Electronic Devices front cover, THIRD -- Electronic Devices back cover, THIRD -- Front Matter Electronic Devices THIRD Book -- Preface Electronic Devices THIRD -- TOC Elex THIRD -- Table of Contents -- Chapter 01 Electronic Devices THIRD -- Chapter 02 Electronic Devices THIRD -- Chapter 2 -- 2.1 Electrons and Holes -- 2.2 The Junction Diode -- 2.3 Graphical Analysis of Circuits with Non-Linear Devices -- 2.4 Piecewise Linear Approximations -- 2.5 Low Frequency AC Circuits with Junction Diodes -- 2.6 Junction Diode Applications in AC Circuits -- 2.7 Peak Rectifier Circuits -- 2.8 Clipper Circuits -- 2.9 DC Restorer Circuits -- 2.10 Voltage Doubler Circuits -- 2.11 Diode Applications in Amplitude Modulation (AM) Detection Circuits -- 2.12 Diode Applications in Frequency Modulation (FM) Detection Circuits -- 2.13 Zener Diodes -- 2.14 The Schottky Diode -- 2.15 Tunnel Diode -- 2.16 The Varactor -- 2.17 Optoelectronic Devices -- 2.18 Summary -- 2.19 Exercises -- 2.20 Solutions to End-of-Chapter Exercises -- Chapter 03 Electronic Devices THIRD -- Chapter 3 -- 3.1 Introduction -- 3.2 NPN Transistor Operation -- 3.3 The Bipolar Junction Transistor as an Amplifier -- 3.3.1 Equivalent Circuit Models - NPN Transistors -- 3.3.2 Equivalent Circuit Models - PNP Transistors -- 3.3.3 Effect of Temperature on the - Characteristics -- 3.3.4 Collector Output Resistance - Early Voltage -- 3.4 Transistor Amplifier Circuit Biasing -- 3.5 Fixed Bias -- 3.6 Self-Bias -- 3.7 Amplifier Classes and Operation -- 3.3.1 Class A Amplifier Operation -- 3.3.2 Class B Amplifier Operation -- 3.3.3 Class AB Amplifier Operation -- 3.3.4 Class C Amplifier Operation -- 3.4 Graphical Analysis -- 3.5 Power Relations in the Basic Transistor Amplifier -- 3.6 Piecewise-Linear Analysis of the Transistor Amplifier -- 3.7 Incremental Linear Models -- 3.8 Transconductance.

3.9 High-Frequency Models for Transistors -- 3.10 The Darlington Connection -- 3.11 Transistor Networks -- 3.3.1 The h-Equivalent Circuit for the Common-Base Transistor -- 3.3.2 The T-Equivalent Circuit for the Common-Base Transistor -- 3.3.3 The h-Equivalent Circuit for the Common-Emitter Transistor -- 3.3.4 The T-Equivalent Circuit for the Common-Emitter Transistor -- 3.3.5 The h-Equivalent Circuit for the Common-Collector Transistor -- 3.3.6 The T-Equivalent Circuit for the Common-Collector Transistor Amplifier -- 3.4 Transistor Cutoff and Saturation Regions -- 3.3.1 Cutoff Region -- 3.3.2 Active Region -- 3.3.3 Saturation Region -- 3.4 The Ebers-Moll Transistor Model -- 3.5 Schottky Diode Clamp -- 3.6 Transistor Specifications -- 3.7 Summary -- 3.8 Exercises -- 3.9 Solutions to End-of-Chapter Exercises -- Chapter 04 Electronic Devices THIRD -- Chapter 05 Electronic Devices THIRD -- Chapter 5 -- 5.1 Operational Amplifier -- 5.2 An Overview of the Op Amp -- 5.3 Op Amp in the Inverting Mode -- 5.4 Op Amp in the Non-Inverting Mode -- 5.5 Active Filters -- 5.6 Analysis of Op Amp Circuits -- 5.7 Input and Output Resistances -- 5.8 Op Amp Open Loop Gain -- 5.9 Op Amp Closed Loop Gain -- 5.10 Transresistance Amplifier -- 5.11 Closed Loop Transfer Function -- 5.12 Op Amp Integrator -- 5.13 Op Amp Differentiator -- 5.14 Summing and Averaging Op Amp Circuits -- 5.15 Differential Input Op Amp -- 5.16 Instrumentation Amplifiers -- 5.17 Offset Nulling -- 5.18 External Frequency Compensation -- 5.19 Slew Rate -- 5.20 Circuits with Op Amps and Non-Linear Devices -- 5.21 Comparator -- 5.22 Wien Bridge Oscillator -- 5.23 Digital-to-Analog Converters -- 5.24 Analog-to-Digital Converter -- 5.24.1 Flash Analog-to-Digital Converter -- 5.24.2 Successive Approximation Analog-to-Digital Converter -- 5.24.3 Dual-Slope Analog-to-Digital Converter.

