3 Phase Motor by using 3 Phase Star Delta Starter Voltage Reducing Method with Inverter

International Journal of Electrical and Electronics Engineering
© 2018 by SSRG - IJEEE Journal
Volume 5 Issue 11
Year of Publication : 2018
Authors : Sairatun Nesa Soheli and Md Saidul Hasan
pdf
How to Cite?

Sairatun Nesa Soheli and Md Saidul Hasan, "3 Phase Motor by using 3 Phase Star Delta Starter Voltage Reducing Method with Inverter," SSRG International Journal of Electrical and Electronics Engineering, vol. 5,  no. 11, pp. 19-22, 2018. Crossref, https://doi.org/10.14445/23488379/IJEEE-V5I11P104

Abstract:

 Normal loaded current is not able to start a motor, at starting time every motor need 1.8 to 2 time greater current from normal loaded current, that’s why needs some for providing that amount current. There are two methods are use for starting a motor, auto transformer starting and star delta starting. This paper presents the most popular three phase motor starting process, 3 phase star delta starter voltage reducing method as well as it also presents that, by using AC to AC inverter how can get the proper output voltage, current, torque and frequency. Also will know the way of inverter how to able protect the circuit from over load and how the way can get accurate output 3 phase star delta starter motor control board with using inverter.

Keywords:

 Methodology, Star Delta Method, Inverter, Block Diagram, Algorithm

References:

[1] H. Li and L. Jingcan, "Application of Improved Real-coded Genetic Algorithm to Three-phase Induction Motors’ Optimal Design [J]," S& M Electric Machines, vol. 2, p. 000, 2005. 
[2] S. Kim, et al., "A new approach to improve power factor and reduce harmonics in a three phase diode rectifier type utility interface," in Industry Applications Society Annual Meeting, 1993., Conference Record of the 1993 IEEE, 1993, pp. 993-1000. 
[3] P. J. Dhyanchand, "Summing transformer core for star-delta inverter having a separate secondary winding for each primary winding," ed: Google Patents, 1993. 
[4] T. Chan, "Performance analysis of a three-phase induction generator self-excited with a single capacitance," IEEE Transactions on Energy Conversion, vol. 14, pp. 894-900, 1999. 
[5] M. V. Cistelecan, et al., "Adjustable flux three-phase AC machines with combined multiple-step star-delta winding connections," IEEE Transactions on Energy Conversion, vol. 25, pp. 348-355, 2010. 
[6] Y. Lei, et al., "Design and analysis of star–delta hybrid windings for high-voltage induction motors," IEEE Transactions on Industrial Electronics, vol. 58, pp. 3758-3767, 2011. 
[7] J. Brown and C. Jha, "The starting of a 3-phase induction motor connected to a single-phase supply system," Proceedings of the IEE-Part A: Power Engineering, vol. 106, pp. 183-190, 1959. 
[8] K. Sundareswaran and B. Jos, "Development and analysis of novel soft-starter/energy-saver topology for delta-connected induction motors," IEE Proceedings-Electric Power Applications, vol. 152, pp. 922-932, 2005. 
[9] A. Tozune, "Balanced operation of three-phase induction motor with asymmetrical stator windings connected to single-phase supply system," in IEE Proceedings B-Electric Power Applications, 1991, pp. 167-174. 
[10] R. F. McElveen and M. K. Toney, "Starting high-inertia loads," IEEE transactions on industry applications, vol. 37, pp. 137-144, 2001. 
[11] C. Tindall and W. Monteith, "Balanced operation of 3-phase induction motors connected to single-phase supplies," in Proceedings of the institution of Electrical Engineers, 1976, pp. 517-522. 
[12] M. N. Ibrahim, et al., "Combined star-delta windings to improve synchronous reluctance motor performance," IEEE Trans. Energy Convers, vol. 31, pp. 1479-1487, 2016.