Abstract: The present disclosure relates to a ruggedized female fiber optic connector designed to reduce cost. In one example, features of a fiber optic connector and a fiber optic adapter are integrated into one assembly. In another example, a female ruggedized optic connector is provided with a simple structure having a pre-assembled ferrule alignment sleeve including a ferrule.

Abstract: A paired simplex fiber optic connector assembly comprises a clip that holds two simplex LC connectors together to yield a duplex connector that can be plugged into a duplex adapter. In some embodiments, the two simplex connectors are held in place by rails formed on both sides of the clip. In other embodiments, a side arm is formed on each side of the clip, the side arm comprising a hub that extends from the clip and a non-circular flange formed on the end of the hub. The flange is configured to engage with channels formed on the sides of the simplex connectors, thereby holding the simplex connectors in place. The simplex connectors are attached to the clip by rotating the connectors about the flange, thereby engaging the channels with the flanges.

Abstract: An optical connector has a single ferrule held within a ferrule holder to make a ferrule assembly. The ferrule assembly is inserted into a connector housing with an expansion slot extending from the front end toward the back end to allow insertion of the ferrule assembly from the front of the connector housing. The ferrule holder has at least one extension extending from a outer surface thereof and a window in communication with and opening extending through the ferrule holder. The connector housing also has a window disposed in the main body, the window disposed in the main body in an outer surface adjacent the expansion slot to receive the extension from the ferrule holder.

Abstract: An optical fiber connector adapted to use with two optical fibers includes a base seat, a positioning member, and a joint unit. The base seat includes a tubular wall defining an axial hole and two extension walls defining an accommodation space in spatial communication with the axial hole. The positioning member is disposed in the axial hole and defines a channel permitting the optical fibers to extend therethrough. The joint unit includes two central pins and two sleeves. The central pins are adapted to be connected respectively to the optical fibers. The sleeves are sleeved respectively on the central pins and are detachably mounted to the base seat such that positions of the central pins relative to each other are fixed.

Abstract: Aspects and techniques of the present disclosure relates generally to incorporating an index matching gel within a HMFOC such that as the HMFOC is mated, fiber tips protruding from multi-fiber ferrules of the HMFOC pass through the indexing matching gel to remove contaminates therefrom. The present disclosure also relates to a method of removing contaminates from optical fibers upon mating a hardened multi-fiber optical connector (HMFOC) with another HMFOC.

Abstract: An optical fiber stub having a first end and a second end, wherein the outer surface of the first end has a threaded surface, and a stop surface at a base of the outer threaded surface, a receptacle cap having a tubular body with a base end and a receiving end, wherein an inner surface of the base end is similarly threaded to the outer threaded surface of the first end, so that the base end of the receptacle cap can be screwed over and around the first end of the optical fiber stub. The receiving end of the receptacle cap includes two opposing flat surfaces on an outer surface of the receiving end, so as to enable a tool to grip the outer surface of the receiving end of the receptacle cap and unscrew the receptacle cap from the optical fiber stub.

Abstract: The present invention discloses an optical fiber connector, which comprises a first shell, a second shell and an unlocking shell, wherein the first shell and the second shell are mutually inserted, the first shell and the second shell are locked and unlocked through the unlocking shell. According to the present invention, an unlocking action of the unlocking shell on the second shell is axially push-pull unlocking, which is realized by the stop structure, the unlocking shell is convenient to mount, and the unlocking is convenient and quick.

Abstract: A lockable dust cap is inserted over a proximal end of an adapter assembly. The lockable dust cap has locking arms that secured the dust cap hub to the proximal end of the adapter assembly, and a grip portion that when rotated from an unlocked “0” or locked “1” position the dust cap is secured at the proximal end of the adapter. The dust cap is ingress protected with a seal and polymer shroud that covers the proximal end of the adapter. This helps to prevent moisture or debris ingress into the adapter assembly.

Abstract: A connector assembly that includes a connector that has a ferrule and a latch. The latch is movable about a connection point. The connector assembly also includes a boot that is removably mounted to the connector. The boot is axially slidable to move the latch. The connector assembly also includes a locking assembly to selectively lock the boot from sliding axially relative to the connector.

Abstract: An optical fiber connector allowing more precise connection, having a front casing and an insertion core assembly; the front casing has an installation hole where the insertion core assembly is installed; the insertion core assembly has an insertion core and a tail rod; the tail rod has a tail rod head portion and a tail rod necking portion; the tail rod head portion fixedly sleeves one end of the insertion core; the tail rod head portion has a quadrilateral cross section; a cross section of the installation hole also has a quadrilateral shape that matches the quadrilateral cross section of the tail rod head portion.