5.25 Quantization, Quantization Error, Accuracy, and Resolution -- 5.26 Op Amps in Analog Computers -- 5.27 Gyrator -- 5.28 Summary -- 5.29 Exercises -- 5.30 Solutions to End-of-Chapter Exercises -- Chapter 06 Electronic Devices THIRD -- Chapter 6 -- 6.1 Basic Logic Gates -- 6.2 Positive and Negative Logic -- 6.3 Inverter -- 6.4 AND Gate -- 6.5 OR Gate -- 6.6 NAND Gate -- 6.7 NOR Gate -- 6.8 Exclusive OR (XOR) and Exclusive NOR (XNOR) Gates -- 6.9 Fan-In, Fan-Out, TTL Unit Load, Sourcing Current, and Sinking Current -- 6.10 Data Sheets -- 6.11 Emitter Coupled Logic (ECL) -- 6.12 NMOS Logic Gates -- 6.12.1 NMOS Inverter -- 6.12.2 NMOS NAND Gate -- 6.12.3 NMOS NOR Gate -- 6.13 CMOS Logic Gates -- 6.13.1 CMOS Inverter -- 6.13.2 CMOS NAND Gate -- 6.13.3 CMOS NOR Gate -- 6.14 Buffers, Tri-State Devices, and Data Buses -- 6.15 Present and Future Technologies -- 6.16 Summary -- 6.17 Exercises -- 6.18 Solutions to End-of-Chapter Exercises -- Chapter 07 Electronic Devices THIRD -- Chapter 7 -- 7.1 Astable (Free-Running) Multivibrators -- 7.2 555 Timer -- 7.3 Astable Multivibrator with the 555 Timer -- 7.4 Monostable (One-Shot) Multivibrators -- 7.5 Bistable Multivibrator (Flip-Flop) -- 7.5.1 Fixed-Bias Flip-Flop -- 7.5.2 Self-Bias Flip-Flop -- 7.5.3 Triggering Signals for Flip-Flops -- 7.5.4 Present Technology Bistable Multivibrators -- 7.6 Schmitt Trigger -- 7.7 Summary -- 7.8 Exercises -- 7.9 Solutions to End-of-Chapter Exercises -- Chapter 08 Electronic Devices THIRD -- Chapter 8 -- 8.1 Properties of Signal Waveforms -- 8.2 Transistor Amplifier at Low Frequencies -- 8.3 Transistor Amplifier at High Frequencies -- 8.4 Combined Low- and High-Frequency Characteristics -- 8.5 Frequency Characteristics of Cascaded Amplifiers -- 8.6 Overall Characteristics of Multistage Amplifiers -- 8.7 Amplification and Power Gain in Three or More Cascaded Amplifiers.

