MAIN SCHEMATIC DIAGRAM - SCHEMA DE LA PLATINE PRINCIPALE - SCHALTBILD HAUPTPLATINE - SCHEMA DELLA PIASTRA PRINCIPALE- ESQUEMA DE LA PLATINA PRINCIPAL ( MAIN BOARD 1/4) / ETC009
0,2
5,7
5V
220 1/4W D834 1N4001
D002 5.6V Q805 SD882
5,1
Q806 NA
R826 330 1/4W D832 5V 6
R827 NA
R829 NA
R825 10 2W
C842 D830 1000u RU3 YX 16V
L803 100uH
C849 470u 16V
+
! 1
D805 1HB
C819 560p 2K V
L801
111
C826 10n
R803 82K
500V
12
!
!
C839 220p 2K V
8 9
R811 15K 1/4W
R810 7K 5
11
R806 D810 56K
R805 4M7 1/2W C814 220n
11 8 2
1 2
R807 1M 1/2W
C808 10n 500V
R817 470K
C825 1n 400V
R860 1M
C860 10n 500V
!
C806 150uF/400v
Use isolating mains transformer Utiliser un transformateur isolateur du secteur Einen Trenntrafo verwenden Utilizzare un transformatore per isolarvi dalla rete Utilizar un transformador aislador de red
!
D864 1N4007
C861 4.7u 400V
1/4W
C805 4n7/250v
C804 4n7/250V
+
Part of board connected to mains supply. Partie du châssis reliée au secteur. Primärseite des Netzteils. Parte dello telaio collegata alla rete. Parte del chasis conectada a la red.
C833 470p/400v
D801-D804 RL 255 X4
R804 1K 8
+
!
!
RT8 60 NTC 5OHM
3
C891
(300)
+
! Indicates critical safety components, and identical components should be used
1500P/250VAC D861 1N4007
for replacement. Only then can the operational safety be garanteed.
D862 1N4007
D860 1H8
Le remplacement des éléments de sécurité (repérés avec le symbole ! ) par des composants non homologués selon la Norme CEI 65 entraine la non-conformité
D863 1N4007
de l'appareil. Dans ce cas, la responsabilité dufabricant n'est plus engagée.
T860
!
(298) C890 100P/1K V
C869 NA
(298)
L861 100uH C867 100n
D866 NA
+
IC 860 8
D
7 R862
9
C868 470u 16V
+
R861 75K D865
2
C866 1000u/16V
FR102
6
S
RC
AU X
RE G
R865 120
1
C864 (15,4) 0.1uF/63V
2 3
C893 1u 50V
Wenn Sicherheitsteile (mit dem Symbol ! gekennzeichnet) durch nicht normgerechte Teile ersetzt werden, erlischt die Haftung des Herstellers.
D867 7.5K/1/4W
R863 9.1K
La sostituzione degli elementi di sicurezza (marcati con il segno ! ) con
(0,9)
4
componenenti non omologati secondo la norma CEI 65 comporta la non conformitá C863 470p
R868 33K
+
C892 1500P/250VAC
R864 5.1K
C862 100n
dell'apparecchio. In tal caso é “esclusa la responsabilità” del costruttore.
La subtitución de elementos de seguridad (marcados con el simbolo ! ) por componentes no homologados segun la norma CEI 65, provoca la no
1
MAIN
GND
TEA 1520P
5
D868 6 UF 4004
VC C
NC
2.2 1/4W
10
conformidad del aparato. En ese caso, el fabricante cesa de ser responsable.
POWER SUPPLY Q801 D
L808
IC860 PIN8
1
1
1
Ch1 100V M 10µs
C816 47uF/25V
5
C894 1000p AC 400V
0,7 1,9 0 2,2 12,4
4
C817 10n
C815 1000p
D806 FR104
!
2,9
56K
!
9 10 11 12 13 14
5 1 3 6
C850 100n
C834 470p/400V
12
1 2 3 4
2,9 1,7 2,9 2,9 3,9 0 -
C811 1n R812
).
100n/400V
!
