Title :
Study of input translation in sliding mode structure switching for high frequency full bridge inverter
Author :
Paul, Arnab Kumar
Author_Institution :
Fiona 1602, Hiranandani Estate, Thane, India
Abstract :
Stability and performance with robustness features are key control pre-requisites. Rapid evolution in power electronics has made the area of power control a very dynamic subject. Evolving role of power controllers is to ensure optimum energy usage for connected loads and simultaneously taking care of a whole lot of issues such as reliability, EMI, power density, cost etc. In such trend, evolving topologies for high frequency inverters take center stage where many fast structures in the power circuit are time-integrated to incorporate soft-switching. They are not compatible to abrupt structure switching. Sliding mode control (SMC), on the other hand, generates robustness features through structure switching in a proper way. This article analyses, with practical implementations, compatibility of structure switching for SMC in modern high frequency full bridge inverters.
Keywords :
invertors; robust control; variable structure systems; zero current switching; zero voltage switching; EMI; SMC; high-frequency full-bridge inverter; optimum energy usage; power circuit; power controllers; power density; power electronics; reliability; robustness features; sliding mode control; sliding mode structure switching; soft switching; stability; structure switching compatibility; Delays; Inverters; Power control; Switches; Topology; Welding; Zero voltage switching; 1-sliding; 2-sliding; VSS input translation; design for manufacturability; elastic disturbance rejection; goodness factor; hard switched full-bridge (HSFB) inverter; non-elastic disturbance rejection; soft-switching;
Conference_Titel :
Power Electronics, Drives and Energy Systems (PEDES), 2012 IEEE International Conference on
Conference_Location :
Bengaluru
Print_ISBN :
978-1-4673-4506-4
DOI :
10.1109/PEDES.2012.6484426
