KR200198320Y1 - Apparatus for remote communication comprising plural on-board data modem in network system - Google Patents

Abstract

The present invention is to provide a plurality of data modems allocated to each terminal to overcome the interference caused by the excessive use of the cable in the conventional remote access device, the lack of compatibility between each remote access device and overheating in the system, etc. By providing data communication between the server and the terminal through the modem pool, a remote access device having a plurality of built-in data modems of a network suitable for improving the concentration and stability of data communication between the server and the remote access device is provided. The present invention is to perform a 1: 1 connection with a plurality of clients through a plurality of built-in modem, to collectively transmit the data input from each client to the server, and to send the data collectively transmitted from the server to the client A modem pool for transmitting separately; A server for processing data inputted from the modem pool for each client, converting the result into data divided into data for each client, and transmitting the data to the modem pool in a batch; It consists of a transmission line that provides one transmission path for data connection between the server and the modem pool, and prevents the occurrence of interference waves between cables and the decrease in the efficiency of maintenance activities for transmission errors of the cable and the like. It is possible to improve the stability and reliability, and to prevent the difference in transmission speed for each client even when multiple clients want to access the server at the same time.

Description

Apparatus for remote communication comprising plural on-board data modem in network system}

The present invention relates to a wide area network for connecting to a network, and in particular, in the prior art, data is connected by a 1: 1 cable connection between a server and a client using an external modem. In order to overcome the interference caused by excessive use of cables, lack of compatibility between modems, and overheating in the system during simultaneous connection through multiple lines, a plurality of data modems are allocated to each terminal. A remote access device comprising a plurality of built-in data modems of a network suitable for improving the concentration and stability of data communication between a server and a remote access device by performing data communication between a server and a terminal via a modem pool. will be.

In general, when a network network is configured to perform data communication between a plurality of systems, server and client configurations are used. In particular, a local area network (LAN) or the like is configured to connect a certain number of clients and one server within a certain distance limit.

In such a network, the server allocates a unique identification code to each client connected to the server in order to perform data communication with a plurality of clients, and processes the data exchanged with each client based on the assigned identification code. do.

Hereinafter, a remote access apparatus of a network according to the prior art will be described.

First, Figure 1 is a block diagram of a remote access apparatus of a network according to the prior art.

As shown in FIG. 1, the conventional apparatus includes: a plurality of external data modems 11 each provided for data communication for each client; A terminal server 12 for separating and processing data of each client input / output through the external data modem 11; It consists of a serial cable (13) to provide a path for data communication between the terminal server 12 and each external modem (11).

The operation of the device configured as described above is as follows.

Servers and clients provided to compose a network network have a built-in protocol for recognizing data exchanged with each other. Data transmitted to the other side is converted into a code system that the other side can recognize by the protocol.

Data converted into the code system on the client side is modulated into an analog signal and input to the corresponding external data modem 11. The external data modem 11 assigned to the client for transmitting data demodulates the received analog data into digital data and outputs the same through the serial cable 13.

At this time, since the serial cable 13 constitutes a data transmission path between the external data modem 11 and the terminal server 12 assigned to each client, the serial cable 13 is provided with the number of clients connected to one terminal server 12. The terminal server 12 receiving data through the serial cable 13 may distinguish each client according to the connection position of the serial cable.

Thus, when data generated by a client is input through a specific external data modem 11, the terminal server 12 processes the data and outputs the processing result to the requested client side or takes appropriate measures.

However, in the related art, a network is formed by the connection between the terminal server 12 and the external data modem 11, on-board chip for connection control on the main board of the terminal server 12. ) To control the flow of data exchanged with each external data modem 11, causing various problems.

That is, when data exchange for multiple clients connected to the terminal server 12 is performed at the same time, overheating and overload of the system occurs due to excessive switching operation of the connection control chip, and data of multiple clients There is a problem that the processing speed is determined by the processing speed of the connection control chip to reduce the processing speed.

In particular, when a plurality of boards for connection are stacked in the terminal server 12 in order to allow a plurality of serial cables 13 to be connected, problems due to overheating may be further exacerbated, which may cause malfunction of the system. In the terminal server 12 that does not have a cooling device, the distance between the boards for connection must be sufficiently secured, so that the terminal server 12 takes up a lot of space in the terminal server 12.

In addition, since the number of external data modems 11 equal to the number of clients is 1 to 1 between the server and the client by the serial cable 13, communication errors due to self-defects of the serial cable 13 may frequently occur. It is possible to reduce the efficiency of maintenance work such as replacement of a malfunctioning cable due to a mixture of a plurality of cables in the connection of the serial cable 13 of the terminal server 12, through each serial cable 13 in the mixed state There is a problem in that the transmitted data generates interference waves in the adjacent serial cable 13, thereby lowering the reliability of data transmission.

In addition, since the external data modem 11 is allocated to each client, the types of the external data modems 11 connected to one terminal server 12 are often different from each other according to the configuration of the network. When the type of external data modem 11 used for communication increases, compatibility between the external data modems 11 decreases, and in the event of a data transmission error, each external data modem 11 determines whether abnormal operation is performed. There is a drawback that it is not easy to correct and maintain errors, such as requiring a separate method.

In this regard, the present invention is proposed to solve the conventional problems as described above, and an object of the present invention is to perform data communication between a server and a terminal through a modem pool including a plurality of internal data modems allocated to each terminal. The present invention provides a remote access device including a plurality of built-in data modems of a network that can improve the centralization and stability of data communication between the server and the remote access device.

