Modeling and Adaptive Control of Novel Electromechanical Inverter

  • Muhammad Siddique Department of Electrical Engineering, NFC Institute of Engineering and Technology Multan, Pakistan
  • Bushra Syed Electrical Engineering Department, MNS UET Multan, Pakistan
  • Muhammad Shahzad Electrical Engineering Department, MNS UET Multan, Pakistan
  • Ayesha Khalid Electrical Engineering Department, MNS UET Multan, Pakistan
  • Kiran Amjad Electrical Engineering Department, MNS UET Multan, Pakistan
  • Sara Mukhtar Electrical Engineering Department, MNS UET Multan, Pakistan
  • Khawar Saleem Akhtar Electrical Engineering Department, NFC IET Multan, Multan
Keywords: Electromechanical Inverter, DC Motor, MRAC, speed control, MIT rule

Abstract

A novel idea of electromechanical inverter (EMI) is proposed. This inverter minimize the complexity and cost of conventional rotating magnetic field inverters. The electromechanical inverter works on phenomena of rotating magnetic field in which changing flux in the external coils through dc motor induced an emf in the output coil. For controlling the speed of dc motor and rotation of coils, the adaptive control is used to avoid the saturation in magnetic field. The adaptive control system that is used for the electromechanical inverter (EMI) is model-reference adaptive control (MRAC) which has four parts i.e plant, reference model, adaptation mechanism and control law. An adaptation mechanism is designed with MIT rule of MRAC. The authenticity of proposed control technique for electromechanical inverter is verified by simulation results. The simulation result shows efficacy of proposed adaptive control technique using MATLAB

Published
2021-06-24
How to Cite
[1]
M. Siddique, “Modeling and Adaptive Control of Novel Electromechanical Inverter”, PakJET, vol. 4, no. 2, pp. 76-82, Jun. 2021.