System and Method for LED Polarization Recycling

US 20080231953A1
Filed: 11/16/2007
Published: 09/25/2008
Est. Priority Date: 03/22/2007
Status: Abandoned Application

First Claim

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1. A method for converting randomly polarized light having a first and second component into singularly polarized light having substantially only said first component, wherein said first and second components are substantially perpendicular to each other, comprising the steps of:

generating, from at least two reflective light engines, randomly polarized light having the first and second components, wherein two or more of said at least two reflective light engines have optic axes that substantially align with one another;

separating the components of the randomly polarized light, and directing light having substantially only said first component in a first direction and directing light having substantially only said second component in a second direction;

sending light having substantially only said first component in a direction for output;

directing said light having substantially only said second component to a component converter, and converting said light having substantially only said second component to converted light having substantially only said first component,reflecting said converted light using one or more of said at least two reflective light engines; and

sending said converted light in said direction for output.

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Abstract

Systems and methods for creating high-intensity, polarized light, where one or more embodiments of the present invention use light polarization recycling to allow multiple light sources of the same or different wavelengths to be combined into a single source output where the individual source etendue is equal or substantially similar to the combined source etendue.

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21 Claims

1. A method for converting randomly polarized light having a first and second component into singularly polarized light having substantially only said first component, wherein said first and second components are substantially perpendicular to each other, comprising the steps of:
- generating, from at least two reflective light engines, randomly polarized light having the first and second components, wherein two or more of said at least two reflective light engines have optic axes that substantially align with one another;
  
  separating the components of the randomly polarized light, and directing light having substantially only said first component in a first direction and directing light having substantially only said second component in a second direction;
  
  sending light having substantially only said first component in a direction for output;
  
  directing said light having substantially only said second component to a component converter, and converting said light having substantially only said second component to converted light having substantially only said first component,reflecting said converted light using one or more of said at least two reflective light engines; and
  
  sending said converted light in said direction for output.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The method of claim 1, wherein at least one of said reflective light engines contains a reflective light source, and comprising the step of using said reflective light source to reflect said converted light.
  - 3. The method of claim 2, wherein the reflective light source is a light emitting diode.
  - 4. The method of claim 1, wherein said step of separating the components comprises the step of using a polarized beam splitter.
  - 5. The method of claim 1, wherein said component converter is a ¼
    - wave retarder, wherein the light is passed twice through the ¼
      
      wave retarder.

6. A system for converting randomly polarized light having a first and second component into singularly polarized light having substantially only said first component, wherein said first and second components are substantially perpendicular to each other, comprising:
- two or more reflective light engines each generating randomly polarized light,wherein light directed at each of said two or more light engines is reflected back in substantially the same direction from which it was received;
  
  a component separator, said component separator separating the first and second components of the randomly polarized light,wherein the component separator directs light having substantially only said first component in a first direction and directs light having substantially only said second component in a second direction, and wherein said light having substantially only said first component is sent in a direction for output,said component separator positioned in optical communication with at least one of said light engines such that said component separator directs light having said second component optically toward at least one of said light engines;
  
  one or more component converters, said one or more component converters capable of converting light having substantially only said first component into light having substantially only said second component, and light having substantially only said second component into light having substantially only said first component;
  
  at least one of said one or more component converters positioned in conjunction with at least one of said reflective light engines to allow light directed to and/or being reflected from said at least one reflective light engine to come in optical communication with said at least one component converter, wherein said at least one component converter converts light having substantially only said second component into converted light having substantially only said first component;
  
  wherein said converted light is sent in said direction for output.
- View Dependent Claims (7, 8, 9, 10, 11, 12, 13)
- - 7. The system of claim 6, wherein each of said two or more reflective light engines has a reflective light source.
  - 8. The system of claim 7, wherein each reflective light sources is a light emitting diode.
  - 9. The system of claim 6, wherein each of said two or more reflective light engines comprises an arc tube light source.
  - 10. The system of claim 8, wherein said reflective light sources are pulsed sequentially.
  - 11. The system of claim 10, wherein the duty cycle of each of said reflective light source is based upon the reciprocal of the number of reflective light sources used.
  - 12. The system of claim 6, wherein said component separator is a polarized beam splitter.
  - 13. The system of claim 6, wherein said component converter is a ¼
    - wave retarder, wherein, for light having substantially only said first component to be converted into light having substantially only said second component or light having substantially only said second component to be converted into light having substantially only said first component, the light is passed twice through the ¼
      
      wave retarder.

14. A system for converting randomly polarized light having a first and second component into singularly polarized light having substantially only said first component, wherein said first and second components are substantially perpendicular to each other, comprising:
- two light engines each having a reflective light source generating randomly polarized light,wherein light directed at each of said reflective light sources is reflected back in substantially the same direction from which it was received;
  
  a component separator, said component separator separating the first and second components of the randomly polarized light,wherein the component separator directs light having substantially only said first component in a first direction and directs light having substantially only said second component in a second direction, and wherein said light having substantially only said first component is sent in a direction for output,said component separator positioned in optical communication with each of said light engines such that said component separator directs light having said second component optically toward a light source of at least one of said light engines;
  
  two component converters, each component converter being positioned along the optic axis of at least one light engine, said component converters being capable of converting light having substantially only said first component into light having substantially only said second component, and light having substantially only said second component into light having substantially only said first component;
  
  at least one of said two component converters positioned such that light directed to and/or being reflected from at least one of said reflective light sources is in optical communication with said at least one component converter, wherein said at least one component converter converts light having substantially only said second component into converted light having substantially only said first component;
  
  wherein said converted light is sent in said direction for output.
- View Dependent Claims (15, 16, 17, 18, 19, 20, 21)
- - 15. The system of claim 14, wherein each of said two reflective light engines has an optic axis that is in substantial alignment with the optic axis of the other light engine.
  - 16. The system of claim 14, wherein each reflective light sources is a light emitting diode.
  - 17. The system of claim 16, wherein said reflective light sources are pulsed sequentially.
  - 18. The system of claim 17, wherein the duty cycle of each of said reflective light source is based upon the reciprocal of the number of reflective light sources used.
  - 19. The system of claim 14, wherein said component separator is a polarized beam splitter.
  - 20. The system of claim 14, wherein said component converter is a ¼
    - wave retarder, wherein, for light having substantially only said first component to be converted into light having substantially only said second component or light having substantially only said second component to be converted into light having substantially only said first component, the light is passed twice through the ¼
      
      wave retarder.
  - 21. The system of claim 14, wherein said component separator further directs light having said second component optically toward a mirror.

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Current Assignee
Garrett J. Young
Original Assignee
Garrett J. Young
Inventors
Young, Garrett J.

Application Number

US11/941,707
Publication Number

US 20080231953A1
Time in Patent Office

Days
Field of Search
US Class Current

359/495
CPC Class Codes

G02B 27/286   for controlling or changing...

H04N 9/3164   using multiple light sources

H04N 9/3167   for polarizing the light be...

System and Method for LED Polarization Recycling

First Claim

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Abstract

48 Citations

21 Claims

Specification

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System and Method for LED Polarization Recycling

First Claim

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Accused Products

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Abstract

48 Citations

21 Claims

Specification

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Solutions

Use Cases

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