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Introduction to Power Semiconductor Switches

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Introduction to Power Semiconductor Switches

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Gain insight into a topic and learn the fundamentals.
Intermediate level

Recommended experience

1 week to complete
at 10 hours a week
Flexible schedule
Learn at your own pace
Gain insight into a topic and learn the fundamentals.
Intermediate level

Recommended experience

1 week to complete
at 10 hours a week
Flexible schedule
Learn at your own pace

What you'll learn

  • Basic understanding of semiconductor power switches

    Modeling and simulation of semiconductor power switches

Details to know

Shareable certificate

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Assessments

13 assignments

Taught in English
Build toward a degree

There are 4 modules in this course

This course can also be taken for academic credit as ECEA 5721, part of CU Boulder’s Master of Science in Electrical Engineering.

This course is primarily aimed at first year graduate students interested in engineering or science, along with professionals with an interest in power electronics and semiconductor devices . It is the first course in the "Semiconductor Power Device" specialization that focusses on diodes, MOSFETs, IGBT but also covers legacy devices (BJTs, Thyristors and TRIACS) as well as state-of-the-art devices such as silicon carbide (SiC) Schottky diodes and MOSFETs as well as Gallium Nitride (GaN) HEMTs. The specialization provides an overview of devices, the physics background needed to understand the device operation, the construction of a device circuit model from a physical device model and a description of the device fabrication technology including packaging. This first course provides an introduction to semiconductor power switches, including a classification based on power switch properties, a description of key power switches, an overview of device data sheets, and the identification of on-state and power losses of diodes and MOSFET individually and in a power convertor circuit. It provides the link between power converter applications and individual devices, through analysis and simulation and prepares learners for the in-depth device analysis of the other courses in the specialization.

This module explains 1) the need for power conversion using a grid-connected solar system with storage and an electric vehicle as examples, 2) lists common power conversion circuits and their device requirements, and 3) provides an overview of different power device characteristics.

What's included

4 videos7 readings3 assignments

4 videosβ€’Total 26 minutes
  • Welcome to "Introduction to power switches"β€’6 minutes
  • M1.1 Need for power conversionβ€’7 minutes
  • M1.2 Power conversion circuitsβ€’7 minutes
  • M1.3 Power device characteristics and classificationβ€’6 minutes
7 readingsβ€’Total 56 minutes
  • Course Updates and Accessibility Supportβ€’1 minute
  • Non-Credit Students: Welcome and Where to Find Helpβ€’10 minutes
  • Course Syllabusβ€’10 minutes
  • M1.1 Electric power conversionβ€’10 minutes
  • M1.1 Lecture slidesβ€’10 minutes
  • M1.2 Lecture slidesβ€’10 minutes
  • M1.3 lecture slidesβ€’5 minutes
3 assignmentsβ€’Total 18 minutes
  • M1.1 Need for power conversionβ€’10 minutes
  • M1.2 Power conversion basicsβ€’8 minutes
  • M1.3 Power device classificationβ€’0 minutes

This module introduces key power switches: Diodes, MOSFETs and IGBTs as well as a brief introduction to other power devices including a first comparison.

What's included

4 videos9 readings5 assignments

4 videosβ€’Total 64 minutes
  • M2.1 Diodesβ€’14 minutes
  • M2.2 MOSFETsβ€’24 minutes
  • M2.3 IGBTsβ€’6 minutes
  • M2.4 Other devicesβ€’21 minutes
9 readingsβ€’Total 94 minutes
  • M2.1 Diodesβ€’10 minutes
  • M2.1 Lecture slidesβ€’10 minutes
  • M2.2 Power MOSFET descriptionβ€’10 minutes
  • M2.2 Lecture slidesβ€’15 minutes
  • M2.3 IGBT descriptionβ€’15 minutes
  • M2.3 Lecture slidesβ€’5 minutes
  • M2.4 Bipolar transistorsβ€’5 minutes
  • M2.4 High Electron Mobility Transistor (HEMT)β€’15 minutes
  • M2.4 Lecture slidesβ€’9 minutes
5 assignmentsβ€’Total 120 minutes
  • M2.1 Simulation of a diode using LTSPICEβ€’50 minutes
  • M2.2 MOSFET simulation (part 1)β€’30 minutes
  • M2.2 MOSFET simulation (part 2)β€’30 minutes
  • M2.3 IGBTsβ€’5 minutes
  • M2.4 Other devicesβ€’5 minutes

This module covers typical device data sheet characteristics including 1) DC nominal and maximum values, 2) Switching parameters and 3) Temperature dependence and maximum allowed temperatures

What's included

3 videos5 readings3 assignments

3 videosβ€’Total 20 minutes
  • M3.1 DC data sheet parametersβ€’6 minutes
  • M3.2 Switching parametersβ€’7 minutes
  • M3.3 Temperature dependenceβ€’7 minutes
5 readingsβ€’Total 41 minutes
  • M3.1 Discrete semiconductor distributor websitesβ€’10 minutes
  • M3.1 Device data sheet examplesβ€’15 minutes
  • M3.1 Lecture slidesβ€’6 minutes
  • M3.2 Lecture slidesβ€’5 minutes
  • M3.3 Lecture slidesβ€’5 minutes
3 assignmentsβ€’Total 50 minutes
  • M3.1 DC data sheet characteristicsβ€’5 minutes
  • M3.2 Switching parametersβ€’30 minutes
  • M3.3 Thermal resistance and junction temperatureβ€’15 minutes

This modules shows how to identify power dissipation in 1) individual diodes and MOSFETs and 2) in a boost convertor circuit containing both a diode and MOSFET

What's included

2 videos3 readings2 assignments

2 videosβ€’Total 24 minutes
  • M4.1 Power dissipation simulationβ€’9 minutes
  • M4.2 Boost convertor simulationβ€’15 minutes
3 readingsβ€’Total 34 minutes
  • M4.1 Lecture slidesβ€’4 minutes
  • M4.2 Boost converter tutorialβ€’15 minutes
  • M4.2 Lecture slidesβ€’15 minutes
2 assignmentsβ€’Total 50 minutes
  • M4.1 Device power dissipationβ€’20 minutes
  • M4.2 Boost convertor simulationβ€’30 minutes

Build toward a degree

This course is part of the following degree program(s) offered by University of Colorado Boulder. If you are admitted and enroll, your completed coursework may count toward your degree learning and your progress can transfer with you.ΒΉ

Instructor

University of Colorado Boulder
2 Coursesβ€’4,130 learners

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