KR102506039B1 - Repeater capable of avoiding interference and method thereof - Google Patents

Abstract

The present invention relates to an interference avoiding repeater and relay method, and proposes a technique for avoiding interference caused by the adjacent installation of repeaters of other mobile communication companies. The repeater of the TDD method according to the present invention receives an uplink signal or a downlink signal input from a mobile terminal or a base station, and transmits an abnormal signal to the uplink signal or downlink signal in a switching period of the uplink signal or downlink signal. is analyzed at regular time intervals, and the guard time of the uplink or downlink signal is adjusted based on the time interval in which the abnormal signal appears in the uplink or downlink signal.

Description

Interference avoidance repeater and relay method {REPEATER CAPABLE OF AVOIDING INTERFERENCE AND METHOD THEREOF}

The present invention relates to an interference avoiding repeater and method, and more particularly, to a time division duplex (TDD) type repeater and method capable of avoiding interference caused by the adjacent installation of repeaters of other mobile communication companies.

Mobile communication service started with the first generation mobile communication network centered on voice calls, and has been gradually developed to provide high-speed and large-capacity services. The 5th generation mobile communication network, that is, 5G (New Radio; NR) including mmWave in the 26 to 86 GHz band used in the network has been commercialized. Currently, among domestic 5G mobile carriers, SKT covers the 3.6-3.7 GHz and 28.1-28.9 GHz bands, KT covers the 3.5-3.6 GHz and 26.5-27.3 GHz bands, and LGU covers the 3.42-3.5 GHz and 27.3-28.1 GHz bands. The service is provided by assigning a bandwidth of . In addition, 5G commercialized in Korea uses TDD in the 3.5GHz and 28GHz bands.

In the case of 5G, there is an advantage in that it can use a broadband frequency compared to the currently commercialized frequency band, but since it is a high frequency band, the straightness is strong, so the radio wave reach is short and the transmittance is low. For this reason, in order to secure sufficient service coverage, there is a need to build base stations at a higher level than mobile communication networks before 5G.

However, it is difficult to secure sufficient communication service coverage only by building base stations because it is expensive to build all required base stations, and there is a possibility that shadow areas may exist within the service coverage of base stations for various reasons such as geographical environment and communication wave blocking by structures. this existed

As an alternative to this, in order to eliminate shadow areas and expand communication service coverage, repeaters that can install and operate equipment at a low cost compared to base station construction are preferred. Such a repeater relays communication between a base station and a mobile communication terminal, and contributes to expanding the communication area of the base station, that is, service coverage, and improving communication quality.

However, as shown in FIG. 1, as the repeaters installed by each mobile communication company are installed adjacent to each other in many cases, the repeater of a specific mobile communication company causes interference due to the delay deviation of the signal transmitted to the repeater of another company. get to experience

On the other hand, Korea Utility Model Registration No. 20-0175473 (published on January 7, 2000, hereinafter referred to as 'Prior Art 1') is a technique for preventing interference caused by RF signals from other mobile carriers and received RF signals. After detecting the frequency of the company and determining whether the detected frequency is the company's frequency or another company's frequency, a method of extinguishing the RF signal corresponding to the frequency in the case of another company's frequency has been proposed.

However, it was found that interference still exists when adjacent frequency bands are used even when the frequencies of other mobile carriers are filtered or the frequencies of other mobile carriers are canceled as in the prior art 1. Therefore, there is a need to develop a new technology for effectively reducing interference in an environment in which repeaters of other mobile communication companies are installed adjacent to each other.

Korea Utility Model Registration No. 20-0175473

An object of the present invention is to propose a technology capable of effectively and automatically reducing interference in an environment in which a repeater of another mobile communication company is installed adjacent to a repeater.

In order to achieve this object, a repeater operating in a TDD method according to an aspect of the present invention includes: a receiver for receiving an uplink signal or a downlink signal input from a mobile terminal or base station, and switching of the uplink signal or downlink signal An analyzer for analyzing whether or not there is an abnormal signal in the uplink signal or downlink signal at regular time intervals in the interval, and the uplink signal or downlink signal based on the time interval in which the abnormal signal appears in the uplink or downlink signal. A guard time adjustment unit for adjusting the guard time of the downlink signal may be included.

