Enerdel Products
Products
We manufacture cells, packs, and energy storage systems in the US and customize our products for each client and project. Our multiple chemistries, prismatic cell design and proprietary stacking architecture result in products that offer superior long life, dependability, and safety
Transportation
To serve the automotive electric drive market, we offer cells and systems which are scalable from light electric vehicles to buses and heavy-duty transportation. Our cells contain the core chemistries that have been specially blended and designed to meet the distinct requirements of the vehicle type: HEV chemistries are designed for power performance, whereas PHEV and EV chemistries offer blended power and energy performance.
CELLS
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C-MH
LTO/LMO
Anode (-) Lithium Titanate Oxide / Cathode (+) Lithium Manganese Oxide
With an emphasis on power, this cell is designed for mild HEV applications and evokes a music CD in size and shape
A-MH
LTO/LMO
Anode (-) Lithium Titanate Oxide / Cathode (+) Lithium Manganese Oxide
This envelope-sized cell delivers power for mild HEV applications.
A-FH
HC/LMO
Anode (-) Hard Carbon / Cathode (+) Lithium Manganese Oxide
This cell provides a custom balance of power and energy for mild to full HEV applications.
T-HE
The size of a composition notebook, this cell offers higher energy for endurance and is designed for full EV applications
T-PV
This is a power variant of the T-HE cell and is designed for the PHEV application with a mix of power and energy characteristics
PACKS AND SYSTEMS
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We can deliver complete energy storage systems with fully integrated subsystems for a complete vehicle solution. Utilizing architecture, we integrate lithium-ion cells with thermal, mechanical, electrical and software subsystems. The stacked design of our packs provides a variety of options for cooling, which allows for optimum thermal management, performance and safety.
H120
Designed to power HEVs, the H120 is the building block of our technology
H240
Designed specifically for integration into a Toyota Prius to demonstrate complete integration into an existing vehicle, and was found to provide higher power capability and greater electric-only range than the current NiMH battery
E350-25
The cornerstone of our EV applications, this system provides high energy content to provide maximum driving range. Also known as "the Th!nk pack," this model was developed to power the Th!nk City EV
P350
This pack is roughly the size of the E350-25 and utilizes the same internal stacking and module design, but uses a power variant cell specially tailored to PHEV applications
Smart Grid
Using the chemistries of our cell designs as building blocks, we are conceiving and developing energy storage with battery management systems to support and advance the next generation of power grids, called "smart grids" for their use of digital technology to route and regulate power. We are developing three basic systems, classified by range capability
Residential (RES)
The RES system will be designed to provide an Uninterruptible Power Source (UPS) for a home or other single structure. The RES would kick in when a power outage occurs so that the consumer’s service remains uninterrupted while the problem is addressed. About the size of a large washing machine, the RES is intended to work with renewable sources of energy like solar and wind and regulate the fluctuations in energy capture as well as usage
Community (CES)
This larger-scaled system would be designed to serve as backup for a neighborhood block or other group of structures that share the same power grid. Like the RES, it would level out fluctuations in usage and provide UPS to mitigate power outages. The power of the CES would be housed in a container that is not much larger than a refrigerator.
Metropolitan (MUP)
This system is in development for energy storage on a city-wide scale. Just the size of a cargo container, it would have the capacity to regulate power to mitigate the stress of mass usage during peak activity periods and compensate when power input dips while usage is still strong. Additionally, the MUP would serve as a short-term failsafe when repairs are urgently needed so that service to consumers remains uninterrupted.
Government
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Lithium-ion battery technology is an increasing priority of the US government as the nation moves toward a new era of energy independence. Accordingly, we are developing battery technology under contract with government agencies for a wide range of operations and infrastructure. Important technology characteristics are enabling lightweight and durable systems, with the ability to operate in harsh climates.
Phoenix & Falcon
The Phoenix and Falcon are batteries designed to work with GPS systems for real-time tracking of vital assets which are subjected to various sorts of weather conditions.