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Design of Power Electronic Converters

Design of Power Electronic Converters. Instructor: Prof. Shabari Nath, Department of Electronics and Electrical Engineering, IIT Guwahati. Undergraduate level courses on power electronics teach different power converter circuits and methods to analyze them. But all jobs related to power electronics need good knowledge of designing hardware. Proper hardware design in power electronics involves knowledge of several topics which are beyond the scope of a core course in power electronics. This course intends to fill this gap. In this course, students will learn the important concepts needed to design proper power electronic hardware, simulation tools, proper designing of power PCB, designing magnetics, reducing electromagnetic interference etc. By the end of course students should be able to design and test any power electronic converter on their own. (from nptel.ac.in)

Lecture 27 - Bootstrapping


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Lecture 01 - Introduction
Lecture 02 - Analysis of Buck Converter
Lecture 03 - Choosing L and C
Lecture 04 - Design Example of Buck Converter
Lecture 05 - Analysis of H Bridge
Lecture 06 - Bipolar PWM
Lecture 07 - Unipolar PWM
Lecture 08 - Bipolar vs Unipolar PWM
Lecture 09 - Different Types of Power Diode
Lecture 10 - Diode Characteristics
Lecture 11 - Diode Datasheets
Lecture 12 - Diode Datasheet Examples
Lecture 13 - MOSFET
Lecture 14 - Switching Characteristics of MOSFET
Lecture 15 - MOSFET Datasheets I
Lecture 16 - MOSFET Datasheets II
Lecture 17 - MOSFET Datasheet Example
Lecture 18 - IGBT
Lecture 19 - IGBT Datasheets I
Lecture 20 - IGBT Datasheets II
Lecture 21 - IGBT Datasheet Example
Lecture 22 - Introduction to Gate Drivers
Lecture 23 - Gate Driver Requirements
Lecture 24 - Optocouplers based Gate Drivers I
Lecture 25 - Optocouplers based Gate Drivers II
Lecture 26 - Desat Protection
Lecture 27 - Bootstrapping
Lecture 28 - Pulse Transformer based Gate Drivers
Lecture 29 - Gate Drivers - Few Other Requirements
Lecture 30 - Introduction to Snubbers
Lecture 31 - RC Snubber Analysis I
Lecture 32 - RC Snubber Analysis II: Underdamped Case
Lecture 33 - RC Snubber Analysis III: Overdamped and Critically Damped Cases
Lecture 34 - RC Snubber Design I
Lecture 35 - RC Snubber Design II
Lecture 36 - RCD Snubbers I
Lecture 37 - RCD Snubbers II
Lecture 38 - Power Loss I
Lecture 39 - Power Loss II
Lecture 40 - Thermal Modeling I
Lecture 41 - Thermal Modeling II
Lecture 42 - Thermal Modeling III
Lecture 43 - Choosing Heat Sinks
Lecture 44 - Magnetics Design: Fundamentals
Lecture 45 - Magnetic Losses
Lecture 46 - Conductors
Lecture 47 - Magnetic Materials
Lecture 48 - Magnetic Core
Lecture 49 - Inductor Design I
Lecture 50 - Inductor Design II
Lecture 51 - Transformer Design
Lecture 52 - Inductor Design Example
Lecture 53 - Example of Transformer Design
Lecture 54 - Introduction to EMI
Lecture 55 - EMI Measurements
Lecture 56 - EMI in Power Electronics
Lecture 57 - CM and DM Noise
Lecture 58 - Design Solutions of EMI
Lecture 59 - EMI Filter I
Lecture 60 - EMI Filter II
Lecture 61 - Sections of Power Converters
Lecture 62 - Capacitors
Lecture 63 - Familiarity with Components I
Lecture 64 - Familiarity with Components II
Lecture 65 - PCB I
Lecture 66 - PCB II
Lecture 67 - PCB III
Lecture 68 - Grounds
Lecture 69 - Lab Demo of Hardware Design
Lecture 70 - Tutorial: PCB Designing