BYD Han electric vehicle offers two endurance versions based on different configurations, with a maximum range of 605 kilometers, China's latest batch of new energy vehicle promotion catalog showed.
The energy density of the Han electric vehicle's battery system is 140Wh/kg. This battery is the latest lithium iron phosphate "blade battery" developed by BYD. While ensuring high energy density and longevity, it also effectively reduces battery manufacturing costs.
Specifically, Han electric vehicles are divided into single motors and dual motors. Among them, the single motor version has a maximum power of 222 horsepower, a peak torque of 330 N·m, a curb weight of 2020 kg, and a NEDC comprehensive battery life of 605 km.
Han EV single motor model
The dual-motor model is equipped with a maximum power 222-horsepower front drive motor and a 272-horsepower rear drive motor. The curb weight is 2170kg, and the NEDC has a comprehensive battery life of 550km.
Han EV dual motor model
In addition, the maximum power of the Han DM (plug-in hybrid) engine is 192 horsepower, the maximum power of the motor is 245 horsepower, the curb weight is 2020kg, and it is equipped with a ternary lithium battery. The NEDC pure electric battery has a mileage of 81km.
Han DM models
According to previous news, BYD Han locates medium and large-sized cars and adopts a four-door coupe-type body. It is expected to be officially launched in June this year.
The so-called "blade battery" is a large battery cell longer than 0.6 m developed by BYD, arranged together in an array, and inserted into the battery pack like a "blade".
On the one hand, it can improve the space utilization rate and energy density of the power battery pack; on the other hand, it can ensure that the battery cell has a sufficient heat dissipation area, which can conduct internal heat to the outside, thereby matching higher energy density.
According to patent information, the battery cell can be module-free and directly integrated into a battery pack (CTP technology), thereby greatly improving the integration efficiency.
