KR20220161576A - Repeater System with Donor and Remote Separated - Google Patents

Abstract

The present invention relates to an apparatus for improving propagation performance by controlling an antenna beam of a repeater, wherein the apparatus detects SS/PBCH block (SSB) information and various parameter information through an SSB synchronization channel between a wireless communication base station and the repeater and analyzes the detected information, thereby enabling measurement of propagation performance and accurate analysis on a wireless environment and automatically adjusting array antenna beamforming with better propagation performance.

Description

Repeater System with Donor and Remote Separated

The present invention relates to a donor and remote separation type repeater system in which a donor for communication with a base station of a repeater and a remote unit for communication with a terminal are separated and the remote unit can be configured in various ways according to the installation environment.

5G (The Fifth Generation) following the evolution of mobile communication technology has been commercialized and is gaining momentum in the market. To improve 5G performance, many countries, operators, and companies are making efforts, and 5G mobile communication equipment is being spurred on, so technology development continues to evolve in accordance with standardization.

In general, as shown in FIG. 1, a wireless relay system includes a donor antenna 11 for receiving an RF signal transmitted from a base station 10 and a service antenna for communication with a mobile communication terminal 21 in the home ( 21) and a relay including an RF signal processing unit 31 incorporating the service antenna 21, connecting the external service antenna 21, receiving external power, amplifying the signal, and transmitting the signal in the forward or reverse direction. It consists of a device 30 and a power supply unit 32 for supplying power to the relay device 30.

In this way, the wireless repeater communicates with a base station by separating the donor antenna 11 using an antenna wire so that the donor antenna 11 can be installed outdoors and exposed to the outdoors, and is effective in minimizing obstacles.

However, since the wireless repeater according to the prior art exposes only the donor antenna to the outdoors, there is a limitation in securing coverage due to a low reception level when a shadow area occurs indoors, such as when the service area is wide indoors or when there are other obstacles. there was a problem with

Domestic Patent Registration No. 10-1488743 (Announcement date 2015.02.04.)

Therefore, in order to improve the problems of the prior art, the present invention separates the donor part and the remote part according to the installation environment and operation method of the service area, and uses a RF interface or an optical interface to form a plurality of service parts into a star type or a cascade type. Its purpose is to provide a donor and remote separation type repeater system that enables installation in various wireless environments such as outdoors and indoors because it is configured to be connected in a cascade.

In order to achieve the object of the present invention, a donor and remote separation type repeater system is a wireless communication repeater in which a donor unit for communication with a base station and a remote unit for communication with a terminal are separated, wherein the donor unit includes a donor antenna; a first amplifier and a low noise amplifier for amplifying the signal of the donor antenna; a first down converter and a first up converter for low frequency conversion of the low noise amplifier and an uplink or downlink signal; A donor intermediate frequency module for converting the intermediate frequency of signals transmitted and received by the first downconverter and the first upconverter, wherein the remote unit converts the intermediate frequency of signals transmitted and received from the donor-side intermediate frequency module. ; a second up-converter and a second down-converter for low-frequency conversion of the remote intermediate frequency module and an uplink or downlink signal; and a second amplifier and a low noise amplifier for amplifying transmission and reception signals of the second up-converter, the second down-converter, and the remote antenna.

The donor intermediate frequency module and the remote intermediate frequency module are connected through a coaxial or optical fiber, and the donor intermediate frequency module and the remote intermediate frequency module transmit and receive signals through an RF multiplexer.

In addition, the donor unit and a plurality of remote units are connected, and each remote unit is connected to the donor unit in a radial or cascade form.

effect can be expected. In a place with a small service area, a donor/remote integrated repeater is installed, and in a place with a large service area, equipment in the form of a donor/remote separation type RF interface is installed depending on the environment. By installing and operating the detachable optical interface, there is an effect of providing economical operation and appropriate wireless environment service.

1 is a diagram showing an embodiment of installation of an in-home wireless repeater system according to the prior art;
2 is a configuration diagram of a separate repeater system of a donor unit and a remote unit according to a preferred embodiment of the present invention;
3 is a detailed block configuration diagram of FIG. 2;
4 is a configuration diagram of a separate repeater system of a donor unit and a remote unit according to a second embodiment of the present invention;
5 is a detailed block configuration diagram of FIG. 4;
6 is a configuration diagram of a separate repeater system of a donor unit and a remote unit according to a third embodiment of the present invention;
7 is a detailed block configuration diagram of FIG. 6 .
8 is a configuration diagram of a separate repeater system of a donor unit and a remote unit according to a fourth embodiment of the present invention;
9 is a detailed block configuration diagram of FIG. 8 .

