Display system
First Claim
1. A display system comprising:
- an optical waveguide having an incoupling grating, an intermediate grating and an exit grating;
an actuator coupled to the optical waveguide arranged to generate acoustic waves that are transmitted into the optical component to cause the acoustic waves to propagate in the optical waveguide; and
a light engine configured to generate multiple input beams, each beam being substantially collimated and directed to the incoupling grating in a unique inward direction, whereby the multiple input beams form a virtual image;
wherein the intermediate and exit grating have widths substantially larger than the beams'"'"' diameters;
wherein the intermediate grating has a height that increases from an inner edge of the optical waveguide to an outer edge of the optical waveguide in a lateral direction along its width;
wherein the incoupling grating is arranged to couple each beam into the intermediate grating, in which that beam is guided onto multiple splitting regions of the intermediate grating in a direction along the width of the intermediate grating;
wherein the intermediate grating is arranged to split that beam at the splitting regions to provide multiple substantially parallel versions of that beam which are coupled into the exit grating, in which the multiple versions are guided onto multiple exit regions of the exit grating, the exit regions lying in a direction along the width of the exit grating; and
wherein the exit grating is arranged to diffract the multiple versions of that beam outwardly, the multiple input beams thus causing multiple exit beams to exit the waveguide which form a version of the virtual image.
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Accused Products
Abstract
A display system comprises an optical waveguide, an actuator and a light engine. The light engine generates multiple input beams which form a virtual image. An incoupling grating of the optical waveguide couples each beam into an intermediate grating of the waveguide, in which that beam is guided onto multiple splitting regions. The intermediate grating splits that beam at the splitting regions to provide multiple substantially parallel versions of that beam. Those multiple versions are coupled into an exit grating of the waveguide, in which the multiple versions are guided onto multiple exit regions. The exit grating diffracts the multiple versions of that beam outwardly. The multiple input beams thus cause multiple exit beams to exit the waveguide which form a version of the virtual image. The actuator is coupled to the waveguide and is arranged to generate acoustic waves, which are incident on, and propagate through, the optical waveguide.
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Citations
21 Claims
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1. A display system comprising:
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an optical waveguide having an incoupling grating, an intermediate grating and an exit grating; an actuator coupled to the optical waveguide arranged to generate acoustic waves that are transmitted into the optical component to cause the acoustic waves to propagate in the optical waveguide; and a light engine configured to generate multiple input beams, each beam being substantially collimated and directed to the incoupling grating in a unique inward direction, whereby the multiple input beams form a virtual image; wherein the intermediate and exit grating have widths substantially larger than the beams'"'"' diameters; wherein the intermediate grating has a height that increases from an inner edge of the optical waveguide to an outer edge of the optical waveguide in a lateral direction along its width; wherein the incoupling grating is arranged to couple each beam into the intermediate grating, in which that beam is guided onto multiple splitting regions of the intermediate grating in a direction along the width of the intermediate grating; wherein the intermediate grating is arranged to split that beam at the splitting regions to provide multiple substantially parallel versions of that beam which are coupled into the exit grating, in which the multiple versions are guided onto multiple exit regions of the exit grating, the exit regions lying in a direction along the width of the exit grating; and wherein the exit grating is arranged to diffract the multiple versions of that beam outwardly, the multiple input beams thus causing multiple exit beams to exit the waveguide which form a version of the virtual image. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 21)
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15. An optical waveguide for a display system, the optical waveguide coupled to
an actuator arranged to generate acoustic waves that are transmitted into the optical component to cause the acoustic waves to propagate in the optical waveguide; - the optical waveguide having an incoupling grating, an intermediate grating and an exit grating, the incoupling grating arranged to receive multiple input beams, each beam being substantially collimated and directed to the incoupling grating in a unique inward direction whereby the multiple input beams form a virtual image;
wherein the intermediate and exit grating have widths substantially larger than the beams'"'"' diameters; wherein the intermediate grating has a height that increases from an inner edge of the optical waveguide to an outer edge of the optical waveguide in a lateral direction along its width; wherein the incoupling grating is arranged to couple each beam into the intermediate grating, in which that beam is guided onto multiple splitting regions of the intermediate grating in a direction along the width of the intermediate grating; wherein the intermediate grating is arranged to split that beam at the splitting regions to provide multiple substantially parallel versions of that beam which are coupled into the exit grating, in which the multiple versions are guided onto multiple exit regions of the exit grating, the exit regions lying in a direction along the width of the exit grating; wherein the exit grating is arranged to diffract the multiple versions of that beam outwardly, the multiple input beams thus causing multiple exit beams to exit the waveguide which form a version of the virtual image.
- the optical waveguide having an incoupling grating, an intermediate grating and an exit grating, the incoupling grating arranged to receive multiple input beams, each beam being substantially collimated and directed to the incoupling grating in a unique inward direction whereby the multiple input beams form a virtual image;
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16. A wearable headset comprising:
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a headpiece; an optical waveguide having an incoupling grating, an intermediate grating and an exit grating; an actuator coupled to the optical waveguide arranged to generate acoustic waves that are transmitted into the optical component to cause the acoustic waves to propagate in the optical waveguide; and a light engine mounted to the headpiece, the light engine configured to generate multiple input beams, each beam being substantially collimated and directed to the incoupling grating in a unique inward direction, whereby the multiple input beams form a virtual image; wherein the intermediate and exit grating have widths substantially larger than the beams'"'"' diameters; wherein the intermediate grating has a height that increases from an inner edge of the optical waveguide to an outer edge of the optical waveguide in a lateral direction along its width; wherein the incoupling grating is arranged to couple each beam into the intermediate grating, in which that beam is guided onto multiple splitting regions of the intermediate grating in a direction along the width of the intermediate grating; wherein the intermediate grating is arranged to split that beam at the splitting regions to provide multiple substantially parallel versions of that beam which are coupled into the exit grating, in which the multiple versions are guided onto multiple exit regions of the exit grating, the exit regions lying in a direction along the width of the exit grating; and wherein the exit grating is arranged to diffract the multiple versions of that beam outwardly, the multiple input beams thus causing multiple exit beams to exit the waveguide which form a version of the virtual image. - View Dependent Claims (17, 18, 19, 20)
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Specification