Abstract: Devices, methods, and systems for providing demand response are described herein. One device includes instructions executable to receive an indication of a demand response event, determine, based on a configuration made using a user interface, an action to be taken by a load of a facility in response to the demand response event, communicate the determined action to a controller associated with the load, and monitor a status of the action as the action is taken.

Abstract: Devices, methods, and systems for providing demand response are described herein. One device includes instructions executable to receive an indication of a demand response event, determine, based on a configuration made using a user interface, an action to be taken by a load of a facility in response to the demand response event, communicate the determined action to a controller associated with the load, and monitor a status of the action as the action is taken.

Abstract: Methods, devices, and systems for scheduling defrost events and linking refrigeration circuits in a refrigeration system are described herein. One method includes receiving, by a computing device, a number of defrost events per day for a refrigeration circuit, a duration for each of the number of defrost events, a start time for an initial one of the number of defrost events, and a maximum number of concurrent defrost events for the refrigeration system, determining, by the computing device, a defrost event schedule for the refrigeration circuit based on the number of defrost events per day, the duration for each of the number of defrost events, the start time for the initial one of the number of defrost events, and the maximum number of concurrent defrost events, receiving, by the computing device, an adjustment to the determined defrost event schedule, and updating, by the computing device, the defrost event schedule based on the adjustment.

Abstract: Condenser control, systems, devices, and methods are described herein. One system includes a number of pressure sensors, wherein each of the number of pressure sensors is configured to sense a pressure associated with a condenser of a refrigeration system, a temperature sensor configured to sense an outdoor air temperature, and a controller configured to activate operation of a number of condenser fans and a number of split valves associated with the condenser based, at least in part, on the sensed outdoor air temperature upon a failure of each of the number of pressure sensors.

Abstract: Devices, methods, and systems for providing demand response are described herein. One device includes instructions executable to receive an indication of a demand response event, determine, based on a configuration made using a user interface, an action to be taken by a load of a facility in response to the demand response event, communicate the determined action to a controller associated with the load, and monitor a status of the action as the action is taken.

Abstract: Condenser control, systems, devices, and methods are described herein. One system includes a number of pressure sensors, wherein each of the number of pressure sensors is configured to sense a pressure associated with a condenser of a refrigeration system, a temperature sensor configured to sense an outdoor air temperature, and a controller configured to activate operation of a number of condenser fans and a number of split valves associated with the condenser based, at least in part, on the sensed outdoor air temperature upon a failure of each of the number of pressure sensors.

Abstract: Methods, devices, and systems for scheduling defrost events and linking refrigeration circuits in a refrigeration system are described herein. One method includes receiving, by a computing device, a number of defrost events per day for a refrigeration circuit, a duration for each of the number of defrost events, a start time for an initial one of the number of defrost events, and a maximum number of concurrent defrost events for the refrigeration system, determining, by the computing device, a defrost event schedule for the refrigeration circuit based on the number of defrost events per day, the duration for each of the number of defrost events, the start time for the initial one of the number of defrost events, and the maximum number of concurrent defrost events, receiving, by the computing device, an adjustment to the determined defrost event schedule, and updating, by the computing device, the defrost event schedule based on the adjustment.