Solved Problems for Transient Electrical Circuits (Lecture Notes in Electrical Engineering, 809)

Foreword
Preface
Contents
1 First Order Transients
	1.1 Introduction
	1.2 First Order Circuits
		1.2.1 RC Circuits
		1.2.2 RL Circuits
		1.2.3 Generic Differential Equation of a First Order Circuit
	1.3 Transient Response of First Order Circuits
		1.3.1 Natural Response
		1.3.2 Forced or Steady State Response
		1.3.3 Complete Response
		1.3.4 Initial Conditions
	1.4 Generalization of the Transient Response
	1.5 Procedure to Obtain the Response of a First Order Circuit
	1.6 Impulse Response
		1.6.1 Parallel Connection of Capacitors
		1.6.2 Series Connection of Inductors
	1.7 Solved Problems
	RC Under DC Supply
	RL Under DC Supply
	RC Without Excitation Sources
	RL Without Excitation Sources
	RL Under DC Supply
	RC Under DC Supply
	RL Under DC Supply
	RL Under DC Supply
	RC Under DC Supply
	RC Under DC Supply
	RL Under DC Supply
	RC Under DC and AC Supply
	RC. Capacitors in Parallel Under DC Supply
	RC. Capacitors in Series Under DC Supply
	RL. Inductors in Series Under DC Supply
	RL. Inductors in Parallel Under DC Supply
	RL. Concatenated Transients Under DC Supply
	RC. Concatenated Transients Without Excitation Sources
	Capacitors in Parallel. Impulse Response
	Capacitors in Parallel. Impulse Response
	RC. Impulse Response Under DC Supply
	Inductors in Series. Impulse Response
	RL. Impulse Response Under AC Supply
	RC. Thévenin Equivalent Under DC Supply
	RC. Thévenin Equivalent Under DC Supply
	RC. Infinite Time Constant Under AC Supply
	RC. Impulse Response, Concatenated Transients, Infinite Time Constant, DC Supply
	RL. Infinite Time Constant Under AC Supply
	RL. Infinite Time Constant Under DC Supply
	Obtaining the Differential Equation
	Obtaining the Differential Equation
2 Second Order Transients
	2.1 Second Order Circuits
		2.1.1 Series RLC Circuit
		2.1.2 Parallel RLC Circuit
		2.1.3 Generic Differential Equation of a Second Order Circuit
	2.2 Transient Response of Second Order Circuits
		2.2.1 Natural Response
		2.2.2 Forced or Steady State Response
		2.2.3 Complete Response
		2.2.4 Initial Conditions
	2.3 Procedure to Obtain the Response of a Second Order Circuit
	2.4 Solved Problems
	Series RLC. Calculation of Initial Conditions
	Series RLC Without Excitation Sources
	Parallel RLC Without Excitation Sources
	Overdamped Series RLC Under DC Supply
	Underdamped Series RLC Under DC Supply
	Overdamped Series RLC Under AC Supply
	Critically Damped Series RLC Under DC Supply
	Overdamped Parallel RLC Without Excitation Sources
	Critically Damped Parallel RLC Under AC Supply
	Overdamped Series RLC with Thévenin DC Equivalent
	RLC Without Damping and Without Excitation Sources
	Overdamped Series RLC Under AC Supply
	Underdamped Parallel RLC Under DC Supply
	Underdamped Parallel RLC Under DC Supply and impulse response
	Obtaining the Differential Equation
	Obtaining the Differential Equation
3 Laplace Transform Analysis
	3.1 Introduction
	3.2 Definition
	3.3 Main Properties and Theorems
	3.4 Laplace Transform Pairs
	3.5 Application to the Analysis of Electrical Circuits
		3.5.1 Introduction
		3.5.2 Voltage-Current Relationship in the s-Domain
		3.5.3 Impedance and Admittance
		3.5.4 Kirchhoff\'s Laws
		3.5.5 Methodology of Resolution
	3.6 Inverse Laplace Transform
		3.6.1 Inverse Laplace Transform Calculation Methodology
		3.6.2 Simple Real Poles, p1 neqp2 neq@汥瑀瑯步渠neqpm
		3.6.3 Multiple Real Pole
		3.6.4 Complex-Conjugated Pole
	3.7 Solved Problems
	First Order Circuit Under DC Supply
	First Order Circuit Under DC Supply
	First Order Circuit Under DC Supply
	First Order Circuit Under DC Supply
	First Order Circuit Under AC Supply
	First Order Circuit Under DC and AC Supply
	Overdamped Second Order Circuit Without Supply
	Underdamped Second Order Circuit Under AC Supply
	Overdamped Second Order Circuit Under AC Supply
	Overdamped Second Order Circuit Without Supply
	Capacitors in Parallel. Impulse Response
	First Order Under Circuit AC Supply
	First Order Circuit Under AC Supply
	First Order Circuit Under Dependent Source and DC Supply
	Magnetically Coupled Coils
	Magnetically Coupled Coils
	Second Order Circuit Under Impulse Supply
	Second Order Circuit Under Exponential Supply
	Impulse Response