BAVERTIS - efficient energy storage using software-defined batteries and an intelligent battery management system
YOU ARE UPGRADE. TO A SMART. BATTERY.
WE CREATE THE
SUSTAINABLE FUTURE
OF BATTERIES IN MOBILITY
BAVERTIS makes your energy storage efficient, durable, fast and independent. To do so, we develop a software-driven battery ecosystem to increase the battery life of electric vehicles by up to 80%. Our artificial intelligence uses highly accurate battery data generated from our microchip within the vehicle battery.
WHY CHOOSE US??
SUSTAINABILITY
SUSTAINABILITY
At BAVERTIS, we place a high priority on environmental engineering and green technology. Our goal is to make battery systems smarter and more modular, thus extending
EXTENDED LIFETIME
EXTENDED LIFETIME
BAVERTIS’ smart battery systems have up to an 80% longer lifetime, offering increased energy efficiency. We achieve this with the help of cell-specific load profiles.
BATTERY ANALYTICS
BATTERY ANALYTICS
With its software-defined battery, BAVERTIS integrates an intelligent battery management system (BMS) and monitors each cell of the energy storage system individually.
THE CURRENT CHALLENGE
A lot of work to
refurbish
the monolithc pack
Simple software update for reuse in an second or third live application
No to little data
to monitor the pack
AI based data and load handling of each induvial cell
High power bidirectional energy flow
Huge effort to match the cells on production
No need to match cells anymore from the manufacturer
High energy flow in just one direction
MULTILEVEL TECHNOLOGY FROM BAVERTIS
BAVERTIS uses a multilevel approach that has previously only been used in high-voltage applications. In this approach, arbitrary constant and dynamic voltage levels are interconnected and can thus also be used for low-voltage applications. By combining multilevel inverters with state-of-the-art battery technology and artificial intelligence, BAVERTIS provides a superior energy storage solution.
HOW THE BAVERTIS BATTERY WORKS
The revolutionary BAVERTIS energy storage system uses conventional battery cells which are integrated in modules with electronic power switches. These allow the modules to be connected in series or parallel as required and likewise allow bridging. Compared to conventional batteries, where the cells are connected in an unchanging configuration, this innovation creates redundancy and additional degrees of freedom. Combined with an intelligent operating strategy, any AC or DC battery output or input becomes possible. External power electronics are no longer necessary and the cells can be used according to their state of charge and aging, optimizing efficiency and battery lifetime.
- Conventional vehicle batteries are powered by monolithic battery packs consisting of 250 to 8,000 individual battery cells.
- They operate at a voltage of 400 to 800 volts.
- Operating such a high-voltage system requires an on-board charger to charge the battery, an inverter to run the electric motor and a battery management system (BMS) to monitor the state of charge.
- In this setup, little to no data is generated for battery analysis to optimize the energy storage system.
- Differentiation of the individual cells of such a battery cannot be avoided over the course of its service life, which, in turn, leads to a shortened service life of the energy storage device.
A lot of work to
refurbish
the monolithc pack
Simple software update
for reuse in an second or
third live application
No to little data
to monitor the pack
AI based data and
load handling
of each induvial cell
High power bidirectional energy flow
Huge effort to match the cells on production
No need to match cells anymore from the manufacturer
High energy flow in just one direction
refurbish the monolithc pack
MEET OUR TEAM
THE BRAINS BEHIND BAVERTIS
THE BAVERTIS STORY
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