
TB
9-6625-1176-35
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9-6625-1176-35,
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Secretaryofthe
OF
THE
CALIBRATION
PULSE
ARMY
GENERATOR
TECHNICAL
PROCEDUREFOR
HEWLETT-PACKARD,
6
May
1987,
andinsert
barinthe
Department
is changed
new
pages
margin
16
May 1988
as follows:
as
of
the
of
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page.
pages
and
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sheetinfrontofthe publication
for
Army:
BULLETIN
MODEL
214B
Army, Washington,
below.
Insert
reference
Neworchanged
pages
and
14
purposes.
DC
material
is
Official:
Brigadier
Distribution:
To be
distributed
calibration
R.L.DIL
General,
The
Adjutant
in
WORTH
United States
General
accordance
procedurespublications.
with
DA
Army
Form
12-34C,
General,
Block
CARLE.VUONO
United
No.
Chief
319,
of
requirements
PIN
States
Staff
NO:
Army
for
047675—001

SUPERSEDED
COPY DATED
*TB
9-6625-1176—35
21
DECEMBER
1984
You
can
by
recommending
recommendations.
Publications,
Support
will
be
SECTION
I.
DEPARTMENT
CALIBRATION
HEWLETT-PACKARD
Headquarters,
help
Approved
improve
for
this
improvements
should
Group,
furnished
IDENTIFICATION
Test
Forms,
ATTN:
directly
instrument
records,
Your
letter
be mailed directly
AIIXTM—LPP,
Calibrationdescription
OF
THE
ARMY
PROCEDURE
PULSE
GENERATOR
Departmentofthe
6
May
1987
public
release;
REPORTING
publication
distribution
OF
by
and stating
or DA Form
Redstone
to you.
AND
DESCRIPTION
identification
and
reports
TECHMcAL
FOR
MODEL
Army,
214B
Washington,
ERRORS.
calling
2028,
to
Commander,
Arsenal,
BULLETIN
is
unlimited.
attention
your
reasons
Recommended
AL
35898—5400.
DC
to
U.S.
Paragraph
errors
for the
Changes
Army
A
1
TMDE
reply
2
3 2
and
to
Page
2
2
*This
:hanges.
II.
III.
EQUIPMENT REQUIREMENTS
Equipment
Accessories
CALIBRATION
Preliminary
Equipment
Pulse
Pulse
Pulse
Pulse
Trigger
External
Power
Final
bulletin
required
required
PROCESS
instructions
setup
repetition
position
width
and
amplitude
output
trigger
supply
procedure
supersedes
duty
and
and
rate
cycle
characteristics
double
level
TB
9—6625—1176—35,21December
and
puls
sensitivity
1984,
4
5
6
7 5
8
9 8
10 10
11
12 17
13 18
14 18
15 19
including
5
5
5
5
14
all
1

TB
9-6625-1176-35
I.
Test
Instrument
bulletin
calibration
Packard,
manual
was
compiling
being
(test
calibrated
instrument)
a.
Model
b. Time
required
4
hours,
technique.
for
Test
Repetition
Pulse
width
provides
of
Pulse
Model
214B.
usedasthe
these
instructions.
will
throughout
Variations.
and
this
calibration
using
the
instrument
parameters
rate
IDENTIFICATION
Identification.
instructions
Generator,
The
prime
be
referred
None.
Technique.
is
dc
and
Table
for
Hewlett-
manufacturer’s
data
sources
The
equipment
to
as
the
this
bulletin.
The
approximately
low
frequency
1.
Range:
Accuracy:
Range: 25
Accuracy:
SECTION
AND
This
2.
the
for
in
TI
prescribed
designated
which
tables,
adjustment.
madeand
time
3.
and
to
Calibration
Repetition
decade
amplitude
rateis
provides
ranges.
+(10%
ns to 10
continuously
+(1o%
I
DESCRIPTION
Forms,
a.
calibration
b.
