Device and method for detecting the approach and/or contact and pressure of an object in relation to a detection surface

The invention claimed is: 1. A device for detecting an object with respect to a detection surface comprising: at least one electrode, called measurement electrode; at least one second electrode, placed facing said measurement electrode; said electrodes are separated by a distance (D) that is elastically modifiable locally, by a load exerted by said object on said detection surface; and at least one control means arranged in order to: apply to said electrodes: a same alternating potential (V g ), called guard potential; that is different from a ground potential (G), so as to measure a first electrical signal with respect to a capacitance (C eo ), called electrode-object capacitance, between said measurement electrode and said object; and apply to said second electrode: a second potential proportional to the guard potential (V g ) and having a different amplitude, or the ground potential (G), so as to measure a second electrical signal with respect to the capacitance, called total capacitance, seen by said measurement electrode. 2. The device according to claim 1 , characterized in that it comprises at least one calculation module configured to calculate a capacitance (C ie ), called inter-electrode capacitance, between said measurement electrode and said second electrode, as a function of said total capacitance and said electrode-object capacitance (C eo ). 3. The device according to claim 1 , characterized in that it comprises a calculation module configured to at least one of: determine a distance or a contact between the object and the detection surface as a function of the first electrical signal; and determine a load, a force or a pressure applied by said object on the detection surface as a function of the second electrical signal. 4. The device according to claim 1 , characterized in that the measurement electrode and the second electrode are separated by a layer that is elastically compressible comprising, or formed by, a dielectric material. 5. The device according to claim 1 , characterized in that the measurement electrode is placed on, or in, or under, a support, produced from a flexible material, placed above and at a distance from the second electrode, and deforming at least locally when a load is exerted on said support. 6. The device according to claim 1 , characterized in that it comprises several measurement electrodes. 7. The device according to claim 6 , characterized in that it comprises one or more second electrodes arranged according to at least one of the following configurations: at least one second electrode placed opposite several, of the measurement electrodes; for at least one measurement electrode, a second electrode placed opposite said measurement electrode; for at least one measurement electrode, several second electrodes placed opposite said measurement electrode. 8. The device according to claim 1 , characterized in that it comprises: an array of measurement electrodes, organized in rows and columns; and opposite each row, respectively each column, measurement electrodes, at least one row, respectively one column, constituted by one or more second electrode(s); the second electrode(s) of one and the same row, respectively one and the same column, being at the same potential. 9. A method for detecting an object with respect to a detection surface with a detection device according to claim 1 , said method comprising at least one iteration of a first detection step, carried out by applying to the electrodes: a same alternating potential (V g ), called guard potential; that is different to a ground potential (G), in order to determine a capacitance (C eo ), called electrode-object capacitance, seen by the at least one measurement electrode as a function of a measured first signal; at least one iteration of a second detection step, comprising the following operations: applying to the at least one second electrode: a second potential proportional to the guard potential (V g ) and having a different amplitude, or the ground potential (G); and determining a capacitance, called total capacitance, seen by the at least one measurement electrode as a function of a measured second signal. 10. The method according to claim 9 , characterized in that the second detection step also comprises a step of calculating a capacitance (C ie ), called inter-electrode capacitance, between said measurement electrode and said second electrode as a function of the total capacitance and of the electrode-object capacitance (C eo ). 11. The method according to claim 9 , characterized in that the second detection step is initiated when the electrode-object capacitance (C eo ) reaches a predetermined threshold capacitance, or is within a predetermined range of threshold capacitances, representative of a contact between an object and the detection surface. 12. The method according to claim 11 , characterized in that the detection device comprises a plurality of measurement electrodes equipping the detection surface, the second detection step being carried out only in an area of the detection surface in which the object was detected during the first detection step. 13. The method according to claim 11 , characterized in that it comprises a step, called calibration step, comprising measuring and recording a threshold capacitance. 14. The method according to claim 13 , characterized in that the calibration step comprises a determination of a threshold capacitance taking into account at least one of the following elements: a history measurement, a measurement environment. 15. The method according to claim 9 , characterized in that it also comprises a step, called test step, carried out in the absence of the object, in order to verify the functioning of the device and comprising the following operations: applying the guard potential (V g ) to the at least one measurement electrode; applying to the at least one second electrode a second potential between the guard potential (V g ) and the ground potential (G), or the ground potential (G); determining a capacitance, called electrode-test capacitance, between said measurement electrode and second electrode by measuring a third signal; and comparing said electrode-test capacitance to a second predetermined threshold capacitance. 16. A detection layer, for an item of equipment, comprising a detection device according to claim 1 . 17. An item of equipment equipped with a detection device according to claim 1 . 18. A method for detecting an object with respect to a detection surface with a detection device according to claim 1 , said method comprising at least one iteration of a first detection step, carried out by applying to the electrodes: a same alternating potential (V g ), called guard potential; that is different to a ground potential (G), in order to determine a capacitance (C eo ), called electrode-object capacitance, seen by the at least one measurement electrode as a function of a measured first signal; at least one iteration of a second detection step, comprising the following operations: applying to the at least one second electrode: a second potential proportional to the guard potential (V g ) and having a different amplitude, or the ground potential (G); determining a capacitance, called total capacitance, seen by the at least one measurement electrode as a function of a measured second signal; and performing a test step, carried out in the absence of the object, in order to verify the functioning of the d