JP2002185628A - Wireless power management system and remote control transmitter - Google Patents

Abstract

(57) [Problem] A large number of users are densely distributed in a narrow area where weak power or low power short-range wireless signals can propagate mutually without depending on a uniform serial number for each device. Even under such a condition, overlapping interference of control signals between users is reliably avoided, and power management by radio is surely performed while distinguishing both users and control targets. A remote control transmitting device (1) for generating a control command with an ID based on a user command and transmitting it wirelessly.
And a remote control receiving device (2) that receives the control command with ID wirelessly and, when the command includes a specific ID, performs power on / off control in response to the command. A wireless power management system for remotely controlling the power supply of the control target (5) individually is configured, wherein the ID is a user-specific ID including a telephone number and a target that specifies the control target under the hierarchy of the telephone number. The ID and the ID are used.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a technology effective when applied to a wireless power supply management system, and further to a power supply remote management system utilizing short-range wireless communication by weak radio waves or low power radio waves. The present invention relates to a technology that is effective in remotely controlling power supply of electric appliances using a public telephone line or the like.

[0002]

2. Description of the Related Art For appliances such as televisions, VTRs and air conditioners, a technology for controlling on / off of the power of the appliances by remote operation using a so-called radio signal or a spatially transmitted signal such as radio waves or infrared rays, so-called wireless. Control technology has been put to practical use. This wireless control technology wirelessly connects the subject of control to the controlled object, greatly reducing the wiring and other equipment burdens, and is flexible in changing the installation location or use location of the appliance to be controlled. It has advantages such as being able to respond to.

[0003] Therefore, the present inventor has studied a wireless power supply management system that uses the wireless control technology to centrally manage the power supply, particularly standby power, of electric appliances provided in houses and hotels. Houses and hotels are equipped with electrical appliances such as TVs in each room. If the standby power of these appliances can be turned on / off by wireless remote control, this will result in significant energy and labor savings. Can be expected.

[0004] However, unlike remote control by wire, there is a concern about malfunction due to overlapping interference of control signals (particularly interference due to overlapping identification codes). In particular, in an apartment house or a hotel, a large number of users and control objects are densely distributed in a narrow area where weak power or low-power short-range wireless signals can be transmitted to each other. It becomes a problem.

Therefore, the inventor of the present invention has established a unique serial number without duplication, such as a MAC address (Media Access Control address) in a LAN connection device, as a countermeasure against the above-mentioned problem, and for each control object. The allocation method was studied. If a control signal having the unified serial number as an ID (identifier) is generated and wirelessly transmitted, overlapping interference between users and between controlled objects can be avoided. Accordingly, even under a condition in which a large number of controlled objects are densely distributed in a narrow area where the short-range wireless signals can propagate with each other, wireless power management can be performed while individually distinguishing the large number of controlled objects. It becomes possible.

[0006]

However, it has been clarified by the present inventors that the above-described technology has the following problems.

[0007] That is, in order to use a unique serial number without duplication as an ID, a permanent and unified issuing institution that collectively manages and issues the serial number is required, and the issuing institution issues individual devices. Each time you have to issue a serial number. Furthermore, the unified serial number is a device-specific number that is unrelated to the user, and is composed of a series of meaningless numbers or character strings, so that the user is not suitable for directly handling by manual input or the like. Operability (or visibility)
Was also low.

The present invention has been made in view of the above-described problems, and an object of the present invention is to enable a weak power or a low power short-range radio signal to be transmitted independently of each other without depending on a unified serial number for each device. Even under conditions where a large number of users are distributed at high density in a small area that can be transmitted to the area, it is possible to reliably avoid overlapping interference of control signals between users, and to distinguish between users and control targets by wireless communication. It is an object of the present invention to provide a technology capable of surely performing power management.

The above and other objects and features of the present invention will become apparent from the description of the present specification and the accompanying drawings.

[0010]

SUMMARY OF THE INVENTION Among the inventions disclosed in the present application, the outline of a representative one will be briefly described.
It is as follows.

