Claims
- 1. A method of manufacturing integrated optical components having optical fibers attached to optical output ports, each of said fibers having first and second end surfaces, comprising:
- a) combining a plurality of optical fibers into at least one ribbon structure having first and second ends;
- b) maintaining said first end surfaces of said fibers at said first end of said at least one ribbon in a fixed relation to each other, the second end surface of any fiber at said second end of said at least one ribbon being movable with respect to the end surfaces of any other of said fibers;
- c) actively aligning said second fiber end surfaces at the second end of said at least one ribbon with waveguide output ports of a plurality of integrated optical components, while maintaining said first fiber end surfaces at said first end of said at least one ribbon in a fixed relation to each other to facilitate injection and detection of light signals during said active alignment, the alignment of any one of said second fiber end surfaces being performed independently of the alignment of the remaining of said second fiber end surfaces, and
- d) attaching each of the fibers at the second end of said at least one ribbon structure to that one of said waveguide output ports to which it had be end aligned.
- 2. The manufacturing method of claim 1, further comprising the step of:
- testing said plurality of integrated optical components, while maintaining said fiber end surfaces at said first end of said at least one ribbon in a fixed relation to each other to facilitate injection and detection of light signals during said active testing.
- 3. The manufacturing method of claim 1, wherein the fiber end surfaces at said second end of said at least one ribbon are arrayed together prior to said active aligning step, and further comprising
- actively aligning one of said second fiber end surfaces with one of said waveguide output ports,
- storing the position of said one of said waveguide output ports,
- using said stored position and the known distance between adjacent ones of said waveguide output ports, approximately aligning another one of said second fiber end surfaces with another one of said waveguide output ports, and thereafter,
- actively aligning said another one of said second fiber end surfaces with said another one of said waveguide output ports.
- 4. A method of manufacturing integrated optical components having optical fibers attached to optical output ports comprising:
- combining a plurality of optical fibers into at least one ribbon structure having first and second ends, each of said fibers having first and second end surfaces;
- maintaining said first end surfaces of said fibers at said first end of said at least one ribbon in a fixed relation to each other;
- actively aligning said second fiber end surfaces at the second end of said at least one ribbon with waveguide output ports of a plurality of integrated optical components, while maintaining said first fiber end surfaces at said first end of said at least one ribbon in a fixed relation to each other to facilitate injection and detection of light signals during said active alignment, and
- attaching each of the fibers at the second end of said at least one ribbon structure to that one of said waveguide output ports to which it had been aligned,
- wherein said plurality of integrated optical components comprise M.times.N combiner/splitters having M inputs and N outputs, and wherein M input ribbons and/or N output ribbons are used during said active alignment step, each ribbon comprising one fiber for attachment to a particular output port of each of said plurality of integrated optical components.
- 5. The manufacturing method of claim 4, wherein the ends of said ribbons opposite said components are arrayed or bundled.
Priority Claims (1)
Number |
Date |
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Kind |
91120030 |
Nov 1991 |
EPX |
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Parent Case Info
This is a division of application Ser. No. 07/972,224, filed Nov. 5, 1992, now U.S. Pat. No. 5,296,072.
US Referenced Citations (16)
Foreign Referenced Citations (8)
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Country |
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Sep 1988 |
EPX |
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EPX |
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EPX |
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FRX |
57-90984 |
Jun 1982 |
JPX |
57-143890 |
Sep 1982 |
JPX |
Non-Patent Literature Citations (3)
Entry |
Patent Abstracts of Japan, vol. 6, No. 173 (E-129)[1051], Sep. 7, 1982 (Japan 57-90984). |
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Bellerby et al, "Low Cost Silica-On-Silicon Single Mode 1:16 Optical Power Splitter for 1550nm", E-FOC 90, STC Technology Ltd., 1990. |
Divisions (1)
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Number |
Date |
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Parent |
972224 |
Nov 1992 |
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