OPA2604_06 BURR-BROWN [Burr-Brown Corporation], OPA2604_06 Datasheet - Page 8

OPA2604_06

Manufacturer Part Number

OPA2604_06

Description

Dual FET-Input, Low Distortion OPERATIONAL AMPLIFIER

Manufacturer

BURR-BROWN [Burr-Brown Corporation]

Datasheet

1.OPA2604_06.pdf (14 pages)

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APPLICATIONS INFORMATION

The OPA2604 is unity-gain stable, making it easy to use in a

wide range of circuitry. Applications with noisy or high

impedance power supply lines may require decoupling ca-

pacitors close to the device pins. In most cases 1 F tantalum

capacitors are adequate.

DISTORTION MEASUREMENTS

The distortion produced by the OPA2604 is below the mea-

surement limit of virtually all commercially available equip-

ment. A special test circuit, however, can be used to extend the

measurement capabilities.

Op amp distortion can be considered an internal error source

which can be referred to the input. Figure 1 shows a circuit

which causes the op amp distortion to be 101 times greater

than normally produced by the op amp. The addition of R

the otherwise standard non-inverting 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. This extends the

measurement limit, including the effects of the signal-source

purity, by a factor of 101. Note that the input signal and load

applied to the op amp are the same as with conventional

feedback without R

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

the Audio Precision System One which greatly simplifies

such repetitive measurements. The measurement technique

can, however, be performed with manual distortion measure-

ment instruments.

CAPACITIVE LOADS

The dynamic characteristics of the OPA2604 have been

optimized for commonly encountered gains, loads and oper-

ating conditions. The combination of low closed-loop gain

FIGURE 1. Distortion Test Circuit.

OPA2604

Generator

Output

* Measurement BW = 80kHz

Audio Precision

OPA2604

System One

Analyzer*

Analyzer

Input

and capacitive load will decrease the phase margin and may

lead to gain peaking or oscillations. Load capacitance reacts

with the op amp’s open-loop output resistance to form an

additional pole in the feedback loop. Figure 2 shows various

circuits which preserve phase margin with capacitive load.

Request Application Bulletin AB-028 for details of analysis

techniques and applications circuits.

For the unity-gain buffer, Figure 2a, stability is preserved by

adding a phase-lead network, R

alternate circuit, Figure 2b, does not limit the output with low

load impedance. It provides a small amount of positive feed-

back to reduce the net feedback factor. Input impedance of this

circuit falls at high frequency as op amp gain rolloff reduces

the bootstrap action on the compensation network.

Figures 2c and 2d show compensation techniques for

noninverting amplifiers. Like the follower circuits, the circuit

in Figure 2d eliminates voltage drop due to load current, but

at the penalty of somewhat reduced input impedance at high

frequency.

Figures 2e and 2f show input lead compensation networks for

inverting and difference amplifier configurations.

NOISE PERFORMANCE

Op amp noise is described by two parameters—noise voltage

and noise current. The voltage noise determines the noise

performance with low source impedance. Low noise bipolar-

input op amps such as the OPA27 and OPA37 provide very

low voltage noise. But if source impedance is greater than a

few thousand ohms, the current noise of bipolar-input op amps

react with the source impedance and will dominate. At a few

thousand ohms source impedance and above, the OPA2604

will generally provide lower noise.

= 10Vp-p

(3.5Vrms)

will reduce output voltage swing with heavy loads. An

GAIN

SIG.

100

DIST.

GAIN

101

500

and C

Compatible

IBM PC

. Voltage drop across

500

OPA2604_06 BURR-BROWN [Burr-Brown Corporation], OPA2604_06 Datasheet - Page 8

OPA2604_06

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