That is, the first means is an identifier (I) based on a power control command input by a user operation.
D) a remote control transmitting apparatus that generates an ID-added control command including and wirelessly transmits the ID-added control command, and wirelessly receives the ID-added control command, and the identifier included in the command is a specific identifier registered in advance. A wireless power management system for remotely controlling the power supply of a plurality of control targets individually by a remote control receiving device that performs power on / off control in response to the command, wherein the identifier is a telephone number; , And a target-specific identifier that specifies a control target under the telephone number hierarchy.

According to the above-mentioned means, it is possible to uniquely specify and control both the user and the control target without using a unit-specific serial number such as a MAC number.
Furthermore, a user-specific identifier using a telephone number can uniquely identify a user with a relatively small number of characters, and even when the user manually inputs an identifier, the operability (or visibility) of the input. ) Can be secured.

[0013] Accordingly, the condition that a large number of users are densely distributed in a narrow area where weak power or low power short-range radio signals can propagate mutually without depending on a unified serial number for each device. Even below, it is possible to surely avoid overlapping interference of control signals between users, and to perform wireless power management without fail while identifying both the user and the control target.

A second means is the first means, wherein the user-specific identifier is constituted by an external telephone number and an internal telephone number. Thus, for example, in a place having an extension telephone system, such as a hotel, by including the extension number in the identifier for each user, a large-scale power management system having a large number of control targets can be systematically constructed.

A third means is a remote control transmitting device used for the wireless power management system, wherein the user interface means acquires the power control command;
A nonvolatile ID registration unit that rewritably stores and registers the user-specific identifier, a command generation unit that generates an ID-added control command in a predetermined format including the user-specific identifier based on the power control command, Wireless transmission means for wirelessly transmitting a command. This makes it possible to configure a remote control transmission device suitable for use in the wireless power management system.

According to a fourth aspect, in the third aspect, a line interface for acquiring a power control command via a public telephone line is provided as the user interface. This allows the user to
You can remotely control the power supply of the control target using a telephone even when you are away from home.

According to a fifth aspect, in the third or fourth aspect, an input operation means such as a key panel is provided as the user interface. This makes it possible to configure a remote control device that directly operates the user and remotely manages the power of any control target.

The sixth means is a semiconductor integrated circuit device for constituting a main part of the remote control transmitting apparatus, wherein at least each function of the ID registration section and the command generation means is implemented by a microcomputer. It was done. The main functions of the remote control transmission device including the ID registration unit and the command generation means are also excellent in suitability for being constituted by a semiconductor integrated circuit having a microcomputer as a core.

A seventh means is a remote control receiving apparatus used in the wireless power management system, wherein the wireless receiving means wirelessly receives the control command transmitted wirelessly, and specifies the user-specific identifier and the own apparatus. An ID registration unit for storing and registering an identifier for each object; an ID identification unit for identifying whether or not a user identifier and an identifier for each object of the ID registration unit are added to the control command received by the wireless receiving unit; And a command execution means for executing a power on / off command in response to the control command when a predetermined identifier is identified by the ID identification means. This makes it possible to configure a remote control receiver suitable for use in the wireless power management system.

An eighth means is the control means according to the seventh means, wherein the command execution means is a switch for intervening in series with a power supply line to be controlled to control on / off of the power supply of the control target. Thus, the power management of the control target can be easily performed from outside without changing the internal configuration of the control target.

According to a ninth means, in the seventh or the eighth means, the whole remote control receiving apparatus including the power switch is provided.
An outlet adapter interposed between a power plug to be controlled and a power outlet into which the power plug is inserted is formed. As a result, it is possible to manage the power of the controlled object without changing the configuration of the entire controlled object including the power cord and the plug.

A tenth means is a semiconductor integrated circuit device for constituting a main part of the remote control receiver,
At least each of the functions of the ID registration unit and the ID identification means is implemented as a semiconductor integrated circuit by a microcomputer. The main functions of the remote control transmission device including the ID registration unit and the ID identification unit are also excellent in suitability for being constituted by a semiconductor integrated circuit having a microcomputer as a core.

