Page 1
Self Diagnosis
Supported model
MANUAL DE SERVIÇO
MODEL NAME REMOTE COMMANDER DESTINATION CHASSIS NO.
KV-21FA240
Instruções do
Acrobat Reader
RM-YA005 BRAZIL SCC-S80B-A
BX-1S
CHASSIS
9-883-704-01
KV-21FA240 RM-YA005
TELEVISOR EM CORES TRINITRON
®
Page 2
3-2. ACESSANDO O MENU DO MODO DE SERVIÇO
Utilize 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 +
Na tela indicará primeiramente dados de serviço da categoria.
POWER
KV-21FA240
category in decimal item name in decimal NG service command frequency video input name
GEOM 000 HPOZ 055 x SERVICE 60 VIDEO 1
release ID version in binary for factory color system (decimal)
STR31 7.11U 0011 1111 FF FF - - - - - 00084
000 00 00 0000 3E 40 000 004000 0000FF
1.
No controle remoto pressione a tecla
2. Tecle 1
3. Tecle 3
4. Tecle
para selecionar próximo item ou
para aumenter o valor do dado ou
MUTING
item no. service data NVM field channel no./
software service data reserved power on time
depois
0 para escrever na memória.
GEOM 000 HPOS 039 SERVICE 50 VIDEO 1
Flash DCXO #1 SSD #2 SSD
2
para selecionar próxima categoria ou
Status Byte Status Byte
5 ara selecionar categoria anterior.
4 para selecionar item anterior.
6 para diminuir o valor do dado.
VERDE
escreva com [MUTING].
VERDE
GEOM 000 HPOS 039 WRITE 50 VIDEO 1
confirmar com -.
VERMELHO
GEOM 000 HPOS 039 WRITE 50 VIDEO 1
Indica “WRITE” quando
alvando as alterações.
“WRITE” muda para vermelho
quando salvando, a seguir muda
para “SERVICE”
Resetando Menu do Usuário
Utilize 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.
KV-21FA240
17
Page 3
KV-21FA240
3-3. CONFIRMAÇÃO DE ALTERAÇÃO
NO MODO DE SERVIÇO
1. Após completar os ajustes, desligue o cabo AC da tomada e religue
na 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 BRANCO
NOTA: É necessário executar o ajuste do FOCO antes de iniciar
o ajuste do Balanço de Brancot. (Veja item 2-3. FOCO)
1. Entre no Modo de Serviço
2. Coloque um sinal branco.
3. Coloque na condição a seguir:
Contraste “DINÂ
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
10. Coloque PICT 006 “WTS” para voltar no dado inicial.
MUTING
MICO”, PICT 006, anote o valor do “WTS”
ENTER
depois
para slavar 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 Cor
1. 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
1
7. Tecle
ou 4 para selecionar SADJ 004 “SCOL”, depois ajuste
B2=VB3=VB4
V
6
, depois escreva no dado +5 passo adiante .
VB1
VB2 = VB3 = VB4 (for PAL) VB1 = VB4 (for NTSC)
(for PAL),
VB2 VB3 VB4 VB1 VB2 VB3 VB4
2
(B Output) do CN004.
VB1 = VB4 (for NTSC)
(Deferença entorno de 70mV)
pressionando
3
ou
3-5. AJUSTES DA QUALIDADE DE IMAGEM
Ajuste de P Max/Contrast
1. 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
1
7. Tecle
ou 4para indicar SADJ 000 “PMAX”, depois ajuste VR
pressionando
3 ou 6 até que chegar a especificação abaixo:
4
(R Output) do CN004.
Black
1.10 ± 0.03 Vp-p
VR
8. Tecle
9. Coloque “WTS” no dado inicial e Intelligent Picture para “ON”.
10. Copie o dado no.9 para PAL TV & DVD mode.
MUTING
depois
0 para escrever na memória
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 osciloscó
7. Tecle 1 ou 4
ajustar o dado.
8. Tecle
9. Tecle 1 ou 4 para selecionar SADJ 004 “SCOL”, depois
10. Selecione canal de TV com 3.58 e repita itens (3) a (7).
11. Tecle
Tecle
MUTING
MUTING
MUTING
pio no pino
para selecionar SADJ 001 “SHUE”, depois tecle
depois
depois
0 para escrever na memória .
depois
2
(B output) do CN004.
0 para escrever na memória.
0 para escrever na memória.
3 ou 6 para
8. Tecle
MUTING
KV-21FA240
depois
0 para escrever na memória.
18
Page 4
Item No. Function Illustration
GEOM 013 Vertical Shift
(VPOS)
GEOM 011 Vertical Amplitude
(VSIZ)
Note: Adjust VSIZ to
12.4
11.5
GEOM 000 Horizontal Shift
(HPOS)
±
(SPCB)
±
KV-21FA240
Ajuste de Sub Brilho
1. 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.
Ajuste de Geometria
Configuração Geral
1. 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
4. Tecle 3
para aumentar o vlor do dado ou
6 para diminuir o valor do
dado.
5. Tecle
MUTING
depois
0 para escrever na memória.
1ou
GEOM 009 EW Trapezoid
(EWTZ)
GEOM 005 EW Width (EW)
(HSIZ)
Note: Adjust HSIZ to
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
4
GEOM 012 S-Correction(SC)
(SCOR)
GEOM 003 Vertical Linearity
(VLIN)
16.4
15
.3
±
(SPCB)
±
GEOM 004 Vertical Scroll
(VSCR)
KV-21FA240
19
Page 5
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Tabela de Itens de Ajustes
NOTA
a) Na coluna inicial de valor
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
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.
(detailed), o dado após a marca barra
são os valores de referências, p
("/") refe
re-se para o dado do modelo NTSC.
ortanto este é diferente para cada modelo e cada modo.
