MAX495 Maxim, MAX495 Datasheet - Page 13
MAX495
Manufacturer Part Number
MAX495
Description
The dual MAX492, quad MAX494, and single MAX495 operational amplifiers combine excellent DC accuracy with rail-to-rail operation at the input and output
Manufacturer
Maxim
Datasheet
1.MAX492.pdf
(17 pages)
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in series with IN-, IN+, or both. Series resistors are not
recommended for amplifier applications, as they may
increase input offsets and decrease amplifier bandwidth.
Even with their low quiescent current of less than 150µA
per op amp, the MAX492/MAX494/MAX495 are well
suited for driving loads up to 1kΩ while maintaining DC
accuracy. Stability while driving heavy capacitive loads
is another key advantage over comparable CMOS rail-
to-rail op amps.
Single/Dual/Quad, Micropower,
Single-Supply Rail-to-Rail Op Amps
Figure 6. MAX492 Voltage Follower with 1000pF Load
(R
Figure 7a. MAX492 Voltage Follower with 500pF Load—
R
12
L
L
= 5k Ω
= ∞ )
______________________________________________________________________________________
Output Loading and Stability
10 s/div
10 s/div
V
50mV/div
V
50mV/div
V
50mV/div
V
50mV/div
IN
OUT
IN
OUT
In op amp circuits, driving large capacitive loads
increases the likelihood of oscillation. This is especially
true for circuits with high loop gains, such as a unity-
gain voltage follower. The output impedance and a
capacitive load form an RC network that adds a pole to
the loop response and induces phase lag. If the pole
frequency is low enough—as when driving a large
capacitive load—the circuit phase margin is degraded,
leading to either an under-damped pulse response or
oscillation.
Figure 7b. MAX492 Voltage Follower with 500pF Load—
R
Figure 7c. MAX492 Voltage Follower with 500pF Load—
R
L
L
= 20k Ω
= ∞
10 s/div
10 s/div
V
50mV/div
V
50mV/div
V
50mV/div
V
50mV/div
IN
OUT
IN
OUT
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