Tektronix FG 504 Instruction Manual

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ά
COMMITTED TO E XCELLENCE
PLEAS E CH EC K F OR C H ANG E I N FORMATION
AT THE R E AR O F T HIS M ANUAL*
INSTRUCTION
Te k tronix, Inc .
P .O . Box 500
B ea υerton, Oregon
070-2655-00
Pro duct Grou p 75
97077
Serial
M ANU AL
N um ber
Fi rst Pr inting
N OV 1979
Revised MAY 1982
Copyr ig ht ® 1979 Tektro n ix, Inc. All r ig hts rese r ved.
Con te n ts of t his publication m ay not b e re produced in any
form wit h o ut t he w r itte n perm issio n of Te k t r on ix, Inc .
Copyrig h t © 1979 durc h Te k t r on ix, Inc . Alle R echte voι beh alte n . De r I nh alt d ieser Pub li katio n d art o hn e Gen e h migung
νοη Te kt ro n ix, Inc . n ic ht weite ιgege be n we rd e n .
Products of Tektr o nix, Inc . a nd its s ubsi dia ries are covere d
by U .S. a nd foreign atents and/or pe ndi n g pate nts.
Produk te νοη Tektronix, Inc . und sei ne n Toch te rgesellsc haften
p
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iste r ed trad e marks of Tekt ronix, Inc .
ar e r eg-
Pr i n ted in U .S .A . Specification a nd pr ice cha nge privileges
a r e reserve d .
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Paten te a bge d ec kt .
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Wa re nzeic he n νοη Tek t ro n ix, Inc .
si nd gesc h o tzte
Ge dru c kt in U.S.A . S p ezifi katio n s- und Preis Anderun gen
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Cop y r ig h t © 1979 TEKT R O N IX I NC . Τουτ droits r β se r v6s .
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©1979 X κΓα tUh If τ ~ Η Q
Τουτ les pro du its T EK T R ON IX τοητ br evet έs US et E tranger et
les logotypes T EK T R ON IX, ΤΕΚ SCO PE MO B I LE, T& τοητ
dέροsβα .
T EK T R O N IX, ΤΕΚ , SCO PE-MO B I LE,
ι ι ~# τ~~ ο
Η Α =~ τ ~i~s ;Έ ~C ~
I mpr im! αυχ LISA . TEKT R O N IX se rβserve le droit de mo d ifie r
car actέ r isti qu es et pr ix cla n s le cadre de dέvelo ppem ents technologiques .
TI ό I' fλε V,
ιάτη
k ρι = τεΠ N 9 I τi #IR τ1 MP# ι t< χ Tt 3 τ4
~
~ h` ~ η ~
FG 504 (S N Β040000 & UP)
TA BLE O F CO N T EN TS
Page
Page
LIST OF I LLUST RATIO NS . . . . . . . . . . . . . . . .
ii
Section 3 THE O RY OF O PERATIO N . . . . . . . . 3-1
LIST OF TA BLES . . . . . . . . . . . . . . . . . . . . . . .
iii
Section 4 CA LIBRATIO N PR OCEDURE . . . . . . 4-1
Section 1
SPE CI FICATIO N . . . . . . . . . . . . . . . 1-1
Section 2 OPERATING INST RU CTIO NS . . . . . . 2-1
En glis h Version
French Version
German Version
J apanese V ersion
WARNING
THE FOLL OWING SERVIC E 1NSTRU CTIONS
ARE F OR USE BY QUA LIFIED PERSO NNEL
ONLY. TO A VOID PERSO NAL I NJUR Y, DO
NOT PERFORM ANY S ERVICING OTHER
THAN THAT CO NTAINE D IN OPERATING
IN ST RU CTIO NS UNLE SS
YO U ARE
QUA LIFIED TO DO SO .
REV ΜΑΥ 1981
Performan ce Chec k . . . . . . . . . . . 4-3
Adj ustment Procedure . . . . . . . . . 4-8
Sectio n 5 M AI NTEN ANCE . . . . . . . . . . . . . . . . 5-1
Section 6 OPTIONS . . . . . . . . . . . . . . . . . . . . 6-1
Sectio n 7 REPL AC EABLE ELE CT RICAL PARTS
7-1
Sectio n 8 DIAG RAMS AND ILLUST RATIO NS . . 8-1
Sectio n 9 REPL AC EABLE ME CHANICAL PARTS 9-1
F G 504 (S N Β040000 & UP)
LIST O F I LLU ST RATIO N S
F ig.
No.
2-1
2-2
2-3
2-4
2-5
2-6
2-7
2-8
2-9
2-10
2-11
2-12
2-13
2-14
2-15
2-16
2-17
Page
FG 504 Function Generator . . . . . . . . . . viii
FG 504 I nstallation and R emoval . . . . . . 2-1
FR ONT Panel Controls and Co nn ectors . 2-3
Swept Frequ e ncy Ranges . . . . . . . . . . . 2-6
Swept Frequency R ange with 10 V app lied
to V CF 1 Ν connecto r . . . . . . . . . . . . . . .
Trigger Sign al Am plitud e Requireme nts
an d Triggeri n g Poi nts . . . . . . . . . . . . . .
Ph ase R elations h ips betwee n Output
Waveforms and TRIG O U T W aveform . .
Basic Functions. Square, Tria n gle, and
Sine Waveforms . . . . . . . . . . . . . . . . . .
R am ps a nd Pulses . . . . . . . . . . . . . . . .
V ariable R ise and Fall Times . . . . . . . . .
2-4
2-8
2-8
No.
2-18
2-19
2-20
2-21
2-22
2-23
2-24
4-1
5-1
5-2
2-8
. . . . . . 2-10
. . . . . . 2-10
. . . . . . 2-10
. . . . . . 2-10
. . . . . . 2-11
Page
Su ppressed Carrier O peration . . . . . .
L ow Fre q ue ncy H ol d Operatio n . . . . .
Delayed Operatio n . . . . . . . . . . . . . .
Tone B urst Testing . . . . . . . . . . . . . .
Linear Swee p of F ilters . . . . . . . . . . .
. . 2-11
Pulse S hapi ng Ca pabilities . . . . . . . .
Amplitude F latness Chec k . . . . . . . . .
Semiconductor B asin g . . . . . . . . . . .
R ear Inte rface Connector Assignments
. . 2-24
. . 4-11
. . 2-11
. . 2-11
. . 2-12
. . 2-12
Logarit hmic Swee p of F ilters . . . . . . . . . 2-12
. . 5-4
. . 5-5
The followi ng ill ustratio ns are located in t he
d iagram pull-out section.
2-8
2-9
L i near Sweep . . . . . . . . . . . . . . . . . . . . 2-9
L ogarit h mic Swee p . . . . . . . . . . . . . . . . 2-9
N arrow Band Sweep . . . . . . . . . . . . . . . 2-9
Gated Operation . . . . . . . . . . .
Triggered Operatio n . . . . . . . . .
Ph ase Co ntrol Operation . . . . . .
Ph ase Loc ked L oop Operation . .
Amplitu d e Mod ulation . . . . . . . .
F ig .
8-1
8-2
8-3
8-4
8-5
8-6
8-7
Semicon d uctor B asing
Adjustme nt Locations
Α3 L oo p Boar d Com ponent L ocatio ns
Α1 Main B oard Com ponent L ocations
(FRONT)
Α1 Mai n Board Component L ocations
(B AC K)
Α2 Fu nction Board Com ponent Locations
Α4 F loatin g Interface B oa rd Component
L ocations
Α
REV ΜΑΥ 1981
F G 504 (S N Β040000 & UP)
L IST ® F TA BLE S
Ta ble No
1-1
1-2
1-3
4-1
5-1
5-2
E lect rical Characteristics . . . . . . . . . . . . . . .
E nvironmental Characte ristics . . . . . . . . . . .
Physical Characte ristics . .
Test Equi pme nt Requ ired .
Relative Suscepti bility to
Damage . . . . . . . . . . . . . . .
M aintena nce Aids . . . . . . .
. . . . .
. . . . .
Static
. . . . .
. . . . .
. . ..... .
. . . . . . ..
Disc harge
.. .... ..
. . . . . . ..
Page
1-1
1-7
1-7
4-1
5-3
5-9
FG 504 (SN Β040000 & UP)
O PER ATO R S SA FE TY S UMM A R Y
T h e ge n eral safety information in this p art of t he summary is for bot h operati ng an d servicing
p ersonnel . Specific warni ngs and cautions will be foun d t h roug hout th e manual w here t hey
apply, but may not a p pear in t his summary .
T ERM S
In T his Manual
CAU TIO N statements i d entify conditions or practices t hat could result in d amage to t he
eq ui p ment or other property .
WA RN I NG statements i d entify con d itions or
loss of life .
p ractices t hat coul d result i n personal inj ury or
As Marked on Equi pment
CAUTIO N in d icates α p erso nal i nj ury h azard n ot immediately accessible as one reads t he
mar king, or α h azard to property includi ng t he equipment itself.
DANG ER indicates α personal i nj ury h azard immediately accessible as one rea ds the mar k ing .
SYMBO LS
In T h is Manual
This symbol in d icates where a pp licable cautionary or ot her information is to be
found.
As M arked on Eq ui pment
DAN G ER - H ig h voltage .
Ο
Protective grou n d (eart h) terminal .
ΑΤΤΕΝΤΙΟΝ - refer to manual .
Power Source
T h is p roduct is inte n ded to operatefrom α power source that will not apply more than 250volts
rms between t h e supply con d uctors or betwee n eit her su pp ly conductor an d groun d. Α
p rotective ground connection by way of t he groun d i ng conductor in the power cord is
essential for safe operation .
F G 504 (S N Β040000 & UP)
Grounding the
P roduct
T his product is grounded t h roug h t he gro u n d ing con d uctor of t he p ower cord . To avoid
electrical s h oc k, p lug t h e p ower cor d i nto α properly wire d rece p tacle before connecti ng tothe
p ro d uct in put or out p ut terminals. Α p rotective groun d connection by way of the groun d ing
conductor in the p ower cord is esse ntial for safe o p eration.
Da nger Arising
F rom L oss of Grou n d
Up o n loss of the p rotective-ground connectio n, all accessible conductive p arts (inclu d ing
kn obs and co ntrols that may a p pear to be insulating) can render an electric s h oc k.
Use the Proper P ower Cord
U se only t h e p ower cor d and co nn ector specified for your p rod uct.
U se only α p ower cord that is in good con d ition.
F or detailed information on power cor d s and connectors, see th e power module manual .
R efer cord a n d connector c hanges to q ualifie d service p ersonnel .
U se
the
P roper F use
To avoid fire h azard, use only the fuse of correct ty pe, voltage rating an d current rati ng as
s pecifie d in th e parts list for your p roduct .
Refer fuse re p laceme n t to q ualified service p ersonnel .
Do
N ot
Operate in Ex plosive Atmosp heres
Το ανο~d explosio n , do not operate th is p roduct ί η an ex p losive atmosp h ere unless it h as been
s p ecifically certifie d for such o peration .
Do
N ot
Operate Wit hout Covers
To avoid p ersonal i nj ury, d o n ot operate t h is p roduct without covers or p anels installe d . Do not
apply p ower to t h e plug-in via α plug-in extender.
Vi
REV Α A PR 1980
FG 504 (SN Β040000 & UP)
S ERVICI N G SA FE TY SUMM ARY
FO R
Q UA L I FI ED S ERVIC E PER SO NNEL
ONLY
Refer also to t h e preceding Operators Safety Summary.
Do N ot Service Alone
Do not perform internal service or ad j ustment of this p ro d uct unless anot her p erson ca p able of
renderi ng first aid an d resuscitation is p rese nt .
U se Care When Servicing With Power On
Dangerous voltages exist at several p oints in t h is p ro d uct . To avoi d perso n al inj ury, do not
touch exposed connections an d com p onents w hile p ower is on.
Disconnect p ower before removing protective panels, sol d ering, or replacing com p onents .
Power Source
T h is p ro d uct is inte n d e d to o p eratefrom α p ower sourcet h at will not apply moret h an 250volts
rms between the supply conductors or between eit her su pp ly con d uctor an d groun d. Α
protective ground connection by way of t h e groun d ing con d uctor in t h e power cor d is
essential for safe operation .
The FG 504 Function Generator .
Section 1- FG 504 (S N 8040000 &
UP)
SPECIFICATION
Introduction
The F G 504 Functio n Generator provides low d istortio n
si ne, square, tria ngle, ramp , a n d pulsewaveformsoverthe
freque ncies from 0.001 Hz to 40 MHz i n te n d ecades . Α
user-definable custom freque ncy range is also available.
The output am plitu de is 10 mV to 30 V peak-to-peak into
an open circuit an d 5 mV to 15 V peak-to- pea k into α 50 Ω
load . The output im p e da nce is 50 Ω. T he FG 504 may be
swept betwee n t he START and STO P FRE Q dial settings
with α li near or logarit hmic sweep. The outp ut may be
phase loc k ed, gate d, or triggered for si n gle cycle outpu t.
T he out p ut waveform may be s h ifte d ±80° from the
triggeri ng waveform . The symmetry of the out p ut waveform may also b e varied . For the slower freq uencies, the
output may b e h eld at any level by p us hing thefro nt pa nel
b utton labeled H O LD.
Α voltage-controlled freq uency (V CF) in put controls
the output freque ncy from an external voltage source . The
output freq ue ncy can be swe pt above or below the
selected frequ en cy, to α maximum of 1000 :1, depen d ing
on the p olarity an d am p litude of the V CF i np ut and t h e
selecte d output freque ncy . Provision is also ma d e for
amplit ud e modulati ng the si n ewave output from an external source.
T he variety of swept and modulate d signals available
from the FG 504 ma ke it es p ecially useful for suc h
applications as testi ng am p lifier or servo-system respo n se, distortion, and stability. It is useful for fm
ge neratio n, as α beat frequency oscillator, as α gated
triggere d or phase-locked logic i nterface, or as α source
for various ram p or p ulse waveforms. It is also useful as α
source for amplitude modulated signals for various purposes.
S PE CI FICATIO N
Performance Con d itions
T he followi ng electrical characteristics are valid if the
FG 504 is calibrated at an ambient temperature b etween
+20°C and +30°C and is operated at an ambient
temperature between 0°C an d +50°C, unless ot herwise
noted. Forced air circulation is require d at tem p eratures
above +40°C. Allow α o ne- hour warm-up period before
p erforming verificatio n tests.
Table 1-1
ELECTRICAL C HARACT ER ISTICS
C haracteristic
Performance Requi rement
Supplemental I nformation
Freque ncy
Range
Si ne-wave, sq uare-wave,
a n d tria ngle
R am ps, pulses, or waveforms
waveforms re q uiring use of
variable SY MMETRY co ntrol
Duty Cycle
.5 Χ 10' p osition of
MULTI PL I ER switch ( User
selecte d timing ca pacitor)
.001 H z to 40 MHz calibrated
i n 10 overlapping ste ps
.001 H z to n ominally 4 MHz.
_<7ο/ο to >93ο/ο below 1 MH z
<20°/ο to >80ο/ο above 1 MH z
=400 kH z maximum . Α 5 μF
capacitor p rovides α full-scale
freque ncy of -=400 Hz . The
factory-i n stalled capacitor gives
α 20 Hz to 20 kH z ran ge for the
.5 Χ 10' position of
the MULTI PL I ER switch .
Specification-FG 504 (SN Β040000 & UP)
Table 1-1 (cont)
Performance Requirement
Characteristic
Supplemental Information
F requency (cont)
R esolution
1 part in 10" of full-scale
setting usingthe FREQUENCY VERNIER
control, as measured with α
frequency counter.
Stability
Applies to calibrated portion of the
FREQUENCY H z dial only .
Time
<-0.05ο/ο for 10 minutes
<-0.1 ο/ο for 1 h our
-<0.5 ο/ο for 24 hours
The instrument must be at α
constant ambient temperature
b etween 0°C and +50°C an d
c hecked after α 1-hour warmup .
See Dial Accuracy
Temperature
1 to 40 Hz ( Χ MULTIPLIER
setting) calibrated ; 0.1 to 1 H z
(Χ MULTIPLIER setting) uncalibrated .
Dial Calibration
Dial Accuracy
FREQUENCY H z (START)
d ial
W ithin 3ο/ο of full scale from
0.001 H z to 4 MHz. W ithin 6ο/ο of
M easurements made at an ambient
temperature between +15o CC and +35'C
after 1 h our warmup .
STOP FREQuency d ial
W ithin 5ο/ο of the difference
STOP FREQuency d ial is
uncalibrated on the 10 6
MULTIPLIER range.
full scale from 4 MHz to 40 MHz.
b etween the start and stop
frequencies plus the FREQUENCY
Hz (START) dial error.
M aximum Frequency
R anges for
Dial, Sweep Frequency, and
Voltage Controlled
Frequency (VCF) M odes
MULTIPLIER
Setting
106
105-101
10 1 , 1, 10-1 , 10-1
10-s
M aximum to
Minimum Freqency Ratios
500:1
->1000 :1
->100:1
40 :1
Linear or L ogarithmic .
L imited by Start and Stop
Internal Sweep
Accuracy
Frequency Specifications ; u se
external frequency counter if
greater accuracy is required .
Sweep Duration
100 s to 0.1 ms in six decades
(selected by SWEEP DURATION switch) .
VARiable control overlaps decades.
Stop Frequency to
Swept Stop
Frequency Error
Within 2ο/ο from 100 s to 1 ms
L INear SWEEP
sweep duration .
W ithin 10ο/ο from 1 ms to 0.1 ms
swee p duration .
0 V to +10
V.
Output impedance 1 kΩ.
Specification-117G 504 (S N Β040000 & UP)
Table 1-1 (cont)
Internal Sweep (co nt)
OUTPU T Am plitude
Accuracy
W it hin 5ο/ο from 100 s to 1 ms,
Wit hin 10 ο/ο from 1 ms to 0.1 ms .
SWEEP TR IGger I NPU T
Input se nsitivity
L evel
M aximum In put
V oltage-controlled
Fre q uency In put (V C F)
=4 Χ MULTI PL I ER setti ng per
volt . Α p ositive-goi n g voltage
i ncreases freq uency.
N omi nal Se nsitivity
( Hz/volt)
Maximum Fre quency
M aximum freq uency d ivided by V CF
range (see M aximum Frequency R anges
for Dial, Swee p Fre q uency, and
V oltage Controlled Frequency (V CF)
M odes) .
Minimum Frequency
Slew R ate
I n put Impedance
OUTPU T Signal Amplitude
At least 30 V ρ- ρ i nto an open
circuit, at least 15 V i nto 50 Ω.
Flatness
Sine-wave
0.001 Hz to 40 kH z
40 kH z to 40 MHz
W it hin ±0.5 d B.
W it hin ±2 dB from 40 kH z
to 40 MH z.
Typically wit hin ±0 .5 d B to
40 MH z. R eference at 10 kH z.
Triangle
0.001 H z to 40 kH z
40 kH z to 40 MH z.
R eference at 10 kH z.
S q u are-wave
0.001 H z to 20 MH z
20 MH z to 40 MH z
Si ne-wave, Triangle,
an d S q uare-wave Am plitu d e
Match
R eference at 10 kH z.
Specificatio n-FG 504 (S N Β040000 & UP)
Table 1-1 (cont)
C haracteristic
P erformance Requirement
Supplemental Info rmation
Output ATTENUATO R
Atte nu ator
Step
Maxim um O pencircuit Outp ut
Voltage (p-p)
0 dB
-10 dB
-20 d B
-30 d B
-40 dΒ
-50 dB
30 V
9.5 V
3V
950 m V
300 m V
95 m V
Accuracy
W it hin ±0.5 dB/ decade.
VARia b le Co ntrol
Provi des up to -20 d B
ad ditio nal atte nu ation to re d uce
t he mi nim u m output signal am plitu d e
to 10 m V.
OFF SET R ange
Into O p en Circuit
I n to 50 Ω
±7 .5 V
±3 .75 V
Maxim um sig nal pl us offset
peak out put amplit ude of
±20 V i nto an ope n circuit an d
±11 .25 V i nto 50 Ω. Offset
d efeatable by front- panel control .
Output W aveforms
W it h out
Use of SY MMETR Y
(variable) control
Si ne, Tria n gle, and Square
W it h SY MMETRY (variable)
R am ps and Pu lses . Duty cycle ra nge
is <_7ο/ο to >93ο/ο for all variable
symmetry waveforms below 1 MH z;
limite d to -20% to ~80% for
tria ngle and si ne-waveforms above
1 MHz.
Actuation of SY M ME TRY control
d ivides output freq uency b y
ap proximately 10 .
Control
Tria ngle
Symmetry
10 Hz to 400 kH z
400 kH z to 40 MHz
L i nearity
Ty pically wit hi n 2ο/ο from
0.001 H z to 10 Hz .
W it hin 1 ο/ο.
Wit hin 5ο/ο.
On calibrated portion of
FREQ UENCY Hz d ial.
M easured from the 20 ο/ο point to the
80 ο/ο p oi nt of th e wavefo rm. Ty pically
wit hin 2ο/ο from 0.001 Hz to 10 Hz .
10 Hz to 400 kH z
400 kHz to 4 MHz
4 MHz to 40 MHz
W it hi n 1 ο/ο.
W it hin 2ο/ο.
W it hi n 10 ο/ο.
REV NOV 1981
Specification-FG 504 (SN Β040000 & UP)
Table 1-1 (cont)
C haracteristic
Performance
Requirement
Supplemental Information
Out p ut Waveforms (cont)
Sine-Wave
Total H armonic
Distortion
20 H z to 40 kHz
40 kHz to 1 MHz
1 MHz to 40 MHz
<-0.5 ο/ο .
Greatest h armonic at least
30 dB down .
Greatest h armonic at least
20 d 8 down .
Typically _<1 ο/ο from 0 .001 H z to
20 H z, measured un d er the following
con d itions : Temperature +10°C to
+35°C ambient terminated
into 50 Ω ; zero offset ; <_30 dB
attenuation, and with
FREQUENCY Hz (START) d ial set
between 4 and 40 .
S q uare-wave
RISE AND F ALL TIMES
F IXED
Aberrations
_-6 ns 10 n s to 100 ms in 7 steps
measured from 10% to 90%
Applies to p ulse waveforms also .
_-5% ρ - ρ plus 30 mV into 50 Ω load .
10 n s to 100 ms in 7 steps .
M easured between the 10% and
90% points of Am p litude ; accuracy
within 30% . VARiable control has
10Χ range.
P erio d
Dc to 4 MHz
5 V ρ- ρ signal p ro d uces 100ο/ο
mo d ulation of α sine-wave carrier
with <_5%ο d istortion at 70 ο/ο
modulation .
When driven from α source
imped ance <_600 Ω .
4 MHz to 40 MHz
~10ο/ο d istortion at 65 ο/ο
mo d ulation .
M odulating frequencies from 20 H z
to 20 kHz . M odulation freq uency
bandwi dth is do to 100 kHz . Α
mo d ulating source im pedance of
_<10 k Ω ensures proper
modulation an d d ivides the output amplitude by 2 .
VARiable
of waveform must exceed
combine d rise and fall times
by %20 ο/ο .
AM INPUT
In p ut Im p edance
_>1 ΜΩ .
E xternal
TRIG/GATE/
Φ L OCK Input
In p ut Im p edance
Sensitivity
M aximum
>_10 k Ω .
_<1 V p- P .
Input Amplitude
+20 V .
TRIG
LEVEL
M inimum P erio d
REV NOV 1981
-1 V to +10 V.
F or triggering α single cycle
of generator waveform .
75 ns .
1-5
Specificatio n- F G 504 (S N 8040000 & UP)
Table 1-1 (cont)
C h aracteristic
Performa n ce R equirement
Su ppleme n tal Information
E xter n al T R IG/GAT E/
Φ LOC K In p ut (co nt)
M aximum
Trigger
Freque n cy
_>20 MH z.
GAT E
75 n s.
Mi nim um P erio d
Maximum Gate d
Frequ ency
Φ L OC K
4 MH z to 40 MH z
+20 MH z.
For gating multiple-cycle burst
of generator waveform .
100 Hz to 40 MHz.
Adjust range ±80° from
0 100 H z to 4 MH z.
Ca pture range: ± 10 major dial divisions from 100 Hz to 4 MH z; ±8
majo r dial d ivisions from 4 MHz to
40 MHz (40 MH z may not ca pture,
but will track.)
±8 maj or dial divisions.
Generator will lock to α changi ng
external signal, without readjusting
t he PH AS E control, within ±10
ma j or d ial divisions from 100 H z
to 4 MH z an d wit hin ±1 MH z
from 4 MH z to 40 MHz.
Loc k Range
PH AS E
±80° from 0.001 H z to 4 MH z .
Ph ase Ad j ustment R ange
MAN
TRIG O U TPU T
0 V to +2 V from 50 Ω .
Manual Trigger/Gate front- panel
pus h button .
H OL D
10 ο/ο of ρ- ρ out put am p litu de/ h our.
Drift
R ange
0.001 H z to 400 Hz .
REV NOV 1981
Specification-FG 504 (SN Β040000 & UP)
Table 1-2
ENVIRONMENTAL C HARACTERISTICS
C haracteristics
Description
Temperature
Operating
0°C to +40°C (+40°C to +50°C; force d air required).
Storage
-401 C to +750 C.
Altitu d e
Operating
To 15,000 feet (4,570 meters) .
Storage
To 50,000 feet (15,250 meters) .
V ibration
Operating an d non-operating
0.64 mm (0.025") d isplacement, 10-50-10 Hz sinewave, 54 minutes.
Shock
O perating and non-operating
50 g's (half sine), 11 ms, 12 shocks .
Qualified under N ational Safe Transit Association Test,
Procedure 1 Α Category ΙΙ .
Transportation
Table 1-3
PHYSICAL C HARACTERISTICS
C haracteristics
Description
Finish
Anodized aluminum panel and chassis.
W eight
3.75 pounds (1 .7 kg).
Overall Dimensions
W idth 5.312" (13.49 cm),
H eight 5.0" (12.7 cm) .
L ength 12 .125" (30.8 cm),
Section 2- FG 504 (S N Β040000 & UP)
O PER ATI N G I N ST RU CTIO N S
I NSTALL ATIO N
AND
REMOVAL
I NST RU CTIO N S
The FG 504 is calibrated an d read y to use wh en
received . It o p erates in any two com p artments of the
ΤΜ 500 series power modules exce pt the TM 501 . Refer to
t he p ower mo d ule instruction ma n ual for line voltage
re quirements and power mo d ule operatio n. Force d air
cooling is required for o p eration between 40 an d 50
degrees ce ntigrade.
Turn t h e p ower mo dule off before inserting or
removing t he FG 504 ; ot h erwise, arcing may occur
at t he rear interface connectors . Arcing reduces th e
useful life of th e connectors and damage may be
done to th e plug-in circuitry.
C hec k for plastic barriers on t he interconnecting j ac ks
of t he power module i n t h e selected compartments . If
there are barriers p resent and t hey do n ot matc h t he cutouts i n t h e FG 504 circuit boar d edge connectors, t h ey
may in d icate special rear i nterface connections for
anot her ty pe of instrument . Do n ot insert t he plug-in until
this h as been verifie d by q ualified service personnel .
Wh en the u nits are p roperly matc hed, align the FG 504
with t he u p per and lower guides (see Fig . 2-1) of t h e
selected compartments . Insert t he FG 504 into the compartme nt and p ress firmly to seat the circuit boar d s in the
interconnecting j ac ks. T he P OWER light should be illumi nate d w h en the p ower module switch is tur n e d on .
To remove the FG 504, pull the release latc h, whic h is
located on the lower left corner, until the circuit boar d
edge connectors disconnect from t he p ower mo d ule
j ac ks. The FG 504 will now slide out of t h e power module .
Fig . 2-1. FG 504 Installation and Removal.
REV ΜΑΥ 1981
En glis h 2- 1
Operating Instructions-FG 504 (SN Β040000 & UP)
O PER ATI NG CO N SID ER ATIO N S
FRED =10: L am p indicates when SYMMETRY
knob is p ulle d out.
Output Connections
T he output of the FG 504 is d esigned to operate as α
50 Ω voltage source working into α 50 Ω load . At h igher
frequencies, an unterminated or improperly terminated
output will cause excessive aberrations on the output
waveform (see Impe d ance M atching d iscussion) . L oads
less than 50 Ω will re d uce the waveform amplitude.
RUN: (Button out) for normal operation .
H OLD: (Button in) Disables the generator and
provides an output d o level equal to the level of the
signal when t he button was pushed. (5 lower
frequency ranges only .)
Excessive distortion or aberrations, due to improper
termination, are less noticeable at the lower frequencies
(especially with sine and triangle waveforms) . To ensure
waveform p urity, observe the following precautions :
V CF INPUT: Externally applied voltage varies
output frequency.
FREQUENCY
variations .
1 . U se good quality 50 Ω coaxial cables and connectors .
4. U se terminations or impe d ance-matching devices to
avoid reflections when using long cable (6 feet or more) .
frequency
Ο
9 LATCH : Pull to remove the p lug-in .
INPUT: Apply external gating, triggering, or phaselocking signals to this connector.
MAN: Provides α manual trigger in TRIG operation
or manual gate in GATE o peration to control the
output waveform .
If there is α do voltage across the output loa d , use α
coupling capacitor in series with the load . The time
constant of the coupling capacitor and load must be long
enough to maintain p ulse flatness .
LEVEL: Selects the beginning voltage level on
INPUT waveform for triggered, gate d , or phaselocked operation .
NO ΤΕ
If the FG 504 is used in early mo dels of the TM 500
Series Power Modules, ripple on the output waveform can be excessive in some cases. The ripple
r esults from Power Module transformer phasing that
is incompatible with FG 504 operation; however, the
problem is easily cured. Refer to qualified service
personnel for checking transformer p hasing.
Φ LOCK: B utton in locks output waveform frequency to signal applied to INPUT connector.
GATE : B utton in causes generator to produce α
waveform during α h igh level at the INPUT connector.
CONTROLS AND CONNECTORS
T RIG: B utton in causes generator to produce one
cycle of output waveform for each positive-going
INPUT signal .
FREQUENCY (Hz) : Selects frequency of operation, or lowest frequency in sweep mode .
English 2-2
fine
ί~ AM INPUT: Externally applied signal mo d ulates
sine wave output .
5. Ensure that attenuators, terminations, etc., have
adequate power h andling capabilities for the output
waveform .
STOP FREQUENCY (Hz) : Selects h ighest frequency in sweep mode .
F or
MULTIPLIER :Determines range of FREQUENCY
d ial.
2. M ake all connections tight and as short as possible .
3. U se good q uality attenuators if it is necessary to
reduce waveform am p litude applied to sensitive circuits .
VERNIER:
16
FREE RUN: B utton in causes continuous output
waveform .
REV ΜΑΥ 1981
O p erating I n structions- FG 504 (S N Β040000 & U P)
PH AS E : Selects ph ase lead or lag up to =+-80
deg r ees from selecte d triggeri n g level on I NPU T
sine or ramp wavefor m s.
T RIG OUTPU T: Pro du ces one positive pulse for
LI N SW EE P O U TPU T: Provi d es α 0-10 V linear
sweep output w h enever t h e sweep is running .
SW EE P T R IG INPUT: Apply α trigger waveform
hereto start t h e swee p w hen using the TR IG S W P.
each positive cycle of selecte d waveform . ( E xcept
sq uare wave output corres p on d s to negative cycle.)
V AR: V aries t he rise and fall times of t h e s q uare
OU TPU T: Connector for generator OU TPU T
waveform .
R IS E an d F ALL TIME: V aries rise an d fall time of
s q uare wave in ste p s.
V AR: V aries OU TPU T am p litu d e betwee n step s of
ATTENUATO R switc h .
SY M ME TRY: Pull and turn to a d j ust waveform
symmetry . Divi d es out p ut fre q uency by ten and
lig h ts =10 light. (Call-out 3.)
ATTENUATO R (d B): Varies am p litu d e of OUTPU T
waveform in ste p s of 10 d B.
wave .
V AR : V aries swee p time between steps of SWEEP
DUR ATIO N control .
F ig . 2-2. F RONT Panel Co ntrols and Connectors .
REV ΜΑΥ 1981
E nglis h 2-3
Op erati n g I n structions- F G 504 (S N 8040000 & UP)
Ζ6
SWEEP DUR ATIO N: Selects d uration of frequency
sweeping ram p .
T R IG LEVEL: Selects level
t h at starts sweep ram p .
on S WEEP T R IG I N P U T
MAN TRIG : P rovi d es ma n ual swee p waveform start
w h en presse d n.
i
31
O FF S E T: Pull and rotate to offset t h e O U T PU T
waveform from 0 V at t h e O U T PU T connector .
F or first time operation, preset t h e co n trols as follows :
B lue section :
FRE Q UEN CY
( M ain Dial)
STOP
MULTI PL I ER
H O L D/ RUN
VAR
Hz
10
40
10 1
RUN (out)
F ully cw
Green sectio n :
FREE RUN
In
Orange section :
AM CA RR I ER AMPLIT U D E =2 : L am p lig hts w h en
impe d ance at AM I NPU T <_10 kΩ .
S WEEP D UR ATIO N
O FF
U nmar k e d sectio n :
33
(SINE W A VE): B utton in selects sine wave out p ut .
(T R IA N G LE WA VE): B utton in selects triangle
wave output .
35 (SQ U A RE WA VE): B utton in selects s q uare wave
Ο
output .
STO P FRE D : B utton in sto p s fre q uency sweep at
h ig h est (STO P ) fre q uency . B utto n out swee ps
freque n cy from STA R T to STO P settings on FREQ UEN CY dial .
g1
L OG
B utton in p ro d uces
S WP/ L I N SWP :
logarit h mic sweep . B utton out p roduces α li n ear
sweep.
T R IG SWP / FREE RUN: B utto n i n causes
swee p to
start wit h trigger . B utton out causes t h e sweep to
free ru n .
P O WER:
F G 504 .
Indicates w h en
F I R ST
TIME
p ower is a p p lied to
O PER ATIO N
Th e Co n trols and Co n nectors p ages give α d escri ption
of t h e front p anel co n trols a n d connectors . T h efre q uency
determining co n trols are outline d in blue, t h e trigger
functio n co ntrols and in p uts are outli n ed ί η green, an d th e
internal swee p fu n ction controls a n d inputs are outlined in
orange on t h e FG 504 fro nt panel .
En glis h 2-4
Sine Wave
R IS E an d F A LL TIME
ATT ENU ATO R
VAR
In
F IX E D
-10
F ully cw
Connect α 50 Ω b n c cable terminated in 50 Ω to t h e
vertical i n put of an oscilloscope . Set t h e oscillosco p e to :
V ertical
H orizontal time base
1 V /Div DC coupled
1 millisecon d/Div
A dj ust t h e oscillosco p e to dis p lay at least five full
cycles of t h e si n e wave . Now alter n ately pus h ί η t h e s q uare
wave, sine wave, and t h e tria n gle wave buttons in t h e
unmar k ed section an d observe t h e d iffere n t waves h apes .
R otate t h e ATT ENU ATO R an d V A R controls to verify t h at
t h e out p ut am p litude c h anges . R eturn t h em to t h e p reset
co n d itions . Pull out t h e O FF S E T k nob and rotate it . N otice
t h e c h ange in d o level of t h e out p ut waveform . Retur n th e
O FF S ET k nob to t h e i n p osition .
P ress t h e s q uare wave button i n . R otate t h e R IS E an d
F A LL TIME switc h t h roug h its range . N ote t h e c h ange of
s q uare wave s h a pe . R etur n t h e R IS E and F A LL TIME
switc h to t h e PRE S ET positio n . Pull t h e SY MME T R Y k nob
to its out p ositio n and rotate it t h roug h its range . N ote t h e
c h ange of waves h ape for t h e square wave, t h e triangle
wave, and t h e si n e wave wit h th e ap p ro p riate buttons
p us h ed i n . R etur n t h e SY MMET R Y k nob to its in p ositio n .
W it h t h e t h ree buttons in t h e ora n ge section in t h e out
position, switc h t h e SWEEP D UR ATIO N switc h to 1 s .
N ote t hat t h e output frequency c h anges from α low
fre q uency to α h ig h er frequency o n ce α second . Press t h e
LOG S WP butto n in a n d note t h at t h efreque n cy c h a n ge is
slow at first and t h en more rapi d . Press t h e STO P FRE Q
butto n and note t h at t h e sweep stops at t h e h ig h est
freq uency of t h e sweep range . R otate t h e STO P FREQ
k nob on t h e main d ial i n t h e bl u e seciton of t h e p anel . N ote
REV ΜΑΥ 1981
Operati ng I n st ructio n s- F G 504 (S N Β 040000 & UP)
FRE Q is set by t h e STO P FRE Q d ial .
R elease t h e STO P FRE Q button a nd press t h e T R IG SWP
butto n . N ote t h at t h e fre q ue n cy no longer c h a n ges . Press
t h e MAN T R IG button and n ote t h at t h e fre q uency
c h anges o n ce . R eturn t he S WEEP DUR ATIO N k nobtot he
O FF position .
t h at t h e STO P
Press t h e T R IG button in t h e green section of t h e p a n el
in . N ote t h at t h e O U T PU T signal stops . P ress t h e MAN
button in t h e gree n section i n and note t h at t h ere is o n e
com plete output cycle for eac h time t h e MAN switc h is
p ressed . Press t h e GAT E button i n . Now p ress t h e MAN
button . N ote t h at t h e output waveform is continuous w h ile
t h e MAN butto n is p resse d . P ress t h e FREE RUN button in
again for continuous out p ut .
T h e out p ut frequency co ntrols are outline d i n blue .
V ary t h e FRE Q UEN CY co n trol to see t h e effect on t h e
output frequency . T h e output freq uency MUL TI PL I ER
Kn ob selects t h e fre q uency ra n ge covered by t h e main
d ial . Switc h t h e MULTI PL I ER k nob to t h e 10- Ζ range . As
t h e sig n al am p litu de slowly varies on t h e oscilloscope,
pus h t h e H O L D/ RUN butto n in a n d release it several times
to see t h at t h e oscillator stops at o n e point on t h e
waveform and t h en begi n s at t h e same poi nt w h en t h e
button is released .
T h is completes t h e first time operation of t h e instrument .
Risetime
and
F alltime
If t h e out p ut p ulse from t h e F G 504 is use d to measure
t h e rise or falltime of α d evice, consider t h e risetime
c h aracteristics of t he associated e q ui p me n t use d . If t h e
risetime of t h e d evice un d er testis at least ten times longer
t h an t h e combi n ed risetimes of t h e F G 504 plus t h e
mo n itoring oscilloscope an d associated cables, t h e error
i n tro d uced will not excee d 1 ο/ο . T h is error can generally be
ig n ored . Wh en t h e rise or falltime of t h e test device is less
t h an te n times as long as t h e combined risetimes of t h e
testing system, t h e actual risetime of t h e system must be
determine d . T h is is fou n d from t h e risetime of eac h
com p o n e n t ma k ing up t h e system . T h e total risetime
eq uals t h e square root of t h e sum of t h e sq uares of t h e
i n divi d ual risetimes, or :
R, _
( R ι ) Ζ + ~ R z )Ζ + . . .
O n ce t h e risetime of t h e system is k now n , t h e risetime
of t h e d evice under test ca n be foun d by using t h e
preceding met h od .
T h e p h ysical and electrical c h aracteristics of t h e pulse
transmitting cable determine t h e c h aracteristic im-
REV ΜΑΥ 1981
p e d a n ce, velocity of p ro pagation, and amou n t of signal
loss . Signal loss is related to fre q ue n cy . Α fewfeet of cable
can attenuate h ig h frequency informatio n i n α fast-rise
pulse . It is t h erefore im p orta nt to k eep t h ese cables as
s h ort as practical .
Wh e n signal compariso n measurements or time
d ifference determi n ations are made, t h e two signals from
t h e test d evice s h ould travel t h roug h coaxial cables wit h
identical loss and time delay c h aracteristics .
Impedance
M atch ing
As α pulse travels d own α transmissio n li n e, eac h time it
e n counters α mismatc h (or an im peda n ce d iffere nt t h an
t h at of t h e transmission li n e), α reflection is generated a n d
sent bac k along t h e li n e to t h e source . T h e amplitu d e a n d
p olarity of t h e reflectio n s are determine d by t h e impe d ance mismatc h en countered . If t h e im p eda n ce mismatc h is α h ig h er value t h an t h e line imped a n ce, t h e
reflectio n will be of t h e same polarity as t h e a p plie d sig n al .
If it is α lower value t h a n t h e line im p edance, t h e reflectio n
will be of o pp osite polarity.
If t h e reflected sig n al returns before t h e p ulse is en d ed ,
it adds to or subtracts from t h e am p litu d e of t h e p u lse . T h is
distorts t h e pulse s h ape and am p litu d e .
If t h e F G 504 is d riving α h ig h im p e d a n ce suc h as t h e
1 ΜΩ i n put impe d ance (paralleled by α stated capacitance) of t h evertical i nputtoanoscilloscope, connectt h e
tra n smission line to α 50 Ω atte n uator, 50 Ω terminatio n ,
an d t h en t h e oscillosco p e i np ut . T h e atten u ator isolates
t h e input ca p acitance of t h e device, a n d t h e F G 504 is
p ro p erly terminated .
F ree R unning
Output
Select t h e d esired waveform (s q uare, triangle, or si n e)
by p us h ing t h e a ppropriate button mar k e d wit h
SQ U A REW AVE, T R IA N GL E , or SI NEW A VE symbols .
Pus h t h e FREE RUN butto n . M a k e certain t he SWEEP
D UR ATIO N switc h is in t h e O FF p osition . Select t h e
d esired fre q ue n cy wit h t h e MUL TI PL I ER a n d FREQ UEN CY H z (STA R T) d ials . T h e FRE Q UEN CY VERN I ER
control p ermits fi ne freque n cy a d j ustme n ts . Connect t h e
load to t h e O UT PU T terminal . M a k e certain t he H O L D
butto n is out . Set t h e ATT ENU ATO R co n trol for t h e
desired pea k -to-pea k output amplitu d e . U se t h e V A R
k nob to vary t h e am p litu d e between t h e steps .
T h e waveforms wit h out offset center around 0 V . To
offset t h e waveforms, pull a n d rotate t h e O FF S E T control
for t h e d esire d offset . If α square-wave out p ut is selected,
ad j ust t h e R IS E an d FA LL TI ME co ntrol for t h e desired
values . T h e VA R k nob varies t h ese times between t h e
E nglis h 2- 5
Operati ng Inst ructions- FG 504 (S N Β040000 & UP)
control steps. Α trigger sig n al, one for each cycle of t he
selected waveform, is available at t h e TRIG O UT PU T
co nn ector.
Wh en usi ng t he si ne or triangle waveform output with
I
t he V C F NPUT connector. See Figure 2-3 for t he max-
im um vcf ra nge for each MULTI PL I ER setti ng. It may be
necessary to vary t he FREQUEN CY VERN I ER control to
obtai n t he full 1000 :1 swept range or t he lowest swept
frequency desire d .
t h e MULTI PL I ER in the slowest five p ositio ns, the
waveform output may b e stop ped by p us hing t he H O L D
button . The waveform generator stops and t he FG 504
outputs α do voltage equal to the voltage the triangle or
si ne waveform reac hed wh en t he button was pu shed . This
feature does not op erate on t he square waveform .
Wh en pulled out, the SY MMETRY co ntrol d ivides t he
output freq ue n cy (FRE Q =10 in dicator lit) by te n , and
varies t he time based symmetry of the selected waveform .
Pull t h is control and turn for the desired symmetry u si n g
any of t he three basic waveforms .
Triggered or Gated Operatio n
Wit h t he FG 504 set for free running o peration as
described in the previous paragrap hs, a p ply the triggering
or gati ng sig n al to the I NPUT connector. If only οη e cycle
of t h e out p ut waveform p er trigger is d esired, push t he
TRIG button and set the LEVEL control for the level on the
triggeri n g waveform at whic h t he output waveform is to
begi n. If more than one cycle of the output waveform is
desired, press t he GATE push button . The F G 504 out put
now begins at the triggeri ng level an d continues until t h e
waveform at the i n put co n nector drops below t he triggeri ng level. The output duration is now the d uration of t he
gating waveform . The number of cycles p er b urst may be
ap proximated by d ividing t h e gating signal duration byt he
perio d of the FG 504 output freq uency. 1 η t h e gate d mode
of operation, t he FG 504 always com p letes the last cycle.
If, at t he terminatio n of the gati ng waveform, less th an
a p proximately 270° of the last cycle remai ns, an additional cycle is com pleted .
in triggere d or gated o peratio n t he PH AS E control
varies the start of the tria ngle or si ne out put waveform by
±80° . Th is p hase change is measure d from t h e 0 V, 0°
p oint on t he out put waveform .
To ma n ually trigger or gate t he FG 504, tur n t he LEVEL
control fully cloc kwise and p us h t he TRI G or GATE button
as desired . In the TRIG mode, pus hi ng the MAN button
triggers one cycle of the output waveforms. In t he GATE
mode, the selected output waveform continues as lo ng as
the MAN butto n is p ressed i n .
Voltage Controlled
F re q uency Operation
T he output freque n cy of t h e FG 504 ca n be swept over
α frequency range of 1000 :1, depe nding on the
MULTI PL I ER setti ng, b y app lying α 0 V to 10 V signal to
En glis h 2-6
C ustom positionwith factory installed ca pacitor.
80 kHz
106
ί7 105
Ζ
10°
fω
10'
ω
l7 10 2
Ζ
α
σ
σ
40 MHz
4 kH z
4 MHz
400 kH z
400 Hz
4 0 kHz
20 kH z
4 kH z
40 Hz
20 Hz_
4 Hz
4
Hz
400
Hz
ω
4 0 Hz
0.4 Hz:
J
α
4 Ητ
0.04 Hz
J 10 -' ~
0.004 Hz
0.4 Hz
Σ 10 -2
0.001 Hz 0.04 Hz
10- '10-' 10 -2 10-' 1
10
10 2 10' 104 10 5 106 10' 108
Freq uency Hz
2028-03
Fig. 2-3. Graph s howing range of freque ncies f or each
MULTI PL I ER setti ng t h at can be swept with α 0 to 10 V sign al
app lied to the V C F NPUT.
I
T he p olarity of the vcf in put signal determines t he
d irectio n t he output frequency is swept from t he freq ue ncy set by t he MULTI PL IER, FREQUENCY H z (STA RT),
an d FREQUEN CY VERN IER controls . Α p ositive-going
voltage raises the freq ue ncy wh ile α negative-goi ng
voltage lowers the freque ncy. Α voltage that varies
symmetrically about 0 V swee ps the out put freque ncy
symmetrically about t h e ce nter freq uency d etermi ned by
the freque n cy controls (see Figure 2-3) .
Si nce the vcf in put am plitude versus freque ncy is α
linear relations hi p, the freq uency output may b e determine d from th e vcf input amplitude and the FREQ UENCY
H z d ial p osition . VC F se nsitivityist he h ig h est possibledial
setti ng (40) times t he MULTI PL I ER ra nge d ivided by the
maximum V CF input voltage (10 V ).I n t he FG 504,thisisa
n omi nal sensitivity (Hz per V) . of 4timest he MULTI PL I ER
setting. For example, wit h α 10' MULTI PL I ER setti ng, α
two-volt change at t h e V CF I NPUT will ch anget he output
freq uency 8 kH z.
Custom Timing R ange
T h is feature permits t he user to install α custom swe pt
freque n cy range. The .5 Χ 10' position of the MUL-
REV ΜΑΥ 1981
Operating Instructions-FG 504 (S N Β040000 & UP)
Τ1 PL I ER switch is used for th e custom range. The factoryinstalled capacitor (C248) for this position of t he
MULTI PL I ER switch provides α swept range from 20 Hzto
20 kH z.
Ph ase
L oc ked O peratio n
T he frequency of the out p ut waveform may be synchronized with an externally-applied reference signal .
T he outp ut freque n cy of t he F G 504 must be set to wit hin
±10 major d ial d ivisions of the frequency of t h e externally
ap p lied sign al (t he "1" on the dial is the lowest maj or dial
division) . Connect t he refere nce signal to the I NPUT
connector and p us h t h e ΦL OC K pu s hbutton . The PH AS E
co ntrol varies t he phase of the output waveform ±80° with
res p ect to the reference signal waveform . The LEVEL
control ad ju sts the triggeri ng poi nt on the reference
wavefo rm .
Fig . 2-4. Swept frequency range with 10 V signal applied to
Proper adj ustment of t he LEVEL an d PH AS E co ntrols is
easier if t hey are adj uste d first i n the TR IG mode . Set t he
FREE RUN freque ncy of the FG 504 somewhat h ig her
than t he freque ncy of the refere nce sig nal ap plied to the
I NPU T co nn ector, and t hen select t he TRIG mode. Adjust
the LEVEL co ntrol for stable triggeri ng a n d (if viewing on
an oscilloscope) ad j ust the output frequency of the
FG 504 until it is n early the same as t he freq ue ncy of the
signal applie d to the I NPUT connector. Set the PH AS E
control at 12 o'clock (for 0° with sine wave selected) an d
press ΦLOC K . R eadj ust the PH AS E control, if necessary,
to obtain α stable output at the desired ph ase. The PH AS E
co ntrol ra nge decreases above 4 MH z.
Α jumper allows the VC F I NPUT to function as α p hase
mod ulati ng i np ut when t he FG 504 is operated i n t he
REV ΜΑΥ 1981
VCF
IN co nnector.
PH AS E LOC K mode . The ph ase modulati n g i nput voltage
limits are ±2.5 V, wit h an u pper frequency limit of 1 kH z .
Wh en ph ase locke d , the ph ase modulating voltage varies
t h e output phase by app roximately 5°/V.
Amplitude
Modulating In p ut
To amplitude modulate the output waveform, connect
the mo dulating signal to th e AM I NPU T co nn ector. Pus h
t he SI NEWAVE push butto n and set the FREQUENCY H z
dial for th e d esired carrier frequency . R efer to the
Am plitu d e Modulating In put s pecification for more i nformation about t his mode of operatio n.
En glis h 2- 7
Oper ating Instructions- F G 504 (SN Β040000 & UP)
Select t he time for one complete sweep wit h t h e
WEEP
D UR ATIO N control . U se t h e V A R k nob to obtain
S
swee p times between ste ps . Set t h e FREQ UEN CY H z
(STA R T), STO P FRE Q, an d MUL TI PL I ER d ials for t h e
desired swept fre q ue n cies. Select eit h er α logarit h mic or
linear swee p rate by p us h ing or releasi n g t h e L OG/ L I N
SWP p us hb utton . R elease t he STO P FRE Q pus h button .