[0023]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of the present invention will be described below with reference to the drawings. In the drawings, the same reference numerals indicate the same or corresponding parts.

FIG. 1 shows an embodiment of a wireless power management system to which the technology of the present invention is applied.
(A) is a functional block diagram of the remote control transmitter 1, (B)
2 shows a data format of a wireless signal, and FIG. 2 shows a functional block diagram of the remote control receiver 2.

As shown in FIG. 1A, the remote control transmitting apparatus 1 includes a command processing unit 10, a storage unit 11, a storage control unit 15, a transmission command generation unit 16, a wireless transmission unit 17, a telephone line I / F ( Interface) 18 and operation unit 1
9 and the like.

The command processing unit 10 acquires a command input from the line I / F 18 or the operation unit 19, and executes a process according to the command. The command processing unit 10 functions as a system control unit that centrally manages control processing in the transmission device 1.

The storage unit 11 is a rewritable ROM such as a RAM (random access memory) or a flash memory.
(Read only memory). In this storage unit 11, a user-specific ID registration unit 12 that stores and registers a user's telephone number as an identifier (ID), and stores a plurality of control-object-specific IDs in association with appropriate shortened control codes (character codes). An ID table 13 to be stored and a password registration unit 14 for storing and registering a password arbitrarily set by a user are provided. The target ID is an ID for individually specifying a plurality of control targets (electric appliances) under the hierarchy of the user ID, and is arbitrarily configured by the user. The storage control unit 15 controls registration / update of data registered / stored in the storage unit 11 and reading of the registered / stored data. This control is performed under the control of the command processing unit 10.

The transmission command generation unit 16 operates under the control of the command processing unit 10 and receives a power control command (hereinafter, referred to as a user command) input by a user operation from the telephone line I / F 18 or the operation unit 19. Based on this, a control command with ID for wireless transmission is created. This control command includes, as shown in FIG. 1B, a user-specific ID (a1) consisting of a telephone number,
D (a2), password (a3), and power on /
Execution command (a for instructing off (on or off)
4). The user ID (a1) is obtained from the user ID registration unit 12. Control target ID
Is obtained from the ID table 13 based on the shortened control code included in the user command. The password (a3) is obtained from the password registration unit 14. As the execution command (a4), the command contained in the user command is used directly, or it is used after performing appropriate code conversion.

The wireless transmission unit 17 has a short-range wireless transmission unit using weak radio waves or low power radio waves, and wirelessly transmits the control command with ID created by the transmission command generation unit 16.

The telephone line I / F 18 has a function such as an automatic incoming call processing, and acquires a user command via a public telephone line. In this case, a password is extracted from the user command, and a password collation check for validating the user command is performed only when the extracted password matches a registered password registered in the password registration unit 14. .

The operation section 19 is for directly inputting the user command, and has operation keys such as numeric keys and a monitor display panel. Since the operation unit 19 is directly operated by the user, a password is omitted for a user command input from the operation unit 19. The operation unit 19 is provided with the storage unit 1
It is configured such that an operation of registering / updating an ID, a password, and the like for 1 can be performed.

As shown in FIG. 2, the remote control receiver 2 comprises a storage unit 21, a storage control unit 25, a command processing unit 2
6, the wireless receiving unit 27, the power control unit 30, the power unit 6, and the like.

The storage unit 21 is configured using a rewritable ROM such as a RAM or a flash memory. The storage unit 21 includes a user-specific ID registration unit 22 for registering a user's telephone number as an ID, and a control-target-specific ID for identifying the own device.
And a password registration unit 24 for storing and registering a password arbitrarily set by the user.

Data (an ID for each user, an ID for each control target, a password) registered in the storage unit 21 is wirelessly transferred from the remote control transmitting device 1. For this reason, in addition to the above-described functions, the registration data (user-specific ID, control target-specific ID,
The remote control receiver 2 has a function of receiving the transfer and registering it in the storage unit 21. Both the transfer and registration features
In order to ensure security, a known password verification check procedure is performed. The storage control unit 25 executes registration / update and read control of the registration data with respect to the storage unit 21.

