Sanyo C25PP86N User manual
SA\j411!Y
SERVICE MANUAL Colour Television
Specifications
FILE NO.
Model”No. C25PP86N
(New Zealand)
Service Ref. No. C25PP86N- 00
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Power Source .................... AC 220-240 Volts, 50 Hz.
Colour System ................... PAL (AV INPUT: PAL/NTSC/NTSC4.43/PAL- 60Hz)
LTelevision System ............. B/G
Channel Coverage .............VHF: 1-11
UHF: 21-69
CATV: S1 -S41 ,X. Y, Z, Z+l ,Z+2
Video IF............................. 38.9 MHz
Sound IF............................ 33.4 MHz
Aerial Input Impedance ...... 75 S2
Ext. Terminals .................... AV inputs:
Video inputs: Phono jack x2
Audio inputs: Phono jack(R/L) x2
AV outputs:
Video outputs: Phono jack x1
Audio outputs: Phono jack(R/L) x1
Headphone Jack: Mini. Stereo Jack x1
Sound Output (Music) ........ 10W+1OW
Dimensions ........................ 616(W)x530(H)x458.5 (D)mm
Weight(approx.) ................. 29Kg
Product Code: 111335319
Original Version
Chassis Series: AAl -A
Give complete “SERVICE REF. No.” for parts
order or servicing. It is shown on the rating plate
at the cabinet back of the unit.
-
This T.V. receiver will not work properly in
foreign countries where the television trans -
mission system and power source differ from the
Refer to “T1520004” Training Manual
for this model.
II
Specifications subject to change without notice.
LF6WZ REFERENCE NO. SM 520248
I
Alol
TUNER
NICAM
DECODER
mTEXT DECODER :22
1
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IC790 aIclool :c~g
MEMORY 1rn*
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1
SCL %1
~-SCL
SDA L1*SDA
Digital Control o
Vcc 1
Band Switch .......................... 1
1
43, 44 ;3:Volume, 4: Co10ur, ;
I3-8 +5: Bright, 6: Contrast, :~
10 ;7: Sharpness, 8: TINT: 9
.........................4
: Rout 49 8
0
~Gout n
m
~Bout Rout
OSD [~Gout
m
+— ~~Bout
X180 SAW I111-‘‘
IC2B0
SECAM
R-YuJl‘: Iclol +
‘-------r----:
HV
%IC1103
SOUND
IC181 CONTROLLER Video
I
lFjCOLOUR/
SIF ~“2 h16 DEFLECTION IC270 Q21OI
—221 —SOA lH DELAY Q211/Q212 \\\
SCART WI 19 —SCL IF in 4645
~,F ,“ B-YUII 31 14 w\\\ CRT
14 ~B-Y in
6R-Yti 30 ;R-Y in
24 ‘h B-Y III :8 B-Y out
dBh <g
*2R-YI. i? “R-Y o;t ,;%
2Gin
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t22 08: 5V( TEXT)
SIFM4RkI
—27 RGBout T471 FBT
SCARTWI
Audio(UR) out@ \. 17
Exlwnd CVSS h*15 Q431
/$ NH -Drive Q432
Hcul 37 H-OUT
w
Li+*a
=;; *
5IrtwndCVBS In 13 =;:
Audio(L/R)in ~2/1 2.......... Wad Vefl co 43
14/ IC451
=315 ‘Vert. Output
4Deflection
1/13 4Yoke
2
—IC801
AV SWITCH ~3
~Filter H
~
Speakers
T501
POWER
TRANS
------ ‘-----------:TRANS. ;-----------------------:
Headphone Jack
............................ ..........................
Block Diagram (Formulti-standardModel)
.
L
.
,
.............................................
ICI 01 (TDA8362
El--d-+
NTSC
Band Limited
-J
Fin Vin
TvOut
SECAM
REF,
>IFin
CHROMA ID
TV ID,
(TIME BASE;
13
41
7
32
—
26
—
A
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.........-........
+~
+~
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------
6.5MHz Filter l’+%
Sll
(Q156)
F-----
6.OMHZFilter ~%
Slo
(Q155)
------
5.5MHz Filter ~%
S9
(Q154)
......
0%
SIF Filter (Q153)
1-7==%
lzx$
S3 Sound Cam.er Trap
D121) i5.516.016.5MHz Trap
P
+----:
P%iE!5
10,
......
j(Q2%) ~
............
................................................
IC701 (CPU) !
j,;
SECAM 40--:
~CID.
~TVID. 4.5 MHZ ?.!...............+
5.5 MHZ :*----------.: :
6.OMHZ 3~------0 ~;
42 4.43 MHZ
..... :::
~,5MHz 36-, : : :
:::
::::
.-~3 3.58 MHZ ::, :
::
::
V-SYNC. ::
::
2::
::
:::: V-SYNC. Pulse
::: (for O.S.D.)
:::
:::
...................................:,: ::
::
::
::
:::
:::
.......................................... ::
::
::
::
::
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............................................. :
...................................................
L
–3–
Circuit Description
1. POWER SUPPLY
The power supply circuit of the AAl -Achassis is
comprises aprimary rectifier smoothing circuit, an
oscillation circuit, acontrol circuit and an output rectifier
circuit.
The AC input voltage is rectified at the double or full-wave
rectifier smoothing circuit, and an unstable DC voltage is
generated at both terminals of the smoothing capacitor
C307. The double or full-wave rectifier circuit is build by
switching the triac on or off in IC501 <STR81 145A>. This
voltage is supplied to the oscillation circuit, which is
composed of ablocking oscillator circuit that switches the
switching transistor Q313 ON and OFF.
Asquare-wave oscillation is generated in the input
winding according to operation of the control circuit. A
quare-wave with amplitude dependent on the turns ratio of
the input and output windings is obtained in the output
winding. This is rectified in the output rectifier circuit, and
the desired DC voltage is produced.
2. IF& DEFLECTION (TDA8361/8362)
The IF output signal from the tuner passes through the
SAW filter, and it is input to pins 45 and 46 of ICI 01.
Within the IC, the IF signal passes through the IF
amplifier, video detection and video amplifier circuits, and
is outputted from pin 7as acomposite video signal. In the
monaural model, this composite video signal passes
through the 5.5 MHz(B/G) /6.OMHZ(I) /6.5 MHz(D/K) /
4.5 MHz(M) sound bandpass filtering circuit, and it is
inputted into pin5 of IC101. In the stereo model, the SIF
signal is supplied from pin 14 of IC181 cTDA2546A> to
pin 5of ICI 01 through the sound bandpass circuit for
modulation of the main carrier. In the IC101, this sound IF
signal passes through the SIF amplifier, FM detector,
external audio switch and audio output circuit, and it is
then outputted from pin 50 as audio drive signal (Monaural
model). In the stereo model, the main audio signal is fed
from pinl to the stereo controller IC (MC44131 PB).
The video signals applied to pins 13 or 15 are separated
into vertical -and horizontal -sync. signals respectively by
the sync. separator in the IC.
The horizontal oscillator requires no external components
and is fully integrated. This oscillator is always running
when the start -pin 36 is supplied with 8V, and the
horizontal drive signal is outputted from pin 37. VR401 is
used for horizontal centring adjustment.
The separated vertical sync. signal from the sync.
separation circuit passes through the vertical -separation
circuit, and is applied to trigger divider circuit.
The horizontal oscillation pulse and vertical sync. pulse
are monitored by the trigger divider circuit to select either
the 50Hz or 60Hz system, and automatically adjust the
vertical amplitude.
The output signal from the trigger divider triggers the
vertical oscillator circuit whose external timing –
components consist of R402, C401 to pin 42, and the
vertical ramp signal is outputted from pin 43. VR451 is for
controlling the amount of AC feedback applied to pin 41
for adjustment of the vertical amplitude.
3. VIDEO CHROMA (TDA8361/8362)
The composite video signal output from the pin 7ofIC101,
passes through Q122, and the sound traps Xl 24, X125,
X126, X127 to reject the sound carrier components, is
then supplied to pin 13 through the equalizing circuit
consisting of Q135, Q132 and Q134. The external video
signal from SCART or other AV terminals is supplied to
pin 15.
