• Title of article

    Active front-end converter for medium-voltage current-source drives using sequential-sampling synchronous space-vector modulation

  • Author/Authors

    E.P.، Wiechmann, نويسنده , , R.P.، Burgos, نويسنده , , J.، Holtz, نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2003
  • Pages
    -1274
  • From page
    1275
  • To page
    0
  • Abstract
    This paper presents an active front-end converter for medium-voltage current-source drives. It comprises two seriesconnected pulsewidth-modulation (PWM) rectifiers fed from a delta-wye isolation transformer. These employ sequentialsampling synchronous space-vector modulation (SVM), and operate at a switching frequency of 100 Hz, thus reducing the switching losses by 66% compared to previous PWM approaches. Digital processing requirements of this technique are minimized by using decision-making SVM. This online modulation technique ensures full harmonic current cancellation through the magnetic interface, and minimizes the sampling/control-action delay. Therefore it enables the use of advanced control strategies notwithstanding the low sampling frequency of the control system. Exploiting this fact, the proposed converter is controlled using a nonlinear strategy in the synchronous frame. The strategy employs input-output and feedback linearization, and is derived from the complex-signal flow diagram of the converter. The proposed strategy linearizes and partially decouples the converter d-q-axes dynamics, ensuring a dynamic response totally independent from the operating point, even under regeneration. This is a highly desirable feature for high-performance drives presenting continuous transitions from motoring to regeneration. Moreover, the converter presents an independent active and reactive power flow, which enables it to operate as a reactive power compensator if desired. Computer analysis and experimental work with a TMS320C32 digital-signalprocessor-based 5-kVA laboratory prototype validate the excellent results attained by the proposed converter.
  • Keywords
    (alpha)-Amylase , Bacillus subtilis , histidine modification , hydrolytic enzyme , Thermophilic bacteria , enzyme purification
  • Journal title
    IEEE Transactions on Industrial Electronics
  • Serial Year
    2003
  • Journal title
    IEEE Transactions on Industrial Electronics
  • Record number

    62411