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Colour Television Chassis
LC4.31E
AB
Supplement to manual LC4.31E AA 3122 785 16210
ME6
ME5
G_16210_000.eps
090206
Contents Page
Technical Specifications, Connections, and Chassis
Safety Instructions, Warnings, and Notes
Service Modes, Error Codes, and Fault Finding 7
Block Diagrams, Test Point Overviews, and
Circuit Diagrams and PWB Layouts
IBO Zapper Panel: Flash Memory
IBO Zapper Panel: Power Supply
IBO Zapper Panel: Analog Back End
Diagram PWB
(K1)
(K2)
(K3)
(K4)
(K5)
IBO Zapper Panel: Common Interface
(K6)
(K7)
Circuit Descriptions, Abbreviation List, and IC Data
©
Copyright 2006 Philips Consumer Electronics B.V. Eindhoven, The Netherlands.
All rights reserved. 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, or otherwise without the prior permission of Philips.
Published by WS 0662 TV Service Printed in the Netherlands Subject to modification EN 3122 785 16220
EN 2 1.
LC4.31E AB Technical Specifications, Connections, and Chassis Overview
1.
Technical Specifications, Connections, and Chassis Overview
Index of this chapter:
Notes:
• Only information that is related to the IBO Zapper module is published in this manual. For the other information, see the relevant chassis manual (order code on front page).
• Some models in this chassis range have a different mechanical construction. The information given here is therefore model specific.
• Figures below can deviate slightly from the actual situation, due to the different set executions.
• Specifications are indicative (subject to change).
Supported video formats
Presets/channels
Tuner bands
: VGA (720x400)
: 640x480p - 2fH
: 720x576p - 2fH
: 1280x720p - 3fH
: 1920x1080i - 2fH
: 100 presets
: VHF
: UHF
: S-band
: Hyper-band
1.1.2
Sound
Sound systems
1.1
Technical Specifications
1.1.1
Vision
Display type
Screen size
- 26PF5521D/10/12
- 32PF5521D/10/12
- 37PF5521D/10
- 26PF7521D/10
- 32PF7521D/10
- 37PF7521D/10
- 42PF7421D/10
Resolution (HxV pixels)
Contrast ratio
- 26PF5521D/10/12
- 32PF5521D/10/12
- 37PF5521D/10
- 26PF7521D/10
- 32PF7521D/10
- 37PF7521D/10
- 42PF7421D/10
Light output (cd/m
2
)
Response time (ms)
Viewing angle (HxV degrees)
- 26PF5521D/10/12
- 32PF5521D/10/12
- 37PF5521D/10
- 26PF7521D/10
- 32PF7521D/10
- 37PF7521D/10
- 42PF7421D/10
Tuning system
TV Colour systems
Video playback
Supported computer formats
: LCD, IPS
:
: 26” (66 cm), 16:9
: 32” (82 cm), 16:9
: 37” (94 cm), 16:9
: 26” (66 cm), 16:9
: 32” (82 cm), 16:9
: 37” (94 cm), 16:9
: 42” (107 cm), 16:9
: 1366 x 768
:
: 600:1
: 800:1
: 800:1
: 600:1
: 800:1
: 800:1
: 550:1
: 500
: 8
:
: 178x178
: 178x178
: 176x176
: 178x178
: 178x178
: 176x176
: 176x176
: PLL
: PAL B/G, D/K, I
: SECAM B/G, D/K, L/L’
: NTSC M/N 3.58, 4.43
: PAL B/G
: SECAM L/L’
: VGA (640x480)
: MAC (640x480)
: SVGA (800x600)
: XVGA (1024x768)
Maximum power (W
RMS
)
- 26PF5521D/10/12
- 32PF5521D/10/12
- 37PF5521D/10
- 26PF7521D/10
- 32PF7521D/10
- 37PF7521D/10
- 42PF7421D/10
1.1.3
Miscellaneous
Power supply:
Mains voltage (V
AC
)
- 26PF5521D/10/12
- 32PF5521D/10/12
- 37PF5521D/10
- 26PF7521D/10
- 32PF7521D/10
- 37PF7521D/10
- 42PF7421D/10
Mains frequency (Hz)
Ambient conditions:
- Temperature range (
°C)
- Maximum humidity
Power consumption:
Normal operation (W)
- 26PF5521D/10/12
- 32PF5521D/10/12
- 37PF5521D/10
- 26PF7521D/10
- 32PF7521D/10
- 37PF7521D/10
Stand-by (W)
- 26PF5521D/10/12
- 32PF5521D/10/12
- 37PF5521D/10
- 26PF7521D/10
- 32PF7521D/10
- 37PF7521D/10
- 42PF7421D/10
Dimensions (WxHxD cm):
- 26PF5521D/10/12
- 32PF5521D/10/12
- 37PF5521D/10
- 26PF7521D/10
- 32PF7521D/10
:
: 100
: 120
: 180
: 100
: 120
:
: 180
: < 1
: < 1
: < 2
: < 1
: < 1
: < 2
: < 2
: NICAM B/G, D/K, I, L
: AV Stereo
:
: 2 x 5
: 2 x 15
: 2 x 15
: 2 x 5
: 2 x 15
: 2 x 15
: 2 x 15
:
: 110 - 240
: 110 - 240
: 220 - 240
: 110 - 240
: 110 - 240
: 220 - 240
: 220 - 240
: 50 / 60
: +5 to +40
: 90% R.H.
: 80.45 x 43.8 x 11.4
: 92.4 x 50.7 x 11.9
: 110.0 x 60.9 x 10.25
: 69.75 x 49.48 x 9.97
: 93.5 x 51.65 x 12.0
Technical Specifications, Connections, and Chassis Overview
- 37PF7521D/10
- 42PF7421D/10
Weight (kg):
- 26PF5521D/10/12
- 32PF5521D/10/12
- 37PF5521D/10
- 26PF7521D/10
- 32PF7521D/10
- 37PF7521D/10
- 42PF7421D/10
: 111.4 x 61.8 x 10.3
: 124.9 x 69.7 x 12.8
: 13.3
: 18.9
: 25.1
: 13.0
: 19.2
: 25.9
: 32
1.2
Connection Overview
Note: The following connector colour abbreviations are used
(acc. to DIN/IEC 757): Bk= Black, Bu= Blue, Gn= Green, Gy=
Grey, Rd= Red, Wh= White, and Ye= Yellow.
1.2.1
Rear Connections
LC4.31E AB 1.
EN 3
Figure 1-1 Rear I/O (26” and 32”)
G_16220_020.eps
090206
G_16220_021.eps
090206
Figure 1-2 Rear I/O (37” and 42”)
CI Common Interface: PCMCIA
68p - See diagram K7
S/PDIF Cinch: Out
Bk - Coaxial 0.2 - 0.6 V
PP
/ 75 ohm
Service connector (UART)
1 - UART_TX Transmit
2 - Ground Gnd
3 - UART_RX Receive jk kq k
H j
EN 4 2.
LC4.31E AB
1.3
Chassis Overview
Safety Instructions, Warnings, and Notes
Chassis Overview 26” & 32” Models
LCD PANEL
A
T
POWER SUPPLY
PANEL
OTC TXT PANEL
CLASS D AUDIO
AMPLIFIER PANEL
C
SMALL SIGNAL BOARD
B
IBO ZAPPER 2 PANEL K
KEYBOARD CONTROL
PANEL
E
SIDE I/O PANEL
D
LED & IR PANEL J
Chassis Overview 37” + 42” Models
LCD PANEL
SA
B
STANDBY & AUDIO
PANEL
SMALL SIGNAL
BOARD
T OTC TXT PANEL
E CONTROL BOARD
POWER SUPPLY
UNIT
IBO ZAPPER 2 PANEL
A
K
SIDE I/O PANEL
D
LED & IR PANEL J
G_16220_025.eps
090206
Figure 1-3 Chassis overview
2.
Safety Instructions, Warnings, and Notes
See the relevant chassis manual (order code on front page).
3.
Directions for Use
You can download this information from the following websites: http://www.philips.com/support http://www.p4c.philips.com
Mechanical Instructions
4.
Mechanical Instructions
Index of this chapter:
Notes:
• Figures below can deviate slightly from the actual situation, due to the different set executions.
• Follow the disassembling instructions in described order.
• Only information that is related to the IBO Zapper module is published in this manual. For the other information, see the relevant chassis manual (order code on front page).
LC4.31E AB 4.
EN 5
4.1.3
Unlocking the metal cover of the IBO zapper module (26” and 32”)
4.1
Assy/Panel Removal
4.1.1
IBO Zapper Module (26” and 32”)
2
1
3
F_15270_089.eps
300505
Figure 4-3 Unlocking the metal cover of the IBO zapper module
(26” and 32”)
4
F_15270_087.eps
310505
Figure 4-1 IBO zapper module (26” and 32”)
1.
Disconnect the cable [1] from connector 1301 on the IBO zapper module.
2.
Disconnect the flatcable [2] from connector 1500 on the
IBO zapper module and remove the tape which secures it to the IBO zapper module.
3.
Disconnect the antenna cable [3] from the tuner on the IBO zapper module.
4.
Remove the torx screws [4] and remove the IBO zapper module from the TV set.
4.1.2
IBO Zapper Module Front Panel (26” and 32”)
1
F_15270_088.eps
300505
Figure 4-2 IBO zapper module front panel
1.
Remove the two screws [1].
2.
Remove the front panel by shifting it sideways to unlock it.
F_15270_090.eps
300505
Figure 4-4 Opening the IBO zapper module (26” and 32”)
1.
Unlock the metal cover with a screwdriver (see Figure
“Unlocking the metal cover of the IBO zapper module (26” and 32”)”).
2.
Unhook the metal cover from its hinges (see Figure
“Opening the IBO zapper module (26” and 32”)”) and remove the cover (this is possible only if the front panel has been removed first).
EN 6 4.
LC4.31E AB Mechanical Instructions
4.1.4
Cover Shield for IBO-zapper & SSB (37” and 42”)
1
2
3
5
4
3
3
9
8
10
6
Figure 4-5 Cover shield (37” and 42”)
G_16220_022.eps
090206
7
7
6
G_16220_023.eps
090206
Figure 4-6 Connector screws (37” and 42”)
1.
Remove the rear cover from the set.
2.
Very cautiously disconnect the LVDS cable [1] from the
SSB panel (see Figure “Cover shield (37” and 42”)”).
Notice that this connector is very fragile.
3.
Unplug the black cable [2] going from the IBO zapper/SSB to the Audio/STBY board.
4.
Remove all other cables [3] from the IBO zapper/SSB.
5.
Remove the fixation screws [4] that connect the top shielding with the bottom shielding.
6.
Remove the fixation screws [5] that connect the connector plate to the frame.
7.
Remove the fixation screws [6] that connect the shield to the rear connector plate, see Figure “Connector screws
(37” and 42”)”.
8.
Remove the fixation screws [7] from the connectors.
9.
Remove the connector plate from the shielding.
10. Remove the upper part of the shield (with the IBO zapper attached to it) from the lower part of the shield (on which the SSB is located), by unhooking it from its brackets.
11. Disconnect the antenna connector [8] from the tuner, see
Figure “IBO zapper & SSB (37” and 42”)”.
12. Carefully unlock the locking mechanism of the FFC connector [9] and remove the flatfoil cable (see Figure
“How to unlock an FFC connector”).
13. Finally, loosen four screws [10], and remove the IBO zapper from the top shielding.
G_16220_024.eps
090206
Figure 4-7 IBO-zapper & SSB (37” and 42”)
F_16040_038.eps
021105
Figure 4-8 How to unlock an FFC connector
4.2
Set Re-assembly
To re-assemble the whole set, execute all processes in reverse order.
Notes:
• While re-assembling, make sure that all cables are placed and connected in their original positions.
Be careful with the fragile LVDS cable.
Service Modes, Error Codes, and Fault Finding LC4.31E AB
5.
Service Modes, Error Codes, and Fault Finding
Index of this chapter:
Notes:
• Only information that is related to the IBO Zapper module is published in this manual. For the other information, see the relevant chassis manual (order code on front page).
5.1
Service Modes
5.1.1
Digital Customer Service Mode (DCSM)
Purpose
The Digital Customer Service Mode shows error codes and information on the IBO Zapper module operation settings. The call centre can instruct the customer to activate DCSM by telephone and read off the information displayed. This helps the call centre to diagnose problems and failures in the IBO
Zapper module before making a service call.
The DCSM is a read-only mode; therefore, modifications are not possible in this mode.
How to Activate
To activate the DCSM, put the television in its digital mode (via the A/D button on the remote control).
1.
Press the “Digital” Menu button on the remote control to activate the digital user menu (“Setup”).
2.
Activate the “Information” sub menu (via the “down” and
“right” cursor buttons).
3.
In the “Information” sub menu, press the following buttons on the remote control to activate the DCSM:
“GREEN RED YELLOW 9 7 5 9”. Then, the “Service menu” will appear (see figures below).
Menu explanation
Figure 5-2 DCSM menu - 2
Figure 5-1 DCSM menu - 1
E_14970_040.eps
090904
5.
EN 7
E_14970_041.eps
100904
E_14970_042.eps
090904
Figure 5-3 DCSM menu - 3
1.
Hardware version: This indicates the version of the IBO
Zapper module hardware.
2.
Application SW: The application software version.
3.
NOR Version: The NOR Flash image software version
4.
Digital Frequency: The digital frequency that the set is tuned to.
5.
Bit Error Rate: The error rate measured before the error correction algorithm circuitry. (this value gives an impression of the received signal)
6.
Tuner AGC: Tuner AGC value.
7.
COFDM Lock: Indication if COFDM decoder is locked.
8.
AFD Status: Status of the Active Picture Format
Descriptor.
9.
Terrestrial Delivery System Parameters:
– Bandwidth: Bandwidth of the received signal.
– Constellation Pattern: Displays the signal constellation.
– Alpha Value: Displays the Alpha Value.
– FEC Scheme: Displays the Forward Error Correcting
Scheme
– Guard Interval: Displays the value for the Guard
Interval.
– Transmission Mode: Displays the Transmission
Mode.
10. Audio Comp Type: Type of detected audio stream.
11. MHEG Present: Indicates if MHEG is present or not.
12. CIM Card Present: Indicates if CIM card is present or not.
How to exit
Press the BLUE button on the Remote Control to exit DCSM.
EN 8 5.
LC4.31E AB Service Modes, Error Codes, and Fault Finding
5.2
Error Codes
The error code buffer contains all errors detected since the last time the buffer was erased. The buffer is written from left to right. When an error occurs that is not yet in the error code buffer, it is displayed at the left side and all other errors shift one position to the right.
5.2.1
How to Read the Error Buffer
You can read the error buffer in 3 ways:
• On screen via the SAM (if you have a picture).
Examples:
– ERROR: 0 0 0 0 0 : No errors detected
– ERROR: 6 0 0 0 0 : Error code 6 is the last and only detected error
– ERROR: 9 6 0 0 0 : Error code 6 was detected first and error code 9 is the last detected (newest) error
• Via the blinking LED procedure (when you have no picture). See “The Blinking LED Procedure”.
• Via ComPair.
5.2.2
How to Clear the Error Buffer
The error code buffer is cleared in the following cases:
• By using the CLEAR command in the SAM menu:
– To enter SAM, press the following key sequence on the remote control transmitter: “062596” directly followed by the OSD/i+ button (do not allow the display to time out between entries while keying the sequence).
– Make sure the menu item CLEAR is selected. Use the
MENU UP/DOWN buttons, if necessary.
– Press the MENU RIGHT button to clear the error buffer. The text on the right side of the “CLEAR” line will change from “CLEAR?” to “CLEARED”
• If the contents of the error buffer have not changed for 50 hours, the error buffer resets automatically.
Note: If you exit SAM by disconnecting the mains from the television set, the error buffer is not reset.
5.2.3
Error Codes
In case of non-intermittent faults, write down the errors present in the error buffer and clear the error buffer before you begin the repair. This ensures that old error codes are no longer present.
If possible, check the entire contents of the error buffer. In some situations, an error code is only the result of another error and not the actual cause of the problem (for example, a fault in the protection detection circuitry can also lead to a protection).
Table 5-1 Error code overview
5
6
2
3
Error Error Description
0 No Error
1
4
Check Item
Mis-match of TV (Hercules) SW and
Scaler SW
Software versions
+12V from PSU error PSU
Plasma I
2
C error (only for plasma sets) N.A.
I
2
C error while communicating with the
Genesis Scaler
7801
7
8
9
10
11
12
13
14
15
16
17
+5V protection
General I
2
C error; communication between ADC, analogue tuner, and/or
Columbus I
2
C failed
I
2
C error while communicating with
ADC
I
2
C error while communicating with the
Scaler EEPROM
I
2
C error while communicating with the
Hercules EEPROM (NVM for TV).
Remark: when the Hercules EEPROM is defective, the Hercules should operate with its default values.
I
2
C error while communicating with the
PLL tuner
I
2
C error while communicating with the
3D combfilter IC-7M00 (Columbus)
I
2
C error while communicating with iBoard uP (only iTV sets)
I
2
C error while communicating with the
HDMI decoder IC-7D03 (only for
NAFTA and AP)
7752
1102, 7L01,
7M00
7L01
7C01
7207
1102
7M00
N.A.
N.A.
Read-write error with the Scaler
SDRAM
I
2
C error while communicating with the
OTC
I
2
C error while communicating with
EPLD or Pacific III
I
2
C error while communicating with the
Digital Module (only for digital sets)
7B01
7001
7N00
7100
B1
B19
N.A.
N.A.
Diagram
B18
B11
B2
N.A.
A
N.A.
B7 + B8
B6
B1 + B18 +
B19
B10
T
B20 + B21
K1
Block Diagrams, Test Point Overviews, and Waveforms LC4.31E AB 6.
6.
Block Diagrams, Test Point Overviews, and Waveforms
Wiring Diagram 26” & 32”
WIRING 26”- 32”
9
RIGHT
SPEAKER
8520
8903 8903
8301
X530
X520
POWER
SUPPLY
3P
X220
LVDS CONNECTION
TO SCREEN
30P
8520
X200
8J02
B
SSB
1P06
8P06
C
CLASS D
1003
3P
AUDIO
AMPLIFIER
1001
8J03
1002
9P
4P
12P
1J02
8J04
3P
1J03
9P
1JO4(1M52)
8500
8870
3P
1301
INVERTER
32P 1500
TUNER
(IBO ZAPPER2)
K
IBO ZAPPER
POWER
IN
X002
8002
AC POWER
INLET
32P
1J03
TUNER
8K01
8684
8600
LEFT
SPEAKER
D
SIDE AV
1303
HP
1302
L
R
Y
1301
SVHS
6P
1870
J IR/LED/LIGHT
SENSOR
G_16220_001.eps
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Block Diagrams, Test Point Overviews, and Waveforms
Wiring Diagram 37”
WIRING 37”
LC4.31E AB 6.
10
1M01
3P
RIGHT
SPEAKER
8902
SA
STANDBY
8903
8304
8309
LCD PANEL
8306
8521
8302
3P
1309
4P
1304
7P
1M02
8305
A
LCD SUPPLY
INVERTER
8301
8520
30P
1N17
B
SSB
11P
1J01
8337
10P
1J00
8322
8P06
8J04
3P
1J03
9P
1J04
8101
TO DISPLAY
LVDS
8870
T
OTC-
FLASH
8K01
8000
K
IBO ZAPPER
TUNER
1G03
32P
8500
8600
TUNER
1402
3P
AC INLET
1308
2P3
INVERTER
J
LED PANEL
6P
0345
LEFT
SPEAKER
D
SIDE AV
G_16220_002.eps
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Block Diagrams, Test Point Overviews, and Waveforms
Wiring Diagram 42”
WIRING 42”
LC4.31E AB 6.
11
1M01
3P
RIGHT
SPEAKER
8902
INVERTER
8301
SA
8520
STANDBY
30P
1N17
B
SSB
8903
8304
8309
8320
8306
8307
8305
LCD PANEL
11P
1J01
8337
10P
1J00
8322
8P06
8J04
3P
1J03
9P
1J04
8101
TO DISPLAY
LVDS
8870
8521
T
OTC-
FLASH
8K01
8000
K
IBO ZAPPER
TUNER
1G03
32P
8500
8600
TUNER
1402
3P
8302
A
8303
LCD SUPPLY
1420
1308
2P3
AC INLET
7P
1M02
INVERTER
J
LED PANEL
6P
0345
LEFT
SPEAKER
D
SIDE AV
G_16220_003.eps
070206
Block Diagrams, Test Point Overviews, and Waveforms
Block Diagram Supply 37”
SUPPLY 37"
A1 MAINS FILTER + STANDBY
LC4.31E AB
A2 SUPPLY
1308
2
1
1314
T5AH
5305
5306
MAINS
FILTER
2
1350
3
1 4
HOT
COLD
6306
DF06M
+
2303
1315
T1A
6.
12
6307
GBJ6J
+
3318 2319 6304
399V_HOT
25V_HOT
1
2
4
3
7307
TCET1102
25V_HOT
3000
5017
BIAS SUPPLY
6025 6024
2003
5010
5007 5008
400V_HOT
399V_HOT
11
7001
MC34067P
VCC
OSCC
15
7011
7012
SOFT
START
+
CURRENT
PROTECTION
3007
7
CONTROL
OA
ERROR
14
OB
12
11 SOST
FI
10
5 VREF
7004
7009
OVER
VOLTAGE
PROTECTION
4
2
5001
6
7007
HIGH
SIDE
DRIVE
7
7005
STP15NK50
10
7008
LOW
SIDE
DRIVE
9
7006
STP15NK50
5012
HOT
4
3
COLD
1
2
7002
TCET1102
400V_HOT
5011
3057
7003
3031 DC_PROT
6019
STPS20L40CFP
6019
STPS20L40CFP
5025
5026
2029
6021
6041
2045
7010
TS2431
2020
+12V
2022
+24Va
SA1 CONNECTIONS
1304
4
3
2
1
1304
4
3
2
1
+12V_A
+12V_+24V
5002
VS Voltage
Adj.
PRINTED
COMPONENT
5021
5022
1007
T5A
2042
6031
6040
2049
2009
6029
6030
2021
5020
5018
5019
+24Vb
DC_PROT
1M02
7
VSND_POS
6
GND_SND
VSND_NEG
5
4
3
2
1
TO 1M02
SA3
AUDIO
HOT COLD
1305
1
2
3
SA2 STANDBY
1305
1
2
3
+5V2
CONTROL
7505/7509/7560
1306
1
2
1306
1
2
1307
1
2
N.C.
3
4
5504 5505
Prot-OVV
PROT_AUDIOSUPPLY
SA2
SA1
7100
7101
7105
CONTROL
3104
3150
3127
3100
6150
7102
STP15NK50
6151 3155
5104
3V MAX
1V MAX STBY
3156
2
1
5
3
COLD
HOT
5500
6
7
8
5110 6504 3509
6140
7507
7506
7512
STANDBY
7511
RES
2141
10
4
3
1
2
HOT COLD
6107
5103 2513
3128
1
2
7501
TCET1102
3124 6122 3113
OVERVOLTAGE
PROTECTION
3158
PROT-OVV
4
3
7150
TCET1102
VTUN
+11V
5506
2512
7531
+12V
7131
+8V6
RES
+5V2
STANDBY
STANDBY: LOW = ON
HIGH = STBY
+5V_SW
SA2
1316
1
2
3
4
5
1317
1
2
3
4
5
TO
DISPLAY
TO
DISPLAY
1319
1
2
3
4
5
TO
DISPLAY
1M10
1
2
TO 1301
IBO ZAPPER
(ONLY DVB SETS)
STANDBY
1M03
7
4
TO 1M03
SSB
1M46
11
9
4
1
2
7
TO 1M46
SSB
G_16210_060.eps
010206
Block Diagrams, Test Point Overviews, and Waveforms
Block Diagram Supply 42”
SUPPLY 42"
A1 MAINS FILTER + STANDBY PART A
MAINS INPUT
1308
1
2
A3 MAINS FILTER + STANDBY
PART B
1400
3A15
5400
5401
5403
MAINS
FILTER
1400
3A15
5D00
5D01
5D03
MAINS
FILTER
2
1450
3
1
6506
DF06M
+
2503
1401
T1A
HOT
COLD
2
4
1 4
1D50
3
HOT
COLD
6807
GBJ6J
+
6H07
GBJ6J
+
LC4.31E AB 6.
