Method and apparatus for fabrication of polarization maintaining fused couplers

US 5,224,977 A
Filed: 12/09/1991
Issued: 07/06/1993
Est. Priority Date: 12/09/1991
Status: Expired due to Term

First Claim

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1. An apparatus for fabrication of a fused fiber optic coupler using first and second optical fibers, the apparatus comprising:

means for holding the first and second optical fibers under tension but with no pulling force in contact along a portion of a length of the fibers resulting in a contact portion;

a heat source; and

means for fusing the first and second optical fibers, the fusing means including means for brushing the heat source across the contact portion of the first and second fibers and means for moving the heat source in ever decreasing steps gradually closer to the fibers and over an amplitude.

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Abstract

A fiber optic polarization maintaining apparatus for use in fabrication of fused optical couplers, where the fused optical couplers include first and second optical fibers. The apparatus includes apparatus for holding the first and second optical fibers in a first predetermined alignment where the first and second fibers each include a stripped portion and where the stripped portions are held in contact along their length. Apparatus for heating the first and second optical fibers are located adjacent the holding apparatus wherein the heating apparatus is brushed across the length of the first and second fibers so as to oscillate across the fibers in an amplitude varied in an ever decreasing stepped manner until fusion of the fibers is complete.

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15 Claims

1. An apparatus for fabrication of a fused fiber optic coupler using first and second optical fibers, the apparatus comprising:
- means for holding the first and second optical fibers under tension but with no pulling force in contact along a portion of a length of the fibers resulting in a contact portion;
  
  a heat source; and
  
  means for fusing the first and second optical fibers, the fusing means including means for brushing the heat source across the contact portion of the first and second fibers and means for moving the heat source in ever decreasing steps gradually closer to the fibers and over an amplitude.
- View Dependent Claims (2, 3, 4, 5)
- - 2. An apparatus according to claim 1, wherein each of the first and second optical fibers has a jacket, the jackets of the first and second optical fiber being removed along the contact portion.
  - 3. An apparatus according to claim 1 wherein the heat source comprises an oxy-hydrogen torch having two nozzles, one nozzle positioned on each side of the contact portion;
    - and further wherein the brushing means comprises a motor connected to move the two nozzles across the fibers and a computer connected to control the motor to move the two nozzles in ever decreasing steps gradually closer to the fibers and over an amplitude.
  - 4. An apparatus according to claim 3 further comprising:
    - light launching optics coupled to transmit light through the first optical fiber;
      
      light detecting optics coupled to detect light transmitted through the first and second optical fibers and generating an output representative thereof; and
      
      means coupled to the output of the light detecting optics and connected to the computer for monitoring and storing power measurements of the light transmitted through the fibers.
  - 5. An apparatus according to claim 1, further comprising means for tapering the fused fiber optic coupler wherein the first and second optical fibers are fused together along the contact portion, the tapering means comprising:
    - means for holding the fused fiber optic coupler;
      
      means for heating the fused fiber optic coupler, the heating means including means for brushing a heat source across the contact portion and means for moving the heat source over an amplitude as the heat source is brushed across the fibers of the fused fiber optic coupler;
      
      means for controlling the brushing and moving means, the controlling means including means for controlling adjustment of a separation of the heat source and the fused optical coupler;
      
      means for maintaining a substantially frictionless constant pulling force on the first and second optical fibers of the fused fiber optic coupler;
      
      light launching optics coupled to transmit light through the first optical fiber of the fused fiber optic coupler;
      
      light detecting optics coupled to the first and second optical fibers and to generate power outputs for each of the first and second optical fibers of the fused fiber optic coupler representative thereof;
      
      means for monitoring the power outputs; and
      
      means coupled to the monitoring means for controlling the constant pulling force to stop the constant pulling force when the power output from each of the fibers is substantially equal.

