JP2006074934A - Load control system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To inhibit a load apparatus from operating in the off state of a power supply switch, in a load control system provided with a function of power-line-carrier communications. <P>SOLUTION: The load control system is provided with: an adaptor 3 that controls power supply to the load apparatus 4; and a control terminal 2 provided with an operation instruction receiver 24 that receives a first control instruction that instructs the operation of the apparatus 4, and an infrared ray communications portion 23 that transmits the first control instruction to the adaptor 3 by radio communications. The adaptor 3 is provided with: a power-line carrier communication modem 33 that performs the power-line-carrier communications; another infrared ray communications portion 35 that performs infrared ray communications with the control terminal 2; connection terminals P6, P3 that receive power source voltages from power lines 101, 102; a switch SW2 that controls the power supply from the connection terminals P6, P3 to the apparatus 4; and a control circuit 34 that turns on and off the switch SW2, according to the first control instruction and a second control instruction received from outside via the power line. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a load control system that controls power supply to a load device.

  FIG. 2 is an explanatory diagram for explaining the wiring of a two-wire one-side switch circuit used in a building such as a house. In FIG. 2, AC 100V power lines 101 and 102, for example, are wired in the building. For example, one of the power input terminals of the load device 103 such as a lighting fixture or a ventilation fan is connected to the power line 101, and the other is a one-off switch 104. To the power line 102. The single-sided switch 104 is a wall switch that is attached to a wall surface of a building, for example. 106 is wired, and the power lines 101 and 102 are not wired.

  By the way, there is a need to turn on and off the one-side switch 104 by incorporating a power line carrier communication circuit in such a wall switch and performing power line carrier communication. In this case, since the communication signal transmitted from the other power line carrier communication apparatus via the power line 101 is received by the power line carrier communication circuit incorporated in the wall switch via the input impedance of the load device 103, the load device 103 When the input impedance of the power line carrier communication increases in the frequency band of the power line carrier communication and becomes a value about one digit larger than the impedance between the power lines, for example, the communication signal output from the power line carrier communication circuit to the power lines 101 and 102, There is an inconvenience that attenuation of a communication signal transmitted from another power line carrier communication terminal connected to 102 increases and it becomes difficult to obtain sufficient transmission quality.

Therefore, a bypass circuit that allows only a high-frequency signal used in power line carrier communication to pass between the input terminals of the load device 103 (for example, a film capacitor having a capacitance of 0.22 μF as an element that reduces impedance in the power line carrier communication frequency band) ) And by bypassing the load device 103 with a communication signal, a method of reducing the influence of the input impedance of the load device 103 is known (see, for example, Patent Document 1).
JP 57-78330 A

  By the way, in the wall switch incorporating the power line carrier communication circuit as described above, the power line carrier communication circuit performs power reception and signal transmission at the same time using the power line. The voltage input terminal of the power supply circuit that generates and the input / output terminal of the communication signal in the power line carrier communication circuit are the same terminal. Further, since only the switch wirings 105 and 106 are wired to the wall switch, the power line carrier communication circuit and the power supply circuit are connected between the switch wirings 105 and 106, that is, in parallel with the one-off switch 104.

  Then, in a state where the one-side switch 104 is turned off, the combined impedance of the input impedance of the power supply circuit and the input impedance of the power line carrier communication circuit is connected in parallel with the one-piece switch 104, and the one-piece switch 104 is turned off. However, depending on the magnitude of the combined impedance, there is a disadvantage that the load device may operate because a current flows through the load device 103 via the combined impedance.

  The present invention has been made in view of such a problem, and is a load control system having a power line carrier communication function, and can suppress the operation of a load device when the power switch is off. An object is to provide a load control system.

