Abstract: A home appliance antenna assembly is integrated into the home appliance and extends from a demand response module or the appliance microprocessor where the module is integrated into the appliance. At least a portion of the antenna is preferably located adjacent an external surface of the home appliance and adapted for radio frequency (RF) communication. If an external demand supply module is wired to the home appliance, a conventional connection cable typically includes a spare wire that is not used and can thereby serve as a long wire antenna. In other appliances where the module is integrated into the appliance, an antenna is incorporated into the appliance in a utilitarian, but aesthetically unobtrusive manner.

Abstract: A smart load switch or smart plug incorporates a built-in circuit that can monitor a physical variable condition and compare that sensed condition to data stored in a memory. A controller receives input data from the measuring device, compares the data to the reference data in memory, and selectively controls the on/off condition of a switch and thus the device that is plugged into the switch.

Abstract: A system for reducing the peak power consumption by a refrigeration system is provided. The system comprises a first electromechanical cold control calibrated to a first temperature setpoint, a second electromechanical cold control calibrated to a second temperature setpoint, said first and second cold controls each having a setpoint selector member operatively linked such that adjustment of one results in a corresponding adjustment of the other, a DSM module responsive to demand state signals from an associated utility indicative of at least a peak demand and an off peak demand state, and a DSM switching device responsive to the DSM module and operative to selectively render one or the other of the cold controls effectively operative to control the cooling system depending upon the demand state signal.

Abstract: An apparatus and method for determining the volume of hot water dispensed during a given timeframe from a hydrocarbon fueled water heater based on the volume of fuel consumed by the water heater during the timeframe and the average temperature difference between the inlet water temperature and the outlet water temperature during the timeframe.

Abstract: A power measurement device for monitoring power delivered from a source of electrical power to a load, includes a controller configured to receive a line voltage supply input and a current input, the current input being indicative of a current drawn by the load, a load control device coupled between the controller and the load and configured to interrupt power supplied to the load through the measurement device, and a configuration module coupled to the controller and configured to enable rule-based configuration of the measurement device. The controller includes a memory in communication with a processor, the memory including program instructions for execution by the processor to calculate a value of power consumed by the load, compare the value of the power consumed to at least one predetermined control parameter, and enable the load control device to interrupt power to the load based on the comparison.

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: An apparatus for disinfecting and/or deodorizing an article comprises a cabinet defining a compartment configured to receive the article. A regenerative dryer is positioned with respect to the compartment and is configured to dehydrate air flowing into an ozone generator. The ozone generator is in communication with the dryer and is positioned with respect to the compartment. The ozone generator is configured to selectively generate ozone. The generated ozone is introduced into the compartment. An ozone conversion device is positioned with respect to the compartment and is configured to selectively convert ozone back to oxygen. A controller is configured to selectively activate the dryer, ozone generator and ozone conversion device.

Abstract: A refrigerated appliance such as a refrigerator receives a demand response signal indicating a peak demand period and operates the refrigerator in an energy savings mode by disabling an anti-sweat heater. Sensors monitor ambient temperature and humidity, and the dry bulb temperature of a preselected region where incipient moisture would likely form. Data from the sensors is sent to a controller which calculates ambient dew point and compares the dry bulb temperature of the preselected region with the calculated dew point to enable the anti-sweat heater during the peak demand period and prevent incipient formation of moisture.

Abstract: An apparatus includes at least one transducer that obtains a measurement of one aspect of the combustion process of a gas-burning device. The apparatus also includes a microprocessor to calculate gas usage of the gas-burning device based on the measurement obtained by the at least one transducer. Also included are methods for using the apparatus.

Abstract: A household energy management system is provided comprising a controller for managing power consumption of multiple devices within a household wherein the controller monitors energy usage data from a utility. The system further provides a utility meter for measuring an amount of energy usage by the household and a user interface through which a user can enter a parameter of the energy usage. The system yet further provides a local generator for generating energy for one or more of the energy consuming devices wherein the controller initiates the generator and changes at least some of the energy usage from the utility to the local generator when the energy usage level is within a predetermined percentage range of the parameter.

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: 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: An apparatus and methods are disclosed for controlling load shedding and payback spikes of a population by segregating the population into subsets based on predicted energy consumption usage and peak load profiles. Subset populations respond independently from another based on a communication message sent to the population. Each subset population of homes with one or more energy consuming devices responds based on a generated value generated from a randomizing distribution routine.

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: 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 household appliance system and method include an appliance control system having a common appliance interface provided on an appliance and a demand side management module connected to the common appliance interface. The module corresponds to one select utility of a plurality of utilities and is adapted to communicate with the one select utility of the plurality of utilities. The appliance control system operates the appliance based on communications with the one select utility through the module.

Abstract: An HVAC system for conditioning air of an associated room includes one or more power consuming features/functions including at least one 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 HVAC system in one of a plurality or 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 HVAC system in the energy savings mode.

Abstract: A dryer drawer system is provided comprising a generally multisided drying chamber having opposed side walls, a rear wall, and at least one access door, wherein the door is sealable to the chamber. The dryer drawer further comprises a heater for heating air circulating in the chamber and at least one fan for circulating air in the chamber. The multisided drying chamber includes an air inlet and an air outlet, a sensor for sensing the temperature of the air in the chamber, a first damper for selectively opening and closing the air inlet, a second damper for selectively opening and closing the air outlet, and a controller for controlling operation of the fan, the heater and the dampers. The controller is operative in a first operational mode to open the air inlet and the air outlet to provide air flow through the chamber and in a second operational mode to close the air inlet and the air outlet to provide a recirculating air flow within the chamber.

Abstract: An energy management system for an appliance comprising an interface to receive a schedule having an off-peak time segment and an on-peak time segment; a control to determine an operation to be performed by the appliance; a mode selecting device to select between an energy management mode and an immediate start mode; and a controller connected to the interface, the control, and the mode selecting device. The controller is arranged such that upon selection of the energy management mode, the controller initiates the operation when a majority of the energy consumption of the operation is within the off-peak time segment; and upon selection of the immediate start mode, the controller initiates the operation immediately.

Abstract: A GPS-based energy management system for a home network is provided that includes a plurality of energy consuming devices. The system comprises a central controller operatively connected to each energy consuming device, and one or more GPS-enabled devices configured to communicate with the central controller. The central controller is programmed to modify the behavior of the energy consuming devices based on the location of at least one member of a home network.