Abstract: In order to facilitate positioning of a collimator lens and an optical fiber while preventing cost increase, provided is an optical collimator having a holder (11) which has a cylindrical shape and is made of metal; a collimator lens (12) which is housed in a housing part (11c) formed at an end of the holder (11); and an optical fiber (13) which is inserted via an insertion hole (11a) formed at an opposite end of the holder (11) and is fixed at a predetermined position. At least one of the collimator lens (12) and an end surface of the optical fiber (13) is made to abut to a recess (11e) formed in proximity of the housing part (11c) of the holder (11) thereby to perform positioning.

Abstract: A method for securing a fiber optic component includes: providing a holding medium having a tack and mounted on a substrate; and placing the fiber optic component in intimate contact with the holding medium to thereby secure the fiber optic component to the substrate. The tack of the holding medium releasably bonds the fiber optic component to the holding medium and the holding medium retains its tack upon removal of the fiber optic component to permit re-placement of the fiber optic component or placement of a further fiber optic component on the holding medium to secure said fiber optic component or further fiber optic component to the substrate.

Abstract: A fiber Bragg grating hydrophone includes a fluid chamber (1) and an optical fiber (2) in which a Bragg grating (3) is integrated, the optical fiber extending through the fluid chamber such that the Bragg grating is positioned inside the latter. The fluid chamber is filled with a compressible fluid and is defined by a rigid casing (4) including two end surfaces (28a, 28b) that are rigidly connected to the optical fiber. At least one of the two end surfaces of the rigid casing includes an opening (5a, 5b) closed by a deformable diaphragm (6a, 6b) that is rigidly connected to the optical fiber and that can be deformed in reaction to a difference in the pressures applied to the surfaces thereof, thereby modifying the length of the optical fiber as measured by a variation in the wavelength of a luminous flux extracted from the optical fiber.

Abstract: A photonic device and methods of formation that provide an area providing reduced optical coupling between a substrate and an inner core of the photonic device are described. The area is formed using holes in the inner core and an outer cladding. The holes may be filled with materials which provide a photonic crystal. Thus, the photonic device may function as a waveguide and as a photonic crystal.

Abstract: A method for arranging a high power fiber laser system includes spiraling an active fiber in a housing with a diameter of spiral gradually decreasing towards the center of the housing. The method further includes coupling the opposite free ends of the spiraled active fiber to respective passive fibers providing optical communication between the active fiber and discrete components. Thereafter, the passive fibers with the discrete components are arranged next to inner spirals of the active fiber.

Abstract: A waveguide suitable in form factor and weight for use in a heads-up display or similar wearable display and a method of manufacturing the waveguide are disclosed. The waveguide comprises a waveguide body of light-weight, optically transparent solid material, such as plastic, with a series of micro structures embedded in the waveguide body at a top surface of the waveguide body. A first set of the micro structures near one end of the waveguide body serves to couple light into the waveguide, whereby a portion of the coupled light propagates subject to total internal reflection toward a second set of micro structures that reflects a portion of the propagated light out of the waveguide at a bottom surface of the waveguide body. The waveguide can deliver an image provided by an input light source to a human eye (or other detector) situated near the bottom surface of the waveguide body.

Abstract: One or more arrays of heating elements are configured with insulating regions to prevent the dissipation of heat to unintended regions of a thermochromic substrate. Methods include printing and arranging impressions on a two-sided substrate avoiding bleeding and other problems more-commonly associated with traditional two-sided thermal printing techniques. A simple and reliable thermal printing system is provided for use in ballot marking, including several mechanisms for receiving and detecting the orientation of a substrate within a thermal printing apparatus.

Abstract: A fiber tray for managing and organizing fiber distribution is disclosed. The fiber tray includes a housing and a drawer received in the housing. The housing is secured to an equipment rack. The housing includes inner sides with a glide mechanism extending the length of each inner side. The glide mechanism includes a first end and a second end. The glide mechanism also includes at least one curved path located at one of the first end and the second end. The drawer includes a bottom, a first side, a second side, a front and a back. The first and second sides of the drawer have a pin. The pins extending from the sides of the drawer slide within the glide mechanism to enable the drawer to be retracted, extended or removed from the housing.

Abstract: Embodiments of the present disclosure disclose an optical cable and an optical cable system, where the optical cable includes an SZ-shaped optical cable skeleton and a plurality of optical fiber units. Skeleton slots is recessed in a periphery of the optical cable skeleton, and the plurality of optical fiber units is grouped and respectively disposed in the corresponding skeleton slots, thereby having the advantages of being easy to strip and draw, high reliability, and long lifetime. Moreover, the optical fiber does not need to be connected when being diverged on floors during installation, thereby reducing the fusion splicing/termination connection time, simplifying the optical cable wiring, greatly reducing deployment cost of an Optical Distribution Network (ODN), and speeding up the scale deployment of the FTTX ODN; in addition, interference among the optical fibers is avoided when the optical fibers are drawn, thereby increasing reliability of the optical fibers after installation.

Abstract: A method of terminating a fiber in a connector using a device comprising: (a) positioning a stripped fiber on the device such that the bare fiber portion extends into a first fiber channel of a cleaver; (b) securing the fiber to a fiber retainer slidably attached to the substrate to move along an x axis at a first position; (c) cleaving the bare fiber portion to form a cleaved end; (d) sliding the fiber retainer away from the cleaver along the x axis; (e) causing to be presented a second fiber channel of a connector held in a connector retainer along the x axis; (f) sliding the fiber retainer to the first position along the x axis, thereby causing the cleaved end to extend into the second fiber channel; and (g) actuating the connector while the fiber retainer is at the first position.

