Low frequency acoustic fuel sensor
First Claim
1. An apparatus for measuring the volume of a substance in a cavity within a container, comprising:
- means for acoustically exciting said cavity at one or more excitation frequencies within a first frequency range;
means for providing a cavity response signal indicative of the acoustic response of said cavity within the container to the acoustic excitation signals;
means for calibrating said apparatus to the speed of sound within said cavity and for providing a volume signal indicative of the volume of substance within said container, comprising;
an auxiliary chamber of known volume disposed within said cavity so as to be above the level of said substance within said cavity, said chamber having a known resonant frequency when the speed of sound propagation in said chamber is at a predetermined nominal value, said known resonant frequency of said auxiliary chamber being higher than a resonant frequency of said cavity, said chamber exposed to the atmosphere within said container so that the actual resonant frequency of said chamber will be dependent on the actual speed of sound propagation through said atmosphere;
means for acoustically exciting said chamber at excitation frequencies within a second frequency range distinct from said first frequency range;
means for providing a chamber response signal indicative of the acoustic response of the chamber to said chamber excitation signals; and
processing means responsive to said cavity response signal and to said chamber response signal for providing a volume signal compensated for the actual speed of sound propagation within said cavity and indicative of the volume of substance within said cavity.
3 Assignments
0 Petitions
Accused Products
Abstract
An acoustic fuel (or other liquid, powder or solid) sensor is disclosed. The sensor measures the volume of fuel in a container of known size. The air within the container is excited by an acoustic transducer. The transducer is driven by a frequency scanning source, and the frequency response of the air cavity within the container is monitored. This frequency response is then processed to determine the volume of air in the container, and the fuel volume is determined to be the total container volume less the air volume. In one embodiment, a tube connects the transducer through an orifice to the air volume, and the frequency response is observed to determine the resonant frequency of the air cavity within the container. The volume of the air cavity is then determined from the resonant frequency. The volume of the fuel is then determined from the tank volume minus the volume of the air cavity.
50 Citations
8 Claims
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1. An apparatus for measuring the volume of a substance in a cavity within a container, comprising:
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means for acoustically exciting said cavity at one or more excitation frequencies within a first frequency range; means for providing a cavity response signal indicative of the acoustic response of said cavity within the container to the acoustic excitation signals; means for calibrating said apparatus to the speed of sound within said cavity and for providing a volume signal indicative of the volume of substance within said container, comprising; an auxiliary chamber of known volume disposed within said cavity so as to be above the level of said substance within said cavity, said chamber having a known resonant frequency when the speed of sound propagation in said chamber is at a predetermined nominal value, said known resonant frequency of said auxiliary chamber being higher than a resonant frequency of said cavity, said chamber exposed to the atmosphere within said container so that the actual resonant frequency of said chamber will be dependent on the actual speed of sound propagation through said atmosphere; means for acoustically exciting said chamber at excitation frequencies within a second frequency range distinct from said first frequency range; means for providing a chamber response signal indicative of the acoustic response of the chamber to said chamber excitation signals; and processing means responsive to said cavity response signal and to said chamber response signal for providing a volume signal compensated for the actual speed of sound propagation within said cavity and indicative of the volume of substance within said cavity. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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Specification