Abstract: A multiple optical fiber connection apparatus comprises an outer housing to receive a plurality of optical fibers and a collar body disposed within the housing having a fiber comb portion disposed at a front portion of the collar body. The fiber comb portion includes an array of grooves, with each groove configured to guide an optical fiber disposed therein, and a ramp section adjacent the groove array, wherein the ramp section including a gradual rising portion.

Abstract: A multiple optical fiber connection apparatus comprises an outer housing to receive a plurality of optical fibers and a collar body disposed within the housing having a fiber comb portion disposed at a front portion of the collar body. The fiber comb portion includes an array of grooves, with each groove configured to guide an optical fiber disposed therein, and a ramp section adjacent the groove array, wherein the ramp section including a gradual rising portion.

Abstract: An optical fiber connector for terminating a fiber cable comprising a plurality of optical fibers, comprises an outer connector housing, a ferrule essentially free of adhesive, a backbone, and a collar body disposed between the ferrule and backbone. The collar body includes a remote gripping region to remotely grip the plurality of optical fibers outside of the ferrule. In some aspects, the collar body includes a fiber comb portion that separates potentially tangled fibers, arranges the plurality of fibers in a uniform pitch, and provides for straightforward feeding of the fiber array into ferrule bores during a fiber cable insertion process. In some aspects, the connector includes a resilient element disposed between the backbone and a rear portion of the collar body, and an intermediate spring element disposed between a front portion of the collar body and a rear portion of the ferrule.

Abstract: Devices including a polydiorganosiloxane polyamide containing material having a microstructured surface are disclosed herein. Such devices can optionally include a flex circuit attached to the microstructured surface and can be useful, for example, in fluid handling applications.

Abstract: An optical fiber connector for terminating a fiber cable comprising a plurality of optical fibers, comprises an outer connector housing, a ferrule essentially free of adhesive, a backbone, and a collar body disposed between the ferrule and backbone. The collar body includes a remote gripping region to remotely grip the plurality of optical fibers outside of the ferrule. In some aspects, the collar body includes a fiber comb portion that separates potentially tangled fibers, arranges the plurality of fibers in a uniform pitch, and provides for straightforward feeding of the fiber array into ferrule bores during a fiber cable insertion process. In some aspects, the connector includes a resilient element disposed between the backbone and a rear portion of the collar body, and an intermediate spring element disposed between a front portion of the collar body and a rear portion of the ferrule.

Abstract: A bladeless optical fiber cleaver includes a first clamp and a second clamp coupled to each other via a generally support tray, where the second clamp is movable with respect to the first clamp along an axis of the optical fiber. The first and second clamps each receive a portion of the optical fiber. The fiber cleaver includes a mechanism to create a tension force in a stripped portion of the optical fiber, where the stripped portion of the fiber under tension is exposed to receive contact from a flexible abrasive material, the flexible abrasive material introducing a flaw in the optical fiber where the cleave takes place.

Abstract: Devices including a polydiorganosiloxane polyamide containing material having a microstructured surface are disclosed herein. Such devices can optionally include a flex circuit attached to the microstructured surface and can be useful, for example, in fluid handling applications.

Abstract: A bladeless optical fiber cleaver is provided for cleaving an optical fiber connector in a straightforward manner. The bladeless optical fiber cleaver includes a generally planar body that includes a first body portion and a second body portion pivotably coupled to each other, where the second body portion is movable with respect to the first body portion. The fiber cleaver includes a mechanism to create a strain force in a stripped portion of the optical fiber, where the stripped portion under strain is exposed to receive contact from a flexible abrasive material, the flexible abrasive material introducing a flaw in the optical fiber where the cleave takes place.

Abstract: A bladeless optical fiber cleaver includes a first clamp and a second clamp coupled to each other via a generally support tray, where the second clamp is movable with respect to the first clamp along an axis of the optical fiber. The first and second clamps each receive a portion of the optical fiber. The fiber cleaver includes a mechanism to create a tension force in a stripped portion of the optical fiber, where the stripped portion of the fiber under tension is exposed to receive contact from a flexible abrasive material, the flexible abrasive material introducing a flaw in the optical fiber where the cleave takes place.

Abstract: A bladeless optical fiber cleaver is provided for cleaving an optical fiber connector in a straightforward manner. The bladeless optical fiber cleaver includes a generally planar body that includes a first body portion and a second body portion pivotably coupled to each other, where the second body portion is movable with respect to the first body portion. The fiber cleaver includes a mechanism to create a strain force in a stripped portion of the optical fiber, where the stripped portion under strain is exposed to receive contact from a flexible abrasive material, the flexible abrasive material introducing a flaw in the optical fiber where the cleave takes place.

Abstract: Devices including a polydiorganosiloxane polyamide containing material having a microstructured surface are disclosed herein. Such devices can optionally include a flex circuit attached to the microstructured surface and can be useful, for example, in fluid handling applications.