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Transcript 
GoldSt<tr
ASK & CO. ELEKTITONIKK
LYNGBOVEII:N 52
t-nxst-'.vAc
TLF.55 3448 93 FAx 55 34 I i l0
OSCILLOSCOPE
os-g020P
SERVICE
MANUAL
€I GoklStor Jrrecision Go.,LtGl.
GoldSt<tr
OSCILLOSCOPE
os-g020P
SERVICEMANUAL
ASK & CO. I'I,I.]KT'RONIKK
LYNGB['VEIEN52
E l ti t.nxsr.vAc
TLF.ss344tt93 FAXs-5341l 10
t r o R w Ay
lrneclslon Go-,Ltcl.
M OoklStcrr
# 2 0 ,Y o i d o - d o n gY, o n g d u n g p o - g uS.e o u l' l8 0 - 1 2 1 ,K o r e a
1 9 t hF l . ,E a s tT o w e r ,L u c k y - G o l d s tTa w
r i nT o w e r s
Y o i d oP O . B o x 4 Q 4
T e l : ( 0 2 )7 8 7 - 6 8 6 26 8 2 8T t x : G S F A D AK
R2 2 9 3 8
F a x (: 0 2 ) 7 8 4 -16 4 6 , 18 7- 6 8 18 C a b l e: G O L D R A D A R
Gold5tctr frreclslon
1 3 0 1 3E a s t1 6 6 t hS t r e e tC e r r i o r sC, a , 9 0 i 0 1 - 2 2 2 6U, S A
Tel:(213)404-0101
F a x(:2 1 3 ) 9 2 1 - 6 2 2 1
T l x ; B 'Q
l - 5 6 3 - 517I L G I L A
Servicing Precautions
Please read alI instructions
in the service rnanual throughly
before servicing.
Disconnect power cord fron power source before opening the
enclosure.
Instructions
1. To naintain
the precj"sion and reliabili.ty
2. After turning
before use.
of the product use it.
on power, please allow a 1S-ninute per-heating
period
power cord is to be used for the product. But when you
3. Triple-Iine
are using the doubleline cord, make sure to connect the earth terninal
of the product to the earth at the power source for safety.
4. For quality inprovenent the exterior
product can be changed without prior
design and specifications
notice.
of the
Warranty
Warranty service covers a period of one year fron the date of original
purchase.
In case of technical failure within one year, repair service wiII be
provided by our service center.
We charge for repairs after the one year warranty period expires.
when the failure is a result of user's neglect, natural disaster or
accident, we charge for repairs regardless of the warranty period.
Notice
This Serivce Manual describes the most typical product of this model.
If there are any specific differences between this Manua] and the
servi.cing unit, please contact GoIdStar Precisj.on Co.. Ltd.
(iol-dStar
Preci-siorr
-2-
Co-,
I-td.
CONTENTS
CATI
]-.
SPECIFI
2.
ACCESSORIES
3.
PREVENTI\/E
4.
CIRCIJIT
5.
CAI-IBRATI
ON
MAINTENA\ICE
7A
DESCRIPTION.
13
ONI .
5-1. Calibration Interval ..
13
5-2, Test Equipment Required
13
5-3. Prelininary Procedure ..
13
.......
5-4. Prelininary Control Settings ....
5-5. Initial
6.
7-
EI-ECTRI
(WITFI
A-
EI-ECTRI
9.
BI-OCI{
CAI-
24
ARRAAIGEMEIVT
I-OCATIONS)
PARTS
I-I
25
27
ST
DIAGRAM.
SCI{EMATIC
1 -1 - .
WIRTNG
DIAGRAM
L2.
MECFIANI
vI EW
CAI-
EX:TERNAI-
I-EAD
PARTS
CAIADJTISTMENT
Lg.
A3.
14
Starting Procedure
SEMI
COI\IDtTCTOR
()1\I
CONFI
GTIRATI
14
43
DIAGI?AMS
.......
.
PARTS
44
58
I-I
ST
& EXPI.-ODED
59
VIEWS
62
-4-
1.
SPECIFICATIONS
PART
SPECIFICATIONS
' CRT
1) Configration and
useful screen
6-inch rectangular screen with internal graticule ; 8x10 Div
( 1 div = 1 Cn ) , marking for neasurenent of rise tine.
Znm subdivisions along the centraL axis.
2) Accelerating potential.
+1.9KV approx. (ref.
3) Phosphor
P43
4) Focussing
possible
5) Trace rotatj.on
provided
6) Intensity
provided
control
r Z-Axis input
(Intensi ty Modulation)
1) Input signal
Posi.tive going signal decreases intensity +svp-p or nore signal
cases noticeable nodulation at nornal intensity setti.ngs.
DC - ZMHz (-3dB)
2) Band-width
DC
3) Coupling
ZAK - 30Kohns
4) Input inpedance
30V ( pQ+pgak AC )
5) Maxinun i"nput voltage
r Vertical Deflection
1) Band-width (-3dB)
DC coupled
coupled
DC to ZAMHz nornal
DC to IAMHZ magnified
LbHz t o ZLllHz nornal
lAHz to MlllHZ nagnifj.ed
(CH1 only)
(CH1 only)
CHl, CHZ, ADD. DUAL ( CH0P ; Tine,/div switch - A.Zs to 5nS ,
ALT ; Tine,/div switch ZnS to 0.ZuS )
Modes
Deflection
cathode)
Factor
4) Accuracy
5) Input inpedance
6) Maxinun input voltage
SnV./div to SV,/div in 10 calibrated steps of a l-2-5 sequence.
Continuously variable between steps at least I:2.5
x5 MAG; lnV,/div to 1V,/div in 10 calibrated steps. (CHl only)
nornal
x3%
magnified
approx. lM-ohn in paralIeI
t 5% (CH1 only)
with 30pF
DirectiZSAV (Dc+peakAC),with probe;refer to probe specification
7) Input coupling
DC-GND-AC
-5-
PART
SPECIFICATIONS
8) Rise tine
17.5nS or less(35nS or less;
9) CHl out
Z5nV/divXZA% into 50 ohns
10) Polarity
invertion
r Horizontal Deflection
1) Display nodes
2) Tine base
A
X-Y , xlt
VARIABLE
10 tines (naxinun sweep rate ; ZLnS/div)
Note ; 50nS,/div.ZLnS/div of TIME BASEare uncalibrated.
f.5% QC
to 40C),
additional
norn,
auto,
LINE , EXT
2)
for-
3)
and
AUTO,NORM
20Hz-ZMHz
INT (VERT) 4 . 5 d i v Q . A )
EXT
TV-V, TV-H
6) External trigger
Input inpedance
Max. input voltage
0.2 llp-p
1)
error for nagni.fier t2%
AC
4) Slope
t,
TV-V, TV-H
INT ( CH1,CHz,VERT )
3) Coupling
5) Sensitivity
Frequency
tC
A.ZS/div in 19 calibrated steps, L-2-5 sequence.
continuous control between steps a t l e a s t 1 : 2 . 5
r Trigger Systen
1) Modes
2) Source
2)
3)
t3%,
4) Accuracy
ZAHz to t0llHz( -3dB )
CH2 only
b.2us/div b
uncalibrated
3) Sweep nagnification
xb MAG)
;
1)
ZAHz-ZAMHz
1.5 div (3.0)
0.8 Vp-p
at Least 1 di"v or 1. 0Vp-p
approx. 1 M-ohn
250V ( DC + paek AC )
I
1)
2)
rE
t
1)
2)
3)
4)
5)
PART
* X-Y 0peration
1) X-axis
SPECIFICATIONS
(same as CHl except for the following)
Deflection factor ; sane as that of CH1
Accuracy
; X5%
Frequency response; DC to SAAKHz ( -3dB J
2) Y-axis
sane as
3) X-Y phase difference
* Calibrator
(probe adj.)
* Power supply
l) Voltage range
3'
voltage range
fuse
lAA(90-rlgv)/AC
2A25AU
r20 (108 - r32V) / AC
zA25AV
229 (r98 - 242V) / AC
A25AV
244 Qrc - Z50V) / AC
Az5AV
5A / 6AHz
3) Power consunption
approx. 35W
Physical Charac.
7.SKe
1 ) Weight
t\
( at DC to 50KHz )
or less
\KHz(+ZAD frequency, 0.5V(XLT%) square wave
duty ratio : 40 - 6A%
2) Frequency
t
cHz
Dimension
r Environnental Characteri sti c
1) Temperature range
for rated operation
2) llax. ambient
operating tenperature
3) Max. storage
tenerature
320 nn (W) x
+10' C to
0'C
to
-2A"Cb
l4A nn (H)
x
+35' C
( +50'F to
+40" C
( + 3 2' F t o + 1 0 4 ' F )
+7A"C
(
+95'F )
-+"Fto+158'F)
4) Humidity range for
rated operation
45% to
85% RH
5) Max.anbient
operating humidity
35% to
85% RH
-7-
43A mn (L)
2.
ACCESSORIES
(1) Operation nanual
(2) Probe (option)
(3) Spare Fuse
(4) Power cord
-8-
3-
PREVENTT
VE
MAT
NTENAAICE
Preventive maintenance, when perforned on a regular basis, can prevent
instrunent breakdown and may improve the reliability
of the oscilloscope.
The severity of environnent to which this instrument is subjected will
deternj.ne the frequency of naintenance. A convenient tine to perform
preventi.ve maintenance is preceding recalibration
of the instrunent.
Disassenbly
Renove the screws in the top cover of the instrument. Gently seperate
the top cover fron the instrunent and Iay aside. Most of the internal
parts of the instrunent are now accessible.
Cleaning
The instrument should be cleaned as often as operating conditions
require. Accumulation of dirt in the instrument can cause component
breakdown.
The covers provide protection
against dust in the interior
of the
instrunent.
Loose dust accunulated on these covers can be renoved with
a soft cloth or snall brush.
Dirt that renains can be removed with a soft cloth danpened in a nild
detergent and water solution.
Abrasive cleaners should not be used.
should only be occasionally necessary. The best
Cleaning the interior
way to clean the interior
is to blow off the dust with a dry, lowvelocity strean of air. A soft-bristle
brush or a cottontipped
applicator is useful for cleaning in narrow spaces or for cleaning nore
delicate conponents.
Visua1 Inspection
The instrunent should be inpected occasionally for such defects as
brocken connections, improperly seated transistors,
danaged circuit
boards, and heat-danaged parts. the corrective procedure for nost
visible defects is apparent ; however, particular
care nust be taken
if heat-damaged conponents are found. Overheating usually indicates
other trouble in the instrument ; therefore,
correcting the cause of
the overheating is inportant to prevent recurrence of the damage.
-9-
4.
CIRCT]IT
DESCF?IP:trION
The block diagran ( page 43 ) shows the overall relationship
between all
of the circuits.
Conplete schematics of each circuit
are also given in
section schnatics diagrans ( page 44 to 57 ).
Refer to these diagrams throughout the following circuit
description for
values and relationship.
electrical
(1)
ATTENUATOR
Signals applied to the input connector can be either AC coupled or DC coupled,
or they can be disconnected to +he internal circuit when 5901 ( 5902 ) is
GNDposition.
Attenuation is deternined by the setting of the V1LT / DIV switch.
The attenuator that is controlled by the VlLT / DIV switch has ;2, +4,
+lA, +tAA circuit.
+ 2 , + 4 , = 1 0 c i r c u i t s a r e i n R A 1 0 1( R A I A Z) a n d = 1 0 , + L A A c i r c u i t s
are between S101-AZ ( StgZ-AZ ) and 5101-82 ( SLg2-82 ).
(2,3)
A}IPLIFIER
CH1 ( CHz ) IT.TPUT
Signal fron the input attenuator is connected to source follower Q101
( 0105 ). When excessively high-anplitude signals are applied to the source
follower, the signals wiII be Q103 ( 4106 ) and the gate-source junction of
Q101 ( 0105 ). When 5801 is open ( x SMAG), the signal that
is feed back to 0P AMP through R109 anplfies the output signal of
Q104 by 5 tines.
And the signal of QZAG ( 0306 ) base is converted fron a single-ended simal
to a paraphase signal by differential
anplifier.
CH1 ( CHz ) PREAilP& TRIGGERPICK OFF
provide control of vertical position.
Vertical preanp circuits
They also contain a stage to provide a sample of the input signal to the
trigger preanp circuit
for internal triggering fron the CH1 or CH2 signal
only. And the trigger preamp of CH1 provides the CH1 input simal
to the
horizontal anplifier
in the X-Y position of the TIIIE / DIV switch.
The trigger preanp circuit
anplifies
the internal trigger signal to the
level necessary to drive the trigger generator circuit.
VERTICALCON'IBOL
The vetical switching circuit
determines the input signal or conbination of
input signals to be connected to the vertical
nain anp.
Input signal combinations that can be displayed are selected by D FLIP-FLOP
that is controlled
by the vert.ical node switches and the X-Y position of
the TIME / DIV switch.
In the ALT and CHOPmodes, both channels are alternately
displayed on a
shared tine basi.s.
_IA_
(7
VERTICALMAIN AMPLIFIER
)
T h e v e r t i c a l n a i n a m p l i f i e r c i r c u i t p r o v i d e s the final naplification
t h e v e r t i c a l d e f l e c t i o n s i g n a l b e f o r e i t i s applied to the vertical
deflection plates of the CRT.
for
(8)
TRIGGERAMPLIFIER
produces trigger pulses to start the sweep
The Trigger Anplifier
circuit
generator circuit.
The Trigger Generator circuit
consists of the trigger source, trigger
node switch, TV synchronization circuit,
trigger amplifier,
U109 and
etc. The Trigger Source Switch selects one signal of the signals fron the
vertical trigger preanps, power line source applied to this instrument,
external trigger
input BNC connector connected to front panel.
The Trigger Generator Circuit has the circuit
to control the trigger level
and slope.
The signal type is AC.
The Trigger mode Switch determines the operating mode for the trigger generator
ci rcui t.
In the N0RMnode, the sweep signal is generated only the trigger signal
is generated, 0peration in the AUTO, TV-V mode is the sane operation
as N0RMmode, except that a free running trace is displayed when a trigger
pulse is not present or the aplitude of the trigger signal is not adequate.
The Base Signal of Q130 which enters through three switches, Q34? and
etc is amplfied by Q345, Q346.
The anplfied signal, the collector signal of Q346, enters the N0.2 pin of
U109, outputs in N0.8 pin of U109.
The N0.8 pin signal of U109 is called trigger signal or trigger pulse.
(9)
SWEEPGENERATOR
Sweep generator circuit
consists of sweep gate circuit
and niller
integrator.
The sweep gate is on, a very little
negative going signal is generated in
the gate of Q129, input Miller Integrator,
by R-C network.
The signal in the gate of Q129 is anplified by Miller Integrator,
the
amplified sj.gnal appear in the Enitter of Q342, is ca]Ied sweep signal and
enters the Base of Q327 through R551.
This sweep signal is generated on comnend ( trigger pulse ) fron the trigger
generator circuit.
produces an unblanking gate to unblank the CRT during
The sweep gate circuit
sweep time.
- 11 -
HORIZOT.ITAL
OUIPIJTAilPLIFIER
(12)
The Horizontal Output Anplifier
provides the final signal anplification
to
drive the CRT horizontal deflection plates.
The Horizontal 0utput Anplifier
consists of five cascade stage anplifiers.
The first
stage horizontal
main anplifier
has a low input inpedance and
require very little
voltage change at the input to produce the desired
output change.
The ouput signal fron cornplenentary arnplifier
}IZS, Q127drives the right
horizontal deflection plate.
The output signal from conplenentary anplifier
e126, Q128drives the left
horizontal deflection p1ate.
The Horizontal Output Anplifier
has the horizontal
magnification
and the
horizontal position functions.
In all position of the TIIIE / DIV select switch except X-Y the input signa]
of the horizontal
output anplifier
is the sawtooth signal from the sweep
generator. In the X-Y position of the TIME / DIV select switch the input
signal of the Horizontal Output Anplfier
is the signal fron the channel I
preamp circuit
of the vertical
deflection systen.
POWERSTIPPLY
(14)
The Iow voltage Power Supply Circuit provides five regulated sources ( -tz
Volts, *5 Volts, +12 Volts, *56 Volts, +I4A Volts ) and three unregulated
source ( +195 volts ) used to operate the vertical deflection
systen, horizontal deflection systen and cRT driving circuit.
(13)
CRT CIRCUIT
provides the voltage levels and control circuits
The CRT Circuit
to operate CRT.
The circuitry
consists of the z-axis amplifier,
high voltage oscillator,
high voltage regulator,
high woltage rectifier
and the CRT controls.
The calibrator
produces a square wave output signal with accurate
circuit
amplitude and frequency.
This output signal available as a square wave Voltage at the PROBEADJUST0.bVp-p
( II{Ilz ) connector.
-t2-
5.
CAI-IBRATI
ON
GoldStar Precision Co., Ltd. provides conplete instrunent
Contact the GoldStar Precsion Co., Ltd. office.
5-1. Calibration
repair
and calibration.
interval
To naintain instrunent
accuracy, perforn the calibration
of the OS-}AZ4P
at least every TAAA hours of operations or every six nonth
if used frequently.
5-2.
Test equipment required
The following test equipment(Table 5-1 ; see page 23) and accessories. or
equivalent, are requl.red for the complete calibration
of the 0S-9020P.
The given specifications
for the test equipnent are the ninimun necessary
for accurate calibration.
Therefore, the specifications
of any test equipment used nust neet or
exceed the list specifications.
All the test equipment ia assuned to be comectly calibrated and
operating within the Iisted specification.
Operating instructions
for the
test equipnent are not given in this procedure. Refer to the inst,ruction
nanual for the test equipnent if nore information is needed.
5-3. Prelininary
procedure
This instrunent
should be calibrated
at an anbient
( t 5C ) for best overall accuracy.
1. Connect the instrunent
to AC Iine
voltage,
tenperature
Sa/6aHz line
of
+ZAC
source.
2. Set the instrument controls as given in the preliminary
Control
Setting. Allow at least fifteen
minutes of warnup before proceeding.
3. See the Adjustment Locations
in the pulrout
-13-
pages(see page 2E).
5-4.
Preliminary
control
settings
Preset the instrument controls
procedures.
the calibration
Controls
to the settings
Settings
@ Focus
given below, when starting
Controls
Settings
- HORIZOI'ITAL
-
Midrange
O TRACEROTATIONAs desi.red
o H-PosrTrON
O INTENSITY
(E x1OMAG
Normal
O TIME/DIV
1nS
@ VARIABLE
CAL
Midrange
- VERTICAL_
@ V-POSITION
Mi drange
@ V_VARIABLE
CAL(fully
@ INPUT
COUPLING
GND (AC-GND-DC)
@ VOLTS,/DIV
5 mV,zDIV
- TRIG -
clockwise)
@ LEVEL
Midrange, nonal
@ SLOPE
+ ( putt)
@ MODE
Auto
@ TRIG SOI'RCE INT(CH1)
O V_MODE
C CHz INVERT
5-5. Initial
Midrange
Nornal
starting
procedure
1 . Push the POWERswitch.
2. Wait a few seconds for the cathode ray tube ( CRT ) to warm up.
A trace should appear on the display of the CRT.
If the trace disappears, increase ( clockwise ) the INTENSITYcontrol
setting until the trace is easily observed
4. Adjust
F0CUS control
for
the best focused display.
Readjust POSITI0Ncontrols if necessary, to center the trace.
POWER
STIPPLY
SYSTEM
NOTE: Before you begin, see ADJUSTMENT
LOCATI0NSin the pullout
(see page 25)
Control settings
Preset the controls as given in the Prelininary
t1l Check Low-voltage
Supply,
a. Connect the digital
if
voltneter
( DVM ) from the
the - 12 volt
the
( P8101-6 )
* 5 volt
]ine.
: 1 . 4 .? 5 V t o + 5 . 2 5 V
d. Connect the DVMfrom the *56 volt I ine.
: *54V to +58V
e. Connect the DVMfron the + t4g volt line.
: *137V to *I42Y
f.
Connect the DVM fron
the +195 volt
line.
: +185Vto +2lAY
lU
Check High-voltage
* 12 volt line.
( P B 1 0 1 - 9)
line.
: - 1 1 . 7 5 Vt o - I 2 . 2 5 U
c. Connect the DVM fron
Control Settings.
necessary.
: *11.75V to +I2.25V
b. Connect the DVM fron
pages.
( PBL0I_T2 )
( R183-down)
( R183-up )
(unregulated)
(JlA)
Supply.
a. Connnect the DVM to the H. V test point ( H. V and CRT DRVB D )
by High-voltage Probe.
(P106-6)
b. Check for DVM reading as -1705 - -1895V
DI
SPI-AY
Control Setting
Preset the controls as given in the Prelininary
Control Setting.
t3l Check,zAdjustCRTBias.
MODEswitch to the AUTOposition,
and TIME,/DIVswitch to the lnS.
a. Rotate the INTENSITY
to the direction of I o'clock.
b. Observe the trace of CRT.
c. Adjust the CRTBias Adjustment VR119 so that the trace makes
an appear.
