System and method for determining the level of a substance in a container based on measurement of resonance from an acoustic circuit that includes unfilled space within the container that changes size as substance is added or removed from the container
First Claim
1. A system for measuring the volume of a substance in a container, comprising:
- an emitting transducer providing a signal generated by a variable frequency oscillator to excite acoustic resonance of an acoustic circuit represented by a container having an unfilled space filled with a vapor analogous to a capacitor of an acoustic circuit, and a tube analogous to an inductor of an acoustic circuit, wherein the vapor experiences friction as it moves within the tube, which is analogous to a resistor of an acoustic circuit;
a sensing transducer measuring amplitude of the signal as it changes as the circuit achieves resonance and as the container is filled or emptied;
a speed of sound transducer configured to emit and detect a signal ping inside said container to determine a speed of sound in said container;
a temperature sensor for measuring a temperature of said substance; and
a signal processing unit coupled to the sensing transducer and the variable frequency oscillator driving the emitting transducer, said signal processing unit processing the signal sensed by the sensing transducer to extract it from background noise by referencing the signal generated by the variable frequency oscillator and shifting said sensed signal by one or more cycles according to a cross-correlation technique, and wherein a frequency decrease in the sensed signal is indicative of a decrease in the volume of the substance in the container.
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Accused Products
Abstract
Level of substance in a container can be determined by exciting vapor in unfilled space within the container. Variable frequency oscillator and emitting transducer can provide signals to excite resonance of vapor. Sensors can measure the peak resonant signal of vapor excited in unfilled space within the container as the amount of substance in the container changes. A signal-processing unit coupled to the sensor and variable frequency oscillator can process signals sensed by the sensing transducer and can extract them from background noise affecting the acoustic signal of the system using correlation functions by referencing the signal generated by the variable frequency oscillator. A computer can obtain the sign processed by the signal-processing unit and calculate the unfilled space within the container and derive therefrom an amount of filled space representing the amount of the substance contained therein. A gauge can indicate the amount of substance in the container.
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Citations
10 Claims
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1. A system for measuring the volume of a substance in a container, comprising:
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an emitting transducer providing a signal generated by a variable frequency oscillator to excite acoustic resonance of an acoustic circuit represented by a container having an unfilled space filled with a vapor analogous to a capacitor of an acoustic circuit, and a tube analogous to an inductor of an acoustic circuit, wherein the vapor experiences friction as it moves within the tube, which is analogous to a resistor of an acoustic circuit; a sensing transducer measuring amplitude of the signal as it changes as the circuit achieves resonance and as the container is filled or emptied; a speed of sound transducer configured to emit and detect a signal ping inside said container to determine a speed of sound in said container; a temperature sensor for measuring a temperature of said substance; and a signal processing unit coupled to the sensing transducer and the variable frequency oscillator driving the emitting transducer, said signal processing unit processing the signal sensed by the sensing transducer to extract it from background noise by referencing the signal generated by the variable frequency oscillator and shifting said sensed signal by one or more cycles according to a cross-correlation technique, and wherein a frequency decrease in the sensed signal is indicative of a decrease in the volume of the substance in the container. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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Specification