The command processing section 26 functions as a system control section for centrally managing the control processing in the receiving device 2. The command processing unit 26 stores the user-specific ID, target-specific ID, and password included in the control command with ID selectively received by the wireless receiving unit 27 in the storage unit 2.
Then, it is determined whether or not each of them matches the one registered in No. 1. If all of them match, processing for executing the command, that is, powering on / off, is performed.

The radio receiving section 27 is configured to correspond to the radio transmitting section 17 and performs selective reception and demodulation processing of the radio signal transmitted from the radio transmitting section 17. Power control unit 30
Is a semiconductor power switch composed of, for example, a power MOS transistor and a thyristor, and is turned on / off under the control of the command processing unit 26. The power supply control unit 30 includes a commercial AC power supply (AC
A power plug (AC plug) 31 attached to an outlet 41 of 100V / 200V) and a control target (electric appliance)
A power outlet (AC outlet) 32 to which the power plug 51 is attached is connected. That is, the control target 5
The power supply of the control pair 5 is turned on / off by interposing the power supply line between the power supply plug 51 and the power supply outlet 41 in series.

The power supply unit 6 supplies operation power in the remote control receiver 2. The power supply unit 6 includes, for example, a power plug 3
It can be configured using a lithium ion battery or an electric double layer capacitor that is charged by a minute current taken out of the battery.

FIG. 3 shows an example of the configuration of an ID-added control command used in the above-described system of the present invention. As shown in the figure, the ID-added control commands wirelessly transmitted can be assembled in an orderly manner by hierarchizing the user-specific ID (a1) composed of telephone numbers as the top layer. In the example shown in the figure, a building number (ID1), a user ID (a1),
Object-specific ID (a) composed of five levels (ID1 to ID4) of floor number, room number (ID2), and outlet (ID4)
2) is configured.

FIG. 4 shows another example of the structure of the control command with ID. In the case of the figure, the target ID (a2) is the extension number (ID1), the room number (ID2), and the outlet (ID).
It is constituted by the layer of 3).

As described above, the ID-added control command transmitted by radio is hierarchized or grouped with the user-specific ID consisting of the telephone number as the top layer, so that the user and the control object can be controlled without using the unified serial number. Can be uniquely specified together.

Note that any of the hierarchical structures shown in FIG. 3 or FIG. 4 can be omitted or expanded as necessary.

FIG. 5 shows an example of system expansion in the case where the control objects are distributed and installed in a relatively large area. When control objects to be managed by the same user are distributed and installed, such as a main building and an annex, and a main building and a detached house, an area where a wireless signal transmitted from a single remote control transmitter 1 cannot reach is generated. . Such a case can be dealt with by providing an additional transmission unit (so-called slave unit) 1 'as shown in FIG.

In the example shown in the figure, an additional port 171 is provided on the side of the remote control transmitting device (parent device) 1 and this additional port 171 is provided.
The control command with ID is relay-transmitted from 71 to the additional transmission unit 1 'by wire. The extension transmission unit 1 'includes an extension port 172 for receiving a signal (command) from the extension port 171 and a transmission unit 17 for wirelessly transmitting a signal received at the extension port 172. This transmission unit 1
7 may be the same as that of the remote control transmitting device 1.

FIG. 6 is a flowchart showing the procedure of setting registration in the system of the present invention described above.

When the setting registration is started, first, the operation unit 19
A registration menu is displayed on the display panel to support the selection operation by the user (step S1). Next, it is determined whether registration of a password has been selected (step S2).
When the password is selected, the registration of the password is supported and the registered password is transferred simultaneously (step S).
3). On the other hand, if the registration of the password is not selected in step S1, the process proceeds to step S4, where it is determined whether or not the registration of the ID has been selected. Transfer (Step S
5).

When starting to use the system of this embodiment, it is necessary to register an ID and a password. This registration is carried out while displaying a hierarchical registration menu as shown in FIG. By supporting the input in the form, the burden on the user can be reduced.

