KR20020069572A - Wireless repeater having wide range of gain adjustment margin - Google Patents

Abstract

PURPOSE: A wireless repeater having a wide gain control margin is provided to improve gain control margin and to maintain stable call quality by dividing an input signal into more than a frequency component and amplifying and processing them separately. CONSTITUTION: A wireless repeater basically comprises the first antenna(100), the first duplexer(200), the first BPF(Band Pass Filter)(300), the first variable gain amplification part(400), the second duplexer(600), the second antenna(700), the second BPF(800), and the second variable gain amplification part(900). In addition, the wireless repeater comprises a signal separation and amplification part(10), a signal combination part(20), and a conversion part(30). The first BPF(300) extracts a signal having a preappointed frequency band from an input signal. The signal separation and amplification part(10) splits the extracted signal into more than one signal having different transfer paths, converts the split signals respectively into signals having the preappointed frequency band and another frequency band, and amplifies them. The signal combination part(20) combines the output signals of the signal separation and amplification part(10) so that they have an identical transfer path. The first variable gain amplification part(400) takes the output signal of the signal combination part(20) as its input signal, amplifies the input signal, and maintains its output regularly by reducing the gain in case that the input signal is excessive. The conversion part(30) converts a signal having a frequency other than the preappointed frequency band into a signal having the preappointed frequency band.

Description

WIRELESS REPEATER HAVING WIDE RANGE OF GAIN ADJUSTMENT MARGIN}

The present invention relates to a wireless repeater having a wide gain adjustment margin, and more particularly, in a wireless repeater having a gain adjusting circuit for preventing oscillation of the repeater by antenna feedback, the input is separated into one or more frequency components. By separately amplifying and processing, the margin of gain adjustment is improved to provide a wireless repeater for maintaining stable call quality even with a change in input.

In the wireless communication field, CDMA (Code Division Multiplexing) technology and the revolutionary development of digital technology have made the fields of cellular and PCS technologies such as domestic and overseas large companies, data communication, wireless subscriber network (WLL) and frequency common communication ( TRS (TRS), etc. has emerged and the airfield is at a stage where IMT-2000 project using satellite, called next generation mobile communication, is being promoted.

The current general mobile communication system divides an area for communication service into a cell, which is a partial unit divided into predetermined sections, and installs a base station covering each cell to exchange signals with each user terminal. However, in the case of the urban area, the area where the line of sight between the installed base station and the terminal is blocked has a problem that it is difficult to receive a transmission and reception signal, resulting in a shaded area of radio waves. In order to solve this problem, it is necessary to install more expensive base stations, which means an increase in costs for communication operators, and thus, a wireless repeater having a lower installation cost is generally used.

The block diagram of the general wireless repeater is shown in FIG.

As shown in FIG. 1, a general wireless repeater includes a first antenna 100, a first duplexer 200, a first band pass filter unit 300, a first variable gain amplifier 400, and a second duplexer 600. ), A second antenna 700, a second band pass filter 800, and a second variable gain amplifier 900. The above configuration shows a block configuration centering on the function of each component, and the first band pass filter unit 300 and the second band pass filter unit 800 respectively transmit only signals of a predetermined bandwidth to be forwarded and reversed, respectively. In order to selectively pass, the first variable gain amplifier 400 and the second variable gain amplifier 900 amplify the signals in the forward and reverse directions, respectively, to prevent the output signal from being excessively large due to excessive input signals. When the input signal reaches a certain level, the gain of the amplifier is attenuated to keep the output constant.

The variable gain amplifiers 400 and 900 may be modified in various ways, but may be generally implemented by a combination of the variable gain amplifier 420, the detector 440, and the comparator 460. The variable gain amplifier 420 may generally be implemented as a combination of an amplifier circuit consisting of one or more stages and a variable attenuator. The magnitude of the output signal is sensed by the detector 440 so that a signal proportional to the magnitude of the output signal is output from the detector 440, and is input to the comparator 460 to be compared with a predetermined reference signal Vref to provide a predetermined reference. The signal for controlling the gain is output to the variable gain amplifier 420 according to the difference from the signal.

The problem with the general wireless repeater is that there is a possibility that oscillation occurs as the output signal of the repeater is fed back to the input and subjected to the amplification process again. To avoid such oscillation, the gain of the repeater itself is gained. ), There is a problem that the output can not be increased, so deterioration of the call quality cannot be avoided.

In more detail, the oscillation phenomenon of the repeater occurs when the gain of the repeater is larger than the isolation coefficient between input and output. Here, the separation coefficient is a coefficient indicating the amount of return to the input during output, for example, 20 dB when the radiated power of 1/100 of the output returns to the input. At this time, if the gain of the repeater is greater than 20 dB, the oscillation phenomenon of the input output signal is re-amplified again. Therefore, the gain should not be higher than the separation coefficient. Thus, the separation coefficient may increase the gain of the repeater. Act as a limiting factor.

