Method for operating towing winch and electric drive for towing winch

The invention claimed is: 1. A method for operating a towing winch of a tug, the towing winch comprising a rotatable winch drum for spooling a spoolable medium, an electric motor operably coupled to the winch drum to rotate the winch drum, an electric drive operably coupled to the electric motor to control the electric motor, the method comprising: controlling by the electric drive, during a towing of at least one object connected to the spoolable medium, a tension of the spoolable medium between the winch drum and the at least one object to be towed to be equal to or lower than a tension limit value; and monitoring by the electric drive, during the towing, a roll angle of the tug, and in response to the monitored roll angle of the tug being outside of a predetermined range, lowering by the electric drive the tension limit value. 2. The method of claim 1 , wherein the tension limit value is lowered proportionally to the roll angle of the tug by the electric drive in response to the monitored roll angle of the tug being outside of a predetermined range. 3. The method of claim 1 , wherein the monitoring of the roll angle of the tug by the electric drive comprises measuring the roll angle of the tug in the electric drive. 4. The method of claim 3 , wherein the electric drive comprises a motion reference device configured to measure the roll angle of the tug. 5. The method of claim 1 , wherein the monitoring of the roll angle of the tug by the electric drive comprises receiving the roll angle of the tug in the electric drive. 6. The method of claim 5 , wherein the electric drive is connected to a motion reference device configured to measure the roll angle of the tug. 7. The method of claim 1 , wherein the tension of the spoolable medium is controlled by controlling a torque of the electric motor. 8. A controller for an electric drive configured for operating a towing winch of a tug, comprising a processor, and a non-transitory computer readable media storing instructions that, when executed by the processor, cause the controller to: control by the electric drive, during a towing of at least one object connected to a spoolable medium, a tension of the spoolable medium between a winch drum and an object to be towed to be equal to or lower than a tension limit value; and monitor by the electric drive, during the towing, a roll angle of the tug, and in response to the monitored roll angle of the tug being outside of a predetermined range, lowering by the electric drive the tension limit value. 9. An electric drive for a towing winch of a tug, the towing winch comprising a rotatable winch drum for spooling a spoolable medium, and an electric motor operably coupled to the winch drum to rotate the winch drum, wherein the electric drive is configured to be operably coupled to the electric motor, and configured to: control, during a towing of at least one object connected to the spoolable medium, a tension of the spoolable medium between the winch drum and the at least one object to be towed to be equal to or lower than a tension limit value; and monitor, during the towing, a roll angle of the tug, and in response to the monitored roll angle of the tug being outside of a predetermined range, lower the tension limit value. 10. The electric drive of claim 9 , wherein the electric drive is configured to lower the tension limit value proportionally to the roll angle of the tug in response to the monitored roll angle of the tug being outside of a predetermined range. 11. The electric drive of claim 9 , wherein the electric drive comprises a motion reference device configured to measure the roll angle of the tug. 12. The electric drive of claim 9 , wherein the electric drive is configured to receive the roll angle of the tug. 13. The electric drive of claim 9 , wherein the electric drive is configured to control the tension of the spoolable medium by controlling a torque of the electric motor. 14. The electric drive of claim 9 , comprising an inverter. 15. A winch arrangement for a tug, comprising: a rotatable winch drum for spooling a spoolable medium; an electric motor operably coupled to the winch drum to rotate the winch drum; and an electric drive operably coupled to the electric motor, the electric drive comprising a processor, and a memory storing instructions that, when executed by the processor, cause the electric drive to: control, during a towing of at least one object connected to the spoolable medium, a tension of the spoolable medium between the winch drum and the at least one object to be towed to be equal to or lower than a tension limit value; and monitor, during the towing, a roll angle of the tug, and in response to the monitored roll angle of the tug being outside of a predetermined range, lowering by the electric drive the tension limit value.