Applications information – Rainbow Electronics MAX4249_MAX4257 User Manual

MAX4249–MAX4257

UCSP, Single-Supply, Low-Noise,

Low-Distortion, Rail-to-Rail Op Amps

______________________________________________________________________________________

11

Using a Feed-Forward Compensation

Capacitor, C

Z

The amplifier’s input capacitance is 11pF. If the resis-
tance seen by the inverting input is large (feedback
network), this can introduce a pole within the amplifier’s
bandwidth, resulting in reduced phase margin.
Compensate the reduced phase margin by introducing
a feed-forward capacitor (C

Z

) between the inverting

input and the output (Figure 1). This effectively cancels
the pole from the inverting input of the amplifier.
Choose the value of C

Z

as follows:

C

Z

= 11 x (R

F

/ R

G

) [pF]

In the unity-gain stable MAX4250–MAX4254, the use of
a proper C

Z

is most important for A

V

= 2V/V, and A

V

=

-1V/V. In the decompensated MAX4249/MAX4255
/MAX4256/MAX4257, C

Z

is most important for A

V

=

10V/V. Figures 2a and 2b show transient response both
with and without C

Z

.

Using a slightly smaller C

Z

than suggested by the for-

mula above achieves a higher bandwidth at the
expense of reduced phase and gain margin. As a gen-
eral guideline, consider using C

Z

for cases where R

G

||

R

F

is greater than 20k

Ω (MAX4250–MAX4254) or

greater than 5k

Ω (MAX4249/MAX4255/MAX4256/

MAX4257).

Applications Information

The MAX4249–MAX4257 combine good driving capa-
bility with ground-sensing input and rail-to-rail output
operation. With their low distortion, low noise and low-
power consumption, these devices are ideal for use in
portable instrumentation systems and other low-power,
noise-sensitive applications.

Ground-Sensing and Rail-to-Rail Outputs

The common-mode input range of these devices
extends below ground, and offers excellent common-
mode rejection. These devices are guaranteed not to
undergo phase reversal when the input is overdriven
(Figure 3).

Figure 4 showcases the true rail-to-rail output operation
of the amplifier, configured with A

V

= 10V/V. The output

swings to within 8mV of the supplies with a 10k

Ω load,

making the devices ideal in low-supply-voltage applica-
tions.

Output Loading and Stability

Even with their low quiescent current of 400µA, these
amplifiers can drive 1k

Ω loads while maintaining excel-

lent DC accuracy. Stability while driving heavy capaci-
tive loads is another key feature.

V

OUT

V

IN

R

ISO

C

L

MAX4250
MAX4251
MAX4252
MAX4253
MAX4254

4.25V

4.45V

-200mV

0

0

V

OUT

V

IN

A

V

= 1

V

DD

= 5V

R

L

= 10k

Ω

20

µs/div

0

5V

V

DD

= 5V

R

L

= 10k

Ω

A

V

= 10

f = 1kHz

200

µs/div

V

OUT

1V/div

Figure 3. Overdriven Input Showing No Phase Reversal

Figure 4. Rail-to-Rail Output Operation

Figure 5. Capacitive-Load Driving Circuit