Abstract: An optical fiber filter device comprises: a first fiber pigtail assembly (110) having a first optical fiber (111), a second fiber pigtail assembly (120) having a second optical fiber (121), a first optical filtering element (114) and a second optical filtering element (124). The first optical filtering element is arranged between a first port (113) of the first optical fiber and a second port (123) of the second optical fiber and is inclined at an angle to an optical axis of the first optical fiber such that a light component within a first wavelength range emitted from the first port is transmitted through the first optical filtering element and enters the second optical fiber via the second port, and a light component within a second wavelength range emitted from the first port is reflected by the first optical filtering element to form a reflected light.

Abstract: A receiver of the present invention includes a microphone, an unnecessary signal remover, and an FM detector. The microphone receives a transmission signal generated by frequency modulating a signal in a frequency band that is receivable by the microphone, on the basis of transmission data. The unnecessary signal remover removes unnecessary signal components by processing the received signal from the microphone. The FM detector restores transmission data by performing FM detection of the received signal from which unnecessary signal components were removed by the unnecessary signal remover.

Abstract: An example telecommunications cabinet includes: an enclosure including sidewalls extending between a bottom of the enclosure and a top of the enclosure to define an interior of the enclosure; telecommunications equipment disposed within the interior of the enclosure; and a data distribution arrangement disposed on one of the sidewalls within the interior of the enclosure.

Abstract: Certain types of aggregation enclosures include cable input ports and downwardly angled cable output ports. A cover is pivotally coupled to the body so that the cover moves between an open position and a closed position. A modular component panel may be disposed within the enclosure. The component panel includes one or more distribution components (e.g., fiber distribution components or power distribution components) configured to connect at least a portion of an incoming cable to at least a portion of an outgoing cable.

Abstract: A data reading system, such as for reading optical codes being passed through a read zone, including one or more imagers, and at least one illumination module, all disposed in a reader housing, the illumination module in one configuration having a reflector housing comprised of a cone-shaped structure of generally rectangular cross-section, with a top inner surface and a bottom inner surface, wherein area of the cross-section of the cone-shaped structure increasing from a rear end to a front end, and an illumination source (such as a plurality of light emitting diodes) disposed at the rear end of the reflector housing and operative to generate illumination out through the reflector housing along an outgoing illumination path, the top inner surface of the reflector housing being a surface of high reflectivity relative to the bottom inner surface of the reflector housing which has a surface of relatively low reflectivity.

Abstract: Systems and methods are provided for updating configuration settings, updating an OS image, and booting an alternate OS on a portable data reader including a reading engine for reading data from an object. Configuration settings of a portable data reader may be updated by detecting whether a storage device having a set of updated configuration settings stored thereon has been coupled to the portable data reader and, if so, updating one or more configuration settings on the portable data reader with one or more of the updated configuration settings from the storage device.

Abstract: A data reading system including one or more imagers and a lower main housing structure with a horizontal surface and a horizontal window, across which items to be read are passed. At least one or more of the imagers in the data reading system is a part of a top-down data reader having a generally downwardly-facing field of view projecting through a scan window and onto the horizontal surface and the horizontal window. The top-down data reader may be freely repositioned at a range of height positions and angular configurations for processing items of various dimensions. The data reading system may further include a calibration system for assisting in adjusting the field of view of the top-down data reader to ensure proper aim and focus of the top-down data reader after adjustment.

Abstract: A fiber optic distribution terminal includes an enclosure having a base. A cover is pivotally engaged to the base. The base and the cover cooperatively define an interior region. A cable spool assembly is disposed in the interior region of the enclosure. The cable spool assembly includes a first flange and a second flange. The first flange has a flange and an inner drum that extends outwardly from the flange. The second flange has a tray and an outer drum that extends outwardly from the tray. The outer drum defines a bore. The outer drum is in snap-fit engagement with the inner drum. A plurality of adapters is disposed on the tray. A fiber optic cable is disposed about the outer drum of the cable spool assembly. The fiber optic cable includes a plurality of connectorized ends that is engaged with first ports of the plurality of adapters.

Abstract: A fiber optic connector and cable assembly is disclosed. The assembly includes a fiber optic connector and a fiber optic cable. The fiber optic cable can be coupled to the assembly at a demarcation section. All components of the fiber optic cable (e.g., fiber, strength members, jacket, etc.) are fixed relative to each other and relative to the fiber optic connector at the demarcation section. The demarcation section may be located on a boot mounted at a proximal end of the fiber optic connector. For example, the demarcation section may be located at a proximal end of the boot.

Abstract: A driver assistance system for avoiding collisions of a vehicle with pedestrians, the system including a camera sensor and/or a beam sensor. When an object moving at a given speed on a pedestrian crossing is detected, the object is detected as being a pedestrian with a probability that is sufficiently high to output a warning to the driver, reducing the likelihood of a potential collision.

