ADVENT T2751, T3251 Service Manual

SERVICE SERVICE
MANUALMANUAL
CONTENTS
1. INSTRUCTION………………………………………………………………………………1
2. ALIGNMENT PROCEDURE………………………………………………………………..2
3. FOR FACTORY MENU ADJUSTMENT SEE CHART5~CHART11…………………….5
5. INTRODUCTION OF THE VPC 3230D………………………………………………..12
7. GENERAL DESCRIPTION OF THE PW1235…………………………………………15
8. GENERAL DESCRIPTION OF THE TDA6111Q………………………………………18 WIRING DIAGRAM……………………………………………………………………….20 BLOCK DIAGRAM………………………………………………………………………...21 SCHEMATIC DIAGRAM………………………………………………………………….22 ELECTRICAL PARTS LIST………………………………………………………………27
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CAUTION: THIS SERVICE MANUAL IS ONLY FOR PROFESSIONAL SERVICE PERSONNEL’S
REFERENCE. BEFORE SERVICING THIS CHASSIS, PLEASE READ THE FOLLOWING NOTICE ITEMS.
1. INSTRUCTION
Before servicing and aligning this equipment, please read the following “X-RAY RADIATION PRECAUTION” ,“SAFETY PRECAUTION” and “PRODUCT SAFETY NOTICE”.
1.1 X-RAY RADIATION PRECAUTION
Excessive high voltage can produce potentially hazardous X-RAY RADIATION. To avoid such
1
hazards, the high voltage must not be above the specified limit. The normal value of the high voltage of this receiver see below chart:
Chart 1 High voltage requirement
T2751 T3251
Model
High voltage normal
value 30 kV 30 kV
1 kV 1 kV
Utmost value Beam current
35 kV 1.6 mA 35 kV 1.6 mA
Each time a receiver requires servicing, the high voltage should be checked following the HIGH
2
VOLTAGE CHECK procedure in this manual. It is recommended the reading of the high voltage be recorded as a part of service record. It is important to use an accurate and reliable high voltage meter.
* When checking, main power (B+) should be kept at 135 V (for Toshiba pure flat CRT).
The primary source of X-RAY RADIATION in this TV receiver is the picture tube. For continuous
3
X-RAY RADIATION protection, the replacement tube must be exactly the same type tube as specified in the parts list. Some parts in this receiver have special safety-related characteristics for X-RAY RADIATION
4
protection. For continuous safety, parts replacement should be undertaken only after referring to the PRODUCT SAFETY NOTICE below.
1.2 SAFETY PRECAUTION WARNING:
Service should not be attempted by anyone unfamiliar with the necessary precaution on this receiver. The following are the necessary precautions to be observed before servicing this chassis.
1) Since the power supply circuit of this receiver is directly connected to the AC power line, an isolation transformer should be used during any dynamic service to avoid possible shock hazard.
2) Always discharge the picture tube anode to the CRT conductive coating before handling the picture tube. The picture tube is highly evacuated and if broken, glass fragments will be violently expelled. Use shatter proof goggles and keep picture tube away from the unprotected body while handling.
1
3) When replacing a chassis in the cabinet, always be certain that all the protective devices are put back in place, such as: non-metallic control knobs, insulating covers, shields, isolation resistor-capacitor network etc.
4) When replacing parts or circuit boards, disconnect the power cord.
5) When replacing a high wattage resistor (oxiode metal film resistor) on the circuit board, keep the resistor 10mm (1/2in) away from circuit board.
6) Connection wires must be kept away from components with high voltage or high temperature.
7) If any fuse in this TV receiver is blown, replace it with the FUSE specified in the chassis parts list.
1.3 PRODUCT SAFETY NOTICE
Many electrical and mechanical parts in the chassis have special safety-related characteristics. These characteristics are often passed unnoticed by a visual inspection and the X-RAY RADIATION protection afforded by them cannot necessarily be obtained by using replacement components rated for higher wattage, etc. Replacement parts which have these special safety characteristics are identified in this manual and its supplement electrical components having such features are shaded on the schematic diagram and the parts list.
Before replacing any of these components, read the parts list in this manual carefully. The use of substitute replacement parts which do not have the same characteristics as specified in the parts list may create shock, fire, X-RAY RADIATION or other hazards.
1.4 Testing equipment
HDTV signal generator: VG853 or other same type, 1 set. Signal generator: PM5515 or the same type, 1 set. Voltameter: FULK805A or the same type, 1 set. White balance alignment equipment: 1 set Standard testing jigs: 1 set. Geometry alignment equipment: 1 set. Alignment stick: 1 set. Degaussor: 1 set.
2 Alignment procedure
2.1 Instruction
a) In this chassis since there are a great amount of data needed to be set, these setting all are stored
2
PROM. To reduce the alignment working, use the aligne d E2PROM as a female parent to
in E copy and then use them. Or refer to appendix chart and preset E
b) To conduct the alignment, the power supply should be AC120 V,60 Hz. The whole unit should be
preheated for 30 minutes.
c) To conduct with color purity, conver gence, white balance alignment or other alignment relative to
color, the CRT should be degaussed thoroughly.
d) Since this chassis adopts modulization structure, before mounting, every module should be
conducted with alignment.
e
The factory menu’s alignment should use XOCECO RC-T03-0A remote control. Press power switch to turn on the set, in turn press button “SLP-MUTE-AV-MENU” to enter into factory menu.
2
2
PROM value and then use.
Press SLP or 0 button to exit. Press MUTE button to preset before Out-factory.
f) For the supporting mode in this set see below chart 2.
Chart 2 The supporting mode in this set
Working mode Mode instruction H-frequency
Hz
TV TV mode 33.75k 60 Adjust firstly, every item should
1920*1080i/33.75K American HDTV mode 33.75k 60 Horizontal and vertical parameter,
720P*576/45.125K American HDTV mode 33.75k 60 Horizontal and vertical parameter,
640*480i(YCrCb) YcbCr(15.7K,59.97HZ) 33.75k 60 Horizontal and vertical parameter,
640*480p(YPrPb) Progressive
DVD(31.5K,60HZ)
33.75k 60 Horizontal and vertical parameter,
V-frequencyHz Alignment instruction
adjust
white balance
white balance
white balance
white balance
2.2 Alignment procedure
2.2.1 Module alignment
In all the module alignment, use a normal working TV set as an alignment frock, pull the set’s corresponding module and keep it as an example. Insert the module wanted to be check, then apply power to alignment.
a) AV board module
AV interface function check: check all the AV input/outputs function, it should meet the Product Standard requirements.
b) Digital processing board module
No alignment point, apply the power and check whether S-VIDEO, YCbCr, YpbPr input is normal.
c) Main board
No alignment point. Apply the power and measure “B+” voltage, the reading should be 105V, check there are no assemble error, the OSD,SVM is normal, and it is OK.
2.2.2 Chassis adjustment
Correctly insert all modules and parts, connect CRT board parts to CRT, apply power and check B+ voltage, the reading should be 105V. (on J332/J305)
2.2.3 The whole unit adjustment
Be sure the whole unit has been preheated for 30 minutes. a) Focus adjustment
1) In TV mode receive crosshatch signal, at the same time set SVM to OFF.
2) Adjust FOCUS inductance L306 on Dynamic Power Board to make R323 dynamic focus voltage be 1KV+/-50V.
3) Adjust FOCUS potentiometer on FBT and CRT to make horizontal and vertical grid both thinnest, and consider horizontal grid mainly.
4) Set SVM to ON, check the whole effect.
b) Dark current (SCREEN voltage) adjustment
In TV mode receive gray scale signal, after entering into factory menu status, press “1” button to
enter into “FACTORY MENU 1” factory menu, first preset WHITE-R, WHITE-G, WHITE-B’s value all to 0, adjust SCREEN potentiometer to make SCREEN LOCK on the screen lower part
3
display OK and it is OK, at this time, if changing channel, it should not appear flyback line. This state should also be OK after finish adjusting the white balance. .
c) White balance adjustment
Adjust on the basis of the above step, at standard status use gray scale signal to adjust.
1
Press “1”button to firstly adjust TV input white balance: fix the testing point at about 40 nits gray
scale, then by adjusting WHITE-R,WHITE-G and WHITE-B to make the value meet chart 3’s requirement.
2
Press “5” button to adjust YpbPr input white balance: use oscilloscope to measure Y signal
output on Digital Processing Board. Adjust G-0 gray scale to make blanking level be even with black level, adjust G-G to make signal amplitude to be 0.7V and eight level gray scale be even, then adjust R-G, B-G, R-0, B-0’s value to make white balance meet chart 3’s requirement.
Chart 3: chroma coordinates requirements
Colour temperature 12000K
X coordinate
Y coordinate
0.270
0.283
0.008 MPDC
0.008 MPDC
d) Picture size position and high voltage adjustment In component mode input 1080I signal
Use crosshatch and electrical circle signal, after entering into factory menu status, press “2”
button to enter into “FACTORY MENU 2” factory menu to adjust picture’s linearity. Adjust R339 joint point to make the V-center deflection range be within ±5MM(T3251), or ±3MM(T2751).
Change the signal to white background, or gre atly change contrast and brightness, or press
PIC button to switch among several kinds of analogue amount to make corresponding beam current changes, adjust V-EHT-COM, H-EHT-COM to make raster’s size basicly not change when at different beam current status.
3) According to chart 2 in turn apply every testing signal (firstly apply YpbPr signal, then TV or AV signal), then press “5” button to enter into “FACT ORY MENU 5”, adjust H-S, V-S, H-SIZE, V-SIZE to make picture normal.
e) Sub-brightness adjustment
Receive split field signal, set colour/contrast/brightness to 0, check whether screen second gray is slightly bright, otherwise press “6” button, in factory menu select CONTRAST MAX and BRIGHT MAX to adjust.
f) Filament/beam current/high voltage check and adjustment
1) Filament voltage: receive a TV program signal, set picture mode to “STANDARD”,th e filament voltage effective value should be 6.3
0.2 Vrms.
2) Beam current check: receive all white field signal, set picture mode to “SPORTS”, measure R360 two terminals’ voltage and the reading should be less than or be equal to 1.6V. If not, after entering into factory menu status, press “4” button to enter into “RGB MENU” factory menu, adjust AV BEAM LIMIT item to make beam current meet requirements.
3) High voltage check: receive D8 signal, set picture mode to “STANDARD”, measure CRT high voltage and the reading should be A value in chart 3. When brightness, contrast is set to minimum (zero beam current), measure the high voltage, the reading should not exceed B value in chart 4.
