Technologies to improve the reliability of fiber-optic assemblies

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Improve the Reliability of Fiber-Optic Assemblies

New technologies promote high reliability and long life for many fiber-optic applications

NASA Goddard Space Flight Center invites companies to license new technologies that can improve the quality and reliability of fiber-optic assemblies:

	Chemical stripping of optical fibers: The stripping fixture holds a cable end for immersion in a chemical bath, allowing a precise length of fiber to be stripped, preparing it for assembly.
	Reduced bubbles in adhesives: The bubble remover holds and seals a liquid-adhesive filled connector for use in a centrifuge. Spinning forces drive out problem-causing bubbles.
	Optical fiber connector polishing: This device controls connector polish geometry to promote consistent mechanical interfaces, performance and reliability.

Long-term fiber-optic performance is an important issue in aerospace, military, and telecommunications and cable television applications where downtime must be minimized or eliminated or where the repair of failed parts is not practical or financially feasible.

Applications

Goddard’s manufacturing devices for fiber-optic assemblies are ideal for an application requiring very high reliability and long life.

Aerospace
Commercial aircraft
- Telecommunications
Commercial satellites
Military
- Secure data transmission
Telecommunications
- Synchronous Optical Network (SONET)
- Automated Teller Machine (ATM) networks
- Ethernet and Internet provider (IP) networks
Cable television
Medical
- Probes
- Iaproscopy
Industrial
- Level sensing
- Part inspection
- Process control
Optics/photonics
- Lasers
- Illumination

Chemical Stripping of Optical Fibers

Benefits

Accurate: Can set fixture stripping length dimensions to approximately 0.01 inches
Repeatable: Strips coatings accurately without having to depend on chemical levels or holding devices
Versatile: Is adaptable to a wide variety of fiber-optic cable terminations
Durable: Is compatible with many cold and hot chemicals (e.g., sulfuric acid), and is not damaged or affected by contact with most chemical stripping solutions
Simple: Is easy to use

This device strips coatings from optical fibers so that they may be assembled with other components. It fits over the cable or fiber end. The coated portion to be stripped protrudes from the fixture and is placed in a chemical bath. By protecting the portion of fiber that should remain coated, the fixture allows a precise length of fiber to be stripped, leaving a distinct, well-defined interface. The device is particularly useful for removing hard, thin coatings (e.g., polyimide coatings).

Technology for chemical stripping of optical fibers

The chemical stripping fixture grips the cable end for immersion in a
chemical bath, allowing a precise length of fiber to be stripped.

Alternative stripping techniques include mechanical stripping processes, which may nick or scratch extremely small and fragile optical fibers, resulting in latent defects and future failures. Hand-stripping techniques do not provide enough control to strip the fiber to precise, well-defined lengths of approximately 0.01 inches. Other stripping techniques including laser stripping may adversely affect fiber strength. Goddard’s patented chemical-stripping device helps remove fiber coatings at clearly defined lengths without nicking the optical fiber, providing precise optical fibers for high-reliability applications. Proper chemical stripping is proven to maintain good fiber strength.

Patent

NASA Goddard Space Flight Center has patented the Chemical Stripping Fixture (U.S. Patent No. 5,451,294). (Link opens new browser window.)

Reduced Bubbles in Adhesives

Benefits

Inexpensive: Is made from readily available, commonly used, high-quality materials
Time- and cost-saving: Reduces or eliminates assembly failures due to non-uniform encapsulation stresses caused by adhesive bubbles and voids
Versatile: Is adaptable to a wide variety of fiber-optic connectors and centrifuges, and can be used as a liquid-adhesive filled connector holding fixture as well as a bubble and void remover
Durable: Is compatible with most adhesives
Simple: Is compact and easy to use

This device helps remove injection bubbles and voids that can be introduced during termination processes. These bubbles and voids may cause performance degradation (due to non-uniform encapsulation stresses), fatigue-induced fractures in the field, or may lead to premature fiber breakage under environmental extremes. Goddard’s technology features a fixture that holds and seals a connector filled with liquid adhesive. The device holds the connector without clamping onto it, minimizing potential connector damage such as scratching or cracking. The fixture is then placed in a centrifuge. Spinning the filled connector in a centrifuge drives bubbles and voids out of the adhesive, making the connection ready for bonding.

Technology for reduced bubbles in adhesives

The adhesive bubble remover holds a fiber termination submerged in a centrifuge.
Spinning the centrifuge drives out damage-causing bubbles and voids.

Other means of removing bubbles from adhesives, such as the use of vacuum, present several disadvantages. In some cases, a vacuum may remove volatile components from the adhesive along with the bubbles, adversely affecting the chemistry of the adhesive and possibly making it unreliable. In addition, vacuum chambers used for this purpose can also be cumbersome, inefficient, time consuming, and costly. In contrast, Goddard’s Adhesive Bubble Remover is constructed with inexpensive, quality materials and has a simple-to-use design.

Patent

NASA Goddard Space Flight Center has patented the Adhesive Bubble Remover Method (U.S. Patent No. 6,287,404). (Link opens new browser window.)

Optical Fiber Connector Polishing

Benefits

Flexible: Can compensate for process changes, product variability, or upgrades
Universal: Accommodates most fiber-optic connector types
Dependable: Minimizes potential connector damage (i.e., crushing)
Durable: Is compatible with most slurries, water, or other polishing fluids

When retrofitted on a connector-polishing machine, this device controls and allows adjustment of the connector’s apex offset—that is, the difference between the apex of the spherical polish and the center of the fiber core. Controlling apex offset to less than 50 mm helps improve fiber-to-fiber contact, reduces insertion loss, and reduces reflectance over the operating environment. This device allows users to adjust apex offset in response to manufacturing variables that create “out-of-spec” conditions, a feature not available in today’s polishing machines.

Optical fiber connector polishing technology

The fiber connector polishing process allows adjustment of the connector's
apex offset, improving interface reliability.

Licensing and Partnering Opportunities

This technology is part of NASA’s Innovative Partnerships Program Office, which seeks to transfer technology into and out of NASA to benefit the space program and U.S. industry. NASA invites companies to consider licensing these manufacturing device technologies for fiber-optic assemblies (GSC-13644 or GSC-13874) for commercial applications.

For information and forms related to the technology licensing and partnering process, please visit the Licensing and Partnering page. (Link opens new browser window)

For More Information

If you are interested in more information or want to pursue transfer of this technology, please contact:

Innovative Partnerships Program Office
NASA Goddard Space Flight Center
E-mail: fiber-optic-assemblies@gsfc.nasa.gov