 25 ee 2 25 SX zs 5 18 2 255 5 w 1 5 gee 4 585 995 Sor 5 5 E a 2 5 Sara Si bd ozz wales 25 i ol I gS BNE gt e gt a AW E N el 1 gt e Ae AW o 58 5 Ses gee 559 2 E Ww lt a TOS 2 6 a 7535 gt 5 lt a i 8
173. of this unit is composed of the following three switching regulators 1 Power factor correction regulator for conforming to the power supply harmonic regulation 2 LOW B regulator for supplying the voltage required by the processing circuits of the signal block and deflec tion high voltage blocks mainly 3 HIGH B regulator for supplying voltage required by the output circuits of the deflection high voltage blocks 1 Power factor correction block The power factor correction circuit hereafter referred to as PFC is composed of T3 IC31 Q31 D36 C43 and related parts The power factor correction circuit of this power supply adopts the boost PWM control method In the basic opera tions the output voltage Vpfc is made higher than the peak value of the input power supply voltage at all times by the boost type switching regulator which performs continuous current operations Unlike the normal regulator as the input voltage is a sine wave voltage control and current control proportionate to this are performed Consequently IC31 which PWM controls PFC not only makes the Vpfc voltage constant but also PWM controls Q31 which is the FET for PFC OUT so that the current flowing to T3 input power supply current waveform becomes the same as the input power supply voltage waveform As the waveforms of the input voltage and current become similar the power factor is improved 2 LOW B Regulator The power supply for LOW B is mainly compose
174. sw sw SWITCH FUNCTION RXD RXD TXD TXD am D204 Q207 10202 E 201 POWER D45V OUT IC901 l S20 DEGAUSS EDGE TRIG 1 5901 DW D206 0208 209 412V REG 12V S203 209 0 9 INVERTER MAIN POWER m e 16V OUT w wasi senang n i e CARD ADDRESS To MAN 02070210211 rama ADD 045 imm D36 I OUT 1 31 1 8215 CONTRUST 07 208 0212 213 6V S216 BRIGHT 56 10 i PROTECT 2201 0203 205 8217 CHROMA ADDRESS DECODER RESET gt PWM CONTRO 6 gt 6V BUFFER I CONVERTER OUT 0209 0214215 5218 MENS DECODER 1 OUT 801 802 804 100240 OND NET pus A BE 0 051 56 BUS SELECT 50 60Hz 15 T 16 REG 5V OVP p 3221 UP mo T4A 250V PH803 Q802 816 817 8222 DOWN CE2 MOSISCLK IC101 ISORATOR SWITCH ZTq HC 0101 103 104 109 102 0105 106 Dis o 0504 ER POWERON 1 COMPARATOR t 5 3 Ll PEC OFF COMPARATOR BESET 225 HT H1 EPROT SWITCH FUNCTION BUEFER 1 101 102 101 110 101 SHIFT HT H2 5102 169 1 301 0303 305 65V 132 032 1031 031 CONTHO S103 m SYNC CONVERTER OUT 8104 BLUE ONLY PFCCONTROL
175. the BLACK pulse is set by the R Y CLAMP OFFSET voltage These two voltages are switched by the WHITE INSERT P at IC500 2 3 passed through IC300 1 2 and input to IC301 3 3 The same is performed for the B Y signal 1 4 Chroma Level Adjustment Circuit The R Y signal is level adjusted by IC303 gain control amplifier The R Y signal output from IC303 is input to IC304 1 3 and the voltage of the WHITE pulse is sample held At IC302 2 2 this voltage and the CHROMA voltage are compared and the gain of IC303 is controlled As a re sult the WHITE pulse voltage becomes equal to the CHROMA voltage Consequently by varying the CHROMA voltage the chroma level can be adjusted The R Y signal output from IC303 is also input to IC325 Here the voltage of the BLACK pulse is sample held At IC320 2 2 this voltage and the GND level is compared to control the DC bias of IC303 As a result the pedestal level of the R Y sig nal is fixed at the GND level The same is performed for the B Y signal 1 5 Matrix Circuit The R and B signals are created by inputting the Y R Y and signals to the matrix circuit R Signal Matrix Circuit At Q140 the Y signal and R Y signal are added to create the R signal G Signal Matrix Circuit At Q306 the R Y signal which had passed through IC305 gain control amplifier is added with the signal This signal is inverted amplified and added to the Y signal at Q350 to crea
176. white peak 714 29 mV 20 IRE all white signal All white peak 142 86 mV 3 COMPONENT BETACAM SETUP 0 75 color bar signal All white peak 714 mV 4 COMPOSITE NTSC SETUP 7 5 100 color bar signal All white peak 714 mV 5 COMPOSITE NTSC SETUP 0 100 color bar signal All white peak 714 mV Set as follows at the INPUT CONFIGURATION menu of the SETUP menu FORMAT Set according to the input signal SLOT NO When component signal is input 6 When composite signal is input Slot no when BKM 24N NTSC 25P PAL is mounted SYNC INT 5 3 Configuration when Component Signal is Input YUV SMPTE EBU N10 signal or YUV BETACAM SETUP 0 signal or YUV BETACAM SETUP 7 5 signal Extension board cable kit Part No A 1394 806 B Y G terminal terminal terminal SYNC terminal 75Q terminator Component signal generator BK board 3113 a MNN 4 144331 BKM 10R BVM 20G1 Oscilloscope Fig 5 7 Configuration when Composite Signal is Input Comopsite NTSC SETUP 7 5 signal or Composite NTSC SETUP 0 signal BK board Extension board cable kit Part No A 1394 806 B terminator BKM 24N NTSC BKM 25P PAL Composite signal generator Oscilloscope 22900031317 mm TAHA BKM 10R BVM 20G1 Fig 5 8 5 4 1 Pulse Level Adjustment Note The following adjustment menus are under th
177. 0 8233 CHROMA QO t E T 0 0 oo bl L EDS 42 8222 2 S208 0 0 mr gt i gt MED 8 0 560 0 8209 9209 rose _ CHIP MATI SWITCH 4 Tk T Rs NG CHIP L 53 CONTRAST 5810 rp 111 SWITCH 8202 1 6302 5234 x 4 579 8302 90 PHASE BRIGHT Ael Alr sare Qu PL FCH 0224 PD1 2 8203 cL 155Y PG 2 Gite D S213 L w 4 EDO CHROMA 8214 9214 R301 Te z MATT SWITCH 4 Tk T 0225 oo CHIP 5 I 204 cL 155Y P0 CHIP w PHASE o A FUNCTION OF SWITCH pan kau a S201 POWER S212 INPUT8 d 202022 8202 pEGAUss 8213 INPUTS qm ORENGE LED DRIVE TP201 TP205 5208 INPUTI NDUTLENT s 204 INPUT2 215 MANUAL CONTRAST REIS 205 INPUTS 216 MANUAL BRIGHT 9203 206 INPUTO 217 MANUAL CHROMA GREEN LED DRIVE E 207 INPUT4 218 MANUAL PHASE aak 208 INPUTS 219 MENU ME 209 INPUT6 220 ENTER 62012025 c208tL 204502051 020651 0207 210 INPUT DEL 221 UP 211 INPUT7 8222 DOWN FUNCTION CONTROL 553280 lt gt 11 49 11 49 BVM 14G5 HB
178. 0 inch model Neck Assy Fig 1 16 lt HMC and correction with 6 pole magnet 1 VMC correction A HMC horizontal misconvergence correction of 6 pole magnet and movement of electron beam HMC correction A 225 L B 5 8 A B jell A B Fig 1 17 HMC correction B 2 WMC vertical misconvergence correction of 6 pole magnet and movement of electron beam VMC correction B C D C D 5 gt Fig 1 18 cEORgrFOR Qc oG 9 D D G B 3 7 2 20 inch Model Convergence Adjust Horizontal Convergence Adjustment ment 1 Adjust the horizontal convergence adjustment data H 4 3 NORMAL SCAN mode CONV data in the following order so that the red green 1 Set the SCREEN MODE to 4 3 NORM at the INPUT and blue dots coincide on the whole screen CONFIGURATION menu Do not change the value of the H STAT data and H 2 Input the cross hatch signal STATIC CONV data 128 Note1 The horizontal convergence adjustment menu Vertical Convergence Adjustment is under the E BOARD menu of the MAINTE 1 Minimize the vertical misconvergence at the center of NANCE menu the left side of the screen and the center of the right side Note2 In anadjustable completely using a Permalloy of the screen using the DY correction reactors XBV and correction board and fix with RTV XCV 1 HCONVCT As TLV is used for adjusting the horizontal trapezoid 2 HCON
179. 005 11 CERAMIC CHIP 0 47MF 25V C701 164 232 11 CERAMIC CHIP 001 10 50V 2001 C967 164 005 CERAMIC CHIP 25V C702 164 004 11 CERAMIC CHIP 0 1 10 25V 2001 C968 164 005 11 CERAMIC CHIP ATMF 25 Cni 163 275 11 CERAMIC CHIP 0 001 5 50 2001 C969 164 005 11 CERAMIC CHIP 0 47MF 25V C712 164 004 11 CERAMIC CHIP 0 1 10 25 2001 970 164 005 11 CERAMIC CHIP A7MF 25V C721 163 259 91 CERAMIC CHIP 220PF 5 50V 2001 C971 104 652 11 ELECT 470MF 20 10V C724 104 987 11 FILM 0 001 10 200 2001 C972 104 652 11 ELECT 470MF 20 10V C725 163 251 11 CERAMIC CHIP 100PF 5 50V 2001 C976 164 005 CERAMIC CHIP ATMF 25V C741 163 222 11 CERAMIC CHIP SPF 0 25 50V 2061 C981 104 652 11 ELECT 470MF 20 10V C742 163 222 11 CERAMIC CHIP SPF 0 25PF 50 2001 C986 164 005 11 CERAMIC CHIP 0 47MF 25V C801 107 889 11 ELECT 220MF 20 10V C987 164 005 11 CERAMIC CHIP 47 25V C802 107 889 11 ELECT 220MF 20 10V C988 164 005 11 CERAMIC CHIP 25V C811 164 005 11 CERAMIC CHIP 0 47MF 25V C992 128 526 11 ELECT 100 20 16V C812 164 005 11 CERAMIC CHIP 0 47MF 25V C993 128 526 11 ELECT 100MF 20 16V C813 164 005 11 CERAMIC CHIP 0 47MF 25V C994 128 526 11 ELECT 100 20 16V C814 164 005 11 CERAMIC CHIP 0 47MF 25V C996 164 005 11 CERAMIC CHIP 0 47MF 25V C815 164 005 11 CERAMIC CHIP 0 47MF 25V C997 164 005 11 CERAMIC CHIP 0 47MF 25V C816 164 005 11 CERAMIC CHIP 0 47MF 25V C998 164 0
180. 05 11 CERAMIC CHIP 0 47MF 25V C821 107 906 11 ELECT 10 20 50 C999 164 005 CERAMIC CHIP 0 47MF 25V C862 163 251 11 CERAMIC CHIP 100PF 5 50V CONNECTOR C873 163 251 11 CERAMIC CHIP 100PF 5 50 C911 107 889 11 ELECT 220MF 20 25V CN007 580 798 11 CONNECTOR DY 6P C912 107 889 11 ELECT 220MF 20 25V CN501 1 564 508 11 PLUG CONNECTOR 5P C913 107 889 11 ELECT 220MF 20 25V CN801 774 523 11 CONNECTOR PC BOARD 64 C916 164 005 11 CERAMIC CHIP 0 47MF 25V CN802 774 523 11 CONNECTOR PC BOARD 64 CN902 766 243 11 CONNECTOR PC BOARD 5P C917 164 005 11 CERAMIC CHIP 0 47MF 25V C918 164 005 11 CERAMIC CHIP 0 47MF 25V CN903 166 241 11 PIN CONNECTOR PC BOARD C919 164 005 11 CERAMIC CHIP 0 47MF 25V CN905 766 240 11 CONNECTOR PC BOARD 2P C920 164 005 11 CERAMIC CHIP 0 47MF 25V C921 128 528 11 ELECT 470MF 20 16V lt DIODE gt C922 128 526 11 ELECT 100MF 20 16V D031 8 719 908 03 DIODE GP08D C923 128 526 11 ELECT 100MF 20 16V D061 8 719 037 24 DIODE RD12SB3 T1 C924 164 005 11 CERAMIC CHIP 0 47MF 25V D062 8 719 920 67 DIODE ERC91 02 C925 164 005 11 CERAMIC CHIP 0 47MF 25V D101 8 719 971 20 DIODE ERC38 06 C926 164 005 11 CERAMIC CHIP 0 47MF 25V D102 8 719 971 20 DIODE ERC38 06 C928 164 005 11 CERAMIC CHIP 0 47MF 25V D103 8 719 158 15 DIODE 5 658 C929 164 005 11 CERAMIC CHIP 0 47MF 25V DIII 8 719 036 86 DIODE RD4 3SB3 TI C930 164 005 11 CERAMIC CHIP 0 47MF 25V D11
181. 06 307 8 216 5 1C501 1 2 ABLOUT ABL2 802 205 it 20 1 PWM CONTROL 2 802235 gt TO BK TA DF CONTROL 1 10 11 10 11 D E F G 5 NM ONSE 7 5 70 5 DEG SWITCH 8 415 DEGAUSS Q902 TP201 5505 3 A29 DIGITAL 5V IND 3829 DIGITAL 3 A26 5V SENSE Q6 15V 15V REG SWITCH 420V TT 3 5 15V D6 3 B5
182. 061 HD P YA YB YC CN904 2472 HD sipE 1 657 342 11 BVM 14G1 20G1 BKM 10R 019 70582 P B SIDE 1 667 734 11 C B SIDE 1 667 733 11 YA B SIDE 1 667 735 11 1 667 736 11 YB B SIDE YC B SIDE 1 667 736 11 1 667 737 11 NOTE The circuit indicated as left contains high voltage of over 600 Vp p Care must be paid to prevent an electric shock in inspection or repairing 11 10 11 10 1465 HA HB HB 1465 BKM 10R HA A SIDE 1 657 339 12 BVM 14G5 BKM 10R HB A SIDE 1 657 340 12 BVM 14G5 BKM 10R HB B SIDE 1 657 340 12 BVM 14G5 BKM 10R 11 11 BVM 14G5 BKM 10R 11 11 BVM 14G5 HC 14 5 BKM 10R HC SIDE BVM 14G5 BKM 10R Hu Pi nn 19 ee LLLLLLLLLLLLL kh kh kdi 6 0 HC B SIDE BVM 14G5 BKM 10R 11 12 11 12 TA TA Lu gt E o E 2 v 8 o 5 gt 2 72 8 e E 5 o 600 Vp p Care must be paid to prevent an electric shock in inspection or repairing B SIDE 1 667 738 12 11 13 M M II rete et SEE E E E D Y 1 I TA
183. 07 1 537 864 11 POST TP301 1 537 864 11 POST D216 8 719 404 49 DIODE TP302 1 537 864 11 POST D217 8 719 404 49 DIODE TP303 1 537 864 11 POST D218 8 719 404 49 DIODE TP304 1 537 864 11 PIN POST D219 8 719 404 49 DIODE D220 8 719 404 49 DIODE TP305 1 537 864 11 POST 9 31 HA HB REFNO PARTNO DESCRIPTION REMARK REFNO PART NO DESCRIPTION REMARK D221 8 719 404 49 DIODE S215 1 692 037 31 SWITCH KEY BOARD MANUAL CONTRAST D222 8 719 404 49 DIODE D223 8 719 987 45 DIODE CL 155Y PG CD S216 1 692 037 31 SWITCH KEY BOARD MANUAL BRIGHT D224 8 719 987 45 DIODE CL 155Y PG CD S217 1 692 037 31 SWITCH KEY BOARD MANUAL CHROMA D225 8 719 987 45 DIODE CL 155Y PG CD S218 1 692 037 31 SWITCH KEY BOARD MANUAL PHASE S219 1 692 037 31 SWITCH KEY BOARD MENU D226 8 719 987 45 DIODE CL 155Y PG CD S220 1 692 037 31 SWITCH KEY BOARD ENTER D231 8 719 158 19 DIODE RD6 2SB 8221 1 692 037 31 SWITCH KEY BOARD UP IC 5222 1 692 037 31 SWITCH KEY BOARD DOWN 231 1 473 469 11 ENCODER ROTARY CONTRAST IC201 8 752 842 86 IC CXP2003M 5232 1 473 469 11 ENCODER ROTARY BRIGHT IC202 8 752 842 86 IC CXP2003M 8233 1 473 469 11 ENCODER ROTARY CHROMA lt TRANSISTOR gt 234 1 473 469 11 ENCODER ROTARY PHASE Q202 8 729 921 12 TRANSISTOR 2SD1834 Q203 8 729 921 12 TRANSISTOR 2SD1834
184. 0808 M 2802412 SYNC AGE E NGANG Ka EL sv SWITCH 6 R823 C834 R870 I R813 330 R840 C828 C832 R861 470 836 4 Tk R801 1 5k R816 R819 R821 CHIP R834 18k 470p 470 470 RN CP wes CHIR 0805 nt 8822 z ER CHIP 0817 cH 1 225 ci cite 88 0 4 5 5 1 R807 8810 2 8 1MX2 22k 2 5 0811 3 8 2802412 g 177176 thie 680 0803 SYNC AGC 284 CHIP evil Asc SYNC AGC 1 5 1 NIE 15 14 0 7 TAX AM Cx 5 SWITCH 10 Mu SYNC AGC 1 5 1 8 3 4 14 7 23 2 5 2 RD 9 ef aeoe neoe KN 5 8 2 1 ICT 8 45383 NS 0 7 dhe ache 1 2 F i i 27 1 1 CLAMP PULSE GEN BUFFERS I w NT 0 8 16 F CHIP 0 7 kon 3 4 1 1 1 51 820 Ri EXT SYNC 1 9 3 HT CP 0 Ne 0807 z CHIP R815 R817 R818 C819 R820 8830 0821 0824 8805 C814 C816 0 7 Q804 1305 cH n 1869 100p 100p 8812 2802412 TN AGC FP F CHI P CH CHIP CH CHIP 3 9k SYNC AGC SYNC TNT EXT9 9 1 0802 EHIE 0815 28A1037K 2802412 6845 10805 SYNC AGC SYNC AGC cH CHIP TC7802FU CLAMP PULSE GEN M 28410376 2 H BLK 7 9 9 9 1825 8833 AGC C830 R858 0833 8863 CHIPE 80 CHIP RN CP 8635 0 9 Tk 5 2 H CHIP ANC lt HS 9 9 1 M eji 255 15 NUM
185. 0V 120V 8 bs 1200 RECT 1 e 9 545 TUN v EE ale 7 22 ET AN C306 305 25V 25V B CHIP R314 R312 J I D306 111 PROTECTOR 1 R311 22k RN CP Q O Q 9 G 25K2766 07R F165 018 CONVERTER OUT CEAMP zigiz wall S S 5 2 al v 1 1 1 19 ELE 8317 LM339NS E20 COMPARATOR TP304 GND 8332 mpl UP 1 33k 4 10007 RS 1C801 1 4 0316 6800 TAY 1 PH301 fiw 58 Rece p 128FY2 ORATOR 25 3 2 C304 TP306 22 HT v 0801 SLR 325MCT31 PFC IND gt t Ihe eo 0812 0813 0814 0123 2 Pie DTCTA4EKA DTC144EKA DTAT24EKA SORATOR SW E PROT PROT D305 MA111 TX SWITCH R306 ChIP orci 3 PFC PROT 5 2 MA 0 osos u
186. 1 10 25V 2 163 227 11 CERAMIC CHIP 10PF 0 5 50V 155 164 182 1 CERAMIC CHIP 0 0033MF 10 50 C3 163 235 11 CERAMIC CHIP 22PF 5 50V C4 163 235 11 CERAMIC CHIP 22PF 5 50V C156 164 344 11 CERAMIC CHIP 0 068 10 25 C5 126 396 11 ELECT CHIP 47MF 20 16V C157 164 004 11 CERAMIC CHIP 0 1 10 25V C201 126 392 11 ELECT CHIP 100MF 20 63V C7 163 031 11 CERAMIC CHIP 0 01MF 50V C202 126 392 11 ELECT CHIP 100MF 20 63V C8 163 031 11 CERAMIC CHIP 0 01MF 50V C203 126 392 11 ELECT CHIP 100MF 20 63V C9 163 031 11 CERAMIC CHIP 0 01MF 50V C10 163 275 11 CERAMIC CHIP 0 001 5 50V C204 126 392 11 ELECT CHIP 100 20 63V 163 275 11 CERAMIC CHIP 0 001 5 50V C205 126 392 11 ELECT CHIP 100 20 63V C206 126 392 11 ELECT CHIP 100 20 63V C12 163 031 11 CERAMIC CHIP 0 01MF 50V C207 126 392 11 ELECT CHIP 100MF 20 63V C31 163 038 11 CERAMIC CHIP 0 1 25V C208 126 392 11 ELECT CHIP 100 20 63V C32 163 038 11 CERAMIC CHIP 0 1 25V C33 163 038 11 CERAMIC CHIP 0 1 25V C209 126 392 11 ELECT CHIP 100 20 63V C34 163 038 11 CERAMIC CHIP 0 1 25V C210 126 392 1 ELECT CHIP 100MF 20 63V 211 126 392 11 ELECT CHIP 100MF 209 63V C35 163 038 11 CERAMIC CHIP 0 1 25V C212 126 392 11 ELECT CHIP 100MF 20 63V C36 163 038 11 CERAMIC CHIP 0 1 25V C213 126 392 11 ELECT CHIP 100MF 20 63V C37 163 038 11 CERAMIC CHIP 0 1 25V C39 163 038 11 CERAMIC CHIP 0 1 25V C214 126 392 11 ELECT CH
187. 1 10W CN503 1 766 241 11 CONNECTOR PC BOARD 3P R1011 1 216 685 11 METAL CHIP 27K 0 50 0 CN504 1 564 507 11 PLUG CONNECTOR 4P 1012 1 216 627 11 METAL CHIP 0 50 0 CN505 1 564 507 1 PLUG CONNECTOR 4P R1013 1 216 685 11 METAL CHIP 27K 150 1 10W 1014 1 216 627 11 METAL CHIP 0 50 0 CN506 1 564 507 11 PLUG CONNECTOR 4P CN507 1 564 506 11 PLUG CONNECTOR 1015 1 216 685 11 METAL CHIP 27K 150 1 10W CN508 1 564 511 11 PLUG CONNECTOR 8P 1016 1 216 627 11 METAL CHIP 0 50 0 1017 1 216 685 11 METAL CHIP 27K 150 1 10W lt DIODE gt 1018 1 216 627 11 METAL CHIP 0 50 1 10W 1019 1 216 685 11 METAL CHIP 27K 150 1 10W D501 8 719 979 58 DIODE EGPIOD D601 8 719 404 49 DIODE 111 R1020 1 216 627 11 METAL CHIP 0 50 110 D602 8 719 404 49 DIODE R1021 1 216 685 11 METAL CHIP 27K 150 1 10W D603 8 719 404 49 DIODE 111 R1022 1 216 627 11 METAL CHIP 0 50 0 D604 8 719 404 49 DIODE R1023 1 216 685 11 METAL CHIP 27K 150 1 10W R1024 1 216 627 11 METAL CHIP 0 50 0 D701 8 719 158 55 DIODE RDISSB lt TERMINAL BOARD gt lt IC gt TBI 1 694 371 11 TERMINAL BOARD ASSY I O IC601 8 759 983 69 IC LM358PS IC701 8 759 346 42 IC TDA6101Q N3 lt THERMISTOR gt lt SOCKET gt TH300 1 807 796 11 THERMISTOR J501 A 1 251 116 11 SOCKET CRT lt CRYSTAL gt lt CHIP CONDUCTOR gt X900 1 578 689 21 VIBRATOR 18501 1 216 295 91 SHORT 0 18503 1 216 295 91 SHORT 0 18504 1 216 295 91 SHORT
188. 1 216 025 91 5 10 5 R872 1 216 025 91 5 10 5 R741 1 216 692 11 METAL CHIP 51K 50 1 10W 20G1 R873 1 216 081 00 5 22K 5 R742 1 216 081 00 5 22K 5 10W 20G1 R743 1 216 081 00 5 22K 5 10W 20G1 R901 1 249 377 11 CARBON 0 47 5 14W F R744 1 216 081 00 5 22K 5 10W 20G1 R745 1 216 692 11 METAL CHIP 51K 50 1 10W 20G1 lt TRANSFORMER gt R746 1 216 081 00 5 22K 5 10W 20G1 051 1 426 668 11 TRANSFORMER FERRITE HDT R747 1 216 097 91 5 00K 5 10W 20G1 T052 1 431 702 11 TRANSFORMER FERRITE HOT R748 1 216 692 11 METAL CHIP 51K 50 1 10W 20G1 5 1 431 734 11 TRANSFORMER FERRITE HLT R749 1 216 097 91 5 00K 5 10W 20G1 T301 1 424 555 11 TRANSFORMER FERRITE DFT R750 1 216 692 11 METAL CHIP 51K 50 1 10W 20G1 lt TEST PIN gt R751 1 216 097 91 5 00K 5 10W 20G1 R752 1 216 097 91 5 00K 5 10W 20G1 TP031 1 537 864 11 PIN POST R753 1 216 692 11 METAL CHIP 50 1 10W 20G1 TP052 1 537 864 11 PIN POST R754 1 216 097 91 5 00K 5 10W 20G1 151 1 537 864 11 PIN POST R755 1 216 692 11 METAL CHIP 51K 50 1 10W 20G1 TP551 1 537 864 11 PIN POST R756 1 216 097 91 5 00K 5 10W 20G1 lt CRYSTAL gt R801 1 216 097 91 5 00K 5 R802 1 216 097 91 RES CHIP 00K 5 10W X001 1 760 895 21 VIBRATOR CERAMIC R803 1 216 097 91
189. 1 236 164 11 ENCAPSULATED COMPONENT Q05 8 729 120 28 TRANSISTOR 2SC1623 L5L6 lt IC gt Q053 8 729 119 80 TRANSISTOR 2SC2688 LK Q054 8 729 016 32 TRANSISTOR 25 4927 01 001 8 752 068 39 IC CXA1840S Q06 8 729 015 28 TRANSISTOR IRFI9630GS IC031 8 759 192 71 IC STV9379 Q07 8 729 019 8535 TRANSISTOR 25 3392 5 IC071 8 759 443 10 IC FA5301BN TEI 091 8 759 100 96 558 2 0072 8 729 824 26 TRANSISTOR 2SA1338 5 TA IC101 8 759 803 42 IC LA6500 FA Q09 8 729 800 32 TRANSISTOR 2SC2362K G 8 729 216 22 TRANSISTOR 2SA1162 G 5 8 752 068 37 1726 0112 8 729 216 22 TRANSISTOR 2SA1162 G IC201 8 752 074 64 IC CXA2026AS 012 1 801 806 11 TRANSISTOR DTC144EKA T146 IC202 8 759 981 48 IC TL082M IC203 8 759 988 13 IC LM393PS Q122 1 801 806 11 TRANSISTOR DTC144EKA T146 IC204 8 759 981 48 IC TL082M Q13 8 729 216 22 TRANSISTOR 2SA1162 G 0132 1 801 806 11 TRANSISTOR DTC144EKA T146 IC205 8 759 064 36 IC MB88346BPFV Q133 1 801 806 11 TRANSISTOR DTC144EKA T146 IC231 8 759 822 38 IC LA6510 015 8 729 216 22 TRANSISTOR 2SA1162 G IC301 8 752 068 37 IC 1726 501 8 759 981 48 092 0152 8 729 216 22 TRANSISTOR 2SA1162 G 10502 8 759 908 15 IC TL431CLP Q155 8 729 140 50 TRANSISTOR 2SC3209LK Q156 8 729 800 32 TRANSISTOR 25 2362 IC503 8 759 443 10 IC FA5301BN TEI Q157 8 729 809 29 TRANSISTOR 25 4159 IC531 8 759 988 13 IC LM393PS Q159 8 729 809 26 TRANSISTOR 2SA1606 E 1 602 8 759 038 15 IC MC74HC4538AF 1061 8
190. 1 5 6 9 8 FROM E 801 8 V BLK 1 25b FROM 801 86 H BLK 1 25a 31 730 2 4 2 gt h 1 728 3 4 44 4 4 BIAS P 34 BIAS amp DRIVEP 44 44 5 BIASCLAMPP 44 B Y GAIN 2 4 R Y CLAMP OFFSET 2 4 G 100 IRE 3 4 FROM BC 1 26b RESET 1 26b 903 FROM 1 28b lt SCLK 1 28b 1902 MICRO COMPUTER B 100 IRE CLAMP P DLY B Y PULSE LEVEL FROM BC 1 28a MOSI To 1 28a FROM BC 1 156 gt CH SLOT 3 1 31a P 44 FROM 801 239 gt ABL 1 10a 200 6901 1 2 5 4 4 R DRIVE COMP 3 4 VIDEO COMP 7 B DRIVE COMP 5 G DRIVE COMP 3 4 2 4 2 4 2 4 4 4 M 2 4 2 4 2 4 1 4 34 Yee t 47 OVER LOAD 2 2 TP901 O 3 4 3 4 G BIAS IK G DRIVE IK G DRIVE V B CUTOFF R DRIVE V R CUTOFF CHROMA H BLK 2 4 44 44 44 44 44 44 44 44 24 FROM G Q705 706 700 9 BUFFER IC704 2 2 2m d BRT CENTER
191. 1 ELECT CHIP 47 20 16V R557 1 216 049 91 RES CHIP K 5 1 126 397 11 ELECT CHIP 33MF 2090 25 R558 1 216 049 91 5 K 5 10W C15 1 163 031 11 CERAMIC CHIP 0 01MF 50V lt VARIABLE RESISTOR gt C100 1 163 227 11 CERAMIC CHIP 10PF 0 5 50V C101 1 163 229 11 CERAMIC CHIP 12PF 5 50V RVIOI 1 238 787 11 RES ADJ CERMET 10K C102 1 115 155 11 ELECT CHIP 22MF 20 16V C103 1 163 809 11 CERAMIC CHIP 0 047MF 10 25V lt RELAY gt C104 1 163 037 11 CERAMIC CHIP 0 022MF 10 50V RY401 1 515 716 11 RELAY TQ2 5V C122 1 126 396 11 ELECT CHIP 47 2090 16V C128 1 164 505 11 CERAMIC CHIP 2 2MF 16V lt TEST PIN gt C129 1 164 505 11 CERAMIC CHIP 2 2MF 16V C130 1 164 505 11 CERAMIC CHIP 2 2MF 16V 1 537 864 11 POST TP3 1 537 864 11 PIN POST C131 1 163 087 00 CERAMIC CHIP 4PF 0 25PF 50V TPS 1 537 864 11 PIN POST C140 1 163 031 11 CERAMIC CHIP 0 01MF 50V TP6 1 537 864 11 PIN POST C141 1 163 031 11 CERAMIC CHIP 0 01MF 50V TP7 1 537 864 11 PIN POST C142 1 163 809 11 CERAMIC CHIP 0 047MF 10 25V C143 1 164 232 11 CERAMIC CHIP 0 01 10 50V 8 1 537 864 11 POST 9 1 537 864 11 POST C144 1 163 031 11 CERAMIC CHIP 0 01MF 50V 1 537 864 11 PIN POST C145 1 163 031 11 CERAMIC CHIP 0 01MF 50V 1 537 864 11 POST C146 1 126 392 11 ELECT CHIP 100MF 20 63V 12 1 537 864 11 PIN POST C147 1 126 392 11 ELECT CHIP 100MF 20 63V C154 1 126 390 11 ELECT CHIP 22MF 20 63V TP13 1 537 864
192. 1 METAL CHIP K 0 50 110 Q702 8 729 216 22 TRANSISTOR 2SA1162 G RIS 1 216 033 00 RES CHIP 220 5 NOW R116 1 216 057 00 RES CHIP 2 2K 5 NOW 0705 8 729 120 28 TRANSISTOR 2SC1623 L5L6 117 1 216 057 00 RES CHIP 22 5 NOW 0706 8 729 216 22 TRANSISTOR 2SA1162 G R118 1 216 009 00 5 22 5 NOW 0800 8 729 216 22 TRANSISTOR 2SA1162 G Q801 8 729 216 22 TRANSISTOR 2SA1162 G R119 1 216 067 00 RES CHIP 5 6K 5 NOW 0802 8 729 216 22 TRANSISTOR 2SA1162 G R121 1 216 057 00 2 2K 5 NOW R122 1 216 049 91 5 IK 5 NOW 0803 8 729 920 59 TRANSISTOR IMX2 T109 R123 1 216 049 91 5 IK 5 NOW 0804 8 729 120 28 TRANSISTOR 25C1623 L5L6 R124 1 216 049 91 5 IK 5 NOW 0805 8 729 920 59 TRANSISTOR IMX2 T109 Q806 8 729 216 22 TRANSISTOR 2SA1162 G R125 1 216 115 00 5 560K 5 NOW 9 12 BK REFNO DESCRIPTION REMARK REFNO PARTNO DESCRIPTION REMARK R126 216 109 00 RES CHIP 330K 5 R202 216 677 11 METAL CHIP 12K 0 50 1 10W R140 216 638 11 METAL CHIP 300 50 1 10W R203 216 666 11 METAL CHIP 43K 0 50 1 10W R141 216 674 11 METAL CHIP 9 1K 50 1 10W R204 216 670 11 METAL CHIP 62K 0 50 1 10W R142 216 647 11 METAL CHIP 680 50 1 10W R205 216 025 91 5 100 5 1 10W R206 216 679 11 METAL CHIP 15K 0 50 110 R143 216 047 91 5 820
193. 1 Set input signal channel 1 numeric keypad function 2 Set input signal channel 2 numeric keypad function 3 Select sync signal SYNC button function Set the screen to monochrome or set for automatic switching based on the input signal MONO MODE button function 5 Safe area on off SAFE AREA button function 6 7 Not connected 8 Tally lamp on off 9 Ground All pin function assignments can be changed with the REMOTE menu For information about the REMOTE menu see Assigning the Remote Control Functions SET UP 2 Menu on page 35 To switch each function between on and off or between enable and disable change pin connections in the following way ON or enabled Short each pin and pin 9 together OFF or disabled Leave each pin open ISR Interactive Status Reporting connector female D sub 9 pin Connect to the ISR system CONTROL UNIT connector female D sub 9 pin Connects a monitor control unit such as the BKM 10R using a cable with D sub 9 pin plugs such as an RCC 5G not supplied 17 Ja deyo 5 gt ri 2 3 The various functions and operating conditions of the monitor can be set with on screen menus Menus consist of multiple levels of sub menus The overview of the menu tree is described in Menu Directories on pages 20 and 21 Detailed information on the levels of menus is described at the top of explanat
194. 1 TP307 B 5 C31 E 2 TP308 A 2 e C32 E 6 e C10 E 6 B SIDE MOUNT C20 B 5 gt C202 G 5 C203 E 5 c30 A 5 4 302 B 6 C80 F 2 C802 F 6 C803 F 2 C804 E 5 e C90 F 6 01 3 Q2 3 04 D 3 Q5 3 06 2 07 4 Q8 C 4 Q9 D 4 z 031 1 0101 CAUTION Q101 E 1 S 0102 E 6 FOR CONTINUED PROTECTION AGAINST FIRE 1 0103 E 6 REPLACE ONLY WITH THE SAME TYPE X 0104 E 6 4AH FUSE REFER TO SERVICE PERSONAL 5 pep Q105 E 6 1 0106 E 6 J 405 Q107 E 7 1 Q108 E 7 Q109 E 7 0110 E 6 0203 B 5 e sloe e 0204 B 5 B 0205 B 1 0206 D 3 0207 G 4 9 208 E 6 0209 F 2 G A SIDE 0210 1 667 741 11 NOTE The circuit indicated as left contains high voltage of over 600 Vp p Care must be paid to prevent an electric shock in inspection or repairing R312 R309 0300 0302 R291 302 0300 07 9301 TI 35 E Ti 55 ER iss Soon a Sot e tile a oh s 6 TP207 T 251 1 667 741 11 li E re RB 8 3 R8 ____ 805 4 LE 809 s 2 12 7 NA LIVE ES lt 2 en SLL LZ NEUTRAL 25451 G B SIDE 1 667 741 11 1461 2
195. 102 228 00 CERAMIC 4 0PF 10 5007 542 1 107 888 11 ELECT 20 25 C131 1 164 346 11 CERAMIC CHIP IMF 16V C543 1 164 346 11 CERAMIC CHIP MF 16V C544 1 164 232 11 CERAMIC CHIP 001 10 50 1 164 505 11 CERAMIC CHIP 22MF 16V C551 1 107 995 11 ELECT 00 0 160V 1 164 004 11 CERAMIC CHIP 10 25V C552 1 137 417 11 MYLAR 0 0047MF 10 200 CI51 1 164 004 11 CERAMIC CHIP 10 25 C156 1 104 987 11 FILM 0 00IMF 10 200 C553 1 106 355 12 MYLAR 0 0033MF 10 200 C160 1 164 346 11 CERAMIC CHIP IMF 16V C555 1 164 004 11 CERAMIC CHIP 106 25V 161 1 163 275 11 CERAMIC CHIP 0 00IMF 5 50 C556 1 162 134 11 CERAMIC 4 0PF 10 2 C557 1 136 081 00 FILM 0012 3 KV 1 163 222 11 CERAMIC CHIP 5 025 50V C558 1 162 114 00 CERAMIC 0 0047MF cm 1 163 222 11 CERAMIC CHIP SPF 0 25 50V C201 1 107 906 11 ELECT 20 50 C559 1 136 111 00 FILM IMF 5 200V 202 1 164 346 11 CERAMIC CHIP IMF 16V C561 1 104 652 11 ELECT 470MF 20 10V C203 1 163 037 11 CERAMIC CHIP 0 022MF 10 50 562 1 107 492 11 ELECT 47 20 160V C571 1 163 275 11 CERAMIC CHIP 0 00IMF 5 50 C204 1 164 004 11 CERAMIC CHIP 10 25V C572 1 164 004 11 CERAMIC CHIP 10 25V C205 1 164 004 11 CERAMIC CHIP 10 25V C208 1 107 906 11 ELECT 20 50 C601 1 113 503 11 CERAMIC CHIP 0 0039 5 25V C210 1 164 004 11 CERAMIC CHIP 10 25V C602 1 163 145 00 CERAMIC CHIP 0 0015 5 50V C21 1 164 232 11 CE
196. 10K 50 1 10W R464 216 055 00 5 1 8K 5 1 10W R552 216 121 91 5 IM 5 R553 216 671 11 METAL CHIP 6 8K 50 1 10W R465 216 073 00 5 10K 5 8555 216 047 91 820 5 1 10W R466 216 073 00 RES CHIP 10K 5 1 10W R467 219 743 11 CARBON 100 5 R556 216 651 11 METAL CHIP IK 50 1 10W R468 216 699 11 METAL CHIP 100K 0 50 1 10W R557 216 676 11 METAL CHIP 0 50 110 R469 216 073 00 RES CHIP 10K 5 8558 216 691 11 METAL CHIP 47K 50 1 10W 8559 216 051 00 RES CHIP 12 5 R472 216 025 91 5 100 5 1 10W R560 216 025 91 5 100 5 R473 216 073 00 5 10K 5 R474 216 033 00 RES CHIP 220 5 1 10W R562 216 049 91 RES CHIP IK 5 R480 218 764 11 METAL CHIP 330K 0 50 1 10W 8563 216 049 91 RES CHIP IK 5 R481 216 121 91 RES CHIP IM 5 1 10W R564 216 025 91 5 100 5 R565 216 073 00 RES CHIP 10K 5 R482 216 665 11 METAL CHIP 3 9K 0 50 110 R566 216 097 91 RES CHIP 100K 5 R483 216 049 91 5 IK 5 R485 216 073 00 5 10K 5 R567 216 097 91 RES CHIP 100K 5 1 10W R486 216 057 00 RES CHIP 2 2K 5 1 10W R568 216 633 11 METAL CHIP 180 0 50 1 10W R487 216 033 00 RES CHIP 220 5 R569 216 627 11 METAL CHIP 100 0 50 110 R570 216 057 00 RES CHIP 22K 5 R488 216 033 00 RES CHIP 220 5 8571 216 057 00 RES CHIP 22
197. 11 21 3 9 e ee e o ttn et b d See 11 22 4 9 ntt oo er err ER ERE DUM ARES 11 23 BEC S uL EL 11 24 BEI epu ER M CMM GE CMM UE 11 25 BEQUEM DM E C MEE 11 26 BK eene DU A M 11 27 a 11 28 BG 1175 manua ET cM ee ALLEE 11 31 DAN an kag ah ak 11 32 M a E a Ep HR E 11 33 BE 4 cuu A e d 11 34 EC uec Nuno T M EE 11 37 p e 11 38 12 467 21 ote fee aa ios 11 39 CP MNT PL m etched MV M aus 11 45 mh o 11 45 A 11 45 11 45 Cr CUZ Daka tio 11 46 GODI MEER un 7 ves PE bessere abe EE 11 51 IR EE DEREN RED RR RR 11 53 o Ashes ene RR tb pe PRESS 11 54 SON Y TRINITRONe COLOR VIDEO MONITOR BVM 20G1U 20G1E 20G1A BVM 14G1U 14G1E 14G1A BVM 14G5U 14G5E 14G5A Trinitron OPERATION MANUAL English 1st Edition Serial No 2000001 and Higher WARNING To prevent fire or shock hazard do not expose the uni
198. 11 810 RESET 2 4 lt 4 4 STBY t ENT S S S S S 474 MM 2 2 2 2 29 2 POWER MAS SELECT 2 4 AW lt ovERLOAD 4 4 20 0MHz ES T Ti TXD2 4 4 I 1015 6 6 e 5 2 I ITC74VHCUO4F EL lt i RXD2 4 4 5 1 INVERTER D45V 13 2 4 2 64 c c2 00000 tug 000090660000 xxx v BLANK2 ph LITHIUM BATTERY LES VP2 52 PE2 2 82 002 one Do2 VP3 001 001 107 vo 54 P Ao 30 Doo Doo yPD6453GT 101 E1 vi BAUDO2 R62 R27 CHARACTER GEN 55 29 1 5k v2 1 BAUDO 1 CHIP R61 5V72 Gives Pps 27 AUDOO 820 T 50 84 4 26 SEM CHIP V BLANK 4 4 gt v3 R60 I 25 ean 1 BAUD12 y 61 BAUD lt SELECT SYNC SEP AFC P 3 4 4 4 525 625 6 22 BAUD 10 lt S L SYNC MISO 4 4 gt 69 1 889021 lt 545 BLK DISP HUS 6 0 20 BAUD20 lt SAD DISP DX 374 LN MOS 4 4 gt 6 5 99 1 S Q Q m x S D S O S hah BAUD SEL 2 S S rrr 274 1012 2 4 NUTUS 0000900000900900900 5 1 SCLK 4 4 3 212 5 24 lt 25 22 24 5 8 lt 0 3 4 4 404 so es 8 ee 8 2 lt ON OFF EE aj 2 DIPARA RMT 2 4 lt c Pos 3 4 lt LL lt DAC_ENABLE 3 4 lt INT SG EN 02 DTAT44EK T146 lt 525 625 3 4 lt SYNC ON OFF SLAVE CPU ri M SEL 3 4 EXE INT SG
199. 11 CERAMIC CHIP 0 01MF 50V C326 1 163 031 11 CERAMIC CHIP 0 01MF 50V C552 1 163 031 11 CERAMIC CHIP 0 01MF 50V C327 1 163 031 11 CERAMIC CHIP 0 01 50V C553 1 163 031 11 CERAMIC CHIP 0 01MF 50V C328 1 163 031 11 CERAMIC CHIP 0 01MF 50V C554 1 163 031 11 CERAMIC CHIP 0 01MF 50V C555 1 163 031 11 CERAMIC CHIP 0 01MF 50V C329 1 163 031 11 CERAMIC CHIP 0 01MF 50V C556 1 163 031 11 CERAMIC CHIP 0 01MF 50V C330 1 163 031 11 CERAMIC CHIP 0 01MF 50V C331 1 163 031 11 CERAMIC CHIP 0 01MF 50V C557 1 163 031 11 CERAMIC CHIP 0 01MF 50V C332 1 163 031 11 CERAMIC CHIP 0 01MF 50V C558 1 163 031 11 CERAMIC CHIP 0 01MF 50V C333 1 163 031 11 CERAMIC CHIP 0 01MF 50V C916 1 126 397 11 ELECT CHIP 33MF 20 25V C918 1 163 031 11 CERAMIC CHIP 0 01MF 50V C334 1 163 031 11 CERAMIC CHIP 0 01MF 50V C335 1 163 031 11 CERAMIC CHIP 0 01MF 50V CONNECTOR C336 1 163 031 11 CERAMIC CHIP 0 01MF 50V C337 1 163 031 11 CERAMIC CHIP 0 01MF 50V CNI 1 774 523 11 CONNECTOR PC BOARD 64P C338 1 163 031 11 CERAMIC CHIP 0 01MF 50V CN 1 774 523 11 CONNECTOR PC BOARD 64P CN3 1 565 269 11 SOCKET CONNECTOR D DUB L 9P C339 1 163 031 11 CERAMIC CHIP 0 01MF 50V CN4 1 565 269 11 SOCKET CONNECTOR D DUB L 9P BC REFNO PARTNO DESCRIPTION REMARK REFNO PART NO DESCRIPTION REMARK CN5 1 565 269 11 SOCKET CONNECTOR D DUB L 9P D558 8 719 037 22 DIODE RDI2SB TI 0559 8 719 037 22 DIODE RD12SB T1 CN6 1 565 269 11 SOCKET CONNE
200. 121 AR 10 0 9 i xe os B 3321 0 3 10104 3 3 ast QUK 4 1 5k CHIP Su 0 E MC74HCA053FEL ioc A BUFFER 2 8 b 8122 R147 P 0131 R159 0144 2 0 GRIP R166 122 800 6 12 8153 n 2841462 P i CHIP CHIP CH CHIP CHIP CHIP i RGB SW 1 9 9 9 gt 10104 1 3 Mg resp CHAR BLK INSERT SET UP 9 9 gt AM V 14 x CHAR BLK 9 9 c GND VEE A 5V 0 5 1001RE 9 9 gt B K CH BACK H B 9 9 gt BLUE ONLY 9 9 3 I 2 9 W B INSERT P 7 9 gt BLUE ONLY G Y MATRIX Y PB PR MIX 5V s DS VES gig RN CP F CHIP RN CP F CHIP SIGNAL PROCESSOR BLUE ONLY SW B 588280 AEP BK BK 3 9 CHAR G SV G 2 9 251 1376 2802412 CXA15 CONT BRT CONTROL BRT BUFFER 378 0379 2541462 2863545 CONT BRT CONTROL CONT BRT CONTROL BK 3 9 10315 NJM1496M G DRIVE AMP G 0385 asse em X DG 5 9 16 MC74HC4053FEL MC74HC4053FEL SWITCH BRT CONTROL SWITCH DRIVE REF 9 9 34 0572 2503545 CONT BRT CONTROL 10531 TC7S32FU CHAR B B 2 9 T 552 R 571 2541462 CONT BRT CONTROL 10513 MC74HC4053FEL SWITCH BRT 7 9
201. 163 251 11 CERAMIC CHIP I00PF 5 50 C586 1 163 033 91 CERAMIC CHIP 0 022MF 50V C590 1 163 031 11 CERAMIC CHIP 0 01MF 50V C817 1 164 346 11 CERAMIC CHIP IMF 16V C591 1 163 038 11 CERAMIC CHIP 0 1 25V C818 1 126 390 11 ELECT CHIP 22MF 20 6 3V C592 1 163 031 11 CERAMIC CHIP 0 01MF 50V C819 1 163 038 11 CERAMIC CHIP 0 1 25V C820 1 163 038 11 CERAMIC CHIP 0 1 25V C593 1 164 222 11 CERAMIC CHIP 0 22MF 25V C821 1 163 038 11 CERAMIC CHIP 0 1 25V C504 1 163 251 11 CERAMIC CHIP 100PF 5 50 C595 1 164 232 11 CERAMIC CHIP 0 01 10 50V C822 1 163 038 11 CERAMIC CHIP 0 1 25V C596 1 163 035 00 CERAMIC CHIP 0 047MF 50V C823 1 128 235 11 ELECT CHIP 047 20 50V C597 1 107 364 11 MYLAR 001 10 200V C824 1 164 346 11 CERAMIC CHIP IMF 16V C825 1 163 121 00 CERAMIC CHIP 150PF 5 50 REFNO DESCRIPTION REMARK REFNO PARTNO DESCRIPTION REMARK C826 163 113 00 CERAMIC CHIP 68PF 5 50 C1012 163 031 11 CERAMIC CHIP 0 01MF 50V C1013 163 031 11 CERAMIC CHIP 0 01MF 50V C827 163 031 11 CERAMIC CHIP 0 01MF 50V C1014 164 505 11 CERAMIC CHIP 22MF 16V C828 163 133 00 CERAMIC CHIP 470 5 50V C829 163 019 00 CERAMIC CHIP 0 0068 10 50V C1015 163 031 11 CERAMIC CHIP 0 01MF 50V C830 163 133 00 CERAMIC CHIP 470PF 5 50 C1016 163 031 11 CERAMIC CHIP 0 01MF 50V C831 163 009 11 CERAMIC CHIP 0 001 10
202. 19 421 11 GAP DISCHARGE C064 109 921 11 CERAMIC 0 0015 10 50 56508 519 422 11 GAP SPARK 9 19 REFNO PARTNO DESCRIPTION REMARK REFNO PARTNO DESCRIPTION REMARK C065 1 104 496 11 FILM 33MF 3 200 C216 1 164 004 11 CERAMIC CHIP 106 25V 481 485 C277 1 164 004 11 CERAMIC CHIP 10 25V C065 1 109 915 11 FILM 22MF 3 200 2061 C278 1 163 275 11 CERAMIC CHIP 0 00IMF 5 50 C066 1 104 494 11 FILM 39MF 3 20 C301 1 164 004 11 CERAMIC CHIP 106 25V 14611405 302 1 164 346 11 CERAMIC CHIP IMF 16V C066 1 109 915 11 FILM 22MF 3 200 2001 C30 1 163 227 11 CERAMIC CHIP 05 50V C072 1 164 004 11 CERAMIC CHIP 104 25V C304 1 163 133 00 CERAMIC CHIP 4 0PF 5 50 C073 1 163 275 11 CERAMIC CHIP 0 00IMF 5 50 C074 1 107 906 11 ELECT 20 50 C321 1 164 505 11 CERAMIC CHIP 22MF 16V C331 1 164 004 11 CERAMIC CHIP 10 25V C075 1 107 906 11 ELECT 20 50 C33 1 163 222 11 CERAMIC CHIP SPF 0 25 50V C076 1 164 695 11 CERAMIC CHIP 0 0022MF 5 50 C333 1 163 222 11 CERAMIC CHIP SPF 0 25 50V C077 1 164 346 11 CERAMIC CHIP IMF 16V C501 1 130 481 00 MYLAR 0 0068MF 5 50 C078 1 163 251 11 CERAMIC CHIP 100PF 5 50V C079 1 107 888 11 ELECT 47MF 20 25 502 1 163 275 11 CERAMIC CHIP 0 00IMF 5 50 C505 1 164 004 11 CERAMIC CHIP 106 25V C080 1 107 888 11 ELECT 47MF 20 25 C506 1 163 275 11 CERA
