Abstract: An optical fiber connector device includes an optical fiber connector and an insert unit. The insert unit hash a housing and a connecting mechanism. The housing surrounds an axis, and has an outer wall, a surrounding wall, and a cover member. The outer wall defines a first insert opening on the axis, and has a main opening spaced apart from the axis. The outer wall and the surrounding wall are molded as one piece. The cover member covers removably the main opening. The connecting mechanism has a first connecting member surrounded by the outer wall and connected to the optical fiber connector, and a second connecting member surrounded by the surrounding wall, coupled to the first connecting member, and adapted to be connected to another optical fiber connector.

Abstract: A laser delivery device may include a connector portion at a proximal end of the laser delivery device and an optical fiber connecting the connector portion to a distal end of the laser delivery device. The connector portion may include a capillary at least partially surrounding a proximal portion of the optical fiber, and the capillary may include dimples on at least a portion of a circumferential surface thereof.

Abstract: An optical receptacle includes an optical component assembly, a tubular sleeve, and a tubular shell. The optical component assembly includes a light guide member, a tubular member, which retains the light guide member in the through hole, and projections, which extends outward of an outer peripheral surface of the tubular member at one end. The sleeve is fitted to the outer periphery of the light guide member at a rear end portion. The inside diameter of a front portion of the sleeve differs from that of the rear end portion. The shell covers the outer peripheral surface of the sleeve and includes a groove in a rear end portion. The groove extends in an axial direction and turns and extends in a circumferential direction. The groove is engaged with the projections of the tubular member to secure the shell. The shell and the sleeve are attachable and detachable.

Abstract: An optical adaptor for mounting to a receptacle to optically couple connectorized optical cables comprises an optical interface to optically couple a first connectorized optical cable terminated by a first optical connector and a second connectorized optical cable terminated by a second optical connector. The optical adaptor further comprises a mounting element being configured to insert the optical interface and being mountable to the receptacle. The mounting element is secured to the receptacle, when the first optical connector is mounted to the mounting element in a first state, and the mounting element is released from the receptacle, when the first optical connector is mounted to the mounting element in a second state allowing to pull the optical adaptor out of the receptacle.

Abstract: A method of tuning a fiber optic connector includes: assembling the fiber optic connector to a partially assembled state; tuning the fiber optic connector in the partially assembled state; assembling the fiber optic connector to an assembled state; and tuning the fiber optic connector in the assembled state.

Abstract: A cable sealing device including an attaching part securable to the cable; a fixation part adapted to be mountable on the attaching part; and a sealing part. The attaching part includes outer locking faces. The fixation part has inner abutment faces adapted to co-operate with the outer locking faces to axially and rotationally lock the fixation part relative to the attaching part. The sealing part includes an inner seal and an outer seal. The sealing part also includes a second securing arrangement that is configured to engage a first securing arrangement of the fixation part to axially and rotationally lock the sealing part to the fixation part.

Abstract: A fiber optic alignment device includes a first and a second alignment block and a first and a second gel block. A fiber passage extends from a first end to a second end of the fiber optic alignment device. The fiber passage is adapted to receive a first optical fiber through the first end and a second optical fiber through the second end. An intermediate portion of the fiber passage is positioned between the first and the second ends. The intermediate portion is adapted to align the first and the second optical fibers between the first and the second alignment blocks. A first portion of the fiber passage is positioned between the first end and the intermediate portion of the fiber passage. The first portion extends between the first alignment block and the first gel block. A second portion of the fiber passage is positioned between the second end and the intermediate portion of the fiber passage. The second portion extends between the second alignment block and the second gel block.

Abstract: In a connector, a guide member to which an optical connector is fixed is provided with a first guide portion. The optical connector is provided with a second guide portion at a tip portion, in a mating direction, of a holding member thereof. The optical connector has a ferrule with a tip, and the tip is located between the first guide portion and the second guide portion in the mating direction. When the connector is connected to a structural body and before the optical connector reaches an accommodating portion, the first guide portion performs rough positioning of the optical connector with respect to the accommodating portion in a plane perpendicular to the mating direction. When the connector is connected to the structural body, the second guide portion guides the optical connector into the accommodating portion.

Abstract: A fiber optic ferrule comprising a ferrule body having a plurality of optical fiber insertion holes at a first end thereof, the plurality of optical fiber insertion holes being configured to receive a plurality of optical fibers, and an extended access opening arranged at a top surface of a second end of the ferrule body located opposite the first end, the extended access opening being configured to provide open access to substantially an entirety of an interior space within the ferrule body.

