Shanghai Jiaotong Daxue xuebao (Feb 2021)

Control Strategy for Electric Vehicle Range-Extender Based on Hybrid Excitation Generator

  • HOU Jue,
  • YAO Dongwei,
  • WU Feng,
  • LÜ Chenglei,
  • WANG Han,
  • SHEN Junhao

DOI
https://doi.org/10.16183/j.cnki.jsjtu.2019.203
Journal volume & issue
Vol. 55, no. 02
pp. 206 – 212

Abstract

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Based on a hybrid excitation generator, a novel electric vehicle range-extender was proposed and the control system structure and the working principle were described. The multi-speed point working area was determined, according to the overall efficiency characteristics of the hybrid excitation range-extender. Based on the flexible adjustable characteristics of the air-gap magnetic field of the hybrid excitation generator, a double-closed-loop generation control algorithm was designed by decoupling the speed-power around the working area of the range-extender. The control strategy model was built by using MATLAB/Simulink and verified based on the prototype of the self-developed hybrid excitation range-extender. The test results show that the hybrid excitation range-extender has fast-dynamic response of output power and small steady-state error of speed and power control. Further, the steady-state and transient operating conditions are both located in the set working area. Therefore the power generation control strategy is feasible.

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