电路基础 英文版
作者:吴仕宏 编著
出版时间:2012年版
内容简介
《fundamentals of electric circuittheory(电路基础)英文版》内容简介:the book is designed for use as a textbook fora first course in circuit analysis or as a supplement to standardtexts and can be used by electrical engineering students as well asother engineering and technology students. emphasis is placed onthe basic laws, theorems, and problem-solving techniques which arecommon to most courses. the book begins with fundamental definitions, circuit elementsincluding dependent sources, circuit laws and theorems, andanalysis techniques such as node voltage and mesh current methods.these theorems and methods are initially applied to dc-resistivecircuits and then extended to rlc circuits by the use of impedanceand complex frequency. chapter 3, where the concept of complexfrequency is introduced, phasor analysis, sinusoidal steady state,power, power factor, and its correction.. series resonance, qualityfactor, ?q?, power, bandwidth, and selectivity of a series resonantcircuit, coupled circuits and transformers are thoroughly coveredin chapter 4. the characteristics of three-phase circuits, theanalysis of balanced loads and unbalanced loads, the calculationand measurement of power in three-phase circuits are mainlyintroduced in the last chapter. it can be used as a primary text or supplementary text. it isalso ideal for self-study and provides the technical staffs anduniversity teachers with references.
目录
chapter 1 basic concepts and laws of circuit analysis
1.1 introduction
1.2 the si system of units
1.3 prefixes
1.4 circuit diagrams
1.5 voltage and current
1.6 the unit of electrical charge: the coulomb
1.7 voltage
1.8 current
1.9 resistance
1.10 ohm's law, power, and energy
1.11 series circuits
1.12 parallel circuits
1.13 series-parallel circuits
chapter 2 analysis methods and theorem of networks chapter 1 basic concepts and laws of circuit analysis 1.1 introduction 1.2 the si system of units 1.3 prefixes 1.4 circuit diagrams 1.5 voltage and current 1.6 the unit of electrical charge: the coulomb 1.7 voltage 1.8 current 1.9 resistance 1.10 ohm's law, power, and energy 1.11 series circuits 1.12 parallel circuits 1.13 series-parallel circuits chapter 2 analysis methods and theorem of networks 2.1 ideal-current sources 2.2 source conversions 2.3 current sources in parallel and series 2.4 branch-current analysis 2.5 mesh (loop) analysis 2.6 nodal analysis 2.7 delta-wye (pi-tee) conversion 2.8 bridge networks 2.9 superposition theorem 2.10 thevenin's theorem 2.11 norton's theorem 2.12 maximum power transfer theorem 2.13 substitution theorem 2.14 millman's theorem 2.15 reciprocity theorem problems chapter 3 sinusoidal ac circuits 3.1 capacitors and capacitance 3.2 inductance and inductors 3.3 ac fundamentals 3.4 r, l?, and c? elements and the impedance 3.5 ac series-parallel circuits 3.6 methods of ac analysis 3.7 ac network theorems 3.8 power in ac circuits chapter 4 resonance and coupled circuit chapter 5 three-phase circuits