Text preview for : lg_pc81a_chassis_tv_sm.pdf part of LG lg pc81a chassis tv sm LG TV lg_pc81a_chassis_tv_sm.pdf



Back to : lg_pc81a_chassis_tv_sm.pd | Home

NO RASTER
CHECK +B
at D821 cathode
Normal Abnormal


Check Open
Is the voltage at pin37
FUSE of AC line
& 12 of IC501 8V?
No
OK Check /replace
Yes Check the in/out Fuse,DB801,IC801
of IC841
Check pin40 Check the voltage
No of C805
of IC501(H-out) 0V
No
Check &replace
Yes 254~380V Check /replace
IC501
Check u-COM DB801,R851
Check Q402 pin1 low?
Check the voltage
No collector waveform of pin9
Check &replace No
Yes
IC501
Check /replace
Check T401 Q802 Check /replace
& each pin voltage
D804,IC801,R801,802
No
Check &replace Yes
IC501
Is the voltage at pin37
& 12 of IC501 8V?




www.rtv-horvat-dj.hr
NO TELETEXT

Check the
voltage of IC701 pin19


OK 0V


Check
Check 5V Supply
CVBS signal
Line of IC701
at IC701 pin9


OK

OK Check
IC701& IICBus Line

Not OK

Check / Replace
Q701, X701, & IC501




NO RASTER / SOUND OK

Check the
Heater voltage of CPT
(6 6.5Vrms)

OK Not OK


Check Check Check the
HV, Screen voltage of Ik Current of Heater pulse of FBT
CPT IC501, pin18 T701

Not OK OK Not OK OK Not OK


Check/Replace Check
Check
CPT Board FR704, FR901
FBT T701
Components P302, & P903




Check
Check
IC501, ZD904
FBT T701
P501, & P902




www.rtv-horvat-dj.hr
NO SOUND / PICTURE OK

Check the voltage of SMPS
25V at pin5 of IC601

Abnormal Normal(20~25V)



Check/Replace of Check the voltage
FR824,D824,FR601 swing of pin2 of IC501



Check demodulated
signal of pin15 of IC501



Check demodulated
Check/Replace IC501 of input pin of IC601




Check/Replace IC01
Check/Replace IC601



NO PICTURE / NO SONUD
Is any OSD displayed?

No
Yes
OK Check IC01 pin30,31,32 Check receiving system in MENU
(R,G,B) & excute Auto-program.
Not OK
Check IC01 pin9,10 Does the Auto-program Yes
(V-Sync, H-Sync) operate properly.
Check IC01 pin36,37
(XLC, EXLC) Not OK
& IC01
Store in manual-program MENU

Check Not OK Check 5V, 33V & IIC Bus Line
5V, 33V & of TUNER
IIC Bus Line
OK
Go to
Not OK Is the CVBS signal OK.
Check / Replace NO SOUND /
( IC501 pin6 )
TUNER, IC501 PICTURE OK
OK
Check Not OK
Check R,G,B signal
CVBS singal Line at IC501 pin19,20,21
& IC501
OK
Check / Replace
CPT Board component




www.rtv-horvat-dj.hr
ADJUSTMENT
!"Safety Precautions
1. It is safe to adjust after using insulating transformer
between the power supply line and chassis input to Model CK- CL-
prevent the risk of electric shock and protect the System PAL/SECAM-B/G,D/K PAL/SECAM-B/G,LL'
instrument.
2. Never disconnect leads while the TV receiver is on. Tuner P/N 6700VPF005B 6700VPF005A
3. Don't short any portion of circuits while power is on.
Marker LGEC LGEC
4. The adjustment must be done by the correct appliances.
But this is changeable in view of productivity. AGC Voltage 2.3! 0.1V 2.3! 0.1V
5. Unless otherwise noted, set the line voltage to
230Vac!10%, 50/60Hz. Model CB- CI-

!"Test Equipment required System PAL-B/G PAL-I/I
1. Multimeter (volt meter)
Tuner P/N 6700VPF005B 6700VPF005A
2. Oscilloscope
Marker LGEC LGEC

AGC Voltage 2.3! 0.1V 2.1! 0.1V
" RF AGC (Automatic Gain Control) Adjustment

Test Point : AGC TP (J05) " Screen Voltage Adjustment
Adjust : Remote Control
Test Point : RK (Red Cathode of CPT Board)
Adjust : Screen Control of FBT
The RF AGC was aligned at the time of manufacture for
optimum performance over a wide range conditions.
Readjustment of RF AGC should not be necessary unless 1) Press TV/AV Key to get AV Mode.
unusual local conditions exist, such as ; 2) Connect the probe of oscilloscope to the RK (Red
Cathode) of CPT Board.
1) Channel interference in a CATV system. 3) Adjust Screen Volume of FBT so that the waveform is the
2) Picture bending and/or color beats, which are unusually same as below figure.
due to excessive RF signal input when the receiver is too
close to a transmitting tower or when the receiver is V
connected to an antenna distribution system where the RF 200
signal has been amplified. In this case, the input signal
should be attenuated (with pad or filter) to a satisfactory 150 Black-
level. Level(DC)
3) Picture noise caused by "broadcast noise" or weak signal. 100
If the broadcast is "clean" and the RF signal is at least 150V
50
1mV (60dBu), the picture will be noise free in any area.
GND
Adjusting RF AGC to one end of rotation will usually cause a 50V/DIV. 0.5usec.
relatively poor signal to noise ratio; The waveform of AV Mode
Adjusting to the other end of rotation will usually cause a
degradation of over load capabilities resulting in color beats or
adjacent channel interference.
" Focus Adjustment
Adjustment NOTE: This adjustment should be performed after warming
1. Connect RF signal (65dB!0.2dB) and turn on the TV. up for 10 minutes.
# Standard adjustment Channel
- EU 05 Ch. (frf = 175.25MHz) : CK, CL, CB Test Point : Observing Display
- EU 41 Ch. (frf = 631.25MHz) : CI Adjust : Focus control of FBT
2. Press OK buttons on TV set and Remote Controller at the
same time to get into SVC-0 mode. 1) Tune the TV set to receive an inactive channel station.
3. Press Channel UP/DOWN button on the Remote Controller 2) Adjust the Focus control of FBT for best overall focus.
several times to find AGC??.
4. Press Volume UP/DOWN button until the AGC Voltage is
the same as the Table below.
5. Press OK(!) button to memorize the data.



