A Survey on Sinusoidal PWM Technique for VSI Fed To Induction Motor

Authors

  • Rohit Gedam  Department of Electrical Engineering, Bhabha College of Engineering (RKDF), Bhopal, Madhya Pradesh, India
  • Varsha Mehar  Assistant Professor, Department of Electrical Engineering, Bhabha College of Engineering (RKDF), Bhopal, Madhya Pradesh, India
  • Sheikh Nawaz  Assistant Professor Anjuman college of Engg & Tech, Nagpur, Maharashtra, India

Keywords:

Sinusoidal pulsewidth modulation (SPWM), voltage source inverter (VSI), Induction Motor, different load(L,R&C load).

Abstract

In this project, sinusoidal pulsewidth modulation (SPWM) technique for Voltage Source Inverter (VSI) to induction motor or with different load is proposed. The Voltage Source Inverters(VSI) using the proposed SPWM technique can generate output voltage & current waveform for the different load. In the medium voltage adjustable speed drive market, the various topologies have evolved with various components, design, and reliability. The two major types of drives are known as voltage source inverter (VSI) and current source inverter (CSI). In industrial markets, the VSI design has proven to be more efficient, have higher reliability and faster dynamic response, and be capable of running motors without de-rating. Medium voltage adjustable speed drive (MV-ASD) systems offer significant advantages in fan, pump and many process control applications with higher efficiencies combined with energy savings over a wide range of speed settings. MV-ASD systems continue to grow at a steady rate of 9% and find expanding applications. Commercial MV-ASD systems are both current source inverter (CSI) and voltage source inverter (VSI). Voltage source inverter (VSI) is to convert a fixed dc voltage to a three phase ac voltage with variable magnitude and frequency. This project focus on pulsewidth modulation (PWM) schemes for high power two level inverter , where the device switching frequency is normally below or equal to 1KHz. In this project, sinusoidal pulsewidth modulation (SPWM) technique for Voltage Source Inverter (VSI) to induction motor or with different load is proposed. The Voltage Source Inverters(VSI) using the proposed SPWM technique can generate output voltage & current waveform for the different load.