4
Chart 4 High voltage check requirements
Parameters
A B
74 cm 30 kV 34+ kV
0.5 kV
2751
CRT Size
86 cm 30 kV 0.5 kV 34 kV
3251
4) High voltage protection: receive a picture signal, adjust until picture and sound are normal, short R340 and the circuit should immediately enter into power-off protection state and the state should keep. Turn off the power switch and then turn on, the picture and sound should restore to before-testing state.
g) Peak value adjustment
On the condition of SCREEN and beam current has been adjusted properly, in order to show
picture’s contrast well and control picture’s colour tail, apply a little beam current picture (for example, black and white crosshatch) and set picture’s contrast and brightness to maximum, then after entering into factory menu status, press “4” button to enter into “RGB MENU” factory menu, by adjusting PEAK DRIVE LIMIT item to make the whole unit’s picture colour just without colour tail on the condition of maximum contrast and it is OK.
h) Every control buttons’ check
Check according to Instruction manual.
i) Check all the input/output terminals’ function, please check according to “PRODUCTION
STANDARD”
i) Out-factory setting
Set picture to “Standard”. Set sound to “Music”. Set Blue back to ON. Set OSD language to English. Set DNR to SOFT. Set SVM to ON. Set Volume to 30. Set Loudness to OFF. Set AVC to ON. Set CCD to OFF. Set child lock password, V-chip password to 0000. Set V-chip all rating to no rating . Set the channel to Cable 3. .
5
3 For factory menu adjustment see Chart 5 Chart 11.
Chart 5 Factory menu (1)WRITE
Item name Item instruction Range
WRITE R Bright balance R BF-3F Refer to white balance adjustment part 1 WRITE G Bright balance G BF-3F Refer to white balance adjustment part 1 WRITE B Bright balance B BF-3F Refer to white balance adjustment part 1
SCREEN
LOCK
2003-XX-XX Version date fix
Dark current
adjustment
OK/OFF OK
Default
value
Adjust SCREEN potentiometer until OK
Chart 6 factory menu (2)
Item Item instruction Range
V SIZE V-size 80-7F 39 To make vertical reproduction rate reach
V SHIFT V-center 80-7F 17 To make picture center and CRT center be
V LINEAR V-linearity 80-7F 41 To make V-linearity distortion minimum. V S CORR Vertical S-correction 80-7F F7 To make vertical S-correction distortion
H SIZE H-size 80-7F 08 To make horizontal reproduction rate reach
H SHIFT H-center 80-7F 43 To make picture horizontal center be in
V ANGLE Parallelogram correction 80-7F 05 To correct parallelogram distortion V BOW Arch correction 80-7F 0E To correct arch distortion PIN AMP Pincushion correction 80-7F 60 To make pincushion distortion minimum PIN PHASE Trapezoid correction 80-7F AE To make trapezoid distortion minimum UP CORNER LOWER CORNER EXT CORNER V SYNC CONT
Upper edge corner
correction
Lower edge corner
correction
Edge and corner
correction
80-7F 20
80-7F 11 To correct upper two corners distortion
80-7F C5 To correct lower tow corners distortion
80-7F C5 Corner edge correction
Default
value
90% 92%
in accordance
minimum.
90% 92%
accordance with CRT center.
Chart 7: factory menu (3)
Item Item instruction Range
V SCROLL Vertical scroll 0-FF 00 Not adjust, set default value V ASPECT V-size 0-FF 00 Not adjust, set default value V EHT Vertical high
voltage correction
80-7F BD To make vertical raster size not change
Default
value
when beam current changes greatly.
Adjusting method
Adjustment method
Adjustment method
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H EHT Horizontal high
voltage correction
AFC EHT COM High voltage auto
frequency control
H BLANK TIME Horizontal
blanking width
H BLANK PHASE Horizontal
blanking phase V BLANK START V-sync phase 80-7F FB Not adjust, set default value V BLANK END V-sync phase 80-7F 11 Not adjust, set default value MIN NO.OF LINE H-blanking phase 80-1F 00 Not adjust, set default value MAX NO.OF LINE H-blanking end
position PWM CONTROL H-blanking width 80-7F 02 Not adjust, set default value PLL CONTROL 0 H-blanking width 80-7F 0B Not adjust, set default value PLL CONTROL 1 H-blanking width 80-7F 62 Not adjust, set default value
80-7F 9D To make horizontal raster size not change
when beam current changes greatly.
20-1F 08 Not adjust, set default value
80-7F E4 Not adjust, set default value
80-7F F9 Not adjust, set default value
80-7F FF Not adjust, set default value
Chart 8 Factory menu (4)RGB MENU
Item Item instruction Range
INT H-SYNC PHASE AV BEAM LIMIT Beam current limit 80-7F 1A Refer to beam current adjustment part AV BEAM LIMIT CHA PEA DRIVE LIMIT Peak value limit 80-7F 00 Refer to peak value adjustment part PEAK DRIVE TOP Top peak value
PEA DRIVE BOTTOM PEA DRIVE L-R Left/right edge
DEFLECT 0 80-7F 03 Can not adjust, set default value DEFLECT 1 80-7F 05 Not adjust, set default value RGB CONTROL 0 80-7F 84 Not adjust, set default value RGB CONTROL 1 80-7F 18 Not adjust, set default value RGB CONTROL 2 80-7F 20 Not adjust, set default value RGB CONTROL 3 80-7F 03 Not adjust, set default value V INPUT MODE 80-7F 85 Not adjust, set default value
H-sync phase 80-7F 12 Not adjust, set default value
Beam current limit 80-7F 81 Refer to beam current adjustment part
80-7F 10 Not adjust, set default value
limit
Bottom peak value limit
peak value limit
80-7F 47 Not adjust, set default value
80-7F 88 Not adjust, set default value
Default
value
Adjustment method
7
Chart 8 factory menu FACTORY 5(HDTV mode)
Item Item insturction Range
R-G Red gun gain 00-FF 80 Refer to white balance adjustment part2 G-G Green gun gain 00-FF 80 Refer to white balance adjustment part2 B-G Blue gun gain 00-FF 80 Refer to white balance adjustment part2 R-O Red gun bias value 00-FF 80 Refer to white balance adjustment part2 G-O Green gun bias value 00-FF 80 Refer to white balance adjustment part2 B-O Blue gun bias value 00-FF 80 Refer to white balance adjustment part2 H-S H-phase 00-FF Geometrical adjustment V-S V-phase 00-FF Geometrical adjustment H-SIZE H-size 00-FF Geometrical adjustment V-SIZE V-size 00-FF Geometrical adjustment
Default
value
Adjustment method
Chart 9: factory menu 6
Item Item instruction Range
CONTRAST MAX CONTRAST CEN CONTRAST MIN BRIGHT MAX BRIGHT CEN BRIGHT MIN COLOR MAX COLOR CEN COLOR MIN Colour minimum value 00-7F 00 Not adjust, set to default value SHARP MAX TINT CEN Tint center value 00-7F 00 Not adjust, set to default value
Contrast maximum 00-7F 7F Not adjust, set to default value
Contrast center value 00-7F 3F Not adjust, set to default value
Contrast minimum value 00-7F 00 Not adjust, set to default value
Brightness maximum value 00-7F 7F Not adjust, set to default value
Brightness center value 00-7F 3F Not adjust, set to default value
Brightness minimum value 00-7F 00 Not adjust, set to default value
Colour maximum value 00-7F 3F Not adjust, set to default value
Colour center value 00-7F 20 Not adjust, set to default value
Sharpness maximum value
00-7F 7F Not adjust, set to default value
Default
value
Adjustment method
Chart 10 Factory menu 7
Item Item instruction Range
VOLUME-1 Sound curve 00-7F 0F Not adjust, set to default value VOLUME-25 Sound curve 00-7F 1F Not adjust, set to default value VOLUME-50 Sound curve 00-7F 3F Not adjust, set to default value VOLUME-100 Sound curve 00-7F 7F Not adjust, set to default value
Default
value
Adjustment value
8
BASS MAX Bass maximum value 00-7F 7F Not adjust, set to default value BASS MIN Bass minimum value 00-7F 00 Not adjust, set to default value TREBLE MAX Treble maximum value 00-7F 7F Not adjust, set to default value TREBLE MIN Treble minimum value 00-7F 00 Not adjust, set to default value SURROUND MAX SURROUND MIN BLANCE CEN Balance center value 00-7F 20 Not adjust, set to default value LOUDNESS ON LOUDNESS OFF
Surround sound maximum value Surround sound
minimum value
Setting value when loudness is on Setting value when loudness is off
00-7F 7F Not adjust, set to default value
00-7F 00 Not adjust, set to default value
00-7F 7F Not adjust, set to default value
00-7F 00 Not adjust, set to default value
Chart 11 Factory menu 8
Item Item insruction Range
OSD-HP MENU
OSD-HP AV SEL
OSD-HP NORMAL
SVM DELAY SVM delay phase 00-7F 03 Not adjust, set to default value (after
ZOOM DATA
OPTION DATA1 H-MUTE DELAY
MENU phase 00-7F 00 Not adjust, set to default value (after
AV menu phase 00-7F 00 Not adjust, set to default value(after
Other menu phase 00-7F 00 Not adjust, set to default value (after
9 picture zoom
16
OPTION 00-FF 01 Not adjust, set to default value
Horizontal failure of oscillations time delay amount
80-7F 20 Not adjust, set to default value(after
00-FF 5A Not adjust, set to default value. If less than
Default
value
adjustment, open the menu again and it is effective)
adjustment, open the AV selection menu again and it is effective)
adjustment, open the OSD again and it is effective)
adjustment, turn on the set again and it is effective)
adjustment, turn on the set again and it is effective)
10, the screen will light and burn the tube.
Adjustment method
9
Chart 12 Factory menu 9 DESIGN MENU
Item Item instruction Range
IC XXX Relative IC chip ADD H Address high 8 byte 00-FF Press VOL+/- button to change ADD L Address high 8 byte 00-FF Press VOL+/- button to change DATA H Data high 8 byte 00-FF Press VOL+/- button to change DATA L Data lower 8 byte 00-FF Press VOL+/- button to change READ Reading current data YES/NO REFRESH Reflesh changed data YES/NO SAVE Save changed data YES/NO
Default
value
Adjustment method
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4.General description of the SDA 9380-B21.