The features and effects of the present invention described above will become more apparent through the following detailed description in relation to the accompanying drawings, and accordingly, those skilled in the art to which the present invention belongs can easily implement the technical idea of the present invention. You will be able to.

Since the present invention can have various changes and various forms, specific embodiments are exemplified and described in detail in the text.

However, this is not intended to limit the present invention to the specific disclosed form, and it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

Terms used in this application are only used to describe specific embodiments, and are not intended to limit the present invention.

A detailed description of a donor and remote separation repeater system according to a preferred embodiment of the present invention with reference to the accompanying drawings will be described below.

Referring to FIG. 2, the relay system is a configuration diagram of a separate relay system in which a donor unit 100 and a remote unit 200 are connected 1: 1 through an RF interface or an optical interface, and the donor unit 100 and the reboot unit ( 200) is separated 1: 1 and is a signal transmission system using an RF feeder cable (Coaxial Feeder Cable) or an optical fiber, the RF interface is an analog signal transmission transmission system, and the optical interface converts the RF analog signal to an optical signal It includes a function of converting to , which is advantageous when transmitting over a longer distance than an RF feeder cable.

Referring to FIG. 3, the donor unit 100 includes a donor antenna 110 for communication with a base station, a first amplifier and a low noise amplifier (LNA) 111 for amplifying a signal of the donor antenna 110, and the A first amplifier / low noise amplifier 111 and a first down and first upconverter 112, 113 for low frequency conversion of an uplink or downlink signal, and the first downlink A donor intermediate frequency module (IMF) 114 for converting the intermediate frequency of signals transmitted and received by the converter 112 and the first upconverter 113, the first amplifier and low noise amplifier 111 and the donor intermediate frequency module 114 ), and the donor intermediate frequency module 114 is composed of a donor multiplexer (MUX) 120 for communication with the separated remote unit 200.

The remote unit 200 includes a service antenna 210 for communication with a terminal or other repeater, a second amplifier and a low noise amplifier (LNA) 211 for amplifying a signal of the service antenna 210, and the first 1 amplifier/low noise amplifier 211, second down and first upconverters 212 and 213 for low frequency conversion of an uplink or downlink signal, and the second downconverter 212 and a remote intermediate frequency module (IMF) 214 for converting the intermediate frequency of the signal transmitted and received to and from the first upconverter 213, the second amplifier and low noise amplifier 211 and the remote intermediate frequency module 214 The donor intermediate frequency module 114 is composed of a remote multiplexer (MUX) 220 for communication with the separated remote unit 200.

In the donor and remote separate repeater system configured as described above, the donor unit 100 is equipment for transmitting and receiving base station signals and is installed and operated near the base station, and the remote unit 200 is installed in a wireless service area.

The transmission section between the donor unit 100 and the remote unit 200 is designed using an analog signal when connected with a coaxial feeder cable, and is designed by converting to a low frequency with a low attenuation ratio due to signal attenuation in the transmission section.

When the transmission section between the donor unit 100 and the remote unit 200 is connected with an optical cable, the donor multiplexer 120 and the remote multiplexer 220 include a function of converting an RF analog signal into an optical signal, In the case of optical cables, it is easier to transmit over a longer distance than coaxial feeder cables.

The first downconverter 112 and the first upconverter 113 perform the low frequency conversion, which facilitates signal filtering of a self-band frequency. The equipment gain is also larger and can be used in a wider range. The higher the benefit of the equipment, the greater the coverage to a wider area.

The donor intermediate frequency module 120 and the remote intermediate frequency module 220 connect the donor unit 100 and the remote unit 200 with one cable through the donor multiplexer 120 and the remote multiplexer 220 inside each other. Therefore, signal sources (DL/UL), management and supervision channel communication, synchronization signal transmission channel, and frequency synchronization channel signals are mixed and transmitted/received using various frequencies.

