Claims
- 1. A fiber optic attenuator comprising:
- an optical fiber;
- a support member resiliently supporting a portion of the optical fiber thereupon in tension; and
- means for bending at least a portion of said optical fiber while supported by the resilient support member in a controlled manner to attenuate light passing through said optical fiber.
- 2. The fiber optic attenuator of claim 1, wherein said support member comprises a deformable resilient support member which deforms and, due to the resiliency of the support member, continues supporting said optical fiber section when said bending means bends said at least a portion of said supported optical fiber section.
- 3. The fiber optical attenuator of claim 2, wherein said deformable support member comprises a spring.
- 4. The fiber optic attenuator of claim 3, wherein the spring is metal.
- 5. The fiber optic attenuator of claim 3 wherein said spring comprises a generally horseshoe-shaped spring having constant radius inwardly-directed ends defining an opening therebetween and said supported optical fiber section comprises at least one loop of optical fiber wound around said spring, and wherein said bending means comprises a plunger movable between a retracted position away from said at least one loop of optical fiber and an extended position pressing against said at least one loop of optical fiber for bending said at least a portion of said at least one loop of optical fiber wound around said spring.
- 6. The fiber optic attenuator of claim 5 wherein said constant radius inwardly-directed ends are formed by incorporating posts at the ends of the horseshoe-shaped spring.
- 7. The fiber optic attenuator of claim 6 wherein the post is epoxied to the spring.
- 8. The fiber optic attenuator of claim 5 wherein said plunger has a generally rounded end for pressing against said loop of optical fiber at the opening of said spring, thereby bending the at least one loop of optical fiber across the constant radium inwardly-directed ends of the spring and said generally rounded end of the plunger.
- 9. The fiber optic attenuator of claim 5 wherein said at least one loop of optical fiber has a tape bonded thereto where said at least one loop spans the opening of the spring to prevent said at least one loop from slipping relative to the tape.
- 10. The fiber optic attenuator of claim 4 wherein said optical fiber includes a buffer coating indexed matched to an external material adjacent thereto to allow light to be transmitted out of the buffer.
- 11. The fiber optic attenuator of claim 2, wherein said means for bending is a plunger having a recess aligned with said supported optical fiber section for pressing against said deformable support member without pressing against said optical fiber section to any significant extent.
- 12. The fiber optic attenuator of claim 1, and further including locking means for locking said means for bending in position.
- 13. The fiber optic attenuator of claim 1, wherein said support member comprises a plurality of pins for supporting an optical fiber section.
- 14. The fiber optic attenuator of claim 2, wherein said deformable support means comprises a deformable elastomeric disk-shaped body.
- 15. A fiber optic attenuator comprising:
- a deformable support for supporting at least one loop of an optical fiber therearound and means for deforming said deformable support and said at least one loop of optical fiber supported thereby in a controlled manner to attenuate light passing through said optical fiber.
- 16. A fiber optic attenuator comprising:
- an optical fiber;
- a support for supporting at least one loop of an optical fiber wound thereagainst; and
- a mechanism for controllably bending said at least one loop of optical fiber to controllably attenuate light passing through said optical fiber.
Parent Case Info
This application is a continuation-in-part of Caron et al. co-pending U.S. application Ser. No. 07/860,939 filed Mar. 31, 1992 (now abandoned).
US Referenced Citations (18)
Foreign Referenced Citations (2)
Number |
Date |
Country |
0332900 |
Sep 1989 |
EPX |
2667697 |
Apr 1992 |
EPX |
Continuation in Parts (1)
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Number |
Date |
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Parent |
860939 |
Mar 1992 |
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