Karris S.T. Electronic Devices and Amplifier Circuits with MatLAB Applications

Orchard Publications, 2005. — 629 p. — ISBN: 978-1934404256.This book is an undergraduate level textbook. It is an expanded version of the first edition. The prerequisites for this text are first year calculus and physics, and a two-semester course in circuit analysis including the fundamental theorems and the Laplace transformation. This text begins with is an introduction to the nature of small signals used in electronic devices, amplifiers, definitions of decibels, bandwidth, poles and zeros, stability, transfer functions, and Bode plots. It continues with an introduction to solid state electronics, diodes, bipolar junction transistors, field effect transistors (FETs), unijunction transistors, diacs, triacs, silicon control rectifiers (SCRs), and other PNPN devices. The highlight of this text is a long and detailed chapter on op amps. Integrated devices used in logic circuits, and their internal construction are discussed in another long chapter. It concludes with a discussion on tuned amplifier circuits and oscillators. It contains several examples with MatLAB computations and Simulink models. Includes an appendix on Proportional, Integral, and Derivative (PID) circuits. It is supplemented with numerous MatLAB scripts and Simulink/SimElectronics models. A supplementary text to this title is our Digital Circuit Analysis & Design with Simulink Modeling and Introduction to CPLDs and FPGAs, ISBN: 978-1-934404-06-5. For additional information contact the publisher at info@orchardpublications.comBasic Electronic Concepts and Signals.
Signals and Signal Classifications.
Amplifiers.
Decibels.
Bandwidth and Frequency Response.
Bode Plots.
Transfer Function.
Poles and Zeros.
Stability.
The Voltage Amplifier Equivalent Circuit.
The Current Amplifier Equivalent Circuit.Exercises.
Solutions to End-of-Chapter Exercises.Introduction to Semiconductor Electronics - Diodes.
Electrons and Holes.
The Junction Diode.
Graphical Analysis of Circuits with Non-Linear Devices.
Piecewise Linear Approximations.
Low Frequency AC Circuits with Junction Diodes.
Junction Diode Applications in AC Circuits.
Peak Rectifier Circuits.
Clipper Circuits.
DC Restorer Circuits.
Voltage Doubler Circuits.
Diode Applications in Amplitude Modulation (AM) Detection Circuits.
Diode Applications in Frequency Modulation (FM) Detection Circuits.
Zener Diodes.
The Schottky Diode.
The Tunnel Diode.
The Varactor.
Optoelectronic Devices.Exercises.
Solutions to End-of-Chapter Exercises.Bipolar Junction Transistors.NPN Transistor Operation.
The Bipolar Junction Transistor as an Amplifier.
Equivalent Circuit Models - NPN Transistors.
Equivalent Circuit Models - PNP Transistors.
Effect of Temperature on the i_c-v_BE Characteristics.
Collector Output Resistance - Early Voltage.
Transistor Amplifier Circuit Biasing.
Fixed Bias.
Self-Bias.
Amplifier Classes and Operation.
Class A Amplifier Operation.
Class B Amplifier Operation.
Class AB Amplifier Operation.
Class C Amplifier Operation.
Graphic Analysis.
Power Relations in the Basic Transistor Amplifier.
Piecewise Linear Analysis of the Transistor Amplifier.
incremental linear models.
Transconductance.
High-Frequency Models for Transistors.
The Darlington Connection.
Transistor Networks.
The h-Equivalent Circuit for the Common-Base Transistor.
The T-Equivalent Circuit for the Common-Base Transistor.
The h-Equivalent Circuit for the Common-Emitter Transistor.
The T-Equivalent Circuit for the Common-Emitter Transistor.
The h-Equivalent Circuit for the Common-Collector (Emitter-Follower) Transistor.
The T-Equivalent Circuit for the Common-Collector Transistor Amplifier.
Transistor Cutoff and Saturation Regions.
Cutoff Region.
Active Region.
Saturation Region.
The Ebers-Moll Transistor Model.
Schottky Diode Clamp.
Transistor Specifications.Exercises.
Solutions to End-of-Chapter Exercises.Field Effect Transistors and PNPN Devices.
The Junction Field Effect Transistor (JFET).
The Metal Oxide Semiconductor Field Effect Transistor (MOSFET).
The N-Channel MOSFET in the Enhancement Mode.
The N-Channel MOSFET in the Depletion Mode.
The P-Channel MOSFET in the Enhancement Mode.
The P-Channel MOSFET in the Depletion Mode.
Voltage Gain.
Complementary MOS (CMOS).
The CMOS Common-Source Amplifier.
The CMOS Common-Gate Amplifier.
The CMOS Common-Drain (Source Follower) Amplifier.
