LMC6681 National Semiconductor, LMC6681 Datasheet - Page 14
LMC6681
Manufacturer Part Number
LMC6681
Description
Low Voltage / Rail-To-Rail Input and Output CMOS
Manufacturer
National Semiconductor
Datasheet
1.LMC6681.pdf
(24 pages)
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3.0 Low Voltage Operation
Figure 6 shows an input voltage exceeding both supplies
with no resulting phase inversion on the output.
4.0 Capacitive Load Tolerance
The LMC6681/2/4 can typically drive a 100 pF load with V
lower is the most sensitive configuration to capacitive load.
Direct capacitive loading reduces the phase margin of
op-amps. The combination of the op-amp’s output imped-
ance and the capacitive load induces phase lag. This results
in either an underdamped pulse response or oscillation.
Capacitive load compensation can be accomplished using
resistive isolation as shown in Figure 7 . If there is a resistive
component of the load in parallel to the capacitive compo-
nent, the isolation resistor and the resistive load create a
voltage divider at the output. This introduces a DC error at
the output.
= 10V at unity gain without oscillating. The unity gain fol-
FIGURE 6. An Input Voltage Signal Exceeds
V
S
LMC6681/2/4 Power Supply Voltages of
= 1.8V with No Output Phase Inversion
(Continued)
DS012042-10
S
14
Figure 8 displays the pulse response of the LMC6681 circuit
in Figure 7 .
Another circuit, shown in Figure 9 , is also used to indirectly
drive capacitive loads. This circuit is an improvement to the
circuit shown Figure 7 because it provides DC accuracy as
well as AC stability. R1 and C1 serve to counteract the loss
of phase margin by feeding the high frequency component of
the output signal back to the amplifiers inverting input,
thereby preserving phase margin in the overall feedback
loop. The values of R1 and C1 should be experimentally de-
termined by the system designer for the desired pulse re-
sponse. Increased capacitive drive is possible by increasing
the value of the capacitor in the feedback loop.
to Ensure DC Accuracy and AC Stability
FIGURE 9. The LMC6682 Compensated
FIGURE 8. Pulse Response of the
FIGURE 7. Resistive Isolation
of a 350 pF Capacitive Load
LMC6681 Circuit in Figure 7
DS012042-11
DS012042-12
DS012042-13
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