AVLink | CS-20116 | Service manual | AVLink CS-20116 Service manual

28JF-76E
SERVICE MANUAL
SE0028JF76E00
Issued :17th Oct. 2002
GA-200 CHASSIS
PAL B/G, I / SECAM L/L’, B/G, D/K SYSTEM COLOUR TELEVISION
MODEL
28JF-76EES/SE/IT/C
In the interests of user safety (required by safety
regulations in some countries) the set should be restored to its original condition and only parts identical to those specified should be used.
CONTENTS
ELECTRICAL SPECIFICATIONS ................... 3
IMPORTANT SERVICING NOTES ................. 4
CONTROLS & TERMINALS ........................... 5
ADJUSTMENT PROCEDURES ...................... 7
LED FLASHING CODES ............................... 14
PRINTED WIRING BOARDS ........................ 15
COMPONENT LOCATION TABLES ............... 23
CHASSIS LAYOUT ......................................... 30
SCHEMATIC DIAGRAMS ............................... 33
BLOCK DIAGRAM ....................................... 46
TROUBLESHOOTING TABLES ..................... 47
ICs ADDITIONAL INFORMATION .................. 52
PARTS LISTING ............................................. 71
SERVICING NOTES.................................... 81
SOURCE OF DOCUMENTATION .................. 85
SHARP CORPORATION
1
This document has been published to
be used for after sales service only.
28JF-76E
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
28JF-76E
ELECTRICAL SPECIFICATIONS
•Power Input .................... 220V-240 Volts AC 50Hz
•Picture Intermediate frequency
L’ ................................................ 33.9MHz
L, B/G, D/K,I .............................. 38.9MHz
•Sound Carrier Trap
L’ ................................................ 40.4MHz
L, D/K ......................................... 32.4MHz
B/G ............................................ 33.4MHz
I .................................................. 32.9MHz
•Power Consumption
Normal Operation (Method IEC60107) ............ 105W
Stand-by Operation ..........................................1.5W
•Audio Power Output Rating (MPO) / Impedance
Internal Left Speaker ................................. 10W, 7 Ω
Internal Right Speaker ............................... 10W, 7Ω
•Adjacent Sound Carrier Trap
L’ ................................................ 32.4MHz
L, D/K, B/G ................................ 40.4MHz
I .................................................. 40.9MHz
•Adjacent Picture Carrier Trap
L’ ................................................ 41.9MHz
L, D/K, I ...................................... 30.9MHz
B/G ............................................ 31.9MHz
•Speakers
Left / Right ................................................. 12 x 6cm
•Convergence (Maximum Misconvergence)
Static (Centre) between any two colours ... 0.08
Dynamic after static equals zero
Within 10cm (4”) circle ....................... 0.12
10-25cm (4-10” ) circle ...................... 0.20
Everywhere else ................................ 0.28
cm
•Aerial Input Impedance
VHF/UHF ................. 75 ohm Unbalanced
cm
cm
cm
•Tuning Ranges ..... 45.75MHz thru 855.25 MHz
VHF: IR A - J / S1 - S41 CH (Hiperband)
E2 - E12 / F2 - F10
UHF: I21 - I69 CH / E21 - E69
CATV Special Channels
•Focus ....................... High Bi-Potential Electrostatic
•Sweep Deflection ..................................... Magnetic
•White Level
Set brightness control to get total picture tube cathode current of 600 µA under no signal condition.
Maximum necessary correction of each picture tube cathode current to get 8550 degrees K+1 MPCD
or 7250 degrees K-11 MPCD(28JF-76EC) screen temperature should not exceed 15% of its original
value.
X=0.290 ± 0.015
Y=0.300 ± 0.015
X=0.304 ± 0.015
Y=0.306 ± 0.015 (Only for 28JF-76EC)
Specifications are subject to change without prior notice.
MODEL DESTINATION (Operation Manual Languages)
28JF-76E:
Deutsch, Français, Nederlands.
28JF-76EES: Español, Português.
28JF-76ESE: Dansk, English, Norsk, Suomi, Svenska.
28JF-76EIT: Italian.
28JF-76EC: Czech, English, Hungarian, Polish, Romanian, Russian, Slovakian.
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
28JF-76E
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 33 KV, (at a
instantaneous beam current of 1800µA ).
2. Ensure that during normal operation the EHT does not exceed 30KV (at a beam current of 1300µA). 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
28JF-76E
CONTROLS & TERMINALS
HOW TO OPEN THE DOOR
8
Lift the projection at the lower right of the door with
your finger in the direction of the arrow.
Front TV
1. Main power button
2. Power indicator
3. Remote Control sensor
1
Behind the door
1 2 3 4
5
2
6
7
1. Volume Down button
2. Volume UP button
3. Channel Down button
4. Channel Up button
5. S-Video input terminal
6. VIDEO input terminal (PAL/SECAM/NTSC)
7. AUDIO input terminal (left)
8. AUDIO input terminal (right)
9. Headphone jack (3.5mm/ 16 ~ 600 ohms)
Rear TV
21-pin In/Out
1. 21-pin Audio/Video (AV-2)
With PAL/SECAM/NTSC Video Input
2. 21-pin Audio/Video (AV-1)
With PAL/SECAM/NTSC Video Input /
S-Video/ AV Link
3. 21-pin Euro SCART (RGB)
With PAL/SECAM/NTSC Video Input
RF Input
4. Aerial terminal
1
5
2
3
4
3
8
9
28JF-76E
REMOTE CONTROL
1.
19.
2.
20.
TV
1. Stand-by button (TV)
Video
2. Power button (VCR)
TV
3. 0 ~ 9 digit buttons
4. Flash back button
Teletext
5. GREEN button
6. RED button
TV
7. Volume DOWN button
8. MENU button
3.
Teletext
4.
5.
6.
21.
22.
9.
10.
11.
12.
13.
14.
REVEAL button
LIST button
STORE button
CANCEL button
HALF PAGE button
RESET button
Video
15.
16.
17.
18.
Rewind/picture search reverse
Play button
Pause/Still button
Stop button
TV
19. TV/VIDEO button
20. Channel Call button
21. Single/Double entry button
Teletext
22. YELLOW button
23. BLUE button
TV
24.
25.
26.
27.
TV /Teletext
28. CLOCK button
TV
23.
24.
7.
25.
26.
8.
27.
9.
28.
10.
11.
29.
12.
31.
30.
Channel UP button
Volume UP button
Channel DOWN button
Wide mode button
13.
32.
TV
29. Sound mode button
14.
15.
16.
33.
34.
Teletext
30. HOLD button
35.
36.
TV
31. Sound Mute button
Teletext
32. TEXT/MIX/PICTURE button
33. INDEX button
Video
34.
35.
36.
37.
17.
18.
37.
6
Channel UP button (VCR)
Fast forward/picture search forward
Channel DOWN button (VCR)
Record button
28JF-76E
ADJUSTMENT PROCEDURES
All adjustments to this chassis, except for focus and G2, 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 the value of 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.
5. Keeping these buttons pressed, turn the mains on.
6. When the set starts up it will be in Service Mode, then the following
On Screen Display appears:
5
4
Figure 1
RED
GREEN
YELLOW
BLUE
Figure 2
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(1) or Store button(11) on the remote control.
• To exit the Service Mode, turn the receiver off using the Main switch.
Note: In this Service Mode, by using the colour buttons of Remote Control is possible to pass directly to the adjustments
that are indicated inside of each coloured box (see Figure 2), as follows.
Press the RED button to access to Geometry adjustments.
Press the GREEN button to access to NVM adjustments.
Press the YELLOW button to access to Automatic Gain Control adjustments.
Press the BLUE button to access to CUT OFF adjustments.
Adjustment menu:
The following adjustments can be carried out in the Service Mode.
• Horizontal shift
• Horizontal size
• Pin phase
• Pin amplitude
• Upper corner correction
• Lower corner correction
• Extreme corner correction
• Vertical linearity
• Vertical angle
• Vertical bow
• Vertical size
• Vertical S-correction
• Vertical shift
• Cut RED
• Cut GREEN
• Cut BLUE
7
• Hot Cut RED
• NVM PAGE
• Hot Cut GREEN
• NVM POSITION
• Hot Cut BLUE
• NVM VALUE
• Cold Cut RED
• Cold Cut GREEN
• Cold Cut BLUE
• Automatic Gain Control
• Subcarrier adjustment (ONLY PAL)
28JF-76E
The following geometry adjustments can be carried out. Detailed instructions on how to execute these are given on the
following pages:
Horizontal
• Horizontal shift
• Horizontal size
• Pin phase
• Pin amplitude
• Vertical angle
• Vertical bow
• Upper corner correction
• Lower corner correction
• Extreme corner correction
Vertical
• Vertical size
• Vertical S-correction
• Vertical shift
• Vertical linearity
Just in case the TV set requires a full geometry adjustment, please proceed first with Vertical according to the above
order, and after that, adjust Horizontal according to the above order.
Geometry Adjustments
Horizontal Shift
Adjust the Horizontal shift so that the picture is centred.
The effect of this adjustment is shown in Figure 3.
• When the volume up button is pressed, the picture moves to the left.
• When the volume down button is pressed, the picture moves to the right.
• Press the stand-by button on the remote control to store.
Figure 3
Horizontal size
Adjust the Horizontal size so that 8% over-scan is achieved.
The effect of this adjustment is shown in Figure 4.
• 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.
Figure 4
Pin phase
Adjust the Pin phase so that the picture is symmetrical top and bottom.
The effect of this adjustment is shown in Figure 5.
• 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.
Figure 5
Pin amplitude
Adjust the Pin amplitude so that the picture is centred.
The effect of this adjustment is shown in Figure 6.
• When the volume up button is pressed, side pincushion changes
from pincushion to barrel shape.
Figure 6
8
28JF-76E
• 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.
Upper corner correction
Adjust the Upper Corner Correction so that the picture is centred.
The effect of this adjustment is shown in Figure 7.
• 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.
Figure 7
Lower corner correction
Adjust the Lower corner correction so that the picture is centred.
The effect of this adjustment is shown in Figure 8.
• 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.
Figure 8
Extreme corner correction
Adjust the Extreme corner correction so that the picture is centred.
The effect of this adjustment is shown in Figure 9.
• 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.
Figure 9
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 10.
• 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.
Figure 10
Vertical angle
Adjust the Vertical angle so that the picture is centred.
The effect of this adjustment is shown in Figure 11.
• 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.
9
Figure 11
28JF-76E
Vertical bow
Adjust the Vertical bow so that the picture is centred.
The effect of this adjustment is shown in Figure 12.
• When the volume up button is pressed, the vertical bow changes to left.
• When the volume down button is pressed, the vertical bow changes to right.
• Press the stand-by button on the remote control to store.
Figure 12
Vertical size
Adjust the Vertical size so that 8% over-scan is achieved.
The effect of this adjustment is shown in Figure 13.
• When the volume up button is pressed, the vertical size of the picture increases.
• When the volume down button is pressed, the vertical size of the picture decreases.
• Press the stand-by button on the remote control to store.
Figure 13
Vertical S-correction
Adjust the Vertical S-correction so that the picture symmetrical between the top, centre and
bottom. The effect of this adjustment is shown in Figure 14.
• When the volume up button is pressed, the top and bottom scanning decreases and the
centre scanning increases.
• When the volume down button is pressed the top and bottom scanning increases and the
centre scanning decreases.
• Press the stand-by button on the remote control to store.
Figure 14
Vertical Shift
Adjust the Vertical Shift so that the picture is centred.
The effect of this adjustment is shown in Figure 15.
• When the volume up button is pressed, the picture moves up.
• When the volume down button is pressed, the picture moves down.
• Press the stand-by button on the remote control to store.
Figure 15
G2 Adjustment
Follow the procedure below to set the G2:
1. Tune the set to the output of a signal generator (Cross-Hatch pattern).
2. In the user menu, set contrast to 80/100 and brightness to 40/100.
3. Connect the oscilloscope to the RED catode of cathode tube (pin 8 of CRT
socket) and adjust G2 to read 150V on the sensor pulse as in Figure 16.
150 V
CH1 gnd
Note:
Oscilloscope should be adjusted for vertical TV field trigger and synchronized with video signal.
10
Figure 16
28JF-76E
Colour Adjustments
The following adjustments should only be carried out when the CRT or IC850, IC851 and IC852 are replaced.
Follow the procedure below to set the Cut Off.
Do not change the Cut RED value (50%).
1. Adjust G2.
2. Tune a white pattern.
3. Adjust colour to minimum.
4. Position colorimeter in the centre of screen.
5. Adjust brightness and contrast to obtain a luminance of »20 NITS.
6.Operate in Service Mode and select location GREEN CUT OFF and BLUE CUT OFF, to obtain colour
coordinates:
X=0.290 ± 0.015
Y=0.300 ± 0.015
X=0.304 ± 0.015
Y=0.306 ± 0.015 (ONLY FOR 28JF-76E)
To increase press volume-up button and to decrease press volume down button.
BLUE CUT OFF
alter «X» e «Y» coordinates.
GREEN CUT OFF alter «Y» coordinate.
Press the Store button of Remote Control to store all values.
Follow the procedure below to adjust the customer Colour Limit Control (Hot / Cold).
1.
2.
3.
4.
5.
Tune a white pattern.
Adjust colour to minimum.
Position colorimeter in the centre of screen.
Adjust brightness and contrast to obtain a luminance of »20 NITS.
Operate in Service Mode and select location “Hot Cut RED”, “Hot Cut GREEN” and “Hot Cut BLUE” by
channel up/down buttons of the Remote Control.
6. Press volume up/down to adjust “Hot Cut RED”, “Hot Cut GREEN” and “Hot Cut BLUE” to obtain the colour
limit coordinates (X/Y) for HOT picture variation.
7. Select location ”Cold Cut RED”, “Cold Cut GREEN” and “Cold Cut BLUE” by channel up/down buttons of the
Remote Control.
8. Press volume up/down to adjust “Cold Cut RED”, “Cold Cut GREEN” and “Cold Cut BLUE” to obtain the
colour limit coordinates (X/Y) for COLD picture variation.
9. Press the Store button of Remote Control to store all adjustments.
10. Turn off the receiver by Main switch to exit the Service Mode.
Picture Adjustments
Automatic Gain Control Adjustment (B/G, D/K)
To correctly align the Automatic Gain Control, follow the procedure outlined below:
1. Tune the set into a pattern generator on E-12.
2. Enter the Service Mode.
3. Press the YELLOW button of Remote Control to select “Automatic Gain Control”
4. Press volume up/down to adjust to “109 dB/µV”.
5. It will be stored automatically.
6. Turn off the receiver by Main switch to exit the Service Mode.
Automatic Gain Control Adjustment (I)
To correctly align the Automatic Gain Control, follow the procedure outlined below:
1. Tune the set into a pattern generator on I-21.
2. Enter the Service Mode.
3. Press the YELLOW button of Remote Control to select “Automatic Gain Control”
11
28JF-76E
4. Press volume up/down to adjust to “109 dB/µV”.
5. It will be stored automatically.
6. Turn off the receiver by Main switch to exit the Service Mode.
Automatic Gain Control Adjustment (L)
To correctly align the Automatic Gain Control, follow the procedure outlined below:
1. Tune the set into a pattern generator on F-10.
2. Enter the Service Mode.
3. Press the YELLOW button of Remote Control to select “Automatic Gain Control”
4. Press volume up/down to adjust to “103 dB/µV”.
5. It will be stored automatically.
6. Turn off the receiver by Main switch to exit the Service Mode.
Automatic Gain Control Adjustment (L’)
To correctly align the Automatic Gain Control, follow the procedure outlined below:
1. Tune the set into a pattern generator on F-4.
2. Enter the Service Mode.
3. Press the YELLOW button of Remote Control to select “Automatic Gain Control”
4. Press volume up/down to adjust to “109 dB/µV”.
5. It will be stored automatically.
6. Turn off the receiver by Main switch to exit the Service Mode.
Subcarrier adjustment (ONLY PAL)
1. Tune the colour bar signal pattern (Subcarrier PAL).
2. Enter the Service Mode.
3. Press channel up/down buttons of Remote Control to select “Subcarrier adjustment”.
4. Press volume up/down buttons of Remote Control to adjust Subcarrier frequency until “OK” appear on screen.
5. Press Stand-by button of Remote Control to store adjust.
6. Turn off the receiver by Main switch to exit the Service Mode.
Changing NVM Data
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.
NOTE: The values of “Page, Position and Value” start by “0x”. It means that the two next locations are hexadecimal
representations.
The procedure below outlines this process.
1. Enter the Service Mode.
2. Press the GREEN button of Remote Control to access to “NVM / PAGE”, use the volume up/down buttons to
change this data (data is shown in hexadecimal format).
3. Press the channel up button to select “NVM / POSITION”, use the volume up/down buttons to change this data
(data is shown in hexadecimal format).
4. Press the channel up button to select “NVM / VALUE”, use the volume up/down buttons to change this data (data
is shown in hexadecimal format).
5. Once this data has been set, press the stand-by button to store.
6. 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.
12
28JF-76E
Flag NVM write ON/OFF
To use this function to rewrite the NVM. It is only necessary when the software of Flash memory (IC6003) change .
1. Enter the Service Mode.
2. Press the Sound mode button(29) of Remote Control. “FLAG NVM WRITE ON” is activated.
3. To exit the Service Mode, press the volume down and channel up buttons on the front of the receiver at the same
time.
4. When “RE-WRITING NVM” appears on the screen, the receiver is now rewriting datas in NVM memory.
5. When the process finish the TV turns off and turn on automatically.
6. After rewriting NVM is necessary to adjust the TV set (Geometries, AGC, G2 and Colour Adjustments)
Flag Autoinstall ON/OFF
To use this function to activated Autoinstall mode.
1. Enter the Service Mode.
2. Press MENU button of Remote Control to select “FLAG AUTOINSTALL ON”.
3. Turn off the receiver by Main switch.
4. Turn on the receiver by Main switch.
5. Now the receiver shows the Autoinstallation menu as shown in Figure 17.
Figure 17: Auto Installation Menu
Protections Cancel
To cancel the PIN protection, follow the procedure outlined below:
1. Connect a Test Pattern signal to the antenna terminal.
2. Press main switch to OFF.
3. Enter in Service Mode. See procedure on Page 7.
4. When the set starts up it will be in Service Mode. See Figure 2 on Page 7.
5. Press main switch to OFF.
6. The protection has been cancelled.
How To Replace a Damaged NVM by a Blank One
To replace the NVM, follow the procedure outlined below:
1. Change IC6010 by a blank one.
2. Switch on the TV. Basic data is written automatically (Blue back appears when process is finished).
3. Proceed to rewrite NVM described above (Flag NVM write ON/OFF).
4. Proceed Autoinstallation as described above (Flag Autoinstall ON/OFF).
13
28JF-76E
LED FLASHING CODES
This model is not provided with stereo led, so to let “flashing codes” for IC failures detection when the TV set does not
work, we offer the next solution:
• The detection of failure will be made with an external LED.