13
3810
2815
China
3H10
2816
A2 SUPPLY PART A
3028
25V_HOT_A
400V_HOT_A
11
7001
MC34067P
VCC
OSCC
15
7017
7018
SOFT
START
+
CURRENT
PROTECTION
3007
7
CONTROL
OA
ERROR
14
OB
12
11
SOST
FI
10
5
VREF
7004
7009
OVER
VOLTAGE
PROTECTION
BIAS SUPPLY 3000
5017 6080 6077 6078 5010
2003
5008 5007
4
2
5001
6
7007
HIGH
SIDE
DRIVE
7
7005
STP15NK50
10
7008
LOW
SIDE
DRIVE
9
7006
STP15NK50
5040
3
5
8
7
HOT
4
3
COLD
1
7002
TCET1102
2
7030
DC_PROT
DC_PROT
5002
9
10
5027
11
12
5028
6019
STPS20L40CFP
3
2
13
14
5025
15
6021
STPS20L40CFP
1
6021
STTH2003CFP
2
6014
16
5026
1
3
7010
TL431ACD
VS Voltage
Adj.
2020
2022
HOT COLD
1305
1
2
3
SA2 STANDBY
1305
1
2
3
+5V2
CONTROL
7505/7509/7560/
Prot-OVV
PROT_AUDIOSUPPLY
1306
1
2
1306
1
2
5504 5505
7100
7101
7105
7102
5104
COLD
HOT
5500
5 6
3
7
8 2
1
10
5110 6504 3509
6140
7507
7506
7512
STANDBY
7511
RES
2141
3406
1307
1
2
3
4
1307
1
2
3
4
CONTROL
3104
3150
3127
3100
6150
3V MAX
1V MAX STBY
6151 3155 3156
4
3
1
2
6107
5103 2513
3128
1
7501
TCET1102
2
3124 6122 3113
OVERVOLTAGE
PROTECTION
3158
PROT-OVV
4
3
7150
TCET1102
5506
+12V
+24Va
VTUN
+11V
2512
7531
RES
+12V
7131
+8V6
RES
+5V2
STANDBY
STANDBY: LOW = ON
HIGH = STBY
+5V_SW
SA1
1304
4
3
2
1
1304
4
3
2
1
STANDBY
CONNECTIONS
+12V_A
+12V_+24V
1316
1
2
3
4
5
TO
DISPLAY
1M10
1
2
3
4
TO 1301
K
IBO ZAPPER
(ONLY DVB SETS)
1M03
7
4
TO 1M03
SSB
1M46
11
9
1
2
TO 1M46
SSB
7
2H15
China
2H16
A4 SUPPLY PART B
25V_HOT_B
400V_HOT_B
7U17
7U18
SOFT
START
+
CURRENT
PROTECTION
3U28
11
7U01
MC34067P
VCC
OSCC
15
7
CONTROL
OA
ERROR
14
OB
12
11
SOST
FI
10
5
VREF
7U04
7U09
OVER
VOLTAGE
PROTECTION
BIAS SUPPLY 3U00
5U07
5U17
6U79 6U77 6U78
5U10
2003
5U08 8
7
4
2
5U01
6
7U07
HIGH
SIDE
DRIVE
7
7U05
STP15NK50
7U06
STP15NK50
10
7U08
LOW
SIDE
DRIVE
9
5U40
3
5
HOT
4
3
COLD
1
7U02
TCET1102
2
5U02
9
10
11
12
3U57
DC_PROT
DC_PROT
13
14
5U25
6021
STPS20L40CFP
1
15
16
5U26 3
2
3U52
7U10
TL431ACD
3U24
1U07
T5A
VS Voltage
Adj.
HOT COLD
2U22
+24V
2B91
6B91
6B93
2B93
5B93
5B91
5B92
1303
1
2
3
4
1303
1
2
3
4
+24V_2
1317
1
2
3
4
5
TO
DISPLAY
VSND_POS
VSND_NEG
1M02
DC_PROT 7
3
2
1
6
5
4
SA3
AUDIO
G_16220_004.eps
070206
Block Diagrams, Test Point Overviews, and Waveforms LC4.31E AB 6.
14
Block Diagram Video
VIDEO
B1 TUNER & VIF
+VTUN
+5SW_a
RF
IN
1152
UV1318S 6 7
11
2156
IF-TER 1
1154
4 VIF1
5 VIF2
FROM
IBO-TUNER
K6
See also
Block Diagram
IBO-ZAPPER
MAIN
TUNER
4 5 1 3154
B2 HERCULES
7217
TDA15021H
24
25
Sound
Traps
CVBS1
1
1156
RF_AGC
4
5
SIF1
SIF2
31
DC
AC
29
30
AGC
Detect
QSS/FM
QSS Mixer
AM Demod. AM
Video
Switch
+
Control c
HERCULES
RGB Matrix
Blue & Black
Strech
Gamma Corr.
RO
GO
BO
85 RO
86 GO
87 BO
7208
EF
7210
EF
7209
EF
B13 MUX-SYNC INTERFACE
FE00
R_OTC_SDTV
FE01
G_OTC_SDTV
FE02
B_OTC_SDTV
SC1_R_CVI_Pr_IN
SC1_G_CVI_Y_IN
SC1_B_CVI_Pb_IN
1
5
7
25
27
7E01
3
9
17 R-PR-ADC
14 G-Y-ADC
11 B-PB-ADC
I_PC_HD_SEL
SOG
R_PR+
G_Y+
B_PB+
B7 SCALER
7801
GM1501
C3
D2
C2
B2
SAT
Skin Tone
U/V Tint
Saturation
YUV
B3
For sets without
OTC-Flash (26”, 32”)
SYNC INTERFACE
B13
B13
B13
ANALOG
INPUT
PORT
B15A SCART ANALOG IO
1G02
20
1
16 FBL_HSYNC_OUT
RGB-R|YC-C_IN 15
11 RGB-G_IN
7 RGB-B_IN
8 STATUS_2_IN|OUT
19
SC2_Y_IN_1
B2
SC2_Y_IN
FRONT_Y_CVBS_IN
SC2_C_IN
FRONT_C_IN
DMMI_CVBS_IN|Y_IN
SC2_CVBS_MON_OUT
B2
7G02
EF
AV2_DMMI_SW
SC2_AV3_Y_IN
21
EXT 2
SCART 2
13
3
5
1
12
2
7G11
9
14
15
4
SC2_CVBS_MON_OUT
SC2_Y_IN_1
SC2_AV3_C_IN
CVBS_COMB
14
7219
9
B7 SC2_OUT_SW
1G01
19
7G03
EF
SC1_CVBS_RF_OUT
7206
EF
13
12
1 20 SC1_CVBS_IN
58
59
64
51
52
48
55
43
21
EXT 1
SCART 1
16
15
SC1_FBL_IN
CVI_Pr_IN
11 CVI_Y_IN
7 CVI_Pb_IN
8 STATUS_1
B2
B15B DMMI
SC1_FBL_IN
FBL_HSYNC_PIN16_IN
CVI_Pr_IN
DMMI_R_Pr_IN
CVI_Y_IN
DMMI_G_Y_IN
CVI_Pb_IN
DMMI_B_Pb_IN
DMMI_RGB_SW
B2
12
17
19
4
2
7
9
14
7G09
3
8
13
18
1,10,11,20
SC1_FBL_IN_1
SC1_CV1_DMMI_R_Pr_IN
SC1_CV1_DMMI_G_Y_IN
SC1_CV1_DMMI_B_Pb_IN
D
1G03
8 DMMI_CVBS_IN|Y_IN
14
FROM 1500
K5
See also
Block giagram
IBO-ZAPPER
12
10
DMMI_R_Pr_IN
DMMI_G_Y_IN
DMMI_B_Pb_IN
15 FBL_HSYNC_PIN16_IN
For DVB
Sets Only
SIDE AV
B2
SC2_AV3_Y_IN
DMMI_CVBS_IN
DMMI_RGB_SW
SC2_Y_IN_1
7G10
EF
5
3
7G07
12
7G06
4
7G08
EF
10,11
13
7G05
EF
7G04
EF
FBL_HSYNC_OUT
RGB-B_IN
RGB-G_IN
RGB-R|YC-C_IN
B17 SIDE
9
2
19
CONNECTIONS
1302
(1002)
VIDEO
IN
S-VHS 5
1301
(1001)
1
3
2
4
SVHS
FRONT_YCVBS_IN
FRONT_C_IN
1304
(1M36)
2
4
( ) 37” - 42” only
1K01
(1K04)
2 FRONT_YCVBS_IN
4 FRONT_C_IN
10,11
8
3
18
T OTC-FLASH
7007
MSM51V18165F
FLASH
ROM
512Kx8
7006
M29W160ET70N6E
FLASH
ROM
512Kx8
B2
B2,B13
B2,B13
B2,B13
DD(0-15)
AA(1-20) cvbs/y
(FOR 1000pg TXT)
Dig. 2H/4H
Combfilter
Y Delay Adj.
Yint
SCAVEM on text
Chroma
PAL/NTSC/
SECAM
Decoder &
Baseband
Delay
Uint
Vint
77 78 79 80
7001
SAA5801H/015
TV
CONTROL
83
84
5
96
77
78
79
74
78
79
RGB/Pr Pb Insert
YUV Interface
74 75 76 70 71 72
H
V
CVBS_COMB
INT_OTC
R_OTC
G_OTC
B_OTC
RESET_FLASH
SCL
SDA
1000
12
13
14
7
9
11
1
2
4
5
Peaking
SCAVEM
U/V Delay
Vertical &
East-West
Geometry
YUV in/out
VDRB 22 VSYNC 3
7436-2
4
H/V
Sync Sep
H-OSC
H-Shift
H-Drive
HOUT 67 HOUT 1
7436-1
2
(Only For 37” - 50” Sets)
N.C.
INTF_V_OUT
INTF_U_OUT
INTF_Y_OUT
B3
1442
7
9
11
1
2
4
5
12
13
14
SYNC INTERFACE
(TO OTC-FLASH)
Hsync_SDTV
Vsync_SDTV
CVBS_COMB
INT_OTC
R_OTC_SDTV
G_OTC_SDTV
B_OTC_SDTV
RESET_FLASH
SCL
SDA
B13
B13
B2
B7
B13
B13
B13
B2
B18 ADC
1G01
B14 DIGITAL IO
HDMI-1
1F02
1
9
10
12
3
4
6
7
1F03
1
3
10
12
4
6
7
9
HDMI-2
Vsync_SDTV
Hsync_SDTV
7L61/7L62
EF
7L51/7L52
EF
7L71
EF
7L72
VIN VOUT
COM
B15A
SCL
SDA
RX2+A
RX2-A
RX1+A
RX1-A
RX0+A
RX0-A
RXC+A
RXC-A
RX2+B
RX2-B
RX1+B
RX1-B
RX0+B
RX0-B
RXC+B
RXC-B
2
7L01
P3563M-LF
3
11
6
A/D
CONV.
9
37
38
SCART ANALOG IO
B3
B3
5
1
B10 SDRAM
AVSYNC
AHSYNC
7B01
K4D263238F
+2V5_DDR
95
7M01
MSM56V16
DRAM
512Kx16x2
B15b
B15b
B15b
SC1_CV1_DMMI_R_Pr_IN
SC1_CV1_DMMI_G_Y_IN
SC1_CV1_DMMI_B_Pb_IN
BINA|Pb
GINA|YINA
RINA|Pr
5
2
12
13
1
7E00
3
9
14
15
4
SC1_R_CVI_Pr_IN
SC1_G_CVI_Y_IN
SC1_B_CVI_Pb_IN
RGB|CVI_HDA_SEL B7
B13
B13
B13
B12
COL_Di(1-9)
COL_YA(1-9)
HDMI
C10
C9
C13
C12
C16
C15
G14
F14
A9
A10
A12
A13
A15
A16
F16
G16
Vsync_SDTV
Hsync_SDTV
7D03
SII9993CTG100
HDMI
PANELLINK
RECEIVER
7604
B19 COLUMBUS
A2
A1
D1
8
4
SDRAM
1Mx32x4
(Dig. PAL/NTC Comb)
7M00
T6TU5XBG
COLUMBUS
DIGITAL COMB
FILTER
H_HDMI
V_HDMI
HDMI_VCLK
COL_Do(1-8)
COL_YB(1-8)
HDMI_Y(0-7)
FSDATA
HDMI_CbCr(1-7)
FSADDR
L3
L4
C14
B14
D16
FRAME
STORE
CONTROL
DVI/HDMI
INPUT
PORT
SCALER
B20 PACIFIC3
LVDS_VCC
LVDSA-
LVDSA+
LVDSB-
LVDSB+
LVDSC-
LVDSC+
LVDSD-
LVDSD+
LVDSCLK-
LVDSCLK+
1N16
1
11
12
13
14
15
16
17
18
19
20
24
25
26
21
22
GRAPHIC
ZOOM
B9 SCALER
AE16
AF16
AE15
AF15
DISPLAY
TIMING
GEN.
AE14
AF14
AF12
AF11
AF13
AE12
VIDEO
ZOOM
OR
TXB0-
TXB0+
TXB1-
TXB1+
TXB2-
TXB2+
TXB3-
TXB3+
TXBC-
TXBC+
4N02
4N01
4N04
4N03
4N06
4N05
4N10
4N09
4N08
4N07
TXO0-
TXO0+
1N12
TXO1-
TXO1+
1N13
TXO2-
TXO2+
1N14
TXO3-
TXO3+
1N15
TXOC-
TXOC+
1N11
TXB0+
TXB0-
TXB1+
TXB1-
TXB2+
TXB2-
TXB3+
TXB3-
TXBC+
TXBC-
29
28
32
31
35
34
41
40
37
38
7N00
T6TF4AFG
LVDS
PACIFIC3
99
98
93
92
96
103
102
101
100
95
(RES For PIXEL+)
OR
LVDS_VCC
LVDSA-
LVDSA+
LVDSB-
LVDSB+
LVDSC-
LVDSC+
LVDSD-
LVDSD+
LVDSCLK-
LVDSCLK+
TXO0-
TXO0+
TXO1-
TXO1+
TXO2-
TXO2+
TXO3-
TXO3+
TXOC-
TXOC+
1N17
1
11
10
12
14
13
15
19
18
20
27
26
28
22
21
23
UART
INTERFACE
MICRO
CONTROLLER
INTERNAL
RAM
B11 FLASH/CONTROL
7C03
M29W400DT55N6E
OCMDATA
EXTERNAL
ROM
INTERFACE
OCMADDR
FLASH
ROM
512Kx8
G_16220_005.eps
070206
Block Diagrams, Test Point Overviews, and Waveforms LC4.31E AB 6.
15
Block Diagram Audio & Control
AUDIO
B1 TUNER & IF
RF IN
1152
UV1318S
TUNER
IFOUT
11
F158
IF-TER
2156
1
1156
2
3
4
5
FROM
IBO-TUNER
K6
See also
Block Diagram
IBO-ZAPPER
4 5
B2
SEL_IF_SDM
B15A SCART ANALOG-IO
EXT 1
SCART 1
1
1G01-1
6 AV1_Audio_INL
2 AV1_Audio_INR
7151
B14 DIGITAL IO
21
SIDE_AudioINL
SIDE_AudioINR
EXT 2
SCART 2
1
1G02-1
6
2
AV2_Audio_INL
AV2_Audio_INR
DMMI_AudioINL
DMMI_AudioINR
SIDE_AudioINL
SIDE_AudioINR
21
1G02-2
AUDIO
L/R IN
HD_AudioINL
HD_AudioINR
SIF1
SIF2
33
12
4
11
5
14
2
15
1
7F03
3
13
Analog_AudioINL
Analog_AudioINR
10 9 Analog_AudioSEL1
Analog_AudioSEL2
HD_AudioINL
B7
HD_AudioINR
49
50
34
35
D
AUDIO
L/R IN
B14
1F01
SIDE AV
1302
DIGITAL IO
1F02
1F03
DVI_D_AudioINL
DVI_D_AudioINR
L_FRONT_IN
R_FRONT_IN
HDMI_A
HDMI_B
1304
(1M06)
6
8 8
B12 HDMI
7D03
TDA9975
HDMI
10-BIT
VIDEO
CONVERTER
A5
A7
B7
DVI_D_AudioINL
DVI_D_AudioINR
B17 SIDE CONNECTORS
1K01
(1M06)
6 FRONT_L_IN
FRONT_R_IN
1
3
2
7D04
UDA1334ATS
DAC
14
16
HDMI_AudioINL
HDMI_AudioINR
B2 HERCULES
29
7217
TDA15021H
30
AM
QSS Mixer
AM Demod.
QSS/FM
56
57
53
54
AD Conv.
Std Stereo
Decoder
AUDIO
SELECT
ADC/DAC
I2S
Processor
B15B DMMI (IBO-ZAPPER2)
FROM 1500
K5
1G03
6
See also
Block giagram
IBO-ZAPPER
4
DMMI_AudioINL
DMMI_AudioINR
DMMI_AudioINL
DMMI_AudioINR
CONTROL
E KEYBOARD CONTROL
Channel+
Channel-
Menu
Volume+
Volume-
Power
J IR/LED/LIGHT-SENSOR
REMOTE
CONTROL
LIGHT
SENSOR
LED
GREEN
LED
RED
LED
SELECT
1309
1310
3324
1311
1312
1313 KEYBOARD
RC
LIGHT-SENSOR
LED_SEL
PC-TV-LED
B17
1684
(1M01)
2
1K02
(1M01)
2
1870
(0345)
3
1K00
3
1
2
+3V3STBY 5
4
6
1
2
5
4
6
SIDE CONNECTORS B2 HERCULES
7217
TDA15021H
KEYBOARD
RC_OUT
LSIPDP_DVB_SEMISTANDBY
+3V3STBY
LED_SEL
B3 SYNC INTERFACE
3431
+3v3STBY
7430
6430
3432
+5VSW
P50_LIN2_ITV_IR_SW_RST
RES
PC-TV-LED
123
107
120
97
115
HERCULES
114
116
119
102
111
122
127
10
11
SEL_IF_SDM
4204
4205
SERVICE
SDM
STATUS_1
STATUS_2
EXT_MUTE
SOUND-ENABLE
SC_STANDBY
AV2_DMMI_SW
1202
24M576
AUDIO
CONTROL
Vol/Treb/
Bass
Features
DACs
61
60
36
37
4211
4212
AUDOUTLSR
AUDOUTLSL
62 HER_SC2_AudioOutL
63 HER_SC2_AudioOutR
OUT_MUTE
B5 AUDIO PROCESSING
2
6
7601
TS482ID
OUT_MUTE
AUDIO-R
AUDIO-L
PROTECT_AUD
SOUND-ENABLE
POR_AUDIO
1
7
B16
1J04
3
7606
MUTE
1
7
8
9
OR
1
7
8
9
C
1002
3
8
9
AUDIO AMPLIFIER
(CLASS-D)
AUDIO-R
AUDIO-L
SOUND-ENABLE
FOR 26” & 32” ONLY
SA3 AUDIO
1739
1 AUDIO-L
3
7
AUDIO-R
SOUND-ENABLE
POR-CLASSD
PROT_AUDIOSUPPLY
FOR 37”ONLY
B17 SIDE
CONNECTORS
7004
PHASE
INVERTER
D
7001
TDA8931T
7
POWER
COMPARATOR
OUT
4
IN+
SIDE AV
HVPI
16
13
1001
4
3
7000
TDA8931T
7
POWER
COMPARATOR
OUT
4
IN+
HVPI
16
13
2
1
RIGHT
SPEAKER
LEFT
SPEAKER
10
6
18
7700
TDA7490 stbymute
PWM
OSC
PWM
3
23
5702
5701
7701÷7707
PROT1
SOUND
ENABLE
7708÷7711
AUDIO SUPPLY
PROT, CIRCUIT
DCPROT
6703
6702
3764
3761
-16 V-19V
+16 V+19V
5731
5730
1M02
7
1
5
TO 1002
SA
SUPPLY
1736
1
2
3
1735
1
2
3
LEFT
SPEAKER
RIGHT
SPEAKER
HP_LOUT
1K01
10
1304
(1M06)
10 HEAD_PH_L
1303
7
OUT_MUTE
3
7602
74HC08PW
&
2
1
6 &
8 &
5
9
10
HP_DET_R_DC_1
SOUND_ENABLE B2
POWER_DOWN
EXT_MUTE
B16
B2
HP_ROUT
HP_DET_R_DC_1
12
11
B15A SCART ANALOG-IO
12
11
HEAD_PH_R
HP_DET_R_DC1
1
2
HEADPHONE
1
SC1_L_RF_OUT SC1_L_RF_OUT
1G01-1
3
7201
MUTE
SC1_R_RF_OUT
SC1_L
SC1_R
SC2_L_MON_OUT
7202
SC2_R_MON_OUT
SC2_L
MUTE
SC2_R
SC1_R_RF_OUT
SC2_L_MON_OUT
SC2_R_MON_OUT
1
1G02-1
3
1
21
EXT 1
SCART 1
1
21
EXT 2
SCART 2
B1
B15A
B15A
B5
B5
B6
B15B
B15A
B15B
12
13
2
1
7G07
10
15
14
DMMI_SC2_REC_SEL
B6 DC-DC CONVERTER
B8
PANEL-PWR-CTL
+12VSW
3758
5756
7755
+3V3STBY
3759
7756
7754
5757
7758
PAN_VCC
5700 LVDS_VCC
+3V3SW
B2
SC_STANDBY
G_16220_006.eps
070206
Block Diagrams, Test Point Overviews, and Waveforms LC4.31E AB 6.
16
Block Diagram IBO Zapper
IBO - ZAPPER 2 PANEL (DVB)
K6 FRONT END
+5VClean
FROM
MAIN TUNER
B1
SSB
RF-IN
I2C_TDA_SDA
I2C_TDA_SCL
+5V
+5V +5V
K1 dsp_EEPROM_WP
5 6
7
7602
M24C256
EEPROM
7600
TDA10046HT
1600
TD1316L
9 8
K1
RESET_FE-N 9
11
TUNER
14
15
IF1
IF2
62
61
COFDM
CHANNEL
DECODER
10 5 13
IF-AGC
AGC-TUN
2
1
2
3
7601-1
LM393D
1 COMB-OUT 21
3630
4
3631
3
I2C_LOCAL_SDA
3625
8
I2C_LOCAL_SCL
3629
6
COFMD
2
7605
74AHC1GU04GW
4
INVERTER
2
7606
74AHC1GU04GW
INVERTER
4
X-IN 54
4MHz_MOJO K1
38
37
36
35
33
25
1700
1
35
K7
PCMCIA-A (0-7)
A_MD (0-7) + A_MDO (0-7)
CONTROL LINES
7701
74LVC573ADB
CONTROL
MIU_ADDR (0-7)
K7
LATCH
7702
74LVC573ADB
CONTROL
PCMCIA-A (8-14) MIU_ADDR (8-14)
PCMCIA-D (0-7)
K7
LATCH
7703
74LVC245A
CONTROL
BUS
TRANS
CEIVER
MIU_DATA (0-7)
TDA_DAT (0-7)
TDA_CLK
TDA_VALID
TDA_SYNC
UNCOR
K7
FE_LOCK
K1
K7 COMMON INTERFACE
7700
STV0700
MPEG
50
48
49
TS
IN
TS
INTER
FACE
TS
OUT
63
62
61
TS_DATA (0-7)
TS_CLK
TS_SYNC
TS_VALID
PCMCIA
CONTROLLER
MIU_ADDR (15-24)
K7
VCCEN
UCSG
3
7705
ST890C
8
CURRENT
SWITCH 6
7704
FXO-31FT
OSC
27MHz
PCMCIA_5V
FAULT 12
35
INTERRUPT
MANAGEMENT
I2C_LOCAL_SCL
3700
31
I2C_LOCAL_SDA
3701
30
ICC
INTERFACE
K6
FE_LOCK
34
68
K2 FLASH MEMORY +5V
K1 MOJO
7100
PNX8316HS
29
30
28
TS
IN
34
AV
MOJO
I2C
GPIO
AV
GPIO
I2C
172
165
163
182
206
15
14
198
199
201
200
167
9
8
180
181
202
203
204
205
3134
3135
3133
3164
K5 ANALOG BACK END
MOJO_I2S_OUT_SD
MOJO_I2S_OUT_SCK
MOJO_I2S_OUT_WS
MOJO_SYSCLK
C_CVBS
G/Y
B/Pb
R/Pr
AR1
AR2
7502
UDA1334ATS
3
1
2
6
AUDIO
DAC
16
14
5512
FILTER
5513
FILTER
5514
FILTER
7500
7501
7503
7504
7512 7511
7507
7521÷7523
7524÷7526
7527÷7529
7520
7518÷7819
K4 INTERFACE
SPDIF
7402
EF
TXDO
USB_OVRCUR
USB_PWR
USB_DM
USB_DP
+5V_USB
3420
RXDO
2
7403
LM3525
7
1
Power Switch and
Over-current
Protection 6,8
3421
R1
L1
CVBS_VCR
GREEN/Y
BLUE/U
RED/V
I2C_TV_SDA
I2C_TV_SCL
TV_IRQ
TV_IRQ
I2C_LOCAL_SDA
I2C_LOCAL_SCL
5
7203
M24C64
6
7
EEPROM
8KX8 user_EEPROM_WP
7
6
185
GPIO
K3 POWER SUPPLY
+12V 5309
1304
F500mA
5301
7300
MC34063AP1
6
SUPPLY
2
5300
1500
4
6
8
12
TO 1G03
B15B
LC4.x (EUR)
10
1401
SPDIF
OUT
1402
1
2
3
UART
CONN.
