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MAIN SCHEMATIC DIAGRAM - SCHEMA DE LA PLATINE PRINCIPALE - SCHALTBILD HAUPTPLATINE - SCHEMA DELLA PIASTRA PRINCIPALE- ESQUEMA DE LA PLATINA PRINCIPAL
( MAIN BOARD 1/4) / ETC009
R893 1K

STA NDBY RELA Y

0,2 0,8
Q850 C1815 R892 1.5K D850 4148 P804

!
R837 8.2M 1W

! T2AL 250V
C801 220n/A C250V

F801

S801

VR 800 471V

P802

+3.3VST B
C011 10n C013 100uF

3,3
+

Q002 C1815 7 R015 47 1/2W

R850 NA R855 27

C865 1000P

1 2

4
D003 3.9V

R014 680 1/4W

!
D831 RU4 YX L810 2uH C843 220P 500V
+ C851 10u 16V

! R802
1M 1/2W

!

C012 10n

9V

10
+

T802 36-TRF 112-A X1

C837 1000P A C400V

+5VST B

16
R834 0.22 2W

3
C818 10n

294
R809 56K 2W C819 560p 2K V Q801 SK 3115

5
C008 10n C010 100uF
+

6,6
Q001 D882 D002 5.6V Q805 SD882 R013 10 R012 220 1/4W D834 1N4001

C845 1000u 25V

C844 10n

! !
JP881/NA

T801 36-LIF010-A X0

!
14
R835 NA

5,7
C009 10n

1

D805 1HB

L801 0.6uH

9,5
8V
L803 100uH
+

JP880

R815 1K 1/2W

R808 100 1/4W D807 1N4148

R814 47 1/4W

C802 220n/A C250V RT 801 20OHM C803 P801

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

1

2

).

5V

5,1

7
R825 10 2W R826 330 1/4W D832 5V 6 C849 470u 16V

C842 D830 1000u RU3 YX 16V
+

L809 2uH R836

15

!
12
0.22 1W

R803 82K C812 10n

C820 560p

R813 4.7M

1 2

5,7
+5VST B
R829 NA R827 NA Q806 NA

13

10

C848 10n

L802 100uH C827 220u 160V

111
+

C840 220P 500V D824 R824 RU3 C NA

0,7

R841 12K C850 100n

R801 NTC 4.7 OHM

100n/400V C834 470p/400V C833 470p/400v

!
C817 10n R806 D810 56K 4148 R805 4M7 1/2W C814 220n

!

112v

!
L808 2uH R820 120 2W

8 9
R811 15K 1/4W

TDA16846

C811 1n R812 56K C810 22p

IC 801

C826 10n 500V

5 1 3 6 12

4 11 8 2
C815 1000p

C804 4n7/250V

C805 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. 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

STA NDBY R828 NA

Q804 NA

C830 220p 2K V

!

C839 220p 2K V

11

R810 7K 5

!
R807 1M 1/2W D801-D804 RL 255 X4 C808 10n 500V
+

!

14 9 7
+

6
P805 D806 FR104

VR 801 5K

R804 1K 8

8V

1 2 3 4
C894 1000p AC 400V

C816 47uF/25V

R817 470K

C806 150uF/400v

!

!
5
C860 10n 500V

C825 1n 400V RT8 60 NTC 5OHM

D864 1N4007 C891 1500P/250VAC D861 1N4007 D862 1N4007 D863 1N4007

!
IC801 1 2 3 4 5 6 7 8 2,9 2,9 1,7 2,9 2,9 3,9 0 9 10 11 12 13 14 0,7 1,9 0 2,2 12,4

R860 1M

3
D860 1H8

1/4W

C861 4.7u 400V

+

(300)

! Indicates critical safety components, and identical components should be used

for replacement. Only then can the operational safety be garanteed. Le remplacement des éléments de sécurité (repérés avec le symbole ! ) par des composants non homologués selon la Norme CEI 65 entraine la non-conformité de l'appareil. Dans ce cas, la responsabilité dufabricant n'est plus engagée. Wenn Sicherheitsteile (mit dem Symbol ! gekennzeichnet) durch nicht normgerechte Teile ersetzt werden, erlischt die Haftung des Herstellers.
R863 9.1K

T860

!
C890 100P/1K V

(298)

IC 860
8 7 D NC VC C GND 1 2 3 4

C864 (15,4) 0.1uF/63V

C892 1500P/250VAC D867 7.5K/1/4W

(298)
+

C869 NA L861 100uH C867 100n D866 NA

R862 2.2 1/4W

6 5

TEA 1520P
S AU X
R865 120
+

RC RE G

(0,9)
R868 33K R864 5.1K C863 470p C862 100n

La sostituzione degli elementi di sicurezza (marcati con il segno ! ) con componenenti non omologati secondo la norma CEI 65 comporta la non conformitá dell'apparecchio. In tal caso é "esclusa la responsabilitŕ" del costruttore.

9
+

D868 6 UF 4004

C868 470u 16V

C866 1000u/16V

2 10

R861 75K D865 FR102

C893 1u 50V

La subtitución de elementos de seguridad (marcados con el simbolo ! ) por componentes no homologados segun la norma CEI 65, provoca la no conformidad del aparato. En ese caso, el fabricante cesa de ser responsable.

MAIN

1

POWER SUPPLY Q801 D

IC860 PIN8

L808

1

1

1

Ch1 100V M 10µs

Ch1 Pk-Pk = 408V Period 24,87µs

Ch1 100V M 10µs

Ch1 Pk-Pk = 502V Period 4,54µs

Ch1 200V M 10µs

Ch1 Pk-Pk = 732V Period 17,63µs

ETC009 - ETC010
First issue 10 / 04

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 R350 2K 2 VD RB C350 1500P R314 1K C351 2200P R316 1K
0 -10V

IC 300 STV 9302

D320 4148 R351 10K

R315 C337 2K 2 1000P R321 1.5 C420

P400 R324 220 1W C342 0.22u L412 0uH CON4

1

0,8 +14V
D300 4148 C308 220uF/25V D307 4148 D308 4148
+

IN PUT VCC
13 1 2
D309 IN 4001

POMP UP GND OUT
-11,5 3 4
C323 100uF 35V
+ +

VP
6 13

VREF
0,8 7

-14V

-13 5

0,2

R410 47K 1/4W D400 FR104

1 2 3 4

Ch1 20V M 10ms

Ch1 Pk-Pk = 50V Period 20ms

X- RA Y
+

D306 3V 9
+

C313 4.7uF/50V
+

C325 R313 0.33u 1 1W

D C334
2n2

112V

L411 50uH R411

+

10u 160v C421 0.39u/250v

SCANNING / DEFLECTION Horizontal Deflection (pin 3 P400 )

