The older model e-Golf, with its limited 24.2kWh battery, often falls short of modern electric vehicle range expectations. A potential solution has emerged from Kreisel Electric, an Austrian company known for innovative battery technology. They’ve developed a prototype 55.7kWh battery pack designed specifically as an e-Golf battery upgrade, significantly surpassing even the newer model’s 38kWh capacity.
This substantial upgrade promises a dramatic increase in range, potentially reaching 350-450km (217-280 miles), transforming the older e-Golf into a long-range contender. Coupled with 150A fast charging capabilities, recharging times could be reduced to approximately 20 minutes. This combination of extended range and rapid charging would make the older e-Golf a significantly more practical and desirable electric vehicle.
Kreisel Electric’s e-Golf battery upgrade incorporates advanced battery technology, exceeding the capacity of current production models. This prototype demonstrates the potential for significantly improving the range and charging capabilities of existing electric vehicles. Such advancements could play a crucial role in accelerating the broader adoption of electric vehicles.
Unfortunately, acquiring this e-Golf battery upgrade directly from Kreisel Electric is currently not possible. Their business model focuses on providing system solutions and series applications for customer orders, rather than offering individual battery packs for sale. The prototype e-Golf serves as a demonstration of their capabilities, not a commercially available product. While Kreisel Electric is open to partnerships, individual consumers cannot purchase this specific battery upgrade.
While the Kreisel Electric e-Golf battery upgrade is not available for purchase, it highlights the potential for significant improvements in electric vehicle range and charging performance. This prototype serves as a testament to ongoing advancements in battery technology and offers a glimpse into the future possibilities for upgrading existing electric vehicles. As the demand for electric vehicles continues to grow, innovations like this will likely pave the way for more efficient and practical electric mobility solutions.
