A user-friendly, network-connected learning thermostat is described. The thermostat is made up of (1) a wall-mountable backplate that includes a low-power consuming microcontroller used for activities such as polling sensors and switching on and off the HVAC functions, and (2) separable head unit th
A user-friendly, network-connected learning thermostat is described. The thermostat is made up of (1) a wall-mountable backplate that includes a low-power consuming microcontroller used for activities such as polling sensors and switching on and off the HVAC functions, and (2) separable head unit that includes a higher-power consuming microprocessor, color LCD backlit display, user input devices, and wireless communications modules. The thermostat also includes a rechargeable battery and power-stealing circuitry adapted to harvest power from HVAC triggering circuits. By maintaining the microprocessor in a “sleep” state often compared to the lower-power microcontroller, high-power consuming activities, such as learning computations, wireless network communications and interfacing with a user, can be temporarily performed by the microprocessor even though the activities use energy at a greater rate than is available from the power stealing circuitry.
대표청구항▼
1. A thermostat, comprising: a frustum-shaped shell body having a circular cross-section and a central axis generally perpendicular to a wall when the thermostat is wall-mounted, the frustum-shaped shell body comprising a sidewall that extends along a length of the central axis between first and sec
1. A thermostat, comprising: a frustum-shaped shell body having a circular cross-section and a central axis generally perpendicular to a wall when the thermostat is wall-mounted, the frustum-shaped shell body comprising a sidewall that extends along a length of the central axis between first and second ends of the frustum-shaped shell body, the first end of the frustum-shaped shell body being wall-facing when the thermostat is wall-mounted, the second end of the frustum-shaped shell body being user-facing when the thermostat is wall-mounted, the sidewall comprising inside and outside surfaces, the inside surface defining an interior for housing components of the thermostat;a circular rotatable ring mounted proximate the second end of the frustum-shaped shell body, the circular rotatable ring having an axis of rotation generally perpendicular to the wall when the thermostat is wall-mounted, the circular rotatable ring being user rotatable about the axis of rotation, wherein the circular rotatable ring rotatable slides about a frame of the thermostat, the circular rotatable ring having an inwardly extending lip or edge surface that is parallel to the wall when the thermostat is wall mounted, said inwardly extending lip or edge being positioned within a groove of the frame, and wherein a corresponding bearing surface of the frame is greased or otherwise lubricated to smooth and dampen rotational movement of the circular rotatable ring;a circular cover mounted proximate the second end of the frustum-shaped shell body, the circular cover having a central axis generally perpendicular to the wall when the thermostat is wall-mounted, the circular cover comprising a clear circular center portion surrounded by a colored outer portion;at least one temperature sensor for use in sensing an ambient air temperature;a plurality of HVAC (heating, ventilation, and air conditioning) wire terminals configured to receive a plurality of HVAC wires;a dot-matrix color display element mounted at a location between the second end of the frustum-shaped shell body and the circular cover, the dot-matrix color display element and the circular cover not rotating when the circular rotatable ring is rotated and the thermostat is wall-mounted; anda processing system provided in operative communication with the plurality of HVAC wire terminals, the circular rotatable ring, the dot-matrix color display element, and the at least one temperature sensor, the processing system configured to:cause the dot-matrix color display element to display a numerical value representative of a temperature value;determine a user-selected temperature value based on user rotation of the circular rotatable ring; andsend a control signal to the HVAC system via at least one of the HVAC wire terminals based at least in part on a comparison of a user-selected temperature value and the sensed ambient temperature;wherein said outside surface of said frustum-shaped shell body sidewall has a metallic appearing finish and wherein said sidewall increases in diameter along the central axis from the first end of the frustum-shaped shell body to the second end of the frustum-shaped shell body such that an acute angle is formed exterior to the thermostat between the outside surface of the sidewall and the wall when the thermostat is wall-mounted, whereby a naturally blending visual appearance of the thermostat with the wall is promoted by virtue of the frustum-shaped shell body, the metallic-appearing finish, and the acute angle when the thermostat is mounted to the wall; andwherein the dot-matrix color display element is non-circular and the clear circular center portion of the circular cover permits a circular portion of the non-circular dot-matrix color display element to be visible through the circular cover, the colored outer portion of the circular cover masking a remaining portion of the non-circular dot-matrix color display element so as to create a circular graphical user interface. 