Records,
Forms,
by
records,
TB
Adjustments
(R)
at
they
appear.
the
(R)
Report
designated
and
personnel
750-2
to
the
end
When
follows
only
with
CalibrationDescription.
performancespecifications
this
calibration
Description
are
Performance
specifications
rate
ranges.
4
continuous adjustment within
of_setting_+1%
of
10 Hz to 10
range,
MHz.
ms
in6decade
adjustable
setting
In
30 to
maximum
Calibratedvernier
+1%
Reports
and
5.
be
of
adjustments
those
(R).
listed
of
by
of
reports
at
all
reported
the
sentence
the
adjustments
TI
which
in
table
11Hz
in
100
V
repetition
FS)
ranges;
vernier
FS)
+5 ns
required
levels
are
designated
parameters
pertain
1.
six
are
are
in
in
Duty
Preshoot,
cycle
Transition
ringing
Pulse
Pulse
Pulse
2
times
overshoot,
polarity
delay
advance
and
>10%
>50%
Accuracy:
Accuracy:
Positive
Pulse
Pulse
Accuracy:
for
for all
can
output
in5decade
can
output
in5decade
30—100Vamplitude
other
<15
edges
<+5% of
or
negative,
be
delayed
from
be
advanced with
from
i-(1O%ofsetting
delay
ranges
ns
for
leading
pulse
amplitude
switch selectable
with
+10
ns (+
ranges (fixed
+10
ns
ranges (fixed
(fixed
C—
fixed
fixed
delay
range
(maximum
and
respect
delay)
delay
respect
delay)
delay
+1%
of
is 50
10
ms
width)
trailing
to
trigger
to
+10
is 50
is 50
FS)+fixed
to
trigger
to
+10 ns)
+10 ns)
+10
+10 ns)
ms
ins

TB
9-6625-1176-35
Test
Pulse
Constant
Trigger
Pulse width
Double pulse
External
Trigger
amplitude
Sensitivity
Source
impedance
instrument
parameters
duty
output
input:
level
Table
cycle
amplitude
1.
Calibration
Description
Range:
Accuracy:
Duty
pulse period
Typically
2.5%
.25%
and
Accuracy:
>+5V(from
10
5
MHz
range.
frequency
between
Range:
Continuously
500
5O~
cycle
range
to
to
.1% to
ns
typical
maximum
Dc to 10
mV
p—p,
nominal
0.3
calibrated
adjustment
10% for1to
10% for
+(15%
In 30 to
double
V to
100Vinto
+10%
of
of
output
is
8%
fixed
10% for
of
50~2
into
in
all
is2MHz.
pulse
MHz
variable
dc
coupled
—
Continued
Performance
specifications
5O~?,5ranges
vernier
within
setting
pulse
changed.
for
.1
.1
MHz—10
all
setting
open circuit)
ranges
100Vrange,
Minimum
is
from
providing continuous
ranges.
remains
10—1
MHz
Hz
other
+1%
except
100 ns.
—5 V to +5 V
constant
MHz
frequency
frequency
frequency
frequency
of
FS)
30
maximum
separation
range,
to
with
when
range,
ranges
100
V
4.
Equipment
the
specific
calibration
issued
Standards
items
activity
2isnot
be
verified
with
Set
may
when
available.
to
procedure.
Secondary
use and must
calibration.
Required.
equipment
TransferCalibration
AN/GSM-286.
be
used
the equipment
The
perform
bear
The
satisfactorily
evidence
equipment
Table
to
This
by
items
SECTION
II
EQUIPMENT REQUIREMENTS
2
be
used
equipment
identifies
in
this
is
exceed
in
table
provide
standard
Alternate
5.
the
listed
selected
must
calibrating
in
table
must
prior
of
current
meet
to
or
Accessories
listed
paragraph
calibration
items
unless
the
minimum
2.
