Title :
Comparison of two current modulation strategies for matrix converters under unbalanced input voltage conditions
Author :
Blaabjerg, Frede ; Casadei, Domenico ; Klumpner, Christian ; Matteini, Marco
Author_Institution :
Inst. of Energy Technol., Aalborg Univ., Denmark
fDate :
4/1/2002 12:00:00 AM
Abstract :
In this paper, the input current performance of matrix converters is analyzed, especially with reference to the operating conditions determined by unbalanced supply voltages. The space-vector modulation (SVM) technique is utilized to calculate the duty cycles of the active voltage vectors that must be applied, in each switching cycle period, in order to satisfy the input and output requirements. A detailed theoretical analysis of the input current harmonic content under unbalanced input voltage conditions is presented for two different current modulation strategies. On the basis of numerical simulations as well as measurements on a laboratory prototype setup, the strategies´ performance are compared and the validity of the theoretical investigation confirmed. It is concluded that, when the input voltages are unbalanced to a significant extent, a dynamic input current modulation strategy has to be preferred, since a lower harmonic line current distortion will appear
Keywords :
AC-AC power convertors; PWM power convertors; harmonic analysis; harmonic distortion; numerical analysis; power conversion harmonics; power supply quality; switching circuits; AC-AC power conversion; active voltage vectors; current modulation strategies; duty cycles; dynamic input current modulation strategy; harmonic analysis; harmonic distortion; harmonic line current distortion; input current harmonic content; input current performance analysis; input requirements; matrix converters; numerical simulations; output requirements; space-vector modulation technique; switching cycle period; unbalanced input voltage conditions; Distortion measurement; Harmonic analysis; Harmonic distortion; Laboratories; Matrix converters; Numerical simulation; Performance analysis; Support vector machines; Virtual prototyping; Voltage;
Journal_Title :
Industrial Electronics, IEEE Transactions on
