Electronic Devices and Circuit Theory 11th Edition Boylestad Solutions Manual
Product details:
- ISBN-10 : 0132622262
- ISBN-13 : 978-0132622264
- Author: Robert L. Boylestad, Louis Nashelsky
Electronic Devices and Circuit Theory, Eleventh Edition, offers a complete, comprehensive survey, focusing on all the essentials you will need to succeed on the job. Setting the standard for nearly 30 years, this highly accurate text is supported by strong pedagogy and content that is ideal for new students of this rapidly changing field. The colorful layout with ample photographs and examples helps you better understand important topics. This text is an excellent reference work for anyone involved with electronic devices and other circuitry applications, such as electrical and technical engineers.
Table contents:
CHAPTER 1: Semiconductor Diodes 1.1 Introduction 1.2 Semiconductor Materials: Ge, Si, and GaAs 1.3 Covalent Bonding and Intrinsic Materials 1.4 Energy Levels 1.5 Extrinsic Materials: n-Type and p-Type 1.6 Semiconductor Diode 1.7 Ideal Versus Practical 1.8 Resistance Levels 1.9 Diode Equivalent Circuits 1.10 Transition and Diffusion Capacitance 1.11 Reverse Recovery Time 1.12 Diode Specification Sheets 1.13 Semiconductor Diode Notation 1.14 Diode Testing 1.15 Zener Diodes 1.16 Light-Emitting Diodes 1.17 Summary 1.18 Computer Analysis CHAPTER 2: Diode Applications 2.1 Introduction 2.2 Load-Line Analysis 2.3 Series Diode Configurations 2.4 Parallel and Series-Parallel Configurations 2.5 AND/OR Gates 2.6 Sinusoidal Inputs; Half-Wave Rectification 2.7 Full-Wave Rectification 2.8 Clippers 2.9 Clampers 2.10 Zener Diodes 2.11 Voltage-Multiplier Circuits 2.12 Practical Applications 2.13 Summary 2.14 Computer Analysis CHAPTER 3: Bipolar Junction Transistors 3.1 Introduction 3.2 Transistor Construction 3.3 Transistor Operation 3.4 Common-Base Configuration 3.5 Transistor Amplifying Action 3.6 Common-Emitter Configuration 3.7 Common-Collector Configuration 3.8 Limits of Operation 3.9 Transistor Specification Sheet 3.10 Transistor Testing 3.11 Transistor Casing and Terminal Identification 3.12 Summary 3.13 Computer Analysis CHAPTER 4: DC Biasing--BJTs 4.1 Introduction 4.2 Operating Point 4.3 Fixed-Bias Circuit 4.4 Emitter Bias 4.5 Voltage-Divider Bias 4.6 DC Bias with Voltage Feedback 4.7 Miscellaneous Bias Configurations 4.8 Design Operations 4.9 Transistor Switching Networks 4.10 Troubleshooting Techniques 4.11 pnp Transistors 4.12 Bias Stabilization 4.13 Practical Applications 4.14 Summary 4.15 Computer Analysis CHAPTER 5: BJT AC Analysis 5.1 Introduction 5.2 Application in the AC Domain 5.3 BJT Transistor Modeling 5.4 The re Transistor Model 5.5 The Hybrid Equivalent Model 5.6 Hybrid Model P 5.7 Variations of Transistor Parameters 5.8 Common-Emitter Fixed-Bias Configuration 5.9 Voltage-Divider Bias 5.10 Common-Emitter Emitter-Bias Configuration 5.11 Emitter-Follower Configuration 5.12 Common-Base Configuration 5.13 Collector Feedback Configuration 5.14 Collector DC Feedback Configuration 5.15 Determining the Current Gain 5.16 Effect of RL and Rs 5.17 Two-Port Systems Approach 5.18 Summary Tables 5.19 Cascaded Systems 5.20 Darlington Connection 5.21 Feedback Pair 5.22 Current Mirror Circuits 5.23 Current Source Circuits 5.24 Approximate Hybrid Equivalent Circuit 5.25 Complete Hybrid Equivalent Model 5.26 Troubleshooting 5.27 Practical Applications 5.28 Summary 5.29 Computer Analysis CHAPTER 6: Field-Effect Transistors 6.1 Introduction 6.2 Construction and Characteristics of JFETs 6.3 Transfer Characteristics 6.4 Specification Sheets (JFETs) 6.5 Instrumentation 6.6 Important Relationships 6.7 Depletion-Type MOSFET 6.8 Enhancement-Type MOSFET 6.9 MOSFET Handling 6.10 VMOS 6.11 CMOS 6.12 MESFETs 6.13 Summary Table 6.14 Summary 6.15 Computer Analysis CHAPTER 7: FET Biasing 7.1 Introduction 7.2 Fixed-Bias Configuration 7.3 Self-Bias Configuration 7.4 Voltage-Divider Biasing 7.5 Depletion-Type MOSFETs 7.6 Enhancement-Type MOSFETs 7.7 Summary Table 7.8 Combination Networks 7.9 Design 7.10 Troubleshooting 7.11 p-Channel FETs 7.12 Universal JFET Bias Curve 7.13 Practical Applications 7.14 Summary 7.15 Computer Analysis CHAPTER 8: FET Amplifiers 8.1 Introduction 8.2 FET Small-Signal Model 8.3 JFET Fixed-Bias Configuration 8.4 JFET Self-Bias Configuration 8.5 JFET Voltage-Divider Configuration 8.6 