Conext battery monitor manual11/11/2023 ![]() ![]() Schneider/Xantrex/Trace inverters are legendarily regarded for their load-surge capacity. LiFePO4 is going to have different voltage triggers for each stage that all need to be configured manually when using a custom battery type. FLA/SLA recharge stages are Bulk/Absorb/Float holding at 100% SoC at the end. I can send you screen shots of what an XW Pro gives you options for. Temperature de-rating for LiFePO4 is different from Lead Acid and needs to be configured manually in the battery menus of the inverter. Check if you've got a setting for this so you can limit the SW's 45A to stay under the 100A limit when you take your DC-coupled Solar into account. The rate of recharge has to be limited to the rated spec, for an EG4 that's 100A continuous and up to 120A for less than 2 seconds, or the BMS will trip. The rate of discharge from LiFePO4 has to be limited to rated spec, for a EG4 that's going to be 100A continuous and up to 150A for up to 3 seconds, or the BMS will trip into overload. You can use the 3-stage charging but the float (stage 3) setpoint is going to be a little higher than what you're used to seeing, but in practice LiFePO4 don't need to be floated. So, up until the XW Pro, all Schneider/Xantrex/Trace recharging schemes have been and continue to be a combination of voltage and time-based. It is preferable to use State of Charge to regulate LiFePO4 usage, and in Schneider's lineup only the XW Pro combined with a Conext Battery Monitor (or other supported third-party BMS in closed-loop mode) is supported to do that. Lithium can be recharged at the same rate as the Ah capacity, or as limited by the BMS whichever is less. Individual cells within a string of lead-acid cells tend to naturally equalize during recharge because of the relationship between the voltage and current with the state of charge curve, unlike Lithium chemistry where such voltage fluctuations between cells would run away uncontrollably without a BMS. ![]() FLA/SLA will also tend to soak up recharge at a rate they're comfortable with regardless of available current where as LiFePO4 will easy over-current if the current is available, although current in the first stage should still be limited with FLA/SLA to about a third of their Ah rating. This doesn't work with Lithium because their voltage curve is so much flatter throughout their state of charge. Lead Acid can be recharged in a less-regulated manner than LiFePO4 because there is a more pronounced voltage rise as state of charge in the pack rises that can be more easily used to determine where in the charging cycle the batteries are at. Just typing as I think here, I come up with a few things to be cognizant of: Reported by ComBox and distributed to other Conext devices such XW+ inverter chargers as well as MPPT SolarĬharge Controllers, Automatic Generator Start (AGS) module and System Control Panel (SCP) via Xanbus™ network connectivityĮnhancing performance of the overall system.As JoeHam mentioned, custom battery type is what you'll have to use. The same information and battery bank data is Detecting battery string imbalance is determined using innovative mid-point sensing technology providing time to address the issue before performance is significantly impacted.Ĭonext Battery Monitor features built-in data logging and a local display to selectively show the voltage, current,Ĭonsumed amp-hours, remaining capacity and remaining hours. ![]() Conext Battery Monitor shares key battery bank parameters with Conext XW+ inverter/chargers improving overall system performance of 24V and 48V battery banks. The monitor can also address issues before they become a problem.Ĭonext™ Battery Monitor indicates hours of battery based runtime and determines battery bank state of charge. Conext Battery Monitor displays basic battery parameters. ![]()
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