Download Philips SK5.0L CA Specifications

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Transcript 
Colour Television
29PT9457/55
Chasis
SK5.0L
CA
H_17220_000.eps
210607
Contents
Page
1. Technical Specifications, Connections, and Chassis
Overview
2
2. Safety Instructions, Warnings, and Notes
4
3. Directions for Use
5
4. Mechanical Instructions
6
5. Service Modes, Error Codes, and Fault Finding 8
6. Block Diagrams, Test Point Overview, and
Waveforms
Block Diagram Chassis
9
Schematic Overview Chassis
10
7. Circuit Diagrams and PWB Layouts
Mono Carrier: Power Supply
(A1) 11
Mono Carrier: Line Deflection
(A2) 12
Mono Carrier: Frame Deflection
(A3) 13
Mono Carrier: Tuner IF
(A4) 14
Mono Carrier: AV Switch
(A5) 15
Mono Carrier: Tone Control (Optional)
(A6) 16
Mono Carrier: Audio Amplifier
(A7) 17
Mono Carrier: CPU & Decoder
(A8) 18
CRT Board
(B) 21
Keyboard Control Panel
(D) 22
Mains Filter Panel
(E) 24
Side A/V Panel
(G) 25
8. Alignments
29
9. Circuit Descriptions, Abbreviation List, and IC Data
Sheets
34
Abbreviation List
35
IC Data Sheets
36
10. Spare Parts List
51
11. Revision List
54
19-20
19-20
19-20
19-20
19-20
19-20
19-20
19-20
19-20
23
24
25
©Copyright 2007 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 JY 0768 BU CD Customer Service
Printed in the Netherlands
Subject to modification
EN 3122 785 17460
EN 2
1.
Technical Specifications, Connections, and Chassis Overview
SK5.0l CA
1. Technical Specifications, Connections, and Chassis Overview
Index of this chapter:
1.1 Technical Specifications
1.2 Connection Overview
1.3 Chassis Overview (Mechanical chassis)
Note: Data below can deviate slightly from the actual situation,
due to the different set executions.
1.1
Technical Specifications
1.1.1
Vision
Display type
Screen size
Tuning system
TV Colour systems
Video playback
Presets/channels
Tuner bands
1.1.2
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 and Side Connections
CRT
29” (72 cm), 4:3
PLL
NTSC, PAL M, N
NTSC,
181 channels
VHF
UHF
H_17220_035.eps
280607
Figure 1-1 Rear and Side Connections
Sound
Sound systems
Maximum power (WRMS)
1.1.3
:
:
:
:
:
:
:
:
1.2
: Stereo, SAP
: 2x5
Miscellaneous
Power supply:
- Mains voltage (VAC)
: 100 - 240
- Mains frequency (Hz)
: 50 / 60
Ambient conditions:
- Temperature range (°C)
- Maximum humidity
: -5 to +45
: 90% R.H.
Power consumption
- Normal operation (W)
- Stand-by (W)
: ≈ 105
: <3
Aerial - In
- - F-connector
Coax, 75 ohm
D
Cinch: Video YPbPr - In
Gn - Video Y
1 VPP / 75 ohm
Bu - Video Pb
0.7 VPP / 75 ohm
Rd - Video Pr
0.7 VPP / 75 ohm
Wh - Audio L
0.5 VRMS / 10 kohm
Rd - Audio R
0.5 VRMS / 10 kohm
j
j
j
j
j
Cinch: Video CVBS - In, Audio - In
Ye - Video CVBS
1 VPP / 75 ohm
Wh - Audio L
0.5 VRMS / 10 kohm
Rd - Audio R
0.5 VRMS / 10 kohm
j q
j q
j q
Cinch: Video CVBS - Out, Audio - Out
Ye - Video CVBS
1 VPP / 75 ohm
Wh - Audio L
0.5 VRMS /10 kohm
Rd - Audio R
0.5 VRMS / 10 kohm
k q
k q
k q
q
q
q
q
q
Technical Specifications, Connections, and Chassis Overview
1.3
SK5.0l CA
1.
EN 3
Chassis Overview (Mechanical chassis)
B
CRT BOARD
E
MAINS FILTER
D
CONTROL PANEL
A1 POWER SUPPLY
A2 LINE DEFLECTION
A3 FRAME DEFLECTION
MONO CARRIER
A
A4 TUNER IF
A5 AV SWITCH
A6 TONE CONTROL
BTSC PANEL
M
A7 AUDIO AMPLIFIER
A8 CPU & DECODER
SIDE AV PANEL
G
H_17220_024.eps
280607
Figure 1-2 PWB location
EN 4
2.
SK5.0l CA
Safety Instructions, Warnings, and Notes
2. Safety Instructions, Warnings, and Notes
1. Perform the “general repair instruction” noted above.
2. Clean the power supply and deflection circuitry on the
chassis.
3. Clean the picture tube panel and the neck of the picture
tube.
Index of this chapter:
2.1 Safety Instructions
2.2 Maintenance Instructions
2.3 Warnings
2.4 Notes
2.1
Safety Instructions
2.3
Safety regulations require the following during a repair:
• Connect the set to the Mains/AC Power via an isolation
transformer (> 800 VA).
• Replace safety components, indicated by the symbol h ,
only by components identical to the original ones. Any
other component substitution (other than original type) may
increase risk of fire or electrical shock hazard.
• Wear safety goggles when you replace the CRT.
•
Safety regulations require that after a repair, the set must be
returned in its original condition. Pay in particular attention to
the following points:
• General repair instruction: as a strict precaution, we advise
you to re-solder the solder connections through which the
horizontal deflection current flows. In particular this is valid
for the:
1. Pins of the line output transformer (LOT).
2. Fly-back capacitor(s).
3. S-correction capacitor(s).
4. Line output transistor.
5. Pins of the connector with wires to the deflection coil.
6. Other components through which the deflection current
flows.
Note: This re-soldering is advised to prevent bad connections
due to metal fatigue in solder connections, and is therefore only
necessary for television sets more than two years old.
• Route the wire trees and EHT cable correctly and secure
them with the mounted cable clamps.
• Check the insulation of the Mains/AC Power lead for
external damage.
• Check the strain relief of the Mains/AC Power cord for
proper function, to prevent the cord from touching the CRT,
hot components, or heat sinks.
• Check the electrical DC resistance between the Mains/AC
Power plug and the secondary side (only for sets that have
a Mains/AC Power isolated power supply):
1. Unplug the Mains/AC Power cord and connect a wire
between the two pins of the Mains/AC Power plug.
2. Set the Mains/AC Power switch to the "on" position
(keep the Mains/AC Power cord unplugged!).
3. Measure the resistance value between the pins of the
Mains/AC Power plug and the metal shielding of the
tuner or the aerial connection on the set. The reading
should be between 4.5 Mohm and 12 Mohm.
4. Switch "off" the set, and remove the wire between the
two pins of the Mains/AC Power plug.
• Check the cabinet for defects, to prevent touching of any
inner parts by the customer.
2.2
Maintenance Instructions
We recommend a maintenance inspection carried out by
qualified service personnel. The interval depends on the usage
conditions:
• When a customer uses the set under normal
circumstances, for example in a living room, the
recommended interval is three to five years.
• When a customer uses the set in an environment with
higher dust, grease, or moisture levels, for example in a
kitchen, the recommended interval is one year.
• The maintenance inspection includes the following actions:
Warnings
In order to prevent damage to ICs and transistors, avoid all
high voltage flashovers. In order to prevent damage to the
picture tube, use the method shown in figure “Discharge
picture tube”, to discharge the picture tube. Use a high
voltage probe and a multi-meter (position VDC). Discharge
until the meter reading is 0 V (after approx. 30 s).
V
E_06532_007.eps
250304
Figure 2-1 Discharge picture tube
•
•
•
•
All ICs and many other semiconductors are susceptible to
electrostatic discharges (ESD w ). Careless handling
during repair can reduce life drastically. Make sure that,
during repair, you are connected with the same potential as
the mass of the set by a wristband with resistance. Keep
components and tools also at this same potential.
Be careful during measurements in the high voltage
section.
Never replace modules or other components while the unit
is switched "on".
When you align the set, use plastic rather than metal tools.
This will prevent any short circuits and prevents circuits
from becoming unstable.
2.4
Notes
2.4.1
General
•
•
•
•
Measure the voltages and waveforms with regard to the
chassis (= tuner) ground (H), or hot ground (I ), depending
on the tested area of circuitry. The voltages and waveforms
shown in the diagrams are indicative. Measure them in the
Service Default Mode (see chapter 5) with a colour bar
signal and stereo sound (L: 3 kHz, R: 1 kHz unless stated
otherwise) and picture carrier at 475.25 MHz for PAL, or
61.25 MHz for NTSC (channel 3).
Where necessary, measure the waveforms and voltages
with (D ) and without (E ) aerial signal. Measure the
voltages in the power supply section both in normal
operation (G ) and in stand-by (F ). These values are
indicated by means of the appropriate symbols.
The semiconductors indicated in the circuit diagram and in
the parts lists, are interchangeable per position with the
semiconductors in the unit, irrespective of the type
indication on these semiconductors.
Manufactured under license from Dolby Laboratories.
“Dolby”, “Pro Logic” and the “double-D symbol”, are
trademarks of Dolby Laboratories.
Directions for Use
2.4.2
•
•
•
•
•
2.4.3
All resistor values are in ohms, and the value multiplier is
often used to indicate the decimal point location (e.g. 2K2
indicates 2.2 kohm).
Resistor values with no multiplier may be indicated with
either an "E" or an "R" (e.g. 220E or 220R indicates
220 ohm).
All capacitor values are given in micro-farads (μ= x10-6),
nano-farads (n= x10-9), or pico-farads (p= x10-12).
Capacitor values may also use the value multiplier as the
decimal point indication (e.g. 2p2 indicates 2.2 pF).
An "asterisk" (*) indicates component usage varies. Refer
to the diversity tables for the correct values.
The correct component values are listed in the Spare Parts
List. Therefore, always check this list when there is any
doubt.
2.4.4
3. Directions for Use
You can download this information from the following websites:
http://www.philips.com/support
http://www.p4c.philips.com
EN 5
Alternative BOM identification
In September 2003, Philips CE introduced a change in the way
the serial number (or production number, see Figure 2-2) is
composed. From this date on, the third digit in the serial
number (example: AG2B0335000001) indicates the number of
the alternative BOM (Bill of Materials used for producing the
specific model of TV set). It is possible that the same TV model
on the market is produced with e.g. two different types of
displays, coming from two different O.E.M.s.
By looking at the third digit of the serial number, the service
technician can see if there is more than one type of B.O.M.
used in the production of the TV set he is working with. He can
then consult the At Your Service Web site, where he can type
in the Commercial Type Version Number of the TV set (e.g.
28PW9515/12), after which a screen will appear that gives
information about the number of alternative B.O.M.s used.
If the third digit of the serial number contains the number 1
(example: AG1B033500001), then there is only one B.O.M.
version of the TV set on the market. If the third digit is a 2
(example: AG2B0335000001), then there are two different
B.O.M.s. Information about this is important for ordering the
correct spare parts!
For the third digit, the numbers 1...9 and the characters A...Z
can be used, so in total: 9 plus 26 = 35 different B.O.M.s can
be indicated by the third digit of the serial number.
Lead-free Soldering
Due to lead-free technology some rules have to be respected
by the workshop during a repair:
• Use only lead-free soldering tin Philips SAC305 with order
code 0622 149 00106. If lead-free solder paste is required,
please contact the manufacturer of your soldering
equipment. In general, use of solder paste within
workshops should be avoided because paste is not easy to
store and to handle.
• Use only adequate solder tools applicable for lead-free
soldering tin. The solder tool must be able:
– To reach a solder-tip temperature of at least 400°C.
– To stabilize the adjusted temperature at the solder-tip.
– To exchange solder-tips for different applications.
• Adjust your solder tool so that a temperature of around
360°C - 380°C is reached and stabilized at the solder joint.
Heating time of the solder-joint should not exceed ~ 4 sec.
Avoid temperatures above 400°C, otherwise wear-out of
tips will increase drastically and flux-fluid will be destroyed.
To avoid wear-out of tips, switch “off” unused equipment or
reduce heat.
• Mix of lead-free soldering tin/parts with leaded soldering
tin/parts is possible but PHILIPS recommends strongly to
3.
avoid mixed regimes. If this cannot be avoided, carefully
clear the solder-joint from old tin and re-solder with new tin.
Schematic Notes
•
SK5.0l CA
2.4.5
Practical Service Precautions
•
•
It makes sense to avoid exposure to electrical shock.
While some sources are expected to have a possible
dangerous impact, others of quite high potential are of
limited current and are sometimes held in less regard.
Always respect voltages. While some may not be
dangerous in themselves, they can cause unexpected
reactions that are best avoided. Before reaching into a
powered TV set, it is best to test the high voltage insulation.
It is easy to do, and is a good service precaution.
EN 6
4.
SK5.0l CA
Mechanical Instructions
4. Mechanical Instructions
4.1.1
Index of this chapter:
4.1 Set Disassembly
4.2 Assembly / Board Removal
4.3 Set Re-assembly
Warning: disconnect the mains power cord before you remove
the rear cover.
Note: Figures below can deviate slightly from the actual
situation, due to the different set executions.
4.1
Rear Cover Removal
1. Remove all the fixation screws of the rear cover.
2. Now, pull the rear cover backwards and remove it.
Set Disassembly
Follow the disassemble instructions in described order.
H_17220_036.eps
280607
Figure 4-1 Rear Cover removal
4.2
Assembly / Board Removal
4.2.1
Power Switch and Control Panel removal
1. From the mono carrier disconnect the main power and the
keyboard circuit cables. Release the main power cord and
the keyboard circuit cable from it’s strain reliefs.
2. Then, remove the six fixation screws [1] of the power
switch and control panel and remove the board.
1
H_17230_027.eps
290607
Figure 4-2 Power Switch and Control Panel removal
Mechanical Instructions
4.2.2
Side I/O Panel removal
1
H_17220_023.eps
210607
Figure 4-3 Side-I/O panel removal
1. Disconnect the side panel cable from the mono carrier and
remove the cable from it’s strain reliefs.
2. Then, remove the four fixation screws [1] and remove the
board.
4.3
Set Re-assembly
To re-assemble the whole set, do all processes in reverse
order.
Be sure that, before the rear cover is mounted:
• The mains cord is positioned correctly in its guiding
brackets (make sure that the strain reliefs are replaced in
its correct position and that it will function correctly!).
• All wires/cables are returned in their original positions.
SK5.0l CA
4.
EN 7
EN 8
5.
SK5.0l CA
Service Modes, Error Codes, and Fault Finding
5. Service Modes, Error Codes, and Fault Finding
5.1
Index of this chapter:
5.1 Test Points
5.2 Service Modes
5.3 Error Codes
5.4 Fault Finding
5.4.6
Test Points
5.4.7
•
•
5.2
5.3
Error Codes
Not applicable.
5.4
Fault Finding
5.4.1
Power on Failure
Check whether the power supply is working properly and
whether the values of voltages normal. If those are correct,
check line transistor and transformer are working properly or
check fore or back line for defects.
5.4.2
Horizontal Deflection Transistor Defective: No Picture, No
Sound.
To find the fault for a defect horizontal deflection transistor
please check the following items:
• Over voltage to breakdown.
• Over current to burn.
• Horizontal frequency too low.
• Horizontal drive inefficient.
5.4.3
Picture Interference
•
•
5.4.4
Check if the signal line contact is good.
Change Tuner if is necessary.
Can't find any TV program
Checking method: Check the closed circuit from tuner to
picture decoder IC to detect whether there are defective
components. Or check whether the resistance of R117, R118,
R203 and R204 has increased which also could cause the
problem.
5.4.5
5.4.8
No Good Picture or Double Image
Check the correctness of the signal from IF1/IF2 to Q101 and
relevant circuit. In this case the problem can be Q101 and/or
SAW101.
Picture with Horizontal Bright Line and Sound
Remote Control Malfunction
Check the voltage on pin 64 of IC201. The normal value should
be 5.15 V. If this is correct check front control panels soldering
connections. If can't be solved, check the remote control,
crystal or transmitting diode of the remote control are in good
condition.
Service Modes
This chassis does not contain a specific Service Mode. Service
and Alignment of the TV set can be done via the Factory Mode
by the service technician, see further down in this manual.
Check the circuit from IC201 to R.G.B. three gun circuit.
Check the IC soldering and relevant circuitry on physical
damage or check for defective capacitors.
Check both supply voltages of vertical IC301 and relevant
circuitry on correctness. Also check the vertical synchronizing
signal from IC201.
See chapter 6 "Block Diagrams, Testpoint Overviews, and
Waveforms".
Perform measurements under the following conditions:
• Service Default Mode.
• Video: colour bar signal.
• Audio: 3 kHz left, 1 kHz right.
Picture not or incorrect Coloured
5.4.9
No Sound
Check power supply of sound IC (IC402) and relevant circuitry.
Check as well the BTSC board, check the power supply of
IC801 and relevant output signal pins 21 and 27 of this IC. Do
not exclude IC801 and/or IC402 to be defective. If needed
replace the speakers.