U se t h e FRE Q UEN CY VERN I ER control to set t h e STA R T
fre q ue n cy w h en sweepi n g from frequencies lower t h an
t h e "1" calibration figure on t h e dial . if atriggered sweep is
d esire d , p us h t h e T RIG S WP p us hb utto n an d connect t h e
trigger sig n al to t h e S WEEP T R IG I NPU T co nn ector .
A dj ust t h e LEVEL control so t h e sweep starts at t h e
desired level on t h e triggeri n g waveform . If free running
o p eratio n is d esired, release t h e T R IG S WP pus h button .
+1 .5 Υ
(mi n .)
swee p may be stopped and t h e output freq uency h eld
at any time by pus h i n g t h e STO P FREQ pus h button . T h e
li n ear sweep voltage is available at t h e S WEEP OU T PU T
con n ector .
T he
Internal Sweep Operation
--------
E xternal Input Signals for Trigger,
L ock , an d Swee p Trig M odes
Gate, Ph ase
E xternal in p ut signals for t h ese modes must be at least
1 V ρ - ρ around t h e do voltage set by t h e LEVEL control
(+1 V to +10 V) . Wit h t h e LEVEL control at or n ear
mi n imum, t h e external signal must, at least, pass t h roug h
+0 .5 V and +1 .5 V. F or exam p le, an exter n al sig n al w h ose
amplitu d e is symmetrical about 0 V (suc h as α sine wave)
must be at least 3 V ρ - ρ (+1 .5 V to -1 .5 V) . Typical i n put
signals are as s h own i n F igure 2-5 .
LEVEL
+1VtO+10V
+0 .5 V
OV
+1 .S V (min .) ~ - - ___-____ LEVEL
+1V (mi n .)
OV
+10V
(+1.5 V
min .)
_ LEVEL
+1V to +10V
OV
2028-38
2-5. Trigger Signal am plitude requi rements a nd triggeri ng
points.
F ig .
Fig. 2-7. BASIC FUNCTIO NS. Squ are, tria n gle,
waveforms selected by front panel pushbutton s .
and sine
TR IG OUTPU T'
aveform
W
Tria n gle
aveform*
W
Si newave
Squarewave*
the
'Duty cycle of the TRIG OUTPUT wavefo rm follows
2028-39
d uty cycle of the OUTPUT waveform.
ntrol.
*Also ram p s or p ulses u si ng the SY MMETRY co
F ig . 2-6. Ph ase relationshi ps
the T RIG O U T wavefo r m .
E nglis h 2- 8
betwee n
O UTPU T waveforms and
Fig. 2-8. RAMP S AND PULSES. These ar e obtained
b asic waveforms by usi ng th e SY MMET RY co nt rol .
f rom
the
REV ΜΑΥ 1981
O p erating Instructio ns- F G 504 (S N Β 040000 & UP)
Fig. 2-9 . VAR IA BLE R ISE AN D F A LL TI ME S. By varyi n g t h e rise
a nd fall times i n t h e square wave mode various pulse s ha p es are
formed.
F ig . 2-11 . L OGA R IT HM IC SWEEP. U se t h e same set up as i n F ig .
Fig. 2-10 . LI NEAR SWEEP . Select t he start a nd sto p f re q ue n cies
a n d t he inter n al li near ram p for α swe pt outp u t f ro m t he start to
sto p f r eque ncies i n t he selected time .
Fig. 2-12. N A RR O W B A N D SWEEP . T h e top trace sh ows t h e
tria n gle wavefo r m swe pt by α li n ear r amp. T h e sta r t fre q ue n cy is
9 .52 kH z a n d t h e stop fre que n cy is 10 .52 kH z. T his fu n ction is
useful for narrow ba n d sweep testing . T h e bottom t r ace is t h e
sweepi ng ramp.
REV ΜΑΥ 1981
2-10. Select t h e logarit hmic r am p. T h e fre q uency is swe pt at α
logarit h mic rate . Th e logarith mic ram p voltage is not exte rn ally
available .
En glis h 2- 9
O p erating
Instr uctions- F G 504 (S N Β040000 & UP)
Fig. 2-13. GAT E D O PER ATIO N . Th e top t hr ee traces are va rious
out p ut wavef orms a n d t h e bottom trace is t h e gati n g wavef or m
applie d to t h e t rigge r INPU T conn ector wit h t h e GAT E
pus hbutton p ressed in . N ote t he additional cycle complete d after
t he waveforms are gated o ff .
F ig . 2-15 . PH AS E CO N T R O L O PERATIO N . Th is ph otog r a ph
illust rates PH AS E cont r ol usage i n t he triggered mode . T he five
su p er-i mposed t races illustrate t h e ef f ect of t h e phase cont rol .
T h is cont rol provi d es a pp roximately ±80° of s h ift . The bottom
trace is t h e triggeri n g waveform .
Fig. 2-14. T R IGG ERE D O PER ATIO N . Th e top three t races are t he
va r ious outp ut t r aces selected . T h e bottom trace is t h e triggeri ng
wavef o r m a p plied to t he trigger INPU T co n nector with t he T R IG
mo de selected . N ote t h at only o n e cycle of t he out p ut wavefo r ms
Fig . 2-16 . PH AS E LOC KE D L OO P. T h e botto m t race is t h e sig n al
a p plied to t h e I NPU T co nn ector i n t h e Φ LOC K mode of
operatio n. T h e midd le trace is t h e output ph ase lock ed to t h e
i npu t signal . The top traces s h ow t he effect of t h e PHAS E co nt rol .
is com pleted .
E nglis h
2- 1 0
REV ΜΑΥ 1981
O p erati ng I n st ructions- F G 504 (S N Β 040000 & UP)
~ Ι !il,~~ ilj λιιι
~ Ϊι l Ι
~
Ι 1~ ΊΊΊΊΙ
!ι
Fig . 2-17. A MPLIT U D E M OD UL ATIO N . Th e top t r ace sh ows t h e
100ο/ο modulate d e nvelope a nd t he bottom t r ace t h e mo d ulati n g
sig n al . ±2.5 volts modulates t he out p ut 100ο/ο . (5 V Ρ- Ρ cen tered
arou nd 0 V) .
Fig. 2-19. LO W FREQ UENCY H O LD . T he out put of th e FG 504 in
t h e lowest five MUL TI PL I ER setti n gs can be h el d at any level by
pu s h i n g t he H O L D butto n . T he step s on t h is time ex posure were
obtained i n t his man ne r.
NEEMEMmi,
mmli
MENEEME
..~,.*..-~... .ν.~~
2028-18
Fig. 2-18 . SUPPRESSED CA RR I ER MOD ULATIO N. Thetop trace
shows α d ouble sideband su pp ressed ca rr ier m od ulation
envelo pe while the bottom
trace displays the modulating
waveform . Th e u pper p ea k of t he mod u lati ng waveform is at 0 V
and t h e bottom pea k is at -10 V. T he overall level ο 1 t h e
mo d ulati n g waveform must be ca r ef u lly adj usted for t ru e
su ppr esse d ca rr ie r op er atio n.
REV ΜΑΥ 1981
2-20 . DELAY ED OPERATIO N. Α wi de r ange of d elay times
a re availa ble by using the internal sweep ge nerator as α delay
ge nerator . The i ddle traceis the underlaye d i nput signal app lied
Fig .
m
1 ο t h e SWEEP TR IG I NPU T . T h e b ottom t race is at t h e LI N S WP
OU T con nector . Th is ram p is ap p lied to t he exte rn al trigger
I NPU T co nnector. Th e top t race is t h e delayed ou t p ut pulse. Th e
a m ount of d elay is pr opo rtio n al to t he swee p d u ratio n and t h e
setti ng of t h e TR IG LEVEL co nt rol . Be sure wh e n usi n g th e swee p
as α delay generator to set t he STO P FRE Q dial fully εεω .
En glis h 2- 1 1
Operating I nstructio ns- FG 504 (S N Β040000 & UP)
Tone
B urst Testing
T he FG 504, with an external p ulse generator, may be
use d for tone b urst testing. Connect t h e output of α
TEK T R ONIX PG 501 (or equivalent) pulse generato r to
the trigger I NPUT connector. Select the GATE mo d e of
operation. Set t he external pulse generator for the desire d
pulse d uration an d repetitio n rates. Now select the d esired
sweep time for t he FG 504. Select t he start an d stop
freq uencies. The out p ut of th e FG 504 will ηοω be α series
of to n e bursts as show n i n Figure 2-21 .
Fig. 2-22 . Linear sweep showing skewed spacing of filter output
fre q ue n cies .
Fig . 2-21 . TONE BURST TESTI NG. The lower trace is the li near
ramp fr om the LI N S WEEP OUTPUT terminal .
F ilter Testing
T he swept frequency capabilities of t he FG 504 ma k e it
q uite suitable for sweep testing filters. Wh en using t he
FG 504 in t his ap plication , it is best to use t he LOG SWP
Mod e. Figures 2-22 a n d 2-23 illustrate the adva n tages of
using logarit hmic sweeps .
En glis h 2- 1 2
Fig . 2-23. L oga rit hmic sweep s howing even s pacings of filter
output f requencies .
REV ΜΑΥ 1981
O perating Instructio ns- FG 504 (S N Β040000 & UP)
Pulse S haping
The external triggering feature of the F G 504a d a ptsfor
pulse s ha p ing. Connect the pulse to be sha p e d to th e
trigger I NPUT co nn ector a n d place the FG 504 in the
square-wave mo d e. Th e triggeri ng level may be selected
with t he TRIG LEVEL control . The rise an d fall times,
levels, an d symmetry of the clean out p ut p ulse may be
c h a n ged as desired . F igure 2-24 illustrates this application .
REPAC KAGI N G
F O R S HI PMEN T
If t he Te ktronix instrument is to be s hi p ped to α
Te ktronix Service Center for service or re p air, attac h α tag
s howi ng: owner (wit h a dd ress) an d t he name of an
in d ivi d ual at your firm t hat can be contacted. Inclu d e
complete instrument serial number an d α d escription of
t h e service re q uired.
Save and re-use the package in w hic h your instrume nt
was sh i pp ed . If the original packagi ng is unfit for use or
n ot available, re pac kage the instrument as follows:
Surrou nd t he instrume nt wit h polyet hyle ne sheeti n g to
protect the fi n is h of th e instru ment . O btain α carton of
corrugated card boar d of the correct carton stre n gt h
and h avi n g inside dimensions of ηο less than si χ inches
more than t he instrument d imensions. Cushio n t he
instrument by tightly p ac king t hree inches of dun nage
or uret h a n efoam betwee n carto n an d instrument, on all
si d es . Seal carton wit h s h ipping tape or in d ustrial
stap ler.
Fig . 2-24. PULSE SHAPING CA PABI LITIES . Th e lowe r t race is
the triggering signal .
REV ΜΑΥ 1981
The carton test strength for your instrume nt is 200
poun d s.
En glis h 2- 1 3
Section 3-FG 504 (SN Β040000 & UP)
T HE O R Y
OF
Introduction
T he following is α description of the electrical circuits
in the FG 504. Refer to the block diagram and the
schematic diagrams on the foldout p ages at the back of
the manual to aid in the understanding of this description .
Triangle Generator or
Main Loop (Diagram 1)
T his circuitry consists of α d iode bri d ge, timing
capacitors, positive and n egative current sources, and the
semiconductor switches n ecessary to generate the b asic
triangle waveform .
The current sources are controlled b y the FREQUENCY Hz (START) and STOP controls, as well as the
sweep, when operating in t he swept frequency mode .
The calibration voltage for the FREQUENCY Hz
(START) d ial is supp lie d via operational amplifier U513 and
potentiometer R 145. On the h ighest MULTIPLIER setting
(106), R 128 is switched i nto the circuit to im p rove the
linearity of the FREQUENCY Hz (START) d ial . This
frequency control voltage is fed i nto operational amplifier
U 30A . When the FG 504 operates in the swept frequency
mode, the sweep ramp isfed to operational amplifier U 25B
t hrough STOP FREQ control R5 an d b uffer U 5A . This
control sets the maximum ramp voltage ap plied to the
in p ut of U 25B. Thisaction setsthemaximum or upperlimit
in the swept frequency mode . The voltage controlled
frequency input voltage, phase lock loop correction
voltage, an d t he sweep ram p voltage, through t he STOP
FREQ d ial, are summed at p in 6 of U 25B. Operational
amplifier U 30B serves as α level shifter. These voltages
and the voltage from the FREQUENCY Hz (START) d ial
are summed at p ins 3 of U 45 and U 155. The voltage at pins
3 of U 45 and U155 increases for α d ecrease in frequency
and decreases for an increase in frequency. The output
from U 155 is fed to the base of Q165 . The output from U 45
controls positive current source transistor Q55.
The SYMMETRY control adjusts the current balance
between the positive and negative current sources. The
collector of Q165 connects to the base of Q175 . Α current
mirror is formed by transistors Q170A, Β, and Q175. The
matched p air of transistors, 0170 Α a nd Β, h ave equal
emitter-to-base voltages . Therefore, their collector currents are equal . This ensures that the collector current of
0165 exactly matches the collector current of Q175.
O PER ATIO N
To un d erstand the operation of the triangle generator
loop, assume that switch driver Q100 is conducting an d
090 is off. Current flows from the negative current source
through C R180 . Diodes CR182 and CR184 are backbiased with no current flowing. No current flows through
C R190 . Current from the p ositive current source flows
through d iodes CR188 an d C R186, charging the timing
capacitors . In the slowest five MULTIPLIER switch settings, α ca p acitance multiplier re p laces the timing
ca p acitors; switches S240-3 and 9 close and S240-16
opens. This capacitance multi p lier consists of U 215,
Q230, Q225 and their associated resistors and capacitors .
With switches S240-5, 6, and 7 closed, the p ositive timing
current d ivides . M ost of the current flows through R202,
and t he remaining current flows through R200, R 204, and
C210 . One-tenth of the current flows through R200 and
R204 to charge C210 because the combine d resistance of
R200 and R204 is ten times the resistance of R202. This has
the effect of multiplying the value of C210 b y α factor of
ten. The multiplying factor is increase d as a d ditional
resistances are added in series with C210. For this
d iscussion, the voltage at pin 3 of U 215 ramps up. The
voltage between pins 2 and 3 of U 215 remains at zero and
the action of U 215, Q225, an d Q230 causes the current
through R202 to remain constant .
The positive-going ramp is applied to the gate of fet
Q255A . The other h alf of the fet buffer, Q255B, supplies
constant current to Q255A. The ram p at the source of
Q255A drives α set of two complementary Darlington
am p lifiers . Transistors Q270 and Q280 compose one set;
Q285 and Q295 the other. The ramp output is taken from
the emitters of Q280 and Q295 .
The ramp is also fed to the base of Q310to the n egative
input of comparator amplifier U 375 through R322, and to
the positive input of U 375 through R336 . The waveform at
the emitter of Q310 serves to compensate the drive
currents for h igh freq uency com ponents at the inputs of
U 375.
W ith t he ramp rising in the positive d irection, the
voltage at pin 3 of U 375 is about 0.4 V more positive than
the voltage at p in 9. This makes U 375 inoperative . As the
ramp rises in the positive direction, p in 6 of U 375 goes
positive an d pin 7 n egative. Pin 7 of U 375 connects to the
base of switching transistor Q65 and pin 6 connectstothe
base of Q80. As the ramp continues in t he positive
direction, Q80 decreases conduction and Q65 increases
T heory of Operatio n-FG 504 (S N Β040000 & UP)
co nductio n until the p air switch es . Pi n 3 of U375 now goes
from about -2 .8 V to about -3 .2 V and pin 9 goes to about
-2 .8 V . This action d isables the lower pai r of transistors i n
U375 an d e nables t he upp er p air. Wh en Q80 ceases
co nduction, Q90 comes i nto conductio n an d Q100 ceases
co n dution . Curre nt now flows throug h Q90, diode C R190,
an d t he p ositive curre nt source, Q55. B ridge diodes
CR 188 and CR 186 are back-biase d. No current flows
throug h C R180 as Q100 is off. Current from t h e negative
current source now flows t hroug h d iodes C R182 an d
C R184. This action c harges th e timi ng ca pacitors i n t he
n egative direction, causi ng α negative-going ramp at the
output. As the ramp goes n egative, th e o ut put of U 375 at
p i n 14 gradually goes p ositive. Pi n 13 of U 375 gra d ually
goes negative . Wh en the ramp reac hes α voltage sufficiently negative, Q65 turns off, Q80 comes i nto co nduction, t he p ositive current source is co nn ecte d to t he timi ng
ca pacitors, and the p reviously described cycle repeats.
The bases of emitter followers Q410 and Q395 are
co nn ected to t he non-inverting outputs of U 375. The
outputs from these emitter followers d rive the bases of
common emitter amplifiers Q415 an d Q406, whic h
gene rate the TR IG O U T and sy nc hro nizing signals.
T h e current switch determi nes whic h current so urce is
co n nected to the integrati ng capacitors . Transistors
Q495, Q500, and Q510 form α clip ping and speed-up
circuit for the sq uare wave comi ng from the M ai n Loop.
Wh en the square-wave driving this circuitry is n egative
with respect to grou nd , 0570 is conducti ng . Cu rrent fr om
t h e n egative current sou rce passes throug h C R566, Q570,
and VR 570 to the +15 V sup p ly. Diodes CR562 and CR564
are back-biased, preventi ng curre nt flow to the i ntegrating
capacitors . Transistor Q550 is off, causi ng current from
t h e positive co nstant current source to p ass throug h
dio des CR558 a n d C R560. T his curre nt c harges the
i ntegrati ng ca pacitor, causing the gate of fet Q600to move
at α co ntrolled rate i n t he p ositive d irection . In the FIX ED
position of t he R IS E an d FALLTI ME switch, t h e current
switch and the i ntegrati ng ca pacitors are bypasse d
t hroug h switch S590-7 . Fet Q600 serves as α fet follower
wit h 0610 su pp lying consta nt current. the source of Q600
drives the base of Q615, whic h forms α differential pair
with Q620 . Clip ping ta kes place i n t his differential circuitry . Α differentially driven amplifier, Q640, restores to
t he out put signal t he amplitu de lost i n t he clipp i ng
process .
S q uare Wave Generator
Sine Shaper,
(Diagram 3)
Switch ing transistor 065 ge n erates t he square wave.
Wh en t h e ramp is rising in the p ositive directio n, t he
collector of Q65 is i n its most negative state. T h is signal is
passed to the base of 0450 . Th e emitter of Q450 d rives t he
base of Q456 . The emitter of Q456 d rives Q462 and Q470.
Wh en 0456 is co n ducti ng, Q462 is off; Q470 is co nducti ng
wit h C R470 bac k-biased. Current flows throug h C R462
and the square wave moves i n t he p ositive d irectio n . Wh en
the switch ing waveform ch anges state, Q462 comes into
co ndution, bac k-biasi n g CR462. Th e square wave now
moves i n t he n egative d irection by current t hr ough CR470
as Q470 is not co nducting .
Variable R ise and
Fall Circuitry (Diagram 2)
T his circuitry consists of variable positive and n egative
sources, α current switch with i ntegrati ng capacitors, and
an output buffer . Transistor Q540 serves as the positive
current source while Q580 serves as the n egative c urre n t
source . The rise and fall times are changed by varyi ng the
current throug h t he constant curre nt sources and by
changi ng the values of t he integrating capacitors.
The current available to c harge the i ntegrati ng
ca pacitors, C592 th roug h C598, is varied by switchi ng
R 536, R 538, R 584, and R586 i nto the emitter circuit of
0540 an d Q580 as n ecessary. The cu rrent is also varied by
the V AR control throug h U530 and Q530 . Wh en t he VAR
co ntrol is i n t he calibrated position, t he wiper is at the
grou n de d end of the co ntrol . Th is action i ncreases the
current throug h t h e emitter resistances of the current
source transistors. An increase in c harging currentforthe
integratin g capacitors re d uces th e rise an d falltimes of the
waveforms .
3-2
B uffer, and Mo d ulati ng Ci rcuitry
Th is circ u itry generates t he sine wave from t he basic
triangle waveform by means of α four ste p a pp roximation .
The sine wave is also amplitude modulate d, if desire d, by
t his circuitry and buffered for d elivery to the out put
am plifier .
The si ne s h aper co nsists of four diode bri dges, CR745CR748, CR750-CR753, CR755-CR758, and C R762-C R765.
These bridges are co nn ecte d betwee n t he +15 V and
-15 V sup plies . Th e voltages from the common anodes
a n d cat hodes of eac h b ridge are equal i n value. Th e
resista nce values for each bridge are, h owever, different
from t he ot her bri dges. This ca u ses e q ual positive and
n egative brea k points for an i nd ivid ual bridge, but
d ifferent amplitude voltage brea k poi nts for the d iffere nt
bridges. As the trian gle voltage rises to +1 V, it
progressively exceeds the brea k poi nt of eac h b ri d ge . The
non-linear characteristics of the diodes p revent shar p
transitions at the b rea k poi nts . The op p osite action occurs
as t he i n p ut tria ngle d rives to -1 V . The output currents
from th e bri dges are summed at the input to U 770, a n d the
result is α close ap proximatio n of α p ure si ne wave .
Th e outp ut from the sine s haper is fed into U 770, α
tra n sco n ducta n ce multi p lier . This multi plier is used to
amplitude mod ulate th e si ne wave . Th e output from t h e
multi p lier is ta ken at p i ns 8 a nd 9; th e amplitude
modulating sig n al in p uts at pi n 12. Gain adjustme nt R855
sets t h e si ne wave gai n for U 770, an d R 870 sh ifts d o levels
sot hat t h e sine wave is modulated eq ually i n both positive
and n egative directio ns. Centeri n g of t he si ne wave wit h
respect to grou nd is accomplished wit h offset a djustme nt
T h eory of Operatio n-FG 504 (S N Β040000 & UP)
R790. The differential output from the m ultiplier is app lied
to the i np ut transistors Q825 an d 0805 of t he output buffer
amplifier. This output amplifier p rovi d es gain as well as
differential to si ngle-en ded out p ut co nversion. This is an
ope r atio nal am plifier . The collector of Q825 directly drives
the b ase of out p ut emitter follower Q830. The collector of
Q805, with level sh ifti ng, d rives the base of Q840 . Th is
transistor provides phase inversion. Its collector drivest he
base of emitter follower outp ut transistor Q835 . Fee d bac k
ta kes place t hro ug h R822. The single-e nded output goes
to the fu n ction switch.
Amplitude
M o dulating
Input Circuitry
The am plitu de modulating sig nal is applied toth einput
of operational am p lifier U 710. The out p ut at pin 6 d rives
the transcond uctance multiplier and t he base of Q720 .
This transistor d rives the AM in dicator lam p . Wit h no
modulating sign al, the voltage at the output of U 710 is
about +15 V. The ind icator lamp lig hts when t he voltage is
about +10 V an d 100% modulation occurs when t he
voltage r eac hes about +5 V.
Output Amplifier (Diagram 4)
This circuitry is an inverti ng operational amplifier. The
i n p ut stage, d rive n by emitter followers Q906 and Q914,
co nsists of pairs of differe ntial am plifiers Q930 and Q940
com plemented by Q1030 and Q1040. The co nfiguration is
such t hat for α positive-going input waveform, t h e collectors of Q930 and Q1030 both move in α n egative directio n.
U nder the same co nditions, th e collectors of Q940 an d
Q1040 both move in α positive direction. These pairs
differentially drive transistor pairs Q950, Q952, Q1050,
an d 01052 res p ectively . Voltage gain ta k es place i n t his
stage. The outp ut from pair 0950 an d Q952 is ta ken at the
collector of Q952, a n d for pair Q1050 and Q1052 at the
collector of Q1052. For α n egative-going inp ut signal, the
above me ntioned collectors bot h move in α p ositive
directio n . Com po nents R950, C950, C1050, R1050, C965
an d R965 provide h ig h freque ncy compensation and
R1015 ad ju sts t he d o bala n ce for t he entire amplifier.
T h e collector of Q952 drives the base of out p ut emitter
followers Q970 and Q980 wh ile Q1052 drives Q1070 and
Q1080. Th e feedback pat h is th roug h R 1090 a nd C1090 to
the bases of Q930 and Q1030.
Output Attenuator
The signal from the output amplifier is fedtot heoutput
atte nuator circuitry. The variable am plitu de control
(R1 100A an d Β), wit h resistors R 1102 an d R 1104, form α
b rid ged Τ atte nu ator with α maximum atte n uation of
a p proximately 20 dB . Thic k film atte nu ator chips R 1110,
R 1112, and R1114 p rovide α total of 50 d B of ad d itional
attenuation . These attenuators are com pensated resistive
divi ders.
Offset Circuitry
O utput offset is adju sted by R1130, th e OFF SET
control . Shoul d add itional positive offset be desire d , t he
OFF SET co ntrol is moved in the n egative direction . Th is
causes the output of U 1145 to move i n t he negative
direction. Throug h t he action of Q1150 and Q1170, the
bases of Q1160 an d Q1180 move i n α negative d irection.
This causes their common collector circ u it to move in α
positive d irection, i ncreasing current flowthroug h R1122 .
The do offset generate d by t h e increased current flow is
p assed to t h e OUTPUT terminal t hroug h R 1120 a nd
L1120 .
Gati ng and Triggeri ng Circuitry (Diagram 5)
In t his circuitry, U 1225 B o perates as an E CL li ne
receiver . Ι η t he FREE RUN mode, the set in put (pin 5) for D
flip flo p U 1215A is co n nected to +5 V t hroug h C R 1235 .
This p laces α h ig h on t he Q output at pin 2. This action
lowers the com bined collectors of Q1245 and Q1250 and
red uces conduction in Q1254, turni ng Q1262 off an d
Q1260 on . No current flows throug h diodes CR 1285 and
C R1286. The tria n gle ge nerator is now free to ru n . In t he
GATE mode of operatio n , th e set input of U 1215A is
connected to t h e output of U 1225B. Wh en t he i nput gate is
h ig h, the circuit functions as i n t he n ormal mode wit h
Q1262off and Q1260on, all owing the triangle generator to
run. Wh en t he i n p ut gate goes low, the n ext positive-going
pulse at p in 6 (clock ) from t he triangle ge nerator causes
t he Q terminal to go low . This action resets t hefli p flop for
t h e n ext trigger. H owever, Q1262 does not conduct u ntil
t he sy nc pulse at t he base of Q1245 goes low at t h e peak of
t he triangle ramp. This action allows completion of t he last
cycle. Wit h Q1262 on, the tria n gle ge nerator is preve nted
from operati ng throug h C R1286 . In t h e triggere d mode,
the out put of the trigger shaper is connected to the cloc k
in put of U 1215A . The triggering signal causes the cloc k
termi nal to go h ig h. This transfers t he level at the D i n put
to the Q input. If the Q output is h ig h (Q low), t h e tria ngle
ge n erator ru ns until α p ositive-going sync hro nizi ng
sig nal, whic h occurs at t he start of the up ramp, forcesthe
Q output low. At the start of t he down ram p, the
sync hro n izin g sig n al goes low, whic h causes Q1262 to
co nd uct and t urns Q1260 off. T he triangle now ramps
down until CR1286 comes into co nductio n. This poi nt is
d etermine d by t h e settin g of the ph ase control, w h ic h
determines the voltage at t h e o utput of U 25A and at the
cathode of CR1285 . The n ext positive-goi ng trigger from
U 1225 B ca u ses p i n 9 of U 1215A to go p ositive. Th is
transferst h e hig h on the D in put tot h e Q outp ut, allowi ng
the tria ngle ge nerator to begin th e next cycle.
Ph ase
L oc ked Loop Circuitry
This circ uitry provides α d o outp ut voltage proportio n al
to t he difference in freq uency betwee n an exter n al
triggering signal and α sy nchro nizi ng signal from the
voltage-controlled oscillator .
Th eory of Operatio n-FG 504 (S N Β040000 & UP)
Th etrigger in put signal isfed i nto i nverter U 1225 B. This
integrated circuit is an EC L line receiver . ltisco nn ectedto
operate as α Sc hmitt trigger for trigger shapi ng p ur p oses .
The i nverted output is fed to th e in p ut of one of two Dtype
flip flops ( U 1295 B). The C input of the ot her D fli p flo p
( U 1295A) is con necte d to t he sy nc signal from the
oscillator . B ot h D in p uts are always hig h. They are
connecte d to +5 V t hroug h C R1312 . On t he positivegoing transition of either, t he sy nc sig nal for U 1295A or
the triggering signal for U 1295 B, the h ig hs οη t he D inputs
are transferred to t h e Q outputs. The Q outpu ts co nnect to
the inp ut of U 1225A, whic h is also an E C L li ne receiver .
The lows on t he Q termi nals create α h ig h on p i n 3 of
U 1225A, whic h is co nnected to the reset i np ut of b ot h fli p
flo p s. This action resets both fli p flops. They are now
ready to re peat th e previously described cycle.
Th e Q out p uts are conn ecte d t h roug h α low pass filter
composed of R1324, R 1320, and C1322 to the in put of
U 1340. If the fre q ue ncy of the sync hro nizing signal is
hig her t han the triggeri n g sign al, the resulti n g current
difference at the i np ut of U 1340 causes t he output of
U 1340 to go negative . This action is reverse d (+ i nput
terminal p ositive) if t he freq uency of t h e triggeri ng signal
is lower than t he sync signal . The phase co ntrol sets t he
voltage at the i n put of U 1340 so t hat wide differences i n
freq uency are within the capture range of t he circuitry.
The voltage at the out p ut of U 1340 adj usts t he freque n cy
of the voltage controlled oscillator to the triggeri ng
freq ue ncy . This voltage swings between ±12 V.
Swee p Circuitry (Diagram 6)
pi n 2, du ri ng the swee p fall, CR 1470 turns οη . Th is closes
the p ositive feedback loop for U 1470 a nd the output
switches imme d iately to about -13 V. If the sweep is
ru nn i ng i n t he triggere d mo de, t his n egative transition is
differentiated by C1394, wh ic h resets the Sc hmitt trigger
circuit composed of Q1400 an d Q1410. The cycle t hen
re p eats at th e next trigger pulse. 1 η thefree ru nn i ng mod e,
wh en pin 6 of U 1470 goes n egative, Q1430 is turned off
an d t he free ru nn ing cycle re peats.
L ogarit hmic Converter
In t h e bi p olar transistor, th e relations hi p between t he
collector current and t he emitter-to-base voltage is
p recisely logarithmic over α wi d e current ra nge.
The li n ear ramp is fed to pi n 2 of U 1480 t hroug h
tem perature compensati ng resistor RT1456. Operational
am p lifier U 1480 is used as an atte nuator (gai n is co nsiderably less than one) and as an inve rter. Resistor
R T1456 decreases i n value with i n creasi n gtemperature to
compensate for the decreasi ng gai n with temperature of
U 1495A. Transistors U 1495A an d Β are on α common
substrate so that their base-to-emitter voltages remain
co n stant with tem perature, assumi n g eq ual collector
currents. The operatio n of this circuit can be easily
understood if it is ass ume d pin 3 of U 1490 is grou nd rat her
t h an returned to th e out put of U 1480 . P in 3 of U 1490 is
actually co nn ected to the output of U 1480 to improve the
temperature characteristics of the circuit with out introd uci ng sig nificant error in t he linear to logarit hmic
co nversion.
The swee p trigge r is ap plie d to pin 13 of U 1225C. The
TRIG LEVEL co ntrol adj usts t he d o level at p in 13 of
U 1225C, an E CL li ne receiver . P rotective diodes CR 1370
a n d CR 1372 are also connected to pin 13 . Wh en the
voltage at p i n 13 reac hes about +3 .5 V, pin 15 goes from
about +3 .5 V to about +4.0 V. This positive-going step is
d iffere ntiate d t hroug h C1392 to the base of Q1400. (T he
MAN TR IG button also creates α p ositive ste p at t h e base
of Q1400.) Transistors Q1400 a nd Q1410 com pose α
Sc h mitt trigger. The base of Q1400 goes positive, ca using
th e base of Q1410 to go negative . Wh e n o perati ng i n t he
TRIG SWEEP mode, the collector of Q1410 rises, tur ning
Q1420 off. Th is action turns fet Q1430 off, allowi ng the
i ntegrator formed by U 1445, Q1450, an d t heir associated
components to ram p up . The slope of t he positive-going
ram p is determined b y th e setti n g of t he VAR co ntrol, t he
resistance i n series with its wi per, and the value of t he
capacitor connected from pin 2 to the emitter of Q1450.
Power
As the ramp rises, the voltage at pin 3 of U 1470 also
rises . Wh en t his voltage reac hes the voltage at p i n 2 of
U 1470, the output immediately switches p ositive. The
positive ste p at the out p ut of U 1470 turns fet Q1430 on,
disc hargi ng the timi ng capacito rs an d returning t he sweep
to t he starti ng level . Wh e n pi n 3 of U 1470 goes lower t han
There are five regulated power su pp lies : +5 V, +15 V,
-15 V, +25 V, a nd -25 V. Th e -15 V, +25 V, and -25 V
su p plies refere nce to t he +15 V sup ply . The +5 V su pp ly
obtains its unregulated voltagefrom the +11 .5 V ac supply
i n t he p ower mo d ule. The +5 V supply is series regulate d
by U 1690 whic h co ntai ns its own internal refere nce and
provides short circuit current limiting at approximately
750 m A.
3-4
As the ram p voltage at the base of U 1495A changes
linearly, t he emitter voltage of U 1495A cha n ges t hroug h
t he action of U 1490to mai ntai n α consta nt currentt hroug h
R1496. The li near emitter voltage change of U 1495 Α drives
t h e emitter of U 1495 B, causi ng the current drive for U 1500
to become logarithmic. This logarit hmic current is co nverted to α voltage change by U 1500 and fe d t hroug h t he
L OG L I N SWP switc h to the freq uency co ntrol circuitry.
The out p ut ram p c h anges from 0 V to 10 V. When
o perati ng i n t he STO P FREQ mo de, the sweep outp ut line
co nn ects to 10 V provi d ed by U 1495D a n d C o p erating as a
simple voltage divider. Th is p rovides α fixe d voltage to the
sto p freq ue ncy p otentiometer and only the sto p freque ncy
is outputte d.
Su pplies
Theory of Operation- FG 504 (S N Β040000 & UP)
+15 V Su pply. T h e +15 V supply is series regulated an d
r eference d to α 6.2 V ze ner co n nected i n t he emitter of
Q1610. Potentiometer R 1605 adj usts t he +15 V o utput .
R esistor R 1602 p rovides α voltage correction feed bac k
pat h . Shoul d t h e load on the +15 V supply i ncrease, t he
voltage at the base of Q1610will drop slig htly. This ca uses
t he base of Q1620 to go slig htly positive, reduci ng
co nductio n . The base of Q1622 now goes slig htly
n egative, t hus i ncreasi ng co nd uction in th e series p ass
tran sistor located in t he p ower module. This su pp lies
more current for the +15 V Ιoa d andrestores !h evoltage to
the p reset level. Th e p ower module su pplies +33.5 V do
throug h rear interface co ntacts 12 Α and 12 Β for the
operatio n of this supply . The 0.75 Ω resistor in th e emitter
circ u it of t he series pass transistor is for sensing an
overload cu rre nt. Wh en enoug h current flows t hroug h t his
resistor to turn on Q1621, base drive to t he series pass
transistor is reduced. This sets an up per limit to the
amou nt of current that can be d rawn from this su pply . If
the +15 V su pply is raise d beyon d abo ut +19.5 V, for any
reason, an scr crowbar circuit on th e floati ng interface
boar d s h uts d ow n all supplies exce pt the +5 V .
+25 V Supply. T he two 25 V ac windings and t he 17 .5 V
ac wi ndi ng are each co nn ected to full wave b ri dge
rectifiers . The rectifier out pu ts are connecte d in series to
provide app roximately plus an d mi nus 40 V . This d o
outp ut powers t he +25 V a nd -25 V series regulator
circuitry . Transistors Q1640 and Q1642 ma ke up the
d iffere ntial am plifier for the +25 V supp ly. The +15 V
reference is a p plied to th e base of Q1640. Th e +25 V
feedback for voltage se n si n g is connected t hr ough R1644
to the base of Q1642. Th e series pass transistor is d rive n
by Q1642 throug h Q1650 and Q1660. The current limit
sensing resistor is R 1663 . Wh en t he voltage across th is
resistor is h ig h en oug h to turn on Q1652, base drive toth e
series p ass transistor is reduce d an d current limiting
occurs . If th e output voltage drops app roximately 27 V
below th e raw su pp ly, VR 1652 turn s οη Q1652, limiting the
current. Th is is α foldback overload safety action. If the
supply output voltage moves i n α positive d irection, th e
crowbar circuit Q1677, activates at +31 .5 V disabli ng all
p ositive su pp lies except the +5 V.
-25 V Su pply . Transistors Q1742 and Q1740 form α
d iffere ntial am p lifier for t he -25 V su p ply . The -25 V is
sensed t hroug h R1744 and refere nced to the +15 V supply
-15 V Su p ply. T h e -15 V supply is refere nce d to the
+15 V su pp ly . Transistors Q1710 an d Q1715 form α
differential am p lifier for this series regulating su pp ly . Any
change of output voltage level, dueto α s h ift i n load, isfed
bac k to Q1710. Transistor Q1710 drives th e series p ass
tran sistor th roug h Q1720 and Q1722 so that t he su p ply
remains at -15 V over its range of cu rrent h an dling
capability. The current sensi ng resistor for this su pp ly is
R 1726 . Wh en the voltage across this resistor b ecomes
h ig h enoug h to turn on Q1721, base drive to th e series
pass tran sistor in the p ower mo d ule is re d uced and the
su p ply becomes current limite d . Shutdown of the su pp ly
d ue to overvoltage, occurs at -18.7 V. The power mo dule
su pp lies -33.5 V do t hroug h co ntacts 8Α and 8Β fo r t his
supply .
by R 1742 . The bases of thediffere ntial amplifier operateat
α zero voltage level. Chan ges i n t he output level are
amplifie d to d rive 01750 and Q1760 w hic h control th e
power module series p ass transistor . This provi des -25 V
s up p ly regulation. Current limiti ng is ac hieve d by t he
voltage dro p across R 1763 . As th e curr e nt i ncreases
beyond safe limits, Q1752 turns on, re d ucing d rive to t he
series p ass transistor . If th e output voltage rises to
approximately 27 V above the raw s up p ly, VR 1752 turns
on Q1752, limiti ng t he current. Th is provides fol d back
overload protection . Over voltage co nditions occu r at
a pproximately -31 .5 V when actuatio n of th e crowba r
circuit disables all negative su pp lies.
+5 V Supply . T he +5 V do is supplied from +11 .5 V do
from th e p ower module thro ug h reg u lator U 1690 . This
regulator also p rovides s hort circuit limit at app roximately
750 mA .
Section 4- FG 504 (S N Β040000 & UP)
CA L I BR ATIO N PR OC E D URE
PERF O RM A N C E
C HE C K
PR OC E D URE
Introduction
Calibratio n Inte rval
T he p erformance c h ec k p roce d ure chec ks t he electrical p erformance re qu irements listed i n t h e Specificatio n section i n t his manual . P erform the Adj ustment
p rocedure if t he i nstrument fails to meet these chec ks. If
recalibratio n d oes not correct t he d iscre p ancy, trou bleshooti ng is i nd icated . This p rocedure may be u sed to
d etermine acce ptability of performance i n an i ncomi ng
ins p ection facility .
To ensure instrume nt accuracy, chec k t h e calibratio n
every 2000 h ours of o peration or at α mi n imum of every six
mont hs if used i nfre q uently .
For co nvenience, ma n y steps i n t he p rocedure chec k
t he p erformance of this instrume nt at only onevalue in t he
specified performa nce ra n ge . P erformance re q uireme nts
for various temperature ranges are listed i n t h is proced ure . Wh e n performin g t he p roce d ure, u se o nlythe limits
listed for t h e ambient temperature that the instrume nt is
operati ng in.
Services Available
Te ktronix Inc. provides complete i n strument repair and
ad justment at local fiel d service centers and at the factory
service center . Co ntact your local Te ktronixfield officeor
re prese ntative for furt her informatio n.
Test
E qui pment R eq uired
T h e following test equi pment or equivalent is
suggested to p erform t h e P erformance C hec k and Adju stment Procedu re.
Table 4-1
TEST E QUI PMEN T RE QUIRE D
Description
P erformance
R e q ui rements
E xample
Ap plications
Fre qu ency Cou n ter
150 Hz to 40 MHz
Accuracy one p art i n 105
Fre qu ency measurements.
T EKTRO N IX DC 504'
Oscilloscope System
200 MHz ba nd pass (vertical)
1 mV/div at 60 Hz
5 mV/div to 5 V /div
W aves hape and
TEK TR ONIX
TEK TRONIX
TEK TRONIX
T EK TR ONIX
All tests
Com partments for th e
FG 504 (2) and ot h er
TM 500-Series eq ui p me n t
used in t his proce d ure.
TEK TRO N IX FG 502'
Power M odule
am plitu de measurements
7704
7Α16Αb
7Α13 6
7Β80"
Function Ge nerator
Triangle, Sine, and Square
wave output . 100 H z to 10 MH z;
10 V ρ- ρ into 50 Ω
Trigger sig nal an d
ph ase lock
Digital V oltmeter
R anges ±25 V dc
Accuracy ±1°/ο
Power su pply
measurements
P ower Su pply
0-10 V
Sweep ra nge
TEK TR ONIX PS 501-1 -
Distortion An alyzer
20 Hz to 40 kH z 10 MHz
Sine wave and
modulation d istortion
ch ec ks
HEWLETT PAC KAR D
M odel 334Α
REV Α A PR 1980
-
TE KTRO NIX DM 502'
Cali bration P roced ure-FG 504 (SN Β040000 & UP)
P erformance Chec k
Table 4-1 (cont)
Si ne wave h armonic
c hec k
1-40 MHz
Spectrum Analyzer
Example
Applications
P erforma nce Requi r ements
Descri ption
(Optio nal)
TEK TRONIX
M odel 71-12
T EKTRO N IX Ρ6106
Part No . 010-6106-01 .
10 Χ p robe
To matc h oscillosco p e
input.
1 Χ probes (2)
To matc h oscilloscope
i n put
TEK TRONIX Ρ6101
Part No. 010-6101-01 .
50 Ω Termination
Bn c co nn ectors
Te ktronix Part No .
011-0049-01 .
50 Ω Atte nu ator
10 Χ, b nc connectors
Te ktronix Part No .
011-0059-02.
Cable (3)
42", 50 Ω,
bnc co nnectors
Adapter
B nc female to b nc female
E xtender
Ca bles (2)
Ι
To matc h power module
and FG 504 connectors
α Req uires α TM 500-Series power mo dule .
υ R eq uires α TEKTRONIX 7000-Series Mai nframe.
Te ktronix Part No .
012-0057-01 .
Te ktronix Part No .
103-0028-00.
Ι
Ι
Te ktro nix Part No .
067-0645-02.
Pr elimina ry
Procedure
1 . En su re that t he correct n ominal li ne selector bloc k
has been installed on the line selector pins on the power
module i nterface boar d, an d t hat the regulati ng range
selected i ncl udes the applied li ne voltage. Refer to the
I nstallatio n sectio n of t he powe r module ma nu al .
2. En sure t h at all test equi pment is ada pted to t he
applie d li ne voltage.
3. I nstall the FG 504 i nto the power module and, if
applicable, i nstall -t he TM 500-Series test equ ipment i nto
the test equi pment power module .
4. Co nn ect the equi pment under test and t h e test
equ ipment to α suitable line voltage source . Turn on all
equi pme nt and allow at least an hour for the eq uipment to
stabilize.
PR OC E DURE
1 . Dial Alignment, Accuracy, Resol ution, and
Fre que ncy R ange
α. Set t h e F G 504 controls as follows :
H O LD/ RUN pushb utton
FRE Q UEN CY Hz
(STA RT) d ial
STOP d ial
MUL TI PL I ER
FREQUENCY VERN I ER
(V AR)
TRIGG ER-FREE RUN
pushb utton
LEVEL control
SWEEP p ushbuttons
Square-wave pus hbutton
O FFS ET co ntrol
PH AS E control
SWEEP D UR ATIO N
rotary switch
VARiable
R IS E and FALL TIME
switch
VARiable
ATTENUATOR (dB)
V ARiable
TRIG LEVEL
SY MMETRY
REV Α APR 1980
Out
40
40
106
Fu lly εω
Ιη
M idrange
Out
In
Pus hed in and
midrange
M i dra nge
O FF
F ully ccw
FIX ED
F ully ccw
0
F ully εω
Mi drange
P us hed in and midrange
Cali bration Procedur e- FG 504 (S N Β040000 & UP)
P erformance Check
b. Co nn ect t he O UTPU T co nn ector t hroug h α 50 Ω
coaxial cable and 50 Ω termination to t h e inp ut of α
frequency counter.
c. Chec k t hat the FG 504 output freq ue ncy as
measured by t h e counter is 40 MH z ±6 ο/ο.
d. Set the MULTI PLI ER switc h to 105 setting an d chec k
t hat the counter r eads 4 MHz ±3%.
e. Ch ec k thatthe FREQUENCY H zdial setti ng vsoutput
freque n cy is wit hin the specified accuracy at each of t he
remai n in g positions of t h e MULTI PL I ER switch (f3°/ο of
full sc ε.le, .001 Hz to 4 MH z; t6°/ο of full scale, 4 MHz to
40 M Hz).
f. Set the FREQUEN CY Hz dial to 20 and c h ec k t hatthe
output fre q ue ncy as indicated on the cou nter is wit hin the
sp e,-.ified accuracy on each range setti ng of the MULTI PL I ER switch.
g. Set the FREQUENCY Hz dial to 1 and chec k t hat the
output freq uency as i ndicate d on the counter is within the
specifie d accuracy on eac h ra nge setting of t he MULΤΙ PL I ER switch.
2. Stability
α. Set t h e
FG
H OL D/ RUN
504 co ntrols as follows:
p us h button
FRE QUENCY Hz
(STA RT) dial
STO P dial
MULTI PL I ER
FRE Q UENCY VERN I ER
(V AR)
T R IGG ER/ FREE RUN
pushbutton
LEVEL co ntrol
SWEEP pushbuttons
Waves hape pus h butto ns
OFF SET control
PH AS E co ntrol
SWEEP DUR ATIO N
switch
VARiable
R IS E and FALL TIME
switch
V ARia ble
Out
40
40
10 3
F ully cw
FREE RUN
M idrange
Out
In
In
M id range
Off
F ully cw
FIX ED
F ully cw
43
Calibratio n Procedure- FG 504 (S N Β040000 & UP)
P erforma nce Chec k
ATTENUATO R (dB)
V AR iable
TR IG LEVEL
SY MMETRY
O dB
F ully cw
Mi d range
Mi d ra nge
MULTI PL I ER
FREQUEN CY VERN I ER
(V AR)
T RIGG ER/FREE RUN
p us hbutton
LEVEL co ntrol
SWEEP p ushb utto ns
W aves hape pus hbuttons
OFF SET control
PH AS E co n trol
SWEEP D UR ATIO N
switch
V ARiable
R IS E a n d FALL TIME
switch
VARiable
ATTENUATO R (d B)
VARiable
TRIG LEVEL
SY MMETRY
b. Connect the FG 504 output throug h α 50 Ω coaxial
cable an d α 50 Ω termi natio n to t he in p ut of α frequency
counter. C hec k t h at the outp ut freq uency of the FG 504
does not vary more t ha n 0.05ο/ο in ten minutes an d n ot
more t han 0.1 ο/ο for one h our.
3. STO P FREQuency Dial Accuracy
α. Set the FG 504 co ntrols as follows:
Out
H OLD/ RUN pus hbutto n
FREQUEN CY Hz
(STA RT) d ial
20
40
STOP d ial
MULTI PL I ER
103
FREQUEN CY VERN I ER
(V AR)
Fully cw
T RIGG ER / FREE RUN
pus hbutton
FREE RUN
LEVEL control
M idrange
S WEEP pus h buttons
STOP FRE Q i n
Waves hape p us hbuttons
Sine W ave i n
O FFSET control
P us h ed in
PH AS E control
M idra nge
S WEEP D UR ATIO N
switch
lo s
V ARiable
Fully ccw
R IS E an d FA LL TIME
switch
FIX ED
V A Riable
Fully ccw
ATT ENUATOR (dB)
0
V AR iable
Fully εω
TRIG LEVEL
Mi d range
SY MMET RY
Pus hed i n and midrange
b. Co nn ect the FG 504 OUT PU T throug h α 50 Ω cable
and α 50 Ωtermination tothe inp ut of afre q ue ncycounter.
Chec k t hat t he output freque ncy of the FG 504iswit hin5%
of the d iffere nce between the start an d stop freq uencies
p lus t h e FRE QUENCY Hz (STA RT) dial error.
4. Maximum R anges for Swee p
M odes
Fre q ue ncy an d VCF
α. Set th e FG 504 co ntrols as follows:
H O LD/ RUN push button
FREQ UENCY Hz
(STA RT) d ial
STO P dial
4-4
RUN
40
40
106
Fu lly cw
FREE RUN
M i dra nge
Out
Sine W ave In
M idra nge
M i drange
Off
Fully ccw
FIX ED
Fully ccw
0 dB
Fully cw
Mi drange
M idrange
b. Connect the OU TPU T th roug h α 50 Ω coaxial cable
and α 50 Ω termi nation to t he inp ut of a frequency counter.
Verify that the out p ut frequency is over 40 MH z. Connect
the output of th e power su pply to t he VCF i nput an d apply
α negative voltage. Verify that the out p ut frequency goes
to less than 0.08 MH z before t he ap plied voltage reac h es
-9.9 V . Disconnect the power supply.
c. Set t he FREQUEN CY H z (STA RT) dial to the lowest
frequency e n d of the d ial. Set t he MULTI PL I ER to 10 5.
U si ng th e FRE Q UENCY VERN I ER, set t he outp ut freque ncy below 0.004 MH z. Set t he SWEEP DUR ATIO N to 10
seconds, press the STO P FREQ button in an d verify t h at
the output freq ue ncy is eq ual to or over 4.0 MHz.
ΝΟΤΕ
To verify the exact start and stop frequencies in the
swept frequency mode, it will be necessary to use α
spectrum analyzer.
5.
