The working principle of the motor relies on electromagnetic action, and the acceleration, speed control and energy efficiency are optimized through control technology.
What are the components of a new energy vehicle?
Provided by the Springer Nature SharedIt content-sharing initiative Policies and ethics The “Three-electricity” system (battery system, electric drive system and electric control system) is the most important component of a new energy vehicle. Compared with the battery system, which determines the driving distance of the new energy vehicle,...
What technology does a new energy vehicle have?
For new energy vehicles, there are three key technologies that traditional vehicles don't have. The core of traditional vehicles is its three parts, while for pure electric vehicles, the most important part is its three-electric system.
What are the different types of new energy vehicle powertrain?
Depending on the types of new energy vehicles, the new energy vehicle powertrain can be classified into BEV powertrain, HEV powertrain and FCEV powertrain. The electric vehicle has a variety of powertrain architectures, the connections between the motor and the transmission or other drive mechanisms are diverse.
How efficient is a 3 kW SRD asynchronous motor?
Taking a 3 kW SRD as an example, its system efficiency is 87% or more in a wide range, which is not easy to be achieved by some other speed control systems. Compared with the system of the squirrel-cage asynchronous motor using PWM converter, this system has generally 5–10% higher efficiency at different speeds and different loads.
The permanent magnet with high residual flux density is installed on the rotor, which greatly improves the power density of the motor. Under the same volume, the permanent magnet motor can output greater power and torque, and its energy conversion rate is usually between 90 and 95%.
The EVD1 uses the induction motors with a maximum continuous power output of 30 kW, a maximum power output of 90 kW, and a maximum speed of up to 21,000 r/min. The reduction ratio is 16:1 and the reducer adopts two-stage deceleration, with the stage 1 of planetary gear train and the stage 2 of helical gear.