TC-29FJ30LA - selek.com.br
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1. w gt 5 Q 23 3 5 M 9 9 O AO 2 z Z O 4 lt lt w w Qu 7 9 2 ON Qa qe OW ON zm LINDYID 189 m secu ool 6 9tdNl CD ia e 185 loossr 001 B I00000308V LA AL coro 2068 00000998015 ggg J nace 10 L0900sz 00000338V18 RY 10910900652 4 00000228VI8 gt 00000958 G00000308VL8 L060 100000338vi8 Ses t L6CO 055 2060 nls 14669 1063 5 0 Mf O 6 00000328VI8 JNOO0LEZVA 2191 lt 00000230v18 D 088 0680 3 S0000686v808 1OHZSLXCYW 9688 5 406 25 2 BEER R SEA mro 10 60 0852 M 1 LINOSIO WA Divi OLVSE a ct ga T 58 AOL 6101 SH 944 JOXZGLXEVW SESUJ ZYSKA 00 1 T n zzo0060WXAYO YZ L est HU 6863 AQL L 1042 LXSYW 10 1090952 6965 M 9401 RSE eged 00000258V18 8 2965 igi oe xz 00000328V18 gt 1 F 1 p 7 6 7 1864 1960 ATZ 262 ose 866X Al 10 1090052 8965 00000928 8 Lo 95995015 C96 022 pa 8 0 OCZ 0 6 0688 2468 R lt YU 8 4 NW H nozz 09 1 4 Rot a E rh 1 TOGB 9969 U y wz L LG 096 1464 0 us lw 8710548 3077 MU O lt gt 0 C 1 1 964 gel eel 901 10 1090052 hes 7 m Dd m 8264 7 00000228V18 81610565252 O 00000328V18 9G62. UOISIAS 9 EJOSEJ BISIA ugisieje e Ieluold BS TC 29FJ30LA M 601 PINOUT Symbol Pn Beseipin port 0 5 8 mA current sinking capability for direct drive of LEDs port 0 6 8 mA current sinking capability for direct drive of LEDs or Composite video input A positive going 1V peak to peak input is required SECPLL 8 SECAM PLL decoupling VP2 19 2nd supply voltage TV processor 8V phase 2 filter bandgap decoupling VSC QSSO AMOUT QSS intercarrier output AM output in stereo applications or deemphasis AUDEEM 1 front end audio out AM output in mono applications m EHTO PLLIF SIFAGC NTCO IFVO SVO 1 HT overvoltage protection input PLL loop filter GC sound IF intercarrier output from QSS or vision IF amplifier F video output selected CVBS output main supply voltage TV processor internal CVBS input ground for TV processor external CVBS2 input round for TV processor VBS3 Y input chroma input white stretch capacitor CVBS output audio output AM audio output volume controlled scan velocity modulation output 2nd RGB YUV insertion input 2nd R input V R Y input PR input nd G input Y input nd B input U B Y input PB input eam current limiter input ack current input V guard input ed output reen output CVBS1 0 Z CVBS2 2 Z CVBS3 Y WHSTR CVBSO AUDOUT AMOUT 8 NSSW2 R2 VIN G2
3. 22222 2 lt 4 lt uirum born orn OE 14 14 VERTICAL DEFLECTION CALIBRATION 15 15 WITHE BALANCE CALIBRATION enm RII 15 EEPROM MEMORY MAPS 16 SCHEMATICS DIAGRAMS MAIN PCB SCHEMATIC DIAGRAM 18 CRT PCB SCHEMATIC DIAGRAM pp 19 PCB SCHEMATICS DIAGRAMS 20 EW PCB SCHEMATICS DIAGRAMS 21 YUV PCB SCHEMATICS DIAGRAMS 22 YC PCB SCHEMATICS DIAGRAMS acasos sas aaa 23 MAIN PCB LAYOUT za Z AAAA 25 SIGNAL 26 EXPLODED VIEW M O nda dns 30 PARTS LISTS REPLACEMENT MECHANICAL PARTS LIST 31 REPLACEMENT ELECTRICAL PARTS LIST 32 General Guidelines An Isolation Transformer should always be used during the servicing of a receiver whose chassis is not isolated from the AC power line Use a transformer of adequate power rating as this protects the technician from accidents resulting in personal injury from electrical shocks It will also protect the Receiver from being damaged by accidental shorting that may occur during servicing When servicing observe the original lead dress especially in the high voltage circuit Replace all damaged parts also par
4. 7 2 Z 2 am a o c 4 O LE M E Q Q ye 5 2 gt 0 0 7 EX E d 56 RE RR z Z 2 0 ii 2 02 5 zt a lt 5 gt x a 2 5 2 7 4 o A Z 9 gt 8 5 us d 2 z 5 4 0 6 o 6 46 X 6 x X a 6 gt z gt lt 6 a 6 u u 6 5 3 2 1 20 19 18 17 16 15 14 7 5 2 4 3 Z 6 8 5 2 ag 9 8 652221 DALRA BEES EE AV2 V V 4 12 7 1 2 5 PE Q TPA 0 0 2 o 5 u G o 4 x x 5 LJ a R1108 3 100 Q TPA2 5 6 a Dl l A22 x spi SCL SCL RIGHT 1 R CUF 5 005 SDA C3 SDA 5 1007 8 l lz L OUT1 R110 5 6k 5 8 gt SP2 L OUTO 4 T R820 E EN STB5V a E 2 wjisg R3133 SP004 5 gt Ag 1 16V 238 C3136 1 R1122 R1114 d e vee d 10u 50V 0 01u ON OFF IN 3 3k pes R1120 8k O Q1110 0 4 3K 81116 RED iz 2 GND C1125 8606 pai T zje ig x sj 7 3 3V R2104 R OUTO 3 NR sm J Bak gu GREEN So 629 1k 182131 HO OUT 0 MA3X152KOL 5 5k 6635 1 2 21 1 1 1 ls T ES 1 0 1u SOV BOBA5 DAN212KT146 25 hd So 92 gt 1 0 100 m Tou SV gt R1118 12132 FH 330 BLUE R604 5 5 Bop G CT8KA0004 5 100 20 COCBABCO0037 200000006 5 E 5 o SVM C o o gt f n U 476 56 R21
5. BTL 0 lt 0 5 0 1u R620 16V 24 5 68 AA 41 1 i ous 8 50V 11 j 9 4 9 5 9 9 9 rh ONE CH SEEEEEEEEEEEEEEE 75 NC 50V 10 R190 H3 19 iV 390 C2116 iid L3016 QIF 50 104 EXCELSA39V AV1 1 C2113 IF L170 56 10u R3048 R3015 T Q170 2381 180k 100 02381 R617 MA3X152KOL 10u 200P w DAN212KT146 YUV2 1 ad R170 FH 16V 1 CO 330 R612 Q 60 1 R182 L182 JS184 10229 R2381 93031 1 R2112 R2115 R172 1k con E ee eee S 100u 1k 2 Q3033 899 RU 5 J3037 ji 2 E cine Q2110 EXCELSA39V AV1 R x E 130P ur 2230 1 3307 Q211 fes CVBS OUT FA Cs T e KI 25 1255 12 R3010 L185 2SA1037AKT 1 252138 L 3813030 R3036 Q3030 180k 100 M OUT V RTS R186 MA X152KOL T C2110 0 560 220 o MASA 4 50V 2111 560 50V R3030 MON L i 3300P 3300P 180 X184 MON R 5 VOUT R ak R3035 3021 e tu ROUT K 5002 C3045 R3012 8 R3033 M 180K 16V ih A 05410 LOUT E z O lt gt O d C3037 R591 ta C842 10k 7000p 1 VA X152E0 R59 R583 BV Fr R584 R592 56k 4 U 159 3 R589 R587 R582 140V 6 10k 82k 150k 1 0 MASK152KOL 2 2 4 D580 21 552 1980 310000 BOHAJPO00015 601 51 801 1 851 RL801 AST ols CO 2 K6B1CDA00027 jessti 0581 R REGE Pino Tensao Pino Tensao Pino Tensao Tensao s i c5goL 25A1235A 112 2 R581 560k 1100 7 3 3 4
6. pA 26 13 66 33 V1 C827 Sk D850 01000001 D860 Dind C 26 1 3 3 3 V1 2 18u R415 E NE m 110 TOSMY P2 5 R50 R868 d 2 IC802 SUM 100 P 7 T ips o 8 4 29 137 69 5 1 8 3 1 5 STBY 1500 D557 560 PUMR UP D558 Tad gt sojos 70 32 56 11 C880 C881 C5Q A DEM S eus 1 1800u 1 D586 0407 190 0 Tis la As foram efetuadas em modo S1 12 POWER ON com tens o de rede de 127V 82 15 R409 R402 V SAMICE 49 v os 55 9mV 60Hz e sinal Padr o de Barras Coloridas S3 17 D D863 R871 BA 18 na 34116 74 70 gt T 35 15 75 00 R867 E 556 recs 198mV 3 7 2004 Panasonic da Amazonia S A Q852 ES ST ON EW MIC 37 04 77 0 Divis o CS 8864 BOBA3R500006 gt 27 78 0 Suporte T cnico 3918 79 0 H 6 5 3 2 4 8 6 5 4 3 2 4 40 39 8 6 80 O 55 gt 5 9 9 2 9 5 5 ORDEM DCS DEZ2004 001 MS 18 TC 29FJ30LA SCHEMATICS DIAGRAMS L P C B SCHEMATIC DIAGRAM
7. te e zz bows Um A 33 4 0 0 37 10 57 000004 77 0 H3 470p gt 212mV 3 8 15 6V 10 5V Tm 3 2 43 14 R840 77 2 580 3 s i Rc f 4 0 japs Te C 4 JS504 n R530 R 5 1256 45 0 5 67mv C840 2kV RV 3 V 4 470p 6 2 1 330p 97 5m 6 3 6 BY 6 16 5V L852 C853 T le To fap 0 3V AG 1 23 874 R875 0856 IC451 2 3 48 3 5 680 Qu Ra 10k BOBA7R500006 3 8 L817 V 50V gt Hor opem e a 9 8 49 44 C814 gt 220 2 TPA10 THERMAL C516 55992 1816 C817 0854 T 1 PROTECTION 25V A5 REFERENCE OUTPUT 1 0520 Tek 90V 77 D516 1516 0 ii 12 9 52 7 E 2 215 112 49 152 27 4 2 GS aa qos sos cas T 12310 53 27 7 3 CO Xo 4 E XE SH e 5 a GND DISABLE 1 l 3k 2559 E ET 5 0 47 BOHAJLO00001 GND TPA9 17 57 3 6 RB17 G C1R5KA0030 5V Mn ee cae v 9 9 18 19 98 4 w 9 C851 o 1424 u 3 3 ers28uv136 0 na 0 DEFLECTION 20 39 60 70 72 C830 2200u SOV R863 T C408 VL AW 1 ar 1 a alu p 146 7mV 62 28 5mV o dd mT HH 181 3mV 1801 QL L Q400 X RAY PROTETOR CIRCUIT Tensa AN P 0 9 181 3mV 64 1 9 no Tens o B08AC2400029 R414 C406 id 25 65 V2 1 D SU 140V 5 220 u