- 1 -




www.rtv-horvat-dj.hr
" Deflection Data Adjustment (Line SVC-1) " White Balance Adjustment.(LINE SVC-0)

NOTE: To enter SVC mode, press "OK" buttons on both TV set NOTE : This adjustment should be performed after screen voltage
and the Remote control at the same time. adjustment.

1. Preparation for Deflection Adjustment 1) Tune the TV set to receive an 100% white pattern.
1) At SVC mode, press the Yellow colored button. 2) Press OK(!) buttons on TV set and remote controller at the
If the Remote Controller doesn't have the Yellow button, you same time to get into SVC mode.
should use a Service Remote Control (105-201G) and press 3) Press PSM(RED) button on remote controller. (Standard
SVC button. picture)
And then, deflection data adjustment OSD (SVC1 mode) will 4) Press Channel UP/DOWN button for desirous function
be displayed. adjustment.
2) Press Channel UP/DOWN button for desirous function 5) Adjust VOL+ or VOL- button for GG031.
Adjustment. 6) Adjust VOL+ or VOL-button in each status of "Rg--"/"Bg--" for
3) Press Volume UP/DOWN button to adjust the data. X=293!8, Y=295!8 with color analyzer.
7) Press OK(!) button to memorize the adjustment data.

2. Deflection Adjustment Procedure Status Adjustment Range Initial Data Remark
1) Vertical Adjustment
RG R-Drive 0~63 28
Slect VS and adjust until the mechanical center of CPT and
that of screen coincides and select VA and adjust to coincide GG G-Drive 0~63 31
the inner circle of screen with outer frame of CPT.
BG B-Drive 0~63 25
2) Horizontal Adjustment
Select HS and adjust until the mechanical center of CPT and
that of screen coincides.

3) Vertical S Correction Adjustment
Select SC and adjust until top-bottom side pincushion are
equal.

4) Press OK(!) button to memorize the data.


3. Deflection Initial Setup Data

Status Default 21" SEB 20" SEB

VL 38 38 38

VS 23 23 19

VA 40 40 36

HS 30 30 32

SC 11 11 11




- 2 -




www.rtv-horvat-dj.hr
" OPTION Adjustment (SVC MODE:OPTION-1,
OPTION-2)

NOTE: When the EEPROM has been replaced, the Option data
should be restored as the function of individual system OPTION Data SYSTEM SCART EYE UBB AV2
and specification.
20 01 0 1 0 0
1) Press OK buttons on both TV set and Remote Controller at 21 01 0 1 0 1
the same time to get into SVC mode. 22 01 0 1 1 0
2) Press the Yellow button several times to find OPTION-1 or
23 01 0 1 1 1
OPTION-2.
3) Input the correspond OPTION data referring to Table below 24 01 1 0 0 0
with the numeric buttons 0~9. 25 01 1 0 0 1
26 01 1 0 1 0
Table 1. OPTION 1 Function
27 01 1 0 1 1
Option Code Function Remark
28 01 1 1 0 0
00 B+L (BG+LL') CL-Model
29 01 1 1 0 1
01 B+D (BG+DK) CK-Model
SYSTEM 30 01 1 1 1 0
10 BG CB-Model
31 01 1 1 1 1
11 II CI-Model
32 10 0 0 0 0
0 W/O HOTEL for BUYER'S
HOTEL 33 10 0 0 0 1
1 For HOTEL request
34 10 0 0 1 0
0 ACMS Off
ACMS 35 10 0 0 1 1
1 ACMS On
36 10 0 1 0 0
0 TOP Off
TOP 37 10 0 1 0 1
1 TOP On
38 10 0 1 1 0
0 AV 2 Off
AV 2 39 10 0 1 1 1
1 AV 2 On
40 10 1 0 0 0
41 10 1 0 0 1
Table 2. Specifications for OPTION-1 data 42 10 1 0 1 0
OPTION Data SYSTEM HOTEL ACMS TOP AV 2 43 10 1 0 1 1
0 00 0 0 0 0 44 10 1 1 0 0
1 00 0 0 0 1 45 10 1 1 0 1
2 00 0 0 1 0 46 10 1 1 1 0
3 00 0 0 1 1 47 10 1 1 1 1
4 00 0 1 0 0 48 11 0 0 0 0
5 00 0 1 0 1 49 11 0 0 0 1
6 00 0 1 1 0 50 11 0 0 1 0
7 00 0 1 1 1 51 11 0 0 1 1
8 00 1 0 0 0 52 11 0 1 0 0
9 00 1 0 0 1 53 11 0 1 0 1
10 00 1 0 1 0 54 11 0 1 1 0
11 00 1 0 1 1 55 11 0 1 1 1
12 00 1 1 0 0 56 11 1 0 0 0
13 00 1 1 0 1 57 11 1 0 0 1
14 00 1 1 1 0 58 11 1 0 1 0
15 00 1 1 1 1 59 11 1 0 1 1
16 01 0 0 0 0 60 11 1 1 0 0
17 01 0 0 0 1 61 11 1 1 0 1
18 01 0 0 1 0 62 11 1 1 1 0
19 01 0 0 1 1 63 11 1 1 1 1