The SDA 9380 is a highly integrated deflection controller and RGB video processor for CTV receivers with 15 to 19kHz or 31 to 38kHz line frequencies. The deflection component controls among others a horizontal driver circuit for a flyback line output stage, a DC coupled vertical saw-tooth output stage and an East-West raster correction circuit. All adjustable output parameters are I2C-Bus con-trolled. Inputs are HSYNC and VSYNC. The HSYNC signal is the reference for the internal clock system which includes the ¦µ1 and ¦µ2 control loops. Block diagram of the SDA 9380-B21:
SCL
SDA
BSOIN
RESN
TEST
FH1_2
VSYNC HSYNC
CLEXT
CLKI
HSAFE
H35K H38K
RGB 2
FBL 2 FBL 1
RGB
/
YUV
YUV/RGB
X1 X2
SWITCH D/A
I²C
CONTROL
VBLO
SCP
HPROT
VPROTSSD
PROTECTION
START UP
PROTON



H-OUT
V-OUT
EW-OUT
HD
VD+ VD-
E/W
CLL
PWM
PLL
CLAMP
3
1
0
CLAMP
3
CLAMP
3
MATRIX
3
MATRIX
3
MATRIX
3
YUV
3
SWITCH
YUV
3
YUV
Y
UV
2
3
PW/PH- CORR
AVERAGE
BEAM LIMITER
BLACK
STRETCH
SATURATION
CONTROL
UV
RGB
MATRIX
Y
PWM
IBEAM
SVM
VDD(A1..4)
VSS(A1..4)
VDD(D1..2)
VSS(D1..2)
VDD(MC)
VSS(MC)
SUBST
BRIGHTNESS
CONTROL
3
DELAY
3
BLUE STRETCH
3
CONTRAST
CONTROL
3
PEAK DRIVE
3
LIMITER
3
3
VREFC
MEASURE
PULSES
CUT OFF +
WHITE POINT
OUTPUT
BUFFER
VREFH
VREFN
DCI
ROUT GOUT BOUT
11
PIN CONFIGURATION:
CLKI
X2 X1
CLEXT
TEST
SUBST
RESN
SCL
SDA VDD(D) VSS(D)
HD H35K
H38K PWM
VSS(D)
VDD(D)
SSD
SWITCH
64 63 62 61 60 59 58 57 56 55 54 53 5152 50 49
1
SVM
BOUT
SCP
VSS(MC)
VDD(MC)
ROUT
GOUT
R2
G2
B2
2 3 4 5 6 7 8 9
SDA 9380
10 11 12 13 14 15 16
17 18 19 20 21 22 23 24 25 26 27 28 3029 31 32
D/A
FH1_2
=
HSYNC
VSS(A1)
VDD(A1)
E/W
VSS(A2)
VDD(A2)
VD-
VD+
VPROT
VSS(A3)
VDD(A3)
FBL2
FBL1
48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33
HSAFE
HPROT
B/V 1
G/U 1 R/Y 1 VSS(A4)
V/B 0 U/G 0
Y/R 0 VDD(A4) DCI VREFC VREFN VBLO
VREFH PROTON IBEAM BSOINVSYNC
12
5.Introdution of the VPC 3230D. The VPC 3230D is a high-quality, single-chip video front-end, which is targeted for 4:3 and 16:9, 50/ 60 and 100/120 Hz TV sets. It can be combined with other members of the DIGIT3000 IC family (such as DDP 33x0A/B, TPU 3040) and/or
k
c
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IT U-R 65
F o rma
IT U-R 60
a
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ram
P IP
Mo
P ano
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L T
F IF O
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C o
P e
B rig
C b
c lo C
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C B u
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H S
k
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V S y
AV
ion
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nerat
C loc
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k
. n
C loc
G e
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C B
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r e
Mix
Y
lor C o
tiv e ap
d A
alog An
r e d o c
De
b
C om
nd e
-
t on
F r
C r
C b
n tio
L P A
NT S C
S E C AM
C lter F i
S
NT
C
AG
t n
T i
tura S a
Y
C r
C b
F B
s
ing
L
es s
P A
P roc
G Y /
ADC
×
2
alog An
t
on
ix
r
ras
t
ont
Ma
C
R V/
U/B
ent n
t
nes
n
rati u
T i
ght
S at
B ri
F B
ADC
on t-E nd
mpo
r
o
F
C
4 x
C IN
VIN1
VIN2
VIN3
it can be used with 3rd-party products. Block diagram of the VPC 3230D:
T U
VIN4
V O
B /
R G
Y C rC b
B /
F B
R G
Y C rC b
13
PIN CONFIGURATION:
XT AL1
XT AL2
AS G F
64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41
65
G NDF
66
VR T
67
I2C S E L
68
IS G ND
69
VS U P F
70
VO UT
71
C IN
72
VI N1
73
VI N2
74
VI N3
75
VI N4
76
VS U P AI
77
G NDA I
78
VR E F
79
F B1 IN
AIS G ND
80
1 2 3 4 5 6 7 8 9 10 1112 13141516 17181920 2122 2324
NC
VS T BY
C LK 5
F PDA T
F S Y/HC
MS Y /HS
VS
IN TL C V S UP S Y
AV O
V P C 323X D
G NDS Y
C 0
C 1
C 2
C 3
G NDC
VS UP C
C 4
C 5
C 6
C 7
40
Y 0
39
Y 1
38
Y 2
37
Y 3
36
VS U P Y
35
G NDY
34
Y 4
33
Y 5
32
Y 6
31
Y 7
30
G NDL LC
29
VS U PL LC
28
LL C1
27
LL C2
26
VS U P PA
25
G NDP A
B 1/CB 1IN
G 1/Y1IN
R 1/CR 1 IN
B 2/CB 2IN
G 2/Y2 IN
R 2/CR 2 IN
AS G F
NC
VS UP C AP
VS UP D
G NDD
G NDC AP S CL
C LK 20
F FOE
F FR E
F FR S TW
F FWE
F FIE
Y CO EQ
VG A V
T E ST
R E S Q
S DA
14
6.Introdution of the MSP 3425G.
The MSP 3425G family of single-chip Multistandard Sound Processors covers the sound processing of all analog TV standards worldwide, as well as the NICAM digital sound standards. The full TV sound processing, starting with analog sound IF signal-in, down to processed analog AF-out, is performed in a single chip.
Simplified functional block diagram of the MSP 3425G:
r e k
S
Loud-
spea
C DA
er
es sing
ound
Loud-
S
spea k
P roc
e-
es sing
P r
proc
2
I
C DA
ct
e
ce S el
S our
e
ca l
P res
1 T
AR S C
t
T
c
R
put
e
t
l
A
u
S e
O
S C
e
l ca
s e
P r
PIN CONFIG
or
De-
modulat
C AD
1 F
ound I S
S 1
S 2
2
2
I
I
1 T
AR S C
C AD
t
T
c
P
e
l
AR
nput
DS
I
S e
S C
2 T
AR S C
NO
MO
15
I2
DA C M
DA C
M
NC
_ L
26
25
V E R F
_ R
24
NC
2
23
22
R E S E T
NC
Q
21
20
S _ DA _
I
NC
N2
19
18
DV S U P
DV S S
17
16
M
27
28
29
30
31
32
33
34
35
36
37
NC
NC
V R E F
S
S
NC
AH V S
C
AH V S
AG NDC
C
C
1_O U
1_O U
1
T
T
_R
_L
A P L_M
UP
S
NC
AD R _
C L
15
S P
38
NC
AD R _
WS
14
34
39
S C 2_IN
_ L
AD R
_ DA
13
x5G
40
S C 2_IN
_ R
I2 S _
DA _
I
N1
12
41
S C 1_IN
_ L
7.General description of the PW1235.
D_ C
I2 S _
DA _
I2S
_
O
W
UT
S
11
10
42
43
S
V R E F C 1_IN
T
O
_ R
P
I2
I2S
C _
_
DA
C L
9
8
44
45
MO
AV S
N
S
O _
I
N
S T
AD R _
AN DB Y I2 C _
C L
7
46
AV S
UP
S E
Q
L
6
5
47
48
AN A_
AN A_
I
I
N
N
1
D_ C
T
T
R _
R _
I/O_ 0
I/O_ 1
NC
T P
4
3
2
1
49
50
51
52
NC
T E
XT
XT
AL
S T E
N
AL
_
_
IN
O UT
The PW1235 Video Signal Processor is a high quality, digital video signal processor that incorporates Pixelworks' patented, state-of-the-art video deinterlacer and scaler. Using sophisticated algorithms, the PW1235 is able to effectively deinterlace video input by creating motion vectors that follow frame-to-frame movement, and provide clear, progressive output in both analog and digital formats. With support for NTSC and PAL video formats, the PW1235 can be designed into any TV, monitor, or projector application. Support for 3:2 and 2:2 film mode detection enables the PW1235 to provide the best quality display for existing film and video standards. The PW1235 can dynamically enter or exit film mode (with flexible programming) to display mixed content with the best possible quality. As a single device, the PW1235 integrates many functions onto one chip. It has embedded a scaler, an advanced deinterlacer, memory controller, color space converter, and Digital-to­Analog Converter (DAC) onto one chip. There are two video input ports-a primary video port and a secondary input port-that are used to accept YUV video in the ITU-R601 and ITU-R656 formats respectively. Video content is analyzed on a single-pixel granularity to detect presence or absence of noise and compute the amount of motion. Motion video is processed using a highly intelligent algorithm that simultaneously eliminates noise and interpolates pixels along any angle to produce a noise-free picture without jagged-edge artifacts. As part of a Pixelworks solution, combining the PW1235 with a Pixelworks ImageProcessor (such as the PW113, PW166 or PW181) offers the world's best combination of
16
deinterlacing and scaling of video or graphics. This combination of high quality deinterlacing and scaling is essential for higher resolution outputs such as XGA, SXGA, and UXGA that need to display NTSC and PAL video. Internal block diagram of the PW1235:
Digita l
Output
Ti mi n g
Ti mi n g
Display
Up
Scaler
P-Channel
Deinterlacer
YU V
CSC
(YUV )
Video
Video
Enhancements
RGB
Merge
CSC
CSC
Analog
Output
DACs
HSync
Timi ng
VSync /
Blue
Screen
LUT
Color
Data
Digita l
Output
Dis play Unit
I-Channel
(I/P)
Picture
Detecti on
(3:2 & 2:2)
Film-Mode
Memory Unit
Primary
Video
Previ ou s
I-Channel
P-Channel
B-Channel
Progra mming Unit
Noise
Moti on
Reduction
Input Unit
Detect and
Down
Scaler
PW1235
Input
Video
Internal Block Diagram
601
ITU-R BT
Primary
Video Port
656
ITU-R BT
Secondary
Video Port
24-Bi t
Port
Digital
Grap hi cs
Interface
Tw o -W i re
17
PIN CONFIGURATION:
MCU C M D
MCUWR
MCUCS
PV SS
MCURDY
VSS
MCUD7
MCUD6
MCU D 5
MCU D 4
MCU D 3
192
191
190
189
188
187
186
185
18 4
18 3
PVSS
DPAVSS
DP AVD D
DPDVS S
DPDVDD
PVDD
MV E
PVSS
MA4 MA3 VDD MA5 MA2
PVDD
MA6 MA1 MA7
PVSS
MA0 MA8
MA 10
PVDD
MA9
MA 13
VS S MA 11 MA 12
PVSS
MCL K F B
PVDD MRA S MCA S
MWE PVSS MCL K PVDD
MD8 MD7
PVSS
MD9 VDD
MD6 PVDD MD10
MD5 PVSS MD11
MD4 PVDD MD12
MD3 PVSS MD13
MD2 PVDD MD14
VS S
MD1 PVSS MD15
MD0 PVDD
193 194
NC
195
NC
196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255 256
123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263
VB 0
VB 1
VB 2
VB 3
VB4
VDD
18 2
VB5
VB6
VB7
PVS S
MCU D 2
PV DD
MCUD1
MCUD0
MCUA7
MCUA6
VDD
MCUA5
MCU A4
MCU A3
PV SS
MCU A 2
MCUA1
MCUA0
ADGVSS
ADGVDD
PVDD
A DAV SS
ADAVDD
VREF O UT
VREF I N
COMP
RSET
AV S33 R
AV D3 3R
ADR
AVS33G
AVD33G
ADG
AVS 33B
AVD33B
ADB
ADDVDD
ADD V SS
PV SS
CGMS
DEN
TEST CL K
PVDD
DR7
DR 6
VDD
DR5
DR4
PV SS
DR3
DR2
VSS
DR1
DR0
PVDD
DG 7
DG6
181
180
179
178
177
176
175
174
17 3
17 2
171
170
169
168
167
166
165
164
163
16 2
16 1
160
159
158
157
156
155
154
153
15 2
15 1
15 0
149
148
147
146
145
144
143
142
14 1
14 0
139
138
137
136
135
134
133
132
131
13 0
12 9
128
DG5
127
DG4
126
PVSS
125
DG3
124
DG2
123
VDD
122
DG1
121
DG0
120
PVDD
119
DB7
118
DB6
117
DB5
116
DB4
115
PVSS
114
DB3
113
DB2
112
VSS
111
DB1
110
DB0
109
PVDD
108
DENR
107
DENB
106
DENG
105
PVSS
104
DHS
103
DVS
102
DCLK
101
PVDD
100
DGR7
99
DGR6
98
DGR5
97
DGR4
96
PW1235
TDI
VSS
VG 0
VG1
VG2
VG3
VSS
VG4
VG5
VG6
SV HS
SV VS
PVD D
SV CLK
VG7
PV SS
VR0
VR1
VR2
VR3
VR4
VR5
VR6
VR7
CREF
PVVS
PVHS
PVDD
PV CLK
VDD
PVSS
XTALI
PVDD
2WA1
2WA2
XTALO
TCK
TDO
TMS
PV SS
2WCLK
2WDAT
TEST
PV SS
PVDD
TRSTN
RESETn
MPDV SS
MPAVSS
MPDVDD
MPAVDD
PVSS
95
DGR3
94
DGR2
93
VDD
92
DGR1
91
DGR0
90
PVDD
89
DGG7
88
DGG6
87
DGG5
86
DGG4
85
PVSS
84
DGG3
83
DGG2
82
DGG1
81
DGG0
80
PVDD
79
DGB7
78
DGB6
77
VSS
76
DGB5
75
DGB4
74
PVSS
73
DGB3
72
DGB2
71
DGB1
70
DGB0
69
PVDD
68
DGCLK
67
DGVS
66
DGHS
65
PVSS
64
NC
NC
PVDD
18
8.General description of the TDA6111Q.
