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درصورت عدم همخوانی توضیحات با کتاب
از ساعت 7 صبح تا 10 شب
ویرایش: 2
نویسندگان: O. N. Pandey
سری:
ISBN (شابک) : 9783030789947, 9789382127802
ناشر: Springer
سال نشر: 2022
تعداد صفحات: 469
زبان: English
فرمت فایل : PDF (درصورت درخواست کاربر به PDF، EPUB یا AZW3 تبدیل می شود)
حجم فایل: 7 مگابایت
در صورت تبدیل فایل کتاب Electronics Engineering به فرمت های PDF، EPUB، AZW3، MOBI و یا DJVU می توانید به پشتیبان اطلاع دهید تا فایل مورد نظر را تبدیل نمایند.
توجه داشته باشید کتاب مهندسی الکترونیک نسخه زبان اصلی می باشد و کتاب ترجمه شده به فارسی نمی باشد. وبسایت اینترنشنال لایبرری ارائه دهنده کتاب های زبان اصلی می باشد و هیچ گونه کتاب ترجمه شده یا نوشته شده به فارسی را ارائه نمی دهد.
Preface to Second Edition Preface to First Edition Contents About the Author 1 Basics of Electronics 1.1 Introduction 1.2 Electronic Charge and Current 1.3 Electronic Circuit Components 1.3.1 Resistors 1.3.2 Inductors 1.3.3 Capacitors 1.4 Voltage and Current Relationships 1.5 Work, Power and Energy 1.6 Si Units 1.7 Voltage and Current Sources 1.8 Semiconductor Materials 1.8.1 Intrinsic Semiconductors 1.8.2 Extrinsic Semiconductors 1.8.2.1 N-type Semiconductor 1.8.2.2 P-type of Semiconductor 1.9 P–N Junction and Depletion Layer 1.9.1 P–N Junction 1.9.2 Depletion Layer 1.9.3 Forward Biasing 1.9.4 Reverse Biasing 2 Semiconductor Diodes 2.1 Semiconductor Diode 2.2 V–I Characteristics 2.3 Ge, Si and GaAs Characteristics 2.4 Ideal and Practical V–I Characteristics 2.5 Diode Resistance 2.5.1 Forward Resistance 2.5.1.1 DC Forward Resistance or Static Resistance (RF) 2.5.1.2 AC Forward Resistance (rF) or Dynamic Resistance 2.5.1.3 Reverse Resistance (RR) 2.5.2 Transition and Diffusion Capacitance 2.5.3 Diode Equivalent Circuit 2.6 Diode Ratings 2.6.1 Repetitive Peak Current (Ipeak) 2.6.2 Average Current (Iav) 2.6.3 Peak Inverse Voltage (VR) 2.6.4 Steady-State Forward Current (IF) 2.6.5 Peak Forward Surge Current (IFS) 2.6.6 Static Maximum Voltage Drop (VFM) 2.6.7 Continuous Power Dissipation (P) 2.6.8 Reverse Recovery Time (trr) 2.7 P–N Junction (Diode) as Rectifiers 2.7.1 Half-Wave Rectifier 2.7.2 Full-Wave Rectifier 2.7.2.1 Center Tap Rectifier 2.7.2.2 Bridge Rectifier 2.8 Ripple Efficiency and Regulation 2.9 Efficiency of Full-Wave Rectifier 2.10 Filters for Rectifiers 2.11 Clipping Circuits 2.12 Clamping Circuits 2.13 Voltage Multipliers 2.13.1 Voltage Doubler 2.13.2 Half-Wave Voltage Doubler 2.13.3 Full-Wave Voltage Doubler 2.13.4 Voltage Trippler and Quadrupler 2.14 Zener Diodes 2.14.1 Zener Diode Functioning 2.14.2 Zener Resistance 2.14.3 Zener “ON” and “OFF” States 2.14.4 Zener Regulator 2.15 Temperature Coefficient 2.15.1 Zener Diode Ratings 2.16 Zener Diode Application as Shunt Regulator 2.17 Diodes for Optoelectronics 2.17.1 Light-Emitting Diodes (LEDs) 2.17.2 Photodiode 2.17.3 Optocoupler 2.18 Other Types of Diodes 2.18.1 Schottky Diode 2.18.2 Varactor 2.18.3 Varistor 3 Bipolar Junction Transistor (BJT) 3.1 Basic Construction 3.2 Transistor Action 3.2.1 Working of PNP Transistor 3.2.2 Working of NPN Transistor 3.3 Circuit Configurations 3.3.1 Common-Base (CB) Configuration 3.3.2 Common-Emitter (CE) Configuration 3.3.3 Common-Collector (CC) Configuration 3.4 Input/Output Characteristics 3.4.1 CB Characteristics 3.4.2 CE Characteristics 3.4.3 CC Characteristics 3.5 Mathematical Relationships 3.5.1 Relation Between β and α 3.5.2 Relation Between ICEO and ICBO 3.6 Biasing of Transistors 3.6.1 Fixed Bias 3.6.2 Emitter Bias 3.6.3 Voltage Divider Bias 3.6.3.1 Exact Analysis 3.6.3.2 Approximate Analysis 3.6.4 DC Bias with Voltage Feedback or Collector Bias 3.6.5 Comparison of Biasing Circuits 3.7 Graphical Analysis of CE Amplifier 3.8 Parameter Model 3.8.1 H-Parameter Model of CE Amplifier Configuration 3.8.1.1 Current Gain Ai 3.8.1.2 Input Resistance 3.8.1.3 Voltage Gain Av 3.8.1.4 Output Resistance 