LI Near SWEEP O UTPU T Am plitu d e Accuracy
α. Set t he FG 504 co ntrols as follows :
H O LD/ RUN pus h button
FRE Q UENCY Hz
(STA RT) dial
STO P d ial
MULTI PL I ER
FREQ UENCY VERN IER
(VAR)
TR IGG ER / FREE RUN
pus hbutton
RUN
1 .0
40
10°
Fully cw
FREE RUN
REV ΜΑΥ 198 1
LEVEL control
SWEEP pus hb utto ns
Waves h a pe pus h butto n s
OFF SET cont rol
PH AS E co ntrol
SWEEP D UR ATIO N
h
switc
0
V ARiable
R IS E an d FALL TIME
switch
VARiable
ATTENUATO R (d B)
V ARiable
TRIG LEVEL
SY MMETRY
M i drange
FREE RUN
Sq uare wave
M idra nge
M i drange
.1 ms
Fu lly ccw
FIX ED
Fully ccw
O dB
Fully cw
Mi dra nge
M idra nge
b. Connect an unterminated coaxial cable from the L I N
S WEEP O U TPU T j ac k to the oscillosco pe vertical input.
V erify that t he output signal varies from 0 V to 10 V f5°/ο
from 100 seco nds to 1 ms and ±10ο/ο from 1 ms to 0.1 ms .
c. Press the TRIG SWP butto n i n. Chec k for one swee p
each time the MAN button is pressed. Connect α 100 Hz
si ne wave signal from t h e fu nctio n ge nerator to th e
SWEEP TR IG INPUT jac k an d adj ust the outp ut signal to
1 V ρ- p. V erify that the FG 504 swee p ge nerator ca n be
triggered on this waveform by adjusting the TR IG LEVEL
kn ob.
6. Output Amplitude,
Attenuator Accuracy
F latness, Offset, and
α. Set t h e FG 504 co ntrols as follows:
H O LD/ RUN pus hbutton
FREQUENCY H z
(STA RT) dial
STOP d ial
MULTI PL I ER
FREQUENCY VERN I ER
(V AR)
TRIGGER /FREE RUN
push button
LEVEL co ntrol
SWEEP pushb utto ns
W aves ha pe pus h buttons
OFF SET co ntrol
PH AS E control
SWEEP D UR ATIO N
switc h
VARiable
RIS E an d FALL TIME
switch
V A R iable
RUN
10
40
10 5
Fully cw
FREE RUN
M idrange
Out
Square Wave
M idrange
M id ra nge
OFF
Fully ccw
FIX ED
Fully ccw
Calibration P rocedure-FG 504 (S N Β040000 & UP)
Performance C heck
ATTENUATO R (dB)
VARia ble
TRIG LEVEL
SYMMETRY
0
Fully cw
Midra nge
M i d ra n ge
b. Co nn ect t he output of t he FG 504 to the do coupled
vertical i np ut of t he oscillosco pe th ro ugh α 50 Ω unterminated cable. Chec k t hat th e output is at least 30 V ρ-ρ on
all MULTI PL I ER ranges . Verify t hat the ATT ENU ATOR
VARiable co nt rol will red uce the out p ut to 3.0 V ρ-p.
R et urn t he V ARiable co ntrol to fully cw . Connect α 50 Ω
termination at the scope en d of the 50 Ω output cable.
Verify that the output am p lit ude varies less than ±6ο/ο on all
ranges for all th ree wave s h apes . V erify t hat the output
am p lit ude varies less than ±11 ο/ο from 40 kHz to 40 MHz
(±1 d B) . V erify that t he th ree wave sh apes have t h e same
amplitudes, ±0 .5 d B at 10 kH z. Set the ATTENUATOR to
each step and verify t h at th e accuracy at each ste p is
withi n ±0.5 dB per d ecade. R emove the 550 Ω termi nation. W it h t he ATTENUATO R at -50 dB, pull out t h e
O FF SET co ntrol an d vary it from one en d of rotation tot he
ot her . Verify th at t he output chan ges from +7 .5 V to
-7 .5 V wit h t he output unterminated.
7. Outp ut Waveforms (Triangle Symmet ry, Sine
Wave Distortion, Square Wave R ise and F all Time)
α. Set t he FG 504 co ntrols as follows:
H OLD/ RUN pus h button
FREQ UEN CY Hz
(STA RT) dial
STO P dial
MULTI PL I ER
FREQ UEN CY VERN I ER
(V AR)
TRIGG ER /FREE RUN
p us hbutton
LEVEL control
SWEEP pus h b uttons
W aves hape push buttons
OFF SET co ntrol
PH AS E co ntrol
SWEEP DUR ATIO N
switch
VARiable
R IS E a nd FALL TIME
switc h
VARiable
ATTENUATOR (dB)
VARiable
TR IG LEVEL
SYMMETRY
RUN
10
40
10"
Fully cw
FREE RUN
M idrange
Out
Triangle In
M idra n ge
M idrange
O FF
Fully cw
FIX E D
Fully ccw
O dB
Fully cw
M idra n ge
M i d range
b. Set the oscilloscope controls to display two cycles of
the waveform across the graticule. U sing the delayed
45
Calibration P roce d ure- FG 504 (S N Β040000 & UP)
Pe rforma nce C h ec k
swee p, measure t h e time differe n ce betwee n α p ositive
pea k an d t h e next negative pea k of t h e waveform . N ext
measure t h e time differe n ce between t h e negative pea k
an d t h e next positive p ea k (±1 ο/ο ) .
i
c. P us h n t h e si n e wave button . Connect t h e output
t h roug h α 50 Ω cable a nd α 50 Ω termination to t h e sine
wave distortio n an alyzer . V erify t hat t h e sine wave distortion is 0.5 ο/ο or less . R emove t h e 50 Ω termination an d
move t h e cable from t h e scope input an d connect it to t h e
in p ut of t h e s p ectrum a n alyzer . Set t h e MUL TI PL I ER to 105
and verify t h at t he greatest h armo n ic is at least 30 d B
down from t h e fun d amental .
d. P ress t he sq uare wave bu tton in . M ove t he outp u t
cable from th e s pectr um analyze r, add α 50 Ω termination,
and co n nect it to t he vertical inp ut of t h e oscilloscope . Set
t h e MULTI PL I ER switch to 10 4 . Set t h e oscilloscope controls as req uired a n d verify t h e rise and fall times of t h e
sq u are wave . (Accuracy with in ±30% of i ndicated time wit h
Variable co n trol f u lly ccw, 10% to 90% of th e displayed
waveform .) Verify t hat the aberrations on the waveform d o
n ot exceed 5% +30 m V . Change t he RIS E a nd FA LL TIME
switc h to 10 ns and verify th at the VA R iable control has α
ten to one range (10 n s to 100 ns).
8 . AM
M o d ulation
and Distortion
α. Set t h e F G 504 co n trols as follows :
H O L D/ RUN p us h button
FRE Q UEN CY H z
(STA R T) dial
STO P dial
MULTIPLIER
FRE Q UEN CY VERN I ER
(V A R)
T R IGG ER / FREE RUN
p us h button
LEVEL control
S WEEP pus h butto n s
W aves h ape pus hb uttons
O FF S E T co n trol
PH AS E control
S WEEP DUR ATIO N
switc h
V A R iable
R IS E and F A LL TIME
switc h
V A R iable
ATT ENU ATO R (d B)
V A R iable
T R IG LEVEL
SY MME T R Y
RUN
20
40
101
504 AM I NPU T. R e du ce the F G 504 output to 70%
modulation . Connect the FG 504 output to t he AM in p ut of
t h e distortio n an alyzer. T he distortion s h oul d be 5°/ο o r less .
9 . T R IGgered, GAT E d, an d PH AS E LOC K Operation
α . Set t h e
FG
504 co n trols as follows :
H O L D/ RUN p us h butto n
FRE Q UEN CY H z
(STA R T) d ial
STO P d ial
MUL TI PL I ER
FREQ UEN CY VERN I ER
(V A R)
T R IGGER / FREE RUN
p us h button
LEVEL control
S WEEP pus h butto n s
Waves h ape pus h buttons
O FF S E T control
PH AS E control
S WEEP D UR ATIO N
switc h
VA R iable
R IS E and F A LL TIME
switc h
V A R iable
ATT ENU ATO R (d B )
V A R iable
T R IG LEVEL
SY MME T R Y
RUN
20
40
10 2
F ully cw
T R IGG ER In
A dj ust for Triggered
operation
Out
Si n e wave
M i d ra n ge
M idra n ge
Off
F ully cw
F IX E D
F ully ccw
0 dB
F ully cw
Midrange
M idrange
F ully cw
FREE RUN
M i d range
O ut
Sine W ave In
M i d range
M i d range
Off
F ully ccw
F IX E D
F ully ccw
0 dB
F ully cw
Midra n ge
M i d range
b . Connect α 1 kH z, 5 V ρ - ρ si n e wave from a function
generator t h roug h α 50 Ω cable termi n ated in 50 Ω to t h e
4-6
FG
b . Connect t h e O U T PU T from t h e F G 504 t h roug h α
50 Ω coaxial cable to t h e vertical i n put of t h e oscillosco p e .
Connect α 1 V ρ - ρ 200 Hz si n e wave to t h e T R IGG ER
section I NPU Toft h e F G 504 . Adj ust t h e LEVEL co n trol for
α triggere d output from t h e F G 504. R otate t h e F G 504
LEVEL control cloc k wise to t h e ΜΑΝυαΙ p osition . V erify
t h at t h e F G 504 p uts out o n e cycle of signal eac h time t h e
ΜΑΝυαΙ butto n is presse d .
c . P ress t h e GAT E b utton in . Verifyt h att h e F G 504 puts
out α continuous signal w h en t h e ΜΑΝυαΙ button is
pus h ed . R otate t h e LEVEL control cou n tercloc kwise u ntil
t h e F G 504 out p ut sig n al is gated on and off at t h e 200 Hz
rate .
d . P ress t h e PH AS E L OC K button in . Set t h e FREQ UEN CY H z STA R T kn ob to 20. Set t h e MULTI PL I ER
k nob to 10' . Set t h e exter n al sig n al ge n erator to 20 kH z at
1 V ρ- p . Set t h e PH AS E co ntrol to mi d range an d adj ust t h e
LEVEL control for α ph ase loc ked signal . V ary t h e
REV ΜΑΥ 198 2
Cali br atio n Procedure- F G 504 (S N 8040000 & UP)
P erfo rma nce Chec k
Off
h
th
switch
incomi ng sign al from 10 to 30 kH z and verify t at e
signalfromthe F G 504 locks vvjth t heincoming signal over
VARiable
Fully ccw
the entire ra nge .
RIS E an d FALL TIME
switch
FIX E D
V ARiable
Fully ccw
10 . TRIGger OUTPU T a n d H O LD Operatio n
ATTENUATOR (d B)
O dB
V AR iable
Fully cw
α. Set the FG 504 controls as follows:
TR IG LEVEL
Mi d range
H OL D/ RUN pus hbutto n
RUN
SY MMETRY
M i dra nge
FREQUENCY H z
(STA RT) dial
10
STO P dial
40
b. Co nn ect the TRIGger O UTPU T throug h an unterMULTI PL I ER
102
mi nated cable to the vertical inp ut of the oscilloscope .
FREQUENCY VERN I ER
V erify t h at t he sign al varies from 0 V to 2.0 V or more .
(V AR)
Fully cw
TRIGG ER /FREE RUN
p us hb utto n
FREE RUN
c. Disconn ect the 50 Ω cable from the TRIGger O UTPUT and co nn ect it to the OUT PU T con nector. Set the
LEVEL co ntrol
M idra n ge
MULTI PL I ER switch to 10-2 . Wh en t he outp ut wavefo rm
SWEEP pus hb utto ns
Out
reac hes α maxim um p ositive or negative p ea k, p us h in the
W aves ha pe p us h buttons
Si n e wave
H O LD button and note that t he output sig nal stops at that
OFF SET control
M idrange
p oi nt. V erify that t he output voltage d rifts less than 10ο/ο of
PH AS E control
M idra nge
th e "sto p ped" voltage am plitude in one h o ur.
SWEEP DUR ATIO N
Calibration Procedure-FG 504 (SN Β 040000 & UP)
Adjustment Procedure
AD JU ST MENT PR OC E D URE
I nstall
Introduction
all required TM 500-Series test equipment in
p ower modules. Connect p ower modules and other
powered test equipment to an a p propriate p ower input
source ; turn t hem on and allow at least 30 minutes warmup
before starting the adjustment p rocedure. All adjustments
must be made at an ambient temperature b etween +20°C
U se this Adjustment P rocedure to restore the F G 504to
original performance requirements . This Adjustment
Procedure need not be performed unless the instrument
fails to meet the Performance Requirements of the
electrical characteristics listed in the Specification section, or if the Performance Check procedure cannot be
completed satisfactorily . If the instrument h as undergone
repairs, the Adjustment P rocedure is recommen d ed .
Adjustment
Satisfactory completion of all adjustment steps in this
procedure ensures that the instrument will meet the
Performance Re q uirements.
Refer to adjustment locations pullout in this manual for
location of all adjustable components and test points
mentioned i n t his p rocedure . Adjustable components are
located at the top and both sides of the FG 504.
Test
E quipment R equired
T hetest equipment (or equivalent) listed i nTable4-1 is
required for adjustment of the FG 504. Specifications
given for the test equipment are the minimum necessary
for accurate adjustment . All test equipment is assumed to
b e correctly calibrated a n d operating within
specifications .
If other test equipment is substituted, calibration setup
may n eed to be altered to meet the requirements of the
eq uipme n t
use d .
AD JU ST MEN T
PR OC E D URE
Pre p aration
Disco nn ect t h e Power M odule from t h e p ower input
source . For access to α11 adjustments, connect the FG 504
through extender cables to α TM 500-Series power
module (TM 503 or larger) . Extender cable connectors
must be oriented with t he top of one connectortoward the
top of the FG 504 and t he top of the other connector
toward the top of the power module (do not attempt to
operate the FG 504 with only one extender cable) .
NO ΤΕ
One end of R14 should be disconnected from the
circuitry to prevent/ίtter at lowfrequencies when the
FG 504 is oper ated with extender cables.
4-8
and +30° C.
Locations
Preliminary Control Settings
FREQUENCY Hz (START)
STOP FREQ
HOLD/RUN
MULTIPLIER
FREQUENCY VERNIER
T RIGGER
FREE RUN
T RIG
GATE
1
40
H OLD (in)
10
Fully cw
MAN
Out
M i d ran ge
S WEEP (out)
L I N S WP (out)
T R IG SWP (o u t)
Off (out)
Off (o ut)
(Pιοc κ
LEVEL
STO P FRE Q/SWEEP
LOG S WP/ L I N S WP
T R IG SWP/ FREE RUN
S q uare wave p us h butto n
Triangle p us hb utton
Sine wave pushbutton
OFFSET (PULL)
PHASE
SWEEP DURATION
VAR
RISE AND FALL TIME
VAR
ATTENUATOR (dB)
V AR
MAN T RIG
TRIG LEVEL
SYMMETRY (PULL)
Out
Out
Out
Out
Off (out)
Off (in)
M idrange
OFF
Fully εεω
FIXED 56 n s
Fully ccw
0 dB
Fully εω
Out
M idrange
Pushed in, variable
at mi d range
Calibratio n Procedure-FG504 (S N Β040000 & UP)
Adj ustment Pr ocedu re
Supply
Tolerance
P roce dure
NO ΤΕ
In t h e following p roce d u re, t he test oscillosco pe
ve rtical i np ut requirements will be identified as
Differential o r just Input. Differential indicates a
system providing differential op eration with at least
1 m Vl dίν sensitivity. Wh en α test oscilloscop e is
mentio ne d, use α 60 MHz (or greater) system wit h
5 m V to 5 V/dίν sensitivity (200 MHz for steps 12 and
14).
1. Set +15 V Supply ( R1605)
Set the digital voltmeter ra nge to 20 Vdc . Connect the
low level test lead to the ground test poi nt on the Al MAIN
board. Connect the h ig h i n p ut test lead to the +15 V test
p oi nt on the Α1 MAIN board. Chec k for α r eadin g of +15 V
±30 mV. If outsi d e of tolera nce, a d ju st R 1605 (+15 V Ad j )
for correct readi ng .
NO ΤΕ
If R1605 (ste p 1) or R1705 (ste p 2) settings requir e
a dj ustme n t, t he entire adj ustmen t p roce dure m u st
be performed.
2. Set -15 V
Supply (R1705)
Move t he h ig h i np ut test lead to t he -15 V test point on
t he Α1 MAIN boa r d. Ch ec k for α reading within ±10 m V of
t he absol ute value of the +15 V su p ply reading i n ste p 1 . If
readi ng is out of tolera n ce, adj ust R 1705 (-15 V Adj) .
3. Chec k Power Supply Voltages
M ove the h ig h i nput test lead to thetest poi n ts οη the Α1
MAIN board and set th e voltmete r ra nge switch as
necessary while meas uring t he followi ng su p p lies for
listed tolera nce limits:
Supply
+25 V
-25 V
+5 V
Tolerance
±0 .5 V
+0 .5 V, -1 .5 V
±0 .2 V
4. Chec k Power Supply R ip ple an d
N oise
Set the Differential oscilloscope Trigger to L in e, Vertical I np ut Cou p ling to ac, and Vertical Se nsitivity as
re q uired . Co nn ect α 1 Χ probe to eac h differential i np ut .
Connect t he - (mi n us) input p robe ti p to the F G 504
chassis grou n d. Connect the + in p ut probe ti p to t he
ap pr o pr iate test poi nts on t h e Α1 MAIN board. C hec k
ri pple and noise accordi ng to the following table.
+15 V
-15 V
+25 V
-25 V
+5 V
Less than
L ess tha n
Less tha n
Less than
Less than
500 μV ρ- ρ
500 μV ρ- ρ
5 mV ρ- ρ
5 mV ρ- ρ
100 m V ρ-ρ
Discon nect the probes .
5. Adj ust Tria ngle DC
Level
( R360)
Set the oscilloscope vertical i nput co up li ng to dc,
volts/ div to 20 mV, variable volts/div as re quired, time
base to 0.5 ms/d iv, trigger source to external, an d trigge r
mo de to auto . Co n nect α 10 Χ probe to the oscilloscope
vertical i np ut, t h e p robe grou n d clip toth e FG 504 c h assis
ground and the probe tip to ΤΡ 1 on the FG 504 Α3 L OO P
boar d. Co nnect α 50 Ω coaxial cable from t he F G 504
TRIG OUTPUT to t he oscilloscope external trigger input
co nn ector. P us h the TRIGG ER FREE RUN a n d tria ngle
p us h buttons i n. Release the H O LD/ RUN b utton to RUN
(out) an d set t he MULTI PL I ER to 10'. Adjust th e oscilloscope for an externally trigge red 6- divisio n dis play.
Set th e oscillosco p e vertical in put coupling to grou nd and
positio n t h e trace vertically to th e exact graticule center .
Set th e vertical i nput cou pli n g to d o and adj ust R360
(Triangle d o L evel) on the Α3 L OO P boa rd for tria ngle
pea ks equ ally spaced above and below graticule center .
Disco nn ect th e 10 Χ p robe.
6. Adj ust Top Dial Waveform Symmetry (1152)
Co nn ect α 50 Ω coaxial ca ble from the F G 504 OUTPU T terminal to α 50 Ω termi natio n co nn ected to th e
oscillosco pe vertical i nput. Cha nge the followi ng F G 504
co ntrol setti ngs : Pu sh t he square wave push button in and
set the FREQUENCY Hz (STA RT) dial to 40 (40 kH z
square wave). Set the oscillosco pe ve rtical for α 5 V/div
display; set time/ d iv, variable, and triggering (source to
Internal ; level as re quired ) so t he n egative-goi ng h alfcycle of the sq uare wave j ust fills th e graticule area
h orizontally. Switch t he oscillosco p e trigger slo p e from +
to - while ad justi ng R 52 (Top Dial Sym Cal) on the Α3
LOO P board so the halves of t he squa re wave are exactly
eq ual i n time ( R 52 only affects th e p ositive h alf) . Set the
oscilloscope trigger slope to +.
7. Adjust M inimum Dial W aveform Symmetry (R155)
C h ange t h e F G 504 FREQUENCY Hz (STA RT) dial
setti ng to α p ositio n a pp roximately h alf way between α .1
and 1 on t he d ial an d set th e MULTI PL I ER to 10° . Ad j ust
the oscillosco pe sweep speed so the p ositive h alf of the
waveform cycle j ust fills t he graticule h orizontally. Switch
t he oscilloscope trigger slope from + to - while adj usting
R155 (Min Dial Sym Cal) on t he Α3 L OO P board so th e
h alves of the square wave are exactly eq ual i n time ( R155
only affects t he n egative h alf of the waveform) .
Calibration Procedure-FG 504 (SN Β040000 & UP)
Adjustment Procedure
8. Adjust Low Dial Waveform Symmetry (R215)
Set the FG 504 FREQUENCY Hz (START) d ial to 1 and
t he MULTIPLIER to 10 . Set the oscilloscope for d o
coupled normal triggering and a d just sweep speed and
trigger level so one waveform cycle just fills the graticule
h orizontally. Adjust R215 (LF Sym Cal) on the Α3 L OOP
board so that the h alves of the square wave are exactly
equal in time . Disconnect the 50 0 cables and termination
from the FG 504 and oscilloscope.
9. Check Dial Calibration (R115, R 145) and Adjust
Mechanical Alignment
α. Connect the FG 504 TRIG OUTPUT through α 50 Ω
coaxial cable to α 50 Ω termination at the frequency
counter input. Set the FG 504 MULTIPLIER to 103 a nd t he
FREQUENCY Hz (START) d ial to .1 (fully cw). Adjust
R115 (Min Dial Cal) on Α3 L OOP board for α reading of
150 H z to 200 Hz on the counter. Set the FREQUENCY H z
(START) d ial to 40 and ad just R 145 ( Χ 40 Cal) on Α3 L OOP
board for α counter d isplay of 40 .0 kHz. Set the FREQUENCY Hz (START) d ial to 1 ; thecounter displayshould
be 1 .0 kHz. If the reading is correct, ski p p art b and
proceed to part c; if n ot correct, perform p art b.
Th e mechanical dial adj ustment in part b must be
performe d with th e instrument operating. E xercise
caution to avoid shorting out circuitry with Allen
wrench or pliers .
b. M echanical dial adjustment : U se α 1/16" Allen
wrench to loosen set screws on the dial coupling behind
the front panel . U se long nose p liers to rotate R 125
potentiometer shaft until the counter reads 1 .00 kHz. W ith
t he FREQUENCY Hz (START) dial set to 1, tighten the
coupling set screws.
ε. Set the FREQUENCY H z (START) dial to 30 and
check t hat STOP FREQ d ial will rotate fully ccw and stop
with t he index mark aligned with t he index mark on the
panel . If alignment is correct, p roceed to p art e; if not
correct, p erform part d.
d. U se α 0.050" Allen wrench to loosen t he STOP FREQ
knob set screws, then remove the knob. Turn the p otentiometer shaft to the ccw end and re-install the STOP
FREQ knob so index mark is aligned with front panel index
mark . Tighten the set screws.
e. Set the STOP FREQ d ial fully ccw and check t hat it
stops with its index mark within approximately 5 degrees
of 40 on the FREQUENCY Hz (START) d ial.
410
f. Re p eat step 9, p arts α t hrough e, as necessary for
correct d ial calibration . Disconnect the 50 Ω cable and
termination from the FG 504 and counter.
10 . Adjust R esidual Offset (R1140)
Set the FG 504 ATTENUATOR (dB) to -50 dB . Set all
front panel pushbuttons to the OUT p osition. Connectthe
FG 504 OUTPUT through α 50 Ω unterminated coaxial
cable to either the oscilloscope vertical input or digital
voltmeter input. Adjust R 1140 (Offset B alance) on Α1
MAIN b oar d for α reading of zero volts ±100 mV on the
oscillosco p e or voltmeter.
11 . Adjust Zero Input Offset (R1015)
Set the FG 504 ATTENUATOR (dB) to the 0 dB
position . Adjust R 1015 (Input Offset) on the Al MAIN
board for a reading of 0 V±100 mV on the oscillosco p e or
voltmeter. Disconnect the 50 Ω cable.
12 . Adjust Output Impedance (C1092)
Push t he FG 504 square-wave p ushbutton and the
TRIGGER FREE RUN p ushbuttonin. SettheMULTIPLIER
to 10 5 and the FREQUENCY Hz (START) dial to 40 .
Connect two unterminated 42-inch 50 Ω coaxial cables in
series with α female-to-female bnc adapter; connect one
end to the FG 504 OUTPUT and the other end to the
oscilloscope vertical input. Adjust the oscilloscope vertical sensitivity, triggering (Mode to Auto) and swee p
speed to display at least one com p lete square wave cycle
approximately 6-divisions in amplitu d e. Adjust C1092
(Output Impedance) on the Α1 MAIN board for minimum
reflected aberration behin d t he rising an d falling edges of
the square wave . Disconnect the 50 Ω cables from the
FG 504 OUTPUT an d oscilloscope vertical input.
13. Adjust Sq uare Wave Amplitude and DC
(R630, R641)
Level
Connect the FG 504 OUTPUT through α 50 Ω coaxial
cable to α 50 Ω termination at the oscilloscope vertical
input. Set the MULTIPLIER to 102 . Adjust the oscilloscope
vertical sensitivity, triggering, and sweep speed to display
at least one cycle of the sq uare wave at α calibrated 2 Wdiv
amplitu d e. Adjust R 630 (Sq Wave Am p l Adj) on the Α1
MAIN b oard for α p eak-to-peak amplitude of 15 V to
15 .9 V. Set the oscilloscope vertical in p ut coupling to
ground and center the trace vertically . Return vertical
i nput coupli ng to d c, and adjust R 641 (Sq Wave Offset Adj)
on the Α1 MAIN board for square wave positive and
n egative peaks equally s p aced above and below the
graticule center. Disconnect the 50 Ω cable and termination from the FG 504 and oscilloscope.
14. A dj ust Output Am plifier
R950, R 1050)
Res po n se
(C922, C1090,
Connect t h e F G 504 O U T P UT t h roug h α 50 Ω coaxial
cable to α 50 Ω termi n ation at t h e vertical in p ut of t h e
oscillosco p e .
Set t h e F G 504 MU L TI PL I ER to 105 . Adj u st t he oscillosco p e vertical se n sitivity a n d s wee p s pee d to display
one or more complete c y cles of t he sq u are w ave at about
6-divisions a mp litu d e . Ad j u st triggeri n g to view the
lea d ing e d ge of t h e p ositi v e-goi n g slo p e . Adj u st C922 (S q
Co mp L ong Term) on t h e Α 1 MAIN board for opti m u m
s q uare corner i n t h e first 100 ns fro m t h e risi n g an d falling
e d ges . Adj ust C1090 (Sq Co m p Short Term) on t h e Α 1
MAIN boar d for optimum s q uare corner wit h aberrations
less t h a n 5 ο/ο over t h e first 20 ns fro m th e rising a nd falling
edges. Ad j ust R 950 (S q Com p L eading Ed ge) on t h e Α 1
MAIN board for m inimum rise time, o p tim u m squ are
corner, and m inimum aberrations overt h efirst 20 nsfrom
t h e leading e d ge . Ad j ust R 1050 (Sq Com p Trailing Edge)
on t h e Α 1 MAIN boar d for m inimum fall time, o pti m um
s qu are corner, and mini m u m aberrations over t h e first
20 ns f rom t h e traili n g edge . C h ec k th at rise time an d fall
time of t h e square wave is eq ual to or less t h an 6 ns .
R e p eat step 14 as n ecessary to ac h ieve minimum aberrations (e q ual or less t h an 5 ο/ο +30 m V ) and rise time of
equal or less t h an 6 ns .
15 . Adj ust A mplit ud e
F lat n ess
(8365, C325, C340)
Set F G 504 controls as follows :
S1
WEEP DUR ATIO N
VA R
Tria n gle pus h button
FRE Q UE N C Y Hz (STA R T)
STO P F RE Q
MUL TI PL I ER
FR EQ UEN CY VE RN I ER
R IS E and FA LL TIME
VAR
ATT ENU ATO R ( d B)
VA R
T R IGG ER
FREE R UN
All ot h er butto n s
Calibratio n P roce dure- F G504 (S N Β 040000 & UP)
Adj ust ment P roced u re
rig h t si d e of t h e envelo pe is also vertically centered on t h e
gratic u le . Ad j u st C325 an d C340 (HF L oo p Com p ) on t h e
Α 3 L OO P board so t h at t h e rest of t h e wavefor m is
a pp ro x imately symmetrical aro u n d th e center h orizontal
graticule line wit h m ini m um amplitu de in t h e center . (See
F igure 4-1 .) Consi derable i nteraction exists between C325
and C340 . R eadj ust as necessary to obtain t h e best
s ym metry an d am plit ud e flatness . C h ec k t h at t h e pea k -topea k am plit ud e of t h e envelo p e is between 4.5 d ivisions
a n d 7 .5 d ivisions at all p oints on t h e waveform . Set t h e
FG 504 S WEEP D U R ATIO N to off .
ms
F ully ccw
In
1
40
10'
F u lly c w
F IX E D <_6 n s
F ully ccw
0 dB
cw
Ιη
Out
Con n ect α 50 Ω coa x ial cablefrom t h e F G 504 L I NE A R
SWEEP O U T PU T to t h e oscilloscope ex ternal trigger
input . Set t h e time base swee p speed to0 .2 m s p erdivision
and trigger externally on t h e n egati ve slo p e of t h e
wavefor m . A d j ust t h e oscilloscope vertical sensitivityfora
6-divisio n d is p lay . Set t h e F G 504 MULTI PL IE R to 10ή .
Ad j ust t h e S WE EP DU RATIO N VA R IA BLE so only one
envelo p e is visible across t h e e n tire h orizo n tal graticule .
V erticall y center t h e left si d e of t h is e n velope . A d j ust R 365
( H F Loo p DC L e v el) on t he Α 3 L OO P boar d so t hat t h e
F ig . 4-1 . Am p litude flatness c h ec k .
16 . Adj u st Si ne
Flatness
(C857)
P us h t h e sine- wave p u s h button i n . Set t h e FREQ UEN CY H z (STA R T) d ial to 40 . Adj ust C857 (Sine
F latness) on t h e Α2 FUN CTIO N boar d for α 5 .5 division
sine-wave am p litude . Disconnect t h e 50 Ω cables and
termination .
17 . Adj u st Top Dial Calibration ( R 145)
Set t h e F G 504 MU LTI PL I ER to 10' . Set t h e FR EQ U E N CY H z (STA R T) dial to exactly 40 . Connect T R IG
O UT P UT t h roug h α coaxial cable an d 50 Ω termination to
α freq u e n cy counter . A d j ust R 145 ( Χ 40 Cal) on t h e Α 3
L OO P board for α rea d ing of 40 kH z wit h i n ±3 ο/ο
(±1 .2 kHz) . C h ange t h e M UL TI PL I ER setti n g to 10" and
c h ec k for α reading of 400 k Hz w it h in ±3ο/ο (±12 k Hz) .
18 . Adj ust 106
R a nge
Ti m i ng (C195)
Ch ange t h e MU L TI PL I ER to 10` . A d j ust C195 (40 MH z
Cal) on t h e Α 3 LOO P boar d for α readout of _>40 MHzin all
t h ree functio n s-square, triangle, and sine wave .
4- 1 1
Cali bration Proce dure- FG 504 (S N Β 040000 & UP)
Adj ustment Procedure
19 . Adj ust 105 R ange Timi ng (C242)
C h ange the F G 504 MULTI PL I ER setting to 105. Adjust
C242 (4 MH z Cal) on t he Α3 L OO P boar d for a readout of
4 MH z within 3%ο (±120 kHz) .
S WP/ LI N button i n to t h e L OG S WP mode, and ad ju st
R 1475 ( Log Pea k) οη the Α2 FUNCTIO N boar d so the p ea k
of the logarith mic ram p is at t he same am plitude as t he
origi nally recor ded voltage. Set SWEEP D UR ATIO N to
OFF.
20. Adj ust 20 MHz Timing ( R128)
24 . Adj ust R ise an d Fall Time Symmetry (R610)
Set the FREQUENCY H z (STA RT) dial to exactly 20 .
Set the MULTI PL I ER to 10 6. Adj ust R 128 (20 MH z Cal) on
the Α 3 L OO P board for α freq ue n cy of 20 MHz wit h i n
specificatio n limits (17.6 MHz to 22 .4 MHz) for all three
fu nctio ns-sq uare, triangle, an d si newave) . NOTE :
20 MHz Cal will i nteract wit h 40 MHz Cal .
Co nn ect the FG 504 OUTPUT t hroug h α 50 Ω cable
an d α 50 Ω termi natio n to the oscillosco pe vertical input.
Pus h t he s q ua re wave push button in. Setthe ΜUL TI PL I ER
to 10 °, FRE QUENCY Hz (STA RT) dial to 10, RIS E A ND
FALL TIME to .1 μs, and VAR RIS E AN D FALL TIME
co ntrol fully cw . Obtain α waveform d is play of one
com p lete cycle ce n tered vertically and h orizontally on the
graticule. Adjust R610( R isea nd Fall Sym)ontheAl MAIN
board so that the top an d bottom of the waveform are
eq ual i n duration.
21 . Ch ec k a n d Adj ust H ig h Frequency Dial Trac king
( R128, C195, C325, C340)
C h ec k t hat th e o utp ut frequencyfrom 4 MH zto40 MHz
is withi n specification limits for all thr ee fun ctio n
waveforms. If dial trac king is not withi n specificatio n
limits, it may be necessary to slig htly rea d just R 128
(20 MHz Cal), C195(40 MH z Cal), and C325 and C340 ( Η F
L oo p Com p) to ac h ieve p roper dial accuracy . Optimum
trac king will result if C325 a nd C340 (HF Loop Comp)
adjustme nts are p erformed so as to maintain symmetrical
amplit ud e flatness aroun d the graticule vertical center
li ne. R epeat step 15 and c hec k t hat am plitude flat ness is
wit hin specification limits . If n ecessary, repeat steps 15
throug h 21 .
22. Adj ust Sto p Fr eq ue ncy Dial Range (R10)
Wit h t he F G 504 MULTI PL I ER at 10 6, push t he STO P
FREQ/SWEEP button n to STOP FREQ mo de. Set
SWEEP DUR ATIO N to 10 s and FREQ UENCY Hz
(STA RT) d ial to 1 . R otate the STOP FREQ dial so t hat the
in dex mark p oi nts to 40 on the FREQUENCY Hz (START)
dial . Ch ange the MUL TI PL I ER setting to 10' and adjust
R 10 (Stop Freq Cal) on the Α3 LOO P board for afre que n cy
of 40 kHz. Disconnect termi natio n and cable from freq uency counter and FG 504.
i
23. Adjust L inear an d
( R1460, R 1475)
B alance (R870)
Co nn ect α 1 kHz tria ngle waveform of +2.5 V and
-2 .5 V (5 V ρ-p) am plitude (produced from α ge nerator
external to the FG 504) throug h α 50 Ω ca ble to the AM
I NPUT connector on the FG 504. Co nn ect α 50 Ω cable
from th e trigger output co nn ector on the tria ngle
ge nerator to the external trigger i nput on the oscillosco pe
a n d set th e oscillosco p e for external triggeri ng . Pus h t he
FG 504 si n e wave pu shb utton in . Set the FREQUENCY Hz
(STA RT) dial to 30. Ad just the oscillosco pe time base to
dis p lay several cycles of the mo du latio n envelo pe. Ad j ust
the external tria ngle ge nerator d o offset a nd am plitud e
controls fo r α d is play with 100ο/ο mo du lation level,
1 ms/divisio n mo dulation rate, a n d about 10 to 16 V ρ-ρ
am plitude wit h no cli p ping of p ea k s. Vertically ce nter th e
waveform envelope valleys to graticule ce nter. Ad j ust
R 870 (AM ΒαΙ) on t he Α2 FUN CTIO N board sothe positive
and negative peaks of t he envelo pe are equ ally spaced
from the valleys of thewaveform envelope . Disconn ect the
50 Ω cables from the tria ngle ge nerator to the FG 504 and
test oscilloscope external trigger input co nn ector. Set the
oscillosco pe for i nternal trigge ri ng.
L ogarit hmic Swee p Am plitu de
Set the oscilloscope time b ase for 2 ms/ d ivisio n ,
trigger source to i nternal, and t h e vertical for do coupled
.2 V /divisio n sensitivity . Connect α 10 Χ p robe to t h e
oscilloscope ve rtical inp ut, the probe grou n d cli p to th e
FG 504 ch assis, and connect the probe ti p to Ρ1500 p i n 1
R am p on t he Α2 FUNCTIO N board. Change the FG 504
SWEEP D UR ATIO N setti n g to 10 ms . R ecord t h e voltage
level displayed on t he oscilloscope . R elease the FG 504
STO P FREQ/S WEEP button out to the SWEEP mo d e, and
ad j ust R 1460 ( Ramp Pea k) on the Α2 FUNCTIO N boar d
for α d isplay voltage level at the p ea k of the ramp equal to
the p reviously recorded voltage. Pus h t he FG 504 L OG
4- 1 2
25. Adj ust AM
26 . Adjust Si ne Offset ( R790)
Set t he FG 504 MULTI PLI ER to 10', an d FREQ UENCY
Hz (STA RT) d ial to 10. Pu sh t he triangle p us hbutton i n.
Adj ust t h e oscilloscope vertical sensitivity for approximately 8 d ivisions of display, an d adjust th e time
base swee p speed for about 5 cycles of triangle waveform .
Set the oscilloscope vertical in p ut coupli ngto grou nd and
ce nter the trace vertically . Return the i n put co up li ng to t he
do p ositio n. Pus h t he sine wave push button in . Ad just
R 790 (Sine Offset) on the Α2 FUNCTIO N board sot hesine
wave pea k s are symmetrical above and below t he 0 V
(center) oscillosco p e graticule li ne.
27. Adj ust Si ne Gain (R855)
Adj ust R855 (Si ne Gain) on t he Α2 FUNCTIO N board
so t h e si n e wave amplitude exactly matc hes the triangle
waveform am plitude while alternately p ressing t h e si ne
wave and triangle pus h butto ns. Disconnect all cables .
28 . Adj ust Sine Drive (Distortio n) (R740, R 155, R 52,
R 360, R 215)
P us h t he si ne wave pushb utto n in . Set t h e FREQUENCY H z (STA RT) d ial to 40. Connect t h e F G 504
OUTPU T connector throug h α 50 Ω cable to α 50 Ω
termi natio n at the distortion analyzer i np ut (use α b nc
female-to- banana p l ug adapter if n ecessary) . Set the
Calibratio n Pr oce dure- FG504 (S N Β040000 & UP)
Adju stment Pr ocedure
distortio n analyzerto40 kHz. Ad just R 740 (Sine Drive) on
the Α2 FUNCTIO N board for mi nimum distortion. It may
be n ecessary to slig htly re-adj ust R52 (Top Dial Sym Cal)
in step 6 an d R 360 (Triangle DC L evel) i n step 5to ac h ieve
α mi ni m um distortion readi ng on the distortion a nalyzer .
C hange t he FREQ UENCY Hz (STA RT) d ial setting to 4
an d t he distortion analyzer to 4 kH z. Touc h up R740 (Sine
Drive) an d R 155 ( M in Dial Sym Cal) for minimum d istortion read i ng. Repeat this step as necessary to ac hieve
mi nimum d istortion readi ng. Set the MULTI PLI ER to 10
an d distortio n alayzer to 40 Hz . Touc h up R215 (LF Sym
Cal) adjustme nt in step 8for least d istortion (0 .5ο/ο or less).
Remove p ower from the FG 504; d isconnect test eq ui pment and extender cables . Re-co n nect R 14 to its origi nal
circuit co nnection .
Section 5- FG 504 (S N Β040000 & UP)
M AI N T EN A N C E A N D I N T ERF ACI N G
I NF O RM ATIO N
T RO UBLE S HOOTI NG AIDS
PREVEN TI VE MAI NT EN A N C E
P reventive mai ntena nce steps performed on α reg ular
b asis will im prove the reliability of t he FG 504. H owever,
chec ks of t he semiconductors i n t he absence of α
malfunctio n are n ot recommended as p reve ntive main-.
te nance measures . Th e recommen ded time for p erformi ng preventive mainte nance is just before i nst rument
adjust ment.
Cleaning
Do not use acetone, ΜΕΚ, ΜΙΒΚ, benzene, toluene,
carbon tetrac hlori de, tric hloroet hylene, methyl
alco hol, methylene ch loride, sulphuric acid, or
Freon compounds for cleaning the FG 504. Use only
clean water an d α mild detergent .
E xterior. L oose dust may be removed wit h α soft clot h
or dry brus h. W ater and α mil d detergent may be used;
h owever, abrasive clea ners should never be used .
I nterior. Clea ning t he i nterior of t he un it should
precede adj ustment si nce the clea ni ng process could alter
t he settings of calibration adjustme nts . U se low-velocity
com p ressed air to b low off accumulated d ust. H ardened
dirt ca n be removed with α soft dry brus h, cotton-tipp e d
swab, or α clot h dam pened in α solution of water a nd mild
d eterge nt.
Adj ustment
After clea ning or re p airs, do the performance c hec k as
d escribed i n Sectio n 4 of this manual . If all functio ns are
wit hi n s p ecificatio n , no ad j ustment is nee d ed . If one or
more of the specifications are not met, calibrate the
instrument as d irected i n Sectio n 4.
L ubrication
No l ubricatio n is re q uire d i n t he FG 504.
Theory of Operation
Sectio n 3 of this ma nu al ex plai ns circuit operatio n i n
detail. The section is α troubles hooti n g aid wh e n used i n
conj unctio n with t he circ uit diagra ms.
Diag rams
Α bloc k diagram and detailed circuit d iagrams are located on fol d out pages in t he Diagrams sectio n. The
circuit d iagrams s h ow t he component values and assigne d circuit refere nce numbers of each com ponent. Th efirst
p age of the Diagrams sectio n defi nes t h e circuit symbols
and refere nce designators use d i n t he manual . Im portant
waveforms and voltages are shown wit hi n t he d iagrams.
Cam Switch
Charts
Cam switches show n on t he diagrams are code d on
c harts to locate the cam n um ber of the switch co ntact in
t he com p lete switch assem b ly, cou nti ng from thefront, or
knob en d , toward th e rear of t he switch. The charts also
i ndicate with α solid d ot when each co ntact is closed.
Circuit
B oard Illust rations
To identify electrical com ponents when troubleshooting, turn to t he P arts L ocation Grid that is locate d on
the bac k of α foldout page at the left of t he related circuit
diagrams. Com ponent values, descri ptions, and or dering
data are give n in the Replaceable Electrical P arts list .
Component and Wiring Colo r Co d es
Colored stri p es or d ots on electrical compo nents signify electrical values, tolera n ces, etc., according to ΕΙΑ
standa rds. Compo n e nts not color co d ed usually h ave
i nformation pri nted on the body . Some wiri ng co d i ng
follows the same ΕΙΑ standards.
M aintenance-FG 504 (SN Β040000 & UP)
Testing
Equipment
Generally, α wide-band oscilloscope, α lowcapacitance probe, and α multimeter are all that is needed
to perform basic waveform and voltage checks for diagnostic purposes. The calibration procedure lists specific
test e q uipment necessary to a d equately check out the
instrument .
This instrument contains electrical components that
are susceptible to damage from static discharge. See
Table 5-1 for relative susceptibility of various classes of
semiconductors . Static voltages of 1 kV to 30 kV are
common in unprotected environments .
Observe the following precautions to avoid damage :
1 . M inimize han d ling of static-sensitive components .
T RO UBLE SHOOTI NG TECHNIQ UES
This troubleshooting p rocedure is arranged in an order
that checks the simple trouble possibilities before proceeding to extensive troubleshooting.
Control Settings
I ncorrect control settings can appear to be an equipment problem . If there is any question a bout the correct
function or operation of any control, see the operating
instructions in Section 2 .
If the F G 504 is operating as part of an interconnected
system or test setup, also check control settings of the
other instruments in t he setup. Check for proper interconnections between t he power module and t he p lug-in
modules. Check that the signal is properly connected and
that the interconnecting cables and signal source are not
defective . Check t he power source .
If the p ower module is suspected, try substituting
another F G 504 k nown to be good i nto the power module .
If the trouble persists after substitution, move the F G 504
to other compartments in t he power module to determine
if the trouble is confined to one compartment or is
common to all of them .
Visual Check
Remove the covers from the F G 504 and look for
broken wires, loose or unsoldered connections, or
damage to the circuit board. If components damaged from
overheating are found, determine the cause of overheating before re p lacing the component; otherwise, the
new com p onent may also be damage d .
Static-Sensitive Components
Static discharge can damage any semiconductor
component in this inst rument.
5- 2
2. Transport and store static-sensitive components or
assemblies in t heir original containers, on α metal rail, or
on conductive foam . Label any package that contains
static-sensitive assemblies or components .
3. Discharge the static voltage from your body by
wearing α wrist strap while handling these components .
Servicing static-sensitive assemblies or components
should be performed only at α static-free workstation by
q ualified service personnel .
4. N othing capable of generating or holding α static
charge should b e allowed on the work station surface.
5. Keep the component leads shorted together whenever possible .
6. Pickup components bythe body, never by the leads.
7. Do not slide the components over any surface.
8. Avoid handling components in areas that haveafloor
or work surface covering capable of generating α static
charge.
9. U se α sol d ering iron
ground.
t hat
is connected to earth
10 . U se only special antistatic suction type or wick type
desoldering tools.
Test Eq uipment
B efore using any test equipment to make measurements on static-sensitive components or assemblies,
be certain that any voltage or current supplied by the test
equipment d oes not exceed the limits of the component to
be tested .
M ai nte nance-F G 504 (S N Β 040000 & UP)
Table 5-1
Comp onent Chec ki ng
RELATIVE SUSC EP TI BI LITY TO
STATIC DISC HAR GE DAMAG E
Relative
Susceptibility
Levels'
Semiconductor Classes
M OS or C MOS microcircuits or d iscretes,
or li near microcircuits with
MOS i np uts
( M ost Sensitive)
1
ECL
2
Sc hottky signal dio des
3
Sc hottky TT L
4
H ig h-fre q ue ncy bipolar transistors
5
JFETs
6
L inear microcircuits
7
L ow-p ower Sc h ottky TT L
8
TT L
(Least Se nsitive)
9
' Voltage equivalent for levels:
1 = 100 to 500 V 4 = 500 V
2 = 200 to 500 V 5 = 400 to 600 V
3 = 250 V
6 = 600 to 800 V
7= 400to 1000 V (est.)
8 = 900 V
9 = 1200 V
(Voltage discharge d from α 100 pF ca pacitor t hr o ugh α resistance
of 100 ohms.)
Circuit Isolatio n
Note th e sym ptom . It ofte n i d entifies the circuit i n
whic h t he trouble is located. Wh en trouble sym p toms
appear in more than one circ u it, c h ec k t he affected
circuits by ma king waveform and voltage measurements .
I ncorrect operating of all circuits often mea ns trou ble
i n power su pp lies . U sing α multimeter, chec k first for
correct voltages of the indivi du al regulated supplies
according to t he circuit diagrams and adjustme nt procedures. Th e n c h ec k t h e u nregulated supplies of t he
power mod ules . Defective com p onents elsewhere i n t he
i nst ruments ca n appear as p ower su p ply p roblems. In
t h ese i nstances, suspected circuits sh o uld be disco nn ected from app arently bad p ower supplies one at α
time to n arrow the search.
Voltages and Waveforms
Ofte n defective components ca n be locate d by using
waveform and voltage i ndications when they app ear on
the circuit d iagram or in t he adjustme nt procedures . Such
waveforms and voltage labels are ty pical indications and
will vary betwee n instrume nts .
If α component cannot be disconnected from its circuit,
the effects of t he associated circuitry must be co nsi dered
when evaluati ng t he meas ureme nt. Except for soldered-in
transistors an d i ntegrated ci rcuits, most components ca n
be unsol dered an d lifted at one end from the circuit boar d.
Transistors and Integrated Circuits (IC) . T u rn t he
p ower switc h off befo re removing or re placi ng any
semico nd ucto r. See Fig . 5-1 for semicond uctor basi ng .
Α good chec k of transistor operatio n is actual performa n ce u nd er operati n g conditio ns. Α transistor can most
effectively be chec ked by su bstit uting α new component
for it (or one whic h has bee n c hec ked previously) . However, be sure that circuit con d itio ns are n ot such t hat α
replacement tra n sistor m ig ht also be damaged. If su bstitute tran sistors are not availa ble, u se α dynamic tester.
Static-ty p etesters are n ot recomme n ded since t hey d o n ot
chec k o peratio n un der simulated operating co nditions.
An antistatic suction-ty pe desol dering tool ca n be used to
remove soldered-in transistors ; see component replacement procedure for d etails .
I ntegrated circuits ca n be checked with α voltmeter,
test oscilloscope, or by direct su bstitution . Α goo d un derstanding of the circuit d escri ption is esse ntial to t roubleshooti ng circ u its co ntai ni ng integrated circuits. Operati ng waveforms, logic levels, a nd ot her operating i nformation for the integrated circ uits are given i n t he circuit
descri ption nformation . U se care when c h ec ki ng voltages
and waveforms aroun d t he integrated circuits so that
adj acent leads are n ot shorte d toget her . Α conven ie nt
means of cli pp i ng α test p robe to the 14-a nd 16-pin in-li n e
i ntegrated ci rc uits is with an i ntegrated ci rcuit test clip.
Th is device also d oubles as an extraction tool .
i
R eplacement semico nductors should be of the original
ty pe or α direct re placeme nt. Figure 5-1 s hows the lead
co n figuration of the semiconductors used in this i nstrume nt system . Wh en removi ng sol dered-i n transistors, use
an antistatic suctio n-type de-sol deri ng tool to remove the
sol d er from the h oles in t h e circ uit board. See M ai ntena nce Ai ds.
An extracti n g tool shoul d be u sed to remove t h e 14-and
16-pi n integrated circuits to prevent d amage to th e pi n s.
Thistool isavailablefrom Te ktronix, I nc. See Mai n te nan ce
Aids. If an extracti n g tool is n ot available, usecaretoavoid
damagi ng the p ins. Pull slowly and evenly on both ends of
the i ntegrated circuit. Try to avoi d h aving one en d of t he
i ntegrated circuit d isengage from t h e socket befo re t he
ot her en d.
M ai n ten a n ce- F G
504 (S N W0000 & UP)
NOTE
LEAD CONFIGURATIONS A ND CASE STYLES A RE TYPICA L , BU T MAY
VA RY D UE TO VENDOR CHA NGES OR INSTRUMENT MODIFICATIONS.
