Laser illumination device

US 8,224,133 B2
Filed: 07/22/2008
Issued: 07/17/2012
Est. Priority Date: 07/26/2007
Status: Active Grant

First Claim

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1. An ESBG despeckler device comprising:

at least one ESBG element (2;

2A,2B;

90A,90B;

28a,28b;

99a,99b;

3R,4R, 3G,4G, 3B,4B, 90;

94;

96;

84;

85;

86,87;

88,89;

851R,851G,851B;

86A,86B,86C,86D) wherein each said ESBG element is recorded in a Holographic Polymer Dispersed Liquid Crystal sandwiched between transparent substrates to which transparent conductive coatings (130,170;

171;

173) have been applied,characterized in that at least one of said coatings is patterned to provide a two-dimensional array of independently switchable ESBG pixels (21A,21B;

24;

25a,25b,25c;

26a,26b,26c;

27a,27b,27c;

85R,85G,85B;

85a;

88a,89a),wherein an electrical control circuit (3;

31;

32) is operative to apply at least first and second voltages across each said ESBG pixel,wherein said ESBG element is disposed along an illumination path,wherein each said ESBG pixel is characterized by a first unique speckle state under said first applied voltage and a second unique speckle state under said second applied voltage,wherein said first and second speckle states occur during the integration time of the human eye.

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Abstract

An Electrically Switchable Bragg Grating (ESBG) despeckler device comprising at least one ESBG element recorded in a hPDLC sandwiched between transparent substrates to which transparent conductive coatings have been applied. At least one of said coatings is patterned to provide a two-dimensional array of independently switchable ESBG pixels. Each ESBG pixel has a first unique speckle state under said first applied voltage and a second unique speckle state under said second applied voltage.

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25 Claims

1. An ESBG despeckler device comprising:
- at least one ESBG element (2;
  
  2A,2B;
  
  90A,90B;
  
  28a,28b;
  
  99a,99b;
  
  3R,4R, 3G,4G, 3B,4B, 90;
  
  94;
  
  96;
  
  84;
  
  85;
  
  86,87;
  
  88,89;
  
  851R,851G,851B;
  
  86A,86B,86C,86D) wherein each said ESBG element is recorded in a Holographic Polymer Dispersed Liquid Crystal sandwiched between transparent substrates to which transparent conductive coatings (130,170;
  
  171;
  
  173) have been applied,characterized in that at least one of said coatings is patterned to provide a two-dimensional array of independently switchable ESBG pixels (21A,21B;
  
  24;
  
  25a,25b,25c;
  
  26a,26b,26c;
  
  27a,27b,27c;
  
  85R,85G,85B;
  
  85a;
  
  88a,89a),wherein an electrical control circuit (3;
  
  31;
  
  32) is operative to apply at least first and second voltages across each said ESBG pixel,wherein said ESBG element is disposed along an illumination path,wherein each said ESBG pixel is characterized by a first unique speckle state under said first applied voltage and a second unique speckle state under said second applied voltage,wherein said first and second speckle states occur during the integration time of the human eye.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25)
- - 2. The apparatus of claim 1 wherein said ESBG despeckler device comprises identical first and second ESBG elements and the waveforms applied to overlapping pixels of said first and second ESBG elements operate in anti-phase.
  - 3. The illumination device of claim 1 wherein said first and second voltages are points on a time varying voltage characteristic.
  - 4. The apparatus of claim 1 wherein said ESBG despeckler device comprises identical first and second ESBG elements and said second ESBG element is rotated through 180 degrees with respect to said first ESBG element.
  - 5. The apparatus of claim 1 wherein at least one ESBG element is a hologram of a CGH (256) having a first surface and a second surface wherein said CGH is designed to convert a laser beam incident at said first surface into a multiplicity of beams from said second surface wherein each beam has a unique direction in space and a diffusion angle, wherein said beams have single point of origin.
  - 6. The apparatus of claim 1 wherein at least one ESBG element is recorded using a CGH having a first surface and a second surface wherein said CGH is designed to convert a laser beam incident at said first surface into a multiplicity of beams from said second surface wherein each beam has a unique direction in space and a diffusion angle, wherein said beams have points of origin equally spaced around the periphery of said CGH.
  - 7. The apparatus of claim 1 wherein each said ESBG pixel is characterized by a unique grating vector.
  - 8. The apparatus of claim 1 wherein each said ESBG pixel converts incident collimated light into divergent light.
  - 9. The apparatus of claim 1 wherein each said ESBG pixel converts incident light into diffuse light.
  - 10. The apparatus of claim 1 wherein each ESBG pixel has identical optical characteristics.
  - 11. The apparatus of claim 1 wherein said ESBG despeckler device comprises identical first and second ESBG elements and ESBG pixels from said first and second ESBG elements substantially overlap in the illumination beam cross section.
  - 12. The apparatus of claim 1 wherein said ESBG despeckler device comprises identical first and second ESBG elements and ESBG pixels from said first and second ESBG elements are offset by a fraction of the ESBG element width in at least one of the vertical or horizontal array axes in the illumination beam cross section.
  - 13. The illumination device of claim 1 wherein each said ESBG pixel has a first phase retarding characteristic under said first voltage and a second phase retarding characteristic under said second voltage.
  - 14. The illumination device of claim 1 wherein each said ESBG pixel has a first light diffusing characteristic under said first voltage and a second light diffusing characteristic under said second voltage.
  - 15. The illumination device of claim 1 wherein each said ESBG pixel encodes the optical characteristics of an axicon.
  - 16. The illumination device of claim 1 wherein each said ESBG pixel encodes the optical characteristics of a sub wavelength grating phase retarder.
  - 17. The illumination device of claim 1 wherein each said ESBG pixel encodes the optical characteristics of a diffuser.
  - 18. The apparatus of claim 1 wherein said two-dimensional array of independently switchable ESBG pixels provides a Hadamard diffuser.
  - 19. The apparatus of claim 1 further comprising a diffractive illumination profile shaping element (8).
  - 20. The apparatus of claim 1 further comprising an electrically controllable retarder (46).
  - 21. The apparatus of claim 1 wherein said despeckler is disposed within an optical train comprising in series a laser (1;
    - 10), a display panel (45;
      
