The Ultraviolette Tesseract electric scooter was launched in India on March 5, 2025. Ultraviolette used Solid-state/Li-ion battery in Tesseract Ev that may consume less charging time approx 0-80% in less then 1 hr that’s a big achievement.
Ultraviolette Tesseract Charging Time
The Ultraviolette has mentioned that the Tesseract EV concept will feature a Solid – State / Li – ion hybrid battery technology.
What is a Solid-State / Li-ion Battery? – Used In Tesseract EV
This is a hybrid term referring to a transition between current Li – ion batteries and future Solid – State batteries.
Solid-State / Li-ion Hybrid Battery Benefits
- Likely means a semi – solid electrolyte system or a transitional architecture that combines
- Faster ion transfer
- Better thermal management
- Enhanced safety and lifespan
Why This Battery Enables Fast Charging?
Lower Internal Resistance
Solid electrolytes or semi-solid structures offer faster ion mobility, meaning
- Less energy loss
- Faster current flow
- Quicker charge and discharge cycles
Better Heat Management
Less heat generation during charging prevents thermal damage and allows:
- Higher charge rates without overheating
- Stable performance at higher currents
So, Ultraviolette Tesseract used this battery for, to push performance boundaries in future EVs ,Enable safer, faster charging for high – power electric motorcycles, Stay ahead in EV innovation by preparing for a solid – state battery future.
The Ultraviolette Tesseract Ev may consume less charging time approx 0-80% in less then 1 hr.
Ultraviolette Tesseract Battery Capacity & Range.
Ultraviolette plans to equip the Tesseract with a high capacity solid – state / Li – ion hybrid battery designed for advanced performance, offering a claimed range of up to 300 km on a single charge. Although the company hasn’t officially disclosed the exact battery capacity, estimates place it in the range of 12 – 15 kWh, which supports long-distance rides and fast charging capabilities. The hybrid battery setup combines the energy density of li – ion with the safety and efficiency of solid – state technology.