0,7
Note : Power Supply primary circuit measurements. - Use only ( or ) connection point. Attention : Mesure dans la partie primaire de l'alimentation - Utiliser la masse du bloc alimentation ( ou ). Achtung : Bei Messungen im Primärnetzteil - Primärnetzteilmasse verwenden ( oder ). Attenzione : misure nell'alimentatore primario - usare massa alimentazione primario ( o ). Cuidado : Medida en el bloque de alimentacion - Utilizar la masa del bloque de alimentacion ( o
P801
RT 801 20OHM
R801 NTC 4.7 OHM
R841 12K
VR 801 5K
P805
IC801 1 2 3 4 5 6 7 8
C820 560p
C810 22p
6
8V
R813 4.7M
C812 10n
0.22 1W L808 2uH
C802 220n/A C250V
C803
!
R820 120 2W C830 220p 2K V
D807 1N4148
15
L809 2uH
+
R814 47 1/4W
R808 100 1/4W
R815 1K 1/2W
0.6uH
R836 C840 220P 500V D824 R824 RU3 C NA
T801 36-LIF010-A X0
!
14
+
C848 10n
L802 100uH
Q801 SK 3115
R809 56K 2W
!
C843 220P 500V
Q804 NA
R828 NA
C818 10n
9,5
C827 220u 160V
STA NDBY
294
3
16 R834 0.22 2W
R835 NA
7
5,7 +5VST B
2uH
C844 10n
R013 10 R012
Q001 D882
C009 10n
C845 1000u 25V
L810
JP880
6,6 +
+
!
1M 1/2W
JP881/NA
5 C010 100uF
C008 10n
D831 RU4 YX
10
P802
1 2
! R802
! C837 1000P A C400V
T802 36-TRF 112-A X1
+ C851 10u 16V
4148
+5VST B
R855 27
10
D003 3.9V
8.2M 1W
R015 47 1/2W
VR 800 471V
S801
C801 220n/A C250V
R837
P804
TDA16846
680 1/4W
R892 1.5K
13
C012 10n
R014
C865 1000P
!
D850 4148
IC 801
4
0,8
14 9 7
C013 100uF
9V
3,3 +
R850 NA
8V
C011 10n
Q002 C1815 7
112v
+3.3VST B
F801
! T2AL 250V
2
RELA Y
Q850 C1815
1
R893 1K
STA NDBY
Ch1 Pk-Pk = 408V Period 24,87µs
ETC009 - ETC010 First issue 10 / 04
Ch1 100V M 10µs
Ch1 Pk-Pk = 502V Period 4,54µs
Ch1 200V M 10µs
Ch1 Pk-Pk = 732V Period 17,63µs
MAIN SCHEMATIC DIAGRAM - SCHEMA DE LA PLATINE PRINCIPALE - SCHALTBILD HAUPTPLATINE - SCHEMA DELLA PIASTRA PRINCIPALE- ESQUEMA DE LA PLATINA PRINCIPAL ( MAIN BOARD 2/4 ) / ETC009 SCANNING / DEFLECTION Vertical Deflection (pin 1 P400 )
VD RA
D306 3V 9
D307 4148
VREF 13
C323 100uF 35V
C325 R313 0.33u 1 1W
0,8
C420
D C334
112V
2n2
D304 2V 4
R300 1K 2
+
C307 CA P POL
C360 100uF/35V
D308 4148
JP401
100uF/25V
C342 0.22u
-10V
1 2 3 4
L412 0uH
Ch1 20V M 10ms
C421 0.39u/250v
SCANNING / DEFLECTION Horizontal Deflection (pin 3 P400 )
1K 2W
R414 10K
D305 4148
1
AB L
T402 C422 5600p/63V
R406 10K
SA NDCA SE
R280 5K 6
-0,1
R282 -0,1 0 R283 270
19 R285
D280 24V
470
+
R284 100K
