Rashid M. SPICE and LTspice for Power Electronics and Electric Power 4ed 2025

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Rashid M. SPICE and LTspice for Power Electronics and Electric Power 4ed 2025

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Textbook in PDF format Power electronics can be a difficult course for students to understand and for professional professors to teach, simplifying the process for both. LTspice for power electronics and electrical power edition illustrates methods of integrating industry-standard LTspice software for design verification and as a theoretical laboratory bench. Helpful LTspice software and Program Files Available for Download. Based on the author Muhammad H. Rashid’s considerable experience merging design content and SPICE into a power electronics course, this vastly improved and updated edition focuses on helping readers integrate the LTspice simulator with a minimum amount of time and effort. Giving users a better understanding of the operation of a power electronic circuit, the author explores the transient behavior of current and voltage waveforms for every circuit element at every stage. The book also includes examples of common types of power converters as well as circuits with linear and nonlinear inductors. Power electronics is normally offered as a technical elective. It is an application-oriented and interdisciplinary course that requires a background in mathematics, electrical circuits, control systems, analog and digital electronics, microprocessors, electric power, and electrical machines. The understanding of the operation of a power electronics circuit requires a clear knowledge of the transient behavior of current and voltage waveforms for each circuit element at every instant of time. These features make power electronics a difficult course for students to understand and for professors to teach. A laboratory helps in understanding power electronics and its control interfacing circuits. Development of a power electronics laboratory is expensive compared to other courses in electronics or electric power (EE) curriculum. However, power electronics is playing a key role in industrial power control. The LTspice software, which is available free to students and professionals, is ideal for classroom use and for assignments requiring computer-aided simulation and analysis. Without any additional resources and lecture time, LTspice can also be integrated into power electronics. The graphical postprocessor in LTspice is very useful in plotting the results of the simulation. Especially with the capability of arithmetic operation, it can be used to plot impedance, power, and so on. Once the students gain experience in simulating on LTspice, they really appreciate the advantages of the graphical postprocessor. New in this edition: Changes to run on OrCAD SPICE, or LTspice IV or higher Students' learning outcomes (SLOs) listed at the start of each chapter Abstracts of chapters List the input side and output side performance parameters of the converters The characteristics of power semiconductors—diodes, BJTs, MOSFETs, and IGBTs Generating PWM and sinusoidal PWM gating signals Evaluating the power efficiency of converters Monte Carlo analysis of converters Worst-case analysis of converters Nonlinear transformer model Evaluate user-defined electrical quantities (.MEASURE) This book demonstrates techniques for executing power conversion and ensuring the quality of output waveform rather than the accurate modeling of power semiconductor devices. This approach benefits students, enabling them to compare classroom results obtained with simple switch models of devices. Introduction Circuit Descriptions Defining Output Variables Voltage and Current Sources Passive Elements Dot Commands Diode Rectifiers DC–DC Converters Pulse Width-Modulated Inverters Resonant-Pulse Inverters Controlled Rectifiers AC Voltage Controllers Control Applications Characteristics of Electrical Motors Simulation Errors, Convergence Problems, and Other Difficulties Index