A plug connector has a cylindrical housing body having at least one step, which forms two different regions each having different housing diameters, wherein the region having the smaller diameter forms a plug-in region and the region having the larger diameter forms a socket region, wherein the plug connector has a lock, which is captively connected to the housing body, wherein the plug connector has an actuator, which is operatively connected to the lock, wherein the plug connector has a plugging positioner, which at least partially surrounds the plug-in region. An attachment flange fits the plug connector and has an insertion region designed as a hollow cylinder, wherein the inner region of the hollow cylinder has at least one step, which forms two different regions each having different inside diameters, wherein the inner region of the insertion region is unthreaded.

A process and tool for reshaping and resizing grooves that were pre-formed in a pair of ferrules halves of an optical fiber ferrule. A high-precision alignment fixture produces a ferrule assembly with an optical fiber precisely held therein in alignment with the external alignment surface of the ferrule assembly. The fixture uses a double-compound flexure supporting a linearly moving body (e.g., a reshaping and resizing jaw), which eliminates parasitic displacement in a direction lateral to the direction of linear motion of the moving body. Each compound flexure includes a pair of double parallel leaf springs (in series).

A ferrule assembly for an optical fiber connector has a first ferrule component having a structured surface defining features for aligning a section of an optical fiber, and a second ferrule component that is coupled to the first ferrule component by a web, wherein the web is flexible to allow folding the web to fold the second ferrule component over the groove in the first ferrule component. The optical alignment features includes one or more open grooves for receiving a bare section of an optical fiber. The section of the optical fiber is retained in the groove between the two ferrule components.

An expanded beam ferrule includes a first ferrule halve having reflective surfaces and a second ferrule halve, which together retain optical fibers. The reflective surfaces output light perpendicular to the mid-plane of the ferrule. A sleeve aligns the external surface of two similar ferrules, with the reflective surfaces of the respective ferrules facing each other. Output light from an optical fiber held in the first ferrule is bent and collimated by a reflective surface, transmitted to the facing reflective surface in a second ferrule aligned by the sleeve, which bends the light to input to the optical fiber held in the second ferrule. The ferrule components and/or sleeve are precision formed by high throughput metal stamping. The ferrule is incorporated in an optical fiber connector.

An easily assembled SC connector, comprising a tail sleeve, an outer frame sleeve, a fixing piece, a limiting piece, a tail pipe, a stop ring, a press-inserting core tail shank, a spring, a metal ring, a ceramic inserting core, and a dustproof cap. During assembling, the tail pipe is sleeved in the tail sleeve in an interference fit, then the metal ring is fixedly connected to the press-inserting core tail shank by means of injection molding, and the stop ring and the limiting piece are fixed by means of injection molding. The injection molding has a simple production process and low costs. The whole assembly process is simple, and automatic assembly can be achieved. In addition, the present application only needs to directly extend a needle for dispensing glue into the center of the press-inserting core tail shank.

A process and tool for reshaping and resizing grooves that were pre-formed in a pair of ferrules halves of an optical fiber ferrule. The pre-formed grooves are further subject to a separate, subsequent reshaping and resizing step using the tool and a gauge that may be a bare section of optical fiber or a pin. The ferrule halves are aligned, and using the pre-formed grooves as guides for the gauge optical fiber or gauge pin, the ferrule halves are compressed together with the gauge optical fiber or gauge pin therebetween, thereby reshaping and resizing the respective grooves on the ferrule halves. After reshaping and resizing, the resultant groove that is finally formed on each ferrule halve would be precisely shaped, sized and located with respect to the external alignment surface of each ferrule halve. The ferrule halves may be used to terminate an optical fiber cable.

The present disclosure has an object to provide a multicore optical connector that can achieve size reduction and pitch reduction without performing highly accurate machining of V-grooves or the like. The present disclosure is a multicore optical connector including a holding member 11 having a flat bottom surface 14B, and provided with a groove that enables a plurality of optical fibers 91 to be arranged along the bottom surface 14B, the plurality of optical fibers 91 stored in a row on the bottom surface of the groove, and a lid 15 that is in contact with all the plurality of optical fibers 91 and is fixed to the plurality of optical fibers 91 and the holding member 11 in a state in which the plurality of optical fibers 91 are pressed against the bottom surface 14B of the groove to form a long hole 12 at the groove 14.

A ferrule includes a holding part, a first surface, and a second surface. The holding part includes a holding recess, a first groove disposed at the holding recess along an extending direction of the optical transmission member, the first groove being a groove where the optical transmission member is disposed, a pressing member configured to press the optical transmission member toward the first groove, and a sliding part disposed at the holding recess and the pressing member, and configured to slide the pressing member with respect to the holding recess along the extending direction of the optical transmission member.

An optical ferrule (200) includes an input surface (10) for receiving and transmitting a central light ray (21) from an optical fiber (20) attached to the optical ferrule. A light redirecting side (30) receives, along a first direction (40), the central light ray (21) transmitted by the input surface (10) and redirects the received light along a different second direction (41). The redirected central light ray (23) exits the optical ferrule through an output surface (50) of the optical ferrule. As the central light ray (21) propagates in the optical ferrule from the input surface (10) to the output surface (50), the central light ray (21) propagates through distinct first and second portions (60,70) of the optical ferrule having different respective first and second compositions.

An optical system is provided. The optical system includes an optical engine having a photonic integrated circuit (PIC) and an optical lens array, the optical lens array has a lens that is optically aligned with a waveguide in the PIC. The optical system also includes an optical connector optically aligned with the optical lens array to transfer optical signals between the optical connector and the waveguide in the PIC. The optical connector includes a ferrule and an optical fiber mated with the ferrule. The ferrule has a lens aligned with the lens of the optical lens array.