Techniques are described for electrical equipment management. Embodiments include receiving and validating a login request from a user. Receiving a selection of an order of an electrical equipment system to assemble and, in response, retrieving and providing a plurality of instructions. Performing an iterative assembly process to manage the assembly of the electrical equipment system by the user, wherein the iterative assembly process comprises iterating through the plurality of instructions for assembling the electrical equipment. Recording digital artifacts of the electrical equipment system during performance of the plurality instructions as part of the iterative assembly process and upon determining that compliance has been achieved for the assembled electrical equipment system based on the recorded digital artifacts satisfying a predefined compliance standard, record a final assembly report for the electrical equipment system. Embodiments include storing the final assembly report together with a unique identifier corresponding to the assembled electrical equipment system.

An electrical connector having an electrical conductor member with a first opening and a second opening. Grab rings mounted in the openings have inner diameters containing teeth with crests defining a superimposed inner diameter. The teeth of the grab rings deflect and frictionally engage the outer diameter of the wires to retain them in the openings. A sleeve of insulation material covers an exterior of the conductor member. The sleeve has ends that protrude past the openings and receive an insulation layer of the wires. Resilient electrical contact members are recessed from the grab rings in the openings. The electrical contact members have inner portions biased into contact with the electrical wires and outer portions biased into contact with the conductor member.

An enclosed connection system for mechanically and electrically connecting first and second cables each including an elongate electrical conductor covered by an insulation layer, includes an electrical connector, an enclosure, and a protective end cap. The electrical connector is configured to form a connection with the first and second cables wherein the conductors of the first and second cables are electrically connected by the electrical connector. The enclosure is configured to receive and cover the connection and to protect the electrical connector. The enclosure includes a plurality of enclosure ports each configured to receive a cable. The protective end cap is configured to selectively cover at least a selected one of the enclosure ports.

A contact for a wire-to-wire electrical connector includes a first contact portion defining a first wire receiving opening to receive a first wire and a second wire receiving opening to receive a second wire. The contact further includes a splice contact portion abutting the first contact portion and defining a third wire receiving opening to receive a third wire. The first contact portion also includes a first plurality of contact tines to electrically connect the first wire and the second wire and the splice contact portion includes a second plurality of contact tines to electrically connect the third wire to the first wire and the second wire.

A contact for a wire-to-wire electrical connector includes a first contact portion defining a first wire receiving opening to receive a first wire and a second wire receiving opening to receive a second wire. The contact further includes a splice contact portion abutting the first contact portion and defining a third wire receiving opening to receive a third wire. The first contact portion also includes a first plurality of contact tines to electrically connect the first wire and the second wire and the splice contact portion includes a second plurality of contact tines to electrically connect the third wire to the first wire and the second wire.

An electrical connector having an electrical conductor member with a first opening and a second opening. Grab rings mounted in the openings have inner diameters containing teeth with crests defining a superimposed inner diameter. The teeth of the grab rings deflect and frictionally engage the outer diameter of the wires to retain them in the openings. A sleeve of insulation material covers an exterior of the conductor member. The sleeve has ends that protrude past the openings and receive an insulation layer of the wires. Resilient electrical contact members are recessed from the grab rings in the openings. The electrical contact members have inner portions biased into contact with the electrical wires and outer portions biased into contact with the conductor member.

A connector made of an electrically insulating material that will electrically connect a main conductor and a secondary conductor, the connector including a central section extending along a longitudinal direction, a main part and a secondary part defining a main channel and a secondary channel respectively, parallel to the longitudinal direction and separated by the central section, the connector also includes electrical connection devices made of an electrically conducting material, designed to electrically connect the main conductor and the secondary conductor as soon as they are inserted in the main channel and in the secondary channel respectively.

A connector made of an electrically insulating material that will electrically connect a main conductor and a secondary conductor, the connector including a central section extending along a longitudinal direction, a main part and a secondary part defining a main channel and a secondary channel respectively, parallel to the longitudinal direction and separated by the central section, the connector also includes electrical connection devices made of an electrically conducting material, designed to electrically connect the main conductor and the secondary conductor as soon as they are inserted in the main channel and in the secondary channel respectively.

A connector includes an insulating housing, a conductor unit having a plurality of conductors arranged in a row and an insulating holding body integrally molded with the conductors, and a sealing member that seals between the conductor unit and the housing. Each of the conductors includes a plate-shaped body and terminal parts provided at both ends of the body, respectively. The holding body includes a fitting part fitted to the housing, a plurality of covering parts each extending from the fitting part along the body and individually surrounding the body, and insulating walls each dividing two adjacent terminal parts. Each of the insulating walls has a main wall part and the main wall part extends on an extension line of a gap between two adjacent covering parts and divides two adjacent terminal parts.

A method and apparatus for providing power includes a power socket module having a first conducting layer and a second conducting layer. An insulating layer may be positioned in between the first and second conducting layers. A plug includes a first prong having a first length and second prong having a second length, where the first length is longer than the second length. When the plug is plugged into the power socket module, the first prong electrically couples to the second conducting layer, and the second prong electrically couples to the first conducting layer.