HP 8005B Service and user manual

OPERATING AND SERVICE

80058

PULSE GENERATOR

MANUAL

SERIAL

This manual applies directly

1627G00731.

With

changes

applies

to

For additional important
see

INSTRUMENTS COVERED

described in Section

all earlier instruments.

information

© HEWLETT-PACKARD GmbH 1973

Herrenbergerstr

Federal Republic

110, D-703 B6blingen,

NUMBERS

to

instrument

IX,

about

BY

MANUAL

of

Germany

serial number

this manual

serial

numbers,

in Section I.

also

MANUAL
Microfiche Part No.

PART NO.

08005-90004

08005-90504

Printed:

MAY

1977

General

Information

Modei8005B

Figure

Figure

1-1.80058

1-2,

Rack-mount

Instrument

Kit,

Option

and

Accessories.

908

1-0

Model80058

1-1

INTRODUCTION

1-2

This Operating

formation

service the Hewlett-Packard Model

shows
tion covers
sories, specifications,

1-3

on 4 x 6 inch
title

duplicates of

also includes
well as

1-4

1-5

These specifications are

limits against which

1-6

1-7

(it has an exposed metal chassis

to

earth

1-8

mation, cautions,
by

the

instrument in a safe

1-9

1--10

number plate (Figure

serial number
change
to

instruments sequentially.
apply
the

refer

manual. For

to

the

In

addition
sheets
the

required

the

instrument

instrument

A microfiche version

microfilm

page}.

Each

the

the

all

pertinent

SPECIFICATIONS

Instrument specifications are listed in Table

SAFETYCONSIDERATIONS

The

Model80058

via

the power supply cable}.

This

operating

user

to

ensure safe

INSTRUMENTS COVERED

Attached

only

to

the

instrument.

directly

title page.

to

manual.

to

For

the

backdating

instruments

Manual Change

to

change

may

contain

To

and

Service Manual

to

install,

operate,

and

accessories supplied. This sec-

identification, description, acces-

and

other

basic

of

this manual

transparencies (order number on

microfilm

manual pages.

latest Manual Changes supplements

Service Notes.

the

and

condition.

to

the

change

the

instruments

information

keep this manual as

contains up

The

the

performance

instrument

is

a Safety

that

and

service manual

warnings

1-3}.

instrument

information

sheets

information,

which

operation

rear

of

this

The

first

when

there

The last five digits are assigned

The

contents

serial

with

with higher serial numbers, refer

at

the end

for

GENERAL

contains

test,

adjust

80058.

microfiche package

is

is

and

instrument

lower serial numbers,

in

the

correcting
up-to-date

Figure

information.

is

to

60

standards

tested.

Class

1 instrument

directly

contains

must

be followed

to

maintain

BY

MANUAL

four

digits

is

a significant

of

this manual

number

Section

of

this manual.

Manual Change

in-

and

1-1

available

photo·

as

1-2.

or

connected

infor-

the

is

a serial

of

the

quoted

IX

of

this

errors in
and

accu-

on

SECTION I

INFORMATION

rate

periodically request

The supplement

manual's

appear
of

Figure

1-11

1-12

generator
simultaneously,
a selectable source impedance. Provision

ternal and manual triggering, synchronous and asynchro-

nous gating, a positive trigger

4.6

logic.

1-13

to

simulating 20

10 MHz.

is

variable over
variable over
duty
Transition

<

up

channel
specifications

1-14

1-15

These
ordered

as possible, Hewlett-Packard

the

latest

for

this manual

print

date and part number,

on

this manual's title page.

the

supplement

HEWLETT-

I1536G

B(J'Bll

1-3.

are available from Hewlett-Packard.

PACKARD

00062

NGEN

..

Serial Number Plate

General

recommends

ManUal

Change supplement.

is

identified

Complimentary

GmbH

Information

both

with

of

DESCRIPTION

The Model

that

volts across an

Repetition

20

MHz, alternatively, in double pulse mode 10 MHz

Pulse

cycles

times (pulse rise

10

ns

to

2 s

to

30:1.

is

independently variable. A

80058

can deliver

10 volts negatiVe

open

rate

MHz

or,

delay

(with

the

range<

the

range 25

of>

80%

and

with

a rise and fall

Amplitude

is

given

in

is

a versatile

up

to

output

circuit

for

is

variable over

in

square wave

respect

100

ns

to

100% in

and

and

base

Table

1-2.

20

MHz

10 volts positive and,

into a 50

ns

and

positive

the

mode,

to

the

to 3

s.

ohm

is

made

TTL

output

or

negative

range 0.3

0.15

trigger

Pulse

3 s with a normal

complement

fall) are variable from

lor

fall

to

rise} ratio

line

offset

of

complete

OPTIONS

The

following

Option
Option

options

at

the

options

908 Rack-mount
910

Additional

and

will be shipped with

same time.

are available:

Service Manual.

kit

Copy

the

of

the Operating

instrument

that

you

this

which

copies

I

pulse

load from

for

ex-

of

Hz

Hz

to

output}

width

is

mode

mode.

of

each

set

of

if

1-1

Genera! Information

Modei8005B

1-16

ACCESSORIES SUPPLIED

1 ~ 17 The instrument

following items (see Figure

ITEM

800 mA

1.6 A

Power cable
Operating and Service

Fuse

for

Fuse

for

115V operation

INSTRUMENT TYPE

Oscilloscope

Sampling

Oscilloscope

Wave

Square
Generator

Digital Voltmeter

AC

Voltmeter

Test Oscillator

Couater

50!1 cable assembly

50Q

Tee connector

50!1 Feed-through

termination (2)
Attenuator
Connector
Connector

230V

is

operation

Manual

supplied

1~1).

complete

HP

RECOMMENDED

HP
1805A

HP

80138

34740A

with

HP

HP

HP
HP

1250-0781

HP

HP
HP
HP

with the

PART NUMBER

2110-0020

2110-0005

see Figure

08005-90004

180C with plug-ins

and

180C with plug-in 1810A

34702A

3400A

651

B

5345A
10503A

10100C

8491A

1250-0077
1250-0780

Table

1825C

2~

1

1-1

Recommended Test Equipment

MODEL

1-18

1-19
is
if

the table.

REQUIRED
CHARACTERISTICS

Dual Channel,
width, 5 mV/div.
sweep

div. with sweep

Dual Channel,

width, 1 mV/div. sensitivity
sweep speeds 10ns/div.

2s/div.
Capable

10kHz,
to
times (5ns)

100V
figures.

1

Sensitivity 1
rms

Frequency Range

10 MHz

0-50

(4
end with BNC male connec­tors

20
BNC male
BNC male

RECOMMENDED TEST EQUIPMENT

Equipment required

listed

in

Table

1-1.

it meets or exceeds the critical specifications listed

50

MHz band PA

sensitivity

speeds

5ns/div. to 2s/

delay

1 GHz band- PA

of

rep. rate

negative output

-5V),

fast

rise

and

range

to

4 significant A

Accuracy±

digit

MHz PA

required) terminated each

dB 50 !1, N

toN
toN

0.05% ±

OO!iV

to 300V A

10Hz

female
male

to

maintain

Other equipment can be substituted

to

of

10kHz,

10

fall

to

the

modei8005B

REQUIRED

p

p

PA

PA
PA

PA
PA
PA

FOR

in

NOTE: P =Performance Check

= Adjustment

A

1-2

Model 80058

Table

1-2

Specifications

General

Information

PULSE CHARACTERISTICS

(amplitude+

when

10ns

to

30:1.

4%

to

3s

Amplitude

300mV

to

1.25V

600mV

to

2 5V

to

2.0V

125Vto5V

2.5V

10

10V1

2.5V

to

JOV

1

offset)

vernier CCW

amplitude

vernier

Output(+)

2V

'

'V

'

2V

'

2V

'

'V

'

2V

'

OV

-4V

is

10V.

is ± 2V.

""'"'

to

2

Offset

is

CW.

2s in six ranges. Separate

of

leading

common

of

pulse amplitude.

in

five ranges. Vernier pro-

within

each range.

OutpUt{-)

2V

'

'V

'

2V

'

2V

'

'V

'

t

2V

t<J

1

OV

+4V

and

ampli~

10%

and

5%

of

lnwna!

son

IN
IN H•gh Z 1 25V/2.5V

OUT

IN
IN

OUT

1.

The

maximum

2.

Offset range

range increases to

Transition

Amplitude

Ext.

,

...

Range

son

125V/25V

son

1.25V/2.5V 600mV

son

5V/10V

High Z

5V/10V

son

5V/10V

output

with

times:~

Selected

amplitude

±4V

verniers provide independent control

trailing edges within each range. Ranges are

for leading and trailing edges. Max. leading edge/trailing
edge

ratio,

1:30

or

Linearity: for transition times > 30ns, maximum

tude

deviation from a straight line between the

90% points

is

less

than

Overshoot, preshoot and ringing: each less than
pulse amplitude.

Pulse

width: < 25ns

vides continuous adjustment

Maximum

Output

or application

output:

(amplitude + offset) 1

protection: cannot be damaged by

of

external voltages,;;;± 10V (at

OV.

short

circuit

25°C

ambient) independent of control settings.

Source impedance:

50

ohms ± 10% (shunted by

typ

20pF) or high impedance, switch selectable.
TTL

compatible

output:

fixed amplitude, +4.6V across

open circuit.

Source impedance: 50 ohms

typ.

Pulse formats: normal or complement, switch selectable.

REPETITION RATE AND TRIGGER

Repetition rate: 0.3

Hz

to

20

MHz

in

five ranges.

Ver~

nier provides continuous adjustment within each range.

Period

jitter;

< 0.1% of any period setting.

Double pulse: 10

Trigger

external

Output

output:

50

Trigger pulse width: 15ns ± 7ns.

MHz

max. Simulates 20 MHz.

positive pulses > 2V amplitude across

ohm

load.

Width

jitter:<

Maximum

0.3

Hz

to

100% when using pulse

Square wave: 0.15
5%

for repetition

15%

at

Pulse delay: < 100ns
put)

in

ment

within each range. Delay

0.1%

+50

ps

of

any width setting.

duty

to 1

cycle:>

MHz,

>50%

80%

from 1

for

repetition rates from

MHz

to

20

MHz.

complement.

Hz

to

10 MHz. Duty cycle:

10

rates<

MHz.

1 MHz, increasing

to

3s (with respect

to

to

trigger out-

five ranges. Vernier provides continuous

is

inhibited

in

Square

Up

50%±

50%±

adjust~

Wave

mode.
Delay

jitter:<

0.1%

+50

ps

of

any delay setting.

Pulse outputs: simultaneous positive, negative and TTL
compatible outputs.

Maximum
and external
external high impedance, or with internal high
dance and external

pulse amplitude: 5V, with internal

50

ohms. 1

50

OV

with internal

ohms.

50

50

ohms

ohms and

impeM

EXTERNALLY

CONTROLLED OPERATION

External Triggering

to

20

Repetition rate: de

MHz.

Delay: approximately 35ns between trigger input and

trigger

output.

Manual: push

button

for generating single pulse (two

double pulse).

Trigger

Input

Input impedance: approx. 1 kohm, de coupled

Maximum input: ± 1

OV.

Sensitivity: sine waves; 2Vpp. Pulses 1 V peak.

Polarity: positive or negative, switch selectable.
Minimum pulse width: 1

Ons.

in

1-3

General Information

Table

1-2

Specifications (continued)

Mode/80058

Gating

Synchronous: gate signal turns

between start

control. Last pulse
during generation of

of

gate

is

and

always

last pulse.

on

first

pulse defined by delay

completed

pulses occur for duration of gate.

signal

Asynchronous: gate

controls

ning repetition rate generator.

Gate

Input

Input

impedance: approx. 1 kohm,

repetition rate. Time

even

if

gate ends

Synchronous

output

de

trigger

of free run-

coupled.

Gate signal polarity: negative.

Gate amplitude:

GENERAL

Operating temperature

Power:

180VA

Weight: net 7 kg (16 lbs), shipping 9 kg

Dimensions: 425 mm wide,
(16

115V

max.

3/4

in. x 5 1/2 in. x

2V

to

or

230V, +10%,

20V (max.)

range:

0°C

-15%,48

140 mm high,

13

1/4

in.).

to

55°C.

Hz

to

440Hz,

(20 lbs).

336

mm deep

1-4

Modei8005B

Installation

2-1

2-2

the

also includes

damage claims,
age

2-3

2-4
container

for completeness and

for checking

3.
damage or defect, or
operator's checks, notify
Sales/Service
or

shipping materials for carrier's inspection.

INTRODUCTION

This section provides installation instructions

Model 8005B Pulse Generator and its accessories.

information

preparation

and

shipment.

INITIAL

Inspect

or

kept

until

the

mechanically and electrically, The
ment

should be

ries

that

were ordered with

If

the

contents are incomplete,

the

cushioning material shows signs of stress, notify

the

carrier

as

will arrange for repair or replacement
settlement.

INSPECTION

the

cushioning material

contents

as

shown

the

electrical operation are given

office.

well

as

about

initial

inspection and

for

use,

and

packaging, stor-

shipping

If

the Hewlett-Packard office. Keep

container

of

the

shipment

the

instrument has been checked

in

Figure

the

if

the

instrument does

the

nearest Hewlett-Packard

the

shipping

for

damage.

is

damaged,

have been checked

contents

1-1

plus any accesso-

instrument. Procedures

if

there

is

container

The

without

SECTION

INSTALLATION

for

It

If

the

it

should be

of

the

ship·

in

Section

mechanical

not

pass

the

is

damaged,

the

HP

office

waiting for

II

2-10

precautions
switched on:

Power Cable

To

avoid the possibility

must

a.

If

this instrument

transformer for voltage reduction,

ground connection

b.

The power cable plug shall only be inserted into a

socket

outlet

tact. The protective action

of

an

use

extension cord without a protective conduc·

tor.

c.

Before switching on the instrument, the protective

ground terminal

to a protective conductor
verified

by

checking that the resistance between the
instrument chassis and the front panels
in the instrument and the ground pin

is

cable plug

zero ohms.

of

injury

or

death, the

be followed before the instrument

is

to be energized

via

m'ake

is

not

interrupted.

provided with a protective ground con-

must

not

be negated

of

the instrument

of

must

the power cable. This

of

following

is

an auto-

sure that

by

the

be connected

of

all modules

the power

is

2-5

2-6

230 V

single phase. The maximum power

2-8

PREPARATION

Power Requirements

2-7

The

ac

at a frequency

line

FOR

80058

requires a power source

of

48 to

Voltage Selection

I CAUTION I

BEFORE SWITCHING ON THIS

sure that the instrument

2-9

The line voltage

selector on

slider

the

rear panel.

to

the required position.

is

set to the local line

is

selected by setting

Use

a screwdriver

USE

of

66Hz

(+10%,

consumption

INSTRUMENT

voltage.

the

to

115 or

-15%)

is

70VA.

make

voltage

move

the

2-11

this instrument
When connected

this cable grounds the instrument cabinet.
power cable shipped with each instrument depends
country

number of

2-12

power outlet,

connect

safety requirements and include

The

cable supplied

! n accordance with international safety standards,

is

equipped with a three-wire power cable.

to

an appropriate ac power receptacle,

The

type

of

destination. Refer to Figure

the

power cords available.

If

the plug

a suitable plug.

Minimum current rating of 2A
Ground connection

Cable clamp

colour

on

the cable supplied does

then

cut

coding used

(see

Figure

the

cable

The

plug should meet local

in

the

2-1).

cable will

2-1

for

not

at

the plug end and

the

following features:

depend

the

fit

on

on

your

the

of

the

part

2-1

Installation

NEMA

TYPE

HP

Part

No.

8120-1348

LINE"" BLACK
NEUTRAL=
GROUND= YELLOW/GREEN

WHITE

SCHUKO TYPE

HP

Part

No.

LINE=

BROWN
NEUTRAL=
GROUND=

8120-1689

BLUE

YELLOW/GREEN

Figure

2-1.

Part

BROWN

No.

STANDARD

8120-1351

BLUE

BRITISH
HP

LINE=
NEUTRAL=
GROUND= YELLOW/GREEN

Power Cords

TYPE

Modei8005B

USED

IN

Part

BROWN

No.

AUSTRALIA

8120-1369

BLUE

HP

LINE=
NEUTRAL=
GROUND= YELLOW/GREEN

2-13

Operating Environment

2-14

the

2-15

2-16

tures between

be

The

80058

will

operate within specifications when

ambient temperature

STORAGE

The

80058

-4ooc

is

AND

between

SHIPMENT

ooc

and

can be stored or shipped

and

75oc.

The

instrument should

55oc.

at

protected from temperature extremes which cause

condensation within the instrument.

2-17

Packard Sales/Service Office,

return address,

the

and packaging material may be re-usable
Packard Sales/Service

and

If

the instrument

is

to

be

shipped

to

a Hewlett-

attach a tag showing owner,

model number and full serial number and

type

of service required. The original shipping carton

but

the Hewlett-

office

will

also provide information

recommendations

on

materials

to

be used

tempera·

if

the

origi~

nal

packing

tions

1.

2.
made

3.
layer) around

is

not

available nor re-usable. General Instruc-

for

re-packing are

Wrap instrument

Use

strong shipping container. A double wall carton

of

350-pound test material

Use

enough shock-absorbing material (3

as

follows:

in

heavy paper or plastic.

all

sides of instrument

is

adequate.

to

provide firm
cushion and prevent movement inside container.
Protect

4.

5. Mark shipping container

control panel with cardboard.

Seal shipping container securely,

FRAGILE

to

encourage

careful handling.

6.

In

any

correspondence, refer

to

instrument by

model number and serial number.

to

4-inch

2-2

Operation

U'i

t'(

II

REP. RATE

repetition

See

note

1.

2

R_EP.

tition

rate.

frequencv.

3 DELAY (s}:

of

pulse delays

4 DELAY

Clockwise

rate

and

RATE

Counter

with

VERNIER:

rotation

(Hz):

selects

VERNIER

clockwise

Rotary

respect

of

the

5 PULSE WIDTH (s):

range

of

pulse

widths.

See

6 PULSE WIDTH

width.

Clockwise

VERNIER:

rotation

Rotary

switch

external

±triggering

Provides

rotation

switch selects

to

the

trigger

Provides fine

control

increases

Rotary

switch selects

note

1.

Provides

of

the

control

selects

fine

of

the

the

outout.

control

the

fine

increases

the

upper

or

manual triggering.

control

of

control

reduces

lower limit

See

of

the

delay.

the

lower limit

control

the

width.

limit

internal

of

the range

note

pulse

of

the

of

the

1.

delay.

pulse

the

repe-

of

the

'~,

8

9

17

AMPLITUDE range:

limits

of

the

amplitude

18

AMPLITUDE vernier: Provides fine

of

the

negative

increases

19

LINE: push-for-on-push-for-off switch.

the

switch

20

TRIGGER

to,

when

21 GATE

signal

is

repetition

22

TRIGGER

trigger pulses.

output

the

amplitude.

indicates

INPUT: BNC

the

REP. RATE switch

INPUT(--):

applied

when

rate

generator.

OUTPUT(+}:

Two

of

the

pulse. Clockwise

when

power

BNC

synchronously

I ' I

9

switches

positive

is

on.

connector

is

in

connector

BNC

''~6

for

selecting

and

negative

control

rotation

The

for

applying

the

EXT+

to

which

or

asynchronously

connector

the

upper

output.

of

the

amplitude

of

the

control

lamp

adjacent

trigger pulses

or

EXT-

position.

the

negative gate

gating

supplies positive

to

the

7

TRANSITION

the

range

of

8

OFFSET

base line.

9

OFFSET

on

or

off

the

10

OFFSET

baseline.

11

MAN.: Push

rated

when

12 PULSE MODE.:

square

wave or

13

OPER.

gating,

asynchronised

14 LEADING

for

the

leading edges

Clockwise

15
for
Clockwise

16
the
reduces

rotation

TRAILING

the

trailing edges

rotation

AMPLITUDE vernier: Provides fine

positive

the

TIME:

both

rise

and

vernier: For

ON/OFF:

de

vernier: for

the REP. RATE switch

double

MODE:

output

amplitude.

baseline

button

Three
gating

EDGE:

of

of

the

EDGE:

of

of

the

pulse.

Two
offset

when

Three

pulse

Provides fine

both

control

Provides fine

both

control

Counter

Rotary

switch

fall times.

adjustment

switches

voltage.

adjustment

pressed

is

in

positlon

switch

operation.

position

switch

or

normal (no gating)

control

positive

and

increases

positive

control

and

increases

clockwise

of

{one

of

the

causes

the

negative

negative

control

selects

the

positive

for each

negative

one

EXT

for

for

of

the

transitiori

of

the

transition

rotation

the

lower

output)

pulse

-MAN

selecting

selecting

operating

the

transition

output

the

transition

output

of

the

of

limit

pulse

output

to

pulse

output

to

be
position.

normal,

synchronised

modes.

pulses.

time.

pulses.

time.

amplitude

the

control

of

turn

gene·

times

times

of

·23

TTL

voltage.

24

Maximum

OUTPUT: BNC

OUTPUT

external

(+): BNC

voltage can

25 INT LOAD: Switch

ternal

son

load

to

both

26

NORM

TTl

27

OUTPUT

Maximum

±

10V.

Note

that

for a customer

COMPL : provides

TTL

OUTPUT(+)

OUTPUT(-·)

TTL

OUTPUT

{-):

voltage

switch

positions

selected range.

BNC

external

connector

connector

for

positive and negative

n__]___£-

~-~---OV(oroffset)

~

connector

that

supplies

supplies positive

be

applied

to

connecting

NORM COMP
TTL

can

indicated

and

the

following

TTL

__

F\_

supplies positive

be

applied

by

an

asterix ( ..

TTL

compatible

output

this

connector

disconnecting

output

output

--

____

output

to

this

pulses.

is±

the

amplifier.

formats.

OV

(or offset)

OV

{or offset)

pulses.

connector

)can

be

10V.

in-

is

used

Figure

3-0

3-1.

Front Panels Controls and Connectors

Modei8005B

Operation

SECTION Ill
OPERATION

3-1

3-2

of

the

function of the

GENERAL

Figure

3-1

identifies

and

gives a brief

front

panel controls, adjustments,

description

switches and connectors.

3-3

3-4
established

3-5

3-6
petition rate in the

switch

3-7

3-8

REPETITION RATE

The repetition rate can

externally by means

the

MANUAL

11

Internal Triggering

The Model 80058

repetition rate

to

REP

RATE VERNIER 2

one

is

of

External Triggering

With the

EXT-

the repetition

nal

signal applied

be

generated internally or

of

an

external trigger or

push

button.

can

establish internally any

range

0.3 Hz

to

20

MHz. The desired

achieved

by setting the REP. RATE 1

the five possible ranges and adjusting the

for

the required frequency.

REP

RATE 1 switch

rate

can

be

to

the TRIGGER INPUT 20. The trigger

set

established

to

EXT+

by

an

exter-

signal may be a sine wave or pulses of either polarity

(compatible

with a repetition frequency up

must

pulses must

imum permissible input

with

be

of

at least 2 volts

be

the position

at

least

1 V

peak

peak

signal

of

is±

the

to

to

and

REP

RATE 1 switch)

20

MHz.

peak

amplitude

15ns

wide. The max-

10V peak.

Sine waves

and

or

re-

OUTPUT(+)

Figure

3-2.

Double: In this mode the
doubled, The

much

the

second pulse

the

first.

OUTPUT(+)

Figure

3-3.

Double

Square

the pulse

Figure

Wave:

3-4.

and

Square

:

: '

DELAY

Single

Pulse

Mode - Typical

pulse

rate

DELAY

trigger outputs

control determines

is

delayed with respect

' :

!DELAY

I

Pulse

Mode - Typical

In

this mode the repetition rate

is

halved.

Wave

Mode - Typical

Output

is

effectively

by

Output

Output

how

to

of

3-9

Manual Trigger

3-10

With the

MAN

position

button

will

PULSE MODE).

3-11

Pulse

3-12
three different
MODE 12 switch;

each

produce

Modes

The 80058

pulse

Norm:

output

In this mode

connectors. Their repetition rate, delay
(with respect to trigger
times

and

panel control settings,

REP

RATE 1 switch
depression
an

output

pulse (two in the DOUBLE

is

capable

modes

of

as

pulses

set

of

the

MANUAL

operating in any one

dictated by the PULSE

are

available at the

output),

width,

amplitude are determined

to

the

EXT

11

transition

by

the

push

of

front

3-13

Gating

3-14 A front

three

modes
ASYNCH
tions normally and
have

no

effect on the instrument. In the SYNCH GATED

mode the rep rate generator

signal

is

applied

is

coincident

last

pulse

during the pulse. JntheASYNCH GATED mode the gate

pulse and
trigger

output

not available in

of

the

REP.

RATE GENERATOR

panel switch

of

operation; SYNCH GATED, NORM or

GATED.

is

of

the

In the NORM mode the 80058 func-

signals

to

the GATE INPUT 21. The first pulse

with

the leading

normal

output

is

available continuously. Square wave

the

gate mode.

13

(OPER. MODE)

applied

width

to

the GATE INPUT

is

turned off until a negative

edge

of

the

gate

even

if

the

gate

pulses bear no time relationship. A

selects

and the

signal

ends

is

3-1

21

Operation

3-15

OUTPUT CONTROLS

3-16

Amplitude

3-17

The maximum pulse amplitude from OUTPUT

24 and

OUTPUT(-)

Fig·ure

3-7

illustrates which combination

external

load impedances

and

25

Offset

is

10

volts including

will

provide

de

of

source and

the

desired ampli-

offset.

tude. The source impedance for both OUTPUT(+) and
OUTPUT(-)
25 switch. When operating
made

to

18

it

is

nier 8 or

3-18
that

it helps overcome the problems
example, using a 200pF capacitor
tance of an external
output
amplitudes up
absorbed when the
mination from a
For amplitudes above 5 volts, either the
or the internal
case, reflections are more effectively absorbed
the internal

only a

using

can

be

selected by means of

in

the 10V range,

the

INT LOAD

if

changes are

the settings of the AMPLITUDE verniers 16 and

necessary to reset the appropriate

OFFSET

ver-

10.

An advantage of the selectable internal load

of

reflections. For

to

load, Figure

configuration

will

to

5 volts, reflections are more effectively

output

50.Q

source impedance (configuration 1

50Q.

load must

50!1 load (configuration

50.Q

termination

simulate

3-7

illustrates which

produce the best results. For

is

developed across a 50.Q ter-

be

disconnected.

2)

as

shown

in

the

capaci-

50Q

termination

In

this

by

using

as opposed to

configuration 3.

is

(+)

).

GATE

!NPUT

---

..

OUTPUT(•(

Figure

GATE

OUTPUT!•)

Figure

3-19

3-20

--....J

3-5.

Synchronous Gating of Rep. Rate Generator

INPUT---.

-----....1

3-6.

Asynchronous Gating of Rep. Rate Generator

TTL

Output

The

TTL

OUTPUT connector supplies+4.6V
circuit voltage when the selector switch 26
and +4.6V
ted by

3-21

interaction from unused outputs, it

ate

a!!

50!1

In

unused

complement

the

TTL voltage

order

to

minimize pulse distortion caused

outputs

when set to TTL.

is

+2.6 volts.

is

with

son

and, where possible, re-

duce the amplitude to a minimum.

Modei8005B

open

is

set

to

TTL

When

termina-

by

necessary to term in-

3-2

CD

--------------,

'

'

'

.fl..

R~cc~::,

T I

:'

i :

________

~~

L'

j

___

Figure

3-7.

+100'''

_j

Output

Configurations

AMP!.ITl.IDt

RANGO

L25V.'2
5VIl0V

125VI2

5Vii0V

1.25V/2.5V

5VI10V

OFFSH

OUTPUT H

24

OUTPUT

1-1

27

ov

:l!JOmV- L25V

1.25V

SV

600mV - 2

5V

2.5V lOV

WOmV--2.5V

2.r,V-

IOV

•W

5V

•

4V'

•w

! 4V'

Modei8005B

4-1

GENERAL DESCRIPTION

4-2

The

basic

concept

generator

rate

ing source. Gating can be effected

by using

rate

to
The
of

the
of
delays, with respect to
the

For
generator
front
grater
achieve
mode
square wave signal
final
the

4-3

4-4
one

is

shown

is

generated either internally

the

gate signal to start and stop the repetition

generator,

control

selector

rate signal used

operation.

rep rate generator

each

panel

(with a time

the

operation

correct

or

asynchronously,

the

output

circuit

In

the

output

pulse from

issues a pulse with a

control.

the

desired rise and fall times.

delay

and

is

involves amplifying

amplitude

REPETITION RATE

The

pulse repetition rate

of

two

possible methods:

a.

The

free running

tor.
b.

The

frequency

of

the

in

Figure

4-1.

from

the

repetition

determines

In

the

pulse mode,

the

and

Each pulse

constant

width generators are

applied directly

and source impedance.

state

of

the

pulse

trigger

applies it

the

delay generator

width

which can be varied)

of

the

the

input

Model

The

or

by

an

either

by

using

shape

and

square wave

the

delay

output,

to

the

as defined

is

processed

In

to

the

and

is

determined

repetition

pulses.

SECTION IV

PRINCIPLES OF OPERATION

4-5

In

the

tor

operates

80058

pulse

external
synchronously,

width

the

not

scaling :to achieve

pulse

repetition

the

gate

rate

generator.

and

destination

generator

the

output

generator.

the

by

by

an

square

used

integrator.

by

rate

trigger-

signal

modes

of

width

the

inte·

to

wave

and

the

The

either

genera~

The

selected ramp

through

VERNIER

the voltage

CR10/CR11

and

06

capacitor. CR10/CR11
that

05

resumes.

