KR20020014457A - Multi-frequency converting repeater and communication method using the same - Google Patents

Abstract

PURPOSE: A multi frequency conversion repeater is provided to convert a basic frequency of a base station into a disused frequency to transmit the disused frequency, and to convert the basic frequency into different frequencies used in the base station, so that a mobile communication terminal can transmit tunable frequencies without increasing another base station or optical repeater. CONSTITUTION: A base station(200) makes one of many frequencies as a basic frequency, and converts the basic frequency into a permitted frequency disused in the base station(200) to transmit the converted frequency to an inaccessible area. The base station(200) converts a frequency transmitted from the inaccessible area into the basic frequency used in the base station(200). A multi frequency conversion repeater(300) is located in the inaccessible area, and converts the disused frequency into many frequencies in which mobile communication terminals(11,31) are capable of tuning. The multi frequency conversion repeater(300) transmits the converted frequencies to the mobile communication terminals(11,31), and converts frequencies received from the mobile communication terminals(11,31) into permitted frequencies disused in the base station(200). Then, the multi frequency conversion repeater(300) transmits the converted frequencies to the base station(200).

Description

Multi-frequency converting repeater and communication method using the same}

The present invention relates to a communication system using a multi-frequency conversion repeater for transmitting and receiving to a mobile communication terminal using a repeater in a mobile communication service bad region or a poor service area.

In general, repeaters are difficult to secure isolation and are difficult to use in open areas and usually provide in-building underground services. An optical repeater is a method for securing an isolation for service in the open area, and the optical repeater is uneconomical because of excellent service quality but excessive consumption, operation and maintenance costs such as a leased line cost.

As shown in FIG. 1, the donor antenna of the single frequency conversion repeater 20 in the radio wave bad region B converts the second FA frequency converted by the base station 100 using the single frequency first frequency allocation. If it is transmitted to (21), the single frequency conversion repeater 20 converts the fundamental frequency to the first FA again. The converted first FA frequency services the mobile communication terminal 30 located in the radio wave failure area B through the coverage antenna 22 attached to the single frequency conversion repeater 20.

This will be described in more detail with reference to FIG. 2.

2 is an internal block diagram of a base station for transmitting and receiving frequencies in a service area A and a radio wave bad area B.

The first FA used by the base station 1 located in the service area A is input to the distributor 116 from the first FA channel card 107 and serves as a carrier changer (CC). ) And the second FA receiver 115. The distributed frequencies are combined in the combiner 113, amplified in the power amplifier 112, passed through the bandpass filter 111, and then transmitted to the transmit antenna 120.

Conversely, the second FA and the first FA of the service area A, which are received through the reception antenna 110 of the base station 100 from the radio wave bad zone B, are passed through the band pass filter 101 and have a low noise amplifier 102. Amplified). The amplified frequencies are distributed in the divider 103 and input to the first FA transceiver 104 and the second FA transceiver 105 serving as carrier changers, and each of the input frequencies is combined in the combiner 106. . The combined frequency is input to the first FA channel card 107.

However, when the base station 100 uses several frequencies, it is impossible in principle to relay to the single frequency conversion repeater 20. For this reason, the mobile communication terminal has a tuning frequency determined by a hash algorithm, because the mobile communication terminal receives information from the base station 100 and moves to the tuning frequency to which the mobile communication terminal should tune. Therefore, if the mobile communication terminal 30 located in the radio wave bad region B is determined to tune to the third FA, since there is no tuning frequency passing through the single frequency conversion repeater 20, call set-up is impossible and call cutting proceeds. There was a problem that the service is not available to the mobile communication terminal (30).

The present invention has been invented to solve the above problems, an object of the present invention is to convert the base frequency of the base station to a frequency that does not use and transmit, and in the multi-frequency conversion repeater a plurality of different frequencies used by the base station in the base station Converts the service to a mobile communication terminal.

The present invention for achieving the above object, in the base station using a plurality of frequencies as one of the plurality of frequencies as a base frequency, by converting the base frequency into a licensed frequency not used by the base station to the radio wave poor region A base station for transmitting to the fundamental frequency used by the base station to transmit to the base station; And converting an unused licensed frequency received from the base station into various frequencies that the mobile communication terminal can tune to and transmitting to the mobile communication terminal, the frequency received from the mobile communication terminal. It is configured to include a multi-frequency conversion repeater for transmitting to the base station to convert them to a licensed frequency not used by the base station,

The multi-frequency conversion repeater includes a first duplexer for transmitting and receiving a frequency received by the donor antenna; A low noise amplifier for amplifying the separated frequency; A divider for distributing the amplified frequency; A plurality of converters for respectively converting the divided frequencies into a plurality of different frequencies used by the base station; A combiner for combining the converted frequencies; A power amplifier amplifying the combined frequency; A second duplexer configured to receive and transmit the amplified frequency and to transmit and receive the amplified frequency to a coverage antenna;

A second duplexer for transmitting / receiving and separating the received frequency when the frequency used by the mobile communication terminal is received by a coverage antenna; A low noise amplifier for amplifying the separated frequency; A divider for distributing the amplified frequency; A plurality of converters for respectively converting the divided frequencies into licensed frequencies not used by the base station; A combiner for combining the converted frequencies; A power amplifier amplifying the combined frequency; And a first duplexer configured to receive and transmit the amplified frequency to transmit and receive the amplified frequency to a donor antenna.

