Remote control of energy consumption is realized using a readily installable, flexible approach. According to an example embodiment of the present invention, a remote source communicates with a wireless controller for executing energy usage control. The remote source sends signals to the wireless co
Remote control of energy consumption is realized using a readily installable, flexible approach. According to an example embodiment of the present invention, a remote source communicates with a wireless controller for executing energy usage control. The remote source sends signals to the wireless controller via a gateway located near or, in one implementation, forming part of the wireless controller. In response to the signals, the wireless controller sets control settings for operating one or more of a variety of equipment types, such as a furnace, air conditioner, water heater or heat pump. With this approach, wired connections from the gateway to energy-consuming equipment do not necessarily need to be made in order to effect remote energy-consumption control. For instance, when used in connection with a controller wired to the energy-consuming equipment, the gateway need only communicate wirelessly with the controller and does not necessarily need to be coupled to the energy-consuming equipment. In addition, access to the energy-consuming equipment for establishing remote energy control is not necessary; rather, the remote energy control can be effected by accessing user-friendly locations, such as those where thermostats and other controllers are typically located.
대표청구항▼
1. A thermostat for use in controlling an HVAC system of a building or other structure, the building or other structure having a gateway for receiving one or more load shedding messages from a utility, the thermostat comprising: a user interface for allowing a user to interact with the thermostat;a
1. A thermostat for use in controlling an HVAC system of a building or other structure, the building or other structure having a gateway for receiving one or more load shedding messages from a utility, the thermostat comprising: a user interface for allowing a user to interact with the thermostat;a wireless transceiver for wirelessly communicating with the gateway of the building or other structure, wherein the gateway is located remotely from the thermostat;a temperature sensor for sensing a temperature inside the building or other structure and for providing a signal related to the sensed temperature; a thermostat controller coupled to the user interface, the wireless transceiver and the temperature sensor, the thermostat controller having a control algorithm for controlling the HVAC system based, at least in part, on the signal provided by the temperature sensor, the control algorithm including a load shedding algorithm, wherein the thermostat controller employs the load shedding algorithm when the thermostat controller receives one or more load shedding messages from the remotely located gateway via the wireless transceiver;a thermostat housing and a thermostat base, wherein the thermostat housing is removably coupled to the thermostat base such that when the thermostat housing is coupled to the thermostat base, one or more electrical signals can be communicated between the thermostat housing and the thermostat base; andthe thermostat housing carrying the user interface, the temperature sensor and the thermostat controller, and the thermostat base carrying the wireless transceiver. 2. The thermostat of claim 1 wherein the thermostat base is configured to be mounted to an interior wall of the building or other structure. 3. The thermostat of claim 2 wherein the thermostat base includes one or more wire connectors, wherein the one or more wire connectors are configured to accept and retain one or more control wires from the HVAC system. 4. A thermostat for use in controlling an HVAC system of a building or other structure, the building or other structure having a gateway for receiving one or more load shedding messages from a utility, the thermostat comprising: a user interface for allowing a user to interact with the thermostat;a wireless transceiver for wirelessly communicating with the gateway of the building or other structure, wherein the gateway is located remotely from the thermostat;a temperature sensor for sensing a temperature inside the building or other structure and for providing a signal related to the sensed temperature; a thermostat controller coupled to the user interface, the wireless transceiver and the temperature sensor, the thermostat controller having a control algorithm for controlling the HVAC system based, at least in part, on the signal provided by the temperature sensor, the control algorithm including a load shedding algorithm, wherein the thermostat controller employs the load shedding algorithm when the thermostat controller receives one or more load shedding messages from the remotely located gateway via the wireless transceiver; andthe load shedding algorithm includes cycling the HVAC system in order to reduce the energy consumed. 