Abstract:
A visually evident connection system for a plug-in power/data cable including a power/data cable connector securable to a power/data cable. The connector is configured to be received by a power/data receptacle having an illumination region. In response to an interconnection between the connector and the receptacle, the connector is configured to provide visual evidence of the interconnection by illumination of a component other than the illumination region of the receptacle. The source of illumination of the component is provided by the illumination region of the receptacle.
Abstract:
A communication plug is described. The communication plug has a communication cable with a plurality of conductors, a plug housing, and a cable manager partially enclosed within the plug housing. The cable manager has a load bar with a plurality of holes, a first cable management section connected to the load bar via a first hinge, and a second cable management section connected to the load bar via a second hinge. The first and second cable management sections are configured to fold together and partially enclose the cable before the cable manager is inserted into the plug housing.
Abstract:
Communications plugs are provided which include a printed circuit board having a plurality of elongated conductive traces and a plurality of plug blades. Each plug blade has a first section that extends along a top surface of the printed circuit board and a second section that extends along a front edge of the printed circuit board. Additionally, each plug blade may have a thickness that is at least twice the thickness of the elongated conductive traces. The plug blades may be low profile plug blades that are manufactured separately from the printed circuit board.
Abstract:
An electrical connector includes an insulative housing, a lower mating contact module, and an upper mating contact module. The insulative housing has a lower receiving cavity, an upper receiving cavity, and an intermediate wall located therebetween. The lower mating contact module has a lower insulating carrier and a set of lower mating contacts secured to the lower insulating carrier. The upper mating contact module has an upper insulating carrier and a set of upper mating contacts secured to the upper insulating carrier. The intermediate wall defines a lower passageway extending along a front-to-back direction and an upper passageway disposed above the lower passageway. The lower insulating carrier has a lower fixing arm inserted and fixed in the lower passageway, and the upper insulating carrier has an upper fixing arm inserted and fixing in the upper passageway.
Abstract:
Patch cords are provided that include a communications cable that has at least first through fourth conductors and a plug that is attached to the cable. The plug includes a housing that receives the cable, a printed circuit board, first through fourth plug contacts, and first through fourth conductive paths that connect the first through fourth conductors to the respective first through fourth plug contacts. The first and second conductors, conductive paths, and plug contacts form a first differential transmission line, and the third and fourth conductors, conductive paths, and plug contacts form a second differential transmission line. Each of the first through fourth plug contacts has a first segment that extends longitudinally along a first surface of the printed circuit board, and the signal current injection point into the first segment of at least some of the first through fourth plug contacts is into middle portions of their respective first segments.
Abstract:
A modular jack includes an insulative housing and an insert module mounted from the mounting port to the insulative housing along a back-to-front direction. The insulative housing defines a lower port, an upper port stacked on the lower port, and a mounting port located behind the lower and upper ports. Each of the lower and upper ports is used for mating with a modular plug connector. The insert module comprises a printed circuit broad assembly (PCBA) disposed horizontally in the mounting port and a terminal module located below the PCBA. The PCBA includes a top face, a bottom face, a set of upper contacts each having an upper contacting portion extending in the upper port, a set of lower contacts each having a lower contacting portion extending in the lower port, and a plurality of isolation transformers mounted on the top and bottom faces.
Abstract:
The invention relates to a housing having a seal, the seal being formed from a resilient material, characterised in that the resilient material is electrically conductive.
Abstract:
A stacked connector component includes a housing, connectors at a front opening of the housing and arranged in a stacked formation within one or more columns, and a for and exposed at the connectors. The pins include high-speed pins routed within the housing to a bottom side thereof and low-speed pins routed within the housing to a back side or a top side thereof. A circuit board includes pin pads connectable to the pins and disposed on a substrate. The pin pads include high-speed signal pin pads for the high-speed signal pins. The substrate includes contiguous high-speed areas in which the high-speed signal pin pads for the high-speed pins are located, between which no pin pads are located.
Abstract:
A socket with an assembling and unloading mechanism comprises: a frame, having at least one installing hole; at least one holding member for assembling and unloading the frame and having a plate member and a pair of flexible clamping members disposed on the two sides of the plate member, the plate member has an accepting hole, each of the flexible clamping members has a pressing portion and a hook disposed on the one side of the pressing portion and driven by the pressing portion, each hook buckles the peripheral of the frame adjacent to the installing hole; and at least one connecting port, connecting to the inside of the accepting hole; wherein the hook is unloaded from the frame while pressing the pressing portion, and the holding member is withdrawn from the installing hole.
Abstract:
The present invention generally relates to the field of network communications, and more specifically to networks for crosstalk reduction/compensation and communication connectors which employ such networks. In an embodiment, the present invention is an RJ45 jack with an orthogonal. compensation network to meet CAT6A or higher performance standard. For the 3:6-4:5 wire-pair combination, the orthogonal compensation network begins in the jack nose (plug interface contact (PIC)) section, and utilizes a flexible printed circuit board in the nose section, split PIC contacts in the rear nose, and circuitry in the rigid printed circuit board to create the orthogonal compensation network.