KR100499609B1 - Apparatus for connecting signal line with power line for power line communication - Google Patents

Abstract

The present invention relates to a signal connection device for power line communication, comprising a magnetic core provided on an outer periphery of a power line, and a signal line wound on the magnetic core and connected to a signal terminal of the power line communication means. The present invention is configured to induce a signal in an electromagnetic induction manner by the magnetic core, so that the signal can be connected without directly contacting the power line communication means with the power line. Therefore, by using the present invention, it is possible to install even in a live state in which power supply of the power line is not cut off and there is no risk of electric shock, so that the work can be safely performed.

Description

Signal connecting device for power line communication {Apparatus for connecting signal line with power line for power line communication}

The present invention relates to a signal connection device for power line communication, and more particularly to a signal connection device for power line communication for connecting the signal line of the power line communication means to the power line.

In general, the power line is a line installed to supply power to subscribers, and its network configuration is not only complicated and complicated, but it is not suitable for use as a high-speed communication network due to the noisy line characteristics. As a result, many problems have been solved one by one, and the facility investment cost is low, and a LAN (Local Area Network) environment can be easily constructed through a power line installed basically in all buildings without installing a separate LAN cable. Due to its advantages, it is attracting attention as a new communication network.

High-speed data communication through the power line as described above is called Power Line Communication ("PLC"), and research and technology development on such power line communication have been actively progressed in recent years.

For such power line communication, power line communication means (eg, power line modem, etc.) need to be connected to the power line, which is difficult to cut off the power and connect the signal because many consumers are connected and use power at all times. Due to the high risk of electric shock, installation was difficult.

Accordingly, the present invention has been made to solve the problems of the prior art as described above, and an object thereof is to provide a signal connection device for power line communication that can connect the signal of the power line communication means to the power line in a non-contact manner.

A signal connection device for power line communication according to a preferred embodiment of the present invention for achieving the above object includes a magnetic core provided on an outer periphery of a power line, and a signal line wound around the magnetic core and connected to a signal terminal of the power line communication means. Characterized in that configured.

Signal connection device for power line communication according to another embodiment of the present invention for achieving the above object, a pair of magnetic cores and a pair of magnetic cores installed on the outer periphery of a pair of power lines, respectively, the signal of the power line communication means Characterized in that it comprises a signal line connected to the terminal.

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

1 is a schematic diagram of a signal connection device for power line communication according to a preferred embodiment of the present invention, as can be seen with reference to the same figure, the signal connection device 1 for power line communication according to the present invention, power line communication A pair of power lines 10 and 11, a pair of magnetic cores 20 and 21 installed on each outer periphery of the pair of power lines 10 and 11, and a pair of magnetic cores 20 and 21, respectively. It comprises a signal line 30 connected to the signal terminal of the communication means (S).

For reference, the power lines 10 and 11 collectively refer to electric wires used to apply electric power, and include all of the distribution lines of the low voltage distribution line, the indoor wiring into which the customer enters the room, and the transmission lines of the transmission line.

Here, the magnetic cores 20 and 21 are cylindrical, and are installed in such a manner as to insert the power lines 10 and 11 in the hollow portion thereof, and ferrite is preferable.

The magnetic cores 20 and 21 power lines the electromotive force of the frequency and voltage corresponding to the signal current applied from the power line communication means S via the signal line 30 by electromagnetic induction. To (10, 11).

That is, the signal output through the signal line 30 from the power line communication means (S) is induced by electromotive force by a pair of magnetic cores (20, 21) to be differentially coupled to the power lines (10, 11), as described above The signal induced on the power lines 10, 11 by the pair of magnetic cores 20, 21 acts as a differential voltage signal source as shown in the equivalent circuit of FIG.

In addition, the magnetic cores 20 and 21 induce the electromotive force of the corresponding frequency and voltage to the signal line 30 according to the signal current received through the signal line 30 from the power line communication means of the other party, thereby, the power line communication means. The signal is introduced into (S).

Here, the number of turns of the signal line 30 may be easily changed according to the coupling efficiency of the signal and the material of the magnetic cores 20 and 21.

In addition, a short-circuit capacitor 40 for connecting a pair of power lines 10 and 11 in parallel to one of the line directions based on the magnetic cores 20 and 21 is installed, and the short-circuit capacitor 40 has a power line. An element having a characteristic value acting as a short circuit with respect to the signal frequency of the communication means S is used.

