An apparatus management system determines whether temporary operation is possible or not when an abnormality of an apparatus occurs, and performs the temporary operation when possible. The apparatus management system includes a storage unit, an acquisition unit, and an operation content determination unit. The storage unit stores information on repair of the apparatus in association with the abnormality occurring in the apparatus. The acquisition unit acquires the information on the repair of the apparatus and writes the information in the storage unit. The operation content determination unit determines operation content of the temporary operation. The information on the repair of the apparatus includes information on a repair request for the abnormality of the apparatus. The operation content determination unit determines the operation content of the temporary operation in accordance with whether the repair request is present or not.

An apparatus management system determines whether temporary operation is possible or not when an abnormality of an apparatus occurs, and performs the temporary operation when possible. The apparatus management system includes a storage unit, an acquisition unit, and an operation content determination unit. The storage unit stores information on repair of the apparatus in association with the abnormality occurring in the apparatus. The acquisition unit acquires the information on the repair of the apparatus and writes the information in the storage unit. The operation content determination unit determines operation content of the temporary operation. The information on the repair of the apparatus includes information on a repair request for the abnormality of the apparatus. The operation content determination unit determines the operation content of the temporary operation in accordance with whether the repair request is present or not.

An HVAC controller provides control values to or more output ports of the HVAC controller. Operation of the HVAC controller is monitored for one or more irregularities. When one or more irregularities in the operation are identified, a hold mode is entered. The hold mode includes holding the one or more current control values on the one or more output ports of the HVAC controller until the one or more irregularities in the operation of the HVAC controller are corrected or a predetermined hold time expires, whichever occurs first. When the one or more irregularities in the operation of the HVAC controller are not corrected before the predetermined hold time expires, a back off mode is entered. The back off mode includes setting each of one or more control values on one or more output ports of the HVAC controller to a corresponding configurable back off value.

An HVAC controller provides control values to or more output ports of the HVAC controller. Operation of the HVAC controller is monitored for one or more irregularities. When one or more irregularities in the operation are identified, a hold mode is entered. The hold mode includes holding the one or more current control values on the one or more output ports of the HVAC controller until the one or more irregularities in the operation of the HVAC controller are corrected or a predetermined hold time expires, whichever occurs first. When the one or more irregularities in the operation of the HVAC controller are not corrected before the predetermined hold time expires, a back off mode is entered. The back off mode includes setting each of one or more control values on one or more output ports of the HVAC controller to a corresponding configurable back off value.

A refrigeration cycle apparatus includes a refrigerant circuit including a compressor, a condenser, a pressure reducing device, and an evaporator connected by a refrigerant pipe. A refrigerant including a refrigerant having flammability is used as refrigerant circulating in the refrigerant circuit. The evaporator and the pressure reducing device are accommodated in a unit. The evaporator is disposed in the unit in such a manner that a linear distance between a refrigerant inlet of the evaporator and a refrigerant outlet of the pressure reducing device is shorter than a linear distance between a refrigerant outlet of the evaporator and the refrigerant outlet of the pressure reducing device.

A building system operates to receive building data from one or more building data sources associated with the building, wherein at least a portion of the building data is associated with control of the one or more environmental conditions of the building and generate, based on the building data, one or more data quality indicators for the building data received from the one or more building data sources, the one or more data quality indicators indicating quality levels of the building data. The building system operates to generate user interface data configured to cause a user device to display a user interface providing indications of the one or more data quality indicators.

A building system operates to receive a first building health indicator indicating a health level of the building and a second building health indicator indicating the health level of the building, the first building health indicator generated based on a first methodology defined by a first entity and the second building health indicator generated based on a second methodology defined by a second entity different from the first entity, the first building health indicator and the second building health indicator generated based on building data. The building system operates to generate user interface data configured to cause a user device to display a user interface indicating the first building health indicator and the second building health indicator together on a display of the user device.

A building system operates to receive building data from one or more building data sources associated with the building, wherein at least a portion of the building data is associated with control of the one or more environmental conditions of the building and generate, based on the building data, one or more data quality indicators for the building data received from the one or more building data sources, the one or more data quality indicators indicating quality levels of the building data. The building system operates to generate user interface data configured to cause a user device to display a user interface providing indications of the one or more data quality indicators.

The present disclosure includes techniques that enable a conditioned air system to automatically restore functionality and/or to operate at reduced functionality when a fault is detected, for example, to facilitate reducing likelihood that continuing operation with the fault present will decrease lifespan of the conditioned air system. To facilitate improving operation of the conditioned air system when a fault is present, the control system of the conditioned air system may utilize substitute sensor data and/or adjust its control algorithm. In this manner, the control system may facilitate improving operational reliability and/or availability of the conditioned air system, for example, by adaptively adjusting its operation to enable the conditioned air system to continue operating even when a fault is present, while reducing likelihood that the continued operation will reduce lifespan of the conditioned air system.

Embodiments of the present disclosure are directed to a controller for a heating, ventilation, and/or air conditioning (HVAC) system. The controller is configured to operate in a first defrost mode or a second defrost mode, determine that feedback from a first sensor of the HVAC system is unavailable, receive feedback from a second sensor of the HVAC system, and operate the HVAC system in the second defrost mode instead of the first defrost mode in response to unavailability of the feedback from the first sensor and based on the feedback from the second sensor.