KR100355773B1 - Apparatus for diagnosing oscillation state of wireless repeater - Google Patents

Abstract

The present invention relates to a circuit for detecting an abnormal oscillation of a repeater in a wireless communication system. In the related art, an abnormal oscillation of a repeater cannot be accurately detected. A signal extracting unit detecting a signal; A signal power measuring unit measuring power of the signal extracted by the signal extracting unit; A circuit matching comparison unit comparing the output voltage of the signal power measuring unit with a predetermined reference voltage; By providing a digital logic unit for determining whether abnormal oscillation is performed by combining a predetermined number of result values continuously output from the circuit matching comparison unit, an abnormal oscillation of the repeater can be detected simply and accurately.

Description

Anomaly Oscillation Detection Device of Repeater in Wireless Communication System {APPARATUS FOR DIAGNOSING OSCILLATION STATE OF WIRELESS REPEATER}

The present invention relates to a wireless communication system, and more particularly, to an apparatus for detecting an abnormal oscillation of a repeater in a wireless communication system.

The wireless communication repeater used in the wireless communication is configured to support a bidirectional link, that is, a forward link and a reverse link. The forward link is for receiving a signal from the home station and transmitting the signal of the home station to a shaded area where the signal of the home station is not reached, and the reverse link is for receiving a signal provided from the wireless terminal and transmitting it to the home station. As described above, since the forward link and the reverse link exist simultaneously in the wireless communication repeater, signals between the links may mutually influence and oscillate if proper isolation between the links is not guaranteed. That is, as shown in FIG. 1, the repeater includes a first passage 30 for transmitting a signal from the base station to the mother station through the duplexes 10 and 20 and a second passage 40 for providing a signal from the mother station to the base station. ) And the first passageway 30 and the second passageway 40 must be properly isolated. That is, when the first passage 30 and the second passage 40 are not isolated and the signal of the first passage 30 flows into the second passage 40 or the opposite phenomenon occurs, Oscillation occurs due to mutual influence. For example, when the oscillation does not occur, when the normal waveform of the signal at the contact point (a) is the same as in Fig. 2a, if the oscillation occurs, the signal waveform is distorted as shown in Figs. And the power is greatly increased. For example, the power of FIG. 3C increased compared to FIG. 2A means noise, that is, noise power due to oscillation. In FIG. 2, reference numerals 50 and 51 denote filters, and reference numerals 60, 61, 62 and 63 denote amplifiers. The oscillation of the repeater may be caused by changing the propagation path between the mother country and the relay period or changing other conditions according to the relocation and establishment of the mother country.

On the other hand, when this oscillation occurs, since the signal from the terminal acts as a noise, the call cannot be set up normally between the repeater and the terminal, and in this case, an increase in the load on the mother station and the neighboring base station may occur. In addition, in the case of the reverse link, the noise level of the mother station may be increased by an increase in the noise level due to the oscillation, which may adversely affect the capacity or quality of the region in the cell served by the mother station.

Conventionally, in order to solve this problem, a separate automatic output blocking circuit is configured. The conventional automatic output cutoff circuit uses an absolute level of noise due to oscillation, and thus, an abnormal oscillation can be detected only when the noise level due to oscillation is extremely high as shown in FIG. 2C and above a predetermined reference value. As described above, there was a problem that the oscillation could not be detected in the case where the oscillation was lower than the reference value or the oscillation continued. That is, conventionally, the repeater is abnormal, but there is a problem that it is impossible to detect an oscillation phenomenon in which the noise level is not extremely high.

SUMMARY OF THE INVENTION The present invention has been made to solve such a problem, and an object of the present invention is to provide an apparatus for detecting abnormal oscillation of a repeater in a wireless communication system capable of accurately detecting whether an oscillation phenomenon has occurred in a repeater.

In order to achieve the above object, the present invention provides a circuit for detecting abnormal oscillation of a repeater in a wireless communication system, comprising: a signal extraction unit connected to a reverse link of a repeater and detecting a signal of a predetermined channel in the reverse link; A signal power measuring unit measuring power of the signal extracted by the signal extracting unit; A circuit matching comparison unit comparing the output voltage of the signal power measuring unit with a predetermined reference voltage; And a digital logic unit configured to determine whether the oscillation is abnormal by combining a predetermined number of result values continuously output from the circuit matching comparison unit.

