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Electrical engineering : principles and applications

Author: Allan R Hambley
Publisher: Upper Saddle River, New Jersey : Pearson, [2014]
Edition/Format:   Print book : English : Sixth editionView all editions and formats
Summary:
Electrical Engineering: Principles and Applications, 6e helps students learn electrical-engineering fundamentals with minimal frustration. Its goals are to present basic concepts in a general setting, to show students how the principles of electrical engineering apply to specific problems in their own fields, and to enhance the overall learning process. Circuit analysis, digital systems, electronics, and  Read more...
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Genre/Form: Textbooks
Document Type: Book
All Authors / Contributors: Allan R Hambley
ISBN: 9780133116649 0133116646
OCLC Number: 826859555
Notes: Includes index.
Description: xviii, 882 pages : illustrations ; 27 cm
Contents: Machine generated contents note: 1. Introduction --
1.1. Overview of Electrical Engineering --
1.2. Circuits, Currents, and Voltages --
1.3. Power and Energy --
1.4. Kirchhoff's Current Law --
1.5. Kirchhoff's Voltage Law --
1.6. Introduction to Circuit Elements --
1.7. Introduction to Circuits --
Summary --
Problems --
2. Resistive Circuits --
2.1. Resistances in Series and Parallel --
2.2.Network Analysis by Using Series and Parallel Equivalents --
2.3. Voltage-Divider and Current-Divider Circuits --
2.4. Node-Voltage Analysis --
2.5. Mesh-Current Analysis --
2.6. Thevenin and Norton Equivalent Circuits --
2.7. Superposition Principle --
2.8. Wheatstone Bridge --
Summary --
Problems --
3. Inductance and Capacitance --
3.1. Capacitance --
3.2. Capacitances in Series and Parallel --
3.3. Physical Characteristics of Capacitors --
3.4. Inductance --
3.5. Inductances in Series and Parallel --
3.6. Practical Inductors --
3.7. Mutual Inductance --
3.8. Symbolic Integration and Differentiation Using MATLAB --
Summary --
Problems --
4. Transients --
4.1. First-Order RC Circuits --
4.2. DC Steady State --
4.3. RL Circuits --
4.4. RC and RL Circuits with General Sources --
4.5. Second-Order Circuits --
4.6. Transient Analysis Using the MATLAB Symbolic Toolbox --
Summary --
Problems --
5. Steady-State Sinusoidal Analysis --
5.1. Sinusoidal Currents and Voltages --
5.2. Phasors --
5.3.Complex Impedances --
5.4. Circuit Analysis with Phasors and Complex Impedances --
5.5. Power in AC Circuits --
5.6. Thevenin and Norton Equivalent Circuits --
5.7. Balanced Three-Phase Circuits --
5.8. AC Analysis Using MATLAB --
Summary --
Problems --
6. Frequency Response, Bode Plots, and Resonance --
6.1. Fourier Analysis, Filters, and Transfer Functions --
6.2. First-Order Lowpass Filters --
6.3. Decibels, the Cascade Connection, and Logarithmic Frequency Scales --
6.4. Bode Plots --
6.5. First-Order Highpass Filters --
6.6. Series Resonance --
6.7. Parallel Resonance --
6.8. Ideal and Second-Order Filters --
6.9. Transfer Functions and Bode Plots with MATLAB --
6.10. Digital Signal Processing --
Summary --
Problems --
7. Logic Circuits --
7.1. Basic Logic Circuit Concepts --
7.2. Representation of Numerical Data in Binary Form --
7.3.Combinatorial Logic Circuits --
7.4. Synthesis of Logic Circuits --
7.5. Minimization of Logic Circuits --
7.6. Sequential Logic Circuits --
Summary --
Problems --
8.Computers and Microcontrollers --
8.1.Computer Organization --
8.2. Memory Types --
