Abstract: In a case where an identification information item determination section (411) determines that a first identification information item indicates a non-replacement part, a first backup section (412) backs up the first identification information item in a backup memory (420). In a case where a confirmation section (413) determines that the first identification information item is not backed up in the backup memory (420), a second backup section (414) backs up the first identification information item in the backup memory (420). In a case where the confirmation section (413) determines that the first identification information item is backed up in the backup memory (420), a storage process section (415) updates the first identification information item stored in a communication section-side memory (430) with a second identification information item stored in the backup memory (420).

Abstract: The electric power conditioning device, connected to an apparatus and an electric storage device in a house, comprises an electric power receiving section, a communication section and an operation section. The electric power receiving section, connected to a commercial power supply, acquires a total electric power consumption amount of the commercial power supply. The operation section makes comparison as to whether an integrated value obtained by integrating the total electric power consumption amount and an electric power consumption amount which is an amount of electric power expected to be consumed when the apparatus is operated exceeds a predetermined value. When the integrated value does not exceed, the operation section transmits a use permission signal to the apparatus via the communication section. When the integrated value exceeds, the electric power conditioning device transmits to the electric storage device a supply electric power inquiring signal via the communication section.

Abstract: A display control unit switches a display screen to a detergent name list screen based on detergent name list screen information received by a second communication unit, an operation unit accepts a selection of an arbitrary detergent name by a user from a plurality of detergent names displayed as a list on the detergent name list screen, the second communication unit transmits, to a server, detergent name specifying information for specifying the arbitrary detergent name accepted by the operation unit and washing machine specifying information and receives, from the server, detergent information related to a detergent specified based on the detergent name specifying information and the washing machine specifying information, and a first communication unit transmits the detergent information received by the second communication unit to a washing machine.

Abstract: A first communication unit transmits, to an electrical home appliance, request information that requests electrical home appliance specifying information for specifying the electrical home appliance after an approach instructing screen is displayed on a display unit, and receives response information including at least the electrical home appliance specifying information from the electrical home appliance after the first communication unit and the electrical home appliance have approached each other within a communicable range, and a display control unit switches a display screen to a menu screen that is unique to the electrical home appliance on the basis of the response information received by the first communication unit.

Abstract: An electric device includes operation unit, working unit, and a number-of-times detecting unit that counts the number of times of instructions being against energy savings. In addition, the device includes time measuring unit that measures time from when the number-of-times detecting unit starts the counting, and a controller that generates a signal to induce a modification of a first energy-saving pattern. When the time is within a first predetermined period, the controller generates a signal that requires the modification of the first energy-saving pattern into a more lenient second energy-saving pattern, with the time being from when time measuring unit starts the measurement to when the number of the times counted by the number-of-times detecting unit reaches a predetermined value.

Abstract: A power control device includes a priority setting section capable of setting a use priority of a home appliance connected wirelessly or via cable or an adapter connected to the home appliance. The home appliance or the adaptor connected to the home appliance operates within the usable power of a result of the inquiry to the power control device. When there is no excess in usable power over the required power in the inquiry, the power control device reduces the power of a device having a lower priority than the device which has transmitted the inquiry in order to use the device with the higher priority.

Abstract: A state updating unit updates first information stored in a storage unit whenever the state of a control unit transitions from an idle state to an active state or from the active state to the idle state. A second power supply unit induces electric power from radio waves received by the antenna unit. An information acquiring unit operates after receiving the supply of electric power from the second power supply unit, acquires second information indicating whether electric power is supplied from the first power supply unit, acquires the first information from the storage unit, and transmits the acquired first and second information to the control device. A diagnosing unit diagnoses faults in the terminal device based on the first and second information transmitted from the information acquiring unit of the terminal device.

Abstract: A washer-dryer is provided with a time shift function for performing timer presetting processing on the basis of a time shift computation result which indicates an operation start time suitable for operation. The washer-dryer includes: an input operation unit for allowing a user to perform operations for operating the washer-dryer; a display unit for displaying information relating to the operation of the washer-dryer; and an operation control unit for controlling the operation of the washer-dryer on the basis of the time shift computation result. When a start button on the input operation unit is operated by the user, the operation control unit automatically performs the timer presetting processing on the basis of the time shift computation result and also displays a timer preset time at the display unit.

Abstract: Provided are an apparatus control device and an apparatus control method that make it possible to improve convenience for the user. An apparatus control device includes: a time-shift time computation unit that computes a time-shift time indicating an operation start time or an operation end time at which an electricity cost billed when an electric apparatus is operated is equal to or less than a predetermined rate, a recomputation determination unit that determines whether or not to change the time-shift time computed by the time-shift time computation unit, and a notification unit that, when determination is made by the recomputation determination unit that the time-shift time is to be changed, notifies the user that the initially computed time-shift time is to be changed.

Abstract: An equipment control device has: a reception unit for receiving desired time information indicating a desired operation start time or a desired operation termination time, operation period information and electrical power information; a time-shift period setting unit for setting a time-shift period indicating a period which has a time range including the desired time information and during which the operation start time or the operation termination time of a household appliance is shiftable; an electrical power charge information acquisition unit for acquiring electrical power charge information; an operation time computing unit for computing the operation start time or the operation termination time, on the basis of which the electricity charge that is billed when the household appliance is operated within the time-shift period falls to or below a predetermined charge; and a transmission unit for transmitting the operation start time or the operation termination time to the household appliance.

Abstract: A radio frequency identification (RFID) device includes: a contact interface for wired communication with a host; a contactless interface for contactless communication with a reader/writer; a command processing unit that obtains a command from the reader/writer in the contactless communication and process the command, the command instructing a data access; and a memory that holds data. The command processing unit determines a communication mode, and (i) executes the data access instructed in the command between the reader/writer and the memory, when the communication mode is determined as a first communication mode, and (ii) executes the data access instructed in the command between the reader/writer and the host, when the communication mode is determined as a second communication mode.

