Impact of Converter Topologies on the Performance of Permanent Magnet Brushless DC Motor

  • Authors

    • S. Sivaranjani
    • K. C.Ramya
    • S. Sheebarani
    • J. Karthika
    • V. Gomathy
    • N. Subha Lakshmi
    2018-11-27
    https://doi.org/10.14419/ijet.v7i4.19.22088
  • VSI, ZSI, MLI, ZSMLI, BLDC and transient behavior.
  • Comparative merits over AC motors leads to replacing of other electrical motors by DC motors in applications stretching from high-speed automation to electric motorbikes. However, brushed DC motors are popular for applications where speed needs to be varied or torque needs to be controlled precisely. Because of higher performance and/or reliability, Brushless DC motors are preferred rather than brushed one. Moreover typical brushed DC motor is exposed to sparking during commutation. Electronic commutation via power converters in BLDC motors replaces the mechanical commutation of typical DC motor. It is essential to understand the impact of these converters on the performance of BLDC motors. Hence this paper presents a comparative analysis of various power converters fed Brush Less DC motor.  The simulation results show that the impact of power converters on the enactment of BLDC motor.

     

     

  • References

    1. [1] H.S.Sangolkar and P.A.Salodkar, “Comparative Analysis of Three Topologies of Three-Phase Five Level Inverterâ€, International Journal of Scientific Engineering and Technology. Volume No.3 Issue No.6, pp : 818-822.

      [2] M.Murugesan, S.Sivaranjani, G.Asokkumar and R.Sivakumar, “Seven Level Modified Cascaded Inverter for Induction Motor Drive Applicationsâ€, Journal of Information Engineering and Applications Vol 1, No.1, 2011.

      [3] Corzine, K.A., Wielebski, M.W., Peng, F.Z and Wang, J., (2004), “Control of cascaded multilevel invertersâ€, IEEE Trans. Power Electron. Vol.19, No.3, 732-738.

      [4] F. Z. Peng, “Z-Source Inverter,†IEEE Transactions on Industry Applications, 39(2), pp.504–510, March/April 2003.

      [5] R. Krishnan, “Electric Motor Drives-Modeling Analysis and Control†Prentice Hall,2005. Peng F.Z,â€Z source inverter†IAS annual meeting conference on Industry Applications conference,13-18 Oct. 2002,Volume 2,PP 775-781.

      [6] Rodriguez J,Jih-Sheng Lai and Fang Zheng Peng, “Multilevel inverters: a survey of topologies, controls, and applicationsâ€, IEEE transactions on Industrial Electronics, August 2002, PP 724-738.

      [7] M. H. Rashid, “Power Electronics: Circuits, Devices and Applicationsâ€, Prentice Hall, New York, NY, USA, 3rd edition, 2004.

      [8] S.Sheeba Rani, V.Gomathy and R.Geethamani, “Embedded design in synchronistaion of alternator automation†in International Journal of Engineering and Technology(IJET) , Volume No.7, 2018, pp 460-463, April 2018

      [9] B.Y. Husodo, M. Anwari, S.M. Ayob and Taufik, “Analysis and Simulations of Z-Source Inverter Control Methods†in proceedings of IEEE International Power Electronics Conference 2010.

      [10] Nayak and Dash, “Performance Analysis of Different Control Strategies in a Z-source Inverterâ€, Engineering, Technology & Applied Science Research Vol. 3, _o. 2, 2013, 391-395.

      [11] Surya Suresh Kota, Vishnu Prasad Muddineni, Adithya Kumar Dadiboina and Gopilatha Venna, “Simulation and analysis of novel cascaded z source inverter†International Journal of Advances in Engineering & Technology, Jan. 2013, Vol. 5, Issue 2, pp. 207-215.

      [12] S.Sheeba Rani , Jarin.T and Sreeja Mole.S.S, “Unique PWM cast for Induction motor drives with embracing non-deterministic characteristics and evaluation using FPGA †in International Journal of Pure and Applied Mathematics.Vol 117 No. 10, 2017, 25-29,December, 2017

      [13] S.Sivaranjani and R.Rajeswari, “Dynamic Rule Soft Switching Control Fed Virtual Z-source Multilevel Inverter Topology for Permanent Magnet Brushless DC Motor Applicationâ€, International Journal of Printing, Packaging & Allied Sciences, Vol. 4, No. 5, December 2016.

  • Downloads

  • How to Cite

    Sivaranjani, S., C.Ramya, K., Sheebarani, S., Karthika, J., Gomathy, V., & Subha Lakshmi, N. (2018). Impact of Converter Topologies on the Performance of Permanent Magnet Brushless DC Motor. International Journal of Engineering & Technology, 7(4.19), 343-348. https://doi.org/10.14419/ijet.v7i4.19.22088