203. 2 4 3 90 AUTO 4 3 100 PROG EDIT I VTR NEW NAME OTHER CH OTHER MONITOR C161 MONITOR ADDRESS MEMORY CARD C162 FILE NAME 61 1 Setting Lists in the INPUT CONFIGURATION Menu This section explains the setting lists displayed in the menu How to read the setting lists For purposes of explanation each setting list is preceded by a menu number These numbers are not displayed on the screen For more information about the menu number see About menu numbers on page 19 The arrow mark gt refers you to another setting list that appears after you make the setting or to an operation that is carried out as a result of the setting When there is no arrow mark the menu does not have any sub list C1 INPUT CONFIGURATION menu 1 2 Set input signal data for each channel xxCH Current channel is indicated To change the channel enter a channel number with the numeric keypad The settings below will be stored as information about the signal to be connected to this channel FORMAT Select the input signal gt 11 COLOR TEMP Set the color temperature Select STD COLI or COL2 STD Use common data factory setting D93 COLI Use common data factory setting D65 COL2 Use common data factory setting D93 H PHASE Set the horizontal picture position 128 to 127 SAD H POSITION Adjust the horizontal display pos
204. 2 2 7 2 YA YB and Boards Removal 20G1A 20G1E 20G1U 2 9 2 2 8 1 Picture Tube Removal 14G1A 14G1E 14GIU 14G5A 14GSE 14G5U 2 9 2 2 8 2 Picture Tube Removal 20G1A 20G1E 20G1U 2 10 2 2 9 Upper Cover Removal BKM 10R 2 11 2 2 10 HA and HB Board Removal BKM 10R 2 11 2 2 11 HC Board Removal BKM 10R 2 12 3 SET UP ADJUSTMENTS 3 1 Preparations asc AREE Gi re pie ER ien 3 1 322 FOCUS Adjustment d eret dett e reper RR ERE ES 3 2 3 3 Tanding Adjustment aqa eode ett tbe 3 2 3 4 H Blanking Adjustment essent 3 3 35 Blankmg Adjustment ei ere 3 5 3 6 Linearity Adjustment ene dett e tete 3 6 3 7 3 8 3 9 Convergence Adjustment 3 7 3 7 1 Static Convergence Adjustment 3 8 3 7 2 20 inch Model Convergence Adjustment 3 9 3 7 3 14 inch Model Convergence Adjustment 3 10 G2 Adjustment toad Rie dtes 3 11 White Balance 2 220 4 4 00 3 12 4 SAFETY RELATED ADJUSTMENTS tB 120V Voltage Check 4 1 High Voltage Regulator 4 1 High Voltage Hold Down Check sse 4 2 B
205. 2 8 719 404 49 DIODE MA111 C931 107 889 11 ELECT 220MF 20 25V D113 8 719 404 49 DIODE MA111 C932 107 889 11 ELECT 220MF 20 25V D121 8 719 404 49 DIODE C933 107 889 11 ELECT 220MF 20 25V D122 8 719 036 86 DIODE RD4 3SB3 T1 C936 164 005 11 CERAMIC CHIP 0 47MF 25V D131 8 719 404 49 DIODE C938 164 005 11 CERAMIC CHIP 0 47MF 25V D151 8 719 404 49 DIODE MA111 C939 164 005 11 CERAMIC CHIP 0 47MF 25V D152 8 719 404 49 DIODE C941 128 528 11 ELECT 470MF 20 16V D153 8 719 901 83 DIODE 15583 C942 128 526 11 ELECT 100 20 16V D154 8 719 901 83 DIODE 15583 C943 128 526 11 ELECT 100MF 20 16 D201 8 719 404 49 DIODE C946 164 005 11 CERAMIC CHIP 0 47MF 25V D271 8 719 404 49 DIODE C947 164 005 11 CERAMIC CHIP 0 47MF 25V D301 8 719 404 49 DIODE C948 164 005 11 CERAMIC CHIP 0 47MF 25V D321 8 719 404 49 DIODE C949 164 005 11 CERAMIC CHIP 0 47MF 25V D322 8 719 404 49 DIODE C950 164 005 11 CERAMIC CHIP 0 47MF 25V D501 8 719 037 24 DIODE RDI2SB3 TI C951 104 652 11 ELECT 470MF 20 10V 0502 8 719 404 49 DIODE C952 104 652 11 ELECT 470MF 20 10V D531 8 719 404 49 DIODE MA111 C956 164 005 11 CERAMIC CHIP 0 47MF 25V 9 21 REFNO PARTNO DESCRIPTION REMARK REFNO PART DESCRIPTION REMARK 0532 8 719 404 49 DIODE IC702 8 759 822 38 IC LA6510 2061 0533 8 719 404 49 DIODE MAII IC703 8 759 064 36 IC MB88346BPF
206. 21 12 TRANSISTOR 2501834 9 32 L REFNO DESCRIPTION REMARK REFNO PARTNO DESCRIPTION REMARK Q103 801 806 11 TRANSISTOR DTC144EKA T146 C59 163 031 11 CERAMIC CHIP 50V C60 163 031 11 CERAMIC CHIP 50V lt RESISTOR gt C61 163 031 11 CERAMIC CHIP 50V C62 163 031 11 CERAMIC CHIP 50V R101 216 043 91 5 560 5 1 10W R102 216 043 91 5 560 5 C63 163 031 11 CERAMIC CHIP 50V R103 216 043 91 5 560 5 C64 163 031 11 CERAMIC CHIP 50V R104 216 043 91 5 560 5 65 163 031 11 CERAMIC CHIP 50V R105 216 043 91 5 560 5 C66 163 031 11 CERAMIC CHIP 50V C67 163 031 11 CERAMIC CHIP 50V R106 216 043 91 5 560 5 1 10W R107 216 043 91 RES CHIP 560 5 68 163 031 11 CERAMIC CHIP 50V R108 216 043 91 5 560 5 Cn 163 031 11 CERAMIC CHIP 50V R109 216 043 91 5 560 5 1 10W C81 126 206 11 CHIP 100MF 20 63V R110 216 043 91 5 560 5 C82 124 635 00 ELECT 20 20 63V C83 126 206 11 ELECT CHIP 100MF 20 63V R112 216 097 91 RES CHIP 100K 5 R113 216 049 91 RES CHIP IK 5 C84 126 206 11 ELECT CHIP 100 20 63V 216 049 01 5
207. 26 8 V 8 Turn OFF the power 9 Disconnect the 200 kQ variable resistor 10 Connect the digital voltmeter to the pins 9 of CN501 the E board 11 Turn ON the power 12 Input the monoscope signal or all white signal 13 Set the BRIGHTNESS VR and CONTRAST VR to the minimum condition 14 Check that when the BRITNESS VR and CONTRAST VR is gradually enlargement the IK protect operated at the following values Standard Value 1 44 to 1 56 V 4 2 Beam Current Protector Check Perform the following checks when replacing the following components marked 4 on the schematic diagram 4 E board R571 IC501 P board R901 R902 R903 BK board R912 R913 1 901 1 Turn OFF the power 2 Connect the digital voltmeter to the pins 9 of CN501 on the E board 3 Turn ON the power Input the all white signal or monoscope signal 5 Setthe BRIGHTNESS VR and CONTRAST VR to the maximize condition 6 Check the pin 3 of CN501 voltage to 0 94 to 1 05 V G BOARD SIDE Digital Voltmeter d 0 ee 000 ees Mo o oogp 6 SED ooo Of of SEIT e ofo 2 i dsl 9 3 E BOARD ASIDE 4 3 SECTION 5 CIRCUIT ADJUSTMENTS 5 1 BK Board 5 1 1 Adjustments 1 Set as follows at the INPUT CONFIGURATION menu of the SETUP menu FORMAT
208. 3 249 397 11 CARBON 22 5 R704 216 065 91 5 4 7K 5 1 10W 20G1 R554 212 881 11 FUSIBLE 100 5 8555 216 065 91 5 4 7K 5 R705 216 298 00 RES CHIP 2 2 5 1 10W 20G1 R706 216 001 00 RES CHIP 1 5 1 10W 20G1 8556 216 065 91 5 4 7K 5 R707 249 377 11 CARBON 0 47 5 8557 216 065 91 5 4 7K 5 2061 8558 216 073 00 5 10 5 R708 249 425 11 CARBON 4 7K 5 8559 216 001 00 5 10 5 1 10W 20G1 R560 212 998 00 FUSIBLE 470 5 REFNO PARTNO DESCRIPTION REMARK REFNO PART NO DESCRIPTION REMARK R709 1 249 393 11 CARBON 0 5 14W F R815 1 216 065 91 5 4 7K 5 2061 R816 1 216 097 91 RES CHIP 00K 5 R711 1 216 073 00 5 0K 5 10W 20G1 R817 1 216 097 91 5 00K 5 R712 1 216 692 11 METAL CHIP 51K 0 50 1 10W 20G1 R818 1 216 073 00 5 0K 5 R713 1 216 079 00 5 8K 5 10W 20G1 R821 1 216 073 00 RES CHIP 0K 5 R714 1 216 089 91 5 47K 5 10W 20G1 R823 1 216 073 00 5 0K 5 R715 1 216 298 00 5 2 2 5 10W 20G1 R824 1 216 049 91 5 K 5 R716 1 216 001 00 RES CHIP 0 5 10W 20G1 R825 1 216 073 00 RES CHIP 0K 5 R717 1 249 377 11 CARBON 0 47 5 14W F R851 1
209. 3 00 RES CHIP OK 5 R339 1 216 089 91 RES CHIP 47K 5 NOW 9 24 REFNO PARTNO DESCRIPTION REMARK REFNO PARTNO DESCRIPTION REMARK R340 216 073 00 5 10K 5 R56 216 073 00 RES CHIP 10K 5 1 10W R341 216 097 91 RES CHIP 100K 5 R562 216 105 91 5 220K 5 1 10W R342 216 089 91 5 47K 5 R563 216 073 00 RES CHIP 10K 5 R343 216 089 91 RES CHIP 47K 5 R57 216 097 91 RES CHIP 100K 5 R344 216 073 00 5 10K 5 8572 216 097 91 5 100 5 R345 216 085 00 RES CHIP 33K 5 R60 216 107 00 RES CHIP 270K 5 R346 216 089 91 RES CHIP 47K 5 R602 216 081 00 RES CHIP 22K 5 1 10W R347 216 089 91 RES CHIP 47K 5 R604 216 075 00 RES CHIP 12K 5 R501 216 097 91 RES CHIP 100K 5 R605 216 065 91 5 4 7K 5 R502 216 681 11 METAL CHIP 18K 50 1107 R61 216 073 00 RES CHIP 10K 5 1 10W 20G1 8503 216 683 11 METAL CHIP 22K 50 1 10W R61 216 679 11 METAL CHIP 15K 0 50 1 10W R504 216 643 11 METAL CHIP 470 50 1 10W 14G1 14G5 14G1 14G5 R612 216 073 00 RES CHIP 10K 5 1 10W 20G1 R504 216 655 11 METAL CHIP 1 5K 50 1 10W 20G1 R612 216 677 11 METAL CHIP 12K 05 110 R505 216 681 11 METAL CHIP 18K 50 1 10W 20G1 14G1 14G5 8505 21
210. 3 8 719 158 19 DIODE RD6 2SB FL220 239 183 11 FILTER EMI D34 8 719 158 19 DIODE RD6 2SB FL221 239 183 11 FILTER EMI D35 8 719 158 19 DIODE RD62SB FL222 239 183 11 FILTER EMI D36 8 719 158 19 DIODE RD6 2SB FL223 239 183 11 FILTER EMI FL551 239 183 11 FILTER EMI D37 8 719 158 19 DIODE RD6 2SB D38 8 719 158 19 DIODE RD6 2SB FL552 239 183 11 FILTER EMI D39 8 719 158 19 DIODE RD6 2SB FL553 239 183 11 FILTER EMI D40 8 719 158 19 DIODE RD6 2SB FL554 239 183 11 FILTER EMI 241 8 719 158 19 DIODE RD62SB FL555 239 183 11 FILTER EMI FL556 239 183 11 FILTER EMI D103 8 719 404 49 DIODE D104 8 719 404 49 DIODE FL557 239 183 11 FILTER EMI D105 8 719 404 49 DIODE FL558 239 183 11 FILTER EMI D106 8 719 404 49 DIODE FL562 239 183 11 FILTER EMI D107 8 719 404 49 DIODE FL563 239 183 11 FILTER EMI FL564 239 183 11 FILTER EMI D108 8 719 404 49 DIODE D109 8 719 404 49 DIODE FL566 239 183 11 FILTER EMI D111 8 719 404 49 DIODE MA111 FL567 239 183 11 FILTER EMI D112 8 719 404 49 DIODE MA111 FL568 239 183 11 FILTER EMI D113 8 719 404 49 DIODE MA111 lt IC gt D114 8 719 158 19 DIODE RD6 2SB D115 8 719 158 19 DIODE RD6 2SB 8 759 530 79 HD6435368AG14M D401 8 719 404 49 DIODE 102 8 759 346 07 IC MMIO26BFB D402 8 719 404 49 DIODE 103 8 759 395 43 CAT28F020P 15 D403 8 719 158 19 DIODE RD6 2SB IC4 8 752 383 61 IC CXK58257CM 70LL T6 IC5 8 752
211. 325MCT31 Q9 1 801 806 11 TRANSISTOR DTC144EKA T146 D803 8 719 404 49 DIODE Q31 8 729 044 22 TRANSISTOR 2SK2209 01R F165 Q32 8 729 120 28 TRANSISTOR 2SC1623 L5L6 9 28 G REFNO DESCRIPTION REMARK REFNO PARTNO DESCRIPTION REMARK Q101 8 729 119 78 TRANSISTOR 25 2785 R10 216 073 00 5 10K 5 0102 8 729 027 38 TRANSISTOR 144 146 Q103 801 806 11 TRANSISTOR DTC144EKA T146 RII 247 883 00 CARBON 150K 5 0104 801 806 11 TRANSISTOR DTC144EKA T146 R12 247 883 00 CARBON 150K 5 0105 8 729 120 28 TRANSISTOR 2SC1623 L5L6 R13 247 883 00 CARBON 150K 5 R14 249 441 11 CARBON 100K 5 0106 8 729 216 22 TRANSISTOR 25 1162 RIS 249 441 11 CARBON 100K 5 0107 801 806 11 TRANSISTOR DTC144EKA T146 Q108 8 729 027 38 TRANSISTOR DTAI44EKA T146 R16 249 437 11 CARBON 47K 5 0109 8 729 120 28 TRANSISTOR 2SC1623 L5L6 R17 216 073 00 5 10K 5 1 10W Q110 801 806 11 TRANSISTOR DTC144EKA T146 R18 216 073 00 RES CHIP 10K 5 R19 260 332 51 CARBON 2 2K 5 1 2W Q203 8 729 019 85 TRANSISTOR 25 3392 5 R20 260 332 51 CARBON 2 2K 5 1 2W Q204 8 729 824 26 TRANSISTOR 25 1338 5 Q205 8 729 044 62 TRANSISTOR 2SK2766 01R F165 R21 249 441 11 CARBON 100K 5 0206 1 801 806 11 TRANSISTOR DTC144EKA T146 R22 249 441 11 CARBON 100K 5 0207 8 729 820 73 TRANSISTOR
212. 381 84 IC CXD1095BQ D550 8 719 037 22 DIODE RDI2SB T 0551 8 719 037 22 DIODE RDI2SB T IC6 8 752 381 84 IC CXD1095BQ 0552 8 719 037 22 DIODE RDI2SB T IC7 8 759 327 69 IC wPD6453GT 101 E1 0553 8 719 037 22 DIODE RDI2SB T IC8 8 759 925 75 IC SN74HCOSANS 0554 8 719 037 22 DIODE RDI2SB T IC9 8 759 082 59 IC TCTW32FU 0 8 759 186 47 ICTC74VHCI38F 0555 8 719 037 22 DIODE RDI2SB T D556 8 719 037 22 DIODE RDI2SB T 8 759 981 48 ICTLO82M D557 8 719 037 22 DIODE RDI2SB T IC12 8 759 186 44 25 REFNO DESCRIPTION REMARK REFNO PARTNO DESCRIPTION REMARK 8 759 186 47 IC TC74VHC138F lt COIL gt 8 759 289 43 IC LTC490CS8 5 8 759 081 46 TC74VHCU04F LI 1 410 202 51 INDUCTOR CHIP 6 8uH 1201 1 412 537 31 INDUCTOR 10008 1 16 8 759 186 43 IC TC74VHC123AF 8 759 925 73 IC SNTAHCO3NS FILTER IC19 8 759 236 19 IC TC74HCIS1AF EL 1020 8 759 236 19 IC TC74HCIS1AF EL LPF101 1 239 289 11 FILTER LOW PASS IC21 8 759 236 19 IC TC74HCIS1AF EL TRANSISTOR IC22 8 759 346 05 IC uPD71051GU 10 E2 IC23 8 759 346 05 IC uPD71051GU 10 E2 QI 1 801 806 11 TRANSISTOR DTC144EK T146 IC24 8 759 346 05 IC uPD71051GU 10 E2 Q2 8 729 901 06 TRANSISTOR DTA144EK 1 25 8 759 289 45 LTC485CS8 Q3 8 729 901 06 TRANSISTOR 144 1 26 8 759 289 45 IC LTC485CS8 Q4 1 801 806 11 TRANSISTOR DTC144EK T146 Q5 1 801 806 11 TRANSISTOR DTC144EK T146 1C27 8
213. 4 64 I B TO B B TO B I CNN M ME AL D NUN G 883280 20 1 11 18 11 18 FRAME 3 3 FRAME 3 3 B SS3280 lt AEP gt KESSENZU P3 CN1 CN2 2 DIU p Ew GND uus M GND GND KR 1 GND 811 81 GND GND NC 2 TO BOARD B A2 A2 NC B NC 3 B 82 82 NC Su B GND ne GND 13 NC o 2 GND cna GND 83 83 NC UN GND a 15V M m No BW 15V ene I 15V 84 B4 NC 15V 15V AS AS NC 15V NC SOS isv 85 NC 15V GND n 6V A6 A6 NC 6v 6V 86 86 NC 6V 0 NC 6V s ilTGRo 6V 87 87 NC 6V KB 1 GND A8 18 com DU G NC 2 BOARD VIDEO NC cu REMOTE 1 DU BK Ne 5 P Y our NC out R GND 41 P C OUT 89 NC o CMS GND kiol kiol NC ABL WAT Y G B10 B10 NC BOARD T CNTROL um I GND hu NC GND PB B B11 NC m Y G 25 GND E NE NC M2 GND PR R 12 12 NC 812 2Y 2G SLOT_6 43 12V REMOTE 2 810717 3 TALLY 81 8 ANALOG SLOT 4 4 OVERLOAD E GND YZG IN 510715 B14 STANDBY 2PB 2B SLOT 2 5 POWER GND SLOT_3 5V
214. 4 163 031 11 CERAMIC CHIP 0 01MF 50V C1225 163 031 11 CERAMIC CHIP 0 01MF 50V C927 126 391 11 ELECT CHIP 47MF 20 63 C1227 164 505 11 CERAMIC CHIP 22 16V C928 109 982 11 CERAMIC CHIP IMF 10 C929 126 391 11 ELECT CHIP 47MF 20 63V C1229 163 031 11 CERAMIC CHIP 0 01MF 50V C930 126 390 11 ELECT CHIP 22MF 20 63V C1230 163 031 11 CERAMIC CHIP 0 01MF 50V C931 109 982 11 CERAMIC CHIP IMF 10 C1231 163 031 11 CERAMIC CHIP 0 01MF 50V 1235 164 505 11 CERAMIC CHIP 2 2MF 16V C1000 163 031 11 CERAMIC CHIP 0 01MF 50V C1236 164 505 11 CERAMIC CHIP 22 16V C1001 126 392 11 ELECT CHIP 100MF 20 63V C1002 163 031 11 CERAMIC CHIP 0 01MF 50V C1237 163 031 11 CERAMIC CHIP 0 01MF 50V C1003 163 031 11 CERAMIC CHIP 0 01MF 50V C1238 163 031 11 CERAMIC CHIP 0 01MF 50V C1004 164 505 11 CERAMIC CHIP 22MF 16V C1240 164 505 CERAMIC CHIP 2 2MF 16V C1242 163 031 11 CERAMIC CHIP 0 01MF 50V C1005 163 031 11 CERAMIC CHIP 0 01MF 50V C1243 163 031 11 CERAMIC CHIP 0 01MF 50V C1006 163 031 11 CERAMIC CHIP 0 01MF 50V C1007 163 031 11 CERAMIC CHIP 0 01MF 50V C1244 163 031 1 CERAMIC CHIP 0 01MF 50V C1008 163 031 11 CERAMIC CHIP 0 01MF 50V C1245 163 031 11 CERAMIC CHIP 0 01MF 50V C1009 163 031 11 CERAMIC CHIP 0 01MF 50V C1246 163 031 11 CERAMIC CHIP 0 01MF 50V C1247 126 396 11 ELECT CHIP 47MF 20 16V C1010 163 031 11 CERAMIC CHIP 0 01MF 50V C1248 163 031 11 CERAMIC CHIP 0 01MF 50V C1011 164 505 11 CERAMIC CHIP 22 16V
215. 46 IC110 8 759 236 55 IC TC74HC166AF EL 8 759 011 65 IC MC74HC4053F 0151 8 729 120 28 TRANSISTOR 2SC1623 L5L6 IC113 8 759 186 39 IC TC74VHC74F 0152 8 729 120 28 TRANSISTOR 2SC1623 LSL6 8 759 295 09 IC TLC2922IPW 0401 8 729 120 28 TRANSISTOR 2SC1623 LSL6 1215 8 759 185 64 IC TC74VHC10F EL Q402 8 729 120 28 TRANSISTOR 2SC1623 L5L6 Q403 8 729 921 12 TRANSISTOR 2SD1834 1 116 8 759 011 65 IC MC74HC4053F 1 117 8 759 081 42 IC lt RESISTOR gt 1219 8 759 011 65 MC74HC4053F 20 8 752 321 16 IC CXD1030M RI 1 216 073 00 RES CHIP K 5 21 8 759 081 46 IC TC74VHCU04F R2 1 216 073 00 RES CHIP K 5 R3 1 216 073 00 RES CHIP K 5 22 8 759 081 44 IC TC74VHCO4F R4 1 216 073 00 RES CHIP K 5 NOW IC123 8 759 186 39 IC TC74VHC74F R5 1 216 073 00 RES CHIP K 5 1 124 8 759 328 12 IC Z8622812PSC 25 8 759 925 75 IC SN74HCOSANS R6 1 216 073 00 5 K 5 NOW 1 401 8 759 988 13 IC LM393PS R7 1 216 097 91 5 OK 5 R8 1 216 097 91 5 5 NOW CHIP CONDUCTOR R9 1 216 097 91 5 5 NOW R10 1 216 121 91 RES CHIP M 5 NOW 1 216 296 91 SHORT 0 5 1 216 295 91 SHORT 0 1 216 073 00 RES CHIP OK 5 NOW JR114 1 216 296 91 SHORT 0 R12 1 216 049 91 5 K 5 JRIIS 1 216 296 91 SHORT 0 R13 1 216 049 91 5 K 5 JR116 1 216 296 91 SHORT 0 R14 1 216 049 91 5 K 5
216. 5 00K 5 NOW X801 1 578 689 21 VIBRATOR R804 1 216 097 91 5 00K 5 10W R805 1 216 025 91 5 0 5 R806 1 216 025 91 RES CHIP 0 5 R807 1 216 025 91 RES CHIP 0 5 R808 1 216 025 91 5 0 5 R809 1 216 065 91 5 47K 5 R811 1 216 097 91 5 00K 5 10W R812 1 216 097 91 5 00K 5 R813 1 216 097 91 5 00K 5 R814 1 216 065 91 5 4 7K 5 10W 9 26 G REFNO DESCRIPTION REMARK REFNO PARTNO DESCRIPTION REMARK A 1316 334 A G COMPL C42 1 107 910 11 ELECT 100MF 20 35V are C43 1 113 707 11 ELECT BLOCK 220MF 20 450V C44 1 107 906 11 ELECT 10MF 20 50 X 4033 109 6 PANEL ASSY POWER UNIT X 4033 116 1 FRAME ASSY POWER C45 1 107 715 11 ELECT 22MF 20 25V 1 251 263 11 INLET AC C46 1 164 004 11 CERAMIC CHIP 01 10 25 1 533 223 11 HOLDER FUSE F1 C47 1 107 907 11 ELECT 22MF 20 50 1 900 214 49 CONNECTOR ASSY VH 7P C101 1 107 888 11 ELECT 47MF 20 25V C102 1 128 526 11 ELECT 100MF 20 16V 1 900 214 50 CONNECTOR ASSY FASTON TAB IC3P 1 900 236 41 CONNECTOR ASSY FLOATING FIT 4P C103 1 107 906 11 ELECT 10MF 20 50 2 990 241 02 HOLDER A PLUG C104 1 107 888 11 ELECT 47MF 20 25V 3 648 057 00 ISO 4 U C105 1 163 031 11 CERAMIC CHIP 01MF 50V 4 050 794 01 INS
217. 5 520 44 45 Q819 8 729 120 28 TRANSISTOR 2SC1623 L5L6 Q388 8 729 033 31 TRANSISTOR 25 520 44 45 Q820 8 729 216 22 TRANSISTOR 25 1162 Q821 1 801 806 11 TRANSISTOR DTC144EKA T146 Q390 1 801 806 11 TRANSISTOR DTC144EKA T146 Q822 8 729 120 28 TRANSISTOR 2SC1623 L5L6 Q400 8 729 107 31 TRANSISTOR 25 3545 43 Q500 8 729 112 65 TRANSISTOR 25 1462 33 Q823 8 729 120 28 TRANSISTOR 2SC1623 L5L6 Q501 8 729 027 38 TRANSISTOR 144 146 Q824 8 729 216 22 TRANSISTOR 2SA1162 G Q502 8 729 107 31 TRANSISTOR 25 3545 43 Q825 8 729 216 22 TRANSISTOR 2SA1162 G Q826 8 729 202 38 TRANSISTOR 25 3326 Q503 8 729 112 65 TRANSISTOR 25 1462 33 Q827 8 729 202 38 TRANSISTOR 25 3326 Q504 8 729 107 31 TRANSISTOR 25 3545 43 Q505 8 729 107 31 TRANSISTOR 25 3545 43 Q828 8 729 216 22 TRANSISTOR 2SA1162 G Q506 8 729 112 65 TRANSISTOR 25 1462 33 Q829 8 729 120 28 TRANSISTOR 2SC1623 L5L6 Q507 8 729 120 28 TRANSISTOR 2SC1623 L5L6 Q900 1 801 806 11 TRANSISTOR DTC144EKA T146 Q902 8 729 027 38 TRANSISTOR 144 146 Q510 8 729 107 31 TRANSISTOR 25 3545 43 Q540 8 729 107 31 TRANSISTOR 25 3545 43 lt RESISTOR gt Q541 8 729 107 31 TRANSISTOR 25 3545 43 Q542 8 729 107 31 TRANSISTOR 25 3545 43 RIO 1 216 025 91 5 10 5 NOW 0543 8 729 112 65 TRANSISTOR 25 1462 33 1 216 025 91 5 100 5 NOW R12 1 216 025 91 5 10 5 NOW 0544 8 729 112 65 TRANSISTOR 25 1462 33 R13 1 216 025
218. 5 NOW R75 1 216 097 91 5 00K 5 10W 1 216 069 00 5 6 8K 5 R76 1 216 097 91 5 00K 5 R12 1 216 073 00 5 0K 5 NOW R77 1 216 097 91 5 00K 5 R78 1 216 097 91 5 00K 5 10W R13 1 216 073 00 5 0K 5 NOW R79 1 216 097 91 5 00K 5 10W R14 1 216 073 00 5 0K 5 NOW RIS 1 216 073 00 RES CHIP 0K 5 NOW R80 1 216 097 91 5 00K 5 R16 1 216 073 00 5 0K 5 NOW R81 1 216 097 91 5 00K 5 R18 1 216 073 00 5 0K 5 NOW R82 1 216 097 91 5 00K 5 R83 1 216 097 91 5 00K 5 10W R19 1 216 073 00 5 0K 5 NOW R84 1 216 097 91 5 00K 5 10W R20 1 216 073 00 5 0K 5 NOW R21 1 216 049 91 5 K 5 NOW R85 1 216 097 91 5 00K 5 R2 1 216 049 91 5 K 5 NOW R86 1 216 097 91 RES CHIP 00K 5 10W R23 1 216 049 91 5 K 5 NOW R87 1 216 097 91 RES CHIP 00K 5 R88 1 216 097 91 RES CHIP 00K 5 24 1 216 049 91 RES CHIP K 5 NOW R89 1 216 097 91 5 00K 5 25 1 216 049 91 5 K 5 NOW R26 1 216 049 91 RES CHIP K 5 NOW R90 1 216 097 91 5 00K 5 R27 1 216 049 91 5 K 5 NOW R91 1 216 097 91 5 00K 5 R28 1 216 049 91 5 K 5 NOW R92 1 216 097 91 5
219. 5 a 5 I T te 238 834 01 CHIP 042 cup 8024 8 1181 i 106 PROTECTOR CHIP B CHIP 09 EH F CHIP DTC144EKA PFC OFF oc C39 Don 0 22 850 pid ce un Don 47 9 4 9 MAIN POWER CN2 250V ELE 8 05 440 03 012 1 N AU TA rel SU GATE DRV VCC SOFT START R SET E E rd A A KA PFC CTRL 0 0047 0 0047 Y Y 2501 2501 T GND LMT CA OUT SENSE MPX OUT AC IN VA OUT VRMS IN 3 2 1 2 Van FTN A bd 22 PFC CONTROL MAIN RECT AC IN 100 240V ddr R41 MD c Note As there are two kinds of ground on this borad I 50 60Hz e31 be careful when measuring the voltages 0 00 LIVE B CHIP 2 F1 VDRI 031 R39 MP o rr a 2 Njeh 12 8 a s c H 250V TNRI4V47LK660 01488 182 Lo 3504 t EN Sah 1 CLAMP 0082 5il T182 DS LIMTTER RN CP 838 eM 880 MPS AW AW AM R43 330k 330 330k The components identified marked are critical for safety Replace only with the part number specified Les composants identifi s par une marque A sont critiques pour la s curit Ne les remplacer que par une pi ce portant le num ro sp cifi 11 46 11 46 G 2 2 G 2 2 The components identified marked A are Les composants identifi s par une marque critical for safety sont critiques pour la s curit
220. 514 1 500 300 1 111 113 117 127 129 121 124 126 DRIVE V IK AMP BIAS CLAMP R DRIVE V IK BIAS CLAMP CONT CONTROL RGB SW BLUE ONLY 2 R Y CLAMP OFFSET n v REF SEL RSET UP BUFFER 1 131 331 531 RDRIVE V R Y PULSE LEVEL BUFFER 1 800 801 802 804 805 100 IRE R REF SEL CHARA RGB CHAR RGB R DRIVE IK Q820 824 826 827 1 508 509 BUFFER CL P BUFFER CLAMP PULSE GEN CLAMP DLY CTRL R CUTOFF ROL 803 0825 H SYNC SEP H SYNC BUFFER Q822 823 828 820 2 SYNC VS 10912 0902 CONT 1 SW gt SIGNAL OFF IC800 Q800 801 SYNC BUFFER SELECT YCLAMP PULSE CHAR BLK SW BIAS LEVEL C CLAMP PULSE CHAR BLK INSERT DRIVE REF BIASP VIDEO NMING CHAR BLK 10705 Q700 702 G2 CONTROL G2 CONTROL G2 CTRL Q802 819 SYNC AGC Q821 SYNC SEP SWITCH 1 710 711 728 730 732 734 736 1 700 703 PULSE OUTPUT 706 707 AFC PULSE 12 PULSE LINE SIGNAL SELECT VIDEO COMP H PULSE PULSE LATCH VBLKP1 GENERATOR 1705706 VSP gt 1 902 903 906 911 Q179 389 582 IN Eus OUT SYSTEM CONTROL SIGNAL BIAS 8 DRIVE P 12900 MISO SUB CPU
221. 555 8 729 044 21 TRANSISTOR 2SK2655 01R F165 R038 216 432 00 METAL OXIDE 820 5 F 0561 8 729 019 57 TRANSISTOR 28 12088 R040 216 13 00 RES CHIP 400K 5 110W R050 216 049 91 RES CHIP 1K 5 NOW 061 1 801 806 11 TRANSISTOR DTC144EKA T146 R051 216 041 00 RES CHIP 470 5 1009 0621 8 729 120 28 TRANSISTOR 28C1623 L5L6 R052 216 073 00 RES CHIP 10K 5 NOW Q622 1 801 806 11 TRANSISTOR DTC144EKA T146 0641 8 729 120 28 TRANSISTOR 2SC1623 L5L6 R053 249 423 11 CARBON 33K 50 F 0721 8 729 216 22 TRANSISTOR 28 1162 0 2001 8054 215 917 11 METALOXIDE IK 5 20G1 0722 8 729 216 22 TRANSISTOR 25 1162 6 2001 R054 215 919 11 METALOXIDE 22K 5 3W F 0725 8 729 195 82 TRANSISTOR 28C2958 L 2001 14G1 14G5 Q726 8 729 800 32 TRANSISTOR 28C2362K G 2001 8055 215 917 11 METALOXIDE IK 5 F 0727 8 729 019 01 TRANSISTOR 2SD2394 EF 2001 2001 Q729 8 729 024 95 TRANSISTOR 2881565 2061 8055 215 919 11 METALOXIDE 22K 5 F 14611465 0801 1 801 806 11 TRANSISTOR DTC144EKA T146 Q802 8 729 027 38 TRANSISTOR 46 R061 249 377 11 CARBON 0 47 5 F 0803 8 729 027 38 TRANSISTOR 144 1146 R062 249 397 11 CARBON 2 5 W F Q804 1 801 806 11 TRANSISTOR DTC144EKA T146 R063 216 081 00 RES CHIP 2K 5 In0W Q807 1 801 806 11 TRANSISTOR DTC144EKA T146 R064 215 880 00 METAL OXIDE 10 5 F R065 212 889 00 FUSIBLE 220 5 W F Q808 8 729 027 38 TRANSISTOR DTAI44EKA T146 0809 8 729 027 38 TRANSISTOR 144
222. 58 71 TC74VHCT F EL PROTECTOR PROTECTOR INVERTER BUFFER 8 108 R61 R63 R65 R67 109 3 6 47k 47k 47 ATK TO74VHC14F EL CHIP CHIP CHIP CHIP INVERTER I R60 R62 R64 R66 109 4 8 47k 47 47k 47 jg 1011 6 CHIP CHIP CHIP CHI 1010 INVERTER rez auae EL 7 EN INVERTER _ 1C9 6 6 BUFFER 06 632222 TC74VHC14F EL DTC144EKA T146 D6 2 y 109 1 8 INVERTER VPP SW 5 083 TO74VHC14F EL 05 0 v INVERTER 8 m R71 5 3 4 GP 100 M k ENoB 10 D lt 5 w 3 54 ENOA 9 5 8 5 E 5 5 1W 100k R74 02 Y EN1B 8 42 13 5 nS CHIP 100k m EN1A 101 5 875 P 5 1 5 100k R76 DO Y EN2B 6 5 AM 4 CHIP 1006 5 55 2 5 5 W R78 EN3B all 5 1 CHIP 100k 5 1 5 1 3 TO TT T5V 2 1C9 2 6 TC7AVHCTAF EL 1010 5 6 ie I TO HA BOARD 5 TO74VHC14F EL 2092 2SB T1 093 en PROTECTOR 100 0 01 ROT 3 T T F 6HIP 10k CHIP CHIP n m oe fe 5V 5 5 WHT 5V CE1 6 MISO 5 MOSI 4 SCLK 3 4 n P 553280 lt gt 5V 2 5V GND 1 1 TO HB BOARD H D6 1 CN10 apg 298 1 CN5 PROTECTOR 01 081 GP R43 R44 RD6 2SB T1 100 RED 10k 10k DC SHIFT 6 3 083 084 85 C86 C87 CHIP CHIP AL CP C82 052 100 100 100 100 100 CED 220 0 01 6 3 6 3 6 3V 63V 6 3V F CHIP AL CP AL CP AL CP AL CP AL CP MISO 5
223. 6 025 91 RES CHIP 100 5 NOW R714 1 216 049 91 5 K 5 NOW R627 1 216 653 11 METAL CHIP 12K 50 R628 1 216 675 11 METAL CHIP 10K 50 1 10W R715 1 216 067 00 RES CHIP 5 6K 5 NOW R629 1 216 659 11 METAL CHIP 22K 50 1 10W R716 1 216 049 91 5 K 5 NOW R630 1 216 669 11 METAL CHIP 5 6K 50 R717 1 216 097 91 5 00K 5 NOW R718 1 216 675 11 METAL CHIP 0K 0 50 1 10W R631 1 216 057 00 RES CHIP 2 2K 5 R719 1 216 663 11 METAL CHIP 33K 0 50 1 10W R632 1 216 025 91 RES CHIP 00 5 NOW R633 1 216 057 00 RES CHIP 22K 5 720 1 216 073 00 5 0K 5 NOW R634 1 216 073 00 RES CHIP OK 5 NOW R721 1 216 025 91 RES CHIP 00 5 NOW R636 1 216 073 00 RES CHIP OK 5 R722 1 216 025 91 RES CHIP 00 5 NOW R723 1 216 009 00 RES CHIP 22 5 NOW R640 1 216 095 00 RES CHIP 82K 5 R724 1 216 009 00 RES CHIP 22 5 NOW R641 1 216 065 91 5 4 7K 5 NOW R642 1 216 073 00 RES CHIP OK 5 R725 1 216 065 91 RES CHIP 4 7K 5 NOW R643 1 216 671 11 METAL CHIP 6 8K 50 1 10W R726 1 216 065 91 5 4 7K 5 NOW R644 1 216 669 11 METAL CHIP 5 6K 50 1 10W R727 1 216 073 00 RES CHIP 10K 5 NOW R728 1 216 067 00 RES CHIP 5 6K 5 NOW R645 1 216 651 11 METAL CHIP K 50 1 10W R729 1 216 061 00 RES CHIP 3 3K 5 NOW R646 1 216 073 00 RES CHIP OK 5 NOW R647 1 216 672 11 METAL CHIP 7 5K 50 1 10W R730 1 216 057 00 RES CHIP 2 2K 5 NOW R648 1 218 766 11 METAL CHIP 390K 50 1 10W R731 1
224. 6 3 D131 F 2 Q156 F 7 E D151 F 1 0157 F 7 D152 F 1 Q159 F 7 4 D153 F 1 0201 C 4 3 0154 F 1 0271 B 3 D201 C 4 0272 B 3 D271 4 0273 4 D301 4 0301 B 4 D321 A 3 0302 B 4 D322 A 3 0303 B 4 0501 B 6 Q304 4 D502 F 5 0306 4 D531 B 5 Q307 B 4 D532 B 5 0321 5 D533 B 3 0322 4 D534 B 5 0501 C 1 D542 B 5 0502 C 1 D543 B 2 Q551 B 7 D544 B 5 0552 2 D545 B 5 0553 C 1 D551 B 1 Q554 C 1 D552 6 0555 7 D553 B 6 0561 5 0554 A 1 Q611 E 5 D555 A 6 Q621 E 3 D611 E 6 0622 C 5 D641 E 5 Q641 E 3 D642 E 5 40721 E 4 60721 4 00722 F 4 D722 E 4 _ 40725 4 D801 G 1 0726 E 4 D802 6 0727 E 3 D853 1 0729 F 3 0801 F 1 coo 2 0802 F 5 C03 7 0803 F 6 C07 G 3 Q804 E 6 09 1 0807 F 5 C10 D 3 Q808 F 5 C15 3 0809 5 C20 B 2 0815 6 5 C202 B 3 C203 3 1 6 C204 4 052 6 C205 3 151 F 6 C23 A 2 TP231 A 1 C30 C 4 TP241 1 C50 B 2 TP551 A 6 C502 3 TP701 A 1 C503 3 711 A 1 C53 B 2 TP721 B 1 C602 F C61 F 3 BVM 20G1 only C612 F 3 B SIDE MOUNT C613 E 2 C62 E 3 C622 E 2 C623 E 2 C625 E 2 C627 F C628 E C64 E 3 1C70 5 1C702 2 1C703 5 C80 G C802 F 2 C803 F C92 D 2 C94 96 D 3 C98 D 3 C99 B 2 Q051 2 0053 D 6 Q054 7 0061 4 0071 F 4 SIDE 1 667 742 11 gt o o
225. 6 683 11 METAL CHIP 22K 50 1107 R613 216 073 00 RES CHIP 10K 5 14G1 14G5 R614 216 073 00 RES CHIP 10K 5 1 10W 20G1 8508 216 073 00 5 10K 5 R614 216 677 11 METAL CHIP 12K 05 110 R511 216 667 11 METAL CHIP 4 7K 50 1 10W 14G1 14G5 8512 216 093 00 RES CHIP 68K 5 R615 216 073 00 RES CHIP 10K 5 1 10W 20G1 8513 216 073 00 5 10K 5 R615 216 679 11 METAL CHIP 15K 0 50 1 10W 8514 216 097 91 5 100 5 14G1 14G5 R616 216 079 00 RES CHIP 18K 5 8515 216 073 00 5 10K 5 8516 216 083 00 5 27K 5 R617 216 083 00 5 27K 5 8517 216 069 00 5 6 8K 5 R618 216 073 00 RES CHIP 10K 5 8518 216 685 11 METAL CHIP 27K 0 50 1 10W 8619 216 073 00 RES CHIP 10K 5 8519 216 073 00 5 10K 5 R621 216 097 91 5 100K 5 1 10W R622 216 073 00 RES CHIP 10K 5 1 10W R520 216 073 00 5 10K 5 1 10W R521 249 413 11 CARBON 470 5 R625 216 073 00 RES CHIP 10K 5 8522 249 414 11 CARBON 560 5 R626 216 073 00 RES CHIP 10K 5 R523 216 081 00 RES CHIP 22K 5 R627 216 073 00 RES CHIP 10K 5 1 10W R531 218 754 11 METAL CHIP 120K 50 1 10W R628 216 073 00 RES CHIP 10K 5 1 10W R629 216 073 00 RES CHIP 10K 5 1 10W R532 216 683 11 METAL CHIP 22K 50 1 10W R533 216 685 11 METAL CHIP 27K 50 1 10W R630 216 097 91
226. 63 087 00 CERAMIC CHIP 4PF 0 25PF 50V C641 1 163 087 00 CERAMIC CHIP 4PF 0 25PF 50V C540 1 163 031 11 CERAMIC CHIP 0 01MF 50V C70 1 163 037 11 CERAMIC CHIP 0 022MF 10 50V C541 1 163 031 11 CERAMIC CHIP 0 01MF 50V C701 1 163 037 11 CERAMIC CHIP 0 022MF 10 50V C702 1 163 031 11 CERAMIC CHIP 0 01MF 50V C542 1 163 809 11 CERAMIC CHIP 0 047 10 25V C703 1 163 031 11 CERAMIC CHIP 0 01MF 50V C543 1 164 232 11 CERAMIC CHIP 0 01 10 50V C544 1 163 031 11 CERAMIC CHIP 0 01MF 50V C704 1 126 391 11 ELECT CHIP 47MF 20 63 C545 1 163 031 11 CERAMIC CHIP 0 01MF 50V C705 1 163 031 11 CERAMIC CHIP 0 01MF 50V C546 1 126 392 11 ELECT CHIP 100MF 20 63V C706 1 164 505 11 CERAMIC CHIP 22 16V C707 1 163 031 11 CERAMIC CHIP 0 01 50 547 1 126 392 11 ELECT CHIP 100MF 20 63V C708 1 115 153 1 ELECT CHIP 4 20 16V C548 1 126 392 11 ELECT CHIP 100MF 20 63V C549 1 126 392 11 ELECT CHIP 100MF 20 63V C712 1 164 505 11 CERAMIC CHIP 22 16V C560 1 163 031 11 CERAMIC CHIP 0 01MF 50V C713 1 164 505 11 CERAMIC CHIP 22 16V C561 1 163 031 11 CERAMIC CHIP 0 01MF 50V C714 1 164 505 11 CERAMIC CHIP 22 16V C728 1 163 031 11 CERAMIC CHIP 0 01MF 50V C562 1 163 249 11 CERAMIC CHIP 82PF 5 50 C729 1 163 031 11 CERAMIC CHIP 0 01MF 50V C563 1 163 091 00 CERAMIC CHIP 8PF 0 25PF 50V C567 1 164 222 11 CERAMIC CHIP 0 22MF 25V C734 1 163 031 11 CERAMIC CHIP 0 01 50 568 1 164 700 11 CERAMIC CHIP 0 68MF 16V C751 1 126 396 11 ELECT CHIP 47MF 20 16 C569 1 164
227. 633 11 METAL CHIP 180 0 50 1 10W R227 216 057 00 RES CHIP 22K 5 1 10W R165 216 627 11 METAL CHIP 100 0 50 1 10W R228 216 025 91 RES CHIP 100 5 R229 216 057 00 RES CHIP 22K 5 R166 216 057 00 RES CHIP 2 2K 5 R167 216 057 00 RES CHIP 2 2K 5 R230 216 073 00 RES CHIP 10K 5 R168 216 049 91 5 IK 5 R232 216 073 00 RES CHIP 10K 5 R169 216 053 00 RES CHIP 1 5K 5 R236 216 095 00 RES CHIP 82K 5 R170 216 654 11 METAL CHIP 1 3K 0 50 1 10W R237 216 065 91 5 4 7K 5 R238 216 073 00 5 10K 5 216 679 11 METAL CHIP 15K 0 50 1 10W R172 216 049 01 5 IK 5 R239 216 671 11 METAL CHIP 6 8K 50 1 0 R173 216 025 91 5 100 5 240 216 669 11 METAL CHIP 5 6K 50 1 10W R174 216 033 00 RES CHIP 220 5 RAI 216 651 11 METAL CHIP IK 50 1 10W R175 216 065 91 5 4 7K 5 R242 216 073 00 RES CHIP 10K 5 R243 216 672 11 METAL CHIP 1 5K 50 1 10W R176 216 073 00 5 10K 5 1 10W R177 216 658 11 METAL CHIP 2K 0 50 1 10W R244 218 766 11 METAL CHIP 390K 50 1 10W R178 216 662 11 METAL CHIP 3K 0 50 1 10W R245 216 033 00 RES CHIP 220 5 R179 216 025 91 5 100 5 1 10W R246 216 669 11 METAL CHIP 5 6K 50 1 10W R180 216 657 11 METAL CHIP 1 8K 0 50 1 10W R247 216 669 11 METAL CHIP 5 6K 50 1 10W R248 214 903 31 METAL 39K 1
228. 64 695 11 CERAMIC CHIP 0022 5 50V R701 216 655 11 METAL CHIP 1 5K 0 50 1 10W C022 107 901 1 ELECT 47 20 50V R702 216 679 11 METAL CHIP 15K 0 50 1 10W C023 163 275 1 CERAMIC CHIP MF 5 50V R703 216 679 11 METAL CHIP 15K 0 50 1 10W R704 216 677 11 METAL CHIP 12K 0 50 1 10W C024 164 232 11 CERAMIC CHIP 10 50V C031 128 528 11 ELECT 470MF 20 25V R705 214 903 31 METAL 39K 1 032 128 528 11 ELECT 470MF 20 25V R706 216 049 91 5 IK 5 C033 107 910 1 ELECT 100 20 SOV R707 216 113 00 470K 5 C034 137 399 FILM 5 100V R708 219 743 11 CARBON 100 5 C036 164 232 11 CERAMIC CHIP 10 50V VARIABLE RESISTOR gt C051 164 004 11 CERAMIC CHIP 10 25V C052 163 251 11 CERAMIC CHIP 100PF 5 50 RV501 A 1 223 410 11 RES ADJ METAL FILM C053 102 030 00 CERAMIC 330PF 10 500V C054 129 765 00 FILM 0047 5 20 lt SPARK GAP gt C055 1 162 116 00 CERAMIC 680PF 10 2 56501 519 422 11 GAP SPARK C056 1 162 134 11 CERAMIC 470 10 2KV 50502 519 421 11 DISCHARGE C057 136 081 00 FILM 0012 3 2 56503 519 421 11 GAP DISCHARGE C058 A 1 162 116 00 CERAMIC 680PF 10 2 50504 519 421 11 DISCHARGE C061 123 024 21 ELECT 33MF 160V 50505 519 421 11 GAP DISCHARGE C062 137 417 11 MYLAR 0 0047 10 200 0506 519 421 11 GAP DISCHARGE C063 107 995 11 ELECT 100MF 0 160V 0507 5
229. 6500 FA H CENTER AMP Q071 2503392 5 PWM DRIVE T 45 6109 AW B CHIP ve CH CHIP H 23 4 14 8 8106 8108 R109 ai 10 8 0072 22k 0 2 2k E Ea CHIP FPRD CHIP We MCN 160714 2W du FA5301BN TE1 PWM CONTROL R074 K 2061 19E T52 m mr 2 3 3K 461 1488 RN CHIP 0073 10k gt t 4 4 0 001 1 0101 CH CHIP cor T 1 4W 100 10 AW 4 25 8086 8087 R088 R089 R100 C102 10k 10k 10k k 1 100 RN CHIP RN CHIP RN CHIP RN CHIP 1 48 We MW RT0Z 1066 220uH 3 1063 220uH 3 1 D102 1 44 V19E T52 RECT X HV DRV 2 4 X v 9 9 sert Tal vov net
230. 7 A 2 D600 D 4 C524 D 2 0376 4 300 C 6 D601 D 4 C525 E 6 0377 C 4 TP301 6 D701 G 4 C526 D 2 0378 C 4 TP302 C 6 D802 G 2 C527 D 2 0379 4 303 5 D803 6 5 C528 D 2 0380 B 3 TP304 B 5 D804 F 4 C529 D 2 0381 B 4 TP305 4 D900 G 1 C53 E 5 0382 B 4 TP306 3 0901 C700 F 4 0384 4 307 2 0902 4 C70 F 4 0385 3 500 6 D903 F 4 C702 F 5 0386 C 4 TP501 E 6 D905 G 4 C703 G 4 0387 B 3 TP502 D 5 C704 G 4 0388 B 3 TP503 D 5 7 C705 G 4 0390 2 504 D 5 c2 B 7 C706 G 5 0400 C 4 TP505 D 4 Cm C707 F 5 0500 1 506 D 3 C101 B 6 C710 F 1 0501 1 507 D 2 C102 A 6 C71 1 0502 D 7 TP700 F 4 R335 C104 A 6 C728 F 1 0503 E 1 TP800 F 2 a C106 A 5 C730 F 1 0504 E 1 TP801 G 3 C107 A 5 C73 F 1 Q505 D 1 TP802 F 3 C110 A 5 C732 F 1 0506 D 2 TP803 F 3 111 5 C734 F 1 0507 D 1 TP900 F 4 C112 A 4 C735 F 1 0510 D 6 TP901 F 3 C113 B 4 C736 E 1 0540 D 6 C114 B 4 C800 F 2 Q541 D 6 B SIDE MOUNT C115 4 F 3 Q542 D 5 C116 B 4 C802 G 3 Q543 D 5 C117 A 3 C803 G 3 Q544 D 5 C118 B 3 C804 F 3 0567 D 3 C119 B 3 C805 F 3 Q568 D 4 C12 A 2 C900 F 2 Q569 D 4 C122 A 2 C90 F 4 0570 D 4 C123 A 2 C902 F 6 Q571 D 4 C124 B 2 C903 G 6 Q572 D 4 C126 A 2 C904 G 4 0573 D 3 C127 A 2 C906 E 5 Q574 D 4 C128 2 C907 B 2 Q575 D 4 C129 B 2 C908 B 5 0577 D 4 C13 B 5 C909 2 0578 D 3 C300 6 910 5 0579 D 4 c30 C 6 911 2 0580 D 3
231. 85 164 505 11 CERAMIC CHIP 2 2MF 16V C386 163 809 11 CERAMIC CHIP 047 10 25 C198 163 031 11 CERAMIC CHIP 0 01MF 50V C387 163 031 11 CERAMIC CHIP 50V C199 163 031 11 CERAMIC CHIP 0 01MF 50V C200 164 505 11 CERAMIC CHIP 22 16V C388 163 031 11 CERAMIC CHIP 50V C201 163 031 11 CERAMIC CHIP 0 01MF 50V C389 163 031 11 CERAMIC CHIP 50V C202 163 031 11 CERAMIC CHIP 0 01MF 50V C390 163 031 11 CERAMIC CHIP 50V C391 164 232 11 CERAMIC CHIP 10 50V C203 163 031 11 CERAMIC CHIP 0 01MF 50V C392 163 809 11 CERAMIC CHIP 047 10 25 C204 163 031 11 CERAMIC CHIP 0 01MF 50V C220 163 127 00 CERAMIC CHIP 270 5 50V C393 163 033 91 CERAMIC CHIP 0 022MF 50V 222 163 031 11 CERAMIC CHIP 0 01MF 50V C397 163 031 11 CERAMIC CHIP 50V C230 126 392 11 ELECT CHIP 100MF 20 63V C398 163 038 11 CERAMIC CHIP 25V C399 163 031 11 CERAMIC CHIP 50V C231 126 391 11 ELECT CHIP 47MF 20 63V C400 164 222 11 CERAMIC CHIP 22 25V C232 126 391 11 ELECT CHIP 47MF 20 63V C240 163 031 11 CERAMIC CHIP 0 01MF 50V C401 163 251 gt CERAMIC CHIP 100PF 5 50 C241 163 085 00 CERAMIC CHIP 2PF 0 25PF 50V C402 164 232 11 CERAMIC CHIP 10 50V C300 163 227 11 CERAMIC CHIP 0 5 50 C403 163 035 00 CERAMIC CHIP 0 047MF 50V C404 107 364 11 MYLAR 10 200V C301 163 229 11 CERAMIC CHIP 12PF 5 50V C405 164 505 11 CERAMIC CHIP 2 2MF 16V C302 115 155 1
