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HP 654 A Series User Manual

HP 654 A Series
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Output
Rating
The
rated
output
voltage
and
current
specification
in
“Performance
Specifications”
applies
at
the
output
terminals
of
the
power
supply.
With
remote
sensing,
any
voltage
dropped
in
the
load
leads
causes
the
supply
to
increase
the
voltage
at
the
output
terminals
so
it
can
maintain
the
proper
voltage
at
the
load.
When
you
attempt
to
operate
at
the
full-rated
output
at
the
load,
this
forces
the
supply
voltage
at
the
output
terminals
to
exceed
the
supply’s
rated
output.
This
will
not
damage
the
supply,
but
may
trip
the
OVP
(overvoltage
protection)
circuit,
which
senses
the
voltage
at
the
output.
When
operated
beyond
its
rated
output,
the
supply’s
performance
specifications
are
not
guaranteed,
although
typical
performance
may
be
good.
If
the
excessive
demand
on
the
supply
forces
it
to
lose
regulation,
the
Unr
annunciator
will
indicate
that
the
output
is
unregulated.
Output
Noise
Any
noise
picked
up
on
the
sense
leads
also
appears
at
the
output
of
the
power
supply
and
may
adversely
affect
the
load
voltage
regulation.
Be
sure
to
twist
the
sense
leads
to
minimize
external
noise
pickup
and
route
them
parallel
and
close
to
the
load
leads.
In
noisy
environments,
it
may
be
necessary
to
shield
the
sense
leads.
Ground
the
shield
only
at
the
power
supply.
Do
not
use
the
shield
as
one
of
the
sense
conductors.
Note
HP
657xA
Series
-
The
signal
ground
binding
post
on
the
rear
panel
is
a
convenient
place
to
ground
the
sense
shield.
Stability
Using
remote
sensing
under
unusual
combinations
of
load-lead
lengths
and
large
load
capacitances
may
cause
your
application
to
form
a
low-pass
filter
that
becomes
part
of
the
voltage
feedback
loop.
The
extra
phase
shift
created
by
this
filter
can
degrade
the
supply’s
stability
and
result
in
poor
transient
response.
In
severe
cases,
this
may
cause
output
oscillations.
To
minimize
this
possibility,
keep
the
load
leads
as
short
as
possible
and
tie
wrap
them
together.
In
most
cases,
following
the
above
guidelines
will
prevent
problems
associated
with
load
lead
inductance.
This
leaves
load
load-lead
resistance
and
load
capacitance
as
the
major
source
of
reduced
stability.
Further
improvement
to
the
stability
of
the
supply
may
be
obtained
by
keeping
the
load
capacitance
as
small
as
possible
and
by
decreasing
the
load-lead
resistance
by
using
larger
diameter
wires.
However,
if
heavy
guage
wire
(>AWG
10)
is
used,
conditions
may
arise
where
the
load-lead
inductance
and
load
capacitance
can
form
an
undamped
filter.
This
can
actually
reduce
the
damping
in
the
system
and
create
a
destabilizing
phase
response.
Note
If
you
need
help
in
solving
a
stability
problem
with
any
Series
654xA,
655xA,
or
657xA
supply,
contact
an
HP
Service
Engineer
through
your
local
HP
Sales
and
Support
Office.
Series
657xA
Network,
If
a
large
bypass
capacitor
is
required
at
the
load
and
the
load-lead
length
cannot
be
reduced,
then
a
sense-lead
bypass
network
may
be
needed
to
ensure
stability
(see
Figure
4-5).
The
voltage
rating
of
the
33
/iF
capacitors
should
be
about
50%
greater
than
the
anticipated
load-lead
drop.
Additon
of
the
20-11
resistors
will
cause
a
slight
voltage
rise
at
the
remote
sensing
points.
For
utmost
voltage
programming
accuracy,
the
supply
should
be
recalibrated
with
the
DVM
at
the
remote
sensing
points
(see
Appendix
A).
4-8
User
Connections
and
Considerations

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HP 654 A Series Specifications

General IconGeneral
BrandHP
Model654 A Series
CategoryPower Supply
LanguageEnglish

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