The shorthand of this system is two, 100 amp-hour, deep-cycle AGM batteries charged by four, 100 W solar panels mounted on an adjustable angle wood frame. Once back at the drawing board, however, [Leon] wanted to be able track real-time statistics of power collected, stored and discharged, and the ability to control it remotely. So, he introduced a Raspberry Pi running Raspbian Jessie Lite that publishes all the collected data to Home Assistant to be accessed and enable control of the system from the convenience of his smartphone. A pair of Arduino Deuemilanoves reporting to the Pi control a solid state relay powering a 12 V, 800 W DC-to-AC inverter and monitor a linear current sensor — although the latter still needs some tinkering. A in-depth video tour of the system follows after the break!
All the electronics are housed in a climate-controlled box which kicks on when the Pi’s CPU heats up — this is in a Florida backyard, folks — and powered off the battery system, with a handful of 40amp breakers between the components keep things safe. [Leon] has helpfully provided links to all the resources he used, as well as his code on GitHub.
We love homebrew solar power systems, but if only there was some way to take them on the road with us.