232. 88346BPFV Q310 8 729 107 31 TRANSISTOR 25 3545 43 Q350 8 729 107 31 TRANSISTOR 25 3545 43 8 759 064 36 IC MB88346BPFV Q351 8 729 107 31 TRANSISTOR 25 3545 43 8 759 064 36 IC MB88346BPFV Q352 8 729 107 31 TRANSISTOR 25 3545 43 8 759 064 36 IC MB88346BPFV Q353 8 729 112 65 TRANSISTOR 2SA1462 Y33 8 759 064 36 IC MB88346BPFV REFNO PARTNO DESCRIPTION REMARK REFNO PART NO DESCRIPTION REMARK Q354 8 729 112 65 TRANSISTOR 25 1462 33 Q807 8 729 120 28 TRANSISTOR 25 1623 1 51 6 Q374 8 729 107 31 TRANSISTOR 25 3545 43 Q375 8 729 120 28 TRANSISTOR 25 1623 1516 Q808 8 729 120 28 TRANSISTOR 2SC1623 L5L6 Q376 8 729 120 28 TRANSISTOR 25 1623 1516 Q809 8 729 120 28 TRANSISTOR 2SC1623 L5L6 0377 8 729 107 31 TRANSISTOR 25 3545 43 Q810 8 729 925 42 TRANSISTOR IMT2 081 8 729 925 42 TRANSISTOR IMT2 Q378 8 729 112 65 TRANSISTOR 25 1462 33 0812 8 729 120 28 TRANSISTOR 2SC1623 L5L6 Q379 8 729 107 31 TRANSISTOR 25 3545 43 Q380 8 729 920 59 TRANSISTOR IMX2 T109 Q813 8 729 216 22 TRANSISTOR 2SA1162 G Q381 8 729 920 59 TRANSISTOR IMX2 T109 Q814 8 729 216 22 TRANSISTOR 2SA1162 G Q382 8 729 920 59 TRANSISTOR IMX2 T109 Q815 8 729 120 28 TRANSISTOR 2SC1623 L5L6 Q816 8 729 216 22 TRANSISTOR 2SA1162 G Q384 8 729 107 31 TRANSISTOR 25 3545 43 Q817 8 729 120 28 TRANSISTOR 2SC1623 L5L6 Q385 8 729 112 65 TRANSISTOR 25 1462 33 Q386 8 729 107 31 TRANSISTOR 25 3545 43 Q818 8 729 120 28 TRANSISTOR 2SC1623 L5L6 Q387 8 729 033 31 TRANSISTOR 2
233. 9 91 RES CHIP K 5 NOW R606 1 216 677 11 METAL CHIP 12K 50 1 10W R685 1 216 073 00 RES CHIP OK 5 NOW R607 1 216 666 11 METAL CHIP 43K 50 1 10W R686 1 216 057 00 RES CHIP 2 2K 5 NOW R687 1 216 033 00 RES CHIP 220 5 NOW R608 1 216 670 11 METAL CHIP 62K 50 1 10W R688 1 216 033 00 RES CHIP 220 5 NOW R609 1 216 025 91 RES CHIP 100 5 NOW R610 1 216 679 11 METAL CHIP 15K 50 1 10W R700 1 216 065 91 RES CHIP 4 7K 5 NOW R611 1 216 649 11 METAL CHIP 820 0 50 1 10W R701 1 216 065 91 5 4 7K 5 NOW R612 1 216 647 11 METAL CHIP 680 0 50 1 10W R702 1 216 065 91 RES CHIP 4 7K 5 NOW R703 1 216 065 91 RES CHIP 4 7K 5 NOW R614 1 216 647 11 METAL CHIP 680 0 50 1 10W R704 1 216 065 91 RES CHIP 4 7K 5 NOW R615 1 216 025 91 RES CHIP 100 5 NOW R616 1 216 025 91 RES CHIP 100 5 NOW R705 1 216 065 91 RES CHIP 4 7K 5 NOW R617 1 216 667 11 METAL CHIP 4 7K 50 1 10W R706 1 216 073 00 RES CHIP 10K 5 NOW R618 1 216 659 11 METAL CHIP 22K 50 1 10W R707 1 216 073 00 RES CHIP 10K 5 NOW R708 1 216 073 00 RES CHIP 10K 5 NOW R619 1 216 658 11 METAL CHIP 2K 50 1 10W R709 1 216 677 11 METAL CHIP DK 0 50 110 R620 1 216 675 11 METAL CHIP 10K 50 1 10W R621 1 216 073 00 RES CHIP 10K 5 R710 1 216 671 11 METAL CHIP 6 8K 0 50 1 10W R623 1 216 033 00 RES CHIP 220 5 NOW R711 1 216 691 11 METAL CHIP 47K 0 50 1 10W R625 1 216 655 11 METAL CHIP 15K 50 1 10W R712 1 216 685 11 METAL CHIP 27K 0 50 1 10W R713 1 216 049 91 5 K 5 NOW R626 1 21
234. 99 216 661 11 METAL CHIP 2 7K 50 1107 R302 216 049 91 RES CHIP IK 5 201 216 073 00 5 10K 5 R303 216 097 91 5 100K 5 9 13 BK REFNO PARTNO DESCRIPTION REMARK REFNO PART NO DESCRIPTION REMARK R304 1 216 009 00 RES CHIP 22 5 NOW R373 1 216 073 00 RES CHIP OK 5 NOW R374 1 216 633 11 METAL CHIP 80 0 50 1 10W R305 1 216 051 00 RES CHIP 12K 5 R375 1 216 627 11 METAL CHIP 00 0 50 1 10W R306 1 216 025 91 RES CHIP 100 5 NOW R307 1 216 049 91 RES CHIP IK 5 R376 1 216 057 00 RES CHIP 2 2K 5 NOW R308 1 216 049 91 RES CHIP IK 5 NOW R377 1 216 057 00 RES CHIP 2 2K 5 NOW R309 1 216 009 00 RES CHIP 22 5 NOW R378 1 216 049 91 5 K 5 NOW R379 1 216 053 00 RES CHIP JK 5 NOW R310 1 216 009 00 RES CHIP 22 5 NOW R380 1 216 049 91 RES CHIP K 5 NOW R311 1 216 697 91 METAL CHIP 82K 0 50 1 10W R312 1 216 657 11 METAL CHIP 1 8K 0 50 1 10W R381 1 216 025 91 RES CHIP 00 5 NOW R313 1 216 663 11 METAL CHIP 33K 0 50 1 10W R383 1 216 065 91 RES CHIP 4 7K 5 NOW R314 1 216 009 00 RES CHIP 22 5 NOW R384 1 216 073 00 RES CHIP OK 5 NOW R385 1 216 658 11 METAL CHIP 2K 0 50 110 R315 1 216 676 11 METAL CHIP 0 50 1 10W R386 1 216 683 11 METAL CHIP 22K 0 50 1 10W R316 1 216 697 91 METAL CHIP 82K 0 50 1 10W R317 1 216 651 11 METAL CHIP IK 0 50 110 R387 1 216 687 11
235. ACTER GEN IRQ2 2 P63 1R05 A19 0072 Dor 12 274 5 2 Avec 006 128 2 005 A6 H SYNE 4 4 004 A5 ae 51 B p72 FT 12 u aes 2st RIVER SYNG 3 RD 8 4 474 gt Dot A2 CHARA 3 gt P74 F TOBI FTCI1 4 Lu 4 4 1 04 T CP S P75 FTOB2 F TC 12 E DTCTA4EK T146 CHARA 2 P76 FTOB3 FTCI3 101 vss daa 0 5 4 4 2 HD6475368CP 10 DUO 1 S P77 F TOA EG2 0 amp ____ 5964 474 MICROCOMPUTER 10k 005 4 2 55 NM CHIP 554 vss Ri 5 bate E 003 SPP81 AN1 2 2 T 106 moz 2 2 MIG CHIP AW mpo M A18 RT 13 84 4 vcc 1010 518 z MATT eve 5 2 ADDRESS SELECTOR E P85 ANS 80748004 ADDRESS SELECTOR amp P86 AN6 amp P87 AN7 8 2 58204553 28258588 Rv BE jp 00 ma NO UN EAE YS Z ptu NUNC SUN NUN lt cso 2 4 RR RR RS 5614 1 2 4 699996066900000606666 rae HP 205 10k 8 1015 476 LRQO E lip 08 374 TC7AVHCUOAF EL 274 INVERTER IRQI 5 2 1015 5 6 274 lt SENSE 374 9 9 TC74VHCUOAF EL INVERTER L4 CC RESET 3 4 lt TALLY 474 R8 105
236. AL CHIP 12K 50 1 10W R818 216 683 11 METAL CHIP 22K 50 1 10W lt CAPACITOR gt R819 216 667 11 METAL CHIP 4 7K 50 1 10W R820 216 659 11 METAL CHIP 2 2K 50 1 10W C201 1 126 206 11 ELECT CHIP 100MF 20 63V C202 1 126 206 11 ELECT CHIP 100MF 20 63V R821 216 073 00 RES CHIP 10K 5 1 10W C203 1 126 206 11 ELECT CHIP 100MF 20 63V R823 216 049 91 RES CHIP IK 5 1 10W C204 1 126 206 11 ELECT CHIP 100MF 20 63V R824 216 061 00 RES CHIP 3 3K 5 1 10W C205 1 126 206 11 ELECT CHIP 100MF 200 63V R825 216 679 11 METAL CHIP 15K 0 50 0 R826 216 659 11 METAL CHIP 2 2K 0 50 0 C206 1 126 206 11 ELECT CHIP 100MF 20 63V C207 1 126 206 11 ELECT CHIP 100MF 200 63V R827 216 061 00 RES CHIP 33K 5 1 10W C211 1 163 031 11 CERAMIC CHIP 0 01MF 50V R830 216 025 91 RES CHIP 100 5 C212 1 163 031 11 CERAMIC CHIP 0 01 50V R831 216 025 91 RES CHIP 100 5 1 10W C213 1 163 031 11 CERAMIC CHIP 50V R832 216 025 91 RES CHIP 100 5 1 10W R833 216 025 91 RES CHIP 100 5 1 10W C214 1 163 031 11 CERAMIC CHIP 0 01 50V C215 1 163 031 11 CERAMIC CHIP 50V R901 202 725 00 SOLID 33M 20 C216 1 163 031 11 CERAMIC CHIP 01 50V R902 202 725 00 SOLID 3 3M 20 C217 1 163 031 11 CERAMIC CHIP 0 01 50V R903 216 073 00 RES CHIP 10K 5 1 10W C301 1 163 031 11 CERAMIC CHIP 01 MF 50V R904 216 073 00 RES CHIP 10K 5 1 10W R906 216 057 00 RES CHIP 22K 5 1 10W C302 1 163 031 11 CERAMIC CHIP 01 50V C303 1
237. AS CLAMP GY G 100 IRE G REF SEL G DRIVE V DRIVE BIAS CLAMP Q506 MATRIX G DRIVE IK G CUTOFF SWITCH CONTROL 1506 57 569 572 10515 517 518 PALA 10502 504 525 504 _ Qb42 544 10510 0568 10516 0600 573 575 577 579 10517 10519 0580 581 501 0510 Q507 Q540 541 B 2 S BUEFER B Y B BUFFER JG 5 B Y B CLAMP PB SWITCH Q567 CONTRAST BRT ULSE INSERT B VIDEO Eny 4 CLAMP GAIN CONT BUFFER TO Y PB CONTROL B DRIVE OFF SW B Y B SELECT B BUFFER 10500 300 IN eye OUT 10521 524 526 517 527 529 10511 513 0164 B DRIVE v DRIVE AMP BIAS CLAMP B DRIVE V IK BIAS CLAMP B DRIVE IK CONT B CUTOFF ROL CONTROL B Y CLAMP OFFSET B Y REF SEL 0106 SET BUFFER BUFFER B Y PULSE LEVEL BUFFER R BUFFER 100 IRE gt REF SEL 1 106 107 1 112 114 118 3 301 302 1C302 304 325 1 115 117 0008 ioni 0 277 2104 Q142 144 10110 0165 4010 01166 169 0900170172 174 176 IN gt R gt 2PR 2R R Y R CLAMP vend SWITCH R BUFFER SWITCH R R BUFFER TRANSIENT KR UR CLAMP Y PR MIX CONTRAST BRT ULSE INSERT ITCH R VIDEO AMP R p SELECT R Y R GAIN CONT CELE R DRIVE OFF SW i x AMP I B BUFFER 512
238. ASSWORD Menu Setting Power Up Conditions and Decoder SET UP 4 SYSTEM CONFIGURATION Menau yeri uma A dette teet eene Structure of the SYSTEM CONFIGURATION Menu C4 Setting Lists of the SYSTEM CONFIGURATION Menu Table of contens Chapter 2 Menu Chapter 3 Appendix Setting the Screen Display SET UP 5 ON SCREEN SET Menu Overview see Structure of the ON SCREEN SET Menu C5 Setting Lists of the ON SCREEN SET Menu Convergence Adjustments SET UP 6 ALIGNMENT Menu NE e NE t asa NGANAN Structure of the ALIGNMENT Menu C6 Setting Lists of the ALIGNMENT Menu Using Extended Functions SET UP 7 EXTEND Menu Overview Structure of the EXTEND Menu E Setting Lists of the EXTEND Menu Monitor Memory Card Data Operations MEMORY CARD Menu Overview Structure of the MEMORY CARD Menu D Setting Lists of the MENU CARD Menu Monitor to Monitor Data Copy COPY Menu aja arasan gansa ette ente Structure of the COPY Menu 2 Setting Lists of the COPY Menu sse Displaying Information About the Monitor STATUS Menu Structure the STATUS Menu Setting Lists of the STATUS Menu Selecting the Monitor to Control ADDRES
239. BOARD 15K 374 gt CHIP SR B CHIP 1 44 z z 1 2W CN904 1 R305 1 5k CHIP 28048863 8230 lt i v sp 4 0 4 DFY AMP WA 02 0307 T gs XH STAT 174 037K SB1565EF 9 1 AMP DFX DRIVER 1 25V a 82555200 MEPS components identified marked are Les composants identifi s par une marque critical for safety A sont critiques pour la s curit Replace only with the part number specified Ne les remplacer que par une pi ce portant 11 38 11 38 le num ro sp cifi 3 4 3 4 D TIM 174 2 4 gt FF 070 15K 2 4 gt SYNC 1 4 gt R002 10k CHIP C001 0 1 25V B CHIP C004 0 1 25V B CHIP 16001 CXA18408 SIGNAL GENERATOR 2 R001 4 428 8 2k 0 001 RN CHIP CH CHI 4 8 5 0 AFCFIL3 w 1 R023 CHIP 2 8 H SYNC 1 4 gt w 8003 R024 C005 10k tk 0 1 CHIP CHIP 25V B CHIP 2H TIM 1 9 1 4 274 474 TIM gt 0 6 R081 C076 0 0022 CHIP CH CHIP 1 1 1 1 1 1 ir 10101 CHIP LA
240. C 1 082 D901 8 719 404 49 DIODE MAII 1 321 8 759 981 48 IC TLO2M D902 8 719 404 49 DIODE MAII 1322 8 759 981 48 IC TL082M D903 8 719 404 49 DIODE MAII 1C323 8 759 981 48 IC TLO2M D904 8 719 920 76 DIODE 152076 1 324 8 759 011 65 IC MC74HC4053F D905 8 719 404 49 DIODE MAII 1 325 8 759 082 61 TCAWS3FU 1 326 8 759 011 65 IC MC74HC4053F FILTER 1 327 8 759 981 48 IC TL082M IC328 8 759 100 96 uPC4558G2 FL900 1 239 480 11 FILTER EMI 1 329 8 759 988 13 IC LM393PS FL901 1 239 480 11 FILTER EMI FL902 1 239 183 11 FILTER EMI IC331 8 759 058 64 TC7S32FU TE85R 1 500 8 759 011 65 IC MC74HC4053F IC501 8 759 011 65 IC MC74HC4053F 1 502 8 759 981 48 IC TL082M 8 759 144 82 IC uPC2405HF 1C503 8 752 054 80 IC CXA1521M IC2 8 759 247 67 IC LM2990T 5 0 9 10 BK PART NO DESCRIPTION REMARK REFNO PARTNO DESCRIPTION REMARK 8 759 011 65 IC MC74HC4053F IC911 8 759 064 36 IC MB88346BPFV 8 759 981 48 IC TLO82M 8 759 082 61 TCAWS3FU 1 912 8 759 082 59 IC TCTW32FU 8 759 082 61 TCAWS3FU 8 759 058 54 IC TC7S00FU TESSR CHIP CONDUCTOR 8 759 011 65 IC MC74HC4053F JR101 1 216 295 91 SHORT 0 8 759 981 48 IC TL082M JR301 1 216 295 91 SHORT 0 8 752 054 80 IC CXA1521M JR501 1 216 295 91 SHORT 0 8 759 011 65 IC MC74HC4053F JR731 1 216 295 91 SHORT 0 8 759 981 48 IC TL082M JR901 1 216 295 91 SHORT 0 8 759 700 95 NIM1496M JR903 1 216 295 91 SHORT 0 8 759 011 63 IC
241. C DIGITAL 5V HV AC 1 HV AC 24902 DIGITAL 5V vs 12V 15V JW z t5v ow ir d V BLK Pi NG 2HS NC _2HS FBT H BLK P NC H BLK ITAL 3 RID E 275 NC _2V8 um E AR v BLK P2 18 NC BLK2 DIGITAL GND NC NC HT IK PROT S CTK PROT E SENCE 87 NC 5V SENSE NC NC HT 5p NC DIGITAL GND NG NG To 15V e 15V UW cios 5 NG 2121 DIGITAL GND 15V JW 7 15V DIGITAL OND NC NC HT C ND 5 GND FBT C 2 FBT MISO 46 NC MISO C SLOT HP NC NC24A WU ROT ST WV PROT P JW 05V 154 MOS 85 NC MOSI V BLK P1 NC V GND 10 GND 4 GND SCLK 5 NC SCLK ESSE H BLK P NC H BLK AV RIO TIU ANDET 05V 5 Iw 154 p 5v NC DIGITAL 5V V BLK P2 NC V BLK2 0 5 NC DIGITAL 5V INTERNAL 516 WAIN POWER 57 5V SENSE NC 5V SENSE D_GND e NC DIGITAL GND ou RESET NC RESET 4 JW 99903 D GND DIGITAL GND AC SW TN NC NC NC a Jw 15 wr cH sLoT2 MISO NC MISO 2 IK OUT n MOST NC MOSI 1 IK IN s TA goano anp SCLK NC SCLK GND M aes AC SW IN DIGITAL 5V NC DIGITAL 5V DIGITAL 5V NC DIGITAL 5V PIDE RA calc NA d DIGITAL GND NC DIGITAL GND LAC QUT DIGITAL GND DIGITAL GND _CH SLOT2 NC INTERNAL 16 INTERNAL 516 1 GND ND NEUTRAL AC INJ 100 240 50 60HZ CN13 CN12 T A 6
242. CHIP 16101 1 3 MC74HC4053FEL PROGRAM SELECT R110 22 CHIP 1 TP100 24 0 7 9 2941462 Y G CLAMP BK 1 9 BK 1 9 Y CLAMP OFFSET 9 9 gt uh 203515 SCHIP Wg CLAMP 2 B CHIP PULSE INSERT 0301 DTA144EKA BK SELECT SW 306 2503545 R Y R BUFFER wo 7 p23 PROTECTORS R307 R308 10301 1 3 MC74HC4053FEL PROGRAM SELECT R310 0 22 cHip 0 1 13 R309_5 CHIP 0501 0 144 BK SELECT SW 2503545 8 Y B BUFFER 90 6 MATT PROTECTORS R507 R508 ik ik CHIP CHIP R510 16501 1 3 MC74HC4053FEL PROGRAM SELECT 22 cHip 0 1 13 8509 _ 22 75 CHIP 16102 172 TLO82CPS Y G CLAMP 3 3 MC74HC4053FEL Y G CLAMP mn k 2 2k RN CP 8312 CHIP n324 0 7 1 4 0303 2941462 R Y R CLAMP 2503545 2 R Y R CLAMP CHIP 2863545 SHIP 3 10301 2 3 R Y R CLAMP R MC74HC4053FEL nga PULSE INSERT CHIP 0305 10302 1 2 TLO82CPS R Y R CLAMP 10301 3 3 MC74HC4053FEL R Y R CLAMP B Y B CLAMP 505 Ye CLA 16501 2 3 NC74HC4053FEL PULSE INS
243. CHIP OK 5 NOW R314 1 216 033 00 RES CHIP 220 5 NOW R216 1 249 393 11 CARBON 0 5 4W F R315 1 216 073 00 RES CHIP OK 5 NOW R217 1 249 429 11 CARBON OK 5 4W R316 1 249 393 11 CARBON 5 4W F R218 1 249 441 11 CARBON 00K 5 4W R317 1 249 429 11 CARBON K 5 4W R219 1 249 417 11 CARBON K 5 4W R318 1 249 441 11 CARBON OK 5 4W R220 1 219 728 11 METAL 0 22 10 SW R319 1 249 417 11 CARBON K 5 4W R221 1 215 904 11 METAL OXIDE 00K 5 2W F R320 1 219 728 11 METAL 0 22 10 SW R222 1 215 904 11 METAL OXIDE 00K 5 2W F R221 1 215 904 11 METAL OXIDE 0K 5 F R223 1 215 904 11 METAL OXIDE 00K 5 2W F R322 1 215 904 11 METAL OXIDE OK 5 2 F R224 1 215 904 11 METAL OXIDE 00K 5 2W F R323 1 215 904 11 METAL OXIDE OK 5 F R228 1 260 288 11 CARBON 0 47 5 NW R324 1 215 904 11 METAL OXIDE OK 5 F R229 1 215 882 00 METAL OXIDE 22 5 2 F R328 1 215 882 00 METAL OXIDE 22 5 F R230 1 216 057 00 RES CHIP 2 2K 5 R329 1 260 288 11 CARBON 0 47 5 NW R231 1 216 001 00 RES CHIP 0 5 NOW R331 1 216 736 11 METAL 270 1 OW R232 1 216 061 00 RES CHIP 3 3K 5 R332 1 215 901 00 METAL OXIDE 33K 5 F R233 1 216 025 91 RES CHIP 00 5 NOW R333 1 216 073 00 RES CHIP 10K 5 NOW R234 1 216 659 11 METAL CHIP 22K 0 50 1 10W R334 1 249 405 11 CARBON 100 5 4W F R235 1 216 025 91 5 00 5 NOW R335 1 249 405 11 CARBON 100 5 4W F R236 1 216 677 11 METAL CHIP 2K 0 50 110 R336 1 214 905 11 METAL 47K 1 NW R237 1 215 886 11 METAL OXIDE 00
244. CODER 51013 2 1 124 RS422 MICRO COMPUTER 32 33 1034 INTERFACE RXD RXD 1 INOUTPROT SLOT SLOT CHARA FIVSOT CHARA RGB H STAT EXPANDER DRIVER RECEIVER CHARA BLK IC121 CHARA BLK RXDIXD 102526 xi CLOCK RXD TXD RS485 INVERTER CCSIGNAL 5 1C2 03 10 2224 T 1 61 63 BACK UP RESET 8 Q51 52 151 152 d tc D LITUM PS vs SDI CC PULSE IC104 105 107 108 013111118 BATTERY BACK UP 5V GENERATOR SAD BLK 1 116 114 121 122 RISTXD DTR REMOTE LINE COUNTER SAD RGB SEP YA CN6 DSR RXD CTS ISR RS 232C 12V ISR RS232C CONTROLLER SYNC PLL DOT CLK COUNTER INTERFACE Som INT SIGNAL DATA OPTION 1036 2 CLOCK 8 TO1 1 RISRXD TXD Rg2326 4 9152MHz DRIVER SELECTOR HPO HP7 TAY INTEREACE IN OUT PROT H0 H1 YB 29 V0 V3 1 120 106 123 INT SIGNAL LVL 45V REMOTE 2 VPO VP3 SYNC GEN DRIVER COUNTER x D FLIP FLOP BUVD00 BUVD02 BUVD10 BUVD12 BUVD20 BUVD21 BC OVERLOAR STANDBY POWER BK HD YC BC C YA YB BOARDS 10 2 10 2 OVERALL BLOCK 1 2 A B C D E F G H OVERALL 2 2 OVERALL 2 2
245. CTOR D DUB L 9P CN7 1 784 403 11 CONNECTOR BOARD TO BOARD 40 D560 8 719 037 22 DIODE RDI2SB TI 0561 8 719 037 22 DIODE RDI2SB TI lt DIODE gt lt FILTER gt 8 719 158 19 DIODE RD62SB D2 8 719 158 19 DIODE RD6 2SB 239 183 11 FILTER EMI D3 8 719 158 19 DIODE RD6 2SB FL2 239 183 11 FILTER EMI D4 8 719 158 19 DIODE RD6 2SB FL3 239 183 11 FILTER EMI DS 8 719 158 19 DIODE RD6 2SB 15 239 183 11 FILTER EMI FL6 236 071 11 _ ENCAPSULATED COMPONENT D6 8 719 037 22 DIODE RDI2SB TI D7 8 719 037 22 DIODE RDI2SB TI FL7 239 183 11 FILTER EMI D8 8 719 037 22 DIODE RDI2SB TI FL8 239 183 11 FILTER EMI D9 8 719 037 22 DIODE RDI2SB TI FL9 239 183 11 FILTER EMI D10 8 719 037 22 DIODE RDI2SB TI FL10 239 183 11 FILTER EMI FL200 236 071 11 ENCAPSULATED COMPONENT 8 719 037 22 DIODE RDI2SB TI D12 8 719 158 19 DIODE RD6 2SB FL201 236 071 11 ENCAPSULATED COMPONENT D13 8 719 404 49 DIODE FL202 239 183 11 FILTER EMI D21 8 719 158 19 DIODE RD6 2SB FL203 239 183 11 FILTER EMI D22 8 719 158 19 DIODE RD62SB FL204 239 183 11 FILTER EMI FL205 239 183 11 FILTER EMI D23 8 719 158 19 DIODE RD6 2SB D24 8 719 158 19 DIODE RD6 2SB FL210 239 183 11 FILTER EMI D29 8 719 158 19 DIODE RD6 2SB FL211 239 183 11 FILTER EMI D30 8 719 158 19 DIODE RD6 2SB FL212 239 183 11 FILTER EMI D31 8 719 158 19 DIODE RD6 2SB FL213 239 183 11 FILTER EMI FL214 239 183 11 FILTER EMI D32 8 719 158 19 DIODE RD6 2SB D3
246. D SEC 2 2 un 15V REG DINSACTR 1272 RLY DET Y Y D1NS4 TR2 20 15 mPFC our 2 2 M393PS R106 SWITCH 3 COMPARATOR 28812 1 m lt LOW B FAILE 2 2 20 1 2 SWITCH 0106 RD18ESB3 D8 PROTECTOR 111 PROTECTOR R74 0 47 036 IRE SWITCH gt m gt 1 4 343 R53 I R58 TP31 CHIPE Q8 530k 220k 166 05 2541413 2541413 PROTECTOR FB34 R59 ne PROTECTOR 0 45U 330k 15 I tuns Rit RN m 150k R55 R60 57 RS 3 330k 3 220k 13 7 4 330k 22 zm RS 01 150k 100k NE 4 I 2503840 ERU 220 645 KICK 100k 25 2209 450V TP32 1032 1 2 23 035 o NJM4558M TE2 1032 2 2 8805 4 2 fo pinsa ta2 OUT GAIN CTRL Bp NJM4558M TE2 I 98 220 Ro 28038 40K DI SCHRGE i GAIN CTRL 25 9840 18V PROTECTOR KICK HT CHIP un 47k B a R56 gt CHIP 15 3 Vs NE 5 7 E 1 03 E MA aig th 615 20 2 FB31 lt 046 10 4 HUP HT 024 581 San Ao 95 0 450 Roi ip PROTECTOR PROTECTOR 14 Ap T ur Aic GP B CHIP Hee A se ra D2 Q7 04 032 RD20ES T1B1 010144 SLR 325VCT31 28C2412K 885 9 34 RESET PROT IND 2 GAIN CTRL Te 1 4 7 0 MW 8 220 2
247. D 4 19 VD 19 AFC PULSE A20 2o 21 821 Le 822 DE 823 24 NG24A 24 v BLK 1 25 1 v BLk2 26 5v SENSE 826 RESET R231 27 NC chip B27 MISO SCLK 29 DIGITAL 5V D 5V 29 DIGITAL 5V DIGITAL GND Bs DIGITAL GND INTERNAL 516 32 GND 832 GND TO TA BOARD CN12 5 25V 8202 10801 2 4 LM339NS E20 COMPARATOR MAIN ON OFF 172 gt 1203 RN CP Soy E 3392 5 BUFFER PH803 PC123FY2 ISORATOR ajo E 16804 TL431CLP Z 8826 8824 16V OVP RN CP N 0802 DTC144EKA 0811 SWITCH 5 1 0 1 5 3 LVL SHIFT 2k Q204 RN CP 2 1338 5 RD BUFFER LOW B FAILE 1 2 gt PFC OVP Q206 DTC144EKA PROTECTOR Q817 08 SWITCH RDS Ko LM339NS E20 COMPARATOR 1 301 120 259 assa E o m TP303 3 bd 000 4 pana 224 12
248. E lt v 5 o 5 gt gt wn 8 e E 3 o 600 Vp p Care must be paid to prevent an electric shock in inspection or repairing Lu o z B SIDE 1 667 742 11 221084 H 19 Jic ponts 1 1 1 14 1 4 1 667 741 11 D1 E 3 Q211 E 2 D2 D 3 Q212 D 6 D3 D 3 Q213 D 1 D4 D 4 Q214 D 6 5 D 2 0215 D 2 1 T D6 D 2 0300 A 6 ee D8 D 6 0301 B 6 rt rt D9 D 2 0303 A 5 031 E 2 0304 A 5 32 E 5 0305 A 1 LI D33 E 2 0306 D 3 D34 E 2 Q801 6 2 D35 D 1 0802 E 2 D36 1 0805 F 3 T T D101 E 2 Q806 F 3 e e D102 E 6 0807 F 3 D103 E 1 Q808 F 3 8 5 0104 E 6 0809 F 3 0105 F 7 Q810 F 3 0106 D 1 Q811 F 3 D202 3 0812 F 3 D203 D 4 Q813 F 3 D204 D 5 Q814 F 3 D205 G 5 Q815 F 3 D206 D 7 Q816 E 2 D207 7 0817 E 2 D208 7 0901 E 5 D209 B 7 Q902 D 3 D210 B 6 Q903 F 1 D211 B 6 Q904 E 3 D212 B 1 D300 A 6 PH20 B 5 D302 A 3 PH30 4 D303 7 PH802 5 0304 7 PH803 5 0305 A 6 PH90 D 5 D306 B 5 D307 1 TP31 2 0801 G 6 TP32 E 1 D803 F 1 TP33 F 1 D804 F 1 TP20 6 D806 F 3 TP202 6 D807 F 3 TP207 E 5 D810 E 3 TP30 F 6 D811 G 2 TP302 F 7 D812 E 2 TP303 B 6 D901 E 5 TP304 A 6 TP305 B 6 D
249. E REG p 3 14 1 001 623 625 628 SWITCHING FBT C 2 45 Q622 X001 1C071 Q071 072 i AMP 77 HV RTN AC 20MHz PWM CONTROL i 13 PWM OUT T 7 9 1 1 SIGNAL 1 6 T 1 621 622 625 627 GENERATOR Q051 059 054 1051 IC031 pz ____ 1C628 641 Q621 641 H SYNC GEN H DRIVE lt 6V 54 HV PROT Hsvs HIV SYNC PHASE H OUT 0 WBY DFY eur ET V DY 99 WW py I VS AMP v VDYRET 1 E UN ve C202 204 628 Q271 273 1612 2 c AMP BUFFER V SAW STOP 1 PARACLAMP VSP gt ABL V SP PHASE 1 091 0091 V STOP 1 T IK EROT H CENTER AMP BIAS 611 602 613 627 628 552 554 Q555 D395 aaa A P HV DRIVE i H BLK V BLK 62 PULSE GENERATOR 0561 0551 HV REG OCP DETECT 21 1 503 0501 502 PWM CONTROL Poe SSeS SoS eb ee ABL BUFFER RTN AC cm BWM DRIVE BKM 10R only HD HV RTN DC SWITCH FUNCTION BUFFER m HVCTL HVOFF 5231 CONTRAST IK PROT IK PROT 5232 BRIGHT MONITOR HV PROT DISCHARGE 5233 CHROMA 5231 234 1 5234 PHASE 1 201 202 201 210 F gega bag oe ee na SERIAL PARALLEL CONVERTER ER DEGAUSS COIL 0901 902 T e ol
250. E TUBE 8 13 CONTROL UNIT 8 7 CONTROL UNIT BKM 10R 22 PSW3xX6 lt PS4x16 REFNO DESCRIPTION REMARK REFNO DESCRIPTION REMARK 401 4 050 851 01 KNOB CONTROL 407 4 050 852 01 HOLDER FOOT 402 X 4033 118 1 PANEL ASSY CONTROL 408 4 050 858 01 COVER TOP 403 1372 134 HB MOUNTED PWB 409 4 050 857 01 COVER BOTTOM 404 1372 133 HA MOUNTED PWB 410 X 4033 117 1 FOOT ASSY 411 412 405 1375 149 COMPLETE PWB 411 X 4836 202 9 FOOT 406 1372 136 MOUNTED PWB 412 3 668 845 01 CUSHION LEG 8 14 The components identified marked A are critical for safety Replace only with the part number specified Les composants identifi s par une marque A sont critiques pour la s curit Ne les remplacer que par une pi ce portant SECTION 9 ELECTRICAL PARTS LIST All variable and adjustable resistors have characteristic curve B unless otherwise noted RESISTORS All resistors are in ohms F nonflammable BC When indicating parts by reference number please include the board name There are some cases the reference number on one board overlaps on the other board Therefore when ordering parts by the reference number please include the le num ro sp cifi CAPACITORS board name lt PF uur lt Items marked are not stocked since they are seldom r
251. ECTION 114 4 063 324 01 HOLDER LCC 115 4 063 789 01 CHASSIS L 14G1 115 4 063 787 01 CHASSIS L 14G5 116 4 050 926 01 CHASSIS R 14G5 116 4 050 962 01 CHASSIS R 14G1 117 A 1482 705 A FBTBLOCK ASSY 118 18 A X 4035 494 1 FBT ASSY NX 4141 JIF4 119 X 4035 463 1 CHASSIS ASSY BOTTOM 1465 119 X 4035 464 1 CHASSIS ASSY BOTTOM 1401 120 120 3 831 441 99 CUSHION SPEAKER 121 X 4033 117 1 FOOT ASSY 122 123 02 X 4836 202 9 FOOT 123 3 668 845 01 CUSHION LEG 124 4 308 870 00 CLIP LEAD WIRE 125 1 452 032 00 MAGNETDISC I0MM o 126 1 452 094 00 MAGNET ROTATABLE DISK 15MM 127 4 051 735 22 75 CONV CORRECT PICTURE TUBE 8 7 BEZEL CABINET 8 4 BEZEL CABINET 20G1A 20G1E 20G1U 04 B4x20 14 BVTP4x12 79 BVTP3x10 09 8 09 B4x8 8 8 REFNO PARTNO DESCRIPTION REMARK 151 X 4033 308 1 CABINET ASSY TOP 152 152 4 050 837 01 CABINET TOP 153 4 063 969 01 SCREW 0S CASE CLAW 154 X 4033 310 1 CABINET ASSY LEFT 155 155 4 050 840 01 CABINET LEFT 156 X 4033 324 2 BLIND COVER ASSY 157 158 157 4 050 836 01 COVER BLIND 158 3 342 839 02 CUSHION 159 4033 309 1 CABINET ASSY RIGHT 160 160 4 050 841 01 CABINET RIGHT 161 X 3642 018 3 HANDLE ASSY 162 162 3 642 047 01 STOP HANDLE 163 X 4035 466 1 PANEL ASSY REAR 164 4 050 821 01 ESCUTCHEON 165 X 4033 104 1 PANEL ASSY BLANK 166 167 166 4 050 804 01 SCREW PANEL STOPPER 167 3 648 057 00 NUT ISO 4 U 168 1 500 278 11 FILT
252. EL MC74HC4051FEL MC74HC4053FEL MC74HC4538AFEL TC74VHC123AF EL TC74VHC138F EL TC74HC151AF EL TC74VHC163F EL TC74HC166AF EL TC74VHC175F EL TC74VHC4040F EL TL494CNS E20 SECTION 7 SEMICONDUCTORS HD6435368AG14M 12 HD6473258P10 Top view LM2990T 5 0 LM339NS E20 MB89613R 236 MB89613R 438 MC74HCOOAFEL MC74HCO2AFEL MC74HC11FEL MC74HC14AFEL HD6475368CP 10 EG2 0 MC74HC30FEL 33 53 MARKING SIDE VIEW LM2940CT 5 0 NJM7809FA NJM7812FA NJM7815FA MC74HC125AFEL NJM1496M TE2 SN74HCO5ANS E05 TC74HCO3AF EL TC74VHCOOF EL TC74VHCO2F EL TC74VHCO4F EL TC74VHC10F EL TC74VHC14F EL TC74VHC74F EL TC74VHC125F EL TC74VHC138F EL TC74VHCUO4F EL TLC2932IPW E20 14 4 7 TOP MB88346BPFV EF TC74VHC244F EL TC74VHC245F EL TC74VHC541F EL TC74VHC574F EL u PD6453GT 101 E1 TOP view NJM79L05A T3 gt 1 Grows 2 w NJM7912FA COMMON GND IN OUT PQ12TZ5U PST529CMT T1 2 3 1 1 vcc 6ND STV9379 TC7SO00FU TE85R TC7S02FU TE85R TC7S32FU TE85R TC7S86F TE85R TC7WO78FU TE1 2R TDA6101Q N3 123456789 7 1 TK83854D 16 9 TOP VIEW TL431CLP Z REF ANODE CATHODE Z8622812PSC 18 10 DTA124EKA T146 DTC144EK T146 DTC144EKA T146 2SA1037K T 146 QR 2SA133B 5 TB 2SA1462 T1Y33Y34 2SC1654 T1N5 2SC2412K T 146 OR 2SC3326N TE85L AB 25
253. ELD PWB R313 1 216 025 91 5 00 5 4 053 411 01 SHIELD PWB 14G1 14G5 R314 1 216 025 91 5 00 5 4 057 770 01 INSULATOR R401 1 216 065 91 5 4 7K 5 R402 1 216 073 00 RES CHIP 0K 5 4 382 854 01 SCREW 3 8 P SW 14G1 14G5 4 623 699 01 SCREW 3X5 R403 1 217 671 11 5 5 10W 4 625 464 01 SUPPORT FITTING MB R404 1 217 671 11 5 5 7 682 566 04 SCREW B 4X20 R405 1 217 671 11 5 5 10W 7 682 647 09 SCREW PS 3X6 R406 1 216 073 00 5 0K 5 R407 1 216 061 00 RES CHIP 33K 5 10W 7 685 872 09 SCREW BVTT 3X8 S R408 1 216 073 00 5 0K 5 CAPACITOR R409 1 216 073 00 5 0K 5 R410 1 216 065 91 5 4 7K 5 CI 1 163 031 11 CERAMIC CHIP 0 01MF 50V R411 1 216 097 91 5 00K 5 C3 1 163 031 11 CERAMIC CHIP 0 01MF 50V R551 1 216 049 91 5 K 5 10W C5 1 163 031 11 CERAMIC CHIP 0 01MF 50V C7 1 163 031 11 CERAMIC CHIP 0 01 50V R552 1 216 049 91 5 K 5 10W C8 1 126 396 11 ELECT CHIP 47 2090 16V R553 1 216 049 91 5 K 5 10W R554 1 216 049 91 5 K 5 C9 1 163 031 11 CERAMIC CHIP 0 01 50V R555 1 216 049 91 5 K 5 Cll 1 126 396 11 ELECT CHIP 47 2090 16V R556 1 216 049 91 5 K 5 C12 1 126 396 11 ELECT CHIP 47 2090 16V 1 126 396 1
254. EN RESET 4 gt M Xv SEL 374 lt SLAVE_TX R16 M Dv Pos 3 4 lt MASTER TX ihn 274 CHIP ee Oe CU 883280 1 stot 474 gt stot 474 10125 4 6 8 74 05 5 1015 2 6 1015 3 6 INVERTER TC74VHCUO4F EL TC74VHCUO4F EL 1012 4 4 INVERTER INVERTER 5 2 Torte n En 168 2 2 TC7W32FU TE1 2R SRAM ENABLE 14 R303 1015 1 6 10k TC74VHCUO4F EL 1 2 3 4 5 6 3 JA CHIP 12 INVERTER BC 2 4 BC 2 4 0 007 174 3 4 RD WR 174 3 4 174 gt 5V 2Q 4 _ 10121 1 4 EL IRQO 1 4 gt 2 IRQ1 1 4 gt IR02 1 4 gt 5 246 0 44 10121 276 0 10121 376 TC74VHCUO4F EL l RTER TC74VHCU04F EL INVERTER HC NVE CS2 1 4 gt CS0 1 4 gt CS1 1 4 gt 2 0 RXDATA RXRDY 2 3 VDD RXCLK SYNC BRK TXRDY 510 1 4 gt 810 CLK 174 gt BAUD SEL 1 4 SLAVE_TX 174 gt MASTER_TX 174 gt Q8 DTC144bEK T146 MASTER SLAVE SW M S SELECT 4 1030
255. ER CLAMP FERRITE CORE 169 4 050 830 01 BRACKET BEZEL 170 A 1373 641 A YA MOUNT 171 4 050 876 01 PLATE LIGHT INTERCEPTION 172 A 1373 642 A MOUNT 173 A 1373 643 A MOUNT 174 X 4033 111 1 BEZEL ASSY 175 175 4 051 061 02 HOLDER MASK 176 4033 112 1 MASK 4 3 ASSY BEZEL CABINET 8 9 CARD SLOT 8 5 CARD SLOT 20G1A 20G1E 20G1U 7 685 648 79 BVTP3x12 A 7 685 872 09 BVTT3x8 7 682 161 01 4 8 7 432 114 11 SCREW LOCK 8 10 REFNO PARTNO DESCRIPTION REMARK 201 1390 771 TA MOUNT 202 4 050 965 01 BRACKET L T 203 1390 772 MOUNT 204 4 050 964 01 BRACKET R T 205 4 053 287 01 GASKET 206 4 053 287 11 207 4 050 844 01 BOARD CARD SLOT 208 1316 334 G COMPL 209 210 220 223 209 X 4033 116 1 FRAME ASSY POWER 210 X 4033 109 6 PANEL ASSY POWER UNIT 211 1346 667 E COMPL 212 212 X 4033 108 1 HEAT SINK ASSY DEF 213 1135 921 COMPL 214 214 X 4033 105 1 PANEL BK ASSY CONNECTOR 215 1135 920 BC COMPL 216 216 4033 106 2 PANEL BC ASSY CONNECTOR 217 4 050 816 01 BRACKET HD 218 1372 136 MOUNTED PWB HD 219 1 543 653 11 CORE ASSY BEAD DIVISION TYPE 20G1A 20G1E 220 A 1 251 263 11 INLET AC 221 A 1 762 300 11 SWITCH AC POWER SEESAW 222 2 990 241 02 HOLDER PLUG A 223 4 050 798 01 PLATE NUT AC INLET CARD SLOT 8 11 P
256. ER switch Press to power the monitor on or off If your system includes more than one monitor you can use the ADDRESS menu to power all monitors on or off at once For information about the ADDRESS menu refer to the monitor s operation manual DEGAUSS button Press to manually degauss the monitor CRT When degaussing repeatedly wait for 5 minutes before pressing the button again The monitor CRT is degaussed automatically each time the power is turned on DISPLAY UNIT connector rear Connect to the CONTROL UNIT connector of a monitor designed for use with a separate control panel such as a BVM 20F1U 20F1E 14F1U 14FI1E using straight cable with D sub 9 pin plugs not supplied as shown in the figure below o m o o o on 9 DISPLAY UNIT Monitor s connector pins CONTROL UNIT connector pins This connector is used to exchange control signals and to supply power from the monitor to the BKM 10R Numeric keypad Use the numeric keypad to enter menu settings and channel numbers for signals that you want to input to the monitor INPUT Del delete button Deletes a number or character entered 0 to 9 buttons Ent enter button Confirms a number or character entered the same function with the ENTER button of the menu operation buttons MANUAL adjustment buttons and knobs Each press of one of these buttons tu
257. ERT EXT SYNC 8 9 16520 1 2 TLO82CPS 0902 SIGNAL OFF SW 10320 172 TLO82CPS 16500 2 3 MC74HC4053FEL Y REF SELECT R Y CLAMP 9 9 gt R Y PULSE LEVEL 9 9 R311 82k RN CP 8315 C303 C323 2 2 2 2 RN CP 16V 16V F CHIPF CHIP 16501 3 3 MC74HC4053FEL B B Y B CLAMP lt MONO B Y CLAMP OFFSET 9 9 gt B Y PULSE LEVELI9 9 MANALOG IN HB Y BH Hour IN HR YZRH OUT IN SYNCH OUT PR R 979 gt 2PR 2R 9 9 gt PB B 9 9 gt 2PB 2B 9 9 gt 9 9 gt Y CLAMP PULSE 8 9 gt C CLAMP PULSE 8 9 gt RGB SW 2 9 9 9 gt 5 5V I CONT 0 9 9 gt V BLK1 9 9 gt W B INSERT P y 3 9 7 9 A 10500 3 3 R516 MC74HC4053FEL 10300 2 2 82k 8680 B Y REF SELECT TLO82CPS ANS GP FUN 0 1 BUFFER 24 155 9 w 1 1 YO YN 7 AM 1g 0 16 R511 1 0 6 B E mE ma ANG 10 xii 39 02 F CHIPF CHIP BN CP WHITE INSERT 2 9 7 9 gt 11 20 1 1 16320 27 6 5 2 10820 5 J R Y GAIN CONTROL 10304 1 3 RGB SELECT MC74HC4053FEL gt lt Y G our 2 9
258. ESS i 16 9 G 16 9 Turn to the button on to select a 16 9 aspect ratio The aspect ratio is 4 3 when the button is off T the button on to synchronize with the sync signal input to the SYNC connector on the monitor rear panel EXT SYNC When the button is off the sync signal included in the video signal is used INT SYNC When selecting INT SYNC use component or YC signals including a sync signal on the Y signal and use RGB signals including a sync signal on the G signal To monitor serial digital signals select INT SYNC BLUE ONLY Turn the button on to turn the red and green signals off The blue signal is displayed as an apparent monochrome picture This facilitates chroma and phase adjustments and observation of VTR noise R G and B Turn the button on to turn the R red G green and B blue beams off SAFF AREA safe area Turn the button on to display the safe area F3 and F4 These buttons are reserved for future use 66 1 Menu operation buttons MENU button Press to display UP MENU monitor menus UP and DOWN buttons Press to select menu items and item settings DOWN ENTER ENTER button Press to confirm selections and settings the same function with the Ent button of the numeric keypad For more information about using monitor menus refer to the monitor s operation manual POW
259. ET CHARZR gt 7 10 m 9601 0406 tev 7 2862412K 2 4 AH 1017 4 4 CURRENT LIMITER 06 311 NC ITC74HCOSAF 12 1611 172 801288 FL213 CHAR_BLANK gt eC 13 AMPLE PULSE AM lt CHARA 3 1 4 PROTECTOR NC 3 4 5 ms D7 EN B12 NC 1017 2 4 1k 4VHC123AF EL D12 n ds 5 anite Eve cm 4 5 2 D8 FLA Bis TALLY RD12SB 8 4 1017 0 4 74 R24 PROTECTOR EN OVERLOAD 874 TC74HCO3AF 21 fa e D9 Bul STANDBY of 4 1k RD12SB 5 2 POWER 3 LA RN CP 1016 2 2 PROTECTOR 01258 6402 C401 FL3 7 C74VHC128AF EL PROTECTOR RD6 258 942 SAMPLE PULSE GEN OPTION TXD gt PROTECTOR 5 ES a bee 1 6 SYNC 419 11 VCBLK 9 02 1 1 pit Y INVERTER 5 p 6 1 174 806 258 17 RTS OPTION 2 K LT0490088 E2 EMI 2 3 GND SN74HCOSANS E05 INVERTER 52 1 RS422 INTERFACE NE RAD OPTION SN74HCOSANS E05 5 FL221 INVERTER 7 19 5V 1 4 VR 6 ey ga BXBo Wd T sta TXD POTION AFC PULSE 1035 SAMPLE PULSE AMP TAL BUFFER SN74HCOSKNS 05 gt per 212 H SYNC HOS ANS 2 1 4 FL222 820 TXD V SYNC t 21 RXD EMI 2H SYNC DEUS 1 4 GND EMI 2 5V N C E 8 4 22 GND N C 5 2 ibah 423 V CHARA 1 4 TXD N C 0 2 1 EMI 823 RXD N C 4 5 2 Aes PLANS OA 0115 24 GND IL 1
260. ETUP data so that the black level and setup signal level become equal 4 Connect the oscilloscope to TP304 5 Adjust the G SETUP data so that the black signal level and setup signal level become equal 6 Connect the oscilloscope to TP504 7 Adjust the B SETUP data so that the black signal level Level difference 0 2 mV and setup signal level become equal Fig 5 17 5 8 2 RGB Signal 100 IRE Adjustment 5 1 4 White Balance Adjustment Note The following adjustment menus are under the BK Refer to 3 SET UP ADJUSTMENTS 3 9 White balance BOARD menu of the MAINTENANCE menu adjustment Page 3 12 R 100 IRE G 100 IRE B 100 IRE 1 Input the 100 IRE RGB signal 2 Connect the oscilloscope to TP104 3 Adjust the R 100 IRE data so that the 100 IRE level and 100 IRE pulse level of the signal become equal Connect the oscilloscope to TP304 5 Adjust the G 100 IRE data so that the 100 IRE level and 100 IRE pulse level of the signal become equal 6 Connect the oscilloscope to TP504 7 Adjust the B 100 IRE data so that the 100 IRE level and 100 IRE pulse level of the signal become equal Equalize Level difference 0 2 mV Fig 5 18 5 9 5 2 BC Board 5 2 1 Adjust Preparation Set as follows using INPUT CONFIGURATION menu of the SETUP menu FORMAT COMPONENT YUV SMPTE EBU N 10 SLOT NO 6 SYNC MODE INT Connection Extension board cable kit
261. Ensure that your equipment is connected correctly if you are in any doubt consult a qualified electrician 8 1 Table of Contents Chapter 1 Overview Chapter 2 Menu Continued Precaution Overview Features Options Connector Panel Configuration Location and Function of Parts Front Panel Rear Panel Uo uda Menu Structure Displaying the Menus ADDRESS Menu Menu Directories Basic Menu Operations 22 Menu Operation Buttons 54222 Menu Operation 422 Preset Adjustment of the Picture Level Control Knobs CONTROL PRESET ADJ Menu 25 Overview Structure of the CONTROL PRESET ADJ Menu A Setting Lists the CONTROL PRESET ADJ Menu 25 Adjusting the Color Temperature COLOR TEMP ADJ j Overview Structure of the COLOR TEMP ADJ Menu B Setting Lists in the COLOR TEMP ADJ Menu Setting the Input Configuration SET UP 1 INP CONFIGURATION Menu Overview Structure of the INPUT CONFIGURATION Menu C1 Setting Lists in the INPUT CONFIGURATION Menu Assigning the Remote Control Functions SET UP 2 REMOTE Menu Overview E Structure of the REMOTE Menu C2 2 35 Setting Lists of the REMOTE Menu Setting the Password SET UP 3 PASSWORD Menu OVerVieW 0 o e dos Structure of the PASSWORD Menu C3 Setting Lists of the P