The
a
four-to-one
and
TI.
use
accuracies
specifications
Required.
in
table
may
3
4
above
procedure.
be
substituted
are
issued
and
When
by
specificallyprohibited.
listed
ratio
The
as
are
necessary,
equivalent
in
table
between
accessories
indicated
used
in
listed
2
the
in
this
these
items,
3

9-6625-1176-35
Table
Item Common name
(official
Al
A2
A3
A4
A5
DIGITAL
FREQUENCY COUNTER
OSCILLOSCOPE
SIGNAL
TERMINATION
(DUMMY
2.
nomenclature)
VOLTMETER
GENERATOR
LOAD
LOAD)
Minimum
Table
Specifications
Minimum
specifications
Range:
Accuracy:
Range:
Accuracy:
Range:
Accuracy:
Range:
Accuracy:
Range:
3.
5
1
10 Hz to
300
N/A
Accessories Required
use
to
300
+0.02%
Hz to 10
~1.25%
+5%
mV
N/A
to
of
Equipment
V dc
MHz
200 MHz
11
V
Required
Manufacturer
(part
Hewlett—Packard,
3490A0PT060
(3490A0PT060 w/K25—3490A)
Hewlett—Packard,
5345A
Type
K87—59992A
Tektronix,
(MIS—28706/1
w/5A48
5B42 (MIS—28706/4)
5S14
Wavetek,
p—p
(7915944)
Narda,
(374BNM)
and
model
number)
Model
w/K25—3490A
Model
(MIS—2875411
1)
w/5355A
Type
(MIS—28706/3),
(MIS—28706/5)
Model
Model
R5440
Type
145
374BNH
and
1)
and
Item
(official
Bi
B2
B3
B4
B5
B6
B7
B8
B9
‘Two required.
2Three
required.
Common name
nomenclature)
ADAPTER
ADAPTER
ADAPTER
ADAPTER
(CALIBRATION
FIXTURE)
ATTENUATOR’
2
CABLE
LEAD’
PROBE
(TEST
LEAD)
TERMINATION
(DUMMY
LOAD)
BNC
T—type,
BNC
plug
to N
BNC
plug
to
CuG1441
Flexible
(067—05250—01
X10,
30—in.,
(7907467)
32—in.,
(7915941—1)
36—in.,
P6106
5O~
(11O48B
/U)
T—type,2jacks,1plug
Tektronix,
RC—58/U;
single
BNC
(010—6106—01)
feed—through,
Description
2
double
plug
or
(part
11048C)
number)
jacks,1plug (MS35173—274C)
jack
(10519458)
banana
or
067—0525—02)
Type
011—0059—02
BNC
plug
banana
to
X10
BNC
jacks (7909401)
terminations
plug
plug
to
probe,
to
test
Tektronix,
BNC
hook
jack
(red)
Type
4

TB
9-6625-1176-35
6.
Preliminary
a.
The
paragraphs
6 and 7
calibration
become familiar
before
procedure
common
number
b.
Items
beginning
are
name
as
listed
identification
item numbersprefixed
and
for
prefix
c.
Unless
result
of
each
requirement
action
before
calibration.
calibrate
the
procedure.
information
manufacturer’s
d.
When
paragraphs
tolerance,
prior
adjustments
through
check
to
if
8
perform
making
are
13.
all
tolerance.
e.
Unless
controls
7.
and
Equipment
HIGH
during
VOLTAGE
control
the
calibration.
requiredfor
—
source.
may
observe
a.
b.
result
safetyprecautions.
Remove
adjustment.
Connect
CALIBRATION
Instructions
instructions
process.
with
the
of
equipment
referenced
and item
in
of
equipment
B,
see
are
the
calibration.
tables
with
table
outlined
preparatorytothe
Personnel
entire
used
within
the
identification
2
and
3.
referenced
A,
see
3.
otherwisespecified,verify
test
is
not
continuing
Adjustments
TI
Additional
is
manual
indications
through
and, whenever
met,
are
take
included
contained
for
this
specified
13
are
the
power
the
corrective
with
required
in
maintenance
in
TI.
not
supply
adjustments.
made,
Do
not
other
otherwise
Setup
repeat
perform
parameters
settings
paragraphs
power
are
specified,
refer
to
WARNING
is
used
or
exposed
performance
DEATH
if
TI
TI to a
ON
personnel fail
protective
115-V
of this
CONTACT
covers
60
SECTION
should
bulletin
in
this
text
For
the
table
the
test
the
this
the
within
check
After
supply
within
the
TI.
to
Hz
by
by
to
all
as
ac
in
in
2,
III
PROCESS
c.