Abstract: A multi-fiber, fiber optic connector has a housing having a first end for receiving a multi-fiber fiber optic cable and a second end having openings for said fibers from said cable. First and second key slots are provided for accepting a removable key for setting the polarity of the fibers within the connector, with the first and second key slots located on opposing sides of the connector. The connector has guide pins or guide pin receiving holes for guiding the connection with a second connector. The removable key is movable between the first and second key slots, the key slot with the removable key corresponding to a first active slot and the key slot without the removable key corresponding to a non-active slot. When the removable key is in the first key slot, it results in the first key slot being active with the fibers being presented within the connector in a first polarity.

Abstract: A ferrule assembly including: a ferrule formed with a fiber bore for receiving an optical fiber therein; and a rear seat connected to a rear end of the ferrule, wherein the rear seat is formed with a hollow chamber passing through the rear seat in a longitudinal direction and communicated with the fiber bore of the ferrule, and wherein an additional injection hole for injecting an adhesive into the ferrule assembly is formed in an external profile surface of the ferrule assembly, and directly communicated with the fiber bore of the ferrule or the hollow chamber of the rear seat. The ferrule assembly is configured to be adapted to insert a fiber before filling an adhesive and protect the fiber that has been inserted into the ferrule assembly during inserting the fiber or filling the adhesive into the ferrule assembly.

Abstract: Disclosed herein is a fiber pump combiner, comprising, a multi-clad fiber comprising an outer cladding layer and an inner cladding layer, a plurality of tapered trenches formed in the inner cladding layer and a plurality of pump fibers, wherein the plurality of pump fibers are tapered and fused into corresponding ones of the plurality of tapered trenches.

Abstract: A method and system connects multiple cores within one fiber, e.g., a multi-core fiber (MCF), to multiple fibers with single-cores. The single-core fibers can then be terminated by traditional envelopes, such as a single core LC envelope. A connector holds the single-core fibers into a pattern that matches a pattern of all, or a sub group, of the individual cores of the MCF. The single-core fibers may all be terminated to individual connectors to form a fanout or breakout cable. Alternatively, the single-core fibers may extend to another connector wherein the single-core fibers are regrouped into a pattern to mate with the cores of another MCF, hence forming a jumper. One or more of the single core fibers may be terminated along the length of the jumper to form a jumper with one or more tap accesses.

Abstract: The present disclosure provides a buffer kit or assembly for an AR-15, M16, M4 carbine, SR-25, AR-10 and LR-308 type firearm with enhanced fatigue resistance. The buffer assembly includes a weighted buffer, a spring, and a buffer tube. The spring is helically shaped and is formed from multiple wire strands. The stranded wire spring has a greater nominal wire diameter, in comparison to prior art single wire springs, and thus the stranded wire spring itself has a smaller internal diameter. The shoulder of the weighted buffer is provided with a reduced diameter to accommodate the smaller internal diameter of the stranded wire spring.

Abstract: A process for polishing the end face of a plastic optical fiber (POF) to produce a mirror smooth surface without any defect. Smooth POF end faces reduce the optical coupling loss when two plastic optical fibers are connected. The polishing process can be used to produce POF end faces which are recessed relative to the adjacent end face of a ferrule surrounding the fiber. When the ends of two ferrules are inserted in a connector designed to align the end faces of the ferrules while allowing those end faces to abut each other, the confronting recessed POF end faces will be separated by an air gap.

Abstract: An optical connector includes a sleeve that positions a front end portion of a first ferrule and a front end portion of a second ferrule so as to face each other on the same axis, a first connection retaining member and a second connection retaining member that maintain a state in which the front end portions of the first and second ferrules contact each other and press against each other, and a coil spring that generates a force with which the front end portions of the first and second ferrules press against each other. Optical fiber cables can be connected to each other by containing the first ferrule and the second ferrule, which are attached to the sleeve, respectively in the first connection retaining member and the second connection retaining member and by coupling the first connection retaining member and the second connection retaining member to each other.

Abstract: A multi-fiber, fiber optic connector is interchangeable between a male connector and a female connector by including a pin retainer having a releasable retention device configured to lock the pins in place within the retainer. The retention device may be opened, for example, with a release tool, to free the retention pins for removal of the pins. A method for switching a connector between a male connector configuration and a female connector configuration may be possible as a result of the releasable retention configuration.