5. A thermostat for use in controlling an HVAC system of a building or other structure, the building or other structure having a gateway for receiving one or more load shedding messages from a utility, the thermostat comprising: a user interface for allowing a user to interact with the thermostat;a wireless transceiver for wirelessly communicating with the gateway of the building or other structure, wherein the gateway is located remotely from the thermostat;a temperature sensor for sensing a temperature inside the building or other structure and for providing a signal related to the sensed temperature; a thermostat controller coupled to the user interface, the wireless transceiver and the temperature sensor, the thermostat controller having a control algorithm for controlling the HVAC system based, at least in part, on the signal provided by the temperature sensor, the control algorithm including a load shedding algorithm, wherein the thermostat controller employs the load shedding algorithm when the thermostat controller receives one or more load shedding messages from the remotely located gateway via the wireless transceiver;one or more of the load shedding messages provided to the thermostat controller from the remotely located gateway include a price tier; andthe thermostat controller is configured to display a message related to the price tier via the user interface. 6. A thermostat for use in controlling an HVAC system of a building or other structure, the building or other structure having a gateway for receiving one or more load shedding messages from a utility, the thermostat comprising: a user interface for allowing a user to control the thermostat;a wireless transceiver for wirelessly communicating with the gateway of the building or other structure, wherein the gateway is located remotely from the thermostat;a temperature sensor for sensing a temperature inside the building or other structure and for providing a signal related to the sensed temperature;a thermostat controller coupled to the user interface, the wireless transceiver and the temperature sensor, the thermostat controller having a control algorithm for controlling the HVAC system based, at least in part, on the signal provided by the temperature sensor, the control algorithm including a load shedding algorithm, wherein the thermostat controller employs the load shedding algorithm when the thermostat controller receives one or more load shedding messages from the remotely located gateway via the wireless transceiver;one or more wire connectors configured to accept and retain one or more control wires from the HVAC system;a thermostat housing and a thermostat base, wherein the thermostat housing is removably coupled to the thermostat base such that when the thermostat housing is coupled to the thermostat base, one or more electrical signals are communicated between the thermostat housing and the thermostat base; andthe thermostat housing carrying the user interface, the temperature sensor and the thermostat controller, and the thermostat base carrying the wireless transceiver and the one or more wire connectors.
Massara James M. (Dunwoody GA) Davis Glenn A. (Lilburn GA), Apparatus and method for controlling distribution of electrical energy to a space conditioning load.
Gerard Thomas J. (N. 1322 Post St. Spokane WA 99201), Apparatus and methods for determining required vacuum characteristics of a radon evacuation system.
Tanaka Seiichi (Yokohama JPX) Mawatari Masahiko (Yokohama JPX), Apparatus for reducing noise in a video signal by processing a luminance and chrominance component.
Monteath George D. (Tadworth GB2) Jones Arthur H. (Horsham GB2), Apparatus using a light sensing system for sensing time modulated information from a light emitting device.
Godau Ralf,DEX ; Dammann Eberhard,DEX ; Penzenstadler Fritz,DEX, Arrangement for the wireless exchange of data between a servicing device and a control unit in a motor vehicle.
Crooks Gerry ; Arnhold Ed ; Battista John ; Boni Ken ; Bowers Dan ; Feichtner Mark ; French Blaine ; Genzberger Janna ; Holmes David D. ; Kippenhan Larry ; Miller Dave ; Nanto Shawn ; Orr Teri ; Schl, Computerized resource accounting methods and systems, computerized utility management methods and systems, multi-user utility management methods and systems, and energy-consumption-based tracking met.
Vijaykumar Subramonie Monie ; Richard Daniel Hamann ; Stephen Duane Cook ; Premraj K. Mannikkath IN; Rajesh K. Vasudevan IN, Computerized system for controlling thermostats.
Hill Timothy J. (San Francisco CA) Marsh Robert M. (Berkeley CA) Newcomb Jesse C. (Mountain View CA), Conversion of higher resolution images for display on a lower-resolution display device.
Kidder Kenneth B. (Coon Rapids MN) Smith Gary A. (Albuquerque NM) Wacker Paul C. (St. Louis Park MN), Demand limit control by integral reset of thermostats.
