KR100515477B1 - PLC remote control outlet - Google Patents

Abstract

The present invention relates to a power line communication remote control outlet apparatus for remotely controlling a power source of an outlet using a power line communication method.

According to the present invention, the signal coupling circuit includes a power line communication transformer for connecting and transmitting and receiving the power line signal driver stage; The power line modem IC performs a central control operation by receiving inputs from an IR receiver and a button input for the function of an existing IR remote control switch. When the power is supplied to an outlet, the status display is turned off and power is not supplied. If not, turn on the status display; When the command corresponding to the address value is broadcasted on the power line, after performing the corresponding operation, the remote control outlet using the power line communication method, characterized in that broadcasting the status of the operation result on the power line again. Provide the device.

Description

Remote control outlet device using power line communication method {PLC remote control outlet}

The present invention relates to a remote control outlet apparatus, and more particularly, to an outlet apparatus for remotely controlling a power source of an outlet using a power line communication method.

In general, in order to remotely control a large number of devices or devices provided in a home, an office, or a factory, a control method using power line communication has recently been widely used due to its convenience.

That is, the technology for controlling the remote control devices installed in the home through the telephone network is remotely connected by the communication means between the telephone remote control device and the remote control device by wire or by physical coupling such as wireless or infrared, Controlled.

The problem with these conventional devices is that when wired connection is required, the burden of installation cost and the burden of having to re-wire according to the location between the remote control device and the target device to be controlled should be considered.

When connecting wirelessly, the same equipment may be used in neighboring houses, or the same frequency band (public band) equipment may cause interference with each other. Becomes In the case of the infrared connection, the remote control telephone apparatus and the remote control apparatus to be controlled should be present at a viewing distance from each other, and thus, the installation location is limited. In addition, in all three cases (wired, wireless, infrared connection) there is a need to install a separate power supply to the target device.

In general, an adapter type outlet is a multi-cap outlet having an extended connection hole, or a power switch is attached to turn on / off the power. In addition, the remote control outlet is the degree that the ability to turn on / off the power of the inlet by the infrared remote control or RF remote control is added.

In addition, a conventional outlet that is remotely controlled by using power line communication has a commander that issues a control command to the outlet, and uses unidirectional power line communication that operates by receiving a command signal issued by the commander. That is, when issuing a control command to the outlet to be controlled, it is always possible through the commander.

Problems of these devices will be described below.

First, in the case of an outlet controlled by an infrared remote controller, the outlet to be controlled must be at a distance enough to receive an infrared signal. In other words, in order to control the remote control outlet of the room across the room it is impossible to receive this infrared signal, the control is impossible. Therefore, the user has a problem that control is possible only when the outlet to be controlled is a position where a visible space is secured.

Of course, if the transmission power of the infrared remote controller is high enough, it can be controlled through the reflection of the wall, but at least it cannot control the power of at least the next room or another area that is physically isolated from the outlet.

In addition, the outlet controlled by the RF remote control has the advantage that it can be controlled in a far enough distance compared to the above-described infrared type outlet, but in the case where the outlet next door is undesirably controlled in a densely populated area. May occur. That is, according to the RF signal transmission output, there is a problem that the outlet next door may operate.

An object of the present invention for solving the problems of the prior art as described above is to provide a remote control outlet device for remotely controlling the outlet by using a power line communication method.

In order to achieve the above object, according to the present invention, a power line modem IC, a signal coupling circuit operating as a PLC (Power Line Communication) driver, an IR receiver, a button input unit and a status display unit, the power line modem IC Performs power line communication by using a signal transmitted from the signal coupling circuit in synchronization; The signal coupling circuit includes a power line communication transformer to connect a power supply terminal and a power line signal driver terminal to perform transmission and reception; The power line modem IC performs a central control operation by receiving input of the IR receiver and a button input unit for a function of an existing IR remote control switch, and when the power is supplied to an outlet, the state display unit is turned off and power is supplied. If it is not, perform the operation of turning on the status display unit; When the command corresponding to the address value is broadcasted on the power line, after performing the corresponding operation, the remote control outlet using the power line communication method, characterized in that broadcasting the status of the operation result on the power line again. Provide the device.

