Title :
Asymmetric Instability Conditions for Peak and Valley Current Programmed Converters at Light Loading
Author :
Chung-Chieh Fang
Author_Institution :
Sunplus Technol., Hsinchu, Taiwan
Abstract :
Three types of bifurcations (instabilities) in the DC-DC converter under valley current mode control (VCMC) are analyzed, which is an extension of a recent paper on the peak current mode control (PCMC). The three bifurcations are border-collision, period-doubling, and saddle-node bifurcations. The corresponding critical (instability) conditions are derived. The derived conditions divide the parameter space into different operating modes. Contrary to the general belief that the critical conditions for VCMC and PCMC are symmetric with respect to the duty cycle D=1/2, most critical conditions are actually asymmetric. The dynamics symmetry is converter, bifurcation, loading, and parameter dependent, verified by bifurcation diagrams and time-domain simulations. The VCMC boost converter has rich dynamics and it is extensively analyzed.
Keywords :
DC-DC power convertors; bifurcation; electric current control; stability; time-domain analysis; DC-DC converter bifurcations; asymmetric instability condition; border collision; critical condition; dynamics symmetry; light loads; peak current mode control; peak current programmed converter; period doubling; saddle node bifurcation; time-domain simulation; valley current mode control; valley current programmed converter; Bifurcation; Inductors; Loading; Orbits; Resistance; Space vehicles; Switches; Bifurcation; DC-DC power conversion; critical condition; current mode control; instability; symmetry;
Journal_Title :
Circuits and Systems I: Regular Papers, IEEE Transactions on
DOI :
10.1109/TCSI.2013.2284178