Balanca Charles (Corbreuse FR) Charles Gilbert (Chatillon-sous-Bagneux FR), Device for automatic processing of signals recorded on an oscilloscope screen.
Aggers John R. (Apple Valley MN) Brindle Ralph C. (Minnetonka MN) Kidder Kenneth B. (Coon Rapids MN) Ullestad David C. (Brooklyn Park MN), Distributed environmental/load control system.
Venkatraman Chandrasekar ; Morgan Jeffrey A., Embedding web access mechanism in an appliance for user interface functions including a web server and web browser.
Liebl Ronald J. (Mukwonago WI) Bronikowski Alan J. (South Milwaukee WI) Holdorf Thomas C. (Mukwonago WI) Strojny Lawrence J. (Oostburg WI) Tellier Mark W. (Milwaukee WI), Energy control system.
Gurr, George P.; Matheson, Frederick A., Energy controller and method for dynamic allocation of priorities of controlled load curtailment to ensure adequate load sharing.
Brown ; Jr. Robert J. (6688 Serena La. Boca Raton FL 33433) Romanowiz James D. (2919 Banyan Rd. Boca Raton FL 33432) Staples Charles W. (270 NW. 36th St. Boca Raton FL 33431), Energy management and home automation system.
Michael Lee Simmons ; Dominick J. Gibino, Energy-saving occupancy-controlled heating ventilating and air-conditioning systems for timing and cycling energy within different rooms of buildings having central power units.
Hidary Jack D. ; Ullman Craig ; Spivack Nova T., Enhanced video programming system and method for incorporating and displaying retrieved integrated internet information.
Launey Reuel O. (Arlington VA) Grendler Peter A. (Silver Spring MD) Packham Donald L. (Fort Lauderdale FL) Battaglia James M. (Kettering MD) Levine Howard E. (Adelphi MD), Expandable home automation system.
Fenton Wayne (San Jose CA) Eaton Glenn A. (San Jose CA) McFadden Joseph A. (Palo Alto CA) Taylor Stuart A. (Menlo Park CA) Tracy Edward D. (Palo Alto CA) Wang Emil C. W. (Menlo Park CA), Graphical computer interface for an audio conferencing system.
Stedman, Roy William; Cox, Tim William; Knippa, Sharon Diane, Graphical interface, method, and system for the provision of diagnostic and support services in a computer system.
Krocker,Robert E.; Baier,Terence D.; Renaud,Merle A.; Rentmeester,Paul C.; Swanson,Robert M.; Wilson,Patrick J.; Johnson,Kirk W., HVAC service tool with internet capability.
Audebert Yves (Croissy-sur-Seine FRX) Delahaye Achille (Chennevieres-Sur-Marne FRX), Information transmission by the time modulation of a character display area.
Manson Larry J. (Baroda MI) McColgin Jerry L. (St. Joseph MI) Bentley John (St. Joseph MI) Palmer Mark (St. Joseph MI), Menu driven remote control for a room air conditioner.
Jacobs Michael A. (Naugatuck CT) Insero Mark A. (Waterbury CT), Method and apparatus for downloading information from a controllable light source to a portable information device.
Jacobs Michael A. (Naugatuck CT) Insero Mark A. (Waterbury CT), Method and apparatus for downloading information from a controllable light source to a portable information device.
Kucek, Leo Michael; Lamoureux, Thomas L.; Singh, Karamjeet, Method and apparatus for retrieving service task lists from remotely located medical diagnostic systems and inputting such data into specific locations on a table.
Brzezinski Philip S. (Middlebury CT) Dvorachek Thomas J. (Kensington CT), Method and apparatus for synchronizing data transfer rate from a cathode ray tube video monitor to a portable informatio.
