LANDIS+GYR, INC. Patent applications |
Patent application number | Title | Published |
20150260759 | TAMPERING DETECTION FOR AN ELECTRIC METER - A tamper detection system for an electricity meter includes an antenna, an RF signal level circuit, and a controller. The antenna is configured to receive an RF signal. The RF signal level circuit is supported within an electricity meter housing and is operatively connected to the antenna. The RF signal level circuit is configured to detect the RF signal received by the antenna and to provide a strength signal corresponding to a magnitude of the RF signal. The controller is supported within the electricity meter housing, and is operatively connected to the RF signal level circuit. The controller is configured to generate an RF signal strength value based at least in part on the strength signal, and to generate a tamper flag responsive at least in part to a determination that the RF signal strength value exceeds a threshold value. | 09-17-2015 |
20150226769 | Magnetic Method to Detect Cover Removal in a Meter - An arrangement for use in a utility meter includes a sensor and a processing circuit supported by a base of the meter, and a magnetic element carried by the cover of the meter, in which the cover is removably mounted to the base. The sensor includes at least two magnetizable elements, such as inductors, that are magnetized at opposite polarities when the meter is closed and operable. The magnetizable elements are positioned in very close proximity so that as cover is removed the magnetic element passes the elements to cause the magnetizable elements to assume the same polarity. The processing circuit continuously polls the magnetizable elements to evaluate their respective polarities and is configured to issue a tamper indication when the detected polarities are the same. | 08-13-2015 |
20150061886 | ELECTRICITY METER ISOLATED PHYSICAL LAYER ETHERNET INTERFACE - A metering arrangement includes at least a first and second meter. The first meter includes a first metrology circuit, an Ethernet controller, and an isolation circuit. The first metrology circuit has a first data interface. The Ethernet controller has an Ethernet port and a conversion circuit coupled to convert Ethernet standard signals having a first communication protocol to signals of a second communication protocol. The isolation circuit is coupled between the Ethernet controller and the first data interface. The Ethernet controller is operably coupled to communicate data with the first data interface via the isolation circuit, and the conversion circuit is further operably coupled to communicate data via the first data port. The second meter includes a second metrology circuit having a second data interface operably connected to a second data port. The second data port is operably coupled to communicate data with the first data port. | 03-05-2015 |
20140333292 | Self-Shielded Di/Dt Transformer for a Meter - A sensor includes a core, first and second windings, an integrating amplifier circuit and a DC balancing circuit. The first and second windings are wrapped around the core. The integrating amplifier circuit has a first input coupled to the first winding, and an output operably coupled to the second winding. The DC balancing circuit is operably coupled between the output of the integrating amplifier circuit and the first input of the integrating amplifier circuit. | 11-13-2014 |
20140333290 | Method for Improving Common Mode Rejection in a Rogowski Coil-Based Circuit - A sensor includes a non-magnetic core having a first winding wrapped thereon. The first winding has a center tap dividing the first winding into a first winding portion and a second winding portion. The center tap is coupled to a reference voltage. The first winding portion and the second winding portion are configured to sense first AC signals, and have a balanced susceptibility to second AC signals. The differential integrating circuit is configured to provide common mode rejection of the second AC signals. The differential integrator circuit is operably coupled to the first winding portion and the second winding portion. | 11-13-2014 |
20140309956 | UTILITY METER HAVING COMPRESSED DATA LOGGING - A method for storing information within a utility meter includes generating in a processing circuit first information regarding a metered quantity delivered to a load corresponding to a first period of time. The method also includes obtaining a first value associated with one of a plurality of predetermined ranges of values in which the first information falls. The method further includes generating in a processing circuit a second value representative of a numerical position of the first information within the one of the plurality of predetermined ranges of values. The first value and the second value are stored in a memory. | 10-16-2014 |
20140247036 | Utility Meter with Wireless Pulse Output - An arrangement for measuring electrical energy consumption includes an input circuit operable to generate a first signal representative of a line voltage waveform and a second signal representative of a line current waveform. The arrangement further includes a processing circuit operable to generate energy consumption data based on the first signal and the second signal. The processing circuit is further operable to generate a first pulse waveform having a plurality of output pulses based on the energy consumption data, each output pulse corresponding to a quantity of energy consumed. The arrangement further includes a wireless transmitter coupled to the processing circuit, the wireless transmitter configured to transmit an RF signal each time the first pulse waveform changes state. | 09-04-2014 |
