So when inverter experiences an overload or short circuit condition does it limit the current to it's max output or does it trigger some kind of overcurrent protection and shut down the output? Or is either scenario a possibility?
I am starting to see this is a source that doesn't exactly follow the same rules as other sources often do.
most of my inverter experience is with small units used to derive AC power from a 12 volt DC source, or with VFD's.
Yes, it's a different type of source. Most sources are constant
voltage sources; they try to keep the voltage constant at the terminals and the current is inversely proportional to the load. A GT inverter behaves as a constant
current source (it tries to keep current constant irrespective of voltage) whose voltage is clamped by the line voltage from the grid, which also gives it a virtually infinite sink to push current into, which in turn essentially turns it into a constant
power source.
A grid tied inverter cannot experience an overload as long as it is connected to the grid and the grid is operational. In the event of either a short or an open circuit condition on its output conductors (or the grid going down), it shuts down immediately because its reference voltage goes away.
The difference between a GT inverter and the battery powered ones you are used to dealing with is that in your experiences the DC input is from a battery, which is a voltage source and the inverter can pull from it on demand. PV modules are current sources over most of their IV curve. Off grid PV systems use battery inverters as well; they run off the batteries and need a separate system to charge the batteries from the PV modules.