D413
R407
IN 4001
1 1/2W
P403
+
! D833 4004
0,4
Q401 C2235
T401
210
+14v +
C401 1000P/500V
D450 5V 6
R450 68K
C412 390p/500V
To CRT R405
Ch1 Pk-Pk = 1,8V Ch1 1V Period 200µs M 20ms
FO CU S
4
1 1/2W
! 2
D401 FR104 C408 10U 250v
Q402 SC5885
D421 RS3FS
C404 1000P 500V
C414 3300
C450 10n
1
109
R413 220 1/2W
10,4
SCANNING / DEFLECTION PIN 1 Of IC300 (Input)
D402
+14V R402 22 1W
D601
3
1 1/2W
10
+13 FR104
C411 100u 160V D405 4004
9V
E-W
C403
R403 1 1/2W
112V
C405 100n
Ch1 Pk-Pk = 108V Period 15,68µs
7
C415 470u 25v
R404 15K 1W
R401 470
R409
R420 1.5 2W
4 3 2 1
C431 47uF 25V
H-OUT
EH T
Ch1 50V M 20µs
390P/500V
33V
Q281 BC 847
C413 470u/25V
D403 FR104
+
Q280 BC 857
2,5
-13
-14V
+14V D281 4148
C407 2n2
60V 0
6
15K 1/4W
D404 5V 6 R286 330
HV
R408
Ch1 Pk-Pk = 50V Period 20ms
CON4
L411 50uH R411
-14V C324 +
+
D400 FR104
10u 160v
+
C300 100uF/50V
+
R410 47K 1/4W
R321 1.5
-14V
0,2
-13
7
3
2
1 C313 4.7uF/50V
D309 IN 4001
VP
R351 10K
R324 220 1W
0
1
P400
R315 C337 2K 2 1000P
+14V
D300 4148
X- RA Y
-11,5
13
+
C308 220uF/25V
POMP UP GND OUT
IN PUT VCC
6
0,8 +14V
D320 4148
4
R316 1K
C350 1500P
+
VD RB
IC 300 STV 9302
+
C351 2200P
5
R314 1K
R350 2K 2
+
R418
9
R415 1K
1 1/2W C409
390P 500V
C416 3300P 1.6KV
C417 7600pF 1.6KV
D422 FR104
!
SCANNING / DEFLECTION Vertical Deflection (PIN 2 P400 )
SCRE EN
1
1 C419 2200 1.6KV
8
!
Ch1 Pk-Pk = 2,4V Ch1 1V Period 20,16ms M 10ms
C410 100n
SCANNING / DEFLECTION Horizontal Deflection (PIN 4 P400 )
L450 R451 3.9 2W
600UH C451 4.7uF 50V
C418 22n 400V
1
Q450 IRF630 Ch1 500V M 40µs
Ch1 Pk-Pk = 1040V Period 64µs
ETC009 - ETC010 First issue 01 / 06
MAIN SCHEMATIC DIAGRAM - SCHEMA DE LA PLATINE PRINCIPALE - SCHALTBILD HAUPTPLATINE - SCHEMA DELLA PIASTRA PRINCIPALE- ESQUEMA DE LA PLATINA PRINCIPAL ( MAIN BOARD 3/4) / ETC009
L906
VDRB
4
VDRA
3
2
C933 220P
R935 75
CV BSO
R223 1k
C267 0.1uF
C240 220p
C935 220P
C268 220p R221 10k
C964 1n
ETC009 - ETC010 First issue 10 / 04
100
C961 3n3
1
2
3
4
5
6
7
8
Z200
9 24.576MHz
10
12
11
13
14
B
G
R
FB
GND
GND
1.8VC4
3.3VA3
VrefP_Sdac
VrefN_Sdac
VrefP_Sdac
VrefN_Sdac
vrefP_Sdac
XTALI N
XTALOUT
D.GND
VG/LED
88
87
86
85
84
83
82
Q204 BC 857
Q206 BC 857 R230 1K
L208 10uH
L209 C258 10uH 100n
C265 47uF 16V
2 Q208 BC 857
109
R025 100
R042 3K 3
103 102 101 100
1 2 3 4 5 6
R043 100
106
104 R035 100
R270 33K
SCL C026 100P
R041 100
107
105
