Systems and methods for enabling communication with a wired sensor are provided. A wired sensor may be adapted for wireless communication using a sensor interface. A sensor interface is communicatively coupled with a wired sensor that provides information about a detected environmental condition. Th
Systems and methods for enabling communication with a wired sensor are provided. A wired sensor may be adapted for wireless communication using a sensor interface. A sensor interface is communicatively coupled with a wired sensor that provides information about a detected environmental condition. The sensor interface wirelessly transmits information received from the wired sensor to a controller that may control an electrical load based on the wirelessly transmitted information.
대표청구항▼
1. A system for enabling wireless communication with a wired sensor, the system comprising: a power source for supplying continuous power to an electrical load device, operation of the electrical load device controlled by a controller; anda sensor interface communicatively coupled to a wired sensor,
1. A system for enabling wireless communication with a wired sensor, the system comprising: a power source for supplying continuous power to an electrical load device, operation of the electrical load device controlled by a controller; anda sensor interface communicatively coupled to a wired sensor, wherein the sensor interface: receives information indicating an environmental condition detected by the wired sensor, andwirelessly transmits the information received from the wired sensor to the controller, wherein the controller controls operation of the electrical load device based on the information wirelessly transmitted from the sensor interface. 2. The system of claim 1, further comprising a memory for storing preferences set by an administrator, the preferences concerning operational parameters of the sensor. 3. The system of claim 1, wherein the sensor interface is further configured to determine a type of environmental condition detected by the wired sensor. 4. The system of claim 3, wherein the sensor interface is further configured to analyze the received information based on the determined type. 5. The system of claim 1, wherein the sensor interface is further configured to set a threshold associated with the detected environmental condition and wherein the information is wirelessly transmitted to the controller when the threshold is met. 6. The system of claim 5, wherein the sensor interface is further configured to receive updates wirelessly sent from an administrator and wherein the threshold is updated based on the received updates. 7. The system of claim 5, wherein the threshold is further based on specified parameters concerning conditions other than the detected environmental condition. 8. The system of claim 1, wherein the electrical load device is a lighting fixture and controlling the electrical load device includes providing stepped lighting levels by individually activating one or more lights of a plurality of lights in the lighting fixture. 9. A method for enabling wireless communication with a wired sensor, the method comprising: monitoring a wired sensor for generation of a signal indicating detection of an environmental condition,receiving the signal from the wired sensor at a sensor interface, the signal including information regarding the environmental condition detected by the wired sensor; andwirelessly transmitting the information regarding the detected environmental condition from the sensor interface to a wireless controller, wherein the wireless controller controls operation of an electrical load device that receives continuous power from a power source, based on the information wirelessly transmitted from the sensor interface. 10. The method of claim 9, further comprising storing preferences in a memory associated with the sensor interface, the preferences concerning operational parameters of the sensor. 11. The method of claim 9, further comprising determining a type of environmental condition detected by the wired sensor. 12. The method of claim 11, further comprising analyzing the received information based on the determined type. 13. The method of claim 9, further comprising setting a threshold associated with the detected environmental condition, wherein the information is wirelessly transmitted to the controller when the threshold is met. 14. The method of claim 13, further comprising receiving updates wirelessly sent from an administrator and updating the threshold based on the received updates. 15. The method of claim 13, wherein the threshold is further based on specified parameters concerning conditions other than the detected environmental condition. 16. The method of claim 9, wherein the electrical load device is a lighting fixture, wherein the signal wirelessly transmitted to the controller indicates a detected lighting level, and wherein responsive control of the electrical load device includes providing stepped lighting levels by individually activating or deactivating one or more lights of a plurality of lights in the lighting fixture. 17. An apparatus for enabling wireless communication with a wired sensor, the apparatus comprising: a communication interface for: receiving a signal from a wired sensor determined to be present in the network, the signal including information regarding an environmental condition detected by the wired sensor;wirelessly transmitting the information regarding an environmental condition to a controller for controlling an electrical load device that receives continuous power from a power source, based on the information; anda memory to store information detected by the wired sensor. 18. The apparatus of claim 17, further comprising a processor for executing instructions stored in memory, wherein execution of the instructions by the processor: determines a type of environmental condition detected by the wired sensor; andanalyzes the received information based on the determined type, wherein analysis includes setting a threshold associated with the determined type of the detected environmental condition, wherein the information is wirelessly transmitted to the controller when the threshold is met. 19. The apparatus of claim 17, wherein the communication interface receives updates wirelessly sent from an administrator and wherein the threshold is updated based on the received updates.
