KR100896752B1 - Unified controller for central power rebooting control - Google Patents

Abstract

Disclosed is a power rebooting integrated control apparatus for performing power rebooting on a power coupler respectively installed in a plurality of electronic devices according to a power rebooting command for an electronic device input from an external device. The integrated power rebooting control device includes a data communication port connected to an external data communication line and receiving a power reboot signal from an external device, a repeater for relaying a power reboot signal applied through the data communication port, and a plurality of power couplers. A plurality of connectors are respectively connected to the power rebooting control stage and output the power rebooting signals from the repeaters to the power couplers. According to this, collective or selective power rebooting for a plurality of electronic devices can be centrally performed by a control command from the outside.

Power Reboot, Electronics, Power Coupler, Integrated, UTP

Description

Unified controller for central power rebooting control

The present invention relates to an integrated power rebooting control device, and more particularly, to integrated power rebooting to perform power rebooting for each power coupler installed in a plurality of electronic devices according to a power rebooting command for an externally input electronic device. It relates to a control device.

In general, electronic devices, in particular, an electronic device that processes data by communicating with an external device or an external communication network, in the event of a malfunction, most of the malfunctions simply turn off the power supply to the electronic device, and then supply power again. It is often healed by just resuming the so-called power rebooting. Therefore, when a malfunction of the electronic device occurs, the power reboot is first performed, and when the malfunction is not cured by the power reboot, a separate follow-up action is taken. Such a power reboot may be performed by a physical method of disconnecting and reconnecting a power supply plug from an outlet, or through a device called a power coupler.

1 is a view for explaining a power coupler. The power coupler 20 is connected between the electronic device 10 performing data communication and an external power source, and serves to provide a data line and a power supply line. That is, the power coupler 20 has a data communication port on the electronic device 10 side and communication ports 21 and 22 respectively connected to an external data communication network to provide a path for data communication, and to provide an external power source. The switch 27 is connected to the power supply terminal on the side of the plug 27 and the electronic device 10 to provide a power supply path. At this time, the switching operation of the switch 25 typically depends on the control signal from any one of the data lines. Therefore, when the power reboot signal is applied to the switch 25 through data communication from the outside or the user applies the power reboot signal by operating an external power reboot operation button, the switch 25 is opened for a predetermined time and then closed. Accordingly, power supply to the electronic device 10 is cut off for a predetermined time, thereby power rebooting the electronic device 10.

The power coupler 20 provides an advantage that the power rebooting of the electronic device 10 can also be performed in software by external control. However, the conventional power rebooting method does not provide a function for uniformly controlling power rebooting in the center for the plurality of electronic devices 10. Uniform control at the center of the power reboot is required to perform power rebooting for all electronic devices, for example, when malfunctions occur in a plurality of electronic devices, or external power reboot control commands are issued to various electronic devices. It is necessary when there is a need to perform a power reboot by selecting only a specific electronic device among them. However, in the conventional power rebooting system, only individual control of the power couplers 20 installed in the individual electronic devices 10 is possible, and thus, collective power rebooting or selective power rebooting is impossible. Therefore, there is a need for a plan to make this possible.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide a power reboot integrated control to centrally perform power rebooting for a plurality of electronic devices by a control command from the outside. To provide a device.

Another object of the present invention is to provide an integrated power rebooting control device which enables centralized selective power rebooting of a plurality of electronic devices by external control.

Power reboot integrated control apparatus according to the present invention for achieving the above object is connected to the external data communication line is connected to the data communication port to receive a power reboot signal from the outside; A repeater for relaying the power rebooting signal applied through the data communication port; And a plurality of connectors connected to power rebooting control terminals of a plurality of power couplers, respectively, and outputting the power rebooting signals from the repeaters to the power couplers, respectively.

Here, the data communication port may be configured as an interface connected to the UTP line. At this time, the power reboot signal is preferably applied through an extra line of the UTP line that is not used for normal data communication.