D305 4148 AB L R406 10K D404 5V 6 R286 330 R280 5K 6 D281 4148 C422 5600p/63V

SA NDCA SE

+14V 2,5
Q281 BC 847 Q280 BC 857

19
R285
+

D413 IN 4001

R407 1 1/2W

P403
4 3 2 1

-0,1

R282 -0,1 0 R283 270 D280 24V

470

33V

R284 100K

C431 47uF 25V

R420 1.5 2W D402

210

+14v
C415 470u 25v
+

R404 15K 1W

R403 1 1/2W
+

112V

!
D833 4004

C411 100u 160V D405 4004

9V
H-OUT R401 470

+14V
R402 22 1W

C408 10U 250v

109

0,4
C405 100n

T401

Q402 SC5885 C404 1000P 500V

E-W D601

R413 220 1/2W

D421 RS3FS D422 FR104

10,4

C414 3300

Q401 C2235

C401 1000P/500V

R450 68K

L450 R451 3.9 2W Q450 IRF630 600UH C451 4.7uF 50V C418 22n 400V

C450 10n

D450 5V 6

+

+

C300 100uF/50V

D304 2V 4

C307 CA P POL

C324 100uF/25V JP401

1K 2W

+14V
R414 10K
1

R300 1K 2

C360 100uF/35V

-14V

60V 0 Ch1 Pk-Pk = 108V Period 15,68µs

T402
R408 15K 1/4W D403 FR104 C403 390P/500V

HV 6
R409 1 1/2W

EH T

C407 2n2

Ch1 50V M 20µs

-14V
C413 470u/25V

-13

3

SCANNING / DEFLECTION PIN 1 Of IC300 (Input)

10
1

7 +13 FR104
C412 390p/500V To CRT R405 1 1/2W
Ch1 Pk-Pk = 1,8V Ch1 1V Period 200µs M 20ms

4

FO CU S

!
2 SCRE EN
R418 1 1/2W
SCANNING / DEFLECTION Vertical Deflection (PIN 2 P400 )

D401 FR104
+

9

R415 1K
1

C409 C416 3300P 1.6KV

390P 500V C417 7600pF 1.6KV

1
C419 2200 1.6KV

8
C410 100n
Ch1 Pk-Pk = 2,4V Ch1 1V Period 20,16ms M 10ms

!

!

SCANNING / DEFLECTION Horizontal Deflection (PIN 4 P400 )

1

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
L905 2.2uH C937 2n2 R900 330 R901 100k R902 330 R903 100k L906 R904 C938 2n2 2.2uH C939 2n2 C941 2n2 22K R905 47K C906 2n2 R906 22k C907 2n2 C908
+

0
C902 100p Q902 BC 847 C903 100p C905 2.2uF
+

C901 10uF 16V

+

SCL / SDA SCL

P901

C936 2n2

-1
VDRA VDRB AGC L200 R208 R209 100 100 C208 10uF 16V
+

0 10uF 16V

C904 1 2 3 4

1 2 3 4
1

+5VST B +5V +3.3V-S TB
R211 R212 33k

+5VST B
R213 2.2 1/2W Q200 BC 327 R214 4k7 R215 33K

Q903 BC 837

+

M

R207 100

C217 100n

+

C212 10uF 16V

10uH

R216 2.2 1/2W Q202 BC 847 Q203 BC 327

4,2 2,5
4k7
+

4,2 2,5

6

32

31

30

29

28

27

26

25

24

23

14

13

22

21

20

18

17

16

15

12

11

10 11 12 13 14 15 16 17 18 19 20
D902 8.2V D903 8.2V D901 8.2V

R910 10K R911 75 R912 75

R201 47K G C203 2.2uF 5 P201 R252 47K R251 1K R250 1K R253 47K

19

10

8

7

6

5

4

3

2

1

Ch1 200mV M 400µs

Ch1 Pk-Pk = 508mV Period 11,13ms

75

8 9
D900 8.2V R909 33K

R907 47K

B ST1

R206 39K

150n

C214 C211 220n 6n8

Z200

7

R220 68K

C204 2n2 R204 1K

C205 22nF

C206

9 24.576MHz

vrefP_Sdac

GND 1

SIF2

SIF1

VrefP_Sdac

VrefP_Sdac

PH1 LF

PH2 LF

SECPL L

XTALI N

VrefN_Sdac

VrefN_Sdac

AGC OUT

1.8VC4

VD RA

VD RB

E-W

VP1

3.3VA3

IREF

VSC

EHT

GND

DE CBG

DECDIG

VG/LED

D.GND

VIFIN2

VIFIN1

GNDIF

XTALOUT

GND

33
C250 2.2uF
+

AV L A.IN5L A.IN5R A.OUTSL A.OUTSR DECSDEM AU DEEM GND 2 PLLI F SIFA GC

R R913 100 R914 75 FB

1 2 3
R203

34 35

5V

R915 1k Q900 BC 847

0
Q901 BC 857

C251 2.2uF 36

37

1,5

R202

100

1.8V P2.5 MUTE P2.4 GND KE YB P3.3 X-RA Y P3.2 DECV1V8 1.8V

124 123 122
C018 121 10n C017 100n

38
C200 10uF
+

R916 75

0,1

R917 1k C911 0.1uF

SCL / SDA SDA
P901

21 Vo
D904 8.2V

C201 220n

39
C202 3n3 R241 390 C234 1uF

L900
+

40 41 42
+

2.2uH C909 220P R920 22K
+

C910 220P

R918 75

C229 100n

120 119 118 117 116 115
R037 C022 220n R038

2
1

3 4 5

C943 2n2

R921 47K R922 22K C913 2n2

C912 2.2uF

+5V
L204 10uH

Test1
C230 4n7

43 44 45 46
+

IFVEDIO OUT DVB /FM OUT

D004 2V 4

IC201
V CC8V AG C2SI F VP2 SVO A.IN4L A.IN4R CV BS4/Y4 C4 A.IN2L A.IN2R CV BS2/Y2 A.IN3L A.IN3R CV BS3/Y3 C2/C3 A.OUTL A.OUTR A.OUT HL +3.3V analog A.OUT HR GND com b +5V comb INSSW 3 BL KI N G/YIN3 YSYNC FB ISO GND 3 BCLIN CV BSO SVM B/P bIN 3 R/PrIN 3 HOUT UOUT VR EFAD_POS VR EFAD_NEG SCAR T1 P3.1 SCAR T2 P3.0 P2.3 ROTA TION P2.2 P2.1 TUNING P2.0 3.3V SDA P1.7 SCL P1.6 SDA2 P1.3 SCL2 P0.0 IB O D/A P0.1 IB O STB P0.2 LE D P0.3 P0.4

Ch1 200mV M 100µs

Ch1 Pk-Pk = 516mV Period 55,65µs

6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21
D906 8.2V C918 220P D905 8.2V C944 2n2