Energize
sufficient
and
stabilize.
8.
Pulse
a.
through
time
Repetition
PerformanceCheck
(1)
Position
(n)
below:
(a)
pressed.
(b)
pressed.
(c)
(d)
pushbutton
pressed.
(e) PULSE
dial
to
1.
(f)
released
(out).
(g)
pressed.
(h)
ccw.
(i) AMPLITUDE
8
pressed.
(j)
AMPLITUDE VERNIER
equipment
for
equipment
Rate
controls
MODE
PERIOD
PERIOD
VERNIER
as
NORM
.Iii—Iji
PULSE POSITION
POSITION
DUTY CYCLE
WIDTH
WIDTH
.I~-1ij
VERNIER
%
3—10
and
allow
to warm
listed
dial
in
pushbutton
pushbutton
to
10.
lOn-.Iii
VERNIER
pushbutton
pushbutton
dial
fully
pushbutton
dial to
up
(a)
3.
(k)
released
PULSE
frequency
and
termination
using
standardmeasurement
frequency
between
settings
not
within
(out).
(I) SLOPE
(m)
switch
(n)
(2)
Connect
counter
(3)
Measure
890
(4)
Repeat
listed
INT
DELAY/ADVANCE/DOUBLE
to
POLARITY
(B6
counter
and
in
specified
LOAD
switch
DELAY.
TRIG
(A2) A
and
REPETITION
1110
ns,
technique
table
tolerance,
139).
does
perform
4.
to
P05.
switch
OUTPUT
input,
technique.
not
of
If
indications
pushbutton
to
POS.
using
indicate
b
below.
(3)
above
perform
to
cable
RATE,
If
for
are
b
below.
5

TB
9—6625-1176-35
Test
PERIOD
pushbuttons
lji—lOu
lOp —
.lm—im
lm—lOm
lOin—.1
lOm
im—lOm
•lm
lOp
1ji—lOp
.111
.1
—
.1
—
lm
—
.lm
— ip
—
ip
m
instrument
PERIOD
dial settings
Table
4.
Repetition
Frequency
VERNIER
10
10 89
10
10
10 89
1
1
1
1
1
1
2
Rate
Mm
8.900
890
8.900
8.000
800
80 ps
8.000
800
80 ns
170
p5
ps
ins
~is
ns
ns
counter
~is
ms
ms
us
indications
Max
11.100
111
ps
1.100
11.1
111
ins
12.000
1.200
120
us
12.000
1.200
120
ns
230
ns
uis
ms
ms
ms
ins
ps
ps
.lp—ip
.lp
.lp—ip
.lp—ip
.111—ip
.lp—ip
.lji—ip
b.
Adjustments
(1)
through
pressed.
ccw.
pushbutton
dial to
I.
pressed.
pressed.
—
Position
(g)
below:
(a)
PERIOD
(b)
PERIOD
(c)
PULSE
pressed.
(d)
PULSE
(e)
DUTY
(f) WIDTH
(g) WIDTH
controls
.lp-Ip
VERNIER
POSITION
POSITION
CYCLE
ip-lOp
VERINER
as
listed
pushbutton
pushbutton
%
pushbutton
dial
3
4
5
6
7
8
9
in (a)
dial
fully
iOn-.
VERNIER
to
1.
ip
260
ns
350
ns
440
ns
530
ns
620
ns
710
ns
800ns
(3)
and
then
not
indicate
vernier
MHz
at
setting
10,
(4)
through
pressed.
pushbutton
dial
released
to
(e)
1.
(out).
Set
PERIOD
to
10.
between
of1,and
readjust
Position
below:
(a)
PERIOD
(b)
PERIOD
(c)
PULSE
pressed.