The video signal input to pin 13 or pin 15 is separated into
luminance (Y) signal and chroma signal in IC101. These
pins are also common to the H/V- sync. separation circuit _,
input already described.
The peaking of Ysignal is adjusted by DC voltage on pin
14.(’’SHARPNESS” control)
The chroma signal is divided into R-Y and B-Y chroma
signals, which are demodulated and output from pin 30 (R
-Y) and pin 31 (B -Y). These chroma signals pass
through the 1Hdelay line circuit (IC270), and are re -
inputted at pin 29 (R-Y) and pin 28 (B- Y). These R- Y/B-
Ysignals pass through the RGB matrix circuit and the
RGB selector circuit of ICI 01. The internal RGB signals
are generated in the RGB matrix circuit and the RGB
selector, consisting of linear amplifiers, clamps and
selects either the internal RGB signals or the external
RGB signals input from pin 22 (R) ,pin 23 (G), pin 24 (B).
Selection is controlled by the voltage at the RGB switch
control (pin 21) and mixed RGB modes are possible since
the RGB switching is fast.
The RGB switch also functions as afast blanking pin by
blanking the RGB output stages; here internal and -
external RGB signals are overruled.
The RGB signals for the on -screen display are
superimposed onto the selected RGB signals at the base
of transistors Q21 O, Q211 and Q212 respectively.
The saturation of colour gain is controlled by the DC
voltage of pin 26. (“COLOUR” control)
The contrast control voltage present at pin 25, controls the
RGB signal gain, and the brightness control voltage
present at pin 17, controls DC level of RGB signals.
The RGB signals are finally buffered before being
presented to the RGB output pins [pin 20 (R), pin 19 (G),
pin 18 (B)].
–4–
Circuit Description
.- 4. AUDIO OUTPUT
4-1 (AN5265)-Monaural model
The audio signal output from pin 50ofIC101 is inputted to
pin 2of ICI 71 and passes through the pre -amplifier
circuit and the drive circuit into the audio amplifier. The
audio amplifier is the SEPP (Single -Ended Push Pull)
type and the output from pin 8drives the speaker directly.
4-2 (TDA7263M)-Stereo model
The audio signals output from pins 17 and 18 of
IC1 101 (MC44131 PB) are inputted to pins 1(Left) and
5( Right) of IC1 102 and passes through the pre -amplifier
circuit and drive circuit, after which it is input to the audio
amplifier. The audio amplifier is the SEPP (single-ended,
push -pull) OTL type and the outputs from pins 8(Right)
and 10(Left) drive the speakers directly.
5. VERTICAL OUTPUT
LAn LA7833 is used for the vertical output circuit in this
chassis. The vertical ramp signal from pin 43 of IC101 is
inputted to pin 4of IC451. This ramp drives IC451, and
vertical scanning is performed. In the first half of scanning
adeflecting current is outputted from pin 2 and passes
through the following path:
VCC(B4) +D451 +pin 3+pin 2+DY +C461 +
vR451/R459.
An electric charge is then stored in C461. In the last half of
scanning the current path is:
C461 +DY+ pin 2+ pin 1+VR451/R459 +C461
In this way, an increasing sawtooth waveform current
flows directly to the DY to perform electron beam
deflection. During the first half of the blanking period the
vertical ramp signal suddenly turns OFF. Since there is no
longer any current flowing into the DY, the magnetic field
collapses causing an induced current to flow as follows:
DY+ pin 2+ pin 1@VR451/R459QC461 aDY
LOnce the magnetic field in DY has dissipated, the current
path becomes:
Vcc+ pin 6+ pin 7+ C452Q pin 3+ pin 2+ DY+ C461
+VR451 /R459
.and when the prescribed current value is reached, the
vertical drive ramp signal turns ON.
This completes one cycle.
6. HORIZONTAL OUTPUT
The horizontal oscillation signal is outputted from pin 37 of
IC101 and used to switch the drive transistor Q431. This
switching signal is current amplified by the drive
transformer T431 and drives the output transistor Q432.
When Q432 turns ON, an increasing current flows directly
to the DY through
C441 /C442 +L441 /R441 +DY +Q432- C+Q432- E
and the deflection occurs during the last half of the
scanning period. When Q432 turns OFF, the magnetic
LJ
field stored in the DY up to that point causes aresonant
current to flow into the capacitors C420 and C423 and
charges them.
The current stored in C420 and C423 then flows back to
the DY causing an opposite magnetic field to be stored in
the DY. This field then collapses increasing acurrent
which switches the dumper diode in Q432 ON. The
resonance state is completed, and an increasing current
then flows again directly to the DY through the dumper
diode.
By this means, the deflection in the first half of the
scanning period is performed. When Q432 turns ON at the
end of the first half of the scanning period, the deflection
during the last half is begun, thus completing one cycle.
In the PCC circuit consisting of Q461 and Q462, the
parabola signal supplied from the vertical circuit is added
at the horizontal output stage and pincushion
compensation is performed by varying the DC bias.
Further, the ABL voltage is fedback to the base of Q462 to
compensate for width variations due to variations in the
beam current.
–5–
Service Adjustments
MAIN UNIT B1 POWER SUPPLY ADJ. HORIZONTAL WIDTH ADJ.
—
%0718 a
wIC790 0s57
*MEMORY
%0313
%POWER
\0311B
*(SERVICE)
0312
POWER DRIVE
\
o
Pf
H-ORIVE
TRANS.
❑
T431
o
KOY VR462
?n .-
1/—
I II
0432
HORIZ.
OUT
I0
IC451
T471 VERT,
F.B.T. AMP,
J/)0
L~fl VR451 VERT,
KSC
KB 0431 ,!..., x
o
. . s _ .,
VERT. CENTER \[
0245
B
o
-...-, Ay+
W“*,, .
CRT UNIT
u
a
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z
01833
z
OIMB B$I
ZS
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T181 T,’2
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II
W-1 3P~.3CWND
aCIRCUIT WITH 5WHZ
0181 DEMCOUIATK4
1
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0702
D
=VR120
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‘- c:wR~ VR401
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IwB
0221 0101
AUOIO IN
(LEFT)
iR782
3LUE BIAS
VR762
REO BIAS
VR772
GREEN BIAS
VR761
BLUE ORIVE
VR761
REO ORIVE
–6–
Service Adjustments
SAFETY PRECAUTIONS :An isolation transformer should be connected in the power line between the receiver and the AC
line before any service is performed on the receiver.
X-RADIATION PRECAUTION The primary source of X-RADIATION in television receiver is the picture tube. The picture
tube is specially constructed to limit X-RADIATION emission. For continued X-RADIATION protection, the replacement tube must
be the same type as the original including suffix letter, Excessive high voltage may produce potentially hazardous X-RADIATION.
To avoid such hazards, the high voltage must be maintain within specified limit. Refer to this service manual for specific high
voltage limits. If high voltage exceeds specified limits, take necessary corrective action. Carefully follow the instructions for +B1 volt
power supply adjustment, and high voltage check to maintain the high voltage within the specified limits.
NOTE; Do not attempt this adjustment with weak signal.
(1) Tune the receiver to most clearest (or strongest) VHF
station in your area. Set the brightness and contrast
controls to maximum. Set the colour control to minimum.
(2) Set AGC (VR1 20) control to mid- range.
(3) Turn AGC control in direction which causes snow to appear,
then in the opposite direction until the snow iust disatmears.
(1) Connect DC meter to R761 (VR351 side) and the ground.
Set the +Bl adjustment control (VR351 )to mid -range.
(2) Set the brightness and contrast to normal.
Tune the receiver to an active channel and synchronized
picture.
(3) Adjust +Bl adjustment control(VR351 )for 140 f0.5 volt
DC.
(1) Receive the monochrome circular pattern.
(2) Set the brightness and contrast to normal.
(3) Adjust VR401 for optimum horizontal center position.
Horizontal center
(1) Receive the monochrome circular pattern.
(2) Set the brightness and contrast to normal.
(3) Vertical centering can be adjusted by switching SW451.
