KR20010092465A - Repeat device for communicating on cellular phone on using PC connected LAN cable - Google Patents

Abstract

PURPOSE: A repeating apparatus for communicating with a mobile terminal using a computer connected to a LAN cable is provided to remove an electric wave shadow region of a high building by installing a repeating module in the computer of a data shadow region which exists in the high building. CONSTITUTION: A base transceiver subsystem(10) transmits and receives data signals with a server(20) installed at one side of a high building(72) through an antenna. The server(20) is connected to a repeating module(50) installed in a computer(76) through a LAN cable(74). The repeating module(50) is installed in the computer(76) to be connected to the LAN cable(74) installed in the high building(72).

Description

Repeater device for communicating on cellular phone on using PC connected LAN cable

The present invention relates to a relay device for transmitting and receiving signals to and from the mobile terminal in a radio shading area, and more particularly, connected to a LAN cable installed in a building in a radio shading area of a high-rise building to transmit and receive signals with the mobile terminal. The present invention relates to a relay device capable of communicating with a mobile terminal using a computer connected to a LAN cable.

In general, a wireless line control station constituting a mobile communication network functions to determine which base station is closest to a mobile terminal and to determine which frequency the base station communicates with the mobile terminal. In order to expand the communication area, a plurality of base stations are installed. Accordingly, the mobile terminals belonging to the base station transmit and receive signals to and from the base station of the corresponding area. When the mobile terminal is located at a long distance from the base station or in a radio shading area, the base station performs smooth transmission and reception with the mobile terminal. There is discomfort not to do.

Therefore, in the related art, many base stations are installed in various places to remove a radio shade area or install a repeater separately in a radio shade area in which a base station cannot be installed so that the mobile terminal can communicate smoothly with the base station through the repeater. At this time, the area where the repeater installed in the radio shading area transmits and receives with the mobile communication terminal is narrow, and in the case of a high-rise building, the repeater must be installed on each floor, and when the building is wide and the partition is installed. Since it is necessary to install a plurality of repeaters on the same floor is expensive, there is an inconvenience that takes a long time to install a repeater.

Accordingly, the present invention has been made to solve the above problems, an object of the present invention is to connect to a LAN cable installed in a building in a radio wave shade area of a high-rise building LAN to transmit and receive signals with a mobile terminal The present invention provides a relay device capable of communicating with a mobile terminal using a computer connected to a cable.

1 is a diagram schematically illustrating a relay apparatus capable of communicating with a mobile communication terminal using a computer connected to a LAN cable according to the present invention.

FIG. 2 is a diagram schematically illustrating a structure of the server of FIG. 1.

3 is a view schematically showing the structure of the relay module of FIG.

<Brief description of symbols for the main parts of the drawings>

10: base station 12: first two-way filter

14: first low noise amplifier 16: the first down converter

18: 1 A / D converter unit 19: A / D converter

20: server 22: first data combiner

24: first data converter 26: first LAN card

28: hub 30: second data converter

32: data divider 34: 1D / A converter section

36: D / A converter 38: second data combiner

40: first up-converter 42: first amplifier

50: relay module 52: second LAN card

54: third data conversion 56: 2D / A converter section

58: second up-converter 60: second amplifier

62 second bidirectional filter 64 second low noise amplifier

66: second down converter 68: 2 A / D converter

70: mobile terminal 72: high-rise building

74: LAN cable 76: computer

In order to achieve the above object, the present invention provides a wireless transmission and reception signal with a base station, and a server for transmitting and receiving a signal with a relay module connected through a LAN cable; The LAN cable is connected to the server through a LAN cable, and transmits a signal applied from a mobile terminal to the server through a LAN cable or a relay module configured to transmit a signal applied from the server through a LAN cable to a mobile terminal through an antenna. Provided is a relay device that can communicate with a mobile terminal using a connected computer.

