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http://www.zeva.com.au

BMS12 

 v1.6

12-cell, CAN bus-enabled

Lithium Battery Management Module

Please read these instructions carefully for proper installation and use of this product.

 

Protecting your LithiuM BatterieS

Lithium batteries have been a revolution in energy storage and a major enabling factor in the 
resurgence of electric vehicles. However they can be easily damaged if their voltage goes out 
of safe operating range – either too high (from overcharging) or too low (over-discharging).

Battery packs are commonly built from a large number of individual cells in series to achieve 
higher voltages. Due to manufacturing tolerances, cells will always have some variation in 

capacity, so  during use there will be some cells which get full or go flat before others. In 

battery packs made of many cells in series, the overall voltage gives little indication of the 
voltage of individual cells in the chain, so it is important to have a system which monitors the 
voltages of each cell, and takes action if any cell goes out of range.

ZEVA’s BMS12 modules offer a robust, automotive-grade solution for protecting your lithium 
batteries from damage, maintaining pack balance, and monitoring cell voltages remotely. A 
single module can manage anywhere between 3–12 lithium cells, and up to 16 modules may 
be used on the same CAN bus allowing packs up to 192 cells or about 600VDC.

The BMS12 modules communicate over CAN bus with a BMS master control unit to form 
a  complete  Battery  Management  System  for  your  vehicle.  Voltage  thresholds  are  fully 

configurable, allowing the module to be compatible with most lithium chemistries including 

LiFePO4, LiCo, LiPo and LiMn.

Battery Management Systems should be considered the last line of defence for your battery 
pack.  During  normal  operation,  the  BMS  should  never  have  to  intervene  with  vehicle 
operation, only taking action to protect the battery in exceptional circumstances. Although a 
BMS will protect your cells from damage from over-discharging, regularly discharging your 
cells to 0% SoC – i.e driving until the BMS stops the vehicle – will drastically shorten the 
cycle life of your batteries so is best avoided whenever possible.

Safety Warning

Electric Vehicle battery packs contain a lot of energy and can deliver a lot of power, with 
potentially lethal voltages and currents. Proper precautions and electrical safety procedures 
should  always  be  observed  when  working  on  EVs.  Voltages  above  110VDC  should  be 
considered dangerous, and vehicles should never be worked on while power contactor(s) 
are engaged.

Please read this manual carefully to ensure correct installation and operation of your BMS12 

modules. If you are unsure of anything, please contact us before proceeding.

We have endeavoured to make a safe and reliable product which performs as described, 
however since ZEVA has no control over the integration of its products into a vehicle, we can 
assume no responsibility for the safety or functionality of the completed vehicle. 

It  is  the  responsibility  of  the  end  user  to  determine  the  suitability  of  the  products  for  the 

purpose employed, and the end user assumes all risks associated. Products should only be 

installed by suitably qualified and experienced persons, and should always be used in a safe 

and lawful manner.

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Summary of Contents for BMS12

Page 1: ...thresholds are fully configurable allowing the module to be compatible with most lithium chemistries including LiFePO4 LiCo LiPo and LiMn Battery Management Systems should be considered the last line of defence for your battery pack During normal operation the BMS should never have to intervene with vehicle operation only taking action to protect the battery in exceptional circumstances Although a...

Page 2: ...13 pin plug and the cells as per the diagram below It is best to leave the plug disconnected from the module while wiring up and verify all voltages cell orders before connecting to the module in case of wiring mistakes If fewer than 12 cells are to be connected some cell inputs at the positive end will be unused The voltage sampling chip powers itself from the most positive screw terminal so the ...

Page 3: ...spikes Operation Powering up The BMS12 modules run most of their circuitry from CAN bus power When the module powers up the onboard LED should light up green The LED may display a variety of codes as follows Green BMS active no errors Blinking green No CAN bus communications detected or Idle mode Blinking red No cells detected Flashing green orange One or more shunt balancers active Red One or mor...

Page 4: ...hem all together in parallel However the shunts will get an unbalanced pack incrementally closer to balanced each charge and once balanced are able to maintain balance with minimal shunting CAN Protocol Details For those wishing to integrate BMS12 modules with their own master control unit we have prepared an application note detailing the required CAN format and packet IDs structures Please downl...

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