2. The thermostat of claim 1, the thermostat further comprising: a wall-mountable back plate configured to detachably couple to the second end of the frustum-shaped shell body so as to provide electrical power to the processing system and the dot-matrix color display element, the back plate comprising:the plurality of HVAC wire terminals configured to receive the plurality of HVAC wires; labels associated with the wire connectors to aid thermostat installation; anda bubble level to aid level wall mounting of the thermostat. 3. The thermostat of claim 1, the thermostat further comprising: a passive infrared (PIR) sensor that senses infrared radiation to detect a proximal user presence, wherein the processing system is configured to activate the dot-matrix color display element upon receiving a signal indicating the proximal user presence from the PIR sensor. 4. The thermostat of claim 3, wherein the PIR sensor is located within the thermostat on a vertical axis that perpendicularly intersects the central axis and extends vertically in a direction parallel to the wall when the thermostat is wall-mounted. 5. The thermostat of claim 1, the thermostat further comprising: an audio output device to output sound. 6. The thermostat of claim 5, wherein the processing system is configured to cause the audio-output device to output synthesized audible ticks in correspondence with user rotation of the circular rotatable ring. 7. The thermostat of claim 6, wherein the non-circular dot-matrix color display presents the numerical value representative of the temperature value substantially centered on the central axis. 8. The thermostat of claim 1, wherein the at least one temperature sensor comprises: a first temperature sensor that senses a first temperature; anda second temperature sensor located in a different location within the thermostat than the first temperature sensor relative to one or more heat generating internal components of the thermostat, the second temperature sensor sensing a second temperature, wherein the processing system is configured to calculate the ambient temperature using said first and second sensed temperatures. 9. The thermostat of claim 1, wherein an exterior surface of the thermostat formed by said frustum-shaped shell body and said circular cover is free of vents and grilles. 10. A thermostat, comprising: a frustum-shaped shell body having a circular cross-section and a central axis generally perpendicular to a wall when the thermostat is wall-mounted, the frustum- shaped shell body comprising a sidewall that extends along a length of the central axis between first and second ends of the frustum-shaped shell body, the first end of the frustum-shaped shell body being wall-facing when the thermostat is wall-mounted, the second end of the frustum-shaped shell body being user-facing when the thermostat is wall-mounted, the sidewall comprising inside and outside surfaces, the inside surface defining an interior for housing components of the thermostat, the outside surface of the sidewall having a metallic appearing finish, the sidewall increasing in diameter along the central axis from the first end of the frustum-shaped shell body to the second end of the frustum-shaped shell body such that an acute angle is formed exterior to the thermostat between the outside surface of the sidewall and the wall when the thermostat is wall-mounted, whereby a naturally blending visual appearance of the thermostat with the wall is promoted by virtue of the frustum-shaped shell body, the metallic-appearing finish, and the acute angle when the thermostat is mounted to the wall;a circular rotatable ring mounted proximate the second end of the frustum-shaped shell body, the circular rotatable ring comprising an axis of rotation generally perpendicular to the wall when the thermostat is wall-mounted, the circular rotatable ring being user rotatable about the axis of rotation, wherein the circular rotatable ring rotatable slides about a frame of the thermostat, the circular rotatable ring having an inwardly extending lip or edge surface that is parallel to the wall when the thermostat is wall mounted, said inwardly extending lip or edge being positioned within a groove of the frame, and wherein a corresponding bearing surface of the frame is greased or otherwise lubricated to smooth and dampen rotational movement of the circular rotatable ring;a circular cover mounted proximate the second end of the frustum-shaped shell body, the circular cover comprising a central axis generally perpendicular to the wall when the thermostat is wall-mounted, the circular cover comprising a clear circular center portion surrounded by a colored outer portion;at least one temperature sensor for use in sensing an ambient air temperature;a plurality of HVAC (heating, ventilation, and air conditioning) wire terminals configured to receive a plurality of HVAC wires;a passive infrared (PIR) sensor that senses infrared radiation to detect a proximal user presence;a dot-matrix color display element mounted at a location between the second end of the frustum-shaped shell body and the circular cover, the dot-matrix color display element and the circular cover do not rotate when the circular rotatable ring is rotated and the thermostat is wall-mounted;a processing system provided in operative communication with the plurality of HVAC wire terminals, the PIR sensor, the circular rotatable ring, the dot-matrix color display element, and the at least one temperature sensor, the processing system configured to: activate the dot-matrix color display element upon receiving a signal indicating the proximal user presence from the PIR sensor; cause the dot-matrix color display element to display a numerical value representative of a temperature value; determine a user-selected temperature value based on user rotation of the circular rotatable ring; and send a control signal to the HVAC system via at least one of the HVAC wire terminals based at least in part on a comparison of a user-selected temperature value and the sensed ambient temperature. 