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MANUAL DE SERVIÇO BX-1S CHASSIS MODEL NAME REMOTE COMMANDER DESTINATION CHASSIS NO.
9-883-7
KV-21FA240 RM-YA005 BRAZIL SCC-S80B-A
Self DiagnosisSupported model
TELEVISOR EM CORES TRINITRON®
04-01
KV-21FA240 RM-YA005
KV-21FA240
KV-21FA240 17
3-2. ACESSANDO O MENU DO MODO DE SERVIÇOUtilize o Controle Remoto para acessar o Menu do Modo de Serviço e execute os ajustes abaixo:1. No modo de Standby (Power off).2. Pressione os seguintes botoes no controle remoto, aproximadamente 1 segundo cada um: DISPLAY Canal 5 Sound Volume + POWER Na tela indicará primeiramente dados de serviço da categoria.
item no. service data NVM field channel no./category in decimal item name in decimal NG service command frequency video input name
GEOM 000 HPOZ 055 x SERVICE 60 VIDEO 1
software service data reserved power on timerelease ID version in binary for factory color system (decimal)
STR31 7.11U 0011 1111 FF FF - - - - - 00084
Status Byte Status ByteFlash DCXO #1 SSD #2 SSD
000 00 00 0000 3E 40 000 004000 0000FF
1. No controle remoto pressione a tecla 2 para selecionar próxima categoria ou 5 ara selecionar categoria anterior.2. Tecle 1 para selecionar próximo item ou 4 para selecionar item anterior.3. Tecle 3 para aumenter o valor do dado ou 6 para diminuir o valor do dado.4. Tecle MUTING depois 0 para escrever na memória.
VERDE
GEOM 000 HPOS 039 SERVICE 50 VIDEO 1
escreva com [MUTING].
VERDE
GEOM 000 HPOS 039 WRITE 50 VIDEO 1
GEOM 000 HPOS 039 WRITE 50 VIDEO 1
confirmar com -.
VERMELHO
“WRITE” muda para vermelhoquando salvando, a seguir mudapara “SERVICE”
Indica “WRITE” quandoalvando as alterações.
Resetando Menu do UsuárioUtilize seguinte procedimento para resetar o Menu do Usuário que coloca para a configuração da fábrica.1. Acesse no Modo de Serviço.2. Tecle 8 depois 0 no Controle Remoto.
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KV-21FA240 18
3-3. CONFIRMAÇÃO DE ALTERAÇÃO NO MODO DE SERVIÇO
1. Após completar os ajustes, desligue o cabo AC da tomada e religuena tomada novamente.
2. Acesse no Modo de Serviço.3. Utilizando as teclas do controle remoto, localise os itens ajustados
para confirmar os ajustes executados.
3-4. AJUSTES DO BALANÇO DE BRANCONOTA: É necessário executar o ajuste do FOCO antes de iniciaro ajuste do Balanço de Brancot. (Veja item 2-3. FOCO)1. Entre no Modo de Serviço2. Coloque um sinal branco.3. Coloque na condição a seguir: Contraste “DINÂMICO”, PICT 006, anote o valor do “WTS”
depois mude para 00.4. Tecle 2 ou 5 para selecionar o item WHBL .5. Tecle 1 ou 4 para indicar os itens 03 “GDRV”e 04 “BDRV”.6. Tecle 3 ou 6 para ajustar o melhor ponto do balanço de branco.7. No Cutoff, selecione WHBL 000 “BKOR” e 001 “BKOG” ajuste o
dado..8. Execute o ajuste na condição de Highlight e Cutoff até que atingir
melhor condição.9. Tecle MUTING depois ENTER para slavar na memória.10. Coloque PICT 006 “WTS” para voltar no dado inicial.
3-5. AJUSTES DA QUALIDADE DE IMAGEM
Ajuste de P Max/Contrast1. Coloque TV para modo de Video.2. Coloque modo de Contraste para “CUSTOM”.3. Coloque NTSC 75% CB
4. Coloque PICT 003 “PWL” para 00h, WHBL 017 “BLBG” para 01h.5. Coloque na seguintes condições: CONTRASTE 100%, COR 0%, BRILHO 50%6. Conecte osciloscópio no pino 4 (R Output) do CN004.7. Tecle 1 ou 4 para indicar SADJ 000 “PMAX”, depois ajuste VR
pressionando 3 ou 6 até que chegar a especificação abaixo:
1.10 ± 0.03 Vp-p
VR
Black
8. Tecle MUTING depois 0 para escrever na memória.
9. Coloque “PWL” e “BLBG” para dado inicial. (“PWL”: 01h e “BLBG”: 00h)10. Tecle MUTING depois 0 para escrever na memória.
Ajuste de Sub Cor1. Coloque TV para modo de Vídeo.2. Coloque modo de Contraste para “CUSTOM”.3. Coloque NTSC 75% CB
4. Coloque PICT 006 “WTS” para 00h e Intelligent Picture para “OFF”.5. Coloque na seguintes condições: CONTRASTE 50%, COR 50%, BRILHO 50%, MATIZ 50%,
NITIDEZ 50%6. Conecte osciloscópio no pino 2 (B Output) do CN004.7. Tecle 1 ou 4 para selecionar SADJ 004 “SCOL”, depois ajuste
VB2=VB3=VB4 (for PAL), VB1 = VB4 (for NTSC) pressionando 3 ou6 , depois escreva no dado +5 passo adiante .
VB2 = VB3 = VB4 (for PAL) VB1 = VB4 (for NTSC)(Deferença entorno de 70mV)
VB1
VB2 VB3 VB4 VB1 VB2 VB3 VB4
8. Tecle MUTING depois 0 para escrever na memória 9. Coloque “WTS” no dado inicial e Intelligent Picture para “ON”.10. Copie o dado no.9 para PAL TV & DVD mode.
Ajuste de Matiz (Sub Hue)1. Coloque TV para modo de Video.2. Coloque modo de Contraste para “CUSTOM”.3. Coloque NTSC 3.58 CB .4. Coloque na seguintes condições: CONTRASTE 50%, COR 50%, BRILHO 50%, MATIZ 50%,
NITIDEZ 50%5. Tecle 1 ou 4 para selecionar item e - 5 passos para SADJ
004 “SCOL”. 6. Conecte osciloscópio no pino 2 (B output) do CN004.7. Tecle 1 ou 4 para selecionar SADJ 001 “SHUE”, depois tecle 3 ou 6 para
ajustar o dado. 8. Tecle MUTING depois 0 para escrever na memória.9. Tecle 1 ou 4 para selecionar SADJ 004 “SCOL”, depois
Tecle MUTING depois 0 para escrever na memória . 10. Selecione canal de TV com 3.58 e repita itens (3) a (7).
11. Tecle MUTING depois 0 para escrever na memória.
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KV-21FA240 19
Ajuste de Sub Brilho1. Coloque TV para o modo de RF.2. Coloque sinal de monoscope .3. Coloque o Brilho 50% e o Contraste para o “MÍNIMO”.4. Tecle 1 ou 4 para selecionar WHBL 010 “SBRT”.5. Tecle 3 para aumentar o valor do dado, ou 6 para diminuir o valor do dado
para que o nível do cut-off seja 10 IRE, slightly glimmer: 20 IRE.6. Tecle MUTING depois 0 para escrever na memória.
Configuração Geral1. Coloque o Monoscope ou Special Color Bar (SPCB) utilizando
sinal de gerador de barras.2. Entre no Modo de Serviço.3. Selecione o item da categoria para proceder o ajuste pressionando 1 ou 4
4. Tecle 3 para aumentar o vlor do dado ou 6 para diminuir o valor dodado.
5. Tecle MUTING depois 0 para escrever na memória.
Item No. Function Illustration
GEOM 013 Vertical Shift(VPOS)
GEOM 011 Vertical Amplitude(VSIZ)
Note: Adjust VSIZ to12.4±(SPCB)11.5 ±
GEOM 000 Horizontal Shift(HPOS)
GEOM 009 EW Trapezoid(EWTZ)
GEOM 005 EW Width (EW)(HSIZ)
Note: Adjust HSIZ to16.4±(SPCB)15.3±
GEOM 002 Horizontal Bow(HBOW)
GEOM 006 EW Parabola/Width(EWPW) (PW)
GEOM 007 EW Upper Corner(UCOP) Parabola
GEOM 008 EW Lower Corner(LCOP) Parabola
GEOM 001 Horizontal(HPAR) Parallelogram
GEOM 012 S-Correction(SC)(SCOR)
GEOM 003 Vertical Linearity(VLIN)
GEOM 004 Vertical Scroll(VSCR)
Ajuste de Geometria
20
KV-21FA240
KV-21FA240
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yrogeta .C o eN ma cN e cD eD 05)3:4 0( 6)3:4 0( 5w)3:4 0( 6w)3:4(
MOE 0G 0 S0 OP 1H 3 30 6 )0 SH(tfihSlatnoziroH >)Z/F/N/ZW(*)06/05(neercS9:61<>06w/05w/06/05neercS3:4< rossecorP-VT 1 13 13 13 3
10 R0 AP 1H 3 30 6 m0 argolellaraPlatnoziroH >)Z/F/N/ZW(*)06/05(neercS9:61<>06w/05w/06/05neercS3:4< 1 13 13 13 3
20 W0 OB 1H 3 30 6 w0 oBlatnoziroH >)Z/F/N/ZW(*)06/05(neercS9:61<>06w/05w/06/05neercS3:4< 1 13 13 13 3
30 N0 IL 1V 3 30 6 y0 tiraeniLlacitreV >)Z/F/N/ZW(*)06/05(neercS9:61<>06w/05w/06/05neercS3:4< 1 13 13 13 3
40 R0 CS 1V 3 30 6 l0 lorcSlacitreV >)Z/F/N/ZW(*)06/05(neercS9:61<>06w/05w/06/05neercS3:4< 1 13 13 13 3
50 Z0 IS 1H 3 30 6 )0 WE(htdiWWE >)Z/F/N/ZW(*)06/05(neercS9:61<>06w/05w/06/05neercS3:4< 1 13 13 13 3
60 W0 PW 1E 3 30 6 )0 WP(htdiW/alobaraPWE >)Z/F/N/ZW(*)06/05(neercS9:61<>06w/05w/06/05neercS3:4< 1 13 13 13 3
70 P0 OC 7U 1 30 6 a0 lobaraPrenroCreppUWE >)Z/F/N/ZW(*)06/05(neercS9:61<>06w/05w/06/05neercS3:4< 7 71 71 71 1
80 P0 OC 7L 1 30 6 a0 lobaraPrenroCrewoLWE >)Z/F/N/ZW(*)06/05(neercS9:61<>06w/05w/06/05neercS3:4< 7 71 71 71 1
90 Z0 TW 1E 3 30 6 m0 uizeparTWE >)Z/F/N/ZW(*)06/05(neercS9:61<>06w/05w/06/05neercS3:4< 1 13 13 13 3
01 P0 LS 1V 3 30 6 )0 SV(epolSlacitreV >)Z/F/N/ZW(*)06/05(neercS9:61<>06w/05w/06/05neercS3:4< 1 13 13 13 3
11 Z0 IS 5V 1 30 6 e0 dutilpmAlacitreV >)Z/F/N/ZW(*)06/05(neercS9:61<>06w/05w/06/05neercS3:4< 5 51 51 51 1
21 R0 OC 4S 1 30 6 )0 CS(noitcerroC-S >)Z/F/N/ZW(*)06/05(neercS9:61<>06w/05w/06/05neercS3:4< 4 41 41 41 1
31 S0 OP 1V 3 30 6 )0 HSV(tfihSlacitreV >)Z/F/N/ZW(*)06/05(neercS9:61<>06w/05w/06/05neercS3:4< 1 13 13 13 3
41 M0 OZ 1V 3 30 6 )0 ZV(mooZlacitreV >)Z/F/N/ZW(*)06/05(neercS9:61<>06w/05w/06/05neercS3:4<
51 L0 B 0H 0 10 0 e0 doMgni�nalBBGR >)Z/F/N/ZW(*)06/05(neercS9:61<>06w/05w/06/05neercS3:4< 1 10 10 10 0
61 F0 B 7W 0 50 1 )0 FBW(gni�nalBediWfognimiT >)Z/F/N/ZW(*)06/05(neercS9:61<>06w/05w/06/05neercS3:4< 7 70 70 70 0
71 R0 B 7W 0 50 1 )0 RBW(gni�nalBediWfognimiT >)Z/F/N/ZW(*)06/05(neercS9:61<>06w/05w/06/05neercS3:4< 0 41 01 41 1
81 L0 B 0S 0 10 0 g0 niknalBecivreS >)Z/F/N/ZW(*)06/05(neercS9:61<>06w/05w/06/05neercS3:4< 00
91 Y0 PO 0C 0 10 0 a0 eraMVNzH06/05llaotatadOEGehtypoC >)Z/F/N/ZW(*)06/05(neercS9:61<>06w/05w/06/05neercS3:4< 00
NOTAa) Na coluna inicial de valor (detailed), o dado após a marca barra ("/") refere-se para o dado do modelo NTSC.
