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HP 8340b Operating Instructions

HP 8340b
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Another
type
of
leveling
error
arises
from
long
pulse
periods
(low
repetition
rates),
or
more
precisely,
long
off
times
between
pulses.
The
problem
lies
in
the
error
detection
and
modulator
drive
circuits
shown
in
Figure
3-35.
On
the
left
is
the
comparison
point,
where
the
ALC
input
is
compared
to
the
detector
output.
For
this
discussion
assume
the
two
resistors
are
equal
in
value,
so
if
the
ALC
and
detector
voltages
are
equal
in
magnitude
but
opposite
in
polarity,
the
error
signal
will
be
zero.
The
error
is
fed
to
an
integrator
through
the
integrate/hold
switch.
This
switch
is
closed
continuously
during
CW
operation.
Any
error
signal
causes
the
integrator
output
to
change
at
a
controlled
rate
(determined
by
capacitor
C),
changing
the
RF
output
via
the
linear
modulator.
The
integrator
output
continues
to
change
until
its
input
is
zero,
which
means
the
detector
voltage
is
balancing
the
ALC
input
voltage.
The
time
required
to
cancel
an
error
is
about
70
jisec
(4
p.sec
with
AM
on
or
when
sweeping
fast,
under
which
conditions
a
smaller
value
of
C
is
switched
into
the
circuit).
DETECTOR
OUTPUT
+
1.0V
HLC
INPUT
-1.0V
INTEGRATOR
ERROR
VOLTRGE
0.0V
-
0
^
0
-
INTEGRATE/
HOLD
SWITCH
HP
r
TO
LINEAR
MODULATOR
-
Figure
3-35.
Error
Detection
and
Modulator
Drive
Consider
now
pulse
operation
with
a
period
of
1
msec.
The
detector
S/H
measures
a
pulse
and
holds
its
value
until
the
next
pulse.
Assuming
an
error
is
present,
the
integrator
responds
to
that
error,
reaching
the
proper
modulator
drive
in
about
40
jisec.
Since
the
detector
S/H
is
still
holding
the
error
from
the
last
pulse,
the
integrator
keeps
changing
until
the
next
pulse,
overshooting
its
mark
and
causing
instability.
For
this
reason
the
integrate/hold
switch
is
only
closed
during
a
pulse.
During
the
period
beween
pulses,
the
switch
is
opened,
thus
the
integrator
input
is
zero
so
the
modulator
drive
doesn’t
change.
This
assures
that
the
amplitude
at
the
beginning
of
the
next
pulse
is
the
same
as
at
the
end
of
the
previous
pulse.
Corrections
take
place
only
during
the
pulses,
until
equilibrium
is
reached.
Since
this
may
cause
very
long
response
times
for
narrow
pulses,
the
integrate/hold
switch
is
held
closed
a
minimum
of
10
p.s
per
pulse,
for
pulses
narrower
than
that.
This
is
not
long
enough
to
cause
overcorrections
but
speeds
response
time
for
100
ns
pulses
by
a
factor
of
100.
During
the
period
between
pulses,
the
integrate/hold
circuit
is
expected
to
hold
the
modulator
drive
constant.
Because
of
leakage
currents,
the
output
will
in
fact
drift,
causing
the
pulse
amplitude
to
be
in
error.
This
error
will
grow
with
off
time
and
also
temperature,
as
leakage
is
strongly
temperature
dependent.
The
circuit
is
designed
worst
case
for
<0.1
dB
droop
in
10
msec
at
an
ambient
tem¬
perature
of
55°C.
At
25°C,
a
typical
unit
drifts
about
1
dB
per
minute.
The
drift
may
be
in
either
direction.
HP
8340B/41B
Operating
Information
3-113

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HP 8340b Specifications

General IconGeneral
BrandHP
Model8340b
CategoryInverter
LanguageEnglish

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