Abstract: A female hardened fiber optic connector for terminating an end of a fiber optic cable that is suitable for making an optical connection with another hardened cable assembly and cable assemblies using the same are disclosed. The female hardened fiber optic connector includes a connector assembly, a crimp body, a connector sleeve, and female coupling housing. The connector sleeve has one or more orientation features that cooperate with one or more orientation features inside the female coupling housing. The crimp body has a first shell and a second shell for securing the connector assembly at a front end of the shells and a cable attachment region rearward of the front end for securing a cable.

Abstract: A connector includes a first connector constituent including a first terminal and a locking portion; a second connector constituent including a second terminal and a locked portion, and configured so that the second terminal is joined to the first terminal when the second connector constituent is installed in the first connector constituent; and a third connector constituent including a locked-portion holding portion configured to keep the locked portion locked to the locking portion when the third connector constituent is installed over the second connector constituent installed in the first connector constituent.

Abstract: A connector panel for plug-in units in a telecommunication system, the telecommunication system including a sub-rack or shelf having a backplane for power supply of a number of N plug-in units within the shelf and for enabling the N plug-in units within the shelf to communicate with each other; wherein the connector panel is an entity separate from the backplane and includes a number of m connectors providing an interface between n dedicated plug-in units among the N plug-in units within the shelf, with 2?n<N and m?n; and wherein the connector panel is configured to be removably attached at an interior wall of the shelf.

Abstract: An optical fiber connector includes a main body (1), a sleeve (2), and a plug (3). The main body (1) includes a first cube and a second cube that are formed by means of injection molding, where a first cavity (1o) is disposed inside the first cube, and the first cavity (1o) is used to adapt to an optical fiber sub-assembly inserted from a first end face of the first cube; at least two hook-like structures (1n) are formed, by means of injection molding, on the first cube extending from a second end face that is parallel to the first end face into the first cavity (1o), and the hook-like structures (1n) are used to tightly lock the optical fiber sub-assembly when the optical fiber sub-assembly is inserted from the first end face.

Abstract: A method for assembling a fiber optic connector utilizes a manufacturing fixture with multiple fingers that are removably affixed to an outer surface of a ferrule holder having at least one keying feature. A core position of an optical fiber relative to a ferrule retained by the ferrule holder is determined, followed by relative rotation between the ferrule holder and the manufacturing fixture to place the core position in a preferred angular orientation, and a housing is affixed over the ferrule holder the maintain the angular orientation of the core position, followed by removal of the manufacturing fixture. A ferrule holder includes at least one keying feature and at least one channel extending in a circumferential direction along an outer surface of a body structure, with a plurality of recesses extending in an axial direction along the outer surface.

Abstract: Ferrule-based fiber optic connectors having a ferrule-retraction balancing characteristic are disclosed. An example fiber optic connector includes a connector assembly and a connector sleeve assembly. The connector assembly includes a ferrule, a resilient member, and a connector body having a latch point and a ferrule stop. The connector sleeve assembly includes a ferrule sleeve and a sleeve housing having a latch, a first stop, and a second stop. The connector assembly is disposed in the passageway of the sleeve housing, and the ferrule of the connector assembly is disposed in the ferrule sleeve in a direction extending from the first stop. When the fiber optic connector is in an unmated state, a gap GL1 is present between the at least one latch and the at least one latch point, and a gap GS1 is present between the first stop and a first end of the ferrule sleeve.

Abstract: An optical adaptor for mounting to a receptacle to optically couple connectorized optical cables comprises a coupling element to provide a passageway for inserting a ferrule of a first optical connector to terminate a first one of the connectorized optical cables and a ferrule of a second optical connector to terminate a second one of the connectorized optical cables to optically couple the first and the second connectorized optical cable. The optical adaptor further comprises a mounting element being mountable to the receptacle to hold the optical adaptor. The mounting element is configured to receive the coupling element.

Abstract: The present invention discloses a fiber optic connector comprises: a ferrule assembly; a spring seat provided behind the ferrule assembly; and a spring provided between the ferrule assembly and the spring seat. The spring seat has a receiving chamber having an insertion port through which a portion of the ferrule assembly is inserted into the receiving chamber; wherein the ferrule assembly is pre-assembled into the receiving chamber of the spring seat in a way that the ferrule assembly is held to be movably engaged with the spring seat. The spring is fitted and compressed in the receiving chamber. As a result, the ferrule assembly, the spring seat and the spring are pre-assembled into an integral assembly before being inserting into a connector housing. All components of the connector except for the housing may be smoothly pulled through a small long pipe as a whole.

