A method of transporting at least one energy storage device comprising the step of housing at least one energy storage device in a cassette comprising: a hollow casing for receiving at least one energy storage device; a top cap assembly received at one end of the hollow casing and an end cap assembly received at another end of the hollow casing; electronic circuitry housed within the end cap assembly, the electronic circuitry comprising at least one receptacle associated with each of the at least one energy storage devices, the at least one receptacle being reversibly mateable with at least one plug associated with an external device such that the cassette is received by the external in a first orientation and a second orientation; and electrically isolating the at least one energy storage devices from each other by individually coupling the at least one energy storage device to the electronic circuitry.

Today, building automation and infrastructure provisioning are discrete deployments and systems such that electrical power distribution for consumption, electrical power and switching for lighting, environmental sensors, security sensors and the like are discrete and fixed. The present disclosure provides receptacles including electrical power outlets and light switches with configurable and reconfigurable additional functionality such that additional functions are distributed as necessary or required within the environment such as sensors, wireless interfaces, and data interfaces through the use of removable inserts. Further, these receptacles and inserts support artificial intelligence-based assisted living functionality through monitoring user activities with the artificial intelligence centralized or distributed locally or remotely accessed. These receptacles and inserts identify other electrical or electronic devices attached to them, allowing increased knowledge of the user's activities, as well as providing additional aspects of artificial intelligence-based assisted living such as power monitoring, and preventive maintenance.

Today, building automation and infrastructure provisioning are discrete deployments and systems such that electrical power distribution for consumption, electrical power and switching for lighting, environmental sensors, security sensors and the like are discrete and fixed. The present disclosure provides receptacles including electrical power outlets and light switches with configurable and reconfigurable additional functionality such that additional functions are distributed as necessary or required within the environment such as sensors, wireless interfaces, and data interfaces through the use of removable inserts. Further, these receptacles and inserts support artificial intelligence-based assisted living functionality through monitoring user activities with the artificial intelligence centralized or distributed locally or remotely accessed. These receptacles and inserts identify other electrical or electronic devices attached to them, allowing increased knowledge of the user's activities, as well as providing additional aspects of artificial intelligence-based assisted living such as power monitoring, and preventive maintenance.

A coaxial tap in a hybrid fiber coaxial cable distribution system serves subscribers with an RF signal.

A coaxial tap in a hybrid fiber coaxial cable distribution system serves subscribers with an RF signal.

A coaxial tap in a hybrid fiber coaxial cable distribution system serves subscribers with an RF signal.

A coaxial tap in a hybrid fiber coaxial cable distribution system serves subscribers with an RF signal.

A jumper bus bar may include a frame and a terminal assembly. The frame is to be seated along a surface of a housing of an electrical box. The terminal assembly features a first fork terminal perpendicular to the frame and a second fork terminal perpendicular to the frame. The first fork terminal is adjacent the second fork terminal. The terminal assembly also includes a slot to receive a terminal of a fuse or relay, the slot being coplanar with the frame.

A jumper bus bar may include a frame and a terminal assembly. The frame is to be seated along a surface of a housing of an electrical box. The terminal assembly features a first fork terminal perpendicular to the frame and a second fork terminal perpendicular to the frame. The first fork terminal is adjacent the second fork terminal. The terminal assembly also includes a slot to receive a terminal of a fuse or relay, the slot being coplanar with the frame.

A power distribution system includes a panel assembly that has an outer surface and two conductive structures spaced from each other and spanning beneath the outer surface. An application module is configured to engage one of a plurality of locations disposed over the outer surface of the panel assembly. The application module includes a first contact configured to engage the first conductive structure and a second contact configured to engage the second conductive structure. The second contact is electrically insulated from the first contact and the first conductive structure for the panel assembly to deliver low voltage power to the engaged application module.