Keithley 171 Instruction Manual

Instruction Manual

Model 171

Digital Multimeter

01997, Keithley Instruments, Inc.

Cleveland, Ohio, U.S.A.

KEITHLEY INSTRUMENTS.

1 N C.

INSTRUCTION MANUAL

MODEL 171

DIGITAL MULTIMETER

CONTENTS

SECTION

PAGE SECTION

PAGE

Title Page

................

1

contents

.................

ii

IAt of Illusfratlons.

.......... iii

specifications

...............

iv

1. General Description

1-1. Inrraduceion ..........

1

1-2. warranty InformLion ......

1

1-3. Change Notice.

.........

1

1-4.

Features ............

1

2. operation
2-1. Measurement Considerations ...

: 2-2. Ca**ecfianB.

...........

2-3.

Controls ............

5

2-4. Digital Display.

........

5

2-5. operation 88 a Voltmeter ....

5

2-6. operaeion as an Amnlerer. ....

2-7. Operation as an Ohmmeter .... 2

2-8.

Overloade. ...........

2-9. Digital Outputs and Controls . . z

2-10. Operating Technique. ......

10

3. Circuit Description

3-1. General. ............

13

3-2. Analog Amplifier ........

13

3-3. Switching. ...........

14

3-4.

Driven Guard Amplifier .....

15

3-5.

Protection ctrc"its. ......

15

3-6. F"ncfion and Range Display ...

15

3-7. Digital Section. ........

15

3-8.

Power supply

..........

18

4. Accessories

4-l. General. ............

20

4-2.

operating Instructions .....

20

4-3. Model 1712 w@al output. ...

20

4-4. Model 1713 Extender Card ....

20
4-5. Model 1007 Dual Rack Mounring Kit 20
4-6. Model 2000 Rack Mounting Kit . .

21

5. Maintenance

5-1. General. .............

2 7.

5-2. Required Test Equipme.

..... 22

5-3. Performance Checks

........ 22

5-4. Adjustment and C.¶libration

.... 26

5-5.

Component and Calibration Layouts.

34

6. Replaceable Parts

6-1. General. .............

40
6-2. EleCtrical schematics and Diagrams 40
6-3.

HOW to "se the Parts List.

.... 40

6-4. How to Order Parts

........ 40

6-5. Chassis Paru List

........ 41

6-6. Electrical Part* I&r.

...... 41

6-7. Mechanical Parts List.

...... 61

6-8. Code-to-Name List.

........ 68

7. Schematic Diagrams
7-1.

25532C Block Diagram.

...... 70

7-2.

24866D Optional BCD Output,

Model 1712.

.......... 71

7-3.

248731) Tube Board (PC-299).

... 72
7-4. 25017D integrator Board (K-301). 73
7-5. 250980 Interconnect/Clock Board

(PC-300). ...........

74

7-6. 25130D Input Switching and Currenr

/Ohms Protection.

....... 75

7-7. 25131C AC Voltage Divider

.... 76

7-8.

25132C Analog Switching

..... 77

7-9. 25133C Ohms Converter

...... 78

7-10. 2552% A.C. Converter

...... 79

7-11. 25529D Analog Amplifier

..... 80

7-12. 2553OD Power Supply

....... 81

7-13. 25531D Switching Decimal Point &

Function L&play.

....... 82

773

I

MODEL 171

ILLUSTRATIONS

Figure

NO. Title Page

1 Model 171 Digifal Multimeter

1

2 Front Panel Controls and Terminals

2

3 Rear Panel Controls and Connectors

3

4a

Complete Digital Display

5

4b Typical Display Reading

5

5 Digital OutpUt connector

7

6 output Buffer stage

8

7 Timing Diagram

9

8 Overall Block Diagram

12

9 Analog Amplifier

13

10 Active AC Divider

13

11 AC/DC converter

14

12 Ohmmeter Configuraria"

14

13 "olcmeter Co"f*g"rat*o"

14

14 Ammeter Configuration

15

15 Analog-to-Digital Converter

17

16 A-to-D Converter Block Diagram

19

17 Model 1007 Dual Rack Mounting Kit - Exploded

View 21

18 Model 2000 Rack Mounting Kit - Exploded View

21

19 Cutaway View Showing PC-Board Locations

23

20

calibration ~djusmenrs and Tesr Points &Cal Cover 32

21

Calibration Adjustments and Test P"ints without Cover 33

22 Component Layout - Analog Board - PC-303

34

23 Companent Layouf - Clock B"ard - PC-300

34

24 Camponenr Layout - Mother Bonrd - PC-305

35

25 Component Layout - Switch Board - PC-304

36

26 component Layout - Integrator Board - PC-301

37

27 Componene Layout - Tube Board - PC-299

38

28

Caponent payout - Optional Digital Oufput -

PC-275 39

29 Chassis Assembly - Exploded View

42

30 Bg<fom Cover Assembly - Exploded View

42

I

773

SPEClPICATlONS

SPECIFICATIONS

calibrated at 25°C

AS A DC “OLTMETEK

ACCURACY (90 days):

RANGE :

~1~1 micro"olt per digit (1" rn" full range) to

I"-100" range ~1.(0.3% OF reading +0.04% of range) 40

i”“Ltiples.

cMl2.R: GrcnCer than 100 d8 wit,, 1 kilohI ““balance,

dc t” 180 ,,z at 10 LLZ multiples.

MAx1nlM SAFE INPUT:

~I-1400 volts peak nlomentary, 1000

v dc or rms ac C”“tin”““S.

AS A UC AMMETER
Rmm: LO.1 nanLmn,>ere per digit (IpA full range) to

~+2 amperes in Se"en decade ranges.

T"g LO 19999 0" all ranges.

100% overrang-

ACC"P.ACY (90 days) :

~(0.05% Of reading +0.02% Of
range). SelI heating due to long term application
"f 2 amperes will callse less than 0.1% addirional

error 0" the l-ampere range.

TEMPE‘UT"RC cOEPFICIENT: +(".005% of readine +0.002%

to-19999 on a11

jl

ranges.

ACCUKACY (90 days:

j: ,o.OS% oc reading ior l-kilohm

through l-megohm ranges; 20.2% of reading 0” LiW

IO-merohm ranees: ,1.3% Of readine a1 the 1"o-meeohm
range; +20% or reading on the lOOO-megohm *ange
(?0.02% Of range an all ranges).

TEMPEKATURE COEFFICIENT:

+(0.008% of reading +o.oo?.%

of ranee ~+0.0003% of readine r,er memhm~/"C.

SETTLING-TIME: Less than 2 &bnds t: raGI accuracy

VOLTAGE ACROSS UNKNOWN: 100 mv for full range on the

l-kilohm to 100.kilohm ranges, 1" "aximum open cir­CUIL.

1 Volt for full range 0" rtle I-megotrm eo

1000~megohm ranges, 5 volts open circuit.

MAxIMuM 0"EKLOA": 250 volts rms on the l"O-kihhm to

1000-meg"hm ranges. Diode clamped to protect the 1
and lo-kilohm ranges (internallr fused beyond 3 amps

AS AN AC "OLTMETEK

RANGE :

10 micro"olts per digit (100 nl" full range)

to 1000 vo1rs rms in five decade ranges.

100% aye*-

ranging to 19999 on all except the lOOO-volt range.

and I” ranges

lk” rance +(0.4% of readinr .+0.04% Of ranee, 40 HZ­(Average reading, calibrated in rms of a sine wave.

TEMPERAT"KE COEFFICIWT:

L10.35% of reading f0.003%

Of range (0.008% 0" 100-d range)l/"C.

INPUT IMPEDhNCE : i Ml> shunted by a,>proxi,,,ately 100 pl

SETTLING TIM?: Less than 3 seconds except for ac

superimposed on dc.

MAXIMUM SAFE INPUT: 1000.volts dc or rms ac (1500

volts peak) lo-"olc to 100".volt range, 300 volts
rms (450 volts "eak) a" the loo-Ill" and l-volt ranee:

AS AN AC AMMETEK
RANGE: 0.1 nanoampere per digit (I$ full range) to

2 amperes rms, In seven decade ranges.

100% over-

ranging to 19999 00 all ranges.

ACCURI\CY (90 days): ?(1.5% of reading +o.l% of range

40 Hz to 1OkHz on the LOO-microampere to l-ampere
ranges, decreasing to 40 117. to 200 Hz on the l­microampere range (average reading, calibrated ii,
rms Of a sine wave).

TEMPERhTURE COEFFKIENT: +~(0.04% of reading +o.oo*%

the low* ranges increasing to approximately so0
millivolts on the l-ampere range.

MAxnluM SAFE INPUT: 3 amperes, internally fused

bewnd 3 amperes.

ZERO STAbILITY: ~(0.0005% "f range ~t0.3 ~V)/OC.
ANALOG OUTPUT: ,l vclt at up 1'3 1 mi1ii.ampere ior

full ranjz,e input, 100% o"erra"gi"y ora a11 ranqes

except tie lobe-volt ranges.
POLARITY: Automatic.
OFFSET C”RmNT: Typically less than 10 picoamperes.
DISPLAY: 4 digits plus 1 overrange digit; appropriate

decimal location; function in engineering units;

polarity and overload indicarion; 2 readings/second.
ISOLATION: Circuit ground to chassis ground: greater

than 100 megoihms shunted by Less than 0.02 micro-

farad. Circuit ground may be Eloaced up co 500 volt

with respect to chassis ground in all modes. Maxim"
safe voltage between input and chassis ground: 1500
volts peak.

WARMUP TIME: 45 minutes co within twice soecified

CONNECTORS: Input, chassis ground; binding posts.

Analog OUtput; Amphenol 80-PC2F.

POWER: 105-125 or 210-250 volts (switch selecred),

50-6" HZ, 25 watts.

1

i.

3.

)

s

m

9

1

DIMENSIONS,WEIGHT:

Style M 3-l/2 in. half-rack, over-

all bench size 4 in. high x 8-l/2 in. wide x 15-l/4

in. deep (100 x 217 x 385 mm). Net weight, 10 pound

(4,6 kg).

ACCESSORIES S"PPLIED: Mating OUtpUt connector, spare

input fuse.

iv

773

I

MODEL 171

SECTION 1.

GENERAL DESCRIPTION

773

General Description

Paragraph

Turns on instrument power 2-3a
sets dc-voltage functian

2-3c

set.5 ac-voltage function

2-3c

sets ohms function

2-3c

Sets dc-ampere function

2-3c

sets ac-ampere function

2-3c

sets instrument sensiii.vity

2-3b

2-h
2-h
Z-2a

GENERAL “ESCKIPTION

TABLE l-2.

kar Panel Controls and Connectors

FUSE

117”: l/2 ampere

2.LOa

234”: l/4 ampere

OUTPUT

BCD OUTP”T

LINE Input

Analog output, 1v for full range

Provides digital outputs with Model 1712 installed

as shown (connector not provided without Model 1712)

receptacle mates with 3-wire line cord

2-2h

2-9a

?-l&3

ZERO ANALOG

SC0

LINE

ADJUST

OUTPUT OUTPUT

SWITCH

It723

5502 5108

s701

3

SECTION 2.

OPERATION

b. Shielding.

1. Electric Fields. Shielding is usually neces-

say when the Fnstrument is in the presence of very

large a--c fields or when very sensitive meaS”rementS
are being made. The shields of the measurement
circuit and leads should be connected together to
ground at only one point. This provides a “tree”
configuration, “hid, minimizes graund loops.

3. Other Considerations.
a) Voltmeter Measurements. “se shielded input

leads when source resistances are greater than 1
Kilohm or when lang input cables are used.

b) current Measurements. on the IlLA and p.4
current ranges, no special shielding precautions
need be taken. However, on the I microampere
range, shielded input leads are recommended.

c) Resiseance Measurements.

Shielding of input
leads and source are recommended for measurements
on the 10 megohm through 1000 megotm ranges to
prevent erroneous readings.

C. Floating. The circuit ground to chassis ground

isolation is greater than 100 megohms shunted by less

than 0.02 microfarad. Circuit ground may be floated
up to 2500 volts With respect to chassis ground in a11
modes. TO use the Model II1 for floating measurements,
disconnect the shorting link between the LO and CASE

terminals on the front panel.

d. Source Impedance. The Model 171 has an input
resietance of 10% on the 10 Ill” to 1-v ranges. The
loading error *or these ranges Will be less than 0.003%

(negligible with respect to full scale readings) when

the source resistance is 30 kilahm or less. On the
10 v to 1000 ” ranges, input impedance is greater than
10’s?. Loading error will be negligible when the source
resistance is less Lhan 300 duns.

2-2. CONNECTIONS. (refer to Figures 2 and 3)

a.

Input. Three binding posts are provided on the
front panel for input connections. The terminals are
color coded as follows: red = input high, black =
input low, and green = chassis ground. The shorting

link should be connected between LO and CASE for
grounded operation. The link should be removed for
floating operation.

I

I

- I 2 3

.4

5 mY

I

Full Range

Full Range overrange

sensitivity loisplay Display

1 kll x.9999 !d 1.9999 kn

10 k$l

x9.999 w 19.999 kc!

100 k!2 X99.99 kll 199.99 kil

4

I Ml x.9999 m 1.9999

MC.

i

10 K\i x9.999 Mn 19.999,m

6

100 MC x99.99 Mn

199.99

Mfl

7

100” MS? x999.9 MS’ 1999.9

m

1 kg!

100 rn” 100 LPA 2v

10 liw

10 kQ

100 ln” 1” ilh

2v I ,lW

100 !42

100 tnv 1 VA zv

0.1 ,,w

1 Mli

I” 1 !a 12 ”

1 uw

10 MC

1” 100 *ii 12 ”

0.1 $4

100 M

1” 10 nA 12 ” 0.01

,,w

1000 Mli

I, v 1nA 12 v 0.001

+I

I

6

a. General. With the optional Model 1712 Digital
Out,,ut, the Keithley 171 becomes a systems-oriented in­strument with a flexible BCD 8-4-2-l output that may
be easily interfaced with many digital printers or
COlilpUte*S. This flexibility is due to the wide opera-

ting voltage levels of the buffer stages of the 1712.

These stages utilize “open collector” output transis-

tars thaf may be operated at c~,,mon DTL and TT,. “olt­age levels as well as others up LO f12 volts. I”
addition, the Model 1712 has ar. exeensive list of
built-in features which include camplere timing out­purs and remote controls. Eight strobe lines are
also provided. Each line controls 4 bits of OUtpUt
data, which allows the I,12 to be easily set up for
8,12, or 16-bit coqmters or other digital devices.
The 1712 can be ordered factory-installed in tht ?;I,
or purchased separately in kit form for field install­ation. The Model 1712 includes an output-buffet module,
w-wired 50-pin receptacle (5108), wiring harnses,
and mating 50-pin connector (not wired).

C. OUtput Connector Pin Identification. Refer

to Table 2-7 and Figure 5. The 50-1 >i” BCD-output
receptacle (5108) of the Mod< 51 171 i.s arl Amphenol

Micro-Ribbon type 57-40500 (Ke*thle,

7 CS-221). The

supplied mating connector is an Amphenol Micro-

773

MODEL 171

TABLE 2-6.

Specifications

Model 1712 Digital output

1

OIGITAI. OUTPUT:

BCD (8421) open collector lo-

gic (Motorola MC 858P) represents each of 4
digits (0000=0), overrange digit, overload

(“l”), polarity (+ = “l”), function and four

decimal positions.

TIMING OUTPUTS: Clock: 100 kHz pulses.

CO”nf Interval: Logic “0” appears during
count interval (i.e. pulse width is propor­tional to analog input signal).

Flag (Fx):
Logic “1” (“0”) appears for a 300-m*ll*second
interval out of a co”“ers*o” time of 500

milliseconds. No change in digital output is
made during this interval.

OUTPUT LOGIC LEVELS: 0”fp”t Logic “1” - open

transistor collector to ground with leas
than 100 microamperes leakage. +12 volts

maximum allowable applied voltage. output
Logic “0” : transistor switch closure to
ground with less than 0.5-volt saturation

voleage at f35 milliamperes sink current.

REMOTE CONTROLS: a:

8 lines permit

ward serializina in 4-bit increments or

multiples thereof. “pen circuit inhibita
controlled output lines from conducting

(closure enables conduction). Hold:

Closure retains result of last con”ersion

in both the digital output and the display.

