Abstract: Backplane optical connectors and optical connections are disclosed herein. In one embodiment, a backplane optical connector includes a ferrule element that includes a body portion having optical interface, at least two bores positioned through the body portion, at least two posts extending from the body portion, and a fiber inlet portion extending from the body portion. The fiber inlet portion includes a fiber receiving opening. The backplane optical connector further includes a magnet disposed within each bore of the at least two bores, and a bias member coupled to the at least two posts.

Abstract: Optical fiber ferrules with complementary mating geometry that are suitable for making optical connections are disclosed along with fiber optic connectors and cable assemblies using the same. In one embodiment, the fiber optic ferrule includes a body having a plurality of optical pathways and a mating geometry that has at least one guide pin that is monolithically formed in the body of the fiber optic ferrule and at least one spring retention feature disposed on a rear portion of the ferrule. The ferrule reduces the number of parts required for a fiber optic connector and allows quick and easy assembly. The disclosure is also directed to fiber optic connectors and cable assemblies using the ferrule.

Abstract: Optical ports providing passive alignment connectivity are disclosed. In one embodiment, an optical port includes a substrate having a surface, a photonic silicon chip, a connector body, and a plurality of spacer elements. The photonic silicon chip includes an electrical coupling surface, an upper surface and an optical coupling surface. The optical coupling surface is positioned between the electrical coupling surface and the upper surface. The photonic silicon chip further includes at least one waveguide terminating at the optical coupling surface, and a chip engagement feature disposed on the upper surface. The connector body includes a first alignment feature, a second alignment feature, a mounting surface, and a connector engagement feature at the mounting surface. The connector engagement feature mates with the chip engagement feature. The plurality of spacer elements is disposed between the electrical coupling surface of the photonic silicon chip and the surface of the substrate.

Abstract: A cable reel of the present disclosure can include two flanges and a central drum being independently rotatable from one another. The drum, which can be configured to receive a cable, can be mounted on an axle. The two flanges can be rotationally mounted on the axle at opposing distal ends of the axle. Bearings in the flanges can allow for a full rotation of the flanges about the axle.

Abstract: A demountable wall system includes a frame component. The frame component may include a front channel that receives a panel of the demountable wall system. In addition to the front channel, the frame component may include at least one of a front cover, a removable back cover, a leveling system, a supplemental channel, or a joining system. In some examples, the demountable wall system includes a door support system for movably supporting a door relative to the panel of the demountable wall system.

Abstract: A demountable wall system includes a frame component. The frame component may include a front channel that receives a panel of the demountable wall system. In addition to the front channel, the frame component may include at least one of a front cover, a removable back cover, a leveling system, a supplemental channel, or a joining system. In some examples, the demountable wall system includes a door support system for movably supporting a door relative to the panel of the demountable wall system.

Abstract: Systems, devices and methods related to multi-band power amplifier. In some embodiments, a power amplifier module includes a power amplifier having an output stage and configured to receive a signal. The power amplifier module also includes a first programmable harmonic termination circuit in electrical communication with the output stage of the power amplifier. The first programmable harmonic termination circuit includes a first plurality of capacitors and a first plurality of switches, with at least one of the first plurality of capacitors being in electrical communication with at least one of the first plurality of switches. The power amplifier module further includes a controller configured to modify a configuration of the first plurality of switches of the first programmable harmonic termination circuit based at least in part on a second harmonic frequency of the signal.

Abstract: Backplane optical connectors and optical connections are disclosed herein. In one embodiment, a backplane optical connector includes a ferrule element that includes a body portion having optical interface, at least two bores positioned through the body portion, at least two posts extending from the body portion, and a fiber inlet portion extending from the body portion. The fiber inlet portion includes a fiber receiving opening. The backplane optical connector further includes a magnet disposed within each bore of the at least two bores, and a bias member coupled to the at least two posts.

Abstract: Aspects of this disclosure relate to systems and methods of performing dynamic impedance tuning. Certain aspects may be performed by or include a dynamic impedance matching network. The dynamic impedance matching network can determine a desired output power for a power amplifier, true power information for the power amplifier, and an output power delivered to a load by the power amplifier. In addition, the dynamic impedance matching network can determine whether the output power satisfies the true power information. Responsive to this determination, the dynamic impedance matching network may modify a load line impedance for the power amplifier using an impedance tuning network.