5.4.10 Poor Sound Quality
Check the sound system after searching the channel which
should set at NTSC or AUTO. If still has problem, check
accompany board circuit on chassis good or not.
Block Diagrams, Test Point Overview, and Waveforms
SK5.0L CA
6.
EN 9
6. Block Diagrams, Test Point Overview, and Waveforms
Block Diagram Chassis
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H_17460_008.eps
280907
Block Diagrams, Test Point Overview, and Waveforms
SK5.0L CA
6.
EN 10
Schematic Overview Chassis
5
4
KEYBOARD CIRCUIT
R515
15K
H501
RD5
10K
45.75MHz
5
2
3
4
ZD702
8V2
10uF
0
1
2
4
23
2
5
24
12
REAR AV
6
11
E
7
ZD701
8V2
Vee
8
AGC
Vss
10
A1
9
A2
C137
10UF
33PF
C138
4.7nF
IF1
CVBS/Y IN
IF2
GND1
IREF
CVBSINT
VSC
Vp1
IFVO/SVO
AUDEEM/SIF1
PLL IF
DECSDEM/SIF2
EHTO
AUDEXT/QSSO
32
SNDPLL/SIFAGC
FBISO
AVL/REFO
H. OUT
52
51
50
C785
C
10K
49
C727
48
46
TV CVBS IN
1uF
R125
220
C144
0.1U/63V
390
35
34
15K
2
3
4
0
1
2
C741
R719
100
ZD712
8V2
ZD708
8V2
ZD710
8V2
8
SDA
BTSC BOARD
FOR LATAM
A2
R744
47K
AUDIO SWITCH
AUDIO L
AUDIO R
R747
47K
CN301
V out
INN
5
6
INP
C611
AC220V 470PF
RELAY
10K
220uF
C639
47uF
R643
47K
C160
C161
470P
470P
4700pF
C624
T603
B
D603
D
L
C607
4700pF
2 <20V> R624
2
R606
14
3
13
4<12V> R622
0.22 2W
12
5
11
6
R621
<45V>
0.22 2W
0.1uF
100V
0
R603
6K8
R605
18V
220
D605
R607
22
BA158
7
9
8 <135V>
D620
RU4B
7
C609
10nF
C462
TRANSFORMER
C608
10uF
560pF 2KV
J408
1K8
T3.15A
AC250V
IC601
STR-W6556A
R638
C641 22
2200uF
R649
Q622
C1815
R639
0.51 2W
50V
C621
100uF
200V
50V
R609
3
0.18 / 5W
D451
BYW36
IC103
33V
R114
39K
C114
R648
22K
47uF
ZD621
3V9
ZD105
5V1
2K2
680
+32V_BT
16V
C610
0.0022uF
Q401
C2482
R404
ZD620
6.2K
R634
10K
J615
Q621
C1815
T401
4
C402
2200pF
C403
220pF
500V
500V
!
C437
10uF
250V
1
N401
D2553
C436
560pF
2KV
1
2
EHT
FOCUS
2
1
2
P1
MIN_L
SCIN_L
3
4
5
6
V_P
MIN_R
C_SMO
SCOUT_R
7
8
10
11
12
13
14
15
9
MOUT_R
LIN_R
C_BR1
GND
SCIN_R
P2
AIN_R
31
30
C_PS1
C_PS2
SCOUT_L
AIN_L
29
32
L432 not used
C464 not used
C465 not used
ZD401
8V2
FOCUS
FOCUS
H:WORKING
L:STANDBY
180V
R433
0.33
1W
3
R454
33
C435
0.56uF
R417
+8V_VCC
3K3
R419
270K
1
C432
7n2
2KV
SCREEN
SCREEN
!
D430
BY228
C431
3n9
2KV
!
L432
790uH
D402
1K
ABL
FLYBACK
R416
1K
R420
7
HY
C438
!
2n7 /2KV
C404
4.7uF
50V
D433
BA158
!
STANDBY
10K
C634
0.1uF
50V
R405
5K6
100
R403
NC
5V1
IC621
SE120
5
R401
4K7
16V
R627
8.2M
AFC
10
R406
1K/1W
1K
OPTOISO1
R610
C444
39PF/50V
6
AFC
AFC
2
H-out
Q623
C1815
27K
8
HEATER
!
+48V_VCC
+135V_VCC
250V
R409
22K
3
+8V_VCC
R635
22K
R407
C443
0.056uF
250V
1N4148
C409
0.1uF
R424
ABL
2K
ABL
C410
10uF/16V
D403
8V2
D431
RU4B
C433
33nF
630V !
C465
0.47uF
+8V
R441
R467
33K
EW
R440
2.2 2W
56K
L430
R443
C440
4.7uF
50V
!
R466
39K
ZD440
8.2V
C464
0.18uF
A
C442
2200PF
C463
L431
160uH
0.39uF/ 400V
C441
0.01uF
50V
R432
270
36uH
L440 2.8mH
Q440
F630
470
R464
NTC 50K
FOR SLIM
S
FOR SLIM
H_17460_002.eps
240907
1
2
B
9
FBP
10K
C632
47uF
C445
2n2F/100V
1 OHM ( 2W )
4.7K
( 1/6W)
390K
(1/6W)
0.36uF (400V)
1500pF (2000V)
6800pF (2000V)
6800pF (2000V)
790uH
30uH
5.6 (2W)
18nF (630V)
75K (1/6W)
6.8 (2W)
0 OHM
not used
B+
ZD622
3V9
5K1
EHT
5
-16.2V
470pF
C452
2200uF/25V
C453
2200uF/25V
HV TO CRT
4
+16.2V
2W
0.22
+135V_VCC
R633
R630
A
0.22
R451
-16.2V
5 OHM
+48V_VCC
C629
1500uF
R450
470pF
220/2W
R462
0.82
+3.3V_VCC
Q626
C1815
X-ray
R412
27K
R418
NC
C407
NC
!
T402
D450
BYW36
R645
R650
430
1N4148
0.1uF/100V
+16.2V
NTC
R631
IC622
R608
L
BROWN
R647
C622
470uF
R422
680
270 1W
+8V_VCC
+5V_VCC
390
D621
BA158
50V
10
OCP/BD
6
FB
4
3
5
OLP/SS
2.2M 1/2W
F601
VCC
1
S/GND
2 N
1
R601
CN601
Q624
A1013
16V
470pF
D
BLUE
CN601B
C626
1000uF
16V
In Out
Gnd
+12V
D626
BA158
C625
1000uF
C620
680pF 500V
ZD602
C605
R604
39K
D604
0.22uF/250V
C606
2
L7808
C623
D622
BYW36
TUBE
1
IC104
1
X-ray
180
R453
2K2
GAS DISCHARGE
2
R632
L604
C601
1
+12V_VCC
25v
D404
R421
18V
R469
0.22 2W
R602
200K
L601
VDR601
1
15
220uF
450V
680pF 500V
C604
CN603
DEGAUSSING
D623
16
C628
1000uF
RU4YX
C603C
4700pF
1000pF
25mH
C627
1000uF
25V
R462
R417
R419
C463
C438
C431
C432
L440
L430
R423
C433
R441
R440
C435
L431
D452
BA158
2W
R468
5.1
+21V_VCC
680pF 500V
C
C603D
L
FOR CB
FOR EMC R600
L602 NTC
PFC 15mH×2 5RM
0.22uF/250V
SW601
R459
1K8
C461
1nF
C603B
A
C602
0.1uF/250V
CN601A
C460
1nF/50V
50V
ZD402
R423
6.2 2W
5.6 1/4W
100uF/50V
R452
5.6
FOR RF Tube
100V
C456
C459
0.1uF/100V R463
C603A
15nF
R413
100K
!
100V
35V
100
C612
AC220V 470PF
4700pF
C743
15nF
8V
5
6
C455
100
R457
VDRB
Q625
C1815
R644
C744
CN401
CONNECT TO H502
H-DEF
V - DEF
IC301
TDA4865AJ
R460
VDRA
0
C640
C745
68nF
R743
13K
7
D627
C746
0.15uF
C748
5n6
28
X851
503KHz
27
Cadj
C855
10uF
TDA9859
MAD
CER
17
C
IC740
26
18
MOUT_L
19
Cmo
LIN_L
20
Css
Cph
C_BL1
Cr
Cp2
C_BR2
C858
15nF
C871
1uF
C873
2.2uF
C877
4.7uF
C856
4.7uF
C_BL2
Cp1
15
16
C854
0.22uF
A1
9
Vss
13
23
CVBS OUT
100
R860
1K
TV R
10
Vee
10uF
R775
47K
C853
4.7uF
Q851
C1815
AUDIO R
10uF
15uH
100uF
2K2
SAP
Csde 22
OUTR 21
100uF/16V
SCL
R727
AUDIO L
11
E
7
Vcap
C852 14
R858
47K
10uF
C771
6
COMP
12
24
25
10uF
11
C869
0.47uF
R851
CL 25
24
R
12
C773
QSS
C879
Cnd 26
Vref
C740
8V2
150
N.C.
Vcc
C872
1uF
C867
0.1uF
C874
2.2uF
C868
100uF
N.C.
10
+12V_VCC R748
23
13
REAR L
10uF
C783
1000p
AC250V
C766
4700PF
C753
C754
0.15uF/63V 68nF
6n8
16
SCL
28
R640
CN604
C765
ZD715
C752
SCL
SDA
R746
47K
1N4148
CN602
SPR
4RM 10W
R742
13K
R729
1K2
C?
220PF/50V
22
C742
R745
47K
3
RL601
N
SW2
TV CVBS IN
1K
GND
21
REAR R
OUTL 27
R728
12uH
100 XT155
XT-4.5
10uF
R461
N
R769 1K
C749
1uF
20
SIDE R
14
AGND
DGND
1uF
15
6
C809
!
C600
2
8RM 6W
1
1
10uF
C776
1000p
Rp
1
2
L103
R127
R126
180
2
Vdd
3
MAD
9
C878 C876 C875
0.1uF
Ctw
29
Cdec
8
C877
10uF
Cts
30
5
7
C851
1uF
31
C862
1uF
C861
1uF
C860
10uF
3
2
Cm
R856 100
In Out
Gnd
Cw
Cnr
R855 100
IC852
L7809
32
4
SIDE L
4
SCL
+12V 10
+12V_VCC
16
VEI
Cs
VP1 +17.5V
1
2
SDA
R857
47K
IC762
HEF4052
L
VEO
3
R?
ELECTRO1
OUT R
5
L704
15uH
L603
1
50V
R770 1K
C_TR
20K
20K
8K2
C864
10uF
C865
0.1uF
C866
4.7uF
R854
10uF
C603
0.22uF
4RM 10W
8RM 6W
1uF
LOUT_R
150
R707
OUT L
C770
25mH
Rout
C768
470uF
CN760
C761
1uF
C750
C_TL
R853
47nF
1
VP3-
ZD711
8V2
C775
V IN
3
Lout
SW2
4700PF
Q107
C1815
TV CVBS OUT
IC851
TDA9850
R852
0
R776
47K
D
SPL
C769
470uF
1K
C760
10uF/16V
AFC
1
C1815
R705
1K8
R709
20K
C778
R IN
TFA 9842AJ---6W
L out
C767
220uF
R764
6.2K
L OUT
100pF 100pF
REAR AV IN
L in
R771
10K
R763
PWM
33
VP4 -17.5V
C1815
R?
ELECTRO1
ZD709
8V2
C002
1000p
L703
Q761
C1815
1N4148
+8V
TV L
L IN
1K
R OUT
C863
C003
1000p
P701
D761
R137
R412
27K
Vp3 pump
SIDE AV IN
AC90-270V
MUTE
X-RAY
9
R765
1N4148
100K
7
C764
47uF
D762
H-out
10uF
ZD706
8V2
R778
100
R780
47K
Q701
R708
C774
R777
47K
47K
R413
R147
IC760
TFA9843AJ---10W
8
5
RO
RI
R768
91K
6
3
+20V_VCC
Q702
20K
10uF
L003
15uH
R IN
R out
Q760
A1015
8V
2
AV OUT
1
4
5
R766
3
L002
15uH
L IN
C728
100uF
CVBS/Y IN
39
4
1
D763 IN4148
41
4
C772
L out
9RM
GND
42
C707
10uF
R706
1K8
R710
10uF
P701
2
TV L+R
C IN
36
H502
+8V_VCC
BLANK
TV AUDIO OUT
37
B
R505
1
270
C501
330PF
D501
1N4148
V / R in
43
38
Q502
BF421
R504
22
R503
270
R502
2K2
Y / G in
44
C116
L501
10uH
NC
C4544
U / B in
45
40
C506
NC
220K
BCL
0.1uF
0.1uF
0.1uF
C726
C725
47
GND
B
G
CN102
R
BL
1
AUDIO R out
AUDIO L out
V IN
V out
PTC601
ZD108
8V2
C140
4.7uF
BTSC out R
R779
75
C777
Rs
ZD107
8V2
C507
R528
D502
BA158
Q501
10uF
ZD707
8V2
C708
10uF
2
ZD106
8V2
2
3
4
5
U in
CVBS/Y IN
C IN
S-VHS
Y
V
B
ZD104
8V2
R501
22
SCREEN
R414
39K
100
100
100
R425
27K
R507
220
Q503
BF420
GND
R144
R143
R142
R141
53
R725
10K
R506
15K
G
+180V
54
R724 33K
R725 10K
SCART: R724 10K
R725 75
R724
33K
C149
10nF
E
R524
1
270
C503
330PF
1
RCA :
C150
100uF
55
C151
100uF/16V
+8V
BTSC out L
P702
R
C
C IN
L106
10uH
TV L
U
P701
BLANK
AUDOUT/AMOUT
VDRA
GND2
31
C139
330pF
R / V IN
VDRB
12MHz
C148
33pF
Y in
L
YUV
R139
3.9K
G / Y IN
TUNER AGC
30
V in
P701
27
29
VIDEO SWITCH
Y
26
28
C136
GND3
AVL/EWD
25
C135
0.1U/63V
B / U IN
56
+
L107
10uH
LOUT_L
R701
47K
R151
39K
SAW101
Q1976M
BCL IN
PH1LF
57
X101
+3.3V
C146
0.1uF
+
SDA
1000pF
1
BLANKING
PH2LF
DECBG
22
C105
10nF
10uF
C701
ZD703
8V2
19
21
R OUT
DECDIG
18
20
G OUT
Vp2
17
VDRB
VDRA
IF
13
5
16
EW
3
C717
15
2200p
VddA
B OUT
58
C145
C147
33pF 100uF
KB
D506
BA158
Q508
BF421
R522
22
R523
270
D505
1N4148
19
C702
1000p
220nF
VpE
59
R520
2K2
18
R702
47K
ZD713
8V2
C780
100uF
14
1
10uF
R723
75
L702
33uH
L706
15uH
L701
33uH
RO
15
0
3
3
LO
Vdd
2
OUT
SECPLL
VddC
A1
17
L705
15uH
D
C779
C130
C131
C128 10nF
C132 4n7
C133
C119 1uF/50V R138
18K
10uF/16V
+
SIDE AV
C716
C120
0.1U/63V
+12V_VCC
16
VssA
13
+
IC761
HEF4052
1
220nF
14
10uH
R722
100
PAL/NTSC
12
C127
OscGnd
L105 10uH
60
2K7
HEATER
L205
+8V
C129
10uF/16V
CVBS OUT
U
MUTE
11
Y
ZD705
8V2
Vss C/P
10
10uF
R712
22K
R711
75
R721
75
8V2
9
XTAL IN
TDA9363 for AP
470uF
BAND
TDA9373 FOR Latam
68
MUTE
C720
VOL
A2
62
61
KG
Q507
KEY
100
63
KR
R527
C4544
R140
64
CRT
R517
2K7
R526
220
Q509
BF420
R521
22
TONE CONTROL
ZD714
R717
10K
XTAL OUT
KEY
8
ZD103
8V2
AV1
VddP
RESET
SCART ID
7
R122
AV2
AV3/TUNING
6
VOL
IRin
SCL
SDA
5
47
R135
STANDBY
TV R
V
VIDEO OUT
3
+
8V2
Q703
C1815
C710
2
100
R525
15K
1000PF
+5V_VCC
+
VO
100
only for scart
+3.3V
R
R514
1
270
C502
330PF
R508
2K7
R149 R148
3.3K 3.3K
TDA9384 for India
AGC
R713
22K
R133
R134
KEY
+12V
Q505
BF421
R512
22
R513
270
C508
CRT AMPLIFY CIRCUIT
1
OPTION
SCL
R511
2K2
D503
1N4148
Q106
C1815
10K
4
SDA
100
1
2
3
R121
IC201
+8V_VCC
LED
5V
Vss
R132
3.3K
R130 R131
3.3K 3.3K
C107 R145
100pF 100pF 22K
SCL
SDA
+32V_BT
RD1
KEY
C108
STANDBY
R101
75
LED
LED
SDA
IC102
24C08
+
6
7
SCL
A2
R105
22
PROSW001
C4544
ZD501
8V2
4
R108
33
1
1
ZD101
5V1
PRO+
SW002
D504
BA158
Q504
R120
1K
100nF
3
R102
1K2
10K
R110
180
C117
100uF
ZD102
5V1
WP
+5V
C118
IF
10nF
Q101
C2717
R109
8
C105
PTC
0.82uH
L101 R107
820
C101
0.01u
VOLSW003
R516
220
Q506
BF420
R510
22
GND
R
G
B
BL
CR1
10uF/16V
VOL+
SW004
Vdd
C405
47uF
100pF
RR1
100
MENU
+5V_VCC
n.c.
