Principles and applications of electrical engineering /
Rizzoni, Giorgio,
Principles and applications of electrical engineering / Giorgio Rizzoni and James Kearns. - Sixth edition, International student edition. - xv, 1134 pages : illustrations ; 26 cm.
Includes index. "This International Student edition is for use outside the U.S."--Cover.
Machine generated contents note: ch. 1 Introduction to Electrical Engineering -- 1.1.Electrical Engineering -- 1.2.Electrical Engineering As A Foundation For The Design Of Mechatronic Systems -- 1.3.Fundamentals of Engineering Exam Review -- 1.4.Brief History of Electrical Engineering -- 1.5.System of Units -- 1.6.Special Features of This Book -- ch. 2 Fundamentals of Electric Circuits -- 2.1.Features of Networks and Circuits -- 2.2.Charge, Current, and Kirchhoff's Current Law -- 2.3.Voltage and Kirchhoff'S Voltage Law -- 2.4.Power and The Passive Sign Convention -- 2.5.I-V Characteristics and Sources -- 2.6.Resistance and Ohm's Law -- 2.7.Resistors in Series and Voltage Division -- 2.8.Resistors in Parallel and Current Division -- 2.9.Equivalent Resistance Between Two Nodes -- 2.10.Practical Voltage and Current Sources -- 2.11.Measurement Devices -- 2.12.The Source-Load Perspective -- ch. 3 Resistive Network Analysis -- 3.1.Network Analysis -- 3.2.The Node Voltage Method -- Note continued: 3.3.The Mesh Current Method -- 3.4.Node and Mesh Analysis with Dependent Sources -- 3.5.The Principle of Superposition -- 3.6.Equivalent Networks -- 3.7.Maximum Power Transfer -- 3.8.Non-Linear Circuit Elements -- ch. 4 AC Network Analysis -- 4.1.Capacitors and Inductors -- 4.2.Time-Dependent Sources -- 4.3.Circuits Containing Energy Storage Elements -- 4.4.Phasor Solution of Circuits with Sinusoidal Sources -- 4.5.Impedance -- 4.6.Ac Circuit Analysis -- ch. 5 Transient Analysis -- 5.1.Transient Analysis -- 5.2.Elements of Transient Problem Solving -- 5.3.First-Order Transient Analysis -- 5.4.Second-Order Transient Analysis -- ch. 6 Frequency Response and System Concepts -- 6.1.Sinusoidal Frequency Response -- 6.2.Fourier Analysis -- 6.3.Low- and High-Pass Filters -- 6.4.Bandpass Filters, Resonance, and Quality Factor -- 6.5.Bode Plots -- ch. 7 AC Power -- 7.1.Instantaneous and Average Power -- 7.2.Complex Power -- 7.3.Power Factor Correction -- 7.4.Transformers -- 7.5.Three-Phase Power -- 7.6.Residential Wiring; Grounding and Safety -- 7.7.Power Generation and Distribution -- ch. 8 Operational Amplifiers -- 8.1.Ideal Amplifiers -- 8.2.The Operational Amplifier -- 8.3.Active Filters -- 8.4.Integrators and Differentiators -- 8.5.Physical Limitations of Operational Amplifiers -- ch. 9 Semiconductors and Diodes -- 9.1.Electrical Conduction in Semiconductor Devices -- 9.2.The pn Junction and the Semiconductor Diode -- 9.3.Large-Signal Models for the Semiconductor Diode -- 9.4.Small-Signal Models For The Semiconductor Diode -- 9.5.Rectifier Circuits -- 9.6.Zener Diodes and Voltage Regulation -- 9.7.Signal Processing Applications -- 9.8.Photodiodes -- ch. 10 Bipolar Junction Transistors: Operation, Circuit Models, and Applications -- 10.1.Amplifiers and Switches -- 10.2.The Bipolar Junction Transistor (Bjt) -- 10.3.Bjt Large-Signal Model -- 10.4.A Brief Introduction to Small-Signal Amplification -- 10.5.Gates