We have already reported on the optimal centre of gravity of a three-wheeled vehicle in an earlier blog post.

Since the battery of an electric vehicle is known to represent a considerable part of the total weight of an electric vehicle, it is obvious to position the 350 V energy storage system in the area of the desired centre of gravity of the vehicle as well. In the TWIKE 5, with the maximum battery configuration of about 30 kWh, the base frame will be filled with up to six TWIKE batteries, each weighing about 19 kg.

The unprecedented high energy density of more than 255 Wh/kg results on the one hand from the decision to use the latest LiIon cell in 18650 format. However, the packaging, which has been optimised in terms of its lightweight construction, and an innovative air conduction system for uniform temperature control and preconditioning of the entire energy pack also make a significant contribution. Consideration was also given to the possibility of removing the battery in the event of a later change or conversion, as well as the stiffening effect for the body as a whole.

A so-called master box houses the monitoring electronics, sits visibly behind the row of seats on the actual energy storage unit and represents the interface to the vehicle's other high-voltage system. In the WLTP cycle, this results in a range beyond 400 km; in practice, we expect to surpass the 613 km already experienced with the TWIKE 3.