Hi all,
We’ve been building our system onboard our boat. We have 12 x Eve 280ah cells wired in 3p4s We’re now at the stage of programming our settings and connecting our Rec Active BMS, Victron 3000 kva inverter and battery protects, which we have one for 12 v load and one before batteries for incoming charge from solar, wind etc. We’re going to use a Raspberry Pi for monitoring.
My question is optimal settings, I’m seeing so much online and want to get the best settings that prolongs the life of the batteries but utilises the active balancing of the abms.
I’m thinking of:
3.6v for high voltage disconnect
3.45v for absorption for 1 hour
3.35v for float
2.9v for low voltage disconnect
Does this wound optimal for this system? Interested to hear from other people with a similar set up/ configuration.
Helen
We’ve been building our system onboard our boat. We have 12 x Eve 280ah cells wired in 3p4s We’re now at the stage of programming our settings and connecting our Rec Active BMS, Victron 3000 kva inverter and battery protects, which we have one for 12 v load and one before batteries for incoming charge from solar, wind etc. We’re going to use a Raspberry Pi for monitoring.
My question is optimal settings, I’m seeing so much online and want to get the best settings that prolongs the life of the batteries but utilises the active balancing of the abms.
I’m thinking of:
3.6v for high voltage disconnect
3.45v for absorption for 1 hour
3.35v for float
2.9v for low voltage disconnect
Does this wound optimal for this system? Interested to hear from other people with a similar set up/ configuration.
Helen