Β
Β
Β
Plastic-Cased Transistors
D
D
Ι
FE T
ι
P owe r Tran sistors
I ntegrated Circuits M o unti n g
SC R
Regulato r
2655-03 Α
Fig. 5-1 . Semiconductor Basi n g .
5-4
REV ΜΑΥ 1981
M ai ntenance- FG 504 (S N Β040000 & UP)
Diodes . Do n ot use an oh mmeter that h as α h ig h
i nternal cu rrent . H ig h currents may d amage the d iode, so
use th e R X1000 scale on the ohmmeter.
Ordinary signal diodes may be chec ked for an open or
sh orted co nd ition by measuring t he resistance b etwee n
termi nals. W it h t he oh mmeter set to the RX1000 scale, the
resistance s houl d be very h ig h i n one d irection and very
low when t h e lea ds are reversed .
Resistors . C hec k resistors with an ohmmeter . Resistor
tolerances are given in the R eplaceable Electrical Parts
list . R esistors d o n ot normally n ee d to be re placed unless
the measure d valuevaries widelyfrom t he specified value.
Ca p acitors. Α leaky or s horte d capacitor can be
d etected by c h ec king resistance with an oh mmeter on t he
h ig hest scale. U se an ohmmeter whic h will n ot exceed t h e
voltage rating of th e capacitor. The resistance reading
should be h ig h after i nitial charge of t he ca pacitor . An
open ca pacitor ca n best be detected with α capacitor
tester, or by chec king whet her it p asses ac signals.
Cam Switches . R epair of cam-ty pe switches s hould be
undertaken only by experien ced mainte nance p ersonnel .
Switc h alig n ment and spri ng te nsion of t he co ntacts must
b e carefully maintai ned for proper operation of t he switch .
For assistance, co ntact your local Te ktronix Fiel d Office
or re presentative .
NO ΤΕ
Α cam-type switc h repair kit including necessary
tools, instructio ns, and re placement contacts is
available fr om Te k tronix, Inc. See Maintena n ce
Aids.
T he cam-ty pe switches co nsist of rotati ng ca m d rums,
whic h are t urned by front-panel knobs, and sets of spri ngleaf contacts mounted on adj acent circuit boar ds. The
co ntacts are actuated by lobes on the cams . These
switches ca n be disassem ble d fo r inspection, cleani ng,
re p air, or re placeme nt as follows:
1 . Remove screws from the switc h cover and remove
the cover. Th e switch is now ope n for inspection or
cleaning .
2. To completely remove α switch from the circ uit
board, first remove any kn obs or shaft extensio ns. L oose n
t he cou p ling at the potentiometer at the rear of the switc h,
and pull the long shaft out of t he switch assem bly.
REV Α A PR 1980
3. Remove t h e screws (from the opposite side of t h e
circuit board) wh ic h hold t he cam d rum to t he boar d.
4. To remove the cam drum from t he front support
bloc k, remove t he retaining ri n g from the shaft on t hefro nt
of t he switch and slide the cam d rum out of the sup port
bloc k. B e careful n ot to lose the small detent roller .
5. To re p lace defective switch co ntacts, follow the
instructions give n in the switch repair kit .
6. To re-i n stall t he switc h assembly, reverse th e above
procedure.
Inca nd esce nt B ul bs. M ost of t hese light b ul bs are
mounted on the sub-pa nel using plastic sleeve stand-offs.
U nsolde r t he lead wires and pull t h e bul b out of the sleeve
from the rear of the sub- panel .
Circuit
B oar d Removal
NO ΤΕ
Tag or note t h e locations of αΙ 1 lea ds and plugs for
reassembly refere n ce .
To remove t he M ai n board (rig ht si de boar d), remove
the six screws h oldi ng t h e bac k panel to the instrume nt
frame. R emove the b ac k pan el . R emove t he SWEEP
DURATIO N, R IS E and FALL TIME and ATTENUATOR
(dB) knobs . Disconn ect all ca ble p lugs co nn ected to the
b oard . Remove the fo ur screws attachi ng the board to the
p lug-in frame and remove the board b y sli d ing the boa rd
backwards until the switch sh afts clear the front p a n el
h oles .
To remove the F unction b oard (center boar d), first
remove all cable plugs attached tothe b oard . Then r emove
the four screws attaching the board to the spacers . Slide
the board to the rear of t he i nstrume nt until the p us hbuttons clear the fro nt p anel and remove t he boar d.
To remove t he L oo p board (left sideboard), d isco nn ect
cable con nections to the b oard . R emovet he MULTI PL I ER
knob. Un solder t he wire from the AM INPUT con nector on
the front panel to the b oa rd . N ext remove t he fo ur screws
attachi ng t h e Loop b oard to the ρΙ υg-i n frame and slidet h e
boar d to the rear of the plug-i n u nit until th e H OLD pushbutton clears the front pa nel . R emove the board from the
plug-in.
To r emove t he Floating Interface boar d, first remove
the six retaini ng screws on the back pa n el . Remove the
5-5
Maintena nce-F G 504 (S N Β040000 & UP)
cable p lugs from the board an d remove it from the
in st ru me nt. It will be necessary to remove the screws
h oldi ng the retain i ng cli ps if it is n ecessary to remove t h e
board from the back panel.
parts, it is im portant to remem ber that the physical size
an d s hape of t h e com po nent may affect its performance i η
an instrume nt. All r eplaceme nt parts s hould be direct
replacements unless it is kn own t h at α d ifferent componentwill n ot adversely affect the instrume nt performance.
Chec king Transformer Ph asing
If t he F G 504 is used in early models of the TM 500Series Power M odules, ri pp le on t he output waveform ca n
be excessive i n some cases. The ripple resultsfrom P ower
Modu le transformer ph asing t hat is i n compati ble with
FG 504 operatio n; h owever, the p roblem is easily cured.
To determi ne if your
P ower Mod ule is properly ph ased,
p lace the F G 504 i n o peration on two exte n der ca bles.
Make certain bot h exte nder cables are firmly con nected
(do not attem pt to op erate t he F G 504 with only one
exten der cable) .
Turn to the R ear I nterface Connector Assignments
p ullo u t at the rear of this section. Locate pin 13 Α on t h e
M ain boar d (left boar d wh en viewin g t h e rear of the
instrume nt) . U sing an ac voltmeter, measure the voltage
from pin 13A to c h assis grou n d ( p in 9Α οr 9Β) . Th e normal
voltage is about 35 V rms. If t he voltage is about 15 V rms,
the phasi ng is incorrect. Correct the p hasing by i nterc hanging the wires to pins 13 Α a nd 13 Β i n t he Power
M od ule. Measure the voltage from p in 1 Β to chassis
grou nd a nd interc han ge the Power M odule wires to pins
1 Α a nd 1 Β if i ndicated . C hec k all com partments of the
P ower M od ule for p roper phasi ng.
M aintenance
R efer to t h e TM 500-Series P ower M odule ma nuals for
com p lete mainte nance information. Wh en re p lacing cam
switch contacts, order H ig h Fre quency Cam Switch
Repai r Kit . See the M aintenance Aids .
S p ecial Parts . Some parts are ma nufactured or selected
by Te ktronix, I nc., to satisfy particular re q uireme nts, or
are manufactured fo r Te ktronix, Inc., to our specifications .
M ost of th e mechanical parts u se d in t his system h ave
been ma nufactured by Te ktronix, Inc. Or der all special
p arts directly from t h e local Te ktronix Fiel d Office or
represe ntative .
Orderi ng Proce dure. Wh en or dering replacement parts
from Te ktronix, Inc., please i nclude the following minim um i nformation:
1 . I nstrument ty p e ( FG 504) .
2. I nstrument serial n umber (for exam ple, Β040251) .
3. Α description of the part (if electrical, include t he
ci rcuit number).
4. Te ktronix part number .
Please do not return any instruments or p arts before
receivi ng d irections from Te k tronix, I nc.
Α listi ng of Te ktron ix Field Offices, Service Centers,
an d Re p rese ntatives can be found i n t h e Te ktronix
P ro d uct Catalog and Su p plements.
NO ΤΕ
Do not attempt to op erate th e instrument unless
8Ο ΤΗ plug in car ds are connected to the mainframe.
PA RTS O R D ER I NG A N D REPLACI N G
Or d eri ng
Standard P arts . All electrical and mechanical replaceme nt parts ca n be o btained t hroug h t he local Te ktronix
F ield Office or re prese ntative . H owever, many of t he
standard electronic components ca n be obtai ned locally
in less time than is requi red to or der t hem from Te ktron ix,
Inc . Before p urc hasi ng or ordering re placeme nt p arts,
chec k t he Replaceable P arts lists for val ue, tolerance,
rating, and d escri p tion . Wh en selecting re placeme nt
5-6
CU STO MIZI NG
Customizing the Interface
I n put and output accesstothe FG 504 is available at t h e
rear of the floati ng interface and main circ uit boards.
F igure 5-2 identifies the contacts and their respective Ι /Ο
assignments.
Α power module mainframe optio n (Option 2) is
availa ble that provi d es α rear- panel, multi-pin co nn ector
to whic h Ι /Ο lines can b e h ard-wired for external access .
Also p ossible are inter-com partment co nn ections wit h
ot her p lug-i n mo dules in multi p le-compartme nt mainframes .
REV Α APR 1980
Mai ntenance- F G 504 (S N Β040000 & UP I
Α slot between pi ns 23 and 24 on the rear co nn ectors
identifies the F G 504 as α member of t he signal source
family . If the interface is customize d , i nsert barriers in the
corres pond i ng positions of the power mod ule j ac k to
p reve nt ot herthan signal source p lug-i nsfrom being used
in t hose compartments . Th is p rotects t he plug-in shoul d
specialized co n nections be made to those com partments.
Cons ult the B uilding Α System sectio n of t he power
module ma nu al for furt her information .
Custom Timi ng Capacitor Selectio n
Th is feat u re allows th e userto select α swept freque n cy
ra nge . P lace the MULTI PL I ER i n t he .5 Χ 10' position. Th e
factory installe d capacitor provides α swept ra nge of
20 Hz to 20 kH z. For exam p le, to calculate α custom
range, assume α swe pt frequency range of 10 Hz to 10 kH z
is desired. Figure 1-2s howst h atnofixe d multiplier setting
incl ud es the d esired limits . Th e value of t h e ca p acitort hat
m ust be installed is determi n e d by the following formula:
CCUS
REV Α APR
1980
= 2200
F ΜΑΧ
w here Cc us is in μF; and FΜΑΧ, is the maximum freq ue ncy
re q u ired. Apply t he formula to the exam ple :
Cc us = 0.22 μF.
U se α ca p acitor of any desire d value. If the capacitor is
mou nted in the i nstrume nt, ph ysical size is th e only limitation . L ow leakage capacitors using mylar as dielectrics
provi de t he truest waveforms.
Ph ase
M o d ulated
Operation
Α ju mper located on the L oo p board allows t h e V CF
NPUT to fun ction as α phase modulating in pu t w hen the
F G 504 is operated i n t he PH AS E L OC K loop mode. The
location of t h is ju m per is show n i n t he illustration on th e
Internal Adj ustments P rocedure foldout page at the rear of
this manual . The phase mo d ulating i n put voltage limits are
±2 .5 V, wit h an upper fr eq ue ncy limit of 1 kH z. Wh en
phase locked, the phase mo du lati ng voltage varies t he
output ph ase by approximately 5°/V.
I
5-7
Mai nte nance-FG 504 (S N Β040000 & UP)
U SI N G THE RE A R IN T ERFAC E CO NNE CTO R S
(See
Figure 5-2.)
Out put
Swee p Trigger In put
Th is termi nal is connecte d to the front panel O UTPU T
connectorthrough α 30 kQ resistor . The common terminal
for this output is p i n 27 Α (Main boar d only).
This termi nal is connected to the front p anel S WP TRIG
I NPUT co nn ector thro ugh α 1 .5 kΩ resistor. U se chassis
grou nd for t he return circuit.
Swee p R eset Output
Trigge r Out p ut
Α positive-goi n g pulsefrom about-13 Vtoabout+9 V
occurs at this conn ection at t he time t h e swee p resets .
This output is d esig ned to drive at least 10 kΩ. The p ulse
can be used to raise th e p en on α c hart recor d er when
d oi ng sweep frequ ency tests on filters or ot her d evices or
as end-of-sweep trigger for an external device . Co nn ect
t he ot her lead to chassis grou nd.,
This connection is madethroug h α 510 Ω resistortot he
front p anel TRIG O UTPU T co nn ector. U se connection
27 Β for t he retu rn circuit.
L inear
Sweep Output
This te rmi nal is connecte d to the output of the swee p
ge nerator th ro ugh α 1 k Ω resistor. U se chassis grou nd as
t h e return circuit. The waveform at this terminal is
identical with thewaveform at the front p anel L I N SWEEP
O UTPU Tterminal except i n t h e STOP FRE Q mo de. Inthe
STOP FREQ mode t his rear connectio n continues to
outpu t t he linear sweep ramp while the front panel
connection outputs α do voltage equivalent to the peak
ramp voltage. To ma ke th e output at t he rear terminal th e
same as t he L I N S WEEP O UTPU T terminal, remove the
lower end of R 1525 from the F unctio n board. Co nn ect an
eight inch wire from t he lower end of R 1525 to the lower
end of R 1520 also located on t he F unctio n board . The
exact locatio n of these resistors can be found from the
R ep laceable Parts Locatio n Gri d.
Ph ase
L oc k
Error V oltage
The signal at this termi nal is the output of the phase
locked loop filter . An output of 0 V i ndicatest he r eference
freq uency is t he same ast he free-run freque ncy . Α voltage
of +10 V (o pen circuit) indicates α ge nerator output
freque ncy of about 10 dial d ivisio ns h ig her t han free-run
freq uency, and -10 V (o pen circuit) i ndicates agenerator
freq uency about 10 d ial divisions lower t han the free-ru n
frequency . The out put impe d ance is 1 ΚΩ . U se the chassis
ground as t h e retu rn circuit.
Trigger I nput
This co nn ection h as the same d o in put characteristics
as the front p anel TR IGG ER I NPUT connector. Use t h e
chassis as t he return circuit.
AM In put
V CF In put
Th is input h as th e same in put c h aracteristics asth e ΑΜ
NPUT co nn ection on thefront panel . U sechassis grou nd
for t he circuit return.
This co nn ection has t he same i nput characteristics as
the front pa nel VCF I NPUT co nn ector. U se co ntact 22 Β αs
the return circuit .
I
5- 8
REV Α A PR 1980
M ai nte n a nce-F G
504 (S N Β 040000 & UP)
RE A R I N T ERFAC E CO NNE CTO R ASSIG NMEN TS
MAIN
BOA R D
PIN #
Β
FL OATI N G
Α
Β
NC
28
NC
27 O U T PU T CO MM O N
NC
26
NC
NC
25
NC
24
NC
NC
O U TPUT (30 Κ)
SIG N A L SO UR CE PLUG-IN
BARR I ER S L OT
23
NC
NC
22
NC
NC
21
NC
NC
20
NC
NC
19
NC
NC
18
NC
NC
NC
17
16
NC
NC
NC
15
NC
NC
NC
14
13
NC
NC
+33.5 VO LTS
12
+33.5 VO L TS
CO LLE CTO R LEAD
ΡΝΡ S ER I E S PASS
11
BAS E
NC
10
EM ITTER ΡΝΡ S ER I ES PASS
G ND
9
GND
-33 .5 VO LTS
8
-33.5 VO L TS
CO LLECTO R ΝΡΝ
S ER I E S P ASS
7
EM ITT ER ΝΡΝ S ER I E S
P ASS
B A RR I ER S L OTS
6
BAS E
NC
5
NC
G ND
4
G ND
P ASS
Α
T R IG O U T CO MM O N
28
NC
T R IG O U T PU T
27
GND
PH AS E L OC K ERR O R
VO LTAG E
26
SWP RE S ET O UT PU T
TR IGG ER/GAT E CO MM O N
25
TR IGG ER/GAT E I NPU T
24
L I NE A R S WEEP O UT PUT
NC
B A RR I ER S L OT
NC
23
AM I NPU T
VC F I NPUT COMM O N
22
SWEEP T R IGG ER IN
VC F I NPU T
21
NC
NC
20
NC
19
NC
NC
18
NC
NC
NC
17
NC
NC
16
NC
NC
15
NC
NC
14
NC
25 V AC WI N DI NG
13
25 V AC WI N DI N G
NC
12
NC
CO LLECTO R LE AD
ΡΝΡ S ERI ES P ASS
11
BAS E
GND
9
G ND
NC
8
NC
CO LLE CTO R ΝΡΝ
S ERI ES P ASS
7
EM ITT ER ΝΡΝ S ER I E S
P ASS
s
LE AD ΡΝΡ
S ER I E S PASS
NC
PIN #
SIG N A L SO UR C E PLUG-IN
NC
TM 500
B OA RD
NC
LE AD ΡΝΡ
S ER I E S PASS
10 EM ITT ER ΡΝΡ S Ε RΙΕS PASS
BARR I ER S LOTS
N C 6 BAS E ΝΡΝ
TM 500
ΝΡΝ S ER I E S
PASS
S ERI ES
17.5VAC
5
17 .5VAC
GND
GND
4
GND
3
GND
GND
3
GND
+11 .5 VO L TS
2
+11 .5 VO L TS
2
+11 .5 VO LTS
NC
1
NC
+11 .5 VO LTS
25 V AC WI N DI N G
1
25 V AC WI N DI N G
2655-04Α
F ig.
REV Α A PR 1980
5-2.
R ear
Interface Connector Assig n ments.
5-9
Maintenance-FG 504 (S N Β040000 & UP)
Ta ble 5-2
M AI NTENANCE AIDS
nt
The followi ng mai nte nance ai ds inclu de items re q uired for some mainte nance procedures i n this i nstrume nt. Eq uivale
haracteristics
are
similar.
p ro d ucts may be su bstit uted for exam ples give n providi ng c
U se
S pecifications
Description
E xample
1 . Sol deri ng Iron
15 Watt
Ge neral sol dering
and unsoldering
ΑΝΤΕΧ PRECISIO N
M odel C
2. Screwdriver
Ph ilips
#1 ti p
Assembly and
Disassembly
Xcelite M odel Χ108
3. Screwdriver
Ph illips
#2 tip
Assembly an d
Disassembly
Xcelite M odel Χ102
4. Screwd river
Three-inc h shaft;
3/32" flat b it
Ge neral
Xcelite R3323
5. Torq ue Screwd rive r
1 .5 inchpou nd s
FUNCTIO N switch
assembly
St urtevant- Ric hmo nt
Torq ue Pro d ucts M odel
PM-5 Roto-Torq
1/4", 5/16"
3/8", 7/16"
Ge neral
Xcelite #8, #10,
#12 & #14
11/16"
Ge neral
6.
N ut drivers
7. Open En d W renc h
8. Solde r Wic k
Unsoldering
H ex W ik #887-10
9. Lubrica nt
Versil ube
FUNCTIO N switc h
lubrication
Te ktronix Part No .
006-1353-00
10. Spray Clea ner
No
N oise
FUN CTIO N switch
pad clea ni ng
Te ktronix Part No.
006-0442-02
11 . V acuu m
Desoldering Tool
Antistatic
General
Te ktronix Part No .
003-0795-00
12 . I.C. E xtracting
Tool
Ge neral
Te ktronix P art No .
003-0619-00
13 . Cam Switch
Repair Kit
Cam switches
Te ktronix P art No .
040-0541-00
14. Extend er Ca bles
Ge neral
Te ktron ix P art No .
067-0645-02
5- 1 0
@ APR Ι L 198Π
Section 6- FG 504 (S N Β040000 & UP)
O P TIO N S
Th ere are no options for t he F G 504 at t he time of this pri nti ng .
Section 7- FG 504 (SN Β040000 & up)
REPL AC EA BLE
ELE CT R ICA L PA RTS
PARTS O RDER ING I NFORMATION
Re p lace m en t pa rts are availa b le f ro m or t h roug h you r local Te k tro n ix, Inc . Fiel d Office
o r represe n tative .
C ha n ges to Te k tro n ix i n stru me n ts are so meti mes ma d e to acco mm o d ate i mp rove d
com p o nents as th ey become availa ble, a nd to give you t h e be nefit of t he latest circu it
i m proveme n ts develo p ed in ou r e n gi n eeri n g de p artme nt. It is t h erefore imp orta nt, wh e n
ord e r i n g parts, to i n clu d e t h e following i n fo rmatio n in your o rd er: Pa r t nu mber, i n strume n t
ty p e o r num ber, se r ial nu mber, and m o d ificatio n nu m ber if a pp lica b le .
If α p art you have or de red has bee n re p lace d wit h α new o r i m proved p a r t, yo u r local
Tek t ro n ix, Inc . Fiel d Office o r represe n tative will co n tactyo u co ncerni n g any c h an ge i n p art
nu m be r.
C h a nge i n formatio n , if any, is locate d at t h e rear of t h is ma nu al .
S PECIAL
NOTES AND SY MBO L S
ΧΟΟΟ
Pa rt first add ed at t h is serial numb er
ΟΟΧ
Pa rt removed after t h is se r ial n u m b er
t
ITEM NAME
In t h e Pa r ts List, an Item Na m e is se p ar ate d from t h e d escri ptio n b y α colon ( :) .
Because of s pace li m itatio ns, an Item Na me may someti m es a pp ea r as incom p lete . Fo r
furt h e r Item Name i d entification, t h e U .S . Federal Catalogi n g H a ndboo k 1-16-1 can be
utilized wh e r e possi b le .
ABBREV IATION S
ACT R
ASSY
CA P
C ER
CKT
CO MP
CO NN
EL CTL T
ELE C
I N CA N D
LE D
N O NW I R
REV Α , FEB 1980
ACT U ATO R
ASS EMBL Y
CA P ACITOR
CER A M IC
CI R C U IT
CO MP OSITIO N
CO NNE CTO R
ELE CT R O L YTIC
ELE CT R ICA L
I N CA N D ESC ENT
LIG HT EM ITTJ N G DIOD E
NON WI REW O UN D
PL STC
QTZ
RE CP
RES
RF
S EL
S EM ICO N D
S EN S
VAR
WW
X FMR
XTA L
PL ASTIC
Q U ARTZ
RECEP TAC LE
RESISTO R
R ADIO FREQ UEN CY
S ELECT E D
S EM ICO N D U CTO R
S EN SITI VE
V AR IA BLE
W I REW O UN D
T R A N S F O RMER
C R YSTA L
7- 1
Replaceable
E lect rical P arts-FG 504 (S N Β040000 & up)
C R OSS I N D E X- MFR .
Mfr .
Co d e
OOO DN
00853
01121
01295
02735
03508
04222
04713
07263
12697
13511
14193
14433
14752
15238
17856
18324
19396
21847
24546
27014
32997
50157
50434
53184
55210
56289
59660
71400
71590
72982
73138
73899
74970
75042
75915
80009
90201
91418
91637
95275
7-2
COD E
Man ufact u rer
F USE S UNLIMITED
SAN GAMO ELECTRIC CO ., S . CAROLINA DIV .
ALLEN-BRADLEY CO MP ANY
TE XAS IN STRUMENTS, INC ., SEMICO NDUCTOR
G ROUP
R CA CORP ORATION , SOLID STATE DI VISION
GENERAL ELEC TRIC COMPANY, SEMI-CONDUCTOR
PRODUCTS DEPARTMENT
AVX CERAMI CS, DI VI SION O F AVX CO RP .
MOTOROLA, INC ., SEMICONDUCTOR PR OD . DIV .
F AIR C HILD S EMI CONDUC TOR , Α DIV . OF
FAIR CH ILD CAMERA AND IN STRUMENT CO RP .
CLAROS TAT MFG . CO ., INC .
AMPHENOL C ARDRE DIV ., BUNKER RAMO CO RP .
CAL-R, IN C .
ΙΤΤ SEMICO ND UCTORS
ELECTRO CUBE INC .
ΙΤΤ SEMICO NDUC TORS, Α DIVIS ION OF INTE R
N ATI ONAL TELEPHO NE AND TELE GRAPH CO RP .
SILICONI X, INC .
SIGNETI CS CORP .
ILLIN OIS TOOL WORKS, INC . ΡΑΚΤΑΟΝ DIV .
AE RTE CH INDUSTRIE S
CORNING GLASS WORKS, ELECTRO NI C
COMPONENT S DIVIS ION
NATIONAL SEMICO ND UC TOR CO RP .
BOURN S, INC ., TRIMPOT PRODU CTS DIV .
MIDWE ST COMPONENT S IN C.
HEWLETT-P ACKARD COMPANY
XC IT ON CO RP ORATION
GETTI G ENG . AND MFG. CO MP ANY
SPRAGU E ELECTRIC CO .
TU SONI X IN C.
BUSSMAN MFG., DI V IS ION O F MCG RAWEDISO N CO .
CENTRALAB ELECTRONI CS, DIV . OF
G LOBE-UNION, INC .
ERIE TE CHN OLOG ICAL PRODU CTS, IN C .
BE CKMAN IN STRUMENT S, INC ., HELIPOT DIV.
JF D ELECTRONI CS CO MP ONENT S CORP .
JOHN SON , Ε . F ., CO .
T RW ELECTRONI C COMP ONENT S, I RC FI XED
RE S ISTO R S, PHILADELPHIA DI VIS ION
LITTELFUS E, INC .
TEKTRONIX, IN C .
MA LL ORY CA PAC IT OR CO ., DIV . OF
Ρ . Α. MA LLORY AND CO ., IN C .
RADI O MA TE RIALS COMPANY, DIV . OF Ρ . Α.
MALL ORY AND COMPANY, IN C .
DALE ELE CTRONI CS, IN C .
VIT RAM ON, IN C .
NU MBER
TO
MANUF ACTURER
Ad d ress
City, State, Zi p
C A 91311
PI CKEN S, SC 29671
MILWA UKEE, WI 53204
9740 COZYCRAFT AV EN UE
Ρ 0 BOX 128
1201 2ND STREET SOUTH
Ρ 0 BOX 5012, 13500 Ν C ENTRAL
EXPRE SS WAY
ROUTE 202
C HA T SWOR TH ,
ELECTRONI CS P ARK
Ρ 0 BOX 867, 19TH AVE . SOUTH
5005 Ε MCDOWELL RD, PO BOX 20923
SYRACUSE , NY 13201
MYRTLE BEACH, SC 29577
PHOENIX, AZ 85036
464 ELLI S S TREET
L OWE R WASHINGT O N S TREET
MOUNTAIN VIE W, CA 94042
DOVER, NH 03820
LOS GA TOS, CA 95030
SANTA MONI CA, CA 90404
1601 OLYMPIC BLVD .
3301 ELECTRONI CS WAY
Ρ 0 BOX 3049
1710 S . DEL MAR AVE .
DALLAS, TX 75222
SOME RVILLE, NY 08876
WE ST PALM BEACH, FL 33402
SAN GABRIEL, CA 91776
Ρ . Ο . BOX 168, 500 BROADWAY
2201 L AU RELWOOD DRIVE
811 Ε . ARQUES
900 FOLLIN LANE, SE
825 STEWA RT DR .
LAWRENCE, MA 01841
SANT A CLAR A, CA 95054
SUNNYVALE, C A 94086
VIENNA, VA 22180
SUNNYVALE, CA 94086
550 HI GH S TREET
2900 SEMICONDUCTOR DR .
1200 CO LUMBIA AVE .
Ρ . 0 . BOX 787
1981 PORT CITY BLV D .
640 PAGE MILL ROAD
5 HEMLOCK STREET
PO BOX 85, OFF ROUTE 45
87 MAR SHALL S T .
2155 Ν FORBE S BLVD
BRADFORD, PA 16701
SANTA C LA RA, CA 95051
RI VERSIDE, CA 92507
MU SKE GO N, MI 49443
PALO ALTO, CA 94304
LATHAM , NY 12110
S PRIN G MILL S, PA 16875
NORTH ADAMS, MA 01247
TU CSON , AZ 85705
2536 W . UNIVER SIT Y ST .
ST .
Ρ 0 BOX 858
644 W . 12TH ST .
2500 H ARB OR BLVD .
PINETREE R OAD
299 10TH AVE . 5 . W .
F ORT DODGE , IA 50501
E RIE, PA 16512
F ULLERTON, CA 92634
OXFORD , NC 27565
401 Ν . BROAD 5 Τ .
800 Ε . NORTHWES T ΗWΥ
Ρ 0 BOX 500
3029 Ε . W ASHINGTON S TREET
Ρ . 0 . BOX 372
PHILADELPHIA, PA 19108
DE S PLAINE S, IL 60016
BEAVERT ON, OR 97077
4242 W BRYN MAWR
Ρ. 0 . BOX 609
Ρ 0 BOX 544
C HI CAGO, IL 60646
LO UIS,
ΜΟ 63107
WASECA, MN 56093
INDIANAPOLI S, IN 46206
CO LUMBUS, NE 68601
BRIDGEPORT, C T 06601
REV NOV 1981
Electrical Parts-FG 504 (SN Β 040000 & up)
Re placeable
C kt No .
Te ktronix
P art No.
Mfr
Code
M fr Part Num ber
80009
80009
80009
80009
80009
80009
670-3842-03
670-3842-04
670-3842-05
670-3842-06
670-3841-03
670-3841-04
CKT BOARD ASSY : LOOP
CKT BOARD ASSY : LOOP
CKT BOARD ASSY : FL OAT INTE RFAC E
CKT BOARD ASSY : FL OAT INTERFA CE
80009
80009
80009
80009
670-3840-02
670-3840-03
670-3797-02
670-3797-03
72982
59660
91418
59660
91418
91418
8131 Ν145Χ5Α0104 Κ
831 -519-ZSU-102 Ρ
S P103Z 151-4R9
374-018-COK0109C
5Ρ103Ζ 151-4Α9
SP103Z 151-4Α9
S P103 Z 151-4Α9
Serial/ M o d el No.
Dscont
Eff
Name & Description
670-3842-03
670-3842-04
670-3842-05
670-3842-06
670-3841-03
670-3841-04
Β040000
Β056332
Β057810
Β058290
Β040000
Β 058450
Β056331
Β057809
Β 058289
Α3
Α3
Α4
Α4
670-3840-02
670-3840-03
670-3797-02
670-3797-03
Β040000
Β056332
Β040000
Β057810
Β056331
C45
C72
C78
C80
C95
C98
283-0167-00
283-0000-00
283-0003-00
281-0599-00
283-0003-00
283-0003-00
CAP .,FXD ,C ER
0A P ., F XΩ ,C ER
CAP .,FXD ,C ER
CAP .,FXD ,C ER
CAP .,FXD ,C ER
CAP .,FXD ,C ER
C106
C195
C210
C240
C240
C242
283-0003-00
281-0123-00
285-1068-00
283-0361-00
283-0620-00
28 1 -0158-00
CAP .,FXD ,C ER DI :O .O lU F , +80- 20 %,150V
CAP ., VAR ,C ER DI :5-25PF ,100 V
CAP ., FXD , PL STC :5UF ,1%,200V
CAP .,FXD ,C ER DI :46o PF ,1%,50V
CAP .,FXD,MI CA D :470 PF ,1%,300V
CAP .,VAR ,C ER D 1 :7-45PF , 50 V
91418
59660
14752
72982
00853
73899
518-00 ΟΑ5-25
230B1C 505F
A02BL OA2LC1G461 F
D 153F471 F0
DVJ-5006
C244
C246
C247
C248
C250
C255
285-1066-00
285-1067-00
283-0238-00
285-1050-00
285-1062-00
283-0167-00
CAP ., FXD , PL STC :0 .05UF ,1%,200V
0A P ., FXD , PL STC : 0 . 5UF ,1%,200V
CAP .,FXD,C ER DI :O .O lUF ,10%,SOV
0 AP .,FXD,PL STC :O . lU F,l %,200V
CAP ., FXD, PL STC : 0 . 005UF ,0 .1%,200V
C AP .,FXD ,C ER DI :O . lUF ,10%,100V
14752
14752
72982
14752
19396
72982
230B1C503F
23081C504F
8121 Ν075Χ7Α0103 Κ
23081C104F
502F02 PP460
8131 Ν 145Χ5Α0104 Κ
C275
C290
C300
C315
C325
C327
290-0534-00
290-0534-00
281-0653-00
283-0003-00
281-0158-00
281-0617-00
CA P ., FX D , EL CTLT :1 UF ,20%,35γi
CAP .,FXD,EL CTLT :lUF ,20%,35V
CAP .,FXD ,C ER DI :3 .3 PF ,30%,200V
CAP .,FXD ,CER DI :O .O l UF , +80 -20 %,150V
CAP ., VAR ,CER D1 :7-45PF , 50 V
CAP .,FXD ,CER DI :15PF ,10%,200 V
56289
56289
59660
91418
73899
59660
196D105X0035 HA1
196D105X0035HA1
374-018-COJ0339 F
S P 103 Z151-4R9
DVJ -5006
374- 018-COG0150 K
C329
C331
C340
C342
C344
C346
283-0639-00
283-0672-00
281-0158-00
281-0617-00
283-0639-00
283-0672-00
CAP .,FXD,MI CA D :56PF ,1%,100 V
CA P .,FXD,MI CA D :20o PF ,1%, 500V
CAP .,VAR ,CER D1 :7-45 PF , 50 V
CA P .,FXD ,CER DI :15PF ,10%,200V
CA P .,FXD,MI CA D :56PF ,1%,100V
CAP .,FXD,MI CA D :200 PF ,1%, 500 V
00853
00853
73899
59660
00853
00853
D 151E560F0
D 155F 2010 F0
DVJ-5006
C380
C382
C387
C475
C480
C494
283-0000-00
283-0648-00
283-0003-00
283-0003-00
283-0003-00
283-0220-00
CAP .,FXD ,C ER DI : 0 . 001UF , +100 -0 %, 500V
CA P .,FXD,MI CA D : I OPF ,5%,100V
CA P .,FXD ,C ER DI :O .O lUF ,+80-20%,150 V
CAP .,FXD ,C ER DI :O .O I UF , +80 -20 %,150V
CA P .,FXD ,C ER DI :O .O IUF ,+80-20 %,150 V
CA P ., FXD ,C ER DI :O .O I UF ,20%,SO V
59660
00853
91418
91418
91418
72982
831-519-25U-102 Ρ
D 151C100D0
S P 103Z 151-4R9
S P 103Z 151-4R9
S P 103Z151-4R9
8121 N075X7R0103 M
C495
C510
C534
C550
C570
C576
283-0094-00
283-0065-00
290-0534-00
283-0220-00
283-0220-00
283-0060-00
CAP .,F XD ,C ER DI :27PF ,10%,200V
CAP .,FXD ,C ER DI :O .OO IUF ,5%,100V
CAP .,FXD,EL CTLT :l UF ,20%,35V
CAP .,FXD ,C ER DI :0 .01 UF ,20%, 50V
CAP .,FXD ,CER DI :O .O lUF ,20%,SOV
CAP .,FXD ,CER DI : lOO PF ,5%,200V
59660
72982
56289
72982
72982
72982
835-583-COG0270 K
805-518-Z5DO102 J
196D105X0035 HA1
8121 Ν075Χ7Α0103 Μ
8121 Ν075Χ7 Α 0103Μ
855-535 U2JI OIJ
C588
C592
C594
C596
C598
C612
290-0534-00
283-0632-00
283-0594-00
283-0238-00
290-0522-00
283-0220-00
0AP .,FXD,EL CTLT :l UF ,20%,35 V
CAP .,F XD,MI CA D :87PF ,1%,100V
CAP .,FXD,MI CA D :O .OO IUF ,1%,100V
CAP ., FXD,C ER DI : 0 . 01 U F ,10%, 50 V
0AP .,FXD,ELCTLT :l U F ,20%,SOV
CAP .,FXD ,C ER DI : 0 . 01 UF ,20%, 50 V
56289
00853
00853
72982
56289
72982
REV ΜΑΥ 1982
Β040000
Β056332
Β 058449
Β057809
Β056331
CKT
CKT
CKT
CKT
CKT
C KT
B OARD ASSY :MAIN
B OARD ASSY :MAIN
BOARD ASS Y :MAIN
BOARD ASSY :MAIN
BOARD ASS Y :FUNCTI ON
BOARD ASSY : FUNCTION
Α1
Α1
Α1
Α1
Α2
Α2
DI :O . lUF ,10%,100 V
DI :O .OO IUF , +100 -0%,500V
DI : 0 . 01UF ,+80-20 %,150V
DI :1 PF , +/ -0 .25PF ,500 V
DI : 0 . 01 UF , +80 -20 %,150 V
DI : 0 . 01 UF ,+80-20 %,150 V
374-018-0000150 K
D151 E560 F 0
D 155F 2010 F0
196D105X0035 HA1
D 151 E 870F0
D 151F102F0
8121 N075X7 R0103 K
196D105XOOSOHAI
8121 N075X7RO103 M
7-3
Replaceable E lectr ical P arts-FG 504 (SN Β040000 & up)
C k t No .
Tek tronix
P art No .
Serial/ M odel No.
Dscont
E ff
M fr
N ame & Description
Code
M fr Part Nu mb er
C638
C642
C712
C745
C784
C790
283-0111-00
283-0649-00
283-0638-00
281-0516-00
283-0597-00
290-0534-00
CAP .,FXD ,CER DI :O . lUF ,20%,SOV
CAP .,FXD,MI CA D : 1 O5 PF ,1%,300V
CA P .,FXD,MI CA D :130PF ,1%, lOO V
CAP .,FXD ,CER DI :39PF , +/ -3 .9 PF ,SOO V
CAP .,FXD,MI CA D :470 PF ,10%,300 V
0AP .,FXD,EL CTLT :lUF ,20%,35V
72982
00853
00853
59660
00853
56289
8121 -N08825U104M
D 153F1050 F 0
D 151 F131F0
301-000 U2J0390 K
D 153E471 K0
196D105X0035 HA 1
C812
C844
C857
C880
C884
C914
283-0003-00
283-0003-00
281-0093-00
290-0534-00
290-0534-00
283-0642-00
CAP .,FXD ,CER DI :O .O lUF , +80- 20%,150V
CAP .,FXD ,CER DI :O .O IUF , +80- 20%,150V
CAP ., VAR ,CER DI :5 .5-18PF
0AP .,FXD,EL CTLT :l UF ,20%,35V
91418
91418
59660
56289
56289
00853
SP 103Z151-4 R9
SP 103Z151-4R9
C922
C928
C934
C947
C950
C955
281-0158-00
283-0220-00
283-0220-00
283-0111-00
283-0620-00
283-0220-00
CAP ., VAR ,CER D1 :7-45PF , 5OV
73899
72982
72982
72982
00853
72982
DVJ-5006
C958
C965
C972
C975
C976
C978
283-0220-00
283-0220-00
283-0353-00
290-0525-00
283-0353-00
290-0525-00
CA P .,FXD ,C ER DI :O .O 1UF ,20%,50V
CA P .,FXD ,C ER DI :O .O lUF ,20%,50V
CA P .,FXD ,C ER DI :O . lUF ,10%,SOV
0AP ., FXD ,ELCTIT :4 .7 UF ,20%, 5OV
CAP .,FXD ,C ER DI :O . lUF ,10%,50V
CAP ., FXD ,ELCTLT:4 .7 UF ,20%,50V
72982
72982
95275
56289
95275
56289
8121 N075X7R0103M
8121 N075X7R0103M
VJ 1210Y104K-Η
196D 475X0050KA1
VJ 1210Y104K-Η
196D475X0050KA1
C1036
C1047
C1050
C1072
C1075
C1076
283-0220-00
283-0111-00
283-0620-00
283-0353-00
290-0525-00
283-0353-00
CAP ., FXD ,C ER DI :O .O lUF ,20%, 5 OV
CAP ., FXD ,C ER DI :O . lUF ,20%,50 V
CAP .,FXD,MI CA D:470 PF ,1%,300V
C AP .,FXD ,C ER DI :O . lUF ,10%,SOV
CAP ., FXD , ELC TLT:4 .7 UF ,20%, 5 OV
CAP .,FXD ,C ER DI :O . lUF ,10%,SOV
72982
72982
00853
95275
56289
95275
8121 Ν075Χ7Α0103Μ
8121 -N088ZSU104M
D 153 F471 F0
VJ 1210Y104 K-Η
196D475X0050KA1
VJ 1210Y104K-Η
C1078
C1090
C1092
C1145
C1146
C1154
290-0525-00
281-0138-00
281-0158-00
283-0220-00
283-0111-00
290-0525-00
CAP ., FXD , ELCTLT:4 .7 UF ,20%,50V
CAP ., VAR , PLSTC :0 .4-1 .2PF ,600 V
CAP ., VAR ,C ER D1 :7-45PF ,50V
CAP .,FXD ,C ER DI :O .O lUF ,20%,SOV
CAP .,FXD ,C ER DI :O . IUF ,20%,SOV
0AP ., FXD , ELCTLT :4 .7UF ,20%, 5OV
56289
74970
73899
72982
72982
56289
196D475X0050KA1
273-0051-001
DVJ-5006
8121 N075X7R0103M
8121 -N088Z5U104M
196D475X0050KA1
C1156
C1160
C1174
C1176
C1180
C1200
283-0220-00
Ζ83-0220-00
290-0525-00
283-0220-00
283-0220-00
281-0662-00
CAP .,FXD ,C ER DI :O .O lUF ,20%,50V
CAP .,FXD ,C ER DI :O .O lUF ,20%,50V
CAP ., F XD , ELCTLT :4 .7 UF ,20%, 5OV
CAP .,FXD ,C ER DI :O .O 1UF ,20%, 5OV
C AP .,FXD ,C ER DI :O .O lU F ,20%,SOV
C AP .,FXD ,C ER DI : IOPF , +/ -O .S PF ,SOOV
72982
72982
56289
72982
72982
59660
8121 Ν075Χ7Α0103Μ
8121 N075X7R0103M
196D475X0050KA1
8121 Ν075Χ7Α0103 Μ
8121 N075X7 RO103M
301 -000 H3MO l00D
C1204
C1215
C1217
C1258
C1284
C1295
283-0003-00
283-0003-00
290-0527-00
283-0003-00
290-0525-00
283-0003-00
CAP .,FXD ,C ER DI :O .O IUF , +80 -20 %,150V
CAP .,FXD ,C ER DI :O .O 1UF , +80-20 %,150V
C AP ., FXD , ELCTLT :15UF ,20%,20V
C AP .,FXD ,C ER DI :O .O 1UF , +80 -20 %,150V
91418
91418
90201
91418
56289
91418
S P103Z 151-4R9
S P103Z 151-4Α9
C1322
C1330
C1340
C1380
C1392
C1394
283-0180-00
283-0167-00
283-0167-00
283-0110-00
283-0003-00
283-0003-00
CA P .,FXD ,C ER
CAP .,FXD ,C ER
CA P .,FXD ,C ER
CA P ., FXD ,C ER
CAP .,FXD ,C ER
CA P .,FXD ,C ER
72982
72982
72982
56289
91418
91418
8121 Ν204 Ε 562Μ
8131 N145X5R0104 K
8131 Ν145Χ5Α0104 Κ
19C242 B
5Ρ103Ζ 151-4R9
S P103Z 151-4Α9
C1438
C144π
C1442
C1445
C1462
C1468
290-0536-00
285-0808-00
285-0862-00
283-0003-00
281-0523-00
281-0524-00
0A P ., FXD , ELC TLT : l OUF ,20%,25V
0A P ., FXD , PL STC :O . lUF ,10%,SOV
C AP ., FXD , PL STC :0 .001,10%, lOOV
CAP .,FXD ,C ER DI :O .O 1UF , +80-20 %,150V
C AP .,FXD ,C ER DI : l00 PF , +/ -20PF ,SOOV
CA P ., FXD ,C ER DI :150PF , +/ -30PF , 5OOV
90201
56289
56289
91418
72982
04222
TDC106 M025FL
LP 66A1 A104K004
410Ρ 10291
S P 103Z 151-4R9
301 -000U2MO IO1 M
7001-1381
7- 4
0A P .,FXD,EL CTLT :lUF ,20%,35 V
CAP .,FXD,MI CA D :33PF , +/ -0 .5 PF ,300 V
CAP .,FXD ,C ER DI :O .O IUF ,20%,50V
CAP .,FXD ,C ER DI :O .O lUF ,20%,50V
CA P .,FXD ,C ER DI :O . lUF ,20%,SOV
CAP .,FXD,MI CA D :470 PF ,1%,300V
CAP .,FXD ,C ER DI :O .O lUF ,20%,50V
CAP ., FXD , ELCTLT :4 .7UF ,20%,50 V
CAP .,FXD ,C ER DI :O .O 1UF , +80 -20 %,150V
DI
DI
DI
DI
DI
DI
:560oPF ,20%,200 V
:O . lUF,10%, l OO V
:O . lUF,10%,100 V
:O .OO5 UF , +80-20 %,150V
:O .O 1UF , +80- 20 %,150V
:O .O 1UF , +80 -20 %,150V
,
538-011Α5 .5-18
196D105XO035 HA1
196D 105X0035 HA 1
D 10-S E330G
8121 N075X7RO103M
8121 Ν075Χ7 Α0103 Μ
8121 -ΝΟ88 Ζ5υ104Μ
D 153F471 F0
8121 N075X7 R0103M
TDC156 M020FL
S P 103Z 151-4 R 9
196D 475X0050 KA1
S P 103Z 151-4R9
REV ΜΑΥ 1982
R ep lacea b le E lectri cal Pa rts- FG 504 (S N 8040000 & up)
C k t No .
Te ktro n ix
P art No .
Se r ial/ M odel No .