INTEN
-15-
t4l Check,zAdjust Trace Rotation.
a. check that the trace ia parallel
to the horizontal
center line.
b. Adjust the TRACER0TATIONfor a trace that is parallel
with the
horizontal graticule
lines.
tsl Check,zAdjustASTIGnatisn and FOCUS
a. TIME,/DIVswitch to the X-Y position, and AC-GND-DC
to DC.
b. Set the IIITENSITYcontrol for a snall spot, as the following
figure, using position controls.
The spot
center of scneel
c. Check that the spot is round.
d. Adjust the FOcus adjustnent and ASTrGadjustnent vRll? for
a round spot.
-16-
I{ORI
ZONTAI-
SYSTEM
Control settings
Preset the controls
as given in the Prelininary
t6l Check,/Adjust Horizontal
Control Settings.
Gain.
a. Set the input AC-GND-DCto DC.
b. TIME,/DIV switch to the Lms.
c. Check that the time narks align with the graticule line over the
center eight DlVisions, within 3%
d. Adjust the H GAIN adjustnent VR114 so that the tine narks align
with the center eight graticule lines.
l7l Check,zAdjust Horizontal
x 10 MAGGain.
a. Set the TIME,/DIV switch to the 1mS.
b. Set x 10 MAG
c. Check that the one-cycle tine narks align with the ten division
graticule lines, within 5%.
d. Adjust the MAGGAIN adjustnent VR115 so that the one-cycle
time marks align with the ten division graticule Iines.
t8l
Check,zAdjust MAGCENT.
Set the TIME,/DIV switch to the 0. 1 nS.
Being the x1OMAGswitch to the x1OMAG,
the Ieft end of the trace is brought to the center point and
then the x1OMAGswitch to the xl position.
Observe the novenent of the left end of the trace.
d. Adjust the MAGCENT adjustment VR116 for the movenent of the
end of the trace within t A.ZDIV.
a.
b.
t9l Check,/Adjust low spaced sweep accuracy.
a. Set the tine mark generator for 5mS tine narks.
b. Set the TIME,/DIV swi.tch to 5mS.
c. Check that the tine narks align with the graticule line over the
niddle eigth divisions, within 3%
d. Adjust the SmS,zDIVadjustnent VR106 so that the time narks coincide
with the middle eight graticule lines.
i10l
Check,zAdjust High speed sweep accuracy.
Set the input coupling switch to DC
Set the time nark generator for 10 p S tine narks.
Set the TIME,/DIV switch to the 10 r S.
Check that the tine marks align with the graticule lines over
the middle eight division.
e. Adjust VC113 that the time narks coincide whth niddle eight
graticule Iines.
a.
b.
c.
d.
-77-
\/ERTTCAI-
SYSTEM
Control settings
Preset the controls
tlll
as given in the Prelininary
Check,zAdjust DC Balance ( Step attenuator
Control
Settings.
balance ).
Set the VoLTS,/DIV switch to the bnV position.
Position the trace to the horizontal center line.
Change the VOLTS,/DIVswitch to the 10mV position.
of the horizontal
Check that the trace is within 0. 1 division
center line.
e. Adjust the CH1 ( CHz ) DC BAL adjustnent, VR101 ( CH1 ) or VR109
( CHZ ), for a trace at the horizontal center line.
less than A.A5 division shift
f. Repeat part (a) through (e) until
is noted when changj.ng the VOLTS,/DIV setting.
a.
b.
c.
d.
ll2l
Check,zAdjust ADD BALANCE.
a. Set the TIME,/DIV switch to the lnS position,
the MODEswitch to AUTOposition.
b. Set the CH1 and CHz AC-GND-DCswitches to GND.
c. Set the V-MODEswitch to tDUALl.
Position control that the trace is
d. Next, Adjust the vertical
identical with the horizontal center graticule Iine.
e. Set the V-M0DE switch to tADDl.
with the horizontal
center
f. Check that the trace is identical
graticule Iine within t 0.5 division.
Adjust the ADD BALANCEadjustnent VR118 for two tines of the
difference with the horizontal center graticule line.
t13l Check,/Adjust Vertical
Position
Center.
P0SITION control at the nidrange.
a. Confirn the vertical
b. Check that the trace is within 1 division.
c. Adjust the Position Center adjustnent VR103 ( CHI ), VR112
( CHz ) for a trace at the horizontal
center line.
-18-
t 1 4 l Check,/Adjust x1 AC GAIN.
a.
b.
c.
d.
e.
f.
Set the TIME,/DIV switch to the 1nS position.
Set the V0LTS,/DIV switch to the 10mV position.
Set the AC-GND-DCswitch to DC.
Connect the square-wave generator( using lKHz output range ).
Adjust the output anplitude of that generator for 5 division
deflection of screen.
Check that the high-voltage level of pulse is fIat.
To be flat
J
II
g. Adjust the x 1 AC GAIN adjustnent
for a flat level.
t15l Check,/Adjust Vertical
LJVRIA2 ( CH1 ) VR110 ( CHZ )
Gain.
a. Set the VOLTS,/DIVswitch to the 10nV position and AC-GND-DC
switch to DC.
to the input.
b. Connect the standard amplitude calibrator
for a 50nVp-p signal.
c. Set the standard amplitude calibrator
d. Check for a di.splay of five divisions.
e. Adjust the GAIN adjustnent VR104 ( CHl ), VR11l ( CHZ ) for a
display of 5 divisions wiLhin 2%.
f. Check aII the VOLTS,/DIVswitch settings.
i16l Check,zAdjust Input Capacity
a.
b.
c.
d.
ll7l
Set the VOLTS,/DIVswitch
Set the AC-GND-DCswitch
Connect the L-C meter to
Check the input capacity
Check,zAdjust Vertical
( ATT : =1 ).
to 10mV position.
to DC.
the input terninals.
for approxinately 30pF.
Step Response.
a. Set the VOLTS/DIV switch to the 10mVposition.
b. Set the TIME,/DIVswitch to the 20 pS position.
positive output ( 50mV, lMHz ) of the
c. Connect the fast-rise,
square-wave generator to the input. Use a 5AQ ternaination
and cable.
d. Set the square-wave generator to lMHz. Adjust the square-wave
generator output for a 5 divisions display.
e. CH1 : Set the YCLLZ for a square wave that is flat.
Then, adjust VC1ll for over-shoot that is +A.?,DIV.
CH2 : Adjust the VCILA for over-shoot that is +A.ZDIV.
-19-
t18l Check/Adjust Attenuation Conpensation ( ATT +10, +LgA ).
switch to DC
a. Set the AC-GND-DC
b. Connect the square-Hravegenerator to the CH1 ( CHz ) input
terminals, check for a square-wave that is fLat ( tlat top )
under the following settings.
ATT
VOLTS,/DIV
The square-wave generator
+10
9.1 v
4.5 v
+ IAA
1V
5V
output
c. Adjust the trimmer condenser for a square-wave
( f l a t top ) under the following settings.
ATT
VOLTS,/DIV
The square-wave
generator output
Adj ust
cHl rcHz)
+la
0.r v
a . 2 5U
ucra0( vc108)
+ Lgg
1V
2.5 V
vcr02 ( vc106)
t19l Check,zAdjustInput Capacity.
a, Connect the L-C meter to the input terninal.
b. Check the input capacity for a approxinately 30pF.
c, Adjust the triruner condensers for a 30 pF input capacity under
the following settings.
ATT
+1
VOLTS,/DIV
lA
Adjust CH1 ( CHZ)
( vc109)
mV
+L0
0.t v
vc103( vcr07)
+ lDb
1V
vc101( vc105)
-24-
TRIGGERING
SYSTEM
ust TRIG CENT.
tZgJ Check,zAdj
switch to the CH1, the TRIG SLOPEknob
a. Set the TRIG SOURCE
pull position, the V0LTS,/DIVswitch to 10mVand the TIME,zDIV
switch to the 20 pS.
b. Connect the sine-wave generator to the input connector for
a 0 . 3 D I V ( S A K H z) .
c. Set the TRIG LEVELknob to the nidposition.
d. Adjust the VR105so that synchronizaLton is effected on the
waveforn, 0.3DIV on the screen.
e. Next, set the TRIG SLOPEto - ( push : inner state ) and insure
that synchronization is effected. Aft,er confirnation, Ieave
in the depressed state. Readjust when stepped
the TRIG-SLOPE
out.
tzt)
Check,zAdjust Trigger
Balance
a. Set the VOLTS,/DIVswitch to 50mV (CH1 and CHD, the TIME,zDIV
switch to 10uS, the TRIGGERSOURCEswitch to INT, the INT TRIG
switch to VERT, the V-M0DE swj.tch to DUAL, and CH1 position
knob to the nid-position.
b. Connect the sine wave generator to the input connectors (CH1 and
CHz) for a five division
$1KHz)
c. Adjust CH2 position cntrol so that CH2 waveforn comes to CH1.
d. Next, adjust VR113 so that both waveforns(CH1 and CH2) coincides.
l22l X-Y Operati.on
122-l
Check,zAdjust X Gain.
a. Set the V-MODEswitch to CH1, the TIME,TDIVswitch to the
[X-Y], the AC-GND-DCswitch of CH1 to DC, the AC-GM-DC switch
of CHZ to GND.
b. Set the VOLTS,/DIVswitch to the 10nV. with X 1 GAIN.
c. Connect the standard anplitude calibrator
to the CH1 input
connector.
d. Set the standard amplitude calibrator
for a 50mV.
e. Check for a display of 5 divisions.
f. Adjust the X GAIN adjustnent VR108 for a displ.ay of 5 divisions
within 3%.
122-21 Check,/Adjust X Position
Center.
a. Set the TIME,/DIV switch to the [X-Y], the V-MODEswitch to CHl.
the horizontal POSITI0N control to the nidposition and
the AC-GND-DCswitch to GND.
b. Check to see that round spot is near the center graticule
and
i.s within 0.2 division against the horizontal line.
c. Adjust the X CENT adjustnent VR10? to position spot at the
graticule center.
-2r-
122-31 Check,zAdjust X-y phasing.
a. Set the AC-GND-DC
switch of CH1and CH2to DC.
b. connect the constant amplitude signal generator
to cHl and cH2
inputs through 50o cable and 50o t.rnination.
c. Adjust the constant anplitude signal generator
for an
8 division horizontal displ ay ot EAKIIi.
d' Center the display vertically and horizontally
with the CHl and
CH2 P0SITI0N controts.
e' Check the CRTdisplay for an opening at the horizontal
center
line of 0.4 division or less.
I
Il-
r
CAI-IBRA:rOR
I
1231 Check,zAdjustpROBEADJUSTterninal
a.
b'
c'
d'
( 0.SVp_p, LKHz).
connect the pROBEADJUSTternination to the Digital
Frequency counter.
check for the PROBE
ADJUSTfrequency of Lwtz, *itttn zg*tagauz - r\aaHd.
Next, connect the PROBE
ADJUSTternination to the Digital Multineter.
check for the PRoBEADJUST
output of a.25V, within tgxra.zzs - 0.275v.
-
/"
F
f-
lb.
I
r16
[-
I
F
t-
l.
P
-22-
-
Table 5-1.
TEST EQUIPITTENT
REQUIRED
Description
Mininum Specification
Exanple of
Usage
1, Constant Anplitude
Signal Generator
SAKHzreference frequency
naxinun frequency 56llHz
variable amplitude
Check horizontal, vertical
and trigger bandwidth.
2. Standard Amplitude
CaIibrator
Anplitude accuracy : 4.25% ,
variable anplitude ; SnV to
4AY ; frequency : lKHz square
wave
Check horizontal
Vertical gain.
3. Square - wave
Generator
Variable frequency : ltHz to
llilHz ; output anplitude :
10nV to 100V (tr=<3nS)
Check probe and vertical
conpensation.
[, Digital
a.I%
Check power supply.
Multineter
5. Digital Frequency
Counter
G
w.
accuracy
l% accuracy
and
Check PR0BEADJUSTfrequency.
i. Tine Mark Generator
a,L% accuracy
Check horizontal
?. CabLe
Impedance : 50O ; type :
RG-58,/U ; length : 42 inches
connectors : BNC.
External trigger operation
check. Horizontal gain check
and adjustnent.
8. Ternination
Inpedance
Connectors
l. Attenuator
Ratio:tAX;connectors
BNC;impedance:50O
Vertical Anpli.fier
bandwidth check.
M. T - Connector
Connectors : BNC.
External trigger
checks.
: 50 O
: BNC.
tining.
Vertical Anplifier
conpensation
checks and adjustnent.
operation
6.
S E M T C O N D U C T O RL E A D
C O N F I G U R A TO
I N
MARKINC
F O RT R A N S I S I O R
EL E C T R O D (ET O P V I EW)
r Y P E O F T R A N SI S I O R
M A R KI N G
ELECTRODE
T Y P E O F D I O D E E L E C I R O D E M A R KI N O
2 S A1 2 0 6
l.EMITIER
K S C1 6 7 4
2 S C 2 9 0I
2. BASE
RL105
1N 4 0 0 5
3. COLLECTOR
123
2 GATE
\) D R A i N
2 S C| 9 0 7
I,EMiTTER
K S C1 7 3 0
2. COLLECTOR
2 S A1 0 2 9
3. BASE
2SC3779
r e3
2SC3775
3
TYPE OF IC
3. COLLECTOR
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CL781?
E L E C T R O D E M A R KI N G
fI r /3\ l
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KTA968A
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P A C K A G E O U T LI N E
BASE
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TYPE OF IRANSISIOR
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COLLECTOR
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CONTROL& SELECI
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(1).
CAI-
I-I
PARTS
ST
ATTENUATORS
;l
; 1
PAGE
N0.FNDNO
1l
\l
fl
pl
r.0r
rco.I
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rl0s
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DESCRIPTION
& SPEC.
1 c3g2 CAPSMD,
J, 2zgPFQgTz)
5OV,
3 c3g4 CAPSl,tD
sgY,J,47PFQ0I2)
J, Z^OPFQDTZ)
c355 CAPSMD,
5Ol{,
7 c357 CAPSl'|D,sOV,
J, 47PFQOI2)
I c90i CAP
11c903 cAPEtg 16V,
[|,4?UF(SMS)
VllFW.,
13Pt02 C0NNECTOR
LV-9649-92
It|.F,L/AV,0.5%,WK
R106 RES
t7 R108 RESlll.F,L/ 4y.,g.5%,TI1K
19R118 RESM.F,I/4V,9.5%,WK
2LRLzg RES[|.F,L/AV,g.5X,777K
g. LV,5%,TOQIIZ)
23R303 RESSMD,
0. !t, 5X,1gQg12)
% R305 RESSMD,
27R307 RESSMD,
s. tV,t%,82Q912)
g. tU,5r(,27Qgt2)
n R309 RESSMD,
g. LY,57,,L'(NN)
31R311 RESSMD,
ec R475 RESSMD,
g. Lv,516L,Qgtz)
?R R477 RES
SMD,
O.IVI,52,IOQALZ)
g. LVt,
37R4?9 RESSMD,
5%,22QgL2)
39R481 RESSMD,
b. LII,T%,
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4TR483 NOTUSED
43s102 st RoTARY,
ADR255S,
8773-ttg2
45swz sH stIDE,SSSUoz3NC
CHzCoU
47uclM CAPTRIMMER,
THT
TZOSNIOOFR,
49uc104 CAPTRIMMER,
UHT
TZOSNIOOFR,
51vc106 CAPTRIM}IER,
TZO3NIOOFR,
IHT
WHT
53vc108 CAPTRIMMER,
TZO3NIOOFR,
N0. FNDNO
P/N
DESCRIPTION
& SPEC.
CKIHIzzIJ 2 c303 CAPSl'tD,
W, J, nAPFQgtz)
cK7H1470J4 c305 NOTUSTD
q\HI221J 6 c356 CAPSMD,
ffiV,J,Z7^PFQOIZ)
CKIHT4TgJ8 c358 NO(USED
cl12GL473K
CAPt||.F,AMV,K,O.O
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L2 PIOL C0NNECT0R
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537-Mt-1 T4 R105 RESM.F,l/At, 0. 57qlg. IK
Rl,|BP99O3D
16 RIOT RESM.F,L/AV,0.5%,WK
RMBP1113D
18 Ri17 RESIt|.F,t/AV,0.5Z,Lg.LK
RMBP99O3D
20 R119 RESI'l.F,\/4Y,9.5%"WK
g. \U,5%,nQ0l2)
RMBP1113D
t2 R302 RESSMD,
g. LY,5L IOQqIZ)
Rl|OI1OROJ
24 R304 RESSMD,
RI|OI1OROJ
26 R306 NOTUSED
R[{OI82ROF
?,8R308 RESSMD,
0. LV,tt6 \ffi(mz)
g. tY,5%,
RVAI?TROJ
30 R310 RESSll|D,
n grl2)
Rl'|OI15ROJ
32 R4'.14 RES
SMD,0.lU,W6nQ0p)
Rl'tOI15ROJ
34 R476 RESS[fD,
0.w, 52,n (nIz)
RMOI1OROJ
36 R478 RESSt{D,
0. lV, 5t, Lgztlz)
g. tU,57,,LgQgIz)
RM0IZaROJ
38 R480 RESSMD,
g.LV,t6EZQLLZ)
RMOI1SOOF
40 R482 RESSII|D
NOT
42 s101 slf R0TARY,
ADR255S,
8773-7792
522-02vt M s901 st stIDE,
sssuo23Nc
cHlcou
52L-trz 46 vc101 CAPTRIII|II|ER,
TZO3NIOOFR,
IHT
581-133-148 vc103 CAPTRIII{I'|ER,
TZOSNIOOFR,
fiff
581-133-15g vc105 CAPTRIMilER,
TZO3NIOOFR,
UHT
581-133-152 ucI07 CAPTRI}|iIER,
TZO3NIOOFR,
THT
581-133-1
27
P/N
CKIHIZilJ
N0[
CK1HI?/lJ
NOT
awA73K
531{18-7
RMPUUD
RilBPgoMD
RitsP1012D
RrtsP9003D
RWT2a.0J
RTOIIgRzu
NOT
Ri|OI$EPF
RWTZTWJ
RIMIZIWJ
RWTZTWJ;J
Rli|OIlOIRzu
RIIOIURAI
RlCII8zROF
snqb[
521-tn
581-133-1
5E1-133-1
581-133-1
581-133-1
(2>.
CH1
INPUT
AMP.
; 2
PAGE
N0. FNDNO
DESCRIPTION
& SPEC.
P/N
N0. FNDNO
DESCRIPTION
& SPEC.
1 ctgT CAPCER,5W\,C,1PF(T.
C BLACK)CIZHRaT0r,2 c7g2 CAPCER,
SWY,K,IWPF
3 cr03 CAPEtE,16V,M,47UF(SMS)
cE1CR476M4 c7g4 CAPEtE 16V,
M,4?UF(SMS)
CE1CR476M
5 u05 CAPEtE,16V,I|,47UF(SMS)
o c306 CAPSMD,
5g\,J, TSPF(29L2)
7 c\n
cAPSMD,
ffiV,C,5PFQ712)
CKlHIO5OC8 c3g7A CAPSMD
ffiV,J,LZPFQOIZ)
I c308 cAPSMD,50V,
K,\WgPFQUtz) CK1HI1O2K
c309
TO
CAPSMD,
sgY,J,IMPFQtIZ)
l_1c310 cAPSMD,
50V,K,o.gtuFQgt2)
CK1HI1O3K
72 c313 CAPSMD,
sAY,J, tggPFQOIZ)
13 DTOI Dr0DE.
1SS133
585-t20 74 Dtgz DrODE,
1SS133
ZENER,DZ-7.58
15 D103 DIODE
585-075 16 PP101CONNEC"IOR
HOUSING,
CS25g-95
L I 0101
FET,2SK3O4-E
6TI_I4O 18 ar02 TRANSISTOR,
KSC1674_Y
KSC1674-Y
19 8103 TRANSISTOR,
611-130-1n alg4
TRANSISTOR,
2SAIO29-D
2L R103 RESll.F,l/4U,9.5%,ffiuK
RMBPsOO3D
22 RLg4 RESI'|.F,l/Alt,g.5Z,5WK
23 R109 RESM.F,L/Av/,9.5%,ffiK
R[/IBP6OO2D
24 R110 RESM.F,T/AY,9.5%,LzK
M.F,I/Ay,0.5%,3K
25 R111 RES
RMBP3OOlD
26 R112 RESltl.G,L/211,5X,16It|
27 R113 RES
M.F,t/4i/'0.5%,ffio
RMBP68OOD
28 R114 RESM.F,l/Ay',LX.820
29 R115 RES
M.F,I/411,9.5%,68
RMBP68ROD
30 R312 RESSMD,
O.Iw,52,22KQOT2)
31 R313 RESSMD,
0. fi|, I%,75OQOI2)
RMOITSOOF
32 R314 RESSMD,
0. rr, rX,ffi(2012)
33 R315 RESSMD,
0. IY,5x,tgQgLz)
R[|OI1OROJ
34 R316 RESSMD,
A.ty, 5%,2. 2KQ0L2)
35 R317 RESSMD,
0. LY,5x,4.TKQLIZ)
RMaT47OlJ
36 R318 RESSMD,
0. r[, fi(, 3. 9K(nL2)
g.L]f,,
37 R319 RESSMD, fl,4.7KQ912) RMaTATgTF
38 R32g RESSItlD,
A.tV,t%,t20Q0t2)
g.IU,tX,43gQgI2)
39 R321 RESSMD,
RMgT43ggF
4g R3214 RESSMD,
9.1Y,l%,
4.WKQL12)
g. Iyt,5X,\KQ,LZ)
4I R322 RESSMD,
A.Iv, M, 430Q0t2)
RM?I43ggF42 R323 RESSMD,
g. 1II,IX,IOKQOIZ)
43 R324 RESSMD,
O,Iy, T'6TZKQOTZ) RMgITZZZF
44 R337 RESSMD,
45 R338 RESSMD,
9. fii 1163.3KQ0l2)
R[{OI33O1F
46 R339 RESSMD,
O.TII,5%,IgQgLz)
47 R344 RESSMD,
9.fit,57,,tgQgtz)
RMOI1OROJ
48 RA101 RESARRAY.
RA-OSC-V
49 s801 SHSLIDESSSUOZ2NBO11
x5
52t-tlr
5g u101 IC OPAMP,
LF356J
51 vR101 RESSR,VGO68TL1B-2OKB 572-324-l 52 YRIgz RESSR,Y0/f8TLLB_AMB
28
P/N
cKamnx
cE1CR476
CK1HI$AJ
CKIHITn.]
cK1Hr101J
I
cK1Hr101
585-LnI
$1-4m I
611-130-1
611-133
RrtsP5003
RIEPLWaD
RG0C?166
R[tsP8UoF
RIIfiTWZJ
RTCII68ROF
Rwrmu
R[0r3901F
RVATIWF
Rt0I4991F
RIIfrTTWLJ
ilMTIWN
Rl'0I10Rft1
591-325
59t-ga
572-3It7
7_
(3).
