Reduced Active Switch Front-End Multipulse Rectifier With Medium-Frequency Transformer Isolation

This paper presents a reduced switch count multipulse rectifier with medium-frequency (MF) transformer isolation. The proposed topology consists of a three-phase push–pull based ac to dc rectifier with a MF ac link employing two active switches. A three-phase, five-limb, multiwinding MF transformer is employed for isolation. The secondary side of the transformer is connected in a zig-zag configuration and is fed to two six-pulse diode rectifiers, achieving 12-pulse rectifier operation. The primary advantage of the proposed system is reduction in size/weight/volume compared to the conventional 60 Hz magnetic transformer isolation rectifier system. Operating the transformer at 600 Hz is shown to result in three times reduction in size. Furthermore, the proposed system employs only two active semiconductor switching devices operating under a simple pulse width modulation scheme. Also, the zig-zag transformer connection helps to balance leakage inductance on the secondary side. Detailed analysis, simulation, and experimental results on a 208Vl-l, 3.15 kW laboratory prototype are presented to validate the performance of the proposed approach.

[1]  Mahesh Swamy,et al.  Three, single-phase power factor correction (PFC) boost converters for use with three-phase, 3-wire variable frequency drive systems , 2015, 2015 IEEE Energy Conversion Congress and Exposition (ECCE).

[2]  Fred C. Lee,et al.  Implementation of single-phase boost power-factor-correction circuits in three-phase applications , 1997, IEEE Trans. Ind. Electron..

[3]  Mahesh M. Swamy An electronically isolated 12 pulse autotransformer rectification scheme to improve input power factor and lower harmonic distortion in variable frequency drives , 2014 .

[4]  A. von Jouanne,et al.  Polyphase transformer arrangements with reduced kVA capacities for harmonic current reduction in rectifier type utility interface , 1995 .

[5]  Subhashish Bhattacharya,et al.  Design considerations of high voltage and high frequency three phase transformer for Solid State Transformer application , 2010, 2010 IEEE Energy Conversion Congress and Exposition.

[6]  Prasad Enjeti,et al.  Analysis and design of electronic transformers for electric power distribution system , 1997 .

[7]  S. Hui,et al.  Characterization of single-stage three-phase power-factor-correction circuit using modular single-phase PWM DC-to-DC converters , 2000 .

[8]  Jeehoon Jung,et al.  The High-Efficiency Isolated AC–DC Converter Using the Three-Phase Interleaved LLC Resonant Converter Employing the Y-Connected Rectifier , 2014, IEEE Transactions on Power Electronics.

[9]  Leonard L. Grigsby,et al.  Uncontrolled and Controlled Rectifiers , 2012 .

[10]  R. A. Hanna,et al.  Medium voltage adjustable speed drives-users' and manufacturers' experiences , 1996, Proceedings of 1996 IAS Petroleum and Chemical Industry Technical Conference.

[11]  Prasad Enjeti,et al.  Analysis and design of electronic transformers for electric power distribution system , 1997, IAS '97. Conference Record of the 1997 IEEE Industry Applications Conference Thirty-Second IAS Annual Meeting.

[12]  Harish S. Krishnamoorthy,et al.  Simplified medium/high frequency transformer isolation approach for multi-pulse diode rectifier front-end adjustable speed drives , 2015, 2015 IEEE Applied Power Electronics Conference and Exposition (APEC).

[13]  Rolando Burgos,et al.  Review of Solid-State Transformer Technologies and Their Application in Power Distribution Systems , 2013, IEEE Journal of Emerging and Selected Topics in Power Electronics.

[14]  G. R. Kamath,et al.  A compact autotransformer based 12-pulse rectifier circuit , 2001, IECON'01. 27th Annual Conference of the IEEE Industrial Electronics Society (Cat. No.37243).

[15]  Mahesh Swamy,et al.  A Hybrid 18-Pulse Rectification Scheme for Diode Front-End Rectifiers With Large DC-Bus Capacitor , 2010, IEEE Transactions on Industry Applications.

[16]  Johann W. Kolar,et al.  Comparative evaluation of three-phase high-power-factor AC-DC converter concepts for application in future More Electric Aircraft , 2005, IEEE Transactions on Industrial Electronics.

[17]  Sewan Choi A three-phase unity-power-factor diode rectifier with active input current shaping , 2005, IEEE Trans. Ind. Electron..