The server converts the signal received from the base station through the antenna to a low frequency and then converts it into a digital signal and converts it into a protocol recognizable by the LAN card and transmits it to the relay module or transmits a data signal applied from the relay module through the LAN cable. After converting the communication protocol to an analog signal, it is characterized in that the high-frequency conversion to transmit to the base station.

The relay module converts a data signal applied from a server into a communication protocol and then converts it into an analog signal and converts the data signal into a high frequency and transmits the data signal to a mobile terminal or down the data signal applied from the mobile terminal to a low frequency. It converts into a digital signal, converts the data signal into a protocol that can be recognized by the LAN card and transmits it to the server through the LAN cable.

According to the present invention, many computers are connected to a LAN cable provided in a high-rise building. One side of the high-rise building is provided with a server for wireless communication with the base station to connect to the LAN cable, the computer is equipped with a relay module for wireless communication with the mobile terminal. The relay module is installed in each floor of the computer, each relay module is connected to the server. The relay module and the server are each provided with data conversion means to convert the data signal applied from the mobile terminal and the base station into a data signal of TCP / IP for the LAN cable to smoothly send and receive data signals through the LAN cable . The relay module may be installed on each computer in the data shadow area existing in the high-rise building, thereby eliminating the radio shading area of the high-rise building.

Hereinafter, a preferred embodiment of a relay device capable of communicating with a mobile terminal using a computer connected to a LAN cable according to the present invention will be described with reference to the accompanying drawings.

1 is a view schematically showing a relay device capable of communicating with a mobile communication terminal using a computer connected to a LAN cable according to the present invention, FIG. 2 is a view schematically showing the structure of the server of FIG. 3 is a view schematically showing the structure of the relay module of FIG.

Referring to the present invention with reference to Figures 1 to 3, first, the base station 10 transmits and receives data signals with the server 20 installed on one side of the high-rise building 72 through the antenna. The server 20 is connected to the relay module 50 installed in the computer 76 through the LAN cable 74. The relay module 50 is installed in the computer 76 so as to be connected to the LAN cable 74 installed in the high-rise building.

The server 20 receives and filters a signal applied from the base station 10 through an antenna, and filters a signal applied from the relay module 50 and transmits the signal to the base station 10 through an antenna. 12). A first low noise amplifier 14 is connected to the first bidirectional filter 12, and a first down converter 16 is connected to the first low noise amplifier 14. The first down converter 16 is connected to a first A / D converter unit 18 including a plurality of A / D converters 19. The A / D converter 19 constituting the first A / D converter unit 18 is provided to match the number of relay modules 50 connected to the server 20 via the LAN cable 74. A first data combiner 22 is connected to the first A / D converter unit 18, and a first data converter 24 is connected to the first data combiner 22. The first LAN card 26 is connected to the first data converter 24, and the hub 28 to which the plurality of relay modules 50 are connected to the first LAN card 26 through the LAN cable 74. Is connected.

In addition, a second data converter 30 is connected to the first LAN card 26, a data distributor 32 is connected to the second data converter 30, and a plurality of Ds are connected to the data distributor 32. The 1D / A converter part 34 which consists of / A converters 36 is connected. The first D / A converter 34 is provided to match the number of relay modules 50 connected to the server 20 via the LAN cable 74. The first data converter 38 is connected to the first D / A converter unit 34, and the first up converter 40 is connected to the second data combiner 38. The first bidirectional filter 12 is connected to the converter 40 through a first amplifier 42.

The relay module 50 is mounted on a computer, the relay module 50 is provided with a second LAN card 52 to be connected to a LAN cable 74 connected to the computer, the second LAN card 52 The third data converter 54 is connected. A second D / A converter 56 is connected to the third data converter 54, a second up converter 58 is connected to the second D / A converter 56, and the second up converter 58 is connected to the second D / A converter 56. The second amplifier 60 is connected to 58. A second bidirectional filter 62 is connected to the second amplifier 60, and the second bidirectional filter 62 transmits and receives a data signal to and from the mobile terminal 70 through an antenna.