8. TUNER GND AV2 JK3101 K4BK07B00007 TC 29FJ30LA EW CIRCUIT CEWDTNP4G343 1 BAO1000052 5 MA2C165001VT MA2C165001VT 0 6 R707 0 MA2CO29WAF D7 BO wv 0704 0708 V D706 0701 MA2C165001VT 8 0 26V QU 1 25 O gt DO NOO acr Os L704 3 3m a aw 703 20 L705 1m MPL OUT1D 7 COMB IN2 8 201 2 2SA1037AKT 25B0 09AOL PIBIADCCO00004 OUTPUT 205 a N R712 6 2k Q701 4 GND kK 2 O Di 7121 OI U E EW P C B SCHEMATIC DIAGRAM IN 8 x 5 C NO MO O WO oo NO MO O MO LI LI O 2 3 gt Z Z 00 N co E GND GND EW IN TC 29FJ30LA M YUV P C B SCHEMATIC DIAGRAM AGC LU HZZ A ecoa L LEZCI ACT z uL LLL 4802 2 ro 56098 8 pm 2 A ds S 0 af 06087813 a 67510 L6ZEO Ogceo L ACS 976 gzcy 6879 LL 22 AGZ 1 Gy Lom 029 UE ZI E 6LZ M GO 9 9 22 1 biz dd zj Pl eee AS 190 o EA 4 SS OBZEO 2750 l R AZS ALY czzcy AOS 6 0 est TP ane CELSO ANNOS A o9cesr o 8 9 MPE 110 ANA G Lv 9vdNL ET Gia C O NV 09251 W e am za OCOOYAZ BO09D 00 19791 22 P C B SCHEM
9. R1010 al 270 0 D1010 B3AGA0000089 R1013 R1011 RIO 2 2k C R1012 Q1011 60k 5 4 B1ABCE000005 C 25004000 7 7 lt Q1012 AX 17 B1ABCEO00005 B1ACCO00004 2SD0601A0L e 856 C837 1000pl 1500p e 0835 1831 15826 L832 ERZV10D621CS TLP4GD020 TLP4GD020 z O One 0 lt 0 AC CORD SO ANT ZN F840 Ro 08 C838 98 ZN K5D502BK0003 0 22u 022u 840 O ESB92DA1B JS829 ZN e O lt gt 0 L832A TLP4GD016P JS830 K4 JS836 0 lt 0 12 D K6 1 o 2L 0836 TAP4GA0009 D4DDD1200001 TO DEGAUSSING K7 2 4 1 O lt gt 0 JS838 HO 6 zz D837 TAP4GA0009 al D4DDD1200001 JS839 O lt gt 0 sole C3102 560p 50V CK TN 46 540 1 ZN FRONT CIRCUIT 17 7 Nn an Oq 2 6 2 OW 9 m K17 L3106 EXCELSAT35T C3103 560p 50V e 8 R3110 100 77 PT 148 R SW B R3111 L G 100 HO e o 77 V 77 Psp 6 L M zm JS3104 3 5 NP 9 50 5 N C3107 10u 4 R3106 470 JS3105 NP C3108 10u 16V K16 1 ro GND 2 O R OUT 3 6 R SW 4 9 GND 5 171 8 6 6 L SW 7 o 10V 8 1 0 TUNER GND 9
10. parts to prevent X ray radiation shock fire or other hazards Do not modify the original design without manufacturer s permission Contents OPERATING INSTRUCTIONS nit cian lalka ol EE AEG 4 IC601 PINOUT oco A ds es orga 5 IC VOLTAGE TABLES A O AE P 6 IC601 BLOCK 7 GPS CHASSI FEATURE SUMMARY assess EE Se 8 THE DAC CONTROL FUNCTIONS FOR THE CHASSIS 9 SERVICE MODE HOW TO ENTER IN THE SERVICE 9 TO EXIT SERVICE MODE AND RETURN TO NORMAL MODE 9 ADJUSTMENTS CHK1 CHK2 CHK3 and CHK4 ADJUSTMENTS OPTIONS 9 10 TEST AND MEASUREMENT EQUIPMENTS REQUIRED 10 1 11 2 VIF DETECTOR OUTPUT LEVEL CONFIRMATION 11 3 BUZZING CONFIRMATION AUDIO CIRCUIT 11 4 ANODE AND HEATER VOLTAGE CONFIRMATION 11 5 PAL COLOR OUTPUT LEVELADJUSTMENT 12 6 NTSC SUB TINT 12 7 PROTECTION CIRCUIT SHUTDOWN OPERATION 12 8 SUB BRIGHTNESS AND SUB CONTRAST CALIBRATION 15 9 FOCUS CALIBRATION 4 13 10 COLOR PURITY ADJUSTMENT 13 11 WHITE QUALITY CALIBRATION erm 14 12 CONVERGENCE CALIBRATION eem 14 13 CRT GUT
11. 00 PF 50 0 V CERAMIC CAP 150 00 PF 500 0 V ELECTROLYTICAL CAP 10 00 uF 16 0 V ELECTROLYTICAL CAP 10 00 uF 16 0 V CERAMIC CAP 10 00 nF 500 0 V CERAMIC CAP 560 00 PF 50 0 V ECA1CMH221B CERAMIC CAP 10 00 nF 500 V ELECTROLYTICAL CAP 10 00 UF 16 0 V F2A1C2210044 ELECTROLYTICAL CAP 10 00 uF 16 0 V ECJ2VF1C105Z ELECTROLYTICAL CAP 22 00 hF 16 0 V ELECTROLYTICAL CAP 22 00 uF 16 0 V ECJ2VC1H331J CERAMIC CAP 330 00 PF 50 0 V CERAMIC CAP 1 00 pF 25 0 V F2A1C101A180 ELECTROLYTICAL CAP 330 00 uF 16 0 V ECJ2VF1H103Z CERAMIC CAP 10 00 nF 50 0 V CERAMIC CAP 100 00 PF 50 0 V ECEA1EKS4R7B CERAMIC CAP 68 00 PF 50 0 V ELECTROLYTICAL 100 00 pF 16 0 V F2A0J221A181 CERAMIC CAP 68 00 PF 50 0 V ELECTROLYTICAL CAP 47 00 UF 10 0 V ECEATCKA101B CERAMIC CAP 100 00 PF 50 0 V ECJ2VF1H104Z CERAMIC CAP 100 00 nF 50 0 V CERAMIC CAP 1 00 pF 16 0 V ECJ2VF1C104Z CERAMIC CAP 100 00 nF 16 0 V ELECTROLYTICAL CAP 10 00 uF 50 0 V ECJ2VF1C105Z CERAMIC CAP 1 00 uF 16 0 V CERAMIC CAP 10 00 nF 50 0 V ECJ2VF1C105Z CERAMIC 1 00 uF 16 0 V CERAMIC CAP 33 00 PF 50 0 V C2110 ECJ2VB1H332K CERAMIC CAP 3 30 nF 50 0 V CERAMIC CAP 10 00 nF 50 0 V ELECTROLYTICAL CAP 330 00 pF 10 0 V F2A1H100A182 ELECTROLYTICAL CAP 10 00 pF 50 0 V ELECTROLYTICAL 220 00 UF 6 3 V ELECTROLYTICAL CAP 100 00 pF 16 0 V C2118 ECQV1H104JL3 POLYESTER CAP 100 00 nF 50 0 V CERAMIC CAP 100 00 nF 50 0 V ELECTROLYTICAL CAP 10 00 uF 16 0 V ECJ2VF1C104Z CERAMIC CAP 100 00 nF 1
12. 17 0 V 0 5 W 5 0 mA BOBA5R200014 ZENER DIODE 5 1 V 0 5 W 5 0 mA MA3X152KOL SWITCHING DIODE 80 0 V 100 0 mA MA3X152KOL SWITCHING DIODE 80 0 V 100 0 mA BOHAGP000003 RECTIFIER DIODE 400 0 V 0 5 A MA3X152KOL SWITCHING DIODE 80 0 V 100 0 mA MA3X152KOL SWITCHING DIODE 80 0 V 100 0 mA BOACCK000005 SWITCHING DIODE 90 0 V 100 0 mA BOBA01900005 ZENER DIODE 20 0 V 0 5 W 5 0 mA MA2B17100E SWITCHING DIODE 200 0 mA BOHAJP000015 RECTIFIER DIODE 400 0 V 0 7 A MA3X152KOL SWITCHING DIODE 80 0 V 100 0 mA BOHAJP000015 RECTIFIER DIODE 400 0 V 0 7 A BOHAMV000027 RECTIFIER DIODE 1 2 V 1 0 A MA2C18500E SWITCHING DIODE 200 0 V 200 0 mA MA3X152KOL SWITCHING DIODE 80 0 V 100 0 mA MA3X152E0L SWITCHING DIODE 80 0 V 100 0 mA BOACCK000005 SWITCHING DIODE 90 0 V 100 0 mA MA2C 165001 VT SWITCHING DIODE 35 0 V 100 0 Ma MAZ30560HL ZENER DIODE 5 8 V 0 2 W 5 0 mA BOBA01000052 ZENER DIODE 10 0 V 0 5 W 5 0 mA MA2C 165001 VT SWITCHING DIODE 35 0 V 100 0 Ma TUC4G709 1 HEAT SINK BOHAJLO00001 RECTIFIER DIODE 100 0 V 0 7 A MAZ20750A0LS ZENER DIODE 7 2 V 1 2 W BOHAJLO00001 RECTIFIER DIODE 100 0 V 0 7 A ERZV10V621CS No PartNo Name Description __ TAP4GA0009 MASX152KOL BOBA5R200014 ZENER DIODE 5 1 V 0 5 W 5 0 mA FMLG12SLF116 RECTIFIER DIODE 200 0 V 5 0 A 000009 RECTIFIER DIODE 1 000 0 V 3 0 A BOHFRJ000012 RECTIFIER DIODE 80 0 V 5 0 A BOBA7R500006 ZENER DIODE 7 5 V 1 2 W 5 0 mA B3PAA0000135 FOTO ACOPLADOR BOBA2R100003 ZENE
13. After having selected the desired option adjust it by pressing the VOL _ or VOL keys The OSD color will change for red Press 0 To memorize the adjustment OPTION oo OPTIONS 0 ADJUSTMENTS CHK2 MODE VCJ ADJUSTMENTS On CHK2 mode it is possible to adjust the items of the table shown here Note To select an item type 4 to move forward and 3 to move back After having selected the desired option adjust it by pressing the VOL or VOL keys The OSD color will change for red Press 0 To memorize the adjustment CHK3 MODE PINCUSHION ADJUSTMENTS On CHK3 mode it is possible to adjust the items of the table shown here Note To select an item type 4 to move forward and 3 to move back After having selected the desired option adjust it by pressing the VOL or VOL keys The OSD color will change for red Press 0 To memorize the adjustment CHK4 MODE WHITE BALANCE ADJUSTMENTS On CHK4 mode it is possible to adjust the items of the table shown here Note To select an item type 4 to move forward and 3 to move back After having selected the desired option adjust it by pressing the VOL or VOL keys The OSD color will change for red Press 0 To memorize the adjustment TEST AND MEASUREMENT EQUIPMENTS CHK2 MODE TABLE Standard values CHK3 MODE TABLE CHK4 MODE TABLE Stan
14. Assure that not entering light for the meter borders and that the CUT OFF voltage calibration has been done If the value in the color analyzer is below 150 adjust CONTRAST to 50 and press 8 in CHK2 mode TC 29FJ30LA EEPROM MEMORY MAPS TABLE 0 z 5 2 5 5 o O sO O N LO zn EJ l l TABLE 1 z LO LO 1 5 O N z LL 2 5 gt gt gt Cl N LO co O z E LL LL LL A LO O LL 5 st Q a co N 6 O O gt 5 ajl al o a wo N O O 5 LLI LLI LL a LO cO 6 2 5 lt x CO N 0 O 2 o 0 10 N Ol gt z z 5 O u N oj O zn l TC 29FJ30LA TABLE 2 M N LI O LO z 22 m m O lt o LU 2 a Q y y Q a o gt QNI N al o N O O e O 5 E E E l z ES TABLE 3 z ao Ou al 5 E 5 5 lt oo oo e o 0 L LL O 2 gt 5 L ol wl olov ao O O O ol Flo l zl E E atas DIAGRAMA ESQUEMATICO DA PLACA PRI
