전력변환시스템

건국대학교
조영훈

페이스북 트위터 카카오톡 네이버밴드 링크복사

주제분류

공학 >전기ㆍ전자 >전기공학
강의학기

2018년 1학기

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12,905
평점

3.5/5.0 (2)

강의계획서

In this course, the design of practical power conditioning systems will be covered. To do this, the concept of the converter models and control strategies are taught. Some steady-state converter modeling techiniques will be introduced, and ac equivalent models are derived. Associated with the models, converter controller are designed. Magnetic circuit theory is reviewed. Practical magnetic component design is also introduced for isolated converters. Finally, students will learn the design methodologies of practical power conditioning systems including energy storage systems, EV motor drives, energy harvesting systems, and so on.

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Introduction

차시별 강의

1.	Introduction	Introduction to power conversion systems / Introduction to PSIM
2.	인버터 기초	인버터 기초
3.	Power factor correction, Practice	Power Control, 능동정류모드, 전력제어관리
4.	Frequency-Domain Interpretation	Frequency-Domain Interpretation
5.	디지털제어기 구현, 적분기의 근사화, Low-pass filter의 구현	디지털제어기 구현, 적분기의 근사화, Low-pass filter의 구현
6.	Boost converter	Topology, Steady-state analysis, Boost converter, Output voltage control
7.	Modeling PWM Dc-to-Dc Converters	Modeling PWM Dc-to-Dc Converters
8.	Modeling PWM Dc-to-Dc Converters	Modeling PWM Dc-to-Dc Converters