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Comparison of the Matrix and DC-link Converter Topologies in a Hybrid Electric Vehicle
Technical Paper
2003-01-2309
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
Both the Matrix and the DC-link converters have qualities making each attractive in a Hybrid Electric Vehicle (HEV) application. This paper compares some of the advantages and disadvantages of each approach when used in a conceptual 13.6 Kg (15-ton), six-wheeled, combat HEV. This system consisting of a compact, 300 kW, 30 Krpm, permanent magnet synchronous generator, battery storage, and six, 42 kW, permanent magnet traction motors. Due to the confided space of the HEV, the key criterion in the motor drive selection process was determining which presented the minimum system volume. Our study compares the active components count, the size of the reactive components, and power routing topologies.
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Citation
Friends, R. and Kajs, J., "Comparison of the Matrix and DC-link Converter Topologies in a Hybrid Electric Vehicle," SAE Technical Paper 2003-01-2309, 2003, https://doi.org/10.4271/2003-01-2309.Also In
References
- Army Research Lab, Collaborative Technology Alliances
- Bernet S. Ponnaluri S. Teichmann R. Design and Loss Comparison of Matrix Converters and Voltage-Source Converters for Modern AC Drives IEEE Trans. on Industrial Electronics 49 2 April 2002 304 314
- Alesian A. Venturini M. Analysis and Design of Optimum-Amplitude Nine-Switch Direct AC-AC Converters IEEE Trans. Power Electronics 4 1 January 1989 101 112
- Klumpner C. Blaabjerg F. A New Cost-Effective Multi-Drive Solution based on a Two-Stage Direct Power Electronic Conversion Topology Proc. of IEEE IAS 2002 1 444 452
- Wheeler P. Rodriguex J. Clare J.C. Empringham L. Weistein A. Matrix Converter: A Technology Review IEEE Trans. on Industrial Electronics 49 2 April 2002 276 288
- Klumpner C. Nielsen P. Bolda I. New Solutions for a Low-Cost Power Electronic Building Block for Matrix Converter IEEE Trans. on Industrial Electronics 49 2 April 2002 336 344
- Bernet S. Ponnaluri S. Teichmann R. Design and Loss Comparison of Matrix Converters and Voltage-Source Converters for Modern AC Drives IEEE Trans. on Industrial Electronics 49 2 April 2002 304 314
- Klumpner C. Blaabjerg F. A Direct Power Electronic Conversion Topology for Multi-Drive Applications Proc. PEMC 2002 1 10
- Klumpner C. Nielsen P. Bolda I. Blaabjerg F. A New Matrix Converter-Motor (MCM) for Industry Applications Conf. Rec. IEEE Trans. Industrial Electronics 49 2 325 335
- Alak la M. Persson J.E. Vector Controlled AC/AC Converters with minimum energy storage IEE 5th International Conference on Power Electronics and Variable-Speed Drives October 1994 236 239
- Kim J.S. Sul S.K. New Control Scheme for AC-DC-AC Converter Without DC Link Electrolytic Capacitor IEEE Power Electronics Specialists Conference (PESC) 1993 300 306
- Hur N. Jung J. Nam K. Fast Dynamic DC-link Power Balancing Scheme for a PWM Converter-Inverter System IEEE 1999
- Malesani L. Rossetto L. Tenti P. AC/DC/AC PWM Converter with Reduced Energy Storage in the DC link IEEE Trans. on Industry Applications 31 2 March/April 1995
- Kretschmar K. Lee H-P An AC Converter with a Small DC Link Capacitor for a 15 KW Permanent Magnet Synchronous Integral Motor Proc. International conference on Power Electronics and Variable Speed Drives 1998 PEVD 622 625
- Clare J.C. Empringham L. Wheeler P. The Effects of Sampling Delays and Non-ideal Filtering on the Performance of Matrix Converter Modulation Algorithms IEE Power Electronics and Variable Speed Drives Conference Sept. 2000
- Casadei D. Serra G. Tani A. Theoretical and Experimental Analysis of SVM-controlled Matrix Converters Under Unbalanced Supply Conditions Trans. on Electromotion 4 1997 28 37