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Abstrakty
In this survey paper, resonant and quasiresonant DC link inverters are reexamined for AC motor drive applications. Critical evaluation of representative topologies is based on simulation and waveform analysis to characterize current/voltage stress of components, control timing constraints and feasibility. A special concern over inverter common-mode voltage and voltage gradient du/dt limitation capacity is discussed for motor bearing and winding insulation safety. Experimental records of the laboratory developed parallel quasiresonant DC link inverter feeding induction motor confirm results of analysis. Comparative tables and simulation results demonstrate characteristic features of various schemes.
Rocznik
Tom
Strony
241--252
Opis fizyczny
Bibliogr. 29 poz., rys., tab., wykr.
Twórcy
autor
- Gdańsk University of Technology, Faculty of Electrical and Control Engineering, ul. Narutowicza 11/12, 80-233 Gdańsk, Poland
autor
- Gdańsk University of Technology, Faculty of Electrical and Control Engineering, ul. Narutowicza 11/12, 80-233 Gdańsk, Poland
Bibliografia
- [1] M.D. Bellar, T.S. Wu, A. Tchamdjou, J. Mahdavi, and M. Ehsani, “A review of soft-switched DC-AC converters,” IEEE Trans. Ind. Appl., 34 (4), 847–860 (1998).
- [2] B.K. Bose, “Need a Switch?,” IEEE Ind. Electron. Mag., 1 (4), 30–39 (2007).
- [3] S.J.V. Bright, S. Ramkumar, and H. Anand, “Positive output elementary Luo converter for fixed-frequency ZVS operation,” Bull. Pol. Ac.: Tech., 65 (2), 255–262 (2017).
- [4] A. Chub, J. Rabkowski, A. Blinov, and D. Vinnikov, “Study on power losses of the full soft-switching current-fed DC/DC converter with Si and GaN devices,” in IECON 2015 – 41st Annual Conference of the IEEE Industrial Electronics Society, 13–18 (2015).
- [5] R.W.D. Doncker and J.P. Lyons, “The auxiliary resonant commutated pole converter,” in Conference Record of the 1990 IEEE Industry Applications Society Annual Meeting, 1228–1235 (1990)
- [6] W. Yu, J.S. Lai, and S.Y. Park, “An Improved Zero-Voltage--Switching Inverter Using Two Coupled Magnetics In One Resonant Pole,” in 2009 Twenty-Fourth Annual IEEE Applied Power Electronics Conference and Exposition, 401–406 (2009).
- [7] S. Karyś, “Three-phase soft-switching inverter with coupled inductors, experimental results,” Bull. Pol. Ac.: Tech., 59 (4), 535–539 (2011).
- [8] S. Karyś, “Advanced control and design methods of the auxiliary resonant commutated pole inverter,” Bull. Pol. Ac.: Tech., 63 (2), 489–494 (2015).
- [9] D.M. Divan, “The resonant DC link converter-a new concept in static power conversion,” IEEE Trans. Ind. Appl., 25 (2), 317–325 (1989).
- [10] D.M. Divan and G. Skibinski, “Zero-switching-loss inverters for high-power applications,” IEEE Trans. Ind. Appl., 25 (4), 634–643 (1989).
- [11] J. Kedarisetti and P. Mutschler, “A Motor-Friendly Quasi-Resonant DC-Link Inverter With Lossless Variable Zero-Voltage Duration,” IEEE Trans. Power Electron., 27 (5), 2613–2622 (2012).
- [12] S. Chen and T.A. Lipo, “Bearing currents and shaft voltages of an induction motor under hard- and soft-switching inverter excitation,” IEEE Trans. Ind. Appl., 34 (5), 1042–1048 (1998).
- [13] S. Bhattacharya, L. Resta, D.M. Divan, and D.W. Novotny, “Experimental comparison of motor bearing currents with PWM hard and soft-switched voltage-source inverters,” IEEE Trans. Power Electron., 14 (3), 552–562 (1999).
- [14] N. He, Y. Li, C. Du, C. Liu, C. Hu, and D. Xu, “SiC MOSFET zero-voltage-switching SVM controlled three-phase grid inverter,” in 2016 IEEE Energy Conversion Congress and Exposition (ECCE), 1–8 (2016).
- [15] T.W. Ching, “Soft-switching Converters for Electric Vehicle Propulsion,” J. Asian Electr. Veh., 5 (2), 1019–1026 (2007).
- [16] C. Du, W.G. Hurley, and D. Xu, “Design Methodology of Resonant Inductor in a ZVS Inverter,” IEEE J. Emerg. Sel. Top. Power Electron., 3 (4), 1142–1150 (2015).
- [17] Z. Hong, R. Duke, and S.D. Round, “A Resonant DC Link Inverter for an Electric Vehicle,” J. Electr. Electron. Eng. Aust., 21 (1), 65–71 (2001).
- [18] R. Li and D. Xu, “A Zero-Voltage Switching Three-Phase Inverter,” IEEE Trans. Power Electron., 29 (3), 1200–1210 (2014).
- [19] C. Du, D. Xu, N. He, and N. Zhu, “Modeling and Optimization of a Zero-Voltage Switching Inverter for High Efficiency and Miniaturization,” IEEE Trans. Power Electron., 32 (1), 150–163 (2017).
- [20] M.R. Amini and H. Farzanehfard, “Three-Phase Soft-Switching Inverter With Minimum Components,” IEEE Trans. Ind. Electron., 58 (6), 2258–2264 (2011).
- [21] S. Chen and T.A. Lipo, “A novel soft-switched PWM inverter for AC motor drives,” IEEE Trans. Power Electron., 11 (4), 653–659 (1996).
- [22] S. Chen, B.J.C. Filho, and T.A. Lipo, “Design and implementation of a passively clamped quasi resonant DC link inverter,” in, Conference Record of the 1995 IEEE Industry Applications Conference, 1995. Thirtieth IAS Annual Meeting, IAS ’95, 2387–2392 (1995).
- [23] J.-W. Choi and S.-K. Sul, “Resonant link bidirectional power converter. I. Resonant circuit,” IEEE Trans. Power Electron., 10 (4), 479–484 (1995).
- [24] M. Turzynski, P.J. Chrzan, M. Kolincio, and S. Burkiewicz, “Quasi-resonant DC-link voltage inverter with enhanced zero-voltage switching control,” in 2017 19th European Conference on Power Electronics and Applications (2017).
- [25] S. Mandrek and P.J. Chrzan, “Quasi-Resonant DC-Link Inverter With a Reduced Number of Active Elements,” IEEE Trans. Ind. Electron., 54 (4), 2088–2094 (2007).
- [26] M. Turzyński, P. Banach, P. Murawski, R. Pepliński, and P.J. Chrzan, “A predictive estimation based control strategy for a quasi-resonant dc-link inverter,” Bull. Pol. Ac.: Tech., 61 (4), 757–762 (2014).
- [27] S. Mandrek and P.J. Chrzan, “Control strategies of the quasi-resonant DC-link inverter,” in 2008 13th International Power Electronics and Motion Control Conference, 144–147 (2008).
- [28] S. Pan and J. Pan, “A Novel Zero-Voltage Switching Resonant Pole Inverter,” in 2006 CES/IEEE 5th International Power Electronics and Motion Control Conference, 1–5 (2006).
- [29] S. Pan, J. Pan, and Z. Tian, “A Shifted SVPWM Method to Control DC-Link Resonant Inverters and Its FPGA Realization,” IEEE Trans. Ind. Electron., 59 (9), 3383–3391 (2012).
Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ced659d0-912f-4711-af11-94ead8f19a6e