1 is a state diagram of the forward and reverse links configured in a conventional repeater,

2 is a waveform diagram of a signal generated in a conventional repeater,

3 is a block diagram of an abnormal oscillation detection apparatus of a repeater in a wireless communication system according to the present invention;

4 is a state diagram of a signal for explaining the operation of the abnormal oscillation detection apparatus of the repeater in the wireless communication system according to the present invention.

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

100: repeater 200: signal extraction unit

210: power amplifier 220: band pass filter

230: mixer 240: reference frequency signal generator

300: signal power detector 310: power amplifier

320: log amplifier 400: circuit matching comparison unit

410: comparator 500: digital logic unit

510: shift register 520: logic section

600: display unit

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention;

3 is a block diagram of an apparatus for detecting an abnormal oscillation of a repeater according to the present invention, and the apparatus of the present invention is connected to the reverse link end of the repeater 100 as shown. The apparatus of the present invention includes a signal extractor 200, a signal power detector 300, a circuit match comparison unit 400, a digital logic unit 500, and a display unit 600.

The signal extractor 200 separates a signal of the reverse link in the repeater 100 as illustrated to separate one or a predetermined number of channels from among a plurality of channel signals included in the reverse link of the repeater 100. The power amplifier 210 outputs power amplification. The signal from the power amplifier 210 is filtered through the band pass filter 220 so that only signals of a predetermined bandwidth (ie, in-band signals transmitted over the reverse link) are provided to the mixer 230. The other end of the mixer 230 is connected to the reference frequency signal generator 240, and the mixer 230 uses the oscillation frequency of the reference frequency signal generator 240 to control the signal provided from the band pass filter 220. Transmit the band. Thus, the reason for shifting the signal band of the band pass filter 220 will be described in detail later. The signal of the mixer 230 is provided to the SAW filter 250, and the SAW filter 250 filters and outputs only a predetermined band signal, that is, a signal of a predetermined channel, from an input signal of a predetermined band. Here, the reason why the mixing section 230 is configured is to use a commercial SAW filter. That is, since the filtering band is not set as the band of the channel required for the present invention, the commercial SAW filter is for shifting the signal band of the band pass filter 220 to the frequency band suitable for the commercial SAW filter. Therefore, when the commercial SAW filter is not used, that is, when the SAW filter is manufactured to extract only a signal of a desired channel band in the present invention, the reference frequency signal generator 240 and the mixing unit 230 may not be configured. It will be apparent to those skilled in the art that the present invention may be readily known.

Meanwhile, a signal of a predetermined channel filtered through the signal extractor 200 is provided to the signal power detector 300. The signal power detector 300 is for converting the power level of the signal of the signal extractor 200 into a voltage level, for example. As shown, the power amplifier 310 amplifies the signal of the signal extractor 200 appropriately. The log amplifier 320 converts the power signal to a voltage level.

The voltage from the signal power detector 300 is provided to the circuit match comparator 400, and the circuit match comparator 400 is for determining whether the voltage from the signal power detector 300 is greater than or equal to a predetermined reference voltage. . That is, the circuit match comparator 400 is configured as a comparator 410 as shown, and a reference voltage is provided to one terminal of the comparator 410. Meanwhile, the reference voltage provided to one terminal of the comparator 410 may be configured to have a fixed level, but preferably an automatic gain control circuit or an automatic loop configured in the repeater. control circuit). That is, in the repeater, an automatic gain control circuit for measuring the signal input level of the forward link flowing into the repeater and adjusting the gain values of the forward and reverse link circuits of the repeater, and the forward direction so that the adjusted gain value is not set above a specific value. And an automatic loop circuit for limiting the output value of the reverse direction, the reference value provided to the comparator 410 should be set to a value that varies in response to the adjusted gain value. You will be able to judge exactly.

