KR101400432B1 - power line communication system for ingrated modem - Google Patents

Abstract

The present invention relates to a power line communication system with an integrated modem capable of communicating between heterogeneous PLC modems with different protocols in consideration of a current power line communication condition. Particularly, the present invention relates to the power line communication system with the integrated modem, capable of forming an additional management server for efficient communication in a current power line communication network system performed with different protocols, converting data transmitted to the management server into the corresponding protocol, and then safely transmitting the converted data into the corresponding terminal.

Description

Technical Field [0001] The present invention relates to a power line communication system having an integrated modem,

The present invention relates to a power line communication system having an integrated modem capable of communicating between heterogeneous PLC modems having different protocols in consideration of the current situation using power line communication. Particularly, in a current power line communication network system which is under different protocols, a separate management server is formed for effective communication thereof, and after converting the data transmitted in the management server into a corresponding protocol, To a power line communication system having an integrated modem for securely transmitting the power line communication to the power line communication system.

Generally, due to the development of the current Internet network, the difficulty of data communication is disappearing. This is achieved through the construction of the Internet network, which is being developed in various forms, including the construction of a network for transmitting a large amount of data at a faster time and the installation of an optical communication facility.

However, the construction of all such Internet networks is costly for the facilities, and the maintenance costs are considerable. As a result, there has already been developed a communication method capable of achieving data transmission and communication through a power line already laid out in each assumption.

This communication method is power line communication. With this power line communication, maintenance and repair costs for the power line have already been paid, which can save network maintenance and repair costs as well as separate network construction work. In the case of Korea, KEPCO is in charge of the maintenance and maintenance of the power line, but since this power line facility and the maintenance cost are inevitable, there is high expectation of the power line communication that uses this power line as the communication network without additional cost .

However, in the case of power line communication having such a high expectation value, there has been a problem in transmitting information. First, there are many problems in data transmission due to the use of a method of transmitting data while supplying current through a power line. The signal is interrupted by the current flow and the signal is distorted. As a result, it is difficult to deliver accurate data.

Secondly, since the communication protocol and the communication standard can not be unified, and a protocol is preferred for each manufacturer, terminals using different protocols have problems in communicating with each other. The present invention solves such a problem. In order to solve the problem that the protocol is transmitted and transmitted in a different form, a protocol conversion unit matching the protocol in a separate management server is formed and transmitted to the corresponding terminal. The present invention solves the biggest problem of current power line communication.

The present invention is to provide a power line communication system having an integrated modem that enables communication between heterogeneous PLC modems having different protocols in consideration of the fact that current power line communication is used. Particularly, in a current power line communication network system which is under different protocols, a separate management server is formed for effective communication thereof, and after converting the data transmitted in the management server into a corresponding protocol, And to provide a power line communication system having an integrated modem for securely transmitting the power line communication to the mobile communication terminal.

A power line communication system having an integrated modem according to the present invention includes: a plurality of terminals (20) randomly arranged in a long distance and a short distance area and receiving power using a power line; A power line disposed in all areas for supplying and charging power to the terminal 20; When each terminal 20 simultaneously supplies information, data, and a signal to be transmitted to the power line at the same time, the terminal 20 converts the analog signal into digital data and converts the digital data into an analog signal A connected PLC modem 30; A management server 40 for managing information transmitted over different protocols using different kinds of PLC modems 10 and for converting data into a protocol suited to the communication method of the terminal 20 to be received, So that communication can be smoothly guided even if communication is performed using a protocol.