CHz
INPUT
AMP.
; 3
PAGE
I;2
;r
l|0. FNDNO
I
m---l 31 c108
utT
DESCRIPTION
& SPEC.
cAPErE"16V,I|,4?UF(SMS)
CAPEtE 16V,
M,4?UF(SMS)
rm4?srl
5gU,K,TWPFQOI2)
tHr150Jl 5 c350 CAPSMD,
I C3514 CAP
SMD,
C,5PFQO12)
5OY,
HrmJl
I
c353
CAP
SMD,sOV,
J, IMPFQOLZ)
rHr101J
I ii DTO4 DIODE,
1SS133
tHr101J
I
DIODE,
1SS133
13
D106
rr2ul
KSC1674-Y
t-M I 15Q106 TRANSISTOR.
t7
TRANSISTOR,
23AIa29_D
L-130-11 Q108
1 0 R121 RES
[|.F,I/AV,0.5%,WK
r-133|
2l R123 RESIt|.F,t/AV,4.5%,3t1
|P5003D
I
Purnl 23R125 RESIt|.F,I/4V,g.5r(,12K
g.lH,'x, tgQgLz)
xP16&rl 25R327 RESSMD,
g. 7V,5%,1gQ0I2)
n R459 RESSMD,
WMI
0. wt,U, tgKQgLz)
trwzrl n R461 RESSMD,
a1 R463 RESSMD,
0. 7v,5%,4.7KQ0L2)
'r68R0Fl
ea R465 RESSMD,
0. LY,52622KQ0l2)
nmrrl
'rs01Fl Jb R467 RESS}|D,0. 7Y,7%,12K{29I2)
g. 7V,5%,I5KQ0L2)
'tIlWFl 37R4684 RESSl'|D,
430QgL2)
0. 7V,7%,
'r4ee1Fl 39R47g RESSl'lD,
7t(,ffiQgtz)
4l R472 RESSMD,
0. LVt,
trrffilrl
RA-OSC-V
trrffizFl 43R/.tn RESARRAY,
vc109
CAP
TR
IMMER,
TZOSZAT
45
OFR,
BLU
'r10R0J
I
47 vR110 RESSR,UG0fETLIB_^MB
,-w I
P/N
N0. FNDNO
cE1Ct476M2 c109
cE1Ct476M4 c111
CK1HI1O2K6 c351
CKlHIOSOC8 c352
CK1HI1O1J
Ig c354
ffi\-r2g
t2 Dt05
585-720 t4 8105
611-130-116 Ql07
611-133 18 R116
R[{BP5OO3D
20 RTZZ
R[{BP3OOlD
22 RT24
RMBPT2g2D
24 R126
R}|OI1OROJ
26 R449
RMOI1OROJ
28 R460
RMaIIOOZF
30 R462
RMgrATglJ32 R464
RMtIZ^OZJ34 R466
RIIOILaaaF36 R468
RMgIIffizJ 38 R469
RMgrASA0F
40 R471
RMOI6SROF
42 R473
591-325 44 ULgz
581-145-146 vR109
572-3t6-1
:AA I
)-316-11
29
DESCRiPTION
& SPEC.
CAPELB16V,
trl,47UF(SMS)
CER,
CAP WU,K,LWPF
CAPSMD,
5gY,D,7PF
QgLz)
CAPSMD,
5OV,
K,O.ANFQOTZ)
CAP
DIODE
ZENM,DZ-1.58
FET,2SK3O4-E
TRANSISTOR,
KSC16?4-Y
RES[l.G,7/2V,5r6t6tt
RESl'l.F,I/Av,g.516WK
RES[|.F,L/AV,t6829
RESIt|.F,T/AY,9.5%,W
g. LV,$6 IOQuIZ)
RESS}|D,
g. w, t%,3. 3KQ012)
RESSMD,
RESSMD,
0. lY, 5162. 2KQ0t2)
g.IY,T'6LzgQgTz)
RESSMD,
g. lV, lt6 4. 1K(29t2)
RESSMD,
g. LV,lX,430Q0L2)
RESSMD,
RESSMD,
A.tV, Lr63. qK(AJLz)
g. lY, 526tKzgtz)
RESSMD,
g. IV, I%,750Q972)
RESSMD,
IC OPA[{P,
tF356J
RESSR,VGO68TI1B-2OKB
P/N
cElCItT$l
cYa&1gx
c/i.THTNW
CK1HI1O3K
XIHTWJ
wt5
6LL_IM
611-13G-1
RG0CP166l
RItsP5003D
Rt'lBP8nm
RI|BPGSOOD
RIIOI1ORAI
Rl'CII3301F
RWTMLJ
RYAILWF
RUAIATgLF
RWT&3/r/F
Rl'OI39O1F
RVATIWLJ
RWITWF
59tn4
57z-gZ+-L
(4>.
CHl-
PREAMP.
&
TRIGGER
PICK_OFF
; 4
PAGE
N0. FNDNO
1 c106
3 c311
c314
7 c316
I c318
11 C32L
13 c323
D107
77 4303
19 Q305
2I Q30',1
23 8309
25 R326
27 R329
29 R331
31 R333
33 R335
Q< R34g
37 R342
39 R345
4t R34?
43 R350
45 R352
47 R354
49 R356
51 R359
53 R361
55 R363
57 vR104
DESCRIPTION
& SPEC.
P/N
N0. FNDNO
CAPEtE,16V,[|,47UF(SMS)
cE1Ct476M2 cr07
gtUF
cAPS}|D,
sAV,K,0.
CK1HI1O3K
Qgtz)
4 c3I2
cAPSMD,
50V,J, 82PF(29r2)
CK1HI82OJ c315
CAPSMD,
J, 6EPF(2OI2)
5OV,
CKlHI68OJ8 c317
g.btuFQglz)
cAPSMD,50V,
K,
CK1HI1O3K
Tg c320
(2912)
CAPSMD,
1gY,K,O,OIUF
CK1HI1O3K
t2 $n
CAPSMD,
J,27PFQA12)
sOY,
CKIHI?7gJT4c325
DIODE
ZENER,DZ_1.58
fi5-b75
16Pllg
TRANSISTOR
Sil|D2SC3775_OY3 orlrcco
18a3g4
TRANSISTOR
SMD,
KTC3875-Y
611-679 2g Q306
TRANSISTOR
SMD,
MMBT39O4-1A611-654 22 8308
TRANSiSTOR
SMD.
I{I{8T3906-2A 611-653 24 R325
g. IV,t%,33gQgt2)
RESSMD,
RMOI33OOF
26 R328
g.
RESSMD, 7V,1r(,ffigQg|z)
RMOI68OOF
28 R330
RESSMD,
9.7Y,5%,
L.8KQO12) Rl}{OI18O1J
3g R332
RESSMD,
9. 7Y,7%,
82Q0I2)
R}{OIS2ROF
32 R334
RESSMD,
A.Tr,5%,4. 7KQOIZ)
RM?T47glJ34 R336
RESSMD,
0.flt,516
4.7KQgt2) RM?IATOTJ
Jb R341
g. IV,5%,lgKQOIz)
RESSMD,
RMOIIAZ?J38 R343
RESSMD,
fr. tV,5%,22KQ0L2)
RMOIZZZZJ
40 R346
RESSMD,
b, Ili/,,5%,TKQOIZ)
Rl'lOIlOOlJ
42 R348
RESSII|D
0. Ilf, 52(,
270KQA12) RMqTZ7g3J
44 R351
RESSMD
0. 7v,5%,1WQ0t2)
RMOIIMOJ46 R353
RESSMD,
0. 7Y,5%,47Q012)
RMaIATROJ
48 R355
RESSMD,
0. !t, t%"82QAl2)
R[{OISzROF
5g R358
RESSl'lD,
O.LY,52,TKQglz)
R[|OIlOOlJ52 R360
RESSII|D,
0. tw,t%,r. 5K(29t2)
RMOI15O1F
54 R362
NOTUSED
NOT
56 vR103
RESSR,VGO68TI1B_1OOB 572-327 58 vR8g2
30
DESCRIPTION
& SPEq
P/ N
cAPELg16V,
}|,47UF(SI}|S)
CAPSMD,
sgv,J, 18PF
CK1HI18A
Qg12)
CAPSi,lD,
5OV,
J, 68OPFQTIZ) cK1HI681,
NOTUSED
N0[
g.
cAPSMD,
5gU,K, atUFQgtz)
cKlHi103l
(29t2)
cAPSMD,
5g\,J, 27PF
CKIHINil
NOTUSED
N0[
CONNECT0R
WAFER,
tW-0640-03 53I-W2rt
TRANSiSTOR
SMD,
2SC3775-OY3 611-656
TRANSiSTOR
SMD,
MMBT39O4-1A611-654
TRANSISTOR
S|'|D,
[|I'|8T3906-2A 611-653 1S
g. lU,5%,lWQ012)
RESSMD,
RWITW| 21
g. [t, I%,330QgI2)
RESSMD,
RlCII$m %
RESSMD,
0. LVt,
I7(,330Q0t2)
RMo13300
n
RESSI'|D,
0. 7I#,
5X,4.7KQqIZ)
RW14',101
m
RESSMD,
O.T]t,52,
TOQuIz)
RilOI1CIR0
31
RESSMD,
O,1II,IX,8QgT2)
RlCII68Rff
QE
g. Iw,5%,4.7KQLLZ) Rufrr{?g1
RESSMD,
35
RESSMD,
O.Ty',5X,IMQOTZ)
Rusrrml
3',
RESSMD,
0. rllf,,5X,tAQgLz)
RlCIrmCI
39
g. 1\, It, 1.2K(29t2) Rr0r120x
RESSMD,
RESSMD,
A.IV,1'6$AQOLZ)
RMI$MI 41
I 43
RES
RrCIr68M
45
RESSMD,
O.7V,17",
2,TKQOIZ) RWrnux
47
g. 7l/,5X,47QgIz)
RESSMD,
R[CIr47m
49
RESSMD,
0. tl{, LX,t. 2K(20I2)
RrCIr12o
51
g. tU,5X,tK(2912)
RESSMD,
RlCII100!l
RESSR,VGO68TL1B-5OKB 57z-gtul
RESVAR,
V?7zL-PUSaKS
10KBVP1 57I-gh
x
(5).
4
CHz
PREAMP.
&
TRIGGER
PICK_OFF
; 5
PAGE
;l
--.J ilo.FNDNO
r76illi
DESCRIPTION
& SPEC.
P/N
N0. FNDNO
c346 cAPSMD,5gV,
K,b.gl\FQurz)
CK1HI1O3K2 c347
c348
CAP
SMD,
J,27PFQOI2)
3
CKIHI?'IgJ 4 c349
WV,
81Jll
CtsIO cAPSMD,50V,
K,o.LtUFQgrz) CK1HI1O3Ko c371
li I c372 CAPSMD,
K,g. OIUF
sOU,
CK1HI1O3K8 c373
QOIZ)
osKli
I c4464 CAPSl'fD,
50V,K,g. 0IUFQbIz)
CK1HI1O3K
1g PTLz
SMD,
MMBT39O6-2A611-653 12 Q312
11Q311 TRANSISTOR
I 13Q313 TRANSISTOR
SMD,
MMBT39O6-2A611-653 t4 8314
2-71
TRANSISTOR
S[{D,
l|t{BT39O4-1A 611-654 i6 0316
15
Q315
6l
SMD.
2SC3775_OY3 611-656 18 0318
tl L7Q317 TRANSISTOR
RES
SMD,
9.
47QOTZ)
R44g
N,
5%,
R[{OI4TROJ
19
2g R441
tsl
0. I!i, n, r. 5K(29I2)
Rlt|OI1501F
2TR4M RESSMD,
22 R443
g.
RES
SMD,
L%,
I.
R444
Ty,
R[lOI15O1F
1KQuLZ)
24 R445
MFI ?3
R446 RESSMD,
O.NI,5%,NKQbTZ)
RMOINnZJ
n
26 R447
wFl
A.Iv, 5%,4.7KQ0I2)
RM'IA7g1.J?aR450
01Jl n R448 RESSMD,
g. IV,5)6tbzgLz)
R451 RESSMD,
n
RMOI1OROJ
3g R452
Rarl
g.
w, t%,t. 2KQ0t2)
RMOILaaLF
32 R454
R0rFl31R453 RESSMD,
g.
RES
StfD,
R455
LI/',
5X,
I0KQ072)
RMoITWU
34 R456
01Jl 33
R457 RESSMD,
0. 7V,5t(,27uKQAL2) RM'I?TgN 36 R458
35
wrl
O.IV,51(,IMQqTZ)
RMOIT?fp,J
38 R560
MJI w R557 RESSMD,
g. IUt,5r(,4. TKQgtz)
R561
RES
SMD,
39
RllgIATgtJ
40 R562
01Fl
g.
RM'I47OLJ42 R564
WFI 41R563 RESSMD, LY,5X,4. 7KQg72)
gKQbLz)
0. t!f,,M, 3.
RMOI39O1F
44 R566
ml 43l(bob RESSMD,
g. TII,5X,TSKQaL?)
R56?
RES
SMD,
45
RMOI15O2J
46 R568
01Fl
41s803 Sl{SIIDESSSUO22NBO11
INV
52L-TIL 48 vc110
49ivR111 RESSR,VG068TL1B-1008
572-327 50 vR112
a1F
li l vR113 RESSR,VG068TI1B-1OKB
572-314-L 52 vR803
sarl
I
I
,r,
wrl
wl,
alJl
r-11
r--J
31 -
DESCRIPTION
& SPEC.
P/N
CAPSMD,
5OY,
K,g. ?LUF
CK1HI1O3K
QgTz)
cAPSMD,
J,
5gY, 27PF(2912)
CKIHINN
CAPSl'|D,
5gY,J, 82PF
CIffI8zu
QOLZ)
cAPSMD,
50V,J, 680PFQU12) CK1H168lJ
YAFER,
CONNECTOR
LYI-ffi4044
537ffi-7
TRANSISTOR
SMD,
MMBT39O6-2A611-653
TRANSISTOR
SMD,
MMBT39O6-2A611{53
TRANSISTOR
SI{DMMBT39O4-1A611-654
TRANSISTOR
SMD,
2SC3775-OY3 611{56
g. Iv, 5%,
RESSMD,
47(nIz)
R['OI4TIOJ
RESSMD,
0. 7l{,7%,LK(20I2)
RWTLWIF
g.
RESSMD, Llf,,1%"
IKQALZ)
RWITWTF
RESSl'|DO.IV,T7",
I. ZKQLTZ) RWflnlF
RESSMD,
0.!1, 5%,1KQg12)
RIMI1MTJ
RESSMD,
0. w, 5r(,4.1KQLLZ) waI47atJ
RESSi|D,
A.lUt,516lKQIrIz)
RWIIMIJ
g.
RESS[fD, 7Y,716ffiQ912)
Rilor68Rm
RESSMD,
0. IV,5t(,lwQqtz)
RWTTWJ
RESSMD,
0. LUt,
5t6tt2gIz)
R}CII1ORAI
RESSMD,
0. Lv,5%,
82Q0I2)
R|t|OI8zRAJ
RESS}|Dg. LY,I'("2.2KQ012) RWIWTF
RESSMD,
O.LY,I%,
TWQOTZ) RYATI5fr/F
RESSMD,
0. IY,t%,\ffi(ntz)
RIiCII3300F
CAPTRIMMER,
TZ^ST^MFR,
PNK 5E1-144-1
RESSR,VGO68TI1B-5OKB
572-gb7
RESVAR,
YAIZL_PUSOKS
VPz 57L-sh
1OKB
(6).
VERTICAL
CONTROL
; 6
PAGE
N0. FNDNO
I
a
c319
5 c326
7 c328
I c330
1 1 c332
13 c345
15 c374
1n
LI
c3754
19 D109
2l D111
23 D113
25 D115
27 D117
29 D119
31 D149
33 D151
35 D154
J t P113
39 0109
4I 0310
43 an0
45 R197
47 R35?
49 R365
51 R36?
53 R369
R371
57 R373
59 x.t/c
61 R3'.17
63 R379
65 R381
67 R383
69 R385
7I R389
73 R391
75 R438
77 R555
79 R558
81 R569
83 R571
85 R573
87 s903
89 utg4
DESCRIPTION
& SPEC.
CAPELE,
16V,It{, ?UF(SMS)
CAPSMD,
50\, K,g. aTUF
QOTZ)
CAPSMD,
J, 68^PFQAT2)
sOY,
CAPSMD,
sgY,K,O.glUF{2012)
cAPSMD,
50V,J,220PFQ0I2)
CAPSMD,
sOY,K,O.OTUF
QgTz)
g.OTUFQUIZ)
K,
CAPSMD,5OV,
CAPSMD,
5gU,J, 68PFQ?T2)
CAPEtE,16V,II/l,4?UF(SI'{S)
DiODE,
1SS133
DIODE.
1SS133
DIODE
1SS133
DIODE,
iSS133
DIODE,1SS133
DIODE,
1SS133
1SS133
DIODE.
DIODE.
1SS133
DIODE,
1SS133
WAFER.
CONNESTOR
LW-0640-03
TRANSISTOR,
KSC173O-Y
TRANSISTOR
SMD,
KTC3875_Y
TRANSISTOR
SMD,
KTC3875-Y
M.F,T/AV,T%,I.2K
RES
g. tW,5%,4.7KQ912)
RESSMD,
g.Iv, t%,3wQgtz)
RESSMD,
g. tUt,5%,I. 8K(29t2)
RESSMD,
g. tw,5%,220QAI2)
RESSMD,
RES
g. 7v/',
RESSMD,
1%,2. 7KQg12)
g. 7V,t%,33gQgI2)
RESSMD,
g. Ll{,ffi, 82Q0t2)
RESSMD,
RESSMD,
O.IW,7%,22gKQgI2)
g. 7l{',5%,I^OKQOTZ)
RESSMD,
RESSMD,
0.w, t%,330Qgt2)
g. rv/,,l%,gzQgl2)
RESSl|D,
RESSil|Dg. Llil,5%,4.7KQ0t2)
RESSMD,
0.7llt,52(,
4.7KQ912)
g. Ilii',5%,4.1KQTIZ)
RESSMD,
g.IV,5%,
RESSMD,
47(J;012)
g. Iv/,T%,T.sKQOIz)
RESSMD,
RESSMD,
0. LV,5%,1gQA12)
RESSMD,
0. llt, 5%,
4.'.tKQg7z)
RESSMD,
0. 7l{,5%,
47gQg12)
Slt SLIDE,
SSSUO23NC
TRGMD
iC TTL,GDTALSW
N0. FNDNO
P/N
DESCRIPTiON
& SPEC.
cE1CL476M2 c155 CAPEL&5OV,
M,IUF(BP)
CK1HI1O3K4 c324 cAPSI{D,
50V,J, 680PFQAL2)
CK1HI681Jb $n
cAPSMD,
sgv,K,g. 'TUFQ0r2)
CK1HI1O3K8 c329 cAPSMD,
sgv,K,47WPF
Q012)
cK1wt2?,1,I
7g c331 CAPSMD,
\gY,J, 22gPF
QO12)
(29T2)
CK1HI1O3K
72 c344 CAPSMD,
5,OY,
K,O.OLUF
CK1HI1O3K
t4 c369 CAPSMD,
sgU,J,82PFQLT2)
CK1HI68OJ
16 c375 CAPSMD,
sgU,J, 68PFQOI2)
CE1CL476M
18 D108 DIODE,
1SS133
585-tzg 2g D110 DIODE,
1SS133
585-729 22 D712 DIODE,
1SS133
585-I2g 24 D114 DiODE
1SS133
585-tzg 26 Di16 DIODE,
1SS133
585-I2g 28 D118 DIODE,
1SS133
585-tzg 3g D148 DIODE,
1SS133
585-I2g 32 D15g DIODq
1SS133
585-r20 34 D153 DIODE
ZENER,DZ_8.28
585-129 36 D20g DIODE,
1SS133
531-W2-7 38 PP106 CONNECTOR
HOUSING,
CS25g_08
611-669 4g 8110 TRANSISTOR,
KSC173O-Y
671-670 42 Q319 TRANSISTOR
SMD,
KTC3875-Y
6tI-679 44 Q321 TRANSISTOR
SMD,
KTA15O4_Y
g. tV,5%,
RMBP1201F
46 R349 RESSMD,
t020t2)
g. Ilf, 57(,
RMAT4TgIJ
48 R364 RESSMD,
27Q0t2)
RM?ISOWF
50 R366 RESSMD,
A.rVt,5%,t. 8K(29t2)
g. [], 51622gQgt2)
RMOI18O1J
52 R368 RESSMD,
g.
