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HP 8340b Operating Instructions

HP 8340b
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The
reference
voltage
may
be
set
over
a
range
of
-66
dBV
(.0005V)
to
+6
dBV
(2.00V).
This
wide
ranqe
accommodates
a
variety
of
detectors
and
leveling
situations.
The
input
accepts
either
positive
or
negative
voltages
automatically.
For
example,
with
REF
=
20
dBV,
the
loop
will
level
with
an
input
of
either
+0.1V
or
—0.1V.
The
input
will
accept
overloads
of
±25
volts
with
no
damage.
The
input
resistance
is
1
M£2.
Figure
3-33
shows
the
input
power
versus
output
voltage
characteristics
for
typical
HP
crystal
detectors.
From
the
chart
the
leveled
power
at
the
crystal
detector
input
resulting
from
any
reference
setting
may
be
determined.
The
range
of
power
adjustment
is
approximately
—30
dBm
to
+18
dBm.
Detector
Characteristics
As
shown
in
Figure
3-33,
crystal
detectors
may
be
characterized
by
three
operating
regions.
In
the
square
law
region
(Pin
<-20
dBm)
the
output
voltage
is
proportional
to
the
square
of
the
input
voltaqe,
in
other
words,
proportional
to
input
power.
In
the
linear
region
(Pin
>+5
dBm)
the
output
voltaqe’is
directly
proportional
to
the
input
voltage.
Because
of
this,
when
leveling
in
the
linear
region
a
1
dB
reference
change
causes
a
1
dB
power
change,
while
in
square
law
a
1
dB
reference
change
causes
a
1/2
dB
power
change.
This
should
be
understood
when
using
power
sweep
or
AM.
The
power
sweep
function
will
sweep
the
reference
by
up
to
40
dB,
but
if
a
square
law
detector
is
being
used
the
power
will
only
sweep
20
dB.
The
power
sweep
will
only
be
linear
if
the
operation
is
entirely
in
square
law
or
entirely
in
linear.
In
the
transition
region,
the
power
sweep
will
be
non-linear.
As
may
be
seen
in
Fiqure
3-33
by
drawing
a
line
between
—10
dBV
and
—50
dBV,
the
worst
deviation
from
a
straiqht
line
is
3
dB
of
reference
voltage,
or
2
dB
of
RF
power.
The
amplitude
modulation
system
is
designed
to
be
linear
with
a
square
law
detector.
With
a
linear
detector,
the
modulation
depth
will
be
more
than
expected,
and
there
will
be
significant
distortion.
HP
power
meters
have
a
rear
panel
output
(“recorder"
output)
which
responds
linearly
with
power.
The
output
is
+1.00V
for
full
scale
on
whatever
range
is
selected
+.50V
for
3
dB
below
full
scale,
+
10V
for
10
dB
below
full
scale.
These
numbers
may
be
seen
directly
on
the
0
-1
“WATTS
scale
on
an
analog
power
meter
(e.g.,
HP
432,435).
This
response
is
the
same
as
a
square
law
detector,
so
all
the
comments
above
for
such
detectors
apply
to
power
meters.
Settiriq
the
desired
power
with
a
non-autoranging
meter
(HP
432,435)
is
straightforward.
Assume
+3
dBm
is
desired
at
the
power
sensor.
Set
the
power
meter
on
the
+
5
dBm
range,
so
the
desired
power
is
2
dB
below
full
scale.
Since
the
RF
power
changes
1/2
dB
for
each
1
dB
reference
change,
set
the
reference
for
—4
dBV.
Auto
ranqinq
meters
(e.g.,
HP
436)
must
be
used
in
their
range
hold
modes
to
prevent
range
change
during
blanking
or
other
RF-off
intervals.
To
lock
the
meter
to
the
desired
range,
internal
leveling
must
be
used
Adjust
the
HP
8340B/41B
output
power
until
the
meter
is
on
the
desired
power
range,
then
press
range
hold.
As
an
example,
consider
the
HP
436;
The
HP
436
changes
ranges
every
10
dB,
so
if
—8
dBm
is
desired,
the
reference
must
be
set
for
8
dB
below
full
scale
(REF
16
dBV)
with
the
HP
436
locked
on
the
—10
to
0
dBm
range.
(Caution:
the
HP
436
range
change
circuits
have
intentional
hysteresis.
Setting
the
power
to
0
dBm
may
place
the
meter
on
either
the
-10
to
0
range
or
the
0
to
+10
range.
For
no
ambiguity,
force
the
meter
to
the
middle
of
the
range
(-5
dBm,
+5
dBm,
etc.),
then
press
range
hold.)
POWER
dBm
Display
used
with
the
Attenuator
Some
external
leveling
applications
require
low
output
power
from
the
HP
8340B/41B
for
e
*‘
1
/
n
P
1
®’
leveling
the
output
of
a
30
dB
amplifier
to
a
level
of
—10
dBm.
In
this
application,
the
output
of
the
HP
8340B/41B
is
around
—40
dBm
when
leveled.
At
some
frequencies
this
level
is
beyond
the
range
of
the
ALC
modulator
alone.
If
so,
the
OVERMOD
annunciator
lights.
Inserting
40
dB
of
step
attenuation
results
in
an
ALC
level
of
0
dBm,
which
is
well
within
the
range
of
the
ALC.
At
26.5
GHz,
where
only
+
1
dBm
is
available
(8340B),
30
dB
attenuation
is
a
better
choice
as
it
results
in
an
ALC
level
of
10dBm.
This
gives
a
margin
for
AM
or
other
functions
that
vary
the
power
level.
HP
8340B/41B
Operating
Information
3-105

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HP 8340b Specifications

General IconGeneral
BrandHP
Model8340b
CategoryInverter
LanguageEnglish

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