Hold 112: Closure hairs co”“ersions at
end of present conversion holding reading

in bath the digital outpuf and the dis-

play. w: Release edge of pulsed

closure initiates one con”ers*o” when in

Hold 112. Signal is averaged for a ZOO­nrillisecond period starting 100 milli-

seconds after release of “Trifiger” or

Hold 112.

Flag Reset: Closure sets

Flag (Flag) to logic “0” (“1”).

mqumm CONTROI. LOGIC LEVEL: open circuit

- either greater than 4 kilohms resistance
or a voltage between +2 and +12 Volts

(except flag reset, +5 voles maximum)
referenced to ground. Closure = closure
to graund within 0.5 volt while sinking

c2.5 milliamperes.

CONNECTOR: Output: 50-pin Amphenol Micro-

Ribbon type 57-40500.

ACCESSORIES *“AILABLE:

Model 4405 Terminal BOX:

3 ft. (Im)

cable, Connecfor, and 50-terminal
box.

Model 1801 output Cable:

10 ft. (3m)
cable,wich 5%pi” connectors and
mating panel-mount co*nector.

773

OPERATION

Ribbon type 57-30500 (Keichley cs-220). The optional

Model 4405 Terminal BOX and Model 1801 output Cable

(see Table 2-6) are i&al interfacing accessories.

For applications where the Model 1712 must be temper­arily interfaced to a printer with a special input
connector, for example, the Model 4405 allows easy
screw-terminal access to all 50 pins of the Model

1712 Digital output.

i

tion syste& is made easy with the “open collector”

output buffer stages of the 1712. The “open collec-

tor” gape of the Model 1712 switches impedance.
rather than “oltage,from high to low levels. This
permits the user to determine his own voltage level
difference between logic states “1” and “0” as de­termined by the “reading” logic gate of the digital
reading device (printer. computer, etc.). Any logic
voltage level up to + 12 volts (+ Vext) may be applied

to the callector of each ““tput ~ra”sistclr of the

Model 1712.

Logic state “1” is defined as an opan
tranSlStOr collector to ground w*th less Clran 100
microamperes leakage; +I2 volts maximum allowable
applied voltage. Logic state “0” is defined as a

transistor switch closure to ground with less rhn”

0.5 “OlL saturation voltage at + 35 milllmaperes

sink current. The “open collector” feature of the

Model 1712 Digital OUtpUt is compatible with a wide

variety of logic types including Tn., “TL, and RIL.

In the case of RTL and some aeher logic types, a
pull-up resistor CR) is needed tcJ define logic state
“1”. For more information on digital interfacing.
contact your Keithley Represenrative or the factory
for your copy of our ProdUCt Notes “interfacing
Digital Instruments”.

It encompasses not only the
basics of digital coding, but also the types of
logic in use today by most digital equipment ma”“­facturers including Krithley.

quence of the overall analog-to-digital (A-to-D) con­version cycle in relationship with the 1712 Digital
output.

1. Integrate Period.

During the “INTEGRATE”

period, the analog signal is applied to the in-

tegrating amplifier. The ramp waveform of

the

“INTEGRATOR” could have a posfti”e or negative

slope, depending on the polarity of the input
signal.

MODEL 171

“P”

r----- -- r----- ---

1

1

j 1

j 1

lNP"T,

;i

-1

1 *v,x, *V,,,

I R

R

-I

' i

' i

STROBE a-t"

Y-

i

+‘

<

OUTPUT

OUTPUT

I

L-J

I

I

------i-m

-I

------i-m-

*

COM

FIGURE 6.

OUtpUt Buffer stage.

2. Coune Period. During the "COUNT" period,
the integrating amplifier is driven to zero by
a discharge voltage, with the analog signal re-

moved from the amplifier. The "COUNT INTERVAL"
represenes the actual count time for the integrat-

ing amplifier to reach a zero crossing from the

original level of the applied signal. Thus, this
interval is proportional to fhe analog input sig­"al and may be from 0 LO 200 milliseconds in d"P
ation. For a 100% overrange signal, this interval
would rhen be at its maximum value of 200 milli­SW""dS.

3. Zero Period.

During the "ZERO" period, the
analog amplifier is zeroed, and the decade cou"fers
are reset &xTor co a new c"""ersi"n cycle.

f. Timing outputs and Remote Controls.

(Refer to
Table 2-7 and Figure 7). The Model 1712 Digital
output provkles various timing outputs and remote
controls co regulate the transfer of data from the
Model 171 DMM to a particular digital acquisition
system.

1. Clock.

The "Clock" timing output provides

100 kHz pulses which serve as a reference frequency
for direct binary outputs when used in conjunction
with the "Count Interval" output.

2. count Interval.

The "Count Interval" timing
output (see Paragraph 2%9e2, may be used wieh an
exCer"a1 binary ripple counter and gate to obtain
a reading directly in binary form.

3. Flag (F-zg). The "Flag" output 1s a negative­go*ng logic state "1" that appears for a 300~milli­seco"d interval out of a total conversion eime of
500 milliseconds. No change in digital output is
made during this interval. The "FTg" output is
a positive-going logic state “0” and is available
for use with digital equipment that will not accepr
the negative-going "Flag" output.

4. Strobe.

The "Strobe" remote control consists

of 8 lines to paIlif word serializing in 4-hit in-

*

CrenleneG or multiples thereof. A" open circuit
inhibits the controlled output lines from conduct­ing (closure enables conduction). This allows 8,
12, or 16-hit compueers to be easily ineerfaced

with the Model 1712 without the need of a" Fnter-

mediate register.

Also, fhese "Strobe" controls
allow the user to connect together the data outputs
Of two or more i"sCr"me"ts.

Each instrument CB"
then be individually interrogated, without disturb­ing the ocher instruments, by simply grounding the
strobe lines of the particular instrument of inter­est. when not using rhe strobe feature of the
1712, keep all strobe lines closed to common

(ground).

5. Hold.

The "Hold" remote control, by closure,
retains the result of the last A-to-D conversion
in both the 1712 output and the display.

6. Hold 112 and Trigger. Closure of the "Hold 112"
remote control halts conversions at the end of the
present conversion, holding the conversion result
in both the 1712 output and the display. The
'Trigger" remote concro1 operates only When "Hold
i/Z" is also in use. The release-edge of B pulsed
closure initiates one conversion, during which time
the signal is averaged for a x30-millisecond period

starting 100 milliseconds after the release of
either fhe "Trigger" or "Hold ,/Z". Minimum "Trigger"
closure time is one microsecond. The high or open
state of the "Trigger" must be + 2 to + 5 volts.
Both "liold 112" and 'Trigger" must be left in the
open stafe when not in use. "se Model 1712 oucwt
pin number 27 (Common) as ground far all closures.

7. Flag @lag) Reset.

The "Flag (Flag) Reset"

remote control allows for early reset Of the Flag

(FTg) while operating the Model 1712 in any mode.
This control can be used whenever the digital r&d­0°C equipment connected to elle 1712 operates faster

than the time the Flag (Flag) is~active (300 milli-

seconds). For example, activation of the Flag

-

(Flag) can tell a computer to take data from the

Model 1712 and r-u" a program which may only take

20 milliseconds. At the end of the program, the

-

computer still sees clle Flag (Flag) and needlessly
~-e--runs ehe program with duplicate data. By using

the "Flag @lag) Reset" control, computer running-

time is minimized and data-taking time is not lost.

g. ~umary of Digital O~twts and Conrrols. The

basic rermi""l"gy and some pin-to-function relation-

ships of the outputs and controls of the Model 1712

will now be discussed. Refer to Table 2-7.

1. Digital output Codes. The digital OUtpUt
code for the Model 1712 is 8-4-2-1 Binary Coded
Decimal (BCD).

Each digit of a reading is re­presented at the BCD output by a four-bit binary
code. The "units" digit of a reading is repre­sented by the output of pin numbers 1,2,3 and 4.
The "tens

I' digit of a reading is represented by

the output of pin numbers 5.6.7, and 8. The
"hundreds" digit is represented by the output of
pin numbers 9,10,11, and 12. The "thousands" digit

is represented by the output of pi" numbers 13,14,

15, and 16.

The "ova-range" digit is represenzed
by the output of pin number 17. Thus, in BCD
language, each digit of 4-112 digit display of the

Model 171 is represented for display by a printer

773

J108

Function

5108

FU"C c im:

Pi" NO.

output

Pi" NO.

OUtpUt

1
2

3
4

5
6

7

8

9

10
11
12
13
14
15
16
17
18

19
20

21

22
23

24
25

1 x 10"
2 x 10"

4 x 10"
8 x loo
1 x lo1

2 x lo1
4 x 101
8 x 101

1 x lo2
2 x 102

4 x lo2
8 x lo2
1 x lo3
2 x lo3
4 x lo3
8 x lo3
1 x 104

DPl (1.0000)
DP2 (10.000)

DP3 (100.00)
DP4 (1000.0)
HOLD

Flag Reset

26
27

28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48

49
50

C"m"0"

GNU

Clock

see Para. Z-911

Count interval see Para. 2-9e2
G

see Parh, ?-9f3

see Para. :-9f3

Flag

Logic "1"

SO Lange Availabi

Function 1

see ~T;xbie 2-9

Function 2

see 'Table 2-s

Funct-ion 3

See viable 2-4

Logic "1"

Ov~rl"~d

Logic "1"

Polarity (+I

'Trigger

Control

Hold 112

Control

Logic "1"

AC KeadlnR

Strobe Overload

Control

Strobe Flag

Control

Strobe Function Control

Strobe Data 114

Control

Strobe Data 113

Control

Strobe Data 02

Control

Strobe Data I1

C”“tr”l

Strobe DP

Control

773

I

OPEP”4TION

MODEL 171

or use in a program by a computer. Table 2-8 shows
how a decimal number (digit of a reading) is de­rived from BCD code. The decimal number "?", for
example, is derived from the 3rd, Znd, and 1st bits
being in logic state "1" (4 + 2 + 1 = 7).

FI

1

TABLE 2-8.

BCD Code to Decimal Number C"""ersi0"

8 x 10n

4 x 10" 2 x 10"

1 x 10" Decimal

(4th bit) (3rd bit) (2nd bit) (1st bit) Number

0 0

0 0 0

0 0

0 1 1

0

0 1 0 2

0 0

1 1 3

0 1 0

0 4

0

1 0 1 5

0 1

1 0 6

0 1

1 1

7

1 0 0

0 8

1 0

0 1 9

n = 0,1,2,3, or 4 depending on digit being decoded

2.

output C”“ml”” (Ground). It is recommended

that all closures t" ground are made through pin
number 27 of the out,,ut connector of the 1712.

3. Function Indication at Output. The basic
function (engineering units) of a reading are re­presented by a 3-bit binary code from the three
output "Function" lines (pin numbers 35.36, and

37). Whether ehe reading is ac or not is repre­aenred by the "AC Reading" output line. Table
2-9 shows how the complete function of a reading
is derived from BCD code.

TABLE 2-9.

BCD Code to Funcfi"" C"""ersi""

,nction Function

Funcrion AC Fading reading

OUtpUt

2 output 3 OUtput OUtput Function

1 0 0 0 dc 2s
0 1 0 0 dc "
1 0 0 1 ac mv
0 1 0 1 ac "
1 1 0 0 kn
0 0 1 0 Mn
1 0 1 0 dc u.4
0 1 1 0 dc mA
1 0 1 1 ac PA
0 1 1 1 ac mA

4. Strobe Controls.

The "Strobe" lines (pin
numbers 43-50) each control specific "ueput func­tions as follows (see paragraph 2-9f4):

a).

Strobe Overload. Closure of this line
enables simultaneous conduction of data from
pin number 38 (OVERLOAD), 39 (POLARITY t), and
17 (1 x 104).

b). Strobe Flag.

Closure of this line enables
simultaneous conduction of data from pin number
32 (=) and 33 (FLAG).

10

C).

Strobe Function. Closure of this line
enables simultaneous conduction of data from
pin number 35 (FUNCTION 1). 36 (FUNCTION Z), 37

(FUNCTION 3), and 42 (AC READING).

d).

Strobe Data 1/4.

Closure of this line
enables simultaneous conduction of data from
pin numbers 13, 14, 15, and 16, the four BCD

bits representing the "thousands" digit of a
reading.

e) .

Strobe Data 83. Closure of this line
enables simultaneous conduction of data from
pin numbers 9, 10, 11, and 12, the four BCD
bies representing the "hundreds" digit of a
reading.

f). Strobe Data 112. Closure of this line
enables simultaneous conduction of data from
pin numbers 5, 6. 7, and 8. the four BCD bits
representing the "tens" digit of a reading.

9).

Strobe Data i/l.

Closure of this Ii"‘?
enables simultaneous conduction of data from
pin numbers 1, 2, 3, and 4, the four BCD bits
represenrin~ the "units" digit of a reading.

h).

Strobe DP.

Closure of this line enables

simultaneous conduction of data from pin numbers

19, 20, 21, and 22, representing the four possible
decimal-point positions of a reading (see Figure
4a).

h. Installation.

To field-install the Model 1712

Digital Output "ption in the Model 171 Digital Multi-

meeer, first remove the cop c"ver of the 171 by re-

moving the four screws.

Insert the PC-275 circuit
board module in the mating receptacle (51202) on the
mother board of the Model 171. The receptacle is
located near the rear panel. Next, rem"ve the "BCD
OUTPUT" cover plate on the rear panel; save the two
BC~BWS. Feed the 50-pin receptacle (5108), conneceed
to the cable harness, through the "BCD OUTPUT" open­ing in the rear ,xnel, orienting the receptacle with
the manufacturer's part number facing down. Now
fasten the 50-pin recepeac1e (Keithley CS-221) to
the chassis using the two screws from the removed
cover plate. Connect 5708 to pins P708 on the
mother board (see Figure 19).

NOTE
The circuit board module of the Model 1712 contains
active components, and home hear is generated by

these components due to normal power diasipati"n.
This heat generation will be stable after wnrm-up

but will cause a possible 1 to 2-C ambient te,,,,,er-

at"re rise inside the Model 171. To be assured
of specified operation in all modes, it is recommen­ded that the 171 be recalibrated following instruc­fions in Section 5-4 of this manual.

2-10.

OPERATING TECHNIQUE.

a.

Power.

1. Check the line switch (5701) on the rear

panel for pr",xr line voltage setting, either 117

or 234v.

773

773

POLARITY BLANKING

r-------------------------------------------~

,,~~~T ~~~~

---------------_- _______ ~

--_---__ ------

---------1
s;i;

1
I

I

' i

I

I

,

I

I

I I

I~~~-~~

ij

L--A

OHMS

OHMS 1

5

CONVERTER 1 ::

:

“SLCS

L---,

AC/DC I

h

CONVERTER ,

DEMODULATOR

ANALOG

-r

OUTPUT

k-------i-~i---_] >kWUTLo,

il

SECTION 3.

CIRCUIT DESCRIPTION

1”

1. v
I”

10

In” 4.99k:I 499 k.~. 100

100

mv 4.99k.Y 39.2k..

10

1 v 4.99k 0 1

I

10 ”

4.99lc:: 0

1

100 ”

4.99kl: 0

I

1000 ”

4.99kcn 0

1

FIGURE 11.

AC/DC Co”“erter.

MODEL 171 MODEL 171

input drop is 1 volt instead of 0.1 volr. uiodes input drop is 1 volt instead of 0.1 volr. uiodes

01003 and “1002 are protection diodes to prevent aver- 01003 and “1002 are protection diodes to prevent aver-

loadini: Of the ohms reicrence circuit in the event loadini: Of the ohms reicrence circuit in the event

FIGURE 12.

Ohmmeter Configuration.

i. Frequency Divider. This circuit provides the

chopping frequency as derived from the 1”” kHz clock

race.

Integrated circuit QA506 divides down the

clock rate by a factor of 11. Inteerared circuit

9.4507 (A, 8).is a dual flip-flop whh, provides an
additional X4 division which results in a chopping

frequency of 227.27 Hz.

U”ffU Amplifier.

‘This circuir provides drive
signals for the switching transistors in the modu­lator and demodulator circuits. Transisrars 9508
and Q507 provide anti-phase square waves which drive

the gates of the switching FETs Q501 and Q502.
Transismr Q5O6 provides a drive signal far Transistor
Switch 9505.

Potentiometer R535 is an internal adjust-

ment for calibration of the chopper drive signal.

