THS4511-SP Datasheet, PDF(15/25 Page) Texas Instruments – RAD-TOLERANT CLASS V, WIDEBAND, FULLY DIFFERENTIAL AMPLIFIER

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

THS4511-SP Datasheet, PDF (15/25 Pages) Texas Instruments – RAD-TOLERANT CLASS V, WIDEBAND, FULLY DIFFERENTIAL AMPLIFIER

◁

www.ti.com

THS4511âSP

SLOS538A â SEPTEMBER 2007 â REVISED OCTOBER 2007

APPLICATION INFORMATION

APPLICATIONS

The following circuits show application information for

the THS4511. For simplicity, power supply decoupling

capacitors are not shown in these diagrams. For

more detail on the use and operation of fully

differential operational amplifiers, refer to application

report Fully-Differential Amplifiers (SLOA054) .

Differential Input to Differential Output Amplifier

The THS4511 is a fully differential operational

amplifier, and can be used to amplify differential input

signals to differential output signals. A basic block

diagram of the circuit is shown in Figure 35 (CM input

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

divided by RG.

Differential

Input

Differential

Output

VIN+

VINâ

+â

THS4511

â+

VOUTâ

VOUT+

Figure 35. Differential Input to Differential Ouput

Amplifier

Depending on the source and load, input and output

termination can be accomplished by adding RIT and

RO.

Single-Ended Input to Differential Output

Amplifier

The THS4511 can be used to amplify and convert

single-ended input signals to differential output

signals. A basic block diagram of the circuit is shown

in Figure 36 (CM input not shown). The gain of the

circuit is again set by RF divided by RG.

Single-Ended

Input

+â

THS4511

â+

Differential

Output

VOUTâ

VOUT+

Figure 36. Single-Ended Input to Differential

Output Amplifier

Input Common-Mode Voltage Range

The input common-mode voltage of a fully differential

operational amplifier is the voltage at the (+) and (â)

input pins of the operational amplifier.

It is important to not violate the input common-mode

voltage range (VICR) of the operational amplifier.

Assuming the operational amplifier is in linear

operation, the voltage across the input pins is only a

few millivolts at most. Finding the voltage at one input

pin determines the input common-mode voltage of

the operational amplifier.

Treating the negative input as a summing node, the

voltage is given by Equation 1:

VIC

Ã§Ã§Ã¨Ã¦ VOUT+

Â´

RG + RF

Ã·Ã·Ã¸Ã¶

Ã§Ã§Ã¨Ã¦ VIN-

Â´

RG + RF

Ã·Ã·Ã¸Ã¶

(1)

To determine the VICR of the operational amplifier, the

voltage at the negative input is evaluated at the

extremes of VOUT+.

As the gain of the operational amplifier increases, the

input common-mode voltage becomes closer and

closer to the input common-mode voltage of the

source.

Product Folder Link(s): THS4511âSP

Submit Documentation Feedback

▷