Here, the analyzer may analyze whether there is an abnormal signal by detecting the power of the uplink signal or the downlink signal at regular time intervals.

The guard time adjusting unit may adjust the guard time by adding or subtracting a time period in which an abnormal signal appears to the originally set guard time of the repeater.

The analyzer, when analyzing the uplink signal, analyzes the uplink signal with the downlink power amplifier, the downlink low noise amplifier, and the uplink power amplifier turned off and the uplink low noise amplifier turned on, and when analyzing the downlink signal, the uplink power amplifier The downlink signal can be analyzed with the link power amplifier, uplink low noise amplifier, and downlink power amplifier turned off and the downlink low noise amplifier turned on.

A relay method of a repeater according to another aspect of the present invention includes receiving an uplink signal or a downlink signal input from a mobile terminal or a base station in order to avoid interference caused by signals from other mobile communication service providers, the uplink signal or the downlink signal. Analyzing at regular time intervals whether or not there is an abnormal signal in the uplink signal or the downlink signal in the switching interval of the link signal, and based on the time interval in which the abnormal signal appears in the uplink signal or the downlink signal, the uplink signal or the downlink signal has an abnormal signal. It may include adjusting the guard time of the link signal or the downlink signal.

According to the present invention, there are the following effects.

First, even if a repeater of another mobile communication company is installed adjacent to the repeater, it is possible to automatically and quickly avoid interference caused by a signal of another mobile communication company.

Second, the need to visit the site due to timing errors or interference of repeaters is greatly reduced, contributing to cost reduction.

Third, by being able to automatically adjust the protection time of the repeater, even if the radio wave environment around the repeater changes, it is possible to optimize the protection time accordingly, thereby enabling stable service.

In addition, the present invention may have other effects that a person skilled in the art can predict from the configuration of the present invention.

The various aspects of the present invention can be best understood from the following detailed description when read in conjunction with the accompanying drawings.
1 is a diagram schematically showing a current communication environment in which interference is experienced as repeaters of other mobile communication companies are installed adjacent to each other.
2 is a diagram schematically showing a downlink signal and an uplink signal received by a repeater of a TDD scheme.
FIG. 3A is a diagram illustrating a switching period of an uplink signal interfered with a downlink signal of another mobile operator to show a method of analyzing an abnormal signal when switching an uplink signal according to an embodiment of the present invention.
FIG. 3B is a diagram showing a switching period of a downlink signal interfered with an uplink signal of another mobile operator to show a method of analyzing an abnormal signal when switching a downlink signal according to an embodiment of the present invention.
4 is a diagram schematically showing components of a repeater according to an embodiment of the present invention.
5 is a circuit diagram showing a downlink path for analyzing an abnormal signal when a downlink signal is switched according to an embodiment of the present invention.
6 is a circuit diagram showing an uplink path for analyzing an abnormal signal when an uplink signal is switched according to an embodiment of the present invention.
7 is a flowchart illustrating a relaying method according to an embodiment of the present invention.

An embodiment of the present invention will be described in more detail with reference to the accompanying drawings, but already known technical parts will be omitted or compressed for conciseness of description.

1 schematically shows a current communication environment in which interference is experienced as a repeater of another mobile communication company is installed adjacent to a repeater. The number 100 is a base station operated by the first mobile communication company (our company), and the number 100' is a base station operated by the second mobile communication company (other company). The repeater 200 interworks with the base station 100, and the repeater 200' operates in conjunction with the base station 100'.

The base station (100, 100') supports wireless access to mobile terminals within the coverage it supports, sets a channel to the mobile terminal according to a control protocol such as a radio resource management protocol related to radio resource management, and uses the set channel. A process of transmitting and receiving a radio frame may be controlled. At this time, communication from the base station to the mobile terminal is referred to as downlink communication, and communication from the mobile terminal to the base station is referred to as uplink communication.