3-3. SWITCHING.

a. Function Selection. me five front panel pusi,­buttons are used LO select either DC”, AC”, OHMS,
DCA, or ACA.

1. a. When this mode is selected the input ,,I
is connected thru B divider to the analog amplifier
input. The divider is used on the I”“, 1”““, and
1 kV ranges. The divider ratios are l/10, 1/l”“,
and l/1000 respectively to give a 1 volt input to
the analog amplifier.See Figure 13.

7

Range Shunt it

Volt sensitivity

ndjustmc”

1

Llri

100 kil 100 rn”

10

,,A

10 !a 100 m”

1.00

llii

I k$i 100 rn”

ImA 100 12 100 “1”

10

mh

1~” $2 100 ,“”

100 “IA I !I 100 “3”

1000 IVA 0.1 $1 JO” a”

The Integrator is zeroed for a minimum of 100
milliseconds ("ZERO" period) before the sampling

is repeated. me total conversion time is 500

millisecands, which corresponds to 2 conversions

per second.

3. me A-to-D cOn"erter is composed of six
ma,ar circuits as follows: (See Figure 16 for a
block diagram.)

a).

Clock (located on PC-300).

2. Timing sequence.

me operation of rile
A-to-D Converter can be described by considering
a typical conversion cycle.

'b).

BCD Counter (located on K-299).

c,).

Program/Decoder (located on P-299).

a). me clock provides pulses at rate of

100 kHZ for 50 to 60 Hz operation.

b). The *CD counter serves as a master

timing control for the A-to-D conversion cycle.

The timing is accomplished by the "10000"

counter which has five coded states, namely
0,1,2,3, and 4, each lasting for 10,000 CO""tS
of the 100 !dlz clock.

e) .

when the "Buffer/Store" command is given,
the Buffer/Storage Register copies the BCD in­formafion from the BCD Counter (Qb.208, QA211,

QA214, QA217).

f). The conversion cycle is completed after

the "2" period (i.e., the Zeroing Period).

d).

Integrator (located on R-301).

e).

zero-crossing Detecmr (located on PC-301).

f). Buffer/Storage Register (located on K-299).

4. Circuitry.
a).

Clock. An oscillator composed of integra­ted circuits QA401A, 8, c provides clock pulses
at a rate of 100 kHz. A crystal oscillator Y401
determines the frequency Of operation.

b) BCD counter. The Decade counters designa-

ted "1". "lo", "loo", and "1000" are campoaed of
individual integrated circuit modules QA217, Q.4214,
QA211, and QA208 respectively. All four counters
have B capacity of lo-counts each. FOX CO"nts of
10,000 and higher, the overrange "1" m201) is
lit. This is accomplished by Q201 and QAZOZA.

c). Program/Decoder. This circuit produces
event commands to control the overall sequence
for the conversion cycle. The Program/Decoder
consists of a 5-state counter (OA207). loeic
circuits QA204D, QA203D, QA205Ei; E, iid F; and
inverter Q.4206‘4. me event commands are defined
as "O,l",

!!2", "3,4n.

d).

Integrator. The operation Of rile 1ntegrarm
is controlled by switches identified as s*, SD,
Sx, and SR as shown in Figure 15. Swirch Sx

(Sampling Switch) is composed of Q302. Switch LL
(zeroing switch) is composed of transistors Q305

and 4315. Tramistors Q306, Q307 are control

CIRCUIT LmxRIPTION

circuits controling 4305 and 9315. The integrator

amplifier consists of QA301 and Q313. This is
fallowed by a gain of 20 and gain of 50 (QA302
and QA303). The integrator capacitor is C312

(.1 pfd). Switches Q308 and Q31O control the
reference current during the “0,l” period. The
feedback rezeroing of the InteSra~or circuit is
performed by FET Q315 (Switch SD). Ke~istor
R351 and capacitor c317 provide filtering in the
feedback loop. Diodes 0312 and 0313 provide
fast response for large input offsets (especially

due t” input overloads).

e).

Zero-Crossing Detector. ‘The level detector
is QA304. Its output provides two levels Which
selects the proper reference for the “0,l” period
and also produces a zero crossing pulse (p).

fl. Buffer/Storage Register. The “I”, “10”.
“loo”, and “1000” storage registers are composed
of individual integrated circuits l&*1*, QA215,

QA212, and Qb.209 respectively. The “10000”

storage is done by QA202A.

cator. me Decoder/Driver ci;cuits decode tic BC”
lnfornlatlo” irom the storage Register into ten-line

decimal code. A separate driver circuit controls

the “overrange 1” whenever the full range exceeds

9-9-9-9.

1. Numerical Readouts. The four numerical

readouts “204, “203, “202, and “201 are *riven
by Decoder/Driver modules Q.4219, QA216, QA213,
and ()A210 respectively.

Blanking of the *utner­ical readouts occurs whenever the display ex­ceeds 1-9-9-9-9. The Blanking circuit is composed

of tran~isturs Q204, Q205,

and Q206. Transistor
Q205 drives the base of Q204 to provide +I70
volts for the readout tubes during normal oper-

ati.on. When an overload occurs, cransistar 0206

is driven “ON” which in turn reduces the +I70
volt output, thus blanking the readout tubes.

2.

polarity Indication. This circuit is composed

of integrated circuit QA205A, transistors 0202 and

Q203, and polarity indicator module US202. Inte-

grated circuit ()A2028 is the Polariry SL0ra.w

Register.

3. overrange indication. This circuit is com-

posed of integrated circuits Qh201A and QUO%,

transistm Q201,

and indicator DS201. QA202A

is the Overload Storage RegisCer.

773

d. Digital Output Option. The digital output

includes output b”fferS for all output informatlo”.

The buffers utilize “Open Collector” OUtput tran-

sistors as shown in Figure 6. The buffer stages

have provision for optional “STROBE” control as

show” in Figure 16.

Input 1

Input 2 OUtpUt

I

773

SECTION 4. ACCESSORIES

,,CI ,::;‘>l”: 1:

FIC”rn 17.

f.fodcl 1007 Dual Rack Mounting Kit - Exploded View.

FIG”RE 18.

Model 2000 Single Rack Mounting Kit. - Exploded View.

773

SECTION 5.

MAINTENANCE

5-1. GENERAI.. This section contains information
necessary to maintain the i”str”me”t.

Included are

procedures ior performance checksand calibration.

5-2. P.EQ”1RE.o TEST EQUlPMENT. RecoIlunended test
equipment for checking and servicing the Model 171
are given in T&k 5-I. Test equipment Other than

that listed may be subsdtuted if the specifications
in Table 5-l are e*ualled or exceeded. These speci­fications are the minimum requirementa for testing
the Model 171.

5-3. PERFORMANCE CHECKS. “se the following proce­dure to verify proper operation of the i”sLr”ment.

All meaSureme”tS should be made at an ambient temper-

ature Of 25°C and relative humidity below 50%

(otherwise the instruments temperarure coefficients
should be considered when verifying accuracy). If
the instrument is out of specification at any point,

perform the complete recalibration as given in
paragraphs 5-4 in the exact order specified.

a. Preliminary Setup.

1.

Set the rear panel line switch for either
117” or 234” depending on the line voltage avail­able.

2. Check the fuse on the rear panel for proper

rating.

117”: U2A SLO-BLO, 3AC,

Keithley W-4

234”: 1/4A SLO-BLO, 3AG, Keithley F”-38

3. Connect the power cord to a variable rrans­former which has been sef to 117” il” or 234”
t2” depending on the line voltage available.

4. Connect the shorting link an the front panel
between LO and CASE.

For maximum operator safety,
make certa*n chat the chassis is connected to earth
ground by way of the third-conductor on the line
cord or by way of a separate clip lead from CASE
to earth ground.

5.

Set the Power switch to “ON” and allo” the
instrument co stabilize at ambient temperature for
at least one hour.

b. Accuracy Check.

Following procedures below,

note that if the ambient temperature is not at 25’C

the temperature coefficients listed in the various
“Accuracy Check” Tabl.es (5-2,5-3,5-4,5-5,5-6) should
be used to calculate the allowed rending tolerance
due to temperature differences.

1. DC” Function.
a). Select the dc voltage function by depress-

ing the appropriate front panel pushbutton.

b).

Set the RANCE switch (8902) to the 10 m”

range.

c). AppJy a short circuit between rhe HI and

LO input terminals. me display should inclicare

0.000 In”.

If necessary, adjust the rear panel

zero control fo obtain a zero reading with the
polarity indicator alternately flashing between
+ and -.

d). Remove the short CirC”it and apply dc
voltages to the input of the 171 wieh the appro­priate RANGE switch setting as given in Table
s-2 using DC Voltage Source (A).

e). Verify thaf the readings on the display
are within the tolerances stated.

2. AC” Function.

a).

Select the ac voltage function by depress-

ing the appropriate front panel pushbutton.

b). Set the sensitivity switch to the 100 m”

range.

c). Apply a short circuit between the HI and

I.0 input terminals.

The display should indicate

00.00 m” within one digit of zero.
d) Remove the short circuit and apply ac

voltages to the input of the 171 with the appro-

priate RANGE switch setting as @“en in Table
5-3 using AC Calibrator (C).

e).

Verify that the readings on the display

are within the tolerances sraeed.

3. DC‘4 Function.

a).

Select the dc amperes function by depress-

ing the appropriate front panel pushbutton.

cl. Verify that the readings on the display

are wifhin the tolerances stated.

4. ACA Function.

4.

Select the ac amperes function by depress-

ing the appropriate front panel pushbutton.

b).

Apply an ac current to the input of the

171 with the appropriate RANGE switch setting
as given in Table 5-5 using AC Calibrator (C)
and series resistors having tO.l% accuracy.

c) f

Verify that the readinga on the display

are within the tolerances stated.

773

22

5. OHMS Function.

a).

Select the ohms function by depressing the

appropriate frant panel pushbutton.

e).

Steps a through d may be repeated if de­sired for osci11aror setrings from 50 Hz! to 180
HZ nt 10 Hz multiples.

b). Apply resistance values t” the input of the
171 with the appropriate RANGE swiccb setting as
given in Table 5-6 using Resistance Source (E).

7. con!man Mode AC Rejection.

C).

Verify that the readings on the display

are within the tolerances srated.

a).

Select the dc voltage function by depress-

~“g the appropriate front panel pushbutton. &-

e the shorting link on the front panel between

LO and CASE.

6. Normal Mode AC Rejection.

b). Set the RANGE switch sensitivity to 1”.

a).

Select the dc voltage function by deprass-

ing the appropriate front panel pushbutton.

b). Set the RANGE switch eensitivity to 1V.

c). Conne~f a one-kilohm (5-10% tolerance)

resistor between input terminals HI and LO.

Apply a 60 Hz 50-v&t p-p sine wave f” the CASE

and HI input of the 171 using Oscillator (F).

c). Apply a 60 Hz 9.5 volt p-p sine wave t”

the input of the 171 using Oscillator (F), trans-

former coupled to eliminate dc offsets.

d).

When the 60 HZ signal is applied, the
display reading should not vary more than 5 digits.
exclusive of noise and drift.

I). When the 60 Hz signal is applied, the dis­Slav readina should not vary more than 30 digits,
k&sive 0: noise and drif;.

e).

Steps a through d may be repeated if de­sired far Oscillator settings from dc to 180 HZ
at 10 HZ multiples.

5108 for optional Digital OutpUt
goes here (discard cover plate)

\

PC-297 Function Display Board

PC-303 Analog Board

PC-304 Switch Board

I I

P$-300 Clock Board

\

b

.

f

PC-301 Integraror Board

PC-305 Mother Board

/

51202 Connector, mate far

I

\

PC-299 Tube Board

PC-275 optional Digital output

P708 connector Pin*. mate for 5708 CO”“ecfOr

for PC-275 optional Digital output (reference
P106-A.B,C,D,E.F,G.H on Schematics 208661) and 2553lD)

FIGURE 19. Cutaway View Showing PC-Board Lacacions.

I

773

TABLE 5-1.

Performance Checks Test Equipment

A “olrage source, DC

10",100",1000" @ iO.O032% (use with Item

B for voltages below 1OV) Fluke

3330B

B Voltage Divider 10:1,100:1,1000:1 e 3ppm

--

-_

c Voltage Source, AC (AC Calibrator) As required in Tables 5-3 and 5-5 @

iO.O4% (calibrated) Hewlett-Packard 745A/746A

D

C"rre"t source, DC

lOOvA to 100 mA @ iO.O065%

Fluke

3330B

ii Resistance source

As required in Table 5-6.

General Radio

1433

F OSCillarOr As required in Paragraphs 5-3b6 and

5-3b7.

Hewlett-Packard 202C

TABLE 5-2.

Accuracy Check for DC"

S0”r.X SOUlYe

Range Switch

Display Reading TtSlpCZr~tUr~

Input

ACCUraCy %"Siti"*ty Reading TOlera"Ce

CO‘ZffiCie"t

1OrnV ?0.0035%*

1omv

10.000m" i4 digits f0.4 digit/Y

loom" ~0.0035%* loom" 100.00m" f3 digits iO.4 digit/'C

1" io.o035%*

1" 1.0000 " i3 digits i0.4 digit/Y

10 v

iO.O032% 10 " 10.000 v r3 digits i0.4 digit/-C

100 v

iO.O032% 100 " 100.00 v t3 digitS to.4 digit/Y

1000 " iO.O032% 1000 " 1000.0 v

?3 digits i0.4 digit/'C

*Voltage Divider (B) used with Voltage Source (A).

TABLE 5-3.

Accuracy Check for AC"

10 ”

100 v

1000 "

?0.04% 40sz-100kHz
?0.04% 40Hz-100kHz

?0.04%

4OHz-40 kHz

iO.O4%

4OHz-40 kHz

iO.O4% 40Hz-10 kHz

loom”

100.00mV ~60 digits(2)

+36 digits/Y

1”

1.0000 " 234 digits(3)

?35 digits/Y

10 "

10.000 " i34 digits

i35 digits/Y

100 "

100.00 " t34 digits

135 digitsf°C

1000 "

1000.0 " i44 digits

i35 digits/'C

(1)

Pas of a sine wave.
(*)40Hz to 10k"z; r300 digits from lOkHz to 10OkHz.
(3)40Hz to 40kHz; t300 digits from 4OkHz to 100kHz.

773

MODEL 171 MAINTENANCE

TABLE 5-4.

Accuracy Check for DCA

source

Input

Range Switch

sensitivity

Reading Temperature

Tolerance

Coefficient

1liA

lOUA

loo!&4

1UlA

lO"!A

lOOn!A

lOOmA

?O.Ol%
?O.Ol%
f0.0065%
iO.O065%

+0.0065%
iO.O065%
i-0.0065%

l!JA

lOUA

1OOuA

lm.4

1omA

lOOmA

1ooomA

l.OOOO~A

+7 digits

to.7 diSit/'C

10.

OOOUA

27 digit8

20.7 diSlt/'L

100.00,~A 27 digits

to.7 digit/-C

1.oooomA ~7 digits

to.7 digit/Y

10.000mA t7 digits

k0.7 digit/-C

1oo.oomA +7 digits

~0.7 digif/'C

0100.0mA +3 digits

20.7 digit/Y

TABLE 5-5.

Accuracy Check for AC.4

source
Input*

Range Switch

sensitivity

Reading

Tolerance

Temperature
Coefficient

lll.4

f0.14% 40HP200HZ

1UA

1.0000uA ~160 digits +5 digits/'C

lOuA i-0.14% 40Hz-10kHz lOuA 10.000UA ?160 digits ?5 digits/Y

lOO!lA

iO.14% 40"z-10kHz

1OOUA

100.00"A f160 digits ?5 digits/Y

l"lA

?0.14% 40Hz-10kHz lll!A 1.0000mA t160

digits

?5 digits/-C

lOmA

f0.14% 40Hz-10k"z

lOmA

10.000nA t160 digits 25 digits/'C

lOmA

kO.145: 40"~~10k"z lOOmA

010.00m4 k 25 digits f5 diSite/'C

lOmA

f0.14% 40Hz-10kHz 1ooomA

0010.0m4 t 12 digits 25 diSits/"C

*RMs of a sine WBVB.

TABLE 5-6.