4-6
are applied
turn

spikes from
and

05

4-8
enabled

Gating

In

the

to

switches

pulse produces a positive pulse
entia

ted

by R

035

06

turn

pulse produces

4-7
off. When
and

pulse
pushed.

repetition
inverted by

In

the

the

a negative

and

06

is

produced

In

the

by

013

rate

is

not

on

012

free running mode

as follows:

capacitor

07

at

a rate determined

R1

and

the

at

07

collector approaches zero,

become

to

conduct

and

externally

the

differential amplifier

the

Schmitt

11

/L

1, and inverted

cause

on

to

produce

an

output

MANUAL

MAN push

spike

to

produce

each

NORM operating

being held off. Thus,

generator

and

possible

06

cut

triggered

the

pu!.se

mode,Q3

button

is

applied

an

time

which appear

applied

in

SQ. WAVE.

and

off

trigger

base

an

Principles

the

repetition

value of

forward biased causing

rapidly recharge the ramp

become

and

the

mode,

Q3/A4.

from

by

of

05

output

from

is

is

pressed,

to

035

output

the

manual push

mode,

to

the

Pulse delay generator.

of

Operation

rate

discharges linearly

by

the setting

the

capacitor. As

reverse biased so

discharge cycle

trigger pulses

01/02

04

035.
to

pulse. Each trigger

06.

normally

which

pulse. An

gate

the

at

which in

Each trigger

which

is

differ~

The

positive

rise so

that

on

and

04

turns

in

turn

output

button

012/013

pulses from

012

base are

genera~

of

05

05

04
on

turns

is

is

the

"""'

"''"

"i._

"'

GATE

REf'

RATE

ENERATOR

I

r--

w.J._

SELECTOR

PULSE

LW-

"'DE

SOW,

"-1-

MODE

sow.

rw_

.ODE

f'ULSE
LU-

MOOE

CIRCUIT

h

f.-.1

DELAY

t-

Figure

f--

ULJl

4-1.

WIDTH

Basic

l "'"'"'ONf--

TIME

.LruJll

Concept

JtiL

TTL

().)Tf'UT

ATTEW-

M<~FIERS

u:uru

:

1--

11lJ"

A

TORS

r-<

'If[

f-<

OOTPUT!·I

4-1

Principles of Operation

~"'"

oJM

0

010k

0

0

oJOO

03-10

0

RS

GATE

INPUT

EXT•

"'

""

r---:cc:::----,

GATE

AMPUFIER

L----'

Figure

SCHMITT

TRIGGER

03.<>.

"'

'"

0

C3

~ko

OOOo

Ho

EXT•

CR12

-25V--C

MAN

-------.!--t<--~~•NORM

1-

4-2.

Repetition Rate Generator and Trigger

CR13

Modei8005B

TRIGGER

AM'

"

012

,--------,

GATE

LQO)l;Q

______

"'A""'

"-------------L::.:"'::''·'~"~r

Input

Gating

.DELAY

GEN

4-9

4-12

RATE

SIGNAL---------+-----1

VIA R30

RATE

SIGNAL---------+---<f02
ViAQ10

GATING

4-10
'on'
are blocked. A negative signal
08

In

the ASYNCH mode, gate amplifier

disables gate

off, hence gate

PULSE-

ASYNCH

012/013

012/013

SQUARE SELECTOR

+20V

+ 20V

DOUBLE

NORM

saw.

08

normally

so

that

repetition rate pulses

at

the

GATE INPUT

is

enabled and repetition rate

_su

---

---

LJl

_w_

·-·-·-·-·-·-·-·-----------·-·-·-·

turns

DIFFERENTIATOR

L

OIFF

AMP

03/Qt.'

04!---------

AND

L1/R17

---'''-"''"'R1CJ7

03

pulses are applied
ration of

4-11
normally on disables the repetition rate generator. A nega·
tive signal
the repetition rate generator for the duration of the gate
signal.

--------

the

In

to

the Pulse delay generator for the du-

gate signal.

the SYNCH operating mode gate amplifier

at

the

GATE INPUT cuts

Jl.._J

h-

-liD-UF-

~06

,

AMF-

05

FER

SOR

MOD£

---.----,

WAVE

08

__ll_f"""

------<iNTEGRATOR

I I I

ONLY

-'---L

off which enables

iNPUT

ID

CIRCUIT

1

'

t--<

TRIGGER

08

OUTPUT

..Lll!

PULSE/DOUBLE
PULSE

MODE

.......

ONLY

RATE

SiGNAL--

VIA

012

4-2

1

1

I

~}-------------------

Figure

4-3.

Pulse- Square Selector Circuit

1

-

-

--i

.....

~:L~~

6~NERATOR

Modei8005B

4-13

The purpose

DOUBLE
put
put

rate

generator and the trigger
the

to

delay,

flop

pulse

to

the

delay

amplifier. Alternatively, in

output

flip-flop.

the integrator circuits

is

is

The other

fixed

width

disabled in SYNCH

of

mode,

generator

effectively disconnected from

pulse

this circuit

to

apply

the

and trigger

SO

is

established

outputfrom

for

the production

output.

gate

mode.

is,

in NORM and

rep. rate

WAVE mode,

The

generator

the

out*

by

one

theflip-flop

square wave flip·

the

the

delay

output

from

is

applied

of a fixed

out·

rep

RATE

TO

BASE
BASE

INPUT
FF

03

04

Principles of

I I

Operation

I I I I

4-14

NORM

The

rate

the
01

flip-flop

flip-flop
of

output
tive spikes

4-15

When
or

gates

signal

trigger

is

turned

03

is

differentiated

amplifier

PULSE

the

PULSE MODE switch (S9)

DOUBLE

014

from

is

established
off,

is

enabled.

drive a differential

and

and

012

thus

pulse, the

02

are

is

applied

via

the

flip-flop

The

complementary

( L 1/R 17) and applied

05.

This

the

positive spikes

DELAY

flip-flop

open

(0

to

02.

In setting

PRESET

amplifier

is

turned

14

off,

the

(03/04).

on

(U1)

delay

goes

only by

are

GENERATOR

is

set

is

disabled.

02

on)

generator

S9

to

SO

high,

outputs

The

to

the

the

suppressed.

to

thus

and

WAVE

thus

of

the

output

trigger

nega~

the

the

OUTPUT

04

OUTPUTQ3

OUTPUT06

OUTPUT

05

Figure

4-4,

Square

Wave Mode Timing

I

Sequence

-

BUFFER 015

(

~

SCHMITT
TRIGGER

018.Q19

-r-1-

CURRENT I

SOURCE

019

023

../\_

;

•

Figure

016

~co

•

4-5.

SCHMITT

TRIGGER
016,017

SWITCH

020

016

012

"LI"

l

Delay Generator

J.,-

DlFFERENTIATOR

021

Lb

,...--

J.,-

INVERTER

022

TO

BASE

025b

WIDTH

GENERATOR

TO

BASE

a 24b

WIDTH
GENERAT

---.1

OR

4-3

Principles

4-16

provide pulses which are delayed with respect
petition rate
generator.
other carries both the in-phase and delayed pulses.

4-17

so

that

ramp capacitor remains discharged. On receipt

from

trigger Q16/Q17 switches

source now charges the selected capacitor. When

reaches the threshold level
Q19/Q18 switch and

020

setting
Schmitt

pulse and

puts

ation dependent upon the delay time. The delay
range
adjustment
resistance R3.

R41/L7

rate generator

of

Operation

The function of the Pulse delay generator

output.

One carries the delayed pulse only whilst

Initially

023

supplies

the

repetition rate generator

is

turned

on

Schmitt

trigger Q16/Q17 switches

is

reset after the required delay. Thus

from

Q16/Q17

is

chosen by selecting different capacitors

is

achieved by varying the current defining

The

to

give

output

Two outputs supply the width

Schmitt trigger Q16/Q17 holds

020

with current and

via

015,

and

cuts

off

Q20. The current

of

Schmitt trigger

reset

Schmitt trigger Q16/Q17. Thus

discharging the ramp capacitor and re·

trigger Q18/Q19.

are

complementary

output

from

a positive spike coincident with

and a negative spike on completion

It

is

apparent

first

on the in-phase

016

is

differentiated by

pulses

to

Q20

the

selected

of

Schmitt

the

019/018,

the

of

and

the

is

to

the

re-

the

on

a pulse

ramp

that

out·

dur-

time

fine

rep

of the delay. The inverter

negative spike (delayed). Both the

the positive spike from
generator.

BASE

015

BASE 016

BASE

020

COLLECTOR

BASE

JUNCTION

BASE

COLLECTOR

Figure

017

019

R71/R41

_...JI....-..----.L.-.,.---.1..-

022

022

----l....-----.1...-----

4-6.

Delay Generator Timing Sequence

025

025

are applied to the width

Modei8005B

responds only to the

output

from

Q16 and

4-18

CLOSEO

SO

WAVE

_j_

r

SINGLE

WIDTH

,---

"""

Cl=l

DOUBLE

GENEHATOR

GATE

025/026

BUFFER

024

1-

1-

(

....__

SCHMITT
TRIGGER

027/026

Figure

~

/Rt;Mp-

GENERATOR

I I

CURRENT

I

SOURCE

I

023

I

I

'

I

I
I

I

1 I

L

______

4-7.

Pulse

Width Generator

l

ltcw

;

1..

•

-l

_/l_

_j

__n_

TO

SCHMITT

TRIGGER

0311032

l___j

I

I
I

SWITCH

I

I

I

030

l

PHASE

SELECTOR

06/09

CCT

4-4

Modei8005B

4-19
that

controls

(030).
Schmitt
resets the first Schmitt trigger. This

Operation of the width generator

of

the

delay generator. A Schmitt trigger

the operation

of

a ramp generator

When the ramp reaches the threshold

trigger

025/026

the resulting change

in

turn resets the

is

similar

(031/032)

via

a switch

level

of

to

of

state

ramp
generator which resets the second Schmitt trigger. This
cycle occurs once for each input pulse

to

Schmitt trigger

031/032.

BASE

BASE

BASE

BASE

BASE

024

025

031

030

028

SINGLE

Principles

PULSE

MODE

of

Operation

4-20
closed so
generator reaches Schmitt trigger

4-21
that
the
Schmitt
the

via

4-22

In

the

SINGLE pulse mode, gate

that

only

the

delayed

output

025/026

from the delay

031/032

In

the DOUBLE pulse mode

025

can be turned on by the in-phase

026

is

delay generator. Consequently, two pulses reach

trigger

031/032;

delay generator

first the in-phase

via

025

and then the delayed

024.

PULSE DEFINING CIRCUITS

•2SV

via

024.

held off so

output

from

output

from

output

I

is

COLLECTOR

BASE

BASE

BASE

COLLECTOR

031

030

028

031

031

Figure

OOL.BLE

PULSE

MODE

I

4-8.

Width Generator Timing Sequence

CONTROl

NORM

:-

1----1

-·

GATE

-25V

07

tn<ITROL

SCHMITT
TRK>GER

01102

r

!PHAsSSELITfOO-

' '

' I

_j1JtJ

"-'-'--l

-----;

~J~

Cfl:>I,-CR35

CR14-CR15

i

'

PU..SE

i¥1XJE

_____________________________________________

'MIE l

Figure

4-9.

Phase Defining Circuit and Integrator

_;

i

'IOOto!

CCM'l:

1-Yl

LEA~NG

!•VlTRAIUNG

EOO€

EDGE

4-5

Principles

4-23

mine
are

The

operation,

pulse
selected

4-24

4-25

generator, a differential

in-phase
switch
only

COMPL, the antiphase

MODE
07
or

CR15)

4-26

trigger

antiphase signai(CR15), a negative pulse.

of

Operation

The

function

whether

to

be

positive-going

purpose

of

to

vary

LEADING

range

Pulse and Double

For

each positive pulse

and

an

(88)

is

the

inphase

switch 12

is

open

(07

is

applied

When switched by the in-phase signal, the

produces

of

the

the

leading edge

or

negative-going (OPE R MODE}.

the

integrator

the

rise and fall

EDGE

and

TRAILING

(TRANSITION

Pulse

amplifier

antiphase

set

to

signal

set

off)

a positive pulse or,

output.

NORM,

via

CR14

signal

to

NDRM

and

thus the selected

to

a Schmitt trigger

phase

selector

of

the

circuit

is,

or

fall

TIME).

Mode

input

from

(08/09)

When

the

output

or,

when

via

CR15. With the PULSE

or

DOUBLE, the gate

when

output

the

is

to

pulses

in

all

modes

and

rise

EDGE

the

produces

OPER.

selector

88

is

signal I via

(01/02).

switched

deter-

of

of

the

within

width

an

MODE

passes

set

to

CR14

Schmitt

by

a

the

limits

the

voltage

whilst CR9 limits the discharge potential

charging
risetime whilst
tage define

4-30
NORM, the
016

this switch
connected

PHASE

08!09

rate

When

and

the T RAI

SELECTOR

-CR14/CR15

to

which

CT can charge

and

negative

the

discharge

the

pulse fall

the OPER MODE switch

LEADING

Ll

is

set

to

to

011

and

INPUT

clamp

rate

time.

EDGE vernier

NG EDGE vernier

COMPL,

OUTPUT i OR

the

the

trailing edge vernier

to 08

NORM

CR14

r

l

cpR~~L

voltage
and positive

leading edge vernier

~.-A--,.-1--r

-

-.1-..--.L..,--.J...

Modei8005B

to

to

define

(S8)

is

connected

to

011.

TRIGGER

-8.4

V

+0.7V. The

the

pulse

clamp

vol-

is

set

to

to

When

is

to

016.

TIMING

4-27

4-28

WAVE

signal

trigger

differentiated

down

switching

the

and

Square

By setting the PULSE MODE switch
the gate

from

disabled.

in

this

mode

4-29

ringing

pulse
two

sources

to
at a rate
position
the

a
transition

the

train

outputs

positive

draw

negative

07

rate

determined

In all

on

cuts

the

all

transition

to

012,

potentials

excursion

current

determined
of

the

time

Wave

Mode

07

is

closed

width

generator

The

signals appearing

are

derived from

by

L 1/R4.

~odes

of

operation,

but

the

10ns

times.

two,

each with a

control

013,

the

014

of

and

06

06

from

the

by the

selected transition

duration

off.

of

the

Thus

current

by CT and

vernier. Voltage

(07

turned on), thus the

is

blocked

the

flip-flop

C3

range

where

04

and

CR2

different

switches

and

is

transition

06

016, 017,

07

respectively, During

off and

output

07

time

capacitance

time

from

flows

from

the

position

source

to

SO

and

the

Schmitt

at

the

base

of

04

U1

and

and R10 reduce

they

would

slow

convert

and

018

is

vernier.

de

level.

07.

define the

on

causing

capacitor

of

CT

and

04,

06

011

into

of

the

Q19

and

the

single

These

Voltage

016

(CT}

the

During

turns

CT

selected

020

on

at

INTEGRATOR

I bose

04)

INTEGRATOR

INPUT

OUTPUT

PULSE

OR

SQR

WAVE { N::M

PULSE

OR

SQR

WAVE

Figure

NORM

'l.J'"!....rL

OR

COMPL~

l

.J

COMPL

-JL-----,------L-

{N::M

{N::M

4-10.

JLJLJ

COMPL~

_/

COMPL

\\._.....Jf

Pulse

Defining Sequence

l

4-6

Mode18005B

Principles

of

Operation

4-31

4-32

tions

tion

emitter

OUTPUT

FROM
TRANSITION

g~~INING

Complementary

as a

buffer

circuit

supplies

plementary

channel

CR28

-8.25V.

positive

4-33

(via

shifts

Voltage source

channel

The

amplifiers
one

in

the

amplifier

023

respective

and

is

030/031.

CR20-CR24

negative

the

4-34

channeL

AMPLITUDE

TTL

STAGE

'--""'"-"---'

stage

and

the

output

the

positive channel (via

emitter

follower

complementary

the

signal level

baseline

output

one

negative

supplied

amplifier comprises

in

the

positive channel

channel

from

The

amplifier

are improved

positive channel,

The

VERNIER.

OUTPUT

emitter

between

014/015

follower

the

stage.

016/017)
emitter

to

the

(without

010/011

transition

The

signal from

012

and

follower

negative stage

sets

the

position

offset).

two

(0'18-020)

(027-029

its

own

and

current

source

switching characteristics

by

means

and

CR29-CR32

amplifiers

feed

the

attenuators

Figure

func-

time

defini-

011

and

com-

the

negative

025/026).

by

of

differential

and

034).

Each

022/

of

the

of

the

diodes

in

the

the

via

4-11.

Output

Stage

4-36

DC

OFFSET

4-37

The

de

of

the

positive and negative

in

identical fashion,

is

described. With

the

bias potential

cuit

is

thus

off.

the

bias

potential

the

OFFSET

VERNIER

03/04

R32,

the

4-38

4-39

series regulated
sample
and

the

to

compensate

VERNIER.

is

moved

goes positive.

output

POWER

The

+25V

of

the

resulting

offset

the

of

With

of

of

03/04

SUPPLY

and

types.

output

error

for

any

circuits

outputs.

thus

only

offset

Ul

is

held

the

offset

U1

is

dependent

As

towards

Similarly,

goes negative.

-25V

An

error

with

the

signal

variations.

OJTPUT

{+)

OUTPUT

I_-

I

control

the

switch

at

switch

the

wiper

the

R31

as it

the

baseline

Both circuits

positive

OV

in

and

on

is

offset

the

OFF

the

in

the
the

of

the

end,

moved

the

positions

operate

circuit

position,

whole cir-

ON position
position

OFFSET

output

towards

power supplies are identical

amplifier

voltage

controls

compares

of a zener

the

series regulator

diode

of

of

a

4-35

collector

The

of

(R123/R124).

+4.5V

018

TTL

and

output

developed

voltage

across a

is

taken

50Q

from

the

impedance

4-40

R81,

of

03.

The

and

R82 define

03

+20V

supplies

supply

the

the

is

derived from

potential

current.

the

of 20V

+25V supply.

at

the

emitter

4-7

Modei8005B

Performance Tests

5-1

5-2

performance

Table

formed

5-3

5-4

listed in Table

equipment
the

model(s).

5-5

5-6

ted
The
their
inspection can be used for comparison
tenance,

INTRODUCTION

The procedures

of

the

1-2

as performance standards.

without

instrument

access

in

this section test the electrical

to

the

EQUIPMENT REQUIRED

Equipment

table

that

may

required for the performance tests

1-1,

Recommended Test Equipment,

satisfies
be

the

critical specifications given

substituted

TEST RECORD

Results

of

the

performance tests may be tabula-

on

the

Test

Record

Test

Record lists all

acceptable limits.

troubleshooting, and after repairs

at

the

of

the tested specifications

Test

results recorded

using the specifications

interior

for the recommended

end

of

PERFORMANCE

All

tests can be per-

of

the instrument.

the

test

procedures.

at

in

periodic main-

or

adjustments.

SECTION

of

is

Any

in

and

incoming

V

TESTS

5-7

PERFORMANCE TESTS

5-8

The performance tests given

suitable

ventive maintenance. During

shields and connecting hardware
tests are designed
specifications.
record
provided

The instrument
line voltage
the performance tests are

5-9

written as it appears
of
are
a setup drawing and a

initial steps

quired for

for

incoming inspection, troubleshooting, or pre-

any

to

verify

the

the

data on

at

the

Perform

end

the

tests in

the

test

card

of

each procedure.

NOTE

must

have a 15

must

be within

Each

test

is

arranged so

in

the test and any special instructions

included. Each test

list

of

each

procedure

that

particular test.

+10%;

to

Table

that

of

min

be

1-2.

requires
the

give

in

this section are

performance test, all

must

be

in

place. The

published instrument

the

order given and

and/or

considered

that

in

the

data spaces

warmup time

-15%

of

and

nominal

the

if

valid.

the

specification

Next, a description

or

problem areas

test

equipment has

required equipment. The

contro_l

settings re-

is

5-1

Performance Tests

Mode18005B

PERFORMANCE TESTS

5-10

SPECIFICATION:

PROCEDURE:

Repetition Rate

1.

Set the

0.3

Hz

to

20

MHz

800"

PULSE

80058

controls

REP

RATE 1

VERNIER2

PULSE

VERNIER4

PULSE

VERNIER
TRANSITION
OFFSET
OFFSET SWITCH 9
OFFSET

MAN11
PULSE MODE 12

OPER MODE

LEADING
TRAILING

AMPLITUDE
AMPLITUDE
AMPLITUDE

INT

NORM-COMPL

DELAY

WIDTH

VERNIER

VERNIER

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

LOAD

as

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

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

3

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

5

6

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

TIME

13

EDGE

14

EDGE 15

VERNIER
RANGE 17
VERNIER

25

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

26

in

five ranges. Vernier provides continuous

GENERATOR

TRIG

23

son

TERMINATION

'--1

COUNTER

adjustment

within each range.

-----~

10503A

follows:

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

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

7

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

6

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

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

10

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

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

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

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

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

16

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

...............................................•..

18

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

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . NORM

,

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

, . . . . . . . . . . . . NORM

,

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

,

..............•.....

, . . NORM

20M

CW

0.11'

CCW

25n

CCW

10n

-

OFF

-

-

CCW
CCW

CW

5V
CW
ON

2. Check the repetition rate for each of

REP

RATE 1

20M

0.3M
10k

3.

Set

the

counter

300

0.3-10

5-2

to period measurement

the

following control settings listed below.

VERNIER

2

CW

cw
cw

and

continue

checking rep rate

cw

CW

RESULT

>20

MHz
>300kHz
>10kHz

< 3.33ms

<lOOms

Modei8005B

Performance Tests

PERFORMANCE TESTS

5-11

Manual Trigger

SPECIFICATION:

PROCEDURE:

1. Set the 80058 controls

Push

button for generating

80058

PULSE

TRIG

23 24

as

follows:

single

GENERATOR

'

pulse (two in double

22

wn

TERMINATION

10503A

10503A
10503A

"-·--

pulse

mode).

OSCILLOSCOPE

A

8

,.._

t---:1

En

REP
VERNIER 2

PULSE

VERNIER 4

PULSE WIDTH 5

VERNIER 6
TRANSITION
OFFSET VERNIER
OFFSET SWITCH 9
OFFSET VERNIER

MAN

PULSE MODE 12 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . NORM

OPER MODE

LEADING
TRAILING
AMPLITUDE VERNIER 16
AMPLITUDE RANGE 17

AMPLITUDE VERNIER 18

INT LOAD 25

NORM-COMPL

2. Press the

RATE 1

......................•..................................

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

DELAY

3

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

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

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

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

TIME

7

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

8

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

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

10

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

11

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

13

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

EDGE 14

EDGE 15

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

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

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

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

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

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

26 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . NORM

MAN

11

push button Check that

Check that no pulse occurs when the button

only

one

pulse

is

generated for each depression of the

is

released.

MAN

EXT+

CCW

0.1

CCW

3!1

CCW

10n

-

OFF

-

· · -

NORM

CCW
CCW

CW

5V
CW
ON

button.

5-3

Performance Tests

Modei8005B

PERFORMANCE TESTS

5-12

SPEC

Pulse Width

IF

!CATION: <

8005B

PULSE

GENERATOR

TRIG

23

"

PROCEDURE:

,R

1F--50!0

25ns

to 3s

in

five ranges. Vernier provides continuous adjustment within each range.

SAMPLiNG
OSCILLO·

TERMINATION

10503A

1250-0077

84S1A
1250-0780-

---e

SCOPE

A

"'

TRIG

80058

PULSE

GENERATOR

TRIG

23

24

•

-

27

10503A

10503A

\0503A

10503A

Fast Ranges Slow

son

TERMINATION

--

Ranges

OSCILLOSCOPE

A

B

f:::;'

EXT

1.

Set the 80058 controls

REP

VERNIER 2 ..............................•...........................

PULSE
VERNIER 4
PULSE WIDTH 5 . ,

VERNIER 6 ...............................•................•...•....•

TRANSITION
OFFSET VERNIER 8
OFFSET SWITCH 9
OFFSET VERNIER 10
MAN

PULSE MODE 12 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . NORM

OPER MODE

LEADING
TRAILING
AMPLITUDE VERNIER 16
AMPLITUDE RANGE
AMPLITUDE VERNIER 18

INT

NORM-COMPL

as

follows:

RATE 1

..............................•.................•.........

DELAY 3 ................................•.............

...............................................•..........

......................................•...............

TIME 7

....................•........................•......

..............•......•............................•...

...................................................•.

..............•...........................•...•......

11

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

13

.............•......

EDGE 14

EDGE

...........................................•.........

15

...................................................•

.........••......................•....•........•.

17

................•.................................

...........................•.•...................

LOAD 25

...................................••.....................

26 . . . . . . . . . . . • . . • . . . • . . . . . . . . . . . . • . . . . . . • . . . . . . . . . . . . NORM

,

.................•..•..............

,

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

,.,

......

20M

CCW

0.1,u

CCW

25n

CCW

10n

-

OFF

-

-

NORM

CCW
CCW

CW

5V
CW
ON

5-4

Modei8005B

Performance Tests

PERFORMANCE TESTS

2. Using

3. Using test

test

REP

20M

0.3M
10K

300

0.3-10

Manual

(switch
and press

set*up "fast ranges" check

RATE 1

set~up

"slow ranges" check the pulse width for each control setting listed below.

to

EXT+

MAN}

the

pulse width for each control setting listed below.

PULSE

WIDTH

25

3!1

0.1m

3m

0.1-3

0.1-3

5

VERNIER

ccw
ccw
ccw

ccw
ccw

cw

6

RESULT

<25ns

<

3J1S

< 0.1ms

<3ms

< 0.1s
>3s

5-5

Performance Tests

Modei8005B

PERFORMANCE TESTS

5-13

SPECIFICATION:

PROCEDURE:

Pulse Width

1. Set the

Jitter

<

0.1%

of

any width setting.

PULSE

GENERATOR

""'"

TRIG

.

23

10503A

80058

controls

REP

RATE 1

VERNIER 2 ......................................................•....

PULSE

VERNIER 4 .................•........................................

PULSE WIDTH 5

VERNIER 6 ...............................................

TRANSITION
OFFSET
OFFSET SWITCH
OFFSET

MAN
PULSE MODE

OPER MODE
LEADINGEDGE14
TRAILING
AMPLITUDE
AMPLITUDE
AMPLITUDE
INT
NORM-COMPL

DELAY 3 .......................................................

VERNIER 8 ......................................................

VERNIER

11

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

LOAD

as

follows:

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

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

TIME 7 .......................................

9

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

10

12 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . NORM

13 . . . . . . . . . . . . . . . . . . . . . . . . . . . . • . . . . . . . . . . . . . . . . . . . . . . . . NORM

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

EDGE 15

VERNIER

RANGE 17

VERNIER

25

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

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

26

.........................................•.........

-

" "

10503A

10503A

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

16

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

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

18

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

son

TERMINATION

-

-

...

OSCILLOSCOPE

A

a

t-::1

,

·

EXT

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

,

..........

,

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

,

.......

....

· · . · · · · · · · · · · · · · · · · · · · · -

,

...........

10K

CW

0.111

CCW

3!1

CCW

10n

-

OFF

-

CCW

CCW

, .

CW

5V
CW
ON

NORM

5-6

2. Set the controls of scope

MAIN

SWEEP
DELAY
SWEEP
DELAYED
CM

3.

Adjust

4. Move the trailing

SWEEP

MODE

TRIGGER

DELAY

the PULSE WIDTH

edge

as

follows:

VERNIER 6 for

of

the first pulse

a pulse

to

the centre

0.1 ms/div.

0.111s/div.
NORM
AUTO
0

width

of

0.1

ms

of

the display using the

on the display.

DELAY

5. Adjust the scope delay until the intensified spot coincides with the trailing edge

6.

Switch scope

7.

Measure the pulse width jitter.

to

DELAYED

sweep

display.

VERN 1

of

the first pulse.

ER

4.

Modei8005B

Performance Tests

PERFORMANCE TESTS

5-14

SPECIFICATION:

PROCEDURE:

Pulse Delay

1. Set the 80058 controls

REP

VERNIER 2 ......................................................

PULSE

VERNIER 4

PULSE WIDTH 5

VERNIER 6
TRANSITION
OFFSET VERNIER
OFFSET SWITCH 9
OFFSET VERNIER 10

MAN11

PULSE MODE 12
OPER MODE

LEADING
TRAILING
AMPLITUDE
AMPLITUDE
AMPLITUDE

INT
NORM-COMPL

< 1

DOns

to

3s

in

five

ranges.

sooee

PULSE

GENERATOR

.

TRIG

23

as

follows:

RATE 1

LOAD 25

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

DELAY 3 ................•......................................

...........................................•................

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

..............................................•.........••.

TIME 7 .......................................•.....•......

8

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

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

...........•.•.....•....•...•.•..•...•••••••.•.••...•

13

.... , ...................

EDGE 14

EDGE 15

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

VERNIER
RANGE
VERNIER 18

......

26

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

27

"

10503A

10503A

......

...............•.....

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

16

. ,

17

.. , .................................•.............

............•....................................

,

.......•.......•......•............•...............

Vernier provide continuous adjustment

-

10503A

,

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

TERMINATION

"""

......•.....

,

-

-

--

... , ......................................

OSCILLOSCOPE

A

B

"'

.

-

,

... , ...........................•

,

.. , ........................

,

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

,

..... , ....................

within

,

each range.