The repeaters 200 and 200' are installed to expand communication service coverage as well as eliminate shadow areas where the service of the base stations 100 and 100' does not reach, and transmit radio (RF) signals between the base stations 100 and 100' and mobile terminals. relay

As shown in FIG. 1 , the repeater 200 of the first mobile communication company and the repeater 200' of the second mobile communication company may be installed adjacent to each other. As described above, according to the 5G technology commercialized in Korea, the communication system of the first mobile communication company and the communication system of the second mobile communication company operate in a Time Division Duplex (TDD) method. Here, the 'TDD method' is a method of transmitting in both directions by alternately allocating uplink and downlink in time in the same frequency band. Therefore, the repeater of the TDD scheme uses the same frequency resource separately for transmission and reception according to time.

As shown in FIG. 1, there may be a delay of a certain value between the signal of the first mobile communication company and the signal of the second mobile communication company. As shown in the dotted line in FIG. 1 , when a downlink signal of a second mobile communication company exists in an uplink signal period of a first mobile communication company, serious interference may be induced. This is because the power of the downlink signal is significantly stronger than that of the uplink signal. Conversely, if the uplink signal of the second mobile communication company coexists in the downlink signal period of the first mobile communication company, serious interference may be caused.

The present invention intends to propose a technique for avoiding the above-mentioned interference by automatically adjusting the guard time of the TDD scheme.

Prior to the description of the present invention, the guard time of the TDD scheme will be reviewed. Since the TDD repeater uses the same frequency resource separately for transmission and reception according to time, transmission/reception timing is very important. Using this timing, downlink and uplink paths are turned on/off. At this time, a protection time is required as shown in FIG. 2 due to system delay time and external environmental factors.

2 shows a synchronization signal, a downlink signal and an uplink signal from top to bottom. For convenience, a section in which downlink data set according to a communication standard is transmitted, a flexible section, and a section in which uplink data are transmitted are displayed above the synchronization signal. Here, the flexible period means a period in which neither downlink data nor uplink data is transmitted.

As shown in FIG. 2, a currently used TDD repeater may have, for example, four types of guard time. Here, the four types of guard time are downlink on guard time (GT1), downlink off guard time (GT2), downlink-to-uplink guard time (DL to UL Guard Time; GT3) and uplink-to - Includes downlink guard time (UL to DL Guard Time; GT4). The size of the protection time may vary depending on the installation location of the repeater, and is generally set between 1 and 31 μs. For example, GT1, GT2, GT3 and GT4 may be set to 5 μs.

In the case of a downlink signal, it may be turned on earlier by the guard time GT1 and turned off later by the guard time GT2 than the actual downlink data transmission period. In the case of an uplink signal, it is turned off as early as the guard time (GT3) from the point when the downlink signal is turned on based on the downlink signal on section, and is turned off from the point when the downlink signal is turned on to a point later by the guard time (GT4). can be maintained as For reference, the downlink signal and the uplink signal of FIG. 2 are shown assuming that the repeater operates in active high. If the repeater operates as an active low, the downlink signal and the uplink signal will be inverted and displayed.

FIG. 3A is a diagram illustrating a switching period of an uplink signal interfered with a downlink signal of another mobile operator to show a method of analyzing an abnormal signal when switching an uplink signal according to an embodiment of the present invention. The interfered section corresponds to a portion indicated by a dotted line in FIG. 1 .

According to an embodiment of the present invention, the repeater shifts at a predetermined time interval (eg, 1 μs) from the time when the uplink signal is switched on to a specific time (hereinafter, referred to as a 'switching period') to detect an abnormal signal. analyze whether there is Whether or not there is an abnormal signal may be analyzed by, for example, a power detection method. In FIG. 3A, it is illustrated that an abnormal signal appears up to a 3 μs section.

In order to avoid interference from other mobile communication service providers, the repeater according to an embodiment of the present invention adjusts the guard time (GT4) by adding an interval in which an abnormal signal appears to the existing guard time. For example, according to the example shown in FIG. 3A , when the originally set guard time GT4 is 5 μs, after analyzing the abnormal signal, the guard time GT4 is adjusted to 8 μs.

Such abnormal signal analysis may be performed not only when the uplink signal is switched from off to on, but also when the uplink signal is switched from on to off.

FIG. 3B is a diagram showing a switching period of a downlink signal interfered with an uplink signal of another mobile operator to show a method of analyzing an abnormal signal when switching a downlink signal according to an embodiment of the present invention.