Accuracy Check for OHMS

source
1"WC

Range Switch

SensitivitY

Reading

Tolerance

Temperature
Coefficient

lkn *0.007%

1Okn

*0.007%

lOOka ?0.007%

lM0

iO.O07%

1OMn t 0.022%

lOO"ri

*0.03%

1OOOMQ i2%

lkn l.OOOOkn

1OkQ

lO.OOOkn

lOOki? lOO.OOkn

1l‘ln

l.OOOOMLi

1om 1o.ooom

1OOMrz 1oo.ooMo

1OOOim

1ooo.om

t7 digits
t7 digits
27 digits
t7 digits

f22

digits

?302

digits

f2002

digits

773

25

MAINTEN‘WCE

5-4. ADJ"STMENT AND CALIBlbuION. use the follow-

ing procedure to verify proper operation of the
instrument every 90 days. If rhe instrunent is 0°C
of specification at any point, perform the calibra-

tion procedure specified in the exact order speci­fied.

Recommended teet equipment for calibrating

the Model 171 are given in 'Table 5-7. Calibraxion
equipment other than that listed may be substituted
if the specifications in Table 5-7 are equalled or
exceeded.

These specifications are the minimum re-

quirements for calibrating the 171.

MOOEL 171

C. General Instructions before Calibration.

1. Calibration should be performed in a con­trolled environment of 25 il'C and relative
humidity below 50%.

2.

me Model 171 should i,ave one (1) hour

warm-up.

3. "se the special calibration top cover pro­vided with the Model 1713 Extender Card Kit (J).
Unless otherwise indicated, Access Covers A,B,
and C (see Figure 20) should be closed. The PC­board extender cards provide in the Model 1713
are not required for calibration but are used in

troubleshooting and repair.

a. Preliminary setup.

1. Set the rear panel line switch for either
117" or 234" depending on the line voltage avail­able.

2.

Check the fuse on

the

rear penel for proper

rating.

117":

112.4 SLO-BLO, 3AG, Keitbley F"-4

234V: 1/4A SLO-BLO, 3AC, Keithley FU-38

3. Connect the power cord to a variable trane-

former which has been set to 117V il" or 234V

+2" depending on the line voltage available.

4. Connecr the shorting link on the front
panel between LO and CASE. For maximum operator
safety, make certain that the chassis is coonect-

ed to earth ground by way of rbe third-conductor
on the line cord or by way of a separate clip
leaI from CASE to earth ground.

5. Set the Power switch to "ON".

b.

Power Supply Check/Calibration. Remove the

top cover of the 171. Make all meaeuremenre with

Digital Voltmeter (K).

1. i5 Volt supply. MeaLwIre the L5" supply

between t5" (TP-14, set Figure 21) oo the in-

tegrator board (R-301) and input LO. If a

reading of +5" i250m" is not obtained, proceed

with troubleshooting and repair.

2. +15 Volt Supply. Measure the +15" supply

between +15V ('P-2, see Figure 21) on 'the in-

tegrator board (PC-301) and input LO,

The

Digital Voltmeter (K) should read +15" ?lOm".

If necessary, xl,usr p"te"Ciometer R708 (see
Figure 21) on the mother board (PC-305).

3. -15 Volt Supply. Measure the -15" supply
between -15" (TP-8, eee Figure 21) on the inte­grator board (PC-301) and input LO. The DVM
should read -15" i&V. If necessary, adjust
potentiometer R711 (see Figure 21) oo the mother

board @C-305).

4. +210 'iolt Supply. Measure the +210" supply
between +ZlOV (acroee R702 on the mother board
K-305; see Figure 21) sod input LO. If a read­ing of +200 to f240 volts is not obtained, pro-

ceed with troubleshooting and repair.

26

4. Perform all operations only in the order

specified.

5. DO not move the 171 while calibration is

being performed.

6. Unless otherwise indicated, reference all

measorewents to rhe input I.0 terminal of the 171.

7. Unless an input source is specified, the
input HI of the 171 should be shorted to the
input LO with a pure-capper shorting plug (to

minimize thermals; see ParaSraph 2-lal).
d. DC Voltage Mode.

Select the dc voltage func­tion by depressing ehe front panel pushbutton 5903.
Set RANGE switch S902 as required.

1. Zero Adjustmenfs.
a). Driven Guard.

1). Slide Access Cover B (see Figure 20)

co the extreme right position.

2).

set the 171 RANGE switch to 100 rn"

full scale.

3). "sing Null Detector (C) on the 10011"

full scale range, differentially monitor be-

eween P-15 and TP-16 (see Figures 20 and 21)
for a null reading of 0.0 ~20u"dc. Adjust
R527 (see Figures 20 end 21) if necessary.

b).

DC Balance end Analog Amplifier Offset.

1).

Slide Access Cover B (see Figure 20)

co the middle position.

2). Set the 171 RANGE switch to 1" full

scale.

3). "sing Null Defector (C) on the 10~"

full-scale range, monitor the analog OUtpUt

(5502) of the 171 for 0.0 +5u"dc. If necess-

ary, adjust R526 (See Figures 20 and 21).

4). Set the 171 RANGE switch to 10" full

scale.

5).

"sing Null Detector (C) on the 1OU"

full-scale range, monitor the analog outpur

773

1). Close all Access covers (see Figure 20).

set the 171 RANGE switch to 1OmV full scale.

2). using Null "etector (Cl on the 3oouv
full-scale range, """it"r the analog OUtpUt
(5502) of the 171 for 0.0 i501~Vdc. If nec-

essary, adjust R723 (see Figure 3).

3). If an adjustment was necessary, repeat

paragraph 5-4dlb, steps 1 through 6, and
Paragraph 5-4dlc, steps I through 3.

) lomv sod 1OOmV Calibration/Linearity.

_.

a).

Slide Access Cover B (see Figure 20) to

the middle position.

b).

set up teet equ*pment as follows:

SOURCE

~~~ h-l

171

OUT

(A)

LO

I I

I

1 I

I I

I

I

c). With all equipment turned o" and 0.0 Volt

ootpot from Voltage Source (A), set the voltage­range witch on the Voltage Source to 10 volts
and "sing the zero adjustment of Null Detector

(K) or a" equivalent, stable voltage-bucking

CiTC"if.

d) .

Now apply dc voltages to the 171 with
appropriate RANGE switch settings as shown in
Table 5-8.

Make the potentiometer adjustments

indicated, if required, referencing Figures

20 and 21.

3.

Integrator Zero/Integrator Reference Voltage/

Amplifier Linearity.

4.

Open Access Cover A (see Figure 20).

b).

Set the 171 RANGE switch to 1V full scale.

C).

Adjust R301 (see Figures 20 and Zl), if
required, to obtain a display on the 171 that
is flashing between + and - .OOOO.

d). Using Voltage Source (D), supply inputs
to the 171 as specified in Table 5-9. Make the
potentiomerer adjustments indicated, if required,
referencing Figures 20 and 21.

4. IO", loo", 1000" Calibriltio"
;I). open nccesa cover c (see iigure 2").
b). Using Voltage-Source (A), supply inpur-: LIP

the 171 with appropriate RANGE switch settings .*s
specified in 'Table 5-10. Make the potentiomtvr
adjustments indicated, if required, referencin,
Figures 20 and 21.

e. UC current Mode.

select the dc current f""rLi0rI
by depressing the front panel pushbutton 5906. ?CI
RANGE switch 5902 as required.

1. 1000 mA Calibration.
a). Open Access Cover C (see Figure 20).

b). Set up test equipment as follows:

I

I

C).

Set the 171 RANGE switch LO 1000 ti full

scale.

d).

Set Null Detector (C) to the 300~" full-

scale range.

e-1.

set the Current Source (E) to rhe lOO.00m~

range with the current output et O.OmA.

f). Set Voltage Source (D) for a O.OmV output.

Observe that Null Detector (C) reads 0.0 ~1001.V.

Zero the Null Detector while in this mode.

8). Set Voltage Source (D) for a lOO.OmV output

and set Current Source (E) for a lOO.OOmA output.

h). Set the Null Detector co the 1OOuV full-

scale range.

the ~"11 detector should read 0.0

t 20!J".

i). Remove the Null Detector from the circuit

and zero.

2. 1liA to lOOmA Calibration.
a).

Open Access Cover C (see Figure 20).

b). Using Current Source (E), supply inputs to

the 171 with appropriate RANGE switch settings 88
specified in Table 5-11, Test Nos. 1 through 8.
Make the potentiometer adjustment indicated, if
required, referencing Figures 20 and 21.

C).

"sing Voltage source (A) and current
Resistors (I'), supply inpute to the 171 with
appropriate

RANGE

switch settings as specified

in Table 5-11, Test Nos. 9 through 12. Note

27

773

vertical and O.zl"s/di"ision horizontal.

"Sillg

the 10:1 (law capacity) probe (reference the

171 input 1.0) and oscillosc"pe (Ii), monitor n-23

(see Figures 20 anti 21) for 0.0 +200"l"dc. lf
necessary, adjust potent~iometer Kl.119 (see Rgures
20 and 21).

5.

set Null Detector (C) to the lOO,l" full-scale

range.

Using the Null ktector, mc'nicor the analog

output (5502) for 0.0 r20u"dc.

If necessary, ad-

just Par 111.102 (see Figures 20 and 21).
h.

AC "olfage Calibration.

1. "pen ACCeSS cover c (see Figure 20).

2. "sing Voltage sourm (I), eat is rhe H-P
145A or H-P 745/H-P 74&t, supply inpurs co the
171 with appropriate RANGE switch settings as
specified Ian Table 5-13. Test NOS. 1 through 21
are performed using only the H-P 745A AC Calibra­TOT (or equivalent). Test Nos. 22 through 25

(1000 "AC KANGE) are performed using both the

H-P 745h and H-P 746A High Voltage Amplifier

(or equivalent).

3. Make the potenLiometer adjustments indicated,
if necessary, referencing Figures 20 and 21.

1O:l
10:1
10:1
10:1
10:1
10:1
1O:l
10:1

100:1
1OO:l
100:l
LOO:1
100:1
100:l
1OO:l
100:1

1.0000” 100~”

0.0 150 I.”

1.9990”

100~”

0.0 i lOOU”

.5000” lOOIl”

0.0 t25 iv”

lOO0” lOOil”

0.0 + 5 ;.v

- .lOOO” 1OOil”

0.0 t 5 I.”

- .5OOl?” 10”,.”

0.0 !25 ..”

-1.0000” 1OOU”

0.0 ’ 50 Lb\’

-1.9990”

1.0000”

1.9990”
.5000”

1000”

- .lOOO”

- .5000”

-1.0000”

-1.9990”

100,1”
300””

3ooi;v
300,i”

3001.”
3001,”
300””
300!:”
300::”

0.0 ‘1rm.I

0.0 f 150,r\’

0. 0 t ?OOv”

0.0 f 125;)”

0.0 L105U”

0.0 t 105;?”

0.0 1125:.v

0.0 ‘150,1\’

0.0 t200,:v

K520
NONE

TABLE 5-9.

htegrator Reference dc Voltage Calibration

‘Test

VOltage

Display Adjust

NO.

source (D) *eexling Pot

1 1.9990” 1.9990” K331
2

1.0000” 1.0000 t.0001”

NONE

3

.5000” ,500o k, 0 ‘OI”

NINE

4

.lOOO”

.lOOO i.c ,O!”

NONE

5

-1.9990”

-1.9990”

K326

6

-1.0000" -1.0000 t .OOOl"

NONE

7

- .5000" - .5000 1.0001"

NONE

8

- .lOOO" - .lOOO 1.0001"

NONE

TABLE 5-10.

10",100",1000" dc Calibration

Test

Range Switch

NO.

sensitivity

1

10 Y

2

10 ”

3

10 "

4

10 "

5

100 "

6

100 "

7

100 "

8

100 v

9

1000 "

10

1000 v

11

1000 "

12

1000 v

100.00 ~, .01 K:;
LO.000 i ,005 K.’

l.OO”O ! .0005K:;

.lOOO b .o”“:!K:!

1.0000 ? .0004E,!<

10.001~ I .“,~I M;,,

100.00 ! 2.0” M!,

1000.0 + 25.” Mi

lO().O I :::: ;;:
O”ERL”hD

30

TABLE 5-13.

AC Voltage Calibration

sesc

Range Switch

NO.

SeIMiti"ity

1

1 "

2

1 v

3

I. v

4

1 v

5

1 v

6

1 v

7

100 ItI"

8

10" m"

9

100 Ill"

I 0

100 m"

11

100 In"

12

1" v

13

10 "

14

10 v

15

10 "

16

1" "

17

100 "

18

100 "

19

100 "

20

100 "

21

100 "

22

1000 "

23

1000 "

24

1000 "

25

1000 "

Voltage source

(I)

Display

Ad, us t

Volts AC Frequency kXii"R Pot

1.0 v 1 kHZ

1.0000 t .00"1"

RlllO

1.0 " 100 ktk

1.0""" 2 ."277"

NONE

1.0 v 40 k"Z

1.0000 1 .0023"

NOh‘E

.100 " 4" kHZ

1000 t .0006"

YOKE

1.0 " 400 HZ

1:0000 i .0"27"

NONE

1.0 v 40 HZ

1.0000 ? .0023"

NUKE

100 rn" 40 HZ

100.00 2 .44 "

NONE

100 m" 400 HZ

100.00 f .52 "

NONE

100 Ill" 10 kHZ

100.00 + .52 "

NONE

1.0 In" 10 kHZ

1.00 2 .I6 v

NONE

100 In" 100 kHz

100.00 * 2.84 "

NONE

10.0 " 1 kHz

10.000 * .OOl v

R606

10.0 " 40 k"z

10.000 ? ,000 Y

R61"

10.0 v 30 kHz

10.000 z ,023 v

NONE

1.0 " 40 kHz

1.000 f ,006 "

NONE

10.0 " 40 HZ

10.000 f .023 v

NONE

100 " 40 kHz

100.00 t .o "

R609

10" " 30 kHz

100.00 f .23 v

NONE

10 " 40 kHz

10.00 + .06 Y

NONE

100 " 400 H7.

100.00 2 .*3 "

NONE

100 v 40 HZ

100.00 2 .*3 "

NONE

1000 v 10 kHz

1000.0 f .1 "

R608

100 " 10 kHz

100.0 + .6 V

NONE

1000 " 400 Hz

1000.0 t 3.2 "

NONE

1000 v 40 H7.

1000.0 f 2.7 "

NONE

I MAINTENANCE

ACCESS- COVER B

I

32

773

I[

RlllO

t ~~1

R1102

TR1007
yR1003

-R1004

.TP-16
,TP-15

MAINTENANCE

MODEL 171

773

_- -­?-I

8101

II0

- --

*

ol/ l#.q.Yq

/J !!!I

!! !

/O \d

/

hl

IIll

0

P

,”

I IIIIP

0 06

MODEL 171

FIGURE 26.

Component Layout - Integrator Board - PC-301

MAINTENANCE

773

37

~

MAINTENANCE

I

FIGURE

27.

Component Layout - Tube Board - PC-299

I

38

MODEL 171

773

MODEL 171

MAINTENANCE

FIGURE 28a.

Component Layout - Optional Digital Output - PC-275a

I

_---...--.-__-.~---

FIGURE 28b.

Component Layout -

Optional Digital Output - PC-275b

~

773

39

SECTION 6. REPLACEABLE PARTS

T.mLE 6-3.

Chassis Parts List

3

‘

5.6
7

8

9
10
11
12
13

14
15
16
17
18
19

Screw, Phillips, Flat Hd., 6-32 x 3/S 4

20 Kep Nut, 6-32 4

Screw, Slotted, Pan Hd., 6-32 x 5116
Front Panel Overlay

Rear Panel

Side Extrusion

corner Bracket

Screw, Phillips, Flat Hd., 6-32 x 112, Blk.
Screw, PhillipFi, Pa" Hd., 6-32 x l/4

clip far Side Dress Panel

Side Dress Panel

Top cover

Screw, Phillips. Flat Hd., 6-32 x 5/16, Blk.

BOTTOM COVER ASSEXIBLY

Bottom cLwer

Screw, Phillips, Flat Hd., 6-32 x 5116, Blk.
Feet
Ball, Rubber
Tile Bail

4
4
2
2

250788
25074B
243788
247450

---

FA-101
24360B
24369C

248658 30
24864C

243228
FE-6
248798

6-6. ELECTRICAL PARTS LIST. Table 6-4 Circuit

Designation series contains a li8f of the basic

three or four digit numbers of a series identifying
location of electrical (and mechanical) parts to a
particular printed-circuit assembly "I assemblies.
Reference is made to the manual pages (replaceable

parts list) that contain all parts of a particular
series. Following Table 6-4 is a complere electrical
parts list far the Model 171 and Model 1712. Re­ference Table 6-2 to identify the schematic(s) per­taining to a particular printed-circuit assembly
"umber.

TABLE 6-4.

circuit Designation series

200
300
400
500
600
700

800
900

1000
1100

1200

Tube Board

Integrator Board
Clock Board
Analog Board

Switch Board

Mother

Board
Front Panel
*ear Panel
Function Display Board
Mother Board

Switch Board
Front Panel
Analog Board

Switch Board

SWitCh Board

Mother Board

Assembly No. Page No.

PC-275

43-44

PC-299

45-46
PC-301 47-49
PC-300
PC-303
PC-304

SO-51

51-54

54-55
PC-305 57-59

-_ 60

__ 60
PC-297 59
PC-305 57-59
PC-304 54-56

__ 60

PC-303 52-53
PC-304 56
PC-304 54-56

PC-305 58

773

41

REPLACEABLE I’ARTS

MODEL 171

773

42

“4713 MC858P

MISCELlANEO”S

Mfr. Mfr.

-

I

65039-039

CS-237

pg.

65039-040

cs-251

b3.
574050" cs-221 5
5730500

c-220

--

47439

cs-236

--

IOO~SZ-U-16 J-4

.­65039-039

cs-237

pg.

w

camp
camp
camp
camp
camp

camp
camp
camp
camp
camp

camp
camp
Camp
Camp
camp

camp
camp
camp
camp

camp

camp
camp
camp

camp

camp

CB103-10%
CB103-10%
CB103-10%
CR103-10%
CR103-10%

CB103-10%
C”1,03-10%
CB103-10%
clJ103-10%
CB103-10%

CB103-10%
C11222-10%
CB103-10%
cn103-10%

R76-10k 28a
R76-10k

28a

R76-10k

28a

R/6-10k

2Ra

R76-4.7k

28b

R76-220 28b

R76-2.2k

28a

CB103-10%
a10510%
CB103-10%

C8472-10%

44

circuit
LIesip,.

c202
c203
c204

CZO6
c207
C208
c209
c210

c211
c212
c213
c214
cz15

C216
c217
C218
c219
c**o

c221
c***

Mfr.

Code

.Ol. P 500

" CerD 56289

5CAS 410 c**-.01M

.01 pF 500

v CerD 56289

5G.G -s10 C22-.OLM

.01 UF 50"

" CerD 56289

5GAS -s 10 CZ2-.OIM

.01 pF 500

" cert? 56289

5CAS-SIO C22-."lM

.01 p.F 500

" cerLl 56289

5GAS-SIO c**-.01,1

.01 llv 500

v CerD 56289

5GAS -s LO C22-.",M

.01 p 500

" Cer" 56289

SCAS-SLO C22-."lM

.Ol pF

500 v CerD

56289

5GAS -s LO

c**-.OlM

.01 p 50"

v ceru 56289

5GAS -s 10 c**-.OLM

.oo**p 500

v CerD 72982

831.%5"0-222M c**-."O?ZH

100 pF 1000

" CerD 71590

DD1OL-LO% C64-,001'

10 w

2" v ETT 17554 TDZ-20.106-20 CL,9-IO"

27
27

27

DIODES

circuit

Mfr.

Mfr. Keitlrley

fig.

LkSiF.

Type Code clesig. Part NO.

Ref.

0201 Germanium 15238

LN87

w-39

27

"202

cermaniunl 15238

LN87 RF-39

27

D203

Germanium 15238

IN87

RF-39 27

"204

Germanium 15238

iN87 RF-39 27

D205 cermanium 15238

lN87

w-39 27

1NTEGRATED CIRCUITS

QA201

"CL.91 Flip-Flap, ll-pin DIP

QA202 Dual Flip-Flap, 14-pin DIP

QA203

Positive NOR Gates, 14-pin DIP

QA204

Positive NAND Gates, 14-pin DIP

QA205 Hex 1nverters TTL, 14-pin DIP

Qb.206

ikx lnverters TTL, 14-pin DIP

QA207

5-8it Shift register, 16-pin DIP

Q.4208

Decade counters, 14-pin DIP

Q.4209

~istable hatches, 16-pin DIP

QA210

Decoder/Driver, 16-pin DIP

QA211

Decade Counters, 14-pin DIP

QA212

sistable Latches, 16-pin DIP

QA213

bcoderl~riuer, 16-pin DIP

QA214

Decade taunters, 14-pin DIP

01295

SN7474N

ic-31

27

01295

SN7474N

IC-3,

27

01295

SN7402N

IC-32

27

01295

SN74OON

IC-38

27

01295

SN7404N

IC-33

27

01295

SN7404N

IC-33

27

01295

SN7496N

IC-39

27

01295

SN749ON

IC-37

27

01295 SN7475N IC-36

27

01295 SN7441AN 1c-35

27

01295 SN749ON ,c-37

27

01295 SN7475N

1c-36

27

01295 SN7441AN ‘C-35

27

01295 SN749ON

ic-37

27

I

773

45

I

REPLACEABLE PARTS

MODEL 171

TUBE BOARD (PC-299) (continued>

INTEGRATED CIRCUITS (continued)

circuit
msig.

QA215
QA216
QA217
QA218
QA-219

Type

~istable Latches. 16-pin DIP
~ecoder/miver, 16-pin DIP
Decade Counters, 14-pin DIP
Bistable Latches, 16-pin DIP

Decoder/Driver, 16-pin DIP

Mfr. Mfr. Keifhley Fig.

Code “esig. part NO. Ref.
01295 SN7475N IC-36

27

01295 SN7441AN IC-35

27

01295 SN7490N IC-37

27

01295 SN7475N IC-36

27

01295

SN7441AN IC-35

27

INDICATORS

Circuit
rssig.

“201
“202
“203
“204
DSZOl
lx202

Type

Readout Tube
Readout Tube
Readaue Tube
Readout Tube
Readout Tube, Overrange “I”, Neon

Polarity Indicator Lamps Assembly

Mfr.

Mfr. Keithley Fig.

Code tlesig. Part NO. Ref.

94144

CK1916 E”-841

27

94144 CK1916 E”-841

27

94144

WI916 E”-841

27

94144

CK1916 E”-841

27

74276

A261 PL-42

27

91802 2330 PL-48 27

circuit
Lksig. Value

Rating Type

Mfr.

Mfr. Keifhley Fig.

Code lksig.

Part NO. Ref.

R201
R202
R203
R204
R205

R206

R207

R208
R209
R210

K211
R212
R213
R214
R215
K216

R217

1 !a

22 kn

100 kc2

3.3 kn

3.3 kfi
470 n

10 kn
10 !in
10 krl
10 kR

220 n
100

IdI

80.6 kR
47 kn

7.87 kR
kR

:*o n

IO%, l/4 w
IO%, l/4 w
IO%,1 ”
lO%, l/4 w
IO%, l/4 ”

lO%, l/4 w
l%, l/2 w
I%, l/2 ”
I%, l/2 w
1%, l/2 w

lO%, l/4 w
lO%, l/2 w
l%, l/2 w
lo%, l/4 w
l%, l/B w
lO%, l/4 w

lO%, l/4 w

COUlp
Camp
C0*p
COtlIp
COTlIP

ComP

MW
MLF
MLF
MU

camp
COmp

MtF

camp

MtF

Camp

CotUp

01121
01121

01121
01121
01121

01121
07716
07716

07716

07716

0,121
01121
07716

01121
07716
01121
01121

TRANSISTORS

Mfr.
Code

CBlOZ-10%
CBZ23-10%
GB104-10%
CB332-10%
CB332.10%

CB4,1-10%
CEC-T-O
CEC-T-O
CEC-T-O
CEC-T-O

CB221-10%
EB104-10%
CEC-T-O
CB473-10%
CBA-T-O
CBlOZ-10%
CB221-10%

wr

K76-lk

R76-2*K

R76-470 27.
x94-10k

27

R94-10k

27

R94-10k

27

R94-10k 27
R,6-220

27

Rl-100k

27

R94-80.6k

27

X76-47k

27

R&3-7.87k

27
R76-lk 27
R76-220

27

Type

Q201

Silicon, NPN, TO-92 case 04713

2N5551

TG-67 27

Q202

Silicon, NPN, TO-92 case 04713

2N5551

W-67 27
9203 Silicon, NPN, TO-92 Case 04713 7x5551 TG-67 27
Q204

Silicon, NPN, TO-39 case 04713 MM3003

TX-58 27
Q205

Silicon, NPN, TO-39 case

04713 MM3003 TG-58

27

Q206

Silicon, NPN, TO-39 Case 04713

MM3003

lx-58

27

46

773

C316

c317
C318
c319
c320

c321
c322
c323
C324
c325

C326
C327
C328
C329
c330
c331

50

”

50

”

50

v

__

-­_-

50

”

20

"

20

v

50

"

14752

14752
14752

62581A503-5

C201-.05M

6258U153-J

C201-.015M

62581A154-3

C201-.L5M

_.-- ___

____

___

625BlAL54-J

CZOI-.L5M

TDZ-20-106-20 c179-1OH
'TDZ-20-106-20 C179-lOM

625BU.154-J

CZOL-.I5M

_.--

PW -R

CL42-.in

LID-470

C64-41,'

LOSS-022

C64-."022~

26
26

26

26

-_
26

26
26

Lx-330 C64-33P

26

625BlAlO5-J

CZOI-LM

26

TSD5-15-107-A C205-100M

26

TSD5-15-LO,-A C205-10""

26

DD-050

C64-5P

TSD5.,5-LO,-A C205-LOOM

ID-050

C64-5F

TD2-20-106-20 CL79-ION

26

26
26

--

26

-_

14752

100 ”
1000 ”

loo0 ”

__

1000 ”

50 ”

15 ”

--

15 Y
1000 ”

15 ”
,000 ”

__

20 "
15 "

20 "
1000 "
500 "
500 "
500 v

97419
71590
56289

.-

71590
14752
17554

17554

71590

17554
71590

26
26
26
26
26
26

17554
17554

17554
56289
56289
56289
56289

TSDS-15-107-A C205-IOOM

~02-20-106-20 C179-iOM

IOSS-D22

~64.."022M

XXS-SLO

C22-.01M

SGAS-S10

C22-.OLM

XAS-SIO

c*2-.oin

_.

04713
04713

26
26

D305

__

01295
01295

0306

0307
0308

Not used

Silicon
SiliCO”

NON used

Silicon

Silicon, Zener, 6.2 V, 0.4 W

__

IN914
IN914

26

26
D309
0310

"311
0312

01295 IN914
01295 lN914

01295 lN914
01295

IN914

06751

IN823

26

26

26

26

26

0313
D314

773

Operational Amplifier, TO-99 case, 8-pin 12040
Operational hlplifier, TO-99 case, *-pin 12040

Operational Amplifier, TO-99 Case, *-pin 12040

Voltage comparator, TO-99 case, spin

I2040
Positive NAN" Gates, lit-pin DIP
Positive NOR Gates, I4-pin DIP

SI.12916

IC-2

26

LM311

IC-29

26

SN7401

TC-47

26

SN7402N

IC-32

26

SN7404N

IC-33

26

-

26
26
26
26
26

26
26
26
26
26

26
26
26
26
26

26
26
26
26
26

26
26
26

26
26

26
26
26
26
26

26
26
26
26
26

26
26
26
26
26

94271
94271

17870
17870

94271
94271~

17870
07716
07716

07716

0.6 W

n.6 W
O.l%, 114 w
I%, l/8 W
I%, l/8 W
.25%, l/2 w

502.OO,,S
L283

L283

R88-200
R127-10

cl.6 w
1%. l/8 W

94271
07716
07716
01121
"1121

R341 k0
13342

:92 k*

R343

100 kn

R344

1 Msl

R345

301 kn

R346 301 k0
R347 47

0
