OPA349NA Datasheet, PDF(9/23 Page) Texas Instruments – 1A, Rail-to-Rail I/O CMOS OPERATIONAL AMPLIFIERS

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OPA349NA Datasheet, PDF (9/23 Pages) Texas Instruments – 1A, Rail-to-Rail I/O CMOS OPERATIONAL AMPLIFIERS

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APPLICATIONS INFORMATION

The OPA349 series op amps are unity-gain stable and can

operate on a single supply, making them highly versatile and

easy to use. Power-supply pins should be bypassed with

0.01ÂµF ceramic capacitors.

The OPA349 series op amps are fully specified and tested

from +1.8V to +5.5V. Parameters that vary significantly with

operating voltages or temperature are shown in the Typical

Characteristic curves.

The ultra-low quiescent current of the OPA349 requires

careful application circuit techniques to achieve low overall

current consumption. Figure 1 shows an ac-coupled amplifier

+1.8V to 5.5V

10M

3pF CF may be required

for best stability or to

reduce frequency

R5 peakingâsee text.

10M

10nF

OPA349

G = 11

VOUT

10M

FIGURE 1. AC-Coupled Amplifier.

biased with a voltage divider. Resistor values must be very

large to minimize current. The large feedback resistor value

reacts with input capacitance and stray capacitance to pro-

duce a pole in the feedback network. A feedback capacitor

may be required to assure stability and limit overshoot or

gain peaking. Check circuit performance carefully to assure

that biasing and feedback techniques meet signal and quies-

cent current requirements.

RAIL-TO-RAIL INPUT

The input common-mode voltage range of the OPA349 series

extends 200mV beyond the supply rails. This is achieved with a

complementary input stageâan N-channel input differential pair

in parallel with a P-channel differential pair (as shown in Figure 2).

The N-channel pair is active for input voltages close to the positive

rail, typically (V+) â 1.3V to 200mV above the positive supply,

while the P-channel pair is on for inputs from 200mV below the

negative supply to approximately (V+) â 1.3V. There is a small

transition region, typically (V+) â 1.5V to (V+) â 1.1V, in which both

pairs are on. This 400mV transition region can vary 300mV with

process variation. Thus, the transition region (both stages on) can

range from (V+) â 1.8V to (V+) â 1.4V on the low end, up to

(V+) â 1.2V to (V+) â 0.8V on the high end. Within the 400mV

transition region PSRR, CMRR, offset voltage, offset drift, and

THD may be degraded compared to operation outside this region.

For more information on designing with rail-to-rail input op amps,

see Figure 3, Design Optimization with Rail-to-Rail Input Op

Amps.

V+

Reference

Current

VIN+

VINâ

VBIAS1

Class AB

Control

Circuitry

VBIAS2

Vâ

(Ground)

FIGURE 2. Simplified Schematic.

OPA349, 2349

SBOS121B

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