6. An apparatus for use in tapering a fused optical coupler, the fused optical coupler including first and second optical fibers, each of the optical fibers having a principle axis, the first and second optical fibers being fused together along a common contact length, the apparatus comprising:
- means for holding the fused optical coupler;
  
  a heat source;
  
  means for moving the heat source across the common contact length;
  
  means for moving the heat source over an amplitude as the heat source is brushed across the fibers;
  
  means for controlling the brushing and moving means, the controlling means including means for controlling adjustment of a separation of the heat source and the fused optical coupler;
  
  means for maintaining a substantially frictionless constant pulling force on the first and second optical fibers of the fused optical coupler as the heat source is brushed across the common contact length, the maintaining means including first and second opposing air bearings having sliding bars for applying the constant pulling force on the first and second optical fibers;
  
  light launching optics coupled to transmit light through the first optical fiber of the fused optical coupler;
  
  light detecting optics coupled to the first and second fibers to detect light transmitted through the first and second optical fibers and to generate power outputs for each of the first and second optical fibers of the fused optical coupler representative thereof;
  
  means for monitoring the power outputs; and
  
  means coupled to the monitoring means for controlling the constant pulling force to stop the constant pulling force when the power output from each of the fibers is substantially equal.
- View Dependent Claims (7, 8)
- - 7. An apparatus according to claim 6, wherein the means for maintaining a constant pulling force further comprises:
    - first and second LVDT'"'"'s coupled to the first and second opposing air bearings, respectively, each of the first and second LVDT'"'"'s providing outputs corresponding to the position of the first and second opposing air bearing sliding bars;
      
      a force guage coupled to the air bearings to measure the applied force and generating a force output representative thereof; and
      
      a first and second electromagnet for pulling the fibers by applying a force to the first and second opposing air bearings, respectively, as a function of the outputs of the LVDT'"'"'s and the force output.
  - 8. An apparatus according to claim 6, wherein the light launching optics include a super-radiant diode (SRD).

9. A method for fabricating a fused optical coupler utilizing first and second optical fibers having a jacket thereon, the method comprising the steps of:
- holding the first and second optical fiber in a predetermined alignment under slight tension with no pulling force, the first and second optical fibers each including a stripped portion of predetermined length without the jacket, the stripped portions of the fibers being held in contact along a portion of their predetermined length resulting in a contact portion; and
  
  heating the first and second optical fibers by brushing a heat source across the contact length of the first and second fibers in ever decreasing steps and gradually moving the heat source closer to the fibers over an amplitude as the heat source is brushed across the fibers.
- View Dependent Claims (10, 11)
- - 10. The method according to claim 9, wherein the heating step comprises the step of operating a two nozzle oxy-hydrogen torch and bringing the two nozzles, one on each side of the contact portion, gradually closer to the fibers as the contact portion is brushed.
  - 11. A method according to claim 9, further comprising the steps of:
    - launching light through the first optical fiber which is held in contact with the second optical fiber;
      
      detecting the light transmitted through the first and second optical fibers and generating light detecting outputs representative thereof; and
      
      monitoring the light detecting outputs to detect power loss.

12. A method for tapering a fused optical coupler, the fused optical coupler including first and second optical fibers, each optical fiber having a principle axis, the optical fibers being fused together along a common contact length, the method comprising the steps of:
- holding the fused optical coupler in a predetermined orientation;
  
  heating the fused optical coupler by brushing a heat source across the common contact length of the fused optical coupler and moving the heat source over an amplitude as the heat source is brushed across the fibers;
  
  controlling the brushing and moving of the heat source;
  
  maintaining a substantially frictionless constant pulling force on the first and second optical fibers of the fused optical coupler;
  
  launching light through the first optical fiber which is coupled to the second optical fiber;
  
  detecting output power of the light transmitted through the first and second optical fibers and generating for each fiber a light detecting output representative thereof;
  
  monitoring the light detecting output and controlling the constant pulling force to stop the constant pulling force when the output power from each of the fibers is substantially equal.
- View Dependent Claims (13)
- - 13. A method according to claim 12, wherein the heating step further comprises the step of operating a two nozzle oxy-hydrogen torch, one nozzle of each side of the common contact length, and adjusting a separation between the two nozzles.

