Method for monitoring a measuring device of automation technology

The invention claimed is: 1. A method for monitoring a measuring device of automation technology, wherein the measuring device is a vortex flow measuring device having a measuring tube, a bluff body arranged in the measuring tube for producing vortices, and associated with the bluff body a capacitive sensor which registers by means of at least one capacitor a vortex shedding frequency of a Karman vortex street produced by the bluff body, the method comprising the steps of: determining or monitoring using the at least one capacitor a process variable, and measuring a loss resistance of the at least one capacitor by determining the charge state of the at least one capacitor at a first point in time and at a subsequent, second point in time; wherein based on a change of the charge state between the first point in time and the second point in time, information is gathered concerning disturbance of the ability of the measuring device to function. 2. The method as claimed in claim 1 , wherein: a digital diagnostic value for representing the change of the charge state of the at least one capacitor is ascertained; and the information concerning the disturbance of the ability of the measuring device to function is gathered by comparing the diagnostic value with a predetermined threshold value, and a failure report is generated, after the predetermined threshold value has been exceeded. 3. The method as claimed in claim 1 , wherein: a difference in the charge states of the capacitor at two sequential points in time is determined, and the information concerning a disturbance of the ability of the measuring device to function is gathered from the difference. 4. The method as claimed in claim 3 , wherein: a digital difference value representing the difference between the charge states is ascertained, the information concerning a disturbance of the ability of the measuring device to function is gathered by comparing the difference value with a predetermined threshold value, and a failure report is generated, when the predetermined threshold value is exceeded. 5. The method as claimed in claim 1 , wherein: the loss resistance of the at least one capacitor is measured by charging the at least one capacitor a first time with a reference voltage, the charge on the at least one capacitor is determined after a first predetermined time span, the at least one capacitor is charged a second time with the reference voltage; and the charge on the at least one capacitor is determined after a second predetermined time span, and the first and second predetermined time spans are differently long. 6. The method as claimed in claim 5 , wherein: the second predetermined time span is shorter than the first predetermined time span, so that the corresponding second point in time, at which the determining of the charge state of the at least one capacitor is performed, occurs directly after the second charging of the at least one capacitor. 7. The method as claimed in claim 1 , wherein: the at least one capacitor is charged with an exactly determined electrical charge by means of a charge pump. 8. The method as claimed in claim 1 , wherein: a charge state value for representing the charge state of the capacitor is ascertained, and the charge state value for the first point in time is compared with a first predetermined limit value or that for the second point in time is compared with a second predetermined limit value; and from this comparison the information is gathered concerning disturbance of the ability of the measuring device to function for a case wherein the charge state value underruns the first predetermined limit value or the second predetermined limit value. 9. The method as claimed in claim 1 , wherein: loss resistance of the at least one capacitor is plotted as a function of time, and based on a falling trend of the loss resistance versus time a predictive maintenance report is triggered. 10. The method as claimed in claim 1 , wherein: a first charge, which is determined on the at least one capacitor at the first point in time, as well as a second charge, which is determined on the at least one capacitor at the second point in time, are transmitted to a charge measuring capacitor; and the first and second charges are subtracted, so that, in such case, a difference between the charge states is electronically ascertained.