Flat panel display device

US 8,793,104 B2
Filed: 08/12/2010
Issued: 07/29/2014
Est. Priority Date: 08/12/2010
Status: Active Grant

First Claim

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1. A flat panel display device comprising in order a first waveguide, a transition waveguide and a second waveguide, wherein said second waveguide and display panel has display surface and a substantially wedged shape and a plurality of linearly connected sections, each of the plurality of linearly connected sections having a respective display surface with a tilt angle that decreases with distance from the transition waveguide, the thickness and tilt angle of each respective display surface being arranged such that:

first rays entering the first waveguide at a first angle of incidence pass through the first waveguide and transition waveguide and then exit the flat panel display device at a first exit angle with respect to the respective display surface of a first said linearly connected section of the second waveguide through which the first rays exit, said first linearly connected section being adjacent the transition waveguide, andsecond to nth rays entering the first waveguide at respective second to nth angles of incidence pass through the first waveguide and transition waveguide and then exit the flat panel display device at second to nth exit angles with respect to the respective display surfaces of second to nth said linearly connected sections of the second waveguide through which the second to nth rays exit,wherein an exit angle of the first rays is substantially the same as an exit angle of each of the second to nth rays to compensate for distortions in the displayed image generated by the light path of incident image rays in said first waveguide and said transition waveguide.

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Abstract

The invention discloses a method to design the optical profile of a flat panel display device comprising a first waveguide, a transition waveguide and a waveguide/display, wherein the waveguide/display has a display surface and a substantially wedged shape, comprising the steps of: determining the optical profile of the first waveguide and the transition waveguide; selecting major light paths/angles, calculating to obtain the surface profile of the sections in the waveguide/display corresponding to the respectively selected light paths/angles, to compensate the distortions in the displayed image.

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29 Claims

1. A flat panel display device comprising in order a first waveguide, a transition waveguide and a second waveguide, wherein said second waveguide and display panel has display surface and a substantially wedged shape and a plurality of linearly connected sections, each of the plurality of linearly connected sections having a respective display surface with a tilt angle that decreases with distance from the transition waveguide, the thickness and tilt angle of each respective display surface being arranged such that:
- first rays entering the first waveguide at a first angle of incidence pass through the first waveguide and transition waveguide and then exit the flat panel display device at a first exit angle with respect to the respective display surface of a first said linearly connected section of the second waveguide through which the first rays exit, said first linearly connected section being adjacent the transition waveguide, andsecond to nth rays entering the first waveguide at respective second to nth angles of incidence pass through the first waveguide and transition waveguide and then exit the flat panel display device at second to nth exit angles with respect to the respective display surfaces of second to nth said linearly connected sections of the second waveguide through which the second to nth rays exit,wherein an exit angle of the first rays is substantially the same as an exit angle of each of the second to nth rays to compensate for distortions in the displayed image generated by the light path of incident image rays in said first waveguide and said transition waveguide.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
- - 2. The flat panel display device according to claim 1, wherein said first to nth angles of incidence are within a selected range of angles predetermined to respectively enable said first to nth rays to exit said second waveguide and display surface at said substantially the same exit angle, after they have travelled through said first waveguide and said second waveguide.
  - 3. The flat panel display device according to claim 1, wherein said exit angle is smaller than a critical angle of said second waveguide, whereby the exiting rays do not intercept the display surfaces at an angle equal to or shallower than the critical angle.
  - 4. The flat panel display device according to claim 1, wherein said transition waveguide has a curved surface and a length that is short enough to restrict rays entering the transition waveguide from the first waveguide to bounce not more than once in said transition waveguide.
  - 5. The flat panel display device according to claim 1, wherein:
    - a surface profile of said display surface of the first section most adjacent to said transition waveguide is determined by calculating the optical path of image rays from a light source positioned at the entrance side of said first waveguide with said first incident angle passing through said first waveguide and said transition waveguide to produce a selected range of said exit angles, anda surface profile of the respective display surface of said nth (where n is a natural number equal or greater than
      
      2) section is determined by calculating optical path of image rays of said light source with said nth incident angle passing through said first waveguide, said transition waveguide and the first to n−
      
      1th sections of said second waveguide and display panel to produce said exit angles that are substantially the same.
  - 6. The flat panel display device according to claim 5, wherein said exit angles is smaller than a critical angle of said second waveguide, whereby the exiting rays do not intercept the display surfaces at an angle equal to or shallower than the critical angle.
  - 7. The flat panel display device according to claim 1, wherein said transition waveguide forms a U shape.
  - 8. The flat panel display device according to claim 5, wherein said transition waveguide forms a U shape.
  - 9. The flat panel display device according to claim 1, further comprising a prism positioned at an entrance end of said first waveguide.
  - 10. The flat panel display device according to claim 1, wherein a surface of said transition waveguide forms a circular curve.
  - 11. The flat panel display device according to claim 1, wherein a surface of said transition waveguide forms a parabolic curve.
  - 12. The flat panel display device according to claim 1, further comprising an anti-reflection coating on said display surfaces.
  - 13. The flat panel display device according to claim 12, wherein said anti-reflection coating comprises a gradient index coating (GRIN).
  - 14. The flat panel display device according to claim 12, wherein said anti-reflection coating comprises an antireflection structured (ARS) surface.

