Method and device for measuring at least one property of a coil, method and device for measuring the position of an actuation member, and motor vehicle

The invention claimed is: 1. A method for measuring at least one property of a coil, which includes a measuring coil used during measurements of other variables, the coil being modeled as a parallel circuit including a capacitance with a series circuit including a DC voltage resistance, a frequency-dependent resistance, and an inductance, and a current-voltage converter connected in series, the method comprising: a) applying an AC voltage, having a first frequency and having a DC voltage component which differs from zero, to the coil and a voltage at the current-voltage converter is captured at a second frequency which is a multiple of the first frequency, wherein the multiple, as an n-tuple where n is a natural number, is at least four, and the impedance and the phase angle at the first frequency are derived from at least n measured values captured in succession in this manner; and b) applying an AC voltage, having a third frequency which differs from the first frequency and having a DC voltage component which differs from zero, to the coil and the voltage at the current-voltage converter is captured at the second frequency or at a fourth frequency which is a multiple of the first frequency, wherein the multiple, as an m-tuple with a natural number, is at least four, and the impedance and the phase angle at the third frequency are derived from at least m measured values captured in succession in this manner; wherein at least one of the values for the DC voltage resistance, the frequency-dependent resistance, and the inductance is derived from the two impedances and from the two phase angles, and wherein the measuring coil is for measuring a position of an actuation member, the actuation member plunging into the measuring coil in at least one measurable position, and wherein the position of the actuation member is derived from an inductance of the measuring coil, wherein the imaginary part of the impedances (Zi, Z2) of the measuring coil is determined at at least two different frequencies (ω1, ω2) and an ideal inductance (LO) independent of a capacitance (Cp) of the measuring coil is determined therefrom and the position is derived using the ideal inductance (LO), wherein the actuation member is movable back and forth via a pedal in a motor vehicle, wherein a system for measuring the at least one property of the coil includes a voltage generator generates a square-wave voltage, which is passed through a filter that is a low-pass filter or a band pass filter, an output outputs a generator voltage, wherein the voltage is tapped off at a tap of a processor upstream of the filter, wherein a frequency divider, which is coupled between the voltage generator and the filter, is followed by an output to another tap of the processor, where an un-filtered voltage is tapped off, wherein the current-voltage converter is connected in series with the coil which has a converter output, wherein the current-voltage converter is followed by the filter, wherein the processor receives the voltages at the taps of the processor, wherein the processor controls signals supplied to an analog/digital converter, for sampling at angular spacings, which is supplied with the square-wave voltage, wherein the processor configured to calculate the inductance and the frequency-dependent resistance, and wherein the DC voltage component which differs from zero is impressed on the system because of the square-wave voltage. 2. The method of claim 1 , wherein the AC voltage in tasks a) and b) respectively includes a sinusoidal voltage, wherein the voltages differ from one another in terms of their frequency. 3. The method of claim 2 , wherein in task b), the third frequency is three times the first frequency in task a). 4. The method of claim 1 , wherein the same square-wave voltage is respectively generated in tasks a) and b) and is passed through different filters in tasks a) and b). 5. The method of claim 1 , wherein the voltage at the current-voltage converter is captured in phase with the applied AC voltage. 6. The method of claim 1 , wherein Im{Z 1 } is the imaginary part of the impedance Z 1 measured at a first frequency ω 1 on and Im{Z 2 } is the imaginary part of the impedance Z 2 measured at a second frequency ω 2 and the ideal inductance (L 0 ) results as: L ⁢ ⁢ 0 = Im ⁢ { Z 1 } · Im ⁢ { Z 2 ⁢ } · ( ω 1 ω 2 + ω 2 ω 1 ) ω 2 ⁢ Im ⁢ { Z 2 } - ω 1 ⁢ Im ⁢ { Z 1 } . 7. The method of claim 1 , wherein the ideal inductance is temperature-dependent, the temperature is measured, and the measured value for the temperature is used when determining the position. 8. The method of claim 1 , wherein the value for the DC voltage resistance and the value for the frequency-dependent resistance are also used when determining the position. 9. A device for measuring at least one property of a coil, which is a measuring coil, comprising: a cur