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동기 정류기를 이용한 클램프 모드 포워드 다중 공진형 컨버터
안강순,김희준 대한전자공학회 1997 電子工學會論文誌, S Vol.s34 No.2
The clamp mode (CM) forward zero voltage switching multi resonant converter (ZVS-MPC) with self-driven synchronous rectifier is studied. The loss at the synchronous rectification stage of the converter is analyzed using MOSFET piecewise linear model and is compared with the loss at the conventional schottky diode rectification stage of th econverter. From the results of the analysis, it is known that the use fo MOSFETs as a synchronous rectifier reduces the loss at the rectification stage overthe whole load range comparing the use of schottky diodes as a conventional rectifier in the converter. In order to verify the validit of the analysis, we have built a 33W(3.3V/10A) CM forward ZVS-MRC with self-driven synchronous rectifier, in which switching frequency is 1MHz, and tested. FRom the experimental results, it is known that the synchronous rectification achieved about 1W improvement in the loss at the rectification stage and about 3% in the efficiency at the converter as compared with the conventional schottky diode rectification.
동기 정류기를 이용한 클램프 모드 포워드 영전압 스위칭 다중 공진형 컨버터
안강순,김희준 漢陽大學校 工學技術硏究所 1996 工學技術論文集 Vol.5 No.1
The Clamp Mode(CM) Forward Zero Voltage Switching Multi Resonant Converter(ZVS-MRC) with self-driven synchronous rectifier is studied. The loss at the synchronous rectification stage of the converter is analyzed using MOSFET piecewise linear model and is compared with the loss at the conventional schottky diode rectification stage of the converter. From the results of the analysis, it is known that the use of MOSFETS as a synchronous rectifier reduces the loss at the rectification stage over the whole load range comparing the use of schottky diodes as a conventional rectifier in the converter. In order to verify the validity of the analysis, we have built a 33W(3.3V/10A) CM Forward ZVS-MRC with self-driven synchronous rectifier, in which switching frequency is 1MHz, and tested. From the experimental results, it is known that the synchronous rectification achieved about IW improvement in the loss at the rectification stage and about 3% in the efficiency at the converter as compared with the conventional schottky diode rectification.
핫스왑 기능을 가지는 에너지저장시스템용 모듈라 PCS 개발
안강순,이상택,오용승 한국융합학회 2018 한국융합학회논문지 Vol.9 No.3
에너지저장시스템(Energy Storage System)은 생산된 전력을 필요한 시기에 선택적으로 저장하고 사용함으로써 에너지 효율을 극대화 시키는 시스템이다. 따라서 언제든지 에너지를 충전하거나 공급할 수 있는 상태를 유지하여야 하며, 고장이나 유지보수 시에도 비운영 시간을 최소화하여야 한다. 하지만 현재 대용량 에너지저장시스템은 구조적 문제로 유지 보수 시 반드시 운영을 정지하여야 한다. 본 논문에서는 대용량 에너지저장시스템용 모듈라(Modular)를 병렬 구성하여 1MW급 에너지저장시스템용 PCS를 제작하고, 시스템에서 동작 상태를 유지하면서 시스템을 구성하는 요소들의 교체, 변경, 수리가 가능한 핫스왑(Hot Swap) 기술을 실험을 통해 검증하였다. Energy Storage System(ESS) is a system that maximizes energy efficiency by selectively storing and using the generated power when needed. Therefore, energy must be able to be charged or supplied at any time, and non-operating time should be minimized even in the case of failure or maintenance. However, current large-capacity energy storage systems must be shut down during maintenance due to structural problems. In this paper, we propose a PCS for 1MW ESS by configuring modular for large capacity ESS in parallel and verified of the hot swap technology that can replace, change, and repair the components that make up the system while keeping the system operating.