The PLC modem 10 connected to each terminal 20 according to the power line communication system having the integrated modem of the present invention includes: The PLC modem 10 may be formed in the form of a power plug that physically supplies power to the terminal 20 or may be connected to a power line through a separate body. The PLC modem 10 may transmit data or signals of analog form A filtering unit 15 for filtering the distortion of a signal generated due to the current flow; A signal converting unit 12 for converting a signal in the filtered constant region into a digital signal and converting the digital data into an analog signal; A control unit (13) for controlling and managing transferring the filtered signal to an inner microprocessor of the terminal (20); An interface (14) physically connected to the terminal (20) and responsible for data input / output with the terminal (20); And a coupling unit 11 for converting the analog signal to a power line when the signal conversion unit 12 converts the data to be transmitted in the terminal 20 under the control of the control unit 13 in an analog form, The analog signal transmitted to the power line is converted into a digital signal and transmitted to the terminal 20. The digital data transmitted from the terminal 20 is converted into an analog signal to be transmitted to the power line. The management server 40 connected via the power line to communicate the different PLC modems 10 owned by the plurality of terminals 20 in the B zone 2 and the protocol controller 40 A protocol conversion unit (42) for converting the protocol conversion information into a digital format; A control unit 43 serving as a centralized device 41 together with the protocol conversion unit 42 for controlling the system, the data to be transmitted, the control of moving data in the management server 40, and the control of the system, ≪ / RTI > Forms a database 44 for storage of data and accumulation of all moving data.

The management server 40 according to the power line communication system having the integrated modem of the present invention converts an analog signal transmitted through a power line through a repeater K or not into a digital signal and transmits the converted digital signal to the management server 40 A separate PLC modem 30 is formed to convert the analog signal transmitted from the PLC modem 10 using different protocols into digital data and processes the digital signal, The divisional PLC modem 30, which is an integrated modem, receives analog data or signals transmitted through a power line, and receives a signal from a filtering unit (not shown) for filtering the distortion of a signal generated due to a current flow 31); A signal converter 32 for converting the filtered signal into a digital signal and converting the digital data into an analog signal; A signal processing unit 33 for discriminating, managing, and controlling the digital data so that the digital signals having different protocols are transmitted to the protocol conversion unit 42 of the management server 40; And a coupling unit 35 for uploading the converted analog signal to the power line in a state in which the protocol of the data to be transmitted to the terminal 20 is matched by the protocol conversion unit 42 of the management server 40 The protocol conversion unit 42 is formed in the management server 40 and the protocol conversion unit 42 is formed in the management server 40. The protocol conversion unit 42 is connected to the management server 40, A protocol conversion unit 45 and a B protocol conversion unit 46 that convert data having the same data format as the corresponding protocol of the counterpart terminal 20 are separately formed and transmitted through a power line.

In addition, the management server 40 according to the power line communication system having the integrated modem of the present invention may be provided with a separate internet protocol converter 47 in the protocol conversion unit 42 and transmitted through a separate modem M Thereby enabling the data on the Internet line to be mutually protocol-converted into data on the power line.

According to the present invention, terminals using different types of PLC modems using different protocols do not interfere with each other, and there is an advantage that data communication is highly likely to be achieved through a power line.

Further, according to the present invention, in using power line communication, it is advantageous that each modem blocks signal distortion through a filtering unit and transmits data more securely and precisely.

In addition, according to the present invention, there is an advantage that it is possible to communicate with the Internet communication as well as the power line communication between the two through the simple method of forming the management server and the divided PLC modem in the existing power line system.

1 is a block diagram schematically showing a power line communication method of the present invention,
FIG. 2 is a diagram illustrating a reason why a divisional PLC modem of the present invention should be used,
FIG. 3 is a diagram illustrating an example in which the same class PLC modem of the present invention is used,
FIG. 4 is a diagram showing an example in which a different type PLC modem of the present invention is used,
FIG. 5 is a view showing the entire function of the management server of the present invention,
FIG. 6 is a diagram showing a state in which a divisional PLC modem connected to a management server of the present invention processes signals and data by being combined with each other;
7 is a diagram showing in detail the protocol conversion unit of the present invention.

The present invention relates to a power line communication system having an integrated modem.

Therefore, the structure of the present invention and its operation will be described in detail with reference to the drawings.

