Download Sharp 70GS-64SIT Service manual

70GS-62S
SERVICE MANUAL
SESG70GS62S00
Issued: 30th May ‘01
GA-10 CHASSIS
PAL BG SYSTEM COLOUR TELEVISION
MODEL
70GS-62SDE / GG / IT
In the interests of user safety (required by safety
regulations in some countries) the set should restored
to its original condition and only parts identical to
those specified should be used.
CONTENTS
ELECTRICAL SPECIFICATION........................3
IMPORTANT SERVICE NOTES........................4
CONTROL & TERMINALS.................................5
ADJUSTMENTS PROCEDURES......................7
STEREO LED FLASHING CODES..................11
PRINTED WIRING BOARDS..........................12
CHASSIS LAYOUT...........................................16
COMPONENT LOCATION TABLES................16
ICs ADITIONAL INFORMATION.....................21
SCHEMATIC DIAGRAM..................................31
PARTS LISTING..............................................38
PACKING OF THE SET & ACCESSORIES....46
SHARP CORPORATION
1
This document has been published to
be used for after sales service only.
70GS-62S
SERVICE MANUAL UPDATE LOG SHEET
Technical Report No.
Technical Bulletin No.
Cause / Solution
Part No.
Page No.
Application
Data /Serial No.
Use this page to keep any special servicing information as Technical Report (Bulletin), Technical Information, etc.
If only part number changes are required, just change part number directly the part number in the Parts Listing Section.
If you need more information, please refer to the Technical Report (Bulletin).
2
70GS-62S
ELECTRICAL SPECIFICATIONS
•Focus ....................... High Bi-Potential Electrostatic
•Power Input .................... 220V-240 Volts AC 50Hz
•Sweep Deflection ..................................... Magnetic
•Power Consumption
Normal Operation ...................................87W
Stand-by Operation ..................................1W
•Picture Intermediate frequency................... 38.9MHz
•Sound Carrier Trap................................... 33.4MHz
•Adjacent Sound Carrier Trap ................... 40.4MHz
•Audio Power Output Rating (MPO) / Impedance
Internal Left Speaker ...................... 10W, 7Ω
Internal Right Speaker .................... 10W, 7Ω
•Adjacent Picture Carrier Trap.................. 31.9MHz
.
•Aerial Input Impedance
VHF/UHF ...................... 75 ohm Unbalanced
•Speakers
Left / Right ...................................... 12 x 6cm
•Convergence
Static (Centre) ........ between any two colours
Dynamic ..................... after static equals zero
•Tuning Ranges........... 48.25 MHz thru 855.25 MHz
VHF: E2-E12 CH
S1-S41 CH (Hiperband)
UHF: E21-E69 CH
•White Level
Set brightness control to get total picture tube cathode current of 600 milliammeter under no signal
condition. Maximum necessary correction of each picture tube cathode current to get 8900 degrees K-20 MPCD screen temperature should not exceed 15% of its original value.
X=0.290
Y=0.300
Specifications are subject to change without prior notice.
MODEL DESTINATION & DIFFERENCES:
70GS-62SDE: Germany, Austria. Particular Operation Manual.
70GS-62SGG: Greece. No Operation Manual from Factory.
Greek Teletext (NVM: Page 00, Position 95, Value: 03
70GS-62SIT: Italy. Particular Operation Manual.
05).
WARNING
The chassis in this receiver is partially hot. Use an isolation transformer between the line cord plug
and power receptacle, when servicing this chassis.
To prevent electric shock, do not remove cover. No user-serviceable parts inside. Refer servicing to
qualified service personnel.
3
70GS-62S
IMPORTANT SERVICING NOTES
Only qualified service personnel are allowed to carry out maintenance and repair of this receiver.
SERVICING OF HIGH VOLTAGE SYSTEM AND CRT
It is important that the static charge is removed from the high voltage system when carrying out work
on the receiver. This can be achieved by connecting a 10K resistor (with a suitably insulated lead) from
the CRT cavity connector to the CRT ground tag. This must be carried out with the AC supply disconnected from the receiver.
Note the following:
• The CRT in this receiver employs Integral Implosion Protection.
• If the CRT has to be changed it MUST be replaced with the correct type for continued safe
working
• DO NOT lift the CRT by its neck.
• When handing the CRT, ensure that shatterproof goggles are worn.
• Ensure that the CRT is discharge before handling.
X-RAY
This receiver is designed to keep any x-ray emission to an absolute minimum. Some fault conditions
and servicing procedures may produce potentially hazardous x-ray radiation levels. This is a problem
when in close proximity to the receiver for long periods of time. To reduce any risks associated with
this, please observe the following precautions:
1. When undertaking any servicing on this chassis, DO NOT increase the EHT to more than 29.9 KV,
(at a instantaneous beam current of 1300µΑ).
2. Ensure that during normal operation the EHT does not exceed 27KV±1.5KV (at a beam current of
1000µΑ). This level has been preset in the factory. Always check that this level has not been exceeded after carrying out any repair on the receiver.
3. DO NOT replace the CRT with any other type than that specified in the parts listing as this may
cause excessive x-ray radiation.
BEFORE RETURNING THE RECEIVER TO THE CUSTOMER
In addition to the above checks, the following should also be carried out before returning the receiver
to the customer.
1. Inspect all the leads to ensure that they are dressed correctly and that they are not obstructed or
pinched by any other parts.
2. Ensure that all protective devices are in good condition. These will include nonmetallic control
knobs, insulating fish papers, cabinets backs, compartment covers or shields, mechanical insulators,
etc.
4
70GS-62S
REMOTE CONTROL
1.
TV
Video
2. Power ON / OFF switch (VCR)
TV
3. Digit buttons 0 ∼ 9
4. Flashback button
Teletext
5. Colour button (green)
6. Colour button (red)
7. Volume Down/Cursor control Left
8. Menu button
20.
3.
1
2
3
TV
4
5
6
Teletext
7
8
9
9.
10.
11.
12.
13.
14.
Reveal button
List selector
Store button
Cancel button
Top/ Bottom/Full button
Reset button
Video
15.
16.
17.
18.
Rewind/picture search/reverse
Play button
Pause / Still button
Stop button
TV
19. TV / VIDEO selector
20. Channel call button
21. Single/Double entry
Teletext
22. Colour button (yellow)
23. Colour button (blue)
TV
24.
25.
26.
27.
TV/Teletext
28. Time button
TV
29. Sound mode selector
Teletext
30. Hold button
TV
31. Sound Mute button
Teletext
32. Text/Mix button
33. Index button
Video
34.
35.
36.
37.
4.
21.
0
5.
6.
22.
23.
24.
CH
25.
7.
CH
MENU
TV
26.
27.
8.
13.
14.
15.
16.
17.
18.
1. Stand-by ON/OFF switch (TV)
TV/VIDEO
VCR
19.
2.
9.
10.
11.
12.
TV
LIST
?
X
S
I/II/I+II
I
i
VCR
CH
G1061SA
28.
29.
30.
31.
32.
33.
34.
35.
36.
37.
TV / VCR / TEXT REMOTE CONTROL
5
Channel Up/Cursor control Up
Volume Up/Cursor control Right
Channel Down/Cursor control Down
TV button / Subtitle
Channel Up selector
Fast forward/picture search/forward
Channel Down selector
Record button
70GS-62S
CONTROLS & TERMINALS
FRONT TV
1. Main Power
On/Off Switch
2. Power Indicator
OPC
3. Program Selector
(UP/DOWN)
4. Volume Buttons
(UP/DOWN)
8
7
/ I / II
6
6 5
CH
4
3
2
5. Remote Control Sensor
6. Sound Indicator
7. Remote Control Indicator
8. DOOR
Behind the door
9. Headphone Socket
(3.5 mm Ø / 16~600 ȍ)
9
HOW TO OPEN THE DOOR
OPC
Press the top of the door, opening it slightly.
Hook your finger inside and pull open.
REAR TV
3
RF Input
1. Antenna terminal
21-pin In/Out
2. 21-pin Euro SCART (RGB)
3. 21-pin Audio/Video (AV-1)
With S-Video Input
AV/TERMINAL
SCART
PERITELEVISION
2
6
1
1
70GS-62S
ADJUSTMENT PROCEDURES
All adjustments to this chassis, except for focus, are carried out in the service mode.
• SERVICE MODE
The service mode is provided to enable the engineer to correctly set up the receiver to the CRT fitted in the set.
Note that these adjustments may vary from one receiver to another.
To enter the service mode, carry out the following procedure.
1. Connect a test pattern to the antenna terminal.
2. Tune the receiver to this signal.
3. Turn the receiver off using the mains switch.
4. Press volume down and channel up buttons on the
front of the receiver at the same time. See Fig.1.
5. Keeping these buttons pressed, turn the mains on. See Fig.1.
6. When the set starts up it will be in service mode.
7. Release the two buttons.
• Use the channel up and down buttons to move between the options.
• Use the volume control buttons to change the data.
• To store the data, use the stand-by button on the remote control.
• To exit the service mode, turn the receiver off using the mains switch.
When the service mode is entered the following On Screen Display appears
-SERVICE SOFTWARE AND HEXADECIMAL COUNTER DISPLAY:
SW ON XXXX SW OFF XXXX HOURS ON XXXX
The figures displayed in the XXXX locations are hexadecimal representations of the number of times that particular
function has been executed. For example if the hexadecimal number displayed after SW ON was 0E4A, this would
correspond to the receiver being turned on 3658 times.
Adjustment menu:
The following adjustments can be carried out in the service mode.
• Horizontal Shift
• East West Width
• Pin Phase
• Pin Amp
• Corner Amplitude
• Corner Symmetry
• Vertical Linearity
• Vertical Angle
• Vertical Bow
• Vertical Amplitude
• S Correction
• Vertical Shift
• Red Gain
• Green Gain
• Blue Gain
• Red Cut Off
• Green Cut Off
• Blue Cut Off
• Alter NVM Page
• Alter NVM Position
• Alter NVM Value
• Teletext Mix Mode Contrast
• Teletext Contrast
• OSD Contrast
• DVCO Adjustment (Only PAL)
• DVCO Adjustment (Only NTSC)
• AGC Adjustment
• Auto Installation On/Off
7
70GS-62S
The following geometry adjustments can be carried out. Detailed instructions on how to execute these are given on
the following pages
Horizontal
• Horizontal Shift
• E-W Width
• Pin Phase
• Pin Amp
• Corner Amplitude
• Corner Symetry
Vertical
• Vertical Amplitude
• S Correction
• Vertical Shift
• Vertical Linearity
• Vertical Angle
• Vertical Bow
Just in case the TV set requires a full geometries adjustment, please proceed first with
Vertical according to the above order, and after that, adjust Horizontal according to the
above order.
Horizontal Shift
Adjust the horizontal shift so that the picture is centred.
The effect of this adjustment is shown in figure 2.
• When the volume up button is pressed, the picture moves to the right.
• When the volume down button is pressed, the picture moves to the left.
• Press the stand-by button on the remote control to store.
Fig.2
E-W Width
Adjust the E-W Width so that 9% over-scan is achieved.
The effect of this adjustment is shown in figure 3.
• When the volume up button is pressed, horizontal scanning increases.
• When the volume down button is pressed, horizontal scanning decreases.
• Press the stand-by button on the remote control to store.
Fig.3
Pin Phase
Adjust the Pin Phase so that the picture is symmetrical top and bottom.
The effect of this adjustment is shown in figure 4.