According to an embodiment of the present invention, the repeater shifts from the time when the downlink signal is switched on to a specific time, that is, at a certain time interval (eg, 1 μs) in the switching period, and analyzes whether there is an abnormal signal do. Whether or not there is an abnormal signal may be analyzed by, for example, a power detection method. In FIG. 3B, it is illustrated that an abnormal signal appears up to a 3 μs section.

The repeater according to an embodiment of the present invention adjusts the guard time (GT1) by subtracting an interval in which an abnormal signal appears from the existing guard time in order to avoid interference caused by other mobile communication service providers. For example, according to the example shown in FIG. 3B , when the existing guard time GT1 is 5 μs, after analyzing the abnormal signal, the guard time GT1 is adjusted to 2 μs.

Such an abnormal signal analysis may be performed not only when the downlink signal is switched from off to on, but also when the downlink signal is switched from on to off.

4 is a diagram schematically showing components of a repeater according to an embodiment of the present invention.

The repeater 200 according to an embodiment of the present invention includes a receiver 210 that receives an uplink signal or a downlink signal input from a mobile terminal or base station, and an analyzer 220 that analyzes the uplink or downlink signal. and a guard time adjusting unit 230 that adjusts the guard time of the uplink signal or the downlink signal.

An uplink signal or a downlink signal received by the receiver 210 may include noise or a signal of another mobile operator.

The analyzer 220 may analyze whether there is an abnormal signal in the uplink signal or the downlink signal from the time when the uplink signal or the downlink signal is expected to be switched at regular time intervals, for example, every 1 μs interval. . At this time, the analyzer 220 may analyze whether there is an abnormal signal by detecting the power of the uplink signal or the downlink signal at regular time intervals, for example, at intervals of 1 μs.

The guard time adjusting unit 230 may adjust the guard time of the uplink signal or the downlink signal based on the time interval in which the abnormal signal appears in the uplink signal or the downlink signal. Since abnormal signal analysis is performed at regular time intervals, for example, at intervals of 1 μs, the time period in which the abnormal signal appears is a multiple of the predetermined time interval (eg, 1 μs) (eg, 1 μs, 2 μs, 3 μs, .. .) will be

The guard time adjusting unit 230 may adjust the guard time by adding or subtracting the originally set guard time of the repeater 100 (eg, 5 µs) by a time interval (eg, 3 µs) in which an abnormal signal appears.

By adjusting the guard time in this way, the repeater 100 can avoid interference caused by signals of other mobile communication companies.

5 is a circuit diagram showing a downlink path for analyzing an abnormal signal when a downlink signal is switched according to an embodiment of the present invention, and FIG. 6 is a circuit diagram showing an abnormal signal when an uplink signal is switched according to an embodiment of the present invention. It is a circuit diagram showing the uplink path to analyze .

5 and 6, the repeater 200 receives a downlink signal from the base station 100 or transmits an uplink signal to the base station 100, a donor antenna, and amplifies the received downlink signal. a downlink low noise amplifier (DL LNA) that amplifies the received uplink signal, an uplink low noise amplifier (UL LNA) that amplifies the received uplink signal, a switching unit between the downlink low noise amplifier (DL LNA) and the uplink low noise amplifier (UL LNA), and receiving ADC (Analog-to-Digital Converter) converts the converted analog signal into a digital signal, a processing unit (not shown) analyzes and processes the digital signal, and a DAC (Digital-to-Analog Converter) converts the digital signal into an analog signal to be transmitted. ), an uplink power amplifier (UL PA) for amplifying an uplink signal to be transmitted, a downlink power amplifier (DL PA) for amplifying a downlink signal to be transmitted, an uplink power amplifier (UL PA) and a downlink power amplifier ( It includes a switching unit between DL PAs, and a service antenna (Service Ant) that transmits a downlink signal to a mobile terminal or receives an uplink signal from a mobile terminal.

