Electronic devices and circuits

Electronic Devices and Circuits is designed as a textbook for undergraduate students and the text provides a thorough treatment of the concepts of electronic devices and circuits. All the fundamental concepts of the subject, including integrated ci

Bibliographic Details
Other Authors:	Rao, B. Visvesvara, author (author), Rao, B. Visveswara (-)
Format:	eBook
Language:	Inglés
Published:	New Delhi, India : Pearson 2006.
Edition:	Second edition
Subjects:	Electronic circuits. Semiconductors. Transistor circuits.
See on Biblioteca Universitat Ramon Llull:	https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009629224006719

Table of Contents:

Cover
Preface
General Introduction
About the Authors
Road Map to the Syllabus
Contents
Chapter 1: Electron Dynamics and Cathode Ray Oscilloscope
1.1 Motion of Charged Particles in Electric Fields
1.2 Force on a Charged Particle in an Electric Field
1.3 Motion of an Electron in a Constant Electric Field
Initial Velocity Perpendicular to Electric Field
1.4 Two-dimensional Motion of Electrons
1.5 Electrostatic Deflection in a Cathode Ray Tube (CRT)
1.6 Motion of Charged Particles in Magnetic Field
Magnetic Deflection
Motion of an Electron in a Magnetic Field
1.7 Motion of an Electron in Helical Paths
Magnetic Focusing
1.8 Magnetic Deflection in a Cathode Ray Tube
Magnetic Deflection Sensitivity
1.9 Electrostatic Focusing
1.10 Cathode Ray Tube
UJT Relaxation Oscillator
1.11 Cathode-Ray Oscilloscope (CRO)
Control Switches on the Front Panel of CRO
1.12 Applications of CRO
Measurement of Voltage
Current Measurement
Frequency Measurement by Comparison using Lissajous Figures
Comparison between Electrostatic Deflection and Magnetic Deflection
Frequency and Phase Measurement using Lissajous Patterns
1.13 Solved Examples
Electric and Magnetic Fields Only
Magnetic Deflection
Motion of Electron in a Magnetic Field
1.14 Questions for Practice
Electron Dynamics and Cathode Ray Oscilloscope
Chapter 2: Semiconductor Diodes and Rectifiers
2.1 Introduction
2.2 Electronic Configuration
2.3 Electronic Configuration of a Silicon Atom
2.4 Electronic Configuration of a Germanium Atom
2.5 Energy Band Concepts of Materials
Conductors
Semiconductors
Insulator
Conduction in Intrinsic Semiconductors
2.6 Conduction in Conductors and Semiconductors
Mobility (m)
Current Density
Conductivity.
Conduction in Semiconductors (Covalent Bond Structure)
Fermi Level
2.7 Extrinsic Semiconductor (Doped or Impure)
N-type Semicondctor (Doped Type Doping)
P-type Semiconductor
2.8 Energy Band Representations of Doped Materials
2.9 Carrier Lifetime
2.10 Diffusion
Einstein Relation
Net Current
Continuity Equation
2.11 Hall Effect
2.12 P-N Diode
Energy Band Diagrams for a P-N Diode with No Bias
Contact Difference of Potential E0 or V 0
Open Circuited Junction of P -N Diode
Forward Biased P -N (Junction) Diode
The Law of Junction
2.13 Current Components in the P-N Semiconductor Diode
2.14 Characteristics of P-N Diode
Forward Biased P-N Diode Characteristics
Reverse Biased Semiconductor Diode Characteristics
Temperature Dependence of Diode Current
2.15 Diode Capacitances
Space Charge Capacitance or Transition Capacitance CT
Diffusion or Storage Capacitance CD
2.16 Zener Diodes (Voltage Regulating Diodes)
Applications of Zener Diode
2.17 Tunnel Diode
Working Principle of Tunnel Diode
E.B.D. for Reverse Biased Tunnel Diode
Energy Band Diagrams for Biased Tunnel Diode
Tunnel Diode and Its Equivalent Circuit
Applications of Tunnel Diode
2.18 Photo Diode
Principle of Working
Photo Diode Characteristics
2.19 Rectifier Circuits
Ripple Factor
Voltage Regulation
Full Wave Rectifier Circuit
2.20 Bridge Rectifiers
Full Wave Doubler
2.21 Filters
Inductor Filter
2.22 Capacitor Filter Circuits
Half-wave Rectifier Circuit with Capacitor Filter
