Abstract: For a connector, preferably a connector for optical waveguides, which is arranged jointly with electrical connectors on a printed board which can be plugged into a rack, it is proposed to equalize the tolerances in the direction of insertion defined by the electrical connectors in that the connector half for optical waveguides arranged in the rack has a plug-in part latched and held in a carrier body and that when the connector halves are assembled this latching is released and a latching with the connector half of the printed board takes place, wherein by means of the released latching with the carrier body the plug-in part is held therein in a displaceable manner.

Abstract: A connection device for injecting a laser beam into an optical fiber is provided. The device includes two half grips for receiving one end of the optical fiber in a gripped position, a connector body for receiving the grips and for holding them in an optical fiber gripped position, and a conduction cooling mechanism for cooling the two half grips.

Abstract: A ferrule used for an optical fiber connector and a method for efficient production thereof are disclosed. The ferrule comprises a through-hole formed linearly along the axial line thereof and having a part of a small diameter for the insertion of an optical fiber, a part of a large diameter for the insertion of a sheathed optical fiber, and a diametrically tapered part intervening between the small diameter part and the large diameter part and diverging from the small diameter part to the large diameter part. The through-hole has a length of not less than 1 mm for the small diameter part and a length of less than 6 mm for the total of the small diameter part and the diametrically tapered part.

Abstract: A fiber optic connector defines an optical axis and includes a housing mounting a forwardly protruding ferrule. A bore extends axially through the housing and the ferrule for terminating a fiber optic cable, with an exposed optical fiber in the bore of the ferrule. A spring loaded gripping clamp is mounted on the housing for receiving and gripping the optical fiber when inserted into the ferrule. The spring loaded gripping clamp is movable between a normally closed position for gripping the fiber and an open position for receiving the fiber. An appropriate tool can be used in moving the gripping clamp to its open position.

Abstract: A fiber optic connector comprising a plug and a receptacle uses the spring force supplied by bowing of the plug fiber to maintain a continuous compressive load at the fiber joint located in a fiber-alignment groove. The plug has a holder for securing the plug fiber and a shroud which snaps onto the holder with the plug fiber extending generally straight inside the shroud. The shroud has a slot providing access to the terminal portion of the plug fiber, and a sliding door which selectively covers the slot. The receptacle includes a housing and another fiber holder for securing the receptacle fiber, with a projection or finger attached to the receptacle fiber holder, the projection having the fiber-alignment groove. The finger is oriented within the receptacle housing such that, when the plug is inserted into the receptacle, the finger extends through the slot in the shroud at an oblique angle with respect to the plug axis.

Abstract: A device for interconnecting the bare ends of two or more optical fibers uses a common receptacle having a fiber clamping element therein and camming surfaces for actuating the element, and at least one plug having a camming finger for engaging one of the camming surfaces. The camming surfaces are located such that, when only one of the camming surfaces is actuated, the clamping element rocks to a side of the pocket opposite the one camming surface and remains in the open state, but when both of the camming surfaces are actuated, the clamping element is forced to the closed state. The plug includes a fiber protector free to slide within the plug housing, substantially enclosing the bare end of the fiber when the plug housing is removed from the receptacle, but retracting when the plug housing is inserted into the receptacle to direct the bare end of the fiber toward said guide tube.

Abstract: A device for interconnecting the bare ends of two or more optical fibers uses a common receptacle having a fiber clamping element therein and camming surfaces for actuating the element, and at least one plug having a camming finger for engaging one of the camming surfaces. The camming surfaces are located such that, when only one of the camming surfaces is actuated, the clamping element rocks to a side of the pocket opposite the one camming surface and remains in the open state, but when both of the camming surfaces are actuated, the clamping element is forced to the closed state. The plug includes a fiber protector free to slide within the plug housing, substantially enclosing the bare end of the fiber when the plug housing is removed from the receptacle, but retracting when the plug housing is inserted into the receptacle to direct the bare end of the fiber toward said guide tube.

Abstract: An optical fiber holder comprising a pair of hollow metal members opposingly provided so as to interpose an optical fiber between them, and a holding case that holds the hollow metal members in such a state that their peripheries are pressed against its inner wall. The hollow metal members are in the shape of half-round cylinders on the whole, and are provided in such a manner that the planar portions thereof face each other so that the optical fiber is held between the hollow members at the center of each planar portion thereof. The optical fiber can be elastically fixed without causing a damage to the optical fiber main body and can be firmly fixed because of the great contact areas assured in the axial direction and in the peripheral direction.

