Position detector configurable to operate in an autonomous mode or non-autonomous mode

The invention claimed is: 1. Position detector comprising: a Wiegand module, which is composed of a Wiegand wire with a coil that surrounds the Wiegand wire; a measurement substrate, which defines a measurement plane and on which a first Hall element and a second Hall element are arranged, wherein the Hall elements are arranged on the measurement substrate such that their areas that are sensitive to a magnetic field extend in the measurement plane or form a part of the measurement plane; a processing electronic system, which comprises the first and the second Hall elements and which is configured to evaluate an output signal that is output from the first Hall element and an output signal that is output from the second Hall element; and a permanent magnet assembly, which is movable relative to the Wiegand module and to the first and the second Hall element in one direction as well as in a direction that is opposite to said one direction; wherein upon a movement of the permanent magnet assembly in said one direction, the coil of the Wiegand module generates a voltage pulse, if a north pole or a south pole of the permanent magnet assembly is located at a first position, and upon a movement of the permanent magnet assembly in said opposite direction, the coil of the Wiegand module produces the voltage pulse, if the north pole or the south pole of the permanent magnet assembly is located at a second position that is different from the first position, in an autonomous mode, in which the position detector is not supplied with external energy, the first and the second Hall elements and the processing electronic system are supplied with energy, which is provided by the Wiegand module, and the first Hall element and the second Hall element are arranged such that the processing electronic system, by evaluating the output signal of the first Hall element and the output signal of the second Hall element, obtain information about whether the permanent magnet assembly moves in said one direction or in said opposite direction, the first Hall element and the second Hall element are arranged such that the processing electronic system, by the evaluation of the voltage pulse, the output signal of the first Hall element and the output signal of the second Hall element, obtains information about whether the north pole or the south pole is located at the first or second position, and the information about whether the permanent magnet assembly moves in said one direction or in said opposite direction, and the processing electronic system is configured to obtain the information about whether the permanent magnet assembly moves in said one direction or in said opposite direction on the one hand by providing the output signal of the first Hall element in relation with the output signal of the second Hall element, and on the other hand by providing a polarity of the voltage pulse generated by the coil in relation with at least one of the output signals of the Hall elements. 2. Position detector according to claim 1 , wherein the processing electronic system is configured to obtain the information about whether the permanent magnet assembly moves in said one direction or in said opposite direction by setting the polarity of the voltage pulse generated by the coil in relation with each of the output signals of the first and the second Hall elements. 3. Position detector according to claim 1 , wherein the processing electronic system is configured to output an error signal, if the information cannot be obtained. 4. Position detector according to claim 1 , wherein the position detector is configured to pass over to a non-autonomous operation, in which the position detector is supplied with external energy and an energy storage of the position detector, which is configured to store electric energy, is charged with the external energy; and the energy storage is connected with the processing electronic system such that after passing over of the position detector to the autonomous mode, it supplies the processing electronic system with the stored energy within a minimum time period after the passing over, if the Wiegand module does not supply sufficient energy at a point in time within the minimum time period. 5. Position detector according to claim 1 , further comprising: a third Hall element, which is arranged on the measurement substrate and which is connected to the first Hall element such that their output signals, which indicate a magnetic field strength, are added to a sum signal, wherein the first and the third Hall elements are arranged such that, if in the autonomous mode, the north pole is at the first position after the determination of the voltage pulse, the output signal of the first Hall element corresponds to the north pole and the output signal of the third Hall element corresponds to the south pole; and a fourth Hall element, which is arranged on the measurement substrate and which is coupled to the second Hall element such that their output signals, which indicate a magnetic field strength, are added to a sum signal, wherein the second and the fourth Hall element are arranged such that if in the autonomous mode, the north pole is at the second position after the determination of the voltage pulse, the output signal of the second Hall element corresponds to the north pole and the output signal of the fourth Hall element corresponds to the south pole. 6. Count sensor for counting the number of turns or linear displacements of an object, wherein the count sensor comprises: a position detector according to claim 1 , wherein the permanent magnet assembly is configured to be arranged at the object such that the permanent magnet assembly performs the turns or linear displacements together with the object; and a data memory for storing a value, which indicates the number of turns or of the linear displacements; wherein the processing electronic system is configured to count the number of turns or of the linear displacements of the object on the basis of the information and to store the corresponding value in the data memory. 7. Position detector comprising: a Wiegand module, which is composed of a Wiegand wire with a coil that surrounds the Wiegand wire; a measurement substrate, which defines a measurement plane and on which a first Hall element and a second Hall element are arranged, wherein the Hall elements are arranged on the measurement substrate such that their areas that are sensitive to a magnetic field extend in the measurement plane or form a part of the measurement plane; a processing electronic system, which comprises the first and the second Hall elements and which is configured to evaluate an output signal that is output from the first Hall element and an output signal that is output from the second Hall element; and a permanent magnet assembly, which is movable relative to the Wiegand module and to the first and the second Hall element in one direction as well as in a direction that is opposite to said one direction; wherein upon a movement of the permanent magnet assembly in said one direction, the coil of the Wiegand module generates a voltage pulse, if a north pole or a south pole of the permanent magnet assembly is located at a first position, and upon a movement of the permanent magnet assembly in said opposite direction, the coil of the Wiegand module produces the voltage pulse, if the north pole or the south pole of the permanent magnet assembly is located at a second position that is different from the first position, in an autonomous mode, in which the position detector is not supplied with external energy, the first and the second Hall elements and the processing electronic system are supplied with energy, which is provided by the Wiegand module, and the f