More preferably, the present invention provides a remote control switch device further comprising a zero cross detection circuit for sensing a voltage of a power line to detect a zero cross portion and transmitting a signal to the power line modem IC.

On the other hand, the outline of the data communication method at the zero cross point, which is widely used among the power line communication method used in the present invention is as follows.

In general, data communication at a zero cross point on a power line is performed in units of one cycle of power frequency for each data bit, and indicates data bits according to positions of carrier signals per half cycle. That is, according to the conventional X-10 based communication method, a signal is generated while generating a 120KHz power line signal for 1 ms at a zero cross point of the power line's power level, and power line communication is performed by combining these data.

1A and 1B are waveform diagrams showing data bits in a data communication method using zero cross points of a general power line.

As shown in FIGS. 1A and 1B, when a carrier signal is present as 'ON' and when there is no 'OFF', the data bit '1' is displayed as a carrier signal 'OFF' in the carrier signal 'ON'. The data bit '0' is indicated by the carrier signal 'on' from the carrier signal 'off'.

Data communication using a zero cross point of a power line is based on this definition, in which control devices transmit and receive data to and from each other using the power line.

For the data communication method using the existing zero cross point, the present inventors have already applied for and registered the 'remote control apparatus using bidirectional power line communication and its control method' (Publication No. 10-2000-002198) and the Priority Data Communication Method Using Zero Cross Point '(Publication Number: 10-1999-053820). In addition, the present invention utilizes the contents described in the patent application 'data packet recording medium, operation method and bidirectional communication method applied to the power line communication method' which is further improved (Application No. 10-2001-076335).

The X-10 based communication method is as follows.

FIG. 2A is a data structure diagram illustrating a starting point of a conventional X-10 based protocol, and FIG. 2B is a waveform diagram illustrating the data structure illustrated in FIG. 2A as a waveform.

First, as shown in FIG. 2A, the X-10-based protocol start point includes two cycles of 'Start Code', four cycles of 'House Code', and five cycles of 'Number Code' or 'Function Code'. Send the signal twice in succession. At this time, 'Start Code' exists only 1110, and one data is transmitted in 1/2 cycle, and other codes are data of 1 and 0 if data is L1 because one cycle means 1 bit of data. Is extended and transmitted, and if L0, it is extended to 0 and 1 and sent. This is illustrated in Figure 2b.

Meanwhile, L1 and L0 are defined as follows.

If the carrier frequency is present at the zero cross point, it is defined as '1'. If it is not present, it is defined as '0', and 'logical 1 (L1)' is defined as '1' where the carrier frequency is present at the zero cross point and then is not present. 0 is a combination, and 'logical 0 (L0)' means a carrier frequency does not exist at a zero cross point and a carrier frequency exists at a next zero cross point, that is, a combination of 0 and 1.

Therefore, according to FIG. 2B, 'Start Code' is '1110', 'House Code' is 'L0, L0, L0, L1', and 'Number / Function Code' is 'L0, L0, L0, L1, L1'. do.

The present invention may be implemented using a general power line communication method, or may be implemented using the power line communication method using the zero cross point as described above.

Hereinafter, a remote control outlet device using a power line communication method according to an embodiment of the present invention with reference to the accompanying drawings will be described in more detail.

3 is an overall schematic diagram of a two-way power line communication home automation (HA) system to which a power line communication remote control outlet device according to an embodiment of the present invention is applied.

The power line remote control telephone apparatus 300 includes a power line switch 301, a power line outlet 302, a power line gas intermediate valve 303, a power line gas main valve 304, and a power line learning remote controller 305, which are control devices on the power line. Is connected by a power line, the power line remote control phone device 300 is connected to a human body detector operating as a security sensor 306 using a separate wire, the power line remote control phone device 300 is a separate PSTN Connected to a network allows a user to remotely control the controlled devices 301, 302, 303, 304, 305, 306 through a telephone network from the outside.