- 3 -




www.rtv-horvat-dj.hr
Table 3. OPTION 2 Function
Option Code Function Remark
0 OSD Lang. (14)
Language
1 OSD Lang. (5)
D/K 0 D/K NICAM Off STEREO Option
NICAM 1 D/K NICAM System
0 W/O GAME
GAME
1 With GAME function
0 EYE Off
EYE
1 EYE On
0 LGEC TUNER
TUNER1
1 PHILIPS TUNER




Table 4. Specifications for OPTION-2 data
OPTION Data Lang. D/K NICAM GAME EYE TUNER1
0 0 0 0 0 0
1 0 0 0 0 1
2 0 0 0 1 0
3 0 0 0 1 1
4 0 0 1 0 0
5 0 0 1 0 1
6 0 0 1 1 0
7 0 0 1 1 1
8 0 1 0 0 0
9 0 1 0 0 1
10 0 1 0 1 0
11 0 1 0 1 1
12 0 1 1 0 0
13 0 1 1 0 1
14 0 1 1 1 0
15 0 1 1 1 1
16 1 0 0 0 0
17 1 0 0 0 1
18 1 0 0 1 0
19 1 0 0 1 1
20 1 0 1 0 0
21 1 0 1 0 1
22 1 0 1 1 0
23 1 0 1 1 1
24 1 1 0 0 0
25 1 1 0 0 1
26 1 1 0 1 0
27 1 1 0 1 1
28 1 1 1 0 0
29 1 1 1 0 1
30 1 1 1 1 0
31 1 1 1 1 1

- 4 -




www.rtv-horvat-dj.hr
PURITY & CONVERGENCE ADJUSTMENT

Caution:
Convergence and Purity have been factory aligned. Do not 5. Reconnect the internal degaussing coil.
attempt to tamper with these alignments.
However, the effects of adjacent receiver components, or 6. Position the beam bender locking rings at the 9 o'clock
replacement of picture tube or deflection yoke may require the position and the other three pairs of tabs (2,4 and 6 pole
need to readjust purity any convergence. magnets) at the 12 o'clock position.




DEFLECTION YOKE 6-POLE
PURITY &CONVERGENCE 6-POLE
MAGNETS
MAGNES PURITY MAGNET(2-POLE)
MAGNET ASSEMBLY


6-POLE

4-POLE
,,,,
,,,, ,
,,,, , ,
,,,,
,,,,
,,,,
,,,, ,
X-AXIS YOKE MAGNET
,,,,, ,,,,
,,,, , ,,,,,
,,,, , ,,,,
,,
,,,, , ,
,,,,
,, , POSITIONING
(L/R PURITY)
RUBBER
WEDGES PURITY MAGNET
4-POLE
GLASS CLOTH TAPE CONVERGENCE MAGNET ASSEMBLY
CONVERGENCE MAGNET ASSEMBLY




!"Purity Adjustment
This procedure DOES NOT apply to bonded yoke and picture 7. Perform the following steps, in the order given, to prepare the
tube assemblies. receiver for the purity adjustment procedure.
The instrument should be at room temperature (60 degrees F or
above) for six (6) hours and be operating at low beam current a. Face the receiver in the "magnetic north" direction.
(dark background) for approximately 20 to 30 minutes before
performing purity adjustments. b. Externally degauss the receiver screen with the television
power turned off.
CAUTION: Do not remove any trim magnets that may be
attached to the bell of the picture tube. c. Turn the television on for approximately 10 seconds to
perform internal degaussing and then turn the TV off.
1. Remove the AC power and disconnect the internal
degaussing coil. d. Unplug the internal degaussing coil. This allows the
thermistor to cool down while you are performing the purity
2. Remove the yoke from the neck of the picture tube. adjustment. DO NOT MOVE THE RECEIVER FROM ITS
"MAGNETIC NORTH" POSITION.
3. If the yoke has the tape version beam bender, remove it and
replace it with a adjustable type beam bender (follow the e. Turn the receiver on and obtain a red raster by increasing
instructions provided with the new beam bender) the red bias control (CW) and decreasing the bias controls
for the remaining two colors (CCW).
4. Replace the yoke on the picture tube neck, temporarily
remove the three (3) rubber wedges from the bell of the f. Attach two round magnets on the picture tube screen at 3
picture tube and then slide the yoke completely forward. o'clock and 9 o'clock positions, approximately one (1) inch
from the edge of the mask (use double-sided tape).




- 5 -




www.rtv-horvat-dj.hr
1.ADJUST YOKE Z-AXIS FIRST 2 .ADJUST BEAM BENDER 2 POLE
TO GET EQUAL BLUE MAGNET TO GET FOUR EQUAL
COLOR CIRCLES COLOR CIRCLES




MAGNETS




RED RED

8. Referring to above, perform the following two steps: 6. Reconnect the internal degaussing coil and apply AC power.
a. Adjust the yoke Z-axis to obtain equal blue circles.
b. Adjust the appropriate beam bender tabs to obtain correct 7. Turn the receiver on for 10 seconds to perform internal
purity (four equal circles). degaussing and then turn the receiver off again.