KV-21FA240
KV-21FA240
20
Page 6
KV-21FA240
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KV-21FA240
28
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29
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KV-21FA240
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30
Page 16
KV-21FA240
Category No Name
NVM Address
21FA240
SDSP 002 BBL A8E6 00
003 BBH A8E6 00
004 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
Table
Off
Table
Off
Off
Table
Table
Off SRS/WOW Trusurround Is tereo Imono
A03E 02
Category No Name Table
Off
SYNC 006 FORF A872 00
OPTM 007 LAN
OPUS 001 SPC
05
KV-21FA240
31
Page 17
SPEED SEARCH (Time of speed search) 00 = disabled (original cycle speed)
01 = 4 time speed from the original
10 = 6 time speed from the original
11 = 8 time speed from the original
Home Theatre 1 = Home Theatre mode available
Wide Screen 1 = Wide Screen model
TV System Selection (M,B/G, I, D/K) 0 = disabled, 1 = enabled
INFORMAÇÃO DO ITEM
No. OPB1
Pa
rty Mode Party Mode Function 0 = not available, 1 = available
FM Radio FM Radio Function 0 = not available, 1 = available
Component (Component [YCbCr] Terminals) 0 = not available, 1 = available
Composite (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 = enabled
Color decoding (Color Crystal Selection) 00 = PAL/NTSC (Multi)
01 = NTSC (3.58MHz)
10 = PAL/NTSC (4.43MHz)
11 = PAL/NTSC (T
ri-Norma)
Item Speed Search Home Wide M B/G I D/K DEC
Theatre 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
(SCAR
T)
KV-21FA240
0 0 1 0 1 0 1 1 43
KV-21FA240
KV-21FA240
32
Page 18
Sound Special Sound Special Feature 0 = disabled 1 = enabled
1 spk Models 1 Speaker Models 0 = 2 or 3 Speaker Models,
1 = 1 speaker Models
VM (Velocity Modulation) 0 = disabled, 1 = enabled
WSS-RF WSS detection in RF mode 0 = disabled, 1 = enabled
Surround (Surround Selection) 00 = Off/Simulated/Surround
01 = Off/Simulated/SRS (3D) Surround
10 = Off/Simulated/WOW/T
ruSurround
11 = No Surroun
d
TOP (
Forced TOP) 0 = Auto Mode (TOP/FLOF), 1 = Forced TOP
TEXT (Teletext Model) 0 = Non-Teletext Model, 1 = Teletext Model
No. OPB4
Reserved Not used
NICAM ST (NICAM Stereo) 0 = disabled, 1 = enabled
NICAM BI (NICAM Bilingual) 0 = disabled, 1 = enabled
A2 ST/BI (A2 [West German]
Stereo/Bilingual) 0 = disabled, 1 = enabled
Thai Bilingual (A2 [Thai] Bilingual)
or Force SAP if US ST is active 0 = disabled, 1 = enabled
US ST (US Stereo) 0 = disabled, 1 = enabled
Korean ST (Korean Stereo) 0 = disabled, 1 = enabled
MONO (Monaural Model) 0 = Stereo (SSD) Model
1 = Monaural Model
No. OPB3
Item Reserved NICAM NICAM A2 ST Thai US ST Korean MONO DEC
ST BI Bilingual ST
KV-21FA240
0 0 0 0 0 1 0 0 4
Item Sound 1spk VM WSS-RF Surround Top Text DEC
Special Models
KV-21FA240
0 0 0 0 0 0 0 0 0
KV-21FA240
KV-21FA240
33
Page 19
No. OPB5
Signal Booster Signal Booster feature 0 = disabled, 1 = enabled
MSYS ASD (ASD Improvement for 0 = disabled, 1 = enabled
M System channels)
*Only applicable when ASD = 1
COSMIC ASD Automatic Standard Detection 0 = disabled, 1 = enabled
Using COSMIC (Non-Stereo)
ASD (Automatic Standard Detection) 0 = disabled, 1 = enabled
Tilt (Tilt Correction/PIC Rotation) 0 = disabled, 1 = enabled
Band Edge (VHF-H band Limit Position) 0 = 427.25MHz, 1 = 429.25MHz
IP (Intelligent Picture & 0 = disabled, 1 = enabled
Intelligent Picture Plus)
Wide (Wide Mode/V-Compressed) 0 = disabled, 1 = enabled
Reserved Not used
3D 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 available
1 = Comb av
ailable
PiP PiP feature 0 = PiP Not Available
1 = PiP av
ailable
OSD Language Selection US (GA NTSC) 1x1x = Complicated Chinese
1xxx = Simplified Chinese
GA x1xx = Arabic/Russian
xx1x =
Thai
xxx1 = Persian/Vietnamese
No. OPB6
Item Signal MSYS COSMIC ASD Tilt Band IP Wide DEC
Booster 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
34
Page 20
SEÇÃO 4: DIAGRAMAS
4-1. LOCALIZAÇÃO DAS PLACAS DE CIRCUITO
KV-21FA240
Placa C
Placa J
Placa A
4-2. INFORMAÇÕES SOBRE PLACAS DE CIRCUITO
INFORMAÇÃO PARA REFERÊNCIA
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 estã
Para indicações de resistê
o em ohms. k=1000, M=1000k
ncia, que não tiverem o valor da potência
segue o seguinte: Pitch : 5mm Rating electrical power :
1
/
W em resistência,
4
1
1
/
W e
/
10
W em resistência de chip.
8
: 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 10Mohms
As tensõ
es estão em relação ao terra DC a menos que especificadas.
Variações de tensão podem ser consideradas desde que dentro da tolerância.
Todas as tensõ
es estão em V.
S : impossível de medir
: B+line.
: linha +B
(o valor atual medido pode ser diferente).
: linha do sinal . (RF)
Nú
meros circulados se referem a formas de onda.
RESISTOR
: RN METAL FILM
: RC SOLID
: FPRD
: FUSE
: RW
: RS
: RB
:
INDUTOR
: LF-8L MICRO INDUCTOR
Os componentes sombreados ou com a marca
seguranç
a.Somente os substitua pela peça especificada.
O sí
mbolo indica fusível de operação rápida. troque-os
somente por outro de mesmo valor, como indicado.
CAPACITOR
: TA TANTALUM
: PS STYROL
CARBONO ANTICHAMA
FUSIVEL ANTICHAMA
FIO ANTICHAMA
METAL OXIDE ANTICHAMA
CIMENTO ANTICHAMA
RESISTOR AJUSTÁVEL
: PP POLYPROPYLENE
: PT MYLAR
: MPS METALIZED POLYESTER
: MPP METALIZED POLYPROPYLENE
: ALB BIPOLAR
: ALT
: ALR HIGH RIPPLE
!