The TDA6111Q is a video output amplifier with 16 MHz bandwidth. The device is contained in a single in-line 9-pin medium power (DBS9MPF) package, using high-voltage DMOS technology, intended to drive the cathode of a colour CRT.
Block diagram of the TDA6111Q: PIN CONFIGURATION:
rr ent
ent
cath ode
tra ns i
ou tput
u
o utput C
cath ode
D
bla ck c
meas ur ement
ou tput
7
R OR
MIR
F OL LO WE R S
9
ou tput
feedbac k
tag e
s uppl y v ol
6
HIG H
input
7 V
R OR
MIR
8
bia s
V
par
C
5
R O R
MIR
T
E C
E N
R
R R U
S OU
TDA 6111Q
L
TIA
E G
E N E R
S TA
IF F D
C
R O R
MIR
8 5
MG A0
input L OW
s uppl y v olta ge
nd
42
grou
(s ubs trate )
h
gew idt
ndb ook , fu ll pa ha
3
1
i
input
input
inve rting
no n-inv ert
19
P INNING
S YMB OL P IN DE S CR IP TIO N
V
V
V
ip
DDL
in
1 non-inver ting v oltage input
2 s upply voltage L OW
3 inverting v o ltage input
G N D 4 g round, s ubs trate
I
om
5 black c urr ent me a s urement
ou tput
V
V
V
V
DDH
cn
oc
fb
6 s upply voltage H IG H
7 cathode trans ient volta ge ou tput
8 cathode DC voltage o utput
9 feedbac k v oltage outpu t
ndb ook , h alfp age
V
1
ip
V
2
DDL
V
3
in
G ND
4
V
I
om
DDH
V
V
V
cn
oc
TDA 6111Q
5
6
7
8
9
fb
MG A05 7
F ig.2 P in c onfiguratio n.
20
Wiring Di agram
491-752J0-02 AC POWER
665-89501-02
SWITCH BOARD
782-13Y90-050A
X1
DEGAUSS COIL
X501
KEY BOARD
782-T3251-0500 782-T32511-2900
665-21201-05
MAIN BOARD
782-T3251-0100
X502 X101 X503
X203 X201 X202
X901
X902 XA01
665-51201-66
665-41201-188
665-81201-40
AV BOARD
FRONT AV BOARD
782-T3251-2900
XAA4 XAA5 XAA6
665-4E301-49
SPEAKER
X401
CRT BOARD 782-T3251-0200
X205
X402 X403
665-64301-06
GND FOCUS
X302
C330
665-3E301-15
X204
VM BOARD 782-T3251-6400
XV03
665-31201-107
VM COIL
XV01 XV02
665-41201-258
BLOCK DIAGRAM
22
AV1IN
AV2IN
AV1OUT
XA01
C
Y
V
R
L
C
Y
V
R
L
V
R
L
AV BOARD
RA63 100
RA69 100
RA74
1n
1n
RA64
100
CA111 1n
CA110 1n
RA72 100
RA59 100
4K7
RA75 4K7
RA67
RA70 100
RA79 4K7
RA78 4K7
LA20 10uH
LA21 10uH
100
CA106
10n
CA88
100u/10V
CA90
100u/10V
CA93
10u/16V
CA94
10u/16V
CA107
10n
CA87
100u/10V
CA89
100u/10V
CA92
10u/16V
CA91
10u/16V
CA97
100u/10V
RA42 5K6
RA43 5K6
RA83 100K
RA82
LA17 10uH
LA18 10uH
LA19 10uH
100K
LA16 10uH
RA76 100K
RA77
100K
CA105
1n
CA152
CA113 1n
1n
RA65 75
RA71 75
RA81 100K
RA80 100K
RA73 100K
RA84 1K
RA85 1K
CA112 1n
RA60 82
75 RA61
75 RA68
CA108
CA109
RA66 82
+9V
LIM
RIM
CI1
10U
VIM
LA15
CA86
LA09
100U
104
VA19
BC843
COM
YOM
+
CA82 104
VA18
BC843
CA72
0.1u
CA74
220u/16V
R2
+9V
10U
LA38
CA143102
RA143
4.7K
RA149
100K
CA138 10U
CA95 1U
SI1
+
YI1
+
VI1
VI1
1
LI1
+
RI1
+
LI1
CI2
SI2
+
YI2
2
YI1
3
RI1
4
CI1
5 6
SI1
7
VI2
8
LI2
9
YI2
10
RI2
11
CI2
12
+
RA58
CA81
1U
48
RTV
V1
220
RA56
1U
470
CA80
47
44
45
46
TV
LTV
COUT1
LV1 Y1 RV1 C1 S2-1 S-1 V2
CXA2089Q
LV2 Y2 RV2 C2
S2-213S-214V315LV316Y317RV318C319S2-320S-321LV422V423RV4
SI2
+
CA69
10u/16V
1N
RA28 100K
RA26
RA31
VCC
S1D S2D
S1C S2C
CA67
10u/16V
+
+
4K7
RA30
82
100K
YI3
LI3
16 15
EN
14 13 12
DD
11 10 9
DC
DA06
1N4148
+
VI2
+
RI2
CA63
+
LI2
CA64 1N
+
VO
DCOUT
RO
LO
DA09
DA12
1N4148
DA05
1N4148
1N4148
DA08
1N4148
DA04
1N4148
CA203 104
NA04
1
IN
2
S1A
3
S2A
4
DA
5
S1B
6
S2B
7
DB
8
GND
PI5V330
DA13
1N4148
GND
+
CA68 10u/16V
100
RA27
RA55
470
43
42
YOUT1
NA02
CA66
10u/16V
4K7
RA29
CI3
RI3
DA07
1N4148
TRAP1
CA71 10N
RA41
100
CA701N
104 CA201
DA10
41
RA57
220
82
1N4148
RA40
10U CA202
CA75
+
100u/10V
CA131
100U
+
104
CA132
R134 15K
37
38
39
CIN1
BIAS
YIN1
LOUT1
VOUT140ROUT1
MUTE
Vcc VOUT2 ROUT2 YOUT2 LOUT2 COUT2
DC OUT
SDA
SCL
ADR
24
+
+
CA96
CA98
10u/16V
1u/16V
RA395K6
RA130 1K
MONO
TV2
SI3
Y
LA40
VA28
10K
BC847
RA207 75
LA39 10K
DA14
DA15
1N4148
DA11
1N4148
RA201
1N4148
36 35 34 33 32 31 30 29 28 27 26 25
27K
RA161 100 RA162 100
Pb
27K
RA202
CA205
10U
CA204 104
CA73 103
LA41
VA29
10K
BC847
RA208
75
RA44
RA46
1K VA17
BC847
RA491KRA471KRA48
Pr
27K
27K
RA203
RA206
27K
RA205
LA4210K
VA30
BC847
CA20610U
RA209 75
RA45
1K
470 VA16
VA15
BC843
BC847
CA99
10u/16V
+
CA10010u/16V
+
220
SIF
+5V
SC1R
SC1L
RO
LO
DA03
+9V
1N4148
RIM
LIM
CA159 +
10U
VS1
LA32
22U 47U CA166
CA165
CA170
10U
104
CA169 104
+
LA23 10U
10U LA22
CA158
LA29 100U
CA153
1.5P
LO
RO
VO
DCOUT
SDA SCL
LA13
22
22
100
CA209
CA220
RA204 27K
CA218
CA208 22
CA20710U
10U
RA214 100
NA05
1 2
VA27 BC847
75 RA210
CA210
CA212
CA211
RA213
10u
104
10U
75
3 4
75
5
RA211
6
M52347
7 8 9
RA212 0
+5V
LA43 10uH
100
10U
CA214
CA213
20
0
19
100
18 17 16 15 14 13 12 1110
RA215
CA216
104
HS1
100
RA216
CA217 104
CA215
L0
LA34 10U
CA140
102
100K
15K
RA133
CA141102
RA139
4.7K
RA146
16
VDD
100K
CA134 10U
13
NA07
12
X
X114X2
TC4052BP
15
Y01Y22Y3Y34Y15INH6VEE7GND
CA133 10U
4.7K
RA137
100K
CA139
RA145
102
LA33 10U
NA06
ZA03
52
XOUT
18.432M 51
XIN
50
CA187
TEST
1.5P
49
NC
48
CA177 103 CA176 56P
1.5N
CA174
+
102
CA173
CA163 1U
+
CA164 1U
+
CA161 1U
+
CA162 1U
+
104
470P
CA175
CA172
IF-
47
IF+
46
AVSU
45
AVSS
44 43
VTOP
42
SC1R
41
SC1L
40
SC2R
39
SC2L
38 37
CA171
104
CA160
10U
+
102
36
3.3U AGND
35
AHV
+
34
CAPM
33
AHVS
32
NC
31
SCLO
30
SCRO
29
REF1
CA168
CA167
28
102
27
MSP3445
L3
10U
LA36
RA141
4.7K
RA147
CA136 10U
10
B9A
X311X0
RA136
8
CA137 10U
4.7K 100K
RA142
RA150
LA37
10U
CA135
10U
4.7K
CA144
RA148
RA140
102
LA35 10U
1
TP
2 3
IO1
4
IO0
5
SLA
6
STB
7
SCL
8
SDA
9 10 11
100K
100K
RA156 RA155 RA154
DA02
DA01
CA142 102
RA158 RA157
10K
100K
VA23 BC847
VA24 BC847
100
100 100
5C2
5C2
RA131
15K
10K
+
CA154 220U
SC1R
RA13215K
RA135
IO1
IO0
SC1L
R3 L2 R0
IO1
IO0
+5V
SCL
SDA
YI3
LI3 RI3
CI3
SI3
M_L
RST SCL SIF TV2
L2 L3 L0
R0 R3 R2 VIM
SDA
MONO M_R
XA01
1
V/Y
2
GND
3
L
4
R
5
GND
6
C
7
GND
8
S
9
GND
10
R
11
L
