Quick instruction video how to install the BMS123 Smart with the LFP (LYP) cells. Learn and see for yourself - simple and quick installation in just a few steps. See how to assemble the pack from 4 cells.
About Winston cells: Large capacity LiFePO4 prismatic cells. Thundersky – Winston Battery famous yellow cells. More than 18 years on the market. Thousands of satisfied customers. Easy assembly using the large screw terminals.
Performance 10000 cycles.
Warranty 10 years.
Life-span 30 years.
Simple. Safe. Secure.
About BMS123 Smart: The innovative BMS solution to monitor and manage the lithium cells. Especially suitable for large prismatic cells. Easy and quick monitoring using an software-app for your mobile phone or tablet. Easy. Smart. Reliable.
About GWL: GWL/Power is the European distributor for Thundersky - Winston Battery cells. Quick delivery for the cells to all of Europe and also around the world. GWL/Power provides support and solutions for DC power systems. Large warehouse in the center of Europe. Fast shipping in 2 to 3 days.
The demonstration installation of the GWL/Modular packs. The goal of theGWL/Modular solutionis to offer components and accessories that allow for simple and fully modular architecture. Simply said: the GWL/Modular project will make the life of the DC solution providers simpler and easier.
The demonstration installation of the GWL/Modular packs which are now being developed by our technicians as a follow-up product line of our newCPM (Cell Performance Monitor: to be introducedin May 2019!).
The goal of the GWL/Modular solution is to offer components and accessories that allow for simple and fully modular architecture.
Simply said: the GWL/Modular project will make the life of the DC solution providers simpler and easier. We'll keep you informed.
Do you need to know how much capacity remains in your battery? Stay tuned - during Q3/2019 we will announce a communication modulebased on Raspberry Pi project. Together with our CPM1 board, it will bring you information about SoC and DoD of any battery pack from 4 to 16 LiFePO4 cells. It will allow reading this information via touch screen or TCP/IP (ethernet).
On the photo, you can see LCD display connected to the popular Arduino platform. However, after the first quick tests, we found out that better performance will ensure a Raspberry Pi platform. Our team will work hard and publish some updates soon.
Question: I have the old version of BMS123 Auto and I need a replacement board. Can you help me?
Answer: Yes! The solution is simple. The OUT and IN boards of the BMS123 Smart are backwards compatible with the previous version of BMS123 Auto.
For the OUT-board you can just use the BMS123smart cell board without modifications.
For the IN-board, you need to make a small hardware modification of the BMS123smart cell board. You just simply cut a piece of the PCB foil. Next to the (-) minus sign on the cell board, there are two golden dots. You need to cut the connection between these two dots. You can scratch the foil by means of a sharp knife or a screwdriver.
If you need any additional assistance with the or Auto, please let us know. The is here for you.
A reference project for a battery bank on a sailing yacht using the4x WB-LFP200AH cellsfor the board battery and theBMS123 Smart. The battery pack is charged from the on-board AC/DC charger (35 Amp) and the generator (up to 80 Amp).
Question: How should new cells 3.2V 40AH,60AH, 90AH, 100 AH, etc. be formed before first usage?
Answer:The new 3.2V LFPcells delivered from the warehouse are partially charged. Howeverbefore the first use, it is essentialto charge each cell to full capacity. The initial charging should be done with the charging current set to less than 1C (typically 0.5C), till the voltage level of 4.0 V is reached.
There is no other need for LFP 3.2V cells to be formatted or otherwise specially prepared for the use. After the first charge to full, the cell is ready to be used for use.
The above charging rule is also applied to the initial charge after the cell has beenunused or stored for a long time. If not used more than 1 month, it is recommended to make again an initial charge to full.
Question: Can I charge the 12V LFP battery using a conventional auto-moto charger 12V?
Answer: With most of “cheap” car battery chargers you**cannot**charge the 12V LFP battery. Cheap chargers often end charging at 14V. As a result the LFP batteries are not charged sufficiently. In order to charge to full you need to reach above 16V.
If you have an “advanced” manageable charger, it can be used provided you can set the charge level to at least 16V.
Simply said: you can charge with any kind of charger if you make sure that the battery voltagereaches at least 16V, but does not exceed themaximum limit of 17V.
Question: What are the experiences of balancing 12V batteries, when, for example, four pieces of 12V/40Ah in the series?
You must charge before the first use!
We remind all users of the LFP cells and LP batteries that the cells and batteriesMUST be chargedto full voltage levelBEFOREassembling into a pack and before starting to be used.
For the 3.2V cells, the full charge voltage level is 4.00V and the charging is. For the 12V LP batteries the full charge voltage level is 16.00V. More details about.
Why is the BMS needed for a LFP battery pack consisting of many cells?
Answer: The Battery Management System (BMS) allows you to monitor the battery pack operation. Since the battery consists of a serial string of many cells, you need to monitor each cell to prevent from deep discharge or over charge. The BMS will give you information about the cell voltage levels and can issue warnings if there is a problem with any of the cells.
The BMS with balancing option will balance the cells (usually during charging) to make sure all cells have the same capacity (=voltage) levels.
TheBMS also allows data loggingso that you can see the history of the operation of the each cell in the battery. This way you can detect if there is any problem with one or more cells in the battery pack.