  In order to achieve the above object, a load control system according to the first means of the present invention includes an adapter for controlling power supply for operating a load device connected to the outside, and an instruction for the operation of the load device. A control terminal including an operation instruction receiving unit that receives the first control instruction and a terminal-side wireless communication unit that transmits the first control instruction received by the operation instruction receiving unit to the adapter by wireless communication. The adapter includes a power line carrier communication unit that performs power line carrier communication using a power line that supplies a power supply voltage to the load device, and a wireless communication between the terminal side wireless communication unit. An adapter-side wireless communication unit to perform; first and second connection terminals that receive power supply voltage from the power line; and control of power supply from the first and second connection terminals to the load device The adapter side switch unit, the adapter according to the first control instruction received by the adapter side wireless communication unit and the second control instruction received from the outside by the power line carrier communication unit via the power line An adapter control unit for controlling on / off of the side switch unit, wherein the first connection terminal is connected to one phase of the power line, and the second connection terminal is connected to the power line via the control terminal. It is characterized in that it is connected to the other phase.

  In the load control system described above, the control terminal includes a first power supply unit that supplies power for operation for operating the terminal-side wireless communication unit, and the other phase of the power line and the adapter In between, a series circuit of the first power supply unit and the terminal side switch unit is interposed, and the input impedance in the first power supply unit is the series circuit when the terminal side switch unit is turned on. The current supplied to the adapter via the switch is set to a low impedance so as to be equal to or higher than the operating current of the load device.

  In the above-described load control system, the control terminal further includes a second power supply unit that is connected in parallel with the terminal-side switch unit and supplies operating power for operating the terminal-side wireless communication unit. And the input impedance in the second power supply unit is less than the operating current of the load device when the current supplied to the adapter via the second power supply unit when the terminal-side switch unit is turned off. It is characterized by high impedance as much as possible.

  In the load control system having such a configuration, power is supplied to the load device via the adapter side switch unit based on the power supply voltage received by the first and second connection terminals, and is received by the adapter side wireless communication unit. Current for operating the control terminal by controlling on / off of the adapter-side switch unit according to the first control instruction and the second control instruction received from the outside by the power line carrier communication unit via the power line In the load control system having the power line carrier communication function, it is possible to prevent the load device from being operated by the current for operating the control terminal in the off state of the adapter side switch unit. it can.

  Embodiments according to the present invention will be described below with reference to the drawings. In addition, the structure which attached | subjected the same code | symbol in each figure shows that it is the same structure, The description is abbreviate | omitted.

  FIG. 1 is a block diagram illustrating an example of a configuration of a load control system according to an embodiment of the present invention. In FIG. 1, a load control system 1-A includes a control terminal 2-A and an adapter 3-A. The control terminal 2-A includes connection terminals P1 and P2, and the adapter 3-A is a connection terminal. P3, P4, P5 and P6 are provided. For example, power lines 101 and 102 for supplying a commercial power supply voltage Vac of AC 100V are wired, from the power line 102 to the switch wiring 105, the connection terminal P1 in the control terminal 2-A, the connection terminal P2 in the control terminal 2-A, Switch wiring 107, connection terminal P3 in adapter 3-A, connection terminal P4 in adapter 3-A, switch wiring 108, load device 4-A, switch wiring 109, connection terminal P5 in adapter 3-A, in adapter 3-A Power is supplied to the load device 4-A through a path that reaches the power line 101 via the connection terminal P6 and the switch wiring 110.

  Similarly, a load control system 1-B is configured by the control terminal 2-B and the adapter 3-B, and the control terminal 2-B, the adapter 3-B, and the load device 4-B are connected to the power line 101, 102 are connected. The control terminal 2-A, the adapter 3-A, and the load device 4-A, and the control terminal 2-B, the adapter 3-B, and the load device 4-B are configured in the same manner. In this case, reference numerals with alphabetic subscripts omitted are indicated, and individual configurations are indicated with reference numerals with alphabetic subscripts added. The load device 4 is an electrical device such as a lighting fixture, a ventilation fan, and a daylighting window.