R923 47K R924 33K R925 10K C915 2n2

C914 2.2uF

C247 L205 10uH 2.2u/50v C235

100

47 48

114 113 112 111 110 109

100

ST2

100n R225 1K

49 50 51

L002 +3.3V STB 10uH C023 R027 3K 3 220nF R025 100 R029 3K 3 R026 100 R041 100 R043 100 R044 1K

C228 22n

52 53

108
R028 3K 3

R926 75

C916 220P

54 55

107
R042 3K 3

106 105
R021 100

L902 2.2uH
+

C920 0.1uF

C236 2.2uF C237 2.2uF C231 0.1uF C233 22n C239 1uF

56
+

C919 220P

57
+

104 R035 100 103 102 101 100 99 98 97
R036 1K R260 22k C028 220n

R045 1K

R927 75

58
+

R046 22k D205 4148
+

CVBS CVBS From Scart Out

59 60
+

SIDE AV
P960

R

P962=>P902
C964 1n

1K R930 C945 2n2 R931 47K C930 2n2

P962
8 7 6 5 4 3 2 1

P902
8 7 6 5 4 3 2 1

C238 1uF R217 R218 82k 82k

61
+

TDA1 2020H

VSSC 2 VDDC2 TV STB P1.1 IRQ P1.0

L004 R261 10uH 22K

62 63

1K R932 C946 2n2 R933 47K C931 2n2

R048 10K

L
1

VR EFAD

VDDA1

VDDA2

GND A

YOUT

VOUT

65

66

67

68

69

70

71

73

74

75

76

77

78

79

80

81

82

83

84

85

86

87

88

89

90

91

92

93

95

72

94

96

Ch1 50mV M 20µs

Ch1 Pk-Pk = 516mV Period 225,2ns

RIN

V
D907 8.2V C932 220P

L903 2.2uH C933 220P R934 75

C255 C256 220n 100n

VD D

C965 1n

64

IR P0.5 VSS

R034 47

GI N

LPF

BIN

GO

RO

BO

L211 1uH C261 220n
+

Y
P961 D908 8.2V R935 75 C935 220P

R223 1k

C242 0.1uF C243 C244 C245 1n 1n 0.47u
+

C267 0.1uF

C240 220p

C246 C248 C249 22n 22n 22n C264 0.1uF C263 10uF 16V
+

2
C253 22uF 16V R229 4K 7
+

+

Q207 BC 857

L208 10uH

L209 C258 10uH 100n

C265 47uF 16V

L210 C260 1uH 220nF

C262 47uF 16V

5V
C268 220p

C

C241 10uF 16V L206 10uH

P203

P203

1 2 3 4 5 6

2
L207 10uH Q206 BC 857 R230 1K

2,7 0

2
Q208 BC 857

3.3V-S TB

2,6
5V
P805 R232 1K D270 4148 C254 100P D271 4148 C257 100P D272 4148 C259 100P

P963=>P602
P963 P602 P964 C963 1n R963 100 C960 3n3 R960 220 R962 100
+ +

R221 10k P130

R222 100 C269

5V

5V

3,3
Q204 BC 857 C252 2n2

R231 1K R271 18K

SANDCASE

C963 100uF C962 100uF R961 220 C961 3n3

1 2 3 4

1 2 3 4

JP130
Vo
R131 220 AOUTL AOUTR C131 220P SCL

220p R227 120K

4

5V

P130

1 2 3 4
C130 220P R130 220 SD A

R228 220 H OUT ABL FB

5V 6

1 2 3 4 5 6

D204

C270 2n2

R270 33K

P202

P202=>P502

R

G

C964 1n

ETC009 - ETC010
First issue 10 / 04

B

+

1

+

100

+

R908

C942 2n2

2.2uF

C218 100n

C210 22nF

C216 10n

+

5

+5V

R205 680

C207 C209 C213 1n 1n 1n

C215 2.2uF 50V R210 12K

C220 C219 33P 10uF 16V

C221 33P

C223 100uF 10V +

L201 C222 100n 1uH

L202 1uH C224 100n C225 10uF 16V

Q201 BC 847

1,9

1,9

a b

C226 100n

C227 10uF 16V

+

L203 10uH

2,5 Q210
BSH 103 R281 150K C281 1n

c

+ +

GA ME L P1.5 GA ME R P1.4 P1.2 GND

128 127 126 125
L001 10uH

SYS C019 10uF 16V 22K R017 22K R018

+5VST B
MU TE

+3.3VST B
R024 100 L003 10uH R033 2K 2

D006 4148

KEY

D005 C024 4148 47uF 16V +5VST B Q209 BSH 103 R040 15K R030 10K R031 10K R039 1k ST1 ST2

c

X- RA Y

D007 IN 4148

+

RELA Y R032 5K 6

+5VST B
SDA C027 100P SCL C026 100P

+5VST B

1 2 3 4 5 6
R262

P008
P008
LED

-0,6 M
Q205 BC 847

C280 47uF 16V

22K

5

b
STA NDBY

+5VST B

R047 47K IR

a

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
Power K 001 A . SEA RCH K 002 P+ K 003 PK 004 VO L+ K 005 VO LK 006 ME NU K 007 TV /A V K 008 D001 IR001

5 4 3 2 1

IR LED +5VS TB KEY GND 4 3

3

2

1 2 3 4 5

C002 10n C001 47u/16V
+

1

R001 1K 5

R002 1K

R003 680

R004 470

R005 390

R006 300

R007 220

R008 47

P001(MAIN)=>P001(KDB)
Z102
5 4 3 2 1
R129 2k2 C113 1n L104 1uH Z100 40.4MHz

Z101
5 4 3 2 1
R121 6K 8 R120 6K 8 R126 47K R125 100k P003 R128 220
+ C111 10uF/16V

2 1

K3953D

P001

+8v

P001(KDB)=>P001(MAIN)
Mi/BS1(SCL ) Lo/BS2(SDA)
TU 100 UV 1336 R115 33

R127 33 L103 220nH C109 10n C110 10n R124 82 R119 6K 8

K9453D

Z102=> Z101
D104 1S110

+5v

i.c.(+33V)

i.c.(V+)

Hi/n.c.

IFGND

L102 1uH

R111 470

C108 10n

AGC

i.c.

IF2

VT

V+

IF

10

11

4,9

1

2

3

4

5

6

7

8

9

C106 10n

R116 1K C107 Q101 10n R114 56 C3779 R117 150 R118 22

D105 1S110 Q102 BC 847

SYS

C100 10uF 16V

+

R103 39k

C104 100P R100 68k C101 100P R104 100 R101 10k R109 100

D102 BYV 79C33

+5V
C112 10n R112 330

1

WP

Vd d

8
C004 10n

R010 22

2

n.c.

