Magnetic speed sensor with increased resolution

The invention claimed is: 1. A method for increasing a resolution of a magnetic-field sensor for an internal combustion engine of a motor vehicle, comprising: detecting, by the magnetic-field sensor, variations induced by a passage of teeth of a target in proximity to the sensor, the teeth comprising an alternating succession of the teeth and of recesses being associated with an element driven by the internal combustion engine, the detecting including generating a magnetic signal, then periodically delivering an electrical output synchronization signal in a synchronization voltage range, to an electronic control unit, wherein the electrical synchronization signal includes successive, spaced-apart crenels, one of the-rising or falling edges of which corresponds to a beginning or an end of the respective passage of a tooth of the target, which occurs at a respective angle of rotation of the element of the engine, wherein the synchronization voltage range is interposed between an upper voltage modulation range above and a lower voltage modulation range below the upper and lower voltage of the synchronization range, respectively, the electrical synchronization signal in each of the lower and upper modulation ranges being modulated so as to comprise additional crenels, which are supplementary to the crenels of the synchronization signal, corresponding to periodic clock crenels with a period dependent on engine speed, an angle of rotation being identified by one of the rising or falling edges of each additional crenel; and controlling, by the control unit, operation of the internal combustion engine based on the electrical synchronization signal. 2. The method as claimed in claim 1 , wherein, for a total voltage range of the electrical signal varying from 0 to a maximum voltage, a voltage in the middle of the synchronization range is equal to half the maximum voltage and a voltage in the middle of the lower modulation range is equal to one-third of the maximum voltage while a voltage in the middle of the upper modulation range is equal to two-thirds of the maximum voltage. 3. The method as claimed in claim 1 , wherein, above a predetermined speed of rotation of the element driven by the engine, the lower and upper ranges of the signal are suppressed and the synchronization range occupies the entire voltage range. 4. The method as claimed in claim 1 , wherein the rising or falling edges of the additional crenels of each of the lower and upper modulation ranges are determined by linear interpolation based on a period between two rising edges or two falling edges of two successive crenels in the synchronization voltage range. 5. The method as claimed in claim 4 , wherein an obtainment of the rising or falling edges of the additional crenels is dependent on a speed of rotation of the mechanical target, which speed is computed between falling or rising mechanical edges of two successive crenels in the synchronization voltage range. 6. A method for driving a function related to the internal combustion engine, the method requiring the function to be implemented to be controlled or activated at angles of rotation of the element driven by the engine, wherein the angles of rotation are identified by the crenels of the synchronization range and the additional crenels of the lower and upper modulation ranges during an implementation of a method for increasing a resolution of a sensor as claimed in claim 1 . 7. The method as claimed in claim 6 , wherein the function is a variable-valve-timing function that regulates an intake-air flow rate depending on an angle of rotation of at least one camshaft by way of an element driven by the engine. 8. An assembly of at least one magnetic-field sensor, for an internal combustion engine of a motor vehicle, and of an electronic control unit, said at least one sensor interacting with a target comprising an alternating succession of teeth and of recesses, which target is associated with an element of the internal combustion engine, and said at least one magnetic-field sensor comprising means for detecting magnetic-field variations induced by the passage of the teeth of the target in proximity to said at least one sensor, comprising means for generating a magnetic signal from said variations and means for periodically transmitting an electrical output signal to the electronic control unit with a view to synchronizing the internal combustion engine, the assembly implementing a method for increasing a resolution of a driving method as claimed in claim 6 wherein said at least one sensor comprises means for creating, for its electrical output signal, two, lower and upper, modulation ranges that bound a synchronization range, and means for creating, in the electrical signal of each of the lower and upper modulation ranges, additional crenels, which are supplementary to the crenels of the synchronization signal, the additional crenels being periodic clock crenels with a period dependent on engine speed, and means for identifying the angles of rotation of the element corresponding to a rising or falling edge of each of the crenels of the synchronization signal and of the additional crenels, the electronic control unit comprising means for receiving the electrical signal of each of the lower and upper modulation ranges, and the angles of rotation identified by the sensor. 9. An assembly of at least one magnetic-field sensor, for an internal combustion engine of a motor vehicle, and of an electronic control unit, said at least one sensor interacting with a target comprising an alternating succession of teeth and of recesses, which target is associated with an element of the internal combustion engine, and said at least one magnetic-field sensor comprising means for detecting magnetic-field variations induced by the passage of the teeth of the target in proximity to said at least one sensor, comprising means for generating a magnetic signal from said variations and means for periodically transmitting an electrical output signal to the electronic control unit with a view to synchronizing the internal combustion engine, the assembly implementing a method for increasing a resolution of a magnetic sensor as claimed in claim 1 wherein said at least one sensor comprises means for creating, for its electrical output signal, two, lower and upper, modulation ranges that bound a synchronization range, and means for creating, in the electrical signal of each of the lower and upper modulation ranges, additional crenels, which are supplementary to the crenels of the synchronization signal, the additional crenels being periodic clock crenels with a period dependent on engine speed, and means for identifying the angles of rotation of the element corresponding to a rising or falling edge of each of the crenels of the synchronization signal and of the additional crenels, the electronic control unit comprising means for receiving the electrical signal of each of the lower and upper modulation ranges, and the angles of rotation identified by the sensor. 10. The assembly as claimed in claim 9 , wherein the electronic control unit comprises means for controlling or activating a function implemented at the identified angles of rotation. 11. A motor vehicle, comprising an assembly of at least one magnetic-field sensor and of an electronic control unit as claimed in claim 9 .