Title :
Analysis and control of a cellular converter system with stochastic ripple cancellation and minimal magnetics
Author :
Perreault, David J. ; Kassakian, John G.
Author_Institution :
Lab. for Electromagn. & Electron. Syst., MIT, Cambridge, MA, USA
fDate :
1/1/1997 12:00:00 AM
Abstract :
A parallel converter architecture based on the resonant pole inverter (RPI) topology is presented. It is shown that this architecture minimizes the output magnetics required for current sharing. A new current control scheme is introduced which reduces peak currents, losses, and output voltage ripple for many operating conditions. This new control method is applicable to both the single RPI and the parallel architecture. Additionally, the paper analytically quantifies the degree of passive ripple cancellation between cells of a parallel architecture. It is shown that the RMS ripple current of an N cell paralleled converter system is a factor of 1√(N) lower than for an equivalent single converter. These results are verified using a piecewise-linear model. We conclude that the parallel architecture overcomes some of the major disadvantages of the conventional RPI
Keywords :
electric current control; invertors; piecewise-linear techniques; RMS ripple current; cellular converter system; current control; current sharing; equivalent single converter; losses reduction; minimal magnetics; output voltage ripple reduction; parallel converter architecture; passive ripple cancellation; peak currents reduction; piecewise-linear model; resonant pole inverter; stochastic ripple cancellation; Control system analysis; Control systems; Economic indicators; Inverters; Magnetic analysis; Magnetic resonance; Parallel architectures; Stochastic resonance; Stochastic systems; Topology;
Journal_Title :
Power Electronics, IEEE Transactions on