SDA C027 100P
R026 100
R028 3K 3
R021 100
+5VST B
R044
1K
R045 1K
+5VST B R046 22k
R036 1K
D205 4148
R260 22k C028 220n
C280 47uF 16V
P008 P008
LED R262 +
-0,6 M
22K Q205
5
BC 847
L004 R261 10uH 22K
b STA NDBY
99 98 97
R048 10K
R047 47K
+5VST B R034 47
IR
L211 1uH C261 220n
+
a
C262 47uF 16V
5V R231 1K
C270 2n2
110
R032 5K 6
2,6 R232 1K
R271 18K
5V 6
L002 +3.3V STB 10uH C023 R027 3K 3 220nF
3.3V-S TB
5V
D204
ST2 RELA Y
R029 3K 3
IR P0.5
L210 C260 1uH 220nF
D270 4148
D271 4148
C254 100P
C257 100P
C252 2n2 R228 220
H OUT
R131 220 C131 220P
SANDCASE
R130 220
R227 120K
2,7 0
3,3
4
Vo
C130 220P
2 L207 10uH
5V
ABL
1 2 3 4
AOUTR
R961 220
P130
C263 10uF 16V
P203
220p
AOUTL
R960 220 R962
C963 100uF C962 100uF
JP130
SCL
C960 3n3
+
P203
+
Q207 BC 857
C253 22uF 16V R229 4K 7
C264 0.1uF
C269
P130
SD A
R963 100
L206 10uH
C255 C256 220n 100n
R039 1k
100
108
IRQ P1.0
2
C246 C248 C249 22n 22n 22n
5V
P602
1 2 3 4
R222 100
C241 10uF 16V
81
80
79
78
77
76
75
74
73
72
71
70
69
C242 0.1uF C243 C244 C245 1n 1n 0.47u
5V
P963=>P602
111
TV STB P1.1
A.OUT HR
1 2 3 4 5 6
C
+
DECDIG
A.OUT HL
P202
P202=>P502
X- RA Y
R031 10K
D007 IN 4148
112
VDDC2
+
D908 8.2V
C963 1n
15
TDA1 2020H
c
ST1
VSSC 2
A.OUTR
+
P961
1 2 3 4
VP1
A.OUTL
R030 10K
R040 15K
113
P0.4
Y
P964
PH2 LF
PH1 LF
GND 1
SECPL L
E-W
DE CBG
VD RA
VD RB
VIFIN1
VIFIN2
VSC
IREF
GNDIF
SIF1
SIF2
C2/C3
100
R037
LE D P0.3
+
C932 220P
R934 75
115 114
IB O STB P0.2
CV BS3/Y3
68
2.2uH
R038
IB O D/A P0.1
A.IN3R
65
D907 8.2V
P963
16
18
17
20
19
22
21
26
27
28
29
30
31
32
A.IN3L
L903
V
116
D004 2V 4
C022 220n
KEY
D005 C024 4148 47uF 16V +5VST B Q209 BSH 103
VD D
64
SCL2 P0.0
VSS
C931 2n2
CV BS2/Y2
SVM
C946 2n2
63
117
96
R933 47K
62
SDA2 P1.3
VDDA2
R217 R218 82k 82k
1K R932
61
A.IN2R
95
C238 1uF
C930 2n2
60
+
C965 1n
1
8 7 6 5 4 3 2 1
R931 47K
C945 2n2
59
+
L
8 7 6 5 4 3 2 1
P902
1K R930
58 +
P962
C964 1n
C231 0.1uF C233 22n C239 1uF
57 +
P962=>P902
R
Ch1 Pk-Pk = 516mV Period 225,2ns
R927 75
SIDE AV P960
Ch1 50mV M 20µs
C919 220P
C918 220P
C237 2.2uF
56
118
R033 2K 2
D006 4148
L003 10uH
119
SCL P1.6
VDDA1
+
20
C236 2.2uF
C920 0.1uF
+
L902 2.2uH
A.IN2L
MU TE
R024 100
120
SDA P1.7
C4
+5VST B
+3.3VST B
C018 121 10n
3.3V
CV BS4/Y4
93
18
TUNING P2.0
94
55
A.IN4R
GND A
54
17
P2.1
VR EFAD
C916 220P
A.IN4L
92
R926 75
ROTA TION P2.2
VR EFAD_POS
15
SVO
91
53
P2.3
1 2 3 4 5 6
