Introduction to modern power electronic
.MP4 | Video: 1280x720, 30 fps(r) | Audio: AAC, 44100 Hz, 2ch | 479 MB
Duration: 1 hours | Genre: eLearning | Language: English
Expand your Engineering Excellence. Create modern power electronics systems for our devices, transportation and energy.

What you'll learn

his course introduces the basic concepts of switched-mode converter circuits for controlling and converting electrical power with high efficiency. Principles of converter circuit analysis are introduced, and are developed for finding the steady state voltages, current, and efficiency of power converters. Assignments include simulation of a dc-dc converter, analysis of an inverting dc-dc converter, and modeling and efficiency analysis of an electric vehicle system and of a PV solar, wind turbine energy.

Requirements

You're going to learn how to analyze them and how to implement and how to control and how to simulate in MATLAB/SIMULINK program the power electronic circuit

Description

By 2030, 80% of all electrical energy will be processed by power electronics. Professional advantages continue to grow for technical engineers who understand the fundamental principles and technical requirements of modern power conversion systems. This specialization covers design-oriented analysis, modeling and simulation techniques leading to practical engineering of high-performance power electronics systems.

his course introduces the basic concepts of switched-mode converter circuits for controlling and converting electrical power with high efficiency. Principles of converter circuit analysis are introduced, and are developed for finding the steady state voltages, current, and efficiency of power converters. Assignments include simulation of a dc-dc converter, analysis of an inverting dc-dc converter, and modeling and efficiency analysis of an electric vehicle system and of a PV solar, wind turbine energy. After completing this course, you will:

● Understand what a switched-mode converter is and its basic operating principles

● Be able to solve for the steady-state voltages and currents of step-down, step-up, inverting, and other power converters

● Know how to derive an averaged equivalent circuit model and solve for the converter efficiency A basic understanding of electrical circuit analysis is an assumed prerequisite for this course.

Who this course is for:

beginning in power electronic
power electronic



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