The electric meter interrupt device provides a means of connecting an external transfer switch and renewable and/or backup power sources at the nodes between the utility meter and the main panel. This method allows grid disconnect and whole home backup that almost never requires modification of an electrical panel or relocation of loads, using a UL approved transfer switch and overcurrent protection device. The device routes the entirety of available utility power away from the electric meter and then back into the electrical panel, allowing unprecedented control and capacity. Creating this “true bypass” allows for the introduction of renewable energy sources, battery power, and/or generator power sources.

A utility meter assembly having a base that is secured to a front cover. The assembly includes a dual locking system having a first locking position and a second locking position. In the first locking position, the front cover is removably secured with the base. In the second locking position, the front cover is permanently secured with the base to prevent separation of the two components unless one or both components are destroyed.

Systems, apparatus, methods, and techniques of assembly of discrete modules of a control panel are disclosed. The modules can be independently wired, tested, and installed into a control panel. Module definitions are defined specifying components to perform the electrical function, a mechanical arrangement of the components, electrical connections, and logical interactions of the module. A bill of materials can be generated based on a designation of a set of modules for a control panel and the module definitions. Modularly assembled control panels are disclosed. An assembly frame is described herein for temporarily mounting components of a module for independent assembly of a control module and for eventual removal and installation into a control panel frame. The assembly frame may include a faceplate frame and side frames and temporary mounting features.

Systems, apparatus, methods, and techniques of assembly of discrete modules of a control panel are disclosed. The modules can be independently wired, tested, and installed into a control panel. Module definitions are defined specifying components to perform the electrical function, a mechanical arrangement of the components, electrical connections, and logical interactions of the module. A bill of materials can be generated based on a designation of a set of modules for a control panel and the module definitions. Modularly assembled control panels are disclosed. An assembly frame is described herein for temporarily mounting components of a module for independent assembly of a control module and for eventual removal and installation into a control panel frame. The assembly frame may include a faceplate frame and side frames and temporary mounting features.

An electric meter includes a housing, a first set of connection paths, and a second set of connection paths. The first set of connection paths couple to a meter socket and are electrically coupled to a first electrical connection path between first phases of an electric distribution power source, a distributed energy resource device, and a load. First electrical metrology components of the first electrical connection path are positioned within a first segment of the housing. The second set of connection paths couple to a meter socket and are electrically coupled to a second electrical connection path between second phases of the electric distribution power source, the distributed energy resource device, and the load. Second electrical metrology components of the second electrical connection path are positioned within a second segment of the housing that is non-overlapping with the first segment of the housing.

An electric meter includes a housing, a first set of connection paths, and a second set of connection paths. The first set of connection paths couple to a meter socket and are electrically coupled to a first electrical connection path between first phases of an electric distribution power source, a distributed energy resource device, and a load. First electrical metrology components of the first electrical connection path are positioned within a first segment of the housing. The second set of connection paths couple to a meter socket and are electrically coupled to a second electrical connection path between second phases of the electric distribution power source, the distributed energy resource device, and the load. Second electrical metrology components of the second electrical connection path are positioned within a second segment of the housing that is non-overlapping with the first segment of the housing.

The enclosure mounting system is for hanging enclosures and includes a wall rail and a hanging rail. The enclosure mounting system can include an enclosure and a pair of rotary footings. The wall rail has a wave form pattern profile extending from a first end to a second end and is configured to mount to a surface. The hanging rail is configured to hang onto the mounted wall rail. The wall rail can include an at least one end segment that receives an end of a second wall rail. The at least one end segment receives a central segment of the second wall rail and the corresponding wave form pattern profile promotes self-aligning. The second wall rail is further aligned to the first wall rail by mounting the at least one end segment, with an end of the central segment of the second wall rail, to the surface.

The enclosure mounting system is for hanging enclosures and includes a wall rail and a hanging rail. The enclosure mounting system can include an enclosure and a pair of rotary footings. The wall rail has a wave form pattern profile extending from a first end to a second end and is configured to mount to a surface. The hanging rail is configured to hang onto the mounted wall rail. The wall rail can include an at least one end segment that receives an end of a second wall rail. The at least one end segment receives a central segment of the second wall rail and the corresponding wave form pattern profile promotes self-aligning. The second wall rail is further aligned to the first wall rail by mounting the at least one end segment, with an end of the central segment of the second wall rail, to the surface.

An electric meter socket includes a first connection path within the electric meter socket to form a first electrical connection between a distributed energy resource (DER) meter and line voltage wirings from an electric distribution system. The electric meter socket further includes a second connection path within the electric meter socket to form a second electrical connection between the DER meter and neutral wires of the electric distribution system, a DER device, and a load. Additionally, the electric meter socket includes a third connection path within the electric meter socket to form a third electrical connection between the DER meter and output voltage wirings of the DER device. Further, the electric meter socket includes a DER connector positioned on a side of the electric meter socket to receive the output voltage wirings of the DER device and to electrically couple the output voltage wirings to the third connection path.

An electric meter socket includes a first connection path within the electric meter socket to form a first electrical connection between a distributed energy resource (DER) meter and line voltage wirings from an electric distribution system. The electric meter socket further includes a second connection path within the electric meter socket to form a second electrical connection between the DER meter and neutral wires of the electric distribution system, a DER device, and a load. Additionally, the electric meter socket includes a third connection path within the electric meter socket to form a third electrical connection between the DER meter and output voltage wirings of the DER device. Further, the electric meter socket includes a DER connector positioned on a side of the electric meter socket to receive the output voltage wirings of the DER device and to electrically couple the output voltage wirings to the third connection path.