9. After correct purity is set, tighten the yoke clamp screw and 8. Unplug the internal degaussing-coil.
remove the two screen magnets.
9. Turn on the receiver, connect a signal generator to the VHF
10. Remove the AC power and rotate the receiver 180 degrees antenna terminal and apply a crosshatch signal.
(facing "magnetic south").
Caution: During the convergence adjustment procedure, be
11. Reconnect the internal degaussing coil. very careful not to disturb the purity adjustment tabs
are accidentally move, purity should be confirmed
12. Turn the receiver on for 10 seconds (make sure the receiver before proceeding with the convergence adjustments.
came on) to perform internal degaussing, and then turn the
receiver off. Note: Make sure the focus is set correctly on this instrument
before proceeding with the following adjustment.
13. Unplug the internal degaussing coil.
10. Converge the red and blue vertical lines to the green vertical
14. Turn on the receiver and check the purity by holding one (1) line at the center of the screen by performing the following
round magnet at the 3 o'clock and a second round magnet at steps (below TABLE).
9 o'clock position. If purity is not satisfactory, repeat steps 8 a. Carefully rotate both tabs of the 4-pole ring magnet
through 14. simultaneously in opposite directions from the 12 o'clock
position to converge the red and blue vertical lines.
15. Turn off the receiver and reconnect the internal degaussing b. Carefully rotate both tabs of the 6-pole ring magnet
coil. simultaneously in opposite directions form the 12 o'clock
position to converge the red and blue (now purple)
vertical lines with the green vertical line.
!"Convergence Adjustment
11. Converge the red and blue horizontal with the green line at
Caution: This procedure DOES NOT apply to bonded yoke and the center of the screen by performing the following steps.
picture tube assemblies. (below TABLE)
Do not use screen magnets during this adjustment a. Carefully rotate both tabs of the 4-pole ring magnet
procedure. Use of screen magnets will cause an simultaneously in the same direction (keep the spacing
incorrect display. between the two tabs the same) to converge the red and
blue horizontal lines.
1. Remove AC power and disconnect the internal degaussing b. Carefully rotate both tabs of the 6-pole ring magnet
coil. simultaneously in same direction (keep the spacing
between the two tabs the same) to converge the red and
2. Apply AC Power and set the brightness to the Picture Reset blue (now purple) horizontal lines with the green
condition. Set the Color control to minimum. horizontal line.
c. Secure the tabs previsouly adjusted by locking them in
3. Apply 8V to the pin42 of IC501. place with the locking tabs on the beam bender.

4. Adjust the Red, Green and Blue Bias controls to get a dim
white line.

5. Remove the AC power and 8V from the pin42 of IC501.



- 6 -




www.rtv-horvat-dj.hr
RING ROTATION DIRECTION MOVEMENT OF RED
PAIRS OF BOTH TABS AND BLUE BEAMS



B B
OPPOSITE OR
R R
4
POLE

SAME B R OR B R




B B
OPPOSITE OR
R R
6
POLE

SAME B R OR B R




UP/DOWN ROCKING OF THE YOKE LEFT/RIGHT ROCKING OF THE YOKE
UP/DOWN ROCKING OF THE YOKE
CAUSES OPPOSITE ROTATION OF RED CAUSES OPPOSITE SIZE CHANGE YOKE
LEET/RIGHT ROCKING OF THE OF THE
AND BLUEOPPOSITE ROTATION OF RED
CAUSES RASTERS RED AND BLUE RASTERS CHANGE OF
CAUSES OPPOSITE SIZE
AND BLUE RASTERS THE RED AND BLUE RASTERS

GREEN



GREEN
ADJUSTMENT
VIEWING ADJUSTMENT RED
AREA BLUE RED VIEWING
AREA
RED

GREEN RED BLUE

BLUE RED
GREEN



RED BLUE


TV
SCREEN

GREEN

12. While watching the 6 o'clock positions on the screen, rock the 17. Temporarily place a rubber wedge at the 5 o'clock and 7
front of the yoke in a vertical (up/down) direction to converge o'clock positions to hold the horizontal position of the yoke.
the red and blue vertical lines. (Fig upper left) 18. Check the 3 o'clock and 9 o'clock areas to confirm that the
13. Temporarily place a rubber wedge at the 12 o'clock position red and blue vertical lines are converged. If the lines are not
to hold the vertical position or the yoke. converged, slightly offset the horizontal tilt of the yoke (move
14. Check the 3 o'clock and 9 o'clock areas to confirm that the red the temporary rubber wedges if necessary) to equally
and blue horizontal lines are converged. balance the convergence error of the horizontal lines at 6
If the lines are not converged, slightly offset the vertical tilt of the o'clock and 12 o'clock and the vertical lines at 3 o'clock and 9
yoke (move the rubber wedge if necessary) to equally balance the o'clock.
convergence error of the horizontal lines at 3 o'clock and 9 o'clock 19. Using a round magnet confirm purity at the center, right and
and the vertical lines at 6 o'clock and 12 o'clock. left sides and corners. See Purity Adjustment Procedure.
15. Place a 1.5 inch piece of glass tape over the rubber foot at 20. Reconfirm convergence and apply a 1.5 inch piece of glass
the rear of the 12 o'clock wedge. tape over the rubber foot at the rear of the 5 o'clock and the 7
16. While watching the 6 o'clock and 12 o'clock areas of the o'clock wedges.
screen, rock the front of the yoke in the horizontal (left to
right) motion to converge the red and blue horizontal lines.
(Fig. upper right)


- 7 -




www.rtv-horvat-dj.hr
EXPLODED VIEW


943
400




913
102 510
150
153

511



P801
170

112

103




104
520


300




310




330 912

320
120




- 1 -




www.rtv-horvat-dj.hr
The components identified by mark are
critical for safety.
EXPLODED VIEW PARTS LIST Replace only with part number specified.