FOR
COMPAIR
ONLY
VBUS
USB_D-
USB_D+
1403
1
3
4
2 USB
CONNECTOR
(Reserved)
+12V
+12V_A
1301
1
2
3
TO X220
OR 1M10
PSU
7200
M29W320DT
EPROM
NOR
FLASH
MIU BUS
7201
M58LWO32A
NOR
FLASH
(optional)
7202
K4S281632F
SYNC
DRAM
4x2Mx16
MIU_ADDR
MIU_DATA
SDRAM_DATA
SDRAM_ADDR
MIU
SDRAM
+3V3
5304
5306
7303
MC34063AP1
6
SUPPLY
2
7305
MC34063AP1
6
SUPPLY
2
7306
NCP303LSN30
2
POWER
ON
RESET
1
RESET_n
K1 K2
5303
5305
7311
7309
7310
CONTROL
7301
LD1117V18
IN OUT
COM
7302
LD1117V18
IN OUT
COM
7307
LD1117V50
IN OUT
COM
7308
LD1117V50
IN OUT
COM
5302
+3V3
+3V3
CLEAN
+1V8FE
+1V2_MOJO
+5V
+5V
CLEAN
G_16220_007.eps
070206
14
1
2
3
25
Block Diagrams, Test Point Overviews, and Waveforms LC4.31E AB
I
2
C Overview
I²C
B2 HERCULES B8 SCALER
+3V3STBY +3V3SW
7217
TDA15021H
109
108
7221
HERCULES
SET
PROCESSOR
ERR
6
5
104
+3V3STBY
NVM_WP_HERC
7207
M24C16
7
EEPROM
NVM
6
+3V3SW
ERR
9
7220
SDA
SCL
N1
7801
GM1501H
SCALER
N2
ERR
4
+3V3STBY
M1
B7 SCALER
M2
+3V3SW
6.
B1 TUNER & IF
17
B19 COLUMBUS
5
1102
UV1318S
TUNER
4
ERR
10
UART_TX
3172
UART_RX
3173
SDA
1151
1
SCL 2
3
+3V3STBY
SERVICE
CONNECTOR
COMPAIR
1177
1
2
3
A15 B15
7M00
T6TU5XBG
COLUMBUS
CTRL
ERR
11
B11 FLASH / CONTROL
SERVICE
CONNECTOR
UART
B12 HDMI
ADDRESS
DATA
ADDRESS
DATA
P3
P4
AF5 NVM_WP_SCALER
AF7
AD6
OCMADDR
OCMDATA
+3V3_IO
JTAG_TDI_SDA
JTAG_CLK_SCL
1802
2
1
JTAG
I2C
FSADDR
FSDATA
SDA_IO
SCL_IO
5
7C01
M24C32
6
7 EEPROM
ERR
8
7C03
M29W400D
ERROM
B10 SDRAM
7B01
K4D263238F
SDRAM
ERR
14
B3 SYNC INTERFACE
1442
14
13
T
1000
14
13
OTC-FLASH
B18 ADC
38
7L01
P3563M
ADC
37
ERR
7
86 85
7001
SAA5801H/
TV
CONTROL
ERR
15
+5VHDMI_A
75 74
7D03
SII9993CT
HDMI
PANELLINK
RECEIVER
ERR
13
K16
K15
+5VHDMI_B
J16
J15
5
7D01
M24C02
6
EEPROM
256x8
B9 SCALER INTERFACE
3
2
7A00
PCA9515ADP
6
7
5
7D00
M24C02
6
EEPROM
256x8
B14 DIGITAL I/O
DOC_SDAA
1F02
16
DOC_SCLA 15
DOC_SDAB
1F03
16
DOC_SCLB 15
2x HDMI
CONNECTOR
(Only For 27” - 42” Sets)
B20 PACIFIC3
4N30
4N31
SDA_PF3
SCL_PF3
198 200
7N00
T6TF4AFG
PACIFIC3
MISC
202
204
+3V3SW
1N03
1
SSDA 2
SSCL
3
4
ERR
16
192
191
194
188
187
193
FOR PACIFIC3
PROGRAMMING (N.S.)
SPI_SO
SPI_SCK
SPI_CS
SPI_WP
SPI_RST
SPI_SI
1
3
7
2
5
6 7N02
M25P05
Flash
512k
+3V3SW
1N04
1
2 SDA
SCL 3
4
FOR
DEVELOPMENT
USE ONLY (N.S.)
SDA_DMA_BUS1_DISP
SDA_DMA_BUS1_DISP
1N17
(1G50)
31
30
TO
DISPLAY
4A01
RES
4A00
FOR PDP ONLY
(Depending on screen manufacturer)
(OPTIONAL PIXEL+)
112
113
SWHW_I2C_SDA
SWHW_I2C_SCL
B15B DMMI
ERR
17
IBO ZAPPER2
(Only For DVB Sets)
K5 ANALOGBACKEND K6 FRONT END
1G03
1
2
For DMMI
1500
1
2
3513
3512
I2C_TV_SDA
I2C_TV_SCL
I2C_TDA_SDA
I2C_TDA_SCL
+5V
K1 MOJO
I2C_local_SDA
I2C_local_SCL
K4 INTERFACE K2 FLASH
MEMORY
+5V
K7 COMMON
INTERFACE
9
1600
TD1316L
TUNER
DIGITAL
8 5
7602
M24C256
EEPROM
6
RES
4 3 8 6
7600
TDA10046
COFDM
CHANNEL DECODER
9 8 7
7100-6
PNX8316HS
MOJO
(I2C-USB-SCO)
6
7100-7
PNX8316HS
MOJO
(GPIO)
15
14
TXD0
RXD0
1402
1
2
3
UART
CONNECTOR
FOR COMPAIR
5
7203
M24C64
EEPROM
8kx8
6 30 31
7700
STV0700
PCMCIA
CONTROLLER
G_16220_008.eps
090206
Block Diagrams, Test Point Overviews, and Waveforms
Supply Voltage Overview
SUPPLY LINE OVERVIEW
B16 TOP CONNECTORS
SUPPLY
PANEL 26”- 32”
(PSU)
8
9
6
7
1J02
1
2
3
4
5
10
11
12
26” SETS
VP
1J03
1
+3V3STBY
POWER_DOWN
STANDBY
BACKLIGHT_CTRL
LAMP_ON_OFF
5J03 +12VSW
SUPPLY
PANEL 37”
(PSU)
TO 1M02
SA1
STBY-SUPPLY
TO 1301
K3
IBO ZAPPER2
(DVB)
8
9
6
7
4
5
2
3
1J01
(1M46)
1
N.C
.
N.C
.
N.C
.
10
11
N.C
.
1J07
1J08
4J01
37” SETS
+12VUFD
+5V_UFD 5J04 +5V
TO 1M02
SA1
STBY-SUPPLY
8
9
6
7
10
4
5
2
3
1J00
(1M03)
1
N.C
.
N.C
N.C
.
.
RES
UFD CONTROL
BACKLIGHT_CTRL
LAMP_ON_OFF
FAN_SPEED
STANDBY
PROTECT_AUD
POWER_UP_OK
TO 1M02
A2
SUPPLY 37”
OR 1M02
A4
SUPPLY 42”
SA3 AUDIO
1M02
6
5
2
1 5723
5707
5711
+16V+19V 7712
-16V-19V
(Only For 37” Sets)
1301
K3
IBO ZAPPER2
(DVB)
7713
2797
2798
+16V+19V
-16V-19V
-Vf21
-Vf11
-Vf1
Vp
Vm
1003
C
B1,B2,B3,
B5,B8,B9,
B15b
B6
B3,B6
B6,B16
B16
B6
B6
B6
B5,B6,B9
B6
B8
B8
B6
B8
B8
B6
B16
B6
B6
B6
B6
B6
B6
B16
B6
B6
B6
LC4.31E AB 6.
18
B1 TUNER & IF
+5VSW
5152
5153
+VTUN
+3V3STBY
+5VSW
+5VSW_a
+5VSW_b
+VTUN
+3V3STBY
B16
B2 HERCULES
+3V3STBY
3265
7215
3264
7216-1
3263
7217
3262
7216-2
+5VSW
+8VSW_TV
+3V3SW
+3V3STBY
+1V8_A
+1V8_B
HERCULES
+5VSW
+8VSW_TV
+3V3SW
B3 SYNC INTERFACE
+3V3STBY
+3V3SW
+5VSW
+5V
+12VSW
B16
+3V3STBY
+3V3SW
+5VSW
+5V
+12VSW
B6
B16
B6
B4 AUDIO DELAY LINE
(FOR PDP SETS ONLY)
+5VSWI
5501
+5VSWI
+5VD
B5 AUDIO PROCESSING
+3V3SW
+3V3STBY
+5VSW
+5V
+3V3SW
+3V3STBY
+5VSW
+5V
B7 SCALER
+1V8_CORE
+2V5_DDR
+3V3SW
+3V3_IO
+3V3_PLL
+1V8_CORE
+2V5_DDR
+3V3SW
+3V3_IO
+3V3_PLL
B6
B6
B16
B6
B16
B6
B8 SCALER
+3V3STBY
+3V3SW
B9
+5V
DC-DC CONVERTER
+12VSW
STEP
DOWN
CONTR
(Supply to Tuner & Hercules)
+12VSW
5738
7738
IN OUT
COM
+8VSW_TV
5752
7752
DC/DC
Converter
5753
5754
5730
7730
PWR
REG
5733
+5VSWI
6735 +VTUN
5737 +5VSW
7754
5757
(For 26”-42” Screen)
5700
PAN_VCC
LVDS_VCC
7758
PANEL-PWR-CTL
(For 37”-50” Large Screen)
7758
5717 5713
7754
SC_STANDBY
5704
7708
IN OUT
COM
5900
5901
5902
5903
5904
5905
5906
5907
7900
IN OUT
COM
5908
7901
IN OUT
COM
5909
5910
5911
SCALER INTERFACE
+3V3SW
+3V3STBY
+5VSWI
+5V
+3V3SW
+5V
+3V3STBY
+3V3STBY
+3V3SW
3V3_PLL
3V3_ADC
3V3_DVI
3V3_IO
3V3_LBADC
3V3_LVDSA
3V3_LVDSB
3V3_LVDS
+2V5_DDR
+1V8
+1V8_ADC
+1V8_DV1
+1V8_CORE
B6,B16
B6
B6
B7
+3V3SW
+3V3STBY
+5VSWI
+5V
B8
B2,B3,B5,B7,
B8,B9,B11,B12
B13,B19,B20
B6
B6
B1,B2,B3,B5,
B8,B9,B15b
B6
B7
B6
B6,B16
B6
B7,B11
B7,B10
B18
B10
B13 MUX-SYNC INTERFACE
B14
B15A SCART ANALOG IO
B15B
SDRAM
+2V5_DDR
B2
B15b
B11 FLASH / CONTROL
+3V3_IO
B8
B6
B4,B9,B19
B13 +3V3SW
B14
B1
B1,B2,B3,B5
B15a,B15b,
B17
B12 HDMI
+5VHDMI_A
+5VHDMI_B
B14
+3V3SW
B6
B20
+3V3SW
+5VSWI
5D06
5D00
5D01
5D02
7D02
IN OUT
COM
DIGITAL IO
+5VSWI
1F03
DVI
1F02
18
DVI
18
+5VSW
+3V3STBY
+5VSW
+8VSW_TV
B17
+3V3STBY
+5VSW
DMMI
5K00
5K01
3B01
5D05
5D03
5D04
SIDE CONNECTORS
+2V5_DDR
FSVREF
+3V3_IO
+3V3SW
+5VHDMI_A
+5VHDMI_B
+3V3SW
VDDA_3V3PLL
VDDA_3V3
VDDD_3V3
VDDI_3V3
VDDC_1V8
VDDA_1V8
VDDD_1V8
+3V3SW
+5VSWI
+5VSWI
+5VHDMI_A
+5VHDMI_B
+5VSW
+3V3STBY
+5VSW
+8VSW_TV
+3V3STBY
+3V3STBY_1
1K00
5
+5VSW_1
+5VSW
1K01
7
B19
B8
B6
B6
B6
B6
B18 ADC
+5VSWIA
+2V5_DDR
B19 COLUMBUS
+3V3SW
+5VSWI
B20 PACIFIC3
+3V3SW
LVDS_VCC
7L02
IN OUT
COM
5L21
5M03
5M04
7N04
IN OUT
COM
7N03
IN OUT
COM
5L01
5L11
5L17
5L19
5N04
5N06
5N05
5N03
K2 FLASH MEMORY
+3V3
+5VSWIA
+3V3
K3
+3V3SWB
VDDP
VADC
VPLL
VMPLL
K3
+5V
5201
5200
+3V3_NOR48
+5V
(ONLY FOR DVB SET)
+2V5_DDR
VDDC
+3V3SW
+3V3SWA
+5VSWI
+5VSWIA
+3V3SW
K3 POWER SUPPLY
X220(26”)
1M10(37”-42”)
PSU
1301
1
5309
1304
6
7300
MC34063AP1
SUPPLY
2
5300
7311
+12V
+12V_A
+3V3
5302 3V3clean
B18
5304
5306
7301
IN OUT
COM
+1V8FE
6
7303
MC34063AP1
SUPPLY 2
5303
7302
IN OUT
COM
+1V2_MOJO
7305
6
MC34063AP1
5308
SUPPLY
2
7307
IN OUT
COM
+5V
+1V5
1V5CORE
7308
IN OUT
COM
+5Vclean
(ONLY FOR DVB SET)
+1V5PLL
+2V5PLL
+2V5VDD
LVDS_VCC
K3
N.C.
K4 INTERFACE
+3V3
+5V_USB
+3V3
+5V_USB
(ONLY FOR DVB SET)
1442
B3
B12
T OTC-FLASH
(FOR 1000pg TXT)
1000
6
+3V3SW
5001 +3V3_INTOTC
K3
K3
K5 ANALOG BACK END
+3V3
+3V3clean
+3V3
+3V3clean
B12 (OPTIONAL)
K3
+5Vclean
5515
+5Vclean
+5V_amp
+12V_A
1J03
B16
C CLASS D AUDIO AMPLIFIER
1003
3
5001
3001
VP
VP_SGN
(Only For 26” - 32” Sets)
K3
K3
+12V_A
(ONLY FOR DVB SET)
K6 FRONT END
+1V8FE +1V8FE
D
1304
7
SIDE-AV
+5VSW
K3
+3V3
5801
+3V3
+3V3_FE
1K01
B17
+5V +5V
K3
+5Vclean +5Vclean
(Only For 26” - 32” Sets)
J IR / LED / LIGHT-SENSOR
1870
5
+3V3STBY
K3
(ONLY FOR DVB SET)
K1 MOJO
+1V2_MOJO
K3
K3
K3
1304
D
3V3clean
+3V3
5100
(ONLY FOR DVB SET)
+1V2_MOJO
3V3clean
+3V3
+3V3_MOJO
K3
K3
K7 COMMON INTERFACE
+3V3
5703
5704
5702
+5V
7705
1 CURRENT
SWITCH
7
5700
5701
(ONLY FOR DVB SET)
+3V3
+3V3_STV
+3V3_CORE
+3V3_BUF
+5V
PCMCIA_5V
PCMCIA_VPP
PCMCIA_AVCC
K5
K1,K2,K4,
K5,K6,K7
K1,K5
K6
K1
K2,K5,
K6,K7
K6
1308
G_16220_009.eps
070206
Circuit Diagrams and PWB Layouts
7.
Circuit Diagrams and PWB Layouts
LC4.31E AB 7.
19
A
B
C
D
E
F
G
H
I
IBO Zapper Panel: MOJO
K1
K1
K2
K7
K7
K7
K7
K7
K7
TS_DATA(0)
TS_DATA(1)
TS_DATA(2)
TS_DATA(3)
TS_DATA(4)
TS_DATA(5)
TS_DATA(6)
K7
K7
TS_DATA(7)
1
MOJO
MIU_WEN
NOR_RYBY
K3
K6
RESET_n
4MHz_MOJO
2
2V2
2V2
2V2
2V2
2V2
2V2
2V2
2V2
24
25
26
27
20
21
22
23
6
7
4
5
2
3
0
1
TS_DATA
7100-2
PNX8316HS
(TS)
TS_SYNC
TS_STROBE
TS_VAL
30 0V TS_SYNC
K7
29 1V6
TS_CLK
K7
28 1V3
TS_VALID
K7
7100-3
PNX8316HS
3
3114 RES
10K
3138
10K
4102
3119 10K
3115 10K RES
3116 10K
3117
3100
10K
10K
4104
K5
K5
K5
K4
K5
MOJO_I2S_OUT_SD
3135
MOJO_I2S_OUT_SCK
3134
MOJO_I2S_OUT_WS
3133
SPDIF
MOJO_SYSCLK
1V
22R
0V
22R
1V6
22R
202
203
204
206
3142
3164
100R
205
22R
RES
K2, K6, K7 I2C_LOCAL_SCL
K2, K6, K7 I2C_LOCAL_SDA
K5 I2C_TV_SCL
K5 I2C_TV_SDA
SD_OUT
SCK_OUT
WS_OUT
SPDIF
FSCLK
(AV)
CVBS
Y
C
CVBS
Y
CVBS
B
G
Y
R
C
168
172
0V C_CVBS
170
163 0V
165 0V
167
0V
B|Pb
G|Y
R|Pr
K5
K5
K5
K5
F133
F134
3143
3144
F136
4100
F135
3 2
7103
BSN20
3
4101
1
2
7104
BSN20
RES
+3V3_MOJO
1 +3V3_MOJO
RES
I100
3146
I101
3147
+3V3_MOJO +3V3_MOJO
K4 USB_OVRCUR
K4 USB_PWR
K4 USB_DM
K4 USB_DP
3139 123 6147.1
1 2 3
4
100R
100R
4V6 6
4V6 7
100R 3V3 8
100R 3V3 9
36
198
39
7100-6
PNX8316HS
SCL0
(I2C-USB-SCO)
SC0_CMDVCC
SDA0
USB_PWR
SCL1
USB_DP
SDA1
USB_DM
SC0_DA
SC0_CCK
USB_OVRCUR
SC0_RST
SC0_OFF
37
199
200
201
40
38
4
+1V2_MOJO
5103
100MHz
2133
1V2clean
10u
PCST0_0
PCST0_1
DSU_CLK
PCST0_2
5
+1V2_MOJO
FOR DEV. ONLY
5101
100MHz
5102
100MHz
2100
10u
2101
10u
2102
10u
5
6
6
0V
0V
0V
F125
0V
0V
0V
3101
10K
CONFIGURABLE
4105
4110
4106
4107
4109
RES
+3V3
7
1V2_CORE
2112 100n
2113 100n
2114 100n
2115 100n
1V2
2116 100n
2103 100n
191
3V3
10
2104 100n
2105 100n
43
60
2106 100n
2107 100n
76
94
2108
2109
100n
100n
2110 100n
2111 100n
111
130
161
190
41
78
119
134
2132
10u 16V
2131
10u 16V
2130
10u 16V
+3V3_MOJO
7
F106
F107
F110
F112
F113
F105
F108
F114
F109
F111
JTAG_TCK
JTAG_TRST
JTAG_TMS
STV_TDI
10046_TDO
3113
RES
VDDC
VDDP
2122
RES
8
MOJO_TRST
MOJO_TDI
10046_TDO
MOJO_TMS
MOJO_TCK
RESET_n
PCST0_0
PCST0_1
PCST0_2
DSU_CLK
FTSH-114-01-L-DV
ROW_1
1100-1
MOJO_TRST
MOJO_TDI
10046_TDO
MOJO_TMS
MOJO_TCK
1
5
9
3
7
RESET_n
PCST0_0
PCST0_1
PCST0_2
DSU_CLK
TPCI
PCST1_0
11
13
15
17
19
21
23
25
27
8
10
12
14
2
4
6
16
18
20
22
24
26
28
ROW_2
1100-2
PCST1_1 FTSH-114-01-L-DV
PCST1_2
7100-1
PNX8314HS
(PWR)
VSSC
VSSP
0
AVDD 1
2
IDUMP
1
2
192
11
44
61
77
95
112
131
42
79
120
135
162
193
175
169
164
171
166
174
173
1V2
I105
2119
+3V3clean
100n
2120
100n
2121
100n
8
9
11
13
15
17
7
9
1
3
5
19
1101
FTR
20
FOR DEV.
ONLY
8
10
12
14
16
18
2
F138
4
6
9
+3V3_MOJO
DSW_n
10 11 12 13 14
K2 SDRAM_DATA(0)
K2 SDRAM_DATA(1)
K2 SDRAM_DATA(2)
K2 SDRAM_DATA(3)
K2 SDRAM_DATA(4)
K2 SDRAM_DATA(5)
K2 SDRAM_DATA(6)
K2 SDRAM_DATA(7)
K2 SDRAM_DATA(8)
K2 SDRAM_DATA(9)
K2 SDRAM_DATA(10)
K2 SDRAM_DATA(11)
K2 SDRAM_DATA(12)
K2 SDRAM_DATA(13)
K2
SDRAM_DATA(14)
K2 SDRAM_DATA(15)
K6 RESET_FE_n
K7 RESET_STV
K2 user_EEPROM_WP
K6 dsp_EEPROM_WP
K6 FE_LOCK
K2 NOR_RYBY
K2
NOR_WP
K7
K7
STV_INT
STV_A25
RS232_DSR
N.C.
CTSN0
N.C.