15. CONT S CONT or S TINT 6 Adjust A for 2 3 0 2V through the BRIGHT control variation in the test point TPL2 7 Confirm that the RGB Contrast is 11DAC and 352 1B 8 Fix G DRIVE GAIN R DRIVE GAIN and B DRIVE GAIN data in 1FH or 31 DAC R DRIVE GAIN SLV 8A SUB 16 G DRIVE GAIN SLV 8A SUB 17 B DRIVE GAIN SLV 8A SUB 18 6 NTSC SUB TINT CALIBRATION 1 Connect the oscilloscope in TPL1 R OUT with a 10KQ resistor 2 Supply a Rainbow signal NTSC 3 58 MHz through VIDEO IN 3 Select IMAGE to DYNAMIC NORMAL 4 Select COLOR FOR CHANNEL to NORMAL 5 On CHK2 service mode press 5 AKB OFF and confirm that OSD becomes blue AKB turned off 6 Set ABL to OFF on CHK2 mode to access BRT CONT S CONT or S TINT 7 PROTECTION CIRCUIT SHUTDOWN CONFIRMATION OF OPERATION 1 Supply a crosshatch pattern signal and adjust the CONTRAST and BRIGHT DAC controls to minimum 0 uA CALIBRATION 1 Connect the oscilloscope in TPL2 G OUT with a 10KQ resistor and adjust CONTRAST so that the B waveform it is 2 3 0 1V with 14 CRT and 2 6 0 1V with 20 CRT Adjust SUB COLOR to obtain 2 45 0 1V in D according to fig 1 Connect the oscilloscope in TPL1 R OUT with a 10KQ resistor and confirm that the C waveform it is 2 45 0 1V according to fig 2 Press the key 5 AKB ON and confirm that OSD becomes white Fig 2 A 2 3 x0 2Vo p C 2 45 0 1V
16. ENV56DD7G3 4 GND 5 atu 7 NDRA 5 aup our amour 48 0 1u 10 ADR_CL a ASG 55 5 L3042 EW E 45 DVSUP SC2_IN_R 54 16V SCL REDIG 222 cveso 27 CVESZOUT C688 4 M YUV L AVS 4 Ne al 19 ogo 35 C687 1000P C2102 C2101 2 bvsur SC2_IN_L 3 FA anona SOS WHSTR O 1u 50V 16V 100 13 DvsuP ASG 2 a R3015 R3038 0 010 20 REF c 45 SOV CIN 22208 0 1u 16V IC2101 hi 180k 100 Y Y P ji sje s S EE RAJ T m C613 22 3 43 C685 C686 MAZ30560HL VOL 0 0 p ZE 560 Pb NC 39009 R603 23 8 42 1907 0 22 5 E19 Q602 5 0055 ASG 49 li C2141 T1 L3041 77 Pb 6 JS005 P 39k e2238 2 8 5 5 lt 8 50V 50V 9 54 B1ABCCOO000 17 125 lt lt a gt q SC4_IN_R 8 16V 1 EXCELSA39V C611 C612 6 24 55 5 41 25D0601A0L alk ada D sonala m gt M YUV R Pr sov 4700p C2103 8 838998 SAL Fr SUPPLY 50V 9 o x o 5 v ol o T 70K 19 Inc gt R sc 46 R3014 R3039 5 A A a QN YM om ANAM 1 180k 100 a C636 PERO 0 R619 50 C2306 5109 20 Nc AGNDC 45 s C3039 som ena 5 T 6 O47u 120 MUTE 50 MSP RST 21 Resere auvss 4 C2142 L NC 50V OV FH 50 50V 5 D2350 AL gt PB gk 8 EXC3BB221H 0 01u MA3X152KOL 77 m 4 1 50V 16V 77 R 15120 7 DAN212KT146 Eco dona C2109 23 7 55 55 42 3 0 1 9 10u 191 2SD0601A0L t
17. ERG2FJ470 FILM RESISTOR 47 00 Ohm 2 W ERJ6GEYJ273V ERDS1TJ100T CARBON RESISTOR 10 00 Ohm 1 2 W ERJ6GEYJ104V ERXISZJR18E DOAE102JA046 CARBON RESISTOR 1 00 kOhm 1 4W ERJ6GEYJ223V FILM RESISTOR 22 00 kOhm 1 8 W DOAE151JA046 CARBON RESISTOR 150 00 Ohm 1 4 W ERO50PKF5603 FILM RESISTOR 560 00 kOhm 1 2 W D0AE473JA046 CARBON RESISTOR 47 00 kOhm 0 25 W DOAE513JA046 CARBON RESISTOR 51 00 kOhm 0 25 W ERJ6GEYJ472V ERJ6ENF1622V PRECISE RESISTOR 16 20 kOhm 1 10 W ERG3FJ470H ERJ6GEYJ183V 5 402200001 FUSE 4A ERJGGEYJ563V 000538320001 ERJ6GEYJ103V ERJ6GEYJ472V ERJ6GEYJ104V ERDS1TJ471T CARBON RESISTOR 470 00 Ohm 1 2 W ERJ6GEYJ333V ERJGGEYJ272V ERJ6ENF3902V ERJ6GEYJ563V W O fet No Name amp Description Ret No PartNo et Name amp Description _ _ ERJGGEYJ821V ERJGGEYJ101V ERJGGEYJ332V ERJGGEYJ273V ERJ6GEYJ510V PRECISE RESISTOR 51 00 Ohm 0 125W ERJ6GEYJ221V ERJ6GEYJ101V PRECISE RESISTOR 100 00 Ohm 1 8 W ERJ6GEYJ471V FUSISTOR 330 00 Ohm 1 W ERJGGEYJ472V DOAE330JA046 CARBON RESISTOR 33 00 Ohm 1 4 W ERJ6GEYJ432V DOAE223JA046 CARBON RESISTOR 22 00 kOhm 0 25 W ERJ6GEYJ102V DOAE223JA046 CARBON RESISTOR 22 00 kOhm 0 25 W ERJ6GEYJ103V DOAE390JA046 CARBON RESISTOR 39 00 Ohm 1 4 W R3010 ERJ6GEYJ184V ERDS2TJ2R7T CARBON RESISTOR 2 70 Ohm 1 4 W ERJ6GEYJ184V DOAE101JA046 CARBON RESISTOR 100 00 Ohm 1 4 W R3015 ERJ6GEYJ101V ERJ6GEYJ101V PRECISE RESISTOR 100 00 Ohm 1 8 W ERJ6GEYJ181V ERJ6GEYJ561V FILM RESISTOR 560 00 Ohm 1 8 W ERJ6GEYJ
18. long solder will tend to splash if it is heated much higher than its melting point approximately 1100 F 600 C e If you must use Pb solder on a PCB manufactured using PbF solder remove as much of the original PoF solder as possible and be sure that any remaining is melted prior to applying the Pb solder When applying solder to double layered boards please check the component side for excess which may flow onto the opposite side See figure below component component in remove all of the P excess solder slice view solder M SUGGESTED PbF SOLDER There are several types of PbF solder available commercially While this product is manufactured using Tin Silver and Copper Sn Ag Cu you can also use Tin and Copper Sn Cu or Tin Zinc and Bismuth Sn Zn Bi Please check the manufac turer s specific instructions for the melting points of their products and any precautions for using their product with other materials The following lead free PbF solder wire sizes are recommended for service of this product 0 3mm 0 6mm and 1 0mm 0 3mm X 100g 0 6mm X 100g 10mm x 100g 10mm x 100g HOW TO RECOGNIZE THAT PB FREE SOLDER IS USED P C Boards marked as PbF use Pb Free solder See the figure below Pb Free is not used the Power Supply Board of this unit Example Digital Board Marked DIGITAL BOARD COMPONENT VIEW E TC 29FJ30LA OPERATING INSTRUCTIONS 1 AV
19. with a 7kHz filter between A22 the AFC ON Channel with sound bearer and without 2 and A22 3 speakers terminals modulation 2 Adjust the sound to maximum 2 Assure that the width in the buzzing waveform is smaller 3 Adjust AVL OFF than 500 m Vp p smaller than 500 m Vp p 7k Hz Filter 4 ANODE AND HEATER VOLTAGE CONFIRMATION CONFIRMATION 1 Supply a crosshatch signal 1 Connect a voltage meter between TPA10 and ground 2 Adjust the current beam to zero 0 beam Confirm that the voltage B is within a range of 140 5V 3 Adjust SCREEN VR and CONTRAST to minimum 1 5V Connect a high frequency voltage meter VRMS among Nota the heater and confirm that the voltage is 6 30 0 24Vrms When using a high voltage meter resistive type it is 3 Connect the high voltage meter in the CRT anode pin necessary to use an electrostatic meter type to verify the and confirm that the high voltage is within 30 5KV 27 6KV values range TC 29FJ30LA ADJUSTMENTS ITEM PREPARATION PROCEDURE 5 PAL COLOR OUTPUT SIGNAL ADJUSTMENT 1 Supply a color bar signal and adjust the local frequency 2 Adjust IMAGE to DYNAMIC NORMAL CONTRAST to 63 and SUB CONTRAST to 21 3 Adjust the CHANNEL COLOR level to NORMAL 4 Set to CHK2 service mode option press 5 on the remote control unit and confirm that OSD becomes blue AKB turned off 5 Set ABL to OFF in CHK2 mode to access BRT
20. 0 199 S60 g M 4005 598 a 2885 WE e ecu 264 a 098 ed T 0027 NS 2963 SNUNL 8 896 70 1090052 00000d9VH08 00000228 18 00951990084 ed EGO 000000 18 500000328718 WA ow n INVZEOLVSZ 8G60 3 5 o ZLI VGCZLVSZ Prata zsca d 1 GCZO ONI oa 6954 15 80180902nivXL I vMvo olasz 8 NM n EU n T D AUS 4063 2563 AOS 2 5130 00000d9vH08 zz obo 09 1661 l br9 CONL 94902 LONVXL QNO TYN9IS 480 L9VAL WA SCE P C B SCHEMATIC DIAGRAM TO A18_TNP4G269 K18 CX 1 1 E 1 NEA R1280 R1281 R1282 R1283 R1284 R1285 1 87k 1 65k 2 15k 3 09k 4 42k 7 5k E E 1 9 1280 1281 1 1283 1284 sies 77 2 EVQ11G05R 0116058 200110058 EVQ11GO5R EVQ11GO5R EVQ11G05R GND 64 3 rh CH A CHL Y VOL VOL TV AV PRESET LED O RM 8 IC1001 STDB45V 6 01005 LED2 10u 0 16V 7 gt rh 8 z gt D1002 BOBA7R00006 C1001 C1002 C1003 330p 0 01u 100u 50V 50V 16V 77 77 f L1001 STB5V LED Z
