An electrode assembly attaches to a garment using a pad supporting one or more electrodes for mounting against an inner surface of the garment and a housing arranged to be supported externally on the garment. Connectors on the pad and the housing are arranged to be penetrated through the garment in a non-destructive manner to form a mechanical connection between the pad and the housing that also conductively connects the electrodes on the pad to an electronic component in the housing whereby an electrical signal can be communicated to the electrodes from the housing, for example to deliver an electrical impulse generated by the electronic component through the electrodes in a painful yet non-injurious manner to the user.

Plug and socket assemblies that operatively associate with a safety locking mechanism to enable plugging and unplugging ceiling and wall electrical fixtures safely and conveniently.

Various connector and sensor assemblies are described. In some embodiments, the connector and sensor assembly comprises a connector and a sensor assembly. The connector can have an opening that has a first surface and second surface that are opposite each other. The connector can have a plurality of retractable electrical connectors that extend from the first surface and a lock structure that is located on the second surface. The sensor assembly is comprised of a body portion and a proximal end. The proximal end has a top side and a bottom side. The top side includes a plurality of electrical contacts that is configured to interact with the plurality of retractable electrical connectors. The bottom side includes a key structure that is configured to interact with the lock structure in the connector.

Systems and methods of deploying seismic data acquisition units from a marine vessel are disclosed. The system can include a mechanical attachment device comprising a cavity formed by interlocking a first member and a second member. Protrusions located on the first member and second member can increase the coefficient of friction between a rope and the mechanical attachment device responsive to an increase in tension on the rope. A lanyard can couple a seismic data acquisition unit to the mechanical attachment device.

A charging connector connection determining method includes providing a locking pin at a charging inlet of an electric vehicle, in which the locking pin is configured to move to be in a first state that allows for attachment, to the charging inlet, of a charging connector provided at an end of a charging cable, a second state in which the locking pin is positioned more in an advancing direction than the first direction to be engaged with the charging connector, and a third state in which the locking pin is positioned more in the advancing direction than the second state and prevents the charging connector from being attached to the charging inlet, and determining presence of coupling of the charging connector to the charging inlet, by moving the locking pin in the advancing direction and detecting a state of the locking pin among the first, second, and third states.

A plug includes a body portion as well as first and second electrical strip contacts. The body portion has a length, an upper surface and a lower surface. The first electrical strip contact is proximate the upper surface of the body portion and has a length substantially equal to or less than the length of the body portion. The second electrical strip contact is proximate the lower surface of the body portion and has a length substantially equal to or less than the length of the body portion.

An adaptor is provided for connecting an electrical cable with an electrical connector. The adaptor includes a housing and an insert which are coaxially arranged and connected for free rotation relative to each other. The outer surface of the insert contains an annular recess and at least one pin is arranged on an inner surface of the housing. When a portion of the insert including the recess is arranged within a portion of the housing, the pin is inserted into the recess to connect the insert with the housing while permitting rotation therebetween. The free rotation prevent torque from being transmitted to an electrical cable connected with the insert.

Various connector and sensor assemblies are described. In some embodiments, the connector and sensor assembly comprises a connector and a sensor assembly. The connector can have an opening that has a first surface and second surface that are opposite each other. The connector can have a plurality of retractable electrical connectors that extend from the first surface and a lock structure that is located on the second surface. The sensor assembly is comprised of a body portion and a proximal end. The proximal end has a top side and a bottom side. The top side includes a plurality of electrical contacts that is configured to interact with the plurality of retractable electrical connectors. The bottom side includes a key structure that is configured to interact with the lock structure in the connector.

A quick connect mounting assembly for a ceiling fan. The quick connect mounting assembly includes two releasably attachable plates that are easily interconnected to mechanically couple elements of a ceiling fan. The quick connect mounting assembly can be used to mount a ceiling fan switch housing to a ceiling fan motor assembly.

The disclosure describes technology that includes a charge-port capture detection mechanism, which has a mounting base and a capture gate. The mounting is connectable to a battery electric vehicle (BEV) at a location adjacent to a high-voltage, direct current (HVDC) charge-port. The capture gate is movably attached to the mounting base, the capture gate being moveable, relative to the mounting base, between a closed position in which the capture gate captures a charge connector of a charging cable engaged in the HVDC charge-port and an open position.