Optical connector and optical coupling structure

US 10,444,439 B2
Filed: 10/18/2016
Issued: 10/15/2019
Est. Priority Date: 10/26/2015
Status: Active Grant

First Claim

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1. An optical connector comprising:

an optical fiber;

a ferrule that holds said optical fiber, said ferrule having a flat ferrule end surface facing a counterpart optical connector; and

a spacer provided on said ferrule end surface so as to define a clearance between said ferrule end surface and said counterpart optical connector,wherein a tip surface of said optical fiber is exposed at said ferrule end surface,wherein respective normal directions to said tip surface of said optical fiber and said ferrule end surface are inclined with respect to an optical-axis direction of said optical fiber in a section along an optical axis of said optical fiber,wherein said spacer has a plate-like shape,wherein said spacer is welded to said ferrule end surface,wherein said spacer includes an opening configured to allow an optical path extending from said tip surface of said optical fiber to pass therethrough,wherein a pair of guide holes are formed in said ferrule end surface alongside a direction intersecting said section along said optical axis of said optical fiber, said pair of guide holes configured to insert each of guide pins thereinto, andwherein the center of said tip surface of said optical fiber is displaced from a line connecting the centers of said pair of guide holes at said ferrule end surface.

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Abstract

An optical connector is disclosed. The optical connector includes an optical fiber, a ferrule that holds the optical fiber, the ferrule having a flat ferrule end surface facing a counterpart optical connector, and a spacer provided on the ferrule end surface so as to define a clearance between the ferrule end surface and the counterpart optical connector. A tip surface of the optical fiber is exposed at the ferrule end surface. Respective normal directions to the tip surface of the optical fiber and the ferrule end surface are inclined with respect to an optical-axis direction of the optical fiber in a section along an optical axis of the optical fiber. The spacer includes an opening configured to allow an optical path extending from the tip surface of the optical fiber to pass therethrough.

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14 Claims

1. An optical connector comprising:
- an optical fiber;
  
  a ferrule that holds said optical fiber, said ferrule having a flat ferrule end surface facing a counterpart optical connector; and
  
  a spacer provided on said ferrule end surface so as to define a clearance between said ferrule end surface and said counterpart optical connector,wherein a tip surface of said optical fiber is exposed at said ferrule end surface,wherein respective normal directions to said tip surface of said optical fiber and said ferrule end surface are inclined with respect to an optical-axis direction of said optical fiber in a section along an optical axis of said optical fiber,wherein said spacer has a plate-like shape,wherein said spacer is welded to said ferrule end surface,wherein said spacer includes an opening configured to allow an optical path extending from said tip surface of said optical fiber to pass therethrough,wherein a pair of guide holes are formed in said ferrule end surface alongside a direction intersecting said section along said optical axis of said optical fiber, said pair of guide holes configured to insert each of guide pins thereinto, andwherein the center of said tip surface of said optical fiber is displaced from a line connecting the centers of said pair of guide holes at said ferrule end surface.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The optical connector according to claim 1,wherein said spacer further includes a pair of through holes through which said guide pins pass.
  - 3. The optical connector according to claim 1,wherein said optical axis of said optical fiber is inclined with respect to a connection direction in said section, andwherein said optical path extending from said tip surface of said optical fiber extends along said connection direction.
  - 4. The optical connector according to claim 1,wherein a thickness of said spacer in a connection direction is 10 μ
    - m or greater and 100 μ
      
      m or smaller.
  - 5. The optical connector according to claim 1,wherein said tip surface of said optical fiber is flush with said ferrule end surface.
  - 6. The optical connector according to claim 1,wherein said spacer is formed of a same material as that of said ferrule.