• When the volume up button is pressed, side pincushion changes.
• When the volume down button is pressed, side pincushion changes.
• Press the stand-by button on the remote control to store.
Fig.4
Pin Amp
Adjust the Pin Amplitude so that the picture is centred.
The effect of this adjustment is shown in figure 5.
• When the volume up button is pressed, side pincushion changes from pincushion to
barrel shape.
• When the volume down button is pressed, side pincushion changes from barrel
shape to pincushion.
• Press the stand-by button on the remote control to store.
Fig.5
Corner Amplitude
Adjust the Corner Amplitude so that the picture is centred.
The effect of this adjustment is shown in figure 6.
Note: This adjustment affects to upper and lower sides.
• When the volume up button is pressed, side pincushion changes from pincushion to
barrel shape.
• When the volume down button is pressed, side pincushion changes from barrel
shape to pincushion.
• Press the stand-by button on the remote control to store.
8
Fig.6
70GS-62S
Corner Symmetry
Adjust the Corner Symmetry so that the picture is centred.
The effect of this adjustment is shown in figure 7.
Note: This adjustment affects to upper and lower sides.
• When the volume up button is pressed, side pincushion changes from pincushion to
barrel shape.
• When the volume down button is pressed, side pincushion changes from pincushion to
barrel shape.
• Press the stand-by button on the remote control to store.
Fig.7
Vertical Linearity
Adjust the Vertical Linearity so that the upper and lower parts of the picture are symmetrical.
The effect of this adjustment is shown in figure 8.
• When the volume up button is pressed, the upper picture scanning decreases and the
lower picture scanning increases.
• When the volume down button is pressed, the upper picture scanning increases and the
lower picture scanning decreases.
• Press the stand-by button on the remote control to store.
Fig.8
Vertical Angle
Adjust the Vertical Amplitude so that the picture is centred.
The effect of this adjustment is shown in figure 9
• When the volume up button is pressed, the vertical angle changes to right.
• When the volume down button is pressed, the vertical angle changes to left.
• Press the stand-by button on the remote control to store.
Fig.9
Vertical Bow
Adjust the Vertical Bow so that the picture is centred.
The effect of this adjustment is shown in figure 10
• When the volume up button is pressed, the vertical bow changes to right.
• When the volume down button is pressed, the vertical bow changes to left.
• Press the stand-by button on the remote control to store.
Fig.10
Vertical Amplitude
Adjust the Vertical Amplitude so that the picture is over-scanned.
The effect of this adjustment is shown in figure 11.
• When the volume up button is pressed, the vertical size of the picture decreases.
• When the volume down button is pressed, the vertical size of the picture increases.
• Press the stand-by button on the remote control to store.
Fig.11
S Correction
Adjust the S Correction so that the picture symmetrical between the top, centre and bottom.
The effect of this adjustment is shown in figure 12.
• When the volume up button is pressed, the top and bottom scanning increases and the
centre scanning decreases.
9
Fig.12
70GS-62S
• When the volume down button is pressed the top and bottom scanning decreases and
the centre scanning increases.
• Press the stand-by button on the remote control to store.
Vertical Shift
Adjust the Vertical Shift so that the picture is centred.
The effect of this adjustment is shown in figure 13.
• When the volume up button is pressed, the picture moves down.
• When the volume down button is pressed, the picture moves up.
• Press the stand-by button on the remote control to store.
Colour Adjustments
Fig.13
To increase press volume-up button and to decrease press
volume down button.
The following adjustments should only be carried out when
the CRT IC801 are replaced.
RED CUT OFF
GREEN CUT OFF
BLUE CUT OFF
G2, Cut Off and Gain Adjustments
1. Follow the procedure below to set the G2
1.1 Tune the set to the output of a signal generator
(cross hatch pattern).
1.2 In the user menu, set contrast to 80/100 and
brightness to 40/100.
1.3 Connect the oscilloscope to the red cathode and
adjust G2 to read 140V on the sensor pulse as
in the drawing:
alter «X» coordinate.
alter «Y» coordinate.
alter «X» and «Y» coordinate.
3. Follow the procedure below to set the GAIN.
3.1 Using brightness and contrast buttons, select a
luminance of ≈120 NITS.
3.2 Operate in Service Mode and select location RED
GAIN, GREEN GAIN and BLUE GAIN, to obtain
colour coordinates:
X=0.290 ± 0.015
Y=0.300 ± 0.015
To increase press volume-up button and to decrease
press volume down button.
RED GAIN alter «X» coordinate.
GREEN GAIN alter «Y» coordinate.
BLUE GAIN alter «X» and «Y» coordinate.
140 V
3.3 Exit Service Mode and check colour coordinates
«X» and «Y» at 20 and 120 NITS. It may be necessary to repeat procedure 2 and 3 of Colour
Adjustments.
CH1 gnd
NOTE:
Oscilloscope should be adjusted for vertical TV field trigger
and synchronized with video signal.
Changing NVM Data
2. Follow the procedure below to set the Cut Off.
2.1 Adjust G2.
2.2 Tune a white card.
2.3 Adjust colour to minimum.
2.4 Position colorimeter in the centre of screen.
2.5 Adjust brightness and contrast to obtain a luminance of ≈20 NITS.
2.6 Operate in Service Mode and select location RED
CUT OFF, GREEN CUT OFF and BLUE CUT
OFF, to obtain colour coordinates:
X=0.290 ± 0.015
Y=0.300 ± 0.015
10
To change the data contained within the Non Volatile
Memory, it is necessary to first select the page the data is
stored in, then the position and finally to change the data
itself. The procedure below outlines this process.
1. While on ALTER NVM PAGE, use the volume up/down
buttons to change this data (data is shown in hexadecimal
format).
2. Press the channel up button and ALTER NVM POSITION
appears, use the volume up/down buttons to change this
data (data is shown in hexadecimal format).
3. Press the channel up button and ALTER NVM VALUE
appears, use the volume up/down buttons to change this
data (data is shown in hexadecimal format).
70GS-62S
4. Once this data has been set, press the stand-by button
to store.
5. If another NVM value has to be changed, use the channel down button to select the page or position and repeat
as necessary.
Note:
DO NOT change any NVM data, unless you have been advised to do so by a Sharp representative. If data is incorrectly changed, serious damage may occur to the receiver.
Contrast Adjustments
STEREO LED FLASHING CODES.
If the TV set does not work and the stereo led is flashing,
follow the sequence according to the information below, as
a guide to fault finding.
1. Unable to read or write into NVM: 66% ON, 33% OFF
twice and OFF for a second.
On
Off
Three types of contrast levels can be varied as listed below:
• TELETEXT MIX MODE CONTRAST
• TELETEXT CONTRAST
• OSD CONTRAST
2. MSP failure: 66% ON, 33% OFF for three times and
OFF for a second.
Use the volume up/down buttons to adjust to a suitable level,
then press the stand-by button to store.
On
Off
DVCO Adjustment (PAL)
Carry out the DVCO Adjustment (PAL) as shown below:
1. Receive a Phillips pattern signal.
2. While in the DVCO ADJUSTMENT (PAL) menu, press
the stand-by button.
3. The adjustment will be carried out automatically and
stored.
3. VCT failure: 66% ON, 33% OFF for four times and OFF
for a second.
On
DVCO Adjustment (NTSC)
No adjustment required.
AGC Adjustment
To correctly align the Automatic Gain Control, follow the
procedure outlined below:
1. Tune the set into a pattern generator on CH10.
2. Adjust the signal strength of the pattern generator to 57
dB/uV
3. Enter the service mode.
4. Enter the AGC Adjustment menu.
5. Press the stand-by button on the remote control.
6. The adjustment will be carried out and stored automatically.
Auto Installation On/Off
To return the receiver to the original Auto Installation mode,
using the volume up or down button, set the Auto Installation On/Off to On. This setting is automatically stored and
when the receiver is turned on the next time it will start up in
Auto Installation mode.
11
Off
70GS-62S
F7315N4. MOTHER UNIT PWB. Component side.
25
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S705
OPC1
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Page 13
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14
70GS-62S
F7315N4. MOTHER UNIT PWB. Component side.
25
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24
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14
J137
FB801
(AV).
.
F7315BMN4
C304
1
(SB)
J113
J138
J182
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C626
J114
J56
J109
J111
J59
J108
L1001
J328
J136
C805
C330
JF62
C3308
+
J99
15
J97
J98
J91
J92
J94
J96
J127
C1001
+
IC1002
J107
J105
J106
J103
J95
J44
J45
J47
R1036
J88
J89
J90
L1004
J83
+
J173
JL8
16
1
C1005
C1006
JL12
X1002
J170
R652
1
+
J82
J93
+
IC501
J110
R387
L301
R629
J62
+
+
(RT)
J102
J217
Page 12
6
17
K7315BM
J158
J159
J157
J160
J162
J163
J321
J161
J164
J165
13
C3310
J55
J52
IC302
J61
C909
.
R355
C1031
J310
C1041
J156
75
+
C368
L315
+
+
+
C365
IC301
R936
C363
.
IC901
C378
J100
J166
J167
5
19
18
C351
1
17
20
L316
C370
C358
21
C392
L353
C356
L351
J30
R337
(SP)
ESPA¥A
5
22
1
C361 C376
C353
R738
C524
IC304
+
L352
J23
8
J24
C362
1
C916
(H).
D903
1
(AV)
1
(K).
R908
F7316BMN4
9
K7316BM
L350
1
G2
J18
J17
J13
R358
J9
D901
J16
C902
JL7
C389
C388
J20
J19
R904
L302
L303
C915
C905
4
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C1019
(VS)
TRC
1
CN4
2
6
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0
5
3
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JL14.
J5
D1001
Q708
22
1
TN201
23
Y
24
25
X
70GS-62S
F7315N4. MOTHER UNIT PWB. Copper side.
23
21
J5
Q1002
R1013
J6
R1015
R1014
C905
R904
IC1002
C1038
18
17
D903
R935
L1007
JF70
J10
R1010
C305
C306
D303
J81
R370
C327
R652
D622
R628
JF29
Q609
L402
R414
K
D628
J311
(MO)
D421
1
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J299
R410
R417
C403
J297
K
R412
16
D405
R420
J300
R411
K
K
D410 D406
R421
J301
R419
D426
R418
D422
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R415
D403
D404 J278
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D420
R407
R318
14
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K
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R409
R327
C348
19
K
D623
K
R630
L403
Q404
R413
K
K
K
C345
C320
IC303
C308
C307
R311
J279
D409
G
K
R312
Q405
K
R369
J126
J125
R1026
D1008
C1012
J168 J130
J129
J172
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JF37
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R934
J82
J80
J85
R1024
Q1008
J133
J310
R901
C906
C1049
J83
J128 J86
J84
JF66
C1041
J90
R450
R434
C319
R313
C318
J282
C339
R322
C326
JF1
C324
C323
C322
C321
R310
C316
K
J16
D901
IC901
R923
Q904
R903
R918
R917
Q902
J89
J88
R1036
J97
J96
J94
J92
J91
C302
C309 C310
J252
J254
J255
C741
C325
J277
R408
C337
K D423 D424 K
20
R922
Q909
R921
R920
Q908
Q905
R911
R925
Q903
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J43
J48
J98
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R304
D304
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JF48
JF47
JF46
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J223
J222
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C341
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C427
1
R323
C346
C343 C344
J305
R319
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R326
J171
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R1011
J179
C1020
J225
C422
R204
J229
C423
J243
L401
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JF25
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+
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R1037
Q707
(VS)
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R933
R927
L350
C362
C358
C352
J47
J45
J44
J95
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C1042
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J228
J227
J226
J231
J261
J260
C338
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C221
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JF26
J288
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R352
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L1006
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J232
R203
R206
R222
C209
R210
J263
R211
J265
J264
C214
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+
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J295
J187
C205
J266
JF59
R220
R240
24
80
JF58
C623
15
14
13
Page 15
K
1
25
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1
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K
J245
J256
J280
J281
J283
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J191
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J105
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12
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C1030
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J62
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C374
C3313
J110
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C915
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J17
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C396
C394
R340
C393
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+
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C399
C398
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R337
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Page 14
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*
-
-
-
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17
-
-
-
-
70GS-62S
MOTHER UNIT (F7315N4) PWB COMPONENT LOCATION TABLES.