RTSN0
K4 RXD0
K4 TXD0
DCD0
0V
0V
0V
3V3
0V
0V
0V
3V3
3V3
0V
0V
0V
0V
33
34
48
49
12
13
35
45
46
47
14
15
16
0V 113
2V6 114
2V6 115
2V6 116
2V6 117
2V6 118
0V 121
2V3 122
2V9 132
2V5 129
0V 128
2V5 127
2V3 126
2V3 125
0V 124
2V3 123
3V3
0V
4V6
31
32
185
7100-4
PNX8316HS
(SDRAM)
10
11
12
13
14
15
0
1
2
3
4
5
6
7
8 SDRAM_DATA
9
SDRAM_ADDR
6
7
8
9
2
3
4
5
10
11
12
13
14
0
1
DQM0
DQM1
CAS
RAS
WE
CKE
HSCKB
7100-7
PNX8316HS
7100-5
PNX8316HS
K2, K7
K2, K7
K2
K2
K2
K2
K2
MIU_DATA(0)
MIU_DATA(1)
K2, K7
K2, K7
K2, K7
K2, K7
K2, K7
K2, K7
K2
K2
K2
MIU_DATA(2)
MIU_DATA(3)
MIU_DATA(4)
MIU_DATA(5)
MIU_DATA(6)
MIU_DATA(7)
MIU_DATA(8)
MIU_DATA(9)
3157-1
3157-3
8
3158-1
3158-3
3156-1
3156-3
3159-1
3159-3
3157-2
3157-4
6
8
6
8
6
8
6
7
MIU_DATA(10) 3158-2
MIU_DATA(11)
3158-4
MIU_DATA(12)
3156-2
MIU_DATA(13)
MIU_DATA(14)
3156-4
3159-2
MIU_DATA(15)
3159-4
5
7
5
7
5
7
5
K7 MIU_RDY
K2
K7
NOR_CS
STV_CS
K2, K7 MIU_OEN
K1, K2, K7
MIU_WEN
3160
33R
3161
3V3
33R
3V3
3162
33R
33R
69 0V
1
3
1
3
1
3
1
33R
33R
67
65
33R 63
33R 59
33R 57
33R 55
33R 53
3
2
4
2
33R
33R
68
66
4
2
4
2
4
3V3
33R 64
33R 62
33R 58
33R 56
33R
33R
54
52
109
0V
0V
0V
0V
0V
0V
0V
0V
0V
0V
0V
0V
0V
0V
0V
3V3
3V3
74
73
72
71
70
108
106
0
1
2
10
11
12
13
14
15
8
9
6
7
3
4
5
MIU_DATA
MIU_RDY
MIU_CS_N0
MIU_CS_N1
MIU_CS_N2
(MIU)
MIU_ADDR
9
10
7
8
5
6
3
4
11
12
13
14
15
20
21
22
23
24
16
17
18
19
0
1
2
MIU_CS_N3
MIU_MASK1
MIU_OE_N
MIU_LBA
MIU_WEN
MIU_BAA
MIU_MASK0
MIU_CLK
10 11
SC1_RST
SC1_OFF
SC1_CCK
CTS0
RTS0
RX0
TX0
DCD0
PLL_OUTX0
PIO <0:15>
IR_IN
IR_OUT
PWM
VS
(GPIO)
VPP
C4
C8
SC1_DA
SC1_CMDVCC
DTR0
VCXO_CLOCK
RX1
TX1
BOOT <0:3>
0
1
2
3
ITU_OUT
4
5
ITU_CLOCK
PIO <16:27>
6
7
12
133
140
141
139
142
150
151
138
137
136
153
149
148
147
154
155
156
146
145
144
152
143 0V
0V
0V
0V
2V1
0V
0V
0V
0V
3V1
3V
2V9
3V
3V3
1V5
0V
0V
0V
0V
0V
0V
0V
17
18
19
0V
0V
3V3
UART1_RX
UART1_TX
F129
F131
3141
10K
1106
B2B-PH-K
1
2
RES
107
110
50
51
93
96
97
98
99
100
101
102
103
89
90
91
92
75
80
81
82
83
84
85
86
87
88
104
105
176
0V PIO19|ITU_OUT0|BOOT0
3130 10K
3128 10K
177 3V3 PIO20|ITU_OUT1|BOOT1
178 3V3 PIO21|ITU_OUT2|BOOT2
3131
3136
+3V3
10K
10K
RES
+3V3
179
180 I103
PIO22|ITU_OUT3|BOOT3 3129
3137
10K
10K
RES
+3V3
181
AR1
AR2
K5
K5 182
183
F132
0V
184
3V2
RES
2
7105
BSN20
4108
3
K5
1
3132
10K
F137 TV_IRQ
+3V3_MOJO
+3V3
3151
RES 10K
DSW_I2C_enable
10K
0V
3V3
0V
3V3
3V3
3V3
3V3
0V
0V
3V3
0V
0V
3V3
0V
3V3
0V
0V
3V3
3V3
3V3
3V3
3V3
0V
0V
0V
3154
RES
3155
10K
MIU_ADDR(0)
MIU_ADDR(1)
MIU_ADDR(2)
MIU_ADDR(3)
MIU_ADDR(4)
MIU_ADDR(5)
MIU_ADDR(6)
MIU_ADDR(7)
MIU_ADDR(8)
MIU_ADDR(9)
MIU_ADDR(10)
MIU_ADDR(11)
MIU_ADDR(12)
MIU_ADDR(13)
MIU_ADDR(14)
MIU_ADDR(15)
MIU_ADDR(16)
MIU_ADDR(17)
MIU_ADDR(18)
MIU_ADDR(19)
MIU_ADDR(20)
MIU_ADDR(21)
MIU_ADDR(22)
MIU_ADDR(23)
MIU_ADDR(24)
+3V3
K2, K7
K2, K7
K2, K7
K2, K7
K2, K7
K2, K7
K2, K7
K2, K7
K2, K7
K2, K7
K2, K7
K2, K7
K2, K7
K2, K7
K2, K7
K2, K7
K2, K7
K2, K7
K2, K7
K2, K7
K2, K7
K2, K7
K2, K7
K2, K7
K2, K7
13
SDRAM_ADDR(0) K2
SDRAM_ADDR(1) K2
SDRAM_ADDR(2) K2
SDRAM_ADDR(3) K2
SDRAM_ADDR(4) K2
SDRAM_ADDR(5) K2
SDRAM_ADDR(6) K2
SDRAM_ADDR(7) K2
SDRAM_ADDR(8) K2
SDRAM_ADDR(9) K2
SDRAM_ADDR(10) K2
SDRAM_ADDR(11) K2
SDRAM_ADDR(12) K2
SDRAM_ADDR(13) K2
SDRAM_ADDR(14) K2
SDRAM_DQM0
K2
SDRAM_DQM1
K2
SDRAM_CAS
K2
SDRAM_RAS
K2
SDRAM_WE
K2
SDRAM_CKE
K2
SDRAM_CLK
K2
G_16220_011.eps
070206
14
A
B
C
D
E
F
G
H
I
3159-1 H11
3159-2 H11
3159-3 H11
3159-4 H11
3160 I11
3161 I11
3162 I11
3163 G11
3164 G1
4100 H3
4101 H2
4102 A4
4104 A4
4105 B7
4106 B7
4107 B7
4108 F14
4109 C7
4110 B7
5100 I7
5101 F5
5102 F5
5103 C5
7100-1 F8
7100-2 E2
7100-3 F2
7100-4 A12
7100-5 G12
7100-6 H5
7100-7 D12
7100-8 D7
7103 H3
7104 I2
3140 I9
3141 D14
3142 G1
3143 H4
3144 H4
3145 H2
3146 H4
3147 H4
3148 I2
3149 I3
3150 I3
3151 G13
3154 G13
3155 G14
3156-1 G11
3156-2 H11
3156-3 G11
3156-4 H11
3157-1 G11
3157-2 H11
3157-3 G11
3157-4 H11
3158-1 G11
3158-2 H11
3158-3 G11
3158-4 H11
3119 A4
3120 E5
3121 E5
3122 E6
3123 E6
3124 E6
3125 E6
3126 E6
3127 E6
3128 E14
3129 F14
3130 E14
3131 E14
3132 F14
3133 G1
3134 G1
3135 F1
3136 E14
3137 F14
3138 A3
3139 C6
2119 H9
2120 H9
2121 I9
2122 C8
2130 I7
2131 I7
2132 H7
2133 C5
3100 A4
3101 E6
3112 E9
3113 C7
3114 A3
3115 A4
3116 A4
3117 A4
1100-1 E8
1100-2 E8
1101 B9
1106 E14
2100 F6
2101 G6
2102 G6
2103 G6
2104 G6
2105 G6
2106 G6
2107 H6
2108 H6
2109 H6
2110 H6
2111 H6
2112 F6
2113 F6
2114 G6
2115 G6
2116 G6
7105 F13
F105 A7
F106 A7
F107 A7
F108 A7
F109 A7
F110 A7
F111 A7
F112 A7
F113 B7
F114 A7
F122 E9
F125 B6
F129 E13
F131 E13
F132 F13
F133 H3
F134 H3
F135 H2
F136 H2
F137 F14
F138 A10
I100 H4
I101 H4
I103 F13
I104 E6
I105 I9
H
B
C
D
E
F
G
Circuit Diagrams and PWB Layouts
A
IBO Zapper Panel: Flash Memory
1 2 3
K2
FLASH MEMORY
4 5
LC4.31E AB
6
7.
7
20
8 9 10 11 12 13
+3V3
5202
100MHz
I202
K1
K1
K1
K1
K1
K1
K1
K1
K1
K1
K1
K1
SDRAM_ADDR(0)
SDRAM_ADDR(1)
SDRAM_ADDR(2)
SDRAM_ADDR(3)
SDRAM_ADDR(4)
SDRAM_ADDR(5)
SDRAM_ADDR(6)
SDRAM_ADDR(7)
SDRAM_ADDR(8)
SDRAM_ADDR(9)
SDRAM_ADDR(10)
SDRAM_ADDR(11)
K1
K1
SDRAM_ADDR(13)
SDRAM_ADDR(14)
K1
K1
K1
K1
K1
SDRAM_CLK
SDRAM_CKE
SDRAM_RAS
SDRAM_CAS
SDRAM_WE
3V
3V
3V
0V
0V
0V
0V
0V
0V
0V
0V
0V
0V
0V
0V
7202
K4S281632F
1
29
30
31
32
33
34
23
24
25
26
22
35
7
8
9
10
11
0
1
2
3
4
5
6
A
14
VDD
27 3 9 43
VDDQ
49
Φ
SYNC
DRAM
4x2Mx16
D
NC
0V
0V
1V5
3V3
20
21
38
37
19
18
17
16
0
1
BA
CLK
CKE
CS
RAS
CAS
WE
28
VSS
41 54 6
VSSQ
12 46
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
L
DQM
U
52
36
40
0V
SDRAM_ADDR(12)
2 1V3
4
5
7
1V3
1V
8
10
1V3
1V3
11
1V2
0V
SDRAM_DATA(0)
SDRAM_DATA(1)
SDRAM_DATA(2)
SDRAM_DATA(3)
SDRAM_DATA(4)
SDRAM_DATA(5)
SDRAM_DATA(6)
13 1V4
42
44
1V3
1V3
45
47
48
SDRAM_DATA(7)
SDRAM_DATA(8)
SDRAM_DATA(9)
1V
1V4
SDRAM_DATA(10)
SDRAM_DATA(11)
50
51
53
1V4 SDRAM_DATA(12)
1V3 SDRAM_DATA(13)
0V7 SDRAM_DATA(14)
1V2 SDRAM_DATA(15)
K1
K1
K1
K1
K1
K1
K1
K1
K1
K1
K1
K1
K1
K1
K1
K1
15
39
3V3
2V2
SDRAM_DQM0
SDRAM_DQM1
K1
K1
K1
K1, K7
K1, K7
K1, K7
K1, K7
K1, K7
K1, K7
MIU_ADDR(1)
MIU_ADDR(2)
MIU_ADDR(3)
MIU_ADDR(4)
MIU_ADDR(5)
MIU_ADDR(6)
MIU_ADDR(7) K1, K7
K1, K7
K1, K7
K1, K7
MIU_ADDR(8)
MIU_ADDR(9)
MIU_ADDR(10)
K1, K7
K1, K7
K1, K7
MIU_ADDR(11)
MIU_ADDR(12)
MIU_ADDR(13)
K1, K7
K1, K7
K1, K7
MIU_ADDR(14)
MIU_ADDR(15)
MIU_ADDR(16)
K1, K7
K1, K7
MIU_ADDR(17)
MIU_ADDR(18)
K1, K7
K1, K7
MIU_ADDR(19)
MIU_ADDR(20)
K1, K7
K1, K7
MIU_ADDR(22)
MIU_ADDR(21)
+3V3_NOR48 3200
K1
NOR_RYBY
4202
4203
RES
3K3
K1, K7 MIU_ADDR(20)
K3
RESET_n
4201
RES
K1
K1, K7
K1
MIU_WEN
F201
MIU_OEN
I205
NOR_CS
4204
4200
I204
+3V3
+3V3_NOR48
5201
100MHz
I201
2203
2204
100n 10u
7200
M29W320ET70N
37
21
20
19
18
8
7
25
24
23
22
6
5
4
3
2
1
48
17
16
9
10
3V2
0V
3V2
3V2
3V2
3V2
0V
0V
3V2
0V
0V
3V2
0V
3V2
0V
0V
3V2
0V
3V2
3V2
3V2
3V2
3V2
3V2
3V2
3V2
3V2
15
12
11
28
26
47
11
12
13
14
15
16
17
5
6
7
8
9
10
0
3
4
1
2
18
19
20
A
EPROM
4Mx8/2Mx16
0
32M-1
2/4/8MB
NOR
FLASH
D
8
9
10
11
12
13
14
15
A-1
0
1
2
3
4
5
6
7
NC
RB
RP
WE
OE
CE
BYTE
VPP/WP_
27 46
0V
0V
0V
0V
0V
0V
0V
0V
0V
0V
0V
0V
0V
0V
0V
0V
38
40
42
44
30
32
29
31
33
35
34
36
39
41
43
45
MIU_DATA(0)
MIU_DATA(1)
MIU_DATA(2)
MIU_DATA(3)
MIU_DATA(4)
MIU_DATA(5)
MIU_DATA(6)
MIU_DATA(7)
MIU_DATA(8)
MIU_DATA(9)
MIU_DATA(10)
MIU_DATA(11)
MIU_DATA(12)
MIU_DATA(13)
MIU_DATA(14)
MIU_DATA(15)
K1, K7
K1, K7
K1, K7
K1, K7
K1, K7
K1, K7
K1, K7
K1, K7
K1
K1
K1
K1
K1
K1
K1
K1
13 0V 4205
14
I206
3V2
3205
10K
4215
RES
MIU_ADDR(22) K1, K7
+3V3_NOR48
NOR_WP K1
+3V3_NOR48
+5V
+3V3_NOR48
NOR_WP
K1
+3V3
5200
+3V3_NOR48
I200
100MHz
2201
2200
100n
2202
100n
2205
K1, K7
7201
M58LW032C90N1
K1, K7
K1, K7
K1, K7
K1, K7
K1, K7
K1, K7
K1, K7
K1, K7
K1, K7
K1, K7
K1, K7
K1, K7
K1, K7
K1, K7
K1, K7
K1, K7
K1, K7
K1, K7
K1, K7
K1, K7
K1, K7
MIU_ADDR(1)
MIU_ADDR(2)
MIU_ADDR(3)
MIU_ADDR(4)
MIU_ADDR(5)
MIU_ADDR(6)
MIU_ADDR(7)
MIU_ADDR(8)
MIU_ADDR(9)
MIU_ADDR(10)
MIU_ADDR(11)
18
17
MIU_ADDR(12) 13
28
27
26
25
24
23
22
20
19
MIU_ADDR(13)
MIU_ADDR(14)
12
11
MIU_ADDR(15) 10
MIU_ADDR(16)
MIU_ADDR(17)
8
7
MIU_ADDR(18) 6
MIU_ADDR(19)
MIU_ADDR(20)
5
4
MIU_ADDR(21) 3
I203
15
K1
MIU_WEN 55
NOR_CS 14
K1, K7
K1, K3
MIU_OEN
RESET_n
I209
54
16
29
I210
31
L
K
VPP
W
E
11
12
13
14
15
16
17
18
19
20
21
6
7
4
5
1
2
3
8
9
10
Φ
2/4/8MB
NOR
FLASH
0
A
2048k-1
G
D
8
9
10
11
12
13
14
15
3
4
5
6
7
0
1
2
RP
RB
R
100n
1
30
32
56
44
46
49
51
34
36
39
41
45
33
35
38
40
47
50
52
53
2
I211
MIU_ADDR(22)
MIU_ADDR(23)
K1, K7
K1, K7
MIU_ADDR(24) K1, K7
MIU_DATA(0) K1, K7
MIU_DATA(1)
MIU_DATA(2)
MIU_DATA(3)
MIU_DATA(4)
MIU_DATA(5)
MIU_DATA(6)
MIU_DATA(7)
MIU_DATA(8)
MIU_DATA(9)
MIU_DATA(10)
MIU_DATA(11)
MIU_DATA(12)
K1, K7
K1, K7
K1, K7
K1, K7
K1, K7
K1, K7
K1, K7
K1
K1
K1
MIU_DATA(13)
MIU_DATA(14)
MIU_DATA(15)
NOR_RYBY
K1
K1
K1
K1
K1
K1
4213
3202
470R
RES
+5V +5V +5V
+5V
5203
100MHz
2214
100n
5V F200
I207
1 E0
2
3
E1
E2
5V
7203
M24C64-WMN6
0
1
2
Φ
(8Kx8)
WC
EEPROM
SYSTEM
EEPROM
SCL
ADR
I2C ADDRESS=A8
VSS
SDA
4
7
4V6
WC_
6 4V6
SCL
5
SDA
I208
4V6 user_EEPROM_WP
4212
K1
I2C_LOCAL_SCL K1
I2C_LOCAL_SDA
K1
14
+3V3_NOR48
+3V3_NOR48
K2
A
B
C
D
E
F
G
4200 D7
4201 D7
4202 D7
4203 D7
4204 D7
4205 D9
4212 F13
4213 E13
4214 D11
4215 D9
5200 B12
5201 B8
5202 D3
5203 F12
7200 B8
2210 E4
2211 E4
2212 E4
2213 E4
2214 F11
3200 D6
3201 D14
3202 E13
3203 E11
3204 E12
3205 D9
3206 F12
3207 F13
3209 G13
3210 G13
3211 F12
3212 D11
7201 B12
7202 E3
7203 G11
F200 F12
F201 E7
I200 B12
I201 B8
I202 D4
I203 D12
I204 D7
I205 E7
I206 D9
I207 F12
I208 G13
I209 E12
I210 E12
I211 E13
0001 H1
0002 H2
0003 H2
0004 H2
0005 H3
0006 H4
0007 H4
0008 H5
0009 H5
0010 H6
0011 H6
0012 H7
0013 H8
0014 H9
0015 H9
0016 H10
0017 H10
0018 H11
2200 B13
2201 B12
2202 B13
2203 B8
2204 B9
2205 B13
2206 E5
2207 E4
2208 E4
2209 E4
0001
TYPE
0002
TYPE
0003
TYPE
0004
TYPE
0005
HEATSINK
0006
HEATSINK
0007
HEATSINK
0008
HEATSINK
0009
HEATSINK
0010
HEATSINK
0011
HEATSINK
0012
HEATSINK
0013
HEATSINK
0014
HEATSINK
0015
HEATSINK
0016
HEATSINK
0017
HEATSINK
0018
HEATSINK
H
MECHANICAL 3.5MM HOLE
I
3139 123 6147.1
1 2 3 4 5 6 7 8 9 10 11 12 13
G_16220_012.eps
070206
14
I
B
C
D
E
F
G
H
I
A
Circuit Diagrams and PWB Layouts
IBO Zapper Panel: Power Supply
1 2 3
K3
POWER SUPPLY
4
LC4.31E AB
5
+3V3
+5V
F305 F306
I301
I302
I306
3139 123 6147.1
1
1301
1
2
3
B3B-PH-K
+12V
F309
I328 5309
2333
10n
+12V_A
2334
100n
2335
100u 16V
SUPPLY_GND
SUPPLY_GND
SUPPLY_GND
POWER ON RESET
+3V3
3V3
2V9
F312
3316
2
5
1K0
7306
NCP303LSN30
INP
OUTP
CD
NC GND
3
1 3V3
2
FOR DEV. ONLY
3
RESET_n K1, K2
4
+12V
F301 F302
5
7.
21
6
6
500mA
1304
5304
10u
5306
10u
5301
10u
SUPPLY_GND
SUPPLY_GND
SUPPLY_GND
7
7
F300
F308
F315
I316
I322
I325
SUPPLY_GND
8
I318
I323
SUPPLY_GND
I326
SUPPLY_GND
8
7
6
11V3
7300
MC34063AP1
8
11V3
DCOL
7
3306
1K0 1%
7
SUPPLY_GND
IS
IS
11V3
6
VCC
5
1V2
CIN_NEG
3304
1K8 1%
2329
4n7
3307
100R 1%
SUPPLY_GND
7303
MC34063AP1
8
11V3
DCOL
VCC
5
1V3
CIN_NEG
3317
3K3
2336
4n7
3315
1K0
IPK
OSC
7305
MC34063AP1
8
11V9
DCOL
IS
6
11V9
VCC
9
IPK
OSC
3332
75R
SUPPLY_GND
IPK
OSC
5
1V2
CIN_NEG
3322
3K9 1%
2331
4n7
9
S Q
R
S Q
R
REFERENCE
REGULATOR
S Q
R
SWC
10
1
REFERENCE
REGULATOR
SWE
TIMC
2
3V3
3
0V7
GND 4
SUPPLY_GND
SUPPLY_GND
SWC
SWE
TIMC
GND
SWC
1
2
5V1
3
0V7
2308
470p
4
REFERENCE
REGULATOR
SWE
TIMC
2
6V5
3
0V7
GND 4
SUPPLY_GND
SUPPLY_GND
10
1
I314
2300
5300
47u
470p
2323
RES
3326
10K
SUPPLY_GND
11
I310
2
3333
27K
2V6
R
7310
A K
1V9
1
TL431CZ
3329
47K
RES
1N4148
6307
SUPPLY_GND
SUPPLY_GND I327
2313
470p
SUPPLY_GND
I321
SUPPLY_GND
I324
SUPPLY_GND
11
7311
SI2314EDS
I317
3V2 3
11V2
2 3V2
3
3V2
7301
LD1117V18
IN OUT
COM
2
1V8
RES
2321
100n
6303
SS14
6306
S1D
RES
I330
RES
2322
100n
6304
6305
S1D
RES
I331
2305
100n
SS14
SUPPLY_GND
3
SUPPLY_GND
12
3334
33K
5307
10u
RES
7302
LD1117V
IN OUT
COM
F316
6V5
IN
7307
LD1117V50
IN OUT
COM
GND
5V
OUT
7308
LD1117V50
3
6V5
IN OUT
COM
2
5V
12
2
+12V
7312
BC847B
I312
+12V
3325
10V6
100K
7309
BC857B
11V3
3327
33R
K3
5302
10u
F303
+3V3
(446mA)
F304
2302
+3V3clean
(193mA)
F307
F310
2332
100u 25V
F317
F313
F314
I313
13
25V
100u
+1V8FE
(197mA)
+5V_USB
(500mA)
+1V2_MOJO
(230mA)
+5V
(400mA)
+5Vclean
(380mA)
13
G_16220_013.eps
070206
A
B
C
D
E
F
G
H
I
4302 F11
4303 E12
5300 B11
5301 B7
5302 C12
5303 D11
5304 D6
5306 H6
5307 E12
5308 H11
5309 B3
6300 A10
6303 D11
6304 G11
3311 D8
3312 D7
3313 D7
3314 D7
3315 E9
3316 G3
3317 E9
3318 G7
3319 G7
3320 G7
3321 G8
3322 H9
3323 H8
3324 A12
3325 A13
3326 A11
3327 A13
3328 B13
3329 A12
3330 A11
3331 I8
3332 F9
3333 B11
3334 B12
6305 F11
6306 E11
6307 B12
6308 C12
7300 A9
7301 C12
7302 F12
7303 C9
7305 G9
7306 G2
7307 H12
7308 I12
7309 A13
7310 A12
7311 B11
7312 B12
F300 A7
F301 B5
F302 B5
F303 B13
F304 C13
F305 C1
F306 C1
F307 C12
F308 D7
F309 B2
2322 G11
2323 A11
2324 B10
2325 D10
2326 H11
2327 H11
2328 I11
2329 C9
2330 E12
2331 H9
2332 F13
2333 B2
2334 B3
2335 B3
2336 E9
2337 B11
3300 A7
3301 A7
3302 A8
3303 A7
3304 B9
3306 C8
3307 C9
1301 B1
1303 H3
1304 B6
2300 B10
2301 B7
2302 C13
2303 C8
2304 C11
2305 F11
2306 C12
2308 D10
2309 E7
2310 E8
2311 E11
2312 A11
2313 G10
2314 H2
2315 H7
2316 H8
2317 H12
2318 H11
2319 I13
2320 C12
2321 D11
F310 E12
F312 H2
F313 H13
F314 I13
F315 G7
F316 H11
F317 F13
I301 D2
I302 D1
I306 D1
I310 A11
I312 A13
I313 B13
I314 B10
I316 B7
I317 B11
I318 B8
I321 D11
I322 D7
I323 E8
I324 G11
I325 H7
I326 H8
I327 E11
I328 B2
I330 F11
I331 F11
F
A
B
C
D
E
Circuit Diagrams and PWB Layouts
IBO Zapper Panel: Interface
1 2
K4
INTERFACE
3 4
LC4.31E AB
1402
UART CON
FOR
1
2
COMPAIR ONLY 3
S3B-PH-K
4414
F414
F415
3414 100R
3415
RES
100R
RES
4415
2415
330p
RES
TXD0 K1
RXD0 K1
2414
330p
RES
RES
5
7.
22
K1 SPDIF
6 7
+3V3
8
I420
2411
I418
100n
3404
560R
3405
1K0
I416
1V6
3V3
7402
BC847B
1V
I419
3406
1K0
3411
180R
3407
68R
I417
2412
100n
9
3408
RES
I421
5401
100MHz
6400 2413
100n
FOR BOARD WITH USB FEATURE ONLY
+3V3 +5V_USB
K1 F409
USB_OVRCUR
K1
USB_PWR
F410
3424
RES
4402
3409
10K
RES
3403
10K
5V1
7
LM3525MY
7403
LM3525MX-H
IN OUT
I402 3V3
2
I403
0V 1
FLG
NC
EN
COM
2403
100n
4
5
I404
6
8
4V5
5420
2405
100n
2406
100u 6.3V
K1
K1
USB_DM
USB_DP
VBUS
I405
3420
33R
I406
3421
33R
F424
3423
15K
3422
15K
F407
F408
5421
47R
4417
5422
47R
4418
10 11
1400
USB_D-
USB_D+
F423
F420
F421
F422
4416
5423
60R
RES
SPDIF OUTPUT
1401
1
2
3
YKC21-3416
5
1403
6
3
4
1
2
USB
5401-032-100-70
K4
A
B
C
D
E
F
F409 F5
F410 F5
F414 C4
F415 C4
F420 F11
F421 F11
F422 F11
F423 F10
F424 F9
I402 F6
I403 F6
I404 F7
I405 F9
I406 F9
I416 B7
I417 B8
I418 B6
I419 B7
I420 B6
I421 B9
4415 C4
4416 F11
4417 F10
4418 F10
5401 B9
5420 F7
5421 F10
5422 F10
5423 F11
6400 C9
6401 C3
6403 C3
7402 B7
7403 E6
F407 B10
F408 B10
3404 B6
3405 B7
3406 B7
3407 B8
3408 C9
3409 E6
3411 B7
3414 C4
3415 C4
3420 F9
3421 F9
3422 F9
3423 F9
3424 F5
4402 F5
4414 B4
1400 B10
1401 B11
1402 C3
1403 F11
2403 E7
2405 F7
2406 F8
2411 B6
2412 B8
2413 C9
2414 C4
2415 C4
2416 F5
3403 E6
G
3139 123 6147.1
1 2 3 4 5 6 7 8 9 10 11
G_16220_014.eps
070206
G
Circuit Diagrams and PWB Layouts LC4.31E AB 7.
