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GoldSt
ASK & CO. ELEKTITONIKK
LYNGBOVEII:N 52

TLF.55 3448 93 FAx 55 34 I i l0

t-nxst-'.vAc

OSCILLOSCOPE

os-g020P

SERVICE MANUAL

I GoklStor Jrrecision Go.,LtGl.

GoldSt
OSCILLOSCOPE

os-g020P
ASK & CO. I'I,I.]KT'RONIKK
LYNGB['VEIEN 52

SERVICE MANUAL
TLF. 344tt93 FAX 341l 10 ss s-5 troRwA y

E l ti t.nxsr.vAc

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1 3 0 1 3E a s t1 6 6 t hS t r e e t e r r i o r sC a , 9 0 i 0 1 - 2 2 2 6 , S A C , U Tel:(213)404-0101 F a x(:2 1 3 ) 9 2 1 - 6 2 2 1 T l x ; B 'Q - 5 6 3 - 51I L G I L A l 7

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

of the product use it. period

2. After turning before use.

on power, please allow a 1S-ninute per-heating

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

Co-,

I-td.

-2-

CONTENTS ]-. 2. 3. 4. 5. SPECIFI CATI ON

ACCESSORIES PREVENTI\/E CIRCIJIT CAI-IBRATI MAINTENA\ICE DESCRIPTION. ONI . 7A 13 13 13 13 ....... 14 14

5-1. Calibration Interval .. 5-2, Test Equipment Required 5-3. Prelininary Procedure .. 5-4. Prelininary Control Settings .... 5-5. Initial 6. Starting Procedure I-EAD

SEMI COI\IDtTCTOR ()1\I CONFI GTIRATI EI-ECTRI (WITFI EI-ECTRI BI-OCI{

24
ARRAAIGEMEIVT I-OCATIONS) I-I ST

7-

PARTS CAIADJTISTMENT CAIPARTS

25
27 43 ....... 44 58

A9. Lg. 1 -1 - . L2.

DIAGRAM. DIAGI?AMS DIAGRAM CAIPARTS . I-I ST & EXPI.-ODED

SCI{EMATIC WIRTNG MECFIANI vI EW EX:TERNAI-

59 VIEWS

A3.

62

-4-

1.

SPECIFICATIONS PART SPECIFICATIONS 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. +1.9KV approx. (ref. P43
possible provided provided

' CRT 1) Configration and useful screen 2) Accelerating potential. 3) Phosphor 4) Focussing 5) Trace rotatj.on 6) Intensity control

cathode)

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) DC ZAK - 30Kohns
30V ( pQ+pgak AC )

2) Band-width 3) Coupling 4) Input inpedance 5) Maxinun i"nput voltage r Vertical Deflection 1) Band-width (-3dB) DC coupled

DC to ZAMHz nornal DC to IAMHZ magnified LbHz t o ZLllHz nornal lAHz to MlllHZ nagnifj.ed

(CH1 only) (CH1 only)

coupled

Modes

CHl, CHZ, ADD. DUAL ( CH0P ; Tine,/div switch - A.Zs to 5nS , ALT ; Tine,/div switch ZnS to 0.ZuS )
Factor

Deflection

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

4) Accuracy 5) Input inpedance 6) Maxinun input voltage 7) Input coupling

x3%

magnified

t 5% (CH1 only)

approx. lM-ohn in paralIeI

with 30pF

DirectiZSAV (Dc+peakAC),with probe;refer to probe specification

DC-GND-AC

-5-

PART 8) Rise tine 9) CHl out 10) Polarity invertion

SPECIFICATIONS 17.5nS or less(35nS or less; Z5nV/divXZA% into 50 ohns CH2 only A xb MAG) ZAHz to t0llHz( -3dB )

; 1)

2) 3)

r Horizontal Deflection 1) Display nodes 2) Tine base

X-Y , xlt

VARIABLE

tC

b.2us/div b uncalibrated

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

t,

3) Sweep nagnification
4) Accuracy r Trigger Systen 1) Modes 2) Source 3) Coupling 4) Slope 5) Sensitivity Frequency and

10 tines (naxinun sweep rate ; ZLnS/div) Note ; 50nS,/div.ZLnS/div of TIME BASEare uncalibrated. t3%, f.5% QC to 40C), additional error for nagni.fier t2%

1)

auto,

norn,

TV-V, TV-H LINE , EXT

INT ( CH1,CHz,VERT ) AC
for-

2) 3)
ZAHz-ZAMHz 1.5 div (3.0) 0.8 Vp-p
I

20Hz-ZMHz INT (VERT) 4 . 5 d i v Q . A )

1) 2) rE t 1) 2) 3) 4) 5)

AUTO, NORM

EXT
TV-V, TV-H 6) External trigger Input inpedance Max. input voltage

0.2 llp-p

at Least 1 di"v or 1. 0Vp-p approx. 1 M-ohn 250V ( DC + paek AC )

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
sane as

2) Y-axis 3) X-Y phase difference * Calibrator (probe adj.) 3'

cHz

or less

( at DC to 50KHz )

\KHz(+ZAD frequency, 0.5V(XLT%) square wave duty ratio : 40 - 6A% voltage range

* Power supply l) Voltage range

fuse

lAA(90-rlgv)/AC r20 (108 - r32V) / AC 229 (r98 - 242V) / AC 244 Qrc - Z50V) / AC
2) Frequency 3) Power consunption
t

2A25AU

zA25AV
A25AV

Az5AV

5A / 6AHz
approx. 35W

Physical Charac.

1 ) Weight
t\

7.SKe
320 nn (W) x l4A nn (H) x 43A mn (L)

Dimension

r Environnental Characteri sti c 1) Temperature range for rated operation 2) llax. ambient operating tenperature 3) Max. storage tenerature 4) Humidity range for rated operation 5) Max.anbient operating humidity

+10' C to 0'C to

+35' C +40" C +7A"C

( +50'F to

+95'F )

( + 3 2' F t o + 1 0 4 ' F ) ( -+"Fto+158'F)

-2A"Cb

45% to

85% RH

35% to

85% RH

-7-

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

ATTENUATOR

(1)

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 position. GND 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 ). A}IPLIFIER CH1 ( CHz ) IT.TPUT

(2,3)

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& TRIGGER PICK 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_

VERTICAL MAIN AMPLIFIER

(7

)

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

TRIGGER AMPLIFIER

(8)

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.

SWEEP GENERATOR

(9)

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.

POWER STIPPLY

(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. CRT CIRCUIT

(13)

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 PROBE ADJUST0.bVp-p ( II{Ilz ) connector.

-t2-

5.

CAI-IBRATI

ON

GoldStar Precision Co., Ltd. provides conplete instrunent Contact the GoldStar Precsion Co., Ltd. office.

repair

and calibration.

5-1. 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

of

+ZAC

Sa/6aHz line

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 pages(see page 2E).

-13-

5-4.

Preliminary

control

settings

Preset the instrument controls procedures. the calibration

to the settings

given below, when starting

Controls

Settings
Midrange

Controls

Settings

@ Focus

- HORIZOI'ITAL -

ROTATIONAs desi.red O TRACE O INTENSITY
Midrange

o H-PosrTrON
(E x1OMAG O TIME/DIV @ VARIABLE

Midrange Normal

- VERTICAL _ @ V-POSITION @ V_VARIABLE @ INPUT COUPLING @ VOLTS,/DIV O V_MODE C CHz INVERT
Nornal Mi drange

1nS CAL

CAL(fully

clockwise)

- TRIG @ LEVEL @ SLOPE
Midrange, nonal

GND (AC-GND-DC) 5 mV,zDIV

+ ( putt)
Auto

@ MODE

@ TRIG SOI'RCE INT(CH1)

5-5. Initial

starting

procedure

1 . Push the POWER switch. 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 INTENSITY control 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 pages.

NOTE: Before you begin, see ADJUSTMENT LOCATI0NS the pullout in (see page 25) Control settings Preset the controls as given in the Prelininary
t1l Check Low-voltage Supply, if necessary. ( DVM ) from the line.

Control Settings.

a. Connect the digital b. Connect the DVM fron c. Connect the DVM fron

voltneter

: *11.75V to +I2.25V : - 1 1 . 7 5 Vt o - I 2 . 2 5 U
the

the - 12 volt * 5 volt

* 12 volt line. ( P B 1 0 1 - 9) ( P8101-6 )

]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.

( PBL0I_T2 ) ( R183-down) ( R183-up ) (unregulated)
(JlA)

: +185Vto +2lAY
lU Check High-voltage 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 Control Setting

SPI-AY

Preset the controls as given in the Prelininary t3l Check,zAdjustCRTBias. position, MODE switch to the AUTO

Control Setting.

and TIME,/DIV switch to the lnS.

a. Rotate the INTENSITY the direction of I o'clock. to 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 DC. to b. Set the IIITENSITY control 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 Gain. Control Settings.

t6l Check,/Adjust Horizontal

to a. Set the input AC-GND-DC 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. ust Horizontal l7l Check,zAdj 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.
a. b.