262. F CHIP 063 F CHIP 065 R52 R54 R56 R58 68P 0 01 0 01 001 0 01 0 01 0 01 0 01 100k 100k 100k 100k PCMCIA CHIP F CHIP F CHIP F CHIP F CHIP F CHIP F CHIP CHIP CHIP CHIP CHIP R51 R58 R55 100 100K 100 1006 eno 2 01 77 DO R87 R89 R93 R79 181 R83 R85 R21 R23 R25 R27 01 100k 100k 100k 100k 100k 100k 100k 100k 1k 1k tk CHIP CHIP CHIP CHIP CHIP CHIP CHIP CHIP CHIP CHIP CHIP CHIP D2 1008 1008 10081008 1008 OK IRL IRL IRL CHIP CHIP CHIP CHIP CHIP CHIP CHIP CHIP CHIP CHIP CHIP CHIP 2 TC74VH 35 4 101 1010 3 6 HD6473258P10 TC74VHC14F EL CPU INVERTER 4 I P60 FTCI 45F EL P61 FTOA ER P62 FTOB TP6TP7TP8 64 1800 3 4 9 1801 2 8 P66 1RQ2 2 5 EN 5 3 3 5 4 6 25 1 0 Y5 Ye 103 TC74VHC138F EL ADDRESS DECODER z gt 92 P40 TMCIO A20 A20 41 00 DRY BSY GND 9 9 fe 0 6 6 RXD 8 HC14F EL AL CP VERTER TXD 7 lt GND 61 47 8 Do 5V 5 1 100 GND 414 7 5 wee gt RXD 3 i TP4 TP5 04 gt 28A1221T KLM 04 5 VPP REG o 28 GND 114 100k 05 558 CHIP D6 5 TO TB BOARD h CN8 h h h h BYM TASS aps 286 71 28 11 i PROTECTOR PROTECTOR HIP TOT HD BOARD 04 1010 2 6 e 4 cN102 806 258 1 806 2
263. G5U 1 1 Operating Instructions seen 1 31 2 SERVICE INFORMATIONS 2 1 Circuit Boards Location 2 1 2 1 1 BVM 14G5A 14G5E 14G5U 2 1 2 1 2 BVM 14G1A 14G1E 14G1U 20G1A 20G1E 20G1U 2 1 251 392 arise stk u talentis 2 2 2 2 Disassembly ee teet eP E Eketa Eio 2 3 2 2 1 1 Cabinet Removal 14G1A 14G1E 14GI1U 14G5A 14GSE 14G5U 2 3 2 2 1 2 Cabinet Removal 20G1A 20G1E 20G1U 2 3 2 2 2 1 FBT Block Assy Removal 14G1A 14G1E 14GI1U 14G5A 14GSE 14G5U 2 4 2 2 2 2 FBT Block Assy Removal 20G1A 20G1E 20G1U 2 4 2 2 3 E and Boards Removal and Check 2 5 2 2 4 BC and BK Boards Removal and Check 2 5 2 2 5 1 Card Slot Assy Removal 14G1A 14G1E 14G1U 14G5 A 14GSE 14G5U 2 6 2 2 5 2 Card Slot Assy Removal 20G1A 20G1E 20G1VU 2 6 2 2 6 and TB Boards Removal 2 7 2 2 7 1 YA YB YC Boards Removal 14G1A 14G1E 14G1U 2 7 2 2 7 1 1 Bezel Assy Removal 14G5A 14G5E 14G5U 2 8 2 2 7 1 2 HA HB YA YB and YC Boards Removal 1265 1465 14650 2 8
264. H 15 2Vp p H 11 41 11 41 E Board IC Block Diagrams CXA1726AM 1C151 301 701 CXA2026AS 201 VIN HIN HSAW CXA1840S 001 8 48 ID OUT 5 2 AFCRL2 S AFCRL3 2FIL m cu 3 PULSE INTERFACE RFG CORSA Ji 50 60 2 1 l IREF SWI amp TILEOFF gt Oud d Hn H DUTY BUS DECODER ADRS SDA SCL FA5301BN TE1 071 503 DACO DACI Vcc PARA2 GND PWM HTILT DACO DACI 5 5 8 8 DEF DSP COUNT PROC 81 0 9 9 9 9 VEE OUT d 1BIT DAC 19 40 01 1 xm LA6500FA 101 02 gt 5 LA6510 IC231 702 MC74HC4053F 1 625
265. How to read the setting lists For purposes of explanation each setting list is preceded by a menu number These numbers are not displayed on the screen For more information about the menu number see About menu numbers on page 19 The arrow mark gt refers you to another setting list that appears after you make the setting or to an operation that is carried out as a result of the setting When there is no arrow mark the menu does not have any sub list 42 C6 ALIGNMENT menu 1 3 Adjust each item with the UP and DOWN buttons or PHASE knob ROTATION Compensates for the screen rotation which occurs when the monitor is installed facing north or south V SIZE Adjust the height of the picture V CENTER Adjust the vertical picture position H SIZE Adjust the width of the picture H PHASE Adjust the horizontal picture position H PIN Correct side pincushion distortion H KEY Correct trapezoid distortion SUB CONTRAST Adjust the center value of the contrast when the image size is changed This item can not be selected when 4 3 NORM is selected in the SCREEN MODE menu C6 ALIGNMENT menu 2 3 Adjust each item with the UP and DOWN buttons or PHASE knob H STATIC CONV Adjust horizontal static convergence V STATIC CONV Adjust vertical static convergence V CONV TOP Adjust vertical convergence at the top of the screen V CONV BOTTOM Adjust vertical convergence at the
266. IC901 1 2 is setto lower than the CONTRAST voltage and therefore the OVERLOAD signal and therefore the OVER LOAD signal output from IC904 1 2 becomes High 3 Control Circuit The SUB CPU IC902 performs serial communication with system controller using the three signals MISO MOSI and SCLK and outputs the control signal according to the in structions of the system controller This IC also reads the adjustment data of the EEPROM 1 905 and outputs the adjustment voltage from the D A converter IC906 to IC911 6 2 BC Board Descriptions Carries out the switching of the switches on each board and setting of DAC data 1 Serial Communication with Boards The system control CPU IC1 carries out serial communi cation with the SUB CPU of each board inserted in slots us ing the 4 signals MISO MOSI SCLK and SLOT NO It regu larly receives abnormal detection signals from the power supply circuit and deflection circuit and information KILLER for discriminating between color and black white for signals input from each input adapter It chooses who to communicate with using the signals SLOT 0 to SLOT 7 2 Internal Signal Generation IC104 to IC110 generates internal signals PLUGE 5STEP WHITE GRAY CROSS HATCH The clock generated by IC121 525 mode 14 3181 MHz 625 mode 14 1875 MHz is input to IC120 sync generator to generate the sync sig nal 3 Character Generator IC7 character generator is controlled to displa
267. ICTURE TUBE 8 6 PICTURE TUBE 20G1A 20G1E 20G1U A 7 685 872 09 BVTT3x8 7 682 161 01 4 8 lt gt 7 682 661 01 PS4x8 gt 7 682 261 09 K4x8 57 7 682 665 09 PS4x16 7 685 881 09 4 8 8 12 REFNO PARTNO DESCRIPTION REMARK 251 4 306 034 00 5 FLANGE 252 4 348 567 00 WASHER CRT POSITION 253 A 8 736 378 05 PICTURE TUBE 20 20G1E 253 A 873638005 PICTURE TUBE 20MT3 20010 253 873638805 PICTURE TUBE 20MTI S 20014 254 4 047 349 01 HOLDER HV CABLE 255 4 040 897 01 SPACER DY 256 X 4033 336 3 SHIELD ASSY DY 257 A 8451 41043 DYY20MPD M 258 A 8453003141 012 259 1331 724 C MOUNT 260 4 303 774 XX SPRING 261 4 316 015 00 HOLDER WIRE 262 4 041 021 02 HOLDER DEGAUSE COIL 263 A 1411 65921 COIL DEMAGNETIC 10MMg 264 1411265721 LANDING CORRECTION 265 4 387 284 01 HOLDER LEAD 266 X 4035 467 1 CHASSIS ASSY LEFT 267 X 4033 115 1 CHASSIS ASSY RIGHT 268 4 063 969 01 OS CASE CLAW 269 A 1482 707 A ASSY 270 270 A X4035493 1 FBT ASSY NX 4141 J1E4 271 X 4033 113 1 PLATE ASSY BOTTOM 272 4033 117 1 FOOT ASSY 273 274 273 X 4836 202 9 FOOT 274 3 668 845 01 CUSHION LEG 275 4 308 870 00 CLIP LERD WIRE 276 1 452 032 00 MAGNETDISC 271 1 452 094 00 ROTATABLE DISK 15MM op 278 4 051 736 21 90 CONV CORRECT PICTUR
268. IDE 1 Connect an oscilloscope to pin of the E board 1 2 2 Set the SCREEN MODE to 16 9 NORM at the INPUT CONFIGURATION menu of the SETUP menu A M 3 Adjust the V BLK data so that the V blanking pulse width 32 to the 520 30 usec B 4 Copy the V BLK data to other mode CN802 Note The V BLK adjustment menu is under the E BOARD menu of MAINTENANCE menu 1 L3 D 32 CN801 520 30 usec Fig 5 24 Fig 5 23 5 3 3 H BLK Adjustment Note The H BLK adjustment menu is under the EBOARD menu of the MAINTENANCE menu 1 Connect the oscilloscope to the 85 of CN801 on E board 16 9 NORMAL SCAN mode 1 Set the SCREEN MODE to 16 9 NORM at the INPUT CONFIGURATION menu of the SETUP menu 2 Adjust the H BLK data so that the H blanking pulse width to the 11 5 0 3 usec Write down the H BLK data 16 9 UNDER SCAN mode 1 Set the SCREEN MODE to 16 9 UNDR at the INPUT CONFIGURATION menu of the SETUP menu 2 Setthe H BLK data to the same value as the 16 9 NOR MAL SCAN mode 4 3 NORMAL SCAN mode 1 Set the SCREEN MODE to 4 3 NORM at the INPUT CONFIGURATION menu of the SETUP menu 2 Adjust the H BLK data so that the H blanking pulse width to the 8 0 0 2 usec Write down the H BLK data 4 3 UNDER SCAN mode 1 Set the SCREEN MODE to 4 3 UNDR at the INPUT CONFIGURATION menu of the SETUP menu 2 Set the H BLK data to the same value as the 4 3 NOR MAL SCAN mode 5 3 4 H
269. IP 100MF 20 63V C41 163 038 11 CERAMIC CHIP 0 1 25V C215 126 392 11 ELECT CHIP 100MF 20 63V C216 126 392 11 ELECT CHIP 100MF 20 63V C42 163 038 11 CERAMIC CHIP 0 1 25V C217 126 392 11 ELECT CHIP 100 200 63V C43 163 038 11 CERAMIC CHIP 0 1 25V C218 126 392 11 ELECT CHIP 100 20 63V C44 163 038 11 CERAMIC CHIP 0 1 25V C45 163 038 11 CERAMIC CHIP 0 1 25V C219 126 392 11 ELECT CHIP 100MF 20 63V C46 163 099 00 CERAMIC CHIP 18PF 5 50V C220 126 392 11 ELECT CHIP 100MF 20 63V C231 126 392 11 ELECT CHIP 100MF 20 63V 9 1 REFNO PARTNO DESCRIPTION REMARK REFNO PART NO DESCRIPTION REMARK C232 1 126 392 11 ELECT CHIP 00 20 63V C340 1 163 031 11 CERAMIC CHIP 0 01MF 50V C233 1 126 392 11 ELECT CHIP 00 20 63V C341 1 135 216 11 TANTAL CHIP 10 20 10 C342 1 135 216 11 TANTAL CHIP 10MF 20 10 C234 1 126 392 11 ELECT CHIP 00 20 63V C343 1 135 216 11 TANTAL CHIP 10 20 10V C235 1 126 392 11 ELECT CHIP 00 20 63V C236 1 126 392 11 ELECT CHIP 00 20 63V C344 1 135 216 11 TANTAL CHIP 10 20 10 C237 1 126 392 11 ELECT CHIP 00 20 63V C351 1 163 031 11 CERAMIC CHIP 0 01MF 50V C241 1 126 392 11 ELECT CHIP 00 20 63V C332 1 163 031 11 CERAMIC CHIP 0 01MF 50V C357 1 163 031 11 CERAMIC CHIP 0 01MF 50V C242 1 126 392 11 ELECT CHIP 00 20 63V C358 1 163 031 11 CERAMIC CHIP 0 01MF 50V C243 1 126 168 11
270. IP IK 5 R127 216 049 91 RES CHIP IK 5 1 10W R55 216 049 91 5 IK 5 128 216 057 00 RES CHIP 22K 5 R129 216 065 91 5 4 7K 5 R56 216 073 00 RES CHIP 10K 5 R130 216 097 91 RES CHIP 100K 5 R57 216 049 91 5 IK 5 R131 216 025 91 RES CHIP 100 5 R58 216 049 01 5 IK 5 R59 216 049 91 5 IK 5 R132 216 081 00 RES CHIP 22K 5 R60 216 045 00 RES CHIP 680 5 R133 216 065 91 RES CHIP 4 7K 5 R134 216 097 91 RES CHIP 100K 5 11077 R61 216 047 91 5 820 5 R135 216 025 91 5 100 5 R62 216 053 00 RES CHIP 1 5K 5 R136 216 081 00 RES CHIP 22K 5 R63 216 057 00 RES CHIP 22K 5 R64 216 069 00 RES CHIP 6 8K 5 R137 216 025 91 RES CHIP 100 5 1 10W R69 216 295 91 SHORT 0 R138 216 081 00 RES CHIP 22K 5 1 10W R70 216 049 91 5 IK 5 R139 216 065 91 RES CHIP 4 7K 5 R140 216 097 91 RES CHIP 100K 5 R71 216 049 91 RES CHIP IK 5 216 025 91 5 100 5 1 10W R72 216 655 11 METAL CHIP 1 5K 0 50 1 10W R73 216 097 91 RES CHIP 100K 5 1 10W R151 216 081 00 RES CHIP 22K 5 1 10W R74 216 073 00 5 10K 5 1 10W R152 216 081 00 RES CHIP 22K 5 1 10W R75 216 073 00 5 10K 5 R153 216 057 00 RES CHIP 2 2K 5 1 10W R154 216 057 00 RES CHIP 2 2
271. ITCH 20 1 66 W 0903 DTCI44EKA SWITCH Eg 55 i R217 10k 7 R257 0213 UA l n e DTATA4EKA 4 0214 259 R260 0209 R261 HI ET 28 D5LC20U 680 16V iat W 16V RECT 16 gk pk 17 7 15757 8 4 3 3 AW MW my m an 7 6V 17 0 R263 8264 87 6v D DTA144EKA 007 WO 0208 xu x 0556200 WV RECT D211 111 PROTECTOR R211 C204 22k 22 RN CP HT 6 16201 TL494CNS PWM CTRL Os C217 0 1 INT INTF B D T CT R265 8266 80 68 6 FPRD GND Q801 5V OVP 16V D 5V 88 GND E 9 GND GND 10 GND 11 GND Bri 12 GND 12 13 GND B13 GND 3 10801 3 4 12 pote POWER ON 1983 RACGP R830 15 DEGAUSS 10 Bis PROT 16 G PROT1 Bie PROT2 17 G PROT4 Miel bs GN
272. K 0 50 1 10W R846 216 679 11 METAL CHIP 15K 50 1 10W R922 216 671 11 METAL CHIP 6 8K 0 50 1 10W R847 216 073 00 RES CHIP 10K 5 R923 216 065 91 RES CHIP 4 7K 5 R924 216 065 91 RES CHIP 4 7K 5 R848 216 095 00 RES CHIP 82K 5 R925 216 065 91 RES CHIP 4 7K 5 R849 216 037 00 RES CHIP 330 5 1 10W R850 216 699 11 METAL CHIP 100K 0 50 1 10W R926 216 065 91 5 4 7K 5 R851 216 085 00 5 33K 5 R927 216 065 91 RES CHIP 4 7K 5 R852 216 094 00 RES CHIP 75K 5 R928 216 065 91 RES CHIP 4 7K 5 R929 216 675 11 METAL CHIP 10K 0 50 1 10W R853 216 049 91 5 IK 5 R930 216 675 11 METAL CHIP 10K 0 50 1 10W R854 216 675 11 METAL CHIP 10K 0 50 1 10W R855 216 649 11 METAL CHIP 820 0 50 1 10W R931 216 097 91 RES CHIP 100K 5 11077 R856 216 659 11 METAL CHIP 22K 0 50 1 10W R947 216 073 00 RES CHIP 10K 5 1 10W R857 216 659 11 METAL CHIP 22K 0 50 1 10W R948 216 073 00 RES CHIP 10K 5 R949 216 073 00 RES CHIP 10K 5 R858 216 699 11 METAL CHIP 100K 0 50 1 10W R950 216 073 00 RES CHIP 10K 5 R859 216 065 91 5 4 7K 5 9 17 C REFNO PARTNO DESCRIPTION REMARK REFNO PART NO DESCRIPTION REMARK R951 1 216 073 00 5 0K 5 A 1331 724 A MOUNT R952 1 216 073 00 5
273. K 5 1 10W R76 216 073 00 5 10K 5 1 10W R155 216 049 91 RES CHIP IK 5 R77 216 073 00 RES CHIP 10K 5 R84 216 033 00 RES CHIP 220 5 1 10W R157 216 069 00 RES CHIP 6 8K 5 1 10W R85 216 033 00 RES CHIP 220 5 1 10W R159 216 133 00 RES CHIP 3 3M 5 R86 216 033 00 5 220 5 R189 216 073 00 RES CHIP 10K 5 R191 216 121 91 5 IM 5 1 10W R87 216 033 00 RES CHIP 220 5 1 10W R192 216 121 91 5 IM 5 R88 216 033 00 RES CHIP 220 5 1 10W R89 216 033 00 220 5 R193 216 121 91 RES CHIP IM 5 R90 216 097 91 5 100K 5 201 216 073 00 RES CHIP 10K 5 R91 216 097 91 RES CHIP 100K 5 R202 216 041 00 RES CHIP 410 5 1 10W R203 216 081 00 RES CHIP 22K 5 1 10W 9 5 BC BK REFNO PARTNO DESCRIPTION REMARK REFNO PART NO DESCRIPTION REMARK R204 1 216 077 00 5 5K 5 A 1135 921 A BK COMPL 2061 R300 1 216 073 00 RES CHIP 0K 5 R301 1 216 073 00 RES CHIP 0K 5 A 1135 941 A BK COMPLE 14G1 14G5 R302 1 216 073 00 5 0K 5 R303 1 216 073 00 5 0K 5 R311 1 216 025 91 5 00 5 4033 105 1 PANEL ASSY CONNECTOR 3 648 057 00 NUT ISO 4 U R312 1 216 025 91 5 00 5 4 050 814 01 SHI
274. L 15K 1 2001 D102 8 719 061 96 DIODE SLR 325DCT31 R906 215 427 00 METAL 1 8K 1 D103 8 719 061 96 DIODE SLR 325DCT31 14G1 20G1 D104 8 719 061 96 DIODE SLR 325DCT31 R907 249 377 11 CARBON 0 47 5 D105 8 719 061 96 DIODE SLR 325DCT31 R908 249 425 11 CARBON 4 7K 5 lt RESISTOR gt R909 247 887 00 CARBON 220K 5 R101 216 061 00 RES CHIP 3 3K 5 1 10W lt TRANSFORMER gt R102 216 061 00 RES CHIP 3 3K 5 1 10W R103 216 061 00 RES CHIP 3 3K 5 1 10W T901 A 4035 493 1 FBT ASSY NX 4141 J1F4 2061 R104 216 061 00 RES CHIP 3 3K 5 1 10W T901 A 4035 494 1 FBT ASSY NX 4141 J1F4 14G1 14G5 R105 216 061 00 RES CHIP 3 3K 5 1 10W R107 216 061 00 RES CHIP 3 3K 5 1 10W A 1390 771 A TA MOUNT R108 216 061 00 RES CHIP 3 3K 5 1 10W R109 216 061 00 RES CHIP 3 3K 5 R110 216 061 00 RES CHIP 3 3K 5 1 10W lt CONNECTOR gt RK RR RR RK k kk 774 525 11 SOCKET CONNECTOR 64 CND 774 525 11 SOCKET CONNECTOR 64 A 1373 638 A YB MOUNT 1461 CN13 774 525 11 SOCKET CONNECTOR 64 Lan b CN14 774 537 11 CONNECTOR PIN PC BOARD SOP 15 1 564 514 11 PLUG CONNECTOR A 1373 642 A YB MOUNT 14G5 20G1 Kok kak kak kak RR kok kakak 16 564 511 11 PLUG CONNECTOR 8P 1 564 507 11 PLUG CONNECTOR 4P lt DIODE gt CN18 1 564 704 11 PIN CONNECTOR SMALL TYPE 2P CN19 1 564 505 11 PLUG CONNECTOR 2P D201 8 719
275. LECT CHIP 22MF 20 16V 9 7 BK REFNO PARTNO DESCRIPTION REMARK REFNO PART NO DESCRIPTION REMARK C503 1 164 505 11 CERAMIC CHIP 22 6V C598 1 164 505 11 CERAMIC CHIP 22 6V C504 1 163 809 11 CERAMIC CHIP 0 047 10 25V C599 1 107 943 11 ELECT 10 20 160 C505 1 163 037 11 CERAMIC CHIP 0 00MF 10 50V C600 1 163 031 11 CERAMIC CHIP 0 01MF 50V C601 1 163 031 11 CERAMIC CHIP 0 01MF 50V C507 1 164 505 11 CERAMIC CHIP 22 6V C602 1 164 505 11 CERAMIC CHIP 2 2MF 6V C508 1 164 505 11 CERAMIC CHIP 22 6V C509 1 164 700 11 CERAMIC CHIP 0 68MF 6V C603 1 163 031 11 CERAMIC CHIP 0 01MF 50V C510 1 163 809 11 CERAMIC CHIP 0 047 10 25V C604 1 164 505 11 CERAMIC CHIP 22 6V C520 1 164 505 11 CERAMIC CHIP 22 6V C605 1 163 031 11 CERAMIC CHIP 0 01MF 50V C62 1 163 127 00 CERAMIC CHIP 5 50 C523 1 164 505 11 CERAMIC CHIP 22 6V C621 1 164 505 11 CERAMIC CHIP 22 C524 1 163 031 11 CERAMIC CHIP 0 01MF 50V C526 1 164 222 11 CERAMIC CHIP 0 22MF 25V C622 1 163 031 11 CERAMIC CHIP 0 01MF 50V C327 1 163 809 11 CERAMIC CHIP 0 047 10 25V C63 1 126 392 11 ELECT CHIP 100MF 20 63V C528 1 164 505 11 CERAMIC CHIP 22 6V C631 1 126 391 11 ELECT CHIP 47MF 20 63 C632 1 126 391 11 ELECT CHIP 47MF 20 63 C529 1 164 505 11 CERAMIC CHIP 22 6V C64 1 163 031 11 CERAMIC CHIP 0 01 50V C530 1 164 505 11 CERAMIC CHIP 22 6V C531 1 1
276. LECTROCUTION PROVENANT D UN CHASSIS SOUS TENSION UN TRANSFORMATEUR D ISOLEMENT DOIT ETRE UTILIS LORS DE TOUT D PANNAGE LE CHASSIS DE CE RECEPTEUR EST DIRECTEMENT RACCORDE A L ALIMENTATION SECTEUR ATTENTION AUX COMPOSANTS RELATIFS ALA S CURIT LES COMPOSANTS IDENTIFI S PAR UNE TRAME ET PAR UNE MAPQUE SUR LES SCH MAS DE PRINCIPE LES VUES EXPLOS ES ET LES LISTES DE PIECES CONT D UNE IMPORTANCE CRITIQUE POUR LA S CURIT DU FONCTIONNEMENT NE LES REMPLACER QUE PAR DES COMPOSANTS SONY DONT LE NUM RO DE PI CE EST INDIQU DANS LE PR SENT MANUEL OU DANS DES SUPPL MENTS PUBLI S PAR SONY LES R GLAGES DE CIRCUIT DONT L IMPORTANCE EST CRITIQUE POUR LA S CURIT DU FONCTIONNEMENT SONT IDENTIFIES DANS LE PR SENT MANUEL SUIVRE CES PROC DURES LORS DE CHAQUE REMPLACEMENT DE COMPOSANTS CRITIQUES OU LORSQU UN MAUVAIS FONCTIONNEMENT EST SUSPECT SAFETY CHECK OUT US Model only After correcting the original service problem perform the following safety checks before releasing the set to the customer 1 Check the area of your repair for unsoldered or poorly soldered connections Check the entire board surface for solder splashes and bridges 2 Check the interboard wiring to ensure that no wires are pinched or contact high wattage resistors 3 Check that all control knobs shields covers ground straps and mounting hardware have been replaced Be absolutely certain that you have replaced all the insulators
277. LOCK DIAGRAM Block Function Page Overall 1 2 10 2 Overall 2 2 nas 10 3 BK 1 4 Micro Computer D A Converter Pulse Generator 10 4 BK Q 4 Signal Input Select Signal Processing 10 5 BK 3 4 Pulse Insert Signal Process 10 6 BK 4 4 RGB Drive Out RGB Drive IK V Control 10 7 BC 1 2 Main CPU In Out Expander Remote Controller 10 8 BC 2 2 In Out Expander SYNC Generator 10 9 E 1 2 Micro Computer H V Signal Generator Deflection Drive 10 10 E 2 2 PWM Control DF Control 10 11 G Main Rect 6V REG 15V REG B REG D5V REG 10 12 HA HB HC HD Function Select System Control Relay 10 13 10 1 OVERALL 1 2 OVERALL 1 2 0100 105 Q350 351 306 307 312 314 BK Q309 3 10315 317 318 0 mE 0310 0375 0376 10316 0400 380 382 384 386 10317 10319 Q387 388 lenis 228 IN Y G BUFFER H Y G CLAMP 10311 313 0374 1 317 327 329 1 321 324 326 Y G SELECT 305 0306 307 G SET UP BUFFER BI
278. MF 50V C9 163 031 11 CERAMIC CHIP 0 01MF 50V C1036 163 031 11 CERAMIC CHIP 0 01MF 50V C902 163 031 11 CERAMIC CHIP 0 01MF 50V C1037 164 505 11 CERAMIC CHIP 22 16V C903 163 031 11 CERAMIC CHIP 0 01MF 50V C1038 163 031 11 CERAMIC CHIP 0 01MF 50V C1039 163 031 11 CERAMIC CHIP 0 01MF 50V C904 163 031 11 CERAMIC CHIP 0 01MF 50V C1200 163 031 11 CERAMIC CHIP 0 01MF 50V C905 163 031 11 CERAMIC CHIP 0 01MF 50V C907 163 031 11 CERAMIC CHIP 0 01MF 50V C1201 126 392 11 ELECT CHIP 100MF 20 63V C908 163 031 11 CERAMIC CHIP 0 01MF 50V C1208 164 505 11 CERAMIC CHIP 22 16V C909 163 031 11 CERAMIC CHIP 0 01MF 50V C1209 164 505 11 CHIP 2 2MF 16V C1210 163 031 11 CERAMIC CHIP 0 01MF 50V C910 163 031 11 CERAMIC CHIP 0 01MF 50V C1211 163 031 11 CERAMIC CHIP 0 01MF 50V C911 163 031 11 CERAMIC CHIP 0 01MF 50V C914 163 031 11 CERAMIC CHIP 0 01MF 50V C1213 164 505 11 CERAMIC CHIP 22MF 16V C915 163 031 11 CERAMIC CHIP 0 01MF 50V C1215 163 031 11 CERAMIC CHIP 0 01MF 50V C917 163 031 11 CERAMIC CHIP 0 01MF 50V C1216 163 031 11 CERAMIC CHIP 0 01MF 50V C1217 163 031 11 CERAMIC CHIP 0 01MF 50V C918 163 037 11 CERAMIC CHIP 0 022MF 10 50V C1218 164 505 11 CERAMIC CHIP 22 16V C921 163 031 11 CERAMIC CHIP 0 01MF 50V C924 126 391 11 ELECT CHIP 47MF 20 63V C1222 164 505 11 CERAMIC CHIP 22MF 16V C925 126 391 11 ELECT CHIP 47MF 20 63V C1223 164 505 11 CERAMIC CHIP 22 16V C926 163 031 11 CERAMIC CHIP 0 01MF 50V C122
279. MIC CHIP 0 00IMF 5 50 C081 1 164 232 11 CERAMIC CHIP 001 10 50 C507 1 164 004 11 CERAMIC CHIP 106 25V C082 1 164 346 11 CERAMIC CHIP IMF 16V C509 1 164 004 11 CERAMIC CHIP 106 25V C083 1 164 346 11 CERAMIC CHIP IMF 16V C86 1 106 375 12 MYLAR 0 002MF 99 200 C510 1 163 259 91 CERAMIC CHIP 220 5 50 1 107 906 11 ELECT OMF 20 50 C087 1 106 375 12 MYLAR 0 002MF 99 200 C512 1 107 907 11 ELECT 2MF 20 50 C091 1 164 004 11 CERAMIC CHIP 10 25V C513 1 164 695 11 CERAMIC CHIP 0 00MF 5 50 C101 1 128 526 11 ELECT 100MF 20 25V C514 1 164 346 11 CERAMIC CHIP MF 16V 102 1 128 526 11 ELECT 100MF 20 25 C103 1 164 232 11 CERAMIC CHIP 0 0IMF 10 50 C515 1 163 251 11 CERAMIC CHIP OPF 5 50 C516 1 164 346 11 CERAMIC CHIP MF 16V C104 1 164 004 11 CERAMIC CHIP 10 25V C517 1 107 888 11 ELECT 20 25 105 1 164 346 11 CERAMIC CHIP IMF 16V C519 1 164 004 11 CERAMIC CHIP 106 25V 1 137 352 11 FILM 0 033MF 5 100 C521 1 107 906 11 ELECT OMF 20 50 1461 1465 1 137 353 11 FILM 0047 5 100 2061 C531 1 106 343 00 MYLAR 0 00IMF 10 200 c12 1 164 004 11 CERAMIC CHIP 10 25V C532 1 107 888 11 ELECT 20 25 C533 1 164 346 11 CERAMIC CHIP MF 16V 1 163 133 00 CERAMIC CHIP 470 5 50V C534 1 164 232 11 CERAMIC CHIP 0 0IMF 10 50 CDI 1 102 228 00 CERAMIC 410PE 10 5007 C541 1 107 906 11 ELECT OMF 20 50 c12 1 164 004 11 CERAMIC CHIP 10 25V C123 1
280. NA292 15G1 14G5 DY Y20MPD M 2001 DY YI4MPDT 1461 1465 NA3012 M 20G1 8 736 378 05 8 736 380 05 8 736 388 05 8 738 333 05 8 738 335 05 PICTURE TUBE 20MT1 20G1E PICTURE TUBE 20MT3 20G1U PICTURE TUBE 20MT1 S 20G1A PICTURE TUBE 14MT3 14G1U 14G5U kk 9 36 ACCESSORY amp PACKING MATERIAL ak kakak ak ak akak ak kk ak akak k ak A A 3 170 078 01 HOLDER B PLUG 3 701 623 01 BAG POLYETHYLENE 3 862 434 11 MANUAL OPERATION Japanese English 4 051 484 01 LABEL TALLY 20G1 4 051 743 01 PLATE TALLY 14G1 14G5 4 396 077 01 JOINT 20G1 1 534 827 14 CORD POWER 14G1U 14G5U 20G1U 1 590 151 11 CORD SET POWER 10A 250V 14G1A 14GIE 14G5A 14G5E 20G1A 20G1E 4 051 298 01 CUSHION UPPER ASSY 20G1 4 051 299 01 CUSHION LOWER ASSY 20G1 4 051 321 02 INDIVIDUAL CARTON 20G1 4 051 322 01 TRAY 2001 4 051 574 01 CUSHION UPPER ASSY 14G1 4 051 575 01 CUSHION LOWER ASSY 14G1 4 051 580 01 CUSHION UPPER ASSY 14G5 PICTURE TUBE 14 1461 1465 1461 1465 4 051 581 01 4 051 705 01 4 051 708 03 4 058 814 01 4 058 815 01 4 058 816 01 4 377 015 01 4 381 155 01 4 381 155 11 CUSHION LOWER ASSY 14G5 INDIVIDUAL CARTON 14G1 INDIVIDUAL CARTON 1465 HOLDER 20G1 HOLDER 14G1 HOLDER 1465 BAG PROTECTION 14G1 BAG PROTECTION 20G1 BAG PROTECTION 14G5 SECTION 10 B
281. NDER SCAN Mode 1 Set the SCREEN MODE to 16 9 UNDR at the INPUT CONFIGURATION menu of the SETUP menu Set the V BLK TOP data to 255 Set the V BLK BOTTOM data to 000 4 Setthe V BLK data to fixed at value 128 3 5 3 6 Linearity Adjustment Note The following adjustment menus are under the E 3 6 BOARD menu of the MAINTENANCE menu H PHASE V CENTER V SIZE V LIN BALANCE V LIN AMP H SIZE H LIN BALANCE H LIN AMP H KEY BAL H KEY H PIN BAL H PIN H CENTER BOW H MID PIN H U COR PIN H L COR PIN Input the cross hatch signal Check that the image is not tilting and there is no top and bottom V PIN distortion nor horizontal trapezoid distortion Tilt Adjust the DY tilt Top bottom V PIN distortion Adjustthe top and bot tom DY head swing Horizontal trapezoid distortion Adjust using the DY TLV VR take note that the convergence may be disrupted Input the monoscope signal Set the SCREEN MODE to 4 3 NORM at the INPUT CONFIGURATION menu Adjust the H PHASE data and adjust the horizontal center of the image Adjust the vertical center of the image Input the cross hatch signal Adjust the V SIZE V LIN BALANCE and V LIN AMP data as shown in Fig 1 9 Adjust the H SIZE HLIN BALANCE and H PIN AMP data as shown in Fig 1 10 10 1 12 13 14 V LIN BALANCE EFL gt Fig 1 9 H LIN BALANCE M H LIN AMP Fig
282. NFIGURATION menu see Setting the Input Configuration SET UP 1 INPUT CONFIGURATION Menu on page 32 BKM 20D SDI 4 2 2 Decoder Adaptor Includes decoders for serial digital component signals 525 625 Input output connectors for three serial digital channels component inputs only and three analog channels The input signal type for each connector is set with the INPUT CONFIGURATION menu in accordance with the configuration of the connector panel o 9 5 8 5 3 9 gt 8 s 5 3 Overview BKM 21D SDI Multi Decoder Adaptor Includes decoders for serial digital signals 525 625 component and NTSC PAL composite and analog composite signals NTSC and PAL Input output connectors for three serial digital channels and three analog channels are equipped The input signal type for each connector is set with the INPUT CONFIGURATION menu in accordance with the configuration of the connector panel BKM 24N NTSC Decoder Adaptor Includes decoders for analog composite NTSC signals and input output connectors for six analog channels The input signal type for each connector is set with the INPUT CONFIGURATION menu in accordance with the configuration of the connector panel BKM 25P PAL Decoder Adaptor Includes decoders for analog composite PAL signals and input output connectors for six analog channels The input signal type for each connector is set with the INPUT CONFIGURATION menu in accordance with
283. NG PARA gt 4 4 4 BUFFER 515 2 FBT 2H TIM gt 4 8525 4024 3 0552 ere 3 15 3 4 474 CHIP 2 cere 1551 1 4W 4 GND R515 D TIM gt s Wo gt 38 7 5 JW 15V 174 3 4 R201 tev 122 0 40 0 029235 100 CHIP 12 2 2007 145157 TO P BOARD SDA 0271 5 3 5 004 CN901 R211 0 0047 L552 C559 174 3 4 mur 2862412K 0502 2000 Z 05533 3 j eyes PL AMP oret Boy 23 1338 5 ERC91 02TP11 200V lt 15 878 100 6 8k BUFFER m FLYWHEEL J 174 3 4 CHIP zu 3 Wo 0903 C274 p 150 CHIP 5 Ok 47 10204 2 2 1 1 82 UUT oA 6204 25v 0273 TOR chs Eee b 20EL zp BUFFER 1 2W 0826 8 20 23 1037 PARA CLAMP 0552 600V RECT ps omm DRY 4081 oor 020047 B FFER 022 TOW T CN503 PARA2 V GEN T 5 3 lt LC HV DRV 7 d 8 4 4 1 04 a lt Le 8555 3 8 B CHIP 4 ub AGC CHIP 4 10231 146510 16203 1 2 8 LANDING NTC OUT 1203 2 2 12V LN393PS E20 1741 28 9 0 8247 TP241 a DF 495 R238 0 47 500 R208 1 4 5 8307 250 CHIP E qua NIG mW DFX 0322 CN905 R236 2 2k 2P 10201 18r DE 10 EJ vi 8310 2 6 19046884 NUM Jes T PB es DRIVER IPE X SIGNAL GENERATOR i un T FPD 1 i RU LER 2 DF w W 3 4 gt paei E 5292 E 8249 QM e amp Ta TO P
284. NGLE menu item Notes In GROUP or ALL mode LEDs of controlled monitor will light as follows 16 control ps ee In case of SHIFT OFF before remote control MONIT R ADDRESS or UE ADDRESS 0 operation LEDs light in green when the SHIFT monitors should be correctly set in the REMOTE button is remotely set to OFF menu In case of SHIFT ON before remote control For details of the REMOTE menu see Assigning the tion LEDs lieht i hen the SHIFT Remote Control Functions SET UP 2 REMOTE Menu opera 100 sgt orange when Hie on page 35 button is remotely set to ON In GROUP mode when the KEY PROTECT For details see SHIFT button on page 12 functions setto ON the LED on the pressed n SINGLE mode when the data is saved or load in function button lights but it is deactivated LED or from the memory card the errormessage may of other monitors in the same group will not light appear due to data communication error Tii such a In GROUP or ALL mode the LEDs of the case clear the remote mode then try again function buttons will not light with controlled It is recommended to save or load data to or from the from the menu LEDs light only when you press memory card with the monitor which is free from the the function button remote operation When Sony BVM xxE F and HDM xxE series monitors are connected together select these monitors for each series in SINGLE mode or GROUP mode to remotely control
285. NO PARTNO DESCRIPTION REMARK REFNO PARTNO DESCRIPTION REMARK P MOUNT not supplyed A 1390 772 A TB MOUNT kak kakak K SRA kk kk kak kakak kok kakak lt CAPACITOR gt lt CAPACITOR gt C901 137 150 11 MYLAR 001 10 10 C101 107 877 11 ELECT 1000MF 20 10V C902 137 150 1 MYLAR 0 01 10 10 C903 136 157 00 FILM 0 022MF 5 50 CONNECTOR CONNECTOR 774 525 11 SOCKET CONNECTOR 64 CN2 774 525 11 SOCKET CONNECTOR 64 CN901 1 573 986 11 PIN CONNECTOR PC BOARD 5P CN3 774 525 11 SOCKET CONNECTOR 64 CN902 1 564 514 11 PLUG CONNECTOR CN4 714 537 11 CONNECTOR PIN PC BOARD 50 CN903 1 508 766 00 CONNECTOR SMM PITCH 4P CNS 774 525 11 SOCKET CONNECTOR 64 CN904 766 240 11 CONNECTOR PC BOARD 2P CN6 564 521 11 PLUG CONNECTOR 6P lt DIODE gt CN7 564 523 11 PLUG CONNECTOR 8P 564 524 11 PLUG CONNECTOR 9P D901 8 719 302 43 DIODE ELIZ lt COIL gt lt NEON LAMP gt 1101 406 661 11 INDUCTOR QuH NL901 519 526 11 LAMP NEON lt RESISTOR gt A 1373 641 A YA MOUNT Kak kak kak kak RK OR RRR k k R901 215 437 00 METAL 4 7K 1 1 4W R902 215 437 00 METAL 4 7K 1 CONNECTOR R903 215 425 00 METAL 1 5K 1 20G1 R903 215 427 00 METAL 1 8K 1 1 564 517 1 PLUG CONNECTOR 14G1 14G5 R904 215 437 00 METAL 4 7K 1 lt DIODE gt R905 215 437 00 METAL 4 7K 1 D101 8 719 061 96 DIODE SLR 325DCT31 R906 215 425 00 META
286. OCK ASSY REMOVAL 20G1A 20G1E 20G1U 4 Anode cap 2 Two screws p 3 Card slot assy CN904 CN901 CN902 9 Screw PS4x8 Two screws 4 8 FBT block assy 2 4 2 2 3 E AND G BOARDS REMOVAL AND CHECK Note The G board can be checked in the same way of the E board Insert the Z board into the slot and insert the E board into the connect on the Z board 2 board Loosen two screws B4x20 Zboard CN905 CN903 902 Extension board Cable kit Part No A 1394 806 B E board Loosen two screws B4x20 2 2 4 BC AND BK BOARDS REMOVAL AND CHECK Note The BC board can be checked in the same way of the BK board Extension board Cable kit Part No A 1394 806 B Z board CN2 4 5 Battery 1 4 3 holder SET Battery removal Insert the Z board into the slot and insert the BK board into the connect on the Z board CD BK board BC board Loosen two screws B4x20 Loosen two panel stopper screws 2 5 2 2 5 1 CARD SLOT ASSY REMOVAL 14G1A 14G1E 14G1U 14G5A 14G5E 14G5U CN20 CN18 CN15 905 903 CN16 0 Four screws D A 4 7 RS oe NA tas gt 4 CN3 3 Card slot assy CN7 Four screws 4 8 2 2 5 2 CARD SLOT ASSY REMOVAL 20G1A 20G1E 20G1U CN18 SINA E CN19 905 CN17 CN903 iom cane 5 CN007 S CN3 2 4
287. OK 50 1 10W R424 1 216 659 11 METAL CHIP 22K 0 50 1 10W R362 1 216 121 91 RES CHIP M 5 NOW R425 1 216 658 11 METAL CHIP 2K 0 50 1 10W R363 1 216 671 11 METAL CHIP 6 8K 50 1 10W R426 1 216 675 11 METAL CHIP 10K 0 50 1 10W R427 1 216 073 00 RES CHIP 10K 5 NOW R365 1 216 047 91 RES CHIP 820 5 NOW RA29 1 216 033 00 RES CHIP 220 5 NOW R366 1 216 651 11 METAL CHIP K 50 1 10W R367 1 216 676 11 METAL CHIP IK 0 50 1 10W R431 1 216 655 11 METAL CHIP 15K 0 50 1 10W R368 1 216 691 11 METAL CHIP 47K 50 1 10W R432 1 216 025 91 RES CHIP 100 5 NOW R369 1 216 051 00 2K 5 R433 1 216 653 11 METAL CHIP 12K 0 50 1 10W R43 1 216 675 11 METAL CHIP 10K 0 50 1 10W R370 1 216 025 91 RES CHIP 00 5 NOW R435 1 216 659 11 METAL CHIP 22K 0 50 110 R372 1 216 049 91 5 K 5 9 14 BK REFNO DESCRIPTION REMARK REFNO PARTNO DESCRIPTION REMARK R436 216 669 11 METAL CHIP 5 6K 0 50 1 10W 8518 216 033 00 RES CHIP 220 5 R437 216 057 00 RES CHIP 22K 5 438 216 025 91 RES CHIP 100 5 8519 216 057 00 RES CHIP 2 2K 5 439 216 057 00 RES CHIP 22K 5 R520 216 057 00 RES CHIP 22K 5 R440 216 073 00 5 10K 5 8521 216 009 00 RES CHIP 22 5 1 10W R522 216 067 00 RES CHIP 5 6K 5 1 10W R442 216 073 00 5 10K 5 1 10W R524 216 049 91 RES CHIP IK 5
288. OL2 Trim the original setting by selecting ADJUST ADJUST Adjust the gain and bias To shift between gain adjustment and bias adjustment press UP DOWN buttons Use appropriate knobs in each adjustment as described below After the adjustment press the ENTER button to confirm the adjusted values RED CONTRAST knob Adjust the R gain or bias with the CONTRAST knob GREEN BRIGHT knob Adjust the G gain or bias with the BRIGHT knob BLUE CHROMA knob Adjust the B gain or bias with the CHROMA knob LUMINANCE PHASE knob Adjust luminance with the PHASE knob To reset RED GREEN BLUE to the value before adjustment When you are adjusting the gain or bias using the MANUAL adjustment knobs you can reset the setting to the one before adjustment by pressing the corresponding MANUAL button To reset all of settings at the same time press the PHASE button TRIM Select whether to add the fine adjustment to the original setting gain and bias set in MANUAL menu 1 APPLY Adds the fine adjustment to the original setting When APPLY is selected XX TRIM XX the selected color temperature among STD COL 1 or COL 2 appears on the left top on the COLOR TEMP ADJ menu NOT APPLY Reset the setting to the original setting gain and bias set in MANUAL menu 30 SIGNAL Select the white signal to be used for adjustment INT Use an internal signal Simultaneously with the adjustme
289. ONV data to the same value as the 4 3 NORMAL SCAN mode Check the horizontal and vertical convergence and if there is misconvergence adjust again 3 10 3 7 3 14 inch Model Convergence Adjust ment 4 3 NORMAL SCAN mode 1 Set the SCREEN MODE to 4 3 NORM at the INPUT CONFIGURATION menu Input the cross hatch signal Minimize the vertical misconvergence at the center of the left side of the screen and the center of the right side of the screen using the DY correction reactor XCV TH Minimize the vertical misconvergence at the top and bottom of the screen using the DY correction reactor YCH As TLV is used for adjusting the horizontal trapezed dis tortion only when MSV is very bad should it be adjusted while maintaining the balance with the horizontal trap ezoid distortion Adjust the V CONV BOTTOM data and V CONV TOP data so that the vertical misconvergence at the top and bottom of the screen becomes minimum Do not change the value of the H STATIC CONV data 128 Note The V CONV BOTTOM and V CONV TOP ad justment menus are under the E BOARD menu of the MAINTENANCE menu YCH XCV TH V CONV TOP 200 1 ORD CT wD GED V CONV BOTTOM Fig 1 23 4 3 UNDER SCAN Mode 1 Set the SCREEN MODE to 4 3 UNDR at the INPUT CONFIGURATION menu of the SETUP menu Set the vertical convergence adjustment da
290. P F GHIPF CHIP F CHIP F CHIP CHIP F CHIPF CHIP CHIP F CHIPF CHIPE CHIP F CHIPF CHIPF CHIP 35V 9 I a L 1 1 1 2 1 1 ay ro 51248 A 200 01208 01209 P C1213 AUR 61218 C 01218 61222 01223 DEO 01227 12 n pu 01236 01237 01238 C1240 1248 C1245 61240 16V F CHIP 102 F CHIP 6 3 14 16V F CHIPF CHIP fai F CHIPF CHIPF CHIP_ 16V 16 16 F CHIP F CHIP Dn F CHIP F CHIP F CHIP 16V i6V F CHIPF CHIP tae F CHIP F CHIPF CHIPF CHIP F CHIP I HT CP EY NU CHIP F CHIP F CHIP F CHIPF CHIP F CHIP F CHIP By 614 C8 015 C1 03 05 07 47 C9 47 47 47 25V 0 01 0 01 0 01 0 01 0 01 16V 0 01 16V 16V HT CP F CHIPF CHIPF CHIPF CHIP HT CPF CHIP HT CP 411 0 0 5 5 S 59 E 1 17 6 12 1 x amp m NOS 8 103 28 X u 6 JM7912FA 12V Ed uu ee 12V REG 2 2255 Oo OO x Je Sux 5 2 906 2525 5 a a ow lt o E m uz 2 I 2235255 com E 2 5 120V 2 64P 8 TO B Y R949 8950 8951 R952 R953 R955 R956 GND 120V 8947 10k 10 10k 10k 10k m 1 CHIP