8.3. Digital Process Control --
8.4. Programming Model for the HCS12/9S12 Family --
8.5. The Instruction Set and Addressing Modes for the CPU12 --
8.6. Assembly-Language Programming --
Summary --
Problems --
9.Computer-Based Instrumentation Systems --
9.1. Measurement Concepts and Sensors --
9.2. Signal Conditioning --
9.3. Analog-to-Digital Conversion --
9.4. LabVIEW --
Summary --
Problems --
10. Diodes --
10.1. Basic Diode Concepts --
10.2. Load-Line Analysis of Diode Circuits --
10.3. Zener-Diode Voltage-Regulator Circuits --
10.4. Ideal-Diode Model --
10.5. Piecewise-Linear Diode Models --
10.6. Rectifier Circuits --
10.7. Wave-Shaping Circuits --
10.8. Linear Small-Signal Equivalent Circuits --
Summary --
Problems --
11. Amplifiers: Specifications and External Characteristics --
11.1. Basic Amplifier Concepts --
11.2. Cascaded Amplifiers --
11.3. Power Supplies and Efficiency --
11.4. Additional Amplifier Models --
11.5. Importance of Amplifier Impedances in Various Applications --
11.6. Ideal Amplifiers --
11.7. Frequency Response --
11.8. Linear Waveform Distortion --
11.9. Pulse Response --
11.10. Transfer Characteristic and Nonlinear Distortion --
11.11. Differential Amplifiers --
11.12. Offset Voltage, Bias Current, and Offset Current --
Summary --
Problems --
12. Field-Effect Transistors --
12.1. NMOS and PMOS Transistors --
12.2. Load-Line Analysis of a Simple NMOS Amplifier --
12.3. Bias Circuits --
12.4. Small-Signal Equivalent Circuits --
12.5.Common-Source Amplifiers --
12.6. Source Followers --
12.7. CMOS Logic Gates --
Summary --
Problems --
13. Bipolar Junction Transistors --
13.1. Current and Voltage Relationships --
13.2.Common-Emitter Characteristics --
13.3. Load-Line Analysis of a Common-Emitter Amplifier --
13.4.pnp Bipolar Junction Transistors --
13.5. Large-Signal DC Circuit Models --
13.6. Large-Signal DC Analysis of BJT Circuits --
13.7. Small-Signal Equivalent Circuits --
13.8.Common-Emitter Amplifiers --
13.9. Emitter Followers --
Summary --
Problems --
14. Operational Amplifiers --
14.1. Ideal Operational Amplifiers --
14.2. Inverting Amplifiers --
14.3. Noninverting Amplifiers --
14.4. Design of Simple Amplifiers --
14.5. Op-Amp Imperfections in the Linear Range of Operation --
14.6. Nonlinear Limitations --
14.7. DC Imperfections --
14.8. Differential and Instrumentation Amplifiers --
14.9. Integrators and Differentiators --
14.10. Active Filters --
Summary --
Problems --
15. Magnetic Circuits and Transformers --
15.1. Magnetic Fields --
15.2. Magnetic Circuits --
15.3. Inductance and Mutual Inductance --
15.4. Magnetic Materials --
15.5. Ideal Transformers --
15.6. Real Transformers --
Summary --
Problems --
16. DC Machines --
16.1. Overview of Motors --
16.2. Principles of DC Machines --
16.3. Rotating DC Machines --
16.4. Shunt-Connected and Separately Excited DC Motors --
16.5. Series-Connected DC Motors --
16.6. Speed Control of DC Motors --
16.7. DC Generators --
Summary --
Problems --
17. AC Machines --
17.1. Three-Phase Induction Motors --
17.2. Equivalent-Circuit and Performance Calculations for Induction Motors --
17.3. Synchronous Machines --
17.4. Single-Phase Motors --
17.5. Stepper Motors and Brushless DC Motors --
Summary --
Problems --
APPENDICES --
A.Complex Numbers --
Summary --
Problems --
B. Nominal Values and the Color Code for Resistors --
C. The Fundamentals of Engineering Examination --
D. Answers for the Practice Tests --
E. On-Line Student Resources.
Responsibility: Allan R. Hambley.

