关键词: 减速；制动；能量回收；蓄电池

Abstract: When the traditional car decelerates or brakes, the vehicle motion energy is converted into heat energy through the braking system and released into the atmosphere. And new energy vehicles through braking energy recovery technology into electric energy storage battery, so as to improve the endurance of the vehicle. New energy vehicles in the braking process, to ensure the braking stability and stability, and as much as possible to recover the braking energy, in order to extend the range of new energy vehicles. By studying the definition, composition and working principle of the braking energy recovery system, this paper analyzes the working process of regenerative braking energy recovery of the motor of new energy vehicles and the braking energy recovery system, and clarifies the role of each component of the braking energy recovery system. It focuses on the composition of the Tiguan L PHEV braking system, the hybrid braking principle of the Tiguan L PHEV braking energy recovery system, that is, the support of deceleration request, friction deceleration, regenerative deceleration and the support of the three-phase current drive device are less than four working processes; the Tiguan L PHEV braking energy recovery system is mainly realized by controlling electromechanical brake booster E-BKV and accumulator VX70. The driver's deceleration request is the synthesis of friction deceleration and energy recovery deceleration.

Key words: Decelerate; Brake; Energy recovery; Battery