A communication distribution unit, containing at least one power switch, said communication distribution unit comprising for an at least one consumer a power switch (4) based on a semiconductor design to switch on and off output lines (3) for the at least one consumer and the power switch (4) comprises at least one switching module (5).

The present disclosure provides a keyswitch, comprising an auxiliary component, a membrane circuit, an elastic member, a frame, an elevating component, and a keycap. The membrane circuit is disposed on the auxiliary component. The elastic member is disposed on a surface of the membrane circuit away from the auxiliary component. The frame is disposed on a surface of the membrane circuit away from the auxiliary component. The elastic member is disposed on a surface of the membrane and protrudes from the frame. One end of the elevating component is movably connected to the frame. The elastic member passes through the elevating component. The keycap is movably connected to the other end of the elevating component. The elastic member supports the keycap. The keycap moves upward and downward relative to the frame by the elevating component.

A subsea-replaceable fuse assembly has at least one fuse and a wet-mateable fuse connector element. The connector element is arranged to connect the fuse assembly to a subsea electrical load requiring protection of the fuse. The fuse connector element has conductor elements that are electrically connected to the fuse. A corresponding method of protecting a subsea electrical load includes connecting a fuse to the load underwater in a wet-mating operation effected between connector elements that are electrically connected, respectively, to the fuse and to the load.

A communication distribution unit, containing at least one power switch, said communication distribution unit comprising for an at least one consumer a power switch (4) based on a semiconductor design to switch on and off output lines (3) for the at least one consumer and the power switch (4) comprises at least one switching module (5).

Proximity switches include a hermetically sealed unit that can be used in harsh environments and under significant pressures, such as underwater and in nuclear power facilities, without having any parts that would require replacement or periodic maintenance. The proximity switches are preferably switches actuated by physical movement of a contact in response to changing magnetic forces. The switches are preferably disposed in a body tube optionally including a hermetic seal assembly to seal an open end of the body tube and/or a ferrule that prevents electrical wires attached to the switch inside the body tube from being pulled away from the switch. Further, the switches preferably maintain a contact pressure between electrical contacts sufficient to withstand acceleration seismic testing of 10 g with no contact discontinuity.

The invention is related to the detectors called pinpointer characterized in that it embodies a configuration sensing that it is under water and ensuring that it switches to the underwater mode with no need to user's activity.

A subsea-replaceable fuse assembly has at least one fuse and a wet-mateable fuse connector element. The connector element is arranged to connect the fuse assembly to a subsea electrical load requiring protection of the fuse. The fuse connector element has conductor elements that are electrically connected to the fuse. A corresponding method of protecting a subsea electrical load includes connecting a fuse to the load underwater in a wet-mating operation effected between connector elements that are electrically connected, respectively, to the fuse and to the load.

One example includes a circuit device for use in a submerged ambient environment. The circuit device includes at least one input electrical contact configured to receive an electrical input. The circuit device also includes at least one output contact configured to provide an electrical output. The circuit device further includes at least one electrical conductor associated with an electrical function of the circuit device. Each of the at least one input electrical contact, the at least one output contact, and the at least one electrical conductor are formed at least in part from one of a variety of self-passivating metals. The at least one input electrical contact, the at least one output contact, and the at least one electrical conductor are exposed to the submerged ambient environment.

One example includes a circuit device for use in a submerged ambient environment. The circuit device includes at least one input electrical contact configured to receive an electrical input. The circuit device also includes at least one output contact configured to provide an electrical output. The circuit device further includes at least one electrical conductor associated with an electrical function of the circuit device. Each of the at least one input electrical contact, the at least one output contact, and the at least one electrical conductor are formed at least in part from one of a variety of self-passivating metals. The at least one input electrical contact, the at least one output contact, and the at least one electrical conductor are exposed to the submerged ambient environment.