23
A
B
C
D
F
H
I
E
G
IBO Zapper Panel: Analog Back End
1 2 3
3139 123 6147.1
1
K1 C_CVBS
K1
K1
G|Y
B|Pb
K1 R|Pr
I520
I521
I522
I523
RES
2532
22p
5514
3u3
RES
2527
22p
5513
3u3
2524
RES
22p
5512
3u3
RES
2520
22p
5511
3u3
4
K5
ANALOG BACK END
+12V_A
K1 MOJO_I2S_OUT_SCK
K1
MOJO_I2S_OUT_WS
K1 MOJO_I2S_OUT_SD
K1
MOJO_SYSCLK
4507
+3V3clean
F500
0V6
F503
1V
1
F502
1V6 2
3
6
8
9
10
I510
1V6
14
3504
2R2
3508
I524 I501
2502
100n
2R2
2504
100n
7502
UDA1334BTS
3V3
13
VDDA
BCK
4
3V3
VDDD
WS DIGITAL
INTERFACE
DATAI
5502
SFOR0
DE-EMPHASIS
SFOR1
11
I507
I509
7
SYSCLK
MUTE
INTERPOLATION
FILTER
DEEM
NOISE SHAPER
PCS
VOL VOR 16 1V6
F501
+3V3
2544
100n
3507
1K5
VSSA
15
VSSD
5
VREF-DAC
1V6
I515
5528
2
I535
3
I532
I534
5504
I533
5507
5508
I538
2521
22p
4
5505
I528
I531
I541
2535
22p
2536
22p
2529
22p
5
+12V_A
0V
5
3528
10R
2543
47u 16V
I503
F512
I508
I543
I500
6
I502 8V2
2V7
I506
7501
BC847B
2V1 3503
1K0
3517
1K5
0V6
I551 6509
BAS316
BC857B
7521
6512
BAS316
6
I513
I518
I544
I545
7V7
BC857B
7511
I546
2551
2V1
1u0
I548
7V
7512
BC847B
3561
1V5
I549 270R
4503
RES
+5V_amp
I547
I542
1V8
8V8
7500
BC857B
3V8
I504
2505
1u0
4508
RES
2500
1u0
I511
0V
I505
7
7
+12V_A
2508
1u0
I512
8V2
2V7
I517
7504
BC847B
2V1
3514
1K0
8V8
7503
BC857B
3V8
I514
2513
1u0
4511
RES
3V1
11V6
2V5
7507
BC847B
I537
I554
I539
7522
BC847B
I553
1V2
4V
3543
390R
4V7
1V8
BC857B
7523
0V6 I526
6510
BC857B
7524
BAS316
+5Vclean
4505
3569
68R
RES
8
3527
I516
3526
6513
BAS316
8
+5V_amp
5515
1K0
75R
75R
I550
1V8
4509
RES
2534
22p
2533
22p
0V
F514
9
0V6
I557
BC857B
7527
9
+5V_amp
CVBS_VCR
I558 4V
7525
BC847B
1V2
I529
3544
390R
1V8
4V7
I560
BC857B
7526
I2C_TV_SDA
I2C_TV_SCL
TV_IRQ
3513
3512
3523
4510
RES
VOLTAGE MEASURED IN SDM MODE
100R
100R
75R
2509
100p
2510
100p
I540
1V8
I559
7V7
7528
BC847B
1V2
I552
4V
3545
390R
1V8
4V7
I561
BC857B
7529
K5
K1
K1
C
AR2
I568
3578
75R
I569
AR1
I572
3581
75R
3579
10K
I570
0V
I573
I564
3582
10K
11V2
9V6
7519
BC847B
+5V_amp
+12V_A
BC857B
7518
0V
I574
I562
I565
I566
0V
BAS316
6507
I571
4512
RES
BAS316
6508
I563
F516
I567
SDA
SCL
IRQ
R1
L1
BLUE|U
RED|V
F509
1500
15
16
17
18
19
20
10
11
12
13
14
26
27
28
29
30
31
21
22
23
24
25
33 34
32
6
7
4
5
8
9
1
2
3
AF732L-N2G1A
7520
BC847B
D
E
F
F518
6511
BAS316
K1
K1
K1
10
6514
BAS316
10
+5V_amp
11
11
2528
22p
12
12
F506
F505
F507
F519
F521
F517
13
13
TO SSB
G_16220_015.eps
070206
A
B
G
H
I
F506 A12
F507 A12
F509 E13
F512 D5
F514 E9
F516 D13
F517 B13
F518 G10
F519 G12
F521 H12
I500 A6
I501 A3
I502 A6
I503 B5
I504 B7
I505 B7
I506 B6
I507 B4
7512 E5
7518 D12
7519 E11
7520 F12
7521 G5
7522 G7
7523 F7
7524 H7
7525 H9
7526 G9
7527 I9
7528 I11
7529 H12
F500 B2
F501 C4
F502 B2
F503 B2
F505 A12
5528 A5
6503 E5
6507 D13
6508 E13
6509 G6
6510 H8
6511 I10
6512 G6
6513 H8
6514 I10
6515 E13
7500 A7
7501 B6
7502 A3
7503 C7
7504 C7
7507 E7
7511 E6
4506 D7
4507 B2
4508 H6
4509 I8
4510 I11
4511 E7
4512 E13
5502 A4
5504 E4
5505 G4
5507 H4
5508 I4
5511 E3
5512 G3
5513 H3
5514 I3
5515 A8
I532 E3
I533 G4
I534 H3
I535 I3
I537 E8
I538 E4
I539 F7
I540 H11
I541 G5
I542 G6
I543 D5
I544 E5
I545 E5
I546 E6
I547 F6
I548 E5
I549 F5
I550 H8
I508 B5
I509 B4
I510 C2
I511 C7
I512 C7
I513 C6
I514 D7
I515 C4
I516 D8
I517 D7
I518 D6
I520 G2
I521 G2
I522 G2
I523 G2
I524 A3
I526 H7
I528 H4
I529 H9
I531 I4
I551 G5
I552 I11
I553 G7
I554 F8
I557 I9
I558 G9
I559 H11
I560 G9
I561 H12
I562 D12
I563 D13
I564 D11
I565 E12
I566 E12
I567 E13
I568 E10
I569 E11
I570 E11
I571 F12
I572 F10
I573 F11
I574 F12
3507 C5
3508 A3
3509 C7
3510 C6
3511 C7
3512 A11
3513 A11
3514 D7
3515 D6
3516 D7
3517 D6
3519 F2
3520 G2
3521 H2
3522 I2
3523 A11
3526 D8
3527 B8
2536 I4
2537 I2
2538 I3
2543 A5
2544 A4
2550 E5
2551 E5
2557 E8
2558 E8
2559 E10
2560 F10
3500 A6
3501 A6
3502 A5
3503 B6
3504 A3
3505 B6
3506 B5
2516 A8
2517 A9
2520 E3
2521 F4
2522 F3
2523 F3
2524 G3
2525 G3
2526 G3
2527 H3
2528 A11
2529 G5
2530 H3
2531 H2
2532 I3
2533 D9
2534 B9
2535 H4
1500 C13
2500 A7
2501 A6
2502 A3
2503 C7
2504 A3
2505 B7
2506 B5
2507 C5
2508 C8
2509 A12
2510 A12
2511 D3
2512 D4
2513 D8
2514 D6
2515 D6
3576 E12
3577 E12
3578 E10
3579 E11
3580 E12
3581 F10
3582 F11
3583 F6
3584 F7
3585 F8
3586 G7
3587 G7
3588 G8
3589 G8
3590 G9
3591 H9
3592 H9
3593 H10
3528 A5
3530 G4
3533 H3
3539 I3
3543 G7
3544 H9
3545 I11
3547 F3
3548 E7
3557 E5
3558 E5
3559 E6
3560 E4
3561 E6
3562 F5
3569 E8
3572 D7
3573 D12
3574 D12
3575 E11
3594 H11
3595 H12
3596 I11
3597 I12
3598 E12
4503 F6
4505 E8
Circuit Diagrams and PWB Layouts LC4.31E AB 7.
24
A
B
C
D
E
F
H
I
G
IBO Zapper Panel: Front End
1 2
K6
FRONT END
COMP_OUT
N.C.
I2C_TDA_SDA
N.C.
I2C_TDA_SCL
RES
+5V
+5V
K1 dsp_EEPROM_WP
+5Vclean
OPTION
3139 123 6147.1
1
5
6
7601-1
8
LM393D
1
2V2
4
+5Vclean
2626
100n
3V3
3
2
3V3
I632
3613 100K
+5Vclean
1600
TD1316/SPHP
5604
60R
8
7601-2
LM393D
7
4
RF
IN
2
16
17
MT
F600
I635
NC
LB
HB
4611
MB
F603
3
3
3V2
+5Vclean
4606
RES
+5Vclean
5V
I601
+5V
5
33
I605
I616
4
5603
3634
470R
7602
M24256-BWMN6
1
0
2
3
1
2
E
7
WC
F613
6
SCL
Φ
(32Kx8)
EEPROM
SDA
4610
5
EEPROM
4
PLL
OSC
OSC
OSC
5V 5V
+5Vclean
RES
1V3
I602
+5V +5V
5
5
TUNER
1V3
4607
2627
100n
I606
F605
F604
F606
F612
F611
MT
18
19
6 7 8 9
7605
74AHC1GU04GW
2
1V3
NC
1
3V2
4
1V6
3637
220K
3638
330R
I633
+3V3
+1V8FE
5600
+1V8FE
+3V3FE
+3V3
7606
74AHC1GU04GW
2
1V3
NC
1
3V2
4
1V6
3641
220K
3642
330R
I634 4MHz_MOJO
K1
+3V3FE
2625
100n
7600
TDA10046AHT
64 60 59 57 53 50 42 22 5
+5Vclean +5Vclean
3608
10K
3614
100K
2628
100n
I607
3615
1K0
2631
100n
1601
AT-49
4MHz
I631
K1
I604
3V2
RESET_FE_n
9
2V8
1V3
1
2
3617
220R
RES
2629
100n
1V5 62
1V5 61
F607
F608
0V7
0V6
54
55
K1
K1
K1
COMP_OUT
FE_LOCK
+3V3FE
F610
3621
33R
3645
10K
2V3
I614
3V2
F609
21
23
25
26
11
10
I2C_LOCAL_SDA
3625
I2C_LOCAL_SCL
3629
3630
3631
4V6 8
100R
100R
100R
100R
4V6
5V
6
4
5V 3
12
COFDM
47 34 19
CHANNEL DECODER
20
17
16
18
14
13
32
31
30
28
27
38
39
41
2V2
2V2
2V2
3622-4
3622-3
3622-2
43
44
46
2V2
2V2
2V2
3622-1
3624-4
3624-3
48
49
2V2
2V2
3624-2
3624-1
1
4
3
2
1
4
3
2
37 1V7 3644-1 1
36 1V3 3644-2 2
35 0V 3644-3 3
33
51
0V 3644-4 4
I628
I629
0V
0V
2V4
0V
2V4
6 7 8
63 58 56 52 45 40 29 24 15 7
9
10
10
11
11
12 13
+3V3FE
3635
33R
8
5
6
7
8
5
6
7
33R
33R
33R
33R
33R
33R
33R
33R
8
33R
7
33R
6
33R
5 33R
I615
I618
I619
I620
I621
I622
I623
I624
I625
I626
I627
I603
10046_TDO
STV_TDO
JTAG_TMS
JTAG_TCK
JTAG_TRST
TDA_DAT(0)
TDA_DAT(1)
TDA_DAT(2)
TDA_DAT(3)
TDA_DAT(4)
TDA_DAT(5)
TDA_DAT(6)
TDA_DAT(7)
K7
K7
K7
K7
K7
K7
K7
K7
TDA_CLK K7
TDA_VALID
K7
TDA_SYNC
K7
UNCOR
K1
K7
K1
K1
K1
+3V3
10
12
14
16
18
20
2
4
6
8
ROW_2
1603-2
TDA_DAT(0)
TDA_DAT(1)
TDA_DAT(2)
TDA_DAT(3)
TDA_DAT(4)
TDA_DAT(5)
TDA_DAT(6)
TDA_DAT(7)
FTSH
K7
K7
K7
K7
K7
K7
K7
K7
UNCOR
K7 TDA_VALID
K7 TDA_SYNC
K7 TDA_CLK
12
5601
13
ROW_1
1603-1
9
11
13
15
17
19
1
3
5
7
FTSH
K6
+3V3FE
G_16220_016.eps
070206
A
B
C
D
E
F
G
H
I
4605 E7
4606 E3
4607 E5
4610 I3
4611 C3
5600 C10
5601 D13
5602 D3
5603 H4
5604 C2
7600 E8
7601-1 E2
7601-2 F2
7602 H4
7605 C6
7606 D6
3633 H5
3634 I3
3635 E11
3636 C6
3637 C6
3638 C7
3639 C7
3640 D6
3641 D6
3642 D7
3643 D7
3644-1 G11
3644-2 H11
3644-3 H11
3644-4 H11
3645 G8
F600 C2
F603 D3
F604 F5
F605 F5
F606 F5
F607 F7
F608 F7
F609 F8
F610 G7
F611 H5
F612 H5
F613 I3
I601 D4
I602 C5
I603 H12
3622-1 G11
3622-2 G11
3622-3 G11
3622-4 G11
3623 G3
3624-1 G11
3624-2 G11
3624-3 G11
3624-4 G11
3625 G8
3626 G5
3627 G5
3629 G8
3630 H8
3631 H8
3632 H5
3606 C4
3607 C4
3608 E8
3609 E6
3610 E6
3611 E4
3612 E1
3613 E2
3614 E6
3615 E6
3616 F4
3617 F6
3618 F5
3619 F5
3620 G3
3621 G8
2619 D11
2620 D11
2621 D11
2622 D3
2623 D4
2624 E13
2625 D7
2626 E2
2627 E5
2628 F6
2629 F7
2630 F1
2631 F6
2632 F5
2633 G5
2634 G6
2635 H4
2636 D2
2637 D2
1600 A2
1601 F6
1603-1 H13
1603-2 H12
2607 D10
2608 D9
2609 D9
2610 D10
2611 D10
2612 D10
2613 D11
2614 D11
2615 D8
2617 D8
2618 D10
I604 E8
I605 E4
I606 E5
I607 E6
I614 G8
I615 G12
I616 G4
I618 G12
I619 G12
I620 G12
I621 G12
I622 G12
I623 G12
I624 G12
I625 G12
I626 H12
I627 H12
I628 H11
I629 H11
I631 E7
I632 E2
I633 C7
I634 D7
I635 C3
N
F
G
H
I
J
K
L
M
B
C
D
E
Circuit Diagrams and PWB Layouts
A
IBO Zapper Panel: Common Interface
1 2 3 4 5
K7
COMMON INTERFACE
7700
STV0700
K1
K1
K6
K6
K6
TDA_CLK
TDA_SYNC
TDA_VALID
K7
K7
K7
K6
K6
K6
K6
K6
K6
K6
TDA_DAT(0)
TDA_DAT(1)
TDA_DAT(2)
TDA_DAT(3)
TDA_DAT(4)
TDA_DAT(5)
TDA_DAT(6)
K6
TDA_DAT(7)
TS_CLK
TS_SYNC
TS_VALID
K1 TS_DATA(0)
K1
K1
TS_DATA(1)
TS_DATA(2)
K1 TS_DATA(3)
K1
K1
TS_DATA(4)
TS_DATA(5)
K1 TS_DATA(6)
K1
TS_DATA(7)
I2C_LOCAL_SCL
I2C_LOCAL_SDA
3702-3
3702-2
33R
3702-1
33R
33R
3703-1
3703-2
33R
3703-3
33R
3703-4
3705-3
3705-4
33R
3705-1
33R
3705-2
33R
33R
33R
33R
3700
3701
100R
100R
4V6
4V6
1V6
0V
2V2
1V5
0V
1V3
2V2
2V2
2V2
1V3
2V2
2V2
2V2
2V2
2V2
2V2
2V2
2V2
2V2
2V2
2V2
2V2
32
SA0
33
SA1
31 SCL
30
SDA
50
MICLK
49
MISTRT
48 MIVAL
40 MDI0
41 MDI1
42
MDI2
43 MDI3
44
MDI4
45 MDI5
46 MDI6
47 MDI7
63
MOCLK
62 MOSTRT
61
MOVAL
53 MDO0
54
MDO1
55
MDO2
56
MDO3
57 MDO4
58 MDO5
59
MDO6
60 MDO7
6
11 65 38 8 10
2
I C
INTERFACE
TS INTERFACE
CURRENT
SWITCH
+3V3_STV
5V
+5V
I772
3V2
8
3
0V
1
2
7705
ST890C
I766
IN1
IN2
FAULT_
ON_
OUT1
OUT2
SET
7
6
5V
5
0V
I770
4
I767
+3V3
5703
I777
+3V3_STV
+3V3_STV
+5V
7704
FXO-31FT
1
4
VDD
27M0
GND
2
F700
3 2V3
I764
PCMCIA_5V
K1
RESET_STV
K1
STV_INT
+3V3_STV
2V5
F701
35 CLK
F702
0V 34
RESET
3V2
3V2
12
EXTINT
14 INT
VCCEN
K2, K7
K2
K1
K2
MIU_OEN
MIU_WEN
STV_CS
MIU_RDY
K1, K2
MIU_ADDR(15)
K1, K2
MIU_ADDR(16)
K1, K2
MIU_ADDR(17)
K1, K2
MIU_ADDR(18)
K1, K2
MIU_ADDR(19)
K1, K2
MIU_ADDR(20)
K1, K2
MIU_ADDR(21)
K1, K2
MIU_ADDR(22)
K1, K2
MIU_ADDR(23)
K1, K2
MIU_ADDR(24)
K1 STV_A25
I775
3V2
3V2
3V2
3V2
17
RD|DIR
16 WR|STR
18
CS
15 WAIT|ACK
3V2
3V2
3V2
0V
0V
0V
0V
0V
0V
3V2
3V2
19
A15
20 A16
21
A17
22 A18
23
A19
24
A20
25
A21
26
A22
27 A23
28
A24
29 A25
13
EXTCS
INTERRUPTS
MANAGEMENT
UCSG
7
LC4.31E AB
PCMCIA
CONTROLLER
8 9
7.
