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HP 4262A User Manual

HP 4262A
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3-30.
TERMINAL
CONFIGURATION.
3-31.
Connection
of
DUT.
The
4262A
Unknown
terminals
consists
of
five
binding
post
(type)
con-
nectors:
Hcur,
Hreor,
Lcur,
Leor
and
GUARD.
By
connecting
the
stationary
shorting
straps
to
appropriate
terminals,
the
UNKNOWN
terminals
can
be
aclopted
for
the
desired
measurement
ter-
minal
configuration:
the
two,
three,
four
or
five
terminal
method.
For
measurements
of
samples
having
a
medium
order
of
impedance
(10092
to
10kQ),
the
convenient
two
terminal
methodis
suited
to
measurement
re-
quirements
for
good
accuracy
as
well
as for
ease
in
connecting
the
sample.
When
converting
to
two
terminals,
shorting
straps
are
attached
to
the
UNKNOWN
Hcur
and
Hror
terminals,
and
LCUR
and
Lpor
terminals,
respectively.
High
impedance
samples
(greater
than
1kQ)
--
which
includes
low
capacitance,
high
inductance
and
high
resistance
--
should
be
measured
by
the
three
terminal
method
to
eliminate
the
effects
of
stray
capacitances
on
the
measurements,
For
this
purpose,
the
guard
conductor
of
the
sample
is
connected
to
the
instrument
GUARD
terminal.
In
the
measurement
of
low
impedance
samples
(less
than
1kQ),
efforts
should
be
made
to
elimi-
nate
the
effects
of
contact
resistance,
lead
resist-
ance,
residual
inductance
and
other
residual
parameters
in
the
measuring
apparatus.
Four
terminal
configuration
measurements
allow
stable,
accurate
measurement
of
high
capacitance,
low
inductance
and
low
resistance
samples
at
mini-
mum
incremental
errors
in
the
measurement
of
low
impedance
samples.
In
the
four
terminal
method,
the
shorting
straps
are
disconnected
to
separate
potential
leads
from
current
leads.
Thereby,
the
characteristics
of
the
sample
can
be
precisely
determined
by
the
instrument
irrespec-
tive
of
the
various
residual
parameters
present
in
the
measuring
signal
current
path.,
To
ensure
the
best
accuracy,
the
potential
leads
should
be
con-
nected
near
to
the
sample,
The
five
terminal
method,
which
adds
the
guard
conductor
to
the
four
terminal
configuration,
ex-
pands
the
applicable
measurement
range
into
the
higher
impedance
regions,
Thus,
this
method
covers
a
broad
range
of
measurements
from
low
to
high
impedance
samples
at
the
measuring
fre-
quency
of
the
4262A.
When
test
fixtures
and
test
leads
used
have
a
shielding
conductor
and
are
designed
to
consider
residual
impedance,
the
measurement
limitations
described
above
for
the
individual
terminal
con-
figurations
can
vary
to
some
extent
depending
on
the
particular
characteristics
of
the
fixture
and
connections.
Three
accessories,
the
16061A
Test
Fixture,
the
16062A
Test
Leads,
and
the16063A
Test
Leads
are
available.
The
characteristics
of
these
accessories
and
applicable
measurement
ranges
are
outlined
in
Figure
3-3.
These
acces-
sories
make
it
easy
to
construct
the
desired
ter-
minal
configuration,
3-10
IMPORTANT
!
FOR
CERTAIN
TERMINAL
MEAS-
UREMENT
CONFIGURATIONS,
THE
Hcur
TERMINAL
MUST
BE
CON-
NECTED
TO
Hror
TERMINAL
AND
THE
Lcur
TERMINAL
CONNECTED
TO
THE
Lror
TERMINAL.,
OTHER-
WISE,
THE
DISPLAYS
WILL
HAVE
NO
MEANING
AND THE
LIFE
OF
THE
RELAYS
USED
IN
THE
INSTRU-
MENT
WILL
SOMETIMES
BE
SHORT-
ENED.
Note
The
4262A
can
not
measure
a
sample
which
has
one
lead
connected
to
earth
(grounded).
3-32.
OFFSET
ADJUSTMENT.
3-33.
Since
test
fixtures
and
test
leads
have
different
inherent
stray
capacitances
and
residual
inductances,
the
measured
value
obtained
with
respect
to
the
same
sample
may
possibly
differ
depending
on
the
test
fixture
(leads)
used.
These
residual
factors
can
be
read
from
the
4262A
dis-
play
by
properly
terminating
(short
or
open)
the
measurement
terminals
of
the
test
jig.
The
front
panel
C
ZERO
ADJ
and
L.
ZERO
ADJ
controls
permit
compensation
for
these
residual
factors
and
can
eliminate
measurement
errors
due
to
the
test
jig.
The
capacitance
or
inductance
readout
can
be
set
to
zero
for
the
particular
test
jig
used
with
the
instrument.
In
capacitance
and
induct-
ance
measurements,
an
incomplete
offset
adjust-
ment
causes
two
types
errors:
1)
Deviation
from
zero
counts.
When
a
small
capacity
or
a
small
inductance
is
measured,
the
measured
capacitance
(inductance)
value
becomes
the
sum
of
the
capacitance
(inductance)
of
sample
and
the
stray
capacitance
(residual
inductance)
of
test
jig.
The
effects
of
the
residual
factors
are:
Cm
Lm
Cx
+
Cst
Lx
+
Lres
Where,
subscripts
are
m:
measured
value.
X:
value
of
sample.
st:
stray
capacitance.
res:
residual
inductance,
Both
Cst
and
Lres
cause
the
same
measure-
ment
error
and
are
independent
of
sample
value.

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HP 4262A Specifications

General IconGeneral
BrandHP
Model4262A
CategoryMeasuring Instruments
LanguageEnglish

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