I was able to see a similar output when I reproduced the model by setting both Pm and E to zero.This result can be explained by how synchronous machines are modelled in simulation environments.
When Pm (mechanical power) and E (internal voltage) are set to zero:
- The machine does not receive any mechanical input or excitation.
- However, the rotor speed (wm) remains at 1 pu because, in per-unit systems, this value represents the synchronous speed of the system rather than the actual speed of the rotor due to input power.
- Unless there is a disturbance or a change in reference, the model assumes the machine is synchronized with the grid and maintains the base speed.
As a result, even with zero input, the simulation keeps wm at 1 pu, indicating that the rotor continues to spin at synchronous speed, not that it is physically being driven by mechanical power.
This behavior is typical in simplified models where:
- The synchronous speed is used as a reference.
- It is not directly linked to the mechanical power input when no disturbances are present.
I hope this clarifies the phenomenon you observed.
