Inductive position sensor and method for detecting a movement of a conductive target

What is claimed is: 1 . An inductive position sensor for detecting a position of a conductive target, the inductive position sensor comprising: a first transmitter coil and a second transmitter coil, wherein the first transmitter coil and the second transmitter coil comprise respective pairs of partially overlapping loops and the first transmitter coil and the second transmitter coil are phase-shifted 90° relative to each other; at least one oscillator configured to generate a first transmitter signal and a second transmitter signal, wherein the first transmitter signal and the second transmitter signal have a same shape and are phase-shifted relative to each other and are concurrently applied to the first transmitter coil and second transmitter coil respectively; at least one receiver coil surrounding the first transmitter coil and the second transmitter coil that is configured to receive a receiver signal; a zero-crossing comparator configured to detect zero-crossings of the first transmitter signal, the second transmitter signal, and the receiver signal; and a processing unit configured to, when the conductive target is placed above the inductive position sensor: cause the oscillator to change the phase of the first transmitter signal and the second transmitter signal until the first transmitter signal or the second transmitter signal and the receiver signal have identical zero-crossings; and determine the position of the conductive target based on the change of the phase of the first transmitter signal and the second transmitter signal. 2 . The inductive position sensor according to claim 1 , wherein the first transmitter signal and the second transmitter signal are phase-shifted by 90°. 3 . The inductive position sensor according to claim 1 , wherein the pairs of partially overlapping loops of the first transmitter coil and the second transmitter coil are wound in opposite directions. 4 . The inductive position sensor according to claim 1 , wherein the first transmitter coil, the second transmitter coil and the at least one receiver coil are arranged on a substrate, and wherein the first transmitter coil and the second transmitter coil are superimposed. 5 . The inductive position sensor according to claim 1 , wherein the inductive position sensor is a radial position sensor and the first transmitter coil, the second transmitter coil, and the at least one receiver coil at least partially surround a rotating shaft configured to have the conductive target attached thereto. 6 . A method for detecting a position of a conductive target, the method comprising: applying a first transmitter signal to a first transmitter coil and a second transmitter signal to a second transmitter coil, wherein the first transmitter coil and the second transmitter coil comprise respective pairs of partially overlapping loops and the first transmitter coil and the second transmitter coil are phase-shifted 90° relative to each other and wherein the first transmitter signal and the second transmitter signal have a same shape and are phase-shifted relative to each other; receiving a receiver signal by at least one receiver coil that surrounds the first transmitter coil and the second transmitter coil; detecting zero-crossings of the first transmitter signal, the second transmitter signal, and the receiver signal; changing a phase of the first transmitter signal and the second transmitter signal until the first transmitter signal or the second transmitter signal and the receiver signal have identical zero-crossings; and determine the position of the conductive target based on the change of the phase of the first transmitter signal and the second transmitter signal. 7 . The method according to claim 6 , wherein the pairs of partially overlapping loops of the first transmitter coil and the second transmitter coil are wound in opposite directions. 8 . The method according to claim 6 , wherein the first transmitter coil, the second transmitter coil and the at least one receiver coil are arranged on a substrate, wherein the first transmitter coil and the second transmitter coil are superimposed. 9 . The method according to claim 6 , further comprising: detecting a rotational movement of the conductive target around a rotating shaft, wherein the first transmitter coil, the second transmitter coil and the at least one receiver coil at least partially surround the rotating shaft. 10 . The method according to claim 6 , wherein a phase shift between the first transmitter signal and the second transmitter signal is 90°.