Patent ID: 8565565

Claim:
A fiber optic assembly particularly suited for providing fiber optic service indoors to structures such as multiple dwelling units, comprising: a bundle of subunit fiber optic cables, wherein the bundle of subunit fiber optic cables comprises at least six subunit fiber optic cables, wherein each of the at least six subunit fiber optic cables comprises: only a single optical fiber per subunit fiber optic cable; wherein the optical fiber is buffered with a buffer coating formed of a polyvinyl chloride material; and wherein the optical fiber is bend-insensitive such that the optical fiber experiences an absolute delta attenuation value of less than 0.2 dB at 1550 nanometers wavelength under up to five wraps about a 15 mm diameter mandrel and experiences an absolute delta attenuation value of less than 0.5 dB at 1550 nanometers wavelength under up to five wraps about a 10 mm diameter mandrel, whereby the optical fiber is configured to be bent around tight corners without excessive attenuation losses and, in use, the subunit fiber optic cables can be separated from the fiber optical assembly and run to separate locations, and the use of bend-insensitive optical fiber further allows the subunit cables to be run through extremely tight locations and along tortuous paths; an integral, individual strength component, wherein the strength component comprises a layer of flexible, loose tensile strength members, wherein the layer of loose tensile strength members surrounds the buffer coating of the optical fiber, whereby the fiber optic assembly incorporating the subunit fiber optic cables has extremely high tensile strength, while not being excessively rigid or inflexible; and a subunit jacket surrounding the layer of loose tensile strength members, wherein the subunit jackets comprise polyvinyl chloride, wherein the subunit fiber optic cables are flame retardant single fiber cables and include additives to improve flame resistance, whereby the subunit fiber optic cables have flame retardant properties to achieve desired flame ratings for the fiber optic assembly; and binders comprising elongate tensile yarns and stranded about the subunit fiber optic cables, wherein the binders are made from high tensile strength materials to thereby enhance the tensile strength of the fiber optic assembly, wherein the elongate tensile yarns of the binders comprise at least one of aramid, fiberglass, and polyester; the binders comprising a pair of the external binders that are oppositely helically wound about an external periphery of the bundle of subunit fiber optic cables, wherein the external binders are free of an outer jacket, whereby the omission of the outer jacket in part gives the fiber optic assembly a small cross-section, and, more specifically, wherein an average diameter of the fiber optic assembly is less than 6.5 mm.