20140125316 | MECHANICAL SWITCH ACTIVITY DETECTION ON POWER OUTAGE - A circuit arrangement for use in a utility meter includes a mechanical switch, a processor device, and a latch circuit. The mechanical switch has a closed position and an open position, and is supported by a meter housing. The mechanical switch is operably coupled to generate a close signal when the mechanical switch is in the closed position. The processor device has a first processor input and a second processor input. The first processor input is operably coupled to receive the close signal. The latch circuit is operably coupled to receive the close signal and generate a latched signal responsive thereto. The latch circuit is configured to latch the latched signal for a predetermined time, the predetermined time corresponding to a wake-up time of the processor device. The latch circuit is operably coupled to provide the latched signal to the second processor input. | 05-08-2014 |
20140091946 | METER DISPLAY DURING POWER INTERRUPTION - A circuit arrangement for use in a utility meter includes a processing circuit, a magnetically-actuated switch, and a first circuit. The processing circuit has a first mode and a second mode. The processing circuit performs a first set of metering operations related to energy metering in the first mode, and a second set of operations in the second mode or sleep mode. The second set of operations has fewer operations than the first set of operation, and requires less energy. The switch has is coupled to provide a first output signal to the processing circuit. The first circuit is configured to generate a pulse signal responsive to the switch transitioning states, and is operably coupled to provide the pulse signal to the processing circuit. The processing circuit causes display of stored values responsive to receiving the pulse and receiving the first output signal. | 04-03-2014 |
20140002169 | EARLY NOTIFICATION OF POWER LOSS IN THREE PHASE METER | 01-02-2014 |
20130293219 | Power Management Arrangement and Method in a Utility Meter - A system includes a utility meter housing, a power supply, a non-volatile memory, an energy storage device, and a control circuit. The utility meter housing includes metrology circuitry configured to generate metering data regarding electrical power provided to the load. The energy storage device is operably coupled to the power supply. The control circuit is operably coupled to receive power generated by the power supply and receive power from the energy storage device. The control circuit is configured to: receive a first bias power signal; erase first metering information stored in the non-volatile memory; process, subsequent to erasing the first memory location, metering data received from the metrology circuit; receive a first interruption signal indicative of an interruption of power in the power supply; and store, responsive to receiving the first interruption signal, second metering information in the non-volatile memory using power from the energy storage device. | 11-07-2013 |
20130242445 | Service Voltage Load Protection in an Electric Utility Meter - An arrangement for controllably disconnecting a utility power service from a load includes a utility meter housing, a switch and a processing circuit. The utility meter housing includes metrology circuitry configured to generate metering information regarding electrical power provided to the load. The switch is configured to controllably interrupt a connection between the utility power service and the load. The switch has an open state and a closed state. The processing circuit is configured to determine whether a line voltage varies from an expected value by more than a predetermined amount over a predetermined amount of time. The processing circuit is further configured to cause a change in state of the switch based on the determination. | 09-19-2013 |
20130241532 | Power Management Arrangement and Method in a Utility Meter - A method of controllably disconnecting a utility power service from a load includes generating in a metrology circuit of a meter metering information regarding electrical power provided to the load from the utility power service. The meter includes a service switch having a controller to controllably interrupt a connection between the utility power service and the load. The method also includes connecting an energy storage device to the controller responsive to a service disconnect command. The method further includes connecting at least a portion of the metrology circuit to the energy storage device and disconnecting a meter power supply from the portion of the metrology circuit responsive to a power interruption detection signal. | 09-19-2013 |
20130115901 | Utility Meter Power Arrangements and Methods - An arrangement for providing power in a utility meter includes a power supply and at least one capacitor. The power supply is configured to convert input AC voltage to a DC bias voltage, and is further configured to provide the bias voltage to metering circuitry within the utility meter. The metering circuitry includes an analog to digital converter and at least one processor. The capacitor is operably coupled to provide power to the RF transmitter at least when power requirements of the RF transmitter exceed an amount of power available from the power supply. | 05-09-2013 |
