Various implementations of grounding cross connectors are disclosed. The grounding cross connectors may be used to clamp together two or more, often perpendicular, conductors. In some implementations, a grounding cross connector includes an upper clamping pad and a lower clamping pad held together by a pair of threaded fasteners. A pair of perpendicular conductors may be placed in between the clamping pads and secured together by torqueing nuts on the threaded fasteners. The upper clamping pad may include a hook through which one of the threaded fasteners may pass, thereby allowing the upper clamping to rotate relative to the lower clamping pad.

A system and apparatus for providing a temporary electrical bonding/grounding connection between a first conductive member and a second conductive member. The apparatus includes an electrically conductive cable having first and second ends. At least one magnet assembly is provided for mounting to the first conductive member. The at least one magnet assembly has multiple arcuate surfaces of different radiuses of curvature, with respective surfaces of the multiple arcuate surfaces being configured to properly mount to a respective arcuate surface of the first conductive member. A conductive coupling is provided on the at least one magnet assembly. The conductive coupling is configured to be electrically coupled to the first end of the cable. The second end of the cable is configured to be detachably and electrically coupled to the second conductive member.

A system and apparatus for providing a temporary electrical bonding/grounding connection between a first conductive member and a second conductive member. The apparatus includes an electrically conductive cable having first and second ends. At least one magnet assembly is provided for mounting to the first conductive member. The at least one magnet assembly has multiple arcuate surfaces of different radiuses of curvature, with respective surfaces of the multiple arcuate surfaces being configured to properly mount to a respective arcuate surface of the first conductive member. A conductive coupling is provided on the at least one magnet assembly. The conductive coupling is configured to be electrically coupled to the first end of the cable. The second end of the cable is configured to be detachably and electrically coupled to the second conductive member.

A method according to the present disclosure provides a ground connection between a first component and a vehicle body rail through a coating disposed on the vehicle body rail. The method includes inserting a grounding bushing into an aperture in a second component, positioning the second component between the first component and the vehicle body rail, placing the grounding bushing in contact with the first component, and inserting a fastener through the first component, through the grounding bushing, and into the vehicle body rail. The method further includes tightening the fastener to clamp the first component and the grounding bushing between a head of the fastener and the vehicle body rail and thereby cause the grounding bushing to pierce through the coating disposed on the vehicle body rail to provide the ground connection between the first component and the vehicle body rail.

A method according to the present disclosure provides a ground connection between a first component and a vehicle body rail through a coating disposed on the vehicle body rail. The method includes inserting a grounding bushing into an aperture in a second component, positioning the second component between the first component and the vehicle body rail, placing the grounding bushing in contact with the first component, and inserting a fastener through the first component, through the grounding bushing, and into the vehicle body rail. The method further includes tightening the fastener to clamp the first component and the grounding bushing between a head of the fastener and the vehicle body rail and thereby cause the grounding bushing to pierce through the coating disposed on the vehicle body rail to provide the ground connection between the first component and the vehicle body rail.

In various representative aspects, an apparatus for securing solar panels to a rail support guide, while facilitating grounding by a common grounding wire. The apparatus is an electrically conductive lay-in-lug fastener, which facilitates multiple rows of solar panels to be electrically bonded to each other. The apparatus includes a lug member for securing the grounding wire. In doing so, the structure for securing the grounding wire is at an acute angle to the frame, enabling a wrench to be used even in space-challenged locations.

A system is described for providing an electrical ground connection for a circuit assembly. The system may include a housing for the circuit assembly, the housing having an electrically conductive fixation member configured for attachment to an electrically conductive element outside the housing. The system may also include an electrically conductive feature having a first end and a second end, the first end configured to cooperate with the electrically conductive fixation member inside the housing and the second end configured for attachment to the circuit assembly. Attachment of the electrically conductive fixation member to the electrically conductive element outside the housing enables an electrical ground connection for the circuit assembly via the electrically conductive feature.

Devices, methods, and systems for installing photovoltaic systems are provided that are simple and easy to install, and that minimize the number of separate components or parts needed. Such devices, methods, and systems ensure seamless mechanical and electrical connectivity by their design, and minimize the time and effort expended by tradesperson or other technicians, especially in dangerous environments.

Devices, methods, and systems for installing photovoltaic systems are provided that are simple and easy to install, and that minimize the number of separate components or parts needed. Such devices, methods, and systems ensure seamless mechanical and electrical connectivity by their design, and minimize the time and effort expended by tradesperson or other technicians, especially in dangerous environments.

An electrical contact and a connector assembly for housing the contact. The electrical contact has a first mating section, a transition section, a securing section. The first mating section extends in a plane which is substantially parallel to a plane of the securing section. The transition section extends in a plane which is substantially perpendicular to the plane of the first mounting section. The first mating section has a mating contact engaging portion and a seal receiving portion. A seal retention projection extends from the seal receiving portion. A peripheral seal is provided on the seal receiving portion of the first mating section of the electrical contact. The housing includes a contact receiving area and a connector mating area. A wall is provided between the contact receiving area and the connector mating area. The wall has a contact receiving opening which extends through the wall.