22n
VP2
22K R017 22K R018
C019 10uF 16V
C017 100n
122
SCAR T2 P3.0
AG C2SI F
VR EFAD_NEG
14
52
123
SCAR T1 P3.1
90
C228
SYS
IC201 V CC8V
C281 1n
L001 10uH
124
1.8V
89
51 13
DVB /FM OUT
+3.3V analog
49
c
R281 150K
125
DECV1V8
BO
48 R225 1K
12
D906 8.2V
L203 10uH
126
X-RA Y P3.2
IFVEDIO OUT
GO
100n
ST2
SIFA GC
RO
47
50
21
+
127
KE YB P3.3
BL KI N
46 +
+
C235
PLLI F
BCLIN
44
a
1,9
128
GND
LPF
43
45
11
19
C227 10uF 16V
GA ME L P1.5
GND 2
GND 3
C230 4n7
C247 L205 10uH 2.2u/50v
R925 10K
D905 8.2V
R214 4k7
1,9
BSH 103
MUTE P2.4
B/P bIN 3
42
Q202 BC 847
b
C226 100n
AU DEEM
G/YIN3
40 41
Test1
+5V
9
16
C224 100n
P2.5
R/PrIN 3
C202 3n3
2,5
C225 10uF 16V
DECSDEM
INSSW 3
C912 2.2uF
39
R241 390 C234 1uF
C229 100n
C915 2n2
47K R924 33K
10
100n
Q203 BC 327
4,2
Q200 BC 327
Q201 BC 847
4k7 +
1.8V
VOUT
C911 0.1uF
C914 2.2uF
R923
8
1uH
GND
UOUT
C201 220n
L204 10uH
R922 22K C944 2n2
L202
1uH
A.OUTSR
YOUT
38 +
4
7
33P
C216 10n
L201 C222
A.OUTSL
YSYNC
100
C913 2n2
47K
6
C223 100uF 10V +
C221
C220 C219 33P 10uF 16V
P1.2
RIN
R921
5
C218 100n
GA ME R P1.4
GI N
+
3
R202
+
R920 22K C943 2n2
1,5
R918 75
C910 220P
1
C215 2.2uF 50V R210 12K
2,5
R216 2.2 1/2W
R215 33K
4,2
A.IN5R
67
Vo
+
C909 220P
2
100
C200 10uF
2.2uH
P901
C210 22nF
C214 C211 220n 6n8
150n
BIN
0,1
Q901 BC 857
R917 1k
L900 D904 8.2V
+3.3V-S TB
A.IN5L
+5V comb
21
CVBS CVBS From Scart Out
C206
R206 39K
GND com b
R203
C251 2.2uF 36
R253 47K
AV L
HOUT
20
35
37
R916 75
1
0
Q900 BC 847
D903 8.2V
19
SCL / SDA SDA
R915 1k
R251 1K R250 1K
+
D902 8.2V
17 18
FB
5V
34
+
R913 100 R914 75
16
33 C250 2.2uF
R252 47K
1 2 3
R
AGC OUT
5 P201
15
C208 10uF 16V
R213 2.2 1/2W
R212 33k
2,5 Q210
FB ISO
C203 2.2uF
R912 75
14
+5V
10uH
C212 10uF 16V
G
R911 75
D901 8.2V
13
R204 1K
66
12
R201 47K
R910 10K
EHT
R909 33K
+
+
D900 8.2V
11
Ch1 Pk-Pk = 516mV Period 55,65µs
C205 22nF
C204 2n2
ST1
9 10
Ch1 200mV M 100µs
1
AGC R220 68K
B
23
8
C207 C209 C213 1n 1n 1n
2.2uF
C907 2n2
R907 47K
75
+
Ch1 200mV M 400µs
R908
7
Ch1 Pk-Pk = 508mV Period 11,13ms
C942 2n2
R205 680
+5V
C908
R906 22k
+
6
C906 2n2
24
R905 47K
C217 100n
+5VST B
+5VST B
L200 R208 R209 100 100
R211
25
22K
C941 2n2
5
R207 100
+
2.2uH C939 2n2
C938 2n2
4 1
C905 2.2uF
R904
3
M
Q903 BC 837
+
2
C903 100p
+
1
-1
C904
0 10uF 16V
+
R902 330 R903 100k
+
P901
C901 10uF 16V
C902 100p Q902 BC 847
+
SCL / SDA SCL
C937 2n2
