Method for controlling a contactor device, and control unit

The invention claimed is: 1. A method performed in a control unit for closing a contactor device, the contactor device being movable between a closed position in which a current is allowed to flow in a current path and an open position in which the current path is broken, the control unit being configured to enable the movement between the closed position and the open position by energizing a coil of an electromagnetic circuit, the method comprising: applying a voltage over the coil, determining, during a first period of time, current through the coil and voltage over the coil and estimating based thereon model parameters for a model predicting the behavior of the current through the coil if the contactor device were to stay in an open position, and measuring, after the ending of the first period of time, current through the coil and determining a difference between, on the one hand the measured current and, on the other hand a predicted current of the model, and repeating the measuring and determining until a state change from open position to closed position is detected by the difference in current. 2. The method as claimed in claim 1 , comprising, after the ending of the first period of time, determining the voltage over the coil and using the voltage for determining the predicted current of the model. 3. The method as claimed in claim 1 , wherein the first period of time comprises a predefined period of time or time elapsed from the applying of the voltage over the coil until the estimated parameters converge. 4. The method as claimed in claim 1 , comprising switching, at the determined closing time, from a first voltage to a second voltage. 5. The method as claimed in claim 4 , wherein the first voltage comprises a pull-in voltage providing a current in the coil for initiating the movement between the closed position and the open position. 6. The method as claimed in claim 4 , wherein the second voltage comprises a hold voltage providing a current in the coil for holding the contactor device in the closed position. 7. The method as claimed in claim 1 , wherein the detecting is based on the difference in current being above a threshold value. 8. The method as claimed in claim 7 , comprising setting the threshold value to be greater than any current variations in the measured current caused by the use of rectified alternating current for the energizing of the coil, ensuring the difference to correspond to the closed position of the contactor device. 9. The method as claimed in claim 1 , wherein the movement between the closed position and the open position by energizing the coil of the electromagnetic circuit comprises energizing the coil wound around a part of a magnet of an electromagnet, so as to move a carrier, which is mechanically connected to the magnet and comprises a moving contact element, between the closed position in which the moving contact element interconnects fixed contact elements and the open position in which the moving contact element breaks the electrical path between the fixed contact elements. 10. A control unit for closing a contactor device, the contactor device being movable between a closed position in which a current is allowed to flow in a current path and an open position in which the current path is broken, the control unit being configured to enable the movement between the closed position and the open position by energizing a coil of an electromagnetic circuit, the control unit being configured to: apply a voltage over the coil, determine, during a first period of time, current through the coil and voltage over the coil and estimating based thereon model parameters for a model predicting the behavior of the current through the coil if the contactor device were to stay in an open position, and measure, after the ending of the first period of time, current through the coil and determining a difference between, on the one hand the measured current and, on the other hand a predicted current of the model, and repeating the measuring and determining until a state change from open position to closed position is detected by the difference in current. 11. The control unit as claimed in claim 10 , configured to, after the ending of the first period of time, determine the voltage over the coil and use the voltage for determining the predicted current of the model. 12. The control unit as claimed in claim 10 , wherein the first period of time comprises a predefined period of time or time elapsed from the applying of the voltage over the coil until the estimated parameters converge. 13. The control unit as claimed in claim 10 , configured to switch, at the determined closing time, from a first voltage to a second voltage. 14. The control unit as claimed in claim 13 , wherein the first voltage comprises a pull-in voltage providing a current in the coil for initiating the movement between the closed position and the open position. 15. The control unit as claimed in claim 13 , wherein the second voltage comprises a hold voltage providing a current in the coil for holding the contactor device in the closed position. 16. The control unit as claimed in claim 10 , configured to detect based on the difference in current being above a threshold value. 17. The control unit as claimed in claim 16 , comprising setting the threshold value to be greater than any current variations in the measured current caused by the use of rectified alternating current for the energizing of the coil, ensuring the difference to correspond to the closed position of the contactor device. 18. The control unit as claimed in claim 10 , configured to effectuate the movement between the closed position and the open position by energizing the coil of the electromagnetic circuit by energizing the coil wound around a part of a magnet of an electromagnet, so as to move a carrier, which is mechanically connected to the magnet and comprises a moving contact element, between the closed position in which the moving contact element interconnects fixed contact elements and the open position in which the moving contact element breaks the electrical path between the fixed contact elements.