20130093418 | Magnetic Tampering Detection and Correction in a Utility Meter - An arrangement for use in an electricity meter includes a sensor and a processing circuit. The sensor is supported directly or indirectly by a meter housing. The sensor is configured to measure a magnetic field in proximity to a current sensor of the electricity meter. The sensor is also configured to generate a measurement signal representative of, at least in part, a magnitude of the magnetic field. The processing circuit is operably coupled to receive first information representative of the measurement signal. The processing circuit is configured to obtain a first value representative of the magnetic field based on the first information, and determine a first adjustment value responsive to a determination that the first value exceeds the first threshold value. The processing circuit is further configured to generate energy consumption information based at least in part on the first adjustment value. | 04-18-2013 |
20130054165 | METHOD AND ARRANGEMENT FOR CONTROLLING DC POWER OUTPUT IN UTILITY METER - An electricity meter comprises a voltage sensor configured to determine an AC line voltage. A measurement circuit is coupled to the voltage sensor and is configured to determine energy consumption data based at least in part on the AC line voltage. A communications device is coupled to the measurement circuit and is configured to transmit the energy consumption data to a remote location. The electricity meter further includes a power supply configured to provide a DC voltage to the communications device. A switch is positioned between the power supply and the communications device. A switch controller is coupled to the measurement circuit and is configured to control the switch and the associated DC voltage supplied to the communications device depending at least in part on the AC line voltage. | 02-28-2013 |
20130021021 | UTILITY METER WITH CAPACITOR CHARGING CIRCUIT - A capacitor charging circuit is provided in a utility meter. The utility meter includes a measurement circuit configured to provide consumption data, a memory configured to store the consumption data from the measurement circuit, and a communications device configured to transmit the consumption data to a remote location. The utility meter also includes a power supply configured to supply an unregulated DC voltage and a regulated voltage within the utility meter. The regulated DC voltage is output from a voltage regulator and is provided to the measurement circuit. The unregulated DC voltage is supplied to the communications device. The capacitor charging circuit is configured to charge a capacitor with the unregulated DC voltage when the regulated DC voltage is provided to the charging circuit from the voltage regulator. The capacitor charging circuit may be a supercapacitor charging circuit. | 01-24-2013 |
20120150462 | Detection of Magnetic Fields Using Leading Power Factor - An electricity meter includes a sensor circuit, a measurement circuit, a leading PF detection circuit and a control circuit. The sensor circuit is operably connected to detect voltage and current provided to a load, and generates corresponding voltage and current measurement signals. The measurement circuit is configured to generate energy consumption information based on the voltage and current measurement signals. The leading PF detection circuit is configured to generate a first value representative of a phase difference of the current measurement signal with respect to the voltage measurement signal, and to generate a leading PF detection signal responsive to determining that the first value corresponds to a leading power factor that leads unity power factor by more than a predetermined threshold. The control circuit stores an indication in memory responsive at least in part to the leading PF detection signal. | 06-14-2012 |
20120079870 | Shock Detection in a Utility Meter Having Reporting Capability - An arrangement for use in a utility meter includes an accelerometer, a processing circuit, and a source of power. The accelerometer is configured to detect impact force on a utility meter housing. The processing circuit is operably coupled to receive information representative of detected shock events from the accelerometer, and is configured to store information regarding detected shock events in a non-volatile memory. The source of power is independent of a main meter power supply, and is operably connected to the processing circuit. | 04-05-2012 |
20120074927 | Electronic Tamper Detection in a Utility Meter Using Magnetics - An arrangement for use in a utility meter includes a switch, a processing circuit, and a magnetic element. The switch is supported on a first meter structure. The switch has at least a first and second state. The switch is configured to transition from a first state to a second state responsive to a detected magnetic field of a first polarity, and to transition from a second state to a first state responsive to a detected magnetic field of a second polarity. The processing circuit is operably coupled to determine whether the switch is in the first state or the second state. The magnetic element is supported on a second meter structure configured to be physically connected to the first meter structure, the magnetic element positioned such that removal of the second meter structure from the first meter structure causes the magnetic element to expose the switch to a magnetic field of the first polarity. | 03-29-2012 |
20110246106 | Utility Meter With Wireless Pulse Output - An arrangement for measuring electrical energy consumption includes an input circuit operable to generate a first signal representative of a line voltage waveform and a second signal representative of a line current waveform. The arrangement further includes a processing circuit operable to generate energy consumption data based on the first signal and the second signal. The processing circuit is further operable to generate a first pulse waveform having a plurality of output pulses based on the energy consumption data, each output pulse corresponding to a quantity of energy consumed. The arrangement further includes a wireless transmitter coupled to the processing circuit, the wireless transmitter configured to transmit an RF signal each time the first pulse waveform changes state. The arrangement also includes an external device positioned remote from the electrical utility meter, the external device including a receiver configured to receive the RF signal. | 10-06-2011 |
