High-performance soft-commutated converter for solar energy conversion

In this paper, the authors present a detailed study and analysis of a series resonant converter topology operating in quasi-resonant mode. The dc-to-ac converter is used to convert the solar energy obtained from a photovoltaic field into an ac current. Theoretical study based on the state-plane method is completed and sets of static characteristics curves for all operating modes are obtained. A general design methodology is elaborated which permits the determination of the constraints on the semiconductors and reactive components. Finally, a performance analysis of the converter feeding different types of loads (utility, linear and nonlinear loads), and a harmonic analysis of different waveforms based on simulation and experimental results are presented.

[1]  K. Al-Haddad,et al.  High frequency inverter using zero current turn off COMFET switches for solar energy conversion , 1990, 12th International Conference on Telecommunications Energy.

[2]  V. Vorperian,et al.  A complete DC analysis of the series resonant converter , 1982, 1982 IEEE Power Electronics Specialists conference.

[3]  K. Al-Haddad,et al.  A 5 kW utility-interactive inverter operating at high frequency and using zero current turn off COMFET switches , 1990, Conference Record of the 1990 IEEE Industry Applications Society Annual Meeting.

[4]  L.A. Dessaint,et al.  A rugged soft commutated PWM inverter for AC drives , 1990, 21st Annual IEEE Conference on Power Electronics Specialists.

[5]  T.A. Stuart,et al.  Inherent Overload Protection for the Series Resonant Converter , 1983, IEEE Transactions on Aerospace and Electronic Systems.

[6]  R. Oruganti State-plane analysis of resonant converters , 1987 .