Title :
Analysis and modeling of peak-current-mode-controlled buck converter in DICM
Author_Institution :
Electron. Lab., Oulu Univ., Finland
fDate :
2/1/2001 12:00:00 AM
Abstract :
This paper presents a unified method to obtain both small- and large-signal models for a peak-current-mode-controlled buck converter which accurately predict its behavior. The models show that the peak-current-mode transfer functions are effectively of first order, as can be expected due to the heavy bounding of inductor current. The large-signal behavior can be accurately predicted by using a simple algebraic equation including the mode limit of basic-switching-frequency operation as well as the input-output relations. It is also pointed out that a buck converter can have stable open-loop as well as closed-loop operation modes at basic switching frequency and at its even and odd harmonics. The subharmonic modes are, however, not controllable in a conventional way
Keywords :
DC-DC power convertors; closed loop systems; control system analysis; electric current control; harmonic distortion; power conversion harmonics; stability; switching circuits; basic-switching-frequency operation mode limit; behaviour prediction; discontinuous inductor-current mode; first-order peak-current-mode transfer functions; large-signal models; peak-current-mode-controlled buck converter; small-signal models; stable closed-loop operation mode; stable open-loop operation mode; subharmonic modes; Automatic control; Buck converters; Circuits; Equations; Inductors; Open loop systems; Pulse width modulation; Switching frequency; Transfer functions; Voltage control;
Journal_Title :
Industrial Electronics, IEEE Transactions on