20110242715 | Power Management Arrangement and Method in a Utility Meter - An arrangement for controllably disconnecting a utility power service from a load includes a utility meter housing, a service switch, an energy storage device and a control circuit. The utility meter housing includes metrology circuitry configured to generate metering information regarding electrical power provided to the load. The service switch is configured to controllably interrupt a connection between the utility power service and the load, and has a controller. The control circuit is configured to cause the energy storage device to be connected to the controller responsive to a service disconnect command. The control circuit is further configured to cause a portion of the metrology circuit to be connected to the energy storage device and the meter power supply to be disconnected from the portion of the metrology circuit responsive to a power interruption detection signal. | 10-06-2011 |
20110196631 | Method of Timing Demand and Time-of-Use Functionality with External Clock Source - A method of associating chronological time with energy consumption includes a step of storing in a utility meter a plurality of energy consumption values, each energy consumption value corresponding to a time interval of a first type. The method also includes obtaining from a source external to the utility meter chronological time information regarding at least one of the plurality of energy consumption values. The method further includes associating each of the energy consumption values with a time interval of the second type, each time interval of the second type associated with at least one chronological time value. | 08-11-2011 |
20110193569 | Oscillator Circuit with RF Suppression - An oscillator circuit includes a phase-locked loop, a crystal resonator, first and second capacitors, and first and second impedance elements. The phase-locked loop is coupled between a first node and a second node. The crystal resonator is also coupled between the first node and the second node. The first capacitor is coupled between the first node and ground, and the second capacitor is coupled between the second node and ground. The first impedance element is coupled in a first circuit path from the first node to ground through the first capacitor. The second impedance element is coupled in a second circuit path from the second node to ground through the second capacitor. | 08-11-2011 |
20110121664 | Fault Tolerant Service Switch Operation in a Utility Meter - An arrangement for controllably disconnecting a utility power service from a load includes a meter housing, a service switch, an electrically-powered source of motive force, and energy storage device, and a charging circuit. The meter housing includes metrology circuitry configured to generate metering information regarding electrical power provided to the load. The service switch is configured to controllably interrupt a connection between the utility power service and the load. The electrically-powered source of motive force is configured to cause the service switch to controllably interrupt the connection between the utility power service and the load. The energy storage device is operably connected to provide power to the electrically-powered source of motive force. The charging circuit is configured to provide charging energy to the energy storage device. The energy storage device is configured to provide sufficient power to the electrically-power source of motive force after being at least partially charged by the charging circuit. The arrangement further includes a control circuit configured to provide a first signal to a first switch operably connecting the energy storage device to the electrically powered source of motive force, and to provide a second signal to a second switch operably connecting the charging circuit to the energy storage device. The control circuit is configured to receive a disconnect command signal, and to provide the second signal and the first signal in sequence responsive to receiving the disconnect command signal. | 05-26-2011 |
20110095625 | Fault Tolerant Service Switch Operation in a Utility Meter - An arrangement for controllably disconnecting a utility power service from a load includes a meter housing, a service switch, an electrically-powered source of motive force, and energy storage device, and a charging circuit. The meter housing includes metrology circuitry configured to generate metering information regarding electrical power provided to the load. The service switch is configured to controllably interrupt a connection between the utility power service and the load. The electrically-powered source of motive force is configured to cause the service switch to controllably interrupt the connection between the utility power service and the load. The energy storage device is operably connected to provide power to the electrically-powered source of motive force. The charging circuit is configured to provide charging energy to the energy storage device. The energy storage device is configured to provide sufficient power to the electrically-power source of motive force after being at least partially charged by the charging circuit. The arrangement further includes a control circuit configured to provide a first signal to a first switch operably connecting the energy storage device to the electrically powered source of motive force, and to provide a second signal to a second switch operably connecting the charging circuit to the energy storage device. The control circuit is configured to receive a disconnect command signal, and to provide the second signal and the first signal in sequence responsive to receiving the disconnect command signal. | 04-28-2011 |
