Abstract: A premises data management system includes a first communication network configured to transmit and receive data to and from a user interface. Another communication network is configured to access data from and provides data to accessories within the premises management system. A gateway of the system includes a first interface channel and another interface channel. The gateway receives the data from the first communication network, via the first interface channel. The gateway reformats the data from the first communication network for communication to the other communication network via the other interface channel. The gateway also requests data from the accessories via the other interface channel and replies to the user interface via the first interface channel.

Abstract: An energy data management control system is configured to allow a user to control operation of the data management among a plurality of modes.

Abstract: A method and system for controlling the operation of accessories in a home energy management system which manages a plurality of communication networks. The schedules are generated by using a central controller and interacting with a user interface found on a device separate from the central controller. The plurality of schedules are stored in the storage of the central controller, and a current schedule is selected from the stored schedules. The selected schedule is loaded onto an accessory through one of the communication channels for controlling the associate accessory.

Abstract: In another aspect of the disclosure, a method of controlling an appliance is provided comprising establishing settings on an appliance related to threshold variables, wherein the settings include the threshold variables for determining a reaction of the appliance in response to reaching one or more of the threshold variables. The method further comprises sending a signal from an associated utility to the appliance, wherein the appliance includes a controller in signal communication with the associated utility. The controller receives and processes a signal from the associated utility, and converts and compares the signal to the threshold variables. The method still further comprises changing the operating of the appliance from a first state of operation to a second state of operation, wherein in the second state of operation one or more power consuming functions of the appliance are based on the comparison of the signal to the threshold variables and, returning the appliance to the first state of operation.

Abstract: An energy management system and method for one or more appliances includes a controller for managing power consumption within a household. The controller is configured to receive and process a signal indicative of one or more energy parameters of an associated energy supplying utility, including at least a peak demand period or an off-peak demand period. The controller is configured to at least one of communicate to, control and operate one or more appliances in one of a plurality of operating modes, including at least a normal operating mode and an energy savings mode in response to the received signal. The one or more appliances operate in the normal operating mode during the off-peak demand period and operate in the energy savings mode during the peak demand period. The controller is configured to control the return of the one or more appliances to the normal operating mode after the peak demand period is over to prevent an energy surge for the associated energy supplying utility.

Abstract: A system is provided for determining and displaying the cost of consuming power comprising an appliance including one or more power consuming functions wherein each of the one or more power consuming functions includes an associated power consumption amount. The system compensates for line voltage variations by sensing line voltage and adjusting the power consumption amount. The system further provides a home energy management system (HEM) including a controller in communication with the appliance and configured to provide the HEM with the associated power consumption amount of each of the one or more power consuming functions. The controller being configured to convert the current cost of supplied energy into a power consumption cost of the associated power consumption amount of the one or more power consuming functions.

Abstract: A system is provided for determining and displaying the cost of consuming power comprising an appliance including one or more power consuming functions wherein each of the one or more power consuming functions includes an associated power consumption amount. The system further provides a home energy management system (HEM) including a controller in communication with the appliance and configured to provide the HEM with the associated power consumption amount of each of the one or more power consuming functions. The controller is in signal communication with an associated utility, wherein the controller receives and processes a signal from the associated utility indicative of current cost of supplied energy. The controller being configured to convert the current cost of supplied energy into a power consumption cost of the associated power consumption amount of the one or more power consuming functions.

Abstract: An appliance controller is provided comprising an appliance including demand response settings. The settings include threshold variables for determining a reaction of the appliance in response to reaching one or more threshold variables. The controller further comprises a signal from an associated utility to the appliance, wherein the appliance includes a controller in signal communication with the associated utility. The controller receives and processes the signal from the associated utility. The signal is converted and compared to the demand response threshold variables and the appliance is operated in one or more power consuming functions based on the comparison of the signal to the demand response variables.

Abstract: The present disclosure provides a method of controlling an appliance comprising: profiling at least one appliance including one or more power consuming functions connected with a home energy management system (HEM); defining an energy event corresponding to each of the one or more power consuming functions; developing a home energy profile in the HEM of all the energy events including a calendar of energy events; manipulating the home energy profile by a user wherein the user cancels, delays, reschedules, or enables processing of the calendar of energy events; and, communicating through a translator board wireless communication between the HEM and the at least one appliance.

Abstract: A demand supply management system for an appliance receives information related to cost of energy use and communicates data to the associated appliance in response thereto. A single chip, light emitting diode (LED) device is preferably associated with a module or portion of the home appliance. The LED device conveys information relating to at least two of cost of energy use, signal strength, and module status. The LED device is preferably a single chip, single color solid-state LED device that is selectively actuated between “illuminated” and “non-illuminated” states, steady on, slow flash, fast flash, varying duration, intermittent “illuminated” and “non-illuminated”, etc. to convey information to the user.