The result value of the circuit matching comparison unit 400, that is, the value of logic 0 or 1, is provided to the digital logic unit 500, and the digital logic unit 500 monitors the oscillation using the continuity of the logic values. The result of the circuit matching unit 400 has a discrete continuous value through a clock signal generator (not shown). On the other hand, the noise inside the repeater can be classified into two types. One is interference noise generated by mutual influence of signals of terminals when the number of communication terminals is increased in communication between the terminal and the relay period, and the signal level is increased by such interference noise. The other noise is oscillation noise which is the object of the present invention. Here, assuming that the reference value set in the comparator 410 maintains a constant value as shown in FIG. 4, the variation in signal level due to interference noises varies its probability of occurrence according to the generated noise level. It can be seen that the oscillation noise is generated only at a level higher than the reference value. Therefore, when the signal level is always lower than the reference value, it can be determined that oscillation noise has occurred in the circuit, whereas when the signal level is greater than or less than the reference value, it is determined by interference noise. can do. Here, the test should be set to determine that oscillation noise occurs when the reference value is continuously higher than the signal level for some time.

As described above, the present invention compares the signal from the signal power detector 300 with the reference value and determines that oscillation has occurred when the value of the signal power detector 300 is continuously greater than the reference value. Therefore, the digital logic unit 500 should be configured to determine the result using the result value of the circuit matching comparison unit 400, that is, the logic value. That is, the digital logic unit 500 determines that the oscillation has occurred when the output value of the circuit matching comparison unit 400, that is, the predetermined number of logic values are stored consecutively and the logic value has a value of 1 in a predetermined number or more consecutively. To this end, a logic register 520 having a logic for determining the result by combining the shift register (for sequentially storing the logic value) 510 and the value of the shift register 510 must be configured for this purpose. something to do.

The result determined by the digital logic unit 500, that is, the information on whether the oscillation may be used as follows. First, a separate display unit 600 is connected to the digital logic unit 500, and the display unit 600 can be configured to display when the repeater is abnormally transmitted, so that the operator of the repeater can easily check whether the oscillation is started. In addition, it can be easily understood by those skilled in the art that the repeater may be configured to stop or limit the output of a signal when oscillation occurs as a result of the determination of the digital logic unit 500. will be.

As described above, since the present invention can detect the oscillation phenomenon whose power level is not extremely high, it is possible to easily determine the oscillation and abnormality of the repeater.

Claims (8)

In a circuit for detecting an abnormal oscillation of a repeater in a wireless communication system, A signal extraction unit connected to the reverse link of the repeater and detecting a signal of a predetermined channel in the reverse link; A signal power detector for converting the power of the signal extracted by the signal extractor into a voltage; A circuit matching comparison unit comparing the output voltage of the signal power detection unit with a predetermined reference voltage; And a digital logic unit configured to determine whether abnormal oscillation is performed by combining a predetermined number of result values continuously output from the circuit matching comparison unit. The method of claim 1, And a display unit further connected to the digital logic unit, wherein the display unit is configured to display whether or not an oscillation is generated under the control of the digital logic unit. The signal extractor of claim 1 or 2, A first power amplifier for amplifying the reverse link signal; A band pass filter for filtering only signals of a predetermined band among the signals of the power amplifier; And an SAW filter for filtering and outputting only signals of a predetermined channel band from the signal from the band pass filter. The method of claim 3, wherein the signal extraction unit, A reference frequency signal generator for oscillating a signal of a predetermined frequency; And a mixing unit for shifting the band of the band pass filter signal using the oscillation signal of the reference frequency signal generator. The method of claim 3, wherein the signal power detector, A second power amplifier for amplifying the signal of the signal extraction unit; An abnormal oscillation detection circuit of a repeater in a wireless communication system, comprising a log amplifier converting an output of the second power amplifier into a voltage. The method of claim 5, The circuit matching comparison unit includes an abnormal oscillation detection circuit of a repeater in a wireless communication system including a comparator for comparing the signal power detection unit with the reference voltage. The method of claim 6, And the reference voltage is set to a voltage corresponding to a voltage for adjusting a gain of the signal in the repeater. The method of claim 6, And the digital logic unit comprises a shift register for sequentially storing the output of the circuit matching comparison unit and a logic unit for combining the output of the shift register.