Abstract: An optical modulation apparatus including: a Mach-Zehnder optical modulator having two optical waveguides, two output optical waveguides and a join-and-branch portion; a phase adjustment circuit configured to output a phase control signal to phase adjustment electrodes provided respectively on the two optical waveguides; a drive circuit configured to output a modulation signal to modulation electrodes provided respectively on the two optical waveguides as a differential signal, the modulation signal modulating lights propagated in the two optical waveguides; and a signal polarity reversal circuit configured to reverse a polarity of the differential signal to be output from the drive circuit.

Abstract: A sensor in the form of an elongated flexible tape has a signal path made from electrical wire or optical fiber which extends between one end and another end of the tape. The electrical wires or optical fibers are disposed in spaced relation across the width and along the length of the tape and are terminated in connectors at the endpoints of the tape. The connectors may be integrated into a signal detector to interface with communication links. The tape is a material that is non-conductive and in which the wires or optical fibers may be woven, disposed or embedded in some manner. One or more layers of flexible material can be laminated on respective sides of the sensor tape to provide a robust laminated or bonded structure that can be rolled and unrolled from a reel. An adhesive layer and a removable layer can be provided to protect the adhesive layer prior to use. An overcoat of outer layer resin may be applied.

Abstract: An inkjet recording apparatus includes a platen configured to support a recording medium at a position facing a recording head, a suction portion arranged at the platen and configured to suck the recording medium, an ink receiving portion arranged at the platen and configured to receive ink discharged on a region beyond an end of the recording medium, a negative pressure producing portion configured to produce a negative pressure to be applied to the suction portion and the ink receiving portion, and a communication portion causing the suction portion to communicate with the ink receiving portion at the outside of a conveyance region of the recording medium.

Abstract: A method for predicting an optical fiber performance parameter includes measuring N values for the optical fiber performance parameter at N stages during manufacture or installation of a first optical fiber, where N is an integer. A first set of correlation values is generated representing shifts in the measured optical fiber performance parameter values at the N stages. An installed value of the optical fiber performance parameter is estimated for a second optical fiber based on the first set of generated correlation values and at least one measured optical fiber performance parameter value associated with the second optical fiber.

Abstract: According to various illustrative embodiments, an apparatus, method, and system for variable rate fuser release fluid application are described. In one aspect, the apparatus comprises a supply of release agent material. The apparatus also comprises a release agent metering roller supported for contact with the supply of the release agent material. The apparatus also comprises a variable speed drive arranged to effect movement of the release agent metering roller in an endless path at different surface velocities. The apparatus also comprises a donor roller supported in contact with the release agent metering roller and a fuser roller of a contact fuser, the donor roller arranged to convey release agent material from the release agent metering roller to the fuser roller at various rates depending on a surface velocity of the release agent metering roller, wherein the variable speed drive is operative independently of the fuser roller.

Abstract: The present inventive concept herein relates to multi-channel optical modules, and more particularly, to a multi-channel optical module capable of processing a plurality of signals having different optical wavelengths. The multi-channel optical module may include a stem including one or more cavities; at least one lead pin formed in one or more cavities; a plurality of optical devices formed in the one or more cavities; and a filter portion forming an optical path between the plurality of optical devices and an optical fiber by separating a plurality of optical signals according to a wavelength. According to the inventive concept, processing capacity of the optical module may be improved. Also, according to the inventive concept, electrical and optical cross talk of the optical module may be reduced.

Abstract: Provided is a liquid ejecting apparatus including: a first nozzle array in which a plurality of nozzles for ejecting a liquid is lined up in a predetermined direction; a second nozzle array in which a plurality of nozzles for ejecting a liquid is lined up in the predetermined direction; and a controller which determines whether or not correction is performed based on a ruled-line direction and the number of dots in a ruled-line width direction, when a ruled line is printed by forming dots by the first nozzle array and then forming dots by the second nozzle array.

Abstract: One or more arrays of heating elements are configured with insulating regions to prevent the dissipation of heat to unintended regions of a thermochromic substrate. Methods include printing and arranging impressions on a two-sided substrate avoiding bleeding and other problems more-commonly associated with traditional two-sided thermal printing techniques. A simple and reliable thermal printing system is provided for use in ballot marking, including several mechanisms for receiving and detecting the orientation of a substrate within a thermal printing apparatus.

Abstract: A target supporting apparatus includes a first supporting member having a plurality of first suction holes open to the front surface of the member and the rear surface thereof; a second supporting member having a plurality of second suction holes formed therein and being stacked on and fixed to the first supporting member, the cross-sectional area of each of the plurality of second suction holes being smaller than the cross-sectional area of each of the plurality of first suction holes; and a sucking unit that sucks in the plurality of first suction holes and hence sucks in the plurality of second suction holes communicating with the plurality of first suction holes. Here, a target which is supported in order for a liquid to be adhered thereto is sucked and held onto a supporting face of the second supporting member due to the driving of the sucking unit.

Abstract: A communication cable can comprise optical fibers protected by an armor, such as a corrugated metallic tube. An outer jacket can cover the armor to provide environmental protection. A net located between the outer jacket and the armor can comprise openings, with the outer jacket extending into the openings, towards the armor. The net can be wrapped, formed, or woven around the armor, for example. The net can aid a craftsperson in separating the outer jacket from the corrugated metal tube, for example in connection with servicing the cable. The openings can control coupling between the outer jacket and the armor, for example providing a desired level of friction, bonding, adhesion, adherence, fusion, and/or contact between the outer jacket and the armor.