Electric vehicles energy management using lithium-batteries and ultracapacitors
Résumé
This paper presents energy management strategy for electric vehicle (EV) applications. The proposed method is used to share the requested energy of the EV between the ultracapacitors (UCs) and lithium-batteries. The traction motor is a Permanent Magnet Synchronous Machine (PMSM) controlled by a Voltage-Source-Inverter (VSI) and fed by the UCs and the batteries. The energy storage system (ESS) is connected to DC-bus through two DC-DC converters. The aim of this paper is focused on requested EV power sharing between UCs pack and the batteries pack according to the dynamic response of these sources using anti-windup PI controller. This study is based on a real example of EV, in addition only the traction mode is considered. The performances of the proposed method are evaluated through some simulations using MATALB/Simulink software.
Mots clés
Synchronous machines
Vehicle dynamics
Supercapacitors
battery powered vehicles
DC-DC power convertors
energy management systems
invertors
machine control
permanent magnet motors
PI control
primary cells
supercapacitors
synchronous motors
traction motors
voltage-source convertors
electric vehicle energy management
lithium-batteries
electric vehicle applications
EV applications
ultracapacitor pack
UC pack
DC-DC converter
traction motor
permanent magnet synchronous machine control
PMSM control
voltage source inverter
VSI
antiwindup PI controller
energy storage system
ESS
DC-bus
EV power sharing
traction mode
Matalb-Simulink software
Bidirectional DC/DC converter
PMSM
DC motor
Voltage Source Inverter
Electric vehicle
Anti-windup PI controller
Lithium battery
Ultracapacitors
Energy management