V/Y-G-L-R-G-C-G-S-G-R-L
XA05
M_L
1
STB
2
RST
3
SCL
4
SIF
5
TV2
6
GND
7
L
8
L
9
L
10
GND
11
R
12
R
13
R
14
TV1
15
GND
16
SDA
17
VOL
18
MONO
19
M_R
20
12
DVSU DVSS
REF2 DACR DACL
GND
RST
13 14 15 16
1.5N
17
470P
220P
47U
+
LA31
+5V
22U
CA183
CA186
CA182
CA181
18 19 20 21 22 23 24 25 26
RA153
RST
100
CA180 103
CA179
CA178
102
102
CA185
M_R
+
1U
CA184
M_L
+
1U
+9V +5V Pb
VS1
COM
YOM
HS1 Y Pr
XA04
1
+9V
2
+5V
3
Pb
4
GND
5
VS1
6
GND
7
C
8
B
9
R
10
VS2
11
HS2
12
GND
13
G
14
FB
15
Y
16 17
HS1
18
Y
19
Pr
20
GND
RA116
75
Y
Cb
RA120
RA11875
75
Cr
XA03
RA117 75
Y
RA11975
Pb
RA121 75
Pr
X401
12V GND R G B GND D SP
TO MAIN
EHT
N401 TDA6110Q
CRT BOARD
C413
22N R411 750
C409 104
R413 100
D401 1 2 3 4 5 6 7 8
HZ12B1
R414 10K
R409 2K
V401 C1815
C414
22N R412 750
R410
1.8K
Vip1Vddl2Vin3GND4Iom5Vddh6Vcn7Von8Vfb
C412
C408 100N
C411 100U
C410 100N
N402
Vip1Vddl2Vin3GND4Iom5Vddh6Vcn7Von8Vfb
C416 100N
C407
100N/250V
R407
51K/1W
TDA6110Q
C419
C415
100N/250V
R416 51K/1W
9
560P/500V
9
560P/500V
L404 L405 L403
R418
2.2/2W
1UH 1UH 1UH
R421
2.2/2W
R417 560/C R419 560/C R408 560/C
SG401 300V
R
G B
SG404 300V
SG402 300V
CRT
H1 H2 G1G2 G4
SG404 2KV
103/2KV
G3
C421
CRT SCREEN
R420
2.2M
L407 22UH
VR401 20M
L409 22UH
Focus G2
L408 22UH
X403
X402
TO MAIN
200V
6.3V
R415
1.8K
C418 100U
100N C417
TO CRT GRAND
CAUTION:
All the parts in the sc hmatic diagram marke d
N403 TDA6120Q
Vip1Vddl2Vin3GND4Iom5Vddh6Vcn7Von8Vfb
9
L402 22UH
6 5 4 3 2 1
L406
0.27UH
C420 33UF/250V
L401 10UH
C401
22N R401 750
R403
1.8K
R405 1K
C404 100U
C402 100N
C403 100N
C405
R404 51K/1W
C406
100N/250V
560P/500V
with the sign of
are extremely important
for safety.
The schmatic diagram is repre se ntative only . The value of the parts will be changed w ith the improvement of the c ircuit.
1. The unit of resistance is ohm. K=1,000 ohm M=1,000,000 ohm
2. The unit of induc tance is H. mH=1/1,000H uH=1/1,000mH
3. The unit of capacitance is F. uF=1/1,000,000F pF=1/1,000,000uF
4. The meaning of the sy mbols is below:
small signal ground
large signal ground
RV10 1K5
LV01
100uH
12V
XV02
SVM 1 2 3
GND
CV01 100P
VV01
2SC1959
GND
RV06 1K
DV01 IN4148
RV12 68
RV05 8K2
VV02
2SC1959
CV04
220P
RV08 4K7
GND
RV07 10K
RV11 10K
CV06 10N
VV05 2SA562
RV04 180
RV09 180
VV03 2SC1959
RV1368CV25
GND
CV05 10N
47N
GND
VV04 2SC1959
VV16 2SA562
RV02 47
RV03 47
GND
CV03 100N
CV02 100U
CV21
100P
RV35
3.9K
RV34 12K
LV02
100uH
+
VV06 2SC1959
CV22
100u/16v
CV24
RV33 300
RV36
820
0.1u
CV3
+
CV23
100u/16V
VV17
2SC1959
RV31
10
RV32
10
VV18
2SA562
+
CV07 22u/100V
CV08 100n
CV09
1n
CV12
1n
RV16 270
+
47u/16V
RV15
2.2
RV17 15K
RV18
15K
RV21
270
CV10
VV07
2SA1964
2SC5248
RV20
10
VV08
RV01 330/1W
RV14
10
XV01
1
12V
2
GND
3 4
105V
TO CRT BOARD X404
CV13
22n
+
CV11
47u/16v
RV19
2.2
222
RV22
120
CV14
TV01
1 2 3
XV03
VM BOARD
VM-OUT
XAA3
XAA2
L
R
CY
XAA1
XAA6
123
16789
4
XAA5
10
234
11
123
5
RAA6
560
4
RAA5 560
CAA3
1N
RAA3 82
V
RAA1 100KCAA1
1N
R
LAA2 10UH
L
RAA2 100K
CAA2 1N
LAA1 10UH
1 2 3 4 5 6 7 8
XAA4
U/Y GND L R GND C GND S
L_O
GND
R_O
GND
L_SP
R_SP
GND
GND
FRONT AV BOARD
RAA4 82
CB_VPC
CY_VPC
CR_VPC
CD4
22P CD5
22P
RST
CD189
CD190
CD192
SCL SDA
RST
R/Pr
G/Y
B/Pb
DBUSY4 DBUSY5 DBUSY6 DBUSY7
DBUSC4 DBUSC5 DBUSC6 DBUSC7
RD1
2.2M
SCL
SDA
220n
220n
220n
RD18 100
SCL SDA
R9 75
R10 75
R11 75
RP3
100x4
RP10
100x4
SCL SDA
CD143
220n RD39 100 RD40 100
RD38 100
+3.3VD
DBUSY0 DBUSY1 DBUSY2 DBUSY3
LLA0
VS3 HS3
DBUSC0 DBUSC1 DBUSC2 DBUSC3
XD1
10.0MHz
10uF/16V
CD144
1n5
CD155
0.1UF
RP4
100x4
RP5
100x4
RD2
RD3
CD8
0.IUF
CD146
CD145
+
CD147
SCL3 SDA3
47n
390p
+3.3VD
100
100
3230D_VREF
11 12 13
15 16 17 18 20 21 22 23
25 26 27 28
30 31 32 33 35 36 37 38
40 41
43 44 45 47
48 50 51 52 53
55 56
1 2 3 4 6 7 8 9
RD42 100*
CLK20
UD1A
VB0 VB1 VB2 VB3 VB4 VB5 VB6 VB7
SVHS SVVS SVCLK
VG0 VG1 VG2 VG3 VG4 VG5 VG6 VG7
PVCLK CREF PVVS PVHS
VR0 VR1 VR2 VR3 VR4 VR5 VR6 VR7
XTALI XTALO
I2CA1 I2CA2 SCL SDA
TDO TCK TDI TMS TRSTn
RESETn TEST
PW1235
CD130
220n
1 2 3 4 5 6 7 8
9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
CD133 1n
Cin
CD134 680n
Yin
CD212 680nG/Y
CD132
CD131
390p
1n5
77
78
80
79
VREF
B1/CB1 IN G1/Y1 IN R1/CR1 IN B2/CB2 IN G2/Y2 IN R2/CR2 IN ASGF NC VSUPCAP VSPD GNDD GNDCAP SCL SDA RESQ TEST VGAV YCOEQ FFIE FFWE FFRSTW FFRE FFOE CLK20
CD156
CD162 330p
FB1IN
GNDAI
AISGND
GDNPA25VSUPPA26LLC227LLC128VSUPLLC29GNDLLC30Y731Y632Y533Y434GNDY35VSUPY36Y337Y238Y139Y0
47n
LD13 10uH
CD163 68n
76
75
VSUPAI
UD8
VPC3230D
DBUSY6
DBUSY7
MCUCMD
MCUWR
MCUCS
MCURDY
MCUD7 MCUD6 MCUD5 MCUD4 MCUD3 MCUD2 MCUD1 MCUD0
MCUA7 MCUA6 MCUA5 MCUA4 MCUA3 MCUA2 MCUA1 MCUA0
VREFOUT
VREFIN
COMP
RSET
CGMS
TESTCLK
ADR
ADG
ADB
DEN
DR7 DR6 DR5 DR4 DR3 DR2 DR1 DR0
DG6 DG7
5VA
+2.5VD
CD50
0.1uF
5VA
CD107
0.1uF
CD106
+
10uF
LD4
4.7uH
CD105
0.1uF
CD104
+
10uF
1
4
2
UD6 AMS117
OUT
ADJ/GND
TAB/OUT
IN
3
CD103
0.1uF
CD102
+
10uF
CD127
+
100pF
LD3
4.7uH
5 34 93
123 140 175 205 235
14 29 42 54 69 80 90
101 109 120 131 143 180 208 216 224 230 237 243 249 256
194 197 199 200
58 60 63 64
151 154 157 165 149 163 166
3
CD118
+
10uF
UD1C
VDD VDD VDD VDD VDD VDD VDD VDD
PVDD PVDD PVDD PVDD PVDD PVDD PVDD PVDD PVDD PVDD PVDD PVDD PVDD PVDD PVDD PVDD PVDD PVDD PVDD PVDD PVDD
NC DPAVDD DPDVDD PVDD
MPDVDD MPAVDD NC PVDD
AVD33B AVD33G AVD33R PVDD ADDVDD ADAVDD ADGVDD
PW1235
GVS GHS SOG GHS_PW
+5V1 5VD
CD108
47uF/10V
+5V2
CD109
47uF/10V
UD4
TAB/OUT
IN
ADJ/GND
AMS117
CD97
CD98
+
10uF
LD8
4.7uH
CD120
0.1uF
LD9
4.7uH
LD11
+5V1
AVU3
CD135 390p
VRT
CD148
47n
67
65
66
69
70
71
CIN
VIN172VIN273VIN374VIN4
DBUSY5
VRT
GNDF
VOUT
DBUSY3
DBUSY4
192 191 190 188
186 185 184 183 182 181 179 178
