Infrared ear thermometer
First Claim
1. An ear thermometer comprising:
- a detector head housing;
a heat sink disposed in the detector head housing;
a thermopile detector mounted within the detector head housing, the thermopile detector having a hot junction and a cold junction, wherein the cold junction is in thermal communication with the heat sink;
a thermistor mounted in thermal communication with the cold junction;
a thermally conductive sleeve surrounding the thermopile detector and defining a first aperture that limits the field of view of the hot junction;
a sleeve-shaped heat pipe made of a thermally conductive material connected in thermal communication with the heat sink, the heat pipe surrounding and shielding the thermally conductive sleeve, the heat pipe defining a second aperture that is outside the field of view of the hot junction as limited by the first aperture; and
temperature determination circuitry configured to calculate a temperature in response to output of the thermopile sensor and the thermistor.
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Accused Products
Abstract
An infrared ear thermometer includes a detector head housing, a heat sink, a recess formed in the heat sink, a thermopile sensor mounted within the recess, a thermistor, and temperature determination circuitry. The recess defines an aperture that limits the field of view of the thermopile sensor. The thermal capacities and conductivities of the heat sink and the thermopile sensor are selected so that the output signal of the thermopile sensor stabilizes during a temperature measurement. A method of determining temperature using the ear thermometer takes successive measurements, stores the measurements in a moving time window, averages the measurements in the moving window, determines whether the average has stabilized, and outputs an average temperature. A method of calculating a subject'"'"'s temperature determines the temperature of a cold junction of the thermopile, looks up a bias and slope of the thermopile based upon the temperature of the cold junction, measures the output of the thermopile, and calculates the subject'"'"'s temperature based upon a linear relationship between the output and the subject'"'"'s temperature. The linear relationship is defined by the bias and the slope.
136 Citations
14 Claims
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1. An ear thermometer comprising:
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a detector head housing;
a heat sink disposed in the detector head housing;
a thermopile detector mounted within the detector head housing, the thermopile detector having a hot junction and a cold junction, wherein the cold junction is in thermal communication with the heat sink;
a thermistor mounted in thermal communication with the cold junction;
a thermally conductive sleeve surrounding the thermopile detector and defining a first aperture that limits the field of view of the hot junction;
a sleeve-shaped heat pipe made of a thermally conductive material connected in thermal communication with the heat sink, the heat pipe surrounding and shielding the thermally conductive sleeve, the heat pipe defining a second aperture that is outside the field of view of the hot junction as limited by the first aperture; and
temperature determination circuitry configured to calculate a temperature in response to output of the thermopile sensor and the thermistor. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A thermometer comprising:
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a detector head having an end configured for insertion into a patient'"'"'s ear;
a heat sink disposed in the detector head;
a thermopile detector affixed to the heat sink proximate the end of the detector head, the thermopile detector comprising;
a thermopile sensor, and a housing containing the thermopile sensor and defining a first aperture that limits a field of view of the thermopile sensor;
a thermally conductive sleeve having an end proximate the end of the detector head, the end of the sleeve defining a second aperture that further limits the field of view of the thermopile sensor, wherein substantially all cross sectional areas parallel to the second aperture and bounded by an inner surface of the sleeve between the first aperture and the second aperture are substantially free of solid structure and are greater in area than the cross-sectional area of the second aperture, wherein the sleeve is in contact with the housing, and wherein the sleeve is in contact with the heat sink; and
temperature determination circuitry configured to calculate a temperature in response to output of the thermopile sensor and the thermistor.
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9. A thermometer comprising:
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a heat sink;
a thermopile detector comprising a hot junction and a cold junction, wherein the cold junction is in thermal communication with the heat sink;
a thermistor mounted in thermal communication with the cold junction;
a thermally conductive sleeve surrounding the thermopile detector, the thermally conductive sleeve connected in thermal communication with the heat sink, the thermally conductive sleeve having an upper end defining a first aperture, wherein the first aperture limits a field of view of the hot junction;
a sleeve-shaped heat pipe made of a thermally conductive material connected in thermal communication with the heat sink, the heat pipe surrounding and shielding the thermally conductive sleeve, the heat pipe having an upper end that extends past the upper end of the sleeve and that defines a second aperture, wherein the second aperture is outside the field of view of the hot junction as limited by the first aperture; and
temperature determination circuitry configured to calculate a temperature in response to output signals from the thermopile detector and the thermistor. - View Dependent Claims (10, 11, 12, 13, 14)
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Specification