Abstract
The extended description function method is applied on the small-signal modeling of Series Resonant Dual Active Bridge DC-DC converter. The closed-loop control system is designed based on the small-signal model. The established model is controlled by switching frequency. Finally, the Simulink software in MATLAB is used to simulate the small-signal model. The experimental results show that the closed-loop control system has good dynamic and steady-state performances, which can prove that the small-signal model obtained by the extended description function method is accurate.
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References
Jain AK, Ayyanar R (2011) PWM control of dual active bridge: comprehensive analysis and experimental verification. IEEE Trans Power Electron 26(4):1215–1227
Hirose T, Matsuo H (2010) A consideration of bidirectional superposed dual active bridge DC-DC converter. In: 2nd IEEE international symposium on power electronics for distributed generation systems, pp 39–46. Hefei, China
Zhao B, Song Q, Liu W (2013) Efficiency characterization and optimization of isolated bidirectional DC-DC converter based on dual-phase-shift control for DC distribution application. IEEE Trans Power Electron 28(4):1711–1727
Agamy MS, Dong D, Garces LJ, Zhang Y, Dame ME, Wu X (2017) A high power medium voltage resonant dual active bridge for MVDC ship power networks. IEEE J Emerg Sel Top Power Electron 5(1):88–99
Wu K, de Silva CW, Dunford WG (2011) Stability analysis of isolated bidirectional dual active full-bridge DC-DC converter with triple phase-shift control. In: 8th IEEE international conference on power electronics and ECCE Asia, pp 364–371. IEEE, Jeju, Korea (South)
Wang Z, Dong C, Hou K, Gao P (2018) Time domain model of full bridge LLC circuit and its analysis. Autom Electr Power Syst 42(20):138–143
Chen Q, Wang J, Ji Y (2014) Power electronic transformer based on LLC resonant converter. Autom Electr Power Syst 41(3):41–46
Zhou L, Jiang J (2016) Analysis and control of dual active bridge DC-DC converter based on LCL resonant network. Autom Electr Power Syst 40(19):82–86
Bifaretti S, Zanchetta P, Watson A (2014) Power electronic traction transformer-medium voltage prototype. IEEE Trans Ind Electron 61(7):3257–3268
Yin R, Jiang D, Tang W (2016) Modular isolated DC-DC converter based grid-connection scheme for offshore DC windfarm. Autom Electr Power Syst 40(17):190–196
Kramer S (2010) Predictive current controlled 5 kW single-phase bidirectional inverter with wide inductance variation for DC-microgrid applications. IEEE Trans Power Electron 25(12):3076–3084
Tan NML, Abe T, Akagi H (2012) Design and performance of a bidirectional isolated DC-DC converter for a battery energy storage system. IEEE Trans Power Electron 27(3):1237–1248
Bai H, Nie Z, Mi C (2010) Experimental comparison of traditional phase-shift, dual phase-shift, and model-based control of isolated bidirectional DC-DC converters. IEEE Trans Power Electron 25(6):1444–1449
Shu L, Chen W, Wang C (2018) Power electronic transformer based on mixed-frequency modulation. Autom Electr Power Syst 42(7):146–152
Liu J, Zhang J, Zheng TQ, Yang J (2017) A modified gain model and the corresponding design method for an LLC resonant converter. IEEE Trans Power Electron 32(9):6716–6727
Li J, Ruan X (2013) Hybrid control strategy of full bridge LLC converters. Trans China Electron Tech Soc 28(4):72–79
Yang EX, Lee FC, Jovanovic MM (1992) Small-signal modeling of series and parallel resonant converters. In: 7th IEEE annual applied power electronics conference and exposition, pp 785–792. IEEE, San Diego, CA, USA
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Hou, K., Liu, Y., Wang, Z., Zhu, L., Yang, J. (2020). Small-Signal Modeling of Series Resonant Dual Active Bridge DC-DC Converter. In: Xue, Y., Zheng, Y., Rahman, S. (eds) Proceedings of PURPLE MOUNTAIN FORUM 2019-International Forum on Smart Grid Protection and Control. PMF PMF 2019 2021. Lecture Notes in Electrical Engineering, vol 584. Springer, Singapore. https://doi.org/10.1007/978-981-13-9779-0_46
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DOI: https://doi.org/10.1007/978-981-13-9779-0_46
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