Component Side
5HI1R
-
;XP
<XP
5HI1R
/
;XP
<XP
5HI1R
5
-
/
5
-
/
5
-
/
5
-
/
5
-
/
5
-
/
5
-
/
5
-
/
5
-
-
/
/
5
5
-
-
/
/
5
5()
-
/3
5()
-
0
6
Copper Side
5HI1R
;XP
<XP
73&
73&
73&
<XP
&
&
&
&
&
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73&
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325
6
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4
6
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4
6
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4
6
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4
4
6)
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4
4
7
7
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4
7
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4
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4
73&
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4
73&
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73&
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-)
4
5
73&
73&
-)
-)
5
5
-)
71
73&
73&
;XP
<XP
5HI1R
&
;XP
-)
;XP
<XP
5HI1R
&
&
&
73&
73&
73&
73&
73&
73&
5
73&
-)
5
73&
-)
-)
5
5
73&
73&
-/
-/
5
5
73&
73&
-/
-/
5
5
73&
73&
-/
-/
5
5
73&
73&
-/
-/
5
5
73&
73&
-/
-/
5
5
73&
73&
-/
-/
5
5
-/
-/
73&
73&
9$5
;
;
;
-/
/
5
5
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/
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5
5
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5
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73&
/
/
5
5
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/
5
5
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5
5
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75&
18
&
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&
&
&
&
&
&
&
&
&
&
&
&
70GS-62S
MOTHER UNIT (F7315N4) PWB COMPONENT LOCATION TABLES.
Copper Side.
5HI1R
&
;XP
<XP
5HI1R
'
;XP
&
'
'
'
'
'
'
'
'
'
'
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5HI1R
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<XP
5HI1R
-
;XP
<XP
5HI1R
-
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5HI1R
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;XP
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-
-
-)
'
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,&
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4
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4
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4
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4
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4
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4
4
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4
4
'
'
-
-
-
-
19
-)
-)
4
4
70GS-62S
MOTHER UNIT (F7315N4) PWB COMPONENT LOCATION TABLES.
Copper Side.
5HI1R
4
;XP
<XP
5HI1R
5
;XP
<XP
5HI1R
5
4
5
5
4
5
5
4
5
4
5
4
5
4
;XP
5HI1R
<XP
5
;XP
<XP
5
5
5
5
<XP
5HI1R
5
;XP
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
20
70GS-62S
ICs ADITIONAL INFORMATION: TDA9885 (IC201)
QUICK REFERENCE DATA
SYMBOL
PARAMETER
VP
supply voltage
IP
supply current
Vi(VIF)(rms)
VIF input signal voltage sensitivity
(RMS value)
GVIF(cr)
fVIF
CONDITIONS
note 1
MIN.
TYP.
MAX.
UNIT
4.75
5.00
5.50
V
52
61
70
mA
−1 dB video at output
−
60
100
µV
VIF gain control range
see Fig.10
60
66
−
dB
vision carrier operating frequencies
see Table 28
−
33.4
−
MHz
−
33.9
−
MHz
−
38.0
−
MHz
−
38.9
−
MHz
−
45.75
−
MHz
−
58.75
−
MHz
−
±2.3
−
MHz
∆fVIF
VIF frequency window of digital
acquisition help
related to fVIF; see Fig.7
Vo(v)(p-p)
video output signal voltage
(peak-to-peak value)
normal mode; see Fig.9
1.7
2.0
2.3
V
trap bypass mode;
see Fig.9
0.95
1.10
1.25
V
differential gain
“CCIR 17”; note 2
B/G standard
−
−
5
%
L standard
−
−
7
%
−
2
4
deg
Gdif
ϕdif
differential phase
“CCIR 17”
Bv(−3dB)(trap)
−3 dB video bandwidth including
sound carrier trap
CL < 20 pF; RL > 1 kΩ;
AC load; note 3
ftrap = 4.5 MHz
3.95
4.05
−
MHz
ftrap = 5.5 MHz
4.90
5.00
−
MHz
ftrap = 6.0 MHz
5.40
5.50
−
MHz
5.50
5.95
−
MHz
M/N standard
30
36
−
dB
B/G standard
30
36
−
dB
ftrap = 6.5 MHz
αSC1
trap attenuation at first sound carrier
S/NW
weighted signal-to-noise ratio of
video signal
see Fig.5; note 4
56
59
−
dB
PSRR17
power supply ripple rejection at
pin 17
fripple = 70 Hz; video signal;
grey level; positive and
negative modulation;
see Fig.8
20
25
−
dB
Bv(−1dB)
−1 dB video bandwidth
CL < 20 pF; RL > 1 kΩ;
AC load; trap bypass mode
5
6
−
MHz
AFCstps
AFC steepness ∆I21/∆f
0.85
1.05
1.25
µA/kHz
Vo(AF)(rms)
audio output signal voltage at pin 8
(RMS value)
27 kHz FM deviation;
50 µs de-emphasis
430
540
650
mV
THDaudio
total harmonic distortion of audio
signal
27 kHz FM deviation;
50 µs de-emphasis
−
0.15
0.50
%
AM; m = 54%
−
0.5
1.0
%
21
70GS-62S
ICs ADITIONAL INFORMATION: TDA9885 (IC201)
SYMBOL
PARAMETER
CONDITIONS
MIN.
TYP.
MAX.
UNIT
BAF(−3dB)
−3 dB audio frequency bandwidth for
FM
without de-emphasis;
dependent on loop filter at
pin 4
80
100
−
kHz
S/NW(audio)
weighted signal-to-noise ratio of
audio signal
27 kHz FM deviation;
50 µs de-emphasis;
vision carrier unmodulated
52
56
−
dB
AM; m = 54%
45
50
−
dB
αAM(sup)
AM suppression of FM demodulator
50 µs de-emphasis;
AM: f = 1 kHz; m = 0.54
referenced to 27 kHz
FM deviation
40
46
−
dB
PSRR8(AM)
power supply ripple rejection at pin 8
fripple = 70 Hz; see Fig.8
20
26
−
dB
PSRR8(FM)
power supply ripple rejection at pin 8
fripple = 70 Hz; see Fig.8
14
20
−
dB
Vo(rms)
IF intercarrier level (RMS value),
valid also for radio
QSS mode; SC1; sound
carrier 2 off
90
140
180
mV
L standard; without
modulation
90
140
180
mV
intercarrier mode; SC1;
sound carrier 2 off
−
note 5 −
mV
fref
frequency of reference signal at
pin 15
note 6
−
4
−
MHz
Vref(rms)
amplitude of reference signal source
(RMS value)
operation as input terminal
80
−
400
mV
Notes
1. Values of video and sound parameters can be decreased at VP = 4.75 V.
2. Condition: luminance range (4 steps) 0 to 80%.
3. The sound carrier frequencies (depending on TV standard) are attenuated by the integrated sound carrier traps
(see Figs 16 to 21; H (s) is the absolute value of transfer function).
4. S/N is the ratio of black-to-white amplitude to the black level noise voltage (RMS value, pin 17). B = 5 MHz weighted
in accordance with “CCIR 567”.
5. The intercarrier output signal at pin 12 can be calculated by the following formula taking into account the internal
video signal with 1.1 V (p-p) as a reference:
1
V o(intc)(rms) = 1.1 V (p-p) × ----------- × 10
2 2
where:
V i ( SC )
--------------- ( dB ) + 6 dB ± 3 dB
V i ( PC )
---------------------------------------------------------------20
V i ( SC )
1
----------- = correction term for RMS value, --------------- ( dB ) = sound-to-picture carrier ratio at VIF input (pins 1 and 2) in dB,
V i ( PC )
2 2
6 dB = correction term of internal circuitry and ±3 dB = tolerance of video output and intercarrier output amplitude
Vo(intc)(rms).
6. The reference input pin 15 is able to operate as a 1-pin crystal oscillator as well as input terminal with external
reference signal, e.g. from the tuning system.
22
23
18
AGND
20
VP
SUPPLY
n.c.
13
(1) Not connected for TDA9885.
SIF1 23
SIF2 24
VIF1 1
VIF2 2
CBL
16
VAGC
VIF-AGC
CAGC neg
14
TUNER AGC
9
TOP TAGC
VPLL
VIF-PLL
19
RC VCO
CAGC
SIF-AGC
OP1
3
OUTPUT
PORTS
22
OP2
SCL
11
SDA
10
12
AFC
21
FM-PLL filter
FMPLL
4
NARROW-BAND FM-PLL
DETECTOR
AUDIO PROCESSING
AND SWITCHES
4.5 to 6.5 MHz
VIDEO TRAPS
sound intercarrier output
and MAD select
DGND SIOMAD
7
I2C-BUS TRANSCEIVER
MAD
4 MHz
crystal
AFC DETECTOR
REF
15
or
external
reference
DIGITAL VCO CONTROL
TDA9885
SINGLE REFERENCE QSS MIXER/
INTERCARRIER MIXER AND
AM-DEMODULATOR
(1)
CVAGC pos
VIF-PLL
filter
6 AFD
CAF
de-emphasis
network
5 DEEM
8 AUD
17 CVBS video output 2 V (p-p)
[1.1 V (p-p) without trap]
70GS-62S
ICs ADITIONAL INFORMATION: TDA9885 (IC201)
BLOCK DIAGRAM
70GS-62S
ICs ADITIONAL INFORMATION: TDA9885 (IC201)
PINNING
SYMBOL
PIN
DESCRIPTION
SYMBOL
PIN
DESCRIPTION
VIF1
1
VIF differential input 1
TAGC
14
tuner AGC output
VIF2
2
VIF differential input 2
REF
15
4 MHz crystal or reference input
OP1
3
output 1 (open-collector)
VAGC
16
VIF-AGC for capacitor; note 1
FMPLL
4
FM-PLL for loop filter
CVBS
17
video output
DEEM
5
de-emphasis output for capacitor
AGND
18
analog ground
AFD
6
AF decoupling input for capacitor
VPLL
19
VIF-PLL for loop filter
DGND
7
digital ground
VP
20
supply voltage (+5 V)
AUD
8
audio output
AFC
21
AFC output
TOP
9
tuner AGC TakeOver Point (TOP)
OP2
22
output 2 (open-collector)
10
I2C-bus
data input/output
SIF1
23
SIF differential input 1
SCL
11
I2C-bus
clock input
SIF2
24
SIF differential input 2
SIOMAD
12
sound intercarrier output and MAD
select
n.c.