são críticos para a
ALTA TEMPERATURA
KV-21FA240
35
Page 21
A ( )
P OW E R S U P P LY ,
AU DIO , DE F L E C TI ON ,
T UN E R , J AC K
C N90 1
63
R OU T
62
30
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S C AR T HP R
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112
113
IC 001
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36
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60
99
97
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37
24
25
29
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54
53
57
56
79
78
48
58
50
49
115
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Q90 1
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R Y 600
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FI LT E R
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LIN E
FI LT E R
T6 03
MAIN
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D60 4
P1 6
P1 5
P7
P9
P3
P5
P1 1
P1 0
P1 2
P1 4
P1
R IN 3
L IN 3
R IN 1
L IN 1
V O UT
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S C L
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L2
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C N60 1
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2
1
2
1
2
1
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IN L 3
IN L 1
IN R 1
Y/G IN
R -Y /R IN
MON OU T
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INR 2
INL 2
DG C R E LA Y
104
2
5
9
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7
12
10
PW G ND
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6
5
8
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NV M
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IC 002
IR R E C E IV E R
87
119
86
85
22
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67
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3
7
IC 801
C OMP A R AT O R
1
IC 804
VE R T IC AL DE F LE C TI ON
BO O S T E R
5
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2
4
OU TP U T
VC C
VS S
Q80 6
Q80 7
Q80 8
5
IC 802
PI N A MP
3
S WI TC H
Q80 3
1
4
63
1
3
5
7
8
16
13
14
15
17
18
12
11
10
IC 607
2V RE G
IC 606
3.3 V R E G
IC 602
9V RE G
IC 605
E R R O R
AMP
1
2
IC 604
5V RE G
IC 603
18V R E G UL AT O R
5
IC 601
S WI TC H IN G
R E G UL AT O R
2
4
3
1
1.8 V A UD IO
+3.3 V
+5V
+9V
+1.8 V MA IN
+B
PH Y 600
IS O LA TO R
1
4
2
6
5
FV
HV
S V
13
9
8
7
11
T8 01
S WI TC H
S 800
J2 00
C N20 0
1
4
C N90 4
2
3
4
3
C N00 5
C N00 4
2
3
4
B I NT
B D AT
B C L K
KE Y
B O UT
G O UT
R OUT
TO C BO AR D
C N70 1
TO C ON TR OL PA NE L
DY 800
6
5
4
3
2
1
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1
4
TO C BO AR D
C N70 3
8V
T8 00
T6 02
S R T
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S DA1
S C R 0
S DA0
S IR S C
B I NT
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B O UT
G O UT
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VD -
H O UT
VD +
DG C T
DG C T
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AC IN
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+B
4-3. DIAGRAMAS EM BLOCOS E ESQUEMÁTICOS
DIAGRAMA EM BLOCO DO FLUXO DE SINAL
KV-21FA240
KV-21FA240
36
Page 22
4-4. INFORMAÇÕES DAS ESQUEMAS E SUPORTE
DIAGRAMA ESQUEMATICO DA PLACA A (1 DE 6)FORMAS DE ONDAS DA PLACA A
KV-21FA240
A
—
B
—
C
—
D
1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
TO A BOARD
CN905
TOCBOARD
PWR-OFF-MUTE
D066
PG102R
CN701
CN004
7P
WHT
GND
BOUT
GOUT
ROUT
5V
3.3V
9V
C006
470
10V
L003
C004
10uH
100
16V
C005
100
16V
SDA-0
SCL-0
MOMUTE-AUDIO
R394
4.7k
RN-CP
5%
D1_JP/MODE2_EU/MONSW-MONO
2.2
Q001
MUN2211T1
0.0
SW
1234567
D057
MMDL914T1
D058
MMDL914T1
D059
MMDL914T1
GNDIK9V
CN007
WHT
5P
YOUT
GND
U OUT / FB
GND
12345
VOUT
LSL-AUDIO
LSR-AUDIO
AFC-DEFL
R377
1.5k
5%
0.9
0.3
Q010
2SA1235TP-1EF
VM
HOUT-DEFL
321
2.5Vp-p(V) 5.4Vp-p(H) 3.2Vp-p(H)
4
5 6
1.6Vp-p(H) 1.8Vp-p(H) 2.0Vp-p(H)
—
E
—
F
—
G
—
H
—
I
—
J
—
K
—
L
—
TO BUTTON BLOCK
CN005
3P
WHT
GND
NC
KEY
1
2
3
B_CLK
B_INT
B_DAT
AUDIO-STDBY
JR1014
CHIP
C003
100p
CH
R004
100
100
R393
3.6
C001
100p
3.6
CH
5%
5%
C318
0.1
16V
B
100
3.3
8765
C002
470
16V
R014
100
RN-CP
R340
10k
5%
RN-CP
5%
24WC16WI-TE13
IC003
NVM
C020
4321
L006
D056
MMDL914T1
IC002
R331
100
RN-CP
5%
D055
MM3Z5V6ST1
R324
0
CHIP
R338
2.2k
5%
RN-CP
0.1
16V
B
C308
0.01
25V
B
%
5
D068
MM3Z5V6ST1
R003
4.7k
