Direct retinal scan display with planar imager
First Claim
1. A direct write planar imager including an inlet for receiving a collimated beam of light scanned in two orthogonal directions and intensity modulated, an outlet for directing the light beam into the eye of an operator and a redirection diffractive optical element for creating a virtual image only on the retina of the eye, the beam of light being directed from the inlet, along a path through the planar imager to the outlet, with the redirection diffractive optical element being positioned in the path, and the path from the inlet to the outlet providing angular magnification, whereby the scanning in two orthogonal directions required to write an image on the retina of the eye is substantially reduced because of the angular magnification in the planar imager.
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Accused Products
Abstract
A display which writes an image directly on the retina of an eye. The display includes a laser which produces a collimated light beam that is modulated with video information and is then scanned and directed through the eye pupil to produce an image on the retina. The scanning uses micro-machined mirrors, electro-optic or acousto-optic devices which are extremely small and require very low power.
186 Citations
14 Claims
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1. A direct write planar imager including an inlet for receiving a collimated beam of light scanned in two orthogonal directions and intensity modulated, an outlet for directing the light beam into the eye of an operator and a redirection diffractive optical element for creating a virtual image only on the retina of the eye, the beam of light being directed from the inlet, along a path through the planar imager to the outlet, with the redirection diffractive optical element being positioned in the path, and the path from the inlet to the outlet providing angular magnification, whereby the scanning in two orthogonal directions required to write an image on the retina of the eye is substantially reduced because of the angular magnification in the planar imager.
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2. A direct retinal scan display comprising:
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a light source for providing a directed beam of light, the light source including modulating means positioned to receive the beam of light for modulating video information onto the beam of light; deflection means positioned to receive the modulated beam of light and deflecting the beam of light in two orthogonal directions; a planar imager including an inlet for receiving the beam of light scanned in two orthogonal directions and modulated, an outlet for directing the beam of light into the eye of an operator and a redirection diffractive optical element for creating a virtual image from the beam of light on the retina of the eye, the beam of light being directed from the inlet, along a path through the planar imager to the outlet, with the redirection diffractive optical element being positioned in the path, and the path from the inlet to the outlet providing angular magnification; and electronic means coupled to the modulating means and the deflection means for controlling the modulating means and the deflection means to, write an image only on the retina of the eye of the operator, whereby the deflecting in two orthogonal directions required to write an image on the retina of the eye is substantially reduced because of the angular magnification in the planar imager. - View Dependent Claims (3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A method of forming a direct retinal scan display comprising the steps of:
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providing a directed beam of light modulated to impress video information onto the beam of light; deflecting the modulated beam of light in two orthogonal directions; providing a planar imager including an inlet for receiving a beam of light, an outlet for directing the received beam of light into the eye of an operator and a redirection diffractive optical element for creating a virtual image from the received beam of light on the retina of the eye, the received beam of light being directed from the inlet, along a path through the planar imager to the outlet, with the redirection diffractive optical element being positioned in the path, and the path from the inlet to the outlet providing angular magnification; and directing the modulated beam of light scanned in two orthogonal directions into the inlet of the planar imager, along the path through the planar imager and from the outlet of the planar imager into the eye of an operator, the modulated beam of light scanned in two orthogonal directions writing an image only on the retina of the eye of the operator, whereby the deflecting in two orthogonal directions required to write an image on the retina of the eye is substantially reduced because of the angular magnification in the planar imager. - View Dependent Claims (13, 14)
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Specification