13
not connected
SDA
Note
1. Not connected for TDA9885.
handbook, halfpage
handbook, halfpage
VIF1
1
24 SIF2
VIF1 1
24 SIF2
VIF2
2
23 SIF1
VIF2 2
23 SIF1
OP1
3
22 OP2
OP1 3
22 OP2
FMPLL
4
21 AFC
FMPLL 4
21 AFC
DEEM
5
20 VP
AFD
6
20 VP
DEEM 5
19 VPLL
19 VPLL
AFD 6
DGND
7
TDA9885T
TDA9886T 18 AGND
TDA9885TS
DGND 7 TDA9886TS 18 AGND
AUD
8
17 CVBS
AUD 8
17 CVBS
TOP
9
16 VAGC(1)
TOP 9
16 VAGC(1)
SDA 10
15 REF
SDA 10
15 REF
SCL 11
14 TAGC
SCL 11
14 TAGC
SIOMAD 12
13 n.c.
SIOMAD 12
MXXxxx
13 n.c.
MXXxxx
(1) Not connected for TDA9885.
(1) Not connected for TDA9885.
Fig.2 Pin configuration for SO24.
Fig.3 Pin configuration for SSOP24.
24
70GS-62S
ICs ADITIONAL INFORMATION: TDA7480 (IC301, IC302, IC501)
ABSOLUTE MAXIMUM RATINGS
Symbol
Parameter
VCC
Tstg, Tj
DC Supply Voltage
VFREQ
Maximum Voltage Across VFREQ (Pin 9)
Top
ESD
Operating Temperature Range
Storage and Junction Temperature
Value
Unit
±20
–40 to 150
°C
8
V
-20 to 70
°C
±1.8
kV
Maximum ESD on Pins
Rth with "on board" Square Heatsink vs. copper area.
PIN CONNECTION (Top view)
Rthj-a
(˚C/W)
-VCC
1
20
-VCC
-VCC
2
19
-VCC
-VCC
3
18
-VCC
OUT
4
17
-VCC
BOOTDIODE
5
16
+VCC POW
BOOT
6
15
VREG
N.C.
7
14
+VCC SIGN
FEEDCAP
8
13
N.C.
FREQ
9
12
STBY/MUTE
10
11
IN
SGN-GND
V
D97AU675
COPPER AREA 35µ
THICKNESS
60
PC BOARD
50
40
D96AU537B
30
0
4
8
12
Area(cm2)
THERMAL DATA
Symbol
Parameter
Rth j-amb
Thermal Resistance Junction to ambient
Rth j-pin
Thermal Resistance Junction to Pin
Max.
PIN FUNCTIONS
N.
Name
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-VCC
-VCC
-VCC
OUT
BOOTDIODE
BOOT
NC
FEEDCAP
FREQUENCY
SGN-GND
IN
ST-BY-MUTE
NC
+VCC SIGN
VREG
+VCC POW
-VCC
-VCC
-VCC
-VCC
Function
NEGATIVE SUPPLY.
NEGATIVE SUPPLY.
NEGATIVE SUPPLY.
PWM OUTPUT
BOOTSTRAP DIODE ANODE
BOOTSTRAP CAPACITOR
NOT CONNECTED
FEEDBACK INTEGRATING CAPACITANCE
SETTING FREQUENCY RESISTOR
SIGNAL GROUND
INPUT
ST-BY/ MUTE CONTROL PIN
NOT CONNECTED
POSITIVE SIGNAL SUPPLY
10V INTERNAL REGULATOR
POSITIVE POWER SUPPLY
NEGATIVE SUPPLY (TO BE CONNECTED TO PIN 16 VIA C5)
NEGATIVE SUPPLY
NEGATIVE SUPPLY
NEGATIVE SUPPLY
25
Value
Unit
80
°C/W
12
°C/W
70GS-62S
ICs ADITIONAL INFORMATION: TDA7480 (IC301, IC302, IC501)
ELECTRICAL CHARACTERISTICS (Refer to the test circuit, VCC = ±14V; RL = 8Ω; RS = 50Ω;
Rf = 12KΩ; Demod.. filter L = 60µH, C = 470nF; f = 1KHz; Tamb = 25°C unless otherwise specified.)
Symbol
Parameter
Test Condition
Min.
Supply Range
VOS
Output Offset Voltage
Play Condition
–50
PO
Output Power
THD = 10%
THD = 1%
8.5
6
RL = ∞; NO LC Filter
Total Quiescent Current
Unit
25
±16
40
mA
+50
mV
RL = 4Ω VCC = ±10.5V
THD = 10%
THD = 1%
10
7
W
W
1
W
1.8
W
85
%
0.1
%
5
A
150
°C
Rf = 12KΩ PΟ = 1W
PDMAX
Maximum Dissipated Power
PΟ = 10W THD 10%
Rth-j-amb = 38°C/W (Area 12cm2)
PO
PO
(**)
≡
PO + PD PI
THD 10%
Rth-j-amb = 38°C/W (Area 12cm2)
THD
Total Harmonic Distortion
RL = 8Ω; PO = 0.5W
Imax
Overcurrent Protection
Threshold
RL = 0
Tj
Thermal Shut-down Junction
Temperature
GV
eN
Closed Loop Gain
Total Input Noise
80
3.5
29
A Curve
f = 20Hz to 22KHz
Ri
SVR
Input Resistance
Supply Voltage Rejection
Tr, Tf
Rising and Falling Time
RDSON
FSW
Power Transistor on Resistance
Switching Frequency
100
FSW_OP
Switching Frequency Operative
Range
100
f = 100Hz; Vr = 0.5
30
7
12
31
Zero Signal Frequency
Constant (***)
RF
Frequency Controller Resistor
Range (****)
dB
µV
µV
20
30
KΩ
46
60
dB
50
ns
140
Ω
KHz
200
KHz
0.4
120
1.4x109
BF
V
W
W
Dissipated Power at 1W Output
Power
Efficiency ≡
Max.
10
7
Pd (*)
η
Typ.
±10
VS
Iq
7
12
HzΩ
14
KΩ
0.8
V
2.5
V
V
MUTE & STAND-BY FUNCTIONS
VST-BY
Stand-by range
VMUTE
VPLAY
Mute Range
Play Range (1)
1.8
4
AMUTE
Mute Attenuation
60
IqST-BY
Quiescent Current @ Stand-by
80
3
dB
5
mA
*: The output average power when the amplifier is playing music can be considered roughly 1/10 of the maximum output power. So it is useful
to consider the dissipated power in this condition for thermal dimensioning.
**: PO = measured across the load using the following inductor:
COIL 58120 MPPA2 (magnetics)
TURNS: 28 ∅ 1mm
COIL77120 KOOL Mµ (magnetics) TURNS: 28 ∅ 1mm
***: The zero-signal switching frequency can be obtained using the following expression: FSW = BF/RF
****: The maximum value of RF is related to the maximum possible value for the voltage drop on RF itself.
(1): For V12 >5.2V, an input impedance of 10KΩ is to be considered.
26
70GS-62S
ICs ADITIONAL INFORMATION: MSP3401G (IC303)
Demodulator
ADC
Sound IF2
Preprocessing
Source Select
Sound IF1
2
I S1
Prescale
I2S2
Loudspeaker
Sound
Processing
DAC
Headphone
Sound
Processing
DAC
Loudspeaker
Subwoofer
Headphone
I2S
SCART1
DAC
SCART2
SCART3
SCART
DSP
Input
Select
SCART1
ADC
Prescale
SCART
Output
Select
DAC
SCART4
MONO
SCART2
Block Diagram of the MSP 34x1G
SC2_IN_L
SC2_IN_R
ASG2
SC3_IN_R
ASG1
SC3_IN_L
SC1_IN_L
ASG4
SC1_IN_R
SC4_IN_R
VREFTOP
SC4_IN_L
NC
NC
MONO_IN
AGNDC
AVSS
AHVSS
AVSS
AHVSS
NC
NC
NC
NC
AVSUP
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
40
CAPL_M
AVSUP
66
39
AHVSUP
ANA_IN1+
67
38
CAPL_A
ANA_IN−
68
37
SC1_OUT_L
ANA_IN2+
69
36
SC1_OUT_R
TESTEN
70
35
VREF1
XTAL_IN
71
34
SC2_OUT_L
XTAL_OUT
72
33
SC2_OUT_R
TP
73
32
NC
AUD_CL_OUT
74
31
NC
NC
75
30
DACM_SUB
NC
76
29
NC
D_CTR_I/O_1
77
28
DACM_L
D_CTR_I/O_0
78
27
DACM_R
ADR_SEL
79
26
VREF2
STANDBYQ
80
25
10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
MSP 34x1G
1
2
3
4
5
6
7
8
9
DACA_L
DACA_R
NC
I2C_CL
NC
I2C_DA
NC
I2S_CL
RESETQ
I2S_WS
NC
I2S_DA_OUT
NC
I2S_DA_IN1
NC
ADR_DA
I2S_DA_IN2
ADR_WS
DVSS
ADR_CL
DVSS
DVSUP
DVSS
DVSUP
80-pin PQFP package
27
DVSUP
70GS-62S
ICs ADITIONAL INFORMATION: MSP3401G (IC303)
Absolute Maximum Ratings
Symbol
Parameter
Pin Name
Min.
Max.
Unit
TA
Ambient Operating Temperature
−
0
701)
°C
TS
Storage Temperature
−
−40
125
°C
VSUP1
First Supply Voltage
AHVSUP
−0.3
9.0
V
VSUP2
Second Supply Voltage
DVSUP
−0.3
6.0
V
VSUP3
Third Supply Voltage
AVSUP
−0.3
6.0
V
dVSUP23
Voltage between AVSUP
and DVSUP
AVSUP,
DVSUP
−0.5
0.5
V
PTOT
Power Dissipation
PLCC68
PSDIP64
PSDIP52
PQFP80
PLQFP64
AHVSUP,
DVSUP,
AVSUP
1200
1300
1200
1000
9601)
mW
mW
mW
mW
mW
−0.3
VSUP2+0.3
V
VIdig
Input Voltage, all Digital Inputs
IIdig
Input Current, all Digital Pins
−
−20
+20
mA2)
VIana
Input Voltage, all Analog Inputs
SCn_IN_s,3)
MONO_IN
−0.3
VSUP1+0.3
V
IIana
Input Current, all Analog Inputs
SCn_IN_s,3)
MONO_IN
−5
+5
mA2)
IOana
Output Current, all SCART Outputs
SCn_OUT_s3)
4) 5)
4) 5)
IOana
Output Current, all Analog Outputs
except SCART Outputs
DACp_s3)
4)
4)
ICana
Output Current, other pins
connected to capacitors
CAPL_p,3)
AGNDC
4)
4)
1)
2)
3)
4)
5)
,
,
PLQFP64: 65 °C
positive value means current flowing into the circuit
“n” means “1”, “2”, “3”, or “4”, “s” means “L” or “R”, “p” means “M” or “A”
The analog outputs are short-circuit proof with respect to First Supply Voltage and ground.
Total chip power dissipation must not exceed absolute maximum rating.
28
70GS-62S
VIN
CIN
2
4
3
Video
Front-end
Comb
Filter
Panorama
Scaler
Color
Decoder
2
RSW
GNDM
VRD
XREF
SENSE
HFLB
VERT
EW
PROT
HOUT
VCT 38xx
GNDD
VSUPD
GNDAF
VSUPAF
SGND
VRT
ICs ADITIONAL INFORMATION: VCT3832 (IC1001)
2
Display
Processor
3
Video
Back-end
Pict.Improv.