100
R106
NG
R103
5.6K
C111
R111
R112
100
100pF
RD2
2K7
RD3
100
3 2 1
IR
11
10
9
8
7
6
5
4
3
2
C112
R113
47K
C110
NC
RD4
18K
100uH
C163
220uF
C164
100nF
NG
C109
10uF
E
+8V_VCC
1
1
L109
C103
2
IF
IFGND
BT +33V
NC
BM +5V
NC
SDA
SCL
SAS
NC
AGC
M001
U101
1
3
2
2
2
1
3
4
5
Circuit Diagrams and PWB Layouts
SK5.0L CA
7.
EN 11
7. Circuit Diagrams and PWB Layouts
Mono Carrier: Power Supply
1
A1
2
3
4
6
5
POWER SUPPLY
A1
R640
D
D627
RL601
D
0
C640
R644
1N4148
RELAY
Rs
2
T601
3
C603A
C603B
4700pF
4700pF
C603
0.22uF
PTC601 Rp
9RM
A
N
1
N CN602 L
C
FOR CB
FOR EMC
R600
L602
NTC
PFC 15mH×2 5RM
C600
C603D
C603C
4700pF
4700pF
220uF
450V
2<20V>R624
15
0.22 2W
2
R602
200K
4<12V>R622
0.22 2W
13
L601
D622
BYW36
R604
39K C605
D604
DEGAUSSING
0.1uF
0
0.22uF/250V
R606
ZD602
6K8
R605
18V
220
C606
7
5
6
4
3
1
AC90-270V BROWN
11
D605
6
R621
C609
10nF
BA158
10
7
T3.15A
AC250V
R649
IC601
STR-W6556A
R650
430
9
8 <135V>
R647
R639
0.51 2W
10K
Q622
C1815
ZD622
3V9
ZD105
5V1
+48V_VCC
C622
470uF
D620
RU4B
50V
C621
100uF
200V
C462
TRANSFORMER
C608
10uF
ZD621
3V9
+48V_VCC
BA158
50V
560pF 2KV
C629
1500uF
50V
R633
+32V_BT
5K1
R635
22K
R609
3
0.18 / 5W
C114
R648
22K
47uF
IC103
33V
R114
39K
+32V_BT
+135V_VCC
+135V_VCC
C632
47uF
B
16V
16V
250V
R631
IC622
1K
R630
680
R608
L
+3.3V_VCC
Q626
C1815
D621
<45V> 0.22 2W
R607
22
OCP/BD
FB
OLP/SS
VCC
D
S/GND
F601
C641 22
2200uF
470pF
R601
1
R645
R638
+3.3V_VCC
Q624
A1013
16V
5
TUBE
CN601
16V
C620
680pF 500V
GAS DISCHARGE
2.2M 1/2W
C626
1000uF
C
2K2
100V
R603
2 N
C625
1000uF
390
+12V
L604
C601
BLUE
In Out
L7808 Gnd
D626
BA158
680pF 500V
C604
+8V_VCC
+8V_VCC
+5V_VCC
+5V_VCC
IC104
1
3
12
B
+12V_VCC
R632
C623
CN603
VDR601
+12V_VCC
RU4YX
C607
1000pF
????
D623
1
14
0.22uF/250V
15mH
C627
C628
1000uF 1000uF
25v
25V
680pF 500V
C
C602
0.1uF/250V
+20V_VCC
+20V_VCC
T603
16
D
C639 R643
47uF 47K
C624
D603
L
10K
220uF
B
AC250V
CN604
Q625
C1815
2K2
ZD620
OPTOISO1
0.0022uF
IC621
SE120
Q623
C1815
J615
STANDBYSTANDBY
10K
R627
R610 8.2M
C610
R634
10K
5V1
6.2K
C634
0.1uF
50V
Q621
C1815
H:WORKING
L:STANDBY
A
A
H_17220_001.eps
180607
5800-A5P190-00
1
2
3
4
5
6
Circuit Diagrams and PWB Layouts
SK5.0L CA
7.
EN 12
Mono Carrier: Line Deflection
1
A2
2
4
3
LINE DEFLECTION
A2
CN401
TO CRT
CN301
H-DEF
1
R413
100K
5
6
D
2
4
3
8V
!
ZD402
R421
X-ray
180
18V
D
D404
1N4148
R422
680
R423
3.9 2W
R418
NC
C407
NC
X-ray
R412
27K
!
T402
R450
0.22
R451
HV TO CRT
4
+13V
+V
2W
EHT
5
-V
-13V
0.22
C445
R407
R409
2n2F/100V
22K
27K
AFC
AFC
C
8
HEATER
C444
27PF/50V
6
C
ZD401
8V2
AFC
9
FBP
3
FOCUS
+48V_VCC
FOCUS
2
B+
!
R406
1K/1W
10
180V
+8V_VCC
C437
10uF
250V
5
B
T401
1
N401
D2553
R401
4K7
Q401
C2482
R404
H-out
R405
5K6
4
100
R403
NC
C402
2200pF
C403
220pF
500V
500V
!
D433
BA158
C436
560pF
2KV
C432
8n2
2KV
C404
4.7uF
50V
C433
33nF
630V !
C435
0.47uF
R440
75K
6.8 2W
0.01uF
100V
C440
4.7uF
50V
C406
1uF
250V
C463
0.33uF
A
C441
0.01uF
50V
1N4148
C409
0.1uF
D403
8V2
R424
ABL
B
ABL
1K
C410
10uF/16V
D431
RU4B
C465
0.47uF
R432
270
20uH
C464
0.18uF
!
D432
R430
15K BA158
D402
1K
C443
0.056uF
250V
L432
1.12mH
L430
L440 790uH
Q440
F630
ZD440
8.2V
!
R454
33
R441
!
C431
6n8
2KV
ABL
FLYBACK
D430
BY228
R416
1K
R420
7
HY
!
Port
R443
470
5K6
R419
560K
!
3
R417
+8V_VCC
1
C438 !
2n7 /2KV
SCREEN
SCREEN
R433
0.33
1W
C442
2200PF
L431
160uH
A
FOR SLIM TUBE
S ????
H_17220_002.eps
180607
5800-A5P190-00
1
2
3
4
Circuit Diagrams and PWB Layouts
SK5.0L CA
7.
EN 13
Mono Carrier: Frame Deflection
1
A3
2
4
3
FRAME DEFLECTION
A3
CN301
!
C
5.6 1/4W
C455
VDRA
100V
100
R457
35V
R452
5.6
VDRB
VDRB 100
C460
1nF/50V
50V
C461
1nF
R459
1K8
R462
1
J408
1K8
100uF/50V
100V
C456
R461
VDRAR460
5
6
1
VP32
VP1 +13V
D
Vp3 pump
3
4
5
6
7
INP
INN
V out
!
VP4 -13V
IC301
TDA4863AJ
D
0.1uF/100V
R453
C
270 1W
D452
BA158
+14V
C459
0.1uF/100VR463
D450
BYW36
+V
470pF
220/2W
2W
-14V
B
0.1uF
C453
1000uF/25V
0.1uF
C452
1000uF/25V
B
+V
D451
BYW36
470pF
A
A
H_17220_003.eps
180607
5800-A5P190-00
1
2
3
4
Circuit Diagrams and PWB Layouts
SK5.0L CA
7.
EN 14
Mono Carrier: Tuner IF
1
A4
2
3
5
4
TUNER IF
A4
E
E
D
IFGND
IF
U101
BT +33V
NC
BM +5V
NC
SDA
SCL
SAS
NC
AGC
D
38.9MHz
+5V
11
10
9
8
7
6
5
4
3
2
1
1
R104
C103
R116
10K
10nF
C109
10uF
C110
NC
C112
R113
47K
R112
100pF 100
R111
100
R103
5.1K
C113
C111
100pF
C405
47uF
220uF
R106 L101
1uH
1K
+5V
R102
1K5
ZD101
5V1
R110
180
1
10K
R108
33
IF
IF
10nF
Q101
C2717
R109
R107
470
C105
C101
0.01u
C
+5V
220
C106
SIF
C
SIF
10nF
R105
22
NTSC
L102
SCL
AGC
B
+8V_VCC
+32V_BT
SDA
SDA
SCL
AGC
+8V_VCC
C102
10nF
R101
75
31.9MHz
Q102
C1815
R117
10K
C115
10nF
SYSTEM
SYSTEM
B
+32V_BT
A
A
H_17220_004.eps
180607
5800-A5P190-00
1
2
3
4
5
A
R out
L out
V out
NC10
11
RI
1
3
2
GND
4
5
LI 6
1
5800-A5P190-00
P701 21PIN
RO
LO
BG
7
GG 9
OPT8
B
G
NO USE
V
U
Y
GND 21
V in20
VO 19
VIG18
VOG
17
BL16
R 15
BG14
RG 13
NC12
AV OUT
1
P701 21PIN
RO
BGND 5
GND4
LO 3
R in
2
OPT8
U/B 7
L in6
R
L
R
L
8V2
R IN
L IN
R IN
L IN
10uF
C717
R701
47K
R779
75
ZD707
8V2
ZD701
8V2
10uF
C785
2
10uF
C773
10uF
C770
10uF
C778
ZD709 ZD711
8V2
8V2
10uF
C774
10uF
C772
10uF
C777
VIDEO OUT
68
R717
470uF
+8V
R713
20K
TV
OUT
3
8
7
6
5
4
3
Vss
20K
5
4
8
7
6
REAR L
10uF
C775
3
SIDE L2
9
10
11
12
13
2
3
3
0
1
2
Vdd
9
10
11
12
13
14
15
16
20K
R705
1K8
R709
C707
10uF
AUDIO SWITCH
Vss
Vee
E
1
0
only for scart
10uF
C771
R
REAR R
SIDE R
OUT R
R?
ELECTRO1
20K
R707
A2
A1
R744
47K
R745
47K
U / B in
Y / G in
V / R in
OPTION
BLANK
A2
A1
+8V_VCC
CVBS OUT
10uF
AUDIO R
4
A2
A1
TV R
H_17220_005.eps
180607
A2
A1
TV R
AUDIO R
C741
10uF
R747
47K
+8V_VCC
TV L
C IN
AUDIO L AUDIO L
C742
A5
CVBS/Y IN
TV L
4
+8V_VCC
R746
47K
C IN
Y / G in
U / B in
CVBS/Y IN
V / R in
OPTION
BLANK
C780
100uF
+8V_VCC
CVBS OUT
C1815
Q701
AUDIO R out
IC762
HEF4052
OUT L
R?
ELECTRO1
R708
C1815
Q702
20K
L1
3
0
1
2
14
15
16
VIDEO SWITCH
2
3
R706
1K8
R710
C708
10uF
1
0
Vdd
IC761
HEF4052
10uF
C720
Vee
E
AUDIO L out
REAR AV
10uF
C784
10uF
C779
SIDE AV
2
1
R711 R712
75
SCART1 AV
Q703
C1815
C710
R776 R775 R719 ZD712 ZD708 ZD710
8V2
47K 47K 75
8V2
8V2
R777 R780 R778 ZD706
47K 47K 75 8V2
S-VHS
REAR AV IN
P701
V IN
SIDE AV IN
P701
V IN
P702
ZD703
8V2
R731
820
J743 only for scart
10K
C716
R723 ZD713 R70210uF ZD702
75
47K
8V2
8V2
ZD705 R722
75
8V2
ZD714 R721
75
8V2
8V2
R715
75
10uF
C719
3
A
B
C
D
7.
P701
YUV
P701
NO USE
BG14
RGND 13
NC12
Y / G 11
NC10
GGND 9
VOG 17
BL16
V / R 15
GND 21
VI 20
VO 19
VIG18
AV SWITCH
2
SK5.0L CA
B
C
D
A5
1
Circuit Diagrams and PWB Layouts
EN 15
Mono Carrier: AV Switch
Circuit Diagrams and PWB Layouts
SK5.0L CA
7.
EN 16
Mono Carrier: Tone Control (Optional)
1
3
5
6
7
8
9
10
A6
+8V_VCC
SCL
SDA
A
B
R OUT
L OUT
IC740
C
17
C748
5n6
18
19
24
25
E
28
29
31
32
C_BR2
C_BL1
C_BR1
LIN_L
LIN_R
MOUT_L
MOUT_R
MAD
GND
SCOUT_L
SCOUT_R
C_PS2
V_P
AIN_L
MIN_R
C_PS1
C_SMO
AIN_R
MIN_L
P2
P1
SCIN_R
SCIN_L
12
D
11
10
9
8
E
7
6
5
4
3
2
1
F
C740
30
C_BL2
13
100uF/16V
C743
15nF
F
N.C.
ZD715
27
N.C.
14
8V2
C744
15nF
26
C_TR
R742
13K
C745
68nF
23
C_TL
C
15
C753
C754
0.15uF/63V68nF
R743
13K
22
LOUT_R
16
B
C752
21
TDA9859
LOUT_L
SCL
6n8
C746
0.15uF
D
20
SDA
A7 Audion Amplifier
0
+8V_VCC R748
SCL
SDA
AUDIO L
AUDIO R
A
AUDIO L
TONE CONTROL
4
AUDIO R
A6
2
G
G
H_17220_006.eps
180607
5800-A5P190-00
1
2
3
4
5
6
7
8
9
10
Circuit Diagrams and PWB Layouts
SK5.0L CA
7.
EN 17
Mono Carrier: Audio Amplifier
1
A7
2
4
3
AUDIO AMPLIFIER
A7
D
D
+8V_VCC
IC760
TFA9843AJ---10W
+8V_VCC
2
1
D763 IN4148
R766
C728
100uF
Q760
A1015
R768
100K
RI
4
3
RO
5
C
8
7
L in
C764
47uF
47K
6
9
TFA 9842AJ---6W
L out
C767
220uF
C769
470uF
SPL
Lout
D762
R765
1N4148
MUTE
MUTE
R137
1K
PWM
PWM
D761
1
1
2
2
C
8RM 6W
Q761
C1815
R771
10K
C768
470uF
Rout
SW2
SPR
4RM 10W
8RM 6W
R764
10K
R763
15K
C760
10uF/16V
C761
1uF
C750
R OUT
L OUT
B
50V
R770 1K
1uF
C749
1uF
R769 1K
C765
4700PF
B
C766
4700PF
A6
Pin 18
+20V_VCC
Pin 15
+20V_VCC
4RM 10W
SW2
1K
1N4148
CN760
Tone Control
IC740 TDA9859
A
A
H_17220_007.eps
180607
5800-A5P190-00
1
2
3
4
Circuit Diagrams and PWB Layouts
SK5.0L CA
7.
EN 18
Mono Carrier: CPU & Decoder
1
A8
2
3
4
CPU & DECODER
A8
D
6
5
C108 C107 R145
100pF100pF22K
A2
R130R131
3.3K 3.3K
LED
R132
3.3K
R121
10K
R149R148
3.3K 3.3K
IC201
SDA
SCL
100
2
SDA
R134
100
3
4
OPTION
OPTION
only for scart
5
R135 47
KEY
KEY
VOL
R122
+3.3V
+3.3V
10K
MUTE
MUTE
R119
+5V 4K7 NTSC
3K3
+8V
15
16
17
R138
C1191uF/50V
10uF/16V 18K
18
19
VDRB
21
VDRA
22
IF
1
4
2
23
5
SAW101
SW02B
24
R151
39K
AGC
SIF
25
C135
0.1U/63V
26
27
1
4
28
2
5
29
3
SIF
13
20
3
AGC
C130 220nF
C131 2200p
EW
C105
10nF
B
+
IF
C127 220nF
+
0.1U/63V
12
14
C128 10nF
C1324n7
C133
C120
VDRA
C129
L205
10uH
C1815
VDRB
11
10uF/16V
SYSTEM
Q103
EW
9
10
R115
SYSTEM
8
ZD103
8V2
SAW102
Q9362M
C136
2n2
30
C137
10uF
NICAM
NO NICAM
C138
1.5nF
R139
2.7K
C139
330pF
31
32
IRin
SCL
AV2
AV1
SDA
VddP
AV3/TUNING
RESET
SCART ID
XTAL OUT
KEY
VOL
BAND
Vss C/P
MUTE
XTAL IN
PAL/NTSC
VssA
SECPLL
Vp2
OscGnd
VddC
VpE
VddA
B OUT
G OUT
R OUT
DECDIG
BLANKING
PH2LF
BCL IN
PH1LF
B / U IN
GND3
G / Y IN
DECBG
R / V IN
AVL/EWD
BLANK
VDRB
AUDOUT/AMOUT
VDRA
C IN
IF1
CVBS/Y IN
IF2
GND1
IREF
CVBSINT
VSC
Vp1
TUNER AGC
AUDEEM/SIF1
DECSDEM/SIF2
GND2
IFVO/SVO
PLL IF
EHTO
AUDEXT/QSSO
SNDPLL/SIFAGC
AVL/REFO
FBISO
H. OUT
R140
64
IR
100
63
A2
A1
62
L105
10uH
61
60
59
X101
58
C145+ C146
C147
100uF 0.1uF
33pF
12MHz
C148
33pF
57
56
+3.3V
L106
10uH
C150
100uF/16V
51
R144100
R143100
R142100
50
R14110K
53
52
A1
SCART:R724 10K
R725 75
R724
C149
10nF 33K R414
39K
55
54
A2
RCA : R724 33K
R725 10K
+8V
+
C
7
+
VOL
+5V
6
STANDBY
C
R725 R425
10K 27K ZD104 ZD106 ZD107 ZD108
8V2
8V2
8V2
8V2
49
48
47
46
1
2
3
4
5
GND
B
G
CN102
R
BL
BCL
BCL
C7270.1uF
U / B in
C726 0.1uF
C7250.1uF
Y / G in
U / B in
V / R in
BLANK
45
Y / G in
V / R in
BLANK
TV AUDIO OUT
44
TV AUDIO OUT
C IN
43
C IN
CVBS/Y CVBS/Y
IN
IN
42
41
C116 1uF
40
TV CVBS IN
+
1
R133
TDA9373 FOR Latam
TDA9363 for AP
TDA9384 for India
STANDBY
STANDBY
SCL
Q106
C1815
SYSTEM
SCL
SDA
IC102
24C08
Vss
3
2
1
R120
1K
4
8
Vdd
n.c.