(d)
PULSE
(e)
DUTY
340
450
560
670
780
890
1.000
VERNIER
If
frequencycounter
8.9
and
between
R126.
controls
as
im-im
VERNIER
POSITION
POSITION
CYCLE
%
ns
ns
ns
ns
ns
ns
dial to
11.1
MHz
0.8
listed
pushbutton
dial
VERNIER
pushbutton
Ps
does
for
and
1.2
in
(a)
to
10.
1p_.10~r
1
indication
6
(2)
Adjust
on
frequency
R126
(fig.
counter
1)
for
(R).
12.5-MHz
(5)
Adjust
frequencycounter
R69
indication
(fig.
of
2)
1000
ps
for
a
(R).

TB
9-6625-1176-35
MSC04516
(6)
(7)
frequency
(8)
and
repeat
tolerance
9.
Pulse
a.
PerformanceCheck
(1)
through
pressed.
pressed.
dial to
10.
(2)
frequency
Set
Adjust
counter
Set
(5)
condition.
Position
Position
(d)
below:
(a)
(b)
(c)
(d)
Connect
counter
Figure
PERIOD
VERNIER
R46
indication
PERIOD
through
(7)
controls
PERIOD
DUTY
VERNIER
CYCLE
AMPLITUDE
PULSE
POSITION
TRIG
(A2) A
2.
Al
(fig.
of 100
VERNIER
above
as
%
1-3
OUTPUT
input,
(amplifier
dial
to
1.
1)
for
p5
(R).
dial to
for
best
in
listed
dial
in (a)
to
10.
pushbutton
pushbutton
VERNIER
using
cable
board)—adjustment
and
termination
a
OUTPUT
usingcable
10
-
If
an
obtained
performbbelow.
(3)
OUTPUT
standard
Frequency
129
and
171
(4)
dial
to
1.
between
48
(5)
frequency
DELAY/ADVANCE/DOUBLE
to
ADVANCE.
oscilloscope
to
(B6).
2
input,
Connect
using
locations.
(B6
to
frequencycounter
(B6).
NOTE
out-of-tolerance
in (3)
Measure
and
through
time
OUTPUT
measurement
counter
ns.
Set
PULSE POSITION
Frequency
and
72
will
counter
ns.
Disconnect
counter
Connect
(A3)
CH
OUTPUT
cable
(B6).
and
139).
reading
(10)
between
pulses,
indicate
will
OUTPUT
and
PULSE
1
TRIG
input,
OUTPUT
using
to oscilloscope
Connect
B
input,
is
below,
TRIG
using
technique.
between
VERNIER
indicate
frorr
switch
cable
CH
set
to
8

If
an
noted
perform
(3)
(A3)
to display
width
will be
(4)
Pulse
width
(5)
Pulse
PS.
width
(6)
Pulse
width
(7)
and
set
PERIOD
oscilloscope
TI
output.
(8)
dial
until
Oscilloscope
cycle
of
of
150nsor
(9)
through
(c)
pressed.
pushbutton
10
(50V).
(10)
Oscilloscope
cycle
of
30
of
ns or
NOTE
out-of-tolerance
in
(3)
through
b
below.
Adjust
Set
will
Press
will be
Set
will be
Press
1
pulse of
between
WIDTH
be
WIDTH
WIDTH
PERIOD
controls
21.5
VERNIER dial
between
between
VERNIER
between
VERNIER dial
controls
Slowly
to display
increase
oscilloscope display
50
display
percent
will
or
greater
greater).
Position
controls
below:
(a)
WIDTH
(b)
AMPLITUDE
25n-.lp
pressed.
(c) AMPLITUDE
Repeat
10
percent
display
technique
will
or
greater
greater).
condition
(27)
below,
of
oscilloscope
TI
output.
and
33.5
89
and
.lp—ip
0.890
pushbutton.
and
dial
80
and
.1ii-lp
pushbutton
to
3.
I
WIDTH
VERNIER
disappears.
disappear
(pulse
as
listed
pushbutton
VERNIER dial
of (8)
disappear
ataduty
(pulse
is
Pulse
ns.
to
10.
116
ns.
1.115
to
125 ns.