Sem ("/") significa que é dado comum para os modelos Multi e NTSC.b) O item indicado com "*" e "**", veja o dado de referência da página 25 .c) itens sombradas são sem dados.d) O dado padrão listado na Tabela de Itens de Ajustes são os valores de referências, portanto este é diferente para cada modelo e cada modo.e) O valor de Dado Diferente são os valoes de dados padrões gravados no microoprocessador. Portanto, os valores dos dados dos modelos sào armanezados respectivamente dentro da memória.
Em no caso de substituição da peça, é necessário de ajuste e gravação do valor para alguns itens.f) NTSC ver 6.16N.
Tabela de Itens de Ajustes
21
KV-21FA240
KV-21FA240
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10 E0 UH 7S 0 50 1 e0 uH-buS oediV/VT 7 70 0
20 P0 HS 5S 1 30 6 s0 senprahS-buS VUY/oediV/VT 24 0 24 4
30 O0 HS 0S 0 70 0 )0 ciPtnegilletnI(tesffOssenprahS-buS eno 6n 0
40 L0 OC 1S 3 30 6 r0 oloC-buS /)oediv(maces05/)vt(maces05/)oediv(lap05/)vt(lap05BGR06/BGR05/VUY06/VUY05/oediv06/VT06
0 10 03 10 13 13 03 10 03 10 3
50 O0 OC 0S 0 30 0 )0 ciPtnegilletnI(tesffOroloC-buS eno 2n 0
60 C0 I 1P 3 70 2 ;1 )dilavni(001>;)dilav(001~0:AG[lortnoCerutciP])dilavni(6tiberongi;)dilav(36~0:srehtO
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80 T0 R 1B 3 70 2 ;1 )dilavni(001>;)dilav(001~0:AG[lortnoCssenthgirB])dilavni(6tiberongi;)dilav(36~0:srehtO
)ataDteseRresU=lanosreP:AG(ledoMerutciP0 05 05 5
90 E0 U 1H 3 70 2 ;1 )dilavni(001>;)dilav(001~0:AG[lortnoCeuH])dilavni(6tiberongi;)dilav(36~0:srehtO
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01 P0 H 1S 3 70 2 ;1 )dilavni(001>;)dilav(001~0:AG[lortnoCssenprahS])dilavni(6tiberongi;)dilav(36~0:srehtO
)ataDteseRresU=lanosreP:AG(ledoMerutciP0 06 05 5
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LBH 0W 0 R0 O� 1B 3 30 6 )0 10=BFO(BtesffO�)00=BFO(RtesffOleveL�calB )srehtO/BGR/VU(*)lamroN/WOL/HGIH(pmetlo rc ossecorP-VT 1 13 13 13 13 13 3
10 G0 O� 1B 3 30 6 G0 tesffOleveL�calB )srehtO/BGR/VU(*)lamroN/WOL/HGIH(pmetloc 1 13 13 13 13 13 3
20 V0 RD 7R 3 30 6 R0 tnioPetihW )srehtO/BGR/VU(*)lamroN/WOL/HGIH(pmetlo rc ossecorP-VT 7 73 73 73 73 73 3
30 V0 RD 7G 3 30 6 G0 tnioPetihW )srehtO/BGR/VU(*)lamroN/WOL/HGIH(pmetloc 7 73 73 73 73 73 3
40 V0 RD 7B 3 30 6 B0 tnioPetihW )srehtO/BGR/VU(*)lamroN/WOL/HGIH(pmetloc 7 73 73 73 73 73 3
50 G0 P 0L 0 10 0 t0 eserPniaGBGR eno 1n 0
60 R0 G 1P 3 70 2 )1 RGP(RniaGteserP eno 0n 4
70 G0 G 1P 3 70 2 )1 GGP(GniaGteserP eno 0n 4
80 B0 G 1P 3 70 2 )1 BGP(BniaGteserP eno 0n 4
90 F0 ON 0G 0 50 1 t0 esffOniaGteserP eno pn oolCC 5C 1
01 T0 RB 1S 3 30 6 s0 senthgirB-buS VUY/BGR/srehtO 13 1 13 3
11 O0 RB 0S 0 30 0 )0 ciPtnegilletnI(tesffOssenthgirB-buS eno 2n 0
21 L0 G 0E 0 10 0 m0 etsySCCCnipooLniaGelbanE eno 0n 0
31 L0 G 0S 0 30 0 m0 etsySCCCnitnerruChgiHfonoitceleS eno 0n 0
41 B0 K 0A 0 10 0 n0 oitazilibatStnerruCkcalB eno 0n 0
51 S0 B 0C 0 10 0 g0 nitimiLtnerruCmaeBfoecneuqeSlortnoC eno 0n 0
61 B0 BG 0R 0 30 0 g0 niknalBBGR eno 0n 0
71 G0 BL 0B 0 10 0 t0 uptuOneerG&eulBfogniknalB eno 0n 0
81 B0 F 0O 0 10 0 e0 ulBtesffOleveLkcalB eno 1n 0
91 R0 BS 0N 0 50 1 t0 esffOssenthgirBdradnatSnoN eno 0n 0
02 P0 B 0W 0 30 0 )0 woL:3,2,lamroN:1,hgiH:0(gnitteSpmeTroloC edoMerutciP 0 10 10 0
22
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C 0Y 0 Q0 RF 0P 0 30 0 y0 aleDdnaycneuqerFretneCgnikae rP ehto/V rT ossecorP-VT 00 00
10 A0 P 0R 0 30 0 t0 oohSrevO&erPoita rR ehto/VT 10 10
20 O0 P 2R 0 30 0 s0 kaePevitageN&evitisoPfooita rR ehto/VT 10 10
30 Y0 LD 2Y 1 50 1 y0 aleD-Y TUPNI-S/VUY+)OEDIV/VT(*)MACES/CSTN/LAP( 9 780 0 2 90 20 90 0
40 T0 AM 0C 0 30 0 x0 irtaM)ASU/napaJ(CSTNroMACES-LAP 10
50 L0 C 1A 0 10 0 g0 nitimiLroloCcitamotuA 10
60 B0 0C 0 10 0 y0 cneuqerFretneCssapdnaBamorhC )xif0:oediV*(VThtiwylnodila 0v 0
70 O0 B 1S 0 30 0 t0 esffOkcalBMACES 00
80 E0 SH 1C 0 30 0 y0 tivitisneStnedICSTN/LAP 20
90 O0 L 0C 0 10 0 r0 etliF)lleB(ehcolCfoycneuqerFretneC 00
01 P0 RT 0C 0 10 0 e0 doMparTamorhC srehto/MACES 00
110 00 10 00 00 10
210 00 10 00
310 000 13
410 F1
slangiSVUnolortnoCtniT
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20 D0 I 0V 0 10 0 e0 doMtnedIoediV 06/05 0 00 0
30 L0 S 0F 0 10 0 c0 nySlacitreVrofleveLgnicilSdecroF 00
40 L0 S 0S 0 10 0 r0 otarapeScnySleveLgnicilS 06/05 0 00 0
50 D0 IV 1S 0 70 0 n0 oitacifitnedIoediVrofnoitceleSecruoS srehtO/VUY 0 00 0
60 F0 RO 0F 0 30 0 y0 cneuqerFdleiFdecroF *
70 K0 V 0M 0 10 0 g0 niyeKnoisiVorcaM 10
23
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10 A0 F 0C 0 30 0 e0 doMretliFbmoC 00
20 C0 O 2S 0 30 0 l0 eveLgnippilCtfoS 00
30 L0 W 1P 0 10 0 h0 ctiwSgnitimiLetihWkaeP 10
40 L0 TH 6W 00 gnitimiLetihWkaeP 00
50 M0 A 1G 0 10 0 a0 mmaG 00
60 S0 T 1W 0 30 0 h0 ctertSetihWdnalortnoCamma sG rehtO/eviL 10 10
70 R0 F 0T 0 10 0 l0 angiSecnanimuLfooitaRrefsnarTC sD rehtO/eviL 10 10
80 R0 O 3C 0 30 0 g0 niro )C srehto/anyD(*)oediV/VT( 0 00 00 00 0
90 O0 RO 0C 0 30 0 )0 ciPtnegilletnI(tesffOgniroC 20
01 S0 K 3B 0 30 0 h0 ctertSkcal sB rehto/BGR 20
11 S0 A 1A 0 10 0 h0 ctertSkcalBehtffohctiwSotaerAkcalB 10
21 K0 S 0D 0 10 0 l0 ortnoCnikScimanyD 00
31 S0 L 0B 0 10 0 h0 ctertSeul )B SREHTO/HGIH(pmetloc 0 00 0
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51 R0 R 0N 0 10 0 n0 oitcudeRdeRnoN )LAMRON/WOL/HGIH(pmetloc 10 1 10 0
0F
24
KV-21FA240
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JV yT tilanoitcnuF laitinI egnaR noitcnu eF toN&elba eT maNecive nD ommoC
yrogeta .C o eN ma cN e cD eD
FI 0V 0 D0 FI 6O 3 30 6 r0 otaludomeDFItesffO rossecorP-V 5T 3
10 T0 CG 1A 3 30 6 r0 evo-ekaTCGA 13
20 M0 T 0S 0 10 0 e0 doMgninuThcraeS 10
30 D0 0G 0 10 0 l0 angiS1SBVCnoyaleDpuorG 00
40 S0 CG 1A 0 30 0 d0 eepSCGAFI 10
50 I0 F 0F 0 10 0 L0 LPFIretliFtsaF 00
60 I0 AN 0L 0 10 0 e0 ulavlaitinitibANLpmAFR 00
70 T0 AN 5L 9 51 2 l2 eveLdlohserhTpmAFR 591
80 N0 SN 4L 0 70 0 d0 lohserhTleveLNSpmAFR 30
90 D0 SN 2L 0 70 0 d0 lohserhTporDleveLNSpmAFR 10
01 X0 EN 6L 1 30 6 g0 nimiTporDNSkcehcpmAFR 03
11 R0 TH 8C 4 70 2 e1 doMresUpmAFRtesotgrPotuAretfadlohserhTlennahC 52
21 O0 SU 0T 0 10 0 d0 esUrenuTynoS 00
JV yT tilanoitcnu .F tin eI gna nR oitcnu eF toN&elba eT maNecive nD ommo )C deliateD(eulaVlaitinI
yrogeta .C o eN ma cN e cD eD 0edomci 1P edomci 2P edomciP
M 0V 0 D0 BG 3R 0 70 0 t0 uptuOMVottuptuOBGRfoyale eD no rn ossecorP-V 4T 0
10 A0 M 3V 0 30 0 t0 uptuOMVfoedutilpm eA no 0n 0
20 P0 AM 2V 0 30 0 )0 FFO:3,2,woL:1,hgiH:0(gnittesM eV doMerutciP 0 10 00 0
30 O0 MM 3V 0 30 0 e0 doMMV 10
25
KV-21FA240
KV-21FA240
JV yT tilanoitcnu .F tin eI gna nR oitcnu eF toN&elba eT maNecive nD ommoC
yrogeta .C o eN ma cN e cD eD