RMATZ^WJ
54 R37g RESSMD, lv, 5X,27Q0I2)
RMAI,3O0p,F
DO R372 RES
g. LV,1%,
K M g T L I W L T 5d R374 RES
Sl'fD,
33gQgI2)
g. 7II,M, 2KQTTZ)
RMOI33OOF
60 R3?6 RESSMD,
g. Ilt,,57",
RMOiS2ROF
62 R378 RESSMD,
82KQLT2)
g.
64 R380 RESSMD, LvI,5%,82KQLT2)
RMOI1OO3J
66 R382 RESSMD,
0. rV,I%,339(2012)
RMOI33OOF
68 R384 RESSMD,
0. 7lf,l%,2K(20I2)
R|\{OIS2ROF
70 R388 RESSMD,
0. Llf,,52(,4.TKQUIZ)
RIIaIATgTJ 72 R390 RESS[lD0. ll/, 5%,
4.7KQ0I2)
RMOTATgIJ74 R436 RESSlt|D,
0. 7v,5X,4. 7KQD12)
RM?IA'IOTJ'16R439 RES
SMD,
9.1\t,516
4.'.tYQ,tz)
g. IllI,M, I. 2K(2012)
RMOI4TROJ
78 R556 RESSMD,
g. Lw,5%,t. 8K(20t2)
RMOI15O1F80 R559 RESSMD,
g. IV,5%,41OQOT2)
RMOI1OROJ
82 R51g RESSMD,
RMATAIglJ 84 R572 RESSMD,
9. LY,57",4.7KQ972)
RMTITMJ 86 s8g2 SIt SIIDE,SSSUO24NB
VMODE
521-112 88 u1g3 IC TTt,GD74IS74AP
GSS
591-00r-9
29
P/N
581-117
cKlH168
CK1HI1f
CKLHI47
ct(1HTn
cK1HI10
CKlHI8U
cK1Hi68
585-LU
585-In
ffis-Ln
585-1n
ffis-rn
ffi5-1n
ffi5-rn
58yLn
585-162
585-In
531-Agt
611-669
6LI-670
61r-672
RT{O
RIrCI
RTO
R[0
RiCII
R}CII
Rl0i
R}CII
RloI
RlCII
RIrCII
521-113
591-
l(7>.
VERTICAL
MAIN
AMP.
;
PAGE
)/N
:Ll7
JII68
N0.FNDNO
DESCRIPTION
& SPEC.
P/N
N0. FNDNO
DESCRIPTION
& SPEC.
1 c154 lcAPCER,
sMV,C,IPF(T.
C BLACK)
ErE,16V,
M, ?UF(S!,|S)
I
lcTzHRslm.2 UIbO lcAP
I
e c157 lcAPcER,500v,c,
IPF(T.C
BLACK)
cT2HR010c
4 c158
cER,
500u,K,
\MPF
I
lcAP
K,ATOOPF
\OOV,
o c760 lcAP
ICAPCER,
cER,
5g0u,K,
twPF
I
lcK2HL472K
I
CAP
CER,\OOV,KO.O|UF
8 c333 ICAPSMD,
^AV,K,0. 01UFQ0L2)
lcKzHLla3K
cAPSMD,
1gU,K,0. gtUFQ012)
cK1Hr103K
1g c335 CAPSMD,
sOY,
J, 68PFQOI2)
I
CAPSMD,
sgV,J,78PFQA72)
cK1Hr180J
72 c337 NOTUSED
I
CAPSMD,
J,27OPFQO12) cK1Hr271J
sOY,
14 c339 CAPSMD,5OV,
J, 18OPFQULZ)
I
CAPSMD,
sgY,J,47PFQ712)
cK1Hr470J
1 0 c522
cAPCER,5g0V,K,0.A7UF
I
I
t"lcY
fli
I c161
HTNIJ I c334
HI1O3K 11c336
1 e c338
15c34g
-In
ZENER,DZ_s.78
fi DL^O DIODE
|585-111 18DI?I
-tn
DIODE
ZENER,DZ_s.78
19Dtn
Isss-rrr 20 L707
-lnt
2t Lt02 I NDUCTOR,
2. ZUH/LALO
4NA2R2M 628-779 22 Q111
-tn
n Q112 TRANSISTOR,
2SC29g1
611-151 24 Q113
-Ln
?58114 TRANSISTOR,
25C3779
611-650 26 Q115
-Ln
n Q116 TRANSISTOR,
KSC35O3_E
611-159-928 0117
-tz)
n Q118 TRANSISTOR,
2SAL2a6
6It-021 30 Q119
-LUt
al
U I 8129
TRANSISTOR,
KSC35O3-E
611-159-932 R185
-ttz
33R186 RESM.F,1/4v/,L%,t75
,J4 R187
RMBP115OF
-Ln
RES
M.0,
35R188
2W,5%,\0K
JO R189
RSO2P1O3J
-4AI
n R19g RESll. O,TVI,5%,27K
RSO1P273J
38 R192
s69
I|.0,2W,5%,I2K
39R193 RES
RSOzP123J
40 R194
8t0
4LR195 RESC.F,I/4W,5%,47
RDaBP4TAJ
42 R196
,Q
872
R386 RES
RMaI4TgTJ44 R387
,,LfiMJ
g.Iif,1%,
45R 3 2 RESSMD,
TffiQOI2)
Rl'{OI1SOOF
46 R393
41R394 NOTUSED
NOT
48 R395
1801J 49R396 RESSMD,
O.Tw,5%,lgQgIz)
RMOI1OROJ
5A R397
g. lVt,5%,27Qglz)
WJ
51R3974 RESSMD,
RMaI?TROJ
52 R398
ztwJ ut R399 RESSMD,
0. LUt,
5X,47gQ0t2)
RMOIATMJ54 RAW
g. IV,5%,|WQOIZ)
NOIF 55R401 RESSMD,
RMOIIgfp,J56 R4g2
I
g. LV,7%,190Q012)
WF
57R403 RESSMD,
R[|oi1800F
581
R404
mtF
DY R405 RES
SMD,
9. 7v,5%,1KQ0r2)
RMOTIM1J6sl
R406
WzJ
0l RM7
RESSMD,
0. lL 5%,L0gQg72)
RMOITOOaJ
621
R408
g. Il{, 5%,47QOIZ)
wzJ 63R409 RESSMD,
RM?I4TROJ
641
R(tg
b5 R4i1 RES
SMD,
O.Iv/,,I%,27gQgT2)
RMTTZTggY
661R472
g.Iy, TZ,78AQTT2) RMOI18OOF
WIF
67R413 RESSMD,
681
THIOT
NWJ
69VC111 CAPTRIMMER,
TZO3P45OFR,
YEL
5S1-132-1
I 7AlVC112
I
t7glJ
I L vR118 RES
SR,VGO68TI1B_5OOB 572-319-71
t701J
NgLJ
tntF
tMlJ
nwJ
YIgTJ
.13
63-9
d
DIODE
ZENER,DZ-'.18
I NDUCTOR,
2. zUH
/ LAM4NA2R2M
TRANSISTOR,
2SC29aI
TRANSISTOR,
2SC3779
TRANSISTOR,
KSA1381-E
TRANSISTOR,
zSATzffi
TRANSISTOR,
KSA1381_E
RES[|.R 1/4tt,7%,175
RES
M.0,2W,5%,72K
RESC.F,I/4W,5%,lW
RESC.F,L/4y,5%,9I9
RESM.O,211,5%,IgK
RESC.F,I/4v,5%,979
RESSMD,
A,IV,N, IWQ,IZ)
RESSMD,
0. LV,5X,g (2912)
g. LV,T%,7,37KQOT2)
RESSMD,
RESSMD,
0. tV,5%,tgQgtz)
RESSMD,
0. Iv, t%,27gQ0l2)
RESSMD,
0. Llt,5%"
Lm(29L2)
RESSMD,
0. Lv,5L 47(29t2)
RESSMD,
9.fl1,5r6
47QgL2)
g.
RESSMD, tY,5%,lKQgtz)
RESSMD,
0. fii, 5%,\MQ7LZ)
RESSMD,
0. rVl,5%,470Q0r2)
g. 7v,5%,47QgLz)
RESSMD,
THERMISTOR,
NTC-4.
?-OHlt|
CAPTRIMMER,
TZOSP
45OFR,
YEL
P/N
lcE1cH76[l
lc(zrRLr
lwaffiinK
lcrnHru3r(
IcK1Hr680J
lNm
IcK1Hr181J
lcrcHllo3K
I585-111
I
16%-17s
611-151
611-650
611-169-9
6L7-nr
611-169-9
RMBP115OIF
RsfrzPLz3J
RDOIBPlOlJ
RDOIBP91lJ
RS@P10&J
RDOBPgl1J
RWIL5//iF
RIMIWJ
Rl'CII1371F
RTCII1ORAI
MMINMF
RWITWJ
R}|OI4TRAI
RMI4n0J]
RrCIr1001Jl
Rwrlwrl
RWI47ffiJ
R[CIr47RAr]
57s415
I
5E1-132-1
|
(A).
TRIGGER
AMPLIFIER
; 8
PAGE
DESCRIPTION
& SPEC.
cttz
c114
c116
7 c118
I ctzg
1 1 c362
13 D168
15 PTO3
l7 Q130
19 Q346
21 R127
23 R484
25 R486
2',1R488
29 R490
a 1 R492
33 R495
35 R49?
37 Ptr1R
39 R519
47 s103
43 vR105
J
CAPEtE,25V,l}|,zzUF(St|S)
cE1Er226M2 c113
CAPELE"
25V,[|,2zUF(SMS)
CEIEL226M4 c115
CAPEtE,sOV,
I|,IUF(BP)
581-117 o c117
CAPCER,
sMY,J,47PF
CK2HR47gJ8 c119
CAPELg25V,li|,22UF(SI{S)
CE1EL226M
TOc359
g.
CAPSlllD,
5OU,
K, OIIJF
CK1HI1O3K
QgTz)
t2 CtsOl
DI0DE,
1SS133
585-120 t4 D169
g640-02
WAFER,
CONNECTOR
LII
537-g0r-7 to PPTg2
FET,2SK3O4-E
617-r4A 18 Q345
TRANSISTOR
SMD,
2SC3?75-OY3 611-656 2g Q347
C.F,I/4w,5%,479K
RES
RDOBP474J
22 R128
0. 7V,5%,22bQgt2)
RESSMD,
RMOTZ^WJ
24 R485
RESSMD,
0.t!f,Lr(,2.'.tKQ072) RMAIz7glF26 R4E7
g. Iw,1%,
RESSMD,
47K(29L2) RM?IA?gzF
28 R489
RESS[lD,A.fl|, 5%,5. 6KQOT2) Rl}{gI5601J3A R491
RESSMDg. flt, 52,4. ?KQg12)
RTMI47glJ32 R494
RESSMD,
0. 7Y,5%,15KQ0t2)
RM'ITSON34 R496
g. 7V,5%,IKQOIZ)
RESSMD,
RMOIlOOlJ36 R499
RESS[fD0. LVt,
52(,479Q012)
RMOIATMJ38 R516
RESSl'|D,
0. tV,516t0Q0r2)
RMOI1OROJ
4g R521
SI{ SIIDE,SSSU1z3NC
TRGSOU 52I-174 42 s804
VGO68TI1B-1OKB
RESSR.
572-314-I 44 vR804
DESCRIPTION
& SPEC.
CAPELE,
25V,ll|,2zUF(Sl'{S)
CAP[|.F,AMY,K,O.O47UF
CAPEtE,5OV,
}|,IOUF(BP)
581-14
CAPEL&25V,M,2zUF(SMS)
CAPSMD,
ffiU,C,\PFQuTZ)
CAPMYLAR,
\gY,K,O.OTUF
CPlI{R
DIODE,
1SS133
*s-tn
CONNECTOR
HOUSING,
Csz1g_ffi 53t-Atg
TRANSiSTOR
SMD,
2SC3775-OY3 611-6S
TRANSISTOR
Sl{D,
KTA15O4-Y 611472
RESC.F,I/4U,52,479K
RESSMD,
0. lW,5X,22Q0t2)
RESSMD,
A.LV,52,nQAr2)
g. Lw,5t(,lKQglz)
RESSMD,
RTCII
g. TII,TX,L.2KQA12)
RESS[|D,
RES
RTCII
RESSMD,
O.IV,52,T^KQOLZ) RIiCII
RESS}lD,
A,LV,5X,24KQOI2)
RESSilDA.LVt,
5X,nQglz)
g. lV,52(,
g2gIz)
RESSMD,
SWSLIDE,
SSSUOz
NB TRGMOD 521-113
RESVAR,
VqTZL_PUSOKS
1OKB
TRGI57I-96
Y_
(9).
SWEEP
GENERATOR
; 9
PAGT
;E
/N
l
r*{l
N0.FNDNO
DESCRIPTION
& SPEC.
1 cr28 CAPEtE,25V,M,zzUF(SMS)
0H73r{ll c130 CAPELE,25V,M,zzUF(S[|S)
-143
c132 CAPELE,
25U,IT,22UF(SMS)
ll nI c134 CAPELE,25V,M,2zUF(SMS)
nzza'ilL
J, 82PFQTT2)
sOV,
trffi,f,li o c363 CAPSMD,
11
c366
CAP
SMD,
'OV,J, I5PF(20I2)
rR103Kli
1
a
-Lur ulc { DIODE,
1SS133
li
-4r0 15D159 DIODE,
1SS133
I LI D165 DIODE,
1SS133
s6 l
1SS133
19D167 DIODE.
$72
| 2l 8339 TRANSISTOR
SMD,
KTC3875-Y
BP474Jl
SMD,
KTC3875_Y
rwrl n Q342 TRANSISTOR
SMD,
KTC3875-Y
wwrl % Q344 TRANSISTOR
R493
NOT
USED
n
nmL!
g. Tl{,5Z,IWQOIZ)
IIWF1,\ln R5W RESSMD,
g. LW,
5%,|WKQOIZ)
t470L1l 31R502 RESSMD,
g. Tlf,,
R504
RES
SMD,
IZ,IZKQOIZ)
ILMZJ\ii
A.Lllt,5%,
M0Q0t2)
vtwali R506 RESSMD,
g. w, 57,,
R508
RES
SMD,
7WQg12)
37
rnMrl
O.Il{,5%,T\KQAIZ)
ttwJl 39R510 RESSMD,
g.
4LR512 RESSMD, lV, t%,3. 3KQ0t2)
-113
| 43R514 RESSMD,
g. 7l{,5%,
56KQTI2)
-wl
45R518 RESSMD,
0. 7V1,
57",4. 7KQgtz)
g. tl{,5%,1AQg12)
41R\n RESSMD,
g.N,5'(,TTQOI2)
49R524 RESSMD,
51R525A NOTUSED
g. Ilf, 5%,tgK(2912)
53R532 RESSMD,
g.IVI,5%,
\gKQgTz)
55R534 RESSMD,
g.
R549
RES
SMD,
IV,
470Qgr2)
57
5%,
R551 RESSMD,
O.IV, 1%,IgKQgTz)
g. TII,5%,7gQgTz)
bI R553 RES
SMD,
AA s104 SW
PUSH,
SPPJ3-E
SLOPE
bb ufig
IC TTL.GDT4LSiO
61UTI? IC TTL,GD74LS74AP
GSS
69vc113 CAPTRIMT'IER,
TZ^SP
45gFR,
YEL
7l VR1O8RESSR,VGO68TI1B-1KB
II
P/N
N0. FNDNO
CE1Et226M2 ctzs
CE7EL226M
4 c131
CE1EL226M c133
CEIEL226M8 c360
CK1HI82OJ
tg c364
CK1HI15OJ
72 c367
585-129 t4 D158
585-t20 1 0 D164
585-r2g 18 D166
585-729 2g 0129
6tt-610 22 Q341
6II-670 24 Q343
611-670 26 R136
NOT
28 R498
RMOTTgggJ
30 R501
RMgITAMJ32 R503
RM?IIaOZF2.4 R505
RMaIIWaJ 36 R5A7
RMOILOaaJ
38 R509
RMOI15O2J
4g R511
RMOI33O1F
42 R513
RM?I56O2J
44 R51?
RMgtATgu46 R52g
RMOI1OROJ
48 R523
R[{OiIOROJ
5g R525
NOT
52 R526
RMaTIM?J54 R533
RMaIIaOzJ)o R548
RMOIATOgJ
58 R550
RMgIlgOzF6g R552
RMOI1OROJ
62 R554
521-104 64 u109
591-045-966 u111
591-163-968 u113
581-132-17g VRI0'I
512-375-r
35
DESCRIPTION
& SPEC.
P/N
CAPELE,25V,
[|,?2UF(SMS)
cEntnat
cAPEtE,50V,tt,2.zUF(SMS)
CELHI.WI
25V,M,z2UF(SMS)
CAPELE,
cnu.mt
NOTUSED
NOT
NOTUSED
NgT
g.
CAPSMD,
\gV,K, AIUF
CK1HI1O3K
QgTz)
DIODB
1SS133
ffi,-tn
DIODE,
1SS133
ffi5-Ln
NOTUSED
NOT
FET,2SK3O4-E
6lI-7M
TRANSISTOR
I|MBT39O4-1A 611-654
SMD.
TRANSISTOR
S}{D,
MMBT39O6-2A611-653
RESC.F,7/2V,5%,68K
RDOCP6S&I
RESSMD,
O.TV,52(,IMQLLZ)
RWIIWJ
g. 7l{,7%,3.3KQLIZ)
RESSMD,
RlCII3301F
g. LUt,
RESSMD,
5%,4.7KQUIZ)
RII0IMOIJ
RESSMD,
O.Irf,,IZ, 82(2912)
Rtr{OI82R0F
RESSMD,
0. Iv, 5r482KQ072)
R\frr8zttzJ
RESSMD,
O,Tw,5%,4.7KQTT2) RWT4TgIJ
RESSMD,
O.Tl{,,LX,3. 3KQLTZ) RIor3301F
RESSMD,
0. Iv, 52,47Qglz)
RVfiIA?WJ
RESSMD,
O.TV,51(,4.TKQuTZ) RWrATgtJ
RESSMD,
O.LV,5%,LgQglz)
RIOI1OMJ
RESSMD,
0. tyl,5%,I0gQ0t2)
RWILWJ
g. IV,5T,2.ZKQuIZ)
RESSMD,
RWTMLJ
g. W, 7%,3. 3KQ0t2)
RESSMD,
RICII3301F
g. IU,5%,tg(nLz)
RESSMD,
RIOIIOIRA'
RESSMD,
A.LV,7%,
4.7K(nn)
RWIATgLF
RESSMD,
9.1Y,fi6 TKQOIZ)
RI|OIlOOlF
g. IV,5'6IOQLLZ)
RESSMD,
RI'|OIIOROJ
RESSMD,
0. LV,5t(,4. 7KQg12)
RIMTATgIJ
IC TTL,GDTAISM
59l-ffit4
IC TTLHD74IST22P
59y2n
rc TTLGD74rS14
59L-gtffi
RESSR,VGO68TL1B-1KB
572-315-tl
I
<LA>.
TIMING
CIRCUITS
; 10
PAGE
N0. FNDNO
1
ct21
3 c123
c125
I c361
I Dt52
11 R129
13 R131
15 R133
T7 R135
19 R528
2L R530
23 R801
25 R803
27 R805
n s806
31 vR806
DESCRIPTION
& SPEC.
