Electric drive system with directly coupled traction motor and two‐speed transmission is a good choice for electric vehicles because of the potential in energy efficiency improvement and motor size reduction. Here, a control hierarchy of the electric powertrain has been applied, which comprises an optimal shift schedule at entire driving cycles as well as torque and speed control of the traction motor at the certain shift process. Firstly, the energy‐saving shift schedule is investigated by dynamic programming methods. Then, bench tests of the integrated motor‐transmission system are conducted. The oscillation of driveline and unsatisfied speed regulation of the traction motor are observed in the experiment results, which will deteriorate the shift performance. Therefore, an anti‐jerking robust controller is designed to attenuate the vibration of the powertrain and a robust speed controller is proposed to enhance the speed synchronisation capability of the traction motor. Simulation results indicate that the obtained shift schedule is effective to improve the energy efficiency and the robust shift process control can enhance the drive ability.
Robust shifting control of a motor‐transmission integrated system considering anti‐jerking and speed regulation for electric vehicles
IET Intelligent Transport Systems ; 13 , 1 ; 141-152
2019-01-01
12 pages
Article (Journal)
Electronic Resource
English
anti jerking robust controller , torque control , synchronisation , optimal shift schedule , power transmission (mechanical) , vibration attenuation , directly coupled traction motor , driveline oscillation , control system synthesis , robust speed controller , robust shifting control , driving cycles , traction motor drives , electric vehicles , speed control , motor‐transmission integrated system , unsatisfied speed regulation , dynamic programming , two‐speed transmission , vibration control , energy conservation , energy‐saving shift schedule , electric powertrain , motor size reduction , robust control , electric drive system , energy efficiency improvement , robust shift process control , control hierarchy , angular velocity control , machine control , dynamic programming methods , speed synchronisation capability
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