• DocumentCode
    1181092
  • Title

    Influence of the modulation method on the conduction and switching losses of a PWM converter system

  • Author

    Kolar, Johann W. ; Ertl, Hans ; Zach, Franz C.

  • Author_Institution
    Power Electron. Sect., Tech. Univ., of Vienna, Austria
  • Volume
    27
  • Issue
    6
  • fYear
    1991
  • Firstpage
    1063
  • Lastpage
    1075
  • Abstract
    The authors explore the dependency of the conduction losses of a bridge leg of a pulsewidth modulation (PWM) power converter system with a high pulse rate on the shape of the phase modulation functions. This is done for modulation methods that are optimized with respect to minimum harmonic current RMS values. The results are compared to the results gained for simple sinusoidal modulation. Besides conduction losses, the switching losses of the electric valves are calculated. The main topic is the determination of those power loss components of a PWM converter system that can be (besides the harmonic losses) influenced by the modulation method selected. As the calculations show, these modulation methods allow a significant increase of the effective switching frequency. The optimal modulation as calculated leads to a reduction of the harmonic power loss in the upper modulation region. Furthermore, due to the frequency modulation the spectrum is spread out to a wider frequency band as compared to operation with constant pulse frequency
  • Keywords
    harmonics; losses; power convertors; pulse width modulation; semiconductor switches; switching; PWM; bridge leg; conduction losses; electric valves; power converter; power loss; semiconductor switches; switching frequency; switching losses; Bridges; Frequency modulation; Leg; Optimization methods; Phase modulation; Power system harmonics; Pulse shaping methods; Pulse width modulation; Pulse width modulation converters; Shape;
  • fLanguage
    English
  • Journal_Title
    Industry Applications, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0093-9994
  • Type

    jour

  • DOI
    10.1109/28.108456
  • Filename
    108456