FIG. 7 is a flowchart showing the operation when the remote control transmitter 1 is operated from outside using a public telephone line.

In the figure, first, when there is an incoming call from a telephone line, hook-off is performed to connect the line (S11).

Thereafter (S12), D
The password received by the TMF signal is received. This received password is compared (registered and checked) with the registered password. If they match, the process proceeds to the next step S3, and if they do not match, the process proceeds to an error processing routine S17.

In step S13, a control code for specifying a control target is received from the telephone line. This control code is also sent as a DTMF signal, like the password. If the appropriate control code has been received and acquired, the next step S
The process proceeds to 14, and if not, the process proceeds to an error processing routine S17.

In step S14, an execution command for turning on or off the power of the control target specified by the control code is acquired. This command is also sent by the DTMF signal. If an appropriate execution command has been received and acquired, the process proceeds to the next step S15, and if not, the process proceeds to an error processing routine S17.

In step S15, the command acquired in step S14 is executed, and the execution result is returned in the form of a voice response. This voice response is sent to the telephone line. Thereafter, hook-on (step S6) is performed to disconnect the line, and the process ends. The execution of the command is performed by creating the control command with ID based on the control code and wirelessly transmitting the created control command.

In the error processing routine S17, if any one of the steps S12 to S14 is incorrect or incomplete, an appropriate voice message is sent to the telephone line to forcibly terminate the processing. In the system of the present embodiment,
As described above, the power of a specific control target can be turned on / off externally via a public telephone line.

FIG. 8 is a flowchart showing the operation of the remote control receiver 2 for receiving the control command with ID by radio. In the same figure, (A) is an operation flowchart when a password is not included in the control command with ID, (B)
Shows an operation flowchart when the password is included.

In the control of FIG. 8A, first, it is determined whether or not the received signal includes its own registration ID (step S21). If so, a command to turn on or off the power is executed. (Step S22). If the received signal does not include its own registration ID, the apparatus waits for the next signal without doing anything.

In the control of FIG. 8B, first, it is determined whether or not the password included in the received signal matches the registered password (step S31), and if so, the process proceeds to step S32. It is determined whether the received signal includes its own registration ID. When the ID matches the registered ID, a command to turn on or off the power is executed (step S33). If the password included in the received signal does not match the registered password or does not match the registered ID of the user himself, nothing is done and the system waits for reception of the next signal.

In any of the controls shown in FIGS. 8A and 8B, since an ID for specifying a control object is provided with a user-specific ID including a telephone number, the ID is transmitted wirelessly from another user's system. Turn on / off the power of the target control target while reliably avoiding overlapping interference with the ID-added control command.
Can be turned off.

FIG. 9 shows a more specific embodiment of the apparatus used in the system of the present invention.

In the figure, (A) is a configuration example of a remote control transmission device used by connecting to a public telephone line, (B) is a configuration example of a portable remote control device, and (C) is a control target (electric appliance). An example of the configuration of the remote control receiver 2 installed on the side is shown. Each device is configured using several semiconductor integrated circuit devices (chip sets).

The remote control transmitter 1 shown in FIG.
It is configured using two semiconductor integrated circuit devices (101 to 104). 101 is an antenna changeover switch and a frequency filter, 102 is a radio signal processing circuit, 103 is a link controller, and 104 is a microcomputer, each of which is formed as a semiconductor integrated circuit (IC). With these, the main configuration of the remote control transmission device 1 shown in FIG. 1A, that is, the command processing unit 10, the storage unit 11, the storage control unit 15, the command generation unit 16, the wireless transmission unit 17, the line I / F 18, and the like are configured. Have been.

The remote control transmitter 1 shown in FIG.
It is configured using two semiconductor integrated circuit devices (102, 102, 104). 102 is a wireless signal processing circuit,
Reference numeral 03 denotes a link controller, and reference numeral 104 denotes a microcomputer. These are also the main components of the remote control transmitting apparatus 1 shown in FIG.
The storage unit 11, the storage control unit 15, the ID registration unit 11, the command generation unit 16, and the wireless transmission unit 17 are configured.

