Variable fiber optical attenuator

US 5,319,733 A
Filed: 01/02/1992
Issued: 06/07/1994
Est. Priority Date: 01/02/1992
Status: Expired due to Term

First Claim

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1. An attenuator for a fiber optic transmission system, said attenuator comprising:

a first optical fiber having a first core terminating at a first terminal end with said first terminal end having a non-orthogonal surface relative to a first axis of said first core;

a second optical fiber having a second core terminating at a second terminal end;

aligning means for aligning said first terminal end in optically coupled relation to said second terminal end while permitting rotation of said first fiber about said first axis and while maintaining substantially constant and unchanged axial alignment of said first axis with an axis of said second core throughout said rotation; and

said first and second optical fibers retained in first and second fiber holders, respectively;

said aligning means including means for permitting relative rotation of said first and second holder while maintaining opposing ends of said first and second holders in contact.

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Abstract

A variable attenuator for a fiber optic transmission system includes first and second optical fibers which are axially aligned. The fibers are provided with spherical polishes. The radius of each of the fibers originates at an axis which is offset from an axis of the fiber cores.

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18 Claims

1. An attenuator for a fiber optic transmission system, said attenuator comprising:
- a first optical fiber having a first core terminating at a first terminal end with said first terminal end having a non-orthogonal surface relative to a first axis of said first core;
  
  a second optical fiber having a second core terminating at a second terminal end;
  
  aligning means for aligning said first terminal end in optically coupled relation to said second terminal end while permitting rotation of said first fiber about said first axis and while maintaining substantially constant and unchanged axial alignment of said first axis with an axis of said second core throughout said rotation; and
  
  said first and second optical fibers retained in first and second fiber holders, respectively;
  
  said aligning means including means for permitting relative rotation of said first and second holder while maintaining opposing ends of said first and second holders in contact.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. An attenuator according to claim 1 wherein said second fiber as a non-orthogonal surface relative to a second axis of said second core.
  - 3. An attenuator according to claim 1 wherein said first fiber is disposed within a ferrule;
    - a polish formed on said ferrule and forming, in part, said first surface.
  - 4. An attenuator according to claim 2 wherein said second fiber is disposed within a second ferrule having a polish formed on said ferrule with said polish forming, in part, said second surface.
  - 5. An attenuator according to claim 1 wherein said first and second optical fibers are maintained in spaced opposing relation with a spacing between said cores being substantially fixed.
  - 6. An attenuator according to claim 1 wherein said first and second fibers are rotated to a position associated with a desired attenuation and fixed at said position against further rotation.

7. An attenuator for a fiber optic transmission system, said attenuator comprising:
- a first optical fiber having a first core terminating at a first terminal end with said first terminal end having a first non-orthogonal surface relative to a first axis of said first core;
  
  a second optical fiber having a second core terminating at a second terminal end, said second fiber having a second non-orthogonal surface relative to a second axis of said second core;
  
  aligning means for aligning said first terminal end in optically coupled relation to said second terminal end while permitting rotation of said first fiber about said first axis;
  
  said first axis and said second axis are colinearly aligned; and
  
  said aligning means including means for permitting relative rotation of said first and second fibers about said first and second axes while maintaining opposing ends of said first and second fibers in substantially constant axial spacing throughout said relative rotation.

8. An attenuator for a fiber optic transmission system, said attenuator comprising:
- a first optical fiber having a first core terminating at a first terminal end with said first terminal end having a first non-orthogonal surface relative to a first axis of said first core;
  
  a second optical fiber having a second core terminating at a second terminal end;
  
  aligning means for aligning said first terminal end in optically coupled relation to said second terminal end while permitting rotation of said first fiber about said first axis, andsaid first surface is non-planar.
- View Dependent Claims (9)
- - 9. An attenuator according to claim 8 wherein said first surface is a portion of a spherical surface.

10. An attenuator for a fiber optic transmission system, said attenuator comprising:
- a first optical fiber having a first core terminating at a first terminal end with said first terminal end having a first non-orthogonal surface relative to a first axis of said first core;
  
  a second optical fiber having a second core terminating at a second terminal end, said second fiber having a second non-orthogonal surface relative to a second axis of said second core;
  
  aligning means for aligning said first terminal end in optically coupled relation to said second terminal end while permitting rotation of said first fiber about said first axis; and
  
  said second surface is non-planar.
- View Dependent Claims (11)
- - 11. An attenuator according to claim 10 wherein said second surface is a portion of a spherical surface.