21. 0 00 PF 2 000 0 V 2 2 330 020 POLYESTER 470 00 PF 50 0 F2A2E1000011 POLYESTER CAP 68 00 PF 50 0 V F1B2H471A025 CERAMIC CAP 470 00 PF 500 0 V CERAMIC CAP 1 00 nF 4 000 0 V ECQM4393JZW POLYESTER CAP 39 00 nF 400 0 V ECKCNA152ME7 CERAMIC CAP 1 50 nF 4 000 0 V ERD25TOV JUMPER 0 00 Ohm ECQU2A224BN9 POLYPROPILENE CAP 220 00 nF 100 0 V ECKCNA471MB7 CERAMIC CAP 470 00 PF 440 0 V ECJ2VC1H560J CERAMIC CAP 56 00 PF 50 0 V ECJ2VF1H224Z CERAMIC CAP 220 00 nF 50 0 V ECQV1H105JL3 POLYESTER CAP 1 00 hF 50 0 V CERAMIC CAP 330 00 PF 500 0 V ECJ2YB1H104K CERAMIC CAP 100 00 nF 50 0 V F2A1C222A117 ELECTROLYTICAL CAP 2 200 00 uF 16 0 V ECQV1H224JL3 POLYESTER CAP 220 00 nF 50 0 V F2A1C101A244 ELECTROLYTICAL CAP 100 00 uF 16 0 V ECJ2VB1H332K CERAMIC CAP 3 30 nF 50 0 V F2A1C101A180 ELECTROLYTICAL CAP 100 00 uF 16 0 V ECEA1HKA100B ELECTROLYTICAL CAP 10 00 uF 50 0 V F2A1C1020049 ELECTROLYTICAL CAP 1 000 00 uF 16 0 V ECJ2VB1H103J CERAMIC CAP 10 00 nF 50 0 V ECJ2VF1H104Z CERAMIC CAP 100 00 nF 50 0 V ECQV1H683JL3 POLYESTER CAP 68 00 nF 50 0 V ECJ2VF1H104Z ECJ2VB1H472K CERAMIC CAP 4 700 00 PF 50 0 V F2A1A471A161 ELECTROLYTICAL CAP 470 00 uF 10 0 V W NO fot wo PartNo Part Name amp Description Ret No Panno Part name amp Desorption _ POLYESTER CAP 47 00 nF 50 0 V ELECTROLYTICAL CAP 10 00 uF 16 0 V ELECTROLYTICAL 10 00 uF 50 0 V ECA1HMH100B ELECTROLYTICAL CAP 10 00 pF 16 0 V F2A2C470A030 CERAMIC CAP 560
22. 0 HZ CALIBRATION 1 Supply a PAL N Philips signal 2 Adjust V SHIFT 50Hz CHK3 so that the Philips pattern s center it is in the center of the CRT 5 VERTICAL CENTRALIZATION 60 HZ CALIBRATION 1 Supply a MONOSCOPE signal 2 Adjust V SHIFT 60Hz CHK3 so that the monoscope pattern s center it is in the center of the CRT 6 VERTICAL HEIGHT V AMP 50HZ CALIBRATION 1 Supply a PHILIPS PAL N signal 2 Adjust V AMP 50Hz CHK3 so that the Philips pattern s circle height be the same dimension of the width 1 Adjust IMAGE to DYNAMIC NORMAL 7 VERTICAL HEIGHT V AMP 60HZ CALIBRATION 1 Supply a MONOSCOPE signal 2 Adjust V AMP 60Hz CHK3 according to box 3 MEMORIZE in EEPROM 15 WHITE BALANCE CALIBRATION CALIBRATION 0 1 LOW LIGHT CALIBRATION Adjust the HELMHOLTZ device to local magnetic field 1 Adjust S BRT so that Y 7 Let the set warm up for a minimum of 30 minutes Receive a white balance This sign should contain 2 Adjust R CUT OFF so that x 0 273 0 01 burst sign 3 Adjust G CUT OFF so that y 0 283 0 01 Adjust the IMAGE menu to DINAMIC NORMAL 2 HIGH LIGHT CALIBRATION degauss the CRT by using an external degaussing Confirm that G DRIVE is 31 DAC Position the color analyzer in contact with the CRT face 1 Adjust S BRT so that Y 150 2 Adjust R DRIVE so that x 0 275 0 01 3 Adjust B DRIVE so that y 0 284 0 01 3 Repeat the procedures 1 and 2
23. 0 m 6 TPY181 5 Q5583 C5520 END B1ABCE000005 1u R5504 B1ABCCO00004 16V 528 ZMC UE puMP UP 25526 25D060140L 5 2 2K 33K AV SW2 3 Av swz PLA 77 L8 8 RESET C3040 TV CVBS 10 0 TV CVBS 16V10u 11 _ O 5V L5555 L5554 1 EXCELSA35T GOC100JA0021 W e LIP aviv JOJYAO00001 2 GOC150JA0021 13 O BV AV2 V 15 AV2 V 15 1 sys JUDGE L COUT 18 C OUT pe GND FSC 29 esc gt lt _ 7 C46A V PULSE 224 4 C R424 2 C422 6 8k Q420 5 3 B1ABCCOO0004 5 IC420 2SDO601AO0L 4 C1ZBZ0000497 PUMP UP R420 R421 sq 22k 68k x C4 L5582 R426 EXCELSA35T 75 5 JOJYA0000012 Os 4 C421 2 0 01u 50V 2 p _F_ TRIGGER1 L5560 JOJYA0000012 5 4 pg 1 4 TRIGGER2 UIT rh MAIN BOARD CIRCUIT LAYOUT fer peras Cip E cim ese Hc PER ss m 2d 1 LI 25 M SIGNAL WAVEFORM All waveforms were obtained using 127 60Hz power source and Color Bars Pattern Model TC 20KL04 TC 29FJ30LA IC601 lek TC 29FJ30LA TC 29FJ30LA M EXPLODED VIEW 2980 REPLACEMENT MECHANICAL PARTS LIST mae Ret No 6 Eum 8 9 o 2 5 6 E 7 10 11 12 13 14 15 16 17 18 19 28 TC 29FJ30LA REPLACEMENT ELECTRICAL PARTS LIS
24. 0 mA ERJ6GEYJ391V FILM RESISTOR 390 00 Ohm 1 8 W TRANSISTOR NPN 0 2W 200 0 Ma ERJ6ENF7500V Q852 B1ABCE000005 W OT 1 TC 29FJ30LA No PartNo Part Name amp Description Ret No PartNo Part Name amp Description _ _ CARBON RESISTOR 2 20 kOhm 1 2 W ERJ6GEYJ101V ERJ6GEYJ103V FILM RESISTOR 10 00 kOhm 1 8 W ERJ6GEYJ102V ERJ6GEYJ101V PRECISE RESISTOR 100 00 Ohm 1 8 W ERJ6GEYJ153V ERJ6GEYJ101V PRECISE RESISTOR 100 00 Ohm 1 8 W ERJ6GEYJ391V ERJ6GEYJ102V PRECISE RESISTOR 1 00 kOhm 1 8 W ERJ6GEYJ101V DOAE104JA046 CARBON RESISTOR 100 00 kOhm 1 4 W ERJ6GEYJ561V EROS2THF2491 PRECISE RESISTOR 2 49 kOhm ERJ6GEYJ822V EROS2THF2701 FILM RESISTOR 2 70 kOhm 0 25 W ERJ6GEYJ390V ERG2FJ151H FILM RESISTOR 150 00 Ohm ERJ6GEYJ101V PRECISE RESISTOR 100 00 Ohm 1 8 W ERJ6GEYJ202V FILM RESISTOR 2 00 kOhm 1 8 W ERJ6GEYJ223V ERJ6GEYJ432V FILM RESISTOR 4 30 kOhm 1 10 W ERJ6GEYJ331V ERX12SJR68V FILM RESISTOR 0 68 Ohm 1 2 W ERJ6GEYJ472V ERJGGEYJ223V FUSISTOR 33 00 Ohm 1 2 W ERJ6ENF7503V PRECISE RESISTOR 750 00 kOhm 1 10 W ERJ6GEYJ563V ERJ6GEYJ682V ERJGGEYJS62V ERJGGEYJ750V ERJGGEYJ393V ERG2SJ472E FILM RESISTOR 4 70 kOhm FILM RESISTOR 100 00 Ohm 1 W ERG3FJ122H ERQ2CJP150S ERJ6GEYJ471V ERJ6GEYJ473V FILM RESISTOR 47 00 kOhm 1 8 W ERJ6ENF1002V FILM RESISTOR 10 00 kOhm 1 10 W ERQ2CJP101S FUSISTOR 100 00 Ohm 2 W ERJ6GEYJ103V___ FILM RESISTOR 10 00 kOhm 1 8 W ERX2SJ6R2E FILM RESISTOR 6 20 Ohm 2
25. 1 50V NMS MN82362 COMP2 40 TPY163 220 15p 10 tons 39 156 C5570 50v 11 DVSS IREF2 e 0 01u ASR TS43 38 C5566 R5553 50V f ad TDOO TDI3 VMO oa 15559 X 5 TNMS DVSS veo EZ EXCELSA35T Dx TPNS TDO1 TDI1 36 50 R5522 R5523 JOJYAO000012 14 Lon TDO2 TDIO 3 3k 2 2K TDO3 TD13 S7 15 1 A JS5539 16 AA 5 z Q soc 34 C5565 2 gt LL gt 0 01 9 gt x 5 O 33 C5564 330 t c m gt t H Oy 6 3V e 5 05583 2 2 N q amp 8 A A 200u 5 5 2 1 15538 D PJ PA PI PA QO R5520 2SA1235A T12 R5526 EEE EXCELSASST lt JSE520 220 25 1037 55 2k JOJYA0000012 m A 25B0709A0L B1ADCC000004 JS5538 5 4 7k SBB 4 R5552 wee 150 L5537 EXCELSA35T C5561 E JOJYA0000012 DEM Es 5072 2 1 ores 71 50V 0 01u 50V EAKA ESEJ e JS5537 B Sv 05561 85595 05564 1 00005 ski 98d 1 5 ERIS cer TAR R5585 10k 2 15285 gt wen al GIN TPY100 NN SA GOC470JA0021 rage 120 R5583 e CO 12k 22u 0558 NP JR eae C5586 JRe589 AD 2SA1235A 112 1 50 1k 2SA1037AKT C5591 50 25B0709A0L R5594 U 25 JR5593 BIADCCO00004 7 18k 4 7u 1k 77 G DIGICOMB T BY AV VIDEO SWITCH 2 n Q640 v 8642 2SA1235A T12 8645 5 39 2SA1037AKT 680 sa 25B0709A0L NPI 3 CO B1ADCCO00004 z R683 SJ C3044 330
26. 1 L816 L817 L820 L831 L852 L853 L862 L863 L871 L872 L873 L951 L953 L954 L955 L1001 L1051 L1110 L2104 L210 L213 L2134 L2136 L2137 L2141 L2143 L2150 L2151 L3016 L3037 L3041 L3042 L3106 L3261 L5510 L5538 L5539 L5550 5551 5552 5554 5555 5556 5558 556 5570 5581 5582 Co LH5L7121 0A332BA0007 0B123H00002 XCELDR35V XCELDR35V 0JKA0000025 0B123H00002 0JKA0000023 0JKA0000025 OA6R8HA0011 XCELDR35C 0C1R5KA0030 0C100K00008 0JKA0000024 0JKA0000022 0JKA0000022 OJKA0000022 0JKA0000022 ALV35VB331K 0JKA0000022 XCELSA35T 0C330JA0021 0JKB0000034 0C180KA0004 0C270JA0021 XCELDR25V 0JKB0000034 XC3BB221H XCELSA35T XC3BB221H XC3BB221H 0JKA0000024 0JKA0000024 0JKA0000024 0JKA0000024 XCELSA35T OC8R2KA0030 0C100JA0021 XCELSA35T XCELSA35T 0C150JA0021 0C101J00001 XCELSA35T XCELSA35T 0C100JA0021 0C150JA0021 0 XCELSA35T 0C270JA0021 0C470JA0021 XCELSA35T pi I mm TRANSISTORS 9001 Q170 Q369 Q390 Q391 Q392 Q400 Q420 Q501 Q520 Q551 Q580 Q581 Q601 Q602 Q640 Q641 Q680 Q701 Q840 Q850 B1ABCE000005 B1ABCE000005 B1ADDF000003 B1ABCE000005 B1ABCE000005 B1ABCE000005 B1ABCE000005 B1ABCE000005 25C4212H00LB 25 792 25C5902000LK B1ABCE000005 B1ADDF000003 B1ADDF000003 B1ABCE000005 B1ADDF000003 B1ABCE000005 B1ABCE000005 B1ADDF000003 B1ABCE000005 000002 fet no Part n