Set the TIME,/DIV switch to the 0. 1 nS. switch to the x1OMAG, Being the x1OMAG the Ieft end of the trace is brought to the center point and switch to the xl position. then the x1OMAG 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.

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% adjustnent VR106 so that the time narks coincide d. Adjust the SmS,zDIV with the middle eight graticule lines. i10l Check,zAdjust High speed sweep accuracy. a. b. c. d. 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.

-77-

\/ERTTCAIControl settings Preset the controls tlll

SYSTEM

as given in the Prelininary

Control

Settings.

Check,zAdjust DC Balance ( Step attenuator a. b. c. d.

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.

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. adjustnent VR118 for two tines of the Adjust the ADD BALANCE 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. switch to DC. Set the AC-GND-DC the square-wave generator( using lKHz output range ). Connect 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

LJVRIA2 ( CH1 ) VR110 ( CHZ )

g. Adjust the x 1 AC GAIN adjustnent for a flat level. t15l Check,/Adjust Vertical 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 switch Set the AC-GND-DC Connect the L-C meter to Check the input capacity ( ATT : =1 ). to 10mV position. to DC. the input terninals. for approxinately 30pF.

Check,zAdjust Vertical

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 output

+10 + IAA

9.1 v
1V

4.5 v
5V

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

cHl rcHz) ucra0( vc108 )
vcr02 ( vc106)

Adj ust

+la
+ Lgg

0.r v
1V

a . 2 5U
2.5 V

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 VOLTS,/DIV lA mV Adjust CH1 ( CHZ)

+1 +L0 + lDb

( vc109 ) vc103( vcr07) vc101( vc105 )

0.t v
1V

-24-

TRIGGERING ust TRIG CENT. tZgJ Check,zAdj

SYSTEM

knob switch to the CH1, the TRIG SLOPE a. Set the TRIG SOURCE pull position, the V0LTS,/DIV switch 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. to e. Next, set the TRIG SLOPE - ( push : inner state ) and insure that synchronization is effected. Aft,er confirnation, Ieave in the TRIG-SLOPE the depressed state. Readjust when stepped out.
Check,zAdjust Trigger Balance

tzt)

a. Set the VOLTS,/DIVswitch to 50mV (CH1 and CHD, the TIME,zDIV switch to 10uS, the TRIGGER switch to INT, the INT TRIG SOURCE 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 switch of CH1 to DC, the AC-GM-DC switch [X-Y], the AC-GND-DC 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-DC switch 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.

CAI-IBRA:rOR

1231 Check,zAdjustpROBE ADJUST terninal a. b' c' d'

( 0.SVp_p, LKHz).

-

I

r

I l-

I

connect the pROBE ADJUST ternination to the Digital Frequency counter. check for the PROBE ADJUST frequency of Lwtz, *itttn zg*tagauz - r\aaHd. Next, connect the PROBE ADJUST ternination to the Digital Multineter. check for the PRoBE ADJUST output of a.25V, within tgxra.zzs - 0.275v.

f-

F

/"

P

l.

t-

F

I

I r16 [-

lb.

-22-

-

Table 5-1. TEST EQUIPITTENT REQUIRED

Description

Mininum Specification

Exanple of Usage Check horizontal, vertical and trigger bandwidth. Check horizontal Vertical gain. and

1, Constant Anplitude Signal Generator 2. Standard Amplitude CaIibrator

SAKHzreference frequency naxinun frequency 56llHz variable amplitude Anplitude accuracy : 4.25% , variable anplitude ; SnV to 4AY ; frequency : lKHz square wave Variable frequency : ltHz to llilHz ; output anplitude : 10nV to 100V (tr=<3nS)

3. Square - wave Generator

Check probe and vertical conpensation. Check power supply. Check PR0BEADJUSTfrequency.

[, Digital

Multineter

a.I%
G w.

accuracy

5. Digital Frequency Counter i. Tine Mark Generator ?. CabLe

l% accuracy

a,L% accuracy
Impedance : 50O ; type : RG-58,/U ; length : 42 inches connectors : BNC.
Inpedance Connectors : 50 O : BNC.

Check horizontal

tining.

External trigger operation check. Horizontal gain check and adjustnent. Vertical Anplifier conpensation checks and adjustnent. Vertical Anpli.fier bandwidth check. External trigger checks. operation

8. Ternination l. Attenuator M. T - Connector

Ratio:tAX;connectors BNC;impedance:50O Connectors : BNC.

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 N I
M A R KN G F O R D I O D E E L E C T R O D E I T Y P E O F D I O D E E L E C I R O D EM A R K N O I RL105 1N 4 0 0 5 MA185 A G 01 A P O L A RT Y I

M A R K I N C O R T R A N S I S I O RL E C T R O D ( T O P V I EW) F E E
rYPE OF TRANSSIOR I

M ELECTRODE ARKNG I l.EMITIER 2. BASE 3. COLLECTOR SOURCE

2 S A1 2 0 6 KSC 674 1 2 S C 2 9 0I

1SSr33 E S J A 5 2 -I 2 DZ_s.1B DZ-6.88 DZ-7"5B DZ-8,2B DZ-| 28 DZ.??B

-rL_t-{r-F

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123

2 GATE \) D R A i N
I,EMiTTER 2. COLLECTOR 3. BASE 1. 8 A S E

--il-

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I

2 S C| 9 0 7 KSC 730 1 2 S A1 0 2 9

M A R KI N G F O R I C S

2SC3779

rooo)

2.EMITTER 3. COLLECTOR

TYPE OF IC

P A C K A G E O U T LI N E
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i|-

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c

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BASE

3 EMIITER

1. C0MM0N 2. I NPUT 3. OUTPUT
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M A R KI N G F O R T R A N SI S T O R E L E C T R O D E ( F R O N T V I E W ) E L E C T R O D E M A R KI N G

f r /3l I \
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2

TYPE OF IRANSISIOR

KTA968A 2SD362R KSD288Y 1. B A S E

l.INPUT

t/'

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1

2. C0MM0N S. OUIPUT
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a

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CONTROL& SELECI

BOARD

" ;(:3X .,_!f*,W.-.0'r--l 1x'.P,
Dranr cRr s YY+r I 7 \ GRN \ K-?OM

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CRT SOCKEIBOARD

26

A. (1).

EI-ECTRI

CAI-

PARTS

I-I

ST

ATTENUATORS ; PAGE 1

;l
1l

fl pl
--r I I
-:l
r.0r I rco. I rl0s

\l

N0.FND NO

DESCRIPTION & SPEC.

P/N

N0. FND NO

DESCRIPTION & SPEC.

P/N CKIHIZilJ N0[ CK1HI?/lJ NOT

9l

rDl ,t?l

! ;l

_J

I

1 c3g2 CAP 5OV, 2zgPFQgTz) SMD, J, 3 c3g4 CAP sgY, Sl,tD J,47PFQ0I2) SMD, J, c355 CAP 5Ol{, Z^OPFQDTZ) 7 c357 CAP Sl'|D,sOV, J, 47PFQOI2) I c90i CAP 11c903 cAPEtg 16V, [|,4?UF(SMS) VllFW., 13Pt02 C0NNECTOR LV-9649-92 It|. R106 RES F,L/AV,0.5%,WK g. TI1K t7 R108 RES F,L/ 4y., 5%, lll. M. 19R118 RES F,I/4V,9.5%,WK g. 2LRLzg RES F,L/AV, 5X,777K [|. g. LV, TOQIIZ) SMD, 5%, 23R303 RES SMD, !t, 5X, 0. 1gQg12) % R305 RES 27R307 RES s. tV,t%,82Q912) SMD, SMD, n R309 RES g. tU,5r(, Qgt2) 27 31R311 RES g. LY, L'(NN) SMD, 57,, ec R475 RES g. SMD, Lv,516 L,Qgtz) ?R R477 RES SMD, IVI, IOQALZ) O. 52, 37R4?9 RES g. LVt, 22QgL2) SMD, 5%, SMD, 39R481 RES b. LII,T%, LSOQLIZ) 4TR483 NOT USED 43s102 st RoTARY, ADR255S, 8773-ttg2 45swz sH stIDE, SSSUoz3NC CHzCoU 47uclM CAP THT TRIMMER, TZOSNIOOFR, 49uc104 CAP TRIMMER, UHT TZOSNIOOFR, 51vc106 CAP TRIM}IER, TZO3NIOOFR, IHT TRIMMER, WHT 53vc108 CAP TZO3NIOOFR,