1, there is shown a basic configuration of the present invention. The present invention includes a plurality of terminals 20 randomly arranged in a long distance and a short distance area and receiving power using a power line, And power lines are provided in all areas for power supply and charging of the terminal 20. When each terminal 20 simultaneously supplies information, data, and signals transmitted through a power line with power, the analog signal is converted into digital data And a PLC modem 10 connected to each terminal 20 to convert the digital data into an analog signal. And a management server 40 for managing information transmitted through different protocols using different types of PLC modem 10 and converting the data into a protocol suitable for the communication method of the terminal 20 to be received, So that communication can be smoothly guided even if communication is performed using another protocol.

The main concept of the present invention is to enable PLComes 10 of different types to communicate with each other. The terminal may be a variety of terminals such as a computer, an Internet TV, a webcam, and the like. Users who are familiar with connecting data by using the Internet line can carry out the same operation through the power line instead of the Internet line. There was no process of exchanging data through the conventional power line. After the PLC modem 10 is connected using the power line, the same operation is being carried out. However, they are currently difficult to use in PLC modems 10 that use different protocols. That is, in the case of the Internet, there is no problem in communicating with each other by making the protocols uniform in communication, but in the case of power line communication, there are a plurality of protocols, and data communication is difficult because a modem maker compliant with this protocol is in short supply.

When exchanging data with each other using different protocols, it is impossible to transmit information and it is difficult to transmit accurate information. However, the protocol to solve this problem is not uniformized, and the PLC modem 10 according to the manufacturer's selection is manufactured and sold according to the convenience of the manufacturer. As a result, the present invention is a new alternative that can accept all of these problems while still accepting these problems.

It is a major technical matter that the present invention converts signals of a PLC modem 10 using different protocols, converts them into protocols suitable for each other, and transmits the data. This basic system is shown in Fig. 3 of the present invention, which describes two issues. One is connected to the PLC modem 10 by power line communication in a state where the terminal 20 is connected. Of course, the other end of the power line is connected to the PLC modem 10 using the same protocol as the other terminals 20. In contrast to this, the PLC modem 10 using the protocol A is connected to another terminal 20. The PLC modem 10 using the B protocol is connected to the other terminal 20.

At this time, if the user wants to transfer data from one terminal 20 to another terminal 20, the digital data in the terminal 20 must be converted into an analog signal through the PLC modem 10. The changed signal enters the PLC modem 10 of the other terminal on the power line in the form of wavelength. Inside the PLC modem 10, the analog signal is again converted into digital data and entered into the terminal 20. The communication is completed.

On the other hand, in the latter case, if data is to be transmitted from one terminal 20 to another terminal 20, the digital data in the terminal 20 is converted into an analog signal through the PLC modem 10 . This signal has a protocol for transmission. The changed signal enters the PLC modem 10 of the other terminal on the power line in the form of wavelength. In the inside of the PLC modem 10, the analog signal must be converted into digital data. However, the protocol, which is a protocol for communication between the PLC modem 10 and the PLC modem 10, can not be converted or received. In the end, such a situation would make the communication impossible.

In order to solve this problem, the present invention provides a separate management server 40 for matching the protocol of such inconsistency. A separate PLC modem 30 is connected to the management server 40 to convert the transferred data into an analog signal, and the converted signal is subjected to a protocol conversion process inside the management server 40. That is, the data to be transmitted from the terminal 20 of one side is converted into a protocol suitable for the PLC modem 10 of the terminal 20 to be received inside the management server 40 through the divisional PLC modem 30 It is a way to communicate. With the addition of a simple system, the present invention has solved the problems of power line communication in the meantime.

BRIEF DESCRIPTION OF THE DRAWINGS Fig.

