LMC6082AMN NSC [National Semiconductor], LMC6082AMN Datasheet - Page 7
LMC6082AMN
Manufacturer Part Number
LMC6082AMN
Description
Precision CMOS Dual Operational Amplifier
Manufacturer
NSC [National Semiconductor]
Datasheet
1.LMC6082AMN.pdf
(12 pages)
Typical Performance Characteristics
specified (Continued)
Non-Inverting Large
Signal Pulse Response
Stability vs Capacitive
Load R
Applications Hints
AMPLIFIER TOPOLOGY
The LMC6082 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 compensa-
tion design techniques are incorporated to maintain stability
over a wider range of operating conditions than traditional
micropower op-amps. These features make the LMC6082
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 resis-
tance for amplifiers with ultra-low input current, like the
LMC6082.
Although the LMC6082 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, photo-
diodes, and circuit board parasitics, reduce phase margins.
When high input impedances are demanded, guarding of the
LMC6082 is suggested. Guarding input lines will not only re-
L
= 1 M
DS011297-33
DS011297-36
Crosstalk Rejection
vs Frequency
V
7
S
=
duce leakage, but lowers stray input capacitance as well.
(See Printed-Circuit-Board Layout for High Impedance
Work).
The effect of input capacitance can be compensated for by
adding a capacitor, C
Figure 1 ) such that:
or
Since it is often difficult to know the exact value of C
be experimentally adjusted so that the desired pulse re-
sponse is achieved. Refer to the LMC660 and LMC662 for a
more detailed discussion on compensating for input
capacitance.
±
7.5V, T
DS011297-34
A
= 25˚C, Unless otherwise
Stability vs Capacitive
Load, R
f
, around the feedback resistors (as in
R
1
C
IN
L
= 600
R
2
C
f
www.national.com
DS011297-35
IN
, C
f
can
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