On the other hand, the power rebooting integrated control device is provided with a power supply circuit unit that receives power from an external power source to provide its own required power, and an internal power coupler disposed between the power supply circuit unit and the external power source. The repeater outputs the power rebooting signal to a power rebooting control terminal of the internal power coupler. Accordingly, the power rebooting integrated control device itself is also performed.

The data communication port may receive a selection signal for the power coupler to be power rebooted along with the power reboot signal. In this case, the repeater may include a decoder for decoding the selection signal such that the power rebooting signal is transmitted to the power coupler corresponding to the selection signal among the plurality of power couplers.

According to the present invention, an integrated power rebooting control apparatus is provided in which collective or selective power rebooting of a plurality of electronic devices can be centrally performed by a control command from the outside.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

2 is a block diagram of an integrated power rebooting control apparatus according to the present invention. The integrated power rebooting control apparatus 200 according to the present invention provides centralized control of collective or selective power rebooting operations for various electronic devices 110.

As shown in FIG. 2, the electronic device 110 (H / A (Home Automation) device, Wall PAD, Gateway, etc.) is a device that performs data communication for an external device or an external network. Each power coupler 120 is connected to the 110. The power coupler 120 receives external power through the plug 127 and provides the electronic device 110 as described above with reference to FIG. 1, and performs power rebooting by an external power rebooting control signal therein. It is equipped with a switch (not shown).

The power rebooting integrated control apparatus 200 includes a data communication port 210, a repeater 230, and a plurality of connectors 220.

The data communication port 210 is connected to an external data communication line to provide an interface for the electronic device 110 in the home to communicate with an external communication network. In addition, the data communication port 210 serves to receive a power reboot signal from the outside.

The repeater 230 functions to relay the power rebooting signal applied through the data communication port 210.

Preferably, repeater 230 includes a decoder (not shown). The data communication port 210 may receive a selection signal for the power coupler 120 to be power rebooted along with the power rebooting signal. When the selection signal is input together, the decoder may select one of the plurality of power couplers 120. Decodes the selection signal so that the power reboot signal is transmitted to the power coupler corresponding to the selection signal.

The plurality of connectors 220 are respectively connected to the power rebooting control terminal of the power coupler 120. The connector 220 receives the power rebooting signal from the repeater 230, and outputs the received power rebooting signals to the power coupler 120 to provide to the power rebooting control terminal of the power coupler 120.

Meanwhile, the piwiboot integrated control device 200 includes a power supply circuit unit 260 and an internal power coupler 250. The power supply circuit unit 260 receives power from an external power source through the plug 255 to provide self-required power of the integrated power rebooting control device 200, and the internal power coupler 250 includes a power supply circuit unit ( 260 and an external power source.

The operation of the integrated power rebooting control apparatus 200 according to the present invention having the above configuration is as follows.

In a normal state, the electronic device 110 performs data communication with an external communication network through a data communication line connected to the data communication port 210. When the power reboot signal is applied through the data communication line, the power reboot signal is relayed by the repeater 230 and input to the power reboot control terminal of the power coupler 120 via the connector 220. Accordingly, each power coupler 120 is turned on after the power supply switch therein for a predetermined time to perform a power reboot for each electronic device 110. In this case, the repeater 230 applies a power rebooting signal to the power rebooting control terminal of the internal power coupler 250, and thus power rebooting is performed on the power rebooting integrated control device 200 itself. By such an operation, the centralized power rebooting by external control is performed on all the electronic devices 110 and the power-boot integrated control device 200 itself.

On the other hand, when the power rebooting signal applied to the data communication port 210 through the data communication line includes a selection signal for a specific power coupler 120, the decoder in the repeater 230 decodes the selection signal to correspond to the corresponding signal. The power rebooting signal is applied to the power rebooting control terminal of the power coupler 120. Accordingly, selective power rebooting is performed only for the electronic device 110.

