摘要:
The current application is directed to an intelligent-thermostat-controlled environmental-conditioning system in which computational tasks and subcomponents with associated intelligent-thermostat functionalities are distributed to one or more of concealed and visible portions of one or more intelligent thermostats and, in certain implementations, to one or more intermediate boxes. The intelligent thermostats are interconnected to intermediate boxes by wired and/or wireless interfaces and intelligent thermostats intercommunicate with one another by wireless communications. Wireless communications include communications through a local router and an ISP, 3G and 4G wireless communications through a mobile service provider. Components of the intelligent-thermostat-controlled thermostat-controlled environmental-conditioning system may also be connected by wireless communications to remote computing facilities.
摘要:
The current application is directed to an intelligent-thermostat-controlled environmental-conditioning system in which computational tasks and subcomponents with associated intelligent-thermostat functionalities are distributed to one or more of concealed and visible portions of one or more intelligent thermostats and, in certain implementations, to one or more intermediate boxes. The intelligent thermostats are interconnected to intermediate boxes by wired and/or wireless interfaces and intelligent thermostats intercommunicate with one another by wireless communications. Wireless communications include communications through a local router and an ISP, 3G and 4G wireless communications through a mobile service provider. Components of the intelligent-thermostat-controlled thermostat-controlled environmental-conditioning system may also be connected by wireless communications to remote computing facilities.
摘要:
A thermostat is described for controlling air temperature in a building. The time associated with causing the controlled air temperature to reach a target temperature is estimated and displayed to a user. Input from a user indicating the target temperature can be received and the estimating and displaying can be carried out in real time. The thermostat can be wall-mounted or the user input can be received and estimated time can be displayed using a remote device, for example that communicates wirelessly with other components of the HVAC system.
摘要:
A method is described for identifying faults relating to an HVAC system, such a clogged filter. Sensor data is used to estimate HVAC system efficiency. Trends in system efficiency are then used to identify faults such as clogged filters. The sensor(s) can include one or more of the following types: optical sensor, temperature sensor, pressure sensor, acoustic transducer, humidity sensor, resistive sensor, capacitive sensor, and infrared sensor. The efficiency estimation can also be based on conditions external to the building, such as data from exterior sensors and/or data gathered from third parties such as government or private weather stations. The efficiency estimation can also be based on performance metrics such as the time used to reach a set point temperature. The fault identification includes filtering out non-fault related events.
摘要:
Systems and methods are described for interactively and graphically displaying performance information to a user of an HVAC system controlled by a self-programming network-connected thermostat. The information is made on a remote display device such as a smartphone, tablet computer or other computer, and includes a graphical daily summary each of several days. In response to a user selection of a day, detailed performance information is graphically displayed that can include an indication of HVAC activity on a timeline, the number of hours of HVAC activity, as well as one or more symbols on a timeline indicating setpoint changes, and when a setpoint was changed due to non-occupancy.
摘要:
A thermostat for controlling an HVAC system and related systems, methods, and computer program products for facilitating user-friendly installation of the thermostat are described. For one embodiment, automated installation verification is performed by the thermostat by automatically sensing which wires have been inserted, selecting a candidate HVAC operating function (e.g., heating or cooling) that is consistent with a subset of HVAC signal types indicated by the inserted wires, applying control signals to the HVAC system to invoke that HVAC operating function, and processing a time sequence of acquired temperature readings to determine whether that HVAC operating function was successfully carried out. For one embodiment, the initial automated testing of the heating and cooling functions are only carried out at times for which such heating or cooling function would normally be invoked during normal operation of the thermostat. Automated determination of a heat pump call convention is also described.
摘要:
Systems, methods, and related computer program products for controlling one or more HVAC systems using a distributed arrangement of wirelessly connected sensing microsystems are described. A plurality of wirelessly communicating sensing microsystems is provided, each sensing microsystem including a temperature sensor and a processor, at least one of the sensing microsystems being coupled to an HVAC unit for control thereof. The plurality of sensing microsystems is configured to jointly carry out at least one shared computational task associated with control of the HVAC unit. Each sensing microsystem includes a power management circuit configured to determine an amount of electrical power available for dedication to the at least one shared computational task. The at least one shared computational task is apportioned among respective ones of the plurality of sensing microsystems according to the amount of electrical power determined to be available for dedication thereto at each respective sensing microsystem.
摘要:
Aspects of the present invention provide user interface methods for interacting with and managing network-connected thermostats through a thermostat management system. The user interface method identifies a primary enclosure associated with a thermostat management account with the remaining enclosures deemed secondary enclosures. The user interface displays the primary enclosure using a primary enclosure selection appearing in a foreground area of the user interface as a house and adjacent to thermostat selections representing each of the network-connected thermostats installed in the primary enclosure. In a background area of the user interface, a primary weather visual incorporates images of various weather patterns reflecting both a weather pattern in the vicinity of the primary enclosure and an approximate time of day at the geographic location of the primary enclosure. Secondary enclosure selections are visually deemphasized on the user interface when compared with the primary enclosure selection displayed on the user interface.
摘要:
Aspects of the present invention provide user interface methods for interacting with and managing network-connected thermostats through a thermostat management system. The user interface method identifies a primary enclosure associated with a thermostat management account with the remaining enclosures deemed secondary enclosures. The user interface displays the primary enclosure using a primary enclosure selection appearing in a foreground area of the user interface as a house and adjacent to thermostat selections representing each of the network-connected thermostats installed in the primary enclosure. In a background area of the user interface, a primary weather visual incorporates images of various weather patterns reflecting both a weather pattern in the vicinity of the primary enclosure and an approximate time of day at the geographic location of the primary enclosure. Secondary enclosure selections are visually deemphasized on the user interface when compared with the primary enclosure selection displayed on the user interface.