Method for processing a signal supplied by a bi-directional sensor and corresponding device

The invention claimed is: 1. A method for processing a signal provided by a bidirectional sensor detecting the transit of teeth of a target with a view to generating an angular clock of an internal combustion engine with the aid of a first electronic component receiving the signal originating from the bidirectional sensor, said first component determining, in a signal exhibiting low-level segments and high-level segments, whether the length of a segment of a given level is or is not greater than a predefined threshold the signal provided by the bidirectional sensor being a signal in the form of slots comprising at least low-level segments, high-level segments, and intermediate-level segments, each slot corresponding to the transit of a tooth of a target in front of the sensor, and the signal comprising characteristics enabling determining the direction of transit of the tooth, the method comprising the following steps: generating a first signal utilizing all the slots of the signal provided by the sensor but exhibiting only segments corresponding to a first level and segments corresponding to a second level; generating a second signal utilizing the slots of the signal provided by the sensor and corresponding to a first direction of transit of a tooth in front of the sensor, and exhibiting a constant level during the rotation of the target in a second direction of transit; connecting the first signal to the input of the first electronic component; connecting the second signal to a second electronic component; detecting, by the second electronic component, rising and/or falling edges of the first signal and the second signal; determining the direction of transit as a function of the presence or not of an edge on the second signal when a rising and/or falling edge is detected on the first signal; and changing the value of the predefined threshold in the first component when the determined direction of transit determined at the previous step for the rising and/or falling edge of the first signal is different from the direction of transit determined for the just preceding rising and/or falling edge of the first signal, the threshold value taking one of a first predefined value that is a maximum value and a second predefined value that is a minimum value such that the length of the slots is always on one and the same side of the corresponding threshold. 2. An electronic device comprising: one or more processors configured to implement the processing method as claimed in claim 1 . 3. The electronic device as claimed in claim 2 , further comprising a generic timer module inside which are embedded the first component, the second component, and at least one third component outside the generic timer module to generate the first signal and the second signal. 4. The electronic device as claimed in claim 3 , wherein the first component is a phase locked loop. 5. A management system of an internal combustion engine, comprising: the electronic device as claimed in claim 3 ; and at least one bidirectional sensor. 6. The electronic device as claimed in claim 2 , wherein the first component is a phase locked loop. 7. A management system of an internal combustion engine, comprising: the electronic device as claimed in claim 6 ; and at least one bidirectional sensor. 8. A management system of an internal combustion engine, comprising: the electronic device as claimed in claim 2 ; and at least one bidirectional sensor.