Measuring device with a mechanically oscillatable unit and an electrodynamic transducer unit

The invention claimed is: 1. An apparatus which determines and/or monitors at least one process variable of a medium in a container, comprising: a mechanically oscillatable unit; an electrodynamic transducer unit for exciting said mechanical oscillatable unit by means of an exciter signal to execute mechanical oscillations and for receiving the mechanical oscillations of said mechanical oscillatable unit and transducing them into an electrical receiving signal, said electrodynamic transducer unit includes a coil, which serves both as a drive element as well as a receiving element; an electronics unit, which at least determines and/or monitors the process variable based on said received signal; and a reference element connected in parallel with said electrodynamic transducer unit and supplied with the same exciter signal, wherein: said electronics unit extracts from the received signal and the reference signal a wanted signal including a disturbance signal and determines and/or monitors the process variable based on said wanted signal; and said electronics unit includes a control/evaluation unit which determines from the disturbance signal the temperature difference between said coil and said reference element. 2. The apparatus as claimed in claim 1 , wherein: said reference element includes a first component of electrically adjustable size and connected electrically in series with said at least one reference coil. 3. The apparatus as claimed in claim 2 , wherein: said electrodynamic transducer unit includes a second component of electrically adjustable size and connected electrically in series with said coil. 4. The apparatus as claimed in claim 3 , wherein: said first component and/or said second component is a variable resistor, especially a digital potentiometer. 5. The apparatus as claimed in claim 3 , wherein: the size of said second component is adjustable in such a manner that said electrodynamic transducer unit has a predeterminable time constant. 6. The apparatus as claimed in claim 2 , wherein: said electronics unit includes a control/evaluation unit, which controls the size of said first component to the value, in the case of which a magnitude of a disturbance signal in said wanted signal extracted from said received signal and said reference signal is minimum. 7. The apparatus as claimed in claim 6 , wherein: said control/evaluation unit is embodied, based on the disturbance signal, to determine the temperature of said coil. 8. The apparatus as claimed in claim 7 , wherein: the apparatus monitors exceeding or subceeding a predetermined limit value of the process variable, in said control/evaluation unit; threshold values for a process variable dependent oscillatory characteristic which the oscillatory characteristic has in the case of reaching the limit value at the respective temperature, are stored for a predetermined temperature range, in which the apparatus can be operated; and said control/evaluation unit monitors exceeding or subceeding the predetermined limit value based on the ascertained temperature and the threshold value associated with this temperature. 9. An apparatus which determines and/or monitors at least one process variable of a medium in a container, comprising: a mechanically oscillatable unit; an electrodynamic transducer unit for exciting said mechanical oscillatable unit by means of an exciter signal to execute mechanical oscillations and for receiving the mechanical oscillations of said mechanical oscillatable unit and transducing them into an electrical received signal, said electrodynamic transducer unit includes a coil, which serves both as a drive element as well as a receiving element; an electronics unit, which at least determines and/or monitors the process variable based on said received signal; a reference element having at least one reference coil, said reference element is connected in parallel with said electrodynamic transducer unit and supplied with the same exciter signal; and a temperature sensor, which determines a temperature at the site of said reference element, wherein: said reference element produces a reference signal uninfluenced by the oscillations of said mechanical oscillatable unit; said electronics unit extracts from the received signal and the reference signal a wanted signal and determines and/or monitors the process variable based on said wanted signal; said reference element includes a first component of electrically adjustable size and connected electrically in series with said at least one reference coil; said electronics unit includes a control/evaluation unit, which controls the size of said first component to the value, in the case of which a magnitude of a disturbance signal in said wanted signal extracted from said received signal and said reference signal is minimum; said control/evaluation unit is embodied, based on the disturbance signal, to determine the temperature of said coil; said control/evaluation unit determines from the disturbance signal contained in said wanted signal the temperature difference between said coil and said reference element; and said control/evaluation unit, based on the temperature at the site of said reference element and the temperature difference, determines the temperature of said coil.