The remote control receiver 2 shown in FIG.
It is configured using two semiconductor integrated circuit devices (102 to 105). 102 is a wireless signal processing circuit, 103 is a link controller, 104 is a microcomputer,
Reference numeral 105 denotes a filter for selecting a reception frequency. These filters are used to control the main components of the remote control receiver 2 shown in FIG. 2, that is, the storage unit 21, the storage control unit 25, and the command processing unit 2.
6, a wireless receiving unit 27 and the like.

FIG. 10 shows an example of the external configuration of each device shown in FIG.

FIGS. 9A, 9B and 9C respectively show FIGS.
(A), (B), and (C). (A) shows a remote control transmitting device 1 formed in a tabletop type,
Is a wireless antenna, 191 is an operation key panel section, 192
Indicates a monitor display unit. (B) shows a remote control transmitting device 1 formed in a portable type, in which an antenna 170 is provided.
Is provided so as to be integrated with the case. The remote control receiver 2 shown in (C) has a power plug (AC plug)
The power adapter 201 is integrated with a power outlet (AC outlet) 202 to form an outlet adapter interposed between a power plug to be controlled (electric appliance) and a power outlet into which the power plug is inserted. (C) of FIG.
(A) is a state viewed from the plug 201 side,
(B) shows the state viewed from the outlet 202 side.

FIG. 11 shows a state in which the above-described system of the present invention is installed in an ordinary detached house. Also, FIG.
This shows a state where the building is installed in a house that is divided into multiple buildings. 11 and 12, reference numeral 200 denotes a wireless device such as a mobile phone, 1 denotes a remote control transmitting device, 2 denotes a remote control receiving device, 5 denotes an appliance to be controlled, 41 denotes an AC outlet,
31 is a plug. As shown in FIGS. 11 and 12, the system of the present invention can be flexibly configured according to the number of buildings, the size of an area, and the like in which the appliance to be controlled is installed.

Although the invention made by the inventor has been specifically described based on the embodiments, the present invention is not limited to the above embodiments, and can be variously modified without departing from the gist thereof. Needless to say. For example, the control command with ID may be wirelessly transmitted by a space propagation signal other than a radio wave (electromagnetic wave), for example, an infrared signal.

[0067]

The effects obtained by typical ones of the inventions disclosed in the present application will be briefly described as follows.

That is, a condition in which a large number of users are distributed at high density in a narrow area where weak power or low power short-range radio signals can propagate mutually without depending on the unified serial number for each device. However, it is possible to obtain an effect that it is possible to surely avoid the overlapping interference of the control signals between the users and perform the power management by wireless without fail while identifying both the user and the control target.

[Brief description of the drawings]

FIG. 1 is a functional block diagram showing an embodiment of a remote control transmission device constituting a wireless power management system according to the present invention, and a data configuration diagram showing an example of a data format of a wireless signal.

FIG. 2 is a functional block diagram showing an embodiment of a remote control receiving device constituting the wireless power management system according to the present invention.

FIG. 3 is a hierarchical diagram showing a configuration example of a control command with ID used in the system of the present invention.

FIG. 4 is a hierarchical diagram showing another configuration example of a control command with ID used in the system of the present invention.

FIG. 5 is a block diagram showing an extended example of the system of the present invention.

FIG. 6 is an operation flowchart of setting registration in the system of the present invention.

FIG. 7 is an operation flowchart when the remote control transmission device of the system of the present invention is externally operated using a public telephone line.

FIG. 8 is an operation flowchart on the side of a remote control receiver that wirelessly receives a control command with ID.

FIG. 9 is a block diagram showing a more specific embodiment of an apparatus used in the system of the present invention.

FIG. 10 is a perspective view showing an example of an external configuration of the device shown in FIG.

FIG. 11 is a diagram showing an example in which the system of the present invention is installed in a normal detached house.

FIG. 12 is a diagram showing an example in which the system of the present invention is installed over a plurality of buildings.