CKIHIzzIJ 2 c303 CAP W, J, nAPFQgtz) Sl'tD, cK7H1470J4 c305 NOT USTD q\HI221J 6 c356 CAP ffiV,J,Z7^PFQOIZ) SMD, CKIHT4TgJ8 c358 NO(USED cl12GL473K M2 CAP F,AMV,K,O.O t||. TUF 1g CE1CR476M PIOL C0NNECT0R Uf-064&{5 |AFER, L2 537-Mt-1 T4 R105 RES F,l/At, 0. 57q IK M. lg. Rl,|BP99O3D RIOT RES F,L/AV,0.5%,WK 16 M. RMBP1113D Ri17 RES F,t/AV,0.5Z,Lg.LK It|. 18 RMBP99O3DR119 RES F,\/4Y,9.5%"WK I'l. 20 RMBP1113D R302 RES g. \U,5%, t2 SMD, nQ0l2) g. LY, IOQqIZ) Rl|OI1OROJ R304 RES 24 SMD, 5L RI|OI1OROJ R306 NOT 26 USED R[{OI82ROF R308 RES 0. LV, \ffi(mz) ?,8 SMD, tt6 RVAI?TROJ R310 RES g. tY,5%, grl2) 30 Sll|D, n Rl'|OI15ROJ R4'.14 RES 32 SMD,0.lU,W6nQ0p) Rl'tOI15ROJ R476 RES 0.w, 52,n (nIz) 34 S[fD, RMOI1OROJ R478 RES 0. lV, 5t, Lgztlz) 36 St{D, RM0IZaROJ R480 RES g. tU,57,, 38 SMD, LgQgIz) g.LV, RMOI1SOOFR482 RES 40 SII|D t6EZQLLZ) NOT 42 s101 slf R0TARY, ADR255S, 8773-7792 522-02vt M s901 st stIDE, sssuo23Nc cHlcou 52L-trz 46 vc101 CAP TRIII|II|ER, TZO3NIOOFR, IHT 581-133-148 vc103 CAP TRIII{I'|ER, TZOSNIOOFR, fiff 581-133-15g vc105 CAP TRIMilER, TZO3NIOOFR, UHT 581-133-152 ucI07 CAP TRI}|iIER, TZO3NIOOFR, THT 581-133-1

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

27

(2>.

CH1

INPUT

AMP. ; PAGE 2

N0. FNDNO

DESCRIPTIONSPEC. &

P/N

N0. FNDNO

DESCRIPTIONSPEC. &

P/N

1 ctgT CAP CER,5W\,C,1PF(T. C BLACK) CIZHRaT0r, c7g2 CAP SWY,K,IWPF 2 CER, 3 cr03 CAP 16V, 47UF(SMS) EtE, M, cE1CR476M c7g4 CAP 16V, 4 EtE M,4?UF(SMS) EtE, I|, CE1CR476M c306 CAP 5g\,J, TSPF(29L2) 5 u05 CAP 16V, 47UF(SMS) o SMD, 7 c\n SMD, cAP ffiV,C,5PFQ712) CKlHIO5OC c3g7A CAP ffiV,J,LZPFQOIZ) 8 SMD I c308 cAPSMD,50V, K,\WgPFQUtz) CK1HI1O2K c309 CAP sgY, TO SMD, J,IMPFQtIZ) l_1c310 cAPSMD, K,o.gtuFQgt2) 50V, CK1HI1O3K c313 CAP sAY, tggPF 72 SMD, J, QOIZ) 13 DTOI Dr0DE. 1SS133 585-t20 74 Dtgz DrODE, 1SS133 ZENER,DZ-7.58 15 D103 DIODE 585-075 16 PP101CONNEC"IOR CS25g-95 HOUSING, 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 RES F,l/4U,9.5%,ffiuK ll. RMBPsOO3DRLg4 RES F,l/Alt,g.5Z,5WK 22 I'|. M. 23 R109 RES F,L/Av/,9.5%,ffiK R[/IBP6OO2D 24 R110 RES F,T/AY,9.5%,LzK M. M. 25 R111 RES F,I/Ay,0.5%,3K RMBP3OOlD R112 RES G,L/211,5X,16It| 26 ltl. 27 R113 RES F,t/4i/'0.5%,ffio M. RMBP68OOD 28 R114 RES F,l/Ay',LX.820 M. 29 R115 RES F,I/411,9.5%,68 M. RMBP68RODR312 RES O.Iw,52,22KQOT2) 30 SMD, 31 R313 RES 0. fi|, I%, SMD, 75OQOI2) RMOITSOOFR314 RES 0. rr, rX,ffi(2012) 32 SMD, 33 R315 RES 0. IY,5x,tgQgLz) SMD, R[|OI1OROJ R316 RES A.ty, 5%, 2KQ0L2) 34 SMD, 2. 35 R317 RES 0. LY, 4.TKQLIZ) SMD, 5x, RMaT47OlJ R318 RES 0. r[, fi(, 3. 9K(nL2) 36 SMD, 37 R319 RES g.L]f,, SMD, fl,4.7KQ912) RMaTATgTF R32g RES A.tV,t%, 38 SItlD, t20Q0t2) 39 R321 RES g.IU,tX,43gQgI2) SMD, RMgT43ggF R3214 RES 9.1Y,l%, 4g SMD, 4.WKQL12) 4I R322 RES A.Iv, M, 430Q0t2) SMD, RM?I43ggF R323 RES g. Iyt,5X, 42 SMD, \KQ,LZ) g. 1II,IX,IOKQOIZ) 43 R324 RES O,Iy, T'6TZKQOTZ) RMgITZZZF R337 RES SMD, 44 SMD, 45 R338 RES 9. fii 116 3KQ0l2) SMD, R[{OI33O1F R339 RES O.TII, IgQgLz) 3. 46 SMD, 5%, SMD, 47 R344 RES 9.fit,57,, tgQgtz) RMOI1OROJ RA101 RES 48 ARRAY. RA-OSC-V 49 s801 SHSLIDE SSSUOZ2NBO11 52t-tlr x5 5g u101 IC OPAMP, LF356J SR, 51 vR101 RES VGO68TL1B-2OKB 572-324-l 52 YRIgz RES Y0/f8TLLB_AMB SR,

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

28

7_

(3).

CHz

INPUT

AMP. ; PAGE 3

I;2

;r

l|0. FND NO

DESCRIPTION & SPEC.

P/N

1 m---l 3 c108 utT

cAPErE" I|,4?UF(SMS) 16V, CAP 16V, EtE M,4?UF(SMS) rm4?srl SMD, K, tHr150Jl 5 c350 CAP 5gU, TWPFQOI2) I C3514 CAP SMD, C,5PFQO12) 5OY, HrmJl I c353 CAP SMD,sOV, J, IMPFQOLZ) rHr101J I ii DTO4 DIODE, 1SS133 tHr101J I 1SS133 13D106 DIODE, rr2ul KSC1674-Y t-M I 15Q106 TRANSISTOR. t7 Q108 TRANSISTOR, 23AIa29_D L-130-11 1 0 R121 RES F,I/AV,0.5%,WK [|. r-133 | It|. |P5003D 2l R123 RES F,t/AV,4.5%,3t1 I 23R125 RES F,I/4V,g. 5r(, It|. 12K Purnl g.lH,'x, tgQgLz) SMD, xP16&rl 25R327 RES n R459 RES g. 7V, 1gQ0I2) SMD, 5%, WMI n R461 RES 0. wt,U, tgKQgLz) SMD, trwzrl a1 R463 RES SMD, 7v,5%, 7KQ0L2) 4. 0. 'r68R0Fl ea R465 RES SMD, LY, 22KQ0l2) 0. 526 nmrrl S}|D, 12K{29I2) 'rs01Fl Jb R467 RES 0. 7Y,7%, g. 7V, I5KQ0L2) Sl'|D, 5%, 'tIlWFl 37R4684 RES 7%, 39R47g RES 0. 7V, 430QgL2) Sl'lD, 'r4ee1Fl 4l R472 RES 0. LVt, ffiQgtz) SMD, 7t(, trrffilrl ARRAY, RA-OSC-V trrffizFl 43R/.tn RES TR TZOSZAT BLU 45vc109 CAP IMMER, OFR, 'r10R0J I 47 vR110 RES UG0fETLIB_^MB SR,