E ff
Dsco n t
M fr
Code
N ame & Descri p tio n
M fr P art N um b er
91418
04222
72982
59660
72982
72982
S P 103Z151-4Α9
CAP .,FXD ,CER DI :0 .005 UF , +100-0%,500V
CAP .,FXD,EL CTLT :50UF, +75 -10 %,50V
CAP .,FXD,CER DI :0 .005UF , +100-0%,500V
CAP .,FXD ,CER DI :O .O 1UF ,20%, 5OV
CA P .,FXD,EL CTLT :50UF, +75 -10 %,50V
0A P ., FXD, EL CTLT : lO0 UF ,20%,20V
72982
56289
72982
72982
56289
90201
831-559 Ε502Ρ
30 D506GO5ODD9
831-559 Ε502Ρ
8121 ΝΟ 75Χ7Α0103Μ
30 D506GO5ODD9
TD C107M020WLD
283-0003-00
290-0519-00
283-0003-00
283-0220-00
290-0786-00
290-0786-00
CAP .,FXD,C ER DI :O .O 1UF , +80- 20 %,150V
0A P ., FXD, EL CTLT : lO0UF ,20%,20V
CA P .,FXD,CER DI :O .O 1UF , +80-20 %,150V
CA P .,FXD,C ER DI :O .O 1UF ,20%, 5OV
CAP ., FXD, EL CTLT :1500UF ,+50-10 %,75VDC
CAP ., FXD , EL CTLT :1500UF ,+50-10 %,75VDC
91418
90201
91418
72982
56289
56289
S P 103Z151-4R9
C1690
C1694
C1720
C1730
C1750
C1761
290-0415-00
290-0415-00
283-0001-00
290-0117-00
283-0001-00
283-0220-00
CAP ., FXD , EL CTLT :5 .6UF ,10%,35V
CA P ., FXD , ELCTLT :5 .6UF ,10%,35V
CAP .,FXD ,CER DI :0 .005UF , +100 - 0%,500V
CAP .,FXD,EL CTLT :50 UF, +75- 10 %,50V
CAP .,F XD ,CER DI :0 .005UF , +100 -0%,500V
CAP .,FXD ,CER DI :O .O lUF ,20%,50V
56289
56289
72982
56289
72982
72982
150D565X9035 B2
150D565X9035 B2
831 -559 Ε502Ρ
30 D506GO5ODD9
831 -559 Ε502Ρ
8121 Ν075Χ7ΑΟ 103Μ
C1765
C1770
C1774
C1776
C1778
C1800
290-0117-00
290-0525-00
290-0525-00
283-0220-00
290-0525-00
290-0525-00
CAP .,FXD,EL CTLT : 5OUF, +75 - 10 %, 5OV
CAP ., FXD , EL CTLT :4 .7U F ,20%, 5OV
0AP ., FXD , EL CTLT :4 .7 UF,20%, 5OV
CAP .,FXD ,CER DI :O .O lUF ,20%, 5OV
CAP ., FXD , EL CTLT :4 .7 UF ,20%,50V
CAP .,FXD,EL CTLT :4 .7 UF ,20%, 5OV
56289
56289
56289
72982
56289
56289
30 D506G050DD9
196D475XO050KA1
196 D475ΧΟ 050ΚΑ1
8121 Ν075Χ7Α0103 Μ
196D475Χ0050 ΚΑ 1
196D475XOO 5OKAI
CR 20
C R21
C R85
C R 108
CR 180
CR 182
152-0141-02
152-0141-02
152-0141-02
152-0141-02
152-0322-00
152-0322-00
SEMICOND
SEMICOND
SEMICO ND
SEMICOND
SEMICOND
SEMICOND
DEVI CE :S ILICO N,30V ,150MA
DEVI CE :S ILICO N,30V ,150MA
DEVI CE :S ILICO N,30V ,150MA
DEVI CE :S ILICO N ,30V ,150MA
DEVI CE :S ILICO N ,15V,H0T CARRIER
DEVI CE :S ILICO N ,15V,HOT CARRIER
01295
01295
01295
01295
50434
50434
IN 4152R
1 N4152R
1 N4152R
1 Ν4152Α
5082-2672
5082-2672
C R184
152-0322-00
152-0322-00
152-0322-00
152-0322-00
152-0141-02
152-0141-02
S EMICOND DEVI CE :S ILICO N ,15V,HOT CARRIER
SEMICOND DEVI CE :S ILICO N ,15V,HOT CA RRIER
SEMICOND DEVI CE :S ILICO N ,15V,H0T CARRIER
50434
50434
50434
50434
01295
01295
5082-2672
5082-2672
5082-2672
5082-2672
1 N4152 R
1 N4152 R
152-0322-00
152-0322-00
152-0322-00
152-0322-00
152-0322-00
152-0322-00
SEMICO ND
SEMICOND
SEMICO ND
SEMICOND
SEMICOND
SEMICOND
DEVI CE :S ILICO N ,15V,HOT
DEVI CE :S ILICO N ,15V,HOT
DEVI CE :S ILICO N ,15V,HOT
DEVI CE :S ILICO N ,15V,HOT
DEVICE :S ILICON,15 V,HOT
DEVI CE :S ILICON ,15V ,HOT
CARRIER
CARRIER
CARRIER
CARRIER
50434
50434
50434
50434
50434
50434
5082-2672
5082-2672
5082-2672
5082-2672
5082-2672
5082-2672
C R560
CR562
C R564
C R566
CR632
CR745
152-0141-02
152-0141-02
152-0322-00
152-0322-00
152-0141-02
152-0322-0 Ι
S EMICOND
S EMICOND
S EMICOND
S EMICOND
S EMI COND
S EMICOND
DEVI CE :S ILI CON ,30V ,150MA
DEVI CE :S ILICON ,30V ,150MA
DEVI CE :S ILICON ,15V,H0T CARRIER
DEVI CE :S ILICON ,15V,H0T CARRIER
DEVI CE :S ILICON ,30V ,150MA
DEVI CE :S ET O F 16,MATCHED F OR VF
01295
01295
50434
50434
01295
21847
ΙΝ4152 Α
1 N4152 R
5082-2672
5082-2672
1 Ν4152 Α
Α2Χ600Α
CR746
CR747
CR748
C R 750
152-0322-01
152-0322-01
152-0322-01
152-0322-01
S EMICOND DEVI CE :S ET ΟΣ 16,MATCHED F OR
S EMICOND DEVI CE :S ET O F 16,MATCHED F OR
S EMICOND DEVI C E :S ET O F 16,MATCHED FOR
SEMICOND DEVI C E :SET O F 16,MATCHE D FOR
21847
21847
21847
21847
Α2Χ600Α
Α2Χ600Α
Α2Χ600Α
Α2Χ600Α
C1478
C1492
C1494
C1504
C1520
C1608
283-0003-00
281-0524-00
281-0543-00
281-0662-00
283-0065-00
283-0220-00
CAP .,FXD ,CER
CA P.,FXD ,CER
CAP .,FXD ,CER
CAP .,FXD ,CER
CAP .,FXD ,CER
CA P.,FXD ,CER
C1612
C1630
C1650
C1661
C1665
C1670
283-0001-00
290-0117-00
283-0001-00
283-0220-00
290-0117-00
290-0519-00
C1671
C1672
C1673
C1676
C1680
C1682
CR 186
C R188
C R190
C R 218
C R 220
CR352
CR356
CR462
CR470
CR556
CR558
REV ΜΑΥ 1982
DI :O .O 1UF , +80 -20 %,150V
DI :150PF , +/ -30PF ,500V
DI :270PF ,10%, 5 OO V
DI : l OPF , +/ -O .S PF ,SOOV
DI :O .OO1UF ,5%,100V
DI :O .O lUF ,20%,SOV
SEMICOND DEVI CE :S ILICO N,15V ,HOT CA RRIER
SEMICOND DEVI CE :S ILICO N ,30V ,150MA
SEMICOND DEVI CE :S ILICO N ,30V ,150MA
CARRIER
CA RRIER
VF
VF
VF
VF
7001-1381
301055Χ5Ρ271Κ
301-OOO H3MOl00 D
805-518-Z5D0102J
8121 N075X7R0103M
TDC107MO20W LD
S P 103Z151-4 Α9
8121 N075X7R0103M
39 D793
39 D793
7- 5
Rep lacea b le E lect rical P arts- FG 504 (SN Β040000 & up)
M fr
Code
Mfr P art Nu m ber
VF
VF
VF
VF
VF
VF
21847
21847
21847
21847
21847
21847
Α2Χ600Α
Α2Χ600Α
Α2Χ600Α
Α2Χ600Α
Α2 Χ600Α
Α2Χ600Α
VF
VF
VF
VF
VF
21847
21847
21847
21847
21847
01295
Α2Χ600Α
Α2Χ600Α
Α2Χ600Α
Α2Χ600Α
Α2Χ600Α
IN4152R
S EMICOND DE VICE :SILICON,30V ,150MA
S EMICOND DEVICE :SILICON,30V,150MA
S EMICOND
S EMICOND
S EMICOND
S EMICOND
DEVICE
DEVICE
DEVICE
DEVICE
:SILICON,30V,150MA
:SILICON,30V,150MA
:SILICON,30V ,150MA
:SILICON,30V,150MA
01295
01295
01295
01295
01295
01295
IN4152R
IN4152R
IN4152R
1 Ν4152Α
1Ν4152 Α
1 N4152R
152-0141-02
152-0141-02
152-0141-02
152-0141-02
152-0141-02
152-0141-02
S EMICOND
S EMICOND
SEMICOND
SEMICOND
SEMICOND
SEMICOND
DEVICE :SILICON,30V ,150MA
DE VICE :SILICON,30V,150MA
DE VICE :SILICON,30V,150MA
DE VICE :SILICON,30V,150MA
DEVICE :SILICON,30V ,150MA
DE VICE :SILICON,30V ,150MA
01295
01295
01295
01295
01295
01295
1Ν4152Α
IN4152R
IN4152R
IN4152R
1 N4152R
IN4152R
C R1285
152-0141-02
152-0141-02
152-0141-02
152-0141-02
152-0141-02
152-0141-02
SEMICOND
SEMICOND
SEMICOND
SEMICOND
SEMICOND
01295
01295
01295
01295
01295
01295
IN4152R
IN4152R
IN4152R
IN4152R
IN4152R
IN4152R
C R1470
C R1600
CR1608
CR1630
CR1652
CR1665
152-0141-02
152-0066-00
152-0061-00
152-0066-00
152-0141-02
152-0066-00
DEVICE :SILICON,30V,150MA
DEVICE :SILICON,30V ,150MA
DEVICE :SILICON,30V,150MA
DEVICE :SILICON,30V,150MA
DE VICE :SILICON,30V,150MA
SEMICOND DE VICE :SILICON,30V,150MA
:
SEMICOND DE VICE :SILICON,30V,150MA
SEMICOND DEVICE :SILICON,400V,750MA
S EMICOND DEVICE :SILICON,175V,100MA
SEMICOND DEVICE :SILICON,400V,750MA
S EMICOND DEVICE :SILICON,30V,150MA
S EMICOND DEVICE :SILICON,400V,750MA
CR1676
CR1680
CR1682
CR1684
CR1686
CR1700
152-0066-00
152-0488-00
152-0066-00
152-0488-00
152-0488-00
152-0066-00
S EMICOND
S EMICOND
S EMICOND
S EMICOND
S EMICOND
S EMICOND
DEVICE :SILICON,400V,750MA
DE VICE :SILICON,200 V ,1500MA
DE V ICE :SILICON,400 V ,750MA
DEVICE :SILICON,200 V ,1500MA
DEVICE :SILICON,200V,1500MA
DEVICE :SILICON,400 V ,750MA
14433
04713
14433
04713
04713
14433
L G4016
CR1711
C R1730
CR1740
CR1752
C R1765
CR1776
152-0141-02
152-0066-00
152-0141-02
152-0141-02
152-0066-00
152-0066-00
SEMICOND
SEMICOND
SEMICOND
SEMICOND
SEMICOND
SEMICOND
DEVICE :SILICON,30V,150MA
DEVICE :SILICON,400V,750MA
DEVICE :SILICON,30V,150MA
DE VICE :SILICON,30V,150MA
DE VICE :SILICON,400V ,750MA
DEVICE :SILICON,400V ,750MA
01295
14433
01295
01295
14433
14433
IN4152R
LG4016
IN4152R
1 N4152R
LG4016
LG4016
CR1782
152-0066-00
SEMICOND DE VICE:SILICON,400V,750MA
14433
LG4016
D S50
D S720
D S1675
150-1033-00
150-1033-00
150-1029-00
LT EMITTING DIO:YELLO W ,585N M ,40MA ΜΑΧ
LT EMITTING DIO:YELLO W ,585NM,40MA ΜΑΧ
LT EMITTING DIO:GREEN,565NM,35MA
50434
50434
53184
HLMP 1401
ΗLΜΡ 1401
XC209G
Σ 1120
F 1615
F 1615
Σ1616
F 1616
F 1715
159-0140-00
159-0116-00
159-0153-00
159-0116-00
159-0153-00
159-0116-00
Β040000
Β057810
Β040000
Β057810
Β040000
F USE, WIRE LEAD :0 .3A,125V ,5 S EC
FUSE,CARTRIDGE :lA,125V,0 .4 SEC,0 .17 LEADS
FUSE,WIRE LEAD :1 .SA,125V ,FAST BLOW
FUSE,CARTRIDGE :lA,125V ,0 .4 SEC,0 .17 LEADS
FUSE,WIRE LEAD :1 .SA,125V,FAST BLOW
F USE,CARTRIDGE :lA,125V ,0 .4 SEC,0 .17 LEADS
71400
75915
71400
75915
71400
75915
ΜΤΗ-5
273001
G FA 1-1/2
273001
G FA 1-1/2
273001
F 1715
159-0153-00
Β057810
FUSE, WIRE LEAD :1 .SA,125V,FAST BLOW
71400
G FA 1-1/2
Serial/ Model No.
Dscont
E ff
C kt No.
Tektro nix
P art No.
CR751
CR752
CR753
CR755
C R756
CR757
152-0322-01
152-0322-01
152-0322-01
152-0322-01
152-0322-01
152-0322-01
SEMICOND DEVICE :SET OF 16,MATCHED F OR
SEMICOND DEVICE :SET OF 16,MATCHED F OR
SEMICOND DEVICE :SET OF 16,MATCHED F OR
SEMICOND DE VICE :SET OF 16,MATCHED F OR
SEMICOND DEVICE :SET O F 16,MATCHED F OR
SEMICOND DE VICE :SET O F 16,MATCHED F OR
CR758
CR762
CR763
CR764
CR765
CR825
152-0322-01
152-0322-01
152-0322-01
152-0322-01
152-0322-01
152-0141-02
SEMICOND
SEMICOND
SEMICOND
SEMICOND
S EMICOND
S EMICOND
FOR
CR826
CR842
CR942
CR943
CR960
CR962
152-0141-02
152-0141-02
152-0141-02
152-0141-02
152-0141-02
152-0141-02
CR1042
CR1043
CR1212
CR1225
C R1226
CR1235
CR1286
CR1312
CR1370
CR1372
CR1420
7- 6
Β057809
Β 057809
Β057809
Name & Descri ption
DE V ICE :SET OF 16,MATCHED
DEVICE :SET OF 16,MATCHED
DEVICE :SET OF 16,MATCHED
DEVICE :SET ΟΣ 16,MATCHED
DEVICE :SET OF 16,MATCHED
DEVICE :SILICON,30V ,150MA
FOR
FOR
F OR
F OR
01295
14433
07263
14433
01295
14433
IN4152R
LG4016
FDH2161
L G4016
IN4152R
L G4016
3Ν55 FAMILY
L G4016
3Ν55 FAMILY
3Ν55 FAMILY
L G4016
REV ΜΑΥ 1982
R ep lacea ble E lect r ical
P arts- FG 504 (S N Β 040000 & up)
Name & Description
Mfr
Code
M fr P art Num ber
FU SE ,CARTRIDGE :lA ,125V ,0 .4 SEC,0 .17 LEADS
FU SE ,W IRE LEAD :1 .5 A ,125 V , FAS T BLOW
75915
71400
G FA 1-1/2
131-0955-00
131-1003-00
131-1003-00
131-1003-00
131-1315-00
131-1003-00
CO NN,R CPT,ELE C : BN C, FEMALE
CO NN,R CPT,ELE C :CK T BD ΜΤ ,3
CO NN,R CPT,ELE C :CKT BD ΜΤ ,3
CO NN,R CPT,ELE C :CKT BD ΜΤ ,3
CO NN,R CPT,ELE C : BN C, FEM ALE
0O NN,RCPT,ELE C :CK T BD ΜΤ ,3
13511
80009
80009
80009
80009
80009
31-279
131-1003-00
131-1003-00
131-1003-00
131-1315-00
131-1003-00
131-1003-00
131-0955-00
131-1003-00
131-1003-00
131-1003-00
131-1003-00
CO NN,R CPT,ELE C :CK T BD ΜΤ ,3
CO NN,R CPT,ELE C : BN C, FEMALE
CO NN,R CPT,ELE C :CK T BD ΜΤ ,3
CO NN,R CPT,ELE C :CK T BD ΜΤ ,3
CO NN,R CPT,ELE C :CKT BD ΜΤ ,3
CO NN,R CPT,ELE C :CKT BD ΜΤ ,3
PR ONG
PR ON G
PR ONG
PR ONG
80009
13511
80009
80009
80009
80009
131-1003-00
31-279
131-1003-00
131-1003-00
131-1003-00
131-1003-00
J 1201
J 1295
J 1370
131-1003-00
131-1315-00
131-1315-00
131-1003-00
131-1003-00
131-0955-00
CO NN,R CPT,ELE C :C KT BD ΜΤ ,3 PRONG
CO NN,R CPT,ELE C : BN C, FEMALE
CO NN,R CPT,ELE C : BN C, FEMALE
CO NN,R CPT,ELE C :C KT BD ΜΤ ,3 PR ONG
CO NN,R CPT,ELE C :C KT BD ΜΤ ,3 PR ONG
CO NN,R CPT,ELE C : BN C, FEMALE
80009
80009
80009
80009
80009
13511
131-1003-00
131-1315-00
131-1315-00
131-1003-00
131-1003-00
31-279
J 1520
131-0955-00
CO NN,R CPT,ELE C : BN C, FEMALE
13511
31-279
L 300
L 515
L 646
L 945
L 1045
108-0552-00
108-0330-00
108-0733-00
108-0509-00
108-0181-01
108-0181-01
CO IL,RF :80NH
CO IL,RF :0 .4 UH
CO IL,RF :113 NH
CO IL ,RF :2 .45UH
CO IL,RF :0 .2 UH
CO IL ,RF :0 .2UH
80009
80009
80009
80009
80009
80009
108-0552-00
108-0330-00
108-0733-00
108-0509-00
108-0181-01
108-0181-01
L 1120
L 1130
108-0237-00
108-0057-00
CO IL , R F :80U H
CO IL,RF :8 .8 UH
80009
80009
108-0237-00
108-0057-00
LR 880
LR884
108-0520-00
108-0520-00
CO IL,RF :2 .2 UH (WOUND ΟΝ Α 10 OHM RE S)
CO IL,RF :2 .2 UH (WOUND ΟΝ Α 10 OHM RES)
80009
80009
108-0520-00
108-0520-00
Q55
Q65
Q80
Q90
Q100
Q165
151-0188-00
151-0438-00
151-0438-00
151-0438-00
151-0367-00
151-0188-00
TRAN S ISTOR :S ILICO N,PNP
TRAN S IS TO R :S ILICO N,PNP ,S EL
TRAN S I STOR :S ILICO N,PNP ,S EL
TRAN S ISTO R :S ILICO N,PNP ,S EL
TRAN S ISTOR :S ILI CO N,NPN ,S EL
TRAN S ISTOR :S ILICO N,PNP
04713
80009
80009
80009
01295
04713
S PS6868 K
Q170 A , B
Q170A, B
Q175
Q225
Q230
Q255 A , B
151-0232-00
151-0232-02
151-0190-00
151-0188-00
151-0190-00
151-1032-00
TRAN S ISTOR :S ILI CO N,NPN,DUAL
TRAN S ISTOR :S ILICO N,NPN
TRAN S ISTOR :S ILICO N,NPN
TRAN S I STO R :S ILICO N,PNP
TRAN S ISTOR :S ILICO N,NPN
TRAN S ISTOR :S ILI CO N,FET,DUAL
07263
07263
07263
04713
07263
17856
SP 12141
S P 14318
S032677
S PS6868K
S032677
DN 399
Q270
Q280
Q285
Q295
Q310
Q395
151-0438-00
151-0424-00
151-0424-00
151-0438-00
151-0447-00
151-0424-00
TRAN S ISTOR :S ILI CO N,PNP ,S EL FROM S PS6927
TRAN S I STOR :S ILICO N,NPN
TRAN S ISTOR :S ILICO N,NPN
TRA NS I STOR :S ILICO N,PNP ,S EL FR OM S PS6927
TRANS I STOR :S ILICO N,NPN
TRANS I STOR :S ILICO N,NPN
80009
04713
04713
80009
80009
04713
Q406
Q410
Q415
Q450
Q456
Q462
151-0199-00
151-0424-00
151-0199-00
151-0438-00
151-0424-00
151-0199-00
TRANS I STOR :S ILICO N,PNP
TRANS I STOR :S ILICO N,NPN
TRANS I STO R :S ILICO N,PNP
TRAN S I STOR :S ILICO N,PNP ,S EL FR OM S PS6927
TRAN S ISTO R :S ILICO N,NPN
TRAN S I STO R :S ILICO N,PNP
04713
04713
04713
80009
04713
04713
C kt No .
F 1716
F 1716
J 20
J 300
J 406
J 418
J 420
J 485
J 640
J 700
J 730
J 732
J 735
J 900
J 1120
J 1125
J 1200
L 382
Te ktronix
P art No.
159-0116-00
159-0153-00
REV ΜΑΥ 1982
Serial/ M od el No.
Eff
Dsco nt
Β040000
Β057810
Β040000
Β056332
Β057809
Β056331
PRO NG
PRONG
PRONG
PRONG
PRONG
'
~
FROM
FROM
FROM
FROM
SPS6927
SPS6927
SPS6927
3571 ΤΡ
273001
151-0438-00
151-0438-00
151-0438-00
SK A6516
SPS6868K
151-0438-00
S PS8246
SP S8246
151-0438-00
151-0447-00
S PS8246
S PS6866 K
SP S8246
S PS6866 K
151-0438-00
S PS8246
S PS6866 K
7-7
Replaceable Electrical Parts- FG 504 (SN 8040000 & up)
C k t No .
Te ktro n ix
P a rt No .
Q470
Q495
Q500
Q510
Q530
Q540
151-0424-00
151-0424-00
151-0424-00
151-0221-00
151-0435-00
151-0188-00
TRAN S I S TOR :S ILI CON,NPN
TRAN S I S TOR :S ILI CON,NPN
TRAN S I S TOR :S ILI CON,NPN
Q550
Q570
Q580
Q600 ι
Q61o(
Q615
Serial/Model No .
Eff
Dscont
Mfr
Name & Desc r iptio n
Nu mb e r
Code
Mfr Part
S PS8246
TRANSISTOR :S ILICON,PNP
TRANSISTOR :S ILICON,PNP
04713
04713
04713
04713
04713
04713
151-0221-00
151-0424-00
151-0190-00
151-1042-00
TRANSISTOR:S ILICON,PNP
TRANSISTOR:S ILICON,NPN
TRANSISTOR:S ILICON,NPN
SEMICOND DVC SE :MATCHED PAIR FET
04713
04713
07263
01295
S PS246
S PS8246
151-0427-00
TRANSISTOR:S ILICON,NPN
80009
151-0427-00
Q620
Q640
Q720
Q805
Q825
Q830
151-0427-00
151-0369-00
151-0188-00
151-0221-00
151-0221-00
151-0190-00
TRA NSISTOR:S ILICON,NPN
TRANSISTOR :S ILICON,PNP
TRANSISTOR:S ILICON,PNP
TRANSISTOR:S ILICON,PNP
TRANSISTOR:S ILI CON,PNP
TRA NSISTOR:S ILICON,NPN
80009
01295
04713
04713
04713
07263
151-0427-00
SΚΑ 6664
S PS6868K
S PS246
S PS246
S032677
Q835
Q840
Q930
Q940
Q950
Q952
151-0220-00
151-0367-00
151-0424-00
151-0424-00
151-0411-00
151-0285-01
TRA NSI STOR:S ILICON,PNP
TRANSISTOR:S ILICON,NPN ,S EL FROM 3571 ΤΡ
TRANSISTOR:S ILICON,NPN
TRANSISTOR:S ILICO N,NPN
TRAN SISTOR:S ILICON,NPN
TRAN SISTOR:S ILICO N,PNP,S EL
07263
01295
04713
04713
80009
80009
S036228
SKA6516
S PS8246
S PS8246
151-0411-00
151-0285-01
Q970
Q980
Q1030
Q1040
Q1050
Q1052
151-0211-02
151-0211-02
151-0438-00
151-0438-00
151-0450-00
151-0211-02
80009
80009
80009
80009
80009
80009
151-0211-02
151-0211-02
151-0438-00
151-0438-00
151-0450-00
151-0211-02
Q1070
Q1080
Q1150
Q1160
Q1170
Q1180
151-0285-01
151-0285-01
151-0347-00
151-0440-00
151-0350-00
151-0439-00
TRAN SISTOR :S ILICO N,NPN ,S EL
TRAN SISTOR :S ILICO N,NPN,S EL
TRAN SISTOR:S ILI CO N,PNP ,S EL FROM S PS6927
TRAN SISTOR:S ILICO N,PNP ,S EL FROM S PS6927
TRAN SIS TOR:S ILICO N,PNP ,S EL FROM 2Ν5583
TRAN SISTOR:S ILICON,NPN ,S EL
t
TRAN SISTOR:S ILICO N,PNP ,S EL
TRANSISTOR:S ILICO N,PNP ,S EL
TRANSISTOR :S ILICO N,NPN
TRANSISTOR :S ILICO N,PNP
TRANSISTOR :S ILICO N,PNP
TRANS ISTOR :S ILICO N,NPN
80009
80009
56289
03508
04713
80009
151-0285-01
151-0285-01
2Ν5551
Χ41 Ε603
S PS6700
151-0439-00
Q1220
Q1245
Q1250
Q1254
Q1260
Q1262
151-0190-00
151-0367-00
151-0367-00
151-0367-00
151-0221-00
151-0221-00
TRAN S ISTOR :S ILICO N,NPN
TRANS ISTOR :S ILICO N,NPN,S EL FROM 3571 ΤΡ
TRAN S ISTOR :S ILICO N,NPN,S EL FROM 3571 ΤΡ
TRAN S ISTOR :S ILICO N,NPN,S EL FROM 3571 ΤΡ
TRAN S ISTOR :S ILICO N,PNP
TR ANS ISTO R :S ILI CO N,PNP
07263 θ032677
01295 SKA6516
01295 SKA6516
01295 5ΚΑ6516
04713 S PS246
04713 ,S PS246
Q1280
Q1400
Q1410
Q1420
Q1430
Q1450
151-0134-00
151-0190-00
151-0190-00
151-0188-00
151-1021-00
151-0190-00
TRAN S ISTOR :S ILICO N,PNP
TRA NS ISTOR :S ILICO N,NPN
TRAN S ISTOR :S ILICO N,NPN
TRANS ISTOR :S ILICO N,PNP
TRAN S ISTOR :S ILICO N,JFE
TRANSISTOR :S ILICO N,NPN
80009
07263
07263
04713
17856
07263
151-0134-00
S032677
S032677
S PS6868K
ΣΝ 815
5032677
Q1610
Q1620
Q1621
Q1622
Q1640
Q1642
151-0347-00
151-0350-00
151-0350-00
151-0462-00
151-0347-00
151-0347-00
TRANSISTOR :S ILICO N,NPN
TRANSISTOR:S ILICON,PNP
TRA NSISTOR:S ILICON,PNP
TRANSISTOR:S ILICON,PNP
TRANSISTOR :S ILICO N,NPN
TRA NSISTOR:S ILICO N,NPN
56289
04713
04713
04713
56289
56289
2Ν5551
S PS6700
S PS6700
TIP30C
2Ν5551
2 Ν5551
Q1650
Q1652
Q1660
151-0350-00
151-0350-00
151-0462-00
TRANSISTOR:S ILICON,PNP
TRA NSISTOR:S ILICON,PNP
TRA NSISTOR:S ILICON,PNP
04713
04713
04713
S PS6700
S PS6700
7-8
TRAN SISTOR :S ILICON,PNP
.
S PS8246
S PS8246
S PS246
S P58335
S PS6868K
S032677
SKA5390
TIP30C
REV
ΜΑΥ 1982
Replaceable Electrical Parts- FG 504 (S N Β040000 & up)
C kt No .
Te ktro n ix
P art No .
Serial/M odel No.
E ff
Dscont
Name & Descri ptio n
Mfr
Code
M fr Part N umber
01677
Q1710
Q1715
01720
01721
Q1722
151-0515-01
151-0350-00
151-0350-00
151-0347-00
151-0347-00
151-0439-00
SC R:S ILICON
TRANS ISTOR :S ILICO N,PNP
TR ANS ISTOR :S ILICO N,PNP
TRANS ISTOR:S ILICO N,NPN
TRAN SISTOR:S ILICON,NPN
TRAN SI STOR :S ILICON,NPN
04713
04713
04713
56289
56289
80009
01740
01742
01750
Q1752
Q1760
01776
151-0350-00
151-0350-00
151-0347-00
151-0347-00
151-0439-00
151-0350-00
TRANSISTOR:S ILI CON,PNP
TRA NSISTOR:S ILICON,PNP
TRA NSISTOR :S ILICON,NPN
TRANSISTOR :S ILICON,NPN
TRANSISTOR :S ILICON,NPN
TRA NSISTOR :S ILICO N,PNP
04713
04713
56289
56289
80009
04713
S P S6700
S PS6700
01777
151-0515-01
SC R :S ILICO N
04713
2Ν4441
R5
311-1799-00
----- ----321-0281-00
311-1267-00
315-0363-00
321-0289-00
RES ., VAR ,WW:2 Χ 10 Κ ΟΗΜ,5%,1W
(R5 FURNISH ED AS Α UNIT WITH Α125)
RES .,FXD,FILM :8 .25K ΟΗΜ ,1%,0 .125 W
RES .,VAR,NONWIR :5K OIR1,10%,0.50W
RES .,FXD,CMP SN:36K ΟΗΜ ,5%,0 .25W
RES .,FXD,FI LM :l OK ΟΗΜ,1%,0 .125 W
32997
3540S-591-103103
91637
32997
01121
91637
MFF1816G82500 F
3329 Ρ- L58-502
CB 3635
MFF1816G10001 F
R20
321-0289-00
315-0202-00
315-0432-00
321-0276-00
321-0288-00
321-0289-00
RES .,FXD,FILM :l OK ΟΗΜ,1%,0.125W
RE S ., FXD,CMPSN:2K ΟΗΜ,5%,0.25W
RES ., FXD ,C MP SN :4 .3K ΟΗΜ ,5%,0.25W
RES .,FXD,FILM :7 .32K ΟΗΜ ,1%,0 .125W
RES .,FXD,FILM :9 .76K ΟΗΜ ,1%,0 .125ω
RES .,FXD,FILM :IOK ΟΗΜ ,1%,0 .125W
91637
01121
01121
91637
91637
91637
MFF 1816G10001 F
C B2025
CB4325
MFF 1816G73200 F
MFF 1816G97600 F
MFF 1816G10001 F
Α34
Α36
R 38
Α42
Α45
R 50
321-0289-00
321-0289-00
321-0289-00
321-0289-00
321-0289-00
311-1851-00
----- -----
R ES .,FXD,FILM :l OK ΟΗΜ ,1%,0 .125W
RES .,FXD,FI LM:l OK ΟΗΜ ,1%,0 .125 W
RES .,FXD,FILM :I OK ΟΗΜ ,1%,0 .125 W
RES .,FXD,FILM :l OK ΟΗΜ , ΙΧ ,0 .125 W
RES .,FXD,FILM :l OK ΟΗΜ,1%,0f125W
RES ., VAR, NONWIR :15K 0HM,1W
(R50 FURNISHED AS Α UNIT W ITH S50)
91637
91637
91637
91637
91637
01121
MFF 1816G10001 F
MFF1816G10001 F
MFF1816G10001 F
MFF 1816G10001 F
MFF 1816G10001 F
14 Μ212
Α51
Α52
Α54
Α58
R 65
Α68
315-0102-00
311-1567-00
322-0170-00
317-0100-00
321-0161-00
321-0190-00
RES .,FXD,C MP SN :IK ΟΗΜ,5%,0 .25W
RES ., VAR,NONWIR :TRMR ,100 OHM,0 .50W
RES .,FXD,FILM :576 ΟΗΜ ,1%,0 .25W
RES ., FXD ,CMP SN :10 ΟΗΜ ,5%,0 .125W
R ES .,FXD,FILM :464 ΟΗΜ ,1%,0 .125W
R ES ., FXD ,FI LM :931 ΟΗΜ , 1 %,0 .125W
01121
73138
75042
01121
91637
91637
CB1025
91-89-0
CEBTO-5760 F
ΒΒ 1005
MFF1816G464 ROF
MFF1816G931 ROF
R 70
R 72
315-0820-00
315-0330-00
321-0190-00
315-0100-00
321-0161-00
315-0153-00
R ES ., FXD ,CMP SN :82 ΟΗΜ ,5%,0 .25W
R ES ., FXD ,CMP S N :33 ΟΗΜ ,5%,0 .25W
01121
01121
91637
01121
91637
01121
CB8205
CB3305
MFF 1816G931 ROF
C B 1005
MFF1816G464 ROF
CB 1535
R 88
R 90
Α92
R95
R98
Α100
315-0300-00
315-0752-00
315-0271-00
315-0100-00
315-0100-00
315-0271-00
RES ., FXD ,C MP S N :30 ΟΗΜ ,5%,0 .25W
RES ., FXD,C MP SN :7 .5K ΟΗΜ ,5%,0 .25W
RES ., FXD,C MP SN :270 ΟΗΜ,5%,0.25W
01121
01121
01121
01121
01121
01121
CB3005
C B7525
CB2715
CB 1005
CB 1005
CB 2715
Α 102
R 104
R 108
Α114
Α115
R 120
315-0752-00
315-0300-00
315-0153-00
307-0108-00
311-1564-00
311-1835-00
RES ., FXD,C MPSN :7 .SK ΟΗΜ,5%,0 .25W
RES ., FXD,C MP SN :30 ΟΗΜ ,5% .0 :25W
01121
01121
01121
80009
73138
01121
C B7525
CB3005
CB 1535
307-0108-00
91-86-0
73M4GO40LI 0 1M
Α8
Α10
R 12
Α14
Α23
R25
Α28
Α30
R 32
Α76
R 78
Α 80
Α 85
REV C, OCT 1980
RES .,FXD,FI LM:931 ΟΗΜ ,1%,0 .125W
RES ., FXD ,CMP SN :10 ΟΗΜ ,5%,0 .25W
RES .,FXD,FILM :464 ΟΗΜ ,1%,0 .125 W
RES ., FXD ,CMPS N:15K οΗΜ ,5 Χ ,0 .25ω
RE S ., FXD ,CMP SN :10 ΟΗΜ ,5%,0 .25W
R ES ., FXD ,CMP SN :10 ΟΗΜ ,5%,0 .25W
RE S ., FXD ,CMP SN:270 ΟΗΜ ,5%,0 .25W
RES .,FXD,C MP SN :15K ΟΗΜ,5%,0.25W
RES ., FXD ,CMP SN :6 .8 ΟΗΜ,5%,0 .25 W
RES ., VAR, NONWIR: TRMR ,500 0H M ,O .S W
RE S ., VAR , NONW IR :100 0ΗΜ ,20%,1 W
2Ν4441
S PS6700
S PS6700
2Ν5551
2Ν5551
151-0439-00
2Ν5551
2Ν5551
151-0439-00
S PS6700
7-9
Re placea b le Electrical Parts- F G 504 (S N Β 040000 & up)
C kt No.
Tektro nix
Pa rt No.
Serial/ Model No.
Dscont
E ff
Name & Descri ption
Mfr
Code
M fr P art N um ber
311-1799-00
----- ----311-1560-00
315-0222-00
315-0512-00
315-0200-00
RES ., VAR ,WW:2 Χ 10Κ ΟΗΜ ,5%,1W
(Α125 FURNISHED AS Α UNIT W IT H Α5)
RES .,VAR,N ONWIR :5 K ΟΗΜ ,20%,0 .50W
RE S ., FXD ,C MP SN :2 .2K OHM,5%,0 .25W
RES ., FXD ,CMP SN :S .1 K OHM,5%,0 .25W
RES ., FXD ,CMP SN :20 OHM,5%,0 .25W
32997
3540S-591-103103
73138
01121
01121
01121
91-82-0
CB2225
C B5125
CB2005
RES .,FXD,FILM :20K ΟΗΜ ,1%,0 .125W
R ES ., FXD ,C MP SN :3 .9K OHM,5%,0 .25W
Α147
R 150
321-0318-00
315-0392-00
321-0242-00
311-1562-00
321-0247-00
321-0289-00
91637
01121
91637
73138
91637
91637
MFF 1816G20001 F
CB3925
MFF 1816G32400 F
91-84-0
MFF 1816G3650O F
MFF 1816G10001 F
Α155
Α158
R 160
Α162
Α165
Α170
311-1559-00
321-0289-00
321-0289-00
322-0172-00
315-0151-00
322-0172-00
RES .,VAR,NONWIR : 10 K ΟΗΜ ,20%,0 .50W
RES .,FXD,FILM :I OK ΟΗΜ ,1%,0 .125 W
RES .,F XD,FILM :l OK ΟΗΜ ,1%,0 .125 W
RES .,FXD,FILM :604 ΟΗΜ ,1%,0 .25W
RES ., FXD ,C MP SN :150 OHM,5%,0 .25W
RES .,FXD,FILM :604 ΟΗΜ ,1%,0.25W
73138
91637
91637
75042
01121
75042
91-81-0
MFF 1816G10001 F
MFF 1816G10001 F
C EBTO-604ΠF
CB 1515
C EBTO-604o F
Α172
Α175
Α195
R200
Α202
Α204
322-0172-00
317-0100-00
315-0100-00
307-0111-00
321-0054-00
321-0150-00
RES .,FXD,FILM :604 ΟΗΜ,14,0 .25W
R ES ., FXD ,C MP SN:10 ΟΗΜ ,5%,0.125 W
R ES ., FX D ,C MP SN:10 OHM,5%,0 .25W
RES ., FX D,C MP SN:3 .6 ΟΗΜ,5%,0 .25W
R ES .,FXD,FILM :35 .7 ΟΗΜ,5% .0 .125W
RES .,FXD,FI LM :357 ΟΗΜ ,1%,0 .125W
75042
01121
01121
01121
91637
91637
CEBTO-6040 F
ΒΒ 1005
CB1005
CB36G5
MFF 1816G35 R 70 F
MFF 1816G357 ROF
R206
Α208
Α210
Α 212
Α215
Α220
321-0246-00
321-0342-00
321-0438-00
315-0512-00
311-1559-00
315-0512-00
RES .,FXD,FILM :3 .57K ΟΗΜ ,1%,0 .125W
RES .,FXD,FILM :35 .7 K ΟΗΜ ,1%,0 .125W
RES .,FXD,FILM :357K ΟΗΜ,1%,0 .125W
RES ., FXD ,CMP SN :5 .1 K OHM,5%,0 .25W
RES ., VAR,NONWIR : 10K ΟΗΜ ,20%, 0 . 50W
RES .,FXD ,CMP SN :5 .1 K OHM,5%,0 .25W
Κ
91637
91637
91637
01121
73138
01121
MFF1816G35700 F
MFF1816G35701 F
MFF1816G35702 F
CB5125
91-81-0
CB5125
Α225
R 228
Α 235
Α 250
Α252
R 255
315-0150-00
315-0150-00
315-0100-00
315-0200-00
315-0510-00
315-0431-00
RES., FXD ,CMP SN :15 OHM,5%,0 .25W
01121
01121
01121
01121
01121
01121
CB 1505
CB 1505
CB 1005
CB 2005
CB5105
CB4315
R 258
Α260
R262
R265
R270
R 271
315-0220-00
315-0220-00
315-0431-00
315-0120-00
315-0102-00
321-0054-00
R ES ., FX D,C MP SN :22 OHM,5%,0 .25W
RES .,FXD,C MPSN:22 OHM,5%,0 .25W
RE S ., FXD,C MP SN:430 OHM,5%,0 .25W
RES ., FXD ,C MP SN:12 OHM,5%,0 .25W
RES .,FXD,C MP SN:IK OHM,5%,0 .25W
RES .,FXD,FILM :35 .7 ΟΗΜ ,5%,0 .125 W
01121
01121
01121
01121
01121
91637
CB2205
CB2205
CB4315
CB1205
CB1025
MFF 1816G35R70 F
Α272
Α275
R 280
R 285
Α287
R 288
321-0223-00
315-0100-00
321-0001-00
315-0102-00
321-0054-00
321-0223-00
R ES .,FXD,FILM :2 .05K ΟΗΜ ,1%,0 .125W
RES ., FXD ,C MP SN :10 OHM,5%,0 .25W
RES .,FXD,FILM :10 ΟΗΜ,1%,0 .125W
RES .,FXD ,C MP S N:IK OHM,5%,0 .25W
RES .,FXD,FILM :35 .7 ΟΗΜ ,5%,0.125 W
RES .,F XD,FILM :2 .OSK ΟΗΜ ,1%,0 .125W
91637
01121
75042
01121
91637
91637
MFF1816G20500 F
CB1005
CEATO-10RO0 F
C B1025
MFF 1816G35R70 F
MFF 1816G20500 F
R 290
315-0100-00
321-0001-00
307-0093-00
3Π 1-0122-00
315-0200-00
321-0145-00
RES ., FXD ,CMP SN :10 OHM,5%,0 .25W
RES .,FXD,FILM :10 OR M, I%,0 .125 W
RES ., FXD ,CMP SN :1 .2 ΟΗΜ,5%,0.50W
RES ., FXD ,CMP SN :1 .2 K ΟΗΜ ,5%,0 .50W
RES ., FXD ,CMP SN :20 OHM,5%,0 .25W
RES .,FXD,FILM :316 ΟΗΜ ,1%,0 .125W
01121
75042
01121
01121
01121
91637
CB1005
CEATO-1O R00 F
EB 12G5
ΕΒ 1225
CB 2005
MFF1816G316RO F
315-0470-00
315-0101-00
315-0122-00
RES ., FXD ,C MP SN:47 OHM,5%,0 .25W
RE S ., FXD ,C MP SN:100 OHM,5%,0 .25W
RES ., FXD ,C MP SN:1 .2 K OHM,5%,0 .25W
01121
01121
01121
CB4705
CB1015
CB1225
Α125
R 128
Α130
Α 134
R 136
R 138
R 140
R 143
R 145
Α295
Α300
R 315
Α 317
R 322
R 325
R 327
Α329
7-10
RES .,FXD,FILM :3 .24K ΟΗΜ,1%,0 .125 W
RES ., VAR,NON WIR :2K ΟΗΜ ,20%,0 .50W
RES .,FXD,FI LM :3 .65K ΟΗΜ , 1 %,0 .125W
RES .,FXD,FILM :10K ΟΗΜ ,1%,0 .125W
RES.,F XD ,CMP SN :15 OHM,5%,0 .25W
RES., FXD ,CMP SN :10 OHM,5%,0 .25W
RES., FXD ,CMP SN :20 OHM,5%,0 .25W
RES ., FXD ,CMPSN :51 OHM,5%,0 .25W
RE S ., FXD ,CMP SN :430 OHM,5%,0 .25W
REV C, OCT 1980
Re p laceable Elect rical
Ck t No .
Te k tro n ix
Part No .
R 331
R336
315-0513-00
321-0145-00
315-0470-00
315-0101-00
315-0122-00
315-0513-00
R 350
321-0249-00
321-0145-00
321-0145-00
321-0248-00
----- ----311-1564-00
Α340
Α342
R344
Α346
Α352
R 356
Α358
Α360
R 363
Serial/ M odel No .
Eff
Dscont
N ame & Descriptio n
Pa rts-FG 504 (SN Β040000 & up)
Mfr
Code
M fr P a r t Numb er
CB 5135
RES .,FXD ,CMP SN :51 K OHM,5%,0 .25W
01121
91637
01121
01121
01121
01121
MFF 1816G316 ROF
CB4705
CB1015
CB1225
CB5135
RES.,FXD,FILM :3 .83K ΟΗΜ ,1%,0 .125W
RES ., FXD , FILM :316 οΗΜ ,1%,0 .125ω
RES .,FXD,FILM :316 ΟΗΜ ,1%,0 .125W
RES .,FXD,FILM :3 .74K ΟΗΜ ,1%,0 :125W
(NOMINAL VALUE, SELECTED)
RES ., VAR,N ONWIR :TRMR ,500 OHM ,0 .5W
91637
91637
91637
91637
MFF1816G38300 F
MFF1816G316 ROF
MFF1816G316 ROF
MFF 1816G37400 F
73138
91-86-0
RES .,FXD,FILM :l OK ΟΗΜ,1%,0 .125W
91637
73138
91637
01121
01121
01121
MFF1816G10001 F
91-86-0
MFF1816G14300 F
C B3305
CB3305
CB7505
RES .,FXD,FILM :316 ΟΗΜ ,1%,0 .125W
RES., FXD ,CMP SN :47 OHM,5%,0 .25W
RES ., FXD ,CMP SN :100 OHM,5%,0 .25W
RES .,FXD ,CMP SN :1 .2 K OHM,5%,0 .25W
RES .,FXD ,CMP SN :S1 K OHM,5%,0 .25W
Α365
Α 367
Α 370
R 372
R 375
321-0289-00
311-1564-00
321-0208-00
315-0330-00
315-0330-00
315-0750-00
Α380
R 382
Α385
Α387
Α390
Α 395
315-0820-00
315-0820-00
315-0102-00
315-0100-00
315-0102-00
315-0121-00
RES ., FXD ,CMP SN :82
RES ., FXD ,CMP SN :82
R ES .,FXD ,CMP SN :IK
RES ., FXD,CMP SN :10
RES .,F XD ,CMP SN :IK
OHM,5%,0 .25W
OHM,5%,0 .25W
ΟΗΜ,5%,0 .25W
OHM, 5 Y,,0 .25W
ΟΗΜ,5%,0 .25W
RE S ., FXD ,CMP SN :120 OHM,5%,0 .25W
01121
01121
01121
01121
01121
01121
CB8205
C B 8205
C B 1025
CB 1005
CB 1025
CB 1215
R 397
R 398
R400
R402
RES .,FXD ,CMP SN :20 ΟΗΜ,5%,0 .25W
RE S ., FXD ,CMP SN :560 OHM,5%,0 .25W
RE S ., FXD,CMP SN :130 ΟΗΜ ,5%, 0 . 50W
RES ., FXD ,CMP SN :10 OHM,5%,0 .25W
RES .,FXD ,CMP SN :91 ΟΗΜ,5%,0 .25W
RES ., FXD,CMP SN :24 OHM,5%,0 .25W
01121
01121
01121
01121
01121
01121
C B2005
C B5615
Α406
Α409
315-0200-00
315-0561-00
301-0131-00
315-0100-00
315-0910-00
315-0240-00
Α410
R412
R415
Α 417
R 419
R 420
315-0200-00
315-0561-00
315-0100-00
315-0560-00
321-0068-00
315-0101-00
R ES ., FXD,CMP SN :20 OHM,5%,0 .25W
RES ., FXD,C MP SN :560 OHM,5%,0 .25W
R ES ., FXD,C MP SN :10 OHM,5%,0 .25W
R ES ., FXD,C MP SN :56 OHM,5%,0 .25W
RES .,FXD,FILM :49 .9 ΟΗΜ ,1%,0 .125W
RE S ., FXD,CMPSN :100 OHM,5%,0 .25W
01121
01121
01121
01121
91637
01121
CB2005
CB5615
CB1005
CB5605
MFF 1816G49R90 F
C B1015
Α450
Α452
R 454
R 456
R 458
R 462
315-0240-00
315-0201-00
315-0152-00
315-0331-00
301-0362-00
323-0172-00
R E S ., FXD,CMP SN :24 OHM,5%,0 .25W
RE S ., FXD,CMP SN :200 OHM,5%,0 .25W
R E S ., FXD,CMP SN :1 .5K ΟΗΜ,5 Υ 0 .25W
RE S ., FXD,CMP SN :330 OHM,5%,0 .25W
RES .,FXD,CMP SN :3 .6K ΟΗΜ ,5%,O .SOW
R ES .,FXD,FILM :604 ΟΗΜ ,1%,0 .50W
01121
01121
01121
01121
01121
91637
Α465
R 470
Α475
Α480
R490
Α494
315-0472-00
323-0172-00
315-0100-00
315-0100-00
317-0510-00
317-0510-00
RES .,FXD,CMP SN :4 .7 K OHM,5%,0 .25W
R ES .,FXD,FILM :604 ΟΗΜ ,1%,0 .50W
RES .,FXD,CMP SN : 10 OHM,5%,0 .25W
RES ., FXD ,CMP SN :10 OHM,5%,0 .25W
RES .,FXD,CMP SN :51 ΟΗΜ ,5%,0 .125W
RES .,FXD ,C MP SN :51 ΟΗΜ ,5%,0 .125W
01121
91637
01121
01121
01121
01121
CB4725
MFF1226G604ROF
CB1005
C B1005
ΒΒ 5105
ΒΒ 5105
R496
Α498
R500
Α512
Α515
R520
301-0681-00
317-0510-00
315-0431-00
315-0132-00
315-0111-00
311-1373-00
R ES ., FXD ,CMP S N :680 ΟΗΜ ,5%, 0 . 50W
RES .,FXD ,CMP SN :51 ΟΗΜ ,5%,0 .125 W
RE S ., F XD ,CMP SN :430 ΟΗΜ ,5%,0 .25W
RE S ., FXD ,CMP SN :1 .3 K ΟΗΜ,5%,0 .25W
RE S ., FXD ,CMP SN:110 OHM,5%,0 .25W
RES .,VAR,NONWIR :5K ΟΗΜ ,20%,1 W
01121
01121
01121
01121
01121
01121
ΕΒ6815
ΒΒ5105
CB4315
C B1325
C B1115
73 U4G040L502 M
Α522
Α524
Α526
321-0222-00
321-0250-00
321-0335-00
RES .,FXD,FILM :2 K ΟΗΜ ,1 Χ ,0 .125W
RES .,FXD,FILM :3 .92K OHM,1 X,0 .125W
RES .,FXD,FILM :3 0.1 K ΟΗΜ,1%,0 .125 W
91637
91637
91637
MFF1816G20000 F
MFF1816G39200 F
MFF 1816G30101 F
REV Β, ΜΑΥ 1980
RES ., V AR,NONWIR :TRMR ,500 OHM,0 .5W
RES .,FXD,FILM :1 .43K ΟΗΜ ,1%,0 .125W
RES ., FXD ,CMP SN :33 OHM,5%,0 .25W
RES ., FXD ,CMP SN :33 OHM,5%,0 .25W
RES .,F XD ,CMP SN :75 ΟΗΜ ,5%,0 .25W
ΕΒ 1315
CB1005
CB9105
CB 2405
CB2405
C B2015
C B1525
CB3315
ΕΒ 3625
MFF 1226G604 ROF
7.11
R ep laceable
C k t No .
E lect r ical P arts-FG 504 (SN Β040000 & up)
Te k tro n ix
P art No .
Serial/ M odel No .
E ff
Dscont
Mfr
N ame & Descriptio n
Code
Mfr P a r t Nu mb er
Α528
R530
Α536
Α538
R540
Α544
315-0162-00
321-0222-00
321-0371-00
321-0276-00
321-0184-00
315-0220-00
RES., FXD ,CMP SN :1 .6K OHM,5%,0 .25W
RES .,FXD,FILM :2 K ΟΗΜ,1%,0 .125 W
RES .,FXD,FILM :71 .5K ΟΗΜ ,1%,0 .125W
RES .,FXD,FILM :7 .32K ΟΗΜ ,1%,0 .125W
RES .,FXD,FILM :806 ΟΗΜ ,1%,0 .125ω
RES ., ΣXD ,CMP SN :22 OHM,5%,0 .25W
01121
91637
91637
91637
91637
01121
C B 1625
Α548
Α552
R572
Α574
R 576
Α580
315-0220-00
315-0103-00
315-0220-00
315-0103-00
321-0222-00
315-0220-00
RES ., FXD ,CMP SN:22 ΟΗΜ ,5%,0 .25 W
RES .,FXD ,CMP SN:l OK ΟΗΜ,5%,0 .25W
RES ., FXD ,CMP SN:22 OHM,5%,0 .25W
RES .,FXD ,CMP SN:l OK OHM,5%,0 .25W
RES .,FXD,FILM :2 K ΟΗΜ,1%, 0 . 1 25 W
RES ., FXD ,CMP SN :22 ΟΗΜ ,5%,0 .25 W
01121
01121
01121
01121
91637
01121
C B2205
CB1035
CB2205
C B1035
Α582
321-0184-00
321-0276-00
321-0371-00
317-0100-00
315-0361-00
307-0106-00
RES .,FXD,FILM :806 ΟΗΜ ,1%,0 .125W
RES .,FXD,FILM :7 .32K ΟΗΜ ,1%,0 .125W
RES ., FXD, FILM :71 .5 K ΟΗΜ ,1%,0 .125W
RES ., FXD ,CMP SN:10 ΟΗΜ ,5%,0 .125W
RE S ., FXD,CMP SN:360 OHM,5%,0 .25W
ΑES ., FXD ,CMP SN:4 .7 OHM,5%,0 .25W
91637
91637
91637
01121
01121
01121
MFF1816G806 RO F
MFF1816G73200 F
MFF1816G71501 F
ΒΒ 1005
C B3615
C B47G5
Α615
Α616
Α618
R620
311-1258-00
315-0361-00
321-0225-00
315-0510-00
315-0111-00
321-0225-00
RES ., VAR , NONWIR :50 ΟΗΜ,10%,0 .50W
RES ., FXD,CMP SN:360 OHM,5%,0 .25W
RES .,FXD,FILM :2 .15 K ΟΗΜ ,1%,0 .125W
RES ., FXD ,CMP SN :51 OHM,5%,0 .25W
RES ., FXD ,CMP SN :110 OHM,5%,0 .25W
RES .,FXD,FILM :2 .15K ΟΗΜ ,1%,0 .125W
32997
01121
91637
01121
01121
91637
3329 Ρ-L58 -500
C B3615
MFF 1816G21500 F
CB 5105
C B1115
MFF1816G2150o F
Α622
R 625
Α630
R 630
Α632
R 632
315-0560-00
315-0132-00
311-1258-00
311-1259-00
315-0121-00
315-0101-00
RES ., FXD ,C14PSN :56 OHM,5%,0 .25W
RE S ., FXD,C MP SN :1 .3 K OHM,5%,0 .25W
C B 5605
C B1325
Α640
R 641
Α642
R 646
Α700
Α704
315-0390-00
311-1921-00
315-0152-00
301-0561-00
315-0103-00
315-0103-00
RES ., VA R,N ONWIR :50 ΟΗΜ ,10%,0 .50W
RES ., V AR , NONWIR :100 ΟΗΜ,10%,0 . 50 W
RE S ., FXD,CMP SN :120 OHM,5%,0 .25W
R E S ., FXD,CMP SN :100 OHM,5%,0 .25W
s
RES ., FXD,C MP SN :39 OHM,5%,0 .25W
RES ., VAR , NONWIR :250 ΟΗΜ,10%,0 .50W
R ES ., FXD ,CMP SN :1 .5K OHM,5%,0 .25W
RE S ., FXD,C MPSN :560 ΟΗΜ ,5%,0 .50W
RES .,FXD,C MP SN : lOK OHM,5%,0 .25W
R ES .,FXD,C MP SN :l OK OHM,5%,0 .25W
01121
01121
32997
32997
01121
01121
01121
73138
01121
01121
01121
01121
C B 3905
R 706
R 708
R 710
R 716
R 717
R 720
315-0395-00
321-0371-00
321-0289-00
315-0752-00
315-0122-00
315-0102-00
RES ., FXD ,C MP SN :3 .9M OHM,5%,0 .25W
RES .,FXD,FILM :71 .5K ΟΗΜ,1%,0 .125 W
RES .,FXD, FILM : 10 K ΟΗΜ,1%,0 .125W
RES ., FXD ,C MP SN :7 .5 K OHM,5%,0 .25W
RE S ., FXD,C MP SN :1 .2K OHM,5%,0 .25W
RES .,FXD ,C MP SN :1 K OHM,5%,0 .25W
01121
91637
91637
01121
01121
01121
C B3955
MFF1816G71501 F
MFF1816G10001 F
C B7525
C B 1225
C B1025
R730
R735
321-0771-01
321-0771-01
315-0101-00
321-0082-00
321-0078-00
311-1175-00
RES .,FXD,FILM :50 ΟΗΜ,0 .5%,0 .125 W
RES .,FXD,FILM :50 ΟΗΜ,0 .5%,0.125 W
RES ., FXD ,CMP SN:100 OHM,5%,0 .25W
R ES .,FXD,FILM :69 .8 ΟΗΜ ,1%,0 .125 W
RES .,FXD,FILM :63 .4 ΟΗΜ,1%,0.125 W
RES., VAR , NONWI R:100 ΟΗΜ ,10%,0 .50W
91637
91637
01121
91637
91637
73138
MFF1816G50ROO D
MFF 1816G50ROOD
C B1015
MFF 1816G69 R80 F
MFF 1816G63R40F
68WR100
C B1005
R 584
Α586
R 592
Α604
R606
R610
R612
Α736
R738
Α738
Α740
Β 040000
Β 058290
Β040000
Β058290
Β040000
Β058450
Β058289
Β058289
Β058499
.
