LTspice 시뮬레이션 기반 전력전자 회로해석
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1장 전력전자 기초
1.1 전력전자 기본 용어 ················································3
1.2 RLC 수동부품의 특성 ···········································44
1.3 시뮬레이션 기반 회로 해석 ··································74
2장 정현파 및 비정현파
2.1 정현파 ··································································86
2.2 비정현파 ·····························································104
2.3 비정현파 해석 및 응용 ·······································138
3장 전력 반도체 스위치
3.1 전력 반도체 스위치의 개요 ································162
3.2 전력 반도체 스위치의 특성 ································178
3.3 전력 반도체 스위치의 게이트 구동회로 ··············250
4장 선형 레귤레이터
4.1 선형 레귤레이터의 개요 ·····································268
4.2 선형 레귤레이터의 내부 회로 ·····························276
4.3 선형 레귤레이터의 규격 특성 ·····························292
4.4 선형 레귤레이터의 노이즈 특성 ··························308
4.5 선형 레귤레이터의 응용 ·····································316
5장 DC-DC 컨버터
5.1 DC-DC 컨버터의 개요 ·······································334
5.2 비절연형 스위칭 컨버터 ·····································340
5.3 절연형 스위칭 컨버터 ·········································404
6장 DC-AC 인버터
6.1 DC-AC 인버터의 개요 ·······································448
6.2 전압원 인버터(VSI) ············································464
6.3 전류원 인버터(CSI) ············································526
6.4 Z-소스 인버터(ZSI) ············································534
7장 공진형 컨버터
7.1 공진형 컨버터 개요 ············································550
7.2 공진형 컨버터의 동작 특성 ······························560
7.3 공진형 컨버터의 트랜스포머 ·······························586
7.4 위상천이 풀-브리지 컨버터 ································602
8장 역률 보정
8.1 PFC 개요 ···························································626
8.2 단상 PFC 유형별 동작 특성 ······························636
8.3 삼상 PFC의 구조 및 동작 특성 ·························664
8.4 PFC 설계 시 고려사항 및 응용 ·························672
9장 제어기 설계
9.1 제어기 개요 ·······················································686
9.2 제어기 유형과 보상 기법 ···································704
9.3 제어기의 PID 튜닝 기법 ····································720
9.4 제어기 적용 사례 ···············································736
10장 EMC 해석 및 대책
10.1 EMC 개요 ························································750
10.2 신호 스펙트럼 해석 ··········································764
10.3 스너버 회로의 해석 ··········································782
10.4 EMC 내성 대책 ···············································794
1.1 전력전자 기본 용어 ················································3
1.2 RLC 수동부품의 특성 ···········································44
1.3 시뮬레이션 기반 회로 해석 ··································74
2장 정현파 및 비정현파
2.1 정현파 ··································································86
2.2 비정현파 ·····························································104
2.3 비정현파 해석 및 응용 ·······································138
3장 전력 반도체 스위치
3.1 전력 반도체 스위치의 개요 ································162
3.2 전력 반도체 스위치의 특성 ································178
3.3 전력 반도체 스위치의 게이트 구동회로 ··············250
4장 선형 레귤레이터
4.1 선형 레귤레이터의 개요 ·····································268
4.2 선형 레귤레이터의 내부 회로 ·····························276
4.3 선형 레귤레이터의 규격 특성 ·····························292
4.4 선형 레귤레이터의 노이즈 특성 ··························308
4.5 선형 레귤레이터의 응용 ·····································316
5장 DC-DC 컨버터
5.1 DC-DC 컨버터의 개요 ·······································334
5.2 비절연형 스위칭 컨버터 ·····································340
5.3 절연형 스위칭 컨버터 ·········································404
6장 DC-AC 인버터
6.1 DC-AC 인버터의 개요 ·······································448
6.2 전압원 인버터(VSI) ············································464
6.3 전류원 인버터(CSI) ············································526
6.4 Z-소스 인버터(ZSI) ············································534
7장 공진형 컨버터
7.1 공진형 컨버터 개요 ············································550
7.2 공진형 컨버터의 동작 특성 ······························560
7.3 공진형 컨버터의 트랜스포머 ·······························586
7.4 위상천이 풀-브리지 컨버터 ································602
8장 역률 보정
8.1 PFC 개요 ···························································626
8.2 단상 PFC 유형별 동작 특성 ······························636
8.3 삼상 PFC의 구조 및 동작 특성 ·························664
8.4 PFC 설계 시 고려사항 및 응용 ·························672
9장 제어기 설계
9.1 제어기 개요 ·······················································686
9.2 제어기 유형과 보상 기법 ···································704
9.3 제어기의 PID 튜닝 기법 ····································720
9.4 제어기 적용 사례 ···············································736
10장 EMC 해석 및 대책
10.1 EMC 개요 ························································750
10.2 신호 스펙트럼 해석 ··········································764
10.3 스너버 회로의 해석 ··········································782
10.4 EMC 내성 대책 ···············································794
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