210                                                                                           J. W. Dixon

               frequency excitation. This allows the generator to generate at  11. L. Mora Ân, E. Mora, R. Wallace, and J. Dixon, ‘‘Performance analysis
               different speeds around the synchronous rotating ¯ux.   of a power factor compensator which simultaneously eliminates line
                                                                       current harmonics,'' IEEE Power Electronics Specialists Conference,
               References                                              PESC'92, Toledo, Espan Äa, June 29 to July 3, 1992.
                1. G. Mo Èltgen, ‘‘Line Commutated Thyristor Converters,'' Siemens  12. P. D. Ziogas, L. Mora Ân, G. Joos, and D. Vincenti, ‘‘A re®ned PWM
                  Aktiengesellschaft, Berlin-Munich, Pitman Publishing, London, 1972.  scheme for voltage and current source converters,'' IEEE-IAS Annual
                2. G. Mo Èltgen, Converter Engineering, and Introduction to Operation and  Meeting, 1990, pp. 997–983.
                  Theory, John Wiley and Sons, New York, 1984.      13. W. McMurray, ‘‘Modulation of the chopping frequency in dc chop-
                3. K. Thorborg, Power Electronics, Prentice-Hall International Ltd., UK,  pers and PWM inverters having current hysteresis controllers,'' IEEE
                  1988.                                                Trans. Ind. Appl., IA-20:4 763–768 (1984).
                4. M. H. Rashid, Power Electronics, Circuits Devices and Applications,  14. J. W. Dixon and B. T. Ooi, ‘‘Indirect current control of a unity power
                  Prentice-Hall International Editions, Englewood Cliffs, NJ, 1993.  factor sinusoidal current boost type three-phase recti®er,'' IEEE
                5. N. Mohan, T. M. Undeland, and W. P. Robbins, Power Electronics:  Trans. on Industrial Electronics 35:4, 508–515 (1988).
                  Converters, Applications, and Design, John Wiley and Sons, New York,  15. L. Mora Ân, J. Dixon, and R. Wallace, ‘‘A three-phase active power ®lter
                  1989.                                                operating with ®xed switching frequency for reactive power and
                6. J. Arrillaga, D. A. Bradley, and P. S. Bodger, Power System Harmonics,  current harmonic compensation,'' IEEE Trans. Industrial Electronics
                  John Wiley and Sons, New York, 1989.                 42:4, 402–408 (1995).
                7. J. M. D. Murphy and F. G. Turnbull, Power Electronic Control of AC  16. M. A. Boost and P. Ziogas, ‘‘State-of-the-art PWM techniques, a
                  Motors, Pergamon Press, New York, 1988.              critical evaluation,'' IEEE Trans. on Industry Applications 24:2, 271–
                8. M. E. Villablanca and J. Arrillaga, ‘‘Pulse Multiplication in Parallel  280 (1988).
                  Converters by Multilap Control of Interphase Reactor,'' IEE Proceed-  17. J. W. Dixon and B. T. Ooi, ‘‘Series and parallel operation of hysteresis
                  ings-B, 139:1, 13–20 (1992).                         current-controlled PWM recti®ers,'' IEEE Trans. on Industry Applica-
                9. D. A. Woodford, ‘‘HVDC Transmission,'' Professional Report from  tions 25:4, 644–651 (1989).
                  Manitoba HVDC Research Center, Winnipeg, Manitoba, March 1998.  18. B. T. Ooi, J. W. Dixon, A. B. Kulkarni, and M. Nishimoto, ‘‘An
               10. D. R. Veas, J. W. Dixon, and B. T. Ooi, ‘‘A novel load current control  integrated AC drive system using a controlled-current PWM recti-
                  method for a leading power factor voltage source PEM recti®er,'' IEEE  ®er=inverter link,'' IEEE Trans. on Power Electronics 3:1, 64–71
                  Trans on Power Electronics 9:2, 153–159 (1994).      (1988).