Full-wave Rectifier Circuit with Capacitor Filter
L-section Filter or Choke Input Filter or L-filter
Section Filter
Questions for Practice (Semiconductor Diode)
Solved Examples
Chapter 3: Transistors
3.1 Bipolar Junction Transistor (BJT).
Common Emitter Transistor Configurations
Common Base Transistor Configuration
Common Collector Transistor Configuration
Basic Operation
N-P-N Transistor Working
The Current Components through the Transistor
Base width Modulation and Early Effect
3.2 Transistor Characteristics
Input Characteristics
Output Characteristics
Interpretation of Output Characteristics
3.3 Small Signal Low Frequency Amplifier, h-Parameters
3.3 Common Base Mode Transistor
Input Characteristics of CB Transistor
3.4 High Frequency Linear Models
Hybrid-p or Giacoletto Model
Determination of Hybrid-p Parameters
Validity of Hybrid-p Model
3.5 Field Effect Transistor
3.6 FET Characteristics
Discussion on the Output Charcterristics of FET
3.7 N-channel FET as an Amplifier
Comparison between Field Effect Transistor (FET) and Transistor (BJT)
3.8 Metal Oxide Semiconductor FET (MOSFET)
Manufacturing Process of MOSFET
3.9 Unijunction Transistor
UJT Circuit with Biasing Voltages
UJT Equivalent Circuit
Principle of Working of the UJT Device
3.10 Silicon Controlled Rectifier (Thyristor)
SCR Conceptas Two Back-to-Back Connected Transistors
Questions for Practice
Points to Remember
Chapter 4: Amplifiers Using Bipolar Junction Transistors or FET
4.1 BJT and FET More Often used in Amplifiers
4.2 Transistor Biasing Methods
Fixed Bias Circuit
Collector to Base Bias Circuit
Potential Divider Bias or Self-Bias Circuit
4.3 Various Bias Compensation Circuits and their Working
4.4 Thermistor Compensation
Thermal Runaway and Thermal Stability
4.5 Small Signal Low Frequency Amplifier
Analys is of Amplifiers using H-Parameter Models
Small Signal Low Frequency Model for a Common Emitter Tranisstor Amplifier
High frequency equivalent circuit
4.6 Emitter Follower.
h-Parameter Model A.C. Equivalent Circuit of Emitter Follower
4.7 Junction Field Effect Transistor (JFET) Amplifiers
Common Gate FET Amplifier Circuit
4.8 Common Drain FET Amplifier (Source Follower)
Solved Examples
Questions for Practice
Points to Remember
Chapter 5: Feedback Amplifiers
5.1 Introduction
5.2 Negative Feedback Amplifiers
Voltage Gain ANF
Essential Constituents of Negative Feedback Amplifier
5.3 General Characteristics of Negative Feedback Amplifier
5.4 Classification of Negative Feedback Amplifiers
5.5 Voltage Series Feedback Amplifier
Voltage Series Feedback Amplifier Circuit
5.6 Voltage Shunt Feedback (Shunt-Shunt) Amplifier
Voltage Shunt Feedback Amplifier Circuit
5.7 Current Series Feedback Amplifier Circuit (Series-Series Type Amplifier)
Current-Shunt Feedback (Series-Shunt) Amplifier
Input Impedance with Feedback ZLN.f
5.8 Current Shunt Feedback Amplifier
Solved Examples
Questions for Practice
Points to Remember
Chapter 6: Oscillators
6.1 Introduction
6.2 Classification of Oscillators
6.3 Sinusoidal Oscillator Circuits
Concept of Positive Feedback
Feedback Network
6.4 Principle of Working
6.5 Transistor RC Phase-Shift Oscillator
6.6 FET-RC Phase Shift Oscillator
6.7 Wein Bridge Oscillator Using Operational Amplifier (opamp)
Colpitts Oscillator Circuit
Hartley Oscillator Circuit
6.8 General Configuration of LC Oscillators
6.9 General Form of Tunable Oscillators Circuit
6.10 Tuned Collector Oscillator
6.11 Tuned Drain Oscillator
6.12 Colpitts Oscillator
6.13 Clapp Oscillator
6.14 Hartley Oscillator Circuit
Crystal Oscillators
Advantages of Crystal Oscillators
Disadvantages
Miller Crystal Controlled Oscillator
Short Answer Questions
Questions for Practice
Solved Examples.
Select Bibliography
Index.

Electronic devices and circuits

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