Pulse and Digital Circuits : For JNTUK
β Venkata Rao K., Rama Sudha K., Manmadha Rao G.
π Library
π
2012
π Pearson Education
π English
β¦ LIBER β¦
π
Electronic Circuits Analysis : For JNTUK
β Scribed by B. Visvesvara Rao, K. Bhaskara Rama Murthy, P. Chalam Raju Pantulu, K. Raja Rajeswari,
- Publisher
- Pearson Education
- Year
- 2011
- Tongue
- English
- Leaves
- 444
- Category
- Library
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β¦ Table of Contents
Cover
Contents
Preface
Roadmap to the Syllabus
Chapter 1: Single-stage Amplifiers
1.1 The h-parameters of the Transistor
1.2 Transistor Amplifier Analysis Using h-parameter Equivalent Circuits
1.3 Common Emitter Transistor Amplifier Analysis
1.4 Common Base Transistor Amplifier Analysis
1.5 Common Collector Transistor Amplifier Analysis
1.6 Emitter Follower Transistor Amplifier Analysis
1.7 Millerβs Theorem (for voltages):
1.8 Dual of Millerβs Theorem (for currents)
1.9 Basic Concepts of FET Amplifier
1.10 FET Bias Using Fixed-bias Circuit
1.11 Self-biasing Circuit for FET
1.12 Voltage -Divider-bias Circuit for FET
1.13 Biasing of Enhancement MOSFET
1.14 Drain Feedback Bias Circuit
1.15 Potential-divider-biasing Circuit for EMOSFET
1.16 Basic Concepts of FET Amplifier
1.17 Common Source FET Amplifier
1.18 Resistance Capacitance Coupled FET Amplifier
1.19 Common Gate FET Amplifier Analysis
1.20 Common Drain FET Amplifier (Source Follower)
1.21 Frequency Response of Single-stage Amplifier
1.22 FET As Voltage Variable Resistor (VVR)
Questions for Practice
Chapter 2: Feedback Amplifiers
2.1 Introduction
2.2 Fundamental Concepts of Feedback Amplifier Circuits
2.3 Negative Feedback Amplifier
2.4 Merits (General Characteristics) of Negative Feedback Amplifiers
2.5 Voltage Amplifier (Voltage Series Feedback Amplifier)
2.6 Voltage Shunt Feedback Amplifier (Transresistance Amplifier)
2.7 Current Series Feedback Amplifier (Transconductance Amplifier)
2.8 Current Shunt Feedback Amplifier Current (Series-Shunt) Amplifier
2.9 Voltage and Current Series Feedback Amplifiers (Practical Circuit)
Questions for Practice
Chapter 3: Oscillators
3.1 Introduction
3.2 Fundamental Concepts of Sinusoidal Oscillators
3.3 Transistor RC Phase Shift Oscillator
3.4 FETβRC Phase Shift Oscillator
3.5 Wien Bridge Oscillator Circuit Using Operational Amplifier
3.6 LC Oscillators (High-frequency Oscillators)
3.7 Colpitts Oscillator Using FET
3.8 Clapp Oscillator
3.9 Hartley Oscillator Circuit
3.10 Tuned Collector Oscillator
3.11 Tuned Drain Oscillator Circuit
3.12 Crystal Oscillators
3.13 UJT Oscillator Circuit
Questions for Practice
Chapter 4: Multistage Amplifiers
4.1 Concepts of Cascaded (Multistage) Amplifiers
4.2 Different Coupling Schemes Used in Amplifiers
4.3 N-stage Cascaded Amplifier
4.4 Cascaded RC-coupled BJT Amplifiers
4.5 Cascaded RC-coupled FET Amplifiers
4.6 F requency Response Characteristic of R C-coupled Amplifier
4.7 Equivalent Circuits of Cascaded RC-coupled Transistor Amplifiers
4.8 (CE + CC) Transistor Amplifier
4.9 (CS + CD) FET Amplifier
4.10 Cascode (CE + CB) Amplifier
4.11 Cascode (CS + CG) Amplifier
4.12 (CC + CE) Transistor Amplifier
4.13 (CD + CS) JFET Amplifier
4.14 Cascading in Operational Amplifiers
4.15 Darlington Pair (Compound Transistor Configurations)
4.16 High Input Resistance Transistor circuits (Darlington Pair)
4.17 Difference Amplifiers
Questions for Practice
Chapter 5: High-frequency Transistor and FET Circuits
5.1 Transistor at High Frequency Input Signals
5.2 Hybrid- Model for HF Transistors
5.3 Determination of Hybrid- Circuit Parameters
5.4 Current Gain of CE Transistor Amplifier with Resistive Load
5.5 Short Circuit Current Gain A and F of CE Transistor Amplifier
5.6 High-frequency Equivalent Circuit of JFET
5.7 High-frequency Equivalent Circuit of MOSFET
5.8 MOSFET (Common Source MOSFET High-frequency Amplifier)
Questions for Practice
Chapter 6: Power Amplifiers
6.1 Class-A, Class-B and Class-C Amplifiers
6.2 Class-A Power Amplifier
6.3 Transformer-coupled Audio Power Amplifier
6.4 Class-A PushβPull Amplifier
6.5 Class-B PushβPull Amplifiers
6.6 Transformer-less PushβPull Amplifier
6.7 Crossover Distortion
6.8 Class-AB Power Amplifier
6.9 Class-C Power Amplifier
6.10 Thermal Modelling and Heat Sinks
6.11 Advanced Power Amplifiers
6.12 Distortion in Amplifiers
6.13 Class -S Power Amplifier
6.14 MOSFET Power Amplifiers
Questions for Practice
Chapter 7: Tuned Amplifiers
7.1 Introduction
7.2 Basic Concepts of Tuned Amplifiers
7.3 Performance of Parallel Resonant Circuits
7.4 Single-tuned Capacitance-coupled (Direct-coupled) Amplifier
7.5 Single-tuned Capacitance-coupled CE Transistor Amplifier
7.6 Single-tuned (Transformer) Inductively Coupled Amplifier
7.7 Tapped Single-tuned Capacitance-coupled Amplifier (Inductive Tap Between Amplifiers for Optimum Power Transfer )
7.8 Amplifiers with Multiple Tuned Circuits
7.9 Double-tuned Amplifier
7.10 Applications of Tuned Amplifiers
7.11 Synchronously Tuned Amplifier
7.12 Stagger-tuned Amplifier
7.13 Stability of Tuned Amplifiers
7.14 Radio Frequency Amplifiers (Tuned Amplifier)
7.15 Wideband Amplifiers
7.16 Applications of Wideband Amplifiers
Questions for Practice
Chapter 8: Voltage Regulators
8.1 Voltage Regulators
8.2 Simple Voltage Regulator Circuit Using Zener Diode
8.3 Block Diagram of Series Voltage Regulator
8.4 Series Voltage Regulator Circuits
8.5 Block Diagram of Shunt Voltage Regulators
8.6 Shunt Voltage Regulator Circuits
8.7 Current Limiting Techniques
8.8 Adjustable Voltage Regulators
Questions for Practice
Model Question Papers
Index
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