OPA1611 Datasheet, PDF(13/21 Page) Texas Instruments – High-Performance Bipolar-Input AUDIO OPERATIONAL AMPLIFIERS

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OPA1611

OPA1612

www.ti.com........................................................................................................................................................ SBOS450A â JULY 2009 â REVISED AUGUST 2009

TOTAL HARMONIC DISTORTION

MEASUREMENTS

The OPA161x series op amps have excellent

distortion characteristics. THD + Noise is below

0.00008% (G = +1, VO = 3VRMS, BW = 80kHz)

throughout the audio frequency range, 20Hz to

20kHz, with a 2kâ¦ load (see Figure 7 for

characteristic performance).

The distortion produced by OPA1611 series op amps

is below the measurement limit of many commercially

available distortion analyzers. However, a special test

circuit (such as Figure 33 shows) can be used to

extend the measurement capabilities.

Op amp distortion can be considered an internal error

source that can be referred to the input. Figure 33

shows a circuit that causes the op amp distortion to

be 101 times (or approximately 40dB) greater than

that normally produced by the op amp. The addition

of R3 to the otherwise standard noninverting amplifier

configuration alters the feedback factor or noise gain

of the circuit. The closed-loop gain is unchanged, but

the feedback available for error correction is reduced

by a factor of 101, thus extending the resolution by

101. Note that the input signal and load applied to the

op amp are the same as with conventional feedback

without R3. The value of R3 should be kept small to

minimize its effect on the distortion measurements.

Validity of this technique can be verified by

duplicating measurements at high gain and/or high

frequency where the distortion is within the

measurement capability of the test equipment.

Measurements for this data sheet were made with an

Audio Precision System Two distortion/noise

analyzer, which greatly simplifies such repetitive

measurements. The measurement technique can,

however, be performed with manual distortion

measurement instruments.

CAPACITIVE LOADS

The dynamic characteristics of the OPA1611 and

OPA1612 have been optimized for commonly

encountered gains, loads, and operating conditions.

The combination of low closed-loop gain and high

capacitive loads decreases the phase margin of the

amplifier and can lead to gain peaking or oscillations.

As a result, heavier capacitive loads must be isolated

from the output. The simplest way to achieve this

isolation is to add a small resistor (RS equal to 50Î©,

for example) in series with the output.

This small series resistor also prevents excess power

dissipation if the output of the device becomes

shorted. Figure 19 and Figure 20 illustrate graphs of

Small-Signal Overshoot vs Capacitive Load for

several values of RS. Also, refer to Applications

Bulletin AB-028 (literature number SBOA015,

available for download from the TI web site) for

details of analysis techniques and application circuits.

Signal Gain = 1+ R2

Distortion Gain = 1+ R2

R1 II R3

OPA1611

VO = 3VRMS

Generator

Output

Analyzer

Input

SIG. DIST.

GAIN GAIN R1 R2 R3

1 101 Â¥ 1kW 10W

-1 101 5kW 5kW 50W

Audio Precision

System Two(1)

with PC Controller

Load

(1) For measurement bandwidth, see Figure 7 through Figure 12.

Figure 33. Distortion Test Circuit

Product Folder Link(s): OPA1611 OPA1612

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