A forward link step of transmitting information from a base station to a mobile communication terminal in a radio wave region; And a reverse link step of transmitting information from the mobile communication terminal to the base station.

The forward link step

Converting frequencies used by base stations located within the service area to licensed frequencies not used by the base stations, respectively; Transmitting the converted frequency at the base station; Receiving the frequency transmitted from the base station with a multi-frequency conversion repeater installed in the radio wave region; Converting the received frequency into frequencies used by the base station; And transmitting the converted frequencies to mobile communication terminals located in the radio wave region, respectively.

The reverse link step

Receiving, by the multi-frequency conversion repeater located in the radio wave region, frequencies transmitted by the mobile communication terminal in the radio wave region; Converting the received frequencies into licensed frequencies that are not used by a base station, respectively; Transmitting the converted frequency to a base station; Receiving the frequency at the base station; And converting the received frequency into a frequency used by the base station.

Therefore, according to the present invention, it is possible to provide a service to a mobile communication terminal of any type.

1 is a block diagram of a communication system using a single frequency conversion repeater according to the prior art.

2 is an internal block diagram of a base station according to the prior art.

3 is a block diagram of a communication system using a multi-frequency conversion repeater according to the present invention.

4 is an internal block diagram of a base station according to the present invention.

5 is a block diagram of a multi-frequency conversion repeater according to the present invention.

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

A: Service Area B: Bad Radio Area

20: single frequency conversion repeater

21, 310: donor antenna

22, 320: coverage antenna

10, 11, 30, 31: mobile communication terminal

100, 200: base station

101, 111, 201, 211: Band Pass Filter

102, 202, 302, 312: Low Noise AMP (LNA)

103, 116, 203, 216, 303, 313: Divider

104, 105, 114, 115, 204, 205, 214, 215: Transceiver Unit (XCVU)

106, 113, 206, 213, 304, 314: Combiner

110, 210: reception antenna

120, 220: transmitting antenna

112, 212, 305, 315: LPA (Linear Power AMP)

300: multi-frequency conversion repeater

301: first duplexer

311: second duplexer

317: Converter

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

3 is a block diagram of a communication system using a multi-frequency conversion repeater for transmitting a frequency from a service area A of a base station to a radio wave failure area B. Referring to FIG.

Among the frequencies used by the base station 200, a primary frequency, which is a pilot channel, is converted into a frequency not used by the base station. The frequency is a licensed frequency. When the converted frequency is transmitted to the multi-frequency conversion repeater 300 installed in the radio wave bad region B, the multi-frequency conversion repeater 300 converts the frequency to the frequency used by the base station. The converted frequency is transmitted to the mobile communication terminal 31 in the radio wave bad zone B.

On the contrary, the frequencies transmitted by the mobile communication terminals 31 in the radio wave region B are received by the multi-frequency conversion repeater 300 located in the radio wave region B. The received frequency is converted into a licensed frequency not used by the base station and transmitted to a base station located in the service area A. The transmitted frequency is converted into a frequency used by the base station in the base station.

4 is a circuit block diagram of a base station when several frequencies are used in the base station.

First, a description will be given of the forward direction of transmitting and receiving frequencies from the base station 11 located in the service area A to the multi-frequency repeater 300 located in the radio wave bad area B. FIG.

First, a signal is input from the first FA channel card 207, ..., and the? FA channel card 207 to the distributor 216. The input frequency is distributed to the splitter 216 and is sent to the first FA transceiver 214, the second FA transceiver, ..., the α FA transceiver, and the α + 1 FA transceiver serving as a carrier changer. At this time, the α + 1 FA transceiver 215 converts to an authorized frequency α + 1 FA not used by the base station 200.

The frequency converted by the transceiver is combined by the combiner 213, amplified by the power amplifier 212, passed through the band pass filter 211, and then transmitted to the transmission antenna 220 installed in the base station 200.

Next, a reverse direction of transmitting a frequency from the multi-frequency conversion repeater 300 located in the radio wave bad area B to the base station 200 located in the service area A will be described.