Vertical center
i/
(1) Receive the monochrome circular pattern.
(2) Set the brightness and contrast to normal.
(3) Vertical size can be adjusted by using VR451.
m
.,.
.
\,
Vertical size
‘\.\ ./’
. .
(1) Receive the monochrome circular pattern.
(2) Set the brightness to normal and contrast to maximum.
(3) Adjust the focus control on the F.B,T for the best focus on
the screen center.
(1) Receiver the monochrome circular pattern.
(2) Set the brightness and the contrast to maximum.
(3) Set the drive volume (VR761 and VR781 )at their
mechanical center.
(4) Set the bias volume (VR762, VR772 and VR782) to
minimum. (fully counter clockwise).
(5) Set the service switch (SW220) to the service side.
(6) Turn the screen volume on the FBT to obtain just visible
one coloured line.
(7) Adjust each bias volume (VR782- blue, VR772- green and
VR762- red) alternately until adim white line produced.
(8) Set the service switch (SW220) to the normal side.
(9) Adjust the drive volume (VR781 -blue and VR761 -red)
alternately to produce normal black and white picture.
(1O)Check for proper grey scale tracking at all brightness
levels.
NOTE: If the grey scale adjustment is made after picturetube
replacement, check high voltage and sub -brightness
adjustment.
(1) Receive the monochrom circular pattern.
(2) Set the brightness and contrast to normal.
(3) If the picture is too wide or narrow, adjust the horizontal
width using VR462.
NOTE: The horiz, width adjustment affects the high voltage.
Therefore, recheck the high voltage.
(1) Connect ahigh voltage probe to anode lead of the picture
tube.
(2) Receive the monochrom circular pattern,
(3) Set the brightness and contrast to maximum.
(4) The high voltage must be between 28-30 f1KV.
NOTE: If the picture tube is replaced, check the high voltage.
I–7–
VIF Adjustment
Overall Waveform Adj.
Oscilloscope
k
—
c
o
.-
:al
c
c
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0
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.-
-0
c
6
—
R368(C364 side)
ICI 01- pin48
No band
DC 15V
IF AGC(3.5-4.5V)
BAND
Output Probe
Input Probe
Ground
SIF System
Sweep ATT.
Output Probe
Oscilloscope Sens.
R368(C364 side)
IC101 -pin48
No band (Q784-Base *Ground,
through 1kC?resistor)
TUNER-IF
Q122- Emitter
TP-A
TUNER-IF
Q1 22- Emitter
TP-A
100 S2Dumping Resistor*R124
any
18dB
any
18dB
side a
100mV/DIV side a
100mV/DIV
Adjust the overall waveform level
to become lVP – p with IF AGC
VOLTAGE.
Adjust P(38.9MHz) to be
Adjustment maximum amplitude by using
T121 .D
AJ
Waveform
078?
Jo
D,
cm w
0793 07C6
!’37
~,18 -
Input Probe
D
07M Bcasd
&
0%1
Omo -#%Ft-
7
1311
cONVERTER
TR4NS.
lc7m
MEMORY
/o
uL
x-- I
0
cm
0L441
Detector Adj.
.----’
-a 100 S2Dumping
Resistor
a
U242
KDY H- WIDTH
Y%
0702
““;GOutput Probe
w
T471
F,B.T.
-J ‘% DOWN ~UP
VERT. CENTER
MAIN UNIT Nclum
(RlOHn
AUDn WT AUW3 M
(Em (lEFT)
(h Band Setting)
-“77
lKQ
–8–
SIF Adjustment
u
Item Detector Adj.
DC 15V R368(C364 side)
5IF AGC(3.5- 4.5V) IC181 -pin 3
gOutput Probe-1 IC181 -pin 1
:Input Probe IC181 -pin 14
s
:Sweep ATT. 31 dB
~Output Probe side a
:Oscilloscope Sens. 100mV/DIV
3
Adjust AGC voltage to be
Adjustment A=O.5VP -p.
By using T1 81, adjust Pto be
equal center line.
+
(38.9 MHz) P A
Waveform
Item FM Detector Adj.
DC 15V R368(C364 side)
~Output Probe-2 IC181 -pin 12
~Input Probe IC181 -pin 6
c
c
2
:Carrier Freq. 5.74 MHZ
-Mod. Freq 1KHz(sine wave)
z
=Scope Sens. lVldiv
s
By using T1 82, adjust DC Voltage of
Adjustment sine wave to be 4.OV.
Waveform
E
4.OV
DC=OV
D
cm
o1441
n7911
MEMC+7Y
u
n~ n
wKBB c
Bal n
07M Dwd OIM
aDD014J
cd57 /
Q7CQ
a
In OE!AY
07% mm
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0222
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0
:q’”
~.1
H-CENTER
wB
0221 Oml
ilX71 -g
TELETEXT UNIT —II
~&w43EJ I‘w
DOWN +UP
VERT, CENTER AUDiU OUT
(Rk3HT1
–.
\
Detector Adj.
FM Detector Adj.
{Input Probe
10KQ
+Oscilloscope
I I
DC 3.5-4.5V 1
Output Probe-1
--E53!
\Output Probe-2
*SIF Signal
Generator
MAIN UNIT %%!!-( ( ,,DEOI”
L-VIDEO WT
AUDK3 CUT AUDk3 IN
(LEFT) [LEFT]
–9–
AFT Adjustment
Item AFT Adj. (Rough) AFT Adj. (Fine)
DC 15V R368(C364 side) R368(C364 side)
:IF AGC(3.5- 4,5V) IC101 -pin48 ICI 01- pin48
.-
5BAND No band No band
~Output Probe TUNER-IF TUNER- IF
~Input Probe TP-D TP-D
:Sweep Att. 26 dB 26 dB
:~ SG Output Att. 29 dB 29 dB
pOutput Probe side aside a
~Oscilloscope Sens, 1V/Div 1V/Div
Keep IF AGC voltage which was Set the VIF Adjustor Sweep off and Pix SG to
Adjustment adjusted VIF adjustment. Cw output,
Conform the marker position By using T1 21, adjust DC voltage to be 3.6V f
P(38.9MHz) nearby the Ref. line. 0.2V.
Waveform
*“’ine ti;v
Om
JoB,
CM w
0793 0705
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4(wic 7SII
eDC 15V
1311
CONVERTER ol U$l
TRMS
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L441
la
MEMORV
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(SEF,VKX)
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KDY VR462
H-WDTH Q7CU
10 000[
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022 I0101 0781
iC451
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T471 VERT w
AMP
F.B.T. 00 IC871 ‘: z0782
TELETEXT UNIT ~.— 13
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at @5~,w
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mWN eUP
VERT. CENTER AUDW WT
(R@3HT)
MAIN UNIT ‘WNt J(/y+-
AUDW CUT AUDO IN Vmo m
(LEFTI IIEFT)
An Adj. (Fine)
Input Probe
+%F-t”s’’’’”sc”pe
I I
OutDut Probe
No Band Setting)
7
.-A
lKQ
w
““d
–lo–
PURITY AND CONVERGENCE ADJUSTMENT
.CAUTION: The Convergence and Purity adjustments have been made at the factory. Readjustment should be
made only after picture tube or deflection yoke replacement, following the steps below:
PURITY ADJUSTMENT
1.Demagnetize the picture tube and receiver using an external
degaussing coil. When replacing picture tube or deflection
yoke, mount deflection yoke and purity -convergence
magnets assembly properly, see figures 1 and 4.
2,Turn Red and Blue guns off and provide only Green raster.
Rotate Screen control to fully counterclockwise. Rotate Red
and Blue Bias controls fully counterclockwise. Slowly rotate
Green Bias control clockwise to produce Green raster.
3,Loosen the screw holding the Deflection Yoke and remove
the 3Rubber Wedges, and slide the Deflection Yoke fully
frontward.
4. Rotate and spread the Tabs of the two Purity Magnets to
center the vertical green belt in the picture screen. The Purity
Magnets are also adjusted to obtain vertical centering of the
raster.
5.SIOWIY slide the Deflection Yoke backward until auniform
green screen is obtained.
