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Operational Amplifiers Basic Theory & Use in Analog Signal Processing

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Presentation on theme: "Operational Amplifiers Basic Theory & Use in Analog Signal Processing"— Presentation transcript:

1 Operational Amplifiers Basic Theory & Use in Analog Signal Processing
By Muhammad Bilal PhD Candidate Department of Computer Engineering, LUMS

2 Operational Amplifiers – Brief History
Appeared around 1947 (vacuum tube age) Combination of High Gain & Negative Feedback Miniaturization after invention of BJT Integrated Circuit Operational Amplifier Robert Widlar at Fairchild Semiconductor Corps (1968) Industry standard, the 741

3 Operational Amplifiers as Analog Computers
Addition Subtraction Multiplication by a constant (Gain) Integration Differentiation MONIAC

4 Operational Amplifiers Op-Amps

5 Schematic

6 Block Diagram

7 Analysis Model (Ideal OpAmp)
Differential Input Input Resistance almost infinity Output Resistance (Ro) almost zero Gain (A) almost infinity

8 OpAmp Configurations Inverting Amplifier

9 OpAmp Configurations-- Inverting Amplifier
No current can flow through Vp,Vn terminals

10 OpAmp Configurations-- Inverting Amplifier

11 Lessons from Inverting Amp. configuration
Gain is set via external components Stable gain due to ratio of resistors Effects of extremely high gain Virtual short circuit (Vp = Vn) Negative Feedback compensates for the internal high gain of OpAmp

12 OpAmp Configurations– Non-Inverting Amplifier
Gain = 1 + R2 / R1

13 OpAmp Configurations– Voltage Follower
Due to negative feedback, virtual short will occur, forcing Vn to be equal to Vp which is in turn equal to Vs. Thus Vout = Vs and hence the name voltage follower.

14 OpAmp Configurations-- Inverting Amplifier
Generic Gain = - Z2 / Z1

15 OpAmp Configurations-- Integrator

16 OpAmp Configurations-- Integrator
Time Domain Analysis

17 OpAmp Configurations-- Differentiator

18 OpAmp Configurations-- Differentiator
Time Domain Analysis

19 OpAmp Configurations-- Filters
Integrator First Order Low Pass Filter Extremely high gain at low frequencies Only used within a closed loop Differentiator First Order High Pass Filter

20 OpAmp Circuits– Frequency Counter
A ‘Differentiator’ followed by ‘Peak Detector’

21 OpAmp Circuits– Summer
Vout = -(Vs2 + Vs1) (R1=R2=R3)

22 OpAmp Circuits– Summer

23 OpAmp Circuits– Difference Amplifier
Vout = Vs2 – Vs1 (R1=R2=R3=R4)

24 OpAmp Circuits– Current Amplifiers
V to V V to I I to V I to I

25 OpAmp Circuits– Filters
First Order Filters Integrator (Low Pass) Differentiator (High Pass) Superposition (Band Pass)

26 OpAmp Circuits– Filters
First Order Low Pass Filter

27 OpAmp Circuits– Filters
Second Order Low Pass Filter

28 OpAmp Non-linear Circuits
Voltage Comparators Schmitt Trigger Variable Threshold

29 OpAmp Non-linear Circuits
Superdiode Another manifestation of ‘virtual short’ due to negative feedback

30 OpAmp Non-linear Circuits
Signal Generators Multivibrator Square wave to Triangular wave conversion Integrator

31 OpAmp—Solution of Differential Equations
Real time Precise Applicable to any order Constant Coefficient DE’s only

32 OpAmp—Solution of Differential Equations
First Order Constant Coefficient DE

33 OpAmp—Solution of Differential Equations
First Order Constant Coefficient DE R-C circuit simulation

34 OpAmp—Solution of Differential Equations
Second Order Constant Coefficient DE R-L-C circuit simulation

35 OpAmp—Solution of Differential Equations
Second Order DE simulation Hardware Simulation of R-L-C circuit without actual use of Inductor Implementation of precise mathematical relationships given by DE’s

36 Analog Signal Processing
Pros Inherently Analog World Precision Simplicity Intuitive Designs vs ‘Programming’ Cons Non-linearity Rigidity Noise Floor Temperature dependence

37 Practical OpAmps Limitations
Gain-Bandwidth Product Common Mode Rejection Slew Rate

38 Open Loop OpAmp Characteristics
Device LM741C LF351 OP-07 LH0003 AD549K Technology BJT BiFET Hybrid BJT AOL(typ) 200 k 100 k 400 k 40 k Rin 2 M 1012  8 M 100 k 1013  || 1 pF Ro 50  30  60  ~100  Slew Rate 0.5 V/s 13 V/s 0.3 V/s 70 V/s 3 V/s CMRR 90 dB 100 dB 110 dB

39 References Design with Operational Amplifiers and Analog Integrated Circuits,Sergio Franco, 3rd Edition. Basic Engineering Circuit Analysis, David Irwin, 8th Edition. Electronic Devices and Circuit Theory, Robert Boylsted, 9th Edition.

40 ?

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