C117
100uF/16V
100nF
WP
ZD102
5V1
PTC
C118
7
D
TV CVBS IN
8V
39
38
R125
37
220
390
36
+8v
B
R413
R147
C144
0.1U/63V
100K
X-RAY
X-RAY
35
R412
27K
34
33
C140
4.7uF
AFC
+8V
AFC
H-out
H-out
TV CVBS OUT
Q107
C1815
R127
AUDEXT
100
R126
180
L103
8.2uH
XT165
XT-6.5
GND
R728 TV CVBS IN
TV CVBS IN
1K
C?
220PF/50V
R729
1K2
XT160
XT-6.0
GND
XT155Q104
Q105
GNDXT-5.5
C1815
A
R124
4K7
R727
CVBS OUT
100
A
CVBS OUT
C1815
R123
XT145 4K7
XT-4.5
GND
SYSTEM
NTSC
H_17220_008.eps
180607
5800-A5P190-00
1
2
3
4
Circuit Diagrams and PWB Layouts
SK5.0L CA
7.
EN 19
Layout Mono Carrier (Top Side)
5800-A5P190-00
H_17220_011.eps
280607
Circuit Diagrams and PWB Layouts
SK5.0L CA
7.
EN 20
Layout Mono Carrier (Bottom Side)
5800-A5P190-00
H_17220_012.eps
280607
Circuit Diagrams and PWB Layouts
SK5.0L CA
7.
EN 21
CRT Board
1
B
2
3
4
5
6
7
8
9
10
CRT BOARD
B
A
1
A
2
R515
15K
R516
220
H501
R510
22
GND
R
G
B
BL
B
D504
BA158
Q506
BF420
Q504
C4544
R511
2K2
R513
270
D503
1N4148
R512
22
Q505
BF421
R514
1
270
C502
470PF
R
B
CRT
R517
2K7
KR
R527
KG
2K7
KB
R508
2K7
C
1
C508
R525
15K
82PF
C
R526
220
2
ZD501
8V2
D506
BA158
Q509
BF420
R521
22
Q507
C4544
D
CRT AMPLIFY CIRCUIT
R520
2K2
D
G
R524
1
270
C503
470PF
Q503
BF420
R501
22
R528
C507
C506
NC
220K
L501
10uH
NC
SCREEN
Q501
R503
270
D501
1N4148
R504
22
C501
470PF
B
H502
R505
1
270
GND
R502
2K2
Q502
BF421
F
HEATER
C4544
EHT
D502
BA158
FOCUS
R506
15K
2
1
E
R507
220
+180V
F
D505
1N4148
R522
22
2
E
R523
270
Q508
BF421
G
G
H_17220_013.eps
190607
5800-C3P512-00
1
2
3
4
5
6
7
8
9
10
Circuit Diagrams and PWB Layouts
SK5.0L CA
7.
EN 22
Keyboard Control Panel
1
D
2
3
4
5
6
7
8
9
10
KEY CONTROL
A
D
A
KEYBOARD CIRCUIT
KEYBOARD CIRCUIT
B
B
M001
RD5
10K
C
RD4
18K
RD3
100
RD2
2K7
RR1
100
MENU
3 2 1
C
CR1
10uF/16V
VOL+
SW004
VOLSW003
PRO+
SW002
PROSW001
LED
RD1
LED
100
D
E
5
IR
GND 4
LED
1
2
KEY
3
5V
D
E
LED
KEY
+5V_VCC
IR
F
F
G
G
H_17220_014.eps
190607
5800-D9SL7Y-05
1
2
3
4
5
6
7
8
9
10
Circuit Diagrams and PWB Layouts
Layout Keyboard Control Panel (Top Side)
5800-D9SL7Y-05
H_17220_015.eps
190607
SK5.0L CA
7.
EN 23
Layout Keyboard Control Panel (Bottom Side)
5800-D9SL7Y-05
H_17220_038.eps
290607
Circuit Diagrams and PWB Layouts
SK5.0L CA
7.
EN 24
Mains Filter Panel
MAINS FILTER
Rs
2
PTC601
9RM
E
T601
3
C603A
C603B
4700pF
4700pF
C603
0.22uF
Rp
A
B
D603
AC250V
N
1
CN604
D
L
L
N CN602
FOR CB
FOR EMC R600
L602 NTC
PFC 15mH×2 5RM
C600
C
C603D
C603C
C607
4700pF
4700pF
220uF
450V
C602
0.1uF/250V
0.22uF/250V
C604
2
E
Layout Mains Filter (Top Side)
1000pF
15mH
R602
200K
L604
L601
CN603
R606
R604 C605
39K
0.1uF
C601
D604
DEGAUSSING
100V
0
0.22uF/250V
ZD602
18V
220
C606
R603
VDR601
6K8
R605
D605
BA158
470pF
GAS DISCHARGE
7
6
5
4
3
1
TUBE
AC90-270V
BROWN
F601
5800-5P190-00
L
T3.15A
AC250V
FB
N
1
C609
10nF
C608
10uF
OCP/BD
2
VCC
BLUE
OLP/SS
CN601
S/GND
2.2M 1/2W
D
R601
IC601
STR-W6556A
5800-5P190-00
H_17220_017.eps
270607
H_17220_033.eps
180607
Layout Mains Filter (Bottom Side)
5800-5P190-00
H_17220_034.eps
270607
Circuit Diagrams and PWB Layouts
SK5.0L CA
7.
EN 25
Side A/V Panel
G
Layout Side A/V Panel
Side AV Top Layer
Side AV Panel
G
S-VHS
P702
C785
10uF
R779
75
ZD707
8V2
P701
Side AV Bottom Layer
C777
V IN
10uF
C772
L IN
10uF
C774
R IN
10uF
R777
R780
47K
R778
75
ZD706
8V2
ZD709
8V2
ZD711
8V
SIDE AV IN
5800-G9SL7Y-05
H_17220_018.eps
250607
5800-G9SL7Y-05
H_17220_019.eps
250607
Circuit Diagrams and PWB Layouts
SK5.0L CA
7.
EN 26
BTSC Panel
BTSC BOARD
FOR LATAM
R852
C863
47nF
R853
150
M
IC851
TDA9850
8K2
C864
10uF
C865
0.1uF
C866
4.7uF
Cs 32
1
VEO
2
VEI
Cw
31
3
Cnr
Cts
30
4
Cm
Ctw
29
28
10uF
5
Cdec
MAD
6
AGND
OUTL 27
7
DGND
Cnd 26
SDA
R855 100
8
SDA
SCL
R856 100
9
SCL
Vref
24
10
Vcc
SAP
23
11
COMP
Csde 22
12
Vcap
R854
IC852
L7809
C851
1uF
C877
10uF
C878 C876 C875
0.1uF
100pF100pF
R857
47K
Q851
C1815
1uF
R858
47K
C852 14
0.47uF
15
2K2
C854
0.22uF
16
C855
10uF
Cp1
Cr 20
Cp2
Css 19
Cph
Cmo 18
Cadj
CER 17
X851
503KHz
R860
1K
BTSC out L
QSS
C853
4.7uF
100uF 13
OUTR 21
C858
15nF
C871
1uF
C873
2.2uF
C877
4.7uF
C856
4.7uF
TV L
C879
R851
C869
CL 25
C872
1uF
C867
0.1uF
C874
2.2uF
C868
100uF
BTSC out R
+12V 10
In Out
Gnd
C809
C862
1uF
C861
1uF
C860
10uF
TV R
M
5800-M5P190-00
H_17460_003.eps
240907
Circuit Diagrams and PWB Layouts
SK5.0L CA
7.
EN 27
Layout BTSC Panel (Top Side)
5800-M5P190-00
Layout BTSC Panel (Bottom Side)
H_17460_004.eps
240907
5800-M5P190-00
H_17460_005.eps
240907
Circuit Diagrams and PWB Layouts
SK5.0L CA
7.
EN 28
Personal Notes:
E_06532_013.eps
131004
Alignments
SK5.0L CA
8.
EN 29
8. Alignments
Index of this chapter:
8.1 General Alignment Conditions
8.2 Hardware Alignments
8.3 Software Alignments
8.4 Factory mode Settings
8.1
General Alignment Conditions
8.1.1
Default Alignment Settings
8.3.3
1. Set picture to “Standard” mode, without signal input.
2. Press the keys [i+], “Smart sound” and “Smart picture” to
enter the factory menu. When in “B/W BALANCE” page,
press “mute” on the RC. There will be a level light line
displays.
3. Adjust flyback transformers Screen knob till the level bright
line just can be seen.
4. When in the light-line screen, CUT R and CUT G can be
adjusted if needed with the following RC key mapping:
To increase /decrease CUT R (See table 8-1)
To increase /decrease CUT G (See table 8-2)
5. Press “MUTE” key to return to the “B/W BALANCE” page.
Perform all electrical adjustments under the following
conditions:
• Power supply voltage: 230 VAC / 50 Hz (± 10%).
• Connect the set to the mains via an isolation transformer
with low internal resistance.
• Allow the set to warm up for approximately 20 to 30
minutes.
• Measure voltages and waveforms in relation to chassis
ground (with the exception of the voltages on the primary
side of the power supply).
Caution: never use heatsinks as ground.
• Test probe: 100: 1, Ri > 10 Mohm, Ci < 3.5 pF.
• Use an isolated trimmer/screwdriver to perform
alignments.
8.2
Hardware Alignments
Table 8-1 To increase /decrease CUT R
8.3.4
8.3.1
8.3.2
8.3.5
Focus Fine Adjust
1. Provide a cross-hatch pattern signal.
2. Set state to “Rich” mode.
3. Adjust flyback transformers Focus knob till picture is clear.
CUT R-
1
4
Function
CUT G+
CUT G-
RC key
2
5
Horizontal Adjustment (Key 1)
Vertical & YUV/RGB Horizontal Adjust (Key 2)
1. Provide a 50 Hz cross hatch signal, set TV to standard
mode. Adjust VSL so that half picture of the pane cross
appears. The picture’s vertical line is just at the bottom of
the half picture. Adjust VSL to make the centre of the
picture’s vertical line and the kinescope are in
superposition.
2. Adjust VSI to obtain picture’s vertical re-display ratio more
than 90%.
3. Provide a 60 Hz cross hatch signal, do step 1 and 2 again
to adjust.
4. If necessary, fine adjust above items.
Rf AGC Voltage Adjust
1. Provide a 294.25 MHz, 60 dB half colour bar signal.
2. Enter factory mode and press key 1.
3. Measure tuner AGC point voltage, adjust AGC item till the
voltage is 2.2 V, or till picture noise just disappears. (typical
value is at 32).
CUT R+
RC key
1. Provide a 50 Hz monoscope pattern.
– Press the keys [i+], “Smart sound” and “Smart picture”
to enter the factory menu.
– Press the keys [i+] again and “ADJUST” appear on
screen.
2. Press key “0” and adjust “HPH” to set picture horizontal
centre to CRT horizontal centre.
Software Alignments
Put the set in its MENU mode (factory mode) as follows (see
also figure “Factory Mode” on the next page):
• Press the keys [i+], “smart sound” and “smart picture” to
enter the factory menu.
• Press the keys [i+] again and “ADJUST” appear on screen.
• Press the number keys to enter the adjust page, press B /
y to choose the items that to be adjusted, Press z /A to
adjust its value.
• Press [i+] to quit factory mode.
The different alignment parameters are described further on.
Function
Table 8-2 To increase /decrease CUT G
For this TV set there are no hardware alignments.
8.3
Screen Voltage Adjust
8.3.6
OSD Position (Key 4)
1. Menu OSD position adjustment: Provide a 50/60 Hz cross
hatch pattern. Put the set in MENU mode.
– Press the keys [i+], “Smart sound” and “Smart picture”
to enter the factory menu.
– Press the keys [i+] again and “ADJUST” appears on
screen.
2. Press key 4 to enter the factory mode. Adjust VP and HP
item, to obtain menu OSD at the centre of CRT screen.
3. Provide a RGB or YUV cross hatch signal, set the TV in the
standard mode, adjust “YUV OSD HS” till picture horizontal
centre is at the CRT centre (optional).
EN 30
8.
Alignments
SK5.0L CA
Enter Factory Mode:
+
Press sequentially: I ---> Smart Sound ---> Smart Picture
Main Menu in red box.
Navigation:
Navigate parameters in "Main Page" :
From the first menu, use the arrow Up or Down to navigate to different pages.
Navigate to individual Service page:
Selecting the number "0 - 8", "Smart Picture" and "Smart Sound" on the remote control to go directly to the pages.
Changing value
Move to the intended parameter with the arrow "up" and "down" key on the RC.
Use the arrow "Right" and "Left" to increse and decrease the value respectively.
Exit
Enter " I+ " on the RC to exit factory mode.
Main Page
B/W BALANCE
DRI R
DRI G
DRI B
CUT R
CUT G
BT
CT
COOL DR
COOL DG
COOL DB
COOL CR
COOL CG
WARM DR
WARM DG
WARM DB
WARM CR
WARM CG
32
26
39
35
35
34
35
+6
+6
+11
+1
+0
+7
+2
-4
-4
+3
SERVICE 0
FREQUENCY
H PH
V SL
V SH
V SI
V SC
EW WIDTH
EW PARA
UP CORNER
LO CORNER
H -PARA
H-BOW
EW TRAPE
60HZ
36-TV
35
29
51
27
34
59
33
31
38
35
25
ZOOM
44
"I+"
SERVICE 1
SHIPMODE
AGC
AGC SPEED
IF
HRC&IRC
MULTI SYSTEM
PWL
XDT
XDT Count
MVS
MA T
B PB
CORING
OSO
>
32
1
45.75M
0FF
OFF
15
1
30
USA
ON
1
3
OFF
"0"
SERVICE 2
UOC VOL SW
UOC/PWL VOL
MONO GAIN
STEREO GAIN
SAP GAIN
AV gain
59859 INPUT
VOL 10
VOL 25
VOL 50
VPL 80
VOL 100
FMWS
AVL OPT
"1"
OFF
40
52
52
53
48
0
45
55
80
90
100
0
OFF
"2"
ADJUST
SERVICE 3
AV OPT
AV CFG
2 AV
YC/DVD
VIDEO OUT
PIN 5
PIN 7
PIN 8
MUTEPIN
CC HP
CC LINE
CC DELAY
HCO
OSVE
0
3
OFF
OFF
CVBS
NTSC
VOL1
MUTE
OFF
13
21
12
ON
OFF
SERVICE 4
VP
HP
YUV OSD HS
OSD L
HALFTONE
SYBER-SKY2-070810
2
12
ON
ON
ON
ON
OFF
OFF
OFF
ON
ON
+1
O FF
OFF
SERVICE 7
SUB BRI
SUB CON
SUB COL
SUB SHA
SUB TI
YDL PAL
YDL NTSC
YDL AV
CATHE
MAX BRI
MID BRI
MAX CON
MID CON
SC. BRI
"6"
Voice
BASS
TREBLE
SURROUND
"Smart Picture"
"8"
30
50
OFF
"Smart Sound"
55
100
55
90
90
COOL
Music
BASS
TREBLE
SURROUND
55
60
OFF
"Smart Sound"
"Smart Picture"
Natural
BRIGHT
CONTRAST
COLOR
SHARP
YUV SHARP
COLOR TEMP
+0
+2
+0
+0
+0
ON
ON
OFF
ON
"Smart Sound"
50
70
50
70
70
WARM
Rich
BRIGHT
CONTRAST
COLOR
SHARP
YUV SHARP
COLOR TEMP
Stereo
0
0
9
15
19
4
ON
Start
50
20
04
"5"
SERVICE 8
YUV DR
YUV DG
YUV DB
YUV CR
YUV CG
ENGLISH
SPAISH
FRANCH
PORTUGUESE
3
2
30
32
12
10
4
0
3
52
27
63
28
8
"7"
"Smart Picture"
Soft
BRIGHT
CONTRAST
COLOR
SHARP
YUV SHARP
COLOR TEMP
SERVICE 5
BTSC-MODE
BTSC-ST
BTSC-SP
BTSC-LI
BTSC-A1
BTSC-A2
BTSC-TC
BTSC-STS
BTSC-ADJ
MTS DETECT
MTS FILTER
W: 00 00 40 09 0F 93
R: 0F 13
D: MONO ST SAP
"4"
"3"
SERVICE 6
POW
POWER ON TIM
AKB
NBL
WATCHDOG
PHILIPS RC
VCHIP
GAME
CALENDAR
ZOOM OPT
BLUE BACK
BB WIDTH
BLACK BACK
STB
53
40
44
0
ON
55
80
50
80
80
NORMAL
Theatre
BASS
TREBLE
SURROUND
"Smart Picture"
Figure 8-1 Software Alignments
80
70
ON
"Smart Sound"
H_17460_007.eps
270907
Alignments
8.4
SK5.0L CA
8.
