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25/29 "Q " (NTSC)
CONTENTS
1. PRECAUTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 6. TROUBLESHOOTING . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30
Safety Precaution . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 No Power . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30
Servicing Precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 In stand-by status (POWER OK), TV is switched on,
Precautions for Electrostatically Sensitive Devices . . . . . 6 SMPS turns off and LED turns off (ON/OFF) . . . . . . . . . . . 31
2. SPECIFICATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 No Picture (sound ok) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32
3. DESCRIPTION OF CONTROLS . . . . . . . . . . . . . . . . . . . . . . 8 No Sound . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33
4. ALIGNMENT AND ADJUSTMENTS . . . . . . . . . . . . . . . . . . . 9 Vertical Line(Reference Line) . . . . . . . . . . . . . . . . . . . . . . 34
Preadjustment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 7. BLOCK DIAGRAM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35
Factory / Service Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 8. PCB LAYOUT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36
Other Adjustments . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 9. OPTION LIST . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39
5. USING DEVICES AND DESCRIPTION . . . . . . . . . . . . . . . . 16 CPT option . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39
Main IC (TV Processor/u-com/text, TDA9575) . . . . . . . . . 16 VM option . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40
IF PLL (TDA9885) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19 Comb-filter option . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40
MSP 3420G . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21 Headphone option . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41
Multistandard comb filter (TDA9181) . . . . . . . . . . . . . . . . 24 PIP option . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41
Power (STR-F6656) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27 Rating option . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41
Vertical deflection output circuit(TDA8358J) . . . . . 28 PARTS LIST . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42
Triple video output amplifier(TDA6108JF) . . . . . . . 29 CRICUIT DIAGRAM
1. Precautions
Follow these safety, servicing and ESD precautions to prevent
damage and protect against potential
hazards, such as electrical shock and X-rays.
1-1 Safety Precautions
1. Be sure that all of the built-in protective devices are replaced.
Restore any missing protective shields.
2. When reinstalling the chassis and its assemblies, be sure to restore all protective devices,
including : nonmetallic control knobs and compartment covers.
3. Make sure that there no cabinet openings through which people-particularly childrenmight
insert fingers and contact dangerous voltages. Such opening include the spacing between
the picture tube and the cabinet mask, excessively wide cabinet ventilation slots, and impro-
perly fitted back covers.
If the measured resistance is less than 1.0 megohm or greater than 5.2 megohms, an
abnormality exists that must be corrected before the unit is returned to the customer.
4. Leakage Current Hot Check (Figure 1-1) :
Warning : Do not use an isolation transformer during this test. Use a leakage current
tester or a metering system that complies with International Electrotechnical Commission
65.(IEC 65)
READING SHOULD NOT
BE ABOVE
0.7mA PEAK AC2mA DC.
LEAKAGE
CURRENT
TEATER
CEVICE
UNDER
POWER TEST
CORD TEST ALL
EXPOSED METAL
SURFACES
ALSO TEST WITH
PLUG REVERSED
EARTH
GROUND
FIGURE 1-1
AC LEAKAGE TEST
5. With the unit completely reassembled, plug the AC line cord directly the power outlet.
With the unit' s AC switch first in the ON position and then OFF, measure the current
between a known earth ground (metal water pipe, conduit, etc) and all exposed metal
parts, including: antennas, handle brackets, metal cabinets, screwheads and control
shafts. The current measured should not exceed 0.5 milliamp. Reverse the power-plug
prongs in the AC outlet and repeat the test.
6. Antenna Cold Check:
With the unit's AC plug disconnected from the AC source, connect an electrical jumper
across the two AC prongs. Connect one lead of the ohmmeter to an AC prong. Connect
the other lead to the coaxial connector.
7. X-ray Limits:
The picture tube is especially designed to prohibit X-ray emissions.
To ensure continued X-ray protection, replace the picture tube only with one that is the
same type as the original. Carefully reinstall the picture tube shields and mounting
hardware: these also provide X-ray protection.
8. High Voltage Limits:
High voltage must be measured each time servicing is done on the +B, horizontal
deflection or high voltage circuits.
9. High voltage is maintained within specified limits by close-tolerance, safety-related
components and adjustments. If the high voltage exceeds the specified limits, check
each of the special components.
10. Design Alteration Warning:
Never alter or add to the mechanical or electrical design of this unit.
Example: Do not add auxiliary audio or video connectors. Such alterations might
create a safety hazard. Also, any design changes or additions will void the
manufacturer' s warranty.
11. Components, parts and wiring that appear to have overheated or that are otherwise
damaged should be replaced with parts that meet the original spec ifications. Always
determine the cause of damage or overheating, and correct any potential hazards.
12. Observe the original lead dress, especially near the following areas:
Antenna wiring, sharp edges, and especially the AC and high voltage power supplies.
Always inspect for pinched, out-of place, or frayed wiring.
Do not change the spacing between components and the printed circuit board. Check
the AC power cord for damage. Make sure that leads and components do not touch
thermally hot parts.
13. Picture Tube Implosion Warning:
The picture tube in this receiver employs "integral implosion" protection.
To ensure continued implosion protection, make sure that the replacement picture tube
is the same as the original.
14. Do not remove, install or handle the picture tube without first putting on shatterproof
goggles equipped with side shields.
Never handle the picture tube by its neck. Some "in-line" picture tubes are equipped
with permanetly attached diflection yoke: do not try to remove such "permanently
attached" yokes from the picture tube.
15. Product Safety Notice:
Some electrical and mechanical parts have special safety-related characteristics which
might not be obvious from visual inspection.
These safety features and the protection they give might be lost if the replacement
component differs from the original--even if the replacement is rated for higher voltage,
wattage, etc.
Components that are critical for safety are indicated in the circuit diagram by
shading( ! )
Use replacement components that have the same ratings, especially for flame
resistance and dielectric strength specifications. A replacement part that does not have
the same safety characteristics as the original might create shock, fire or other hazards.
1-2 Servicing Precautions
Warning 1: First read the "Safety Precaution" section of the manual.
If some unforeseen circumstance creates a conflict between the servicing and safety
precautions, always follow the safety precaution.
Warning 2: An electrolytic capacitor installed with the wrong polarity might explode.
1. Servicing Precautions are printed on the cabinet. Follow them.
2. Always unplug the unit' s AC power cord from the AC power source before attempting
to: (a) Remove or reinstall any component or assembly, (b) Disconnect an electrical
plug or connector, (c) Connect a test component in parallel with an electrolytic capacitor.
3. Some components are raised above the printed circuit board for safety.
An insulation tube or tape is sometimes used. The internal wiring is sometimes clamped
to prevent contact with thermally hot components.
Reinstall all such elements to their original position.
4. After servicing, always check that the screws, components and wiring have been
correctly reinstalled. Make sure that the portion around the serviced part has not been
damaged.
5. Check the insulation between the blades of the AC plug and accessible conductive parts
(examples: metal panels,. input terminals).
6. Insulation Checking Procedure: Disconnent the power cord from the AC source and
turn the power switch ON. Connect an insulation resistance meter (500V) to the blades of
the AC plug.
