International Journal of Engineering Research in Electrical and Electronic Engineering(IJEREEE)

Monthly Journal for Electrical and Electronic Engineering

International Journal of Engineering Research in Electrical and Electronic Engineering

Volume4 ,January 2017.

Volume4,January 2017,

Topic : Performance of a 4- Switch, 3-Phase Inverter Fed Induction Motor (IM) Drive System

Authors:Nagesh Patwari ||

Abstract:This project proposes the performance of a 4- switch, 3-phase inverter fed induction motor (IM) drive system for high performance industrial drive systems. In the proposed realization, instead of a usual 6-switch three-phase inverter (SSTPI) a 4- switch three-phase inverter (FSTPI) is used. A cost effective FSTPI fed IM drive using Field-Oriented-Control and Space-Vector PWM controller (with new control SVPWM approach) is implemented in real time. This reduces the cost of the inverter, the switching losses, and the complexity of the control algorithms and interface circuits to generate 6 PWM logic signals. Furthermore, the proposed control approach reduces the computation for real-time implementation. In this paper, a simulation model of the drive system is developed and analyzed in order to verify the effectiveness of the approach. The complete vector control scheme for the IM drive fed from the proposed 4S3P inverter is implemented in real-time using digital signal processor for a prototype 1 hp motor. Theoretical and experimental results of the proposed drive verify the robustness of the drive. A performance comparison of the proposed IS3P inverter fed drive with a conventional 6S3P inverter fed drive is also mode in terms of speed response and total harmonic distortion (THI)) of the stator current. Simulation results show that the proposed drive system provides a fast speed response and good disturbance rejection capability. The designed inverter fed IM drive is found suitable considering its cost decrease and the robustness..

Keywords: State FPGA-Field Programmable Gate Array, FSTPI- Four Switch Three Phase Inverter, IM-Induction Motor, PWM-Pulse Width Modulation, THD-Total Harmonic Distortion..

Download Paper

DOI: 01.1617/vol3iss1pid210

Related Articles

Optimizing Energy Savings Using Battery -Less Pv Harvesting System With Grid Backup And Real Time Solar Tracking

Authors: Achu G Kumar || Arjun Anil, Aromal B Raj

Doi : 01.1617/vol1iss1pid001

Volume2 ,March 2017.

Smart Vehicle with Automatic Speed Regulation

Authors: Anu S Pillai || Akhila T J,Shibinlal S,Raymond D Harock,Rekha T

Doi : 01.1617/vol1iss1pid002

Volume2 ,March 2017.

Speed Control of Induction Motor Using DTCSVM & Monitoring Using PLC with Motor Protection

Authors: Arun S Dev || Aleena Maria Isaac,Aswathi R,Atheena Francis,Vrinda V R,Mrs. Saritha M

Doi : 01.1617/vol1iss1pid003

Volume2 ,March 2017.

Line Power Control and Distribution using Power Line Communication

Authors: Niyas Yousuf || Jency Jose,Remya.R.J,Sreeraj Nampoothiri.N,Devootty.A.M

Doi : 01.1617/vol1iss1pid004

Volume2 ,March 2017.


Authors: Mayur Hulke ||

Doi : 01.1617/vol1iss1pid005

Volume2 ,March 2017.

Photovoltaic Power Control Using MPPT Technology

Authors: Teena Varghese || Nithu Thankam Johnson, Anju Susan Moses, Lintu Merin Philip

Doi : 01.1617/vol1iss2pid006

Volume2 ,April 2017.

Generation of Electricity by Stirling Engine from Sunlight’s Heat

Authors: Nabeel Habeeb || Athul Thomas , Jimmy George, Jibin P Joy , Jerry T. Kurian, Mr Sreenadh B

Doi : 01.1617/vol1iss2pid007

Volume2 ,April 2017.

A Smart Prepaid Anti-theft Energy meter

Authors: Ann Mary Michael || Mathews Mathew, Raghav Nath , Reeja Mathew, Rohit Koshy Roy

Doi : 01.1617/vol1iss2pid008

Volume2 ,April 2017.


Authors: B.Prassanna Venkatesh ||

Doi : 01.1617/vol1iss2pid009

Volume2 ,May 2017.

Smart Shopping Facilitator For Blind

Authors: Noel James || Dennis Koshy Sam,Roncy Anie Cheriyan,Sherin Elizhabeth Babu

Doi : 01.1617/vol1iss2pid010

Volume2 ,May 2017.


Editor Image

Dr.Krzysztof Chwastek
Associate Professor,
Czestochowa University of Technology, Polland.

View more


ISSN(Online): 2395-2717

Google Scholar Profile

Thomson Reuters ID : q-6288-2016.
ORCiD Research ID : 0000-0001-9540-6799

All Issues


Copy-right Form Paper Template


Journal Code : IJEREEE
Electronic ISSN : 2395-2717
Impact Factor : 3.784
Frequency : monthly
Contact :