Diffractive optical elements as combiners

US 5,694,230 A
Filed: 06/07/1995
Issued: 12/02/1997
Est. Priority Date: 06/07/1995
Status: Expired due to Term

First Claim

Patent Images

1. A combiner for combining light from two fields of view to permit coincident viewing of the two fields of view comprising:

a light-transmissive substrate having at least first and second surfaces,said first surface having a first diffractive structure formed thereon and a partially reflective characteristic at a wavelength of interest, said first diffractive structure and partially reflective characteristic configured to provide modified reflection to light from a first field of view which may be incident on said first surface,said second surface having a second diffractive structure formed thereon as a substantial conjugate of said first diffractive structure, so that light on a second optical path which may be incident on said second surface passes through said second and first diffractive structures with substantially no net affect,whereby a viewer may look at said first surface and see the modified reflection of light on the first optical path combined with the substantially unaffected light on the second optical path.

View all claims

5 Assignments

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

A combiner for combining light traveling on two optical paths to permit coincident viewing of the light includes a light-transmissive substrate having first and second surfaces, the first surface having a first diffractive structure that is a computer-generated hologram formed thereon configured to correct aberrations in light travelling on the first optical path which may be incident on the first surface and a partially reflective coating on the first diffractive structure, the partially reflective coating being reflective in a narrow bandwidth only, the first diffractive structure and the partially reflective coating configured to provide corrected reflection to light travelling on the first optical path, the second surface having a second diffractive structure that is a computer-generated hologram formed thereon as a conjugate of the first diffractive structure, so that light travelling on a second optical path which may be incident on the second surface passes through the second and first diffractive structures with substantially no net affect, whereby a viewer may look at the first surface and see the corrected reflection of the light travelling on the first optical path combined with the substantially unaffected light travelling on the second optical path.

126 Citations

31 Claims

1. A combiner for combining light from two fields of view to permit coincident viewing of the two fields of view comprising:
- a light-transmissive substrate having at least first and second surfaces,said first surface having a first diffractive structure formed thereon and a partially reflective characteristic at a wavelength of interest, said first diffractive structure and partially reflective characteristic configured to provide modified reflection to light from a first field of view which may be incident on said first surface,said second surface having a second diffractive structure formed thereon as a substantial conjugate of said first diffractive structure, so that light on a second optical path which may be incident on said second surface passes through said second and first diffractive structures with substantially no net affect,whereby a viewer may look at said first surface and see the modified reflection of light on the first optical path combined with the substantially unaffected light on the second optical path.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
- - 2. A combiner as claimed in claim 1 wherein said first and second diffractive structures are computer-generated holograms.
  - 3. A combiner as claimed in claim 1 wherein said substrate is quartz.
  - 4. A combiner as claimed in claim 1 wherein said first diffractive structure is configured to correct aberrations in the light on the first optical path.
  - 5. A combiner as claimed in claim 1 wherein said first diffractive structure is configured to magnify an object in the first field of view.
  - 6. A combiner as claimed in claim 1 wherein said first diffractive structure is a blazed grating.
  - 7. A combiner as claimed in claim 1 wherein said partially reflective characteristic arises from a metal coating.
  - 8. A combiner as claimed in claim 1 wherein said substrate is between 0.4 and 2.0 mm in thickness.
  - 9. A combiner as claimed in claim 1 wherein said partially reflective characteristic arises from a coating reflective in a narrow bandwidth only.
  - 10. A combiner as claimed in claim 1 wherein said substrate has two layers, said second surface being a boundary between said two layers of said substrate.
  - 11. A combiner as claimed in claim 10 wherein said layers have differing indices of refraction.
  - 12. A combiner as claimed in claim 10 wherein said layers have indices of refraction that differ by at least 0.2.
  - 13. A combiner as claimed in claim 10 wherein said layers have indices of refraction that differ by at least 0.5.
  - 14. A combiner as claimed in claim 1 wherein said substrate has a base with said second diffractive structure formed thereon and a planarization layer with said first diffractive structure formed thereon.
  - 15. A combiner as claimed in claim 14 wherein said base and planarization layer have differing indices of refraction.
  - 16. A combiner as claimed in claim 1 wherein said first and second surfaces are outside faces of said substrate.
  - 17. A combiner as claimed in claim 1 wherein said partially reflective characteristic arises from different indices of refraction between materials separated by said first surface.
  - 18. A combiner as claimed in claim 1 wherein said second diffractive structure is a compensated conjugate of said first diffractive structure.

19. A combiner for combining light traveling on two optical paths to permit coincident viewing of the light comprising;
- a light-transmissive substrate having at least first and second surfaces,said first surface having a first diffractive structure that is a computer-generated hologram formed thereon configured to correct aberrations in light travelling on the first optical path which may be incident on said first surface and that is partially reflective, said first diffractive structure configured to provide corrected reflection to light travelling on the first optical path,said second surface having a second diffractive structure that is a computer-generated hologram formed thereon as a substantial conjugate of said first diffractive structure, so that light travelling on a second optical path which may be incident on said second surface passes through said second and first diffractive structures with substantially no net affect,whereby a viewer may look at said first surface and see the corrected reflection of the light travelling on the first optical path combined with the substantially unaffected light travelling on the second optical path.