In addition, the oscillation phenomenon includes a forward oscillation phenomenon from the base station to the terminal direction and a reverse oscillation phenomenon from the terminal to the base station direction. In particular, the reverse oscillation phenomenon may be a serious problem because it may affect the base station. When oscillation occurs and the signal sent from the specific repeater to the base station becomes large, the gain must be increased to raise the output signal of another repeater to match the level of the same signal. If higher, another oscillation may occur at the repeater, causing the entire operation of the wireless communication system to be paralyzed or the repeater may fail.

As shown in FIG. 2, if the size of the repeater's input is increased by a certain amount or more due to antenna feedback or the like that may cause the oscillation phenomenon, the output is no longer increased, which prevents the oscillation phenomenon and the repeater itself. It is to protect. At this time, the change in gain according to the input is shown in the lower part of FIG. 2, but the gain is constant to some extent and then decreases when the input becomes more than a certain degree.

The input level when the input is very large is shown in the form of a bar in FIG. In this case, since the output is limited to a certain level, when the size of the input is increased by the antenna feedback, the gain of the output signal with respect to the input signal is reduced, so that deterioration of the call quality cannot be avoided.

SUMMARY OF THE INVENTION The present invention has been made to solve such a problem, and in a wireless repeater having a gain adjusting circuit for preventing oscillation of the repeater due to antenna feedback, the gain is adjusted by separating the input into one or more frequency components and separately amplifying and processing the inputs. It is to provide a wireless repeater having a wide gain adjustment margin to improve the margin of the to maintain a stable call quality even with input changes.

1 is a block diagram showing the configuration of a general wireless repeater.

Figure 2 shows the change in the size and gain of the output signal according to the size of the input signal in a typical wireless repeater.

3 shows the configuration of a preferred embodiment of the wireless repeater of the present invention.

Figure 4 shows the variation of the magnitude and gain of the output signal with the magnitude of the input signal in one preferred embodiment of the wireless repeater of the present invention.

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

100: first antenna 200: first duplexer

300: first band pass filter 10: signal separation and amplifier

20: signal synthesizer 400: first variable gain amplifier

30: converter 600: second duplexer

700: second antenna 800: second band pass filter

900: second variable gain amplifier

In order to achieve the above object, a wireless repeater having a wide gain adjustment margin according to an aspect of the present invention, a band pass filter for extracting a signal of a predetermined frequency band from the input signal; A signal extracted by the band pass filter unit is input, and the input signal is divided into one or more signals having different transmission paths, and one or more signals of the separated signals are different from the predetermined frequency band. A signal separation and amplifying unit converting and amplifying the signal into a band; A signal synthesizing unit configured to input output signals of the separation and amplifying unit and synthesize the output signals to have the same transmission path; A variable gain amplifier configured to input an output signal of the signal synthesizer, amplify the input signal, and reduce the gain to maintain a constant output when the input signal is excessive; And a converter configured to input an output signal of the variable gain amplifier and convert a signal having a frequency other than the predetermined frequency band into a signal of the predetermined frequency band.

Preferably, the signal separation and amplification unit of the wireless repeater having a wide gain adjustment margin of the present invention, a signal separation unit for inputting the output signal of the band pass filter unit, and separating into one or more signals having the same frequency band; One or more local oscillators each outputting a signal of a predetermined frequency; A mixer configured to input any one of the output signals of the signal separator, and convert the input signal into a signal having a different frequency by coupling an output signal of the local oscillator; And an amplifier which takes an output signal of the mixer as an input and amplifies the input by a predetermined gain.

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

3 shows the configuration of a preferred embodiment of the wireless repeater of the present invention. As shown in FIG. 3, the wireless repeater of the present embodiment includes a first antenna 100, a first duplexer 200, a first band pass filter 300, a signal separation and amplification unit 10, and a signal synthesis unit 20. , The first variable gain amplifier 400, the converter 30, the second duplexer 600, the second antenna 700, the second band pass filter 800, and the second variable gain amplifier 900. It includes. The wireless repeater has a signal path of forward or reverse direction, but in FIG. 3, only one of them is shown and the other is omitted. Unlike the prior art, the present invention further includes a signal separation and amplifying unit 10, a signal synthesizing unit 20, and a converting unit 30 as components, which may be included in both the forward and reverse directions, and one of them. Of course, it can also be configured to include only.

