Techniques for identifying when to change an air filter
First Claim
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1. In an electronic system having (i) hardware configured to perform electronic operations and (ii) an air filter configured to remove contamination from an air stream that cools the hardware, a method for identifying when to change the air filter, the method comprising:
- obtaining, from a set of particle sensors, a set of sensor signals in response to sensed particles in the air stream;
generating particle count data based on the set of sensor signals; and
providing an output signal having one of a first value and a second value based on the particle count data, the output signal indicating that the air filter should be changed when the output signal has the first value, and the output signal indicating that the air filter should not be changed when the output signal has the second value;
wherein the air filter has an inlet side and an exhaust side, the air stream flowing toward the inlet side and from the exhaust side;
wherein the set of sensor signals includes an inlet sensor signal and an exhaust sensor signal;
wherein the set of particle sensors includes (i) an inlet-side particle sensor disposed between an external air source and the inlet side of the air filter, the inlet-side particle sensor being configured to provide the inlet sensor signal, and (ii) an exhaust-side particle sensor disposed between the hardware and the exhaust side of the air filter, the exhaust-side particle sensor being configured to provide the exhaust sensor signal; and
wherein generating the particle count data includes;
generating an inlet result based on the inlet sensor signal, the inlet result representing a quantity of particles flowing toward the air filter in a particular unit of time, andgenerating an exhaust result based on the exhaust sensor signal, the exhaust result representing a quantity of particles flowing from the air filter in the particular unit of time;
wherein providing the output signal includes;
producing a difference result which identifies a difference between the inlet result and the exhaust result,initially providing the second value in the output signal when the difference result is below a predetermined threshold, andproviding the first value in the output signal once the difference result exceeds the predetermined threshold.
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Abstract
A method is performed in an electronic system having (i) hardware configured to perform electronic operations and (ii) an air filter configured to remove contamination from an air stream that cools the hardware. The method, which identifies when to change an air filter, involves obtaining, from a set of particle sensors, a set of sensor signals in response to sensed particles in the air stream. The method further involves generating particle count data and processing the data based on the set of sensor signals, and providing an output signal having one of a first value and a second value based on the particle count data. The output signal indicates that the air filter should be changed when the output signal has the first value. The output signal indicates that the air filter should not be changed when the output signal has the second value.
26 Citations
18 Claims
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1. In an electronic system having (i) hardware configured to perform electronic operations and (ii) an air filter configured to remove contamination from an air stream that cools the hardware, a method for identifying when to change the air filter, the method comprising:
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obtaining, from a set of particle sensors, a set of sensor signals in response to sensed particles in the air stream; generating particle count data based on the set of sensor signals; and providing an output signal having one of a first value and a second value based on the particle count data, the output signal indicating that the air filter should be changed when the output signal has the first value, and the output signal indicating that the air filter should not be changed when the output signal has the second value; wherein the air filter has an inlet side and an exhaust side, the air stream flowing toward the inlet side and from the exhaust side;
wherein the set of sensor signals includes an inlet sensor signal and an exhaust sensor signal;
wherein the set of particle sensors includes (i) an inlet-side particle sensor disposed between an external air source and the inlet side of the air filter, the inlet-side particle sensor being configured to provide the inlet sensor signal, and (ii) an exhaust-side particle sensor disposed between the hardware and the exhaust side of the air filter, the exhaust-side particle sensor being configured to provide the exhaust sensor signal; and
wherein generating the particle count data includes;generating an inlet result based on the inlet sensor signal, the inlet result representing a quantity of particles flowing toward the air filter in a particular unit of time, and generating an exhaust result based on the exhaust sensor signal, the exhaust result representing a quantity of particles flowing from the air filter in the particular unit of time; wherein providing the output signal includes; producing a difference result which identifies a difference between the inlet result and the exhaust result, initially providing the second value in the output signal when the difference result is below a predetermined threshold, and providing the first value in the output signal once the difference result exceeds the predetermined threshold. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. An electronic system, comprising:
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hardware configured to perform electronic operations; an air filter configured to remove contamination from an air stream that cools the hardware; and a controller configured to identify when to change the air filter, the controller including; a set of particle sensors configured to sense particles in the air stream and provide a set of sensor signals in response to sensed particles in the air stream; processing circuitry coupled to the set of particle sensors, the processing circuitry being configured to generate particle count data based on the set of sensor signals, and output circuitry coupled to the processing circuitry, the output circuitry being configured to provide an output signal having one of a first value and a second value based on the particle count data, the output signal indicating that the air filter should be changed when the output signal has the first value, and the output signal indicating that the air filter should not be changed when the output signal has the second value wherein the hardware is configured to perform data communications operations within a computerized network while the controller concurrently provides the output signal to indicate whether the air filter, which is configured to remove contamination from the air stream that cools the hardware, should be changed; wherein the air filter has an inlet side and an exhaust side, the air stream flowing toward the inlet side and from the exhaust side;
wherein the set of sensor signals includes an inlet sensor signal and an exhaust sensor signal;
wherein the set of particle sensors includes (i) an inlet-side particle sensor disposed between an external air source and the inlet side of the air filter, the inlet-side particle sensor being configured to provide the inlet sensor signal, and (ii) an exhaust-side particle sensor disposed between the hardware and the exhaust side of the air filter, the exhaust-side particle sensor being configured to provide the exhaust sensor signal;
wherein the processing circuitry, when generating the particle count data, is configured to;generate an inlet result based on the inlet sensor signal, the inlet result representing a quantity of particles flowing toward the air filter in a particular unit of time, and generate an exhaust result based on the exhaust sensor signal, the exhaust result representing a quantity of particles flowing from the air filter in the particular unit of time; and wherein the output circuitry, when providing the output signal, is configured to; produce a difference result which identifies a difference between the inlet result and the exhaust result, initially provide the second value in the output signal when the difference result is below a predetermined threshold, and provide the first value in the output signal once the difference result exceeds the predetermined threshold. - View Dependent Claims (11, 12, 13, 14, 15, 16)
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17. An electronic system, comprising:
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hardware configured to perform electronic operations; an air filter configured to remove contamination from an air stream that cools the hardware; and a controller configured to identify when to change the air filter, the controller including; means for sensing particles in the air stream and providing a set of sensor signals in response to sensed particles in the air stream, processing circuitry coupled to the means for sensing and providing, the processing circuitry being configured to generate particle count data based on the set of sensor signals, and output circuitry coupled to the processing circuitry, the output circuitry being configured to provide an output signal having one of a first value and a second value based on the particle count data, the output signal indicating that the air filter should be changed when the output signal has the first value, and the output signal indicating that the air filter should not be changed when the output signal has the second value wherein the air filter has an inlet side and an exhaust side, the air stream flowing toward the inlet side and from the exhaust side;
wherein the set of sensor signals includes an inlet sensor signal and an exhaust sensor signal;
wherein the means for sensing and providing includes (i) an inlet-side particle sensor disposed between an external air source and the inlet side of the air filter, the inlet-side particle sensor being configured to provide the inlet sensor signal, and (ii) an exhaust-side particle sensor disposed between the hardware and the exhaust side of the air filter, the exhaust-side particle sensor being configured to provide the exhaust sensor signal;
wherein the processing circuitry, when generating the particle count data, is configured to;generate an inlet result based on the inlet sensor signal, the inlet result representing a quantity of particles flowing toward the air filter in a particular unit of time, and generate an exhaust result based on the exhaust sensor signal, the exhaust result representing a quantity of particles flowing from the air filter in the particular unit of time; and wherein the output circuitry, when providing the output signal, is configured to; produce a difference result which identifies a difference between the inlet result and the exhaust result, initially provide the second value in the output signal when the difference result is below a predetermined threshold, and provide the first value in the output signal once the difference result exceeds the predetermined threshold. - View Dependent Claims (18)
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Specification
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Current AssigneeCisco Technology, Inc. (Cisco Systems, Inc.)
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Original AssigneeCisco Technology, Inc. (Cisco Systems, Inc.)
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InventorsSeyed, Saeed, Liang, Hsing-Sheng
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Primary Examiner(s)Hofsass; Jeffery
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Assistant Examiner(s)Labbees; Edny
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Application NumberUS11/052,383Publication NumberTime in Patent Office911 DaysField of Search340/606, 340/607, 731/95, 731/96, 738/614.1, 738/632.2, 738/632.3, 324/71.4, 702/33, 702/45, 702/46US Class Current340/606CPC Class CodesB01D 46/0086 Filter condition indicatorsB01D 46/442 by measuring the concentrat...B01D 46/88 Replacing filter elementsG01F 1/74 Devices for measuring flow ...G01N 15/06 Investigating concentration...