The insulation resistance between each blade of the AC plug and accessible conductive
parts (see above) should be greater than 1 megohm.
7. Never defeat any of the B+ voltage interlocks. Do not apply AC power to the unit (or any
of its assemblies) unless all solid-state heat sinks are correctly installed.
8. Always connect a test instrument' s ground lead to the instrument chassis ground before
connecting the positive lead: always remove the instrument' s ground lead list.
1-3 Precautions for Electrostatically Sensitive Devices (ESDs)
1. Some semiconductor ("solid state") devices are easily damaged by static electricity.
Such some components are called Electrostatically Sensitive devices (ESDs); examples
include integrated circuits and some field-effect tran sistors. The following techniques will
reduce the occurrence of component damage caused by static electricity.
2. Immediately before handling any semiconductor components or assemblies, drain the
electrostatic charge from your body by, touching a known earth ground. Alternatively,
wear the discharging wrist-strap device. (Be sure to remove it prior to applying power-
this is an electric shock precaution.
3. After removing an ESD-equipped assembly, place it on a conductive surface such as
aluminum foil to prevent accumulation of electrostatic charge.
4. Do not use freon-propelled chemicals. These can generate electrical charges that
damage ESDS.
5. Use only a grounded-tip soldering iron when soldering or unsoldering ESDS.
6. Use only an anti-static solder removal device. Many solder removal devices are not rated
as "anti-static"; these can accumulate sufficient electrical charge to damage ESDS.
7. Do not remove a replacement ESD front its protective package until you are ready to
install it. Most replacement ESDs are packaged with leads that are electrically shorted
together by conductive foam, aluminum foil or other conductive materials.
8. Immediately before removing the protective material from the leads of a replacement
ESD, touch the protective material to the chassis or circuit assembly into which the
device will be installed.
9. Minimize body motions when unpackaged replacement ESDS. Motion, such as brushing
clothes together, or lifting a foot from a carpeted floor can generate, enough static
electricity to damage an ESD.
2. Specifications
RECEPTION SYSTEM NTSC M, PAL M/N
POWER REQUIREMENTS AC 90~250V 50/60Hz(AUTO)
POWER CONSUMPTION REGULAR (130W), FLAT (140W)
STEREO BTSC - Stereo + SAP
SOUND OUTPUT POWER 10W(R) + 10W(L) AT10% TOTAL HARMONIC DISTORTION
ANTENNA IMPEDANCE 75 OHM UNBALANCED TYPE
VIDEO IF 45.75MHz
OPERATING FREQUENCIES
SOUND IF 41.25MHz
VHF CH : 2 ~ 13
CHANNEL COVERAGE UHF CH : 14 ~ 69
CABLE CH : 1, 14 ~ 125
CHANNEL INDICATION ON - SCREEN DISPLAY
REMOTE CONTROL UNIT REQUIRES TWO 1.5V BATTERIES TYPE AAA SIZE
PROGRAM CH MEMORY 181CH MEMORY
3. Description of controls
FRONT
1 2 3 4 5 6 7 8 9 10 11
REAR
12 13 14 15
DVD IN
Y
Cb
S-VHS ANT.
CR
IN
1. Headphone Jack 9. Remote Control Sensor
2. Video/Audio 2 In Jacks 10. Stand By Indicator
3. Channel Down( ) Button 11. Power Button
4. Channel Up( ) Button 12. Component Video Input Jacks (DVD IN)
5. Volume Down( ) Button 13. S-VHS Input Jack
6. Volume Up( ) Button 14. Audio/Video In/Out Jacks
7. Menu Button 15. Coaxial cable Connector (75ohm)
8. TV/Video Button
WARNING : TO PREVENT FIRE OR SHOCK HAZARD, DO NOT EXPOSE THIS TELEVISION
TO RAIN OR MOISTURE
4. Alignment and Adjustments
4-1 Preadjustment
4-1-1 Factory Mode
1. Do not attempt these adjustments in the VIDEO mode.
2. The Factory Mode adjustments are necessary when either the EEPROM(Q002) or the CPT
is replaced.
3. Do not tamper with the "Adjustment" screen of the Factory Mode menu. The screen is intended
only for factory use.
4-1-2 When EEPROM (Q002) is replaced
1. When Q002 is replaced all adjustment data revert to their initial values. It is necessary to re-
program this data.
2. After Q002 is replaced, warm up the TV for 10 seconds.
4-1-3 When CPT is replaced
1. Make the following the adjustments after setting up purity and convergence:
White Balance
Vertical center
Vertical size
Horizontal size
4-2 Factory / Service Mode
4-2-1 Procedure for the "Adjustment" Mode
1. This mode uses the standard remote control. In the stand-by mode, Press
display + MENU + 3 + 8 + Power(on) button on the remote controller in --> sequence
2. The Factory Mode will be displayed. The Factory Mode has three components :
SCREEN, W/BALANCE, PICTURE, SERVICE 1
3. Access the Adjustment Mode by pressing the VOLUME keys (Up or Down). The adjustment
Parameters adjusted are listed in the accompanying table, and they are selected by pressing
the PROGRAM keys (Up or Down).
4. The VOLUME keys increase or decrease the adjustment values.
4-3 Other Adjustments
4-3-1 General Alignment Instructions
1. Usually, a color TV needs only slight touch-up adjustment upon installation. Check the
basic characteristics such as height, horizontal and vertical sync and focus.
2. Observe the picture for good black and white details. There should be no objectionable
color, shading: if color shading is present, perform the purity and convergence
adjustments described below.
3. Use the specified test equipment or its equivalent.
4. Correct impedance matching is essential.
5. Avoid overload. Excessive signal from a sweep generator might overload the front-end of
the TV. When inserting signal markers, do not allow the marker generator to distort test results.
6. Connect the TV only to an AC power source with voltage and frequency as specified on the
back cover nameplate.
7. Do not attempt to connect or disconnect any wires while the TV is turned on. Make sure that
the power cord is disconnected before replacing any parts.
8. To protect against shock hazard, use an isolation transformer.
4-3-2 Automatic Degaussing
A degaussing coil is mounted around the picture tube, so that external degaussing after
moving the TV should be unnecessary. But the receiver must be properly degaussed upon
installation .
The degaussing coil operates for about 1 second after the power is switched ON. If the set is
moved or turned in a different direction, the power should be OFF for at least 20 minutes.
If the chassis or parts of the cabinet become magnetized, poor color purity will result. If this
happens, use an external degaussing coil. Slowly move the degaussing coil around the
faceplate of the picture tube and the sides and front of the receiver. Slowly withdraw the coil to
a distance of about 6 feet before turning power OFF.
If color shading persists, perform the following Color Purity and Convergence adjustments.
4-3-3 High Voltage Check
CAUTION : There is no HIGH VOLTAGE ADJUSTMENT on this chassis. But +B power must
be adjusted in +120V under the full color bar pattern and normal picture control
level.
Connect an accurate high voltmeter to the second anode of the picture tube.
Tune on the TV. Set the Brightness and Contrast controls to minimum(Zero beam current).
Adjust the Brightness and Contrast controls to both extremes. Ensure that the high voltage does
not exceed 34KV under any conditions.