MED 0S 0 S0 WM 0F 0 30 0 r0 otaludomeDMFrofnoitceleSwodniW rossecorP-V 2T 0
10 S0 S 1Q 0 10 00 )metsysMitlumAGrofA/N(edoMreifilpmA)SSQ(dnuoStilpSisauQ 10
20 B0 P 0B 0 10 0 r0 etliFssapdnaBdnuoSfossapyB 00
30 O0 LM 0A 0 10 0 d0 nuoSMAroflangiStuptuOoiduA 00
40 C0 VP 0H 0 10 0 l0 ortnoCemuloVenohPdaeH 00
JV yT tilanoitcnu .F tin eI gna aR ta nD oitcnu eF toN&elba eT maNecive nD ommoC
yrogeta .C o eN ma cN e cD eD
TX 0T 0 V0 XT 27 X3F I sF pilihProfnoitisoPlacitreVt�eteleT redoceDt�e 0T 0
10 D0 HT A0 X7F I tF fihSegdEevitcAcnys-Ht�eteleT 00
20 R0 BT F0 X1F I sF senthgirBBGRt�eteleT 00
30 Q0 C XA I )F 1-LAP�0-otuA(noitisiu�cAt�eteleT 0000 01
000 100 Activate Mono Channel 00CMCA005
26
KV-21FA240
KV-21FA240
JV yT tilanoitcnu .F tin eI gna nR oitcnu eF toN&elba eT maNecive nD ommoC )deliateD(eulaVlaitinI
yrogeta .C o eN ma cN e cD eD V oT edi bV uSF bR uSoediV ff WO OW/SR dS nuorrusur oT erets oI nomI
PSD 0S 0 L0 B 0B 00 r0F uotnoCEBB DSS *
10 H0 B 0B 00 F s0 secorPEBB *
20 W0 LB 0B 00 F t0 esffOruotnoCEBB *
30 F0 OV 0S 00 F t0 esffOemuloVedoMtceffE/dnuorruS onomI/oeretsI/dnuorrusurT/)WOW/SRS(ffO * * * * *
40 D0 A 0L 00 F t1 sujdAleveLredoceD 50
50 M0 A 0L 00 F t1 sujdAleveLonoM 50
60 N0 A 0L 00 F t1 sujdAleveLmaciN 22
70 S0 A 0L 00 F t1 sujdAleveLPAS 50
80 A0 A 0L 00 F t1 sujdAleveLCDA buSoediV/buSFR/kpSretnec/oediV/FR 0 00 -0 /0 -0 /00
90 F0 E 3S 0 70 0 t0 ceffEoeretS/onoMelbidercnI onomI/oeretsI 5 30 0
01 S0 A 0B 00 F t0 esffOssaBniaM *
11 E0 R 0T 00 F t0 esffOelberTniaM 12
21 10 Q 0E 00 F t0 esffO)zH001(dnaBlennahCniaMrezilauqE 02
31 20 Q 0E 00 F t0 esffO)zH003(dnaBlennahCniaMrezilauqE 30
41 30 Q 0E 00 F t0 esffO)zH0001(dnaBlennahCniaMrezilauqE 00
51 40 Q 0E 00 F t0 esffO)zH0003(dnaBlennahCniaMrezilauqE 00
61 50 Q 0E 00 F t0 esffO)zH0008(dnaBlennahCniaMrezilauqE 00
71 T0 CF 5B 0 70 0 l0 ortnoCEBBdnaB�D�EBD *
81 N0 EC 1S 00 F l0 ortnoCretneCD3SRS 40
91 A0 PS 0S 00 F l0 ortnoCecapSD3SRS 10
02 W0 HB 0B 00 F e0 domWOWnitesffossecorpEBB *
12 E0 RT 2S 0 70 0 e0 domdnuorrusroftesffOelberT 10
22 T0 HB 0B 00 F e0 domVTnitesffOEBB 00
32 E0 RT 2T 0 70 0 e0 domVTnitesffOelberT 20
42 S0 AB 0V 0 30 0 e0 mulovresunodnepedtesffOssaB 00
52 E0 RT 0V 0 30 0 e0 manresunodnepedtesffOelberT 00
62 S0 AB 2T 0 70 0 V0 TroftesffOssaB 00
27
KV-21FA240
KV-21FA240
JV yT tilanoitcnu .F tin eI gna nR oitcnu eF toN&elba eT maNecive nD ommoC
yrogeta .C o eN maN ce cD eD
CED 0S 0 U0 TP 3S 00 F n0 oitcetedreirracPASrofdlohserhTreppU DS 5S 0
10 L0 TP 6S 00 F n0 oitcetedreirracPASrofdlohserhTrewoL 51
20 H0 TP 0S 00 F P1 ASfoetumotuarofdlohserhTesioN 90
30 Y0 HP 4S 00 F P0 ASfoetumotuarofezissiseretsyH 30
40 H0 TM 0F 00 F d1 radnats2AMFni2CSfoetumotuarofdlohserhTesioN 00
50 Y0 HM 4F 00 F d0 radnats2AMFni2CSfoetumotuarofezissiseretsyH 40
60 E0 LIN 46 F )F PEDD(timilrorrerewolMACIN 05
70 E0 UIN 8C F )F PEDD(timilrorrereppuMACIN 002
80 D0 MP 1E 0 30 0 )0 PEDD(gnimmargorPysaECEDMED 1=1tiB3POdna0=SDTSdna0=DMPEfIrevoekatlliwyrogetacCKDSdnaelbasiDsiyrogetacCEDS
10
90 S0 DT 3S 10 F s1 edomSSSdnaDSArofdexelpitlumstiB 31
01 A0 MV 1O 0 10 0 n0 oitpadanoitaludomrevoMF 00
11 W0 BL 0F 0 30 0 h0 tdiwdnabretlifrotaludomedMA/MF 10
21 D0 MD 0I 0 30 0 e0 domSSSnideepstnediMF 10
31 T0 MV 1O 0 20 0 l0 animonotevitalerdlohserhtlevelnoitaludomrevO 30
41 I0 XC 0D 0 10 0 r0 etrevnIlortnoCgnilacSOXCDMACIN 00
51 G0 XC 0D 0 70 0 n0 iaGlortnoCgnilacSOXCDMACIN 00
61 L0 LC 3D 10 F )0 L(timiLlortnoCgnilacSOXCDMACIN 00
71 H0 LC 0D 00 F )1 H(timiLlortnoCgnilacSOXCDMACIN 00
81 R0 KD 1I 0 30 0 D0 TSMnaeroKgnittesDOMDI 00
28
KV-21FA240
KV-21FA240
JV yT tilanoitcnu .F tin eI gna nR oitcnu eF toN&elba eT maNecive nD ommoC
yrogeta .C o eN ma cN e cD eD
VT 0H 0 X0 AM 0V 00 F )3 XAMV+53=XAM(leveLemuloVmumixaM leveLemulo 0V 0
10 I0 NI 9V 10 F n1 orewoPtaleveLemuloVlaitinI leveLemulo 5V 2
20 Y0 BT 0S 0 10 00 )YBTSsyawla=1,sutatsrewoptsalehtwollof=0(sutatSrewoPtsaL rewoPtsa 1L 0
30 G0 RP 1I 00 F )7 sledoMitluMrofylno(norewoPtarebmuNmargorPlaitinI rebmuNmargor 1P 0
JVT y0 tilanoitcnu .F tin eI gna nR oitcnu eF toN&elba eT maNecive nD ommo )C deliateD(eulaVlaitinI
yrogeta .C o eN ma cN e cD eD 05)3:4 0( 6)3:4 s( reht VO UY
MTP 0O 0 T0 HS 6A 0 70 0 )0 nim5*atad(remitffotuhsotuA 60
10 B0 DSO F0 F s1 senthgirbDSO h06orciM/RM 2M 1
20 H0 DS 8O 00 F n0 oitisoPlatnoziroHDSO h06orciM/ATAD 8X 0
30 V0 DS 5O 20 F n3 oitisoPlacitreVDSO)06/05(9:61<>06/053:4<
>)lluFlamroN()mooZediW()ediW(h06orciM/RMM 3 96 3
40 E0 TU 0M 0 10 0 )0 delbane=1(hctiwSetuMlangiSoN 10
50 L0 UFR F0 F )0 hf0nehwelbasiD(dekcolnUretfaretnuoCegnahClangiSFR 10
60 K0 LFR F0 F )0 hf0nehwelbasiD(dekcoLretfaretnuoCegnahClangiSFR 40
70 G0 NA 0L 0 30 0 n0 oitidnocgnippihsegaugnalDSO *
80 T0 XT 0H 0 10 0 w0 srotarepescnyS rossecorP-VT 0 00 0
90 S0 SM 0C 0 10 0 w0 scnyS rossecorP-V 1T 0
01 O0 XCD C3 F e7 ulaVOXCD PSD/h06orciM/RF 7S 4
11 C0 SID 08 F cF edrolocybtsujdaOXCDrofatadOCSIDtegrat 821
21 L0 BX 0E 00 F e0 sioNetihWetanimilEotremiTgniknalBdednetxE 30
31 S0 YS 0T 0 30 00 )ledoMAG(�M:3,K/D:2,I:1,G/B:0�teseRtseTtaMVNnisySVTeziromeM 60
41 W0 SN 1L 0 10 0 )0 ffO:0,otuA:1(noitidnocteseRtseT/gnippihSretsooBlangiS 00
51 L0 UVA F0 F )0 hF0nehwelbasiD(dekcolnUretfaegnahclangisvA 40
61 K0 LVA F0 F )0 hF0nehwelbasiD()dekcolretfaegnahclangisvA 00
71 M0 TSD 10 10 )edompotSelbasid:1,edompotS:0(ybdnatSniedompotselbasiD 00
29
KV-21FA240
KV-21FA240
JV yT tilanoitcnu .F tin eI gna nR oitcnu eF toN&elba eT maNecive nD ommo )C deliateD(eulaVlaitinI
yrogeta .C o eN ma cN e cD eD sreht VO UY
SUP 0O 0 F0 FO 0S 0 10 0 )0 noCAhtiwybdnats:1,noCAhtiwyromemtsalwollof:0(ffoyatS 10
10 H0 CPS 100 F7 noitidnoCgnippihSretfarebmuNlennahC *
20 A0 CP 1S 0 10 0 )0 nOelbaC=1(noitidnoCgnippihSretfanoitceleSelbaC 10
30 R0 BCC F0 F )1 SUrofylno(senthgirBCC 02
40 P0 HC 8C 00 F )0 SUrofylno(noitisophCC 31
50 V0 U 0O 0 10 0 )0 SUrofylno(slangiStupniVUnolortnoCtesffO VUY/srehtO 0 00 0
60 20 AFC 00 10 00 )SUrofylno(nOretliFbmoCdecroF enon 00
70 C0 YS 0H 0 70 0 )0 DISroKCOL,LS(gninuTrofnoitceleScnySH 10
80 K0 LC D7 F )F SUrofylno()nim51/sm8:pets1(tesffokcolcSU 221
90 S0 KLC D7 F )F SUrofylno()nim51/sm8:pets1(tesffokcolcSU 831
JV yT tilanoitcnu .F tin eI gna nR oitcnu eF toN&elba eT maNecive nD ommo )C deliateD(eulaVlaitinI
yrogeta .C o eN ma cN e cD eD sreht CO ST MN ACES
PVP 0O 0 S0 BP 0B 0 10 0 )0 SBPB(edomoeretstaretlifssapdnabdnuosfossapyB rossecorP-V 0T 0
10 C0 YW 0B 0 10 0 )0 CYWB(metsysroloczHM85.3rofedomCYtahtdiwdnaB 00
20 B0 S 0O 0 10 0 )0 BSO(rotaludomedamorhcfoeslupyektsrublanretnifohtdiW 00
30 C0 K 0B 0 10 0 n0 oitisoPyeKtsruB )LAP(srehto/MACES/CSTN 0 00 00 0
