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Model 6517B Electrometer Reference Manual
Logarithmic currents
The use of a diode junction in the external feedback path permits a logarithmic current-to-voltage
conversion. This relationship for a junction diode is given by the equation:
V = mkT / q ln(I/I
Where:
q = unit of charge (1.6022 10
k = Boltzmann's constant (1.3806 10
T = temperature (K).
The limitations in this equation center on the factors I
V
. An empirical proportional constant, m, accounts for the different character current conduction
O
(recombination and diffusion mechanisms) within the junction, typically varying between 1 and 2.
Finally, RB constitutes the ohmic bulk resistance of the diode junction material. IO and RB limit the
usefulness of the junction diode at low and high currents respectively. The factor m introduces
nonlinearities between those two extremes. Because of these limitations, most diodes have a limited
range of logarithmic behavior.
A solution to these constraints is to use a transistor configured as a "transdiode" in the feedback path,
as shown in in the figure below. Analyzing the transistor in this configuration leads to the relationship:
V = kT/q[ln(I/I
where:
h
is the current gain of the transistor
FE
From this equation, proper selection of Q1 would require a device with high current gain (h
is maintained over a wide range of emitter currents. Suitable devices for this application include
Analog Devices AD812 and Precision Monolithics MAT-01. Use the enclosure in
construction
Frequency compensation/stabilization is accomplished by adding a feedback capacitor, C
value of this capacitor depends on the particular transistor being used and the maximum current level
expected. Compensation at maximum current is required because the dynamic impedance is minimal
at this point. It should be noted that the response speed at lower currents is compromised due to the
increasing dynamic impedance, which is given by the following formula:
6517B-901-01 Rev. C / August 2015
) + I
O
RB
-19
)
) - ln(h
/(1 + h
))]
O
FE
FE
(on page 5-13) to shield the device.
-23
)
, m, and RB. I
O
Section 5: Measurement options
is the extrapolated current for
O
), which
FE
Shielded fixture
. The
FB
5-15
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