Power Conversion Circuits: DC Power Conversion Systems - 경북대학교 | KOCW 공개 강의

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Power Conversion Circuits: DC Power Conversion Systems

경북대학교
최병조

페이스북 트위터 카카오톡 네이버밴드 링크복사

주제분류

공학 >전기ㆍ전자 >전기전자공학
강의학기

2017년 1학기

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8,186
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강의계획서

This course covers the dynamic analysis and system design of dc power conversion systems which employ stages of cascaded/paralleled converters and line filters.

The course consists of three parts: 1) converter dynamics and control under ideal operational condition, 2) converter dynamics in dc power conversion system, and 3) line filter design and system performance. The three parts individually underscrore the modeling and analysis of functional components and collectively address the dynamics and design of complete power conversion systems.

차시별 강의

1.		Lecture 01: Introdution to dc power conversion systems - I	Lecture 01: Introdution to dc power conversion systems - I
2.		Lecture 02: Introdution to dc power conversion systems - Ⅱ	Lecture 02: Introdution to dc power conversion systems - Ⅱ
		Lecture 03: Introdution to dc power conversion systems - III	Lecture 03: Introdution to dc power conversion systems - III
3.		Lecture 04: PWM converter modeling and power stage dynamics - I	Lecture 04: PWM converter modeling and power stage dynamics - I
		Lecture 05: PWM converter modeling and power stage dynamics - II	Lecture 05: PWM converter modeling and power stage dynamics - II
4.		Lecture 06: PWM converter modeling and power stage dynamics - III	Lecture 06: PWM converter modeling and power stage dynamics - III
5.		Lecture 07: PWM converter modeling and power stage dynamics - IV	Lecture 07: PWM converter modeling and power stage dynamics - IV
		Lecture 08: Dynamic performance of PWM Dc-to-Dc Converters - I	Lecture 08: Dynamic performance of PWM Dc-to-Dc Converters - I
6.		Lecture 09: Dynamic performance of PWM Dc-to-Dc Converters - II	Lecture 09: Dynamic performance of PWM Dc-to-Dc Converters - II
		Lecture 10: Closed-Loop Performance and Feedback Compensation-I	Lecture 10: Closed-Loop Performance and Feedback Compensation-I
7.		Lecture 11: Closed-Loop Performance and Feedback Compensation-II	Lecture 11: Closed-Loop Performance and Feedback Compensation-II
8.		Lecture 12: Closed-Loop Performance and Feedback Compensation-III	Lecture 12: Closed-Loop Performance and Feedback Compensation-III
9.		Lecture 13: Closed-Loop Performance and Feedback Compensation-IV	Lecture 13: Closed-Loop Performance and Feedback Compensation-IV
		Lecture 14: Midterm Project	Lecture 14: Midterm Project
10.		Lecture 15: Current mode control-functional basics and classical analysis - I	Lecture 15: Current mode control-functional basics and classical analysis - I
		Lecture 16: Current mode control-functional basics and classical analysis - II	Lecture 16: Current mode control-functional basics and classical analysis - II
11.		Lecture 17: Current mode control-functional basics and classical analysis - III	Lecture 17: Current mode control-functional basics and classical analysis - III
		Lecture 18: Current mode control-sampling effects and new control design procedures - I	Lecture 18: Current mode control-sampling effects and new control design procedures - I
12.		Lecture 19: Current mode control-sampling effects and new control design procedures - II	Lecture 19: Current mode control-sampling effects and new control design procedures - II
13.		Lecture 20: Current mode control-sampling effects and new control design procedures - III`	Lecture 20: Current mode control-sampling effects and new control design procedures - III`
		Lecture 21: Current mode control-sampling effects and new control design procedures - IV	Lecture 21: Current mode control-sampling effects and new control design procedures - IV
14.		Lecture 22: Current mode control-sampling effects and new control design procedures - V	Lecture 22: Current mode control-sampling effects and new control design procedures - V
		Lecture 23: Uncoupled converter and extra element theorem-I	Lecture 23: Uncoupled converter and extra element theorem-I
15.		Lecture 24: Uncoupled converter and extra element theorem-II	Lecture 24: Uncoupled converter and extra element theorem-II
		Lecture 25: Final Term Project	Lecture 25: Final Term Project

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