I

N0. FNDNO

DESCRiPTION & SPEC. CAP 16V, ELB trl,47UF(SMS) CER, CAP WU,K,LWPF CAP 5gY, 7PF SMD, D, QgLz) SMD, K, CAP 5OV, O.ANF QOTZ) CAP DIODE ZENM,DZ-1.58 FET,2SK3O4-E TRANSISTOR, KSC16?4-Y RES G, [l. 7/2V,5r6t6tt RES F,I/Av,g.516WK l'l. [|. RES F,L/AV,t6829 RES F,T/AY,9.5%,W It|. S}|D, RES g. LV, IOQuIZ) $6 g. w, t%, 3KQ012) RES SMD, 3. RES 0. lY, 516 2KQ0t2) SMD, 2. g.IY,T'6 RES SMD, LzgQgTz) RES g. lV, lt6 4. 1K(29t2) SMD, RES g. LV,lX, SMD, 430Q0L2) RES A.tV, Lr6 qK(AJLz) SMD, 3. RES g. lY, 526 SMD, tKzgtz) g. IV, I%,750Q972) RES SMD, IC OPA[{P, tF356J RES VGO68TI1B-2OKB SR,

P/N cElCItT$l

,-w I
:AA I

cE1Ct476M2 c109 cE1Ct476M4 c111 CK1HI1O2K c351 6 CKlHIOSOC c352 8 CK1HI1O1J c354 Ig ffi\-r2g t2 Dt05 585-720 t4 8105 611-130-116 Ql07 611-133 18 R116 R[{BP5OO3DRTZZ 20 R[{BP3OOlD RT24 22 RMBPT2g2D R126 24 R}|OI1OROJ R449 26 RMOI1OROJ R460 28 RMaIIOOZF R462 30 RMgrATglJ R464 32 RMtIZ^OZJ R466 34 RIIOILaaaF R468 36 RMgIIffizJ 38 R469 RMgrASA0F R471 40 RMOI6SROF R473 42 591-325 44 ULgz 581-145-146 vR109 572-3t6-1

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

)-316-11

29

(4>.

CHl-

PREAMP.

&

TRIGGER

PICK_OFF ; PAGE 4

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

DESCRIPTION & SPEq

P/ N

CAP 16V, EtE, [|,47UF(SMS) cE1Ct476M cr07 2 gtUF cAPS}|D, K,0. sAV, CK1HI1O3K c3I2 Qgtz) 4 cAPSMD, J, 82PF(29r2) 50V, CK1HI82OJ c315 CAP 5OV, 6EPF(2OI2) SMD, J, CKlHI68OJ8 c317 g.btuFQglz) cAP SMD,50V, K, CK1HI1O3K c320 Tg (2912) CAP 1gY, O,OIUF SMD, K, CK1HI1O3K $n t2 CAP sOY, SMD, J,27PFQA12) CKIHI?7gJT4c325 DIODE ZENER,DZ_1.58 fi5-b75 16Pllg TRANSISTOR 2SC3775_OY3 orlrcco Sil|D 18a3g4 TRANSISTOR KTC3875-Y SMD, 611-679 2g Q306 TRANSISTOR MMBT39O4-1A611-654 22 8308 SMD, TRANSiSTOR I{I{8T3906-2A 611-653 24 R325 SMD. RES g. IV,t%, SMD, 33gQgt2) RMOI33OOF R328 26 g. 7V, ffigQg|z) RES SMD, 1r(, RMOI68OOF R330 28 RES 9.7Y,5%, SMD, L.8KQO12) Rl}{OI18O1J R332 3g RES 9. 7Y, 82Q0I2) SMD, 7%, R}{OIS2ROF R334 32 RES A.Tr,5%, 7KQOIZ) SMD, 4. RM?T47glJ R336 34 RES 0.flt,516 SMD, 4.7KQgt2) RM?IATOTJ R341 Jb RES g. IV,5%, SMD, lgKQOIz) RMOIIAZ?J R343 38 RES fr. tV,5%, SMD, 22KQ0L2) RMOIZZZZJ R346 40 SMD, 5%, RES b, Ili/,, TKQOIZ) Rl'lOIlOOlJ R348 42 RES 0. Ilf, 52(, SII|D 270KQA12) RMqTZ7g3J R351 44 RES 0. 7v,5%, SMD 1WQ0t2) RMOIIMOJ R353 46 RES 0. 7Y, 47Q012) SMD, 5%, RMaIATROJ R355 48 RES 0. !t, t%" SMD, 82QAl2) R[{OISzROF R358 5g RES O.LY, TKQglz) Sl'lD, 52, R[|OIlOOlJ R360 52 RES 0. tw,t%,r. 5K(29t2) SII|D, RMOI15O1F R362 54 NOT USED NOT 56 vR103 RES VGO68TI1B_1OOB 572-327 58 vR8g2 SR,

cAPELg16V, }|,47UF(SI}|S) CAP sgv,J, 18PF SMD, CK1HI18A Qg12) CAP 5OV, 68OPFQTIZ) cK1HI681, Si,lD, J, NOT USED N0[ g. atUF cAPSMD, K, 5gU, cKlHi103l Qgtz) (29t2) cAPSMD, J, 27PF 5g\, CKIHINil NOT USED N0[ CONNECT0R tW-0640-03 53I-W2rt WAFER, TRANSiSTOR 2SC3775-OY3 611-656 SMD, TRANSiSTOR MMBT39O4-1A611-654 SMD, TRANSISTOR[|I'|8T3906-2A 611-653 1S S|'|D, g. lU,5%, RES SMD, lWQ012) RWITW| 21 RES g. [t, I%, SMD, 330QgI2) RlCII$m % RES 0. LVt, 330Q0t2) SMD, I7(, RMo13300 n RES 0. 7I#, 4.7KQqIZ) SI'|D, 5X, RW14',101 m RES O.T]t,52, SMD, TOQuIz) RilOI1CIR0 31 RES O,1II,IX,8QgT2) SMD, RlCII68RffE Q RES g. Iw,5%, 7KQLLZ) Rufrr{?g1 SMD, 4. 35 RES O.Ty', IMQOTZ) SMD, 5X, Rusrrml 3', RES 0. rllf,, tAQgLz) SMD, 5X, RlCIrmCI 39 RES g. 1\, It, 1.2K(29t2) Rr0r120x SMD, RES A.IV,1'6 SMD, $AQOLZ) RMI$MI 41 I 43 RES RrCIr68M 45 RES O.7V, 2,TKQOIZ) RWrnux SMD, 17", 47 RES g. 7l/,5X, QgIz) SMD, 47 R[CIr47m 49 RES 0. tl{, LX, 2K(20I2) SMD, t. RrCIr12o 51 RES g. tU,5X,tK(2912) SMD, RlCII100!l RES VGO68TL1B-5OKB 57z-gtul SR, RES V?7zL-PUSaKS VP1 57I-gh VAR, 10KB

x

30

4

(5).

CHz

PREAMP.

&

TRIGGER

PICK_OFF ; PAGE 5

c346 cAP SMD,5gV, K,b.gl\FQurz) CK1HI1O3K c347 2 SMD, J,27PFQOI2) 3 c348 CAP WV, CKIHI?'IgJ 4 c349 81Jll CtsIO cAP SMD,50V, K,o.LtUFQgrz) CK1HI1O3K c371 o li I c372 CAP sOU, g. OIUF SMD, K, CK1HI1O3K c373 8 QOIZ) osKli Sl'fD, K, I c4464 CAP 50V, g. 0IUF CK1HI1O3K PTLz 1g QbIz) SMD, 11Q311 TRANSISTOR MMBT39O6-2A611-653 12 Q312 I 13Q313 TRANSISTOR MMBT39O6-2A611-653 t4 8314 SMD, 2-71 S[{D, 15Q315 TRANSISTOR l|t{BT39O4-1A 611-654 i6 0316 6l SMD. tl L7Q317 TRANSISTOR 2SC3775_OY3 611-656 18 0318 SMD, 47 R[{OI4TROJ R441 19R44g RES 9. N, 5%, QOTZ) 2g tsl SMD, Rlt|OI1501F R443 2TR4M RES 0. I!i, n, r. 5K(29I2) 22 SMD, I. R444 RES g. Ty,L%, 1KQuLZ) R[lOI15O1F R445 24 MFI ?3 SMD, NKQbTZ) RMOINnZJ R447 n R446 RES O.NI,5%, 26 wFl SMD, 4. A. ?a 01Jl n R448 RES g. Iv, 5%, 7KQ0I2) RM'IA7g1.J R450 SMD, IV,5)6tbzgLz) n R451 RES RMOI1OROJ R452 3g Rarl g.w, t%, 2KQ0t2) SMD, t. RMOILaaLF R454 32 R0rFl31R453 RES g. StfD, LI/', I0KQ072) R455 RES 5X, RMoITWU 34 R456 01Jl 33 SMD, wrl 35R457 RES 0. 7V,5t(,27uKQAL2) RM'I?TgN 36 R458 SMD, IMQqTZ) RMOIT?fp,J R560 38 MJI w R557 RES O.IV,51(, SMD, 5r(, 39R561 RES g. IUt, 4. TKQgtz) RllgIATgtJ 40 R562 01Fl g. 5X, SMD, LY, 4. 7KQg72) RM'I47OLJ R564 42 WFI 41R563 RES gKQbLz) SMD, RMOI39O1F R566 44 ml 43l(bob RES 0. t!f,,M, 3. SMD, 45R56? RES g. TII,5X,TSKQaL?) RMOI15O2J R568 46 01Fl 41s803 Sl{SIIDESSSUO22NBO11 52L-TIL 48 vc110 INV vR111 RES VG068TL1B-1008 SR, 49i 572-327 50 vR112 a1F l li vR113 RES VG068TI1B-1OKB SR, 572-314-L 52 vR803