Wewalaarachchi Bandu J.,SGX ; Gunasiri D. Aruna Sanjaya,SGX ; Gunasekera M. V. Priyantha,SGX ; Gunasingham Haritharan,SGX, Method and apparatus for the creation of personalized supervisory and control data acquisition systems for the management and integration of real-time enterprise-wide applications and systems.
Doherty Donald B. (Richardson TX) Gove Robert J. (Los Gatos CA), Method and system for accentuating intense white display areas in sequential DMD video systems.
Reisman, Richard R., Method and system for distributing updates by presenting directory of software available for user installation that is not already installed on user station.
Friedes Albert (East Brunswick NJ) Perea Carlos A. (Bethlehem PA) Tsao Yao-Chung (Middletown NJ), Method and system for mediating transactions that use portable smart cards.
Matsuda,Katsuhiko, Method for collecting remote maintenance and diagnostic data from subject equipment, other device and manufacturing execution system.
Diefendorff Keith E. (Austin TX) Anderson William C. (Austin TX), Method for executing graphics Z-compare and pixel merge instructions in a data processor.
Hartenstein, Steven D.; Tremblay, Paul L.; Fryer, Michael O.; Hohorst, Frederick A., Method, system and apparatus for monitoring and adjusting the quality of indoor air.
Debban, Jr., Harold P; Lever, Jr., Clyde Jefferson; Norris, Richard; Slaton, Dennis M; Small, Jr., Richard Dalton; Thomas, Phillip M; Weimann, Peter A, Optical fiber cable apparatus having encased ribbon stack.
Wilson Dennis A. (McHenry IL) Williamsen Mark S. (Crystal Lake IL), Peripheral data acquisition, monitor, and adaptive control system via personal computer.
Cherry Raymond L. (King County WA) Pfeiffer Gene F. (Lewis and Clark County MT) Maes Randell P. (King County WA), Portable, remote environmental control system.
Feron Paul (29 rue A.Delieux 31400 Toulouse FRX) Tougne Daniel (Cahors FRX), Power adapter for electrical installations and especially domestic installations.
Strom Stephen A. (Tempe AZ) Schnuelle Kenneth W. (Tempe AZ) Potwora William E. (Tempe AZ), Power line carrier communications system transformer bridge.
Bohrer,Philip J.; Merten,Gregory J.; Schnell,Robert J.; Atlass,Michael B., Profile based method for deriving a temperature setpoint using a 'delta' based on cross-indexing a received price-point level signal.
Bohrer, Philip J.; Merten, Gregory J.; Schnell, Robert J.; Atlass, Michael B., Profile based method for deriving a temperature setpoint using a `delta` based on cross-indexing a received price-point level signal.
Bohrer, Philip J.; Merten, Gregory J.; Schnell, Robert J.; Atlass, Michael B., Profile based method for deriving a temperature setpoint using a ‘delta’ based on cross-indexing a received price-point level signal.
Goldstein Steven W. (8901 Burdette Rd. Bethesda MD 20817), Programmable remote control device for interacting with a plurality of remotely controlled devices.
Johnson Sam (Sugarhill GA) Ashe Cecil W. (Eatontoh GA) Yates Jesse B. (Atlanta GA), Programmable vehicle monitoring and security system having multiple access verification devices.
Fimian Keith S. (Dunn Loring VA) McGreevy John E. (McLean VA) Fimian Brian P. (Falls Church VA) Tucker Richard W. (Timonium MD), Radon detection system.
Elliason Kurt L. (12725 54th Ave. North Plymouth MN 55422) Schnell Robert J. (15415 47th Ave. No. Plymouth MN 55446) Bohrer Philip J. (5900 Amy Dr. Edina MN 55436) Merten Gregory J. (3753 Windtree Dr, Real time and/shed load based on received tier pricing and direct load control with processors for each load.
Ramberg, Jon R.; Hunt, Jeffrey M.; Shoeman, Paul David; Katsandres, James T., Remote anomaly diagnosis and reconfiguration of an automatic data collection device platform over a telecommunications network.