The α + 1 FA transmitted from the multi-frequency conversion repeater 300 is received by the reception antenna 210 installed in the base station and amplified by the low noise amplifier 202 through the band pass filter 201. The amplified frequency is distributed by the distributor 203 and received by one of the first FA receiver 204, ..., the α FA receiver, which is a carrier changer. The frequencies are input to the first FA channel card, ..., α FA channel card 207 used in the base station by combining in the combiner 206.

In addition, the mobile communication terminal 31 in the radio wave bad region B is tuned to 1FA (Frequency Allocation), 2FA, ..., αFA, respectively, by a hash algorithm.

5 is a block diagram of a multi-frequency conversion repeater 300 for transmitting and receiving a desired frequency by relaying a forward link and a reverse link from a service area A of a base station to a radio wave failure area B.

The forward link receives the frequency sent from the service area A to the donor antenna 310 installed in the multi-frequency conversion repeater 300, and transmits and receives the frequency from the first duplexer 301. The separated frequencies are amplified by the low noise amplifier 202, distributed by the divider 303, and then used by the base station in the plurality of converters 317 installed equal to the number of frequencies used by the base station. Convert to the same frequency as. The converted frequencies are combined in the combiner 304, amplified in the power amplifier 305, and then transmitted and received through the second duplexer 311. The frequency to be transmitted among the separated frequencies is transmitted to the mobile communication terminal 31 in the radio wave bad region B through the coverage antenna 320 installed in the multi-frequency conversion repeater 300.

In addition, the reverse link is received by the coverage antenna 320 of the multi-frequency conversion repeater 200 when each mobile communication terminal 31 of the radio wave bad region C transmits at the tuned frequency. The received frequencies are transmitted and received by the second duplexer 311, amplified by the low noise amplifier 312 and distributed by the divider 313. Each of the divided frequencies is inverted in converter 317 and then combined in combiner 314. The combined frequency is amplified by the power amplifier 315 and transmitted and received by the first duplexer 301 and then transmitted through the donor antenna 310 to the base station.

As described in detail above, according to the communication system using the multi-frequency conversion repeater of the present invention, a frequency to which a mobile communication terminal can tune is transmitted to a radio wave region of a mobile communication without additional base stations or optical repeaters. This service can be used in radio communication poor areas such as mountainous areas and suburban areas, and can be serviced in a multi-frequency environment of neighboring base stations including base stations. Not only is it effective in reducing costs, but it is also easy to use for emergency recovery due to its convenience.

Claims (3)

In a base station using a plurality of frequencies, one of the plurality of frequencies as a base frequency, and converts the base frequency into a licensed frequency not used by the base station to transmit to the radio wave failure area, and transmits in the radio wave failure area A base station for converting one frequency into the fundamental frequency used by the base station; And Located in the radio wave region, and converts the unused licensed frequency received from the base station to a number of frequencies that the mobile communication terminal can tune to and transmits to the mobile communication terminal, and the frequencies received from the mobile communication terminal And a multi-frequency conversion repeater configured to convert to a licensed frequency not used by the base station and transmit the converted frequency to the base station. A first duplexer for transmitting and receiving a frequency received by the donor antenna; A low noise amplifier for amplifying the separated frequency; A divider for distributing the amplified frequency; A plurality of converters for respectively converting the divided frequencies into a plurality of different frequencies used by the base station; A combiner for combining the converted frequencies; A power amplifier amplifying the combined frequency; And A second duplexer configured to receive and transmit the amplified frequency and to transmit and receive the amplified frequency to a coverage antenna; A second duplexer for transmitting / receiving and separating the received frequency when the frequency used by the mobile communication terminal is received by a coverage antenna; A low noise amplifier for amplifying the separated frequency; A divider for distributing the amplified frequency; A plurality of converters for respectively converting the divided frequencies into licensed frequencies not used by the base station; A combiner for combining the converted frequencies; A power amplifier amplifying the combined frequency; And And a first duplexer configured to receive and transmit the amplified frequency and to transmit and receive the amplified frequency to be transmitted to a donor antenna. A forward link step of transmitting information from a base station to a mobile communication terminal in a radio wave region; And And a reverse link step of transmitting information from the mobile communication terminal to the base station, The forward link step Converting frequencies used by base stations located within the service area to licensed frequencies not used by the base stations, respectively; Transmitting the converted frequency at the base station; Receiving the frequency transmitted from the base station with a multi-frequency conversion repeater installed in the radio wave region; Converting the received frequency into frequencies used by the base station; And Transmitting each of the converted frequencies to a mobile communication terminal located in the radio wave region; The reverse link step Receiving, by the multi-frequency conversion repeater located in the radio wave region, frequencies transmitted by the mobile communication terminal in the radio wave region; Converting the received frequencies into licensed frequencies that are not used by a base station, respectively; Transmitting the converted frequency to a base station; Receiving the frequency at the base station; And And converting the received frequency into a frequency used by the base station.