R348 2.2 kR
R349 4.7 0
R350

4.7 0

K351

1

MCI

R352

4.7 n
R353
R354
K355

1 kc2

32.4

kfl

634 Sl

R156

10 k0

K357

20 k0

R358

2.8 k0

R359

2.49 k0

R360

2.8 kfl

R361

470 n
R362
1363
1364

1365

Not USed

1.8 kn

1 kn

4.7 kR
1366
1367
U68
2369

80.6

kn

470 a

4.7

k!,

100 n

1370

232 k0

I%, l/8 w
I%, l/8 W

1%, l/8 W
lo%, 114 w
lo%, 1/4 w
lo%, l/4 w
lo%, l/4 w

I%, l/8 W

10%. 114 w

L%;1/8 W

1%, l/8 W

l%, l/8 W

I%, l/8 w
1%, l/8 w

l%, 118 W
I%, l/8 w
I%, l/8 W

LO%, i/4 w

-_

l%, l/8 w

lo%, l/4 w
lo%, 114 w
l%, l/8 w
lO%, l/4 w
lO%, l/4 w

I%, l/S w
I%, l/E w

camp
MW

MU
MtF
Me

MC
Camp

camp
camp

camp

Me

camp
MtF
MW
MtF

MfF

MfP

MU

MtF

MtF

camp

MS

camp
camp

MtF

camp

camp
MtP

MtF

01121
07716

07716
91637
07716

0,716

0,716
07716

07716
07716

07716
07716
07716

01121
07716

01121
01121

07716

01121
01121
07716
07716

CB-102s10%
CEA-P-O

CEA-'T-0

MFF-I,8

CEA-‘T-0
CEA-T-O

CB-470.LO%
CH-222-1077
CB-47K-10%
CB-47K-10%

MF-I/8
CB-47R-10%

CEA-T-O

c&t-T-O
c&4-T-O

CEA-T-O
CZA-T-O
CFJA-T-O
C&-T-O
C&4-T-O

CEA-T-O
CB-Lo*-10%
lx-47R-10%
C&t-T-O
CB-47L-10%
CB-472-10%

C&hT-O
CEA-T-O

1176-Lk

26

R88-392k

26

Ka8-LOOk

26

R88- LM

26

K88-301k

26

R88-3Oik

26

R76-47

26

K76-2.2k

26

R76-4.7

26

K76-4.7

26

K88-LM

26

R76-4.7

26

R88-Lk

26

~88-32.4k

26

K88-634

26

R88-10k

26

R88-20k

26

R88-2.8k

26

R88-2.49k

26

R88-2.8k

26

R76-470

26
_-

R88-1.8k

26

K76-Lk

26

K76-4.7k

26

R88-80.6k

26

R76-470

26

R76-4.7k

26

K88-100

26

~88-232k

26

1301

N-Channel mm, case KllO
2302 P-Channel FET, Case TO-72
>303

Silicon, PNP, Case TO-i06

2304 silicon, PNP, Case TO-106

1305

N-Channel JFET, Case RI10

32293
80164
07263
07263

32293

ITE4391 TG-76

26

Selected

25740A 26

2N5139

TG-66

26

2N5139

K-66

26

ITE4391 TG-76 26

i306 Silicon, NPN, Case TO-106

07263 2N5134 TG-65 26

1307

Silicon, PNP, Case TO-106

07263 2N5139 TG-66 26

1308

P-Channel FET, Case TO-72

80164

Selected

25740A 26

)309 Silicon, PNP, Case TO-106

07263 2N5139

TG-66 26

1310

P-Channel FET, Case TO-72

80164

Selected

25740.4

26

1311
1312
!313
!314

1

1315
1316

,rder TC-

Not Used

Silicon, PNP, Case TO-106

07263

2N5139 TG-66

26

Dual N-Channel JFET, Case TO-18

32293 2N3956 x-74**

26

N-channel JFET, case RI10

Silicon, PNP, Case IQ-106

to replace both Q313 and Q314

32293

ITE4391 TG-76

26

0,263 2N5139 TG-66

26

773

49

CAPACITOKS

Value

Rating

ml-. Mfr. Keithley Fig.

Type

Code J. Part NO.

Ref.

-

__-

,068 “F 50 ”
,068 !JF 50 v

c403 .0082 ,,F 50 ”

c404 .01

IIF

5oov

c405

.Ol

PF

500”

C406 10 ,,F 20 ”
c407 .Ol ,$ 500"
C408 .01 piF 500"
c409

.01 !JF 500"

c410 .47

UF

50 ”

“401

0402
u403
11404

0405

"406

Circuit

!!a&--

Q"t401

Qh402
(>A403

Circuit
oesig.

Y401
J402

5403

--

--

50

MPC 14752 625AlA683-J C201-.068M 25
MPC 14752 625Blh683-J C201-.068M 25
MPC 14752 625BU822-J C201-.0082M 25
Cer" 56289 5GAS-SIO C22-.onl 25
Cer" 56289 SGAS-SLO c22-.olM 25

ETT 17554 CCL-020-10610 C80-1"M 25
CerD 56289 5CAS-s10 c22-.OlM 25
CerD

56289

XAS-S10 C22-.OlM

ii

cerLl 56289

XXS-SIO C22-.OlM

25

CerF 72982 8131-050-

651-474M C237-.47M

25

07263 lN4607 RF-41

25

15238 IN87 RF-39

25

15238 lN87 RP-39

25

01295

lN645

RF-14 25

01295 IN914

RF-28

25

01~295 m914 RF-28

25

-LYE5
Positive NOR Gates,

14-pin

OIP

Positive NOR Gates,

14-pin

“IF

Decade Counters, 14-pin DIP

Mfr.
Code

01295
01295
01295

Mfr.

ki thley Fig.

“esig.

--

Part NO.

-&

SN7402N u-32

25

SN7402N IC-32

25

SN7490N

IC-31

25

Type

-~

Resonator, CrysCal, 100 kHz
connector, FC Mount, 22-contact

(double sided)

connector, PC Mount, 22-contact
.lumper

Jumper

Mfr.

Mfr. Keithley Fig,

Code *sig. Part N”. Kef *

00815 NE-l3E-100KC

CR-2

25

09922 PSCAm(22)­09922 %4SN22)-

cs-205

25

12 CS-182

25

GETTIC ENCRC .

L-2007-2

J-3

25

CETTIG ENCRC.

L-2007-2 J-3

25

773

I

MODEL 171

REPLACEABLE PARTS

CLOCK BOARD (PC-300) (continued~

RESISTORS

circuit

Mfr. Mfr.

Fceithley

Fig.

oesig.

Value Rating

T e Code

oesig.

Part NO. kf.

K401
R402
K403

R404
R405

402 0 1%. l/8 w

402 0 1%. l/8 w
220 II IO%, 1/4w
470 St IO%, 1/4w

3.9m 10%. 1/4w

MtF
MtF
Camp
Camp
Camp

camp
camp

__

camp
Camp

01.121 CB471-10%
01121 CR392-10%

01121 CR392-10%
01121 C8152-10%

--- ___

01121 CB221-10%
01121 C8223-10%

R88-402
R88-402
R76-220
R76-470
R76-3.9K

25
25

25
25

R406
R407

R40R
R409
R410

3.9m

1.5102

Not Used

220 12
22 Kn

IO%, 1/4w
LO%, 1/4w

___

lO%, 1/4w
lO%, 1/4w

R;6-3.9K
R76-1.5K

25
25

25

R76-220

25

K76-22R

25

R411

1 Kc!

I%, l/8 w MtF 75042

CEA-T-O RR"-1K

25

R412 100 0 IO%, 1/4w Camp 01121 CBlOl-10% R76-100

25

R413 1.5Kc. IO%, 1/4w Camp 01121 CR152-10% K76-1.5K

25

R414 330 n IO%, 1/4w camp 01121 CB331-10% R76-330

25

R415 10 la lO%, 1/4w camp 01121 CR103-10% R76-10K

25

R416 68 n 10%, 1/4w camp 01121 CB680-IO% R76-6"
R417 4.02G 1%, l/S w MtF 75042

CO\-T-O

K88-4.02K

R418 10 KG IO%, 1/4w camp 01121 CB103-10% R76-10K

25
25
25

Q401
Q402
0403

75042 CEA-T-O
75042

CM-T-O

01121 CB221-10%

TRANSISTORS

Mfr. Mfr. Keiehley
Code oesig. Part NO. _

07263 2N5134

'X-65
03508 2N2646 'X-52
07263 ZN5134

'X-65

CAPACITORS

Circuit
oesig.

C501
C502

Rating
250 v

1000”

Mfr.
Code

73445
72982

C503 22 IJF 20 ” E’TT 17554
c504 22 !lF 20 ” ETT 17554
c505 680 pF lOO0” Cer” 72982

C506

.1 !lF

250

” MP*

73445

c507 4

!JF 100 ” WY

14752

C508

22

“F

20

” ETT

17554

c509 22 ;F 20 ”

ETT

c510

.I UF

250 ” MP*

c511

.1 “F

250

V

MP*

73445 C280AE/PlOOK C178-.L?
C512 .01 IIF 500 ” Cer” 56289 SCAS-S10 C22-.01M
C513 .Ol UF 500 ” cero 56289

SGAS-S10 C22-.oL\I
C514 500 PF 500 v OM 14655 CD19FD501F03 C209-5OOP
C515

500 iF 500 ”

DM

14655

CD19FD5OlF03 C*O9-5OOF

773

Mfr. Keithley
“es+. Pat-i Nod,

C280AE/PlK C178-.OOl>I
838-OOO-ZSRO-

471K C64-470P

TD1-20-226-20 C179-22"
TDl-20-226-20 C179-22M
838-OOO-25RO-

681K C64-68OP

C280AEIPlOOK C178-.IM

230818505 C245-4M

IT-20-226-20 C179-22H
IX-20-226-20 C179-Z*M
C280AE/PlOOK C178-.1X

FiF,.
Ref.

-._

25
25
25

23
23

23
23
23

23
23

51

ANAl.OG BOAR" (PC-303) (continued]

CAPACITORS (conri""ed)

circuit

Mfr.

Mfr. Keithley

Fig.

Ibig. Value

Raring Type

Code

Lksig.

Part NO.

Ref.

C516 .1 lJF 250 " IQ* 73445 C280AE/PlOOK C178-.LM 23
c517 .Ol !lF 500 " certl 56289 5GAS-S10 C22-.OlM 23
C518 .Ol !JF 500 " cem 56289 5GAS-S10 C22-.olM 23
c519 33 pF 1ooov Cer" 72982 838-OOO-P3KO-

330K C64-33P 23

Cl001 100 PF 1000v tern 72982 838-000-25KO-

10X C64-1OOP

Cl002 100 pF 1000" ceriz 72982 R38-ooo-25RO- 23

1OlK C64-1OOP

D501
D502

"503
D504
0505
0506

RF-14
RF-14
“Z-21

RF-28
RF-28
RF-28

23
23
23
23
23
23

"507

Silicon 01295 IN914

RF-28

23

DlOOl Silicon, zener, 9", 0.5w 06751 18937 LIZ-41 23

01002 SiliCO" 01295 lN914 RF-28 23
01003 SiliCO" 01295 1N914 RF-28 23

INTEGRATED CIRCUITS

CirCUit

Mfr. Mfr.

Keithley Fig.

lksig. Type

Code

Desig. Part NO.

Ref ,

QA501

Operational Amplifier, 8-p*" Mini-DIP 12040

SL12917 IC-24 23

QA502

Operational Amplifier, *-pin Mint-DIP 12040

LM741CN n-42 23

QA503

Operational Amplifier, B-pin Mlnl-DIP 12040

SL12917 K-24 23

QA504

Operational Amplifier, TO-99 Case, B-pin 12040 LM310H IC-18

23

QA505

Operational Amplifier, spin Mini-DIP 12040 LM741CN x-42 23

QA506

Synchronous Up/Down Counters, 16-pin DIP 18324

N74193B K-44 23

QA507

Dual Flip-Flop, 14-pin DIP

01295

SN7474N

K-31

23

QAlOOl operational Amplifier, 8-pin Mini-DIP

80164 selected E-76 23

QAIOOZ Operational Amplifier, B-pin Mlnl-DIP

80164 Selected K-76 23

R501 100 kn l%, l/8 w MtF 75042 CF.&T-O R88-100K 23
R502 768 n l%, l/8 w MtF 75042 CEA-T-O R88-768 23

R503 768 n l%, l/8 W MCF 75042 CR&T-O R88-768 23

R504 100 kn

l%, l/8 W MtF

75042 CEA-T-O R88-100R 23

R505 30.1 kc2 I%, l/8 W MfF 75042 CEA-T-O R88-30.1K 23
R506 10 kn

MO7 108 o

lO%, 0.75w cermet "AR 73138

89%10K

cm/z-108

RP89-10K 23

20%, 1/2w camp 75042 ~37-108 23

52

773

I

MODEL 171

CirCUit

“Sig.
R508

K509
R510

R5ll

K512
R513

II514

R515

R516
R517
K518
R519

R521
K522
R523
R524
K525

R527
K528
K529
R530

K531
K532
K533
K534
R535

K536
R537
K538
K539
K540

I71001
K1002
K1003
RI004
moo5

R1006
RlOOl
X1008
R1009

IOR :2

2.2 k!?
10 kl?
10 ki2

10 M!1

LO k:2

499 k!!

39.2kG
10 MC

32.4k!,

4.99kC
100 k::

20 \1

Not USed

2963Oil
2690 $2
300 :!
300 :2

50 kc
1 k$S
200 kl?
200 k:,
15 k$l

20 !a
10" ki2
100 kn

2.2 kG

1.00 kc

2.2 ks

4.99kG

220 kc2

30.lkG
200 12

681 n

7150 il
2 ki2
100 $2

3.8 kl2

3.8 ki>
50 n
75 II
1 kn

?O%, l/2 w
10%. l/4 w
10%. l/4 w
10%. l/4 w

lO%, l/2 w
1%. l/R w
I%, l/R W

IO%, l/4 w

10%. 0.75w

0.1%

0.1%

0.1%

0.1%
10%. 0.75w

IO%, 0.75w

1%, l/8 W

1%, l/R w

I%, l/R w

I%, l/8 w
IO%, l/4 w
1%, l/R U

lO%, l/4 w

10%. 0.75w

1"%, l/4 w

1%, l/R W

10%, 114 w

I%, l/8 w

lO%, 0.75w

l%, l/8 w

0.1%. 0.3w
10%. 0.75w

lO%, 0.75w

lO%, 0.75w

0.01%. 0.314

0.01%. 0.3w

l%, l/8 W

0.1%. 0.3w

MtF
MCF

cermet "ar

camp
NCF

MtF

COSp
ccrmct “ar

MCF

coinp
MU
camp
MtF
cermet var

MC
fit3
cermet “ar

cermet “aI-

Fixed

Fixed

75042
011~21
01121
01121

"1121
01121
75042
75042

01121
75042
75042
01121

73138

_._

"0164

73118
73138

75042
75042
75042

75042 CL-Al-il
OllZl

CK104-10%

75042 cl-n-'r-n
01121

CB222-10%

73138 R9P-100X
01121

CB222-10%

75042 CF..-T-O
01121

C8224-10%

75042 C&-T-"
73138 89P-200

R76-22Oh
RRB-1".1K
KPR9-200

75042 C&-T-" K88-6XL
18612 "53-3-7150 R218-7150

73138 89P-2K RP89-2K

73138

89P-100

RPR9-100

18612 "53-I-3.8K Rl84-3.8K

18612

"53-I-3.RK H184-'I.HK

73138

89P-50

RP89-50

75042 CEA-T-O

R88-75

18612 "53-3-1K *21*-1K

*Reslsmr network; order Part No. 'R-21 to replace K522, R523, R524, and R525.

TRANSISTORS

circuit

Mfr. Mfr.

Ilesig.

Type

Code

oesig.

9501

Silicon, P-Channel, MOS FET, TO-18 case 97933

RN-1030

9502

silicon, P-Channel, MOS FET, TO-18 Case 97933 RN-1030

9503

silicon, ~-Channel, J-FET,TO-92 Case 80164 SelfXtd

Q504

Silicon, N-Channel, J-FET, TO-92 case

80164 Selr!cted

Q505

Silicon, N-Channel, J-FET, TO-92 Case

04713 2N5457

773

TG-51

23
25083A 23
25083A 23

I

REPLACEABLE PARTS

MODEL 171

ANALOG BOAR3 (PC-303) (continued)

TRANSIS1ORS (continued)

circuit

Mfr.

Mfr.

Keithley

Fig.

rlesig.

nTe

Code

,lWi~.

Part NO. J&2

Q506 Silicon, PNP, Amplifier, TO-92 Case

04713 2N5087 T-61

23

Q507 Silicon, NPN, hplifier, 'XI--92 case 04713

2N5089 X-62

23

Q508

Silicon, NPN, Amplifier, TO-92 Case 04713

2N5089

'W-62 23

SWITCH BOAR", "600", "900","1OCJ', "1100" SERTES (X-304)

-_

Packtx
14655
14655
14655

__-

-0”

MW-400 C234-.0033M

~601

Not USed

--

C602 .0033 uF 50 " EP0ly
C603 5 !Jp 500 " DM
C604 2 PF 500 " IN
C605 2

PF

1500"

IN

27
27
27
27

CDlOCDO5ODO3 C231-5F
CDlOCDOZO"O3 C231-2P
C"19CHOZOD03 C242-2P

C‘s6 Not Used

--

~607 150 pF 1000"

CerD

C608

100 pF

500 "

124

--_

71590

““-1.51

C64-15OP

14655

CDlOFD101F03 C209-1OOP

27
27

27
27
27
27

27
27

27
27

27
27

27
27

27
27

27
27
27
27
27

C901

see FRONT PANEL, "900" SERIES

C902 see MOTHER BOARD, "900" SERIES

97419
71590

MZW-R C143-.047M

CPR-3300.T C138-.0033M
831-Z5"O-222M CZZ-.0022M
871-Z5"O-103M CZZ-.OlM

TDl-ZO-226-26 C179-22M

'W-20-474-20 C179-.47M

'WI-035-224-

20

CL79-.22M

m-391

C64-390P
808-OOO-25RO­102K C64-.OOlM

C903 ,047 UF 200 " MPoly
C904 .0033 UF 500 " Poly
c905 .0022 UF 500 " CWID
C906 .Ol PF

500 " ceriz

Cl101 22 UF 20 " ETT
Cl102 .4, IIF 20 " ETT
Cl103 .22 UF 35 " ETT

Cl104 390 pF 1000" CerI?
Cl105 .OOl UF 1000"

CC2rD

72982
72982

17554
17554
17554

71590
72982

Cl.106 2 ,,F 100 " MM"

14752 230"18205 C250-2M
73445

C280AE/PlOOK cl,*-.lM

13445

C280AE/PlOOK C178-.W,

Cl107

.l ;i

250 " MP*

Cl108 .1 !JF

250 " MP*

Cl109 .OOl IIF 1000" tern 72982

17554

72982

808-ooo-2580­102K C64-.001M
TDZ-20-106-20 C179-10M

Cl110 10 “F

20 " ETT

Cl111 ,001 NF

1000" cerl?

808-000-z5*0­lO2K C64-.oolM
TD2-20-106-20 C179-10M
TDl-20-226-20 Cl,'+22M

Cl112 10

!lF 20 v

Cl113 22

!lF 20 "

CL114

.0047 !JF

1ooov
Cl115 120 p-f 1000"
*Metallized P,lyethylemeterephtalate.

17554
17554
56289
71590

loss-D47

C64-.0047M

ID-121

C64-12OP

54 773

DllOl

Sili'Z0n

01295 IN914

RI‘-28 27

"1102

S*licOn

01295 IN914

W-2" 27

QAllOl

Operational Amplifier, TO-100 Case, R-pin 07263

b4715C

TC-26

27

s901
S902

JllOl

Not “SexI

__

-_

Switch, Rotary, RANGE, without components 80164

_-

connector, 5-pin

22526

65039-040

Co"nector, Mini, Female, Insert in CS-251 22526

47439

__

SW-347
CS-25L
CS-236

R602

1 kn

0.02%, 0.3w Fixed 18612 "53-1-1X

R603

10 kn

0.02%, 0.3w Fixed 18612 "53~I-10K

R604 lOOki,

0.02%. 0.5w

Fixed 18612 "53-5-100K

R605
R606

R607
R609

R.610

R902
R903
R904

R906

"R907

R908

XL?909

R910

989kn

25 kc2

Not USed
500

5 kn
5 kn

1%,2 w

MS 03888

PME-80-989K

lO%, 0.75 w cermet

var 73138 89P-25K

___

lO%, 0.75 w cermet

var 73138 89P-500

lO%, 0.75 w C.snlEL

var 73138 89s5K

lO%, 0.75 w cermet

var 73138 89P-5K

see MOTHER BOARD, "900" SERIES
see MOTHER BOARD, "900" SERIES

Nor USed

__-

NOC USed ---

___

__-

9 MI1 O.l%, 2 w 80164 Hatched

10 kll IO%, 0.75 w cermet var 73138 89P-10K

895kn 0.1%. II4 w --- 80164 Matched

1 k12 lO%, 0.75 w cermet

"ar 73138 89P-1K

89.5kn O.l%, l/4 w ---

80164 Matched

100 il lO%, 0.75 w cermet

var 73138 89P-100

K183-IK

Kl83-10K

R182-100K

R217-989K

RP89-25K 27
RP89-500 27

WE+5K

27

RPH9-5K 27

--­_-_

KlRh-9H
RI%-10K

27

R186-895K

27

RP89-1K

27

R186-89.5K

27

RP89-100

27

-

27

773

55

SWITCH BOARD (PC-304) (continued)

RESISTORS (continued)

Fig.

Ref

Mfr.

Mfr. Keithley

Rating Type

Code

oesig. Pal-t NO.

80164
00327
91637

73138

Matched

R186-9.95K

27
M14-IOOM R189-100M 27
MFF-l/8

R88-12.1

27

89P-50 RP89-50 27
R185-.1005 R185-.1005 27

CF.&T-O

R88-100

27

89P-200

11289-200

27

R185-1.005 R185-1.005

27

R188-10 R188-10

27
"53-1-100

R183-100

27
V53-1-u

R183-1K

27

"53-l-10K R183-1OK

27

"53-5-100K R182-100K 27

100 MS2

0.5%, 2 w

Fixed

12.1 n I%, l/8 w

MtF

50

n

IO%, 0.75 w cermet "ar

.1005

0

O.l%, 5 w

Fixed

100 n I%, l/8 w

MCF

200

%

lO%, 0.75 w

cermet Iiar

1.005 0.1%. 5 w

Fixed

01686
75042

73138

01686

10 12

0.02%, 5 w Fixed

100 n 0.02%, 0.3w

Fixed

1

kn

0.02%, 0.3w Fixed
10 kn 0.02%, 0.3w Fixed
100 kn

0.02%, 0.m

Fixed

01686
18612
18612
18612
18612

see *w.LOG BOARO. "1000" SERIES
38 kn

O.Ol%, 0.3w

3.8 kn o.ol%, 0.3w
2 kn

0.01%. 0.3w

3.8 kn

0.01%. 0.3w

Fixed
Fixed
Fixed
Fixed

conlp
cermee “ar

Camp
MtF
MtF

MtF
MS
MS
MCF
cermet “ar

MtF
c olnp
Camp
camp
corn*

camp
Camp
c onlp
cermet “ar
c onlp

Camp
camp

MfF
c onlp

18612 "53-l-38K R184-38K

27

18612

"53-l-3.8K R184-3.m

27
18612 "53-l-2K R184-2K 27
18612 "53-I-3.8K R184-3.8K

27

150 kn lO%, l/4 w
5 kn

lo%, 0.75 W

1 MO lO%, l/4 w

4.75 kn 1X, l/8 W

4.75 kn l%, l/8 W

01121
73138

01121

75042
75042

CB154-10% R76-150K

27

89P-5K RP89-5K

27

CB105-10% R76-1M

27

C&-T-O R88-4.75K

27

CFA-T-O R88-4.75K

27

R1106 6.98 kfl

1%. l/8 w

RllOJ

28.7 kn l%, l/8 W

R1108

28.7 k0 l%, l/8 W
RllOV 133 kn l%, l/8 w
Ill110 50 kn lO%, 0.75 w

75042

CEA-T-O

R88-6.98K

75042

CEA-T-O

R88-28.7K
75042 CEt-T-O R88-28.7K
75042 CBA-T-O R88-133K

73138 89P-50K RP89-50K

4.02 k0 l%, l/8 "
180 kn 10%. 114 w
100 kn

10%, l/4 w
47 k0 lo%, l/4 w
100 Ml

20%. l/2 w

75042
01121
01121
01121
75042

lO%, l/4 "

20%. l/2 w

CL-T-0

R88-4.02K

CB184-10%

RJ6-180K
CB104-10% R76-IOOK
CB473-10% R76-47K
mT1/2-108 R37-108

10 Mn
100 Mn
1 kn
10 kn
15 k$l

01121

10%; li4 I4
lO%, 0.75 w
lO%, l/4 "

75042

01121

73138

01121

10 n

lO%, l/4 w

10 0 lo%, l/4 w

8.06 kn l%, l/8 "
47 kn

lO%, 2 "

CB106-10% R76-10M
~~~112-108 R37-108
CB102-10% R76-1K
89P-10K KP89-10K
CB153-10% R76-15K

