Open AccessCertain investigations on multi input –SEPIC-RE boost-system with enhanced-response
Author(s) -
B. Jagadish Kumar,
Basavaraja Banakara
Publication year - 2018
Publication title -
international journal of engineering and technology
Language(s) - English
Resource type - Journals
ISSN - 2227-524X
DOI - 10.14419/ijet.v7i4.15678
Subject(s) - settling time , control theory (sociology) , converters , pid controller , ripple , voltage , matlab , computer science , controller (irrigation) , photovoltaic system , transient response , steady state (chemistry) , step response , boost converter , engineering , control engineering , control (management) , electrical engineering , chemistry , temperature control , agronomy , artificial intelligence , biology , operating system
Recent developments in converters have given pathway to high-gain-step up converter having low output voltage ripple. High-gain-step up converters can be found between Photovoltaic Voltage (PV) and Direct-Current (D-C) loads. The intention of this work is to identify multi converter system for multiple input sources and to improve time response of high-gain-step up-converter. Closed-loop Multi-Converter System (MCS) is utilized to regulate load voltage. This effort recommends suitable-controller for “closed-loop-controlled-SEPIC-REBOOST Converter fed DC motor”. The estimation of the yield in ‘open-loop’&‘closed- loop-circuit’ has been done using MATLAB or Simulink. Closed-loop-control of MCS with PI and FOPID-Controllers are investigated and their responses are evaluated in conditions of rise time, peak time, settling time and steady state error. It is seen that FOPID controlled MCS gives better time domain response in terms of motor speed. A ‘Prototype of MCS’ has been fabricated in the laboratory& the ‘experimental-results’ are authenticated with the simulation-results.