EN 31
Factory mode Settings
Description of the factory menu
B/W balance
White point R adjustment.
Storage address Display string
Range (Index value)
Default
SK5.0L CA
0x00d
0x00e
DRI R
0-63
32
32
White point G adjustment
DRI G
0-63
32
32
White point B adjustment
0x00f
DRI B
0-63
32
32
Black level off-set R adjustment
0x010
CUT R
0-63
32
32
Black level off-set G adjustment.
0x011
CUT G
0-63
32
32
“BRIGHTNESS” of “White Balance Adjustment page” setting
0x02f
BT
0-63
32
32
“CONTRAST” of “White Balance Adjustment page” setting
0x030
CT
0-63
32
32
COOL offset according to “DRI R” value of tv, white point R of “COOL”
0x017
COOL DR
0-63
-2
6
COOL offset according to “DRI G” value of tv, white point G of “COOL”
COOL offset according to “DRI B” value of tv, white point B of “COOL”
0x018
COOL DG
0-63
0
6
0x019
COOL DB
0-63
10
13
COOL offset according to “CUT R” value of tv, black level off-set R of “COOL” 0x01a
COOL offset according to “CUT G” value of tv, black level off-set R of “COOL” 0x01b
COOL CR
0-63
0
0
COOL CG
0-63
0
0
WARM offset according to “DRI R” value of tv, white point R of “COOL”
0x01c
WARM DR
0-63
10
7
Warm offset according to “DRI G” value of tv, white point G of “COOL”
Warm offset according to “DRI B” value of tv, white point B of “COOL”
0x01d
WARM DG
0-63
0
0
0x01e
WARM DB
0-63
0
Warm offset according to “CUT R” value of tv, black level off-set R of “COOL” 0x01f
WARM CR
0-63
0
-6
0
Warm offset according to “CUT G” value of tv, black level off-set R of “COOL” 0x020
WARM CG
0-63
0
0
Direct key “0”
50hz/60hz
Frequency
60 Hz
Horizontal center
ox008
H PH
0-TV-63-TV
31-TV
33-TV
Vertical slope
ox009
V SL
0-63
24
40
Vertical center
ox00a
V SH
0-63
21
28
Vertical amplitude.
ox00b
V SI
0-63
33
51
Vertical s-correction.
ox00c
V SC
0-63
27
27
EW WIDTH
0x04b
EW WIDTH
0-63
32
45
EW parabola/width
0x04c
EW PARA
0-63
32
49
EW upper/lower corner parabola
0x04d
UP CORNER
0-63
32
28
Bottom curve
Horizontal parallelogram
0x04e
LO CORNER
0-63
32
34
0x04f
H-PARA
0-63
32
35
Horizontal bow
0x050
H-BOW
0-63
32
39
EW trapezium
0x051
EW TRAPE
0-63
32
21
Expand 4:3 mode horizontal WIDTH adjust
0x0ed(bit4)
ZOOM
0-63
44
44
Frequency
50 Hz
50hz/60hz
Horizontal center
0x003
H PH
0-TV-63-TV
31-TV
31-TV
Vertical slope
0x004
V SL
0-63
24
40
Vertical center
0x006
V SH
0-63
21
28
Vertical amplitude.
0x005
V SI
0-63
33
52
Vertical s-correction.
0x007
V SC
0-63
27
27
EW WIDTH
0x044
EW WIDTH
0-63
32
45
EW parabola/width
0x045
EW PARA
0-63
32
48
EW upper/lower corner parabola
0x046
UP CORNER
0-63
32
32
Bottom curve
Horizontal parallelogram
0x047
LO CORNER
0-63
32
32
0x048
H-PARA
0-63
32
35
Horizontal bow
0x049
H-BOW
0-63
32
32
EW trapezium
0x04a
EW TRAPE
0-63
32
26
Expand 4:3 mode horizontal WIDTH adjust
44
0x062
0x05e
ZOOM
0-63
44
Horizontal center in AV source.
Horizontal center in AV source.
H PH
+5-AV
32
32
0x05f
H PH
+5-AV
32
32
Horizontal center in YUV source.
0x05c
H PH
+0-YUV
32
32
Horizontal center in YUV source.
0x05d
H PH
+0-YUV
32
32
SHIPMODE
OFF
Direct key “1”
Out of box setting, Smart Picture: Rich, Contrast +: On, NR: Off,
Smart Sound: Theatre, Tuner Mode: Auto, Volume: 30, CC: Off
ON
RF.AGC adjust
0x002
AGC
0-63
24
32
AGC speed
0x0de (bit5, bit4)
AGC SPEED
0-63
1
1
IF choose
0x0dd (bit7, bit6)
IF
58.75 Mhz
45.75 Mhz
45.75 Mhz
45.75 Mhz
HRC and IRC of N system for auto search selection
0x0ea (bit4)
HRC & IRC
OFF
ON
OFF
OFF
ON: PAL M/N ON, OFF: PAL M/N OFF
0x0ea (bit1)
MULTI SYSTEM OFF
ON
ON
ON
White apex limit
0x0cb (bit7-bit4)
PWL
0
15
X ray protect
0x0e1 (bit2, bit3)
XDT
0-2
1
1
X ray protection detect count
0x073
XDT COUNT
0-255
30
30
USA
0-15
NTSC decode matrix
0x0e7(bit2)
MUS
USA
JAP
USA
PAL, NTSC decode matrix
0x0ed (bit0)
MAT
OFF
ON
OFF
ON
Bypass of sound bandpass filter
0x0e1 (bit5, bit4)
BPB
0-2
1
1
Video dependent coring
0x0de (bit3, bit2)
CORING
0-3
Switch-off in vertical overscan
0x0e7 (bit7)
OSO
OFF
ON
ON
3
3
ON
ON
Direct key “2”
UOC control volume switch
0x0e8 (bit7)
UOC VOL SW
OFF
OFF
OFF
UOC/PWM modify volume value
0x02e
UOC/PWM VOL
0-63
41
40
Volume of 9859 modify value when sound is mono
0x052
MONO GAIN
0-63
48
52
EN 32
8.
SK5.0L CA
Alignments
Description of the factory menu
Storage address Display string
Range (Index value)
Default
Volume of 9859 modify value when sound is stereo
0x053
STEREO GAIN
0-63
48
SK5.0L CA
52
Volume of 9859 modify value when sound is SAP
0x054
SAP GAIN
0-63
48
50
Volume of 9859 modify value when system is AV state
0x055
AV GAIN
0-63
48
48
9859 control pin output state
9859INPUT
0-2
2
0
10% volume point
0x0e0 (bit3, bit2)
0x026
VOL 10
0-100
25
20
25% volume point
0x027
VOL 25
0-100
50
45
50% volume point
0x028
VOL 50
0-100
75
60
80% volume point
0x029
VOL 80
0-100
90
80
100% volume point
0x02a
VOL 100
0-100
100
100
FM demodulate frequency width
0x0de (bit1, bit0)
FMWS
0-2
0
0
AVL function switch
0x0e8 (bit6)
AVL OPT
OFF
OFF
OFF
ON
Direct key “3”
AV control logic choose
0x0e1 (bit7, bit6)
AV OPT
0-3
1
0
AV choose
0x0cc (bit7-bit4)
AV CFG
0-7
3
3
AV2 choose
0x0ea (bit5)
2 AV
OFF
ON
OFF
OFF
DVD choose
0x0e9 (bit4)
YC/DVD
OFF
ON
OFF
OFF
Video output
0x0e7 (bit4)
VIDEO OUT
IF
CVBS
CVBS
CVBS
Pin 5 choose function
0x0cc (bit3-bit0)
PIN 5
NTSC
NTSC
Pin 7 choose function
0x0cd (bit7-bit4)
PIN 7
VOL1
VOL1
Pin 8 choose function
0x0cd (bit3-bit0)
PIN 8
MUTE
MUTE
MUTE pin mode
0x0e9 (bit0)
MUTEPIN
MODE
OFF: Pin 7 control volume curve
ON: Pin 4 control volume curve
0x0ee (bit6)
MUTEPIN SEL
CCD Horizontal width adjust
0x05a
CC HP
0-15
13
13
CCD scan Horizontal row when PAL N system
0x060
CC LINE
0-60
21
21
CCD delay adjustment
Direct key “4”
0x0d1 (bit3-bit0)
CC DELAY
8-23
20
12
OSD up down position
0x02b
VP
0-63
52
51
OSD left right position
0x02c
HP
0-63
54
42
RGB/YUV OSD Horizontal Center
0x05b
YUV OSD HS
0-60
38
44
OSD output contrast
0x0df (bit7, bit6)
OSD L
0-3
0
0
Menu translucence
0x0e9 (bit1)
HALFTONE
OFF
ON
ON
ON
STEREO
OFF
ON
OFF
OFF
SOFTWARE
VERSION
NUMBER
Software version number
Direct key “5”
BTSC-MODE
MONO
Stereo noise limit
0x0ce (bit7-bit4)
BTSC-ST
0-15
0
0
SAP noise limit
0x0ce(bit3-bit0)
BTSC-SP
0-15
0
0
Sound input level adjustment
0x040
BTSC-LI
0-15
7
9
Separate
0x041
BTSC-A1
0-31
23
14
Separate
0x042
BTSC-A2
0-31
22
6
Time constant
0x0cf (bit7-bit4)
BTSC-TC
0-7
4
3
Stereo level switch
0x0e8 (bit3)
BTSC-STS
OFF
ON
OFF
ON
Stereo adjustment on/off
0x0e8 (bit2)
BTSC-ADJ
BUSY
START
START
START
MTS detect time delay
0x001
MTS DETECT
0-255
50
50
STEREO and SAP detect count
0x072
MTS FILTER
0-255
20
20
MONO detect count
Direct key “6”
0x074
MTS FILTER2
0-255
20
3
POWER ON MODE
0x0dd (bit3, bit2)
POW
2
2
POWER ON time delay
0x0cb (bit3-bit0)
12
12
Black current stabilization
Sound mode
SAP
0x0e8 (bit0)
0-2
POWER ON TIM 2-17
AKB
OFF
ON
ON
ON
Black current loop detect
0x0e9 (bit7)
NBL
OFF
ON
ON
ON
WATCH DOG
0x0eb (bit7)
WATCHDOG
OFF
ON
OFF
ON
ON: Philips RC
OFF: Skyworth RC
0x0eb (bit6)
PHILIPS RC
OFF
ON
ON
ON
VCHIP FUNCTION SWITCH
0x0ea (bit7)
VCHIP
OFF
ON
OFF
OFF
GAME FUNCTION SWITCH
0x0eb (bit5)
GAME
OFF
ON
OFF
OFF
CALENDER FUNCTION SWITCH
0x0eb (bit4)
CALENDER
OFF
ON
OFF
OFF
4:3 expand function choose
0x0ec (bit6)
ZOOM OPT
OFF
ON
ON
ON
ON: Blue Screen
OFF: Black Screen
0x0e9 (bit6)
BLUE BLACK
OFF
ON
ON
ON
EW WIDTH offset according to “EW WIDTH” value when TV is no signal
0x06d
BB WIDTH
53-10
+0
1
Video mute during change to program
0x0e1 (bit1, bit0)
BLACK BACK
0-2
0
0
RGB BLANKING
0x0ee (bit7)
RGB BLANKING OFF
ON
ON
Sub contrast
0x057
SUB BRI
0-63
0
3
Sub brightness
0x059
SUB CON
0-63
0
2
Sub color
0x023
SUB COL
0-63
30
30
ON
Direct key “7”
Alignments
SK5.0L CA
8.
EN 33
Description of the factory menu
Storage address Display string
Range (Index value)
Default
SK5.0L CA
Sub Sharpness
0x024
SUB SHA
0-63
32
32
TV Sub tint
0x025
SUB TIN
0-31
16
16
AV Sub tint
0x075
SUB TIN-AV
0-31
16
16
PAL Luminance delay
0x0c9 (bit3-bit0)
YDL PAL
0-15
2
10
NTSC Luminance delay
0x0c9 (bit7-bit4)
YDL NTSC
0-15
2
10
AV Luminance delay
0x0ca(bit7-bit4)
YDL AV
0-15
4
10
Maximum brightness
0x056
MAX BRI
0-63
63
52
Middle brightness
0x021
MID BRI
0-63
18
27
Maximum contrast
0x058
MAX CON
0-63
63
63
Middle contrast
0x022
MID CON
0-63
15
28
Line-level of brightness
Direct key “8”
0x02d
SC.BRI
0-63
8
8
YUV offset according to “DRI R” value of TV, white point R of YUV.
0x012
YUV DR
(-32) - (+31)
+0
+0
YUV offset according to “DRI G” value of TV, white point G of YUV
0x013
YUV DG
(-32) - (+31)
+0
+0
YUV offset according to “DRI B” value of TV, white point B of YUV
0x014
YUV DB
(-32) - (+31)
+0
+0
YUV offset according to “CUT R” value of TV, black level offset R of YUV
0x015
YUV CR
(-32) - (+31)
+0
+0
YUV offset according to “CUT G” value of TV, black level offset G of YUV
0x016
YUV CG
(-32) - (+31)
+0
+0
English OSD switch
0x0eb (bit3)
ENGLISH
OFF
ON
ON
ON
Spanish OSD switch
0x0eb (bit2)
SPANISH
OFF
ON
ON
ON
French OSD switch
0x0eb (bit1)
FRANCE
OFF
ON
OFF
OFF
Portuguese OSD switch
0x0eb (bit0)
PORTUGUESE
OFF
ON
ON
ON
External Y (Luminance) input gain during YPRPB.
OFF: gain 0 dB reduced, ON: gain 3 dB reduced
0x0ee (bit4)
YGN
OFF
ON
OFF
ON
Cathode drive level
0x0ca (bit3-bit0)
CATHE
3
3
EHT tracking mode
0x0ea (bit6)
HCO
ON
ON
Black current measuring lines in overscan
0x0e9 (bit2)
OSVE
OFF
OFF
30
Manual INIT E2PROM
INITEEP
Key “Smart sound”
BASS set value in Voice state
0x064
BASS
30
TREBLE set value in Voice state
0x065
TREBLE
50
50
SURROUND set value in Voice state
0x066
SURROUND
OFF
OFF
BASS set value in Music state
0x067
BASS
55
55
TREBLE set value in Music state
0x068
TREBLE
60
60
SURROUND set value in Music state
0x069
SURROUND
OFF
OFF
BASS set value in Theatre state
0x06a
BASS
80
80
TREBLE set value in Theatre state
0x06b
TREBLE
70
70
SURROUND set value in Theatre state
Key “Smart image”
0x06c
SURROUND
ON
ON
Bright set value in Soft state
0x036
BRIGHT
55
55
Contrast set value in Soft state
0x037
CONTRAST
50
50
Color set value in Soft state
0x038
COLOR
45
45
Sharpness set value in Soft state
0x039
SHARP
45
45
Sharpness set value in Soft state of YUV
0x070
YUV SHARP
50
50
COLOR TEMP set value in Soft state
0x03a
COLOR TEMP
WARM
WARM
Bright set value in Rich state
0x03b
BRIGHT
70
70
Contrast set value in Rich state
0x03c
CONTRAST
85
85
Color set value in Rich state
0x03d
COLOR
70
70
Sharpness set value in Rich state
0x03e
SHARP
70
70
Sharpness set value in Rich state of YUV
0x071
YUV SHARP
80
80
COLOR TEMP set value in Rich state
0x03f
COLOR TEMP
COOL
COOL
Bright set value in Natural state
0x031
BRIGHT
50
50
Contrast set value in Natural state
0x032
CONTRAST
75
75
Color set value in Natural state
0x033
COLOR
50
50
Sharpness set value in Natural state
0x034
SHARP
50
50
Sharpness set value in Natural state of YUV
0x06f
YUV SHARP
50
50
COLOR TEMP set value in Natural state
0x035
COLOR TEMP
NORMAL
NORMAL
EN 34
9.