4-3-4. RF AGC Adjustment
Tune in the strongest channel.
Enter input the AGC in the service mode.
Adjust AGC until color noise disappears.
4-3-5 Screen Voltage Adjustment
1. Turn on TV and warm up the set for 30 minutes regardless of an input signal.
2. After Sufficient warming-up, Press display + MENU + 3 + 8 + Power(on).
3. And then, the MENU of the factory mode will be displayed on the screen.
SCREEN SCREEN SCREEN SCREEN
BCF : OK BCF : OK BCF : OK BCF : - -
HBC : LOW HBC : OK HBC : OK HBC : OK
WBC : LOW WBC : OK WBC : LOW WBC : LOW
LOW OK!! HIGH TOO HIGH
4. Rotate SCREEN variable resistor of FBT until OK!! is displayed.
4-3-6 WHITE BALANCE ADJUSTMENT (MANUAL)
1. Tune the pure white pattern and warm up the set for 20 minutes.
2. Check the data in FACTORY MODE : R-DRV(32), G-DRV(32), B-DRV(32).
3. Select R-DRV and G-DRV, and adjust to high light data.
4. Check the result of adjustment using White Balance Meter.
HIGH LIGHT : X=0.261, Y=0.268.
NOTE: If a White Balance Meter is not available, than approximate the following color adjustments
"by eye".
4-3-7 FOCUS Adjustment
1. Turn in the active station in your area.
2. Press the VIDEO buton on the Remote control for DYNAMIC condition.
3. In put the standard signal. (Cross-Hatch pattern)\
4. Adjust the FOCUS control on the FBT to abtain a sharp and clear picture.
4-3-8 Purity Adjustment
1. Warm up the receiver for at least 30 minutes.
2. Plug in the CRT deflection yoke. Tighten the clamp screw.
3. Plug the convergence yoke into the CRT and set it as shown in Fig. B-1.
4. Input a black and white signal.
5. Fully demagnetize the receiver by using an external degaussing coil.
6. Turn the CONTRAST and BRIGHTNESS controls to maximum.
7. Loosen the clamp screw holding the yoke. Slide the yoke backward or forward to produce a
vertical green belt. (Fig. B-2)
8. Tighten the convergence yoke.
9. Slowly move the deflection yoke forward. Adjust for the best overall green screen.
10. Temporarily tighten the deflection yoke.
11. Produce blue and red rasters by adjusting the-low-light controls.
Check for good purity in each field.
12. Tighten the deflection yoke.
4-3-9 Center Convergence Adjustment
1. Warm up the receiver for at least 30 minutes.
2. Adjust the two tabs of the 4-pole magnets: Change the angle between them.
Superimpose the red and blue vertical lines in the center area of the screen.
3. Adjust the BRIGHTNESS and CONTRAST controls for a well-defined picture.
4. Adjust the two tabs of the 4-pole magnets, and change the angle between them.
Superimpose the red and the blue vertical lines in the center area of the screen.
5. Turn the both tabs at the same time, keeping the angle constant, and superimpose the red
and blue horizontal lines in the center of the screen.
6. Adjust two-tabs of 6-pole magnets to superimpose the red and blue lines onto the green.
Adjust the angle affects the vertical lines, and rotating both magnets affects the horizontal lines.
7. Repeat adjustments 2-6, if necessary.
8. Since the 4-pole and 6-pole magnets interact, the dot movement is complex(fig B-3).
FIG. B-1 CONVERGENCE MAGNET ASSEMBLY
Vertical Green Belt
ADJUST
FIG. B-2 CENTER CONVERGENCE ADJUSTMENT
BLUE RED BLUE RED
BLUE BLUE/RED
RED GREEN
4-POLE MAGINETS MOVEMENT 6-POLE MAGINETS MOVEMENT
FIG. B-3 CENTER CONVERGENCE ADJUSTMENT
4-3-10 TEST EQUIPMENT
DIGITAL VOLTMETER . . . . . . . . . . . . . . . . . . . . . Fluke model 8060A or equivalent.
OSCILLOSCOPE . . . . . . . . . . . . . . . . . . . . . . . . . . Kikusui Model cos 2050 or equivalent
DIRECT/LOW-CAPACITY PROBE . . . . . . . . . . . . (Accessory of osc)
COLOR-BAR/DOT/CROSSHATCH
GENERATOR . . . . . . . . . . . . . . . . . . . . . . . . . . . PM 5518 or equivalent
SWEEP/MAKER ALIGNMENT
GENERATOR . . . . . . . . . . . . . . . . . . . . . . . . . . . Leader Model 480-080 or equivalent
BIAS SUPPLY . . . . . . . . . . . . . . . . . . . . . . . . . . . Kikusui Model 7314A or equivalent
(Combined in Model 415 generator)
4-3-11 Geometry Adjustment
(1) Ready of Adjustment.
Turn the monochrome(lion head pattern) channel and warm up the set for 20 minutes.
On factory mode, select screen.
Use Program Up Down key to select of item.
(2) Deflection Adjustment Procedure
S-C(Vertical S Correction)
V-SLOPE(Vertical Linerarity)
VRS(Vertical Shift)
HIGHT(Vertical Height)
HRS 60(60Hz Horizontal Shift)
H-SIZE(East-West Width)
PINCU(East-West Paraboola)
EW-UP(Upper East-West Corner)
EW-LO(Bottom East-West Corner)
EW-TRAP(East-West Trapezium)
H-PARA(Horizontal parallelogram)
H-BOW(Horizontal bow)
5. Using Devices and Description
5-1 MAIN IC(TV PROCESSOR/U-COM/TEXT,TDA9575)
5-1-1 PINNING
NO NAME I/O FUNCTION ACTIVE
1 NC
2 KEY0 I CONTROL KEY INPUT
3 KEY1 I CONTROL KEY INPUT
4 VSSC/P digital ground for U-Controller core and periphery
5 SYS2 O COMB FILTER VIDEO SYSTEM OUTPUT 2
6 SYS1 O COMB FILTER VIDEO SYSTEM OUTPUT 1
7 VSSA analog ground of digital ground of TV-processor
8 SECPLL SECAM PLL decoupling
9 VP2 I 2nd supply voltage TV-processor(+8V)
10 DECDIG supply voltage decoupling of digital circuit
11 PH2LF phase-2 filter
12 PH1LF phase-1 filter
13 GND3 ground 3 for TV-processor
14 DECBG bandgap decoupling
15 AVL/EXD O E-W drive output
16 VDRB O vertical drive B output
17 VDRA O vertical drive A output
18 IFIN1 I IF input 1
19 IFIN2 I IF input 2
20 IREF reference current intput
21 VSC vertical sawtooth capacitor
22 AGCOUT O tuner AGC output
23 SIFIN1 I SIF input 1
24 SIFIN2 I SIF input 2
25 GND2 ground 2 for tv processor
26 SNDPLL narrow band PLL filter
27 REF0/SNDIF O subcarrier reference output
28 AUDIO2 I audio 2 input (N.C)
29 AUDIO3 I audio 3 input (N.C)
30 HOUT O horizontal output
31 FBISO I/O flyback input/sandcastle output
32 DECSDEM decoupling sound demodulator
33 AUDEEM AM output in stereo applications or deemphsis
34 EHTO I EHT/overvoltage protection input
35 PLLIF IF-PLL loop filter
