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ANALOG ELECTRONICS AND OP-AMP

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Course Overview

Schedule of Classes

Course Curriculum

1 Subject

ANALOG ELECTRONICS AND OP-AMP

8 Exercises103 Learning Materials

UNIT 1 - P-N JUNCTION DIODE

1.1 Formation of PN junction diode

1.2 P-N Junction forward bias

1.3 P-N Junction reverse bias

1.4 V-I characteristics of P-N junction diode

1.5 Specifications and applications of diodes

1.6 Applications of PN junction diodes

1.7 Zener breakdown and Avalanche breakdown

1.8 Clipper

1.9 Biased clippers

1.10 Clamper circuit

1.11 Applications of clippers and clampers

1.12 Assessment

Exercise

1.13 FAQ

UNIT 2 - SPECIAL SEMICONDUCTOR DEVICES

2.1 Thermistors and Sensistors

2.2 Zener Diode

2.3 Zener Diode VI Characteristics

2.4 Tunnel diode

2.5 PIN Diode

2.6.Assessment

Exercise

2.7.FAQ

UNIT 3 - RECTIFIER CIRCUITS AND FILTERS

3.1 Power supply and half wave rectifier

3.2 Center tapped full wave rectifier

3.3 Full wave bridge rectifier

3.4 Filter

3.5 Half wave rectifier with filters

3.6 Center tapped Full wave rectifier with C filter

3.7 Full wave bridge rectifier with filters

3.8. Assessment

Exercise

3.9.FAQ

UNIT 4 - TRANSISTORS

4.1 Transistors

4.2 PNP Transistor

4.3 NPN Transistor

4.4 Transistor as an amplifiers and its different regions

4.5 Transistor configurations

4.6 Input characteristics of a transistor in a CB configuration

4.7 Output characteristics of a transistor in CB configuration

4.8 Three regions in the output characteristics of CB-Configuration

4.9 Input characteristics of CE configuration

4.10 Output characteristics of CE configuration

4.11 Three regions in the output characteristics of CE-Configuration

4.12 Input and Output characteristics of CC configuration

4.13.Assessment

Exercise

4.14 FAQ

UNIT 5 - TRANSISTOR CIRCUITS

5.1 Transistor load lines

5.2 Operating point and load line

5.3 Need of transistor biasing

5.4 Causes for instability of biasing

5.5 Fixed bias network

5.6 Need for stabilization and stability factor

5.7 Collector to base bias circuit

5.8 Voltage divider bias

5.9 Thermal Stability

5.10 Bias Compensation

5.11 Diode compansation

5.12. Assessment

Exercise

5.13 FAQ

UNIT 6 - TRANSISTOR AMPLIFIERS AND OSCILLATORS

6.1 Transistor as an amplifier

6.2 Single stage CE amplifier and H-Parameter model

6.3 Classification of amplifiers

6.4 Need for multistage amplifiers

6.5 Gain, decibel gain, frequency response and bandwidth of an amplifier

6.6 RC coupled amplifier

6.7 Frequency response of RC coupled amplifier

6.8 Transformer coupled amplifier

6.9 Frequency response of transformer coupled amplifier

6.10 Direct coupled amplifier

6.11 Circuit of emitter follower

6.12 Darlington pair

6.13 Negative and positive feedback

6.14 Block diagram of negative feedback

6.15 Classification of negative feedback amplifiers

6.16 Different types of negative feedback amplifiers

6.17 Why voltage amplifier can not be used as power amplifier

6.18 Classification of power amplifier

6.19 Single ended class A power amplifier with resistive load

6.20 Single ended class-A amplifier with transformer load

6.21 Class B amplifier

6.22 Class B push-pull amplifier

6.23 Oscillator

6.24 Requisites and Classification of oscillators

6.25 Wein bridge oscillator

6.26 RC phase shift oscillator

6.27 Tuned Collector oscillator

6.28 Hartley oscillator

6.29 Colpitt’s oscillator

6.30 Crystal oscillator

6.31. Assessment

Exercise

6.32 FAQ

UNIT 7 - FIELD EFFECT TRANSISTOR

7.1 Junction Field Effect Transistor (JFET)

7.2 Construction and working of JFET

7.3 Small signal analysis of JFET

7.4 Small signal analysis of common drain amplifiers

7.5 Small signal analysis of common gate amplifiers

7.6 Biasing of FET

7.7.Assessment

Exercise

7.8 FAQ

UNIT 8 - OPERATIONAL AMPLIFIERS

8.1 Pin Diagram of IC 741 packages

8.2 Integrated circuit (IC) Op-Amp

8.3 Operational amplifier

8.4 Characteristics of Op-Amp

8.5 Non-inverting amplifier

8.6 Inverting amplifier and voltage follower

8.7 Open loop operation and Negative feedback of Op-Amp

8.8 Summing and Difference amplifier

8.9 Integrator and Differentiator

8.10 Isolation Amplifiers

8.11 Comparator

8.12 Square wave generator using op-amp

8.13 Triangular wave generator using op-amp

8.14. Assessment

Exercise

8.15 FAQ

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