11. The thermostat of claim 10, the thermostat further comprising: a wall-mountable back plate configured to detachably couple to the second end of the frustum-shaped shell body so as to provide electrical power to the processing system and the dot-matrix color display element, the back plate comprising:the plurality of HVAC wire terminals configured to receive the plurality of HVAC wires; labels associated with the wire connectors to aid thermostat installation; and a bubble level to aid level wall mounting of the thermostat. 12. The thermostat of claim 10, wherein the PIR sensor is located within the thermostat on a vertical axis that perpendicularly intersects the central axis and the vertical axis extends vertically when the thermostat is wall-mounted. 13. The thermostat of claim 10, wherein: the dot-matrix color display element is non-circular and the clear circular center portion of the circular cover permits a circular portion of the non-circular dot-matrix color display element to be visible through the circular cover; and the colored outer portion of the circular cover masks a remaining portion of the non-circular dot-matrix color display element so as to create a circular graphical user interface. 14. The thermostat of claim 10, the thermostat further comprising: an audio output device to output sound. 15. The thermostat of claim 14, wherein the processing system is configured to cause the audio-output device to output synthesized audible ticks in correspondence with user rotation of the circular rotatable ring. 16. The thermostat of claim 15, wherein the non-circular dot-matrix color display presents the numerical value representative of the temperature value centered on the central axis. 17. The thermostat of claim 10, wherein the at least one temperature sensor comprises: a first temperature sensor that senses a first temperature; and a second temperature sensor located in a different location within the thermostat than the first temperature sensor relative to one or more heat generating internal components of the thermostat, the second temperature sensor sensing a second temperature, wherein the processing system is configured to calculate the ambient temperature using the first and second sensed temperatures. 18. The thermostat of claim 10, wherein an exterior surface of the thermostat formed by the frustum-shaped shell body and the circular cover is free of vents and grilles.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (45)
Carner, Gary A.; Hesse, Bradley J.; Schultz, Kurt V., Apparatus and method for wireless control.
Agrawal Prathima ; Chen Jyh-Cheng ; Kishore Shalinee ; Sivalingam Krishna M., CDMA mobile station wireless transmission power management with adaptive scheduling priorities based on battery power level.
Payne, Peter P.; Schmidt, Stephan E.; Powers Goppel, Kristin; King, Darrell J.; Tobin, Stephen M.; Fowler, J. Thomas, Constant current flame ionization circuit.
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.
DiTucci Joseph ; Phelps Stephen K. ; Zabielski Martin F., Fail safe gas furnace optical flame sensor using a transconductance amplifier and low photodiode current.
Beilfuss Robert C. (Coppell TX) Lanier David M. (Richardson TX) Bammel Stanley E. (Duncanville TX) Huang Terry J. (Garland TX) Banks David M. (Richardson TX), Ignition control system for a gas appliance.
Mierzwinski Eugene P. (Ft. Wayne IN) Grunden Michael T. (Ft. Wayne IN) Youtz Stephen E. (Ft. Wayne IN), Integrated furnace control and control self test.
Grunden Michael T. (Fort Wayne IN) Youtz Stephen E. (Fort Wayne IN) Mierzwinski Eugene P. (Fort Wayne IN), Integrated furnace control having ignition and pressure switch diagnostics.
Grunden Michael T. (Fort Wayne IN) Youtz Stephen E. (Fort Wayne IN) Mierzwinski Eugene P. (Fort Wayne IN), Integrated furnace control having ignition switch diagnostics.
Mueller, Carl J.; Toth, Bartholomew L.; Albanello, Frank A., Method and apparatus for automatically transmitting temperature information to a thermostat.
Catanese ; Jr. Anthony T. (724 First St. Mamaroneck NY 10543) DiMaggio Anthony (Lake Carmel NY), Method and apparatus for fail-safe control of at least one electro-mechanical or electro-hydraulic component.
Schanin,David J.; van der Hoop,Daniel Bernard, Method and apparatus for power management control of a cooling system in a consumer accessible appliance.
Brown Bernard T. (St. Louis County MO) Perry David L. (Jefferson County MO) Jaeschke Horst E. (Jefferson County MO) Patil Krishna H. (St. Louis County MO), Programmable digital thermostat with means for enabling temporary connection of a battery thereto.
McHugh Thomas K. (127 Hewett Rd. Wyncote PA 19095) Steadman ; Jr. Arthur L. (4727 Melon St. Philadelphia PA 19139), Setpoint limiting for thermostat, with tamper resistant temperature comparison.
Kaminski Donald F. (Sidney OH), Storage battery monitoring and recharging control system with automatic control of prime mover driving charging generato.
Zekan Boze N. (11 Boese Court St. Catharines ; Ontario CAX L2N 7E7) Dellasmirra Luciano (40 Sumbler Road Welland ; Ontario CAX L3C 3N9), Switched mode power supply for single-phase boost commercial AC users in the range of 1 kw to 10 kw.
Mirza, Muhammad Ali; Thorson, Timothy H., System and method of use for a user interface dashboard of a heating, ventilation and air conditioning network.
Butler William P. (St. Louis MO) Toth Bartholomew L. (Crestwood MO), Thermostat providing electrical isolation therein between connected heating and cooling transformers.
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.