)ylno ledom CSTN roF(
30
KV-21FA240
KV-21FA240
JV yT tilanoitcnu .F tin eI gna nR oitcnu eF toN&elba eT maNecive nD ommoC
yrogeta .C o eN ma cN e cD eD
BTP 0O 0 L0 LA 0I 0 10 0 )0 MVNnideziromemton(hctiwSetirWdradnatS X
10 10 BP 0O 00 F )F detalermetsyS(1noitpO 52egaprefer
20 20 BP 0O 00 F )F detalerlangiSoediV(2noitpO 52egaprefer
30 30 BP 0O 00 F )F detalergnidoceDoeretS(3noitpO 62egaprefer
40 40 BP 0O 00 F )F suoenallecsiM(4noitpO 62egaprefer
50 50 BP 0O 00 F )F suoenallecsiM(5noitpO 72egaprefer
60 60 BP 0O 00 F )F detaleregaugnaLDSO(6noitpO 72egaprefer
31
KV-21FA240
KV-21FA240
Category No Name NVM Address 21FA240
SDSP 002 BBL A8E6 00
003 BBH A8E6 00004 BBLW A8E9 06
016 BAS A8FA 18
017 TRE A8FB 18
018 EQ1 AA00 23
019 EQ2 AA01 02
020 EQ3 AA02 00
021 EQ4 AA03 20
022 EQ5 AA04 21
023 BFCT A8F9 00
026 BBHW AA23 00
Category No Name Model
SDSP 005 SVOF 21FA240 AA2A 04 AA2B 11 AA2C 04 AA2D 06 AA2E 04
Category No Name Model
SYNC 006 FORF Brazil A872 00
Category No Name Model
OPTM 007 LANG Brazil A03E 02
Category No Name Model
OPUS 007 SPCH Brazil A03D 05
TableOff
TableOff
OffTable
TableOff SRS/WOW Trusurround Istereo Imono
A03E 02
Category No Name TableOff
SYNC 006 FORF A872 00
OPTM 007 LAN
OPUS 001 SPC 05
32
KV-21FA240
KV-21FA240
SPEED SEARCH (Time of speed search) 00 = disabled (original cycle speed)01 = 4 time speed from the original10 = 6 time speed from the original11 = 8 time speed from the original
Home Theatre 1 = Home Theatre mode availableWide Screen 1 = Wide Screen modelTV System Selection (M,B/G, I, D/K) 0 = disabled, 1 = enabled
INFORMAÇÃO DO ITEM
No. OPB1
Party Mode Party Mode Function 0 = not available, 1 = availableFM Radio FM Radio Function 0 = not available, 1 = availableComponent (Component [YCbCr] Terminals) 0 = not available, 1 = availableComposite (No. of Composite Terminals) 00 = 1 composite terminal
01 = 2 composite terminals 10 = 3 composite terminals 11 = 4 composite terminals
(BX1L FULL only)SECAM (SECAM Color System) 0 = disabled, 1 = enabledColor decoding (Color Crystal Selection) 00 = PAL/NTSC (Multi)
01 = NTSC (3.58MHz)10 = PAL/NTSC (4.43MHz)11 = PAL/NTSC (Tri-Norma)
Item Speed Search Home Wide M B/G I D/K DECTheatre Screen
KV-21FA240 0 1 0 0 1 0 0 0 72
No. OPB2
Item Party Mode FM Radio Component Composite SECAM Color Decoding DEC(SCART)
KV-21FA240 0 0 1 0 1 0 1 1 43
33
KV-21FA240
KV-21FA240
Sound Special Sound Special Feature 0 = disabled 1 = enabled1 spk Models 1 Speaker Models 0 = 2 or 3 Speaker Models,
1 = 1 speaker ModelsVM (Velocity Modulation) 0 = disabled, 1 = enabledWSS-RF WSS detection in RF mode 0 = disabled, 1 = enabledSurround (Surround Selection) 00 = Off/Simulated/Surround
01 = Off/Simulated/SRS (3D) Surround10 = Off/Simulated/WOW/TruSurround11 = No Surround
TOP (Forced TOP) 0 = Auto Mode (TOP/FLOF), 1 = Forced TOPTEXT (Teletext Model) 0 = Non-Teletext Model, 1 = Teletext Model
No. OPB4
Reserved Not usedNICAM ST (NICAM Stereo) 0 = disabled, 1 = enabledNICAM BI (NICAM Bilingual) 0 = disabled, 1 = enabledA2 ST/BI (A2 [West German]
Stereo/Bilingual) 0 = disabled, 1 = enabledThai Bilingual (A2 [Thai] Bilingual)
or Force SAP if US ST is active 0 = disabled, 1 = enabledUS ST (US Stereo) 0 = disabled, 1 = enabledKorean ST (Korean Stereo) 0 = disabled, 1 = enabledMONO (Monaural Model) 0 = Stereo (SSD) Model
1 = Monaural Model
No. OPB3
Item Reserved NICAM NICAM A2 ST Thai US ST Korean MONO DECST BI Bilingual ST
KV-21FA240 0 0 0 0 0 1 0 0 4
Item Sound 1spk VM WSS-RF Surround Top Text DECSpecial Models
KV-21FA240 0 0 0 0 0 0 0 0 0
34
KV-21FA240
KV-21FA240
No. OPB5
Signal Booster Signal Booster feature 0 = disabled, 1 = enabledMSYS ASD (ASD Improvement for 0 = disabled, 1 = enabled
M System channels)*Only applicable when ASD = 1
COSMIC ASD Automatic Standard Detection 0 = disabled, 1 = enabledUsing COSMIC (Non-Stereo)
ASD (Automatic Standard Detection) 0 = disabled, 1 = enabledTilt (Tilt Correction/PIC Rotation) 0 = disabled, 1 = enabledBand Edge (VHF-H band Limit Position) 0 = 427.25MHz, 1 = 429.25MHzIP (Intelligent Picture & 0 = disabled, 1 = enabled
Intelligent Picture Plus)Wide (Wide Mode/V-Compressed) 0 = disabled, 1 = enabled
Reserved Not used3D OSD (BX1L Full version GA Multi 0 = Normal with 3D Intelligent Picture OSD
Destination ONLY) 1 = Disable 3D Intelligent Picture OSD
3D Comb 3D comb feature 0 = Comb Not available1 = Comb available
PiP PiP feature 0 = PiP Not Available1 = PiP available
OSD Language Selection US (GA NTSC) 1x1x = Complicated Chinese1xxx = Simplified Chinese
GA x1xx = Arabic/Russianxx1x = Thaixxx1 = Persian/Vietnamese
No. OPB6
Item Signal MSYS COSMIC ASD Tilt Band IP Wide DECBooster ASD ASD Edge
KV-21FA240 0 0 0 0 0 0 1 1 3
Item Reserved 3D OSD 3D Comb PiP OSD Language Selection DEC
KV-21FA240 0 0 0 0 0 1 0 1 5
KV-21FA240
KV-21FA240 35
4-1. LOCALIZAÇÃO DAS PLACAS DE CIRCUITO
Placa A
SEÇÃO 4: DIAGRAMAS
4-2. INFORMAÇÕES SOBRE PLACAS DE CIRCUITO IMPRESSO E DIAGRAMAS ESQUEMÁTICOS
Todos os capacitores estão µF a menos que indicados. pF : µµF 50WV ou menos não são indicados, exceto para os eletrolíticos e os de tântalo.Todos os eletrolíticos são de 50V a menos que especificados.Todos os resistores estão em ohms. k=1000, M=1000kPara indicações de resistência, que não tiverem o valor da potência segue o seguinte: Pitch : 5mm Rating electrical power : 1/ 4 W em resistência, 1/10 W e 1/ 8 W em resistência de chip.
: resistor anti-chama : fusistor
: componente interno : designação no painel e ajsutes para reparo
: terra : terra (chassis)
Todos os variáveis e resistores ajustáveis tem curva característica B, a menos que especificados.As leituras devem ser feitas com sinal de barras coloridas. As leituras devem ser feitas com um multímetro digital de 10MohmsAs tensões estão em relação ao terra DC a menos que especificadas.Variações de tensão podem ser consideradas desde que dentro da tolerância.Todas as tensões estão em V.S : impossível de medir
: B+line.: linha +B
(o valor atual medido pode ser diferente).: linha do sinal . (RF)
Números circulados se referem a formas de onda.
INFORMAÇÃO PARA REFERÊNCIARESISTOR : RN METAL FILM: RC SOLID: FPRD CARBONO ANTICHAMA: FUSE FUSIVEL ANTICHAMA: RW FIO ANTICHAMA: RS METAL OXIDE ANTICHAMA: RB CIMENTO ANTICHAMA: RESISTOR AJUSTÁVEL
INDUTOR: LF-8L MICRO INDUCTOR
CAPACITOR: TA TANTALUM: PS STYROL: PP POLYPROPYLENE: PT MYLAR: MPS METALIZED POLYESTER: MPP METALIZED POLYPROPYLENE: ALB BIPOLAR: ALT ALTA TEMPERATURA: ALR HIGH RIPPLE
Os componentes sombreados ou com a marca ! são críticos para asegurança.Somente os substitua pela peça especificada.