NO --.J ilo.FND r76illi

;l

DESCRIPTIONSPEC. &

P/N

N0. FNDNO

DESCRIPTIONSPEC. &

P/N

sarl

I I

,r,

wrl

wl,
alJl

CAP 5OY, g. ?LUF SMD, K, CK1HI1O3K QgTz) cAPSMD, J, 27PF(2912) 5gY, CKIHINN CAP 5gY, 82PF Sl'|D, J, CIffI8zu QOLZ) cAPSMD, J, 680PFQU12) CK1H168lJ 50V, YAFER, CONNECTOR LYI-ffi404 4 537ffi-7 TRANSISTOR MMBT39O6-2A611-653 SMD, TRANSISTOR MMBT39O6-2A611{53 SMD, TRANSISTOR MMBT39O4-1A611-654 SI{D TRANSISTOR2SC3775-OY3 611{56 SMD, RES g. Iv, 5%, (nIz) SMD, 47 R['OI4TIOJ RES 0. 7l{,7%, SMD, LK(20I2) RWTLWIF g. Llf,, IKQALZ) RES SMD, 1%" RWITWTF RES O.IV,T7", ZKQLTZ) RWflnlF Sl'|D I. RES 0.!1, 5%, SMD, 1KQg12) RIMI1MTJ RES 0. w, 5r(, 1KQLLZ) waI47atJ SMD, 4. RES A.lUt, lKQIrIz) Si|D, 516 RWIIMIJ g. 7Y, ffiQ912) RES S[fD, 716 Rilor68Rm RES 0. IV,5t(,lwQqtz) SMD, RWTTWJ RES 0. LUt, tt2gIz) SMD, 5t6 R}CII1ORAI RES 0. Lv,5%, SMD, 82Q0I2) R|t|OI8zRAJ RES g. LY, 2.2KQ012) RWIWTF S}|D I'(" RES O.LY,I%, SMD, TWQOTZ) RYATI5fr/F RES 0. IY,t%, SMD, \ffi(ntz) RIiCII3300F CAP TRIMMER, TZ^ST^MFR, PNK 5E1-144-1 RES VGO68TI1B-5OKB SR, 572-gb7 RES YAIZL_PUSOKS VPz 57L-sh VAR, 1OKB

r-11

r--J

31 -

(6).

VERTICAL

CONTROL ; PAGE 6

N0. FNDNO
I

DESCRIPTIONSPEC. &

P/N

N0. FNDNO

DESCRIPTiONSPEC. &

P/N

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

a

CAP 16V, ?UF(SMS) ELE, It{, CAP 50\, K,g. aTUF SMD, QOTZ) CAP sOY, 68^PFQAT2) SMD, J, SMD, K, CAP sgY, O.glUF {2012) cAPSMD, J,220PFQ0I2) 50V, SMD, K, CAP sOY, O.OTUF QgTz) g.OTUFQUIZ) SMD,5OV, K, CAP SMD, J, CAP 5gU, 68PFQ?T2) CAP 16V, EtE, 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 KTC3875_Y SMD, TRANSISTOR KTC3875-Y SMD, M RES .F,T/AV,T%,I.2K RES g. tW, 4.7KQ912) SMD, 5%, RES g.Iv, t%,3wQgtz) SMD, RES g. tUt, I. 8K(29t2) SMD, 5%, RES g. tw,5%, SMD, 220QAI2) RES SMD, 1%, RES g. 7v/', 2. 7KQg12) RES g. 7V, 33gQgI2) SMD, t%, RES g. Ll{,ffi, 82Q0t2) SMD, SMD, 7%, RES O.IW, 22gKQgI2) RES g. 7l{', I^OKQOTZ) SMD, 5%, RES 0.w, t%, SMD, 330Qgt2) RES g. rv/,, gzQgl2) Sl|D, l%, RES g. Llil, 4.7KQ0t2) Sil|D 5%, RES 0.7llt,52(, SMD, 4.7KQ912) RES g. Ilii',5%, 1KQTIZ) SMD, 4. g.IV,5%, RES SMD, 47(J;012) RES g. Iv/,T%, sKQOIz) SMD, T. RES 0. LV, 1gQA12) SMD, 5%, RES 0. llt, 5%, SMD, 4.'.tKQg7z) RES 0. 7l{, 47gQg12) SMD, 5%, Slt SLIDE, SSSUO23NC TRGMD iC TTL, GDTALSW

cE1CL476M c155 CAP 5OV, IUF(BP) 2 EL& M, CK1HI1O3K c324 cAPSI{D, J, 680PFQAL2) 4 50V, b CK1HI681J $n cAPSMD, K,g. 'TUF sgv, Q0r2) CK1HI1O3K c329 cAPSMD, K,47WPF 8 sgv, Q012) cK1wt2?,1,I c331 CAP \gY,J, 22gPF SMD, 7g QO12) (29T2) CK1HI1O3K c344 CAP 5,OY,O.OLUF 72 SMD, K, CK1HI1O3K c369 CAP sgU, t4 SMD, J,82PFQLT2) CK1HI68OJ c375 CAP sgU, 68PFQOI2) 16 SMD, J, CE1CL476M D108 DIODE, 18 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 CS25g_08 HOUSING, 611-669 4g 8110 TRANSISTOR, KSC173O-Y 671-670 42 Q319 TRANSISTORKTC3875-Y SMD, 6tI-679 44 Q321 TRANSISTORKTA15O4_Y SMD, RMBP1201F R349 RES g. tV,5%, 46 SMD, t020t2) RMAT4TgIJ R364 RES g. Ilf, 57(, Q0t2) 48 SMD, 27 RM?ISOWF R366 RES A.rVt, t. 8K(29t2) SMD, 5%, 50 RMOI18O1J R368 RES g. [], 516 SMD, 52 22gQgt2) g. lv, 5X, Q0I2) RMATZ^WJ R37g RES 54 SMD, 27 RMAI,3O0p,FR372 RES DO g. 1%, K M g T L I W L T 5d R374 RES Sl'fD, LV, 33gQgI2) RMOI33OOF R3?6 RES g. 7II, 2KQTTZ) 60 SMD, M, RMOiS2ROF R378 RES g. Ilt,,57", 62 SMD, 82KQLT2) g. LvI, 82KQLT2) 64 R380 RES SMD, 5%, RMOI1OO3J R382 RES 0. rV,I%, 66 SMD, 339(2012) RMOI33OOF R384 RES 0. 7lf,l%, 68 SMD, 2K(20I2) R|\{OIS2ROF R388 RES 70 SMD, Llf,, 4.TKQUIZ) 0. 52(, RIIaIATgTJ 72 R390 RES 0. ll/, 5%, 7KQ0I2) S[lD 4. RMOTATgIJ R436 RES 74 Slt|D, 7v,5X, 7KQD12) 0. 4. RM?IA'IOTJ'16R439 RES 9.1\t,516 SMD, 4.'.tYQ,tz) RMOI4TROJ R556 RES g. IllI,M, I. 2K(2012) 78 SMD, g. 5%, RMOI15O1F R559 RES 80 SMD, Lw, t. 8K(20t2) g. RMOI1OROJ R51g RES 82 SMD, IV,5%, 41OQOT2) RMATAIglJ 84 R572 RES SMD, LY, 4.7KQ972) 9. 57", RMTITMJ 86 s8g2 SIt SIIDE, SSSUO24NB VMODE 521-112 88 u1g3 IC TTt,GD74IS74AP GSS

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-

591-00r-9
29

l(7>. VERTICAL MAIN AMP. ; PAGE
)/N :Ll7 JII68 fli

N0.FND NO

DESCRIPTION & SPEC.

P/N

N0. FNDNO

DESCRIPTION & SPEC.