LOCA. NO PART NO DESCRIPTIONS

102 341-721E HOLDER,D-COIL(FOR SAFA,L=65)
103 341-721F HOLDER,D-COIL(FOR SAFA,L=130)
104 343-B52A SUPPORTER,PCB
112-C20S (NE) CPT SET A48ECR141X 20"
*112
112-C21G (NE) CPT SET A51EER131X29 21"
120 120-C93H SPEAKER,GENERAL 8 OHM 3/5W 80DB 90
150-D02M COIL,DEGAUSSING,CU 20"60T 15OHM
150
150-D02N COIL,DEGAUSSING,CU 21"60T 12OHM
170-A01J CPT EARTH 20"
170
170-A01K CPT EARTH 21"
3106V00050C CABINET UNIT SCK20F80
3106V00061M CABINET UNIT SCK21F80
300
3106V00050N CABINET UNIT SCL20F80
3106V00061L CABINET UNIT SCL21F80
5020V00179B BUTTON,CONTROL 20"
310
5020V00171B BUTTON,CONTROL 21"
320 320-062E SPRING,KNOB
5020V00180B BUTTON,POWER 20"
330
5020V00170B BUTTON,POWER 21"
3809V00073K BACK COVER ASSY 20"
400
3809V00089K BACK COVER ASSY 21"
6871VMM277B PWB ASSY,MAIN(PC-81A)7,21,04 *MUR-MK 20"
6871VMM277D PWB ASSY,MAIN(PC-81A)7,17,04 *MUR-MK 20"
6871VMM277A PWB ASSY,MAIN(PC-81A)7,21,04 *MUR-MK 21"
520 6871VMM277C PWB ASSY,MAIN(PC-81A)7,17,04 *MUR-MK 21"
6871VMM273A PWB ASSY,MAIN(PC-81A)7,01,04 *NE-FS 20"
6871VMM273C PWB ASSY,MAIN(PC-81A)7,01,04 *NE-FS 21"
6871VMM273B PWB ASSY,MAIN(PC-81A)7,05,04 *NE-FS 20"
912 1PRF0302816 SCREW,TAP D3 L12
332-057B SCREW ASSY,HEXAGON HEAD 20"
913
332-057J SCREW ASSY,HEXAGON HEAD 21"
943 1PTF0403116 SCREW,TRUSS HEAD D4 L16
P801 174-009E CORD,POWER(W/HOLD,HOUSING,L=200,4.0


ADDRESS The parts which are marked with " *" are
Local parts.
LG Electronics North of England LTD.
BRITLEY ROAD, WASHINGTON
TYNE & WEAR NE38 9DE
UNITED KINGDOM



DEPARTMENT

LEGNE CTV SPARE PARTS DEPT.
TEL : (44-191) 418-3355
FAX : (44-191) 418-3351

We are supposed to supply the local parts for CTV spares to you from U.K.
In case of the local parts marked with "NE" on your SERVICE MANUAL,
please place an order to the above address in U.K.




- 2 -




www.rtv-horvat-dj.hr
The components identified by mark is
critical for safety.
Replace only with part number specified.
REPLACEMENT PARTS LIST
LOCA. NO PART NO DESCRIPTION LOCA. NO PART NO DESCRIPTION

IC DIODE
IC01 0ISO881819A IC,LG8818-19A(CXP86441-533S) 52SD
DB801 0DD260000BD DIODE,BRIDGE D2SBA60
IC02 0IAL241600B IC,AT24C16-10PC 8D EEPROM 16K
D101 0DD414809ED DIODE,DS4148
IC03 0ISS754200A IC,KA7542Z RESET TO92 TP 4.2V
D111 0DD859009AA DIODE,MA859
IC201 0IHA405200A IC,CD4052B 16P DIP DIFF-4-CH MUX
D112 0DD859009AA DIODE,MA859
IC301 0IPH835150A IC,TDA8351/N5 9P,SIP BK V/OUT(W/O
D301 0DD414809ED DIODE,DS4148
IC501 0IPH884212A IC,TDA8842(S1)/N2 56P,SDIP BK MUL
D402 0DD150009CA DIODE,RGP15J
IC601 0ISG200600A IC,TDA2006,SOUND
D403 0DD414809ED DIODE,DS4148
IC603 0ISA701600A IC,LA7016 8S ANALOG S/W
D501 0DD414809ED DIODE,DS4148
IC604 0ITF448800A IC,U4488B 16DIP BK SIF+AM DEMODUL
D502 0DD414809ED DIODE,DS4148
IC701 0IPH528100H IC,SAA5281ZP/H 52SDIP BK TXT DECO
D503 0DD414809ED DIODE,DS4148
IC801 0ISK570700A IC,STR/S5707(LF.953) 9P SMPS-CNTR
D504 0DD414809ED DIODE,DS4148
IC802 0ISH123200B IC,PC123 FY2PHOTO COUPLER
D505 0DD414809ED DIODE,DS4148
IC803 0ISS780500J IC,KA78L05AZ TO-92 TP 5V REGULATO
D506 0DD414809ED DIODE,DS4148
IC804 0ISS780800H IC,KA78R08 4P,TO-220F BK LOW DROP
D507 0DD859009AA DIODE,SILICON MA859
IC805 0IKE780500K IC,KIA7805PI 3P(TO-220IS) 5V,1A
D508 0DD859009AA DIODE,SILICON MA859
IC901 0IPH610700A IC,TDA6107Q SIP9 BK VIDEO OUT AMP
D509 0DD859009AA DIODE,SILICON MA859
TRANSISTOR D510 0DD859009AA DIODE,SILICON MA859
D602 0DD414809ED DIODE,DS4148
Q01 0TR387500AA TR,2SC3875S(ALY) D701 0DD414809ED DIODE,DS4148
Q02 0TR102009AG TR,KRC102S SOT-23 D702 0DD414809ED DIODE,DS4148
Q04 0TR102009AG TR,KRC102S SOT-23 D703 0DD414809ED DIODE,DS4148
Q101 0TR102009AG TR,KRC102S SOT-23 D704 0DD414809ED DIODE,DS4148
Q103 0TR102009AG TR,KRC102S SOT-23 D741 0DD060009AC DIODE,TVR06J 0.6A/600V 250NS
Q111 0TR387500AA TR,2SC3875S(ALY) D742 0DD200009AH DIODE,RU2AMV
Q112 0TR387500AA TR,2SC3875S(ALY) D743 0DD060009AC DIODE,TVR06J 0.6A/600V 250NS
Q115 0TR388109AA TR,KTC3881 D744 0DD414809ED DIODE,DS4148
Q201 0TR387500AA TR,2SC3875S(ALY) D802 0DD100009AM DIODE,EU1ZV
Q202 0TR387500AA TR,2SC3875S(ALY) D803 0DD060009AC DIODE,TVR06J 0.6A/600V 250NS
Q203 0TR387500AA TR,2SC3875S(ALY) D804 0DD060009AC DIODE,TVR06J 0.6A/600V 250NS
Q231 0TR150400BA TR,2SA1504S(ASY) D805 0DD060009AC DIODE,TVR06J 0.6A/600V 250NS
Q252 0TR387500AA TR,2SC3875S(ALY) D806 0DD100009AM DIODE,EU1ZV
Q401 0TR320709AA TR,KTC3207,TP(KTC2482) D821 0DD300009AC DIODE,RU3AMV