  The control terminal 2 is a wall switch for receiving, for example, an on / off instruction (first control instruction) for the load device 4, and is a manual switch that is an example of the connection terminals P1 and P2, the capacitor C1, and the terminal-side switch unit. SW1, a first power supply circuit PS1 as an example of a first power supply unit, a second power supply circuit PS2 as an example of a second power supply unit, a constant voltage circuit 21, a switch state detection unit 22, and an example of a terminal side wireless communication unit An infrared communication unit 23, an operation instruction receiving unit 24, a display unit 25, and a control circuit 26.

  The control terminal 2 is connected in parallel with the capacitor C1 to a series circuit of the input unit in the first power supply circuit PS1 and the switch SW1, and in parallel with the series circuit of the input unit in the first power supply circuit PS1 and the switch SW1. The input unit in the second power supply circuit PS2 is connected.

  The first power supply circuit PS1 operates power for the switch state detection unit 22, the infrared communication unit 23, the operation instruction reception unit 24, the display unit 25, the control circuit 26, and the like from the current flowing through the switch SW1 when the switch SW1 is on. It is a power supply part which supplies. The input impedance in the first power supply circuit PS1 is necessary for operating the load device 4 with the current supplied to the adapter 3 via the first power supply circuit PS1 and the switch SW1 when the switch SW1 is turned on. The impedance is set to be low so as to exceed the operating current. Specifically, the first power supply circuit PS1 is configured using, for example, a current transformer that can easily reduce the input impedance.

  The second power supply circuit PS2 operates power of the switch state detection unit 22, the infrared communication unit 23, the operation instruction reception unit 24, the display unit 25, the control circuit 26, and the like from the voltage across the capacitor C1 when the switch SW1 is off. The input impedance is set such that the current flowing through the input impedance in the second power supply circuit PS2 is less than the operating current at which the load device 4 operates, and when the switch SW1 is off, the first The load device 4 is not substantially operated by the current flowing through the two power supply circuit PS2.

  Then, after the power supply voltage output from the first power supply circuit PS1 and the second power supply circuit PS2 is set to a constant voltage suitable for the operation of the infrared communication unit 23, the control circuit 26, and the like by the constant voltage circuit 21, The operation power supply voltage is supplied to each unit in the control terminal 2 such as the infrared communication unit 23 and the control circuit 26.

  The switch SW1 is a switch for forcibly turning off the supply of the commercial power supply voltage to the load device 4. For example, a manual open / close switch is used. The switch state detection unit 22 detects the on / off state of the switch SW <b> 1 and outputs an on / off detection signal indicating the on / off state to the control circuit 26. Specifically, for example, a two-pole switch is used as the switch SW1, one pole is used to open and close the supply of the commercial power supply voltage to the load device 4, and the other pole is used to detect the on / off state of the switch SW1. You may use as the switch state detection part 22 for doing.

  The infrared communication unit 23 is a communication interface circuit that performs infrared communication that is an example of wireless communication with the adapter 3. The operation instruction receiving unit 24 includes, for example, a push button switch. The load device 4-A is connected to the load device 4-A from the user and the other adapter 3-B connected to the power lines 101 and 102. A power on / off instruction for B is accepted. The display unit 25 is configured using, for example, an LED (Light Emitting Diode), a liquid crystal display panel, or the like, and displays the power on / off state of the load device 4-A or is connected to another adapter 3-B. The power on / off state of the loaded load device 4-B is displayed.

  The control circuit 26 is configured using, for example, a CPU (Central Processing Unit), and transmits an on / off instruction received by the operation instruction receiving unit 24 from the infrared communication unit 23 to the infrared communication unit 35 in the adapter 3. When the device state information indicating the power on / off state of the load device 4-A, the load device 4-B, etc. is received from the infrared communication unit 35 by the infrared communication unit 23, the received device state information is displayed. The display unit 25 displays the switch SW1 and the display unit 25 displays the on / off state of the switch SW1 based on the on / off detection signal output from the switch state detection unit 22.