5%
RN-CP
C008
R380
100
RN-CP
5%
47
25V
R015
1.5k
RN-CP
5%
R360
CHIP
R001
4.7k
RN-CP
0
RPM7240-H5F
IR RECEIVER
VCC
0.5%
R322
4.7k
RN-CP
D071
MMDL914T1
GND
OUT
R363
0
CHIP
R336
4.7k
RN-CP
5%
R320
4.7k
RN-CP
0.5%
D072
MMDL914T1
C091
100p
CH
5%
R030
100
RN-CP
D054
MM3Z5V6ST1
L009
10uH
C311
C010
470p
CH
D002
MMDL914T1
R010
10k
5%
RN-CP
R029
100
RN-CP
5%
C090
100p
2.2
CH
D003
MMDL914T1
W063
L042
10uH
Q016
MUN2211T1
MUTE
2.4
C312
1000p
B
L012
10uH
C082
0.22
0.0
1000p
C313
C018
0.01
B
C014
0.22
16V
B
25V
B
L041
10uH
R341
100
RN-CP
ROT_CTRL
C013
100
16V
C328
0.01
25V
B
RN-CP
R020
RN-CP
5%
5%
5%
5%
ROT_SW
R323
100
100
R021
CHIP
R012
RN-CP
R339
RN-CP
R018
RN-CP
0
2.2k
100
100
5%
5%
0.022
C325
5%
R024
RN-CP
B
100
C021
100p
CH
R337
470
RN-CP
JR1011
CHIP
R026
100
RN-CP
L043
10uH
0
R025
100
RN-CP
C022
0.22
16V
C023
2.2
TP03
16V
F
2.9
97
SIRSC
SCL1
98
3.3
SDA1
99
VDDC2
100
VSSC2
101
3.3
5%
5%
5%
B
3.3
3.2
3.3
4.9
0.0
0.0
0.0
1.8
3.3
3.3
0.0
3.3
C024
102
0.7
103
2.4
104
2.7
105
0.0
106
107
108
109
110
111
112
113
114
0.0
115
116
117
118
119
120
121
0.0
122
3.5
123
124
125
126
127
128
TP02
22
BINT
D1_JP/MODE2_EU/MONSW-MONO
MOMUTE-AUDIO
AUDIO STDBY
AUDIO MUTE
HDSW
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
L044
10uH
10uH
C025
0.22
16V
B
VDDA2
VSSADC
VDDADC(1.8)
VSSP2
VSSC4
VDDC4(1.8V)
1 2 3 4 5 6 7 8 9 1011121314151617181920212223242526272829303132
FB005
0uH
L040
10uH
RN-CP
R002
RN-CP
JR1013
&
0
CHIP
&
0
R099
220
RN-CP
R096
220
RN-CP
5%
R097
RN-CP220
5%
5%
Q006
R398
10
RN-CP
5%
3.3
5%
Q007
UN2216-TX
RED-LED
3.3
0.3
D914
SPB-25MVWF
R087
RN-CP
C333
470
R098
220
RN-CP
2.1
2.0
0.0
R
10V
UN2216-TX
GREEN-LED
G
220
5%
5%
RN-CP
D025
MM3Z9V1ST1
C028
0.1
C026
16V
47
25V
GNDA
VDDA(1.8)
VDDA3(3.3V)
VREF_POS_LSL
FB006
0uH
L045
10uH
D024
MM3Z9V1ST1
MM3Z9V1ST1
L046
10uH
B
0.1
VREFAD
VREFAD_PO
VREF_NEG_LSL+LSR
VREF_POS_LSR+HPL
FB007
0uH
C029
470
10V
&
D023
C030
0.22
16V
B
R038
100
100
RN-CP
R039
R041
1.6
0.1
BOUT
VDDA(3.3V)
VREFAD_NE
6
vREF_NEG_HPL+HPR
VREF_POS_HPR
XTALIN
2.3
C032
10p
50V
5%
CH
1608
C034
10p
50V
CH
L047
10uH
1608
C321
0.01
25V
B
R042
2.2k
5%
RN-CP
L007
10uH
R364
1k
C037
4.7
RN-CP
D075
MM3Z9V1ST1
5%
C036
C038
100
1.6
GOUT
5
XTALOUT
2.3
X001
0MHz
R011
470
RN-CP
C301
470p
100
16V
5%
0.1
16V
C302
B
5%
CH
1.6
IK
ROUT
MICRO/AV PROCESSOR
VSSA1
VGUARD
L008
10uH
C322
1000p
2.2
16V
F
R385
100
5%
5%
5%
5%
RN-CP
R384
100
1.3
2.9
3.2
VP3
ABL
GND3
B-Y/BIN
4 3
IC001
TDA12019H/N1E3F
DECDIG
VP1
PH2LF
PH1LF
1.9
2.3
2.6
0.1
C304
100
R044
C046
16V
12k
6800p
25V
RN-CP
B
C044
2.2
5%
16V
F
C083
2700p
C041
2200p
B
C317
220
16V
C042
0.22
16V
B
B
R386
RN-CP
Y/GIN
GND1
B
100
1.3
C049
0.022
25V
C048
5%
B
0.22
16V
1.3
R-Y/RIN
SECPLL
2.3
B
5%
R314
6.8k
0.5%
RN-CP
C092
16V
0.1
SCARTFBL
DECBG
2.3
C050
10
0.1
B
VOUT
EWD
C052
1000p
5%
R045
100
RN-CP
C081
1000p
C080
1000p
R356
CHIP
0
C093
0.1
16V
B
0.1
0.1
UOUT
VD-
4.3
1.6
B
R046
100
RN-CP
B
B
0.5%
C053
0.022
25V
B
1.8
YOUT
YSYNC
VD+
VIFIN1
1.6
C089
1000p
R048
100
RN-CP
D065
MM3Z5V6ST1
R315
6.8k
RN-CP
C095
C094
0.1
0.1
16V
16V
B
B
1.3
2.0
YIN
VIFIN2
2.0
2.0
0.5%
B
C055
0.15
250V
D064
MM3Z5V6ST1
SCARTFBL/A16
C054
0.1
16V
B
FB008
L005
0uH
10uH
C056
100
16V
C096
0.1
R058
16V
100
B
RN-CP
R056
100
RN-CP
1.4
1.3
1.3
VIN
UIN
VSC
HOUT
VSSCOMB
VDDCOMB
1
IFVO/IF_MON_OUT
IREF
GNDIF
SIFIN1
SIFIN2
2.0
2.4
1.9
1.9
R051
39k
RN-CP
C323
0.01
D063
MMDL914T1
5%
5%
0.5
0.3
6566676869707172737475767778798081828384858687888990919293949596
VM
AFC
SCARTHPR
2
SCARTHPL
CVBS1/Y1
CVBS2/Y2
MON-OUT
AGC2SIF
SIFAGC/SCART
MONO_OUTL
DECSDEM
AVL/2SIF
AGCOUT
EHT0
3.5
R060
5%
100
RN-CP
R059
1k
5%
CVBS0
LSR
LSL
INR1
INL1
CVBS3
INR3
INL3
INR2
INL2
VP2
VCC8V
INTC0-IF
PLLIF
GND2
OUTR
OUTL
D1 RIN
D1 LIN
0.6
C058
1000p
B
R317
3.3k
5%
RN-CP
5%
R395
100k
TP04
RN-CP
2.0
64
3.5
63
3.5
62
3.5
61
3.5
60
1.6
C1
59
1.4
58
2.2
57
2.2
56
1.8
55
2.2
54
2.2
53
C2
52
1.8
51
2.2
50
2.2
49
2.0
48
47
2.3
46
45
44
2.3
43
1.9
42
2.0
41
40
2.4
39
JR1012
2.2
38
3.5
37
3.5
36
35
34
0.1
33
W003
CVBSO
SCARTHPR
SCARTHPL
C1
CVBS1/Y1
INR1
INL1
CVBS3
INR3
INL3
CVBS2/Y2
INR2
INL2
L004
47uH
C303
C072
100
0.01
16V
25V
B
0
C073
C064
C316
0.47
10V
B
W030
W031
5%
2.2
R379
68k
RN-CP
C319
47p
CH
C069
0.1
16V
B
2.2
W010
C063
0.1
16V
B
C065
3.3
W033
D074
MMDL914T1
MON-OUT
W065
W034
C320