12. An attenuator for a fiber optic transmission system, said attenuator comprising:
- a first optical fiber having a first core terminating at a first terminal end with said first terminal end having a first non-orthogonal surface relative to a first axis of said first core, said first fiber is disposed within ferrule;
  
  a polish formed on said ferrule and forming, in part, said first surface;
  
  a second optical fiber having a second core terminating at a second terminal end;
  
  aligning means for aligning said first terminal end in optically coupled relation to said second terminal end while permitting rotation of said first fiber about said first axis; and
  
  said polish is spherical and concave.
- View Dependent Claims (13)
- - 13. An attenuator according to claim 12 wherein said polish is provided with a radius having an axis offset from said first axis.

14. An attenuation for a fiber optic transmission system, said attenuator comprising:
- a first optical fiber having a first core terminating at a first terminal end with said first terminal end having a first non-orthogonal surface relative to a first axis of said first core;
  
  a second optical fiber having a second core terminating at a second terminal end, said second fiber having a second non-orthogonal surface relative to a second axis of said second core, said second fiber is disposed within a second ferrule having a polish formed on said ferrule with said polish forming, in part, said second surface;
  
  aligning means for aligning said first terminal end in optically coupled relation to said second terminal end while permitting rotation of said first fiber about said first axis; and
  
  said polish is spherical.
- View Dependent Claims (15)
- - 15. An attenuator according to claim 14 wherein said polish has a radius which is offset from said second axis.

16. An attenuator for a fiber optic transmission system, said attenuator comprising:
- a first optical fiber having a first core terminating at a first terminal end with said first terminal end having a first non-orthogonal surface relative to a first axis of said first core;
  
  a second optical fiber having a second core terminating at a second terminal end with said second terminal end having a non-orthogonal surface relative to a second axis of said second core;
  
  said first and second optical fibers maintained in generally coaxial alignment with said first and second fibers rotatable relative to one another and with a spacing between said cores at said axis being substantially constant and;
  
  said first and second optical fibers retained in first and second fiber holder, respectively;
  
  said aligning means including means for permitting relative rotation of said first and second holders while maintaining said first and second holders in fixed coaxial spacing.

17. An attenuator for a fiber optic transmission system, said attenuator comprising:
- a first optical fiber having a first core terminating at a first terminal end with said first terminal end having a first non-orthogonal surface relative to a first axis of said first core;
  
  a second optical fiber having a second core terminating at a second terminal end;
  
  aligning means for aligning said first terminal end in optically coupled relation to said second terminal end while permitting rotation of said first fiber about said first axis;
  
  said first and second optical fibers are maintained in spaced opposing relation with a spacing between said cores being substantially fixed; and
  
  said first surface is a portion of a spherical surface.

18. An attenuator for a fiber optic transmission system, said attenuator comprising:
- a first optical fiber having a first core terminating at a first terminal end with said first terminal end having a first non-orthogonal surface relative to a first axis of said first core;
  
  a second optical fiber having a second core terminating at a second terminal end, said second fiber having a second non-orthogonal surface relative to a second axis of said second core;
  
  aligning means for aligning said first terminal end in optically coupled relation to said second terminal end while permitting rotation of said first fiber about said first axis;
  
  said first and second optical fibers are maintained in spaced opposing relation with a spacing between said cores being substantially fixed; and
  
  said second surface is a portion of a sphere.

Specification

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Litigation Campaign Assessment

Current Assignee
ADC Telecommunications Incorporated (TE Connectivity Limited)
Original Assignee
ADC Telecommunications Incorporated (TE Connectivity Limited)
Inventors
Lu, Liang-Ju, Emmons, David J.
Primary Examiner(s)
Bovernick, Rodney B.
Assistant Examiner(s)
NGO, HUNG NHAT

Application Number

US07/816,106
Time in Patent Office

887 Days
Field of Search

385/73, 385/85, 385/140, 385/23, 385/25, 385/38, 385/50, 385/52, 385/60, 385/66, 385/68
US Class Current

385/140
CPC Class Codes

G02B 6/266   the optical element being a...

G02B 6/3822   with beveled fibre ends

G02B 6/3863   fabricated by using polishi...

Variable fiber optical attenuator

First Claim

1 Assignment

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Abstract

Citations

18 Claims

Specification

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Variable fiber optical attenuator

First Claim

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0 Petitions

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Accused Products

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Abstract

Citations

18 Claims

Specification

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Solutions

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