As shown in FIG. 3, the power line remote control telephone apparatus 300 integrates the power line remote control devices in the home, informs the status of the power line remote control devices outside the home through a telephone line connected to the outside, and gives a command to the user. It delivers the power back to the power line remote control devices. In addition, a separate security sensor 306 is connected to the power line remote control telephone device 300 by wire, and after setting the security function when the user goes out, if the human body is detected as a result of sensing, it is assumed that there is an intruder Along with the alarm sound, ARS will dial the pre-stored phone numbers to tell the ARS that there is an intruder in your home.

On the other hand, in the present embodiment, the security sensor 306 is designed to be connected by wire, but does not exclude the case of wireless connection. Such a wireless connection can be easily implemented using various means such as a conventional infrared method, FM frequency method.

In addition, although the power line gas main valve 304 is illustrated to be connected to the power line gas intermediate valve 303 in FIG. 3, the power line gas main valve 304 may be connected to a common power line to perform a function.

4 is a block diagram of a remote control outlet device using a power line communication method according to an embodiment of the present invention, the power line communication remote control outlet device is a power line modem IC (401), PLC (Power Line Communication) Signal coupling circuit 403 and zero cross detection circuit 405, power supply unit 407, IR receiver 409, button input unit 411, status display unit 413, buzzer circuit 415 and a switch acting as a driver A circuit 417 is provided.

The power supply unit 407 drops the voltage using a transformer and supplies a stable DC power supply to the entire apparatus through a smoothing circuit. The PLC driver portion is divided into a signal coupling circuit 403 and a zero cross detection circuit 405. The zero cross detection circuit 405 detects a voltage of a power line and detects a zero cross portion to detect the power line modem IC. A signal is sent to 401, and the power line modem IC 401 performs power line communication using the signal in synchronization. The signal coupling circuit 403 transmits and receives a power line communication transformer by connecting a 220 V power supply terminal and a power line signal driver terminal.

In addition to the power line function, the power line modem IC 401 operates as a microcomputer by receiving input from the IR receiver 409 and the button input unit 411 for the function of the existing infrared remote control switch, and when power is supplied to the inlet, When the state display unit 413 is turned on and power is cut off from the inlet, Rm operates the state display unit 413. Each time a remote control signal is received, the power line modem IC 401 generates a sound indicating that the signal has been received using the buzzer circuit 415.

When power is controlled according to a power line signal, a button input, and a remote controller signal, the power line modem IC 401 controls the power by cutting off or connecting 220V power to the inlet through the switch circuit 417.

FIG. 5 is a diagram illustrating how a power line communication protocol is applied to a power line communication remote control switch device according to an embodiment of the present invention. FIG. 5 illustrates an example in which the device is connected to the same power line. will be.

The switch A 510 is connected to a light having an address value # 3, the outlet A 520 has an address value # 1, and the outlet B 530 has an address value # 2. It is assumed that the switch A 510 and the outlets A and B 520 and 530 are simultaneously installed in an isolated area that cannot receive a command of the infrared remote controller 540 and are connected to the same power line.

In the system as described above, if the remote controller 540 controls the switch # 1 toward the switch A 510, the switch A 510 receives an infrared signal and issues an ON command of the device having the address value # 1 through the power line. Broadcast on the powerline. In this case, when the broadcasted command is input, the outlet A 520 supplies power to the outlet of its own outlet, performs an operation on the command, and broadcasts its own state on the power line, thereby providing power to other power line devices. Let them know their condition.

That is, the outlets according to the exemplary embodiment of the present invention are not directly commanded by the remote controller, but when other power line devices connected to the power line broadcast the outlet On command, they receive the command and perform an operation. Broadcast the result of the operation on the power line.

In addition, if a command signal is input through the button input unit 411 attached to the outlet A 520 through a manual operation instead of the remote controller 540, the operation corresponding to the command signal is performed. Broadcast on the powerline.

At this time, if another outlet or another power line device is duplicated on the power line with an address value of # 1, the device is turned off or on according to the sent command. That is, other power line devices having the same address also operate together.

In addition, when the remote controller 540 transmits a signal for turning on or off the device having the address value # 1 toward the outlet A 520, the outlet A 520 has the address value # 1 as its own address value. By supplying or cutting off power to the inlet of the user, an operation corresponding to the signal is performed, and a signal indicating that the device corresponding to the address value # 1 is turned on or off on the power line is broadcasted.