14. An apparatus for fabrication of a fiber optic coupler, the fiber optic coupler including first and second optical fibers, the apparatus comprising:
- means for holding the first and second optical fibers in a first orientation and under slight tension but with no pulling force in contact along a portion of a length of each fiber resulting in a contact portion;
  
  a heat source;
  
  means for fusing the fibers, the fusing means including means for brushing the heat source across the contact portion of the first and second optical fibers and means for moving the heat source in ever decreasing steps gradually closer to the fibers and over an amplitude until fusion of the fibers is complete resulting in a fused optical coupler;
  
  means for monitoring the fused optical coupler to detect power loss resulting from the fusing step;
  
  means for rotating the fused optical coupler through a predetermined angle from the first orientation;
  
  means for tapering the fused optical coupler, the tapering means including;
  
  means for brushing the heat source across the contact portion;
  
  means for moving the heat source over an amplitude as the heat source is brushed across the first and second optical fibers;
  
  means for controlling the moving and brushing means, the controlling means including means for controlling adjustment of a separation between the heat source and the fused optical coupler;
  
  means for maintaining a constant pulling force on the first and second optical fibers of the fused optical coupler as the brushing means heats the contact portion;
  
  light launching optics coupled to the fibers to transmit light through the first optical fiber of the fused optical coupler;
  
  light detecting optics coupled to the first and second optical fibers to detect light transmitted through the first and second optical fibers and to generate power outputs for each of the first and second optical fibers of the fused optical coupler representative thereof;
  
  means for monitoring the power outputs;
  
  means coupled to the monitoring means for controlling the constant pulling force to stop the constant pulling force when the power output from each of the fibers is substantially equal.

15. A method for fabricating a fiber optic coupler utilizing first and second optical fibers having a jacket thereon, the method comprising the steps of:
- holding the first and second optical fibers in a first orientation, the first and second fibers each including a stripped portion of predetermined length without the jacket, the stripped portions of each fiber being held in contact along a portion of the predetermined length forming a contact portion;
  
  fusing the first and second optical fibers along the contact portion by brushing a heat source across the contact portion of the first and second optical fibers and moving the heat source in ever decreasing steps gradually closer to the fibers and over an amplitude until fusion of the fibers is complete forming a fused fiber optic coupler;
  
  monitoring the fused fiber optic coupler to detect power loss resulting from the fusing step;
  
  rotating the fused fiber optic coupler through a predetermined angle into a second orientation;
  
  tapering the fused fiber optic coupler, the tapering step comprising the steps of;
  
  brushing a heat source across the contact portion of the fused fiber optic coupler;
  
  controlling the brushing and moving;
  
  maintaining a substantially frictionless constant pulling force on the first and second optical fibers of the fused fiber optic coupler;
  
  launching light through the first optical fiber which is coupled to the second optical fiber;
  
  detecting output power of the light transmitted through the first and second optical fibers and generating for each fiber a light detecting output representative thereof; and
  
  monitoring the light detecting outputs and controlling the constant pulling force to stop the constant pulling force when the output power from each of the fibers is substantially equal.

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Current Assignee
Honeywell Incorporated (Honeywell International Inc.)
Original Assignee
Honeywell Incorporated (Honeywell International Inc.)
Inventors
Habbel, Sam, Anjan, Yellapu, Straceski, Joseph F.
Primary Examiner(s)
LINDSAY JR, ROBERT

Application Number

US07/805,337
Time in Patent Office

575 Days
Field of Search

65/3.11, 65/4.2, 65/4.21, 65/29, 65/160, 65/162, 65/36, 65/42, 65/63, 65/152, 65/155, 65/268, 65/2
US Class Current

65/411
CPC Class Codes

G02B 6/2835 formed or shaped by thermal...

G02B 6/2843 the couplers having polaris...

Method and apparatus for fabrication of polarization maintaining fused couplers

First Claim

1 Assignment

0 Petitions

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Abstract

22 Citations

15 Claims

Specification

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Method and apparatus for fabrication of polarization maintaining fused couplers

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

22 Citations

15 Claims

Specification

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Solutions

Use Cases

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