Abstract: A fiber optic adapter is disclosed. The fiber optic adapter includes a main body configured to receive a first fiber optic connector through a first end and a second fiber optic connector through a second end for mating with the first fiber optic connector. The adapter includes a ferrule alignment structure located within an axial cavity of the main body, the ferrule alignment structure including a sleeve mount and a ferrule sleeve, the sleeve mount including an axial bore and at least one latching hook extending from a center portion of the sleeve mount toward the first end of the main body and at least one latching hook extending from the center portion toward the second end of the main body, the latching hooks configured to flex for releasably latching the first and second fiber optic connectors to the fiber optic adapter.

Abstract: A reconfigurable optical ferrule (ROF) carrier mating system is provided. The ROF carrier mating system comprising a reconfigurable carrier adapter comprising an adapter mid-wall comprising a plurality of ferrule mating sleeves, with a first carrier receptacle on a first side of the adapter mid-wall and a second carrier receptacle on a second side of the adapter mid-wall. Each ROF carrier can take on either a serial orientation or a parallel orientation based on the alignment of a plurality of duplex ferrule connectors disposed within each ROF carrier. The plurality of ferrules of the ROF carriers inserted into the first carrier receptacle are configured to mate with the plurality of ferrules of the ROF carriers inserted into the second ferrule carrier receptacle.

Abstract: Hardened fiber optic connectors having a mechanical splice assembly are disclosed. The mechanical splice assembly is attached to a first end of an optical waveguide such as an optical fiber of a fiber optic cable by way of a stub optical fiber, thereby connectorizing the hardened connector. In one embodiment, the hardened connector includes an inner housing having two shells for securing a tensile element of the cable and securing the mechanical splice assembly so that a ferrule assembly may translate. Further assembly of the hardened connector has the inner housing fitting into a shroud of the hardened connector. The shroud aides in mating the hardened connector with a complimentary device and the shroud may have any suitable configuration. The hardened connector may also include features for fiber buckling, sealing, cable strain relief or a pre-assembly for ease of installation.

Abstract: A connector (1) includes a dielectric (10) having conductor accommodation chambers (17) laterally partitioned by a separation wall (15), inner conductors (36) individually accommodated in the conductor accommodation chambers (17), a body (11) made of synthetic resin, constituting the dielectric (10) and formed with the separation wall (15) and the conductor accommodation chambers (17), and a front wall (28) made of synthetic resin, constituting the dielectric (10) and mounted on a front part of the body (11) to close front end openings of the conductor accommodation chambers (17). The separation wall (15) is made of a material having a lower dielectric constant than the front wall (28), and the front wall (28) is made of a material having a higher mechanical strength than the separation wall (15).

Abstract: An LC duplex connector having an intermediate panel and a pulling rod; a first through hole and a second through hole are provided on an upper cover panel and a lower cover panel respectively; an elastic arm is provided on the intermediate panel; the elastic arm is inserted into the first and second through holes to fix the intermediate panel with respect to the upper and lower cover panels; the pull rod is installed on the intermediate panel and is axially slidable; the press strip is provided with a reverse hook; the pull rod is provided with pulling hooks each being cooperative with a corresponding reverse hook. When pulling the pull rod, the pulling hooks of the pull rod apply a downward force against the reverse hooks, thus driving the press strips to move downwardly to disengage the LC duplex connector from the concealed fasteners of the LC adaptors.

Abstract: Optical fiber connectors configured to allow ease of change of the connector polarity by providing lockable outer housing. In an embodiment, an optical fiber connector comprises an inner housing, at least one key configured to move along the inner housing so as to change a polarity of said optical fiber connector, and an outer housing disposed around at least a portion of the inner housing and configured to slide in a longitudinal direction so as to expose at least a portion of said at least one key, wherein the outer housing includes a flexible portion configured to lock to the inner housing so as to retain the outer housing in a pulled back position relative to the inner housing. A removable alignment key is reattached to the connector to correspond to a first or second polarity.