IC 001 PTC 24C16

7

5VSTB
R009 22 R011 22 C005 56p SDA SCL

3

A2

SCL

6
C003 56P

+5V
4
AGC SCL SD A

Vs s

SDA

5

5

4 3 2 1

D100 IN 4148

L101 10uH

C102 10n

+ C103 100uF 10V

33V
+

C105 47uF 50V

R113 100

P003

ETC009 - ETC010
First issue 01 / 06

ETC009
3 P502 4 P502 1 P502 5 P502

0 B

2V 1,8Vpp-H

0

2,2V 1,6Vpp-H

3V 10ms 0 2,8Vpp-V
R516

0 1.Vpp-H
209,4
200V
R515 15K 1W 127,5

2V

X 501 TUBE

EH T

CRT
KB KG
R518 1.5K 1/2W R528 1.5K 1/2W

CRT

D503 BAV2 1

D502 D501 BAV2 1 BAV2 1

470 1/4W Q512

80Vpp-H T=64µs G

BF422

124
Q513

Q511 2,6 BF422

R511 47 R512 10K

2,1

200V

BF423 R517 470

209,4 R526
470 1/4W Q522 BF422

R514 270 R525 15K 1W

R513 10 D511 4148 C511 470P R521 47 R522 10K

P502=>P202 (MAIN)
6 5 4 3 2 1

KR

R538 1.5K 1/2W

125
Q521 BF422

G3

G2

G1

80V-H T=64µs
P504
1

121,5
Q523 BF423 R527 470 R536 R524 270

2,8

2,2
R523 10 D521 4148 R535 15K 1W C521 470P

4,7

R500 1.5K 1/2W

200V

R

R502 2.2M C501 10uF 250V
+

470 1/4W

209,4
Q532 L501 10uH R504 10 R537 470 BF422

200V

5,7

132
Q531 2,6 BF422 R531 47 R520 1K 1/4W

209,4
R503 150K
+

screen

128,2
Q533 BF423

88Vpp-H T=64µs

C500 1n 2K V

D500 BAV2 1

C502 10uF 250V

2
R534 270 D531 4148 R533 10 C531 470P

R532 10K

5,7

210
4 3 2 1

P503=>P403

AUDIO

MU TE

R609 10K

R610 10K Q601 A1 015
+

9V

M
Q602 C1815

R608 10K

R605 220

MAIN

D600 4148

C616 100uF 25V

2 x 6W version
L 12

P 3 13 1
P601
9V

C606 1000uF 25V R600 4K 7 R601 10k JP602
+

+

C614 10n

P

R611 0.22/2W

+

C607 100uF 25V

R
R606 47K

L

4
IC 601 TDA 7266

2

+

A OUTL

C601 0.22 C600 3300p

16 10 11
+ C602 100uF 25V

8 14

C609 100uF/25V C610 100uF/25V

M

P600=>
2 1 2 1

9V
R607 47K
+

7

15
P600

15 1
IC 600 TEA 2025B C612 100uF/25V

C608 0.15

6 14
C615 8 10uF/25V

9

A OUTR

4K 7 R603 10K C604 3300p JP603

R

4,5,12,13
9

C611 0.15

+

R602

C603 100uF 25V C605 0.22

JP601

3 6 7 2

+

C613 100uF/25V

+

1 2

1 2

P601=>P602

D601 4148

AUDIO
P 3 L R
R606 47K Q602 BC847 R607 47K

5V
MUTE R608 10K R613 1K

R612 4k7 Q600 BC857 R615 4k7 R614 1K

13

M
R611 0.22/2W C606 1000uF 25V
+

9V 4 7 6 8
C615 10uF/25V IC601 TDA7266

P

12

1 2 15 14 9
C622 100n AOUTR R603 3K3 P600 P601 AOUTL Q603 BC847 R601 3k3 Q604 BC847 C601 0.22

C614 10n

+ C607 100uF 25V

16

8

10 11 1 6 7 R
IC600 TEA2025B

14 15 3 2

L

C609 100uF/25V
+

C600 3300p JP602
+

+

8V

R609 10K D600 4148

R610 10K Q601 BC857
+ C616 100uF 16V

+ C602 100uF 25V

C610 P600 100uF/25V
+

+

C603 100uF 25V C605 0.22 C604 3300p

JP601

C612 100uF/25V

C608 0.15 C613 100uF/25V C611 0.15
+

M

2 1

2 1

P601

4,5,12,13
9

1 2
P601(P602)

1 2

P600

JP603

P081 1 J082 2 D081 3 R080 4 5 1 2 P083 J080 R082 R081 C082 D081A

R088

KEY BOARD
+ C081 P082 1 2

R085

R084

J081

R083

S081 Menu

S084 CH-

S085 CH+

S082 -VOL

S083 +VOL

S086 POWER

ETC009 - ETC010 First issue 01 / 06

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. 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" (PU03C00C 1.8 2005. 07 . 20-01 ADR0 ADR2 AFC GG DEFL LAST ERR: REV: 01111010 10000010 00000000 10110111 ADR1 ADR3 RG BG 01010000 00011110 00110111 00110111 128

00001111 DISC NV : 1878 00000000 882204

II . FLOW OF ALIGNMENT PROCEDURE 1) B+ Adjustment 2) RF AGC Adjustment 3) Crystal Oscillator Frequency Adjustment 4) Screen & Focus adjustment 5) Sub-color adjustment 6) White balance adjustment 7) Sub-brightness adjustment 8) Picture Geometric adjustment 9) Reset TV set

ETC009 - ETC010
First issue 01 / 06

III - ALIGNMENT PROCEDURE
Notes: - Alignment should be done after 3 minutes warm up of TV . 3.1. B+ VOLTAGES

CRT type B+ Voltage ETC009: VR801 Standard TV - Settings : IRICO A36CPAA 00X02 + + =50% ETC010: V= TTD A51ELD 032X004 (no alignment) DP805 (ETC010) TV to AV1 : Black test DP824 (ETC009) LGPD A51ERS 357X440 (SLIM) pattern ZHONGHUA CHA34AGT13X53 TTD ELM021X001 TTD W76ELC011X001

B+ Voltage 108V +/- 0.5V 112V +/- 0.5V 108V +/- 0.5V 130V +/- 1.5V 132.5V +/- 1.5V

3.2. RF AGC
U0C300C 1 . 8 2005. 07 . 20-01

3.2.1. Method 1 1) Input 60dB PAL BG , with half-Color Bar signal 2) Press key "2" to enter page 2 of factory mode (Fig.1) 3) Select RF AGC with " up " or " down " key. . 4) Press "ZOOM- "(left) and " ZOOM+ " (light) key until the hint display just change from "Inactive" to "active".) 5) Adjust AGCL for SECAM L /L' same as the PAL. 3.2.2. Method 2 1) Apply RF signal of 210.25MHz (BG CH 10) modulated with color bar at 3mVrmx to Tuner input 2) Tune to CH10 3) Go to factory mode, entry page 2 (Fig.1) & set "RF AGC" to 00 (max IF output). 4) Monitor 38.9MHz IF frequency response at Tuner pin11 with spectrum analyzer by using high impedance probe or equivalent. 5) Increase RF AGC control until IF frequency response 8 +1/-2 d B down from maximum.

5VPOS 24 5VAM 29 5VSL 38 5VL 30 5VSC 31 5VSCL 34 RF AGC 14 AGCL 14

Active

Fig.1

page 2

210.25 MHz 3mV antenna input

chassis ETC009/ETC010 Tuner IF BG CH 10 Monitor IF 38.9 MHz
11

3.3. CRYSTAL OSCILLATOR FREQUENCY Notes: - If TV had NICAM function, we recommend to adjust crystal with NICAM. 3.3.1. Crystal oscillator frequency adjustment with NICAM a) Apply PAL BG NICAM signal with good reception quality. b) Enter factory mode, press "Vol -"(FORMAT) key , it will display " DCXOAUTO " , (Fig.2) then press "ZOOM+" (light) key to start auto adjust , when it displays "DCXOAUTO OK" , the adjust is finished . 3.3.2. Crystal oscillator frequency adjustment without NICAM ( for software with UOC3 TDA12070/12072 only ) a) Input PAL color bar signal. b) Enter factory mode, press "Vol -"(FORMAT) key , it will display " DCXOAUTO " , then press "ZOOM+" (light) key to start auto adjust , when it displays "DCXOAUTO OK" , the adjust is finished . 3.3.3. Crystal oscillator frequency adjustment without NICAM a) Input PAL color bar signal. b) In factory mode, press "0" to entry page 0 , (Fig.3). Adjust "DCXO CAP" until display " DISC " is steady at 128.
U0C300C 1 . 8 2005. 07 . 20-01 DCXOAUTO

