Method and device for determining a speed by means of an inductive speed sensor

The invention claimed is: 1. A method for determining a speed using a measurement sensor in a vehicle, the measurement sensor including at least one coil and a ferromagnetic transmitter element, the method comprising: changing the inductance of the at least one coil and the voltage induced in the at least one coil, using an inductive speed sensor having at least the coil and the ferromagnetic transmitter element; recording the change in the inductance of the at least one coil, and determining the speed based on a changed inductance of the at least one coil; wherein the change in the inductance of the at least one coil is recorded and the speed is determined based on the changed inductance of the at least one coil only until the determined speed has reached a speed limit value starting from lower speeds, wherein a change in the voltage induced in the at least one coil is recorded and the speed is determined based on the changed voltage when the determined speed has exceeded the speed limit value starting from lower speeds, and wherein a change in the inductance of the at least one coil is recorded and the speed is determined based on the changed inductance of the at least one coil when the determined speed has reached or dropped below the speed limit value starting from higher speeds. 2. The method of claim 1 , wherein: (i) the at least one coil is connected in a parallel or series resonant circuit, so that the inductance of the at least one coil is recorded depending on the resonant frequency of the resonant circuit, or (ii) an electrical pulse is applied to the at least one coil, so that the inductance of the at least one coil is recorded depending on the response of the at least one coil to the electrical pulse, or (iii) a constant frequency is applied to the at least one coil, so that the inductance of the at least one coil is then recorded. 3. The method of claim 1 , wherein the vehicle has a plurality of wheels each having an inductive speed sensor as wheel speed sensor on at least two wheels, and wherein a presence of forward travel or reverse travel of the vehicle is determined based on at least one temporal phase offset of the temporal profiles of the inductances recorded by the wheel speed sensors of the at least two wheels. 4. The method of claim 3 , wherein: 1) starting from recorded travel of the vehicle, at least one first temporal phase offset between first temporal profiles of the inductances recorded by the wheel speed sensors of the at least two wheels up to a recorded standstill of the vehicle is stored, 2) after recorded resumption of travel of the vehicle, at least one second temporal phase offset between second temporal profiles of the inductances recorded by the wheel speed sensors of the at least two wheels is recorded and compared with the at least one first temporal phase offset, 3) when it is established in the process that the at least one second temporal phase offset has a significant deviation from the at least one first temporal phase offset, a reversal of the direction of travel from forward travel to reverse travel or from reverse travel to forward travel is concluded, and 4) if it is established that a merely insignificant deviation of the at least one second temporal phase offset from the at least one first temporal phase offset is present, a continuation of the direction of travel, forward travel or reverse travel, is concluded. 5. The method of claim 4 , wherein it is interpreted to be a significant deviation of the at least one second temporal phase offset from the at least one first temporal phase offset when the at least one second temporal phase offset is inverted with respect to the at least one first temporal phase offset, and wherein a temporal lead of the first profile of the inductance recorded by the wheel speed sensor of a first wheel of the at least two wheels with respect to the first profile of the inductance recorded by the wheel speed sensor of a second wheel of the at least two wheels by the first temporal phase offset changes to a temporal lag of the second profile of the inductance recorded by the wheel speed sensor of the first wheel of the at least two wheels with respect to the second profile of the inductance recorded by the wheel speed sensor of the second wheel of the at least two wheels by the second temporal phase offset. 6. The method of claim 4 , wherein a standstill of the vehicle is recorded by identifying a section in the temporal profile of the inductance in which the inductance does not change and/or the gradient of the temporal profile of the inductance is substantially equal to zero. 7. A speed measurement device for determining a speed in a vehicle using a measurement sensor, which includes at least one coil and a ferromagnetic transmitter element, by changing the inductance of the at least one coil and the voltage induced in the at least one coil, comprising: at least one inductive speed sensor, including: the at least one coil; the ferromagnetic transmitter element; and an evaluation circuit; wherein the evaluation circuit is configured to record a change in the inductance of the at least one coil and to determine the speed based on the changed inductance of the at least one coil, wherein the evaluation circuit is further configured to perform the following: recording the change in the inductance of the at least one coil, and determining the speed based on the changed inductance of the at least one coil only until the determined speed has reached a speed limit value starting from lower speeds, recording a change in the voltage induced in the at least one coil when the determined speed has exceeded the speed limit value starting from lower speeds, and determining the speed based on the changed voltage, and recording a change in the inductance of the at least one coil when the determined speed has reached or dropped below the speed limit value starting from higher speeds, and determining the speed based on the changed inductance of the at least one coil. 8. The speed measurement device of claim 7 , wherein the speed measurement device includes a wheel speed measurement device and the inductive speed sensor includes a wheel speed sensor. 9. The speed measurement device of claim 7 , wherein the ferromagnetic transmitter element has alternately protruding teeth and tooth gaps. 10. The speed measurement device of claim 7 , wherein the at least one coil surrounds a soft-magnetic core. 11. The speed measurement device of claim 10 , wherein the soft-magnetic core includes a permanent magnet on an end pointing away from the ferromagnetic transmitter element. 12. The speed measurement device of claim 7 , further comprising at least one of: a circuit in which the at least one coil is connected in a parallel or series resonant circuit and the evaluation circuit is configured to record the inductance of the at least one coil depending on the resonant frequency of the resonant circuit, and/or a means for applying an electrical pulse to the at least one coil, which applies an electrical pulse to the at least one coil, wherein the evaluation circuit is configured to record the inductance of the at least one coil depending on the response of the at least one coil to the electrical pulse, and/or a means for applying a constant frequency to the at least one coil, which applies a constant frequency to the at least one coil, and the evaluation circuit is configured so that it records the inductance of the at least one coil. 13. The speed measurement device of claim 7 , wherein the vehicle has a plurality of wheels each having an inductive speed sensor as wheel speed sensor on at least