Adjust
period of
ataduty
width
in
(a)
30-100
to
above.
width
1.
(11)
through
pushbutton
pushbutton
Position
(e)
below:
(a)
pressed.
(b)
pressed.
controls
PERIOD
AMPLITUDE
(c) AMPLITUDE VERNIER
dialto3.
(d)
WIDTH
pressed.
(e) WIDTH
1.
(12)
and
connect
(A2) A
(B6
and
Disconnect
OUTPUT
and13inputs,
B4).
(13)
Measure
TI
to
using
pulse
standard measurement
Frequency
and
1.205
using
will
be
frequency
oscilloscope
attenuator
frequency
externaltrigger
and
terminmation
through
pressed.
dialto1.
(14)
settings
within
(15)
(16)
(17)
(e)
counter
Ps.
Repeat
listed
specified
Disconnect
counter
CH
1
(B6
and
Connect
counter
input,
(86,
Position
below:
(a)
PERIOD
(b)
PERIOD
(c) PULSE
will
indicate
technique
in
table
limits.
input,
B5).
TRIG
A
input and
using
B!,
controls
.Iiz-lp
VERNIER
POSITION
TB
9-6625-1176—35
as
listed
lu-lOp
VERNIER
from
oscilloscope
frequency
cableand
width,
between
of
6.
OUTPUT
and
connect
using
OUTPUT
oscilloscope
cables,
and
89).
as
listed
VERNIER
in (a)
iOm-.i
1-3
pushbutton
dial to
counter
adapter
using
technique.
0.8
(13)
above,
Indications
from
cable
and
adapter,
in (a)
pushbutton
dial
to
10.
to
to
11

(d)
DUTY CYCLE
pressed.
(e) INT
released
exactly
indication.
width
duty
and
frequency
duty
dial
width
dial
width
through
pressed.
(out).
(18)
of
cycle).
(19)
set
PERIOD
cycle
(20)
to
2.5.
between
(21)
to
10.
between
(22)
(e)
Set
1000
Oscilloscope
approximately
Press
counter
LEDisilluminated).
Set
WIDTH
Oscilloscope
202
Set
WIDTH
Oscilloscope
840
Position
below:
(a)
PERIOD
(b)
PERIOD
(c) PULSE
dial
to
10.
(d)
DUTY CYCLE
pushbutton
dial
to
(23)
and
frequency
OUTPUT
inputs,
(B6,
B4,
(24)
(e)
1.
Disconnect
to
using
and
Using
pressed.
WIDTH
frequencycounter
cable,
89).
techniquemeasure
counter
(.1
dial
between
percent
(25)
to
10.
will
duty
Set
Frequency
840
indicate
WIDTH
and
cycle).
(26)
Press
pushbutton
VERNIER
Frequency
specified
~US.
GOVERNMENT
and
dial
counter
limits.
PRINTING
%
pushbutton
LOAD
PERIOD
ns
PERIOD
VERNIER
indication
(duty
and
(duty
and
controls
VERNIER
frequency
will
80
ip-lOp
will
297
ns.
will
1160
lOm—.1
pushbutton
VERNIER
displayapulse
ns
(8
pushbutton
for
a
(2.5-10
cycle)
displayapulse
cycle)
display
ns.
as
listed
pushbutton
dialto10.
POSITION
(duty
counter
adapter,
TI
cycle)
from
and
and
oscilloscope
connect
termination
standard measurement
pulse
width.
between
Frequency
75
and
cycle).
(duty
1160
counter
ps
cycle)
(1
percent
will
DUTY CYCLE
set
WIDTH
as
will
OFFICE:
1988—530—022/80005
listed
(duty
in
indicate
for
counter
percent
10,000
ns
percent
VERNIER
VERNIER
a
pulse
in (a)
VERNIER
.1-1
VERNIER
TI
A
and
125
ps
VERNIER
indicate
duty
1-10
cycle)
table
within
7.
TB
9-6625-1176-35
(27)
Set
Frequency
and
125
b.
Adjustments
(1)
through
us.
