Method and system for controlling a motor vehicle alternator, and motor vehicle alternator including such a system

The invention claimed is: 1. A method for regulating a motor vehicle alternator ( 2 ) designed to be coupled to a thermal engine ( 10 ) of said vehicle for producing a supply voltage for an on-board network ( 4 ) of said vehicle, said method comprising the step of comparing said voltage (Up) produced by said alternator with a set value (Uref) in a control loop ( 12 ) in order to determine the value of an excitation current (Iex) to be circulated in said alternator for the production of a voltage equivalent to said set value, wherein an error value (Err) derived from the comparison between said voltage produced and said set value is processed in a filtering means ( 26 ) by applying a transfer function which determines a gain to be associated with said error value according to a speed of rotation of the alternator in order to control the regulation of the excitation current allowed by said alternator, wherein said transfer function of said filtering means is modified according to said speed of rotation of said alternator by attenuating said gain in a given frequency range when said speed of rotation decreases, and wherein said gain of said transfer function is determined for a given frequency between a maximum threshold (H 1 ) corresponding to the gain of said original transfer function, and a minimum threshold (H 2 ) determined for preservation of stability said alternator, with said maximum threshold being preserved when said speed of rotation of said alternator is equal to, or higher than, a first given limit speed (V 1 ), and with said minimum threshold being selected when said speed of rotation of said alternator is equal to, or lower than, a second given limit speed (V 2 ). 2. The method according to claim 1 , wherein said transfer function is attenuated for frequency values corresponding to low speeds of rotation of the alternator. 3. The method according to claim 2 , wherein a plurality of profiles of said transfer function are predetermined, and wherein the profile to be applied to said transfer function in progress is selected automatically, according to the value at which said speed of rotation of said alternator is placed, from amongst a plurality of ranges of predefined values. 4. The method according to claim 2 , wherein the different voltages are processed digitally, and wherein said transfer function is modified digitally. 5. The method according to claim 1 , wherein a plurality of profiles of said transfer function are predetermined, and in that the profile to be applied to the transfer function in progress is selected automatically, according to the value at which said speed of rotation of said alternator is placed, from amongst a plurality of ranges of predefined values. 6. The method according to claim 5 , wherein switching devices are provided in order to go from one transfer function profile to another. 7. The method according to claim 6 , wherein there is determination of a first frequency corresponding to a controlled cut-off frequency (F 1 ), from which said gain is attenuated, and beyond which said transfer function modified according to said speed of rotation of said alternator has a first part identical to the original transfer function, and wherein there is determination of a second frequency (F 2 ), corresponding to a frequency from which the acyclism gain is stable up to a cut-off frequency, with said gain varying regularly between the first and said second frequency. 8. The method according to claim 6 , wherein the different voltages are processed digitally, and wherein said transfer function is modified digitally. 9. The method according to claim 5 , wherein there is determination of a first frequency corresponding to a controlled cut-off frequency (F 1 ), from which said gain is attenuated, and beyond which said transfer function modified according to said speed of rotation of said alternator has a first part identical to said original transfer function, and wherein there is determination of a second frequency (F 2 ), corresponding to a frequency from which said acyclism gain is stable up to a cut-off frequency, with said gain varying regularly between said first and said second frequency. 10. The method according to claim 9 , wherein said second frequency (F 2 ) is the same between one predetermined transfer function profile and another. 11. The method according to claim 10 , wherein the different voltages are processed digitally, and wherein said transfer function is modified digitally. 12. The method according to claim 9 , wherein the different voltages are processed digitally, and wherein said transfer function is modified digitally. 13. The method according to claim 5 , wherein the different voltages are processed digitally, and wherein said transfer function is modified digitally. 14. The method according to claim 1 , wherein the different voltages are processed digitally, and wherein said transfer function is modified digitally.