That is, the PLC modem 10 connected to each terminal 20 according to the present invention may be formed in the form of a power plug for physically supplying power to the terminal 20 or may be connected to a power line through a separate body do. The PLC modem 10 of the present invention is a communication line for communication with a power line, that is, a power line that transmits a current into the terminal 20. Therefore, when the PLC modem 10 is placed in the plug for supplying current to the terminal 20, it is convenient to use. The existing Internet line must be separately connected to a power line and a communication line for separately supplying a current and the terminal 20 and the power line communication can overcome the conventional complex usage of the terminal 20. [ It is possible to supply data and current using one power line. As a result, in the case of the present invention, if all the internal components of the PLC modem 10 are placed in the power plug, it can be used as a communication line while transmitting power very easily. This method is of course only one embodiment. It can be used by connecting to a control unit of the terminal 20 by using a separate mechanism having another separate housing or case. In the case of this invention, all of these operations are possible.

A more detailed embodiment of the PLC modem 10 used in the present invention will now be described with reference to FIG. The PLC modem 10 of the present invention includes a filtering unit 15 for filtering the distortion of a signal generated due to the flow of current by receiving analog data or signals transmitted through a power line, A signal conversion unit 12 for converting a signal into a digital signal and converting the digital data into an analog signal and a control unit 13 for controlling and managing transferring the filtered signal to an inner microprocessor of the terminal 20, . There is also an interface 14 physically connected to the terminal 20 and responsible for data input and output with the terminal 20. The data to be transmitted from the terminal 20 is converted into an analog signal under the control of the controller 13 There is a coupling unit 11 for converting the analog signal to a power line when the conversion unit 12 converts the analog signal. Accordingly, the analog signal transmitted to the power line is converted into a digital signal and transmitted to the terminal 20, and the digital data transmitted from the terminal 20 is converted into an analog signal to be transmitted to the power line.

The PLC modem 10 used in the present invention comprises a coupling unit 11, a signal conversion unit 12, a control unit 13, a filtering unit 15 and an interface 14 as shown in FIG. When the data is converted into the signal form and the signal is converted into the data form, if there is digital data to be transmitted from the terminal 20 at one side, the data is converted into the analog form signal And transmitted to the power line. This is accomplished through the PLC modem 10.

If there is digital data to be transmitted, this data enters from the terminal 20 via the interface 14 to the PLC modem 10. Data received via the interface 14 must be converted into signals under the control of the control unit 13. The signal will be an analog signal in the form of a wavelength. The signal converting unit 12 converts the digitized binary data into an analog signal, and transmits the analog signal to the coupling unit 11. The coupling section 11 sends this analog signal onto a power line. Since the power line communication of the present invention is a power line in which current is already conducted, it has a special and arbitrary signal or wavelength in which current flows. This reduces the interference at these wavelengths and gives the signal in a distorted form. This is the coupling part 11. Conventionally, this coupling device has been known to some extent, and a general modem is also used. This invention can transmit information more closely by using the coupling portion 11. [

On the other hand, if an analog signal is input to the PLC modem 10 through the power line, the signal is converted into a signal that can be received by the terminal 20 through the filtering unit 15 shown in FIG. 4 . The signal input through the power line is an analog signal having not only information data but also unnecessary wavelength because it is signal data to be input together with the current flow. Distortion of these signals can be even worse as they travel over long distant power lines. Further, when the physical space between the terminal 20 and the terminal 20 is distant, a signal becomes weak. Therefore, a signal may be generated or amplified through a separate repeater K. It is desirable to filter unnecessary signals because the analog signal transmitted through this complicated process is highly distorted. The filtering unit 15 may be a circuit or a separate program. The inventors of the present invention have already patented the filtering unit 15 in the Korean Intellectual Property Office.

When the analog signal is filtered and converted into an analog signal of an easy-to-convert type, the signal enters the signal converter 12 under the control of the control unit 13 shown in FIG. The signal converting unit 12 converts the analog signal into digital data and enters the terminal 20 under the control of the control unit 13 to be used as information. In this way, the PLC modem 10 of the present invention is utilized to induce power line communication.