27. 101V ERJ6GEYJ222V ERJ6GEYJ330V ERJ6GEYJ122V ERJ6GEYJ101V ERJGGEYJ221V ERJGGEYJ470V ERJ6GEYJ333V ERJ6GEYJ331V FILM RESISTOR 330 00 Ohm 1 8 W R1013 ERJ6GEYJ222V ERJ6GEYJ331V ERJ6GEYJ562V FILM RESISTOR 5 60 kOhm 1 8 W ERJ6GEYJ331V ERJ6GEYJ101V FILM RESISTOR 100 00 Ohm 1 8 W ERJ6GEYJ471V ERJ6GEYJ103V R3111 ERJeGEYJ101V PRECISE RESISTOR 100 00 Ohm 1 8 W ERJ6GEYJ682V ERJGGEYJ331V ERJ6GEYJ103V ERJ6GEYJ184V ERJGGEYJ222V ERJGGEYJ102V ERJ6GEYJ432V FILM RESISTOR 4 30 kOhm 1 10 W ERJ6GEYJ222V ERJ6GEYJ681V FILM RESISTOR 680 00 Ohm 1 8 W ERJ6ENF8200V PRECISE RESISTOR 820 00 Ohm 1 10 W ERJ6GEYJ101V ERJ6GEYJ183V ERJ6GEYJ101V FILM RESISTOR 100 00 Ohm 1 8 W ERJ6GEYJ222V FILM RESISTOR 2 20 kOhm 1 8 W ERJ6ENF1002V FILM RESISTOR 10 00 kOhm 1 10 W ERJ6ENF1201V FILM RESISTOR 1 20 kOhm 1 10 W ERJ6GEYJ100V FILM RESISTOR 10 00 Ohm 1 8 W ERJ6GEYJ183V ERJ6ENF1651V PRECISE RESISTOR 1 65 kOhm 1 10 W ERJ6GEYJ222V ERJ6ENF3091V PRECISE RESISTOR 3 09 kOhm 1 10 W ERJ6ENF1001V FILM RESISTOR 1 00 kOhm 1 10 W ERJ6ENF7501V PRECISE RESISTOR 7 50 kOhm 1 10 W ERJ6ENF1001V ERJGGEYJ101V ERJGGEYJ821V ERJ6GEYJ471V ERJeGEYJ152V I W JM I TC 29FJ30LA Part Name amp Description RJ6GEYJ390V FILM RESISTOR 39 00 Ohm 1 10 W RJ6GEYJ681V FILM RESISTOR 680 00 Ohm 1 8 W F R5510 R5511 R5512 R5513 R5514 R5515 R5516 R551 R551 R5520 R5521 R552 R5523 R552 R552 R5526 R5540 R5541 R554 R554 R554 R554 R5548 R5551 R5552 R5553 R5554 R5555 R5556 R5560 R5561 R5565 R
28. 30 C625 24 13607 8 E 2 E r z E m C2140 ili gt 2 10k 9 5 8 o S 5 5 p 50V C2139 2 BM LED 7 50V 0 01u gt P C2135 L605 C 470 BCL o 92133 ma ol NI ol ol m of NI ol a 50V 5 oN aX N NN o o idi Olu 1 ae oe 64 JS675 SOV 2 3 EEEE E o 63 CI 3 C621 2 7 5 12134 AV2 R 55525 35 62 iy fl sas p mes Sage 22 rig gt X601 47p 50V 16 16 Pals 5V R3142 R5145 Elas e pa HOD120500006 180K s VPE 6 P0 6 CVBSTD VDDA 59 o o fo 400008 7 554 zarezao 58 BLUE EI 855053 2848240 0 E 1 5 ALT Cios BS sov a mo SSE 528882 co e GREEN 15674 Y 5 5 san 8 5 Y cO z X 56 RED SCL 02 S Jj 55 63 a RO E a 8 gt AV2 1 TPA15 1 0 ae Tol poate R Y T SDA 03 a q 8 5 2 52 AV2 L O 1 hy AGC N1 Ou Soy 11 54 04 1255 2 vss 1 R5141 e i 1 12 WA E R636 R2302 05 125 wL MONO IN 60 C2124 1 END oo l 1 AO 8 007 R601 13 C2302 5 06 125_DA_ou ne 59 z Ty 16V 0 0 50V e 2 2K 2 lt R687 16 Yi 9106 8 M 2 22u 50V 5 1u 14 DECBG ES 2 470 L2105 07 125_DA_IN 852029 toa 994 VREFTOP 58 16v 4 5 66081 15 _ 50 08 ADR_DA 99 SS 488 2 SC1_IN_R 57 AV2 R 4 Av2 L ADD 4 3 6 10u 5091 16 vors 5 49 SVM D9 025 5 sie u 00 001 5 2 50V 1 9
29. 5566 R5569 R557 R5571 R5572 R5573 R5581 R5583 R5585 R5587 R5589 R5591 R5593 R5594 R5595 RJGGEYJ1OTV RUSGEYJI21V RUGGEYJG83V RJGGEYJ223V FJ6GEYJ152V RUSGEYJIS1V RUSGEYJI21V FJ6GEYJ221V RUSGEYJSS1V RUGGEYJSS2V m ITI NO N mim RJ6GEYJ331V ILM RESISTOR 330 00 Ohm 1 8 W RJ6GEYJ332V FILM RESISTOR 3 30 kOhm 1 8 W F 6 RJ6GEYJ222V ILM RESISTOR 2 20 kOhm 1 8 W RJ6GEYJ222V FILM RESISTOR 2 20 kOhm 1 8 W F RJ6GEYJ151V FILM RESISTOR 150 00 Ohm 1 8 W F mm RUGGEYJ202V RJSGEYJIOTV RJGGEYJISZY FJ6GEYJ33iV Fu6GEYJi22V O GIN N RJ6GEYJ331V FILM RESISTOR 330 00 Ohm 1 8 W RJ6GEYJ472V FILM RESISTOR 4 70 kOhm 1 8 W mm RJ6GEYJ151V FILM RESISTOR 150 00 Ohm 1 8 W F RJ6GEYJ202V FILM RESISTOR 2 00 kOhm 1 8 W F mm RJ6GEYJ151V ILM RESISTOR 150 00 Ohm 1 8 W RJ6GEYJ151V FILM RESISTOR 150 00 Ohm 1 8 W F mm RJ6GEYJ392V ILM RESISTOR 3 90 kOhm 1 8 W RJ6GEYJ122V ILM RESISTOR 1 20 kOhm 1 8 W RJ6GEYJ392V FILM RESISTOR 3 90 kOhm 1 8 W RJ6GEYJ221V FILM RESISTOR 220 00 Ohm 1 8 W RJ6GEYJ821V FILM RESISTOR 820 00 Ohm 1 8 W F mm RJ6GEYJ241V ILM RESISTOR 240 00 Ohm 1 8 W RJ6GEYJ101V RECISE RESISTOR 100 00 Ohm 1 8 W mm RJ6GEYJ122V FILM RESISTOR 1 20 kOhm 1 8 W mm RJGGEYJ123V RJGGEYJBOTY RJGENF1620V RUGGEYJ 02V RJGENF1001V RJGGEYJ1OZY RJGGEYJ183V RJ6GEYJ561V FILM RESISTOR 560 00 Ohm 1 8 W RL801 K6B1CDA00027 RELAY 30 VDC 250 VAC SWITCHES 51280 EVQ11G05
30. 6 0 V CERAMIC CAP 68 00 PF 50 0 V ECJ2VF1C105Z CERAMIC CAP 1 00 uF 16 0 V CERAMIC CAP 10 00 nF 50 0 V ECJ2VC1H470J CERAMIC CAP 47 00 PF 50 0 V ELECTROLYTICAL CAP 220 00 UF 6 3 V ECJ2VC1H560J CERAMIC CAP 56 00 PF 50 0 V CERAMIC CAP 100 00 nF 50 0 V ELECTROLYTICAL 1 00 uF 50 0 V ECJ2VC1H470J CERAMIC CAP 47 00 PF 50 0 V ELECTROLYTICAL CAP 1 00 uF 50 0 V ECJ2VC1H010C CERAMIC CAP 1 00 PF 50 0 V 0 25 PF CERAMIC CAP 15 00 PF 50 0 V ECJ2VF1C105Z CERAMIC CAP 1 00 uF 16 0 V ELECTROLYTICAL CAP 22 00 hF 50 0 V ELECTROLYTICAL CAP 330 00 UF 10 0 V ECJ2VF1H103Z CERAMIC CAP 10 00 nF 50 0 V CERAMIC CAP 10 00 nF 50 0 V ECA1CM101B ELECTROLYTICAL CAP 100 00 uF 16 0 V CERAMIC CAP 100 00 nF 50 0 V ECEA1HKNOR1B ELECTROLYTICAL 0 10 50 0 V ELECTROLYTICAL CAP 22 00 uF 16 0 V ECJ2VC1H122J CERAMIC CAP 1 20 nF 50 0 V CERAMIC CAP 33 00 PF 50 0 V POLYPROPILENE 13 00 nF 2 0000 V F2A1C101A180 ELECTROLYTICAL CAP 100 00 pF 16 0 V ELECTROLYTICAL 4 70 pF 25 0 V ELECTROLYTICAL CAP 47 00 uF 16 0 V ECJ2VC1H561K CERAMIC CAP 560 00 PF 50 0 V ECJ2VF1H104Z CERAMIC CAP 100 00 nF 50 0 V ECJ2VF1C105Z CERAMIC CAP 1 00 uF 16 0 V ECJ2VC1H561K BJP11V04 AP W W 1 TC 29FJ30LA fet No PartNo Part Name amp Description CONNECTOR CONNECTOR CONNECTOR A100 CONNECTOR EW10 EW13 CONNECTOR TERMINAL AV STEREO JK3003 TERMINAL YPbPr TERMINAL AV YPbPr CONNECTOR BJP11V02 AP CONNECTOR EEE ZENER DIODE
31. A 2 3 0 1Vo p B 2 4 0 1V D 2 45 0 1V CALIBRATION 1 Adjust C for 5 0 0 2V through the BRIGHT control variation CHK2 according to fig 1 2 Adjust SUB TINT NTSC so that the levels of positions 2 3 and 4 of Fig 1 in accordance with the Fig 2 3 Set ABL to ON 4 Press 5 and confirm that OSD becomes white AKB turned on 3 4 567 89 10 CONFIRMATION Connect the voltmeter in TPA22 and confirm that the voltage is smaller than 18 7 V Connect a DC source in TPA22 and confirm that the protection circuit doesn t act when the voltage is 19 5V Confirm that the protection circuit acts with smaller voltage than21 5V TC 29FJ30LA ADJUSTMENTS ITEM PREPARATION PROCEDURE 8 SUB BRIGHT AND SUB CONTRAST SUB BRIGHT CALIBRATION CALIBRATION 1 Position the color analyzer in the LOW LIGHT image 1 Supply a WINDOW pattern signal area 2 Adjust IMAGE MENU to DYNAMIC NORMAL 2 Ajust S BRT lt CHK 4 gt control so that it is Y 0 7 0 2 SUB CONTRAST CALIBRATION Position the color analyzer in the HIGH LIGHT image area Ajust S CONT lt CHK 4 gt DAC control so that it is Y 230 20 If impossible to obtain that adjustment adjust SUB CONT lt CHK 4 gt again Check the SUB BRIGHT adjust 9 FOCUS CALIBRATION CALIBRATION Assure that the SUB BRIGHTNESS adjustment has been Adjust the FOCUS variable resistor for the point of better done adjustment 1 Supply a Philips or monoscope pat
32. ATIC DIAGRAM COMB FILTER 1 2 TC 29FJ30LA ra Ez a C5541 8790 6 05540 B1ABCE000005 gt M 1 000002 R5546 2SD0601A0L TPY161 330 05540 TPY167 2200 R5541 65545 C o 0 171 I EL 4 TPY155 50V Q5541 B1ABCE000005 C5554 15550 B1ABCCOO0004 TPY168 6 5 200 GOC150JA0021 Sov 2SD0601A0L R5548 JS609 330 3555 C5556 16V 100u Giu o 50V 1 rh e 5577 5553 o R5561 TOV 3300 EXCELSA35T D EP 0 14 3 9k JOJYAOO00012 50V L5552 C5548 d R5573 33 C5549 TPY154 P 33 3 9k 50V p R5540 TPY160 SCLO 50V 150 5 165 C5574 R5555 TPY128 330u 10V T C5576 55572 L5558 to lo 0 01u 1 Dk R5569 sp TPY129 JOJCCOOO00100 1 D jo gt 48 C5575 50V 240 _ e 9 0 01u V PULSE R5556 2 gt a R 50V 150 hz 2 3 DN 0 46 50V VREFH me 1 SCAN 5 VREFHS VREF 50V 1u 5552 x CLOCK CL AVDD 44 01u 6 SDA AVSS COMP1 157 R5554 R5566 L5570 s DVDD VPN YOUT IREF1 2 GOC270JAC 42 GOC101J00001 COUT SEEM 12k c S43 41 01u 8 VREF2 BV Tu OC R5565 C557
