KR20060111311A - Method for preventing self-oscilation in rf signal relay system and system therefor - Google Patents

Abstract

A method and a system for preventing self-oscillation in an RF signal repeater system are provided to solve a problem of self-oscillation of repeaters caused by failing to obtain a sufficient isolation between repeaters. The region and range of a transmission/reception mask window are set. A signal before being modulation is detected from a signal received through an antenna. It is checked whether the detected signal is out of a predetermined value by using the transmission/reception mask window. When the detected signal is not within the predetermined value, an attenuation value of a variable attenuator of a repeater is increased. It is checked whether the attenuation value exceeds a certain maximum value. When the attenuation value exceeds the maximum value, a signal before being modulated is detected from a signal received through the antenna in a state that outputting of signals through the repeater is stopped, and then it is checked whether the detected signal is not within the predetermined threshold value. If the detected signal is within the predetermined threshold value, an alarm signal indicating that self-oscillation has been generated is outputted.

Description

Method for preventing self-oscillation in RF signal relay system and system therefor {Method for preventing self-oscilation in RF signal relay system and system therefor}

1 is a view showing an example of a conventional repeater system

Figure 2 shows an example of a repeater system with a self-oscillation prevention system of the present invention

3 is a flow chart illustrating a method of the present invention.

4 is a diagram showing an example of setting a window mask of the present invention;

5 is a view showing a signal monitoring means of the present invention

FIG. 6 is a diagram illustrating a screen indicating when an oscillation occurs in the present invention. FIG.

The present invention relates to a system and method for preventing magnetic oscillation in an RF signal repeater system.

In the system of wideband orthogonal frequency division multiplexing time division duplexing (Wibro OFDM TDD), the reception and transmission frequency uses the same frequency. Ensuring sufficient isolation is essential to minimize.

1 illustrates a repeater system for relaying a conventional terminal and a base station.

In FIG. 1, the link antenna 101 is an antenna for transmitting and receiving signals between the base station and the repeater, and the service antenna 102 is an antenna for transmitting and receiving signals between the terminal and the repeater.

When a signal from the base station is received through the link antenna 101, a signal of the corresponding frequency band is extracted through the band pass filter 103, and the extracted signal is up-converted through the switch 104 (106). After input to the down-converted to the intermediate frequency (IF) signal, the signal of the desired band is extracted through filtering and then modulated by the up-converting again and then amplified by the amplifier 107 and the band pass through the switch 108 The filter 109 and the service antenna 102 are transmitted to the terminal.

The process of relaying the signal from the terminal to the base station proceeds to the reverse of the above process.

At this time, when the feedback output from the service antenna 102 is received by the link antenna 101 again and a feedback phenomenon occurs, the oscillation of the signal is generated and the strength of the signal becomes stronger, resulting in deterioration of the system. do.

The oscillation prevention system of the repeater is a method of preventing oscillation by controlling the phase of the repeater input / output antenna signal appropriately and always in quadrature after receiving the RF signal from the base station without any frequency conversion.

This method secures about 50 ~ 60dB of isolation by phase control in narrowband system such as paging system or analog system, and then additionally secures 50 ~ 60dB by arranging input and output antennas. It is installed by securing antenna isolation.

However, the system with a wider bandwidth is difficult to implement relative to the phase control, so more antenna isolation is required by the antenna arrangement.

Therefore, when installing a repeater, it will be installed considering the isolation between donor antenna and service antenna.However, when sufficient isolation is not obtained due to environmental factors during operation, not only the repeater but also the RAS (Remote Access Server) of the link cell. ), It also adversely affects the need for countermeasures against self-oscillation due to lack of isolation.

In order to solve the above problems, an object of the present invention is to provide a method and system for detecting and minimizing magnetic oscillation in a repeater.

According to an aspect of the present invention, there is provided a method for preventing self oscillation in an RF signal repeater system, the method comprising: (a) setting an area and a range of a transmission / reception mask window; (b) detecting a signal before modulation from a signal received through the antenna; (c) checking whether the detected signal deviates from a predetermined threshold using the transmission / reception mask window; (d) increasing the attenuation value of the variable attenuator of the repeater when the detected signal is out of a predetermined threshold; (e) determining whether the attenuation value exceeds a predetermined maximum value; (f) If the attenuation value exceeds the maximum value, the signal before modulation is detected from the signal received through the antenna in a state in which the output of the signal output through the repeater is stopped, and the detected signal is determined. Checking whether it is outside of a threshold; and (g) outputting a warning signal indicating that self-oscillation has occurred when the detected signal does not deviate from the predetermined threshold in step (f). to provide.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 shows an example in which the self-oscillation prevention system 200 of the present invention is added to the repeater system.

The linear amplifier 201 and the variable attenuator 202 are provided inside the up-down converter unit 106, and the self-oscillation prevention system of the present invention controls the variable attenuator 202 inside the up-down converter unit 106. .

A detailed method will be described with reference to FIG. 3. 3 is a flow chart illustrating a method of the present invention.

First, an area and a range of a transmission / reception mask window are set and stored in the memory 330 (operation 301). It is preferable that the area and the range of the mask window are determined according to the standards or the like suggested by each communication service provider.

That is, since the standards of the main signal frequency band, the threshold of the signal strength in the band, the noise area, and the threshold of the signal strength in the area are determined for each communication service provider, the standard is masked according to the input data. It is preferable to program the area and range of the window to be set.