CD1A_
72
CD2A_
7
3V2
3V2
CD1B_
71
CD2B_
6
RDY|IRQA_
101
RDY|IRQB_
100
3V2
3V2
5V
5V
RSTA
120
RSTB
119
WAITA_
122
WAITB_
121
REG_
123
WE_
97
IORD_
89
IOW_R
90
0V
5V
3V2
3V2
5V
3V2
3V2
OE_
88
CE1A_
82
CE1B_
81
CE2A_
87
CE2B_
85
VCCEN
70
DATOE_
69
DATDIR
68
ADOE_
67
ADLE
66
3V2
3V2
3V2
0V
0V
0V
0V
0V
MICLKA
110
MISTRTA
92
MIVALA
105
0V
0V
0V
MDIA0
94
MDIA1
96
MDIA2
99
MDIA3
103
MDIA4
107
MDIA5
112
MDIA6
114
MDIA7
116
0V
0V
0V
0V
0V
0V
0V
0V
MICLKB
108
MISTRTB
91
MIVALB
104
MDIB0
93
MDIB1
95
MDIB2 98
MDIB3
102
MDIB4
106
MDIB5
111
MDIB6
113
MDIB7
115
MOCLKB
117
MOSTRTB 126
MOVALB
124
MDOB0
128
MDOB1 2
MDOB2 4
MDOB3
73
MDOB4
75
MDOB5
77
MDOB6
79
MDOB7
83
MOCLKA
118
MOSTRTA
127
MOVALA
125
2V8
0V
0V
MDOA0
1
MDOA1
3
MDOA2
5
MDOA3
74
MDOA4
76
MDOA5
78
MDOA6
80
MDOA7
84
0V
0V
0V
0V
0V
0V
0V
0V
3727
3728
3729
3730
3731
3732
3733
3734-1
8
3734-2
7
3734-3
6
3734-4
5
3738
3739
3740
3741
3742
3743
3744
3745
3746
3747
3748
47R
47R
47R
47R
47R
47R
47R
47R
1
47R
2
47R
3
47R
4
47R
47R
47R
47R
47R
47R
47R
47R
47R
47R
47R
A_MICLK
A_MISTRT
A_MIVAL
A_MOCLK
A_MOSTRT
A_MOVAL
A_MDI(0)
A_MDI(1)
A_MDI(2)
A_MDI(3)
A_MDI(4)
A_MDI(5)
A_MDI(6)
A_MDI(7)
A_MDO(0)
A_MDO(1)
A_MDO(2)
A_MDO(3)
A_MDO(4)
A_MDO(5)
A_MDO(6)
A_MDO(7)
I768
I769
I773
I776
I778
+3V3
5704
+3V3_CORE
36
51
64 109
37
39 52
9
86
10
25
+3V3_CORE
+3V3_STV
3139 123 6147.1
1 2 3 4 5 6 7 8 9 10
11
A_|CD1
A_|CD2
A_|RDY|IRQ
A_RESET
A_|WAIT
PCMCIA_|REG
PCMCIA_|WE
PCMCIA_|IORD
PCMCIA_|IOWR
PCMCIA_|OE
A_|CE1
A_|CE2
VCCEN
|DATOE
DATDIR
|ADOE
ADLE
11
+3V3_STV
PCMCIA_5V
MIU_ADDR(0:24)
12
+3V3_BUF
|ADOE
ADLE
3749
K1, K2
3750
MIU_ADDR(7)
K1, K2
MIU_ADDR(6)
K1, K2
MIU_ADDR(5)
K1, K2
MIU_ADDR(4)
K1, K2
MIU_ADDR(3)
K1, K2
K1, K2
MIU_ADDR(2)
MIU_ADDR(1)
K1, K2 MIU_ADDR(0)
33R
33R
2700
0V
3V2
0V
3V2
3V2
3V2
3V2
0V
3V2
3V2
LATCH
7701
74LVC573ADB
1 OE_
11
20
EN
C1
VCC
2
3
4
D0
D1
D2
5
6
D3
D4
7 D5
8 D6
9 D7
1D
GND10
100n
Q0 19
Q1 18
Q2 17
Q3 16
Q4 15
Q5 14
Q6 13
Q7 12
0V
3V2
3V2
3V2
3V2
0V
3V2
3V2
PCMCIA_A(7)
PCMCIA_A(6)
PCMCIA_A(5)
PCMCIA_A(4)
PCMCIA_A(3)
PCMCIA_A(2)
PCMCIA_A(1)
PCMCIA_A(0)
K1, K2
K1, K2
K1, K2
K1, K2
K1, K2
K1, K2
K1, K2
MIU_ADDR(8)
MIU_ADDR(9)
MIU_ADDR(10)
MIU_ADDR(11)
MIU_ADDR(12)
MIU_ADDR(13)
MIU_ADDR(14)
12
+3V3_BUF
13
+3V3_BUF
LATCH
7702
74LVC573ADB
2701
100n
0V
0V
3V2
0V
0V
3V2
0V
3V2
1
11
OE_ 20
EN
C1
VCC
4
5
2
3
8
9
6
7
D0
D1
D2
D3
D4
D5
D6
D7
1D
GND
10
Q0 19
Q1 18
Q2 17
Q3 16
Q4 15
Q5 14
Q6 13
Q7 12
0V
3V2
0V
0V
3V2
0V
3V2
14
PCMCIA_A(8)
PCMCIA_A(9)
PCMCIA_A(10)
PCMCIA_A(11)
PCMCIA_A(12)
PCMCIA_A(13)
PCMCIA_A(14)
15
3V2
K1, K2
MIU_DATA(7)
K1, K2
K1, K2
K1, K2
K1, K2
K1, K2
K1, K2
K1, K2
MIU_DATA(6)
MIU_DATA(5)
MIU_DATA(4)
MIU_DATA(3)
MIU_DATA(2)
MIU_DATA(1)
MIU_DATA(0)
0V
0V
0V
0V
0V
0V
0V
7703
74LVC245A 20
VCC
3EN1
3EN2
G3
0V
18
1
2
17
16
15
14
13
12
11
GND
10
1
19
2
3
6
7
4
5
8
9
0V
0V
0V
0V
0V
0V
0V
0V
0V
0V
3725
3726
3723-4 4
3723-3
3723-2
3723-1
3724-4
3724-3
3724-2
3724-1
1
4
3
2
1
3
2
2715
100p
BUS TRANSCEIVER
33R
33R
DATDIR
|DATOE
5 33R
8
5
6
7
8
6
7
33R
33R
33R
33R
33R
33R
33R
PCMCIA_D(7)
PCMCIA_D(6)
PCMCIA_D(5)
PCMCIA_D(4)
PCMCIA_D(3)
PCMCIA_D(2)
PCMCIA_D(1)
PCMCIA_D(0)
+3V3
5702
I779
+3V3_BUF
PCMCIA_A(0:14)
PCMCIA_D(3)
PCMCIA_D(4)
PCMCIA_D(5)
PCMCIA_D(6)
PCMCIA_D(7)
PCMCIA_D(0)
PCMCIA_D(1)
PCMCIA_D(2)
A_|IOIS16
16
A_|CE1
PCMCIA_A(10)
PCMCIA_|OE
PCMCIA_A(11)
PCMCIA_A(9)
PCMCIA_A(8)
PCMCIA_A(13)
PCMCIA_A(14)
PCMCIA_|WE
A_|RDY|IRQ
PCMCIA_AVCC
PCMCIA_VPP
A_MIVAL
A_MICLK
PCMCIA_A(12)
PCMCIA_A(7)
PCMCIA_A(6)
PCMCIA_A(5)
PCMCIA_A(4)
PCMCIA_A(3)
PCMCIA_A(2)
PCMCIA_A(1)
PCMCIA_A(0)
17
PCMCIA_5V
PCMCIA_5V
17
5700
5701
18
18
PCMCIA_VPP
PCMCIA_AVCC
F703
3999
F704
68R
PROCESS CHIP
19
A_MDI(0:7)
A_MDO(0:7)
I732
I734
I736
I738
I740
I742
I744
I746
I722
I724
I726
I728
I730
I731
I748
I750
I752
I754
I756
I758
I760
I700
I702
I704
I706
I708
I710
I712
I714
I716
I718
I720
I763
68p PCMCIA
CONNECTOR
1700-A
ROW_A
1700-B
ROW_B
41
42
43
44
45
46
47
48
49
50
35
36
37
38
39
40
60
61
62
63
64
65
66
67
68
51
52
53
54
55
56
57
58
59
GND1
D3
1
2
D4
D5
3
D6
4
5
D7
CE1
6
A10
OE
A11
7
8
9
10
A9
A8
11
12
A13
A14
13
14
WE|P
RDY|BSY
15
16
VCC1
VPP1
17
18
A16
19
A15
A12
20
21
A7
A6
22
23
A5
A4
24
25
A3
A2
26
27
A1
A0
28
D0
29
30
D1
D2
31
32
WP|IOIS16
GND2
72 71
33
34
ICME68H-D1121NS
GND3
CD1
D11
D12
D13
D14
D15
CE2
VS1
IORD
IOWR
A17
A18
A19
A20
A21
VCC2
VPP2
A22
A23
A24
A25
VS2
RESET
WAIT
INPACK
REG
BVD2|SPKR
BVD1|STSCHG
D8
D9
D10
CD2
GND4
I762
+3V3_STV
I701
I703
I705
I707
I709
I711
I713
I715
I717
I719
I721
I723
I725
I727
I729
A_|CD1
A_MDO(3)
A_MDO(4)
A_MDO(5)
A_MDO(6)
A_MDO(7)
A_|CE2
A_|VS1
PCMCIA_|IORD
PCMCIA_|IOWR
A_MISTRT
PCMCIA_AVCC
PCMCIA_VPP
I733
I735
I737
I739
I741
I743
I745
I747
A_MOCLK
I749
I751
I753
I755
I757
PCMCIA_|REG
A_MOVAL
A_MOSTRT
I759
I761
A_RESET
A_|WAIT
A_|INPACK
A_MDO(0)
A_MDO(1)
A_MDO(2)
A_|CD2
ICME68H-D1121NS
19
20
K7
A_MDI(0)
A_MDI(1)
A_MDI(2)
A_MDI(3)
A_MDI(4)
A_MDI(5)
A_MDI(6)
A_MDI(7)
G_16220_017.eps
070206
20
A
B
C
D
E
F
G
H
I
J
K
L
M
N
I705 D19
I706 D17
I707 D19
I708 D17
I709 D19
I710 E17
I711 E19
I712 E17
I713 E19
I714 E17
I715 E19
I716 E17
I717 E19
I718 E17
I719 E19
I720 E17
7701 C13
7702 E13
7703 H13
7704 H4
7705 J2
F700 I4
F701 I5
F702 J5
F703 K18
F704 K19
I700 D17
I701 D19
I702 D17
I703 D19
I704 D17
3746 E8
3747 F8
3748 F8
3749 C12
3750 D12
3751 G17
3752 F8
3999 K19
4700 I5
5700 G18
5701 H18
5702 J13
5703 L1
5704 M1
7700 A5
3729 C8
3730 C8
3731 C8
3732 C8
3733 C8
3734-1 D8
3734-2 D8
3734-3 D8
3734-4 D8
3738 D8
3739 D8
3740 D8
3741 E8
3742 E8
3743 E8
3744 E8
3745 E8
3721 I10
3722 I9
3723-1 I14
3723-2 I14
3723-3 I14
3723-4 I14
3724-1 I14
3724-2 I14
3724-3 I14
3724-4 I14
3725 I14
3726 I14
3727 B8
3728 C8
3705-4 F4
3706 G19
3707 G19
3708 G17
3709 I3
3710 J3
3711 J1
3712 J4
3713 J2
3715 I9
3716 I9
3717 I9
3718 I10
3719 I10
3720 I10
2713 M2
2714 I3
2715 J14
3700 B4
3701 B4
3702-1 D4
3702-2 D4
3702-3 D4
3703-1 E4
3703-2 E4
3703-3 E4
3703-4 E4
3704 D20
3705-1 E4
3705-2 E4
3705-3 F4
1700-A D18
1700-B D18
2700 C14
2701 E14
2702 G18
2703 G18
2704 H12
2705 H18
2706 K13
2707 J3
2708 M2
2709 M2
2710 M2
2711 M2
2712 M2
I737 F19
I738 F17
I739 F19
I740 F17
I741 F19
I742 F17
I743 F19
I744 F17
I745 F19
I746 F17
I747 F19
I748 F17
I749 F19
I750 F17
I721 E19
I722 E17
I723 E19
I724 E17
I725 E19
I726 E17
I727 E19
I728 E17
I729 E19
I730 E17
I731 E17
I732 E17
I733 E19
I734 E17
I735 E19
I736 F17
I751 F19
I752 F17
I753 F19
I754 F17
I755 F19
I756 F17
I757 F19
I758 F17
I759 F19
I760 F17
I761 F19
I762 F19
I763 G17
I764 I5
I766 J2
I767 J3
I768 J9
I769 J9
I770 J2
I772 J1
I773 J9
I775 K5
I776 K9
I777 L2
I778 M2
I779 J13
16
+3V3_STV
13 14 15
Circuit Diagrams and PWB Layouts LC4.31E AB 7.
26
Layout IBO Zapper Panel (Overview Top Side)
0005 E3
0006 D3
0007 C3
0008 C3
0009 B3
0010 B3
0011 A3
1100 B9
1101 B9
1106 C9
1301 E1
1303 A9
1304 E2
1401 A9
1402 A7
1403 A8
1500 D1
1600 B2
1601 A4
1603 B5
1700 A6
2100 C9
2101 D8
2102 C8
2122 B9
2130 C9
2131 D8
2132 C8
2133 D9
2201 C7
2203 C7
2204 C7
2206 E8
2214 A5
2301 D3
2302 D6
2303 D3
2304 E4
2306 D4
2308 E5
2309 D4
2310 E5
2311 E5
2314 A9
2315 D3
2316 C3
2317 C4
2318 C4
2319 C4
2320 D5
2323 D4
2325 E5
2328 C4
2329 D3
2330 E6
2331 C3
2332 E7
2333 E1
2334 E1
2335 E2
2336 E5
2337 E5
2403 B9
2405 B9
2406 B9
2411 A9
2412 A9
2414 A7
2415 A7
2416 B9
2500 B7
2501 B7
2502 B8
2503 B7
2504 B8
2505 B7
2506 B7
2507 B8
2508 B7
2509 A3
2510 A3
2511 B8
2512 B8
2513 B7
2514 B7
2515 B8
2516 D3
2517 D1
2520 E8
2521 E3
2522 E8
2523 E8
2524 E8
2525 E8
2526 E8
2527 E8
2529 E3
2530 E8
2531 E8
2532 E8
2533 A3
2534 A3
2535 E3
2536 E3
2537 E8
2538 E8
2543 B7
2550 E2
2551 E2
2557 E1
2558 E1
2614 A4
2621 B4
2622 C3
2623 B3
2624 B4
2625 A4
2626 C3
2627 B3
2628 B3
2629 A3
2630 C3
2631 A3
2632 A3
2633 A4
2634 A4
2635 B3
2636 D2
2700 E7
2701 E6
2704 E6
2706 D6
2707 B7
2709 C4
2713 C4
3100 B9
3113 B9
3114 B8
3115 B8
3116 B9
3117 B9
3119 B8
3120 B9
3121 B9
3122 B9
3123 B9
3124 B9
3125 B9
3126 B9
3127 B9
3128 D9
3131 D9
3133 B8
3134 B8
3135 B8
3136 D9
3138 B8
3139 B9
3141 C9
3143 C9
3144 C9
3145 A6
3146 A6
3147 A6
3148 A6
3149 A6
3150 A6
3156 C8
3157 C8
3158 C8
3159 C7
3206 A5
3207 A5
3209 A5
3210 A5
3211 A5
3300 E3
3301 E3
3302 D3
3303 D3
3304 D3
3315 E5
3316 B9
3317 E5
3318 D3
3319 D3
3320 D3
3321 D3
3322 C3
3323 C3
3324 D5
3325 D5
3326 D5
3327 D5
3328 D5
3329 D5
3330 D4
3331 C3
3332 E5
3333 D5
3403 B9
3404 A9
3405 A9
3406 A9
3407 A9
3408 A9
3409 B9
3411 A9
3414 A7
3415 A7
3420 B9
3421 B9
3422 B9
3423 B9
3424 B9
3500 B8
3501 B7
3502 B8
3503 B7
3504 B8
3505 B7
3506 B8
3507 B8
3508 B8
3509 B7
3510 B7
3511 B7
3512 A3
3513 A3
3514 B7
3515 B8
3516 B7
3517 B8
3519 E8
3520 E8
3521 E8
3522 E8
3526 A3
3527 A3
3528 B7
3530 E3
3533 E3
3539 E3
3543 D2
3544 E2
3545 E1
3547 E3
3548 E1
3557 E2
3558 E2
3559 E2
3560 E2
3561 E2
3562 E2
3569 E1
3572 E2
3583 D1
3584 D1
3585 D1
3586 D2
3587 D2
3588 D2
3589 D1
3590 D1
3591 D2
3592 D1
3593 E1
3594 E1
3595 D1
3596 E1
3597 D1
3608 B4
3609 B3
3610 B3
3611 B3
3612 C3
3613 C3
3614 B3
3615 B3
3616 B3
3617 A4
3618 A3
3619 A3
3620 B3
3621 B4
3622 B4
3623 B3
3624 B4
3625 A5
3626 A3
3627 A3
3629 A5
3630 B3
3631 B3
3632 A3
3633 A3
3634 B3
3635 B4
3636 A4
3637 A4
3638 A4
3639 A4
3640 D9
3641 D9
3642 D9
3643 D9
3644 B4
3700 A5
3701 A5
3702 B5
3703 B5
3705 B5
3711 B7
3715 C6
3716 C6
3719 C5
3720 C5
3723 D6
3724 D6
3725 C5
3734 C6
3749 C5
3750 C5
4100 A6
4101 A6
4102 B9
4104 B9
4105 A8
4106 B8
4107 B8
4109 B8
4110 B8
4200 E7
4201 E7
4202 E7
4203 E7
4205 E7
4212 A5
4402 B9
4414 A7
4415 A7
4417 A8
4418 A8
4503 E1
4505 E1
4506 E1
4508 D2
4509 E2
4510 D1
4511 E1
4605 A4
4606 B3
4607 B3
4610 A3
4700 B5
5100 D9
5101 E8
5102 E8
5103 D9
5200 C7
5201 C7
5202 E8
5203 A5
5300 E4
5301 D2
5302 D5
5303 E5
5304 E4
5306 D2
5307 E6
5308 D4
5309 E1
5401 A9
5420 B9
5421 A8
5422 A8
5502 B8
5504 E3
5505 E3
5507 E3
5508 E3
5511 E8
5512 E8
5513 E8
5514 E8
5600 A4
5601 C4
5602 B3
5603 B3
5702 D6
5703 C4
5704 C4
6401 A7
6403 A7
6503 E2
6509 D2
6510 D2
6511 E1
6512 D2
6513 D2
6514 E1
7100 D9
7103 A6
7104 A6
7200 D7
7201 D8
7202 E9
7203 A5
7300 D3
7301 D4
7302 E6
7303 E5
7305 D3
7306 A9
7307 C4
7308 C4
7309 D5
7310 D5
7311 D5
7402 A9
7403 B9
7500 B7
7501 B7
7502 B8
7503 B7
7504 B7
7507 E1
7511 E2
7512 E2
7521 D2
7522 D1
7523 D2
7524 D2
7525 D2
7526 D1
7527 D1
7528 E1
7529 D1
7600 B4
7601 C3
7602 B3
7605 A4
7606 D9
7700 B6
7701 E7
7702 D7
7703 D7
7704 A5
7705 B7
Part 1
G_16220_018a.eps
Part 2
G_16220_018b.eps
Part 3
G_16220_018c.eps
3139 123 6147.1
Part 4
G_16220_018d.eps
G_16220_018.eps
090206
Circuit Diagrams and PWB Layouts
Layout IBO Zapper Panel (Part 1 Top Side)
LC4.31E AB 7.
27
Part 1
G_16220_018a.eps
090206
Circuit Diagrams and PWB Layouts
Layout IBO Zapper Panel (Part 2 Top Side)
LC4.31E AB 7.
28
Part 2
G_16220_018b.eps
090206
Circuit Diagrams and PWB Layouts
Layout IBO Zapper Panel (Part 3 Top Side)
LC4.31E AB 7.
29
Part 3
G_16220_018c.eps
090206
Circuit Diagrams and PWB Layouts
Layout IBO Zapper Panel (Part 4 Top Side)
LC4.31E AB 7.
30
Part 4
G_16220_018d.eps
090206
Circuit Diagrams and PWB Layouts
Layout IBO Zapper Panel (Overview Bottom Side)
2103 C1
2104 C2
2105 C2
2106 C2
2107 D2
2108 D2
2109 D1
2110 D1
2111 C1
2112 C2
2113 D2
2114 D2
2115 D1
2116 C1
2119 D1
2120 D1
2121 D1
2200 D2
2202 C2
2205 C2
2207 E1
2208 E2
2209 E2
2210 E1
2211 D2
2212 D1
2213 E1
2300 D6
2305 E4
2312 D7
2313 D7
2321 E5
2322 D6
2324 D6
2326 D7
2327 C6
2413 A1
2528 E7
2544 A7
2559 E7
2560 E7
2607 B6
2608 B6
2609 B6
2610 B6
2611 B6
2612 B6
2613 B6
2615 B6
2617 B6
2618 B6
2619 B6
2620 B6
2637 C8
2702 C5
2703 C5
LC4.31E AB 7.
31
2705 C5
2708 B5
2710 B5
2711 B4
2712 B5
2714 B5
2715 D3
3101 C1
3112 C2
3129 D1
3130 D1
3132 D1
3137 D1
3140 D1
3142 C1
3151 D1
3154 C1
3155 C1
3160 C2
3161 D3
3162 D2
3163 C1
3164 C1
3200 D3
3201 C3
3202 D3
3203 C2
3204 C2
3205 D3
3212 D2
3306 D7
3307 D6
3311 E5
3312 E5
3313 E5
3314 E6
3334 E5
3523 E7
3573 E9
3574 E9
3575 C9
3576 D9
3577 D9
3578 E7
3579 C8
3580 D9
3581 E7
3582 D8
3598 D9
3606 B7
3607 B7
3645 B6
3704 C4
3706 C5
3707 C5
3708 C5
3709 B5
3710 B4
3712 B4
3713 B3
3717 B4
3718 B4
3721 B4
3722 B4
3726 C3
3727 B4
3728 C4
3729 C5
3730 C4
3731 C4
3732 C4
3733 C4
3738 C5
3739 C5
3740 C5
3741 C5
3742 C5
3743 C5
3744 C4
3745 C4
3746 C4
3747 C4
3748 C4
3751 C5
3752 B4
3999 A5
4108 D1
4204 D3
4213 C3
4214 D2
4215 D3
4302 E4
4303 E4
4416 A2
4507 B2
4512 D9
4611 A8
5423 A2
5515 C8
5528 A7
5604 C8
5700 C5
5701 C5
6300 E6
6303 E5
6304 D6
6305 E4
6306 E4
6307 E5
6308 E5
6400 A1
6507 E9
6508 D9
6515 D9
7105 D1
7312 D5
7518 C9
7519 C9
7520 D9
Part 2
G_16220_019b.eps
Part 1
G_16220_019a.eps
3139 123 6147.1
Part 3
G_16220_019c.eps
Part 4
G_16220_019d.eps
G_16220_019.eps
070206
Circuit Diagrams and PWB Layouts
Layout IBO Zapper Panel (Part 1 Bottom Side)
LC4.31E AB 7.
32
Part 1
G_16220_019a.eps
G_16220_019a.eps
100206
Circuit Diagrams and PWB Layouts
Layout IBO Zapper Panel (Part 2 Bottom Side)
LC4.31E AB 7.
33
Part 2
G_16220_019b.eps
G_16220_019b.eps
090206
Circuit Diagrams and PWB Layouts
Layout IBO Zapper Panel (Part 3 Bottom Side)
LC4.31E AB 7.
34
Part 3
G_16220_019c.eps
G_16220_019c.eps
090206
Circuit Diagrams and PWB Layouts
Layout IBO Zapper Panel (Part 4 Bottom Side)
LC4.31E AB 7.
35
Part 4
G_16220_019d.eps
G_16220_019d.eps
090206
Personal Notes:
Circuit Diagrams and PWB Layouts LC4.31E AB 7.
36
E_06532_013.eps
131004
8.
Alignments
Index of this chapter:
8.1 General Alignment Conditions
Note: Figures below can deviate slightly from the actual situation, due to the different set executions.
8.1
General Alignment Conditions
Perform all electrical adjustments under the following conditions:
Mains voltage and frequency: 110-240 V / 50/60 Hz (26 and
32”), 220-240 V / 50/60 Hz (37” and 42”).
Allow the set to warm up for approximately 10 minutes.
Test probe: Ri > 10 M
Ω; Ci < 2.5 pF.
8.2
Hardware Alignments
There are no hardware alignments foreseen for the IBO Zapper module.
8.3
Software Alignments
With the software alignments of the Service Alignment Mode
(SAM) the geometry, white tone and tuner (IF) can be aligned.
To store the data: Use the RC button Menu to switch to the main menu and next, switch to ‘Stand-by’ mode.
8.3.1
ADC Gain and Grey Scale Alignment
The table below shows a number of NVM settings used for each model of TV set. Be sure to use the correct editor in the
SAM menu (NVM Editor or SC NVM Editor), because the first one is used for the Hercules NVM, and the second one for the
SCALER (SC) part of the TV set.
Caution:
• Do not change the NVM settings without understanding the function of each setting, because incorrect NVM settings may seriously hamper the
correct functioning of the TV set!
• Do not change the Scaler NVM settings, as this will
hamper the DVI / HDMI functionality of the TV set!
• Always note down the existing NVM settings, before changing the settings. This will enable you to return to the original settings, if the new settings turn out to be incorrect.
Alignments LC4.31E AB 8.
EN 37
Table 8-1 ADC gain and grey scale alignment
SDTV ADC Gain settings: Use the NVM Editor in SAM to set these values in the Hercules NVM
Setting
NVM_ADC_GAIN_R
NVM_ADC_GAIN_G
NVM_ADC_GAIN_B
Hercules NVM Address
(decimal value)
006
007
008
26PF5521D/10/12
32PF5521D/10/12
37PF5521D/10
26PF7521D/10
32PF7521D/10
37PF7521D/10
42PF7421D/10
135
185
165
SDTV Greyscale settings: Use the SC NVM Editor in SAM to set these values in the Scaler NVM
Setting
Scaler NVM Address
(decimal value)
26PF5521D/10/12
32PF5521D/10/12
37PF5521D/10
26PF7521D/10
32PF7521D/10
37PF7521D/10
42PF7421D/10
070 ADC_RED_OFFSET2
ADC_GRN_OFFSET2
ADC_BLU_OFFSET2
ADC_RED_GAIN
ADC_GRN_GAIN
ADC_BLU_GAIN
338
339
340
341
343
345
070
070
150
150
150
PC Greyscale settings
Setting
ADC_RED_OFFSET2
ADC_GRN_OFFSET2
ADC_BLU_OFFSET2
ADC_RED_GAIN
ADC_GRN_GAIN
ADC_BLU_GAIN
Scaler NVM Address
(decimal value)
325
326
327
328
330
332
HD Greyscale settings
26PF5521D/10/12
32PF5521D/10/12
37PF5521D/10
26PF7521D/10
32PF7521D/10
37PF7521D/10
42PF7421D/10
070
070
070
240
240
240
Setting
ADC_RED_OFFSET2
ADC_GRN_OFFSET2
ADC_BLU_OFFSET2
ADC_RED_GAIN
ADC_GRN_GAIN
ADC_BLU_GAIN
Scaler NVM Address
(decimal value)
351
352
353
354
356
358
26PF5521D/10/12
32PF5521D/10/12
37PF5521D/10
26PF7521D/10
32PF7521D/10
37PF7521D/10
42PF7421D/10
064
075
064
180
180
180
EN 38 8.
LC4.31E AB Alignments
8.3.2
Panel Size Settings
The table below shows the NVM settings for panel selection, based on panel size and manufacturer. Use the SC NVM editor in the SAM menu to change the panel code at decimal address
320.
Caution:
• Make sure to choose the right panel, because incorrect
NVM settings may seriously hamper the correct
functioning of the TV set!
• Always note down the existing NVM settings, before changing the settings. This will enable you to return to the original settings, if the new settings turn out to be incorrect.
Table 8-2 Panel size settings
Manufacturer
LPL
Option table for panel size settings
Size (inch) Panel code (hex)
26
32
1A
0F
LPL
LPL
37 0E
LPL
Sharp
Sharp
AUO
42
26
32
22
11
10
AUO
AUO
26
32
37
08
09
0A
8.3.3
Options
Options OP1...OP7 in the SAM menu can be used for quickly restoring 64 features or settings of the HERCULES part of the
TV set to their original default factory values (8 groups of 8 features/settings each). When the decimal value of one option byte OP1...OP7 is changed (see the first table below) then a group of 8 bits, representing 8 HERCULES options or features, is changed as well (see the second table below for a detailed description of the features or settings that are changed).
The second table shows which option byte (OP1...OP7) represents which group of 8 option bits. Each bit (0...7) switches a particular HERCULES feature or setting ON or OFF, depending on its value (1 or 0).
It is also possible to change the features or settings mentioned in the second table directly at bit level, by means of the NVM
Editor in the SAM menu. In the NVM Editor, first the correct
NVM address (ADR) has to be entered, then the correct value
(VAL, 1 or 0) for each bit (see second table), and finally the settings have to be stored (STORE). For quickly restoring the
HERCULES part of the TV set to its original factory settings, however, it is more convenient to simply enter the default factory settings OP1...OP7 that are given in the first table below. How to do this, is described in the next paragraph.
How to Change an Option Byte
As has been explained above, an Option byte (OP) represents a number of different HERCULES options. Changing these bytes directly makes it possible to set all HERCULES options very fast. All options are controlled via seven option bytes.
Select the option byte (OP1.. OP7) with the Menu Up/ Down keys, and enter the new (decimal) value. For the correct
Factory Default settings, see the first table below. For more detailed information, see the second table.
Leaving the Option submenu saves the changes in the Option
Byte settings. Some changes will only take effect after the set has been switched “off” and “on” with the AC power switch (cold start).