  The adapter 3 includes a connection terminal P3 as an example of a second connection terminal, connection terminals P4 and P5, a connection terminal P6 as an example of a first connection terminal, a capacitor C2, a transformer T, an amplifier 31, a reception filter 32, and a power line. Power line carrier communication modem 33 as an example of carrier communication unit, control circuit 34 as an example of adapter control unit, infrared communication unit 35 as an example of adapter side wireless communication unit, switch SW2 as an example of adapter side switch unit, power supply A circuit 36 and an inductor L are provided.

  The adapter 3 includes connection terminals P4 and P5 that are external connection terminals for supplying power to the load device 4, and the connection terminal P4 is connected to the connection terminal P3 via the switch SW2, and the connection terminal P5 is connected to the connection terminal P6. Connected with. The power supply to the load device 4 is controlled by turning on and off the switch SW2 in accordance with a control signal from the control circuit 34.

  The adapter 3 has a series circuit of a capacitor C2 and a primary winding of the transformer T connected between the connection terminals P3 and P6, one end of the secondary winding of the transformer T is connected to the ground, and the other end is an amplifier. The output terminal 31 is connected to the input terminal of the reception filter 32. The input terminal of the amplifier 31 is connected to the transmission side terminal of the power line carrier communication modem 33, and the output terminal of the reception filter 32 is connected to the reception side terminal of the power line carrier communication modem 33.

  The capacitor C2 increases the impedance with respect to the commercial power supply frequency to block the commercial power supply voltage, and reduces the impedance with respect to the power line carrier frequency to pass the communication signal of the power line carrier communication. The reception filter 32 is a band-pass filter circuit that extracts a signal in a frequency band used in power line carrier communication from high frequency signals that have passed through the capacitor C2 and the transformer T and outputs the signal to the power line carrier communication modem 33. The power line carrier communication modem 33 demodulates the signal output from the reception filter 32, that is, the communication signal transmitted by the power line carrier communication from the adapter 3-B which is another power line carrier communication terminal, and outputs the demodulated signal to the control circuit 34. For example, a control signal for controlling on / off of the power supply of the load device 4-B output from the control circuit 34 is modulated into a communication signal for power line carrier communication and output to the amplifier 31. The amplifier 31 amplifies the communication signal for power line carrier communication output from the power line carrier communication modem 33 and outputs the amplified signal to the coupling capacitor C2. The infrared communication unit 35 is a communication interface circuit that performs infrared communication that is an example of wireless communication with the control terminal 2.

  The control circuit 34 is configured using, for example, a CPU (Central Processing Unit), and the switch SW2 according to a power on / off instruction to the load device 4-A from the control terminal 2 received by the infrared communication unit 35. Is turned on or off, or a control signal corresponding to a power on / off instruction for the load device 4-B is output to the power line carrier communication modem 33, and the power line carrier communication modem 33 passes the power lines 101 and 102 to the adapter 3-B. A power on / off instruction is transmitted to the load device 4-B using the power line carrier communication. In addition, the control circuit 34 is received when the power line carrier communication modem 33 receives the device state information indicating the power on / off state of the load device 4-B via the power lines 101 and 102 by the power line carrier communication. The apparatus state information is transmitted to the control terminal 2 by the infrared communication unit 35, or the apparatus state information indicating the ON / OFF state of the switch SW2 is transmitted to the control terminal 2 by the infrared communication unit 35.

  The adapter 3 also includes a power supply circuit 36 that supplies power supply voltages for operation of the amplifier 31, the power line carrier communication modem 33, the control circuit 34, the infrared communication unit 35, and the like. The connection terminal P6 is connected to the other input terminal of the power supply circuit 36. Since the input impedance of the power supply circuit 36 is increased by the inductor L, the power line carrier communication signal output between the connection terminals P3 and P6 by the transformer T and the capacitor C2 may be absorbed by the power supply circuit 36. It is suppressed.