20. A head mounted display comprising:
- a fixture to be disposed on a person'"'"'s head,an image source adapted to emit light along a first optical path with a perceivable image, anda combiner arranged in said fixture for combining the light travelling on the first optical path with an ambient light to permit coincident viewing of the two optical paths comprising a light-transmissive substrate having at least first and second surfaces, said first surface having a first diffractive structure formed thereon and being partially reflective, said first diffractive structure configured to reflect light travelling on the first optical path as incident on said first surface, and said second surface having a diffractive structure formed thereon, the ambient light incident on said second surface passes through said second and first diffractive structures,whereby a viewer may look at said first surface and see the reflection of said first optical path combined with the substantially unaffected ambient light.
- View Dependent Claims (21)
- - 21. A head mounted display as claimed in claim 20 wherein said combiner is arranged in said fixture so that said first surface is not perpendicular to the viewer'"'"'s line of sight.

22. A windshield for a vehicle having a portion suitable for a head-up display of vehicle information comprising:
- a light-transmissive substrate having at least first and second surfaces,said first surface having a first diffractive structure and a partially reflective coating formed thereon, said first diffractive structure and said partially reflective coating configured to provide modified reflection to light travelling on a first optical path bearing vehicle information which may be incident on said first surface,said second surface having a diffractive structure formed thereon as a substantial conjugate of said first diffractive structure, so that ambient light which may be incident on said second surface passes through said second and first diffractive structures with substantially no net affect,whereby an occupant of the vehicle may look at said first surface and see the modified reflection of said first optical path to see the vehicle information combined with the substantially unaffected ambient light.

23. A method of combining visual images to a viewer comprising the steps of:
- providing a combiner having a light-transmissive substrate having at least first and second surfaces, the first surface having a first diffractive structure formed thereon and being partially reflective, the second surface having a diffractive structure formed thereon as a substantial conjugate of the first diffractive structure;
  
  directing light along a first optical path toward the first surface;
  
  reflecting the light from the first surface in modified form;
  
  directing a light along a second optical path toward the second surface from a direction opposed to the first surface;
  
  transmitting the light from the second optical path through the second and first diffractive structures with substantially no net affect; and
  
  looking at the first surface to see the modified, reflected form of the light from the first optical path combined with the substantially unaffected light from the second optical path.
- View Dependent Claims (24, 25, 26, 27)
- - 24. A method as claimed in claim 23 wherein said reflecting step includes magnifying features in the light travelling along the first optical path.
  - 25. A method as claimed in claim 23 wherein said reflecting step includes reflecting in a narrow bandwidth only.
  - 26. A method as claimed in claim 23 wherein said reflecting step includes correcting aberrations in the light travelling along the first optical path.
  - 27. A method as claimed in claim 23 wherein said transmitting step includes transmitting the light from the second optical path through a portion of the substrate before it encounters the second diffractive structure.

28. An optical element formed as a body having two layers, at least one of which is transmissive to a selected wavelength of a light of illumination,one layer being formed with a first surface relief diffractive optical formation as a boundary thereof,a partially reflective coating on said boundary, andthe other layer formed on said boundary so as to have an adjacent boundary that is a surface relief diffractive optical formation that is the conjugate of the first surface relief diffractive optical formation, wherein light traversing both said first surface relief and its conjugate is substantially unaffected, and a viewer sees the reflection from the partially reflective coating combined with the substantially unaffected light.
- View Dependent Claims (29, 30)
- - 29. An element as claimed in claim 28 wherein said adjacent boundary is partially reflective to the selected wavelength of the light of illumination.
  - 30. An element as claimed in claim 28 wherein said layers have indices of refraction that are substantially equal.

31. A dual element diffractive component comprising:
- a substrate including,a first layer having a first index of refraction and a first diffractive structure formed as a surface relief profile on a surface of said first layer, anda second layer having a second index of refraction and deposited on said first diffractive structure of said first layer and a second diffractive structure formed as a surface relief profile on a surface of said second layer, both layers being transmissive to light at a selected wavelength of illumination, wherein light traversing said first diffractive structure and said second diffractive structure is substantially unaffected, and a viewer sees the substantially unaffected light combined with light traversing only one of said first and second diffractive surfaces.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
FLIR Systems Trading Belgium BVBA
Original Assignee
Digital Optics Corp. (Adeia Inc.)
Inventors
Welch, W. Hudson
Primary Examiner(s)
Dzierzynski, Paul M.
Assistant Examiner(s)
Schuberg, Darren E.

Application Number

US08/481,587
Time in Patent Office

909 Days
Field of Search

359/1-3, 359/13, 359/14, 359/16, 359/24, 359/566, 359/567, 359/576, 359/629, 359/630
US Class Current

359/13
CPC Class Codes

G02B 2027/011   comprising device for corre...

G02B 27/0103   comprising holographic elem...

G02B 27/0149   characterised by mechanical...

G02B 27/0172   characterised by optical fe...

G02B 5/1814   structurally combined with ...

G02B 5/1842   Gratings for image generati...

G02B 5/32   Holograms used as optical e...

G03H 1/0244   Surface relief holograms re...

Diffractive optical elements as combiners

First Claim

5 Assignments

0 Petitions

Accused Products

Abstract

126 Citations

31 Claims

Specification

Solutions

Use Cases

Quick Links

Diffractive optical elements as combiners

First Claim

5 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

126 Citations

31 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links