Position
(g)
(a)
PERIOD
counter
below:
PERIOD
VERNIER
will
indicate
controls
Im-lOm
as
listed
dial
to
between
in (a)
pushbutton
1.
75
pressed.
(b)
pushbutton
dial
to
1.
pressed.
pushbutton
dial
to
10.
(2)
counter
adapter
(3)
period
10,000
ps
(4)
pulse
1000
width
ps
percent
(5)
and
set
PERIOD
(c) PULSE POSITION
pressed.
(d)
PULSE
(e)
DUTY CYCLE
(f)
DUTY CYCLE
pressed.
(g)
WIDTH
Connect
(A2)AandBinputs,
(B6
and
B4).
Set
frequency
and
set
frequencycounterindication.
Set
frequency
and
frequency
duty
cycle)
Repeat
PERIOD
VERNIER
POSITION
(duty
OUTPUT
PERIOD
adjust
counter
(R).
technique
VERNIER
cycle)
using
counter
VERNIER
counter
R51
indication
for a
dial
VERNIER
%
pushbutton
VERNIER
to
frequency
cable
to
to
(fig.
of
b(3)
to
10.
.ip-lp
1-10
and
measure
for a
measure
1)
for a
(10
above
1000-ps
frequencycounterindication.
of
b(4)
(6)
Repeat
and
adjust
frequency
B
cycle)
(R).
R217
counter
technique
(fig.
indication
1)
for a
(1
percent
above
100
ps
duty
NOTE
Due
adjustments,
to
interaction
repeat
b(3)
between
through
(6)
aboveifnecessary.
(7)
Release
pushbutton.
(8)
Press
and
set
WIDTH
R216
indication
and
frequency
CYCLE
(fig.
(9)
adjust
(10)
%
on
Set
counter
Press
fora80-ns
VERNIER dial
1)
for a
frequency
WIDTH
R128
pushbuttons.
frequency
DUTY CYCLE
WIDTH
.lm—lm
1000-ps
counter
VERNIER
(fig.
1)
indication
PERIOD
.lp-lp
Adjust
counter
pushbutton
to
10.
pulse
(R).
dial
for a
(R).
and
R197
indication
Change
Adjust
width
to
100-ps
DUTY
(fig.
(R).
1
%
1
1)
13

TB
9-6625-1176-35
WIDTH
11.
Pulse
a.
Performance
(1)
through
pressed.
pushbutton
released
pressed.
pushbutton
3
(30V).
(2)
figure
3.
Test
(Duty
dial
Amplitude and
Position
(g)
below:
(a)
PERIOD
(b)
PULSE
pressed.
(c)
DUTY CYCLE
(out).
(d) WIDTH
(e)
WIDTH
(f)
AMPLITUDE
pressed.
(g)
AMPLITUDEVERNIER
Connect
Table
instrument
Cycle)
7.
VERNIER
settings
10
9
8
7
6
5
4
3
2
1
Characteristics
Check
controls
as
lOp—.lm
POSITION
25n-.lp
VERNIER
equipment
Duty
listed
pushbutton
%
pushbutton
pushbutton
dialto10.
as
shown
Cycle
in (a)
.lp-lp
30-100
dial
to
in
Vernier
I
with
Press
will
settings
indicate
pushbutton
dial
technique,
time
and
perform
and
ringing
pulse.
percent
through
Accuracy
Frequency
Check
counter
indications
(ns)
Mm
8.4
7.55
6.70 9.30
5.85 8.15
5.00
4.15 5.85
3.30
2.45
1.60
~75
(3)
Oscilloscope
an
amplitude between
tNT
LOA.D
be
between
(4)
Repeat
listed
within
(5)
Press
and
pushbutton
13.5
technique
in
table
specified
set
I
will
and
16.5 V.
8.
Oscilloscope
limits.
AMPLITUDE
AMPLITUDE
toI(bY).
