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HP BENCH Series User Manual

HP BENCH Series
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POWER
SUPPLY
CASE
OSCILLOSCOPE
CASE
GND-ii>-
1
D
I
-I
+c
[f
-Overt
icAL
c:
-AC
-ACC
.|-GND
I
L
"G
I
A/W
A.
INCORRECTMETHOO-
ground
CURRENTIs
PRODUCES
60
CYCLE
DROP
IN
NEGATIVE
LEAD
WHICH
ADDS
TO
THE
POWER
SUPPLY
RIPPLE
DISPLAYED
ON
SCOPE.
POWER
SUPPLY
CASE
OSCILLOSCOPE
CASE
GND*^^-|
A
TWISTED
PAIR
VERTICAL
NPUT
USE
3-T0-2
adapter
to
BREAK
GND
PATH
B.
A
CORRECT
method
USING
A
SINGLE-ENDED
SCOPE.
3-T0-2
ADAPTER
BREAKS
GROUND
CURRENT
LOOP,
TWISTED
PAIR
REDUCES
STRAY
PICKUP
ON
SCOPE
LEADS.
POWER
SUPPLY
CASE
OSCILLOSCOPE
CASE
AC
ACC
GND-
+0
SHIELDED
TWO
-WIRE
&
-O
VERTICAL
-O
INPUT
c:
•AC
•ACC
hGND
C.
A
CORRECT
METHOD
USING
A
DIFFERENTIAL
SCOPE
WITH
FLOATING
INPUT.
GROUND
CURRENT
PATH
IS
BROKEN;
COMMON
MODE
REJECTION
OF
DIFFERENTIAL
INPUT
SCOPE
IGNORES
DIFFERENCE
IN
GROUND
POTENTIAL
OF
POWER
SUPPLY
S
SCOPE,
SHIELDED
TWO
WIRE
FURTHER
REDUCES
STRAY
PICK-UP
ON
SCOPE
LEAD.
ed
up
from
the
grounds,
the
(-h)
scope
lead
should
be
shorted
to
the
(-)
scope
lead
at
the
power
sup
ply
terminals.
The
ripple
value
obtained
when
the
leads
are
shorted
should
be
subtracted
from
the
actual
ripple
measurement.
5-30
In
most
cases,
the
single-ended
scope
method
of
Figure
5-6B
will
be
adequate
to
eliminate
non-real
components
of
ripple
and
noise
so
that
a
satisfactory
measurement
may
be
obtained.
How
ever,
in
more
stubborn
cases,
or
in
measurement
situations
where
it
is
essential
that
both
the
power
supply
case
and
the
oscilloscope
case
be
connect
ed
to
ground
(e.
g.
if
both
are
rack-mounted),
it
may
be
necessary
to
use
a
differential
scope
with
floating
input
as
shown
in
Figure
5-6C.
If
desired,
two
single
conductor
shielded
cables
may
be
sub
stituted
in
place
of
the
shielded
two-wire
cable
with
equal
success.
Because
of
its
common
mode
rejection,
a
differential
oscilloscope
displays
only
the
difference
in
signal
between
its
two
vertical
input
terminals,
thus
ignoring
the
effects
of
any
common
mode
signal
introduced
because
of
the
difference
in
the
AC
potential
between
the
power
supply
case
and
scope
case.
Before
using
a
differential
input
scope
in
this
manner,
however,
it
is
imperative
that
the
common
mode
rejection
capability
of
the
scope
be
verified
by
shorting
together
its
two
input
leads
at
the
power
supply
and
observing
the
trace
on
the
CRT.
If
this
trace
is
a
straight
line,
the
scope
is
properly
ignoring
any
common
mode
signal
present.
If
this
trace
is
not
a
straight
line,
then
the
scope
is
not
reject
ing
the
ground
signal
and
must
be
realigned
in
ac
cordance
with
the
manufacturer's
instructions
until
proper
common
mode
rejection
is
attained.
Figure
5-6.
Ripple
and
Noise,
Test
Setup
however,
that
the
power
supply
case
is
still
con
nected
to
ground
via
the
power
supply
output
ter
minals,
the
leads
connecting
these
terminals
to
the
scope
terminals,
the
scope
case
and
the
third
wire
of
the
power
supply
cord.
5-31
To
check
the
ripple
and
noise
output,
pro
ceed
as
follows:
a.
Connect
the
oscilloscope
or
RMS
volt
meter
as
shown
in
Figures
5-6B
or
5-6C.
b.
Adjust
VOLTAGE
control
until
front
panel
meter
indicates
maximum
rated
output
voltage.
c.
The
observed
ripple
and
noise
should
be
less
than
200p.Vrms
and
ImV
p-p.
5-28
Either
a
twisted
pair
or
(preferably)
a
shield
ed
two-wire
cable
should
be
used
to
connect
the
output
terminals
of
the
power
supply
to
the
verti
cal
input
terminals
of
the
scope.
When
using
a
twisted
pair,
care
must
be
taken
that
one
of
the
two
wires
is
connected
both
to
the
grounded
ter
minal
of
the
power
supply
and
the
grounded
input
terminal
of
the
oscilloscope.
When
using
shield
ed
two-wire,
it
is
essential
for
the
shield
to
be
connected
to
ground
at
one
end
only
so
that
no
ground
current
will
flow
through
this
shield,
thus
inducing
a
noise
signal
in
the
shielded
leads.
5-29
To
verify
that
the
oscilloscope
is
not
dis
playing
ripple
that
is
induced
in
the
leads
or
pick-
5-32
Noise
Spike
Measurement.
When
a
high
fre
quency
spike
measurement
is
being
made,
an
in
strument
of
sufficient
bandwidth
must
be
used;
an
oscilloscope
with
a
bandwidth
of
20
MHz
or
more
is
adequate.
Measuring
noise
with
an
instrument
that
has
insufficient
bandwidth
may
conceal
high
frequency
spikes
detrimental
to
the
load.
5-33
The
test
setups
illustrated
in
Figures
5-6A
and
5-6B
are
generally
not
acceptable
for
measur
ing
spikes;
a
differential
oscilloscope
is
neces
sary.
Furthermore,
the
measurement
concept
of
Figure
5-6C
must
be
modified
if
accurate
spike
measurement
is
to
be
achieved:
1.
As
shown
in
Figure
5-7,
two
coax
5-5

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HP BENCH Series Specifications

General IconGeneral
BrandHP
ModelBENCH Series
CategoryPower Supply
LanguageEnglish

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