C936 2n2
0
R900 330 R901 100k
2.2uH
+
L905
P805
D272 4148 C259 100P
8V
1 2 3 4
MAIN SCHEMATIC DIAGRAM - SCHEMA DE LA PLATINE PRINCIPALE - SCHALTBILD HAUPTPLATINE - SCHEMA DELLA PIASTRA PRINCIPALE- ESQUEMA DE LA PLATINA PRINCIPAL ( MAIN BOARD 4/4) / ETC009
P001
R003 680
K 006
R004 470
K 007
K 008
R006 300
R005 390
+
Z102
P001(KDB)=>P001(MAIN)
+
R103 39k
L101 10uH
D100 IN 4148
+ C103 100uF 10V
11
IF2
10
IF
L102 1uH
IFGND
i.c.(+33V) 9
8
i.c.
i.c.(V+) C102 10n
C105 47uF 50V
C104 100P R100 68k
7
6
5
V+
Lo/BS2(SDA)
Mi/BS1(SCL ) 4
Hi/n.c. 3
2
VT
AGC 1
D102 BYV 79C33
L103 220nH
R129 2k2
R114 56
R112 330
C110 10n
R124 82 R119 6K 8
D104
2
WP
n.c.
Vd d
IC 001 PTC 24C16
R125 100k
A2
SCL
Vs s
SDA
SYS
P003
R010
8
7
+ C111 10uF/16V
R128 220
P003
4
5
R126 47K
Q102 BC 847
+5v
R120 6K 8
D105 1S110
+5V SD A
1
R121 6K 8
R118 22
3
SCL
2
5 4 3 2 1
Z102=> Z101
C3779 R117 150
4
Z101
1S110
R109 100
R101 10k
Z100 40.4MHz
C109 10n
1
C112 10n
C113 1n L104 1uH
Q101
R113 100
+
C108 10n
R127 33
C107 10n
33V
R111 470
R116 1K
+5V
C101 100P R104 100
AGC
C100 10uF 16V
R115 33
4,9
5 4 3 2 1
C001 47u/16V
+8v
C106 10n
KEY GND
3
C002 10n
P001
TU 100 UV 1336
LED +5VS TB
P001(MAIN)=>P001(KDB)
R008 47
R007 220
1 2 3 4 5
R002 1K
K 005
IR001
D001
4 3 2 1
K 004
TV /A V
K9453D
R001 1K 5
K 003
ME NU
VO L-
K3953D
K 002
P-
1
K 001
VO L+
P+
2
A . SEA RCH
3
Power
IR
5 4 3 2 1
C004 10n
22
5VSTB
6
R009
C003 56P
22
5
R011
SCL
SDA
22 C005 56p
ETC009 - ETC010 First issue 01 / 06
ETC009 4 P502
3 P502
2V
0
1 P502
2,2V
0
1,8Vpp-H
5 P502
3V 10ms 0 2,8Vpp-V
1,6Vpp-H
1.Vpp-H
B
209,4
R516 X 501
CRT
EH T
TUBE
R515 15K 1W 127,5
Q512
KB
T=64µs
BF422
R518 Q513
R528
BF423
KG
1.5K 1/2W
G
R517 470
R538
KR
BF422
2,1
R514 270
209,4 R526
R525 15K 1W
Q522 G1
125 BF422
2,2
Q523
P504
BF423
5,7
1
200V
T=64µs
R527 470
R524 270
R500 1.5K 1/2W
D521
L501 10uH
209,4 R503 150K
D500 BAV2 1
C500 1n 2K V
+
132
BF422
Q533
10uF 250V
R537 470
2
BF423
D531 4148
C531 470P
2 1
3
4
210
R520 1K 1/4W
R532 10K
R533 10
R534 270
5,7
T=64µs
R531 47
Q531 2,6 BF422
128,2
R504 10
C502
R535 15K 1W
Q532
+
screen
88Vpp-H
470 1/4W
C501 10uF 250V
C521 470P
4148
209,4
200V
R
4,7
R522 10K
6 5 4 3 2 1
R523 10
R536 R502 2.2M
R521 47
2,8
Q521
121,5
80V-H
P502=>P202 (MAIN) C511 470P
4148
BF422 G2
R512 10K
R513 10 D511
470 1/4W
1.5K 1/2W
G3
R511 47
Q511 2,6
124 1.5K 1/2W
200V
80Vpp-H