Abstract: An automotive fiber optic cable splice for connecting first and second fiber optic cables in an abutting connection is provided. The splice includes a casing with first and second ends, the casing encircling the first and second fiber optic cables; first and second end caps generally at the first and second ends of the casing; first and second ferrules positioned within the casing for aligning the first and second fiber optic cables generally adjacent the abutting connection of the first and second fiber optic cables; first and second crimps radially gripping the first and second fiber optic cables, respectively, creating on each fiber optic cable a crimped region thereon; and first and second seals radially sealing the fiber optic cables and sealing the fiber optic cables within the casing adjacent the respective first and second end caps, the first and second seals biasing the first and second fiber optic cables toward one another.

Abstract: A multi-fibre connector consisting of a bush acting as a guide and coupling element for two ferrules, which are located one in front of the other and contain a sized hole in which two or more fibres are located in a radial arrangement, said two or more fibres being inserted and glued into the sized hole, after which the entire end surface of the ferrule and fibres is lapped in such a manner as to obtain a convex and/or angled surface. Means are provided for securely coupling together said ferrules and said bush. Said means are in the form of a longitudinal slit provided in the bush and a respective shaped insertion element rigidly fixed to a respective one of the facing end parts of said two ferrules, said shaped insertion element engaging in said slit.

Abstract: The ferrule for optical connector according to this invention comprises a first grip portion having first through holes for insertion of optical fibers and gripping part of said optical fibers apart a predetermined distance from the distal ends of optical fibers; a second grip portion arranged along the insertion direction of optical fibers together with the first grip portion and opposed to the first grip portion through a first space. The second grip portion has second through holes for the optical fibers set through the first through holes to be further introduced therethrough, and grips the vicinity of the distal ends of optical fibers; and a pedestal portion projecting from a surface of the first grip portion.

Abstract: This invention relates to temperature compensated FFPs with improved means for alignment of optical fibers. The invention provides ferrule holders with shaped ferrule passageways, as components of FFP alignment fixtures, in which optical fiber ends can be readily aligned using the ferrule rotary alignment method. The ferrule holders have a composite structure facilitating temperature compensation required for applications to PZT-tuned FFPs. The ferrule holder has a core and peripheral region made of materials having different thermal expansion coefficients. The holder core in contact with the ferrule is made of a material having a thermal expansion coefficient substantially matched to that of the ferrule material. In addition, ferrule holders are provided with a means for changing the points of contact between a secured ferrule and its holder which allows wavelength drift as a function of temperature in FFPs to be adjusted.

Abstract: A connector is provided for securing one or more optical fibers to a mounting member, such as an instrument panel module wall or a light pipe within an instrument panel. The connector generally includes a body characterized by a longitudinal axis, a first end, an oppositely disposed second end, and an internal passage formed within the body along the longitudinal axis. The internal passage is tapered so as to have a smaller cross-section at the second end than at the first end, with the internal passage at the first end being sized to receive the one or more optical fibers. Expandable members are formed at the second end of the body, which enable the internal passage at the second end to radially expand and accommodate the optical fibers. In doing so, the expandable members serve to grip the optical fibers when disposed within the internal passage. At least one pair of resilient members extend from the midportion of the body, and both extend towards either the first or second end of the body.

Abstract: An inner, optical fiber core clamping ferrule has an optical fiber clamping portion for receipt in an outer ferrule and defining an axially extending through-passageway, an axial slit extending through the clamping portion divides the passageway into two opposed groove portions receiving a prepared end of an optical fiber extending along the through-passageway. The inner ferrule is force-fitted in the outer ferrule to extend co-axially therewith, with wall portions thereof maintaining the opposed walls of the spaced apart slit in open condition so that opposed walls of the groove portions are pressed into gripping engagement with the optical fiber. The opposed walls of the slit diverge as they extend radially outwardly away from the groove portions. The inner ferrule may be split for the entire length of the through passageway forming two halve hinged together at one end or have open slits formed in an otherwise imperforate tubular wall.

Abstract: A fiber optic termination for incorporating within a fiber optic connector is capable of mechanical assembly which can preclude the use of adhesives for termination assembly. A metal plunger compresses a bullet having an aperture therethrough into a constriction causing the bullet to grip a fiber. A metal insert lines the interior of an alignment ferrule and engages the actuating plunger with an interference fit. The interference fit retains the plunger over time and over a broad operating temperature range. Dimples on the outer surface of the metal insert create pockets of engagement between the insert and the alignment ferrule that resist axial displacement of the insert relative to the alignment ferrule.