01121
01121

75042

R76-10
X76-10

i

01121

CBlOO-10%
CBlOO-10%
Cm.-T-O
HB473-10%

R88-8.06K
R3-47K

8186. M"SC replace entire set, if one or mc,re resismrs need

TRANSISTORS

27
27
27
27
27

27
27

27

27

27
27

27
27

::
27

27
27
27

Fig.

Mfr.

Mfr.

Type

Keithley

CO&

Desig,

Part NO. Ref.

Silicon, N-Channel, J-FET, TO-72 Case

07263

2134220 Z-42

Silicon, N-Channel, J-PET, TO-92 Case

27

04713

2N5457

TG-41

27

R920
R921
R922
R923

R1001-1009
RlOlO
IL1011
RI012
R1013

RllOl

R1102
R1103
81104
R1105

Rllll
R1112
R1113
R1114
R1115

R1116
Fall7

R1118
R1119
R1120

R1121
R1122
It1123
R1124

"eslg.

QllOl

Q1102

56

773

Mfr. Mfr. Keithley

Value

Rating Type Code cxsig. Part NO.

2000 !JF 15 " EAL 29309

Not "aed

__

-- --

200 UF 35 " EM. 37942

Not USed

-_ _- _-

200 g 35 " CAL 37942

JCN2000158P CZlO-2000M

___ _-.

MTV200N35PDN C177-200M
MT"200N35PDN ClJJ-2OOM

15 "F 300 v EM. 37942

PTC015~300P3E
JC6100158P

TD22010620
'CD22010620
m-221

C173-1%

Fig.
Rec.

22
.-

22

-­22

22
L?
22
22
22

22
22
22
22

22
22

22
22
22

22

Fig.

Kef

.'2

22

-­22

._
22

2 .)

22
22
22

22

22
22
22
22

22

22
22

22
22
22

C701
C702
c703
CJ04
C705

C706
C707
C708
c709
C710

100 ;F

15 v EAL 29309
10 !JF 20 " ETT 17554
10 UF 20 " ETT 17554
220

pF 1000" CeL-D 71590

C711
C712
c713
C714
C715

220 pF 1000" cerLl 71590
10

UF 20

" ETT

17554

10 uF 20 " ETT 17554

47 be

1000" cerLl 71590
47 pF 1000" CUD 71590

C716
C717
C718
CT19

47 pF 1000" CerD 71590
47 pF 1000" ceri3 71590

,047 UF 600 v MP0ly 97419
.47 UF 600 V MPdy 97419

C901 See FRONT PANEL, "900" SERIES

C902 .l pF 1200"

m-221
TD22010620
TD22010620
DD-470
m-470

"D-470
"D-470
MZW-F
M2W-F

c210-loo>,
C179-10EI
C179-1OM
C64-220P

C64-22OP
C179-10M
C179-10M
C64-47P
C64-47P

C64-47P
C64-47P
C220-.04JM
C220S.47"

MY

97419

DIODES

Mfr.

M2W-E C244-.1M

Mr.
clesii:.

IN4139
IN4139

Keithley
Parr NO.

P"-10

RF-34
RF-34

___

RF-36

_--

P”-10 RF-36

IN3255

RF-11

lN87

RF-39

IN87

RF-39

lN87 RF-39

15238

lN87
15238 lN87
15238 lN87
15238 lN87
15238

lN87

01295 lNJO3
01295

IN703

04713 MU0328

04713 M81032B

04713 EIR1032B
04713

MR10328

RF-39
RF-39
RF-39
RF-39
RF-39
E-40
LIZ-40

RF-40
RF-40
RF-40
RF-40

13327
13327

83701

0706 Silicon, Full-Wave Bridge 83701
0707 Silicon 02735

0708 Germanium 15238
D709

Germanium 15238

0710 CerllWXli"bT

15238

57

773

MOTHER BOARD, (X-305) (continued)

MODEL 171

niTEGP.ATED CIRC"ITS

circuit

iksig.

QA701
QA702
QP.703
QA704

Type

see REAR PANEL, "700" SERIES
Voltage Regulator, 14-pin DIP
voltage Regulator, Ill-pi" DIP

POSitiVe NAND Gates, 14-pin DIP

Mfr. Mfr. Keifhley

COCb Lkeig. Part NO.

12040 LM723CN

IC-25

12040

LM723CN E-25

12040 DM7410N x-43

Fig.
Ref.

22
22

22

Mfr. Mfr.

Keithley

Fig.

Code

Ikaig.

Part No. Ref.

F901

_-

Fuse, X0, 250 ", 4 A

75915 312-004

Fuse. 3AC, 250 v, 4 A, spare for F901 75915 312-004

GETTIC ENGRG.

Connecfor, PC Mounf, 15-contact (double

sided) 71785

22526
22526

22526

L-2007-2
2521530160

65039040
65039040
47439

F"-39 22
m-39 22

5-3 22

cs-259 22

G-251 22

J501

5705

5711

co*nector, 5-pin
Co""ector, 5-pin
Connector, Mini, Female, Insert in CS251
connector, PC Mount, 1*-contact
Connector, PC Mount, 18-contact
Connector, PC Mount, 22-contact (double

sided)

Connector PC Mount, 22-contace (double

sided)

Switch, Slide, AC Line, 117"/234V, DPDT
Not Used
see SWITCH BOARD, "900" SERIES
Swiech, Push Button, Front section
Switch, P"Sh Buteon, Rear (Guarded)

section

CS-251

22

CS-236 22
3901
3902

51202
.,1203

71785

71785

71785

71785

79727

_-_

80164
80164

2521830240

2521830240

CS-260

22

CS-260

22

CS-242 22

CS-242 22

2522230160
2522230160

CG350PCDPDT SJOl
SVOl
5902
S903-907
SVO3-907

SW-318

22

-_

SW-345

22

SW-349 22

RESISTORS

Mfr.
Code

circuit
w&g. V&W

R701 82 R
RJ02 1 MC2

Racina Type

Keithley

Fig.

Part No. Ref.

-

10%. l/2 w 01121 EB820-10% U-82 22

01121 CB105-10% R76-1M

22
01121 EB56R-5% NV-5.6 22
75042 CBA-T-O R88-634

22

R703

5.6 0

R704

634 n

RJ05 5.6 C,
R706

634 0
R707 1.37kn
R708

200 n

EB56R-5%
C&4-T-O

CBA-T-O

RlV-5.6 22
R88-634 22

R88-1.3JK 22
RP50-200 22
R88-l.lK 22
R88-1.37K 22

75042
75042

71450
75042

75042

71450
75042
01121
01121

INS115200n
CBA-T-0
CEA-T-O

R709 1.1 kn 1%,'1/8 w
It710 1.37kn

l%, l/8 W

R711 200 n

20%. 2 w

INS115200fl

RP50-200 22

C&t-T-O

R88-1.x 22

CB152-10% R76-1.5K 22

CB221-10%

RJ6-220

22

CB152-10%

R76-1.5K 22
RJ6-220 22

R76-1.5K 22

R76-220 22

R76-1.5K 22
R76-220 22

773

R712 1.1 kn

l%, l/8 W

RJ13 1.5 kn

10x, l/4 w
R714 220 a lO%, l/4 w
R715 1.5 kR

10%. l/4 w
R716 220 n

R717 1.5 kR
R718 220 0
RJ19 1.5 kR

01121
01121

01121
01121
01121

01121

CB221-10%
CB152-10%
CB221-10%
CB152-10%
CB221-10%

R72O

220 0

58

I

MODEL 171

KCPLACEAaLE PARTS

R726 20 n
R727

20 0
R728 20 n
R729 20 n
R730

20 n
R731 3.3 Mn

R901

15 kc2
R902 15 kn

MOTHER BOARD, (PC-3051 (continued)

Rating

I%,5 w
l%5 w

10%. 0.75w

l%, l/2 w
1%. l/8 w

1%. 1/a w

l%, l/8 w
1%. l/8 w
1%. ua w

a, l/a w

l%, l/2 w
lO%, l/4 w

lO%, l/4 w

RESISTORS (continued)

Mfr. Mfr. Keithley

9x

Code Lksig. Part NO.

Fixed

48615 Sbf2812

RZOO-47K
Fixed 48615 SM2812 RZOO-47K
cermet var

73138

89p-500 KP96-500
DCb 91637 DCS-l/Z KlZ-3.m
MtF 91637 Mm-l/8 Raa-20

MtF 91637 MFF-l/8

Kaa-20

MtF 91637 mF-118

888-20

MtF 91637 MFF-l/B

ma-20

MtF 91637

MFF-1/a Raa-20
MtF 91637 w-u8

R88-20

DCb 91637

DCS-l/2 R12-3.m
camp 01121 CB153-10%

R76-15R

camp 01121 CB153-10%

R76-15K

TRANSISTORS

Mfr. Mfr.

Keitilley

Code rlesig Part NO.

q701

Silicon, Power, TO-66 case

02735

40312 x-54

q702

Silicon, Power, TO-66 Case 02735 40312

z-54

q703

Silicon, NPN, TO-92 case 04713

2N5551 U-67

q704

Silicon, NPN, TO-92 Case 04713 2135551

X-67

Q705

Silicon, NPN, TO-92 case 04713 2N5551

'X-67

Q706

Silicon, NPN, TO-92 case

04713 2N5551 'U-67

DS801

Da802
05803
ma04
DS805

OS806
05807
OS808
05809

5707

__

Mfr.

bw

Code

Pilot Light, m.4 Display

05464

Pilot Light, NO RANGE Display

05464

PilOf Light, NO RANGE Display 05464

Pilot Light, Mn Display

05464

Pilot Light, !4 Display

05464

Pilot Light, AC Display

05464

Pilot Light, " Display

05464

Pilot Light, U.4 Display

05464

Pilot Light, In" ixap1ay

05464

conneceor, lo-pin 22526
Connector, Mini,

Female,

Insert in CS237 22526

Mfr.

Keithley

Desig. Part NO.

7361.4525 H-57
7361AS25 m-57
7361AS25 R-57
7361AS25

m-57

7361AS25

m-57

7361AS25

m-57
7361AS25 m-57
736U.525

m-57
7361AS25 FL-57

65039-039

CS-237
47439

CS-236

Fig.
Ref.

22

22
22
22
22

22
22
22
22
22
22

22
22

Fig.
Ref.

22
22
22
22
22
22

Fig.

hf.

Pg. 82

Pg. 82

Pg. 82
Pg. 82
Pg. a*

pg. a2
Pg. 82
pg. a2
Pg. 82

Pg. 82
pg. a2

773

59

FRONT PANEL, "700" & "900" SERIES

Fig.
Ref.

Pg. 75

Keithley

Part NC'.

C22-.OlM

Mfr.

DC&.
SCAS-S10

Mfr.

Code
56289

circuit

oesig.
C901

S701
5702

5701

-_

3906
5907
.I908

__

--

--

TYW
capacitor, 0.01 "F, 500", CerD

see MOTHER BOARD, "700" SERIES
Switch, Tag&?, POWER, DPDT

connector, 5-pin
Connector, Mini, Female, Insert in CS251
Binding Post, Input, Red
Binding Post, Input, Black
Binding Post, Input, Green
Readout Block, Function Display (less

lights)
Window, Readout Black
Shorting Link, Input

MST-205N SW-271

2

Pg. 81

22526

65039-040

22526

47439
58474 DFZl-RC
58474 DF21-BC
58474 DFZI-CC

80164
80164
24655 938-L

CS-251

CS-236
BP-11R

2
2
2

BP-11B
BP-116

24876B
24886A
BP-6

REAR PANEL, "500" & "700" SERIES

Mfr.

Lbsig.

