Diffractive optical touch input
First Claim
1. A method, comprising:
- out-coupling infrared (IR) light via a plurality of gratings from a light guide structure towards a surface of a display;
in-coupling IR light that returns from at least one object above the surface to the light guide structure via at least the plurality of gratings;
detecting the in-coupled IR light along at least one edge of the light guide structure; and
determining at least one of a presence and spatial position of the at least one object relative to the surface of the display in accordance with the detected in-coupled IR light.
1 Assignment
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Accused Products
Abstract
A display apparatus includes a display having a pixelated display surface and an opposed surface, and a substantially planar light guide structure having a light emitting surface that is optically coupled to the opposed surface of the display. The light emitting surface of the light guide structure has an array of gratings arranged as a plurality of sub-arrays of gratings. At least some of the gratings of a given sub-array are configured to emit display light towards the opposed surface of said display, and at least one of the gratings of the given sub-array is configured to emit non-display light (e.g., IR light) towards the opposed surface of the display and to receive non-display light that is at least one of reflected from and scattered by an object that is proximate to the pixelated display surface. The display apparatus also comprises a plurality of light sensors that are disposed along at least two edges of the light guide structure and that are configured to detect the received non-display light. The plurality of light sensors have outputs configured to be connected to a data processor that operates in accordance with a stored program to determine a location of the object on the pixelated display surface.
88 Citations
17 Claims
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1. A method, comprising:
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out-coupling infrared (IR) light via a plurality of gratings from a light guide structure towards a surface of a display; in-coupling IR light that returns from at least one object above the surface to the light guide structure via at least the plurality of gratings; detecting the in-coupled IR light along at least one edge of the light guide structure; and determining at least one of a presence and spatial position of the at least one object relative to the surface of the display in accordance with the detected in-coupled IR light. - View Dependent Claims (2, 3)
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4. A display apparatus, comprising:
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a display having a pixelated display surface and an opposed surface; a substantially planar light guide structure having a light emitting surface that is optically coupled to the opposed surface of said display, said light emitting surface of said light guide structure comprised of an array of gratings arranged as a plurality of sub-arrays of gratings, where at least some of the gratings of a given sub-array are configured to emit display light towards said opposed surface of said display, and where at least one of the gratings of the given sub-array is configured to emit non-display light towards said opposed surface of said display and to receive non-display light that is at least one of reflected from and scattered by at least one object that is proximate to said pixelated display surface; and a plurality of light sensors that are disposed along at least one edge of said light guide structure and configured to detect the received non-display light. - View Dependent Claims (5, 6, 7, 8, 9, 10)
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11. An apparatus, comprising:
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a display unit comprising a pixelated display surface and an opposed surface, a substantially planar light guide structure having a light emitting surface that is optically coupled to the opposed surface of said display unit, said light emitting surface of said light guide structure comprised of an array of gratings arranged as a plurality of sub-arrays of gratings, where at least some of the gratings of a given sub-array are configured to emit display light towards said opposed surface of said display unit, and where at least one of the gratings of the given sub-array is configured to emit non-display light towards said opposed surface of said display and to receive non-display light that is at least one of reflected from and scattered by at least one object that is proximate to said pixelated display surface, said display unit further comprising a plurality of light sensors that are disposed along at least one edge of said light guide structure and configured to detect the received non-display light; at least one processor; and at least one memory including computer program code, the at least one memory and the computer program code configured to, with the at least one processor, cause the apparatus at least to perform at least one of determining a presence and location of the at least one object relative to the pixelated display surface based on output signals of the plurality of light sensors. - View Dependent Claims (12, 13, 14, 15, 16, 17)
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Specification