Virtually-integrated wire harness design and automated production systems and methods that achieve completely integrated data management by automatically producing scripts to dynamically propagate production commands and data to various subsystems for handling assembling necessary circuits and wire harness layout boards to produce corresponding batches of wire harnesses while script-based methods control configuring, testing, and using wire harness layout boards, and assembling, testing, reworking, and delivering wire harnesses. Augmented reality is used to assist in the assembly of layout boards and wire harnesses.

A substrate configured to be mated with an electrical connector having improved performance data is achieved by reducing the length of the electrical signal contact pads of the substrate with respect to the length of electrical signal contact pads of conventional substrates that are configured to be mated with the electrical connector.

A substrate configured to be mated with an electrical connector having improved performance data is achieved by reducing the length of the electrical signal contact pads of the substrate with respect to the length of electrical signal contact pads of conventional substrates that are configured to be mated with the electrical connector.

Magnetic connectors that may be readily manufactured and provide a high landed force and labels for magnetic connectors that may protect magnets or magnetic elements in the connectors, provide an aesthetically pleasing appearance, and improve the magnetic performance of the connectors. In various examples, power and signal paths may be formed using contacts that are separate from magnets or magnetic elements, paths may be formed using magnets or magnetic elements, or paths may be formed using a combination of contacts and magnets and magnetic elements. The magnets may have various arrangements. One or more magnets may be used in conjunction with magnetic elements. The interface surface of these magnets and magnetic elements may have various contours, such as flat, spline, or involute.

Magnetic connectors that may be readily manufactured and provide a high landed force and labels for magnetic connectors that may protect magnets or magnetic elements in the connectors, provide an aesthetically pleasing appearance, and improve the magnetic performance of the connectors. In various examples, power and signal paths may be formed using contacts that are separate from magnets or magnetic elements, paths may be formed using magnets or magnetic elements, or paths may be formed using a combination of contacts and magnets and magnetic elements. The magnets may have various arrangements. One or more magnets may be used in conjunction with magnetic elements. The interface surface of these magnets and magnetic elements may have various contours, such as flat, spline, or involute.

The present invention concerns a plug intended to be mounted on at least one cable whose one end supports one or more contacts comprising: a body, comprising: a front portion extending along a longitudinal axis, the front portion being designed to be lodged in a socket, the front portion being adapted to lodge and hold the contact(s) or at least an optoelectronic converter connected to the contact(s); a rear portion forming a sheath, designed to lodge the end of the cable, itself supporting the contact(s); the rear portion being mounted floating about the front portion; a plurality of flexible tabs made of electrically conductive material, distributed on the outer periphery of the front portion, the flexible tabs being adapted to remain in mechanical contact with the interior of the socket when the front portion is lodged in the latter.

The present invention concerns a plug intended to be mounted on at least one cable whose one end supports one or more contacts comprising: a body, comprising: a front portion extending along a longitudinal axis, the front portion being designed to be lodged in a socket, the front portion being adapted to lodge and hold the contact(s) or at least an optoelectronic converter connected to the contact(s); a rear portion forming a sheath, designed to lodge the end of the cable, itself supporting the contact(s); the rear portion being mounted floating about the front portion; a plurality of flexible tabs made of electrically conductive material, distributed on the outer periphery of the front portion, the flexible tabs being adapted to remain in mechanical contact with the interior of the socket when the front portion is lodged in the latter.

A wiring member includes a wire-like transmission member, a holding member, and a connector. The holding member is configured to hold the wire-like transmission member two-dimensionally in a positioned state. The connector is attached to an end portion of the wire-like transmission member. The connector is provided with an orientation recognition mark.

A device for inserting a flexible printed circuit board into a connector of a display panel includes: a suction unit configured to adhere to the flexible printed circuit board; a position restriction unit configured to restrict a position of the flexible printed circuit board; and a flexible printed circuit board transfer unit coupled to the suction unit and the position restriction unit, and configured to insert the flexible printed circuit board into the connector. A method of inserting a flexible printed circuit board into a connector of a display panel is also disclosed.

An I/O connector assembly configured for making a cabled connection to an interior portion of a printed circuit board for at least some signals passing through the I/O connector. The I/O connector assembly may be assembled by mounting a cage to a printed circuit board. A receptacle connector, including cables extending from a rear of the connector, may be inserted through an opening in the top or rear of the cage. The receptacle connector may be positioned in the cage by at least one retention member on the cage. A plug, mating to the receptacle connector, also may be positioned by a retention member on the cage. Positioning both the plug and receptacle relative to the cage reduces the tolerance stackup of the assembly and enables the connectors to be designed with shorter wipe length, which enables higher frequency operation.