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이 특허에 인용된 특허 (105)
Brewster,David B.; Healy,Timothy G., Aggregation of distributed energy resources.
Bae Hee H. (228-1 Sangsam-Ri Bogae-Myoen Ansung-Kun Kyungki-Do KRX), Centralized apparatus for displaying disordered locations of lighting fixtures and method of collecting information of t.
Mosebrook Donald R. ; Compton Richard C. ; Spira Joel S., Compact radio frequency transmitting and receiving antenna and control device employing same.
Seidl Neal John ; Divjak August Antony ; Kelkar Uday Ramchandra, Data structure for scheduled execution of commands in a facilities management control system.
Vrionis Nickolas G. (Los Altos CA) Siao Roger (Mountain View CA) Pezzolo Donald E. (Los Altos Hills CA) Pfeiffer James W. (Los Gatos CA) Bray Derek (Los Altos CA) Lincoln Larry A. (Milpitas CA), Dimmer for electrodeless discharge lamp.
Howell, Donald W.; Vinson, Mark W.; Blevins, Frank O.; Tamagni, Jr., Armand J.; Campbell, Michael L., Energy management system with security system interface.
Hanna Robert S. (Macungie PA) Hausman ; Jr. Donald F. (Emmaus PA) Houggy ; Jr. David E. (Allentown PA) Mosebrook Donald R. (Bethlehem PA) Spira Joel S. (Coopersburg PA), Lighting control device.
Howell, Donald W.; Vinson, Mark W.; Blevins, Frank O.; Tamagni, Jr., Armand J.; Campbell, Michael L., Lighting performance power monitoring system and method with optional integrated light control.
Mosebrook Donald R. ; Houggy David E. ; Palmer ; Jr. Robert G. ; Spira Joel S. ; Hausman ; Jr. Donald F. ; Moseley Robin C. ; Luchaco David G., Method and apparatus for controlling and determining the status of electrical devices from remote locations.
David P. Eckel ; Selin Tansi-Glickman ; Gaetano Bonasia ; Stephen P. Hebeisen ; James A. Porter, Network based electrical control system with distributed sensing and control.
Ference Jonathan H. (Kintnersville PA) Blonstein Steven M. (Allentown PA) Rowen Michael J. (Emmaus PA) Newman ; Jr. Robert C. (Emmaus PA), Power control circuit with phase controlled signal input.
Saito Takeshi,JPX ; Kamagata Eiji,JPX ; Kamatani Yukio,JPX ; Takabatake Yoshiaki,JPX, Power control method, power control system and computer program product for supplying power to a plurality of electric apparatuses connected to a power line.
Johnson, Benjamin A.; Mierta, Justin; Courtney, Brian Michael; Carmen, Jr., Lawrence R.; Raneri, Daniel Curtis, Procedure for addressing remotely-located radio frequency components of a control system.
Hamada,Osamu; Kakuda,Hiroshi; Nishimura,Koji; Sasai,Takashi; Odagiri,Kazuya, Radio communication apparatus and radio communication method, radio communication system, recording medium, and computer program.
Moseley Robin (Allentown PA) Spira Joel S. (Coopersburg PA) Karunaratne Arjuna (Santa Clara CA) Wylie John (Allentown PA) Barney Jonathan A. (Whitehall PA), Remotely controllable power control system.
Davis, James; Petite, Thomas D., System and method for controlling communication between a host computer and communication devices associated with remote devices in an automated monitoring system.
Bartone, Erik J.; Mendenhall, Jr., Ernest L.; McClutchy, Jr., John H.; Patel, Devang N., System and method for monitoring and controlling energy usage.
Balasubramaniam, Gnanagiri; Black, Richard Leo; Courtney, Brian Michael; Craze, Jason Douglass; Dejonge, Stuart William; Howe, William Harlan; Johnson, Benjamin Aaron; Kruse, Glen Andrew; Mosebrook, , System for control of devices.
