Patent Document ID: 7991571
Application ID: 12166661
Patent Flag: 1

Claim One:
1. A method of providing calibrated coefficients for storage in a temperature-variation countering compensator circuit associated with a sensing means and for thereby enabling the compensator circuit to compensate for temperature-dependent output variation by the sensing means, where said sensing means includes at least a first sensor element that measures a corresponding first physical parameter other than temperature, where said sensing means outputs a first output signal representing the first physical parameter measured by the first sensor element at least while the first sensor element is subjected to a temperature within a first predefined temperature range and while the measured first physical parameter is within a first predefined measurement range, where the first output signal exhibits a nonlinear temperature-dependent output variation relative to changing temperature while the first sensor element operates in at least the first predefined temperature range and in the first predefined measurement range, where said temperature-variation countering compensator circuit couples to a signal combiner that combines the first output signal with at least a first nonlinearity countering signal and a second nonlinearity countering signal to thereby produce a temperature-compensated output signal, where said temperature-variation countering compensator circuit includes a temperature signal generator circuit that generates a temperature signal corresponding to a temperature that the first sensor element is subjected to, where said temperature-variation countering compensator circuit includes at least a first Pade Approximant function generator circuit that synthesizes the first nonlinearity countering signal and a second Pade Approximant function generator circuit that synthesizes the second nonlinearity countering signal, in response to the temperature signal generated by the temperature signal generator circuit, and where the first Pade Approximant function generator circuit and the second Pade Approximation function generator circuit each include one or more memory devices for storing respective first to third calibrated coefficients which are used to control generating the respective nonlinearity countering signal by the corresponding Pade Approximant function generator circuit; said method comprising: (a) while subjecting the first sensor element to a predefined magnitude of the first physical parameter in the first predefined measurement range, and while also subjecting the first sensor element to at least first, second and third substantially spaced apart temperature points (T 1 , T 2 , T 3 ) in said first predefined temperature range, measuring the first output signal so as to thereby define a corresponding at least first, second and third representative samples of the first output signal taken over a substantial span of the first predefined temperature range; (b) generating the temperature signal by the temperature signal generator circuit at each of said at least first, second and third substantially spaced apart temperature points (T 1 , T 2 , T 3 ); (c) for each of said at least first, second and third temperature points and corresponding at least first, second and third output signal representative samples, defining a corresponding equation for each of the first and second nonlinearity countering signals, each equation having at least three unknown coefficients, a first variable representing the respective temperature signal generated by the temperature signal generator and a second variable representing the corresponding representative sample of the first output signal; (d) for each of the first and second nonlinearity countering signals, solving for values of said at least three unknown coefficients that substantially satisfy the corresponding equations defined in step (c), where the solved values of the at least three unknown coefficients define calibrated coefficients that when stored into the one or more memory devices of the corresponding Pade Approximant function generator circuit cause the corresponding Pade Approximant function generator circuit to synthesize the corresponding nonlinearity countering signal in response to a supplied temperature signal supplied from the temperature signal generator circuit and in such a way that the temperature-compensated output signal is substantially free of at least one part of said temperature-dependent output variation; and (e) storing said calibrated coefficients.