Abstract:

Electrical Engineering: Principles and Applications, 6e helps students learn electrical-engineering fundamentals with minimal frustration. Its goals are to present basic concepts in a general setting, to show students how the principles of electrical engineering apply to specific problems in their own fields, and to enhance the overall learning process. Circuit analysis, digital systems, electronics, and electromechanics are covered. A wide variety of pedagogical features stimulate student interest and engender awareness of the material's relevance to their chosen profession. This edition is now available with MasteringEngineering, an innovative online program created to emulate the instructor's office--hour environment, guiding students through engineering concepts from Electrical Engineering with self-paced individualized coaching.

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   schema:description "Machine generated contents note: 1. Introduction -- 1.1. Overview of Electrical Engineering -- 1.2. Circuits, Currents, and Voltages -- 1.3. Power and Energy -- 1.4. Kirchhoff's Current Law -- 1.5. Kirchhoff's Voltage Law -- 1.6. Introduction to Circuit Elements -- 1.7. Introduction to Circuits -- Summary -- Problems -- 2. Resistive Circuits -- 2.1. Resistances in Series and Parallel -- 2.2.Network Analysis by Using Series and Parallel Equivalents -- 2.3. Voltage-Divider and Current-Divider Circuits -- 2.4. Node-Voltage Analysis -- 2.5. Mesh-Current Analysis -- 2.6. Thevenin and Norton Equivalent Circuits -- 2.7. Superposition Principle -- 2.8. Wheatstone Bridge -- Summary -- Problems -- 3. Inductance and Capacitance -- 3.1. Capacitance -- 3.2. Capacitances in Series and Parallel -- 3.3. Physical Characteristics of Capacitors -- 3.4. Inductance -- 3.5. Inductances in Series and Parallel -- 3.6. Practical Inductors -- 3.7. Mutual Inductance -- 3.8. Symbolic Integration and Differentiation Using MATLAB -- Summary -- Problems -- 4. Transients -- 4.1. First-Order RC Circuits -- 4.2. DC Steady State -- 4.3. RL Circuits -- 4.4. RC and RL Circuits with General Sources -- 4.5. Second-Order Circuits -- 4.6. Transient Analysis Using the MATLAB Symbolic Toolbox -- Summary -- Problems -- 5. Steady-State Sinusoidal Analysis -- 5.1. Sinusoidal Currents and Voltages -- 5.2. Phasors -- 5.3.Complex Impedances -- 5.4. Circuit Analysis with Phasors and Complex Impedances -- 5.5. Power in AC Circuits -- 5.6. Thevenin and Norton Equivalent Circuits -- 5.7. Balanced Three-Phase Circuits -- 5.8. AC Analysis Using MATLAB -- Summary -- Problems -- 6. Frequency Response, Bode Plots, and Resonance -- 6.1. Fourier Analysis, Filters, and Transfer Functions -- 6.2. First-Order Lowpass Filters -- 6.3. Decibels, the Cascade Connection, and Logarithmic Frequency Scales -- 6.4. Bode Plots -- 6.5. First-Order Highpass Filters -- 6.6. Series Resonance -- 6.7. Parallel Resonance -- 6.8. Ideal and Second-Order Filters -- 6.9. Transfer Functions and Bode Plots with MATLAB -- 6.10. Digital Signal Processing -- Summary -- Problems -- 7. Logic Circuits -- 7.1. Basic Logic Circuit Concepts -- 7.2. Representation of Numerical Data in Binary Form -- 7.3.Combinatorial Logic Circuits -- 7.4. Synthesis of Logic Circuits -- 7.5. Minimization of Logic Circuits -- 7.6. Sequential Logic Circuits -- Summary -- Problems -- 8.Computers and Microcontrollers -- 8.1.Computer Organization -- 8.2. Memory