Abstract: This invention relates to a method of splicing fiber optic fiber and the protection needed to secure that splice. This invention presents a quick and reliable way for fiber technicians to create sturdy splices that exceed the strength of splices currently in use. It utilizes an inner and outer strength member that is new to the field of fiber optics. These strength members include an inner steel rod, housed within an inner shrink tube, which is thereby housed within an outer shrink tube. Once melted, this tube is slid inside of a brass crimp sleeve which provides sturdy protection for the spliced fiber.

Abstract: The invention relates to a fiber optic cable for information transmission, comprised of multiple buffered optical fibers surrounded by aramid yarn within a thermoplastic jacket, produced using a TPE Hytrel buffer, manufactured using a pressure tooling extrusion process. This Hytrel buffering allows for the production of a cable that has a one-third smaller diameter compared to standard PVC buffered distribution cable. Despite this smaller diameter, this invention surpasses the standard PVC buffered distribution cable in both Compressive Load and Impact Testing, and meets Mil-Spec standards.

Abstract: This invention relates to a fiber optic fiber testing device presented in an app that compares three fiber link parameters against a table of specifications required in order for that fiber to transmit data at a particular speed. The invention presents a convenient ‘Pass’ or ‘Fail’ result for each parameter tested that immediately verifies whether the fiber being tested will meet the minimum basic criteria for transmission of data at a particular bandwidth speed, in accordance with that particular fiber manufacturer's specifications.

Abstract: A wide bodied cushioned cable tie for use with securing optical fiber bundles is formed of a sturdy polymer e.g. polyethylene with a strap width of about one inch and with broad longitudinal flanges on either side of the rack of teeth on the strap. Neoprene foam cushions extend along each of the flanges. The ratchet or pawl can be provided with a release tab. A service opening at the tip or tail of the strap facilitates hanging the bundle from support structure.

Abstract: A universal holder for fusion splice connector bodies fits any of several standard styles of connector body to variety of different fusion splicer machines. The holder is formed of a block of solid material with a longitudinal cutout formed of a series of of generally semiicylindrical recesses and generally cylindrical lands with one or more square cutouts. The recess and lands are coaxially arranged so as to accommodate the various styles of connector bodies. The body also has locating features, including locating cutouts extending up from a bottom side, to accommodate locating structure of an associated fusion splicer machine. These locating cutouts may accommodate pin and slot, offset pin or parallel pin arrangements.

Abstract: A universal holder for fusion splice connector bodies fits any of several standard styles of connector body to variety of different fusion splicer machines. The holder is formed of a block of solid material with a longitudinal cutout formed of a series of of generally semiicylindrical recesses and generally cylindrical lands with one or more square cutouts. The recess and lands are coaxially arranged so as to accommodate the various styles of connector bodies. The body also has locating features, including locating cutouts extending up from a bottom side, to accommodate locating structure of an associated fusion splicer machine. These locating cutouts may accommodate pin and slot, offset pin or parallel pin arrangements.

Abstract: There is provided a portable fiber optic cable based intrusion detection system in which support posts are driven into the earth to define a perimeter. A portably mountable fiber optic cable attenuator is installed to each support post. The fiber optic cable is wrapped around a first compressible member of the attenuator and then looped through a second compressible member. A retractable rod having a cross arm there through is elevated through the second compressible member to form an upper loop in fiber optic cable. The retractable rod is then retracted leaving the remaining upper loop. An external force on the fiber optic cable diminishes the upper loop about the cross arm thereby creating a microbend in the fiber optic cable. A light detector senses a reduced light intensity, caused by the microbend, at the end of the fiber optic cable which triggers an alarm.

Abstract: There is provided a portable fiber optic cable based intrusion detection system in which support posts are driven into the earth to define a perimeter. A portably mountable fiber optic cable attenuator is installed to each support post. The fiber optic cable is wrapped around a first compressible member of the attenuator and then looped through a second compressible member. A retractable rod having a cross arm there through is elevated through the second compressible member to form an upper loop in fiber optic cable. The retractable rod is then retracted leaving the remaining upper loop. An external force on the fiber optic cable diminishes the upper loop about the cross arm thereby creating a microbend in the fiber optic cable. A light detector senses a reduced light intensity, caused by the microbend, at the end of the fiber optic cable which triggers an alarm.

Abstract: There is provided an adapter that fits most standardized fiber optic cable connectors to allow quick field installations. The adapter includes a split diameter. The smaller diameter fits within a rear back shell of the connector and receives a fiber stub from the connector. The larger diameter abuts the rear of the rear back shell and receives an optical fiber. The adapter includes a pair of mated resilient members that forms a fiber guide within the adapter. The fiber stub and a bare optical fiber of the optical fiber are optically spliced within the fiber guide formed within the resilient members.

Abstract: There is provided an apparatus that determines the location of an impermissible tamper on an object, such as an impermissible attempt to gain access to a manhole system or an attempt to steal a work of art, includes a housing disposed adjacently to the object. A fiber optic cable runs through the housing. The object includes a portion that cooperates with internal components of the housing to maintain the fiber optic cable in a non-attenuated state. Upon the impermissible tamper, that portion of the object no longer cooperates with the internal components of the housing. An elastic force internal to the housing cooperates with more internal housing components to create a microbend to the fiber optic cable. Using known optical time domain reflectometer technology, the location of the microbend along the fiber optic cable is readily discerned.

Abstract: There is provided an adapter that fits most standardized fiber optic cable connectors to allow quick field installations. The adapter includes a split diameter. The smaller diameter fits within a rear back shell of the connector and receives a fiber stub from the connector. The larger diameter abuts the rear of the rear back shell and receives an optical fiber. The adapter includes a pair of mated resilient members that forms a fiber guide within the adapter. The fiber stub and a bare optical fiber of the optical fiber are optically spliced within the fiber guide formed within the resilient members.

Abstract: There is provided an apparatus that determines the location of an impermissible tamper on an object, such as an impermissible attempt to gain access to a manhole system or an attempt to steal a work of art, includes a housing disposed adjacently to the object. A fiber optic cable runs through the housing. The object includes a portion that cooperates with internal components of the housing to maintain the fiber optic cable in a non-attenuated state. Upon the impermissible tamper, that portion of the object no longer cooperates with the internal components of the housing. An elastic force internal to the housing cooperates with more internal housing components to create a microbend to the fiber optic cable. Using known optical time domain reflectometer technology, the location of the microbend along the fiber optic cable is readily discerned.

Abstract: There is provided an apparatus that determines the location of an impermissible movement on a predetermined magnetically attractive object. A fiber optic cable runs through a housing and forms a first bend radius. A magnetic member disposed within said housing is magnetically attracted adjacent to the top of said housing by said predetermined magnetically attractive object. When said predetermined magnetically attractive object is impermissibly moved, the magnetic member falls downward thereby causing a microbend to said fiber optic cable. Using an optical time domain reflectometer, the location of the microbend along the cable is readily determined.

Abstract: There is provided an electronic security system for a perimeter structure that incorporates a fiber optic cable secured to the perimeter structure. Typically the perimeter structure is a fence. A light pulse is transmitted down the fiber optic cable. Mechanical attenuation devices disposed at various locations along the fiber optic cable are responsive to intrusion attempts. The mechanical attenuation devices produce measurable attenuations to the light pulse. Using backscattering light detection technology an intrusion attempt and the location of an intrusion is detected.