O símbolo indica fusível de operação rápida. troque-os somente por outro de mesmo valor, como indicado.
Placa C
Placa J
KV-21FA240
KV-21FA240 36
4-3. DIAGRAMAS EM BLOCOS E ESQUEMÁTICOSDIAGRAMA EM BLOCO DO FLUXO DE SINAL
A ( )POWER SUPPLY ,AUDIO, DE FLE CTION,
TUNE R , JACK
CN901
63
R OUT
62
30 S IF IN 2
S CAR T HPR
OUT R
112
113
IC001S YS TEM CONTROLLE R ,
V IDE O & AUDIO PROCE S SOR
MUTE
LS R
R OT CTR L
R OT SW
36
61
60
99
97
SWITCH
8
IC200AUDIO AMPLIF IE R
IN R /NC
TU101
S CL
SDA
IF OUT
37
24
25
29 S IF IN 1
VIF IN 2
VIF IN 1
OUT L
SWF 101
54
53
57
56
79
78
48
58
50
49
115
MUTESWITCHQ902
MUTESWITCHQ901
L OUT
J903
R E LAYSWITCHQ601
R E LAYR Y600
LINEF ILTE RT600
LINEF ILTE RT603
MAINR E CTIF IE RD604
P16
P15
P7
P9
P3
P5
P11
P10
P12
P14
P1
R IN 3
L IN 3
R IN 1
L IN 1
V OUT
V OUT MON
SWF 100
S CL
SDA
R 2
L2
CN600
CN601
CN602
2
1
2
1
2
1
S CAR T HPR
IN R 3
IN L3
IN L1
IN R 1
Y /G IN
R -Y /R IN
MON OUT
CVBS 1/-/1
INR 2
INL 2
DGC R E LAY
104
2
5
9MUTE
IN L
7
12
10
PW GND
OUT L
OUT R /NC
VCC
7
6
5
8
IC003NVM
I O
IC002IR R E CE IVE R
87
119
86
85
22
23
67
5
3 7
IC801COMPAR ATOR
1
IC804VE R T ICAL DE FLE CT ION
BOOS TE R
5DR V-IN
2
4
OUTPUT
VCC
VS S
Q806Q807 Q808 5
IC802P IN AMP
3
SWITCHQ803
1 4
63
1
3
5
7
8
16
13
14
15
17
18
12
11
10
IC6072V R E G
IC6063.3V R E G
IC6029V R E G
IC605E R RORAMP
1 2
IC6045V R E G
IC60318V R E GULATOR
5
IC601SWITCHINGR EGULATOR
2
4 3
1
1.8V AUDIO
+3.3V
+5V
+9V
+1.8V MAIN
+BPHY600IS OLATOR
1
4
2
6
5
FV
HV
SV
13
9
8
7
11
T801
SWITCHS 800
J200
CN200
1
4
CN904
2
3
4
3
CN005
CN004
2
3
4
B INT
B DAT
B CLK
KE Y
B OUT
G OUT
R OUT
TO C BOARDCN701
TO CONTROL PANE L
DY800
6
5
4
3
2
1
CN801
1
4TO C BOARDCN703
8V
T800
T602S R T
LS L
MO MUTE AUDIO
SDA1
S CR 0
SDA0
S IR S C
B INT
KE Y
B OUT
G OUT
R OUT
VD-
H OUT
VD+
DGCT
DGCT
DGC
DGC
F6005A250V
S 600
V IN 1
OUTVCC
D821
D819
H.DY
H.DY
V.DY
V.DY
DY
HEADPHONE S
TO S PEAKE R S
S PL
S PR
TO P ICTUR E TUBE
FV
AC IN
AC IN
FR ONTSOCKE TS
S CAR T
AUDIO 1
TO C BOARDJ751
200V
H1
21EWD
1
7
61
Q016
108
106
109
102
LINEF ILTE RT604
51 CVBS 2/Y2
V2
U-OUT80
Y -OUTB -Y /B IN
+B
KV-21FA240
KV-21FA240 37
1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
A
—
B
—
C
—
D
—
E
—
F
—
G
—
H
—
I
—
J
—
K
—
L
—
M
—
N
—
O
—
P
DIAGRAMA ESQUEMATICO DA PLACA A (1 DE 6) FORMAS DE ONDAS DA PLACA A
5 64
1.6 V p-p (H) 1.8 V p-p (H) 2.0 V p-p (H)
321
2.5 V p-p (V ) 5.4 V p-p (H) 3.2 V p-p (H)
16V100
C013
16V2 . 2
F
C023
10C050
1000p
B
C322
STBY
_SW
1608
50VCH
C03210p
RN-CP
100R058
5%
16V0 . 2 2
B
C022
22C024
L045&10uH
9V
RN-CP
100R025
5%
INL2
CVBS2/Y2
D1_
JP/M
OD
E1_E
U
100p
CH
C021
OUTL
25V0 . 0 1
B
C308
1 2 3 4 5
WHT5P
CN007
YO
UT
GN
D
UO
UT
/F
B
GN
D
VO
UT
B_DAT
4 . 7C037
SC
L-0
MMDL914T1D074
RN-CP
470R337
5%
RN-CP
100R030
5%
RN-CP
4 . 7 kR336
5%
OC
P-P
RO
TEC
T
AFC
-DEF
L
87
65 4
32
1
24WC16WI-TE13IC003
RN-CP
10kR340
5%
0 . 2 2C082
25V0 . 0 1
B
C018
1.8V_AUDIO
RN-CP
100R385
5%
RN-CP
100R323
5%
16V0 . 1
B
C069
B_CLK
470p
CH
C301
10uHL007
PH
2LF
0 .022
B
C325
RN-CP
2 . 2 kR042
5%
16V0 . 1
B
C093
16V100
C056
RN-CP
100R393
5%
VG
UA
RD-D
EFL
CHIP
0R324
0uHFB007
ROT_CTRL
1 2 3 4 5 6 7
WHT7P
CN004
GN
D
BO
UT
GO
UT
RO
UT
GN
D
IK 9V
RN-CP
100R038
5%
470p
CH
C010
RN-CP
220R098
5%
GR
SPB-25MVWFD914
TP03
16V100
C005
W033
10uHL009
DG
C-R
ELA
Y
RN-CP
100R018
5%
2 . 2C073
RN-CP220R097
5%
25VB
C3210 . 0 1
MMDL914T1D056
IFVO/IF_MON_OUT
RN-CP
100R386
5%
CVBS3
2S
IF
SCARTHPL
RN-CP
4 . 7 kR003
5%
16V2 . 2
C044
F
P L L I F
CHIP
R3630
2 . 2C064
MM
DL9
14T1
D00
2
47uHL004
10V0 . 4 7
B
C316
VIF
IN1
-IF
RN-CP
1kR364
5%
16V220
C317
100p
CH
C001
3 . 3C065
MUN2211T1Q001
RN-CP
10kR010
5%
SIF
IN2
-IF
M-S
YS
-IF
RN-CP
100R341
5%
W011
47p
CH
C320
16V0 . 1
B
C063
25V6800p
B
C046
W034
0uHFB006
RN-CP
100R056
5%
0MHzX001
RN-CP
100R048
5%
INL3
RN-CP
6 . 8 kR315
0.5
%
AB
L
MM3Z9V1ST1D023
RN-CP220R099
5%
MM3Z5V6ST1D055
RN-CP
470R011
5%
W031
RN-CP
100R380
5%
SDA
-0
100R384
5%
16V0 . 2 2
B
C048
L04010uH
16V0 . 2 2
B
C025
25V0.022
B
C049
PWR
-OFF
-MU
TE
VZO
OM
L04710uH
16V0 . 1
B
C038
0JR1012
25V47
C008
16V0 . 1
B
C054
100p
CH
C090
INL1
INR3
W010
10V470
C333
OUTR
1000p
B
C052
VCCGND
OUT
RPM7240-H5FIC002
INR2
2700p
B
C083
PG102RD066
MM3Z9V1ST1D075
1
2
3
WHT3P
CN005
GND
NC
KEY
MMDL914T1D071
CHIP0R356
16V100
C036
16V100
C004
1.8
V_
MA
IN
16V470
C002
100R041
5%
RN-CP
5%
68kR379
16V0 . 1
B
C094
HO
UT-
DEF
L
16V0 . 1
B
C020
MM
DL9
14T1
D00
3
1 . 5 kR377
5%
47p
CH
C319
SCARTFBL/A16
L04610uH
UN2216-TXQ006
1608
CHIP
JR10160
VD
+-D
EFL
EWD
-DEF
L
0uHFB005
B_INT
1000p
B
C089
1608
50VCH
C03410p
MON-OUT
RN-CP
2 . 2 kR338
5%
RN-CP
100R002
5%
2 . 2C311
W063
RN-CP
100R339
5%
16V0 . 2 2
B
C030
16V0 . 2 2
B
C042
RN-CP
12kR044
5%
MONO_OUTL
L04110uH
16V0 . 1
B
C096
VDD
C4_
CA
P
MM
3Z5V
6ST1
D06
5
25V47
C026
AUDIO-STDBY
AU
DIO
-MU
TE
1000p
B
C058
100p
CH
C003
RN-CP
6 . 8 kR314
0.5
%
2SA1235TP-1EFQ010
2200p
B
C041
LSR
-AU
DIO
L04210uH
RN-CP
1 . 5 kR015
5%
0uHFB008
MO
MU
TE-A
UD
IO
10
0R
03
9
5%
16V0 . 2 2
B
C014
ROT_SW
RN-CP0.5%
4 . 7 kR320
RN-CP
100R014
5%
RN-CP220R096
5%
RN-CP
100R004
5%
100p
CH
C091
250V0 . 1 5C055
RN-CP
220R087
5%
1000p
B
C312
MM3Z5V6ST1D068
5V
MMDL914T1D058
S2
LSL-
AU
DIO
C3230 . 0 1
C1
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
6566676869707172737475767778798081828384858687888990919293949596
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
TDA12019H/N1E3FIC001
VSS
P2
VSS
C4
VD
DC
4(1
.8V
)
VD
DA
3(3
.3V
)
VR
EF_P
OS_
LSL
VRE
F_N
EG_L
SL+
LSR
VRE
F_PO
S_LS
R+H
PL
vREF
_NEG
_HPL
+H
PR
VRE
F_PO
S_H
PR
XTA
LIN
XTA
LOU
T
VSS
A1
VGU
ARD
DEC
DIG
VP1
PH2L
F
PH1L
F
GN
D1
SEC
PLL
DEC
BG
EWD
VD
-
VD+
VIF