• The output of the flashing code will be via AV1 (pin 10).
• Insert a generic led diode between pin 10 and ground (i.e. pin 5) as shows the below picture.
20
21
18
19
16
17
14
15
12
13
10
11
8
9
6
7
4
5
2
3
21
1
Follow the sequence according to the below information, 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
2. MSP failure: 66% ON, 33% OFF for three times and OFF for a second.
On
Off
3. SDA 9380 failure: 66% ON, 33% OFF for four times and OFF for a second.
On
Off
4. VSP 9407 failure: 66% ON, 33% OFF for five times and OFF for a second.
On
Off
14
28JF-76E
PRINTED WIRING BOARDS
F7359N2 Digital Module Unit PWB
Component side
8
C6089
+
7
1
2
(RT)
1
4
+
+
41
C6143
5
C6088
97
16
20
3
C6091
64
C6162
IC6002
1
IC6004
54
25
48
50
32
17
IC6006
(B)
C6145
8
21
1
+
C6035
(RS)
65
1
40
IC6011
+
R6122
96
C6041
C6052
8
(K)
R6121
+
C6157
1
1
+
E
C6090
R6124
+
C
R6134
6
C6025
X6002
+
Q6009
X6001
(A)
C6144
80
IC6007
61
C6151
C6037
JL1 1
C6152
1
28
24
IC6003
32
IC6001
JL2 JL3
X6003
26
25
27
33
JL4
C6095
JL5.
+
1
2
128
+
(VI)
3
C6043
1
JL5
C6164
60
+
1
+
4
C6094
1
(YC)
(YA)
1
(YB)
ESPA¥A
F7359BMN2
.
Y
0
2
1
X
4
3
5
6
7
9
8
10
11
13
12
14
16
15
17
F7359N2 Digital Module Unit PWB
Copper side
(YB)
R6021
D6012
L6006
C6153
C6051
C6050
L6004
8
C6140
R6137
C6047
C6046 FB6006
C6041
C6049
C6141
R6138
C6142
4
R6139
C6057
C6058
C6062
C6054
C6059
5
C6148
(VI)
R6132
3
X6003
R6041
C6138
R6102
C6134
C6060
1
C6061
R6099
C6136
R6100
C6137
R6101
C6139
R6103
C6168
C6135
C6124
R6088
C6125
R6089
C6126
R6090
C6127
R6091
C6128
R6092
C6129
R6093
C6130
R6094
C6131
R6095
C6132
R6096
C6133
R6097
R6087
C6122
R6136
R6105
C6121
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6
+
C6052
+
K
FB6002
1
(YC)
2
1
(YA)
.
F7359BMN2
R6134
C6056
C6026
R6020
X6002
L6002
FB6005
JF6023
C6045
R6086
R6040
C6044
C6042
+
FB6004
C6043
+
C6147
C6155
+
C6038
L6003
R6046
C6053
R6133
C6055
C6064
C6063
R6128
C6096
C6158
JF
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C6154
C6037
C6093
C6092
R6062
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C
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R6135
R6042
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Q6009
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C6040
C6097
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R6104
R6140
R6141
R6019
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C6109
R6115
C6110
R6114
C6111
R6113
C6112
R6112
C6113
R6111
C6114
R6110
C6115
R6109
C6116
R6108
C6117
R6107
C6105
R6116
C6118
R6082
JF6004
R6054
JF6003
R6053
R6052
JF6002
C6120
R6084
+
C6094
Q6004
R6085
Q6008
K K
K
C6156
R6038
C6149
L6020
C6028
R6023
L6024
R6039
L6005
C6119
R6106
C6095
C6030
R6063
Q6006
1
C6031
C6167
C6159
C6071
C6070
C6072
C6010
R6061
JF6028
C6029
R6098
C6021
X6001
R6024
C6011
K
R6060
R6008
C6002
C6001
R6051
C6005
R6022
K
R6129
D6010
C6008
JF6001 R6010
Q6003
R6055
R6029
R6026
C6004 C6007
C6015
C6017
C6035
R6031
C6006
JF6005
R6035
C6160
C6036
R6034
R6033
C6157
C6027
C6033
R6036
C6039
D6011
D6014
+
C6146
C6034
R6037
L6001
C6024
C6022
C6020
R6032
D6003 R6009
C6009
R6004
R6017
C6003
C6013
K
D6016 Q6007
L6021
R6005
D6005
K
Q6005
R6013
C6025
R6119
Q6001
R6043
K
D6001
K
R6015
R6014
R6006
1
R6012 Q6002
L6009
JF6034
R6002
L6007
R6056
C6103
C6104
R6117
C6101 C6100
R6016 C6023
D6013 R6125
R6011
C6016
JF6030
JF6031
FB6003
C6106
C6102
R6007
R6130
JF6027+
JF6032
C6166
R6059
R6068
C6083 IC6005
R6070
R6072
R6083
R6079
JF6006
C6077
R6073
R6071
R6069
R6067
R6066
R6080
R6078
R6076
R6074
C6098
FB6001
R6123
C6099
C6065
JF6036
C6073
R6050
8
L6008
C6019
R6065
JF6021
R6127
C6069 C6018
JF6035
R6144
1
2
R6126
C6067
C6066
R6048
C6068
C6076
R6057
R6064
R6058
R6077
R6075
(RS)
C6075
C6080
C6107
1
R6120 R6001
C6014
R6081
C6074
C6079
(K)
R6003
L6022
C6123
C6108
C6012
L6023
(RT)
4
C6087
JF6007
C6078
JF6015
R6049
JF6014
R6047
JF6019
C6088
+
1
+
C6084
C6163
C6162
R6131
R6044
R6045
C6161
IC6009
C6082 C6081
IC6010
C6091
+
+
C6085
JF6012
JF6017
JF6013
1
+
C6086
IC6011
3
C6089 IC6008
1
1
R6018
8
C6090
Y
17
16
15
14
13
12
11
10
9
8
15
7
6
5
4
3
2
1
0
X
28JF-76E
F7351N1A Mother Unit PWB. Component side.
D1002
D1001
C701
J4
+
S701
23
E
C
Q706
L701
(OPC)
J5
(RC)
J1
S703
QPW
R1036
4
D1017
(SW1)
1
C1022
3
LP701
(SWRC) M1000
1
24
K7351BM
S705
3
S704
S702
1
25
(ST)
J3
22
C703
C706
C799
R774
R770
R730
VR701
D702
21
D703
D701
(AA)
C746
1
J17
D704
C704
J196
1
(G)
2
R747
3
R714
19
R755
C712
18
R746
R798
C798
+
C753
Q701
C702
POR701
PRDAR5531BM
FB703
D746
C734
R711
C707
+
C713
D712
J33
J34
J32
+
C705
R749
C725
R778
R722
D734
C630
1
R657
J93
PRDAR1563BM
C628
L605
J94
J96
(L2)
R21
R609
D609
C639
T601
R666
C617
D607
B
E
5
C624
R603
C609
Q605
3
R668
Q612
E
4
1
C601
6
K
C602
5
D638
PRDARA027WJ
J133
7
J194
4
R441
(MO)
J134
A
(VIB)
1
3
J122
R667
8
4
C636
C626
C
C625
D618
C619
D606
D620
R618
B
FB601
J132
9
2
J121
Q602
1
R612
10
Q601
+
D610
D619
7
C637
J97
C603
PRDARA027WJ
JL1.
R627
D617
5
J84
J58
J59
(F)
L609
6
J82
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J83
D510
J57
J56
R651
R530
COLD
L606
(L5)
7
C627
R606
C620
D612
D613
C621
D605
TP601
R721
D736
+
TP602
R614
C622
C721
+
9
C613
D735
D717
+
C520
C640
+
10
R725
C623
L601
11
R787
R779
J202
+
L602
C717
C710
R718
R728
D737
R758
C709
R723
PRDAR5531BM
J47
+
FB603
+
+
12
C796
J42
Q703
C902
13
Q702
D729
+
C903
R719
PRDAR5531BM
D718
HOT
D752
C738
R756
JF902
D710
D903
R757
D711
R790
C748
+
C711
(M)
15
1
J35
J41
T3.15AH
J203
1
8
1
R799
F701
14
4
C730
T702
2
16
2
3
IC703
3
17
T701
20
21
20
C634
D627
J171
R650
D611
21
4
13
J172
+
2
12
(AV1)
R663
11
Page 17
R1009
20
R215
R660
(L7)
1
5
R617
DIP
(H)
Y
0
X
1
2
3
4
5
6
7
8
9
16
10
11
12
13
14
15
16
17
28JF-76E
F7351N1A Mother Unit PWB. Component side.
A
L302
C362
+
J21
J22
C376
J25
1
+
+
5V
R797
R1045
TP701
D1010
D608
1.8V
J176
R501
L501
J191
J177
J180
J95
J89
J92
J119
J120
J116
J117
J118
J115
J114
J200
R208
R213
R414
R417
R416
J113
R415
J108
6
5
1
C201
SF202
IF1
SF201
CN2
C801
CN1
1
J169
J168
FB303
C303
R413
(VIA)
J167
C304
IF2
33V
J164
R203
5
C204
J163
R223
X201
L202
J161
J162
J160
R302
C309
J157
J156
5
1
C205
C312
R301
J143
J144
J145
J155
FB302
J91
J74
J73
J71
J72
J70
J106
J107
J130
J100
R640
J137
J149
J148
C301
+
J136
C318
C316 C317
+
+
2
J166
J147
J159
+
J153
J158
+
J152
C311
+
R303
R304
C308
12
J198
+
J154
J151
(SA)
J131
+
C637
C320
C302
J142
1
J112
7
1
1
+
J140
FB301
Page 16
C330
C319
J139
(CR)
8
J110
J126
J128
R441
24
J109
X301
J127
9
25
2
J104
J105
+
D637
J103
J129
J141
1
J88
L301
+
J124
J125
+
C417
1
R654
J101
C636
J64
J65
J66
J67
J68
J69
J63
R503
R518
J62
R611
J60
J61
D508
J182
IC501
JF59
C618
24
J181
J102
10
(YA)
+
J87
MOD.DIGITAL
J187
+
J201
J204
R505
+
2
11
R220
R219
DA
CL
J170
AS
L203
C221
2
C215
2
J173
3
D204
D205
1
(AV)
4
R202
B+
+
J85
+
C511
25
J98
J99
R1024
J185
J186
FB501
1
12
L319
J184
J197
J179
666
J79
L318
R509
C526
J205
BLUE
+
20
R555
R214
C535
J55
C524
13
C742
J90
J175
JF60
C752
J80
J81
JF61
Q502
J94
R704
J190
R601
(YB)
3V3
J189
J78
R738
J86
14
8V MSP J188
J76
J77
J53
J48
10
15
IC704
J183
J52
D740
JF23
IC305
J199
D753
F704
R796
R780
C1047
J54
J208
R553
D745
D722
C504
+
J49
J50
16
PRDAR5531BM
R734
J46
J206
J51
J207
C422
D720
R1046
J44
J37
16
J93
17
IC708
C735
+
J28
IC702
R776
J40
+
R795
D728
+
F702
+
J27
J39
C733
+
Q797
C728
+
D754
IC705
J195
18
(SB)
IC202
FB701
PRDAR5531BM
R772
J24
R733
L705
J38
D721
J84
19
J31
+
3V3 STBY
J29
1
20
J30
+
IC706
T701
C729
C720
C737
R717
2
J83
A
CN3
+
R702
C751
QPWBF7351BMN1
+
R747
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R759
C732
21
6
+
D727
D309
C377
J23
C370
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C727
R359
J16
11
C372
+
+
J20
L316
C726
D719
22
C365
L315
J14
L702
J19
J18
C378
IC302
10
+
J11
L351
1
R337
+16V
D798
C799
3
(VS)
(FRONT)
R387
L303
J193
L350
(HD)
J13
C352
1
(S)
L353
C1052
(YC)
C389
20
C363
IC301
C351
+
C388
23
C361
+
R423
24
R358
C1031
D306
4
(FV)
IC304
2
6
(SS)
R355
1
3
(PHONE)
1
1
10
+
7 1
3
L352
C356
8
5
+
PWBF7351BMN1
25
TU
+
(RGB)
AGC
J174
+
16
17
18
19
20
21
22
23
24
25
17
26
27
28
1
+
C222
29
C212
TH201
30
31
Y
32
33
X
28JF-76E
F7351N1A Mother Unit PWB. Copper side.
QWBF7351BMN1
L302
R353
R362
C381
J9
J6
C1052
J8
R330
C390
JF29
C388
C386
J193
D798
C727 C726
L702
J18
D719
J19
+
+
J62
J182
R505
Q505
J60
K
R411
K D410
K
R639
C633
R659
J192
R655
+
J136
K
K D425
K
C337
D438
D430
R440
D421 K
R407
D434
K
R318
R
R428
K
C331
R319 R314
K
D426
D439
C333
D433
C341
R321
J153
R341
C394
K
C342
R306
R305
R438
R427 R437
C336
R43
(CR)
D436
R343
C393
K
D435
D429 K
(VIA)
Q407
K
C334
J166
C433
J137
C314
C315
C316
J173
D422
J151
J152
R316
R310
J155
K
R640
C637
+
C321
J143
C318
J144
J145
R311
+
C308
D406
R412
K D423
FB301
J154
R313
R420
R419 R421
R410
C345
C343
R418
R441
J142
R413
K D409
+
C417
J141
C317
+
C303
J85
J87
R518
J63
JF59
C506
J180
R312
40
D304 K
J140
R304
D432
R325
+
FB303
K D407 K D408
D437
C319
R303
J156
C305
+
R302
R301
J161
J160
J162
R324
C309
R634
Q611
D405
R452
C212
+C310
D305
C629
R633
J126
J128
C338
R320 C340
J130
CN2
JF54
R205
R231
JF28
+
1
D424
+
K
K
K
C346
1
K
+
C207
CN1
K
C344
R323
K
C304
R327
C348
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C307
D723
J158
J159
R322
C221
D431
J105
J108
J107
J106
J111
C347
R326
C392
2
L203
J167
TU
K C302
D303 C311
R641
J125
J139
+
R422
J168
Q403
J174
3
C3313
C312
C395
JF9
AS
J163
C320
D636
+
K
J124
R409
R408
K D411 K D
Page 19
C214
C213
+
4
2
C215
C422
5
J170
Y
R230
+
C204
DA
CL
JF8
D205
JF7
R223
R219
D204
1
L202
6
Q201
12
C206
JF6
C219
R220
C209
IC201
X201
C202 C218
J169
B+
9
8
7
R206
R202
R217
R225
R240
+
D302
K
R211
13 R207
C203
J164
R203
C205
C208
24
C211
IF2
64
R
C
R644
J99
J129
J127
65
R214
D631
C540
J101
X301
IC303
C322
C306
R531
K
D633
K
J98
J103
C326
C301
R210
SF202
R204
JF10
J146
R209
C325
24
C801
J147
J148
J149
R221
JF5
IC202
5
L205
IF1
J181
J102
R654
C324
C328
C313
J131
J198
C323
80
R309
R554
J93
2
+
C330
C210
Q202
GND 3V3 STBY
J94
R307
1
(SA)
R201
J199
R208
R212
R370
R308
R222
(YB)
C329
J104
J110
J113
R416
R415
R417
R414
J115
J200
J114
R213
J118
J117
J116
J120
J119
J112
6
R638
J86
K
R369
K D203
K D202
K D201
R605
1
C327
R656
G
J84
24
R424
12
D
D615
J109
7
MOD.DIGITAL
S
25
2
8
+
Q503
R555
R503
J205
J197
J179
C526
J157
24
C618
R622
Q606
1
JF62
C508
C505
R511
J204 J201
D507 K
C510
+
C507
C534
J88
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25
C1023
3
J187
J89
+5V
+
FB501
J95
+1.8V
J65
J64
J67
J66
J69
J68
J70
J72
J71
J74
J73
J76
R1024
J77
J78
J80
J81
J90
J92
J91
MOD.DIGITAL
(YA)
R510
C503
R504
D511
K
1
C511
J186
Q502
J175
R509
C708
D508
J177
C339
L501
C522
9
R795
10
JF61
JF60
C502
10
J28
F702
R738
R601
IC503
C524
J185
J27
R745
C749
F704
D740
J53
IC501
J184
IC705
R744
J37
150V
J44
+
C535
J55
11
R741
C737
C728
C736
D753
D608
J52
R534
L319
16
R780
J191
R502
C525
R545
R535
R548
D720
R611
J61
R704
1
D745
R516
IC502
+
C742
L318
J79
12
J190
R549 R536
R515 R537
R544 R512
R513
+
C752
R737
J48
J189
13
R739
J49
J50
C504
J176
R501
J188
2
3V3
2
K
J195
R742
J183
IC305
IC704
1.8V
R1044
Q1011
IC70
R740 D748
K
D750
R506
14
D722
JF23
R1047
1
C722
FB302
C741
3
J206
J208
R1051
R1039
R764
R717
J29
R514
J54
R765
D721
K
Q1010
R743
J207
Q1004
R526
C1047 R796
+
R766
+
R553
1
R1046
J46
R1045
D1010
D1011
R734
J51
C743
R1025
2
R1026
S
Q796
S
J40
3
15
R776
R797
IC708
16
G
D
R794
R761
D754
C733
R777
17
G
C740
C739
C735
+
Q710
K
R736
Q709
1
C751
D747
C732
K
Q708
R767
C731
2
Q797
J38
J39
D728
R775
IC702
3
L705
R735
R771
R733
(SB)
R772
IC706
C720 +
C729
J24
J30
J31
18
R702
+
CN3
D727
R759
3V3
STBY
5V
J21
J22
R387
1
JF11
JF4
J25
C1046
C1045
D309
C370
19
4
FB701
R380
C377
20
R747
+
C389
L303
(VS)
J20
+
K
D308
J13
J14
L316
11
R338
R339
K
C406
R384
IC302
20
D307
R423
(YC)
R337
L315
R360
(FV)
C416
(HD)
J15
(SS)
3
C391
R329
C1044
C365
+
J16
J23
C372
C366
IC304
Q306
+
C367
L351
C371
R374
C379
R356
C374
C376
C369
1
1
J7
R436
J11
C352
C378
R334
L350
(FRONT)
R328
C383
R333
+
C368
R385
C373
D306
R355
C351
IC301
R335
C387
Q305
+
20
R357
R359
21
+
C1031
11
C375
22
R350
R332 C385
C354
C364
L353
(S)
C380
R331
J2
C1043
R382
R375
C358
C361
23
C382
R351
+
C363
R352
C350
8
C356
R336
C384
C359
C353
C357
R358
C362
C360
L352
24
J12
25
C222
TH201
33
X
32
31
30
29
28
27
26
25
24
18
23
22
21
20
19
18
17
16
28JF-76E
F7351N1A Mother Unit PWB. Copper side.
