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OPERATIONAL AMPLIFIERS

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Presentation on theme: "OPERATIONAL AMPLIFIERS"— Presentation transcript:

1 OPERATIONAL AMPLIFIERS
Why do we study them at this point??? 1. OpAmps are very useful electronic components 2. We have already the tools to analyze practical circuits using OpAmps 3. The linear models for OpAmps include dependent sources TYPICAL DEVICE USING OP-AMPS

2 LM324 DIP LMC6294 MAX4240 OP-AMP ASSEMBLED ON PRINTED CIRCUIT BOARD
APEX PA03 DIMENSIONAL DIAGRAM LM 324 PIN OUT FOR LM324

3 CIRCUIT SYMBOL FOR AN OP-AMP SHOWING POWER SUPPLIES
OUTPUT RESISTANCE INPUT RESISTANCE GAIN LINEAR MODEL TYPICAL VALUES

4 CIRCUIT WITH OPERATIONAL AMPLIFIER
LOAD DRIVING CIRCUIT OP-AMP

5 TRANSFER PLOTS FOR SOME COMERCIAL OP-AMPS
SATURATION REGION LINEAR IDENTIFY SATURATION REGIONS OP-AMP IN SATURATION

6 CIRCUIT AND MODEL FOR UNITY GAIN BUFFER
WHY UNIT GAIN BUFFER? PERFORMANCE OF REAL OP-AMPS BUFFER GAIN

7 THE IDEAL OP-AMP

8 THE UNITY GAIN BUFFER – IDEAL OP-AMP ASSUMPTION
PERFORMANCE OF REAL OP-AMPS USING LINEAR (NON-IDEAL) OP-AMP MODEL WE OBTAINED IDEAL OP-AMP ASSUMPTION YIELDS EXCELLENT APPROXIMATION!

9 WHY USE THE VOLTAGE FOLLOWER OR UNITY GAIN BUFFER?
THE VOLTAGE FOLLOWER ACTS AS BUFFER AMPLIFIER THE VOLTAGE FOLLOWER ISOLATES ONE CIRCUIT FROM ANOTHER ESPECIALLY USEFUL IF THE SOURCE HAS VERY LITTLE POWER CONNECTION WITHOUT BUFFER CONNECTION WITH BUFFER THE SOURCE SUPPLIES NO POWER THE SOURCE SUPPLIES POWER

10 LEARNING EXAMPLE

11 THINK NODES! LEARNING EXAMPLE: DIFFERENTIAL AMPLIFIER
KCL AT V_ AND V+ YIELD TWO EQUATIONS (INFINITE INPUT RESISTANCE IMPLIES THAT i-, i+ ARE KNOWN) THE OP-AMP IS DEFINED BY ITS 3 NODES. HENCE IT NEEDS 3 EQUATIONS OUTPUT CURRENT IS NOT KNOWN DON’T USE KCL AT OUTPUT NODE. GET THIRD EQUATION FROM INFINITE GAIN ASSUMPTION (v+ = v-)

12 LEARNING EXAMPLE: DIFFERENTIAL AMPLIFIER
IDEAL OP-AMP CONDITIONS INVERTING TERMINAL NON INVERTING TERMINAL

13 USE REMAINING NODE EQUATIONS FINISH WITH INPUT NODE EQUATIONS…
LEARNING EXAMPLE: USE IDEAL OP-AMP USE REMAINING NODE EQUATIONS FINISH WITH INPUT NODE EQUATIONS… USE INFINTE GAIN ASSUMPTION ONLY UNKWONS ARE OUTPUT NODE VOLTAGES 6 NODE EQUATIONS + 2 IDEAL OP-AMP

14 LEARNING EXTENSION

15 “inverse voltage divider”
LEARNING EXTENSION NONINVERTING AMPLIFIER - IDEAL OP-AMP SET VOLTAGE INFINITE GAIN ASSUMPTION INFINITE INPUT RESISTANCE “inverse voltage divider”

16 LEARNING EXAMPLE UNDER IDEAL CONDITIONS BOTH CIRCUITS SATISFY DETERMINE IF BOTH IMPLEMENTATIONS PRODUCE THE FULL RANGE FOR THE OUTPUT EXCEEDS SUPPLY VALUE. THIS OP-AMP SATURATES! POOR IMPLEMENTATION

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