University of Colorado Boulder - Converter Control
- Offered byCoursera
- Public/Government Institute
Converter Control at Coursera Overview
Duration | 19 hours |
Total fee | Free |
Mode of learning | Online |
Difficulty level | Intermediate |
Official Website | Explore Free Course  |
Credential | Certificate |
- Overview
- Highlights
- Course Details
- Curriculum
Converter Control at Coursera Highlights
- 11% got a tangible career benefit from this course.
- This Course Plus the Full Specialization.
- Shareable Certificates.
- Graded Programming Assignments.
Converter Control at Coursera Course details
- This course can also be taken for academic credit as ECEA 5702, part of CU Boulder?s Master of Science in Electrical Engineering degree.
- This course teaches how to design a feedback system to control a switching converter. The equivalent circuit models derived in the previous courses are extended to model small-signal ac variations. These models are then solved, to find the important transfer functions of the converter and its regulator system. Finally, the feedback loop is modeled, analyzed, and designed to meet requirements such as output regulation, bandwidth and transient response, and rejection of disturbances.
- Upon completion of this course, you will be able to design and analyze the feedback systems of switching regulators.
- This course assumes prior completion of courses Introduction to Power Electronics and Converter Circuits.
Converter Control at Coursera Curriculum
Ch 7: AC Equivalent Circuit Modeling
Sect 7.1 Introduction to AC Modeling
Sects 7.2.1-4 Averaged AC Modeling
*Sect 7.2.2 Discussion of Averaging
Sect 7.2.5 Perturbation and Linearization
Sects 7.2.6-8 Construction of Equivalent Circuit
Sect 7.6 Modeling the Pulse-Width Modulator
Sect 7.5 The Canonical Model
Sect7.3 State-Space Averaging
Homework 1 Materials
Homework Assignment 1: Chapter 7
Ch 8: Converter Transfer Functions - Part 1
8.0 Introduction to Design-Oriented Analysis
8.1 Review of Bode Diagrams: Pole
8.1.2 Other Basic Terms
8.1.5 Combinations
8.1.6 Second-order Response: Resonance
8.1.7 The Low-Q Approximation
8.1.8 Analytical Factoring of Higher-Order Polynomials
Homework 2 Materials
Homework Assignment 2: Ch. 8, Transfer Functions
Ch 8: Converter Transfer Functions - Part 2
8.2 Analysis of Converter Transfer Functions
8.2.2 Transfer Functions of Basic Converters
8.3.1 Graphical Construction of Impedances
8.3.3 Graphical Construction of Parallel and More Complex Impedances
8.3.5 Graphical Construction of Converter Transfer Functions
Homework 3 Materials
Homework Assignment 3: Construction of Transfer Functions
Ch 9: Controller Design
9.1-2 Introduction
9.3 Construction of Closed-loop Transfer Functions
9.4.1 Stability
9.4.2 Phase Margin vs. Closed-loop Q
9.5 Regulator Design
9.5.4 Design Example
Op-amp Compensator Design
9.5.5 Another Example: Point-of-Load Regulator
HW#4 Materials
Homework Assignment 4 (Part 1): Feedback
Homework Assignment 4 (Part 2): Closed-Loop Simulation
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