LM309K

Q.4701

T701

F701

Integrated circuit, Voltage Regulator,

TO-3 case 12040
Transformer, Power 80164
Fuse, 3AC,125 Volt, Slo-,310 l/2-amp (for

105-125 V Ooeracion, 71400

IC-34
m-141

F"-4
NJ-38

CS-254
co-7

pg. 81

Pg. 81

Mm
ml.

SAC-301

pg. ai

___

Pg. L

-__

Fuse, 3AG, 250'V&, Sio-Bla l/4-amp (for

210-250 " operation)

71400

Receptacle

82389 P706

--

Line- Cord, 3-pin

80164

see MOTHER BOARD, "500" SERIES

CO*“t?CtOr,

Analog output

02660

CO”ll~CtO~, Mate of 5502 (not

supplied) 02660

connector, 5-pin

22526

connector, z-pin

22526

connector, 10-pill

22526

connector, 3%pin

22526

connector. 2-oin

22526

aoPC2F CS-32
aoMc2M

cs-33

65039-040

CS-251
65039-035 CS-266
65039-039

CS-237
65039-034

Ca-270
65039-035 CS-266

47439

CS-236

J501
5502

3

__

5702
5703
5704
5709
5710

Pg. 81
Pg. 81
pg. al

Pg. 81

Pg. 77

--

Connectar; Mik, Female, Insert in CS251,

CS-266, CS-237, CS-270

22526

773

MODEL 171

6-7. MECHANICAL P&US LIST. Table 6-5 is a list of
replaceable mechanical parts for the Model 171 that

are not lIsted elsewhere and include miscellaneous

TABLE 6-5.

Mechanical Parts List

quantity

Keithley

cap, Plastic for POWER Switch S702
Cap, for Integrated Circ"it ((A701 (REAR PANEL)

Cable Clamp, for Readout-Block wiring harness

Knob Assembly, far RANCE Swirch 5902
For RANCE Switch S-902 front shaft extension:

Shaft, Switch, Extension

1

LSI4IA

C0"pling

1 co-11

Bushing, FrO"t Panel

1 BE-2

318" Lack Washer

1

-.

3/8" Hex Nut

1

-.

Washer, Spring

1 WA-9

Bushing

1

12569A

Plate, ix!2 Output Cover 1 2453OA
Fuse Holder, for XEAK PANEL ruse F7Ol

I Fii-11

Fuse itolder, for MOTHER BOARD (Fuse F-901)

2 Fii-12

Push Buttons, Plastic, for 5903 - s907 Front section

5 i'B- 3

Push B"etons, for S903 - S907 Rear Section (Guarded)

5

21883,'~

Socket, for "201, "202, "203, V204 "igitol Display Tube

4 Sd-63

Socket, ior 9*21*, QA213, Qh216, Qh219 Integrated circuit

4 SO-65

Socket, for QA201 Integrated Clrcui~

1 So-67

Socket, far QA601 Integrated circuit

1

so-72

Socket, for QA702, 9.4703, 98,704 I"tegrated Circuits

3 SO-IO

Heat Sink, for 0204 Transistor

1 H-10

Heat Sink, for Q5011Q502 Trnnsistors

1

iiS-

Lamp Bracket, for Overrange "1" Neon

2

242028

Tube Clip, for Overrange "1" Neon

2

'R-26

S"pport Bracket Assembly, for RANGE Switch 5902 nnd SWlTCH ""ARD PC-304

257i):r\

Card Guide, Support for ANALOG BOARD PC-303

2 is-261

Shield Assembly, for PC-299/K-,OO,PC-301

1

L4865B

773

REPLKEAULE PARTS

t

lo-66

c

KEITHLEY PART NO. TG-41

KEITHLEY PART NO. TG-51

KEITHLEY PART NO. TG-42

KEITHLEY PART NO. TG-52

TO-72

2

ml-m* YIEW “NlnmCTIoN

62

773

KEITHLEY PART NO. TG-76

Q‘+j

R-110

t

:.,:: _ ,:

.,...~

KEITHLEY PART NO. IC-2

63

­I <EITHLEY PART NO. IC-2,24

fzJ

TO-99

KEITHLEY PART NO. IC- 25

L

64

MODEL 171

KEITHLEY PART NO. IC-31

<EITHLEY PART NO. IC -33

IC- 80

IC- 81

I

I

KEITHLEY PART NO. IC -32

KEITHLEY PART NO. IC-35

773

-

I

I

I<EITHLEY PART NO. IC-36

KEITHLEY PART NO. IC- 38

KEITHLEY PART NO. IC - 37

I I I I I I

I’ 11 if

I i

- ,

I ii ’

I

(EITHLEY PART NO. IC-39

66

I

MODEL 111

KEPLACEABLE PAKTS

KEITHLEY PART NO. IC- 43

JEDEC TO-116

KEITHLEY PART NO. IC -47

v,., 8” .a, il %” ./

KEITHLEY PART NO. IC -48

67

MODEL 171

CODE-TO-NAME LIST

6-8. CODE TO NArn List of Suggested Manufacturers.

reference: redera supply code far Manufacturers, Cataloging Handbook H4-2.

00656

00686

01121

01295

01686

02101

02660

02734

02735

02777

02985

03508

04009

04713

05079

05397

06751

06980

Aerovox carp.
New Bedford, Mass.

02745

Film capacitors, Inc.

Passaic, N.J.

07055

Allen-Bradley Corp.
Milwaukee, Wise. 53204

Texas Inser”ments, Inc.
Semiconductor Div.
Dallas, Texas 75231

RCL Electronics, Inc.
Manchester, N.H.

03102

“am Inc.
Elecerokinetics Div.
Santa Barbara, Calif. 93103

Amphenol Corp.

Broadview, Ill. 60153
RCA

oefense Electronic Products

Moorestovm, N.J.

08540

RCA

Solid State Div.

Somerville, N.J. 08876
Hopkins Engineering Co.

San Fernando, Calif.

91342

Tepro Electric Corp.
Rochester, N.Y.

14606

General Electric co.
Semiconductor Products

Syracuse, N.Y.

13201

Arrowhart, 1°C.
Hartford, Corm. 06106

meoro1a semicon. Prod.

Phoenix, *riz.

85008

Tansiseor Electronics
Bennington, “C. 05201

Union Carbide Corp.
Maeerials systems “f”.

Cleveland, Ohio

44101

components, Inc.
semcor Division
Phoenix, *riz.

85019

“aria” EilmC Division

San Carlos, Calif.

94070

07137

07263

07716

08811

09823

09922

10582

11502

11534

11837

12040

12065

12697

12954

13050

13327

13934

14655

TEC, Inc.
Eden Prairie, Minn.

Fairchild Semiconductor Div.
Mountain View, Calif.

IRC Div. of TRW Inc.
Burlington, Iowa

52601

GL Electronics DIV.
CL Industries, Inc.
Westville, N.J. 08093

Gulton Industries, Inc.
Alkaline Battery Div.
bleeuctlen, N.J.

Burgess Battery co.
Div. of Clevife Carp
Freeport, 111.

Burndy Corp.

Norwalk, Corm. 06852

CTS of Asheville Inc.
Skyland, N.C. 28776

IRC Ia”. of TRW Inc.
Boone, N.C.

28607

Duncan Electronics, Inc.
Costa Mesa, Calif. 92626

Electra Scientific IrId.
Portland, or.

97229

National Semiconductor Corp.

Danbury, Con”.

06810

Transitran ElectronFc Corp.
EaSC Boseon, Mass.

Clamstat Mfg. CO., 1nc

oouer, N.H.

03820

Dickson Electronics Corp.
Scatesdale, ArFz.

85252

Potter cc..

Wesson, bliss.

39191

Solitran Devices, Inc.
Tappan, N.Y.

10983

Midvec Corp.
Oshkosh, N&r. 69154

CorneIlD”b*l*er EkC. Di”.
Newark, N.J. 07105

56289

14752

15238

17870

16170

17554

17896

18324

22526

23020

24655

27602

28520

29309

32293

35529

37942

44655

53021

Sprague Elecrric Co.
Visalia, Calif. 93278

Electra Cube Inc.
San Gabriel, Calif. 91776

ITT Semiconductors
Di”. of ITT Corp.
Lawrence ) Mass.

01841

Dave” DIV.
McGraw Edison Co

Livingston, N.J.

Teledyne Systems Co.

Collm”“icatio”s Df”.

LOS Angeles, CalFf. 90066

components, Inc.

Biddeford, Ma.

04005

Silicanix Inc.

Santa Clara, Calif.

950s

signetics Corp.
Sunny”sle, Calif.

94086

Berg Electronics, Inc.

New Cuberland, Pa. 17070

General Reed Division
Clark, N..,.

0,066

General Radio Co.

West Concord, Mass. 01781

Hathaway Instruments, 1°C.
Denver, Colorado

80222

Heyma” Mfg. co.
Kenilworth, N.J.

0,033

Richey Electronics Inc.
Nashville, Term. 37213

1neersi1, Inc.

Cupertino, Calif.

95014

Leeds and Northrup
Philadelphia, Pa.

19144

Mallory, P. R. and Co.

Indianapolis, Ind.

46206

Ohmite Mfg. Co.

Skokie, Ill.

60076

sangam Electric co.
Springfield, 111.

62705

68

773

CODE TO NAME List (Continued).

REPLACEABLE PARTS

54294 Shallcross Mfg. Co.

Selma, N.C. 27576

56289 Sprague Electric Co.

North, Adams, Hass. 01247

58474 superior Electric co.

Bristol, CO”“. 06010

61637 Union Carbide Corp.

New York, N.Y. 10017

63060

02288

70903

71002

71279

714oll

71450

71468

71590

71785

72259

72619

72653

72699

72982

73138

73445

“ictoree” I”Strume”e co.

Cleveland, Ohio

44104

Allied Control Co., Inc.

Plantsville, Co”“. 06479
Belden Mfg. co.

Chicaga, Ill.

60644

Birnbach Co., Inc.

New York, N.Y. 10014

Cambridge Thermionic Corp.
Cambridge, Mass. 02138

Bussma”” Mfg.
Div. of McGraw-Edison Co.
St. Louis, MO. 63017

CTS Corp.
Elkhart, Ind. 46514

ITT

Cannon Electric, Inc.

Los Angeles, Calif. 90031
Ce”tt%31&3

Div. of Globe-Union, Inc.

Milwaukee, Wise.

53201

Cinch Mfg. Co.
Howard 8. Jones Div.
Chicago, Ill.

60624

tiyeronics ) 1°C.
Pelham Manor, N.Y. 10803

Dialight Corp.
Brooklyn, N.Y.

11237

G-C Electronics co.
Rockford, Ill. 61101

General Instrument Corp.
capacitor Division

Newark, N.J. 07104

Erie Technological Prods.
Erie, PS.

16512

Beckman I”str”me”ts, 1°C.
lIeupot Division
Fullerton, Calif.

92634

Amperex Eleceronic Div.,
North America” Philips Co.
Hicksville, N.Y.

73690

74276

74970

75042

75915

76055

76493

76545

77764

79727

80164

80294

81073

81483

82389

83125

83330

83594

83701

84171

84411

84970

Elco Resistor Co.

New York, N.Y.

Signalite Inc.

Neptune, N.J. 07753

Johnson, E.F., Co.

waseca, Mi”“.

56093

IRC Di". of TRW 1°C.
Philadelphia, Pa.

19108

Littelfuse, Inc.

De6 Phines, 111. 60016
Mallory Conerols Div.,

MAllory P. R. & co., 1°C
Frankfort, Ind.

Miller, .J. w. co.

compton, Calif. 90024

Mueller Electric co.

Cleveland, Ohio 44114
Resistance Produces Co.

Harrisburgh, Pa.

17104

c,ontinenta1-wire
Electronics Corp.

Philadelphia, Pa. 19144

Keithley Instrumenes, Inc.
Cleveland, Ohio

44139

BO”r”S, 1°C.
Riverside, Calif.

92507

Grayhill, Inc.
LB orange, 111. 60525

International Rectifier

Los Angeles, Calif. 90069

Switchcraft, Inc.

micago, Ill. 60630
General I"str"ment Corp.

capacitor Di"i8iO"
Darlingto”, S.C.

29532

Smith, Herman H., Inc.
Brooklyn, N.Y. 11207

Burroughs Corp.

Electronic Components Di”.

Plainfield, N.J.

07061

Electronic Devices, 1nc

Brooklyn, New York

Arc0 Electronics, Inc.
Great Neck, N.Y. 11022

TRW Capacieor Div.
Ogallals, Nebr.

Sarkea Tarzia”, Inc.
Bloomington, I”d.

86684

87216

90201

90303

91637

91662

91737

91802

91929

93332

93656

94144

94154

94310

94696

95263

95348

95712

97419

97933

99120

RCA
Electronic Components
Harrison, N.J. 07029

Philco Ford Corp.
Lansdale D‘v.
Lsnsdale, Pa. 19446

Mallory capacitor

Indianapolis, Ind. 46206

MElllory Battery co.
TarryLaw", N.Y. 10591

Dale Electronics, 1°C.
columbus, Pkbr. 68601

EICO Corp.
willow Grove, Pa. 19090

ITT cremar, Inc.
Wobur", Mass.

01801

Industrial Devices ~“c.

Edgewater. N.J.

07020

Honeywell 1°C.
Micro Switch Div.
Freeport, Ill.

61032

Sylvania Electric Prod.
Semiconductor Prod. Div,
Woburn, Mass. 01801

Electric Cord Co.
Fairfield, N.J. 07006

Raytheon Co., Industrial
operation components Di”.
quincy, Mass.

Tung-so1 Electric, 1°C.
Newark, New Jersey

Memcor, 1°C.
components Division
llu”Li”gtO”, In*.

46750

Magnecrafr Electric CO.
Chicago, Ill.

Leecraft Mfg. co., Inc.
L.I. city, N.Y.

11101

Gordas Corp.
Bloomfield, N.J.

07003

mge Electric CO., Inc.
Franklin, Ind.

Standard Condenser Co.

Chicago, 111.

60613

Raytheon Co. Components oiv.
Semiconductor Operation

Mountain View. Calif.

Plastic Capacitors. Inc.
Chicago, 111.

773

69

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4

KEITHLEY INSTRUMENTS, INC.
REPAIR & CALIBRATION FORM

MQDEL NO. DATE

?.IAL NO.
SHIP INSTRUMENT & FORM TO:
SALES SERVICE DEPT.

KEITHLEY INSTRUMENTS, INC.
28775 AURORA ROAD
CLEVELAND, OHIO 44139

USER'S NAME
RETURN ADDRESS

CITY

STATE

TELEPHONE

ZIP

1.

REASON FOR RETURN. Check appropriate box.

U Repair and Recalibration
U Recalibration only. (If repairs are required to meet specifications, an additional

repair charge will be added to recalibration cost.)

2.

CALIBRATION REPORT. Specify report desired.

(See reverse side of form for details.)
0 Calibration Report (Certified Traceable to N.B.S.)
n Calibration Report (Production Calibration Equipment at the factory)
0 Certificate of Compliance

3.

DESCRIPTION OF PROBLEM. (Include a block diagram of instruments connected in system.
Recorder charts or other data would be helpful.)

Is problem constant or intermittent?

4.

OPERATING CONDITIONS.

Control setting (range, multiplier, etc.)
Line voltage used Line frequency used
Temperature

OF

Temperature variation +

OF
Humidity (high, medium, low)
Other (please specify, such as line transients, etc.)

5.

EQUIPMENT USED.

Signal source

Source impedance

Readout device

(Recorder, oscilloscope, etc.)

Cables used

Length

6.

ADDITIONAL INFORMATION.

Please indicate any other pertinent information which may help

the Keithley Repair and Calibration Department.

(If repairs or modifications have been

made to instrument by other than Keithley personnel, please specify below.)

REV 0172

CALIBRATIONS AVAILABLE AT KEITHLEY INSTRUMENTS.

EFFECTIVE:

FEBRUARY 1, 1972

Listed and defined below are the four types of calibrations and their associated report

formats which are presently available at Keithley Instruments.

They fall into the follow-

ing categories:

1.

Report of Calibration Certified Traceable to the National Bureau of
standards

2.

Calibration Report

3.

Certificate of Compliance

4.

Recalibration

All calibration and certification performed by Keithley Instruments is in accord with
MIL-C-45662A.

Prices shown below are in addition to repair charges for any work necessary to place a
customer's unit into first class condition prior to the calibration.