inverter low voltage disconnect

Re: inverter low voltage disconnect

I am not the battery expert here... But a couple of points to concider.

1) 10.5 volts would be a dead battery with no load. An inverter drawing heavy currents (10 amps of 120 VAC would be 100 amps at 12 VDC) will drop the voltage of a charged batter (plus wiring losses) quite a bit (when measured at the inverter).

In reality, it seems that a controller/inverter that tracks the power used from a battery (I*V) or Watt*Hours is a more accurate measurement than simply measuring the battery voltage. Things like temperature, charge condition, battery age, current drawn, battery resting, etc. all affect the measured battery voltage.

10.5 VDC is probably just a shot in the dark and is, like you state, not really a good way to save an expensive battery bank.

2) The inverters need some set point at which to shut down. Inverters are, more or less, constant power devices in that, as an example: You connect a 100 watt bulb at 125 VAC... or 0.8 amps. The inverter will draw from a 14 volt battery 100w/14v=7.1 amps. When the battery is at 10.5 volts, the inverter will draw 9.5 amps. So, the I^2*R losses are rising in the inverter (and wiring) as the battery discharges--at some point the inverter could fail due to high currents required at low battery bus voltages.

Also, the inverters are designed to only step up the voltages so much--once the input voltage falls below that required, the output voltage will sag and could damage the AC load (brownout). So, another reason to pick an input voltage power-fail setpoint.

Does this help?

-Bill