Q402 0TR249900AA TR,KTD2499 TO-3P(H)IS D823 0DD200009AH DIODE,RU2AMV

Q501 0TR387500AA TR,2SC3875S(ALY) D824 0DD150009CA DIODE,RGP15J

Q502 0TR150400BA TR,2SA1504S(ASY) D827 0DD060009AC DIODE,TVR06J 0.6A/600V 250NS

Q503 0TR150400BA TR,2SA1504S(ASY) D901 0DD400309AD DIODE,IN4003A RECT
D902 0DR210009AA DIODE,RECTIFIER BAV21 DO-35 200V
Q504 0TR387500AA TR,2SC3875S(ALY)
D903 0DR210009AA DIODE,RECTIFIER BAV21 DO-35 200V
Q505 0TR387500AA TR,2SC3875S(ALY)
D904 0DR210009AA DIODE,RECTIFIER BAV21 DO-35 200V
Q51 0TR945009AA TR,KSC945C-Y,TP,SS
ZD01 0DZ560009CF DIODE,ZENER MTZJ5.6B TP ROHM-K
Q510 0TR150400BA TR,2SA1504S(ASY)
ZD101 0DZ560009CF DIODE,ZENER MTZJ5.6B TP ROHM-K
Q512 0TR387500AA TR,2SC3875S(ALY)
ZD102 0DZ330009DF DIODE,ZENER MTZJ33B TP ROHM-K
Q541 0TR387500AA TR,2SC3875S(ALY)
ZD231 0DZ120009AF DIODE,ZENER MTZJ12B TP ROHM-K
Q542 0TR387500AA TR,2SC3875S(ALY)
ZD501 0DZ180009AG DIODE,ZENER MTZJ18B TP ROHM-K
Q601 0TR102009AG TR,KRC102S SOT-23
ZD741 0DZ820009AH DIODE,ZENER MTZJ8.2B TP ROHM-K
Q691 0TR387500AA TR,2SC3875S(ALY)
ZD742 0DZ820009AH DIODE,ZENER MTZJ8.2B TP ROHM-K
Q701 0TR387500AA TR,2SC3875S(ALY)
ZD801 0DZ680009BB DIODE,ZENER MTZJ6.8B TP ROHM-K
Q801 0TR102709AA TR,KTC1027-Y TP(KTC2235),KEC
ZD904 0DZ750009AG DIODE,ZENER MTZJ7.5B TP ROHM-K
Q802 0TR120209AD TR,KSR1202 TP SAMSUNG TO92S
Q804 0TR945009AA TR,KSC945C-Y,TP,SS CAPACITOR
Q805 0TR320209AA TR,KTC3202-TP-Y (KTC1959)KEC C02 0CE475DK618 C,ELECTROLYTIC 4.7UF STD 50V M




www.rtv-horvat-dj.hr
- 18 -
The components identified by mark are
critical for safety.
Replace only with part number specified.