Further, when the remote controller 540 transmits a signal for turning on or off the device having the address value # 3 toward the outlet B 530, the outlet B 530 turns on the device having the address value # 3 on the power line. Or switch A 510, which transmits an off command and has an address value # 3, is a command broadcast from another kind of powerline device, but it matches its address value # 3, thus turning on the light connected to itself or Perform the drag operation.

That is, since the remote control outlet device proposed in the present invention uses an open power line protocol, the remote control outlet device operates on a command transmitted by a power line communication device using the same protocol, even if the power line communication device is different from each other. It can also be controlled by sending a command to a kind of device.

Meanwhile, the present invention has been described as being applied to a power line communication method using a zero cross point, but may be applied to other power line communication methods. However, in such a case, a zero cross detection circuit operating as a PLC driver is replaced by a corresponding power line communication data receiving unit, which can be modified by anyone skilled in the art.

While the invention has been described above based on the preferred embodiments thereof, these embodiments are intended to illustrate rather than limit the invention. It will be apparent to those skilled in the art that various changes, modifications, or adjustments to the above embodiments can be made without departing from the spirit of the invention. Therefore, the protection scope of the present invention will be limited by the appended claims, and should be construed as including all such changes, modifications or adjustments.

As described above, according to the present invention, by connecting the power line communication remote control outlet device to the power line without additional wiring, it is possible to easily control the outlet in an isolated place where the signal cannot be reached by the remote control, and the power line communication of the same method It can even serve as a commander that can batch command commands to perform devices.

That is, by performing bidirectional communication, there is an effect of maximizing the usefulness.

1A and 1B are waveform diagrams showing data bits in a data communication method using zero cross points of a general power line,

Figure 2a is a data structure diagram showing the starting point of the conventional X-10 based protocol,

FIG. 2B is a waveform diagram showing a waveform of the data structure shown in FIG. 2A;

3 is an overall schematic diagram of a two-way power line communication home automation (HA) system applying a power line device remote control outlet device according to an embodiment of the present invention;

4 is a block diagram of a remote control outlet apparatus using a power line communication method according to an embodiment of the present invention;

5 is a view showing how the power line communication protocol is applied to the power line communication remote control outlet device according to an embodiment of the present invention.

※ Explanation of code about main part of drawing ※

401: power line modem IC 403: signal coupling circuit

405: zero cross detection circuit 407: power supply

409: IR receiver 411: button input

413: status display unit 415: buzzer circuit

417: switch circuit 510: switch A

520: outlet A 530: outlet B

540: remote control

Claims (7)

delete delete A device for remotely controlling an outlet using a power line communication method, A signal coupling portion for coupling signal transmission between the power line and the power line modem using a power line communication transformer; Receives a control signal from an infrared remote controller through an infrared receiver to perform a corresponding control operation, and indicates on the status display unit whether power is supplied to the outlet, and receives a command broadcast on the power line through the signal coupling unit. If the command corresponding to its own address value, includes the power line modem for performing the command, and broadcasting the result of the execution of the command through the signal coupling unit on the power line, The power line modem, when the control signal of the infrared remote controller is a message to operate, the power line communication method characterized in that to perform an operation corresponding to the message, and to generate a sound through the buzzer indicating that the message has been received. Remote control outlet device. The method of claim 3, wherein When a user receives an address value and a status check command of a power line device to check an operation state, the user broadcasts it to the power line, and when the corresponding power line device broadcasts its state to the power line, the state is interpreted. The remote control outlet device using the power line communication method further comprises a display device or other device status check unit for generating a pre-stored sound using the buzzer. The method of claim 3, wherein When the power line modem receives a command not corresponding to its own address value from the infrared remote controller, the power line modem broadcasts an address value and a command not corresponding to the address value to the power line. Control outlet device. The method of claim 3, wherein And a zero cross detector configured to detect a zero cross portion from the voltage of the power line and provide the zero cross portion to the power line modem. The method of claim 3, wherein When the outlet on / off command is input through a button input unit, the power line modem performs a function corresponding to the outlet on / off command, and operates on the outlet on / off command or the outlet on / off command. A remote control outlet device using a power line communication method, characterized in that broadcasting the results to the power line.