36 SIFAGC AGC sound IF
37 QSSO O O QSS output
38 IFVO/SVO O IF video output / selected CVBS output
39 VP1 I main supply volrage TV processor
NO NAME I/O FUNTION ACTIVE
40 CVBS1 I Inter CVBS input
41 GND ground for TV processor
42 CVBS2 I CVBS2 input
43 GND ground for TV-processor
44 CVBS3/Y I CVBS3/Y input
45 C I chroma signal input
46 WHSTR white stretch capacitor
47 CVBSO O CVBS output
48 AUDOUT O AM audio output(volume controlled)
49 IFVO2 O IF video output signal
50 INSSW2 I 2nd RGB /YUV insertion input
51 R2/VIN I 2nd R input / V(R-Y0 input / PR input
52 G2/YIN I 2ndG input / Y input
53 B2/UIN I 2nd B input / U(B-Y)input / PB input
54 BCLIN I beam current limiter input
55 BLKIN I black current input
56 RO O R out
57 GO O G out
58 BO O B out
59 VDDA I analog supply of digitel supply of TV-processor(3.3V)
60 VPE OTP Programming Voltage
61 VDDC I digital supply to core(3.3V)
62 OSCGND I oscillator ground supply
63 XTALIN I crystal oscillator input
64 XTALOUT O crystal oscillator output
65 RESET I reset
66 VDDP I digital supply to periphery(+3.3V)
67 IR I IR input
68 SPOT O SPOT MUTE output H:MUTE
69 VM OFF O VM OFF output H:OFF
70 NC
71 SCL I/O I2C-bus clock line
72 SDA I/O I2C-bus data line
73 SVHS-ID I SVHS-ID input L:S-VHS
74 OPTION O 25 / 29 inch option H:25 inch
75 COMB IN-SEL O COMB input select H:V2/S-VHS
76 MUTE O MUTE output H:MUTE
77 COMB OUT-SEL O COMB output select H:Y/C
78 POWER O POWER ON L:ON
79 SYNC_FILTER I CVBS Sync filter input
80 BUS STOP I BUS STOP input L:STOP
Philips Semiconductors Tentative Device Specification
TV signal processor- Closed Caption TDA957X H/N1 series
decoder with embedded -Controller
BLOCK DIAGRAM
5-2. IF PLL(TDA9885)
5-2-1. FEATURES
Fully integrated VIF Voltage Controlled Oscillator(VCO), alignment-free; frequencies switchable
for all negative and positive modulated standards via I2C-bus
Digital acquisition help, VIF frequencies of 33.4, 33.9, 38.0, 38.9, 45.75 and 58.75 MHz
VIF Automatic Gain Control (AGC) detector for gain control, operating as peak sync delector for
negative modulated signals and as a peak white detector for positive modulated signals
Precise fully digital Automatic Frequency Control (AFC) detector with 4-bit digital-to-analog con-
verter; AFC bits via I2C-bus readable
Fully integrated sound carrier trap for 4.5, 5.5, 60 and 6.5MHz, controlled by FM-PLL oscillator.
Sound IF (SIF) input for single reference Quasi Split Sound (QSS) mode (PLL controlled)
5-2-2. PINNING
external
VIF-PLL reference crystal
filter
CVAGC pos or 4 MHz
(1)
TOP TAGC VAGC VPLL REF AFC
9 14 16 19 15 21
CAGC neg CBL
5-2-3. BLOCK DIAGRAM
TUNER AGC VIF-AGC RC VCO DIGITAL VCO CONTROL AFC DETECTOR
VIF2 2
VIDEO TRAPS 17 CVBS video output 2 V (p-p)
VIF1 1 VIF-PLL
4.5 to 6.5 MHz [1.1 V (p-p) without trap]
TDA9885
TDA9886
8 AUD
SINGLE REFERENCE QSS MIXER/ AUDIO PROCESSING
SIF2 24 5 DEEM
INTERCARRIER MIXER AND AND SWITCHES
SIF1 23 AM-DEMODULATOR de-emphasis
network
MAD
NARROW-BAND FM-PLL 6 AFD
OUTPUT
SUPPLY SIF-AGC I2C-BUS TRANSCEIVER DETECTOR CAF
PORTS
CAGC
20 18 13 3 22 11 10 7 12 4
VP AGND n.c. OP1 OP2 SCL SDA DGND SIOMAD FMPLL
sound intercarrier output
and MAD select
FM-PLL filter
5-3 MSP 3420G
5-3-1 Feature
- AVC: Automatic Volume Correction
- Subwoofer Output
- 5-band graphic equalizer (as in MSP 3420G)
- Enhanced spatial effect (pseudostereo/basewidth enlargement as in MSP 3420G)
- headphone channel with balance, bass, treble, loudness
- balance for loudspeaker and headphone channels in dB units (option)
- Additional SCART input
- Full SCART in/out matrix without restrictions
- Scart volume in dB units (optional)
- Additional I2S input
- New FM-identification
- Demodulator short programming
- Autodetection for terrestrial TV-sound standards
- Precise bit-error rate indication
- Automatic switching from NICAM to FM/AM or vice versa
- Improved NICAM synchronization algorithm
- Improved carrier mute algorithm
- Improved AM-demodulation
- Dolby Pro Logic together with DPL 35xx A
- Reduction of necessary controlling
- Less external components
- Significant reduction of radiation
5-3-2 PRELIMINARY DATA SHEET
5-3-3 Application Circuit
MSP 3420G
Note : Pin numbers refer to PLCC68 package, numbers in brackets refer to the PSDIP64 package.
5-4. MULTISTANDARD COMB FILTER (TDA9181)
5-4-1. GENERAL DESCRIPTION
The TDA9181 is a an adaptive PAL/NTSC comb filter with two internal delay lines, filters, clock control,
and input clamps. Video standards PAL B, G, H, D, I, M, and N and NTSC M are supported.
5-4-2. FEATURES
One-chip multistandard adaptive comb filter
No chroma trap, so sharper vertical luminance transients.
Input switch selects between two Y/CVBS inputs
Output switch selects between combed CVBS and an external Y/C source
fsc as well as 2 x fsc colour subcarrier signal may be applied
5-4-3. PINNING
5-4-4. BLOCK DIAGRAM
TDA9181
5-4-5. Mode definitions
5-5 Power (STR-F6656)
5-5-1. Feature
Small SIP full mold package
Guaranteed avalanche energy :
Makes it possible to simplify surge absorbing circuit
Many protection functions :
Pulse-by-pulse overcurrent protection
Overvoltage protection with latch mode
Thermal protection with latch mode
5-5-2. Pinning and Description
PIN DESCRIPTION DESCRIPTION
Input of overcurrent detection signal
1 Over current/Feedback terminal
and constant voltage control signal
2 Source terminal MOS FET source
3 Drain terminal MOS FET drain
4 Power supply terminal Input of power supply for control circuit
5 Ground terminal Ground
5-5-3. Block Diagram
5-6 Vertical deflection output circuit(TDA8358J)
5-6-1. Features
Few external components required
High efficiency fully DC coupled vertical bridge output circuit
Vertical flyback switch with short rise and fall times
Built-in guard circuit
Thermal protection circuit
Improved EMC performance due to differential inputs
East-west output stage.
