Description
Switching strategies for power electronic converters course. For a young engineer starting to work on power electronics projects, starting to analyze and simulate power converters can be challenging because there are not many resources that deal with practical power converters in detail with respect to analysis and simulation. be This leads to a lot of frustration in the early stages, thereby making progress towards more advanced topics slow and difficult. This lack of interesting and interactive educational materials, in turn, prevents most electrical engineers from choosing power electronics as a specialty, which in turn leads to a shortage of engineering talent in the industry.
This course is a detailed and interactive course that goes into the depth of power converters alone without any reference to applications. Students will learn how to analyze power converters and their capabilities through logic and reasoning, and with visual tools such as circuit diagrams, switching tables, and vector diagrams. Switching strategies are introduced from the outset by treating them as puzzles, thereby providing students with the tools to formulate switching strategies for any converter they may encounter. This course has detailed simulations that students can simulate in parallel and analyze the results. The simulations cover all the details and also address some of the challenges that may be encountered while converting some switching strategies to a hardware implementation.
What you will learn in the Switching strategies for power electronic converters course
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Pulse Width Modulation (PWM) from the basics
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Getting to know the power converter
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Coordinating gate signals for converters with multiple power devices
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Development of PWM strategies as control code
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Simulation of power converters and PWM control code with Python
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Vector display of the output voltages of the power converter
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Spatial vector pulse width modulation (SVPWM) strategies.
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Implementation of SVPWM for two-level converters
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Performing frequency analysis using FFT with Python
This course is suitable for people who
- Master’s degree starting with power electronics
- Preparing senior students for industrial jobs
- Graduate students start with their projects
- Fresh forces in the electricity industry
Course specifications Switching strategies for power electronic converters
- Publisher: Udemy
- teacher: Shivkumar Iyer
- Training level: beginner to advanced
- Training duration: 32 hours and 26 minutes
- Number of courses: 104
Course headings Switching strategies for power electronic converters
Prerequisites of the Switching strategies for power electronic converters course
- Basic electrical engineering
- Basic power electronics
- Python programming
- Simulating circuits with Python Power Electronics
Course images
Sample video of the course
Installation guide
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Subtitle: None
Quality: 720p
download link
File(s) password: www.downloadly.ir
Size
12.3 GB
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