Operational Amplifiers ELZ 206 - Elektronik I · PDF fileOperational Amplifiers ... Equivalent...

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Copyright 2004 by Oxford University Press, Inc.

Operational Amplifiers

ELZ 206 - Elektronik I

Dr. Mehmet Siraç Özerdem

Department of Electrical and Electronics Engineering

Dicle University

Microelectronic Circuits – Fourth Edition

Adel S. Sedra, Kenneth C. Smith, 1998 Oxford University Press


One of the reasons for the popularity of the Op-amp is

its versatility.

Circuit symbol for the op amp.

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Copyright 2004 by Oxford University Press, Inc.Microelectronic Circuits - Fifth Edition Sedra/Smith

The op amp shown connected to dc power supplies.



Equivalent circuit of the ideal op amp.

The ideal op-amp

The gain is ideally infinite

(Open loop configuration)

We will use other

components to apply

feedback to close the

around the op-amp

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The inverting closed-loop configuration.

Analysis of inverting configuration




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Analysis of the inverting configuration taking into

account the finite open-loop gain of the op amp.

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Example

op amp : ideal

a) (vo / vI) = ?

b) (vo / vI) = 100 and Ri = 1Mohms.

Find the other values of components.

E

E

E

E

E

EE

E

E

E

E


Copyright 2004 by Oxford University Press, Inc.ExampleMicroelectronic Circuits - Fifth Edition Sedra/Smith

Example-Solution

a)

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Other Application of the Inverting Configuration

1. The inverting configuration with general impedances Z1

and Z2

2. The inverting integrator

3. The Op-amp differentiator

4. The weighted summer




1. The inverting configuration with general impedances

Z1 and Z2

The inverting configuration with general impedances in

the feedback and the feed-in paths.

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Example

a) (Vo(s) / Vi(s) )= ?

Transfer function

b) Show that the transfer function is

that of a low-pass STC circuit.

c) K=? (DC gain) and

3-dB frequency (wo) = ?

d) K=40 dB fo=1kHz Ri=1kΩ

Design the circuit (R1, R2, C2 ?)

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Copyright 2004 by Oxford University Press, Inc.ExampleMicroelectronic Circuits - Fifth Edition Sedra/Smith

Example-Solution 2

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Copyright 2004 by Oxford University Press, Inc.Example


Frequency response

of the integrator

Z1=R Z2=1/sC

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The Miller or inverting integrator

Comparision

Example

A low-pass STC circuit

Problem



To solve the problem

The Miller integrator with a large resistance RF connected in

parallel with C in order to provide negative feedback and

hence finite gain at dc.

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Example

E E

Microelectronic Circuits - Fifth Edition Sedra/Smith

Example

a) vo(t) = ?

b) If the integrator capacitor is shunted

by RF=1MΩ resistance, vo(t) = ?

Example

R=10kΩ

C=10nF



Example-Solution

Input pulse

Output linear ramp of

ideal integrator with

time constant of 0.1 ms.

(a)

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Example-Solution

(b)





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Frequency response of

a differentiator with a

time-constant CR.




4. The Weighted Summer

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The Noninverting Configuration



Analysis of the noninverting circuit.

The Noninverting Configuration

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The unity-gain buffer or follower amplifier.

The Voltage Follower

Its equivalent circuit model.



Example

vo(v1, v2) = ?

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A Difference Amplifier (Example)

vo(vI1, vI2) = ?



Application of superposition to the analysis of the circuit

A Difference Amplifier (Example - Solution)

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Input resistance of the difference amplifier for the case

R3 = R1 and R4 = R2.




Representing the input signals to a differential amplifier in

terms of their differential and common-mode components.

Example

E

E


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An Instrumentation Amplifier (Example)

E

vo(vI1, vI2) = ?




Operational Amplifiers ELZ 206 - Elektronik I · PDF fileOperational Amplifiers ... Equivalent...

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