A thermostat and related methods are described for controlling one or more functions, such as heating and cooling in an HVAC. According to some embodiments the thermostat includes a switching circuit for controlling an HVAC function, where closing the switching circuit activates the HVAC function. T
A thermostat and related methods are described for controlling one or more functions, such as heating and cooling in an HVAC. According to some embodiments the thermostat includes a switching circuit for controlling an HVAC function, where closing the switching circuit activates the HVAC function. The thermostat may also include power harvesting circuitry adapted and arranged to harvest power from the HVAC system, where during times when the HVAC function is active the switching circuit opens for a time interval. The power harvesting circuitry may harvest power from the HVAC system during the time interval, and the time interval may be short enough that the HVAC function remains activated without interruption during the time interval.
대표청구항▼
1. A thermostat comprising: a switching circuit for controlling a Heating, Ventilation, and Air Conditioning (HVAC) function of an HVAC system, wherein closing the switching circuit activates the HVAC function; andpower harvesting circuitry adapted and arranged to harvest power from the HVAC system,
1. A thermostat comprising: a switching circuit for controlling a Heating, Ventilation, and Air Conditioning (HVAC) function of an HVAC system, wherein closing the switching circuit activates the HVAC function; andpower harvesting circuitry adapted and arranged to harvest power from the HVAC system, wherein during times when the HVAC function is active, the switching circuit opens for a time interval, wherein the power harvesting circuitry: monitors a voltage associated with a charge level of a capacitive element;begins the time interval after the voltage is below a lower threshold;harvests power from the HVAC system to charge the capacitive element during the time interval; andends the time interval after the voltage exceeds an upper threshold, wherein the time interval is short enough that the HVAC function remains activated without interruption during the time interval. 2. The thermostat of claim 1, further comprising: a rechargeable battery; andcharging circuitry adapted and arranged to recharge the rechargeable battery using power harvested by the power harvesting circuitry. 3. The thermostat of claim 2, wherein the charging circuitry is adapted to charge the rechargeable battery such that longer cycle life is preferred over higher charge capacity. 4. The thermostat of claim 1, wherein the power harvesting circuitry is adapted and arranged to determine whether a common wire is available to the thermostat, and only harvest power from the HVAC system in cases where no common wire is available to the thermostat. 5. The thermostat of claim 1, wherein the power harvesting circuitry is further adapted and arranged to harvest power from the HVAC system during times when the HVAC function is inactive. 6. The thermostat of claim 1, wherein the power harvesting circuitry is adapted and arranged to automatically select the HVAC function from among one or more HVAC functions of the HVAC system. 7. The thermostat of claim 1, wherein during the time interval, the power harvesting circuitry charges one or more capacitive and/or magnetic elements to store electrical energy for use by the charging circuit and/or other operations in the thermostat. 8. The thermostat of claim 1, wherein the switching circuit comprises solid state switching components and circuitry adapted and arranged to quickly open and close. 9. The thermostat of claim 1, wherein the thermostat is adapted to control HVAC systems having more than one power transformer. 10. A method comprising: closing a switching circuit for controlling a Heating, Ventilation, and Air Conditioning (HVAC) function of an HVAC system, wherein closing the switching circuit activates the HVAC function;monitoring a voltage associated with a charge level of a capacitive element;opening the switching circuit for a time interval, wherein the time interval begins after the voltage is below a lower threshold;harvesting power from the HVAC system to charge the capacitive element during the time interval by power harvesting circuitry; andending the time interval after the voltage exceeds an upper threshold, wherein the time interval is short enough that the HVAC function remains activated without interruption during the time interval. 11. The method of claim 10, further comprising: charging, using charging circuitry, a rechargeable battery using power harvested by the power harvesting circuitry. 12. The method of claim 11, wherein the charging circuitry is adapted to charge the rechargeable battery such that longer cycle life is preferred over higher charge capacity. 13. The method of claim 10, wherein the power harvesting circuitry is adapted and arranged to determine whether a common wire is available to the thermostat, and only harvest power from the HVAC system in cases where no common wire is available to the thermostat. 14. The method of claim 10, wherein the power harvesting circuitry is further adapted and arranged to harvest power from the HVAC system during times when the HVAC function is inactive. 15. The method of claim 10, wherein the power harvesting circuitry is adapted and arranged to automatically select the HVAC function from among one or more HVAC functions of the HVAC system. 16. The method of claim 10, wherein during the time interval, the power harvesting circuitry charges one or more capacitive and/or magnetic elements to store electrical energy for use by the charging circuit and/or other operations in the thermostat. 17. The method of claim 10, wherein the switching circuit comprises solid state switching components and circuitry adapted and arranged to quickly open and close. 18. The method of claim 10, wherein the thermostat is adapted to control HVAC systems having more than one power transformer.
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