5-6-2. PINNING
SYMBOL PIN DESCRIPTION
INA 1 input A
INB 2 input B
VP 3 supply voltage
OUTB 4 output B
INEW 5 east-west inputy
VGND 6 vertical ground
EWGND 7 east-west ground
OUTEW 8 east-west output
VFB 9 flyback supply voltage
OUTA 10 output A
GUARD 11 guard output
FEEDB 12 feedback input
COMP 13 compensation input
5-6-3. BLOCK DIAGRAM
5-7 Triple video output amplifier(TDA6108JF)
5-7-1. Features
Typical bandwidth of 9.0MHz for an output signal of 60V(p-p)
High slew rate of 1850V/ s
No external components required
Very simple application
Single supply voltage of 200V
Internal reference voltage of 2.5V
5-7-2. PINNING
SYMBOL PIN DESCRIPTION
Vi(1) 1 inverting input 1
Vi(2) 2 inverting input 2
Vi(3) 3 inverting input 3
GND 4 grund (fin)
Iom 5 black current measurement output
VDD 6 supply voltage
VoC(3) 7 cathode output 3
VoC(3) 8 cathode output 2
VoC(3) 9 cathode output 1
5-7-3. BLOCK DIAGRAM
VDD
6
MIRROR 1 MIRROR 5
TDA6108JF CASCODE 1
3×
MIRROR 4
Voc(3),
CURRENT 9, 8, 7
1× Voc(2),
SOURCE
Voc(1)
1×
THERMAL Rf
PROTECTION VIP DIFFERENTIAL
CIRCUIT REFERENCE STAGE
Vi(1),
Vi(2), 1, 2, 3 5
MIRROR 3 Io(m)
Vi(3) Ri
Ra
3× CASCODE 2
MIRROR 2
4
MGL318
6. TROUBLESHOOTING
1. No Power
PROCESS
NO 1) CHECK THE POWER
CHECK THE VOLTAGE SUPPLY OUTLET
BETWEEN P801 2) CHECK THE POWER CORD
AC 220V
YES 1) CHECK F801(250V 5A)
IF F801 IS BROKEN, REPLACE IT AFTER
CHECKING THESE :
CHECK THE D801
VOLTAGE BETWEEN NO RESISTANCE VALUE BETWEEN
"+" LINE AND "-" PIN 1 AND P1N2 OF Q801 ( IS OK)
LINE OF L801 2) CHECK L801, R801
AC 220V
3) CHECK C801
YES
1) CHECK THE RESISTER VALUE OF R801
CHECK THE NO 2) CHECK D801(BRIDGE DIODE)
VOLTAGE OF T801 3) CHECK THE RESISTER VALUE BETWEEN 1
OF PIN1 AND 2 OF Q801( IS OK)
DC 310V 4) CHECK T801
YES
CHECK THE CHECK THESE :
NO
VOLTAGE Q801 1) Q801 : STR-F6656
OF PIN4 2) D802, R813, R807
STAND BY : 13V
TV ON : 17V
YES (NORMAL)
CHECK THE NO CHECK THE RESISTANCE VALUE BETWEEN
VOLTAGE OF Q802 PIN3 AND PIN4 OF Q802( IS OK)
PIN3(PC817)
DC 3.3V
YES
CHECK THE CHECK AND REPLACE
NO
VOLTAGE BETWEEN 1) Q081, D826
Q081 PIN3 AND 2) Q822, Q823
GND
STAND BY : 5V
YES
CHECK
THE VOLTAGE NO CHECK AND REPLACE
BETWEEN C831 1) D821, Q831
AND GND
DC 120V
YES
END
2. In stand-by status (POWER OK), TV is switched on, SMPS turns off
and LED turns off (ON/OFF)
Cause : If Q801 becomes off because secondary side of SMPS is overloaded, primary side
of SMPS may be normal.
START
1) OPEN L823 AND
NO
CONNECT Q823 TO BASE GND
2) CHECK THE VOLTAGE
OF C831
DC 120V
YES
CHECK THE NO CHECK THE RESISTANCE VALUE
VOLTAGE OF Q802 BETWEEN PIN3 AND PIN4 OF Q802
PIN2
DC 10.5V
YES
CHECK THE NO
VOLTAGE OF Q501 REPLACE µ-COM(Q501)
PIN78
TV ON : 0V
STAND BY : 2.2V
YES
CHECK Q821, Q822
CHECK THE RESISTANCE REPLACE Q802 IF THE
VALUE "E "AND "C" OF VOLTAGE OF Q802
Q404 (REPLACE IR 0) PIN3 IS 10V
3. No Picture(sound ok)
START
CHECK CHECK CHECK D401
NO NO
THE WAVEFORM AT THE VOLTAGE AT R823, Q821,
Q501 PIN40 Q501 PIN39 Q822
DC 8V
YES YES
REPLACE
Q501
CHECK NO CHECK NO CHECK
THE WAVEFORM AT THE WAVEFORM AT Q401, R413
Q404 "B " Q401 "C "
YES
CHECK NO
THE WAVEFORM AT CHECK Q404
Q501 PIN31
YES YES
CHECK R910 REPLACE T401
4. No Sound
START
CHECK
NO
VOLTAGE AT Q661 PIN3 CHECK D825, R659
DC 17V
YES
CHECK
YES
Q661 PIN4, 12 CHECK SPEAKER, Q661
WAVEFORMS
NO
CHECK THE
YES 1) CHECK Q652,
WAVEFORMS AT
QN01 PIN 24, 25 Q653,Q654,D651
NO
CHECK THE YES 1)CHECK VOLUME, BALANCE
WAVEFORMS AT
CHECK QN01,QN03
Q501 PIN37
NO
CHECK Q501, Z102
5. Vertical Line(Reference Line)
START
CHECK
NO CHECK D381, R381,
VOLTAGE AT Q351
PIN3, PIN9 D382, R382
V3=DC16V
V9=DC47V
YES
CHECK
NO
WAVEFORM CHECK Q501, L302, L303
Q351 PIN1, PIN2
YES
CHECK
NO
WAVEFORM CHECK Q351
Q351 PIN10
YES
CHECK DY CONNECTOR
7. BLOCK DIAGRAM
8. PCB LAYOUT(MAIN-25Q/29Q)
PCB LAYOUT(SUB-25Q/29Q)
PCB LAYOUT(PIP-25Q/29Q)
9. OPTION LIST
1. CPT OPTION
NO 29FLAT LG 29NOR OEC 29NOR LG 25FLAT LG 25FLAT SS
V901 A68QCU759 A68KTB359 A68QBC230 A59QDC280 A59QDF981
L401 KLN5142A KLN5142A KLN5142A KLN-5168 KLN-5168