Table 8-3 Option codes OP1...OP7
Option table for quickly restoring the HERCULES to its
Factory Default settings
Model number
OP1
OP2
OP3
OP4
OP5
OP6
OP7
Options (can be changed only via the
SAM menu)
26PF5521D/10/12
32PF5521D/10/12
156
231
47
81
252
27
19
37PF5521D/10
156
231
47
113
252
27
19
Total decimal value for each option per model number
26PF7521D/10
32PF7521D/10
37PF7521D/10
42PF7421D/10
156
231
111
113
252
27
19
How to Change Options at Bit Level
If you wish to know which features or settings of the
HERCULES are changed via OP1...OP7, or if you want to change each option or feature bit by bit, use the more detailed table below.
Note: the table below contains only part of the NVM settings that can be changed. A second range of settings and features can be found in Chapter 5 of this manual, in table NVM Default
values. The settings mentioned there can only be changed via the NVM editor. For further settings, see also the table “ADC
Gain and Grey scale alignment” elsewhere in this manual.
Alignments LC4.31E AB 8.
EN 39
Table 8-4 Option codes in detail, at bit level
OP1 bit 7 (msb) bit 6 bit 5 bit 4 bit 3 bit 2 bit 1 bit 0 (lsb)
Option byte & bit table for restoring the TV set to its original Factory Default settings via the NVM Editor in the SAM menu
Model number
26PF5521D/10/12
32PF5521D/10/12
37PF5521D/10
26PF7521D/10
32PF7521D/10
37PF7521D/10
42PF7421D/10
Description of feature/option to be switched ON or OFF
OP_PHILIPS_TUNER
OP_FM_RADIO
OP_LNA
OP_ATS // for EU
OP_ACI
OP_UK_PNP
OP_VIRGIN_MODE
OP_CHINA
Total DEC Value
Total HEX Value
1
0
0
1
1
1
0
0
156
9C
1
0
0
1
1
1
0
0
156
9C
0
0
1
1
156
0
1
1
0
9C
OP2 bit 7 (msb) bit 6 bit 5 bit 4 bit 3 bit 2 bit 1 bit 0 (lsb)
OP_HDMI-2X
OP_IBEX (for DVB)
OP_CHANNEL_NAMING
OP_LTI (Lum Transcient Improvmt)
OP_TILT
OP_FINE_TUNING
OP_BACKLIGHT_DIMMING (for Malibu only)
OP_HUE
Total DEC Value
Total HEX Value
OP3 bit 7 (msb) bit 6 bit 5 bit 4 bit 3 bit 2 bit 1 bit 0 (lsb)
OP_EW_FUNCTION
OP_PIXEL_PLUS (for Option A)
OP_SCL_RECOVERY
OP_SPLITTER // temp
OP_VIRTUAL_DOLBY
OP_WIDE_SCREEN
OP_WSSB
OP_OP_ME5 // OP_ME5 - 5/6 local buttons implementation
Total DEC Value
Total HEX Value
OP4 bit 7 (msb) bit 6 bit 5 bit 4 bit 3 bit 2 bit 1 bit 0 (lsb)
OP_LIP_SYNC (for PDP only)
OP_HD
OP_1000P_TEXT
OP_DELTA_VOLUME
OP_TAIWAN_KOREA
OP_VOLUME_LIMITER
OP_STEREO_DBX
OP_STEREO_NICAM_2CS
Total DEC Value
Total HEX Value
OP5 bit 7 (msb) bit 6 bit 5 bit 4 bit 3 bit 2 bit 1 bit 0 (lsb)
OP_AV1
OP_AV2
OP_AV3
OP_CVI
OP_SVHS2
OP_SVHS3
OP_HOTEL_MODE
OP_SIMPLY_FACTORY=OP_BTSC_AVSTEREO
Total DEC Value
Total HEX Value
OP6 bit 7 (msb) bit 6 bit 5 bit 4 bit 3 bit 2 bit 1 bit 0 (lsb)
OP_PERSONAL_ZAPPING
OP_SMART_SURF
OP_FMTRAP
OP_COMBFILTER
OP_ACTIVE_CONTROL
OP_VIDEO_TEXT
OP_LIGHT_SENSOR
OP_TWIN_TEXT
Total DEC Value
Total HEX Value
OP7 bit 7 (msb) bit 6 bit 5 bit 4 bit 3 bit 2 bit 1 bit 0 (lsb)
OP_TIME_WIN1
OP_DVB_USB = OP_MALAY
OP_AMBILIGHT
OP_COLUMBUS
OP_DUMMY6
OP_DUMMY7
OP_WEST_EU
OP_MULTI_STANDARD_EUR
Total DEC Value
Total HEX Value
1
1
1
0
0
1
1
1
231
E7
0
0
1
0
1
1
1
1
47
2F
0
1
0
1
0
0
0
1
81
51
1
1
1
1
1
1
0
0
252
FC
0
0
0
1
1
0
1
1
27
1B
0
0
0
1
0
0
1
1
19
13
1
1
1
0
0
1
1
1
231
E7
0
0
1
0
1
1
1
1
47
2F
0
1
0
1
1
0
0
1
113
71
1
1
1
1
1
1
0
0
252
FC
0
0
0
1
1
0
1
1
27
1B
0
0
0
1
0
0
1
1
19
13
1
1
1
0
1
0
1
1
111
6F
0
1
1
0
1
0
0
0
19
13
1
1
1
0
27
0
1
0
0
1B
1
0
0
252
FC
1
1
1
1
1
1
1
0
0
1
1
1
1
231
E7
0
1
0
1
1
0
0
1
113
71
EN 40 9.
LC4.31E AB Circuit Descriptions, Abbreviation List, and IC Data Sheets
9.
Circuit Descriptions, Abbreviation List, and IC Data Sheets
Index of this chapter:
9.3 Block diagram IBO Zapper 2 Module
Note:
• Only information that is related ito the IBO Zapper 2 module is published in this manual. For the other information, see the relevant chassis manual (order code on front page).
9.1
Introduction
The LC4.31 chassis is a global chassis for the year 2006. It is the successor of the LC4.3 chassis and covers screen sizes of
26, 32, 37 and 42 inch (in 16:9 ratio). It has two new stylings, called ME5FL and ME6 (see front page). There are two different picture qualities available, depending on the model:
Pixel Plus in the xxPF7x21/10 models, and Digital Crystal Clear in the xxPF5321/10 and /12 models.
The Digital Video Broadcasting (DVB) TV sets/models discussed in this manual are a combination of a standard TV set and an IBO Zapper 2 module.
9.3
Block diagram IBO Zapper 2 Module
9.2
IBO Zapper 2 Module
The “IBO Zapper 2” module is meant to receive, process, and transfer Digital Video Broadcasting-Terrestrial (DVB-T) signals to the internal TV interface for audio, video, and control. The
“IBO Zapper 2” is intended for use in combination with an analogue TV chassis.
Differences with respect to the earlier version of the IBO zapper module are:
• The PCMCIA connector is different.
• The USB connector has been removed.
H F i n a n a l o g I F
I B O Z a p p e r m o d u l e
H F i n d i g i t a l I F h y b r i d T U N E R
T D 1 3 1 6 a n a l o g I F I 2 C A G C
I F i n J T A G T S o u t
I 2 C t u n e r
C O F D M
1 0 0 4 6
A G C I 2 C
T S i n J T A G C O N T R O L
C .
I .
I 2 C
S T V 0 7 0 0 A
T S o u t C P U I / F
D / A s w i t c h
M U X + H E F
A G C
I 2 C
E E P R O M
( u s e r s e t t i n g s )
P C M C I A c o n n e c t o r
L a t c h +
T r a n s c e i v e r
F L A S H
4 M B
E J T A G M I U X T A L S D R A M
I R
D E M U X D E S C R
M P E G 1 A u d i o d e c o d e r
M P E G 2 V i d e o d e c o d e r
C P U O S D
M O J O p n x 8 3 x x
U S B I 2 C 1 R E S E T R S 2 3 2
S D R A M
1 6 M B a u d i o
D A C
I R Q
I 2 C
P o w e r O n / O f f
1 2 V
5 V
P S U
T T L / R S 2 3 2
R S 2 3 2 d i g i t a l a u d i o a n a l o g a u d i o L , R p r i m a r y ( T V ) :
R G B ( 4 : 4 : 4 ) +
C V B S s y n c o r Y P b P r ( 4 : 4 : 4 ) s e c u n d a r y ( V C R ) :
C V B S
E_14970_036.eps
011105
Figure 9-1 Block Diagram IBO zapper 2 module
9.4
Circuit Descriptions, Abbreviation List, and IC Data Sheets
PNx83xx MOJO
The MOJO is a source decoder chip targeted for very low cost application in integrated digital televisions.The device contains all hardware and software to be able to decode and display
MPEG2 transport streams, including:
• Descrambling
• Demultiplexing
• Audio / video decompression
• Video encoding.
• Overlay graphics provisions
Some features of the MOJO are:
• 32-bit PR1910 core operating at 120 MHz.
• 16-bit memory and peripheral interface to connect ROM,
NOR Flash and various peripherals.
• Sixteen external interrupt inputs shared with PIO lines.
• Several embedded peripheral units with physical interfaces to:
– Two UART (RS-232) data ports
– Two I
2
C master / slave transceivers
– Two smart-card reader interfaces
– One Integrated Conditional Access Module interface
• Supports parallel and serial transport stream input interfaces
LC4.31E AB 9.
EN 41 were first sent to the Hercules input for e.g. teletext reinsertion purposes before they are passed on to the Scaler.
The secundary MOJO output, which delivers CVBS signals, is used for monitoring purposes or for recording via the SCART 2 output of the TV set. The signal path of the secundary MOJO output is as follows: the CVBS/VCR signal coming from the MOJO is sent to the
Hercules video switch input, pin 58, via switch 7G07. The signal then appears on one of the outputs of the Hercules video switch, pin 48, and is passed on via switches 7219 and 7G10 to pin 19 of SCART 2, which is the CVBS/monitor output.
For further details, see the manuals of the original TV sets on which the various models of IBO zappers are based.
9.6.3
Audio Outputs
The MOJO has two audio output interfaces:
• SPDIF Out: The SPDIF sound output goes directly to a connector on the back of the module.
• I2S Out: This digital sound output is fed through a DAC and the analogue L/R signals are directely fed into the
Hercules.
9.5
Front End
The front end of the “IBO Zapper” module is almost identical to the “IBO+” module as used in the A10E with the exception that the Transport Streams that come from the COFDM demodulator are now fed through the PCMCIA controller first.
The PCMCIA controller receives encrypted Transport Streams from the COFDM demodulator. Via the PCMCIA card, these encrypted Transport Streams are decrypted, and transported to the MOJO.
9.7
IBOLink Interface
The IBOLink™ approach is such that the conventional TV microcontroller is re-used when digital functionality is added. In principle, the TV can still operate without the bolt-on module.
The IBOLink™ software is added to the TV-set software, and is operating as a software bridge.
9.8
Control Interface
The “IBO Zapper” is connected as a slave I
2
C device, The I
2
C bus should be +5V tolerable and operating at 100kHz(MAX).
The “IBO Zapper” module slave address is 0xE4 (similar to
IBO+) but is configurable via IBOLink.
All communication from digital module to Television chassis has to be initiated via an active low hardware interrupt line from the digital module.
9.6
Back End
The MOJO is the main building block of the back-end of the
“IBO Zapper” module. The IC decodes the MPEG-2 stream into analogue video and digital audio.
9.6.1
Transport Stream Input
The Transport Stream input is according to MPEG2 standard.
In the “IBO Zapper 2”, only 8-bit parallel is supported. The used
TS names are TDA_DATA.
9.6.2
Video Outputs
The MOJO has two analogue video outputs:
• Primary (TV): YUV + RGB
• Secundary (VCR): CVBS
The primary MOJO output is used as input for the TV display and is fed either to the Hercules YUV/RGB input (pins 78/79/
80), for teletext insertion purposes, or directly to the analogue
Scaler input D2/C2/B2. The signal path is as follows: switch 7G09 chooses between the SCART1 input signal and the YUV/RGB output of the MOJO. The signal selected by switch 7G09 is passed on to one group of the inputs of switch
7E00. The other group of inputs of this switch is connected to the three analogue input pins of the DVI-D connector. The output signal of switch 7E00 is passed on to the Hercules input, pins 78/79/80 and to the Scaler input D2/C2/B2 via switch 7E01 in the MUX-SYNC interface. This switch chooses between the
MOJO output signal and the Hercules output signal, which is used for SDTV signals (analogue terrestrial TV reception via the analogue receiving part). The Hercules output is not only used for SDTV signals, but also for MOJO output signals that
9.9
UART Interface
The UART interfaces (Universal Asynchronous Receiver And
Transmitter) are serial interfaces, which are used to transfer data and commands between two devices.
The “IBO Zapper” system uses an UART interface for serial communication with a PC for:
• Diagnostic SW for Service or Production
• SW uploading for Service or Development
9.10 Power Supply IBO Zapper Module
The “IBO Zapper” module operates from a single 12V supply provided by the TV chassis. All other voltages that the module needs are derived from the +12V. The module has four different physical power states:
• “Off” State.
• “Passive Standby”.
• “Active Standby”.
• “On” State.
Please refer to the LC4.31E AA manual for more information.
EN 42 9.
LC4.31E AB Circuit Descriptions, Abbreviation List, and IC Data Sheets
DTS
9.11 Abbreviation List
0/6/12
1080i
1080p
2CS
480i
480p
ACI
ADC
AFC
AGC
AM
AP or A/P
AR
ASD
AV
B-SC1-IN
B-SC2-IN
B-TXT
B/G
C-FRONT
CBA
CL
CLUT
COFDM
ComPair
CSM
CVBS
CVBS-EXT
CVBS-INT
CVBS-MON
CVBS-TER-OUT
DAC
DBE
DFU
DNR
DRAM
DSP
DST
SCART switch control signal on A/V board. 0 = loop through (AUX to TV), 6
= play 16:9 format, 12 = play 4:3 format
1080 visible lines, interlaced
1080 visible lines, progressive scan
2 Carrier Sound (or 2 Channel Stereo)
480 visible lines, interlaced
480 visible lines, progressive scan
Automatic Channel Installation: algorithm that installs TV channels directly from a cable network by means of a predefined TXT page
Analogue to Digital Converter
Automatic Frequency Control; Control signal used to tune and lock to the correct frequency
Automatic gain control (feedback) signal to the tuner. This circuit ensures a constant output amplitude regardless of the input amplitude
Amplitude Modulation; A "data encoding to a carrier" method, such that the carrier amplitude is proportional to the data value
Asia Pacific
Aspect Ratio: 4 by 3 or 16 by 9
Automatic Standard Detection
External Audio Video
Blue SCART1/EXT1 in
Blue SCART2/EXT2 in
Blue TeleteXT
Monochrome TV system. Sound carrier distance is 5.5 MHz. B= VHFband, G= UHF-band
Chrominance front input
Circuit Board Assembly (also called
PCB or PWB)
Constant Level: audio output to connect with an external amplifier
Colour Look-Up Table
COLour LUMinance Baseband
Universal Subsystem. IC performing noise reduction and 2D/3D comb filtering
Computer aided rePair. A tool for diagnosing a TV through a PC controlled interface
Customer Service Mode
Composite Video and Blanking Signal;
A single video signal that contains luminance, colour, and timing information
CVBS signal from external source
(VCR, VCD, etc.)
CVBS signal from internal Tuner
CVBS monitor signal
CVBS TERrestrial OUTput signal
Digital to Analogue Converter
Dynamic Bass Enhancement: extra low frequency amplification
Directions For Use: Owner's manual
Dynamic Noise Reduction / Digital
Noise Reduction; Noise reduction feature of the set
Dynamic RAM; dynamically refreshed
RAM
Digital Signal Processing
Dealer Service Tool; Special remote control designed for dealers to enter e.g. service mode (a DST-emulator is available in ComPair)
DVB
FRC
H
HA
I
HD
HP
DVB-T
DVD
EEPROM
EPG
EU
EXT
FBL
FM
I
IBO
2
C
I
2
S
IC
IF
Interlaced
IR
IRQ
Last Status
LATAM
LC04
LCD
LED
L/L'
LS
LVDS
M/N
MOSFET
MPEG
Digital Theatre System; A multichannel surround sound format, similar to Dolby Digital
Digital Video Broadcast; A method of transmitting digital audio and video, based on MPEG2
DVB-Terrestrial; HDTV standard for the EU
Digital Versatile Disc
Electrically Erasable and
Programmable Read Only Memory
Electronic Program Guide: system used by broadcasters to transmit TV guide information (= NexTView)
Europe
EXTernal (source), entering the set by
SCART or by cinches (jacks)
Fast BLanking; DC signal accompanying RGB signals. To blank the video signal when it is returning from the right side of the screen to the left side. The video level is brought down below the black video level
Field Memory; A memory chip that is capable of storing one or more TV picture fields / Frequency Modulation;
A technique that sends data as frequency variations of a carrier signal
Frame Rate Converter
H_sync to the module
Horizontal Acquisition; horizontal sync pulse
High Definition
HeadPhone
Monochrome TV system. Sound carrier distance is 6.0 MHz. VHF- and
UHF-band
Intelligent Bolt On
Integrated IC bus
Integrated IC Sound bus
Integrated Circuit
Intermediate Frequency
Scan mode where two fields are used to form one frame. Each field contains half the number of the total amount of lines. The fields are written in "pairs", causing line flicker.
Infra Red
Interrupt ReQuest
The settings last chosen by the customer and read and stored in RAM or in the NVM. They are called at startup of the set to configure it according to the customer's preferences
LATin AMerica
Philips chassis name for LCD TV 2004 project
Liquid Crystal Display
Light Emitting Diode; A semiconductor diode that emits light when a current is passed through it
Monochrome TV system. Sound carrier distance is 6.5 MHz. L' is Band
I, L is all bands except for Band I
LoudSpeaker
Low Voltage Differential Signalling, data transmission system for high speed and low EMI communication.
Monochrome TV system. Sound carrier distance is 4.5 MHz. M= 525 lines @ 60 Hz, N= 625 lines @ 50 Hz
Metal Oxide Semiconductor Field
Effect Transistor
Motion Pictures Experts Group. An
ISO/IEC body that has given its name
MSP
MUTE
NC
NICAM
NOR
NTSC
NVM
O/C
ON/OFF LED
OSD
PAL
PC
PCB
PCMCIA
PIG
PIP
PLL
Progressive Scan
PWB
RAM
RC
RC5 or 6
RGB
RGBHV
ROM
SAM
S/C
SCART
SCL
SD
SDA
SDRAM
SECAM
Circuit Descriptions, Abbreviation List, and IC Data Sheets to an image compressing scheme for moving video
Multi-standard Sound Processor: ITT sound decoder
MUTE Line
Not Connected
Near Instantaneously Companded
Audio Multiplexing; This is a digital sound system, mainly used in Europe
National Television Standard
Committee. Colour system used mainly in North America and Japan.
Colour carrier NTSC M/N = 3.579545
MHz, NTSC 4.43 = 4.433619 MHz
(this is a VCR norm, it is not transmitted off-air)
Non Volatile Memory; IC containing data such as alignment values, preset stations
Open Circuit
On/Off control signal for the LED
On Screen Display
Phase Alternating Line. Colour system used mainly in Western Europe
(colour carrier = 4.433619 MHz) and
South America (colour carrier PAL M =
3.575612 MHz and PAL N = 3.582056
MHz)
Personal Computer
Printed Circuit Board (or PWB)
Personal Computer Memory Card
International Association
Picture In Graphic
Picture In Picture
Phase Locked Loop. Used, for example, in FST tuning systems. The customer can directly provide the desired frequency
Scan mode where all scan lines are displayed in one frame at the same time, creating a double vertical resolution.
Printed Wiring Board (also called PCB or CBA)
Random Access Memory
Remote Control transmitter
Remote Control system 5 or 6, the signal from the remote control receiver
Red, Green, and Blue colour space;
The primary colour signals for TV. By mixing levels of R, G, and B, all colours
(Y/C) are reproduced
Red, Green, Blue, Horizontal sync, and Vertical sync
Read Only Memory
Service Alignment Mode
Short Circuit
Syndicat des Constructeurs d'Appareils Radiorécepteurs et
Téléviseurs; This is a 21-pin connector used in EU, that carries various audio, video, and control signals (it is also called Péritel connector)
Serial CLock Signal on I
2
C bus
Standard Definition
Serial DAta Signal on I
2
C bus
Synchronous DRAM
SÉquence Couleur Avec Mémoire;
Colour system mainly used in France and East Europe. The chroma is FM modulated and the R-Y and B-Y signals are transmitted line sequentially. Colour carriers=
4.406250 MHz and 4.250000 MHz
SIF
SMPS
SND
SOPS
SPDIF
SRAM
STBY
SVHS
SW
THD
TS
TXT uP
USB
VA
VL
VCR
VGA
WD
WYSIWYR
XTAL
Y
Y/C
YPbPr
YUV
LC4.31E AB 9.
EN 43
Sound Intermediate Frequency
Switched Mode Power Supply
SouND
Self Oscillating Power Supply
Sony Philips Digital Interface; a consumer interface, used to transfer digital audio
Static RAM
STandBY
Super Video Home System
Software or Subwoofer or Switch
Total Harmonic Distortion
Transport Stream
Teletext; TXT is a digital addition to analogue TV signals that contain textual and graphical information (25 rows x 40 columns). The information is transmitted within the first 25 lines during the Vertical Blank Interval (VBI)
Microprocessor
Universal Serial Bus
Vertical Acquisition
Variable Level out: processed audio output towards external amplifier
Video Cassette Recorder
Video Graphics Array; 640x480 (4:3)
Watch Dog
What You See Is What You Record: record selection that follows main picture and sound
Quartz crystal
Luminance signal
Y consists of luminance signal, blanking level and sync; C consists of chroma (colour) signal
This is a scaled version of the YUV colour space. Y= Luminance, Pb/Pr=
Colour difference signals B-Y and R-Y, other amplitudes w.r.t. to YUV
Colour space used by the NTSC and
PAL video systems. Y is the luminance and U/V are the colour difference signals
EN 44 9.
LC4.31E AB Circuit Descriptions, Abbreviation List, and IC Data Sheets
9.12 IC Data Sheets
This section shows the internal block diagrams and pin layouts of ICs that are drawn as "black boxes" in the electrical diagrams
(with the exception of "memory" and "logic" ICs).
9.12.1 Diagram K1, PNx83xx (IC7100)
Block Diagram
16 bit@133 MHz
EJTAG, DSU CPU PR1910
Fast PI-Bus@120 MHz
MIU SDRAM interface
Priority int ctrl PI Bridge DMA
Slow PI-Bus (60 MHz)
Clock, Reset
Power down
I2C-unit1
I2C-unit2
GPIO
Infrared
Boot
USB host
RS232-UART0
RS232-UART1
ISO7816-UART
MPEG system processor
Video decoder
Audio decoder
Background color
Display
Graphics (OSD)
Cursor
Mixer unit
DENC CCIR
Analog video
RGB, Y,C,CVBS
CCIR-656
Central Data Unit
E_14970_043.eps
020605
Figure 9-2 PNx831x architecture and data paths
Circuit Descriptions, Abbreviation List, and IC Data Sheets
9.12.2 Diagram K6, TDA10046 (IC7600)
LC4.31E AB 9.
EN 45
Block Diagram
VIM
VIP
SACLK
ANALOG
A
D
C
10
Fsamp
XIN
XOUT
O
S
C
PLL
SCL_TUN
SDA_TUN
SCL
SDA
SADDR(1:0)
GPIO(3:0)
I2C
spare inputs
Interface
∆ Σ
∆ Σ
∆ Σ
∆ Σ
AGC_TUN AGC_IF
Dual AGC
∆ Σ
∆ Σ
DIGITAL FRONT-END
AND OFDM
DEMODULATION
CHANNEL ESTIMATION
AND CORRECTION
OFDM Spectrum
Carrier
Recovery
Time
Recovery
ACI
Filtering
Digital
AGC
FFT
2K/8K
Dynamic
TimeShift
CPE calculation
Partial
Channel
Estimation
Coarse
Time
Estimator
Time
Interpolation
DSP CORE
SYNCHRONISATION
Frequency, Time, Frame Recovery
FFT Window positioning
TPS decoding
Frequency
Interpolation
Confidence
Calculation
Channel
Correction
MPEG-TS
(parallel)
MPEG-TS
(serial)
MPEG2
Output
Interface
Descrambler
CPT_UNCOR
RS decoder
Outer
Forney
Deinterleaver
Viterbi
Decoder
VBER
CHANNEL DECODER
CBER
Bit
Deinterleaver
Confidence
Demapper
Inner
Frequency
Deinterleaver
(I,Q)
E_14970_044.eps
020605
Figure 9-3 Internal blockdiagram TDA10046
EN 46 10.