      97) a projection lens (75,98) and a screen 5).
  - 22. The apparatus of claim 21 further comprising a laser beam expander (7;
    - 73,92).
  - 23. The apparatus of claim 21 wherein said ESBG despeckler device is disposed between said laser source and said display panel.
  - 24. The apparatus of claim 21 wherein said ESBG despeckler device is disposed between said display panel and said projection lens.
  - 25. The apparatus of claim 1 wherein said ESBG element is fabricated using the following steps:
    - providing a first transparent substrate having a first surface to which an anti reflection coating (102) has been applied and a second surface to which a transparent electrode layer (103) has been applied;
      
      removing portions of said transparent electrode layer to provide a patterned electrode layer (130) including an first ESBG pixel pad (131);
      
      depositing a layer of UV absorbing dielectric material (104) over said patterned electrode layer;
      
      removing the portion of said UV absorbing dielectric material overlapping said first ESBG pixel pad;
      
      providing a second transparent substrate having a first surface to which an anti reflection coating has been applied and a second surface to which a transparent electrode layer has been applied;
      
      removing portions of the transparent electrode layer of said second substrate layer to provide a second patterned electrode layer (170) including a second ESBG pixel pad (171) substantially identical to and spatially corresponding with said first ESBG pixel pad;
      
      combining the substrates to form a display cell with the transparent electrode coated surfaces of the two substrates aligned in opposing directions and having a small separation, wherein the antireflection coated surface of said first substrate forms a first cell face, wherein the antireflection coated surface of said second substrate forms a second cell face;
      
      filling said display cell with a PDLL mixture;
      
      illuminating said first cell face by crossed UV laser beams, and simultaneously illuminating said second cell face formed by an incoherent UV source,wherein said step of illuminating said first cell face by crossed UV laser beams, and simultaneously illuminating said second cell face formed by an incoherent UV source forms an ESBG confined to the region between said first symbol pad and said second ESBG pixel pad.

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Current Assignee
DigiLens Inc
Original Assignee
SBG Labs Inc.
Inventors
Popovich, Milan Momcilo, Waldern, Jonathan David, Storey, John James
Primary Examiner(s)
KIM, ELLEN E

Application Number

US12/670,730
Publication Number

US 20100202725A1
Time in Patent Office

1,456 Days
Field of Search

385/10, 385/37, 349/202, 349/201, 349/2, 359/3, 359/15, 359/86, 359/22, 359/24, 359/618, 359/634, 234/54
US Class Current

385/10
CPC Class Codes

G02B 27/425   in illumination systems mas...

G02B 27/48   Laser speckle optics

G02B 5/1828   having means for producing ...

G02B 6/0023   provided by one optical ele...

G02B 6/0035   provided on the surface of ...

G02B 6/005   provided by one optical ele...

G02F 1/0136   for the control of polarisa...

G02F 1/13342   Holographic polymer dispers...

G02F 1/133553   Reflecting elements associa...

G02F 1/133606   including a specially adapt...

G02F 1/13731   based on a field-induced ph...

G02F 2203/62   Switchable arrangements whe...

G03B 21/2033   LED or laser light sources

G03H 1/0248   Volume holograms

G03H 1/32   Systems for obtaining speck...

Laser illumination device

First Claim

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Abstract

Citations

25 Claims

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Laser illumination device

First Claim

3 Assignments

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0 Petitions

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Abstract

Citations

25 Claims

Specification

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Solutions

Use Cases

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