Abstract: Optical fibers (15) are supported within a bonded support member (16) having along opposite sides first and second grooves (14) which are parallel to the central axes of the fibers being supported. A first opening (22) is formed in a holder member (21) which includes a first projection (27). A cantilever spring member (23) is formed in the holder member having a second projection (27) opposite the first projection. The bonded fiber support member (16) is inserted into the opening such that the first projection engages the first groove (14) on one side, and the second projection engages the second groove (14) on the other side of the bonded support member. Thereafter, the bonded support member is locked into position and the holder biases one end of it against a polishing wheel (29) to permit polishing along a plane which is perpendicular to the axes of the optical fibers.

Abstract: A terminating device for an optical waveguide, comprising a sleeve-like terminating member (23, 25; 271) in which an optical waveguide section (47; 229) having a coupling face ground to be plane is glued on the one hand and in which an optical waveguide (19, 21, 213) abutting said optical waveguide section (47; 229) is inserted on the other hand. Such a terminating member can be used in an optical waveguide connector (15,17; 211). In an optical waveguide connection assembly (11; 211) using such connectors (15, 17; 211), portions of the terminating members (23, 25; 271) projecting from a coupling face of the connector (15, 17; 211) are centered in a centering means (83; 299) with respect to their required radial position.

Abstract: A connector for a pair of loosely buffered or tightly buffered optic fiber cables. Each of the cables comprises an optic fiber having a jacket thereabout and a bare free end. The connector comprises a first section, a second section, and a pair of jacket clamps. Each of the first and second sections are arranged to receive a respective one of the cables. The jacket clamps engage respective ones of the jackets to hold the cables in place. The first section has a fiber retaining, conical member located therein. That member is formed of a substantially hard, yet somewhat compressible material, and includes a fiber-receiving bore extending therethrough. The internal diameter of the bore is very slightly larger than the external diameter of the fibers. The first and second sections are arranged to be releasably secured together to bring the bare free ends of the fibers into abutment within the bore to establish a light transmissive joint between them.

Abstract: A fiber optic cable connector secures a fiber optic cable to an equipment housing (e.g., a CATV equipment housing) and allow individual fibers of the cable to pass into the housing in a strain relieved condition for connection to electro-optical componentry. A strength component of the fiber optic cable is clamped within the connector body, exterior of the equipment housing, to strain-relieve the optical fibers from forces imparted to the cable, without taking up housing space. Also, the connector clamps a strength component of a protective "fan-out" tube covering the individual fibers of the cable passing from the connector into the housing, to strain-relieve the fibers from forces imparted to the fan-out tube. The clamping action is effected by progressive threaded engagement of two connector bodies.

Abstract: An optical fiber mounting device is shown which assembles the optical fiber in a ferrule which is inserted in a spherical member. The spherical member is then assembled in a spherical housing cavity and clamped by conventional means. To allow for vertical adjustment of the fiber, a spherical member may be slotted allowing sliding engagement of the ferrule. The ferrule is clamped in place when the slots are closed by the clamping action of the housing.

Abstract: An adhesiveless optical fiber termination employs an outer element (14, 76, 90) having a through passage (18, 80, 86) that receives an optical fiber (60, 72, 84). A tubular inner element (12, 78, 92) fits over the cable and telescopically seats in the passage of the outer element. An elastomeric compressive system (16, 74, 94) is seated within the passage substantially encircling the optical fiber and is radially inwardly deformed into secure engagement with the optical fiber therein in response to compressive engagement between the outer element and the inner element.

Abstract: A durable, low loss splice connection for optical cables includes two ceramic optical fiber guide members which are held in axial and angular alignment by an alignment sleeve, and in butt joint intimate contact by a spring tension clip. The connection is mechanically and environmentally sealed by a heat shrink tube having an interior diameter coated with hot melt adhesive.

Abstract: An optical fiber connector is shown with connector elements dimensioned and having material selected to accommodate thermal expansion to certain alignment of elements. Also, the elements are selected to accommodate compressive force to ensure a desired distribution of compressive forces between a ferrule and a fiber. The balancing ensures that the fiber and the ferrule retain a desired alignment with desired opposing forces. Also, a non-circular split sleeve of uniform wall thickness dimensions is provided to ensure uniform pressure distribution on a fiber ferrule. The split sleeve is also offset to accommodate offsetting tendencies of fibers being aligned within the split sleeve.

Abstract: The invention relates to an alveolar connector, comprising male and female connector elements (2,23) having parts provided with aligned sockets suitable for receiving at least one connection device for fiber optics formed of a male contact (1) and a female contact (22) working together, the one fixed in its socket, and the other axially movable in its socket, between a disconnection position and a connection position.

