Notice: We have plenty of 202ah cells, however we are currently out of stock of 170ah cells. We will have more stock available soon, but due to variations in ocean shipping, we are unable to provide an estimated arrival date.
These are Lithium-Iron-Phosphate (LiFePO4) Cells for DIY battery assemblies commonly used in solar systems, RVs, boats, OTR trucks and large scale energy storage. We have two capacity choices, 170ah and 200ah, model numbers EA170 and EA200, respectively. Add the number of cells desired to your cart.
These cells are 3.2v cells and include M6 serrated nuts. They need to be connected together with the appropriate bus bars, available in Copper and Aluminum. Our default quantity is 1 busbar per cell, so a 4 cell pack would get 4 busbars. You will also need a battery management system, sold separately. If you need help to determine which BMS you need, feel free to contact us.
Buy additional bus bars here. Please note this size is slotted to fit both EA170 and EA200:
Buy battery management systems here:
We recommend securing the cells together with VHB tape and rigidly fixturing the cells to prevent stress on the terminals caused by movement. Buy VHB Tape here:
This product is not a pre-designed all inclusive kit, such as those found here:
EnerAmp Batteries are A-grade cells, load tested and balanced at the factory. The guaranteed capacity is at least 170ah for EA170 and 202ah for EA200, with an internal resistance less than 0.3 milliohms.
Typically, 4 or more of these cells will be wired in series or parallel-series with a Battery Management System (BMS) to create a 12 volt battery, 8 cells for a 24v battery, or 16 cells for a 48v battery, with a suitable BMS. They may be paralleled at a cell level to increase your overall capacity (Ah).
Our permanent, laser welded M6 threaded studs are paired with the included serrated nuts ensuring a strong connection that will last for years, without the worry of loose interconnections or stripped cells.
It is very important to use a BMS to manage these cells.
LiFePO4 chemistry is easily damaged by over charging, over discharging, over/under temperature, and especially low temperature charging. Use a BMS that monitors each series-connected cell (or group of parallel connected cells) and has a low-temperature cutoff.
Balancing: These cells are balanced from the factory on a per shipment basis. We have tested this specification and found that they will reliably charge all the way up to 3.450v per cell in a 4 cell pack before any one cell exceeds 3.650v with a standard BMS. If you are building packs larger than 1p4s, we recommend either top balancing them yourself, or utilizing our balancing & capacity test service.