Motor vehicle glazing

1 - 19 . (canceled) 20 . A motor vehicle glazing comprising: two external and internal glass sheets joined by one or more thermoplastic interlayer sheets; at least one electrically supplied functional assembly being inserted between the sheets of the glazing; a capacitive sensor controlling supplying of the functional assembly via a unit for processing signals emitted by the sensor, the sensor also being inserted into the glazing on a transparent support coated with a conductive layer which is also transparent, in which layer the sensor is formed. 21 . The glazing as claimed in claim 20 , wherein the capacitive sensor comprises two electrodes formed in the conductive layer, signals emanating from each electrode resulting in an analysis by the processing unit. 22 . The glazing as claimed in claim 21 , wherein the electrodes defining the sensor are extended over the support by conductors also formed in the conductive layer, the conductors being at a distance from one another which is of an order of a greatest dimension of a surface covered by the electrodes. 23 . The glazing as claimed in claim 21 , wherein the electrodes are interwoven with one another to maximize their interface for a given surface area of the electrodes. 24 . The glazing as claimed in claim 20 , wherein surface area of the electrodes constituting the sensor is at most 0.5 dm 2 . 25 . The glazing as claimed in claim 21 , further 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. 26 . The glazing as claimed in claim 20 , wherein the conductive layer in which the sensor is formed comprises, at its periphery, a region surrounding the sensor and connected to ground. 27 . The glazing as claimed in claim 20 , wherein a position of the electrodes in the glazing is shown by presence of a diode carried by the support of the electrodes and supplied by conductors formed in a same layer in which the electrodes are formed. 28 . The glazing as claimed in claim 20 , wherein materials and thicknesses of the support, and of the conductive layer, are chosen so that their transmission in a region of visible wavelengths, according to the standard EN 410, is not less than 80%. 29 . The glazing as claimed in claim 20 , wherein the conductive layer exhibits a resistance which is not greater than 50 Ω/□. 30 . The glazing as claimed in claim 20 , wherein the functional element is an element which modifies light transmission of the glazing and is a film of SPD (suspended particles device) type. 31 . The glazing as claimed in claim 20 , wherein the functional element is an element which modifies light transmission of the glazing and is a film of LC (liquid crystal) type. 32 . The glazing as claimed in claim 20 , wherein the functional element includes an assembly of light-emitting diodes, which diodes are also carried by the support and supplied by the conductive layer. 33 . The glazing as claimed in claim 32 , wherein the conductive layer is a layer of thin conductive oxide (TCO). 34 . The glazing as claimed in claim 33 , wherein the conductive layer is a layer of indium oxide doped with tin (ITO). 35 . The glazing as claimed in claim 20 , wherein the support includes a glass slide, thickness of which is not greater than 0.8 mm. 36 . A process for controlling a glazing as claimed in claim 21 , wherein each electrode alternatively, according to a given frequency, is a subject of a determination of capacity, variation in capacity measured for the two electrodes constituting signals determining control of the switch beyond a chosen threshold. 37 . The process as claimed in claim 36 , wherein the frequency of determination of the capacities is at least is from 1 to 100 Hz. 38 . The process as claimed in claim 36 , wherein the threshold for controlling the switch is such that signal/noise ratio is at least 3.