20100283452 | Apparatus and Method for Measuring Real Time Clock Accuracy in an Electric Meter - An arrangement for measuring an internal clock within an electricity meter includes an optical communication circuit within the meter, an optical detector external to the meter, and a frequency counter. The optical communication circuit within the electricity meter is operably coupled to receive a pulse output of the meter's internal clock, and is further configured to generate a corresponding optical pulse representative of the pulse output. The optical detector is configured to detect the pulse output via an optical port of the electricity meter. The frequency counter is operably coupled to receive from the optical detector a signal that is representative of the detected pulse output. | 11-11-2010 |
20100174490 | Seismic Detection in Electricity Meters - An arrangement for recording seismic events includes an electricity meter sensor circuit, a digital processing circuit, and an accelerometer operably connected to the digital processing circuit. The accelerometer is configured to provide signals representative of seismic information to the digital processing circuit. A memory is configured to store data records relating to at least some of the seismic information. | 07-08-2010 |
20100045479 | REMOTE COMMUNICATIONS FEEDBACK FOR UTILITY METER - A utility meter comprises a measurement circuit configured to measure consumption, a remote communications port, a local communications port, and a meter communications indicator. The meter communications indicator is configured to provide an indication that the meter is communicating with a remote device external to the meter over the remote communications port. The meter communications indicator is also configured to provide an indication that the meter is communicating with a local device external to the meter over the local communications port. The indication that communications are occurring over the local communications port is different from the indication that communications are occurring over the remote communications port. In at least one embodiment, the communications indicator is configured to provide an indication that communications are occurring simultaneously over the remote communications port and the local communications port. | 02-25-2010 |
20100036625 | Temperature Profiling in an Electricity Meter - An arrangement for use in a utility meter includes a temperature sensor, a memory device, a communication circuit, and a processing circuit. The processing circuit is operably coupled to receive information representative of temperature measurements from the temperature sensor. The processing circuit is configured to store first temperature information associated with a first time period in a first data record in the memory device, the first temperature information derived from one or more of the temperature measurements. The processing circuit is further configured to store subsequent temperature information associated with corresponding subsequent time periods in corresponding other data records in the memory device. The processing circuit is also configure to periodically cause the communication circuit to communicate information representative of the first temperature information and the subsequent temperature information to an external device. | 02-11-2010 |
20100036624 | STRESS CONDITION LOGGING IN UTILITY METER - An arrangement includes a utility meter housing that contains or supports a first sensor, a second sensor, and a processing circuit. The first sensor is configured to measure a first parameter, the first parameter relating to an environmental condition within the meter housing. The second sensor is configured to measure a second parameter. The processing circuit is operably connected to the first sensor and to the second sensor, and is configured to record information relating to one or more events, each event corresponding to a detection of an out of range condition by each of the first sensor and the second sensor. | 02-11-2010 |
20100007522 | Programming of a Demand Triggered Service Disconnect Device from a Threshold in Amps - A first embodiment is an arrangement, such as a meter programming device, that includes a memory, a user interface, a communication interface, and a processing circuit. The user interface arrangement is configured to receive user input. The communication interface is configured to communicate with a corresponding communication interface on a utility meter. The processing circuit is configured by software stored in the memory to: receive a user input at the user interface identifying a disconnect threshold as a measure of current; generate a disconnect threshold value as a function of the user input and a service voltage; and provide the disconnect threshold value to the utility meter via the communication interface. | 01-14-2010 |
20090015234 | Full wave linear power supply voltage boost circuit - A power supply arrangement for an electricity meter includes an input, a full wave rectifier, and a voltage doubler circuit. The input is configured to receive a periodical input signal. The full wave rectifier is coupled to the input and has a first output. The first output is coupled to a first load of the electricity meter. The voltage doubler circuit is coupled to the input and has a second output coupled to a second load of the electricity meter. The voltage doubler is configured to prevent the flow of current from the second output to the input. | 01-15-2009 |