Device which measures oil level and dielectric strength with a capacitance based sensor using a ratiometric algorithm
First Claim
1. A sensor for measuring a dielectric strength and a level of a fluid above a predetermined level in a container, the sensor comprising:
- a linear capacitor disposed within the container to engage the fluid while the level of the fluid is above the predetermined level, the linear capacitor having a first capacitance that is sensitive to the dielectric strength and the level of the fluid above the predetermined level;
a compensator capacitor disposed within the container and submerged in the fluid when the level of the fluid is at least as high as the predetermined level, the compensator capacitor having a second capacitance that is sensitive to the dielectric strength of the fluid and an electronic circuit including a first oscillator electrically connected to the linear capacitor to convert the first capacitance into a first frequency, a second oscillator electrically connected to the compensator capacitor to convert the second capacitance into a second frequency, and a processor electrically connected to the first oscillator and the second oscillator, the processor being operational to calculate the dielectric strength and the level of the fluid above the predetermined level substantially simultaneously based upon the first frequency and the second frequency.
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Accused Products
Abstract
A fluid level sensor and a method of operating the oil level sensor to measure the fluid level and dielectric strength of the fluid substantially simultaneously. The fluid level sensor having a compensator capacitor normally fully submerged within the fluid and a linear capacitor variably submerged as a function of fluid level. Oscillators convert the capacitance of the linear and compensator capacitors into a first and second frequency respectively. A processor uses the two frequencies and calibration data stored in a memory to calculate the fluid level and dielectric strength substantially simultaneously. The dielectric strength calculation may be based upon an offset from the second frequency from a known frequency of a known dielectric strength. The fluid level calculation may be based upon a ratio of a numerator to a denominator where the numerator is a difference between the second frequency and a second focal point frequency, and the denominator is a difference between the first frequency and a first focal point frequency.
86 Citations
24 Claims
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1. A sensor for measuring a dielectric strength and a level of a fluid above a predetermined level in a container, the sensor comprising:
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a linear capacitor disposed within the container to engage the fluid while the level of the fluid is above the predetermined level, the linear capacitor having a first capacitance that is sensitive to the dielectric strength and the level of the fluid above the predetermined level;
a compensator capacitor disposed within the container and submerged in the fluid when the level of the fluid is at least as high as the predetermined level, the compensator capacitor having a second capacitance that is sensitive to the dielectric strength of the fluid and an electronic circuit including a first oscillator electrically connected to the linear capacitor to convert the first capacitance into a first frequency, a second oscillator electrically connected to the compensator capacitor to convert the second capacitance into a second frequency, and a processor electrically connected to the first oscillator and the second oscillator, the processor being operational to calculate the dielectric strength and the level of the fluid above the predetermined level substantially simultaneously based upon the first frequency and the second frequency. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A sensor for measuring a dielectric strength and a level of a fluid, the sensor comprising:
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a housing having an interior, at least one opening of suitable size to permit the fluid to enter the interior, and a predetermined location that defines a zero value for the level of the fluid, the interior having a surface that defines an outer capacitive plate;
a first inner capacitive plate disposed within the housing above the predetermined location, the first inner capacitive plate and outer capacitive plate forming a first capacitance that is sensitive to the dielectric strength and the level of the fluid in the interior of the housing above the predetermined location;
a second inner capacitive plate disposed within the housing below the predetermined location, the second inner capacitive plate and the outer capacitive plate forming a second capacitance that is sensitive to the dielectric strength of the fluid in the interior of;
the housing below the predetermined location; and
an electronic circuit including a first oscillator electrically connected to the first inner capacitive plate and the outer capacitive plate to convert the first capacitance into a first frequency, a second oscillator electrically connected to the second inner capacitive plate and the outer capacitive plate to convert the second capacitance into a second frequency, a processor electrically connected to the first oscillator and the second oscillator, the processor being operational to calculate the dielectric strength and the level of the fluid above the predetermined location substantially simultaneously based upon the first frequency and the second frequency. - View Dependent Claims (9, 10, 11, 12, 13, 14)
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15. A method of determining a dielectric strength and a level of a fluid above a predetermined level in a container, the method comprising:
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providing a linear capacitor disposed within the container to engage the fluid above the predetermined level, the linear capacitor having a first capacitance that is sensitive to the dielectric strength and to the level of the fluid above the predetermined level;
providing a compensator capacitor disposed within the container and immersed in the fluid, the compensator capacitor having a second capacitance that is sensitive to the dielectric strength of the fluid;
measuring the first capacitance of the linear capacitor;
measuring the second capacitance of the compensator capacitor;
calculating the dielectric strength of the fluid based upon the measured second capacitance;
outputting the calculated dielectric strength;
calculating the level of the fluid above the predetermined level, this calculating being performed substantially simultaneously with the calculating of the dielectric strength, and including, (a) providing a characteristic curve that relates the level of the fluid to a first frequency and a second frequency, (b) converting the first capacitance into the first frequency wherein the first frequency is inversely proportional to the first capacitance, (c) converting the second capacitance into the second frequency wherein the second frequency is inversely proportional to the second capacitance, and (d) determining the level of the fluid from the characteristic curve based Upon the first frequency and the second frequency; and
outputting the calculated level of the fluid above the predetermined level. - View Dependent Claims (16, 17, 18, 19)
providing a characteristic curve that relates the dielectric strength of the fluid to a first frequency and a second frequency;
converting the first capacitance into the first frequency wherein the first frequency is inversely proportional to the first capacitance;
converting the second capacitance into the second frequency wherein the second frequency is inversely proportional to the second capacitance; and
determining the dielectric strength of the fluid from the characteristic curve based upon the first frequency and the second frequency.
