Handheld sensing apparatus
First Claim
1. A method for diagnosing an illness using a handheld sensing apparatus, said method comprising:
- contacting said handheld sensing apparatus with a test sample comprising a bodily component, said handheld sensing apparatus comprising;
a housing;
a sensor module mounted in the housing and including at least two sensors that provide a distinct response to a particular test sample, wherein at least one of the at least two sensors is selected from the group consisting of a conducting/nonconducting regions sensor and an organic semiconducting gas sensor;
a sample chamber defined by one or both of the housing and the sensor module, the sample chamber incorporating an inlet port and an outlet port, wherein the at least two sensors are located within or adjacent to the sample chamber; and
a microprocessor mounted in the housing and configured to analyze a particular response from the at least two sensors, wherein the microprocessor identifies or quantifies analytes within the test sample based on the particular response, thereby diagnosing an illness.
2 Assignments
0 Petitions
Accused Products
Abstract
A vapor sensing device that is sufficiently small and lightweight to be handheld, and also modular so as to allow the device to be conveniently adapted for use in sensing the presence and concentration of a wide variety of specified vapors as resulting from gases released during either decomposition and spoilage of food stuffs, or as released into either the breath or body fluids of a sick patient being medically diagnosed. The device provides these benefits using a sensor module that incorporates a sample chamber and a plurality of sensors located on a chip releasably carried within or adjacent to the sample chamber. Optionally, the sensor module can be configured to be releasably plugged into a receptacle formed in the device. Vapors are directed to pass through the sample chamber, whereupon the sensors provide a distinct combination of electrical signals in response to each. The sensors of the sensor module can take the form of chemically sensitive resistors having resistances that vary according to the identity and concentration of an adjacent vapor. These chemically sensitive resistors can each be connected in series with a reference resistor, between a reference voltage and ground, such that an analog signal is established for each chemically sensitive resistor. The resulting analog signals are supplied to an analog-to-digital converter, to produce corresponding digital signals. These digital signals are appropriately analyzed for vapor identification.
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Citations
25 Claims
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1. A method for diagnosing an illness using a handheld sensing apparatus, said method comprising:
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contacting said handheld sensing apparatus with a test sample comprising a bodily component, said handheld sensing apparatus comprising;
a housing;
a sensor module mounted in the housing and including at least two sensors that provide a distinct response to a particular test sample, wherein at least one of the at least two sensors is selected from the group consisting of a conducting/nonconducting regions sensor and an organic semiconducting gas sensor;
a sample chamber defined by one or both of the housing and the sensor module, the sample chamber incorporating an inlet port and an outlet port, wherein the at least two sensors are located within or adjacent to the sample chamber; and
a microprocessor mounted in the housing and configured to analyze a particular response from the at least two sensors, wherein the microprocessor identifies or quantifies analytes within the test sample based on the particular response, thereby diagnosing an illness.- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. A method for assessing food quality using a handheld sensing apparatus, said method comprising:
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contacting said handheld sensing apparatus with a test sample from a food component, said handheld sensing apparatus comprising;
a housing;
a sensor module mounted in the housing and including at least two sensors that provide a distinct response to a particular test sample wherein at least one of the at least two sensors is selected from the group consisting of a conducting/nonconducting regions sensor and an organic semiconducting gas sensor;
a sample chamber defined by one or both of the housing and the sensor module, the sample chamber incorporating an inlet port and an outlet port, wherein the at least two sensors are located within or adjacent to the sample chamber; and
a microprocessor mounted in the housing and configured to analyze a particular response from the at least two sensors, wherein the microprocessor identifies or quantifies analytes within the test sample based on the particular response, thereby assessing food quality.- View Dependent Claims (15, 16, 17, 18, 19, 20, 21)
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22. A method for diagnosing an illness using a handheld sensing apparatus, said method comprising:
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contacting said handheld sensing apparatus with a test sample comprising a bodily component, said handheld sensing apparatus comprising;
a housing;
a sensor module mounted in the housing and including at least two sensors that provide a distinct response to a particular test sample, wherein at least one of the at least two sensors is SAW sensor;
a sample chamber defined by one or both of the housing and the sensor module, the sample chamber incorporating an inlet port and an outlet port, wherein the at least two sensors are located within or adjacent to the sample chamber; and
a microprocessor mounted in the housing and configured to analyze a particular response from the at least two sensors, wherein the microprocessor identifies or quantifies analytes within the test sample based on the particular response, thereby diagnosing an illness.
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23. A method for assessing food quality using a handheld sensing apparatus, said method comprising:
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contacting said handheld sensing apparatus with a test sample from a food component, said handheld sensing apparatus comprising;
a housing;
a sensor module mounted in the housing and including at least two sensors that provide a distinct response to a particular test sample wherein at least one of the at least two sensors is a SAW sensor;
a sample chamber defined by one or both of the housing and the sensor module, the sample chamber incorporating an inlet port and an outlet port, wherein the at least two sensors are located within or adjacent to the sample chamber; and
a microprocessor mounted in the housing and configured to analyze a particular response from the at least two sensors, wherein the microprocessor identifies or quantifies analytes within the test sample based on the particular response, thereby assessing food quality.
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24. A method for detecting a volatile substance using a handheld sensing apparatus, said method comprising:
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contacting said volatile substance with said handheld sensing apparatus, said handheld sensing apparatus comprising;
a housing;
at least two sensors that provide a distinct response to a particular test sample wherein at least one of the at least two sensors is selected from the group consisting of a conducting/nonconducting regions sensor, an organic semiconducting gas sensor and a SAW sensor;
a sample chamber incorporating an inlet port and an outlet port, wherein the at least two sensors are located within or adjacent to the sample chamber; and
a microprocessor mounted in the housing and configured to analyze a particular response from the at least two sensors, wherein the microprocessor identifies or quantifies analytes within the test sample based on the particular response, thereby detecting said volatile substance.- View Dependent Claims (25)
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Specification