SK5.0L CA
Circuit Descriptions, Abbreviation List, and IC Data Sheets
9. Circuit Descriptions, Abbreviation List, and IC Data Sheets
9.1
Index of this chapter:
9.1 Introduction
9.2 The various circuits
9.3 Abbreviation List
9.4 IC Data Sheets
resonator. The stereo channel separation is adjusted by an
automatic procedure to be performed during set production.
The stereo identification can be read by the I2C-bus. Two
different pilot thresholds (data STS = 1; STS = 0) can be
selected via the I2C-bus.
Introduction
SAP Demodulator
The composite signal is fed from the output of the input level
adjustment stage to the SAP demodulator circuit through a 5fH
band-pass filter. The demodulator level is automatically
controlled. The SAP demodulator includes an internal field
strength detector that mutes the SAP output in the event of
insufficient signal conditions. The SAP identification signal can
be read by the I2C-bus.
The SK5.0L CA is a CRT TV for the year 2007, based on the
5P19 platform. In this chapter, only a general description of the
various circuits is given. For more detailed information, see the
circuit diagrams in this manual.
9.2
The various circuits
9.2.1
Tuner
Noise Detector
The composite input noise increases with decreasing antenna
signal. This makes it necessary to switch stereo or SAP off at
certain thresholds. These thresholds can be set via the I2Cbus. With ST0 to ST3 the stereo threshold can be selected and
with SP0 to SP3 the SAP threshold. A hysteresis can be
achieved via software by making the threshold dependent of
the identification bits STP and SAPP.
The function of the tuner is to select the channel to be received
and suppress the interference of neighboring channels, to
amplify the high frequency signal, to improve the receiving
sensitivity and SNR, and to generate a PIF signal through
frequency conversion.
9.2.2
Mode Selection
The stereo/SAP switch feeds either the L - R signal or the SAP
demodulator output signal via the internal dbx noise reduction
circuit to the dematrix/switching circuit. Different switch modes
provided at the output pins OUTR and OUTL are available.
IF Channel
The IF Channel mainly ensures the sensitivity and selectivity of
the complete TV set. The IF AMP integrated in the UOCIII is
made up of a three-stage dual-differential amplifier with a gain
value above 70dB, a SNR of 55dB and a bandwidth of 7 MHz.
The video demodulation circuit is made from the built-in PLL
Sync Detector. The spectrum of the demodulation carrier is
unitary and it is not affected by the content of the video signal.
The tuner features stable receptivity while the signal output
from the video detector features high fidelity. The built-in PLL
circuit of the UOCIII generates a 38.0 MHz or 38.9 MHz
demodulation reference signal for the sync detector to
demodulate the video signal; this is called “PLL sync
demodulation”.
9.2.3
SAP Output
Independent of the stereo/SAP switch, the SAP signal is also
available at pin SAP. At SAP, the SAP signal is not dbx
decoded. The capacitor at SDE provides a recommended deemphasis (150 ms) at SAP.
Sound Channel
An external ceramic filter is used to select the second SIF
signal for the sound channel of UOCIII from the signal output of
the video detector. The audio signal is obtained after limiting
amplification and demodulation by the intermediate frequency
detector for the SIF signal, and then the audio signal is fed to
the BTSC stereo/SAP decoder TDA9850. From that it is output
to the audio amplifier TFA9842, which drives the speakers to
provide the sound. The intermediate frequency detector and
volume-control attenuator that are built in the UOCIII are set
and adjusted via the CPU.
9.2.4
dbx Decoder
The dbx circuit includes all blocks required for the noise
reduction system in accordance with the BTSC system
specification. The output signal is fed through a 73 ms fixed deemphasis circuit to the dematrix block.
Integrated Filters
The filter functions necessary for stereo and SAP demodulation
and part of the dbx filter circuits are provided on-chip using
transconductor circuits. The required filter accuracy is attained
by an automatic filter alignment circuit.
9.2.5
In the driver circuit, both the voltage and current of the R/G/B
signal are amplified, after which the CRT drive circuit
modulates the cathode beam current of the CRT. The R/G/B
signal input into the driver circuit is of negative polarity.
BTSC stereo/SAP decoder
Input Level Adjustment
The composite input signal is fed to the input level adjustment
stage. The control range is from -3.5 to +4.0 dB in steps of
0.5 dB. The maximum input signal voltage is 2 V (RMS).
Stereo Decoder
The output signal of the level adjustment stage is coupled to a
low-pass filter which suppresses the baseband noise above
125 kHz. The composite signal is then fed into a pilot detector/
pilot cancellation circuit and into the MPX demodulator. The
main L + R signal passes a 75 ms fixed de-emphasis filter and
is fed into the dematrix circuit. The decoded sub-signal L - R is
sent to the stereo/SAP switch. To generate the pilot signal the
stereo demodulator uses a PLL circuit including a ceramic
CRT Drive Circuit
9.2.6
Power Supply Circuit
The function of the power supply circuit is to supply various
stabilized operating voltages and to provide protections against
excessive voltages and currents.
Circuit Descriptions, Abbreviation List, and IC Data Sheets
9.3
Abbreviation List
2CS
A2
AC
ACI
ADC
AFC
AGC
AM
ANC
AP
AR
AV
AVL
B/G
BCL
CBA
CFR
ComPair
CRT
CVBS
CVI
D/K
DAC
DC
DC-filament
DFU
DPL
DRAM
DVD
EEPROM
EHT
EMI
EU
EW
EW-DRIVE
EXT
FBL
FE
Field
Filament
FM
Frame
FTV
G
H
H-DRIVE
H-FLYBACK
H-OUT
2 Carrier Sound
Commonly known as 2 Carrier Sound
(2CS) system
Alternating Current
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 to the correct
frequency
Automatic Gain Control: algorithm that
controls the video input of the feature
box
Amplitude Modulation
Automatic Noise Reduction; One of
the algorithms of Auto TV
Asia Pacific
Aspect Ratio: 4 by 3 or 16 by 9
Audio Video
Automatic Volume Level control
Monochrome TV system. Sound
carrier distance is 5.5 MHz
Beam Current Limiter
Circuit Board Assembly (or PWB)
Carbon Film Resistor
Computer aided rePair
Cathode Ray Tube (or picture tube)
Composite Video Blanking and
Synchronisation
Component Video Input
Monochrome TV system. Sound
carrier distance is 6.5 MHz. D= VHFband, K= UHF-band
Digital to Analogue Converter
Direct Current
Filament supply voltage
Directions For Use: owner's manual
Dolby Pro Logic
Dynamic RAM; dynamically refreshed
RAM
Digital Versatile Disc
Electrically Erasable and
Programmable Read Only Memory
Extreme High Tension; the voltage
between the cathode and the shadow
mask that accelerates the electrons
towards the screen (around 25 kV)
Electro Magnetic Interference;
Leakage of high-frequency radiation
from a transmission medium
EUrope
East West, related to horizontal
deflection of the set
East -West correction drive signal.
EXTernal (source), entering the set by
SCART or by cinches (jacks)
Fast Blanking: DC signal
accompanying RGB signals
Front End; Tuner and RF part together
Each interlaced broadcast FRAME is
composed of two Fields, each Field
consists of either Odd or Even lines
Filament of CRT
Field Memory / Frequency Modulation
A complete TV picture comprising all
lines (625/525)
Flat TeleVision
Green
H_sync to the module
Horizontal Drive
HA
HFB
HW
I
I2 C
I2 S
IC
IF
IIC
Interlaced
IO
IR
L
L/L’
LATAM
LED
LOT
LS
M/N
MOFR
MOSFET
MPX
NAFTA
NC
NICAM
NTC
NTSC
NVM
OB
OC
OP
OSD
P50
PAL
PCB
PLL
SK5.0L CA
9.
EN 35
Horizontal Flyback
H_sync output of the module /
Horizontal Output pulse
Horizontal Acquisition; horizontal sync
pulse
Horizontal Flyback Pulse; Horizontal
sync pulse from large signal deflection
Hardware
Monochrome TV system. Sound
carrier distance is 6.0 MHz. VHF- and
UHF-band
Inter IC bus (also called IIC)
Inter IC Sound bus
Integrated Circuit
Intermediate Frequency
Inter IC bus (also called I2C)
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.
In/Out
Infra Red
Left audio channel
Monochrome TV system. Sound
carrier distance is 6.5 MHz. L' is Band
I, L is all bands except for Band I
LATin AMerica
Light Emitting Diode
Line Output Transformer (also called
FBT); The transformer in which the
EHT is generated
Loud Speaker
Monochrome TV system. Sound
carrier distance is 4.5 MHz. M= 525
lines @ 60 Hz, N= 625 lines @ 50 Hz
Metal Oxide Film Resistor
Metal Oxide Semiconductor Field
Effect Transistor
MultiPleX
North American Free Trade
Association: Trade agreement
between Canada, USA and Mexico
Not Connected
Near Instantaneously Companded
Audio Multiplexing; This is a digital
sound system, mainly used in Europe
Negative Temperature Coefficient,
non-linear resistor (resistance
decreases if temperature increases)
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
Option Byte
Open Circuit
OPtion byte
On Screen Display
Project 50; Communication protocol
between TV and peripherals
Phase Alternating Line; Colour system
mainly used in West Europe (colour
carrier= 4.433619 MHz) and South
America (colour carrier PAL M=
3.575612 MHz and PAL N= 3.582056
MHz)
Printed Circuit Board (or PWB)
Phase Locked Loop; Used for e.g.
FST tuning systems. The customer
EN 36
9.
Progressive Scan
PTC
PWB
QSS
R
RAM
RC
RC5 (6)
RF
RGB
RGBHV
RMS
ROM
SAP
SAW
SC
S/C
SCL
SD
SDA
SDRAM
SIF
SMC
SMD
SMPS
SND
SRAM
STBY
SVHS
TBD
TXT
µC
UOC
µP
UV
V
V-BAT
VA
VBI
VCR
VGA
VIF
WE
WST
XTAL
Y
SK5.0L CA
Circuit Descriptions, Abbreviation List, and IC Data Sheets
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.
Positive Temperature Coefficient, non
linear resistor (resistance increases if
temperature increases)
Printed Wiring Board (also called PCB
or CBA)
Quasi Split Sound
Right audio channel / Red
Random Access Memory
Remote Control transmitter
Remote Control system 5 (6), the
signal from the remote control receiver
Real Flat (picture tube) or Radio
Frequency
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
Root Mean Square value
Read Only Memory
Secondary Audio Program; Generally
used to transmit audio in a second
language
Surface Acoustic Wave
SandCastle: two-level pulse derived
from sync signals
Short Circuit
Serial Clock signal on I2C bus
Standard Definition
Serial Data line of I2C bus
Synchronous DRAM
Sound Intermediate Frequency
Surface Mounted Component
Surface Mounted Device
Switched Mode Power Supply
SouND
Static RAM
STandBY
Super Video Home System
To Be Defined
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)
Microcontroller
Ultimate One Chip
Microprocessor
Colour difference signals
V_sync
Main supply for deflection (usually 141
V)
Vertical Acquisition
Vertical Blanking Interval; Time during
which the video signal is blanked when
going from bottom to top of the display
Video Cassette Recorder
Video Graphics Array
Video Intermediate Frequency
Write Enable control line
World System Teletext
Quartz crystal
Luminance signal
9.4
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.
Circuit Descriptions, Abbreviation List, and IC Data Sheets
9.4.1
SK5.0L CA
9.
Diagram A1, W6554A, (IC601)
H_17210_039.eps
120607
Figure 9-1 Block Diagram and Pin Configuration
EN 37
EN 38
9.4.2
9.
SK5.0L CA
Circuit Descriptions, Abbreviation List, and IC Data Sheets
Diagram A1, P412, (IC602)
H_17210_039.eps
120607
Figure 9-2 Block Diagram and Pin Configuration
Circuit Descriptions, Abbreviation List, and IC Data Sheets
9.4.3
SK5.0L CA
9.
Diagram A3, TDA486x, (IC301)
Block Diagram
TDA4865AJ
THERMAL
PROTECTION
DIFFERENTIAL
INPUT
STAGE
VERTICAL
OUTPUT
FLYBACK
GENERATOR
REFERENCE
CIRCUIT
7
6
5
4
3
2
1
INP
INN
VOUT
GND
VP2
VP3
VP1
RS1 CS1
CF
D1
RP
R3
from
deflection controller
C2
deflection
coil
R5
C1
R6
R1
R2
VN
VP
Block diagram of TDA4865AJ
Pin Configuration
VP1
1
VP3
2
VP2
3
GND
4
VOUT
5
INN
6
INP
7
TDA4865AJ
Pin configuration for DBS7P
(TDA4865AJ)
H_17210_038.eps
120607
Figure 9-3 Block Diagram and Pin Configuration
EN 39
EN 40
9.
SK5.0L CA
Circuit Descriptions, Abbreviation List, and IC Data Sheets
H_17210_035.eps
120607
Figure 9-4 Block Diagram
Circuit Descriptions, Abbreviation List, and IC Data Sheets
9.4.4
SK5.0L CA
Diagram A5, 4052, (IC102)
Block Diagram
Pin Configuration
H_17210_041.eps
120607
Figure 9-5 Block Diagram and Pin Configuration
9.
EN 41
EN 42
9.4.5
9.
Circuit Descriptions, Abbreviation List, and IC Data Sheets
SK5.0L CA
Diagram A7, TDA9842, (IC402)
Block Diagram
VCC
9
IN1
4
8
OUT1
60
kΩ
IN2
1
2
OUT2
60
kΩ
CIV
3
VREF
SHORT-CIRCUIT
AND
TEMPERATURE
PROTECTION
VCC
VC
7
VOLUME
CONTROL
0.5VCC
6
TFA9842AJ
SVR
5
GND
Pin Configuration
IN2
1
OUT2
2
CIV
3
IN1
4
GND
5
SVR
6
VC
7
OUT1
8
VCC
9
TFA9842AJ
H_17210_033.eps
110607
Figure 9-6 Block Diagram and Pin Configuration
Circuit Descriptions, Abbreviation List, and IC Data Sheets
9.4.6
SK5.0L CA
9.
EN 43
Diagram A7, TDA9850, (IC801)
Block Diagram
C5
ceramic
resonator
Q1
C6
C7
+
+
+
C4
+
C3
C2
R1
13
15
14
16
18
17
19
L+R
STEREO DECODER
27
DEMATRIX
+
MODE
SELECT
L − R/SAP
21
stereo
OUTL mono
SAP
to
OUTR audio
processing
TDA9850
22
+
composite
baseband
input
INPUT
LEVEL
ADJUST
11
C1
NOISE
DETECTOR
STEREO/SAP
SWITCH
C8
DE-EMPHASIS
23
SAP without DBX
7
SAP
DEMODULATOR
5
+
C16
DBX
4
C15
STEREO
ADJUST
26
C17
3
R2
+
32
2
1
+
C14
R3
+
31
30
+
C13
CL
12
+
+
+
+
C12 C11 C10 C9
10
20
25
29
LOGIC, I2CTRANSCEIVER
SUPPLY
C19
6
24
+
CR
only during
adjustment
VCC
VCAP
8
9
SDA
SCL
28
MAD
C18
Vref
Pin Configuration
VEO
1
32 CS
VEI
2
31 CW
CNR
3
30 CTS
CM
4
29 CTW
CDEC
5
28 MAD
AGND
6
27 OUTL
DGND
7
26 CND
SDA
8
25 CL
TDA9850
9
24 Vref
VCC 10
23 SAP
SCL
COMP 11
22 CSDE
VCAP 12
21 OUTR
CP1 13
20 CR
CP2 14
19 CSS
CPH 15
18 CMO
CADJ 16
17 CER
H_17450_004.eps
200907
Figure 9-7 Block Diagram and Pin Configuration
EN 44
9.4.7
9.
SK5.0L CA
Circuit Descriptions, Abbreviation List, and IC Data Sheets
Diagram A8, OM837x (IC201)
Block Diagram
H_17210_034.eps
130607
Figure 9-8 Block Diagram
Circuit Descriptions, Abbreviation List, and IC Data Sheets
SK5.0L CA
Pin Configuration
H_17210_029.eps
130607
Figure 9-9 Pin Configuration
9.
EN 45
EN 46
9.
SK5.0L CA
Circuit Descriptions, Abbreviation List, and IC Data Sheets
H_17210_030.eps
130607
Figure 9-10 Pin Configuration
Circuit Descriptions, Abbreviation List, and IC Data Sheets
SK5.0L CA
9.
EN 47
Pinning
H_17210_031.eps
130607
Figure 9-11 Pin Configuration
EN 48
Circuit Descriptions, Abbreviation List, and IC Data Sheets
SK5.0L CA
Diagram A8, TDA937x (IC201)
I/O PORTS (4x)
VST OUT
SCL SDA
ADC IN (4x)
LED OUT (2x)
RESET
TUNERAGC
VPE
SIFIN
SOUND
TRAP
AUDOUT/AMOUT
Block Diagram
QSSO/AMOUT/AUDEXT
+3.3 V
IFVO/SVO
IFIN
VISION IF
ALIGNMENT-FREE
PLL DEMOD.
