Split field-of-view uncooled infrared sensor
First Claim
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1. An occupancy sensor comprising:
- a primary infrared radiation sensor formed on a substrate;
a first secondary infrared radiation sensor formed on the substrate;
a second secondary infrared radiation sensor formed on the substrate;
a vacuum seal situated on the substrate and around the said primary infrared radiation sensor, and said first and second secondary infrared radiation sensors; and
a window situated as a top cap on said vacuum seal to form an integrated vacuum package containing said primary infrared radiation sensor, and said first and second secondary infrared radiation sensors; and
wherein said window has at least one etched facet to provide different fields of view of a monitored space for said primary infrared radiation sensor, said first secondary infrared radiation sensor and said second secondary infrared radiation sensor, respectively.
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Abstract
An occupancy sensor having a primary infrared radiation sensor and a secondary infrared radiation sensor in an integrated vacuum package having a window that provides separate fields of view to the sensors, respectively. The primary sensor is for monitoring occupancy of a selected space. The secondary sensor is for monitoring the background radiation of the space. Signals from the primary and secondary sensors are electronically processed and compared, and the occupancy level of the selected space is determined. Temperature and visible light sensors may also be incorporated. Sensor information is used to control temperature, ventilation, lighting and other parameters of the selected space.
58 Citations
13 Claims
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1. An occupancy sensor comprising:
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a primary infrared radiation sensor formed on a substrate; a first secondary infrared radiation sensor formed on the substrate; a second secondary infrared radiation sensor formed on the substrate; a vacuum seal situated on the substrate and around the said primary infrared radiation sensor, and said first and second secondary infrared radiation sensors; and a window situated as a top cap on said vacuum seal to form an integrated vacuum package containing said primary infrared radiation sensor, and said first and second secondary infrared radiation sensors; and wherein said window has at least one etched facet to provide different fields of view of a monitored space for said primary infrared radiation sensor, said first secondary infrared radiation sensor and said second secondary infrared radiation sensor, respectively. - View Dependent Claims (2, 3)
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4. An occupancy sensor comprising:
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a substrate; a primary infrared radiation sensor formed on said substrate; a secondary infrared radiation sensor formed on said substrate; a seal situated on said substrate and around said primary and secondary infrared radiation sensors; a window situated on said seal forming a vacuum sealed enclosure containing said primary and secondary infrared radiation sensors; a visible light sensor; and a temperature sensor; and wherein; said window provides a field of view for said primary and secondary infrared radiation sensors; and said occupancy sensor is placed in an area for detecting and indicating whether or not there are occupants in the area. - View Dependent Claims (5, 6, 7, 8, 9)
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10. An occupancy sensor comprising:
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a substrate; a primary infrared radiation sensor formed on said substrate; a secondary infrared radiation sensor formed on said substrate; a seal situated on said substrate and around said primary and secondary infrared radiation sensors; a window situated on said seal forming a vacuum sealed enclosure containing said primary and secondary infrared radiation sensors; and signal processing means for processing signals from said primary and secondary infrared radiation sensors, a visible light sensor and a temperature sensor, and for providing a compensated signal indicating an occupancy status of the area; and wherein; said window provides a first field of view for said primary infrared radiation sensor and a second field of view for said secondary infrared radiation sensor; the first field of view is for passing infrared radiation from a first portion of an area occasionally having occupants, to said primary infrared radiation sensor; the second field of view is for passing infrared radiation from a second portion of the area having no occupants, to said secondary infrared radiation sensor; said primary infrared radiation sensor provides an electrical signal indicating an occupancy status based on an amount of infrared radiation received through the first field of view; said secondary infrared radiation sensor provides an electrical signal indicating an amount of background infrared radiation received through the second field of view; and said signal processing means receives and compares the electrical signal from said primary infrared radiation sensor with the electrical signal from said secondary infrared radiation sensor to determine the occupancy status of the first portion of the area.
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11. An occupancy sensor comprising:
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a primary infrared radiation sensor formed on a substrate; a secondary infrared radiation sensor formed on the substrate; a vacuum seal situated on the substrate and around the said primary infrared radiation sensor, and said secondary infrared radiation sensor; and a window situated as a top cap on said vacuum seal to form an integrated vacuum package containing said primary infrared radiation sensor, and said secondary infrared radiation sensors; and wherein said window has at least one etched facet to provide different fields of view of a monitored space for said primary infrared radiation sensor, and said secondary infrared radiation sensor, respectively.
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12. An occupancy sensor comprising:
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at least one primary infrared radiation sensor formed on a substrate; a plurality of secondary infrared radiation sensors formed on the substrate; a vacuum seal situated on the substrate and around the said at least one primary infrared radiation sensor, and said plurality secondary infrared radiation sensors; and a window situated as a top cap on said vacuum seal to form an integrated vacuum package containing said at least one primary infrared radiation sensor, and said plurality secondary infrared radiation sensors; and wherein said window has at least one etched facet to provide different fields of view of a monitored space for said at least one primary infrared radiation sensor, and said plurality of secondary infrared radiation sensors, respectively. - View Dependent Claims (13)
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Specification
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Current AssigneeHoneywell Incorporated (Honeywell International Inc.)
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Original AssigneeHoneywell Incorporated (Honeywell International Inc.)
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InventorsRhodes, Michael L., Krafthefer, Brian C., Stratton, Thomas G.
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Primary Examiner(s)Glick, Edward J.
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Application NumberUS08/586,016Time in Patent Office809 DaysField of Search250/338.4, 250/342, 250/349, 250/353, 250/DIG. 1US Class Current250/353CPC Class CodesG01J 1/02 DetailsG01J 1/0252 Constructional arrangements...G01J 1/04 Optical or mechanical part ...G01J 1/0407 Optical elements not provid...G01J 1/4228 arrangements with two or mo...G01J 5/04 CasingsG01J 5/045 Sealings; Vacuum enclosures...G01J 5/08 Optical arrangementsG01J 5/0875 Windows; Arrangements for f...G01J 5/20 using resistors, thermistor...G08B 13/19 using infrared-radiation de...Y10S 250/01 Passive intrusion detectors