Fig.2
U0C300C 1 . 8 2005. 07 . 20-01 YDFE PAL DEC LVL MONO LVL NIC LVL SAP LVL SAP LVL ADC LVL DCX0 CAP PSCALE PLIM PCENTER LOUDNESS DUB100Hz 15 2 0 0 0 0 27 56 DISC: 128 0.375 DCX0:61 96 12 3 6

Fig.3

page 0

ETC009 - ETC010 First issue 01 / 06

Notes: - Alignment below should be done after 15 minutes warm up of TV. 3.4. G2 & FOCUS

G2 potentiometer : Standard TV - Settings : 1- Press red "PRESETS" (Led) U G2 Key on the remote control Screen voltage SCREEN + + = 50% and the screen will become a Focus-Block adjustment horizontal line, TV to AV1 : Black test pattern 2- adjust the "screen voltage" of the fly back transformer until the horizontal line can just be seen barely (minimum visible intensity). FOCUS FOCUS VR Focus-Block Standard TV - Settings : TV to AV1 Test pattern

No correct

Correct : minimum visible intensity

+

+

= 50%

Sharp picture

3.5. SUB COLOR a) Input NTSC Video pattern : AV b) Press key "4" : page 4. (Fig.4). Measure at the CRT blue Cathode (Fig.5). c) Adjust COLC to make level a and d equal; then TNTC to make level b and c equal; d) Input PAL color bar signal. e) Adjust COLP to make level of a,b,c,d equal ; f) Input SECAM color bar signal, and adjust COLS to make level of a,b,c,d equal.
U0C300C 1 . 8 2005. 07 . 20-01 VOL 01 VOL 10 VOL 90 VOL 100 CNTC BRTC COLC TNTC COLP COLS SHPTV 30 104 170 188 31 30 23 35 3 23 32

Blue Cathode

CRT

a

b

c

d

A

Fig.4

page 4

Fig.5

3.6. WHITE BALANCE White Balance adjustment (neutral) a) Input RF Black and White pattern signal (PAL). b) Press "1" key to enter white balance adjustment (Page 1:Fig.6) c) Measure the dark side of the picture with a color analyzer. Adjust RED and GRN until the data on the analyzer become x=284 +/-8, y=299 +/-8. d) Measure the bright side of the picture. Adjust WPR, WPG and WPB until the data on the analyzer become x=284 +/-8, y=299 +/-8. e) Repeat step c and d until you get right white balance on both dark and bright side of the screen. f) Input RGB Black and White pattern signal (PAL). g) Measure the dark side of the picture with a color analyzer. Adjust REDC and GRNC until the data on the analyzer become x=284 +/-8, y=299 +/-8. h) Measure the bright side of the picture. Adjust WPRC and WPGC and WPBC until the data on the analyzer become x=284 +/-8, y=299 +/-8. i) Input SECAM L Black and White pattern signal. j) Measure the dark side of picture with a color analyzer, Adjust REDSECAM and GRNSECAM until the data on the analyzer become x=284 +/-8, y=299 +/-8. Warm color temperature a) Press green " LIST" key . b) item: Warm R ; Warm G ; Warm B : Factory adjust c) Check the item values are as shown opposite. Alignment of Cool color temperature a) Press green " LIST" key. b) item: Cool R ; Cool G ; Cool B : : Factory adjust c) Check the item values are as shown opposite.

U0C300C 1 . 8 2005. 07 . 20-01 WPR WPG WPB REDC 26 29 31 32 GRNC WPRC WPGC WPBC 40 18 18 15

RED GRN

31 29

page 1

grey

Fig.6

U0C300C 1 . 8 2005. 07 . 20-01 Warm Warm Warm Cool Cool Cool R G B R G B 10 10 10 10 10 10

ETC009 - ETC010 First issue 01 / 06

3.7. SUB BRIGHTNESS 3.7.1. Sub brightness adjustment 1) Input eight steps gray signal. 2) Press key "4" to enter sub-brightness adjustment. 3) Adjust "BRTC" until the secondary gray bar just to be seen.(Fig.7).
U0C300C 1 . 8 2005. 07 . 20-01 VOL 01 VOL 10 VOL 90 VOL 100 CNTC BRTC COLC TNTC COLP COLS SHPTV 30 104 170 188 31 30 23 35 3 23 32

The 2nd gray scale

Fig.7

page 4

3.8 PICTURE GEOMETRY ADJUSTMENT 3.8.1. Vertical geometry items - Press key "2" to enter Vertical geometry adjustment.
VERTICAL GEOMETRY ITEMS
U0C300C 1 . 8 2005. 07 . 20-01 5VPOS 24 5VAM 29 5VSL 38 5VL 30 5VSC 31 5VSCL 34 RF AGC 14 AGCL 14

5VSL (V-Slope)

5VL (V-Linearity)

Active

5VAM (V-Amplitude)

5SCL (Vertical S-Correction) 5VX* (Vertical Over scan)

S

page 2

5VPOS (V-Position) * According to Software

3.8.2. Horizontal geometry items - Press key "3" to enter Horizontal geometry adjustment.
HORIZONTAL GEOMETRY ITEMS
U0C300C 1 . 8 2005. 07 . 20-01 5HSH 5PAR 5BOW 5EWW 5EWP 5UCR 5LCR 5EWT 5WBR 5WBF 36 24 22 33 35 42 32 36 7 7

5HSH* (H-Position)

5UCR (EW-Upper Corner) 5LCR (EW-Lower Corner) 5EWT (EW Trapezium)

5PAR* (Parallelogram)

page 3

5BOW* (Bow Adjust.)

5EWW (H-Amplitude)

5WBR**

End of Blanking

5EWP (Pincushion correct.)

5WBF**

Start of Blanking

* Only valid for ETC009 except models with Slim CRT ** Only valid with 16:9 tubes

ETC009 - ETC010
First issue 01 / 06

3.8.3. Adjustments Signal : 4/3 test pattern - Cross hatch pattern (PAL or SECAM), NTSC signal to adjust NTSC geometry.

4/3 picture tube
Overscan V=107% , H=107% Vertical adjustment : press "2" 1- Check the Factory adjust 5VSC = 31; Adjust Vertical Slope : 5VSL 4/3 standard mode
Correct No correct

2- Adjust Vertical Position (5VPOS) , Vertical amplitude (5VAM). 3- Adjust Vertical Linearity (5VL) and S correction

S
Horizontal adjustment : press "3" 1- Adjust Horizontal Position (5HSH) and Horizontal parallelogram (5PAR), 2 -Adjust Horizontal Bow (5BOW) 3 -Adjust Horizontal width (5EWW) and Pincushion correction (5LCR)

4 -Adjust EW Amplitude (5EWP) , EW Upper (5UCR) / Lower Corner (5LCR) 5 -Adjust Trapezium correction (5EWT)

16/9 picture tube
Overscan V=107% , H=107% Vertical adjustment : press "2" 1- Check the Factory adjust 5VSC = 31; Adjust Vertical Slope : 5VSL 16 / 9 standard mode
Correct No correct