  The switch SW2 is a switch for turning on and off the supply of the commercial power supply voltage to the load device 4, and for example, a relay, a transistor, a thyristor, a triac or the like is used. The switch SW2 is not limited to an example in which the supply of the commercial power supply voltage to the load device 4 is turned on and off. For example, the switch SW2 is connected to the load device 4 by controlling the conduction angle using a semiconductor switch such as a thyristor or a triac. The power supply amount may be controlled. In this case, for example, if the load device 4 is an illumination device such as an incandescent lamp, it is possible to perform dimming control of illumination.

  Capacitors C1 and C2 increase the impedance at the commercial power frequency rather than the impedance at the power line carrier communication frequency. For example, a capacitor of 0.22 μF is used. Specifically, the impedances of the capacitors C1 and C2 are given by 1 / (2πfC). Here, f is the signal frequency (Hz), and C is the capacitance (F) of the capacitors C1 and C2. Therefore, the impedances of the capacitors C1 and C2 decrease in inverse proportion to the increase in signal frequency.

  The operation instruction receiving unit 24 receives not only a power on / off instruction for the load device 4, but also other operation instructions, for example, a dimming instruction for changing the brightness of the illumination if the load device 4 is a lighting device. Thus, an operation instruction other than the power on / off control may be performed. If the load device 4 has an infrared remote control function that accepts an operation instruction by infrared communication, the control terminal 2 receives the light control instruction received by the operation instruction accepting unit 24, for example, by infrared communication. 4 may be transmitted. Thereby, since the control terminal 2 can control the operation of the load device 4 using the infrared remote control function, it is possible to control operations other than the power on / off of the load device 4 using the infrared remote control function. .

  The infrared communication units 23 and 35 are not limited to those that perform infrared communication, and may perform wireless communication using, for example, radio waves. The transformer T may use an inductor in addition to the transformer.

  Next, the operation of the load control system 1-A configured as described above will be described. First, the switch SW1 in the control terminal 2-A is normally turned on. The commercial power supply voltage Vac is supplied to the first power supply circuit PS1 via the power line 101, the switch wiring 110, the connection terminal P6, the power supply circuit 36, the inductor L, the connection terminal P3, the switch wiring 107, the connection terminal P2, and the switch SW1. After the power supply voltage output from the first power supply circuit PS1 is set to a constant voltage suitable for the operation of the infrared communication unit 23, the control circuit 26, etc. by the constant voltage circuit 21, the infrared communication unit 23, the control circuit 26, etc. The operation power supply voltage is supplied to each part in the control terminal 2. Then, since the commercial power supply voltage Vac is supplied to the control terminal 2-A without passing through the switch SW2, the control terminal 2-A is enabled regardless of whether the switch SW2 is on or off.

  The power supply circuit 36 is connected to the connection terminals P3 and P6 via the inductor L, and the commercial power supply voltage Vac is supplied to the power supply circuit 36 without passing through the switch SW2, so that the switch SW2 is turned on and off. Regardless, the power supply circuit 36 supplies power supply voltages for operation of the power line carrier communication modem 33, the control circuit 34, the infrared communication unit 35, and the like, and other load control systems 1-B regardless of whether the switch SW2 is on or off. Power line communication and infrared communication with the control terminal 2-A.

  Further, the power supply current from the connection terminals P3 and P6 to the first power supply circuit PS1 and the second power supply circuit PS2 in the control terminal 2-A and the power supply circuit 36 in the adapter 3-A without passing through the load device 4-A. Therefore, when the switch SW2 that is a power switch is in an OFF state, the load device 4 is suppressed from being operated by the power supply current for operating the control terminal 2-A and the adapter 3-A.

  Next, the control operation of the load device 4-A by the control terminal 2-A in the load control system 1-A will be described. First, when an operation instruction from the user, for example, an operation instruction for instructing power-on of the load device 4-A is received by the operation instruction receiving unit 24, the power-on received by the operation instruction receiving unit 24 by the control circuit 26 Is transmitted from the infrared communication unit 23 to the infrared communication unit 35 in the adapter 3-A, and the load device 4-A is turned on by the display unit 25 in response to a control signal from the control circuit 26. Is displayed.

