An electric meter in a utility box is capable of detecting arcing conditions between meter blades and a meter socket in the utility box at a premises. The electric meter includes a current-transformer structure forming an enclosed space. An arc detection antenna can be placed in the enclosed space along with the current transformer. The current-transformer structure is placed on a baseplate of the electric meter near the blades connected to the meter socket. Leads of the arc detection antenna are electrically connected to an arc detection circuit configured to detect arcing conditions based on the signal received from the arc detection antenna. If it is determined that the arcing condition is present, the electric meter may be activated to interrupt the connection between the power source and the premises.

Techniques for detecting hot socket conditions in utility electricity meters include acquiring, by an electricity meter, first signal readings of one or more first signals associated with a first type of communications between the electricity meter and one or more first devices; acquiring, by the electricity meter, second signal readings for one or more second signals associated with a second type of communications between the electricity meter and one or more second devices, the second type of communications being different from the first type of communications; performing, by the electricity meter, one or more operations on the first signal readings and the second signal readings to determine whether a hot socket condition is present; and performing, by the electricity meter, a remedial operation in response to determining that the one or more operations indicate that the hot socket condition is present.

An electric energy meter includes a plurality of first terminals for receiving a measure of current of each of one or more phases of power and a plurality of second terminals for receiving a measure of voltage of each of one or more phases of power. A controller is configured to analyze the measure of current and the measure of voltage of each of the one or more phases of power in order to detect power quality issues in one or more of the one or more phases of power. For each of the detected power quality issues, the controller is configured to determine whether the detected power quality issue is caused by a utility generating the power or a consumer consuming the power and to communicate a message indicating the detected power quality issues via a communications port operably coupled to the controller.

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.

Various embodiments include a method for operating a hazard notification system including a plurality of notification appliances connected to a bus system, each notification appliance having a signal element and an activatable energy consumption simulation unit comprising: receiving a switchover telegram at each notification appliance; attaching the respective energy consumption simulation unit of each notification appliance to the bus system in place of the signal element; measuring an energy consumption resulting in the bus system due to the activation of each energy consumption simulation unit in the course of a load test; comparing the measured energy consumption with predefined comparison values; and generating an alarm signal or a fault message as a function of the result of the comparison.

A method identifies a duration of power interruptions in an electrical monitoring system. The method includes receiving, with an external monitoring system, a load profile from an electric meter that includes at least one of an accumulated frequency measurement and an accumulated number of zero crossing events that the electric meter records in an AC power signal during a predetermined monitoring period, and identifying a total duration of at least one power interruption during the predetermined monitoring period based on at least one of a deviation of the accumulated frequency measurement in the load profile from a predetermined accumulated frequency value or a deviation of the accumulated number of zero crossing events in the load profile from a predetermined number of zero crossing events during the predetermined monitoring period.

Techniques described enable a modular communication card to alert of its removal from a device. A method described herein includes monitoring, at a modular communication card for sending communications from a utility meter, a power fail signal received from a card of the utility meter. According to the method, the modular communication card monitors a power supply signal that supplies power to components of the modular communication card while the modular communication card is installed on the utility meter. The method includes detecting a change in the power fail signal, indicating a loss of power. The method further includes detecting that the power supply signal is outside an operational voltage range. The method further includes, responsive to the change and the power supply signal being outside, determining that the modular communication card has been removed from the utility meter. Additionally, the method includes transmitting an alert indicating the removal.

The present general inventive concept is directed to a method and system to generate a power signal, including summing a non-inverted reference signal and an inverted feedback signal to output a non-inverted first summation signal, summing an inverted reference signal and a non-inverted feedback signal to output an inverted second summation signal, receiving the first summation signal at a non-inverted input of a differential power output driver, and the second summation signal at an inverted input of the differential power output driver, outputting a non-inverted power signal to a first terminal of an impedance load from a non-inverted output of the differential power output driver, and outputting an inverted power signal to a second terminal of the load from an inverted output of the differential power output driver, the non-inverted power signal also being used as the non-inverted feedback signal, and the inverted power signal also being used as the inverted feedback signal.

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.

A method of evaluating the accuracy of an electricity meter, the method comprising: a preliminary stage comprising a step of acquiring first measurements of a first electrical magnitude, and a step of detecting a period of stability; a test stage comprising a step of injecting a test current into a conductor of the electricity meter, and a step of acquiring at least one second measurement of the first electrical magnitude; an evaluation stage comprising a step of comparing the second measurement of the first electrical magnitude with the sum of a first stability value representative of the first electrical magnitude during the period of stability plus a predefined value corresponding to the expected increase in the first electrical magnitude due to injecting the test current, and a step of evaluating the accuracy of the meter from said comparison.