4 is a star connection structure in which a plurality of remote units 200 communicate with the donor unit 100 according to the second embodiment of the present invention, and the donor unit 100 is near a base station for transmitting and receiving base station signals. It is installed and operated, and a plurality of remote units 200 are installed in a wireless service area. This service can be provided in a wide space such as a stadium, an underground parking lot, or a lobby on the first floor of a building.

5 is a detailed block configuration diagram of FIG. 4, the donor multiplexer 120 of the donor unit 100 is designed in a 1:N structure, and a plurality of remote controllers (1,2, ..., N) (201) 202 connects to the donor multiplexer 120 .

The method of connecting each of the remote control units 201 and 202 and the donor unit 100 has the same configuration as the remote control unit 200 and refers to the detailed description of FIG. 3 .

6 and 7 show a configuration for the third embodiment of the present invention, in which a plurality of remote units 200, 201, and 202 are connected to the donor unit 100 in a cascade manner. That is, in the remote unit 200, a plurality of remote units 201 and 202 are connected in a cascade manner, and the remote intermediate frequency module 212 is a remote multiplexer 220 for communication with the donor multiplexer 120 and a second remote multiplexer 221 for communication with the second remote unit 201.

The remote intermediate frequency module 212 of each of the remote units 201 and 202 consists of two remote multiplexers 220 (221) to be equally connected in cascade. The donor unit 100 is shown in FIG. It is referred to as having the same composition and action as

8 and 9 are configuration diagrams for a fourth embodiment of the present invention, in order to radially connect a plurality of remote units, the donor unit 100 is directly connected to a base station through a base station interface to the plurality of donor intermediate frequencies The modules 114 to 114c are composed of a main hub unit (MHU) configured in units of slots, and each remote unit 200, 201, and 202 through the donor multiplexer 120 of each slot of the main hub unit (MHU). ) is configured to communicate with each remote multiplexer 220.

At this time, the donor unit 100 and the respective remote units 200 and 202 may be connected in various combinations using an RF coaxial feeder cable or an optical cable.

As described above, although the donor and remote separation type repeater system according to an embodiment of the present invention has been described with a limited embodiment and drawings, it is not limited by this embodiment, and those skilled in the art to which the present invention belongs Of course, various modifications and variations are possible within the scope of the technical spirit of the present invention and the scope of the claims to be described below.

100: donor part 110: donor antenna
111,211: 1st, 2nd amplification / LNA
112,212: first and second down converters
113, 213: first and second upconverters
114: donor intermediate frequency module
115: donor control unit 120: donor multiplexer
200,201,202: remote unit 210: service antenna
214: remote intermediate frequency module 220: remote multiplexer

Claims (6)

In a wireless communication repeater in which a donor unit for communication with a base station and a remote unit for communication with a terminal are separated,
The donor part may include a donor antenna;
a first amplifier and a low noise amplifier for amplifying the signal of the donor antenna;
a first down converter and a first up converter for low frequency conversion of the low noise amplifier and an uplink or downlink signal;
A donor intermediate frequency module for converting the intermediate frequency of signals transmitted and received by the first downconverter and the first upconverter; includes,
The remote unit includes a remote intermediate frequency module for converting an intermediate frequency of a signal transmitted and received from the donor-side intermediate frequency module;
a second up-converter and a second down-converter for low-frequency conversion of the remote intermediate frequency module and an uplink or downlink signal; and
A second amplifier and a low noise amplifier for amplifying the transmission and reception signals of the second upconverter and the second downconverter and the remote antenna; donor and remote separation type repeater system, characterized in that it comprises. According to claim 1,
The donor intermediate frequency module and the remote intermediate frequency module are connected through a coaxial or optical fiber donor and remote separate repeater system. According to claim 2,
The donor intermediate frequency module and the remote intermediate frequency module transmit and receive signals through an RF multiplexer. According to claim 2,
The donor intermediate frequency module is a donor and remote separate repeater system, characterized in that configured in plurality to communicate with a plurality of remote intermediate frequency modules, respectively. According to claim 1,
Connecting the donor unit and a plurality of remote units,
The donor and remote separation type repeater system, characterized in that each remote unit is connected to the donor unit in a radial or cascade form. According to claim 1,
Connecting the donor unit and a plurality of remote units,
The donor and remote separation type repeater system, characterized in that each remote unit connects to the donor unit in a combination of radial and cascade shapes.

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