AGC/AFC
VIDEO AMP.
QSS SOUND IF
I2C-BUS
TRANSCEIVER
ENHANCED
AGC
80C51 CPU
QSS MIXER
I/O PORTS
REF
VIDEO SWITCH
CVBS/Y
C
H
LUMA DELAY
VIDEO IDENT.
PEAKING
VIDEO FILTERS
MEMORY
VST PWM-DAC
AM DEMODULTOR
CVBS
ROM/RAM
CLOSED CAPTION
ACQUISITION
BLACK STRETCH
SYNC
OSD
V
(REFOUT)
DISPLAY
COR
REF
R
G
B BL
CONTR/BRIGHTN
PAL/NTSC
BASE-BAND
DECODER
DELAY LINE
OSD/TEXT INSERT
CCC
WHITE-P. ADJ.
R G B
H-DRIVE
H/V SYNC SEP.
V-DRIVE +
2nd LOOP
+8V
H-OSC. + PLL
H
V
H-SHIFT
Y
EW GEOMETRY
GEOMETRY
U
V
HOUT
V-DRIVE
EHTO
EWD
RO
GO
BO
BCLIN
BLKIN
RGB/YUV INSERT
RGB/YUV MATRIX
SATURATION
YUV/RGB MATRIX
R/V G/Y B/U BL
Pin Configuration
handbook, halfpage
P1.3/T1
1
64
P1.2/INT0
P1.6/SCL
2
63
P1.1/T0
P1.7/SDA
3
62
P1.0/INT1
P2.0/TPWM
4
61
VDDP
P3.0/ADC0/PWM0
5
60
RESET
P3.1/ADC1/PWM1
6
59
XTALOUT
P3.2/ADC2/PWM2
7
58
XTALIN
P3.3/ADC3/PWM3
8
57
OSCGND
VSSC/P
9
56
VDDC
P0.5
10
55
VPE
P0.6
11
54
VDDA
VSSA
12
53
BO
I.C.
13
52
GO
VP2
14
51
RO
DECDIG
15
50
BLKIN
PH2LF
16
PH1LF
17
GND3
18
DECBG
19
AVL/EWD/
DECSDEM
VDRB
VDRA
20
IFIN1
IFIN2
TDA937X PS/N2 series (SDIP-64)
9.4.8
9.
XXX
49
BCLIN
48
B2/U/PBIN
47
G2/YIN
46
R2/V/PRIN
45
INSSW2
44
AUDOUT
43
C
23
42
CVBS/Y
24
41
GND1
IREF
25
40
CVBS1
VSC
26
39
VP1
AGCOUT
27
38
IFVO/SVO
AUDEEM/SIFIN1
28
37
PLLIF
DECSDEM/SIFIN2
29
36
EHTO
GND2
30
35
AUDEXT/QSSO
SNDPLL/SIFAGC
31
34
FBISO
AVL/SNDIF/REFO/
AUDEEM
32
33
HOUT
21
22
Figure 9-12 Block diagram and pin configuration
H_17450_012.eps
210907
Circuit Descriptions, Abbreviation List, and IC Data Sheets
9.4.9
SK5.0L CA
9.
Diagram A8, 24C08 (IC202)
H_17210_035.eps
120607
Figure 9-13 Block Diagram
EN 49
EN 50
9.
SK5.0L CA
Circuit Descriptions, Abbreviation List, and IC Data Sheets
Pin Configuration
H_17210_036.eps
120607
Figure 9-14 Pin Configuration
Spare Parts List
SK5.0L CA
10.
EN 51
10. Spare Parts List
CTN’s Listed:
1)
2)
8670 000 34071 29PT9457/44
8670 000 34069 29PT9457/55
Mono Carrier [A]
Various
F601
P702
PTC601
S501
SAW101
X101
X851
XT155
ZD101
ZD102
ZD103
ZD104
ZD105
ZD106
ZD107
ZD108
ZD401
ZD402
ZD440
ZD501
ZD602
ZD620
ZD621
ZD622
ZD701
ZD702
ZD705
ZD706
ZD707
ZD708
ZD709
ZD710
ZD711
ZD712
ZD713
ZD714
ZD715
9965 000 40615
9965 200 31263
9965 100 04865
9965 100 05376
9965 100 07702
9965 000 40264
9965 100 07714
9965 100 07703
9965 000 40221
9965 000 40221
9965 000 40224
9965 000 40224
9965 000 40221
9965 000 40224
9965 000 40224
9965 000 40224
9965 000 40224
9965 100 04909
9965 000 40224
9965 000 40224
9965 100 04909
9965 000 40221
9965 000 40220
9965 000 40220
9965 000 40224
9965 000 40224
9965 000 40224
9965 000 40224
9965 000 40224
9965 000 40224
9965 000 40224
9965 000 40224
9965 000 40224
9965 000 40224
9965 000 40224
9965 000 40224
9965 000 40224
Fuse T3.15A 250V
RCA Jack
Ther Resistor 9Ω for 29"
CRT Socket GZS10
SAW SW05 45.75MHz
Xtal 12.0MHz HC-49/U
Ceramic Res. 503kHz
Ceramic Trap 4.5MHz
Zener 5V1 1/2W 5%
Zener 5V1 1/2W 5%
Zener 8V2 1/2W 5%
Zener 8V2 1/2W 5%
Zener 5V1 1/2W 5%
Zener 8V2 1/2W 5%
Zener 8V2 1/2W 5%
Zener 8V2 1/2W 5%
Zener 8V2 1/2W 5%
Zener Diode 18V 1/2W
Zener 8V2 1/2W 5%
Zener 8V2 1/2W 5%
Zener Diode 18V 1/2W
Zener 5V1 1/2W 5%
Zener 3V9 1/2W 5%
Zener 3V9 1/2W 5%
Zener 8V2 1/2W 5%
Zener 8V2 1/2W 5%
Zener 8V2 1/2W 5%
Zener 8V2 1/2W 5%
Zener 8V2 1/2W 5%
Zener 8V2 1/2W 5%
Zener 8V2 1/2W 5%
Zener 8V2 1/2W 5%
Zener 8V2 1/2W 5%
Zener 8V2 1/2W 5%
Zener 8V2 1/2W 5%
Zener 8V2 1/2W 5%
Zener 8V2 1/2W 5%
9965 000 40156
9965 000 40156
9965 000 40156
9965 000 41097
9965 000 41097
9965 000 40171
9965 000 41097
9965 000 41097
9965 000 40174
9965 100 04885
9965 000 40178
9965 000 40172
9965 000 40156
9965 000 40171
9965 100 04891
9965 000 40157
9965 100 04892
9965 000 40156
9965 000 40171
9965 100 04892
9965 100 04867
9965 100 04870
9965 000 40178
9965 100 04891
9965 100 07709
9965 000 40171
9965 000 40208
9965 000 40159
9965 000 41112
9965 100 05386
9965 000 40172
9965 000 40157
9965 000 40529
9965 000 40529
9965 000 40156
9965 000 40172
9965 000 40531
9965 000 40531
0.01μF 50V
0.01μF 50V
0.01μF 50V
100pF 50V
100pF 50V
10μF 20% 16V
100pF 50V
100pF 50V
220μF 20% 16V
0.47uF 20% 50V
1μF 20% 50V
100μF 20% 16V
0.01μF 50V
10μF 20% 16V
0.1μF 5% 63-100V
0.1μF 50V
0.22μF 5% 63-100V
0.01μF 50V
10μF 20% 16V
0.22μF 5% 63-100V
0.0022μF +80-20% 50V
0.0047μF +80-20% 50V
1μF 20% 50V
0.1μF 5% 63-100V
180pF 50V
10μF 20% 16V
Mylar 0.0015μF 100V
330pF 50V
4.7μF 20% 16V
0.01μF 5% 100V
100μF 20% 16V
0.1μF 50V
33pF 50V
33pF 50V
0.01μF 50V
100μF 20% 16V
470pF 50V
470pF 50V
g
C101
C103
C105
C107
C108
C109
C111
C112
C113
C114
C116
C117
C118
C119
C120
C126
C127
C128
C129
C130
C131
C132
C133
C135
C136
C137
C138
C139
C140
C144
C145
C146
C147
C148
C149
C150
C160
C161
C162
C402
C403
C404
C405
C409
C410
C431
C432
C433
C435
C436
C437
C438
C440
C441
C442
C443
C444
C445
C452
C453
C455
C456
C459
C460
C461
C462
C463
C464
C465
C501
C502
C503
C504
C508
C600
C601
C602
C603
C603A
C603B
C603C
C603D
C604
C605
C606
C607
C608
C609
C610
C611
C612
C620
C621
C622
C623
C624
C625
C626
C627
C628
C629
C631
C632
C634
C639
C640
C641
C642
C701
C702
C705
C706
C707
C708
C710
C716
C717
C720
C725
C726
C727
C728
C740
C741
C742
C743
C744
9965 000 40529
9965 000 40164
9965 000 40163
9965 000 40181
9965 100 04885
9965 000 40157
9965 000 40179
9965 000 40557
9965 100 04895
9965 000 41145
9965 100 07716
9965 100 05384
9965 000 40185
9965 100 04894
9965 100 05402
9965 000 40156
9965 100 05383
9965 000 40202
9965 100 05367
9965 000 40209
9965 100 07700
9965 100 07700
9965 100 07710
9965 000 40560
9965 000 40560
9965 000 40526
9965 000 40526
9965 100 05384
9965 100 07715
9965 100 05626
9965 100 05627
9965 000 40159
9965 000 40159
9965 000 40159
9965 100 04876
9965 100 04866
9965 000 40567
9965 000 40217
9965 000 40217
9965 000 40217
9965 000 41100
9965 000 41100
9965 100 05399
9965 000 41100
9965 000 41105
9965 100 04891
9965 100 04874
9965 000 40564
9965 000 40179
9965 100 05386
9965 000 40216
9965 000 40566
9965 000 40566
9965 000 40166
9965 100 05401
9965 100 05400
9965 000 40166
9965 000 40166
9965 000 40173
9965 000 40173
9965 100 04883
9965 100 04883
9965 100 05400
9965 000 40172
9965 100 05317
9965 000 40157
9965 000 40175
9965 000 40174
9965 000 41109
9965 000 40173
9965 100 04866
9965 100 04866
9965 000 40171
9965 000 40171
9965 000 40171
9965 000 40171
9965 000 40176
9965 000 40171
9965 000 40171
9965 000 40171
9965 100 04891
9965 100 04891
9965 100 04891
9965 000 40172
9965 000 40172
9965 100 05388
9965 100 05388
9965 000 40561
9965 000 40561
33pF 50V
0.0022μF 500V
220pF 500V
4.7μF 50V-100V 20%
0.47uF 20% 50V
0.1μF 50V
10μF 20% 50V-63V
0.0039μF 5% 2kV
0.0072uF 5% 2kV
PFC 0.033μF 5% 630V
0.56µF 5% 400V
560pF 10% 2kV
10μF 20% 250V
0.0027μF 5% 2kV
4.7μF 5%
0.01μF 50V
0.0022μF 10% 2kV
MP 0.056μF 250V 5%
39pF 5% 50V
Mylar 0.0022μF 100V
2200µF
2200µF
220μF
Mylar 0.1μF 100V
Mylar 0.1μF 100V
0.001μF 50V
0.001μF 50V
560pF 10% 2kV
PFC.0.39uF 400V +/-5%
PFC
0.47μF 5% 400V
330pF 50V
330pF 50V
330pF 50V
0.001μF 10% 2kV
0.001uF 5% 50V
0.1μF A C250V-500V
0.22μF 250V - 500V
0.22μF 250V - 500V
0.22μF 250V - 500V
0.0047μF 500V
0.0047μF 500V
0.0047μF 10% 500V
0.0047μF 500V
CerCap 0.001mF 2kV
0.1μF 5% 63-100V
470pF 10% 500V
220μF
10μF 20% 50V-63V
0.01μF 5% 100V
Safety CerCap 0.002μF
470pF 10% 400Vac
470pF 10% 400Vac
680pF 500V
100μF 2% 200V
1000μF 20% 63V
680pF 500V
680pF 500V
1000μF
1000μF
1000μF 20% 25V
1000μF 20% 25V
1000μF 20% 63V
100μF 20% 16V
47μF 20% 250V
0.1μF 50V
47μF 20% 16V
220μF 20% 16V
2200μF 20% 16V
1000μF
0.001uF 5% 50V
0.001uF 5% 50V
10μF 20% 16V
10μF 20% 16V
10μF 20% 16V
10μF 20% 16V
470μF 20% 16V
10μF 20% 16V
10μF 20% 16V
10μF 20% 16V
0.1μF 5% 63-100V
0.1μF 5% 63-100V
0.1μF 5% 63-100V
100μF 20% 16V
100μF 20% 16V
1μF 20% 50V
1μF 20% 50V
Mylar 0.015μF 100V
Mylar 0.015μF 100V
C745
C746
C747
C748
C749
C750
C751
C752
C753
C754
C760
C761
C762
C764
C765
C766
C767
C768
C769
C770
C771
C772
C773
C774
C775
C776
C777
C778
C779
C780
C783
C785
C851
C852
C853
C854
C855
C856
C857
C858
C859
C860
C861
C862
C863
C864
C865
C866
C867
C868
C869
C871
C872
C873
C874
C875
C876
C877
C878
C879
9965 100 05389
9965 100 05387
9965 000 41097
9965 000 40563
9965 100 05388
9965 100 05388
9965 000 41097
9965 000 40563
9965 100 05387
9965 100 05389
9965 000 40171
9965 000 40178
9965 000 40172
9965 100 04885
9965 100 04870
9965 100 04870
9965 000 40545
9965 100 05385
9965 100 05385
9965 000 40171
9965 000 40171
9965 000 40171
9965 000 40171
9965 000 40171
9965 000 40171
9965 100 04866
9965 000 40171
9965 000 40171
9965 000 40178
9965 000 40172
9965 100 04866
9965 000 40171
9965 100 05388
9965 100 07708
9965 000 41112
9965 100 07706
9965 000 40171
9965 000 41112
9965 000 41112
9965 000 40561
9965 000 40171
9965 000 40171
9965 000 40178
9965 000 40178
9965 100 07707
9965 000 40171
9965 000 40157
9965 000 41112
9965 000 40157
9965 000 40172
9965 000 40172
9965 100 05388
9965 100 05388
9965 000 40180
9965 000 40180
9965 000 41097
9965 000 41097
9965 000 40171
9965 000 40157
9965 100 05388
0.068μF 10% 100V
0.15μF 5% 100V
100pF 50V
Mylar 0.0056UF 100V
1μF 20% 50V
1μF 20% 50V
100pF 50V
Mylar 0.0056UF 100V
0.15μF 5% 100V
0.068μF 10% 100V
10μF 20% 16V
1μF 20% 50V
100μF 20% 16V
0.47uF 20% 50V
0.0047μF +80-20% 50V
0.0047μF +80-20% 50V
220μF 20% 25V
470μF 20% 35V
470μF 20% 35V
10μF 20% 16V
10μF 20% 16V
10μF 20% 16V
10μF 20% 16V
10μF 20% 16V
10μF 20% 16V
0.001uF 5% 50V
10μF 20% 16V
10μF 20% 16V
1μF 20% 50V
100μF 20% 16V
0.001uF 5% 50V
10μF 20% 16V
1μF 20% 50V
0.47μF 10% 63-100V
4.7μF 20% 16V
0.22μF 50V
10μF 20% 16V
4.7μF 20% 16V
4.7μF 20% 16V
Mylar 0.015μF 100V
10μF 20% 16V
10μF 20% 16V
1μF 20% 50V
1μF 20% 50V
0.047μF 50V
10μF 20% 16V
0.1μF 50V
4.7μF 20% 16V
0.1μF 50V
100μF 20% 16V
100μF 20% 16V
1μF 20% 50V
1μF 20% 50V
2.2μF20% 50V
2.2μF20% 50V
100pF 50V
100pF 50V
10μF 20% 16V
0.1μF 50V
1μF 20% 50V
9965 000 39984
9965 000 40685
9965 100 05144
9965 000 40691
9965 000 40690
9965 000 40304
9965 000 40699
9965 100 05396
9965 000 39976
9965 100 04838
9965 000 39975
9965 000 39975
9965 000 40701
9965 000 40698
9965 000 40304
9965 000 39976
9965 000 39976
9965 000 40691
9965 100 04838
9965 000 39975
9965 000 40695
9965 000 40695
9965 000 40695
9965 000 39975
9965 000 39975
9965 000 40311
CFR 75Ω 1/16W
CFR 1.5kΩ 1/16W
5.1kΩ 5% 1/16-1/6W
CFR 220Ω 1/16W
CFR 22Ω 1/16W
CFR 1KΩ 1/16W
CFR 470Ω 1/16W
RESIS 33 OHM 1W 5%
CFR 10kΩ 1/16W
180Ω 5% 1/16-1/6W
CFR 100Ω 1/16W
CFR 100Ω 1/16W
CFR 47kΩ 1/16W
CFR 39kΩ 1/16W
CFR 1KΩ 1/16W
CFR 10kΩ 1/16W
CFR 10kΩ 1/16W
CFR 220Ω 1/16W
180Ω 5% 1/16-1/6W
CFR 100Ω 1/16W
CFR 3.3kΩ 1/16W
CFR 3.3kΩ 1/16W
CFR 3.3kΩ 1/16W
CFR 100Ω 1/16W
CFR 100Ω 1/16W
Peaking coil 33μH 10%
f
R101
R102
R103
R104
R105
R106
R107
R108
R109
R110
R111
R112
R113
R114
R120
R121
R122
R125
R126
R127
R130
R131
R132
R133
R134
R135
EN 52
R137
R138
R139
R140
R141
R142
R143
R144
R145
R147
R148
R149
R151
R401
R404
R405
R406
R407
R409
R412
R413
R414
R416
R417
R419
R420
R421
R422
R423
R424
R425
R432
R433
R440
R441
R443
R450
R451
R452
R453
R454
R457
R459
R460
R461
R462
R463
R464
R466
R467
R468
R469
R501
R502
R503
R504
R505
R506
R507
R508
R510
R511
R512
R513
R514
R515
R516
R517
R520
R521
R522
R523
R524
R525
R526
R527
R528
R529
R600
R601
R602
R604
R605
R606
R607
R608
R609
R610
R621
R622
R624
R627
R630
R631
10.
