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Optimize power conversion

Efficient and power-dense power delivery bolsters the battery lifecycle

battery cells in production

Conserving energy and increasing throughput in all stages of the battery lifecycle

Maximizing throughput

To minimize capital equipment costs, a large increase in operational capability must be accomplished without expanding existing equipment footprints or facilities.

Recycling energy drives lower costs

To be competitive in the market, it’s necessary to recycle as much of the power used in the battery formation, testing and recycling processes to be as efficient and cost-effective as possible.

battery lifecycle

Maximum throughput and reliability through power density

Kilowatts of power fit in the palm of your hand

With industry leading power density, the three compact modules shown are capable of handling up to 6kW of power which is significantly higher than the closest competitive solution. Our high performance power modules provide the flexibility and scalability to design and manufacture systems that form, test and recycle a greater number of devices in parallel without having to expand operational footprint.

Vicor BCM6135, NBM 2317 and DCM4623

The modular approach to power

High performance power modules

Using miniaturized power modules with up to 5x the density, the modular approach uses less real estate, leaving more room for functionality. High efficiency modules require much simpler thermal management and allow for flexible and scalable designs that are simpler and quicker to design and update.

Effective power delivery networks

Unlike complex discrete solutions and inflexible “silver box” power systems, power delivery networks using power modules is quick and easy to design and implement. Accommodating new loads — or changes in power needs in a design — is easily accomplished by replacing or adding modules.

Anatomy of a Vicor Power Delivery Network

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