, . , . NORM

,

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

, . . . . . . NORM

0.3M

Mid·travel

0.11'
CW

25n

CW

10n

CCW

, . OFF

NORM

CCW

...

CCW

CW

5V
CW
ON

-

-

2.

Set

start point

RATE

0.3M
10K

300 0.1m

0.3-10
EXT-MAN

of

trace

to

the left side

DELAY

0.11'
3M

3m

0.1-3

of

graticule and measure distance (delay)

VERNIER

cw

CW

cw

CW

cw

WIDTH

25n
3M

0.1m
3m

0.1-3

to

the first leading edge.

VERNIER

cw
cw
cw
cw
cw

RESULT

>31'S
>0.1ms
>3ms
>0.1s
>3s

5-7

Performance Tests

Modei8005B

PERFORMANCE TESTS

5-15

SPECIFICATION:

PROCEDURE:

Pulse Delay

1. Set the 80058 controls

2. Set

Jitter

< 0.1%

REP

RATE 1

VERNIER 2 .......................•............•..........•...........

PULSE

VERNIER 4 ..........................•...............................

PULSEWIDTH5

VERNIER 6 ..............•..•.••.........•.....•......................

TRANSITION
OFFSET VERNIER 8
OFFSET SWITCH 9
OFFSET VERNIER 10
MAN
PULSE MODE
OPER MODE

LEADING
TRAILING
AMPLITUDE VERNIER 16
AMPLITUDE RANGE 17
AMPLITUDE VERNIER 18

INT

NORM-COMPL

the

MAIN

DELAY
SWEEP

DELAYED
CM
TRIGGER

DELAY3

11

....................•...........•..............................

EDGE

LOAD

controls of scope

SWEEP

TRIGGER

MODE

DELAY

of

any delay setting.

80058

PULSE

GENERATOR

TRIG

23

10503A

as

foUows:

.......................................•..................

.............................•.........................

•.....•.....•...........................................

TIME 7

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

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

12

• . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . • NORM

13

. . . . . . . . . . . . . . . . . . . . . . . . • . . . . . . . . . . . . . . . • • . . . • . . . . . . . NORM

14

...............•..........•.•......•....•............

EDGE

15

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

25

•......................................••..•........•.....

26

...........................•..•.•.....•••.....••.•.

as

follows:

TRIGGER

-

•

24

"

10503A

10503A

.•........................•.........................

.................•....•..............................

.............................••.•...•.••.........

...............•••................................

.............................................••..

500

TERMINATION

0.1

ms/div

0.1!is/div
NORM
AUTO

--

0

OSCILLOSCOPE

A

8

l::::;:l

EXT

10K

CW

O.l!l

CCW

3!i

CW

10n

-

OFF

-

-

CCW
CCW

CW

5V
CW
ON

NORM

5-8

3. Adjust the

4. Move the

5. Adjust the 1821A
display.

6. Switch

7. Measure the

REP

signal

0.1

to

MIXED

pulse delay jitter.

RATE VERNIER 2

ms

by switching the PULSE

DELAY

sweep

(DIV)

until

display on 1821A.

to

obtain a 0.2ms period on the display.

DELAY 3 to

intensified spot coincides with the leading

3m

and

adjusting the

VERNIER

edge

t~<0.1ps

of

4 appropriately,

the

second

pulse

on the

Model80058

PERFORMANCE TESTS

Performance

Tests

5-16

SPECIFICATION

PROCEDURE:

Square

1. Set 80058 controls

Wave

Hz

0.15

increasing

as

REP

RATE 1
VERNIER
PULSE
VERNIER
PULSE WIDTH 5
VERNIER
TRANSITION
OFFSET VERNIER 8
OFFSET SWITCH 9
OFFSET VERNIER
MAN

11

PULSE MODE 12
OPER MODE

LEADING
TRAILING
AMPLITUDE
AMPLITUDE
AMPLITUDE
INT

LOAD

NORM-COMPL

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

2

........

DELAY 3 ... , ...•.•..

4

...........

6

..... , ......

TIME 7

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

13

EDGE 14

EDGE

VERNIER 16
RANGE
VERNIER 18

25

to

10 MHz.

to

80058

PULSE

TRIG

23

follows:

......

Duty

cycle:

50%±

15%

at 10

GENERATOR

.

-

"

"

10503A

10503A

10503A

,

...........

,

,

.......

,

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

,

..... , ................................

.....

, ,

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

50%±

MHz.

500

TERMINATION

..

,.,,

,

--·-·-

, . ,

.•..

..........

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

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

10

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

..

, .

...

, ,

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

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

..........

15

.. , .. , ..............................................

17

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

.. , ....................................

26

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

,

...

, , , . , , ,

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

.... , ... , .......................

5%

for repetition rates,.;; 1 MHz,

OSCILLOSCOPE

A

EXT

'

1:::;:!

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

,,

•...

,.,

•................

,

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

, . , , ,

,

...

, ,

... , ........................

,

... , ..

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

,

.........

,

.........

, , , ,

, . , ,

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

, . . . . . . . . . . . . . . . . . . . NORM

...

......

, . ,

,

.. , .. , ..... , ..

, ,

........

,

,

........

.....

, , , . ,

, . ,

......

...........

, , . ,

,

....

,

...

,

....

..

,

.....

.. , ..

,

..

,

...

,

,

0.3-10.

, .

,.

, .

, ,

, , , 10n

, , . -

...

SO

WAVE

NORM

, .

, .

CCW

0.1/1

CCW

25n

CCW

OFF

-

-

CCW
CCW

CW

5V
CW
ON

2. For
pulse

OUTPUT l+l

OUTPUT(-)

3.

4.

each

width

setting

of

the

(ton)

equals

JU

I

tON

It

U1

REP

RATE switch 1 given in the table below,

the pulse

OFF

I

off

time

(t

off).

REP

RATE 1

0.3-10
300
10K

0.3 MHz
20 MHz

Turn

the vernier slowly

and stop at 1 MHz

Turn

the vernier

and

measure

pulse

fully

width

turn

CW

CW

the

VERNIER

VERNIER 2

ccw
ccw
ccw
ccw
ccw

2 and check that the

tON

= t OFF ±

tON=tOFF±15%

5%

5-9

Performance Tests

Modei8005B

PERFORMANCE TESTS

5-17

SPEC!

Duty Cycle

FICATION:

PROCEDURE:

1. Set 80058 controls

> 80%

for

repetition

rates

using pulse complement.

800£8

PULSE GENERATOR

TRIG

23

as

follows:

from 0.3 Hz

•

27

"

10503A

10503A

~

10503A

to

1 MHz,

500

TERMINATION

~"---

>50%

from 1 MHz to 20 MHz. Up

OSCILLOSCOPE

A 8 EXT

..

-

.. _ ..

_

t::i

(

to

100%

when

2.

3.

REP

RATE 1

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

VERNIER 2 ...........................................................

PULSE

VERNIER 4

PULSE WIDTH 5
VERNIERS
TRANSITION
OFFSET VERNIER 8
OFFSET SWITCH
OFFSET VERNIER 10
MAN

DELAY 3 .......................................................

..............................................•..........•

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

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

TIME 7

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

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

9

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

....................................•................

11

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

,

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

PULSE MODE 12 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . NORM

OPER MODE

LEADING
TRAILING
AMPLITUDE
AMPLITUDE
AMPLITUDE

INT

LOAD 25

NORM-COMPL

Adjust the

Turn
the

REP

the PULSE WIDTH VERNIER 6 slowly

duty

cycle >

13

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

EDGE 14

EDGE 15

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

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

VERNIER
RANGE 17
VERNIER

16

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

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

18

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

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

26

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

RATE VERNIER 2

for

one complete period over the display

CW

until

50%.

the

,

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

pulse

period

is

affected (count down)

area.

and

, . 20M

CW

0.111

CCW

25n

CCW

10n

-

OFF

-

·

·.

· · · ·

NORM

CCW
CCW

CW

5V
CW
ON

, . . NORM

measure

5-10

4.

Set the

REP

RATE 1

and

adjust the VERN! E R 2 forfrequencies under 1 MHz

and

repeat

step

2. > 80%

'on-time'.

Modei8005B

Performance Tests

PERFORMANCE TESTS

5-18

SPECIFICATION:

PROCEDURE:

Double

1.

Pulse

Set 80058 controls

10

MHz

Vernier

max (simulates 20M Hz)

provides continuous adjustment

80058

PULSE GENERATOR

TRIG

,.

23

as

follows:

'

"

spacing:<

-

lOOns

within

each range.

500

TERMINATION

10503A
10503A
10503A

to

3s

(with respect

OSCILLOSCOPE

A

..

1":::;1

to

trigger

output)

m

'

in five

ranges.

REP

VERNIER 2 ..........................................................

PULSE
VERNIER
PULSE WIDTH 5
VERNIERS
TRANSITION
OFFSET VERNIER
OFFSET SWITCH 9
OFFSET VERNIER 10

MAN
PULSE MODE 12

OPER MODE

LEADING
TRAILING
AMPLITUDE
AMPLTIUDE
AMPLITUDE

!NT

NORM-COMPL

2.

Check pulse spacing.

RATE 1

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

DELAY

3

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

4

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

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

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

TIME

7

8

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

11

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

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

13

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . NORM

EDGE

14

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

EDGE 15

VERNIER
RANGE 17
VERNIER 18

LOAD

25

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

26 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . NORM

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

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

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

· · · · · · · · · · · · · · · · · · · · · · · · · · · · · · -

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

16

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

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

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

. I

20M

CCW

0.1p

CCW

25n

CCW

10n

.

OFF

-

DOUBLE

CCW
CCW

CW

5V

CW

ON

--}t_A---

1 I

I

<sons

.

•I

1

5-11

Performance Tests

Modei8005B

PERFORMANCE TESTS

5-19

SPECIFICATION:~

Transition Times (Fast)

10ns

within each range. Ranges are

ratio, 1 :30 or 30:1.

PROCEDURE:

1.

Set 80058 controls

REP

RATE 1

VERNIER2

PULSE

VERNIER 4

PULSE WIDTH 5

VERNIER 6 ...........................................................

TRANSITION
OFFSET VERNIER
OFFSET SWITCH 9
OFFSET VERNIER 10

MAN

11

PULSE MODE
OPER MODE

LEADING

TRAILING

AMPLITUDE

AMPLITUDE

AMPLITUDE

INT

LOAD 25 , , . , . ,

NORM-COMPL

to

2s

in

six ranges. Separate verniers provide independent control of leading and trailing edges

as

follows:

BOOSB

PULSE

GENERATOR

TRIG

"

common

,{:;

"

~50[l

for

leading and trailing edges.

1250---0077

TERMINATION

10503A

10503A

8491A
1250-0780------<

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

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

DELAY 3 ........................................................

......................•....................................

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

TIME 7

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

8

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

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

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

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

12

..........................................•.........

13

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

EDGE

14,

, , , . , , , , , , , , , , . ,

EDGE 15 , , . , , . , . ,

VERNIER

RANGE 17

16

, , , , , , , ,

...

, . ,

VERNIER 18 , , , . , . ,

...

, ,

..

26

......

, , . , , , . , , ,

...

.. , ...

, , ,

.........

...
, , , , , , , . , ,

........

, ,

....

..... , ...

..... , ...........

, , , , , , , , , ,

..

, . , , , , , , , , , , ,

, . ,
, , , , . ,
,

..

, , , . ,

SAMPLING

OSCILLO-

SCOPE

m

TRIG

A

------.

·

..

· · · · · · · · · · · · · · · · · · · · · · · · · -

..

, . , , ,

..

....

, , , , ,

..........

.. , ..... , .......

Max.

leading edge/trailing edge

SO

,

..

, , ,

.. , .....

, , , , , , , , , , ,

, , , , , , . , , . , , . , , , , , . , , ,

.......

..

, . , ,

,

.. , ....

, , , , . ,

......

... , ...

, , . , . , .

, , . , . , , . 5V

, , , , ,

, . , , . , . , , .

, . , . , , , ,

......

,

..

, . NORM

20M

CCW

0.11'

CCW

25n

CCW

10n

-

OFF

-

WAVE

NORM

CCW
CCW

CW

CW
ON

2.

3. Expand

4. Repeat

5. Return

6. Switch the

7. Measure

5-12

Adjust the amplitude for a full

the

display and measure

the

measurements for the negative

the

scope

to

X1

expansion.

TRANSITION

the

transition times of both + and -

TIME

screen

the

7 switch

display,

transition

output< 1 Ons.

to

times<

10ns.

0.1Ms.

outputs< 1 OOns.

Modei8005B

Performance Tests

PERFORMANCE TESTS

5-20

Transition Linearity

SPECIFICATION:

PROCEDURE:

1.

Set 80058 controls

For

90%

REP

transition

points

RATE 1

times>

is

less than

as

30ns, maximum

4%

""""

PULSE

GENERATOR

TRIG

"

"

follows:

of

<

pulse

nR

~

amplitude

amplitude.

50>1

TERMINATION

deviation

10503A

10503A

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

1250-0017

8491A

1?50--0780

VERNIER 2 ..........................................................

PULSE

DELAY 3 .......................................................

VERNIER 4 ..........................................................

PULSE WIDTH 5

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

VERNIER 6 ..........................................................

TRANSITION

OFFSET VERNIER 8
OFFSET SWITCH 9
OFFSET VERNIER
MAN11
PULSE MODE 12
OPER MODE 13

LEADING
TRAILING
AMPLITUDE

AMPLITUDE
AMPLITUDE

INT

LOAD

NORM-COMPL26

TIME 7

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

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

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

10

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

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

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

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

EDGE

14

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

EDGE

15

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

VERNIER 16
RANGE 17
VERNIER

25

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

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

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

18

...............•.................................

:

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

from

a straight line between

SAMPLING

OSCILLO

SCOPE

EXT

A TRIG

---

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

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

the

10%

SQ

and

20M

CCW

0.1J.l

CCW

25n

CCW

0.1J.l

-

OFF

-

-

WAVE

NORM

CCW
CCW

CW

5V
CW
ON

NORM

2.

Adjust the amplitude for a full

3. Centre the leading

4.

With reference

Devi·ation

5.

Centre the trailing

6. Repeat steps 2

to

to

be<

to

edge

of the

the

diagram check

4%

of

pulse

edge

on

4 for

OUTPUT(-).

screen

pulse

on the display.

the

amplitude

the display.

display.

transition

linearity

10%-

5-13

Performance Tests

Modei8005B

PERFORMANCE TESTS

5-21

SPECIFICATION:

PROCEDURE:

Preshoot, Overshoot and Ringing

1.

Set 80058 controls

overshoot, preshoot

PULSE

"""'"

as

follows:

and

GENERATOR

TRIG

"

ringing

,R

"

~50£<

each

less

than

TERMINATION

10503A

10503A

5%

of

pulse

1250-0077

84S1A

-------.

1250-0780-------<

amplitude.

SAMPLING
OSCILLO·
SCOPE

m

TRIG

'

REP

RATE 1

VERNIER2

PULSE

VERNIER 4

PULSE WIDTH 5

VERNIER 6
TRANSITION
OFFSET VERNIER 8
OFFSET SWITCH 9
OFFSET VERNIER 10

MAN11
PULSE MODE

OPER MODE 13

LEADING
TRAILING

AMPLITUDE

AMPLITUDE

AMPLITUDE

!NT

LOAD 25

NORM-COMPL26

2. With reference

a)

Preshoot

b)

Overshoot

c)

Ringing

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

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

DELAY

3

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

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

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

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

TIME 7

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

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

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

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

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

12

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

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

EDGE

14

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

EDGE 15

VERNIER
RANGE 17
VERNIER 18

to

the diagram

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

16

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

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

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

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

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

measure

the following:

<5%

<5%
<5%

··

··· ··· · ··

Oversho~!.:L.

· · · · · ·

l

Ringing

r ·

"r'-'----~

T

Amplj'"d•

··

·······­SO

20M

CCW

0.111

CCW

25n

CCW

10n

-

OFF

-

WAVE

NORM

CCW
CCW

CW

5V
CW
ON

NORM

5-14

3.

Repeat step 1

for

OUTPUT(-).

~:!

:Preshoot

L

Modei8005B

5-22

Trigger

Performance Tests

PERFORMANCE TESTS

Output

SPECIFICATION: positive

PROCEDURE:

1.

Set 80058 controls

REP

RATE 1
VERNIER 2
PULSE
VERNIER 4
PULSE WIDTH 5

VERNIER 6 ...................................................•......

TRANSITION
OFFSET VERNIER
OFFSET SWITCH
OFFSET VERNIER 10

MAN
PULSE MODE

OPER MODE

LEADING
TRAILING
AMPLITUDE
AMPLITUDE
AMPLITUDE

INT

LOAD 25

NORM-COMPL

pulses>

2V amplitude

PULSE

GENERATOR

"""'

TRIG

"

as

follows:

"

.

"

across

-

external 50 ohm load.

50fl

TERMINATION

10503A

10503A

125tHXl77

8491A

1250-0780

.................•........................................

............................••...........•................

DELAY 3 ...............................................•......•

..............................................•...........

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

TIME 7

..............••....................................

8

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

9

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

·

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

...............................•.......•.............

11

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

12

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . • . • . . . . . . . . . . . . NORM

13 ,

EDGE 14

EDGE 15

VERNIER
RANGE
VERNIER

.............•

.....................•.............................

.................•..•..........................•....

16

...........•..•..................................

17

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

18

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

,

.............................•.....•.

........................................................•.

26 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . • . . . . . . • . . . • . . • • . • . . NORM

SAMPLING

OSCILLO·

SCOPE

m

A

TRIG

---o

__,

· · · · · · · · · · · · · · · · · · · · · · · · · · · ·

·:

NORM

,

..

20M

CCW

0.111

CCW

25n

CCW

10n

-

OFF

-

-

CCW
CCW

CW

5V
CW
ON

Check the amplitude

2.

Check the

3.

width

(across

50f!)

>2V

15ns ± 7ns

5-15

Performance Tests

5-23

Transition Times (slow)

Modei8005B

PERFORMANCE TESTS

SPECIFICATION:-::;;;;; 10ns

within

ratio,

PROCEDURE:

1.

Set

80058

controls

REP

RATE 1

VERNIER

PULSE

VERNIER

PULSE WIDTH 5

VERNIER
TRANSITION
OFFSET VERNIER 8
OFFSET SWITCH 9
OFFSET VERNIER

MAN
PULSE MODE 12
OPER MODE

LEADING
TRAILING

AMPLITUDE

AMPLITUDE

AMPLITUDE

INT

LOAD

NORM-COMPL

to

2s

in six

ranges.

Separate verniers provide independent control

each range.

1:30

or 30:1.

as

follows:

Ranges

are

PULSE GENERATOR

'"'"

TRIG

'

,.0

"

common

-

"

.......................•..................................

2

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

DELAY

3

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

4

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

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

6

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

TIME

7

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

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

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

10

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

11

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

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

13

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

EDGE

14

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

EDGE 15

VERNIER 16
RANGE 17
VERNIER 18

25

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

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

.............•.•..................................

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

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

26

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

for

leading and trailing

TERMINATION

"'"

10503A

10503A

~

edges.

OSCILLO-

SCOPE

'

t-

of

leading and trailing

Max. leading edge/trailing

EXT

TRK;

·

.. · ..

edges
edge

0.3M
CCW

0.111

CCW

25n

CCW

0.111

.

OFF

· · · · · · · · · -

SO

WAVE
NORM

CW
CW
CW

5V
CW
ON

NORM

-

5-16

2. Adjust
of

amplitude

best resolution):

scope

REP.

0.3M
10K

300

0.3-10

RATE

sensitivity for

for

each

of

the following control settings

full

screen

pulse display and measure leading

(Vary

TRANS.

TIME

311

0.1m
3m

0.1-2

and

trailing

Rep rate vernier 2

LEADING/TRAILING

EDGE VERNIERS

ccw
ccw

ccw
ccw

edge

between 10%

to

get

one period on display

and

90%

with

RESULT

~

3Jls

~0.1m

~3m

<;;0.1s

Modei8005B

5-24

External Triggering

Performance Tests

PERFORMANCE TESTS

SPECIFICATION:

PROCEDURE:

1.

Set 80058 controls

de

to

20 MHz, sensitivity

as

follows:

REP

RATE

1

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

VERNIER
PULSE
VERNIER 4
PULSE WIDTH 5
VERNIER 6
TRANSITION
OFFSET
OFFSET SWITCH 9
OFFSET
MAN 11

PULSE MODE 12 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . NORM

OPER
LEADING
TRAILING
AMPLITUDE
AMPLITUDE
AMPLITUDE
INT
NORM-COMPL

2

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

DELAY

3

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

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

TIME 7

VERNIER

VERNIER 10

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

MODE 13

EDGE 14

EDGE 15

VERNIER 16
RANGE 17

VERNIER 18

LOAD

25

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

26

2Vpp

(sine wave), 1

TEST

OSCil.lATOR

I

o"~

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

.......................................................•

~~SE

GENERATOR~~

~~~GGE'6il'

10503~~

Vpk

• 6

~MINATION

~-_/

(pulse)

\_I

10503A

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

8

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

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

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

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

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

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

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

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

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

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

OSCILLOCOI'E

m

'

·~I

-

--·

· · ·

....

· · · · · · · · · -

EXT+

CCW

0.1J1

CCW

3J1

CCW

10n

OFF

NORM

CCW
CCW

CW

5V
CW
ON

NORM

-

-

2. Set the test oscillator for

wave.

3. Change the

the sine wave.

REP

RATE 1 switch on 80058

10kHz

at 2.5V p-p. Observe that each pulse occurs during positive slope

to

EXT-.

Observe

that

each

pulse

occurs during negative slope

of

the sine

of

5-17

Performance Tests

5-25

Synchronous Gating

Modei8005B

PERFORMANCE TESTS

SPECIFICATION:

PROCEDURE:

1.

Set 80058 controls

gate

signal

turns on repetition rate. Time between start

Last pulse
pulses

REP
VERNIER 2

PULSE

VERNIER 4

is

occur

RATE 1

DELAY

always completed
for

duration

SO
GENERATOR

as

follows:

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

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

3

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

PULSE WIDTH 5

VERNIER 6
TRANSITION
OFFSET

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

TIME

VERNIER
OFFSET SWITCH 9
OFFSET
MAN
PULSE MODE
OPER MODE

LEADING EDGE

TRAILING

AMPLITUDE
AMPLITUDE
AMPLITUDE
INT LOAD
NORM-COMPL

VERNIER

11

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

12

13

14

EDGE 15

VERNIER 16
RANGE 17
VERNIER 18

25

...........................•..............................

26

of

gate

and

WAVE

of

gate.

even

if gate ends during generation

~"

TERMINATION

----------

OSCilLOSCO~~

....___

-HJ--j-L....Cf-1

first pulse defined

of

last pulse. Synchronous trigger

by

delay control.

0.3M
CCW

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

0.11'

CCW

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

25n

CW

7

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

8

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

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

10

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

· · · · ·

10n

OFF

·.

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . NORM

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

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

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

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

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

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

SYNCH

CCW
CCW

CW

5V
CW
ON

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . NORM

-

-

5-18

2. Set

the

WIDTH

3.

Turn

the 80058

'ON'

time of the gate. Check

of

normal

4.

Disconnect the gate

sq

wave generator

FREQUENCY

AMPLITUDE

REP

width

even when the gate ends during

2kHz

so

2V

RATE VERNIER 2 slowly

also

that the first

signal

at the 80058 GATE INPUT 21. Check that no

CW.

pulse

the

is

pulse.

Check that the

coincident with the start

pulses

from 80058 occur

pulses

of

the

are

generated

gate

and the last

only

by

during the

80058.

pulse

is

Modei8005B Performance Tests

PERFORMANCE TESTS

5-26

Amplitude

Normal - Complement

SPECIFICATION: 5V, with internal 50 ohms

dance and external

50

ohms. Normal or complement, switch selectable.

80058

GENERATOR

PULSE

TRIG

"

10120A

PROCEDURE:

1.

Set

80058 controls

REP

RATE 1

VERNIER

PULSE

VERNIER 4

PULSE WIDTH 5

VERNIER 6
TRANSITION
OFFSET
OFFSET SWITCH 9
OFFSET

MAN

11

PULSE MODE
OPER

LEADING EDGE 14
TRAILING

AMPLITUDE

AMPLITUDE RANGE 17

AMPLITUDE

INT

LOAD

NORM-COMPL

as

follows:

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

2

..........

DELAY

MODE 13

3

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

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

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

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

TIME

1

VERNIER

VERNIER

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

EDGE 15

25

8

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

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

10

12

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

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

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

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

VERNIER

VERNIER

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

26

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

and

external 50 ohms.

- A

'

" "

10\20A

10120A

,

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

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

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

16

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

... , .........................................

18

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

50.\J

TERMINATION

, . ,

10V

with

--

____

,_

--

,

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

,

.... , ........................

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

,

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

,

... , .............................

internal 50 ohms

180C

OSCiLLOSCOPE

B

En

and

external high impe·

t:'

,

..

, . ,

.......

,

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

,

.....

,

.........

,

.. , .........

· · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · -

, . ,

.. , ..... , ...........

, ,

......

, . , . , , , , , ,

,

,

..

, , . , ,

,

....

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

,

.... , ..

,

.. , ..

,

....

....

SQ

, NORM

,

....

,

....

..

, , NORM

, 20M

CCW

0.1}1

CCW

, 25n

CCW

10n

-

OFF

-

WAVE

CCW
CCW

CW

5V
CW
ON

2.

Check the normal mode

from both output channels.

3.

Set the
to

NORM-COMPL

COMPL

and

output

switch 26

check both outputs.

more pas. than

ov

more pas. than

ov--TU

+Tv

n n OUTPUT

_IJ

..Il

U L

OUTPUT (+)

__

more

neg.

than

-5V

n r OUTPUT

___

U

___

1fli['

OUTPUT (+) neg.

more

than

-SV

(-)

llilf

1

(-)

__

T

__

5-19

Performance Tests Modei8005B

PERFORMANCE TESTS

5-27

DC

Offset

SPECIFICATION: the maximum

Offset range increases

PROCEDURE:

1.

Set 80058 controls

REP

RATE 1
VERNIER 2
PULSE
VERNIER 4
PULSE WIDTH 5
VERNIER 6
TRANSITION
OFFSET
OFFSET SWITCH 9
OFFSET

MAN
PULSE MODE

OPER MODE 13

LEADING EDGE 14
TRAILING
AMPLITUDE
AMPLITUDE

AMPLITUDE

INT LOAD

NORM-COMPL

DELAY 3 .....................................

VERNIER 8 .....................................................

VERNIER

11

..................•..............

output

as

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

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

..........................................•.................

.................................................•..........

EDGE 15

VERNIER 16
RANGE

VERNIER 18

25

(amplitude+ offset)

to

values shown when amplitude vernier

PULSE GENERATOR

""'"

TRIG .

"

0 20A

''

follows:

... , ....................................................

TIME 7 .......•...........................

............................•...........•............

10

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

12

....•.............................................

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

.......

.......................................•..•.....•.....

17

.. , ..................................................•..•.

26

.. , .................................•..................

-

27

"

10120A

10120A

,

...............•....................•...•..•.•.

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

...................•........................

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

is

10V. Offset

500

TERMINATION

-.

range

with amplitude vernier

is

CW.

raoc

OSCILLOSCOPE

..,.

A

t:"..,.

m

'

,

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

, ,

..........•......

,

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

,

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

, . ,

...................•.....

· · · · · · · · · · · · · · · · · · · · · · · · · · · · · ·

, . . . . . . . . . . . . . . . . . • NORM

CCW

is±

2V.

EXT+

.

.

.

CW

OFF

CW

, . . NORM

-

-

CCW

1.25V (2.5V)
CCW

ON

5-20

STEP

2

3

4
5

6

7

INSTRUCT

Center trace on screen

Turn the VERNIER 8 slowly

Reset

Set

the I NT LOAD 25 switch

Turn the

Turn VERNIER 8 slowly

Connect

10

NS

and

the VERNIER 8 to the

AMPLITUDE vernier 16 slowly

CCW

scope

to

OUTPUT(-)

set

the

OFFSET switch 9 to

from

fully

CW

position

to

0 F F

and

repeat

CW

to

to

fully

steps

fully

CW

1 to 6

ON

CCW

RESULTS

;;;,

+2V

to

+2V
>+2V

~+4V

-2V

>-4V

Modei8005B

Performance Tests

5-28

SPECIFICATION: fixed

circuit

TEST
apply TTL OUTPUT

Verify logic 1 level

Verify logic 0 level

5-29

1.

TTL

Output

SETUP AND

Safety Check

Disconnect power
terior for any sign
heat, such as

discolored

amplitude,+

PROCEDURE-

without

;:;,

load

4.6V

<;0.2V

cord

from line. Visually inspect in-

of

abnormal internally generated

printed
components, damaged insulation,
ing. Determine cause and

remedy.

2. Check resistance from cabinet
plug with suitable
less than

the

one

measurement

ohmmeter.

ohm. Flex

to

detect

the

power

PERFORMANCE TESTS I

4.6V across

as§

5-27

to

scope

circuit boards

or

evidence

to

ground

The

reading must be

cord while making

any

intermittent

open

except

input

A.

or

of

arc-

pin on power

dis-

SAFETY

continuity.
boards and frame.
or

3. Check resistance from cabinet

(tied together) with

poWer source disconnected, The

resistance

which
or

CHECK

Check internal ground connections on

Also check resistance

rear panel ground terminals marked

to

the

power switch

minimum

is

two

megohms. Replace any

results in a failure

Service Note

issued

or

by

product

refer

to

nate action.

4. Check line fuse

to

verify

that

the

proper

stalled.

5.

Check

that

the

plastic safety cover for

is

installed.

6. Check

that
properly
heatsink

a!!

coaxial and flat cables inside are
connected. Check
on

the

chassis are properly

that

all

7. Inform Hewlett-Packard (internally,
product
tests

division)

or

any

of

other

safety features.

any repeated failures

of

any

front

-L..

line and neutral

on

and

the

acceptable

component

production

division

the

boards

for

value

line fuse

and

Memo

alter-

is

the

connected.

the

responsible

in

the

above

in-

5-21

Performance Tests Modei8005B

Table

5-1.

Performance Test Record

Hewlett-Packard Company
Modei8005B Tested by

Pulse

Generator

Serial Number Date

Para.

No.

5-10

5-11

5-12

Test Description

Repetition

Rep
20 MHz

0.3 MHz

10kHz

300Hz

10Hz

Manual Trigger
Press

Release

Pulse

REP

20M 25

Rate

Rate

MAN

button

MAN

button

Width

RATE 1 PULSE WIDTH 5

Vernier

cw
cw
cw
cw

CW

VERNIER 6

ccw

Results

Min

20 MHz

300kHz

10kHz

1

0 0

Actual Max

3.33

100

1

25

ms

ms

ns

5

13

5-14

0.3M

10K 0.1m

300

0.3-10

Manual

Pulse

Width

Jitter

Pulse

Delay

RATE

1

DELAY

0.3M

10K

300

0.3-10

EXT-MAN

0.1/1

3f1

0.1m

3m

0.1-3

3/1

3m

0.1-3

0.1-3

3

VERNIER 4 WIDTH 5 VERNIER

cw
cw
cw
cw
cw

ccw

CCW

ccw
ccw

cw

25n

3/1

0.1m

3m

0.1-3

cw
cw

CW

CW

CW

3f1S

0.1

ns

3

ms

0.1

ns

3s

0. 1 flS

6

3/lS

0.1

ms

3ms

0.1s

3s

5-22

Modei8005B

Hewlett-Packard Company

Modei8005B

Pulse

Generator

Serial Number

Table

5-1.

Performance Test

Record

Tested

Date

Performance Tests

by

Para.

No.

5-15

5-16

5-17

5-18

Pulse Delay

Square

Wave

50%

Duty

Pulse Mode

Double
Minimum

Pulse

Test

Jitter

Cycle

Duty

Cycle

pulse spacing

Description

0.3

Hz

10Hz

300Hz

10kHz

0.3

MHz

1

MHz

20

MHz

above 1 MHz
below 1 MHz

Results

Min

45%

45%

45%

45% 55%

45%
45% 55%

35%

50%
80%

Actual

Max

0.1!1S

55%

55%

55%

55%

65%

50

ns

5-19

5-20

5-21

Transition
TRANSITION

Times (Fast)

10

n

0.111

7

Transition Linearity

Positive

Negative

output:

output:

leading edge
trailing

leading edge

trailing edge

Preshoot, Overshoot,

Positive

Negative

output:

output:

pres

overshoot

ringing

pres

overshoot

ringing

LDG

ccw

ccw

and

hoot

hoot

14

TRLG

edge

Ringing

ccw

CCW

15

positive

negative

positive

negative

10

ns

10

ns

100
100ns

4%

4%

4%
4%

5%

5%

5%

5%

5%

5%

ns

5-23

Performance Tests

Hewlett-Packard Company

Model80058

Pulse Generator
Serial Number

Table

5-1.

Performance Test Record

Model80058

Tested by

Date

Para.

No.

5-22

5-23

5-24

5-25

Test

Trigger

Output

Amplitude
Width

Transition Times (Slow)

Rep. rate 1

0.3M
10K

300

0.3-10

(across

Transition 7

3fJ

0.1m
3m

0.1-2

5011)

Description

leading/trailing

edge verniers

ccw

ccw
ccw

ccw

14,

Min

2V

9ns

15

Results

Actual

External Triggering

Pulses on positive trigger slope
Pulses on negative trigger slope

0
0

Synchronous Gating
Output

First pulse coincident with

pulse only during gate

start

on

of gate

0

0

Last pulse of correct width 0

No

output

0

Max

21ns

3fJS

0.1

3ms

0.1 s

ms

5-26

5-27

5-28

5-29

Amplitude
Amplitude,

Amplitude,
Amplitude,
Amplitude,

DC

Offset

Max
Max
Max
Max

TTl

Logic 1
Logic 0

Safety Check

Normal-Complement

Output
Output-,

Output
Output

positive offset with int
negative offset with int
positive offset

without

negative offset

Output

Interior inspection
Resistance cabinet
Resistance cabinet

to

to
Line fuse
Line fuse safety cover
Heatsinks secure

+,Normal

Normal

+,Complement

,

Complement

50Q

50Q

int

50Q

without

int

50Q

power plug gnd

line

+5V

-5V

+5V

5V

+2V

-2V

+4V

-4V

4.6V

2MQ

----

0.2V

H),

0

0
0

5-24

Mode18005B

Adjustments

6-1

6-2
return

INTRODUCTION

This section describes the

the

instrument

to

peak operating

repairs are completed.

6-3
instrument

line voltage must

6-4

6-5

If

the adjustments are

to

must have a 15 min

be

within

+10%

SAFETY CONSIDERATIONS

This manual contains

information,

warnings which must be followed

and

to

retain

the

tions

II

and Ill). Service

performed

instrument

only by qualified service personnel.

in

and

adjustments

ADJUSTMENTS

adjustments

be considered valid, the

warmup

to

-15%

to

ensure

safe

condition

which will

condition

time and the

of

nominal.

cautions,

safe operation

(see Sec-

should be

after

and

SECTION

VI

WARNING

Adjustments

supplied to the instrument while protective covers are
removed. Energy available
ted, result in personal injury.

6-10

6-11

procedures
Equipment.
instruments
the

table

forth in Table

6-12

described herein

at

are

performed with power

many

points may,

EQUIPMENT REQUIRED

The

test

equipment

is

listed

The

critical specifications

must

meet or exceed

if

the

instrument

1-2,

required for

in

Table

1-1,

is

to

meet

Specifications.

the

Recommended Test

of

the

standards listed
the

ADJUSTMENT LOCATIONS

if

contac-

adjustment

substitute

test

standards set

in

WARNING

Any

interruption

or

(inside
the protective earth terminal is likely

ment

dangerous. Intentional interruption

6-6

opened
out

Any adjustment, maintenance,

instrument with voltage applied should be carried

only

by a skilled person who

involved.

6-7

Capacitors inside
charged even
from

its source

6-8

current

Make sure

and of

delay, etc.) are used for replacement.

and

fuses
avoided.

6-9

Whenever it

by fuses has been impaired,

inoperative and secured against any

of

the protective (grounding) conductor

outside the instrument)

the

instrument

if

the

of

supply,

that

the

specified

the

shortcircuiting

instrument

only

is

likely

has

fuses with

type

of

that

the

instrument

is

(normal blow, time

fuseholders must be

the

unintended

or

disconnection

to

make

is

prohibited.

and

repair

aware

of

the

may still be

been

disconnected

the

required rated

The

use

protection

must be made

of

the instru-

of

the

hazard

of

repaired

offered

operation.

6-13

locations

6-14

6-15

EQUIPMENT: Digital Voltmeter

Figure

6-1

at

the

of

adjustment

points.

ADJUSTMENTS

Power Supply

end

of

ac Voltmeter

PROCEDURE:

Voltages

2

3

4

5

Connect
to

+25V

Connect

to

A5

-25V

Connect
to

A1

+20V

Connect
A5

+25V

measure

Connect
A5

-25V

ripple

are

measured with respect

the

digital voltmeter

TP

the

digital voltmeter

TP

the

digital

voltmeter -

TP

the

ac

voltmeter

TP and

ripple

the

ac

voltmeter

TP and measure

to

to

ADJUST RESULT

A5R

A5R8

this

section shows

to

chassis.

17

+25V

±200mV

-25V

±200mV

+20V

±500mV

< 10mV

<1omv

the

6-1

Adjustments

Model80058

ADJUSTMENTS

6-16

PULSE

""'"

PULSS

""'"

Timing

GENERATOR

TRIG + -

23

2~

"~

~------

GENERATOR

.

TRIG

"

"

'~

TERMINA,!}~N

""

10530A

1.

REP

RATE

,i:i

50(!

TERMINATION

10503A

10503A

2.

PULSE WIDTH SET-UP

------.

SET-UP

1250-0077

B491A

1250-0780

.....

COUNTER

--j

--1

SAMPLING
OSCILLO
SCOPE

TRIG

A

"'

With

the

80058

2

as

shown

diagram (1) measure rep rate

Set Rate Vernier

3

4

With

the

as

shown
diagram (2) measure pulse
width

at

Connect

5

scope channel A and
output A to
Set Rep Rate
vernier

mid

0.111

vernier

Measure

6

between
and

the

output

pulse

6-17

Pulse Shape

connected

in

the upper

CCW

80058

connected

in

the

lower

50%

of

amplitude

trigger

output

scope channel

to

0.3M,

position

CW

the

distance

the

trigger pulse

leading edge

EQUIPMENT:

to

80058

delay

of

the

B.

ADJUST

A1C9

A1C33

A1C22

RESULT

22

MHz

22/JS

± 10%

3.9/JS

± 10%

±5%

PROCEDURE:

Set

80058 controls

REP

RATE 1

as

VERNIER 2
PULSE

DELAY

3
VERNIER 4
PULSE WIDTH 5
VERNIER 6
TRANSITION TIME 7
OFFSET VERNIER 8
OFFSET SWITCH 9
OFFSET VERNIER
MAN

11
PULSE MODE 12
OPER MODE
LEADING

TRAILING

13

EDGE 14

EDGE 15
AMPLITUDE VERNIER 16
AMPLITUDE RANGE
AMPLITUDE VERNIER 18
INT

LOAD 25

NORM-COMPL

26

follows:

10

17

20M

cw

0.11'

ccw

25n

ccw

10n

OFF

NORM
NORM

CCW

ccw

cw

5V
CW
ON

NORM

Digital Voltmeter

PROCEDURE:

1.

Set

80058

REP
VERNIER
PULSE
VERNIER

controls

RATE 1

2

DELAY

4

3

PULSE WIDTH 5

VERNIER

TRANSITION

6

TIME 7

OFFSET VERNIER 8

OFFSET SWITCH
OFFSET VERNIER 10
MAN

11
PULSE MODE
OPER MODE

LEADING

TRAILING

12

13

EDGE 14

EDGE 15
AMPLITUDE.VERNIER
AMPLITUDE

AMPLITUDE
INT

LOAD

NORM-COMPL

RANGE
VERNIER

25

26

as

9

follows:

16

17

18

EXT+

CCW

0.11'

CCW

25n

ccw

10n

OFF

NORM
NORM

ccw

CCW

ccw

5V

ccw

ON

COMPL

6-2

Modei8005B

Adjustments

ADJUSTMENTS

2 Reverse voltage

floating

a.

Connect

terminal

low

terminal

b.

Connect
terminal
low

terminal

3 Integrator adjustment

a.

Set

80058

to

SO Wave

b. Using DVM, measure across A4R46

chassis and
