Title :
Improved voltage regulation for current-source inverters
Author :
Zmood, Daniel Nahum ; Holmes, Donald Grahame
Author_Institution :
Dept. of Electr. & Comput. Syst. Eng., Monash Univ., Clayton, Vic., Australia
Abstract :
Voltage regulation schemes for current-source inverters (CSIs) commonly use a simple proportional-integral (PI) stationary frame controller, but this approach is known to suffer from significant steady-state error. In contrast, the more advanced schemes that are routinely used for current regulation of voltage-source inverters (VSIs) avoid these problems. This paper presents an approach to directly utilize VSI current regulation strategies to control the voltage for a CSI, without requiring significant modification or development. The approach uses a space-vector mapping technique to convert VSI modulation signals to CSI gate drive signals, which allows VSI closed-loop current control strategies to be directly applied to CSI voltage regulation. Three new voltage regulation CSI controllers based on hysteresis, synchronous frame PI, and stationary frame P+Resonant control principles are presented based on this concept
Keywords :
invertors; two-term control; voltage control; CSI gate drive signals; CSI voltage regulation; VSI closed-loop current control strategies; VSI modulation signals conversion; current regulation; current-source inverters; hysteresis control; proportional-integral stationary frame controller; space-vector mapping technique; stationary frame P+resonant control; steady-state error; synchronous frame PI control; voltage regulation CSI controllers; voltage regulation schemes; voltage-source inverters; Current control; Error correction; Hysteresis; Open loop systems; Proportional control; Pulse width modulation inverters; Resonance; Steady-state; Topology; Voltage control;
Journal_Title :
Industry Applications, IEEE Transactions on
