HiPhi A offers a 1,305 PS powertrain with ultra-high-speed motors and advanced safety features.
Achieves 0-100 km/h in just over 2 seconds, aiming for a near 300km/h top speed.
Features a futuristic design with TC4 titanium and high-performance materials, redefining luxury hypercars.
The recent unveiling of the HiPhi A, a collaborative venture between HiPhi, WESAIL New Energy Automotive, and ShanghaiTech University, marks a significant milestone in the hypercar segment. This electric vehicle combines advanced technological features with a unique design approach, setting a new standard in the EV market.
Innovative Powertrain and Performance
The HiPhi A introduces an advanced powertrain, developed in-house, featuring a front single-motor and rear dual-motor drive layout, capable of a peak power output of 1,305 PS. The motors are equipped with ultra-high-speed carbon-fiber rotors and innovative cooling technologies, designed for 22,000 rpm capabilities and sustained high power output. The battery pack, notable for its 1.5MW peak discharge capacity, incorporates safety enhancements through HiPhi’s cloud control technology.
Performance-wise, the HiPhi A is engineered to accelerate from 0-100 km/h in just over 2 seconds, targeting a top speed of nearly 300km/h. The vehicle benefits from advanced chassis technologies, including rear-wheel active steering and CDC damping, alongside HiPhi’s HVC technology, improving handling and braking efficiency.
Futuristic Design and Material Innovation
The design of the HiPhi A features a modern aesthetic with carbon fiber and matte paint finish, complemented by wide front and rear wings and extra wide tires. The interior combines luxury elements with advanced digital features, offering a high-end experience. The use of aircraft-grade TC4 titanium alloy, alongside high-performance aluminum alloys and nano-ceramics, underscores the vehicle’s commitment to innovative material use and aesthetic appeal.
Collaborative Effort and Industry Advancement
The creation of the HiPhi A is a testament to the collaborative efforts of HiPhi, WESAIL New Energy Automotive, and ShanghaiTech University. One of the key innovations in this project is the promotion and application of 3D printing technology in the automotive industry, aiming to revolutionize automotive manufacturing processes.
The HiPhi A represents a significant step forward in the intelligent electric mobility sector, combining advanced technological features, innovative design, and high performance. As more details emerge, the HiPhi A stands as an example of what can be achieved through collaboration and innovation in the automotive industry.