6.Check the purity of the red and blue screens for uniformity,
turn off other colours to check this (use bias controls).
Readjust the yoke position if necessary until all screens are
pure.
7.Adjust each Bias control and screen control to obtain white
raster. Refer to Gray Scale Adjustment. If pan of the picture
screen is coloured, adjust the Deflection Yoke position
forward or backward slightly.
FOUR-POLE
MAGNET TABS
-’d SIX- POLE
hfiAPkl~TTA1
\/\h IVIMUINL 1IF&
A
FW;ITYTV \
TABS
Figure- 1. PURITY AND CONVERGENCE MAGNETS
Adjust tabs angle to superimpose
blue and red vertical line
JAdjust tabs together to
RED
+
I_ superimpose red and
1--- ~___ L/ blue horizontal line
BLUE
Figure- 2BLUE AND RED LINE MOVEMENT
8. Tighten the mounting screw of the Deflection Yoke. Adjust
Convergence next.
CENTER CONVERGENCE ADJUSTMENT
1. Use adot crosshatch pattern signal.
2. Turn Red and Blue guns on and turn off Green gun. Adjust
the angle between the Tabs of the Four Pole Magnet 1and
2,and superimpose the Red and Blue vertical lines in the
center area of the picture screen, Refer to figure 2.
3, Keeping the mutual angle of the Tabs of the Four Pole
Magnet turn them together to superimpose the Blue and Red
horizontal lines in the center area of the picture screen. Refer
to figure 2.
4. Turn Green gun on and adjust Six Pole Magnet 3 and 4s that
the Green line superimposed on the Red/Blue lines.
This is the same procedure used in steps 2 and 3.
Refer to figure 3.
OUTER AREA CONVERGENCE ADJUSTMENT
Slightly loosen the screw holding the Deflection Yoke. Adjust
the Deflection Yoke to converge the detail in the outer area (left
side and right side) of the picture screen by orbital movement of
the front of the Yoke, then secure the Deflection Yoke in
appropriate position by putting the wedges as illustrated.
Tighten screw holding the Deflection Yoke.
DEFLECTION YOKE
Figure- 4. ADJUSTMENT DEFLECTION YOKE
Adjust tabs angle to superimpose
red/blue and green vertical line
-Jr
Figure- 3BLUE/RED AND GREEN LINE MOVEMENT
–11–
CABINET PARTS LIST
Note :Parts order must contain Service Ref. No., Key No., Parts No., and Description. J
..........
r,.,.,.,.,.
.......... ,.,.,.,.,.
..........
,.,.,.,.,. ,,,.,.,,,.
,.,.,.,.,. ,.,.,.,.,.
,.,.,.,.,. ,.,.,.,.,.
,.,.,.,,,,
,.,.,.,.,.
.......... ,,,.,.,,.,
,,,.,.,.,. ,,,,,.,,,,
,,,,,,,,,.
,.,.,,..,. ,.,,,,,.,,1
,.,,,,,.,,
,,,,,,,,,,
,,,,,,,,,, ,,,,,.,,,.
,.,.,,,,,.
,.,,,.,.,. 8
9,,,,,,,,,,
,.,.,,,.,. ..,,,.,.,.
,.,,,.,.,. ..........
,,,,,,,,,, ,,,.,,,,,.
,.,.,.,.,.
,.,.,.,,,, ,.,.,.,.,.
,.,.,.,.., ..........
....,,.,,, ,.,.,.,.,.
,.,...,.,, ,.,.,.,.,.
,.,.,.,.,. ,.,.,.,.,.
,.,.,.,.,, ,.,.,.,.,.
,.,.,.,.,. ,.,.,.,.,.
,.,.,.,.,. ,.,.,.,.,.
,.,.,.,,,. ,.,.,.,.,.
,.,.,.,.,. ,.,.,.,.,.
.......... ,.,.,.,.,.
.......... ,.,.,.,.,.
.......... ..........
..........
..........
.......... ..........
,.,.,.,.,. ,.,.,.,.,.
,.,.,.,.,. ,.,.,.,.,.
,.,.,.,.,. ,.,.,.,.,.
,.,.,.,.,. ,.,.,.,.,.
.......... ,.,.,.,.,.
.......... ..........
,.,.,.,.,. ,.,.,.,.,.
.......... ,.,.,.,.,.
,.,.,.,.,.
.......... ..........
,.,.,.,,,.
,,,.,.,,,, ,.,.,.,.,.
,,,,,,,,,. ,.,.,.,.,.
,,..,,,.,. ,.,.,.,.,.
,.,.,.,.., ..........
,,,.,.,,,. ..........
,.,,,,,.,, ,.,.,.,.,.
..........
,.,.,,,,,, ..........
,.,.,,,.,,
.,.,.,,.., ..........
..........
,,,.,,,,., ..........
..........
,.,...,.,,
,,,.,,,.,. ,.,.,.,.,.
..........
,,,,,,,.,,
,,,,,,,,,,
,,,.,.,.,. ..........
..........
,,,,,.,,,.
,.,,,.,,,, ..........
..........
7
,’
,’
:
,10
(’o111111111111111111111~wlllllllllllllllllllll w
1111111lllllllllll~llltll~ltlllllllll1111111
/
:
::
65,\\\
4321
/
11
P
b
‘.‘..
12 i3
‘ey Part No. Description Key
No. No. Part No. IDescription
1. 610 2699623 BUTTON POWER 10. 61() 269 942!j CABINET BACK
6102298406 SPRING 11. 6102699753 LABEL RATING
2“ 6102699500 DEC BOARD 12. 645 008 9589 ASSY, REMOCONJXTD
3. 610 269 9463 DOOR 13. 610 251 6B90 RC-BATTERY LID
4. 6450192449 LATCH PUSH
!5. 6102699524 DEC CONTROLSHEET 610 269 9371 INSTRUCTIONS MANUAL -..
6. 610 271 0366 COh!PL,CABINET FRONT
7. 6450039256 BADGE,SANYO
—
8. fjlo 270 87g0 HANDLE RIGHT
9. 61O 270 8783 HANDLE LEFT
—
.-
–12–
Memory IC (IC790) Replacement (Important Note ! )
_When Memory IC (IC790) is replaced, it is necessary to make the initializing of IC790 as
following procedure.
[A]Initializing of Memory IC
❑
1Switch the TV set off.
❑
2Replace IC790.
❑
3Turn the TV set on.
❑
4Press and hold the FUNCTION ~button on the front control panel of the TV set, then press the
RECALL/COLOUR SYSTEM @button on the remote control transmitter.
-Jf$zE-
‘“ I_Em4tcm
~*FUNCTlON
.
—
1
‘dir
Uuu
FQ +.+ p-p ~~ .
000 RECALL/
A+ COLOUR
5.A
SYSTEM
Set the setting data to “O” by pressing LEVEL( +or –)~button.
Uuu r
❑
6Press the RECALIJCOLOUR SYSTEM @button.
n
-0
RECALL/
COLOUR SYSTEM
–13–
Memory IC (IC790) Replacement (Important Note ! )
❑
7 press the MEMORY/pRESET button @to enter to the Automatic Tuning mode.
P--td--& -A +VPA
SY
MEMORY/PRESET
❑
8Press the LEVEL( +)@butlon to start the Automatic Tuning.
m‘Ys%
LEvEL(+)~ v
The channels are preset in consecutive positions beginning from
the programme position”1”.
After all available channels have been preset, the unit returns to
the position”1”.
❑
9 The channel positions which cannot be automatically tuned are in the Private Position mode.
Cancel all private position mode as following procedure.
@Select the private position.
@Press and hold the RECALUCOLOUR SYSTEM@ button for more than 2seconds. The programme number
and” Xwill move to center of the screen.
-e
RECALL/
COLOUR SYSTEM
@Press the FUNCTION ~button.
P~ -A +VPA
@@a@@ @@
~
Repeat steps @to @for other private positions.
mm
15
s-1 AUTO
—
–14–
Memory IC (IC790) Replacement (Important Note ! )
- [ B]Stereo separation setting
❑
1To enter the Service Mode, press and hold the FUNCTION ~button on the front control panel of the
TV set, then press the FUNCTION ~button on the remote control transmitter.
k%?