7. An optical coupling structure comprising first and second optical connectors configured to be connected to each other, whereinsaid first and second optical connectors each comprise an optical fiber and a ferrule that holds said optical fiber, said ferrule having a flat ferrule end surface,said ferrule of said first optical connector and said ferrule of said second optical connector are coupled in a manner vertically flipped with respect to each other,said ferrule end surface of said first optical connector and said ferrule end surface of said second optical connector face each other,tip surfaces of said optical fibers are exposed at the respective ferrule end surfaces of said first and second optical connectors, and respective normal directions to said tip surfaces of said optical fibers and said ferrule end surfaces are inclined with respect to an optical-axis direction of said optical fibers in a section along optical axes of said optical fibers,said optical coupling structure further comprises a spacer configured to define a clearance between said ferrule end surface of said first optical connector and said ferrule end surface of said second optical connector, wherein said spacer has a plate-like shape, said spacer is welded to said ferrule end surface of said first optical connector, and said spacer has an opening configured to allow an optical path extending between said tip surface of said optical fiber of said first optical connector and said tip surface of said optical fiber of said second optical connector to pass therethrough, andone surface of said spacer is in contact with said ferrule end surface of said first optical connector, and the other surface of said spacer is in contact with said ferrule end surface of said second optical connector.
- View Dependent Claims (8)
- - 8. The optical coupling structure according to claim 7,wherein said tip surface of said optical fiber of said first optical connector is optically coupled to said tip surface of said optical fiber of said second optical connector in said opening with only air therebetween.

9. An optical connector comprising:
- an optical fiber;
  
  a ferrule that holds said optical fiber, said ferrule having a flat ferrule end surface facing a counterpart optical connector; and
  
  a spacer provided on said ferrule end surface so as to define a clearance between said ferrule end surface and said counterpart optical connector,wherein a tip surface of said optical fiber is exposed at said ferrule end surface,wherein respective normal directions to said tip surface of said optical fiber and said ferrule end surface are inclined with respect to an optical-axis direction of said optical fiber in a section along an optical axis of said optical fiber,wherein one surface of said spacer is in contact with said ferrule end surface,wherein said spacer is welded to said ferrule end surface,wherein said spacer includes an opening configured to allow an optical path extending from said tip surface of said optical fiber to pass therethrough,wherein a pair of guide holes are formed in said ferrule end surface alongside a direction intersecting said section along said optical axis of said optical fiber, said pair of guide holes configured to insert each of guide pins thereinto, andwherein the center of said tip surface of said optical fiber is displaced from a line connecting the centers of said pair of guide holes at said ferrule end surface.
- View Dependent Claims (10, 11, 12, 13, 14)
- - 10. The optical connector according to claim 9,wherein said spacer further includes a pair of through holes through which said guide pins pass.
  - 11. The optical connector according to claim 9,wherein said optical axis of said optical fiber is inclined with respect to a connection direction in said section, andwherein said optical path extending from said tip surface of said optical fiber extends along said connection direction.
  - 12. The optical connector according to claim 9,wherein a thickness of said spacer in a connection direction is 10 μ
    - m or greater and 100 μ
      
      m or smaller.
  - 13. The optical connector according to claim 9,wherein said tip surface of said optical fiber is flush with said ferrule end surface.
  - 14. The optical connector according to claim 9,wherein said spacer is formed of a same material as that of said ferrule.

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Current Assignee
Sumitomo Electric Industries Limited (Sumitomo Corporation)
Original Assignee
Sumitomo Electric Industries Limited (Sumitomo Corporation)
Inventors
Arao, Hajime, Sano, Tomomi, Shimakawa, Osamu, Fukuda, Masakazu, Hosokawa, Takako
Primary Examiner(s)
Kim, Ellen E

Application Number

US15/770,265
Publication Number

US 20180321446A1
Time in Patent Office

1,092 Days
Field of Search
US Class Current
CPC Class Codes

G02B 6/3822   with beveled fibre ends

G02B 6/3853   Lens inside the ferrule len...

G02B 6/3882   using rods, pins or balls t...

G02B 6/3885   Multicore or multichannel o...

Optical connector and optical coupling structure

First Claim

1 Assignment

0 Petitions

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Abstract

17 Citations

14 Claims

Specification

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Optical connector and optical coupling structure

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

17 Citations

14 Claims

Specification

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Solutions

Use Cases

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