MFF 1816G20000 F
MFF1816G71501 F
MFF1816G7320o F
MFF1816G806 ROF
CB 2205
MFF1816G20000 F
CB2205
3329Ρ-L58 -500
3329 Ρ- L58 -101
C B1215
C B1015
72-191-0
C B 1525
ΕΒ 5615
C B1035
C B 1035
R 742
R 745
R746
R 747
R749
R751
315-0100-00
321-0289-00
315-0470-00
321-0110-00
321-0289-00
321-0307-00
RES.,FXD ,CMP SN :10 OHM,5%,0 .25W
RES .,FXD, FILM :l OK ΟΗΜ ,1%,0 .125W
RES ., FXD,C MP SN:47 OHM,5%,0 .25W
RES .,FXD,FILM :137 ΟΗΜ ,1%,0 .125W
RES .,FXD,FILM :l OK ΟΗΜ ,1%,0 .125W
RES .,FXD,FILM :15 .4 K ΟΗΜ,1%,0 .125W
01121
91637
01121
91637
91637
91637
MFF 1816G10001 F
C B4705
MFF 1816G137 R0F
MFF 1816G10001 F
MFF1816G15401 F
R753
R 755
R 757
R 759
Α761
321-0067-00
321-0307-00
321-0304-00
321-0153-00
321-0304-00
RES .,FXD,FILM :48 .7 ΟΗΜ ,1%,0 .125ω
RES .,FXD,FILM :15 .4K ΟΗΜ,1%,0 .125W
R ES .,FXD,FILM :14 .3K ΟΗΜ,1%,0 .125 ω
R ES ., FXD,FIL M :383 ΟΗΜ,1%,0 .125 W
R ES .,FXD,FILM :14 .3K ΟΗΜ,1%,0 .125 W
91637
91637
91637
91637
91637
MFF1816G48 R 70 F
MFF1816G15401 F
MFF1816G14301 F
MFF1816G383 ROF
MFF1816G14301 F
7- 1 2
REV NOV 1981
Elect r ical P arts-FG 504 (S N
Replacea ble
Ck t No .
Te ktronix
P art No .
Serial/ Model No .
E ff
Dscont
N ame & Descri ption
Mfr
Co de
Β040000 & up)
Mfr Part N u mb er
R 763
321-0354-00
321-0117-00
321-0354-00
315-0752-00
315-0102-00
315-0820-00
R ES .,F XD,FILM :47 . 5K ΟΗΜ ,1%,0 .125W
RES .,FXD,FILM :162 ΟΗΜ ,1%,0 .125W
RES .,F XD,FILM :47 .5 K ΟΗΜ ,1%,0 .125W
RES., FXD ,CMP SN :7 .5 K OHM,5%,0 .25W
RES .,FXD ,CMP SN:IK OHM,5%,0 .25W
RES ., FXD,CMP SN:82 OHM,5%,0 .25W
91637
91637
91637
01121
01121
01121
MFF 1816G47501 F
MFF1816G162 R OF
MFF 1816G47501 F
C B 7525
C B 1025
C B8205
R 780
R 784
Α787
Α 790
Α793
R 795
315-0820-00
321-0326-00
315-0100-00
311-1555-00
315-0100-00
321-0756-00
RES ., FXD,C MP SN:82 OHM,5%,0 .25W
RES .,FXD,FILM :24 .3 K ΟΗΜ,1%,0 .125 W
RES ., FXD ,C MP SN:10 OHM,5%,0 .25W
RES ., VAR,NON WIR :l 00K ΟΗΜ ,20% ;0 .5 W
RES ., FXD,C MP SN :10 OHM,5%,0 .25W
RES .,FXD,FILM :50K ΟΗΜ,1%,0.125W
01121
91637
01121
73138
01121
24546
CB8205
MFF 1816G24301 F
CB 1005
91-77-0
C B 1005
NA55D5002 F
Α798
Α800
R802
Α805
Α807
Α810
321-0135-00
321-0164-00
321-0214-00
321-0181-00 ,
315-0200-00
321-0181-00
RES ., FXD,FILM :249 ΟΗΜ,1%,0 .125 W
RES .,FXD,FILM :499 ΟΗΜ,1%,0 .125 W
RES .,FXD,FILM :1 .65K ΟΗΜ,1%,0 .125W
RES .,FXD,FILM :750 ΟΗΜ ,1%,0 .125W
R E S ., FXD ,CMP SN :20 OHM,5%,0 .25W
R ES ., FXD,FILM :750 ΟΗΜ ,1%,0 .125W
91637
91637
91637
91637
01121
91637
MFF1816G249 ROF
MFF 1816G499 ROF
MFF 1816G16500F
MFF 1816G750 ROF
CB2005
MFF1816G750ROF
R 818
R 820
Α822
R 830
R 835
Α840
321-0135-00
321-0164-00
321-0214-00
315-0150-00
315-0150-00
321-0106-00
R ES .,FXD,FILM :249 ΟΗΜ ,1%,0 .125W
RES ., FXD , FILM :499 οΗΜ ,1%,0 .125ω
R ES .,FXD,FILM :1 .65K ΟΗΜ,1%,0 .125W
RES ., FXD ,CMP SN :15 OHM,5%,0 .25W
RES., FXD ,CMP SN :15 OHM,5%,0 .25W
RES .,FXD,FILM :124 ΟΗΜ ,1%,0 .125W
91637
91637
91637
01121
01121
91637
MFF 1816G249ROF
MFF1816G499ROF
MFF 1816G16500F
C B 1505
C B 1505
MFF1816G124ROF
Α842
R 850
R 852
R 855
R857
R868
321-0106-00
315-0133-00
315-0202-00
311-1567-00
315-0241-00
321-0235-00
RES .,FXD,FILM :124 ΟΗΜ ,1%,0 .125W
RES., FXD ,CMP SN:13 K OHM,5%,0 .25W
RES .,FXD ,CMP SN:2 K OHM,5%,0 .25W
RES .,VAR ,NONW I R :TRMR ,100 0HM ,0 .50W
RES ., FXD,C MP SN :240 OHM,5%,0 .25W
RES .,FXD,FILM :2 .74K ΟΗΜ,1%,0 .125 W
91637
01121
01121
73138
01121
91637
MFF1816G124R OF
CB 1335
CB2025
91-89-0
.C B2415
MFF 1816G27400 F
R870
Α872
R900
Α914
R92Q
R922
311-1571-00
321-0235-00
321-0097-00
315-0102-00
321-0099-00
315-0161-00
RES .,VAR,NONW I R :500 ΟΗΜ, Ο 50W
RES .,FXD,FILM :2 .74K ΟΗΜ,1%,0.125 W
RES .,FXD,FILM :100 ΟΗΜ,1%,0.125 ω
RES .,FXD,C MP SN :IK OHM,5%,0 .25W
RES .,FXD,FILM :105 ΟΗΜ,1%,0.125 W
RE S ., FXD ,C MP SN :160 OHM,5%,0 .25W
73138
91637
91637
01121
91637
01121
91-91-0
MFF1816G27400 F
MFF1816G100 ROF
CB1025
MFF1816G105 ROF
CB1615
Α924
R928
R930
R936
Α938
R942
315-0510-00
301-0681-00
317-0510-00
301-0681-00
315-0510-00
321-0097-00
RE S ., FXD ,C MP SN :51 OHM,5%,0 .25W
R ES ., FXD ,CMP S N :680 ΟΗΜ,5%,0 .50W
CB5105
RES ., FxD ,CMPSN :51 ΟΗΜ ,5%,0 .125 ω
RE S ., FXD ,CMP SN :680 ΟΗΜ,5%,0 .50 W
R ES ., FXD ,CMP SN :51 OHM,5%,0 .25W
R ES .,FXD,FILM :100 ΟΗΜ ,1%,0 .125W
01121
01121
01121
01121
01121
91637
ΕΒ 6815
ΒΒ 5105
ΕΒ 6815
C B 5105
MFF1816G100 R OF
R 945
Α947
Α950
R 952
R 958
Α 960
321-0090-00
315-0360-00
311-1244-00
321-0030-00
SELECTE D
321-0012-00
RES .,FXD,FILM :84.5 ΟΗΜ,1%,0.125 W
RES., FXD ,CMP SN :36 OHM,5%,0 .25W
RES .,VAR,NONWIR:100 ΟΗΜ ,10%,0 .50W
RES .,FXD,FILM :20 ΟΗΜ,1%,0 .125W
91637
01121
32997
91637
MFF1816G84R50 F
CB 3605
3386 Χ-Τ07 -101
MFF1816G20R OO F
RES .,FXD, FILM :13 ΟΗΜ,1%,0 .125W
91637
M FF 1816G13R OO F
R 965
Α970
Α974
Α980
R 982
Α984
315-0100-00
315-0200-00
308-0297-00
315-0200-00
301-0100-00
301-0100-00
RES ., FXD ,CMP SN:10 OHM,5%,0 .25W
RES ., FXD ,CMP SN:20 OHM,5%,0 .25W
RES ., FXD,WW :24 .7 ΟΗΜ ,1 %,3W
RES ., FXD,C MP SN :20 OHM,5%,0 .25W
01121
01121
91637
01121
01121
01121
CB1005
CB2005
RS2 B- K24 R70 F
CB2005
ΕΒ 1005
ΕΒ 1005
R 1015
R 1016
R 1024
R 1028
311-1558-00
315-0682-00
315-0510-00
301-0681-00
RES ., VAR,NONWIR :20K ΟΗΜ ,20%,0 .50W
73138
01121
01121
01121
91-80-0
CB6825
C B5105
ΕΒ6815
Α765
R 767
Α770
Α775
R 777
REV N OV 1981
RES ., FXD,C MP SN :10 ΟΗΜ,5%,0 .50W
R ES ., FXD,C MP SN :10 ΟΗΜ ,5%, 0 . 50W
RES ., FXD ,C MP S N :6 .8K OHM,5%,0 .25W
R ES ., FXD ,C MP SN :51 OHM,5%,0 .25W
R ES ., FXD ,C MPSN :680 ΟΗΜ,5%, 0 . 50W
7- 1 3
Replaceable E lectrical P arts-FG 504 (SN Β040000 & up)
C kt No.
Tektronix
P art No.
Se r ial/ M o del No.
Dscont
Eff
Name & Descriptio n
M fr
Code
M fr Part Nu m be r
Α1030
R1036
Α1038
Α1042
R1045
Α1047
317-0510-00
301-0681-00
315-0510-00
321-0097-00
321-0090-00
315-0360-00
RES .,FXD ,CMP SN :51 ΟΗΜ ,5%,0.125W
RES ., FXD ,CMP SN:680 ΟΗΜ,5%,0 .50W
RES ., FXD ,CMP SN :51 OHM,5%,0 .25W
RES .,FXD,FILM :100 οΗΜ ,1%,0.125 ω
RES .,FXD,FILM :84.5 ΟΗΜ,1%,0 .125 W
RES ., FXD ,CMP SN :36 ΟΗΜ,5%,0.25ϋ
01121
01121
01121
91637
91637
01121
ΒΒ 5105
ΕΒ 6815
C B5105
MFF1816G100ROF
MFF1816G84R50 F
CB 3605
Α1050
Α1052
R1070
Α1074
R 1080
R 1082
311-1244-00
321-0030-00
315-0200-00
308-0297-00
315-0200-00
301-0100-00
RE S ., VAR ,N ONWIR :100 ΟΗΜ ,10%,0 .50W
RES .,FxD,FILM :20 ΟΗΜ ,1%,0 .125W
RES ., FXD ,CMP SN :20 OHM,5%,0 .25W
RE S ., FXD ,WW :24 .7 ΟΗΜ ,1 %,3W
RES ., FXD ,CMP SN :20 OHM,5%,0 .25W
RES ., FXD ,C MP SN :10 ΟΗΜ ,5%,0 .50W
32997
91637
01121
91637
01121
01121
3386 Χ-Τ07 -101
MFF1816G20ROO F
CB 2005
R S2 B-K24 R70F
C B2005
ΕΒ 1005
301-0100-00
322-0215-00
R 1092
315-0100-00
Α 1096
305-0101-00
Α1098
305-0101-00
R 1100A , B 311-1775-00
RES ., FXD,C MP SN :10 ΟΗΜ,5%,0 .50W
R ES .,FXD,FILM :1 .69K ΟΗΜ,1%,0 .25W
R ES ., FXD,C MP SN:10 OHM,5%,0 .25W
R ES ., FXD,C MP SN:100 ΟΗΜ,5 %,2W
RES ., FXD ,CMPSN:100 0HM,5 X ,2W
R ES ., VAR, NONWIR :1 .6K Χ 2 .5Κ ΟΗΜ,15%,0 .50W
01121
75042
01121
01121
01121
01121
ΕΒ 1005
C EBT O-1691 F
CB1005
ΗΒ 1015
ΗΒ 1015
68-77-0
Α1102
Α1104
R 1110
R 1112
Α1114
R1120
323-0068-00
323-0068-00
307-1024-00
307-1024-00
307-1037-00
315-0102-00
RES .,FXD,FILM :49 .9 ΟΗΜ,1%,0 .50W
RES ., FXD , FI LM :49 .9 ΟΗΜ ,1%,0.50W
75042
75042
80009
80009
80009
01121
CECTO-49 R90 F
Α1122
R 1130
RES .,FXD ,CMP SN:IK OHM,5%,0 .25W
RES .,VAR,NONWIR:15K O HM ,1W
(FURNI SHED AS Α UNIT W ITH S1130)
RES .,FXD,FILM :34 .8K ΟΗΜ,1%,0 .125W
RES .,FXD,FILM : 10K ΟΗΜ,1%,0.125 W
RES .,FXD,FILM : 10K ΟΗΜ ,1%,0.125 W
01121
01121
CB1025
Α1134
R 1136
315-0102-00
311-1851-00
----- ----321-0341-00
321-0289-00
321-0289-00
91637
91637
91637
MFF1816G34801 F
MFF1816G10001 F
MFF1816G10001 F
Α 1138
R 3140
R 1142
Α1146
R 1150
R 1154
321-0289-00
311-1921-00
321-0289-00
315-0163-00
315-0102-00
315-0102-00
RES .,FXD,FILM : 10K ΟΗΜ,1%,0.125W
R ES ., VAR,NON WIR :250 ΟΗΜ,10%,0 .50W
RES .,FXD,FILM :l OK ΟΗΜ,1%,0.125W
RES .,FxD ,CMP SN :16K OHM,5%,0 .25W
RES .,FXD ,CMP SN :IK OHM,5%,0 .25W
RES .,FXD ,CMP SN :IK OHM,5%,0 .25W
91637
73138
91637
01121
01121
01121
MFF1816G10001 F
72-191-0
MFF1816G10001 F
CB 1635
C B 1025
f
C B 1025
Α1156
R 1160
R 1164
R 1174
R 1176
Α 1180
315-0101-00
308-0619-00
315-0823-00
315-0102-00
315-0101-00
308-0619-00
RE S ., FXD ,C MPSN :100 OHM,5%,0 .25W
RE S ., VAR,WW :37 .0 ΟΗΜ,1%,3W
RES .,FXD ,C MP SN:82K OHM,5%,0 .25W
RES .,FXD ,C MP SN:IK OHM,5%,0 .25W
RES ., FXD,C MP SN :100 OHM,5%,0 .25W
RES ., VAR ,WW:37 .0 ΟΗΜ,1 %,3W
01121
91637
01121
01121
01121
91637
C B1015
RS2 B 37 .0 OHM 1%
C B8235
R 1190
315-0303-00
315-0103-00
315-0392-00
315-0103-00
315-0432-00
311-1320-00
----- -----
RES .,FXD,C MP SN :30K OHM,5%,0 .25W
RES .,FXD ,CMP SN: 10K OHM,5%,0 .25W
RES., FXD ,CMPSN:3 .9 K OHM,5%,0 .25W
01121
01121
01121
01121
01121
12697
CB3035
CB1035
CB3925
C B1035
CB4325
381CM-39700
RES., VAR,NONWIR :5 K ΟΗΜ,10%,1W,SPST SW
(FURNI SHED AS Α UNIT WITH S1210)
RES ., FXD ,CMP SN :510 OHM,5%,0 .25W
RES., FXD ,CMP SN :1 .5 K OHM,5%,0 .25W
RES., FXD,CMP SN :47 OHM,5%,0 .25W
12697
CM43494
01121
01121
01121
01121
CB5115
C B 1525
CB4705
CB 1035
01121
01121
01121
01121
C B 5115
C B5115
C B4705
R 1084
R 1090
R 1132
Α1200
R 1201
R 1202
R 1204
R 1210
R 1210
Ν1217
R 1220
R 1222
311-1320-01
----- ----315-0511-00
315-0152-00
315-0470-00
315-0103-00
R 1228
R 1230
R 1234
R 1240
315-0511-00
315-0511-00
315-0470-00
315-0511-00
R 1215
7-14
ATTENUATOR,FXD:50
ATTENUATOR,FXD :50
ATTENUATOR,FXD:50
RES .,FxD ,CMP SN :IK
Β040000
Β058450
Β058449
ΟΗΜ ,10Χ
ΟΗΜ ,10Χ
ΟΗΜ ,10 DB
ΟΗΜ ,5%,0 .25W
RES .,FXD ,CMPSN: 10K OHM,5%,0 .25W
RES ., FXD ,CMP SN:4 .3 K OHM,5%,0 .25W
RES ., VAR,NONWIR :5 K OHM, I W, W/S W
(FURNI SHE D AS Α UNIT W ITH S1210)
RES ., FxD,CMP SN : 10 K OHM,5%,0 .25W
RES ., FXD,C MP SN :510 OHM,5%,0 .25W
RES ., FXD,C MPSN :510 OHM,5%,0 .25W
RES ., FXD,C MP SN:47 OHM,5%,0 .25W
RES ., FXD ,CMP SN:510 OHM,5%,0 .25W
CECTO-49 R90 F
307-1024-00
307-1024-00
307-1037-00
CB 1025
14 Μ212
CB1025
CB1015
R S2 B 37 .0 OHM 1%
CB5115
REV NOV 1981
Re placea ble Electrical P arts- FG 504 (SN Β 040000 & up)
C k t No .
Te k tro n ix
Part No .
Serial/ M o d el No.
Eff
Dscont
M fr
Co d e
Na m e & Descri p tio n
M fr P art N um b er
Α1242
Α1245
R 1250
R 1254
R 1256
Α1258
315-0511-00
315-0561-00
315-0121-00
315-0121-00
315-0152-00
315-0362-00
R ES ., FXD ,CMP SN :510 OHM,5%,0 .25W
RES., FXD ,CMP SN :560 OHM,5%,0 .25W
RES ., FXD ,CMP SN :120 OHM,5%,0 .25W
RES ., FXD ,CMP SN :120 OHM,5%,0 .25W
RES ., FXD ,CMP SN :1 .S K OHM,5%,0 .25W
RES ., FXD ,CMP SN :3 .6 K OHM,5%,0 .25W
01121
01121
01121
01121
01121
01121
CB5115
CB5615
CB1215
CB1215
CB1525
CB3625
Α1264
Α1270
Α1274
R 1276
R 1278
R1282
315-0681-00
311-1712-00
321-0394-00
315-0472-00
321-0260-00
315-0271-00
RES ., FXD ,CMP SN:680 OHM,5%,0 .25W
RES ., VAR , NONWIR :20K ΟΗΜ,10%,1 W
RES .,FXD,FILM :124 K ΟΗΜ,1%,0 .125W
RES ., FXD,CMPSN:4 .7 K ΟΗΜ,5%,o.25W
RES .,FXD,FILM :4 .99K ΟΗΜ ,1%,0 .125W
RES ., FXD ,CMP SN :270 ΟΗΜ,5%,0 .25W
01121
01121
91637
01121
91637
01121
C B6815
S PSG040S203UA
Α1284
Α1295
Α1298
Α1300
Α1302
Α1305
315-0202-00
321-0128-00
315-0511-00
315-0511-00
315-0511-00
315-0102-00
RES .,FXD ,CMP SN :2K ΟΗΜ ,5%,0 .25W
R ES .,FXD,FILM :210 ΟΗΜ , 1 %,0 .125W
RES ., FXD ,CMP SN :510 OHM,5%,0 .25W
RES ., FXD ,CMP SN :510 OHM,5%,0 .25W
R ES ., FXD ,CMP SN :510 OHM,5%,0 .25W
R ES .,FXD ,CMP SN :IK OHM,5%,0 .25W
01121
91637
01121
01121
01121
01121
C B2025
Α1308
Α1310
R 1316
Α1320
R 1324
Α1328
315-0511-00
321-0079-00
315-0511-00
315-0102-00
315-0102-00
315-0752-00
R ES ., FXD ,CMP SN :510 OHM,5%,0 .25W
01121
91637
01121
01121
01121
01121
CB5115
MFF 1816G64R90F
CB5115
CB1025
C B1025
CB7525
Α1330
R 1331
Α1332
Α1334
Α1340
Α1345
315-0752-00
315-0152-00
315-0514-00
321-0396-00
315-0152-00
315-0102-00
RE S ., FXD ,CMP SN :7 .5K
01121
01121
01121
91637
01121
01121
CB 7525
CB 1525
CB5145
MFF 1816G13002F
CB1525
CB 1025
R 1370
R 1372
315-0103-00
315-0152-00
311-1320-00
----- ----311-1320-01
----- -----
RES .,FX D ,C MP S N : 10K ΟΗΜ ,5%,0 .25W
RES .,FXD ,C MP SN :1 .5K OHM,5%,0 .25W
RES .,VAR,NONWIR :5 K OH M , IW ,W /SW
(FURNI SHE D AS Α UNIT W ITH S1375)
RES .,VAR,NON WIR :5K ΟΗΜ ,10%,1W,SPST S W
(FURNI SHED AS Α UNIT WITH S1375)
01121
01121
12697
CB1035
CB 1525
381CM-39700
12697
CM43494
Α1375
Α 1375
RES .,FXD,FILM :64 .9 ΟΗΜ,1%,0.125 W
RE S ., FXD ,CMP SN :510 OHM,5%,0 .25W
RES .,FXD ,CMP SN :IK OHM,5%,0 .25W
R ES .,FXD ,CMP SN :IK OHM,5%,0 .25W
RES .,FXD ,CMP SN :7 .5K OHM,5%,0 .25W
OHM,5%,0 .25W
RE S ., FXD,C MP SN :1 .5K OHM,5%,0 .25W
RE S ., FXD ,CMP SN :510K OHM,5%,0 .25W
RES .,FXD,FILM :130 K ΟΗΜ ,1%,0 .125W
RES ., FXD ,C MP SN :1 .5K OHM,5%,0 .25W
RES .,FXD ,C MP SN :i K OHM,5%,0 .25W
Β040000
Β058450
Β058449
,
MFF1816G12402 F
CB4725
MFF1816G49900F
C B2715
MFF 1816G210 ROF
CB5115
CB 5115
C B5115
CB1025
R 1376
R 1380
R 1384
315-0332-00
315-0106-00
315-0102-00
315-0102-00
315-0102-00
315-0511-00
RES ., FXD,C MP SN :3 .3 K OHM,5%,0 .25W
01121
01121
01121
01121
01121
01121
CB3325
CB 1065
CB1025
CB1025
CB1025
CB 5115
R 1394
Α1400
R 1402
R 1406
R 1408
R 1410
315-0102-00
321-0272-00
321-0287-00
321-0193-00
321-0289-00
321-0314-00
RES .,FXD ,C MP SN :IK OHM,5%,0 .25W
01121
91637
91637
91637
91637
91637
CB1025
MFF1816G95300 F
MFF 1816Gi0000F
MFF1816G10001 F
MFF1816G18201 F
Α1412
R 1416
Α1418
R 1425
Α1435
R 1436
321-0227-00
315-0102-00
315-0272-00
315-0103-00
311-1373-00
315-0361-00
RES ., FXD, FILM :2 .26K ΟΗΜ, 1%,0 .125W
RES .,FXD,CMPSN:IK OHM,5%,0 .25W
RES ., FXD ,CMP S N :2 .7 K OHM,5%,0 .25W
RES .,FXD,CMP SN: 10K OHM,5%,0 .25W
RES ., VAR , NONWIR :5K 0ΗΜ ,20%,1W
RES ., FXD ,CMP S N:360 OHM,5%,0 .25W
91637
01121
01121
01121
01121
01121
MFF1816G22600 F
C B 1025
CB2725
C B 1035
73U4G0401,502M
CB3615
Α1438
R 1440
R 1442
Α1444
Α1448
315-0134-00
315-0155-00
315-0134-00
315-0101-00
315-0102-00
RES., FXD ,CMP SN :130 K OHM,5%,0 .25W
RES ., FXD ,CMP SN :1 .5 M OHM,5%,0 .25W
RES., FXD ,CMP S N :130K OHM,5%,0 .25W
RES ., FXD,CMP SN :100 OHM,5%,0 .25W
RES .,FXD ,CMP SN :IK OHM,5%,0 .25W
01121
01121
01121
01121
01121
CB 1345
CB 1555
C B1345
C B1015
C B 1025
Α 1386
Α 1390
Α1392
REV N O V 1981
ΑES .,FXD,C MP SN :l OM OHM,5%,0 .25W
RES .,FXD,C MP SN :IK OHM,5%,0 .25W
RES .,FXD,C MP SN :IK OHM,5%,0 .25W
RES .,FXD ,C MP SN :IK OHM,5%,0 .25W
RE S ., FXD ,C MP SN :510 OHM,5%,0 .25W
RES .,FXD,FILM :6 .65K ΟΗΜ,1%,0.125W
RES .,FXD,FILM :9 .53K ΟΗΜ,1%,0.125W
RES .,FXD,FILM :IK ΟΗΜ ,1%,0 .125W
RES .,FXD,FILM : 10 K ΟΗΜ,1%,0.125 W
RES ., FXD, FILM :18 .2 K ΟΗΜ,1%,0.125 W
MFF 1816G66500 F
7- 1 5
Replaceable Electrical Parts-F G 504 (SN Β040000 & up)
C kt
No.
Te ktronix
P art No.
Serial/ Mo d el No.
Dsco n t
E ff
Name & Description
M fr
Code
M fr P a r t Num b er
Α1458
Α1460
R 1462
315-0101-00
315-0472-00
321-0210-00
321-0222-00
311-1562-00
315-0682-00
RE S ., F XD ,CMP S N :100 OHM,5%,0 .25W
RE S., F XD ,CMP S N :4 .7 K OHM,5%,0 .25W
RES .,F X D,FILM :1 .5 K ΟΗΜ,1%,0 .125W
RES .,F X D,FILM :2K ΟΗΜ ,1%,0 .125W
RES ., V AR,N ONW I R :2 K ΟΗΜ ,20%,0 .50W
RES .,F X D ,C MP SN :6 .8 K OHM,5%,0 .25W
01121
01121
91637
91637
73138
01121
C B 1015
CB 4725
MFF 1816G15000 F
MFF 1816G20000 F
Α1466
R 1467
R 1470
R 1475
Α1476
Α1478
315-0432-00
315-0225-00
315-0103-00
311-1559-00
321-0367-00
321-0289-00
RE S ., FXD ,C MP S N :4 .3 K OHM,5%,0 .25W
RE S ., FXD ,CMP S N :2 .2 M OHM,5%,0 .25W
RES .,F XD ,CMP S N :l O K OHM,5%,0 .25W
RES .,VAR,NONWIR : 10K ΟΗΜ ,20%, 0 . 50W
RE S ., F XD, FILM :64 .9 K ΟΗΜ, Ι %,0 .125 W
RES .,F XD,FILM : 10 K ΟΗΜ,1 Υ<,0 .125W
01121
01121
01121
73138
91637
91637
C B4325
CB 2255
C B 1035
Α1480
Α1484
Α1486
R 1488
Α1490
Α1495
321-0318-00
321-0318-00
321-0227-00
321-0097-00
315-0184-00
315-0202-00
R ES .,F XD,FILM :20 K ΟΗΜ,1%,0 .125 W
RES .,FX D,FILM :20 K οΗΜ,1%,0 .125W
RES .,F X D,FILM :2 .26 K ΟΗΜ,1%,0 .125 ω
RES .,FX D,FILM :100 ΟΗΜ ,1%,0 .125W
RE S ., FXD ,C MP S N :180 K OHM,5%,0 .25W
RE S ., FXD ,CMP S N :2 K ΟΗΜ ,5%,0 .25W
91637
91637
91637
91637
01121
01121
MFF 1816G20001 F
MFF 1816G20001 F
MFF1816G2260oF
MFF 1816Gi00 RO F
CB 1845
CB 2025
Α 1496
R 1500
Α1504
R 1508
Α1510
Α1512
321-0408-00
315-0103-00
321-0289-00
321-0253-00
321-0289-00
315-0103-00
RES .,F XD,FILM :174 K ΟΗΜ,1%,0 .125W
RES .,F XD ,CMP S N : 10 K OHM,5%,0 .25W
RES .,F XD,FILM :l O K ΟΗΜ,1%,0 .125 W
RES .,F X D,FILM :4 .22 K ΟΗΜ,1%,0.125W
RES .,FX D,FILM : 10 K ΟΗΜ,1%,0 .125W
RES .,FXD,C MPS N :l OK OHM,5%,0 .25W
91637
01121
91637
91637
91637
01121
MFF 1816G17402 F
C B 1035
MFF 1816G10001 F
MFF 1816G42200 F
MFF 1816G10001 F
C B 1035
R 1514
Α1520
R 1525
R 1602
Α1605
Α1605
315-0101-00
315-0102-00
315-0102-00
321-0225-00
311-1566-00
311-1565-00
RE S ., F XD,CMP S N :100 OHM,5%,0 .25W
RES .,F XD ,CMP S N :1 K OHM,5%,0 .25W
RES .,F XD ,CMP S N :1 K OHM,5%,0 .25W
RES .,F XD,FILM :2 .15 K ΟΗΜ ,1%,0 .125W
RES ., VAR,NONWIR :200 ΟΗΜ ,20%,0 .50W
R ES .,VAR,N ONW IR :250 O HM ,20 Y,,0 .50W
01121
01121
01121
91637
73138
73138
CB 1015
CB 1025
CB 1025
MFF 1816G21500 F
Α 1607
R 1610
Α1612
Α1614
R 1620
Α1621
321-0218-00
315-0222-00
315-0103-00
315-0621-00
315-0103-00
315-0102-00
RES .,F X D,FILM :1 .82 K ΟΗΜ, Ι%,0 .125W,
RE S ., FX D ,C MP S N :2 .2 K OHM,5%,0 .25W
RES .,FX D ,C MP S N : 10K OHM,5%,0 .25W
RE S ., FXD ,C MP S N :620 OHM,5%,0 .25W
RES .,F XD ,CMP S N :l O K ΟΗΜ,5%,0 .25W
RES .,F XD ,CMP S N :IK OHM,5%,0 .25W
91637
01121
01121
01121
01121
01121
MFF 1816G18200 F
C B 2225
C B 1035
C B 6215
C B 1035
C B 1025
R 1623
315-0470-00
308-0755-00
315-0510-00
315-0752-00
315-0562-00
321-0306-00
RE S ., F XD ,CMP S N :47 OHM,5%,0 .25W
RE S ., F XD ,WW :0 .75 ΟΗΜ,5%,2W
RE S ., F XD,CMP SN :51 OHM,5%,0 .25W
R E S ., FX D ,C MP SN :7 .5 K OHM,5%,0 .25W
RE S ., F XD,C MP SN :5 .6K OHM,5%,0 .25W
RES .,FXD,FILM :15 K ΟΗΜ,1%,0 .125W
01121
75042
01121
01121
01121
91637
CB4705
BWH-R7500 J
C B5105
C B 7525
C B 5625
MFF 1816G15001 F
R 1643
315-0103-00
321-0289-00
315-0103-00
315-0621-00
315-0203-00
321-0257-00
RES .,F XD ,C MP S N :I OK ΟΗΜ,5%,0 .25W
RES .,F XD,FILM :l OK ΟΗΜ , Ι %,0 .125 W
RES .,F XD ,CMP S N :IO K OHM,5%,0 .25W
RE S ., F XD ,CMP S N :620 OHM,5%,0 .25W
RE S ., F X D ,C MP S N :20 K OHM,5%,0 .25W
R ES .,FX D,FILM :4 .64 K ΟΗΜ,1%,0 .125 W
01121
91637
01121
01121
01121
91637
C B 1035
MFF 1816G10001 F
CB 1035
CB 6215
C B 2035
MFF 1816G46400 F
R 1654
R1661
321-0096-00
315-0102-00
315-0510-00
308-0767-00
315-0102-00
315-0102-00
RES .,FXD,FILM :97 .6 ΟΗΜ,1%,0 .125W
RES .,FXD ,CMP S N :IK OHM,5%,0 .25W
RES .,FXD ,CMP S N :51 OHM,5%,0 .25W
RE S., F XD ,WW :1 .1 ΟΗΜ,5 %,1 W
RES .,FXD ,C MP SN :1 K ΟΗΜ ,5%,0 .25W
RES .,FXD ,CMP S N :IK OHM,5%,0 .25W
91637
01121
01121
75042
01121
01121
MFF 1816G97 R 60F
C B 1025
C B 5105
BW20-1 R100J
315-0273-00
321-0277-00
311-1566-00
321-0277-00
RE S ., F X D ,C MP S N :27 K OHM,5%,0 .25W
RES .,FX D,FILM :7 .5K ΟΗΜ ,1%,0.125 W
RE S ., VAR , NO NW I R :200 0HM ,20 Y,,0 .50W
RES .,F XD,FILM :7 .5 K ΟΗΜ,1%,0 .125W
01121
91637
73138
91637
C B 2735 '
MFF 1816G75000 F
R 1450
R 1452
R 1456
Α1626
Α1627
Α1640
Α 1641
R1642
Α1644
Α1645
R 1648
R 1650
R 1652
Α1662
R 1663
R 1675
R 1676
R 1682
R 1702
R1705
R 1707
7-16
Β040000
Β058290
Β058289
91-84-0
C B 6825
91-81-0
MFF 1816G64901 F
MFF 1816GI 0001 F
91-88-0
91-87-0
C81025
C B 1025
91-88-0
MFF 1816G75000 F
REV N OV 1981
R eplaceable
C kt
No .
Te k tro n ix
Part No .
Serial/ M o d el No .
E ff
Dsco n t
N ame & Descriptio n
M fr
Co d e
Mf r Part Number
Α1710
R 1712
R 1713
R 1714
R 1715
R 1720
315-0752-00
315-0103-00
315-0103-00
315-0621-00
315-0362-00
315-0103-00
RES .,FXD,CMP SN :7 .5K OHM,5%,0 .25W
RES .,FXD ,CMP SN : 10 K ΟΗΜ ,5%,0 .25W
RES .,FXD ,CMP SN : 10 K OHM,5%,0 .25W
RE S ., FXD ,C MP SN :620 OHM,5%,0 .25W
R ES ., FXD ,C MP SN :3 .6K ΟΗΜ ,5%,0 .25W
R ES .,FXD ,CMP SN : 10 K OHM,5%,0 .25W
01121
01121
01121
01121
01121
01121
C B7525
C B1035
C B1035
C B 6215
C B3625
C B1035
R 1721
R 1723
315-0102-00
315-0470-00
308-0755-00
315-0510-00
315-0682-00
321-0306-00
RES .,FXD,CMP SN :IK OHM,5%,0 .25W
C B1025
C B4705
RES .,FXD,CMP SN :6 .8K OHM,5%,0 .25W
R ES .,FXD,FILM :15K ΟΗΜ,1%,0 .125W
01121
01121
75042
01121
01121
91637
Α1746
R 1747
R 1748
R 1750
321-0327-00
315-0103-00
315-0103-00
315-0912-00
315-0621-00
315-0203-00
RES . , FXD , FILM : 24 .9K OHM, 1%,0 .125W
R ES .,FXD ,CMP SN :l O K OHM,5%,0 .25W
R ES .,FXD ,CMP SN :I OK OHM,5%,0 .25W
R ES ., FXD ,CMP SN :9 .1 K OHM,5%,0 .25W
RE S ., FXD ,CMP SN :620 OHM,5%,0 .25W
RES .,FXD ,CMP SN :20K OHM,5%,0 .25W
91637
01121
01121
01121
01121
01121
MFF1816G24901 F
C B1035
C B1035
C B9125
C B6215
CB2035
Α1752
R 1754
Α1761
Α1762
Α1763
Α1776
321-0257-00
321-0096-00
315-0102-00
315-0510-00
308-0767-00
315-0102-00
RES .,FXD,FILM :4 .64K
RES .,FXD ,CMP SN :IK OHM,5%,0 .25W
RES ., FXD ,CMP SN :51 OHM,5%,0 .25W
RES ., FXD ,WW:1 .1 ΟΗΜ ,5 %,1W
RES .,FXD ,CMP SN :IK OHM,5%,0 .25W
91637
91637
01121
01121
75042
01121
MFF1816G46400 F
MFF1816G97R60 F
C B1025
C B5105
B W20-1 R100J
C B1025
Α1777
Α1782
315-0101-00
315-0273-00
RES ., FXD ,CMP SN :100 OHM,5%,0 .25W
RES .,FXD ,CMP SN :27K OHM,5%,0 .25W
01121
01121
C B 1015
ΑΤ 317
ΑΤ 318
RT 748
RT 1456
307-0122-00
307-0122-00
307-0122-00
307-0126-00
ΑES .,THERMAL :50 ΟΗΜ , 10 %
RES .,THERMAL :50 ΟΗΜ ,10%
RES .,THERMAL :50 ΟΗΜ ,10%
ΑES .,7HE RMAL :100 ΟΗΜ,10Χ {
50157
50157
50157
14193
3D 1515
3D 1515
3D1515
2 D21 -101-D
S50
311-1851-00
----- ----260-1208-00
263-1140-00
263-1139-00
260-1803-00
ΑES ., VAR , NONWIR :15K OHM ,1W
(FURNI SHED AS Α UNIT W ITH Α50)
SW IT CH,PU SH :DPDT ,28VDC, PU SH-PUSH
SW CAM AC TR AS : FREQU ENCY
SW CAM AC TR AS :RI SE AND FALLTIME
SW IT CH , PU SH :6 ΒΤΝ ,2 P OLE ,3 IL ,3PP,I OMM
01121
14Μ212
80009
80009
80009
71590
260-1208-00
263-1140-00
263-1139-00
2ΚΒΜ060000-974
263-1138-01
311-1851-00
----- ----51210
311-1320-00
----- ----S1235A-D 260-1802-00
SW CAM ACTR AS :AMPLITUDE
RES .,VAR,NONWIR :15K OHM,1W
(FURNI SHED AS Α UNIT W ITH Α1130)
RES ., VAR, NONWIR :5 K O HM ,1 W ,W/SW
(FURNI SHED AS Α UNIT W ITH Α1210)
SW IT CH , PU SH :4 ΒΤΝ ,2 P OLE,INTERLOCK
80009
01121
263-1138-01
14Μ212
12697
381C M-39700
80009
260-1802-00
51375
RES ., VAR , NONWIR :S K OHM ,1 W ,W/SW
(FURNI SHED AS Α UNIT W ITH Α1375)
SW CAM AC TR AS :SWEEP DURATION
12697
381C M-39700
51435
311-1320-00
----- ----263-1137-00
80009
263-1137-00
U5
U 25
U 30
U45
U 155
U 215
156-0158-00
156-0158-00
156-0158-00
156-0067-00
156-0067-00
156-0484-00
MICROC IRCUIT,LI :DUAL O PE RATI ONAL AMPLIFIE R
MICR OC IRCUIT,LI :DUAL OPE RATIONAL AMPLIFIER
MICROC IRCUIT,LI :DUAL O PE RATIONAL AMPLIFIER
MICROC IRCU IT,LI :O PEΑATIONAL AMPLIFIE R
MI CROC IRCUIT,LI :O PERATIONAL AMPLIFIER
MI CROC IRC UIT,LI :O PERATI ONAL AMPLIFIER
18324
18324
18324
02735
02735
80009
MC1458N
MC1458N
M C1458N
U375
U 530
U710
U 770
U 770
U1145
156-0534-00
156-0067-00
156-0511-00
155-0032-00
155-0217-00
156-0105-00
MI CROC IR CUIT,LI :DUAL DIFF AMPL ,14 LD DIP
MI CROC IRCU IT,LI :O PERATI ONAL AMPLIFIER
MI CROC IR CUIT,LI :O PERATIONAL AMPLIFIER
MI C ROC IR CUIT,LI :ML,PRE-AMPLIFIER
MI CROC IRCUIT,LI :PLRT INV & TRIG PI CK O FF
MI CROC IRCU IT,LI :OPE RATIONAL AMPLIFIER
80009
02735
18324
80009
80009
27014
156-0534-00
85145
ΝΕ 531Ν
155-0032-00
155-0217-00
LM 301 AN
Α 1726
Α1727
Α1740
Α1742
R 1744
R 1745
S195
5240
5590
S730A-F
RES ., FXD ,CMP SN :47 OHM,5%,0 .25W
RES ., FXD ,W W :0 .75 ΟΗΜ ,5 %,2W
RES ., FXD,CMP SN :51 OHM,5%,0 .25W
REV ΜΑΥ 1982
ΟΗΜ ,1%,0 .125W
RES .,FXD,FILM :97 .6 ΟΗΜ,1%,0.125 W
51100
51130
I
E lectrical Parts- FG 504 (S N Β040000 & up)
Β 040000
Β057720
Β 057719
B WH-R7500 J
C B5105
C B6825
MFF1816G15001 F
CB2735
85145
85145
156-0484-00
7-17
Rep laceab le E lectrical Parts- FG 504 (SN Β040000 & up)
Ckt No .
Tektronix
Part No .
Serial/Model No .
Eff
Dscont
N ame & Description
Mfr
Code
Mfr Part Number
IJ1215
U 1225
U 1295
U1340
U1445
U1470
156-0230-00
156-0369-00
156-0230-00
156-0067-00
156-0067-00
156-0105-00
MICROC IRCUIT,DI :DUAL D MA-SLAVE FLIP-FLOP
MICROC IRCU IT,DI :TRIPLE LINE RE CEIVER
MI C ROC IRCU IT,DI :DUAL D MA-SLAVE FLIP-FLOP
MI C ROC IRCU IT,LI :OPERATI ONAL AMPLIFIER
MICROC IRCUIT,LI :OPE RATI ONAL AMPLIFIER
MI CROC IRCU IT,LI :OPERATI ONAL AMPLIFIER
80009
80009
80009
02735
02735
27014
156-0230-00
156-0369-00
156-0230-00
85145
85145
LM 301AN
U1480
U1490
U1495
U1500
U 1690
156-0067-00
156-0105-00
156-0197-00
156-0067-00
156-0277-00
MI CROC IRCU IT,LI :OPERATI ONAL AMPLIFIER
MI CROC IRCUIT,LI :OPERATI ONAL AMPLIFIE R
MI CROC IRCU IT,LI :5 TRANS ISTOR ARRAY
MICROC IRCU IT,LI :OPE RATI ONAL AMPLIFIER
MI CROC IRCUIT,LI :VOLT AGE RE GULAT OR
02735
27014
02735
02735
07263
85145
LM 301AN
CA3086
85145
MI CROA7805UC
V R 23
VR 275
VR 295
VR310
VR380
ΥΑ462
152-0279-00
152-0306-00
152-0306-00
152-0326-00
152-0280-00
152-0306-00
S EMICO ND
S EMICOND
S EMICO ND
S EMICOND
SEMICO ND
SEMICO ND
DE VICE : ZE NER ,0 .4W,5 .1 V,5%
DE VICE : ZENE R ,0 .4W,9 .1 V,5%
DEVI CE : ZENER ,0 .4W,9 .1V,5%
DE VICE : ZE NER ,0 .4W ,7 .5V ,5%
DE VICE : ZENER ,0 .4W,6 .2V,5%
pE VICE : ZE NER ,0 .4W,9 .1 V,5%
04713
15238
15238
80009
80009
15238
S ZG35010RL
VR470
VR 550
ΥΑ 570
VR775
VR 805
VR 932
152-0306-00
152-0280-00
152-0280-00
152-0306-00
152-0508-00
152-0405-00
SEMICO ND
SEMI CO ND
SEMICO ND
SEMICOND
SEMICO ND
SEMI CO ND
DE VICE :ZENER ,0 .4W,9 .1 V,5%
DE VICE : ZENER ,0 .4W,6 .2 V,5%
DE VICE : ZENER ,0 .4W,6 .2V,5%
DEVI CE :ZENER ,0 .4W,9 .1 V ,5%
DEVI CE : ZENE R ,0 .4W,12 .6V ,5%
DE V ICE : ZENER ,1W,15 V ,5%
15238
80009
80009
15238
80009
80009
Ζ5409
152-0280-00
152-0280-00
Ζ5409
152-0508-00
152-0405-00
VR940
VR1032
VR1040
ΥΑ1608
VR1608
VR1652
152-0520-00
152-0405-00
152-0520-00
152-0280-00
152-0166-00
152-0147-00
SEMICO ND
SEMICO ND
SEMICO ND
SEMICO ND
SEMICO ND
SEMICO ND
DE VICE :ZENER ,1 W,12V ,5%
DEVICE : ZENER ,1W,15 V ,5%
DE VICE :ZENER ,1W,12V ,5%
DE VICE : ZENER ,0 .4W,6 .2 V ,5%
DE VICE :ZENER ,0 .4W,6 .2 V,5%
DEVI CE : ZENER ,0 .4W,27V,5%
14433
80009
14433
80009
04713
04713
1 Ν 4742Α
152-0405-00
1 Ν4742Α
152-0280-00
SZ11738
S Z50622KRL
ΥΑ1676
VR1677
VR1752
ΥΑ 1776
VR 1777
152-0590-00
152-0282-00
152-0147-00
152-0590-00
152-0282-00
SEMICO ND
SEMICOND
SEMICOND
SEMICOND
SEMICOND
DE VICE :ZENER ,18V ,5% ΑΤ α7ΜΑ
DE VICE : ZENER,0 .4W,30V,5%
DEVICE : ZENER,0 .4W,27V,5%
DE VICE :ZENER,18V ,5% AT 7ΜΑ
DEVICE : ZENER,0 .4W,30V,5%
80009
04713
04713
80009
04713
152-0590-00
1 Ν972Β
S Z50622KRL
152-0590-00
1 Ν972Β
W638
W 1210
W1428
131-0566-00
131-0566-00
131-0566-00
BUS
55210
55210
55210
L -2007-1
L -2007-1
L -2007-1
7-18
Β040000
Β058290
Β058289
CONDUCTOR:DUMMY RE S,2 .375,22 AWG
BUS CONDUCTOR: DUMMY RES,2 .375,22 AWG
BUS COND UC TOR: DUMMY RE S,2 .375,22 AWG
Ζ 5409
Ζ5409
152-0326-00
152-0280-00
Ζ5409
REV NOV 1981
Section 8- FG 504 (S N Β040000 & UP)
DIAG RA M S A N D CI R C U IT B OA R D I LLU ST RATIO N S
Symbols and
R eference Designators
E lectrical components shown on th e diagrams are in the following units unless noted otherwise :
Capacitors = V al ues one or greater are in picofarads (P F ) .
V al ues less th an one are in microfarads (μ F) .
Oh ms ( Ω).
R esistors =
Symbols u sed on t he d iagrams are b ased on ANSI Stan d ard Υ32 .2-1975.
Logic sym bology is based on AN SI Υ32 .14-1973 in terms of positive logic. L ogic symbols d epict t he logic
function performe d an d may d iffer from t he manufacturer's data .
The following prefix letters are used as reference d esignators to identify components or assem blies on the diagrams .
Α
AT
Β
BT
C
CB
CH
DL
DS
Ε
F
FL
Assembly, separable or repairable
(circuit board, etc .)