CRT
200V
470 1/4W
D502 D501 BAV2 1 BAV2 1
D503 BAV2 1
2V
0
P503=>P403 R608 10K
MU TE
Q602 C1815
R609 10K
R610 10K Q601 A1 015
9V
C606 1000uF 25V
4K 7
15
R601 10k
P600
6
1 C603 100uF 25V C605 0.22
JP601
R602
C604 3300p
JP603
D601 4148
15
D600 4148
8
+
C615 10uF/25V
+ C616 100uF 16V
R601 3k3
P600
14
C601 0.22
100n
C603 100uF 25V C605 0.22
AOUTR R603 3K3
C614 10n
+ C607 100uF 25V
10
+ C602 100uF 25V
JP602
C622
+
1
JP601
7
C604 3300p
C610 P600 100uF/25V
15 IC600 TEA2025B
6
JP603
C609 100uF/25V
14
11
C600 3300p
9
M
6
Q604 BC847
4,5,12,13
+
AOUTL
Q603 BC847
R611 0.22/2W C606 1000uF 25V
C608 0.15
C612 100uF/25V
3
C613 100uF/25V
2
+
7
C611 0.15
P081
D081
D081A
J082
1 2
KEY BOARD
R088
3 R080
+
R081
4
C082
5
J080
P083
ETC009 - ETC010 First issue 01 / 06
C081
R082
1 2
R085
R084
J081
1 2
M
R
R607 47K
2 IC601 TDA7266
1 2
P601=>P602
+
4
C611 0.15
9
P082 1 2
R083
S081
S084
S085
S082
S083
S086
Menu
CH-
CH+
-VOL
+VOL
POWER
2 1
2 1
P601
1 2
1 2
P600
+
9V
+
R609 10K
R614 1K
P601
Q602 BC847
8V
R615 4k7 R613 1K
1
R
2
4,5,12,13
2 1
Q600 BC857
3 12
C613 100uF/25V
7
2 1
4k7
R608 10K
13
P
P600=>
C608 0.15
R612
5V MUTE
R610 10K Q601 BC857
6
4K 7
AUDIO
R606 47K
3
8
A OUTR
C612 100uF/25V
9
9
R603 10K
L
15 IC 600 TEA 2025B
R
C615 8 10uF/25V
C610 100uF/25V
+ C602 100uF 25V
+
14
+
C609 100uF/25V
11
C600 3300p JP602
R607 47K
14
P
7
9V
C607 100uF 25V
10
16
M
R606 47K
R600
A OUTL
IC 601 TDA 7266
+
8
16
C601 0.22
L
R
2
C614 10n
L
4
+
+
P601
+
1
+
9V
13
3
P
R611 0.22/2W
P 12
L
MAIN
+
C616 100uF 25V
+
D600 4148
2 x 6W version
R605 220
M
AUDIO
P601(P602)
MAIN BOARD - PLATINE PRINCIPALE - CHASSIS GRUNDPLATTE - PIASTRA PRINCIPALE - PLATINA PRINCIPAL COMPONENT SIDE - COTE COMPOSANTS - BESTÜCKUNGSSEITE - LATO COMPONENTI - LADO COMPONENTES
ETC009 - ETC010 First issue 10 / 04
VIDEO AMPLIFIER BOARD - PLATINE AMPLIFICATEURS VIDEO VIDEOVERSTÄRKERPLATTE - PIASTRA AMPLIFICATORE VIDEO PLATINA AMPLIFICADOR VIDEO
COMPONENT SIDE - COTE COMPOSANTS - BESTÜCKUNGSSEITE - LATO COMPONENTI - LADO COMPONENTES
KB COMPONENT SIDE - COTE COMPOSANTS - BESTÜCKUNGSSEITE - LATO COMPONENTI - LADO COMPONENTES
AV COMPONENT SIDE - COTE COMPOSANTS - BESTÜCKUNGSSEITE - LATO COMPONENTI - LADO COMPONENTES
ETC009 - ETC010 First issue 01 / 06
VIDEO AMPLIFIER BOARD - PLATINE AMPLIFICATEURS VIDEO VIDEOVERSTÄRKERPLATTE - PIASTRA AMPLIFICATORE VIDEO PLATINA AMPLIFICADOR VIDEO SOLDER SIDE - COTÉ CUIVRE - LÖTSEITE - LATO SALDATURE - LADO DEL COBRE