Abstract: An input accepting unit accepts an input of desired time information showing a desired operation start time or a desired operation end time of a household electrical appliance, a sending unit sends, to a server, the desired time information, and electric power information showing an electric power required for the household electrical appliance to be operated, an electric power charge information acquiring unit acquires electric power charge information showing an electric power charge which changes per hour, an operation time computing unit computes an operation start time or an operation end time of the household electrical appliance based on the desired time information, the electric power information, and the electric power charge information, and an operation control unit starts the operation of the household electrical appliance according to the operation start time or the operation end time.

Abstract: Disclosed are a power control system, a power control method, a power control device and a power control program, which can efficiently supply power to an electric device and charge an electric vehicle. A power control device (16) has: a second communication unit (14) that receives charge information pertaining to charging of an on-board battery (23) from an electric car (2) prior to the arrival of the electric car (2) at a location where power is supplied to the electric car (2); and a control determination unit (11) that determines a power supply start time of supplying power to an electric water heater (1) and a charging start time of charging the on-board battery (23), on the basis of the charge information, such that the supply of power to the electric water heater (1) and the charging of the on-board battery (23) are completed by a predetermined time.

Abstract: A cooking device includes: first and second heating cooking units; a mode setting unit configured to set heating modes of the first and second heating cooking units; a receiving unit; a priority managing unit configured to store priorities which are given to the first heating cooking unit and the second heating cooking unit, respectively; and a power adjusting unit configured to adjust using power of a heating cooking unit to which a lower one of the priorities of the first heating cooking unit and the second heating cooking unit stored in the priority managing unit is given when the receiving unit receives a power adjustment request signal transmitted from a power controlling device. The priorities are different values for each heating mode.

Abstract: A power control device includes a priority setting section capable of setting a use priority of a home appliance connected wirelessly or via cable or an adapter connected to the home appliance. The home appliance or the adaptor connected to the home appliance operates within the usable power of a result of the inquiry to the power control device. When there is no excess in usable power over the required power in the inquiry, the power control device reduces the power of a device having a lower priority than the device which has transmitted the inquiry in order to use the device with the higher priority.

Abstract: The present invention provides a coordinating node in an energy usage control system. The coordinating node receives trade-off functions from energy consuming nodes. The coordinating node and the energy consuming nodes collectively form a domain. A trade-off function from an energy consuming node describes a relationship between a result of energy consumption by the energy consuming node and a degree of satisfaction towards the result. The coordinating node develops policies respectively for the energy consuming nodes, based on the received trade-off functions. The policies each contain at least one goal and/or at least one procedure to guide the respective energy consuming node to control its energy usage such that the energy consuming nodes collectively achieve an optimum energy saving for the domain.

Abstract: An autonomous driving apparatus includes: an obstacle detecting unit for detecting a presence of an obstacle or judging a distance to the obstacle; a driving unit for driving a main body; and a control unit for changing a moving direction of the main body by controlling the driving unit based on obstacle information from the obstacle detecting unit, wherein the control unit has a reciprocating mode in which the main body is reciprocatively moved within a moving area while being also moved in a direction normal to a reciprocating direction. If the control unit judges that the main body is in a movement-stuck state in which movement of the main body is stuck within a movement-stuck area by an obstacle placed in the moving area, the control unit switches the reciprocating mode to an obstacle avoiding mode in which the main body escapes from the movement-stuck area.

Abstract: The present invention relates to an electric power unit with a condenser input type rectification circuit which converts an alternating current power source to a direct current voltage, and more particularly, to an electric power unit for inverter-controlled refrigerators. An electric power unit according to the present invention feeds electric power to a load (7), which comprises an alternating current power source (1), a bridge-type rectification circuit (2) having an input from the alternating current power source (1) and consisting of bridge-connected diodes (D1, D2, D3, D4), an auxiliary capacitor (3) connected in parallel to an output of the bridge-type rectification circuit (2), a series circuit of a reactor (4) and a diode (5) connected between one output of the bridge-type rectification circuit (2) and the load (7) so as to flow a load current in a forward direction, and a smoothing capacitor (6) connected in parallel to the load (7).

Abstract: The present invention relates to an electric power unit with a condenser input type rectification circuit which converts an alternating current power source to a direct current voltage, and more particularly, to an electric power unit for inverter-controlled refrigerators.An electric power unit according to the present invention feeds electric power to a load (7), which comprises an alternating current power source (1), a bridge-type rectification circuit (2) having an input from the alternating current power source (1) and consisting of bridge-connected diodes (D1, D2, D3, D4), an auxiliary capacitor (3) connected in parallel to an output of the bridge-type rectification circuit (2), a series circuit of a reactor (4) and a diode (5) connected between one output of the bridge-type rectification circuit (2) and the load (7) so as to flow a load current in a forward direction, and a smoothing capacitor (6) connected in parallel to the load (7).

Abstract: When a lock detector detects a locked state of a DC motor in a starting stage, a torque increasing circuit immediately selects a starting sequence pattern of an output torque that is greater in magnitude by one preselected step, and outputs the selected output torque to a starting sequence controller, so that a compressor can be restarted speedily without repeating starting failures. A compressor, driven by a DC motor, has a shell of an internal pressure approximately equal to the pressure of an inhalation gas. An inverter is provided to make the speed of the DC motor variable. A rotational frequency setting circuit sets the rotational frequency of the DC motor to a frequency that is not greater than the frequency of a commercial power source when the internal temperature of a refrigerator is stabilized. By this construction, the power consumption can be remarkably reduced.