Attenuator, fixed or variable
M otor
B atte ry
Ca pacitor, fixe d
Ci r cu it br ea ke r
o r va ria ble
Diode, sig n al or rectifie r
Delay line
Indicating d evice (lamp)
S park Gap
Fuse
F ilte r
Η
HR
ΗΥ
J
Κ
L
Μ
Ρ
Q
R
FIT
H eat d issipating d evice
h eat r adiator, etc .)
Heater
H ybrid circuit
Connector, stationary
R elay
I
nductor, fixed
M eter
or
(heat sink,
p ortion
va ria b le
Connector, movable p ortion
Transistor o r silicon-controlled
rectifier
Resistor, fixed o r variable
S
Τ
ΤC
ΤΡ
υ
V
VR
ω
Υ
Switch o r contactor
T ransformer
Thermocouple
Test p oint
Assembly, inseparable or non -repairable
(i ntegrated ci r cu it, etc .)
E lectro n tub e
Voltage regulator (zener d io de, etc.)
Wi restrap or ca ble
Crystal
Phase shifter
T hermisto r
Th e following special sym bols are used on the diagrams :
Cam Switch Clos u re Chart
(Dot indicates switch closu re)
Ί3
t12.V -/0 .71--1
~
B AL .
Plug to E .C. B oar d
Βοχ
Identifies P anel Controls,
Connectors, and I ndicators
M o difie d Component-See Parts L ist
(Depicted in grey, or with grey outline)
P lug Index
SEL Value Selecte d at F actory
R efer to W aveform
R efer to Diagram Nu mber
Coaxial Co nnector
Test V oltage
S hielding
H eat Sink
Deco up le d or F iltered V oltage
Assembly N um ber
B oard N ame
Etc hed Circuit Board Outline d
z
Ά
α
η
F G504
(S N Β 040000 & UP)
NOTE
LEAD CO NFIG URATIONS A ND CASE STYLE S A RE TYPICA L, BU T MAY
VA RY D UE TO VENDOR CHA NGES OR INSTRUMENT MODIFICATIONS.
7
ο
z
υ
Σ
ω
Ν
Β
Β
Β
Metal-Cased Transistors
P lastic-Case d T r ansisto r s J
D
C
CATHODE
III ι
III
GAT E
AN OD E
G ND
OU T
IN
Index
Ind ex
Integrate d Circuits M ounting
Fig . 8-1 . Semico nd uctor b asi n g .
2655-03 Α
REV ΜΑΥ 1981
R 155
C340
H f L oop Comp
Τρ 1
1
Min Dial Sym Cal
R52
Top Dial Sym Cal
r
C195
C242
40 MHz Cal 4 MH z Cal
R 128
20 MHz Cal
R 630
SO WAVE
R 610
R IS E & FALL SY M
8641
SO
W AVE
AMPL
AD J
O FFSET ADJ
R 1050
SO CO MP
T RAI LI NG E DG E
R 1140
O FF SET B ALANCE
C1092
O UTPU T
I MPEDANCE
C1090
SO CO MP
S HO RT TERM
.
..®W ...,.
y
+5 V ΤΡ
R 1605
+15 V AD J
Si
C857
Si ne F latness
R 1475
.1Ι
i"ί"ίΓ -
R 855 Ι
Si ne Gain
R 1460
Ramp P ea k
Log P ea k
R 790
ne Offset
ί~,'Γ ίOil~1
"vti:"11~111~~
11
C
~ ι-,'~2 ΔyΥι_Υι_,ί
30
0,
Ι~ ΙΓ
Ρ1500
1 R amp
Pin
ί"ίί
°
υ
Ε~~~ ήl
.
ΥιΥ
'~γΛ
W
~
Ε~-~JI
Ι-
ν
:":
1, ί",ι1
η,ιι
ί"ΙΙ
ΙΙΙ
S
~
"y
.
Χ7
Ν
ι~ σσσοσσσοσ σ ®~® ®®
Α2
Ι . 8-2. Adju stme nt locations.
REV Α ΜΑΥ 1980
40
AL AN C E
SO
C1090
SO CO MP
S H O R T TERM
FG
R 950
CO MP
504 (S N Β040000 & UP)
LEADI N G E DG E
Ο
Ό
ο
D
ο
Χ Χ
α
α
ο
Γ
3
R
Ζ
J
r
C
Π
D
1.-
R 870
AM ΒαΙ
R 1460
R855 ι
R 790
Sine
R am p P ea k
Si n e Gai n
Offset
Ρ1500
Ο
Ζ
Ν
R 740
Sine D r ive
ο
Α2
Function
B oard
2655-05 Α
C KT
G RID
LOC
C KT
G R ID
LOC
C45
C72
C78
C80
C95
C98
C106
C195
C210
C240
C242
C244
C246
C247
C248
C250
C255
C275
C290
C300
C315
C325
C327
C329
C331
C340
C342
C344
C346
C380
C382
C387
C475
C480
C712
C1284
C1670
C1671
C1672
C1673
t
D5
D6
D5
F6
F6
E6
G4
t
t
G4
G4
Η5
Η4
Η4
G4
F4
F4
F2
E2
F4
D5
D5
D5
D4
D2
D2
D2
D2
C6
C6
C3
Β4
C3
Κ6
F6
C1
C2
F1
C2
J 300
J 406
J 412
J 418
J 485
E2
85
Β5
Β6
Β2
L 300
L 382
t
C6
Ρ5
Ρ20
Ρ 125
Ρ710
Ρ720
Ρ 1264
Ρ 1270
Ρ 1275
Ρ 1666
G1
1
Κ3
Κ6
L5
F6
Η6
Κ5
D1
C R20
C R 21
C R85
C R108
C R180
C R182
C R184
C R186
C R188
C R190
C R218
C R220
C R352
C R 356
C R 462
C R 470
C R 1285
C R1286
J2
Q55
Q65
Q80
Q90
Q100
Q165
Q170A
Q170 B
Q175
0225
Q230
Q255A
Q255 B
Q270
Q280
Q285
0295
Q310
Q395
Q406
Q410
Q415
Q450
Q456
Q462
Q470
Q720
Q1280
E5
C5
D5
E5
E5
Η3
G3
G3
E5
J4
J3
F3
F3
F3
F2
F2
E2
E4
C5
84
C5
Β6
Β4
Β3
Β3
Β3
Κ5
G6
R8
R 10
R 12
R 14
R 20
R 23
Η3
Η3
13
J2
13
J3
Η6
6
3
6
J3
NO
J2
D6
D6
E5
F5
F5
F5
F5
E5
J3
J3
D3
D3
82
C2
G6
F6
NO
R 25
R 28
R 30
R 32
R 34
1
1
1
1
t Located on b ack of board .
C KT
NO
R 36
R 38
R 42
R 45
R 52
R 54
R 58
R 65
R 68
R 70
R 72
R 76
R 78
R 80
R 85
R 88
R 90
R 92
R95
R 98
R 100
R 102
R 104
R 108
R 114
R 115
R 120
R 128
R 130
R 134
R 136
R 138
R 140
R 143
R 145
R 147
R 150
R 155
R 158
R 160
R 162
R 165
R170
R172
R 175
R195
R 200
R 202
R 204
R 206
R 208
R 210
R 212
R 215
R 220
R 225
R 228
R 235
R 250
GR ID
L OC
CKT
G R ID
L OC
CKT
G R ID
L OC
Κ2
Η3
G2
Η3
G4
G2
F4
C5
D6
D5
D5
D6
D6
D4
E6
E6
F6
E5
E6
E6
E6
F6
E6
E6
Β2
Β6
t
6
16
Κ4
L4
Η2
Η2
2
2
2
3
Η4
Η2
Η3
G2
G3
G2
G2
F5
G5
Κ4
Κ4
Η4
14
14
14
13
13
J4
Κ3
Κ3
Η4
G4
R 252
R 255
G4
F4
F3
G3
G2
F3
E3
F3
F3
F4
E2
F2
F2
E3
F2
E2
E2
E4
E4
E4
D5
D5
D5
D4
D3
D2
D2
D2
D2
D3
D3
D3
D3
C2
C3
C3
C3
D3
C4
C5
C6
D6
D3
C4
C4
C6
C6
C6
C5
C6
Β5
C5
C5
Β5
C5
C6
Β6
Β5
C4
R 452
R 454
R 456
R 458
R 462
R 465
R 470
R 475
R 480
R 700
R704
R706
R708
R710
R 716
R 717
R 720
R 1274
R 1276
R 1278
R 1282
R 1284
Β4
Β4
Β4
C4
Β3
Β3
C3
Β4
C3
L6
L6
L6
Κ6
Κ6
Κ5
Κ5
L5
Η6
G6
G6
G6
G6
R T317
R T318
E4
E4
S195
S240
Κ4
t
U5
U 25
U 30
U 45
U 155
U 215
U 375
U 710
Η2
Η6
J3
G3
Η3
J3
D4
Κ6
VR 23
VR 275
VR 295
VR 310
VR 380
VR 462
VR 470
J3
W20
J4
1
1
1
1
1
NO
R 258
R 260
R 262
R 265
R 270
R 271
R 272
R 275
R 280
R 285
R 287
R 288
R 290
R 295
R 300
R 315
R 317
R 322
R 325
R 327
R 329
R 331
R 336
R 340
R 342
R 344
R 346
R 350
R352
R356
R358
R360
R 363
R 365
R 367
R 370
R 372
R 375
R 380
R 382
R385
R387
R 390
R 395
R 397
R 398
R 400
R 402
R 406
R 409
R 410
R 412
R 415
R 417
R 419
R 420
R 450
NO
F2
E3
E4
C6
Β3
Β3
2655-06
οορ board com p o nent locatio ns.
REV Α ΜΑΥ 1980
FG
504 (S N Β 040000 & UP)
ιη"
;
1, c
0", Ln
α.
α
0406
tnA
rc Cc
Q450
F ig. 8- 3. Α 3 Loop board compo n en t Ιοει
.0171 0
RIS
LGVLL
J1200
INPUT
5Ι 21 Ο
Q1210
υ121 5Β
51235
M ODE
IO k
IO k
145
J IV Ρ-Ρ
ΜΑμ TRIy
2} Β Ff
245
+10V TO -I O\/
ΡΗΑδΕ L OC K ERROR
VOLTAGE OUTPUT
ΤΜΙ4/GATE
CONTROL
L061G
SYNC
GENERATOR
RBo
VCF
INPV7
Οτο +1Ον
Γ_
3ωιΡ
91s75
'IV
Ισ 4
lok
2ΙΒ E~
:rl
228 Ε---ε
R5
FRlq
51455
{5ω4ΕΡ ΤΙΜΕ ~ ------ - -- - - sTSOB
LO y
311, 5
ΜΑΝ
T RI
s,5oc
J20
5TSOA
FR HQ
1
R175
FREOVLNCγ
3Τ40
.Τ
+
ό
TRIGGER
οΜΡΑ0
. ΑΤ0
25 Α
+ισν -
J157a
5ωΡ
Τ0
.Ιφ
Ν
+
J ιον
Jι52 Ο
ιιΝ
sWP
ουΤ
α52Ο
VAR
I46LG
RVA"
ISG ΑN0 FALL
υ53σ
453Ο
_
F~sWP RETRAGG TIMG
+.7 ν
~-_ι 4ν
ισk
υ-ν+~-~ 2ιΑ
9WP ΑΕ.ΜΤ
OUTPUT
-FIν Ρ-Ρ
5Ο
T R IGGER
ΙιΕΝΕR ΑΤΟIL
β4Ι 0
Q415
F4 504
5Ν5 ο4οοο- υΡ
JWν
Ο
1
J 420
TRIG
ουΤ
ι
5ιο
(~2ί
27Β
~-ι 2αΒ
(2Ο2Β-27) Ζ4SS-12
+ιν
~ον
+τs νοιτ
RRGULATOR.
+25 VOLTS
51235
MODE
QI640
QI6S2
q1642 Q1660
4165ο
Ι
Ι
Ο
Ρ1270
+IS VOLT
PHASE
βεςυιΑΤοα
+ ι 5 VOLTS f_
41ιΙΟ
QιL2O
DSI b73
POWER
*Ι2Α
+33.5 V
Q'ΙΓ.21
Ο
+5 VOLT
R.ECw ULATOR
+S VOLTS
U I6.90
+1 Α
ill "Sv
RE CTIFI ER
CR16 B o
CR 1684
CR Ι 6Β6
-15 VOLT
RE G ULATO R
-IS VOLTS --a
®
ι9Α
-ί 5Α 67.5VAC
-~ 58
-~ ιΑ
-~ ΙΒ
Qηιο 4172%
Qι -ι 2Ο Ο
~ ΒΑ
-33-5ν
-15 VOLT
REf
yUL ATOR
-15 VOLTS
41741
Q1750
QI752
Q:
7(.0
®
5730
FUNCTIO N
III
Ι
T2IANGL E
B UFFBR
Q2558
β 17 Ο
U 215
Q225
4 τ 3ο
4-110
R115
FR
EOV " 4CY ( Ητ )
START
υ53ο
Q53o
2 UARE
iΝER qTO R
145Ο
1456.
1461
147Ο
Ο
Ο
SQ VARE
BUFF ER
F
-~-i 4495
4500
QΖΙΟ
J420
TRIG
50
-NW
ουτ
~56Ο ~
~+1 ν
τ7θ
ον
}-~ Zee
ι 2θ-27) Ζ 655- Ι2
Ι
Ι
ΟΙ
Ι
Ι
Ι
Ι
4490
Ι
RISE A ND FALL TI ΜΕ
α 5το
VAR
Ι
Ι
NF L OOP
CC`ΜΡ - Ν 5ΑΤΙΟΝ
υ 375
VARIABLE
RISE
AND FAL L
5 οναεε
Ι
454Ο
4s5o Ο
VA RIA BLE
R ISG MID FALL
SWITCH
Ι
Qqe ο
4950
Qg7o
Ι
41σ30
Q940
4952
49 δο
sιΙοο
AT7 E NUATO R
ι
J1125
ΟμΤΡ
o-
Q1040
3ο 4
Δ 1Ο 5Ο QIoS2
4107Ο Ο
41
8
0
28 Α
~-i27 Α
ΙΝΡυΤ
lok
ΙΜ
J7oo~~
IOk ~
23Α Ε~
~- ογ
3ον Ρ-Ρ
Μ
U7
U 710
.5720
g730
OFFS ET
4 ΕΝΕ RΑΤΟIL
U I145
Q 115 Ο
4111.0
Ρ-Ρ=1οο%
Q1170
51
Δ1 Ι8Ο
BUFFER.
Ι
Ι
Ι
Ο
C1164
CURRENT
SOU R C E
-
0580
C052
CR757
εα75 θ
C R76B
C R764
90( 4ql4
β
.
Ι
Ι
Ι
Ι
Ι
C υRRENT
457Ο
CC"746
CR7SI
ΟυτΡυΤ
AMPLI FI E0
.
Ι
Ι
1
Ι
Ι
Ι
+ CURRENT
CRSS δ
CRSWO
C R 562
Ι
Ι
Ι
Ι
~_________
Ι
Ι
Ι
5 Ι ΝΕ
5 ΝΑΡΕ PL
Ι
Ι
CR745
1
σν
COMPAR ATOR
1ΙδΝCγ
ΕRATOR
LL OWE R
Ι
Ι
Ι
ti
Ι
Ι
Ι
Ι
Ι
0280
'alas
42g5
CA P ACITANCR
MULTI PL I ER
Ι
~
Ι
Ι
Ι
Q255 Α
,V
Ι
Ι
Ι
Ι
Ι
Ι
Ο
BLOCK
DIACy P_AM
®
R11;0
OFFSG7
FG
504 (S N Β040000 & UP)
CR 632
R 632
R 620
R615
C638
R630
0620
R 622
R 618
0615,
A616
~7
ε
ω ω ω
σ = σ σε :
J 64q,
R 64 1
`
46
- Lδ
0640
R 646
C612
0
.
0610 R61
f3612
R 604
' Ρ 1445
ε * ar . ε
σι,
σε
σ
01160
Ν
ει
αΙ
άί
ά
ύ
ο
ε
ε
ύ
λΊ
Γ
Γ
?C588)
,
Φ
Μ
υ'ι
σ'
Φ
'Μ
ιη
σ
U 1145
C598
λλ
+5 V
°C596
C594 CR580' . C592
ε
` CR5 6 2 '
C R 558
C R564
CR556
ι R574 i
C R566
U 055 Π
R 548
R572 VR550
0570
ε5 1 5 .
C534 0540
R 544
058Q,
R 515
R580
R44?!
0510;
C$10° C$70 .
VR570
Ά ,ε
R 496 A ο 500'
R512
R 576 `
μ~
R49,8
Ρ 486 ~
1`1190
rn
0530~~"" ~
..
μ 0495
R 530
R521
~
Ρ 1210
R500 .
64 "N , N
W1210
U 530
c
, C1690 ,
C1694
σ
R 11 τ 0
R 1112
C
R 1136
R 1114
ο
Μί Μ
J
r
S1130
Ss
~:
1120
Ό
φ
Γ
d
Ζ
L1120
Fig. 8-4. Α 1 M ai n boa r d (front) cc
ο
Ν
Γ
σ
`" . . .
~
R1705
.η
σ
CB,~'_
Q1715
R1715
R 1623
R 1710
R 1626
R17,97
C R 1711
0 1720
R 1702
81720
01620 ' F11627
01~ζχ
C R 1700
fro nt) com p on en t locatio ns.
fl1a12'
R 1713
R1714
R1721
'
F 17157
C KT GR ID
NO
C494
C495
C510
C534
C550
C570
C576
C588
C592
C594
C596
C598
C612
C638
C642
C914
C922
C928
C934
C947
C950
C955
C958
C965
C972
C975
C976
C978
C1036
C1047
C1050
C1072
C1075
C1076
C1078
C1090
C1092
C1145
C1146
C1154
C1156
C1160
C1174
C1176
C1180
C1438
C1440
C1442
C1608
C1612
C1630
C1690
C1694
C1720
C1730
LOC
Α5
Β6
C5
Α5
Β5
C5
D6
E4
C4
Β4
C4
C4
C3
Β1
Β2
Κ4
Κ4
L4
Κ4
L4
Μ3
J3
Κ2
L3
L2
Μ2
L4
Μ4
J5
14
3
2
12
J4
14
Κ3
Κ2
E3
G3
G4
F3
Η4
Η4
Η3
Η5
F2
E2
E2
15
J6
E5
Β6
Β7
L6
D5
1
1
CK T
NO
G R ID
C R 556
C R 558
C R 560
C R562
C R 564
C R 566
C R 632
C R 942
C R943
C R 960
C R 962
C R 1042
C R 1043
C R 1600
C R 1608
C R 1630
C R 1700
C R 1711
C R 1730
F 1120
F1615
F1715
LOC
CK T
NO
G R ID
CK T
NO
G R ID
R 625
R 630
R 632
C2
Β2
Α2
Β2
C2
Β2
C3
Κ4
Κ3
Κ4
Κ5
Κ3
Κ4
Κ4
L4
L4
Μ3
Μ4
L4
Μ3
L3
Κ3
L3
Κ3
L2
Μ4
L2
L2
Κ2
Κ5
Κ3
J3
J4
J4
J4
J4
13
14
14
13
J3
2
4
J2
J2
J2
Κ3
Κ2
16
16
E5
F5
F5
G6
Η6
LOC
C5
C5
C5
C5
D5
C5
Α1
Μ3
Μ4
J3
L3
Η3
4
Η6
15
J5
L6
L6
Μ6
Q620
Q640
Q950
Q970
Q980
Q1050
Q1070
Q1080
Q1150
Q1160
Q1170
Q1180
Q1610
Q1620
Q1621
Q1710
Q1715
Q1720
Q1721
Β2
C2
L3
Μ2
L2
13
12
J2
G3
G2
Η3
Η2
5
J6
Κ6
L5
L5
Μ6
Μ6
F6
R 490
R 494
R 496
R 498
R 500
R 512
R 515
R 522
R 524
R 526
R 528
R 530
R 536
R 538
R 540
R 544
R 548
R 552
R 572
R 574
R 576
R 580
R 582
R 584
R 586
R 592
R 604
R 606
R 610
R 612
R 615
R 616
R 618
R620
R622
Α6
Β5
Α5
Β6
Β6
C6
C5
D6
D6
D6
C6
C6
Α4
Β4
Β5
Β5
C5
Α5
CS
D5
D6
D5
D4
D4
E4
C4
Β3
Β3
C3
D3
Α2
Α3
Α2
Α2
Α2
1
Κ5
Μ6
J 640
J 900
J 1120
C2
Κ4
F6
L515
L646
L945
L1045
L1130
L1120
C5
C2
Μ4
13
G5
G6
Ρ 486
Ρ 1130
Ρ 1210
Ρ 1445
Ρ 1600
Ρ 1665
Ρ 1660
Ρ 1765
Β6
Η6
Α6
D2
Κ7
D6
C6
D6
Q495
Q500
Q510
Q530
Q540
Q550
Q570
Q580
Q600
Q610
0615
Β6
Β5
C5
D6
Β5
Β5
D5
D5
Β3
Β3
Β2
1
R640
R 641
R 642
R 646
R 900
R914
R 920
R 922
R 924
R 928
R 930
R 936
R 938
R 942
R945
R947
R950
R952
R958
R 960
R 965
R 970
R 974
R 980
R 982
R 984
R 1015
R 1016
R 1024
R 1028
R 1030
R 1036
R 1038
R 1042
R 1045
R 1047
R 1050
R 1052
R 1070
R 1074
R 1080
R 1082
R 1084
R 1090
R 1092
R 1102
R 1104
R 1110
R 1112
R 1114
R 1120
R 1122
LOC
1
1
CK T
NO
G R ID
L OC
R1132
R 1134
R 1136
R1138
R 1140
R 1142
R 1146
R 1150
R1154
R 1156
R 1164
R 1174
R 1176
R 1190
R 1436
R 1438
R 1440
R1442
R1444
R1602
R 1605
R 1607
R 1610
R 1612
R 1614
R 1620
R 1621
R 1623
R 1626
R 1627
R 1702
R 1705
R 1707
R 1710
R 1712
R 1713
R 1714
R 1715
R 1720
R 1721
R 1723
R 1726
R 1727
G6
G4
G5
G3
G3
G3
G4
G3
G3
F3
G2
Η4
Η3
Η2
13
D2
D2
D2
D2
Η6
Η5
Η6
J5
J5
J5
J6
J5
J5
J6
J6
Κ6
Κ5
Κ6
L6
Μ5
Μ5
Μ5
L5
L6
Μ5
Μ6
Μ6
Μ6
S1130
F6
U530
U 1145
U 1690
D6
G4
Β6
VR 550
VR 570
VR 932
VR 940
VR 1032
Β5
D5
L3
L3
J3
CKT
NO
G R ID
L OC
VR 1040
VR 1608
J3
Η5
W1130
G5
Α6
W 1210
Waves h ape N umber/Control Settings
Controls
FRE Q UEN CY
FRE Q UEN CY
H O LD RUN
FRE Q UEN CY
FRE Q UEN CY
TR IGG ER
Hz
Hz
STAR T
STO P
0000000000
.04
40
MUL TI PL I ER
VERN I ER (VAR)
FREE RUN
TR IG
GAT E
Φ LOC K
MAN
LEVEL
STO P FRE Q-S WEEP
L OG S WEEP-L I N SWEEP
TR IG SWEEP-FREE RUN
O FFS ET Ρ
PHAS E
SWEEP D UR ATIO N
VAR
R IS E & FA LL TIME
VAR
ATT ENU ATO R (dB )
VAR
MAN T R IG
T RIG LEVEL
SY MMET RY
25
00
44
°'
Variable +
0
10- '
CW
1
0
0 -40i
Ι
0
0--0~
1 ms
ccw
F ixe d
O FF
Ι
B la nk i ndicates n onapplicable.
Ο i nd icates p us h bu tton out .
1 i nd icates p u s hb utton in .
000 00015
F G 504 (S N Β040000 & UP)
R 11 00 B
R 1100A
Fig. 8-5. Α1 Main boa r d (bαι
S1435
35
ο
Γ
*σ
R 520
S590
S1100
2655-08
board ( bac k ) com p on ent locatio n s .
C KT
NO
GRID
LOC
C1630
C1730
E5
D5
0930
0940
0952
01030
01040
01052
01622
01722
D3
D3
C3
E3
E3
F3
E6
C6
R 520
R 1096
R 1098
R 1100A
R 1100B
R 1160
R 1180
R 1435
14
F1
C1
G5
F5
13
Η3
G2
S590
S1100
S1435
L4
J5
J2
Controls
FREQUENCY'Hz START
FREQUENCY Hz STOP
HOLD RUN
FREQUENCY MULTIPLIER
FREQUENCY VERNIER (VAR)
TRIGGER
FREE RUN
T RIG
GATE
Φ L OCK
MAN
LEVEL
STOP FREQ-SWEEP
LOG SWEEP-LIN SWEEP
T RIG SWEEP-FREE RUN
W aves ha pe N umber/Control Settings
φφΦ ©© © φ
25
'41- 0101
40
CW
No
Ι
OFFSET Ρ
PHASE
S WEEP D URATION
VAR
R ISE & F ALL TIME
VAR
ATTENUATOR (dB)
V AR
MAN T R IG
TR IG LEVEL
SYMMETRY
O FF---.1 Ν s --1111~
Ι
B lank indicates nonapplicable.
Ο indicates p ushbutton out .
Ι indicates pushbutton in .
5590
TIME
RISE A N D F ALL
CCW
F IX ED S 6nS
ΙΟη
Ι
+ ι 5ν
C534
Ι/ιF
3
ι
ι
Ι
Ι
Ι
Ι
Ι
Ι
Ι
ι
2-
τι .5 κ
R 538
7.32Κ
R540
806
Ι .6 Κ
+15V
το
R 590
Κ
240
2
4
ι
ι
ι
Ι
Ι
Ι
Ι
ι
Ι
Ι
Ι
5
6
ι
ι
Τ
8
9
U75430
22
R 552
Ι
ΙΟΚ ζCR556
ι
1
Ι
1
Ι
Ι
1
Γ
ι
Q550
R548
+5V
+S V
22
.ΟΙ
6 .p-V
C R560
00ι
360
απ . ν
10
χ - Ι . ιν
I
CR562
q
q~
/Q
lcss21C5941CS961CSS β
If
.0ΟΙ
.ο1
Ι
,
.ιF
Ι
ι
ι
ι
ι
ι
ι
Ι
Ι
ι
ι
Ι
Ι
r
ι5ι5
130m H
6.2V
hl
INA . Ο 1
Ι
Q600
R625
R606
5Q
C ΟΙΙ 2 Ί.
R 574` C R 566
-ISV
-ι5ν
22
CW Ο
WAVE
OFFSET ADJ
Q620
R 622
56
R615
R 612
360
-ι5ν
R580
J 640
Ι .3 Κ
4 .7
R 610
5ο
~-1
Β
+ Ι.Ι~
~ χ -I .I V ι
Q610
C5τΟ
ΙΟΚ
-ι5ν
ΪΟΟ
33
51
Q5 ϊΟ ~~
22
Ι . 3Κ
R640
Rώ l b
R 572 Vw
R5I 2
CR63 z
;ϊτ63z
105
+15 V
VR570 PA
(~ C638
0 .1
C(A 2
P,604
R592
C R564
C510
+15 V
C RS5β
IV©
+5ν©
1 .5 Κ
T~ -rv
-ISV
υ
R642
+ιν φ
C550
VR550
+5 V
M ATC HE D PAI R .
2.
R 544
+Ι 5ν
R 515
ιιο
j
1 πι
ιο
Q540
Q530
+4V
Ι . CL OS URE DOT
I N DICAT E S
CO NTACT CLOS E D.
-1)
R536
R 528
NOTES :
ιο )
R641
250
L 646
.5
2
H
μ
R 646
560
-ι 5ν
R620
215Κ
2 .15K
-ιsν
OUT
-L
- ι5ν
RISE ξ FALL
5 ΥΜ
1CST6
too
R 576
2ΑΟΚ
-IS V
R582
D
το
806
R584
7.32Κ
R 586
71 .5 Κ
/
9
/
C588
1/u.F
-IS V
PARTIA L
`4οεν -3 ΖΜΆ yς%φάι
SQUARE BUFFER / VA RIA BLE R IS E Ε
At
FA LL
ΜΑΙΝ
B OA R D
Ρ 64 Ο
ΤΟ
Ρ73 Ο
DIAG
FG
504 (SN Β040000 &
UP)
Ρ1160
Ρ1163
in
CM
C1770
J C1774
Ρ1 2 7S *`'
In
U*j
++
Ln Δ
0
J 1295
Δ
Δ
0
0
Fig . 8-6 . Α2 Fu n ctio n board com p one nt loce
C KT GR ID
LOC
C KT
NO
G R ID
L OC
C745
C784
C790
C812
C844
C857
C880
C884
C1200
C1204
C1215
C1217
C1258
C1295
C1322
C1330
C1340
C1380
C1392
C1394
C1445
C1462
C1468
C1478
C1492
C1494
C1504
C1770
C1774
C1778
C1800
J3
J730
J3
J4
J4
C R745
C R746
C R747
C R748
C R 750
C R 751
C R 752
C R 753
C R 755
C R 756
C R 757
C R758
C R 762
C R 763
C R 764
C R 765
C R 825
C R 826
C R 842
Ι2
Ι2
Ι2
Ι2
Ι2
Ι2
Ι2
Ι2
Η2
Η2
Η2
Η2
G2
G2
G2
G2
Η4
Η4
G4
G5
G6
G6
Η5
F6
E4
E4
C2
D2
NO
CR 1212
CR 1225
CR 1226
C R1235
C R1312
C R1370
C R 1372
C R 1420
C R 1470
G3
F3
F4
G4
E2
Η3
G3
G6
F6
G4
Η4
Η6
F6
D5
E5
D5
D3
D4
E3
Α3
D1
D2
Β3
Β4
Β3
C5
E6
E6
C3
Α4
J732
J 735
J 1201
J 1295
G6
E6
LR 880
LR 884
G3
G3
Ρ 712
Ρ 1160
Ρ 1161
Ρ 1163
Ρ 1215
Ρ 1260
Ρ 1276
Ρ 1277
Ρ 1345
Ρ 1370
Ρ 1440
Ρ 1500
F1
0805
0825
0830
0835
0840
01220
01245
01250
01254
01260
01262
01400
01410
01420
01430
01450
G4
Η4
Η3
Η3
Η4
Η4
Η6
Η5
Η6
G5
G6
D3
D3
D3
C2
C2
R 730
R 735
R 736
R 738
R 740
R742
R745
R746
R747
R749
R 751
R 753
Κ4
Κ5
Κ5
J2
J1
J2
Ι2
J3
Ι3
J2
Η2
Ι3
12
Η2
Η3
Η2
G2
G3
G2
F4
F2
R 755
R 757
R 759
R 761
R 763
R 765
R 767
R 770
R 775
C6
D6
D6
F6
Η6
D6
E6
Ι6
E1
C1
J1
C KT
NO
R777
R780
R784
R787
R790
R793
R795
R798
R800
R802
R805
R807
R810
R818
R 820
R 822
R 830
R 835
R 840
R 842
R 850
R 852
R 855
R 857
R 868
R 870
R 872
R 1200
R 1201
R 1202
R 1204
R 1215
R 1217
R 1220
R 1222
R 1228
R 1230
R 1234
R 1240
R 1242
R 1245
R 1250
R 1254
R 1256
R 1258
R 1264
R 1295
R 1298
R 1300
R 1302
R 1305
R 1308
R 1310
R 1316
R 1320
R 1324
R 1328
R 1330
R 1331
R 1332
G R ID
OC
E4
G3
F2
F2
G1
G2
G2
F4
G4
F4
Η4
Η4
Η4
F4
F4
Ι4
Ι3
Ι3
G4
G4
F4
F4
E1
E2
F2
F1
F2
G6
F6
F6
F6
G5
G4
Η4
Η5
F5
F5
G5
Η6
Η6
Η6
G5
G6
Η5
Η6
G6
Η6
D6
E5
E5
E5
G5
Η5
E6
D6
E6
D5
E5
E5
D6
C KT
NO
G R ID
LOC
R 1334
R 1340
R 1345
R 1370
R 1372
R 1376
R 1380
R 1384
R 1386
R 1390
R 1392
R 1394
R 1400
R 1402
R 1406
R 1408
R 1410
R 1412
R 1416
R 1418
R 1425
R 1448
R 1450
R 1452
R 1456
R 1458
R 1460
R 1462
R 1466
R 1467
R 1470
R 1475
R 1476
R 1478
R 1480
R 1484
R 1486
R 1488
R 1490
R 1495
R 1496
R 1500
R 1504
R 1508
R 1510
R 1512
R 1514
R 1520
R 1525
D6
D5
C5
E4
E2
D4
D4
E4
E4
E4
D4
E2
D3
D4
E3
E3
E3
D3
D4
D4
C2
Β2
Β2
Β2
C3
D3
D1
D2
D2
D2
C2
Β1
Β2
Β3
C3
C3
C3
C3
Β5
Β4
Β5
Β5
C5
C4
C4
C4
C4
Κ2
Β2
RT748
J2
S730A
S730B
S730C
S730D
S730 E
S730 F
S1235A
Κ2
Κ2
Κ3
Κ3
Κ4
Κ4
14
RT1456
C3
C KT
NO
G R ID
LOC
S1 235 B
S1235C
S1235D
Ι4
Ι5
Ι5
U 770
U 1215
U 1225
F3
U 1295
U 1340
U 1445
U 1470
U 1480
U 1490
U 1495
U 1500
VR 775
VR 805
W 1428
Η5
F5
E6
D5
Β3
D2
C3
Β4
C4
C5
F2
G4
C2
Controls
Waves h ape Number/Control Settings
049 19019069
FRE Q UENCY Hz STA R T
FREQUENCY Hz STOP
HOLD RUN
FREQUENCY MULTIPLIER
FREQUENCY VERNIER (VAR)
T RIGGER
FREE RUN
TRIG
GATE
Φ L OCK
MAN
LEVEL
STOP FREQ-SWEEP
LOG SWEEP-LIN S WEEP
T RIG SWEEP-FREE RUN
η,
O FF SET Ρ
PH AS E
S WEEP D UR ATIO N
VAR
RISE & FALL TIME
V AR
ATTENUATOR (dB)
V AR
MAN TRIG
TRIG LEVEL
SYMMETRY
25
0
105
CW
1
1
O FF
Ι
B lank indicates n onapplicable .
Ο indicates pushbutton o ut.
Ι indicates pushbutton in.
owl
Controls
FRE Q UEN CY Ήτ STAR T
FRE Q UEN CY Hz STO P
H O L D RUN
FREQ UEN CY MULTI PL I ER
FREQ UEN CY VERN I ER (V A R)
TR IGG ER
FREE RUN
TR IG
GAT E
Φ LOC K
MAN
LEVEL
STO P FRE Q-SWEEP
LOG SWEEP-L I N SWEEP
TR IG SWEEP-FREE RUN
OFFS E T Ρ
PH AS E
SWEEP D UR ATIO N
VA R
R IS E & F A LL TIME
VAR
ATT ENU ATO R (d B )
VA R
MAN TR IG
T R IG LEVEL
SYMME T R Y
Wavesha p e
N umber/Control
00000090
25
-
10,
CW
Ι
Ι
OFF --
CW
Blan k i n dicates no n app licable.
Ο i n dicates pus h b utto n out.
Ι i n dicates pu s hb utto n in.
Settings
Waves ha pe
Controls
N umber/Control
Settings
φφφφφφφί48 φφ ©©© φ 0 φ S φφ
FREQ UEN CY Hz STA R T
FREQ UEN CY Hz STO P
H O LD RUN
FREQ UEN CY MUL TI PLI ER
FREQ UEN CY VERN I ER (VA R)
T R IGG ER
FREE RUN
T RIG
GATE
Φ LOC K
MAN
LEVEL
STO P FRE Q-SWEEP
L OG SWEEP-LI N S WEEP
TR IG S WEEP-FREE RUN
25
Ι
10"
C4
04
41111
Ι
Ι
Ι
Ι
Ι
Ι
Ι
M ID
OFFS E T Ρ
Ι
PH AS E
SWEEP DUR ATIO N
VA R
R IS E & F A LL TIME
VA R
ATT ENU ATO R (dB)
VA R
MAN T R IG
T R IG LEVEL
SY MME T R Y
41111
O FF
41111
CW
( E xte rn al In p ut R equ ired )
04
Bla nk i nd icates nonapplica ble.
i
Ο nd icates p us hbutton out .
Ι in d icates p us h button n.
i
Ι
Ι
Ι
Ι
Ι
Ι
Ι
Controls
FREQUENCY Hz START
FREQUENCY H z STOP
HOLD RUN
FREQUENCY MULTIPLIER
FREQUENCY VERNIER (VAR)
TRIGGER
FREE RUN
TRIG
GATE
Φ L OCK
MAN
LEVEL
STOP FREQ-SWEEP
L OG SWEEP-LIN SWEEP
TRIG SWEEP-FREE RUN
O FFS E T
W aves h a p e N umber/Control Settings
Φφφφφ 049 φι68 1504D
25
44
Ι
0
Ι
DOI
0
Ρ
PHAS E
SWEEP D UR ATIO N
VA R
RISE & FALL TIME
VAR
ATTENUATOR (dB)
V AR
MAN TRIG
TRIG LEVEL
SYMMETRY
1 ms
Adj ust
B lank indicates nonapplicable .
Ο ndicates pushbutton out .
Ι indicates pushbutton in .
for 5 ms
i
period
FG
504 (S N Β040000 & UP)
Α
Β
C
.
.
01752
01750
D
.
Ε
.
C KT
R_1754R 1761 , F1710
R1763 ' ~ .~
C_175 α
VR 1752
NO
1
φ
φ
Λ
Γ
# .
^
cc
Τ
:
: : .~
.
~
Γ
α
R 1776R 1777-
R 1746
R 1745
R 1750
C1680
cυ
,`η.
Γ
U
~
~
141747
#
C1776
s
) C R 1740 Q1740 01760
R1740
R1742
~
VR 1776
R 1744 - Q1742
Ε 01776
φ
VR 1777
α
C1761
;
cc
C R 1776
C R 1765
01777
-25 V
R 1652
_
C1650
F1616
+25 V φ
C R 167 6 01652
R 1648
+15 V
VR 1652
01650
R1663
-15 V ά
R1676
01660
GND
, R1650
R1661
VR 1676
CR1652 '
R
1654
V1677
R 1662 m
01677
U
C1765
+.
6
'
cc
U
.
G R ID
L OC
C1650
C1661
C1676
C1680
C1750
C1761
C1765
C1776
C5
Β6
Α6
C3
Β2
Β4
C6
Α4
C R 1652
C R 1665
C R 1676
C R 1682
C R 1740
C R 1752
C R 1765
C R 1776
C R 1782
C5
C6
Β5
D4
Α4
Β4
Α5
Α4
D2
F1616
F1716
D5
C1
Ρ 1662
Α5
Q1640
Q1642
Q1650
Q1652
Q1660
Q1677
Q1740
01742
Q1750
Q1752
Q1760
Q1776
Q1777
Β7
86
Β5
Β5
Β5
Α6
Β4
Β4
Β2
Β1
Β4
Α4
Β5
C KT
NO
R 1645 -
01640
R1643
R 1641
R 1642
R 1643
R 1644
R 1645
R 1648
R 1650
R 1652
R 1654
R 1661
R 1662
R 1663
R 1676
R 1682
R 1740
R 1742
R 1744
R 1745
R 1746
R 1747
R 1748
R 1750
R 1752
R 1754
R 1761
R 1762
R 1763
R 1776
R 1777
R 1782
C6
C6
Β6
C7
Β6
C6
C5
Α5
Β5
Β5
C5
C5
C5
Β5
D4
Α4
Β4
Β4
Β3
Β3
Α3
C1
Β3
Β2
C1
C1
C3
Β2
Α3
Α3
D2
VR 1652
VR 1676
VR 1677
VR 1752
VR 1776
VR 1777
Β5
5
Β5
Β2
Α4
Β4
R 1641
R 1640-
2655-10
Fig. 8- 7. Α 4 F loati n g Interface boar d (fro n t) compo n e nt locatio ns.
L OC
R 1640
C R 1665
C14 -It
φ 01642
10
Τ
`°
GR ID
8
C KT
NO
G RID
L OC
R 1640
R 1641
R 1642
C6
C6
Β6
R 1645
R 1648
R 1650
R 1652
R 1654
C6
C5
Α5
Β5
Β5
R 1643
R 1644
R 1661
R 1662
R 1663
R 1676
R 1682
R 1740
R 1742
R 1744
R 1745
R 1746
R 1747
R 1748
R 1750
R 1752
R 1754
R 1761
R 1762
R 1763
R 1776
R 1777
R 1782
VR 1652
VR 1676
VR 1677
VR 1752
VR 1776
VR 1777
Ρ1638
Ρ1639
Ρ1640
Ρ1641
C7
Β6
C1665
C5
C5
CS
Β5
D4
Α4
Β4
3
CKT
NO
Ρ1630
Ρ1631
Ρ1632
Ρ1633
Ρ1634
Ρ1635
Ρ 1636
Ρ1637
C1
C1
C3
Β2
Α3
Α3
D2
Β5
Β5
Β5
Β2
Α4
Β4
C R1680
CR 1684
C R1686
LOC
C2
C5
D4
D5
D6
Ρ1630
D2
Ρ1632
Ρ1633
Ρ1634
D2
D2
D2
Ρ1631
Ρ 1635
Ρ 1636
Ρ1637
Ρ 1638
Ρ1639
Ρ1640
Ρ1641
Ρ 1642
Ρ1643
Β4
Β3
Β3
Α3
C1
Β3
Β2
C1665
C1682
G RID
D2
D3
D3
D3
C1
C1
C2
C2
C2
C3
Ρ 1644-1 C3
Ρ 1644-2 C3
4
5
2655-10
Fig .
8-8. Α4
F loating Interface
board (bac k) component locations.
Section 9- F G 504 (S N Β040000 & up)
REPLAC E A BLE
ME C H AN ICA L PA RTS
I N D EN TATIO N
PA RTS OR DER I N G I NF ORM ATIO N
Re placement parts are availa ble from or t h ro u g h your local
Tek t ro n ix, Inc . F iel d Office or represe n tative .
C ha n ges to Tektron ix in struments are so m etimes ma d e to
accom m od ate im proved co mp on e n ts as t h ey beco me availa ble,
and to give you the be n efit of the latest circuit i mpr ovem e nts
d evelo ped n ou r e ngi neeri n g d e p artmen t. It is the refore
i
w he n orderi n g p arts, to includ e
i n for m atio n n yo ur orde r : P art num ber, i n str u ment ty p e or
num ber, se r ial nu mb er, a nd mod ificatio n nu m b er if app lica ble.
im po r tant,
the
i
If α part you
i mproved
have o rd ered
has
b ee n
T h is mec ha n ical parts list is i nde n ted to i nd icate item
relatio n s h i p s . F ollowi n g is an exam p le of t h e i n de ntatio n system
u se d in the desc rip tio n col um n .
1
yo ur
4
Name & Description
5
Assembly .an dlo r Comp on en t
Attaching p a rts for Assem bly an d/o r Compo nen t
followi n g
replace d wit h α
2 3
Detail
Pa rt
Attac hing
of Assem b ly an d/o r Comp on e n t
p a rts
for
Part
Detail
Parts of Detail P a r t
new o r
Tek t ro n ix, Inc . F iel d Office o r
re prese n tative will co ntact you con ce rn i n g any c ha n ge i n part
p art,
SYST EM
Attac h ing pa rts for Pa r ts of Detail
local
Pa rt
n u mber .
C h an ge i n form ation, if any, is locate d at t h e rear of t h is
ma nu al .
S PE CIAL N OTE S AN D SY MB OL S
ΧΟΟΟ
P art
fi rst a dded at t h is serial numbe r
ΟΟΧ
Part
rem oved
after th is serial num ber
Attac h i n g Parts always a p pear i n t he same i nde n tatio n as
th e item it mo un ts, wh ile t he d etail parts are i nde n ted to t h e rig h t .
Inde n ted items a re part of, a nd nclud ed wit h , t h e next h ig her
i nd en tation . T h e sep a ratio n sym b ol ---' --- i nd icates the e n d of
i
attach i n g
p arts .
Attach ing
parts
s pecified .
F IG URE AN D I N DEX NUMBER S
Items i n th is sectio n are refe r e n ce d by figure and index
numbers to th e ill u stration s .
mu st
be
pu rc h ase d sep a r ately, unless ot herwise
ITEM NAME
In t h e P arts L ist, an Item N ame is se p ar ated from t h e
d esc ri ption b y α colon ( :) . B ecause of sp ace li m itatio ns, an Ite m
Name may sometimes a ppea r as i nco mp lete . Fo r furth e r Item
Na m e i d en tification , t he U.S . F ed e r al Catalogi n g H andb oo k Η6-i
ca n be
utilize d wh ere possi b le .
A BBREV IATIO N S
NCH
NUMBER SIZE
ACTU ATO R
ADA PT ER
A L IG NMEN T
A LUM I NUM
ASS EMBLE D
ASS EMBL Y
ATT ENU ATOR
A MER ICAN W I RE GAG E
BOAR D
BRACKET
BR ASS
BR O N Z E
BU S H IN G
CAB INET
CAP ACITO R
C ER AM IC
C HASSIS
CI R C U IT
CO MP OSITION
CO NNE CTOR
CO VER
CO UPL I NG
CATH ODE RAY TUBE
DEG REE
DRA WER
I
ACTR
ADPT R
A L IG N
AL
ASS EM
ASSY
ΑΤΤΕΝ
A WG
BD
BRKT
BRS
BRZ
BSH G
CA B
CA P
C ER
C HAS
CKT
CO MP
CO NN
CO V
C PLG
CRT
DE G
DWR
REV .A, FEB 198 0
EL CTRN
ELE C
EL CTL T
ELEM
EPL
EQPT
ΕΧΤ
FI L
FLE X
FLH
FLT R
FR
FSTNR
FT
FXD
GS K T
HDL
HEX
HEX H D
HEX SOC
HLC P S
HLEXT
HV
IC
ID
(D ENT
I MPLR
ELECT R O N
ELECT R ICA L
ELE CT ROL YTIC
ELEMENT
ELE CTRICAL PA R TS L IST
E Q U I PMEN T
E XT ERN A L
F I LL IST ER HEAD
FLEXI BLE
FLAT HE AD
F I LTER
FR A ME or FR O N T
F AST ENER
F OOT
F IX E D
GAS KET
H AN D LE
HE XAGO N
HE XAGO NA L HE AD
HEXAGO N A L SOC KET
HEL ICA L CO MPRE SSIO N
HEL ICA L EXT ENSIO N
H IGH V O LTAGE
I NTEG RAT E D CI R C U IT
I NSID E DIA MET ER
IDEN TI F ICATION
I MPELLER
IN
I NCA N D
I NSUL
I NT L
LPHLD R
MAC H
ME CH
MTG
NIP
NON WI RE
OB D
OD
O VH
ΡΗ BR Z
PL
PL STC
ΡΝ
ΡΝΗ
PWR
R CPT
RE S
R GD
RLF
R TNR
SC H
SCO PE
SC R
IN C H
I N CA N DESC EN T
I N SULATO R
I NTERN AL
LA MPHO L D ER
M AC H I NE
MEC HA N ICA L
MOUNTING
N I PPLE
NOT W I RE W O UN D
OR DER BY DE SCRI P TIO N
OU TSIDE DIA METER
OVA L HE AD
PHOS PH O R BRON Z E
PLAI N o r PLAT E
PLASTIC
P ART N UMBER
PAN HEAD
P OWER
RE C EP TAC LE
RE SISTOR
R IGID
REL I EF
RE TAI NER
SOCKET HE AD
OSCI LLOSCO PE
SCREW
SE
S E CT
S EM ICON D
S HL D
S HL D R
S KT
SL
SLFLK G
SLV G
SPR
so
SST
STL
SW
Τ
TERM
TH D
ΤΗΚ
T NS N
TPG
T RH
V
V AR
W/
SHR
X FMR
XST R
W
SI N G LE EN D
SECTION
S EM ICO N DU CTO R
S H I ELD
S H O ULD ERE D
SOC KET
S L ID E
S EL F- L OC K I N G
S LEEV I N G
S PR I NG
SQ U ARE
STAI NLE SS ST EEL
ST EEL
S W ITC H
T UBE
TERM I N AL
THRE AD
TH ICK
TEN SION
TA PPI N G
TRU SS HEAD
VOL TAG E
VA R IA BLE
IT H
WASHER
T R A NS F O RMER
T R A NSISTOR
W
Replaceable M echanical Parts-FG 504 (S N Β040000 & up)
C R OSS I N DEX- MFR . CODE NUMBER TO
M fr. Cod e
Κ0099
ΟΟΟΒΚ
OOOCY
ΟΟΟΕΧ
00779
05820
08261
11897
12360
13103
22526
42838
55210
56878
70276
71159
71785
73743
73803
74445
77250
78189
78471
79136
79807
80009
83385
86928
87308
93907
95987
9-2
M anufacture r
JACKSON BROS (LONDON) LTD .
STAUFFER SUPPLY
NORTHWEST FASTENER SALES, INC .
Ο 'HARA METAL PRODUCT COMPANY
AMP, INC .
WAKEFIELD ENGINEERING, INC .
SPECTRA-STRIP CORP .
PLASTIGLIDE MFG . CORPORATION
ALBANY PRODUCTS CO ., DIV . OF PNEUMO
DYNAMICS CORPORATION
THERMALLOY COMPANY, INC .
BERG ELECTRONICS, INC .
NATIONAL RIVET AND MFG . CO .
GETTIG ENG . AND MFG . COMPANY
STANDARD PRESSED STEEL COMPANY
ALLEN MFG . CO .
BRISTOL SOCKET SCRE W , DIV . OF
AMERICAN CHAIN AND CABLE CO ., INC .
TRW, CINCH CONNECTORS
FISCHER SPECIAL MFG. CO .
TEXAS INSTRUMENTS, INC ., METALLURGICAL
MATERIALS DIV .
H OLD-KROME CO .
P HEOLL MANUFACTURING CO ., DIVISION
O F ALLIED PRODUCTS CORP .
ILLINOIS TOOL WORKS, INC .
SHAKEPROOF DIVISION
TILLEY MFG . CO .
WALDES, KOHINOOR, INC .
WROUGHT WASHER MFG . CO .
TEKTRONIX, INC .
CENTRAL SCREW CO .
SEASTROM MFG . COMPANY, INC .
Ν . L . INDUSTRIES, INC., SOUTHERN SCREW
DIV .
TEXTRON INC . CAMCAR DIV
WECKESSER CO ., INC .