Further, the main object of the present invention is to make the PLC modem 10 of different kind, which is not compatible with the protocol, suitable to communicate with each other as described above. That is, in order to communicate the different PLC modems 10 owned by the plurality of terminals 20 in the A zone 1 and the B zone 2 using different protocols, the management server 40 connected via a power line A protocol conversion unit 42 for converting a protocol into data when a signal is input, and controls the system, the data to be transmitted, the control of moving data in the management server 40, and the control of the system A control unit 43 serving as a centralized device 41 together with the protocol conversion unit 42 is formed and a database 44 for storing data and accumulating all moving data is formed.

3, the terminal 20 and the terminal 20 communicate with each other. This embodiment is a mode of communicating using the terminal 20 and the PLC modem 10 using the same protocol. If there is information to be transmitted from the terminal 20 on one side, it is converted into an analog signal through the PLC modem 10 and travels on the power line. It can go through the repeater (K) to amplify or redial the signal again at a suitable place. The analog signal is converted into digital data through the PLC modem 10 of the terminal 20 1 and the data is transmitted to the terminal 20 ) 2 is used. It is a very common way to communicate between modems using the same protocol. As described above, the present invention does not only utilize the power line communication using the same protocol, but also suggests that the PLC modem 10 using different protocols can also allow communication.

For this very use, the present invention distinguishes between zone A (1) and zone B (2) through FIG. A group of terminals 20 connected to an A-type PLC modem 10 using any one protocol rather than a physically distinct regional range is referred to as zone A (1), and a group B A group of terminals 20 connected to the modem 10 is referred to as B zone 2. When the area is divided, if the user wants to transmit information or data from the terminal 20 in the area A to the terminal 20 in the area B, Start transmission. The data for transmission is transferred in the form of an analog signal through a power line, as shown in the drawing and the operation description of the PLC modem 10 described above. At this time, since the physical distance is long, the strength of the signal may weaken or the signal may be distorted. Therefore, the relay is continuously relayed by the signal amplification or signal transmission method through the repeater K already installed in the middle. It is also possible to pass through one or more repeaters (K). Of course, it is also possible to directly enter the division PLC modem 30 of the management server 40 without going through the repeater K. The divisional PLC modem 30 of the present invention is an integrated modem.

And classifies and converts analog signals having various protocols into digital data that the management server 40 can understand. The converted data is converted through the protocol conversion unit 42, which is the centralized device 41 in the management server 40. That is, if the terminal 20 is using the protocol A in the above-mentioned A zone 1 and wants to transmit data or information to the terminal 20 in the B zone 2, The terminal 20 needs to transmit data in the form of data having a protocol of type B since the protocol to be used is type B. [ The protocol conversion unit 42 in the management server 40 converts the data transferred from the terminal 20 in the A zone 1 to the A type protocol into the B type data and transmits the data to the terminal 20 in the B zone 2, To deliver safe and accurate information.

The management server 40 of the present invention has the centralized device 41 shown therein and the centralized device 41 is divided into the protocol conversion unit 42 and the control unit 43. The control unit 43 controls the flow of all information and data generated in the conversion process and controls the respective components. The protocol converting unit 42 is a place for converting A, B, and other types of protocols according to currently used power line communication methods into corresponding protocols of the terminal 20. Converts type A to type B, type B to type A, and type A to other types of protocols. And plays a very important role in the management server 40 of the present invention.

Furthermore, the management server 40 of the present invention has the database 44 shown therein. The information about the currently used protocol or the information of the terminal 20 exchanged with each other when the power source is first connected for use by the terminal 20 having the power line communication PLC modem 10, The database 44 stores information or data generated in the course of delivering, and a large amount of information that allows the management server 40 to be maintained. The management server 40 of the present invention mainly includes a protocol conversion unit 42, a control unit 43, and a database 44.

This management server 40, which plays an important role in the present invention, will now be described more precisely.