P~ -A +VPA
@@ (3(3 C?)(3I
SYSTEM FLEVEL
V%FUNCTION
o-
FUNCTION
—
~COLOUR
11111111111---- etc.
1
ADJUST DATA
K1 031
f
Service Code Service Number
To change the service code, press the FUNCTION button ~.
To change the service number, press the LEVEL (+/ –)
button @.
12] Set the service codes and numbers as follows.
“w
Service Code Service Number
L2_Y- 1SEm
—
u
3pressthe RECALUCOLOUR SYSTEM @button to returnto the normal TV mode.
W3L%
YLEVEL
~RECALUCOLOUR SYSTEM
El
4Confirm the sound quality with stereo signal receiving.
–15–
F6WZ
CHASSIS ELECTRICAL PARTS LIST
Product safety should be considered when acomponent replacement is made in any area of areceiver.
Components indicated by a~mark in this parts list and the circuit diagram show components whose value have
special significance to product safety. It is particularly recommended that only parts specified on the following parts
list be used for components replacement pointed out by the mark.
Note:Partorder must contain Service Ref. No.,Part No.,and descriptions. The main PCB unit will be sutmlied without tuner and
flyback transformer. They shouldbe orderedseparately.
Read description in the Capacitor and Resister as follows:
CAPACITOR
CERAMIC 100P K50V
T T ~-:$::oka’e
Less than 10PF
=S: +0- O.25PF E: +0- lPF
kNot speclfled B: A0.1% C: *0,z5%
D: f0,5% Ftl% G: *2%
H: f3% J: +5% K*10%
L: f15% M: t20% N: ?30%
P+100-0% cl:
+30- 10% T: +50- 10%
u: +75- 10% v: +20- 10% W:+loo- lo%
x: +40- 20% Y: +150-10% Z: +80-20%
1
Rated value: P=pico farad, U=Micro farad
Material :
CERAMIC .............Ceramic
MT- PAPER ..........Metallized Paper
POLYESTER . .......Polyester
MT- POLYEST ......Metallized Polyester
POLYPRO .............Polypropylene
MT- PO LYPRO .....Metallized Polypropylene
COMPO FILM, .......Composite film
MT- COMPO.,. ......Metallized Cmpesite
STYRENE .............Styrene
TA- SOLID.,,.., ......Tantalum Solid
AL- SOLID ............Aluminium Solid
ELECT, ...... ..........Electrolytic
NP- ELECT ......Non..Non- polarized Electrolytic
OS- SOLID..,,.., AluminiumniumSolid with Organic
Semiconductive Electrolytic
DL- ELECT ...........Double Layered Electrolytic
RES
CAF
—
Mat ,ial :
A114W
L
TRated Wanage
Performance Symbols:
A:General B:Non flammable Z:Low noise
Other :Temperature coefficient
-Tolerance Symbols:
A: *0.05% B: t0.1% C: t0.25% D: f0.5%
F: t1% G: f2%
M: h20% P:+5-15’?4 ‘: ‘5%
—Rated value, ohms:
K:l ,000, M:l ,000,000
CARBON .........CarbonCarbon
MT- FILM ................Metal Film
OXIOE -MT ............Oxide Metal Film
SOLID ....................Composition
MT- GLAZE ,..........Metal Glaze
WIRE WOUND ,.,....Wire Wound
CERAMIC RES.,...,,Ceramic
FUSIBLE RES ........Fusible
. .
Ref. No. Part No. Description
6102700206 ASSY PWB,MAIN F6WZ
lAAOh OE117A0
TRANSISTOR
0101 4050133305
0102 4050166204
4050166402
4050166600
0122 4060006804
405001 7407
405001 7605
4050043109
4050043208
4050044205
4050044809
4050061103
4050061202
4050061707
4050061806
0132 4060006804
405001 7407
405001 7605
4050043109
4050043208
4050044205
4050044809
4050061103
4050061202
4050061707
4050061806
al34 4060006804
405001 7407
405001 7605
4050043109
4050043208
4050044205
4050044809
4050061103
4050061202
4050061707
4050061806
0135 405011 7305
405011 7404
405011 7503
405011 8401
405011 8500
405011 8609
4050122002
4050122101
4050122309
4050191909
4050192708
4050193804
4050207501
4050207709
4050207907
0172 405011 7305
405011 7404
TR 2SC2216(SAN)
TR 2SC3000-O
TR 2SC3000-E
TR 2SC3000-F
TR 2SA1015-GR(SAN)
TR 2SA1015-O(SAN)
TR 2SA1015-Y(SAN)
TR 2SA564A-O(CU)
TR 2SA564A-R(CU)
TR 2SA608-E-CTV-NP
TR 2SA608-F-CTV-NP
TR 2SA933-O
TR 2SA933-R
TR 2SA933S-11
TR 2SA933S-R
TR 2SA1015-GR(SAN)
TR 2SA1015-O(SAN)
TR 2SA1015-Y(SAN)
TR 2SA564A-O(CU)
TR 2SA564A-R(CU)
TR 2SA608-E-CTV-NP
TR 2SA608-F-CTV-NP
TR 2SA933-O
TR 2SA933-R
TR 2SA933S-O
TR 2SA933S-R
TR 2SA1015-GR(SAN)
TR 2SA1015-O(SAN)
TR 2SA1015-Y(SAN)
TR 2SA564A-O(CU)
TR 2SA564A-R(CU)
TR 2SA608-E-CTV-NP
TR 2SA608-F-CTV-NP
TR 2SA933-O
TR 2SA933-R
TR 2SA933S-O
TR 2SA933S-R
TR 2SC1740-O
TR 2SC1740-R
TR 2SC1740-S
TR 2SC1740S-O
TR 2SC1740S-R
TR 2SC1740S-S
TR 2SC1815-GR
TR 2SC1815-O
TR 2SC1815-Y
TR 2SC536-E-NP
TR 2SC536-F-NP
TR 2SC536-G-NP
TR 2SC945A-PA
TR 2SC945A-OA
TR 2SC945A-RA
TR 2SC1740-O
TR 2SC1740-R .
—16—
F6WZ
‘b
.