P/N

CER, 1 c154 lcAP sMV,C,IPF(T. C BLACK) 2 16V, I lcTzHRslm. UIbO lcAPErE, M, ?UF(S!,|S) I e c157 lcAP cER,500v,c, IPF(T.C BLACK) cT2HR010cc158 4 cER, 500u,K, \MPF
I

lcE1cH76[l

t"lcY
d

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 M. 33R186 RES F,1/4v/,L%,t75 ,J4 RMBP115OF R187 -Ln RES 2W,5%,\0K M.0, 35R188 JO RSO2P1O3J R189 -4AI ll. n R19g RES O,TVI,5%,27K RSO1P273J R192 38 s69 I|.0,2W,5%,I2K 39R193 RES RSOzP123J R194 40 8t0 4LR195 RES F,I/4W,5%,47 C. RDaBP4TAJ R196 42 ,Q 872 R386 RES RMaI4TgTJ R387 44 ,,LfiMJ 45R 3 2 RES g.Iif,1%, SMD, TffiQOI2) Rl'{OI1SOOF R393 46 USED 41R394 NOT NOT 48 R395 1801J 49R396 RES O.Tw, lgQgIz) SMD, 5%, RMOI1OROJ R397 5A WJ SMD, 5%, 51R3974 RES g. lVt, 27Qglz) RMaI?TROJ R398 52 ztwJ ut R399 RES 0. LUt, 47gQ0t2) SMD, 5X, RMOIATMJ RAW 54 NOIF 55R401 RES g. IV,5%, SMD, |WQOIZ) RMOIIgfp,J R4g2 56 I WF SMD, 7%, 57R403 RES g. LV, 190Q012) R[|oi1800F R404 581 mtF DY R405 RES SMD, 7v,5%, 9. 1KQ0r2) RMOTIM1J R406 6sl WzJ 0l RM7 RES 0. lL 5%, SMD, L0gQg72) RMOITOOaJ R408 621 wzJ 63R409 RES g. Il{, 5%, QOIZ) SMD, 47 RM?I4TROJ R(tg 641 b5 R4i1 RES SMD, Iv/,, 27gQgT2) O. I%, RMTTZTggY R472 661 WIF 67R413 RES g.Iy, TZ,78AQTT2) RMOI18OOF THIOT SMD, 681 NWJ 69VC111 CAP TRIMMER, TZO3P45OFR, YEL 5S1-132-1 7Al VC112 I I t7glJ I L vR118 RES SR, VGO68TI1B_5OOB 572-319-71 t701J NgLJ tntF tMlJ

I lcAP CER, K, o c760 lcAP ICAP \OOV, ATOOPF cER, 5g0u,K, twPF I lcK2HL472K I CAP CER,\OOV,KO.O|UF 8 c333 ICAP SMD, K,0. 01UFQ0L2) ^AV, lcKzHLla3K cAPSMD, K,0. gtUF 1gU, cK1Hr103Kc335 CAP sOY, 68PFQOI2) 1g Q012) SMD, J, I CAP sgV, SMD, J,78PFQA72) cK1Hr180J c337 NOT 72 USED I CAP sOY, SMD, J,27OPFQO12) cK1Hr271J c339 CAP 14 SMD,5OV, J, 18OPFQULZ) I CAP sgY, SMD, J,47PFQ712) cK1Hr470J c522 cAP 10 CER,5g0V,K,0.A7UF I

DIODE ZENER,DZ-'.18 I NDUCTOR, / LAM4NA2R2M 2. zUH TRANSISTOR, 2SC29aI TRANSISTOR, 2SC3779 TRANSISTOR, KSA1381-E TRANSISTOR, zSATzffi TRANSISTOR, KSA1381_E RES R 1/4tt,7%,175 [|. RES 2W,5%,72K M.0, RES F,I/4W,5%,lW C. RES F,L/4y,5%,9I9 C. RES O,211,5%,IgK M. RES F,I/4v,5%,979 C. RES A,IV,N, IWQ,IZ) SMD, RES 0. LV, g (2912) SMD, 5X, RES g. LV, 7,37KQOT2) SMD, T%, RES 0. tV,5%, SMD, tgQgtz) RES 0. Iv, t%, SMD, 27gQ0l2) RES 0. Llt,5%" SMD, Lm(29L2) RES 0. Lv,5L 47(29t2) SMD, RES 9.fl1,5r6 SMD, 47QgL2) g. tY,5%, RES SMD, lKQgtz) RES 0. fii, 5%, SMD, \MQ7LZ) RES 0. rVl, 470Q0r2) SMD, 5%, RES g. 7v,5%, QgLz) SMD, 47 THERMISTOR, ?-OHlt| NTC-4. CAP IMMER, 45OFR, TR TZOSP YEL

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 [email protected]&J RDOBPgl1J RWIL5//iF RIMIWJ Rl'CII1371F RTCII1ORAI MMINMF RWITWJ R}|OI4TRAI

RMI4n0J] RrCIr1001Jl

Rwrlwrl
RWI47ffiJ R[CIr47RAr] 57s415 I 5E1-132-1 |

nwJ
YIgTJ .13 63-9

(A).

TRIGGER

AMPLIFIER

; PAGE 8
DESCRIPTIONSPEC. & DESCRIPTIONSPEC. &

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',1 R488 29 R490 a 1 R492 33 R495 35 R49? 37 Ptr1R 39 R519 47 s103 43 vR105
J

CAP 25V, zzUF(St|S) EtE, l}|, cE1Er226M2 c113 CAP 25V, ELE" [|,2zUF(SMS) CEIEL226M c115 4 CAP EtE,sOV,IUF(BP) I|, 581-117 o c117 CAP sMY, CER, J,47PF CK2HR47gJ c119 8 CAP 25V, ELg li|,22UF(SI{S) CE1EL226M c359 TO CAP 5OU, g. OIIJF SlllD, K, CK1HI1O3K CtsOl QgTz) t2 DI0DE, 1SS133 585-120 t4 D169 - g640-02 W CONNECTOR LII AFER, 537-g0r-7 to PPTg2 FET,2SK3O4-E 617-r4A 18 Q345 TRANSISTOR 2SC3?75-OY3 611-656 2g Q347 SMD, C. RES F,I/4w,5%,479K RDOBP474J R128 22 SMD, 5%, RES 0. 7V, 22bQgt2) RMOTZ^WJ R485 24 RES 0.t!f,Lr(,2.'.tKQ072) RMAIz7glF R4E7 SMD, 26 RES g. Iw,1%, SMD, 47K(29L2) RM?IA?gzF R489 28 RES A.fl|, 5%, 6KQOT2) Rl}{gI5601J R491 S[lD, 5. 3A g. flt, 52,4. ?KQg12) RES SMD RTMI47glJ32 R494 RES 0. 7Y, 15KQ0t2) SMD, 5%, RM'ITSON34 R496 RES g. 7V, IKQOIZ) SMD, 5%, RMOIlOOlJ R499 36 RES 0. LVt, 479Q012) S[fD 52(, RMOIATMJ R516 38 RES 0. tV,516 Sl'|D, t0Q0r2) RMOI1OROJ R521 4g SI{ SIIDE, SSSU1z3NC TRGSOU 52I-174 42 s804 VGO68TI1B-1OKB RES SR. 572-314-I 44 vR804

CAP 25V, 2zUF(Sl'{S) ELE, ll|, [|. CAP F,AMY,K,O.O47UF EtE,5OV,IOUF(BP) CAP }|, 581-14 EL& M,2zUF(SMS) CAP 25V, SMD, CAP ffiU,C,\PFQuTZ) CAP MYLAR, K,O.OTUF \gY, CPlI{R DIODE, 1SS133 *s-tn CONNECTOR Csz1g_ffi 53t-Atg HOUSING, TRANSiSTOR2SC3775-OY3 611-6S SMD, TRANSISTOR Sl{D, KTA15O4-Y 611472 RES F,I/4U,52,479K C. RES 0. lW, 22Q0t2) SMD, 5X, SMD, 52, RES A.LV, nQAr2) SMD, 5t(, RES g. Lw, lKQglz) RTCII S[|D, RES g. TII, L.2KQA12) TX, RES RTCII RES O.IV,52,T^KQOLZ) RIiCII SMD, RES A,LV, 24KQOI2) S}lD, 5X, SilD RES A.LVt, nQglz) 5X, g2gIz) SMD, RES g. lV,52(, SW SLIDE, SSSUOz TRGMOD 521-113 NB VAR, RES VqTZL_PUSOKSTRGI 1OKB 57I-96