As shown in FIGS. 4 and 5, the management server 40 of the present invention is provided with a control unit 40 for converting an analog signal transmitted through a power line into or out of a repeater K, A separate PLC modem 30 is formed to convert and process the analog signals transmitted from the PLC modem 10 using different protocols into digital data and transmit the converted signals to a signal having a protocol suitable for the terminal 20 To be re-transmitted.

That is, it is a method of utilizing the management server 40 of the present invention. The management server 40 of the present invention is also connected to a separate PLC modem 30 like the general terminal 20 as shown in FIG. The division PLC modem 30 plays a role similar to that of the PLC modem 10 used by the present terminal but transmits the structurally converted analog signal to the correct protocol converter 42. In other words, if information or data for transmission generated in the terminal 20 is transmitted to the terminal 20 having a heterogeneous protocol, the protocol can be converted. Such information or data is input to the PLC modem 30 in the form of an analog signal, and the PLC modem 30 converts the analog signal into digital data. This is the same as the role of a general modem.

Thereafter, the divisional PLC modem 30 must accurately transmit the converted signal to a necessary place in the protocol conversion unit, which will be described later. Although the details will be described later, the present invention can not process all the data because the main purpose is to transmit data after converting different protocols to the terminals 20 corresponding to each other.

For the sake of precise description of these matters, the association between the above-described PLC modem 30 and the protocol conversion unit 42 in the management server is very important in the present invention. Therefore, this will be explained.

The PLC modem 30 will be described in detail with reference to FIG. 6. As shown in the figure, the divisional PLC modem 30, which is an integrated modem in the present invention, receives analog data or signals transmitted through a power line and receives a signal, And a signal conversion unit 32 for converting the filtered signal into a digital signal and converting the digital data into an analog signal. The digital signal having a different protocol is converted by the protocol conversion of the management server 40 And a signal processing unit 33 for discriminating, managing, and controlling the digital data so as to be transmitted to the unit 42. The coupling section 35 is connected to the protocol conversion section 42 of the management server 40 so as to match the protocol of the data to be transmitted to the terminal 20 with the converted analog signal to the power line , And connects the power line to the management server (40), and converts the input and output data and signals to each other.

That is, the case of the key classification PLC modem 30 also has components that are similar to those of the PLC modem described above. That is, the filtering unit 31, the signal converting unit 32, and the coupling unit 35 are common. The functional purpose for linking with the protocol conversion unit 42 in the management server 40 for converting the protocol of the present invention is different from that of the control unit 2 of the PLC modem 10 only in the signal processing unit 33 It is added.

When the data or information for transmission is input to the divisional PLC modem 30, the signal is washed through the filtering unit 31. That is, when an analog signal is input to the divisional PLC modem 30 through the power line, the signal is converted into a signal of a form acceptable to the management server 40 through the filtering unit 31 shown in FIG. do. The signal input through the power line is an analog signal having not only information data but also unnecessary wavelength because it is signal data to be input together with the current flow. Distortion of these signals can be even worse as they travel over long distant power lines. Further, when the physical space between the terminal 20 and the management server 40 is distant, the signal becomes weak. Therefore, a signal may be generated or amplified through a separate repeater K. It is desirable to filter unnecessary signals because the analog signal transmitted through this complicated process is highly distorted. The filtering unit 31 may be in the form of a circuit as described above, or may be a separate program. The filtering unit 31 having both of them is suitable.

When the analog signal is filtered and converted into an analog signal of an easy-to-convert type, the signal is converted into the signal conversion unit 32 under the control of the signal processing unit 33 shown in FIG. The signal converting unit 32 converts the analog signal into digital data, and undergoes a process of converting the protocol into the protocol conversion unit 42 of the management server 40 under the control of the signal processing unit 33.

The above description is a flow when an analog signal is transmitted from the terminal 20 to the management server 40. [ In contrast, when the data having the protocol converted in the management server 40 sends information to the terminal 20, the process will be described.