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17. The method of claim 15 further comprising:
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providing a profile of the container as a function of the level of the fluid above the predetermined level;
calculating the volume of the fluid based upon the profile and in response to calculating the level of the fluid above the predetermined level; and
outputting the volume of the fluid as calculated.
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18. The method of claim 15 further comprising:
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measuring a temperature of the fluid to produce a temperature signal; and
adjusting the level of the fluid above the predetermined level as calculated based upon the temperature signal in response to calculating the level of the fluid above the predetermined level.
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19. The method of claim 15 further comprising:
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receiving an engine speed signal; and
adjusting the level of the fluid above the predetermined level as calculated based upon the engine speed signal in response to calculating the level of the fluid above the predetermined level.
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20. A method of determining a dielectric strength and a level of a fluid above a predetermined level in a container, the method comprising:
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providing a linear capacitor disposed within the container to engage the fluid above the predetermined level, the linear capacitor having a first capacitance that is sensitive to the dielectric strength and to the level of the fluid above the predetermined level;
providing a compensator capacitor disposed within the container and immersed in the fluid, the compensator capacitor having a second capacitance that is sensitive to the dielectric strength of the fluid;
measuring the first capacitance of the linear capacitor;
measuring the second capacitance of the compensator capacitor;
calculating the dielectric strength of the fluid based upon the measured second capacitance;
outputting the calculated dielectric strength;
calculating the level of the fluid above the predetermined level, this calculating being performed substantially simultaneously with the calculating of the dielectric strength and including, (a) providing a characteristic curve, the characteristic curve having a plurality of slopes that relate to a plurality of levels of the fluid above the predetermined level, a first focal point frequency associated with the first capacitance, and a second focal point frequency associated with the second capacitance, wherein the first and the second focal point frequencies are independent of the level of the fluid and independent of the dielectric strength of the fluid, (b) converting the first capacitance into a first frequency that is inversely proportional to the first capacitance, (c) calculating a difference between the first frequency and the first focal point frequency to produce a denominator, (d) converting the second capacitance into a second frequency that is inversely proportional to the second frequency, (e) calculating a difference between the second frequency and the second focal point frequency to produce a numerator, (f) calculating a ratio of the numerator to the denominator to produce a measured slope, and (g) converting the measured slope into the level of the fluid above the predetermined level based upon the plurality of slopes; and
outputting the calculated level of the fluid above the predetermined level. - View Dependent Claims (21, 22, 23, 24)
providing a scale factor, an offset, and a known characteristic of a known dielectric strength;
determining a known frequency from the measured slope and the known characteristic;
calculating a difference between the second frequency and the known frequency to produce a delta frequency;
calculating a product of the scale factor and the delta frequency to produce an intermediate result; and
calculating a sum of the offset and the intermediate result to produce the dielectric strength.
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23. The method of claim 20 further comprising:
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comparing the ratio of the numerator to the denominator to a valid ratio range; and
outputting an error signal in response to the ratio of the numerator to the denominator falling outside the valid ratio range.
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24. The method of claim 20 further comprising:
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comparing the first frequency with a valid first frequency band;
outputting an error signal in response to the first frequency being outside the valid first frequency band;
comparing the second frequency with a valid second frequency band; and
outputting the error signal in response to the second frequency falling outside the valid second frequency band.
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Specification