Large-field-of-view waveguide supporting red, green, and blue in one plate
First Claim
1. An optical device for combining RGB optical signals in a single waveguide, the device comprising a plurality of DOEs including:
- a first DOE comprising a first linear grating having a first grating period and a second linear grating having a second grating period, the first DOE being configured to receive an optical signal at input propagation angles and to diffract the optical signal based on spectrum such that a +1 diffraction order of a predominately first spectrum of light is diffracted by the first linear grating in a first direction and a −
1 diffraction order of the predominantly first spectrum of light is diffracted in a second direction by the first linear grating and a +1 diffraction order of a predominately a second spectrum of light is diffracted in a third direction by the second linear grating and a −
1 diffraction order of the predominantly second spectrum of light is diffracted in a fourth direction by the second linear grating, such that different portions of optical signal take different paths, including at least four different paths;
a second DOE comprising at least four wings with different grating orientations, each grating orientation being oriented to diffract light toward a third DOE, wherein the first DOE is configured to diffract the optical signal diffracted in the first direction toward a first wing, the optical signal diffracted in the second direction toward a second wing, the optical signal diffracted in the third direction toward a third wing, and the optical signal diffracted in the fourth direction toward a fourth wing;
the third DOE configured to diffract light into an eye box keeping output propagation angles within some predetermined threshold of the input propagation angles;
wherein the second and third DOE are configured to cause expansions that are substantially non-parallel; and
wherein the plurality of DOEs are associated with grating vectors and wherein a summation of grating vectors for each of the paths in the at least two different paths is substantially equal to zero.
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Abstract
An optical device for combining RGB optical signals in a single waveguide. The device includes a plurality of DOEs. A first DOE is configured to receive an optical signal at input propagation angles and to diffract the optical signal based on spectrum such that predominately one spectrum of light is diffracted in a first direction and path and predominately a second spectrum of light is diffracted in a second different direction and path. The first DOE is configured to diffract light into a second DOE. The second DOE is configured to diffract light into a third DOE. The third DOE is configured to diffract light into an eye box keeping output propagation angles substantially parallel to the input propagation angles. A summation of grating vectors for each of the paths is substantially equal to zero.
19 Citations
18 Claims
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1. An optical device for combining RGB optical signals in a single waveguide, the device comprising a plurality of DOEs including:
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a first DOE comprising a first linear grating having a first grating period and a second linear grating having a second grating period, the first DOE being configured to receive an optical signal at input propagation angles and to diffract the optical signal based on spectrum such that a +1 diffraction order of a predominately first spectrum of light is diffracted by the first linear grating in a first direction and a −
1 diffraction order of the predominantly first spectrum of light is diffracted in a second direction by the first linear grating and a +1 diffraction order of a predominately a second spectrum of light is diffracted in a third direction by the second linear grating and a −
1 diffraction order of the predominantly second spectrum of light is diffracted in a fourth direction by the second linear grating, such that different portions of optical signal take different paths, including at least four different paths;a second DOE comprising at least four wings with different grating orientations, each grating orientation being oriented to diffract light toward a third DOE, wherein the first DOE is configured to diffract the optical signal diffracted in the first direction toward a first wing, the optical signal diffracted in the second direction toward a second wing, the optical signal diffracted in the third direction toward a third wing, and the optical signal diffracted in the fourth direction toward a fourth wing; the third DOE configured to diffract light into an eye box keeping output propagation angles within some predetermined threshold of the input propagation angles; wherein the second and third DOE are configured to cause expansions that are substantially non-parallel; and wherein the plurality of DOEs are associated with grating vectors and wherein a summation of grating vectors for each of the paths in the at least two different paths is substantially equal to zero. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method of combining RGB optical signals in a single waveguide, the waveguide comprising a plurality of DOEs, the method comprising:
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directing an optical signal at a first DOE at input propagation angles, wherein the first DOE comprises a first linear grating having a first grating period and a second linear grating having a second grating period; at the first DOE, diffracting the optical signal based on spectrum such that a +1 diffraction order of a predominately first spectrum of light is diffracted by the first linear grating in a first direction and a −
1 diffraction order of the predominantly first spectrum of the light is diffracted in a second direction by the first linear grating and a +1 diffraction order of a predominately second spectrum of light is diffracted in a third direction by the second linear grating and a −
1 diffraction order of the predominantly second spectrum of light is diffracted in a fourth direction by the second linear grating, such that different portions of optical signal take different paths, including at least four different paths;at the first DOE, diffracting the different portions into a second DOE, wherein the second DOE comprises at least four wings with different grating orientations, each grating orientation being oriented to diffract light toward a third DOE, and wherein the first DOE diffracts light in the first direction toward a first wing, light in the second direction toward a second wing, light in the third direction toward a third wing, and light in the fourth direction toward the third wing; at the second DOE, diffracting the different portions into the third DOE; at the second DOE and the third DOE expanding the optical signal in a substantially non-parallel fashion; at the third DOE, diffracting the different portions into an eye box keeping output propagation angles within some predetermined threshold of the input propagation angles; and wherein the plurality of DOEs are associated with grating vectors and wherein the acts are performed such that a summation of grating vectors for each of the paths in the at least two different paths is substantially equal to zero. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15)
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16. A near eye optical device, comprising:
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a light engine; a waveguide coupled to the light engine;
wherein the waveguide comprises;a first DOE comprising a first linear grating having a first grating period and a second linear grating having a second grating period, the first DOE being configured to receive an optical signal from the light engine at input propagation angles and to diffract the optical signal based on spectrum such that a +1 diffraction order of a predominately first spectrum of light is diffracted by the first linear grating in a first direction and a −
1 diffraction order of the predominantly first spectrum of light is diffracted in a second direction by the first linear grating and a +1 diffraction order of a predominately second spectrum of light is diffracted in a third direction by the second linear grating and a −
1 diffraction order of the predominantly second spectrum of light is diffracted in a fourth direction by the second linear grating, such that different portions of optical signal take different paths, including at least four different paths;a second DOE comprising at least four wings with different grating orientations, each grating orientation being oriented to diffract light toward a third DOE, wherein the first DOE is configured to diffract the optical signal diffracted in the first direction toward a first wing, the optical signal diffracted in the second direction toward a second wing, the optical signal diffracted in the third direction toward a third wing, and the optical signal diffracted in the fourth direction toward a fourth wing; the third DOE configured to diffract light into an eye box keeping output propagation angles within some predetermined threshold of the input propagation angles; wherein the second and third DOEs are configured to cause expansions that are substantially non-parallel; and wherein the first, second, and third plurality of DOEs are associated with grating vectors and wherein a summation of grating vectors for each of the paths in the at least two different paths is substantially equal to zero. - View Dependent Claims (17, 18)
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Specification