Abstract: A standby power system for an appliance having a power input coupled to a main power source includes a power enabling device coupled between the main power source and power input of the appliance, a standby power state sensing device coupled to the power enabling device, and a power restore device coupled to the power enabling device.

Abstract: A water heater comprises a body defining a chamber for holding water to be heated, an inlet opening and an outlet opening in communication with the chamber for flowing water therethrough and one or more power consuming features/functions including a heater for heating the water within the chamber. A controller is operatively connected to the one or more power consuming features/functions. The controller is configured to receive and process a signal indicative of a utility state. The controller operates the water heater in one of a plurality of operating modes, including at least a normal operating mode and an energy savings mode, in response to the received signal. The controller is configured to at least one of selectively adjust and deactivate at least one of the one or more power consuming features/functions to reduce power consumption of the water heater in the energy savings mode.

Abstract: A dishwasher is provided comprising one or more power consuming functions and a controller in signal communication with an associated utility. The controller can receive and process a signal from the associated utility indicative of current cost of supplied energy. The controller operates the dishwasher in one of a normal operating mode and an energy savings mode based on the received signal. The controller is configured to change the power consuming functions by adjusting one or more of an operation schedule, an operation delay, an operation adjustment, and a selective deactivation of at least one of the one or more power consuming functions to reduce power consumption of the dishwasher in the energy savings mode.

Abstract: A clothes dryer is provided comprising one or more power consuming functions and a controller in signal communication with an associated utility. The controller can receive and process a signal from the associated utility indicative of current cost of supplied energy. The controller operates the clothes dryer in one of a normal operating mode and an energy savings mode based on the received signal. The controller is configured to change the power consuming functions by adjusting one or more of an operation schedule, an operation delay, an operation adjustment, and a selective deactivation of at least one of the one or more power consuming functions to reduce power consumption of the clothes dryer in the energy savings mode.

Abstract: A clothes washer is provided comprising one or more power consuming functions and a controller in signal communication with an associated utility. The controller can receive and process a signal from the associated utility indicative of current state of an associated utility. The controller operates the clothes washer in one of a plurality of operating modes, including at least a normal operating mode and an energy savings mode in response to the received signal. The controller is configured to change the power consuming functions by adjusting one or more of an operation schedule, an operation delay, an operation adjustment, and a selective deactivation of at least one of the one or more power consuming functions to reduce power consumption of the clothes washer in the energy savings mode.

Abstract: A refrigerator comprises a fresh food compartment and a freezer compartment and one or more power consuming features/functions including a refrigeration system for cooling the fresh food compartment and the freezer compartment. A controller is operatively connected to the one or more power consuming features/functions. The controller is configured to receive and process a signal indicative of current state of an associated energy supplying utility. The controller operates the refrigerator in one of plurality of operating modes, including at least a normal operating mode and an energy savings mode, in response to the received signal. The controller is configured to at least one of selectively schedule, delay, adjust and deactivate at least one of the one or more power consuming features/functions to reduce power consumption of the refrigerator in the energy savings mode.

Abstract: A cooking appliance comprises one or more power consuming features/functions including at least one of a cooking cavity having a heating element and a cooking surface having a surface heating element. A controller is configured to receive and process a signal indicative of current state of an associated energy supplying utility. The controller operates the cooking appliance in one of a plurality of operating modes, including at least a normal operating mode and an energy savings mode, in response to the received signal. The controller is configured to at least one of selectively delay, adjust and disable at least one of the one or more power consuming features/functions to reduce power consumption of the cooking appliance in the energy savings mode.

Abstract: A microwave oven comprises a cooking cavity and a RF generation module configured to deliver microwave energy into the cooking cavity. A controller is operatively associated with the RF generation module. The controller receives and processes a signal indicative of current state of an associated energy supplying utility for determining whether to operate the microwave oven in one of a normal operating mode and an energy savings mode in response to the received signal. The controller is configured to at least temporarily block the signal when the RF generation module is activated if a frequency of the signal is at least partially degraded by a frequency of the RF generation module.

Abstract: An appliance for conditioning air of a room comprises one or more power consuming features/functions including a temperature controlling element for one of heating and cooling air. A controller is operatively connected to the one or more power consuming features/functions. The controller is configured to receive and process a signal indicative of a utility state. The controller operates the appliance in one of a plurality of operating modes, including at least a normal operating mode and an energy savings mode in response to the received signal. The controller is configured to at least one of selectively adjust and deactivate at least one of the one or more power consuming features/functions to reduce power consumption of the appliance in the energy savings mode.