2- Adjust Vertical Position (5VPOS) , Vertical amplitude (5VAM). 3- Adjust Vertical Linearity (5VL) and S correction

S
Horizontal adjustment : press "3" 1- Adjust Horizontal Position (5HSH) and Horizontal parallelogram (5PAR), 2 -Adjust Horizontal Bow (5BOW) 3 -Adjust Horizontal width (5EWW) and Pincushion correction (5LCR)

4 -Adjust EW Amplitude (5EWP) , EW Upper (5UCR) / Lower Corner (5LCR) 5 -Adjust Trapezium correction (5EWT)

Overscan V=107% , H=77% 4 / 3 centered 1 - Check the 16 / 9 standard mode geometry. 2 - Adjust H. width 77% (5EWW) and pincushion correction (5LCR) 3 - Adjust if necessary lower/upper corner (5UCR/5LCR) 4 - Adjust if necessary the Bow correction (5BOW) and parallelogram (5PAR).
0,8MHz 1,8MHz 2,8MHz 60% 80% 100% 3,8MHz 4,8MHz 0% 20% 40%

5 - Adjust 5WBF 4/3 and 5WBR 4/3to make the castellation just un-visible. Overscan V=122% , H=90% 14 / 9 1 - Check the 16 / 9 standard mode geometry. 2 - Adjust H. width 90% (5EWW) and pincushion correction (5LCR) 3 - Adjust if necessary lower/upper corner (5UCR/5LCR) 4 - Adjust if necessary the Bow correction (5BOW) and parallelogram (5PAR).
0,8MHz 1,8MHz 2,8MHz 60% 80% 100% 3,8MHz 4,8MHz 0% 20% 40%

5 - Adjust 5WBF 14/9 and 5WBR 14/9 to make the castellation just un-visible.

3.9 RESET TV When all item alignment is finished, please make the TV to RESET as 1.4.4.

ETC009 - ETC010
First issue 01 / 06

IV - FACTORY ALIGNMENT VALUES
KEY 1 Item RED GRN WPR WPB Data 32 32 32 32 KEY 2 Item 5VPOS 5VAM 5VSL 5VL Data 32 23 28 30 KEY 3 Item 5HSH 5PAR 5BOW 5EWW Data 42 33 29 39 Item VOL 01 VOL 10 VOL 90 VOL 100 KEY 4 Data 30 104 170 188( ETC009 5W) 194(ETC010 6W) 176(ETC010,10W) WPG REDC GRNC WPRC WPGC WPBC REDSECAM GRNSECAM * No adjustable 32 32 32 32 32 32 32 32 5VSC * 5SCL RF AGC AGCL 31 31 22 22 5EWP 5UCR 5LCR 5EWT 5WBR 5WBF 34 46 43 26 7 7 CNTC BRTC COLC TNTC COLP COLS SHPTV 31(ETC009) 21( for 14"15") 31(ETC010) 30 23 35 3 23 32

V - SERVICE MODE VALUES 5.1 Analog control adjustment Press key "5" to enter analog adjustment.
KEY 5

Item CNTX Max. Contrast value CNTN Min. Contrast value BRTX Max. Brightness value BRTN Min. Brightness value COLX Max. Color value COLN Min. Color value TNTX Max. Tint value TNTN Min. Tint value SHPX Max. Sharpness value SHPN Min. Sharpness value

Data ETC009 ETC010 63 63 1 3 63 63 15 15 50 50 0 0 63 63 0 0 63 63 0 0

5.2 - Picture item adjustment Press key "6" to enter analog adjustment.
Data Item CPFK PAL Peaking value CFPEK PAL PAL peaking frequency & value CFPEK NTS NTS peaking frequency & value CFPEK YUV YUV peaking frequency & value IFPL IF Offset BBTC Base-band tint control (phase U,V signal) PGR Original value of R PGG Original value of G PGB Original value of B ON VAM (depends on tube) VG2BRI Brightness of V line when adjust G2 HDOL RGB drive gain. ETC009 32 3.5M 143NS 3.1M 160NS 4.0M 125NS 32 32 55 55 55 3 ( depends on tube) 20 3 ETC010 32 3.5M 143NS 3.1M 160NS 4.0M 125NS 32 32 55 55 55 0 20 4

`

5.3 - OSD Position adjustment Press key "7" to enter analog adjustment.
Item OSD BRI OSD brightness CC BRI Teletext brightness 5CCD H Position for Teletext 5CCD V Position for Teletext 5OSD H OSD H position 5OSD V OSD V position 5MENU V Menu V. position 5MENU H Menu H. position Data 8 5 11 40 9 32 55 10

ETC009 - ETC010
First issue 01 / 06

5.4 - Option adjustment Press key "8" to enter Option adjustment.
Item
U0C300C 1 . 8 2005. 07 . 20-01 OP01 OP02 OP03 OP04 OP05 OP06 OP07 OP08 OP09 OP010 00001110 10000100 00010011 00000000 00100111 00001011 11000011 00000000 00001100 00110000

Data 00001110 10000100 00010011 00000000 00100111 (10100111 for TDA12070/12072/H/N1F00) 00001011 (00000100 for TDA12070H/N1F00) 11000011 00000000 00001100 00110000 00001110 Bit 0

OP01 OP02 OP03 OP04 OP05 OP06 OP07 OP08 OP09 OPT010 Bit 7

Fig.8

Check the bytes values. They indicate the configuration of the chassis and are given for information only. The default values are indicated in the follow table. - Choose the item Op01 ,Op02 ... by pressing up/down key. - Access to the selected Option adjustments by pressing "Left" or "Right" key OP01
U0C300C 1 . 8 2005. 07 . 20-01

OP01 : default value : 00001110
FMWS0/1 AGN AGC0/1 AVLM CMCA MAT 450kHz 6dB Normal Normal gain Stereo mode Adapted to standard

Bit 0 - Bit 1: FMWS0/1 (Band width FM; 10: 450kHz) Bit 2 : AGN (Audio output amplitude; 1: +6dB gain) Bit 3-Bit 4 : AGC0/1 (AGC time content selection; 01: Normal) Bit 5 : AVLM (Gain for analog FM decoder; 0: Normal gain) Bit 6 : CMCA (stereo/mono- 0: stereo 1: mono) Bit 7 : MAT (Y,U,V to RGB matrix selection - 0:adapted to standard).

OP02
U0C300C 1 . 8 2005. 07 . 20-01 MUS CB CHSE0/1 CL0 DTR SDC HC0 japanase matrix FSC -37dB 4.29MHz single chroma trap Duty cycle 55:45 EHT traking on vertical and EW

OP02 : default value : 10000100 Bit 0 Bit 1 Bit 2-Bit 3 Bit 4 Bit 5 Bit 6 Bit 7 : MUS (Y,U,V to RGB matrix selection). : CB (Select. for center of chroma band; 0: Fsc) : CHSE0/1 (Sensivity of color killer; 01: -37dB) : CL0 (center frequency of SECAM bell filter; 0: 4.29MHz) : DTR (Dual Chroma trap; 0: single chroma trap) . : SDC (Hor. drive pulse width; 0: Duty cycle 55:45). : HC0 (EHT tracking only vertical or vertical and EW).