P/N
N0. FNDNO
DESCRIPTION
& SPEC.
CAP[{.F,250V,
G,1UF
cH2Et105G2 cI22 CAPCER,5WU,K,\MPF
CAPl'l.F,4WY,G,O.O1UF
CH2GI1O3G
4 cI24 cAP[|.F,AggV,Kg.g47UF
CAPELE,sOV,
i{,2.zUF(SMS)
CE1HL225M
b c126
cAPErE,25V,l}|,zzUF(Sli{S)
CAPSl'|D,
sOU,
J,A1OPFQgtz) CKlHI4?TJ8 c365 CAPSMD,
\gV,K,O.OTUF
QgIz)
DIODE
1SS133
585-L20 IO a34g TRANSISTOR
S[|D,
KTA15O4_Y
RES[f. F,1/ 4l,t,0. 51632.5K
RMBP3252D
12 R130 RESIt|.F,L/ 4v,0.5%,82.5K
RESM.F,l/4W,0.5X,
1.65M
RMBP1654D
74 R132 RES[|.R 7/4v,0.5X,825K
RES[|. F,1/ 4yt,A.5X,165K
RMBP1653D
16 R134 RESM.F,I/4V,9.5%,
1.65I'|
RESl'|.F,1/4!f,0.5X,L65K
RMBP1653D
18 R527 RES
g. fl, 5%,TKQLTZ)
RESSlilD,
b. lV, 52,10KQ012)
RMgIlOgzJ
20 R529 RESSMD,
g.
RESSMD,
A.LV,5%,IAQglz)
RMOI1OROJ
22 R531 RESSi|D Ltt,U6I. sKzgtz)
RESC.F,\/Ayt,5v"680
RDOBP681J
24 R8A2 RESC.F,t/4v,5%,ffiA
RES
C.F,I/4w,5%"2.'.|K
RD6BPZ72J
26 R804 RESC.R I/4tt,U65W
RESC.F,t/4Y,5r(,2.7K
RWBPZ7zJ28 s105 SI{ROTARY,
BTR3O22q
BELTON
SWSLIDE,
SSSUOU2NBO11
HVAR 52L-Itt
3A vR106 RESSR,VGO68TL1B-5OKB
\q\ZL_PYSOKS
RESVAR,
1OKB
HVAR
571-325
36
P/N
cKztRlnK
CTWI/IT3K
ffiLFS,Znl
CK1HI1O3K
611-672
RI'{BP8252D
RMP863D
RrtsP1654D
RTOI33O1F
RlCII1001J
Rl0I1501F
RDEBP681J
RDOIBPSoIJ
\n-trzt-g
57z-yn-I
fF
( ]- 1- ).
CHOP
PULSE
GENERATOR
; 11
PAGE
I
I
-J
I
a(l
s(l
nnl
:-l
,l
CIDl
tsDl
'4D
I
IlFI
,1J
I
,1F
I
]1J
I
31J
I
741
:1
N0. FNDNO
1
c
cLn
c137
c378A
7 D163
o 0336
11
a$8
1 a R535
15 R53?
fi R538A
19 R540
2t R5414
23 R543
25 R545
27 R547
29 u1t4
AI
DESCRIPTION
& SPEC.
CAPMYLAR,
\WV,J, O.TUF
CAPELE25V,M,2zUF(SMS)
CAPSMD,
sgY,J,IWPFQqLZ)
1SS133
DIODE,
TRANSISTOR
SI{D,
KTA15O4-Y
TRANSiSTOR
St|D,KTC3875-Y
6.8KQ012)
RESSl'lD0. Iv, 7%,
RESSMD,
O.TV,5%,T^KQATZ)
RESSMD,
A.TV,M, 432Q.9L2)
g,
RESSMD, IV,5X,2. zKQOIz)
RESSMD,
0. tw,5%,2. zKQgtz)
RESS[|Dg. tY, 52,2. 2KQg72)
g. LV,5%,I^KQ,LZ)
RESSMD,
RESSMD,0.
1W,1%,6.8KQAL2)
IC TTt,GD74LSa2
P/N
N0. FNDNO
cP1Ht104J 2 c136
CELEIZ26M4 c378
CK1HI1O1Jb D162
8 Pta4
fi,-lzg
6tI-672 t0 Q337
617-670 T2R437
RMOI68O1F
74 R536
RM?ITWaJ16 R538
RMOT432gF
18 R539
RMaIZaOTJ
20 R541
RMOTzzglJ
z2R542
RMUINUU24 R544
RMaIIWZJ26 R546
RMOI6801F
% R586
591-054-9
DESCRIPTION
& SPEC.
CAP
25Y,
[|,zzUF(S[|S)
ELE,
CAPSMD,
J, 39OPFQLIZ)
5OV,
Dr0DL1SS133
TAFER,
CONNECIOR
LT-064H3
TRANSISTOR
SMD,
KTC38?5-Y
g.lV,\X"4.7KQ912)
RESSMD,
RESS[|D0.1V,5r6
4.7K(n12)
g.
RESSMD, IY, L21,
270(29L2)
g. LV,I%,T.\KQOIZ)
RESSMD,
RESSMD,
O.IV, 5'(,2. zKQOTz)
RESSMD,
A.lU,5165. 6K(WJL2)
RESSMD,
0. U, 52419Q072)
g. tY,5t(,4.7K(nt2)
RESSMD,
g. W,5%,t0Q0L2)
RESSMD,
P/N
ffiLEtzdr
CKlHI391J
fit7n
53t-W2-7
6tt{1t0
RIMIATOIJ
RWt47g7J
RWINWF
RilCIr1501F
RWTMTJ
RliO15601J
RIIOIURAI
RWr47glJ
RIiCIIURAI
r
<L2).
HORIZONTAL
MAIN
AMPLIFTER
PAGE
; 12
N0. FNDNO
ci35
J c143
5 c145
,l ct47
o c149
1 1 c368
13 c377
15 D156
t7 D1568
19PPi03
2TQ126
23 Q128
25 Q323
27 Q325
29 Q327
,tr Q329
33 4331
35 Rl42
37 R145
39 R149
4T R152
43 R154
45 R156
4 t R158
49 R434
b l R574
53 R576
55 R5??A
c , R579
59 R581
61 R582A
63 R5834
OD R583C
b / R583E
69 R585A
7l R58?A
73 R587C
75 R589
77 R591
'19VR1i4
81 vR116
1
L
& SPEC.
DESCRIPTION
P/N
N0. FNDNO
DESCRIPTION
& SPEC.
P/N
CAPELE,
25V,ll|,z2UF(SMS)
CE1EL226M2 c135A cAPE[E,25U,M,z2UF(SMS)
CElEI,TAJM
CE.IEI,22A[I
CAPCER,
C BLACK)CT2HRO10C
5gOU,C,1PF(T.
4 CT44 CAPELE,25V,l'{,22UF(SMS)
cAPll|.F,4g0U,
CH2GL473K
o c146 cAPM.F,4W\,K,0.947UF
K,A.g47UF
CI1pfTATSK
CH2GL473K8 c148 CAPM.F,MgY,K,g.O47I]F
cAPM.F,4Wv,K,b.g47UF
ctwu7SK
CAPELE,25V,il|,zzUF(S[|S)
LI,D,LZZ6M tg clsg
CAPCER,
1AAU,C,
iPF(T.C BTACK)ctatRaLw
cAPSMD,
CKlHI1O3K12 c376 CAPSMD,
ssv,K,A.aNFQgrz)
5gY,J, NAPFQOLZ) CK1HIlOlJ
J,68PFQ?T2)
CAPSMD,
CK1HI68OJ
5OY,
I4 u15b
1SSi33
DIODE,
585-Ln
DIODE
ZENER,
DZ_6.88
585-161 Ib D1564 DIODE,
1SS133
ffis-Ln
DIODE.
1SS133
585-I2g 18 P109 CONNECTOR
WAFER,
LI{-0640-04 531-W-7
CONNECTOR
CSzsA-ffi
HOUSING,
537-4tg 2g a725 TRANSISTOR,
KSC35O3-E
611-15$-9
TRANSISTOR,
KSC35O3_E
611-159-922 ar27 TRANSISTOR,
I{SA1381_E
611-169-9
TRANSISTOR,
KSA1381_E
611-169-924 8322 TRANSISTOR
SMD,
[{l.lBT3W6-2A 611-653
TRANSISTOR
MMBTS$6-2A 611-653 26 a324 TRANSISTOR
Sil{D,
SMD,
KTC3875-Y 6rL-679
TRANSISTOR
KTC38?5_Y 61r-670 28 8326 TRANSISTOR
S[{D,
SMD,
KTC3875_Y 6t1-6'.t9
TRANSIST0R
Sl,lD,
KTC38?5-Y
6IL-6'tg 3g 0328 TRANSISTOR
SMD.
MMBT39O6-2A611-653
SMD.
MMBT39O6_24611-653 32 0330 TRANSISTOR
TRANSISTOR
SMD,
KTC3875-Y 6tI-670
TRANSISTOR
SMD.
KTC3875_Y 677-6'.19 34 R138 RESlv|.
F,1/4W,I%,T6K
RlitsP1@F
REStl|.F,t/AV,1%,16K
RMBP16O2F
JO R144 RES
M.F,1/4V,I%,16K
RMBP16O2F
RESI'l.F,t/Al,t,1%,
16K
RMBP16O2F
38 R148 RESM.F,I/zW,72,82K
RVffiUtzF
RES}l.F,I/zl/,1%,rzgK
RMCP12O3F
4g R150 RESM.F,t/zi/',t%,tzgK
RMCP1203F
C.F,7/2V,52,56K
RDOCP563J
RES
42 R153 RESC.F,I/zW,5%,56K
RDOCP56&]
RESil.F,I/Av,1%,5.6K
RMBP56O1F
44 R155 RESI'l.F,1/4yt,
17",
7.5K
R[tsPi50iF
RESM.F,T/ AYI,
I%,5.6K
RMBP56O1F
46 R157 RES
||.F,7/4W,T7.,I.sK
Rl',BP1501F
RESM.F,7/2W,1%,82K
R[{CP82O2F
48 R433 RESSMD,
0. t|/, 5%,tgQglz)
RIiCIIIOIRO.J
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0. N, 5'(,l00Qgl2)
RMAIIaAOJ
5g R435 RES
SMD,
0.7v,5%,
ffigQgIz)
RWTIWJ
g.IV,T%,
g. |vt,7%,
RESSMD,
4.32KQLL2) RMOI4321F
52 R575 RESSUD,
4.7Kzgtz)
WATMATF
t
r
t
g.\U,
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RESSMD, M, 4.7KQ072) RM'T4TATF R577 RESSMD,lV, 1%,
IzgQgIz)
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RESS}lD,
7l/',
1%,
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DO R578 RES
SMD,
A.TV,
T%,
4,TKQTIZ) RWTATOLF
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A.L!f,5%,2.2KQ0I2)
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A.N, I%,4.IKQLIZ)
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g.
RESSMD, Il', t%,6.$KQgtZ)
R[tOI6801F
60 R582 RESSMD,
0. Iu, 52(,
24KQg12)
RVATZMIJ
g. Iv, 57"5.6KQAL2) R[|or5601J
RESSMD,
9. LIt/,
7%,
ISKQgrz)
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62 R583 RESSMD,
RESSMD,
0. 7yt,I%,I8gQ012)
Rl',lOI1SOOF
64 R5E3B RESSfr|D,
0. rlf, t%,lgg(ntz)
RIIfrIL8fpfr.
RESSMD,
0. tlt, IZ, I8sQg72)
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66 R583D RESSMD,
0. lv/,1%,
ISgQgtz)
RMOI1SOOIF
RESSMD,
A.N, t%,t2K(2s12)
RMOTT?aZF
68 R584 RESSMD,
A.7U,r%,6.8KQgtz)
R[or6801F
g. fl, \%,750Q0t2)
g.
RESSMD,
RM?TTSOOF
70 R587 RESSMD, Il,l,,7'(,2KQ012)
RIrIw/.IF
RESSMD,
9.7v1,1,(,
43gQg12)
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72 R5878 RESS|llD,
9.fi, t26470Q912)
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g.LVt,
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RESSMD, 7%,479Q012)
RMOIATggF
74 R588 RESSUD, 7]f',5%,IgQgIz)
RIiOIIOMJ
RESSMD,
A.IV,T%,
2.2K(2AI2) RM?I?aOLF
76 R590 RESSMD
0. IUt,1%"
2.2KQ.9L2) RWIZALF
l
g.IU,7%,
RESSMD,
4.UKQ012) RMOI4321F
78 s805 Sl{SLIDB
SSSU022NB011
x10
521-171I
RESSR,VGO68TI1B-2KB
572-318-18g vR115 RESSR,UGMSTLIB_^OOB
572-316-11
RESSR,VGO68TL1B-1KB
572-3I5-L 82 vR805 RESVAR,
\aLZL-PYSaKS
1OKB
HPOS
57r-s5 |
38
(13).
Z_A){TS
&
H. lf
DRTVE
PAGT; 13
m.FNDNO
1
c138
ct40
I ct42
I c153
11CI75
ct77
1 b c179
T7c180
1 0 CT82
2Tc184
23n e r a
z5D136
21D138
29DL40
1C
e1
D742
aa D144
Qtr
D146
37D160
39 F101
4LtD101
43 NL7g2
45 P106
47 P111
49 Q123
8301
KQ
Q332
55 nea/,1
57 R101
r{J.cl-
R160
R162
R164
67 R166
OY R168
na
II
RTTO
73 RtI2
R198
77 R421A
79 R423
81 R425
83 R427
85 R429
8? R431
89 R592
bI
DESCRIPTION
& SPEC.
P/N
N0. FNDNO
& SPEC.
DESCRIPTION
SHOULDER
BUSHING
919-003 2
INSUTATOR
SIIICONAPEX-AR
CAPCER,
\AOV,C,IPF(T.C BTACK)CTzHRbTgC
4 c139 CAPEtE,25V,M,zzUF(S[{S)
CAPELE,
25V,M,22UF(SMS)
CE1EL226Mo c141 CAP}|.F,AWY,K,
O.O47UF
CAPMYLAR,
4MV,K,O.g22UF
CP2GR223K
8 c752 cAPnq 160v,[{,lUF(S[,lS)
cAPCER,500V,2,A.0M
CKZHRLO3Z
1g c173 CAPEtE lMV,M,1UF(SMS)
CAPELE,35V,
M,IOOUF(SMS) CE1VL1O7M
t2 c176 CAPCER,
zKU,K,
L^MPF,B
CAPCER,
zKY,K,T0OOPF,
B
CKZFLLOZK
14 c178 CAPCER,
zKV,
Z,O.OIUF,
E
CAPCER,
zKV,Z,0.O1UF,
E
CKZFL7O3Z
16 C179A CAPCER,zKV,Z,g.
O1UF,
E
CAPCER,
zKU,
Z,O.OTUF,
E
CK^FLIOSZ
18 c181 CAPCER,
S^OU,K,IAOAPF
CAPCER,
zKV,K,TgggPF,
B
CKZFLLZZK
35V,l|, 33UF(SMS)
2g c183 CAPELE,
CAPMYLAR,
\MV,J,g.22UF
CPzAR224J
n c30r cAPSMD,
50v,K,0. 01UF
Q072)
CAPSMD,
CK7HI412K
sgU,K,47AOPF
24 D135 DIODE,
RL1O5
QOTZ)
DIODE,
RL1O5
585-154-126 D137 DIODE,
RL1O5
DIODE,
RL1O5
585-154-128 D139 DIODE
MA1S5
DIODE,
MA185
585-259 3g D141 DIODE.
1SS133
DIODE,
1SS133
585-729 32 D143 DIODE,
ESJA52-12
DIODE,
ESJA52-12
585-149 34 D145 DIODE"
AGO1A
AA
DIODE.
AGO1A
585-265
Dl47 DIODE
ZENER,DZ-228
DIODE,
1SS133
585-729 38 D161 DIODB
1SS133
FUSE,
125V0.5A,5MM
I{ITHLEAD 563-032 4g K_^OM BUS$IRE,1oil{It{,
PI_o.6
LEDPOlfER,
KLG114E
GRNKEC
588-927 42 Nr101 NEON
LAMP,
NE_98
NEON
LAMP.
NE-98
56r-022 44 P7g5 CONNECTOR
WAFER,
LW-0640-03
CONNECTOR
WAFER,
LW-0640-06 ffi7-405-7 46 PLgT CONNECTOR
WAFER,
LH-0649-03
IIAFER,
CONNECTOR
LW-re49_42 $7-m7-7 48 Q722 TRANSISTOR,
KSD362-R
TRANSISTOR,
KSC35O3-E
611-159-95g QIz4 TRANSISTOR,
KSA1381-E
TRANSISTOR
SMD,
KTC3875_Y 6II-670 52 8392 TRANSISTOR
SMD,
KTA15O4_Y
TRANSISTOR
SMD.
KTC3875-Y 67t-670 54 Q333 TRANSISTOR
SMD,
KTC3875_Y
TRANSISTOR
Sl}|D,
KTA15O4_Y 611-672 bb 0335 TRANSISTOR
S[ID,KTC3875_Y
RESl'l.F,1./4W,1%,
1.5K
RMBP15O1F
58 Rt02 RESC.F,t/4V,5%,220
RESC.F,I/Alf,52,56K
RDOBP563J
6g R159 RES
M.F,7/4V,fi(,7.5K
RESC.F,7/4W,5'619K
RDOBPlO3J
62 R161 RESC.F,I/4w,5'6220K
RESC.F,I/zW,5%,47K
RDOCP473J
64 R163 RESC.F,1/2Y,5%,47K
RES
C.F,l/4]f.,5%,220
RDaBP2ZIJ
66 R165 RES
C.F,l/4V,5%,47AK
RESC.R 1/4Vt,5%,47
RDZBP4TgJ
68 R167 RES
C.F,1/4Y,5%,47
RES[|.G,T/2W,52,16ll|
RGOCP166J
70 R169 RESC.F,I/Ay,5%,2.2
RES
C.F,7/4W,5%,Ig^K
RDOBPlO4J
72 RL71 RESC.F,1/4Ut,5%,10K
RESlt|.G,1l{,1%,8M
RG1P8OO4F
74 K l / J
RESI|.F,I/4W,9.5267ffiK
g. Iy, V(,1.2KQ0t2)
RESC.F,7/4W,5%,7gbK
RDOBPlO4J
76 R301 RESSMD,
g. Tl{,5%,82KQOL2)
RESSMD,
RMgI8zgzJ78 R422 RESSMD,
0,TII,T%,43OQOI2)
g.
g. tw,\%,6gg2g12)
RESSMD, t!f,1%,
1.2KQg72) RMaIIaaTF80 R424 RESSMD,
g. N, 1%,
RESS}|D,
n0KQ012)
RMgI?zffiF82 R426 RESS}IDD,III, T2(,
12KQqT2)
g. tV,5%,47gQ0L2)
RESS}lD,
O.TV,N, T.\KQuTZ)
RI{OI15O1F
84 R428 RESS|'lD,
RESSMD,
0. Iv, tZ, 2.7KQ0L2) RMaI?TgIF86 R430 RESSMD,
0. IY,5%"tWKQgtz)
RESSMD,
0.N,52(,
tTQgIz)
RMOI1OROJ
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I0Q,0t2)
RESSMD,0.
1l|,5X,
24KQAI2)
RMgI24g2Jw R593 RESSMD,
0. rV,t%,3. qr(nn)
?o
P/N
91$O16
CEIEI,M)M
cF2fx..lffir
CYAFLIUX
cYzFLtg3Z
cYaFu^Sz
CYANIUZJ/.
cE1Vt336M
CK1HI1O3K
585-154-1
585-154-1
585-259
85-rn I
585-149
585-zu
585-118-1
ffi,-t%t
87I-ffi
ffitua
531-W2-7
531-M2-7
611-668
611-169-9
61t-gt2
6Lr-674
6r1-gt0
RWBF?2,IJ
R[tsP1501F
RwBwAJl
RD0CPA?&]]
RDABP474J
I
RWBPATNI
RWBWW,JI
RD0BP103.J
I
RrtsP7503Dl
RMorlulFl
RICIr4300Fl
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RwrATwJl
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Ri0I10R0.tl
Ril0r3s01F
I
(13).
Z_AXIS
&
H. V
DRIVE
; 14
PAGE
N0. FNDNO
91 R594
93 R596
95 R598
97 vR11?
99 vR80i
tgl vR901
DESCRIPTION
& SPEC.
P/N
N0. FNDNO
g2 R595
RESSMD,
0.LV,5'6470Q012)
RMOT4TMJ
RESSMD,
b. tUt,5%,82KQqL2)
RMOI1aa?J
94 R597
RESS[|D0. tV,52,22KQsr2)
R\gtngzJ 96 T7g7
LIB-ZAAKB
RESSR,UCrg€8T
572-317-L98 vR119
VaLZL-PUS0KB
RESVAR,
1OKBINTE,'.lI-325 L^avR807
RESSR,VGO68TL1B-1OKB 572-314-7
40-
DESCRIPTION
& SPEC.