Ref. No. Part No. Description Ref. No. Part No. Description
405011 7503 TR 2SC1740-S 4050207501 TR 2SC945A-PA
405011 8401 TR 2SC1740S-O 4050207709 TR 2SC945A-OA
405011 8500 TR 2SC1740S-R 4050207907 TR 2SC945A-RA
405011 8609 TR 2SC1740S-S 0202 405011 7305 TR 2SC1740-O
4050122002 TR 2SC1815-GR 405011 7404 TR 2SC1740-R
4050122101 TR 2SC1815-O 405011 7503 TR 2SC1740-S
4050122309 TR 2SC1815-Y 405011 8401 TR 2SC1740S-O
405019 1909 TR 2SC536-E-NP 405011 8500 TR 2SC1740S-R
4050192708 TR 2SC536-F-NP 405011 8609 TR 2SC1740S-S
4050193804 TR 2SC536-G-NP 4050122002 TR 2SC1815-GR
4050207501 TR 2SC945A-PA 4050122101 TR 2SC1815-O
4050207709 TR 2SC945A-OA 4050122309 TR 2SC1815-Y
4050207907 TR 2SC945A-RA 4050191909 TR 2SC536-E-NP
0181 405011 7305 TR 2SC1740-O 4050192708 TR 2SC536-F-NP
405011 7404 TR 2SC1740-R 4050193804 TR 2SC536-G-NP
405011 7503 TR 2SC1740-S 4050207501 TR 2SC945A-PA
405011 8401 TR 2SC1740S-O 4050207709 TR 2SC945A-flA
405011 8500 TR 2SC1740S-R 4050207907 TR 2SC945A-RA
405011 8609 TR 2SC1740S-S a210 4060006804 TR 2SA1015-GR(SAN)
4050122002 TR 2SC1815-GR 405001 7407 TR 2SA1015-0(SAN)
4050122101 TR 2SC1815-O 405001 7605 TR 2SA1015-Y(SAN)
4050122309 TR 2SC1815-Y 4050043109 TR 2SA564A-O(CU)
405019 1909 TR 2SC536-E-NP 4050043208 TR 2SA564A-R(CIJ)
4050192708 TR 2SC536-F-NP 4050044205 TR 2SA608-E-CTV-NP
4050193804 TR 2SC536-G-NP 4050044809 TR 2SA608-F-CTV-NP
4050207501 TR 2SC945A-PA 4050061103 TR 2SA933-O
4050207709 TR 2SC945A-OA 4050061202 TR 2SA933-R
4050207907 TR 2SC945A-RA 4050061707 TR 2SA933S-O
0182 405011 7305 TR 2SC1740-O 4050061806 TR 2SA933S-R
405011 7404 TR 2SC1740-R 0211 4060006804 TR 2SA1015-GR(SAN)
405011 7503 TR 2SC1740-S 405001 7407 TR 2SA1015-0(SAN)
405011 8401 TR 2SC1740S-O 405001 7605 TR 2SA1015-Y(SAN)
405011 8500 TR 2SC1740S-R 4050043109 TR 2SA564A-O(CU)
405011 8609 TR 2SC1740S-S 4050043208 TR 2SA564A-R(CU)
4050122002 TR 2SC1815-GR 4050044205 TR 2SA608-E-CTV-NP
4050122101 TR 2SC1815-O 4050044809 TR 2SA608-F-CTV-NP
4050122309 TR 2SC1815-Y 4050061103 TR 2SA933-O
405019 1909 TR 2SC536-E-NP 4050061202 TR 2SA933-R
4050192708 TR 2SC536-F-NP 4050061707 TR 2SA933S-O
4050193804 TR 2SC536-G-NP 4050061806 TR 2SA933S-R
4050207501 TR 2SC945A-PA 0212 4060006804 TR 2SA1015-GR(SAN)
4050207709 TR 2SC945A-OA 405001 7407 TR 2SA1015-O(SAN)
4050207907 TR 2SC945A-RA 405001 7605 TR 2SA1015-Y(SAN)
0183 405011 7305 TR 2SC1740-O 4050043109 TR 2SA564A-O(CU)
405011 7404 TR 2SC1740-R 4050043208 TR 2SA564A-R(CU)
405 011 7503 TR 2SC1740-S 4050044205 TR 2SA608-E-CTV-NP
405 011 8401 TR 2SC1740S-O 4050044809 TR 2SA608-F-CTV-NP
405011 8500 TR 2SC1740S-R 4050061103 TR 2SA933-O
405011 8609 TR 2SC1740S-S 4050061202 TR 2SA933-R
4050122002 TR 2SC1815-GR 4050061707 TR 2SA933S-O
4050122101 TR 2SC1815-O 4050061806 TR 2SA933S-R
4050122309 TR 2SC1815-Y 0221 4060006804 TR 2SA1015-GR(SAN)
405019 1909 TR 2SC536-E-NP 405001 7407 TR 2SA1015-O(SAN)
4050192708 TR 2SC536-F-NP 405001 7605 TR 2SA1015-Y(SAN)
4050193804 TR 2SC536-G-NP 4050043109 TR 2SA564A-O(CU)
4050207501 TR 2SC945A-PA 4050043208 TR 2SA564A-R(CU)
4050207709 TR 2SC945A-OA 4050044205 TR 2SA608-E-CTV-NP
4050207907 TR 2SC945A-RA 4050044809 TR 2SA608-F-CTV-NP
0184 405011 7305 TR 2SC1740-O 405006 1103 TR 2SA933-O
405011 7404 TR 2SC1740-R 405006 1202 TR 2SA933-R
405011 7503 TR 2SC1740-S 405006 1707 TR 2SA933S-O
405011 8401 TR 2SC1740S-O 4050061806 TR 2SA933S-R
405011 8500 TR 2SC1740S-R 0222 4060006804 TR 2SA1015-GR(SAN)
405011 8609 TR 2SC1740S-S 405001 7407 TR 2SA1015-O(SAN)
4050122002 TR 2SC1815-GR 405001 7605 TR 2SA1015-Y(SAN)
4050122101 TR 2SC1815-O 4050043109 TR 2SA564A-O(CU)
4050122309 TR 2SC1815-Y 4050043208 ~R 2SA564A-R(CU)
405019 1909 TR 2SC536-E-NP 4050044205 TR 2SA608-E-CTV-NP
4050192708 TR 2SC536-F-NP 4050044809 TR 2SA608-F-CTV-NP
4050193804 TR 2SC536-G-NP 405006 1103 TR 2SA933-O
—17—
F6WZ
e
Ref. No. Part No. Description Ref. No. Part No. Description
405006 1202 TR 2SA933-R 405011 7404 TR 2SC1740-R
405006 1707 TR 2SA933S-(1 405011 7503 TR 2SC1740-S
4050061806 TR 2SA933S-R 405011 8401 TR 2SC1740S-O
0241 405011 7305 TR 2SC1740-O 405011 8500 TR 2SC1740S-R
405011 7404 TR 2SC1740-R 405011 8609 TR 2SC1740S-S
405011 7503 TR 2SC1740-S 4050122002 TR 2SC1815-GR
405011 8401 TR 2SC1740S-O 4050122101 TR 2SC1815-O
405011 8500 TR 2SC1740S-R 4050122309 TR 2SC1815-Y
405011 8609 TR 2SC1740S-S 405019 1909 TR 2SC536-E-NP
4050122002 TR 2SC1815-GR 4050192708 TR 2SC536-F-NP
4050122101 TR 2SC1815-O 4050193804 TR 2SC536-G-NP
4050122309 TR 2SC1815-Y 4050207501 TR 2SC945A-PA
405019 1909 TR 2SC536-E-NP 4050207709 TR 2SC945A-OA
4050192708 TR 2SC536-F-NP 4050207907 TR 2SC945A-RA
4050193804 TR 2SC536-G-NP 0431 4050180507 TR 2SC3332-R
4050207501 TR 2SC945A-PA 4050180606 TR 2SC3332-S
4050207709 TR 2SC945A-OA 0432 4050822407 TR 2SD1879-CTV-YB
4050207907 TR 2SC945A-RA 0435 4060006804 TR 2SA1015-GR(SAN)
0242 4060006804 TR 2SA1015-GR(SAN) 405001 7407 TR 2SA1015-O(SAN)
405001 7407 TR 2SA1015-0(SAN) 405001 7605 TR 2SA1015-Y(SAN)
405001 7605 TR 2SA1015-Y(SAN) 4050043109 TR 2SA564A-O(CU)
4050043109 TR 2SA564A-O(CU) 4050043208 TR 2SA564A-R(CU)
4050043208 TR 2SA564A-R(CU) 4050044205 TR 2SA608-E-CTV-NP
4050044205 TR 2SA608-E-CTV-NP 4050044809 TR 2SA608-F-CTV-NP