SK5.0L CA
9965 000 40304
9965 000 40688
9965 000 40693
9965 000 39975
9965 000 39976
9965 000 39975
9965 000 39975
9965 000 39975
9965 000 39980
9965 000 40687
9965 000 40695
9965 000 40695
9965 000 40122
9965 000 40700
9965 000 39975
9965 100 04848
9965 000 40774
9965 000 40001
9965 100 04841
9965 100 04841
9965 000 39977
9965 000 40698
9965 000 40304
9965 000 40695
9965 100 05142
9965 000 39988
9965 100 04838
9965 100 04849
9965 100 07328
9965 000 40689
9965 100 04841
9965 000 40491
9965 000 40520
9965 100 07699
9965 100 05218
9965 000 40699
9965 100 05160
9965 100 05160
9965 100 05395
9965 000 41086
9965 000 41087
9965 000 39975
9965 000 40687
9965 000 39975
9965 000 39985
9965 100 05312
9965 000 40138
9965 100 05624
9965 000 40698
9965 000 39980
9965 100 07705
9965 000 40524
9965 000 39998
9965 000 40000
9965 000 40491
9965 000 39998
9965 000 40509
9965 000 40517
9965 000 40129
9965 000 40525
9965 000 39998
9965 000 40000
9965 000 39998
9965 000 40491
9965 000 40509
9965 000 40517
9965 000 40129
9965 000 40525
9965 000 40000
9965 000 39998
9965 000 39998
9965 000 40491
9965 000 40509
9965 000 40517
9965 000 40129
9965 000 40525
9965 000 40503
9965 000 40492
9965 000 40524
9965 100 05373
9965 100 05397
9965 000 40698
9965 000 40691
9965 000 40706
9965 000 40128
9965 000 40000
9965 100 05410
9965 000 40154
9965 100 05160
9965 100 05160
9965 100 05160
9965 100 05366
9965 000 40113
9965 000 39988
CFR 1KΩ 1/16W
CFR 18kΩ 1/16W
CFR 2.7kΩ 1/16W
CFR 100Ω 1/16W
CFR 10kΩ 1/16W
CFR 100Ω 1/16W
CFR 100Ω 1/16W
CFR 100Ω 1/16W
CFR 22kΩ 1/8W
CFR 1.8kΩ 1/16W
CFR 3.3kΩ 1/16W
CFR 3.3kΩ 1/16W
MOFR 39kΩ
CFR 4.7kΩ 1/16W
CFR 100Ω 1/16W
5.6kΩ 5% 1/16-1/6W
MOFR 1kΩ
CFR 22kΩ
27kΩ 5% 1/16-1/6W
27kΩ 5% 1/16-1/6W
CFR 100kΩ
CFR 39kΩ 1/16W
CFR 1KΩ 1/16W
CFR 3.3kΩ 1/16W
270kΩ 5W 1/16-1/6W
CFR 1kΩ 1/4W
180Ω 5% 1/16-1/6W
680Ω 5% 1/16-1/6W
6.2Ω 5% 2W
CFR 2kΩ 1/16W
27kΩ 5% 1/16-1/6W
CFR 270Ω 1W
Fusible Res. 0.33Ω 1W
Fusible Res. 2.2Ω 2W
56kΩ 5% 1/16-1/6W
CFR 470Ω 1/16W
0.22Ω 5% 2W
0.22Ω 5% 2W
RESIS 5.6 OHM 1W 5%
MOFR 270Ω
MOFR 33Ω
CFR 100Ω 1/16W
CFR 1.8kΩ 1/16W
CFR 100Ω 1/16W
CFR 5.6Ω
0.82Ω 2W
MOFR 220Ω
NTC 50kΩ 5%
CFR 39kΩ 1/16W
CFR 22kΩ 1/8W
MOFR
NTC 5/5A
CFR 22Ω 1/4W
CFR 2.2kΩ
CFR 270Ω 1W
CFR 22Ω 1/4W
MOFR 270Ω
MOFR 15kΩ
MOFR 220Ω
CCR 2.7kΩ
CFR 22Ω 1/4W
CFR 2.2kΩ
CFR 22Ω 1/4W
CFR 270Ω 1W
MOFR 270Ω
MOFR 15kΩ
MOFR 220Ω
CCR 2.7kΩ
CFR 2.2kΩ
CFR 22Ω 1/4W
CFR 22Ω 1/4W
CFR 270Ω 1W
MOFR 270Ω
MOFR 15kΩ
MOFR 220Ω
CCR 2.7kΩ
CFR 220kΩ 1W
CFR 33Ω 0.25W
NTC 5/5A
2.2MΩ 5% 1/2W
200kΩ 5% 2W
CFR 39kΩ 1/16W
CFR 220Ω 1/16W
CFR 6.8kΩ 1/16W
MOFR 22Ω
CFR 2.2kΩ
Coke 200μH
High Volt. 8.2MΩ 1W
0.22Ω 5% 2W
0.22Ω 5% 2W
0.22Ω 5% 2W
6.2kΩ 5% 1/4W
CFR 680Ω
CFR 1kΩ 1/4W
Spare Parts List
R632
R633
R634
R635
R638
R639
R643
R644
R645
R647
R648
R649
R650
R701
R702
R705
R706
R707
R708
R709
R710
R711
R713
R717
R719
R721
R722
R723
R724
R725
R727
R728
R729
R742
R743
R744
R745
R746
R747
R748
R763
R764
R765
R766
R768
R769
R770
R771
R775
R776
R777
R778
R779
R780
R851
R852
R853
R854
R855
R856
R857
R858
R860
RL601
VDR601
9965 000 40513
9965 000 40108
9965 000 39976
9965 000 39980
9965 000 41085
9965 000 39976
9965 000 40701
9965 000 39976
9965 100 04844
9965 100 05394
9965 000 39980
9965 000 40000
9965 100 05380
9965 000 40701
9965 000 40701
9965 000 40687
9965 000 40687
9965 000 40701
9965 000 40701
9965 000 40701
9965 000 40701
9965 000 39984
9965 000 39980
9965 000 40705
9965 000 39975
9965 000 39984
9965 000 39975
9965 000 39984
9965 000 39982
9965 000 39976
9965 000 39975
9965 000 40304
9965 100 04836
9965 100 05138
9965 100 05138
9965 000 40701
9965 000 40701
9965 000 40701
9965 000 40701
9965 000 39979
9965 000 40686
9965 000 40704
9965 000 40304
9965 000 40701
9965 100 05150
9965 000 40304
9965 000 40304
9965 000 39976
9965 000 40701
9965 000 40701
9965 000 40701
9965 000 39975
9965 000 39984
9965 000 40701
9965 100 04839
9965 100 05146
9965 000 39979
9965 000 39986
9965 000 39975
9965 000 39975
9965 000 39976
9965 000 39976
9965 000 40304
9965 100 05413
9965 000 40275
MOFR 1Ω
CFR 5.1kΩ
CFR 10kΩ 1/16W
CFR 22kΩ 1/8W
MOFR 22Ω
CFR 10kΩ 1/16W
CFR 47kΩ 1/16W
CFR 10kΩ 1/16W
390Ω 5% 1/6W
RESIS 0.51 OHM 1W 5%
CFR 22kΩ 1/8W
CFR 2.2kΩ
430Ω 5% 1/16-1/6W
CFR 47kΩ 1/16W
CFR 47kΩ 1/16W
CFR 1.8kΩ 1/16W
CFR 1.8kΩ 1/16W
CFR 47kΩ 1/16W
CFR 47kΩ 1/16W
CFR 47kΩ 1/16W
CFR 47kΩ 1/16W
CFR 75Ω 1/16W
CFR 22kΩ 1/8W
CFR 68Ω 1/16W
CFR 100Ω 1/16W
CFR 75Ω 1/16W
CFR 100Ω 1/16W
CFR 75Ω 1/16W
CFR 33kΩ 1/16W
CFR 10kΩ 1/16W
CFR 100Ω 1/16W
CFR 1KΩ 1/16W
1.2kΩ 5% 1/16-1/6W
13kΩ 5% 1/16-1/6W
13kΩ 5% 1/16-1/6W
CFR 47kΩ 1/16W
CFR 47kΩ 1/16W
CFR 47kΩ 1/16W
CFR 47kΩ 1/16W
CFR 150Ω 1/6W
CFR 15kΩ 1/16W
CFR 6.2kΩ 1/16W
CFR 1KΩ 1/16W
CFR 47kΩ 1/16W
91kΩ 5% 1/4W
CFR 1KΩ 1/16W
CFR 1KΩ 1/16W
CFR 10kΩ 1/16W
CFR 47kΩ 1/16W
CFR 47kΩ 1/16W
CFR 47kΩ 1/16W
CFR 100Ω 1/16W
CFR 75Ω 1/16W
CFR 47kΩ 1/16W
2.2kΩ 5% 1/6W
8.2kΩ 5% 1/16-1/6W
CFR 150Ω 1/6W
CFR 10Ω 1/4W
CFR 100Ω 1/16W
CFR 100Ω 1/16W
CFR 10kΩ 1/16W
CFR 10kΩ 1/16W
CFR 1KΩ 1/16W
OMIT-SS-112LM
Gas Tube CMQX0680
9965 000 40602
9965 100 07711
9965 000 40252
9965 000 40252
9965 000 40252
9965 100 07718
9965 100 05629
9965 100 04924
9965 100 07717
9965 000 40252
9965 000 40607
9965 100 05411
9965 000 41227
9965 000 40311
9965 000 40311
9965 000 40254
9965 000 40254
9965 000 40254
9965 000 40254
9965 100 05412
9965 100 05371
9965 100 05372
Peaking coil 1μH 10%
Peaking coil 12μH 10%
Peaking coil 10μH 10%
Peaking coil 10μH 10%
Peaking coil 10μH 10%
Linear Coil 36μH
Chock Coil 160μH 10%
Choke Coil 790μH
Choke Coil 2.8MHz 10%
Peaking coil 10μH 10%
AC Line Filter 15MHz
AC Line Filter 15mH
Bead 3.5 x 1 x 9mm
Peaking coil 33μH 10%
Peaking coil 33μH 10%
Peaking coil 15μH 10%
Peaking coil 15μH 10%
Peaking coil 15μH 10%
Peaking coil 15μH 10%
Transformer BCT-19G
29" Flyback Transformer
Switching Transformer
b
L101
L103
L104
L105
L106
L430
L431
L432
L440
L501
L601
L603
L604
L701
L702
L703
L704
L705
L706
T401
T402
T603
d
D402
D403
D404
D430
D431
D433
D450
D451
D452
D501
D502
D503
D504
D505
D506
D603A
D603B
D603C
D603D
D605
D620
D621
D622
D623
D626
D627
D761
D762
D763
9965 000 40218
9965 000 40224
9965 000 40218
9965 000 40569
9965 100 04906
9965 000 40219
9965 100 05390
9965 100 05390
9965 000 40219
9965 000 40218
9965 000 40219
9965 000 40218
9965 000 40219
9965 000 40218
9965 000 40219
9965 100 05391
9965 100 05391
9965 100 05391
9965 100 05391
9965 000 40219
9965 100 07483
9965 000 40219
9965 100 05390
9965 100 05406
9965 000 40219
9965 000 40218
9965 000 40218
9965 000 40218
9965 000 40218
1N4148 150mA/100V
Zener 8V2 1/2W 5%
1N4148 150mA/100V
BY228
3A/800V(DO-27)
BA158 600V/1A
TBYW362A/600V
TBYW362A/600V
BA158 600V/1A
1N4148 150mA/100V
BA158 600V/1A
1N4148 150mA/100V
BA158 600V/1A
1N4148 150mA/100V
BA158 600V/1A
Rectifier 800V/1.5A
Rectifier 800V/1.5A
Rectifier 800V/1.5A
Rectifier 800V/1.5A
BA158 600V/1A
High Speed Rect. RU4
BA158 600V/1A
TBYW362A/600V
HSRD 200V/3A
BA158 600V/1A
1N4148 150mA/100V
1N4148 150mA/100V
1N4148 150mA/100V
1N4148 150mA/100V
9965 100 07701
9965 000 40597
9965 000 40249
9965 000 40247
9965 100 04918
9965 100 05407
9965 100 05369
9965 000 40601
9965 000 40596
9965 100 04917
9965 000 40309
9965 000 40309
9965 100 07712
9965 100 07713
9965 000 40237
9965 000 40232
9965 000 40232
9965 000 40234
9965 000 41191
9965 000 40585
9965 000 40239
9965 000 40238
9965 000 40585
9965 000 40239
9965 000 40238
9965 000 40585
9965 000 40239
9965 000 40238
9965 000 40232
9965 000 40232
9965 000 40232
9965 100 04912
9965 000 40232
9965 000 40232
9965 000 40232
9965 000 40232
9965 000 40232
9965 000 40231
9965 000 40232
9965 000 40232
9965 100 07704
9965 000 40304
9965 000 39976
9965 000 40588
uP
8k-BIT IIC EEPROM
KA33V
L7808CV
TDA4865AJ DBS7P
W6556A SANKEN
SE120N SANKEN (120V)
PC817C Sharp
TDA9859
TFA9842AJ PHILIPS
HCF4052BF SGS
HCF4052BF SGS
TDA9850 (IIC Bus)
L78L09CZ SGS TO-92
2SC2717
2SC1815Y/2PC1815
2SC1815Y/2PC1815
2SC2482/3DG2482Y
Trans. FQPF630
2SC4544/3DA4544Y
BF423 PNP (-250V)
BF422 NPN (250V)
2SC4544/3DA4544Y
BF423 PNP (-250V)
BF422 NPN (250V)
2SC4544/3DA4544Y
BF423 PNP (-250V)
BF422 NPN (250V)
2SC1815Y/2PC1815
2SC1815Y/2PC1815
2SC1815Y/2PC1815
2SA1013
2SC1815Y/2PC1815
2SC1815Y/2PC1815
2SC1815Y/2PC1815
2SC1815Y/2PC1815
2SC1815Y/2PC1815
2SA1015Y\2PA1015
2SC1815Y/2PC1815
2SC1815Y/2PC1815
TUNER
CFR 1KΩ 1/16W
CFR 10kΩ 1/16W
2SD2553/3DD2553 1.7
c e
IC101
IC102
IC103
IC104
IC301
IC601
IC621
IC622
IC740
IC760
IC761
IC762
IC851
IC852
Q101
Q106
Q107
Q401
Q440
Q501
Q502
Q503
Q504
Q505
Q506
Q507
Q508
Q509
Q621
Q622
Q623
Q624
Q625
Q626
Q701
Q702
Q703
Q760
Q761
Q851
A101
J120
J615
N401
Keyboard & Control Panel [D]
Various
SW001
SW002
SW003
SW004
SW601
9965 100 05199
9965 100 05199
9965 100 05199
9965 100 05199
9965 100 05423
Tact Switch
Tact Switch
Tact Switch
Tact Switch
MPS.SDDF-3-03 W
Spare Parts List
g
C001
CR1
9965 000 40529 33pF 50V
9965 100 04879 10μF 20% 10V
f
RD1
RD2
RD3
RD4
RD5
RR1
9965 000 39986
9965 000 40003
9965 000 39987
9965 000 40489
9965 000 39989
9965 000 39986
CFR 10Ω 1/4W
CFR 2.7kΩ
CFR 100Ω
CFR 18kΩ 1W
CFR 10kΩ 1/4W
CFR 10Ω 1/4W
b
LED
9965 000 40273 LED 3.1mm red
d
D001
M001
9965 000 40221 Zener 5V1 1/2W 5%
9965 100 05378 IR Rec. HS0038B 38KHz
SK5.0L CA
10.
EN 53
EN 54
11.
SK5.0L CA
11. Revision List
Manual xxxx xxx xxxx.0
• First release.
Revision List
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