291. Part No A 1394 806 B Z board BC board o0 BKM 10R BVM 20G1 Fig 5 19 Arrangement Diagram for Adjustment Parts 5 2 2 D A Level Adjustment 1 Connect the oscilloscope to pin of CN1 of the BC BC board SIDE b oard 2 Select the 93 ch menu on the MAINTENANCE menu dici 4 and output an internal white signal 1 147 SI 3 Adjust RV101 so that the 660 20 mV RV101 28 15 4 1 107 CN2 1 14 660 20 mV 32 ES Lr Fig 5 21 5 2 3 SETUP Level of Built in Signal and 100 IRE Level is Automatic operation 1 Select the EXTEND menu of SETUP menu 2 Selectthe ADJ INT SIGNAL menu and SETUP level of 32 J built in signal and 100 IRE level is automatic operation and execule 3 Displayed the PROCEDER COMPLETED is after 10 to 15 second and automatic operation is completion Fig 5 20 5 10 5 3 E Board 5 3 1 Adjust Preparation Set as follows at the INPUT CONFIGURATION menu of the SETUP menu FORMAT COMPONENT YUV SMPTE EBU N 10 SLOT NO 6 SYNC MODE INT Select E BOARD DATA LOAD from E BOARD menu of MAINTENANCE menu and execute Connection Extension board cable kit Part No A 1394 806 B 2 27 P ny nie Oscilloscope BKM 10R BVM 20G1 Fig 5 22 Arrangement Diagram for Adjustment Parts 5 3 2 V BLK Adjustment E board S
292. R SCAN mode Set the H BLK PHASE data to the same value as the 4 3 UNDER SCAN mode Set the H BLK WIDTH data to the same value as the 4 3 UNDER SCAN mode 3 5 V Blanking Adjustment Preparations 1 Connect the signal generator and input the monoscope signal 2 Increase BRIGHT until the blanking can be seen Note The following adjustment menus are under the E BOARD menu of the MAINTENANCE menu V BLK TOP V BLK BOT V BLK 4 3 NORMAL SCAN Mode 1 Set the SCREEN MODE to 4 3 NORM at INPUT CONFIGURATION menu of the SETUP menu 2 Adjust the V BLK TOP data until the blanking at the top of the screen just disappears outside the effective screen 3 Set the V BLK TOP data to 30 Write down the V BLK TOP data 4 Adjust the V BLK BOTTOM data until the blanking at the bottom of the screen just disappears outside the ef fective screen 5 Set the V BLK BOTTOM data to 30 Write dwon the V BLK BOTTOM data 6 Set the V BLK data to fixed at value 128 4 3 UNDER SCAN Mode 1 Set the SCREEN MODE to 4 3 UNDR at the INPUT CONFIGURATION menu of the SETUP menu 2 Set the V BLK TOP data to 255 Set the V BLK BOTTOM data to 000 Set the V BLK data to fixed at value 128 Bow 16 9 NORMAL SCAN Mode 1 Set the SCREEN MODE to 16 9 NORM at the INPUT CONFIGURATION menu of the SETUP menu Set the V BLK TOP data to 255 Set the V BLK BOTTOM data to 000 Set the V BLK data to fixed at value 128 16 9 U
293. R COUNTER BC uPD71051GU 10E2 IC22 24 STATUS REGISTER BC RECEIVE DATA BUFFER TRANSMISSION DATA BUFFER CONTROL WORD REGISTER INTENAL 8 BIT BUS STASUS BUS SYNCHRONOUS CHARACTER REGISTER TRANSMITTER CONTROLLER 28622812 5 1 124 RECEIVER MODEM CONTROLLER DATA RECOVARY 8 g 8 5 E SLICAD DATA DATA SLICER DATA CLK 49 RECOVARY SYNC 8 2 SLICER COMP SYNC VARTICAL CTR AND CONTROL HORIZONTAL COUNTER DOT CLK veo Vss DIGITAL 11 36 DATA MOD amp XFR BUF COMMAND PROCESSOR AND DECODER CONTROL DONF SEN 2 11 36 GND DU G DU B DU R V SP ABL G2 CNT HCR VCR H CY V H STAT V STAT HCT POWER ON DEGAUSS E_PROT G PROTI G PROT2 4 GND GND AFC P 198 01 47 4W a 1 2 4 374 120V E 1 4 E 1 4 C949 946 mm 0 47 0 47 0 47 0 47 0 4 25V T 25V 25V 25V T F CHIPIF onm CHI PIF CHI PIF CHI P m m 12 E Sole 4 m
294. R033 R034 R035 R035 0123 20k 5 6k oe BNC CP 2 7 2061 8 4 7 1481 H 2 4 XV SAW SIGNAL GENERATOR PWM CONTROL E 3 4 HAN OUT H LIN AMP s 2 2 ea cc i rl 7 8 888280 E 4 4 BVM 20G1 ONLY 4 E 4 4 SIGNAL GENERATOR L MOSI 1 4 2 4 gt D A C CYH CYV OUT ROT OUT 10703 MB88346BPFV EF D A CONVERTER 2 4 gt V 5002 4 gt 10701 CXA1726AM T6 SIGNAL GENERATOR adu UR w CH CHIP 2 4 I 0726 282362KG AA 6v CY HP lt CY H RTN 174 HP G 4 lt CV HP 3 4 0721 8127 8 cy 174 2841037 08 el m 0727 CY HP 200 25 4159 I CY HP OUT 0 8 0 6 PROTECTOR 0 4 5052 0722 87 Q0RY SATIS ony B aw lt CY HP 3 4 Qu MW W CY HP 3 4 0 10 E R729 0 47 0722 E 2 111 1 tah E 4 8733 PROTECTOR 0 2 0729 106 281606 E cH CHIP CY HP OUT 1 R724 0725 6 9 282958 TL CY HP AMP 40 CHIP 4 4 lt ROT RTN 1 4
295. R116 1 216 089 91 5 47K 5 R235 1 216 298 00 RES CHIP 22 5 NOW R117 1 216 113 00 RES CHIP 470K 5 NOW R122 1 216 107 00 5 270K 5 R236 1 216 001 00 RES CHIP 0 5 NOW R126 1 216 107 00 5 270K 5 NOW R237 1 249 377 11 CARBON 0 47 5 4W F R127 1 216 073 00 RES CHIP OK 5 NOW R238 1 249 425 11 CARBON 4 7K 5 4W F R239 1 249 392 11 CARBON 8 2 5 4W F R131 1 216 049 91 5 K 5 R241 1 216 073 00 RES CHIP OK 5 NOW R132 1 216 089 91 RES CHIP 47K 5 R133 1 216 073 00 RES CHIP OK 5 R242 1 216 692 11 METAL CHIP 5IK 0 50 1 10W R134 1 216 107 00 5 270K 5 R243 1 216 079 00 RES CHIP 8K 5 NOW R142 1 216 089 91 5 47K 5 R244 1 216 081 00 RES CHIP 22K 5 NOW R245 1 216 298 00 RES CHIP 2 2 5 NOW R151 1 216 025 91 RES CHIP 00 5 NOW R246 1 216 001 00 RES CHIP 0 5 NOW R152 1 216 073 00 RES CHIP OK 5 NOW 8153 1 216 043 91 RES CHIP 560 5 NOW R247 1 249 377 11 CARBON 0 47 5 4W F 8154 1 216 069 00 RES CHIP 6 8K 5 R248 1 249 421 11 CARBON 2 2K 5 8155 1 216 001 00 RES CHIP 0 5 NOW R249 1 249 405 11 CARBON 00 5 4W F R271 1 216 049 91 5 K 5 NOW R156 1 215 869 11 METAL OXIDE K 5 W R272 1 216 073 00 RES CHIP OK 5 NOW R157 1 249 377 11 CARBON 0 47 5 4W F 8158 1 249 377 11 CARBON 0 47 5 4W F R273 1 216 073 00 RES CHIP OK 5 NOW R159 1 217 371 00 FUSIBLE 0 47 10 R274 1 216 073 00 RES CHIP OK 5 NO
296. RAMIC 0 0047MF 20 250V 1 576 231 11 FUSE H B C 4 250 C903 1 107 888 11 ELECT 47MF 20 25 F201 1 533 987 11 FUSE MICRO 5 125 C904 1 128 526 11 ELECT 100MF 20 16V F202 A 1 533 987 11 FUSE MICRO 5A 125V CONNECTOR FERRITE BEAD 1 564 321 00 CONNECTOR 2P FB31 1 410 396 41 FERRITE CN2 1 568 106 11 CONNECTOR 4P FB32 1 410 396 41 FERRITE CN3 1 774 523 11 CONNECTOR PC BOARD 64P FB33 1 410 396 41 FERRITE FB34 1 410 396 41 FERRITE DIODE FB201 1 410 396 41 FERRITE DI A 8 719 510 53 DIODE D4SB60L FB301 1 410 396 41 FERRITE D2 8 719 110 52 DIODE RD20ESB1 D3 8 719 110 61 DIODE RD24ESB1 lt IC gt D4 8 719 053 43 DIODE SLR 325VCT31 D5 8 719 510 02 DIODE DINS4 IC1 8 759 982 15 IC RC7815FA 8 759 354 43 IC TK83854D D6 8 719 510 02 DIODE DINS4 IC32 8 759 100 96 IC wPC4558G2 D8 8 719 404 49 DIODE IC101 8 759 988 13 TC LM393PS D9 8 719 510 02 DIODE DINS4 IC201 8 759 914 04 IC TL494CNS D31 8 719 510 02 DIODE DINS4 D32 8 719 106 23 DIODE RD7 5M B2 1C202 8 759 908 15 IC TL431CLP 1 203 8 759 908 15 IC TL431CLP D33 8 719 510 02 DIODE DINS4 IC301 8 759 914 04 IC TL494CN D34 8 719 110 61 DIODE RD24ESB1 1 302 8 759 908 15 IC TL431CLP D35 8 719 510 02 DIODE DINS4 IC801 8 759 085 67 IC LM339NS D36 8 719 029 04 DIODE D5L60 D101 8 719 911 19 DIODE 155119 25 1 802 8 759 908 15 1 803 8 759 424 24 MC74HC147FEL D102 8 719 404 49 DIODE
297. RAMIC CHIP 001 10 50V 14611465 C602 1 164 695 11 CERAMIC CHIP 0 002MF 5 50V 2001 232 1 164 004 11 CERAMIC CHIP 10 25V 1 164 004 11 CERAMIC CHIP 10 25V C241 1 163 251 11 CERAMIC CHIP 100PF 5 50 C612 1 164 004 11 CERAMIC CHIP 106 25V C242 1 164 004 11 CERAMIC CHIP 10 25V C613 1 163 251 11 CERAMIC CHIP 100PF 5 50 C271 1 163 121 00 CERAMIC CHIP IS0PF 5 50V cm 1 164 004 11 CERAMIC CHIP 10 25V 1 163 275 11 CERAMIC CHIP 0 00IMF 5 50 C622 1 164 004 11 CERAMIC CHIP 10 25V Cm 1 163 275 11 CERAMIC CHIP 0 00IMF 5 50 C623 1 163 275 11 CERAMIC CHIP 0 00IMF 5 50 274 1 164 004 11 CERAMIC CHIP 10 25V 624 1 164 004 11 CERAMIC CHIP 106 25V C275 1 163 275 11 CERAMIC CHIP 0 00IMF 5 50 C625 1 163 135 00 CERAMIC CHIP 560 5 50 9 20 E REFNO DESCRIPTION REMARK REFNO PARTNO DESCRIPTION REMARK C626 164 004 11 CERAMIC CHIP 0 1 10 25 C961 104 652 11 ELECT 470MF 20 10V C631 164 004 11 CERAMIC CHIP 0 1 10 25 C962 128 526 1 ELECT 100MF 20 16V C641 164 004 11 CERAMIC CHIP 0 1 10 25 C963 104 652 11 ELECT 470MF 20 10V C642 107 906 11 ELECT 10 20 50 964 164 004 11 CHIP 10 25V C643 107 906 11 ELECT 10 20 50V C965 164 004 11 CERAMIC CHIP 10 25V C644 164 346 11 CERAMIC CHIP IMF 16V C966 164
298. RES CHIP 100K 5 R534 216 697 91 METAL CHIP 82K 50 1107 R631 216 075 00 5 12K 5 8535 216 073 00 5 10 5 R632 216 065 91 RES CHIP 4 7K 5 8536 216 081 00 5 2K 5 R633 216 073 00 RES CHIP 10K 5 R634 216 089 91 RES CHIP 47K 5 R542 218 773 11 METAL CHIP 750K 50 1 10W 14G1 14G5 R641 216 107 00 RES CHIP 270K 5 11077 8542 218 774 11 METAL CHIP 820K 50 1 10W 20G1 R642 216 073 00 RES CHIP 10K 5 R543 216 685 11 METAL CHIP 27K 50 1 10W 8645 216 073 00 RES CHIP 10K 5 8544 216 684 91 METAL CHIP 24K 50 1 10W R646 216 073 00 5 10K 5 1 10W 14G1 14G5 R647 216 073 00 RES CHIP 10K 5 1 10W R544 216 685 11 METAL CHIP 27K 50 1 10W 20G1 R648 216 073 00 RES CHIP 10K 5 1 10W R545 216 698 11 METAL CHIP 50 1107 R649 216 073 00 RES CHIP 10K 5 1461 1405 R650 216 073 00 RES CHIP 10K 5 R545 216 699 11 METAL CHIP 100K 50 1 10W 20G1 8651 216 073 00 5 10K 5 8546 216 073 00 5 10K 5 R652 216 025 91 RES CHIP 100 5 8547 216 081 00 5 22K 5 R548 216 097 91 5 100K 5 R653 216 025 91 RES CHIP 100 5 1 10W R701 216 073 00 RES CHIP 10K 5 1 10W 20G1 8551 249 377 11 CARBON 0 47 5 702 216 089 91 5 47K 5 1 10W 20G1 8552 216 081 00 5 22K 5 R703 216 073 00 RES CHIP 10K 5 1 10W 20G1 855
299. ROT 1 4 LA6510 ROT CY V OUT 10702 701 707 0 47 1 174W R708 4 7 lt cy 1 4 1 4 10 8716 8718 CHIP 10 330 4 2 RTN 1 4 C702 C712 709 0 1 0 1 5 10 E 25V 25V 1 44 1 44 B CHIP B CHIP 2 4 CY V R gt 683280 4 11 40 E Board Waveforms 1 2 E Board Waveforms 2 2 14 INCH 20 INCH 5 2Vp p H 4 4Vp p H 4 3Vp p V 696Vp p H 412Vp p H 4Vp p H 14 INCH 62 20 INCH 69 14 INCH 5 1Vp p H 7 2Vp p V 5Vp p V 56 5Vp p V 57 5Vp p V 83 2Vp p H 63 INCH mT AN ain 5Vp p H 5Vp p V 2 5Vp p V 121Vp p H 3 3Vp p H 2 1Vp p H 6 42 67 11 1 Lr 5Vp p V 5Vp p H 5 9Vp p 8MHz 3 3Vp p H 5 1Vp p V 1 7Vp p V 43 45 7121 apu 2Vp p V 5Vp p H 5 Kp f V VN 1 3Vp p V 1 7Vp p H 1 1Vp p V rar AAY AA 15 5Vp p H 1 1Vp p V 502Vp p H 14 INCH 20 INCH 63 LPN UUUL 300Vp p V 330Vp p V 3Vp p 2H 0 6 69 Lib WA 3 7Vp p V 4Vp p V 4 8Vp p H 6 09 111 1 5Vp p V 1 7Vp p
300. S Menu Overview Displaying the ADDRESS Menu Cancelling the Remote Control Mode Exiting the ADDRESS Menu 51 Connection Cable Specifications for Color Temperature Probes 54 Precaution On safety Operate the unit only with a power source as specified in Specifications section The nameplate indicating operating voltage power consumption etc is located at the rear Should any solid object or liquid fall into the cabinet unplug the unit and have it checked by qualified personnel before operating it any further Do not drop or place heavy objects on the power cord If the power cord is damaged turn off the power immediately It is dangerous to use the unit with a damaged power cord e Unplug the unit from the wall outlet if it is not to be used for several days or more Disconnect the power cord from the AC outlet by grasping the plug not by pulling the cord The socket outlet shall be installed near the equipment and shall be easily accessible On installation Allow adequate air circulation to prevent internal heat build up Do not place the unit on surfaces rugs blankets etc or near materials curtains draperies that may block the ventilation holes Do not install the unit in a location near heat sources such as radiators or air ducts or in a place sub
301. SONY TRINITRONe COLOR VIDEO MONITOR BVM 14G1A 14G1E 14G1U SIS SCC N52D A AUS JS2H A AEP H99J A U C BVM 14G5A 14G5E 14G5U S No SCC N52E A AUS J32J A AEP H99K A U C BVM 20G1A 20G1E 20G1U CHASSIS No SCC N52C A AUS J32G A AEP H99H A U C MONITOR CONTROL UNIT BKM 10R Trinitron OPERATION AND MAINTENANCE MANUAL 1st Edition Serial No 2000001 and Higher WARNING This manual is intended for qualified service personnel only To reduce the risk of electric shock fire or injuly do not perform any servicing other than that contained in the operating instructions unless you are qualified to do so Refer all servicing to qualified service personnel WARNING AN ISOLATION TRANSFORMER SHOULD BE USED DURING ANY SERVICE TO AVOID POSSIBLE SHOCK HAZARD BECAUSE OF LIVE CHASSIS THE CHASSIS OF THIS RECEIVER IS DIRECTLY CONNECTED TO THE AC POWER LINE SAFETY RELATED COMPONENT WARNING COMPONENTS IDENTIFIED BY SHADING AND MARK A ON THE SCHEMATIC DIAGRAMS EXPLODED VIEWS AND IN THE PARTS LIST ARE CRITICAL TO SAFE OPERATION REPLACE THESE COMPONENTS WITH SONY PARTS WHOSE PART NUMBERS APPEAR AS SHOWN IN THIS MANUAL OR IN SUPPLEMENTS PUBLISHED BY SONY CIRCUIT ADJUSTMENTS THAT ARE CRITICAL TO SAFE OPERATION ARE IDENTIFIED IN THIS MANUAL FOLLOW THESE PROCEDURES WHENEVER CRITICAL COMPONENTS ARE REPLACED OR IMPROPER OPERATION IS SUSPECTED ATTENTION AFIN D EVITER TOUT RISQUE D E
302. Shift Off function Press this button to select Shift On or Shift Off functions Each time you press this button its orange LED lights Shift On or goes out Shift Off 2 E Shift On Use the function indicated below the Function button Shift Off Use the function indicated above the Function button Function buttons Use these buttons to control the operation of the monitor Each of these buttons has a Shift On function indicated below the button as well as a Shift Off unction indicated above the button Press the SHIFT button to select the desired function Shift Off functions green LED Each time you press one of these buttons its LED lights or goes out and the function of the button selected with the SHIFT button is turned on or off The LED color change whether you select Shift Off functions or Shift On functions For Shift Off functions Green LED For Shift On functions Orange LED r underscan Turn the button on for underscanning The display size is reduced by approximately 396 so that the four corners of the raster are visible horizontal delay Turn the button on to observe the horizontal sync near the left quarter of the screen Picture brightness is adjusted automatically for easy observation Press the button together with the vertical delay button to display a pulse cross vertical delay the button on to observe the
303. T PROT EXPANDER CHARACTER GEN IC8 2 6 5 6 TAI 20 24 72 3 4 7 8 12 Do gt 27 29 1 2 gt Dor 9 8 1 7 B6 006 12 AM 1 2 gt z s 5 OPEN 2 1 2 188 003 IC29 7810 002 REMOTE2 DRIVER 001 2 18 54 56 59 LEAN S 1 2 000 CN5 3 17 60 61 Bt6 WR REMOTE2 4 16 64 3 9 S mt RD N 5 gt 15 49 50 52 53 1G17 1 4 4 4 08 7 815 CS 6 14 C 12 SENE 7M5 SENCE 7 13 um 12 9 TAM VITCDTSE 8 12 9 11 i 1 9 CHARA At CHARG 1 2 FROM G DIGITAL 454 1 409 71 D 5V eee CHARB FROM G _ DIGITAL 5V_ 1 B29 3 1 2 CHARA D gt 1 817 CHARBLANK TO FROM A 12V RE dise xd 12V 63 1 27 SAMPLE PULSE TO BK FROMG s 147 052 62 5 FROM gt 6V rer vrea IC105 12108 5 ar DOT CLOCK COUNTER INT SIGNAL DATA 1 5 FROMG av 05 Ago Q111 Q108 Q109 D104 vG VIDEO 1 B8 1 106 COUNTER 10123 10111 23 0106 OPEN PYOUT tA 14 1878MH 1 2 2 2 4 P C OUT 4 1 89 m 1 120 SYNC GEN ve 9 P IC63 2 3 8 2 3 19 2 3 IC122 6 6 12104 2 NTSC PAL 5 5 LINE COUNTER 1811 14 3182 2 SELECT 3 107 NTSC INT SIGNA RESET IC116 3 3 IC SEN 12 9 1C63 3 3 5 IC Tua 11 88506 4 1 115 3 3 rel 02 QO 9 10151 1 3
304. T2 82 CH SLOT2 INTERNAL SIG INTERNAL SIG C ow s INTERNAL 818 o EIE TO TB BOARD CN4 TO E BOARD 1 4 CN802 TO E BOARD 1 4 TO G BOARD CN801 CN3 T A MOTHER 11 53 11 53 TB TB _ TO YA BOARD 1 ON 1 cna 1 1 64P 64P CN101 B TO B B TO B nar ps sw i TALLY H en T STAND BY 7 NC 82 B B2 i FOWER power He EID BOARD 15V B4 15V S MICRO CN201 NC 15V 15 15V 15V A5 15V Eme 15V I 15V B5 15V 15V RISO A RTS OPTION AT 6V 6V AT 6V ond 4 87 6V 6V 87 6V 6V 50 nem 6 OPTION I EM B VIDEO I EM B VIDEO I I 8 OPTION PC OUT PY 88 PY 1207 82 120 10 GND Wa 10 GND 43 GND Ed B10 PC 83 GND Bir GND PEE 11 GND 15v M 15V TO Naot Lp PB B B11 Y G
305. TER CHIP fol 820K CHIP 2061 2 HV ADJ 2200 L 4 Tk C506 750K RN CP 1461 1465 8174 CH BT RN CHIP 0 001 3 IK PROT FOR CHECK 4 10531 2 2 ABE CUT 12V RTI 810 8190 LN393PS E20 DISCHARGE 5 HV k k k BLK 7 gt pu MESES LL ld 4 H BLK W gt 7 1 8531 47 t 6542 0544 R546 H PH gt z 1 4W T 200V 120k 25V MA 10 R542 47 111 S 1 4 I 1 RN CHIP 25V SW CHIP tas He ABL1 1 4 gt w w 22k R191 C161 red R548 4 gt lt ul 230 CHIP 10k 1000 8532 1 gt Nuw 100k a E CHIP CH CHIP 22k ES CHIPR543 PARA LAK RN CHIP EN E bo 27k en cto 2 6 4 Pz Bos 559 44 cuir ora CH CHIP 16V T Au 3 no S25 R544 aar E F CHIP 10502 NK T M lt HV OVP 174 5 1 RN CHIP 8545 2 0 R177 TLASTCLP Z 7 W 1 A 4 18 120 1 0 01 zd SHUNT REGURATOR R R533 0533 6534 RN CHIP F 0543 B CHIP lt IK PROT 1 4 chi 2 61 D Wei T 0201 1 1 10 antene T 16 16V D534 8178 4 F CHIP SW m RN CHIP 1 PROT 1 4 gt 0502 V REF 374 gt 111 SW HV CTL 144 i D201 MA111 TX PROTECTOR T 15V CN902 R551 d 0501 D551 0551 0 47 L553 gt 5 120 2803392 5 TB 8012583 1 PROTECTOR 963008 HV REG SWITCHI
306. TIN 14 CN6 1 2 8 9 RX CLK gt 2 7 OPTION RTS 3012 SR IC27 1 4 27 2 4 Mo 54 10 D gt IC30 27 3 4 CN302 CLOCK DRIVER 441619 TIN 14 CN6 2 2 1 2 IC31 1 6 1 31 6 6 ISR OPTION OPTIONTXD 2819 IC28 2 2 MAIN CPU IN OUT EXPANDER X2 4 9152MHz REMOTE CONTROLLER Gum BC BLOCK 1 2 10 8 10 8 A B C D E F G H 7 9 7 45 AD 5 A IN OU
307. TP6 2 4 4 5 04 05 806 258 06 258 PROTECTOR PROTECTOR 599 8 4 4 F CHIP L 4 4 OPTION RXD 4 4 314 0 5 PARA RMT 1 4 631 0 01 01 T F CHI I F CHIP a e z de F CHIP T 1029 C33 9 TC74VHC541F EL 0 1 REMOTE2 DRIVER 5 2 F CHIP 2 846 R42 RAT R43 R48 844 R45 100k 100k 100k 100k 100k 100k 100k 1 CHI CHI CHI CHI CHI CHI CHIP 51 C556 C552 C557 C553 C558 655 C555 01 0 01 0 01 0 01 0 01 0 01 0 0 0 01 IT CHIP T CHIP CHIP i CHIP T CH l CHIP REM7 5 1 m em few Emi gl gu JA Jem Jem eu EP dew fe 1 al gt gt gt gt gt gt REMS FL556 FL552 FL557 FL553 FL558 FL554 FL555 R76 R74 FL563 FL564 Eka ati 10 10 1 CHIP CHIP 4 041 4 806 258 4 4 2 801288 PROTECTOR 0561 2 4 T T 1 040 039 038 037 036 035 034 0558 06 258 806 258 806 258 806 258 RD6 2SB 806 258 806 258 S E R A L C ONTROL 4 5388 mM PROTECTOR PROTECTOR PROTECTOR PROTECTOR PROTECTOR PROTECTOR PROTECTOR D32 030 R77 PROTECTOR PROTECTOR PROTECTOR PROTECTOR ei ise 00205 007 485 RS232C INTERFACE PROTECTOR PROTECTOR CHI D557 01258 029 033 031 RD12SB PROTECTOR 06 258 RD6 2SB 06 25 CTOR PROTECTOR PROTECTOR PROTECTOR au akush TONG
308. UFFER 14 Q103 105 16 1013 9 0108 350 351 5 Y G 102 101 2 3 102 3 4 Y BUFFER gt MATRIX 2 2 1 2 5 FROM 2 00 1 12 3 306 308 FROMBCi 0b e Y G 142a 6 SVEN G Y MATRIX 1 4 R Y GAIN BUFFER 14 OFFSET Geni BYGAN BK SELECT TP502 SWITCH Q506 6206120 Q500 502 1 501 1 3 500 BUFFER ANALOG IN B Y B BUFFER 14 503 505 Q510 0507 0540 541 MEA B Y B OUT Tr CERME 1C501 2 3 502 3 i BUFFER BUFFER Q B MATRIX AMP 2 2 5 FROM 2PB 2B 1 14b ae 1 1bh PBB 17136 1C504 1 3 1 502 12 2 2 2 14 2 13 1C520 2 2 IC300 2 2 14 CLAMP OFFSET 16800198 6 7 1 155 5 14 B YPULSE LEVEL Gabi 6 14 5 _ Q106 1C104 2 3 1 301 1 3 BUFFER i I C R 325 ANALOG 12 14 1 301 3 3 12303 5 9310 Q107 Q140 141 5 R Y R_ Tr 1C301 2 3 02 R Y BUFFER BUFFER MATRIX AMP 2 2 7 FROM ___2 _ __ 1166 5 1 125 PRIR _ 1 15b 1 304 1 3 1 4 RGBSW gt 3 PROGSW gt 4 IC500 2 3 1C300 1 2 C 14 CLAMP OFFSET 5 ih d 1 2 143 418 WHITE SAMPLING P C 14 PULSE LEVEL 3 PS s 22 114 374 WHITE INSERT E 143444 BLACK SAMPLING P CONT 2 CONT O Ee 1 912 272 VBLK 1 i gt
309. ULATOR C200 1 164 004 11 CERAMIC CHIP 10 25V C201 1 164 004 11 CERAMIC CHIP 10 25V 4 050 798 01 PLATE NUT AC INLET 4 050 800 01 PLETE SMALL NUT C203 1 104 539 11 FILM CHIP 001 5 50 4 050 801 01 PLETE LARGE NUT D206 209 303 304 C204 1 107 907 11 ELECT 22MF 20 50 4 050 814 01 SHIELD PWB C205 1 164 004 11 CERAMIC CHIP 10 25V 4 050 824 01 INSULATOR POWER UNIT C206 1 107 888 11 ELECT 47MF 20 25V C207 1 136 161 00 FILM 047 5 SOV 4 050 850 01 COVER POWER UNIT 4 064 021 01 PLATE NUT C208 1 129 718 00 FILM 022 5 630V 4 374 846 01 COVER CAPACITOR CAP TYPE C211 1 107 913 11 ELECT 470MF 20 50V 4 382 854 01 SCREW 8 P SW C212 1 102 038 00 CERAMIC 001 500V 4 382 854 11 SCREW M3X10 P SW C213 1 102 038 00 CERAMIC 001 500V C214 1 107 880 11 ELECT 4700 20 10V 7 682 566 04 SCREW B 4X20 7 682 647 09 SCREW PS 3X6 C215 1 107 880 11 ELECT 4700 20 10V 7 682 649 09 SCREW PS 3X10 C216 1 163 037 11 CERAMIC CHIP 022 10 50V 7 682 654 09 SCREW PS 3X25 C217 1 164 004 11 CERAMIC CHIP 10 25V 7 682 661 01 SCREW PS 4X8 C218 1 102 038 00 CERAMIC 001 500V C219 1 102 038 00 CERAMIC 001 500V 7 682 950 09 SCREW PSW 3X12 7 685 872 09 SCREW BVTT 3X8 S C220 1 107 890 11 ELECT 2200MF 20 25V C221 1 107 890 11 ELECT 2200MF 20 25V lt CAPACITOR gt C222 1 107 880 11 ELECT 4700 20 10V C223 1 107 880 11 ELECT 4700 20 10V Cl 1 104 708 11
310. V 20G1 D534 8 719 404 49 DIODE MAII IC801 8 759 032 26 IC MC74HC125AF 0542 8 719 404 49 DIODE IC802 8 759 473 55 IC MB89613R 438 0543 8 719 404 49 DIODE 1 803 8 759 156 54 2504051 544 8 719 404 49 DIODE MAII IC921 8 759 231 58 IC TA7812S D545 8 719 404 49 DIODE MAII IC941 8 759 701 88 IC NJIM7912FA 0551 8 719 037 24 DIODE RDI2SB3 TI IC961 8 759 144 82 IC uPC2405HF D552 8 719 941 74 DIODE ERB91 02 IC981 8 759 247 67 IC LM2990T 5 0 0553 8 719 920 67 DIODE ERC91 02 IC991 8 759 701 59 IC 78 09 D554 8 719 404 49 DIODE MAII lt COIL gt D555 8 719 018 82 DIODE RGP02 20EL 6394 D611 8 719 404 49 DIODE MA11 L051 1 407 365 00 COIL CHOKE D641 8 719 157 91 DIODE RD3 0SB L061 1 412 537 31 INDUCTOR 1004H D642 8 719 157 91 DIODE RD3 0SB L062 1 411 594 11 INDUCTOR D721 8 719 404 49 DIODE MAI11 2061 L063 1 412 541 21 INDUCTOR 220uH L064 1 416 581 11 COIL HORIZONTAL LINEARITY 2001 D722 8 719 404 49 DIODE MAI11 2061 D801 8 719 158 15 DIODE RDS 6SB L064 1 416 582 11 COIL HORIZONTAL LINEARITY 14G1 14G5 0802 8 719 404 49 DIODE MAII L066 1 412 541 21 INDUCTOR 220 D853 8 719 158 19 DIODE RD62SB 1101 1 459 148 00 COIL 1551 1 406 659 11 INDUCTOR FERRITE BEAD L552 1 423 855 11 TRANSFORMER FERRITE HRT FB051 1 543 298 11 FERRITE 1553 1 406 669 11 INDUCTOR L554 1 407 365 00 COIL CHOKE lt FILTER gt L95 1 412 541 21 INDUCTOR 220uH FL801 1 239 183 11 FILTER EMI lt TRANSISTOR gt FL901
311. VCB distortion only when MSV is very bad should it be ad 3 HCVRC justed while maintaining the balance with the horizontal 4 HCVRT trapezoid distortion 5 HCV RB 2 Adjust the V STAT BOTTOM data and V STAT TOP 6 HCVLC data so that the vertical misconvergence at the top and 7 HCVLT bottom of the screen becomes minimum 8 HCVLB Note The V STAT BOTTOM and V STAT TOP adjust ment menu is under the E BOARD menu of the V CONV TOP MAINTENANCE menu Fig 1 20 3 9 4 3 UNDER SCAN Mode 1 Set the SCREEN MODE to 4 3 UNDR at the INPUT CONFIGURATION menu of the SETUP menu Set the vertical convergence adjustment data V CONV data and horizontal convergence adjustment data H CONV data to the same value as the 4 3 NORMAL SCAN mode Check the horizontal and vertical convergence and if there is misconvergence adjust again 16 9 NORMAL SCAN Mode 1 Set the SCREEN MODE to 16 9 NORM at the INPUT CONFIGURATION menu of the SETUP menu Set the vertical convergence adjustment data V CONV data and horizontal convergence adjustment data H CONV data to the same value as the 4 3 NORMAL SCAN mode Check the horizontal and vertical convergence and if there is misconvergence adjust again 16 9 UNDER SCAN Mode 1 Set the SCREEN MODE to 16 9 UNDR at the INPUT CONFIGURATION menu of the SETUP menu Set the vertical convergence adjustment data V CONV data and horizontal convergence adjustment data H C
312. W R160 1 215 871 11 METAL OXIDE 22K 5 W F R275 1 216 097 91 5 00K 5 NOW R276 1 216 103 00 5 80K 5 NOW R161 1 216 353 00 METAL OXIDE 22 5 W F R2TI 1 216 069 00 RES CHIP 6 8K 5 NOW R162 1 215 863 11 METAL OXIDE 100 5 W F R163 1 249 377 11 CARBON 0 47 5 4W F R278 1 216 121 91 RES CHIP M 5 NOW 1 216 073 00 5 10 5 279 1 216 073 00 RES CHIP 5 NOW R172 1 216 073 00 RES CHIP 10K 5 280 1 216 089 91 RES CHIP 47K 5 NOW R281 1 216 057 00 RES CHIP 2 2K 5 NOW R173 1 216 081 00 RES CHIP 22K 5 R282 1 216 073 00 RES CHIP OK 5 NOW R174 1 216 089 91 5 47K 5 NOW R175 1 216 083 00 RES CHIP 27K 5 R283 1 216 073 00 RES CHIP OK 5 NOW R176 1 216 073 00 RES CHIP OK 5 R284 1 216 073 00 RES CHIP OK 5 NOW 177 1 216 089 91 5 47K 5 R285 1 216 121 91 RES CHIP M 5 NOW R286 1 216 025 91 5 00 5 NOW R178 1 216 073 00 RES CHIP OK 5 R301 1 216 025 91 5 00 5 NOW R179 1 216 097 91 5 00K 5 R190 1 216 113 00 5 470K 5 NOW R302 1 216 073 00 RES CHIP OK 5 NOW R191 1 216 073 00 RES CHIP OK 5 NOW R303 1 216 069 00 RES CHIP 6 8K 5 NOW R201 1 216 025 91 RES CHIP 00 5 NOW R304 1 216 051 00 RES CHIP 2K 5 NOW R305 1 216 053 00 RES CHIP JK 5 NOW R202 1 216 025 91 5 00 5 NOW R306 1 216 097 91 5 00K 5 NOW R203 1 216 073 00 RES CHIP OK 5 204 1
313. WER lamp STANDBY lamp OVER LOAD lamp Illustration BVM 20G1U 20G1E 20G1A 5 5 9 lt E 3 8 E 9 lt z Location and Function of Parts This manual explains the location and function of parts and controls using the control panel of the BVM 14650 1465 1465 The explanation applies to BVM 14G1U 14GIE 14G1A 20G1U 20G1E 20G1A with the BKM 10R 11R Monitor Control Unit Q Tally lamp With factory settings the Tally lamp lights when pins No 8 and No 9 of the REMOTE 2 connector on the rear panel are shorted By changing the setting in the REMOTE menu different pins on the remote connector can be used to control the tally lamp For information about the REMOTE menu see Assigning the Remote Control Functions SET UP 2 REMOTE Menu on page 35 POWER switch Press to turn on off the monitor By setting with the ADDRESS menu it is possible to turn on off the power of the specified monitors only or of all monitors at the same time For information about the ADDRESS menu see Selecting the Monitor to Control ADDRESS Menu on page 49 DEGAUSS button Press to degauss the CRT every time the monitor is turned on the CRT is degaussed automatically To degauss again wait for more than five minutes Numeric keypad Use to designate the channel number for the input signal to be monitored or to enter the setting values with the menus
314. XP2003M 101 102 16 BIT LATCH 16 0 REGISTER OUT DIN BVM 14G5 BKM 10R HC 14 5 BKM 10R 054 056 058 062 064 0 01 0 01 0 01 0 01 0 01 0 01 053 F CHIP 055 067 F CHIP 059 F CHIP cet
315. age of the HV PROT winding the tertiary winding of FBT The HV PROT is connected to the input terminal of IC531 2 2 via D901 and R902 of the P board and the rectification circuit composed of C541 When HV increases due to some error fault etc the HV PROT voltage drops When the voltage of the input terminal decreases below the O input terminal voltage the protector operation reference voltage the comparator output becomes Low and turns OFF IC503via D545 Consequently the drive pulse of the high voltage converter is shut down and the high voltage output circuit stopped 6 6 6 3 High Voltage Current Protector ABL Circuit The high voltage current protector holds down the high volt age regulator when the current Ik flowing through the CRT exceeds the setting value in errors and malfunctions The voltage obtained by resistance dividing at R531 and R532 the difference between REF 1 502 and the obtained by voltage converting the current flowing through the FBT secondary winding of the P board at R906 is supplied to the terminal of the comparator and the protector operating point voltage is supplied to the O pin of the comparator after resistance separating VREF by R533 and R534 The terminal voltage of the comparator is normally higher than the terminal voltage When the CRT beam current increases VABL1 voltage decreases and consequently the terminal voltage of the comparator also decreases Th
316. al color bar signal is necessary Copying data from other BVM series monitors that have been connected via the serial remote connector or from data stored in monitor memory cards Setting Lists in the CONTROL PRESET ADJ Menu This section explains the setting lists displayed in the menu How to read the setting lists For purposes of explanation each setting list is preceded by a menu number These numbers are not displayed on the screen For more information about the menu number see About menu numbers on page 19 The arrow mark gt refers you to another setting list that appears after you make the setting or to an operation that is carried out as a result of the setting When there is no arrow mark the menu does not have any sub list CONTROL PRESET ADJ menu Select the setting method MANUAL Set with the MANUAL knobs A1 AUTO Set by automatic adjustment gt A2 COPY Copy data from elsewhere gt A3 A1 MANUAL menu Adjust values by turning the CHROMA BRIGHT CONTRAST and or PHASE knobs After the adjustment press the ENTER button to confirm the adjusted values PHASE xxxx CHROMA xxxx BRIGHT xxxx CONTRAST xxxx When you want to erase characters from the screen while adjusting manually Press the F1 button The characters disappear To display characters press the F1 button again
317. aptor or input expansion adaptors the input output connector panel can be assembled in a wide variety of configurations The signals that each of the adaptors connectors supports are given in the table below The type of signal to be applied to each input output connector is set with the INPUT CONFIGURATION menu Notes The BKM 20D and BKM 21D can not provide proper active through outputs if a signal whose format is not selected in the INPUT CONFIGURATION menu is input If AUTO is selected input a signal which has the same format with the signal monitored last For information about the INPUT CONFIGURATION menu see Setting the Input Configuration SET UP 1 INPUT CONFIGURATION Menu on page 32 Adaptor name BKM 20D BKM 21D BKM 24N 014 2 2 SDI Multi NTSC Decoder Decoder Adaptor Adaptor BKM 25P BKM 26M BKM 27T BKM 28X BKM 48X PAL PAL M Tri Analog Analog Decoder Decoder Standard Input Input Adaptor Adaptor Decoder Expansion Expansion Adaptor Adaptor Serial Component digital 525 625 input Composite NTSC Composite PAL Analog Composite input NTSC O O O O Composite PAL Composite PAL M Composite SECAM Y R Y B Y 525 625 RGB 525 625 NTSC PAL O O O PAL M Number of digital 3 inputs
318. ation manual 1 Design and specifications are subject to change without notice 53 xipueddy 2 2 gt 5 3 x Specifications Connection Cable Specifications for Color Temperature Probes Special cables are required to connect color temperature probes other than the Sony BKM 14L to the monitor The following diagrams show specifications and pin assignments for the required cables Connection cable for GRASEBY SLS 9400 probe Modular connector Signal Pin Number N C 1 GND RXD TXD Mini DIN 8 pin connector male Signal Pin Number NC NC RTS GND N C GND N C TXD 5V a RXD Connection cable for MINOLTA CA 100 probe D sub 25 pin connector male 1 13 9000000000008 14 25 Signal Pin Number N C TXD RXD Mini DIN 8 pin connector male Pin Number NC NC RTS RTS CTS N C s GND N C GND N C 81025 TXD 45V 54 RXD 05 1 Connection cable for PHILIPS PM 5639 probe corresponds to PHILIPS 5639 64 cable Modula
319. bottom of the screen Items from H CONV UPPER to HCV LB are only available for BVM 20G1U 20G1E 20G1A H CONV UPPER Adjust horizontal convergence at the top of the screen H CONV LOWER Adjust horizontal convergence at the bottom of the screen C6 ALIGNMENT menu 3 3 Adjust each item with the UP and DOWN buttons or PHASE knob H CV R C Adjust horizontal convergence at the center right of the screen H CV R T Adjust horizontal convergence at the top right of the screen H CV R B Adjust horizontal convergence at the bottom right of the screen H CV L C Adjust horizontal convergence at the center left of the screen LT Adjust horizontal convergence at the top left of the screen H CV L B Adjust horizontal convergence at the bottom left of the screen 43 o 9 5 m E 5 2 Using Extended Functions SET UP 7 EXTEND Menu Overview The following 4 functions can be executed with the EXTEND menu Loading factory default data for installed boards into memory Writing monitor setting and adjustment data to the monitor memory card or read setting and adjustment data from the monitor memory card Structure of the EXTEND Menu Restarting the monitor Automatically adjusting the setup level and 100 IRE level of t
320. c Setting Power Up Conditions and Decoder SET UP 4 SYSTEM CONFIGURATION Menu Overview The SYSTEM CONFIGURATION menu is used for the following settings Power up condition This menu sets the condition of the monitor when the MAIN POWER switch on the rear panel is switched on ON Standby mode OFF Operation mode Power up input channel LAST Set the channel to the channel that was selected at the time the power was last turned off CH xx Set the channel to a specific channel number Time from power up until degauss If several monitors are turned on at the same time and all start degaussing at the same time there will be a very large current draw on the power supply for a few moments To prevent this the delay time between power up and degaussing can be set for each monitor independently Structure of the SYSTEM CONFIGURATION Menu ca Residual subcarrier detection when using the BKM 24N 25P It is possible to detect residual subcarrier signals from phase change by setting the decoder adpator s residual subcarrier switch on Auto chroma control ACC when using the BKM 27T Setting of the contrast and brightness after adjusting the white balance or auto adjustment of CONTROL PRESET ON The contrast and brightness are set to the value before adjusting OFF The contrast and brightness are set to the center value 1000 after adjusting Assigning shortcut to the menu to the F2 key Assigns th
321. c and deflection signal processing This unit does not use a RGB signal processing circuit The AFC circuit of 001 compares the phases of the H SYNC of the input signal input to pin and the pulse of the horizontal deflection output input to pin The error signal is passed through the low pass filter connected to pins 09 09 and to control the frequency and phase of the ceramic oscillator connected to pin 44 The functions of IC001 consist of horizontal picture phase adjustment H PHASE horizontal picture size adjustment H SIZE horizontal pin distortion correction H PIN trapezoid distortion correction H KEY horizontal bow distortion correction H BOW and parallelogram distortion correction KEY BAL 1 3 Horizontal Deflection Circuit The H DRIVE pulse is passed through 0053 051 HDT supplied to Q054 H OUT to switch Q504 and drive T5002 HOT and H DY The power supply of the horizontal output circuit is gener ated 1 071 RWM control by switching Q061 to improve the power efficiency The H PIN W voltage from 001 is input to IC701 to control the power voltage 1 4 HCenter Circuit Positive and negative power supplies from the secondary side output of T052 HOT Horizontal output transformer are gen erated as the power supply of the H center circuit In the H center circuit 1 091 IC101 0091 D103 the DC current flowing through the H DY is controlled by the H CENT sig nal from 001