Abstract: An optical receptacle and an optical module that implements the optical receptacle are disclosed. The optical receptacle provides a stub holding a coupling fiber in a center thereof, a bush press-fitting the stub therein, a sleeve, and a metal cover that is to be welded to an external metallic member. The coupling fiber has a type of polarization maintaining fiber. The bush is inserted into the cover as leaving a gap between the cover and the bush. The gap between the cover and the bush effectively relaxes or absorbs stresses induced during the welding caused in the coupling fiber.

Abstract: A waterproof bushing connector assembly has a waterproof bushing receptacle connector having a receptacle housing assembly, a receptacle bushing module and an optical receptacle connector, and a waterproof bushing plug connector engaged detachably with the waterproof bushing receptacle connector and having a plug housing assembly, a plug bushing module, an optical plug connector and a rear mounting lid. The bushing designs allow different optical receptacle connectors to be replaced on an electrical device easily and conveniently.

Abstract: An interferometric measurement method precisely determines parallelism and 3D position of guide pin holes and fiber holes in multi-fiber ferrules used in connectors. The parallelism and position are measured for the ferrule with inserted reference guide pins and reference fibers by scanning the ferrule from side in an interferometric system. Fiber hole deviations from designated locations on the ferrule end face and distance between the fiber holes and the guide pin holes are calculated as well.

Abstract: The present disclosure provides a buffer kit or assembly for an AR-15, M16, M4 carbine, SR-25, AR-10 and LR-308 type firearm with enhanced fatigue resistance. The buffer assembly includes a weighted buffer, a spring, and a buffer tube. The spring is helically shaped and is formed from multiple wire strands. The stranded wire spring has a greater nominal wire diameter, in comparison to prior art single wire springs, and thus the stranded wire spring itself has a smaller internal diameter. The shoulder of the weighted buffer is provided with a reduced diameter to accommodate the smaller internal diameter of the stranded wire spring.

Abstract: Reduced-profile connection components are described. The reduced-profile connection components are configured to connect various data transmission elements, including cables, network devices, and computing devices. A non-limiting example of a connection component includes a fiber optic connection component, including connectors, adapters, and assemblies formed therefrom. In some embodiments, the connection components may include mechanical transfer (MT) and multi-fiber push-on/pull-off (MPO) connection components, such as MT ferrules and MPO adapters. The reduced-profile connection components configured according to some embodiments have a smaller profile and/or require less parts to achieve a connection compared to conventional connection components. In some embodiments, the reduced-profile connection components may be used with conventional connection components. For example a reduced-profile connector may use a conventional MT ferrule to establish a connection within a conventional MPO adapter.

Abstract: A method of removing a tight buffer coating from an optical fiber involves positioning an end section of the optical fiber next to an end of a tube, with at least a portion of the the end section including a primary coating and the tight buffer coating. The tube has an inner diameter greater than an outer diameter of the primary coating and an outer diameter less than an outer diameter of the tight buffer coating. The method also involves applying energy to heat the tight buffer coating, inserting the end section of the optical fiber into the tube so that the tight buffer coating contacts the end of the tube, and advancing the end section of the optical fiber along the tube. The tube removes the tight buffer coating from the primary coating as the end section of the optical fiber is advanced.

Abstract: A method of terminating an optical fiber involves providing a ferrule having a front end, a rear end, a ferrule bore extending between the front and rear ends, and a bonding agent disposed in at least a portion of the ferrule bore. The method also involves applying energy to heat the bonding agent. An end section of an optical fiber is inserted into the ferrule bore and through the bonding agent when the bonding agent is heated. The end section of the optical fiber includes a primary coating prior to insertion into the ferrule bore. During insertion of the end section of the optical fiber through the bonding agent, the heated bonding agent thermally removes at least a portion of the primary coating during so that the optical fiber can be secured in the ferrule bore with the bonding agent.

Abstract: An optical fiber plug adapted to be connected to an optical fiber socket and a first optical fiber cable includes a plug sleeve unit, a plug unit, a plug guiding unit, and a coupling unit. The coupling unit includes a coupling seat, a coupling ring, and a coupling cover movable between a locked position and a released position. When the coupling cover is at the locked position, the optical fiber plug is locked to the optical fiber socket by the coupling ring. When the coupling cover is moved from the locked position to the released position, the coupling ring is urged resiliently by the coupling cover to release the optical fiber plug, thereby permitting separation of the optical fiber plug from the optical fiber socket.

