–Amplification –Analog filtering –Buffering –Threshold ...

Operational Amplifiers:

• An operational amplifier (op-amp) are used in analog electronic design for– Amplification– Analog filtering– Buffering– Threshold detection

Basic Electric CircuitsOperational Amplifiers

inverting input

noninverting inputoutput

The basic op amp with supply voltage included is shownin the diagram below.

-V Vout V

In most cases only the two inputs and the output areshown for the op amp. However, one should keep inmind that supply voltage is required, and a ground.The basic op amp without a ground is shown below.

Outer op amp diagram.

A model of the op amp, with respect to the symbol, isshown below.

Op Amp Model.

The previous model is usually shown as follows:

Application: As an application of the previous model,consider the following configuration. Find Vo as a function of Vin and the resistors R1 and R2.

Vin Vo

In terms of the circuit model we have the following:

ViVin Vo

Total op amp schematic for voltagegain configuration.

ViVin Vo

Circuit values are:R1 = 10 k R2 = 40 k Ro = 50 A = 100,000 Ri = 1 meg

We can write the following equations for nodes a and b.

( )10 1 40

( )5040

i oin i i

i oo i

V VV V Vk meg k

V VV AVk

Simplifying 1

inio VVV 10012625 (3)

Simplifying 2

010410005.4 95 io VxVx (4)

From Equations 3 and 4 we find;

ino VV 99.3

Fortunately, we are not required to do elaborate circuitanalysis, as above, to find the relationship between theoutput and input of an op amp. Simplifying the analysisis our next consideration.

For most all operational amplifiers, Ri is 1 meg orlarger and Ro is around 50 or less. The open-loop gain, A, is greater than 100,000.

Ideal Op Amp:The following assumptions are made for the ideal op amp.

RohmsinputInfinite

RohmsoutputZero

AgainloopopenInfinite

Basic Electric CircuitsIdeal Op Amp:

V2 = V1Vo

(a) i1 = i2 = 0: Due to infinite input resistance.

(b) Vi is negligibly small; V1 = V2.

Ideal op amp.

Find Vo in terms of Vin for the following configuration.

Vin Vo

Gain amplifier op amp set-up.

Vin Vo

Writing a nodal equation at (a) gives;

RVV oiiin

With Vi = 0 we have;

With R2 = 4 k and R1 = 1 k, we have

ino VV 4 Earlierwe got ino VV 99.3

inVRRV1

Example : Consider the op amp configuration below. Find V0

3 VVin

Assume Vin = 5 V

3 VVin

At node “a” we can write;

k)V( in

From which; V0 = -51 V (op amp will saturate)

solution

Operational Amplifiers

Summing Amplifier

Example : Given the following, Find V0:Rfb

1 (11)

Example continued

Equation 11 can be expressed as;

V fbfb (12)

If R1 = R2 = Rfb then,

210 VVV (13)

Therefore, we can add signals with an op amp.

Example : The non-inverting op amp. Consider the following:

Writing a node equation at “a” gives;

giveswhich

Example: Non-inverting Input.Find V0 for the following op amp configuration.

The voltage at Vx is found to be 3 V.

Writing a node equation at “a” gives;

orVVV x 930

–Amplification –Analog filtering –Buffering –Threshold ...

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