Types -- 8.3. Digital Process Control -- 8.4. Programming Model for the HCS12/9S12 Family -- 8.5. The Instruction Set and Addressing Modes for the CPU12 -- 8.6. Assembly-Language Programming -- Summary -- Problems -- 9.Computer-Based Instrumentation Systems -- 9.1. Measurement Concepts and Sensors -- 9.2. Signal Conditioning -- 9.3. Analog-to-Digital Conversion -- 9.4. LabVIEW -- Summary -- Problems -- 10. Diodes -- 10.1. Basic Diode Concepts -- 10.2. Load-Line Analysis of Diode Circuits -- 10.3. Zener-Diode Voltage-Regulator Circuits -- 10.4. Ideal-Diode Model -- 10.5. Piecewise-Linear Diode Models -- 10.6. Rectifier Circuits -- 10.7. Wave-Shaping Circuits -- 10.8. Linear Small-Signal Equivalent Circuits -- Summary -- Problems -- 11. Amplifiers: Specifications and External Characteristics -- 11.1. Basic Amplifier Concepts -- 11.2. Cascaded Amplifiers -- 11.3. Power Supplies and Efficiency -- 11.4. Additional Amplifier Models -- 11.5. Importance of Amplifier Impedances in Various Applications -- 11.6. Ideal Amplifiers -- 11.7. Frequency Response -- 11.8. Linear Waveform Distortion -- 11.9. Pulse Response -- 11.10. Transfer Characteristic and Nonlinear Distortion -- 11.11. Differential Amplifiers -- 11.12. Offset Voltage, Bias Current, and Offset Current -- Summary -- Problems -- 12. Field-Effect Transistors -- 12.1. NMOS and PMOS Transistors -- 12.2. Load-Line Analysis of a Simple NMOS Amplifier -- 12.3. Bias Circuits -- 12.4. Small-Signal Equivalent Circuits -- 12.5.Common-Source Amplifiers -- 12.6. Source Followers -- 12.7. CMOS Logic Gates -- Summary -- Problems -- 13. Bipolar Junction Transistors -- 13.1. Current and Voltage Relationships -- 13.2.Common-Emitter Characteristics -- 13.3. Load-Line Analysis of a Common-Emitter Amplifier -- 13.4.pnp Bipolar Junction Transistors -- 13.5. Large-Signal DC Circuit Models -- 13.6. Large-Signal DC Analysis of BJT Circuits -- 13.7. Small-Signal Equivalent Circuits -- 13.8.Common-Emitter Amplifiers -- 13.9. Emitter Followers -- Summary -- Problems -- 14. Operational Amplifiers -- 14.1. Ideal Operational Amplifiers -- 14.2. Inverting Amplifiers -- 14.3. Noninverting Amplifiers -- 14.4. Design of Simple Amplifiers -- 14.5. Op-Amp Imperfections in the Linear Range of Operation -- 14.6. Nonlinear Limitations -- 14.7. DC Imperfections -- 14.8. Differential and Instrumentation Amplifiers -- 14.9. Integrators and Differentiators -- 14.10. Active Filters -- Summary -- Problems -- 15. Magnetic Circuits and Transformers -- 15.1. Magnetic Fields -- 15.2. Magnetic Circuits -- 15.3. Inductance and Mutual Inductance -- 15.4. Magnetic Materials -- 15.5. Ideal Transformers -- 15.6. Real Transformers -- Summary -- Problems -- 16. DC Machines -- 16.1. Overview of Motors -- 16.2. Principles of DC Machines -- 16.3. Rotating DC Machines -- 16.4. Shunt-Connected and Separately Excited DC Motors -- 16.5. Series-Connected DC Motors -- 16.6. Speed Control of DC Motors -- 16.7. DC Generators -- Summary -- Problems -- 17. AC Machines -- 17.1. Three-Phase Induction Motors -- 17.2. Equivalent-Circuit and Performance Calculations for Induction Motors -- 17.3. Synchronous Machines -- 17.4. Single-Phase Motors -- 17.5. Stepper Motors and Brushless DC Motors -- Summary -- Problems -- APPENDICES -- A.Complex Numbers -- Summary -- Problems -- B. Nominal Values and the Color Code for Resistors -- C. 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