33. E Z 2000HMS TRANSISTOR NPN 0 2W 200 0 mA BEAD CORE Z 2000HMS TRANSISTOR NPN 0 2W 200 0 mA BEAD CORE AXIAL 1 6 A Z 100 OHMS TRANSISTOR NPN 0 2W 200 0 mA BEAD CORE AXIAL 6 A Z 100 OHMS TRANSISTOR NPN 0 2W 200 0 mA BEAD CORE AXIAL 1 6 A Z 100 OHMS TRANSISTOR NPN 0 2W 200 0 mA BEAD CORE AXIAL 1 6 A Z 100 OHMS TRANSISTOR NPN 0 2W 200 0 mA BEAD CORE TRANSISTOR NPN 0 2W 200 0 mA COIL 8 20 uH TRANSISTOR PNP 0 2 W 50 0 V 200 0 mA PIC COIL 10 00 uH TRANSISTOR NPN 0 2W 200 0 mA BEAD CORE TRANSISTOR PNP 0 2 W 50 0 V 200 0 mA BEAD CORE TRANSISTOR PNP 0 2 W 50 0 V 200 0 mA PIC COIL 15 00 uH TRANSISTOR NPN 0 2W 200 0 mA PIC COIL 100 00 uH TRANSISTOR NPN 0 2W 200 0 mA BEAD CORE TRANSISTOR NPN 0 2W 200 0 mA BEAD CORE TRANSISTOR NPN 0 2W 200 0 mA PIC COIL 10 00 pH TRANSISTOR PNP 0 2 W 50 0 V 200 0 mA PIC COIL 15 00 uH TRANSISTOR NPN 0 2W 200 0 mA BEAD CORE 200MA TRANSISTOR NPN 0 2W 200 0 mA BEAD CORE TRANSISTOR NPN 0 2W 200 0 mA PIC COIL 27 00 uH TRANSISTOR PNP 0 2 W 50 0 V 200 0 mA PIC COIL 47 00 pH BEAD CORE TRANSISTORS 0 00 FILM RESISTOR 18 00 kOhm 3 W TRANSISTOR NPN 0 2W 200 0 Ma ERJ6GEYJ302V TRANSISTOR NPN 0 2W 200 0 mA ERJ6GEYJ103V FILM RESISTOR 10 00 kOhm 1 8 W TRANSISTOR NPN 0 2W 200 0 mA ERJ6GEYJ273V TRANSISTOR NPN 0 2W 200 0 mA ERJ6GEYJ331V TRANSISTOR PNP 0 2 W 185 0 V 50 0 Ma ERJ6GEYJ331V TRANSISTOR NPN 0 2W 200 0 Ma ERJ6GEYJ221V TRANSISTOR PNP 0 2 W 50 0 V 200 0 mA ERJ6GEYJ221V TRANSISTOR PNP 0 2 W 50 0 V 200
34. ELMHOLTZ device to local magnetic field Hof 0 WEST rizontal O 0 003 x 104T Receive a red pattern adjust the COLOR control to maximum and confirm the purity adjustment Receive a white purity pattern If ourit andar tna If purity error is found at the corners apply magnetic AGUS CONTRAST ano tapes to correct it fully degauss the CRT again and repeat Previously adjust the CONVERGENCE the steps 1 and 2 Don t use this magnetic tapes on the Fully degauss the CRT by using an external degaussing internal side of the yoke coil Receive a white purity pattern adjust the COLOR control to minimum and confirm the purity adjustment 12 CONVERGENCE CALIBRATION CALIBRATION Adjust the HELMHOLTZ device to local magnetic field Static convergence calibration Receive a crosshatch pattern l Assure that the magnets are positioned according to 3 Adjust IMAGE menu to DINAMIC NORMAL and the DAC illustration 1 BRIGHT control for the crosshatch pattern to be gray I Adjust the 4 poles magnets to align the R and B Remove the DY wedges and slightly tilt the deflection CENTRAL DOTS and adjust the 6 poles magnets to yoke to the vertically and horizontally to obtain the good align both DOTS with G overall convergence After adjustment above assure that the magnets If purity error is found repeat Color Purity adjustment sealed through the application of white glue 4 poles mag
35. HASSIS GP3 MODEL TC 29FJ30LA SYSTEM PAL M PAL N NTSC PAL M 50Hz POWER SOURCE AC automatic power switching 110 220V 50 60Hz MEMORY 125 positions TV TUNING RANGE 181 channels TV OSD LANGUAGE Spanish Portuguese and English AUDIO SYSTEM Stereo VERTICAL MAGNETIC FELD 0 15 0 03 ARGENTINA COLOR TEMPERATURE High Light x 0 275 0 01 y 0 284 0 01 Y 150 nit Low Light x 0 273 0 01 y 0 283 0 01 Y 7 0 nit REFERENCE VOLTAGE CONTENTS REFERENCE TEST POINT are SPECIFICATIONS 002 007 010 08 140 1 5V 175 x15V NENA Buzzing confirmation A22 1 A22 3 0 5 Vp p lS NTscoobrout oo mm OC 255v Anode EHT voltage 0 ANODO 31 0 7 Kv A EA B 00 C 0C D B3 E A1 F 04 G 00 H 09 THE DAC CONTROL FOR CHASSIS FUNCTIONS AND ADJUSTMENTS HOW TO ENTER IN THE SERVICE MODE 1 Set the OFF TIMER to 30 minutes 2 Press simultaneously RECALL key on the remote control and VOL button on the unit After a couple of seconds the expression CHK should appear on the right superior side of the screen To change the memory data press MUTE and VOLUMEQ simultaneously while the OSD is still on CHK1 mode Key 4 moves forward in the memory and key 3 moves back in the memory Note To alter from CHK1 mode to CHK2 CHK3 or CHK4 modes press key 2 to move forward and the k
36. NCIPAL TC 29FJ 30LA TC 29F 30LA
37. Order DCS DEZ2004 001 Service Manual Color Television TC 29FJ30LA GP3 Chassis Specifications TELEVISOR TC 29FJ30LA Power source 110V 220V AC 60Hz automatic switch Consumption 129W Antenna input jack 75 VHF UHF CATV Color systems PAL M NTSC PAL N Tuning system T Channel capability 2 to 13 VHF 14 to 69 UHF and 1 to 125 Cable Picture Tube visual diagonal PANABLACK 29 Flat CRT 74 cm NBR5258 68 cm diagonal visual Pot ncia de udio 8 W 8 W max RMS Video input jack 1 rear 1 frontal Audio input jack 1 rear 1 frontal Video output jack 1 rear Audio output jack 1 rear 1 headphone DVD input jack 1 rear Dimension width height depth 786 x 578 x 508 mm Weight 42 7 Kg Specifications are subject to change without notice Weight and dimensions shown are approximate REMOTE CONTROL TRANSMITER SUPPLIED ACCESSORIES Model TNQ2B3302 1 Remote Control Transmitter Power source 3V 2 AA type batteries 1 3000 75Q Aerial Adaptor Infrared Length 9500 A angstron 2 AA type batteries 2004 Panasonic da Amazonia S A E p ni CS Division Technical Support TC 29FJ30LA important Safety Notice Special components are used in this television set which are important for safety These parts are identified on the schematic diagram by the symbol ZN It is essential that these critical parts are replaced with the manufacturer s specified replacement
38. R DIODE 2 1 V 0 5 W 5 0 mA 000001 RECTIFIER DIODE 100 0 V 0 7 A BOBA3R500006 ZENER DIODE 3 5 V 0 5 W 5 0 mA 000001 RECTIFIER DIODE 100 0 V 0 7 A BOHAJLO00001 RECTIFIER DIODE 100 0 V 0 7 A BOBA5R200014 ZENER DIODE 5 1 V 0 5 W 5 0 mA BOBA7R500006 ZENER DIODE 7 5 V 1 2 W 5 0 Ma EL3331D S928 DIODO LED MA3X152KOL SWITCHING DIODE 80 0 V 100 0 mA BOBA5R700008 ZENER DIODE 5 7 V 0 5 W 5 0 mA BOBA5R700008 ZENER DIODE 5 7 V 0 5 W 5 0 mA BOBA5R400008 ZENER DIODE 5 4 V 1 2 W 5 0 mA BOBA5R600016 ZENER DIODE 5 6 V 0 5 W 5 0 Ma MA3X152K0L MA3X152KOL SWITCHING DIODE 80 0 V 100 0 mA MA3X152KOL SWITCHING DIODE 80 0 V 100 0 mA FILTERS DL329 DL329 LB4B090 LB4B090 C FILTER C FILTER m F840 K5D502BK0003 FUSE ANALOGIC IC ANALOGIC IC INTEGRATED CIRCUIT INTEGRATED CIRCUIT ANALOGIC IC IC802 6 VOLTAGE DETECTOR IC VOLTAGE REGULATOR IC AN7805 ANALOGIC IC B3RAC0000010 REMOTE CONTROL RECPTOR IC C3EBGZ000001 EEPROM MEMORY IC VOLTAGE REGULATOR IC IC2101 AUDIO PROCESSOR IC 1 2301 IC3040 NJM2535MTE1 VIDEO SWITCH IC IC5550 MN82362 MICROPROCESSOR IC COILS JS816 EXCELDR35C BEAD CORE Z 80 OHMS JS2301 4 PIC COILI 6A 2 100 OHMS EXC3BB221H BEAD CORE Z 2000HMS GOC100K00008 JOJKA0000022 BEAD CORE 6 A Z 60 OHMS BEAD CORE I 6 A Z 100 OHMS EXCELSA35T FERRITE EXCELSA35T FERRITE JOJKA0000024 BEAD CORE AXIAL 6 A Z 100 OHMS EXCELSA35T FERRITE GOA102F00002 1 W R 1 L706 L707 L80
