Energy for new energy vehicles during deceleration and braking** is an important energy-saving technology, which can convert the energy generated during braking into electrical energy and store it, thereby improving the energy efficiency of the vehicle. The following is the specific process of energy ** when decelerating and braking of new energy vehicles:
The braking system senses driving intent: When the driver presses the brake pedal, the braking system senses the driver's braking intent and transmits this signal to the energy system.
Energy System Start: After receiving the signal from the braking system, the Energy System will start the program. At this time, the motor controller will control the motor to enter the power generation mode and convert the vehicle's kinetic energy into electrical energy.
Electrical energy storage: The converted electrical energy is stored in the on-board battery through the battery management system. The battery management system controls the charge of the battery to ensure that the battery is charged safely and efficiently.
Regenerative braking: During the energy** process, the reverse torque generated by the motor acts on the wheels and helps the vehicle slow down. This method of regenerative braking reduces wear and tear on conventional braking systems while improving braking effectiveness.
Energy reuse: The stored electrical energy can be reused during vehicle acceleration or driving, thereby reducing the consumption of traditional energy and improving the range of new energy vehicles.
It should be noted that the efficiency of the energy system will be affected by a variety of factors, such as the performance of the motor, the energy storage capacity of the battery, the control strategy, etc. Therefore, in practical applications, the energy** system needs to be optimized and adjusted according to the specific situation of the vehicle and the driving environment to achieve the best energy saving effect.
New energy vehicles