If there is data that converts the protocol into a format suitable for the corresponding terminal through the protocol conversion unit 42, the control unit 30 enters the divisional PLC modem 30 and controls the signal processing unit 33 The signal conversion unit 32 must convert the signal. The converted signal will be an analog signal in the form of wavelength. The signal converting unit 32 converts the digitized binary data into an analog signal and transmits the signal to the coupling unit 31. The coupling unit 31 puts the analog signal on the power line and sends it to the terminal 20. Since the power line communication of the present invention is a power line in which current is already conducted, it has a special and arbitrary signal or wavelength in which current flows. This reduces the interference at these wavelengths and gives the signal in a distorted form. This is the coupling portion 31. Conventionally, this coupling device has been known to some extent, and a general modem is also used. The present invention can transmit information more closely by using the coupling portion 31. [

The signal processing unit 33, which plays an important role in the divisional PLC modem 30 in the present invention, plays the role of the control unit as well as the information converting the analog signal into the digital data to the protocol conversion unit 42 of the management server 40. [ As shown in FIG. The protocol conversion unit 42 of the present invention has a unique form. This is because many protocols are used for current power line communications and the system is configured to accommodate both of them.

7, a protocol conversion unit 42 is formed in the management server 40 of the present invention, and data corresponding to different protocols transmitted from the divisional PLC modem 30 are stored in corresponding A protocol converter 45 and a B protocol converter 46, which convert each protocol into a protocol conforming to the protocol of the counterpart terminal 20, are separately formed and transmitted through a power line. The protocol conversion unit 42 has a conversion unit for converting a plurality of protocols into a corresponding protocol.

If the terminal of one side uses the protocol A and the terminal of the other side uses the protocol of the type B with the power line, the data of the type A terminal 20 must be converted to the protocol of the type B and transmitted. It is possible. To this end, the analog signal is converted into a digital signal through the divisional PLC modem 30, and the converted signal is input to the B protocol conversion unit 46 through the signal processing unit 33 and data having the B type protocol . This data is again converted into an analog signal through the signal conversion section 32 under the control of the signal processing section 33. [ Of course, the converted analog signal is loaded on the power line through the coupling unit 31 and then transmitted to the corresponding terminal. This procedure should be performed in the present invention for integrating a plurality of protocols. 7, the A protocol conversion unit 45, the B protocol conversion unit 46 and the Internet protocol conversion unit 47 are shown, but this is not important. If there is another type of communication method currently used according to the idea of the present invention and there is communication using different protocols according to the communication method, a separate protocol conversion part for conversion to the protocol may be formed. The drawings in the drawings merely illustrate examples of simple forms for explanation.

The management server 40 described above also has the internet protocol converter 47 mentioned above. That is, the subject matter management server 40 can communicate with another terminal 20 connected to the Internet through a separate Internet line as shown in FIG. That is, another protocol converter 47 is formed in the protocol conversion unit 42 so that the data of the Internet line transmitted through the separate modem M can be mutually protocol-converted into the data on the power line.

If there is a terminal 20 using the power line communication of the present invention and the terminal 20 wants to transmit information or data to the terminal 20 connected to the general Internet line, At this time, the present invention is easily used. When the analog signal is converted into the digital data form, the converted data is transferred to the protocol conversion unit 42 of the management server 40 under the control of the signal processing unit 33, . And transferred to the Internet protocol converter 47 of the protocol conversion unit 42 accurately. Since the terminal 20 receiving the information to be transmitted uses the Internet line, it converts it to the Internet protocol. Thereafter, the data is transmitted to the corresponding terminal 20 using the existing Internet line or line.

As a result, if the PLC modem 30 of the management server 40 according to the present invention is used, all kinds of data can be transmitted through all the communication lines. Although the main line used by the present invention is a power line, it is possible to accurately transmit information or data by utilizing not only the power line but also the existing Internet line. As shown in FIG. 7, if there is an administrator terminal connected to the Internet line in the management server 40 or an administrator terminal connected to the power line, the operation of the management server 40 may be operated.