3.9 Hybrid Equivalent Circuit for Common Base (CB) 3.9.1 Configuration 3.10 Hybrid Equivalent Circuit for Common Collector (CC) 3.11 Overall Current Gain 3.12 Overall Voltage Gain 4 Field Effect Transistor (FET) 4.1 Introduction 4.2 Junction Field Effect Transistor (JFET) 4.3 Working Principle of JFET 4.4 Concept of Pinch-Off and Maximum Drain Saturation Current 4.5 Input and Transfer Characteristics 4.6 Parameters of JFET 4.7 JFET Biasing 4.7.1 Fixed-Biasing of JFET 4.7.2 Self-Biasing of JFET 4.7.3 Potential Divider Method of Biasing JFET 4.8 JFET Connections 4.8.1 Common Gate JFET Configuration 4.8.2 Common Source JFET Configuration 4.8.3 Common Drain JFET Configuration 4.9 Metal–Oxide Semiconductor Field Effect Transistor (MOSFET) 4.10 MOSFET Operation 4.10.1 Depletion Mode Operation 4.10.2 Enhancement Mode Operation 4.11 Characteristics of MOSFET 5 Operational Amplifier (Op-Amp) 5.1 Introduction 5.2 Op-Amp Integrated Circuit 5.3 Op-Amp Symbol 5.4 Concept of Ideal Op-Amp 5.5 Inverting Amplifier 5.6 Non-inverting Amplifier 5.7 Unity Gain or Voltage Follower Amplifier 5.8 Op-Amp as Adder or Summer 5.9 Op-Amp as Difference Amplifier 5.10 Subtractor 5.11 Differentiator 5.12 Integrator 5.13 Op-Amp Parameters 5.13.1 Input Offset Voltage 5.13.2 Input Offset Current 5.13.3 Bias Current 5.13.4 Slew Rate 5.13.5 Common-Mode Rejection Ratio (CMRR) 6 Switching Theory and Logic Design (STLD) 6.1 Introduction 6.2 Number System 6.2.1 Decimal System 6.2.2 Binary System 6.2.3 Octal System 6.2.4 Hexadecimal System 6.3 Conversion of Bases 6.3.1 Decimal to Binary 6.3.2 Binary to Decimal 6.3.3 Fractional Decimal Number to Binary 6.3.4 Fractional Binary to Decimal 6.3.5 Octal to Decimal 6.3.6 Decimal to Octal 6.3.7 Binary to Octal 6.3.8 Octal to Binary 6.3.9 Hexadecimal to Decimal 6.3.10 Decimal to Hexadecimal 6.3.11 Hexadecimal to Binary 6.3.12 Binary to Hexadecimal 6.3.13 Hexadecimal to Octal 6.4 Binary Coded Decimal (BCD) Numbers 6.5 Binary Addition 6.6 Binary Subtraction 6.7 Boolean Algebra 6.7.1 Basics 6.8 Boolean Algebra Theorems Table 6.9 Logic Gates And Universal Gates 6.10 Canonical Forms 6.11 K-map 6.12 Simplification of Boolean Expression Using K-map 6.13 Simplification in Sum of Product (Sop) Form 7 Electronics Instruments 7.1 Digital Voltmeters (DVMs) 7.1.1 Ramp-Type DVMs 7.1.2 Staircase-ramp DVMs 7.2 Digital Multimeters (DMMs) 7.3 Cathode Ray Oscilloscope (CRO) 7.4 Measurements Using CRO 7.4.1 Measurement of Voltage 7.4.2 Measurement of Current 7.4.3 Measurement of Phase Difference 7.4.4 Measurement of Frequency 8 PSPICE 8.1 SPICE 8.2 PSPICE 8.3 Circuit Design and Analysis Using PSPICE 8.4 Simulation and Analysis of Common Emitter Amplifier Using PSPICE Appendix A: Symbols, Abbreviations and Diagrammatic Symbols Appendix A: Symbols, Abbreviations and Diagrammatic Symbols Appendix B: Units and Conversion Factors Appendix C: Periodic Table of the Elements Appendix D: Conduction Properties of Common Metals Appendix E: Ripple Factor and Voltage Calculation E.1 Ripple Factor of Rectifier E.2 Ripple Voltage of Capacitor Filter Appendix F: Hybrid Parameters—Graphical Determinations and Conversion Equations (Exact and Approximate) F.1 Graphical Determination of the h-Parameters F.2 Exact Conversion Equations F.3 Approximate Conversion Equations Appendix G: Selected Transistor Appendix H: Hybrid-π Model Appendix I: Binary Multiplication, Binary Division and Negative Number I.1 Binary Multiplication I.2 Binary Division I.3 Binary Negative Numbers Outline placeholder I.3.1 Signed Magnitude I.3.2 Complement Number Systems Solved Section A Section B Section C Solved Section B Section C Unsolved Section A Section B Section C Unsolved Section A Section B Section C Unsolved Unsolved Unsolved Section A Section B Section C Unsolved Section A Section B Section C Unsolved Section-A Section B Section C Glossary of Electric Terms Index