OP03
U0C300C 1 . 8 2005. 07 . 20-01 MVK FBC EVB SLG ACL IFS GD L I Macro vision key active off with fix beam current Norman vertical blanking 280uA Not active Normal No group correction

OP03 : default value : 00010011 Bit 0 Bit 1 Bit 2 Bit 3-Bit 4 Bit 5 Bit 6 Bit 7 : MVK (Macro Vision Keying; 1: active). : FBC (switch-off with blanked RGB outputs or fixed beam current) : EVB (normal Vert. picture or extended vertical blanking) : SLG0-SLG1 (selection of AKB black current; 10: 280uA) : ACL (control the ratio of chroma/color burst; 0: Not active). : IFS (IF sensitivity; 0: Normal). : GDLI (group correction/group delay correction switch for L and I. 0: No group correction).

OP04
U0C300C 1 . 8 2005. 07 . 20-01 FFI BPB BPB2 SSL FSL No use Normal time constant Normal operation bandpass filter 50% dependent on noise detector OFF

OP04 : default value : 00000000 Bit 0 Bit 1 Bit 2 Bit 3 Bit 4 Bit 5,6,7 : FFI (IF PLL lock time constant, used for over modulation). : BPB (sound bandpass - filter for mono 0: Normal operation). : BPB2 (stereo band pass - filter for stereo/dual 0: active). : SSL (slice level of Hor. syn. Pulse; 0: 50%). : ACL (slice level of Vert. syn. Pulse; 0: dependant on noise detector). : No use

ETC009 - ETC010
First issue 01 / 06

OP05
U0C300C 1 . 8 2005. 07 . 20-01 VAI VA0/VA1 FC0 VG2 MODE DSS DSG Amplitude 12% Amplitude +5% OFF LIGHT LINE Normal operation 0dB

OP05 : default value : 00100111 Bit 0 Bit 1-Bit 2 Bit 3 Bit 4 Bit 5 Bit 6 Bit 7 : VAI (gain correction; 0: no correction 1: +12% PAL I). : VA0/VA1 (IF CVBS output amplitude correction; 10: +5%). : OFB (Offset control on Red and Blue channel). : FCO (force color on when bad signal, color killer not active). : VG2 MODE (0:OSD indication 1:Line). : DSS (0: normal operation 1: LCD / Pscan : DSG (audio output selection amplitude; 0: 0dB)

OP06
U0C300C 1 . 8 2005. 07 . 20-01 DCXOMUX QSS FMI NICAM RPA0/1 RP00/1 Nicam QSS Amp active Output conn to QSS0 ON 1:1 1:1

OP06 : default value : 00001011 Bit 0 : DCXOMUX (0:P3DCX0 TDA12070/12072/without NICAM 1: NICAM). Bit 1 : QSS (validation QSS amplifier; 1: active). Bit 2 : FMI (connexion QSS AMP output to SSD module or sound PLL demodulator; 0: Output conn to QSS0). Bit 3 : NICAM (NICAM selection; 1: ON) Bit 4-Bit 5 : RPA0 /1 (00) Bit 6-Bit 7 : RPO0/1 (00)

OP07
U0C300C 1 . 8 2005. 07 . 20-01 PWL SOC0/1 PWL ON GD BG DK 3 0% above PWL PWL circuit active Group delay correction

OP07 : default value : 11000011 Bit 0-1-2-3 Bit 4-Bit 5 Bit 6 Bit 7 : PWL (peak white limit; default : 3) : SOC0/1 (% above PW level; 00: 0% above PWL). : PWL ON (activation of the peak white limiting circuit; 1: active) : GD BG DK (activation of the Group delay correction; 0: group correction)

OP08
U0C300C 1 . 8 2005. 07 . 20-01 No use OFF

OP08 : default value : 00000000 Bit : OFF (No use)

OP09
U0C300C 1 . 8 2005. 07 . 20-01 AFG TYUV1 BPBS CLF BWYC CBPS SLD OSB False False True True False False False False

OP09 : default value : 00001100 Bit 0 Bit 1 Bit 2 Bit 3 Bit 4 Bit 5 Bit 6 Bit 7 : AFG (AFC measurement; 0: AFC False) : TYUV1(Analog output selection for text; valid if TYUV0=1) : BPBS (Enable bypass of sound filter at stereo mode) : CLF (Comb filter diode clamp; set to1) : BWYC (Bandwidth of anti aliasing filter at YC mode of 3.58MHz systems; 0: False) : CBPS (Internal chroma bandpass filter mode; 0: False) : SLD (Sleep mode detector status; 0: sleep enabled, False) : OSB (width of Burstkey; 0: False burstkey=3.52us)

OP10
U0C300C 1 . 8 2005. 07 . 20-01 BKC TYUV0 QDT TCCON TCI2X TXTS Blue SCN False False False True True False False

OP10 : default value : 00110000 Bit 0 Bit 1 Bit 2 Bit 3 Bit 4 Bit 5 Bit 6 Bit 7 : BKC (Internal burst key position; 0: False normal position) : TYUV0 (TXT/CC output selection; 0: False, RGB format) : QDT (Q values of Second chroma trap; 0: False) : FBC1 (Fixed beam current during switch off; 0: False, 1mA) : TCCON (Top sync. clamp control; 1: True , active) : TCI2X (Top sync. clamp time constant; 1: True) : TXTS (TXTS Mode : TEXT source; 0: False TXT from CVBS) : Blue SCN (Blue screen with no signal; 0: False)

ETC009 - ETC010
First issue 01 / 06

5.5 - Mode adjustment Press key "9" to enter Mode adjustment.
Item
U0C300C 1 . 8 2005. 07 . 20-01 MODE 1 MODE 2 MODE 3 MODE 4 MODE 5 MODE 6 MODE 7 MODE 8 MODE 9 MODE10 00110101 10010111 00000000 11111101 11000000 10001100 01110010 00101000 11001000 00100000

Data 010110100 10011111 (10011011 for TDA12070/12072 without L standard) 00000000 11111101 01000000 10001100 01110010 00000000 11001000 00110000 00001110 Bit 0

MODE 1 MODE 2 MODE 3 MODE 4 MODE 5 MODE 6 MODE 7 MODE 8 MODE 9 MODE 10 Bit 7

Check the bytes values. They indicate the configuration of the chassis and are given for information only. The default values are indicated in the follow table. - Choose the item MODE 1 ,MODE 2 ... by pressing up/down key. - Access to the selected MODE adjustments by pressing "Left" or "Right" key MODE 1
U0C300C 1 . 8 2005. 07 . 20-01 D-MODE AV OUT NO SIG. MUTE AV0 NI ADISP SEARCH TUNER CP TXT FIN Direct Key enter disabled Always TV Mute when no signal Don't mute AV-Out OFF Fast OFF OFF

MODE1 Bit 0 Bit 1 Bit 2 Bit 3 Bit 4 Bit 5 Bit 6 Bit 7

: default value : 10110100 : D-MODE (Direct enter D-mode (Service mode) with "OK" key 0:enable 1:disable) : AV OUT (0: Always TV - 1: Follow source) : No Signal (0: Demute when no signal - 1 mute when no signal) : MUTE AV0 (Mute AV-out) : NI ADISP (1: Nicam auto detection OSD display enable) : SEARCH (Auto search speed setting) : TUNER CP (CP bit selection of tuner) : TXTFIN (TXT fine tuning selection)