Signal currents induced by one magnetic core 20 and the other magnetic core 21 provided in the power lines 10 and 11 flow toward both sides of the lines of the power lines 10 and 11, but the double short-circuit capacitor 40 Since the current flowing to the side is circulated through the capacitor 40, the signal current is cut off without being transmitted to the line in the direction in which the shorting capacitor 40 is installed based on the pair of magnetic cores 20 and 21.

That is, in the distribution line, subscribers and non-subscribers of the power line communication service are connected at the same time, so that signal transmission paths must be separated between subscribers and non-subscribers, and spatially separate signal transmission paths for high-speed data transmission and reception at a given signal bandwidth between subscribers. It is necessary to install the above-mentioned short-circuit capacitor 40 so that the signal induced by the magnetic cores 20 and 21 may proceed in only one direction.

On the other hand, Figure 3 is a perspective view illustrating the structure of the magnetic core shown in Figure 1 and the structure of the case for installing the same, in the same figure, the case 110 of the structure capable of opening and closing the magnetic core 100 to facilitate installation The structure coupled to the power line 10 by) is illustrated.

Here, the magnetic core 100 is cut in the longitudinal direction to be easily installed in the power line 10 as a cylindrical shape and separated.

In addition, the case 110 has a cylindrical structure with both sides opened to accommodate the magnetic core 100 and penetrate the power line 10, and has a separate structure, and a hinge portion 111 of one side. It can be opened and closed by a medium and the locking jaw 112 and the locking groove 113 of the other side is configured to enable locking (Locking).

However, when the case 110 is closed and locked, the separated parts of the magnetic core 100 accommodated therein are in intimate contact with each other, so that the magnetic flux can flow through the whole of the magnetic core 100.

In addition, the fastening jaws 114 and 115 may be formed in openings at both sides of the case 110. In this case, the fastening jaws 114 and 115 of the case may close the power line 10 when the case 110 is closed and locked. It is preferable because there is no fear that the case 110 flows by pressing.

At this time, the signal line 30 is introduced into the inner circumference of the magnetic core 100 through one side opening of the case 110 and drawn out to the outer circumference of the case 110 through the other opening of the case 110 and then again to the magnetic core 100. Winding to be drawn into the inner circumference of

As such, the signal line 30 is wound around the magnetic core 100 and the case 110 on one side, and the signal line 30 is also wound on the magnetic core 101 and the case 111 on the other side.

For example, the winding direction of the magnetic core 100 on one side and the magnetic core 101 on the other side may be set as the direction of the arrow illustrated in FIG. 4.

Meanwhile, FIG. 5 is a diagram illustrating a state in which the signal connection device of the present invention is installed in a customer indoor breaker. As shown in the same drawing, the signal connection device of the present invention may be installed in a customer indoor breaker. .

For example, a pair of magnetic cores are coupled to the secondary wires 201 and 202 of the customer-side indoor breaker 200 by their casings 300 and 301, and the short circuit capacitor 310 is connected to the secondary wires of the breaker 200. The terminals 210 and 211 can be connected in parallel.

Usually, the secondary wire connection terminals 210 and 211 of the customer-side indoor breaker 200 are configured to fasten the ends of the secondary wires 201 and 202 by bolts 220 and 221. , 221 slightly loosened, and then wound both terminals 311 and 312 of the short-circuit capacitor 310 to the outer periphery of the bolts 220 and 221, and then tighten the bolts 220 and 221 again, such as a separate connection means or soldering The short circuit capacitor 310 can be simply connected to the secondary wire connection terminals 210 and 211 of the indoor circuit breaker 200 without the need for work.

As another example, it is also possible to install the magnetic core and the capacitor on the primary side of the consumer side indoor circuit breaker.

6 is a schematic diagram of a signal connection device for power line communication according to another embodiment of the present invention. As can be seen from the same drawing, the signal connection device according to another embodiment of the present invention is illustrated in FIG. 1. The basic configuration is the same as the connected signal connector.

However, additional magnetic cores 300 and 301 are further installed on the pair of power lines 10 and 11 in either line direction based on the magnetic cores 20 and 21.

The additionally installed magnetic cores 300 and 301 increase the impedance of the installed power lines 10 and 11 by electromagnetic induction, thereby blocking the signals flowing in the corresponding direction.

That is, the additionally installed magnetic cores 300 and 301 further increase the signal blocking effect of the short circuit capacitor 40.