Collector.

press

MAN

get a negative voltage

6-18

Pulse Amplitude and Roll-off

80058

PULSE

GENERATOR

.

TRIG

23

24

adjustment-

the

DVM

to

TP1

and

to

TP2

the

DVM

to

high

TP3 and

to

TP4

Pulse Mode 12

A4

06/07

If

necessary

button

-

"

high

the

the

once

to

son

TERMINATION

10503A
10503A
10503A

operate

ADJUST

A4R31 +

A4R41

ADJUST

OSCILLOSCOPE

A B

-~

with

RESULT

150mV

+

150mV

RESULT

-9.5V

t:::;1

DVM

±50mV

±0.1V

"'

±50mV

PULSE MODE
OPER

MODE 13

LEADING
TRAILING
AMPLITUDE
AMPLITUDE
AMPLITUDE

INT

LOAD

NORM-COMPL

2. Adjust

3.

4.

5,

6.

7.

8,

9.

10.Repeat 2

OUTPUT(-)

Adjust

leading and

verniers

from

equal

roll-off

Adjust

OUTPUT(-)

With

the

TRAILING

turned

fully

position

Turn

fully
difference
second

If

Adjust
amplitude

of

the

TRAILING

CW and measure the

starting

recessary,

OUTPUT(+)

Repeat 3

Adjust

for

OUTPUT(+)

to

12

EDGE 14

EDGE 15

VERNIER 16
RANGE 17
VERNIER 18

25

26

trailing

CCW

to

on

CCW observe the

the

between

verify § 6-17

OUTPUT(+)

7.

CW

both

edges

roll-off

EDGE vernier

pulse delay

EDGE vernier

the

points.

roll-off

first

edge

for

point.

and

(2),

ADJUST

A3R100

A3R95

A4R46

A3R72

A3R48

ccwcw

SO

WAVE
NORM

NORM

RESULT

- 5.5V

:::::.:

30ns

16ns±2ns

+5.5V

~

30ns

ccw
ccw

cw

5V

cw

ON

PROCEDURE:

1.

Set 80058 controls

REP

RATE 1
VERNIER
PULSE

VERNIER 4

PULSE WIDTH 5

VERNIER
TRANSITION
OFFSET VERNIER 8
OFFSET SWITCH 9
OFFSET VERNIER 10

MAN

2

DELAY

6

11

as

3

TIME

follows:

7

20M

ccw

0.1j1

ccw

25n

ccw

10n

OFF

r----r--+---..

--+--(

LEADING I L

EDGE

~

-......!.r-'

,

ccwcw

~

\

/

/

/

Roll

'",,

off

----]

CCW

r-Roll

'

TRAILING EDGE

I

/:U~UT(-)

r l

I I

!---

CW

off

OUTPUT(+)

"

'

Roll

off

6-3

Modei8005B

A5

C<

Pl

A[

C9

REP

RATE

ADJUST

I

-25V

TP--i-----0';R

A1

I I I

~;I

......._I

~

1 I

i.,.,

0'

I

u <

I®·

~

u

~o'~N~~~

®I

8

I

ON
NO

•

I

.

__ I

~

-CRl!-

'~

5506

~''8

lO

-._..A

j

I

I

~

•

I

. .

.

•

u

UN

I

I

'

I

~

loc

I I

N

~

•

I

ro

~])

IS

I

~

~

~@

ocu

I

~

•

•

u

•

I

,,

I I !

~lr,;::""

oc

I~

oc

I II I 0

I I I I

!0!

a:

1

@§)

I

I

~TP

1

j

L

~I

:.®0

:I

L_

--

I

1

,.,

~

I

-CR2-

J_-

__

00

Rl

-

R2

- 0 TP +

-

RO-

RSR3·-

- C3 -

I

R8

-25V

ADJUST

see

~~.~0~~~~0@~

Sentlce

Sheet?

l~:~l

_____

TP

-CR8-

SV

2

-CRl-

-_c_R,~-_ r_:-:o'::C"-"

25V

'\:_)

-®®®

~

-

"'-

-

R6

+20V

I r

~

-

TP

-

-CR\2-

-CR7-

10

_:-:__:_-:::'R~S;---+-

0

-

R16

RlO

~

-

Rll

-

Rl3-

Rl~

- ®

~

~-®

::o

~I

_-g<Jl-_

- R\5 -

C6

R17

+25V

ADJUST

+25V TP

-

-

I

t20Vil'

II

311~~®~~8oc

1~1

I

---~

, I

\:.J~~c_jCJ

~

' I 1 1

88

_]

1

II

I I I

~ ~

I 0::

I I

~&2

0

u u u

NUU

1 I I

~

~

$

~

~®~

I I

~

~

I I

~

11

C:

•

~~:::~,lr-~

I

~@~

~

«\.00::

~

:;:_..,lJ:::}"'

,..,

a:

151

1

0

~~

VI-I-

I

~

~

I

C22
DELAY
ADJUST

I I I 1

~g~

u u •

I I

FRONT

~

u«ii:~~~:

I I I I

OF

INSTRUMENT

>I>"'

I I

~

• •

N

' '

Modei8005A

SECTION

REPlACEABlE

7-1

7-2
parts.
and

able parts in reference designator order. Table

tains the names and addresses

manufacturer code numbers.

7-3

7-4

lists, schematics and elsewhere
cases

capital letters, and one partial or no capitals. This occurs

because

capitals. However,

the
lower case letters.

INTRODUCTION

This section contains

Table

6-1

lists abbreviations used

elsewhere

in

the

manual. Table

ABBREVIATIONS

Table

6-1

lists abbreviations used

two

forms

of

the

the

abbreviations

in

the

manual,

the

same abbreviations

information

that

in

the

abbreviation are used, one

in

the

parts

schematics and

for ordering

in

the

6-2

lists all

correspond

in

the

manual.

lists are always

other

may

have upper and

parts lists

6-3

In

parts

replace~

con·

to

the

parts

some

all

in

all

of

VII

PARTS

7-7

The

information given for each

the

following:

a.

The

Hewlett-Packard part number.

b.

The

total quantity (Oty)

given only

of

the

c.

The

d. A typical manufacturer
code.

e.

The

7-8

once

for each part

part

in

the

description of the part.

manufacturer's

ORDERING INFORMATION

list.

of

code number for

part

consists

in

the instrument. This

-at

the

first appearance

the

part

in

a five-digit

the

part.

of

is

7-5

7-6

organised

Reference designators are

9

REPLACEABLE PARTS

Table

6-2

is

the list

as

follows:

a.

Mainframe (chassis) parts

by reference designation

b.

Electrical assemblies and

alphanumerical

on

assembly 5.

order

of

replaceable parts and

in

alphanumerical order

their

components

by reference designation.

of

the

form

A5R9

i.e. resistor

in

7-9

To

order

a part listed

table,

quote

the

is

the

quantity
Hewlett-Packard office (list
rear

of

this

7-10

To

able

parts
instrument
parts required, address
Packard

office.

Hewlett-Packard part number, indicate

required, and address

manual}.

order a part

table, include

serial number, the description and

in

the

the

of

Sales/Service offices

that

is

not

listed

the

instrument model

the

order

to

replaceable parts

order

to

the

in

the

replace­number,

function

the

nearest Hewlett·

nearest

at

the

of

Table

7-1

--+-

Replaceable Parts

,-

I

1,~

UW;~~

··I@A3

----

" " "

WUJ____JJ!W1

bCJnq,

_Lr-lf-

" "L]

@

~

MPS

XF1 MP29

'

..

~

,_;_

i:

'

~~

I 1

'

'

'

~

-------

I

--

@

I'

~-

@)

.,

I

I

J

"

""

~

I

I'll

' '

I ,

I

@

MPS

I

-

T1

f--MPl-

1

25-~!!}:::;;LU:::;;}

=--llJ====®""'==I

MP16

UNDERSIDE

;;;;;;;;::;;:;;_ll!JW

@A5

=@~·~

=--~"4~

--:==-==="

-----~-]./

S5

'

I

'

-~----·

l

'

u

__

-MP9

MP9

Figure

7-2

L

1•.,

I

7-1

Mainframe Replaceable

@I@

A8R1

Parts

A10R3

Location

@ -

• I

A3R12 A3R13

MP12

A9R2

UPPERSIDE

IIi

MP11

Modei8005B

Reference

Designation

AI

A2

A3

"

AS

"

"

A10

C!

C2

DS!

F!
F!

FL1
J1

J2

J3

,,

JS

"

MP!

"'

"'

MPS

"'

.,,

"''

"''

MP!O

"'

MPll

M.P12

MP13
MP!II
MPIS

MP\6

MP17

MP18

MPI'i!

I~P20

MP2l

"1P22

MP23

~P2<1

MP2S
'IP20

I>IP27
MP28
MP2Ci
MP30

MP3!

QJ

"

"

"

"

RIO

'11

R\2

'"

51

"

S9

"

S!O

HP

Part

Number

080()5 ..

66513

05005

..

66509

oeoos~oo5!0

(18(}()5mi;I651J

080(15 ..

66512

osoos

..

ot<fO!

08005

..

61

08005

0180~1861.1

0180

2\4(1
zuo

2110

'Ji00~3121

1250 .. 0118
1250 .. 0118

1250

1250
1250
OJ41)mQ128

o:no

0370~!0'<7

OJ7QmjQQ9
0370 .. 1107

0370 .. 1108
I)J70m1125
0380
oeoos
oeoos

OAOOS~0020q

08005~0021

080(15

08005~00?12

0800SwQ/.l!(lj

08oos~o~t02

08007 .. 04103

08007~041011

08010~01105

120nm0081

3101~0126

sooo
'500(I

sooo~s7o3

5000

50~0~02'5£1

50~(1

SO~Om!l2!.1

5060
sooo

5()/)Qm872Q

2!(10
2\00
2100•1717

2100~17\7

0758~007~

2100~3101.;

2100~310U

3100.,051'1

3101~012/i.

310tm1720
3\Q\G0'<03
3101

<102

..

61903

..

1856

..

0018

..

ooos

..

0020

..

0118

1250~0

118

..

0118

..

0118

..

o'1!4

..

0008 1
..

ootot

..

oo2o3

.. 00211

..

oost

..

P,701

..

8908

..

0235

..

0731

..

o7o7

te5~

..

oooJ

lR541Q0063

..

!812

..

1812

..

0'<03

0

Oty

flUARD

1

BOARD

1

BOARD

1

BOARD ASSEMBL V

1

BOARD

1

SWITCH ASSEMBLY,

1

SWITCH

1

SWITCH

1

CAPACITORaFXD

1

CAPACITQR

1

LAMP

l

FUSE

1

FUSE

1

FJLTER~LtNE

1

CQNNECTQR

•

CONNECTOR~RF

CONNE'CTOR
CCNNECTQR
CONNECTOR

CONNECTOR
TERMINALaSTUD

1

BEZEL:PUSHBUTTON

1

KNOB

1

KNQ8

l

KN08~8ASE~PTR

1

KNOB~SASE

1

KNOB

1

SPACERQRNO
DECK,

1

PANEL,

1

PANEL,

1

PANEL

1

PANEL,

1

PANteL)

1

COVER

l

CUVER 1 SWITCH

l

COVER,

l

COVER

1

HEAT

1

INSULATOR

1

NUT

1

TRIM

1
1

COVERtRT
COVER!PT

1
1

L.AMPHOLDER

1
1

8ASEtLAMPHOlDER

\

FRAME

1

FOOT

1

COVER

1

TRANSISTOR

2

TRANSISTOR
RESISTOR•VAR

2

RESISTOR.,VHI

2 RES!STOR ..

RESISTOR~VAR

RESISTOR

1

RESISTOR,

2

RESISTOR,

l

s~.ITCHsPR

1

St.lTCHwP8

l

SWilChaSL

2

S~ITCH~Sl

Table

7-2.

ASSEMBI,.Y, TIMING

ASSEM6t..

ASSEMBLY,

ASSEMBLY,

ASSEMBLY,
ASSEMBLY,

..

nD

..

GLOW

T.,z

t~QA

250V

,8A

2SOV

..

RF

..

RF

..

RF

..

RF

..

RF

..

SASE<>PTR

..

8ASE

..

PTR

..

CONC

..

CONC~PTR

.SLG • I

MAIN

sua,

FRONT
SiJSmSW!TCH

1

SUB

..

RJGHT

REM<

HANDLE

ASSE~BLY,

SINk.

..

BSHG

..

BEVD

!"OR

ST><TP

SlDE,REAR(OLIVE
SIDE,FRONi(OllVE

ASSYI5 X

ASSVfFM

ASSEMBLY,

NP~

NPN

VAR
27K

(PART
(PART

YAR

OF

VAl<

"'

OF

A31 AMPLIFIER

SPST
DPDT

DP3T.,NS

DPJT

Replaceable Parts

Description

MOTHER

Y,

AMPLIFIER

t~TG

1

POWER

RATE

wiDTH

DELAY

7SOUFt75

llCIOUF'~IOO~lO%

BULB

SLO~BLO

SI,.Q

..

CEEmTERM$

BNC

6NC

'"

8NC

""

BNC

'"

FEM

BNC

""

FEM

BNC

FKO~TUR

KNOB,
IN

.s

IN

.s

AND

PTR

IN

.s

LEFT

TOP

..

FLG

114~32

11

BOTTOM

2N305S
2N30SS

CONTROL
CONTROL
COI'ITROL
CONTROL

.251'1 F

5%

50

OHM

AMPLIFIER

SO

OHM

"JC

~A

..

IIJS

OUTPUT

SUPP!.

..

10%

SSV

1.25X.25

BLO

1.2SX.2S

SGL

..

HOLEwFR

SGL~HOLE.,fR

SGL.

..

HOLE.,,R

SGL

..

HOLE.,FR

SGL

..

HOLE

SGL

..

HOt.,E

PRESS~MTG

JADE

JGK

SGimOECAL

JGK

SGI~DECAL

BAR

.S

IN

A~O

6AR

JGK

SGI~OECAL

,2500

810

NVkON

THO

BUSHINGSt

GRAY,STDl

GRAY,STD)

FM

SI

TO.,l

SI

ro

CC

SK

CC

SK

CC

SO><

CC

SOK

rc::ot

tO!!:

5W,
OUTPUT

10%

sw,

OUTPUT

"\01.1

250VAC

~tNTR

MINTR

·"

·"

Mfr
Code

28480

?MSO

28480

Y 281l80

7SVDC

Al

6'5\IDC

"

VI..

UL

SO.,OHM
SO,.OHM
SO

..

QHM

SO

..

QHM

..

FR

so

..

OHM

..

FR

so

..

QHM

GREY

JGK

IN

JGK

.s

BRS

Nl

..

Pl

BRASS

PQ=.!tSW

..

J PDe115f'j

10%

lOCW

10%

1

OCI'i

?0%

LIN

20%

L!N

.. !Oo

cc

ASSEMBLY

cc

ASSEMBLY

125\IAC/OC
12SVAC/DC

28460

2811SO

281.!80

26480

56

2M

sozaq

7427~

7591'3 31301.1:>

711.100
28480

24931

24Hi

214931

21.!931
24<;!31

2111;!31

~82''11

2BI.It'>O

281180

281.180

2BIH!O

281180 0310 .. 1108

281H!O
28480
281180
281180

281180
28480
,?81180
281180
281!80

281180
28480
28480
28480
28480

281180
261180
28480
281<80
281180

28480

261.!80

281.&tl0
?8460
28tl60 5060 .. 0767

28460

281.180
2:8<.1!!0

01

121

01121

01 i 21

01 t 21
27167

01121
0 1121

281!80
e23e<1 962

281.180
79727

7'1721

Mfr

Part Number

06005

..

60513

osoos

..

oosoq

06005

..

66510

08005

..

06511

08005

..

66512

08005

..

01901

06005

..

01902

06005

..

&1903

3<107'57G07SJL.4

D32872.,DEE

A9A.

.. c

MDL

8/10
9100 .. 3121
2SJR128,.1

28JR128'"1
?8JRt28"1
26JR128

.. 1

28JR128<>1
28JR128§1
013 .. 3013

o:no

0!70
0370
0370

0370 .. 1125
0380
08oos
08005

080Q'5a(I020'il
0800S
08005g00211
08005
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oeoos

08007"'0~103

osoo7~o•o

08010<>01105
1200 .. 0087

3101 ..
S000-0051
5000
5000

sooo

S040 ..
SOI!0,.0235
'301.10
5060 .. 0131

5060'>'8729
185ii ..

t 854 ..

J

J

'

'

C5

OBD
060

31QOmOSJQ
3101 .. 1720

Gt28S

G128S.,0003A

..

o9tl.l

.. 1097

.. 1099

...

1107

..

0008

..

ooto1

.. 00203

..

o021o

.. 00212
..

OI.l!Ol

..

o~102

0121:>

..

8701

..

8703

..

a<:lOB

02l4

..

1124

Q06~

0(1641

.. OOOH

..

1.189

01.1

Replaceable Parts

See

introduction

to

this

section

for

ordering

information

7-3

Replaceable Parts

Reference
Designation

Sll

T1

,,

"

"

'"

"

W7

"

"

)(f)A

XF\8

XF1C
XFtO
XFJE

XQ1

XG2

HP

Part

Number

}101~17~0

soso~o<~eo

IJ/i005a6J6\Q

08005

..

1Jlbll

{liJQ05aiJJb12

l)8005•Qibl3

olloos

..

eHt

OR005

..

61bl5

oeoos

..

etot e

8120

..

1689

21to~o~os

211Qm0470

?110 ..

01.167

2190 ..

1\054

11JQ0

.. 0090

P:00-00~3

1200~0043

~

Oty

Table

SWITCH•St.

1
1

CABLE

I

C

A6t.E

1

I

CABLE
CASU:

I

CAdLE

I

CA8Lf

1

CAI3LE

I

POWER

I

FUSE

1
1

1

!

1

2

HOLDER

FUS~HOLDEReE~TR

NUT,
WAShE_R,.L.K

~ASHER!RU88ER

INSULATQR
INSULATOR•XSTR

7-2.

OPDT~NS

ASSEMBLY,
ASSf'1BLV
ASSEM6l
ASSEMBLY,
ASSEMtiLY,

ASSEMBLY,
ASSEMBLY,
CORD

SET

ME

HE~

SINGLE

INTL T ND.·I/2

..

XSTR

Replaceable Parts

Description

STD

2A

MAIN

SHIELD

1

Y,

SHIELD

'

! !

SHIE-LD

!!!

I'Oi'IER

IV

v

)(TR

POST

UL/IEC ,2SX1.25FUSE.

POST

20A

CHAMFER

5/SK

ALUMINUM
ALUMINUM

112

00

2SOVAC

St.OR

200V

UL/IEC

..

28

THREAD

.SOS•IN•ID

Mfr

Code

LUG

26480
28480

26~80

28'160 oeooS ..
28<180
28'180

28480
28480

28480

0007K

28480

75'H5
75915

7816q

00000
7b5JO 3220'17

76530

3tot

SQ80ooQQ80

08()Q5mb\bj0
0800S .. t>!bl2

080QS

osoo~

oeoos
oeoos

402
2110"0465

345003 .. 010

qQJ .. 070

tqz1J

OBD

3220~7

Mfr

Part Number

..

17qo

blblt

..

blb13

..

Q16!1l

..

otets

..

eu>Je

31!

..

t2

Modei8005B

I

7-4

See

introduction

to

this

section

for

ordering

information

Model

80056

Reference

Designation

A I C t

A!C2

AICJ

A!Ctl
A!C'5

A!Cb

A I C 7

A!C8
AIC'f

A!

C 1 0

A I C

II

A!C12

A 1 C

!3

A I C 1 u

A I C

15

A I C 1 6

A1Cl7

A 1 C 18

A!C20

AtC21
A!C22

A!C23

A 1 C

2<1

A 1 C25

A!C2b

A I C27

A I C28

AtC2<l
AtC3o

AIC31
A!C32

A!C33

A1C34
A!C35
A1C36

A!C37

AI

C38

A!CH
A!C40

A 1

Cu

1

AtCt12

A!CII3

A!C4Q

Alt1.15

A!Ctlb

Aj(/.17

A!CLI8
A!C<I8

AI

CRt

AICR2

1

CR3

A
AICfHI

A!CRS

A!

CD6

A 1

CRS

A 1

CR<l

AICRIO

A I

C~<!

I

AICR!2

A I

CR

!3

A!CR!4

A!CR!S
AICR!6

A I

CR

17

AICR18
AICR22
A1CR23
A1CR33

AIL!

A1L2
AIL3

All<~

A1l5

HP

Part

Number

oeoos

..

ccst3

0 180802'<1
0180802'1!

0180~0374

OI40.,0I<lJ
0140

..

0191

0

t80~02<ll

0160

..

4213

..

01'13

Ot40

8

012\

0046

Ot4n~ot<;o

0180

.. 02«1

..

J714

0160
016!l•3722
0160•0116

0

180·2208

Olt>0•2055
0180•02«1

0140

.. 0145

0!80

..

02'lt

0160

..

4213

0121

..

0046

OIIIO

..

U07

01!'.0~?141

0160•3720
01o0 ..

37t2

01<10·0201
0160·2306
0160

..

4213
0180•02q!
0160•2055

0140 ..

01115
0121

..

0(\Ub

0!00

..

2?0~

0140

..

0?01
Ol&Ooo4?13

0)6084213

oteo-o2'1t

0180-2<?07

oteo

..

21~1

0160-3720
0160-3712

0!81}m(12ql
0100

..

2205
0180-00'58
0!80·02<l1

OIU0-01<ll

0160&~1'30

Qjlji)

..

0202
!90)

..

1)0~0

lqUlooOO~()

190!-00~0

l<lOI•OOliO
1'101ooOS33

1901-0533
1<l01•001.!0

1'101-00~0

!90i

..

OOIIO

1<l01&1)01.!0
l<l01•0I)t10

l<lOI•OOIIO
1910-001&
1910

.. 0010

1901

.. 0040

l<lOI

..

OOI.!O
l<lOI•OOI.IO
l901-017<l
1<lQ.I·0535
1901•0535

91110

.. 0111
<l140•0096
9100 .. 1612
9170-0029
9170 .. 0029

Oty

l 0

l3

Table

7-2.

BOARD

IISSEMBL

CI\PACtTOR-FXD IUI't,.IO%

CAPACITQR
CAPAC!TOR•FXD

C~PAClTOR•FXD

CAP~CITOR•FXD

C~PAClTOR•FXD

CftPACITOR~FxD

5

CAPACITO~·FXD

l

C~PACITOR~V

3

CAPACITUR

l

CAPACITUR
CAPACITQR
CAPACITOR

CAP~CITQRaFXD

CAPAClTOP•FXD
CAPACITOR•FXD

C~PACITOR•fXO

CAPAC!TOR

CAP4ClTOR~FXD

CAPACITOR•FXD
CAPACITOR•V

CAPACITOR•FXD

2

CAPAC!TOR-FXD

2

2

CAPAC!TOR•FXD

CAPACITOR~FXD

2

C~PACITQR

2

CAPACITOR~FXD

l

OPACITQP ..
CAPACITQR
CAPACITOR

C~PACITOR•FXO

CAPACITOR•V

C~PACITOR~FXD

CAPACITOR•~XO

CAPACITDR·FXO

CAPACITDR~FXD

CAPACITOR~FXD

CAPACITDR•FXD

CAPACITOR~FXD

CAPACITOR
CAPACITOR•FXO

CAPACITOR8FXD
CAPAClTOR-FXD
CAPACITQR
CAPACITOR•FXO

CAPACITQR

CAPACITO~~FXD

l

CAPACITORooFXD

I

DIOOE
OIODE•SWITCHING
DIODE-SWITCHING
DIODE•SW!TCH!NG

I

D

2

OIODE,.SCHOTTI<Y

DIODE~SWITCH!NG

DIOOE•SWJTCHING

DJDDE~SWITCHING

DlODE~S~ITCHING

OlODE~SWITCH!NG

D!ODE,.SWITCHING

DlDOE~GE

2

OlDOEaGE

DIOOE•SW!TCHING

DJOQE

OIODE~SwiTCHING

DIODEaSWITCHING

l

2

DIODE

0 I

COIL•MLO

l

COIL•MLO

l

COIL·MLD

l

CORE,.SHIELDING

3

CORE~SHIELOING

..

..

F:(O

..

FXD

..

FXD

..

fXD

..

FXO

..

FXO

..

FXD

..

FXO

..

FXD

..

FXO

..

FXD

.. SWITCHING

DOE

..

gc

HOT

bOV

bOV

..

SWITCHING 30V

..

SCHOTTKY

ODE,..SCHOTT

3.3UH
lUH
330NH

Replaceable Parts

Description

'f,

rifliNG

FXD

1UF+

..

!Ot
IOUF+•10X
56PF

+•5%
56PF

t~S%

!UFt•lO~

,IUF

+~20%

82PF

t•SX

TRMR•CER

3qpl' ta5%
lUFt•lO%

5600PF
,22UF

t~IOX

6,8Uf+•IO%
220UFta\O%

,01Uf

+80•20%
1UFt•10%
22PF

t~5X

IUFt•IO%
,IUF

t•20%

TRMR•CER

100UF+•10%
3,3Uft

..

,IUF

+•10%

3300PF t'"IOX

FXD

12PF

tooS%

27PF

t&5%

,tUF

+"20:<
!Uf+.,10%
,O!Uf' +80.,20%

22PF

tgS%

TRMR~CER

!OOPF

t•S%

12PF

+~5%

.tUF

+s20%
,!UF

+•20%
IUF+•lO%
100UF+•l0%

3,3UF+~IO%

,1\JF

+"'10%
3300PI' ••10%

1UF+•IOX

120PF

twSX
SOUF•75.,10X
lUFta!OX

56PF taSX
33PF taSX
t5PF

t~SX

30V

SOMA

30V

SOMA

30V

SOMA

30V

TK

K Y

SOMA

Y

30~

SOMA

lOY

SOMA

lOV

SOMA

lOV

SOMA

30V

SOMA

30V

SOMA

bONA

lUS

bONA

1US

30V

SOMA

.,SOMA

lOV

SOMA

15V

SOMA

10%

QR33

10%

QaSO

20%

Q•4S .1SSDX.375LG
BEAD
BEAD

35VDC

TA

35VOC

iA

20VDC

TA

300~VDC

300~~0C

35VDC

TA

SOWVDC

300W~DC

qf35PF

200V

300~WDC

35VDC

+*10%

<l/35PF
10X

q/35PF

TA

250WVOC

IOOWVDC
3SVDC
10VOC

100WVDC

3SVDC

TA

SOOWVDC

35VDC

TA

50WVOC

200V

IOVDC

SOVOC

100WVDC

250WVDC

500WVDC
300WVDC

SOI\'VDC

35VDC

TA

100WVOC

500WVOC

200V

300WVDC

500WVDC

SOWVDC
SOWVOC

35VDC

TA
10VDC
SOVOC
!OOWVDC

250WVOC

3SVDC

TA
lOOWVOC

25VOC

35VDC

TA

300WVDC
300WVDC
500WVOC

2NS

00 .. :!5

2NS

00
2NS

00a35
2NS

00

2NS

COolS

2NS

00•35

2NS

00~35

2NS

00•35

2NS

00•35

2NS

00•15

00~7

00•7

2NS

00•35

2NS

00oo35

2NS

OOG35
750PS 00•7

.1550X.375LG

.155DX.37SLG

MICA

MICA

POL'fE
MlCA

PC~MTG

MICA

MET
TA
TA

MICA
POLVE

PC~MTG

TA
TA

MET

MJCA
MICA

POl'fE

MICA

PC•MTG

MICA

MlCA
POl'fE

PO!.YE

TA
TA

MET

MICA

A~

MICA
MICA
MICA

..

35

..

35

MET

CER

MET

CER

MET

Mfr
Code

28480
5028q

'5626<l
S02B<l
7213C
7213C

S628<l
28480
72136
00865
7213b

50289
28480
28480
5628q
5b289

281180
S0

2M

7

2136
56289
28480

008bS
Sb28<l
Sb2M

281H~O

28460
72136

28480
28480
5628<l

281.180
72!36

00865

281.180
72136
28480

281.180
56

2M
5628<;
50289
281180

28480
56289

28480

56289
56289

7

2130

281.180
72130

281480
28480
28480
28480
28480

281080
281080
?8480
28480
28480

28480
28480
28480
28480
28<180

28480
26480
281&80

28480

,281180
21122b

9<f800
9<l800
02114

02111l

Replaceable Parts

Mfr

Part Number

t500105X<l03SA2
150D105X<l03SA2
!500106X9020B2
OM15ESOOJ0300WV!CR

DM!SE560J0300WV!CR

!50DI05X'f035A2
0100•4213
OM!SE820J0300WV1CR

304322

'1/35PF

'f/35Pf

9/35PF

6SAZ/IIA

N650

N&SO

N&SO

OMt5E390J0300WV!CR

150DIOSX<l035A2

0100•3714

0160oo3722

!50D065Xq03S82

1500227X90!0S2

0160

..

2055

150D!OSX'f035A2
OM!SC220J0500WV1CR

150D105X9035A2

Ol60

..

t1213

3011322

150D107X90IOR2

1500335X<lOSOB2

0160

.. 3720

0100•3712

0M15C120J0500WV1CR

.. 2300

0160
0100•11213
1SOD10'5X<l03SA2
0160 .. 2055

0M15C220J0500WV1CR

304322

01()0 ..

2:204

0Mt5C120J0500WVICR

otoo

..

~2t3

0100•11213

t50D!05X903SA2

150D!07X'fO!OR2

1500335X90SOB2

0160•1720

0100 ..

3712
IS0010SX9035A2
0160

.. 2205
300506G025CC2
1SODIOSX'f035A2

0Mt5E560J0300~V!CR

01&0

.. 2150

0Mt5C150J0500WV1CR

t9ot

..

oo~<c

1901 ..

00110

1901 ..

00110

1901 ..

00110

1<lQt•0533
1ll01

.. 0533

1901

.. 0040

l<lOl.,OOIIO

1'101•00110

..

OOIIO

t<lOl
t<lOt

..

OOIIO

1901 ..

00110

1910•0010

1910•0010
1901•0040

1901•0040

191)1

..

0040

1'101

.. 0179
1901•0535
1901•0535

15/331

1537•12
1537•04

56•590-65A214A
56

..

5t~0

..

See

introduction

to

this

section

for

ordering

information

7-5

Replaceable Parts

Reference

HP

Designation Number

AIL6
AIL

7

AIL$
A!Qt I

Attn
AIQ3
AIQII
AIQS

AIQb
AIQ7
AlQS 1854 .. 0053

t(;lQ

A
A1G!O

A l

Gl1!

AIG12
A!G13
A!Gl1'!
A1Q1S

A!G!b
AtG\7
4tG!8
AIQICl
AIQ20

A!Q21 !854G0215
A I

Q22

A I

Q23

1021.1

A

1

Q25

A

4\Gl26
A tG27

A

{Q

28

A

!Gl2Cl

AtG30
A

1 G3t !85}m0357
A!Q32 1853
A I

Ql!

A

1

Q311

A I

G35

A1R1

A1R2

A

tR3
A1RI.!
AiR5

A 1

R6
AIR7
A1R8
AIRCl
AIR

tO

A!Rt!\

t 2 0757.,0Q?O

A 1 R
A

1RI3

A 1 R t

~

A

IRIS

AIR16 0757

AH'I

1

A 1$'18
A!Rl.Cl
A!R20

A 1 R2! 07'57 .. 0280
A 1

R2?.

A I

R2l
AlR2U
A I

R2S

A I R 26
A1R27 07S7
A11<28­AlR?Q
A

Jf-130

API-;!
A 1

R3;>
A I R33 0757 ..
A I R

31.1

A l R

1'5

41~36

~lR37

AIR38

~1R3q

1

R<l

0

A

Cltoo
CltOO•lbtb

•H

70 ..

!>51.1

1851.1
185<1

1854

HISIO..-Ob3C
11153

185a ..
1853oo(IQ310

t851.1
1853

l

1\53

11\5J .. o036

1851.1
18511

!853
!853
!85'1

1851J~02!5

1851.!

11)53

1853~00311

HSIIm02! 5
1&510

1851J

1851.1

1851.1

1853•0034

t854.,0b30

1851.1
185

3oo00'52

!BSl
0757

0757->0718
0757
07S7mOlqO
0758

07S8mQOJ3
0757 .. 0273
06'!l8
0757mQI,IQj
0757aQJq8

07'57·0~07

0757~oq24

Q7'}7a0433
1l7S7

0698m31192
0757
0757aQ?f\l.!
07S7

0757~01111.1

