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HP Lab Series User Manual

HP Lab Series
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Ripple
and
noise
measurement
can
be
made
at
any
input
ac
line
voltage
combined
with
any
de
output
voltage
and
load
current
within
rating.
5-16
The amount
of
ripple
and
noise
that
is
present
on
the
power
supply
output
is
measured
either
in
terms
of
the
RMS
or
(preferably)
peak-to-peak
value.
The
peak-to-peak
measurement
is
particularly
im-
portant
for
applications
where
noise
spikes
could
be
detrimental
to
a
sensitive
load,
such
as
logic
circuitry.
The
RMS
measurement
is
not
an
ideal
representation
of
the
noise,
since
fairly
high
output
noise
spikes
of
short
duration
could
be
present
in
the
ripple
and
not
appreciably·
increase
the
RMS
value.
5-17
The
technique
used
to
measure
high
frequency
noise
or
"spikes"
on
the
output
of
a
power
supply
is
more
critical
than
the
low
frequency
ripple
and
noise
measurement
technique;
therefore
the
former
is
discussed
separately
in
Paragraph
5-25.
AC
ACC
GND
AC
POWER
Sll'PLY
CASE
+
~
OSCILLOSCOPE
CASE
OSCILLOSCOPE
CASE
+
-
VERTICAL
...
INPUT
8.
A
CORRECT
METHOD
USING
A
SINGLE-ENDED
SCOPE.
OUT'FUT
FlOOED
TO
BREAK
GROUND
CURRENT
LOOP,
TWISTED
PAIR
REDUCES
STRAY
PICKUP
ON
SCOPE
LEADS.
.
AC
ACC
GND
POWER
SUPPLY
CASE
OSCILLOSCOPE
C.ISE
AC
ACC
GND
N;
ACC
GllD
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
ParENTIAL
OF
POWER
SUPPLY
ll
SCOPE;
SHIELDED
TWO
WIRI::
FURTHER
REDUCES
STRAY
·
PICK-UP
ON
SCOPE
LEADS.
Figure
5-4.
Constant
Voltage
Ripple
and
Noise,
Test
Setup
5-4
5-18
Ripple
and
Noise
Measurements.
Figure 5-4A
shows
an
incorrect
method
of
measuring
p-p
ripple.
Note
that
a
continuous
ground
loop
exists
from
the
third
wire
of
the
input
power
cord
of
the
supply
to
the
third
wire
of
the
input
power
cord
of
the
os
cil-
loscope
via
the
grounded
power
supply
case,
the
wire
between
the
negative
output
terminal
of
the
power
supply
and
the
vertical
input
of
the
scope,
and
the
grounded
scope
case.
Any ground
current
circulating
in.this
loop
as
a
result
of
the
difference
in
potential
EG
between
the
two
ground
points
causes
an
IR
drop
which
is
in
series
with
the
scope
input.
This
IR
drop,
normally
having
a 60Hz
line
frequency
fundamental,
plus
any
pickup
on
the
un-
shielded
leads
interconnecting
the
power
supply
and
scope,
appears
on
the
face
of
the
CRT.
The
magnitude
of
this
resulting
noise
signal
can
easily
be
much
greater
than
th~
true
ripple
developed
be-
tween
the
plus
and
minus
output
terminals
of
the
power
supply,
and
can
completely
invalidate
the
measurement.
5-19
The
same
ground
current
and
pickup
problems
can
exist
if
an
RMS
voltmeter
is
substituted
in
place
of
the
oscilloscope
in
Figure
5-4.
However,
the
oscilloscope
display,
unlike
the
true
RMS
meter
reading,
tells
the
observer
immediately
whether
the
fundamental
period
of
the
signal
dis-
played
is
8.3
milliseconds
(l/120Hz)
or 16.7
milli-
seconds
(l/60Hz}.
Since
the
fundamental
ripple
frequency
present
on
the
output
of
an
~
supply
is
120Hz
(due
to
full-wave
rectification),
an
oscillo-
scope
display
showing
a 120Hz
fundamental
com-
ponent
is
indicative
of
a
"clean"
measurement
set-
up,
while
the
presence
of
a
60Hz
fundamental
us-
ually
means
that
an
improved
setup
will
result
in
a
more
accurate
(and
lower}
value
of
measured
ripple.
5-20
Figure
5-4B
shows
a
correct
method
of
mea-
suring
the
output
ripple
of
a
constant
voltage
pow-
er
supply
using
a
single-ended
scope.
The ground
loop
_path
is
broken
by
floating
the
power
supply
output.
Note
that
to
ensure
that
no
potential
dif-
ference
exists
between
the
supply
and
the
oscillo-
scope,
it
is
recommended
that
whenever
possible
they
be
plugged
into
the
same
ac
power
buss.
If
the
same
buss
cannot
be
used,
both
ac
grounds
must
be
at
earth
ground
potential.
5-21
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
vertical
inp'Ut
terminals
of
the
scope.
When
using
a
twist-
ed
pair,
care
must
be
taken
that
one
of
the
two
wires
is
connected
to
the
grounded
input
tenninal
of
the
oscilloscope.
When
using
shielded
two-
wire,
it
is
essential
for
the
shield
to
be
connected
to
ground
at
one
end
only
so
that
no
ground
cur-
rent
will
flow
through
this
shield,
thus
inducing
a
noise
signal
in
the
shielded
leads.
, _

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HP Lab Series Specifications

General IconGeneral
BrandHP
ModelLab Series
CategoryPower Supply
LanguageEnglish

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