Counting sensor for counting the number of revolutions or of linear displacements of an object

The invention claimed is: 1. Counting sensor for counting the number of revolutions or of linear displacements of an object, wherein the counting sensor comprises: one single Wiegand module, which is composed of a Wiegand wire having a coil which encloses the Wiegand wire; at least one sensor element; a processing electronics, which is connected to the sensor element and configured to evaluate an output signal that is output from the sensor element; and a permanent magnet arrangement, which is movable relative to the Wiegand module in one direction as well as in a direction that is opposite to said one direction, wherein the permanent magnet arrangement is configured to be arranged at the object such that the permanent magnet arrangement performs the revolutions or the linear displacements together with the object; wherein: upon movement of the permanent magnet arrangement in said one direction, the coil of the Wiegand module generates a voltage impulse, if a north pole or a south pole of the permanent magnet arrangement is located at a first position, and, upon movement of the permanent magnet arrangement in said opposite direction, the coil of the Wiegand module generates the voltage impulse, if the north pole or the south pole of the permanent magnet arrangement is located at a second position that is different from the first position, in an autonomous mode, in which the counting sensor is not supplied with outside energy, the processing electronics is supplied with energy that is provided by the Wiegand module, the processing electronics is configured, after detecting the voltage impulse that is output from the Wiegand module, to (i) obtain, by an evaluation of the output signal of the sensor elements, direction information indicating whether the permanent magnet arrangement moves in said one direction or in said opposite direction, and (ii) to obtain, by an evaluation of the output signal of the sensor element or by a determination of the polarity of the voltage impulse that is generated by the coil of the Wiegand module, magnetic pole information indicating whether the north pole or the south pole of the permanent magnet arrangement is located at said first or said second position; and a data storage for storing a value, which indicates the number of the revolutions or of the linear displacements; wherein the processing electronics is configured (i) to incorporate both the direction information and the magnetic pole information in a sequence, to determine the number of the revolutions or of the linear displacements of the object on the basis of the direction information and the magnetic pole information, and to store the corresponding value in the data storage, (ii) to perform, on the basis of the sequence of the direction information and the magnetic pole information, an error detection indicating whether one of the revolutions or one of the linear displacements of the object has not been detected partially or completely, and (iii) upon detection of the error, to determine a corresponding correction of said number and to correct said value. 2. Counting sensor according to claim 1 , wherein, if, in said sequence, consecutive direction information and magnetic pole information is identical, the error detection provides a result indicating that an error is present, and the correction is determined to the effect that the value in the data storage is not changed. 3. Counting sensor according to claim 1 , wherein, if, in said sequence, consecutive direction information is identical and consecutive magnetic pole information is different, the error correction provides a result indicating that no error is present, and said number of the revolutions or of the linear displacements of the object is determined correspondingly, and the corresponding value is stored in the data storage. 4. Counting sensor according to claim 1 , wherein, if, in said sequence, consecutive direction information and magnetic pole information is different, the error correction provides a result indicating that an error is present, and the correction is determined to the effect that said value in the data storage is supplemented. 5. Counting sensor according to claim 1 , wherein, if, in said sequence, consecutive direction information is different and consecutive magnetic pole information is identical, the error detection provides a result indicating that no error is present, and said number of the revolutions or of the linear displacements of the object is determined correspondingly, and the corresponding value is stored in the data storage. 6. Counting sensor to claim 1 , wherein the sensor element encloses the Wiegand wire and wherein the processing electronics are configured to obtain the direction information by evaluating an occurrence in time of the output signal of the sensor element in relation to the voltage impulse. 7. Counting sensor according to claim 1 , wherein the sensor element is at least a first Hall element, and the first Hall element is arranged such that the processing electronics receives the direction information by an evaluation of the output signal of the first Hall element. 8. Counting sensor according to claim 7 , wherein the counting sensor comprises a further sensor element in the form of a second Hall element, and the first Hall element and the second Hall element are arranged such that the processing electronics (i) obtains the direction information redundantly by the evaluation of the output signal of the first Hall element and of the output signal of the second Hall element, and (ii) obtains the magnetic pole information redundantly by the determination of the polarity of the voltage impulse generated by the coil of the Wiegand module, by the evaluation of the output signal of the first Hall element and by the evaluation of the output signal of the second Hall element.