(6)
Using
measure
of
the
OUTPUT
decay time
b(8)
(7)
Set
repeat
(6)
(8)
Measure
of
positive
If
measurement
as
shown
(21)
below.
through(2!)
standard
the
are
POLARITY
above.
preshoot,
and
in
figure
risetime
pulse,if
not
less
below.
negative
is not
Max
11.6
10.45
7.00
4.70
3.55
2.40
1.25
display
27
and
pulse
of
(3)
measurement
and
the
than
switch
overshoot,
less
4,
perform
a
pulse
33
V.
amplitude
above
for
will
10-30
VERNIER
decay
risetime
15
ns,
to
NEG
and
OUTPUT
than
b(8)
5
14
If
an
noted
b(1)
Change
out-of-tolerance
in
(3)
through
(7)
1
NOTE
or
below.
(4)
below,
condition
perform
b.
Adjustments
is
(1)
through
Position
(j)
below:
controls
as
listed
in (a)

C504
C501
A3
LOAD
BOARD
MSC04520
TB
9-6625-1176-35
12.
Trigger
a.
(a)
through
push
button
2.
pushbutton
VERNIER
pushbutton
dialto3.
released
(out).
Figure
Output
Performance
(1)
(g)
(a)
pressed.
(b)
(c)
pressed.
(d)
dial to
(e)
pressed.
(f)
(g)
and
Position controlsaslisted
below:
PERIOD
PERIOD
PULSE
PULSE
1.
AMPLiTUDE
AMPLITUDE
INT
5.
Double
Check
VERNIER
POSITION
LOAD
A3
Pulse
(load
board)
.1ii-1~
dial to
iOn-.
1~i
POSITION
3-10
VERNIER
pushbutton
in
—
adjustment
(2)
oscilloscope
and
termination
will
display
2.5Vandapulse
(3)
figure
3.
(4)
(a)
through
(h)
5.
pushbutton
VERNIER
pressed.
2.
pushbutton
pressed.
dialto2.
pressed.
locations.
Connect
(A3)
CH
(B6
a
pulse
amplitude
width
Connect
Position
below:
(a)
PERIOD
(b)
PULSE
(c) PULSE
(d) WIDTH
(e)
WIDTH
(f)
AMPLITUDE
TRIG
1
input,
and
B9).
of
10
ns.
equipment
controls
VERNIER
POSITION
25n—.lii
VERNIER dial
OUTPUT
using
Oscilloscope
greater
shown
as
listed
to
cable
than
in
in
dial to
.Ip-lp
POSITION
pushbutton
to
30-100
17

EXT
TEST
tNPUT
0
I
INSTRUMENT
OUTPUT
0
I—
TB
9—6625—1176—35
OSCILLOSCOPE
A3
SIGNAL
GENERATOR
CHI
CH2
00
— I
.................I
$6
‘44
FUNCTI
OUT
ON
$6
14.
PowerSupply
a.
Performance
(1)
(a)
through
pressed.
pressed.
released
PULSE
switch
Figure
Check input
Position
(e)
(a)
AMPLITUDE
(b)
POLARITY
(c)
MODE
(d)
DUTY
(out).
(e)
DELAY/ADVANCE/DOUBLE
to
below:
DELAY.
controls
switch
EXT
CYCLE
3—10
TRIG
6.
Variable
as
listed
pushbutton
to
NEG.
pushbutton
%
pushbutton
TBI_
trigger—equipment
voltmeter
Digital
in
approximately
voltmeter
7).
approximately
betweenindication
this
indication
22.220Vdc,
pushbutton.
approximately
approximately
(2)
Connectnegative
(Al)
to
to TPI
indication.
(3)
Move
Digital
(4)
Press
(fig.
voltmeter
155
positive
133
is
performbbelow.
Digital
263
241VdcatTP5.
MSC04521
setup.
TP7 (fig.
7)
V.
voltmeter
V
dc.
recorded
not
between
AMPLITUDE
voltmeter
V
dc
input
using
will
Record
lead
If
in
7)
will
the
at
of
and
leads
to
TP5
difference
(2)
above
2
1.780
will
TPI
1j~
digital
positive
(B7).
indicate
digital
(fig.
indicate
and
and
30-100
indicate
and
19