47p
CH
IFVO/IF_MON_OUT
PLLIF
MONO_OUTL
OUTR
OUTL
1.8V_AUDIO
JR1016
CHIP
1608
0
M
—
N
—
O
—
P
KV-21FA240
A1/6
AUDIO-VIDEO PROCESSOR
MICRO
AUDIO-MUTE
STBY_SW
SECAM-L-L
DGC-RELAY
F
M-SYS-I
W011
S2
S1/VC
D1_JP/MODE1_EU
AGC-MUTE
1.8V_AUDIO
1.8V_MAIN
VDDC4_CAP
L
VGUARD-DEF
PH2LF
VZOOM
OCP-PROTECT
2SIF
A-1152-513-A<BX1S>A-P1
ABL
EWD-DEFL
VD--DEFL
VD+-DEFL
VIFIN2-IF
VIFIN1-IF
SIFIN1-IF
SIFIN2-IF
OVP-DEFL
TUAGC-IF
37
Page 23
DIAGRAMA ESQUEMÁTICO DA PLACA A (2 DE 6)
1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 |
KV-21FA240
A
—
B
—
C
—
D
—
E
—
F
—
G
—
H
—
I
—
J
—
K
—
5%
R238
100
RN-CP
C200
1
6.3V
B
LSL-AUDIO
5%
C234
470p
CH
C227
1
10V
B
CN201
3P
WHT
LSR-AUDIO
3D OUT+
1
2
R237
100
RN-CP
C235
470p
CH
C201
1
6.3V
B
RN-CP
R203
0
CHIP
RN-CP
R226
6.8k
5%
RN-CP
0.0
C226
R227
1
12k
10V
B
RN-CP
5%
R228
12k
5%
RN-CP
5%
TO J
CN3400
GND
GND/3D OUT-
3
R200
0
CHIP
R202
33k
R204
4.7k
RN-CP
R205
33k
MSD601-RT1
RN-CP
5%
0.0
5%
R225
4.7k
C202
0.068
R201
4.7k
RN-CP
5%
0.068
R207
1.5k
RN-CP
5%
C204
0.047
PT
223
R
10k
RN-CP
Q205
MUTE
C230
0.047
5%
C236
0.1
C203
16V
B
5%
R233
47
0.0
%
5
R224
RN-CP
8
9
C206
0.15
10V
B
4.7k
6
R222
470
RN-CP
J201
7
2
1
C223
2200
5%
MSD601-RT1
0.4
3
4
5
R208
1.5k
RN-CP
C207
0.047
PT
Q204
MUTE
W062
C237
R229
1.5k
RN-CP
5%
0.1
C208
0.15
5%
B
RN-CP
R210
4.7k
C228
2.2
5%
OUTC/NC
R211
RN-CP
R232
3.3k
RN-CP
R230
0
CHIP
0.0 23.7 0.0 11.8 0.9 10.5 11.70.012.7
4.7k
C224
1
6.3V
B
5%
IN R/NC
C210
100
C211
10
5%
RF
5%
R236
3.3k
RN-CP
S_GND
IN L
MUN2211T1
R212
0
CHIP
D201
MMDL914T1
IC200
AN17804A
AUDIO-AMP
OUTL
IN C/NC
Q200
STBY
2.0
MMDL914T1
TO SPEAKERS
CN200
4P
WHT
SP L
GND
GND
SP R
1
2
3
4
MUTE
PW_GND
81234 9765 1 01112
R213
15k
5%
RN-CP
R214
15k
RN-CP
R215
10k
RN-CP
R216
5%
RN-CP
24.3
5%
10k
0.0
VCC
STBY
C213
C215
0.1
2200
B
25.0
Q201
2SA1235TP
STBY
5%
D203
MMDL914T1
D202
MMDL914T1
D208
OUTR/NC
-1EF
R234
47
C231
0.047
R218
0
CHIP
C214
1000
25V
0.1
R217
330
C216
22
C220
10
Q202
2SA1235TP-1EF
SW
8.8
C219
220
9.1
D204
MMDL914T1
D211
1PS226-115
16V
C217
1000
25V
R235
47
FPRD
C232
0.047
D205
MMDL914T1
R221
RN-CP
JL217
R220
0
CHIP
PT
1k
C221
22
25V
R219
330
C218
22
5%
L
—
M
—
N
—
O
—
R243
22
1/4W
9V
C241
470
16V
2.6
0.1
5%
RN-CP
MUN2211T1
AUDIO-STBY
R241
2.2k
Q206
5%
R242
2k
2.
RN-CP
R2646
1
FPRD
D213
MMDL914T1
D212
MMDL914T1
D214
MMDL914T1
AUDIO_2
FB2602
1.1uH
AUDIO-MUTE
AUDIO_GND
MOMUTE-AUDIO
AUDIO-STDBY
PWR-OFF-MUTE
PS2601
5A
C2631
470p
500V
B
D2626
RN4Z
C2636
1000
L2601
10uH
C2648
1000
35V
C2602
470p
B
R2647
10k
FPRD
9V
MON-MUTE-AUDIO
A2/6
AUDIO
A-1152-513-A<BX1S>A-P2
KV-21FA240
38
Page 24
DIAGRAMA ESQUEMÁTICO DA PLACA A (3 DE 6)
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
—
KV-21FA240
B
—
C
—
D
—
E
—
F
—
G
—
H
—
I
—
J
—
K
—
L
FOR CHECK
AC
IN
DGC
CN600
2P
CN601
DGC-RELAY
CN602
2P
DGCT
DGCT
DGC
DGC
2P
AC IN
AC IN
IC606
KIA78D33P1
3.3V REG
IO
G
A3/6
C641
100
16V
PDZ3.6B-115
POWER SUPPLY
11V
C610
4700p
500V
E
D602
1A5G
1%
Q605
FN155
1%
1.5k
RN
D605
MTZJ-5.1B
R638
0.68
10W
RB
R658
120k
JW1661
10
R659
220k
D608
MTZJ-5.1B
Q606
MSD601-RT1
C609
4700p
500V
E
THP600
C660
0.22
275V
5%
4700p
SPARK GAP
SPARK GAP
R609
10k
RN-CP
C600
250V
E
F600
5A
250V
PP
W001
FH602
SPARK GAP
EY005
SPARK GAP
W002
C643
4.7
10V
F
S600
RY600
0.0
D600
MMDL914T1
C686
4.7
10V
F
VDR600
C602
0.1
275V
PP
10.8
Q601
2SC3052EF-T1-LEF
RELAY-DRIVE
23
1
T600
4
C657
330p
250V
2
1
2
1
R602
4.7k
RN-CP
5%
EY184
EY004
1
2
FH601
C605
4700p
500V
E
C606
4700p
500V
E
23
1
4
1A5G
T603
‘
‘
D604
D3SB60F3
D603
C670
330p
250V
R612
TP602
R660
470k
RN
R661
560k
RN
R618
18k
R616
1
10W
RB
C612
1500p
1.2kV
PP
C611
330
450V
D633
MTZJ-15
C622
2200p
250V
E
STR-F6267S LF1357
12345
0.6 0 .1 286.6 19.3 2 .9
C616
220p
CH
R620
0.27
2W
RS
R619
0.22
2W
RS
R621
220
IC601
SWITCHING REG
PS604
5A
R623
18k
RN-CP
0.5%
HS-A007
JW1666
JW1667
JW1611
5
C644
470p
D614
MTZJ-15
10ERB20-TA2B5
CH
D615
D1NL20U-TA
D617
C619
0.15
PT
5
5
C624
47
R627
2.2
D618
10ERB20-TA2B5
D619
10ERB20-TA2B5
R624
2.2k
RN
C623
3300p
B
RN-CP
R646
1.5k
0.5%
181
17
316
PS603
5A
PS602
5A
D639
SB360-S
C680
470p
CH
PH600
PC123Y22FZ0F
5
7
8
9
R650
8.2M
1W
RN
5%
C625
330p
250V
0.5%
T602
C621
R645
150k
RN-CP
4.7
R625
0
CHIP
15
14
13
12
11
10
C653
470p
500V
B
D622
11EQS10-TB5
C654
470p
500V
PS605
B
5A
D623
10ERB20-TB3
C626
470p