15. A method to determine the optical profile of a flat panel display device comprising in order a first waveguide, a transition waveguide and a second waveguide and display panel, wherein said second waveguide and display panel has a substantially wedged shape and a plurality of linearly connected sections, each of the plurality of linearly connected sections having a respective display surface with a tilt angle that decreases with distance from the transition waveguide, the thickness and tilt angle of each respective display surface being determined by the steps of:
- determining optical characteristics of said first waveguide and said transition waveguide;
  
  selecting major incident angles of lights, andcalculating to obtain a surface profile of said linearly connected sections in said second waveguide and display panel corresponding respectively to said selected light angles, said surface profile being defined by said thicknesses and tilt angles, so as to equalize exit angles of said lights for selected said major incident angles of said lights, to compensate for distortions in displayed image generated by said selected lights'"'"' paths in said first waveguide.
- View Dependent Claims (16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27)
- - 16. The method according to claim 15, wherein said calculation in surface profile of said second waveguide and display panel comprises the steps of:
    - selecting a first light angle to calculate and obtain a surface profile of a first section in said second waveguide and display panel most adjacent to said transition waveguide, to compensate for distortion in said displayed image generated by said light of said first angle in said first waveguide and said transition waveguide;
      
      selecting an nth (n is a natural number equal to or greater than
      
      2) light angle to calculate and obtain a surface profile of an nth section in said second waveguide and display panel following said first section, to for distortion in said displayed image generated by lights of said nth angle in said first waveguide, said transition waveguide and the first to n−
      
      1th section of said second waveguide and display panel; and
      
      repeating the previous step until all selected light angles are calculated.
  - 17. The method according to claim 15, wherein said transition waveguide has a curved surface on one side and a length short enough to restrict the light rays from said first waveguide to a maximum number of bounces in said transition waveguide.
  - 18. The method according to claim 17, wherein said maximum number is 1.
  - 19. The method according to claim 15, wherein said determination of the surface profile of said linearly connected sections of the second waveguide and display panel comprises the steps of:
    - calculating to obtain a respective surface profile of a first section of said second waveguide and display panel'"'"'s display surface according to an optical path of image rays from a light source positioned at entrance side of said first waveguide with a first incident angle passing through said first waveguide and said transition waveguide to produce a selected range of exit angles; and
      
      calculating to obtain a respective surface profile of an nth (n is a natural number equal or greater than
      
      2) section of said display surface according optical path of image rays from said light source with an nth incident angle passing through said first waveguide, said transition waveguide and the first to n−
      
      1th sections of said second waveguide and display panel to produce said selected range of exit angles.
  - 20. The method according to claim 19, wherein said selected range of exit angles comprise an angle smaller than the critical angle of said second waveguide and display panel, whereby the exit rays do not intercept the display surfaces at an angle equal to or shallower than the critical angle.
  - 21. A method as claimed in claim 15, further comprising the step ofdetermining surface profile of said first waveguide, said transition waveguide and said second waveguide and display panel according to said optical characteristics of the first waveguide, transition waveguide, second waveguide, and display panel.
  - 22. The method according to claim 21, wherein said selected range of exit angles comprise an angle smaller than the critical angle of said second waveguide and display panel, whereby the exit rays do not intercept the display surfaces at an angle equal to or shallower than the critical angle.
  - 23. The method according to claim 21, wherein said transition waveguide is arranged to allow incoming image rays to bounce not more than once in said transition waveguide.
  - 24. The method according to claim 21, wherein said optical paths are calculated using a trigonometric relationship of said incident image rays and surfaces profile of said first waveguide and said transition waveguide.
  - 25. The method according to claim 21, wherein said second and following incident angles are respectively greater than the incident angle selected in a previous step.
  - 26. The method according to claim 15, wherein said transition waveguide has a curved surface on one side and a length short enough to restrict the light rays from said first waveguide to a maximum number of bounces in said transition waveguide.
  - 27. The method according to claim 26, wherein said maximum number is 1.

28. A method to prepare a flat panel display device comprising in order a first waveguide, a transition waveguide and a second waveguide and display panel, wherein said second waveguide and display panel has a substantially wedged shape and a plurality of linearly connected sections, each of the plurality of linearly connected sections having a respective display surface with a tilt angle that decreases with distance from the transition waveguide, the thickness and tilt angle of each respective display surface being determined by the steps of:
- determining an optical profile of said flat panel display device comprising the substeps of;
  
  determining optical characteristics of said first waveguide and said transition waveguide;
  
  selecting major incident angles of lights, andcalculating to obtain a surface profile of said linearly connected sections in said second waveguide and display panel corresponding respectively to said selected light angles, said surface profile being defined by said thicknesses and tilt angles, so as to equalize exit angles of said lights for selected said major incident angles of said lights, to compensate for distortions in displayed image generated by said selected lights'"'"' paths in said first waveguide; and
  
  preparing said flat panel display device using optical profile information so determined.
- View Dependent Claims (29)
- - 29. The method according to claim 28, wherein said selected range of exit angles comprise an angle smaller than the critical angle of said second waveguide and display panel, whereby the exit rays do not intercept the display surfaces at an angle equal to or shallower than the critical angle.

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Current Assignee
Kuan Wen Chen
Original Assignee
Kuan Wen Chen
Inventors
Chen, Kuan Wen
Primary Examiner(s)
JONES, HUGH M

Application Number

US12/854,975
Publication Number

US 20120041721A1
Time in Patent Office

1,447 Days
Field of Search

703/1
US Class Current

703/1
CPC Class Codes

G02B 6/0028   Light guide, e.g. taper

G02B 6/10   of the optical waveguide ty...

G02B 6/4298   coupling with non-coherent ...

Y10T 29/49   Method of mechanical manufa...

Flat panel display device

First Claim

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Abstract

6 Citations

29 Claims

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Flat panel display device

First Claim

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Accused Products

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Abstract

6 Citations

29 Claims

Specification

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Solutions

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