IN1
VIF
IN2
VSC
IRE
F
GN
DIF
SIF
IN1
SIF
IN2
AGCO
UT
EHT0
AVL/2SIF
D1 LIN
D1 RIN
OUTL
OUTR
DECSDEM
MONO_OUTL
GND2
PLLIF
SIFAGC/SCART
IFVO/IF_MON_OUT
INTC0-IF
VCC8V
AGC2SIF
VP2
MON-OUT
INL2
INR2
CVBS2/Y2
C2
INL3
INR3
CVBS3
INL1
INR1
CVBS1/Y1
C1
LSL
LSR
SCARTHPL
SCARTHPR
CVBS0
VMAFC
HO
UT
VSSC
OM
B
VDD
COM
BVIN
UIN
YIN
YSYN
C
YOU
T
UO
UT
VOU
T
SCA
RTFB
L
R-Y
/RIN
Y/G
IN
B-Y
/BIN
GN
D3
VP3
ABLIK
RO
UT
GO
UT
BO
UT
VD
DA
(3.3
V)
VREF
AD
_NE
VREF
AD
_PO
VREF
AD
GN
DA
VD
DA
(1.8
)
VDD
A2
VSSA
DC
VD
DA
DC
(1.8
)
SIRSC
SCL1
SDA1
VDDC2
VSSC2
B INT
D1_JP/MODE2_EU/MONSW-MONO
MOMUTE-AUDIO
AUDIO STDBY
AUDIO MUTE
HD SW
SCL0
SDA0
VDDP(3.3V)
S1/VC(GA)
ROT CTRL
ROT SW
STBY_SW
DGC RELAY
D1_JP/MODE1_EU
VDDC1(1.8V)
DECV1V8
KEY
S2
VSSC1/P
RED LED
GREEN LED
VDDC3(1.8V)
VSSC3
AGC-MUTE
SECAM L-L
M-SYS-IF
25V0.022
B
C053
RN-CP
100R045
5%
1000p
B
C081
VIF
IN2
-IF
3.3
V
10uHL008
RN-CP
100kR395
5%
10uHL006
10V470
C029
10uHL012
16V0 . 1
B
C318
RN-CP
100R024
5%
L04310uH
TU
AG
C-I
F
W030
TP02
RN-CP
0.5
%
39kR051
CVBSO
SE
CA
M-L
-L
MM3Z9V1ST1D024
10uHL005
MMDL914T1D072
16V100
C303
RN-CP
R020100
5%
W003
MMDL914T1D063
MMDL914T1D057
INR1
16V2 . 2
F
C302
VD
--D
EF
L
10V470
C006
D1_
JP/M
OD
E2_E
U/M
ON
SW-M
ON
O
CHIP0
JR1011
AG
C-M
UTE
RN-CP
100R331
5%
RN-CP
100R026
5%
16V0 . 1
B
C028
S1
/VC
RN-CP
100R046
5%
W065
1000p
B
C313
MM3Z5V6ST1D054
SIF
IN1
-IF
MUN2211T1Q016
1.8
V_
AU
DIO
TP04
RN-CP3 . 3 kR317
5%
CHIP
R0210
1000p
B
C080
16V100
C304
CHIP
0JR1014&
SCARTHPR
MMDL914T1D059
CVBS1/Y1
MM3Z9V1ST1D025
OV
P-D
EFL
RN-CP
100R029
5%
CHIP
0JR1013&
RN-CP
2 . 2 kR012
5%
CHIP
R3600
RN-CP
0.5%
4 . 7 kR322
L04410uH
16V0 . 1
B
C092
RN-CP
4 . 7 kR001
5%
25V0 . 0 1
B
C328
RN-CP
10R398
5%
1kR059
5%
25V0 . 0 1
B
C072
UN2216-TXQ007
RN-CP
100R060
5%
16V0 . 1
B
C095
RN-CP
4 . 7 kR394
5%
MM
3Z5V
6ST1
D06
4
10uHL003
TO A BOARD
3 . 6
CN905
3 . 3
3 . 6
AUDIO-VIDEO PROCESSOR
0 . 0
2 . 2
A1/6
CN701TO C BOARD
3 . 3
0 . 3
2 . 1
0 . 0
2 . 0
3 . 3
0.1 1.9
2.3
2.3
2.3
4.3
1.6
2.01.6
2.0
2.0
2.4
1.9
1.9
3.5 0 . 6
0 . 1
2 . 4
3 . 5
2 . 2
2 . 0
1 . 9
2 . 3
2 . 3
2 . 0
2 . 2
2 . 2
1 . 8
2 . 2
2 . 2
1 . 8
2 . 2
2 . 2
1 . 4
1 . 6
3 . 5
3 . 5
3 . 5
3 . 5
2 . 0
0 . 30.5
1.4
1.3
1.3
1.3
2.0
1.8
0.1
0.1
0.1
1.3
1.3
1.3
2.9
3.2
1.61.6
1.60.1
0.1
2 . 9
3 . 3
3 . 3
0 . 7
2 . 4
2 . 7
0 . 0
3 . 3
3 . 2
3 . 3
4 . 9
0 . 0
0 . 0
0 . 0
0 . 0
1 . 8
3 . 3
0 . 0
3 . 5
3 . 3
3 . 3
0 . 0
MICRO
6 5
4 3
0 . 9
0 . 3
2.6
2.3
2.3
3 . 5
0 . 0
2 . 4
A-1152-513-A<BX1S>A-P1
TO BUTTON BLOCK
2
1
MICRO/AV PROCESSOR
SW
VM
GREEN-LED
IR RECEIVER
NVM
RED-LED
MUTE
4-4. INFORMAÇÕES DAS ESQUEMAS E SUPORTE
KV-21FA240
KV-21FA240 38
1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 |
A
—
B
—
C
—
D
—
E
—
F
—
G
—
H
—
I
—
J
—
K
—
L
—
M
—
N
—
O
—
DIAGRAMA ESQUEMÁTICO DA PLACA A (2 DE 6)
100C210
R22310k
RN-CP
5%
R2254 . 7 k
RN-CP
5%
R2081 . 5 k
RN-CP 5%
C2011
6 . 3 VB
R2244 . 7 k
RN-CP
5%
MMDL914T1D203
R2104 . 7 k
RN-CP
5%
35V1000
C2648
CHIP0
R220
2SA1235TP-1EFQ202
C217100025V
W062
1/4W
R24322
RN-CP10k
R216
5%
47R235
FPRD
R2266 . 8 k
RN-CP
5%
RN-CP10k
R215
5%
R237100
RN-CP
5%
CHIP0
R212
R217330
MMDL914T1D214
R222470
RN-CP
5%
C221
25V22
RN-CP
2 . 2 kR242
5%
C2310.047
LSR
-AU
DIO
R20533k
RN-CP 5%
470p
B
C2602
C22010
R2044 . 7 k
RN-CP
5%
MO
MU
TE-A
UD
IO
D2626RN4Z
R2363 . 3 k
RN-CP
5%
MMDL914T1D201
R23447
C21110
9V
MUN2211T1Q206
C2300.047
R23347
16V220
C219
1PS226-115D211
R2071 . 5 k
RN-CP 5%
R2291 . 5 k
RN-CP5%
Q204MSD601-RT1
C2020.068
C2261
10VB
C2080 . 1 5
B
RN-CP15k
R213
5%
5APS2601
R22712k
RN-CP
5%
C2370 . 1
C2152200
MMDL914T1D212
16V
C241470
C2232200
1 2 3
CN2013P
WHT
3DO
UT+
GN
D
GN
D/3
DO
UT-
22C218
330R219
10uHL2601
CHIP0
R218
1 2 3 4
CN2004P
WHT
SP
L
GN
D
GN
D
SP
R
MMDL914T1D213
MMDL914T1D202
PT
0.047C232
MMDL914T1D205
AU
DIO
-MU
TE
AU
DIO
_2
J201
27 351 49 68
C2070.047
PT
R2000
CHIP
C2060 . 1 510V
B
RN-CP
2 . 2 kR241
5%
PWR
-OFF
-MU
TE
FPRD
1R2646
MO
N-M
UTE
-AU
DIO
RN-CP15k
R214
5%
C214100025V
R2014 . 7 k
RN-CP
5%
MUN2211T1Q200
R2323 . 3 k
RN-CP
5%
R2114 . 7 k
RN-CP
5%
R2300
CHIP
FB26021.1uH
C2282 . 2
C2271
10VB
Q205MSD601-RT1
C21622
81 2 3 4 9765 1 0 11 12
IC200AN17804A
OU
TC/N
C
INR
/NC
RF
S_G
ND
INL
INC
/NC
OU
TL
MU
TE
PW_G
ND
VCC
STB
Y
OU
TR/N
C
500V470p
B
C2631
2SA1235TP-1EFQ201
C2241
6 . 3 VB
R238100
RN-CP
5%
R2030
CHIP
1000C2636
C2030.06816V
B
JL217
R20233k
RN-CP
5%
R22812k
RN-CP5%
0 . 1
B
C213
470p
CH
C234
RN-CP1k
R221
5%
MMDL914T1D208
C2040.047
PT
FPRD
10kR2647
C235470p
CH
LSL-
AU
DIO
AU
DIO
-STD
BY
C2360 . 1
AU
DIO
_GN
D9V
MMDL914T1D204
C2001
6 . 3 VB
AUDIOA 2/6
TO SPEAKERS
AUDIO-AMP
SW
STBY
STBY
AUDIO-STBY
2 . 6
0 . 1
0 . 0 2 3 . 7 0 . 0 1 1 . 8 0 . 9 1 0 . 5 1 1 . 70 . 01 2 . 7
0 . 1
9 . 1
8 . 8
2 5 . 0
2 4 . 30 . 0
2 . 0
0 . 0
0 . 40 . 0
0 . 0
A-1152-513-A<BX1S>A-P2
MUTEMUTE
T O J
CN3400
KV-21FA240
KV-21FA240 39
1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 | 23 | 24 | 25 | 26 | 27 | 28 |
A
—
B
—
C
—
D
—
E
—
F
—
G
—
H
—
I
—
J
—
K
—
L
—
M
—
DIAGRAMA ESQUEMÁTICO DA PLACA A (3 DE 6)
16V100
C668
47C624
4 . 7C621
275V
PP
0 . 2 2C660
1A5GD602
1W
5%
8.2MR650
RN
MTZJ-5.1BD608
16V470
C647
10V4 . 7
C686
F
16V100
C641
450V330
C611
AUDIO_GND
0.15C619
PT
1 2 3 4 5
STR-F6267S LF1357IC601 SB360-S
D639
THP600
4 . 7 kR631
25V0 . 0 1
B
C672
1.8V_MAIN
RN-CP
4 . 7 kR634
5%
2SC3052EF-T1-LEFQ608
470p
CH
C680
123 4
T603
W024
I OG
KIA7805APIIC604
VCCGND
OUT
BA18BC0FP-E2IC607
RY600
RN
560kR661
250V330pC657
120kR658
1%
JW16115
1 2 3 4
KIA78R09API
IC602
11V
5JW1666
W002 16V100C649
16V1000C682
5V
W018
RN-CP
33kR668
5%
FH602
RN-CP0.5%
1 . 5 kR646
RN-CP10kR609
5%
STBY_SW
FH601
10ERB20-TA2B5D617
2SC3052EF-T1-LEFQ601