P/N
RESS}|Dg, TV,5)(,TKQblz)
RIMT1WTJ
RESStl{D,
0. w, I%,3.ALKQAIZ) R['OI3O11F
TRANSFORMER,
HVT-3D(4011) 6n-0fi-8
RESSR,YGAffiTLIB-aWKB
572-317-r
VO161PV25KSB2M-OHM
RESVAR,
FCS57L-3%
(7-4).
POWER
SUPPLY
; 15
PAGE
N0.FNDNO
1
cL62
c164
I c166
I c168
11CTTg
13ct72
c341
l7 D123
1 0 DI25
2TD127
n DT29
9q D131
n D133
29 NL103
et
U I 8721
aa R176
35 R178
U I R180
R182
41R184
43 R415
45 R477
41 R419
49 R42t
51u106
53 u108
DESCRIPTION
& SPEC.
SHOULDER
BUSHING
CAPEtE,160V,
l}|,IOUF(SMS)
CAPELE,259V,
IT,4?UF(Sil{S)
CAPELE,|OOU,
II,4?UF(SI'|S)
CAPELE,25U,IT,Z^WUF(SI'|S)
CAPEtE,16V,M,47UF(SMS)
CAPELE,
16V,
M, ?UF(SMS)
CAPSMD,
sgU,K,g. aIVFQgLz)
ZENER,DZ_ZZB
DIODE
DIODE.
1SS133
DIODE,
Rt1O5
DIODE,
Rt1O5
DIODE.
RL1O5
DIODE,
Rt1O5
NEON
LAMP,
NE_98
TRANSISTOR,
KSA968-A
RESM.0,llf',5%,47
RESC.F,1/4W,5%,470K
RES
C.F,t/4l/,,5%,lW
RES
C.F,t/Av,52,5.6
RESM.0,3l{,52,
1.8K
g. tV, t%,72KQgt2)
RESSMD,
RESSMD,
0. 7V,7%,I2KQ0L2)
RESSMD,
0. Lv,5%,A'.lKQg7z)
RESSMD,
0. 7Vt,
5%,82KQ072)
IC REG,
GL7972
IC REG,
GL78A5
P/N
N0. FNDNO
919-M3
2
CE2CLIa6M4 c163
CE2EL476M c165
CE2AL476M8 c167
58r-I42
7g c169
cE1CL476M
72 CTTI
cE1CL476M
I4 c174
CK1HI1O3K
l-o c342
585-118-118 D724
585-L2A 2g Dl26
585-154-122 DT28
585-154-124 D130
585-154-126 DI32
585-154-128 D134
56L-922 3g PtgS
611-667 32 R174
RSO1P470J
34 RI77
Jb R179
RDOBP474J
RDOBPlOlJ
38 R181
RDOBPSR6J
4g R183
RSO3P182J
42 R414
RMgIIZ0'ZF44 R416
RMOI72g2F
46 R418
RMOT47gzJ
48 R42g
RMOT8aaaJ
50 UIaS
595-W9 52 u7g7
591-310-9
DESCRIPTiON
& SPEC.
INSULATOR
SITICON
APEX-AR
CAPELE,7W\,II,33UF(SMS)
25gY,W
CAPELE,
IOUF(S[{S)
cAP[l.F,4g0U,K,g.g47UF
cAPEtE,25U,tt,ZZWUF(SI'|S)
CAPELE,
16V,
M,47UF(SMS)
CAPETE,25V,
lt|,IOOUF(SMS)
CAPSMD,
\gY,K,LggOPFQgIz)
DIODE
ZENER,DZ-ZZ\
DIODE,
Rt1O5
DIODE
RtlO5
DIODE,
Rt1O5
DIODE,
Rt1O5
DIODE,
RL1O5
ilAFER,
CONNECTOR
LW_064M8
RESC.F,l/4r,5%,2.2M
RESC.F,l/4y,51(,39A
RESM.F,I/AV,7X,T39K
RES
C.F,7/4v,5%,390
RES
M.0,2W,5%,8.2K
g. tY,5%,lKQgLz)
RESSMD,
RESSMD,
O.7V,IL LZKQLIZ)
RESSMD,
0. Lv,5%,47KQgt2)
g. IUt,5Z,47gQgt2)
RESSMD,
IC OPAMP,
MC4558CN
IC REG,
GL78I2
P/N
91Sr16
CE2AI336M
CFexl,106lrl
$WIATSK
fit-L0
CElCIlT6li{
cElg,1gill
CK1HI1O2K
85-118-1
|
585-154-1
585-154-1
585-154-1
585-154-1
585-154-1
531-W7
RWBWJ
RDOBP3g1J
RmP1393F
RDOBP3glJ
RV^PSNJ
RIMITWLJ
RVAIIW}F
RV0I47nJ
RWINMJ
59t-?f,74
59L-u,9-4)
(15).
OTHERS
; 16
PAGE
N0. FNDNO
DESCRIPTION
& SPEC.
N0. FNDNO
P/N
& SPEC.
DESCRIPTION
P/N
TUBESHIRINK,
MF51NM
TYPE
GSHS_i605
15l}{M3 884-g2r
125V24
2 F1
FUSE,
563-035
wH]:Oq-Z
3 GND WIRING
HARNESS.
HARNESS,
I{H15
559-t7g-c 4 JTOS UIRING
5*-775-A
WIRING
I{HO8
Jtffi
HARNESS,
HARNESS,
WHOT
550-768-A
550-635-A b J109 I{IRING
HARNESS,
WH16
7 JTIO IIIRING
WIRING
HARNESS.
Jv{1
559-'.175-A8 J1A
5ffi-7w-A
I J2A
WIRING
HARNESS,
JWz
PI_0.6
877-?f6
550-781-AM J801 BUSI{IRO1O}|l|,
ROTATION
COII
1 1t1
638-gg5 12 P1
CONNEC'IOR,
BNC(CH1.
X)
531-164
13 P1301 CONNECTOR
I{AFER.
Ly-9649-94 531-4ffi-1 t4 P1302 SOCKET,
CRT
535-017-9
(CHz.
(EXT
CONNESTOR,
BNC
Y)
15 w
CONNECTOR,
BNC
TRG)
53i-164 Ib P3
531-164
TERMINAL
PROBE
t7 P4
ADJUST
GROUND
fiq-07A 18 P5
TERMINAI,
2_048
537-018
(CH1
(EXT
19 l,o
CONNECTOR,
BNC
OUT)
BNC
BLANKING)531-164
531-164 2g P'I
CONNECTOR,
BACI-o3BELTON
21 P8
ACiNLET,
HARNESS,
l{H17
535-037 n PB10l WIRING
5W777-A
23 PB8O1 WIRING
HARNESS,
l{HO6
tlHO3
550-767-A24 PB8g2 WIRING
HARNESS,
\W-',tM-A
HARNESS.I{HO4
25 P8803 I{IRING
IIHOS
559-765-A26 PB8O4 WIRING
HARNESS,
\ffi-1ffi-A
WHO1
2'l PB8O5 IIIIRING
HARNESS,
559-762-A28 PB8O6 WIRING
HARNESS,
WHOz
5W-763-A
29 PBgO1 WIRING
HARNESS.
I{H14
HARNESS.
YH11
550-774-A3g PB9g2 WIRING
5W-771-A
I{H13
31 PB9O3 I{iRING
HARNESS,
HARNESS,
[,H1O
554-173-A2q PB9O4 WIRING
5W-779-A
c? PS1
IIIRING
HARNESS,
PS1
IIIRING
55A-782-A34 PS2
HARNESS,
PS2
55&-783-A
.tD P53
WIRING
HARNESS.
PS3
554-784-A36 R901 RESC.F,1/4]11,5%,479
RDOBP471J
37 s1
sw POI{ER,
sY13-4-18Q
MAINB0ARD
52r-997-1 38 sc1 PCB,
180x300
513-565R1
CRTSOCKET
39 sc13 PCB,
BOARD
4A SC8
CONTR0L
513-467R1
PCB,
B0ARDI80x52
513-566
41 sc89 PCB,
C0NTARRY
BOARD
2ggx239 513-5667A42 SC9
PCB.
SELECT0R
B0ARD780x26 513-567
43 Ti
POI{ER
TRANSFORMER.
OS-WZOP 622-936R144 tYr l_ t
cRT,D14-363GY/123
ffit-wt-2
'l|101
45 vlw
WIRING
J1{3
HARNESS,
WIRING
559-791-A46
HARNESS,
Jl{4
5W7W-A
47 YITg2 WIRING
J[,6
HARNESS,
559-779-A48 I{103 WIRING
HARNESS,
Jl|l5
sffi-'.t78-A
49 l{H130 I{IRING
I{H130
HARNESS.
550-649-A5A Y+Y- WIRING
HARNESS.IIIHOg
550-?69-A
I
of MODEL
PART-LISTS
0S-9g2gP Rev. B // The End
Printed Date :
1994. 8. 16
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VERTICAL
CONTROL
; 6
PAGE
N0. FNDNO
I
a
c319
5 c326
7 c328
I c330
1 1 c332
13 c345
15 c374
1n
LI
c3754
19 D109
2l D111
23 D113
25 D115
27 D117
29 D119
31 D149
33 D151
35 D154
J t P113
39 0109
4I 0310
43 an0
45 R197
47 R35?
49 R365
51 R36?
53 R369
R371
57 R373
59 x.t/c
61 R3'.17
63 R379
65 R381
67 R383
69 R385
7I R389
73 R391
75 R438
77 R555
79 R558
81 R569
83 R571
85 R573
87 s903
89 utg4
DESCRIPTION
& SPEC.
CAPELE,
16V,It{, ?UF(SMS)
CAPSMD,
50\, K,g. aTUF
QOTZ)
CAPSMD,
J, 68^PFQAT2)
sOY,
CAPSMD,
sgY,K,O.glUF{2012)
cAPSMD,
50V,J,220PFQ0I2)
CAPSMD,
sOY,K,O.OTUF
QgTz)
g.OTUFQUIZ)
K,
CAPSMD,5OV,
CAPSMD,
5gU,J, 68PFQ?T2)
CAPEtE,16V,II/l,4?UF(SI'{S)
DiODE,
1SS133
DIODE.
1SS133
DIODE
1SS133
DIODE,
iSS133
DIODE,1SS133
DIODE,
1SS133
1SS133
DIODE.
DIODE.
1SS133
DIODE,
1SS133
WAFER.
CONNESTOR
LW-0640-03
TRANSISTOR,
KSC173O-Y
TRANSISTOR
SMD,
KTC3875_Y
TRANSISTOR
SMD,
KTC3875-Y
M.F,T/AV,T%,I.2K
RES
g. tW,5%,4.7KQ912)
RESSMD,
g.Iv, t%,3wQgtz)
RESSMD,
g. tUt,5%,I. 8K(29t2)
RESSMD,
g. tw,5%,220QAI2)
RESSMD,
RES
g. 7v/',
RESSMD,
1%,2. 7KQg12)
g. 7V,t%,33gQgI2)
RESSMD,
g. Ll{,ffi, 82Q0t2)
RESSMD,
RESSMD,
O.IW,7%,22gKQgI2)
g. 7l{',5%,I^OKQOTZ)
RESSMD,
RESSMD,
0.w, t%,330Qgt2)
g. rv/,,l%,gzQgl2)
RESSl|D,
RESSil|Dg. Llil,5%,4.7KQ0t2)
RESSMD,
0.7llt,52(,
4.7KQ912)
g. Ilii',5%,4.1KQTIZ)
RESSMD,
g.IV,5%,
RESSMD,
47(J;012)
g. Iv/,T%,T.sKQOIz)
RESSMD,
RESSMD,
0. LV,5%,1gQA12)
RESSMD,
0. llt, 5%,
4.'.tKQg7z)
RESSMD,
0. 7l{,5%,
47gQg12)
Slt SLIDE,
SSSUO23NC
TRGMD
iC TTL,GDTALSW
N0. FNDNO
P/N
DESCRIPTiON
& SPEC.
cE1CL476M2 c155 CAPEL&5OV,
M,IUF(BP)
CK1HI1O3K4 c324 cAPSI{D,
50V,J, 680PFQAL2)
CK1HI681Jb $n
cAPSMD,
sgv,K,g. 'TUFQ0r2)
CK1HI1O3K8 c329 cAPSMD,
sgv,K,47WPF
Q012)
cK1wt2?,1,I
7g c331 CAPSMD,
\gY,J, 22gPF
QO12)
(29T2)
CK1HI1O3K
72 c344 CAPSMD,
5,OY,
K,O.OLUF
CK1HI1O3K
t4 c369 CAPSMD,
sgU,J,82PFQLT2)
CK1HI68OJ
16 c375 CAPSMD,
sgU,J, 68PFQOI2)
CE1CL476M
18 D108 DIODE,
1SS133
585-tzg 2g D110 DIODE,
1SS133
585-729 22 D712 DIODE,
1SS133
585-I2g 24 D114 DiODE
1SS133
585-tzg 26 Di16 DIODE,
1SS133
585-I2g 28 D118 DIODE,
1SS133
585-tzg 3g D148 DIODE,
1SS133
585-I2g 32 D15g DIODq
1SS133
585-r20 34 D153 DIODE
ZENER,DZ_8.28
585-129 36 D20g DIODE,
1SS133
531-W2-7 38 PP106 CONNECTOR
HOUSING,
CS25g_08
611-669 4g 8110 TRANSISTOR,
KSC173O-Y
671-670 42 Q319 TRANSISTOR
SMD,
KTC3875-Y
6tI-679 44 Q321 TRANSISTOR
SMD,
KTA15O4_Y
g. tV,5%,
RMBP1201F
46 R349 RESSMD,
t020t2)
g. Ilf, 57(,
RMAT4TgIJ
48 R364 RESSMD,
27Q0t2)
RM?ISOWF
50 R366 RESSMD,
A.rVt,5%,t. 8K(29t2)
g. [], 51622gQgt2)
RMOI18O1J
52 R368 RESSMD,
g.
RMATZ^WJ
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RMAI,3O0p,F
DO R372 RES
g. LV,1%,
K M g T L I W L T 5d R374 RES
Sl'fD,
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g. 7II,M, 2KQTTZ)
RMOI33OOF
60 R3?6 RESSMD,
g. Ilt,,57",
RMOiS2ROF
62 R378 RESSMD,
82KQLT2)
g.
64 R380 RESSMD, LvI,5%,82KQLT2)
RMOI1OO3J
66 R382 RESSMD,
0. rV,I%,339(2012)
RMOI33OOF
68 R384 RESSMD,
0. 7lf,l%,2K(20I2)
R|\{OIS2ROF
70 R388 RESSMD,
0. Llf,,52(,4.TKQUIZ)
RIIaIATgTJ 72 R390 RESS[lD0. ll/, 5%,
4.7KQ0I2)
RMOTATgIJ74 R436 RESSlt|D,
0. 7v,5X,4. 7KQD12)
RM?IA'IOTJ'16R439 RES
SMD,
9.1\t,516
4.'.tYQ,tz)
g. IllI,M, I. 2K(2012)
RMOI4TROJ
78 R556 RESSMD,
g. Lw,5%,t. 8K(20t2)
RMOI15O1F80 R559 RESSMD,
g. IV,5%,41OQOT2)
RMOI1OROJ
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RMATAIglJ 84 R572 RESSMD,
9. LY,57",4.7KQ972)
RMTITMJ 86 s8g2 SIt SIIDE,SSSUO24NB
VMODE
521-112 88 u1g3 IC TTt,GD74IS74AP
GSS
591-00r-9
29
P/N
581-117
cKlH168
CK1HI1f
CKLHI47
ct(1HTn
cK1HI10
CKlHI8U
cK1Hi68
585-LU
585-In
ffis-Ln
585-1n
ffis-rn
ffi5-1n
ffi5-rn
58yLn
585-162
585-In
531-Agt
611-669
6LI-670
61r-672
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521-113
591-
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VERTICAL
MAIN
AMP.
;
PAGE
)/N
:Ll7
JII68
N0.FNDNO
DESCRIPTION
& SPEC.
P/N
N0. FNDNO
DESCRIPTION
& SPEC.
1 c154 lcAPCER,
sMV,C,IPF(T.
C BLACK)
ErE,16V,
M, ?UF(S!,|S)
I
lcTzHRslm.2 UIbO lcAP
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cT2HR010c
4 c158
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500u,K,
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ICAPCER,
cER,
5g0u,K,
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CER,\OOV,KO.O|UF
8 c333 ICAPSMD,
^AV,K,0. 01UFQ0L2)
lcKzHLla3K
cAPSMD,
1gU,K,0. gtUFQ012)
cK1Hr103K
1g c335 CAPSMD,
sOY,
J, 68PFQOI2)
I
CAPSMD,
sgV,J,78PFQA72)
cK1Hr180J
72 c337 NOTUSED
I
CAPSMD,
J,27OPFQO12) cK1Hr271J
sOY,
14 c339 CAPSMD,5OV,
J, 18OPFQULZ)
I
CAPSMD,
sgY,J,47PFQ712)
cK1Hr470J
1 0 c522
cAPCER,5g0V,K,0.A7UF
I
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t"lcY
fli
I c161
HTNIJ I c334
HI1O3K 11c336
1 e c338
15c34g
-In
ZENER,DZ_s.78
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|585-111 18DI?I
-tn
DIODE
ZENER,DZ_s.78
19Dtn
Isss-rrr 20 L707
-lnt
2t Lt02 I NDUCTOR,
2. ZUH/LALO
4NA2R2M 628-779 22 Q111
-tn
n Q112 TRANSISTOR,
2SC29g1
611-151 24 Q113
-Ln
?58114 TRANSISTOR,
25C3779
611-650 26 Q115
-Ln
n Q116 TRANSISTOR,
KSC35O3_E
611-159-928 0117
-tz)
n Q118 TRANSISTOR,
2SAL2a6
6It-021 30 Q119
-LUt
al
U I 8129
TRANSISTOR,
KSC35O3-E
611-159-932 R185
-ttz
33R186 RESM.F,1/4v/,L%,t75
,J4 R187
RMBP115OF
-Ln
RES
M.0,
35R188
2W,5%,\0K
JO R189
RSO2P1O3J
-4AI
n R19g RESll. O,TVI,5%,27K
RSO1P273J
38 R192
s69
I|.0,2W,5%,I2K
39R193 RES
RSOzP123J
40 R194
8t0
4LR195 RESC.F,I/4W,5%,47
RDaBP4TAJ
42 R196
,Q
872
R386 RES
RMaI4TgTJ44 R387
,,LfiMJ
g.Iif,1%,
45R 3 2 RESSMD,
TffiQOI2)
Rl'{OI1SOOF
46 R393
41R394 NOTUSED
NOT
48 R395
1801J 49R396 RESSMD,
O.Tw,5%,lgQgIz)
RMOI1OROJ
5A R397
g. lVt,5%,27Qglz)
WJ
51R3974 RESSMD,
RMaI?TROJ
52 R398
ztwJ ut R399 RESSMD,
0. LUt,
5X,47gQ0t2)
RMOIATMJ54 RAW
g. IV,5%,|WQOIZ)
NOIF 55R401 RESSMD,
RMOIIgfp,J56 R4g2
I
g. LV,7%,190Q012)
WF
57R403 RESSMD,
R[|oi1800F
581
R404
mtF
DY R405 RES
SMD,
9. 7v,5%,1KQ0r2)
RMOTIM1J6sl
R406
WzJ
0l RM7
RESSMD,
0. lL 5%,L0gQg72)
RMOITOOaJ
621
R408
g. Il{, 5%,47QOIZ)
wzJ 63R409 RESSMD,
RM?I4TROJ
641
R(tg
b5 R4i1 RES
SMD,
O.Iv/,,I%,27gQgT2)
RMTTZTggY
661R472
g.Iy, TZ,78AQTT2) RMOI18OOF
WIF
67R413 RESSMD,
681
THIOT
NWJ
69VC111 CAPTRIMMER,
TZO3P45OFR,
YEL
5S1-132-1
I 7AlVC112
I
t7glJ
I L vR118 RES
SR,VGO68TI1B_5OOB 572-319-71
t701J
NgLJ
tntF
tMlJ
nwJ
YIgTJ
.13
63-9
d
DIODE
ZENER,DZ-'.18
I NDUCTOR,
2. zUH
/ LAM4NA2R2M
TRANSISTOR,
2SC29aI
TRANSISTOR,
2SC3779
TRANSISTOR,
KSA1381-E
TRANSISTOR,
zSATzffi
TRANSISTOR,
KSA1381_E
RES[|.R 1/4tt,7%,175
RES
M.0,2W,5%,72K
RESC.F,I/4W,5%,lW
RESC.F,L/4y,5%,9I9
RESM.O,211,5%,IgK
RESC.F,I/4v,5%,979
RESSMD,
A,IV,N, IWQ,IZ)
RESSMD,
0. LV,5X,g (2912)
g. LV,T%,7,37KQOT2)
RESSMD,
RESSMD,
0. tV,5%,tgQgtz)
RESSMD,
0. Iv, t%,27gQ0l2)
RESSMD,
0. Llt,5%"
Lm(29L2)
RESSMD,
0. Lv,5L 47(29t2)
RESSMD,
9.fl1,5r6
47QgL2)
g.