0757 .. 0718
0757
0757 .. 0730

Ob<!l8
0757 ..

07'i7a0/.IOI
0757G0J.I0)

0757·0~!0

0757
0757

0757moatb
07:>7•02<!l0

0757~0280

0757-0280
0757aQ337
07Shoa17

Part

..

t/:116

002Cl

.. 0215
.. 0? 1 s
.. 0?15
..

021 s

..

0031.!
G053

..

(1b30

..

00310

..

0036

..

01130

..

0215

..

0357 4

..

0357

..

0215

.. 0630

..

0036

.. 0215
.. 0215

.. 0?15

.. 0?

15

..

0357

..

0307 I

..

OOl~

..

0718

..

02AO

8

0033 2

..

~011.1

..

0I.I42

..

01.101

..

01.!35

..

0B5

..

0718

..

)4Qf.

..

0II?b

0311!<

..

02!\0
04\5

..

0~07

Oty Description

Table

COIL

2

COIL
CORE

TRANSISTOR
TRANSISTOR

"

TRANSISTOR
TRANSISTOR
TRANSISTOR

'

b

TRANSISTOR

2

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

TRANStSTO~

TRANSISTOR

3

TRANSISTOR
TRANSISTOR
TRANSISTOR

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

TRANSISTOR

H~ANSISTOR

TRANSISTOR
TRANSISTOR
TRANSISTOR

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRAr-.SISTOR
TRAP>.ISISTOR

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

I

TRANSISTOR

4

RESISTOR

P~SISTOR

8

RESISTOR

I

RESISTOR
RESISTOR

RESISTOR
RESISTOR

I

RESISTOR

I

6

RESISTOR

\

RESISTOR

3

RESISTOR
RESISTOR

I
I

i<t.SISTOR
RESISTOR

5

RESISTOR

I

RESISTOR
RE.S!STOR

I
I

REsrsroR

R~srsraR

2

RESISTOR

I

i<ESISTC'R

I

~ESISTCR

~ESJSTGR

RESISTOR
i<ES!STOR

l

RESISTOR

I

RESISTOR

I

RESISTOR

I

RESISTOR
RESISTOR

RESISTOR

'

RESISTOR
RESISTOR

I

RE.SISTDP
RESISTOR

I

RESISTOR Q ,1

2

ReSISTOR
RESISTOR

R~.SISTOR

2
2 ReSISTOR

7-2.

Replaceable Parts

10~

..

MLD

1,5UH

..

MLD

1,5UH

.. SHIELOlNG

NPN
NPN
NPN
NPN
NPN

PNP
NPN
NPN

p'"

NPN

PNP
PNP

NPN

'"'

NPN
PNP

PNP
NPN
NPN
NPN

NPN

P'P

"''

NPN

NPN

NPN
NPN

NPN

NPN

"'

PNP
PNP

NPN
PNP

PNP

200
200

lK

36,5 " ,125W F

2K

2K

3.01K " .125W F TC:Ot

787

100
7S

200

7SO

1,1K
3,32K " ,t25W F TCeOtoiOO

IOK

100

2, 6 7K
3,Cl2K " ,125W F

I 50 " .1?5W F

1,

3K " ,

"

432

200

zoo

750

3,57K

I,

3K

30

,I

100

100
301

" "

47$

200

511

" "

" "

432

Sb2

Qo(!J

O%

Qa33

I

BEAD

PD~~:350MW

sr

P0~:350MW

"

POs3SOMW

Sl

POs350MW

SI

TO,.S2

Sl

SI

TO~ts

2N2218

Sl

2NZ2t8

SI

To

.. u

S!

ro

.. 52

S!

T0.,18

S!

P011l10MW

SI

PDa310MW

S!

TOoS2

S!

POw350M~

S!

TQ

...

t8

Sl

TO

..

i8

S!

SI

PD=3SOMW
P0=350MW

S!

Sl

T0

..

52

PD-350MW

Sl

PD:310M~

51

TOat8

Sl

51

PD=3SOMW

Sl

P0:3SOM~

PD•3SOM!'I

Sl

POm-3SO~W

Sl

P0=350M!'I

S!

TQ

..

18

Sl

TOo52

Sl

To

..

t8

Sl

To

.. t a

51

Sl

T0.,.\8

2N371.10

SI

TOm!S

Sl

.2sw

F

,251'1

F

,!25W F
,25W F TC=0+
,25W

F

TC~O+mlOO

,t25W F
,!25W F lCa0+

,t25W F

.125W F
,125W F

125W

0

"

,t25W F
,t25W F

.12SW

"

5X
5X

"

"

"

"

1%

"

"
"

"

"

?SW F TCm0+

,t2SW F

,!25W F

"

IX

,25W F TC=0+•100 1 '170 I MFS2C"I

"

,2SW

F TCaot

,25W

"

"
"

"

1%

"

"

"

ClK " ,125W f

"

"

F'

o125W

,!2SW f

IX

"

,!25W F

,t25W F

"

,125W F
,125W f

,

125W F TC=0+
, 1

25W F TC=0+
,!25W F TC=O+m\00
,125W F

,125W F
,125W f

,25W F
,12Si'J F

Mfr
Code

,15SOX,375LG
,!SSOX ,375LG

FTslOOMHZ
FTs300MMZ

FT:~~)OOMHZ

FT~~:300M~Z

POa3b0f-!W
PD=360MW

T0

.. 5 POe800MW

TOmS

P0ii:800I>1W
P011l60MW
PD=3bOMI'l

P011360MW

FT=250MHZ
FT=250MHZ

PDII360MW

FTs300MMZ

PDtt360MW

P0=360MW

FT=:SOOMHZ
FTa300MHZ

PD=360MW

FTm300MHZ
FT:250MMZ

PDe3bOMW

FT=300~HZ

FT:300MHZ
FTu300MHZ

FT=31)0MHZ

FT:300MHZ
POa360MW
POB3/:IOMW

_,D..,360MW

PO:t360MW

"'O~:e300MW

TOm66

P0=2SW

P0=360MW

rc~o~~too

TCilllH

..

IOO

TC=o~

..

tOO

TC:::Q;-

.. 100

.. 100

..

TCcO+=IOO

TC~O+mtOO

TC=O+•IOO

TCWO+~IOO

F TCil0+G100

TC=O+stOO
TC=0+

F
TCIIQ+

rc=o+ ..

TC:Ot~100

rc:ot

F

TC=Otm!OO
TC=O+.,IOO

TC=O+

rc=o+

TC=O+•IOO
TCz:Ot
fC::O+aiOO 19701

TC=0+

IOO

..

100

.. 100

TCiilOt

..

IOO

TC!l:Ot

..

100

..

lOO

.. 100

IOO

..

100

..

too

TC=O+~tOO

TC=O+~tOO

TC=O+~IOO

..

IOO

.. 100

..

\00

..

too

TCmO+~toO

..

lOO
..

100

21l22C
211220
02114

Oll71l

1)<1713

0<~711

011713
011113

281080
OtJ713
0<1713
28480

011713

281.150
28480
28480

011713

04713
26480

28480
04713
OIJ713
04713

0471l

281.180

28480
011713
0'171!

0'1713

01.1713

Oll713

281.!80

04713

28480

281080

281.!80

04713

28<!80

!'HOI

t

not

21J54b

21.15llb

27167

2n61

2115106

21.151.!0

2115116
?451.16

24'5110

24'51.10

24546

245'11>

2454b

21151.16

24546

21.15116

2451.16
t9?0

24546
2105/Jb

1

q7o

I 9701

21.1546

24546
2105'16

21.15116

21.1511b

2<15106

?45116

2/JS/.16

21051.!b

21.1'51.16

1

'=17

0 I

21051.16

211'51.111

?.45106

Mfr

!5/151

15/151

so

.. s90mb5A2/i1A

SPS

31>11

SPS

lb11

Sf"'S

3611

SPS

3U

1

552077
18S3 ..

00311
2N2218
2N2218
1853

..

0031:1
S$2077

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..

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185}

.. 0036

1853

..

00311
S$2077

SPS

3611

1853

..

1)357

1653

.. 0357

SPS

3611

SPS

3611

$52077

SP$ 3611

1853 ..

0036

1853<>003/J

SPS 3611

3611

SPS

SPS

3611

SPS

3611

SPS

3611

1853

.. 0034

SS2077
1653

.. 0357
1!!151=0357
!8511mOJ07
2N37140
1853

..

0031!

MF52C'"t
MF52C

.. I

CliGt/s~ro~toot~r

CI.I•I/SmTO .. lbRS .. f

cs

"

CI.!~118

..

TO~l011~F

Cll~tiS~To~787RwF

Cl.l

..

j/8GT0

t/e

..

To

..

1/8eT0

..

TO

.. t/8mTO

.. j/1:\,.TO ..
..

tt8

..

TO

..

1/8

.. T0,.201 .. f

.. 1

.. 101.,F

.. 751
..
..

.. IOl

..

..

..

..

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C'1~1t8~T0~75ROmf

Cti,.1/8 .. TOo201oof
cll ..

C4~11S~T0

C4

Cllm1/8~ro~too2~F

C4.,1/8

cn~tiS~TOe207l~F

Cli01/8@T0.,3921~F

CIJ

I

Mf52C"1

CtJ~t;a~ro~toot~F

CII~IIB~TO

1 MF52C.,I

MFS2C"1

Cl.!~ti8~T0

C4~tts~ro~t301~F

CU
CIOm1/6.,TOm101
Cl.l

Cl.!~l/8mT0•30lR~F

Cl.!•t/8•TO~t001

Cl.l~t/8mT0

C4

CtJ•ti8~TO,.S1tR~F

MFIIC1/8vTO•blql ..

CI0•1/S~TO~I001~F

Cl.l~!t6•T0•!001~F

MFS2C
C4w1/8sTO .. Sb2R .. F

Modei8005B

Part Number

..

f

!101~F

332t~F

..

F

i51"F

'I32RwF

3S7RsF
JOoR!.,I"

..

F

!Ol

..

F

.. F

1075RmF

f

7-6

See

introduction

to

this

section

for

ordering

information

Modei8005B

HP

Reference

Designation

A 1 Rill 0757mQ4QI RESISTOR

II!Rt12

AtRU3

AIR114

A 1 RIIS

A1Rt1Q

A 1

R4

7

A 1 Rll8

APl49

A 1

RSO

AIRS! 0757-07:5-" 2

A 1

RS2

A 1

RS3

AtRS4

l

RSS

A
A 1

R56
A1RS7
A 1

R58
A

1

RS9
AI

ROO
A1R61

A1R62
A.IR63
A1R6l!
AIR65

A!R66
A!R67 0757 .. 0337
A1R68

A.!R69

A 1

R70
A 1

R71

A.l

R7

2
AtR73 07'57-0721
A.!

R74

A!R75 0757
A!R7e

A 1

R77

A 1

R7

8
A 1

R79

A 1

Rt<O

A!R8t

AIR~2

A 1

R8

3
Atll8t1
A!Rf\b

A I

R~7

A1R88
A1R8S
A1R88
A1R88

A1VR7.35

A1VR1'1

AtVR20

A 1

VR2!

Part

Number

0757·0284

0757•0427
0757

..

0397

o7s7

..

o3n

0757-0401

0757·0433

0757ooQ433

0757·0721

0757·0827

0757•01105
0757-0730
0757-0354
0757-01101

0758 ..

006&
0698-3242
0757•0282

11757-.0411

0757·1)407
0757 .. 0410

0757·0~10

0757•0280

0757·0283
0757·0290

0757•0280
0757•0417

0757•0401
0757•0427

0757 ..

(1397

0757•03~2

0

7'57ooQ4

J3

..

0433
0757-0405

0757

..

0738
0757-0730
0757·0827
0757•0354

0757-0?80
0757-0437
Ot>q8

..

32ll2
0757-(1411"

o7s7~o:sn

0757-0200

075/-0465

0698-3454

0698·

..

-4543

1"02oo3J49

1"02·0041

jQl)2

..

Q041
1<i02-0Gtll

Oty

2 RESISTOR
2

'

2
2

'

2

'

2

'

'

'

'

'

I R£SlSTDR

'

J

RESISTOR

RESISTOR

RESISTOR

RESISTOR

RESISTOR
RESISTOR

RESISTOR
RESISTOR

RESISTOR

RESISTOR

RESISTOR
RESISTOR

RESISTOR
RESISTOR

RESISTOR

RESISTOR
RESISTOR

RESISTOR
RESISTOR

RESISTOR
RESISTOR
RESISTOR
l<ESISTOR

PESISTOR
RESISTOR
RESISTOR

RESISTOR

RESISTOR
RESISTOR

llESISTOR
RESISTOR
RESISTOR
RESISTOR

RESISTOR

RESISTOR I ,82:K " ,
RESISTOR
RESISTOR

RESISTOR
RESISTOR

RESISTOR
RESISTOR
RESISTOR

f<ESISTOR

RESISTOR 100 K

RESISTOR

RESISTOR 487 K

MAY

D!ODE·ZI\;R

orooE ..

DIDOE·Z~H<

OI00E•ZNR

Table

7-2.

Replaceable Parts

Description

.t25W F

100
!50

"

t.SK

"

b8.1

"

"

143.2

"

100

3.32!<

"

3.32K

"

"

"

2.

71<1< " .SW F TC=O+•IOO

'"

I .82K " .2SW F TCcOtW100

'"

150

"

"

3.&5K

"

100

1%

020

"

357

"

"

"'

"'

"

200

"
"

"'

!K

,125W F TC•0+•1110

'"

"

"

~t25W

2'

"

6, 1 <fK " .125W F TC•0+•100

,!25W F TC=0+•100

!K

"

562

"'

"

"

!00

"

I,SK " ,12SW

os.t

43.2

"

"

274

"

3,32K " ,t25w
3,

32K " .125W

'"

"

750 " .25W F TC:Ot•!OO 19701
2,74K

"

3,

bSK " ,2SW

,125W F TCzOt•IOO

" "

~.75K

"

357

"

2"

ll'3,2 " ,1251'1

"

s.o2K " .125W F TC•0+·100

215

K

BE

OMITTED.

'f.09V

ZMR

5,1

IV

"

s.uv

s.t1V

"

"

TC•O+•IOO

.t25W F TC•O+•tOO

.1251'1

F TCII0+•100

.t2SW

F

.USW

.125W F TC=O+•IOO

.2SW

.12Sw F TC=0+•100
.2SW F TC=O+•lOO

.125W F
.2SW F TC=O+•IOO

.125W F TC•0+•100
.125W F TC•O+•IOO
.12Sw F
.12SW F TC=0+•100

,1251'1 F TC:oO+•tOO
.125W F

.25W F TC:O+•!OO
.t25W F TC=Ot•iOO
.12SW F

, I
,12SW

,251'1

,!25W F TC=0+•100

.125W F TC=Ot•!OO
,125W F TC=-0+•100

"

TC=O+•IOO

F

TC=O+•IOO

.t25W F

TCaO+•IOO

.125W F TCaO+•tOO

F TC•O+•IOO

.zsw

F

TC=O+•lOO

TC=O+•tOO

TC=o+~too

TC=O+•IOO

F TC=Ot•lOO

TC:0+•100

F TC•O+•!OO

25W

F TC=Ot•100
F TC:O+•IOO 2454&

F

TC~O+•!OO

F

TC=0+-100

F

TC:ot~IOO

25W F TC=O+

,5W F TC=O+•IOO

,!25W F TC:Ot•IOO 2454&

oo-7

Dc·7

00

.. 7 P0=,41'1

oo

..

..

IOO

F TC:O+•IOO 19701

F

n:=o+•tOo

PD=.~ill

TC=t.057% 0<17!3

po:.u;o.

TC=•,009X
TC:

7

PD=,4W

Tc:

...
...

OI)'fX
oo<tx

Mfr
Code

21.1540

24540

21.151.10

2451.1:0

24546

245110 CII•1/S•T0•101•F

245tH~

211546

19701
19701

19701
245116
19701
1<1701
211546

27167
21l5116
2451:16
245116
2451l6 C 4

2'15116
21:15'16

2~5ll6

2115116
!'HOI

2'15116
19701
245116
211546
24546

21l5116
19701

21l54&

21<54!:>

245116
tfHOI MF52C•I

19701

245111:>

2~Sil6

211546
21l5116

245116

!58!8
!5818

)58t8

Mfr

Part Number

C4•1/8.,T0•101'"F

C4•118

..

T0•151

C4•1/8•TO•J501•F
C4•1/8•TO•b8Rt•F

C4•1/8•T0•4lR2ooF

CI.!•1/8•T0•332t~F

ta•t/8•T0•3321•F

MFS2C•1

~F7C112~T0•271li•F

~FS2C•t

CII~118•T0~162R•F

MFS2Col
'"F52C•1
C4•118•T0•101•F

C5

Cll•118•T0·357R•F
CI:I•118•T0•221R•F

C~~ti8•T0~332R•F

..

118• T 0•2

CII•I/8•T0•301R•F
CQ•118•T0•301R•F
CII•118•T0•100I•F

C4•118~T0•2001•F

MFQC118•T0•61<f1•F
C4•118•T0•1001•F

MFS2C•1
C4•118•T0•5b2R•f
ct,j

..

l/S•TO.;.tot

C4•116•T0•1501•F
Cll•118•T0•68R1•F

C4•118•T0~43R2MF

MFS2C•l
C4•118•T0$3321•F

C4•ti8~T0•3321~F

C4•118•T0~162R~F

MF52C•1
MF7C112

~F'52C"I

C4•118•T0·100!•F'
C4•1/8mT0•4751•F
Cll•118•T0•357R•F
Cll•l/6•T0•2002•F

C4~ti8•T0•t,j3R2~F

C~•I/8•T0•5621•F

sz

10939

CD

35622

CD

3562?
35622

CD

0 t

..

T0•2741•F

..

170

Replaceable Parts

.. F

•F

.. F

See

introduction

to

this

section

for

ordering

information

7-7

Replaceable Parts Modei8005B

Table

7-2.

Replaceable Parts

HP

Reference
Designation

Part

Number

Oty

Description

Mfr

Code

Mfr

Part Number

"

A2CI
A2C2
A2C

3 0160

A2CIJ
A2CP7

A?CR8
A2CR9
A2CP10
A2CR11

A2CRI2
A2L1

A2L2
A2L

5

A2L6
A2WI
A2Q2
A2G3

A2QII

A2Rl
A2R2
A2P

3
A2fl!J
A2RS

A2Rb
A2R7
A2f<!!­A2R9
A2R

1 0 ooqR-"io3t>
A2Rtl

A2R12
Ai?R13
.1,?.Rt4
A2R15 0757

A2f.ll6

j~,2R17

A2R18
A2fl!q
A?R20

A2Ri?l
A2R22
A2R23 0757oo0283
A2R21.1
A2><25

Ai?R26
A2R27
Ai?R28
A2R2Q
A?R30

A2R31
Ai?R32
A2R33
A2R34
A2R35

A2R36 075?..0453
A2R37 0757 .. 0283
A21<38
A2RH
A2RIIO

A2RLI1
A2RI.I2
A2R43
A2Rota
A2R4S

A2R46 0757

1)8005~6650'1

()!60•017.:1

016()~017.:1

..

(!055

0160•?055

J<;IOI•OOI.IO

1<;101•001.10

1<;101

..

~050

1"01•00'50
1"01•0050

1901·0050

<ttl.lo~nua

5081

..

1<113

<?p.:o-o111:1

51)8\mj<HJ

1853•0051

12QSooQO!>l

1~54·003<1

1 ?.:os-oo:n 2
11353•0051

t2o5

..

o033

\851.1~0039

1205~0061

0698·5036
0698-5036

0698-5036

o6qe

..

so36

0698·5036
0757-0811

0757-(!198
0691'--.:1123
11698-'5036 RtSISTCR

0698-5036

ooqe-5036

06<'18

.. 5036

0757•0!311

..

0198

0691\oo/.1!?.3

0757ooi)~38

0757-0438
0757•01158
0757•0451

0757·0453

0757ooQ283

0761·0014
0758 .. 0030 v

0761-001.:1
07SSooOQ30

0757-0431

0698~3<1(/2

0757•0477
0757vQ4]1\

0757ooQ438
0757-0458
0757•0477

0757·0~53

0757 .. 0283
0761-0011.1
0758-0030

076\vOQl£1
0758

..

0030

0757•0431

0698·3~92

0757ooOq42

..

0442

SOARD
CAPACITOR•FXO

2

CAPACITOR
CAPACITOR

2

CAPACITOP
Ol0DE•SWITCHir.;G

2

DIOOE•SWITC~ING

v

DIOQE
DIODE
DIODE

D!

ODE

COIL•MLD

2

INDUCTANCE,

2

CC!L•MLO

INDUCTANCE,
TRANSISTOR

2

HEAT

2
2

TRANSISTOR
HEAT

TRANSISTOR

HEAT

TRANSISTOR

HEAT

IV

RESISTOR

RE.SISTOf.l

FIESISTOR
RESISTOR
I<ESISTOR

RESISTOR

2

2

RESISTOR

2

RESISTOR
RESISTOR
RESISTOR

RESISTOR
RESISTOR
RESISTOR
RESISTOR

RESISTOR

v

RESISTOR
RESISTOR S .11

2

RES I STOP

v

RESISTOR
RESISTOR

v

RESISTOR
RESISTOR

v

RC.SISTOR
RESISTOR

RC.S!STOR
RESISTOR

2

RESISTOR
PESISTOR

2

RESISTOR

2

RESISTOR
RESISTOR
RESISTOR
fH:.SISTOR
RESISTOr<

RESISTOR
RESISTOR
RESISTOR
RESISTOR
RESISTOR

RESISTOR
RESISTOR
RESISTOR 2 .1131<
RESISTOR

2

RESISTOR
RESISTOR

tSSfMI:l!.Y,

..

SV<ITCHING

..

SV<

ITCHING

mS~

ITCH I IIIG

"'S>'i

ITCH I Ill

SINK
SINK
SINK

SINK

MOTHER

t60,.20X

•

.:~7uf

..

FXD • .:17UF

..

FXD

..

FXD

500UH

3•8EA0

SOOUH

J ..

P~P

T o .. s I

NPN

To

..

PNP

T o ..

NPN

TOmS/TOwJ<;l

250
250
250

250

250

!00

'"

V09

250
250

250
250
250

192

100

V99

s.ttK
5 1,1K

30.11< " .t25W

30.IK

2K
2K

"

180

"

510

!80

510

2.

43K " ,1251'4 F TC:Otoo!OO

2 •

67K

3321<. " ,t25W F

5.111<. " .125W F

5.ttK
51,

11< " ,125W F
H2K " .12SW F
30 • HI

30.

11<

IX

"

"

180

"

510

!80

510

2.

&71<. " ,125W F TCaOt•lOO

!OK
10<

+S0-20X
+80-..20%

.OIUF
.otuF

+80 ..
'SOMA

30V

SOMA

30V

200MA

sov

200MA

BOV

BQV

200MA
200MA

G

sov

SX

Q=6S

5%

Q;b5

SEAD

2N4037 SI
ro

..

39ooPKG

2~13053

srro

.. 39 ..

2N4037 SI

srro

.. 39 ..

2N30Sl

..

F

IX

.sw

F

IX

·"

.5>'i F TC:Ot•100

"

F TC=ot ..

"

·"

IX

'

·"

,sw

F

"

.sw

f

.t25W F TC=0+•100

"

IX

.5w F

.51'1

F

"

"

F

.5w

IX

F

IX

F

·"

"

F

·"

"

F

·"

.sw

"

.12SW F

"

l25W

0

K

.125W

"

"

.12'5\'j

"

.t25W

,12SW F

"

.125W F TC=0+•100 24'546 Cl.looi/8•T0•2001•F

IW

MO

5%
5%

,25W F
!W

MO

"

5%

.2SW

,t25W

"

.t2SW F

"

,t25W F

"

.12SW F TCaOt•lOO

"

.t25W F TC=Otoo100
.t25W

5X

lW

MO

5X

,25W F TCaOt•lOO 27161

IW

MO

"

5¥ ,25W F TC=Ot•tOO

~t25W

"

.t25W

"

.t2SW P

"

28480 08005 ..

2SWVDC

CER

2SWV0C

CER

IOOWVOC

20:1:

1001'iVOC

2NS
2MS

2NS
2NS
2NS

"'

.19DX.I.I4LG

.l<fDX.~I.ILG

TOooS

Sl

ro

.. 5

;;>KG

ro-s

PKG

Sl

TO•S

fi!<G

rc=o+-too

TC=O+~IOO

TC;Ot"'l
rc=ot

..

TC=O+

..

TC=ot ..
rc=o+-t

TC=Ot

.. 100
TC:Ot .. 100
TC=0+

.. 100 q 1637 MFfool/2-10
TC:0+ .. 100
TC=0+

.. 100

TC=o+

F TC•0+-100 2US4b
F TC=Ot.,lOO
F TCm0+-100

F Tc=o•

F TCmOt•lOO

TC=Ot

..

TCml)t

..

i?OO

TC:Ot-100

TCmOt

.. 200

TC=O+

..

F

F TCsO+•IOO

TC~.<Ot•100

TC:Ot

TC:ot~too

TC~.tOt~IOO

TC~.<O+•lOO

TC$0+~100

F TCaOt•100

TC:ot

..

200

TC=Ot•200

F TC•0+•100

F TC•Ot•lOO

TC:a-0+

CER
CER

Q0

..

3S

00 .. 35

00.,7 28480 1901
0Qoo7

00

..

7

00

..

7

PD~.t1W

PDll'tW
PD:IIIJ

~Do:tw

IOO

00

too
IOO

IOO

oo

..

too

..

too

!OO

IOO

..

IOO

.. 100

28480
281H!O

281.180
28480 0100

281.160

261.180
28480

28480

281.180

21.1226

28.:180
2LI226
26480

02735
28480
011713
28480
02735 2Nil037
281160

01.1713
281J80

91637

q

!637
(Jib37
91637
"11:.37

1"701
19701
2115116
91

&3 7 MFF-1/2•10

q 1637

91&37
91037

!9701
t9701

24546
24546

2454(:,

21.151.1&
24546

245<1&
11502

27167
11502

27107
2105116
245111:.
!9701

245'16
24546
2451!6

t 9701

24'3'16
245«6

24546
24546
11502

11502
27107
2/.!St!b
211540

21.154&
24Sqb

66501<

Olt.Ooo0)711
0100

..

0174

0100 .. 2055

..

2055

1'101

..

001.10

1<;101

..

00.:10

..

0050
1901-0050
1901•0050

1901

..

0050

19/503
S08!w1973
19/503
5081•1<f73

2N4037

1205 .. 0061

2N3053

1205 .. 0033
t2o5

..

oon

2N:SOS3

1205~0061

Mff.,t/2•10
MFF

..

j/2

..

MFF•I/2
MFF-1/2 .. 10
MFF•IIi?-10

MF7C1/2•T0•392R•F
Mf7Ct/2•T0
C4•1/8

MFF•I/2•1
MFF

MFF

~F7C1t2~T0•3<fiR

MF7Ct/2oTQ

CII•I/8~T0•49qR

CU~tt8ooTQ•51t1•F

C4•1/8•T0•5111•F
C4
C4wi/8•TOoo3012 .. F

C4-t/8•T0•3012~F

CIIQI/8·T0•2001·F
RG32

cs

RG32

cs

C4•118~T0~2113t~F

C4~1/8

MF4C1/8·T0•3323•F

Cll~118•T0~5111•F

C4~1/8PT0~5tlt•F

CII•I/8•T0~5112~F

MF4Cl/8ooT0•3323~F

C4ot/8•T0•3012•F
C'I•1/8•T0•3012•F

C4•1/8vT0~200t•F

C4•1/S•T0•2001•F
RG32

"

RG32

cs

C4•1/8•T0•2113l•F
C4•t/8•T0•2671•F

CII•1/8•TO•l002~F

CI!•1/8•T0•1002~F

10

..

!0

..

..

TO

..

Q99R

0

..

l/2-10

..

I/2

.. 10

..

..

1/8•T0•5t12•F

..

f0

..

2671~F

101•F

.. F

101wF

..

.. F

F

7-8

See

introduction

to

this

section

for

ordering

information

Modei8005B

Reference

Designation

A2S1

A?S2

A253 :!;101 ..

A?S~

A2S5
A2S6

A2U1

A?VR 1

A2VR?. IC<02 ..

A2VR3

A?IIPtl
A?IIRS

A?VRb

HP

Part

Number

J!O!mj$96

3\0lo\5%

15(/b

3101

..

1596

3101

..

1596

3\0\oj$96

1826

.. 0 I

11

lQQ2 .. 002'>

0025

1902

..

3.?%

1'10?

..

3256

tqoz

.. J2"io

1902~325!>

Oty

'

1
2

4

Table

S~ITCH~SL

SWITCH

..

SL

SWITChmSL

SWITCHmSL

Sw!TCH ..

SL

SW!TCH.,SL

IC

MC

11.158

OIDDE

..

ZNR

QjOOE ..

ZNR

Dl0D£~ZNR

DlODE

..

ZNR

DIODt:"ZNR

D!ODE~ZNR

7-2.

Replaceable Parts

Description

DPDT

..

NS

OP

..

NS

..

NS

..

NS

..

NS

'"'

sx

5%

"

"

"
"

oo

00

MINTR " t25VAC

MINTR

M!NTR

MlNTR

MINH!

MINTR

..

..

00 .. 7 PDc.4W
DOm7
00 .. 7 PD:.l!W

oo

DPDT
DPOT

OPQT

OPQT
OPDTmNS

!OV
!OV

23.711
2l.7V

23.711

23.7V

7

PDm.4~

1

PD=,Q~

..

r POc,'IW

1A

125\IAC

t2SVAC

"

lA

125VAC

12SVAC

"

12'.5VAC

lA

?D:.4w

PC

PC

PC

PC

PC

PC

TC&+.Ob%

TC•+.06%

TC~~~+.07bX

TC"t.07b%
TC:+.076,;

rcu.o76%

Mfr

Code

<!8480

26!180 3101<>1596

28460

28480

28480

281180

04113

281061)

281.180

OU7tl
04713

0~713

04713

Mfr

3101

..

1590

3101

..

1596

3tot

..

t59e

l10i

..

!59b

31

0!

.. 151H)

1-\Cl!ISSG

1902

..

0025

1902ooOQ25

10'13'<

sz

10H'l

sz

10939•2'tO

sz

10'13'1 ..

sz

Replaceable Parts

Part Number

.. 290
.. 290

290"

See

introduction

to

this

section

for

ordering

information

7-9

Replaceable Parts

Reference

HP

Designation Number

Part

Oty

Table

7-2.

Replaceable Parts

Description

Mfr
Code

Mfr

Part Number

Modei8005B

.,

A3C

1

A3C2
A3C3
A3C4
A

3C'5

A

3C

b

A3C7

:SC

8

A

ncq

A.3C1

()

OC11
A3C

12

A3C

l 3

A3C

14

A3C

15

AJC16
ll.3C17
A

3C

18
A3C!9
A

3C

20 0160
A3C2!

A

3C

22

A

3C

2';

A3C24

3C

25 0160

A
A3C

26 0160 .. 2139
A3C??
A3C28
A3Ci?9
A3C

30

3C

3\

A

A3C32 0160

A3C33

A

l;C

3~

A3C35
11305

A3CR2

A3CR4
A3CRIO
A

3CR

11

A

:SCR

lll 1901

A3CR15
A3CR20 1901
A3CP21

A3CR22

A

~CR23

A3CR21.1
A3CR25
A3CR29
A 3CR30
A3CR31

A3CR32
A:5CR33

A3L1
A 3L2
A

3L

3

A

31..1.1

A

3L

5

A 3L6
A

3L

7

A1L8
A3L9
A3L!O

A

3L

11

A3Q!
A:5Gl2
A3G3
A.3Q4
A3Q5

OROCS~M':-10

O!i:ifl~17(;4

otou~;>u55

O!eo~znss

o 1
lll60

0160•4213
OI80 ..

01oO~?o5<:>

0160~3~%

(lj(;Qw2(15'3

0\60~2159

0180

0\60~0174

01o0e3~56

0!(>0

0160.,()\ H

otoo

0160~017~

fl)t>Om?\J55

0160 .. 20'55

0160~1<213

()1\>0~0174

01i>0

0\60~20'5'5

0160~20'55

(l\bQa2055
0\b()m!,U%

0160

01~0

0140~0196

0!40~0193

01o0~22o~o

1<l10~00)I.l

1901~0040

1901900~0

l901

j9Q)ei)1)lji)

\9Q)mQ':)33
190t

1901~0533

190l~0040

\90Jv00~1)

1901
t9ot
1901

!¢01~0533

1901~0533

91~0~0090

<'l!QO.,OO<'lb

V!~O

'H~O~OO'fl.l

9100
9100

9100~?247

9!00
91
9100

'11Q(lv2?51

1854~0630

t85:5o.0211J
1854
!854
1853

on~2o5':

..

42!3

17r~

.. 02'11

..

3~'56

..

ot7u.

..

205'5

..

017ll

..

205'5

.. 2327
..

2321

..

0196

..

00ll0

..

1\0~0

..

0533

.. 0'533

.. 0533
.. n533
..

0533

..

OO'fl:l

..

1621.1

..

1621.1

.. 2247

00

..

03~6

..

0341'1

.. 0630
..

0631)

..

00}11

BO~iiD

CAPACl

2

CAPACITOR~FXO

12

OPACITOR~F'XD

CAPACITOi<
CAPACITORaFXD

l

CAPACITOR~FXD

CAPACITORmFXO
OPACITOR ..
CAPACITOR
CAPACITQRGFXO

'

CAPACITQR

2

CAPAClTOR

I

CAPACITOR

'

OPACITO~~FXO

CAPACITQR
CAPACITORmFXD

CAPACI'TORg!"XD
CAPACITOR..,fXD
CAPACPORmFXO
CAPACITORaFXD

CAPACITOR
CAPACITORPI'"XD
CA»ACITOR
CAPAC

CAPAC!TOR~f'IXD

CAPACITOR
CAPACITORwFXD
CAPACITORmFXQ
CAPACITORaF'XD

CAPACITQRvF~D

CAPACITOR~FXD

1

CAPACITOR

C~PACirORm!"XO

1

CAPAC
CAPACITQR

I

O»AC

I

DlODF~Gt.

I

7

DlODt~SWITC~ING

DlCQEgS~ITC~ING

DlODE
D!ODE•SWITCHING

DIODE
DIOOE•SC!-iOTT!<:Y

'

DIODE~SCHOTTKY

DlOQE
O!ODE

O!ODE
D 1

DOE
DIOQE
DIOOE
DIODEvSCHOTTKV