C415 1.6KV,3300 1.6KV,4700 1.6KV,4700 1.6KV,4700 1.6KV,3300
C405 200V,624 200V,624 200V,514 200V,624 200V,444
R366 1/2W,1.5 1/2W,1.5 1/2W,1.8 1/2W,1.8 1/2W,1.5
R367 1/2W,1.5 1/2W,1.5 1/2W,1.8 1/2W,1.5 1/2W,1.5
R368 2W,22 2W,12 2W,12 2W,22 2W,12
R810 7,270V 7,270V 7,270V 4.5,270V 4.5,270V
R910 1W,3.3 1W,2.7 1W,2.7 1W,2.7 1W,2.7
A002 PTQZ01 PTQZ01 PTQZ01 PRQZ04 PRQZ04
M663 300724025C 300724025C 300724025C 300724050A 300724050A
MV02 300524025H 300524025H 300524025H 300524040F 300524040F
R473 20K 24K 22K 24K 24K F.S
2. VM OPTION
PCB PARTS NO VM W/O VM REMARK
PTQM02 DB01,DB02 1N4148
PTQM02 RB01 4.7K
PTQM02 RB15 1K
PTQM02 RB16 2.2K
PTQM02 PB11 4P PULG
PTQZ01-1 B ALL PARTS DELITE
PTQZ01-1 EL24,EL25 EYELET
3. COMB-FILTER OPTION
PCB PART NO COMB-FIL W/O -COMB REMARK
PTQM02 LD01,LD02 10UH AX
PTQM02 JD01 JP WIRE with S-VHS
PTQM02 JD02 JP WIRE
PTQM02 JD03,JD04,JD05,JD06,JD0 JP WIRE
PTQM02 JD08,JD09,JD10,JD11,JD1 JP WIRE
PTQM02 JD13 JP WIRE
PTQM02 CD01,CD02 104AX
PTQM02 CD03 100U,10V
PTQM02 CD04,CD11 104M
PTQM02 CD05 103M with S-VHS
PTQM02 CD07 103AX
PTQM02 RD01,RD11,RD12 1K
PTQM02 RD02,RD03,RD04,RD21,RD 4.7K
PTQM02 RD30,RD31 4.7K
PTQM02 RD06 47K
PTQM02 RD09 390
PTQM02 RD10 200
PTQM02 RD20 100
PTQM02 QD01 TDA9181P
PTQM02 QD04 C3198Y
4. HEADPHONE OPTION
PCB PARTS NO HEADPHONS W/O HP REMARK
PTQM02 J661,J662 JP WIRE
PTQM02 C665,C667 47U,25V
PTQM02 R666,R668 330 1/2R
PTQM02 PV02-B 7P 5267
PTQZ01-2 J651 JP WIRE
PTQZ01-2 M663 7P HARNESS
PTQM02 P663 7P PLUG
PTQZ01-2 P651 HSJ2000-01-010
5. PIP OPTION
PCB PARTS NO 2TUNER PIP A/V PIP W/O PIP REMARK
PTQM02 JP01,JP02,JP03,JP04 JP WIRE
PTQM02 JP05,JP06,JP07,JP08 JP WIRE
PTQM02 JP09,JP10,JP12,JP14 JP WIRE JP WIRE
PTQM02 PN11,PN12 BMW250-10 BMW250-10
PTQM02 PT31 7P PLUG
PTQM02 RP20,RP21 1K
PTQM02 LS03 RES 470 RES 470
PTQM02 RS04 1K 1K
PTQM02 RS05 470K 470K
PTQM02 RS06 470 470
PTQM02 DB01 1N4148 1N4148
PTQM02 CS03 47 AX 47 AX
PTQM02 CS04 4.7U 4.7U
PTQM02 QS01 C3198Y C3198Y
PTQM02 H001 TECC1040SG32J TECC1040PG32K TECC1040PG32K
E001 PH01 SN 300121414A
PTQZ02 ASS'Y PTQZ02 ASS'Y PTQZ02 ASS'Y
PTQZ03 ASS'Y PTQZ03 ASS'Y
6. RATING OPTION
PCB PARTS NO CUL(USA) IEC65 NORMAL(AVR) TIWAN REMARK
PTQM02 P801 YW396-03AV 2P,L 5289-2A 2P,L 5289-2A YW396-03AV
PTQM02 P881 KKP-10W/B-286B EP KKP-419C/B286 KKP-419C/B286 KKP-10/B-286B
PTQM02 SA01
PTQM02 S801 S/W,JPP-1197B-3 S/W,JPP-1197B-3 S/W,JPP-1197B-3 S/W,JPP-1197B-3
PTQM02 RA35 1.5K 1.5K 1.5K
PTQM02 RA36
PTQM02 RA37 8.2K
PTQM02 J801
PTQM02 J802,J803 JP JP
PTQM02 ES71,ES72,ES73,ES74 EYELET EYELET
PTQM02 ES75,ES76 EYELET EYELET
PTQM02 C802 275V 0.33MF 275V 0.33MF
PTQM02 L802 DMF-2814B DMF-2814B
ELECTRICAL PARTS LIST
P / No. ITEM No. ITEM NAME P / No. ITEM No. ITEM NAME
A001 150012574 "MAIN, NTSC PTQM02 C29GQ2FAF" D810 11115024T "SILICON DIODE, 1N4148"
A001A 150012575 "MAIN, NTSC PTQM02(SMD) C29GQ2FAF" D811 11115024T "SILICON DIODE, 1N4148"
Q002 11118499T "IC,EEPROM-8K AT24C08AN-10SI-2.7SMD" D823 11115014T "SILICON DIODE, RGP10J"
Q501 11118532T "IC.UOC TDA9575H/N1/AI,557(OTP) TRI" D826 11115014T "SILICON DIODE, RGP10J"
A001B 150012576 "MAIN, NTSC PTQM02 C29GQ2FAF" D833 11115024T "SILICON DIODE, 1N4148"
AB01U 150111166 "MAIN, AUTO PTQM02 C29GQ2FAF" DB01 11115024T "SILICON DIODE, 1N4148"
AB01A 150211328 "MAIN, AXIAL PTQM02 C29GQ2FAF" DB02 11115024T "SILICON DIODE, 1N4148"
C001 12497103T "CERAMIC CAP, F 25V 0.01MF Z AXIAL" DS01 11115626T "ZD, MTZJ5.6B (VZ5.45-5.73) 0.5W"
C002 12474102T "CERAMIC CAP, B 50V 1000PF K AXIAL" DV01 11115626T "ZD, MTZJ5.6B (VZ5.45-5.73) 0.5W"
C003 12497103T "CERAMIC CAP, F 25V 0.01MF Z AXIAL" DV11 11115638T "ZD, MTZJ8.2B (VZ7.78-8.19) 0.5W"
C007 12497103T "CERAMIC CAP, F 25V 0.01MF Z AXIAL" DV12 11115638T "ZD, MTZJ8.2B (VZ7.78-8.19) 0.5W"
C008 12497103T "CERAMIC CAP, F 25V 0.01MF Z AXIAL" DV13 11115638T "ZD, MTZJ8.2B (VZ7.78-8.19) 0.5W"
C036 12474102T "CERAMIC CAP, B 50V 1000PF K AXIAL" DV21 11115638T "ZD, MTZJ8.2B (VZ7.78-8.19) 0.5W"
C104 12497103T "CERAMIC CAP, F 25V 0.01MF Z AXIAL" EL05 11061303 "EYELET, HTR 2.80*2.9 SNI"