Abstract: Reduced-profile connection components are described. The reduced-profile connection components are configured to connect various data transmission elements, including cables, network devices, and computing devices. A non-limiting example of a connection component includes a fiber optic connection component, including connectors, adapters, and assemblies formed therefrom. In some embodiments, the connection components may include mechanical transfer (MT) and multi-fiber push-on/pull-off (MPO) connection components, such as MT ferrules and MPO adapters. The reduced-profile connection components configured according to some embodiments have a smaller profile and/or require less parts to achieve a connection compared to conventional connection components. In some embodiments, the reduced-profile connection components may be used with conventional connection components. For example a reduced-profile connector may use a conventional MT ferrule to establish a connection within a conventional MPO adapter.

Abstract: A ferrule with a fiber of this disclosure includes: a ferrule including a positioning hole, a plurality of fiber holes, and an endface perpendicular to an axial direction of the fiber holes; a lensed fiber with a GRIN lens that has been fusion spliced to a tip of an optical fiber; and a plate that can transmit light propagating through the optical fiber, the plate being attached to the endface of the ferrule, the plate being contacted against with an endface of the lensed fiber that has been inserted into each of the fiber holes, wherein the ferrule is formed with a recess that is depressed from the endface of the ferrule, a refractive index matching material is filled in a space surrounded with the plate and the recess.

Abstract: A surgical imaging system can include at least one light source, configured to generate a light beam; a beam guidance system, configured to guide the light beam from the light source; a beam scanner, configured to receive the light from the beam guidance system, and to generate a scanned light beam; a beam coupler, configured to redirect the scanned light beam; and a wide field of view (WFOV) lens, configured to guide the redirected scanned light beam into a target region of a procedure eye; wherein the beam coupler is movably positioned relative to the procedure eye such that the beam coupler is selectively movable to change at least one of an incidence angle of the redirected scanned light beam into the procedure eye and the target region of the procedure eye.

Abstract: Optical fiber connectors for MT/MPO type ferrule assemblies are disclosed, having an overall connector length less than about 32 mm, for example, an overall length of about 18.5 mm for non-reinforced optical fiber cables, and an overall length of about 23.5 mm for reinforced optical fiber cables. In one embodiment, a connector comprises a ferrule assembly, and a housing coupled to the ferrule assembly and configured to couple to an adapter corresponding to the ferrule assembly. The connector further includes a lock coupled to the housing and configured to rotate so as to lock and unlock the housing from said adapter. An interface member coupled to the housing may include a stop configured to limit rotation of the lock. The interface member may include a reinforcement portion for reinforcing optical fiber cables.

Abstract: The present invention is directed to an assembly for use in detecting an analyte in a sample based on thin-film spectral interference. The assembly comprises a waveguide, a monolithic substrate optically coupled to the waveguide, and a thin-film layer directly bonded to the sensing side of the monolithic substrate. The refractive index of the monolithic substrate is higher than the refractive index of the transparent material of the thin-film layer. A spectral interference between the light reflected into the waveguide from a first reflecting surface and a second reflecting surface varies as analyte molecules in a sample bind to the analyte binding molecules coated on the thin-film layer.

Abstract: Embodiments of the present disclosure provide arrangements for aggregating network traffic of compute nodes of various computing sleds of computing trays of a computing rack assembly in a data center. In one embodiment, a computing rack assembly may include a plurality of computing trays. A computing tray may removably include a number of sleds. Each sled may include a number of compute nodes. The computing tray may further include an optical network aggregation component to aggregate network traffic of the compute nodes of various sleds of a computing tray. Other embodiments may be described and/or claimed.

Abstract: The present disclosure relates to a fiber optic connector that includes a main outer housing, an inner housing that mounts within the main outer housing and a plug interface housing secured at the distal end of the inner housing. The fiber optic connector also includes a ferrule assembly mounted at least partially within the plug interface housing, a spring for biasing the ferrule assembly in a distal direction and a resilient cable seal that mounts within the main outer housing.

Abstract: An optical connector assembly (1) includes a plug (2) and a socket (3) which are interconnectable to each other in an axial direction (x). The plug (2) comprises a plug housing (5) in which a first ferrule (7) is arranged and the socket (3) comprises a socket housing (20), in which a second ferrule (23) is arranged.