DIOOE
D!OOEuSC!oiOTTKY

CCIL

3

I

1

1
1

I

'

I

"

..

COIL

..
CCILaMLD
CDIL

..
CO!L

..
CO

Ilv1>4LO

CO!L

..
COILmFXD
COIL

...
CO!LBFXO

COIL~FxD

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

ASSE'-~SLY,

TOf<~FXD

ITOR

ITORD!'XD
ITOih•FXD

..

SwiTC~ING

..

SWITCHING

..

SCHOTP\Y

..

SCHOTTKY

.. Si'iiTCH!NG
..

SwITCH 1 NG

..

SCHOTTKY

..

SCHOTTKY

..

SCHOTTKY

f'.ILD
MLO

MLO
MLD

nD

FXO

47UF+.,IO%
.otuF

,01UF +80

..

F'XO

.OIUF +80

,
,!UF + ..

47Uf+mlOX

FXO

.01UF

..

FXD

1000PF +
.OIUF

..

PXD

220PF"

..

FXO

1UF+~tO%

..

!'"

XC

,47UF +80,20%
iOOOPf +

..

FXO

lOOOPF'
,47UF

,1.17UF
,47Uf

• 0 l
,

..

FXD

.OiUF"
,I

..

!"XD

0

.. F ~ D

,47UF
.O!UF +80

..

I'"XD

220PF tao
.otUF

.OtUF

.0
lOOOPF

!OOQPF

..

FXO

\OOOPF

150PF + ..

i50Pr

..

FXO

82PF

lOOPF

30\1

SOMA

IUH

10%

lUH

10%

lOX

IUH

6SONH
30UH

5%

30UH

SX
MOLDED
MOLDED
MOLDED
MOLDED

117UF

MOLDED

NPN

Sl

PNP

SI

NPN

S!

Sl

PNP

''"

"

AMPLIFIER

!UF

U~"

01

UF

UF

IUF

30V
30V
30V
30V

30V

30V

'"

o=so
Q:so
Q:SO

10~

Q~65

Q~:.65

Rf
RF
Rf
RF

RF

OUTPUT

bVDC

+80.,20%

+~201

+80-20%
+80
+80•20%

t80

NlO~zox

+80<>20X
+80p20X
+80

+80~20%

+~20~

+80

+80~20%

+80m201
+8Qm20%
+80

t ..

tDSX

+ ..

8NS

SOMA
SOMA

SOMA
SOMA

SOMA

SOMA

SOMA

Q:~~5o

CHOKE
CHOKE
CHOKE
CHOKE

CHOKE

T0

..

TO

..

ro

..

ro

..

TO

..

TA

100\'IVDC

..

20%

..

20%

SOWVDC

20%

SOWVOC

bVOC

100YiVDC

..

101

!OOOWVOC

..

20t

100\'iVDC
1000WVDC

35VDC

25WVDC

..

10%

!OOOWVDC

+'"10%

1 ooowvoc

..

20X

25WVDC
2SwVDC
25WVDC
1

..

20%

SOWVDC

..

20%

2Sii\JDC
25WVDC

..

20%

..

2ox

..

20:1

100\'<VDC

+,.10%.

IOOOYiVDC
IQQVjVQC

+"'20!1:

toowvoc

+"20~

5%

300WVOC

SX

300w\IDC

300WVDC

5%

300WVOC

00m7

2NS

2NS

2NS

2NS

'"

2NS

'"

,ISSDX,
.ISSDX,375LG '19800 1537
,!5SOX.375LG

,15SDX.3751..G

.t55DX.315LG
,!55DX,375LG

•

!UH

.IUH

•

05UH

.OSUH
.22UH

52

PO:r3t.OMW

t8

P01113bOM~

sz

PD~t:SOOMW

sz

PDIIlOO~W

IS

POII300MW

IOOWVDC

IOOWVDC

POLVE
POLYE

TA

r•

CER

CER
CER
CER

OOWVDC

IOOWVOC
lfiOWVDC

POLYE

CER
CER

IOOWVDC
IOOOWVOC

IOOWVDC
IOOVjVDC

CER

CER
M!CA
MICA

MICA

MICA

oc

..

:ss

0Qa35

00

..

35

Do

..

;ss

DO•<SS

00oo35

00

..

35

:57'.3LG

10%

'"

20%
20%

lOX

CER
CER
CER

CER
CER
CER

CER

CER

'"

CER

CER
CER

CER

C:ER

CER
CER
CER
CER

28'180
56289

281.160

28480
28480
28'180

?8480
5628'< !500476X<;l00o62
284€0
?8W80
?6480

281l80
Sb289
2811H

28~80

281.180
28480

28480
28480
28480
28i.i8(l

28'180 0100 ..
28480
28480
28480
28480

28480

281.180
28'180 0160 ..
?8480
281J80

28480

281.180
72136

7 2

72130

281180
28480

281180
28480
28480
281180

28480

281.180

281.180
28480
28480

281.180

281.180
28480
28480
2848{)

281180
28480

99800
99800

21.1226
24226

24220

21.1220

21l220 I
281180

281.180

24226

04713

281.180

04713

011713

281180

oeoos

150D476~qOObB2

011)0
OIQ0
0160
0160

0100 .. 4213
0100

0160~3451:.

01b0 ..
011>0

1'50D105X'<035A2

0100~0174

0160
01/)0 ..

0100
0100 .. 0174
0100
0100
0100

0160.,42\J

oteo

0100 .. 0174
0!00.,20S5

0100"'2139
0100 .. 205'5

1)100
0160

0160
0100
DMt5FtS!J0300WV1CR

!36

OM!SF151J0300WV!CR
DM15E820J0300WVICR
Otb0 ..

1Qj0m0034

1901~0040

1'101
}90\vQ040
190!

!90160040
1901 ..
1'•01 ..
1901mOS33
1901 ..

t9Qt
1901 ..
t90!
1901•0533
1901

l'fOjvQ'533
1901

15:57
1537 ..

15/080
1'5/302

15/302
10/100

0/100
'fl00
9100

I fJ/220
$52017

165:5oo02!8
SS2077
SS2017

1853

..

boSto

..

2055

..

20S5

..

2055

..

42!3

..

2055

2055

..

21

~q

..

3456

31.!56

..

0)74

.. 0174
..

2055

..

2055
2055

..

ot74

2055
.. 205'5
.. 3456

..

2327

.. 2327

2204

.. 0040
..

00~0

0533

0533

0533
.. Q040

001>0
..

053J
.. 0'533

..

0533

..

12

..

12

12

..

0:546

..

0:540

..

00111

7-10

See

introduction

to

this

se<~tion

for

ordering

information

Modei8005B

Reference
Designation

A.

3Gb

A307

A3Q8

A309

AJQIO

A!GI!t

HGli2

A:SQ

13

A3Q!II

A:SQ

I

'3

A3G11l

A3Qt7
A.3G

18

A3G

I q
A3G20
AJQ2l
A3i.l22
A3Q23
A302'1
A3G25

A3026
A3Q27
A 3Q28

A3Q2'1
A303o
A3Q31

A3Q32
A3033
AJQJt!

AJR!

A3R2
A3R3

A3RIJ

/l.3R5
AJR7

A

:!iRS

A:!iR«

:!iR

I 0 0757 .. 03'<!

A
A3R

I 1
A3R12

A

3R

13 0757 ..

A3R\li 075f! ..
A3R!S
A:;Rtb

A:!iRl7
A3f<HI
A:!iR

\ q
A31<20
A3R21

A 3P22
AJR23
A3H2il
A 3R25
A3R26

A1"21

A3R?R

A3R2Q 0757-0I.lll{j

t.:!iR30
A

3R

3 l
A1R32

AJRJ:!i

A

JR3a
A 3R3';
A 3R36

HP
Number

1853G0034

iBSIImOb30 TRANSISTOR

1!\SLiaQQJQ

185£1 ..

1854

1853

l851lmQ2JJ

I?05MOOB

1854

1853~0001

!8S/4m(}J07
1854
1853
1853mOJ15
1?.05 ..

1853
1205
1853
1205
1115'1

1853~0027

1205 .. 0033
ltl-53
1205m(l033
1854

1851.1

11l53•00:V~

1854~0233

ti"0:,4
1205m0(16J

1854~0332

1205•0061

ii\St~

1205 .. 0033
11'154
1205mOO:B

1853~0027

lf\53mQ09Q

1854~0233

0761
07'3hl)2f0
07';7eQ418
0'10:,7
0757a0407

t,757•(1}0~

0757~021'3

0757m021'-0
0757•02?3
0757

0757

0757~03Q6

(l757aQQ)I}

07">7~0284

07S7~03F1

07'i7~04?1

0757·0~38

0757mQ'III?

0757·~28(\

07"j7•0H8
I_J757w(IIJ(•7

0757·0407
0757aQ4Q7

0701•0015

i)\':>'f8~!70(i

0757w(l}'lj

0757~0263

iJ757vQ2!'\3

o757~0t16Q

o757~r'4"0

0757

Part

0030

..

01>30

..

0357

..

0630

..

0630

..

0034
0033

..

0315

..

0061

..

0315

..

0061

.. 0053

..

0027
.. 0307
.. 001'1

..

0332

..

oOS3

.. 0053

..

005?

..

01.11)1

..

0435

0t110

Q()<"IQ
.. 0410

..

0469

Oty

Table

TRANSISTOR

TRANSISTOR

TRANSISTOR

TRANSISTOR

TRANSISTOR

I

TRAt~~SISTOR

,

'

f-IEAT

TRANSISTOR

TRANSISTOR

I

TRANSISTOR

2

TRANSISTOR
TRANSISTOR
TRANSISTOR

'

HEAT
TRANSISTOR

HEAT

'

TRANSISTOR

HEAT

TRANSISTOR

'

TRANStSTOR

HEAT

'

TRANSISTOR

HEAT

TRANSISTOR
TRA"'SISTOR

I

TRANSISTOR

T~ANSISTOR

TRANSISTOR

'

HEAT

TRAhSISTOR
HEAT
TRANSISTOR
HEAT
Tf<ANSISTQR
f-IE

AT

TRANSISTOR
TSTR:SI

I

TRANSISiOR
RESISTOR

I

RESISTOR

'

R!:SISTOR

I

PES!STOR

7

RESISTOR

'

,._ESISTOR

2

RESISTOR

'

RESISTOR

,

RESISTOR

I

RESISTOR

RESISTOR

3

RE.SISTOI<

3

RESISTOR

'

~<ESISTOR

RESISTOR

5

RIOSISTGR

STOP

PES!

I

;

RESISTOR

RESISTOR

I

RESISTOR

'

RESIST0R 10> " ,

2

RESISTOR

RESISTOfi

'

Rf.SISTGR

RESISTOR

"<ESISTOR

RESISTOR

'

RESISTOR

'

RESISTOR

'

RESISTOR

RESISTOR
:<E.SI.STOR

RESISTOR

'

RtSISTGP

I

RESISTOR

7-2.

Replaceable Parts

Description

ro

..

ts

PNP

sr

NPN

sr

NPN

S!

NPN

SI

NPN

SI
SI

NPN

2N386b

"'

TO.,S/TO

SINK

NPN

"

PNP

Sl

NPN

5!

NPN

S!

PNP

S!

PNP

TOmS/

SINK

SINK
SINK

SINK
SINK

SINK

S!NK

SINK
SINK

T QaJ«.,PKG 28480

"

PNP

S!

T0

.. 5/TQ ..

PNP

S!

TO

.. S/TOm3q ..

NPN

2N2218

P!I!P

Sl

ro

..

s;ro

Sl

'"

TOv5/TQ ..

NPN

Sl

NPN

Sl

PNP

Sl

NPN

2N3866

NPN

Sl

TQ

..

SIT0

NPN

Sl

TQ

.. S/T0,.39•PKG

NPN

2N2218

T Q

..

S IT Q .. 39 ..

2N22t8

NPN

T

0"5/T

OQ

PNP

Sl

PNP

NPN

2N3866

IW

210

"

.125W

" "

,t25W F

"

,t25W f

1%

100

'"

,125W ' TC•O+

200

1%

51

o!

• I

"

"

,125W F

"

"

30,2 " ,125W ' TC=O+a!OO

"

3.o1K " •

3,92K

"

,!2SW F

301

"

62

.2SW

"

301

"

.12Si>J

I 0

"

301

"

,125W ' TC:Qt

!SO

15

.1251'/ F TC-=0+•100 1'1701

"

"

,!25W F

825
5

.ltK

"

"

,125W

" "

1K

.25¥'i F

,

200

"

200 " ,!25W

"

200

•

"

I,

SK

5%
7,SK " .l2SW ' TC=O+•IOO
715

.125~

1%

3q,2

1%

,12511'

2K

1%

1% • 125W

"

15CK " ,1251'1

22

.u<

"

150K " • 125\'i

P01l360MW

TO

..

S2

PDmJbOMW

TOoo52

PDs360!.1W

ro

..

sz

PD:;Jt.OMW

TO

..

S2

PD•(.)bOMW

TQ

..

t8

sr

..

J~

..

pKG

P0~360MW

ro

..

sa

ro

..

JCI

P0~600MW

fQ

..

18

POo:300~W

ro

..

sz

P0&360MW

TQ

.. 18

POo:360MW

ro

..

:sq

POo:tW

To

.. H

!'IO=tw

3Cf

..

pKG

ro

..

;sq

PDmtW

pKG

Sl

To

..

39

PO,.

.. 39·PKG

T0.,3q

PO:~<IW

311•PKG

PD,.300MW

TO

.. IS

T0..,18

PD:~3bOMW

1'0

..

18

POz360MW

Sl

T0m39

..

39

..

PKG

TQ.,39

Sl

PKG

Sl

3'1ooPK

G 28(!80

ro

..

:;q

Po:nw

Sl

MO

rc=-ov--2oo

F

rc=o+~too

.!25W

F

TC=O+~!OO

25W

F

TC:::Oh\00

1251'1

,1251'1 ' TCl:IQt

TC=Ot

'

, 1

25W

F

rc=n+

'

F

,!2SW

•

1251'1 F TC=0+->100

F

t25W

TC:Qtm!OO

F

TC=O+

!25W F TC=O+•lOO

•

F

\25W

TC=0+-200 11502

"0

"

•

,

12Sw ' TC:Ot,.IOO

I'

rc~o+~too

F TC::O+v100

F

• \

251'1

'

Mfr

Code

281.180

04713

01.1713

011713

0!1713

!)Qz360MW

T0

..

39

PD•IW

F'T:iGHZ 28480

!I'T:ctGHZ
Fh1GHZ 28'180

To

.. 5 PD!I:8(10MW

t w

FhtOOMHZ
FT,.IOOMI"Z

T0~3<f

PQetW

FT:c8(}0MHZ

PD"'l

W

PD•IW

FTc8()0MHZ

ro

..

5

P0=800Mrl

PD:SOOM~~>

T0"'5

FhtOOMHZ 28480

ro

.. :;q

PD=tW

TC=O+~IOO

TCo:Q+oo100

..

IOO

rco:o+~too

F TC=-0+•100 2'1546

..

..

\00
..

too

..

lOO

..

IOO

..

!OO

..

IOO

TC~o+

..

TC::O+,.IOO

TC=O+

..

iOO

!Oo
lOO

TC"OhlOO
TC>=O+.,IOO

TCo:ot

TC-=O+a!OO

TC=O+~IOO

TC:O+
TC:Otm\00

TCo:O+~ICO

F

28480

02735

281.180

04713

28480

281180
0'171
28480

28480
28480

28480

01.1713

281.180

281.180
28480
28480

281.180

281.180
281180
02735
281180
28Q80

28~80

28480
04713
28480
0'1713 2N2218

28<180

02735

11502
21t51J6

2451.16

21.1546
2'1Sil6

24541:>
24546
2t1S'Ib
?4546

2!.1546

2451.10
27167 C5
24546

21.!540

2451.10

2451.10

2451.!0
211540

2~540

245tl6
1'H0!

2~5t16

24546
?4540
245'16

24546
2'151.10

211546
24546
2U51l/)
24546
24546

Mfr

Part Number

!853

.. 00314
5$2077
SS2077

552077

$52077

1853

..

0357

2N3866

1205

..

0033

552017

1653.,000

18511

552077

3

1853
1853
1205

HlS3
li'OS
1853
1205
2N2218

1853•0027
1205

1853~0027

1205
1854

185/.I
1853
2N38i>6
1854
1205

t8S4
1205
2N2218
1205

1205
1853

!853
2N386b

RG32

C4•1/8QTO~lOOl~F

Ct!
Cll

C4m1/S

C4~ti8~To~StRt~F

C4m1/8

C4~118~ro

CJ.I~1/8°T0~39R2'"F

C4ml/8nT0•3011

C4~1/S

C4•1/8nT0•30!R~F

C4ol/8.,TO

CIIG1/8,.TO~!OROmF

Cl.!a118~To~30IR~F

C4•118~T0·151~F

MF4Cl/8ooTO-t5RO~F

C4~tre

co~tt8

Ct1·118~TO•I002~F

Cl.lai/8·TO~IOOI

t-\F52C•1

Ctl•1f8

Cil.,1/8mTOa201
Cl.l

RG32

C4~ti8•TOa750imF

C'l~tt8~To~71SR•F

C4a1/8•T0~3~R2oF

CI.I»I/8~TOo2001

C4

C4~ti8•TO~l503~F

cu ..

Cl.l•l/~mT0•1SD3~F

I

..

0307

..

0034

..

0315

..

0033

..

0315

..

OOOI

..

0315

.. 0061

..

0033

..

0033

..

0307

.. OOiq

..

0031.1

..

0332

..

0061

..

0l32

..

0061

..

0033

..

0033

.. 0027

.. 0090

..

l/ewTOa6!9R

..

\/S

..

TO

..

lO!aF

..

ro

...

20l

..

T0~200!~F

.. !001mF

..

TOa3'<2i~F

..

J01R .. F

..

To~e?SPwf

..

ro~5ttl~F

..

T0

..

201mf"

..

1/8•T0•20I,.F

..

1/8aT0•200l•F

t/8·T0~2212-F

Replaceable Parts

.. F

..

f

.. f

..

f

..

1"

..

f"

See-

introduction

to

this

section

for

ordering

information

7-11

Replaceable Parts

Reference
Designation

AJR:!-7

A 3R3B

A

3R39

A

3R4Q

A3R4\

A

3R42

A3Rl.l3

A3Ril4

A31<LI')

A

3RI.I6

A

3RI.I7
A31<1.1R
A3RI.I«
A3RSO
A3R51

A3R52
A3R53 C'7"7-0I.I(l!
A

3RSI.I
A3RSS
A3R56

A3R57
A3RS8
A3f<50
A:>R60
A 3Rt,\

A3RQ2
A3Rb3
A3Rb4 0761
A3R65

A>Rbb

A3Rb7 Ob98

A3Rb8
A3R09
A 3R70
A3R71

A3R72
A3R73 0698

A3R71.1
A3R75

A 3R76 0757 .. 04'53

A 3R77
A.3R76

A3R7'1
A3R80
A3R81

A3R82
A 3Ril3

A3fH14

A 3R85 06'JS .. '!o«b

A3R8b

A3R8

7
A3R88
A3R8Q

A 3R90 0757
A3R9j

A 3RCI2

A

3R'<3
A3R91.1
A3RQ5
A3RQ6

A3Rll1 06Q8
A3R<18
A3R9Q
A3R100

3R I 01

A
A3RI02 0757

A3Rto:;
A3Rt

01.1
A3RI05
A3R!Ob 0757 .. 0381

A3Rl07 0757
A3R10"
A3Rl 09 07bfa001.10
A3Rl1 0
A3Rl11

HP
Number

Q7~.7m041o

'J7S7~nt.~nt

07S7.,0442

ObRI-\~3)31

07:i7~061)~

1)757 .. 1

Oo9!l

0757~0!9/l

0757

Oo'<!3~3d4?

06~8

2100•3252

0757.,()W41.1

0757·0<~6'l

0757 ..
0757·01.131\

u7':>7~040a

0757.,031.16

!)608

07ot

0757~0500

0757~0500

0757·0500

0757~0500

(lb83mQ755

07bJwOC'46

0757~01.12(1

0757~01.135

Q757w03'1'1
01;>98

(1(1)'18·5881\

0757..-01.!24

2!00~0551.1

06li8..-111Hl
0757

0757
0757
07S7 .. oQ\5

(1757·0~01

0757tiO~Il(\

(1757•01.12<1
07'57
fl7ci

(1757·0500

0757

e757~o5oo

0757 .. 0500

0683~0755

075h04C
0757

0757 ..

2100

0757~0435

ooqS
0757

2too~o55~

Ob'ifl.,1.11.171

076Jsi)Q~(I)

07b1 .. 004b
Q6ll8c34Qb

0761
0761

07ct~OOI.Ib

Part

~<Jh

..

t!~?S

.. (11(/€\

..

3~9.?

()~'53

..

36Qii

..

no4t

..

001.16

..

355<'-

..

58~8

..

31.1'11>

.. 0416

..

0~75

..

0422

..

0311b

..

00~1

..

050{1

..

03liQ

..

0~20

01136

..

05'511

..

S888

..

S888

..

0112~

..

0401

..

0381

..

0046

..

00116

7-2.

Table

Oty

PESISTOR

2

RESISTOR
RESISTOR !OK
RfS!STOR

1

RtSlSTOR

1

RES!STQR

1
1

RESISTOR

REi'iiSTOR

2

RESISTOR

RE-SISTOR

1

RESISTOR

1

RES!STGR•TPI<lR

1

RESlfTOP

1

Rt.SISTOR t
RESISTO!<

2

Rt'SJSTOR
><t.SISiOR
>H.S!STOR

1

RlSlfTOR
RESISTOR

2

R~

SlSTOR

2

8

RES!STOf<

>1£

SISTOR
RUdSTOR
RHISTOI<

RESISTOR

2

RESISTOR

"

RESISTOR
RI:SISTOR

2

Rf.SISlOR
RtSISTOR

1

RESISTOR

2

RESISTOR

'

RE

S!STOR
RESISTOR

2

RlSISTORwiRMR

3

2

RESISTOR

RE~ISTOR

'

RESIPOR
RESISTOR

RESISTOR

1

RESISTOR

1

RESISTOR

1

RE.SISiOR
RE-SISTOR

PESISTOR

1

RESISTOR
RE.SlSTOR
RESISTOR
RESISTOR

RESISTOR
RESISTOR
RESISTOR
RESISTOR
RESISTOR

I

1

RESISTOR
RE-SISTOR
RESISTOR
RESISTOR
RESISTOR

RESISTOR
RESISTOf<
RESISTOR
RlSISTOR ..
RESISTO"

Rt.S!STOR
RE.SISTOR
RES

!$TOR
RESISTOR
RESISTOR

RESISTOR
RE.SISTOR
Rf;SISTOR
RESISTOR
RESISTOR

Replaceable Parts

Description

, t?SW

511

100 " , !i'SW

"

"

189,7

200

1%
1%

l •

5~K

'"

100

"

100

1%

357

"

2,

t>

7K

5<

12,

I K " ,

5011 " ,125W F

30,

1 K

5,

11

K

10

0

"

130

"

10

"

5%

"'

56

"

30.

1

"

30.1

"

30.

\ " ,25W

30.1

"

7,5

5%

110

5%

110

5%

750

"

3,92K " .t.?Sw F
4,02K " ol25W F

82,5

"

31.6

"

31.6

1,

1 K

"

"

soo

3, 5 7K " .125!'!
7,

!SK " ,\25W F

511

"

30.

I K

27UK

"

'"

"

415

"

100

7.5~<:

"

"

1,

82K " ,!25W F TCz:ot

10

"

Sb

"

5%

"

30.1

"

30,

I " ,25W F

30.1

"

30,1 " ,25W F
82,5

"

7.

5

"

100

"

750

"

4032K

...

TRMR

soo

3 •

'12K

31.6

31.6

"

"

1,

1 K " ,125\'i F

TRMR

500

7 • 1

5K

100

"

110

"

110

"

3,57K " .125W F

15

1%

15

"

110

5%

110

5%

110
110

"

" "

'

'

,

125W

F

.251'1

,251:

, Sili

rc=o+

'

•

1251'1

'

,125\'i

"

TC::O+.,!OO

•

sw

'

TC"'0+~100

.sw

'

,

125W

'

,125W F

"

!OX C TOP

12Sw

,125W F

"

,

125W F TCl!:O+•iOO

"

,!2Sw F TCI'O+mlOO

,!?Sw

F

,

125W

F rc=o+

TC:::1Jt

lW

MO

1>'1

MO

TC:rot .. 200

,25W

'

,25\'i

'

F

,25W ' TCaot ..

,25\'j

FC

1

~~

MO

iC::0+ .. 200

Ill

MO

TC=0+->200

•

125~

'

.125~<"

,25W F

,25W

'

.12'3W

lQ%

c

.125W f

,!.?SW f

"

,

!2SW

,!25W

f TC:Ot

,1251'1

F

,!25W F

•

!25W

,!25W F

TC:r:o+

!W

MO

IW

MO

TC:0+•200

,251'1

F rc=o+ ..

.25W F
,125W F

.25W

FC

,125W f
.125W F

o125W F TC:::O+

!%

lOt

c

•

1251'1

"

,25W

F

,25W ' TC:t0+.,100

c

'"

.1251'1

"

.1251'1 F

MO

rc=o+
TC:o.-

"

"

"'

.125W F
,125W F

1\tJ

MG

TC=0+.,200

MO

lW

TC=0+

MO

TCaot .. 200

"

MO

rc=o•

TCoO+~l(lO

TC<:O+

..

IOO

TC;O+mlOO

I'

rc=ot

..

too

rc~o+

..

too

TC=Otm100

F

TCr;O*mj

00

TCIIO+.,IOO
..

ADJ

l"'TRN

F

TC:~O+

..

TC=O+

..

lOO

TC=0+•100

;c:::ot

..

IOO

..

too

..

200

TC:ot

..

!OO

TC=Ot

..

IOO

TC:t:O+

..

!OO
lOO

TChi.I00/+500

TC:::O+

..

lOO

TC~>O+.,lOQ

TC:;:Q;-uJOO

F

TC=II+

..

JOO

rc:~o+~too

TCI':Ot

..

!OO

iC:tO+

..

F

F

F

TC=O+•!OO

TCsO+
TC=0+

IOO

TOP

..

ADJ

F TC:::ot

..

TC~<o+

..

TC:<O+.,IOO

TC&O+,.IOO

iC=ot

..

IOO

..

IOO

TCt=(lt

..

IOO

iC<~O+

..

IOO

TC:tOt.,lOO

..

.. 200

too

TC=O+

..

IOO

TC:::Qt

..

IOO

TC:Ot.,IOO

TC:~o.-

..

JOO

TC:a

..

~00/+500

rc=o+

..

too

TC:O+<>IOO

.. tOo

TOP

..

ADJ

TC:::O+

..

'

TC=ot .. 100

TC=O+w100

TOP

..

ADJ

F

TC>~0+

.. 100

TC~~'O+

..

IOO
.. 2oo
..

200

TC•O+

..

..

lOO

.. 100
.. 200
..

2oo

..

loo

iOO

l"TRN
IOO
IOO

100

I

..

TRN

lOQ

I

..

TRN

IOO

Mfr
Code

2~5i.!b

2~5~0

2~540

24540

19701

24':>46

21.154(1

1 '170 1 MF7C1/2

19701

21.15/.IQ

2451.16
73138

21.151.16

21.151.16

2~5~b

211546

?~51.1Q

2<~540

,?uSI.Ib
11502

11502

!970

1'1701

1 9701
1'1701 MF52C"1

j j

0

1 1502
11502
2ll5llb

21.1546

21.154b
2U5116
27167
27167
245116

73138
21l51.1b
21i54b
.?4546

2~51.16

?'l546
i:'liSI.ib
?1.1546
24546
245110

24546
24546
11502
1!502
!9701

19101 MF52C.,1
19701 Mfi'52C .. I

J(/701
24546
01121

24'51.16
2115116
211511b

13138

245'10
27167

27167

21.1'546

7l13S

2451.1(1
211540

II

it

245110

lq70!
1

no

11502

! 1502

11502
11502

Cl.!~tta~ro~stt~~F

Ct1

..

1/8mTO~l01

Cl.!ml/8~To~t002ml'

NA5

~f7C~l/2mT0~201

C4•1/8•T0·94SR·f

Cl.l~l/8•TO.,l~41•f

MF7Cl/2~TO~l01.,f'

Cl.l~t/8mT0•357R~F

Cl.ls1/8~T0-267l~F

72 ..

107~0

CI.IQ1t~

Cl.l

.. l/bmTQ

CI.I•\/8•T0•3012·F
(4

..

1/B•TO~Sill~F

Cl.lml/8
CIJ.,!/8mT051H,.f

C<l~t/8wTO~tVRO~F

RG32
RG32

!<<F52C

1

M~52C"!

MFS2C"1

21

CB75GS

RG3?
RG32

Cl.l~l/8uTO.o751

Cl.l~liS~ro~3Q2J~F

C4•i/8$T0~402t~F

Cll~tt8~T0~82RS~P

"

cs

CI.I•I/B•TO•iiO!•F

72

..

1011"0

C4•1/8~T0v357R~F

C4

..

tt8mT0 ..

C4•1/8•TO•SllR•F

C4~ti8.,To~30!2•F

cu~!l8~ro~2743~F

Cl.i•I/8•T0~90QP•F

C/.iNj/8~TOmi.I75RaF

C4

..

1/8

C4~1tB~T0~7SOl•F

Cl.i•l/8•TOa!621~F

C4~118•TO~IORO•f

RG32
RG32
MF52C

MF52C"'1
Cl.l

..

t/8aT0

CB7'5G'5
C'lal/8mT0·101,.f

C 4 ,.118"'
CI.I

..

1/8

7 2 .. 1

Cl.lo1/8mT0@3921"~

C5

cs

C4•!/8•TO•I!Ot~F

72 .. 104 .. 0

c4~tts~ro~7t5t~f

C'l"'I/S
RG32

502

RG32

502

C4~118

MFIIC1/8
MFI.IC1/8

1

RG32

RG32
RG32
RG32

Mfr

..

l0•101·1'

..

ro

..
..

..

TO~lOi"F

.. 1

..

TO

.. IOI

.. 1

.. 82R5

To

.. 7 SI'"F

..

T0~4321~F

0'1

..

0

.. T0.,101mF

..

TO~l57Rmf

..

TOmi5RO•F

..

TO~ISRO~F

Part

..

1'

.. f

t212~F

JS03~F

.. F

715!~F

..

F

..

f

Number

7-12

See

introduction

to

this

section

for

ordering

information

Model80058

Reference
Designation

A3R112

A3RI!3

A3R

11

~

A3R1l5

AlR

118

A3R

II

q

A3RI?O

A

3R

121

A3Rt22

A3R\?3

A3R124
A3R

125 0757 ..
A3U1
A3VR

I

A

3VR3
OVRS
A3VRC
A3VR7

A3VR8
A3VR'I
A3VRI2
A3VR13
A3VR16

A3VR17
A3VR18
A3VR19
A3VR26
AJVP27

A3VR28

~3VR31.1

A3VI<35

HP

Part

Number

076!

..

004b

070\

..

QOIJb

076\

..

QOilb

076\mQQQf.,

0757

..

0381

0757~038)

0757

..

03116

0757

..

0340

0757ooQ]<;II.I

06'18

..

3bQ3

0758aQOlb

nt~ot

182o ..

noos

1902.,()0Lij
t<;I02

..

ol81.1
3182

1902 ..
!9Q2aJJ82
l q

02oo3l

J<:J

1"02

..

()064

1'102~001.11

1'~02

.. 004()

1'~0?

..

001.10

1'1Q?aQJ73

1(102m0555

1<;0('

.. 0041

1«0?~3104

j<:,IQ2m{l556
1qQ2mQOJl

j<;Q?

..

3l'IO

I"'O?oo0173
j<;fl2

..

3139

Qty

1

1

I

'

1

2

2

I

2
2

1

I
I

1

1

Table

7-2.

RESISTOR
RESISTOR
RESISTOR

RESISTOR
RESISTOR

PESlSTOR

RESISTOR
RESISTOR

RESISTOR

RESISTOR
RESISTOR

RESISTOR

IC~DIGITAL

DIOOE~ZNR

DIODf

DIODE

OI

DIODf,.ZNR

DIODE~ZNP

CIODE.,ZNI<
DIOQE

DIOOE~ZNR

DIODfmZNP
DlODE

OIODf
DIODf
OIODf.,ZfjP
DIGOf ..

DIUDE,ZNR
DIODf,.ZNR

DIODE~ZNR

OOf

..

..

..

..

..

..
..

ZNR

ZNR

zNR

ZNf>

ZNR

zNR

ZNR
ZNR

110
110
110
110

"

10

"

10

St.t

:so
3oo

100

5.11

8,2SV

1.sv
5,11 v 5%

5.11

S.

Replaceable Parts

Description

rcso;

MO

"

MO

TC:<Qta2QO

"

" "

MO

TC=0+-..

1W

MO

TC=0+ ..

1W

"

"

"

.125\'1 f

..

,

"

.125W

"

"

1 W

s:r;

s:r;

"

SN7470N

v

I

c.

2V

12.1

v

12.1

v

5%

14V

5%

14V

5%

'I,S3V
l3V

5%

v

62V

5%

20V

12,1V

B,25V
'I,

S3V " oo .. r PD:.Q\'1

a.

2sv

TC•O+

.1251'1

'

TCaO+•Hto

125W

F

rc=o~

rc=o+

F

.12'5W

F

MO

TC.,O+oo200

TCeO+

.25W

F

.125W F

TTL

QQoo7

oo

..

1

"

00 .. 7

"

"

oo .. ?
oo .. 7

"

"

oo .. ? Poe.llw

00~7

00.,7 P0:,4W TC:+,OSC%
DOm?

PD11,1.!W

sx

oo~7

DO~!S

PO:IW TC:+,06% ?aliSO

5%

00 .. 7

5%

DOc7

QQ

.. IS

PD=1W

5%

00~7

00 .. 7

"

oo .. r

"

..

zoo

200

200

..

IOO

..

lflO

..

too

rc=o+

..

too

.. I

Oo

TCEO+.,IOO

J•K

PO=,IIW TCh,QOQ:r;

PO:~~,I.I\'1

TCm<~".006%

PQ11,IIW

TCIH

01)4%
POII,IIW
P011,4i'l

P0:,4W TC:w.009%

PO:,uw

Po=,4~

P0:.4W

PD=,4W
P0:,4W
Po:.4w

0

TC=t.OC>I%

TC~~'t0053%

rc=~.os:r;

TC:+,05b%

TCm+,o5qx

rc=~.ooqx

TC:+,016:r; 1

TC:t,073%

TC:+,061X
TC:t,053X

TC=+.OSqX

TC:~.

053%

Mfr

Code

11502 RG32

11502
11502

11'302
I

C1701

1 qrot

245116

245116
245110

11502

271&1 cs

21.15110
01295
15616

04713
28480
281l80

01.1713
284ao

1581 a
07203
07?03
04113

1

set

58!

?a480

011713
011?

01.1713
011713

RG32
RG32

RG32

MF~Ctts-ro~tsRo

MF4C1!8~To~t5RO~F

C4

CIJ•1/8mTO~tOROmF

C4.,1/8~TOu51R!uF

RG32

cu~tte~ro

SN7ii"'ON

co
sz

tqoz

1Q02

sz

1q02

co