4050044809 TR 2SA608-F-CTV-NP 4050061103 TR 2SA933-O
405006 1103 TR 2SA933-O 4050061202 TR 2SA933-R
405006 1202 TR 2SA933-R 4050061707 TR 2SA933S-O
405006 1707 TR 2SA933S-O 4050061806 TR 2SA933S-R
4050061806 TR 2SA933S-R 0461 4050647307 TR 2SB1274-O-RA
0243 4060006804 TR 2SA1015-GR(SAN) 4050647406 TR 2SB1274-R-RA
405001 7407 TR 2SA1015-0(SAN) 4050647505 TR 2SB1274-S-RA
405001 7605 TR 2SA1015-Y(SAN) 405 138 1200 TR 2SB1565-D
4050043109 TR 2SA564A-O(CU) 4051381309 TR 2591565-E
4050043208 TR 2SA564A-R(CU) 405 1381408 TR 2591565-F
4050044205 TR 2SA608-E-CTV-NP 0462 405011 7305 TR 2SC1740-O
4050044809 TR 2SA608-F-CTV-NP 405011 7404 TR 2SC1740-R
405006 1103 TR 2SA933-O 405011 7503 TR 2SC1740-S
405006 1202 TR 2SA933-R 405011 8401 TR 2SC1740S-O
405006 1707 TR 2SA933S-O 405011 8500 TR 2SC1740S-R
405006 1806 TR 2SA933S-R 405011 8609 TR 2SC1740S-S
0245 405011 7305 TR 2SC1740-O 4050122002 TR 2SC1815-GR
405011 7404 TR 2SC1740-R 4050122101 TR 2SC1815-O
405011 7503 TR 2SC1740-S 4050122309 TR 2.X1815-Y
405011 8401 TR 2SC1740S-O 405019 1909 TR 2SC536-E-NP
405011 8500 TR 2SC1740S-R 4050192708 TR 2SC536-F-NP
405011 8609 TR 2SC1740S-S 4050193804 TR 2SC536-G-NP
4050122002 TR 2SC1815-GR 4050207501 TR 2SC945A-PA
405 012 2101 TR 2SC1815-O 4050207709 TR 2SC945A-OA
405012 2309 TR 2SC1815-Y 4050207907 TR 2SC945A-RA
405019 1909 TR 2SC536-E-NP 0700 405011 7305 TR 2SC1740-O
4050192708 TR 2SC536-F-NP 405011 7404 TR 2SC1740-R
4050193804 TR 2SC536-G-NP 405011 7503 TR 2SC1740-S
4050207501 TR 2SC945A-PA 405011 8401 TR 2SC1740S-O
4050207709 TR 2SC945A-OA 405011 8500 TR 2SC1740S-R
4050207907 TR 2SC945A-RA 405011 8609 TR 2SC1740S-S
0311 4060006804 TR 2SA1015-GR(SAN) 4050122002 TR2SC1815-GR
405001 7407 TR 2SA1015-0(SAN) 4050122101 TR2SC1815-O
405001 7605 TR 2SA1015-Y(SAN) 4050122309 TR 2SC1815-Y
4050043109 TR 2SA564A-O(CU) 405019 1909 TR 2SC536-E-NP
4050043208 TR 2SA564A-R(CU) 4050192708 TR 2SC536-F-NP
4050044205 TR 2SA608-E-CTV-NP 4050193804 TR 2SC536-G-NP
4050044809 TR 2SA608-F-CTV-NP 4050207501 TR 2SC945A-PA
405006 1103 TR 2SA933-O 4050207709 TR 2SC945A-OA
405006 1202 TR 2SA933-R 4050207907 TR 2SC945A-RA
405006 1707 TR 2SA933S-O 0702 405011 7305 TR 2SC1740-O
405006 1806 TR 2SA933S-R 405011 7404 TR 2SC1740-R
0312 4050580208 TR 2SC3807-R-CTV-YA 405011 7503 TR 2SC1740-S
0313 4050950407 TR 2SC4429-L-YB 405011 8401 TR 2SC1740S-O
4050950308 TR 2SC4429-M-YB 405011 8500 TR 2SC1740S-R
0353 405011 7305 TR 2SC1740-O 405011 8609 TR 2SC1740S-S
.-
.-.
d
d’
—18—
F6WZ
.
.
L
“i-
Ref. No. Part No. Description Ref. No. Part No. Description
4050122002 TR 2SC1815-GR 405011 7404 TR 2SC1740-R
4050122101 TR 2SC1815-O 405011 7503 TR 2SC1740-S
4050122309 TR 2SC1815-Y 405011 8401 TR 2SC1740S-O
4050191909 TR 2SC536-E-NP 405011 8500 TR 2SC1740S-R
4050192708 TR 2SC536-F-NP 405011 8609 TR 2SC1740S-S
4050193804 TR 2SC536-G-NP 4050122002 TR 2SC1815-GR
4050207501 TR 2SC945A-PA 4050122101 TR 2SC1815-O
4050207709 TR 2SC945A-OA 4050122309 TR 2SC1815-Y
4050207907 TR 2SC945A-RA 4050191909 TR 2SC536-E-NP
0708 4060006804 TR 2SA1015-GR(SAN) 4050192708 TR 2SC536-F-NP
405001 7407 TR 2SA1015-0(SAN) 4050193804 TR 2SC536-G-NP
405001 7605 TR 2SA1015-Y(SAN) 4050207501 TR 2SC945A-PA
4050043109 TR 2SA564A-O(CU) 4050207709 TR 2SC945A-OA
4050043208 TR 2SA564A-R(CU) 4050207907 TR 2SC945A-RA
4050044205 TR 2SA608-E-CTV-NP 0791 405011 7305 TR 2SC1740-O
4050044809 TR 2SA608-F-CTV-NP 405011 7404 TR 2SC1740-R
4050061103 TR 2SA933-(1 405011 7503 TR2SC1740-S
4050061202 TR2SA933-R 405011 8401 TR2SC1740S-0
4050061707 TR 2SA933S-O 405011 8500 TR 2SC1740S-R
4050061806 TR 2SA933S-R 405011 8609 TR 2SC1740S-S
0711 405 1184207 TR PH2369 4050122002 TR 2SC1815-GR
0718 405011 7305 TR 2SC1740-O 4050122101 TR 2SC1815-O
405011 7404 TR 2SC1740-R 4050122309 TR 2SC1815-Y
405011 7503 TR 2SC1740-S 4050191909 TR 2SC536-E-NP
405011 8401 TR 2SC1740S-O 4050192708 TR 2SC536-F-NP
405011 8500 TR 2SC1740S-R 4050193804 TR 2SC536-G-NP
405011 8609 TR 2SC1740S-S 4050207501 TR 2SC945A-PA
4050122002 TR 2SC1815-GR 4050207709 TR 2SC945A-OA
4050122101 TR 2SC1815-O 4050207907 TR 2SC945A-RA
4050122309 TR 2SC1815-Y 0792 405011 7305 TR 2SC1740-O
405019 1909 TR 2SC536-E-NP 405011 7404 TR 2SC1740-R
4050192708 TR 2SC536-F-NP 405011 7503 TR 2SC1740-S
4050193804 TR 2SC536-G-NP 405011 8401 TR 2SC1740S-O
4050207501 TR 2SC945A-PA 405011 8500 TR 2SC1740S-R
4050207709 TR 2SC945A-OA 405011 8609 TR 2SC1740S-S
4050207907 TR 2SC945A-RA 4050122002 TR 2SC1815-GR
0781 4060006804 TR 2SA1015-GR(SAN) 4050122101 TR2SC1815-O
405001 7407 TR 2SA1015-0(SAN) 4050122309 TR 2SC1815-Y
405001 7605 TR 2SA1015-Y(SAN) 4050191909 TR 2SC536-E-NP
4050043109 TR 2SA564A-II(CU) 4050192708 TR 2SC536-F-NP
4050043208 TR 2SA564A-R(CU) 4050193804 TR 2SC536-G-NP
4050044205 TR 2SA608-E-CTV-NP 4050207501 TR 2SC945A-PA
4050044809 TR 2SA608-F-CTV-NP 4050207709 TR 2SC945A-OA
405006 1103 TR 2SA933-O 4050207907 TR 2SC945A-RA
405006 1202 TR 2SA933-R 0793 405011 7305 TR 2SC1740-O
405006 1707 TR 2SA933S-O 405011 7404 TR 2SC1740-R
405006 1806 TR 2SA933S-R 405011 7503 TR 2SC1740-S
0782 4060006804 TR 2SA1015-GR(SAN) 405011 8401 TR 2SC1740S-fl
405001 7407 TR 2SA1015-0(SAN) 405011 8500 TR 2SC1740S-R
405001 7605 TR 2SA1015-Y(SAN) 405011 8609 TR 2SC1740S-S
4050043109 TR 2SA564A-O(CU) 4050122002 TR 2SC1815-GR