Abstract: Optical ports providing passive alignment connectivity are disclosed. In one embodiment, an optical port includes a substrate having a surface, a photonic silicon chip, a connector body, and a plurality of spacer elements. The photonic silicon chip includes an electrical coupling surface, an upper surface and an optical coupling surface. The optical coupling surface is positioned between the electrical coupling surface and the upper surface. The photonic silicon chip further includes at least one waveguide terminating at the optical coupling surface, and a chip engagement feature disposed on the upper surface. The connector body includes a first alignment feature, a second alignment feature, a mounting surface, and a connector engagement feature at the mounting surface. The connector engagement feature mates with the chip engagement feature. The plurality of spacer elements is disposed between the electrical coupling surface of the photonic silicon chip and the surface of the substrate.

Abstract: A cable reel of the present disclosure can include two flanges and a central drum being independently rotatable from one another. The drum, which can be configured to receive a cable, can be mounted on an axle. The two flanges can be rotationally mounted on the axle at opposing distal ends of the axle. Bearings in the flanges can allow for a full rotation of the flanges about the axle.

Abstract: Disclosed are optical plugs and optical connectors for making optical connections. The optical plugs and optical connectors disclosed have a nosepiece that is easily removed and replaced for allowing access to the optical interface for cleaning and the nosepiece may also protect the optical interface when installed. The nosepiece may be a single component or an assembly as desired. The devices disclosed may be hybrid devices providing both optical and electrical connectivity or they may solely have optical connectivity if desired.

Abstract: A cart may be provided for use in moving a container that houses one or more conductors. The cart may comprise a support member, one or more wheels, and a receiving member. The wheel or wheels may be connected to the support member. The receiving member may be attached to the support member. The receiving member may be freely slideable along the support member.

Abstract: Disclosed are optical connectors having lenses along with methods for making the same. In one embodiment, the optical connector includes a fiber body having a front portion with a plurality of fiber guides, and a connector body having a plurality of connector body fiber guides that lead to a plurality of lenses at a front portion of the connector body. The fiber body attaches to the connector body and may align a plurality of optical fibers to the lenses at the front portion of the connector body. One embodiment has the fiber body configured as a crimp body with a barrel at a rear portion for attaching a fiber optic cable.

Abstract: The application provides a connector device for connecting at least one optical fiber endpiece to an electric terminal. The connector device comprises a printed circuit board and an electric connector plug connectable to an electric terminal. A fiber end piece holder is mounted or mountable in an orientation enabling light propagation parallel to the printed circuit board, whereas an optoelectronic chip comprising optoelectronic active elements enables emission and/or detection of light substantially normal to the printed circuit board. A layered optical stack is provided on the printed circuit board, which layered optical stack comprises a reflection surface for changing the propagation direction between parallel and normal to the printed circuit board.

Abstract: A switch control circuit includes a positive voltage bias node, a voltage-regulated positive supply rail coupled to the positive voltage bias node, a charge pump coupled to a charge pump supply node, and a current source positive supply rail coupled to the charge pump supply node and configured to supply the charge pump.

Abstract: Disclosed are optical connectors and methods for making the same. In one embodiment, the optical connector comprises an optical body, one or more first magnetic materials attached to the optical body, a housing, and one or more second magnetic materials attached to the housing. The first magnetic material(s) provide alignment with an optical element of a complimentary receptacle and the optical body may include one or more openings for receiving the first magnetic materials. The second magnetic material(s) attached to the housing provide retention of the optical connector with the complimentary receptacle when mated together. Consequently, the optical connector allows for quick and easy assembly along with a robust structure for a large number of mating/unmating cycles. In other embodiments, the optical devices disclosed may further include one or more electrical contacts for making a hybrid connection or have a TIR surface integrated into a portion of a housing.

Abstract: Disclosed are optical plugs and optical connectors for making optical connections. The optical plugs and optical connectors disclosed have a nosepiece that is easily removed and replaced for allowing access to the optical interface for cleaning and the nosepiece may also protect the optical interface when installed. The nosepiece may be a single component or an assembly as desired. The devices disclosed may be hybrid devices providing both optical and electrical connectivity or they may solely have optical connectivity if desired.

Abstract: Field-installable mechanical splice connectors for making optical and/or electrical connections in the field are disclosed. One embodiment is a hybrid mechanical splice connector having an electrical portion and an optical portion that includes at least one electrical contact, a shell, and at least one body for receiving at least one field optical fiber and securing the electrical contact. The connector includes a mechanical retention component for securing at least one optical field fiber to the at least one body. Another embodiment is directed to a mechanical splice connector having at least one body for receiving at least one field optical fiber, a mechanical retention component for securing at least one optical field fiber to the at least one body, and at least one lens attached to the at least one body.