FILE NO. SERVICE MANUAL Colour Television Model No. CP25SEI (Australia/New Zealand) Service Ref. No. CP25SEI -00 Specifications Power Source .................... AC 220 – 240 Volts, 50 Hz. Colour System ................... pAL-WG Product Code: 111335518 and Television Svstem (AV input: PAL/NTSC/NTSC4.43/PAL- 60Nz) Channel Coverage ............. VHF: 0-11, 5A (Australia), 1-11 (New Zealand) L Original Version UHF: 28- 69(Australia), 21- 69(New Zealand) CATV: S1 - S41 , X, Y, “Z, Z+l , Z+2 Video IF.,., ......................... 38.9MHz Aerial Input Impedance ...... 75 Q Ext. Terminals .................... >’ AV inputs: Video inputs: Phono jack x 1 Audio inputs: Phono jack x 1 AV outputs: ; Video outputs: Phono jack x 1 Audio outputs: Phono jack x 1 Headphone Jack: Mini, Jack x 1 Sound Output (Music) ........ 5.0 W Dimensions ........................ 588(W)X531 (H)x455(D)mm Weight(approx.) ................. 29 Kg Specifications subject to change without notice. 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 design specifications. Refer to the specification table. L F6EY REFERENCE NO. SM 51025
24
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FILE NO.
SERVICE MANUAL Colour Television Model No. CP25SEI(Australia/New Zealand)
Service Ref. No. CP25SEI -00
SpecificationsPower Source .................... AC 220 – 240 Volts, 50 Hz.Colour System ................... pAL-WG Product Code: 111335518and Television Svstem (AV input: PAL/NTSC/NTSC4.43/PAL- 60Nz)
Channel Coverage ............. VHF: 0-11, 5A (Australia), 1-11 (New Zealand)L Original VersionUHF: 28- 69(Australia), 21- 69(New Zealand)CATV: S1 - S41 , X, Y, “Z, Z+l , Z+2
AV inputs:Video inputs: Phono jack x 1Audio inputs: Phono jack x 1
AV outputs:
; Video outputs: Phono jack x 1Audio outputs: Phono jack x 1
Headphone Jack: Mini, Jack x 1Sound Output (Music) ........ 5.0 WDimensions ........................ 588(W)X531 (H)x455(D)mmWeight(approx.) ................. 29 Kg
Specifications subject to change without notice.
Chassis Series: AAl -A
Give complete “SERVICE REF. No.” for partsorder or servicing. It is shown on the rating plateat the cabinet back of the unit.
This T.V. receiver will not work properly inforeign countries where the television trans -mission system and power source differ from thedesign specifications. Refer to the specificationtable.
1. POWER SUPPLYThe power supply circuit of the AAl - A chassis iscomposed of a rectifier smoothing circuit, an oscillationcircuit, a control circuit and an output rectifier circuit.The AC input voltage is full-wave rectified by the rectifiersmoothing circuit, and an unstable DC voltage is
generated at both terminals of the smoothing capacitor
C307. This voltage is input to the oscillation circuit. Theoscillation circuit is provided with a blocking oscillator
circuit that switches the switching transistor Q313 ON andOFF, and an oscillation frequency and a duty squarewave pulse are generated in the input windings accordingto operation of the control circuit. A square- wave pulsewhose size is dependent on the turn ratio of the input and
output windings is obtained in the output winding. This isrectified in the output rectifier circuit, and the desired DCvoltage is obtained.
2. IF& DEFLECTIONThe IF output signal from the tuner passes through the
SAW filter, and it is input to pin45 and pin46 of ICI 01.The signal input to the IC passes through the IF amplifier,
video detection and video amplifier circuits and is output
from pin7 as a composite video signal.And after this signal is converted to impedance at Q1 34,supplies to the video and chroma amplifier stages.