In addition, a second low noise amplifier 64 is connected to the second bidirectional filter 62, a second down converter 66 is connected to the second low noise amplifier 64, and the second down converter 66 is connected. The second A / D converter section 68 is connected. The second A / D converter section 68 is connected to a third data converter 54.

Referring to one embodiment, first, when transmitting a data signal from the base station 10 to the mobile terminal 70, the data signal output from the base station 10 is a server (via an RF cable connected to the external antenna of the high-rise building) 20). The data signal applied to the server 20 is filtered through the first bidirectional filter 12 constituting the server 20 and applied to the first low noise amplifier 14. The first low noise amplifier 14 amplifies the data signal and applies it to the first down converter 16. The first down converter 16 lowers the data signal to a low frequency close to DC to the first A / D converter unit. (18) is applied to the A / D converter 19 of the channel corresponding to the data signal. Each A / D converter 19 constituting the first A / D converter unit 18 converts the data signal applied from the first down converter 16 into a digital signal to the first data combiner 22. Is authorized. The first data combiner 22 combines a plurality of data signals applied from the first A / D converter unit 18 and applies them to the first data converter 24. The first data converter 24 converts the data signal applied from the first data combiner 22 into a data format that conforms to the TCP / IP protocol so that the LAN card can recognize the data signal. Is authorized. The first LAN card 26 transmits a data signal applied from the first data converter 24 to each relay module 50 connected to the server 20 through the hub 28.

The relay module 50 connected to the server 20 through the LAN cable 74 is provided with a second LAN card 52, and the second LAN card 52 is connected to the server 20 through the LAN cable 74. Is applied to the third data converter 54. The third data converter 54 converts the data signal applied from the second LAN card 52 into a data format suitable for the communication protocol and applies it to the second D / A converter 56. The second D / A converter 56 converts a data signal applied from the third data converter 54 into an analog signal and applies it to the second up-converter 58. The second up-converter 58 supplies data. The signal is converted into a high frequency signal and applied to the second amplifier 60. The second amplifier 60 amplifies the data signal applied from the second up-converter 58 and applies it to the second bidirectional filter 62. The second bidirectional filter 62 moves the data signal through an antenna. Transmission to the terminal 70.

On the contrary, when the data signal is transmitted from the mobile terminal 70 to the base station 10, the data signal transmitted from the mobile terminal 70 is applied to the second two-way filter 62 of the relay module 50 through the antenna. The second bidirectional filter 62 filters the data signal applied from the mobile terminal 70 through the antenna and applies the second signal to the second low noise amplifier 64. The second low noise amplifier 64 amplifies the data signal and applies it to the second down converter 66. The second down converter 66 lowers the frequency of the data signal, converts the signal into a low frequency signal, and applies it to the second A / D converter 68. The second A / D converter unit 68 converts the data signal into a digital signal and applies it to the third data converter 54. The third data converter 54 converts the data signal applied from the second A / D converter unit 68 into a data format that conforms to the TCP / IP protocol so as to be recognized by the LAN card, and applies it to the second LAN card 52. do. The second LAN card 52 transmits a data signal applied from the third data converter 54 to the server 20 through the LAN cable 74.

The server 20 is provided with a hub 28, and a plurality of relay modules 50 are connected to the hub 28 through a LAN cable 74. The hub 28 applies a data signal applied from each relay module 50 through the LAN cable 74 to the first LAN card 26. The first LAN card 26 applies a data signal applied from the hub 28 to the second data converter 30. The second data converter 30 converts a data signal having a data format conforming to the TCP / IP protocol into a data format conforming to the communication protocol and applies it to the data distributor 32. The data divider 32 applies a data signal applied from the second data converter 30 to the corresponding D / A converter 36 of the first D / A converter unit 34. Each D / A converter 36 constituting the first D / A converter unit 34 converts a data signal applied from the data divider 32 into an analog signal so that the second data combiner 38 receives the first D. The respective data signals applied from the D / A converters 36 of the / A converter unit 34 are combined and applied to the first up-converter 40. The first up-converter 40 converts the data signal into a high frequency signal and applies it to the first amplifier 42. The first amplifier 42 amplifies the data signal applied from the first up-converter 40 and applies the first signal to the first bidirectional filter 12. The first bidirectional filter 12 transmits the data signal to the base station through an antenna. Send to (10).