RESSMD, tY,5%,lKQgtz)
RESSMD,
0. fii, 5%,\MQ7LZ)
RESSMD,
0. rVl,5%,470Q0r2)
g. 7v,5%,47QgLz)
RESSMD,
THERMISTOR,
NTC-4.
?-OHlt|
CAPTRIMMER,
TZOSP
45OFR,
YEL
P/N
lcE1cH76[l
lc(zrRLr
lwaffiinK
lcrnHru3r(
IcK1Hr680J
lNm
IcK1Hr181J
lcrcHllo3K
I585-111
I
16%-17s
611-151
611-650
611-169-9
6L7-nr
611-169-9
RMBP115OIF
RsfrzPLz3J
RDOIBPlOlJ
RDOIBP91lJ
RS@P10&J
RDOBPgl1J
RWIL5//iF
RIMIWJ
Rl'CII1371F
RTCII1ORAI
MMINMF
RWITWJ
R}|OI4TRAI
RMI4n0J]
RrCIr1001Jl
Rwrlwrl
RWI47ffiJ
R[CIr47RAr]
57s415
I
5E1-132-1
|
(A).
TRIGGER
AMPLIFIER
; 8
PAGE
DESCRIPTION
& SPEC.
cttz
c114
c116
7 c118
I ctzg
1 1 c362
13 D168
15 PTO3
l7 Q130
19 Q346
21 R127
23 R484
25 R486
2',1R488
29 R490
a 1 R492
33 R495
35 R49?
37 Ptr1R
39 R519
47 s103
43 vR105
J
CAPEtE,25V,l}|,zzUF(St|S)
cE1Er226M2 c113
CAPELE"
25V,[|,2zUF(SMS)
CEIEL226M4 c115
CAPEtE,sOV,
I|,IUF(BP)
581-117 o c117
CAPCER,
sMY,J,47PF
CK2HR47gJ8 c119
CAPELg25V,li|,22UF(SI{S)
CE1EL226M
TOc359
g.
CAPSlllD,
5OU,
K, OIIJF
CK1HI1O3K
QgTz)
t2 CtsOl
DI0DE,
1SS133
585-120 t4 D169
g640-02
WAFER,
CONNECTOR
LII
537-g0r-7 to PPTg2
FET,2SK3O4-E
617-r4A 18 Q345
TRANSISTOR
SMD,
2SC3?75-OY3 611-656 2g Q347
C.F,I/4w,5%,479K
RES
RDOBP474J
22 R128
0. 7V,5%,22bQgt2)
RESSMD,
RMOTZ^WJ
24 R485
RESSMD,
0.t!f,Lr(,2.'.tKQ072) RMAIz7glF26 R4E7
g. Iw,1%,
RESSMD,
47K(29L2) RM?IA?gzF
28 R489
RESS[lD,A.fl|, 5%,5. 6KQOT2) Rl}{gI5601J3A R491
RESSMDg. flt, 52,4. ?KQg12)
RTMI47glJ32 R494
RESSMD,
0. 7Y,5%,15KQ0t2)
RM'ITSON34 R496
g. 7V,5%,IKQOIZ)
RESSMD,
RMOIlOOlJ36 R499
RESS[fD0. LVt,
52(,479Q012)
RMOIATMJ38 R516
RESSl'|D,
0. tV,516t0Q0r2)
RMOI1OROJ
4g R521
SI{ SIIDE,SSSU1z3NC
TRGSOU 52I-174 42 s804
VGO68TI1B-1OKB
RESSR.
572-314-I 44 vR804
DESCRIPTION
& SPEC.
CAPELE,
25V,ll|,2zUF(Sl'{S)
CAP[|.F,AMY,K,O.O47UF
CAPEtE,5OV,
}|,IOUF(BP)
581-14
CAPEL&25V,M,2zUF(SMS)
CAPSMD,
ffiU,C,\PFQuTZ)
CAPMYLAR,
\gY,K,O.OTUF
CPlI{R
DIODE,
1SS133
*s-tn
CONNECTOR
HOUSING,
Csz1g_ffi 53t-Atg
TRANSiSTOR
SMD,
2SC3775-OY3 611-6S
TRANSISTOR
Sl{D,
KTA15O4-Y 611472
RESC.F,I/4U,52,479K
RESSMD,
0. lW,5X,22Q0t2)
RESSMD,
A.LV,52,nQAr2)
g. Lw,5t(,lKQglz)
RESSMD,
RTCII
g. TII,TX,L.2KQA12)
RESS[|D,
RES
RTCII
RESSMD,
O.IV,52,T^KQOLZ) RIiCII
RESS}lD,
A,LV,5X,24KQOI2)
RESSilDA.LVt,
5X,nQglz)
g. lV,52(,
g2gIz)
RESSMD,
SWSLIDE,
SSSUOz
NB TRGMOD 521-113
RESVAR,
VqTZL_PUSOKS
1OKB
TRGI57I-96
Y_
(9).
SWEEP
GENERATOR
; 9
PAGT
;E
/N
l
r*{l
N0.FNDNO
DESCRIPTION
& SPEC.
1 cr28 CAPEtE,25V,M,zzUF(SMS)
0H73r{ll c130 CAPELE,25V,M,zzUF(S[|S)
-143
c132 CAPELE,
25U,IT,22UF(SMS)
ll nI c134 CAPELE,25V,M,2zUF(SMS)
nzza'ilL
J, 82PFQTT2)
sOV,
trffi,f,li o c363 CAPSMD,
11
c366
CAP
SMD,
'OV,J, I5PF(20I2)
rR103Kli
1
a
-Lur ulc { DIODE,
1SS133
li
-4r0 15D159 DIODE,
1SS133
I LI D165 DIODE,
1SS133
s6 l
1SS133
19D167 DIODE.
$72
| 2l 8339 TRANSISTOR
SMD,
KTC3875-Y
BP474Jl
SMD,
KTC3875_Y
rwrl n Q342 TRANSISTOR
SMD,
KTC3875-Y
wwrl % Q344 TRANSISTOR
R493
NOT
USED
n
nmL!
g. Tl{,5Z,IWQOIZ)
IIWF1,\ln R5W RESSMD,
g. LW,
5%,|WKQOIZ)
t470L1l 31R502 RESSMD,
g. Tlf,,
R504
RES
SMD,
IZ,IZKQOIZ)
ILMZJ\ii
A.Lllt,5%,
M0Q0t2)
vtwali R506 RESSMD,
g. w, 57,,
R508
RES
SMD,
7WQg12)
37
rnMrl
O.Il{,5%,T\KQAIZ)
ttwJl 39R510 RESSMD,
g.
4LR512 RESSMD, lV, t%,3. 3KQ0t2)
-113
| 43R514 RESSMD,
g. 7l{,5%,
56KQTI2)
-wl
45R518 RESSMD,
0. 7V1,
57",4. 7KQgtz)
g. tl{,5%,1AQg12)
41R\n RESSMD,
g.N,5'(,TTQOI2)
49R524 RESSMD,
51R525A NOTUSED
g. Ilf, 5%,tgK(2912)
53R532 RESSMD,
g.IVI,5%,
\gKQgTz)
55R534 RESSMD,
g.
R549
RES
SMD,
IV,
470Qgr2)
57
5%,
R551 RESSMD,
O.IV, 1%,IgKQgTz)
g. TII,5%,7gQgTz)
bI R553 RES
SMD,
AA s104 SW
PUSH,
SPPJ3-E
SLOPE
bb ufig
IC TTL.GDT4LSiO
61UTI? IC TTL,GD74LS74AP
GSS
69vc113 CAPTRIMT'IER,
TZ^SP
45gFR,
YEL
7l VR1O8RESSR,VGO68TI1B-1KB
II
P/N
N0. FNDNO
CE1Et226M2 ctzs
CE7EL226M
4 c131
CE1EL226M c133
CEIEL226M8 c360
CK1HI82OJ
tg c364
CK1HI15OJ
72 c367
585-129 t4 D158
585-t20 1 0 D164
585-r2g 18 D166
585-729 2g 0129
6tt-610 22 Q341
6II-670 24 Q343
611-670 26 R136
NOT
28 R498
RMOTTgggJ
30 R501
RMgITAMJ32 R503
RM?IIaOZF2.4 R505
RMaIIWaJ 36 R5A7
RMOILOaaJ
38 R509
RMOI15O2J
4g R511
RMOI33O1F
42 R513
RM?I56O2J
44 R51?
RMgtATgu46 R52g
RMOI1OROJ
48 R523
R[{OiIOROJ
5g R525
NOT
52 R526
RMaTIM?J54 R533
RMaIIaOzJ)o R548
RMOIATOgJ
58 R550
RMgIlgOzF6g R552
RMOI1OROJ
62 R554
521-104 64 u109
591-045-966 u111
591-163-968 u113
581-132-17g VRI0'I
512-375-r
35
DESCRIPTION
& SPEC.
P/N
CAPELE,25V,
[|,?2UF(SMS)
cEntnat
cAPEtE,50V,tt,2.zUF(SMS)
CELHI.WI
25V,M,z2UF(SMS)
CAPELE,
cnu.mt
NOTUSED
NOT
NOTUSED
NgT
g.
CAPSMD,
\gV,K, AIUF
CK1HI1O3K
QgTz)
DIODB
1SS133
ffi,-tn
DIODE,
1SS133
ffi5-Ln
NOTUSED
NOT
FET,2SK3O4-E
6lI-7M
TRANSISTOR
I|MBT39O4-1A 611-654
SMD.
TRANSISTOR
S}{D,
MMBT39O6-2A611-653
RESC.F,7/2V,5%,68K
RDOCP6S&I
RESSMD,
O.TV,52(,IMQLLZ)
RWIIWJ
g. 7l{,7%,3.3KQLIZ)
RESSMD,
RlCII3301F
g. LUt,
RESSMD,
5%,4.7KQUIZ)
RII0IMOIJ
RESSMD,
O.Irf,,IZ, 82(2912)
Rtr{OI82R0F
RESSMD,
0. Iv, 5r482KQ072)
R\frr8zttzJ
RESSMD,
O,Tw,5%,4.7KQTT2) RWT4TgIJ
RESSMD,
O.Tl{,,LX,3. 3KQLTZ) RIor3301F
RESSMD,
0. Iv, 52,47Qglz)
RVfiIA?WJ
RESSMD,
O.TV,51(,4.TKQuTZ) RWrATgtJ
RESSMD,
O.LV,5%,LgQglz)
RIOI1OMJ
RESSMD,
0. tyl,5%,I0gQ0t2)
RWILWJ
g. IV,5T,2.ZKQuIZ)
RESSMD,
RWTMLJ
g. W, 7%,3. 3KQ0t2)
RESSMD,
RICII3301F
g. IU,5%,tg(nLz)
RESSMD,
RIOIIOIRA'
RESSMD,
A.LV,7%,
4.7K(nn)
RWIATgLF
RESSMD,
9.1Y,fi6 TKQOIZ)
RI|OIlOOlF
g. IV,5'6IOQLLZ)
RESSMD,
RI'|OIIOROJ
RESSMD,
0. LV,5t(,4. 7KQg12)
RIMTATgIJ
IC TTL,GDTAISM
59l-ffit4
IC TTLHD74IST22P
59y2n
rc TTLGD74rS14
59L-gtffi
RESSR,VGO68TL1B-1KB
572-315-tl
I
<LA>.
TIMING
CIRCUITS
; 10
PAGE
N0. FNDNO
1
ct21
3 c123
c125
I c361
I Dt52
11 R129
13 R131
15 R133
T7 R135
19 R528
2L R530
23 R801
25 R803
27 R805
n s806
31 vR806
DESCRIPTION
& SPEC.
P/N
N0. FNDNO
DESCRIPTION
& SPEC.
CAP[{.F,250V,
G,1UF
cH2Et105G2 cI22 CAPCER,5WU,K,\MPF
CAPl'l.F,4WY,G,O.O1UF
CH2GI1O3G
4 cI24 cAP[|.F,AggV,Kg.g47UF
CAPELE,sOV,
i{,2.zUF(SMS)
CE1HL225M
b c126
cAPErE,25V,l}|,zzUF(Sli{S)
CAPSl'|D,
sOU,
J,A1OPFQgtz) CKlHI4?TJ8 c365 CAPSMD,
\gV,K,O.OTUF
QgIz)
DIODE
1SS133
585-L20 IO a34g TRANSISTOR
S[|D,
KTA15O4_Y
RES[f. F,1/ 4l,t,0. 51632.5K
RMBP3252D
12 R130 RESIt|.F,L/ 4v,0.5%,82.5K
RESM.F,l/4W,0.5X,
1.65M
RMBP1654D
74 R132 RES[|.R 7/4v,0.5X,825K
RES[|. F,1/ 4yt,A.5X,165K
RMBP1653D
16 R134 RESM.F,I/4V,9.5%,
1.65I'|
RESl'|.F,1/4!f,0.5X,L65K
RMBP1653D
18 R527 RES
g. fl, 5%,TKQLTZ)
RESSlilD,
b. lV, 52,10KQ012)
RMgIlOgzJ
20 R529 RESSMD,
g.
RESSMD,
A.LV,5%,IAQglz)
RMOI1OROJ
22 R531 RESSi|D Ltt,U6I. sKzgtz)
RESC.F,\/Ayt,5v"680
RDOBP681J
24 R8A2 RESC.F,t/4v,5%,ffiA
RES
C.F,I/4w,5%"2.'.|K
RD6BPZ72J
26 R804 RESC.R I/4tt,U65W
RESC.F,t/4Y,5r(,2.7K
RWBPZ7zJ28 s105 SI{ROTARY,
BTR3O22q
BELTON
SWSLIDE,
SSSUOU2NBO11
HVAR 52L-Itt
3A vR106 RESSR,VGO68TL1B-5OKB
\q\ZL_PYSOKS
RESVAR,
1OKB
HVAR
571-325
36
P/N
cKztRlnK
CTWI/IT3K
ffiLFS,Znl
CK1HI1O3K
611-672
RI'{BP8252D
RMP863D
RrtsP1654D
RTOI33O1F
RlCII1001J
Rl0I1501F
RDEBP681J
RDOIBPSoIJ
\n-trzt-g
57z-yn-I
fF
( ]- 1- ).
CHOP
PULSE
GENERATOR
; 11
PAGE
I
I
-J
I
a(l
s(l
nnl
:-l
,l
CIDl
tsDl
'4D
I
IlFI
,1J
I
,1F
I
]1J
I
31J
I
741
:1
N0. FNDNO
1
c
cLn
c137
c378A
7 D163
o 0336
11
a$8
1 a R535
15 R53?
fi R538A
19 R540
2t R5414
23 R543
25 R545
27 R547
29 u1t4
AI
DESCRIPTION
& SPEC.
CAPMYLAR,
\WV,J, O.TUF
CAPELE25V,M,2zUF(SMS)
CAPSMD,
sgY,J,IWPFQqLZ)
1SS133
DIODE,
TRANSISTOR
SI{D,
KTA15O4-Y
TRANSiSTOR
St|D,KTC3875-Y
6.8KQ012)
RESSl'lD0. Iv, 7%,
RESSMD,
O.TV,5%,T^KQATZ)
RESSMD,
A.TV,M, 432Q.9L2)
g,
RESSMD, IV,5X,2. zKQOIz)
RESSMD,
0. tw,5%,2. zKQgtz)
RESS[|Dg. tY, 52,2. 2KQg72)
g. LV,5%,I^KQ,LZ)
RESSMD,
RESSMD,0.
1W,1%,6.8KQAL2)
IC TTt,GD74LSa2
P/N
N0. FNDNO
cP1Ht104J 2 c136
CELEIZ26M4 c378
CK1HI1O1Jb D162
8 Pta4
fi,-lzg
6tI-672 t0 Q337
617-670 T2R437
RMOI68O1F
74 R536
RM?ITWaJ16 R538
RMOT432gF
18 R539
RMaIZaOTJ
20 R541
RMOTzzglJ
z2R542
RMUINUU24 R544
RMaIIWZJ26 R546
RMOI6801F
% R586
591-054-9
DESCRIPTION
& SPEC.
CAP
25Y,
[|,zzUF(S[|S)
ELE,
CAPSMD,
J, 39OPFQLIZ)
5OV,
Dr0DL1SS133
TAFER,
CONNECIOR
LT-064H3
TRANSISTOR
SMD,
KTC38?5-Y
g.lV,\X"4.7KQ912)
RESSMD,
RESS[|D0.1V,5r6
4.7K(n12)
g.
RESSMD, IY, L21,
270(29L2)
g. LV,I%,T.\KQOIZ)
RESSMD,
RESSMD,
O.IV, 5'(,2. zKQOTz)
RESSMD,
A.lU,5165. 6K(WJL2)
RESSMD,
0. U, 52419Q072)
g. tY,5t(,4.7K(nt2)
RESSMD,
g. W,5%,t0Q0L2)
RESSMD,
P/N
ffiLEtzdr
CKlHI391J
fit7n
53t-W2-7
6tt{1t0
RIMIATOIJ
RWt47g7J
RWINWF
RilCIr1501F
RWTMTJ
RliO15601J
RIIOIURAI
RWr47glJ
RIiCIIURAI
r
<L2).
HORIZONTAL
MAIN
AMPLIFTER
PAGE
; 12
N0. FNDNO
ci35
J c143
5 c145
,l ct47
o c149
1 1 c368
13 c377
15 D156
t7 D1568
19PPi03
2TQ126
23 Q128
25 Q323
27 Q325
29 Q327
,tr Q329
33 4331
35 Rl42
37 R145
39 R149
4T R152
43 R154
45 R156
4 t R158
49 R434
b l R574
53 R576
55 R5??A
c , R579
59 R581
61 R582A
63 R5834
OD R583C
b / R583E
69 R585A
7l R58?A
73 R587C
75 R589
77 R591
'19VR1i4
81 vR116
1
L
& SPEC.
DESCRIPTION
P/N
N0. FNDNO
DESCRIPTION
& SPEC.
P/N
CAPELE,
25V,ll|,z2UF(SMS)
CE1EL226M2 c135A cAPE[E,25U,M,z2UF(SMS)
CElEI,TAJM
CE.IEI,22A[I
CAPCER,
C BLACK)CT2HRO10C
5gOU,C,1PF(T.
4 CT44 CAPELE,25V,l'{,22UF(SMS)
cAPll|.F,4g0U,
CH2GL473K
o c146 cAPM.F,4W\,K,0.947UF
K,A.g47UF
CI1pfTATSK
CH2GL473K8 c148 CAPM.F,MgY,K,g.O47I]F
cAPM.F,4Wv,K,b.g47UF
ctwu7SK
CAPELE,25V,il|,zzUF(S[|S)
LI,D,LZZ6M tg clsg
CAPCER,
1AAU,C,
iPF(T.C BTACK)ctatRaLw
cAPSMD,
CKlHI1O3K12 c376 CAPSMD,
ssv,K,A.aNFQgrz)
5gY,J, NAPFQOLZ) CK1HIlOlJ
J,68PFQ?T2)
CAPSMD,
CK1HI68OJ
5OY,
I4 u15b
1SSi33
DIODE,
585-Ln
DIODE
ZENER,
DZ_6.88
585-161 Ib D1564 DIODE,
1SS133
ffis-Ln
DIODE.
1SS133
585-I2g 18 P109 CONNECTOR
WAFER,
LI{-0640-04 531-W-7
CONNECTOR
CSzsA-ffi
HOUSING,
537-4tg 2g a725 TRANSISTOR,
KSC35O3-E
611-15$-9
TRANSISTOR,
KSC35O3_E
611-159-922 ar27 TRANSISTOR,
I{SA1381_E
611-169-9
TRANSISTOR,
KSA1381_E
611-169-924 8322 TRANSISTOR
SMD,
[{l.lBT3W6-2A 611-653
TRANSISTOR
MMBTS$6-2A 611-653 26 a324 TRANSISTOR
Sil{D,
SMD,
KTC3875-Y 6rL-679
TRANSISTOR
KTC38?5_Y 61r-670 28 8326 TRANSISTOR
S[{D,
SMD,
KTC3875_Y 6t1-6'.t9
TRANSIST0R
Sl,lD,
KTC38?5-Y
6IL-6'tg 3g 0328 TRANSISTOR
SMD.
MMBT39O6-2A611-653
SMD.
MMBT39O6_24611-653 32 0330 TRANSISTOR
TRANSISTOR
SMD,
KTC3875-Y 6tI-670
TRANSISTOR
SMD.
KTC3875_Y 677-6'.19 34 R138 RESlv|.