The output signal from pin7 passes through the
5.5MHz(B/G)/6.0MHz( l)/6.5MHz(D/K)/4 .5MHz(M) filteringcircuit, and it is input to pin5 of IC1 01. The signal input tothe IC passes through the SIF amplifier, FM detector,external audio switch and audio output circuit, and it isthen output from pin50 as audio drive signal.The sync. - separation circuit separates the video signalsapplied to pinl 3 or pinl 5 to vertical- and horizontal- sync.signals respectively.
The horizontal oscillator requires no external componentsand is fully integrated. The oscillator is always running
when the start- pin36 is supplied with 8V.Horizontal drive signal is output from pin37. VR401 is foradjustment of the horizontal centering.The separated vertical sync. signal from sync. separationcircuit passes through the vertical - separation circuit, andapplied to trigger divider circuit.
The horizontal oscillation pulse and input vertical sync.pulse are monitored by the trigger divider circuit, andswitching 50Hz and 60Hz system, the vertical amplitudeautomatically adjusted for 50Hz and 60 Hz.The output signal from the trigger divider is triggeredvertical oscillation circuit consisting of R401 ,C402 and
pin42, and vertical drive pulse is output from pin43.
VR451 is for changing the amount of AC feedback applied
to pin41 and for adjustment of the vertical amplitude.
3. VIDEO CHROMAThe composite video signal output from the pin7 of [Cl 01passes through Q122/ Q1 34, and it is supplied to pin13.The external video signal output from AV terminal passesthrough IC801, and it is supplied to pin15.The video signal input to pin13 or pin15 is separated to
luminance (Y) signal and chroma signal in IC1 01. Thesepins are used in common with H/V - sync. separation
input.
The peaking of Y signal is adjusted by DC voltage ofpin14.(’’SHARPNESS” control)The chroma signal is divided into R - Y, B - Y chroma
signals, demodulated in IC1 01,and output from pin30 (R - Y) and pin31 (B - Y). Thesechroma signals pass through the 1H delay line circuit(IC270), and they are input to pin29 (R- Y) and pin28 ( B-Y). These R - Y/B - Y signals pass through RGB matrixcircuit and RGB selector circuit of IC1 01. The internalRGB signals are generated in RGB matrix circuit and the -RGB selector, consisting linear amplifiers, clamps and
selects either the internal RGB signals or the external
Selection is controlled by the voltage at the RGB switchcontrol (pin21 ) and mixed RGB modes are possible sinceRGB switching is fast.The RGB switch also functions as a fast blanking pin byblanking the RGB output stages; here internal andexternal RGB signals are overruled.
The colour gain is controlled by DC voltage of pin26.(“COLOUR” control)The contrast control voltage present at pin25, controls the
RGB signal gain, and the brightness control voltagepresent at pin17 controls DC level of RGB signals.The RGB signals are finally buffered before beingavailable at the RGB output pins [ pin20 (R), pin19 (G),
pin18 (B)].d
4. AUDIO OUTPUTThe audio signal output from pin50 of IC101 is input topin2 of IC1 101 and passes through the pre - amplifiercircuit and drive circuit, after which it is input to the audioamplifier. The audio amplifier is an SEPP (Single- Ended
Push Pull) type and output to pin8 to directly drive thespeaker.
.-.’
–4–
Circuit Description
5. VERTICAL OUTPUT.An IC (LA7833) is used for the vertical output circuit in thischassis. The vertical drive pulse from pin43 of ICI 01 is
input to pin4 of IC451. This pulse drives IC451, and
vertical scanning is performed. In the first half of scanninga deflecting current is output from pin2 and passes
through the following path:
VCC(B4) + D451 + pin3 + pin2 + DY + C461 +
vR451/R459.
An electric charge is then stored in C461. In the last half ofscanning the current path is:
C461 + DY + pin2+ pinl +VR451/R459+ C461
In this way, an amplifying sawtooth waveform current
flows directly to DY to perform electron beam deflection.
