Compact head up display (HUD) for cockpits with constrained space envelopes
First Claim
Patent Images
1. A head up display, comprising:
- a micro display image source;
collimating optics capable of providing a field of view of at least 30 degrees horizontally by 18 degrees vertically; and
a combiner, the collimating optics being disposed between the combiner and the image source, the collimating optics providing collimated light associated with the micro display image source, the collimating optics having a compact folded beam path, the combiner receiving the collimated light from the collimating optics at an input and providing the collimated light to an output, the collimating light traveling from the input to the output within the combiner by total internal reflection, wherein an input diffraction grating is disposed in a first area at the input and an output diffraction grating is disposed in a second area at the output, wherein the first area is smaller than the second area by a factor of greater than or equal to 3, wherein the combiner provides pupil expansion in the vertical direction.
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Abstract
A head up display includes an image source, collimating optics, and a combiner. The collimating optics are disposed between the combiner and the image source. The combiner receives collimated light from the collimating optics at an input and provides the collimated light to an output. The collimating light travels from the input to the output within the combiner by total internal refraction. An input diffraction grating is disposed in a first area and an output diffraction grating is disposed in a second area. The first area is smaller than the second area.
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Citations
20 Claims
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1. A head up display, comprising:
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a micro display image source; collimating optics capable of providing a field of view of at least 30 degrees horizontally by 18 degrees vertically; and a combiner, the collimating optics being disposed between the combiner and the image source, the collimating optics providing collimated light associated with the micro display image source, the collimating optics having a compact folded beam path, the combiner receiving the collimated light from the collimating optics at an input and providing the collimated light to an output, the collimating light traveling from the input to the output within the combiner by total internal reflection, wherein an input diffraction grating is disposed in a first area at the input and an output diffraction grating is disposed in a second area at the output, wherein the first area is smaller than the second area by a factor of greater than or equal to 3, wherein the combiner provides pupil expansion in the vertical direction. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A method of displaying information on a head up display, the method comprising:
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collimating light from an image source using collimating optics, the collimating optics being a folded catadioptric system capable of providing a field of view of at least 30 degrees horizontally by 18 degrees vertically; diffracting the collimated light into a transparent substrate waveguide at an input; propagating the collimated light through the substrate waveguide to an output; diffracting the collimated light from the substrate waveguide at the output, wherein a pupil is expanded in at least one direction by the substrate waveguide. - View Dependent Claims (12, 13, 14, 15)
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16. A head up display for providing an image from an image source, the display comprising:
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collimating optics having a first exit aperture of a first size; a combiner receiving collimated light from the collimating optics at an input and providing the collimated light to an output, the collimating light traveling from the input to the output within the combiner by total internal refraction, wherein the combiner has a second exit aperture of a second size, the second size being larger than the first size; and a stow mechanism for moving the combiner out of a head path in a crash event and for aligning the combiner to the collimating optics when in an operational position and for moving the combiner out of a pilot'"'"'s view in a stowed position, wherein when moving from the operational position to the stowed position, the combiner rotates in a clockwise or counter clockwise direction when viewed from a position of a pilot. - View Dependent Claims (17, 18, 19, 20)
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Specification