177 176 174 173 172 170 169 168
162 161 160 159
156 153 150
146 145 144
142 141 139 138 136 135 133 132
129 130
ASGF
ISGND68VSUPF
I2CSEL
XTAL2 XTAL1
CLK5
VSTBY
FPDAT
MSY/HS
FSY/HC
INTLC
VSUPSY
GNDSY
GNDC
VSUPC
40
3LLC1
CD164
DBUSY0
DBUSY1
DBUSY2
DBUSY[0..7]
CD2
0.1uF
CD1
0.1uF
RD4
1K
RD6 75
RD5 10K
+3.3VD
CD136
1n5
NC
VS
AVO
C0 C1 C2 C3
C4 C5 C6 C7
68n
RD7 0*
CD137 220n
CD149
+
10uF/16V
64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41
RD43 100
+3.3VA
ROUT GOUT BOUT
RD8 75
RD9 10K
CD3
+
10uF/16V
RD10 75
CD138
0.1uF
Yin
Cin
RD11 0*
10uH
CD140
+
10uF
CD139
+
10uF
XD2
20.25MHz
CD150
CD151
15p
15p
RD36 100
V1-OUT H1-OUT
RD37
DBUSC0 DBUSC1 DBUSC2 DBUSC3
DBUSC4 DBUSC5 DBUSC6 DBUSC7
LLA0
R7 75
R8 75
GCLK
GADU[7:0]
AD9883 YUV 4:4:4 INPUT
GADY[7:0]
GADV[7:0]
VS2 HS2
CD152
0.1uF
CD153
0.1uF
100
CD157 1n5
CD158 220n
GHS_PW GVS
GCLK
RD12
CD141
+ 10uF
CD159 1n5
GADU[7:0]
GADY[7:0]
GADV[7:0]
RD13 100
CD154
+
10uF
CD161 47n
CD160 68n
RP1
100x4 GADU0 GADU1 GADU2 GADU3 GADU4 GADU5 GADU6 GADU7
RP6 GADY0
GADY1 GADY2 GADY3 GADY4 GADY5 GADY6 GADY7
RP7 100x4 GADV0
GADV1 GADV2 GADV3 GADV4 GADV5 GADV6 GADV7
RP11
100x4
100
RD14
10K
LD12 10uH
CD142
0.1uF
VS3 HS3
RP2
RD15 10K
+3.3VA
+3.3VD
CD61
0.1uF
CD75
0.1uF
CD51
0.1uF
CD6 22pF
R/Pr
G/Y
B/Pb
+3.3VA
+3.3VD
100x4
100x4 RP8
100x4
RP9 100x4
CD7 22pF
CD62
0.1uF
CD76
0.1uF
CD52
0.1uF
R1 75
R2 75
R6 75
+3.3VA
+3.3VD
CD63
0.1uF
CD77
0.1uF
100
102 103 104
106 107 108
110 111 113 114 116 117 118 119
121 122 124 125 127 128
L1
3.3UH
L2
3.3UH
L3
3.3UH
CD53
0.1uF
66 67 68
70 71 72 73 75 76 78 79
81 82 83 84 86 87 88 89
91 92 94 95 97 98 99
+3.3VA
CD64
0.1uF
+3.3VD
CD78
0.1uF
UD1B
DGHS DGVS DGCLK
DGB0 DGB1 DGB2 DGB3 DGB4 DGB5 DGB6 DGB7
DGG0 DGG1 DGG2 DGG3 DGG4 DGG5 DGG6 DGG7
DGR0 DGR1 DGR2 DGR3 DGR4 DGR5 DGR6 DGR7
DCLK DVS DHS
DENG DENB DENR
DB0 DB1 DB2 DB3 DB4 DB5 DB6 DB7
DG0 DG1 DG2 DG3 DG4 DG5
PW1235
R3 75
R4 75
R5 75
+3.3VA
+3.3VA
+3.3VA
CD65
CD66
CD67
0.1uF
0.1uF
0.1uF
+3.3VD
+3.3Vpll
+3.3Vpll
CD79
CD81
0.1uF
0.1uF
+3.3VD+3.3VD+3.3VD+3.3VD
CD54
CD55
CD56
0.1uF
0.1uF
0.1uF
C1 330p
C2 330p
C3 330p
CD82
0.1uF
CR_VPC
CY_VPC
CB_VPC
+3.3VA
CD68
0.1uF
CD57
0.1uF
JD2
CON15
JD1
CON15
+3.3VA
CD69
0.1uF
+3.3VD+3.3VD+3.3VD+3.3VD
CD58
0.1uF
MD10 MD11 MD12 MD13 MD14 MD15
MCLK
MWE MCAS MRAS
MCLKFB
MA10
MA11
MA12
MA13
MUE
MD0 MD1 MD2 MD3 MD4 MD5 MD6 MD7 MD8 MD9
MA0 MA1 MA2 MA3 MA4 MA5 MA6 MA7 MA8 MA9
15 14 13 12 11 10
9 8 7 6 5 4 3 2 1
15 14 13 12 11 10
9 8 7 6 5 4 3 2 1
+3.3VA
CD70
0.1uF
+3.3VD
255 252 248 245 242 239 236 232 231 234 238 241 244 247 250 254
229
227 226 225
223
213 210 207 204 203 206 209 211 214 217 215 220 221 218
201
CD80
0.1uF
+3.3VD
+3.3VD
+2.5VD
MD0 MD1 MD2 MD3 MD4 MD5 MD6 MD7 MD8 MD9 MD10 MD11 MD12 MD13 MD14 MD15
MA0 MA1 MA2 MA3 MA4 MA5 MA6 MA7 MA8 MA9 MA10 MA11 MA12 MA13
RD16 10K
CD9
0.1uF
CD10
0.1uF
CD11
0.1uF
GOUT BOUT ROUT
VS2 HS2
+5V2 RST SCL SDA
VS_CPU HS_CPU
+5V1
R/Pr B/Pb G/Y
HS_VGA VS_VGA
Yin Cin
+3.3VD
CD12
0.1uF
+3.3VD
CD13
0.1uF
+2.5VD
CD14
0.1uF
MD[15:0]
MCLK
MWE MCAS MRAS
MCLKFB
MA[13:0]
RD17 0*
+3.3VD
+2.5VD
+3.3VD
R/Pr G/Y
B/Pb
HS_VGA VS_VGA
CD15
0.1uF
CD16
0.1uF
CD17
0.1uF
MD[15:0]
MCLKFB
SDA SCL
CD71 47nF CD72 47nF CD73 1nF CD74 47nF
CD83
0.1uF
+3.3VD
CD18
0.1uF
+3.3VD
CD19
0.1uF
+2.5VD
CD20
0.1uF
MCLK
MWE
MCAS MRAS
MCLKFB
MA[13:0]
MCLK
+3.3Vpll
RD24
RD25
RD26
RD22
RD23
+3.3VD
CD21
0.1uF
+3.3VD
CD22
0.1uF
+2.5VD
CD23
0.1uF
CD59
3.9nF
680
680
CD84
0.1uF
+3.3VD
+3.3VD
+2.5VD
MA[13:0]
MCLK MCLKFB
CD60 39nF
100
100
10K
CD24
0.1uF
CD25
0.1uF
CD26
0.1uF
MWE MCAS MRAS
+3.3VA +3.3VD +3.3Vpll
59
62
RD21
3.3K
+3.3VD
+3.3VD
+2.5VD
AVD126AVD227AVD339AVD442AVD545AVD646AVD751AVD852AVD9
33
FILT
57
SDA
56
SCL
55
A0
38
CLAMP
29
COAST
RD20
54 48 49 43
30 31
58 37
CD27
0.1uF
CD28
0.1uF
CD29
0.1uF
+3.3VD
+3.3VD
+2.5VD
MWE MCAS MRAS
RAIN GAIN SOGIN BAIN
HSYNC VSYNC
REFBYP MIDSCV
CD30
0.1uF
CD31
0.1uF
CD32
0.1uF
100
AD9883 KST -110
GND11GND210GND320GND421GND524GND625GND728GND832GND936GND1040GND1141GND1244GND1347GND1450GND1553GND1660GND1761GND1863GND1968GND20
+3.3VD
+3.3VD
+3.3VD
CD33
CD36
0.1uF
0.1uF
+3.3VD
+3.3VD
+3.3VD
CD34
CD37
0.1uF
0.1uF
+2.5VD
+2.5VD
+2.5VA
CD35
CD38
0.1uF
0.1uF
MA0
23
MA1
24
MA2
25
MA3
26 29
MA4
30
MA5 MA6
31 32
MA7
33
MA8
34
MA9
22
MA10
35
MA11
20
MA12
21
MA13
16 17 18 19 15 39 38 37
+3.3VD
UD3
CD39
0.1uF
CD40
0.1uF
CD43
0.1uF
UD2
+3.3VD
+2.5VA
A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 BA0 BA1
WE CAS RAS CS LDQM UDQM CLK CKE
AVD10
VDD111VDD222VDD323VDD578VDD469VDD6
+3.3VD+3.3VD
+3.3VD
CD41
CD42
0.1uF
0.1uF
CD45
0.1uF
+3.3VD
9
27
VDD1VDD14VDD
VDDQ3VDDQ
HY57V641620HG
VSSQ6VSSQ12VSS28VSS41VSSQ46VSSQ52VSS
79
CD44
0.1uF
VDDQ43VDDQ
35
PVD134PVD2
GREEN0 GREEN1 GREEN2 GREEN3 GREEN4 GREEN5 GREEN6 GREEN7
BLUE0 BLUE1 BLUE2 BLUE3 BLUE4 BLUE5 BLUE6 BLUE7
DATACK
HSOUT
SOGOUT
VSOUT
80
49
DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8
DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15
NC NC
54
RED0 RED1 RED2 RED3 RED4 RED5 RED6 RED7
2 4 5 7 8 10 11 13 42 44 45 47 48 50 51 53
36 40
77 76 75 74 73 72 71 70
9 8 7 6 5 4 3 2
19 18 17 16 15 14 13 12
67 66
65 64
CD116 10uF
MD0 MD1 MD2 MD3 MD4 MD5 MD6 MD7 MD8 MD9 MD10 MD11 MD12 MD13 MD14 MD15
5VD
5VA
GADV0 GADV1 GADV2 GADV3 GADV4 GADV5 GADV6 GADV7
GADY0 GADY1 GADY2 GADY3 GADY4 GADY5 GADY6 GADY7
GADU0 GADU1 GADU2 GADU3 GADU4 GADU5 GADU6 GADU7
CD95
+
10uF
+
GADV[7:0]
GADY[7:0]
GADU[7:0]
CD96
0.1uF
CD117
0.1uF
MD[15:0]MA[13:0]
+3.3VA
CD46
0.1uF
GCLK GHS
SOG GVS
UD5 AMS1085
3
UD7
3
AMS117
MD[15:0]
CD47
0.1uF
GADV[7:0]
GADY[7:0]
GADU[7:0]
Vin
IN
CD48
0.1uF
GCLK
ADJ
1
