OPA2613 Datasheet, PDF(17/27 Page) Texas Instruments – Dual, Wideband, High Output Current, Operational Amplifier with Current Limit

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OPA2613 Datasheet, PDF (17/27 Pages) Texas Instruments – Dual, Wideband, High Output Current, Operational Amplifier with Current Limit

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+5V

+VS

0.1ÂµF

806â¦

0.1ÂµF 6.8ÂµF

57.6â¦ 806â¦

1/2

OPA2613

VO 100â¦

VS /2

402â¦

0.1ÂµF

OPA2613

SBOS249D â JUNE 2003â REVISED APRIL 2004

the OPA2613. Each has its advantages and disadvan-

tages. Figure 5 shows a basic starting point for

noninverting input differential I/O applications.

+VCC

PowerâSupply

decoupling not

shown.

1 /2

O P A2613

402â¦

268â¦

402â¦

Figure 3. AC-Coupled, G = +2, Single-Supply,

Specification and Test Circuit

The last configuration used as the basis of the +5V

Electrical and Typical Characteristics is shown in Figure 4.

Design considerations for this inverting, bipolar supply

configuration are covered either in single-supply

configuration (as shown in Figure 3) or in the Inverting

Amplifier Operation section.

+5V

806â¦

0.1ÂµF 6.8ÂµF

0.1ÂµF

806â¦

1/2

OPA2613

VO 100â¦

VS /2

0.1ÂµF 402â¦

57.6â¦

402â¦

Figure 4. AC-Coupled, G = â1, Single-Supply,

Specification and Test Circuit

DIFFERENTIAL INTERFACE APPLICATIONS

Dual op amps are particularly suitable to differential input

to differential output applications. Typically, these fall into

either Analog-to-Digital Converter (ADC) input interface or

line driver applications. Two basic approaches to

differential I/O are noninverting or inverting configurations.

Since the output is differential, the signal polarity is

somewhat meaninglessâthe noninverting and inverting

terminology applies here to where the input is brought into

1 /2

O P A2613

âVCC

Figure 5. Noninverting Differential I/O Amplifier

This approach provides for a source termination

impedance that is independent of the signal gain. For

instance, simple differential filters may be included in the

signal path right up to the noninverting inputs without

interacting with the gain setting. The differential signal gain

for the circuit of Figure 5 is:

AD + 1 ) 2

(1)

Since the OPA2613 is a voltage-feedback (VFB) amplifier,

its bandwidth is principally controlled by the noise gain.

The equivalent noise gain for Figure 5 is:

1)2

402W

268W

4VÅV

(2)

Various combinations of single-supply or AC-coupled gain

can also be delivered using the basic circuit of Figure 5.

Common-mode bias voltages on the two noninverting

inputs pass on to the output with a gain of 1 since an equal

DC voltage at each inverting node creates no current

through RG. This circuit does show a common-mode gain

of 1 from input to output. The source connection should

either remove this common-mode signal if undesired

(using an input transformer can provide this function), or

the common-mode voltage at the inputs can be used to set

the output common-mode bias. If the low common-mode

rejection of this circuit is a problem, the output interface

may also be used to reject that common-mode. For

instance, most modern differential input ADCs reject

common-mode signals very well, while a line driver

application through a transformer will also remove the

common-mode signal through to the line.

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