A top hat enclosure for use with an electrical panel, the electrical panel including at least one breaker and at least one panel pass-through aperture, includes a housing having at least one worker-accessible opening, a cover configured to cover the opening, and at least one enclosure pass-through aperture, wherein the enclosure pass-through aperture is configured to align with the panel pass-through aperture, and wherein the housing is configured to be disposed adjacent the electrical panel; and at least one finger-safe and/or tool-safe terminal configured to be wired to a breaker in the electrical panel through the enclosure pass-through aperture and the panel pass-through aperture.

A top hat enclosure for use with an electrical panel, the electrical panel including at least one breaker and at least one panel pass-through aperture, includes a housing having at least one worker-accessible opening, a cover configured to cover the opening, and at least one enclosure pass-through aperture, wherein the enclosure pass-through aperture is configured to align with the panel pass-through aperture, and wherein the housing is configured to be disposed adjacent the electrical panel; and at least one finger-safe and/or tool-safe terminal configured to be wired to a breaker in the electrical panel through the enclosure pass-through aperture and the panel pass-through aperture.

A kit includes one or more pairs of matching color-coded attachment members and tags. The attachment member is configured to be selectively retained to an electrical wire entering an electrical service panel. The corresponding color-coded tag is configured to be attached, such as through magnetic means, to a door of the electrical service panel. The tag includes pre-printed text thereon, which provides descriptive information regarding the electrical circuit formed by the wire to which the attachment member is associated. As such, the color-coding allows a homeowner or technician to easily identify which electrical circuit is controlled by a particular electrical circuit breaker.

A panelboard assembly for a harsh and/or hazardous environment is provided. The panelboard assembly includes a main breaker assembly, a first subpanel assembly, and a second subpanel assembly. The first subpanel assembly includes a first contactor assembly, and a first branch breaker assembly electrically connected to the first contactor assembly and configured to be electrically connected to a first group of loads. The first contactor assembly is configured to switch the first group of loads on and off all at once. The second subpanel assembly is electrically connected in parallel to the first subpanel assembly, and includes a second contactor assembly and a second branch breaker assembly electrically connected to the second contactor assembly and configured to be electrically connected to a second group of loads. The second contactor assembly is configured to switch the second group of loads on and off all at once.

A panelboard assembly for a harsh and/or hazardous environment is provided. The panelboard assembly includes a main breaker assembly, a first subpanel assembly, and a second subpanel assembly. The first subpanel assembly includes a first contactor assembly, and a first branch breaker assembly electrically connected to the first contactor assembly and configured to be electrically connected to a first group of loads. The first contactor assembly is configured to switch the first group of loads on and off all at once. The second subpanel assembly is electrically connected in parallel to the first subpanel assembly, and includes a second contactor assembly and a second branch breaker assembly electrically connected to the second contactor assembly and configured to be electrically connected to a second group of loads. The second contactor assembly is configured to switch the second group of loads on and off all at once.

A flexible and electrically conductive platform liner is provided for lining an aerial work platform. The platform liner is composed of a flexible and electrically conductive material, such that it is foldable for transport and storage. The platform liner is configured to be placed into the aerial work platform and electrically bonded to an energized power line during operation, such that the platform liner is held at a similar electrical potential to the energized power line.

Disclosed herein is a panelboard guard assembly configured to restrict access to a panelboard having a cover and a door defined therein, the cover having first and second side edges. The panelboard guard assembly includes overlapping members that are, at least in some implementations, mutually coupled to each other. The panelboard guard assembly further includes an adjustment mechanism that extends between and couples the members together, the adjustment mechanism facilitating adjustment of the distance between the outer ends of the members.

An electrical enclosure for an electrical device or instrument includes an enclosure body defining an interior that receives the electrical device or instrument, the enclosure body including a back wall. A mounting foot is disposed outside the enclosure body and attached to the back wall. The mounting foot includes a generally planar body defining a mounting fastener opening that receives a fastener to secure the mounting foot to a wall or other support structure. A panel fastener is attached to and extends forward from the mounting foot, through the back wall, and into the interior of the enclosure body. The panel fastener is used to secure an internal panel to the enclosure body within the interior of the enclosure body.

A locking bracket and a lock housing wherein the locking bracket generally comprises a clamping member and a fastening lever that attaches to a wall of a meter box base. The lock housing generally comprises a unitary member with a perpendicular flange. The meter box lid is secured to the meter box base when the locking bracket is secured to the side wall and used in combination with the lock housing and a locking shaft.

An electrical disconnect switch including an over-rotation protective feature to protect the load switch from damage is disclosed. The electrical disconnect switch may include an enclosure, a load switch, and a handle assembly coupled to the load switch. The disconnect switch may include a detent between the handle assembly and the load switch so that during excessive rotation or torqueing the handle assembly is permitted to decouple or break-away from the load switch to prevent excessive stress from being transferred to the load switch and thus prevent any damage to the load switch.