| 摘要 |
An XMR angle sensor arrangement with a safety mechanism comprises an XMR angle sensor having a sensing area for sensing an in-plane magnetic field and for outputting a sensor signal based on the in-plane magnetic field component sensed in the sensing area; a permanent magnet, which is rotatably arranged with respect to the XMR angle sensor to generate a first in-plane magnetic field component in the sensing area of the XMR angle sensor; an excitation current rail path, which is arranged proximate to the sensing area of the XMR angle sensor; and an excitation current provider configured to provide the excitation current rail path with an excitation signal having a excitation signal strength, wherein the excitation signal strength of the excitation signal is chosen to generate a second in-plane magnetic field component in the sensing area of the XMR angle sensor which results, due to a super position of the first and second in-plane magnetic field components, in an expected change of the direction of the resulting in-plane magnetic field component, wherein the XMR angle sensor arrangement is correctly functioning when the sensed change of direction of the resulting in-plane magnetic field component due to the excitation signal corresponds to the expected change of direction of the resulting in-plane magnetic field component. |
| 主权项 |
1. XMR angle sensor arrangement comprising:
an XMR angle sensor having a sensing area for sensing an in-plane magnetic field and for outputting a sensor signal based on the in-plane magnetic field component sensed in the sensing area, a permanent magnet, which is rotatably arranged with respect to the XMR angle sensor to generate a first in-plane magnetic field component in the sensing area of the XMR angle sensor, an excitation current rail path, which is arranged proximate to the sensing area of the XMR angle sensor, an excitation current provider configured to provide the excitation current rail path with an excitation signal having a excitation signal strength, wherein the excitation signal strength of the excitation signal is chosen to generate a second in-plane magnetic field component in the sensing area of the XMR angle sensor which results, due to a super position of the first and second in-plane magnetic field components, in an expected change of the direction of the resulting in-plane magnetic field component, wherein the XMR angle sensor arrangement is correctly functioning when the sensed change of direction of the resulting in-plane magnetic field component due to the excitation signal corresponds to the expected change of direction of the resulting in-plane magnetic field component. |