  On the other hand, when the operation instruction instructing to turn on the load device 4-A transmitted from the infrared communication unit 23 is received by the infrared communication unit 35 in the adapter 3-A, according to the control signal from the control circuit 34. The switch SW2 is turned on, and from the power line 110, the connection terminal P6, the connection terminal P5, the load device 4-A, the connection terminal P4, the switch SW2, the connection terminal P3, and the connection terminal P2, the switch SW1, and the control terminal 2-A A closed circuit that reaches the power line 102, which is the other phase of the power line, is configured through the one power supply circuit PS1 and the connection terminal P1, and the power supply voltage Vac is supplied to the load device 4-A. Is turned on.

  Next, the control operation of the load device 4-B in the other load control system 1-B by the control terminal 2-A will be described. First, when an operation instruction from the user, for example, an operation instruction for instructing power on / off of the load device 4-B is received by the operation instruction receiving unit 24, the control circuit 26 turns on the power on of the load device 4-B, An operation instruction for instructing to turn off is transmitted from the infrared communication unit 23 to the infrared communication unit 35 in the adapter 3-A.

  On the other hand, when the operation instruction instructing power on / off of the load device 4-B transmitted from the infrared communication unit 23 is received by the infrared communication unit 35 in the adapter 3-A, the load circuit 4 is loaded by the control circuit 34. A control signal for instructing power on / off of -B is output to the power line carrier communication modem 33. The control signal is modulated into a power line carrier communication signal by the power line carrier communication modem 33, amplified by the amplifier 31, and superimposed on the power lines 101, 102 via the transformer T and the capacitors C1, C2.

  In this case, since the communication signal of the power line carrier communication output from the transformer T is superimposed on the power lines 101 and 102 without passing through the load device 4-A, the communication signal is attenuated by the input impedance of the load device 4-A. Can be reduced.

  Then, the communication signal superimposed on the power lines 101 and 102 is received and demodulated by the adapter 3-B, and the switch SW2 in the adapter 3-B is turned on and off in accordance with the demodulated control signal. B is powered on and off.

  Further, if the load device 4-B is compatible with the infrared remote control function, fine load control using the infrared remote control function can be performed in addition to the power on / off control. For example, when a lighting fixture with a dimming control function capable of controlling brightness is used as the load device 4-B, if the dimming level is transmitted from the adapter 3-A using a communication signal of power line carrier communication, the signal The adapter 3-B that has received the light can output the light control level to the load device 4-B through infrared communication to control the brightness of the load device 4-B. If the load device 4-A is compatible with the infrared remote control function, the control terminal 2-A may transmit a control signal by direct infrared communication to the load device 4-A. Moreover, as long as it is an electric device corresponding to the infrared remote control function, the operation of an electric device such as a television or an air conditioner may be controlled.

  Thereby, since the operation of the load device 4 and the electric device corresponding to the infrared remote control function can be controlled using the infrared remote control function, the operations other than the power on / off of the load device 4 are controlled by the infrared remote control function. Is possible.

  In the load control system 1, for example, the control circuit 34 performs a linked operation with another load control system 1 connected to the power lines 101 and 102, or performs a predetermined pattern operation such as lighting alternately. In such a case, the control circuit 34 generates a control signal based on the registration information, and the control signal is transmitted as a communication signal of the power line carrier communication by the power line carrier communication modem 33, the amplifier 31 or the like. 101, 102 may be superimposed on each other, and an operation such as a linked operation or a pattern operation may be executed by another load control system 1.

  Next, the control operation of the load device 4-A by the load control system 1-B will be described. First, similarly to the control operation of the load device 4-B by the load control system 1-A described above, the communication signal of the power line carrier communication instructing the power line 101, 102 to control the load device 4-A from the adapter 3-B. Are superimposed.

