4s LiFePO4 120A BMS with balance & temp sensor

This BMS is built with Integrated Management solution with up to 120A continuous discharge current for a 4s LiFePO4 nominal 12.8V configurations. It can detect each cell voltage during the discharging and charge phase, but at the same time will optimise & maximise the longevity of your battery pack. Fully charge voltage is 14.4V and has a maximum charge Current of 60A with a very low stand by power consumption.

Technical parameters:

• Model number: BMS4S120A42
• Chemistry: LiFePO4
• Configuration: 4s
• Max Voltage: 14.4V
• Nominal Voltage: 12.8V
• Continuous discharge Current: 120A (additional cooling required)
• Max Charging Current: 60A
• Overcharge protection: 3.65V per cell
• Over discharge protection: 2.35V per cell
• Temperature protection (Discharge max temperature 75 degree Celsius, Charge min temperature -7 degree Celsius)
• Balancing Current: 100mA
• Load Short circuit protection
• Charging port: Same port
• Dimension: L72 x W55 x H14mm

 Balance wires included.

IMPORTANT:

Ensure that you connect the balance loom to the battery's cell terminals in the correct voltage sequence. Check that the voltage increases in the expected order on the JST female connector (Black + first Red, + second Red, etc.) BEFORE plugging it into the male connector on the BMS board.

When connecting to your battery, the B- line should be connected first and then the voltage monitoring Balance loom. The very last step is to connect charge/discharge lines. If you want to uninstall the BMS, the order should be reversed. BMS connection order is important, or it will irreparably damage the BMS.  If you have no voltage at the BMS load terminals, then check your wiring and check again.  If the wiring is not the issue, then it's likely that you've tripped under-voltage detection; connect a charger of the correct voltage to the BMS. If there is still no voltage from the BMS and you're sure your wiring and battery are ok, then the BMS is damaged.

Furthermore, if you see the BMS cutting the load or charge before expected (i.e. before the battery has fallen or risen to overall cut-off voltage for discharge or charge) then your first step is to look for a cell or parallel group of cells exhibiting a divergent voltage.  Trying to spot the defective cell(s) is difficult because as soon as the load is cut or the charger removed, cell voltage rises or falls instantly.  It requires real-time monitoring to diagnose cell defects.

DISCLAIMER:

This BMS will require a competent and knowledgeable person with an electronic background and skills to install and operate. As these are sensitive products, we will only accept returns if its un-opened and un-used. 

Please double check and triple check your wiring, especially the balance/sense wires are correct. Even temporary incorrect wiring may damage this device.