500V470p
B
C652
2WRS
0 . 2 2R619
25V470
C634
RN
470kR660
AUDIO_2
S3L20UF4D624
16V100
C638
220kR659
1%470pCH
C644
500V470p
B
C653
EY184
MTZJ-15D633 RN-CP
100R655
5%
500V4700p
E
C610
1
2
2PCN600
DGCT
DGCT
5APS604
MMDL914T1D600
18kR618
‘
‘
D3SB60F3D604
470C635
1
2
2PCN601
DGC
DGC
PC123Y22FZ0FPH600
RN-CP1kR647
5%
500V4700p
E
C605
500V4700p
E
C609
16V100
C637
5APS603
35V1000C632
47uHL601
EY004
9V
35V3300C630
RN-CP10k
R635
5%
3 . 3 V
COG
SE135N-LF38IC605
2WRS
0 . 2 7R620
1 2 3 4
PQ018EF01SZHIC603
VDR600
10JW1661
PDZ3.6B-115D635
11V
MTZJ-5.1BD629
EY005
500V470p
B
C626
RN-CP
1kR667
5%10ERB20-TB3D623
16V0 . 1
B
C662
3300pB
C623
220R621
250V2200pC622
E
250V330pC670
500V4700p
E
C606
RN1 . 5 kR612
2kV1500pC628
R
10WRB
1R616
2SC3052EF-T1-LEFQ609
FN155Q605
HS-
A0
07
275VPP
0 . 1C602
250V4700p
E
C600
DGC-RELAY
I OG
KIA78D33P1IC606
5APS605
5JW1683
CHIP0
R625
250V330pC625
10WRB
0 . 6 8R638
11EQS10-TB5D622
MA2ZD14001S0D637
TP601
TP602
+B
RN-CP4 . 7 kR602
5%
HOLD_DOWN
1.8V_AUDIO
1
2
2PCN602
AC IN
AC IN
20JW1665
RN-CP0.5%
18kR623
47uHL600
MTZJ-15D614
16V220
C685
16V2 . 2
F
C678
5APS602
22uHL602
1R656
123 4
T600
2 . 2 kR636
W001
5JW1667
10ERB20-TA2B5D618
JW16535
160V330
C665
10V4 . 7
C643
F
MSD601-RT1Q606
MMDL914T1D638
500V470p
B
C654
AUDIO_1
S600
1.1uHFB603
RN-CP
0.5
%
150kR645
10ERB20-TA2B5D619
RN2 . 2 kR624
2.2R627
0uHFB608
MTZJ-5.1BD605
220p
CH
C616
PG306RD621
250V5A
F600
D1NL20U-TAD615
1A5GD603
7
3 16
17
12
14
13
181
15
8
10
11
5
9
T602
16V100
C639
1.2kV
PP
1500pC612
5V
POWER SUPPLY
SPA
RK
GA
P
SPA
RK
GA
P
DGC
A 3/6
SPA
RK
GA
P
SPA
RK
GA
P
0 . 6 0 . 1 286.6 1 9 . 3 2 . 9
0 . 0
1 0 . 8
2 0 . 7
0 . 0
0 . 7
FOR CHECK
A-1152-513-A<BX1S>A-P3
1.8V REG
ERROR-DET
5V REG9V REG
1.8V REG
STBY-SW
STBY-SW
3.3V REG
RELAY-DRIVE
SWITCHING REG
ACIN
KV-21FA240
KV-21FA240 40
1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 | 23 |
A
—
B
—
C
—
D
—
E
—
F
—
G
—
H
—
I
—
J
—
K
—
L
—
M
—
N
—
O
—
DIAGRAMA ESQUEMÁTICO DA PLACA A (4 DE 6)
FORMAS DE ONDAS DA PLACA A
RN-CP
0.5%
33kR859
87
654
32
1
TJM4558CDTIC802
PG104RD827
25V220
C861
W027
1/2WFPRD
4 . 7 kR414
RN-CP
10kR847
5%
2SC3209LK-TPQ803
2SC3209LK-TPQ8010
1.2kV0.013C840
PP
1/2WFPRD
2 . 2 kR830
VD
--D
EF
L
T801-11
T801-722mHL802
2WRS
1R827
RN-CP
10kR876
5%
123456
6P
DY
800
H+
H+
H-
H-
V-
V+
T801-2
2.2mHL805
120kR8010
RN
1%
T801-4
RN-CP
27kR838
5%
1
2
3
4
5
WHT5P
CN801
200V
NC
GND
H1
NC
0.5
% 47kR888
RN-CP
C8700.068
0 . 0 1
B
C878
RN-CP
100kR877
0.5
%
1000p
B
C876
1SS133D808
9V
RN-CP
22kR821
5%
35V100
C854
+B
100kR8013
RN
1%
T801-9
25V0 . 0 1
B
C825
220p
CH
C832
500V1000p
B
C860
500V1000p
B
C810
2 . 2 kR883
FPRD
200V
PT
0.022C806
25V0 . 0 1
B
C822
FPRD
10R868
T801-5
RN-CP
1kR865
5%
1/2WFPRD
0 . 4 7R401
RN-CP
100kR3045%
FPRD
1kR822
RN-CP
22kR887
5%
MTZJ-5.1BD818
5V
T801-4
RN-CP
47kR8012
5%
MMDL914T1D830
200V
PT
0.022C849
5JW1837
100V
PT
0 . 1C850
AB
L
400VPP
0.022C842
16V0.047
B
C844
RN
15kR413
5JW
1840
160V33
C867
2kV330pC846
B
3WRS
68R890
RN-CP
47kR873
5%
CHIP
R3070
250VPP
0 . 3 3C852
68p
CH
C078
W026
RN-CP0.5%
10kR856
KTA1279Q804
16V0 . 1
B
C831
CHIP
0R872
330kR826
MM3Z5V6ST1D062
1000p
B
C809
VG
UA
RD-D
EFL
500V220p
B
C808
GND_1
RN-CP
100R300
5%
PG104RD823
GND_1
16V0 . 1
B
C833
35V220
C855
100V
PT
0 . 1C838
BY228GPD816
4.7mHL803MM3Z9V1ST1
D815
RN
180kR834
1%
25V0 . 0 1
B
C830
25V220
C857
400VPP
0 . 1C841
RN-CP
6 . 8 kR8009
5%
RN-CP
10kR893
0.5%
RN-CP
33kR824
5%
VZO
OM
10V470
C811
2200p
B
C839
RN-CP
1MR309
5%
RN-CP
1MR312
5%
RN-CP
4 . 7 kR831
5%
T801-11
250V33
C869
KTA1279Q8009
HO
UT-
DEF
L
1000p
B
C845
1.5MR301
5%
RN-CP
1kR851
5%
RN-CP
0.5
%
10kR852
PH
2LF
450V1
C851
RN-CP
4 . 7 kR420
5%
500V470p
B
C868
1WRS
1R878
1.1uHFB800
1SS133D807
PG102RD820
16V0.047
B
C863
EWD
-DEF
L
200VPT
0 . 0 1C848
T801-5
16
08
CHIP
R3050
RN-CP
10kR881
0.5%
MMDL914T1D832
1 2 . 5JW1839
PG104RD824
T801-1
1608
CHIP
R3080
1000p
B
C807
T801-7
500V1000p
B
C862
RN-CP
150kR424
0.5
%
RN220kR879
1%
RN-CP
47kR311
5%
2SC3052EF-T1-LEFQ814
1/2WFPRD
0 . 4 7R400
RN-CP
0.5
% 3 . 3 kR853
8 7 6 5
4321
LM2903DTIC801
1/4WFPRD
1kR828
RN-CP
10kR855
0.5
%
1/2WFPRD
0 . 4 7R405
GND_1
RN-CP
47kR8011
5%
RN-CP
0.5
%
18kR854
0.047C077
PG156RD817
RN-CP
3 . 3 kR870
0.5
%
DGC418D833
PT
0 . 4 7C858
FV
11
13
HV
2
SV
4
1
10
9
8
7
5
6
T801
3WRS
100R889
S800
MM3Z5V6ST1D060
10ERB20-TB3D821
S
IRF614-037Q808
200VPT
0 . 0 1C847
1SS133D805
CHIP
0R843
T801-2
T801-1
1/4WFPRD
1kR825
2SC3052EF-T1-LEFQ008
OCP-PROTECT
RN-CP
1kR310
5%
MMDL914T1D061
VD
+-D
EFL
GND_1
CHIP
0R839
25V0.022
B
C826
10JW1842
RN-CP
150kR313
5%
4
2
1
3 6
T800
10ERB20-TB3D819
RN
220kR880
1%
7 . 5JW1841
1/2W150kR833
RN
180kR823
1%
T801-9
FPRD
2 . 2R891
RN-CP
2 . 2 kR846
5%
3 . 3 V
2SC5885Q805
RN
22kR412
0 . 0 1
B
C877
16V100
C828
RN-CP2.2MR303
5%
1 2 3 4 5 6 7
AN15524AIC804
DR
V-I
N
VC
C(+
13
V)
F.B
-PL
S
VS
S(-
13
V)
OU
TPU
T
VC
C(O
UT
)
REF
-VO
LT
1WRS
220R871
GND_1
1C805
RN-CP
0.5
%
5 . 6 kR864
RN-CP
2 . 2 kR861
5%
16
08
CHIP
R3060
CHIP
0R423
25V0 . 0 1
B
C835
RN-CP
2 . 2 kR882
5%
2SC3052EF-T1-LEFQ806
1/2WRN
68kR411
1SS133D804
1/2W220kR835
4700pB
C837
AFC
-DEF
L
7 . 5JW1834
MM3Z5V6ST1D829
GND_1
RN-CP0.5
% 100kR866
RN-CP
3 . 3 kR895
0.5
%
FPRD
1R869
RN-CP
2 . 2 kR820
5%
RN-CP
10kR421
5%
1/2W220kR406
1/2W4 . 7 kR416
2SA1235TP-1EFQ807
3WRS
1kR829
RN-CP
6 . 8 kR844
5%
L800
CN703
0 . 0
0 . 1
4
1 4 . 0
0 . 2
0 . 0
6 1 . 1
0 . 0
0 . 6
133.5
3 . 4
133.9
6 . 0
0 . 4
TO DY
3 . 2
-12
.0
0 . 2
5 . 9
DEFLECTION
3
2 . 3
9 . 1
A 4/6
1 . 5
3 . 2
-13
.5
4 . 9
13
.6
2 . 2
2 . 6
0 . 0
2
TO C BOARD
3 . 0
0 . 8
6 . 2
9 . 1
1
0 . 4 0 . 2
0 . 1
3 . 0
0 . 4
130.9
0 . 4
5
V-OUT
200V REG
PIN CONT.