  Then, the communication signal superimposed on the power lines 101 and 102 is transmitted from the power line 101 via the connection terminal P6, the transformer T, the capacitor C2, the connection terminals P3 and P2, the capacitor C1, and the connection terminal P1 in the adapter 3-A. A current path that reaches the power line 102 flows, the commercial power supply frequency is removed by the capacitor C2 and the transformer T, and a noise component is removed by the reception filter 32, whereby a communication signal for power line carrier communication is extracted. A control signal (second control instruction) demodulated by the communication modem 33 and instructing control of the load device 4-A is received by the control circuit 34.

  In this case, since the communication signal of the power line carrier communication received from the power lines 101 and 102 is received by the power line carrier communication modem 33 without passing through the load device 4-A, communication using the input impedance of the load device 4-A is performed. Signal attenuation can be reduced.

  Then, the control circuit 34 turns on and off the switch SW2 according to the control signal, and device state information indicating the on / off state of the switch SW2 is transmitted to the control terminal 2 by the infrared communication unit 35. The device status information is received by the infrared communication unit 23 in the grounded control terminal 2-A, and the received device status information, for example, the ON / OFF state of the switch SW2 is displayed according to the control signal from the control circuit 26. Displayed in section 25.

  Further, the control circuit 34 normally receives the communication signal and outputs a reply signal indicating that the control according to the communication signal has been performed to the power line carrier communication modem 33, and the power line carrier communication modem 33, the amplifier 31, etc. A reply signal is superimposed on the power lines 101 and 102 and transmitted to the adapter 3-B.

  Thereby, the reliability of power line carrier communication can be improved. Further, the load control system 1 can suppress the operation current from being supplied to the load device 4-A when the switch SW2 is off, and the other load control system 1 regardless of whether the switch SW2 is on or off. Power line carrier communication can be performed with

  In addition, since the control terminal 2 can be connected to the wall switch mounting portion in the two-wire one-sided switch circuit, the existing in-house power line wiring form can be used as it is, and the workability is high. Furthermore, since the load corresponding to the infrared remote control function can be controlled via the power line carrier communication, it becomes easy to perform load control from a place where infrared communication cannot be performed.

  Next, the operation of the load control system 1 when the switch SW1 is turned off in the control terminal 2 will be described. The switch SW1 is a switch that forcibly turns on and off the supply of the commercial power supply voltage to the load device 4, and is configured by, for example, a manual open / close switch. As a result, for example, the infrared communication unit 35, the control circuit 34, the switch SW2, etc. in the adapter 3 are broken, the infrared communication unit 23, the control circuit 26, etc. in the control terminal 2 are broken, or an obstacle causes the infrared communication unit 23 and the infrared communication unit. Even when a failure that prevents the switch SW2 from being turned off occurs in a situation where infrared communication with the device 35 is difficult, the user forcibly turns off the switch SW1 to force the power source of the load device 4 Can be turned off automatically.

  First, when the switch SW1 is turned off in the control terminal 2, an input current does not flow to the first power supply circuit PS1, so that the operation power supply voltage for the internal circuit of the control terminal 2 is supplied from the first power supply circuit PS1 to the constant voltage circuit 21. Disappear. On the other hand, when the switch SW1 is turned off, the voltage across the capacitor C1 is applied to the input terminal of the second power supply circuit PS2, and the operation power supply voltage output from the second power supply circuit PS2 is changed by the constant voltage circuit 21. After being set to a constant voltage suitable for the operation of the infrared communication unit 23, the control circuit 26, etc., it is supplied as an operation power supply voltage to each part in the control terminal 2, such as the infrared communication unit 23, the control circuit 26, etc.

  The switch state detection unit 22 detects the on / off state of the switch SW1, outputs an on / off detection signal indicating the on / off state to the control circuit 26, and switches the switch SW1 according to the control signal from the control circuit 26. Is displayed on the display unit 25, and information indicating the on / off state of the switch SW1 is transmitted to the adapter 3 by the infrared communication unit 23. The adapter 3 indicates information indicating the on / off state of the switch SW1. Is transmitted to the other load control system 1 by power line carrier communication.