[Explanation of symbols]

REFERENCE SIGNS LIST 1 remote control transmission device 10 command processing unit 11 storage unit 12 user-specific ID registration unit 13 ID table 14 password registration unit 15 storage control unit 16 transmission data generation unit 17 wireless transmission unit 170 antenna 171 extension port (base unit side) 172 extension port (Slave unit side) 18 Telephone line I / F (Interface) 19 Operation unit 191 Operation key panel unit 192 Monitor display unit 1 'Extension transmission unit (slave unit) 2 Remote control receiver 21 Storage unit 22 User-specific ID registration unit 23 Target-specific ID registration unit 24 Password registration unit 25 Storage control unit 26 Command processing unit (system control unit) 27 Wireless reception unit 30 Power supply control unit 6 Power supply unit (battery, etc.) 101 Antenna switch and frequency filter (IC) 102 Wireless signal Processing circuit (IC) 103 Link controller Over La (IC) 104 microcomputer (IC) 105 receives a frequency selection filter (IC)

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) H04Q 9/00 301 G06F 1/00 334L 311 H04L 13/00 TF term (Reference) 5B011 DA01 EA10 FF04 MA11 5G064 AA01 AB03 AC01 AC06 CB01 CB11 DA07 5K034 AA05 CC06 EE03 EE12 TT05 5K048 AA04 AA09 BA13 BA53 DB01 DC01 EA16 EB02 HA04 HA06 5K101 KK11 LL01 LL11 PP04

Claims (10)

[Claims] 1. A remote control transmitting device for generating an ID-added control command including an identifier based on a power control command input by a user operation, and wirelessly transmitting the control command, and wirelessly receiving the ID-added control command. When the identifier included in the command is a specific identifier registered in advance, a remote control receiver that executes power on / off control in accordance with the command remotely controls the power supply to a plurality of control targets individually. Wireless power management system, wherein the identifier is configured by a user-specific identifier consisting of a telephone number and a target-specific identifier that specifies a control target under the hierarchy of the telephone number. Power management system. 2. The wireless power management system according to claim 1, wherein the user-specific identifier comprises an external telephone number and an internal telephone number. 3. A remote control transmitting device used in the wireless power management system according to claim 1, wherein the user interface means for acquiring the power control command, and the user-specific identifier are rewritably stored and registered. A non-volatile ID registration unit, a command generation unit that generates an ID-added control command including a user-specific identifier based on the power control command, and a wireless transmission unit that wirelessly transmits the control command. A remote control transmission device characterized by the above-mentioned. 4. The remote control transmitting apparatus according to claim 3, further comprising a line interface for acquiring a power control command via a public telephone line as the user interface. 5. The remote control transmitting device according to claim 3, wherein an input operation means such as a key panel is provided as the user interface. 6. A semiconductor integrated circuit device constituting a main part of the remote control transmitting device according to claim 3, wherein at least each function of said ID registration unit and said command generation means is controlled by a microcomputer. A semiconductor integrated circuit device characterized in that: 7. A remote control receiving apparatus used in the wireless power management system according to claim 1 or 2, wherein a wireless receiving means for wirelessly receiving a control command wirelessly transmitted, and the user-specific identifier and the own apparatus are specified. ID registration unit for storing and registering an identifier for each object to be registered, and ID identification means for identifying whether or not the user identifier and the object identifier of the ID registration unit are added to the control command received by the wireless receiving unit And a command execution means for executing a power on / off command in response to the control command when a predetermined identifier is identified by the ID identification means. 8. The remote control receiver according to claim 7, wherein the command execution means is a switch that intervenes in series with a power supply line to be controlled and controls on / off of the power supply of the control target. 9. The remote control receiver according to claim 7, wherein the entire remote control device including the power switch forms an outlet adapter interposed between a power plug to be controlled and a power outlet into which the power plug is inserted. A remote control receiver characterized by the above-mentioned. 10. A semiconductor integrated circuit device constituting a main part of the remote control receiving device according to claim 7, wherein at least each function of said ID registration unit and said ID identification means is controlled by a microcomputer by a microcomputer. A semiconductor integrated circuit device characterized in that: