The National Research Council of Canada has confirmed the effectiveness of this next-generation rebalancing technology in correcting cell imbalances within lithium-ion battery packs.

In a recent trial, the Prototype 2.0 successfully rebalanced a 96-cell Nissan Leaf battery pack, fully restoring its capacity and achieving a 3.9% increase in usable capacity.

The company is strategically focusing on extending battery life and reducing lifecycle costs for both passenger and commercial electric vehicles, especially as nearly 40 million vehicles are projected to soon exit warranty coverage.

Battery X's ongoing validation efforts are set to expand across various electric vehicle battery platforms, reinforcing its position as a leader in the EV battery reconditioning market.

The company aims to continue its validation phase and transition from provisional to full utility patent applications, which will enhance its market readiness.

A second trial on a 144-cell battery pack from a Class 3 commercial vehicle further demonstrated the technology's robustness by recovering significant capacity lost due to imbalance.

Battery X Rebalancing Technologies has successfully validated its provisional patent applications through trials of its next-generation lithium-ion battery rebalancing machine, achieving a remarkable 100% recovery of imbalance-related capacity in a Nissan Leaf.

Additionally, the trials demonstrated a 37.7% recovery in a severely imbalanced Class 3 commercial electric vehicle battery pack.

The trials confirmed the effectiveness of both the hardware and software innovations outlined in the provisional patent applications filed with the United States Patent and Trademark Office.

Battery X's innovations address the increasing challenges of battery degradation and replacement costs, particularly as global electric vehicle sales reached approximately 17.1 million units in 2024.

CEO Massimo Bellini Bressi highlighted the significance of these real-world results, stating they validate the technology's ability to recover capacity and enhance performance in practical applications.