Abstract: A fastening member is configured to be removably attached to an optical fiber connector including a supporting member supporting an optical fiber and a flange part expanding outward in a radial direction. The fastening member includes a base portion and an engaging portion. The base portion defines a slit having a width smaller than a diameter of the flange part of the optical fiber connector and greater than a diameter of the supporting member of the optical fiber connector. The engaging portion extends from the base portion perpendicularly to the base portion. The engaging portion includes a spring portion at a tip portion of the engaging portion.

Abstract: Embodiments of a furcated optical fiber cable are provided. A main distribution cable has optical fibers surrounded by a cable jacket. The optical fibers are divided into at least two furcation legs. A furcation plug is located at a transition point between the main distribution cable and the at least two furcation legs. The furcation plug surrounds at least a portion of the main distribution cable and each of the at least two furcation legs. Optical connectors are provided for each of the at least two furcation legs, and each connector includes optical fibers that are spliced at a splice location to the optical fibers of the connector's respective furcation leg. The splice location is closer to the connector than to the furcation plug. A method of furcating an optical fiber cable and a pulling configuration for the furcated optical fiber cable are also provided.

Abstract: An optical connector holding two or more LC-type optical ferrules is provided. The optical connector includes an outer body, an inner front body accommodating the two or more LC-type optical ferrules, ferrule springs for urging the optical ferrules towards a mating connection, and a back body for supporting the ferrule springs. A removable inner front body for polarity change is disclosed. A multi-purpose rotatable boot assembly for polarity change is disclosed. The multi-purpose boot assembly can be pushed and pulled to insert and remove the micro connector from an adapter receptacle.

Abstract: Systems and methods are provided for duplex-modulo connector comprising a carrier plate receiving a duplex ferrule. The carrier plate can include an entry slot that receives the duplex ferrule. The entry slot further includes neck spring leaves, and base spring leaves that support stabilizing the duplex ferrule and absorbing movement to support spring floating of the duplex ferrule. The duplex ferrule can include a receptacle connector housing, or a plug connector housing for aligning the duplex ferrule for blindmating with a complimentary duplex ferrule, wherein the carrier plate is coupled to the housing.

Abstract: An assembly tool for terminating an optical fiber with an optical fiber connector comprises a base having a connector cradle to hold said connector, a buffer clamp activation shuttle slideably disposed on the base to push a sleeve over a buffer clamp of the connector, and an activation mechanism pivotally mounted to the base. The activation mechanism includes an actuation lever to press a securing cap over a mechanical element in the connector, and a drive shaft coupled to the actuation lever. Moving the actuation lever from a first position to a second position activates the buffer clamp activation shuttle and presses the securing cap over the mechanical element.

Abstract: A connector assembly for a hybrid cable includes: a housing, comprising a base; at least one discrete connector mounted in the base or at least one connector that is at least partially integrated in the base, configured to receive at least one fiber from the hybrid cable; and at least one electrical interface, configured to receive at least one wire from the hybrid cable.

Abstract: A communications panel includes a chassis configured to receive at least one spool arrangement. Each spool arrangement includes a spool and at least one optical termination port that rotates in unison with the spool. PLM can be provided at the communications panel so that PLI stored electronically on optical connectors received at the optical termination ports can be provided to a data management network via the panel.

Abstract: A push-pull connection includes a push-pull boot connector and an adapter, which are connected together and retained with a latching mechanism. The push-pull boot connector includes a connector housing and a remote release push-pull strain relief boot. The connector housing, when pulled away from the mating face of the adapter, via the strain relief boot, will detach the latching mechanism.

Abstract: A connector with a lock mechanism includes a connector 10 and a counterpart connector 20. A connector main body 11 of the connector 10 has an annular groove 113. An inner sleeve 17 and an outer sleeve are arranged movably in an axial direction on an outer circumferential surface of the connector main body 11 and outside the inner sleeve 17, respectively. The outer sleeve 13 has a locking pin 15 projecting from an inner circumferential surface close to a front end of the outer sleeve 13. A ball accommodation hole 22, an inlet groove 26, and a circumferential direction groove 28 are formed in a tubular member 21 of the counterpart connector 20. When the connector main body 11 is inserted into the tubular member 21, an engaging ball 23 accommodated in the ball accommodation hole 22 becomes engaged with the annular groove 113 and the locking pin 15 becomes engaged with the inlet groove 26, allowing the connectors to be connected with each other.