The magnetic cores 300 and 301 may be used alone without a shorting capacitor 40 in a line where it is difficult to use the shorting capacitor 40. In this case, the magnetic cores 300 and 301 block a signal instead of the shorting capacitor 40. can do.

On the other hand, Figure 7 is a schematic diagram of a signal connection device for power line communication according to another embodiment of the present invention, as can be seen with reference to the same figure, the signal connection device according to another embodiment of the present invention, The basic configuration of the signal connection device shown in FIG. 1 is the same, but the power line communication unit S and the power line 10 are signal-coupled through one magnetic core 20 rather than a pair.

According to this configuration, the signal transmission efficiency is lower than when using a pair of magnetic cores (20, 21), but by using a single magnetic core 20, there is an advantage that the configuration is simple and the installation cost is low This is recommended in subscriber environments where relatively high efficiency signaling is not required.

The present invention is described above by illustrating specific embodiments, but the present invention is not limited to the above embodiments. Those skilled in the art can easily make various changes and modifications to the present invention, and it should be noted that such variations or modifications are included within the scope of the present invention as long as the features of the present invention are used.

As described above, the present invention is configured to induce a signal in an electromagnetic induction manner by the magnetic core, so that the signal can be connected without directly contacting the power line communication means with the power line. Therefore, by using the present invention, it is possible to install even in a live state in which the power line is not cut off and there is no risk of electric shock.

And, according to one embodiment of the present invention, the magnetic core without the need for complicated installation process, such as peeling off the coating of the power line in order to couple the signal line of the power line communication means to the power line, then soldering and forming a coating of the insulating material again, The installation is completed by a simple process of accommodating the case into a case which can be opened and coupled to the power line and then closing and locking the case, and thus the combined installation and removal of the signal to the power line is very easy.

In addition, according to an embodiment of the present invention, by installing a short-circuit capacitor or a magnetic core on one of the power lines with respect to the magnetic core, it is possible to restrict the path of the communication signal in one direction. It is possible to improve the transmission efficiency of the non-subscriber has the effect of protecting from interference and interference, such as noise and electromagnetic waves caused by communication signals flowing through the power line.

1 is a schematic diagram of a signal connection device for power line communication according to a preferred embodiment of the present invention;

2 is an equivalent circuit diagram of FIG. 1;

3 is a perspective view illustrating the structure of the magnetic core shown in FIG. 1 and the structure of a case for installing the same;

4 is a view illustrating a direction and a path of winding a signal line in the magnetic core and the case shown in FIG. 3;

5 is a diagram illustrating a state in which the signal connection device of the present invention is installed in a customer indoor breaker.

6 is a schematic diagram of a signal connection device for power line communication according to another embodiment of the present invention;

7 is a schematic diagram of a signal connection device for power line communication according to another embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

1: signal connector 10, 11: power line

20, 21: Magnetic core 30: Signal line

40: capacitor S: power line communication means

Claims (8)

A signal connection device for connecting a power line communication means to a power line for power line communication, A magnetic core installed around the power line, And a signal line wound on the magnetic core and connected to a signal terminal of the power line communication means. A signal connection device for connecting a power line communication means to a power line for power line communication, A pair of magnetic cores installed on the outer periphery of the pair of power lines, And a signal line wound on the pair of magnetic cores, respectively, and connected to a signal terminal of the power line communication means. According to claim 1 or 2, wherein the magnetic core is made of a cylindrical shape is cut in the longitudinal direction, the signal connection device for power line communication, characterized in that installed in the power line is accommodated in the case of the opening and closing structure. According to claim 3, The signal connection device, The signal line is drawn through the one side opening of the magnetic core into the inner circumference of the magnetic core and withdrawn to the outer periphery of the case through the other opening of the magnetic core and then again the magnetic body The signal connection device for power line communication, characterized in that the winding number of times set in the direction leading to the inner circumference of the magnetic core through the opening of one side of the core. The signal connection device of claim 1 or 2, wherein the magnetic core is made of a ferrite material. The power line of claim 1, further comprising: a short circuit capacitor that connects the power line in which the magnetic core is installed and the other power line in parallel to one of the line directions based on the position where the magnetic core is installed. Signal connector for communication. The signal connection for power line communication according to claim 2, further comprising: a shorting capacitor for connecting the pair of power lines in parallel to one of the line directions based on a position where the pair of magnetic cores are installed. Device. The signal connection device for power line communication according to claim 1 or 2, further comprising a separate magnetic core in an additional line direction based on the position where the magnetic core is installed.