Linear averaged and sampled data models for large signal control of high power factor AC-DC converters

It is shown that the large signal behavior of a popular family of high power factor AC-to-DC power conditioners can be analyzed via linear models, by using squared output voltage as the state variable. The state equation for a general (constant power plus resistive) load is obtained by a simple dynamic power balance. Time-invariant or periodically varying controllers acting at the time scales of the line or switching periods, respectively, can then be designed from the resulting averaged or sampled data models. Simulations and experiments corroborate the results.<<ETX>>

[1]  M. F. Schlecht A line interfaced inverter with active control of the output current waveform , 1980, 1980 IEEE Power Electronics Specialists Conference.

[2]  R. Ridley,et al.  Average small-signal analysis of boost power factor correction circuit , 1989 .

[3]  Seth Sanders,et al.  Nonlinear control laws for switching power converters , 1986, 1986 25th IEEE Conference on Decision and Control.

[4]  J. B. Williams,et al.  Design of feedback loop in unity power factor AC to DC converter , 1989, 20th Annual IEEE Power Electronics Specialists Conference.

[5]  N. Mohan,et al.  A digitally controlled AC to DC power conditioner that draws sinusoidal input current , 1986, 1986 17th Annual IEEE Power Electronics Specialists Conference.

[6]  Martin Schlecht,et al.  Novel topological alternatives to the design of a harmonic-free, utility/DC interface , 1983, 1983 IEEE Power Electronics Specialists Conference.

[7]  Martin F. Schlecht Time-varying feedback gains for power circuits with active waveshaping , 1981, 1981 IEEE Power Electronics Specialists Conference.