THS4524-EP Datasheet, PDF(27/48 Page) Texas Instruments – VERY LOW POWER, NEGATIVE RAIL INPUT, RAIL-TO-RAIL OUTPUT, FULLY DIFFERENTIAL AMPLIFIER

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THS4524-EP Datasheet, PDF (27/48 Pages) Texas Instruments – VERY LOW POWER, NEGATIVE RAIL INPUT, RAIL-TO-RAIL OUTPUT, FULLY DIFFERENTIAL AMPLIFIER

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THS4524-EP

SBOS609 â JUNE 2012

APPLICATION INFORMATION

The following circuits show application information for

the THS4524. For simplicity, power-supply

decoupling capacitors are not shown in these

diagrams; see the EVM and Layout

Recommendations section for suggested guidelines.

For more details on the use and operation of fully

differential op amps, refer to the Application Report

Fully-Differential Amplifiers (SLOA054), available for

download from the TI web site at www.ti.com.

Single-Ended

Input

VS+

THS452x

Differential

Output

VOUT-

VOUT+

Differential Input to Differential Output

Amplifier

VS-

The THS4524 is a fully-differential operational

amplifier that can be used to amplify differential input

signals to differential output signals. Figure 61 shows

a basic block diagram of the circuit (VOCM and PD

inputs not shown). The gain of the circuit is set by RF

divided by RG.

Figure 62. Single-Ended Input to Differential

Output Amplifier

Differential

Input

VIN+

VIN-

VS+

THS452x

VS-

Differential

Output

VOUT-

VOUT+

Figure 61. Differential Input to Differential Output

Amplifier

Input Common-Mode Voltage Range

The input common-mode voltage of a fully-differential

op amp is the voltage at the + and â input pins of the

device.

It is important to not violate the input common-mode

voltage range (VICR) of the op amp. Assuming the op

amp is in linear operation, the voltage across the

input pins is only a few millivolts at most. Therefore,

finding the voltage at one input pin determines the

input common-mode voltage of the op amp.

Treating the negative input as a summing node, the

voltage is given by Equation 1:

OUT+

Â´

RG + RF

IN-

Â´

RG + RF

(1)

Single-Ended Input to Differential Output

Amplifier

The THS4524 can also amplify and convert single-

ended input signals to differential output signals.

Figure 62 illustrates a basic block diagram of the

circuit (VOCM and PD inputs not shown). The gain of

the circuit is again set by RF divided by RG.

To determine the VICR of the op amp, the voltage at

the negative input is evaluated at the extremes of

VOUT+. As the gain of the op amp increases, the input

common-mode voltage becomes closer and closer to

the input common-mode voltage of the source.

Setting the Output Common-Mode Voltage

The output common-model voltage is set by the

voltage at the VOCM pin. The internal common-mode

control circuit maintains the output common-mode

voltage within 5-mV offset (typ) from the set voltage.

If left unconnected, the common-mode set point is set

to midsupply by internal circuitry, which may be

overdriven from an external source.

Product Folder Link(s) :THS4524-EP

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