Cell chemistries

Power Battery delivers customized battery solutions. The starting point for each project is the use case, business case, desired specifications and available space for the battery solution. Based on these insights, the cell chemistry that is most suitable for a specific application is determined together with the customer.

In order to meet most of the demands from the market, Power Battery works with 4 different cell chemistries, each with their own advantages and disadvantages. For each cell type, we use in-house developed modules. The specific modules for the different cell types ensure that the negative aspects of a cell are compensated as well as possible and the positive properties are strengthened. We apply the following cell chemistries:

Lifepo4

For applications where size and weight are less critical, we offer LiFePO4 battery pack engineering. This cell type is less sensitive to temperature fluctuations, has an excellent lifespan and is cheaper per kWh than, for example, NCA technology. The safety, long lifespan and favorable costs make this cell type ideal for robust, affordable energy supplies where compactness is less important.

NCA

For applications that require constant high power, but with limited space and weight, NCA batteries offer the highest energy density. They are perfect for demanding applications with high loads and a good cycle life. Combined with our patented cooling technology, the thermal efficiency ensures that they remain well within the manufacturers' specifications.

NMC

NMC battery packs offer an attractive mix of high energy density, advanced safety features, long cycle life, fast charging capabilities, adaptability and cost efficiency. This versatility makes them the preferred option for a wide range of applications in the growing battery market.

LTO

LTO batteries are ideal for high-power applications with high peak powers. Thanks to their fast charging time, long life, wide temperature range, safety, low maintenance, environmental friendliness and fast charging capabilities, these cells are ideal in combination with fuel cells.

Frequently Asked Questions about Power Battery

Superior cooling performance

  • More efficient heat dissipation than air cooling, keeping battery cells at optimal temperature for maximum performance.
  • Prevents thermal degradation and extends battery cell life up to 3 times that of air-cooled systems.
  • Constant temperature control in each cell for consistent performance and safety.

Cost savings

  • Longer life of the expensive battery cells means lower total cost of ownership.
  • Reduced maintenance and replacement costs due to robust, durable cooling solution.
  • Higher energy efficiency than conventional cooling systems for lower operating costs.

Flexible integration

  • Compact, modular designs fit into tight installation spaces.
  • Adaptable to different battery chemistries, sizes and packaging.
  • Seamless integration into existing and new EV powertrain designs.

Sustainability

  • Closed fluid circuit minimizes spills and leaks.
  • Reuse of residual heat for other applications possible.
  • Extends battery life for less waste and pollution.

Other Technology

Battery Types and Cell Chemistries

Four different battery types for various applications. We apply the following cell chemistries.

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Battery modules

Our battery modules are available in four variants to meet the specific needs of your application.

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Battery packs

Ready-to-use, liquid-cooled lithium-ion battery packs tailored to high power and mobility.

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Cooling technology

Our innovative and unique plug & play cooling solution keeps batteries cool during extreme discharge.

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Datasheets

Please see our datasheets for full details. We are happy to adapt our modular packs to your application.

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Power Battery calculator

Our battery modules are available in four variants to meet the specific needs of your application.

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