Abstract: This invention discloses a type of optical fiber connector, comprising: an adapter body with a first locking component; an extending raised edge which surrounds the said adapter body, that raised edge possessing a first connecting surface; and a locking ring, that locking ring being constructed such that it may be installed around the adapter body, said locking ring possessing a second connecting surface and a second locking component; said first locking component and said second locking component being such that they connect together when said locking ring is rotated by an angle of 90 degrees or less than 90 degrees relative to the adapter main body, thus allowing positioning of the first connecting surface at a pre-set distance from second connecting surface.

Abstract: Connector (C) comprises: an anchoring element (30) involving a latch (20); a semi-tubular clamp (40), having a front end portion (41), inserted and locked in the anchoring element (30), and by a back end portion (42) internally provided with inner teeth (43), between which a cable cover (CC) extension of a single fiber optical cable (1) is inserted and locked, by interference; a tubular housing (50) involving the anchoring element (30) and clamp (40). The clamp's (40) inner teeth (43) are radially protruding inwards, from the internal surface of the clamp's (40) back end portion, to end, each of them, in a cutting edge (43a) contained in plane orthogonal to the clamp's (40) geometric axis and anterior to the cross section of the respective inner tooth (43).

Abstract: An epoxy-free, high-durability and low-cost plastic optical fiber splice design and fabrication process which meets commercial airplane environmental requirements. The splice design: (1) does not require the use of epoxy to join the end faces of two plastic optical fibers together; (2) incorporates double-crimp rings to provide highly durable pull force for the plastic optical fibers that are joined together; (3) resolves any vibration problem at the plastic optical fiber end faces using a miniature stop inside a splice alignment sleeve; and (4) incorporates a splice alignment sleeve that can be mass produced using precision molding or three-dimensional printing processes.

Abstract: A fiber optic ferrule and a fiber optic connector housing make contact only along two sides of the fiber optic ferrule when in an unmated condition. One of the fiber optic ferrule and the fiber optic connector housing have been modified such that only two of the surfaces engage one another. The shoulders can be shortened, lengthened, or have a projection added to the current surfaces.

Abstract: Improved, efficient devices/methods for medical and cosmetic applications, involving the delivery of laser energy to tissue are provided. In a preferred embodiment a portable, easy-to-use laser system comprises at least one laser source operating at one or more laser wavelengths; an electronic visual display having a n-dimensional input interface to set/select laser parameters; and at least one waveguide optically coupled to the laser source to convey laser radiation to a treatment site. The n-dimensional input interface inputs/selects lasing parameters which allows the selection of a combination of output wavelengths and powers by simply touching the electronic visual display. Method of use comprises the steps of placing at least one waveguide at preselected treatment site; selecting a combination of laser wavelengths and power by interacting with an electronic visual display; and irradiating the treatment site.

Abstract: At least one group of loose optical fibers is restrained at multiple locations during fabrication of a fiber optic cable assembly using rear and front ferrule boots, thereby avoiding a need for traditional ribbonizing techniques. The group(s) of loose optical fibers are inserted through one or more apertures defined in each of the rear ferrule boot and the front ferrule boot, and inserted through at least one group of bores defined in a ferrule. A rear portion of the ferrule receives at least a portion of the front ferrule boot. A manufacturing fixture including a removable jig may retain a rear ferrule boot and a medial section of the group(s) of loose optical fibers, while the front ferrule boot and a terminal section of the group(s) of loose optical fibers are positioned outside the fixture for further processing. A fiber optic cable assembly including front and rear ferrule boots, as well as methods of fabrication, are further provided.

Abstract: An electrical plug connector terminates a twisted pair electrical cable. The electrical plug connector includes a base and a plug housing holding electrical contacts therebetween. The base includes a divider structure including separation walls. At least one of the separation walls defines an abutment surface against which a forward end of the electrical cable abuts when terminated by the electrical plug connector. The plug housing defines slots so that the electrical contacts are accessible. The electrical plug connector axially secures an outer jacket of the electrical cable against rearward movement relative to base. The at least one separation wall inhibits forward axial movement of the outer jacket of the electrical cable relative to the base.

Abstract: A fiber optic connection system includes a fiber optic connector and an adapter assembly. The fiber optic connector is coupled to the adapter assembly with a fast coupling mechanism. The fast coupling mechanism allows the fiber optic connector to be mounted into the adapter assembly with rotation of the fiber optic connector relative to the adapter assembly less than a full turn.