L Next, in the first half of the blanking period the vettical
drive pulse suddenly becomes OFF, and in order to
reduce the current flowing to DY, the current path
becomes as follows by the inductance of DY:
DY+ pin2 + pinl +VR451/R459 * C461 + DY
Also, when the charge of DY has dissipated, the current
and when the prescribed current value is reached, the
vertical drive pulse becomes ON. This completes one
cycle.
6. HORIZONTAL OUTPUTA horizontal oscillation signal is output from pin37 ofbIC101 and switches the drive transistor Q431. This
switching signal is current amplified by the drive
transformer T431 and drives the output transistor Q432.
When Q432 becomes ON, an amplifying current flows
directly to DY through
C441 /C442 + L441 /R441 * DY + Q432- C + Q432- E
and deflection is performed in the last half of the scanning
period. Next, when Q432 becomes OFF, the charge that
had been stored in DY up to that point releases a
resonance current to the resonant capacitors C420 and
C423 and charges them. The current stored in C420 and
C423 is then flowed back to DY, and an opposite charge
is then stored in DY. This opposite charge then switches
the dumper diode in Q432 ON, the resonance state is
completed, and an amplifying current is then flowed again
b
directly to DY through the dumper diode.By this means, deflection in the first half of the scanning
period is performed , and when Q432 becomes ON at the
end of the first half of the scanning period, deflection
during the last half is begun, thus completing one cycle.
7. SYSTEM SWITCHING(For multi- standard modei)
The system switches (S1 - S11 ) are used for muiti -
standard model.
(Refer to Block Diagram of system switching circuit)
S1 :Switch for band-limiting on NTSC(3.58) mode (D106)This switch is driven by ON/OFF signal of CPU
(pin39).
S2:Switch for sound carrier trap on NTSC(3.58) mode(D120)
This switch is driven by signai of CPU (pin39) too.
S3:Switch for sound carrier trap except NTSC(3.58) mode
(D121)This switch is driven by invetting signal of CPU
(pin39).
S4:System switch for forced SECAM mode (Q203)This switch is driven by ON/OFF signal of CPU
(pin40).
S6:System switch for forced 4.43 mode (Q222)
This switch is driven by ON/OFF signai of CPU(pin41).
Note: When the colour system is set to “AUTO, both S6and S7 will turn on.
S7:System switch for forced 3.58 mode (Q221 )This switch is
(pin42).
S8:System switchmode (Ql 53)
This switch is
(pin39).
S9:System switch
(Ql 54)This switch is
(pin38).
driven by ON/OFF
for 4.5MHz fiitering
driven by ON/OFF
for 5.5MHz filtering
driven by ON/OFF
SIO:System switch for 6.OMHZ filtering onThis switch is driven by ON/OFF
(pin37).
signai of CPU
on NTSC(3.58)
signai of CPU
on B/G mode
signal of CPU
i mode (Ql 55)signal of CPU
S1 l’:System switch for 6.5MHz filtering on D/K mode
(Q156)This switch is driven by ON/OFF signal of CPU
(pin36).
Note: When the TV system is set to “AUTO, S8, S9, S1 O
and S11 will turn on.
–5–
Service Adjustments
B1 POWERSUPPLY ADJ. HORIZONTAL WIDTH ADJ.
MAIN UNIT / /
01>2
00858
aQ857
0113w
$Z$?0152 G ~ ~
a aaa
-0111
BQ122 .I@l
~ T121
KDYVF1462
H-WIDTHjo o 001
H-DRIVETRANS
❑T431
o
4lH DELAY0791
6
02030
T
o 1
0
0 ‘L”’%::ii”””qg:-
0K7S
ql: GREEN BIAS
00
@.
0
~“ ,J K7S1
di VR781
0 ‘ BLUE DRIVE
..E,; q
~ Onl : VR761. RED DRIVE _.
K7A
Oo 0°
w
0202
a
0
@TP– D
❑ jTIOl
EEL AAGC ADJ.
d
–6– “
Service AdWstments.
