A system having a host unit and a plurality of stacked modules which are electrically connected to the host unit. The host unit communicates with the plurality of stacked modules through a RS-485 interface. Upon power up, each module of the plurality of stacked modules is powered and enumerated in sequence, allowing the host unit to know the sequence the plurality of stable modules are connected.

A system having a host unit and a plurality of stacked modules which are electrically connected to the host unit. The host unit communicates with the plurality of stacked modules through a RS-485 interface. Upon power up, each module of the plurality of stacked modules is powered and enumerated in sequence, allowing the host unit to know the sequence the plurality of stable modules are connected.

An assembly or adapter configured to provide a supply-side interconnect of electrical power to a distribution board. The adapter may be incorporated internal or external to the distribution board, by occupying the space of one or more circuit breakers, inserting an adapter into a meter termination socket, or the like. The adapter includes terminals provided to route the conductors from the utility to a breakout panel (or subpanel) for adding power devices as a supply side interconnect, and back to a regular route that may go through the meter and/or the main circuit breaker, and on to the loads. A switching component may provide an inline configuration that configures the conductors for backup function, and a parallel configuration that is a parallel interconnecting route when utility service is available.

An assembly or adapter configured to provide a supply-side interconnect of electrical power to a distribution board. The adapter may be incorporated internal or external to the distribution board, by occupying the space of one or more circuit breakers, inserting an adapter into a meter termination socket, or the like. The adapter includes terminals provided to route the conductors from the utility to a breakout panel (or subpanel) for adding power devices as a supply side interconnect, and back to a regular route that may go through the meter and/or the main circuit breaker, and on to the loads. A switching component may provide an inline configuration that configures the conductors for backup function, and a parallel configuration that is a parallel interconnecting route when utility service is available.

A utility meter includes an electrical conductor portion, a service switch, and a heat sink. The electrical conductor portion provides electrical communication between a supply line terminal and a load line terminal, and the supply line terminal electrical communication an electrical source. The service switch is selectively operable to interrupt electrical communication between the supply line terminal and the load line terminal. The heat sink is in thermal communication with the electrical conductor portion to dissipate heat generated by a current passing through the electrical conductor portion between the supply line terminal and the load line terminal.

A utility meter includes an electrical conductor portion, a service switch, and a heat sink. The electrical conductor portion provides electrical communication between a supply line terminal and a load line terminal, and the supply line terminal electrical communication an electrical source. The service switch is selectively operable to interrupt electrical communication between the supply line terminal and the load line terminal. The heat sink is in thermal communication with the electrical conductor portion to dissipate heat generated by a current passing through the electrical conductor portion between the supply line terminal and the load line terminal.

A wireless, non-invasive equipment for the monitoring of current flow directly in the wiring of the photovoltaic installations without having to cut the wire, that aims to remotely monitor and send the current readings of the wiring coming out of the photovoltaic solar panels, without having to disconnect the wires is disclosed. It consists in a portable housing, including inside a control circuit with its corresponding microprocessor and its DC/DC. The microprocessor is connected to different Hall effect sensors in order to measure the current flow through the wires of the installation and a RIFD reader for the identification of the installation. The equipment has a wireless communications module that sends the measured values together with the identification code of the installation.

A wireless, non-invasive equipment for the monitoring of current flow directly in the wiring of the photovoltaic installations without having to cut the wire, that aims to remotely monitor and send the current readings of the wiring coming out of the photovoltaic solar panels, without having to disconnect the wires is disclosed. It consists in a portable housing, including inside a control circuit with its corresponding microprocessor and its DC/DC. The microprocessor is connected to different Hall effect sensors in order to measure the current flow through the wires of the installation and a RIFD reader for the identification of the installation. The equipment has a wireless communications module that sends the measured values together with the identification code of the installation.

The present invention relates to an apparatus and method for securing a box cover to a watthour meter socket box and relates to an apparatus, a system including a ring and fracturable locking system, in some embodiments, and method for securing a watthour electrical meter to a socket meter box. A locking sealing ring comprises an annular band, wherein a body portion of the annular band comprises a first band portion and a second band portion, and wherein the first band portion comprises a first ring end and the second band portion comprises a second ring end. A first tab is disposed on the first ring end and comprises a connector member. A second tab is disposed on the second ring end with the second tab comprising a receiver member, and wherein the connector member is adapted for connection with the receiver member. A fracturable retainer is provided comprising a body defining a passageway therethrough, wherein the passageway is configured to receive at least a portion of the first and second tabs, and wherein the fracturable retainer is adapted to inhibit access to at least the connector

The present invention relates to an apparatus and method for securing a box cover to a watthour meter socket box and relates to an apparatus, a system including a ring and fracturable locking system, in some embodiments, and method for securing a watthour electrical meter to a socket meter box. A locking sealing ring comprises an annular band, wherein a body portion of the annular band comprises a first band portion and a second band portion, and wherein the first band portion comprises a first ring end and the second band portion comprises a second ring end. A first tab is disposed on the first ring end and comprises a connector member. A second tab is disposed on the second ring end with the second tab comprising a receiver member, and wherein the connector member is adapted for connection with the receiver member. A fracturable retainer is provided comprising a body defining a passageway therethrough, wherein the passageway is configured to receive at least a portion of the first and second tabs, and wherein the fracturable retainer is adapted to inhibit access to at least the connector