The Metal Semiconductor FET (MESFET).
The Unijunction Transistor.
The Diac.
The Silicon Controlled Rectifier (SCR).
The SCR as an Electronic Switch.
The SCR in the Generation of Sawtooth Waveforms.
The Triac.
The Shockley Diode.
Other PNPN Devices.Exercises.
Solutions to End-of-Chapter Exercises.Operational Amplifiers.
The Operational Amplifier.
An Overview of the Op Amp.
The Op Amp in the Inverting Mode.
The Op Amp in the Non-Inverting Mode Active Filters.
Analysis of Op Amp Circuits.
Input and Output Resistances.
Op Amp Open Loop Gain.
Op Amp Closed Loop Gain.
Transresistance Amplifier.
Closed Loop Transfer Function.
The Op Amp Integrator.
The Op Amp Differentiator.
Summing and Averaging Op Amp Circuits.
Differential Input Op Amp.
Instrumentation Amplifiers.
Offset Nulling.
External Frequency Compensation.
Slew Rate.
Circuits with Op Amps and Non-Linear Devices.
Comparators.
Wien Bridge Oscillator.
Digital-to-Analog Converters.
Analog-to-Digital Converters.
The Flash Analog-to-Digital Converter.
The Successive Approximation Analog-to-Digital Converter.
The Dual-Slope Analog-to-Digital Converter.
Quantization, Quantization Error, Accuracy, and Resolution.
Op Amps in Analog Computers.Exercises.
Solutions to End-of-Chapter Exercises.Integrated Circuits.
The Basic Logic Gates.
Positive and Negative Logic.
The Inverter.
The AND Gate.
The OR Gate.
The NAND Gate.
The NOR Gate.
The Exclusive OR (XOR) and Exclusive NOR (XNOR) Gates.
Fan-In, Fan-Out, TTL Unit Load, Sourcing Current, and Sinking Current Data Sheets.
Emitter Coupled Logic (ECL).
NMOS Logic Gates.
The NMOS Inverter.
The NMOS N AND Gate.
The NMOS NOR Gate.
CMOS Logic Gates.
The CMOS Inverter.
The CMOS NAND Gate.
The CMOS NOR Gate.
Buffers, Tri-State Devices, and Data Buses.
Present and Future Technologies.Exercises.
Solutions to End-of-Chapter Exercises.Pulse Circuits and Waveform Generators.
Astable (Free-Running) Multivibrators.
The 555 Timer.
Astable Multivibrator with the 555 Timer.
Monostable Multivibrators.
Bistable Multivibrators (Flip-Flops).
The Fixed-Bias Flip-Flop.
The Self-Bias Flip-Flop.
Triggering Signals for Flip-Flops.
Present Technology Bistable Multivibrators.
The Schmitt Trigger.Exercises.
Solutions to End-of-Chapter Exercises.Frequency Characteristics of Single-Stage and Cascaded Amplifiers.
Properties of Signal Waveforms.
The Transistor Amplifier at Low Frequencies.
The Transistor Amplifier at High Frequencies.
Combined Low- and High-Frequency Characteristics.
Frequency Characteristics of Cascaded Amplifiers.
Overall Characteristics of Multistage Amplifiers.
Amplification and Power Gain in Three or More Cascaded Amplifiers.Exercises.
Solutions to End-of-Chapter Exercises.Tuned Amplifiers.
Introduction to Tuned Circuits.
Single-tuned Transistor Amplifier.
Cascaded Tuned Amplifiers.
Synchronously Tuned Amplifiers.
Stagger-Tuned Amplifiers.
Three or More Tuned Amplifiers Connected in Cascade.Exercises.
Solutions to End-of-Chapter Exercises.Sinusoidal Oscillators.
Introduction to Oscillators.
Sinusoidal Oscillators.
RC Oscillator.
LC Oscillators.
The Armstrong Oscillator.
The Hartley Oscillator.
The Colpitts Oscillator.
Crystal Oscillators.
The Pierce Oscillator.Exercises.
Solutions to End-of-Chapter Exercises.Appendix. Introduction to MatLAB.
MatLAB and Simulink.
Command Window.
Roots of Polynomials.
Polynomial Construction from Known Roots.
Evaluation of a Polynomial at Specified Values.
Rational Polynomials.
Using MatLAB to Make Plots.
Subplots.
Multiplication, Division and Exponentiation.
Script and Function Files.
Display Formats.Appendix. Compensated Attenuators.
Uncompensated Attenuator.
Compensated Attenuator.Appendix. The Substitution, Reduction, and Miller’s Theorems.
The Substitution Theorem.
The Reduction Theorem.
Miller’s Theorem.