Y_
(9). ;E SWEEP GENERATOR ; PAGT 9 N0.FND NO DESCRIPTION & SPEC.
P/N

1 cr28 CAP 25V, zzUF(SMS) EtE, M, c130 CAP 25V, zzUF(S[|S) ELE, M, 0H73r{ll -143 c132 CAP 25U, 22UF(SMS) ELE, IT, ll nI c134 CAP 25V, 2zUF(SMS) ELE, M, nzza'ilL o c363 CAP SMD, J, 82PFQTT2) sOV, trffi,f,li 11 c366 CAP 'OV, I5PF(20I2) SMD, J, rR103Kli -Lur 1 a ulc { DIODE, 1SS133 li 15D159 DIODE, -4r0 1SS133 I LI D165 DIODE, 1SS133 s6 l 1SS133 19D167 DIODE. $72 | 2l 8339 TRANSISTOR KTC3875-Y SMD, BP474Jl SMD, rwrl n Q342 TRANSISTOR KTC3875_Y SMD, wwrl % Q344 TRANSISTOR KTC3875-Y USED n R493 NOT nmL! SMD, 5Z, IIWF1,\ln R5W RES g. Tl{, IWQOIZ) SMD, 5%, t470L1l 31R502 RES g. LW, |WKQOIZ) R504 RES g. Tlf,, SMD, IZ,IZKQOIZ) ILMZJ\ii SMD, M0Q0t2) vtwali R506 RES A.Lllt,5%, SMD, 7WQg12) 37R508 RES g. w, 57,, rnMrl SMD, T\KQAIZ) ttwJl 39R510 RES O.Il{,5%, g. lV, t%,3. 3KQ0t2) SMD, 4LR512 RES -113 | 43R514 RES g. 7l{, 56KQTI2) SMD, 5%, -wl SMD, 57", 45R518 RES 0. 7V1, 4. 7KQgtz) SMD, 1AQg12) 41R\n RES g. tl{,5%, g.N,5'(,TTQOI2) SMD, 49R524 RES USED 51R525A NOT SMD, tgK(2912) 53R532 RES g. Ilf, 5%, g.IVI,5%, SMD, \gKQgTz) 55R534 RES R549 RES g. IV,5%, SMD, 470Qgr2) 57 R551 RES O.IV, 1%, SMD, IgKQgTz) g. TII, 7gQgTz) bI R553 RES SMD, 5%, AA s104 SW PUSH, SPPJ3-E SLOPE bb ufig IC TTL. GDT4LSiO 61UTI? IC TTL, GD74LS74AP GSS 69vc113 CAP IMT'IER, 45gFR, TR TZ^SP YEL 7l VR1O8RES VGO68TI1B-1KB SR,
II

/N l r*{l

N0. FND NO

DESCRIPTION & SPEC.

P/N

CE1Et226M ctzs 2 CE7EL226M c131 4 CE1EL226M c133 CEIEL226M c360 8 CK1HI82OJ c364 tg CK1HI15OJ c367 72 585-129 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 R501 30 RMgITAMJ R503 32 2.4 RM?IIaOZF R505 RMaIIWaJ 36 R5A7 RMOILOaaJ R509 38 RMOI15O2J R511 4g RMOI33O1F R513 42 RM?I56O2J R51? 44 RMgtATgu46 R52g RMOI1OROJ R523 48 R[{OiIOROJ R525 5g NOT 52 R526 RMaTIM?J54 R533 RMaIIaOzJ R548 )o RMOIATOgJ R550 58 RMgIlgOzF R552 6g RMOI1OROJ R554 62 521-104 64 u109 591-045-966 u111 591-163-968 u113 581-132-17g VRI0'I 512-375-r

CAP ELE,25V, [|,?2UF(SMS) cEntnat cAPEtE, tt,2.zUF(SMS) 50V, CELHI.WI CAP 25V, z2UF(SMS) ELE, M, cnu.mt NOT USED NOT NOT USED NgT g. AIUF CAP \gV,K, SMD, CK1HI1O3K QgTz) DIODB 1SS133 ffi,-tn DIODE, 1SS133 ffi5-Ln NOT USED NOT FET,2SK3O4-E 6lI-7M TRANSISTORI|MBT39O4-1A 611-654 SMD. TRANSISTORMMBT39O6-2A611-653 S}{D, RES F,7/2V,5%,68K C. RDOCP6S&I RES O.TV, IMQLLZ) SMD, 52(, RWIIWJ RES g. 7l{,7%, 3KQLIZ) SMD, 3. RlCII3301F RES g. LUt, 4.7KQUIZ) SMD, 5%, RII0IMOIJ RES O.Irf,,IZ, 82(2912) SMD, Rtr{OI82R0F RES 0. Iv, 5r4 SMD, 82KQ072) R\frr8zttzJ RES O,Tw, 4.7KQTT2) RWT4TgIJ SMD, 5%, RES O.Tl{,, 3. 3KQLTZ) RIor3301F SMD, LX, RES 0. Iv, 52,47Qglz) SMD, RVfiIA?WJ RES O.TV, 4.TKQuTZ) RWrATgtJ SMD, 51(, RES O.LV, LgQglz) SMD, 5%, RIOI1OMJ RES 0. tyl,5%, SMD, I0gQ0t2) RWILWJ RES g. IV,5T,2.ZKQuIZ) SMD, RWTMLJ RES g. W, 7%, 3KQ0t2) SMD, 3. RICII3301F RES g. IU,5%, SMD, tg(nLz) RIOIIOIRA' RES A.LV,7%, SMD, 4.7K(nn) RWIATgLF RES 9.1Y, TKQOIZ) SMD, fi6 RI|OIlOOlF RES g. IV,5'6IOQLLZ) SMD, RI'|OIIOROJ RES 0. LV, 4. 7KQg12) SMD, 5t(, RIMTATgIJ IC TTL, GDTAISM 59l-ffit4 IC TTLHD74IST22P 59y2n rc TTLGD74rS14 59L-gtffi RES VGO68TL1B-1KB SR, 572-315-tl

35

I

.

TIMING

CIRCUITS ; PAGE 10

N0. FNDNO 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
1

DESCRIPTION & SPEC.

P/N

N0. FNDNO

DESCRIPTION & SPEC.

P/N

CAP F,250V, 1UF [{. G, cH2Et105G2 cI22 CAP CER,5WU,K,\MPF CAP F,4WY, O. l'l. G, O1UF CH2GI1O3G cI24 cAP F,AggV,Kg.g47UF 4 [|. CAP sOV, 2.zUF(SMS) ELE, i{, CE1HL225M c126 cAPErE, l}|, b 25V, zzUF(Sli{S) CAP sOU, Sl'|D, J,A1OPFQgtz) CKlHI4?TJ8 c365 CAP \gV,K,O.OTUF SMD, QgIz) DIODE 1SS133 585-L20 IO a34g TRANSISTORKTA15O4_Y S[|D, [f. RES F,1/ 4l,t, 516 5K 0. 32. RMBP3252D R130 RES F,L/ 4v,0.5%, 5K 12 It|. 82. RES F,l/4W,0.5X, M. 1.65M RMBP1654D R132 RES R 7/4v,0.5X,825K 74 [|. RES F,1/ 4yt, 5X,165K [|. A. RMBP1653D R134 RES F,I/4V,9.5%, 16 M. 1.65I'| l'|. RES F,1/4!f, 5X,L65K 0. RMBP1653D R527 RES 18 RES b. lV, 52,10KQ012) SlilD, RMgIlOgzJ R529 RES g. fl, 5%, 20 SMD, TKQLTZ) g. Ltt, I. sKzgtz) RES A.LV, IAQglz) SMD, 5%, RMOI1OROJ R531 RES 22 Si|D U6 RES F,\/Ayt,5v"680 C. RDOBP681J R8A2 RES F,t/4v,5%,ffiA 24 C. RES F,I/4w,5%"2.'.|K C. RD6BPZ72J R804 RES R I/4tt,U65W 26 C. RES F,t/4Y,5r(,2.7K C. RWBPZ7zJ s105 SI{ROTARY, 28 BTR3O22q BELTON SW SLIDE, SSSUOU2NBO11 HVAR 52L-Itt 3A vR106 RES VGO68TL1B-5OKB SR, VAR, RES \q\ZL_PYSOKS HVAR 1OKB 571-325

cKztRlnK
CTWI/IT3K ffiLFS,Znl CK1HI1O3K 611-672 RI'{BP8252D RMP863D RrtsP1654D RTOI33O1F RlCII1001J Rl0I1501F RDEBP681J RDOIBPSoIJ

\n-trzt-g 57z-yn-I

36

fF

( ]- 1- ).

CHOP

PULSE

GENERATOR

I

; PAGE 11 N0. FND NO
1

a(l s(l nnl

-J

I

DESCRIPTIONSPEC. &

P/N

N0. FNDNO

DESCRIPTION & SPEC.

