HHS Stackable Battery
Battery energy storage is a valuable asset in a variety of applications, including behind-the-meter peak shaving and self-consumption increase. It can also provide services to the grid, such as frequency containment and spot market trading.
Using a laboratory-grade Zener reference, the ADI LTC68xx family provides a precise measurement IC for battery stack monitoring. This eliminates the need for a separate voltage monitor and reduces system size, weight, and wiring complexity.
Easy to maintain
The Stack battery has an intelligent BMS, which monitors batteries in real time and prevents over-charge, over-discharge, over current, and over temperature. It also helps extend cycle life by balancing cells during charging and discharging. The BMS can even help reduce energy consumption by allowing the system to run in deficit mode.
The battery stack can be easily expanded, with up to 15 batteries connected in parallel. This enables a capacity of up to 75Kwh for home energy storage systems. Its modular design is easy to install and is ideal for residential and commercial applications. It is available in 48v floor-standing and wall-mounted configurations.
Battery maintenance is relatively simple. First, check the electrolyte-levels and top up with distilled water if necessary (see Section D). Make sure that the vent-plugs or manifolds are not blocked. Also, remove the charger leads as soon as the battery starts gassing freely (some gassing is normal during the last stages of charge).
Store batteries in an upright position to prevent them from falling over and leaking. Also, do not stack batteries more than 3 high. (Any higher and they could lose their capacity by being exposed to too much heat, HHS stackable battery which causes them to lose their charge faster). Ensure that the charging-rate is set at the recommended rate, and remove batteries from service as soon as they reach a fully charged state of charge.
Easy to upgrade
The stackable battery is easily upgradeable, allowing you to add capacity and power as your energy storage needs grow. Up to 15 batteries can be connected in parallel, providing a capacity of up to 75kwh.
Each Stack is built with a high-performance lithium iron phosphate battery cell. Its intelligent BMS monitors battery performance in real time, preventing over-charge, over-discharge, short circuit, and over-temperature, and extending cycle life through temperature equalization.
It has a modular design that requires only 30 minutes to install, making it easy for homeowners to upgrade. It also uses a Lego-like form factor, so you won’t have to worry about conduit or wiring. The battery is also compatible with most inverters, including the Sol-Ark 260-400v. The BMS is capable of communicating with the inverter to allow for an adjustable output voltage.
Long life
Stackable LiFePO4 batteries have high energy density, which means they can hold more power in a smaller space than traditional lead-acid cells. They also have a long cycle life, meaning they can be charged and discharged many times without affecting the battery’s lifespan. These characteristics make them an ideal choice for home backup systems.
However, battery degradation is still a serious concern for many users of lithium-ion (LIB) batteries. It is caused by both calendar aging and cycling aging, and it is affected by battery chemistry, environmental conditions, and usage patterns. Limiting degradation is one of the best ways to extend battery lifetime.
To avoid degradation, it’s important to know how LIB batteries work and the best practices for maintaining them. A thorough review of academic literature and industry reports can help elucidate the mechanisms by which LIBs degrade. These insights can then be used to develop and communicate a list of best practices for LIBs that help extend battery life.
To prevent premature degradation, it’s a good idea to measure the voltage of the battery before using it. If it dips below 3v, then it is damaged and should be discarded immediately. Similarly, if the battery reaches its internal discharge protection circuit, it should be discarded as well. In addition, it is important to keep the temperature of power-storage-brick the battery within a narrow range. A battery management system can help you achieve this by opening and closing various valves to maintain the desired battery temperature.
