Motor Vehicle glazing

The invention claimed is: 1. A motor vehicle glazing comprising: an external glass sheet and an internal glass sheet, each respectively comprising an external face and an internal face, joined by one or more thermoplastic interlayer sheets, at least one electrically supplied functional assembly being inserted between the one or more thermoplastic interlayer sheets, a capacitive sensor for controlling the supplying of the functional assembly via a unit for processing signals emitted by the sensor, the sensor also being positioned on a transparent support coated with a transparent conductive layer, the sensor being formed, in the transparent conductive layer, of a first region which corresponds to a capacitive electrode and a second region corresponding to a shielding electrode surrounding the first region, the first and the second regions separated by a distance A, a capacitive switch placed at a distance B from the capacitive electrode, wherein a distance A between the capacitive electrode and the shielding electrode is equivalent to the distance B between the capacitive switch and the capacitive electrode. 2. The glazing as claimed in claim 1 , wherein the signals emanating from the capacitive and shielding electrodes are analysed by the processing unit. 3. A process for controlling a glazing as claimed in claim 2 wherein each electrode alternatively, according to a given frequency, is the subject of a determination of capacity, a variation in measured capacity constituting a signal determining control of the switch beyond a chosen threshold making it possible to distinguish pressure on a conduction channel. 4. The process as claimed in claim 3 , wherein a frequency of determination of the capacities is at least from 1 to 100 Hz. 5. The process as claimed in claim 3 wherein a threshold for controlling the switch is chosen such that the signal/noise ratio is at least 3. 6. The glazing as claimed in claim 2 , wherein the electrodes defining the sensor are extended over the support by conductors also formed in the conductive layer. 7. The glazing as claimed in claim 1 , wherein the capacitive sensor and the capacitive switch are positioned on the internal face of the internal glass sheet. 8. The glazing as claimed in claim 1 , additionally comprising an essentially transparent conductive shield, situated on one side of the support, which masks the electrodes from external influences located on the one side. 9. The glazing as claimed in claim 1 , wherein a position of the electrodes in the glazing is shown by a presence of a diode carried by the support of the electrodes and supplied by conductors formed in the same layer in which the electrodes are formed. 10. The glazing as claimed in claim 1 , wherein materials and thicknesses of the support and of the conductive layer are chosen so that their transmission in the region the visible wavelengths, according to the standard EN 410, is not less than 80%. 11. The glazing as claimed in claim 1 wherein the functional element is an element which modifies a light transmission of the glazing and consists of a film of SPD (suspended particles device) type. 12. The glazing as claimed in claim 1 , wherein the functional element is an element which modifies a light transmission of the glazing and consists of a film of LC (liquid crystal) type. 13. The glazing as claimed in claim 1 , wherein the functional element consists of an assembly of light-emitting diodes, which diodes are also carried by the support and supplied by the conductive layer. 14. The glazing as claimed in claim 13 , wherein the conductive layer is a layer of thin conductive oxide (TCO). 15. The glazing as claimed in claim 14 , wherein the conductive layer is a layer of indium oxide doped with tin (ITO). 16. The glazing as claimed in claim 1 , wherein the support consists of a glass slide, the thickness of which is not greater than 0.8 mm. 17. The glazing as claimed in claim 1 , wherein the support consists of a glass slide, the thickness of which is not greater than 0.5 mm. 18. The glazing as claimed in claim 1 , wherein a capacitive switch is positioned on the internal face 4 of the internal glass sheet. 19. An automotive glazing comprising: an external glass sheet and an internal glass sheet, each respectively comprising an external face and an internal face, joined by one or more thermoplastic interlayer sheets, at least one electrically supplied functional assembly being inserted between the one or more thermoplastic interlayer sheets, a capacitive sensor for controlling the supplying of the functional assembly via a unit for processing signals emitted by the sensor, the sensor also being positioned on a transparent support coated with a transparent conductive layer, the sensor being formed, in the transparent conductive layer, of a first region which corresponds to a capacitive electrode and a second region corresponding to a shielding electrode surrounding the first region, the first and the second regions separated by a distance A, a capacitive switch placed at a distance B from the capacitive electrode, wherein a distance A between the capacitive electrode and the shielding electrode is equivalent to the distance B between the capacitive switch and the capacitive electrode, wherein a surface area of the electrodes of the sensor is at most 0.1 dm 2 . 20. The glazing as claimed in claim 19 , wherein the surface area of the electrodes of the sensor is at most 0.05 dm 2 .