Single element light detector
First Claim
Patent Images
1. A light detector that provides a response signal based on the intensity of light incident from any direction within a predetermined sector, comprising:
- a base having a surface formed of a diffusely reflective material that defines a reflective region that faces the predetermined sector;
a mask spaced a predetermined distance from the reflective region and located between the base and the predetermined sector such that, when light is incident at an angle normal to the base'"'"'s surface, the mask occludes a portion of the reflective region;
a sensor, responsive to incident light, that generates the response signal based on the intensity of light that it receives and that is located to intercept light reflections from the base surface, wherein the base, mask and sensor are configured such that the light detector is substantially uniformly responsive to light from any direction within the predetermined sector,wherein the reflective region further includes a hemispherical cavity and the reflective region is defined by the cavity'"'"'s aperture and a shoulder surrounding the cavity'"'"'s aperture.
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Abstract
A single element hemispherical light detector that employs the concept of constructed occlusion to improve its uniformity of detection response across a large range of incident angles, and that incorporates a deflector to provide detection response to low incidence angles. The hemispherical light detector uses one active element or photodiode to achieve a substantially uniform response within a sector of a hemisphere.
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Citations
10 Claims
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1. A light detector that provides a response signal based on the intensity of light incident from any direction within a predetermined sector, comprising:
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a base having a surface formed of a diffusely reflective material that defines a reflective region that faces the predetermined sector; a mask spaced a predetermined distance from the reflective region and located between the base and the predetermined sector such that, when light is incident at an angle normal to the base'"'"'s surface, the mask occludes a portion of the reflective region; a sensor, responsive to incident light, that generates the response signal based on the intensity of light that it receives and that is located to intercept light reflections from the base surface, wherein the base, mask and sensor are configured such that the light detector is substantially uniformly responsive to light from any direction within the predetermined sector, wherein the reflective region further includes a hemispherical cavity and the reflective region is defined by the cavity'"'"'s aperture and a shoulder surrounding the cavity'"'"'s aperture. - View Dependent Claims (2, 10)
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3. A light detector that provides a response signal based on the intensity of light incident from any direction within a predetermined sector, comprising:
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a base having a surface formed of a diffusely reflective material that defines a reflective region that faces the predetermined sector; a mask spaced a predetermined distance from the reflective region and located between the base and the predetermined sector such that, when light is incident at an angle normal to the base'"'"'s surface, the mask occludes a portion of the reflective region; a sensor, responsive to incident light, that generates the response signal based on the intensity of light that it receives and that is located to intercept light reflections from the base surface, wherein the base, mask and sensor are configured such that the light detector is substantially uniformly responsive to light from any direction within the predetermined sector, wherein the reflective region further includes a hemispherical cavity and the reflective region is defined by the cavity'"'"'s aperture, and wherein the mask is a circular disk having at least one flat surface and an axis through the flat surface'"'"'s center that is aligned with an axis through the center of the hemispherical cavity such that the disk'"'"'s flat surface is parallel with the cavity'"'"'s aperture, and wherein the diameter of the disk is about 90% of the diameter of the hemispherical cavity. - View Dependent Claims (4)
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5. A light detector that provides a response signal based on the intensity of light incident from any direction within a predetermined sector, comprising:
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a base having a surface formed of a diffusely reflective material that defines a reflective region that faces the predetermined sector; a mask spaced a predetermined distance from the reflective region and located between the base and the predetermined sector such that, when light is incident at an angle normal to the base'"'"'s surface, the mask occludes a portion of the reflective region; a sensor, responsive to incident light, that generates the response signal based on the intensity of light that it receives and that is located to intercept light reflections from the base surface, wherein the base, mask and sensor are configured such that the light detector is substantially uniformly responsive to light from any direction within the predetermined sector, wherein the reflective region further includes a hemispherical cavity and the reflective region is defined by the cavity'"'"'s aperture, and wherein the mask is a circular disk having at least one flat surface and an axis through the flat surface'"'"'s center that is aligned with an axis through the center of the hemispherical cavity such that the disk'"'"'s flat surface is parallel with the cavity'"'"'s aperture, and further wherein the sensor is a photodiode located between the mask and the reflective region, and its response signal is an electrical signal. - View Dependent Claims (6, 7, 8, 9)
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Specification