Optical proximity sensor
First Claim
1. A proximity sensor comprising:
- a housing;
at least one light emitter mounted in said housing, each of the at least one light emitter being operable when activated to project a light beam out of said housing;
a plurality of light detectors mounted in said housing, each of the light detectors being operable when activated to output a measure of an amount of light arriving at that light detector;
a plurality of lenses mounted in said housing, each of the lenses, denoted L, being positioned in relation to a respective one of said light detectors, denoted D, such that light entering lens L is significantly detected at light detector D when the light enters lens L at an angle of incidence θ
, and detection by light detector D of light entering lens L decreases as the angle of incidence deviates from angle θ
; and
a processor connected to said at least one light emitter and to said light detectors, being operable to activate said light detectors synchronously with activation of each of said at least one light emitter, and being configured to calculate a location of a reflective object along a path of a light beam projected by an activated one of said at least one light emitter, by (i) calculating an axis of symmetry with respect to which the outputs of the synchronously activated light detectors are approximately symmetric, (ii) orienting the calculated axis of symmetry by the angle θ
, and (iii) locating a point of intersection of the path of the projected light beam with the oriented axis of symmetry.
1 Assignment
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Accused Products
Abstract
A method for identifying a proximal object, including providing light emitters, light detectors and lenses, mounted in a housing, each lens, denoted L, being positioned in relation to a respective one of the detectors, denoted D, such that light entering lens L is maximally detected at detector D when the light enters lens L at an angle of incidence θ, activating the detectors synchronously with activation of each emitter to measure reflections of the light beams emitted by each emitter, and calculating a location of a reflective object along a path of a light beam projected by an activated emitter, by calculating an axis of symmetry with respect to which the outputs of the synchronously activated detectors are approximately symmetric, orienting the calculated axis of symmetry by the angle θ, and locating a point of intersection of the path of the emitted light beam with the oriented axis of symmetry.
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Citations
11 Claims
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1. A proximity sensor comprising:
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a housing; at least one light emitter mounted in said housing, each of the at least one light emitter being operable when activated to project a light beam out of said housing; a plurality of light detectors mounted in said housing, each of the light detectors being operable when activated to output a measure of an amount of light arriving at that light detector; a plurality of lenses mounted in said housing, each of the lenses, denoted L, being positioned in relation to a respective one of said light detectors, denoted D, such that light entering lens L is significantly detected at light detector D when the light enters lens L at an angle of incidence θ
, and detection by light detector D of light entering lens L decreases as the angle of incidence deviates from angle θ
; anda processor connected to said at least one light emitter and to said light detectors, being operable to activate said light detectors synchronously with activation of each of said at least one light emitter, and being configured to calculate a location of a reflective object along a path of a light beam projected by an activated one of said at least one light emitter, by (i) calculating an axis of symmetry with respect to which the outputs of the synchronously activated light detectors are approximately symmetric, (ii) orienting the calculated axis of symmetry by the angle θ
, and (iii) locating a point of intersection of the path of the projected light beam with the oriented axis of symmetry. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method for detecting a proximal object, comprising:
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providing a housing in which light emitters, light detectors and lenses are mounted, each of the lenses, denoted L, being positioned in relation to a respective one of the light detectors, denoted D, such that light entering lens L is significantly detected at light detector D when the light enters lens L at an angle of incidence θ
, and detection by light detector D of light entering lens L decreases as the angle of incidence deviates from angle θ
;activating the light detectors synchronously with activation of each of the light emitters to measure reflections of the light beams emitted by each activated light emitter; and calculating a location of a reflective object along a path of a light beam projected by an activated light emitter, comprising; calculating an axis of symmetry with respect to which the reflections measured by the synchronously activated light detectors are approximately symmetric; orienting the calculated axis of symmetry by the angle θ
; andlocating a point of intersection of the path of the projected light beam with the oriented axis of symmetry. - View Dependent Claims (8, 9, 10, 11)
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Specification