LOCA. NO PART NO DESCRIPTION LOCA. NO PART NO DESCRIPTION

C08 0CE225DK618 C,ELECTROLYTIC 2.2UF STD 50V M C522 0CC2710K415 C,CERAMIC(TEMP COMP) 270P 50V J
C09 0CE106DF618 C,ELECTROLYTIC 10UF STD 16V M C523 0CC6200K415 C,CERAMIC(TEMP COMP) 62PF 50V J
C101 0CE475DK618 C,ELECTROLYTIC 4.7UF STD 50V M C524 0CQ4731N509 C,POLYESTER(MYLAR) 0.047U 100V K
C104 0CE226DF618 C,ELECTROLYTIC 22UF STD 16V M C526 0CE227DF618 C,ELECTROLYTIC 220UF STD 16V M
C105 0CE476DK618 C,ELECTROLYTIC 47UF STD 50V M C530 0CE225DK618 C,ELECTROLYTIC 2.2UF STD 50V M
C106 0CN1040K949 C,TUBULA(HIGH DIELE) 0.1M 50V Z C531 0CE104DK618 C,ELECTROLYTIC 0.1UF STD 50V M
C107 0CN2230H949 C,TUBULA(HIGH DIELE) 22000P 25V Z F C533 0CE105DK618 C,ELECTROLYTIC 1UF STD 50V M
C108 0CE107DH618 C,ELECTROLYTIC 100UF STD 25V M C538 0CQ1041N455 C,POLYESTER(MYLAR) 0.1000UF 100V J
C11 0CE106DF618 C,ELECTROLYTIC 10UF STD 16V M C539 0CSZVTA001F C,TANTALUM 0.6UF 35V K *CK-
C111 0CN1030F679 C,TUBULA 10000P 16V M " 0CSZVTA001G C,TANTALUM 2.2UF 25V K *CL-
C112 0CN1030F679 C,TUBULA 10000P 16V M C543 0CE106DH618 C,ELECTROLYTIC 10UF STD 25V M
C114 0CE476DF618 C,ELECTROLYTIC 47UF STD 16V M C544 0CQ3342K439 C,POLYESTER(MYLAR) 0.33UF S 50V J
C116 0CN1030F679 C,TUBULA 10000P 16V M C545 0CE224DK618 C,ELECTROLYTIC 0.22UF STD 50V M
C12 0CE335DK618 C,ELECTROLYTIC 3.3UF STD 50V M C548 0CE684DK618 C,ELECTROLYTIC 0.68UF STD 50V M
C20 0CE107DF618 C,ELECTROLYTIC 100UF STD 16V M C601 0CE475DK618 C,ELECTROLYTIC 4.7UF STD 50V M
C201 0CE225DK618 C,ELECTROLYTIC 2.2UF STD 50V M C602 0CE108DJ618 C,ELECTROLYTIC 1000UF STD 35V M
C202 0CE225DK618 C,ELECTROLYTIC 2.2UF STD 50V M C603 0CQ3921N409 C,POLYESTER(MYLAR) 0.0039U 100V J
C203 0CE2251K636 C,ELECTROLYTIC 2.2UF SM 50V M C604 0CE106DH618 C,ELECTROLYTIC 10UF STD 25V M
C205 0CE476DF618 C,ELECTROLYTIC 47UF STD 16V M C606 0CE475DK618 C,ELECTROLYTIC 4.7UF STD 50V M
C207 0CE106DF618 C,ELECTROLYTIC 10UF STD 16V M C608 0CQ1542K439 C,POLYESTER(MYLAR) 0.15UF S 50V J
C208 0CE475DK618 C,ELECTROLYTIC 4.7UF STD 50V M C614 0CE108DJ618 C,ELECTROLYTIC 1000UF STD 35V M
C22 0CN2230H949 C,TUBULA 22000P 25V Z C632 0CE106DK618 C,ELECTROLYTIC 10UF STD 50V M
C23 0CE104DK618 C,ELECTROLYTIC 0.1UF STD 50V M C656 0CE475DK618 C,ELECTROLYTIC 4.7UF STD 50V M
C233 0CE227DF618 C,ELECTROLYTIC 220UF STD 16V M C657 0CE107DF618 C,ELECTROLYTIC 100UF STD 16V M
C252 0CE475DK618 C,ELECTROLYTIC 4.7UF STD 50V M C659 0CE475DK618 C,ELECTROLYTIC 4.7UF STD 50V M
C301 0CN1010K519 C,TUBULA(HIGH DIELE) 100PF 50V K C661 0CE2251K636 C,ELECTROLYTIC 2.2UF SM 50V M
C302 0CN1040K949 C,TUBULA(HIGH DIELE) 0.1M 50V Z C691 0CN1030F679 C,TUBULA(HIGH DIELE) 0.01MF 16V M
C303 0CE226DN618 C,ELECTROLYTIC 22UF STD 100V M C692 0CE107DF618 C,ELECTROLYTIC 100UF STD 16V M
C304 0CE476DN618 C,ELECTROLYTIC 47UF STD 100V M C693 0CE475DK618 C,ELECTROLYTIC 4.7UF STD 50V M
C305 0CQ3321N509 C,POLYESTER(MYLAR) 0.0033U 100V K C694 0CE475DK618 C,ELECTROLYTIC 4.7UF STD 50V M
C306 0CQ1041N509 C,POLYESTER(MYLAR) 0.1MF 100V L C695 0CQ4721N509 C,POLYESTER(MYLAR) 0.0047U 100V K
C307 0CQ1531N509 C,POLYESTER(MYLAR) 0.015MF 100V K C703 0CE107DD618 C,ELECTROLYTIC 100UF STD 10V M
C308 0CQ1031N509 C,POLYESTER(MYLAR) 0.01U 100V K C705 0CX8R20K509 C,TUBULA(T.C) 8.2P 50V K
C401 181-013C C,MPP 200V 0.39uF J C707 0CQ1042K439 C,POLYESTER(MYLAR) 0.1UF S 50V J
C403 0CK1020W515 C,CERAMIC(HIGH DIELE) 1000PF 500V K C708 0CQ1042K439 C,POLYESTER(MYLAR) 0.1UF S 50V J
C405 181-015H C,MPP 1600V 0.0082uF H C709 0CQ1042K439 C,POLYESTER(MYLAR) 0.1UF S 50V J
"(21") 181-015P C,MPP 1600V 0.0075uF H C711 0CE476DF618 C,ELECTROLYTIC 47UF STD 16V M
C406 0CN3310K519 C,TUBULA(HIGH DIELE) 330P 50V K C712 0CE476DF618 C,ELECTROLYTIC 47UF STD 16V M
C407 0CE225DP618 C,ELECTROLYTIC 2.2UF STD 160V M C714 0CE106DH618 C,ELECTROLYTIC 10UF STD 25V M
C409 0CE105DP618 C,ELECTROLYTIC 1UF STD 160V M C743 0CK4710W515 C,CERAMIC(HIGH DIELE) 470PF 500V K
C410 0CE105DP618 C,ELECTROLYTIC 1UF STD 160V M C744 0CE106DR618 C,ELECTROLYTIC 10UF STD 250V M
C501 0CE476DF618 C,ELECTROLYTIC 47UF STD 16V M C745 0CK4710W515 C,CERAMIC(HIGH DIELE) 470PF 500V K
C502 0CE106DH618 C,ELECTROLYTIC 10UF STD 25V M C746 0CE337BH618 C,ELECTROLYTIC 330UF KME 25V M
C504 0CQ1041N509 C,POLYESTER(MYLAR) 0.1MF 100V L C747 0CK4710W515 C,CERAMIC(HIGH DIELE) 470PF 500V K
C507 0CE225DK618 C,ELECTROLYTIC 2.2UF STD 50V M C748 0CE476DN618 C,ELECTROLYTIC 47UF STD 100V M
C510 0CE107DF618 C,ELECTROLYTIC 100UF STD 16V M C749 181-009V C,PP 200V 0.047UF K
C513 0CQ1042K439 C,POLYESTER(MYLAR) 0.1UF S 50V J C751 0CQ1031N509 C,POLYESTER(MYLAR) 0.01U 100V K
C514 0CQ1042K439 C,POLYESTER(MYLAR) 0.1UF S 50V J C801 0CK10201515 C,CERAMIC(HIGH DIELE) 1000P 1KV K
C516 0CN2230H949 C,TUBULA(HIGH DIELE) 22000P 25V Z F C802 0CK10201515 C,CERAMIC(HIGH DIELE) 1000P 1KV K
C517 0CN2230H949 C,TUBULA(HIGH DIELE) 22000P 25V Z F C803 0CK10201515 C,CERAMIC(HIGH DIELE) 1000P 1KV K
C518 0CN2230H949 C,TUBULA(HIGH DIELE) 22000P 25V Z F C804 0CK10201515 C,CERAMIC(HIGH DIELE) 1000P 1KV K
C521 0CC2710K415 C,CERAMIC(TEMP COMP) 270P 50V J C805 181-001E CAPACITOR CE 400V 120UF M