Abstract: Optical fiber connectors configured to allow ease of change of the connector polarity by providing lockable outer housing. In an embodiment, an optical fiber connector comprises an inner housing, at least one key configured to move along the inner housing so as to change a polarity of said optical fiber connector, and an outer housing disposed around at least a portion of the inner housing and configured to slide in a longitudinal direction so as to expose at least a portion of said at least one key, wherein the outer housing includes a flexible portion configured to lock to the inner housing so as to retain the outer housing in a pulled back position relative to the inner housing.

Abstract: A light source device is provided. The light source device includes: a ferrule which holds an optical fiber; a light-emitting element which emits laser light; and a casing which houses the ferrule and the light-emitting element such that the laser light enters the optical fiber. The casing includes a through hole from a first end face to a second end face. The through hole includes a diameter which decreases in a stepwise manner from the first end face toward the second end face. The ferrule is fitted to a small bore portion of the through hole, which is smallest in diameter. The light-emitting element is fitted to a large bore portion of the through hole, which is larger in diameter than the small bore portion.

Abstract: A connector assembly for a hybrid cable includes: a housing, comprising a base; at least one discrete connector mounted in the base or at least one connector that is at least partially integrated in the base, configured to receive at least one fiber from the hybrid cable; and at least one electrical interface, configured to receive at least one wire from the hybrid cable.

Abstract: Embodiments of the present invention are directed to security systems and methods for securing an item of merchandise from theft or unauthorized removal. For example, the security system may include a sensor configured to be coupled to the item of merchandise and a charging circuit for providing power to the sensor and/or the item of merchandise. The security system may also include a cable connected to the sensor and at least one optical transceiver for defining a sense loop between the cable and the sensor.

Abstract: A steerable laser probe may include a handle having a handle, a housing sleeve, a first portion of the housing sleeve having a first stiffness, a second portion of the housing sleeve having a second stiffness, an actuation control of the handle, an optic fiber disposed in an inner bore of the handle and the housing sleeve, and a shape memory wire having a pre-formed curve. An actuation of the actuation control may be configured to gradually curve the housing sleeve and the optic fiber. An actuation of the actuation control may be configured to gradually straighten the housing sleeve and the optic fiber.

Abstract: A multi-fiber cable assembly includes an optical connector and a cable. The optical connector includes a connector body; an optical ferrule body, and alignment elements. The optical ferrule body has an end face defining a plurality of alignment openings arranged in rows and has a plurality of buckling chambers. Each buckling chamber is aligned with one of the rows of the alignment openings. The optical fibers of the cable have bare portions secured at a first end of the optical ferrule body using rigid epoxy. Each of the optical fibers is routed through one of the buckling chambers to one of the alignment holes.

Abstract: A fiber optic cassette includes a body defining a front and an opposite rear. A cable entry location, such as a multi-fiber connector, is defined on the body for a cable to enter the cassette, wherein a plurality of optical fibers from the cable extend into the cassette and form terminations at one or more single or multi-fiber connectors adjacent the front of the body. A flexible substrate is positioned between the cable entry location and the connectors adjacent the front of the body, the flexible substrate rigidly supporting the plurality of optical fibers. Each of the connectors adjacent the front of the body includes a ferrule. Dark fibers can be provided if not all fiber locations are used in the multi-fiber connectors. Multiple flexible substrates can be used with one or more multi-fiber connectors.

Abstract: A fiber optic connection system (10/182/252) includes a first connection component (12/166/184/194/202/230/254) terminating a first fiber optic cable (14), the first connection component (12/166/184/194/202/230/254) including a housing (24/170/214/244/260) defining a longitudinal axis, at least one fiber (20) of the first fiber optic cable (14) fixed axially to the housing (24/170/214/244/260). A first shutter (36/206/238) is slidably movable in a direction generally perpendicular to the longitudinal axis of the housing (24/170/214/244/260), the first shutter (36/206/238) biased to a closed position to prevent exposure to the at least one fiber (20) of the first fiber optic cable (14).

Abstract: An LC adapter provided with a built-in light shielding plate includes a frame. One end of the frame is provided with interfaces for matching with connection members. An upper light shielding plate and a lower light shielding plate in a spliced connection with each other are disposed at a position within the frame close to the interfaces. Both the upper light shielding plate and the lower light shielding plate are hingedly connected to the frame through a return spring. When a connection member is inserted into an interface, the upper light shielding plate and the lower light shielding plate rotate relative to the frame and are separated from each other. When the connection member is unplugged from the interface, the upper light shielding plate and the lower light shielding plate are restored to the state of the spliced connection with each other.

