BU7495HFV-TR Datasheet, PDF(14/23 Page) Rohm – Low Voltage Operation High Speed CMOS Operational Amplifiers

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BU7495HFV-TR Datasheet, PDF (14/23 Pages) Rohm – Low Voltage Operation High Speed CMOS Operational Amplifiers

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BU7495HFV BU7495SHFV

Examples of Circuit

âVoltage Follower

VDD

OUT

VSS

Figure 27. Voltage Follower Circuit

Datasheet

Voltage gain is 0dB.

Using this circuit, the output voltage (OUT) is configured

to be equal to the input voltage (IN). This circuit also

stabilizes the output voltage (OUT) due to high input

impedance and low output impedance. Computation for

output voltage (OUT) is shown below.

OUT=IN

âInverting Amplifier

VDD

VSS

OUT

For inverting amplifier, input voltage (IN) is amplified by

a voltage gain and depends on the ratio of R1 and R2.

The out-of-phase output voltage is shown in the next

expression

OUT=-(R2/R1)ã»IN

This circuit has input impedance equal to R1.

Figure 28. Inverting Amplifier Circuit

âNon-inverting Amplifier

VDD

VSS

OUT

For non-inverting amplifier, input voltage (IN) is amplified

by a voltage gain, which depends on the ratio of R1 and

R2. The output voltage (OUT) is in-phase with the input

voltage (IN) and is shown in the next expression.

OUT=(1 + R2/R1)ã»IN

Effectively, this circuit has high input impedance since its

input side is the same as that of the operational

amplifier.

Figure 29. Non-inverting Amplifier Circuit

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6.Jan.2014 Rev.001

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