Hey,
Did you really perform the test?
Please share results if you got anything useful out of it. As I can see is this inverter will not support the lithium battery bank or even if supported, it will not work at the full capacity. Please tell me if I'm wrong about it.
I was trying to make a small lighting solution with light weight to carry in harsh and remote location that do not have any access. So I have to design something that would last atleast 5years and be durable enough to sustain rough handling.
Can we select the priority to the solar then battery bank & after discharging 50% power from the battery it switch to grid & when grid & solar both are unavailable it switch to reserved 50% of the battery. Is there any inverter already present in the market? Can this be done with the help of...
I have to use these batteries in different applications like EV two-wheeler, emergency light backup, portable bank, 10-20watt DC loads & others. For this I get batteries from different manufacturers in India, however, these manufacturers just imported the cells from China & assemble the battery...
I've gathered several LiFePO batteries of 12Ah/12.8V but didn't understand the complications in the performance on the different nature of loads. What parameters should I can fix for testing & comparing these batteries?