Abstract: A telecommunications assembly includes a chassis and a plurality of modules removably mounted within the chassis. The modules include one or more fiber optic signal input locations. The modules include optical equipment for splitting the input signals into customer output signals.

Abstract: Systems and methods for exception handling in an automated machine-readable symbol reader system having a machine-readable symbol reader that captures machine-readable symbols within a view volume. One or more image capture devices obtain a plurality of images of an exception object in response to an exception generated in the view volume. A processor receives the images, identities visual object recognition features from each image, and compares the features to determine one or more descriptive measures indicative of a likelihood that an operator (e.g., store employee) will be able to identify the exception object by viewing the image. The processor displays at least one of the images (e.g., the most descriptive image) on a display device according to the descriptive measure so that an operator can rapidly identify the identity of the exception object and take steps to resolve the exception.

Abstract: An electronic component comprising a first electrode, a second electrode, and a plurality of ball spacers is disclosed. The first electrode includes a plurality of first through holes formed according to a pattern. The second electrode includes a plurality of second through holes formed according to the pattern. Conductive surfaces of the first and second electrode face each other and the first through holes align with the second through holes. The plurality of ball spacers is disposed between the first and second electrodes. Each ball spacer is disposed between and partially disposed within pairs of aligned through holes.

Abstract: Disclosed is a data reading system that includes a housing and a platter window for concealing a data reader configured to read an optical code borne by an item transported through a read zone. The read zone is defined at least in part by the platter window. The data reading system also has a platter supportable on the housing that encompasses the platter window. The platter includes a first integral feature and a second integral feature bordering opposing peripheral sides of the platter window. The first and second integral features cooperatively delineate a preferred data-reading sweep path through the read zone.

Abstract: A communication system includes a master host unit that communicates wireless spectrum with a service provider interface using analog spectrum. Master host unit communicates digitized spectrum in N-bit words over a digital communication link. Master host unit converts between analog spectrum and N-bit words of digitized spectrum. Communication system includes hybrid expansion unit coupled to master host unit by digital communication link. Hybrid expansion unit communicates N-bit words of digitized spectrum with master host unit across digital communication link. Hybrid expansion unit converts between N-bit words of digitized spectrum and analog spectrum. Hybrid expansion unit communicates analog spectrum across analog communication link to analog remote antenna unit. Analog remote antenna unit communicates wireless signals using first antenna. Communication system further includes a switch in a data path between service provider interface and antenna.

Abstract: A patch cord including a connector attached to an end of an electrical cable. The connector includes a boot member that slides over a portion of a wire manager to actuate a retention arrangement of the connector. Certain types of retention arrangements are actuated by deflecting flexible tabs of the wire manager inwardly to bite into at least an outer jacket of the electrical cable.

Abstract: Embodiments described herein are directed to a cable assembly including at least a first optical fiber extending from a first end to a second end and an active optical module (AOM) attached to the first end of the first optical fiber and including a first storage device that is electrically connected to the electrical connector. The cable assembly also includes a passive optical connector terminating the second end of the first optical fiber and including a second storage device. The first storage device includes an AOM identifier stored therein identifying the active optical module and the second storage device includes first information stored therein indicating that the first end of the first optical fiber is associated with the AOM identifier.

Abstract: An infrastructure management device comprises a processor configured to obtain port status and networking device status for each of one or more physicals networking devices in a system. The device also comprises a display unit coupled to the processor and configured to display one or more virtual networking devices, and a user input element configured to provide user input to the processor. The port status indicates that a cable is inserted into the first port and the processor obtains cable data identifying one or more characteristics of the cable inserted into the first port. The processor is configured to compare the one or more characteristics of the cable inserted into the first port with one or more characteristics defined in the work order. The processor is configured to provide a notification to a user indicating whether the one or more characteristics of the inserted cable comply with the work order.

Abstract: Systems and methods for exception handling in an automated machine-readable symbol reader system having a machine-readable symbol reader that captures machine-readable symbols within a view volume. One or more image capture devices obtain a plurality of images of an exception object in response to an exception generated in the view volume. A processor receives the images, identities visual object recognition features from each image, and compares the features to determine one or more descriptive measures indicative of a likelihood that an operator (e.g., store employee) will be able to identify the exception object by viewing the image. The processor displays at least one of the images (e.g., the most descriptive image) on a display device according to the descriptive measure so that an operator can rapidly identify the identity of the exception object and take steps to resolve the exception.

Abstract: Systems and methods for providing multiple image fields or regions on a single, two-dimensional imaging sensor array of a data reader. A single sensor array may be divided into two or more imaging regions each of which may be used to render a separate view of an overall read volume. An image-side telecentric optical system may be utilized to divide the sensor array into the two or more imaging regions. A thin, high refractive index focal element (e.g., optical glass) may be positioned over at least one of the two or more imaging regions to provide multiple focus positions using a single telecentric optical system and a single sensor array. The multiple imaging regions may be used to capture images from different regions, and/or may be used produce a longer depth of field by combining overlapping depths of field of the multiple imaging regions.