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Digital I/O, Analog Outputs, and External Feedback
11-15
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
O
) + I
RB
where; q = unit of charge (1.6022 x 10
-19
)
k = Boltzmann's constant (1.3806 x 10
-23
)
T = temperature (K).
The limitations in this equation center on the factors I
O
, m, and RB. I
O
is the extrapolated cur-
rent for V
O
. An empirical proportional constant, m, accounts for the different character current
conduction (recombination and diffusion mechanisms) within the junction, typically varying
between 1 and 2. Finally, RB constitutes the ohmic bulk resistance of the diode junction mate-
rial. I
O
and RB limit the usefulness of the junction diode at low and high currents respectively.
The factor m introduces non-linearity’s between those two extremes. Because of these limita-
tions, 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 feed-
back path, as shown in Figure 11-9. Analyzing the transistor in this configuration leads to the
relationship:
V = kT/q[ln(I/I
O
) - ln(h
FE
/(1 + h
FE
))]
where; h
FE
is the current gain of the transistor.
From this equation, proper selection of Q1 would require a device with high current gain
(h
FE
), which is maintained over a wide range of emitter currents. Suitable devices for this appli-
cation include Analog Devices AD812 and Precision Monolithics MAT-01. Use the enclosure in
Figure 11-8 to shield the device.
Input
HI
Current
Input
COM
Preamp
Out
Op Amp
+
-
Zero
Check
<1
Ω
(Chassis)
LO
S
To Ranging
Amplifier
S
Q1
10M
Ω
Model 6514
Figure 11-9
“Transdiode”
logarithmic current
configuration
Summary of Contents for 6514
Page 203: ...14 CommonCommands...
Page 207: ...15 SCPISignalOriented MeasurementCommands...
Page 235: ...18 PerformanceVerification...
Page 254: ...19 Calibration...
Page 274: ...20 RoutineMaintenance...
Page 278: ...A Specifications...
Page 282: ...B StatusandErrorMessages...
Page 288: ...C GeneralMeasurement Considerations...
Page 294: ...D DDCEmulationCommands...
Page 299: ...E ExamplePrograms...
Page 306: ...F IEEE 488BusOverview...
Page 320: ...G IEEE 488andSCPI ConformanceInformation...
Page 324: ...H CalibrationOptions...