8.8 Summary -- 8.9 Exercises -- 8.10 Solutions to End-of-Chapter Exercises -- Chapter 09 Electronic Devices THIRD -- Chapter 9 -- 9.1 Introduction to Tuned Circuits -- 9.2 Single-tuned Transistor Amplifier -- 9.3 Cascaded Tuned Amplifiers -- 9.3.1 Synchronously Tuned Amplifiers -- 9.3.2 Stagger-Tuned Amplifiers -- 9.3.3 Three or More Tuned Amplifiers Connected in Cascade -- 9.4 Summary -- 9.5 Exercises -- 9.6 Solutions to End-of-Chapter Exercises -- Chapter 10 Electronic Devices THIRD -- Chapter 10 -- 10.1 Oscillators Defined -- 10.2 Sinusoidal Oscillators -- 10.3 RC Oscillator -- 10.4 LC Oscillator -- 10.5 Armstrong Oscillator -- 10.6 Hartley Oscillator -- 10.7 Colpitts Oscillator -- 10.8 Crystal Oscillators -- 10.9 Pierce Oscillator -- 10.10 Summary -- 10.11 Exercises -- 10.12 Solutions to End-of-Chapter Exercises -- Appendix A Electronic Devices THIRD -- Appendix A -- A.1 MATLAB® and Simulink® -- A.2 Command Window -- A.3 Roots of Polynomials -- A.4 Polynomial Construction from Known Roots -- A.5 Evaluation of a Polynomial at Specified Values -- A.6 Rational Polynomials -- A.7 Using MATLAB to Make Plots -- A.8 Subplots -- A.9 Multiplication, Division, and Exponentiation -- A.10 Script and Function Files -- A.11 Display Formats -- Appendix B Electronic Devices THIRD -- Appendix B -- B.1 Simulink and its Relation to MATLAB -- B.2 Simulink Demos -- Appendix C Electronic Devices THIRD -- Appendix D Electronic Devices THIRD -- Appendix D -- D.1 Description and Components of a Typical PID -- D.2 The Simulink PID Blocks -- Appendix E Electronic Devices THIRD -- Appendix E -- E.1 Uncompensated Attenuator -- E.2 Compensated Attenuator -- Appendix E -- Appendix F Electronic Devices THIRD -- Appendix F -- F.1 Substitution Theorem -- F.2 Reduction Theorem -- F.3 Miller's Theorem -- References Electronic Devices THIRD.

References and Suggestions for Further Study -- A. Manufacturers Data Books and Sheets -- 1. Fairchild TTL Data Book, Fairchild Semiconductor, http://www.fairchildsemi.com/ -- 2. Texas Instruments TTL Data Book, Texas Instruments, http://www.ti.com/ -- 3. MECL Device Data, Motorola, http://www.motorola.com/home/ -- 4. Transistor Manual, General Electric, http://www.ge.com/en/ -- 5. Rectifiers and Zener Diodes Data Book, Motorola, ISBN 9-9991969-7-7 -- 4. Standard Handbook of Electronic Engineering, ISBN 0-0713842-1-9 -- 5. Mathematics for Business, Science, and Technology, ISBN 978-1-934404-01-0 -- 6. Numerical Analysis Using MATLAB® and Excel, ISBN 978-1-934404-03-4 -- 7. Circuit Analysis I with MATLAB® Computing, and Simulink®/SimPowerSystems® Modeling ISBN 978-1-934404-17-1 -- 8. Circuit Analysis II with MATLAB® Computing, and Simulink®/SimPowerSystems® Modeling ISBN 978-1-934404-19-5 -- 9. Signals and systems with MATLAB® Computing and Simulink® Modeling, ISBN 978-1- 934404-23-2 -- 10. Digital Circuit Analysis and Design with Simulink Applications and Introduction to CPLDs and FPGAs, ISBN 978-1-934404-05-8 -- 11. Introduction to Simulink® with Engineering Applications, ISBN 978-1-934404-21-8 -- 12. Introduction to Stateflow® with Applications, ISBN 978-1-934404-07-2 -- C. The following publications by The MathWorks, are highly recommended for further study. They are available from The MathWorks, 3 Apple Hill Drive, Natick, MA, 01760, www.mathworks.com. -- 1. Getting Started with MATLAB® -- 2. Using MATLAB® -- 3. Using MATLAB® Graphics -- 4. Using Simulink® -- 5. Sim Power Systems for Use with Simulink® -- 6. Fixed-Point Toolbox -- 7. Simulink® Fixed-Point -- 8. Real-Time Workshop -- 9. Signal Processing Toolbox -- 10. Getting Started with Signal Processing Blockset -- 11. Signal Processing Blockset -- 12. Control System Toolbox -- 13. Stateflow®.

INDEX Electronics THIRD.