Abstract
To solve the voltage breakdown of double resonant pulse transformer and improve the output voltage, a design method of triple resonant pulse transformer is proposed in this chapter. The relationship between the voltage of the high voltage winding, as well as that of the load capacitance, and the parameters is achieved by theoretical analysis of a triple resonant pulse transformer. According to the theoretical analysis, a series of parameters are designed and a circuit is simulated. The simulation results agree well with the theoretical analysis, which demonstrate that the relationship got by theoretical analysis is correct. The maximum voltage of the high voltage winding is only 0.36 times of the maximum output voltage, which improves the output voltage of a transformer and effectively solves the breakdown problem of the high voltage winding. The theoretical and simulation results show that the triple resonant pulse transformer is transformed with higher output voltage ratio.
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References
Hu LS, Hu MQ (2009) Electrical motor. China Electric Power Press, Beijing
Feng CL, Ge BM, Bi DQ (2011) Identification of magnetizing inrush for three-phase V/V traction transformer. J China Railway Soc 33(6):35–40
Ma XG, Li C (2010) Analysis and Matlab simulation of 30-pulse rectification system based on stretch triangle transformer. In: Proceedings-International conference on electrical and control engineering, pp 3312–3315
Nam SH, Park SS, Heo H et al (2007) Design of a high voltage resonance pulse. In: Proceedings of the 16th IEEE international pulse power conference, pp 1327–1331
Zhang ZS, Cai MQ (2010) Design and principle of switch power supply. Electronic Industry Press, Beijing
Shao DJ, Yin XG, Zhang Z, Chen DS (2009) Dynamic simulation on differential protection of ultra-high voltage transformer. High Voltage Eng 35(2):225–230
Sarkar P, Braodwood SW, Smith IR et al (2005) A compact battery-powered 500KV pulse generator for UWB radiation. In: 15th IEEE international pulsed power conference, pp 1306–1309
Gamache Garet E, Sullivan Charles R (2011) Resonant converter transformer design and optimization. In: IEEE energy conversion congress and exposition: energy conversion innovation for a clean energy future, pp 590–597
Li MJ, Xu Z, Jin X (2008) Theoretic analysis and simulation of triple resonance pulse transformer. High Power Laser Particle Beams 20(11):15–17
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© 2014 Springer Science+Business Media New York
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Wei, M., Yang, F., Duan, Z., Wang, Y. (2014). A Resonant Transformer with High Output Voltage Ratio. In: Xing, S., Chen, S., Wei, Z., Xia, J. (eds) Unifying Electrical Engineering and Electronics Engineering. Lecture Notes in Electrical Engineering, vol 238. Springer, New York, NY. https://doi.org/10.1007/978-1-4614-4981-2_12
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DOI: https://doi.org/10.1007/978-1-4614-4981-2_12
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