322. cal for safety Replace only with the part number specified Les composants identifi s par une marque A sont critiques pour la s curit Ne les remplacer que par une pi ce portant le num ro sp cifi FRAME 1 3 FRAME 1 3 To BOARD to BOARD 2 TO OPTION BOARD I M GND GND M M GND GND GND Bi Bi GND 2 NC A2 A2 GND WT 82 B NC 82 82 GND G A3 A8 G ND NC ND gt TALLY 83 GND NC 83 83 GND LOAD M 15V NC M M 15V 84 15V NC B4 84 15V T 4 STANDBY GND M POWER A5 15V NC A5 45 15V GND m B5 15V NC B5 B5 15V 6 5V 120 a2 6 6V NC A6 6V PON 86 6V NC 86 86 6V SND AT 6V NC AT AT 6V GND 83 ux BOARD ev NC 87
323. card while data is being saved or loaded EJECT button Press the EJECT button to eject the monitor memory card Take out the monitor memory card Mounting the Unit in a Rack To mount the 10 in an EIA standard 19 inch rack an optional MB 510 Rack Mount Kit is required Proceed as follows to mount the unit in the rack 1 Remove the four feet from the bottom of the BKM 10R 2 Use the rack mount attachment screws supplied with the BKM 10R to attach the rack abe mount brackets of the optional Pa MB 510 Rack Mount Kit to each side of this unit Rack mount bracket BKM 10R Rack mount attachment screws 3 Screw the rack mount brackets to the rack to mount the BKM 10R in the rack Use screws that match the size of the rack s screw holes Ss v00000000 Specifications General Power requirements 5 V DC supplied from the connected monitor Power consumption 0 5 W 0 7 W max Maximum dimensions w h d 424 x 44 x 157 mm 16 3 4 x 13 4x 6 1 4 inches Mass 1 4 kg 3 Ib 1 oz Operating temperature 0 C to 40 C 32 F to 104 F Recommended working temperature 20 C to 30 C 68 F to 86 F Operating humidity 0 to 90 no condensation Control connectors DISPLAY UNIT D sub 9 pin x 1 Accessories supplied Rack mount attachment screws 4 Operation Manual 1
324. center 14 inch model Purity control Purity 6 poles magnet 4 poles magnet 21 20 inch model Purity control Purity 6 poles magnet bee Fig 1 2 Push the DY deflection york to the front as much as possible Secure the neck assembly in the position shown in Fig 1 3 20 inch model 14 inch model Neck assy n Fig 1 3 7 Setthe color of the screen to green only Turn on the SHIFT button LED lights up in orange and turn on the R button or B button LED lights up on the BKM 10R 8 Rotatethe Purity knob and adjust so that the green comes to the center of the screen as shown in Fig 1 4 Fig 1 4 9 Move DY backwards and adjust so that the color of the whole screen becomes green only 10 Adjust the tilt of DY at cross hatch signal and tighten the screw of DY 11 Secure the deflection york with four 20 Inch three 14 Inch spacers DY spacer Deflection youk For 14 inch model Fig 1 5 Final check After adjusting check that there is no mislanding when t
325. color analyzers these color analyzers will show dif ferent values The values measured by the color analyzer will also change with time For this reason color analyzers used for this adjustment should be calibrated first so that they will show the correct values for the following color temperature coordinates y cd m2 2 Adjustment Standard 2 1 Input the following signal to the G Y input terminal of the BK board to display it on the screen For BVM 14G1U 14G5U 20G1U NTSC signal For BVM 14G1A 14G1E 14G5A 14G5E 20G1A 20 PAL signal 2 2 Connect the RS 232C terminal of the CA 100 with the 2 3 OPTION terminal of the monitor using the cable shown in Required Tools and Measuring Instruments 5 Refer to page 3 1 Set the CA 100 as shown below and connect the meas uring probe of the CA 100 at the center of the CRT screen Display mode xyY mode Baud Rate 9600 Select the S YSTEM COLOR TEMP menu on the MAIN TENANCE menu Select D93 of COLOR TEMP cover the CRT screen with a black cloth select FACTORY SET and start automatic adjustments Select D65 of COLOR TEMP and select the PROBE MINOLTA CA 100 menu After selecting D65 cover the CRT screen with a black cloth and select START to start automatic operations Execute this adjustment only for BVM 14G1U 14G5U 20GIU Select AUX of COLOR TEMB and select the PROBE MINOLTA CA 100 menu After setting X 0 331 Y 0 346 LOWLIGHT 2
326. d Circuit overloading Consideration should be given to the connection of the equipment to the supply circuit and the effect that overloading of circuits might have on overcurrent protection and supply wiring Appropriate consideration of equipment nameplate ratings should be used when addressing this concern e Reliable earthing Reliable earthing of rack mounted equipment should e maintained Particular attention should be given to supply connections other than direct connections to the branch circuit e g use of power strips f Gap keeping Upper and lower gap of rack mounted equipment should be kept 44 mm 1 inches For the customers in the United Kingdom WARNING THIS APPARATUS MUST BE EARTHED IMPORTANT The wires in this mains lead are coloured in accordance with the following code Green and yellow Earth Blue Neutral Brown Live As the colours of the wires in the mains lead of this apparatus may not correspond with the coloured markings identifying the terminals in your plug proceed as follows The wire which is coloured green and yellow must be connected to the terminal in the plug which is marked by the letter E or by the safety earth symbol or coloured green or green and yellow The wire which is coloured blue must be connected to the terminal which is marked with the letter N or coloured black The wire which is coloured brown must be connected to the terminal which is marked with the letter L or coloured red
327. d of IC201 IC203 PH201 Q205 T201 and T201 secondary rectifica tion circuits IC201 which is a PWM control IC is added with the control voltage from IC203 which performs constant voltage con trol of the 15V line via the isolater PH201 0205 FET which is the output from the converter is switched by the pulse PWM controlled by IC201 via the Q203 and Q204 buffers As a result at the secondary side of T201 7V for the standby 5V and 6 6 15 15 which are re quired by each board are generated The standby 5V voltage is generated by IC202 which is an error amplifier and Q207 which is a pass transistor The power supply voltage lines supplied to each board are incorporated with transistor switches to reduce power consumption dur ing standby 6 7 3 HIGH B Regulator The HIGH B power supply is composed of IC301 IC302 PH301 PH801 Q305 T301 and T301 secondary rectifica tion circuits Like the LOW B power supply IC301 which is a PWM con trol IC is added with the control voltage by IC302 perform ing constant voltage control of the 120V line via the isolater PH301 Q305 FET which is a converter out is switched by the PWM controlled pulse by IC301 via the Q303 and Q304 buffers As a result 120V used for the voltage for the CRT heater and voltage used by the deflection high voltage out put blocks are generated 4 Protection Circuits 4 1 PFC Over voltage Protection OVP Circuit This circuit is composed o
328. e menu How to read the setting lists For purposes of explanation each setting list is preceded by a menu number These numbers are not displayed on the screen For more information about the menu number see About menu numbers on page 19 REMOTE 1 CONFIG C21 r REMOTE 2 CONFIG c22 About monitor address and group numbers The monitor control units BKM 10R 11R or control unit monitors HDM 14E5U BVM 14E5U 14E5E 14F5U I4F5E 14G5U 14G5E 14G5A are able to control up to 32 monitors connected via serial remote connector using the REMOTE 1 connector By giving each monitor a monitor address and group number it is possible to control just a specific monitor or monitor group With the REMOTE menu each monitor can be set with a monitor address and group number between 1 and 99 The ADDRESS menu is used to select a particular monitor or group by entering a monitor number or group number For information about the ADDRESS menu see Selecting the Monitor to Control ADDRESS Menu on page 49 The address number must differ from one monitor to another If two or more monitors have the same address number an operation error occurs Level 3 r MONITOR ADDRESS GROUP ADDRESS REMOTE MODE C211 _ PIN 2221 2 PIN 3 4 PIN 5 6 PIN 7 PIN 8 PIN The arrow mark gt refers you to another setting lis
329. e BK BOARD menu of the MAINTENANCE menu B Y PULSE LEVEL R Y PULSE LEVEL 1 Input the color bar signal 2 Set the CHROMA data to 1280 using the CHROMA knob 3 Connect the oscilloscope to TP504 As shown in Fig 5 10 adjust the PULSE LEVEL data so that the BLUE waveform becomes flat mmm Level difference 0 10 mV Fig 5 9 5 Connect the oscilloscope to TP104 6 Asshown in Fig 5 11 adjust the R Y PULSE LEVEL Make flat data so that the RED waveform becomes flat Level difference 0 10 mV Fig 5 10 Make flat 2 R Y Gain B Y Gain Adjustment Note The following adjustment menus are under the BK BOARD menu of the MAINTENANCE menu B Y GAIN R Y GAIN Perform this adjustment only for 1 COMPONENT SMPTE EBU N10 1 Input the color bar signal 2 Set the CHROMA data to 1280 using the CHROMA knob 3 Connect the oscilloscope to TP304 4 As shown in Fig 5 7 adjust the R Y GAIN data and B Y GAIN data so that the GREEN waveform becomes flat E GAIN gt Make flat R Y GAIN mm Level difference 0 10 mV Fig 5 11 5 5 3 096 Setup Adjustment Note The following adjustment menus are under the BK BOARD menu of the MAINTENANCE menu R SETUP G SETUP B SETUP 1 Input only the Y signal of the color bar signal Turn off the R Y signal and signal Connect the oscilloscope to TP104 3 Asshownin Fig 5 12 adjust the R SETUP data so t
330. e shortcut to the MANUAL menu of the COLOR TEMP ADJ menu to the F2 key This allows you to jump directly to the MANUAL menu corresponding to the color temperature set to the currently displayed image STD COL 1 COL 2 ON Assigns the shortcut to the MANUAL menu of the COLOR TEMP ADJ menu OFF Does not assign the shortcut to the MANUAL menu of the COLOR TEMP ADJ menu Main Menu Level 1 Level 2 SET UP C INPUT CONFIGURATION C1 REMOTE C2 PASSWORD CONFIGURATION C4 STANDB Y MODE ON SCREEN SET C5 DEFAULT CH r ALIGNMENT C6 I DEGAUSS DELAY L EXTEND MENU C7 RESIDUAL SC SW SW CONT BRT HOLD COL TEMP SHORT CUT 39 4 nue Setting the Channel Selection Method and Power Up Conditions SET UP 4 SYSTEM CONFIGURATION Menu Setting Lists of the SYSTEM CONFIGURATION Menu This section explains the setting lists displayed in the menu How to read the setting lists For purposes of explanation each setting list is preceded by a menu number These numbers are not displayed on the screen For more information about the menu number see About menu numbers on page 19 The arrow mark gt refers you to another setting list that appears after you make the setting or to an opera
331. eam Current Protector Check 4 2 5 CIRCUIT ADJUSTMENTS 5 1 52 5 3 6 1 62 6 3 6 4 6 5 6 6 8 8 2 8 3 8 4 8 5 8 6 8 7 BK Board tss teri aa ai a 5 1 Bo r ue et eeiam reete ert lame thi SASS 5 10 5 11 CIRCUIT DESCRIPTIONS BK Board Descriptions 6 1 Board Descriptioris kaa ie et et e te ree 6 3 E Board Descriptions 6 4 C Board Descriptions 5 co intet teet te em ett e eei 6 7 Power Supply Circuit Descriptions Board 6 7 Control Unit Descriptions BVM 14G5 BKM 10R 6 9 Semiconductors 7 1 EXPLODED VIEWS Bezel Cabinet 14G1A 14G1E 14G1U 14G5A 14G5E 14G5U 8 2 Card Slot 14G1A 14G1E 14G1U 14G5A 14GS5SE 14G5U 8 4 Picture Tube 14G1A 14G1E 14G1U 14G5A 14G5HE 14G5U 8 6 Bezel Cabinet 20G1A 20G1E 20G1U 8 8 Card Slot 20G1A 20G1E 20G1U 2 00 1 8 10 Picture Tube 2001 2001 200 10 seen 8 12 Control Unit BKME10R9 l 8 14 9 ELECTRICAL PARTS LIST 9 1 10 BLOCK DIAGRAM Over pact SERIO HERE RR 10 2 Overall REIR NS 10 3
332. ected set REMOTE MODE to 0 When a Sony BVM xx11 16 series monitor or a Sony PVM monitor with BKM 103 Serial Remote Interface Kit installed is connected set REMOTE MODE to and enter a number over 64 as the MONITOR ADDRESS for each connected Sony BVM xxE F G and HDM xxE series monitor 36 C221 1 8 PIN 1 2 menu Assign a function to the selected pin CH Select a channel number Enter the desired channel number with the numeric keypad Set to unused UNDER SCAN Set underscan on or off 16 9 Set a 16 9 aspect ratio on or off H DELAY Set the horizontal sync display on or off V DELAY Set the vertical sync display on or off EXT SYNC Set the synchronization to external sync signals enabled or disabled APERTURE Set the correction of frequency characteristics enabled or disabled MONO Set monochrome display on or off 1 8 PIN 2 2 menu Assign a function to the selected pin BLUE ONLY Set the blue signal pictures display monochrome on or off R OFF Set cutting red beams enabled or disabled G OFF Set cutting green beams enabled or disabled B OFF Set cutting blue beams enabled or disabled SAFE AREA ON Set the safe area display on or off CAPTION VISION Set Caption Vision on or off TALLY Set tally signals on or off DEGAUSS Set degaussing on or off POWER OFF Set the monitor power on or off 0 1 Setting the Password SET UP 3 PASSWORD Menu Over
333. eel weak electrical shock This is simply static electricity that is generated on the surface of the CRT It will not affect the human body o 9 8 3 8 9 3 3 8 5 lt 9 Overview The BVM 20G1U 20G1E 20G1A are 20 inch Trinitoron Color Monitors The BVM 14G1U 14GIE 14G1A 14G5U 14GSE 14G5A are 14 inch Trinitoron Color Monitors They are suitable for television stations or video production houses where precise image reproduction is required Features High resolution picture tube The HR Trinitron picture tube produces a clear high resolution image Aperture Resolution at the Model grille pitch center of the picture BV 20G1U 20G1E 0 3 mm 800 TV lines 20G1A BV 14G1U 14G1E 0 25 mm 800 TV lines 14G1A 14G5U 14G5E 14G5A Separate control unit BVM 20G1U 20G1E 20G1A 14G1U 14G1E 14G1A only The BVM 20G1U 20G1E 20G1A 14G1U 14G1E 14 1 are controlled by a separate control unit such as an optional BKM 10R 11R Monitor Control unit Using a separate control unit reduces the space needed for the equipment The BVM 20G1U 20G1E 20G1A can be connected to the BKM 10R via an optional BKM 32H Monitor Control Unit Attachment Kit Controlling monitor groups Up to 32 monitors can be controlled from this monitor First using the monitor menus assign a monitor address number to each monitor divide the monitors into groups and assign a group number to each gro
334. enu is used to Suami xx To cancel the remote control mode press the choose whether one particular monitor or monitor GROUP ADDRESS button group will be controlled or whether operations are to ALL be performed on all monitors together ALL POWER ON 9 o i BE DUE DUE Exiting the ADDRESS Menu 8 8 Displaying the ADDRESS Menu DISPLAY MONITOR ADDRESS To exit the ADDRESS menu press the ADDRESS DISPLAY GROUP ADDRESS 3 button or the MENU button Press the ADDRESS button SETUP RUM CBKM T0 3 5 ADDRESS Menu The ADDRESS button lights and the ADDRESS 2 menu is displayed on the screen Settings made with the menu items are as follows Item Function SINGLE Control only a specified monitor Enter the monitor address number GROUP Control only a specified monitor group Enter the group address number ALL Control all monitors ALL POWER ON Turn all connected monitors on ALL POWER OFF Turn all connected monitors off DISPLAY MONITOR ADDRESS When this item is selected each connected monitor displays its monitor address on its screen DISPLAY GROUP ADDRESS When this item is selected each connected monitor displays its group address on its screen SET UP PVM BKM 103 Transfer the INPUT CONFIG settings of a BVM monitor to a PVM monitor The BKM 103 Serial Remote Interface Kit must be installed in the PVM monitor and the monitor address of the PVM monitor must be selected using the SI
335. equired for routine service Some delay should be anticipated when ordering these items REFNO PART NO DESCRIPTION REMARK REFNO PART NO DESCRIPTION REMARK A 1135 920 A BC COMPL C47 163 231 11 CERAMIC CHIP 15 5 50V C51 163 133 00 CERAMIC CHIP 470PF 5 50V C104 164 489 11 CERAMIC CHIP 022 10 16V X 4033 106 1 PANEL ASSY CONNECTOR C105 163 231 11 CERAMIC CHIP 15 5 50V 1 526 659 00 SOCKET IC DP 28 C106 163 227 11 CERAMIC CHIP 10PF 0 5 50V 526 660 21 SOCKET IC DP 32 1 540 222 11 SOCKET IC PCC PACKAGE 84P C107 163 099 00 CERAMIC CHIP 18PF 5 50V 1 550 104 11 HOLDER BATTERY C108 163 227 11 CERAMIC CHIP 10PF 0 5 50V C109 163 038 11 CERAMIC CHIP 0 1 25V 3 648 057 00 ISO 4 U 163 031 CERAMIC CHIP 0 01MF 50V 4 050 804 01 SCREW PANEL STOPPER 164 505 CERAMIC CHIP 2 2MF 16V 4 050 814 01 SHIELD PWB 4 057 770 01 INSULATOR 112 164 505 CERAMIC CHIP 2 2MF 16V 7 432 114 11 SCREW LOCK C113 163 031 CERAMIC CHIP 0 01 50V C114 163 031 CERAMIC CHIP 0 01MF 50V 7 623 422 07 LW 3 TYPE B C115 163 235 CERAMIC CHIP 22PF 5 50V 7 685 871 01 SCREW BVTT 3X6 S C116 163 235 CERAMIC CHIP 22PF 5 50V 7 685 872 09 SCREW BVTT 3X8 S 117 163 031 CERAMIC CHIP 0 01 50V CAPACITOR C118 163 017 00 CERAMIC CHIP 0 0047MF 10 50 CI51 126 396 11 ELECT CHIP 47MF 20 16V CI 163 235 11 CERAMIC CHIP 22PF 5 50V C154 164 004 11 CERAMIC CHIP 0
336. ere fore when the beam current which makes the terminal voltage drop below the terminal voltage flows through the CRT the protector operates and shuts down the PWM control IC DRIVE and holds down the high voltage regula tor The ABL circuit serves to protect the CRT by preventing the beam current from exceeding the reference value The beam current flowing through the CRT flows to R903 of the P board VABL2 is obtained by converting this current to voltage VaBL2 is supplied to the terminal of IC901 and when it drops below the reference voltage of the O terminal ABL operates and makes the luminance consistent 6 4 DF Drive Circuit The DFX and DFY signal from the IC301 is amplified by Q301 to Q305 and T301 DFX and DFY is amplified by Q321 and Q322 to modulated the G4 and GM voltage of the CRT via the focus pack integrated with the FBT of the P board 6 4 C Board Descriptions 1 Screen G2 voltage regulator The G2 regulator circuit composed of IC601 1 2 Q601 and Q602 is controlled by the G2 control voltage from the BK board and supplies the G2 voltage which optimizes the CRT cathode voltage This board uses a high voltage obtained by rectifying the drain pulse voltage of Q555 of the E board at D555 and C558 2 Blanking Circuit The blanking signal from the BK board is amplified by IC701 clamped to 12 by D501 and supplied to G1 of the CRT 6 5 Power Supply Circuit Descriptions G Board The power supply
337. ess the ENTER or Ent button The selected item is displayed in yellow text and set to setting mode INPUT CONFIGURATION W o m AE E4 set to setting mode INPUT CONFIGURATION fi 01 FORMAT NTSC 5 SLOT NO 2 INPUT NO 1 AE SEP SLINES COMB SYNC MODE INT SCREEN MODE 4 3 NORM SAFE AREA OFF SCALE 80 APERTURE OFF VALUE 100 01 FORMAT NTSC 5 SLOT NO 2 INPUT NO 1 SEP SLINES COMB SYNC MODE INT SCREEN MODE 4 3 NORM SAFE AREA OFF SCALE 80 APERTURE OFF URLUE 085 Continued 23 o m 3 2 Basic Menu Operations 2 Set the value in one of the following three ways Enter the value directly using the numeric keypad Select the value using the UP DOWN buttons Select the value using the PHASE knob 3 Press the ENTER button The setting is confirmed The item is displayed in white text again Entering characters 1 Display the setting menu and set the cursor to NEW NAME using the UP DOWN buttons or PHASE knob CHANNEL NAME PROG EDIT UTR NEU NAME 2 Press the ENTER button 527 is displayed in yellow The 2 indicates the position where character input is possible CHANNEL NAME PROG EDIT UTR NEU NAME 24 3 Select the character you wish to enter using the UP DOWN buttons or PHASE knob When you press the UP butto
338. f IC101 1 2 Q105 Q106 and the Vpfc voltage detector R53 to R57 When the Vpfc volt age rises abnormally due to malfunctions of the feedback block for Vpfc voltage control it stops PFC operations IC101 1 2 which is the detector observes the voltage obtained by resistance dividing the Vpfc voltage at a certain percentage When the Vpfc voltage rises in malfunctions exceeds the reference voltage set it sets the output to HI As a result the latch output composed of Q105 and Q106 is passed through D102 to set the ENABLE terminal of IC31 to Low and stops the PFC operations At the same time D103 red LED is lit to inform of the error 4 2 LOW B Power Supply Protection Circuit The protection circuit of this power supply is composed of the power supply circuit for IC201 composed of Q4 Q5 Q6 IC1 PH901 Q802 Q817 etc and the following detection circuit The detection circuit detects the over voltage of the standby 5V and 15V lines The OVP circuit of the standby 5V is composed of the reference voltage IC802 detector IC801 2 4 and switch Q801 while the 15V line OVP circuit is composed of the detector IC804 The protection circuit op erates when the power supply voltage to IC201 PWM con trolled is stopped Specifically when the 15V voltage rises due to an error of the voltage feedback block and the value determined by the percentages of R825 and R826 is exceeded the output of IC804 becomes Low and Q816 is t
339. fety Replace only with the part number specified Les composants identifi s par une marque sont critiques pour la s curit Ne les remplacer que par une pi ce portant le num ro sp cifi 11 44 TO TB BOARD R101 R102 R103 R104 R105 8106 8107 RIO CN6 1 2pin 3 3 3 3k 3 3k 3 3k 3 3 3 3k 3 3k 3 3k 3 3k 3 CHIP CHIP CHIP CHIP CHIP CHIP CHIP CHIP CHIP CHIP 12V 2 TALLY 1 CN101 2P WHT S MICRO lt lt lt lt D101 D103 D105 SES apg D102 SERS aa Det D104 SER 25007 TALLY SLR 328DCT eet SLR 325DCT LEY TALLY TALLY Ba eee B SS3280 lt AEP gt YA CN201 4P OVER LOAD STANDBY POWER TB BOARD a CN6 3 6p i n POWER STANDBY OVER LOAD D203 202 D201 SLR 325MCT31 SLR 325VCT31 SLR 325DCT81 LED LED LED Y BINDI CATOR 553280 lt gt CN301 CN302 8P Y C S DIN 8P Nc T RELAY NC 2 2 NC RTS 3 3 RTS GND 4 4 GND NC 5 5 NC TXD 6 6 TXD 5V 7 1 7 5V RXD 8 8 RXD TO TB BOARD 5V CN7 B SS3280 lt AEP gt YC BVM 14G1 20G1 BKM 10R MONITOR BKM 10R CN102 CONTROL UNIT BVM 14G1 20G1 CN101 Jt GND 9P aa D SUB L TXD RXD GND 5V GND TXD RXD
340. following three ways Knob adjustment Adjust the color temperature with the bias and gain knobs manually Automatic adjustment using a probe You can use the following probes for automatic adjustment of color temperature Except for the Sony BKM 14L a cable is required to connect the color analyzer to the monitor Manufacturer Probe Model Name SONY BKM 14L no cable required GRASEBY SLS 9400 MINOLTA CA 100 PHILIPS PM 5639 THOMA TF6 For more information about the cable specification required and about the connection see Connection Cable Specifications for Color Temperature Probes on page 54 Copying other data Copying data from other B VM series monitors that have been connected via the serial remote connector or from data stored in monitor memory cards 27 o 9 8 E 8 3 E nue Adjusting Color Temperature COLOR TEMP ADJ Menu Structure of the COLOR TEMP ADJ Menu Level 1 MANUAL PROBE B1 B2 COPY B3 TRIM B4 28 Level 2 SONY BKM 14L B21 GRASEBY SLS9400 MINOLTA CA 100 4 PHILIPS 5639 1 THOMA TF6 OTHER VALUE B31 OTHER MONITOR B32 MEMORY CARD B33 ADJUST TRIM SIGNAL
341. hat the black level and setup signal level becomes equal Connect the oscilloscope to TP304 5 As shown in Fig 5 12 adjust the G SETUP data so that the black level and setup signal level become equal 6 Connect the oscilloscope to TP504 7 As shown in Fig 5 12 adjust the B SETUP data so that the black level and setup signal level become equal EN N 1 Black Setup signal Level difference 0 2 mV Fig 5 12 5 6 4 100 IRE Adjustment Note The following adjustment menus are under the BK BOARD menu of the MAINTENANCE menu R 100 IRE G 100 IRE B 100 IRE 1 Input the color bar signal Connect the oscilloscope to TP104 3 AsshowninFig 5 13 adjust the R 100 IRE data so that the 100 IRE level and 100 IRE pulse level of the signal become equal Connect the oscilloscope to TP304 5 Asshownin Fig 5 13 adjust the G 100 IRE data so that the 100 IRE level and 100 IRE pulse level of the signal become equal 6 Connect the oscilloscope to TP504 7 As shown in Fig 5 13 adjust the 100 IRE data so that the 100 IRE level and 100 IRE pulse level of the signal become equal Equalize 100 IRE 100 IRE pulse Level difference 0 2 mV Fig 5 13 5 BIAS REF Adjustment Note The following adjustment menu is under the BK BOARD menu of the MAINTENANCE menu BIAS REF Perform this adjustment only for 1 COMPONENT SMPTE EBU N10 1 Input the 20 IRE all white signal 2 Connect the
342. he unit is faced in all four directions north south east west 3 4 H Blanking Adjustment Preparations 1 Connect the signal generator and input the digital monoscope signal Increase BRIGHT until the blanking can be seen Note The following adjustment menus are under the E BOARD menu of the MAINTENANCE menu H CENTER H PHASE H BLK PHASE H BLK WIDTH H SIZE 4 3 NORMAL SCAN Mode 1 Set the SCREEN MODE to 4 3 NORM at the INPUT CONFIGURATION menu of the SETUP menu Decrease the H SIZE so that the whole left and right edges of the luster can be seen Write down the original H SIZE data Maximize 255 the H BLK PHASE data and Minimam 000 the H BLK WIDHT data Adjust the H CENTER data so that the luster comes to the center of the screen so that 5 B Write down the H CENTER data Adjust the H PHASE data so that the monoscope screen comes to the center of the luster so that C Write down the H PHASE data Effective screen gt Deflection range luster Ba Signal range H CENTER 5 B H PHASE C D Fig 1 6 3 3 4 1 3 4 Adjust the H BLK PHASE data and adjust so that H Blanking is 0 25 frame outside the right edge of the monoscope signal area Fig 1 7 Write down the H BLK PHASE data Adjust the H BLK WIDTH data and adjust so that H Blanking is 0 25 frame out side the left edge of the monoscope signal erea Fig 1 7 Write
343. he internal white signal which is used in the COLOR TEMP ADJ menu B Level 1 Level 2 Level 3 Level 4 Level 5 INPUT CONFIGURATION C1 REMOTE C2 PASSWORD C3 SYSTEM CONFIGURATION C4 ON SCREEN SET C5 ALIGNMENT C6 EXTEND MENU C7 ENTER RE LOAD FACTORY DATA SLOT CONTROL PASSWORD C711 SLOT2 SDI4 2 2 4FSC C71 SLOT6 VIDEO AMP Confirmation SLOT 7 DEFLECTION message SLOT 9 POWER SUPPLY C7111 CARD C712 BACK UP SYSTEM s RE START MONITOR C713 L ADJ INT SIGNAL C714 C7121 onfirmation RE STORE SYSTEM DATA message C7122 1 This is displayed when the BKM 21D is installed in the SLOT 2 2 The confirmation message appears Selecting OK results in resetting the data and automatically turning the monitor off and on again Selecting CANCEL results in returning to the RE LOAD FACTORY DATA C711 menu 3 The confirmation message appears Selecting OK results reading the data from the monitor memory card Selecting CANCEL results in returning to the MEMORY CARD C712 menu 44 90 1 Setting Lists of the EXTEND Menu This section explains the setting lists displayed in the menu How to read the setting lists For purposes of explanation each setting list is preceded by a menu number These numbers are not displayed on the screen For more information about the menu
344. ion of each menu Displaying the Menus Press the MENU button The menu list is displayed on the screen When you select one item on the main menu the level 1 menu corresponding to the selected item on the main menu appears The adjustments and settings which can be made with MENU WI CONTROLS RESET TB the menus are described below COLOR TEMP ADJ gt B SET UP MEMORY CARD gt D Note COPY gt E On this monitor menu settings displayed in blue STATUS cannot be changed MAINTENANCE l gt G KEY PROTECT gt Menu List Display of the main menu level Functions A CONTROL PRESET ADJ menu Sets the preset values for the input signal contrast brightness chroma and phase B COLOR TEMP ADJ menu Sets the color temperature C SET UP menus A menu group for performing monitor setup consisting of the following INPUT CONFIGURATION menu Sets the input channel REMOTE menu Sets the remote control functionality PASSWORD menu Sets passwords for menus SYSTEM CONFIGURATION menu Sets power up conditions and decoder ON SCREEN SET menu Sets data about the screen display ALIGNMENT menu Used to adjust the screen convergence and geometry EXTEND menu Loads the factory default data for the board installed Reads and writes setting and adjustment data from into the memory card D MEMORY CARD menu Operates on data in the me
345. is an outline of the operations of the high volt age regulator The detection voltage which is obtained by resistance divid ing the HV voltage with the high voltage detection resist ance HVR inside the FBT is passed through the IC501 1 2 buffer and input to IC503 IC503 compares the reference voltage of IC502 and this detection voltage difference am plification and performs PWM modulation Q551 is PWM modulated and driven by the output of IC503 The voltage supplied to the FBT drive circuit Q109 C108 C104 and FBT is controlled by the ON OFF of Q551 Next the current is supplied to the CRT and if the HV volt age drops the HV detection voltage also drops As a result the PWM output of IC503 works to expand the ON period of the Q551 switching FET The voltage switched by Q551 is passed through the combi nation choke L552 LOT and supplied to the converter cir cuit for driving FBT As the PWM modulator is synchro nized by the HV DRV pulse the size of the drain current of the FET from Q555 of the FBT drive circuit depends on the ON period of Q551 Consequently when the ON period of Q551 increases the Q555 drain current increases and the C559 potential increases When Q555 turns OFF the flyback pulse generated by the combined inductance of the LOT and FBT and the resonance of C108 and transmitted to the secondary side of the FBT to generate the HV voltage 6 2 High Voltage Protector Circuit HV is detected using the volt
346. ition of the safety area 128 to 127 COPY Select a method for copying data from elsewhere gt C16 Note For H PHASE and SAD H POSITION data if values above or below the allowable range are entered the monitor will not operate correctly C11 FORMAT menu xxCH Select the signal format COMPOSITE Composite signal gt C111 YC Y C signal gt C112 COMPONENT Component or RGB signal gt C113 SLOT NO Enter the slot number INPUT NO Enter the input connector number SEP Select Y C separation filter gt C12 SYNC MODE Select the sync signal INT Use an internal sync signal EXT Use an external sync signal SCREEN MODE Select the scan size gt C13 SAFE AREA Choose whether or not to display the safe area OFF or ON SAFE AREA SCALE Select the modes for safe area C14 APERTURE Choose whether to use aperture adjustment or not OFF or ON APERTURE VALUE Enter the aperture adjustment value 0 to 200 C1 INPUT CONFIGURATION menu 2 2 Set input signal data for each channel xxCH Current channel is indicated To change the channel enter a channel number with the numeric keypad The settings below will be stored as information about the signal to be connected to this channel FILTER Switch the filter operation OFF or ON when the monochrome display is selected CHANNEL NAME Give the channel a name gt C15
347. ject to direct sunlight excessive dust mechanical vibration or shock On cleaning To keep the unit looking brand new periodically clean it with a mild detergent solution Never use strong solvents such as thinner or benzine or abrasive cleansers since they will damage the cabinet As a safety precaution unplug the unit before cleaning it On repacking Do not throw away the carton and packing materials They make an ideal container which to transport the unit When shipping the unit to another location repack it as illustrated on the carton If you have any questions about this unit contact your authorized Sony dealer On magnetism Do not place the unit near any objects or pieces of equipment which generate magnetism such as magnets speakers electric clocks toys using magnets health appliances etc Magnetism will cause picture bounce oscillations or picture discoloration Also the picture may become fuzzy or the colors may not reproduce correctly due to earth magnetism This depends on direction that the unit is installed This is not equipment failure In such a case simply degauss the unit On the CRT Dust accumulates on the CRT easily Clean the CRT when necessary with a soft cloth The surface of the CRT is easily scratched therefore do not rub or touch the surface of the CRT unnecessarily since this may result in a scratched picture tube If you touch the surface of the CRT you may f
348. knob Q BRIGHT C BRIGHT button and knob CHROMA e CHROMA button and knob C VL PHASE button and knob Changes the items and settings on the menus 8 1 Menu operation buttons MENU button Press to display the Menus UP MENU UP DOWN buttons Press to select the DOWN ENTER items and setting values ENTER button Press to confirm the items and values entered Ent button on the numeric keypad has the same function For more information about menu operation see Basic Menu Operations on page 22 POWER lamp Lights when the monitor is put into operation mode from standby mode see STANDBY lamp by pressing the POWER switch Note When the STANDBY lamp is blinking the monitor cannot be put into operation mode internal data initialization is taking place Wait until the STANDBY lamp is steadily lit STANDBY lamp Lights when the monitor is in standby mode The monitor will be in standby mode under the following conditions The MAIN POWER switch on the rear panel is turned on the STANDBY lamp will blink for a few moments after the switch is turned on then will light The monitor is changed from operation mode to standby mode by external control OVER LOAD lamp Lights to warn of CRT overload 11 o 9 B 8 8 2 3 9
