Datasheet
LMV2011
SNOSA32C –AUGUST 2003–REVISED MARCH 2013
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INPUT CURRENTS
The LMV2011's input currents are different than standard bipolar or CMOS input currents in that it appears as a
current flowing in one input and out the other. Under most operating conditions, these currents are in the
picoamp level and will have little or no effect in most circuits. These currents tend to increase slightly when the
common-mode voltage is near the minus supply (See the Typical Performance Characteristics). At high
temperatures such as 85°C, the input currents become larger, 0.5nA typical, and are both positive except when
the V
CM
is near V
−
. If operation is expected at low common-mode voltages and high temperature, do not add
resistance in series with the inputs to balance the impedances. Doing this can cause an increase in offset
voltage. A small resistance such as 1kΩ can provide some protection against very large transients or overloads,
and will not increase the offset significantly.
PRECISION STRAIN-GAUGE AMPLIFIER
This Strain-Gauge amplifier (Figure 32) provides high gain (1006 or ~60 dB) with very low offset and drift. Using
the resistors' tolerances as shown, the worst case CMRR will be greater than 108 dB. The CMRR is directly
related to the resistor mismatch. The rejection of common-mode error, at the output, is independent of the
differential gain, which is set by R3. The CMRR is further improved, if the resistor ratio matching is improved, by
specifying tighter-tolerance resistors, or by trimming.
Figure 33. Precision Strain Gauge Amplifier
Extending Supply Voltages and Output Swing by Using a Composite Amplifier Configuration:
In cases where substantially higher output swing is required with higher supply voltages, arrangements like the
ones shown in Figure 34 and Figure 35 could be used. These configurations utilize the excellent DC performance
of the LMV2011 while at the same time allow the superior voltage and frequency capabilities of the LM6171 to
set the dynamic performance of the overall amplifier. For example, it is possible to achieve ±12V output swing
with 300MHz of overall GBW (A
V
= 100) while keeping the worst case output shift due to V
OS
less than 4mV. The
LMV2011 output voltage is kept at about mid-point of its overall supply voltage, and its input common mode
voltage range allows the V- terminal to be grounded in one case (Figure 34, inverting operation) and tied to a
small non-critical negative bias in another (Figure 35, non-inverting operation). Higher closed-loop gains are also
possible with a corresponding reduction in realizable bandwidth. Table 1 shows some other closed loop gain
possibilities along with the measured performance in each case.
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