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Design and analyze electronic components and systems with the help of powerful software and effective skillsets. Balancing theory with practical exploration of the relevant software, you'll start solving power electronics problems like a pro. Using MATLAB®/Simulink®, you'll analyze the circuit in a laptop charger; interface with the power electronics converter controlling a washing machine's motor; turn on lamps with an electronic ballast; convert AC into DC power; and more! Power electronics are at the bedrock of all the wonderful devices simplifying our daily life. Designing them isn't just about understanding schematics. It also requires measuring twice and cutting once. In order to save time and money, a power electronics circuit must be simulated before construction. So you'll learn how to work with one of the most powerful simulation tools for this purpose. That way you'll know before you even go to make it whether the circuit works as expected. Learn to work with MATLAB®/Simulink® by directly applying and building the projects in this book. Or use it as a lab manual for power electronics and industrial electronics. Either way, using strong simulations and solid design theory, you'll be able to build power electronics that don't fail. You will: Simulate power electronics effectively before building them Select suitable semiconductor components for your circuit based on simulation waveforms Extract dynamic models of converters and design suitable controllers for them.

Power electronics --- Computer simulation. --- Electronics, Power --- Electric power --- Electronics --- Makerspaces. --- Maker. --- Hacker spaces --- Hackerspaces --- Hacklabs --- Maker spaces --- Cooperative societies --- Engineering laboratories

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This textbook provides a compact but comprehensive treatment that guides students through the analysis of circuits, using NI Multisim™ and MATLAB®. Ideal as a hands-on source for courses in Electric Circuits, Electronics, Digital Logic and Power Electronics this text focuses on solving problems using market-standard software, corresponding to all key concepts covered in the classroom. The author uses his extensive classroom experience to guide students toward deeper understanding of key concepts, while they gain facility with software they will need to master for later studies and practical use in their engineering careers. Serves as a hands-on complement to texts for Electric Circuits I/II, Electronics I/II, Digital Logic and Power Electronics; Covers both NI Multisim™ and MATLAB®; Filled with examples that students will see throughout the typical course, solved with market-standard software; Includes exercises for each chapter, to reinforce concepts and techniques introduced.

Spectrometric and optical chemical analysis --- Electronics --- Telecommunication technology --- Electrical engineering --- tekstverwerking --- elektronica --- elektrische circuits --- spectrometrie --- Electric circuits. --- Numerical analysis --- Computer programs.

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Power electronics --- Computer simulation. --- Electronics, Power --- Electric power --- Electronics