Planar optical module for tracking and collimating incident light
First Claim
1. A planar optical module having a main plane (P), for capturing, converging and collimating an incident light with a variable incident direction, comprising:
- a first optical arrangement comprising at least one optical layer constructed and arranged to converge the incident light, forming thereby at least one converging light beam, anda second optical arrangement placed downstream the first optical arrangement along a direction perpendicular to the main plane (P), said second optical arrangement having at least one optical layer constructed and arranged to collimate said at least one converging light beam from the first optical arrangement, forming thereby at least one collimated and concentrated output beam;
wherein the first and second optical arrangements are moveable one relative to the other such that the relative position of first and second optical arrangements allows said at least one collimated and concentrated output beam to have an orientation which is, in at least in one plane perpendicular to the main plane (P) of the planar optical module, predetermined, fixed and independent from the direction of the incident light;
wherein said at least one collimated and concentrated output beam comprises a plurality of discrete collimated and concentrated output beams each having an irradiance higher than the incident light;
where a collective lateral extent of the plurality of discrete collimated and concentrated output beams is less than a lateral extent of the incident light.
1 Assignment
0 Petitions
Accused Products
Abstract
Planar optical module (100, 100′) for capturing, converging and collimating incident light (3, 3′) with a variable incident direction comprising: —a first optical arrangement (10) with an optical layer able to converge the incident light-beam (3, 3′), forming thereby a converging light-beam (4, 4′) and —a second optical arrangement (20) placed downstream said first optical arrangement (10), said second optical arrangement (20) having an optical layer collimating said converging light-beam(s) (4, 4′), forming thereby a collimated and concentrated beam (5, 5′), wherein the first and second optical arrangements (10, 20) are movable one relative to the other such that the relative position of first and second optical arrangements (10, 20) allows said collimated and concentrated beam (5, 5′) to have an orientation which is, in a plane perpendicular to the main plane (P) of the planar optical module (100, 100′), predetermined, fixed and independent from the direction of the incident light (3, 3′). Preferentially, the first optical arrangement (10) comprises two optical layers (11, 12) movable one relative to the other, the second optical arrangement (20) comprises either an optical layer formed by one or a plurality of reflective elements (26, 27) having a concave surface or comprises only one optical layer with variable refractive-index elements (23) or with fluorescent dyes (25).
6 Citations
20 Claims
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1. A planar optical module having a main plane (P), for capturing, converging and collimating an incident light with a variable incident direction, comprising:
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a first optical arrangement comprising at least one optical layer constructed and arranged to converge the incident light, forming thereby at least one converging light beam, and a second optical arrangement placed downstream the first optical arrangement along a direction perpendicular to the main plane (P), said second optical arrangement having at least one optical layer constructed and arranged to collimate said at least one converging light beam from the first optical arrangement, forming thereby at least one collimated and concentrated output beam; wherein the first and second optical arrangements are moveable one relative to the other such that the relative position of first and second optical arrangements allows said at least one collimated and concentrated output beam to have an orientation which is, in at least in one plane perpendicular to the main plane (P) of the planar optical module, predetermined, fixed and independent from the direction of the incident light; wherein said at least one collimated and concentrated output beam comprises a plurality of discrete collimated and concentrated output beams each having an irradiance higher than the incident light; where a collective lateral extent of the plurality of discrete collimated and concentrated output beams is less than a lateral extent of the incident light. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
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17. An optical system for capturing, converging and collimating an incident light, comprising:
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at least one planar optical module, the at least one planar optical module having a main plane (P) and comprising; a first optical arrangement with at least one optical layer able to converge said incident light and form at least one converging light beam, and a second optical arrangement placed downstream from the first optical arrangement along a direction substantially perpendicular to the main plane (P), said second optical arrangement having at least one optical layer constructed and arranged to collimate said at least one converging light beam to obtain a corresponding at least one collimated and concentrated output light beam, wherein the first and second optical arrangements are moveable relative to one another in manner such that a given relative position of the first and second optical arrangements allows said at least one collimated and concentrated output light beam to have an orientation which is, in a plane perpendicular to the main plane (P) of the planar optical module, predetermined, fixed, and independent from the direction of the incident light; wherein said at least one collimated and concentrated output light beam comprises a plurality of separated collimated and concentrated output light beams with a higher irradiance than the incident light; wherein a total lateral extent of the plurality of collimated and concentrated output light beams is smaller than a total lateral extent of the incident light entering the first optical arrangement; and an optical concentrator placed downstream of said at least one planar optical module.
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18. A planar optical module having a main plane (P) for capturing, converging and collimating an incident light having a variable incident direction, comprising:
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a first optical arrangement comprising a single optical layer formed by an array of lenses with at least one convex surface and being constructed and arranged to converge said incident light, thereby forming at least one converging light beam; and a second optical arrangement placed downstream of the first optical arrangement, said second optical arrangement having at least one optical layer comprising an array of singular optical elements and being constructed and arranged to collimate said at least one converging light beam, forming thereby at least one collimated and concentrated output light beam; wherein the first and second optical arrangements are parallel to each other and substantially parallel to the main plane (P), and are moveable one relative to the other such that the relative position of first and second optical arrangements allows said at least one collimated and concentrated output light beam to have an orientation which is orthogonal to said main plane (P) of the planar optical module, wherein the size of the optical elements of said second optical arrangement is smaller than the size of the optical elements of said first optical arrangement. - View Dependent Claims (19)
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20. A planar optical module for capturing, converging and collimating incident light beam with a variable incident direction comprising:
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a first optical arrangement with at least one optical layer able to converge said incident light beam, forming thereby at least one converging light beam, and a second optical arrangement placed downstream the first optical arrangement, said second optical arrangement having at least one optical layer able to collimate said converging light beam(s), forming thereby at least one output light beam, said output light beam being a collimated and concentrated beam; wherein said first and second optical arrangements define a main plane (P) for the planar optical module, wherein the first and second optical arrangements are moveable one relative to the other such that the relative position of first and second optical arrangements allows said output light beam(s) to have an orientation which is, in at least in one plane perpendicular to the main plane (P) of the planar optical module, predetermined, fixed and independent from the direction of the incident light beam, wherein said second optical arrangement comprises either; only one optical layer formed by lenses with at least one concave surface;
orat least one optical layer formed by at least one reflective element with at least one concave surface.
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Specification