An interface for a battery pack and an electrical combination. The interface may include a battery-receiving portion configured to receive a battery pack and including a cavity. The cavity is defined by a pair of sidewalls with rails defining a groove between the rails and a lower surface of the cavity. The rails are stepped or angled along a battery insertion axis and are configured to guide the sliding engagement of a battery pack within the battery-receiving portion.

An interface for a battery pack and an electrical combination. The interface may include a battery-receiving portion configured to receive a battery pack and including a cavity. The cavity is defined by a pair of sidewalls with rails defining a groove between the rails and a lower surface of the cavity. The rails are stepped or angled along a battery insertion axis and are configured to guide the sliding engagement of a battery pack within the battery-receiving portion.

A battery pack (e.g., a battery pack for marine environments) can include a lower enclosure having an upper wall and defining a cavity, a plurality of battery cells positioned within the cavity, a radiator assembly positioned above the upper wall of the lower enclosure, a vent in the upper wall of the cavity, and/or a valve configured to selectively facilitate fluid communication between the cavity and the radiator assembly via the vent. In some embodiments, the valve is configured to open in response to increased pressure in the cavity resulting from a thermal runaway event. In some embodiments, the radiator is configured to create a tortuous path and collect flammable particulates from the thermal runaway event.

A battery pack (e.g., a battery pack for marine environments) can include a lower enclosure having an upper wall and defining a cavity, a plurality of battery cells positioned within the cavity, a radiator assembly positioned above the upper wall of the lower enclosure, a vent in the upper wall of the cavity, and/or a valve configured to selectively facilitate fluid communication between the cavity and the radiator assembly via the vent. In some embodiments, the valve is configured to open in response to increased pressure in the cavity resulting from a thermal runaway event. In some embodiments, the radiator is configured to create a tortuous path and collect flammable particulates from the thermal runaway event.

A plug connector for connecting to a complementarily formed counter plug connector, having an inner conductor which is supplied with high current, and an outer conductor that surrounds the inner conductor and has an outer contact element on a front side of the plug connector for the purposes of shield transfer where the outer contact element is designed for shield transfer, being in the form of a rigid ring element having a mating surface, surrounding same in a peripheral direction, for surface mating with a complementarily formed counter mating surface of the counter plug connector, which mating surface runs transversely in relation to an insertion direction (S) of the plug connector.

A plug connector for connecting to a complementarily formed counter plug connector, having an inner conductor which is supplied with high current, and an outer conductor that surrounds the inner conductor and has an outer contact element on a front side of the plug connector for the purposes of shield transfer where the outer contact element is designed for shield transfer, being in the form of a rigid ring element having a mating surface, surrounding same in a peripheral direction, for surface mating with a complementarily formed counter mating surface of the counter plug connector, which mating surface runs transversely in relation to an insertion direction (S) of the plug connector.

An electrical device includes first and second terminals and a terminal holder holding the first and second terminals. A first insulation layer is provided between the first and second terminals and a second insulation layer is provided between the first and second terminals. The first and second insulation layers are different materials. The first insulation layer is a base layer and the second insulation layer is a high arc tracking resistance rated layer on the base layer to discourage arc tracking on the first insulation layer.

A plug-in contact device for preventing or extinguishing an arc when a DC connection is disconnected or closed by using an extension of a line compound includes: at least two connectors at ends of an extension of a line compound, each having a main contact (HA) and an auxiliary contact (HI), the HA of each of the at least two connectors having a first contact half (HA1) and a second contact half (HA2), which are detachably intermateable, the HA: connecting the HA1 and the HA2 in an electrically conductive manner in a mated state of the respective connector, galvanically isolating the HA1 and the HA2 in an unmated state of the respective connector, connecting the HA1 and the HA2 in an electrically conductive manner in a first intermediate state of the respective connector between the mated state and the unmated state, and galvanically isolating the HA1 and the HA2.

A plug-in contact device for preventing or extinguishing an arc when separating or closing a direct current connection includes: at least one plug-in connector each having a main contact, HA, and an auxiliary contact, HI, the HA including a first contact half, HA1, and a second contact half, HA2, which are releasably plugged together. The HA: electrically conductively connects the HA1 and the HA2 in a plugged-together state of the respective plug-in connector, galvanically separates the HA1 and the HA2 in a released state of the respective plug-in connector, electrically conductively connects the HA1 and the HA2 in a first intermediate state of the respective plug-in connector between the plugged-together state and the released state, and galvanically separates the HA1 and the HA2 in a second intermediate state of the respective plug-in connector between the first intermediate state and the released state.

A plug-in contact device for preventing or extinguishing an arc when separating or closing a direct current connection includes: at least one plug-in connector each having a main contact, HA, and an auxiliary contact, HI, the HA including a first contact half, HA1, and a second contact half, HA2, which are releasably plugged together. The HA: electrically conductively connects the HA1 and the HA2 in a plugged-together state of the respective plug-in connector, galvanically separates the HA1 and the HA2 in a released state of the respective plug-in connector, electrically conductively connects the HA1 and the HA2 in a first intermediate state of the respective plug-in connector between the plugged-together state and the released state, and galvanically separates the HA1 and the HA2 in a second intermediate state of the respective plug-in connector between the first intermediate state and the released state.