10; PLC modem 11; Coupling portion
12; A signal converter 13; The control unit
14; Interface 15; The filtering unit
20; A terminal 30; Classification PLC modem
40; Management server

Claims (8)

A plurality of terminals (20) randomly disposed in a remote area and a near area, and receiving power using a power line; A power line disposed in all areas for supplying and charging power to the terminal 20; When each terminal 20 simultaneously supplies information, data, and a signal to be transmitted to the power line at the same time, the terminal 20 converts the analog signal into digital data and converts the digital data into an analog signal A connected PLC modem 30; And a management server 40 for managing information transmitted through different protocols using different types of PLC modem 10 and converting the data into a protocol suitable for the communication method of the terminal 20 to be received ;
The management server 40 connected via the power line to communicate the different PLC modems 10 owned by the plurality of terminals 20 in the area A and the area B using the different protocols, A separate PLC modem 30 for converting an analog signal transmitted through a power line to a digital signal and transmitting the converted digital signal to the management server 40 without passing through the communication line K, The management server 40 converts the analog signal transmitted from the modem 10 into digital data and processes the converted analog signal into a signal having a protocol suitable for the terminal 20, A protocol conversion unit 42 for converting the protocol into a protocol for controlling the system, processing the transferred data, controlling the moving data in the management server 40, and controlling the system Forming a control unit 43 to be a centralized device 41 together with the protocol conversion unit 42 and forming a database 44 for storing data and accumulating all moving data;
The divisional PLC modem 30, which is an integrated modem, includes a filtering unit 31 for receiving analog data or signals transmitted through a power line and filtering distortion of a signal generated due to current flow; A signal converter 32 for converting the filtered signal into a digital signal and converting the digital data into an analog signal; A signal processing unit 33 for discriminating, managing, and controlling the digital data so that the digital signals having different protocols are transmitted to the protocol conversion unit 42 of the management server 40; And a coupling unit 35 for uploading the converted analog signal to the power line in a state in which the protocol of the data to be transmitted to the terminal 20 is matched by the protocol conversion unit 42 of the management server 40, And the control server (40) is connected to the power line, so that data and signals to be input and output are mutually converted so that communication can be smoothly conducted even if they communicate with different protocols. .
The method according to claim 1,
A PLC modem 10 connected to each terminal 20;
Wherein the terminal is physically connected to a power line through a separate body or in the form of a power plug for supplying electric power to the terminal (20).
The method according to claim 1,
The PLC modem 10,
A filtering unit 15 for receiving analog data or signals transmitted through a power line and filtering distortion of a signal caused by current flow;
A signal converting unit 12 for converting a signal in the filtered constant region into a digital signal and converting the digital data into an analog signal;
A control unit (13) for controlling and managing transferring the filtered signal to an inner microprocessor of the terminal (20);
An interface (14) physically connected to the terminal (20) and responsible for data input / output with the terminal (20);
And a coupling unit 11 for converting the analog signal to a power line when the signal conversion unit 12 converts the data to be transmitted in the terminal 20 under the control of the control unit 13 in an analog form, And converts the analog signal transmitted to the power line into a digital signal and transmits the digital signal to the terminal 20. The digital data transmitted from the terminal 20 is converted into an analog signal and is then transferred to a power line. system.
delete delete delete The method according to claim 1,
In the management server 40,
A protocol conversion unit 45 for converting data having different protocols transmitted from the division PLC modem 30 into a protocol conforming to the protocol of the corresponding counterpart terminal 20, B protocol conversion unit (46) are separately formed and transmitted through a power line.
The method according to claim 1,
In the management server 40,
It is possible to form a separate internet protocol converter 47 in the protocol converting unit 42 and to convert the data of the Internet line transmitted through the separate modem M into the data on the power line line, Power line communication system with integrated modem.

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