최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기Journal of power electronics, v.20 no.3, 2020년, pp.645 - 656
Gu, Aiyu (Guangdong University of Technology) , Sun, Weijie (Guangdong University of Technology) , Zhang, Guidong (Guangdong University of Technology) , Chen, Sizhe (Guangdong University of Technology) , Wang, Yu (Guangdong University of Technology) , Yang, Ling (Guangdong University of Technology) , Zhang, Yun (Guangdong University of Technology)
This paper develops and analyses a boost-type push-pull converter with a reduced number of switches. The newly designed converter mainly consists of five diodes, two switches, two inductors, a transformer and two capacitors. By tuning the duty cycle and the transformer ratio, different voltage gains...
Thale, S.S., Wandhare, R.G., Agarwal, V.: A novel reconfigurable microgrid architecture with renewable energy sources and storage. IEEE Trans. Ind. Appl. 51(2), 1805-1816 (2014)
Verzijlbergh, R.A., De Vries, L.J., Lukszo, Z.: Renewable energy sources and responsive demand. Do we need congestion management in the distribution grid? IEEE Trans. Power Syst. 29(5), 2119-2128 (2014)
Bose, B.K.: Energy, environment, and advances in power electronics. In: ISIE'2000, Proceedings of the 2000 IEEE International Symposium on Industrial Electronics (Cat. No. 00TH8543), vol. 1. pp. TU1-T14. IEEE (2000)
Tseng, K.-C., Huang, C.-C.: High step-up high-efficiency interleaved converter with voltage multiplier module for renewable energy system. IEEE Trans. Ind. Electron. 61(3), 1311-1319 (2013)
Meneses, F., Blaabjerg, O.Garcia, Cobos, J.A.: Review and comparison of step-up transformerless topologies for photovoltaic ac-module application. IEEE Trans. Power Electron. 28(6), 2649-2663 (2012)
Li, W., He, X.: Review of nonisolated high-step-up dc/dc converters in photovoltaic grid-connected applications. IEEE Trans. Ind. Electron. 58(4), 1239-1250 (2010)
Chen, X., Xi, L., Zhang, Y., Ma, H., Huang, Y., Chen, Y.: Fractional techniques to characterize non-solid aluminum electrolytic capacitors for power electronic applications. Nonlinear Dyn. 98(4), 3125-3141 (2019)
Zhang, G., Li, Z., Zhang, B., Halang, W.A.: Power electronics converters: past, present and future. Renew. Sustain. Energy Rev. 81, 2028-2044 (2018)
Zhu, B., Ding, F., Vilathgamuwa, D.M.: Coat circuits for dc-dc converters to improve voltage conversion ratio. IEEE Trans. Power Electron. 35(4), 3679-3687 (2019)
Zhang, G., Wang, Z., Iu, H.H.-C., Chen, S.-Z., Ye, Y., Zhang, B., Zhang, Y.: Unique modular structure of multicell high-boost converters with reduced component currents. IEEE Trans. Power Electron. 33(9), 7795-7804 (2017)
Zhang, G., Wang, Z., Yu, S.S., Chen, S.-Z., Zhang, B., Iu, H.H.-C., Zhang, Y.: A generalized additional voltage pumping solution for high- step-up converters. IEEE Trans. Power Electron. 34(7), 6456-6467 (2018)
Arshadi, S.A., Poorali, B., Adib, E., Farzanehfard, H.: High step-up dc-ac inverter suitable for ac module applications. IEEE Trans. Ind. Electron. 63(2), 832-839 (2015)
Deng, Y., Rong, Q., Li, W., Zhao, Y., Shi, J., He, X.: Single-switch high step-up converters with built-in transformer voltage multiplier cell. IEEE Trans. Power Electron. 27(8), 3557-3567 (2012)
Liu, V.T., Zhang, L.J.: Design of high efficiency boost-forward-flyback converters with high voltage gain. In: 11th IEEE International Conference on Control and Automation (ICCA), pp. 1061-1066. IEEE (2014)
Chen, S.-M., Liang, T.-J., Yang, L.-S., Chen, J.-F.: A cascaded high step-up dc-dc converter with single switch for microsource applications. IEEE Trans. Power Electron. 26(4), 1146-1153 (2010)
Yu, D., Yang, J., Xu, R., Xia, Z., Iu, H.H.-C., Fernando, T.: A family of module-integrated high step-up converters with dual coupled inductors. IEEE Access 6, 16256-16266 (2018)
Kaliamoorthy, M., Sekar, R., Raj, I.G.C.: Solar powered single stage boost inverter with ann based mppt algorithm. In: 2010 International Conference On Communication Control And Computing Technologies, pp. 165-170. IEEE (2010)
Pan, C.-T., Lai, C.-M., Cheng, M.-C.: A novel high step-up ratio inverter for distributed energy resources (DERS). In: The 2010 International Power Electronics Conference-ECCE ASIA, pp. 1433-1437. IEEE (2010)
Dixon, R., Dementyev Yu, N., Mikhalchenko G, Y., Mikhalchenko SG, Y., Semenov, S.M.: dynamic properties of a two phase boost converter with soft switching transistors technology. Bull. Tomsk Polytech. Univ. 324(4), 96-101 (2014)
Waffler, S., Kolar, J.W.: A novel low-loss modulation strategy for high-power bidirectional buck + boost converters. IEEE Trans. Power Electron. 24(6), 1589-1599 (2009)
Osipov, A.V., Lopatin, A.A., Latypov, R.A., Shemolin, I.S.: Soft switching stacked-up boost push-pull converter. In: 2018 XIV International Scientific-Technical Conference on Actual Problems of Electronics Instrument Engineering (APEIE), pp. 148-151. IEEE (2018)
Corradini, L., Seltzer, D., Bloomquist, D., Zane, R., Maksimovic, D., Jacobson, B.: Minimum current operation of bidirectional dual-bridge series resonant dc/dc converters. IEEE Trans. Power Electron. 27(7), 3266-3276 (2011)
Osipov, A.V., Yaroslavtsev, E.V., Burkin, E.Y., Sviridov, V.V.: Boost type series resonant converter with flexible structure for power supplies. Bull. Tomsk Polytech. Univ. Geo Assets Eng. 329(2), 27-37 (2018)
Zhu, B., Zeng, Q., Chen, Y., Zhao, Y., Liu, S.: A dual-input high step-up dc/dc converter with zvt auxiliary circuit. IEEE Trans. Energy Convers. 34(1), 161-169 (2018)
*원문 PDF 파일 및 링크정보가 존재하지 않을 경우 KISTI DDS 시스템에서 제공하는 원문복사서비스를 사용할 수 있습니다.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.