39. R SWITCH 51281 EVQ11G05R SWITCH 51282 EVQ11G05R SWITCH 51283 EVQ11G05R SWITCH 61284 EVONGOSA S1285 EVQ11G05R SWITCH S840 ESB92DA1B POWER SWITCH TRANSFORMERS T501 ZTFN35007A FLY BACK T553 ETH19Y210AZZ HORIZONTAL DRIVER TRANSFORMER T801 G4D3Z0000003 CHOPPER TRANSFORMER TUNER TNROO1 ENV56K05G3 TUNER M1971M AW FILTER 45 75 MHZ EFCS4R5MW5 ERAMIC FILTER 4 5 MHZ FCTARSMSSW 00184500008 RYSTAL 18 4 MHZ 0D120500006 RYSTAL 12 00 MHz P P P RD25VJ392T RADIAL CARBON 3 90 kOhm 0 25 W RJ6GEYJ103V FILM RESISTOR 10 00 kOhm 1 8 W F P P P RJ6GEYJ102V RECISE RESISTOR 1 00 kOhm 1 8 W NJ m T Q gt m A i J AIG Panasonic da Amazonia S A CS DIVISION TECHNICAL SUPPORT Rod Presidente Dutra Km 155 580 Jos dos Campos SP
40. T fet No Porno Part Name amp Dessin permo PartNo Part Name amp Description YUV ECQV1H224JL3 POLYESTER CAP 220 00 nF 50 0 V EW P C B ASS Y CERAMIC CAP 47 00 PF 50 0 V ECJ2VF1H104Z CERAMIC CAP 100 00 nF 50 0 V CERAMIC CAP 10 00 nF 50 0 V ECEAOJN221UB ECJ2VF1H104Z CERAMIC CAP 100 00 nF 50 0 V ECJ2VF1C105Z ECEA1HKA010B F2A1C100A180 ECJ2VC1H151J CERAMIC CAP 150 00 PF 50 0 V ECJ2VC1H680J CERAMIC CAP 68 00 PF 50 0 V F2A1C100A180 ECJ2YB1H473K CERAMIC CAP 47 00 nF 50 0 V ECJ2VC1H330J CERAMIC CAP 33 00 PF 50 0 V ECJ2VF1H224Z CERAMIC CAP 220 00 nF 50 0 V ECJ2VC1H330J CERAMIC CAP 33 00 PF 50 0 V ECJ2VF1H102Z CERAMIC CAP 1 000 00 PF 50 0 V POLYESTER CAP 15 00 nF 400 0 V 101 ECKW3D102KBP__ CERAMIC CAP 1 00 nF 2 000 0 V F2A2E1000011 ECQB1H102KF3 POLYESTER CAP 1 00 nF 50 0 V F2A1H330A182 ECQV1H105JL3 ECA1HHG221B F0C2E4740001 POLYPROPILENE CAP 470 00 nF 250 0 V ECJ2VB1H332K CERAMIC CAP 3 30 nF 50 0 V ECQU2A224BN9 POLYPROPILENE CAP 220 00 nF 100 0 V ECEAOJKA221B ECKWAE472ZED CERAMIC CAP 4 70 nF 250 0 V CERAMIC CAP 1 500 00 PF 500 0 V ECKWAE472ZED CERAMIC CAP 4 70 nF 250 0 V F1A2H1000002 CERAMIC CAP 10 00 PF 500 0 V 0 50 PF ECQM4473JZW POLYESTER CAP 47 00 nF 400 0 V ECKW3D331JBP CERAMIC CAP 330 00 PF 2 000 0 V F2A1H330A115 F1B2H331A025 CERAMIC CAP 330 00 PF 500 0 V ECKW3D331JBP CERAMIC CAP 330 00 PF 2 000 0 V F1B2H471A025 CERAMIC CAP 470 00 PF 500 0 V ECKW3D331JBR CERAMIC CAP 33
41. V aa W W N AN Hof w w oo No O po o o IN BN SU O 3 lt w a o p Go o CO O 2 I oo o CO CO o ol PO PO NIN NAJ w el woj w P W W NIN Noy oo o 3 lt Pin EN EM J TC 29FJ30LA 601 BLOCK DIAGRAM NIA Ta au Jana A D Nd TOYLNOO LNIL HOLAYLS ALIHM HOLAYLS MOVIA NOILVENLVS LYASNI ANA BOH Pav d 11IHM 999 HOLAYLS 3N Id LYASNI 1 1 050 N LHOIHS H LNOO AV ldSIQ 050 1 AHOWAW dovd 1 66 Xv SINMd Xp SL HOd AdLAWOdD NOILISINDOV 1X31311L SLHOd INMd LSA HHAIHOSNVHL sna Dzl ova LNO LSA vds 10S O1H1 xz LANO AAIdG A 1 1 JAIHQ A GNVd dSVvd f1dO 18008 Q39NVHN3 LNO 13S3d WA 1 5 dOO puc LNOGNv cOldnv GOIGNV AV 140 VIANT ANWNIOA 1 HOLIMS OIGNV ru SISVHdINaad Td ANNOS 1 L Gav HA 1 1 OSOH 4IGNS I LNAI HOLIMS OACIA OACIA O4V ODV AONGA Tid NOISIA HdOLINGOWAQ WV YAXIN SSO OOV 4l GNNOS SSO gt m O 0 0 gt lt 1 8 ODVHANNL M CHASSIS GP3 FEATURE SUMMARY C
42. YIN B2 UIN BCLIN 54 BLKIN Oo O OTI0 0 0 OJOOJO0O JO0O R R R R R R R R R ROJOJOIOFO gt CO CO O ID 4 O JOTIRIO NP O O 0 Q O lt U 0 0 a O MIC601 PINOUTO Symbol PI VDDA 60 OTPProgrammingVoltage 0 00 VDDC OSCGND XTALIN XTALOUT RESET VDDP 66 diialsuppytoperphey 3 3 V O PL OJINT 1 1 10 68 1 41 or Counter Timer 0 input 0 O P1 2 INTO 69 1 2 or external interrupt 0 input P1 6 SCL port 1 6 or I2C bus clock line P1 7 SDA port 1 7 or I2C bus data line P2 0 TPWM P2 1 PWMO P2 2 PWM1 port 2 2 P2 3 PWM2 port 2 3 P2 4 PWM3 port 2 4 P2 5 PWM4 port 2 5 SYNC_FILTER CVBS i e P0 6 CVBS Sync filter input This pin should be connected to VSSA via a 100 nF capacitor P3 0 ADCO 80 port 3 0 or ADCO input IC VOLTAGE TABLES 601 Voltage VPE IC451 801 851 802 881 Voltage po O Io n Na o O lt lt CD w OT CO CD NI N NNNNN NNN O O1 O1 O1 O1 O1 gt OT O1 O1 O1 A R CO OND O Go N O N O Go ND CO CO NI O O RO NI O NI O O1 A Go N R CD u o u D 3 lt 3 TPA10 142V TPA11 11 2
43. ZY 16V10u 9080 Q641 1k BABEE890653 B1ABCE000005 SN 2SD0601 R641 00004 L 195 2SD0601A0L F DIGICOMB e C x C3043 4 1 oe C645 50V 58p 50V 03 YO TNP4G342 1 N YC CIRCUIT YC P C B SCHEMATIC DIAGRAM COMB FILTER 2 2 5547 2k PY167 TPY171 FSC je PY168 BV R5548 R5510 C5510 R5516 RZ 39 16V 1 5K 680 100u Q5504 6 95205 R5514 2800601401 Q5570 R5571 25A1037AKT Q5505 2SA1235A 112 Y K ACAR 5812355612 2SA1057AKT YE EA L5510 B1ADCCOO0004 e 5511 25B0709A0L 5 25B0709AOL GOC100JA0021 C5512 R5515 60p B1ADCCO00004 B1ADCCO00004 C D Y e TOV i Y OUT TPY165 R5518 1 47u SOS C5514 1 65813 R5517 R5512 R5570 P 150 79 100 R5569 50V 100p R5513 825 100 169 50V 120 4 77 50v 177 C5573 66 15570 50V 220 GOC270JA0021 c5571 1 5572 5507 L 55 15 15 68 68 C4 50V SOV 50V 50V TI TI 1 Q5502 R5505 Q5501 SDAO Q5522 5 LEK 1PY183 R5523 B1ABCEO00005 BIABCCOODOD4 TEXTS _ 2SDO601AOL DK B1ABCGCO00004 C79 3 E gt 2SDO601A L R5502 O AV SWL C C 139 Y OUT AM a R5524 ess V OUT 33
44. ame amp Description TRANSISTOR NPN 0 2W 200 0 Ma LINE FILTER TRANSISTOR NPN 0 2W 200 0 Ma BEAD CORE Z 80 OHMS TRANSISTOR NPN 0 2W 200 0 mA BEAD CORE Z 80 OHMS TRANSISTOR NPN 0 2W 200 0 mA BEAD CORE Z 80 OHMS TRANSISTOR NPN 0 2W 200 0 mA LINE FILTER TRANSISTOR NPN 0 2W 200 0 mA BEAD CORE Z 80 OHMS TRANSISTOR NPN 5 8 W 50 0 V 500 0 mA BEAD CORE Z 80 OHMS TRANSISTOR NPN 0 2 W 50 0 V 500 0 mA PIC COIL 6 80 uH TRANSISTOR PNP 20 W 100 0 V 1 0 A BEAD CORE Z 80 OHMS TRANSISTOR NPN 1 W 100 0 V 1 0 A PIC COIL 1 50 uH TRANSISTOR PNP 0 2 W 50 0 V 200 0 mA PIC COIL 10 00 1 0 4A TRANSISTOR NPN 0 2W 200 0 mA BEAD CORE AXIAL 1 6 A Z 100 OHMS TRANSISTOR NPN 0 2W 200 0 mA BEAD CORE 1 6 Z 60 OHMS TRANSISTOR NPN 0 2W 200 0 mA BEAD CORE 1 6 A Z 60 OHMS TRANSISTOR NPN 0 2W 200 0 mA BEAD CORE 1 6 A 2 60 OHMS TRANSISTOR NPN 0 2W 200 0 mA BEAD CORE 6 A Z 60 OHMS TRANSISTOR PNP 0 2 W 50 0 V 200 0 mA PIC COIL 330 00 pH 0 4 TRANSISTOR NPN 0 2W 200 0 Ma BEAD CORE AXIAL I 6 A Z 60 OHMS TRANSISTOR PNP 0 2 W 50 0 V 200 0 mA FERRITE TRANSISTOR PNP 0 2 W 50 0 V 200 0 mA PIC COIL 33 00 uH TRANSISTOR NPN 0 2W 200 0 Ma PIC COIL 1 6 A 2 100 OHMS TRANSISTOR NPN 0 2W 200 0 Ma TRANSISTOR PNP 0 2 W 50 0 V 200 0 mA TRANSISTOR NPN 0 2W 200 0 Ma FERRITE TRANSISTOR NPN 0 2W 200 0 Ma PIC 1 6 Z 100 OHMS TRANSISTOR NPN 0 2W 200 0 Ma BEAD CORE Z 2000HMS TRANSISTOR NPN 0 2W 200 0 Ma FERRITE TRANSISTOR NPN 0 2W 200 0 mA BEAD COR
45. dard values 19 z 34 3 31 41 G DRIVE B DRIVE RGB CONTRASTE R DRIVE 484 To execute all these electrical adjustments the following equipment required e Dual Trace Oscilloscope Voltage Range 0 001 V to 50 V Div Frequency Range DC to 50 MHz Probes 10 1 1 1 NTSC Video Pattern Generator DVM Digital Volt Meter MTS SAP Signal Generator e TV Multi Channel Sound Modulator U S A e Plastic Tip Driver and Non Metal Driver e solation Transformer Variable Degaussing Coil e White Pattern Generator Audio Generator TC 29FJ30LA ADJUSTMENTS ITEM PREPARATION PROCEDURE 1 RF AGC ADJUSTMENT ADJUSTMENT 1 Supply a color bar pattern and adjust the RF input signal 1 Select RF AGC on CHK2 service mode of 69 dB uV 75Q opened channel 07 RF freq 175 25 2 Adjust RF AGC by pressing VOL or until obtaining MHZ 2 2 0 1V in TPA15 3 Increase the input level by 2 dB and confirm that the Connect the digital multimeter in TPA15 voltage decreases in TPA15 2 VIF DETECTOR OUTPUT LEVEL CONFIRMATION CONFIRMATION 1 Install the chassis in the VIF calibration JIG and tune ina 63 dBU colorbar pattern 75Q opened 2 Connect the oscilloscope in TPA31 3 Confirm that the output video sign is 1 05 0 15 Vp p in TPA 31 3 BUZZING CONFIRMATION CONFIRMATION AUDIO CIRCUIT 1 Supply a colorbar signal with local frequency adjusted 1 Connect the oscilloscope