500V
B
D624
S3L20UF4
JW1653
5
C682
1000
16V
C652
470p
500V
B
C630
3300
35V
C632
1000
35V
D621
PG306R
C628
1500p
2kV
R
JW1683
5
FB603
1.1uH
C634
470
25V
FB608
0uH
2SC3052EF-T1-LEF
STBY-SW
Q608
C635
470
MTZJ-5.1B
L601
47uH
5%
D629
C665
330
160V
C662
16V
0.1
B
D638
MMDL914T1
R667
1k
RN-CP
5%
5%
C647
470
16V
SE135N-LF38
R647
1k
RN-CP
20.7
C672
D635
R668
33k
RN-CP
W018
IC605
ERROR-DET
G
0.01
25V
B
CO
R636
2.2k
5%
R631
1.8V REG
BA18BC0FP-E2
IC607
VCC
GND
1234
TP601
R655
100
RN-CP
4.7k
0.0
2SC3052EF-T1-LEF
OUT
IC602
KIA78R09API
9V REG
PQ018EF01SZH
1234
C649
100
16V
C678
2.2
16V
F
R656
1
0.7
Q609
STBY-SW
JW1665
20
C637
100
16V
C638
100
16V
IC603
1.8V REG
D637
MA2ZD14001S0
3.3V
C685
16V
220
IC604
KIA7805API
IO
G
5V REG
L600
47uH
R634
4.7k
RN-CP
5%
L602
22uH
C668
100
16V
5V
C639
100
16V
W024
R635
10k
RN-CP
1.8V_MAIN
AUDIO_1
AUDIO_2
AUDIO_GND
11V
9V
5V
1.8V_AUDIO
+B
HOLD_DOWN
5%
STBY_SW
—
M
—
A-1152-513-A<BX1S>A-P3
KV-21FA240
39
Page 25
DIAGRAMA ESQUEMÁTICO DA PLACA A (4 DE 6)
1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 | 23 |
KV-21FA240
A
—
B
—
C
—
D
—
E
—
F
—
G
—
H
—
I
—
J
—
K
—
L
—
M
—
D062
D830
MMDL914T1
5%
BY228GP
PG156R
C842
0.022
400V
PP
1%
1%
R877
100k
RN-CP
B
C837
4700p
B
R878
1
1W
RS
4
5
ABL
D816
D817
W1834
J
7.5
JW1842
R879
220k
RN
R880
220k
RN
3
C845
1000p
B
JW1839
12.5
R882
2.2k
RN-CP
10
3
VD+-DEFL
VD--DEFL
R881
RN-CP
0.5%
5%
D818
-5.1
MTZJ
C846
330p
2kV
B
C847
0.01
200V
PT
R883
2.2k
FPRD
1
2
10k
C877
0.01
0.5%
DRV-IN
VCC (+13V)
F.B-PLS
VSS (-13V)
1234567
0.4 0 .2
-12.0
C844
0.047
16V
B
B
C850
0.1
100V
PT
R887
22
RN-CP
R888
47k
RN-CP
13.6
C855
220
35V
D820
PG102R
C854
100
35V
C876
1000p
B
k
C857
220
25V
C858
0.47
PT
R891
2.2
FPRD
C878
-13.5
0.01
B
B
L802
22mH
C848
0.01
200V
PT
L800
S800
C849
0.022
200V
PT
C851
1
450V
10ERB20-TB3
D819
R889
100
3W
RS
C852
0.33
250V
PP
D821
10ERB20-TB3
OUTPUT
C861
220
25V
R890
68
3W
RS
L803
4.7mH
VCC (OUT)
0.5%
R893
10k
RN-CP
0.5%
D824
PG104R
C860
1000p
500V
14.0
B
REF-VOLT
0.4
C862
1000p
500V
D823
PG104R
AN15524A
V-OUT
C863
0.047
16V
B
R895
3.3k
RN-CP
B
4
IC804
R401
0.47
1/2W
FPRD
R400
0.47
1/2W
FPRD
C867
33
160V
OCP-PROTECT
JW1841
5
JW1840
D827
PG104R
7.5
R406
220k
1/2W
R405
0.47
1/2W
FPRD
C868
470p
500V
FORMAS DE ONDAS DA PLACA A
T801
T801-1
T801-1
T801-4
T801-4
T801-2
T801-2
GND_1
GND_1
T801-5
T801-5
R411
68k
W
1/2
RN
R412
22k
RN
R413
15k
RN
B
C869
33
250V
C870
0.068
R414
4.7k
1/2W
FPRD
2SC3209LK-TP
R8009
6.8k
RN-CP
5%
Q8010
1
4
2
6
5
Q8009
KTA1279
200V REG
R8010
120k
1%
RN
R8013
100k
1%
0.1
R8011
0.6
47k
RN-CP
RN
SW
5%
R8012
47k
RN-CP
HV
1.40Vp-p
4
700.0mVp-p
FV
SV
GND_1
13
11
10
5%
GND_1
T801-11
T801-11
L805
2.2mH
T801-9
T801-9
9
GND_1
_1
GND
8
T801-7
T801-7
7
D832
MMDL914T1
D833
DGC418
R416
4.7k
1/2W
1
2
3
4
5
200V
NC
GND
H1
NC
CN801
5P
WHT
TO C BOARD
CN703
132.0Vp-p
5
1.50Vp-p
321
660.0mVp-p
PH2LF
R312
5%
AFC-DEFL
R838
27k
%
5
RN-CP
D829
C830
0.01
25V
B
Q806
2SC3052EF-T1-LEF
PIN-DRIVE
R861
2.2k
6.2
RN-CP
R865
1k
RN-CP
5%
C832
220p
CH
-C
P
R859
33k
2.6
3.2
0.5%
3.2
Q805
2SC5885
H-OUT
0.5%
R852
10k
RN-CP
4321
0.5%
RN-CP
JW1837
0.5%
0.5%
R851
1k
5
R855
10k
RN-CP
R424
150k
RN-CP
R854
18k
RN-CP
R856
RN-CP
0.5%
0.0
W027
EWD-DEFL
R844
6.8k
RN-CP
R853
3.3k
5%
RN-CP
C828
100
16V
0.022
%
5
C825
0.01
25V
B
10k
130.9
0.2
FB800
1.1uH
MM3Z5V6ST1
C826
25V
B
R866
100k
0.5%
RN
RN-CP
R864
5.6k
0.5%
RN-CP
3.3V
R305
1608
CHIP
R300
C078
100
5%
RN-CP
5%
5%
R301
1.5M
5%
+B
9V
5V
133.9
D805
1SS133
R824
5%
RN-CP
33k
Q804
KTA1279
R826
330k
%
5
R822
1k
FPRD
R827
1
2W
RS
R823
180k
1%
RN
R834
180k
RN
1%
0.0
C811
470
10V
133.5
R831
4.7k
RN-CP
D808
1SS133
R83
2
1/2W
R833
150k
1/2W
1SS133
20k
D807
R423
CHIP
5
0
R303
68p
2.2M
RN-CP
CH
0.0
2SC3052EF-T1-LEF
R304
100k
RN-CP
1608
C077
0.047
R846
2.2k
5%
RN-CP
6.0
8765
0
0.4
Q008
R306
CHIP
2.3
IC801
R307
0
CHIP
0.4
R308
0
CHIP
1608
0
.5%
0
3.4
LM2903DT
COMPARATOR
R829
1k
3W
RS
R828
1k
1/4W
FPRD
R825
1k
1/4W
FPRD
C809
1000p
B
Q803
2SC3209LK-TP
R843
0
CHIP
2.2
C822
0.01
25V
B
5%
0.8
5%
1.5
R847
10k
RN-CP
H-DRIVE
C810
C808
1000p
p
61.1
C806
0.022
200V
PT
220
500V
B
R830
2.2k
1/2W
FPRD
500V
B
1
2
36
4
T800
A4/6
DEFLECTION
HOUT-DEFL
R820
2.2k
5%
RN-CP
1
C805
D804
1SS133
5%
1
R821
22k
RN-CP
0.1
C807
1000p
B
RN-CP
R313
150k
5%
5%
RN-CP
R839
0
CHIP
C831
0.