"

FZ 1201

sz

1Q02 .. 0SSS

a

co

6

CD

1Q02

SZ10'ilJC'I

1l

sz

sz
sz

Mfr

..

1/S

..

T0m10ROcF

35022

toq:;q

..

..

:ste2

..

3!82

j()q}qaJ58

.. 00bl.l

351>22

1201

IOqJ9

..

35622

35631.1
..

Q55b

.. 212

1

093«~tsq

10q39•17C
1 oq3'1

... 1 se

Replaceable Parts

Part Number

..

F

..

tot~F

zllz

17C

See

introduction

to

this

section

for

ordering

information

7-13

Replaceable Parts

Reference

Designation

HP

Part

Number

Oty

Table

7-2.

Replaceable Parts

Description

Mfr
Code

Mfr

Part Number

Modei8005B

7

~

nBQOS•t>t>S\1

01~1)~31456

0

\i.IQ

0160
0160•1.!213

0160~3456

01u0
O!t>0

(lj6()mtl2\3
0\60

Olb0vOt31.;

D\0050\3~

016J•21'l7
011>0

0160~3716

OHliJ

0100~3725

01/'10
Olf.O
011:\0
01to0
0100a31.!5b

\9(;Jn0179
1901•0179
190!
1QO\m(lj79
jQQ\aQj79

19(}\ei){)l.l£1
1'101

9!00•11>13
«t7o
9\

t.?os
1?.05·0011

1853

1853~0357

!8SU•0092
l95U•OOIQ
18S3a()357
1205

J85~aQ;?J3

18S3a()J57
1853

18S~

1853-0001
tii5Q ..

1B53-009()

1851.1•0329
1853
11\Stl

Hl53-00S1
P\54•0307
lfl5tJ .. 0307

1!.'53
Ob'18vOQ83

0758
07'57 .. 0284
0757v0718
06f16

0757
0757v0726
07'57•0385
07S7•0741
07S7

0757v04(}j
0757

07'57
Ob8J

"

Al.lCI
A40
AI.!C5
ALlCb
AI.!C7

ALlCFl

A~CQ

A4C

10 0160

AI.!C

1!

AtlC\2
AI.IC13

AI.IC

1 U 016052055
AllC\5
A4C!

6 0180•02'11

AIJC

1 7 IJ\60 ..
AI.IC

til

ALlC

\ 9
A.4C20
A

UC

21
A4C

??
A4C23

A

I.!C

2tJ
A4C2S
A4C26
/li.IC.?7

A4Cff3
ALl(Rll
ALICR6
AtlCPR

AI.!CPQ
A/JCR

11

AI.ICR!2

11.41..1
A4Ls)

soY!-Iq

AI.ILt>

A4MP!7
AtlMP20

A~QI

A4~2

A'IQJ
A4Q4

AU~b

AIJQ7
AtJG8
AIJQ9
AIJQ
A4Qif

A4Q12
AIHH3
AUQ11J

A~lH

A/JG\6
A/JQ

AIJQj8
ALIG!9
ALlQ20

ALIR2
AIIR3
A4RII
A4R5
A4R6

A4R7
A4R8
AI.!R!O
A4R
A4Rl2

A£1Rt3
A4R!S
A4R1b 0757
A4R17
AURt8

. .

1 0

<;

1 7

11

..

(\

1

..

205<;

..

0)3tl

..

20S5

..

?0<;5

..

3!J56

205~

..

221?

..

OJ76

..

0228

..

Ol'i9

..

0159

..

20S5

.. 00tl4

..

0041.!

..

oo?Q

70•00<?9

.. oo 1 1

.. 0357

..

0037

.. 0357
.. 03C7

Qil3Q

.. 00Q(l
.. (l053

..

0001

..

1)014

..

0f.l85

..

0734

..

0819

..

(1~27

..

0271:1

..

0385

.. OSIS

tlOARD

ASSEMBLY,

C:APACITOR~FXD

'l(,

"

CAPACITOR•I'XO

1

CAPACITQR~FXD

'

CAPAClTOP

2

CAPACITOR~FXD

CAPACliC1R

3

CAPAC

ITOR

CAPACITOR.,FXO

CAPACITOF<~FXO

CAPACITCR~FXO

CAPACITORmFXO

CAPACITOR~FxD

CAPAC

ITORaFXD

CAPAC!Tl<!'I•FXD

1

CAPACITOR,.FXD
CAPACITllR•FXO

1

CAPACITOR•FXD

1

CAPACITOR~FXO

1

CAPACITQP

1

CAPAClTQfl

1

CAPAC

1

'

"

l

1
2

2

s

1
1

1
1

3

'

1
2
1

1
1

1
1
1
1
1

1
1
2
1
1

1
2
1

3

llQRmj:')(Q
CAPACITOR5FXD
CAPACITUR
CAPACITQR
CAPACITOR

OIOOE

..

Si'<IlCI-II~G

DlO{)f

..

s,~ITCHING

O!ODf~SwlTCH!NG

DIOOE~Sl'!ITCHING

OlODEaSW!TCHING
D 1

ODE•S"'

D I 00 E

"SI'I
CO!l

..

MLD
COP€.,51-iiEl.rHNG
CDRt

.. SH!ELDING

S.iE

T

HEAT

SlNK

HEAT

SINK

TRANSISTOR
TRANSISTOR

TPANSISTOR
TRANSISTOR

HEAT

SINK
TRANSISTOR

TRANSISTOR

P<AI~SISTOR

TRANSISTOR
TRANSISTOR

TRANSISTOR
lSTRISI
TSTRISI
TSTR!SI
TRANSISTOR

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

RESISTOR
RESISTOR
RESISTOR
RESISTOR
RESISTOR

Rt..SISTOR

RESISTOR
RESISTOR
RESISTOR
RESISTOR

RESISTOR
RESISTOR
RESISTOR

RESISTOR
RESISTOR

ITCH 1 NG
!TC

oF

PNP
NPN
PNP

INTG

1000PF

+~10%

1

SOPF

, 0 I

..

..
..

..
..

..
..
..

470NM

1,96K

teo

150

200

2.b1K

1.21K " •

511

22.
2 ,43K

"'

100

105K

Ot.« " .125W F

22.1

'·'

UF

FXD

, I

UF

t•20t

IOOOPF

FXD

220PF

FXD

,01UF

.OtUF

,tUF

+•20%

10{10PF

220~F

,Oll!F
2?.0PF +

lUFt

..

10%

,0\UF
IOPF

...
560PF
,o22uF

FXD

.47Uf+m10X

fXD

, 68UF

22UF+•1tl%"
220UFt

FXD

220UF+ ..

FXD

,O!UF

FXD

!OOOPF + ..

1SV
1SV

sov

tsV

1SV

sov

HI

NG

sov

20~

Q~:45

BEAD

BEAD

;3

P:[;l(?.)>,/;:'41:><;

T0

..

5/T0,.39

TO•S!T0

..

3Q

PNP

TQ

sr

PNP

T0

S!

P0:200M~

5I

"'

PNP

Sl

TOmJ6mPKG

T0

NPN

2N38tlb

PNP

T0-16

S!

PNP

TO

S!

NPN

T0

Sl

TO

51

'"

NPN

2N:SOS3

NPN

2N2218
2NtJ037

T0•18

'"

SJ

"N

T0•18

NPN

5I

T0~3q

PNP

S!

,!2SW F

"

.2SW

"

.12SW F TC:Ot•IOO 24540

"

.2SW

.125W F

"

"

25W

,25W F

"

.12SW F TC•0+ ..

1

"

,25W F

"

.5W

"

.125~

"

.!25~

"

.t25W

"

•

2SW

"

IOOOwVOC

t•S%

3DD~VDC

+80 ..

20%

IQO>~JVDC

Sowvcc

...

,ox

h5X
t80

..

20X

•f.OmZOX

tm10X

+•SX 3oowvoc
+80 ..

20%

..

5%

35VDC

+80 ..

20%

s"

1'•5%

t·tox

+~lOX

..

20%
20%

+80~2()%

10%

SOMA
SOMA
SOMA.

50!~A

SOMA
SOMA

SOMA

..

PKG

..

>'KG

..

18 P0=3bOI'Ii

.. 18

P0=3t>OMW

.. 18

P0:36f.1Mi'l

Sl

PD:300MW

..

I8

PDt!ilbiJMW

..

18

?0=300"111

..

H

Po;ooor-~w

Sl

SI
SI

P0=300"iW
P0:300MW
PO=oooMw

TCt:f.l+

F

F

TC»Ot~tf.IO

F
TCIIOt,.lOO

F TC:O+

F

TC=O+

F TC:Ot ..
F TC•0+ .. 100 t qyo1

TC~~:•J.IOf.l/+500

FC

POLYE

IOOOWVDC

3oowvoc

IOOwVDC
lOOWVDC

SOWVDC

POLYf

!OOOWVDC

IOOWVDC

300WVDC

TA

IOOWVOC

300WVDC

MICA

300i'iVOC

25owvoc

3SVOC

TA

40wvnc

lSVDC

TA

IOVDC

TA

10\IDC

TA

lOtlWVOC

IOOOWVOC

?SOPS

00~7

!)0

750PS

6NS

oo

7501'$

7501'5 00 .. 7

ONS

"'

,\S50~,375L.G

FT:600MHZ 28480 185'1 ..

TQ

..

:S'f

POII!f\1

To

..

c;

PD=tw

TOaS

PD::Boo~>~w

TOaS

PD:tw

TCIIIOt.,lOO

..

\00

TC:O+

..

IOO

TC~<O+

..

IOO

\00

TC'~'f.lto!Of.l

..

!OO

..

!OO

lOO

TC:~:O+

..

lf.IO

MICA

"1!CA

"'ICA
MICA

MICA

MET

MET

.. 7

..

y

CER

CER
CER

CEP
CEP

CER

CE.R

CER

CER
CER

28480

2&J.l80
72130

281.!80
28480
28480

28480
28480

28~80

28480
28480

28~80

28480

281.180
5028'f 1'500105X'f035A2
28480 0160oo2055

28480
28'180
28480
St>28q
2848()

51:1289
56289
56289

28480

28480 0160 .. 3'156

281.180

281.180

28460 I 901 ..

281.180
28480

28£180

281.180
24221:>

0211~

02

28480
281180

281.180

284llf.l
28480

28'160
28480

02735

28~80

28'180
26ij80
28480 18S3 .. 0001

0~713

28480
26480
28480

01.1713
02735 2NII037

28~80

281.180
28480

2'151.10
27107

19701

24Silto
19701

1

11701

1

I

1101

19"1'0 1 MFS2C
111701

24'51.!0

21.!51.!0

21.1540
01121

oaoos

..

0160 ..

31.lS6

0Ml5F!51J0300~VICR

Olb0

..

2055

0160

..

42!J

0160

..

3456

ou.o

..

ot:.4

01(10

..

2055

011J0

..

20?S

0160

..

~213

0160

..

3450

OlbQmQ\3/l
0100m205S

0100

..

0)3~

.. 21'17

0\(10
01t!0"'22!2

0!60

..

3716
t'.500474X'103SA2
011:>0

..

3725
tSOD226X90!562

!SOD227X0010S2
!SOD227XOOlOS2
0160

..

2055

1901•0179
1901 .. 017'1

00tll.l

1901 ..

017«
1901oQ1 79

1901•0044
1901•004'1

15/470
so

..

t

14

sqo

Sb ..

S'lO

!205

.. 0011

1205

.. 0011

1853

..

0357
!8SJ

.. OJS7

0092
!954

.. 0019
1853'"0357
1205

.. 0037
2N36toO

t8S3

.. 0357
1853•0357
1854•0307

2N3053
1853

.. 00'10
185h0329
18S3.,00QO

2N2218

1854 .. 0307
1854

..

(1307

t853ooOOOI

C<lool/8 ..

cs

C4

..

118~T0•1S!vF

MFS2C

.. 1

C4ai/8~ro

MF52C

.. t
MF52C.,I
MF4C1/8oT0•22Rt

.. t

MF7C1/2•TO•fj09R .. F
C4,.1/8

C4m1/8aT0 .. 1SOI$F
C4•1/8
MF4C1/8
cestGs

ooStl

.. eSA2/4A
.. bSA2/4A

T0

..

19Q1

..

zott~r

..

T0

...

10l"F

..

TO

.. b1f12.,F

..

T0~22R1•F

.. F

.. F

7-14

See

introduction

to

this

section

for

ordering

information

Modei8005B

Reference
Designation

AI!R

1 Q

A'IR20

A4R21

AIIR22
AIIR23

A4R2t1

AIIR25

A4R26

ALIR27

AIIR28
AIIR2'il

AIIR30
AIIR31
AIIR32
UR33

AIIR34
AIIR3S
AI.IR'36
AIIR37
AI.IR38

AIIR3q
A.IIR40
AIIRI!!
AIIRII2
AIIR!I3

AI.IRIIII
AIIRIIS
AIIRIIO
AIIRII7
AIIR48

A4R49
AIIR5Q

AIIVR

1

AIIVR2

A~\IRS

AIJVR7

A.:tVR!O

HP

Part

Number

0683·0515
Ob83 ..

0515

0Q98ooQOf\li

0757

..

0280

0757

..

04tl0

0698

..

3496

076l•004q
0757

..

0N7

0757

..

0438

01:!98

..

3242

0757 ..

021'13
0757 .. 0439
2100 .. 05'54
0757 ..

01427
0757aOIUI0

06()8 .. 0084
0757 .. 0280

06<;18~34<;16

07S8aO 1 26
07'57

...

07Q7

06<;18~3242

0757 .. 0273
2!00

..

05511
OQq8

..

J4<12
0757 ..

01122
0701 ..

00111
0757 ..

()1131
2100 ..

0551.1

0757 ..

(1431
0757 ..

0~36

0698 ..

3?112
071:>!

.. 0014

1<:l02

.. 3!1J9

Jqoz-3223

19(12

..

32/>;J>.
190?•3205
11102

..

30<12

Oty

Table

RESISTOR

RESISTOR
RESISTOR

2
2

RESISTOR
RESISTOR

2

RESISTOR 3,57K

2

RESISTOR

1

RESISTOR

2

RESISTOR

1

RESISTOR

3

~E.SISTOR

l

RESISTOR

1

RfSISTOR~TRMR

3

RE.SISTOR

RESISTOR
RE-SISTOR

RESISTOR
RE-SISTOR
R€-SlSTOR

l

RESISTOR
RE.SISTOR

RE.S!STOR

1

Rf.SISTORooTRMR
RESISTOR

1

RESISTOR

1
2

RESISTOR
Rf.SISTOR

2

PESISTOR•TRMR
RESISTOR
RESISTOR

1

RESISTOR
RESISTOR

DlODE

1

OIODE~ZNR

'

DlODE,.ZNR

1

DIOQE

1

O!ODE,ZNR

1

7-2.

Replaceable Parts

Description

~25W

FC

.2SW

"

'·'

"

2,15K

'·'

1K

7,51(

"

200

sx

-.o,Cf

5~

11-K

357

"

2K

608111: " .12SW F

"

1.

5K

7.5K " .t25W

2 01

5K

1K

"

3.

57K " o125W F TC1110tm100

51

"

<;IQ,q

3,01K " ,125W F

"'

"

2,67K " ,125W F
<;:oq

1%

!80

5%

2,1l3K " ,
2,43K

IJ,32K " .12Sw F

351

"

180

S%

..

Zr.tR

9.091,1

17.1.1¥

30.

ZNR

qy

.1

5V

a.'=I9V

..

FC

.125W F TCaO+•IOO

,l2SH F TCsO+•lOO

"

.t25W

"

~tzsw

IW

MO

"

,SW

F

"

,12SW F TC=O+plOO

"

.t25W

.t25W

F

500

lOX C TOP.,AOJ

.12SW F

"

o125W

.12SW F

"

,25~ F TC~O+o100

5W

F TC:0+ .. 100

0

"

,125W F TCt:Ot ..

SOQ

I

0%
,1251<1
IW

MO

!25W F lC=O+.,.lOO

500

tot

,12SW F

1%

,125W F
tw

MO

5%

00~7

2%

DO~T

2%

00~1

5%

00~7

2x

oo

..

TCD•400/+SOO

TCs~I.I00/+500

TC•O+

..

F

TC=0+

TC=O+

F

TCaOt~IOO

F

TCII(H·,.1

C

f

TC:0+,.200

c

rc.::o~

PD=.aw TC;+,057X

7

lOO

F

rc=ov2too

..

200
..

iOO

TCaOt~toO

TCao+~tOO

l ..

TCaOt~tOO

TC=Ot~tOO

TCaOt

..

F

TQP
TC:t0+

Pp:.qw

POs,ll~

PD=oiiW
PQi110qW

lOO

00

IOO

TC~0+

.. 100 24SIIb

..

ADJ

loaHlN

TCIIO+

..

lOO

.. 100

TOP

..

ADJ

J ..

TCII0+

.. 100 24S46

TC~t0+

.. 100

TCi!!Ot

..

tOO

..

zoo

TC•+.057%
TC=t.Ob8%
TC•t,075%

lC:•.Ot2%

TRN

TRN

Mfr
Code

01121

01121

2451.16

2'15'16

24546

211546

11502

t~not

24546

245116

21.1541:1
211S4b

73136

2t1'511b
21154b

211'.51Jb
24'54b
2454b
0?71

b7

11i1701
21154t
H1l8

24546
211511&

11502
211511&

nne

21i51Jb
24540

11502

01.1713

011713
281180

01.1.113

01.1713

Replaceable Parts

Mfr

Part Number

CB51G5

CB51GS
Cll.,tta

..

ro

..

Cll.,l/8

CU..l/8

Cl.l

..

RGl2

MF7C•l/2•TOwCfOR9~F

Cll•1/8

CII•1/6

C4•1/6•TOG2001~F

C4

..
72 ..
C4

..
C4

..

C4~t/6mT0

C4•116~TO~t001mF

C4m1/6~TOml57R

C5

MF7C~ti2~TowqQRq•F

Clh·1/8

C4•1/8•T0•3011~F

72•104

Ch1/8

c 4 ..

RG32

C4

..
72 .. 104 .. 0

C4~118~T0-2431

Cl.l

..
C4

..
RIB2

sz

1902

"

5Z

"

ztst-1"

..

TOoo1001

f0

..

7SOI

..

3S7R

T0

..

5111

TO

.. l57R"'F

TO

.. M111

ro

..

t sot

.. 2!5ImF

TO

.. J57R .. F

T0

.. 2o71 .. F

r o .. q

o

..

l! 321 .. F

..

357RmF

..

17o

..

q6

oqr<

..

..

.. F

..

..

mf

..

.. F

.. F

.. F

..

l/8,.T0

..

..

1'

/6

..

104<>0

tts

...

1/B~ro~750!

..

.. 0
..

11a

..

1/6

.. T0,.211ll .. F

t/ 8 mT
1/6•T0

toqJ«

10()39~?.52

..

3288
1093() .. 233
10';1Jq

F

F

F

F

F

See

introduction

to

this

section

for

ordering

information

7-15

Replaceable Parts

Reference
Designation

HP

Part

Number

Oty

Table

7-2.

Replaceable Parts

Description

Mfr

Code

Mfr

Part Number

Modei8005B

AS

ASCI

ASC2

ASC3
A5C4 oteo
ASCS

ASCI:>

ASC"/)

ASC8

ASCRt
ASCR2
&5CRJ
A.SCRU
ASCR7

ASCR!I
A5CR9
ASCP!O

ASGl!

ASQ2

A5G3
ll'5GI4

llSQ~

ASG6
ASr<t

ASR2
ASR3
ASFHI
ASRS

ASRb
A.SR7

ASRS

ASI<9

A5R

I 0 0757 .. 0280

ASR

11

ASR\2
A.SR

13

A.SR

14 07'57 ..

ASR!S 07'57 ..

ASR\b
ASR\7
ASR

18

A.SR\9 0757 .. 0260

ASVRS

ASVRO

ASVR11

A.SVR!2

OI>OOSebl>';\2

0160~0050

01&0~~1£16

0160m0?2b

..

oor:;o

0\60•2146

011!0 ..

0228

o

tt>o

..

~i-t-S-3/-<f

0!60'!'..,.4-ZJ.J

1'10\mOS?Z

\901

.. 05.??

1901~0522

1901 ..

05?2

1

'<0

1 ..

()_5?2

1901~0522

1'101 ..

0522

1'101 ..

05?2

tll54

.. Q039

185~·0329

1854

..

0039
\&S4mOJ2Q TSTRISI
1&54ooOJ29

1851.1

.. 0329

0757

..

0280

o757 .. 011H

0811 .. 092'1
0757 ..

011112

:J757 ..

ons

0757 .. 0?1\3
0757

.. 042'1
21QOoo0554
0757

..

02>10

o7s7

..

own

..

17

ilb

0811

0757<-0~112

0738
0283

0757

..

0429

2100

.. 0554
0757mQ28Q

jQ02 .. 0041
1902

..

3111'1
1'102,.00111
lqO?mJliJQ

:S"J,/1

BOARD

CAPAtiTLii<~FXD

2

CAPAC

2

CAPACllOf< ..

2

CJ>,PACI!OR~FXD

CAPACITOR
CAPACliCR

CAPACITQR

2

CAPACITOR•FXD

DIODf~Gf~l

8

OlOOEaGf_N

OIOOE~GPJ

DIOOEwHN
DlDOE•GtN

DIODE

!.HODE

DIOUE
TRANSISTOR

2

TSTR:SI

"

TRANSISTOR
TSTR:Sl
iSTR:SI
RESISTOR

5

IH:.SJSTOR

2

RESISTOR

1

RESISTOR

2

RESISTOR

2

RESISTOR

2

RtSISTOR

2

RtS!STOR•TRMR

2

RtSISTOR
RESISTOR

~ESISTCR

RESISTOR

1

RESISTOR
RESISTOR
RESISTOR

RE:.SISTOR

Rf.SISTOR~TRMR

RESISTOR
RESISTOR

OIODE.,ZNR

2

DIODE~ZNR

2

DIODE
DIOOEmZNR

ASSEMBLY, PO\'jER

ITOi<~F

..

GEN

..

GEN

..

GEN

..

ZNR

40UF+75~10~

XD

.02UF

FXO

22Uf+v\Q%

40UF+1S~IO%

..

FXD

• 02UF

..

FXD

22UF+•IO%

..

FXO

0'17UF

0

.047UF

200V
?OOV

"'

'"

200V

"'

,,,

?OOV

200V

"'

?OOV

"'

PRP

200V

zoov

"'

NPN

2N3053 SI

NPN

NPN

2N3053

NPN

'PN

NPN

,12sw

"

"

3032!<

!X

5%

2~

.51

,12SW

!OK

"

t •

82K

"

2K " ,125w

1.

82K

"

SOD

1K

.12SW F

"

o125W

"

"

3.32K " .1251'1 F
,3b

SX

21'1

,!25W F

!OK

"

1.

62K

.125W F

2K

1%

"

1.821'1
500

"

.12SW F

1K

1K

\2SW F TC=o+

1%

0

"

5,11

v

".

oqv

"

"

S.11V

5%

'1009V

"

SUPPLY

,,

SOVDC

+80

..

20%

IOO~VDC

iSVOC

TA

SOVDC

tf!0

..

20%

!SVDC

....

aox_,..S.o-wvoc

+~20%~0WVDC

lA

2US

3A

2US

3A

2US

311.

?US

311.

?US

3A

<US

3A

2US

2US

3A

SI

F

rc~o•-too

• 125W f

p~

TC=Ot ..

f

,251'1

F
TC:ot

F

.1251'1 F

TOP

10%

c

TC~;Ot"\00

TC:Qtai(}O

F

PW

TC=0+-800

TC~OtmtOO

25W

F

0

rc=o+

,125W F TC"OtmlOO

TQP

lOX

C

TC=O+

00

.. 7 PD:,IIW

oo

..

7 P01l

oo

..

1 PO;: •

00 .. 7 P01llo4W

AL

IOOwVDC

TA

1001/

ro

..

s

PD=tw

TOn'S

PQztw

iC:Qt

..

lOO

SOO

TC=o~

..

100

TC:Ot•!OO

..

IOO

TC=Ot

..

IOO

.. ~ OJ

l'"TRN

TCzo;-

.. 100

TC~~:O+.,lOO

..

too

..

ADJ

I"'TRN

..

IOO

..

IDO

Tc=

11W

TC=+.OSH

0

~w

rc=

TC=•·

CER

CER

POL

I'E

POLYE

...

oo9x

...

oo9%

osn

28480

5b28'1

28'180

5028'<

56

284!10

56

28480

28480
28480 1'101 ..

281.180

281.!80
281180

281.!80
28480

281.!80

281.180
04

28'180

01.!713

281.180
281180

281180

21.1546

21.151.16
750112

245116

t '170 1

2'15'10
245116
73138
2454b

245116
2/.!Silb

75042

2451.16

!'HOI

24541>

2115~b

1l138

2454b
21i5116

15618

01.171:;

15818

Ot1713

oeoos

300406G0?0002

01b0

1SOD22b~q01S62

2M

30DII06G050002

0100

2M

!SOD226X9015B2
0160

0160

190!•0522
1901 ..

1901

l'f01
iCIQ1

1901.,0522
1901 ..

713 2N3053

18514.,0329
2N30S3
1854 ..
!8514

!SSI.I
Ch1/8

C/.l

..

6Wrl2

Cll~ttS~TOni002~F

~F52C·i

CII•I/8~T0~2DOI~F

CI.I

..
72ooi
CI.I

..

Cl.!•1t6~T0~100!~F

C4

..
6WH2,.36/100 .. J

C4~1/8

MFS2C
C4

..
C4

..
72 ..

1014
C4ml/e
c4

..

CD

sz

CD

sz

..

boSt2

..

2)1.l6

..

2146

..

4211

..

«?11

0522
05<.'2

..

052?

..

0522

..

052?
052?

0329

..

0329

..

O:S2'1

.. T 0 .. 1 00 J

l/8vl'Q

..

3J21

..

fl5J•J

I/8

..

T0v!B2i~F

011

.. 0

I/6

..

T0

.. 1001.,F

j/ij

..

T Q

..

J321

..

TO

..

I002.,f

.. t

l/8

..

T0

..

2D01~F

1/8

..

T0*1821•F
.. 0
..

ro

..

toot~F

tte

..

ro

..

tooi

3%22
1Q9J'1o170
35&22
1093'<

..

170

..

.. f

.. f

.. F

f'

7-16

See

introduction

to

this

section

for

ordering

information

Model80058

Table

7-2.

Replaceable

Replaceable Parts

Parts

Reference
Designation

"

AeR1

ASS\

HP Part
Number Code

08005mbjqQj
21Q(}a2(:)8/<

3100

..

0511

Oty

SwiTCH

RESISTOR~VAR

1
1

Description

/I.SSEIIBL

Y,

CONTROL

RUE

CC

lOOK

10%

IOCCW

Mfr

281.!80

01121

281.!80

Mfr Part Number

osoos

..

ctqot

J

3100

..

0511

SeC'

introduction

to

this

section

for

ordering

information

7-17

Replaceable Parts

Reference

Designation

"

A'1Rl

A<ll<<?

A<:IR3

A

'iS

I

HP Part
Number

i1130iJS ..

6t<f02

P757~03b':i

2!00~2083

0757

..

11Ji27

3100

..

05!2

Oty

l
l

'
'

Table

swr

TCH

ASSEI>IBLY,

I<ESIS10R
RESISTOR

R~SlSTOR

7-2

Replaceable Parts

Description

wiDTH

22.1

..

V~R

1,

l%

CONTROL

SK

"

•

.125W

12Sw

F

TC:;O•~!OO

CC

lOOK

F

rc=o•

'"

..

too

1

OCI'l

Mfr

Code

28!180

19701

01121

2i.IS!lt.

28~80

Mfr

Part Number

080QS .. b1

MF~CI/8

J

C4•1/8~TO•IS01~F

3100

..

..

0512

902

T0

..

22Rt~F

Modei8005B

7-18

See

introduction

to

this

section

for

ordering

information

Modei8005B

Reference

HP

Designation Number

Part

Oty

Table

7-2.

Replaceable Parts

Description

Mfr

Code

Mfr

Part Number

Replaceable Parts

"'

A!OR!

AIOR2

A I OR3

A I OS!

08005m6\9\),)

0757w038S

0757~0274

2100

.. ?61\3

3100~0512

SWITCH ASSEM81.,V, OELAY
Rf;.SJSTnR

1
1 l'lESlSTOf.:

RfSISTCR~VAR

1

1

22.1

1.2\i<

1%

.12sw

1%

.125W

CONTROL

~

rc~o+~too

F TC;:Qt

CC

lOOK

10%

08005

..

2!!480

..

IOO

IOCW

1'1701

24'341>

0

112!

281180

61903

~F4C\/B~T0~22~1•F

C4~!/8RT0~)213RF

J

1100

..

0512

See

introduction

to

this

section

for

ordering

information

7-19

Replaceable Parts

M A N U F A C T U R E R S

C 0 D E

MFR

NO

~

l S T

Table

7~3.

Manufacturer's

Code

Modei8005B

Numbers

PAGE

00()00

00071<

00861

OH21

0!295

- 021 u

02735

011713

O?i!l'l3

u

'502

15818

l'n

II

I

2~22&

211'5111:>

21.1'931

2111:11

211t180

'56281!1

11400

72136

73138

11.121~

'1'5.0112

75q1s

7b530

7818<!

7'1727

82311<1

qu,n

NO

M/r

DESCRIPTION

KASELMET

11Ef1NER•IRU5H

ALLEN•BRIIDI.E'I'

TE:XAS

FERRUXCUBE
RCA
MOTOROLA

FAIRCHILD

TRW
TELEDYNE

MEPCO/ELEC1RA

GOWANDA

CORNING
CORNING

HEWLETT•PACKARD

SPRAGO£

BUSSMAN

ELECTRO

BECXMAN

SlGNAI.HE

TRW

UTIELFUSI'

TRW

ILLINOIS

C•i'i lNDUSIRIES

SWHCHCRAF'T

DALE

Si'ALEC I

AMER

AI.

INC

CO

INSH! INC SEM!CONO

cORP

CORP

SOLID

STATE

SEMICONDUCTOR

SEMICDNDUCJON

INC

BOONE

DIV

SEMlCDNDUCTOR

CORP

ELECTRONICS
GLASS

&LABS

WORKS

WORKS

CD

ElECIRIC
MFG

D!V

MOTIVE

CO

OF

CORP

lNS!ROMENIS

iNC

INC

PHILADELPHIA

INC

ELEK

CMPNT

TOOL

WORKS

CINCH•MDNADNOCK

INC

ELECHION!CS

RO

CORP

PRCN

!NO

li\IC

.

INC

FOR

THIS

MFG

CMPNT

NUMBER

DJ\1

DIV

PRODUCTS

OIV

CORP

(BRADFORD)
(WILMINGTON)

CORPORATE

HQ

MCGRAW®EOISON

SUB

IEC

INC

HELIPO!

01V

DIV

DlV

INC

!!HAKEPROOF

DELEVAN

DlV

CO

ua:uovu

MU

..

I'IAIJI<E[

OAI.I.AS

NV

1111

'l'lt

UOGERtlts·Nv

SOMMERVILLE

PHOENIX

fi!OU!\l1UN

DOONE

M.OIJNUXN
fi!il'lERIIL

GOWANDA

NC

WECtS

NV

BRADFORD
WllM!NGTON

PALo

NoR!H

ST

ALTO

IIOAfl!S

LOUIS

Wli.UMANilt Ci

F.Ut!OEIHO.N C 14

NEPTUNE

PlUI.,Ai)£LPH.U

DES

CUV

ELGIN

WAFIMllllS!EH PA

CWitAG.O

t

OLUMSU.$

liillliiAF!OIIIEtl<.

IIIJ

PClUNE!I

OF

INDUSTRY

II.

· H.

.. · NE'

NJ

H.

v!Utll

VIEW

PA

NC

(:A

1'111

Mo

PA

U:

N'l'

tA

U

(;Aq11tl'1

12417

O!H!7c

115008

'lllo<nrn

23607

~till~

7606 7

1

11011)

1611!1

:,

I) ; ••

2s4u r

•

q~&30il

.

01211?

'

uou

01:1221:1

600U>

MUo

7-20

Mode18005B

Service

8-1

8-2

8-3

INTRODUCTION Table

This

and

schematic

the

referance

also given. Refer

are
parts

information.

RECOMMENDED TEST EQUIPMENT

8-4

Test

required

1-1.

meets

to

Equipment

the

listed critical specifications.

section

diagrams

designators

equipment

maintain

other

contains

for

the

and

to

Section 6 for

and

the

Model

than

the

component

ModeL

Tables

schematic

the

test

equipment

1223A

that

listed can be used

layouts

listing

symbols

replaceable

are listed in

used

accessories

SECTION

SERVICE

table

if

it

VIII

A

B
BT

c

CP
CR

DL
DS

F

FL

HR

J

K

L

M

8-1.

Reference Designators

assembly

motor

battery
capacitor

coupler

diode

delay line

lamp

fuse

filter

heater
jack
relay

inductor
meter

u

p

Q

R
RT

s

T
TB

v

VR

w

X
y

TP

micro*circuit

plug

transistor

resistor
thermistor

switch

transformer
terminal

vacuum, tube, neon

bulb,
voltage
cable
socket
crystal

test

board

photocell,

regulator

point

etc.

8-1

Service

Table

8-2.

Schematic Diagram Notes

(1

of

Modei8005B

2)

Units

P/0

*

----,

[

----'

947

General

Resistance values are
microfarads and inductance values in micro henries unless

otherwise

noted!

Part

of

Asterisk denotes a

is

the

shown

Encloses fl-ont panel

Encloses rear panel

Heavy line indicates signal path

Heavy dashed line indicates

colour

Wire
number

is

Wire

or

plug used

Test

point

fied

on

P.

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