COMPARATOR
H-DRIVE
H-OUT
S-CORRECTION
PIN-DRIVE
PIN-DRIVE
SW
A-1152-513-A<BX1S>A-P4
DY
H.DY H.DY V .DY V .DY
54
321
1.40V p-p 132.0V p-p 660.0mV p-p
700.0mV p-p 1.50V p-p
KV-21FA240
KV-21FA240 41
1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 |
A
—
B
—
C
—
D
—
E
—
F
—
G
—
H
—
I
—
J
—
K
—
L
—
DIAGRAMA ESQUEMÁTICO DA PLACA A (5 DE 6)
SIF
IN1
-IF
AG
C
AS
SCL
SDA
5V 30
V
IF
TU101
3WRS
22kR121
1000p
B
C137
16V0 . 1
B
C070
SIF
IN2
-IF
RN-CP0.5%
33R103
RN-CP
22kR355
5%
SWF101
1
2
3
4
5
1000p
B
C100
MMDL914T1D105
4700p
B
C109
25V5 P
B
C112
CHIP
JR10060
0JR1100
RN-CP
2 . 7 kR107
0.01
CH
C117
RN-CP
820R108
5%
10C106
0JR1110
25V0 . 0 1
B
C111
RN-CP
100R115
5%
JL1039
MM3Z5V6ST1D108
5V
16
08
CHIP
R1280
PL
LIF
AG
C-M
UTE
RN-CP
8 . 2 kR106
5%
25V0 . 0 1
B
C057
2S
IF
SC
L-0
100uHL100
2SC3779C,D-AAQ102
1000p
B
C140
RN-CP
680R061
5%
22C118
100uHL106
C1331 0 0 P
CT131
25V0 . 0 1
B
C138
MTZJ-T-77-33BD103
100p
CH
C104
4700p
B
C116
RD3.3SB-T1D106
W058
16V470
C107
VDD
C4_
CA
P
RN-CP0.5%
33R119
0.33uHL101
JW015
SDA
-0
25V0 . 0 1
B
C135
0.01
B
C115
JR11010
CHIP
TU
AG
C-I
F
10V0 . 4 7
C1019
0L107
MM3Z5V6ST1D109
RN-CP
1kR100
5%
TU-AGC
16V470
C108
1/10WRN-CP
R153470k
5%
3300p
B
C061
SE
CA
M-L
-L
CHIP
68R109
VIF
IN1
-IF
0L103
10%
10C101
9V +B
CT139
RN-CP
3 9 0R088
5%
CHIP
0R152
2SC3052EF-T1-LEFQ100
100p
CH
C102
470R149
SWF100
0 . 0 1
B
C119
RN-CP
100R116
5%
MO
NO
_OU
TL
16V470
C120
RN-CP
100R118
5%
VIF
IN2
-IF
1.1uHFB001
1608
CHIP
JR1050150
2 . 7
A 5/6
TUNER
2 . 1
A-1152-513-A<BX1S>A-P5
KV-21FA240
KV-21FA240 42
1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20
A
—
B
—
C
—
D
—
E
—
F
—
G
—
H
—
I
—
J
—
K
—
L
—
M
—
N
—
O
DIAGRAMA ESQUEMÁTICO DA PLACA A (6 DE 6)
F4
CH
C917470p
W054
RN-CP
1kR904
5%
0 . 2 2C902
INL
2
RN-CP
150R931
5%
RN-CP
220R925
5%
W016
CHIP
0JR1903
2012
16VF
C9061
RN-CP
100R9031
5%
RN-CP
10kR946
5%
RN-CP
39kR908
5%
RN-CP
75R929
5%
470p
CH
C916
P1
P10
F1
RN-CP
220kR921
5%
470p
CH
C925
INR
1
P14
P9
P15
MO
N-O
UT
1000p
B
C979
TU-AGC
RN-CP
27kR9027
5%
RN-CP
100R9018
5%
RN-CP
100R9019
5%
9V
F1
1000p
B
C975
P1
CHIP
R90050
1C907
RN-CP
470kR914
5%
RN-CP
220R911
5%
INR
2
W028
16V0 . 1
C062
B
16V2 . 2
F
C901
P16
P10
F2
D1_JP/MODE1_EU
RN-CP
27kR9026
5%
S2
W051
UDZS-5.6BD916
16V2 . 2
F
C900
16V1
F
C919IN
L1
RN-CP
75R930
5%
RN-CP
470R910
5%
B_INT
16V1
F
C909
MM3Z5V6ST1D915
16V470
C903
UN2216-TXQ902
F2
OU
TR
W017
16V1
F
C908
RN-CP
39kR907
5%
W005
PDZ3.6B-115D932
RN-CP
470kR9245%
INR
3
J901
1
2
3
6
7
45
89
10
11
12
13
14
15
16
1718
1 2 3 4 5
5PCN904
AGC
GN
D
BIN
T
BD
AT
BC
LK
PDZ3.6B-115D931
RN-CP
100R9036
5%
P7
CHIP
0R933
RN-CP
100R9030
5%
D1_JP/MODE2_EU/MONSW-MONO
2SA1235TP-1EFQ900
P16
1/10WRN-CP
R916220k
5%
F3
P3
RN-CP
100R9020
5%
470p
CH
C911
P7
RN-CP
100R9023
5%
16V0 . 1
C067
B
CV
BS1
/Y1
470p
CH
C914
JL964
RN-CP
10kR989
5%
RN-CP
220kR920
5%
P11
RN-CP
100R9028
5%
P15
B_DAT
RN-CP
220kR940
5%RN-CP
1kR902
5%
220kR915
5%
W006
RN-CP
75R9053
5%
OU
TLP11
W052
F4
470p
CH
C922
INL
3
UN2216-TXQ901
RN-CP
470kR913
5%
16V2 . 2
F
C967
RN-CP
R909
5%
39k
RN-CP
220R927
5%
CHIP
0R932
16V0 . 1
C060
B RN-CP
75R928
5%
W007
470p
CH
C910
P18
P12
470pC912
RN-CP
75R917
5%
RN-CP
470R906
5%
B_CLK
S1
/VC
P5
P9
RN-CP
220R926
5%
P5F3
5JW1901
CHIP
0R9050
CV
BS2
/Y2
W059
W057
P12
5V
1608
50VCH
C913470p
16V100
C956
47uHL902
RN-CP
220kR941
5%
W035
RN-CP
10kR945
5%
RN-CP
39kR905
5%
1
2
3
4
5
5PCN905
YEL
Y OUT
GND
U OUT / FB
GND
V OUT
P14
P5
P18
P9
MM3Z5V6ST1D918
P3
L
R
V
J903
RN-CP
100R9022
5%
CHIP
0R9006
MO
N-M
UTE
-AU
DIO
16V1
F
C918
470p
CH
C915
25V0.22C955
RN-CP
100R9025
5%
UDZS-5.6BD908
UDZS-TE17-9.1BD900
P12
P11
P10
R2
MON OUT
L1
V I D E O I N 2
Y
TO A BOARD
L OUT
R1
VIDEO2
U
S I N
A 6/6
R OUT
L(YUV)
L2
V
V1
CN007
V I D E O I N 1
R(YUV)
2 . 0
1 . 3
0 . 2
0 . 0
0 . 0
TERMINAL BLOCK
FOR JIG
A-1152-513-A<BX1S>A-P6
KV-21FA240
KV-21FA240 44
DIAGRAMA ESQUEMÁTICO DA PLACA C
1 | 2 | 3 | 4 | 5 | 6 | 7 | 8
A
—
B
—
C
—
D
—
E
—
F
—
G
1
CN7041P
1000V
110MRV750
0.1W
1SS133D781
500V1000pC787
250V4 . 7
C7541/2W560k
R773
1SS244-T-77D755
1
2
3
4
5
WHT5P
CN703
200V
NC
GND
H1
NC
5JW1782
2WRS
R7810 . 5 6
1/2W100
R765
250V10
C751
PG102RD750
1/2W100
R764
1/2W1k
R756
5%
50V1000p
B
C7821/2W
1k
R757
5%
1/2WFPRD
100kR795
R7741503WRS
RN-CP
680R752
5%
2kV4700p
EC752
1SS244-T-77D756
1SS133D780
R7130
1
2
3
4
5
6
7
7PCN701
WHT
GND
B
G
R
GND
1K
9V
RN-CP
680R754
5%
5JW1781 &
250V4 . 7
C781
RN-CP
680R753
5%
5JW1783
1SS244-T-77D754
500VB
C753
1000p
1 2 9876543
TDA6108AIC751
BIN
GIN
RIN
GN
D
IK VDD
RO
UT
GO
UT
BO
UT
1000p
B
C7861/2W470k
R780
1
1PCN705
GND
3
4
5
6789
10
11
13
1
GND
GND
1J752
22uHL780
1/2W100
R783
1/4W0 . 4 7R794
C783
1000p50VB
MM3Z5V6ST1D782
1/2W100
R763
1/2W1k
R758
5%1/4W
22R796
CN004
C BOARD
4
1 . 7
1
2
5
B
3
139.2
A-1179-571-A<BX1S>C
G
RGB DRIVE
138.44 . 2
CN801
R
TO A BOARD
149.01 . 7
CRT DRIVE
RCV
1 . 6
FV
6
TO A BOARD
TO T801
FORMAS DE ONDAS DA PLACA C
321
1.6V p-p (H) 1.2V p-p (H) 1.4V p-p (H)
124.0 V p-p (H)
4
104.0 V p-p (H)
5
116.0V p-p (H)
6
KV-21FA240
KV-21FA240 46
DIAGRAMA ESQUEMÁTICO DA PLACA J
1
2
3
WHT3P
CN3400
3D + IN
GND
GND/3D - IN
MTZJ-30D3400
MTZJ-30D3401 J3400
1
2
J 3D SW JACK
A-1119-145-A<BX1S>J
CN201
TO A
LADO DE COMPONENTE[3D SAW JACK] J
CN
34
00
31
A-1405- 802-A
J3400
D3402 D3403
PF
LP
3D
+IN G
ND
GN
D/3
D-I
N R2
D3
40
0
D3
40
1
1-687-882-12 (1-722-475-12)
1
A
B
C
2 3 4 5
LADO DE CONDUTOR[3D SAW JACK] J
cam3
JL003JL008
JL007
JL002
JL005
cam8 JL001
JL004JL006
CN3400
13
D3402
GN
D
D3403
J3400
3D
+INR2
GN
D/3
D-IN
(1-722-475-12)1-687-882-12
D3
40
0
D3
40
1
cam3
JL003JL008
JL007
JL002
JL005
cam8 JL001
JL004JL006
1
A
B
C
2 3 4 5
KV-21FA240
KV-21FA240 47
2SB709A-QRS-TX2SD601A-QRS-TX
2SB734-T-342SC3209LK-TP
2SA1837
2SA1091O-TPE2
2SA1309A-QRSTA2SC3311A-QRSTA2SD2144S-TP-UVW
2SC3840K
IRF614 2SK2663 2SD2578-YB2SC4793
ERB44-06TP11SS83TDGP08DPKG23RGP10GPKG23RU4AM-T3
RD9.1EW-T1 MA111-TX UDZ-TE-17.5.1B UDZ-TE-17.91B
D2SB60A-F04 DAP202K-T-146 D4SB60L-F
D5LC20U
E
B
C
BCE
LETTER SIDE
E C B
LETTER SIDE
EC B B
C E
E C BG D S
DG
S1 2 3
CATHODE
ANODE
ERA38-06TP1ERA82-004TP51SS133T-77D1NS0R-TAMTZJ-T-77-12CMTZJ-T-77-15BMTZJ-T-77-33BMTZJ-T-77-39
CATHODE
ANODE
CATHODE
ANODE
ANODE
CATHODE
+~
-~ 1
2
3
1
2
3 {'
'
{
' '
MARKING SIDE VIEW
CATHODEANODE
CATHODE
CATHODE
ANODE GATE
TF541M
RU-1PERC06-15SEGP20DPKG23MTZJ-T-77-5.1CMTZJ-T-77-5.6CMTZJ-T-77-7.5AMTZJ-T-77-10BMTZJ-T-77-30DRGP10-GPKG3RGP02-17PKG23RGP15GPKG23
4-5. SEMICONDUTORES