1
V
16
B
9.1
Q807
2SA1235TP-1EF
PIN-DRIVE
D815
MM3Z9V1ST1
S-CORRECTION
IC802
TJM4558CDT
PIN CONT.
4321
VZOOM
1M
R310
1k
RN-CP
5%
5%
R309
1M
RN-CP
D061
MMDL914T1
D060
MM3Z5V6ST1
Q814
2SC3052EF-T1-LEF
0.0
R421
10k
5%
5%
RN-CP
R868
10
FPRD
C833
0.1
16V
B
R869
1
FPRD
5.9
Q808
IRF614-037
8
765
2
5
0.2
4.9
3.0
3.0
R8
3.3k
0.5%
RN-CP
R871
220
W
1
RS
W026
70
R311
47k
RN-CP
RN-CP
C840
0.013
1.2kV
9.1
RN-CP
5%
R872
CHIP
R420
4.7k
PP
R873
47k
0
C841
0.1
400V
PP
C838
0.1
100V
PT
MM3Z5V6ST1
VGUARD-DEFL
S
C835
0.01
25V
B
R876
10k
RN-CP
C839
5%
.5%
2200p
0
6
N
—
O
—
KV-21FA240
DY
H.DY H.DY V.DY V.DY
TO DY
6P
DY800
V+
A-1152-513-A<BX1S>A-P4
H+
H+
H-
H-
V-
40
Page 26
DIAGRAMA ESQUEMÁTICO DA PLACA A (5 DE 6)
1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 |
A
—
B
—
C
TU101
—
KV-21FA240
SWF100
SWF101
1
3
2
C138
0.01
25V
B
JR1100
R106
5%
8.2k
RN-CP
L101
0.33uH
0
4
5
D
—
E
—
F
—
G
—
TU-AGC
C100
1000p
B
AGC
JR1101
L106
100uH
JR1050
150
CHIP
1608
0
CHIP
AS
SCL
R115
100
RN-CP
SDA
R116
100
RN-CP
C101
L107
0
5%
10
5V
30V
C140
1000p
C102
100p
CH
C120
470
16V
5%
2SC3052EF-T1-LEF
R152
0
CHIP
IF
B
D108
MM3Z5V6ST1
Q100
2.7
R118
100
2.1
RN-CP
5%
R100
1k
RN-CP
R108
820
RN-CP
5%
R107
2.7k
RN-CP
C137
1000p
C115
0.01
B
B
R103
C111
JR1110
0.01
0
25V
B
C104
100p
CH
5%
MM3Z5V6ST1
C106
10
C107
470
16V
D109
L100
100uH
C108
470
16V
C109
4700p
B
CT131
C112
5P
25V
B
C133
100P
33
RN-CP
0.5%
MMDL914T1
RD3.3SB-T1
R119
RN-CP
0.5%
D105
D106
R121
22k
3W
RS
33
CT139
10%
R109
68
CHIP
L103
0
2SC3779C,D-AA
C117
0.01
CH
Q102
C116
4700p
B
C1019
0.47
10V
C135
0.01
25V
B
1608
R128
0
CHIP
R153
470k
1/10W
RN-CP
5%
H
—
I
—
J
—
K
—
R149
470
JW015
C118
22
R061
RN-CP
C057
0.01
25V
B
680
PLLIF
C070
0.1
16V
B
2SIF
SIFIN2-IF
SIFIN1-IF
JL1039
JR1006
0
CHIP
VIFIN1-IF
VDDC4_CAP
5%
W058
FB001
1.1uH
VIFIN2-IF
3300p
SECAM-L-L
C061
B
R088
390
5%
RN-CP
MONO_OUTL
D103
MTZJ-T-77-33B
R355
22k
RN-CP
5%
C119
0.01
B
A5/6
5V
SCL-0
SDA-0
9V
AGC-MUTE
+B
TUAGC-IF
TUNER
L
—
A-1152-513-A<BX1S>A-P5
KV-21FA240
41
Page 27
DIAGRAMA ESQUEMÁTICO DA PLACA A (6 DE 6)
1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20
KV-21FA240
A
—
B
—
C
—
D
—
E
—
F
—
TU-AGC
B_INT
B_DAT
B_CLK
D1_JP/MODE2_EU/MONSW-MONO
D1_JP/MODE1_EU
JR1903
0
CHIP
W059
C979
1000p
B
C975
1000p
B
FOR JIG
CN904
5P
AGC
GND
BINT
B DAT
BCLK
1
2
3
4
5
9V
L902
47uH
2.0
R904
1k
RN-C
P
C901
2.2
16V
F
2.2
16V
F
Q901
UN2216-TX
R906
470
RN-CP
5%
0.0
C900
5%
MON-MUTE-AUDIO
R910
470
5%
RN-CP
5%
5%
0.0
R913
470k
RN-CP
R914
470k
RN-CP
C910
470p
CH
C911
470p
CH
R932
0
CHIP
R933
0
CHIP
R9031
100
RN-CP
OUTL
R9030
100
RN-CP
C925
470p
OUTR
MON-OUT
R9028
100
5%
RN-CP
5%
5%
1.3
2SA1235TP-1EF
C922
470p
CH
CH
5%
Q900
R902
1k
RN-CP
C956
100
16V
G
—
H
—
I
—
J
—
K
—
L
—
M
CN905
5P
YEL
UOUT/FB
TO A BOARD
CN007
VIDEO2
VIDEO IN 2
VOUT
GND
GND
YOUT
R2
L2
0.2
C967
2.2
16V
F
D900
W005
5
4
3
2
1
J903
F1
F1
F2
R
L
V
F2
F3
F3
F4
F4
R9005
0
CHIP
R9050
0
CHIP
C916
470p
CH
W006
W007
R940
C917
470p
5%
CH
5%
C918
220k
RN-CP
R941
C919
220k
RN-CP
D931
PDZ3.6B-115
D932
PDZ3.6B-115
16V
16V
R945
10k
1
RN-CP
F
5%
R946
10k
1
RN-CP
F
W035
5%
JW1901
5
D915
MM3Z5V6ST1
D916
UDZS-5.6B
W028
W017
W016
5V
UDZS-TE17-9.1B
D908
UDZS-5.6B
R907
39k
RN-CP
5%
R908
39k
RN-CP
5%
R909
39k
RN-CP
5%
R905
39k
RN-CP
5%
C902
0.22
Q902
UN2216-TX
C903
5%
470
16V
C060
0.1
16V
B
C062
0.1
16V
B
C067
0.1
16V
B
C909
1
16V
F
C908
1
16V
F
C907
1
C906
1
16V
F
2012
R911
220
RN-CP
5%
P18
P18
P16
P16
W051
W052
220
5%
220
5%
220
5%
5%
5%
5%
R920
220k
RN-CP
R921
220k
RN-CP
R915
220k
R916
220k
1/10W
RN-CP