According to this process, by inputting the power rebooting signal (or a selection signal for the power coupler) from the outside through the data communication line, the overall power rebooting or specific electronics for the entire electronic device 110 by external control Selective power rebooting of the device 110 is possible.

3 is a view showing another embodiment of FIG. This embodiment has a configuration substantially the same as the embodiment of FIG. 2, but shows an example in which a UTP line is employed instead of the data communication line of FIG. 2. Accordingly, the data communication port is configured as an interface connected to the UTP line.

As is well known, UTP lines have four pairs (8) of data lines, of which 1-3 pairs (6) of the lines are used for data communication and one pair (2) of lines is redundant. Consists of lines (not used). When such a UTP line is employed, an extra pair (two lines) can be used as a line dedicated to the power rebooting control command.

In such a case, the repeater 230 allows only these two extra lines to be connected to the data communication port 210 as input data, and when a signal is applied to these two lines (or one of the two lines), the signal is applied to this signal. Accordingly, by configuring the repeater 230 to output the power rebooting signal, it is possible to implement the batch power rebooting control.

If it is desired to implement a selective power reboot using the extra line of the UTP line, it may be possible to input a power reboot selection command for up to three electronic devices 110. 4A to 4C illustrate examples of implementing a decoder for inputting a selection command to the electronic device 110 as described above.

That is, when the repeater 230 does not have a decoder function as shown in FIG. 4A, the repeater 230 simply functions to divide one input into three outputs. Accordingly, one power rebooting signal input to the repeater 230 is transmitted to three connectors 220 to perform power rebooting for three electronic devices.

However, when the repeater 230 has a decoder function as shown in FIG. 4B, four selection signals that can be implemented through a pair of two input lines are applied (that is, a signal is applied to each of the two lines). In case of binary number, there are four states of 00, 01, 10, and 11) .If a signal is not applied to both lines (signal 00), the power reboot command is executed. When a signal is applied to one line (in case of 01 and 10 signals) or a signal is applied to both lines (in case of 11 signals), the power connector 120 may be used. It can be recognized that the selection command for is authorized. Accordingly, as shown in FIG. 4C, when the 00 signal is applied, it is recognized that the power reboot command is not input while there is no electronic device selected as a power reboot target, and when the 01 signal is applied, H / A is applied. When the device applies 10 signals, the Wall PAD is selected, and when the 11 signals are applied, the Gateway is selected as the electronic device 110 to be rebooted.

In this manner, a state in which the power reboot signal is simultaneously applied together with the selection signal for selecting the electronic device 110 to power reboot may be implemented by using two extra UTP lines.

Meanwhile, FIG. 5 is a diagram illustrating an application example of the integrated power rebooting control device according to the present invention, and illustrates an example in which the integrated power rebooting control device is applied to a communication switching device installed in a home. In FIG. 5, components corresponding to the components illustrated in FIG. 12 are denoted by the same reference numerals as in FIG. 2 for convenience of description.

The switching device is a device provided to distribute an external telephone line or Internet line to a communication port of each space in the home, and includes one uplink port 210 and a plurality of downlink ports 220. ). At this time, the uplink port 210 functions as a data communication port in the power rebooting device of the present invention, and the downlink port 220 functions as a connector in the power rebooting device of the present invention. Accordingly, four pairs of UTP lines are connected to the uplink port 210, and each downlink port 220 is connected to an electronic device 110 such as an H / A device, and the uplink port 210 is connected to the uplink port 210. The decoder 230 is provided between the downlink port 220. On the other hand, the switching device is provided with a block 280 having a LAN switch or the like therein.

As shown in FIG. 5, four pairs of UTP lines are connected to the uplink port 210, and the output of the uplink port 210 is connected to the LAN switch block 280 for three pairs. The pair is connected to the decoder 230 and used as the power reboot selection signal. In addition, an output (power reboot signal) of the decoder 230 is connected to each downlink port 220, and four outputs of each downlink port 220 are connected to the power coupler 120 of each electronic device 110. It is connected and used as a data communication line and a power reboot selection signal line.