46. ey 1 to move back as illustrated below NORMAL MODE SERVICE MODE O 2 2 2 2 gt CHK1 CHK2 CHK3 4 5 VCJ PINCUSHION WHITE BALANCE STEREO O munor SETTING 1 ADJUSTMENT 44 ADJUSTMENT 43 ADJUSTMENT 434 ADJUSTMENT TO EXIT SERVICE MODE AND RETURN TO NORMAL MODE Press the NORMAL key on the remote control unit or turn off the TV CHK1 OPTIONS On CHK1 mode it is possible to adjust the options below Note 4 4 4 4 OPTION1 1 2 2 gt To select an option type 4 to move forward DIGITO MSB DIGITO LSB DIGITO MSB DIGITO LSB and 3 to move back Jess After having selected the desired option adjust 4 4 4 4 T T OPTIONS OPTION3 OPTION4 OPTION4 it by pressing the VOL or VOL keys Press 0 to memorize the adjustment DIGITO MSB DIGITO LSB DIGITO MSB DIGITO LSB 4 4 4 4 OPTIONS OPTIONS OPTION6 DIGITO MSB DIGITO LSB DIGITO MSB DIGITO LSB OPTION7 OPTIONS OPTION1 DIGITO MSB DIGITO LSB DIGITO MSB CHK1 MODE OPTIONS CHK1 MODE TABLE On CHK1 mode it is possible to adjust the items of the table shown here Note To select an item type 4 to move forward and 3 to move back
47. ld GQNNOYYNS VOVdV SACNAIONA S31VNVO 1VION3n23S NOI2O313S 1 NAW NNAW NIVIN ANIN 130 NOIOO3UIG SINOLOG NOILdVO Q3SO 19 ANNL d Sd IVNVO SOTV OLOAYIG OSIDOY DJIUOSEUEg doses 2 6 GO WO CO Ce ce te CH CH GNNOHHNS niN3A ANNOS dVS JLNV I4GQV Vdvd VOSNE EVLIVS VHVd VOSNE EVLIVS OGINOS 30 NNAW NNAW ANNOS 5 NS9VWI NNAW NNAW Old NANNIOA NOIOVZIIVINHON VOIVINVTI NY AL HOQdVIHddS10 dN IXNVYM OION3 TIIS VOVdV HQGNHIONH OJOWEI 8 OI UOD ZAY a 6 V 7 NIN Seleueo olpny 2 AV AL A uoiog ep sauolog seJejnouny u8WNIOA 15 Seuolog uolog oipny sp eed eplleS 9 qeo epijes eusjue e euru JLO zn olowej o3u02 JOSU8S opebedy opipueouj iojdnuielu
48. n around the bell of the picture tube in addition to restricting magnetic effects When using a picture tube test jig for service ensure that the jig is capable of handling 31kV without causing X ray radiation Before returning a serviced receiver to the owner the service technician must thoroughly test the unit to ensure that is completely safe to operate Do not use a line isolation transformer when testing Warning It is essential that these critical parts are replaced with the manufacturer s specified replacement parts to prevent X ray radiation shock fire or other haz ards M ABOUT LEAD FREE SOLDER Note In the information below Pb the symbol for lead in the periodic table of elemenis will refer to standard solder or solder that contains lead We will use PbF solder when discussing the lead free solder used in our manufacturing process which is made from Tin Sn Silver Ag and Copper Cu This model and others like it manufactured using lead free solder will have PbF stamped on the PCB For service and repair work we suggest using the same type of solder although with some precautions standard Pb solder can also be used Caution e PbF solder has a melting point that is 50 70 300 400 C higher than Pb solder Please use a soldering iron with temperature control and adjust it to 700 20 370 10 C In case of using high temperature soldering iron please be careful not to heat too
49. nets G 3 Note The electron beams are moved rotationally when the static convergence magnets are rotated The reduction of rotational beams differ depending of the two magnets angle Therefore it is necessary to repeat the magnets calibrations sometimes until obtaining a good alignment 6 poles magnets R G B 13 CRT CUT OFF CALIBRATION CALIBRATION 1 Supply a WINDOWS signal Press 5 AKB OFF and confirm that OSD becomes 2 Position DACs with the data below blue BRT gt 50H Connect the oscilloscope in TPL5 and adjust BRT to S BRT 31H obtain 130V as in the Fig 1 below RGB CONTRAST gt 11DAC Adjust the SCREEN to obtain a horizontal fine line in the Screen center SUB CONTRAST gt 21H Y 1 0 41 0 0 5 R GB DRIVE gt Press 5 AKB ON and confirm that OSD becomes R G CUT gt 31H white TC 29FJ30LA ADJUSTMENTS ITEM PREPARATION PROCEDURE 14 VERTICAL DEFLECTION CALIBRATION AND S CORR CONFIRMATION AND CALIBRATION CONFIRMATION 1 Confirmation in 50Hz 1 Supply a PHILIPS PAL N signal 2 Confirm that S CORR 50Hz is in 33 2 Confirmation in 60Hz 1 Supply a MONOSCOPE signal 2 Confirm that S CORR 60Hz is in 33 DAC CRT 3 V SLOPE calibration CENTER gt 1 Supply a MONOSCOPE signal 2 Adjust V SLOPE CHK3 so that the beginning of the black part of the image is aligned with the center of the CRT as Fig 1 4 VERTICAL CENTRALIZATION 5
50. tern signal with PHILIPS signal take as reference for adjustment 2 Adjust IMAGE MENU to DYNAMIC NORMAL the third vertical line fig 1 with MONOSCOPE signal in the number 4 fig 2 10 PURITY CALIBRATION CALIBRATION Adjust the HELMHOLTZ device for the local magnetic field 1 Position the ears of the purity magnets both upward HORIZONTAL 0 0 03 X 10 4T Adjust the purity until the markers in the purity jig Let the set warm up aging time for a minimum of 60 monitorscope becomes symmetrical in the horizontal minutes direction Supply a purity pattern white pattern The vertical centralization correction is made through Adjust CONTRAST and BRIGHT to MAXIMUM the purity magnets for stripe CRT type only The static convergence adjustment must have been Slide the yoke forward by 10 mm 5 in the monitor Then made preliminarily tighten the deflection yoke Connect a DC ampere meter between FBT 11 and gt Repeat the procedures 2 4 FBT pin3 and adjust to 1200mA 10 varying the S 6 Press the belt of deflection yoke BRT DAC control Adjust beam landing using a microscope for model change or instrument check only TC 29FJ30LA ADJUSTMENTS ITEM PREPARATION PROCEDURE 11 WHITE QUALITY CALIBRATION CALIBRATION PREPARATION Adjust the magnetic field in 0 4x10 4T 400 mG and check the white quality with the CRT turned to EAST and Adjust the H
51. ts that show signs of overheating Always Replace Protective Devices such as fishpaper isolation resistors and capacitors and shields after servicing the Receiver Use only manufacturer s recommended rating for fuses circuit breakers etc High potentials are present when this Receiver is operating Operation of the Receiver without the rear cover introduces danger from electrical shock Servicing should not be performed by anyone who is not thoroughly familiar with the necessary precautions when servicing high voltage equipment Extreme care should be practiced when Handling the Picture Tube Rough handling may cause it to implode due to atmospheric pressure 14 7 lbs per sq in Do not sick or scratch the glass or subject it to any undue pressure When handling use safety goggles and heavy gloves for protection Discharge the picture tube by shorting the anode to chassis ground not to the cabinet or to other mounting hardware When discharging connect cold ground i e dag ground lead to the anode with a well insulated wire or use a grounding probe Avoid prolonged exposure at close range to unshielded areas of the picture tube to prevent exposure to X ray radiation The Test Picture Tube used for servicing the chassis at the bench should incorporate safety glass and magnetic shielding The safety glass provides shielding for the tube viewing area against X ray radiation as well as implosion The magnetic shield limits X ray radiatio
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