| 摘要 |
A system for measuring differences in a physical variable, such as temperature, by utilizing predictable behavior in the relative time drift of offset curves for various circuit elements, including two sensors connected to a difference signal amplifier, an ambient condition amplifier, and an analog to digital converter. In an initial calibration mode, the system records several offset curves, stored in memory, correlating ambient condition measurements to offset measurements acquired from the ambient condition amplifier and the difference signal amplifier. Offset curves recorded in the initial calibration mode, correlating ambient condition measurements to measurements from the difference signal amplifier, include one curve recorded with both inputs of the difference signal amplifier held at equal potential and another curve recorded with both sensors held at the same value of the physical variable, over a given ambient condition range. Another offset curve correlates ambient condition to measurements from the ambient condition amplifier, with inputs to the ambient condition amplifier connected to voltages from a substantially time stable reference resistance bridge. These offset curves representing drift behavior, among electrical components, can be updated for time drift, at a single, current arbitrary ambient temperature, the measurements for which can be obtained quickly and applied as a time drift correction to the offset curves, without interrupting normal system operation, to provide a compensated difference measurement between the different values of the physical variable measured by the respective sensors. Additionally, the system dynamically tracks cumulative system errors, in order to calculate optimal system resolution, based upon current operating conditions.
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