References

  1. Martin Cheerangal Joy and Dr. JayanandBThree-Phase Infinite Level Inverter Fed Induction Motor Drive", in IEEE, 2016
  2. Yu Yong, Hu Jinyang, Wang Ziyuan, Xudianguo, "IGBT Open Circuit Fault Diagnosis in VSI Fed Induction Motor Drives Based on Modified Average Current Method."in IEEE 2014.
  3. G.Renukadevi, K.Rajambal, "Novel PWM Technique for nth Harmon Injection for N-phase VSIs," in IEEE 2013,.
  4. M. HarshaVardhan Reddy &V.Jegathesan, "Open loop V/f Control of Induction Motor based on hybrid PWM With reduced torque ripple," in IEEE, 2011.
  5. H. W. van der Broeck, "Analysis of the harmonics in voltage fed inverter drives caused by PWMschemes with discontinuous switching operation," in Proc. EPE, Firenze, Italy, 1991, pp. 261???266.
  6. A New Four-Level Dual Inverter Fed Open-End Winding Induction Motor DriveV. T. Somasekhar ; B. Venugopal ReddyPublication Year: 2011, Page(S):167 - 170
  7. Field Weakening Implementation In Ac Induction Machine Predictive ControlPavelVaclavek ; PetrBlahaPublication Year: 2011, Page(S):171 - 176
  8. Analysis of dv/dt filter installation for PWM AC drive applicationsPravit Mart-ro ; WarachartSae-Kok ; SurinKhomfoiPublication Year: 2011, Page(s):177 - 184
  9. A half-bridge inverter based Active Power Quality Compensator with a DC voltage balancer for electrified railwaysTint Soe Win ; Yusuke Baba ; Masayuki Okamoto ; EijiHiraki ;Toshihiko TanakaPublication Year: 2011, Page(s):185 - 190
  10. Transformerless single-stage high step-up AC-DC converter based on symmetrical Cockcroft-Walton voltage multiplier with PFCChung-Ming Young ; Ming-Hui Chen ; Hong-Lin Chen ; Jen-Yi Chao ; Chun-Cho KoPublication Year: 2011, Page(s):191 ??? 196
  11. Non-linear load compensation in Fuel Cell grid interfaced system using active power filterGitanjali Mehta ; S. P. Singh ; R. D. PatidarPublication Year: 2011, Page(s):197 - 202
  12. A study on the harmonic issues at CSIRO Microgrid Yang Du ; Dylan Dah-Chuan Lu ; David Cornforth ; Geoffrey JamesPublication Year: 2011, Page(s):203 - 207
  13. New artificial neural network based direct virtual torque control and direct power control for DFIG in wind energy systemsPhanQuocDzung ; Anh Nguyen Bao ; Hong Hee Lee
  14. Variable speed pumping in thermal and nuclear power plants: Frequency converter versus hydrodynamic couplingMartinSirov?? ; Zden??kPeroutka ; Jan Moln??r ; Jan Michal??k ;MiroslavByrtusPublication Year: 2011, Page(s):228 - 234
  15. The design and implementation of LLC resonant half-bridge converter with natural interleaved power-factor-correctionChin-Yuan Hsu ; Jian-Ting Lai ; Ming-Che Lin ; Ming-Kai Yang ;Ming-Jyun Li ; Ren-Wei HuangPublication Year: 2011, Page(s):246 -255
  16. Exact common-mode and differential-mode equivalent circuits of inverters in motor drive systems taking into account input rectifiersPennapaPairodamonchai ; SomboonSangwongwanich Publication Year: 2011, Page(s):278 - 285
  17. A low computation fractal based voltage space phasor generation for a four level inverter using open-end winding induction motor driveG. Shiny ; M. R. BaijuPublication Year: 2011, Page(s):286 ??? 291
  18. Design of a lying sensor for permanent magnet synchronous machine torque ripple reduction using the iterative learning control techniqueYi Yuan ; Fran??ois Auger ; Luc Loron ; Franck Debrailly ; Mathieu HubertPublication Year: 2011, Page(s):298 - 303
  19. Evaluation of current reference generation methods for a three-phase inverter interfacing renewable energy sources to generalized micro-gridS. Dasgupta ; S. N. Mohan ; S. K. Sahoo ; S. K. Panda Publication Year: 2011, Page(s):316 - 321
  20. A novel model to determine optimizing power and capacity for energy storage systems on competitive electricity marketsV. V. Thang ; N. H. Kong ; D. Q. Thong ; B. Q. KhanhPublication Year: 2011, Page(s):322 - 328
  21. Design and implementation of a direct torque controlled interior permanent magnet synchronous motor drive based on a novel flux modelMing-Tsan Lin ; Ching-Guo ChenPublication Year: 2011, Page(s):394 ??? 398
  22. AC induction motor control using robust current controllers PetrBlaha ; PavelV??clavekPublication Year: 2011, Page(s):405 - 410
  23. BimalK.Bose, Modern Power Electronics and AC Drives. (4th Indian Reprint): Pearson Education, 2002, p. 356-384.
  24. R.Krishnan, Electric Motor Drives.(2nd Indian Reprint): Printice-Hall of India, 2003, pp.411-512.
  25. Considerations about sensorless control of permanent magnet synchronous motors at low speed and standstill for wheel mounted drive of tramDavid Uzel ; David Vosmik ; ZdenePeroutka ; Martin SirovyPublication Year: 2011, Page(s):486 - 491
  26. Direct load angle control of three phase induction motor drives T. Vinay Kumar ; S. SrinivasaRaoPublication Year: 2011, Page(s):513 - 516
  27. A modified three dimensional space vector based PWM method for four-leg voltage source inverter fed asymmetrical two-phase induction motorHeliGolwala ; R. ChudamaniPublication Year: 2011, Page(s):573 ??? 578
  28. A new digital control DC-DC converter with repetition neural network predictionFujioKurokawa ; Kimitoshi Ueno ; HidenoriMaruta ; Hiroyuki OsugaPublication Year: 2011, Page(s):648 ??? 652
  29. Sensorless position optimal control strategy of Brushless DC motorChii-Maw Uang ; Zu-Sheng Ho ; Ping-Chieh Wang ; Sheng-Hao LiuPublication Year: 2011, Page(s):653 - 658

International Journal of Scientific Research in Science and Technology

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Published

2018-01-30

Issue

Volume 4, Issue 3, January-February-2018

Section

Research Articles

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How to Cite

[1]
Rohit Gedam, Varsha Mehar, Sheikh Nawaz, " A Survey on Sinusoidal PWM Technique for VSI Fed To Induction Motor, International Journal of Scientific Research in Science and Technology(IJSRST), Online ISSN : 2395-602X, Print ISSN : 2395-6011, Volume 4, Issue 3, pp.529-538, January-February-2018.