A method for generating charge for a service disconnect operation for an electric meter includes: charging a service disconnect capacitor for an electric meter to a voltage higher than a voltage provided by a power supply of the electric meter; monitoring the voltage on the service disconnect capacitor; receiving, by the electric meter, a service disconnect switch instruction signal; determining, based on the monitoring, whether the voltage on the service disconnect capacitor exceeds a specified voltage threshold value; and in response to receiving the service disconnect switch instruction signal and determining that the voltage on the service disconnect capacitor exceeds the specified voltage threshold value, discharging the service disconnect capacitor through windings of a service disconnect actuator. The service disconnect actuator may be configured to cause contacts of a service disconnect switch to change position to make or break a circuit connection between a line voltage and a load.

An electronic utility gas meter using MEMS thermal mass flow sensor to measure gas custody transfer data in city gas metering application is disclosed in the present invention. The meter is designed to have its mechanical connectors identical to those of the current diaphragm gas meters while the insertion metrology unit guided channel is placed coaxially in the main flow channel inside the meter body with gas flow conditioning apparatus. The mechanical installation of the electronic utility gas meter then can be fully compatible with the current mechanical utility gas meters, which allows a seamless replacement. The electronic utility gas meter provides gas metrology that significantly improves the accuracy of the city gas metering, and provides additional benefits for data safety, enhanced gas chemical safety, billing alternatives and full data management either locally or remotely.

An electronic utility gas meter using MEMS thermal mass flow sensor to measure gas custody transfer data in city gas metering application is disclosed in the present invention. The meter is designed to have its mechanical connectors identical to those of the current diaphragm gas meters while the insertion metrology unit guided channel is placed coaxially in the main flow channel inside the meter body with gas flow conditioning apparatus. The mechanical installation of the electronic utility gas meter then can be fully compatible with the current mechanical utility gas meters, which allows a seamless replacement. The electronic utility gas meter provides gas metrology that significantly improves the accuracy of the city gas metering, and provides additional benefits for data safety, enhanced gas chemical safety, billing alternatives and full data management either locally or remotely.

An appliance operation signal processing system comprises: an input for receiving an appliance operation signal, the appliance operation signal comprising information relating to operation of an appliance; an output for outputting information relating to a recall status of the appliance; and a processor configured to: monitor an input appliance operation signal for a change in magnitude; if a change is detected: identify a component event corresponding to the change; determine whether the component event is a designated sequence start component event; if the component event is determined to be a designated sequence start component event: extract one or more features from the input appliance operation signal between the sequence start component event and a sequence stop point; determine information relating to a recall status of the appliance by inputting the one or more features into a first algorithm.

An appliance operation signal processing system comprises: an input for receiving an appliance operation signal, the appliance operation signal comprising information relating to operation of an appliance; an output for outputting information relating to a recall status of the appliance; and a processor configured to: monitor an input appliance operation signal for a change in magnitude; if a change is detected: identify a component event corresponding to the change; determine whether the component event is a designated sequence start component event; if the component event is determined to be a designated sequence start component event: extract one or more features from the input appliance operation signal between the sequence start component event and a sequence stop point; determine information relating to a recall status of the appliance by inputting the one or more features into a first algorithm.

Various embodiments of methods and systems of proactive monitoring and metering of lighting devices are described herein. A light monitoring and metering system may include a specification database that stores the technical specification of the lighting device, a usage database that records the usage data of the lighting device, a data acquisition subsystem that obtains the identity of the lighting device in use, and a data processing subsystem that meters the usage or calculates the lumen output of the lighting device or the remaining lifetime of the driver of the light device.

Various embodiments of methods and systems of proactive monitoring and metering of lighting devices are described herein. A light monitoring and metering system may include a specification database that stores the technical specification of the lighting device, a usage database that records the usage data of the lighting device, a data acquisition subsystem that obtains the identity of the lighting device in use, and a data processing subsystem that meters the usage or calculates the lumen output of the lighting device or the remaining lifetime of the driver of the light device.

Continuous monitoring of an electric power system during testing of a primary electric power meter is described herein. Electric power system signals or test signals may be selectively supplied to the primary electric power meter. Electric power system signals may be supplied to a secondary meter while a test signal is applied to the primary electric power meter. The secondary meter may record and/or transmit monitoring functions and communicate the results of the monitoring functions to the primary electric power meter while the test signals are supplied to the primary electric power meter.

A resource monitor for monitoring consumption of a resource includes: a commissioning processor, configured to pair with a client device via a Bluetooth link, and configured to receive WIFI network credentials from the client device, and configured to transmit the credentials to commission the resource monitor onto the WIFI network, and configured to initiate communications with a resource server over the internet cloud; and a meter reading processor, that receives meter identifiers from the resource server via the internet cloud for resource meters within radio range, and that tunes a meter receiver to narrowband frequency channels to detect and decode radio signals transmitted by resource meters to extract the meter identifiers along with corresponding meter readings, and that periodically transmits the meter identifiers along with the corresponding meter readings to the resource server over the internet cloud.

A resource monitor for monitoring consumption of a resource includes: a commissioning processor, configured to pair with a client device via a Bluetooth link, and configured to receive WIFI network credentials from the client device, and configured to transmit the credentials to commission the resource monitor onto the WIFI network, and configured to initiate communications with a resource server over the internet cloud; and a meter reading processor, that receives meter identifiers from the resource server via the internet cloud for resource meters within radio range, and that tunes a meter receiver to narrowband frequency channels to detect and decode radio signals transmitted by resource meters to extract the meter identifiers along with corresponding meter readings, and that periodically transmits the meter identifiers along with the corresponding meter readings to the resource server over the internet cloud.