Rowen Michael J. (Center Valley PA) Spira Joel S. (Coopersburg PA) D\Aleo Michael J. (Erwinna PA) Tucker Darryl W. (Royersford PA) Jacobs Russell J. (Center Valley PA) Graybill James R. (Allentown PA, Wall-mountable switch & dimmer.
Luchaco David G. (1362 Heather Cir. Macungie PA 18062) Yuhasz Stephen J. (Box 248 ; Rte. 1 Zionsville PA 18092) Buehler David (Spring Valley Rd. Bethlehem PA 18015) Tang Raphael K. T. (11 Frost Rd. B, Wireless control system.
Mueller, George G.; Lys, Ihor A.; Dowling, Kevin J.; Morgan, Frederick M.; Blackwell, Michael K.; Ducharme, Alfred D.; Osterhout, Ralph; Piepgras, Colin; Geary, Dawn; Holmes, Timothy, Wireless lighting control methods and apparatus.
Berman, Joel; Berman, Jan; Greenspan, Alex; Hebeisen, Stephen P.; Ramalingam, Muthukumar, Automated shade control system interaction with building management system.
Carrigan, Brian; Trainor, John J.; Chobot, Joseph P.; Deese, Matthew; Bryan, Keith, Handheld device that is capable of interacting with a lighting fixture.
Carrigan, Brian; Trainor, John J.; Chobot, Joseph P.; Deese, Matthew; Bryan, Keith, Handheld device that is capable of interacting with a lighting fixture.
Chemel, Brian J.; Piepgras, Colin; Kondo, Steve T.; Johnston, Scott D., LED lighting methods, apparatus, and systems including historic sensor data logging.
Chemel, Brian; Piepgras, Colin N.; Kondo, Steve T.; Johnston, Scott D., LED lighting methods, apparatus, and systems including rules-based sensor data logging.
Chemel, Brian J.; Piepgras, Colin; Kondo, Steve T.; Johnston, Scott D., LED-based lighting methods, apparatus, and systems employing LED light bars, occupancy sensing, and local state machine.
Chemel, Brian J.; Piepgras, Colin; Kondo, Steve T.; Johnston, Scott D., LED-based lighting methods, apparatus, and systems employing LED light bars, occupancy sensing, local state machine, and time-based tracking of operational modes.
Trott, Gary David; Pickard, Paul Kenneth; Lay, James Michael, Light fixtures, systems for controlling light fixtures, and methods of controlling fixtures and methods of controlling lighting control systems.
Chemel, Brian J.; Piepgras, Colin; Kondo, Steve T.; Johnston, Scott D., Lighting fixtures and methods via a wireless network having a mesh network topology.
Chemel, Brian J.; Piepgras, Colin; Kondo, Steve T.; Johnston, Scott D., Methods, apparatus, and systems for automatic power adjustment based on energy demand information.
Johnston, Scott D.; Elledge, Christopher; Medal, Hugh; Morgan, Frederick M.; Egan, John F., Methods, apparatuses, and systems for operating light emitting diodes at low temperature.
Chemel, Brian; Egan, John F.; Johnston, Scott D.; Kondo, Steve T.; Kuhn, Jesse F.; Massicotte, Matthew W.; Morgan, Frederick M.; Piepgras, Colin N.; Sick, Henry B.; Elledge, Christopher L., Methods, systems, and apparatus for intelligent lighting.
Chemel, Brian J.; Piepgras, Colin; Kondo, Steve T.; Johnston, Scott D., Methods, systems, and apparatus for mapping a network of lighting fixtures with light module identification.
Carrigan, Brian; Trainor, John J.; Chobot, Joseph P.; Deese, Matthew; Bryan, Keith, Switch module for controlling lighting fixtures in a lighting network.
Huizenga, Charles; Paton, John Douglas; Smith, Zachary; Corr, Michael G.; Sudini, Mahathi; Schmuckal, Peter, System for and method of commissioning lighting devices.
Huizenga, Charlie; Paton, John Douglas; Smith, Zachary; Corr, Michael G.; Sudini, Mahathi; Schmuckal, Peter, System for and method of commissioning lighting devices.
Huizenga, Charles; Paton, John Douglas; Smith, Zachary; Corr, Michael G.; Sudini, Mahathi; Schmuckal, Peter, System for and method of commissioning lighting devices within a wireless network.
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