An electrical distribution module, including a plate that supports pedestals which in turn support power components and power bars connected to the power components. Each pedestal includes a base supporting uprights spaced apart from each other and bridges, each bridge connecting two consecutive uprights at a distance from the base to form an opening for a power bar to transition between the plate and the power components supported by the pedestal.

An electrical distribution module, including a plate that supports pedestals which in turn support power components and power bars connected to the power components. Each pedestal includes a base supporting uprights spaced apart from each other and bridges, each bridge connecting two consecutive uprights at a distance from the base to form an opening for a power bar to transition between the plate and the power components supported by the pedestal.

Method and apparatus for outdoor electrical cabinet adapted for installation in the field comprising: a rectangular base member comprising a plurality of pegs for positioning and retaining four rounded corner steel tube post members for supporting hardware for installing side panels and swinging hinged, lockable doors, and a top member resting on the side panels and secured in place with caps onto the tube post members.

Power pedestals with individual per side ground fault mains allow for service of breakers and receptacles without interrupting power to adjacent in-use power circuits and or boaters. In turn, ground fault mains eliminate the need for individual ground fault breakers tied to each receptacle. The power pedestals also allow for use of reverse Y adapters in the vessel to pedestal connection and allow for serviceability of single side or whole pedestal without disconnecting power to a string of pedestals on a loop feed circuits and can reduce overall cost of maintenance by eliminating costly individual ground fault breakers per-shore power connection.

Power pedestals with individual per side ground fault mains allow for service of breakers and receptacles without interrupting power to adjacent in-use power circuits and or boaters. In turn, ground fault mains eliminate the need for individual ground fault breakers tied to each receptacle. The power pedestals also allow for use of reverse Y adapters in the vessel to pedestal connection and allow for serviceability of single side or whole pedestal without disconnecting power to a string of pedestals on a loop feed circuits and can reduce overall cost of maintenance by eliminating costly individual ground fault breakers per-shore power connection.

A plate having an upper surface and a lower surface, a center point, and an outer perimeter. It further includes a plurality of clips for temporarily securing the plate in an opening in a landscape box. Each of the plurality of clips comprises a limb, extending vertically downward, the limb having the form of a rectangular plate and being upper bound by an upper edge and lower bound by a lower edge, wherein the upper edge is attached to the lower surface of the plate. The limb further includes a foot extending horizontally sideways from the lower edge.

A plate having an upper surface and a lower surface, a center point, and an outer perimeter. It further includes a plurality of clips for temporarily securing the plate in an opening in a landscape box. Each of the plurality of clips comprises a limb, extending vertically downward, the limb having the form of a rectangular plate and being upper bound by an upper edge and lower bound by a lower edge, wherein the upper edge is attached to the lower surface of the plate. The limb further includes a foot extending horizontally sideways from the lower edge.

A protective hood for outdoor electrical outlets or receptacles has an angled top surface, two side panels, and an angled bottom surface having an aperture. In one variant of the protective hood, the aperture in is configured to receive power cords for connection to an electrical outlet over which the protective hood has been mounted, such as an existing electrical outlet installed on a building wall or a power pedestal. In another variant of the protective hood, the aperture in the angled bottom surface is configured to allow an electrical outlet to be installed directly therein, but with the protective hood still being mountable over an electrical outlet on a building wall or power pedestal instead of having an electrical outlet installed in the aperture.

Disclosed herein is an apparatus for providing and monitoring a temporary electrical supply, which comprises a portable electrical panel with an array of circuit breakers, an array of electrical plugs for supplying a temporary source of electricity, and an array of amp and voltage meters that detect information needed for each corresponding phase. The Temporary Electrical Panel is supplied by a 50-amp cord and has a 40-amp main breaker. Each electrical plug is rated at 20 amps, tamper resistant, and GFCI protected, with a dedicated 20-amp breaker. The electrical plugs may also be color coded to differentiate which phase they are on. Additionally, the Temporary Electrical Panel comprises a plastic backing board with handle cut outs or a handle, which allow the Temporary Electrical Panel to be carried.

A node pedestal includes a box configured to house communication system components, a housing configured to be removably coupled with the box and having opposite end walls, a pair of supports extending from the box at opposite ends of the box, and a locking mechanism configured to latch the housing with the box. The locking mechanism includes a latch rotatingly mounted to a first one of the end walls and a catch extending from a first one of the supports in a direction toward a second one of the supports, and the latch is configured to engage the catch to secure the housing to the box.