4050043208 TR 2SA564A-R(CU) 4050122101 TR 2SC1815-O
4050044205 TR 2SA608-E-CTV-NP 4050122309 TR 2SC1815-Y
4050044809 TR 2SA608-F-CTV-NP 405019 1909 TR 2SC536-E-NP
405006 1103 TR 2SA933-O 4050192708 TR 2SC536-F-NP
405006 1202 TR 2SA933-R 4050193804 TR 2SC536-G-NP
405006 1707 TR 2SA933S-O 4050207501 TR 2SC945A-PA
405006 1806 TR 2SA933S-R 4050207709 TR 2SC945A-OA
0783 4060006804 TR 2SA1015-GR(SAN) 4050207907 TR 2SC945A-RA
405001 7407 TR 2SA1015-0(SAN) 0810 405011 7305 TR 2SC1740-O
405001 7605 TR 2SA1015-Y(SAN) 405011 7404 TR 2SC1740-R
4050043109 TR 2SA564A-II(CU) 405011 7503 TR 2SC1740-S
4050043208 TR 2SA564A-R(CU) 405011 8401 TR 2SC1740S-O
4050044205 TR 2SA608-E-CTV-NP 405011 8500 TR 2SC1740S-R
4050044809 TR 2SA608-F-CTV-NP 405011 8609 TR 2SC1740S-S
4050061103 TR 2SA933-O 4050122002 TR 2SC1815-GR
4050061202 TR 2SA933-R 4050122101 TR 2SC1815-O
405006 1707 TR 2SA933S-O 4050122309 TR 2SC1815-Y
4050061806 TR 2SA933S-R 4050191909 TR 2SC536-E-NP
0784 405011 7305 TR 2SC1740-O 4050192708 TR 2SC536-F-NP
—19—
Ref. No. Part No. Description
0857
0858
0871
0873
IN
4050193804
4050207501
4050207709
4050207907
405011 7305
405011 7404
405011 7503
405011 8401
405011 8500
405011 8609
4050122002
4050122101
4050122309
405019 1909
4050192708
4050193804
4050207501
4050207709
4050207907
4060006804
405001 7407
405001 7605
4050043109
4050043208
4050044205
4050044809
4050061103
4050061202
4050061707
4050061806
405011 7305
405011 7404
405011 7503
405011 8401
405011 8500
405011 8609
4050122002
4050122101
4050122309
4050191909
4050192708
4050193804
4050207501
4050207709
4050207907
405011 7305
405011 7404
405011 7503
405011 8401
405011 8500
405011 8609
4050122002
4050122101
4050122309
405019 1909
4050192708
4050193804
4050207501
4050207709
4050207907
EGRATED CIRCUIT
TR 2SC536-G-NP
TR 2SC945A-PA
TR 2SC945A-OA
TR 2SC945A-RA
TR 2SC1740-O
TR 2SC1740-R
TR 2SC1740-S
TR 2SC1740S-O
TR 2SC1740S-R
TR 2SC1740S-S
TR 2SC1815-GR
TR 2SC1815-O
TR 2SC1815-Y
TR 2SC536-E-NP
TR 2SC536-F-NP
TR 2SC536-G-NP
TR 2SC945A-PA
TR 2SC945A-OA
TR 2SC945A-RA
TR 2SA1015-GR(SAN)
TR 2SA1015-O(SAN)
TR 2SA1015-Y(SAN)
TR 2SA564A-O(CU)
TR 2SA564A-R(CU)
TR 2SA608-E-CTV-NP
TR 2SA608-F-CTV-NP
TR 2SA933-O
TR 2SA933-R
TR 2SA933S-O
TR 2SA933S-R
TR 2SC1740-O
TR 2SC1740-R
TR 2SC1740-S
TR 2SC1740S-O
TR 2SC1740S-R
TR 2SC1740S-S
TR 2SC1815-GR
TR 2SC1815-O
TR 2SC1815-Y
TR 2SC536-E-NP
TR 2SC536-F-NP
TR 2SC536-G-NP
TR 2SC945A-PA
TR 2SC945A-OA
TR 2SC945A-RA
TR 2SC1740-O
TR 2SC1740-R
TR 2SC1740-S
TR 2SC1740S-O
TR 2SC1740S-R
TR 2SC1740S-S
TR 2SC1815-GR
TR 2SC1815-O
TR 2SC1815-Y
TR 2SC536-E-NP
TR 2SC536-F-NP
TR 2SC536-G-NP
TR 2SC945A-PA
TR 2SC945A-OA
TR 2SC945A-RA
Iclol 4093808703 IC TDA8361/N5
IC181 4093333601 IC TDA2546A/V4
1C270 4093220505 IC TDA4662/Vl
409371 6909 IC TOA4662/V2
4093520803 IC TOA4665/V3
409371 7005 IC TOA4665/V4
IC351 4093628509 IC AN78M12
4093652900 IC 8A178M12T
F6WZ
Ref.No. PartNo. Description
C352
C451
C701
IC790
IC801
IC871
CAPACITOR
Clol
C103
C104
C105
C106
C108
CI09
Cllo
C113
C114
C115
C117
C119
C121
C122
C123
C126
C127
C128
C129
C130
C131
C132
C134
C135
C136
C137
C138
C140
C143
C145
C147
C180
C181
C182
C183
C184
C185
C186
C188
4092691207
4093661803
4092849608
4093625003
4093652801
4092691108
4093661704
4093177205
4091925709
4102268108
4092477702
4093761503
4093472300
4092577204
409281 8307
4093333700
409051 3006
4090187603
4030430202
4030469905
4030469905
4030490008
4030469905
4030260700
4030226003
4030239706
4030698305
4030698305
4030698305
4030439106
4030140408
4030620306
4030620504
4031790909
4030572803
IC L78M12CV
IC MC78M12CT
IC UPC78M12AHF
IC AN78M08
IC BA178M08T
IC L78M08CV
IC MC78M08CT
IC UPC78M08AHF
IC LA7833
IC M3721OM4-526SP
IC ST24C02AB1
IC ST24C02B6
IC ST24C02CB1
IC X24C02P
IC 24C02A/P
IC 24LC02B/P
Ic TC4053BP
IC LA7016
ELECT
ELECT
ELECT
ELECT
ELECT
CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC
ELECT
CERAMIC
POLYESTER
POLYESTER
POLYESTER
POLYESTER
4030573107 POLYESTER
403181 8207 POLYESTER
403041 8B04 ELECT
4030689006 CERAMIC
4030690507 CERAMIC
403049 9B03 ELECT
4030282009 CERAMIC
4030698305
4030439106
403166 6B08
4030675603
4032378007
4030690507
4031666808
4030675603
4032378007
4030441703
403 1666808
4030675603
4032378007
4030490008
4030698305
403011 3402
4030225907
4030093001
403041 8804
4030738308
403069 B305
4030698305
4030698305
4030282009
4030131604
4031668000
CERAMIC
ELECT
MT-POLYEST
MT-COMPO
MT-COMPO
CERAMIC
MT-POLYEST
MT-COMPO
MT-COMPO
ELECT
MT-POLYEST
MT-COMPO
MT-COMPO
ELECT
CERAMIC
CERAMIC
CERAMIC
CERAMIC
ELECT
CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC
MT-POLYEST
220UM 16V
4.7UM 25V
4.7UM 25V
lUM 50V
4.7UM 25V
47P J 50V
33P J 50V
39PJ 50V
O.oluz 50V
O.olu z 50V
O.olu z 50V
47UM 16V
lBPJ 50V
0.047U K 50V
0.047U K 50V
0.047U K 50V
O.lUK 50V
O.li K iOV
O.lUK 50V
10UM 16V
100P K 50V
000P K 50V
2.2UM 50V
56P J 50V
O.olu z
47U M
O.lU J
O.lU J
O.lU J
1000P K
O.lU J
O.lU J
O.lU J
470U M
O.lU J
O.lU J
O.lU J
lU M
O.olu z
120P J
33P J
100P J
10U M
4700P K
O.olu z
O.olu z
O.olu z
56P J
150P J
0.33U J
50V
16V
63V
50V
50V
50V
63V
50V
50V
16V
63V
50V
50V
50V
50V
50V
50V
50V
16V
50V
50V
50V
50V
50V
50V
63V
.-
W
-/
d
—20—
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