A general unified large signal model for current programmed DC-to-DC converters

A general and unified large signal averaged circuit model for current programmed DC-to-DC converters is proposed. In the averaged circuit model, the active switch is modeled by a current source, with its value equal to the averaged current flowing through it, and the diode is modeled hy the voltage source, with its value equal to the averaged voltage across it. The averaged circuit model has the same topology as the switching converter. The large signal averaged circuit model for current programmed buck, boost, buck-boost and Cuk converters are proposed, from which the large signal characteristics can be obtained. The steady-state and small signal transfer functions of the current programmed DC-to-DC converters can all be derived from their large signal averaged circuit models. The large signal characteristics of the current programmed buck converter are studied by both the phase plane trajectory and the time domain analysis. Experimental prototypes for a current programmed buck converter, with and without an input filter, are breadboarded to verify the analysis. >

[1]  D. Maksimović,et al.  Using a discrete-time model for large-signal analysis of a current-programmed boost converter , 1991, PESC '91 Record 22nd Annual IEEE Power Electronics Specialists Conference.

[2]  R. D. Middlebrook,et al.  Modeling current-programmed buck and boost regulators , 1989 .

[3]  A. Capel,et al.  Application of the injected current model for the dynamic analysis of switching regulators with the new concept of LC3 modulator , 1978, 1978 IEEE Power Electronics Specialists Conference.

[4]  R.D. Middlebrook,et al.  Modelling and analysis of switching DC-to-DC converters in constant-frequency current-programmed mode , 1979, 1979 IEEE Power Electronics Specialists Conference.

[5]  J. R. Leigh Essentials of nonlinear control theory , 1982 .

[6]  Slobodan Cuk,et al.  A general unified approach to modelling switching-converter power stages , 1977 .

[7]  Cecil Deisch,et al.  Simple switching control method changes power converter into a current source , 1978, 1978 IEEE Power Electronics Specialists Conference.

[8]  J. R. Leigh Essentials of Non-linear Control Theory , 1983 .

[9]  R. D. Middlebrook Methods of Design-Oriented Analysis: The Quadratic Equation Revisited , 1992, Proceedings. Twenty-Second Annual conference Frontiers in Education.

[10]  D. Kimhi,et al.  A SPICE model for current mode PWM converters operating under continuous inductor current conditions , 1991 .

[11]  G. Verghese,et al.  Averaged and sampled-data models for current mode control: a re-examination , 1989, 20th Annual IEEE Power Electronics Specialists Conference.

[12]  R. Tymerski,et al.  State space models for current programmed pulse width modulated converters , 1992 .