RU2005125315A - METHOD FOR COMPENSATING ADDITIVE TEMPERATURE ERROR OF SENSOR WITH VIBRATING ELEMENT - Google Patents

Claims (2)

1. A method of compensating the additive temperature error of a sensor with a vibrating element, a voltage-controlled harmonic oscillator, which is designed to excite vibrations of the vibrating element, a phase converter designed to convert the phase difference between the excitation signals and registering the vibrations of the vibrating element into a constant voltage, and the output frequency a signal consisting in introducing a thermo-dependent element into the sensor design, followed by temperature The dependence of the sensor in the output signal, characterized in that produce generator setting into resonance with the oscillating element at the maximum operating temperature, fixed output value with a phase inverter E _min and the value of the nominal value control (hereinafter, "temperature dependent") of the resistor R ₁ to the oscillator control circuit at the maximum operating temperature, determine the value of the output signal from the phase converter at the minimum operating temperature E _max , depending on the function of the generator oscillations choose the sign of the temperature coefficient of resistance of the thermally dependent resistor R ₁ from the condition when the frequency of the generator is directly proportional to the control voltage, the temperature coefficient of resistance of the thermally dependent resistor is negative; when the generator frequency is inversely proportional to the control voltage, the temperature coefficient of resistance is positive, based on the structurally obtained as a result of manufacturing the temperature coefficient of resistance (with the previously selected sign) compensation thermally dependent resistor R _β calculate its nominal value by the formula

where α _Rβ is the temperature coefficient of resistance of the compensation thermally dependent resistor; ΔT is the range of variation of operating temperatures, determine the value of the thermally independent control resistor r _h as the difference between the nominal value of the control resistor r ₁ and the compensation thermally dependent resistor R _β (r _h = R ₁ -R _β ), install a thermally independent control resistor r _{h in} series instead of the thermally dependent resistor R ₁ and temperature-dependent compensation resistor R _β . 2. The method of compensating the additive temperature error of a sensor with a vibrating element according to claim 1, characterized in that capacitance C _{1 is} used as a heat-sensitive element in the generator control circuit, and the nominal value of compensation thermally dependent capacitance C _{β is} calculated by the formula

where α _Cβ is the temperature coefficient of the capacitance of the compensating thermally dependent capacitance; ΔT is the range of variation of operating temperatures, instead of the control capacitance C _{1, a} thermally independent control capacitance C _H and thermally dependent compensation capacitance C _β are installed in parallel to the control circuit of the generator.