SAFETY PRECAUTIONS :An isolation transformer should be connected in the power line between the receiver and the ACL 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 picturetube is specially constructed to limit X-RADIATION emission, For continued X-RADIATION protection, the replacement tube mustbe 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 highvoltage limits. If high voltage exceeds specified limits, take necessary corrective action. Carefully follow the instructions for + B1 voltpower 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 contrastcontrols 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 lust disappears.
(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 synchronizedpicture.
(3) Adjust +Bl adjustment control(VR351 ) for 140 f 0.5 voltDC.
(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.
ical center
(1) Receive the monochrome circular pattern.(2) Set the brightness and contrast to normal.(3) Vertical size can be adjusted by using VR451.
rtical 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 andVR762- red) alternately until a dim 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 - brightnessadjustment.
(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 a high voltage probe to anode lead of the picturetube.
(2) Receive the monochrom circular pattern.(3) Set the brightness and contrast to maximum.(4) The high voltage must be between 28-30* 1KV.
NOTE: If the picture tube is replaced, check the high voltage.
–7–
VIF Adjustment
item Detector Adj. Overall Waveform Adj.
DC 15V R368(C364 side) R368(C364 side)
IF AGC(3.5-4.5V) IC101 - pin48 IC101 - pin48
.: BAND VH (Q782 and Q784-Base + VH (Q782 and Q784-Base * Ground, through 1kg Ground, through 1k !2 resistor) S2resistor)
E Output Probe Tuner- TP Tuner- TP
~ Input Probe Q1 22-Emitter Q1 22-Emitter
TU 12V Tuner-TU Tuner-TU
Dumping Resistor Not used 100 S2Dumping Resistor+ RI 24
“: $weep ATT. 25 dB 25 dB
g Output Probe side b side b: Oscilloscope Sens, 10OmV/DIV 10OmV/DIV
u
Adjust P (38.9MHz) to be By using tuner converter coil and T1 01, adjust theAdjustment maximum amplitude by using marker position to be P(36,875MHz)=45Y0 f 10YO,
.; BAND VH (Q782 and Q784-Base * Ground, VH (Q782 and Q784-Base * Ground, through
a) through 1k S2resistor) 1k Q resistor)
: Output Probe Tuner-TP Tuner-TP
~ Input Probe TP-D TP-D
TU 12V Tuner-TU Tuner-TU
: Sweep Att. 25 dB 25 dB
:~ SG Output Att. 30 dB 30 dB
: Output Probe side b side b
g Oscilloscope Sens. 1V/Div 1V/Div
Keep IF AGC voltage which was Set the VIF Adjustor Sweep off and Pix SG to
Adjustmentadjusted VIF adjustment. Cw output.Conform the marker position By using T1 21, adjust DC voltage to be 3.6V tP(36,875MHz) nearby the Ref. line. 0.2V.
Waveform -s~;,,,~ne ,r.+;v
DC 15V
o~~’C364IC351
Fi368 Ion IC352
4
—
“w
VR351
KDYVR462
IC790
o4
0
‘ -“:--l-0610
Input Probe
*
AFT Adj. (Fine)
Output Probe
o 0 00[
q
o 0245
DIC451
VERT.AMP.
000
VR451KSC ** (VHF High Band eetting)
o SW451Q:;;T.
K802
DOWN + UP
VERT, CENTERMAIN UNIT
,C67, ~
TP –
@TP-D
KI@ TIO
Oscilloscope
a 0.002UF* Sweep
Markeb Generato
3“4
y (VHF High Band Setting)
V0783
–9–
CAUTION: The Convergence and Purity adjustments have been made at the factory. Readjustment shouid be .made oniy after picture tube or defection yoke replacement, foiiowing the steps beiow:
PURiTY ADJUSTMENT1.Demagnetize the picture tube and receiver using an external
degaussing coil. When replacing picture tube or deflectionyoke, mount deflection yoke and purity - convergencemagnets 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 Redand Blue Bias controls fully counterclockwise. Slowly rotateGreen Bias control clockwise to produce Green raster.