As can be seen from the above description, in the present invention, many computers are connected to a LAN cable installed in a high-rise building. On one side of the high-rise building is installed a server for wireless communication with the base station and connected to the LAN cable, the computer is equipped with a relay module for wireless communication with the mobile terminal. The relay module is installed in each floor of the computer, each relay module is connected to the server. The relay module and the server are each provided with data conversion means to convert the data signal applied from the mobile terminal and the base station into a data signal of TCP / IP for the LAN cable to smoothly send and receive data signals through the LAN cable . By installing the relay module in each computer of the data shadow area existing in the high-rise building, it is possible to remove the radio shading area of the high-rise building.

Claims (5)

A server installed at one side of the building to transmit and receive signals to and from the base station wirelessly, and to transmit and receive signals to and from a relay module connected through a LAN cable; The LAN cable is connected to the server through a LAN cable, and transmits a signal applied from a mobile terminal to the server through a LAN cable or a relay module configured to transmit a signal applied from the server through a LAN cable to a mobile terminal through an antenna. A relay device that can communicate with a mobile terminal using a connected computer. The method of claim 1, wherein the server is to convert the signal received from the base station through the antenna to a low frequency and then converted into a digital signal and converted to a protocol that can be recognized by the LAN card to transmit to the relay module or through the LAN cable relay module Transmitting a data signal applied from a communication protocol to an analog signal, and then converted to a high frequency transmission to a base station using a computer connected to a LAN cable relay device that can communicate with the mobile terminal. The method of claim 1, wherein the relay module converts a data signal applied from a server to a communication protocol and then to an analog signal and converts the data signal to a high frequency and transmits the data signal to a mobile terminal or a data signal applied from the mobile terminal to a low frequency. After down, the data signal is converted into a digital signal, and the data signal is converted into a protocol that the LAN card can recognize and transmitted to the server via a LAN cable. Relay device that can communicate. The apparatus of claim 1, wherein the server comprises: a first bidirectional filter configured to filter a signal applied from the base station through an antenna and transmit the filtered signal to the first low noise amplifier or to filter a data signal applied from the first amplifier to the base station; A first low noise amplifier connected to the first bidirectional filter; A first down converter connected to the first low noise amplifier; A first A / D converter unit comprising a plurality of A / D converters connected to the first down converter; A first data combiner connected to the first A / D converter; A first data converter connected to the first data combiner; A first LAN card connected to the first data converter; A hub connected to the first LAN card and transmitting data signals to a plurality of relay modules connected through a LAN cable or applying data signals from each relay module to the first LAN card; A second data converter connected to the first LAN card; A data distributor connected to the second data converter; A first D / A converter unit comprising a plurality of D / A converters connected to the data distributor; A second data combiner connected to the first D / A converter; A first upconverter connected to the second data combiner; And a first amplifier connected to the first upconverter to amplify the data signal applied from the first upconverter and apply the first signal to the first two-way filter. Repeater. The system of claim 1, wherein the relay module comprises: a second LAN card connected to a server through a LAN cable connected to a computer; A third data converter connected to the second LAN card; A second D / A converter connected to the third data converter; A second up converter connected to the second D / A converter; A second amplifier connected to the second upconverter; A second bidirectional filter connected to the second amplifier and transmitting a data signal applied from the second amplifier to the mobile terminal through an antenna or applying a data signal applied from the mobile terminal to the second amplifier; A second low noise amplifier connected to the second bidirectional filter; A second down converter connected to the second low noise amplifier; A second A / D converter unit connected to the second down converter and converting a data signal applied from the second down converter into a digital signal and applied to a third data converter, using a computer connected to a LAN cable. A relay device capable of communicating with a mobile terminal.