www.rtv-horvat-dj.hr
- 19 -
The components identified by mark are
critical for safety.
Replace only with part number specified.


LOCA. NO PART NO DESCRIPTION LOCA. NO PART NO DESCRIPTION

C806 0CE107DH618 C,ELECTROLYTIC 100UF STD 25V M L301 0LA0102K139 INDUCTOR,10UH K
C807 0CE106BN618 C,ELECTROLYTIC 10UF KME 100V M L302 0LA0102K139 INDUCTOR,10UH K
C808 0CN1020K519 C,TUBULA(HIGH DIELE) 1000PF 50V K L402 150-L01Z COIL,H-LINEARITY 97UH
C809 0CE107DH618 C,ELECTROLYTIC 100UF STD 25V M L501 0LA0331K119 INDUCTOR,3.3UH K 2.3*3.4 TP
C81 0CE476DF618 C,ELECTROLYTIC 47UF STD 16V M L502 0LA0102K119 INDUCTOR,10UH K
C810 0CE227DF618 C,ELECTROLYTIC 220UF STD 16V M L503 0LA0681K119 INDUCTOR,6.8UH K
C811 181-120K CAPACITOR ACT 4KV E 222M TP10 L504 0LA0102K139 INDUCTOR,10UH K
C812 181-120K CAPACITOR ACT 4KV E 222M TP10 L505 0LA0331K119 INDUCTOR,3.3UH K 2.3*3.4 TP
C813 181-091Z CAPACITOR 2KV R 821K TP7.5 L506 125-022K CORE,FERRITE 1UH
C814 0CE108DH618 C,ELECTROLYTIC 1000UF STD 25V M L507 125-123A CORE,FERRITE BFD3565R2F
C820 0CE477DJ618 C,ELECTROLYTIC 470UF STD 35V M L509 125-022K CORE,FERRITE 1UH
C822 0CK47101515 C,CERAMIC(HIGH DIELE) 470P 1KV K L510 0LA0102K139 INDUCTOR,10UH K
C823 181-091Q CAPACITOR 1KV R 471K TP5 L511 0LA0561K119 INDUCTOR,5.6UH K
C824 0CE108DH618 C,ELECTROLYTIC 1000UF STD 25V M L512 0LA0561K119 INDUCTOR,5.6UH K
C826 181-091Q CAPACITOR 1KV R 471K TP5 L513 0LA0561K119 INDUCTOR,5.6UH K
C827 0CE227DP61A C,ELECTROLYTIC 220UF STD 160V M L601 0LA0102K119 INDUCTOR,10UH K
C829 0CE1071P61A C,ELECTROLYTIC 100UF SM 160V M L651 0LA0102K119 INDUCTOR,10UH K
C832 0CE227DF618 C,ELECTROLYTIC 220UF STD 16V M L691 150-E16C COIL,VAR,07S 1B 38.9MHZ
C837 0CE227DF618 C,ELECTROLYTIC 220UF STD 16V M L692 0LA0102K119 INDUCTOR,10UH K
C843 0CE477DH618 C,ELECTROLYTIC 470UF STD 25V M L693 0LA0122K119 INDUCTOR,12UH K
C844 0CE227DF618 C,ELECTROLYTIC 220UF STD 16V M L701 0LA0331K119 INDUCTOR,3.3UH K 2.3*3.4 TP
C853 0CQZVBK002D C,POLYESTER A.C 275V 0.47UF K L702 0LA0102K119 INDUCTOR,10UH K
C904 0CQZVBK002A C,POLYESTER A.C 275V 0.1UF M L742 0LA0221K139 INDUCTOR,2.2UH A +-10%
C905 0CE106DR618 C,ELECTROLYTIC 10UF STD 250V M L801 125-022K CORE,FERRITE 1UH
C906 0CE2261R618 C,ELECTROLYTIC 22M SM 250V M L803 125-022K CORE,FERRITE 1UH
C907 181-033S CAPACITOR 2KV B 122K TP7.5 L804 125-123A CORE,FERRITE BFD3565R2F
L805 125-022K CORE,FERRITE 1UH
COIL &