3. Loosen the screw holding the Deflection Yoke and removethe 3 Rubber Wedges, and slide the Deflection Yoke fullyfrontward.
4, Rotate and spread the Tabs of the two Purity Magnets tocenter the vertical green belt in the picture screen. The PurityMagnets are also adjusted to obtain vertical centering of theraster.
5. SIOWIY slide the Deflection Yoke backward until a uniformgreen 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 arepure.
7. Adiust each Bias control and screen control to obtain white
8. Tighten the mounting screw of the Deflection Yoke. AdjustConvergence next.
CENTER CONVERGENCE ADJUSTMENT1.Use a dot 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 1and2,and superimpose the Red and Blue vertical lines in thecenter area of the picture screen. Refer to figure 2.
3. Keeping the mutual angle of the Tabs of the Four PoleMagnet turn them together to superimpose the Blue and Redhorizontal lines in the center area of the picture screen. Referto figure 2.
4. Turn Green gun on and adjust Six Pole Magnet 3 and 4s thatthe 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 ADJUSTMENTd
Slightly loosen the screw holding the Deflection Yoke. Adjustthe Deflection Yoke to converge the detail in the outer area (leftside and right side) of the picture screen by orbital movement ofthe front of the Yoke, then secure the Deflection Yoke in
raster. Refer to Gray Scale Adjustment. If part of the picture appropriate position by putting the wedges as illustrated.
screen is coioured, adjust the Deflection Yoke position Tighten screw holding the Deflection Yoke,
Adjust tabs angle to superimposeblue and red vertical line
I Adjust tabs together toRED
+
superimpose red and
\--- ,~ [/blue horizontal line
.-.
BLUE 1I
Adjust tabs angle to superimposered/blue and green vertical line
J Adjust tabs together to
+
GREEN
/
superimpose red/blue
\___ ;’ _J- and green horizontal line
IBLUE/RED
Figure-2 BLUE AND RED LINE MOVEMENT Figure- 3 BLUE/RED AND GREEN LINE MOVEMENT
–lo–
CABINET PARTS LISTNote : Parts order must contain Service Ref. No., Key No., Parts No., and Description.L
7
‘ey Part No.Key
No. No.
1. 6102542295 POWERBUTTON 8.
I 6102298406 COIL SPRING I 9.
2. I 610 281 0516 DEC INLAY I 10.
3. I 610 279 9743 DOOR I or
4.
or
5.
6.
6a
6b
6450192449 LATCH PUSH
6450062919 LATCH PUSH
6102561418 DEC CONTROLSHEET
6102799668 ASSY,CABINET FRONT
6102799651 ASSY,CABINET FRONT
6102799767 DEC SPEAKERLEFT
11.
12.
6C I 610 Zj’g g774 DEC SpEAKERR1GHT I7“ I 6450234316 BADGE.SANYO I
INI mmmI mima IIUIIIIIRIimi num o mm nmIIIIIH
ml 11111111111SJ ml 11111111111IINl ml 111111111111111imt lmumiIIIuwniu
\ 1.
10
9
y.
“12
Part No. I Description
6102556728 CABINET BACK
6102800111 LABEL RATING
6450032837 ANT MATCHING BOX
6102303216 ANT MATCHINGBOX
6450177163 ASSY,REMOCONJXZA
610 261 8020 RC-BATTERYLID
6102800197 INSTRUCT10NS MANUAL
–11–
!
Memory IC (IC790) Replacement (Important Note ! )
When Memory IC (IC790) is replaced, it is necessary to make the initializing of IC790 as following procedure.
❑1
❑2
❑3
❑4
Switch off the TV set.
Replace IC790.
Switch on the TV set, and set to the TV mode.
Press and hold the FUNCTION O button on the front control panel of the TV set, then press theRECALL/COLOUR SYSTEM @%utton on the remote control transmitter.