349. l menu settings CONTROL PRESET Copy the data for the CONTROL PRESET ADJ menu settings COLOR TEMP Copy the data for the COLOR TEMP ADJ menu settings SET UP Copy the data for the SET UP menu settings 47 4 nue Displaying Information About the Monitor STATUS Menu Overview The STATUS menu is used to view general data about the monitor and information about signals assigned to the slots in the rear panel Structure of the STATUS Menu Main Menu Level 1 Level 2 STATUS F STATUS 1 3 STATUS 2 3 F2 STATUS 3 3 Setting Lists of the STATUS Menu This section explains the setting lists displayed in the menu How to read the setting lists For purposes of explanation each setting list is preceded by a menu number These numbers are not displayed on the screen For more information about the menu number see About menu numbers on page 19 The arrow mark gt refers you to another setting list that appears after you make the setting or to an operation that is carried out as a result of the setting When there is no arrow mark the menu does not have any sub list F STATUS menu Select STATUS from the menu list CONTROL PRESET ADJ COLOR TEMP ADJ SET UP MEMORY CARD COPY STATUS F1 MAINTENANCE KEY PROTECT OFF F1 STATUS menu 1 3 Specify the channel block to be detected from chan
350. ll apparecchio e deve essere facilmente accessibile SNOILONULSNI 9NIIVH3dO L NOILO3S SI 701996 5141 WARNING THIS WARNING IS APPLICABLE FOR USA ONLY If used in USA use the UL LISTED power cord specified below DO NOT USE ANY OTHER POWER CORD Plug Cap Parallel blade with ground pin NEMA 5 15P Configuration Cord Type SVT three 16 or 18 AWG wires Length Less than 2 5 m 8 ft 3 in Rating Minimum 10 A 125 V Using this unit at a voltage other than 120V may require the use of a different line cord or attachment plug or both To reduce the risk of fire or electric shock refer servicing to qualified service personnel For customers in the USA This equipment has been tested and found to comply with the limits for a Class A digital device pursuant to Part 15 of the FCC Rules These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual may cause harmful interference to radio communications Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense You are cautioned that any changes or modifications not
351. lt V BLANK11 4 RD6 25B 4 N C 4 9 1 mE A PROTECTOR NC ILL 1 V SYNC 1 4 3 4 V BLANKI 0 5 9 L H SYNE j i 029 25 NC H BLANK 5 lt AFC P 1 4 374 806 258 806 258 06 258 06 258 825 NC V BLANKA PROTECTOR PROTECTOR PROTECTOR PROTECTOR has NG N C FLS lt RESET 1 4 826 NC RESET 2814 27 NC SAMPLE PULSE chip 5 2 827 NC MISO w Y MISO 174 D 5V o FL205 28 NC MOSI lt most 174 EMI 828 NC 201 0301 1201 6202 L C208 C204 C205 C206 C207 C208 C209 C210 0211 L C212 C213 C214 C215 C216 SCLK m 100 I 9 yI 100pH 100 I 100 1 100 I 100 I 100 1 100 I 100 I 100 I 100 I 100 I 100 I 100 I 100 I 100 100 29 NC ILL l 6 3V F CH 6 6 6 6 6 3V 6 3V 6 3V 6 3V 6 3V 6 3V 6 3V 6 3V 6 3V 6 3V 6 3V DIGITAL 5V INT SG 8 4 lt SCLK 1 4 1 B29 NC DIGITAL 8844 4015 Ce we we CHIP CHIP CHIP CHIP DIGITAL GND 830 NC Bes cnr d cns 410220 4 0233 41005 1 0296 af 0237 0242 480244 040245 4080 410342 1 6348 410944 DIGITAL GND dip cHip CHIP CHIP 100 100 100 100 100 100 100 100 100 100 100 10 10 10 10 31 NC N C 5 5 Arte Titer Titer trop B31 NC E epeo E 5 lt 5 5 4 4 4 4 4 4 4 4 4 4 4 4 4 J INT SG
352. mory card E COPY menu Copies set up data from other connected monitors F STATUS menu Displays the information about the monitor or options installed in the monitor G MAINTENANCE menu Menu for maintenance typically not used H KEY PROTECT When set to ON function buttons on the control unit with the exception of menu operation buttons will be disable When set to OFF key protection is removed 18 About menu numbers For purposes of explanation in this manual each menu is preceded by menu numbers The alphabet determines the classification of Menus on the Menu list Main Menu and the numbers determine the level and the order These menu numbers are not shown on the screen The CONTROL PRESET ADJ menu The first menu in Level 1 The third menu in Level 2 The fifth menu in Level 3 The fourth menu in Level 4 zm e g A1354 Only the menus which require explanation are preceded by menu numbers Thus the menu number is counted without menus which do not require explanation ADDRESS Menu In addition to the menus listed in the table the ADDRESS menu is provided This ADDRESS menu is used to select the monitor or the monitor group so that when several monitors are connected together via serial remote ports the control panel can select which monitor to control To display or exit the ADDRESS menu press the ADDRESS button The method of choosing menu items and changing settings is the same as with the other me
353. n SAFE AREA button When this button is pushed in ON a safe area is displayed on the screen 13 Ja deyo o 9 8 s 8 o lt 5 Location and Function of Parts Monitor Memory Card slot Insert the BKM 12Y Monitor Memory Card optional For information about operations on monitor memory card data see Monitor Memory Card Data Operations MEMORY CARD menu on page 46 Do not eject the monitor memory card while data is being saved or loaded Proceed as illustrated to insert and eject the BKM 12Y Monitor Memory Card To insert the BKM 12Y Monitor Memory Card Monitor memory card insertion slot Be careful not to let your hands touch the connectors on the front edge of the monitor memory card EJECT button To eject the BKM 12Y Monitor Memory Card Monitor memory card EJECT button Press the EJECT button to eject the monitor memory card Push the monitor memory card in until the EJECT button comes out Take out the monitor memory card B OPTION connector Connector for expansion 14 01 1 BVM 14G5U 14G5E 14G5A Analog input output connectors Input option slot REMOTE 1 connectors Q REMOTE 2 connector ISR connector e
354. n or turn the PHASE knob clockwise the characters and symbols appear in the order shown below A Bart a su ad 8 9 5 55 amp CH space If you press the DOWN button or turn the PHASE knob to the left the characters and symbols appear in the reverse order described above Press the ENTER button The selected character is entered CHANNEL NAME PROG EDIT UTR NEU NAME Repeat steps 3 and 4 until all the characters are entered then press the ENTER button The selected characters are confirmed and the display returns to the menu of the previous level To correct the entered character Press the Del button on the numeric keypad The character on the left side of the in yellow is deleted 91 1 Preset Adjustment of the Picture Level Control Knobs CONTROL PRESET ADJ Menu Overview The preliminary adjustment of contrast brightness chroma and phase are carried out with the CONTROL PRESET ADJ menu to set the preset values to the knobs for the above mentioned adjustments Structure of the CONTROL PRESET ADJ Menu Level 1 Level 2 MANUAL A1 FULL FIELD CB 100 AUTO 42 FF CB 75 WHITE 100 SMPTE EIA COPY OTHER MONITOR A31 MEMORY CARD 432 Preset values can be set in the following ways Adjustment with the MANUAL knobs Automatic adjustment An extern
355. n the direction arrow Three screws B4x8 Remove control panel assy in the direction of arrow 2 2 10 HA AND HB BOARD REMOVAL BKM 10R 5 HB board 8 Four control knob Three screws BVTP3x12 HA board Five screws L Two screws BVTP3x12 3 PSW3x6 p o Five screws Remove panel bracket assy BVTP3x12 2 2 11 HC BOARD REMOVAL BKM 10R 2 12 D Two screws PSW3x 6 Remove HC board in the dirrection of arrow 2 Remove H bracket in the direction of arrow SECTION 3 SET UP ADJUSTMENTS Perform the following adjustments when replacing the CRT 3 1 Preparations Required Tools and Measuring Instruments Setting of INPUT CONFIGURATION Menu 1 Signal generator Unless specified otherwise set the INPUT CONFIGURA 2 Oscilloscope TION menu of the SETUP menu as follows 3 Color analyzer MINOLTA CA 100 FORMAT eene COMPONENT YUV 4 Following specified cables for connecting RS 232C pin SMPTE EBU N 10 of CA 100 and OPTION pin of monitor SEOTNO 6 BVM Option connector side CA 100 RS 232C connector side INPUT NO 1 Mini DIN 8pin D Sub 25pin SYNC MODE INT SCREEN MODE 4 3 NORM SAFE AREA OFF CHANNEL NAME PROG COLOR TEMP STD PHASE 000 CONNECT Y
356. nd step Q 1 Select either D65 or D93 Rather than selecting D65 or D93 you may instead enter the values of the CIE 1931 color system x and y coordinates 2 Enter values for LOWLIGHT and HIGHLIGHT 3 Select START START Start adjustment gt 2111 X Enter the x coordinate Y Enter the y coordinate LOW LIGHT 20IRE Enter the luminance cd m for low light HIGH LIGHT 100IRE Enter the luminance cd m for high light D65 Use D65 setting D93 Use D93 setting B212 ANALYZE menu STD COL1 COL2 The following message appears Perform operation according to the message to enable the BKM 14L to read the color system and luminace value SET PROBE ON THIS CRT PRESS ENTER Attach the BKM 14L on the center of the CRT and press the ENTER button gt B2121 Once the BKM 14L has carried out calibration the BKM 14L can start analyze the monitor s performance B321 MONITOR ADDRESS menu STD COL1 COL2 Select STD COLI or COL2 gt Copy is carried out STD Copy common data factory setting D93 COLI Copy common data factory setting D65 COL2 Copy common data factory setting D93 B331 FILE NAME menu STD COL1 COL2 Select STD COLI or COL2 of the memory card data gt Copy is carried out STD Copy common data factory setting D93 Copy common data factory setting D65 COL2 Copy common data factory setting D93
357. nel 1 to channel 99 48 CH STATUS F11 SLOT STATUS F31 11 CH STATUS menu Data about the current channel is displayed CH channel number SL slot number IN input connector number FORMAT format of the input signal NAME channel name F2 STATUS menu 2 3 Data about the monitor is displayed MODEL NAME model name SERIAL NO serial number OPERATION TIME operation time in hours SOFTWARE VERSION software version F3 STATUS menu 3 3 Data about circuit boards installed into the respective slots in the rear panel is displayed When the BKM 21D is installed in SLOT 2 the following is displayed When it is not installed EMPTY is displayed for SLOT 2 SLOTI CONTROL SLOT2 SDI4 2 2 4FSC SLOT6 VIDEO AMP SLOT7 DEFLECTION SLOT9 POWER SUPPLY F31 SLOT STATUS menu Select the desired slot Data about the optional board installed in the selected slot is displayed MODEL NAME Model name of that optional board SERIAL NO Serial number of that circuit board 10 1 Selecting the Monitor to Control ADDRESS Menu Selecting the Monitor to Control ADDRESS Menu Overview By pressing the ENTER button after selecting the item Cancelling the Remote Control serial remote operation becomes activated Mode When multiple monitors are connected by a serial ADDRESS remote connection the ADDRESS m
358. nt color bar signal YUV SMPTE EBU N10 Connect the oscilloscope to TP101 3 As shown in Fig 5 4 adjust the Y CLAMP OFFSET data so that the pedestal and clamp offset pulse level becomes equal E k Li Make flat Occ Level difference 0 2 mV Fig 5 4 Connect the oscilloscope to TP302 5 As shown in Fig 5 5 adjust the R Y CLAMP OFFSET data so that the pedestal and clamp offset pulse level becomes equal Af rt This part Make flat qe mee Level difference 0 2 mV Fig 5 5 5 2 Connect the oscilloscope to TP502 As shown in Fig 5 6 adjust the CLAMP OFFSET data so that the pedestal and clamp offset pulse level becomes equal This part e Make flat gt 4 4 Level difference 0 2 mV Fig 5 6 5 1 2 Adjustments 2 Perform the following adjustments for each of the following five input signals Set the settings required for each signal at the INPUT CON FIGURATION of the SETUP menu When inputting the com posite signal insert the NTSC input adapter BKM 24N NTSC 25P PAL into the empty slot of the unit 1 COMPONENT SMPTE EBU NIO 100 color bar signal All white peak 700 mV B Y 700 mV p p R Y 700 mV p p 100 IRE all white signal All white peak 700 mV 20 IRE all white signal All white peak 140 mV 2 COMPONENT BETACAM SETUP 7 5 75 color bar signal All white peak 714 29 mV B Y 700 mV p p R Y 700 mV p p 100 IRE all white signal All
359. nt of the gain and bias the 100 IRE and 20 IRE signals are automatically switched EXT Use an external input signal When adjusting the gain and bias input the proper signal Note Even if NOT APPLY of the TRIM item is selected pressing the ENTER button to confirm the adjusted values results in that APPLY will be selected B21 PROBE menu STD COL1 COL2 Select the BKM 14L operation ADJUST Perform automatic color temperature adjustment gt B211 ANALYZE Display readout values on the screen B212 B31 OTHER VALUE menu STD COL1 COL2 Select STD COL1 or COL2 gt Copy is carried out STD Copy common data factory setting D93 common data factory setting D65 COL2 Copy common data factory setting D93 165 Copy the color temperature of 065 D93 Copy the color temperature of D93 B32 OTHER MONITOR menu STD COL1 COL2 Specify the address number of the monitor MONITOR ADDRESS Input the address number of the monitor from which the data will be copied B321 B33 MEMORY CARD menu Select the file name B331 FILE NAME Select the file name 81 1 B211 ADJUST menu STD COL1 COL2 To start adjustment proceed as follows When you use the previously adjusted values for adjustment you can make start adjustment by selecting START without perform operations step 1 a
360. number see About menu numbers on page 19 The arrow mark gt refers you to another setting list that appears after you make the setting or to an operation that is carried out as a result of the setting When there is no arrow mark the menu does not have any sub list C7 EXTEND menu Enter the password ENTER PASSWORD C71 When the correct password is entered the following item appears Choose the function to execute RE LOAD FACTORY DATA Restore factory default data for the board installed in the selected slot gt C711 MEMORY CARD Read and write setting and adjustment data by using the monitor memory card gt C712 RE START MONITOR Restart the monitor C713 ADJ INT SIGNAL SETUP Automatically adjust the SETUP level and 100 IRE level of internal signals C714 C711 RE LOAD FACTORY DATA menu Select a slot where a board is installed to reload factory default data to the board gt C7111 Slots you can select are slot 6 and slot 7 only When the optional board has been installed you can also select slot 2 C712 MEMORY CARD menu Insert the monitor memory card into the MEMORY CARD slot and select the operation to perform BACK UP SYSTEM DATA Write the data to the monitor memory card gt C7121 RE STORE SYSTEM DATA Read the data from the monitor memory card gt C7122 Before using a monitor memory card it must be formatted it with the FORMAT menu D4
361. nus For information about the ADDRESS menu see Selecting the Monitor to Control ADDRESS Menu on page 49 9 9 5 8 8 3 g c Menu Structure pa sS Hww6 wS sus Menu Directories Menus consist of three to five levels The Main Menus All menus including those in lower levels are shown at displayed on the Menu List and Levels 1 and 2 are the top of the explanation of each Main Menu shown below Main Menu Level 1 Level 2 CONTROL PRESET ADJ A MANUAL A1 AUTO 2 L COPY COLOR TEMP ADJ B MANUAL B1 PROBE 82 SET UP C INPUT CONFIGURATION C1 FORMAT C11 t SLOT NO REMOTE C2 REMOTE 1 CONFIG C21 __REMOTE 2 CONFIG C22 PASSWORD 3 ENTER PASSWORD C31 I SYSTEM CONFIGURATION C4 STANDBY MODE I DEFAULT CH ON SCREEN SET C5 CAPTION VISION 651 ANCILLARY DATA CH NO C52 NAME C52 L ALIGNMENT 66 ROTATION 1 3 STATIC CONV 2 3 I H RC 3 3 L EXTEND MENU 7 ENTER PASSWORD C71 20 611 Main Menu MEMORY CARD D COPY STATUS F
362. o frequency energy and if not installed and used in accordance with the instruction manual may cause harmful interference to radio communications Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense You are cautioned that any changes or modifications not expressly approved in this manual could void your authority to operate this equipment The shielded interface cable recommended in this manual must be used with this equipment in order to comply with the limits for a digital device pursuant to Subpart B of Part 15 of FCC Rules For customers in Canada This Class A digital apparatus meets all requirements of the Canadian Interference Causing Equipment Regulations Pour les utilisateurs au Canada Cet appareil num rique de la classe A respecte toutes les exigences du R glement sur le mat riel brouilleur du Canada Overview The BKM 10R Monitor Control Unit is a control unit for Sony BVM series color video monitors Use it to power monitors on and off perform menu operations and carry out monitor setup and adjustment Controlling monitor groups You can control up to 32 monitors from the BKM 10R First using the monitor menus assign an address number to each monitor divide the monitors into groups and assign a group number to each group Then you can use the 10 to control individual monitor
363. of IC205 and the signal obtained by adding level us ing the DAC output of IC205 and outputs the dynamic focus signal of the horizontal period IC151 and IC301 adds the parabola signal of the horizontal period whose level was varied using the DAC output of IC205 the sine signal of the horizontal period whose level was var ied using the DAC output of IC205 and the signal modu lated by the parabola signal of the vertical period in which the level of the two signals was varied using the DAC output of IC205 and outputs the horizontal linearity signal 5 Control Circuit The SUB CPU IC7001 performs serial communication with the system control CPU of the BC board using the three sig nals MISO MOSI and SCLK and outputs the control sig nals POWER ON DEGAUSE AFC SW H DELAY V DELAY etc according to the instructions of the system control CPU BC board It also reads the adjustment data of the EEPROM 1 7004 and output the adjustment voltage from the D A converter IC7005 In addition it also controls the waveform output from IC112 IC115 and IC118 of the D board The following protect detection signals are transmitted to the system control CPU from the SUB CPU H STOP V STOP B PROT HV OVP IK PROT HV OVP G PROTI to4 6 5 6 High Voltage Block 6 1 High Voltage Regulator Circuit The high voltage regulator of this unit uses a DC converter type power supply circuit to reduce the power consumption The following
364. on 245 digital multimeter is suitable for this job 3 Measuring the voltage drop across a resistor by means of a VOM or battery operated AC voltmeter The limit indication is 0 75 V so analog meters must have an accurate low voltage scale The Simpson 250 and Sanwa SH 63Trd are examples of a passive VOM that is suitable Nearly all battery operated digital multimeters that have a 2V AC range are suitable See Fig A HOW TO FIND A GOOD EARTH GROUND A cold water pipe is guaranteed earth ground the cover plate retaining screw on most AC outlet boxes is also at earth ground If the retaining screw is to be used as your earth ground verify that it is at ground by measuring the resistance between it and a coldwater pipe with an ohmmeter The reading should be zero ohms If a cold water pipe is not accessible connect a 60 100 watts trouble light not aneon lamp between the hot side of the receptacle and the retaining screw Try both slots if necessary to locate the hot side of the line the lamp should light at normal brilliance if the screw is at ground potential See Fig B To Exposed Metal Parts on Set AC voltmeter 0 75V 0 15uF Earth Ground Fig A Using an AC voltmeter to check AC leakage Trouble Light AC Outlet Box Onmmeter Cold water Pipe Fig B Checking for earth ground TABLE OF CONTENTS 1 OPERATING INSTRUCTIONS Operating Instructions B VM 20G1U 14G1U 14
365. onverting the data of DRIVE V in the voltage mode and the data of DRIVE IK in the current mode 1 14 Clamp Circuit 3 The voltage of the BLACK pulse of the R signal is sample held by IC117 2 3 At IC118 1 2 this voltage and the GND level are compared and the DC bias of the R signal amplifier Q174 to Q176 is controlled As a result the ped estal level of the R signal is fixed at the GND level The same is performed for the G and B signals 1 15 Cut Off Switch At IC117 3 3 the VIDEO TIMING pulse is used to switch between the R signal and cut off voltage 0 3 Vdc The same is performed for the G and B signals 1 16 VIDEO OUT Amplifier IC119 is used to drive the R signal cathode of the CRT The same is performed for the G and B signals 1 17 G2 Control Of the G2 R signal G2 G signal and G2 B signal the signal with the lowest voltage is input to IC705 1 2 compared with the reference voltage G2 REF to become the G2 CON TROL signal and output from pin of CNI to the E board through the C board to control the G2 voltage of the CRT 2 ABL Overload Detection At IC901 1 2 the ABL voltage and reference voltage 1 Vdc are compared Normally the ABL voltage is above 1 Vdc and therefore the output level of IC901 1 2 is High If the ABL voltage goes down and it becomes less than 1 Vdc the CONT BRT will be therefore controlled so that this voltage will become 1 Vdc constant The output leve of
366. oscilloscope to TP506 and V period 3 shown in Fig 5 14 adjust the BIAS REF data so that the all white peak level and BIAS REF pulse level of the signal become equal All white peak 140 mV Equalize Level difference 0 5 mV Fig 5 14 6 DRIVE REF Adjustment Note The following adjustment menu is under the BK BOARD menu of the MAINTENANCE menu DRIVE REF Perform this adjustment only for 1 COMPONENT SMPTE EBU N10 1 Input the 100 IRE all white signal Connect the oscilloscope to TP506 3 As shown in Fig 5 15 adjust the DRIVE REF data so that the all white peak level and DRIVE REF pulse level of the signal become equal Equalize A Level difference 0 5 mV Fig 5 15 5 7 5 1 3 Adjustments 3 Perform the following adjustments using the RGB input sig nals Set as follows at the INPUT CONFIGURATION menu of the SETUP menu FORMAT COMPONENT RGB SLOT NO 6 SYNC INT R Y G terminal A B Y B terminal terminal SYNC terminal 75Q terminator x 4 Component signal generator BK board TA Slot No 6 000031 Oscilloscope BKM 10R BVM 20G1 Fig 5 16 1 RGB Signal SETUP Adjustment Note The following adjustment menus are under the BK BOARD menu of the MAINTENANCE menu R SETUP G SETUP B SETUP 1 Input 100 IRE RGB signal 2 Connect the oscilloscope to TP104 Equalize 3 Adjust the R S
367. ountdown method It counts the horizontal pulses and resets using the V SYNC input to pin 5 Its functions consist of the vertical picture size adjustment V SIZE vertical picture position adjustment V POSITION vertical linearity correction V LIN and verti cal linearity balance correction V LIN BAL 2 3 Vertical Deflection Circuit The V SAW signal output from 001 is input to IC301 via the buffer IC 1 091 and to drive the V DY by IC301 3 Protection Circuits 3 1 H STOP V STOP Detection Circuit The current flowing to the horizontal deflection york is con verted to the parabola voltage of the horizontal period by C065 This parabola voltage is used to switch Q121 The C122 voltage charged by R122 is discharged in the horizon tal period by Q121 so that it does not reach the voltage for turning on Q122 When an error occurs in the horizontal de flection circuit the voltage of C122 is used to turn on Q122 since Q121 does not turn on Q122 turns off IC503 and stops the high voltage generation circuit by setting pin 8 of IC503 to Low The current flowing to the vertical deflection york is con verted to the sawtooth voltage of the vertical period by R035 This sawtooth voltage is used to switch Q132 Hereafter the operations are the same as the horizontal block 4 Correction Signal Generation Circuit 4 1 Convergence Correction Signal Generation Circuit IC201 generates the convergence correction signal It out pu
368. p x DTC144EKA HT RESET 21 0304 0307 R309 R310 2541338 5 TB RD18ESB3 rep BUFFER PROTECTOR MS 08 Q811 DTC144EKA RESET 4 7 1301 HI B We 10801 4 4 I 020017 0047 G DET1 142 2507 2501 there are two kinds of ground on this board DTC G 2 2 be careful when measuring the voltages SWITCH PWM b CONVERTER OUT PROTECTOR ENCODER p 9 5 0 5 6V 15V 120V HT RECT B SS3280 lt AEP gt G P2 G Board IC Block Diagrams MC74HC147FEL 803 ERROR AMP 1 46 ERROR AMP 2 ERROR 1 2 5 ERROR AMP 2 FEEDBACK 3 4 REF SV REG DEAD TIME CONT 4 3 OUTPUT CONT 1 COLLECTOR 2 GND 7 10 EMITTER 2 COLLECTOR 8 9 EMITTER 1 11 48 HA Board IC Block Diagram CXP2003M 201 202 16 BIT LATCH 16 BITSHIFT REGISTER DIN TO HC BOARD CN3 TO HC BOARD CN5 BVM 14G5 BKM 10R HA 14 5 BKM 10R
369. page SLOT NO 2 ENP UST Selects from YC SEP SLINES COMB SYNC MODE INT various options Indicates that SCREEN OD EE 4 3 NORM inis item has SAFE AREA OFF sub list Thus SCALE 80 you can go to APERTURE _ the lower level VALUE 1 0 0 Enters numerical values To abort menu operation Press the MENU button The menu of the upper level is displayed The setting or adjustment being performed is canceled and data loading or saving is aborted If NG or ERROR appears during menu operation Press the MENU button to return to the menu in use Choosing one of two or more selections Selecting in yellow text 1 Using the UP DOWN buttons or PHASE knob move the cursor to the desired item and press the ENTER or Ent button The selected item is displayed in yellow text and 2 Using the UP DOWN buttons or PHASE knob change the setting 3 Press the ENTER or Ent button The setting is confirmed The item is displayed in white text again Selecting from the setting list 1 Using the UP DOWN buttons or PHASE knob move the cursor to the desired item in the setting list SCREEN MODE 4 3 NORM 4 8 UNDR 16 9 NORM 16 9 UNDR 2 Press the ENTER button The display returns to the menu of the upper level and the selected setting is executed Entering a numerical value 1 Using the UPIDOWN buttons or PHASE knob move the cursor to the desired item and pr
370. placer la pile uniquement par une pile de m me type ou de type quivalent recommand par le fabricant Jeter les piles us es conform ment aux instructions du fabricant VORSICHT Es besteht Explosionsgefahr wenn die Batterie inkorrekt eingelegt wird Es nur eine identische oder eine vom Hersteller empfohlene Batterie des gleichen Typs eingesetzt werden Entladene Batterien sind nach den Anweisungen des Herstellers zu entsorgen PRECAUCION Peligro de explosi n en caso de haberse instalado incorrectamente la beter a Cambie s lo por una del mismo tipo o especificaciones equivalentes de entre las recomendadas por el fabricante Las bater as viejas se deben eliminar siguiendo las instrucciones del fabricante ATTENZIONE Pericolo di esplosione se la pila viene sostituita scorrettamente Sostituirla solo con un altra uguale o di un tipo equivalente consigliato dal fabbricante Gettare via le pile usate secondo le istruzioni del fabbricante Note The socket outlet should be installed near the equipment and be easily accessible Remarque La prise doit tre pr s de l appareil et facile d acc s Hinweis Zur Trennung vom Netz ist der Netzstecker aus der Steckdose zu ziehen welche sich in der Nahe des Ger tes befinden muB und leicht zuganglich sein soll Nota La toma mural debe estar instalada cerca del equipo y debe accederse a sta con facilidad Nota La presa di corrente deve essere situata vicino a
371. r connector Mini DIN 8 pin connector male 1 6 Signal Pin Number Signal Pin Number 45V 1 1 NC N C 2 2 NC RXD 3 3 RTS TXD 4 4 GND N C 5 5 N C GND 6 6 TXD Re 5V 8 RXD Connection cable for THOMA TF6 probe D sub 15 pin connector female 1 8 9 15 Signal Pin Number N C 1 RXD 2 TXD 3 N C 4 N C 5 N C 6 GND 7 N C 8to15 Mini DIN 8 pin connector male Signal Pin Number NC NC RTS GND N C TXD 5V RXD 55 xipueddy The material contained in this manual consists of information that is the property of Sony Corporation and is intended solely for use by the purchasers of the equipment described in this manual Sony Corporation expressly prohibits the duplication of any portion of this manual or the use thereof for any purpose other than the operation or maintenance of the equipment described in this manual without the express written permission of Sony Corporation Le mat riel contenu dans ce manuel consiste en informations qui sont la propri t de Sony Corporation et sont destin es exclusivement l usage des acqu reurs de l quipement d crit dans ce manuel Sony Corporation interdit formellement
372. rd Descriptions 1 1 BK Select Switch When the BK SELECT signal is Low the Y G signal in put to the Y G terminal TB1 is input to IC101 1 3 via the buffer amplifier Q100 and 0102 When High the Y G signal input to the terminal of CN2 is input to IC101 1 3 At IC101 1 3 the 2Y 2G signal input to the terminal of CN2 is switched The same is performed for the PB B signal and PR R signal 1 2 Clamp Circuit 1 The analog switch IC101 turns on according to the Y CLP P pulse As a result the pedestal voltage of the Y G signal is sample held At IC102 1 2 this voltage and the reference voltage Y CLAMP OFFSET voltage are compared the bias current of the Y G signal clamp amplifier Q103 to Q105 is controlled so that the pedestal voltage of the Y G signal be comes reference voltage The same is performed for the PB B signal and PR R signal However the PR signal R Y signal and PB signal B Y signal are clamped by the C CLP P pulse 1 3 WBINSERT Pulse Insertion Circuit To adjust the level of the R Y signal and B Y signal the WHITE pulse and BLACK pulse are alternately inserted in the horizontal blanking period of the signals For the Y G signal at IC101 3 3 the voltage in the period where the WHITE and BLACK pulses are inserted is made 0 Vdc For the R Y signal the WHITE and BLACK pulses are inserted at IC301 3 3 The level of the WHITE pulse is set by the R Y PULSE LEVEL voltage The level of
373. rd Waveforms 74M p p H 75 6Vp p H 67 6Vp p H A B C D 11 43 C Board IC Block Diagram TDA6101Q N3 701 CURRENT MIRROR SOURCE L MIRROR H DIFFERENIAL STAGE FOLLOWER MIRROR VP VDDL VIN GND IOM VDDH VCN voc VOF The components identified marked A are critical for safety Replace only with the part number specified Les composants identifi s par une marque sont critiques pour la s curit Ne les remplacer que par une pi ce portant le num ro sp cifi CN901 WHT MINI FBT H FBT C JW 15V GND 15V TO E BOARD CN902 HV RTN AC 15V JW 15V JW ABL IK PROT 15V JW 15V JW GND HV PROT GND HV RTN DC TO TA BOARD CN15 CN903 AP WHT MINI IK IN D901 1 RGP10GPKG23 TO PICTURE TUBE i 1 TO BOARD CRT SOCKET G4 R903 R906 1 5K 1 5K 20G1 1 8K 1 8K 14G1 14G5 TO C BOARD CRT SOCKET GM IK OUT W 15V W 15V F B T B SS3280 lt AEP gt P The components identified marked are critical for sa
374. rns the button s green LED on or off When the corresponding button is on lit you can rotate the knobs to adjust the picture s contrast brightness black level chroma and phase These buttons are also used to enter adjustment values from the menus You can use the CONTROL PRESET ADJ menu to set preset values for each adjustment item For information about the CONTROL PRESET ADJ menu refer to the monitor s operation manual Notes on using a SECAM PAL D component and component digital system The phase of component signals cannot be adjusted The phase and chroma of RGB signals cannot be adjusted PHASE CHROMA BRIGHT CONTRAST adjustment adjustment button adjustment adjustment button and and knob button and knob button and knob knob CONTRAST Inserting Ejecting the Monitor Memory Proceed as follows to insert and eject an optional BKM 12Y Monitor Memory Card For information about using data on the monitor memory card refer to the monitor s operation manual Inserting the monitor memory card esp Monitor memory card Be careful not to let your hands touch the connectors on the front edge of the monitor memory card EJECT button 3 Monitor memory card insertion slot gt Push the monitor memory card in until the EJECT button comes out Ejecting the monitor memory card Do not eject the monitor memory
375. rom R290 Q300 turns ON and the Vref voltage 5V volt age of pin 12 is input to pin 4 of PWM control IC301 via D300 pin 4 of IC301 performs duty limitation of the output pulse When voltages above 3V are supplied the out put pulse is shut off Therefore the power supply is stopped by shutting off the PWM output pulse When the OVP circuit operates the output of IC801 3 4 becomes High and the same operations are performed again 6 6 Control Unit Descriptions BVM 14G5 BKM 10R HC Board 1 Key Scan LED Lighting The SUB CPU IC1 transmits the LED lighting signal and key scanning output signal to the HA board and HB board using the serial signals MISO MOSI SCLK and receives the key scanning input signals 2 Memory Card The SUB CPU IC1 reads writes the data adjustment data etc from on the memory card connected to CN1 6 9 CAT28F020P L5 CPX2003M NJU3716M T2 TOP CXA1211M T4 CXA1521M T4 LM393S E20 LM393PS E20 LM358PS E20 LTC485CS8 E2 LTC490CS8 E2 MAX877CSA MM1026BFB NJM4558M TE2 TC4W53FU TE12R TC7W32FU TE12R TC7W74FU TE12R TLO82CPS E05 TLO82CPS E20 X25040S C7000 8765 1234 CXA1726AM T6 TOP VIEW CXA1840S CXA2026AS CXD2343S CXK58257CM 70LL T6 HN27C256AG 10 uPD71051GU 10E2 Top view CXD1030M T6 view CXD1095Q Top view FA5301BN TEL MAX202CSE T MC74HC147FEL MC74HC175F