JFET Source-Follower (Common-Drain) Configuration 8.7 JFET Common-Gate Configuration 8.8 Depletion-Type MOSFETs 8.9 Enhancement-Type MOSFETs 8.10 E-MOSFET Drain-Feedback Configuration 8.11 E-MOSFET Voltage-Divider Configuration 8.12 Designing FET Amplifier Networks 8.13 Summary Table 8.14 Effect of RL and Rsig 8.15 Cascade Configuration 8.16 Troubleshooting 8.17 Practical Applications 8.18 Summary 8.19 Computer Analysis CHAPTER 9: BJT and JFET Frequency Response 9.1 Introduction 9.2 Logarithms 9.3 Decibels 9.4 General Frequency Considerations 9.5 Low-Frequency Analysis--Bode Plot 9.6 Low-Frequency Response--BJT Amplifier 9.7 Low-Frequency Response--FET Amplifier 9.8 Miller Effect Capacitance 9.9 High-Frequency Response--BJT Amplifier 9.10 High-Frequency Response--FET Amplifier 9.11 Multistage Frequency Effects 9.12 Square-Wave Testing 9.13 Summary 9.14 Computer Analysis CHAPTER 10: Operational Amplifiers 10.1 Introduction 10.2 Differential Amplifier Circuit 10.3 BiFET, BiMOS, and CMOS Differential Amplifier Circuits 10.4 Op-Amp Basics 10.5 Practical Op-Amp Circuits 10.6 Op-Amp Specifications--DC Offset Parameters 10.7 Op-Amp Specifications--Frequency Parameters 10.8 Op-Amp Unit Specifications 10.9 Differential and Common-Mode Operation 10.10 Summary 10.11 Computer Analysis CHAPTER 11: Op-Amp Applications 11.1 Constant-Gain Multiplier 11.2 Voltage Summing 11.3 Voltage Buffer 11.4 Controlled Sources 11.5 Instrumentation Circuits 11.6 Active Filters 11.7 Summary 11.8 Computer Analysis CHAPTER 12: Power Amplifiers 12.1 Introduction--Definitions and Amplifier Types 12.2 Series-Fed Class A Amplifier 12.3 Transformer-Coupled Class A Amplifier 12.4 Class B Amplifier Operation 12.5 Class B Amplifier Circuits 12.6 Amplifier Distortion 12.7 Power Transistor Heat Sinking 12.8 Class C and Class D Amplifiers 12.9 Summary 12.10 Computer Analysis CHAPTER 13: Linear-Digital ICs 13.1 Introduction 13.2 Comparator Unit Operation 13.3 Digital-Analog Converters 13.4 Timer IC Unit Operation 13.5 Voltage-Controlled Oscillator 13.6 Phase-Locked Loop 13.7 Interfacing Circuitry 13.8 Summary 13.9 Computer Analysis CHAPTER 14: Feedback and Oscillator Circuits 14.1 Feedback Concepts 14.2 Feedback Connection Types 14.3 Practical Feedback Circuits 14.4 Feedback Amplifier--Phase and Frequency Considerations 14.5 Oscillator Operation 14.6 Phase-Shift Oscillator 14.7 Wien Bridge Oscillator 14.8 Tuned Oscillator Circuit 14.9 Crystal Oscillator 14.10 Unijunction Oscillator 14.11 Summary 14.12 Computer Analysis CHAPTER 15: Power Supplies (Voltage Regulators) 15.1 Introduction 15.2 General Filter Considerations 15.3 Capacitor Filter 15.4 RC Filter 15.5 Discrete Transistor Voltage Regulation 15.6 IC Voltage Regulators 15.7 Practical Applications 15.8 Summary 15.9 Computer Analysis CHAPTER 16: Other Two-Terminal Devices 16.1 Introduction 16.2 Schottky Barrier (Hot-Carrier) Diodes 16.3 Varactor (Varicap) Diodes 16.4 Power Diodes 16.5 Tunnel Diodes 16.6 Photodiodes 16.7 Photoconductive Cells 16.8 IR Emitters 16.9 Liquid-Crystal Displays 16.10 Solar Cells 16.11 Thermistors 16.12 Summary CHAPTER 17: pnpn and Other Devices 17.1 Introduction pnpn Devices 17.2 Silicon-Controlled Rectifier 17.3 Basic Silicon-Controlled Rectifier Operation 17.4 SCR Characteristics and Ratings 17.5 SCR Construction and Terminal Identification 17.6 SCR Applications 17.7 Silicon-Controlled Switch 17.8 Gate Turn-Off Switch 17.9 Light-Activated SCR 17.10 Shockley Diode 17.11 Diac 17.12 Triac Other Devices 17.13 Unijunction Transistor 17.14 Phototransistors 17.15 Opto-Isolators 17.16 Programmable Unijunction Transistor 17.17 Summary Appendix A: Making the Chips That Run the World Appendix B: Hybrid Parameters--Graphical Determinations and Conversion Equations (Exact and Approximate) B.1 Graphical Determination of the h-Parameters B.2 Exact Conversion Equations B.3 Approximate Conversion Equations Appendix C: Ripple Factor and Voltage Calculations C.1 Ripple Factor of Rectifier C.2 Ripple Voltage of Capacitor Filter C.3 Relation of Vdc and Vm to Ripple r C.4 Relation of Vr (RMS) and Vm to Ripple r C.5 Relation Connecting Conduction Angle, Percentage Ripple, and IpeakIdc for Rectifier-Capacitor Filter Circuits Appendix D: Charts and Tables Appendix E: Solutions to Selected Odd-Numbered Problems
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