Power Electronics and Drives or Master of Engineering in Power Electronics and Drives is a postgraduate Power Electronics course. The power electronics design suite provides easy-to-use tools for electrical, thermal, electromagnetic, electromechanical, circuit, control and system design. The course helps to provide an up-to-date. Learn speed control of induction motor drives in an energy efficient manner using power electronics. Learn the basic operation of stepper motors and switched-reluctance motor drives. Learn about the energy efficiency of electric drives and inverter-motor interactions. If you have completed course 1 'Electricity and Electronics' and course 2 'Digital Electronics' you have the background you need as we will be using those skills in this course to drive different kinds of electric motors. All courses have captions for the hearing impaired. First Course on Power Electronics and Drives by Ned Mohan Goodreads helps you keep track of books you want to read. Start by marking 'First Course on Power Electronics and Drives' as Want to Read.
Course Learning Objectives
- Get an overview of the power systems and its changing landscape.
- Learn about the sources of energy and the environmental consequences.
- Learn and review the fundamental principles in electric circuit theory that are essential in learning about power system networks.
- Learn and review the fundamental principals in magnetic theory that are essential in learning about power system apparatus.
- Learn about transformers and the role they play in power systems.
- Learn about synchronous generators and the role they play in power systems.
- Learn about ac transmission lines and cable systems.
- Learn about HVDC systems.
- Learn about the characteristics of various power system loads and the power quality issues.
- Learn how to calculate power flow in a power systems network.
- Learn about voltage stability and reactive power control in power systems.
- Learn about rotor-angle transient stability.
- Learn about control of interconnected power system and economic dispatch.
- Learn about currents in a faulted power system and protection using relays and circuit breakers.
- Learn about over-voltages due to lightening and switching surges, protection using surge arresters and the insulation coordination
Course Videos
Course Slides
Lab
Power Systems Lab Manual (1.72 MB PDF)
Simulation Files (Google Drive Link)
Software video instructions (Click here)
Transient Analysis Files (Google Drive Link)
Power Systems
Textbook
Author: Mohan
Crack vocalign pro 4 windows. ISBN: 1118074793 9781118074794
Publisher: Wiley
A bidirectional DC/DC converter for automotive applications. (Image by David Perreault.)
Instructor(s)
Prof. David Perreault
MIT Course Number
6.334
As Taught In
Spring 2007
Level
Graduate
Some Description | |
Instructor(s) | Prof. |
As Taught In | Spring 2002 |
Course Number | 2.24 |
Level | Undergraduate/Graduate |
Features | Kushiyagide eko ninnindale. Lecture Notes, Student Work |
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Course Description
Course Features
Course Description
6.334 examines the application of electronics to energy conversion and control. Topics covered include: modeling, analysis, and control techniques; design of power circuits including inverters, rectifiers, and DC-DC converters; analysis and design of magnetic components and filters; and characteristics of power semiconductor devices. Numerous application examples will be presented such as motion control systems, power supplies, and radio-frequency power amplifiers. The course is worth 6 engineering design points.
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Archived versions:
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Course Collections
First Course On Power Electronics And Drives External
See related courses in the following collections:
First Course On Power Electronics And Drives Ned Mohan Pdf
Course Videos
Course Slides
Lab
Power Systems Lab Manual (1.72 MB PDF)
Simulation Files (Google Drive Link)
Software video instructions (Click here)
Transient Analysis Files (Google Drive Link)
Power Systems
Textbook
Author: Mohan
Crack vocalign pro 4 windows. ISBN: 1118074793 9781118074794
Publisher: Wiley
A bidirectional DC/DC converter for automotive applications. (Image by David Perreault.)
Instructor(s)
Prof. David Perreault
MIT Course Number
6.334
As Taught In
Spring 2007
Level
Graduate
Some Description | |
Instructor(s) | Prof. |
As Taught In | Spring 2002 |
Course Number | 2.24 |
Level | Undergraduate/Graduate |
Features | Kushiyagide eko ninnindale. Lecture Notes, Student Work |
Welcome!
This is one of over 2,200 courses on OCW. Find materials for this course in the pages linked along the left.
MIT OpenCourseWare is a free & open publication of material from thousands of MIT courses, covering the entire MIT curriculum.
No enrollment or registration. Freely browse and use OCW materials at your own pace. There's no signup, and no start or end dates.
Knowledge is your reward. Use OCW to guide your own life-long learning, or to teach others. We don't offer credit or certification for using OCW.
Made for sharing. Download files for later. Send to friends and colleagues. Modify, remix, and reuse (just remember to cite OCW as the source.)
Learn more at Get Started with MIT OpenCourseWare
Course Description
Course Features
Course Description
6.334 examines the application of electronics to energy conversion and control. Topics covered include: modeling, analysis, and control techniques; design of power circuits including inverters, rectifiers, and DC-DC converters; analysis and design of magnetic components and filters; and characteristics of power semiconductor devices. Numerous application examples will be presented such as motion control systems, power supplies, and radio-frequency power amplifiers. The course is worth 6 engineering design points.
Other Versions
Other OCW Versions
Archived versions:
Related Content
Course Collections
First Course On Power Electronics And Drives External
See related courses in the following collections:
First Course On Power Electronics And Drives Ned Mohan Pdf
First Course On Power Electronics And Drives Pdf
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