|
|
|
| Input Ripple Current Active Mitigating for Two-Stage Single-Phase Inverter Based on Double Channel Current Feedback |
| Liu Bin1, He Jianjun1, Su Mei1, Sun Yao1, Wang Hui1, Tang Qingsong2 |
| 1. School of Information Science and Engineering Central South University Changsha 410083 China 2. Wuhan Powfuture Science & Technology Co., Ltd Wuhan 430205 China |
|
|
|
|
Abstract In the two-stage single-phase renewable energy inverter system, the current drawn from renewable energy sources tends to be pulsated and contains harmful low frequency ripple components. This paper analyses the power flow in two stage single-phase power system and the mechanism of ripple power and ripple current in the input. Based on Boost DC-DC convertor small signal mode, the equivalent circuit model of ripple current is studied. A novel active input ripple current mitigating technique based on double channel current feedback is proposed by modifying the conventional voltage and current double-loop control method. Finally, a DSP-base experimental platform is built up with the proposed control strategy, and the results are provided to verify its effectiveness.
|
|
Received: 19 September 2012
Published: 25 March 2014
|
|
|
|
|
|
[1] Dong Dong, Dushan Boroyevich, Ruxi Wang, et al. A two-stage high power density single-phase AC-DC bi-directional PWM converter for renewable energy Systems[C]. Energy Conversion Congress and Exposition, 2010: 3862-3869.
[2] Boroyevich D, Cvetkovic I, Dong Dong, et al. Future electronic power distribution systems-a contemplative view[C]. IEEE 12th International Conference on Optimization of Electrical and Electronic Equipment, 2010: 1-11.
[3] Hong Ju Jung, Keun Soo Ha, Byeong Mun Song, et al . Low frequency current reduction using a quasi-notch filter operated in two-stage DC-DC-AC grid- connected systems[C]. IEEE 2011 Energy Conversion Congress and Exposition, 2011: 2746-2750.
[4] Jih Sheng Lai. A high-performance V6 converter for fuel cell power conditioning system[C]. Vehicle Power and Propulsion[C]. 2005 IEEE Conference, 2005: 624-630.
[5] Choi W, Enjeti P N, Howze J W.Development of an equivalent circuit model of a fuel cell to evaluate the effects of inverter ripple current[C]. Proceedings of IEEE Applied Power Electronics Conference and Exposition, 2004(2): 355-361.
[6] Wang R, Wang F, Lai R, et al. Study of energy storage capacitor reduction for single phase PWM rectifier[C]. IEEE 2009 Applied Power Electronics Conference and Exposition, 2009:1177-1183.
[7] Novaes Y R, Barbi I. Low frequency ripple current elimination in fuel cell systems[C]. Proceedings of 2003 Fuel Seminar Special Session on Fuel Cell Power Conditioning, Miami, 2003: 21-27.
[8] Changrong Liu, Jih Sheng Lai. Low frequency current ripple reduction technique with active control in a fuel[J]. IEEE Transactions on Power Electronics, 2007, 22(4): 1429-1436.
[9] 欧阳长莲, DC-DC开关变换器的建模分析与研究[D], 南京航空航天大学, 2004.
Ouyang Changlian.Analysis&study on modeling of DC-DC switching converter[D]. Nanjing:Nanjing University of Aeronautics and Astronautics, 2004.
[10] Monti E, Santi F, Ponci D, et al. Fuel cell based domestic power supply-a student project[C]. Proceedings of IEEE Power Electronics Specialists Conference, Cairns, Australia, 2002(6): 315-320.
[11] Chrin P, Bunlaksananusorn C. Novel current feedforward average current mode control technique to improve output dynamic performance of DC-DC converters[C]. Power Electronics and Drive Systems, 2007 7th International Conference, Bangkok, 2007: 1416-1421.
[12] 梁晖, 石威威. 风力发电系统多重化升压斩波器瞬时电流控制[J]. 电工技术学报, 2012, 26(4): 86-92.
Liang Hui, Shi Weiwei. Study of Instantaneous Current Control for Multiple Boost Converter in Wind Energy Conversion System[J]. Transactions of China Electrotechnical Society, 2012, 26(4): 86-92. |
|
|
|
2013, Vol. 28 