R917
75
RN-CP
RN-CP
R928
75
RN-CP
R929
75
RN-CP
R930
75
RN-CP
R931
150
5%
5%
5%
5%
P12
P11
P10
C912
470p
C913
470p
50V
CH
1608
C914
470p
CH
C915
470p
CH
R9006
0
CHIP
P15
P14
P12
P11
P10
P7
P9
P15
P14
P12
P11
P10
P9
P7
P9
P5
P3
P3
P5
P5
P1
P1
R924
470k
RN-CP
R925
RN-CP
R926
RN-CP
R927
RN-CP
5%
5%
17
18
16
15
14
13
12
11
10
8
9
7
6
4
5
3
2
1
J901
ROUT
LOUT
MON OUT
V
U
Y
R(YUV)
L(YUV)
R1
L1
V1
VIDEO IN 1
SIN
—
N
—
O
KV-21FA240
R9053
75
5%
RN-CP
5%
INL2
R9026
RN-CP
INR2
27k
5%
R9023
R9022
100
5%
100
RN-CP
RN-CP
INR3
5%
INL3
C955
0.22
R9025
100
RN-CP
25V
R9027
27k
RN-CP
CVBS2/Y2
D918
MM3Z5V6ST1
W054
W057
JL964
S2
R989
10k
RN-CP
5%
R9036
100
R9020
RN-CP
INR1
100
5%
INL1
R9018
100
RN-CP
RN-CP
5%
CVBS1/Y1
R9019
100
5%
RN-CP
5%
S1/VC
5%
TERMINAL BLOCK
A6/6
A-1152-513-A<BX1S>A-P6
42
Page 28
DIAGRAMA ESQUEMÁTICO DA PLACA C
KV-21FA240
FORMAS DE ONDAS DA PLACA C
A
—
B
—
C
—
D
—
E
—
F
—
G
1 | 2 | 3 | 4 | 5 | 6 | 7 | 8
1
1
2
3
4
5
1
TO T801
1000V
CN704
1P
200V
NC
GND
H1
NC
CN703
5P
WHT
TO A BOARD
CN801
GND
CN705
1P
CN701
7P
WHT
TO A BOARD
CN004
GND
GND
FV
R795
100k
5%
R756
1/2W
1k
JW1781
5
R764
1/2W
100
SS244-
1
R765
1/2W
100
1/2W
FPRD
R774
150
3W
RS
5%
&
5
D75
T
1SS244-T-77
C751
10
250V
R713
0
JW1782
5
-77
D756
C786
1000p
B
R757
1/2W
1k
5%
C754
4.7
250V
4700p
R781
0.56
2W
RS
JW1783
C752
2kV
1/2W
E
R758
1k
5
R794
0.47
1/4W
C781
250V
4.7
L780
22uH
R780
1/2W
470k
J752
GND
1
1
13
GND
11
RCV
RV750
110M
D780
1SS133
1SS133
D781
C782
1000p
50V
B
R783
100
1/2W
3
1
2
B
3
G
4
R
5
6
1K
7
9V
R752
680
RN-CP
2
1
0.1W
1.7
R754
680
RN-CP
5%
5%
10
R
G
BIN
GIN
12 9876543
1.6
1.7
R753
680
RN-CP
5%
9
RIN
3
4
5
6
7
8
B
IC751
TDA6108A
GND
IK
VDD
139.2
C787
1000p
500V
ROUT
149.0
R773
1/2W
560k
4
5
GOUT
138.44.2
R796
22
1/4W
D750
PG102R
6
BOUT
R763
1/2W
100
D754
1SS244-T-77
C753
B
500V
1000p
C BOARD
CRT DRIVE
RGB DRIVE
D782
MM3Z5V6ST1
C783
B
50V
1000p
A-1179-571-A<BX1S>C
4
1.6V p-p (H)
124.0 V p-p (H)
321
1.2V p-p (H) 1.4V p-p (H)
5
6
104.0 V p-p (H)
116.0V p-p (H)
KV-21FA240 44
Page 29
DIAGRAMA ESQUEMÁTICO DA PLACA J
[3D SAW JACK]
J
LADO DE COMPONENTE
KV-21FA240
TO A
CN201
GND/3D - IN
3D+IN
CN3400
3P
WHT
GND
1
D3400
MTZJ-30
D3401
MTZJ-30
1
2
3
J
3D SW JACK
2
J3400
1
A-1119-145-A<BX1S>J
A
GND
B
PF LP
3D+IN
GND/3D - IN
C
D3400
D3401
2345
A-1405- 802-A
31
D3402
CN3400
D3403
J3400
R2
1-687-882-12 (1-722-475-12)
[3D SAW JACK]
J
LADO DE CONDUTOR
1
A
B
C
2345
3
JL005
JL005
R2
CN3400
JL003
JL003
GND
GND/3D - IN
JL002
JL002
D3401
1
JL007
JL007
3D+IN
JL004
JL004
D3400
JL008
JL008
J3400
cam8
cam8
cam3
cam3
D3402
D3403
JL006
JL006
1-687-882-12
(1-722-475-12)
JL001
JL001
KV-21FA240 46
Page 30
E
B
C
B
C
E
LETTER SIDE
E
C
B
LETTER SIDE
E
C
B
B
C
E
E
C
B
G
D
S
D
G
S
1
2
3
CATHODE
ANODE
CATHODE
ANODE
CATHODE
ANODE
ANODE
CATHODE
+
~
-
~
1
2
3
1
2
3
{
'
'
{
'
'
MARKING SIDE VIEW
CATHODE
ANODE
CATHODE
CATHODE
ANODE
GATE
4-5. SEMICONDUTORES
KV-21FA240
2SB709A-QRS-TX
2SD601A-QRS-TX
2SA1091O-TPE2
ERA38-06TP1
ERA82-004TP5
1SS133T-77
D1NS0R-TA
MTZJ-T-77-12C
MTZJ-T-77-15B
MTZJ-T-77-33B
MTZJ-T-77-39
2SB734-T-34
2SC3209LK-TP
2SA1309A-QRSTA
2SC3311A-QRSTA
2SC3840K
2SD2144S-TP-UVW
IRF614 2SK2663 2SD2578-YB2SC4793
RU-1P
ERC06-15S
EGP20DPKG23
MTZJ-T-77-5.1C
MTZJ-T-77-5.6C
MTZJ-T-77-7.5A
ERB44-06TP1
1SS83TD
GP08DPKG23
RGP10GPKG23
RU4AM-T3
RD9.1EW-T1 MA111-TX
MTZJ-T-77-10B
MTZJ-T-77-30D
RGP10-GPKG3
RGP02-17PKG23
RGP15GPKG23
2SA1837
UDZ-TE-17.5.1B
UDZ-TE-17.91B
D2SB60A-F04 DAP202K-T-146 D4SB60L-F
D5LC20U
KV-21FA240
TF541M
47
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