Excellent information. Along the same lines as using a 24 to 12vdc DC-DC converter, I'm using several 12 to Xvdc converters in my build. 5vdc for various USB type devices, 24v for some AV components, 36v for our rechargeable vacuum, etc. They are cheap and keep me from using the inverter for many little things. We are using 310ah LiFePo4 cells, 8 of them in 2 4s packs, for a total of 620ah at 12vdc. Love your ambulance and have been loving following your channel!
This is so cool! Do you know if anyone is using these batteries in a marine environment? I'm designing a small sailboat that's electric only, this seems like an IDEAL solution.
Agreed. I understand most of his words... but he often switches to a 'valley girl' up-end to his statements. During and after that transition, his voice loses energy.
Hi! You are inspiring! I’m wondering if you took any special safety considerations to wire your modules in parallel - an orion BMS manual warned about some pitfalls wiring together parallel strings and gave me the heebie jeebies. Would appreciate any insight!
Hi! Thanks for this useful info. I recently had two installed, but it’s not supplying the power it can which I think is due to the programming of the inverter…are you and to answer some questions for me?
You didn’t mention safety. Solid state LiFePO4 batteries are infinitely safer than Tesla batteries. You can burn them, overcharge them, short them, puncture them, etc and they will not react. To me personally this peace of mind is worth the extra cost.