R707
R1015
R1032
R1031
(SW1)
24
S702
(SWRC)
(RC)
LP701
+
C706
D704
R770
C701
D701
C746
R730
D702
3
R774
C703
R1099
R1017
J11
22
2
1
D703
C799
23
S701
C
J3
VR701
D1001
(OPC)
R1014
D1002
(ST)
JF56
25
JF153
J1
E
R1055
JF58
R1019 JF55
D1017
C1022
R1013
JF151
J4
J5
Q706
Q1002
Q1003
R1037
S704
S705
M1000
R1042
R1030
R1053
A
S703
1
21
3
4
J17
R747
(AA)
J196
C704
T1
20
T2 Q707
(G)
R788
F701
D707
+
R752
Q704
R753
Q901
JF901
R902
D710
JF902
R756
D711
R790
15
R904
R903
R905
C905
D901
Q902
R757
R901
R906
R907
+
+
D737
D902
R908
R758
14
C901
K
R727
R718
R781
D718
D708
+
C748
13
C902 K C903
Q724
R779
16
1
K
C738
D752
D725
D736
2
+
R778
C718
K
D713
C904
J47
R728
C710
7
R787
R723
R731
R721
17
(M)
D714
R703 R701
K
R726
D732 K
C721
S
R729
K
3
HOT
D729
G
D733
D735
K
C723
R725
C708
Q723
D717
R722
D734
K D731
K D716
R716
R719
Q703
C796
G
Q712
J41
R710
3
1
K
D
J42
S
+
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D
Q702
K D730
C711
C725
400V
IC709
Q720
R786
R782
R715
C755
J35
1
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K
C754
R751
C756
R709
R799
4
IC701
R748
C713
C705
C715
6
R750
D741
G
Q721
R705
C712
R754
R711
D712
R700
18
R785
C716
R768
C724
+
R784
R789
D
C753
POR701
R773
C730
D743
Q713
D715
K
Q701
J36
C719
R732
R708
R712
FB703
K
4
1
R706
J32
S
2
R783
T702
Q714
3
1
R791
R793
C798
J33
R713
D746
J34
R792
IC703
2
19
C714
G
R798
+
C702
R714
R653
L605
D619
D618
10
T601
D635
6
1
D
R608
2
8
J133
5
3
7
4
J132
R610
9
Q602
FB601
Q604
Q608
5
6
JF1016
4
JF1015
C602
JF1014
JF1013
D1020
F7351BMN1
JF1012
JF1011
JF1010
JF1009
JF1008
K
D640
2
12
JF1007
JF1001
R650
JF1004
JF1005
JF1006
13
J171
D611
3
11
R660
JF63
1
R661
R1049
C1049
K
K
R215
D627
C634
R663
A
R1009
D1018
+
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D639
(AV1)
R662
D643
D612
D613
C610
D610
G
A
K
JF24
C613
D620
R616
C608
JF1002
JF1003
J150
C412
R451
7
K
D1019
C432
C620
J97
J121
D638
K
R1010
D404 K
(VIB)
R1050
(AV)
R405
11 K D420
E
R630
D1021
K
R453
D403
K
R407
408
C612
R629
J134
J165
D427
R425
D606
C601
D402
K
C403
D609
Q603
K
K
8
R612
R620
(MO)
R426
R406
C603
R618
J194
Q614
R664
Q406
C622
+
Q605
J96
S
41
R438
B
R626
D642
+
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R439
Q601
R631
D623
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C604
D617
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K
R667
K
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K
9
D
C605
D604
R668
D641
R628
D622
K
K
R659
J192
C639
R627
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R651
R606
J56
J57
C607
L609
D607
C624
C617
K
10
K
R614
C541
G Q613
D644
C641
L606
S
R666
C635
R632
R637
R440
C628
11
R530
R670
R609
IC601
R639
R635
C632
1 K
D624
C631
214
R669
Q607
D616
D625
K
R760
C606
K
L601
R645
R623
R643
(F)
+
R658
K
31
Page 18
R657
2
54
C609
+
1
C630
J83
J82
J58
J59
C627
05
7
D510
R621
R604
G
J84
C623
25V
C640
K
638
L602
13V
J202
COLD
K D634
C520
J203
D512
S
12
FB603
+
503
R617
(H)
.
Y
17
16
15
14
13
12
11
10
9
19
8
7
6
5
4
3
2
1
0
X
28JF-76E
F7269N3 CRT Unit PWB
Component side
D5410
C877
R856
B
R876
C895
X
1
2
3
4
7
C5424
B
Q5407
R5415
(SVM)
C5421
R5421
C5419
D5403
R5416
J11
C5422
R5445
R5444
E
Q5406
C
R5427
R5435
R5432
J16
C1614
1
R1621
J20
C1609
R1623
E C
C
1
C5425
(MO)
C1613
Q1603
8
20
9
R1622
E
10
11
12
JF8
E
C
Q1604
1
13
Q5410
(B)
.
F7269BMN3
K7269BM
Q5412
C5416
R5433
R1624
C5405
R1615
C1612
B
C1611
E
E C
R5447
R1616
IC1601
R5434
D5408
R1617
Q5411
D1607 C
J25
R1618
R5431
E
E
C5407
C890
R871
C1610
C1608
R5449
R5448
J5
6
R5419
C5411
D5409
L2
J15
5
D5405
R891
R1620
R1619
ESPA¥A
0
E
R889
R851
C883
C882
C869
SG862
21
1
(Q)
Y
1
C5409
R5442
+
+
Q851
R892
C5426
E
D852
+
J13
C874
J9
R887
R852
C884
R884
1
SG860
(RT)
FB852
R853
R859
D851
9
IC852
R5418
C
Q5405
+
C853
D863
D867
1
2
R894
R5424
3
R5443
D871
Q861
C852
SG863
R5446
B Q5408
R5417
C5408
L864
11
R886
JF7
J10
C
C856
SC861
9
Q5415
C857
J17
C
C
R881
E
R897
E
R5437
01
C885
C893
R885
E
C865
Q860
R882
R874
Q859
D864
+
E
J14
C5418
C850
J21
5
7
D865
R865
4
3
C880
R866
JF4
JF6
R5441 D870
C894
6
8
L1603
R872
C871
R862
JF1
(G2)
R888
9
R880
R5440
5
IC850
J1
J8
C887
J18
1
SG865
4
D861
J4
6
R861
D866
J6
D868
C881
R850
R858
C861
8
R895
Q858
Q855
R855
J7
R1801
D869
R854
(K)
7
C5417
R5436
SG861
SG864
B
E
+
R863
J3
J12
FB850
C888
C851
Q852
C
R860
+
C
C
JF5
R893
L3
+
8
E
C868
+
E
C863
+
Q853
E
D862
J23
+
C854
R857
E
C
Q854
Q5414
+
C891
D5411
J19
+
JF2
1
C
JF3
R5438
+
+
10
1
E
E
L863
Q857
C
C5414
C5410
9
C5420
D5404
IC851
C
9
R5425
FB851
J24
11
(H)
R883
R875
R5420
R873
C862
R868
R870
R867
R5439
C892
R869
C855
R864
C889
Q856
E
+
12
+
C859
13
14
15
16
17
28JF-76E
F7269N3 CRT Unit PWB
Copper side
13
E
E
(B)
Q1604
E
15
14
13
+
C
Q1603
F7269BMN3
12
(MO)
C889
C874
+
Q858
C859
R869
R867
R870
R873
J6
Q853
R855
Q855
D869
FB850
C861
J7
R860
R863
D868
C881
(K)
R895
R861
J13
J9
J18
J8
J1
C871
R872
(RT)
C887
+
R5440
C893
Q5415
(Q)
1
C5425
1
IC852
C884
R884
R876
J15
J5
J17
9
C5426
Q859
Q860
R874
R882
Q861
R885
J10
JF7
R866
D867
R886
R852
C885
FB852
R1620
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D863
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B
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3
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C1613
C
C
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SG862
R1623
4
E
C
C
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1
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C856
R5447
R5431
R1615
C1611
R1624
C1609
JF4
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E
R853
R859
D851
C5416
R1618
R1616
R862
R865
D864
R856
J25
R897
C877
E
Q5412
J14
R894
C1610
R1617
C
Q5411
C1608
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C
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D5409
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R5435
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6
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R5443
R5444
7
R1801
8
9
L864
R5445
7
C865
R881
4
R5416
R5417
R5418
R5419
D5403
C5422
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6
5
16
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C5411
17
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R889
SG860
8
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1
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C
C
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9
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E
E
R850
R5437
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R891
SG864
R5441
10
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C850
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11
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12
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C
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C
C883
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B
D5405
1
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D862
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1
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9
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R5415
C5417
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FB851
J24
E
R5424
3
R868
C5410
D5410
R5420
D5404
C5414
C5420
IC851
C5424
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R875
R864
C862
R883
C855
R5439
C892
(H)
R5425
B
Q851
.
E
C853
D852
Y
11
10
9
8
21
7
6
5
4
3
2
1
0
X
28JF-76E
22
22
21
21
20
20
Copper side
23
3
2
1
23
CAUTION !
(M)
T3.15AH
CAUTION !
S6701
F6701
S6701
F6701
CAUTION
24
(M)
THE ACTIVE SECTION
IS INDICATED WITH
THE "
" SYMBOL
24
1
25
2
25
3
Component side
FB452N0 POWER SWITCH Unit PWB
HOT
19
18
18
17
17
16
16
15
15
14
14
13
13
12
12
R6702
R6701
R6702
3
2
1
L6701
4
R6701
4
C6746
1
3
M6702
L6701
2
M6702
LP6701
19
HOT
LP6701
C6701
C6701
C6746
S6704
(AA)
(SWRC)
3
1
4
VOL(-)
C6704
C6707
+
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R6706
S6703
2
R6703
R6705
1
9
8
8
7
7
R6705
R6703
1
(A)
R6704
9
S6703
10
R6704
1
10
1
11
2
11
C6703
(SWRC)
C6703
4
VOL(+)
C6707
(A)
S6702
C6702
S6702
C6702
S6706
C6706
CH(UP)
CH(DOWN)
S6704
C6704
+
C6706
S6706
(YC)
(CC)
D6401
D6401
R6449
R6449
JF6703
6
5
5
4
4
JF6703
(HD)
FB452WJN0
C6428
C6336
6
2 4
L6317
C6337
R6316
35
R6317
7 1
KB452WJ
B
ESPA¥A
(SS)
C6429
JF6701
L6318
4
3
2
0
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5
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1
1
R6316
1
L6317
1
6
C6337
R6317
B
7
C6428
2
C6429
2
COLD
3
(HD)
3
3
L6318
FB452BMN0
8
(SS)
COLD (YC)
JF6702
JF6701
X
9
JF6702
(FV)
6
X
0
Y
Y
22
1
2
3
4
5
6
7
8
9
28JF-76E
COMPONENT LOCATION TABLES
F7359N2 Digital Module Unit PWB
Component side
Copper side
9
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93726
71374
61214
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112268
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10414
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28956
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97028
44958
74930
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31242
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R5433
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R5435
R5436
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151384
150114
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120650
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35560
20320
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(M)
30
T601
TP602
R614
TP601
T3.15AH
F701
C753
S701
LP701
C701
(L2)
S703
L701
CH (DOWN)
C713
Q602
(G)
C746
S704
VOL (+)
Q703
VR701
S705
VOL (-)
(H)
D638
Q601
Q701
R730
M1000
L605
Q702
T702
D1001
(AV1)
S702
1
+
(AV)
Q612
(F)
7
D1002
4
3
R746
C799
R747
MODULO_DIGITAL
1
T701
2
(CR)
10
16
D720
TP701
+
(RGB)
(VIA)
C728
X301
(YB)
IC303
IC501
IC503
IC502
L501
C733
+
IC706
(PHONE)
IC304
Q797
X201
IC201
SF202
IC704
IC301
IC302
SF201
CH (UP)
(YA)
TH201
IC708
(S)
28JF-76E
PWB A- Mother Unit, F7351N1
CHASSIS LAYOUT
28JF-76E
PWB B- CRT Socket Unit, F7269N3
(H)
IC851
Q5407
C
(SVM)
(K)
Q5408
(G2)
IC850
L864
(RT)
L2
IC852
IC1601
(MO)
(B)
(Q)
PWB C- Digital Module Unit, F7359N2
IC6010
1
X6002
1
64
8
(K)
49
(RT)
48
96
IC6006
1
2
1
4
(RS)
1
8
1
64
33
17
40
8
4
65
97
16
(VI)
5
54
48
IC6002
32
41
25
IC6003
21
20
IC6007
IC6001
1
60
61
80
X6001
1
128
33
1
32
(YC)
3
1
X6003
(YA)
(YB)
31
27
28
1
24
2 4
6
(HD)
KB452WJ
FB452WJN0
35
B
ESPA¥A
(SS)
COLD (YC)
1
S6702
CH(DOWN)
1
2
(A)
VOL(+)
4
(SWRC)
VOL(-)
M6702
HOT
LP6701
C6701
S6701
CAUTION
(M)
3
2
1
THE ACTIVE SECTION
IS INDICATED WITH
THE "
" SYMBOL
CAUTION !
F6701
32
T3.15AH
7 1
CH(UP)
28JF-76E
PWB D- Power Switch Unit, FB452N0
S6704
S6703
S6706
28JF-76E
SCHEMATIC DIAGRAMS
Description:
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 µF, unless otherwise noted
(P= µµF).
IMPORTANT SAFETY NOTE:
SERVICE PRECAUTION:
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.
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.
CAUTION
This circuit diagram is original one, therefore
there may be slight difference from yours.
Waveform Measurement Condition
1. Test Equipment: Digital Oscilloscope; Colour TV Pattern Generator
2. Test Conditions: CH-12; Colour Bars; 70dB/µV From RF Input
3. TV Condition: Picture and Audio : Settings à Factory Presets ( Only in Audio Measures: Max. Volume With
Unplugged Speakers)
Waveforms
1
Red In
2
Green In
3
33
Blue In
28JF-76E
4
Red Output
5
Green Output
6
Blue Output
9
E-W Output
7
Video Output
8
+12V
10
V Switch
11
V Control St-By
12
Vp
13
Vertical Input
14
E-W Control 2
15
Inner Correction
16
Vertical+Input
17
VH (1.2kV)
34
18
H Control
28JF-76E
19
Vb (Horizontal)
20
Vc (Horizontal)
21
Headphone L Input
22
Headphone R Input
23
Speaker L Input
24
Speaker L Output
25
Speaker R Output
26
Speaker R Input
27
E-W Control 1
28
V Flyback Vertical
29
Vertical Output
30
Vertical - Input
31
IF Video Output
32
H Protection
35
33
V Protection
28JF-76E
34
H Flyback Pulse
37 Power Supply Switch Voltage 1
35
R/C Pulses
38 Power Supply Switch Voltage 2
36 +400V (Power Supply Voltage)
39
I Sense CRT
40
IF Video In
41
Analog Y Out
42
Analog U Out
43
Analog V Out
44
OSD Blanking
45
M2 Data D3
M2 Address A3
47
SCL33
46
48
36
SDA33
28JF-76E
49
SCL at M2 pins
50
SDA at M2 pins
51
SCL
52
SDA
53
M2 video In
54
M2 6 MHz Xtal Input
55
M2 6MHz Xtal Output
56
SDA9380 24.576 MHz
Xtal Input
57
SDA9380 24.576 MHz
Xtal Output
58
VSP9407 20.25 MHz Xtal
Input
59
VSP9407 20.25 MHz Xtal
Output
37
28JF-76E
Schematic Diagram of Digital Module Unit (F7359N2)
RES IN
D10
D12
D2
D4
D11
R6127
0
RxD0
45
R6140
3K3
+3.3VSTBY
L6008
1uH
R6008
4K7
R6011
6K8
D3
SCL2
RES IN
SDA2
V
LEDOPC
LED
OPC
CAG
TxD0
RxD0
I
+2.5VD
+3.3VSTBY
Q6010
BC847B
TX0232BM
BAS85
R6009
220
RO
+3.3VSTBY
+5V
AVLIN
ALCLOCK
R6141
3K3
PROT
STBY
ROUT
SCL1
R6010
27K
D6003
AVLINK
+5V
Q6003
BC847B
TX0232BM
TxD0
Q6007
BC847B
TX0232BM
R6007
220
C6001
R6005
10K
R6004
10K
100nF
MUTE
C6165
8,2nF
D6016
4148
DX0551B M
AVLOUT
+3.3VSTBY
100nF
C6003
100nF
WE
D6013
BAS85
C6002
Q6001
BC847B
TX0232BM
R6013
10K
R6006
1K
+3.3VSTBY
R6083
22
+3.3VSTBY
65
D2
67
66
D12
D10
70
68
VSS33
VDD33
71
73
69
D4
D3
D11
72
75
76
77
78
79
80
81
74
P3.0
RSTIN
P3.1
P3.2
P3.3
P3.4
P3.5
P3.6
P3.7
P3.8
82
83
P3.9
85
84
VSS33
VDD33
87
86
VSS25
VDD25
89
90
88
P3.10
P3.11
P3.12
P3.13
91
92
P3.15
95
93
P5.14
D15
50
WE
LQM
48
UQM
47
RD
44
CSD
CLK
R6001
0087GE
42
C6014
100nF
40
CAS
39
RAS
38
A13
37
A0
36
A1
35
A2
34
A4
JF6027
LQM
WE
CAS
RAS
CSD
A12
A13
A10
A0
A1
A2
A3
+3.3VSTBY
A3
46
33
VDD33
D5
D6
D7
R6002
22
43
41
D1
D2
D3
D4
C6083
100nF
CSROM
32
31
30
29
A5
27
28
1
26
D6015
DX0551
R6136
1K2
VSS33
A4
A12
A3
TMODE
A11
P5.3
A10
A2
A6
A1
P5.2
A9
P5.1
25
128
A0
A7
127
.
