Datasheet
Application Hints (Continued)
BIAS CURRENT TESTING
The test method of
Figure 10
is appropriate for bench-testing
bias current with reasonable accuracy. To understand its op-
eration, first close switch S2 momentarily. When S2 is
opened, then
A suitable capacitor for C2 would be a 5 pF or 10 pF silver
mica, NPO ceramic, or air-dielectric. When determining the
magnitude of I
−
, the leakage of the capacitor and socket
must be taken into account. Switch S2 should be left shorted
most of the time, or else the dielectric absorption of the ca-
pacitor C2 could cause errors.
Similarly, if S1 is shorted momentarily (while leaving S2
shorted)
where C
x
is the stray capacitance at the + input.
Typical Single-Supply Applications (V+ = 5.0 V
DC
)
DS011227-13
(Input pins are lifted out of PC board and soldered directly to components.
All other pins connected to PC board.)
FIGURE 9. Air Wiring
DS011227-14
FIGURE 10. Simple Input Bias Current Test Circuit
Photodiode Current-toVoltage Converter
DS011227-15
Note: A 5V bias on the photodiode can cut its capacitance by a factor of 2
or 3, leading to improved response and lower noise. However, this bias on
the photodiode will cause photodiode leakage (also known as its dark
current).
Micropower Current Source
DS011227-16
(Upper limit of output range dictated by input common-mode range; lower
limit dictated by minimum current requirement of LM385.)
LPC661
www.national.com11