VOUT
RGBOUT
SVM
4
RGBIN
Video
VSUPAB
GNDAB
I2C
MSync
Color, Prio
8
2
Audio
3
AOUT
AIN
VSync
I2C Master
BE
TPU
DMA
CPU
RDY
24
24 kB ROM
kB
2
I2C
8-bit PWM
14-bit PWM
1 kB
CPU RAM
3 3kB
kB
OSD
OSDRAM
15:1 Mux
10-bit ADC
Reset
Logic
RESQ
Clock
Oscillator
XTAL1
2 Timer
TEST
2 CapCom
96 kB
CPU ROM
Watchdog
24 IO Ports
31
ADB, DB, CB
GNDP1
VSUPP1
GNDS
VSUPS
XTAL2
CLK20
12
Pxy
16 kB
Text RAM
Block diagram of the VCT 38xxA (shaded blocks are optional)
Absolute Maximum Ratings
Symbol
Parameter
TA
Pin Name
Min.
Max.
Unit
Ambient Operating Temperature
−
65
°C
TC
Case Temperature (PSDIP64)
−
115
°C
TC
Case Temperature (PMQFP128)
−
115
°C
TS
Storage Temperature
−40
125
°C
PTOT
Total Power Dissipation
−
1400
mW
VSUPx
Supply Voltage
−0.3
6
V
VI
Input Voltage, all Inputs
−0.3
VSUPx+0.31)
V
VO
Output Voltage, all Outputs
−0.3
VSUPx+0.31)
V
VIO
Input/Output Voltage, all Open Drain Outputs
−0.3
6
V
VSUPx
29
70GS-62S
ICs ADITIONAL INFORMATION: VCT3832 (IC1001)
P35
P36
P34
P37
VSUPP3
GNDP3
P33
GNDD
VSUPD
HOUT
CLK20
VB0
P32
P31
P30
VB1
VB2
TEST
FBLIN
RIN
VB3
VB4
GIN
VB5
VB6
BIN
VPROT
SAFETY
HFLB
VB7
VBCLK
P20
96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65
97
64
P21
VERT
98
63
P22
EW
99
62
P23
SENSE
100
61
GNDP2
GNDM
101
60
VSUPP2
RSW1
102
59
P24
RSW2
103
58
P25
SVMOUT
104
57
P26
ROUT
105
56
P27
GOUT
106
55
DISINTROM
BOUT
107
54
VIN4
VSUPAB
108
53
VIN3
GNDAB
109
52
VIN2
VRD
110
51
VIN1
XREF
111
50
CIN2/CRIN
AIN3
112
49
CIN1
AIN2
113
48
CBIN
AIN1
114
47
VSUPAF
AOUT2
115
46
GNDAF
AOUT1
116
45
SGND
RESQ
117
44
VRT
SCL
118
43
VOUT
SDA
119
42
P10
XTAL1
120
41
P11
XTAL2
121
40
P12
VSUPS
122
39
P13
GNDS
123
38
GNDP1
WE1Q
124
37
VSUPP1
WE2Q
125
36
P14
OE1Q
126
35
P15
OE2Q
127
34
P16
ADB18
128
1
33
10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32
P17
VERTQ
VCT 38xx
2
3
4
5
6
7
8
9
ADB17
VSUPADB
GNDADB
ADB16
ADB15
ADB14
ADB13
ADB12
ADB11
ADB10
ADB9
ADB8
ADB7
ADB6
ADB5
VSUPADB
DB7
DB6
DB5
DB4
GNDDB
VSUPDB
DB3
DB2
DB1
DB0
ADB0
ADB1
ADB2
ADB3
ADB4
GNDADB
30
70GS-62S
DESCRIPTION OF SCHEMATIC DIAGRAM
SAFETY NOTE:
1. DISCONNECT THE AC PLUG FROM THE AC
OUTLET BEFORE REPLACING PARTS.
2. SEMICONDUCTOR HEAT SINKS SHOULD BE
REGARDED AS POTENTIAL SHOCK HAZARDS
WHEN THE CHASSIS IS OPERATING.
NOTE:
1. The unit of resistance «ohm»is omitted (K=1000
ohms. M= Megaohm).
2. All resistors are 1/8 watt. unless otherwise noted.
3. All capacitors are mF, unless otherwise noted
(P= mmF).
4. The capacitor with Part No. RC-FZ9XXXBMNJ
is designed to with stand 63V.
5. The capacitor with Part No. RC-FZ4XXXBMNJ
is designed to with stand 50V.
SERVICE PRECAUTION:
IMPORTANT SAFETY NOTE:
THE AREA ENCLOSED BY THIS LINE (
)
IS DIRECTLY CONNECTED WITH AC MAINS
VOLTAGE.
WHEN SERVICING THE AREA, CONNECT AN
ISOLATING TRANSFORMER BETWEEN TV
RECEIVER AND AC LINE TO ELIMINATE HAZARD OF ELECTRIC SHOCK.
PARTS MARKED WITH « ! » (
) ARE
IMPORTANT FOR MAINTAINING THE SAFETY
OF THE SET. BE SURE TO REPLACE THESE
PARTS WITH SPECIFIED ONES FOR MAINTAINING THE SAFETY AND PERFORMANCE OF THE
SET.
CAUTION
This circuit diagram is original one, therefore there may be light difference
from yours.
WAVEFORMS MEASUREMENT:
1. TEST EQUIPMENT: Digital Oscilloscope (Tektronix TDS 3012).
2. TEST CONDITIONS: PAL B/G full colour bar, 1KHz sinewave (volume regulation 50%).
Note: Waveforms 8 and 11 should be taken with the TV set in Stand-by mode.
1 Red in
2 Green in
3 Blue in
31
70GS-62S
4 Red output
5 Green output
6 Blue output
7 I Sense
8 V St-by
9 E/W Output
10 V Switch
11 V Control St-by
12 Vp (Primary)
13 Vertical Input
14 E/W Correction
15 V inner correction
16 Vertical + input
17 VH
18 H Control
32
70GS-62S
19 Vb (Horizontal)
20 Vc (Horizontal)
21 V in Headphone L
22 V in Headphone R
23 V in Speaker L
24 V out Speaker L
25 V out Speaker R
26 V in Speker R
27 X1002
28 V Flyback Vertical
29 Vertical output
30 Vertical input
31 IF Video output
33
7
R779
2M2
2M2
R748
220K
R778
R790
270
(1/2W)
R703
2K7
22K
R701
R753
2K2
Q704
2SA1037
2M2
R754
10K
R705
C721
10nF
(FZ)
D731
DX0045
C711
68nF
(250V)
FZ0206BM
R721
100
(TQ)
Q712
2SA1037
R783
220K
47K
R782
D717
DX0045
R710
330K
(TQ)
(1%)
390K
(TQ)
3
100K
R751
R789
100K
R785
100K
C704
10nF
250V
KZ0029CE
D703
RF2005
DX0555
D704
DX0555
RF2005
D707
DX0551
D734
DX0551
R722
R750
22K
R715
18K
(1%)
R773
680K
R772
680K
(TQ)
R749
680K
(TQ)
.
C707
100uF
(25V)
R711
10
5
4
6
Q720
2SC2412
R708
390K
(TQ)
R706
390K
(TQ)
R1701
100
(1/2W)
11
13
12
14
VOL+
F702
680
R1043
3
1
4
D744
DX0551
LN-0037BM
FB702
C728
100uF
(200V)
-16V
+165V
.
.
C727
1000uF
(25V)
.
C726
2200uF
(25V)
+16V
D749
DX0518BM
EGP20B
DX0629
D719
EGP20B
DX0629
D798
D742
DX0551
C731
100uF
(25V)
.
+16V
8
R1704
47
(1/3W)
(G)
PLGN0207
C1701
470uF
(16V)
D1702
1N4005
DUNTK7347BMV0
Z0590BM
6
R1033
100
QPWBF7347BMN0
T702
LN-0037BM
D720
SUF15J
FUS
F703
VOLS705
K0079GE
C702
10nF
250V
KZ0029CE
FB701
C798
220pF
2KV
KZ0035CE
1K
R1703
D712
BYV28-600
DX0618BM
FUS
C8V2
D1701
R1702
100
1K
R1032
S704
K0079GE
Q701
TX0237BM
FB703
T701
RNZ0589BM
D715
DX0551
R713
10K
IC708
FX0111
+5VSTBY
1K
R1031
R1030
2K2
CH
S703
K0079GE
S702
K0079GE
R799
1
(1/2W)
XZ0200BM
Q721
2SA1037
22K
R788
R714
.56
(3W)
C706
680nF
(400V)
680
C1702
POR1701
P0001BM
R1099
100
Q1701
BT134W
Q702
TX0237BM
C6V2
EX0584BM
2%
D716
C713
68uF
(450V)
EZ0141BM
R709
330K
(TQ) (1%)
R786
1K8
R716
R712
390K
(TQ)
C737
100uF
(16V)
R784
18K
IC701
IX1556
C703
10nF
250V
KZ0029CE
D701
RF2005
DX0555
D702
RF2005
DX0555
P0600BM
S701
F701
FS-C3226
GN0304
Q705
2SC2412
R752
10K
8K2
R725
3K3
C712
1uF
(160V)
D714
C6V8
EX0411BM
L701
F0111BM
C701
330nF
(275V)
FZ0188BM
VAR1
VX0035BM
R719
R774
82K
(TQ)
R770
82K
(TQ)
D741
C4V3
EX0543BM
R765
82K
(TQ)
4
5
R771
82K
(TQ)
1
3
6
(M)
2
7
2
1
8
CH
Q709
R759
560
(TQ)
JF701
100nF
JF702
3,3uH
(CF)
R1039
3K9
R738
68
.
Q901
2SA1037
R909
120
STBY
C720
1000uF
(6.3V)
1
2
3
4
5
6
7
8
9
C911
100nF
LEDOPC
C1049
10nF
+5VSTBY
.
LED
R912
2K2
R755
390
D724
B2V4
EX0400BM
5
4
3
2
1
Q708
BC547
TX0106
Q706
2SC2412
R1002
3K3
4
3
2
1
5
.
R756
100
.
C1019
47uF
(16V)
2R7
R758
5
6
7
8
3
560
R926
R917
2K2
Q906
TX0232
R916
100
+5V
SDA
SCL
3
2
(1/2W)
C1001
470uF
(6.3V)
4K7
R1007
4K7
(TQ)
.
+3.3V
D1012
C5V6
EX0546BM
1
Q907
2SA1037
R915
390
R1006
R907
2K7
Q905
2SC2412
4
WP
VCC
Q707
2SC2412
VSS
S2
S1
NC
C904
10uF
+12V
IC1003
X24645S8
IX1603BM
6
D727
DX0045
560
R925
R918
390
Q904
2SA1037
R914
120
2
Q903
2SC2412
R910
390
0
CNW-2865BM
(K)
R936
47R
.
+12V
R911
100
Q902
2SC2412
C909
470uF
(16V)
1
0
(1/2W)
R908
2K7
R903
(1/2W)
R906
2K7
DUNTK7316BMV1
R902
R757
1K8
+5V
R913
390
+12V
0
R901
VI(1)
VI(2)
VI(3)
GND
SENS
VDD
VO(3)
VO(2)
VO(1)
IC901
TDA6107
+5VSTBY
.
TP701
+13V
.
D747
DX0551BM
R1017
3K3
IX1641BM
.
+3,3VSTBY
QPWBF7316BMN5
8K2
.