4 illustrates an example in which such a mask area is set, in which the horizontal axis represents frequency and the vertical axis represents signal strength. The mask windows 401 and 403 represent a noise area, and the mask window 402 represents a main signal area.

The area and range of the transmission / reception mask window configured as described above are monitored by the signal being loaded and transmitted to the system (302).

The signal transmitted and received through the link antenna 101 is sampled and monitored in the normal mode (303).

5 shows a monitoring means for monitoring a signal being transmitted and received.

In FIG. 5, the first input terminal 501 and the second input terminal 502 are used to receive signals input and output through the link antenna 101.

The configuration of FIG. 5 will be described, for example, when a signal is input through the link antenna 101.

When a signal is input through the link antenna 101, the signal input to the repeater is also input to the monitoring means through the first input terminal 501, and the signal input to the monitoring means is swept through the switch 503 ( Sweep) The signal oscillated in the local oscillator 505 and mixed in the mixer 504 to extract the original signal, sampled again through a resolution filter 506, and the strength of the signal through the log amplifier 507 It is a log scale signal that can be easily compared and then digitized through an AD converter so that the user can see the shape of the signal.

It is determined whether the range AR of the signal in the corresponding frequency domain of the sampled signal is larger than the range SR of the signal determined in the frequency domain (304).

If the range of the input signal is larger than the range of the predetermined signal, it is determined that self oscillation is likely to occur.

In this case, the resolution is subdivided so that the input signal can be monitored in more detail, and the area is switched to the centralized monitoring mode and monitored again (305). FIG. 6 illustrates an example of outputting a detailed comparison of the input signal to the screen 610 through the centralized monitoring mode when the intensity of the signal in the predetermined mask window 601 is greater than the predetermined range.

When operating in the centralized monitoring mode, it is possible to compare the difference between the range of the input signal and the range of the predetermined signal more accurately, and thus it is preferable to determine whether the self-oscillation more accurately.

The method of determining whether the range AR of the input signal is larger than the range SR of the predetermined signal is simply an area in which the input signal AR is larger than the range SR of the predetermined signal within the window mask area. If there is a part, it may be determined that the range AR of the input signal is larger than the range SR of the predetermined signal, but the value of the sampled input signal in the window mask and the threshold value indicating the range of the predetermined signal are determined. It may be determined based on whether the value obtained by adding the difference is larger than a predetermined reference value. In addition, the method of determining whether the range AR of the input signal is larger than the range SR of the predetermined signal may be arbitrarily set by the system designer.

When it is determined that the range AR of the input signal is larger than the range SR of the predetermined signal even when monitoring in the concentrated monitoring mode (307), the attenuation value (AV) of the variable attenuator 202 is attenuated at present. Increase it above the value. In other words, by increasing the attenuation value of the variable attenuator, the system gain is reduced to reduce the strength of the signal output to the service antenna 102 to remove or minimize self oscillation (307).

If the attenuation value AV set above does not exceed the maximum value (30 dB), the process is repeated again. However, if the attenuation value exceeds the maximum value, the attenuation value AV is output through the service antenna 102. The output amplifier which amplifies the signal is stopped to block the transmission output (309).

In operation 311, the RF signal received in the normal mode is sampled 310 to determine whether the range AR of the input signal is greater than the predetermined range SR.

If the range AR of the input signal is not larger than the range SR of the predetermined signal, it is proved that the result determined in the step 304 or the step 306 is due to self oscillation, so that the self oscillation has occurred. The signal is output (312).

If the range AR of the input signal is larger than the range SR of the predetermined signal even though the output amplifier is not operated to prevent the signal from being output through the service antenna 102, step 304 or step 306 The result judged in () means that it is not caused by self-oscillation, and it is most likely due to an internal problem of the system or an error of a threshold for setting a window mask. Output the oscillation warning signal (322), reset the range (SR), standard gain (SDG), etc. of the signal determined by the system diagnostic program or administrator's reset (323). In addition, the system loads the data into the system 302 and monitors signals transmitted and received through the link antenna 101.

In the above, only the method of monitoring a signal transmitted and received through the link antenna 101 has been described, but the present invention can be equally applied to a signal transmitted and received through the service antenna 102.

The method of the present invention can also be embodied as computer readable code on a computer readable recording medium. The computer-readable recording medium includes all kinds of recording devices in which data that can be read by a computer system is stored. Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage, and the like, and may also be implemented in the form of a carrier wave (for example, transmission over the Internet). Include. The computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion.

According to the present invention, there is an advantage of detecting self oscillation in a repeater and minimizing self oscillation.

Claims (1)

In the method for preventing self-oscillation in the repeater, (a) setting an area and a range of a transmission / reception mask window; (b) detecting a signal before modulation from a signal received through the antenna; (c) checking whether the detected signal deviates from a predetermined threshold using the transmission / reception mask window; (d) increasing the attenuation value of the variable attenuator of the repeater when the detected signal is out of a predetermined threshold; (e) determining whether the attenuation value exceeds a predetermined maximum value; (f) If the attenuation value exceeds the maximum value, the signal before modulation is detected from the signal received through the antenna in a state in which the output of the signal output through the repeater is stopped, and the detected signal is determined. Checking whether it is outside of a threshold; and (g) outputting a warning signal indicating that self-oscillation has occurred when the detected signal in step (f) does not deviate from the predetermined threshold value.

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