In such a configuration, the configuration for power rebooting is the same as the configuration of FIG. 3 described above, wherein the configuration of the line for data communication for each electronic device 110 is the same as the conventional configuration but is not used for data communication. An unused pair of tracks is used as the power rebooting track. Therefore, according to such an implementation method, it is possible to implement the power rebooting integrated control device while using the configuration of the switching device used as the distributor for data communication in the existing home as it is.

Meanwhile, in the above descriptions, the decoder 230 is a component that decodes according to an input of a selection signal to the electronic device 110 to be rebooted, which may be configured as a hardware decoder but may be configured as a software decoder. It may be. That is, a selection signal for selecting a specific electronic device 110 to the data communication port 210 through the data communication line is a predetermined data communication protocol (for example, RS485, RS422, RS232 serial data communication protocol, or TCP / IP communication). In the case of being input as a data packet according to the protocol), it is possible to know which electronic device 110 is a power rebooting command by extracting the number of the electronic device 110 indicated by the data packet through a software operation. The decoder may output a power reboot command for the electronic device 110. In such a case, the selection command for the electronic device 110 may be increased to a desired number according to the number of bits of the data packet without being limited to the selection command for the four electronic devices 110 as described above. There is an advantage.

In the case of configuring the software decoder as described above, a separate processor for operation should be provided. In the claims of the present application, the term "decoder" should be interpreted as including a decoder implemented by such a software method.

According to the present invention, an integrated power rebooting control apparatus is provided in which collective or selective power rebooting of a plurality of electronic devices can be centrally performed by a control command from the outside.

In the above, the preferred embodiment of the present invention has been illustrated and described, but the present invention is not limited to the specific embodiments described above, and the technical spirit of the present invention and the following by those skilled in the art to which the present invention pertains. Various modifications and variations will be possible within the scope of equivalents of the claims to be described therein, and such variations will fall within the protection scope of the present invention.

1 is a diagram for explaining a power coupler.

2 is a block diagram of a power reboot integrated control apparatus according to the present invention.

3 shows another embodiment of FIG. 2;

4A to 4C are views for explaining the concept of a repeater and a decoder in the power rebooting integrated control device of FIG.

5 is a view showing an application example of the power reboot integrated control apparatus according to the present invention.

Claims (7)

delete delete A data communication port connected to an external data communication line to receive a power reboot signal from the outside; A repeater for relaying the power rebooting signal applied through the data communication port; A plurality of connectors connected to power rebooting control terminals of a plurality of power couplers, respectively, for outputting the power rebooting signals from the repeater to the power couplers; A power supply circuit unit which receives power from an external power source and provides its own power; And An internal power coupler disposed between the power supply circuit unit and the external power source and configured to receive the power reboot signal output from the repeater and perform power reboot on power supplied from the power supply circuit unit; Power reboot integrated control device comprising a. A data communication port connected to an external data communication line to receive a power reboot signal from the outside; A repeater for relaying the power rebooting signal applied through the data communication port; And A plurality of connectors connected to power rebooting control terminals of a plurality of power couplers, respectively, for outputting the power rebooting signals from the repeater to the power couplers; Including; The data communication port receives a selection signal for the power coupler to be power rebooted along with the power rebooting signal. And the repeater includes a decoder for decoding the selection signal such that the power rebooting signal is transmitted to the power coupler corresponding to the selection signal among a plurality of power couplers. The method of claim 4, wherein And the selection signal is input as a data packet according to a predetermined data communication protocol. The method of claim 5, wherein And said predetermined data communication protocol is RS485, RS422, or RS232 serial data communication protocol or TCP / IP communication protocol. The method according to any one of claims 3 to 6, The data communication port is an interface connected to the UTP line, And the power reboot signal is applied through an extra line of the UTP line that is not used for normal data communication.

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