Manson Larry J. (Baroda Township ; Berrien County MI) Paustian John K. (Millburg MI) Glotzbach Patrick J. (Ann Arbor MI), Remote control for diagnostics of an air conditioner.
Welty John (3753 S. Barrington #3 Los Angeles CA 90066), Remote control system for control of electrically operable equipment in people occupiable structures.
Adams John T. (Minneapolis MN) Meyer Jeffrey R. (Minneapolis MN), Self-adjusting recovery algorithm for a microprocessor-controlled setback thermostat.
Howard, Michael L.; Harper, Jr., William R., Service provider for providing data, applications and services to embedded devices and for facilitating control and monitoring of embedded devices.
Ito, Makoto; Takai, Tadashi; Taira, Tomotsune; Takagi, Masanori; Ito, Yukio, Service system for air conditioner and server system for monitoring center.
Pellon Leopold E. (Mt. Holly NJ), Sigma-delta analog-to-digital converter with filtration having controlled pole-zero locations, and apparatus therefor.
Ikei Mitsuru (Shimodate JPX) Hashimoto Masahiko (Shimodate JPX) Noguchi Takeshi (Shimodate JPX), Simultaneous data and electric power transmitting/receiving system.
Turin, Jody L.; Rusek, Jr., Stanley Joseph; Bowne, George A.; Seng, Jocelyn M., System and method for collecting and disseminating household information and for coordinating repair and maintenance services.
Seidensticker Robert B. ; Kim William E., System and method for transmitting data from a computer to a portable information device using RF emissions from a comp.
Mohrbacher Bernard K. (7086 Atwood Rd. Santa Barbara CA) Eventoff Franklin N. (7086 Atwood Rd. Feindale WA 98248), System for displaying and reading patterns displayed on a display unit.
Papadopoulos A. Dean ; Tanzman Allan ; Baker ; Jr. Richard A. ; Belliardi Rodolfo G. ; Dube Dennis J. W., System for remotely accessing an industrial control system over a commercial communications network.
Shiff Victor ; Fishman Neil S. ; Brzezinski Philip, System for remotely programming a portable information device using visible optical pattern transmitted from a display d.
Mitchell, Dennis B.; Lewis, Dennis G.; Head, James V. W., System, apparatus and method for providing a portable customizable maintenance support computer communications system.
Mitchell, Dennis B.; Lewis, Dennis G.; Head, James V. W., System, apparatus and method for providing maintenance instructions to a user at a remote location.
Domenikos Steven D. ; Domenikos George C., Systems and methods for executing application programs from a memory device linked to a server at an internet site.
Dara-Abrams, Joseph; Hofrichter, Klaus; Gauba, Ravi; Gaxiola, David G.; Ouyang, Jun, Using local devices as diagnostic tools for consumer electronic devices.
Sato Koji (Mishima JPX) Morita Makoto (Mishima JPX) Kizu Masafumi (Toyota JPX), Vehicle data processing system which can communicate with information center.
Salazar Joe Andrew ; Molero-Castro Luis,ESX, Wireless and wired communications, command, control and sensing system for sound and/or data transmission and reception.
De La Rosa, Angelica Maria; Perez, Leonard; Urban, Jennifer Marie; Paredes, Nicholas Marc, Display screen or portion thereof with graphical user interface for entering an order quantity.
Katz, Luis Alberto; Koppelmans, Henricus; Heydron, Paul Herman; Epperson, David Lawrence, Handheld devices, systems, and methods for measuring parameters.
Sinha, Sudhi; Ribbich, Joseph R.; Ribbich, Michael L.; Gaidish, Charles J.; Cipolla, John P., Multi-function thermostat with emergency direction features.
Ribbich, Joseph R.; Diptee, Vinosh C.; Abdala, Juilio A.; Ribeiro, Claudio Santiago; Gaidish, Charles J.; Kornacki, Michael F.; Cipolla, John P.; Sinha, Sudhi; Ribbich, Michael L., User control device with cantilevered display.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.