As shown in FIG. 5, when analyzing a downlink signal, an uplink power amplifier (UL PA) and an uplink low noise amplifier (UL LNA) are turned off. At this time, the repeater turns off the power amplifier (DL PA) of the downlink transmission path so that the input signal does not radiate, and turns on only the low noise amplifier (DL LNA) of the downlink reception path. Then, the signal input to ADC (Analog-to-Digital Converter) is analyzed in a certain time unit (eg, 1 ㎲ unit) after switching of the downlink signal, and the guard time is adjusted to an optimal time to avoid interference. After the guard time is adjusted, the power amplifier (DL PA) of the downlink transmission path is turned on again, so that both the power amplifier (DL PA) and the low noise amplifier (DL LNA) of the downlink path are turned on.

Reference is now made to FIG. 6 with respect to uplink signal analysis.

As shown in FIG. 6, when analyzing an uplink signal, the downlink power amplifier (DL PA) and the downlink low noise amplifier (DL LNA) are turned off. At this time, the repeater turns off the power amplifier (UL PA) of the uplink transmission path and turns on only the low noise amplifier (UL LNA) of the uplink reception path so that the input signal does not radiate. Then, the signal input to ADC (Analog-to-Digital Converter) is analyzed in a certain time unit (eg, 1 μs unit) after switching of the uplink signal, and the guard time is adjusted to an optimal time to avoid interference. After the guard time is adjusted, the power amplifier (UL PA) of the downlink transmission path is turned on again, so that both the power amplifier (UL PA) and the low noise amplifier (UL LNA) of the uplink path are turned on.

7 is a flowchart illustrating a relaying method according to an embodiment of the present invention.

A relay method according to an embodiment of the present invention includes receiving an uplink signal or a downlink signal input from a mobile terminal or a base station (S100), the uplink signal or downlink signal in a switching period of the uplink signal or downlink signal Analyzing at regular time intervals whether or not there is an abnormal signal in the link signal (S200), the protection time of the uplink or downlink signal is determined based on the time interval in which the abnormal signal appears in the uplink or downlink signal. An adjustment step (S300) may be included.

As described above, the detailed description of the present invention has been made by the embodiments with reference to the accompanying drawings, but the present invention is not limited only to the above embodiments, and the scope of the present invention is defined by the claims to be described later. , can include any modifications or variations falling within the scope of the claims.

100: base station of the first mobile communication company
100': base station of the second mobile communication company
200: repeater of the first mobile communication company
210: receiver
220: analysis unit
230: protection time adjustment unit
200': Repeater of the second mobile communication company

Claims (5)

As a repeater operating in the TDD method,
a receiver for receiving an uplink signal or a downlink signal input from a mobile terminal or base station;
When the uplink signal or the downlink signal is switched from on to off or from off to on, whether or not there is an abnormal signal in the uplink or downlink signal is checked for a predetermined time in the switching period of the uplink or downlink signal. an analysis unit that analyzes data at intervals;
Guard time for adjusting the guard time of the uplink signal or downlink signal based on the time period in which the abnormal signal appears in the uplink signal or downlink signal in order to avoid interference caused by the signal of another mobile operator. coordination department
containing
repeater. According to claim 1,
The analysis unit analyzes whether there is an abnormal signal by detecting the power of the uplink signal or the downlink signal at regular time intervals.
repeater. According to claim 1,
The protection time adjustment unit adjusts the protection time by adding or subtracting the originally set protection time of the repeater by the time interval in which the abnormal signal appears.
repeater. According to claim 1,
The analysis unit,
When analyzing the uplink signal, the downlink power amplifier, downlink low noise amplifier, and uplink power amplifier are turned off and the uplink signal is analyzed with the uplink low noise amplifier turned on,
When analyzing a downlink signal, the uplink power amplifier, uplink low noise amplifier, and downlink power amplifier are turned off and the downlink signal is analyzed with the downlink low noise amplifier turned on.
repeater. As a relay method of a repeater,
Receiving an uplink signal or a downlink signal input from a mobile terminal or base station;
When the uplink signal or the downlink signal is switched from on to off or from off to on, whether or not there is an abnormal signal in the uplink or downlink signal is checked for a predetermined time in the switching period of the uplink or downlink signal. analyzing every interval; and
Adjusting a guard time of the uplink signal or downlink signal based on a time interval in which an abnormal signal appears in the uplink signal or downlink signal in order to avoid interference caused by another mobile communication company signal
containing
relay method.

Images