LC4.31E AB
10. Spare Parts List
Spare Parts List
Set Level
IBO Zapper Panel [K]
4822 124 40849 330UF 20% 16V
4822 124 40207 100
µF 20% 25V
2020 021 91687 470
µF 20% 16V
2020 021 91634 100
µF 25V
2238 586 59812 100nF 20% 50V 0603
3198 017 44740 470nF 10V 0603
3198 017 44740 470nF 10V 0603
3198 017 44740 470nF 10V 0603
2238 586 59812 100nF 20% 50V 0603
2238 586 59812 100nF 20% 50V 0603
4822 126 13193 4.7nF 10% 63V
2020 021 91687 470
µF 20% 16V
4822 126 13193 4.7nF 10% 63V
4822 124 40207 100
µF 20% 25V
5322 126 11583 10nF 10% 50V 0603
2238 586 59812 100nF 20% 50V 0603
4822 124 12095 100
µF 20% 16V
4822 126 13193 4.7nF 10% 63V
4822 124 22652 2.2
µF 20% 50V
2238 586 59812 100nF 20% 50V 0603
2238 586 59812 100nF 20% 50V 0603
3198 032 27190 100
µF 6.3V
2238 586 59812 100nF 20% 50V 0603
2238 586 59812 100nF 20% 50V 0603
2238 586 59812 100nF 20% 50V 0603
3198 017 41050 1
µF 10V 0603
2020 552 94427 100pF 5% 50V
2238 586 59812 100nF 20% 50V 0603
2020 552 94427 100pF 5% 50V
2238 586 59812 100nF 20% 50V 0603
3198 017 41050 1
µF 10V 0603
4822 124 12084 1
µF 20% 50V
4822 126 13193 4.7nF 10% 63V
3198 017 41050 1
µF 10V 0603
2020 552 94427 100pF 5% 50V
2020 552 94427 100pF 5% 50V
2238 586 59812 100nF 20% 50V 0603
4822 124 80151 47
µF 16V
3198 017 41050 1
µF 10V 0603
4822 124 12084 1
µF 20% 50V
4822 126 13193 4.7nF 10% 63V
4822 124 41643 100
µF 20% 16V
2238 586 59812 100nF 20% 50V 0603
4822 122 33761 22pF 5% 50V
4822 126 14221 68pF 5% 50V NP0 0603
4822 126 14508 180pF 5% 50V 0603
4822 126 14508 180pF 5% 50V 0603
4822 126 14221 68pF 5% 50V NP0 0603
4822 122 33761 22pF 5% 50V
4822 122 33761 22pF 5% 50V
4822 126 14221 68pF 5% 50V NP0 0603
4822 126 14508 180pF 5% 50V 0603
4822 122 33761 22pF 5% 50V
4822 122 33761 22pF 5% 50V
4822 122 33761 22pF 5% 50V
4822 122 33761 22pF 5% 50V
4822 126 14508 180pF 5% 50V 0603
4822 126 14221 68pF 5% 50V NP0 0603
4822 124 80151 47
µF 16V
2238 586 59812 100nF 20% 50V 0603
3198 017 42240 220nF 16V Y5V 0603
3198 017 41050 1
µF 10V 0603
4822 124 23002 10
µF 16V
2238 586 59812 100nF 20% 50V 0603
4822 122 33761 22pF 5% 50V
4822 122 33761 22pF 5% 50V
2238 586 59812 100nF 20% 50V 0603
2238 586 59812 100nF 20% 50V 0603
2238 586 59812 100nF 20% 50V 0603
2238 586 59812 100nF 20% 50V 0603
2238 586 59812 100nF 20% 50V 0603
2238 586 59812 100nF 20% 50V 0603
2238 586 59812 100nF 20% 50V 0603
4822 124 80151 47
µF 16V
2238 586 59812 100nF 20% 50V 0603
2238 586 59812 100nF 20% 50V 0603
2238 586 59812 100nF 20% 50V 0603
2238 586 59812 100nF 20% 50V 0603
2238 586 59812 100nF 20% 50V 0603
4822 124 80151 47
µF 16V
4822 124 80151 47
µF 16V
2238 586 59812 100nF 20% 50V 0603
2238 586 59812 100nF 20% 50V 0603
2238 586 59812 100nF 20% 50V 0603
2238 586 59812 100nF 20% 50V 0603
2238 586 59812 100nF 20% 50V 0603
2238 586 59812 100nF 20% 50V 0603
2238 586 59812 100nF 20% 50V 0603
2238 586 59812 100nF 20% 50V 0603
2704
2705
2706
2707
2708
2709
2710
2711
2631
2632
2636
2637
2700
2701
2702
2703
2712
2713
2714
2715 f
3322
3323
3324
3325
3326
3327
3328
3330
3331
3332
3314
3315
3316
3317
3318
3319
3320
3321
3300
3301
3303
3304
3306
3307
3312
3313
3164
3200
3205
3206
3207
3209
3210
3211
3156
3157
3158
3159
3160
3161
3162
3163
3141
3142
3143
3144
3146
3147
3151
3154
3131
3133
3134
3135
3137
3138
3139
3140
3100
3101
3112
3116
3117
3119
3128
3130
2238 586 59812 100nF 20% 50V 0603
4822 122 33741 10pF 10% 50V
4822 124 11947 10
µF 20% 16V
2238 586 59812 100nF 20% 50V 0603
2238 586 59812 100nF 20% 50V 0603
2238 586 59812 100nF 20% 50V 0603
2238 586 59812 100nF 20% 50V 0603
2238 586 59812 100nF 20% 50V 0603
2238 586 59812 100nF 20% 50V 0603
2238 586 59812 100nF 20% 50V 0603
4822 124 23002 10
µF 16V
4822 124 23002 10
µF 16V
2238 586 59812 100nF 20% 50V 0603
4822 124 23002 10
µF 16V
2238 586 59812 100nF 20% 50V 0603
2238 586 59812 100nF 20% 50V 0603
2238 586 59812 100nF 20% 50V 0603
4822 124 23002 10
µF 16V
5322 126 11578 1nF 10% 50V 0603
2020 552 94427 100pF 5% 50V
4822 051 30103 10k
Ω 5% 0.062W
4822 051 30103 10k
Ω 5% 0.062W
4822 051 30103 10k
Ω 5% 0.062W
4822 051 30103 10k
Ω 5% 0.062W
4822 051 30103 10k
Ω 5% 0.062W
4822 051 30103 10k
Ω 5% 0.062W
4822 051 30103 10k
Ω 5% 0.062W
4822 051 30103 10k
Ω 5% 0.062W
4822 051 30103 10k
Ω 5% 0.062W
3198 021 32290 22
Ω 5% 0603
3198 021 32290 22
Ω 5% 0603
3198 021 32290 22
Ω 5% 0603
4822 051 30103 10k
Ω 5% 0.062W
4822 051 30103 10k
Ω 5% 0.062W
4822 051 30339 33
Ω 5% 0.062W
5322 117 13036 1.2k
Ω 1% 0.063W 0603
4822 051 30103 10k
Ω 5% 0.062W
4822 051 30101 100
Ω 5% 0.062W
4822 051 30101 100
Ω 5% 0.062W
4822 051 30101 100
Ω 5% 0.062W
4822 051 30101 100
Ω 5% 0.062W
4822 051 30101 100
Ω 5% 0.062W
4822 051 30103 10k
Ω 5% 0.062W
4822 051 30103 10k
Ω 5% 0.062W
3198 031 13390 4 x 33
Ω 5% 1206
3198 031 13390 4 x 33
Ω 5% 1206
3198 031 13390 4 x 33
Ω 5% 1206
3198 031 13390 4 x 33
Ω 5% 1206
4822 051 30339 33
Ω 5% 0.062W
4822 051 30339 33
Ω 5% 0.062W
4822 051 30339 33
Ω 5% 0.062W
4822 051 30103 10k
Ω 5% 0.062W
3198 021 32290 22
Ω 5% 0603
4822 051 30332 3.3
Ω 5% 0.062W
4822 051 30103 10k
Ω 5% 0.062W
4822 051 30332 3.3
Ω 5% 0.062W
4822 051 30332 3.3
Ω 5% 0.062W
4822 051 30101 100
Ω 5% 0.062W
4822 051 30101 100
Ω 5% 0.062W
4822 051 30103 10k
Ω 5% 0.062W
3198 021 31080 1
Ω 5% 0603
3198 021 31080 1
Ω 5% 0603
3198 021 31080 1
Ω 5% 0603
5322 117 13046 1.8k
Ω 1% 0.063W 0603
2322 704 61002 1k
Ω 1%
2322 704 61001 100
Ω 1% 0603
3198 021 31080 1
Ω 5% 0603
3198 021 31080 1
Ω 5% 0603
3198 021 31080 1
Ω 5% 0603
4822 051 30102 1k
Ω 5% 0.062W
4822 051 30102 1k
Ω 5% 0.062W
2322 704 63302 3.3k
Ω 1% 0603
3198 021 31080 1
Ω 5% 0603
3198 021 31080 1
Ω 5% 0603
3198 021 31080 1
Ω 5% 0603
3198 021 31080 1
Ω 5% 0603
5322 117 13042 3.9k
Ω 1% 0.063W 0603
5322 117 13057 820
Ω 1% 0.063W 0603
4822 051 30102 1k
Ω 5% 0.062W
4822 117 13632 100k
Ω 1% 0603 0.62W
4822 051 30103 10k
Ω 5% 0.062W
4822 051 30339 33
Ω 5% 0.062W
4822 117 13632 100k
Ω 1% 0603 0.62W
3198 021 31820 1.8k
Ω 5% 0.062W 0603
2322 704 61001 100
Ω 1% 0603
5322 117 13055 75
Ω 1% 0.063W 0603
b
5420
5502
5504
5505
5507
5508
5511
5512
5513
5514
5515
5528
5600
5601
5301
5302
5303
5304
5306
5307
5309
5401
5100
5101
5102
5103
5201
5202
5203
5300
3741
3742
3743
3744
3745
3746
3747
3748
3749
3750
3751
3752
3730
3731
3732
3733
3734
3738
3739
3740
3722
3723
3724
3725
3726
3727
3728
3729
3713
3715
3716
3717
3718
3719
3720
3721
3704
3705
3707
3708
3709
3710
3711
3712
3642
3643
3644
3645
3700
3701
3702
3703
3630
3631
3636
3637
3638
3639
3640
3641
4822 051 30273 27k
Ω 5% 0.062W
4822 051 30333 33k
Ω 5% 0.062W
4822 051 30103 10k
Ω 5% 0.062W
4822 051 30561 560
Ω 5% 0.062W
4822 051 30102 1k
Ω 5% 0.062W
4822 051 30102 1k
Ω 5% 0.062W
4822 051 30689 68
Ω 5% 0.063W 0603
4822 051 30181 180
Ω 5% 0.062W
4822 051 30339 33
Ω 5% 0.062W
4822 051 30339 33
Ω 5% 0.062W
4822 051 30153 15k
Ω 5% 0.062W
4822 051 30153 15k
Ω 5% 0.062W
4822 051 30102 1k
Ω 5% 0.062W
4822 117 12968 820
Ω 5% 0.62W
4822 051 30683 68k
Ω 5% 0.062W
4822 051 30102 1k
Ω 5% 0.062W
4822 117 13613 2.2
Ω 5% 0603
4822 117 12968 820
Ω 5% 0.62W
4822 051 30333 33k
Ω 5% 0.062W
4822 051 30152 1.5
Ω 5% 0.062W
4822 117 13613 2.2
Ω 5% 0603
4822 051 30102 1k
Ω 5% 0.062W
4822 051 30683 68k
Ω 5% 0.062W
4822 117 12968 820
Ω 5% 0.62W
4822 051 30101 100
Ω 5% 0.062W
4822 051 30101 100
Ω 5% 0.062W
4822 051 30102 1k
Ω 5% 0.062W
4822 051 30333 33k
Ω 5% 0.062W
4822 117 12968 820
Ω 5% 0.62W
4822 051 30152 1.5
Ω 5% 0.062W
4822 051 30181 180
Ω 5% 0.062W
4822 051 30181 180
Ω 5% 0.062W
4822 051 30181 180
Ω 5% 0.062W
4822 051 30181 180
Ω 5% 0.062W
4822 051 30759 75
Ω 5% 0.062W
4822 051 30759 75
Ω 5% 0.062W
4822 051 30759 75
Ω 5% 0.062W
5322 117 11726 10
Ω 5%
4822 051 30479 47
Ω 5% 0.062W
4822 051 30479 47
Ω 5% 0.062W
4822 051 30479 47
Ω 5% 0.062W
4822 051 30391 390
Ω 5% 0.062W
4822 051 30391 390
Ω 5% 0.062W
4822 051 30391 390
Ω 5% 0.062W
4822 051 30479 47
Ω 5% 0.062W
4822 117 13632 100k
Ω 1% 0603 0.62W
4822 051 30102 1k
Ω 5% 0.062W
4822 051 30681 680
Ω 5% 0.062W
4822 051 30273 27k
Ω 5% 0.062W
4822 051 30271 270
Ω 5% 0.062W
4822 051 30151 150
Ω 5% 0.062W
4822 051 30561 560
Ω 5% 0.062W
4822 051 30151 150
Ω 5% 0.062W
4822 051 30151 150
Ω 5% 0.062W
4822 117 13632 100k
Ω 1% 0603 0.62W
4822 117 12968 820
Ω 5% 0.62W
4822 117 12968 820
Ω 5% 0.62W
4822 051 30759 75
Ω 5% 0.062W
4822 051 30103 10k
Ω 5% 0.062W
4822 051 30102 1k
Ω 5% 0.062W
4822 051 30759 75
Ω 5% 0.062W
4822 051 30103 10k
Ω 5% 0.062W
4822 051 30222 2.2k
Ω 5% 0.062W
4822 051 30271 270
Ω 5% 0.062W
4822 051 30121 120
Ω 5% 0.062W
4822 051 30221 220
Ω 5% 0.062W
4822 051 30222 2.2k
Ω 5% 0.062W
4822 051 30271 270
Ω 5% 0.062W
4822 051 30121 120
Ω 5% 0.062W
4822 051 30221 220
Ω 5% 0.062W
4822 051 30222 2.2k
Ω 5% 0.062W
4822 051 30271 270
Ω 5% 0.062W
4822 051 30121 120
Ω 5% 0.062W
4822 051 30221 220
Ω 5% 0.062W
4822 051 30102 1k
Ω 5% 0.062W
4822 051 30101 100
Ω 5% 0.062W
4822 051 30101 100
Ω 5% 0.062W
4822 051 30103 10k
Ω 5% 0.062W
4822 051 30472 4.7
Ω 5% 0.062W
4822 051 30472 4.7
Ω 5% 0.062W
4822 051 30472 4.7
Ω 5% 0.062W
4822 117 13632 100k
Ω 1% 0603 0.62W
4822 117 13632 100k
Ω 1% 0603 0.62W
4822 051 30102 1k
Ω 5% 0.062W
4822 117 13632 100k
Ω 1% 0603 0.62W
4822 117 13632 100k
Ω 1% 0603 0.62W
4822 051 30339 33
Ω 5% 0.062W
3198 031 13390 4 x 33
Ω 5% 1206
4822 051 30472 4.7
Ω 5% 0.062W
3198 031 13390 4 x 33
Ω 5% 1206
4822 051 30101 100
Ω 5% 0.062W
4822 051 30272 2.7k
Ω 5% 0.062W
4822 051 30272 2.7k
Ω 5% 0.062W
4822 051 30101 100
Ω 5% 0.062W
3577
3578
3579
3580
3581
3582
3583
3584
3560
3561
3562
3572
3573
3574
3575
3576
3539
3543
3544
3545
3547
3557
3558
3559
3521
3522
3523
3526
3527
3528
3530
3533
3512
3513
3514
3515
3516
3517
3519
3520
3504
3505
3506
3507
3508
3509
3510
3511
3420
3421
3422
3423
3500
3501
3502
3503
3333
3334
3403
3404
3405
3406
3407
3411
3612
3613
3614
3615
3618
3619
3621
3622
3623
3624
3625
3626
3627
3629
3595
3596
3598
3606
3607
3608
3609
3610
3585
3586
3588
3589
3590
3591
3593
3594
Spare Parts List LC4.31E AB 10.
EN 47
4822 051 30101 100
Ω 5% 0.062W
4822 051 30101 100
Ω 5% 0.062W
4822 051 30684 680k
Ω 5% 0.062W
4822 117 12891 220k
Ω 1%
4822 051 30331 330
Ω 5% 0.062W
4822 051 30391 390
Ω 5% 0.062W
4822 051 30684 680k
Ω 5% 0.062W
4822 117 12891 220k
Ω 1%
4822 051 30331 330
Ω 5% 0.062W
4822 051 30331 330
Ω 5% 0.062W
3198 031 13390 4 x 33
Ω 5% 1206
4822 051 30103 10k
Ω 5% 0.062W
4822 051 30101 100
Ω 5% 0.062W
4822 051 30101 100
Ω 5% 0.062W
3198 031 13390 4 x 33
Ω 5% 1206
3198 031 13390 4 x 33
Ω 5% 1206
4822 051 30103 10k
Ω 5% 0.062W
3198 031 13390 4 x 33
Ω 5% 1206
4822 051 30103 10k
Ω 5% 0.062W
4822 051 30103 10k
Ω 5% 0.062W
4822 051 30103 10k
Ω 5% 0.062W
4822 051 30103 10k
Ω 5% 0.062W
4822 051 30103 10k
Ω 5% 0.062W
4822 051 30103 10k
Ω 5% 0.062W
2322 704 62002 2k
Ω 1%
4822 051 30103 10k
Ω 5% 0.062W
4822 051 30103 10k
Ω 5% 0.062W
4822 051 30103 10k
Ω 5% 0.062W
4822 051 30103 10k
Ω 5% 0.062W
4822 051 30103 10k
Ω 5% 0.062W
4822 051 30103 10k
Ω 5% 0.062W
4822 051 30103 10k
Ω 5% 0.062W
4822 051 30103 10k
Ω 5% 0.062W
3198 031 13390 4 x 33
Ω 5% 1206
3198 031 13390 4 x 33
Ω 5% 1206
4822 051 30339 33
Ω 5% 0.062W
4822 051 30339 33
Ω 5% 0.062W
4822 051 30479 47
Ω 5% 0.062W
4822 051 30479 47
Ω 5% 0.062W
4822 051 30479 47
Ω 5% 0.062W
4822 051 30479 47
Ω 5% 0.062W
4822 051 30479 47
Ω 5% 0.062W
4822 051 30479 47
Ω 5% 0.062W
4822 051 30479 47
Ω 5% 0.062W
4822 117 13573 4 x 47
Ω 5%
4822 051 30479 47
Ω 5% 0.062W
4822 051 30479 47
Ω 5% 0.062W
4822 051 30479 47
Ω 5% 0.062W
4822 051 30479 47
Ω 5% 0.062W
4822 051 30479 47
Ω 5% 0.062W
4822 051 30479 47
Ω 5% 0.062W
4822 051 30479 47
Ω 5% 0.062W
4822 051 30479 47
Ω 5% 0.062W
4822 051 30479 47
Ω 5% 0.062W
4822 051 30479 47
Ω 5% 0.062W
4822 051 30479 47
Ω 5% 0.062W
4822 051 30339 33
Ω 5% 0.062W
4822 051 30339 33
Ω 5% 0.062W
4822 051 30472 4.7
Ω 5% 0.062W
4822 051 30472 4.7
Ω 5% 0.062W
5602
5604
5700
5701
5702
5703
5704
4822 157 11499 Bead 60
Ω at 100MHz
4822 157 11717 Bead 50
Ω at 100MHz
4822 157 11717 Bead 50
Ω at 100MHz
4822 157 11717 Bead 50
Ω at 100MHz
4822 157 11499 Bead 60
Ω at 100MHz
4822 157 11499 Bead 60
Ω at 100MHz
4822 157 11499 Bead 60
Ω at 100MHz
2422 536 00491 47
µH
4822 157 10452 10
µH 10%
2422 535 94639 10
µH 20%
2422 536 00548 100
µ
4822 157 10452 10
µH 10%
4822 157 10452 10
µH 10%
2422 535 94639 10
µH 20%
3198 018 90050 Bead 1k
Ω at 100MHz
4822 157 11499 Bead 60
Ω at 100MHz
2422 549 44197 Bead 220
Ω at 100MHz
4822 157 11499 Bead 60
Ω at 100MHz
4822 157 11499 Bead 60
Ω at 100MHz
4822 157 11499 Bead 60
Ω at 100MHz
4822 157 11499 Bead 60
Ω at 100MHz
4822 157 11499 Bead 60
Ω at 100MHz
3198 018 53380 3.3
µH 10% 0603
3198 018 53380 3.3
µH 10% 0603
3198 018 53380 3.3
µH 10% 0603
3198 018 53380 3.3
µH 10% 0603
4822 156 21729 Bead 1k
Ω 100MHz 0805
4822 157 11499 Bead 60
Ω at 100MHz
4822 157 11499 Bead 60
Ω at 100MHz
4822 157 11499 Bead 60
Ω at 100MHz ce
7511
7512
7518
7519
7520
7521
7522
7523
7402
7403
7500
7501
7502
7503
7504
7507
7305
7306
7307
7308
7309
7310
7311
7312
7100
7200
7202
7203
7300
7301
7302
7303
7605
7606
7700
7701
7702
7703
7704
7705
7524
7525
7526
7527
7528
7529
7600
7601 d
6503
6507
6508
6509
6510
6511
6512
6513
6514
6515
6300
6303
6304
6307
6308
6400
6401
6403
4822 157 11499 Bead 60
Ω at 100MHz
4822 157 11499 Bead 60
Ω at 100MHz
4822 157 11499 Bead 60
Ω at 100MHz
4822 157 11499 Bead 60
Ω at 100MHz
4822 157 11499 Bead 60
Ω at 100MHz
4822 157 11499 Bead 60
Ω at 100MHz
4822 157 11499 Bead 60
Ω at 100MHz
9322 128 70685 SMSS14
9322 128 70685 SMSS14
9322 128 70685 SMSS14
9965 000 20150 1N4148WS SOD-323
9340 548 48115 PDZ3.6B
9340 548 52115 PDZ5.1B
4822 130 10837 UDZS8.2B
4822 130 10837 UDZS8.2B
4822 130 11397 BAS316
4822 130 11397 BAS316
4822 130 11397 BAS316
4822 130 11397 BAS316
4822 130 11397 BAS316
4822 130 11397 BAS316
4822 130 11397 BAS316
4822 130 11397 BAS316
4822 130 11397 BAS316
9322 129 41685 BZM55-C12
9352 773 55557 PNX8314HS/C102
For SW see item 0601
9322 217 26668 MT48LC8M16A2P-6A
9322 130 41668 M24C64-WMN6
4822 209 60059 MC34063AP1
9322 184 19687 LD1117V18
9322 216 98687 LD1117V
4822 209 60059 MC34063AP1
4822 209 60059 MC34063AP1
9322 165 15685 NCP303LSN30
9322 202 15687 LD1117V50
9322 202 15687 LD1117V50
4822 130 60373 BC856B
3198 010 70510 TL431CZ
9322 231 51685 FET NTR4501NG
5322 130 60159 BC846B
5322 130 60159 BC846B
9322 150 49668 LM3525M-H
4822 130 60373 BC856B
5322 130 60159 BC846B
9352 668 47118 UDA1334BTS/N2
4822 130 60373 BC856B
5322 130 60159 BC846B
5322 130 60159 BC846B
4822 130 60373 BC856B
5322 130 60159 BC846B
4822 130 60373 BC856B
5322 130 60159 BC846B
5322 130 60159 BC846B
4822 130 60373 BC856B
5322 130 60159 BC846B
4822 130 60373 BC856B
4822 130 60373 BC856B
5322 130 60159 BC846B
4822 130 60373 BC856B
4822 130 60373 BC856B
5322 130 60159 BC846B
4822 130 60373 BC856B
9352 732 45557 TDA10046AHT/C1
5322 209 70225 LM393D
9352 630 16165 74AHC1GU04GW
9352 630 16165 74AHC1GU04GW
9322 227 91671 STV0700L
9352 190 10118 74LVC573ADB
9352 190 10118 74LVC573ADB
9352 115 40118 74LVC245APW
2722 171 00207 Xtal 27MHZ 50P
9322 175 13668 ST890CD
EN 48 11.
LC4.31E AB
11. Revision List
Manual xxxx xxx xxxx.0
• First release.
Revision List
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Key Features
- 66 cm (26") LCD
- HD 1366 x 768 pixels 16:9
- 500 cd/m² 8 ms 600:1
- 100 W
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