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HP 654 A Series User Manual

HP 654 A Series
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Output
Isolation
The
output
of
the
power
supply
is
isolated
from
earth
ground.
Either
output
terminal
may
be
grounded,
or
an
external
voiatage
source
may
be
connected
between
either
output
and
ground.
However,
both
output
terminals
must
be
kept
within
±240
Vdc
of
ground.
An
earth
ground
terminal
is
provided
on
the
rear
panel
for
convenience,
such
as
grounding
wire
shields.
Warning
The
earth
ground
terminal
on
the
rear
panel
is
a
low-noise
signal
ground
for
convenience
only.
It
Is
not
designed
to
function
as
a
safety
ground.
LOAD
CONSIDERATIONS
Capacitive
Loads
In
most
cases,
the
power
supply
will
continue
to
be
stable
with
additional
external
load
capacitors
(see
the
following
table
for
Series
654xA/665xA
recommendations).
However,
large
load
capacitors
may
cause
ringing
in
the
supply’s
transient
response.
It
is
possible
that
certain
combinations
of
load
capacitance,
equivalent
series
resistance,
and
load
lead
inductance
will
result
in
instability.
If
you
need
help
in
solving
a
stability
problem,
contact
an
HP
service
engineer
through
your
local
Sales
and
Support
Office
(see
end
of
this
manual).
Series
654xA/655xA
Power
Supplies,
Maximum
External
Capacitance
6541A
6542A
6543A
6544A
6545A
6551A
6552A
6553A
6554A
6555A
40,000
mF
20,00
mF
12,000
7,000
^F
3,000
mF
100,000
mF
50,000
30,000
hF
18,000
iiF
8,000
If
the
power
supply
output
is
rapidly
programmed
into
capacitive
loads,
the
supply
may
momentarily
cross
into
CC
mode.
This
extends
the
CV
programming
time
and
limits
the
maximum
slew
rate
to
the
programmed
current
divided
by
the
total
internal
(see
“Inductive
Loads”)
and
external
capacitance.
These
momentary
crossovers
into
CC
mode
will
not
damage
the
supply.
Inductive
Loads
Inductive
loads
provide
no
loop
stability
problems
in
CV
mode.
However,
in
CC
mode
inductive
loads
will
form
a
parallel
resonance
network
with
the
power
supply’s
output
capacitor.
Generally,
this
will
not
affect
the
stability
of
the
supply,
but
it
may
cause
ringing
of
the
current
in
the
load.
Ringing
will
not
occur
if
the
Q
(quality
factor)
of
the
parallel
resonant
network
is
<0.5.
Use
the
following
formula
to
determine
the
Q
of
your
output.
Q
=
Rint
+
Rt
where:
C
s
model-dependent
internal
capacitance
(see
below);
L
as
inductance
of
the
load;
fUxx
resistance
of
the
load;
Rjni
=
model-dependent
internal
resistance
(see
below)
S=
equivaiant
series
6541A
6542A
6S43A
e544A
6545A
6551A
6553A
6553A
6SS4A
65S5A
c=
4,200
*»F
550
180
mF
68
mF
33
^F
10,000
mF
1100
nF
440
tiF
120
nF
50
>iF
Rint
7
mf)
SOmfl
SOmO
125
mO
300
mil
4
mfl
20
mn
30
mn
80
mn
250
mn
6571A
6572A
6573A
6574A
6575A
C=
44,000
nF
44,00
mF
12,000
fiF
7,000
mF
2,100
fiF
Rint
=
1.8
mfl
2.2
mf)
4
mO
14
mO
30
mn
Note
for
Series
657xA
Supplies:
If
Q
>0.5,
inductive
loads
will
ring
with
the
output
capacitance
and
be
damped
according
to
the
following
equation:
e
sma;t
2
Load
Considerations
User
Connections
and
Considerations
4-5

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HP 654 A Series Specifications

General IconGeneral
BrandHP
Model654 A Series
CategoryPower Supply
LanguageEnglish

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