TAB/OUT ADJ/GND
LD7
4.7uH
+2.5VD
CD49
0.1uF
+Vout
OUT
+2.5VA
47uF/10V
+2.5VA
+3.3VA
CD126
2
4 2 1
+3.3VD
OUT
+
+
0.1uF
LD2
4.7uH
4 2 1
CD110 100pF
CD111 100pF
CD99 10uF
CD122 10uF
CD123 10uF
RD28 RD35 RD34
RD27 0
LD5 10uH
LD6 10uH
LD10 10uH
+
+
DPAVSS DPDVSS
MPDVSS MPAVSS
AVS33G
ADDVSS ADAVSS ADGVSS
0 0 0
CD100
+
0.1uF
VSS VSS VSS VSS VSS VSS VSS VSS
PVSS PVSS PVSS PVSS PVSS PVSS PVSS PVSS PVSS PVSS PVSS PVSS PVSS PVSS PVSS PVSS PVSS PVSS PVSS PVSS PVSS PVSS
PVSS
PVSS
AVS33B AVS33R
PVSS
CD128 10uF
+2.5VA
+2.5VD
NC
NC
CD112 10uF
CD113 10uF
CD124
0.1uF
CD125
0.1uF
19 49 77 134 187 219 251 112
10 24 39 46 65 74 85 96 105 115 126 137 171 189 202 212 222 228 233 240 246 253
195 196 198 193
59 61 62 57
152 155 158 147 148 164 167
VS_CPU GHS_PW GHS_PW HS_CPU
+
CD101 100pF
+
+
+3.3Vpll
+3.3VD
CD114 100pF
5VA
CD115 100pF
CD129 100pF
WARNING: BEFORE SERVICING THIS CHASSIS, READ THE “X-RAY RADIATION
PERCAUTION”, “SAFETY PRECAUTION” AND “PRODUCT SAFETY NOTICE” ON
PAGE 1&2 OF THIS MANUAL.
CAUTION: 1. The shaded areas makes in the schematic diagram and the parts list designate components
which have special characteristics important for safety and should be replaced only with
type identical to those in the original circuit or specified in the parts list. Before replacing
any of these components, read carefully the PRODUCT SAFETY NOTICE on page 2.
2. Do not degrade the safety of the receiver through improper servicing.
ELECTRICAL PARTS LIST
MAIN BOARD
SYMBOL PART NO. DESCRIPTION
782-T3251-0100 MAIN PCB
CRYSTAL
Z101 329-58001-00 8MHZ
Z201 329-62404-00 HC-49/US 24.576MHZ
DISCHARGE TUBE
D322 339-10017-00 DSP-152MS00B
339-10017-00 DSP-152MS00B
DIODE
D102 340-00001-003 1N4148
D103 340-00001-003 1N4148
D510 340-00001-003 1N4148
D502 340-00001-003 1N4148
D202 340-00001-003 1N4148
D503 340-00001-003 1N4148
D301 340-00001-003 1N4148
D504 340-00001-003 1N4148
D505 340-00001-003 1N4148
D305 340-00001-003 1N4148
D312 340-00001-003 1N4148
D507 340-00001-003 1N4148
D315 340-00001-003 1N4148
D314 340-00001-003 1N4148
D101 340-00001-003 1N4148
D320 340-00001-003 1N4148
D323 340-00001-003 1N4148
D104 340-00001-003 1N4148
28
SYMBOL PART NO. DESCRIPTION
D523 340-00001-003 1N4148
D318 340-00005-003 S5295J
D511 340-00005-003 S5295J
D319 340-00010-003 S5295G
D313 340-00014-003 RGP10J
D309 340-00086-003 TVR-1B
D311 340-00086-003 TVR-1B
D316 340-00288-003 TFR155
D303 340-00132-00 ERC20-06
D520 340-00197-00 IN4007
D304 340-00254-00 BY459X
D517 340-00257-00 BYT56J
D514 340-00283-00 TRU3YX
D501 340-00288-00 TFR155
D515 340-00288-00 TFR155
D516 340-00288-00 TFR155
REGULATED DIODE
D317 340-50240-003 HZ2C2
D307 340-50390-003 HZ4B2
D512 340-50470-003 HZ5B1
D518 340-50560-003 HZ6B1
D519 340-50560-003 HZ6B1
D522 340-50610-003 HZ6C2
D201 340-50610-003 HZ6C2
D513 340-50610-003 HZ6C2
D306 340-50750-003 HZ7C2
D308 340-51180-003 HZ12A1
D310 340-51850-003 HZ18-3
D509 340-51670-003 HZ16-3
D321 340-51670-003 HZ16-3
D506 340-51850-003 HZ18-3
D508 340-52490-003 HZ24-3
TRANSISTOR
V501 343-04000-304 2SD400 E/F
V207 343-05620-104 2SA562TM-Y
V205 343-05620-104 2SA562TM-Y
V204 343-05620-104 2SA562TM-Y
V202 343-05620-104 2SA562TM-Y
V203 343-05620-104 2SA562TM-Y
V104 343-05620-104 2SA562TM-Y
V001 343-10150-104 2SA1015Y Pr2.5
V206 343-12040-004 RN1204
29
SYMBOL PART NO. DESCRIPTION
V507 343-18150-104 2SC1815-Y
V506 343-18150-104 2SC1815-Y
V103 343-18150-104 2SC1815-Y
V504 343-18150-104 2SC1815-Y
V304 343-18150-104 2SC1815-Y
V503 343-18150-104 2SC1815-Y
V201 343-18150-104 2SC1815-Y
V508 343-01800-00 KSE180 TO-126
V509 343-01800-00 KSE180 TO-126
V510 343-01800-00 KSE180 TO-126
V303 343-03040-00 BSN304
V302 343-06880-60 2SB688-0
V301 343-51440-00 2SC5144
V502 343-18150-10 2SC1815-Y
V208 343-07520-10 2SC752GTM-Y
INDUCTANCE WITH COLOUR CODES
L206 471-2A22K-003 SPT0305-2R2K-5
L205 471-2022K-003 SPT0305-220K-5
L208 471-2022K-003 SPT0305-220K-5
L101 471-2022K-003 SPT0305-220K-5
L103 471-2A18K-00 SPT0305-1R8K-5
L207 471-2A47K-00 SPT0305-4R7K-5
L212 471-2010K-A0 SP0203-10uH-K
L503 471-2010K-A0 SP0203-10uH-K
L217 471-2010K-A0 SP0203-10uH-K
L218 471-2010K-A0 SP0203-10uH-K
L307 471-2010K-A0 SP0203-10uH-K
L202 471-2022K-00 SPT0305-220K-5
L209 471-2022K-00 SPT0305-220K-5
L102 471-2068K-A0 SP0203-68uH-K
ADJUSTA BLE INDUCTANCE
L306 477-30027-00 TLN2110
FIXED INDUCTANCE
L304 477-40167-00 PSC1726H-200K5R0 !
L504 477-40031-00 LG750
L301 477-40057-00 LG101
L302 477-40073-00 TLN3197D
L305 477-40179-00 LE1949
RECTIFIER
VD501 340-80011-00 RBV-606
IC
N502 352-06210-70 TLP621-GB(UL) (O)!
30
SYMBOL PART NO. DESCRIPTION
N202 352-11170-20 AS1117M-3.3 (M)
N103 352-24160-50 M24C16BN6 (M)
N101 352-37281-10 *M37281EKSP (M)
N301 352-55590-40 TA75559P (D)
N102 352-70390-10 * KIA7039P (D)
N506 352-74950-10 * TDA7495S (D)
N302 352-78041-00 LA78041 (M)
N503 352-78050-00 KA7805 (M)
N505 352-78080-00 AN7808 (D)
N303 352-78090-40 TA78M09P (D)
N504 352-78120-60 KA7812 (M)
N201 352-93800-00 SDA9380-B21 (D)
N501 352-96560-00 STR-G9656 (M)
RELAY
RL501 457-12003-9G JQX-14FF-012-1HS !
CERAMIC CAPACITOR
C502 459-B147M-20 ECK-DNS471MBX !
C501 459-B147M-20 ECK-DNS471MBX !
C520 459-B222M-20 ECK-DNS222MEX !
THIN-FILM CAPACITOR
C504 462-2B410-M0V 250VAC-0.1uF-M !
C503 462-2B410-M0V 250VAC-0.1uF-M !
C506 462-2B410-M0V 250VAC-0.1uF-M !
C512 462-2B410-M0V 250VAC-0.1uF-M !
C310 462-88212-H0 CBB81-1600V-1200PF-J
C307 462-8E247-H4 CBB81-2KV-4700PF-J
C309 462-88224-H0 ECWH12H242JR
ELECTROLYTIC CAPACITOR
C536 464-60822-M0 CD110-16V-2200 uF-M
THERMISTOR
RT502 469-40004-00 5D2-14LC
RT503 469-10028-00 MZ73C-9RM !