C121 12474331T "CERAMIC CAP, B 50V 330PF K AXIAL" EL06 11061303 "EYELET, HTR 2.80*2.9 SNI"
C161 12497103T "CERAMIC CAP, F 25V 0.01MF Z AXIAL" EL07 11061303 "EYELET, HTR 2.80*2.9 SNI"
C163 12497103T "CERAMIC CAP, F 25V 0.01MF Z AXIAL" EL08 11061303 "EYELET, HTR 2.80*2.9 SNI"
C165 12497103T "CERAMIC CAP, F 25V 0.01MF Z AXIAL" EL09 11061303 "EYELET, HTR 2.80*2.9 SNI"
C166 12497103T "CERAMIC CAP, F 25V 0.01MF Z AXIAL" EL10 11061303 "EYELET, HTR 2.80*2.9 SNI"
C167 11183004 "PLATING WIRE, 0.6MM" EL11 11061303 "EYELET, HTR 2.80*2.9 SNI"
C304 12477104T "CERAMIC CAP, F 50V 0.1MF Z AXIAL" EL12 11061303 "EYELET, HTR 2.80*2.9 SNI"
C306 12497103T "CERAMIC CAP, F 25V 0.01MF Z AXIAL" EL13 11061303 "EYELET, HTR 2.80*2.9 SNI"
C361 12474222T "CERAMIC CAP, B 50V 2200PF K AXIAL" EL14 11061303 "EYELET, HTR 2.80*2.9 SNI"
C551 12497223T "CERAMIC CAP, F 25V 0.022MF Z AXIAL" EL17 11061303 "EYELET, HTR 2.80*2.9 SNI"
C552 12477104T "CERAMIC CAP, F 50V 0.1MF Z AXIAL" EL18 11061303 "EYELET, HTR 2.80*2.9 SNI"
C553 12497223T "CERAMIC CAP, F 25V 0.022MF Z AXIAL" EL19 11061303 "EYELET, HTR 2.80*2.9 SNI"
C555 12474101T "CERAMIC CAP, B 50V 100PF K AXIAL" EL20 11061303 "EYELET, HTR 2.80*2.9 SNI"
C582 12497103T "CERAMIC CAP, F 25V 0.01MF Z AXIAL" EL22 11061303 "EYELET, HTR 2.80*2.9 SNI"
C583 12497103T "CERAMIC CAP, F 25V 0.01MF Z AXIAL" EL23 11061303 "EYELET, HTR 2.80*2.9 SNI"
C657 12477104T "CERAMIC CAP, F 50V 0.1MF Z AXIAL" EL24 11061303 "EYELET, HTR 2.80*2.9 SNI"
CD01 12477104T "CERAMIC CAP, F 50V 0.1MF Z AXIAL" EL25 11061303 "EYELET, HTR 2.80*2.9 SNI"
CD02 12477104T "CERAMIC CAP, F 50V 0.1MF Z AXIAL" EL26 11061303 "EYELET, HTR 2.80*2.9 SNI"
CD07 12497103T "CERAMIC CAP, F 25V 0.01MF Z AXIAL" EL27 11061303 "EYELET, HTR 2.80*2.9 SNI"
CN01 12474101T "CERAMIC CAP, B 50V 100PF K AXIAL" EL28 11061303 "EYELET, HTR 2.80*2.9 SNI"
CN02 12474101T "CERAMIC CAP, B 50V 100PF K AXIAL" ES01 11061202 "EYELET, HTR 2.11*2.8 SNI"
CN06 12474332T "CERAMIC CAP, B 50V 3300PF K AXIAL" ES02 11061202 "EYELET, HTR 2.11*2.8 SNI"
CN07 12474332T "CERAMIC CAP, B 50V 3300PF K AXIAL" ES03 11061202 "EYELET, HTR 2.11*2.8 SNI"
CN12 12497103T "CERAMIC CAP, F 25V 0.01MF Z AXIAL" ES04 11061202 "EYELET, HTR 2.11*2.8 SNI"
CN16 12497103T "CERAMIC CAP, F 25V 0.01MF Z AXIAL" ES05 11061202 "EYELET, HTR 2.11*2.8 SNI"
CN24 12497103T "CERAMIC CAP, F 25V 0.01MF Z AXIAL" ES06 11061202 "EYELET, HTR 2.11*2.8 SNI"
CN26 12473470T "CERAMIC CAP, SL 50V 47PF J AXIAL" ES07 11061202 "EYELET, HTR 2.11*2.8 SNI"
CN27 12497103T "CERAMIC CAP, F 25V 0.01MF Z AXIAL" ES08 11061202 "EYELET, HTR 2.11*2.8 SNI"
CN28 12497103T "CERAMIC CAP, F 25V 0.01MF Z AXIAL" ES09 11061202 "EYELET, HTR 2.11*2.8 SNI"
CS03 12473470T "CERAMIC CAP, SL 50V 47PF J AXIAL" ES10 11061202 "EYELET, HTR 2.11*2.8 SNI"
D001 11115621T "ZD, MTZJ4.7C (VZ4.68-4.93) 0.5W" ES14 11061202 "EYELET, HTR 2.11*2.8 SNI"
D103 11115686T "ZD, MTZJ33B (VZ30.32-31.88) 0.5W" ES15 11061202 "EYELET, HTR 2.11*2.8 SNI"
D116 11115024T "SILICON DIODE, 1N4148" ES16 11061202 "EYELET, HTR 2.11*2.8 SNI"
D351 11115656T "ZD, MTZJ15A (VZ13.44-14.13) 0.5W" ES17 11061202 "EYELET, HTR 2.11*2.8 SNI"
D352 11115663T "ZD, MTZJ18B (VZ16.82-17.70) 0.5W" ES18 11061202 "EYELET, HTR 2.11*2.8 SNI"
D353 11115678T "ZD, MTZJ27B (VZ24.97-26.26) 0.5W" ES19 11061202 "EYELET, HTR 2.11*2.8 SNI"
D354 11115678T "ZD, MTZJ27B (VZ24.97-26.26) 0.5W" ES20 11061202 "EYELET, HTR 2.11*2.8 SNI"
D381 11115458T "DIODE, FAST RECOVERY UF-156" ES21 11061202 "EYELET, HTR 2.11*2.8 SNI"
D382 11115014T "SILICON DIODE, RGP10J" ES22 11061202 "EYELET, HTR 2.11*2.8 SNI"
D405 11115444T "DIODE, RGP15J" ES23 11061202 "EYELET, HTR 2.11*2.8 SNI"
D410 11115638T "ZD, MTZJ8.2B (VZ7.78-8.19) 0.5W" ES26 11061202 "EYELET, HTR 2.11*2.8 SNI"
D433 11115638T "ZD, MTZJ8.2B (VZ7.78-8.19) 0.5W" ES27 11061202 "EYELET, HTR 2.11*2.8 SNI"
D441 11115014T "SILICON DIODE, RGP10J" ES28 11061202 "EYELET, HTR 2.11*2.8 SNI"
D471 11115003T "SILICON DIODE, 1N4004" ES29 11061202 "EYELET, HTR 2.11*2.8 SNI"
