LMC6041

SNOS610E – DECEMBER 1994 – REVISED MARCH 2013

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APPLICATIONS HINTS

AMPLIFIER TOPOLOGY

The LMC6041 incorporates a novel op-amp design topology that enables it to maintain rail-to-rail output swing

even when driving a large load. Instead of relying on a push-pull unity gain output buffer stage, the output stage

is taken directly from the internal integrator, which provides both low output impedance and large gain. Special

feed-forward compensation design techniques are incorporated to maintain stability over a wider range of

operating conditions than traditional micropower op-amps. These features make the LMC6041 both easier to

design with, and provide higher speed than products typically found in this ultra-low power class.

COMPENSATING FOR INPUT CAPACITANCE

It is quite common to use large values of feedback resistance with amplifiers with ultra-low input current, like the

LMC6041.

Although the LMC6041 is highly stable over a wide range of operating conditions, certain precautions must be

met to achieve the desired pulse response when a large feedback resistor is used. Large feedback resistors and

even small values of input capacitance, due to transducers, photodiodes, and circuits board parasitics, reduce

phase margins.

When high input impedance are demanded, guarding of the LMC6041 is suggested. Guarding input lines will not

only reduce leakage, but lowers stray input capacitance as well. (See Printed-Circuit-Board Layout for High

Impedance Work.)

Figure 28. Cancelling the Effect of Input Capacitance

the feedback resistor (as in Figure 28 ) such that:

(1)

or

(2)

pulse response is achieved. Refer to the LMC660 and the LMC662 for a more detailed discussion on

compensating for input capacitance.

CAPACITIVE LOAD TOLERANCE

Direct capacitive loading will reduce the phase margin of many op-amps. A pole in the feedback loop is created

by the combination of the op-amp's output impedance and the capacitive load. This pole induces phase lag at the

unity-gain crossover frequency of the amplifier resulting in either an oscillatory or underdamped pulse response.

With a few external components, op amps can easily indirectly drive capacitive loads, as shown in Figure 29.

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