When you don't know....test!!!
Last night I performed a test of my house batteries which are now going on 5 1/2 years old. I use the
flow-rite watering system to keep batteries topped off and perform this quarterly. I also perform an
equalization at least twice a year. As per this thread I did a Harvest Host recently and had a surprising drop in state of charge (SOC) which is a battery percentage remaining instead of a voltage reading available by upgrading to a
Magnum ME-ARC50 control head and installing a
Magnum ME-BMK (battery monitoring kit) which is a shunt that measures electrical flow.
To perform the test I decided to use the feature of the ME-ARC50 that allows me to tell the inverter when it should use shore power (pedestal). This feature is commonly used when you have to pay for electricity and you want to maximize your solar setup (or generator) to avoid electricity fees. You can use different methods such as a time window or by battery state of charge (SOC). I elected to use the AC IN SOC option telling the system not to connect to shore power until my SOC goes down to 65%. It would then charge up to the high end value of that setting which is 100% and then disconnect again and run on house batteries.
Figure 1. Evening check after PC and other loads turned off
I started the test with everything running as usual. My PC was finishing up some work so I couldn't shut it down for a period of time which was a little bit of a bummer as I was seeing AMP draw on my
BMV-712 upwards of 50 amps! I checked my PC power settings and it's on high performance so it's going to not be power friendly. I also have a power hungry video card in this PC (Nvidia 3080 Ti) and of course a 27 inch monitor. I was finally able to shutdown the PC and monitor and start turning off items to see what the loads were. I turned off my computer components under the dinette, the Dometic CF-80 cooler in the basement, night light on the Microwave, and that was about it. Loads came down to around 12-13A draw via the
BMV-712 which was nice. If I wanted to go even further I would disconnect the Amazon Echo (Alexa) devices. My concern was the amount of power the PoE switch was pulling so I unplugged it, it was 1A so I reconnected it. If I really needed to conserve I could turn the Inverter off but I never do that, I want the refrigerator always on and never power cycling as I believe that's when things go wrong.
It seemed warm enough as I had windows open here in TN but was concerned about needing to run the furnace as it is a power draw. I did turn the OASIS burner on prior to going to bed so it would be available if I needed to turn the furnace on via my phone using the Micro-air smart thermostat via Wi-Fi or Bluetooth.
I watched TV for a bit prior to going to bed. the 32 inch TV and Apple TV connected drew 4 amps. At 1 AM I woke up due to it being cold and turned on the furnace, was happy to see the SOC was only down to 93%. The furnace with both zone 1 and 2 running I believe was pulling 12 amps. Front blower remains on high which doesn't help.
I woke up at 6:30 and checked the
BMV-712 on my phone and it showed 84% (12.14V) which was great.
Figure 2. Morning check of battery SOC
Batteries are perfectly fine and amazingly healthy. I attribute this to remaining on charge and in float while in storage, the battery watering system, and performing equalizations.
My poor credit card!