C1048
10nF
ONLY AVLINK
Q1005
2SC2412
R1034
8K2
+5VSTBY
R1016
2K2
.
+5VSTBY
.
R1035
33K
100nF
C407
10K
R1008
L1006
1uH
C1051
(NM)
10nF
LN-0037CE
C408
100K
R1010
D1006
DX0551
.
+5V
R1009
1K C1020
220nF
D1004
DX0551
C902
PB3DE472
R1011
2K2
HFLB
SAFETY
VPROT
BIN
GIN
RIN
FBLIN
NC
P30
P31
P32
P33
GNDP3
VSUPP3
P34
P35
P36
P37
GNDD
VSUPD
HOUT
CLK20
VB0
VB1
VB2
VB3
VB4
VB5
VB6
VB7
VBCLK
P20
DX0045
D1007
94
D1005
EX0564BM 95
C1042
470nF
96
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
75
74
73
72
71
70
69
68
67
66
65
EX0545
D1011
CNW-2710BM
(H)
KEY
Q1006
2SC2412
C33
100nF
C409
1K
4
C914
33nF
11
TRC
C905
100nF
(400V)
(FZ)
6
B
C915
33nF
8
9
10
G
R
R904
4M7
(1/8W)
L602
3.3uH
(DF)
R1041
KEY
3
6
C1017
100nF
R624
1K
R625
+5V
C1033
100nF
C1002
100nF
+5V
2
D901
1N4004
DX0501BM
330
C1018
2n2
1
5
4
C901
10uF
(250V)
100nF
C1024
100nF
L1005
1uH
(DF)
R1022
100
C910
100nF
R905
1K
+3.3V
C1040
47uF
J181
R1018
100
R1001
3K3
100K
(TQ)
100K
(TQ)
7
R935
D903
DX0539
C916
2n2
R934
560
R927
Q909
2SC2412
C912 220pF
C5V1
EX0408BM
D902
R922
2K2
R920
390
R932
1K8
D905
DX0600
Q910
2SA1037
R921
100
Q908
2SC2412
D1013
C5V6
EX0546BM
R923
390
R919
120
Q1001
2SC2412
R931
.
+12V
R933
3K3
D906
DX0600
D904
DX0600
R1040
2.2nF
C1003
64
P21
VERTQ
D1009
C4V7
EX0544BM
L901
0
(L3)
G2
.
D1015
1N4148
EX0045
FOCUS
D1001
PX0105
.
+5VSTBY
60
M1000
CU0205BM
2M2
63
97
59
5
7
1
12
13
61
62
P22
C1021
1nF
58
VSUPP2
GNDM
101
P23
98
57
P24
RSW2
103
GNDP2
VERT
100nF
C1034
2
P25
104
2K2
EW
99
E/W
100nF
SVMOUT
R804
RSW1
102
R803
270
SENSE
100
R802
1K2
C1036
R1020
56
P26
1
P27
ROUT
105
C809
680nF
R361
100K
.
D1014
C8V2
EX0413BM
R1013
100
3
+5STBY
FB401
C810
390pF
FB801
54 10K
VIN4
BOUT
L1002
1uH
(DF)
270p
C103
2n2
C103
C100
1uF
C100
47uF
L100
1uH
(DF)
IC1001
IX1823B
VCT383
C803
470uF
C1027
10nF
.
+5V
R423
75
(TQ)
R1014
100
53
VIN3
+3.3VSTBY
55
DISINTROM
GOUT
106
6
107
52
VIN2
VRD
5
108
2
48
FB402
51
VIN1
VSUPAB
34
-VS
110
IR
109
4
+VS
XREF
KEY
111
3
GNDAB
50
CIN2
1
47
2
HOUT
Page 35
1
PROT
49
MUTE
CIN1
A
AV2
VOUT
B
AV1
L801
1uH
C804
100nF
112
C
AV2
IN1
D
AV1
AIN3
E
VI2
AIN2
F
CR1
V UPAF
FI
114
G
VI1
113
H
PROT
C805
SCHEMATIC DIAGRAM OF MOTHER UNIT (K7315N4).
3.3uF
I
LP701
RLAMP001
70GS-62S
Page 36
VPROT
B
G
R
FB
ALCLOCK
AL
Q725
2SC2412
C606
47nF
(HB)
R727
1K
13
J330,
J331,J332,
J333, J334,
J335, JF78,
JF79, L319,
R451,
R452, J204
ABOLISH
PARTS
18
C709
10uF
D739
C33
EX0427BM
D738
DX0045
R720
15K
C710
22nF
(FZ)
2M2
(TQ)
FOR 7315N4 VERSION
R704
100K
C738
100nF
(FZ)
R724
1M
D729
1N4937
11
Q715
2SA1037
2M2
(TQ)
C0373 - RC-FZ9104BMNJ+
C0388 - RC-FZ4334BMNJ+
C0389 - RC-FZ4334BMNJ+
C0386 - RC-FZ9224BMNJ+
D1003 - RH-EX0551BMZZ*
D0307 - RH-EX0413BMZZ*
D0308 - RH-EX0413BMZZ*
D1015 - RH-EX0045BMZZ*
R0657 - RR-XZ0215BMZZ+
C0358 - RC-FZ9104BMNJ+
C0368 - RC-FZ9104BMNJ+
D1014 - RH-EX0413BMZZ*
C0353 - RC-FZ9104BMNJ+
CODE
PARTS
D1012 - RH-EX0546BMZZ*
D1013 - RH-EX0546BMZZ*
REF.
C610
1nF
D610
1N5819
DX0518
Q601
TX0226
C612
680pF
D611
1N4936
DX0578
CNW-2710BM
(H)
180
(TQ)
D634
4V7
C601
10nF
1.6Kv
FZ0228BM
R653
1
2
R745
47K
+180V
3
4
R650
22
1/2W
XZ0216
.
PARTS
D0737 - DX-EX0551BMZZ*
D0738 - DX-EX0551BMZZ*
D0739 - RH-EX0564BMZZ*
D0746 - DX-EX0551BMZZ*
D0902 - RH-EX0545BMZZ*
L1002 -VP-NM1R0MR10N*
L1003 -VP-NM1R0MR10N*
D0724 - RH-EX0574BMZZ*
D0725 - RH-EX0556BMZZ*
D0727 - DX-EX0551BMZZ*
D0730 - RH-EX0584BMZZ*
D0731 - DX-EX0551BMZZ*
D0507 - RH-EX0554BMZZ*
D0512 - RH-EX0564BMZZ*
D0615 - RH-EX0560BMZZ*
D0622 - RH-EX0554BMZZ*
D0635 - RH-EX0551BMZZ*
CODE
D0735 - RH-EX0556BMZZ*
REF.
PARTS
C622
470uF
(25V)
D0714 - RH-EX0548BMZZ*
D0717 - DX-EX0551BMZZ*
CODE
-13V
R554
100
R645
0
.
-13V
D631
C613
470nF
(FZ)
330pF
C541
L606
3,3uH
(DF)
D633
R531
120K
1K8
R644
3,3 nF
C540
L2
M0017CE
R633
6K8
R635
1M
C632
22pF
R639
270K
5
D636
DX0551BM
6
4
-VS
3
8
7
+VS
2
1
+13V
.
IC601
BA4558
330 nF
330 nF
VALUE
C0370 - RC-FZ9334BMNJ+
CODE
C0356 - RC-FZ9334BMNJ+
REF.
R643
820K
HOUT
PROT
15
CODE
14
J0061 - VP-DF220K0000*
JL088- QJUM-1001GEFW*
L0402 - VRD-RA2BE220J*
L0403 - VRD-RA2BE220J*
JL183- QJUM-4001GEFW*
JL192- QJUM-2001GEFW*
J0152 - VRS-TV1JD000J*
J0027 - VRS-TV1JD000J*
J0325 - VRS-TQ2BD000J*
J0033 - VRS-TV1JD000J*
L605
Z0725
R508
680
6
5
R545
180K
220uF
(25V)
C526
7
-VS
4
8
3
+VS
IC502 13
BA4558
R515
1K2
9
2
1
R618
3K3
(1/2W)
XZ0242BM
R512
4K7
D1009
C4V7
EX0544BM
JL012- QCNW-2736BMZZ
C1060 -VCKYTV1HF104Z*
REF.
PARTS
C520
470uF
(35V)
+25V
C617
180nF
(250V)
FZ0229BM
R631
330K
(RA)
C619
100nF
(250V)
FZ0198BM
CODE
D510
DX0577
1N4935
R629
470K
(RA)
C626
10uF
R627
82K
(1/2W)
C624
220nF
(250V)
FZ6224BM
28"
PARTS ADD
PARTS
PARTS
R530
4.7
(1/2W)
XZ0208BM
D623
C4V7
EX0544BM
R630
6K8
10K
D622
C12
EX0417BM
1nF
100
R628
C625
R626
Q610
TX0240BM
C631
2n2
ONLY
100K
R1010
D1003 - RH-DX0606BMZZ*
REF.
PARTS
C629
68nF
Q609
2SC2412
D625
DX0551
PARTS WITH DIFERENT CODE ( DIFERENT VALUE )
PARTS
PARTS
PARTS
D615
C22
EX0423BM
14
R634
1K
R637
4K7
R632
390
R655
2K7
Q611
2SA1037
.
+5V
D1003 - DX-EX0606BMZZ*
680pF
C543
+13V
R614
10K
(1/2W)
R654
100
C618
220uF
(16V)
R622
1K5
R638
100K
Q606
2SC2412
.
+13V
L1005 -VP-NM1R0MR10N*
CODE
C623
470uF
(35V)
PARTS
C621
2.2nF
(500V)
REF.
F602
22uH
(CF)
.
R760
3K9
C729
470uF
(6.3V)
+5V
R777
0,68
13
4
1
(K)
6
5
4
3
CNW-2865BM
PARTS
D613
DX0577
1N4935
D0708 - RH-EX0558BMZZ*
REF.
F601
22uH
(CF)
R617
22
1/2W
XZ0216
R767
470
L705
330K
P0308BM
R761
0,68
R776
120
C735
470uF
(6.3V)
T601
F2085
R766
470
Q1004
2SC2412
D709
DX0045
R733
3K9
D728
DX0551
Q710
2SC2412
D0411 - RH-EX0546BMZZ*
D0420 - RH-EX0546BMZZ*
CODE
5
6
8
3
7
2
C620
2.2nF
(500V)
D602
BY228
.
+165V
R735
3K9
C739
100nF
Q711
2SC2412
R794
47
Q796
2SK2964
TX0227BM
C732
10uF
R738
68
(1/2W)
TP701
D0403 - RH-EX0549BMZZ*
REF.
D612
DX0577
1N4935
C602
4.7nF
(1.6Kv)
FZ0227BM
L610
560K
P0311BM
17
D605
1N5819
DX0518
D627
C627
470nF
R621
330
ONLY 28"
D616
EX0545BM
R743
120K
(1%)
(TQ)
R795
56
R737
3K3
+165V
.
C728
100uF
(200V)
EZ0258CE
DX0629
D706
DX0551
IC702
KA431AZ
IX1674
R742
120K
(1%)
(TQ)
D621
DX0630BM
R616
4.7
IN4148
DX0045
D635
Q602
TX0238BM
2K2
C641
470nF
20
D620
C18
EX0558BM
R620
4K7
Q608
2SA1037
C608 R612
100nF
R608
2K2
Q604
2SC2412
.
