Maximizing Regenerative Braking Energy Recovery of Electric Vehicles Through Dynamic Low-Speed Cutoff Point Detection
- Resource Type
- Periodical
- Authors
- Heydari, S.; Fajri, P.; Rasheduzzaman, M.; Sabzehgar, R.
- Source
- IEEE Transactions on Transportation Electrification IEEE Trans. Transp. Electrific. Transportation Electrification, IEEE Transactions on. 5(1):262-270 Mar, 2019
- Subject
- Transportation
Aerospace
Components, Circuits, Devices and Systems
Power, Energy and Industry Applications
Brakes
Force
Axles
Transportation
Batteries
DC motors
Friction
Brake controller
electric vehicle (EV)
friction braking
recaptured energy
regenerative braking
test bench
- Language
- ISSN
- 2332-7782
2372-2088
This paper introduces a novel approach for dynamically detecting the lowest speed threshold at which regenerative braking is effective in electric vehicles (EVs). The control approach is based on real-time sensing of the motor controller dc link current and disabling regenerative braking when current changes direction while the motor is operating as a generator. Various factors influencing the regenerative braking capability of EVs at low speed are discussed, and the simulation studies are carried out to illustrate the effect of each factor on the displacement of the low-speed threshold. Based on the results obtained from the simulation studies, a dynamic low-speed cutoff point (LSCP) detection method is proposed. This method requires no hardware modification to the vehicle braking architecture and can be implemented solely by modifying the brake controller. The proposed method is tested on an experimental EV test platform for a predetermined drive cycle. It is shown that in comparison to considering a constant low-speed threshold during braking, the amount of energy recaptured through the regenerative braking process can be improved by taking advantage of the proposed method.