We propose a simple scheme for magnetic angular position sensor based on current-induced spin-orbit torque effect. A full range detection of 360o is realized with a pair of Hall crosses made of heavy metal/ferromagnet heterostructures. The current axes of the two Hall crosses are aligned orthogonal to each other such that when both devices are subject to a rotational in-plane magnetic field, the differential Hall voltage due to current pulses of opposite polarity exhibits a sine and cosine angular dependence on the field direction, respectively. The field rotational angle is then calculated from the sine and cosine output signals via the arctan2 function. A linear correspondence between the calculated and actual field angle is obtained in the field range of 500-2000 Oe, with an average angle error of 0.38-0.65o.
@article{arxiv.1806.06482,
title = {Magnetic angular position sensor enabled by spin-orbit torque},
author = {Ziyan Luo and Yanjun Xu and Yumeng Yang and Yihong Wu},
journal= {arXiv preprint arXiv:1806.06482},
year = {2018}
}