The signal input to the first antenna 100 passes only signals of a transmission / reception band predetermined by the first band pass filter unit 300 through the first duplexer 200, and the signals passed through are separated and amplified. Passed to the unit 10 is separated into one or more signals having the same frequency (f ₁ ) in the signal separation unit 12. In the present embodiment, an example in which two signals are separated is shown. However, a configuration in which more signal paths are formed and separated into several signals is also possible. One of the separated signals is maintained at the same frequency f ₁ , and the other is input to the mixer 14 along a separate signal path and the signal of the local oscillation frequency f _L provided by the local oscillator 18. And are converted to a signal of a new frequency f ₂ .

The signal with the converted frequency of f ₂ is amplified by the amplifier 16 and thus becomes larger than the magnitude of the signal having the same frequency f ₁ as the original signal passing through another signal path. A signal having a frequency of amplified f ₂ and a signal having a frequency of amplified f ₁ are again synthesized on the same signal path through the combining unit 20. The synthesized signal is a signal component of a frequency band that does not correspond to the transmission and reception band equal to the frequency f ₁ of the original signal through the converter 30 after gain is adjusted through the conventional variable gain amplifier 400. After the signal is converted into a signal having the same frequency band as the signal, it is radiated through the second antenna 700 through the second duplexer 600.

In FIG. 4, in the preferred embodiment of the present invention, the relationship between the output and the gain according to the input is shown. Since the input exists as two components f ₁ and f ₂ , the magnitude of the signal for each is smaller than the magnitude of the input signal of FIG. 2, and thus corresponds to the smaller input signal as shown in FIG. 4. Having a gain value, it is possible to maintain a much higher gain as compared to the case of FIG.

Therefore, even in the case of having the same output value as compared to the prior art of FIG. 2, it is possible to maintain a high gain, resulting in an improvement in call quality, and even when the input signal is changed to some extent. In this case, the gain remains in the region of low gain, which decreases with the input, but in the present embodiment, in the case of the original frequency component f ₁ , the region remains in the region of stable gain. It is possible to secure a stable gain with little change even with a change in increase and decrease, thereby ensuring a stable gain margin of the entire repeater.

The wireless repeater having a wide gain adjustment margin according to the present invention can be modified and applied in various forms within the scope of the technical idea of the present invention and is not limited to the above preferred embodiment.

For example, several stages of amplifiers may be added to the components of the preferred embodiment as needed, and several more coral paths may be added to the embodiment to amplify each, or a separate local oscillation frequency may be mixed to obtain several It may be possible to divide and process the signal components having different frequencies, but this is merely a mere change and extension of the present invention, and this case will also be within the scope of the technical idea of the present invention.

In addition, the components of the embodiment of the present invention may be implemented in one piece or divided into several parts, respectively, but if the same as the operation of each component of the present invention, is it integrally formed or separated from each other in several parts? It will be apparent that the present invention is not an important factor in determining whether or not to deviate from the technical scope of the present invention, and it will be seen as a mere modification of the present invention.

In addition, the embodiments and drawings are merely for the purpose of describing the contents of the invention in detail, and are not intended to limit the scope of the technical idea of the invention, the present invention described above is common knowledge in the technical field to which the present invention belongs As those skilled in the art can have various substitutions, modifications, and changes without departing from the spirit and scope of the present invention, it is not limited to the embodiments and the accompanying drawings. And should be judged to include equality.

In the wireless repeater having a gain adjustment circuit for preventing the oscillation of the repeater due to the antenna feedback by the wireless repeater having a wide gain adjustment margin according to the present invention, the input is separated into one or more frequency components, each amplified and processed separately By improving the margin of gain adjustment, it is possible to maintain stable call quality even with slight changes in input.

Claims (2)

A band pass filter unit for extracting a signal of a predetermined frequency band from the input signal; A signal extracted by the band pass filter unit is input, and the input signal is divided into one or more signals having different transmission paths, and one or more signals of the separated signals are different from the predetermined frequency band. A signal separation and amplifying unit converting and amplifying the signal into a band; A signal synthesizing unit configured to input output signals of the separation and amplifying unit and synthesize the output signals to have the same transmission path; A variable gain amplifier configured to input an output signal of the signal synthesizer, amplify the input signal, and reduce the gain to maintain a constant output when the input signal is excessive; And And a converter configured to input an output signal of the variable gain amplifier and convert a signal having a frequency other than the predetermined frequency band into a signal of the predetermined frequency band. According to claim 1, The signal separation and amplification unit, A signal separation unit for inputting an output signal of the band pass filter unit and separating the signal into one or more signals having the same frequency band; One or more local oscillators each outputting a signal of a predetermined frequency; A mixer configured to input any one of the output signals of the signal separator, and convert the input signal into a signal having a different frequency by coupling an output signal of the local oscillator; And A wireless repeater having a wide gain adjustment margin as an input, the output signal of the mixer comprising an amplifier amplifying the input by a predetermined gain.