and Switches -- ch. 11 Field-effect Transistors: Operation, Circuit Models, and Applications -- 11.1.Field-Effect Transistor Classes -- 11.2.Enhancement-Mode Mosfets -- 11.3.Biasing Mosfet Circuits -- 11.4.Mosfet Large-Signal Amplifiers -- 11.5.CMOS Technology and Mosfet Switches -- ch. 12 Power Electronics -- 12.1.Power Electronic Devices and Circuits -- 12.2.Voltage Regulators -- 12.3.Power Amplifiers -- 12.4.Transistor Switches -- 12.5.Ac-Dc Converters -- 12.6.Electric Motor Drives -- ch. 13 Digital Logic Circuits -- 13.1.Analog and Digital Signals -- 13.2.The Binary Number System -- 13.3.Boolean Algebra and Logic Gates -- 13.4.Karnaugh Maps and Logic Design -- 13.5.Combinational Logic Modules -- ch. 14 Digital Systems -- 14.1.Latches and Flip-Flops -- 14.2.Digital Counters and Registers -- 14.3.Sequential Logic Design -- 14.4.Computer System Architecture -- 14.5.The Atmega328P Microcontroller -- 14.6.The ArduinolM Project -- 14.7.Conclusion -- ch. 15 Electronic Instrumentation and Measurements -- 15.1.Measurement Systems and Transducers -- 15.2.Wiring, Grounding, and Noise -- 15.3.Signal Conditioning -- 15.4.Analog-To-Digital and Digital-To-Analog Conversion -- 15.5.Comparator and Timing Circuits -- 15.6.Other Instrumentation Integrated Circuits -- ch. 16 Analog Communication Systems -- 16.1.Introduction To Communication Systems -- 16.2.Spectral Analysis -- 16.3.Amplitude Modulation and Demodulation -- 16.4.Frequency Modulation and Demodulation -- 16.5.Examples of Communication Systems -- ch. 17 Digital Communications -- 17.1.A Typical Digital Communications System -- 17.2.Introductory Probability -- 17.3.Pulse-Code Modulation -- 17.4.Source Coding -- 17.5.Digital Baseband Modulation -- 17.6.Channel Coding -- 17.7.Advanced Topics -- 17.8.Data Transmission In Digital Instruments -- ch. 18 Principles of Electromechanics -- 18.1.Electricity and Magnetism -- 18.2.Magnetic Circuits -- 18.3.Magnetic Materials and B-H Curves -- 18.4.Transformers -- 18.5.Electromechanical Energy Conversion -- ch. 19 Introduction to Electric Machines -- 19.1.Rotating Electric Machines -- 19.2.Direct-Current Machines -- 19.3.Direct-Current Motors -- 19.4.Direct-Current Generators -- 19.5.Alternating-Current Machines -- 19.6.The Alternator (Synchronous Generator) -- 19.7.The Synchronous Motor -- 19.8.The Induction Motor -- ch. 20 Special-Purpose Electric Machines -- 20.1.Brushless Dc Motors -- 20.2.Stepping Motors -- 20.3.Switched Reluctance Motors -- 20.4.Single-Phase Ac Motors -- 20.5.Motor Selection and Application.
Principles and Applications of Electrical Engineering provides a solid overview of the electrical engineering discipline that is especially geared toward the many non-electrical engineering students who take this course. The hallmark feature of the text is its liberal use of practical applications to illustrate important principles. The applications come from every field of engineering and feature exciting technologies such as Ohio State’s world-record setting electric car. The appeal to non-electrical engineering students is further heightened by special features, such as the book’s "Focus on Measurement" sections, "Focus on Methodology" sections, and "Make the Connection" sidebars.
9789814577410
2014017721
Electrical engineering.