R611
22
(TQ)
C736
100nF
C733
470uF
(35V)
-6V
R657
18R
(1/2W)
XZ0215BM
R744
3K9
(1%)
D607
RGP02-16E
DX0634BM
220nF
(FZ)
C603
D604
DX0551
C628
330pF
(2Kv)
FZ0216BM
27nF
330K
.
D722
C740
220pF
DX0518BM
+165V
D705
C5V6
EX0546BM
R717
0
R739
100
33
(TQ)
R780
D740
DX0045
FUS
F704
D721
SUF15J
DX0628BM
D720
SUF15J
DX0628BM
D750
C15
EX0556BM
C722
9
8
R741
R740
220
D748
C6V8
EX0548BM
R610
68
Q603
2SC2412
C630
22nF
(FZ)
IC705
KA431AZ
IX1674
R793
22K
FX0113
IC703
R798
18R
(1/2W)
XZ0215BM
7
1
2
10
9
11
PARTS WITH DIFERENT CODE ( SAME VALUE )
PARTS
PARTS
PARTS
PARTS
D619
DX0551
D618
DX0551
D617
DX0551
D606
DX0551
R792
22K
C1052-VCKZPA1HB332K+
PARTS
C640
470uF
(6.3V)
C609
470uF
(6.3V)
.
-6V
R609
19
3.3
1/2W
XZ0206BM
Q613
2SK2964
TX0227BM
CODE
R603
2R2
(3W)
FB603
LN0037
D624
DX0551BM
C734
47uF
(16V)
D737
DX0045
C725
3n3
(630V)
FZ0217BM
R791
390
C719
100nF
Q605
KSC2500
TX0192
R747
8M2
1/2W
(UA)
L609
3.3uH
P0144
PARTS
D609
1N5819
DX0518
C605
2.2nF
C604
390pF
R602
82
(1/4W)
R601
82
(1/4W)
+5V
C799
3300pF
4KV
KZ0106GE
R746
8M2
(1/2W)
(UA)
Q714
2SC2412
R768
1K
C724
100nF
C705
3n3
(630V)
FZ0217BM
C796
C730
100pF 12 270pF
2KV
(500V)
KZ0031
10
D746
DX0045
R729
22K
D725
C15
EX0419BM
REF.
Q607
2SC2412
C607
22pF
.
+13V
D608
DX0551BM
R732
1K5
Q713
2SA1037
R700
4K7
R718
10
(1/2W)
XZ0212BM
R726
5K6
1%
R722
10K
Q703
D708
TX0237BM
DX0421
D735
C15
EX0419BM
PARTS
R623
2K2
R604
1K
D713
DX0551
C716
6n8
Q724
TX0232
R731
4K7
Q723
TX0232
DX0551
D718
C723
470pF
C718
470pF
R728
100
(TQ)
R651
1K2
(1/2W)
C715
68nF
R787
15R
(1/2W)
XZ0214BM
D736
1N4937
R781
22K
D733
C6V2
EX0547BM
DX0551
R723
3K3
(RA) D732
C717
10nF
(FZ)
D730
C6V2
EX0410BM
4
3
2M2
(TQ)
D743
C18
EX558BM
R773
680K
(TQ)
2K2
R719
R607
1
R779
GND
R778
Vh
2
D744
DX0551
9
5
10
D717
DX0045
R656 2K2
D731
DX0045
R451
22
C402
680nF
(FZ)
R406
75
(TQ)
3
C511
2.2uF
C403
10nF
R435
1K
R450
22
+
-1
.
IC501
C524
100nF
(FZ)
20
19
18
17
16
15
14
13
12
11
L801
1uH
C804
100nF
D403
7V5
EX0412
D421
4V7
EX0544
R549
27K
16
C803
470uF
R548
6K8
C522
100nF
R544
1K
Q404
2SC2412
R550
R551
D404
7V5
EX0549
R405
75
C432
1nF
C225
100nF
C542
4,7nF
R534
27K
R513
180K
R509
39K
+5V
20
35
12
21
11
VI2
V IN
10
V OUT
18
R725
3K3
19
9
16
8
17
VPROT
CR1
FS
Page 37
15
Page 34
70GS-62S
SCHEMATIC DIAGRAM OF MOTHER UNIT (K7315N4).
I
H
G
F
E
D
C
B
A
Page 34
2
1
.
3
270pF
C1032
2n2
C1030
C1004
1uF
C1005
47uF
L1001
1uH
(DF)
+5V
R423
75
(TQ)
X1823BM
.
+5V
Q1003
2SC2412
R1037
4K7
22uH
L319
C1016
100nF
(FZ)
C1015
3.3pF
X1002
20.25
B0219BM
R1004
220
C1008
2n2
C1060
100nF
27
C1014
5pF
C382
100nF
.
ADB17
VSUPADB
GNDADB
ADB16
ADB15
ADB14
ADB13
ADB12
ADB11
ADB10
ADB9
ADB8
ADB7
ADB6
ADB5
VSUPADB
GNDADB
ADB4
ADB3
ADB2
ADB1
ADB0
DB0
DB1
DB2
DB3
VSUPDB
GNDDB
DB4
DB5
DB6
DB7
R1003
27K
R1023
10K
R333
1K
R335
100K
D5
D4
30
29
D0
A0
A1
A2
A3
A4
24
23
22
21
20
19
18
A14
A15
A16
6
5
4
1
2
21
.
+3.3VSTBY
J96
LN-0037CE
A17
A13
7
3
A12
J92 A9
LN-0037CE
J94 A10
LN-0037CE
A11
8
9
10
11
12
C1013
470nF
A6
A7
LN-0037CE
A8
14
13
A5
15
16
17
D2
D1
25
D3
26
27
28
D7
D6
31
C387
100nF
C383
1nF
C385
220nF
1nF
C381
10nF
IC304
C1043
R331
2K7
32
J91
D1003
DX0513
R337
10
(RA)
C1037
10nF
.
-13V
L318
22uH
+5VSTBY
L1003
1uH
(DF)
R330
10
R1036
4K7
(RA)
R329
150
HEADL
L801
1uH
100pF
C223
LEDOPC
+13V
Q1002
2SC2412
R328
150
C380
10nF
1
5
4
3
M5218L
D308
C8V2
C1009
100nF
C384
1nF
Q1008
2SC2412
Q1007
2SA1037
C1011
100nF
C1010
100nF
.
C1041
220uF
(10V)
D307
L303
3.3uH
(DF)
L1004
1uH
JF74
C339
330nF
A18
A16
A15
A12
A7
A6
A5
A4
A3
A2
SST37VF040-90
IX1841BM
VCC
WE
A17
A14
A13
A8
A9
A11
OE
A1
A0
D0
D1
D2
VSS
IC1002
A10
E
D7
D6
D5
D4
D3
C1012
100nF
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
3,3nF
C391
1nF
C1052
R339
220
C8V2
D1008
B3V9
EX0579BM
R1025
220
A17
A14
A13
A8
A9
A11
A10
D7
D6
D5
D4
D3
.
+5VSTBY
J90
LN-0037CE
R336
100K
R334
1K
C338
330nF
R1026
10
560pF
C1038
R1024
330
+3,3VSTBY
22
C386
220nF
1nF
C1044
R332
2K7
R338
220
C390
1nF
16
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
A16
A15
A12
A7
A6
A5
A4
A3
A2
A1
A0
D0
D1
D2
C356
330nF
23
C1031
330uF
(6.3V)
R382
18K
R362
22K
SC1INR
SC1INL
SC2INR
SC2INL
SC3INR
SC3INL
SC4INL
SC4INR
R305
100K
SC1OUTL
SC1OUTR
SC2OUTL
26
R380
18K
R306
100K
R304
100
R313
100K
R311
100K
D303
7V5
EX0549
C318
330nF
R310
100K
C304
10uF
(16V)
C303
10uF
(16V)
R302
100
R381
15K
D302
7V5
EX0549
C367
100nF
R383
15K
C350
100nF
R301
100
L351
3.3uH
(CF)
L316
3.3uH
(CF)
C372
0.47uF
C301
10uF
R303
100
C302
10uF
-16V
C371
1nF
R355
27K
(RA)
-16V
R351
27K
C357
1nF
C362
0.47uF
R312
100K
R350
2K2
+5V
C370
330nF
Q305
2SC2412
SC2OUTR
R384
22K
Q306
2SA1037
R385
1M
D306
DX0551
C320
10uF
(16V)
C319
330nF
C317
330nF
C316
330nF
C364
100nF
C321
100nF
D723
C8V2
EX0550
1
2
3
4
5
6
7
8
9
10
C308
3.3uF
JF4
C309
330uF
(10V)
C379
100nF
1
2
3
4
5
6
7
8
9
10
L315
3.3uH
(CF)
TDA7480
100nF
C373IC302
+16V
D305
7V5
EX0549
C307
100nF
IC301
TDA7480
C378
220uF
(25V)
D304
7V5
EX0549
20
19
18
17
16
15
14
13
12
11
C363
220uF
(25V)
100nF
C358
20
19
18
17
16
15
14
13
12
11
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
C311
10uF
(16V)
C322
NC
NC
AVSS
AVSS
MONO
NC
VREFTOP
SC1_IN_R
SC1_IN_L
ASG1
SC2_IN_R
SC2_IN_L
ASG2
SC3_IN_R
SC3_IN_L
ASG4
SC4_IN_R
SC4_IN_L
NC
AGNDC
AHVSS
AHVSS
NC
NC
C310
100nF
41
C374
4.7nF
C365
220uF
(25V)
+8V
100nF
C368
C359
4.7nF
100nF
C353
C354
100pF
C312
10uF
(16V)
R357
150
C375
560pF
C323
47pF
C1045
100pF
C369
100pF
C366
100nF
R353
150
C360
560pF
R356
10K
R352
12K
C3313
1nF
RH-IX1816BM
MSP3401G
IC303
C376
470nF
(FZ)
X301
B0203
18,432MHz
JF12
L350
3.3uH
(CF)
JF17
R360
100K
R358
100K
(RA)
C352
100nF
C1046
100pF
R359
100K
(RA)
L353
P0312
C361
470nF
(FZ)
L352
P0312
C351
220uF
(25V)
GND
GND
25
1
2
3
4
NC
I2C_CL
I2C_DA
I2S_CL
I2S_WS
I2S_DA_OUT
I2S_DA_IN1
ADR_DA
ADR_WS
ADR_CL
DVSUP
DVSUP
DVSUP
DVSS
DVSS
DVSS
I2S_DA_IN2
NC
NC
NC
RESETQ
NC
NC
DAC_R
24
C329
100nF
1
2
3
C330
330uF
R369
3K3
100
R309
R370
68K
L301
10uH
(DF)
100
+5V
SCL
SDA
I2SCL
I2SWS
6
4
I2SIN
I2SOUT
7
R308
C328
100nF
C306
1nF
R387
100
C377
1uF
DUNTK7315BMV1
5
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
R307
4K7
C305
1nF
C313
47nF
OUT R
GND
GND
OUT L
QPLGN0441CEZZ
(SP)
24
+16V
6
C804
100nF
R801
10K
C1007
47nF
C1006
10uF
VCT3831A
IC1001
FRONT
C224
100pF
C225
100pF
44
LED
43
L302
3.3uH
(DF)
37
D1002
PX0105
38
2
6
7
+12V
8
OUTL
7
-INL
6
GND
4
+INL
5
+INR
3
-INR
2
OUTR
1
R1015
100
33
L1002
1uH
(DF)
XREF
111
AIN3
112
29
R1014
100
50
CIN2
49
CIN1
48
VOUT
47
VSUPAF
46
GNDAF
AOUT2
115
AIN1
114
AIN2
C805
113
3.3uF
42
TEST
SCL
45
SGND
AOUT1
116
VRT
RESQ
117
P10
34
P16
41
P11
118
37
SC1_OUT_L
40
P12
XTAL1
120
XTAL2
121
SDA
119
35
VREF1
39
P13
VSUPS
122
34
SC2_OUT_L
36
GNDP1
GNDS
123
32
ASG3
35
VSUPP1
WE1Q
124
P14
WE2Q
125
P15
OE1Q
126
30
P17
ADB1B
128
26
Z0101BM
65
OE2Q
127
40
CAPL_M
38
AHVSUP
39
CAPL_A
ANA_IN1+
28
J401
69
AVSUP
66
36
SC1_OUT_R
ANA_IN2+
F
TESTEN
70
XTAL_IN
71
AVSUP
67
24
33
SC2_OUT_R
XTAL_OUT
72
TP
73
ANA_IN68
31
NC
36
NC
CR1
DACM_SUB
AFT
NC
OPC
IR
VOUT
NC
RES
AUD_CL_OUT
PROT
AL
74
AFT
75
HEADR
76
STBY
DACM_L
SC4INL
D_CTR_OUT1
25
J
HEADR
HEADL
RES
77
K
27
L
SC4INR
VREF2
FRONT
DAC_L
M
DACM_R
N
D_CTR_OUT0
PROT
5
ADR_SEL
O
4
STANDBYQ
Q
3
80
P
2
78
1
79
R
Page 37
(CN4)
JAKJ0047CEZZ
70GS-62S
SCHEMATIC DIAGRAM OF MOTHER UNIT (K7315N4).