METAL RESISTOR
R224 467-2C327-G03 1/6W-27K-G
R308 467-2C327-G03 1/6W-27K-G
R512 467-2C510-G03 1/6W-1M-G
R307 467-2E227-H0 1/2W-2.7K-JL
R323 467-2E227-H0 1/2W-2.7K-JL
R342 467-2E322-H0 1/2W-22K-JL
R329 467-2FA15-H0 1W-1.5Ω-JL
R321 467-2FA56-H0 1W-5.6Ω-JL
R303 467-2FB33-H0 1W-0.33Ω-JL
31
SYMBOL PART NO. DESCRIPTION
R328 467-2FB82-H0 1W-0.82Ω-JL
R304 467-2F002-H0 1W-2Ω-JL
R524 467-2F012-H0 1W-12Ω-JL
R330 467-2F110-H0 1W-100Ω-JL
R339 467-2F156-H0 1W-560Ω-JL
R302 467-2F227-H0 1W-2.7KΩ-JL
R322 467-2F315-H0 1W-15kΩ-JL
R513 467-2F333-H0 1W-33kΩ-JL
R505 467-2F368-H0 1W-68kΩ-JL
R509 467-2GB15-H0 2W-0.15Ω-JL
R510 467-2GB15-H0 2W-0.15Ω-JL
R529 467-2F182-H0 1W-820Ω-JL
R310 467-2G224-H0 2W-2.4kΩ-JL
R311 467-2G224-H0 2W-2.4kΩ-JL
R312 467-2G224-H0 2W-2.4kΩ-JL
J517 467-2E139-H0 1/2W-390Ω-JL
MELTABLE RESISTOR
R313 467-4E001-H0 1/2W-1Ω-JL
R535 467-4FB27-H0 1W-0.27Ω-JL
R545 467-4FB27-H0 1W-0.27Ω-JL
R320 467-4FB33-H0 1W-0.33Ω-JL
R523 467-4FB33-H0 1W-0.33Ω-JL
R546 467-4FB33-H0 1W-0.33Ω-JL
R314 467-4F001-H0 1W-1Ω-JL
R514 467-4F001-H0 1W-1Ω-JL
CEMENT RESISTOR
R317 467-50291-H8 RY27-3H-5W-9.1K-J !
R309 467-51224-H8 RY27-3H-7W-2.4K-J !
CARBON RESISTOR
R501 467-8E522-H0 1/2W-2.2MΩ-JL !
R530 467-8E582-H0 1/2W-8.2MΩ-JL !
SWITCH TRANSFORMER
T501 470-00316-00 SD4922 !
H-DRIVE TRANSFORMER
T302 472-10047-00 ZE2526
FBT
472-2B119-00 BSC29-3969N !
DYNAMIC FOCUS TRANSFORMER
T303 472-60001-00 BCT222
H-LINEARITY COIL
L303 477-00085-00 HL1830H-X30-1
32
POWER FILTER
L502 477-20031-00 LCL-21 !
L501 477-20031-00 LCL-21 !
OTHER
DEGAUSSING COIL(32”) 477-13401-00 DX-87 !
POWER CORD 491-752J0-02 UL !
CRT(32”) 335-3412D-00 A80LTM350X97 !
N204 TUNER
FU501 FUSE
CRT(27”) 335-2932E-00 A68LTF356X !
DEGAUSSING COIL(27”) 477-12904-00 DX-29 !
590-40714-00 JS-6AM/L134 !
569-20141-00 U/C/T51S 125V/4A !
CRT BOARD
SYMBOL PART NO. DESCRIPTION
782-T3251-0200 CRT PCB
REGULATED DIODE
D401 340-51260-003 HZ12B1
POTENTIOMETER
VR401 468-26201-00 VG153HB206
IC
N403 352-61110-80 TDA6111Q (M)
N401 352-61110-80 TDA6111Q (M)
N402 352-61110-80 TDA6111Q (M)
METAL RESISTOR
R404 467-2F339-H0 1W-39kΩ-JL
R416 467-2F339-H0 1W-39kΩ-JL
R407 467-2F339-H0 1W-39kΩ-JL
CARBON RESISTOR
R408 467-8E156-H0 1/2W-560Ω-JL !
R417 467-8E156-H0 1/2W-560Ω-JL !
R419 467-8E156-H0 1/2W-560Ω-JL !
R420 467-8E510-H0A 1/2W-1MΩ-J !
MELTABLE RESISTOR
R418 467-4FA22-H0 1W-2.2Ω-JL
INDUCTANCE WITH COLOUR CODES
L401 471-2010K-00 SPT0305-100K-5
L402 471-2022K-00 SPT0305-220K-5
TRANSISTOR
V401 343-18150-10 2SC1815-Y
CRT SOCKET
CPT 364-58215-00 GZS10-2-4T1 !
33
BUTTON BOARD
SYMBOL PART NO. DESCRIPTION
782-T3251-0500 BUTTON PCB
INDUCTANCE WITH COLOUR CODES
L1 471-2156K-10 LGA0410-560uH-K
IC
RC901 352-03810-80 AT138B-T12 (M)
FRONT AV BOARD
SYMBOL PART NO. DESCRIPTION
782-T3251-2900 FRONT AV PCB
INDUCTANCE WITH COLOUR CODES
LAA1 471-2010K-A0 SP0203-10uH-K
LAA2 471-2010K-A0 SP0203-10uH-K
VM BOARD
SYMBOL PART NO. DESCRIPTION
782-T3251-6400 VM PCB
DIODE
DV01 340-00001-00 1N4148
TRANSISTOR
VV18 343-05620-10 2SA562TM-Y
VV16 343-05620-10 2SA562TM-Y
VV05 343-05620-10 2SA562TM-Y
VV01 343-19590-10 2SC1959-Y
VV02 343-19590-10 2SC1959-Y
VV03 343-19590-10 2SC1959-Y
VV04 343-19590-10 2SC1959-Y
VV17 343-19590-10 2SC1959-Y
VV06 343-19590-10 2SC1959-Y
VV07 343-19640-30 2SA1964E
VV08 343-52480-30 2SC5248E
INDUCTANCE WITH COLOUR CODES
LV02 471-2110K-A0 SP0203-100uH-K
LV01 471-2110K-A0 SP0203-100uH-K
METAL RESISTOR
RV14 467-2E010-H0 1/2W-10Ω-JL
RV20 467-2E010-H0 1/2W-10Ω-JL
RV22 467-2F112-H0 1W-120Ω-JL
34
SYMBOL PART NO. DESCRIPTION
RV01 467-2F133-H0 1W-330Ω-JL
POWER FILTER
TV01 477-20056-00 LCL-25 !
DIGITAL PROCESSING BOARD
SYMBOL PART NO. DESCRIPTION
782-T3251-6900 DIGITAL PROCESSING PCB
CRYSTAL
XD1 329-61003-00 HC-49/US 10.000MHZ
INDUCTANCE WITH COLOUR CODES
LD9 471-2A47K-00 SPT0305-4R7K-5
LD8 471-2A47K-00 SPT0305-4R7K-5
LD4 471-2A47K-00 SPT0305-4R7K-5
LD2 471-2A47K-00 SPT0305-4R7K-5
LD12 471-2010K-00 SPT0305-100K-5
LD11 471-2010K-00 SPT0305-100K-5
LD5 471-2010K-00 SPT0305-100K-5
LD10 471-2010K-00 SPT0305-100K-5
LD13 471-2010K-00 SPT0305-100K-5
LD6 471-2010K-00 SPT0305-100K-5
PASTE INDUCTANCE
L1 474-14A33-M0 SGMI3216M3R3MT
L2 474-14A33-M0 SGMI3216M3R3MT
L3 474-14A33-M0 SGMI3216M3R3MT
IC
UD7 352-11170-10 * AS1117M-2.5V (D)
UD3 352-98830-00 * AD9883AKST-110 (D)
UD6 352-11170-20 AS1117M-3.3 (M)
UD4 352-11170-20 AS1117M-3.3 (M)
UD5 352-11170-20 AS1117M-3.3 (M)
UD2 352-64163-20 * K4S641632E-TC70(M)
UD1 352-12350-20 * PW1235 (D)
UD8 352-32300-80 VPC3230D (D)
35
REAR AV BOARD
SYMBOL PART NO. DESCRIPTION
782-T32511-2900 REAR AV PCB
CRYSTAL
ZA01 329-61801-00 HC49US 18.432MHZ
DIODE
DA03 340-00001-00 1N4148
REGULATED DIODE
DA02 340-50510-00 HZ5C2
DA01 340-50510-00 HZ5C2
IC
NA05 352-34250-60 MSP3425G (M)
NA02 352-03300-20 *PI5V330 (M)
NA01 352-20890-80 CXA2089Q (D)
NA04 352-40520-80 HEF4052BT (M)
NA03 352-52347-10 M52347FP (M)
INDUCTANCE WITH COLOUR CODES
LA01 471-2022K-A0 SP0203-22uH-K
LA17 471-2022K-A0 SP0203-22uH-K
LA20 471-2022K-A0 SP0203-22uH-K
LA10 471-2001K-A0 SP0203-1uH-K
LA09 471-2001K-A0 SP0203-1uH-K
LA08 471-2001K-A0 SP0203-1uH-K
LA16 471-2010K-A0 SP0203-10uH-K
LA07 471-2010K-A0 SP0203-10uH-K
LA06 471-2010K-A0 SP0203-10uH-K
LA05 471-2010K-A0 SP0203-10uH-K
LA04 471-2010K-A0 SP0203-10uH-K
LA15 471-2010K-A0 SP0203-10uH-K
LA02 471-2010K-A0 SP0203-10uH-K
LA03 471-2010K-A0 SP0203-10uH-K
LA14 471-2010K-A0 SP0203-10uH-K
LA13 471-2010K-A0 SP0203-10uH-K
LA12 471-2010K-A0 SP0203-10uH-K
LA11 471-2010K-A0 SP0203-10uH-K
LA24 471-2010K-A0 SP0203-10uH-K
LA23 471-2010K-A0 SP0203-10uH-K
LA22 471-2010K-A0 SP0203-10uH-K
LA21 471-2010K-A0 SP0203-10uH-K
LA19 471-2022K-A0 SP0203-22uH-K
LA18 471-2110K-00 SPT0305-101K-5
36
SYMBOL PART NO. DESCRIPTION
PASTE TRANSISTOR
VA16 342-08570-90 BC857 AW
VA17 342-08570-90 BC857 AW
VA21 342-08570-90 BC857 AW
VA22 342-08570-90 BC857 AW
VA18 342-08470-90 BC847AW
VA19 342-08470-90 BC847AW
VA20 342-08470-90 BC847AW
37
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