Abstract: A repeater includes: a pressure-tight casing to be arranged on seabed or in sea; and a feedthrough having a plurality of lead sections each configured to connect a circuit housed in the pressure-tight casing with a cable outside the pressure-tight casing, wherein the plurality of lead sections include at least a power wire and an electric signal wire, and at least two of the plurality of lead sections have a difference in length from each other.

Abstract: An optical fiber connector includes a fiber fixing unit configured for holding the optical fiber, a ferrule configured for receiving an end of the optical fiber, and a housing receiving and connected to the fiber fixing unit and the ferrule. The housing includes side walls, the side walls cooperatively form an end surface adjacent to the fiber fixing unit, the side walls define two opposite releasing slots, the releasing slots penetrate through the side walls along a direction parallel to the end surface and are open at the end surface.

Abstract: An adapter includes an optical connector accommodation part having a first cavity in which a first optical connector having a first front end portion is to be accommodated, and a second cavity in which a second optical connector having a second front end portion is to be accommodated, and a spacer having a first surface configured to contact the first front end portion, a second surface configured to contact the second front end portion, and a light transmission part configured to enable a light beam to pass therethrough. The spacer being arranged between the first cavity and the second cavity. At a state where the first front end portion is contacted to the first surface and the second front end portion is contacted to the second surface, the first optical interface part and the second optical interface part face each other at a predetermined interval.

Abstract: Disclosed are a snap-fit structure and an optical fiber splicer using the snap-fit structure. The snap-fit structure comprises a cable retainer and a base, the base being provided with a snap-fit hole, the cable retainer being provided with an ear clip, during assembling, the clip being fitted into the snap-fit hole, wherein a second outer lateral surface is arranged in a rising direction of the ear clip, the second outer lateral surface in the rising direction of the ear clip and a wall surface of the cable retainer forming a wedge smaller at the top and larger at the bottom.

Abstract: The present disclosure relates to a fiber optic connector that includes a main outer housing, an inner housing that mounts within the main outer housing and a plug interface housing secured at the distal end of the inner housing. The fiber optic connector also includes a ferrule assembly mounted at least partially within the plug interface housing, a spring for biasing the ferrule assembly in a distal direction and a resilient cable seal that mounts within the main outer housing.

Abstract: An integral fan-out connector assembly for fiber optic cables includes a connector housing that provides an integrated fan-out housing and connection adapter. The fan-out connector housing may be configured with a variety of cable adapters, and may be installed as a ‘plug and play’ type solution where it will be ready to accept a feed cable for use when needed.

Abstract: Expanded beam fiber optic connectors for establishing an aligned connection between an end of an optical fiber and a ball lens. A housing includes a bore and is made of a compressible material for secure press fit of components within the bore, including the ball lens. A ferrule at the end of the optical fiber supports the optical fiber. In one embodiment, a section of optical fiber is coaxially centered within and supported by a single piece fiber stub with stepped outside diameters defining a press fit end and a secondary connection end, with a butt joint between the other end of the section of optical fiber and the end of the optical fiber being connected. In another embodiment, the ferrule is inserted within a longitudinally extending sleeve having an outside diameter sized for being press fit within the bore and an inside diameter sized for receiving the ferrule.

Abstract: An optical fiber cable splicing box is provided that can easily connect together optical fiber cables that include a metal wire and an optical fiber. Optical fiber cable splicing box 1 includes a pair of cable holders 3A, 3B aligned in a predetermined direction fixed to a body 2, a mechanical splice 4 that optically connects together ends of optical fibers 91A and 91B, a pair of contact portions 80A and 80B respectively provided on the pair of cable holders 3A and 3B, and a metal plate 5 having conductivity. The contact portions 80A and 80B include a first connecting portion 84c that is electrically connected to metal wires 92a and 92b of optical fiber cables 90A and 90B by penetrating into a jacket 94, and a base portion 83 that is electrically conducting with the first connecting portion 84c and electrically connected to a metal plate 5.

Abstract: A spectroscope comprises a package provided with a light entrance part, a plurality of lead pins penetrating through a support part opposing the light entrance part in the package, and a spectroscopic module supported on the support part within the package. The spectroscopic module has a light detection unit provided with a light transmission part for transmitting therethrough light incident thereon from the light entrance part and a spectroscopic unit, secured to the light detection unit so as to be arranged on the support part side of the light detection unit, including a spectroscopic part for spectrally resolving the light transmitted through the light transmission part while reflecting the light to a light detection part. The lead pins are fitted into fitting parts provided with the light detection unit and electrically connected to the light detection part.