D472 11115651T "ZD, MTZJ12B (VZ11.44-12.03) 0.5W" ES30 11061202 "EYELET, HTR 2.11*2.8 SNI"
D481 11115024T "SILICON DIODE, 1N4148" ES31 11061202 "EYELET, HTR 2.11*2.8 SNI"
D482 11115003T "SILICON DIODE, 1N4004" ES32 11061202 "EYELET, HTR 2.11*2.8 SNI"
D483 11115638T "ZD, MTZJ8.2B (VZ7.78-8.19) 0.5W" ES33 11061202 "EYELET, HTR 2.11*2.8 SNI"
D501 11115024T "SILICON DIODE, 1N4148" ES34 11061202 "EYELET, HTR 2.11*2.8 SNI"
D502 11115024T "SILICON DIODE, 1N4148" ES35 11061202 "EYELET, HTR 2.11*2.8 SNI"
D503 11115024T "SILICON DIODE, 1N4148" ES36 11061202 "EYELET, HTR 2.11*2.8 SNI"
D651 11115617T "ZD, MTZJ4.3B (VZ4.17-4.43) 0.5W" ES37 11061202 "EYELET, HTR 2.11*2.8 SNI"
D802 11115542T "DIODE, FAST RECOVERY EU1ZV1" ES38 11061202 "EYELET, HTR 2.11*2.8 SNI"
D808 11115542T "DIODE, FAST RECOVERY EU1ZV1" ES39 11061202 "EYELET, HTR 2.11*2.8 SNI"
D809 11115024T "SILICON DIODE, 1N4148" ES47 11061202 "EYELET, HTR 2.11*2.8 SNI"
ELECTRICAL PARTS LIST
P / No. ITEM No. ITEM NAME P / No. ITEM No. ITEM NAME
ES48 11061202 "EYELET, HTR 2.11*2.8 SNI" J085 11183004 "PLATING WIRE, 0.6MM"
ES49 11061202 "EYELET, HTR 2.11*2.8 SNI" J086 11183004 "PLATING WIRE, 0.6MM"
ES50 11061202 "EYELET, HTR 2.11*2.8 SNI" J087 11183004 "PLATING WIRE, 0.6MM"
ES55 11061202 "EYELET, HTR 2.11*2.8 SNI" J088 11183004 "PLATING WIRE, 0.6MM"
ES56 11061202 "EYELET, HTR 2.11*2.8 SNI" J092 11183004 "PLATING WIRE, 0.6MM"
ES57 11061202 "EYELET, HTR 2.11*2.8 SNI" J093 11183004 "PLATING WIRE, 0.6MM"
ES67 11061202 "EYELET, HTR 2.11*2.8 SNI" J094 11183004 "PLATING WIRE, 0.6MM"
ES68 11061202 "EYELET, HTR 2.11*2.8 SNI" J095 11183004 "PLATING WIRE, 0.6MM"
ES69 11061202 "EYELET, HTR 2.11*2.8 SNI" J097 11183004 "PLATING WIRE, 0.6MM"
ES70 11061202 "EYELET, HTR 2.11*2.8 SNI" J098 11183004 "PLATING WIRE, 0.6MM"
ES77 11061202 "EYELET, HTR 2.11*2.8 SNI" J099 11183004 "PLATING WIRE, 0.6MM"
ES78 11061202 "EYELET, HTR 2.11*2.8 SNI" J100 11183004 "PLATING WIRE, 0.6MM"
J002 11183004 "PLATING WIRE, 0.6MM" J101 11183004 "PLATING WIRE, 0.6MM"
J003 11183004 "PLATING WIRE, 0.6MM" J102 11183004 "PLATING WIRE, 0.6MM"
J004 11183004 "PLATING WIRE, 0.6MM" J103 11183004 "PLATING WIRE, 0.6MM"
J005 11183004 "PLATING WIRE, 0.6MM" J105 11183004 "PLATING WIRE, 0.6MM"
J010 11183004 "PLATING WIRE, 0.6MM" J106 11183004 "PLATING WIRE, 0.6MM"
J011 11183004 "PLATING WIRE, 0.6MM" J107 11183004 "PLATING WIRE, 0.6MM"
J012 11183004 "PLATING WIRE, 0.6MM" J109 11183004 "PLATING WIRE, 0.6MM"
J013 11183004 "PLATING WIRE, 0.6MM" J110 11183004 "PLATING WIRE, 0.6MM"
J017 11183004 "PLATING WIRE, 0.6MM" J111 11183004 "PLATING WIRE, 0.6MM"
J018 11183004 "PLATING WIRE, 0.6MM" J112 11183004 "PLATING WIRE, 0.6MM"
J019 11183004 "PLATING WIRE, 0.6MM" J115 11183004 "PLATING WIRE, 0.6MM"
J020 11183004 "PLATING WIRE, 0.6MM" J118 11183004 "PLATING WIRE, 0.6MM"
J023 11183004 "PLATING WIRE, 0.6MM" J119 11183004 "PLATING WIRE, 0.6MM"
J025 11183004 "PLATING WIRE, 0.6MM" J120 11183004 "PLATING WIRE, 0.6MM"
J026 11183004 "PLATING WIRE, 0.6MM" J121 11183004 "PLATING WIRE, 0.6MM"
J027 11183004 "PLATING WIRE, 0.6MM" J122 11183004 "PLATING WIRE, 0.6MM"
J028 11183004 "PLATING WIRE, 0.6MM" J123 11183004 "PLATING WIRE, 0.6MM"
J029 11183004 "PLATING WIRE, 0.6MM" J124 11183004 "PLATING WIRE, 0.6MM"
J031 11183004 "PLATING WIRE, 0.6MM" J125 11183004 "PLATING WIRE, 0.6MM"
J032 11183004 "PLATING WIRE, 0.6MM" J126 11183004 "PLATING WIRE, 0.6MM"
J033 11183004 "PLATING WIRE, 0.6MM" J127 11183004 "PLATING WIRE, 0.6MM"
J034 11183004 "PLATING WIRE, 0.6MM" J128 11183004 "PLATING WIRE, 0.6MM"
J036 11183004 "PLATING WIRE, 0.6MM" J129 11183004 "PLATING WIRE, 0.6MM"
J037 11183004 "PLATING WIRE, 0.6MM" J130 11183004 "PLATING WIRE, 0.6MM"
J038 11183004 "PLATING WIRE, 0.6MM" J131 11183004 "PLATING WIRE, 0.6MM"
J040 11183004 "PLATING WIRE, 0.6MM" J132 11183004 "PLATING WIRE, 0.6MM"
J041 11183004 "PLATING WIRE, 0.6MM" J133 11183004 "PLATING WIRE, 0.6MM"
J042 11183004 "PLATING WIRE, 0.6MM" J134 11183004 "PLATING WIRE, 0.6MM"
J044 11183004 "PLATING WIRE, 0.6MM" J135 11183004 "PLA