Microprocessor Based Firing Circuit for Static Slip Energy Recovery Controlled Slip Ring Induction Motor Drive

  • Authors

    • B K Singh
    • K B Naik
    https://doi.org/10.14419/ijet.v7i3.12.17620

    Received date: August 16, 2018

    Accepted date: August 16, 2018

    Published date: July 20, 2018

  • .

  • Abstract

    Microprocessor based firing control scheme of static slip energy recovery (SER) controlled slip ring induction motor drive is described. In the scheme the microprocessor generates firing pulses and also decides the pair of thyristors of the controlled converter to be gated. It uses less number of hardware components. The oscillograms at different points of the firing circuit and at the output of the controlled converter are presented. These oscillograms resemble with the theoretical wave forms.

  • References

    1. H.W. Weiss, “Adjustable speed ac drive systems for pump, compressor applications” IEEE Trans. Ind. Appl., Vol. IA-10, PP. 162-167, 1974
    2. W. Shepherd and J. Stanway, “Slip power recovery in an induction motor by the use of thyristor inverter,” IEEE Trans. Ind. Gen. Appl., Vol. IGA-5, no. 1, PP. 74-82, Jan/Feb 1969
    3. A. Lavi and R. J. Polge, “Induction motor speed control with static inverter in the rotor,” IEEE Trans. Power Apparatus System, Vol. PAS-85, No.1, PP. 76-84, Jan.1966.
    4. G. Olivier, V. R. Stefanovic and G. E. April, “Evaluation of phase commutated converters for slip power control induction drives,” IEEE Trans. Ind. Appl., IA-19, no.1, pp. 105-112, Jan/Feb 1983
    5. Ziyad Salameh and Sunway Wang, “ Microprocessor control of double output induction generator,” IEEE Trans. energy conversion Vol .4, no .2, PP 172-176, June 1989
    6. A. K. Line and W. W. Koepsel, “A microprocessor speed control system,” IEEE Trans. Industrial Electronics & control Inst., Vo1. IECI-24, PP 241-247, no. 3, Aug.1977

  • Downloads

  • How to Cite

    K Singh, B., & B Naik, K. (2018). Microprocessor Based Firing Circuit for Static Slip Energy Recovery Controlled Slip Ring Induction Motor Drive. International Journal of Engineering and Technology, 7(3.12), 994-998. https://doi.org/10.14419/ijet.v7i3.12.17620