In order to achieve the above object, a remote access device including a plurality of embedded data modems of a network according to the present invention performs 1: 1 connection with a plurality of clients through a plurality of embedded data modems, A modem pool for collectively transmitting the input data to a server and for transmitting the data collectively transmitted from the server to a corresponding client; A server for processing data inputted from the modem pool for each client, converting the result into data divided into data for each client, and transmitting the data to the modem pool in a batch; The technical configuration is characterized by consisting of a transmission line for providing one transmission path for data connection between the server and the modem pool.

1 is a block diagram of a remote access apparatus of a network according to the prior art;

2 is a block diagram of a remote access apparatus including a plurality of embedded data modems of a network according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

21: Modem pool 22: Server

23: transmission line

Hereinafter, the configuration and operation of the present invention will be described based on an embodiment according to the technical concept of a remote access device including a plurality of embedded data modems of a network according to the present invention as described above.

First, FIG. 2 is a block diagram of a remote access apparatus including a plurality of embedded data modems of a network according to an embodiment of the present invention.

As shown in FIG. 2, a suitable embodiment of the present invention performs 1: 1 connection with a plurality of clients through a plurality of built-in data modems and collectively transmits data input from each client to the server 22. A modem pool 21 for separately transmitting the data collectively transmitted from the server 22 to a corresponding client; A server 22 which processes data input from the modem pool 21 for each client, converts the result into data for each client, and transmits the data to the modem pool 21 in a batch; It consists of a transmission line 23 that provides one transmission path for data connection between the server 22 and the modem pool 21.

The operation of the device configured as described above is as follows.

A network is formed by one server and a plurality of clients connected to the server and exchanging data. The modem pool 21 is used in the present invention for the stability and centralization of data communication between the server and the client in such a network.

In this case, unlike the prior art, a plurality of internal data modems are provided in one modem pool 21, rather than a plurality of external data modems connected to each client. Since each modem provided in the modem pool 21 uses a general-purpose data modem whose stability has been verified, problems such as a lack of compatibility between the modems, a difference in data processing speed, or an error verification method are different. Does not cause

Thus, each data modem included in the modem pool 21 demodulates analog data input from the client and converts the analog data into digital data. Data demodulated by each data modem in the modem pool 21 is converted into one transmission signal including the identification code for each client in the modem pool 21 and then collectively transmitted to the server 22 through one cable. do.

That is, the transmission line 23 that provides a transmission path between the modem pool 21 and the server 22 is configured using one 50-pin cable. As such, data is exchanged between the server 22 and the modem pool 21 using one transmission line 23, so that the server 22 does not have a structure for connecting a plurality of cables unlike the prior art. do.

In addition, when the modem pool 21 and one transmission line 23 are used, power supply to each data modem is collectively performed in the modem pool 21 to reduce the heat load on the server 22 side. In addition, since the hardware dependency between the server 22 and the modem pool 21 is low, maintenance activities such as an upgrade (Up Grade) for improving the processing speed of the server 22 or the modem pool 21 are facilitated.

In addition, the server 22 receives data transmitted from the modem pool 21 and performs a data processing operation required by each client, and combines the data processing result with a recognition code for each client to transmit to the modem pool 21. Done. The data transmitted from the server 22 is received from the modem pool 21 to confirm whether the data is transmitted to each client.

When the digital data transmitted from the server 22 includes a recognition code of a specific client, the data modem modulates the digital data into analog data to perform transmission to the client. The analog data modulated by each data modem is transmitted through the transmission path between the modem pool 21 and the client and received at the client side.

As such, when the plurality of clients transmit data, each of the plurality of clients receives the data from the modem pool equipped with the plurality of data modems, and then collectively transmits the data to one server through one transmission line, and the server transmits the data from the modem pool. By processing the data and notifying the result to the client side, a network network is formed by data communication between the server and the client.

While the preferred embodiment of the present invention has been described above, the present invention may use various changes, modifications, and equivalents. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments.

As described above, in the remote access apparatus including a plurality of embedded data modems of the network according to the present invention, unlike a conventional technology, since a plurality of serial cables are not connected to the server side, generation of interference waves between cables or some cables The occurrence of problems such as a decrease in the efficiency of maintenance activities against transmission errors in the network is prevented, thereby improving the stability and reliability of data communication of the network.

Compared to the conventional technology which caused problems such as excessive maintenance cost due to lack of compatibility between modems by using an external data modem, the present invention intensively deploys a data modem with high probability of error in the modem pool. In the event of a communication error, maintenance activities such as the identification and replacement of a malfunctioning modem are easy and quick.

In addition, since the data communication between the modem pool and the server is performed by one transmission line, the hardware dependency between the server and the modem pool is low, so that it is easy to maintain and upgrade the network for increasing the processing capacity or processing speed. Even when multiple clients attempt to access the server at the same time, there is an effect that a difference in transmission speed for each client does not occur.

Claims (1)

Modem pool that performs 1: 1 connection with a plurality of clients through a plurality of built-in data modems, collectively transmits data input from each client to a server, and transmits data collectively transmitted from the server to the corresponding clients. and; A server for processing data inputted from the modem pool for each client, converting the result into data divided into data for each client, and transmitting the data to the modem pool in a batch; And a plurality of built-in data modems of a network, the transmission line providing a single transmission path for data connection between the server and the modem pool.