TK146 / .R473 2016
621.3 RI.P 2016
Principles and applications of electrical engineering / Giorgio Rizzoni and James Kearns. - Sixth edition, International student edition. - xv, 1134 pages : illustrations ; 26 cm.
Includes index. "This International Student edition is for use outside the U.S."--Cover.
Machine generated contents note: ch. 1 Introduction to Electrical Engineering -- 1.1.Electrical Engineering -- 1.2.Electrical Engineering As A Foundation For The Design Of Mechatronic Systems -- 1.3.Fundamentals of Engineering Exam Review -- 1.4.Brief History of Electrical Engineering -- 1.5.System of Units -- 1.6.Special Features of This Book -- ch. 2 Fundamentals of Electric Circuits -- 2.1.Features of Networks and Circuits -- 2.2.Charge, Current, and Kirchhoff's Current Law -- 2.3.Voltage and Kirchhoff'S Voltage Law -- 2.4.Power and The Passive Sign Convention -- 2.5.I-V Characteristics and Sources -- 2.6.Resistance and Ohm's Law -- 2.7.Resistors in Series and Voltage Division -- 2.8.Resistors in Parallel and Current Division -- 2.9.Equivalent Resistance Between Two Nodes -- 2.10.Practical Voltage and Current Sources -- 2.11.Measurement Devices -- 2.12.The Source-Load Perspective -- ch. 3 Resistive Network Analysis -- 3.1.Network Analysis -- 3.2.The Node Voltage Method -- Note continued: 3.3.The Mesh Current Method -- 3.4.Node and Mesh Analysis with Dependent Sources -- 3.5.The Principle of Superposition -- 3.6.Equivalent Networks -- 3.7.Maximum Power Transfer -- 3.8.Non-Linear Circuit Elements -- ch. 4 AC Network Analysis -- 4.1.Capacitors and Inductors -- 4.2.Time-Dependent Sources -- 4.3.Circuits Containing Energy Storage Elements -- 4.4.Phasor Solution of Circuits with Sinusoidal Sources -- 4.5.Impedance -- 4.6.Ac Circuit Analysis -- ch. 5 Transient Analysis -- 5.1.Transient Analysis -- 5.2.Elements of Transient Problem Solving -- 5.3.First-Order Transient Analysis -- 5.4.Second-Order Transient Analysis -- ch. 6 Frequency Response and System Concepts -- 6.1.Sinusoidal Frequency Response -- 6.2.Fourier Analysis -- 6.3.Low- and High-Pass Filters -- 6.4.Bandpass Filters, Resonance, and Quality Factor -- 6.5.Bode Plots -- ch. 7 AC Power -- 7.1.Instantaneous and Average Power -- 7.2.Complex Power -- 7.3.Power Factor Correction -- 7.4.Transformers -- 7.5.Three-Phase Power -- 7.6.Residential Wiring; Grounding and Safety -- 7.7.Power Generation and Distribution -- ch. 8 Operational Amplifiers -- 8.1.Ideal Amplifiers -- 8.2.The Operational Amplifier -- 8.3.Active Filters -- 8.4.Integrators and Differentiators -- 8.5.Physical Limitations of Operational Amplifiers -- ch. 9 Semiconductors and Diodes -- 9.1.Electrical Conduction in Semiconductor Devices -- 9.2.The pn Junction and the Semiconductor Diode -- 9.3.Large-Signal Models for the Semiconductor Diode -- 9.4.Small-Signal Models For The Semiconductor Diode -- 9.5.Rectifier Circuits -- 9.6.Zener Diodes and Voltage Regulation -- 9.7.Signal Processing Applications -- 9.8.Photodiodes -- ch. 10 Bipolar Junction Transistors: Operation, Circuit Models, and Applications -- 10.1.Amplifiers and Switches -- 10.2.The Bipolar Junction Transistor (Bjt) -- 10.3.Bjt Large-Signal Model -- 10.4.A Brief Introduction to Small-Signal Amplification -- 10.5.Gates and Switches -- ch. 11 Field-effect