• Title of article

    Series and parallel transformer resonant DC-DC converter using optimal digital servo and repetitive learning control schemes

  • Author/Authors

    Sun، نويسنده , , J.; Takano، نويسنده , , H.; Nakaoka، نويسنده , , M.، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 1999
  • Pages
    9
  • From page
    530
  • To page
    538
  • Abstract
    A digitally processed repetitive learning control approach is presented in combination with a type-1 optimal digital servo control scheme of the resonant DC-DC converter using IGBT modules for a medical X-ray power generator. Ths scheme is considered for acheving a rapid transient response without any overshoot in addition to high-voltage characteristics with low ripple in its steady-state within a wide setting range of output voltage. To improve nonhnear voltage regulation performance of the series capacitor compensated transformer parallel resonant inverter-type fixedfrequency, phase-shifted PWM DC-DC converter with a high-voltage transformer link, the repetitive learning control method is introduced into medical X-ray power generator systems using a series and parallel resonant DC-DC converter with high voltage transformer matching. This makes use of transformer parasitic parallel resonance with a series-compensated resonant capacitor connected to a transformer parasitic leakage inductor. The effectiveness of the repetitive learning control for ths converter is discussed. A digital servo control scheme with error compensation loops is implemented to eliminate periodic voltage ripple fluctuations and abrupt voltage changes in the rectified DC input of this converter. This scheme also aims to realise good reproducibility, which is an important requirement in an X-ray power generator. The practical effectiveness of the repetitive learning control method and the type-1 optimal digital servo control scheme are confirmed by simulation analysis and experiments.
  • Journal title
    IEE Proceedings Electric Power Applications
  • Serial Year
    1999
  • Journal title
    IEE Proceedings Electric Power Applications
  • Record number

    402504