Device for determining and/or monitoring at least one predetermined fill level

The invention claimed is: 1. A device for determining and/or monitoring at least one predetermined fill level of a liquid in a container, with a sensor unit, at least comprising: a mechanical unit capable of executing a mechanical oscillation, which is arrangeable at a height of the predetermined fill level; a transmitter unit, which excites said mechanical unit capable of oscillating to said mechanical oscillation by means of an electrical transmission signal; a receiver unit, which is electrically and mechanically coupled to said transmitter unit, and which transduces said oscillation of said mechanical unit capable of oscillating into an electrical receiving signal; and an electronic unit, at least comprising an evaluation unit, which determines from the electrical receiving signal whether said mechanical unit capable of oscillating is covered or uncovered by a filling material, and a regulating unit, which regulates a phase difference that exists between the electrical transmission signal and electrical receiving signal to a determined value at which said mechanical unit capable of oscillating conducts oscillations at a resonant frequency, and which forms an oscillation circuit with said transmitter unit, said receiving unit and said mechanical unit capable of oscillating, wherein: said electronic unit comprises a compensation path with a compensation unit, which compensation unit at least intermittently produces a compensation signal from the transmission signal for compensating additional signal components in the receiving signal, which result from the mechanical and/or electrical coupling between said transmitter unit and said receiver unit, wherein the compensation unit supplies this compensation signal to the receiving signal; said compensation unit produces the compensation signal such that the compensation signal is opposite to the additional signal components in the said receiving signal; and said compensation unit comprises at least one adjustable damping element for adjusting the magnitude of the compensation signal, the compensation unit is controlled by a microcontroller which is embodied to initiate and end the compensation, and to control the adjustment of the magnitude of the compensation signal, wherein the evaluation unit or the microcontroller is embodied to determine a current oscillation frequency, and said compensation unit is embodied to modify the transmission signal in the compensation path in dependence on the current oscillation frequency, wherein the compensation unit produces the compensation signal at least then, if the oscillation frequency does not correspond to a frequency within a region between a minimum frequency dedicated to a covered state and a maximum frequency dedicated to an uncovered state. 2. The device according to claim 1 , wherein: said compensation unit modifies said electric transmission signal in the compensation path in dependence on a current oscillation frequency of an oscillation circuit for producing the compensation signal. 3. The device according to claim 1 , wherein: said adjustable damping element is a voltage divider or amplifier. 4. The device according to claim 1 , wherein: said adjustable damping element comprises a plurality of damping levels. 5. The device according to claim 1 , wherein: said compensation unit comprises an inverting element. 6. A method for compensating additional signal components in the receiving signal, for a device according to claim 1 , where the additional signal components result from the mechanical and/or electrical coupling between transmitter unit and receiver unit, wherein a compensation signal is produced, at least intermittently, from the transmission and is opposite to the additional signal components that result from the coupling, and the compensation signal is supplied to the receiving signal; wherein the amplitude of the compensation signal is adjustable; wherein a current oscillation frequency is determined; wherein the compensation signal is produced in dependence on the current oscillation frequency of the oscillator circuit; and wherein the compensation unit produces the compensation signal at least then, if the oscillation frequency lies outside a region between a minimum frequency dedicated to a covered state and a maximum frequency dedicated to an uncovered state. 7. The method according to claim 6 , wherein: said electrical transmission signal is amplified by an adjustable amplification factor and the amplified transmission signal is supplied to said receiving signal. 8. The method according to claim 6 , wherein: said electrical transmission signal is inverted, is amplified by an adjustable amplification factor and the inverted and amplified transmission signal is supplied to the receiving signal. 9. The method according to claim 6 , wherein: the current oscillation frequency of the oscillation circuit is determined, so that in the case where the oscillation frequency corresponds to a valid sensor frequency, corresponding to said unit capable of oscillating being covered or uncovered, no compensation takes place. 10. The method according to claim 6 , wherein: the current oscillation frequency of the oscillator circuit is determined, so that in the case where the oscillation frequency corresponds to a non-valid sensor frequency, corresponding to a covered or uncovered unit capable of oscillating, a required magnitude of compensation is adjusted by adjusting the amplitude of the compensation signal produced in the compensation path, wherein: the required magnitude of compensation is adjusted to the lowest possible magnitude of compensation, and the required magnitude of compensation is increased until the oscillation frequency corresponds to a valid sensor frequency, or, in case no valid sensor frequency, is achieved, until the highest possible magnitude of compensation is achieved or the oscillation frequency corresponds to an upper mechanical cut-off frequency proscribed by the electronic unit. 11. The method according to claim 6 , wherein: the compensation is ended as soon as a highest possible magnitude of compensation is achieved and no valid sensor frequency, corresponding to a covered or uncovered unit capable of oscillating, is achieved, or the upper mechanical cut-off frequency proscribed by the electronic unit is achieved. 12. The method according to claim 10 , wherein: the magnitude of compensation adjusted to is maintained as soon as the oscillation frequency corresponds to a valid sensor frequency, corresponding to a covered or uncovered unit capable of oscillating.