TY  - JOUR
T1  - Performance Evaluation of Multi-Port Solar and PMSG Wind Based PFC Boost Converter with DTC Fuzzy Logic Scheme for Four-Switch Inverter Fed Induction Motor Applications
AU - Hemachandran, M. AU - Madhusudhanan, R. 
JO  - International Journal of Electrical and Power Engineering
VL  - 8
IS  - 2
SP  - 26
EP  - 32
PY  - 2014
DA  - 2001/08/19
SN  - 1990-7958
DO  - ijepe.2014.26.32
UR  - https://makhillpublications.co/view-article.php?doi=ijepe.2014.26.32
KW  - PV array
KW  -MPPT
KW  -PMSG wind
KW  -boost converter
KW  -power factor correction
KW  -THD
KW  -fuzzy logic control
KW  -Induction Motor (IM)
KW  -Direct Torque Control (DTC)
KW  -Four-Switch Three-Phase Inverter (FSTPI)
AB  - This study proposes, the multi-port power electronics PFC 
  boost converter has attracted special interest in Four-Switch Three-Phase Inverter 
  (FSTPI) drives by induction motor drives application. The proposed FSTPI scheme 
  is used to eliminating two-switches of the conventional Six-Switch Three-Phase 
  Inverter (SSTPI) which is controlled by using Direct Torque Control (DTC) with 
  fuzzy logic controller. Multi-port power electronic converter has integrating 
  solar with MPPT based boost converter for high step-up application and PMSG 
  wind based three-phase, single-switch, Power Factor Correction (PFC) rectifier 
  is can achieve less Total Harmonic Distortion (THD) power conversion system. 
  The single-switch based PFC converter has higher efficiency and low common-mode 
  EMI noise due to soft-switching operation. FSTPI approach has been adopted in 
  the design of the vector selection table of the proposed DTC strategy which 
  considers a subdivision of the Clarke plane into 6 sectors. The fuzzy logic 
  controller is implemented using the direct torque control technique, as it provides 
  better control of motor torque with high dynamic performances are verified by 
  using various tool boxes in Matlab.
ER  -