F,1/4W,I%,T6K
RlitsP1@F
REStl|.F,t/AV,1%,16K
RMBP16O2F
JO R144 RES
M.F,1/4V,I%,16K
RMBP16O2F
RESI'l.F,t/Al,t,1%,
16K
RMBP16O2F
38 R148 RESM.F,I/zW,72,82K
RVffiUtzF
RES}l.F,I/zl/,1%,rzgK
RMCP12O3F
4g R150 RESM.F,t/zi/',t%,tzgK
RMCP1203F
C.F,7/2V,52,56K
RDOCP563J
RES
42 R153 RESC.F,I/zW,5%,56K
RDOCP56&]
RESil.F,I/Av,1%,5.6K
RMBP56O1F
44 R155 RESI'l.F,1/4yt,
17",
7.5K
R[tsPi50iF
RESM.F,T/ AYI,
I%,5.6K
RMBP56O1F
46 R157 RES
||.F,7/4W,T7.,I.sK
Rl',BP1501F
RESM.F,7/2W,1%,82K
R[{CP82O2F
48 R433 RESSMD,
0. t|/, 5%,tgQglz)
RIiCIIIOIRO.J
RESS}lD,
0. N, 5'(,l00Qgl2)
RMAIIaAOJ
5g R435 RES
SMD,
0.7v,5%,
ffigQgIz)
RWTIWJ
g.IV,T%,
g. |vt,7%,
RESSMD,
4.32KQLL2) RMOI4321F
52 R575 RESSUD,
4.7Kzgtz)
WATMATF
t
r
t
g.\U,
g.
RESSMD, M, 4.7KQ072) RM'T4TATF R577 RESSMD,lV, 1%,
IzgQgIz)
RI&ITMF
RESS}lD,
7l/',
1%,
430Qs12)
0.
RMOIASWF
DO R578 RES
SMD,
A.TV,
T%,
4,TKQTIZ) RWTATOLF
RESSMD,
A.L!f,5%,2.2KQ0I2)
RMaT2?aIJ58 R580 RESSMD,
A.N, I%,4.IKQLIZ)
RIMTATOLF
g.
RESSMD, Il', t%,6.$KQgtZ)
R[tOI6801F
60 R582 RESSMD,
0. Iu, 52(,
24KQg12)
RVATZMIJ
g. Iv, 57"5.6KQAL2) R[|or5601J
RESSMD,
9. LIt/,
7%,
ISKQgrz)
RMgTISZZF
62 R583 RESSMD,
RESSMD,
0. 7yt,I%,I8gQ012)
Rl',lOI1SOOF
64 R5E3B RESSfr|D,
0. rlf, t%,lgg(ntz)
RIIfrIL8fpfr.
RESSMD,
0. tlt, IZ, I8sQg72)
Rll|OI1SOOF
66 R583D RESSMD,
0. lv/,1%,
ISgQgtz)
RMOI1SOOIF
RESSMD,
A.N, t%,t2K(2s12)
RMOTT?aZF
68 R584 RESSMD,
A.7U,r%,6.8KQgtz)
R[or6801F
g. fl, \%,750Q0t2)
g.
RESSMD,
RM?TTSOOF
70 R587 RESSMD, Il,l,,7'(,2KQ012)
RIrIw/.IF
RESSMD,
9.7v1,1,(,
43gQg12)
RM0I43gAF
72 R5878 RESS|llD,
9.fi, t26470Q912)
RWI4TWF
g.LVt,
g.
RESSMD, 7%,479Q012)
RMOIATggF
74 R588 RESSUD, 7]f',5%,IgQgIz)
RIiOIIOMJ
RESSMD,
A.IV,T%,
2.2K(2AI2) RM?I?aOLF
76 R590 RESSMD
0. IUt,1%"
2.2KQ.9L2) RWIZALF
l
g.IU,7%,
RESSMD,
4.UKQ012) RMOI4321F
78 s805 Sl{SLIDB
SSSU022NB011
x10
521-171I
RESSR,VGO68TI1B-2KB
572-318-18g vR115 RESSR,UGMSTLIB_^OOB
572-316-11
RESSR,VGO68TL1B-1KB
572-3I5-L 82 vR805 RESVAR,
\aLZL-PYSaKS
1OKB
HPOS
57r-s5 |
38
(13).
Z_A){TS
&
H. lf
DRTVE
PAGT; 13
m.FNDNO
1
c138
ct40
I ct42
I c153
11CI75
ct77
1 b c179
T7c180
1 0 CT82
2Tc184
23n e r a
z5D136
21D138
29DL40
1C
e1
D742
aa D144
Qtr
D146
37D160
39 F101
4LtD101
43 NL7g2
45 P106
47 P111
49 Q123
8301
KQ
Q332
55 nea/,1
57 R101
r{J.cl-
R160
R162
R164
67 R166
OY R168
na
II
RTTO
73 RtI2
R198
77 R421A
79 R423
81 R425
83 R427
85 R429
8? R431
89 R592
bI
DESCRIPTION
& SPEC.
P/N
N0. FNDNO
& SPEC.
DESCRIPTION
SHOULDER
BUSHING
919-003 2
INSUTATOR
SIIICONAPEX-AR
CAPCER,
\AOV,C,IPF(T.C BTACK)CTzHRbTgC
4 c139 CAPEtE,25V,M,zzUF(S[{S)
CAPELE,
25V,M,22UF(SMS)
CE1EL226Mo c141 CAP}|.F,AWY,K,
O.O47UF
CAPMYLAR,
4MV,K,O.g22UF
CP2GR223K
8 c752 cAPnq 160v,[{,lUF(S[,lS)
cAPCER,500V,2,A.0M
CKZHRLO3Z
1g c173 CAPEtE lMV,M,1UF(SMS)
CAPELE,35V,
M,IOOUF(SMS) CE1VL1O7M
t2 c176 CAPCER,
zKU,K,
L^MPF,B
CAPCER,
zKY,K,T0OOPF,
B
CKZFLLOZK
14 c178 CAPCER,
zKV,
Z,O.OIUF,
E
CAPCER,
zKV,Z,0.O1UF,
E
CKZFL7O3Z
16 C179A CAPCER,zKV,Z,g.
O1UF,
E
CAPCER,
zKU,
Z,O.OTUF,
E
CK^FLIOSZ
18 c181 CAPCER,
S^OU,K,IAOAPF
CAPCER,
zKV,K,TgggPF,
B
CKZFLLZZK
35V,l|, 33UF(SMS)
2g c183 CAPELE,
CAPMYLAR,
\MV,J,g.22UF
CPzAR224J
n c30r cAPSMD,
50v,K,0. 01UF
Q072)
CAPSMD,
CK7HI412K
sgU,K,47AOPF
24 D135 DIODE,
RL1O5
QOTZ)
DIODE,
RL1O5
585-154-126 D137 DIODE,
RL1O5
DIODE,
RL1O5
585-154-128 D139 DIODE
MA1S5
DIODE,
MA185
585-259 3g D141 DIODE.
1SS133
DIODE,
1SS133
585-729 32 D143 DIODE,
ESJA52-12
DIODE,
ESJA52-12
585-149 34 D145 DIODE"
AGO1A
AA
DIODE.
AGO1A
585-265
Dl47 DIODE
ZENER,DZ-228
DIODE,
1SS133
585-729 38 D161 DIODB
1SS133
FUSE,
125V0.5A,5MM
I{ITHLEAD 563-032 4g K_^OM BUS$IRE,1oil{It{,
PI_o.6
LEDPOlfER,
KLG114E
GRNKEC
588-927 42 Nr101 NEON
LAMP,
NE_98
NEON
LAMP.
NE-98
56r-022 44 P7g5 CONNECTOR
WAFER,
LW-0640-03
CONNECTOR
WAFER,
LW-0640-06 ffi7-405-7 46 PLgT CONNECTOR
WAFER,
LH-0649-03
IIAFER,
CONNECTOR
LW-re49_42 $7-m7-7 48 Q722 TRANSISTOR,
KSD362-R
TRANSISTOR,
KSC35O3-E
611-159-95g QIz4 TRANSISTOR,
KSA1381-E
TRANSISTOR
SMD,
KTC3875_Y 6II-670 52 8392 TRANSISTOR
SMD,
KTA15O4_Y
TRANSISTOR
SMD.
KTC3875-Y 67t-670 54 Q333 TRANSISTOR
SMD,
KTC3875_Y
TRANSISTOR
Sl}|D,
KTA15O4_Y 611-672 bb 0335 TRANSISTOR
S[ID,KTC3875_Y
RESl'l.F,1./4W,1%,
1.5K
RMBP15O1F
58 Rt02 RESC.F,t/4V,5%,220
RESC.F,I/Alf,52,56K
RDOBP563J
6g R159 RES
M.F,7/4V,fi(,7.5K
RESC.F,7/4W,5'619K
RDOBPlO3J
62 R161 RESC.F,I/4w,5'6220K
RESC.F,I/zW,5%,47K
RDOCP473J
64 R163 RESC.F,1/2Y,5%,47K
RES
C.F,l/4]f.,5%,220
RDaBP2ZIJ
66 R165 RES
C.F,l/4V,5%,47AK
RESC.R 1/4Vt,5%,47
RDZBP4TgJ
68 R167 RES
C.F,1/4Y,5%,47
RES[|.G,T/2W,52,16ll|
RGOCP166J
70 R169 RESC.F,I/Ay,5%,2.2
RES
C.F,7/4W,5%,Ig^K
RDOBPlO4J
72 RL71 RESC.F,1/4Ut,5%,10K
RESlt|.G,1l{,1%,8M
RG1P8OO4F
74 K l / J
RESI|.F,I/4W,9.5267ffiK
g. Iy, V(,1.2KQ0t2)
RESC.F,7/4W,5%,7gbK
RDOBPlO4J
76 R301 RESSMD,
g. Tl{,5%,82KQOL2)
RESSMD,
RMgI8zgzJ78 R422 RESSMD,
0,TII,T%,43OQOI2)
g.
g. tw,\%,6gg2g12)
RESSMD, t!f,1%,
1.2KQg72) RMaIIaaTF80 R424 RESSMD,
g. N, 1%,
RESS}|D,
n0KQ012)
RMgI?zffiF82 R426 RESS}IDD,III, T2(,
12KQqT2)
g. tV,5%,47gQ0L2)
RESS}lD,
O.TV,N, T.\KQuTZ)
RI{OI15O1F
84 R428 RESS|'lD,
RESSMD,
0. Iv, tZ, 2.7KQ0L2) RMaI?TgIF86 R430 RESSMD,
0. IY,5%"tWKQgtz)
RESSMD,
0.N,52(,
tTQgIz)
RMOI1OROJ
88 R432 RESSilDg. Iv, 5%"
I0Q,0t2)
RESSMD,0.
1l|,5X,
24KQAI2)
RMgI24g2Jw R593 RESSMD,
0. rV,t%,3. qr(nn)
?o
P/N
91$O16
CEIEI,M)M
cF2fx..lffir
CYAFLIUX
cYzFLtg3Z
cYaFu^Sz
CYANIUZJ/.
cE1Vt336M
CK1HI1O3K
585-154-1
585-154-1
585-259
85-rn I
585-149
585-zu
585-118-1
ffi,-t%t
87I-ffi
ffitua
531-W2-7
531-M2-7
611-668
611-169-9
61t-gt2
6Lr-674
6r1-gt0
RWBF?2,IJ
R[tsP1501F
RwBwAJl
RD0CPA?&]]
RDABP474J
I
RWBPATNI
RWBWW,JI
RD0BP103.J
I
RrtsP7503Dl
RMorlulFl
RICIr4300Fl
Rtt0r6s00F
I
RtMrLUrNl
RwrATwJl
RrCIr1003Jl
Ri0I10R0.tl
Ril0r3s01F
I
(13).
Z_AXIS
&
H. V
DRIVE
; 14
PAGE
N0. FNDNO
91 R594
93 R596
95 R598
97 vR11?
99 vR80i
tgl vR901
DESCRIPTION
& SPEC.
P/N
N0. FNDNO
g2 R595
RESSMD,
0.LV,5'6470Q012)
RMOT4TMJ
RESSMD,
b. tUt,5%,82KQqL2)
RMOI1aa?J
94 R597
RESS[|D0. tV,52,22KQsr2)
R\gtngzJ 96 T7g7
LIB-ZAAKB
RESSR,UCrg€8T
572-317-L98 vR119
VaLZL-PUS0KB
RESVAR,
1OKBINTE,'.lI-325 L^avR807
RESSR,VGO68TL1B-1OKB 572-314-7
40-
DESCRIPTION
& SPEC.
P/N
RESS}|Dg, TV,5)(,TKQblz)
RIMT1WTJ
RESStl{D,
0. w, I%,3.ALKQAIZ) R['OI3O11F
TRANSFORMER,
HVT-3D(4011) 6n-0fi-8
RESSR,YGAffiTLIB-aWKB
572-317-r
VO161PV25KSB2M-OHM
RESVAR,
FCS57L-3%
(7-4).
POWER
SUPPLY
; 15
PAGE
N0.FNDNO
1
cL62
c164
I c166
I c168
11CTTg
13ct72
c341
l7 D123
1 0 DI25
2TD127
n DT29
9q D131
n D133
29 NL103
et
U I 8721
aa R176
35 R178
U I R180
R182
41R184
43 R415
45 R477
41 R419
49 R42t
51u106
53 u108
DESCRIPTION
& SPEC.
SHOULDER
BUSHING
CAPEtE,160V,
l}|,IOUF(SMS)
CAPELE,259V,
IT,4?UF(Sil{S)
CAPELE,|OOU,
II,4?UF(SI'|S)
CAPELE,25U,IT,Z^WUF(SI'|S)
CAPEtE,16V,M,47UF(SMS)
CAPELE,
16V,
M, ?UF(SMS)
CAPSMD,
sgU,K,g. aIVFQgLz)
ZENER,DZ_ZZB
DIODE
DIODE.
1SS133
DIODE,
Rt1O5
DIODE,
Rt1O5
DIODE.
RL1O5
DIODE,
Rt1O5
NEON
LAMP,
NE_98
TRANSISTOR,
KSA968-A
RESM.0,llf',5%,47
RESC.F,1/4W,5%,470K
RES
C.F,t/4l/,,5%,lW
RES
C.F,t/Av,52,5.6
RESM.0,3l{,52,
1.8K
g. tV, t%,72KQgt2)
RESSMD,
RESSMD,
0. 7V,7%,I2KQ0L2)
RESSMD,
0. Lv,5%,A'.lKQg7z)
RESSMD,
0. 7Vt,
5%,82KQ072)
IC REG,
GL7972
IC REG,
GL78A5
P/N
N0. FNDNO
919-M3
2
CE2CLIa6M4 c163
CE2EL476M c165
CE2AL476M8 c167
58r-I42
7g c169
cE1CL476M
72 CTTI
cE1CL476M
I4 c174
CK1HI1O3K
l-o c342
585-118-118 D724
585-L2A 2g Dl26
585-154-122 DT28
585-154-124 D130
585-154-126 DI32
585-154-128 D134
56L-922 3g PtgS
611-667 32 R174
RSO1P470J
34 RI77
Jb R179
RDOBP474J
RDOBPlOlJ
38 R181
RDOBPSR6J
4g R183
RSO3P182J
42 R414
RMgIIZ0'ZF44 R416
RMOI72g2F
46 R418
RMOT47gzJ
48 R42g
RMOT8aaaJ
50 UIaS
595-W9 52 u7g7
591-310-9
DESCRIPTiON
& SPEC.
INSULATOR
SITICON
APEX-AR
CAPELE,7W\,II,33UF(SMS)
25gY,W
CAPELE,
IOUF(S[{S)
cAP[l.F,4g0U,K,g.g47UF
cAPEtE,25U,tt,ZZWUF(SI'|S)
CAPELE,
16V,
M,47UF(SMS)
CAPETE,25V,
lt|,IOOUF(SMS)
CAPSMD,
\gY,K,LggOPFQgIz)
DIODE
ZENER,DZ-ZZ\
DIODE,
Rt1O5
DIODE
RtlO5
DIODE,
Rt1O5
DIODE,
Rt1O5
DIODE,
RL1O5
ilAFER,
CONNECTOR
LW_064M8
RESC.F,l/4r,5%,2.2M
RESC.F,l/4y,51(,39A
RESM.F,I/AV,7X,T39K
RES
C.F,7/4v,5%,390
RES
M.0,2W,5%,8.2K
g. tY,5%,lKQgLz)
RESSMD,
RESSMD,
O.7V,IL LZKQLIZ)
RESSMD,
0. Lv,5%,47KQgt2)
g. IUt,5Z,47gQgt2)
RESSMD,
IC OPAMP,
MC4558CN
IC REG,
GL78I2
P/N
91Sr16
CE2AI336M
CFexl,106lrl
$WIATSK
fit-L0
CElCIlT6li{
cElg,1gill
CK1HI1O2K
85-118-1
|
585-154-1
585-154-1
585-154-1
585-154-1
585-154-1
531-W7
RWBWJ
RDOBP3g1J
RmP1393F
RDOBP3glJ
RV^PSNJ
RIMITWLJ
RVAIIW}F
RV0I47nJ
RWINMJ
59t-?f,74
59L-u,9-4)
(15).
OTHERS
; 16
PAGE
N0. FNDNO
DESCRIPTION
& SPEC.
N0. FNDNO
P/N
& SPEC.
DESCRIPTION
P/N
TUBESHIRINK,
MF51NM
TYPE
GSHS_i605
15l}{M3 884-g2r
125V24
2 F1
FUSE,
563-035
wH]:Oq-Z
3 GND WIRING
HARNESS.
HARNESS,
I{H15
559-t7g-c 4 JTOS UIRING
5*-775-A
WIRING
I{HO8
Jtffi
HARNESS,
HARNESS,
WHOT
550-768-A
550-635-A b J109 I{IRING
HARNESS,
WH16
7 JTIO IIIRING
WIRING
HARNESS.
Jv{1
559-'.175-A8 J1A
5ffi-7w-A
I J2A
WIRING
HARNESS,
JWz
PI_0.6
877-?f6
550-781-AM J801 BUSI{IRO1O}|l|,
ROTATION
COII
1 1t1
638-gg5 12 P1
CONNEC'IOR,
BNC(CH1.
X)
531-164
13 P1301 CONNECTOR
I{AFER.
Ly-9649-94 531-4ffi-1 t4 P1302 SOCKET,
CRT
535-017-9
(CHz.
(EXT
CONNESTOR,
BNC
Y)
15 w
CONNECTOR,
BNC
TRG)
53i-164 Ib P3
531-164
TERMINAL
PROBE
t7 P4
ADJUST
GROUND
fiq-07A 18 P5
TERMINAI,
2_048
537-018
(CH1
(EXT
19 l,o
CONNECTOR,
BNC
OUT)
BNC
BLANKING)531-164
531-164 2g P'I
CONNECTOR,
BACI-o3BELTON
21 P8
ACiNLET,
HARNESS,
l{H17
535-037 n PB10l WIRING
5W777-A
23 PB8O1 WIRING
HARNESS,
l{HO6
tlHO3
550-767-A24 PB8g2 WIRING
HARNESS,
\W-',tM-A
HARNESS.I{HO4
25 P8803 I{IRING
IIHOS
559-765-A26 PB8O4 WIRING
HARNESS,
\ffi-1ffi-A
WHO1
2'l PB8O5 IIIIRING
HARNESS,
559-762-A28 PB8O6 WIRING
HARNESS,
WHOz
5W-763-A
29 PBgO1 WIRING
HARNESS.
I{H14
HARNESS.
YH11
550-774-A3g PB9g2 WIRING
5W-771-A
I{H13
31 PB9O3 I{iRING
HARNESS,
HARNESS,
[,H1O
554-173-A2q PB9O4 WIRING
5W-779-A
c? PS1
IIIRING
HARNESS,
PS1
IIIRING
55A-782-A34 PS2
HARNESS,
PS2
55&-783-A
.tD P53
WIRING
HARNESS.
PS3
554-784-A36 R901 RESC.F,1/4]11,5%,479
RDOBP471J
37 s1
sw POI{ER,
sY13-4-18Q
MAINB0ARD
52r-997-1 38 sc1 PCB,
180x300
513-565R1
CRTSOCKET
39 sc13 PCB,
BOARD
4A SC8
CONTR0L
513-467R1
PCB,
B0ARDI80x52
513-566
41 sc89 PCB,
C0NTARRY
BOARD
2ggx239 513-5667A42 SC9
PCB.
SELECT0R
B0ARD780x26 513-567
43 Ti
POI{ER
TRANSFORMER.
OS-WZOP 622-936R144 tYr l_ t
cRT,D14-363GY/123
ffit-wt-2
'l|101
45 vlw
WIRING
J1{3
HARNESS,
WIRING
559-791-A46
HARNESS,
Jl{4
5W7W-A
47 YITg2 WIRING
J[,6
HARNESS,
559-779-A48 I{103 WIRING
HARNESS,
Jl|l5
sffi-'.t78-A
49 l{H130 I{IRING
I{H130
HARNESS.
550-649-A5A Y+Y- WIRING
HARNESS.IIIHOg
550-?69-A
I
of MODEL
PART-LISTS
0S-9g2gP Rev. B // The End
Printed Date :
1994. 8. 16
a
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