Transistors: Operation, Circuit Models, and Applications -- 11.1.Field-Effect Transistor Classes -- 11.2.Enhancement-Mode Mosfets -- 11.3.Biasing Mosfet Circuits -- 11.4.Mosfet Large-Signal Amplifiers -- 11.5.CMOS Technology and Mosfet Switches -- ch. 12 Power Electronics -- 12.1.Power Electronic Devices and Circuits -- 12.2.Voltage Regulators -- 12.3.Power Amplifiers -- 12.4.Transistor Switches -- 12.5.Ac-Dc Converters -- 12.6.Electric Motor Drives -- ch. 13 Digital Logic Circuits -- 13.1.Analog and Digital Signals -- 13.2.The Binary Number System -- 13.3.Boolean Algebra and Logic Gates -- 13.4.Karnaugh Maps and Logic Design -- 13.5.Combinational Logic Modules -- ch. 14 Digital Systems -- 14.1.Latches and Flip-Flops -- 14.2.Digital Counters and Registers -- 14.3.Sequential Logic Design -- 14.4.Computer System Architecture -- 14.5.The Atmega328P Microcontroller -- 14.6.The ArduinolM Project -- 14.7.Conclusion -- ch. 15 Electronic Instrumentation and Measurements -- 15.1.Measurement Systems and Transducers -- 15.2.Wiring, Grounding, and Noise -- 15.3.Signal Conditioning -- 15.4.Analog-To-Digital and Digital-To-Analog Conversion -- 15.5.Comparator and Timing Circuits -- 15.6.Other Instrumentation Integrated Circuits -- ch. 16 Analog Communication Systems -- 16.1.Introduction To Communication Systems -- 16.2.Spectral Analysis -- 16.3.Amplitude Modulation and Demodulation -- 16.4.Frequency Modulation and Demodulation -- 16.5.Examples of Communication Systems -- ch. 17 Digital Communications -- 17.1.A Typical Digital Communications System -- 17.2.Introductory Probability -- 17.3.Pulse-Code Modulation -- 17.4.Source Coding -- 17.5.Digital Baseband Modulation -- 17.6.Channel Coding -- 17.7.Advanced Topics -- 17.8.Data Transmission In Digital Instruments -- ch. 18 Principles of Electromechanics -- 18.1.Electricity and Magnetism -- 18.2.Magnetic Circuits -- 18.3.Magnetic Materials and B-H Curves -- 18.4.Transformers -- 18.5.Electromechanical Energy Conversion -- ch. 19 Introduction to Electric Machines -- 19.1.Rotating Electric Machines -- 19.2.Direct-Current Machines -- 19.3.Direct-Current Motors -- 19.4.Direct-Current Generators -- 19.5.Alternating-Current Machines -- 19.6.The Alternator (Synchronous Generator) -- 19.7.The Synchronous Motor -- 19.8.The Induction Motor -- ch. 20 Special-Purpose Electric Machines -- 20.1.Brushless Dc Motors -- 20.2.Stepping Motors -- 20.3.Switched Reluctance Motors -- 20.4.Single-Phase Ac Motors -- 20.5.Motor Selection and Application.
Principles and Applications of Electrical Engineering provides a solid overview of the electrical engineering discipline that is especially geared toward the many non-electrical engineering students who take this course. The hallmark feature of the text is its liberal use of practical applications to illustrate important principles. The applications come from every field of engineering and feature exciting technologies such as Ohio State’s world-record setting electric car. The appeal to non-electrical engineering students is further heightened by special features, such as the book’s "Focus on Measurement" sections, "Focus on Methodology" sections, and "Make the Connection" sidebars.
9789814577410
2014017721
Electrical engineering.
TK146 / .R473 2016
621.3 RI.P 2016
