Method and control system for controlling a switching device

The invention claimed is: 1. A method for controlling a switching device having at least one phase comprising at least one couple of contacts which can be actuated for switching between a closed condition, where the contacts are coupled to each other, and an open condition, where the contacts are separated from each other, said method comprising: a) providing control means for controlling an actuation of said at least one couple of contacts, said control means being adapted to operate using time cycles; b) setting said time cycles with a predetermined time duration; c) detecting a difference of a value of a parameter associated to the phase with respect to a preset value; d) if said value of the parameter is equal to the preset value, controlling the actuation of said at least one couple of contacts through said control means using the time cycles with said predetermined time duration, so as the switching between the open and closed conditions is controlled to occur at a predetermined electrical angle of a waveform of an electrical signal associated to the phase; wherein: e) when said difference is detected, modifying the predetermined time duration according to the detected difference; and f) controlling the actuation of said at least one couple of contacts through said control means using the time cycles with the modified time duration, wherein said modification of the predetermined time duration is such that the switching between the open and closed conditions is controlled to occur at said predetermined electrical angle of the waveform. 2. The method according to claim 1 , wherein said step c) comprises: measuring the value of said parameter; and comparing the measured value to the preset value; and wherein said step e) comprises: calculating a correcting factor using the preset value and the measured value of the parameter; and applying said correcting factor to said predetermined time duration. 3. The method according to claim 1 , wherein: said steps d) and f) comprise detecting a reference point of the waveform; said step d) comprises setting for the control means a first predetermined number of time cycles with said predetermined time duration, starting from the detection of said at least one reference point; said step f) comprises setting for the control means a second predetermined number of time cycles with said modified time duration, starting from the detection of said at least one reference point; said second predetermined number being equal to said first predetermined number. 4. The method according to claim 3 , wherein: said first predetermined number of time cycles comprises a predefined number of time cycles which define a time delay between the detection of the at least one reference point and a starting of the actuation of the at least one couple of contacts; said second predetermined number of time cycles comprises a predefined number of time cycles which define a time delay between the detection of the at least one reference point and a starting of the actuation of the at least one couple of contact. 5. The method according to claim 3 , wherein: said first predetermined number of time cycles comprises a predetermined number of time cycles which define a first time duration for the actuation of said at least one couple of contacts; and said second predetermined number of time cycles comprises a predetermined number of time cycles which define a second time duration for the actuation of the at least one couple of contacts; said step d) comprises controlling, during each one of the time cycles defining said first time duration, the actuation of said at least one couple of contacts by using a closed-loop control; and said step f) comprises controlling, during each one of the time cycles defining said second duration, the actuation of said at least one couple of contacts by using a closed-loop control. 6. The method according to claim 1 , wherein said parameter is the frequency of the waveform of said electrical signal. 7. A control system for controlling a switching device having at least one phase comprising at least one couple of contacts which can be actuated for switching between a closed condition, where the contacts are coupled to each other, and an open condition, where the contacts are separated from each other, said control system comprising: control means for controlling an actuation of said at least one couple of contacts, said control means being adapted to operate by using time cycles, and said time cycles being set with a predetermined time duration; means for detecting a difference of a value of a parameter associated to the phase with respect to a preset value; wherein, if said value of the parameter is equal to said preset value, the control means are adapted to control the actuation of said at least one couple of contacts using the time cycles with said predetermined time duration, so as the switching between the closed and open conditions is controlled to occur at a predetermined electrical angle of a waveform of an electrical signal associated to the phase; wherein said control means are adapted to: when the difference between the value of the parameter and the preset value is detected, modify the predetermined time duration according to the detected difference; and control the actuation of said at least one couple of contacts using the time cycles with the modified time duration, wherein the modification of the predetermined time duration is such that the switching between the closed and open conditions is controlled by the control means to occur at said predetermined electrical angle of the waveform. 8. The control system according to claim 7 , wherein said detecting means are adapted to: measure or receive a measurement of the value of said parameter; and compare the measured value of said parameter with respect to the preset value; and wherein said control means are adapted to: calculate a correcting factor using said preset value and the measured value of said parameter; and apply said correcting factor to said predetermined time duration. 9. The control system according to claim 7 , comprising means for detecting a reference point of the waveform of said electrical signal, and wherein said control means are adapted to: use a first predetermined number of time cycles with said predetermined time duration starting from the detection of said at least one reference point, if the value of said parameter is equal to said preset value; and use a second predetermined number of time cycles with said modified time duration starting from the detection of said at least one reference point, if the difference between the value of said parameter and said preset value is detected; said second predetermined number being equal to said first predetermined number. 10. The control system according to claim 9 , wherein: said first predetermined number of time cycles comprises a predetermined number of time cycles which defines a time delay between the detection of the at least one reference point and a starting of the actuation of said at least one couple of contacts; said second predetermined number of time cycles comprises a predetermined number of time cycles which defines a time delay between the detection of the at least one reference point and a starting of the actuation of said at least one couple of contacts. 11. The control system according to claim 9 , wherein: said first predetermined number of time cycles comprises a predetermined number of time cycles which defines a first time duration of the actuation of said at least one couple of contacts; and said second predetermined number of time