Position measurement system having receiver coils which are differentially interconnectable via switching means

What is claimed is: 1. A position measurement system comprising: a material measure having a plurality of markings arranged in a row with respect to a measurement direction; and a scanning device that is configured to move relative to the material measure in the measurement direction, the scanning device comprising: a transmitter winding arrangement having a plurality of transmitter areas arranged in a row with respect to the measurement direction; a plurality of receiver coils arranged in a row with respect to the measurement direction, a maximum of one single receiver coil of the plurality of receiver coils being situated in each of the transmitter areas, an inductive coupling between the transmitter winding arrangement and the plurality of receiver coils being a function of a position of the scanning device with respect to the material measure; a plurality of switching devices configured to differentially interconnect at least two adjacent receiver coils of the plurality of receiver coils between a first signal line and a second signal line, the plurality of switching devices having a separate switching device associated with each receiver coil of the plurality of receiver coils; and a differential amplifier connected to the first signal line and the second signal line, wherein the plurality of switching devices is configured to alternately connect the receiver coils of the plurality of receiver coils to the first signal line and the second signal line such that any two directly adjacent receiver coils of the plurality of receiver coils are connected to a different one of the first signal line and the second signal line. 2. The position measurement system according to claim 1 , the differential amplifier further comprising: a positive input connected to the first signal line; and a negative input connected to the second signal line. 3. The position measurement system according to claim 1 , wherein each switching device of the plurality of switching devices is configured to switch between a first state having a first electrical resistance and a second state having a second electrical resistance, the second electrical resistance being at least 1000 times greater than the first electrical resistance. 4. The position measurement system according to claim 1 , wherein the plurality of markings of the material measure are formed by openings in a metal tape, the width and the spacing of each of the openings being an integer multiple of a first division interval λ. 5. The position measurement system according to claim 4 , wherein the plurality of receiver coils are each separated by a distance corresponding to a second division interval δ, wherein the condition r×λ=s×δ applies, where r and s are integers in which s>r. 6. The position measurement system according to claim 5 , wherein the plurality of markings of the material measure form a random number sequence, any arbitrary selection of a number m of directly adjacent markings of the plurality of markings being different from any other arbitrary selection of a number m of directly adjacent markings of the plurality of markings, at least one selection of m−1 directly adjacent markings of the plurality of markings occurring in at least two positions of the random number sequence, wherein e≥1.2×m×s÷r applies, where e is a number of receiver coils in the plurality of receiver coils. 7. The position measurement system according to claim 1 , wherein all receiver coils of the plurality of receiver coils that are on a side facing away from an associated switching device of the at least one switching device are electrically connected to a same voltage level. 8. The position measurement system according to claim 1 , the scanning device further comprising: an actuation device configured to actuate the plurality of switching devices, the actuation device having a plurality of D flip-flops that are interconnected in the form of a shift register having a clock input and a plurality taps, each of the plurality of taps being configured to actuate a corresponding switching device of the plurality of switching devices. 9. A method for operating a position measurement system comprising a material measure having a plurality of markings arranged in a row with respect to a measurement direction, and a scanning device that is configured to move relative to the material measure in the measurement direction, the scanning device comprising a transmitter winding arrangement having a plurality of transmitter areas arranged in a row with respect to the measurement direction, a plurality of receiver coils arranged in a row with respect to the measurement direction, a maximum of one single receiver coil of the plurality of receiver coils being situated in each of the transmitter areas, an inductive coupling between the transmitter winding arrangement and the plurality of receiver coils being a function of a position of the scanning device with respect to the material measure, and at least one switching device configured to differentially interconnect at least two adjacent receiver coils of the plurality of receiver coils, the method comprising differentially interconnecting in succession different pairs of receiver coils of the plurality of receiver coils via an associated switching device of the at least one switching device; and using at least one receiver coil of the plurality of receiver coils to read two different markings of the plurality of markings of the material measure in one position of the position measurement system. 10. A position measurement system comprising: a material measure having a plurality of markings arranged in a row with respect to a measurement direction; and a scanning device that is configured to move relative to the material measure in the measurement direction, the scanning device comprising: a transmitter winding arrangement having a plurality of transmitter areas arranged in a row with respect to the measurement direction; a plurality of receiver coils arranged in a row with respect to the measurement direction, a maximum of one single receiver coil of the plurality of receiver coils being situated in each of the transmitter areas, an inductive coupling between the transmitter winding arrangement and the plurality of receiver coils being a function of a position of the scanning device with respect to the material measure; and at least one switching device configured to differentially interconnect at least two adjacent receiver coils of the plurality of receiver coils, wherein the plurality of markings of the material measure are formed by openings in a metal tape, the width and the spacing of each of the openings being an integer multiple of a first division interval λ, and wherein the plurality of receiver coils are each separated by a distance corresponding to a second division interval δ, wherein the condition r×λ=s×δ applies, where r and s are integers in which s>r. 11. The position measurement system according to claim 10 , the scanning device further comprising: a differential amplifier connected to the at least one switching device to differentially connect the at least two adjacent receiver coils of the plurality of receiver coils. 12. The position measurement system according to claim 11 , the at least one switching device further comprising: a plurality of switching devices having a separate switching device associated with each receiver coil of the plurality of receiver coils, the plurality of switching devices being configured to connect the plurality of receiver coils to a first signal line and a second signal line. 13. The position measurement system according to claim 12 , th