A sensing module of the disclosure comprises a sensing device, a voltage generating device, a compensating device, and a voltage controlling device. The sensing device comprises a first reference terminal and a second reference terminal. The compensating device is coupled between the second referenc
A sensing module of the disclosure comprises a sensing device, a voltage generating device, a compensating device, and a voltage controlling device. The sensing device comprises a first reference terminal and a second reference terminal. The compensating device is coupled between the second reference terminal and a voltage reference terminal. The voltage controlling device is respectively coupled to the first reference terminal, the second reference terminal, and the voltage generating device. The voltage controlling device is used for outputting a first voltage signal to the first reference terminal based on the reference voltage signal and a cross voltage of the compensating device. A temperature variation of an impedance of the compensating device positively correlates to a temperature variation of an impedance of the sensing device. A temperature variation of a sensitivity of the sensing device negatively correlates to a temperature variation of the reference voltage signal.
대표청구항▼
1. A sensing module, comprising: a sensing device, comprising a first output node, a second output node, a first reference terminal and a second reference terminal, for generating a sensing signal based on received pressure, wherein there is an equivalent impedance between the first reference termin
1. A sensing module, comprising: a sensing device, comprising a first output node, a second output node, a first reference terminal and a second reference terminal, for generating a sensing signal based on received pressure, wherein there is an equivalent impedance between the first reference terminal and the second reference terminal, and the sensing signal is a voltage difference between the first output node and the second output node;a voltage generating device, for generating a reference voltage signal;a compensating device, coupled between the second reference terminal and a voltage reference terminal; anda voltage controlling device, respectively coupled to the first reference terminal, the second reference terminal, and the voltage generating device, for outputting a first voltage signal to the first reference terminal based on the reference voltage signal and a cross voltage of the compensating device;wherein a sensitivity of the sensing device is a first function of temperature, the equivalent impedance is a second function of temperature, an impedance of the compensating device is a third function of temperature, a value of the reference voltage signal is a fourth function of temperature, the first function of temperature negatively correlates to the fourth function of temperature, and the second function of temperature positively correlates to the third function of temperature. 2. The sensing module in accordance with claim 1, wherein the second function of temperature substantially equals to the third function of temperature. 3. The sensing module in accordance with claim 1, wherein the first function of temperature is substantially a second-order polynomial with a positive second-order coefficient, and the fourth function of temperature is substantially a second-order polynomial with a negative second-order coefficient. 4. The sensing module in accordance with claim 1, wherein the first function of temperature is substantially a second-order polynomial with a negative second-order coefficient, and the fourth function of temperature is substantially a second-order polynomial with a positive second-order coefficient. 5. The sensing module in accordance with claim 1, wherein the voltage generating device is a bandgap reference circuit. 6. The sensing module in accordance with claim 1, wherein the voltage generating device comprising: a temperature sensing unit, for generating a temperature signal based on environmental temperature; anda voltage generating unit, for generating the reference voltage signal based on the temperature signal. 7. The sensing module in accordance with claim 6, wherein the compensating device is coupled to the voltage generating device, and the compensating device comprises: a current source, for providing a temperature independent current; anda digital-to-analog converter, for generating a temperature dependent current based on the temperature signal;wherein an output current equals to a sum of the temperature independent current and the temperature dependent current, and the impedance of the compensating device equals to a ratio of an output voltage of the compensating device to the output current of the compensating device. 8. The sensing module in accordance with claim 1, wherein the compensating device is a resistor. 9. The sensing module in accordance with claim 1, wherein the third function of temperature is substantially a second-order polynomial with a positive second-order coefficient. 10. A sensing module, comprising: a sensing device, comprising a first output node, a second output node, a first reference terminal, and a second reference terminal, for generating a sensing signal based on received pressure, wherein there is an equivalent impedance between the first reference terminal and the second reference terminal, and the sensing signal is a voltage between the first output node and the second output node;a voltage generating device, for generating a reference voltage signal;a compensating device, coupled between the second reference terminal and a voltage reference terminal; anda voltage controlling device, respectively coupled to the first reference terminal, the second reference terminal, and the voltage generating device, for outputting a first voltage signal to the first reference terminal based on the reference voltage signal and a cross voltage of the compensating device;wherein a sensitivity of the sensing device is a first function of temperature, a value of the reference voltage signal is a second function of temperature, and the first function of temperature negatively correlates to the second function of temperature.
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