Inductive sensor and method for the operation thereof

The invention claimed is: 1. An inductive sensor, comprising: a substrate on which multiple transmitter and receiver coils are arranged side by side; a printed circuit board connected to the substrate; multiple measuring elements coupled to the multiple transmitter and receiver coils for measuring frequency and amplitude values: a computing device that is a microcontroller arranged on the circuit board; and a temperature sensor integrated into the computing device; wherein each transmitter and receiver coil has 1 to 4 windings; wherein, measured frequency and amplitude values are calculated taking into account data from the temperature sensor. 2. The inductive sensor according to claim 1 , wherein at least two of the transmitter and receiver coils are connected to a common integrated circuit which has one oscillator per transmitter and receiver coil and at least one measuring element per transmitter and receiver coil. 3. The inductive sensor according to claim 2 , further wherein the integrated circuit is arranged on the substrate. 4. The inductive sensor according to claim 3 , further wherein the transmitter and receiver coils are arranged on the integrated circuit. 5. The inductive sensor according to claim 1 , further wherein the transmitter and receiver coils have the same dimensions. 6. The inductive sensor according to claim 1 , further wherein each transmitter and receiver coil has 1 to 2 windings. 7. The inductive sensor according to claim 1 , further wherein the substrate is circular and each transmitter and receiver coil has a diameter or a minor axis of at most 50% of the diameter of the substrate. 8. The inductive sensor according to claim 1 , further comprising a reference transmitter and receiver coil. 9. The inductive sensor according to claim 8 , further wherein the reference transmitter and receiver coil is one of the transmitter and receiver coils arranged side by side on the substrate. 10. The inductive sensor according to claim 8 , further wherein the reference transmitter and receiver coil is arranged together with a reference target on a side of the substrate opposite the multiple transmitter and receiver coils. 11. The inductive sensor according to claim 1 , further wherein the transmitter and receiver coils are each stimulated independently of one another at a frequency of more than 100 MHz. 12. The inductive sensor according to claim 11 , further wherein reception signals of several of the transmitter and receiver coils are combined to determine a lateral and axial position of a target. 13. The inductive sensor according to claim 12 , further wherein the combining of the reception signals takes place in an integrated circuit which controls the transmitter and receiver coils. 14. The inductive sensor according to claim 11 , further wherein the transmitter and receiver coils are stimulated simultaneously. 15. The inductive sensor according to claim 11 , further wherein the transmitter and receiver coils are stimulated in succession. 16. The inductive sensor according to claim 11 , further wherein a time reference signal is generated by a reference transmitter and receiver coil. 17. The inductive sensor according to claim 6 , further wherein all transmitter and receiver coils are arranged in the same plane. 18. The inductive sensor according to claim 1 , further comprising a circuit located on the opposite side of the substrate as the multiple transmitter and receiver coils, the circuit comprising capacitors, oscillators, and measuring elements. 19. The inductive sensor according to claim 1 , further comprising a third transmitter and receiver coil and a reference target both arranged inside the substrate.