376. rter Out Protector Encoder D 5V 6V 15 120 HT Rect 11 47 Function Control BVM 14G5 BKM 10R 11 49 Function Control BVM 14G5 BKM 10R 11 50 CPU Memory Card Driver RS422 Driver Card Address Decoder BVM 14G5 BKM 10R 11 51 Mother s mays DIE INDE 11 53 Mother iie e cree erect eere nee 11 54 11 15 Note All capacitors in uF unless otherwise noted pF uuF 50WV or less are not indicated except for electrolytics Indication of resistance which does not have one for rating elec trical power is as follows Pitch 5 mm Rating electrical power 1 4W All resistors are in ohms 1M 1000kQ 1k 1000Q wi nonflammable resistor Chip resister are 1 10W unless otherwise noted muh fusible resistor A internal component panel designation and adjustment repair All variable and adjustable resistors have characteristic curve B unless otherwise noted METAL CHIP RN RN CP resister in 196 0 596 1 4W unless otherwise specified The components identified by 94 in this basic schematic diagram have been carefully factory selected for each set in order to sat isfy regulations regarding X ray radiation Should replacement be required replace only with the value origi nally used When replacing components identified by L make the neces sary adjustments indicated If re
377. s or monitor groups simply by entering monitor address or group numbers You can also execute the same operation on all connected monitors or use the BKM 10R to put all connected monitors into the same setup and adjustment state Setup and adjustment with the monitor memory card You can use an optional BKM 12Y Monitor Memory Card to save and load monitor setup and adjustment data If your system includes more than one monitor you can use the monitor memory cards to exchange data between monitors This makes it easy to put all monitors in your system into the same setup and adjustment state Attach to 20 inch monitors You can use an optional BKM 32H Monitor Control Unit Attachment Kit to attach the BKM 10R to the BVM 20F1U 20F1E and other BVM series color video monitors Rack Mounting You can use an supplied rack mount attachment screws and an optional MB 510 Rack Mount Kit to mount the BKM 1OR in an standard 19 inch rack Location Function of Parts Monitor memory card insertion slot POWER switch 9605900059 SHIFT button Function buttons Menu operation buttons O DEGAUSS button Q9 DISPLAY UNIT connector rear Numeric keypad MANUAL adjustment buttons and knobs Q Monitor memory card insertion slot Insert an optional BKM 12Y Monitor Memory Card SHIFT button Each of the Function buttons has a Shift On function as well as a
378. se numbers are not displayed on the screen For more information about the menu number see About menu numbers on page 19 The arrow mark gt refers you to another setting list that appears after you make the setting or to an operation that is carried out as a result of the setting When there is no arrow mark the menu does not have any sub list 37 Setting Password SET UP 3 PASSWORD Menu i Fx na C31 ENTER PASSWORD menu Enter the password for the PASSWORD menu Choose what action to perform with the password CHANGE PASSWORD Change the password gt 311 APPLY PASSWORD Assign the password to menu item gt C312 C311 CHANGE PASSWORD menu Change the password ENTER PASSWORD Enter a new password C3111 C312 APPLY PASSWORD menu Choose whether or not to apply the password to each menu CONTROL PRESET ADJ Select YES or NO CONTROL TEMP ADJ Select YES or NO SET UP Select YES or NO MEMORY CARD Select YES or NO COPY Select YES or NO KEY PROTECT Select YES or NO C3111 ENTER PASSWORD menu Create a new password RE ENTER PASSWORD Enter the new password again and press the ENTER button gt The password is required To change it press the MENU button gt Return to the PASSWORD C31 38 e
379. signal at IC310 3 3 1 11 Contrast Bright Adjustment Circuit The signal is contrast adjusted by IC 112 gain control am plifier The R signal output from IC112 and amplified by Q167 to Q169 input to IC113 3 3 and the voltage of the 100 IRE pulse is sample held At IC114 1 2 this voltage and the CONT voltage are compared and the IC112 gain is controlled As a result the 100 IRE pulse and CONT voltage becomes equal Consequently by varying the CONT volt age the contrast level can be adjusted The R signal output from Q167 to Q169 is also input to IC113 2 3 Here the voltage of the SET UP pulse is sample held At IC114 2 2 this voltage and the GND level is compared to control the DC bias of IC112 As a result the pedestal level of the R signal is fixed at the GND level The DC bias of the R signal amplifier Q167 to Q169 is controlled by the BRT voltage to adjust BRIGHT At IC701 1 3 the BRT voltage is created by switching the BRIGHT voltage and BRT CENTER voltage in the period inserted with the pulse 100 IRE pulse and SET UP pulse and in other periods The same is performed for the B and G signals 1 12 Pulse Insertion Circuit At IC116 the BIAS REF pulse DRIVE REF pulse and char acter pulse are inserted in the R signal The level of the BIAS REF pulse is set by the BIAS REF voltage The level of the DRIVE REF pulse is set by the DRIVE REF voltage The same is performed for the B and G signals 6 2
380. spect ratio safe area in 16 9 screen C15 CHANNEL NAME menu xxCH Give the channel a name Select a preset name or enter a new one PROG Program signal EDIT Signal from an editor CAM Camera signal VTR Signal from a VTR NEW NAME Enter a new name Up to 20 characters can be entered and up to six characters from the head of the name are displayed in the INPUT CONFIGURATION menu C16 COPY menu xxCH Select the source to be copied from OTHER CH Copy data from another channel Enter the channel number When the input channel number is deleted with the Del button the number 1 appears instead Restore the previous setting by pressing the MENU button then re enter the channel number Setting with the UP DOWN buttons or PHASE knob is possible OTHER MONITOR Copy data from another monitor gt C161 MEMORY CARD Copy data from a memory card gt C162 C111 COMPOSITE menu xxCH Select the format of a composite signal NTSC SETUP 7 5 or 0 PAL S simple or D delay PAL M S simple or D delay SECAM AUTO The format of the input signal is detected and switched automatically 1 It will take a few seconds to detect the format of an input signal when AUTO is selected It is recommended that a particular format be selected if it is determined Even when selecting AUTO also select the NTSC PAL or PAL M format 34 e If
381. ssed together with thee button a pulse cross picture is displayed V delay button When this button is pushed in ON the picture moves vertically and a vertical sync signal appears approximately in the center of the screen The brightness of the picture increases automatically and it makes it easy to check the sync part If itis pressed together with button a pulse cross picture is displayed MONO button When this button is pushed in ON a monochrome picture is displayed When the buttons is off the monitor switches automatically between color and monochrome mode depending on the presence or absence of color burst signal APT aperture button When this button is pushed in ON the frequency response can be modified The degree of modification is set with the menu This function is available when an optional decoder adaptor such as a BKM 24N is installed COMB button Turn the comb filter on and off This function is available when an optional decoder adaptor such as a BKM 24N is installed F1 button When this button is pushed in ON the characters disappear from the monitor on the MANUAL menu of the level 2 of the CONTROL PRESET ADJ menu the MANUAL menu of the level 2 of the COLOR TEMP ADJ menu and the ALIGNMENT menu of the level 2 of SETUP menu F2 button When this button is pushed in ON you can access directly tte MANUAL menu of the level 2 of the COLOR TEMP ADJ menu if the short cut function is assigned
382. stment values has the same function as UP button By turning this knob counterclockwise the cursor moves downward In setting mode decreases the setting and adjustment values has the same function as DOWN button Ent button Executes the items selected and ENTER button settings Deletes the values and characters entered button Numeric keypad Enters the numerical values 22 Menu Operation Follow the steps described below to display the menu and perform the adjustment or setup you wish 1 Press the MENU button The Menu List is displayed 2 Using the UP DOWN buttons or PHASE knob move the cursor to the desired item Example select the SET UP menu by pressing the DOWN button MENU CONTROL PRESET ADJ COLOR TEMP ADJ SET UP MEMORY CARD COPY STATUS MAINTENANCE KEY PROTECT OFF Cursor Menu List 3 Press the ENTER button The Level 1 of the selected menu is displayed SET UP INPUT CONFIGURATION REMOTE PASSWORD SYSTEM CONFIGURATION ON SCREEN SET ALIGNMENT EXTEND MENU 4 Repeat steps 2 and 3 until the desired menu is displayed For more information about setting and adjustments see the next page 1 indicates that the menu continues onto f indicates that INPUT CONFIGURATION the menu is O1CH continued from W FORMAT NTSC 7 5 previous
383. sults do not meet the specified value change the component identified by 4 and repeat the ad justment until the specified value is achieved Refer to page 4 1 to 4 3 Checked Part replaced 14 R307 R332 R333 R336 R337 R338 IC301 1 302 PH301 G board B VOLTAGE R501 R502 R503 R504 R505 R511 12501 502 IC503 HIGH VOLTAGE R571 1 501 R901 R902 R903 P board R912 R913 IC901 BK board BEAM CURRENT R531 R532 R533 R534 R542 R543 R544 R545 R548 ICO71 C502 10531 R904 R905 R906 P board HOLD DOWN All voltages are in V Reading are taken with Component color bar signal R G B SYNC input Voltage are dc with respect to ground unless otherwise noted no mark 14G1 14G5 series and comon 20 1 series Voltage variation may be noted due to normal production tolerancd Le B B line gt signal path Circled numbers are waveforms reference 11 15 Reference information RESISTOR RN RC FPRD FUSE RW COIL LF 8L CAPACITOR TA ALR METAL FILM SOLID NONFLAMMABLE CARBON NONFLAMMABLE FUSIBLE NONFLAMMABLE WIREWOUND NONFLAMMABLE METAL OXIDE NONFLAMMABLE CEMENT MICRO INDUCTOR TANTALUM STYROL POLYPROPYLENE MYLAR METALIZED POLYESTER METALIZED POLYPROPYLENE BIPOLAR HIGH TEMPERATURE HIGH RIPPLE The components identified marked A are criti
384. t that appears after you make the setting or to an operation that is carried out as a result of the setting When there is no arrow mark the menu does not have any sub list 35 o 9 5 o m E 5 2 Assigning the Remote Control Functions SET UP 2 REMOTE Menu C2 REMOTE menu Select the type of remote control REMOTE 1 CONFIG Set the address and group number of the monitor controlled via the REMOTE 1 serial remote control connector gt 21 REMOTE 2 CONFIG Set the pin assignments for the REMOTE 2 parallel remote control connector gt C22 REMOTE 2 Select whether parallel remote control will be used or not ON or OFF C21 REMOTE 1 CONFIG menu Set the monitor address and group number MONITOR ADDRESS Enter a number GROUP ADDRESS Enter a number REMOTE MODE Select the remote mode C211 C22 REMOTE 2 CONFIG Select the REMOTE 2 connector pins for which you want to change the function The factory settings for each pin are given below gt C221 1 PIN 2 PIN 2 3 PIN EXT SYNC 4 PIN MONO 5 PIN SAFE AREA ON 6 PIN unused 7 PIN unused 8 PIN TALLY C211 REMOTE MODE menu Select a remote mode according to the type of monitors connected through the REMOTE 1 connector When only Sony BVM xxE F G or HDM xxE series monitors are conn
385. t to rain or moisture To avoid electrical shock do not open the cabinet Refer servicing to qualified personnel only AVERTISSEMENT Afin d viter tout risque d incendie ou d lectrocution ne pas exposer cet appareil la pluie ou l humidit Afin d carter tout risque d lectrocution garder le coffret ferm Ne confier l entretien de l appareil qu un personnel qualifi WARNUNG Um Feuergefahr und die Gefahr eines elektrischen Schlages zu vermeiden darf das Ger t weder Regen noch Feuchtigkeit ausgesetzt werden Um einen elektrischen Schlag zu vermeiden darf das Geh use nicht ge ffnet werden Uberlassen Sie Wartungsarbeiten stets nur einem Fachmann ADVERTENCIA Para evitar incendios o el riesgo de electrocuci n no exponga la unidad a la lluvia ni a la humedad Para evitar descargas el ctricas no abra la unidad En caso de aver a solicite los servicios de personal cualificado ATTENZIONE Per evitare incendi o cortocircuiti l apparecchio non deve essere esposto alla pioggia o all umidit Per evitare scosse elettriche non aprite l apparecchio Per le riparazioni rivolgetevi solo a personale qualificato CAUTION Danger of explosion if battery is incorrectly replaced Replace only with the same or equivalent type recommended by the manufacturer Discard used batteries according to the manufacturer s instructions ATTENTION Il y a un risque d explosion si la pile est mal ins r e Rem
386. ta V CONV data to the same value as the 4 3 NORMAL SCAN mode Check the horizontal and vertical convergence and if there is misconvergence adjust again 16 9 NORMAL SCAN Mode 1 Set the SCREEN MODE to 16 9 NORM at the INPUT CONFIGURATION menu of the SETUP menu Set the vertical convergence adjustment data V CONV data to the same value as the 4 3 NORMAL SCAN mode Check the horizontal and vertical convergence and if there is misconvergence adjust again 16 9 UNDER SCAN Mode Set the SCREEN MODE to 16 9 UNDR at the INPUT CONFIGURATION menu of the SETUP menu Set the vertical convergence adjustment data V CONV data to the same value as the 4 3 NORMAL SCAN mode Check the horizontal and vertical convergence and if there is misconvergence adjust again 3 8 G2 Adjustment Note The G2 REF Adjustment menu is under the BK BOARD menu of the MAINTENANCE menu 1 Input the color bar signal 2 Connect the R G and B cathodes of the C board to the probes of the oscilloscope and check the DC voltage of the color bar signal pedestal 20V Div 3 Connect the cathode with the highest pedestal DC volt age to the probe of the oscilloscope 4 Adjustthe G2 REF data so that the pedestal DC voltage becomes 97 0 3 0 V Pedestal 97 0 V OV Fig 1 24 C Board B SIDE Fig 1 25 3 9 White Balance Adjustment 1 Outline of Adjustments and Calibration of Color Analyzer Used for Adjustments Perform the follo
387. te the G signal The mixing rate is determined by R332 R333 and R340 The R Y and B Y GAIN is finely adjusted lt B Signal Matrix Circuit At Q540 the Y signal and B Y signal are added to create the B signal 1 6 RGB Switch The RGB signal and R G and B signals are switched after the matrix circuit 1 7 Clamp Circuit 2 The voltage of the BLACK pulse of the R signal is sample held by IC107 At IC106 1 2 this voltage and the GND level are compared and the DC bias of the R signal amplifier Q142 to Q144 is controlled As a result the pedestal level of the R signal is fixed at the GND level The same is performed for the G and B signals 6 1 1 8 Half Blanking Switch The character is half blanked by the CHAR BLK signal 1 9 100 IRE Pulse SET UP Pulse Insertion Circuit To adjust the contrast the 100 IRE pulse and SET UP pulse are alternately inserted in the horizontal blanking period of the R G and B signals For the R signal at IC110 2 3 the 100 IRE pulse and SET UP pulse are inserted The level of the 100 IRE pulse is set by the R 100 IRE voltage The level of the SET UP pulse is set by the R SET UP voltage These two voltages are switched by WHITE INSERT P by IC113 1 3 and input to IC110 2 3 The same is performed for the G and B signals 1 10 Blue Only Switch In the blue only mode the B signal is output instead of the R signal at IC110 3 3 and the B signal is output instead of the G
388. the address number of the source monitor gt Copy is carried out MONITOR ADDRESS Enter the address number of the monitor from which to copy data C162 MEMORY CARD menu xx CH Select the file name gt Copy is carried out FILE NAME Select the file name 0 1 Assigning the Remote Control Functions SET UP 2 REMOTE Menu Overview The remote control functions are set with the REMOTE menu With this monitor both serial remote control REMOTE 1 and parallel remote control REMOTE 2 are possible It is possible to simultaneously use the REMOTE 1 and REMOTE 2 provided with BKM 10R 11R the integrated control unit monitors HDM 14E5U 14 50 14 5 14F5U 14F5E 14G5U 14G5E 14G5A for control but commands from REMOTE 2 have priority Therefore it is impossible for the control panel or REMOTE 1 to change items set by REMOTE 2 There is no priority order between commands from REMOTE and the BKM 10R 11R control panel it is possible to set APERTURE to ON from REMOTE 1 and then set it to OFF with a control panel operation Structure of the REMOTE Menu Level 1 Level 2 INPUT CONFIGURATION C1 REMOTE C2 PASSWORD C3 SYSTEM CONFIGURATION C4 ON SCREEN SET C5 ALIGNMENT C6 EXTEND MENU 67 REMOTE 2 Setting Lists of the REMOTE Menu This section explains the setting lists displayed in th
389. the configuration of the connector panel BKM 26M PAL M Decoder Adaptor Includes decoders for analog composite PAL M signals and input output connectors for six analog channels The input signal type for each connector is set with the INPUT CONFIGURATION menu in accordance with the configuration of the connector panel BKM 27T Tri Standard Decoder Adaptor Includes decoders for analog composite NTSC PAL and SECAM signals and input output connectors for six analog channels The input signal type for each connector is set with the INPUT CONFIGURATION menu in accordance with the configuration of the connector panel BKM 28X Analog Input Expansion Adaptor Increases the number of input output channels Includes input output connectors for six analog channels The input signal type for each connector is set with the INPUT CONFIGURATION menu in accordance with the configuration of the connector panel BKM 48X Analog Input Expansion Adaptor Increases the number of input output channels Includes input output connectors for six analog channels For each input output connector either floating or ground can be selected by the switch inside the board The input signal type for each connector is set with the INPUT CONFIGURATION menu in accordance with the configuration of the connector panel 9 1 Connector Panel Configuration The unit comes standard with connectors for one channel of Y R Y B Y or RGB By adding optional decoder ad
390. them 49 50 82 1 Specifications General System CRT 525 lines 60 fields per second interlaced 625 lines 50 fields per second interlaced Super fine pitch Trinitron BVM 20G1U 20G1E 20G1A Aperture grille pitch 0 3 mm 90 degree deflection 30 6 mm diameter in line gun Effective picture size 387 291 mm 15 1 4 x 82 5 inches w h 483 mm 19 inches diagonal size CRT protection EHT extremely high tension protection type Warm up time approx 30 minutes Anode voltage 23 kV with no beam current Nominal chromaticity coordinates SMPTE C phosphor BVM 20G1U x y R 0 630 0 340 G 0 310 0 595 B 0 155 0 070 EBU phosphor BVM 20G1E 20G1A x y R 0 640 0 330 G 0 290 0 600 B 0 150 0 060 BVM 14G1U 14G1E 14G1A 14G5U 14G5E 14G5A Aperture grille pitch 0 25 mm 90 degree deflection 29 4 mm diameter in line gun Effective picture size 267 x 200 mm 10 5 8 x 7 inches w h 331 mm 13 inches diagonal size CRT protection EHT extremely high tension protection type Dimensions Warm up time approx 30 minutes Anode voltage 21 kV with no beam current Nominal chromaticity coordinates SMPTE C phosphor BVM 14G1U 14G5U x y R 0 630 0 340 G 0 310 0 595 B 0 155 0 070 EBU phosphor BVM 14G1E 14G1A o 14G5E 14G5A y 2 0 640 0 330 G 0 290 0 600 8 B 0 150 0 060 BVM 20G1U 20G1E 20G1A
391. there is no input connector or decoder corresponding to a format that format will not be selectable the cursor will skip over that entry C112 Y C menu xxCH Select the format of a Y C signal NTSC SETUP 7 5 or 0 PAL S simple or D delay PAL M S simple or D delay AUTO The format of the input signal is detected and switched automatically 1 It will take a few seconds to detect the format of an input signal when AUTO is selected It is recommended that a particular format be selected if it is determined Notes Even when selecting AUTO also select the NTSC PAL or PAL M format e If there is no input connector or decoder corresponding to a format that format will not be selectable the cursor will skip over that entry C113 COMPONENT menu xxCH Select the component signal format or RGB YUV SMPTE EBU N10 YUV BETACAM SETUP 7 5 or 0 RGB C114 SDI menu xxCH Select the format of the serial digital signal NTSC SETUP 7 5 or 0 PAL S simple or D delay 4 2 2 AUTO The format of the input signal is detected and switched automatically 1 It will take a few seconds to detect the format of an input signal when AUTO is selected It is recommended that a particular format be selected if it is determined If the serial digital signal is not properly displayed in SDI AUTO mode re enter the channel number C161 OTHER MONITOR menu xxCH Enter
392. tion for the channel number gt C53 CH NAME POSITION Select the display position for the channel name gt 53 C51 CAPTION VISION menu Select the caption display mode OFF Not displayed CAPTION 1 Displayed in Caption 1 mode CAPTION 2 Displayed in Caption 2 mode TEXT 1 Displayed in Text 1 mode TEXT 2 Displayed in Text 2 mode C51 CH NO or CH NAME menu Select the channel number and channel name display mode AUTO Disappear after displayed for a while ON Displayed OFF Not displayed C52 CH NO POSITION or CH NAME NAME POSITION menu Select the display position TL Top left TC Top center TR Top right BL Bottom left BC Bottom center BR Bottom right 41 nue nua Overview The ALIGNMENT menu is used for adjusting convergence and geometry Structure of the ALIGNMENT Menu Main Menu Level 1 Level 2 SET UP CH INPUT CONFIGURATION REMOTE 22 PASSWORD C3 r ROTATION 1 3 SYSTEM CONFIGURATION C4 i ON SCREEN SET C5 I H STATIC CONV 2 3 I ALIGNMENT C6 EXTEND MENU C7 H CV RC 3 3 Setting Lists of the ALIGNMENT Menu This section explains the setting lists displayed in the menu
393. tion that is carried out as a result of the setting When there is no arrow mark the menu does not have any sub list C4 SYSTEM CONFIGURATION menu Set each of the various items STANDBY MODE Select the power up condition when the MAIN POWER switch is turned on OFF or ON DEFAULT CH Select the power up input channel LAST or CH xx DEGAUSS DELAY Set the time between power up and the beginning of degaussing Enter the desired time in seconds RESIDUAL SC SW Switch the residual switch OFF or ON ACC SW Switch the ACC switch OFF or ON CONT BRT HOLD Select the contrast and brightness settings to the center or adjusted value after adjusting the white balance or auto adjustment of CONTROL PRESET OFF or ON COL TEMP SHORT CUT Assign the shortcut function to the MANUAL menu of the COLOR TEMP ADJ menu to F2 key OFF or ON 40 cl Setting the Screen Display SET UP 5 ON SCREEN SET Menu Convergence Adjustments SET UP 6 ALIGNMENT Menu Overview The ON SCREEN SET menu is used to select the type of information that will be displayed on the screen and how that information will be displayed The types of information that can be set are as follows Structure of the ON SCREEN SET Menu cs Caption vision SDI signal ancillary data blanking when using the BKM 20D 21D
394. to this button ADDRESS button When this button is pushed in ON the ADDRESS menu appears on the screen By using the ADDRESS menu operation conditions for multiple monitors are set For more information about the ADDRESS menu see Selecting the Monitor to Control ADDRESS Menu on page 49 12 6 1 SHIFT ON LEDs of function buttons in orange 16 9 MONO APT COMB F2 SYNC BLUE ONLY ADDRESS AREA 16 9 button When this button is pushed in ON the aspect ratio changes to 16 9 and when set to OFF the aspect ratio changes to 4 3 SYNC button When this button is pushed in ON the monitor synchronizes to the sync signal input to the SYNC connectors on the rear panel EXT SYNC When set to OFF it synchronizes to the sync signal included in the signals being monitored INT SYNC When INT SYNC is selected use a component or YC signals including a sync signal on the Y signal and use RGB signal including a sync signal on the G signal To monitor serial digital signals select INT SYNC BLUE ONLY button When this button is pushed in ON red and green signals are cut and only the blue signal is displayed as a monochrome picture It makes it easy to adjust CHROMA and to check VTR noise R G B buttons When these buttons are pushed in ON R red G green and B blue beams are cut respectively F3 F4 buttons For future expansio
395. ts the vertical convergence correction signal horizontal convergence correction signal of the vertical period H STAT adjustment voltage landing adjustment voltage and parabola signal of the vertical period IC202 and IC204 consist of the circuit generating the sawtooth signal of the horizontal period and the integral circuit They output the sawtooth signal of the horizontal period parabola signal and sine signal IC701 is an integrated circuit consisting of a multiplier sig nal switching circuit and OP AMP amplifier IC703 is DA converter which outputs the d c voltage IC701 modulates the parabola signal of the horizontal period using the parabola signal of the vertical period varies the level using the DAC output of IC703 and outputs the horizontal convergence cor rection signal of the horizontal period IC703 outputs the rotation adjustment voltage 4 2 Horizontal Linearity Correction Signal Dynamic Focus Signal Generation Circuit IC151 and IC301 an integrated circuit consisting of a multi plier signal switching circuit and OP AMP amplifier IC205 is a D A converter which outputs d c voltage IC301 varies the level of the parabola signal of the vertical period using the DAC output of IC205 and outputs the dynamic focus sig nal of the vertical period It also modulates the parabola sig nal of the horizontal period using the parabola signal of the vertical period whose level has been varied using the DAC output
396. up Then you can use this monitor to control individual monitors or monitor groups simply by entering monitor address or group numbers You can also execute the same operation on all connected monitors or use this monitor to put all connected monitors into the same setup and adjustment state 1 Trinitron is a registered trademark of Sony Corporation 4 Setup and adjustment with the Monitor Memory Card You can use an optional BKM 12Y Monitor Memory Card to save and load monitor setup and adjustment data If your system includes more than one monitor you can use the monitor memory cards to exchange data between monitors This makes it easy to put all monitors in your system into the same setup and adjustment state Standard auto alignment system Decoder chroma and phase adjustment as well as color temperature control may be performed with the auto alignment system This makes it possible to coordinate settings among multiple monitors Expandable input capability The input connector configuration may be easily modified by simply sliding optional decoder adaptor or the input expansion adaptor into input option slot at the rear of the monitor 4 3 16 9 dual aspect ratio design This monitor can be changed to either 4 3 or 16 9 aspect ratio with just a simple switching operation The screen can be also changed to 4 3 or 16 9 display by the replacement of a mask no tools required Stable color temperature The internal beam c
397. urned OFF via D810 to turn OFF the transistor in PH803 As a result Q4 and Q5 turn ON Q6 goes OFF so that no power supply voltage is supplied to IC201 and PWM operations stop When the OVP circuit of the standby 5V works Q802 is turned OFF and the same operations are performed At the same time D4 red LED is lit to in form of the error 6 8 4 3 HIGH B Power Supply Protection Circuit The protection circuit of this power supply is composed of the PWM control pulse shut off circuit composed of Q300 Q301 PH802 Q814 Q815 etc and the following detection block The detection circuit is composed of the 120V OVP and OCP over current The OVP circuit is composed of the de tection block IC801 3 4 and latch block Q806 and Q807 while the OCP circuit is composed of the detector IC801 4 4 latch block Q809 and Q810 The reference voltage used is shared with IC802 Taking the OCP circuit as an example to describe the circuit operations when the 120V current increases due to load problems etc the voltage of the R339 current voltage con version resistor also drops significantly and the voltage value observed by IC801 4 4 also drops When the voltage value drops below the value obtained by resistance dividing by R819 and R820 the detector IC801 4 4 output becomes High turns ON the 0809 and 0810 latch via D810 and turns ON Q815 to turn OFF the transis tor in PH802 As a result Q301 is turned ON by the current f
398. urrent feedback circuit maintains a constant color temperature over long periods of time Blue only mode convenient for monitoring noise All three CRT cathodes can be driven with a blue signal producing a monochrome display This mode is convenient for chroma and phase adjustment and for monitoring VTR noise Menu operation The monitor s various functions and operating conditions can be set with on screen menus 8 1 Other features Compatible with the ISR Interactive Status Reporting system Has both RS 485 serial remote and relay contact parallel remote control connectors Built in safe area display and test signal generator for crosshatch 10096 white signal 2096 gray signal gray scale and PLUGE Picture Line Up Generating Equipment Built in Caption Vision decoder Pulse cross function for simultaneous checking of the horizontal and vertical synchronization signals VITS Vertical Interval Test Signal checking is also possible Auto and manual degaussing Built in CRT protection circuit This monitor may be mounted in an EIA standard 19 inch rack using an optional BKM 30E20 30E14 31E14 Rack Mount Kit Controllable from the optional BKM 10R 11R Monitor Control Unit For details about connection and operation refer to the BKM 10R 11R Operation Manual Options For external control BKM 10R 11R Monitor Control Unit A controller for this monitor and other BVM series video monitors
399. view A four digit password can be specified and applied to desired menu options to prohibit the menu settings from being changed without permission The password is set with the PASSWORD menu A password is always assigned to the PASSWORD menu factory setting 9999 A password for a service man can be created with the MAINTENANCE menu Use of the password The message ENTER PASSWORD is displayed when an attempt is made to select a menu item for which the password has been applied Then enter the password using numeric keypad If the password is not entered correctly If an incorrect password is entered the display returns to the menu of the previous level Structure of the PASSWORD Menu cs Level 1 Level 2 Level 3 Level 4 Level 5 INPUT CONFIGURATION Ci REMOTE C2 PASSWORD C3 ENTER C31 CHANGE SYSTEM CONFIGURATION C4 PASSWORD PASSWORD C311 ENTER RE ENTER ON SCREEN SET C5 ALIGNMENT C6 EXTEND MENU C7 PASSWORD C3111 PASSWORD APPLY PASSWORD C312 CONTROL PRESET ADJ OLOR TEMP ADJ SET UP MEMORY CARD COPY KEY PROTECT Setting Lists of the PASSWORD Menu This section explains the setting lists displayed in the menu How to read the setting lists For purposes of explanation each setting list is preceded by a menu number The
400. wing adjustments 1 1 Creating the parameters used for converting the CRT RGB drive voltage into color temperature coordinates This monitor is equipped with a function for copying color temperature between several monitors Because the CRT drive voltage depends on the CRT the same color temperature will not be attained amongst sev eral monitors even if the same drive voltage has been supplied For this reason to copy color temperature between sev eral monitors it is necessary to send the required data using parameters which do not depend on the CRT such as the xyY color temperature coordinates Select and execute the SYSTEM COLOR TEMP FAC TORY SET menu on the MAINTENANCE menu The D93 color temperature will automatically be adjusted and at the same time the drive voltage and color tempera ture coordinates conversion parameter will be created Use this parameter for copying the color temperature to other monitors and for copying the color temperature to the memory card CRT drive voltage CRT drive voltage I T Color temperature coordinates Color temperature coordinates Transmission of data Fig 1 26 1 2 D65 D56 Color Temperature Adjustment Perform 056 adjustment only for BVM 14G1U 14G5U 20G1U 1 3 Copying Color Temperature Data D65 D93 D56 to Color Temperature STD COL2 AUX 3 12 Calibration of Color Analyzer Generally to measure the color temperature of a monitor using several
401. y the menu etc 4 Parallel Remote Control The input signal of CN5 parallel remote control terminal is read by IC5 I O PORT EXPANDER 5 ISR Terminal The CPU IC1 carries out communication with the ISR de vices via IC23 serial control unit and IC27 and IC28 RS232C transceiver 6 Serial Remote Terminal The CPU IC1 carries out communication with the remote devices via IC22 serial control unit and IC25 and IC26 RS485 transceiver 7 Communication with Control Block HC Board The CPU IC1 carries out communication with the control block HC board via IC14 RS422 transceiver receives key input information and the memory card reading data and transmits LED light information and the memory card writ ing data 6 3 6 3 E Board Descriptions 1 Horizontal System 1 1 H DELAY Circuit IC621 is composed of the circuit generating the sawtooth signal which uses the H SYNC of the input signal as the trigger and the integral circuit It outputs the signal obtained by adding the sawtooth signal and parabola signal which syn chronize with the input signals IC622 compares this signal with the reference voltage and outputs the rectangular wave The falling edge is deviated by about 1 4 of the horizontal period from the input signal Therefore in the H DELAY mode the signals are synchronized after a delay of about 1 4 horizontal period 1 2 AFCCircuit IC001 is a CRT driver and performs RGB signal processing syn
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