Abstract: A terminus for an optical fiber cable (10) has a ferrule (22) with an endwall portion (24) including an axial opening (26) for receiving a glass fiber core. A ferrule central portion (28) is larger in cross-section than endwall portion (24) and the opposite end portion (32) is still larger. In assembly, the fiber jacket (16) or strain relief is peeled back over an underlying sleeve (34) and crimped within the opposite end portion (32). The central ferrule portion (28) has an internal sleeve (40) fitted over a section of the optical fiber with buffer tubing (14) and the ferrule is crimped in place. The fiber outer end portion consists of just the bare glass core (12) received within endwall opening (26).

Abstract: A fiber-optic connector for a cable with an optical fiber. The connector includes a first backpost having an exteriorly threaded forward portion, a rearward portion attachable to the cable, and a central passageway extending therethrough. The connector has a body with a forward portion, an interiorly threaded rearward portion, and a central passageway extending therethrough. The body threads have a pitch diameter and pitch thread which mate with the threads of the first backpost. A second backpost is positioned within the body central passageway, and has a forward portion which holds a ferrule in position, and a rearward portion which extends through a rearward opening in the body and into a forward opening of the first backpost. The second backpost rearward portion and the first backpost central passageway are non-cylindrical to prevent rotation of the second backpost.

Abstract: The invention relates to a connector for fiber optics, having two ferrules mounted on the end of each of the fibers to be connected, each having a bore into which the fiber optic can be inserted loosely and fixed in place such that its end coincides with the end of the ferrule, and a female reconstitution coupling having a longitudinal bore to support and align the two ferrules face to face, and longitudinal pressure means to thrust each of the ferrules toward the other, characterized by the fact that it includes a separator (11) of resilient plastic material having a refractive index equal to or close to that of the core of the fibers (8) to be connected, the said separator having, prior to its installation, a thickness at least equal to the gap (e) between the ends of the confronting fibers once the connection is made, the said separator (1) being made integral with a sleeve (12) adapted to be positioned and held inside of the female reconstitution coupling.

Abstract: Support apparatus for a fiber optic cable assembly which includes optical fibers having end faces, high tensile strength fibers contiguous with and generally parallel to the optical fibers, and one or more electrical conductors. A main body portion of the apparatus supports the fiber optic cable assembly and includes a central channel and posts therein, for first supporting the cable assembly, then separating the optical fibers from the high tensile strength elements and the electrical conductor, and then aligning the optical fibers on the apparatus so as to precisely position the respective end faces thereof at an outer end of the main body portion of the apparatus.

Abstract: A connector system for operatively connecting the ends of two fiber optic cables together. A wall-mountable plate includes an elongated receptacle containing spaced through bores. The bores have opposed frusto-conical entry sections which are joined by a cylindrical central section. A terminal connector is mounted on the end of each cable and has spaced frusto-conical projections which end in cylindrical nose portions containing the ends of the fibers. The terminal connector projections are insertable through opposite ends of the bore into abutment of the nose portions at an interface location along a central portion of the bore. Lock tabs and shoulders on the receptacle and on one of the terminal connectors latch the connector within the bore, with the terminal being held without bias and against reverse movement out of that end of the bore. A collar is slidably mounted on the other terminal connector, with a spring captured between the connector and the collar for biasing them apart.

Abstract: Optical connectors adapted to join optical fibers to an optical component, each connector having an outer support to be fixedly secured to the component and provided with a housing receiving a movable element having a spherical-surface portion to which an optical fiber-holding body is connected. The spherical surface of the movable element is in contact with a mating surface of the outer support and permits pivoting or rotation of the movable element and the body housing the fiber about any axis passing through the center of the spherical surface itself. Tightening means for locking the movable element against the housing surface is provided, and such tightening means is adapted to prevent pivoting or rotation of the movable element itself by friction. The connector can be made entirely of dielectric materials.

Abstract: A fiber-optic connector for a cable with an optical fiber. The connector includes a first backpost having an exteriorly threaded forward portion, a rearward portion attachable to the cable, and a central passageway extending therethrough. The connector further has a body with a forward end portion, an interiorly threaded rearward end portion, and a central passageway extending therethrough. The body threads have a pitch diameter and pitch thread which mate with the threads of the first backpost. A second backpost is positioned within the body central passageway, and has a forward end portion which holds a ferrule in position, and a rearward end portion which extends through a rearward opening in the body and into a forward opening of the first backpost.