KB SOLDER SIDE - COTÉ CUIVRE - LÖTSEITE - LATO SALDATURE - LADO DEL COBRE
AV SOLDER SIDE - COTÉ CUIVRE - LÖTSEITE - LATO SALDATURE - LADO DEL COBRE
ETC009 - ETC010 First issue 01 / 06
SERVICE-MODE - ALIGNMENT PROCEDURE EN I - ENTER/EXIT SERVICE MODE 1.1. Accessing Service Mode A) Switch the TV set into the Standby Mode. B) Switch off Power Supply. C) Switch on Power supply whilst pressing the magenta ”TEXT” key continuously until TV set switch on and enter service mode. 1.2. Page selecting Press 1,2....8 or 9 key of the RCU to enter page 1,2,...8 or 9 of Service Mode.
U03C00C 1.8 2005. 07 . 20-01 ADR0 ADR2 AFC GG
01111010 10000010 00000000 10110111
ADR1 ADR3 RG BG
DEFL LAST ERR: REV:
00001111 DISC NV : 1878 00000000 882204
01010000 00011110 00110111 00110111 128
1.3. Navigation: - Press ”Up” and ”Down” key to select option; - Press ”Left ” and ”Right ” key to adjust or select option. - All change in service mode will be saved in EEPROM automatically 1.4 Temporary exit from Service Mode - Press ”9” key and select MODE 1. - Set D-MODE to ”Direct key enter enable” . - Press ”OK” KEY on the RC to exit or access to service menu. 1.5. Exiting from Service Mode - Press ”OK” KEY on the RC. Note : Before exiting from Service mode check that D-MODE is set to ”Direct key enter disable” (see 1.4). 1.6. Brief introduction on some special modes 1.6.1. Aging Mode It is used before set alignment and should operate in Service mode; The TV set cannot enter standby after 15 minutes when no signal if the ”AGING” Mode is selected. Press blue ”GUIDE” Key, the Aging Mode will be entered when ”Aging Mode” is shown on screen. Press blue ”GUIDE” key again will exit ” Aging Mode ”. 1.6.2. Vertical Stop mode - it is used to adjust the screen voltage. Press red ”PRESETS” key and repress ”PRESETS” (red) key to exit. 1.6.3. White balance alignment mode - Press ”EXIT” key on factory RCU, The set will display ” BUS OPEN ”, which means the I2C bus from the CPU to other UOC3 module and ICs had been released. This is only used during automatic adjustment of white balance. Press other key will exit ” BUS OPEN ”. 1.6.4. Reset - Initialization before the set will took away from factory. In factory mode, press ”INFO” (P