Lifepo4 batteries come in a single package with a lot of power and value. This chemistry of lithium offers superior performance. But all reputed commercial batteries which include another vital component along with Lithium phosphate batteries i.e. carefully planned and designed Battery Management system(BMS). A cautiously designed Battery management system(BMS) protects, increase lifetime, monitor, balance and communicate with different modules which ensures safe operation over a wide range of conditions.
All our lifepo4 batteries come along with integrated BMS inside or outside. Let’s take a look at Battery Management Systems and look at what a battery management system is, what it does and we'll also explore the individual components that typically make up a battery management system.
A battery management system is essentially the “brain” of a battery pack; it measures and reports crucial information for the operation of the battery and also also protects the battery from damage in a wide range of operating conditions.
Cell Protection - The Most Important Function A BMS Performs
Lithium ion battery cells have two critical design issues; if you overcharge them you can damage them and cause overheating and even explosion or flame so it's important to have a battery management system to provide overvoltage protection .
Lithium ion cells can also be damaged if they're discharged below a certain threshold, approximately 5 percent of total capacity. If the cells are discharged below this threshold their capacity can become permanently reduced.
To ensure a battery's charge doesn't go above or below its limits, a battery management system has a safeguard device called a dedicated Lithium-ion protector .Every battery protection circuit has two electronic switches called "MOSFETs." MOSFETs are semiconductors used to switch electronic signals on or off in a circuit.
A battery management system typically has a Discharge MOSFET and a Charge MOSFET. If the protector detects that the voltage across the cells exceeds a certain limit, it will discontinue the charge by opening the Charge MOSFET chip. Once the charge has gone back down to a safe level then the switch will close again. Similarly, when a cell drains to a certain voltage, the protector will cut off the discharge by opening the Discharge MOSFET.
A good example of energy management is your laptop battery's power meter. Most laptops today are not only able to tell you how much charge is left in the battery but also what your rate of consumption is and how much time you'll have left to use the device before the battery needs to be recharged. So, in practical terms, energy management is very important in portable electronic devices.
The key to energy management is "Coulomb counting." For example, if you have 5 people in a room and 2 people leave you're left with three, if three more people enter you now have 6 people in the room. If the room has a capacity of 10 people, with 6 people inside it's 60% full. A battery management system tracks this capacity. This state of charge is communicated to the user electronically through a digital bus called an SM BUS or through a state of charge display where you press a button and an LED display gives you an indication of the total charge in 20% increments.
Battery management systems for certain applications like the one for this hand-held point-of-sales terminal also include an embedded charger consisting of a control device, an inductor (which is an energy storage device), and a discharger. The control device manages the charging algorithm. For lithium-ion cells, the ideal charging algorithm is constant current and constant voltage.
A battery pack usually consists of several individual cells that work together in combination. Ideally, all the cells in a battery pack should be kept at the same state of charge. If the cells go out of balance, individual cells can get stressed and lead to premature charge termination and a reduction in the overall cycle life of the battery. The cell balancers of the battery management system, shown here, extend the life of the battery by preventing this imbalance of charge in individual cells from occurring.
Lifepo4 batteries construct of more than single cells connected together. It also consists of Battery management system(BMS) which is not visible to the end user, which ensures that each cell of the battery remains within the safe limits. BMS increase lifetime, monitor, balance and communicate with different modules which ensures safe operation over wide range of conditions.
The Latest BMS Function
In addition to basic overall protection function, we are pleased to introduce you another two advanced function on BMS from Cyclen： bluetooth function ( you can monitor battery from APP and learn the battery status) and self heated function(battery), which can improve battery performance during low temperature. For more details, please contact us and we will work it out for you !