运放的差分运算放大

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Differential amplifier.

Differential amplifier is a closed loop amplifier circuit which amplifies the difference between two signals. Such a circuit is very useful in instrumentation systems. Differential amplifiers have high common mode rejection ratio (CMRR) and high input impedance. Differential amplifiers can be made using one opamp or two opamps. Both of these configurations are explained here.

Differential amplifier using one opamp.

The circuit diagram of a differential amplifier using one opamp is shown below. R1 and R2 are the input resistors, Rf is the feedback resistor and RL is the load resistor.

Differential amplifier using one opamp

Derivation for voltage gain.

Equation for the voltage gain of the differential amplifier using one opamp can be derived as follows. The circuit is just a combination of an inverting and non inverting amplifier. Finding the output voltages s of these two configurations separately and then summing them will result in the overall output voltage.

If Vb is made zero, the circuit becomes an inverting amplifier. The output voltage Voa due to Va alone can be expressed using the following equation.

When Va is made zero the circuit becomes a non inverting amplifier. Let V1 be the voltage at the non inverting input pin. Relation between Vb and V1 can be expressed using the following equation.

Output voltage Vob due to Vb alone is according to the equation

Let R1 = R2 and R3 =Rf then

Then overall output voltage is

Therefore overall gain is

Differential amplifier using two opamps.

Circuit diagram of a differential amplifier using two opamps is shown below. Main advantage of differential amplifier with two opamps is that it has increased overall gain. R1 is the input resistor for IC1 and R3 is the input resistor for IC2. Rf is the feedback resistor. Va and Vb are the two input voltages and they are applied to the non inverting inputs of ?IC2 and IC1 respectively. RL is the load resistor. V+ and V- are the positive and negative supply voltages.

Differential amplifier using opamp

Derivation of voltage gain.

The equation for the output voltage V1 of the first opamp (IC1) is as follows.
 V1 and Va are the inputs for the second stage (IC2). Output voltage due to Va ?alone is.

Output voltage due to Vb alone is

Overall output voltage Vo = Voa + Vob

Let R1 = R2 and Rf =R1, then we have

Therefore overall voltage gain Av can be expressed using the equation

Practical differential amplifier.

A practical differential amplifier using uA741 opamp is shown below. With used components the amplifier has a gain of around 5. Remember the equation Av = -Rf/R1. Here Rf = 10K and R1 =2.2K, ?-Rf/R1 = -10/2.2 = -4.54 = ~-5. Negative sign represents phase inversion. Use +/-12V DC ?dual supply for powering the circuit. uA 741 must be mounted on a holder.

Practical differential amplifier circuit


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