A method is disclosed for operating a sensor arrangement having at least one measuring sensor and at least one reference sensor for recording the same physical variable, and having an analysis unit electrically connected thereto, with a characteristic of the sensor arrangement being recorded in an i
A method is disclosed for operating a sensor arrangement having at least one measuring sensor and at least one reference sensor for recording the same physical variable, and having an analysis unit electrically connected thereto, with a characteristic of the sensor arrangement being recorded in an initialization phase from measured values of the at least one measuring sensor and of the at least one reference sensor, and an alarm being given during continuous operation if the deviation from the characteristic lies outside a tolerance band. It is proposed to suspend the alarm dynamically so long as the changes in the measured value in the variation over time of the at least one measuring sensor or in the variation over time of the at least one reference sensor differ by more than a definable limit within a definable time interval.
대표청구항▼
1. A method for operating a sensor arrangement having at least one measuring sensor and at least one reference sensor for recording the same physical variable, and having an analysis unit electrically connected thereto, the method comprising: recording a characteristic of the sensor arrangement in a
1. A method for operating a sensor arrangement having at least one measuring sensor and at least one reference sensor for recording the same physical variable, and having an analysis unit electrically connected thereto, the method comprising: recording a characteristic of the sensor arrangement in an initialization phase from an initialization measured value of the at least one measuring sensor and an initialization measured value of the at least one reference sensor;obtaining a tolerance band constituting a range of tolerable values of at least one of a measured value of the at least one measuring sensor and a measured value of the at least one reference sensor based on the recorded characteristic;obtaining a definable limit constituting one of a maximum value and a minimum value by which at least one of the measured value of the at least one measuring sensor and the measured value of the at least one reference sensor is permitted to differ within a definable time interval constituting a defined period of time;determining if there are changes to the measured values by determining, during operation of the sensor arrangement, if a deviation of at least one of the measured value of the at least one measuring sensor and the measured value of the at least one reference sensor from the recorded characteristic lies outside the tolerance band;outputting an alarm during operation of the sensor arrangement if it is determined that the deviation of at least one of the measured value of the at least one measuring sensor and the measured value of the at least one reference sensor from the recorded characteristic lies outside the tolerance band;wherein, when the deviation lies outside the tolerance band, the alarm is dynamically suspended if it is determined that changes in at least one of the measured value of the at least one measuring sensor and the measured value of the at least one reference sensor differ by more than the definable limit within the definable time interval. 2. The method as claimed in claim 1, wherein the definable limit is adjusted dynamically to suit the changes in measured value as a function of the changes in measured value of the at least one measuring sensor and of the at least one reference sensor within the definable time interval. 3. The method as claimed in claim 2, wherein the definable limit is adjusted proportionally to the changes in measured value within the definable time interval. 4. The method as claimed in claim 1, wherein when the determined changes within the definable time interval are small, the deviation is calculated from the difference in the measured values of the at least one measuring sensor and of the at least one reference sensor and the associated characteristic value of the sensor arrangement. 5. The method as claimed in claim 1, wherein when the determined changes within the definable time interval are large, and differences between the changes in measured value of the at least one measuring sensor and the changes in measured value of the at least one reference sensor are small, known statistical methods are used to calculate the deviation from a plurality of reference values. 6. The method as claimed in claim 1, wherein when the determined changes within the definable time interval are large, and differences between the changes in measured value of the at least one measuring sensor and the changes in measured value of the at least one reference sensor are small, analytical methods are used to calculate the deviation from a plurality of reference values. 7. The method as claimed in claim 1, wherein in the initialization phase, a point in the characteristic of the sensor arrangement is recorded if the changes in measured value of the at least one measuring sensor and of the at least one reference sensor remain within a definable limit range within a definable time interval. 8. The method as claimed in claim 2, wherein when changes in measured value within the definable time interval are small, the deviation is calculated from the difference in the measured values of the at least one measuring sensor and of the at least one reference sensor and the associated characteristic value of the sensor arrangement. 9. The method as claimed in claim 3, wherein when changes in measured value within the definable time interval are small, the deviation is calculated from the difference in the measured values of the at least one measuring sensor and of the at least one reference sensor and the associated characteristic value of the sensor arrangement. 10. The method as claimed in claim 2, wherein when the determined changes within the definable time interval are large, and differences between the changes in measured value of the at least one measuring sensor and the changes in measured value of the at least one reference sensor are small, known statistical methods are used to calculate the deviation from a plurality of reference values. 11. The method as claimed in claim 3, wherein when the determined changes within the definable time interval are large, and differences between the changes in measured value of the at least one measuring sensor and the changes in measured value of the at least one reference sensor are small, known statistical methods are used to calculate the deviation from a plurality of reference values. 12. The method as claimed in claim 2, wherein when the determined changes within the definable time interval are large, and differences between the changes in measured value of the at least one measuring sensor and the changes in measured value of the at least one reference sensor are small, known analytical methods are used to calculate the deviation from a plurality of reference values. 13. The method as claimed in claim 3, wherein when the determined changes within the definable time interval are large, and differences between the changes in measured value of the at least one measuring sensor and the changes in measured value of the at least one reference sensor are small, known analytical methods are used to calculate the deviation from a plurality of reference values.
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