M ANUF ACTURER
City, State, Zip
Address
258 BROADWAY
105 S E TAYLOR
7923 SW CIRRUS DRIVE
542 ΒRΑΝΝΑΝ STREET
Ρ 0 BOX 3608
AUDUBON ROAD
7100 LAMPSON AVE .
Ρ 0 BOX 867, 1757 STANFORD S T .
NE W YORK, N EW YORK 10007
PORTLAND, OR 97214
BEAVERTON, OR 97005
SAN FRANCISCO, CA 94107
HARRISBURG, PA 17105
WAKEFIELD, MA 01880
GARDEN G ROVE, CA 92642
SANTA MONICA, CA 90406
145 WOODWARD AVENUE
2021 W VALLEY VIEW LANE
Ρ 0 BOX 34829
YOUK EXPRESSWAY
1-21 EAST JEFFERSON ST .
PO BOX 85, OFF ROUTE 45
BENSON EAST
Ρ . 0 . D RAWER 570
SOUTH NORWALK, CT 06586
Ρ 0 BOX 2244, 40 BRISTOL S T .
1501 MORSE AVENUE
446 MORGAN ST .
WATERBURY, CT 06720
ELK GROVE VILLAGE, IL 60007
CINCINNATI, OH 45206
34 F OREST S TREET
31 BROOK S T . WEST
ATTLEBORO, MA 02703
HARTFORD, CT 06110
5700 W .
ROOSEVELT
RD .
DALLAS, TX 75234
NE W CUMBERLAND, PA 17070
WAUPUN, WI 53963
SPRING MILLS, PA 16875
JENKINTOWN, PA 19046
HARTFORD, CT 06101
CHICAGO, IL 60650
S T . CHARLES ROAD
ELGIN, Ι1 60120
SAN CARLOS, CA 94070
LONG I SLAND C ITY, NY 11101
MILWAUKEE, WI 53207
BEAVERTON, OR 97077
BROADVIE W , IL 60153
G LENDALE, CA 91201
Ρ . 0 . BOX 1360
600 18TH AVE
4444 WEST IRVING
S TATESVILLE, NC 28677
900 INDUSTRIAL RD .
47-16 AUSTEL PLACE
2100 S . 0 BAY S T .
Ρ 0 BOX 500
2530 CRESCENT DR .
701 SONORA AVENUE
PARK RD .
ROCKFORD, IL 61101
C HICAGO, IL 60641
REV ΜΑΥ 1982
Section 9- F G 504 (S N Β 040000 & up)
REPLAC EA BLE
ME C H A N ICA L PARTS
I NDEN TATION
PARTS ORD ERI NG I NFO RMATIO N
Re p lacemen t parts a re availab le from or th ro ug h your local
Te k t ro n ix, Inc .
Fiel d
Office or
re p resen tative .
C ha n ges to Te k tro n ix i n stru me n ts a re sometimes m ad e to
accommod ate imp roved co m po n en ts as th ey become availab le,
and to give
develo ped
you th e
in
our
b e nefit
of t h e latest circu it im p roveme n ts
en gin eeri n g d epartme n t . It is t h e refore
i m portan t, whe n orderi n g pa rts, to i n clu de t h e followi n g
i n fo rm atio n i n you r o rd er : Part num ber, i n str u me nt ty pe or
n u m ber,
serial number, a nd mo d ificatio n nu m b er if a pp lica b le .
Th is mec ha n ical parts list is i nd ente d to i nd icate item
relatio n sh i ps.
u sed
Followi n g
is an exam p le of th e inde n tatio n syste m
in t h e d esc ri p tio n col um n .
1
Name & Description
2 3 4 5
Assembly Ι a ndlor Comp onen t
Attaching
par ts
fo r
Assem bly and/or Co mponen t
Detail P a r t ο / Assem b ly and/o r Componen t
Attaching p a r ts for Detail a r t
P
P a rts
o rd ere d h as bee n replaced wit h α n ew or
im proved p a rt, your local Te ktr o n ix, Inc . F ield Office or
represe n tative will con tact you co n cern i n g any c h ange i n part
ο / Detail Pa r t
Attaching p a rts for P a r ts ο 1 Detail Pa r t
part you h ave
If α
SYST EM
number .
C h a n ge
ma nual .
i nfo rm atio n , if any, is located at t h e rear of th is
Pa rt
ΟΟΧ
Part removed after t h is se rial nu m ber
fi rst added at t h is serial
n u mbe r
F IG URE AN D I N DE X NUMBER S
Ite m s i n t h is sectio n are referen ce d by fig ure a nd
nu m b e rs to t h e ill u st ratio n s .
i
n clud ed wit h , t he n ext h ig h er
i nde n tatio n . T h e se pa ratio n sym b ol ---' --- i nd icates t h e e nd of
I nde n ted ite m s are part of, a nd
S PECIA L N OT ES AN D SY MBOLS
ΧΟΟΟ
Attac h i ng P arts always a ppea r i n t he sa m e i nden tation as
th e ite m it moun ts, w h ile t h e d etail pa rts are i nd e nte d to th e r ig ht .
attac h i n g
p arts .
Attac h i n g
parts
spec i fied .
i ndex
must
be purch ased sepa rately, un less othe rwise
ITEM NAME
Parts L ist,
Item N a m e is sep a r ated fro m t h e
Beca use of s pace limitatio ns, an Item
N a me may som eti m es a ppear as i n com p lete . Fo r fu rth e r Item
N ame id e ntificatio n , t h e U.S . F e d eral Catalogin g H a ndboo k Η6-1
can b e u tilized where p ossi b le .
In th e
descrip tio n
an
by α colo n ( :) .
A BBREV IATIO N S
ACT R
AD P T R
A LIGN
AL
ASSEM
ASSY
ΑΤΤΕΝ
AWG
BD
BRKT
BR S
BRZ
B SHG
CAB
CAP
CER
CHAS
CKT
COMP
CONN
COV
C PLG
CRT
DEG
DWR
INCH
NUMBER SIZ E
ACT U ATOR
ADA P T ER
ALIGNMENT
ALUMINUM
ASSEMBLED
ASSEMBLY
ATTENUATOR
AMER ICA N W I RE GAG E
BOA R D
BR AC KE T
BR ASS
BRONZE
BUSHING
CABINET
CAPACITOR
C ERAMIC
CHASSIS
CIRCUIT
COMPOSITION
CONNECTOR
COVER
COUPLING
CATH OD E R AY T UBE
DEG REE
DR A WER
REV Α , FEB 198 0
ELCT RN
ELEC
ELCT LT
ELEM
EPL
ΕΟΡΤ
ΕΧΤ
FIL
FLEX
F LH
FLTR
FR
F ST NR
FT
FXD
GSKT
HDL
HEX
HEX HD
HEX SOC
HLCPS
HLEXT
HV
IC
ID
(DEN T
I MPLR
ELE CTRO N
ELE CTR ICA L
ELE CTR O LYTIC
ELEMENT
ELECTRICAL PARTS LIST
EQUIPMENT
EXTERNAL
FILLISTER HEAD
FLEXIBLE
FL AT HEAD
F IL T ER
FRA ME o r FR O NT
FAST ENER
FOOT
FIXED
GASKET
HANDLE
HEXAGON
HEXAGONAL HEAD
HEXAGONAL SOCKET
HELICAL COMPRESSION
HELICAL EXTENSION
HIGH VOLTAGE
INTEGRATED CIRCUIT
I N SIDE DIAMETER
IDENTI F ICATIO N
IMPELLER
IN
IN CA N D
I N SUL
I N TL
LPHLDR
M ACH
MECH
MTG
NIP
NON W I RE
08D
OD
OVH
ΡΗ BRZ
PL
PLSTC
ΡΝ
ΡΝΗ
PWR
RCPT
RES
R GD
RLF
RTNR
SCH
SCOPE
SCR
I NCH
I N CA N D E SC EN T
I N S UL ATO R
I N T ERNA L
LAMPHOLDER
MACHINE
MECHANICAL
M OUNTING
N IPPLE
NOT W I RE WOUN D
O R D ER BY D ESC R I PTIO N
O UTSID E DIA ME T ER
O V AL HEAD
PHOSPHOR BRONZE
PLAIN or PLATE
PLASTIC
PART NUMBER
PAN HE AD
POWER
RECEPTACLE
RESISTOR
RIGID
RELIEF
RETAINER
SOCKET HEAD
OSCI LL OSCOPE
SCREW
SE
SECT
SEM ICO ND
S HL D
S HLDR
S KT
SL
SLFLKG
S LVG
S PR
so
SST
ST L
SW
Τ
TERM
THD
ΤΗΚ
TNSN
TPG
TRH
V
VAR
W/
SHR
X FMR
XST R
W
SI NGLE END
S E CTION
S EM ICON D U CTO R
S H I EL D
S HOULDERED
SOCKET
SLIDE
SELF-LOCKING
SLEEVING
S PR I N G
SQU A RE
STAI NLE SS STEEL
ST EEL
S WITCH
T UBE
T ERMINAL
THREAD
T H IC K
T ENSION
TAPPING
T RUSS HEAD
VOLTAGE
VARIABLE
W ITH
WASHER
TRA N SF O RMER
TRA N SISTO R
Rep laceable
Mec han ical P a rts-FG 504 (SN Β040000
& up)
CROSS I N DEX-MFR . COD E NUMBER TO
M fr. Cod e
Κ0099
ΟΟΟΒΚ
OOOCY
ΟΟΟΕΧ
00779
05820
08261
11897
12360
13103
22526
42838
55210
56878
70276
71159
71785
73743
73803
74445
77250
78189
78471
79136
79807
80009
83385
86928
87308
93907
95987
9-2
M anufacturer
JACKSON BROS (LONDON) LTD .
STAUFFER SUPPLY
N ORTHWEST FASTENER SALES, INC .
O'HARA METAL PRODUCT COMPANY
AMP, INC.
WAKEFIELD ENGINEERING, INC .
SPECTRA-STRIP CORP .
P LASTIGLIDE MFG . CORPORATION
ALBANY PRODUCTS CO ., DIV. OF PNEUMO
DYNAMICS CORPORATION
THERMALLOY COMPANY, INC .
BERG ELECTRONICS, INC .
NATIONAL RIVET AND MFG . CO .
GETTIG ENG . AND MFG . COMPANY
STANDARD PRESSED STEEL COMPANY
ALLEN MFG . CO .
BRISTOL SOCKET SCRE W , DIV . OF
AMERICAN CHAIN AND C ABLE CO ., INC .
TRW , CINCH CONNECTORS
FISCHER S PECIAL MFG . CO .
TEXAS INSTRUMENTS, INC ., METALLURGICAL
MATERIALS DIV .
HOLO-KROME CO .
PHEOLL MANUFACTURING CO ., DI VISION
OF ALLIED PRODUCTS CORP .
ILLINOIS TOOL W ORKS, INC.
SHAKEPROOF DIVISION
TILLEY MFG . CO .
WALDES, KOHINOOR, INC .
WROUGHT WASHER MFG . CO .
TEKTRONIX, INC .
CENTRAL SCREW CO .
SEASTROM MFG . COMPANY, INC .
Ν . L . INDUSTRIES, INC., SOUTHERN SCREW
DIV .
TEXTRON INC . CAMCAR DIV
WECKESSER CO ., INC .
M ANUFACT URER
City, State, Zip
Ad dress
258 BROADWAY
105 SE TAYLOR
7923 SW CIRRUS DRIVE
542 ΒRΑΝΝΑΝ STREET
Ρ 0 BOX 3608
AUDUBON RO AD
7100 LAMPSON AVE .
Ρ 0 BOX 867, 1757 STANFORD ST .
NE W YORK, NEW YORK 10007
PORTLAND, OR 97214
BEAVERTON, OR 97005
SAN FRANCISCO, CA 94107
HARRISBURG, PA 17105
WAKEFIELD, MA 01880
GARDEN GROVE, CA 92642
SANTA MONICA, CA 90406
145 WOODWARD AVENUE
2021 W VALLEY V IEW LANE
Ρ 0 BOX 34829
YOUK EXPRESSWAY
1-21 EAST JEFFERSON ST .
PO BOX 85, OFF ROUTE 45
BENSON EAST
Ρ . 0 . D RAWER 570
SOUTH NORWALK, CT 06586
Ρ 0 BOX 2244, 40 BRISTOL
1501 MORSE AVENUE
446 MORGAN S T.
DALLAS, TX 75234
NEW CUMBERLAND, PA 17070
WAUPUN, WI 53963
SPRING MILLS, PA 16875
JENKINTOWN, PA 19046
HARTFORD, CT 06101
ST .
WATERBURY, CT 06720
ELK G ROVE VILLAGE, IL 60007
CINCINNATI, OH 45206
34 F OREST STREET
31 BROOK S T . WEST
ATTLEBORO, ΜΑ 02703
5700 W . ROOSEVELT RD .
CHICAGO, IL 60650
S T . CHARLES R OAD
ELGIN, Ι1 60120
SAN CARLOS, CA 94070
LONG I SLAND C ITY, NY 11101
MILWAUKEE, WI 53207
BEAVERTON, OR 97077
BROADVIEW, IL 60153
G LENDALE, CA 91201
Ρ . 0 . BOX 1360
600 18TH ΑVΕ
4444 WEST IRVING
S TATESVILLE, N C 28677
ROCKFORD, IL 61101
HARTFORD, CT 06110
900 INDUSTRIAL RD .
47-16 AUSTEL PLACE
2100 S . 0 BAY S T .
Ρ 0 BOX 500
2530 CRESCENT DR .
701 SONORA AVENUE
PARK R D .
CHICAGO, IL 60641
REV ΜΑΥ 198 2
Re placeable Mecha n ical P a rts- FG 504 (SN Β040000 & up)
F ig . &
In dex
No.
Tektronix
P art No .
Serial/ M o del No.
Dscont
E ff
1-1
200-1837-01
200-1837-02
-2
211-0504-00
4
-3
-4
-6
-7
337-1399-04
366-1609-00
213-0022-00
366-1651-00
213-0153-00
210-1239-00
354-0557-01
2
1
2
1
2
1
1
-8
-9
214-2201-00
211-0088-00
1
2
-10
366-1031-06
213-0153-00
366-1170-03
213-0153-00
366-1059-02
366-1077-01
213-0153-00
366-0494-07
213-0246-00
366-1023-08
213-0153-00
366-1023-07
213-0246-00
366-1690-00
366-1559-01
366-1559-00
----- -----
-23
_24
210-0255-00
----- --------- --------- -----
4
4
4
8
2
2
2
1
1
1
1
1
1
1
3
8
2
2
2
3
2
-25
-26
210-0583-00
210-0940-00
2
2
-5
-11
-12
-13
-14
-15
-16
-17
-18
-19
_20
-21
_22
-27
Β040000 Β049999
Β 050000
Mfr
Code
Μfι P art Nu m ber
COVER ,PLUG- ΙΝ : ΤΟΡ δ BOTTOM
COVER ,PLUG-ΙΝ : ΤΟΡ δ BOTTOM
(ATTACHING PART S)
SCREW,MACHINE :6-32 Χ 0 .25 IN CH,PN H STL
80009
80009
200-1837-01
200-1837-02
83385
OBD
S HIELD,ELEC :S IDE
ΚΝΟΒ : 0 . 08 ID ,0 .4150D
. SET SCREW :4 -40 Χ 0 .188 IN CH,HEX SOC STL
KNOB :GRAY, FCTN FREQSTOP ,0 .2 ' 52 ID ,0 .705 OD
. SET SCREW:5 -40 Χ 0 .125,STL ΒΚ OXD ,HE X SKT
WSHR ,S PR ,ΤNSN :0 .96 ID Χ 0 .012,CU BE
RING, KNOB SKIRT :CLE AR,1 .875 OD
(ATTACHING PART S)
PIN ,S PRING:0 .187 L Χ 0 .069 OD ,STL CD PL
SCREW,MACHINE :2 -56 Χ 0 .281"82 DE G, FLH S TL
80009
80009
74445
80009
OOOCY
86928
80009
337-1399-04
366-1609-00
OBD
366-1651-00
OBD
5806-42-1
354-0557-01
56878
77250
31-5-062-0187
O BD
KNOB :GRAY--VAR
. S ETSC RE W :5 -40 Χ 0 .125,STL ΒΚ OXD ,HEX SKT
KN OB :GRAY,0 .25 ID Χ 0 .706 O D ,0 .6H
. SETSC RE W :5 -40 Χ 0 .125,STL ΒΚ OXD , HE X SK T
PU SH BUTTON :GRAY,3 .0 Η Χ 0 .277 OD
KN OB :GRAY,0 .127 ID ,0 .5 OD,0 .531 H
. SETSCREW :5 -40 Χ 0 .125,SΤL ΒΚ OXD , HE X SKT
KNOB :G RAY-- PULL
. SET SCREW:5 -40 Χ 0 .093 ITL ΒΚ OXD ,HEX SKT
KNOB :G RAY-- PULL
. SET SCRE W :5 -40 Χ 0 .125,STL ΒΚ OXD , HE X SKT
KNOB :GRAY,0 .127 ID ,0 .392 OD ,0 .466
. SET SCREW :5 -40 Χ 0 .093 ΙΤ L ΒΚ OXD ,HEX SKT
KNOB :S IL GY,0 .53 Χ0 .23 Χ 1 .059
PUSH B UTTON :GRAY,0 .43 L ΧΟ .18 ω Χ 0 .18 Η
PUSH BUTTON :S IL GY,0 .18 SQ Χ 0 .43
CONN ECTOR,RCPT :(SEE J 700 AND J1520 REPL)
TE RMINAL,LUG :0 .391 ID,LOCKING, BR S C D PL
CONNECTOR,RCPT :(SEE J 20 AND J 1370 REPL)
CONNECTOR,RCPT :(SEE J420, J1125 AND J1200 REPL)
RE SISTOR,VAR :(SEE Α1210 AND R1375 REPL)
(ATTACHING PARTS)
N UT,PLAIN,HEX:0 .25-32 Χ 0 .312 IN CH,BRS
WA SHER , FIλT :0 .25 ID Χ 0 .375 IN CH OD ,STL
80009
OOOCY
80009
OOOCY
80009
80009
OOOCY
80009
71159
80009
OOOCY
80009
71159
80009
80009
80009
366-1031-06
OBD
366-1170-03
OBD
366-1059-02
366-1077-01
OBD
366-0494-07
OBD
366-1023-08
OBD
366-1023-07
OBD
366-1690-00
366-1559-01
366-1559-00
80009
210-0255-00
73743
79807
2Χ20317-402
O BD
73743
79807
2Χ20317-402
OBD
79807
80009
OBD
73743
78189
2Χ28269-402
1220-02-00-0541C
Χ 0 .438"LONG
(ATTAC HING PARTS)
NUT,PLAIN,HEX . :0 .375 Χ 0 .438 IN CH,S TL
WASHER ,FL AT :0 .375 ID Χ 0 .50 INCH OD ,S TL
80009
358-0029-00
73743
78471
OBD
CLIP,ELECTRICAL :CAM SHAFT
FRAME, PUSH BTN:PLASTIC
PAΝEL,FRONT :
BASE ,LAΜPH OLDER :0 .29 OD Χ 0 .19 CASE
80009
80009
80009
80009
344-0195-01
426-1072-00
333-1820-00
200-0935-00
Qty 1 2 3 4 5
2
2
2
N ame & Descri ption
RE SISTOR,VAR :(SEE R50 AND R1130 REPL)
(ATTACHING PART S)
NUT,PLAIN,HE X :0 .25-32 Χ 0 .312 IN CH,BR S
WASHER,FLAT :0 .25 ID Χ 0 .375 INCH OD ,STL
-28
-29
210-0583-00
210-0940-00
2
2
_30
_____ ----210-0940-00
358-0029-00
1
1
1
-33
-34
210-0590-00
210-0012-00
1
1
RE SISTOR,VAR:(SEE R 1270 REPL)
WASHER,FLAT :0 .25 ID Χ 0 .375 INCH OD ,STL
B SHG, MACH .THD : HE X,0 .375 -32 Χ 0 .438"LONG
(ATTAC HING PARTS)
NUT , PLAIN ,HEX . :0 .375 Χ 0 .438 IN CH,STL
WAS HER , LOCK: INTL ,0 .375 ID Χ 0 .50" OD S TL
-35
358-0029-00
3
BSHG, MACH .T HD :HEX,0 .375 -32
-36
-37
210-0590-00
210-0978-00
3
3
-38
-39
-40
-41
344-0195-01
426-1072-00
333-1820-00
200-0935-00
4
11
1
3
-31
-32
REV ΜΑΥ 1982
358-0029-00
2Χ28269-402
9-3
Re placeable M ech a n ical Parts-FG 504 (S N Β040000 & up)
F ig . &
In dex
No.
1-42
Te ktro n ix
P art No .
Se rial/ M o del No.
E ff
Dscont
-45
-46
352-0157-00
_____ ----352-0157-00
105-0719-00
1
1
2
2
1
-47
213-0113-00
1
-48
105-0718-00
105-0718-01
386-2795-01
386-2795-02
Β040000 Β056331
Β056332
Β040000 Β049999
Β050000
1
1
1
1
213-0227-00
213-0123-00
211-0559-00
213-0138-00
211-0007-00
Β040000 Β044319
Β044320
8
8
1
2
2
-43
_μμ
-49
-50
-51
-52
Β040000 Β049999
Β050000
-59
-60
-61
-62
210-0978-00
337-1967-01
401-0331-00
213-0020-00
----- ----407-1274-00
_____ ----131-0608-00
131-1425-00
343-0149-00
351-0449-00
-63
-64
-65
211-0062-00
210-0405-00
210-0001-00
4
4
4
-66
-67
-68
334-2208-00
255-0334-00
333-2380-00
1
FT
1
-69
-70
213-0192-00
386-3657-00
386-3657-01
-53
-54
-55
_56
-57
_58
Β040000 Β049999 χ
1
1
1
2
1
1
1
14
1
1
2
M fr
Code
Mfr P art N umber
80009
352-0157-00
80009
80009
352-0157-00
105-0719-00
93907
OBD
BAR ,LATCH RL SE :
BAR ,LATCH RL SE :
S UBPANEL,FRONT :
S UBPANEL,FRONT :
(ATTACHING PARTS)
SCR , TPG,THD FOR :6-32 Χ 0 .50 DEG, FLH S T
SCRE W ,TP G, TF :6 -32 Χ 0 .375,S PCL TYPE,FLH
SCREW,MACHINE :6-32 Χ 0 .375"100 DE G, FLH STL
SCR,TP G, TF :4 -24 Χ 0 .188 IN CH,PNH STL
SCRE W ,MACHINE :4-40 Χ 0 .188 IN CH,PNH STL
80009
80009
80009
80009
105-0718-00
105-0718-01
386-2795-01
386-2795-02
83385
93907
83385
83385
83385
O BD
O BD
O BD
O BD
O BD
WASHER , FLAT :0 .375 ID Χ 0 .50 IN CH OD ,S TL
S HIELD,ELEC :REAR S UBPANEL
DR ,TURNS RCDN :6 :1 ΑΑΤΙΟ,0 .025 Χ 1 .156 S FT
S ETSC REW :6 -32 Χ 0 .125 IN CH ,HEX .SOC STL
RES .,VAR ,WW :(SEE Α5 AND 125 REPL)
78471
80009
Κ0099
70276
O BD
80009
407-1274-00
22526
22526
80009
80009
47357
65521-136
343-0149-00
351-0449-00
83385
73743
78189
OBD
Qty 1 2 3 4 5
N ame & Descri ption
LAMP,LED :(SEE
DS1675 REPL)
LAMPHOLDER :WHITE PLASTI C
LAMP,LED :(SEE DS50 AND DS720)
LAMPHOLDER :WHITE PLASTI C
LATCH ,RETAINING:PLUG- IN
(ATTACHING PART S)
SCR ,TPG,THD FOR:2-32 Χ 0 .312 INCH,PNH S TL
BRACKET ,VAR RES : ALUMINUM
CKT BOARD ASSY : FL OATING INTF C(SEE
Α4 REPL)
. TERMINAL,PIN :0 .365 L Χ 0 .025 ΡΗ ΒΑΖ GOLD
CONTAC T S ET,ELE :R ANGLE ,0 .150" L ,S TR O F 36
CLAMP,LOOP :NYLO N
GUIDE ,CKT B OARD :
(ATTACHING PART S)
SCREW ,MACHINE :2 -56 Χ 0 .312 IN CH ,RDH STL
NUT,PL AIN ,HEX. :2 -56 Χ 0 .188 INCH,BRS
WASHER ,LOCK: INTL ,0 .092 ID Χ 0 .18"O D ,S TL
337-1967-01
4511 /DAF/MOD
O BD
12157-50
1202-00-00-0541C
80009
11897
80009
334-2208-00
122-37-2500
333-2380-00
4
2
2
MARKER,IDENT :WARNIN G
PLAS TI C CHANNEL :12 .75 Χ 0 .175 Χ 0 .155,N YL
PANEL,REAR:
(ATTACHING PART S)
SCR,TP G,THD FOR:6 -32 Χ 0 .50 INCH,PNH SΤL
SUPPORT,PLUG-IN :
SUPPORT,PLUG IN :
87308
80009
93907
OBD
672-0550-01
1
CKT BOARD ASSY :MAIN
80009
672-0550-01
-71
-72
-73
-74
-75
211-0602-00
407-1693-00
211-0028-00
210-0406-00
210-0921-00
4
4
2
2
2
80009
80009
95987
73743
80009
211-0602-00
407-1693-00
OBD
12161-50
210-0921-00
-76
-77
-78
-79
384-0282-00
384-1407-00
384-1406-00
376-0051-01
1
1
1
3
1
80009
80009
80009
80009
384-0282-00
384-1407-00
384-1406-00
376-0051-01
-80
211-0116-00
211-0292-00
-81
200-1910-00
1
-82
-83
211-0008-00
210-0004-00
4
4
9- 4
Β040000 Β044889
Β044890
Β040000 Β057709
Β057710
4
4
(ATTACHING PART S)
SCR,A SSEM WSHR :6 -32 Χ 0 .438 INCH,PNH BR S
B RACKET ,COVER :ALUMI NUM
SCREW,MACHINE :4-40 Χ 0 .188 " BD GH ,NYL ,SLOT
NUT,PLAIN,HE X . :4 -40 Χ 0 .188 INCH,BRS
WASHER ,MICA :0 .50 Χ 0 .141 Χ0 .005 INCH ΤΗΚ
CKT BOARD ASSEMBLY INCLUDE S :
. E XTEN S ION SHAFT :0 .125 OD Χ 0 .625 IN CH LONG
. E XTEN S ION SHAFT :4 .55 L Χ 0 .125 OD ,AL,CRM
. E XTENS ION SHAFT :6 .64 L Χ 0 .125 OD ,AL,C RM
. C PLG,SHAFT ,FLEX :0 .127 ID Χ 0 .375 OD
. ACTR ASSY,CAM S : RI SE δ FALLTIME(SEE S590 REPL)
(ATTACHING PARTS)
. SC R ,ASSEM WS HR :4 -40 Χ 0 .312 INCH,PNH B R S
83385
. SCR,ASSEM WS HR :4 -40 Χ 0 .29, BRS ΝΙ PL
78189
. ACTUATOR ASS EMBLY IN CLUDE S :
. . COVER ,CONTACT :9 ELEME NTS
(ATTAC HING P ARTS)
. . SCREW,MACHINE :4-40 Χ 0 .250,PNH ,STL ,CD PL
. . WASHER , LOCK :#4 INTL ,0 .015 THK ,S TL CD PL
386-3657-00
OBD
OBD
OBD
80009
200-1910-00
83385
ΟΟΟΒΚ
OBD
OBD
REV ΜΑΥ 1982
Replacea ble Mec hanical Parts-FG 504 (SN Β040000 & UP)
Fig . &
Index
No.
Tektron ix
Part No .
Serial/ M od el No.
Dscont
E ff
q ty
M fr P art Number
CONTACT,ELEC :GROUNDING
N UT,PLAIN,HEX . :4 -40 Χ 0 .188 INCH,BRS
S PRING,FLAT :GREEN COLORED
ROLLER,DETENT :
BEARING,CAM SW:FRONT & REAR
(ATTACHING PARTS)
. . RING,RETAINING :0 .338 ID Χ 0 .025" THK,STL
ΟΟΟΕΧ
73743
80009
80009
80009
OBD
12161-50
214-1139-ΟΖ
214-1752-00
401-0180-00
79136
5100 -37MD
. . ACTUATOR,SWITCH :CAM SWITCH
. . SHAFT,CAM SW :OUTER CONCENTRIC,W /DRIVER
. NUT,PLAIN,HEX . :4-40 Χ 0 .188 INCH,BRS
. . BEARING,CAM SW :CENTER/REAR
. ACTR ASSY CAM S :AMPLITUDE(SEE S1100 REPL)
(ATTACHING PARTS)
. SCR,ASSEM WSHR :4 -40 Χ 0 .312 INCH,PNH BRS
. SCR,ASSEM W SHR:4 -40 Χ 0 .29,BRS ΝΙ PL
80009
80009
73743
80009
105-0702-00
384-0878-14
12161-50
401-0178-01
83385
78189
OBD
OBD
80009
200-1911-00
83385
ΟΟΟΒΚ
OBD
1-84
-85
-86
-87
-88
131-0963-00
210-0406-00
214-1139-02
214-1752-00
401-0180-00
1
2
2
2
1
-89
354-0390-00
1
-90
-91
-92
-93
105-0702-00
384-0878-14
210-0406-00
401-0178-01
1
1
4
1
1
-94
211-0116-00
211-0292-00
-95
200-1911-00
1
-96
-97
211-0008-00
210-0004-00
4
4
. ACTR ASSEMBLY INCLUDES :
. . COVER,CAM SW :1 .925 L Χ 0 .876 H ,AL
(ATTACHING PARTS)
. . SCREW ,MACHINE :4 -40 Χ 0 .250,PNH,STL,CD PL
. . WASHER,LOCK :#4 INTL,0 .015THK,STL CD PL
-98
-99
-100
-101
-102
131-0963-00
210-0406-00
214-1139-00
214-1139-03
214-1139-02
214-1752-00
401-0180-00
1
3
1
1
1
2
1
"
.
.
.
.
.
-103
-104
-105
-106
-107
354-0390-00
105-0703-00
384-0878-13
210-0406-00
401-0178-01
-108
211-0116-00
211-0292-00
-109
Β040000 Β057709
Β057710
Β040000 Β044569
Β044570
.
.
.
. .
. .
. .
4
4
1
1
1
1
1
-
.
.
.
.
ΟΟΟΕΧ
. CONTACT,ELEC :GROUNDING
73743
. NUT,PLAIN,HEX . :4 -40 Χ 0 .188 INCH,BRS
80009
. S PRING,FLAT :0 .885 Χ 0 .156CU BE GLD C LR
80009
. S PRING,FLAT :RED COLORED
80009
. S PRING,FLAT :GREEN COLORED
80009
. ROLLER,DETENT :
80009
. BEARING,CAM SW :FRONT & REAR
(ATTACHING PARTS)
79136
. RING,RETAINING :0 .338 ID Χ 0 .025" THK,STL
80009
. ACTUATOR,S WITCH :CAM SWITCH
80009
. SHAFT,CAM SW :OUTER CONCENTRIC,W /DRIVER
73743
. IτUT,PLAIN,HEX . :4 -40 Χ 0 .188 INCH,BRS
80009
. BEARING,CAM SW:CENTER/REAR
ACTR ASSY,CAM S :SWEEP DURATION(SEE S1435 REPL)
(ATTACHING PARTS)
83385
SCR,ASSEM WSHR :4-40 Χ 0 .312 INCH,PNH BRS
78189
SCR,ASSEM WSHR :4-40 Χ 0 .29,BRS ΝΙ PL
4
4
.
.
200-1911-00
1
-110
-111
211-0008-00
210-0004-00
4
4
. ACTUATOR ASSEMBLY INCLUDES :
. . COVER,CAM SW:1 .925 L Χ 0 .876 H ,AL
(ATTACHING PARTS)
. . SCREW,MACHINE :4-40 Χ 0 .250,PNH,STL,CD PL
. . WASHER,LOCK :#4 INTL,0 .015THK,STL CD PL
-112
-113
-114
-115
-116
131-0963-00
210-0406-00
214-1139-02
214-1752-00
401-0180-00
1
2
2
2
1
-117
354-0390-00
1
-118
-119
-120
-121
-122
-123
-124
-125
105-0701-00
384-0878-14
210-0406-00
401-0178-01
_____ ----361-0515-00
----- --------- -----
1
1
4
1
1
2
2
1
-126
-127
210-0583-00
210-0046-00
1
1
REV ΜΑΥ 1982
Β040000 Β057709
Β057710
M fr
Code
1 2 3 4 5
Name & Descri ption
OBD
OBD
12161-50
214-1139-00
214-1139-03
214-1139-02
214-1752-00
401-0180-00
5100-37MD
105-0703-00
384-0878- Ι3
12161-50
401-0178-01
OBD
OBD
80009
200-1911-00
83385
ΟΟΟΒΚ
OBD
OBD
. CONTACT,ELEC :GROUNDING
" . NUT,PLAIN,HEX . :4 -40 Χ 0 .188 INCH,BRS
" . SPRING,FI.AT:GREEN COLORED
. . ROLLER,DETENT :
. . BEARING,CAM SW :FRONT & REAR
(ATTACHING PARTS)
. . RING,RETAINING :0 .338 ID Χ 0 .025" THK,STL
ΟΟΟΕΧ
73743
80009
80009
80009
OBD
12161-50
214-1139-02
214-1752-00
401-0180-00
79136
5100 -37MD
. . ACTUATOR,SWITCH :CAM SWITCH
. . SHAFT,CAM SW:OUTER CONCENTRIC,W/DRIVER
. NUT,PLAiN,κEX . :4 -40 Χ 0 .188 INCH,BRS
. . BEARING,CAM SW :CENTER/ ΑΕΑΑ
. CKT BOARD ASSY :MAIN(SEE Α1 REPL)
. . SPACER,SWITCH :PLASTIC
. . RESISTOR, VAR :(SEE R520,R1435 REPL)
. . RESISTOR,VAR :(SEE R1100A,B REPL)
(ATTACHING PARTS)
. NUT,PLAIN,HEX :0 .25-32 Χ 0 .312 INCH,BRS
. . WASHER,LOCK :0 .261 ID,INTL,0 .018 THK,BRS
80009
80009
73743
80009
105-0701-00
384-0878-14
12161-50
401-0178-01
80009
361-0515-00
73743
78189
2Χ20317-402
1214-05-00-0541C
9-5
R eplacea b le
F ig . &
I n dex
No .
1-128
Mec h anical Parts-FG 504 (SN 8040000 & up)
Te k tronix
P art No .
Se r ial/
E ff
M o d el
No .
Dsco n t
Dty
407-0553-00
131-0963-00
131-1030-00
214-1254-00
131-0608-00
136-0252-04
131-1003-00
344-0248-00
214-1797-00
342-0324-00
136-0261-00
136-0261-00
131-1031-00
Β040000 Β057809
Β057810
Β040000 Β057809 Χ
1
3
7
2
30
9
3
3
6
4
6
2
22
-139
210-0779-00
210-3082-00
Β040000 Β056104
Β056105
22
22
-140
-141
-142
136-0514-00
131-0566-00
214-2569-00
2
2
4
-143
211-0232-00
4
-144
-145
-146
-147
----- ___------ ----384-1099-00
----- -----
1
1
4
1
-148
211-0116-00
211-0292-00
-149
-150
-151
-152
-153
-154
-155
-156
-157
-158
----- ----361-0384-00
----- ----361-0385-00
131-0608-00
136-0260-02
136-0269-02
136-0514-00
131-1003-00
136-0252-04
672-0552-00
1
6
1
4
38
4
1
6
5
5
1
-159
211-0601-00
4
-160
129-0388-00
-161
-162
-163
-164
-165
384-0442-00
376-0051-01
----- ----131-0963-00
337-1418-01
337-1418-02
4
1
1
1
1
1
1
-166
-167
-168
211-0001-00
210-0001-00
210-1008-00
3
3
3
-169
342-0167-00
1
1
-170
211-0116-00
211-0292-00
-171
200-1913-00
1
-172
-173
211-0008-00
210-0004-00
4
4
-129
-130
-131
-132
-133
-134
-135
-136
-137
-138
9-6
Β040000 Β057709
Β057710
Β040000 Β044979
Β044980
Β010100 Β057709
Β057710
Mfr P art N um b er
80009
ΟΟΟΕΧ
80009
05820
22526
22526
80009
80009
80009
13103
00779
00779
80009
407-0553-00
OBD
131-1030-00
209S B
47357
75060-007
131-1003-00
344-0248-00
214-1797-00
7717-5N-BLUE
1-331677-6
1-331677-6
131-1031-00
42838
80009
RA-29952715
210-3082-00
73803
55210
80009
CS9002 -8
L -2007-1
214-2569-00
83385
O BD
80009
384-1099-00
83385
78189
OBD
OBD
80009
361-0384-00
80009
22526
71785
73803
73803
80009
22526
80009
361-0385-00
47357
133-51-92-008
CS9002-14
CS9002-8
131-1003-00
75060-007
672-0552-00
83385
OBD
80009
129-0388-00
80009
80009
384-0442-00
376-0051-01
CONTACT,ELEC :G ROUNDING
S HIELD,ELEC :CAM SWIT CH CASTING
S HIELD,ELEC :C IRCU IT BOARD
(ATTACHING PARTS)
. SCREW ,MAC HINE :2-56 Χ 0 .25 IN CH,PNH STL
. WASHER ,LOCK: INTL ,0 .092 ID Χ 0 .18"OD,S TL
. WASHER , FLAT:0 .09 ID Χ 0 .188" OD,BR S
ΟΟΟΕΧ
80009
80009
OBD
337-1418-01
337-1418-02
87308
78189
12360
OBD
1202-00-00-0541C
OBD
. IN SULATOR,PLATE :2 .45 INCH LONG
. ACTR ASSY,CAM S :FREQUENCY(SEE S240 REPL)
(ATTACHING PART S)
. SC R ,ASS EM WSHR :4 -40 Χ 0 .312 IN CH,PNH BRS
. SCR ,ASSEM WS HR :4 -40 Χ 0 .29, BRS ΝΙ PL
80009
342-0167-00
83385
78189
O BD
80009
200-1913-00
83385
ΟΟΟΒΚ
O BD
BRA CKET ,CMPNT :BRASS ALB ALOY PL
CONTACT,ELEC :GROUNDING
CONT ASSY, ELEC :CAM SW ITCH,BOTTOM
HEAT S INK ,ELEC :0 .422 Η Χ 1 .240 IN CH OD
TERMINAL,PIN :0 .365 L Χ 0 :025 ΡΗ ΒRΖ GOLD
SOCKET,PIN TE RM:U/ W 0 .016-0 .018 DIA PINS
CONN,R CPT,ELE C :CKT BD ΜΤ ,3 PRONG
CLIP ,ATTENUATOR:
ΡΙΝ ,ΑΤΤΕΝ CLIP :
IN SULATOR , DI SC : TO-5 TRAN SISTOR
SOCKET,PIN TERM:F OR 0 .22 IN CH PIN
SOCK ET,PIN TE RM:F OR 0 .22 IN CH PIN
CO NTACT ASSY, EL :CAM SW ITCH,TOP
(ATT AC HING PARTS)
. RI VET,TUBULAR :0 .051 OD Χ 0 .115 IN CH LONG
. EYELET ,METALLIC :0 .047 OD Χ 0 .133 L ,BRASS
.
.
4
4
4
4
Mfr
Co d e
N ame & Descri p tion
1 2 3 4 5
. . S KT,PL-IN ELEC :MICROC IRCU IT ,8 DIP
. . BUS CONDUCTOR :DU MMY RES,2 .375,22 AWG
. . HEAT S INK ,XS TR :(1) ΤΟ-5, ΒΕ -CU
(ATTACHING PART S)
. . SCREW,MACHINE :4 -40 Χ 0 .25 IN CH,FIL STL
. . TRANS ISTOR :(SEE Q1180 REPL)
. . TRANSISTOR :(SEE Q1160 REPL)
E XTENSION SHAFT :PUSH BUTT ON ,1 .54 INCH LONG
CKT BOARD ASSY : FUNCTI ON(S EE Α2 REPL)
(ATTACHING PART S)
SC R ,ASS EM WSHR :4-40 Χ 0 .312 INCH,PNH BRS
SCR ,ASS EM WSHR :4-40 Χ 0 .29, BR S ΝΙ PL
C KT BOARD A SSY INCLUDE S :
. SW ITCH,PU SH :(SEE S730 REPL)
. SPACER,PB SW :0 .133 IN CH LON G
. SWITCH,PUS H :(SEE S1235 REPL)
. S PACER,PB SW :0 .164 INCH LONG
. TERMINAL,PIN:0 .365 L Χ 0 .025 ΡΗ ΒRΖ GOLD
. SΚΤ ,ΡL-IN ELEK :MICROC IRCUIT,16 DIP,LOW CLE
. SΚΤ ,ΡL-IN ELEK :MICROC IRCUIT,14 DIP,LOW CLE
. SΚΤ , ΡL-IN ELEC :MICROC IRCUIT,8 DIP
. CONN,R CPT,ELE C :CKT BD ΜΤ ,3 PRONG
. SOCKET,PIN TE RM:U / W 0 .016-0 .018 DIA PINS
CKT BOARD ASSY :A 670-3840-OOW IRED ,W/CAM
(ATTACHING P A RT S)
SC R , ASS EM WSHR :6-32 Χ 0 .312,DOUBLE SEMS
POS T,ELEC-MECH :1
.
.
.
.
.
.
.
.673 IN CH LONG
CKT BOARD ASS EMBL Y IN CLUDE S :
EXTENSION
SH AFT:0 .125 OD Χ 8 .452 IN CH LONG
C PLG,SHAFT ,FLEX:0 .127 ID Χ 0 .375 OD
RESISTOR,VAR:(SEE R120 REPL)
. AC TR ASSY INCLUDE S :
. . COVER ,CAM SW :18 ELEMENT S
(ATTACHING PART S)
. . SCREW ,MACHINE :4 -40 Χ 0 .250,PNH,S TL ,CD PL
. . WASHER ,LOCK:#4 INTL ,0 .015 THK,S TL C D PL
OBD
OBD
REV ΜΑΥ 1982
Re placeable M echa n ical
Fig . &
Index
No.
1-
Te ktronix
P art No.
Se rial/M odel No.
E ff
Dscont
M fr P art Nu mber
CONTA CT,ELEC :GROUNDING
N UT ,PLAIN ,HEX . :4 -40 Χ 0 .188 INCH,BRS
S PRIN G, FLAT :GREEN COLORED
S PRIN G, FLAT :RED COLORED
ROLLER,DETENT :
BEARING,CAM SW :FRONT δ REAR
(ATTACHING PART S)
. RING,RETAINING :0 .338 ID Χ 0 .025" THK ,S TL
ΟΟΟΕΧ
73743
80009
80009
80009
80009
OBD
12161-50
214-1139-02
214-1139-03
214-1752-00
401-0180-00
79136
5100-37ΜD
80009
80009
73743
80009
105-0704-00
384-0878-09
12161-50
401-0178-01
80009
131-1031-00
16
16
. ACTUATOR,SW ITCH :CAM SWITCH
. SHAFT ,CAM SW :3 .364 L Χ 0 .248 OD
. NUT,PLAIN,HEX . :4 -40 Χ 0 .188 INCH,BR S
. BEARING,CAM SW:C EN TER/REAR
C KT B OARD A SSY:LOO P(S EE Α3 REPL)
. CONTACT ASSY, EL :CAM SW IT CH,TO P
(ATTACHING PARTS)
. . RIVET ,TUBULAR :0 .051 O D Χ 0 .115 INCH LONG
. . E YELET ,METALLIC :0 .047 O D Χ 0.133 L ,BRASS
42838
80009
ΑΑ-29952715
210-3082-00
1
2
32
1
6
1
1
4
1
24
2
1
1
1
1
1
1
24
1
6
1
1
1
1
1
1
45
1
1
2
1
1
4
8
1
18
2
1
1
1
1
20
FT
FT
1
2
1
. S WITCH,PU SH :(SEE S195 REPL)
. S PACER,PB SW :BROWN ,0 .275 IN CH LONG
. ΤΕΑΜΙΝΑ1, ΡΙΝ :0 .365 L Χ 0.025 ΡΗ BRZ GOLD
. LINK ,TERM .CONNE :2 WIRE BROWN
. SΚΤ ,ΡL-IN ELEC :MI CROC IR CUIT ,8 DIP
. S HIELD,ELEC :C IRCUIT CARD
. SΚΤ ,ΡL-IN ELEK :MICROC IR CUIT ,14 DIP,LOW CLE
. CONN,RCPT,ELE C :C KT BD ΜΤ ,3 PR ONG
. IN SULATOR,DI SC :TO-5 TRAN SISTO R
. SOCKET,PIN TERM :U/W 0 .016-0 .018 DIA PINS
. TERM,TEST POINT:BRS CD PL
S PRIN G,GROUND :FLAT
FR SECT,PLUG-IN :LEFT S IDE,TOP AND BOTTOM
FR SECT ,PLUG- ΙΝ : ΤΟΡ LEFT
FR SECT,PLUG- IN :RIGHT S IDE,TOPδ BOTTOM
FR SECT,PLUG- IN :RIGHT
WIRING HARNESS :CHASS IS
. CONNECTO R,TERM :22-26 AWG, BR Sδ CU BE GOLD
. CONT AC T , ELEC :0 .48"L ,28-32 AWG WIRE
HLDR ,TERM CO NN :1 W IRE BLACK
. HLDR ,TERM CONN :2 WIRE BL AC K
. CONN BODY, PL,EL:3 WIRE ORANGE
. CONN BODY, PL,EL:4 WIRE YELLOW
. CONN BODY, PL,EL:5 WIRE BROW N
. CONN BODY,PL,EL :7 WIRE BLUE
WIRIN G HARNESS :FRONT PANEL
. CONNECTOR ,TERM:22-26 AWG, BRSδ CU BE GOLD
. HLDR ,TERM CO NN :3 WIRE,BLACK
. HLDR ,TERM CO NN :4 WIRE BLACK
. CONN BODY, PL,EL :5 W IRE BLACK
. CONN BODY, PL,EL :6 WIR E BLACK
. CONN BODY, PL,EL :8 W IRE BLACK
. HLDR ,TERM CONN :2 WIRE BLACK
. HLDR ,TERM CO NN :1 WIRE BLACK
WIRIN G HARNE SS :POW ER
. CONNECTOR, TE RM :22-26 AWG, BR Sδ CU BE GOLD
. HLD R ,TERM CO NN :4 WIRE BLACK
. HLDR ,TERM CO NN :4 W IRE,BLUE
. CONN BODY, PL,EL :5 WIRE BROW N
. HLDR ,TERM CO NN :1 W I RE BLACK
WIRE SET,ELE C :
. CONNECTOR ,TERM:22-26 AW G, BR Sδ CU BE GOLD
. WIRE,ELECTRIC AL :5 WIRE RIBBON
. W IRE,ELE CTRICAL :5 WIRE RIBBON
. CONN BODY, PL,EL:5 WIRE BROWN
. CONN BODY, PL,EL :5 WIRE RED
. CONN BODY, PL,EL :5 W IRE YELLOW
80009
22526
00779
73803
80009
73803
80009
13103
22526
80009
80009
80009
80009
80009
80009
80009
22526
22526
80009
80009
80009
80009
80009
80009
80009
22526
80009
80009
80009
80009
80009
80009
80009
80009
22526
80009
80009
80009
80009
80009
22526
08261
08261
80009
80009
80009
361-0382-00
47357
530153-9
CS9002-8
337-2224-00
CS9002-14
131-1003-00
7717-5N-BLUE
75060-007
214-0579-00
214-1061-00
426-1245-00
426-1245-01
426-1246-02
426-1460-00
179-2398-02
47439
47437
352-0171-ΟΟ
352-0169-00
352-0161-03
352-0162-04
352-0163-01
352-0165-06
179-2399-01
47439
352-0161-00
352-0162-00
352-0163-00
352-0164-00
352-0166-00
352-0169-00
352-0171-00
179-2416-00
47439
352-0162-00
352-0162-06
352-0163-01
352-0171-00
198-2313-00
47439
SS-0526-710610C
SS-0522-7(1061)
352-0163-01
352-0163-02
352-0163-04
-176
-177
210-0406-00
214-1139-02
214-1139-03
214-1752-00
401-0180-00
1
2
1
1
2
1
.
.
.
.
.
.
-178
354-0390-00
1
.
-179
-180
-181
-182
-183
-184
105-0704-00
384-0878-09
210-0406-00
401-0178-01
----- -----
1
1
4
1
1
16
.
.
.
.
.
.
-185
210-0779-00
210-3082-00
-186
-187
-188
-189
-190
-191
-192
-193
-194
-195
-196
-197
-198
-199
-200
-201
-202
-203
----- -----
-204
-205
-206
-207
-208
-209
-210
-211
-212
131-1031-00
361-0382-00
131-0608-00
131-0993-01
136-0514-00
337-2224-00
136-0269-02
131-1003-00
342-0324-00
136-0252-04
214-0579-00
214-1061-00
426-1245-00
426-1245-01
426-1246-02
426-1460-00
179-2398-02
131-0707-00
131-0708-00
352-0171-00
352-0169-00
352-0161-03
352-0162-04
352-0163-01
352-0165-06
179-2399-01
131-0707-00
352-0161-00
352-0162-00
352-0163-00
352-0164-00
352-0166-00
352-0169-00
352-0171-00
179-2416-00
131-0707-00
352-0162-00
352-0162-06
352-0163-01
352-0171-00
198-2313-00
131-0707-00
175-0828-00
175-0860-00
352-0163-01
352-0163-02
352-0163-04
REV ΜΑΥ 1982
Β040000 Β056104
Β056105
M fr
Β040000 & up)
Code
Qty 1 2 3 4 5
131-0963-00
-174
-175
P a rts- FG 504 (S N
.
.
.
.
.
.
.
.
.
.
.
N a m e & Desc ription
.
.
.
.
.
.
9- 7
F ig . &
Index
No .
Te k t r o n ix
P art No .
070-2655-00
Serial/ M o d el No .
E ff
Dsco n t
Qty
1
1 2 3 4 5
Mfr
Co d e - M fr P a r t N um b er
N ame & Descri p tion
80009
MANU AL,TE CH :IN S TRUC TIO N
FG
504
SN
070-2655-00
Β 040000 &
UP