Pressure Transducer and Method for Operating the Pressure Transducer

1 .- 9 . (canceled) 10 . A method for operating a pressure transducer comprising a pressure sensor having a flexible measurement membrane and a base body, between which a cavity is enclosed with a reference pressure, a deflection of the measurement membrane being dependent on a media pressure which is present on a media side at the measurement membrane, and dependent on the reference pressure, the method comprising; capturing a deflection of the measurement membrane by at least one first capacitor having a plurality of electrodes arranged in a central region of one of (i) the measurement membrane and (ii) the base body with a variable electrode spacing depending on the deflection; arranging at least one second capacitor having a plurality of electrodes at an edge region of one of (i) the measurement membrane and (ii) the base body; and determining and evaluating a capacitance of a diagnostics capacitor, which is formed by one electrode of the at least one first capacitor and one electrode of the at least one second capacitor and is arranged on a same surface to diagnose the pressure transducer. 11 . The method as claimed in claim 10 , wherein the determined capacitance of the diagnostics capacitor is utilized during calculation of a measurement value for the media pressure to compensate for an influence of a permittivity of the medium contained in the cavity. 12 . The method as claimed in claim 11 , wherein a polymer dielectric is arranged between the electrodes of the diagnostics capacitor to increase sensitivity to humidity. 13 . The method as claimed in claim 10 , wherein the determined capacitance of the diagnostics capacitor is compared with a first predetermined threshold value; and wherein a warning signal is generated and output in an event of the first predetermined threshold value being exceeded, said warning signal indicating an existence of a critical state of the pressure sensor as a precursor of a potential malfunction occurring subsequently. 14 . The method as claimed in claim 13 , wherein the capacitance of the diagnostics capacitor is furthermore compared with a second predetermined threshold value in an event of the first predetermined threshold value being exceeded; and wherein an alarm signal is generated and output in the event of the second predetermined threshold value also being exceeded, said alarm signal indicating an impending malfunction. 15 . The method as claimed in claim 14 , wherein an estimated value for a period of time until the occurrence of the malfunction is determined and output depending on (i) a predefined value of the capacitance of the diagnostics capacitor in a go state, (ii) a predefined dielectric conductivity of a medium penetrating into the cavity, (iii) on the first and second predetermined threshold values, and (iv) an interval between points in time when the first and second predetermined threshold values are exceeded. 16 . The method as claimed in claim 13 , wherein the warning signal indicating possibly required maintenance measures is output on a service device. 17 . The method as claimed in claim 14 , wherein the warning signal indicating possibly required maintenance measures is output on a service device. 18 . The method as claimed in claim 15 , wherein the warning signal indicating possibly required maintenance measures is output on a service device. 19 . A pressure transducer comprising: a pressure sensor having a flexible measurement membrane and a base body; a cavity arranged between the flexible measurement membrane and a base body and enclosed with a reference pressure, a deflection of the measurement membrane being dependent on a media pressure present on a media side at the measurement membrane, and being dependent on the reference pressure; at least one first capacitor having a plurality of electrodes and being arranged in a central region of one of (i) the measurement membrane and (ii) the base body with a variable electrode spacing depending on the deflection to capture a deflection of the measurement membrane; at least one second capacitor having a plurality of electrodes and being arranged in an edge region of one of (i) the measurement membrane and (ii) the base body; and a control and calculation unit configured to capture the capacitance of at least the at least one first capacitor and configured to determine and output a measurement value for the media pressure depending on the captured capacitance; and wherein the control and calculation unit is further configured to determine a capacitance of a diagnostics capacitor, which is formed by one electrode of the at least one first capacitor and one electrode of the at least one second capacitor arranged on the same surface, and configured to evaluate the capacitance to diagnose the pressure transducer. 20 . A computer program containing program code instructions executed by a computer to implement the method as claimed in claim 10 when the computer program is executed on a computer. 21 . A non-transitory computer program product encoded with a computer program executed by a computer which causes diagnosis of a pressure transducer, the computer program comprising: program code for capturing, by at least one first capacitor, a deflection of the measurement membrane, said at least one first capacitor having a plurality of electrodes arranged in a central region of one of (i) the measurement membrane and (ii) the base body with a variable electrode spacing depending on the deflection; and program code for determining and evaluating a capacitance of a diagnostics capacitor, which is formed by one electrode of the at least one first capacitor and one electrode of at least one second capacitor, the diagnostics capacitor being arranged on a same surface to diagnose the pressure transducer. 22 . The non-transitory computer program product as claimed in claim 21 , wherein the non-transitory computer program product is one of (i) a data medium and (ii) a storage medium.