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HP 654 A Series User Manual

HP 654 A Series
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If
you
cannot
avoid
capacitive
coupling,
it
may
help
to
place
capacitors
from
the
unused
programming
inputs
to
ground.
Especially
with
auto-paraUel
operation,
connecting
a
capacitor
(>4,000
pF)
from
VP
to
P
Common
on
the
master
supply
will
ensure
proper
operation.
Also
with
auto-paraUei
operation,
do
not
allow
more
than
about
500
pF
capacitive
loading
between
IM
and
Common
P.
Programming
Considerations.
When
voltage
programming
the
output,
the
frequency
of
the
programming
source
is
limited
by
the
slew
rate
of
the
power
supply.
To
keep
the
power
supply
from,
slewing
its
output
(going
into
nonlinear
operation),
the
maximum
programming
rate
is
3750
V/s.
The
maximum
downprogramming
rate
(when
the
power
supply
is
sinking
current)
is
750
V/s.
These
restrictions
can
be
expressed
as
the
maximum
programming
frequency
that
can
be
applied
without
causing
distortion
at
the
output.
The
following
formula
can
be
used
to
determine
this
frequency;
Fmax
=_
50(voltage
rating
of
supply)
p-p
amplitude
of
desired
output
sine
wave
At
frequencies
>6
kHz,
voltage
programming
is
subject
to
a
3
dB
bandwidth
limitation.
Programming
Series
657xA
Supplies
Wiring
Considerations.
The
input
impedance
of
the
analog
input
is
over
30
kfi.
If
the
output
impedance
of
your
programming
source
is
not
negligible
with
this,
programming
errors
will
result.
Larger
output
impedances
result
in
proportionally
greater
errors.
Note
from
Figure
4-3
that
you
have
three
options
for
programming
the
current.
You
can
use
a
voltage
source
that
is
positive,
negative,
or
floating
with
respect
to
Common
P.
Do
not
exceed
±19
V
with
respect
to
Common
P.
Csution
Make
sure
that
the
common
connection
for
your
voltage
programming
source
is
isolated
from
the
load.
Failure
to
do
this
may
cause
damage
to
the
power
supply.
OVP
Considerations
Remote
Sensing
The
OVP
circuit
senses
the
voltage
near
the
output
terminals
and
not
at
the
sense
terminals.
Depending
on
the
voltage
drop
between
the
output
terminals
and
the
load,
the
voltage
sensed
by
the
OVP
circuit
can
be
significantly
higher
that
that
actually
being
regulated
at
the
load.
You
must
program
the
OVP
trip
high
enough
to
compensate
for
the
expected
higher
voltage
at
the
output
terminals.
Battery
Charging
The
power
supply’s
OVP
circuit
contains
a
circuit
that
discharges
the
output
of
the
supply
whenever
the
OVP
trips.
If
a
battery
(or
other
external
voltage
source)
is
connected
across
the
output
and
the
OVP
is
inadvertently
triggered
or
the
output
is
programmed
below
the
battery
voltage,
the
power
supply
will
continuously
sink
a
large
current
from
the
battery.
This
could
damage
the
supply.
To
avoid
this,
insert
a
reverse
blocking
diode
is
series
with
the
+
output
of
the
supply.
Connect
the
diode
cathode
to
the
+
battery
terminal
and
the
diode
anode
to
the
supply
+
output
terminal.
The
diode
may
require
a
heat
sink.
External
Voltage
Control
User
Connections
and
Considerations
4-13

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HP 654 A Series Specifications

General IconGeneral
BrandHP
Model654 A Series
CategoryPower Supply
LanguageEnglish

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