P/N

I

cLn

:-l ,l
CIDl

tsDl '4D I IlF I ,1J I ,1F I ]1J I 31J I 741

:1

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 4 29 u1t
AI

c

CAP MYLAR, J, O.TUF \WV, CAP 25V, ELE M,2zUF(SMS) SMD, J,IWPFQqLZ) CAP sgY, 1SS133 DIODE, TRANSISTOR KTA15O4-Y SI{D, TRANSiSTOR KTC3875-Y St|D, 6. RES 0. Iv, 7%, 8KQ012) Sl'lD RES O.TV, T^KQATZ) SMD, 5%, RES A.TV, 432Q.9L2) SMD, M, RES g, IV,5X, zKQOIz) SMD, 2. SMD, 2. RES 0. tw,5%, zKQgtz) g. tY, 52,2. 2KQg72) RES S[|D RES g. LV, I^KQ,LZ) SMD, 5%, RES SMD,0. 1%, 1W, 6.8KQAL2) IC TTt,GD74LSa2

cP1Ht104J 2 c136 CELEIZ26M c378 4 CK1HI1O1Jb D162 8 Pta4 fi,-lzg 6tI-672 t0 Q337 617-670 T2R437 RMOI68O1F R536 74 RM?ITWaJ16 R538 RMOT432gF R539 18 RMaIZaOTJ R541 20 RMOTzzglJ R542 z2 RMUINUU24 R544 RMaIIWZJ26 R546 RMOI6801F R586 % 591-054-9

CAP 25Y, zzUF(S[|S) ELE, [|,
CAP 5OV, 39OPFQLIZ) SMD, J, Dr0DL 1SS133 TAFER, CONNECIOR LT-064H3 TRANSISTOR KTC38?5-Y SMD, SMD, RES g.lV,\X" 4.7KQ912) S[|D RES 0.1V,5r6 4.7K(n12) g. IY, L21, RES SMD, 270(29L2) SMD, I%, RES g. LV, T.\KQOIZ) RES O.IV, 5'(,2. zKQOTz) SMD, RES A.lU,516 6K(WJL2) SMD, 5. SMD, RES 0. U, 524 19Q072) g. tY,5t(, 7K(nt2) RES SMD, 4. RES g. W,5%, SMD, t0Q0L2)

ffiLEtzdr CKlHI391J fit7n 53t-W2-7 6tt{1t0 RIMIATOIJ RWt47g7J RWINWF RilCIr1501F RWTMTJ RliO15601J RIIOIURAI RWr47glJ RIiCIIURAI

r
1 L

& DESCRIPTIONSPEC.

P/N

N0. FNDNO

DESCRIPTION & SPEC.

P/N

CAP 25V, z2UF(SMS) ELE, ll|, CE1EL226M c135A cAPE[E, M, 2 25U, z2UF(SMS) CElEI,TAJM CE.IEI,22A[I CAP 5gOU,C,1PF(T. CER, C BLACK)CT2HRO10C CT44 CAP 25V, 22UF(SMS) 4 ELE, l'{, cAPll|.F,4g0U, A.g47UF CH2GL473K c146 cAP F,4W\,K,0.947UF o K, M. CI1pfTATSK g.O47I]F CH2GL473K c148 CAP F,MgY,K, cAP F,4Wv,K,b.g47UF M. 8 M. ctwu7SK CAP 25V, zzUF(S[|S) LI,D,LZZ6M tg clsg ELE, il|, CAP 1AAU,C, CER, C iPF(T. BTACK) ctatRaLw cAPSMD, K,A.aNF CKlHI1O3K c376 CAP 5gY, NAPFQOLZ) CK1HIlOlJ ssv, Qgrz) 12 SMD, J, SMD, J,68PFQ?T2) CAP 5OY, CK1HI68OJ u15b I4 1SSi33 DIODE, 585-Ln DIODE ZENER, DZ_6.88 585-161 Ib D1564 DIODE, 1SS133 ffis-Ln DIODE. 1SS133 585-I2g 18 P109 CONNECTOR LI{-0640-04 531-W-7 WAFER, 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 [{l.lBT3W6-2A 611-653 SMD, TRANSISTOR MMBTS$6-2A 611-653 26 a324 TRANSISTORKTC3875-Y 6rL-679 Sil{D, SMD, TRANSISTORKTC38?5_Y 61r-670 28 8326 TRANSISTORKTC3875_Y 6t1-6'.t9 S[{D, SMD, TRANSIST0R KTC38?5-Y Sl,lD, 6IL-6'tg 3g 0328 TRANSISTORMMBT39O6-2A611-653 SMD. SMD. TRANSISTOR MMBT39O6_24611-653 32 0330 TRANSISTORKTC3875-Y 6tI-670 SMD, TRANSISTORKTC3875_Y 677-6'.19 34 R138 RES F,1/4W,I%,T6K SMD. lv|. [email protected] tl|. RES F,t/AV,1%,16K RMBP16O2F R144 RES F,1/4V,I%,16K JO M. RMBP16O2F RES F,t/Al,t,1%, I'l. 16K RMBP16O2F R148 RES F,I/zW,72,82K 38 M. RVffiUtzF RES }l.F,I/zl/,1%,rzgK RMCP12O3F R150 RES F,t/zi/',t%,tzgK 4g M. RMCP1203F C. RDOCP563J R153 RES F,I/zW,5%,56K RES F,7/2V,52,56K 42 C. RDOCP56&] RES F,I/Av,1%,5.6K il. RMBP56O1F R155 RES F,1/4yt, 7.5K 44 I'l. 17", R[tsPi50iF RES F,T/ AYI, 5.6K M. I%, RMBP56O1F R157 RES F,7/4W,T7.,I.sK 46 ||. Rl',BP1501F RES F,7/2W,1%,82K M. R[{CP82O2F R433 RES 0. t|/, 5%, 48 SMD, tgQglz) RIiCIIIOIRO.J RES 0. N, 5'(,l00Qgl2) S}lD, RMAIIaAOJ R435 RES 0.7v,5%, 5g SMD, ffigQgIz) RWTIWJ RES g.IV,T%, SMD, 4.32KQLL2) RMOI4321F R575 RES g. |vt,7%, 7Kzgtz) SUD, 52 4. WATMATF tr g.\U,M, 4.7KQ072) RM'T4TATFt R577 RES g. lV, 1%, RES SMD, SMD, IzgQgIz) RI&ITMF RES 0. 7l/', 430Qs12) S}lD, 1%, RMOIASWF R578 RES A.TV, 4,TKQTIZ) RWTATOLF DO SMD, T%, SMD, 5%, RES A.L!f, 2.2KQ0I2) RMaT2?aIJ R580 RES A.N, I%, 58 SMD, 4.IKQLIZ) RIMTATOLF g. Il', t%, $KQgtZ) RES SMD, 6. R[tOI6801F R582 RES 0. Iu, 52(, 60 SMD, 24KQg12) RVATZMIJ RES 9. LIt/, ISKQgrz) SMD, 7%, RMgTISZZF R583 RES g. Iv, 57" 6KQAL2) R[|or5601J 62 SMD, 5. RES 0. 7yt, I8gQ012) SMD, I%, Rl',lOI1SOOFR5E3B RES 0. rlf, t%,lgg(ntz) 64 Sfr|D, RIIfrIL8fpfr. RES 0. tlt, IZ, I8sQg72) SMD, Rll|OI1SOOF R583D RES 0. lv/,1%, 66 SMD, ISgQgtz) RMOI1SOOIF RES A.N, t%, SMD, t2K(2s12) RMOTT?aZF R584 RES A.7U, 6.8KQgtz) 68 SMD, r%, R[or6801F g. Il,l,, 2KQ012) SMD, RES g. fl, \%, 750Q0t2) RM?TTSOOFR587 RES 70 SMD, 7'(, RIrIw/.IF SMD, RES 9.7v1,1,(, 43gQg12) RM0I43gAF R5878 RES 9.fi, t26470Q912) 72 S|llD, RWI4TWF g.LVt, 479Q012) g. 7]f', IgQgIz) RES SMD, 7%, RMOIATggF R588 RES 74 SUD, 5%, RIiOIIOMJ RES A.IV,T%, 2K(2AI2) RM?I?aOLF R590 RES 0. IUt, 2.2KQ.9L2) RWIZALF SMD, 2. 76 SMD 1%" l RES g.IU,7%, UKQ012) RMOI4321F s805 Sl{SLIDB SMD, 4. 78 SSSU022NB011 x10 521-171I RES VGO68TI1B-2KB SR, 572-318-18g vR115 RES UGMSTLIB_^OOB SR, 572-316-11 RES VGO68TL1B-1KB SR, 572-3I5-L 82 vR805 RES \aLZL-PYSaKS HPOS VAR, 1OKB 57r-s5 |

38

(13).

Z_A){TS

&

H. lf

DRTVE

; PAGT 13

m.FNDNO
1

DESCRIPTION & SPEC.

P/N

NO N0. FND

& SPEC. DESCRIPTION

P/N 91$O16 CEIEI,M)M

c138 ct40 I ct42 I c153
11CI75

ct77 1 b c179 T7c180 1 0 CT82 2Tc184 23n e r a z5D136 21D138 29DL40
1C