  Thereby, even when the switch SW1 is turned off, for example, the failure in the adapter 3 is welding of the switch SW2, and the power line carrier communication modem 33, the control circuit 34, the infrared communication unit 35, etc. can operate normally. In this case, the control terminal 2 can issue a control instruction for another load control system 1 or display device status information in the same manner as described above. Further, since the switch state detection unit 22 detects the on / off state of the switch SW1, even when the user forcibly turns off the manual switch SW1, the control circuit 26 turns on the switch SW1. The off state is displayed on the display unit 25, and information indicating the on / off state of the switch SW1 is transmitted from the adapter 3 to another load control system 1 through power line carrier communication, or linked to the other load control system 1. Can be performed.

  The switch SW1 is not limited to a manual switch, and may be configured to be turned on and off in accordance with a control signal from the control circuit 26 using, for example, a relay, a transistor, a thyristor, or a triac. In this case, for example, the control circuit 26 receives the power on / off instruction of the load device 4 transmitted from the other load control system 1 to the adapter 3 by power line carrier communication from the adapter 3 by infrared communication. The switch SW1 may be turned on / off in response to a power on / off instruction from the load control system 1. As a result, the control terminal 2 can operate the load device 4 in conjunction with, for example, another load control system 1 using the switch SW1.

It is a block diagram which shows an example of a structure of the load control system which concerns on one Embodiment of this invention. It is explanatory drawing for demonstrating the wiring of the two-wire one-sided switch circuit used in buildings, such as a house which concerns on background art.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Load control system 2 Control terminal 3 Adapter 4 Load apparatus 21 Constant voltage circuit 22 Switch state detection part 23, 35 Infrared communication part 24 Operation instruction reception part 25 Display part 26, 34 Control circuit 31 Amplifier 32 Reception filter 33 Power line carrier communication modem 36 power circuit 101, 102 power line C1, C2 capacitor L inductor P1, P2, P3, P4, P5, P6 connection terminal PS1 first power circuit PS2 second power circuit SW1, SW2 switch T transformer

Claims (3)

An adapter that controls power supply for operating an externally connected load device, an operation instruction receiving unit that receives a first control instruction that instructs the operation of the load device, and a first received by the operation instruction receiving unit A control terminal including a terminal-side wireless communication unit that transmits a control instruction of 1 to the adapter by wireless communication,
The adapter is
A power line carrier communication unit that performs power line carrier communication using a power line that supplies a power supply voltage to the load device;
An adapter-side wireless communication unit that performs wireless communication with the terminal-side wireless communication unit;
First and second connection terminals for receiving a power supply voltage from the power line;
An adapter-side switch unit for controlling power supply from the first and second connection terminals to the load device;
The adapter side switch unit is turned on according to the first control instruction received by the adapter side wireless communication unit and the second control instruction received from outside by the power line carrier communication unit via the power line, An adapter controller for controlling the off,
With
The load control system, wherein the first connection terminal is connected to one phase of the power line, and the second connection terminal is connected to the other phase of the power line via the control terminal. The control terminal
A first power supply unit that supplies power for operation for operating the terminal-side wireless communication unit;
Between the other phase of the power line and the adapter, a series circuit of the first power supply unit and the terminal side switch unit is interposed,
The input impedance in the first power supply unit is low impedance so that the current supplied to the adapter via the series circuit when the terminal side switch unit is turned on is equal to or higher than the operating current of the load device. The load control system according to claim 1, wherein: The control terminal further includes a second power supply unit that is connected in parallel with the terminal-side switch unit and supplies power for operation for operating the terminal-side wireless communication unit,
The input impedance in the second power supply unit is such that the current supplied to the adapter via the second power supply unit when the terminal side switch unit is turned off is less than the operating current of the load device. 3. The load control system according to claim 2, wherein the load control system has a high impedance.

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