R6135
470
P5.0
TCK
R6061
10K
C6095
100uF
JF6004
220K
R6056
4K7
L6009
1uH
JF6003
220K
JF6005
220K
JF6001
220K
A12
A11
A10
A5
A6
A9
A7
A16
JF6002
220K
C6017
100nF
A17
E
A18
R6055
4K7
C6016
IR
AVLIN
KEY
C6015
100nF
+3.3VSTBY
C6166
100nF
C6149
100nF
F
+3.3VSTBY
A13
A8
126
A14/RAS
VDDA
24
125
C6072
220nF
AV2
AV3
C6071
220nF
124
C6070
220nF
AV1
VSSA
P4.0/A16
123
A15/CAS
23
122
100nF
VSS33
CVBS1A
51
49
45
VDD33
CVBS1B
22
53
C6010
100nF
VDDA
VDD25
121
VSS25
120
D0
D7
C6013
100nF
46
CLKEN
21
119
C6009
D14
D0
MEMCLK
20
100nF
R6060
470
56
52
CSSDRAM
VSSA
P4.1/A17
118
P4.2/A18
C6008
R6022
75
19
C6094
10uF
Q6006
BC847B
TX0232BM
CVBS OUT
CVBS2
D8
53
RD
IX1861BM
VDDA
D6
57
54
CSROM
18
117
58
55
UDQM
VSSA
P4.3/A19
116
B
P4.4/A20
100nF
SDA6000
G
P4.5/CS3
115
17
L6020
1uH
100nF
+2.5VANA
16
114
C6007
+5V
D1
59
LDQM
VDD33
113
BM
D13
C6012
100nF
60
WR
R
15
GM
G
61
+3.3VS
A18
A17
A7
A6
A5
A4
A3
A2
A1
D9
63
62
D15
IC6001
VDDA
14
112
VSS33
VSSA
VSS33
RM
XTAL2
P2.15
111
VDD33
13
110
100nF
XTAL1
12
C6006
55
C6011
33pF
D7
P2.14
109
R6015
56
D0
VSS33
P2.13
FBM
D14
VDD33
11
108
X6001
6MHz
CORBLA
10
107
P2.12
100nF
D8
9
106
54
RSTOUT
P2.11
C6005
33pF
D6
P2.10
105
C6004
1K5
Q6005
BC847B
TX0232BM
D1
HSYNC
P2.9
1uH
VSS33
VSYNC
8
104
+3.3VSTBY
R6014
VDD33
P6.6
7
L6021
+5V
P6.5
P2.8
103
6
102
H100
5
101
V100
D13
TDO
100
D9
P6.4
D5
64
D5
P6.3
TDI
50
R6017
10K
L6007
1uH
P6.2
4
99
P5.15
96
P6.1
+3.3V
TMS
97
49
98
H
P6.0
Q6002
BC847B
TX0232BM
3
R6012
4K7
D6001
BAS85
R6043
10K
2
R6016
6K8
94
SDA1
+5V
R6126
0
CAS
RAS
A13
A12
A11
A10
A9
A8
JF6006
75
+2.5VD
R6035
27K
1%
+3.3VSTBY
C6036
100nF
+3.3V
+3.3V
C6160
100nF
R6032
270
D6005
C3V3
EX0540BM
C6034
22nF
SENS
R6018
33K
D
C6023
120pF
54
59
60
61
33
BSOIN
IBEAM
34
35
PROTON
VREFH
VBLO
36
37
38
VREFN
39
41
40
DCI
Y/R0
VDDA
42
43
U/G0
45
44
V/B0
VDDD
VSSA
VSSD
VDDA
SSD
64
HSYNC
H38K
PWM
15
14
HD
H35K
13
12
VDDD
VSSD
11
SCL
RESN
FH1_2
10
1
CLKI
SWITCH
30
C6159
100nF
28
27
26
25
24
C6158
100nF
23
22
21
20
19
18
17
VSYNC
63
31
29
R6085
100
16
62
SDA
C6025
47uF
(16V)
FLB
8
C6024
100nF
L6002
3.3uH
+3.3V
C6026
100nF
R6019
100
X6002
24.576MHz
B
R6021
100
10nF
+3.3V
JF6032
C6029
C6157
10uF
(16V)
+3.3V
Q6004
BC847B
TX0232BM
R6029
5K6
R6023
1K
57
D6010
DX0551
C6030
100nF
R6034
68K
56
R6020
100
C6027
15pF
R6031
15K
C6028
15pF
C6031
100nF
C6035
68nF
(63V)
L6024
R6024
220K
4
38
5
6
REALIZAD
NVM
VIDEO_IC
Digitally signed by ADOLFO F
cn=ADOLFO FERNANDEZ, o
Date: 2002.10.15 13:17:51 +0
Reason: This document is rea
7
Page 39
3
SDA2 - SCL2
TO :
VPROT
2
HPROT
TUNER
VERT-
A
FI
MSP
VERT+
BEAM
E/W
RO
HOUT
SCL2
ROUT
SDA2
SDA1 - SCL1
TO :
1
R6026
5K6
R6128
220
VSSA
SVM
9
C6146
100pF
R6129
220
VSSA
VDDA
SUBST
C6147
1uF
D/A
E/W
VSSMC
7
10uH
SVM
VD+
IX1805BM
SCP
6
C
46
BOUT
L6001
VD-
SDA9380B
GOUT
58
+8V
47
ROUT
TEST
57
IC6006
VDDMC
CLEXT
56
B
VDDA
5
55
G
B2
4
R
VSSA
X2
47nF
G2
32
100nF
53
VPROT
X1
47nF
BM
52
C6022
HPROT
R2
3
C6021
HSAFE
FBL2
C6096
51
47nF
R/Y1
FBL1
50
GM
VREFC
49
44
C6020
RM
2
R6119
1K
FBM
G/U1
B/V1
48
C6033
22nF
28JF-76E
Schematic Diagram of Digital Module Unit (F7359N2)
1
2
3
+3.3VSTBY
4
2
1
1
2
3
4
5
6
7
+12V
8
R6123
C6081
I
0
.
+3,3VSTBY
+3.3VSTBY
100nF
D8
100nF
UQM
CLK
CKE
A11
A9
A8
A7
A6
A5
A4
C6066
100nF
JF6007
1
R6144
10K
NC
2
3
4
+3.3VSTBY
WP
S2
SCL
VSS
SDA
2
2
4
5
I
N O
G
C
2
1
3
(YA)
QPLGZ2541CE
+2.5VANA
IX18822BM
4
N O
C I
G
3
C6163
100nF
2
C6162
10uF
(16V)
R6044
2K
1
C6088
470uF
(6.3V)
C6090
10uF
(16V)
51 1
SCL1
R6105
0
SDA1
R6104
0
C6086
100nF
0
FB6002
4
.
+3.3V
R6045
2K
52 2
3
PROT
R6087
5
RES IN
R6088
6
GNDREF1
7
7
MUTE
R6089
6
5
R6131
100
8
9
CAG
R6090
0
RESOUT
R6091
0
ALCLOCK
R6092
0
10
SCL2
SDA2
11
CLK
12
+1.8V
3VSTBY
R6058
100nF
JF6034
13
R6093
0
R6094
0
LEDOPC
R6095
0
14
LED
+3.3VSTBY
+1.8V
15
16
L6005
1uH
L6003
1uH
L6006
10uH
L6004
10uH
C6037
10uF
C6041
470uF
C6052
470uF
17
KEY
R6097
0
35
R6098
0
R6099
0
18
IR
C6043
10uF
19
FB1
FB6004
C6154
100nF
C6155
100nF
C6156
100nF
C6153
100nF
20
21
AR
R6100
0
R6101
0
R6102
0
22
AG
23
AB
58
59
24
V
C6061
22pF
X6003
20.25MHz
B0219BM
C6060
22pF
FI
C6059
100nF
C6058
100nF
.
.
.
.
.
.
.
.
25
.
.
.
.
.
.
.
.
.
.
.
R6143
75
(YC)
GN341
1
R6142
75
61
63
64
62
CVBSO3
CVBSO2
CVBSO1
66
65
VSSAC2
VDDAC2
68
67
VSSD1
VDDAPLL
VDDD1
69
71
72
73
70
XIN
XOUT
VREF
VSSP1
VDDP1
74
75
VDDDACV
NC
77
76
AVOUT
VSSDACV
78
79
GIN2
656IO6
RIN2
656IO5
VSS33RGB
HOUT
VDD33RGB
H50
VSSARGB
3
59
C6057
100nF
58
+3.3VSTBY
4
.
57
FB6003
56
CR1
55
V2
54
V3
5
6
7
V1
53
FI
40
8
9
C6055
100nF
50
49
10
48
48
R6133
0
47
11
SDA2
46
12
C6054
44
SCL2
13
47
100nF
43
42
41
C6053
BEAM
100nF
HPROT
14
R6115
0
R6114
0
R6113
0
15
16
VERT-
17
VERT+
R6112
18
20
100nF
C6045
C6047
100nF
R6109
AV2
C6048
100nF
22
R6107
C6051
47nF
11-10-2002
28JF76E
29JF76E
Page 38
R6106
0
R6084
0
25
AB
10
AR
MODELO
32JF76E
39
C
.
6
SHARP
12
.
.
.
.
.
.
.
.
.
B
.
.
.
.
26-09-2002
Hasta INFO 248
23
5
04-09-2002
Hasta INFO 230
22
4
3
07-08-2002
05-08-2002
Hasta INFO 210
Hasta INFO 204
21
20
ESCALA
2
29-07-2002
Hasta INFO 195
19
A-2
1
26-07-2002
Hasta INFO 194
18
Q P W B F 7 3 5 9 B M N 2
FECHA
ELECTRONICA ESPANA S.A.
11
.
(YB)
QPLGZ2541CE
CODIGO
GA200 DIGITAL
MODULE
FECHA
24
VPROT
AG
9
FB1
V100
NOMBRE
Digitally signed
by Castillo, Fco.
DN: cn=Castillo,
Fco.,
o=Engineering
Dept.,
ou=SEES, c=ES
Date:
2002.10.15
12:56:38 +01'00'
Reason: I am
approving this
document
.
0
AVLINK
ROUT
APROBADO
Albert
Villarras
a
2002.10.
15
12:48:54
+01'00'
Digitally signed by ADOLFO FERNANDEZ
cn=ADOLFO FERNANDEZ, o=LABORATORIO, c=US
Date: 2002.10.15 13:17:51 +01'00'
Reason: This document is ready for approval
8
SCL2
SDA2
H100
HFB
VPROT
VERIFICADO
23
R6082
FB6005
LN-0081GE
REALIZADO
.
0
STBY
C6049
47nF
5K6
C6050
47nF
R6040
100
.
0
AV3
FB6006
LN-0058TA
.
0
21
R6108
C6044
10nF
.
0
AV1
R6039
100
.
0
19
R6110
R6038
100
.
0
HOUT
+3.3V
C6031
100nF
.
45
R6111
C6046
100nF
D
.
100nF
51
HFB
R6029
5K6
.
C6056
52
GIN1
RIN1
FBI2
2
60
40
39
38
VSSAFBI
FBI1
37
36
VSSD4
VDDD4
35
34
33
21
VDDAFBI
BIN1
656IO0
VDDARGB
V50
656IO4
TDI
100nF
C6167
20
NC
V
656IO1
19
VDDAC1
BIN2
32
18
VSSAC1
SCL
31
17
CVBS1
IX1884BM
VDDP2
656IO2
16
VSSP2
VSSD3
15
VSP9407
656IO7
VDDD3
14
CVBS2
656CLK
30
13
CVBS3
NC
29
12
IC6007
TMS
28
11
C6042
100nF
CVBS4
CLKOUT
10
CVBS5
SDA
VSSP3
9
CVBS6
VDDD2
27
8
VSSS2
VDDP3
7
RESET
6
26
5
CVBS7
25
C6040
100nF
FB6001
VDD33C
VSSDACY
1
CVBS OUT
VSS33C
AYOUT
24
4
AUOUT
VSSDACU
80
3
656IO3
2
VOUT
100nF
41
C6039
22nF
VDDDACY
23
C6033
22nF
22
1
VDDDACU
C6038
E
.
2
C6151
100nF
C6152
10nF
42
F
.
3
CVBS OUT
43
C6034
22nF
G
.
C6168
100nF
C6062
100nF
C6064
10nF
.
.
E/W
+3.3V
.
0
+5V.
R6130
100
.
0
8
VCC
S1
75
IC6009
TAR5S25
5
IC6010
M24128
IX1883BM
C6073
8
C6065
D10
D9
R6137
C6085
100nF
+3.3V
C6087
100nF
H
7
100nF
100nF
C6145
100nF
+5V
D15
D12
D11
6
C6019
V3
C6089
10uF
(16V)
C6091
1000uF
(63V)
D6011
C8V2
EX0550BM
C6069
5
D6014
DX0551
R6138
75
+2.5VD
IX1882BM
L6022
1uH
4
R6042
680
D14
D13
75
TAR5S25
Q6009
BC337
R6139
C6144
100nF
IC6008
+3.3VSTBY
3
+8V
IX1880BM
100nF
C6143
100nF
V1
+3.3VSTBY
C6068
100nF
54
53
52
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
V2
R6049
10K
C6161
100nF
VSS
DQ15
VSSQ
DQ14
DQ13
VDDQ
DQ12
DQ11
VSSQ
DQ10
DQ9
VDDQ
DQ8
VSS
RFU
UDQM
CLK
CKE
NC
A11
A9
A8
A7
A6
A5
A4
VSS
3
ROUT
CSROM
A0
D6012
3V3
EX0540BM
VDD
DQ0
VDDQ
DQ1
DQ2
VSSQ
DQ3
DQ4
VDDQ
DQ5
DQ6
VSSQ
DQ7
VDD
LDQM
WE
CAS
RAS
CS
BA0
BA1
A10
A0
A1
A2
A3
VDD
C6164
0
2
C6084
47nF
1
R6063
100K
+3.3VSTBY
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
3
Q6008
BC847B
TX0232BM
C6082
100nF
C6067
C6018
1
JF6019
L6023
1uH
IC6002
CR1
JF6013
1
R6134
10R
(1/2W)
XZ0212BM
HY57V641620HG
IC6011
IX1873BM
RESOUT
D11
D3
D10
D2
D9
D1
D8
D0
RD
+12V
100nF
(VI)
GN0842
MC34164
R6047
47K
.
R
+5V
R6062
100K
B
D15
D7
D14
D6
D13
D5
D12
D4
G
IX1863BM
SVM
MBM29LV160B
A16
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
RES IN
IC6003
A16
BYTE
VSS
DQ15
DQ7
DQ14
DQ6
DQ13
DQ5
DQ12
DQ4
VCC
DQ11
DQ3
DQ10
DQ2
DQ9
DQ1
DQ8
DQ0
OE
VSS
CE
A0
RO
+3.3VSTBY
A15
A14
A13
A12
A11
A10
A9
A8
NC
NC
WE
RESET
NC
NC
RY/BY
A18
A17
A7
A6
A5
A4
A3
A2
A1
GND
100nF
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
SENS
R6126
0
R6083
22
(K)
GN0842
(RT)
GN0242
(RS)
GN0441
R6127
0
13
REVISIONES
N
14
A
2
3
4
40
5
6
C738
56nF
(FZ)
11
R719
470K
(1/2W)
R749
470K
(1/2W)
R727
22K
D752
BR100/03
SX0004BM
D729
1N4937
DX0579
10
220K
R748
R754
10K
D707
DX0551
C710
22nF
R781
100
C716
470nF
CF
Q705
BC847B
TX0232
D714
C6V8
EX0548BM
R752
10K
R723
R726
5K6
(1%)
4K7 1%
R731
D732
DX0551
R725
3K3
R773
1K
C754
100nF
R782
47K
D730
B6V2
EX0584BM
C756
100nF
R789
100K
C703
10nF
250V
KZ0029CE
VR701
VX0035BM
7
D733
B6V2
470pF
C718
D718
DX0045
R788
22K
D701
GPP20J
DX0641BM
IX1556
390K
(TQ)
Q724
BC847B
TX0232
Q723
BC847B
TX0232
C755
1nF
D716
B6V2
EX0584BM
R716
BA10393
IC701
R786
1K8
R784
18K
D717
DX0045
R715
18K
(1%)
C723
470pF
D731
DX0551
R751
100K
3
Q712
BC857B
TX0243
R785
100K
330nF
(275V)
FZ0188BM
C746
C717
10nF
(FZ)
R728
120
R779
100
R778
100
(1/2W)
R721
120
(1/2W)
C721
10nF
(FZ)
330K
(TQ)
(1%)
R710
R729
22K
R722
10K
330K
(TQ)
(1%)
R709
Q721
BC857B
TX0243
D703
GPP20J
DX0641BM
R901
22K
36
R713
10K
D735
C24
EX0561BM
D734
C24
EX0561BM
R799
1
(1/2W)
XZ0200BM
D725
C24
EX0561BM
D708
C24
EX0561BM
37 38
12
C796
100pF
2KV
KZ0031
D711
DX0045
7
C725
4n7
(630V)
FZ0205BM
1
2
5
4
6
T701
NZ0591
C713
68uF
(450V)
EZA036WJ
D712
BYV28-600
DX0618BM
3
1
4
6
T702
Z0586BM
R758
82R
(1/3W)
XZ0123BM
R907
100K
C705
4n7
(630V)
FZ0205BM
C730
270pF
(500V)
C748
220uF
(25V)
R908
C902
47uF
(25V)
Q702
2SK2543
TX0245BM
C798
220pF
(2KV)
KZ0035CE
FB703
LN0091GE
D715
DX0551
Q701
2SK2543
TX0245BM
.
C712
1uF
(160V)
R783
220K
C903
1uF
(50V)
R906
2M2
R905
22K
Q703
2SK2543
TX0245BM
R711
10
R750
22K
Q720
BC847B
TX0232
C707
100uF
(25V)
R714
0.56
(3W)
8K2
R705
R708
390K
(TQ)
JF902
D903
EX0421BM
D901
DX0551
R706
390K
(TQ)
R904
27K
R712
390K
(TQ)
C706
680nF
(400V)
1K
R903
Q902
R902 TX0232
33K
C905
10K
C907
330nF
C906
330nF
C704
10nF
250V
KZ0029CE
D704
GPP20J
DX0641BM
R730
4K7
(15W)
Q901
TX0232
IC709
TLP165J
FX0111
C904
1uF
R756
1K8
9
8
13
10
11
12
14
R759
10
(2W)
F702
J4021CE
R797
1R5
(1/2W)
XZ0202
3.3uH
(CF)
FB701
LN0091GE
R707
1M
D740
1N4935
DX0577BM
D722
MBR340RL
DX0605BM
D753
SF26
DX0643BM
C740
220pF
BYV27/100
DX0621
D719
BYV27/100
DX0621
D798
C741
470nF
(16V)
R796
1
(1/2W)
XZ0200
D1017
B5V1
EX0480BM
(2%)
C731
100nF
(25V)
C733
470 F
LN-0091GEZZ
FB704
D721
SF26
DX0643BM
D720
SF26
DX0643BM
C743
100nF
(25V)
R772
8,2
(2W)
C737
1000uF
(25V)
Q706
BC557C
TX0230
D745
SF26
DX0643BM
C708
100nF
(25V)
L702
.
+5V
.
+12V
.
+16V
IC706
IC704
R1026
470
(1%)
3
2
DX0621BM
D727
BYV27/100
1
IX1846
3
3
LM4931CV33
1
3
PRDAR5531BMFW
IX1878
LM317T
IC708
1
1,1K
(1%)
R1025
PRDAR5531BMFW
IX1846
L4931CV33
8
.
1000uF
(25V)
C732
C728
100uF
(200V)
EZA035WJ
TP701
C727
2200uF
(25V)
C726
2200uF
(25V)
C742
22uF
C752
10uF
(16V )
.
.
.
C720
2200uF
(25V)
.
.
.
.
.
+5.5V
+12V
+150V
-16V
+16V
+3.3Vb
+1.8V
+3.3VSTBY
+5VSTBY
.
VERT+
VERT-
16
2
R548
6K8
R535
6K8
.
4
3
2
1
.
BA4558
R534
27K
R549
27K
R545
100K
5
IC502
6
-VS
7
8
4
+VS
5
6
7
8
.
.
+13V
3
2
1
R515
1K2
+VS
BA4558
-VS
C1022
10uF
(50V)
R1099
100
R544
1K
R513
100K
+13V
R514
560
R526
12K
.
+5VSTBY
R1024
1K
R1017
15K
IC503
-13V
.
4
+5VSTBY
3
JF58
-13V
JF55
R1019
27K
R512
4K7
(1%)
30
VPROT
R1042
1K
(1%)
+3,3VSTBY
1
GN0441
(SWRC)
KEY
R703
2K7
Q704
BC857B
TX0243
R753
2K2
L701
F0108BM
D702
GPP20J
DX0641BM
680
C714
R755
100
(1/2W)
XZ0224BM
Q707
BT134W
SX0003BM
+VS
R701
22K
D741
C4V3
EX0543BM
R790
270
(1/2W)
C701
470nF
(275V)
FZ0219BM
POR701
P0001BM
2
(AA)
GN0360
C702
10nF
(250V)
KZ0029CE
4
A
-VS
5
B
1
C
6
(G)
13
.
-13V
C511
2.2uF
R509
39K
+5V
C510
330nF
(16V)
C536
1000uF
(25V)
EXCEPT 29JF76E
R536
4K7
R537
4K7
.
C525
47nF
.
-13V
.
-13V
C535
10uF
C522
100nF
(25V)
C506
100nF
(25V)
+13V
C524
68nF
(FZ)
20
19
18
17
16
15
14
13
12
11
IC501
IX1786
TDA7480L
Schematic Diagram of Mother Board Unit (F7351N1A)
Page 41
1
JF56
D
7
E
IR
8
F
2
G
1
H
2
I
2
PLGN0207
28JF-76E
Page 42
R669
10
.
HOUT
ABL
14
D644
DX0551
R604
180
1K2
(1/2W)
Q607
BC847B
TX0232
C607
22pF
C632
22nF
R601
56.
(2W)
D636
DX0551
D608
DX0045
C540
3.3 nF
HB
4
-VS
5
BA4558
3
6
1
2
+VS
IC601
C629
68nF
7
8
R635
1M
R633
1K
R641
3K3
R651
R760
3K9
+5V
R623
2K2
18
C606
220nF
(10V)
R605
560
+5V
+13V .
R644
1K8
D633
DX0551
D631
DX0551
C541
330pF
R554
100
C636
100uF
(25V)
R531
820K
R747
8M2
1/2W
(UA)
R746
8M2
(1/2W)
(UA)
.
+13V
R666
15
C799
3300pF
4KV
KZ0106GE
R787
15R
(1/2W)
XZ0214BM
D736
1N4937
DX0579BM
R670
0
R639
330K
C605
2.2nF
HB
C604
390pF
R637
100K
C637
100uF
(25V)
R634
27K
R643
820K
R640
10K
9
D713
DX0551
C635
680pF
R667
15
-13V
C631
2n2
HB
.
Q613
2SK2839
TX0244BM
D609
1N5819
DX0518
Q605
KSC2500
TX0192
R792
22K
14
A
R658
0
27
.
R793
22K
1
(2W)
C640
470uF
(10V)
L609
1.5uH
PA052WJ
R609
C609
470uF
(10V)
R657
10
(1/2W)
XZ0212
C612
680pF
(25V)
R768
1K
19
C641
470nF
(16V)
C610
1nF
HB
R608
2K2
C724
100nF
(25V)
GN0441CE
MO)
D606
DX0045
Q604
BC847B
TX0232
D610
MBR1100RL
DX0590
D605
SB360
DXA011
D607
RGP02-16E
DX0634BM
D618
DX0045
R607
2K2
Q603
BC847B
TX0232
D743
C24V
EX0561BM
D619
DX0045
Q714
BC847B
TX0232
R620
4K7
FB603
VV3ABR22J
C627
56pF
(500v)
R621
560
R638
100K
+5V
R732
1K5
C734
47uF
(16V)
R603
1,2
(3W)
(MF)
D616
DX0551
D637
DX0045
Q611
BC857B
TX0243
DX0551
C715
68nF
R632
680
R791
390
R655
2K7
D625
R798
33R
(1/2W)
XZ0218BM
D746
DX0045
R700
4K7
1
C630
22nF
C628
330pF
(2Kv)
FZ0216BM
D604
DX0551
D617
DX0045
C603
47nF
(FZ)
2
Q608
BC857B
TX0243
Q713
BC857B
TX0243
C709
10uF
3
.
IC705
KA431AZ
IX1674
.
R610
68
C608
100nF
HB
(TV)
R612
2K2
(1/2W)
4
.
-13V
PRDAR1563
Q601
BU2525AX
TX0197BM
D620
C18
EX0421BM
FX0113
T1103G
IC703
C602
6n8
(630V)
FZ0242BM
FB601
LN0091GE
330K
R741
R740
560
(TQ)
D748
C2V4
EX0537BM
R795
56
+12V
Q602
2SK2843
TX0236BM
CRDARA027WJFW
R616
10
D624
DX0551
+13V
C719
100nF
(25V)
D737
DX0045
F704
J4021CE
4
3
R718
10
(1/2W)
XZ0212BM
7
1
2
R723
3K3
D733
B6V2
EX0584BM
9
8
20
(1%)
(TQ)
R742
120K
(1%)
(TQ)
3
8
7
9
L602
3,3uH
(CF)
R737
1K
C623
1000uF
(25V)
+13V
C621
2.2nF
(500V)
R766
47K
L601
3,3uH
(CF)
D612
1N4935
DX0631
G2
L7
F1
F2
10
6
5
12
11
7
13
R611
22
(1/2W)
H.T.
Q709
BC847B
TX0232
D747
4V7
EX0544BM
R765
1K
R764
470
T601
F2089BM
R767
4K7
D613
1N4935
DX0631
R745
33K
C601
12nF
(2Kv)
FZA076WJ
.
C751
1uF
C736
100nF
(25V)
C733
470uF
(35V)
105º
Q708
BC847B
TX0232
R717
100
+150V
+150V
.
R743
120K
D638
BY459
DX0642BM
17
R744
4K7
(1%)
(EB)
C722
27nF
(25V)
R739
1K
D750
C10V
EX0552
C749
1uF
(16V)
(TV)
C740
220pF
R780
22
(1/2W)
D722
MBR340RL
DX0605BM
D740
1N4935
DX0577BM
1
270pF
(500V)
2
C24
EX0561BM
C622
1000uF
(25V)
-13V
C620
2.2nF
(500V)
.
C520
470uF
(35V)
+25V
D510
1N4935
DX0631
GN0441CE
(H)
C634
10uF
(250V)
1
2
+13V
.
D611
1N4936
DX0632
R1009
27K
3
4
R663
2R7
(2W)
R1049
4K7
D1018
DX0551
R645
0
.
TP601
R614
10K
(1/2W)
TP602
R775
15K
+5,5V
+150V
.
C1049
1nF
R776
1K2
C613
470nF
R660
12K
(1/2W)
R733
5K6
(1%)
Q797
2SK2232
TXA003WJ
M0017CE
L2
R735
5K6
(1%)
C739
100nF
(25V)
R736
10K
.
+5,5V
L606
3.3uH
(DF)
+200V
R650
1
(1/2W)
XZ0200
IC702
KA431AZ
IX1674
R1039
3K9
R530
XZ0208BM
4.7
(1/2W)
R617
2R2
1/2W
XZ0204
R1051
0
Q1004
BC847B
TX0232
L7
M0017CE
A
+5.5V
+3.3VSTBY
.
0
R654
100
D1019
4V7
EX0544
JF63
C618
220uF
(16V)
19
18
R426
75
(TQ)
20
21
AV 2
D427
7V5
EX0549
R453
0
Q606
BC847B
TX0232
Q710
BC847B
TX0232
D402
7V5
EX0549
D1020
4V7
EX0544
C729
470uF
(6.3V)
L705
330K
P0177CE
C735
470uF
(6.3V)
R1010
3K3
D615
R622
C22
1K5
EX0560BM
C412
1nF
HB
R794
470
R656
2K2
D728
DX0045
R761
0.68
(TQ)
R777
0.68
(TQ)
.
C717
10nF
(FZ)
.
GND PLUG
470pF
C718
17
16
.
DX0551
+200v
.
GND V IN
R727
22K
GND
.
V IN
D1021
DX0551
.
+5V
15
14
.
56nF
(FZ)
Heater
.
V OUT
DISPLAY
GND
.
N.C.
13
N.C.
R427
6K8
R1050
15K
.
12
N.C.
41
13
12
.
11
R428
27K
HFB
ABL
PROT
.
10
GND
EW
N.C.
9
11
.
10
R3
10
.
8
STBY
N.C.
SC3INL
9
GND
Page 43
N.C.
Page 40
28JF-76E
Schematic Diagram of Mother Board Unit (F7351N1A)
AV3
I
HPROT
H
G
F
E
D
C
B
A
Page 40
24
F
Z)
IX1786
TDA7480L
IC501
1K
.
-13V
R664
C503
100pF
1
2
3
4
5
6
7
8
9
10
R665
10K
R510
8K2
C502
330nF
(16V)
C387
100nF
C47
EX0568 DX0551
D641
R511
150
(TQ)
C508
560pF
(HB)
C382
100nF
R330
10
L319
22uH
(CF)
C383
1nF
C507
4.7nF
(HB)
D642
C505
100nF
(25V)
C526
1000uF
(25V)
R333
1K
R331
2K7
.
+13V
3
1
R328
150
C1044
1nF
R336
100K
R629
470K
L501
P0271
22
C386
220nF
C384
1nF
C619
R503
1K
(1%)
1K
(1%)
R516
-13V
.
D511
DX0551
C381
10nF
10nF
C380
R338
220
C504
220nF
(FZ)
L303
2
29
R553
1.2
(1/3W)
XZ0101BM
C388
330nF
(FZ)
D308
C8V2
EX0550BM
R501
150
2W
R334
1K
R332
2K7
L302
3.3uH
(DF)
3
D512
C33
EX0564
28
D508
DX0045
+25V
D307
C8V2
EX0550BM
C389
330nF
(FZ)
R339
220
R518
1.5
(2W)
1
R505
220
Q503
N06-90L
TX0239
Q505
BC857B
TX0243
Q502
2SA1905Y
2SA1905Y
R555
4R7
(1/2W)
XZ0208BM
C1031
330uF
(6.3V)
D507
C27
EX0562
R506
1K
R504
1K
R362
22K
R384
22K
Q306
BC857B
TX0243
TX0232
Q305
BC847B
JF11
C1045
100pF
JF23
C321
100nF
C309
330uF
(10V)
R738
150
(1/2W)
46
45
44
43
42
41
SC1INR
SC1INL
SC2INR
SC2INL
100K
R313
100K
100K
R312
100K
C319
330nF
C318
330nF
C317
330nF
C320
10uF
(16V)
(FZ)
(FZ)
(FZ)
(FZ)
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
C311
10uF
(16V)
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
IC302
C367
100nF
(25V)
TDA7480
IC301
C350
100nF
(25V)
C312
10uF
(16V)
C303
10uF
(16V)
R303
100
TDA7480
R304
100
NC
C310
100nF
(25V)
D305
7V5
EX0549
C304
10uF
(16V)
R305
100K
R374
15K
48
R345
2K2
R344
2K2
.
+16V
C371
1nF
HB
D723
C8V2
EX0550
18K
R380
C372
0.47uF
20
19
18
17
16
15
14
13
12
11
20
19
18
17
16
15
14
13
12
11
SC4INR
C316
330nF
C370
330nF
(FZ)
26
R355
27K
C373
100nF
(25V)
R375
15K
C358
100nF
(25V)
47
R310
C308
3.3uF
C1046
100pF
C362
0.47uF
C366
100nF
(25V)
C357
1nF
HB
R382
18K
C365
220uF
(25V)
L315
3.3uH
(CF)
C356
330nF
(FZ)
+16V
JF4
23
C352
100nF
(FZ)
SC4INL
R311
R346
1K5
R350
2K2
C307
100nF
(25V)
+5V
R385
1M
D306
DX0045
R351
27K
C351
220uF
(25V)
L350
3.3uH
(CF)
C353
100nF
(25V)
D303
7V5
EX0549
R306
100K
C374
4.7nF
(HB)
100nF
(25V)
C368
C359
4.7nF
(HB)
C378
220uF
(25V)
D304
7V5
EX0549
1
2
3
4
5
6
7
8
9
10
1
2
3
4
5
6
7
8
9
10
C363
220uF
(25V)
RH-IX1854BM
MSP3411G
IC303
D302
7V5
EX0549
C302
10uF
C301
10uF
R302 R301
100
100
C379
100nF
(25V) C369
100pF
C364
100nF C354
(25V) 100pF
C306
1nF
HB
R357
150
C375
560pF
(HB)
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
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
-16V
L352
680K
P0195CE
-16V
100
R308
C328
100nF
(25V)
47nF
C313
L353
680K
P0195CE
3.3uH
(CF)
L316
R353
150
C360
560pF
(HB)
C305
1nF
HB
DAC_R
R356
10K
R352
12K
L351
3.3uH
(CF)
100
R309
R307
4K7
C376
470nF
(FZ)
C377
1uF
R387
100
D309
C22
EX0423BM
C361
470nF
(FZ)
R360
100K
SDA1
SCL1
SCL1
SDA1
PROT
RESINT
MUTE
(S)
(YA)
+5V.
+1.8V.
1
.
.
20
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
.
.
17
16
.
18
25
QSOCZ2561CEZZ
(YB)
.
21
.
.
22
19
.
23
.
24
25
QSOCZ2561CEZZ
2
OUT R
3
4
GN0441CE
GND
GND
OUT L
+3.3Vb .
AGC SMPL
RES
SSC-DATA
EW
LED
35
25
LEDOPC
OPC
KEY
IR
FB
R IN
G IN
B IN
FI
R359
100K
R358
100K
24
6
C626
R630
6K2
Q614
BC847B
TX0232
C534
1nF
HB
R502
4K7
(1%)
2
IC304
M5218L
VHIM5218L
FB501
LN0091GE
21
C385
220nF
R335
100K
R337
10
(RA)
C1043
1nF
.
-13V
L318
22uH
(CF)
R329
150
+12V
8
OUTL
7
-INL
6
+INL
5
GND
4
OUTR
1
+INR
3
-INR
2
+16V
34
SC2_OUT_L
GN341
33
SC2_OUT_R
(SS)
30
GN341
40
CAPL_M
P
31
NC
32
ASG3
39
AHVSUP
P
38
CAPL_A
N1+
36
SC1_OUT_R
N2+
37
SC1_OUT_L
N-
35
VREF1
N
HEADR
IN
RES
OUT
5
CL_OUT
28
J
29
HEADL
NC
SC4INR
DACM_L
SC1OUTL
DACM_SUB
SC1OUTR
R_OUT1
1nF HB
42
C3313
SC4INL
27
K
MUTE
26
M
25
N
SC2OUTL
VREF2
L
SC2OUTR
DAC_L
R
DACM_R
O
4
SEL
Q
3
DBYQ
P
2
R_OUT0
1
Page 43
(HD)
28JF-76E
Schematic Diagram of Mother Board Unit (F7351N1A)
7
PROT
HEADR
HEADL
12
R428
27K
HFB
ABL
PROT
11
10
R314
100
9
8
C334
680pF
(25V)
7
3
6
C625
1nF
(500V)
D436
C12
EX0554
C394
1nF
HB
R341
270
C393
1nF HB
4
GN0441
D439
C12
EX0554
2
FB301
LN0091GE
(25V)
C331
680pF
1
(VIB)
R626
100
CRDARA027WJFW
5
4
R316
100
2
R343
270
1
R451
0
D404
D435
7V5
C12
EX0549
EX0554
C432
1nF
HB
AV3
AV 1
21
19
20
C617
180nF
(400V)
FZ0240BM
C624
150nF
(400V)
FZA073WJ
17
16
D403
7V5
EX0549
18
R406
75
D421
4V7
EX0544
(CR)
GN0241
Q406
BC857B
TX0243
GN1505BM
(F)
15
14
H
R441
10
(1/3W)
2
R407
75
D420
C5V6
EX0546
R437
220
R439
100
C403
10nF
H
1
L605
ZA016WJ
C639
1nF
(500V)
13
3
12
V
5
D411
C5V6
EX0546
R438
470
Q407
BC847B
TX0232
+5V
R440
1K
V
4
11
10
R409
27K
9
R442
1K2
C417
47uF
(10V)
8
SC1INL
6
FB302
LN0091GE
D438
C12
EX0554
D434
C12
EX0554
680pF(25V)
5
4
DISPLAY
3
2
.
1
Albert
Villarras
a
2002.10
.15
12:47:5
4+
01'00'
21
20
R452
0
GN0241
R414
1K
17
APROBADO
19
18
D406
C4V3
EX0543
Q201
BC857B
TX0243
15
14
16
D410
EX0549
C7V5
D409
EX0549
C7V5
D408
EX0549
C7V5
D407
EX0549
C7V5
R230
22K
R417
75
R205
220
R223
10
(1/2W)
R416
75
R231
270
C203
22nF
R415
75
31
220uF
(10V)
C422
R422
220
JF54
R413
68
C204
100uF
(16V)
L202
12uH
(DF)
Q403
BC847B
TX0232
(VIA)
0
R815
D405
C7V5
EX0549
C433
1nF
(HB)
R411
27K
RGB
CZ2107BM
D422
C15
EX0556BM
VERIFICADO
EX0554
D433
C12
C338
Page 41
G IN
Digitally signed
by Castillo, Fco.
DN:
cn=Castillo,
Fco.,
o=Engineering
Dept.,
ou=SEES, c=ES
Date:
2002.10.15
12:54:38 +01'00'
Reason: I am
approving this
document
13
12
R204
22K
C322
100nF
(25V)
NC
NC
AVSS
75
R420
10
MODELO
FECHA
D203
BA591
DX0623
3
R207
150
C202
100nF
(25V)
C323
47pF
7
6
FB303
LN0091GE
28JF76E
D437
C12
EX0554
D202
BA591
DX0623
R211
6K8
5
4
R221
680K
Q202
BC847B
TX0232
R201
100K
R222
220K
D201
BA591
DX0623
C209
100nF
(25V)
R210
100
+5V
C327
5pF
R209
6K8
C0294BM
K9456
SF202
MOTHER
BOARD
15-10-2002
9
8
ANA_IN-
C210
10nF
TESTEN
C201
470nF
(FZ)
XTAL_IN
X201
4MHz
B0201BM
C326
5pF
X301
B0203
18,432MHz
1
24
23
22
21
20
19
18
17
16
15
14
13
AUD
DGND
CVBS
AGND
C208
10nF
R208
22K
+5V
SIF2
SIF1
OP2
AFC
VP
VIF1
VIF2
OP1
FMPLL
DEEM
AFD
TOP
VAGC
VPLL
SDA
REF
SCL
SCL1
SDA1
C222
100uF
(6.3V)
5K6
R206
ELECTRONICA ESPANA S.A.
SHARP
C206
10nF
A-1
ESCALA
A
R220
R219
(CF)
SDA1
Hasta INFO 224
30-08-2002
30-08-2002
REVISIONES
Hasta INFO 249
Hasta INFO 225
26-09-2002
Hasta INFO 258
1
2
3
4
5
6
7
8
9
10
11
Hasta INFO 254
FECHA
TH201A
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
N
89
90
91
92
93
94
AGC
SCL
SDA
+B
VT
IF
RTUNH0145
Hasta INFO 255
C215
330nF
(FZ)
D205
5V6
EX0409
D204
5V6
EX0409
IC202
IX0037
7
02-10-2002
220pF
C214
27pF
C213
JF6
C211
10nF
1K2
R443
(YB)
QSOCZ2561CEZZ
+3.3VSTBY
32
34
33
CVBS OUT
FRONT
VI1'
ABL
HPROT
VERT-
VERT+
HFB
HOUT
AV1
AV2
AV3
STBY
VPROT
SSC-CLOCK
Page 42
02-10-2002
SDA1
SCL1
SCL1
04-10-2002
C212
470uF
(10V)
1/2W
1/2W
L203
6.8uH
R213
18K
R214
18K
1/2W
C221
330nF
(FZ)
3
R215
8K2
JF5
C0278BM
K3953
C218
10nF
R203
100
R202
100
+5V
C219
390pF
HB
R370
3K3
L301
10uH
(DF)
100
R309
SF201
+5V
.
+200V
1
2
3
4
5
6
7
8
9
10
11
12
C330
330uF
(10V)
R369
3K3
100
SOUT
IX1808BM
TDA9886
IC201
C329
100nF
(25V)
1
2
3
TAGC
NC
NC
I2C_CL
I2C_DA
Q P W B F 7 3 5 1 B M N 1
CODIGO
3
2
SC2INR
GA200
NOMBRE
11
82
75
R419
R421
75
R212
22K
R418
C207
1n5
HB
C205
220nF
(FZ)
64
63
62
13
Digitally signed by ADOLFO FERNANDEZ
cn=ADOLFO FERNANDEZ, o=LABORATORIO, c=US
Date: 2002.10.15 13:17:22 +01'00'
Reason: This document is ready for approval
REALIZADO
7
R318
100
R410
6K8
CVBS OUT
FI
+5V
AV1
CZ2112BM
3
D429
C12
EX0554
DISPLAY
R668
390
(1/2W)
CHROMA IN .
0
.
N.C.
.
N.C.
.
N.C.
.
GND
.
SS
.
N.C.
.
L IN
.
GND
.
GND
SOUND
.
L OUT
.
R OUT
DISPLAY
.
R IN
.
GND PLUG
R408
6K8
82K
(1/2W)
.
V IN
C337
Q612
2SK2882
TXA002WJ
.
R321
270
R627
.
V OUT
R320
100
C340
D622
C12
EX0554BM
DISPLAY
HB
1nF
15
.
GND
R319
270
.
C4V7
EX0544BM
.
GND V IN
N.C.
.
N.C.
.
GND
.
N.C.
.
N.C.
.
AV LINK
.
GND
.
SS
.
N.C.
.
L IN
.
GND
C341
1nF HB
GND
SOUND
.
L OUT
.
R IN
680pF
R OUT
DISPLAY
R631
330K
.
D623
.
100nF
(250V)
FZ0198BM
.
GND PLUG
V IN
C619
.
65
AVSUP
66
ANA_IN1+
67
5
2
.
ANA_IN2+
69
4
1
68
C324
47pF
R322
100
71
10uF
.
V OUT RF
GND FS
.
GND V IN
C343
680pF
70
XTAL_OUT
72
TP
73
NC
76
AUD_CL_OUT
74
(25V)
77
C626
.
FS
HB
ADR_SEL
79
NC
75
R325
100
78
Q609
BC847B
TX0232
.
RED
N.C.
.
GND R
.
N.C.
.
GREEN
.
N.C.
R324
100
D_CTR_OUT0
R323
STANDBYQ
80
100
AVSUP
.
GND G
SC3INL
BLUE
SC1OUTL
SS
SC3INR
.
HB
D_CTR_OUT1
R327
100K
5
C325
47pF
SC2INL
.
SC1OUTR
.
SSC-DATA
GND B
AV2
.
SSC-CLOCK
C348
2n2
SC1OUTL
D432
C12
EX0554
SC1OUTR
L IN
FB
GND
SOUND
B IN
.
SSC-CLOCK
.
R326
100K
43
SC2OUTL
L OUT RF
SC1INR
.
SC2OUTR
R IN
12
R OUT RF
R IN
C344
680pF
(25V)
11
C347
2n2
10
D431
C12
EX0554
4
9
1
8
2
R629
470K
28JF-76E
Schematic Diagram of Mother Board Unit (F7351N1A)
14
R
Q
P
O
N
M
L
K
J
5
GND
RT OUT
JF4
0
.
Q1604
BC557
Q1603
BC547
39
C863
10uF
(16V)
+12V
R1623
.100
(1W)
R1622
.470
R1621
.100
(1W)
ONLY 32"
8
GN0341CE
(B)
(K)
GN0841CE
+12V
7
-13V
.
C1613
220uF
(25V)
.
1
R1615
1M
C1611
1nF
R860
220
C1614
10nF
C851
47uF
(16V)
+5V
Q854
BC547
TX0142
2
R861
1K5
+12V
R873
220
+13V
C1612
220uF
(25V)
R1624
.100
+13V
D869
DX0045BM
D868
C5V1
EX0408
R895
3K9
R
SENS
JF5
0
5
B
6
JF7
0
JF6
0
4
G
GND
JF3
0
JF2
0
2
3
GND
JF8
0
2
1
3
.
C1610
100nF
R1616
100K
C1609
10uF
(16V)
R1618
100K
IX1596BM
R863
1K5
B
R
G
R856
68
(1/4W)
D1607
C2V4
EX0400
-13V
6
(RT)
L1603
47uH
(DF)
.
R1620
10K
+12V
R862
1K
R865
3K3
D864
DX0045
C850
330uF
(16V)
L5
M0017CE
R1619
47K
GN0241
R1617
2K2
D851
D852
DX0045 DX0045 C853
1000uF
C852
(16V)
10nF
Q851
2SA1246
A1246
D866
C5V1
EX0408
D867
C5V1
EX0408
D865
C5V1
EX0408
R866
1K5
R853
22K
C865
7pF
C861
5pF
R859
100
+12V
R886
220
IC1601
3
R868
1K5
C862
10pF
+12V
R5436
100
D5411
C13V
EX0418
Q5414
BC635
TX0108BM
C1608
10uF
(16V)
C5418
47uF
(16V)
C887
220uF
(16V)
C5419
10uF
(50V)
R5437
1R0
(1/2W)
+5V
+5V
+5V
+13V
+12V
+12V
+12V
CDAR1532
10nF
C871
CDAR1532
CDAR1532
C874
10nF
C5416
10pF
R5433
100
R5431
1K2
Digitally signed by ADOLFO FERNANDEZ
cn=ADOLFO FERNANDEZ, o=LABORATORIO, c=US
Date: 2002.10.15 13:18:08 +01'00'
Reason: This document is ready for approval
REALIZADO
R5447
22k
C877
10nF
1
SVM IN
1
+VS
8
-VS4
44
7
4
6
3
5
TDA6111Q
IC850
IC851
TDA6111Q
5k6
R872
C881
560pF
TDA6111Q
IC852
9
R5435
220
Q5412
TX0143
BC557
R852
0
VERIFICADO
R5434
1K5
Q5411
TX0142
BC547
R851
0
R884
68K
(2W)
C5405
220nF
R876
5K6
C885
560pF
R5432
33
+12V
R875
5K6
68K
(2W)
R883
C883
560pF
R880
68K
(2W)
R850
0
+12V
Albert
Villarras
a
2002.10
.15
12:49:1
9+
01'00'
C890
22nF
C5407
10nF
B
G
R
APROBADO
R5427
2K2
DX0045
D5409
D5408
DX0045
Q5405
TX0111
PH2369
C884
33nF
(250V)
FB852
LN-0091GEZZ
C882
33nF
(250V)
FB851
0091GEZZ
C880
33nF
(250V)
FB850
0091GEZZ
F
RT IN
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
9
9
1
1
1
1
3
3
2
2
2
2
4
4
3
3
4
4
5
5
5
5
7
7
6
6
6
6
2
7
8
1
7
A
8
B
9
C
8
D
9
E
8
R5443
10
Digitally signed
by Castillo, Fco.
DN: cn=Castillo,
Fco.,
o=Engineering
Dept.,
ou=SEES, c=ES
Date:
2002.10.15
12:57:33 +01'00'
Reason: I am
approving this
document
Q5406
TX0135
BF324
R5444
10
R5442
10
200V
.
.
200V
200V
.
MODELO
FECHA
NOMBRE
D5403
0
R5419
1K
R5418
120K
R5416
120K
R5415
1K
R5417
0
680
(1/2W)
R894
680
(1/2W)
R891
D5410
0
680
(1/2W)
R888
R
28-32JW76E
28-29-32JF76E
11-10-2002
R5421
3.3
(1/4W)
Q5408
C4793
2SC4793
Q5407
A1837
2SA1837
CODIGO
C5421
470nF
C5420
470nF
L864
470K
P0179CE
1
F1
R5425
3K3
(3W)
C868
100uF
(250V)
R5424
1K
(2W)
C5424
68nF
250V
R5446
10
.
200V
.
.
.
GND
+150V
3
2
1
4
3
2
(SVM)
GN0341CE
SVM OUT
(MO)
GN0441
-13V
+13V
GND
Vh
5
+200V
4
1
7
ELECTRONICA ESPANA S.A.
SHARP
8
11
6
10
9
A-3
ESCALA
6
TO 32JW76E
TO 28JW76E
VB66ESF0244*N
CRT
VB76ESF3144*N
1
FECHA
REVISIONES
Hasta INFO 49
Hasta INFO 177
19-07-2002
16-04-2002
Hasta INFO 240
Hasta INFO 166
19-09-2002
16-07-2002
3
2
4
5
TO 29JF76E
VB76ERF042W1E TO 32JF76E
VB66ERF022W1E TO 28JF76E
VB68QC893X1E
H.V.
30KV
F2 ( ONLY 32JF76E )
F1
G2
(H)
GN0541CE
L2
M0017CE
3
2
1
C869
PB3DE472Z
12
14
7
5
11
F2
G2
G1
-13V .+13V
.
C5414
22uF
(160V)
C895
47uF
(250V)
330K
ONLY 29"
JF1
0
KB
6
9
H
KG
8
10
H
QSOCVA009WJEF
KR
TO 32JW76E
QSOCV0103BMZZ
.
CRT
.
SOCKETS
TO 32JF76E
TO 28JW76E 28JF76E 29JF76E
QSOCV0936CEZZ
Q P W B F 7 2 6 9 B M N 3
B 6
R5420
3.3
(1/4W)
G 5
4
SINGLE FOCUS
PLACA T.R.C
GA200
C5422
47nF
R5445
150
C5409
1,2nF
(50V)
C5408
47nF
(400V)
D863
DX0570
330
(1/2W)
R892
D862
DX0570
330
(1/2W)
R889
D861
DX0570
330
(1/2W)
R887
G
5
7
2
1
H
9
I
DOUBLE FOCUS
3
4
N
1
2
28JF-76E
Schematic Diagram of CRT Unit (F7269N3)
3
4
45
L6317
0
(HD)
GN0341
R6316
390
C6336
10nF
CN4
QJACKJ0101SEZZ
3
2
1
R6317
390
1
5
4
3
GND
2
6
7
2
OUT L
1
OUT R
A
C6337
10nF
B
(SS)
GN0341
3
2
C6428
1nF
GND
1
1
2
5
6
3
LUMA IN
D6401
C7V5
RH-EX0412BMZZ
D6402
C7V5
RH-EX0412BMZZ
JF6703
0
Digitally signed by ADOLFO FERNANDEZ
cn=ADOLFO FERNANDEZ, o=LABORATORIO, c=US
Date: 2002.10.15 13:18:40 +01'00'
Reason: This document is ready for approval
REALIZADO
(YC)
GN0341
L6318
3.3uH
(DF)
C6429
1nF
JF6701
0
J6401
QJAKZ0015CE
C
OUT R
VERIFICADO
3
Albert
Villarras
a
2002.10
.15
12:50:1
1+
01'00'
C6707
10uF
(16V)
M6701
CUA004WJZZ
4
APROBADO
(SWRC)
GN0441
GND
Digitally signed
by Castillo, Fco.
DN: cn=Castillo,
Fco.,
o=Engineering
Dept.,
ou=SEES, c=ES
Date:
2002.10.15
12:58:56 +01'00'
Reason: I am
approving this
document
2
3
1
KZ0079
R6704
1K2
KZ0079
S6706
R6703
1K8
CH
S6702
CH
E
CHROMA
IN
GND
D
1
VOL +
VOL -
R6706
2K2
KZ0079
S6704
7
MODELO
FECHA
28-32JW76E
28-32JF76E
11-10-2002
SWITCH A / V
GA200
NOMBRE
R6705
560
KZ0079
S6703
F
2
CODIGO
0
JF5
0
JF4
(A)
GN0260
R6702
120K
1/2W
S6701
P0613BM
ELECTRONICA ESPANA S.A.
SHARP
A-3
ESCALA
Q P W B F B 5 1 5 B M N 0
Q P W B F B 4 5 2 B M N 0
R6701
120K
1/2W
G
+5V
(M)
GN0360
1
FECHA
21-06-2002
26-06-2002
REVISIONES
Hasta INFO 126
Hasta INFO 136
Hasta INFO 196
29-07-2002
3
2
Hasta INFO 202
28-08-2002
Hasta INFO 204
05-08-2002
Hasta INFO 220
FS-C3226
F6701
5
29-08-2002
C6701
330nF
(275V)
4
6
H
KEY
I
RC
LP6701
P0001
N
2
3
4
5
6
7
28JF-76E
Schematic Diagram of Switch A/V Unit (FB452N0)
OUT L
46
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28JF-76E
BLOCK DIAGRAM
28JF-76E
TROUBLESHOOTING TABLES
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*Although the checking of these parts could be right, they may be partially damaged. So if the problem remains proceed
to replace all parts.
xx Test Point
47
28JF-76E
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48
28JF-76E
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* XXJF76E and XXJW76E models don’t have a stereo led. Please refer to “LED FLASHING CODES” (Page 14).
xx Test Point
49
28JF-76E
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50
,
&G=6H=67
28JF-76E
;
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1
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% Note: Once the TV set has been repaired, have in mind to put the TV set in the default situation (undo shortcircuits, specially the applied in Q1004).
51
28JF-76E
ICs ADDITIONAL INFORMATION
TDA9886 (IC201)
Features
1
FEATURES
• 5 V supply voltage
• Gain controlled wide-band Vision Intermediate
Frequency (VIF) amplifier, AC-coupled
• Multistandard true synchronous demodulation with
active carrier regeneration: very linear demodulation,
good intermodulation figures, reduced harmonics, and
excellent pulse response
• SIF-AGC for gain controlled SIF amplifier, single
reference QSS mixer able to operate in high
performance single reference QSS mode and in
intercarrier mode, switchable via I2C-bus
• Gated phase detector for L and L-accent standard
• Fully integrated VIF Voltage Controlled Oscillator
(VCO), alignment-free, frequencies switchable for all
negative and positive modulated standards via I2C-bus
• Digital acquisition help, VIF frequencies of 33.4, 33.9,
38.0, 38.9, 45.75, and 58.75 MHz
• AM demodulator without extra reference circuit
• Alignment-free selective FM-PLL demodulator with high
linearity and low noise
• I2C-bus control for all functions
• I2C-bus transceiver with pin programmable Module
Address (MAD)
• 4 MHz reference frequency input: signal from
Phase-Locked Loop (PLL) tuning system or operating
as crystal oscillator
• Four I2C-bus addresses via MAD.
• VIF Automatic Gain Control (AGC) detector for gain
control, operating as peak sync detector for negative
modulated signals and as a peak white detector for
positive modulated signals
2
• External AGC setting via pin OP1
• Precise fully digital Automatic Frequency Control (AFC)
detector with 4-bit digital-to-analog converter, AFC bits
readable via I2C-bus
GENERAL DESCRIPTION
The TDA9885 is an alignment-free multistandard
(PAL and NTSC) vision and sound IF signal PLL
demodulator for negative modulation only and
FM processing.
• TakeOver Point (TOP) adjustable via I2C-bus or
alternatively with potentiometer
The TDA9886 is an alignment-free multistandard
(PAL, SECAM and NTSC) vision and sound IF signal PLL
demodulator for positive and negative modulation,
including sound AM and FM processing.
• Fully integrated sound carrier trap for 4.5, 5.5, 6.0,
and 6.5 MHz, controlled by FM-PLL oscillator
3
• Sound IF (SIF) input for single reference Quasi Split
Sound (QSS) mode, PLL controlled
4
APPLICATIONS
• TV, VTR, PC and STB applications.
ORDERING INFORMATION
PACKAGE
TYPE NUMBER
NAME
TDA9885T/V3
SO24
TDA9885TS/V3
SSOP24
TDA9885HN/V3
HVQFN32
TDA9886T/V3
TDA9886TS/V3
SO24
SSOP24
DESCRIPTION
plastic small outline package; 24 leads; body width 7.5 mm
VERSION
SOT137-1
plastic shrink small outline package; 24 leads; body width 5.3 mm
SOT340-1
plastic, heatsink very thin quad flat package; no leads; 32 terminals;
body 5 × 5 × 0.85 mm
SOT617-1
plastic small outline package; 24 leads; body width 7.5 mm
SOT137-1
plastic shrink small outline package; 24 leads; body width 5.3 mm
SOT340-1
52
53
23 (26)
SIF1
18 (20)
AGND
20 (22)
VP
SUPPLY
CAGC
(6, 12, 13, 14, 17,
19, 25, 28, 29, 32)
13
n.c.
VPLL
VIF-PLL
RC VCO
19 (21)
OP1
3 (1)
OUTPUT
PORTS
SDA
DGND
7 (5)
SIOMAD
12 (11)
AFC
AUDIO PROCESSING
AND SWITCHES
SOUND TRAPS
4.5 to 6.5 MHz
AFC DETECTOR
21 (23)
FMPLL
4 (2)
MHC108
(4) 6
(3) 5
(7) 8
(18) 17
FM-PLL
filter
NARROW-BAND
FM-PLL DEMODULATOR
sound intercarrier output
and MAD select
10 (9)
Fig.1 Block diagram.
SCL
22 (24) 11 (10)
OP2
TDA9885
TDA9886
DIGITAL VCO CONTROL
15 (16)
REF
external reference signal
or 4 MHz crystal
I 2C-BUS TRANSCEIVER
MAD
SINGLE REFERENCE QSS MIXER
INTERCARRIER MIXER
AND AM DEMODULATOR
SIF AGC
VIF-AGC
(1) Not connected for TDA9885.
Pin numbers for TDA9885HN in parenthesis.
24 (27)
1 (30)
VIF1
SIF2
2 (31)
TUNER AGC
CBL
VAGC (1)
16
VIF-PLL
filter
handbook, full pagewidth
VIF2
14 (15)
CAGC(neg)
TAGC
TOP
9 (8)
CVAGC(pos)
AFD
audio output
CAF
de-emphasis
network
DEEM
AUD
video output: 2 V (p-p)
[1.1 V (p-p) without trap]
CVBS
28JF-76E
TDA9886 (IC201)
Block Diagram
28JF-76E
TDA9886 (IC201)
Pinning
PIN
SYMBOL
DESCRIPTION
TDA9886T
TDA9886TS
TDA9885T
TDA9885TS
TDA9885HN
VIF1
1
1
30
VIF differential input 1
VIF2
2
2
31
VIF differential input 2
n.c.
−
−
32
not connected
OP1
3
3
1
output port 1; open-collector
FMPLL
4
4
2
FM-PLL for loop filter
DEEM
5
5
3
de-emphasis output for capacitor
AFD
6
6
4
AF decoupling input for capacitor
DGND
7
7
5
digital ground
n.c.
−
−
6
not connected
AUD
8
8
7
audio output
TOP
9
9
8
tuner AGC TakeOver Point (TOP) for resistor adjustment
SDA
10
10
9
I2C-bus data input and output
SCL
11
11
10
I2C-bus clock input
SIOMAD
12
12
11
sound intercarrier output and MAD select with resistor
n.c.
−
−
12
not connected
n.c.
13
13
13
not connected
n.c.
−
−
14
not connected
TAGC
14
14
15
tuner AGC output
REF
15
15
16
4 MHz crystal or reference signal input
VAGC
16
−
−
VIF-AGC for capacitor
n.c.
−
16
17
not connected
CVBS
17
17
18
composite video output
n.c.
−
−
19
not connected
AGND
18
18
20
analog ground
VPLL
19
19
21
VIF-PLL for loop filter
VP
20
20
22
supply voltage
AFC
21
21
23
AFC output
OP2
22
22
24
output port 2; open-collector
n.c.
−
−
25
not connected
SIF1
23
23
26
SIF differential input 1 and MAD select with resistor
SIF2
24
24
27
SIF differential input 2 and MAD select with resistor
n.c.
−
−
28
not connected
n.c.
−
−
29
not connected
handbook, halfpage
VIF1 1
24 SIF2
VIF2 2
23 SIF1
OP1 3
22 OP2
FMPLL 4
21 AFC
DEEM 5
AFD 6
20 VP
19 VPLL
DGND 7
TDA9885TS
TDA9886TS 18 AGND
AUD 8
17 CVBS
TOP 9
16 VAGC (1)
SDA 10
15 REF
SCL 11
14 TAGC
SIOMAD 12
13 n.c.
MHC110
(1) Not connected for TDA9885TS.
Fig.3 Pin configuration for SSOP24.
54
28JF-76E
MSP3411G (IC303)
Block Diagram
ADC
Sound IF2
Demodulator
I2S1
Preprocessing
Source Select
Sound IF1
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
DAC
SCART4
MONO
SCART
Output
Select
SCART2
55
28JF-76E
MSP3411G (IC303)
Pinning
SC2_IN_L
ASG
SC2_IN_R
SC3_IN_R
ASG
SC3_IN_L
SC1_IN_L
ASG
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
40
65
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
MSP 34x1G
1
2
3
4
5
6
7
8
9
25
10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
NC
DACA_L
DACA_R
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
DVSUP
56
28JF-76E
TDA7480L (IC501)
10W OUTPUT POWER:
RL = 8Ω/4Ω; THD = 10%
HIGH EFFICIENCY
NO HEATSINK
SPLIT SUPPLY
OVERVOLTAGE PROTECTION
ST-BY AND MUTE FEATURES
SHORT CIRCUIT PROTECTION
THERMAL OVERLOAD PROTECTION
PDIP20 (14+3+3)
DESCRIPTION
The TDA7480L is an audio class-D amplifier assembled in Power DIP package specially designed for high efficiency applications mainly for
TV and Home Stereo sets.
ORDERING NUMBER: TDA7480L
Pinning
-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
D96AU537B
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
57
28JF-76E
TDA6111 (IC850, IC851, IC852)
Block Diagram
supply voltage
input HIGH
handbook, full pagewidth
feedback
output
6
9
7V
MIRROR
MIRROR
FOLLOWERS
cathode
transient
output
7
Vbias
C par
inverting
input
non-inverting
input
8
cathode
DC output
3
1
DIFFERENTIAL
STAGE
TDA6111Q
black current
measurement
output
5
CURRENT
SOURCE
MIRROR
MIRROR
4
2
MGA058
ground
(substrate)
supply voltage
input LOW
Fig.1 Block diagram.
Pinning
SYMBOL
PIN
DESCRIPTION
Vip
1
non-inverting voltage input
VDDL
2
supply voltage LOW
Vin
3
inverting voltage input
GND
4
ground, substrate
Iom
5
black current measurement
output
VDDH
6
supply voltage HIGH
Vcn
7
cathode transient voltage output
Voc
8
cathode DC voltage output
Vfb
9
feedback voltage output
ndbook, halfpage
V ip
1
VDDL
2
Vin
3
GND
4
I om
5
VDDH
6
Vcn
7
Voc
8
Vfb
9
TDA6111Q
MGA057
Fig.2 Pin configuration.
58
28JF-76E
SDA 6000 (IC6001)
Teletext Decoder with Embedded 16-bit Controller
M2
Version 3.00
1.1
CMOS
Features
General
• Level 1.5, 2.5, 3.5 WST Display Compatible
• Fast External Bus Interface for SDRAM (Up to
8 MByte) and ROM or Flash-ROM (Up to 2 x
P-MQFP-128-2
4 MByte)
• Embedded General Purpose 16 Bit CPU (Also used
as TV-System Controller, C16x Compatible)
• Display Generation Based on Pixel Memory
• Program Code also Executable From External
SDRAM
• Embedded Refresh Controller for External SDRAM
• Enhanced Programmable Low Power Modes
• Single 6 MHz Crystal Oscillator
• Multinorm H/V-Display Synchronization in Master or Slave Mode
• Free Programmable Pixel Clock from 10 MHz to 50 MHz
• Pixel Clock Independent from CPU Clock
• 3 × 6 Bits RGB-DACs On-Chip
• Supply Voltage 2.5 and 3.3 V
• P-MQFP-128 Package
Microcontroller Features
•
•
•
•
•
•
16-bit C166-CPU Kernel (C16x Compatible)
60 ns Instruction Cycle Time
2 KBytes Dual Ported IRAM
2 KBytes XRAM On-chip
General Purpose Timer Units (GPT1 and GPT2).
Asynchronous/Synchronous Serial Interface (ASC0) with IrDA Support. Full-duplex
Asynchronous Up To 2 MBaud or Half-duplex Synchronous up to 4.1 MBaud.
Type
Package
SDA 6000 / SDA 6001
P-MQFP-128-2
59
28JF-76E
SDA 6000 (IC6001)
• High-speed Synchronous Serial Interface (SSC). Full- and Half-duplex synchronous
up to 16.5 Mbaud
• 3 Independent, HW-supported Multi Master/Slave I2C Channels at 400 Kbit/s
• 16-Bit Watchdog Timer (WDT)
• Real Time Clock (RTC)
• On Chip Debug Support (OCDS)
• 4-Channel 8-bit A/D Converter
• 42 Multiple Purpose Ports
• 8 External Interrupts
• 33 Interrupt Nodes
Display Features
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
OSD size from 0 to 2046 (0 to 1023) pixels in horizontal (vertical) direction
Frame Buffer Based Display
2 HW Display Layers
Support of Double Page Level 2.5 TTX in 100 Hz Systems
Support of Transparency for both Layers Pixel by Pixel
User Programmable Pixel Frequency from 10.0 MHz to 50 MHz
Up to 65536 Displayable Colors in one Frame
DMA Functionality
Graphic Accelerator Functions (Draw Lines, Draw and Fill Rectangle, etc.)
1, 2, 4 or 8-bit Bitmaps (up to 256 out of 4096 colors)
12 bit/16 bit RGB Mode for Display of up to 65535 Colors
HW-support for Proportional Characters
HW-support for Italic Characters
User Definable Character Fonts
Fast Blanking and Contrast Reduction Output
Double resolution graphic for interlaced sync rasters (SDA6001 only)
Acquisition Features
•
•
•
•
•
•
•
•
•
•
•
Two Independent Data Slicers (One Multistandard Slicer + one WSS-only Slicer)
Parallel Multi-norm Slicing (TTX, VPS, WSS, CC, G+)
Four Different Framing Codes Available
Data Caption only Limited by available Memory
Programmable VBI-buffer
Full Channel Data Slicing Supported
Fully Digital Signal Processing
Noise Measurement and Controlled Noise Compensation
Attenuation Measurement and Compensation
Group Delay Measurement and Compensation
Exact Decoding of Echo Disturbed Signals
60
28JF-76E
SDA 6000 (IC6001)
Block Diagram
CVBS1
CVBS2
Slicer1
ACQ
Data
32
16...21
16
Instr./Data
Data
CPU-Core
C166
AMI
Ι-Cache
Addr.
16
Slicer2
16
Internal
RAM
2 Kbyte
Boot
ROM
16
External
Bus
Interface
16
Interrupt Controller
D-Cache
Data
PEC
16
16
X-BUS
OSC
(6 MHz)
Instr./Data
36 nodes (8 ext.)
XRAM
2 Kbyte
GA
SRU
D-Sync
FIFO
3 x 6 Bit
DAC
4Channel
ADC
7-bit
USART
ASC
6
H
SPI
SSC
T3
GPT2
T5
Port 3
15
OCDS
ΙC
2
RTC
Watchdog
T6
T4
Port 5
3
GPT1
T2
JTAG
Port 2
Port 4
Port 6
8
8
7
4
UEB10716
V
61
XTAL
28JF-76E
SDA 6000 (IC6001)
D10
D12
D2
VDD33-6
VSS33-6
P3.9
P3.8
P3.7
P3.6
P3.5
P3.4
P3.3
P3.2
P3.1
P3.0
RSTIN
D11
D3
D4
VDD25-2
VSS25-2
VDD33-7
VSS33-7
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
P6.1
P6.0
P5.15
P5.14
P3.15
P3.13
P3.12
P3.11
P3.10
Pinning
VSSA-3
VDDA-3
CVBS1B
CVBS1A
VSSA-4
VDDA-4
P5.0
P5.1
P5.2
P5.3
TMODE
D5
D9
D13
VDD33-5
VSS33-5
D1
D6
D8
D14
D0
D7
VDD33-4
VSS33-4
D15
WR
LDQM
UDQM
RD
CSROM
CLKEN
CSSDRAM
MEMCLK
VDD33-3
VSS33-3
A15/CAS
A14/RAS
A13
A0
A1
A2
A3
A4
62
VSS33-2
VDD33-2
CVBS2
P4.0/A16
A8
A7
A9
A6
A5
A10
A11
A12
VSSA-2
VDDA-2
P-MQFP-128-2
M2
VSS25-1
VDD25-1
R
G
B
P4.5/CS3
P4.4/A20
P4.3/A19
P4.2/A18
P4.1/A17
VSSA-1
VDDA-1
VSS33-1
VDD33-1
XTAL1
XTAL2
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
VDD33-8
VSS33-8
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
TCK
TMS
TDI
TDO
P2.8
P2.9
P2.10
P2.11
P2.12
P2.13
P2.14
P2.15
P6.2
P6.3
P6.4
P6.5
P6.6
VSYNC
HSYNC
COR/RSTOUT
BLANK/CORBLA
UEP11116
28JF-76E
SDA9380 (IC6006)
Block Diagram
SWITCH D/A VBLO SCP HPROT SSD VPROT PROTON
SCL
PROTECTION
START UP
I²C
SDA
BSOIN
RESN
TEST
FH1_2
VSYNC
HSYNC
φ2
H-OUT
HD
V-OUT
VD+
VD-
EW-OUT
E/W
CONTROL
CLL
CLEXT
PWM
PWM
PW/PH-CORR
IBEAM
CLKI
HSAFE
H35K
H38K
PLL
AVERAGE
BEAM LIMITER
X1
X2
SVM
RGB 2
3
CLAMP
3
MATRIX
YUV
Y
3
BLACK
STRETCH
FBL 2
FBL 1
RGB/YUV 1
SWITCH
3
CLAMP
3
MATRIX
UV
YUV
2
3
SATURATION
CONTROL
3
YUV/RGB 0
Y
3
CLAMP
3
MATRIX
UV
RGB
MATRIX
YUV
3
BRIGHTNESS
CONTROL
VDD(A1..4)
3
CONTRAST
CONTROL
MEASURE
PULSES
3
3
VSS(A1..4)
CUT OFF +
WHITE POINT
DELAY
VDD(D1..2)
VSS(D1..2)
3
VDD(MC)
VSS(MC)
DCI
BLUE STRETCH
3
PEAK DRIVE
LIMITER
3
ROUT
GOUT
BOUT
OUTPUT
BUFFER
SUBST
VREFC
63
VREFH
VREFN
28JF-76E
SDA9380 (IC6006)
FBL1
ROUT
VDD(MC)
B2
G2
R2
FBL2
VSS(MC)
SCP
BOUT
GOUT
SSD
VSS(D)
VDD(D)
SVM
SWITCH
Pin Configuration
64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49
SDA 9380
64
HSAFE
VD+
VDVDD(A3)
VSS(A3)
VPROT
HPROT
E/W
D/A
VDD(A2)
VSS(A2)
Φ=2
VSS(A1)
HSYNC
VDD(A1)
17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32
FH1_2
CLKI
X2
X1
CLEXT
TEST
SUBST
RESN
SCL
SDA
VDD(D)
VSS(D)
HD
H35K
H38K
PWM
VSYNC
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
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
BSOIN
28JF-76E
SDA9380 (IC6006)
Pin Description
Pin No.
Name
Type
Description
1
CLKI
I/TTL
Input for external line locked clock *)
2
X2
Q
Reference oscillator output, Crystal
3
X1
I
Reference oscillator input, Crystal
4
CLEXT
I/TTL
Switching between internal (L) and external clock (H) *)
5
TEST
I/TTL
Switching between normal operation (TEST=L) and test mode
(TEST=H: pins 4, 12, 13, 14, 15, 17, 49, 50, 63, 64 are additional test pins)
6
SUBST
S
7
RESN
I/TTL
8
SCL
I
I²C Bus clock
9
SDA
IQ
I²C Bus data
10
VDD(D)
S
Digital supply
Substrate pin, has to be connected to ground whenever a
power supply or signal is applied
Reset input, active Low
11
VSS(D)
S
Digital ground
12
HD
Q
Control signal output for H driver stage (open drain)
13
H35K
Q/TTL
Goes High when frequency of HSYNC is about 35kHz or more
14
H38K
Q/TTL
Goes High when frequency of HSYNC is about 38kHz
15
PWM
Q/TTL
Pulse width modulated control signal output
16
VSYNC
I/TTL
V-sync input
17
FH1_2
I/TTL
Switching between 1fH mode (L) and 2fH mode (H)
18
HSYNC
I
HSYNC input (CLEXT=H: TTL; CLEXT=L: analog) *)
19
VDD(A1)
S
Analog supply
20
VSS(A1)
S
Analog ground
21
Φ2
I
Line flyback for H-delay compensation
22
VDD(A2)
S
Analog supply
23
VSS(A2)
S
Analog ground
24
E/W
Q
Control signal output for East-West raster correction
25
D/A
Q
Output of an I²C Bus controlled DC voltage
26
VD+
Q
Control signal output for DC coupled V-output stage
27
VD-
Q
Like VD+
28
VDD(A3)
S
Analog supply
29
VSS(A3)
S
Analog ground
30
VPROT
I
Watching external V-output stage (input is the V-saw-tooth from
feedback resistor)
31
HPROT
I
Watching EHT (input is e.g. H-flyback)
32
HSAFE
I
Watching B+ when frequency of HD has to be decreased
33
BSOIN
I
Input for starting Black Switch-Off
34
IBEAM
I
Input for a beam current dependent signal for stabilization of
width, height and H-phase
35
PROTON
Q/TTL
Protection on (goes High after response of H- or V-protection)
65
28JF-76E
SDA9380 (IC6006)
Pin Description
Pin No.
Name
Type
Description
36
VREFH
IQ
37
VBLO
Q/TTL
38
VREFN
IQ
39
VREFC
I
Reference current input
40
DCI
I
Dark current input for cut off and white level control
41
VDD(A4)
S
Analog supply
42
Y/R 0
I
Luminance or R input
43
U/G 0
I
U signal or G input
44
V/B 0
I
V signal or B input
45
VSS(A4)
S
Analog ground
46
R/Y 1
I
First R or Y input for insertion
47
G/U 1
I
First G or U input for insertion
48
B/V 1
I
First B or V input for insertion
49
FBL1
I
Fast blanking input for RGB1
50
FBL2
I
Fast blanking input for RGB2
51
R2
I
Second R input for insertion
52
G2
I
Second G input for insertion
53
B2
I
Second B input for insertion
54
VDD(MC)
S
Analog supply for RGB output stage
55
ROUT
Q
R output
56
GOUT
Q
G output
57
BOUT
Q
B output
58
SCP
Q
Blanking signal with H- and color burst component
(V-component selectable by I²C Bus)
59
VSS(MC)
S
Analog ground for RGB output stage
60
SVM
Q
Luminance output for scan velocity modulation circuit
61
VDD(D)
S
Digital supply
62
VSS(D)
S
Digital ground
Reference voltage
Vertical blanking output
Ground for VREFH
63
SSD
I/TTL
Disables softstart
64
SWITCH
Q/TTL
Output of an I²C Bus controlled switch (register 00, bit SW)
*) The external clock mode can not be used with 18.75, 33.75kHz, 35kHz and 38kHz line frequency.
66
37
46
47
48
38
9
32
31
30
22
21
16
15
10
fbl1
rin2
gin2
bin2
fbl2
656clk
656io0
656io1
656io2
656io3
656io4
656io5
656io6
656io7
58
cvbs7
41
57
cvbs6
bin1
56
cvbs5
40
55
cvbs4
gin1
54
cvbs3
39
53
cvbs2
rin1
52
cvbs1
63
cvbso1
67
CLAMP
Source
Select
CLAMP
Source
Select
62
74
8
ITU656
Decoder
ADCF
GAIN
ADCB
GAIN
ADCG
GAIN
ADCR
GAIN
ADC2
GAIN
ADC1
GAIN
data
slicer
F
4:2:2
4:4:4
2
YUV
OPTIMUS
VSP 94x7B
τ
contrast
brightness
saturation V
U
down
sampling
Color
Decoder
Notch,
Deskew,
delay
Color
Decoder
Notch,
Deskew,
delay
C800
controller
ITU656
memory
output
tclk
71
tms
7
test-controller,
memory bist
19
adr/tdi
13
scl
clamping signals
to ADCs
H
V
YUV
clamping signals
to ADCs
H
V
sda
I²C
interface
6
grey shaded blocks
not available in
VSP 94x5B
Offset,
Gain
α
soft-mix
insert
main
1H delay
(PAL/SECAM)
delay
control
Sync
AGC
generator
1H delay
(PAL/SECAM)
delay
control
AGC
generator
Sync
(pinning corresponds to QFP-80 package)
Antialias,
Deskew
pre
processing
pre
processing
YUV
RGB
Y
14
vin/
intr
or bypass
Input Mux
Comb
Filter
4H delay
24
reset
pre
processing
CVBS/C
CVBS/Y
656hio/ 656vio/
clkf20 blank
61
cvbso2 cvbso3
YUV
YUV
YUV
YUV
YUV
18
20
master
output
slave
output
channel
mux
h50/ v50/
irq blank
Vpanorama
generator
Vpostscaler
4:2:2
4:2:2
mosaic
mode
noise
measure
ment
mosaic
mode
noise
measure
ment
picture
noise
measure
ment
letterbox
detection
clamped, filterd sync signal
from master decoder
xin
70
DCI
Vprescaler
line
memories
line
memories
4:4:4
Hpostscaler
Hpanorama
generator
Hpanorama
generator
648 MHz
DTO
648 MHz clk
Vprescaler
4:4:4
Hpostscaler
Hprescaler
Hprescaler
LL-PLL
xtal
oscillator
69
xout
CTI
LTI
CTI
LTI
temporal
noise
reduction
NR
motion
detection
temporal
noise
reduction
NR
motion
detection
216 MHz clk
line-locked
free-running
clocks
adaptive
Peaking
frame
generator
curtain
generator
pattern
generator
filmmode
detection
motion
detection
global
motion
detection
Pixelm ixer
to 656io
(36, 72 MHz)
line-locked
clocks
(20.25, 40.5 MHz)
adaptive
Peaking
prefram e
generator
prefram e
generator
divider
divider
data buffer
ITU656/
DS656
Encoder
eDRAM
memory
controller
data buffer
YUV->
RGB or
bypass
PiPEngine
delay
adjust
8:8:8
motion adaptive
upconversion
23
Output
Data
Controller
OFFSET
V DAC
GAIN
OFFSET
U DAC
GAIN
OFFSET
Y DAC
GAIN
to
656decoder
17
vout hout
Output Sync
Controller
27
clkout
76
79
2
3
2
1
80
79
78
77
76
75
avout
auout
ayout
940xB,
943xB
only
i656i7
i656i6
i656i5
i656i4
i656i3
i656i2
i656i1
i656i0
i656iclk
941xB,
944xB
only
28JF-76E
VSP9407 (IC6007)
Block Diagram
28JF-76E
VSP9407 (IC6007)
vssdacu
auout
vdddacu
vssdacv
avout
vdddacv
656hio/clkf20
vssp1
vddp1
tclk
xin
xout
vddapll
vssd1
vddd1
vssac2
vddac2
cvbso1
cvbso2
cvbso3
Pinning
80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
OPTIMUS
VSP 9405B
VSP 9435B
VSP 9407B
VSP 9437B
21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
656io4
656io3
vout
reset
vddp3
vssp3
clkout
vddd3
vssd3
656io2
656io1
656io0
vssd4
vddd4
vddafbl
vssafbl
fbl1
fbl2
rin1
gin1
vdddacy
ayout
vssdacy
vsss2
vddd2
sda
tms
656vio/blank
656clk
656io7
vssp2
vddp2
scl
vin/int
656io6
656io5
hout
h50/irq
tdi
v50/blank
68
vss33c
vdd33c
cvbs7
cvbs6
cvbs5
cvbs4
cvbs3
cvbs2
cvbs1
vssac1
vddac1
vssd5
bin2
gin2
rin2
vss33rgb
vdd33rgb
vssargb
vddargb
bin1
28JF-76E
VSP9407 (IC6007)
Pin Connections
MQFP
80 (a)
52
53
54
55
56
57
58
Pin name
Type
function
63
62
61
70
69
23
cvbs1
cvbs2
cvbs3
cvbs4
cvbs5
cvbs6
cvbs7
cvbs8
cvbs9
cvbso1
cvbso2
cvbso3
xin
xout
vout
I
I
I
I
I
I
I
I
I
O
O
O
I
O
I/O
17
1
3
78
80
75
77
2
79
76
39
40
41
37
46
47
48
38
14
hout
vdddacy
vssdacy
vdddacu
vssdacu
vdddacv
vssdacv
ayout
auout
avout
rin1
gin1
bin1
fbl1
rin2
gin2
bin2
fbl2
vin/intr
O
S
S
S
S
S
S
O
O
O
I
I
I
I
I
I
I
I
I/O
6
13
7
19
24
27
59
60
sda
scl
tms
adr / tdi
reset
clkout
vdd33c
vss33c
I/O
I
I
I
I
O
S
S
CVBS input
CVBS input
CVBS input
CVBS input or Y1
CVBS input or C1
CVBS input or Y2
CVBS input or C2
CVBS input
CVBS input
CVBS output 1
CVBS output 2
CVBS output 3
Crystal connection 1
Crystal connection 2
vertical (input)
output
horizontal output
supply DAC (Y)
supply DAC (Y)
supply DAC (U)
supply DAC (U)
supply DAC (V)
supplyDAC (V)
Luminance output
Chrominance output
Chrominance output
R or V in1
G or Y in1
B of U in1
Fast Blank input 1 (H1)
R or V in2
G or Y in2
B of U in2
Fast Blank input 2 (H2)
vertical sync pulse input for RGB
/ interrupt output for C800
I²C-Bus data
I²C-Bus clk
testmode select
I²C address / test data in
Reset input
Output clock
supply voltage CVBS
supply voltage CVBS
I Input
O Output
S Supply
69
28JF-76E
VSP9407 (IC6007)
Pinning Connections
MQFP
80 (a)
50
51
64
65
44
45
42
43
35
36
68
66
67
5
4
28
29
34
33
49
72
73
12
11
25
26
71
18
20
32
31
30
22
21
16
15
10
9
74
8
Pin name
Type
function
vddac1
vssac1
vddac2
vssac2
vdd33rgb
vss33rgb
vddargb
vssargb
vddafbl
vssafbl
vddapll
vddd1
vssd1
vddd2
vssd2
vddd3
vssd3
vddd4
vssd4
vddd5
vssd5
vddp1
vssp1
vddp2
vddp2
vssp2
vssp2
vddp3
vddp3
vssp3
vssp3
vddp4
vssp4
vddp5
vssp5
vddp6
vssp6
vddp7
vssp7
vddp8
vssp8
vddpor
vsspdb1
tclk
h50/irq
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
I
I/O
v50/blank
656io0
656io1
656io2
656io3
656io4
656io5
656io6
656io7
656clk
656hio/
clkf20
656vio/
blank
reserved
reserved
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
supply voltage CVBS1
supply voltage CVBS1
supply voltage CVBS2
supply voltage CVBS2
supply voltage RGB
supply voltage RGB
supply voltage for RGB
supply voltage for RGB
supply voltage for FBL
supply voltage for FBL
supply voltage for PLL
supply voltage for digital
supply voltage for digital
supply voltage for digital
supply voltage for digital
supply voltage for DRAM
supply voltage for digital
supply voltage for digital
supply voltage for digital
supply voltage for digital
supply voltage for digital
supply voltage for digital
supply voltage for digital
supply voltage for digital
supply voltage for digital
supply voltage for digital
supply voltage for digital
supply voltage for digital
supply voltage for digital
supply voltage for digital
supply voltage for digital
supply voltage for digital
supply voltage for digital
supply voltage for digital
supply voltage for digital
supply voltage for digital
supply voltage for digital
supply voltage for digital
supply voltage for digital
supply voltage for digital
supply voltage for digital
supply voltage for digital
bulk supply voltage
testclock
Hout 50 Hz /
data slicer interrupt output
Vout 50 Hz / blank output
Digital input / output
Digital input / output
Digital input / output
Digital input / output
Digital input / output
Digital input / output
Digital input / output
Digital input / output
Digital input / output clock
separate H input for 656 / 20.25
clock output
separate V input for 656 / blank
output
(reserved)
(reserved)
I/O
70
28JF-76E
PARTS LISTING
#yI
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 Parts Listing.
!
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 promptly and correctly please supply the following information.
1. MODEL NUMBER
2. REF. NO.
3. PART NO.
4. DESCRIPTION
5. CODE
6. QUANTITY
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SERVICING NOTES
1. Procedure to reprogram the flash memory (IC6003) contained in the digital module
Equipment needed
• A PC running MS Windows (Windows 98 Second Edition, Windows 2000 or Windows XP).
• A copy of the software “Tiny M2Flash” version 1.07 or higher.
• A PWB7359 (version N1 or higher) digital module including the Micronas SDA6000 microcontroller (also known
as M2) and the Fujitsu MBM29LV160/BE 1Mx16 bit Flash memory. Operation with other devices is not
guaranteed.
• A level-converter circuit to make the {+3.3 V, 0} voltages of the RS232 port at the digital module compatible with
the {+12 V, -12 V} voltages of the RS232 port at the PC. This circuit can be built around a MAX3222.
• A power supply to feed the digital module with 3.3 V.
• A RS232 cable for PC (PC-PC Type).
Hardware
Tiny M2Flash requires the M2 digital module to be connected as shown in Figure 18.
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Figure 18: Block diagram showing the hardware
needed to use Tiny M2Flash.
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Figure 19: Level Converter Schematic Diagram
In order to make the M2 start in the bootstrap loader mode (which is needed to work with Tiny M2Flash), pin 3 of connector
YB must be connected to ground at the moment of resetting the digital module (connecting the power to the module
makes it reset). It may also stay connected to ground during the whole programming process, if desired.
Software
The program is composed of two files: One “.exe” and one “.obj” file. The first one contains the MS Windows code that
runs in the PC. The second one contains the machine code that runs in the M2 microcontroller. The “.obj” file must be
moved/copied to “C:\” (there is where the program looks for it.) The program writes into the flash memory the information
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contained in an “.hex” file. This file must conform to the Intel HEX-32 format. The software does check whether the
program operation has been successful or not.
1 Installation of “Tiny M2Flash”:
1.1 Place the “.obj” file in “C:\”.
1.2 Place the “.exe” file anywhere.
2 “Tiny M2Flash” usage:
2.1 Choose the serial port number that this instance of the program will use to communicate with the digital module.
2.2 Browse the file system and choose the “.hex” file that contains the information to be written into the flash.
2.3 Tie pin 3 of connector YB at the digital module to ground. Turn on the 3.3 V power supply that feeds the digital
module. This will make it reset.
2.4 Press the “PROGRAM” button once. This will automatically:
2.4.1 Open the serial port.
2.4.2 Send the (machine code) “server” program to the M2 microcontroller. The PC will act as the “client.”
2.4.3 Erase the whole flash chip.
2.4.4 Program the flash with the information contained in the “.hex” file.
2.5 If needed, the button “STOP” can be pressed to stop the execution of that instance of the program in the PC.
However, this will not necessarily interrupt whatever the M2 was doing. It is recommended that the digital module
be resetted after “STOP” has been pressed in the program.
2.6 The program will display the message “OK” or “ERROR,” depending on whether the programming operation has
been successful or not.
2.7 Turn off the power supply.
Figure 20: Screenshot of Tiny M2Flash.
Note: The progress bar starts growing right after the flash memory has been erased.
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28JF-76E
2. GA-200 (M2) FLASH Memory Writer
This Kit is available under request in EPC.
Kit code: CKIT-0001WJV0.
220V./240V. AC 50Hz.
PC COM_
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28JF-76E
3. Packing of the Set & Accessories
Pack-ad
SPAKXA017WJZZ
Wrapper
SPAKP2006BMZZ
Front
SPAKCA083WJZZ
Carton Box
Batteries
UBATU0013TAZZ
R/C Battery Cover
GCOVHA010WJSA
Remote Control
RRMCG1073BMSA
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28JF-76E
SOURCE OF DOCUMENTATION
1. TDA 9886, Philips Data Sheet:
TDA9885; TDA9886. I2C-bus controlled single and multistandard alignment-fee IF-PLL demodulators.
Product specification. 2002 Mar 05.
http://www.semiconductors.philips.com/acrobat/datasheets/TDA9885_TDA9886_1.pdf
2. MSP3411G, Micronas Data Sheet:
Preliminary data sheet: “MSP 34x1G Multistandard Sound Processor Family with Virtual Dolby Surround”
Edition March 5, 2001 (6251-511-2PD).
http://www.micronas.com/products/documentation/consumer/msp34x1g/downloads/msp34x1g_2pd.pdfv
3. TDA 7480L, ST Microelectronics Data Sheet:
TDA7480L. 10W Mono Class D Amplifier. March 2002.
4. TDA 6111Q, Philips Preliminary specification:
TDA6111Q Video output amplifier. File under Integrated Circuit, IC02.
Data of release: 1995 Feb 07 (9397 747 60011)
http://www.semiconductors.philips.com/acrobat/datasheets/TDA6111Q_2.pdf
5. SDA 6000, Micronas Data Sheet:
Data sheet: “SDA 6000, SDA 6001 V. B11 Teletext DEcoder with Embedded 16-bit Controller M2”.
Feb 8 2002. (6251-557-2PD).
http://www.micronas.com/products/documentation/consumer/sda6000/downloads/sda600x_2pd.pdf
6. SDA 9380, Micronas Data Sheet.
Preliminary data sheet: SDA 9380-B21 EDDC Enhanced Deflection Controller and RGB Processor.
Edition May 3, 2001 (6251-549-2PD).
http://www.micronas.com/products/documentation/consumer/sda9380/downloads/sda9380_2pd.pdf
7. VSP 9407A, Micronas Data Sheet.
Preliminary data sheet: VSP 94x5B, VSP94X7B OPTIMUS Version B11 Color Decoder and Scanrate
Converter.
Edition Jan. 18, 2002 (6251-576-1-1PD, 6251-576-2-1PD).
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Notes:
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Notes:
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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
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