MODE 2
U0C300C 1 . 8 2005. 07 . 20-01 SOUND DK SOUND BG SOUND M DEF SND MAX PROG AUTO SND ON ON OFF BG 100 Prog Request auto sound

MODE 2 Bit 0 Bit 1 Bit 2 Bit 3 Bit 4 - Bit5 Bit 6 Bit 7

: default value : 10011111 : SOUND DK (depends on requirement) : SOUND BG (depends on requirement) : SOUND L (or I)* (depends on requirement) : SOUND M (or I)* (depends on requirement) : DEF SOUND (00: DK; 01: BG; 10: I; 11:M) : MAX PROG. (0: 100, 1:200 (no used)) : AUTO SND (Request auto sound detect when auto searching (0: Don't request 1: request auto sound)

* according models MODE 3
U0C300C 1 . 8 2005. 07 . 20-01

MODE 3
DBB/DVB AVL Tilt COMBFILT VM Secam SuperRec DVB OFF OFF OFF OFF OFF OFF

: default value : 00000000 : DBB/DVB (Woofer 00:DVB; 01:DB; 10: Woofer, 11:OFF) : AVL (0: OFF) : Tilt (0: OFF) : COMB (Comb filter : 0: OFF) : VM (0:OFF) : SECAM (0:OFF) : SUPERREC (0:OFF)

Bit 0-Bit 1 Bit 2 Bit 3 Bit 4 Bit 5 Bit 6 Bit 7

MODE 4
U0C300C 1 . 8 2005. 07 . 20-01 IF Freq AV1 AV2 AV3 S-VIDEO1 S-VIDEO2 RGB 38.9MHz ON ON ON ON ON ON

MODE 4 Bit 0-Bit 1 Bit 2 Bit 3 Bit 4 Bit 5 Bit 6 Bit 7

: default value : 11111101 : IF FREQ (00:45.75MHz; 01:38.9MHz; 10: 38MHz) : AV1 (1:ON) (depends on requirement) : AV2 (1: ON) (depends on requirement) : AV3 (1: ON) (depends on requirement) : S-VIDEO1 (1: ON) (depends on requirement) : S-VIDEO2 (1: ON) (depends on requirement) : RGB (1: ON) (depends on requirement)

ETC009 - ETC010
First issue 01 / 06

MODE 5
U0C300C 1 . 8 2005. 07 . 20-01 RADIO OFF EQ BAR Equalizer Bar BCFCHECK ON

MODE 5

: default value : 01000000

Bit 0,1,2,3,4 : No use Bit 5 : Radio (FM Radio 0:OFF) Bit 6 : EQ BAR (User menu display (0: bass & Treble; 1:Equalizer) Bit 7 : BCF CHEK (Beam current protection 1:ON)

MODE 6
U0C300C 1 . 8 2005. 07 . 20-01 POWER ON MUTE PIC HCT DURATION Power On ON ON 8

MODE 6

: default value : 10001100

Bit 0 - Bit 1: Power ON (Power on status 00:ON, 01:standby, 10 last status) Bit 2 : MUTE PIC (Mute picture when changing channel; 1:ON) Bit 3 : HCT (High Contrast for OSD; 1:ON) Bit 4,5,6,7 : DURATION (mute time when changing channel; default 8)

MODE 7
U0C300C 1 . 8 2005. 07 . 20-01 16:9TUBE XRAY V XRAY T 4:3 OSVE DOLBY OFF 1.9V 750ms ON OFF

MODE 7

: default value : 01110010

Bit 0 : No use Bit 1 - Bit 2: X-RAY V (Detection voltage for X-ray protection; 01:1.9V) Bit 3 - Bit 4: X-RAY T (Detect. time for X-ray protection; 10: 750ms) Bit 5 : No use Bit 6 : 4:3 OSVE (selection of vertical over scan; 1:ON) Bit 7 : DOLBY (selection of DOLBY; 1:ON)

MODE 8
U0C300C 1 . 8 2005. 07 . 20-01 VMA SVM SPR ST off ST 50ns ST 0/-3/-3

MODE 8

: default value : 00101000

Bit 0-Bit 1 : VMA (Amplitude of SVM output ; 00 : ST OFF) Bit 2,3,4 : SVM (Delay of RGB to SVM output; 010 : ST 50ns) Bit 5,6,7 : SPR (Parabola on SVM output; 001 : 0/-3/-3)

MODE 9
U0C300C 1 . 8 2005. 07 . 20-01 VMA SVM SPR WK off WK 50ns WK -6/-3/-0

MODE 9

: default value : 11001000

Bit 0-Bit 1 : VMA (WEAK status 00: OFF) Bit 2,3,4 : SVM (WEAK status 010: 50ns) Bit 5,6,7 : SPR (WEAK status 110: -6/-3/-0)

MODE 10
U0C300C 1 . 8 2005. 07 . 20-01 SVMA CRA0 TXTLV COFF No use 600mVpp 8% 0 False OFF

MODE 10 : default value : 00100000 Bit 0 Bit 1 Bit 2,3 Bit 4 Bit 5,6,7 : SVMA (SVM output signal ; 0 : 600mVpp) : CRA0 ( adjusted to 8% - Bit 1 = 0) : TXTLV (Scavem on TXT ampl.; 10: 1000mVpp) : COFF ( adjusted to False - Bit 4= 0) : No use

ETC009 - ETC010 First issue 01 / 06

VI - TEXT KEY Press the "Text" key and check the item values are as shown below.
Text key menu according to equalizer presetted in sound menu: ie "Standard"
U0C300C 1 . 8 2005. 07 . 20-01 BASS TREBBLE 100Hz 300Hz 1Khz 3Khz 8Khz S S S S S S S 16 16 6 9 8 6 7

KEY TEXT (change item in sound menu / Equalizer) Data Item BASS TREBLE 100HZ 300Hz 1KHz 5KHz 8KHz FL (Flat) 12 20 6 6 6 6 6 M (Music) 24 24 7 9 6 8 10 V (Voice) 24 16 6 9 9 9 6 F (Film) 16 24 7 8 6 6 9 S P (Standard) (Perso..) 16 16 6 9 8 6 7 12 20 6 6 6 6 6

VII - "PR-" / "0" KEYS Press the "PR-" then "0" key and check the item values are as shown below. "PR-" KEY
U0C300C 1 . 8 2005. 07 . 20-01 SET P1 SET P2 DATA VL DATA VH DATA UF SPE POS1 SPE DATA SENSI ON SENSI OFF 147MHz 423MHz 00000001 00000010 00001000 00000000 00000000 00000000 00000000

"0" KEY
U0C300C 1 . 8 2005. 07 . 20-01 YDEFE PAL DEC LVL MONO LVL NIC LVL SAP LVL ADC LVL DCX0 CAP PSCALE PLIM PCENTER LOUDNESS DUB100Hz 15 2 0 0 0 27 56 DISC:127 0.375 DCX0:56 96 12 3 6

ETC009 - ETC010 First issue 01 / 06