\ J \ I
V qFUNCTION
1ITEM-1 SET -+ 1
II5 If the setting data is” 1 “, select “O by pressing LEVEL( + or – ) @ button.
El6 Press the RECALL/COLOUR SYSTEM @
~LEVEL
etc.
ITEM-1 SET + O
r
button to return to the normal TV mode.
The initializing is now completed.
REMARKS: If there is mistaking the procedure, switch off the TV set and repeat steps (3) to (6).
❑7 Make the channel pre-setting operations to allocate the TV channels (Refer to the instruction manual of this TV set).
4
–12–
F6EY
CHASSIS ELECTRICAL PARTS LIST--
L
Product safety should be considered when a component replacement is made in any area of a receiver.Components indicated by a ~ mark in this parts list and the circuit diagram show components whose value havespecial significance to product safety. It is particularly recommended that only parts specified on the following partslist be used for components replacement pointed out by the mark.
Note: Part order must contain Service Ref. No.,Part No.,and descriptions. The main PCB unit will be supplied without tuner andflyback transformer, They should be ordered separately.
Read descriCAPACITOFCERAMIC j
T
m in the Capacitor and Resister as follows
~ K 50V
I__~ Rated Voltage
Tolerance Svmbols:Leee than 10PFR: +0.25- OPF S: +0- 0.25PF E +0-1 PFMore than 10PFk Not S~Ckd &Ao,I% c: * 0,2594,D * 0.5% F*1% G: k 2%H: ~ 3% J:f5% K.*l I)%L: f15% M: ~ 20% N: ~ 30%P +100-0% a +30- 10% T +50-10%u: +75- 10% v: +20- 10% w: +100-10%x: +40- 20% Y +150-10% Z +80-20%
100JA l/4W5.6K JA l/6WlK JA l/6W220 JA l/6W56 JA 1/6W
3.9K JA l/6W680 JA 1/6W47 JA 1/6W68K JA l/6W220KJA 1/6W6.8K JA l/6W180JA 1/6W5.6K JA l/6W100JA l/6W5.6K JA l/6W10KJA l/6W6.8K JA l/6W47K JA 1/6W180JA 1/6WlK JA l/6W220 JA 1/4W390JA l/6WlK JA l/6WlK JA l/6W
8.2K JA l/6W820 JA 1/6W68 JA l/6WlK JA l/6W560 JA l/6WlK JA l/6W10KJA l/6W15KJA l/6W100KJA l/6W
100JA 1/6W100JA l/6WlK JA l/6WlK JA l/6WlK JA l/6W10K JA l/6W1.8KJA l/6W470 JA l/6W470 JA 1/6W470 JA 1/6W390 JA l/6W8.2K JA l/6W15KJA l/6W8.2K JA l/6W15KJA l/6W4.7K JA l/6W4.7K JA l/6W120KJA l/4WlK JA l/6W10K JA l/6W33K JA l/6W10KJA 1/6W10K JA l/6WlK JA l/6W
3.3K JA 1/6W1.2KJA l/6WlK JA l/6W68K JA l/6W10K JA l/6W220 JA 1/6W5.6K JA l/6W22K JA 1/6WlK JA l/4W47 JA 1/4W
120KJA l/2W120KJA l/2W15KJA l/4W2.7K JA l/6W47 JA 2W6.8 JA 2W6.8 JA 2W3.3K GA l/4W5.6M KA 1/2W5.6M KA l/2W150KJA l/4W6.2K JA l/6W180KJA l/4W68K JA l/2W22K JA 1/6W2.2 JA 2W2.2 JA 2W10K JA l/6W15 JA 2W8.2 JA 2W22 JA 2W22 JA 2W470 JA 1/6W100JA 1/6WlM JA l/6W100 JA 1/6W22K JA 1/6W100JA 1/6W390KJA 1/6W22K JA 1/6W100 JA 1/6W4.7K JA 1/6W22K JA l/6W10K JA l/6W5.6 KA 5W5.6 KA 5W