A general closed-form duty cycle control law is derived based on the linear combination of two sets of continuous duty cycle control laws. From this general solution one can generate infinitely many pulsewidth modulation (PWM) control strategies to achieve the same ideal performance. Then, from the resulting closed-form solution, a general explicit lower bound and a general explicit upper bound of the output dc voltage are derived. Besides the academic interests, these bounds are very useful practically as a convenient guideline for helping quickly design the three-phase boost rectifier. Finally, some illustrative examples are given and some experimental results provided for verifying the derived bounds.
Output voltage bounds of a three-phase boost rectifier
IEEE Transactions on Aerospace and Electronic Systems ; 37 , 2 ; 671-678
2001-04-01
438028 byte
Article (Journal)
Electronic Resource
English
PAPERS - Output Voltage Bounds of a Three-Phase Boost Rectifier
Online Contents | 2001
|Novel Hybrid 12-Pulse Boost-Type Rectifier with Controlled Output Voltage
Online Contents | 2005
|Three-phase rectifier with high gain and wide voltage output range
European Patent Office | 2024
|