Abstract: Described is a fitting for coupling fluidic paths which facilitates secure and low leak rate fluid flow through a fluidic path junction such as a junction in a liquid chromatography system or other chemical analysis instrument. Fluid containing various mixtures of chemical samples can pass through the junction at high pressure with little or no trapped residue remaining in a volume at the connection. According to various embodiments, a face seal is achieved between two separate fluidic path features. In some embodiments, the sealing of the fluidic paths is aided by the use of a compliant polymer seal. The seal facilitates intimate contact between adjacent surfaces and significantly limits or prevents the entry of fluid under high pressure into an unswept volume. Thus the risk of carryover and its adverse effect on measurements is reduced or eliminated.

Abstract: A ferrule holds end portions of optical fibers and includes: a plurality of optical fiber holes arranged in a predetermined direction, wherein the optical fibers are inserted into the plurality of optical fiber holes; and an adhesive-filling section that is filled with an adhesive and internally includes an opening surface of the plurality of optical fiber holes and an opposed surface opposed to the opening surface. The adhesive-filling section includes an upper side opening and a lower side opening, the upper side opening opens on a top surface that is a surface on a side from which the adhesive is filled, and the lower side opening opens on a lower surface that is a surface on a side opposite to the top surface.

Abstract: The present invention discloses a type of optical fiber connector, comprising: an external shell; an internal shell, installed within said external shell; an inserted core component, contained within said internal shell and comprising an inserted core and a length of optical fiber pre-installed within said inserted core; and a spring, contained within said internal shell and located behind said inserted core, and being for exerting a pre-set axial force on said inserted core. Said internal shell includes a front part and a rear part; said rear part is assembled on said front part. Additionally, said spring is compressed between said rear part and said inserted core. In the present invention, the rear part can act as a retainer for the compressed spring and can also be for securing the Kevlar fiber extension tube of the optical cable.

Abstract: A fiber optic adapter is disclosed. The fiber optic adapter includes a main body configured to receive a first fiber optic connector through a first end and a second fiber optic connector through a second end for mating with the first fiber optic connector. The adapter includes a ferrule alignment structure located within an axial cavity of the main body, the ferrule alignment structure including a sleeve mount and a ferrule sleeve, the sleeve mount including an axial bore and at least one latching hook extending from a center portion of the sleeve mount toward the first end of the main body and at least one latching hook extending from the center portion toward the second end of the main body, the latching hooks configured to flex for releasably latching the first and second fiber optic connectors to the fiber optic adapter.

Abstract: A fiber optic connector assembly includes a connector and a carrier. The connector, defining a longitudinal bore extending through the connector and having a first end region and a second end region, includes a ferrule assembly, having an optical fiber extending through the connector, at least partially disposed in the longitudinal bore at the first end region, a tube, defining a passage and having a first end portion disposed in the longitudinal bore at the second end region and a second end region, and a spring disposed in the bore between the ferrule assembly and the tube. The carrier includes a cable end and a connector end engaged with the connector, a termination region disposed between the connector end and the cable end, a fiber support region disposed between the connector end and the termination region, and a take-up region disposed between the connector end and the fiber support region.

Abstract: A low debris dust cap has a plurality of portions corresponding the fiber optic connector on which it is installed. Two latches extending from side walls are disposed between the inner and outer housings. The low debris dust cap can be placed and removed from the connector without movement of either the inner or outer housings.

Abstract: Embodiments of the present disclosure provide techniques for a fiber optic connector assembly configured for polarity reversal in accordance with some embodiments. An assembly may include a housing to receive a fiber optic cable, at least one back post connected with the housing, a ferrule including at least an optical fiber of the fiber optic cable, insertable into the back post, and a connector component comprising a front housing. The front housing may hold at least a portion of the ferrule and detachably couple with the back post. The back post may include a retaining element to provide rotatable coupling of the front housing relative to the ferrule, the back post and the housing. Other embodiments may be described and/or claimed.

Abstract: A fiber optic adaptor includes two spaced apart engagement members protruding from a housing for connecting a ferrule member, and an auxiliary member disposed around the engagement members. The auxiliary member has a fixing portion and a moving portion. The moving portion is connected and movable relative to the fixing portion between pushing and non-pushing positions. When the moving portion is in the non-pushing position, the ferrule member is prevented from being detached from the engagement members. When the moving portion is in the pushing portion, the ferrule is allowed to be detached from the engagement members.