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HP BENCH Series User Manual

HP BENCH Series
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son.
TERMINATION
POWER
SUPPLY
CASE
T-CONNECTOR
AC-
ACC-
6ND-
0.01
uf
+
O-
50
'
f'
Li^
n
OSCILLOSCOPE
CASE
(t
1
O.OIuf
—
d).
V
<—
%
^
>n
VERTICAL
INPUT
V„
VERTICAL
INPUT
AC
ACC
-GND
T-CONNECTOR
son
TERMINATION
Figure
5-7.
Noise
Spike
Test
Setup
power
supply
would
be
zero
at
all
fre
quencies,
while
the
output
impedance
for
an
ideal
constant
current
power
supply
would
be
infinite
at
all
fre-
quenc
ies.
The
output
impedance
of
a
power
supply
is
normal
ly
not
measured,
since
the
measurement
of
tran
sient
recovery
time
reveals
both
the
static
and
dynamic
output
characteristics
with
just
one
meas
urement.
The
output
impedance
of
a
power
supply
is
commonly
measured
only
in
those
cases
where
the
exact
value
at
a
particular
frequency
is
of
engineering
importance.
5-36
To
check
the
output
impedance,
proceed
as
follows:
a.
Connect
test
setup
shown
in
Figure
5-8.
cables,
must
be
substituted
for
the
shielded
two-
wire
cable.
2.
Impedance
matching
resistors
must
be
included
to
eliminate
standing
waves
and
cable
ringing,
and
the
capacitors
must
be
connected
to
block
the
DC
current
path.
3.
The
length
of
the
test
leads
outside
the
coax
is
critical
and
must
be
kept
as
short
as
pos
sible;
the
blocking
capacitor
and
the
Impedance
matching
resistor
should
be
connected
directly
from
the
inner
conductor
of
the
cable
to
the
power
supply
terminals.
4.
Notice
that
the
shields
of
the
power
sup
ply
end
of
the
two
coax
cables
are
not
connected
to
the
power
supply
ground,
since
such
a
connec
tion
would
give
rise
to
a
ground
current
path
through
the
coax
shield,
resulting
in
an
erroneous
measurement.
5.
The
measured
noise
spike
values
must
be
doubled,
since
the
impedance
matching
resis
tors
constitute
a
2-to-l
attenuator.
6.
The
noise
spikes
observed
on
the
oscil
loscope
should
be
less
than
0.
5mV
p-p.
5-34
The
circuit
of
Figure
5-7
can
also
be
used
for
the
normal
measurement
of
low
frequency
ripple
and
noise;
simply
remove
the
four
terminating
re
sistors
and
the
blocking
capacitors
and
substitute
a
higher
gain
vertical
plug-in
in
place
of
the
wide
band
plug-in
required
for
spike
measurements.
Notice
that
with
these
changes,
Figure
5-7
be
comes
a
two-cable
version
of
Figure
5-6C.
5-35
OUTPUT
IMPEDANCE
Definition:
At
any
given
frequency
of
load
change,
AEqut/
AIqUT-
Strictly
speaking
the
definition
applies
only
for
a
sinusoidal
load
disturbance,
unless,
of
course,
the
measurement
is
made
at
zero
frequency
(DC).
The
output
im
pedance
of
an
ideal
constant
voltage
VOLTMETER
hp403B
INDICATES
Eo
POWER
SUPPLY
UNDER
TEST
VOLTMETER
hp403e
INDICATES
Ein
OSCILLATOR
hp
200
CD
IK
IVWVJ
100
OHM
Figure
5-8.
Output
Impedance,
Test
Setup
b.
Set
METER
SELECTION
switch
to
VOLTS
position.
c.
Turn
on
supply
and
adjust
VOLTAGE
con
trols
until
front
panel
meter
reads
20
volts.
d.
Set
AMPLITUDE
control
on
Oscillator
to
10
volts
(Ein),
and
FREQUENCY
control
to
100
Hz.
e.
Record
voltage
across
output
terminals
of
the
power
supply
(Eq)
as
indicated
on
AC
voltmeter.
f.
Calculate
the
output
impedance
by
the
following
formula:
Zout
=
g.
t-in
-
tiO
Eq
=
rms
voltage
across
power
supply
output
terminals.
R
=
1000
Ein
=10
volts
g.
The
output
impedance
(Zout)
should
be
less
than
0.
030
ohms.
5-6

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HP BENCH Series Specifications

General IconGeneral
BrandHP
ModelBENCH Series
CategoryPower Supply
LanguageEnglish

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