한국해양대학교

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대용량 추진전동기 구동시스템을 위한 H-브리지 멀티레벨 인버터 설계 및 해석

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dc.contributor.author 진선호 -
dc.date.accessioned 2017-02-22T05:58:02Z -
dc.date.available 2017-02-22T05:58:02Z -
dc.date.issued 2006 -
dc.date.submitted 56824-08-21 -
dc.identifier.uri http://kmou.dcollection.net/jsp/common/DcLoOrgPer.jsp?sItemId=000002174781 ko_KR
dc.identifier.uri http://repository.kmou.ac.kr/handle/2014.oak/8876 -
dc.description.abstract Recently, the industrial field has begun to demand higher power equipment, and the use of motors with several megawatt output level is increasing. Despite rapid development of power electronics technology, it is difficult to connect a single power switch device to medium voltage grids such as 3.3 or 6.6kV. For this reason, a series of multilevel inverters have been studied and developed for higher voltage and higher power applications since the 1970s. In multilevel inverters, each power device divides total DC bus voltage, so an increase of level permits an increase of DC bus voltage with a limited voltage stress on power semiconductors. Furthermore, multilevel inverters reduce dv/dt which could cause insulation failure of the motors electric winding. They also reduce common mode voltage which causes bearing current which could make motor mechanical failure. This thesis analyzes some properties and modulation strategies of multilevel inverters, and investigates the recent trends of research. It is focused on the cascaded H-bridge inverter which has been known to have many advantages compared to others. In general, H-bridge inverters utilize symmetric cell voltage structures like 7-level from 3-cells, or 9-level from 4-cells. They can achieve more output levels from asymmetric structures in the same output voltage RMS. The asymmetric H-bridge inverter gives us several advantages such as better harmonic properties, lower dv/dt, and common mode voltage without increasing important power electronic parts, weight, or equipment size. The characteristics of an asymmetric 11-level H-bridge inverter with 3-cell structures are investigated based on high-power propulsion motor system power converters. The system structure, output characteristics, and the load balance of each cell are analyzed. The computer simulation and experiment are implemented using a rate reduced inverter. Furthermore, a new space vector modulation strategy is proposed, which is very easy to understand and is fast to implement in modulation software. The proposed method does not need identification of the nearest three vectors and duty cycle calculation for each vector, which is essential to the conventional method. The proposed space vector modulation strategy is implemented with the CAN serial communication protocol. The stability and high communication speed of CAN made it possible to transfer the important data to the phase controller from the master controller at every 2kHz modulation cycle from a distance. This thesis describes that the proposed modulation strategy using CAN serial communication systems can be successfully applied to the space vector modulation purpose of a multi-level inverter. In conclusion, this thesis presents that the proposed asymmetric 11-level H-bridge inverter can be successfully applied to a propulsion motor system with good performance for high-power propulsion motor systems. Furthermore, it presents that the proposed modulation strategy can be successfully applied to the space vector modulation of the multilevel inverters using the CAN communication protocol. Several disadvantages on the proposed inverter topology were also identified such as the complex of input rectifier circuits and the unbalance of the frequency of the inverter cells, which need further studies for improvement. -
dc.description.tableofcontents 기호 목록 = ⅲ 약어 목록 = ⅴ Abstract = ⅶ 제 1장 서론 = 1 1.1 연구배경 = 1 1.2 연구동향 = 3 1.3 선박의 전기추진 = 6 1.4 연구 내용 및 구성 = 9 제 2장 멀티레벨 인버터 = 11 2.1 멀티레벨 인버터의 구조 및 특성 = 11 2.1.1 다이오드 클램프형 = 11 2.1.2 플라잉 커패시터형 = 15 2.1.3 캐스케이드 H-브리지형 = 18 2.1.4 H-브리지 인버터의 입력 정류회로 = 22 2.1.5 MLI의 새로운 토폴로지 = 24 2.2 멀티레벨 인버터의 변조 = 27 2.2.1 공간벡터 변조 = 28 2.2.2 멀티레벨 사인파 PWM = 35 2.2.3 선택적 고조파 제거법 = 37 제 3장 비대칭 H-브리지 11-레벨 인버터 = 41 3.1 전압레벨 및 dv/dt 특성 = 41 3.2 비대칭 H-브리지 11-레벨 인버터 = 44 3.2.1 구조 및 출력파형 = 44 3.2.2 입력정류회로 = 46 3.3 인버터 하드웨어 구성 = 48 3.3.1 시스템 구성 = 48 3.3.2 상별 집중제어 = 50 3.3.3 인버터 및 게이트 드라이브 = 52 3.4 셀 인버터 부하균형 = 54 제 4장 극전압 평균법을 이용한 공간벡터 변조 = 56 4.1 기본 가정 = 57 4.2 극전압 평균법을 이용한 SVPWM = 62 4.2.1 변조기법 = 62 4.2.2 벡터공간에서의 동작특성 = 63 4.2.3 기존 SVPWM과의 비교 = 68 4.3 MP 벡터를 이용한 SVC 변조 = 69 4.3.1 변조기법 = 69 4.3.2 기존 SVC 방법과의 비교 = 70 제 5장 시뮬레이션 = 72 5.1 SIMULINK 모델 = 72 5.2 제안한 SVPWM 특성 분석 = 77 5.3 고부하 조건 특성 = 86 5.4 SVC 변조 = 90 제 6장 실험 및 고찰 = 93 6.1 직렬통신을 이용한 SVPWM 구현 = 93 6.1.1 참조표 = 93 6.1.2 CAN 통신을 이용한 SVPWM = 96 6.2 원격제어 및 모니터링 = 100 6.3 실험결과 및 고찰 = 101 6.3.1 실험장치 구성 = 101 6.3.2 측정 결과 = 104 제 7장 결 론 = 112 참고문헌 = 114 부 록 = 120 -
dc.language kor -
dc.publisher 한국해양대학교 대학원 -
dc.title 대용량 추진전동기 구동시스템을 위한 H-브리지 멀티레벨 인버터 설계 및 해석 -
dc.title.alternative The Design and Analysis of the H-Bridge Multilevel Inverter for High-Power Propulsion Motor Systems -
dc.type Thesis -
dc.date.awarded 2006-08 -
dc.contributor.alternativeName Jin -
dc.contributor.alternativeName Sun-Ho -
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