7
MUTE
SDA
SCL
3
C403
10nF
R435
1K
R450
22
D403
7V5
EX0412
4
9
K
6
16
D420
C5V6
EX0409
R407
75
D411
C5V6
EX0409
R408
8K2
Q405
2SC2412
R434
1K
C521
68nF
-13V
.
14
C511
2.2uF
(F)
D426
FB302
LN0037
R318
100
C337
680pF
EX0554BM
C341
1nF
L501
P0271
R514
560
R528
100K
1
H
29
3
H
D425
EX0554
R319
270
C340
680pF
2
R516
1K
4
R518
2R2
(2W)
R547
3K9
39K
R320
100
V
5
V
AV1
7V5
EX0549
R452
22
C404
680nF
(FZ)
D405
CZ2112BM
SCART
AV1
D422
C15
EX0556BM
C512
220nF
D511
1N4148
-13V
.
Q502
TX0201
KSA928A
2K2
R505
D508
DX0551BM
Q503
N06-90L
TX0239
R411
22K
R410
8K2
28
R501
150
2W
R321
270
C33
EX0427
D512
Q507
TX0203
2SB852
C504
680nF
(FZ)
Q505
2SC2412
R553
C534 1.2
1nF
(1/3W)
XZ0101BM
R503
1K
(RA)
C338
1nF
QPLGN0505CEZZ
R502
4K7
R511
150
(TQ)
C508
560pF
FB501
LN0037
C503
100pF
C523
68nF
+5V
R409
22K
C507
4.7nF
C505
100nF
R535
6K8
L401
12uH
30
C510
330nF
12
C506
100nF
13
R510
8K2
10
1
2
3
4
5
6
7
8
9
10
8
TDA7480L
9 AV LINK
IC501
6
20
19
18
17
16
15
14
13
12
11
SERVICIO
11
+5V
4
R526
33K
R OUT
C502
330nF
L IN
C224
100nF
.
+13V
1
1nF
C433
75
R412
R504
20
Page 35
J96
LN-0037CE
R414
1K
R415
75
D410
EX0549
7V5
D409
EX0549
7V5
D408
EX0549
7V5
D407
EX0549
7V5
JF44
JF43
R416
75
R417
75
B
G
R
FB
HFB
R422
220
Q403
TX0232
C801
680nF
(FZ)
R421
82
R420
75
R419
75
SC2INR
SC2INL
R418
75
FI
Digitally signed by Robert Comas
Date: 2001.05.28 10:51:18 +01'00'
Reason: <none>
VERIFICADO
R204
22K
EX0554
D424
R322
100
FB303
LN0037
C343
680pF
C202
100nF
31
R324
100
C204
100uF
(16V)
C207
1n5
R327
100K
R326
100K
C347
2n2
C348
2n2
C203
22nF
L202
12uH
(DF)
Digitally signed by Jose Villarrasa
cn=Jose Villarrasa, ou=Engineering Dept., o=SEES, c=ES
Date: 2001.05.28 10:52:42 +01'00'
Reason: I am approving this document
APROBADO
R325
100
R205
220
Q201
2SA1037
C422
220uF
(10V)
R231
220
+5V
D423
EX0554
R323
100
C344
680pF
R230
22K
R223
33
(1/2W)
1
2
3
4
5
6
7
8
9
10
11
5
4
C201
470nF
(FZ)
MODELO
FECHA
NOMBRE
2
1
C210
JF42
JF10
VIF1
VIF2
OP1
FMPLL
DEEM
AFD
DGND
AUD
TOP
SDA
70GS62S
28-05-2001
Mother Board
D204
EX0546BM
390nF
C219
SCL
SDA
C212
470uF
(10V)
R213
18K
1/2W
C327
5pF
X301
B0203
18,432MHz
3
AGC
R214
18K
1/2W
R202
100
(RA)
C206
10nF
C326
5pF
C325
47pF
R206
5K6
IC202
IX0037
TP201
1
2
3
4
5
6
7
8
9
10
11
12
47pF
JF8
C215
47uF
(16V)
8K2
(TQ)
8K2
(TQ)
JF9
R217
12K
R250
R215
SF201
C0274BM
G1984
R203
100
(RA)
R225
47K
L203
6.8uH
(CF)
.
+165V
C329
100nF
ELECTRONICA ESPANA S.A.
SHARP
A-1
ESCALA
Q K I T P 7 3 1 5 B M N 5
CODIGO
D205
EX0546BM
R220
270 (RA)
C211
10nF
SIF2
SIF1
OP2
AFC
VP
VPLL
AGND
CVBS
VAGC
REF
SCL
SOUT
TDA9885
IX1799BM
TAGC
NC
C214
220pF
3
R219
270 (RA)
C208
10nF
24
23
22
21
20
19
18
17
16
15
14
13
C324
C213
27pF
JF7
SF202
K9356
C0286BM
RTUNH0123BM
TH201A
R207
330
C205
220nF
(FZ)
X201
4MHz
B0201BM
IC201
C322
100nF
C323
47pF
REVISIONES
HASTA INFO 131
04-04-2001
1
FECHA
HASTA INFO 136
HASTA INFO 133
19-04-2001
17-04-2001
3
2
HASTA INFO 137
HASTA INFO 148
HASTA INFO 145
SDA
SCL
AGC
Page 36
19-04-2001
09-05-2001
27-04-2001
C222
100uF
(6,3V)
L301
10uH
(DF)
AGC
4
5
6
R240
82K
C221
330nF
+5V
C330
330uF
(10V)
+5V
N
29
31
30
32
34
33
13
Digitally signed by Adolfo Fernandez
cn=Adolfo Fernandez, ou=CAD GLOBAL NETWORK, o=SHARP, c=ES
Date: 2001.05.28 10:38:28 Z
Reason: This document is ready for approval
REALIZADO
D406
7V5
EX0549
R413
68
R507
560K
R517
1M
D507
C12
EX0417
R506
120
(TQ)
JF50
+25V
V OUT
18
R1023
10K
19
C1016
100nF
(FZ)
16
.
17
C524
100nF
(FZ)
17
FS
15
SS
7
FS
+5V
14
L801
1uH
12
R1026
10
13
C1041
220uF
(10V)
10
.
11
+3.3VSTBY
8
5pF
9 AV LINK
3.3pF
R IN
CR1
5
ALCLOCK
L OUT
2
AV2
21
AL
6
SC1INL
3
SC1OUTL
V IN
SC1INR
15
VI1
R
AL
G
SC2OUTL
SS
7
SC2OUTR
B
SC1OUTR
4
GND
L IN
37
12
5
SI
L OUT
2
SC2IN
3
SC1IN
R IN
11
R OUT
10
1
SDA
SCL
5
VPROT
4
9
2
8
1
C804
100nF
70GS-62S
SCHEMATIC DIAGRAM OF MOTHER UNIT (K7315N4) .
14
R
Q
P
O
N
M
L
K
VOUT
J
70GS-62S
PARTS LISTING
5()1R3$576
REPLACEMENT PARTS
Replacement parts which have special safety characteristics are identified in this manual. Electrical components having such features are identified by ! in the Replacement Part List.
The use of a substitute replacement part which does not have the same
safety characteristics as the factory recommended is not permitted.
Replacement parts not shown in this service manual may create shock
fire, or other hazards.
HOW TO ORDER REPLACEMENT PARTS
To have your order completed promplty and corretly please supply the
following information.
1. MODEL NUMBER
3. PART NO.
5. CODE
2. REF. NO.
4. DESCRIPTION
6. QUANTITY
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1
1.1
3
3
1.2 1.3 1.5 1.6 1.4
1.7
4
PACKING OF THE SET
Pack-ad
SPAKX4053BMZZ
Wrapper
SPAKP2006BMZZ
FRONT
SPAKC5448BMN2
Carton Box
46
70GS-62S
Batteries
UBATU0247AJZZ
Remote Control
RRMCG1071BMSA
Operation Manual Set
Q601, Q602 REPLACEMENT NOTES:
When Q601 or Q602 requires to be replaced, please consider the following steps in order to avoid damaging any part.
1. Gently unclamp clip from side to side using a screwdriver to remove, as shown on Fig.1
2. Check that clip is not deformed when replacing. If deformed press inwards as shown on Fig. 2
Screwdriver
FIG.2
Press inwards
FIG.1
DOCUMENTATION OF SOURCES.
1. TDA 9886, Philips Data Sheet:
TDA9885; TDA9886. I 2C-bus controlled single/multistandard alignement-fee IF-PLL. Preliminary specification. File under Integrated Circuits, IC02. 1999 Dec 14.
2. TDA 7480, ST Microelectronics Data Sheet:
TDA7480. 10W Mono Class D Amplifier. 1/10/1998
3. MSP3411G, Micronas Intermetall Data Sheet
Preliminary data sheet: “MSP 34x1G Multistandard Sound Processor Family with Virtual Dolby Surround”,
Edition Oct. 15, 1999, 6251-511-1PD. First release of preliminary data sheet.
4. VCT 3832, Micronas Intermetall Data Sheet
Advance Information: “VCT 38xxA Video/Controller/Teletext IC Family”, Edition Oct. 17, 2000, 6251-5181AL. First release of the advance information.
47
70GS-62S
No part of this publication may be reproduced,
stored in a retrieval system, or transmitted in any
form or by any means, electronic, mechanical,
photocopying, recording, or otherwise, without
prior written permission of the publisher.
SHARP ELECTRONICA ESPAÑA S.A.
TV Division
Engineering Dept.
Polígono Industrial Can Sant Joan
Sant Cugat del Vallès
Barcelona
Spain
PRINTED BY:
ON:
Think Ecology, please use
RECYCLED PAPER
48