KR100655694B1 - Interference cancellation repeater using vector modulator - Google Patents

Abstract

The present invention relates to an oscillation elimination repeater using a vector modulator capable of preventing oscillation of an RF repeater used in wireless mobile communication and digital multimedia broadcasting.

To this end, the present invention is a one-way repeater for amplifying a signal of a receiving antenna applied from a transmission medium such as a digital multimedia broadcasting system to a predetermined level in an amplifier and transmitting the signal to the receiving medium as a transmission antenna, and a bidirectional repeater such as a mobile communication system. And a summing means is added to the front end of the amplifier, and a delay line through a coupler and a separate detector are respectively connected to the rear end of the amplifier, and the delay line is connected to the summing means through a vector modulator, and the detector is connected via the control circuit. And the vector modulator to which the VQ fine control signal is supplied.

Vector modulator, phase adjuster, oscillation removal, oscillation prevention, mobile communication repeater, digital multimedia broadcasting, RF repeater

Description

Oscillation elimination repeater using vector modulator {INTERFERENCE CANCELLATION REPEATER USING VECTOR MODULATOR}

1 is a view showing a one-way model and the oscillation path of a typical RF repeater,

2 is a block diagram showing an oscillation removal repeater using a vector modulator according to an embodiment of the present invention;

3 is a block diagram showing in detail the vector modulator shown in FIG.

4 shows the voltage ratio of VI and VQ supplied to a multiplier for vector modulation. The graph shown.

* Explanation of symbols for the main parts of the drawings

1: reception antenna 2: amplifier

3: transmitting antenna 4: coupler

5: delay line 6: phase divider

7 multiplier 8 phase combiner

9 summing means 10 detector

11: control circuit 12: vector modulator

The present invention relates to an oscillation elimination repeater using a vector modulator capable of preventing oscillation due to feedback between RF transceivers.

At present, mobile communication systems have been developed and popularized as communication technologies have been developed, and at the time of introduction of digital multimedia broadcasting systems, these wireless communication systems have unidirectional or bidirectional communication from a predetermined transmission medium to a receiving medium in a jurisdiction. It can provide services. However, depending on the location of the transmission medium and the reception medium, for example, a predetermined communication shaded area is formed due to a mountain area, a dense location of a large building, a tunnel, a building, a basement, and the like.

In order to prevent degradation of communication service due to the formation of the communication shaded area, a mobile communication system amplifies a signal received from a base station and sends it to a terminal, and amplifies a signal received from the terminal and sends it to a base station (RF). Repeater has been developed and introduced, and in the case of a digital multimedia broadcasting system, a unidirectional wireless repeater for amplifying a signal received from a transmission medium and transmitting it to a reception medium has been developed. Therefore, the wireless repeater is a device for providing a good quality of service by amplifying the signal between the transmission medium and the terminal to reach the radio wave to the shadow area.

That is, the wireless repeater is applied from the reception antenna 21 for communication with the transmission medium, the transmission antenna 23 for communication with the reception medium, and the reception antenna 21 as shown in FIG. And an amplifier 22 for amplifying the signal to a predetermined level and outputting the signal to the transmission antenna 23. When the distance between the transmitting and receiving antennas is low in the wireless repeater configured as described above, a feedback phenomenon in which the signal amplified and outputted through the amplifier 22 is applied to the input of the wireless repeater is generated. The amplified signal is oscillated repeatedly, resulting in a drastic decrease in the service quality of the system.

For this reason, methods for removing oscillation by artificially creating a signal having a magnitude and a phase opposite to that of a signal through a feedback path in a wireless repeater are added to a service signal. However, the phase adjuster used to adjust the signal size and phase of the feedback path has a problem of insufficient oscillation removal due to a low flatness problem in a wideband signal.

In more detail, as shown in FIG. 1, a general model of a repeater is schematically illustrated. A signal transmitted from a transmission medium to a reception medium is input to the reception antenna 21 and a signal by G is transmitted by the amplifier 22. It is enlarged and radiated to the transmission antenna 23. This signal reaches the receiving medium. Here, some of the signals radiated to the transmission antenna 23 are introduced into the reception antenna 21 by A, and then increase by G again and repeatedly cause the oscillation phenomenon. For this reason, when the radio repeater is installed, the distance between the receiving antenna 21 and the transmitting antenna 23 is sufficiently increased or a feature is used to secure the separation distance between the antennas by 15 dB or more than the gain of the radio repeater.

However, for example, in the plains, etc., where the feature is not sufficiently secured, the distance between the antennas is insufficient. Therefore, an apparatus for generating an inverse signal of the generated feedback signal and applying it to the original signal to remove the oscillation signal should be added. . Therefore, in the oscillation elimination wireless repeater, the conventional technology has a problem that the wideband phase flatness of the phase controller is low, thereby not sufficiently removing the oscillation signal.

The present invention is invented to solve the problems of the prior art as described above, by applying a vector modulation method in place of the conventional amplitude and phase control unit using a vector modulator having a high broadband phase flatness, broadband phase flatness characteristics The purpose of the present invention is to provide an oscillation elimination repeater using a vector modulator that can significantly increase oscillation elimination performance of a wireless repeater.

The present invention for achieving the above object, such as a one-way repeater and a mobile communication system for amplifying a signal of a receiving antenna applied from a transmission medium such as a digital multimedia broadcasting system to a predetermined level in an amplifier and transmits it to the receiving medium as a transmission antenna. In the bidirectional repeater, a summing line is added to the front end of the amplifier, and a delay line through a coupler and a separate detector are respectively connected to the rear end of the amplifier, and the delay line is connected to the summing means through a vector modulator, and the detector is controlled. It is characterized in that it is connected to the vector modulator to which fine control signals of VI and VQ are supplied through the circuit.

Another embodiment of the present invention is a unidirectional repeater for amplifying a signal of a reception antenna applied from a transmission medium such as a digital multimedia broadcasting system to a predetermined level in an amplifier and transmitting the signal to the reception medium as a transmission antenna and a bidirectional repeater such as a mobile communication system. A vector modulator comprising a phase divider for making a phase difference of 90 degrees, a multiplier for changing the magnitude and sign of two separated signals, and a phase combiner for adding the two signals, It is characterized in that the oscillation signal is sufficiently removed by increasing the broadband phase flatness by adjusting the voltage multiplied by the two separated signals.

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

2 is a block diagram illustrating an oscillation elimination repeater using a vector modulator according to an embodiment of the present invention. The present invention provides a wireless mobile communication system or digital signal by removing a signal due to feedback between transmission and reception antennas (1, 3). It is an oscillation elimination repeater using a vector modulator 12 capable of preventing oscillation of a wireless repeater used in a multimedia broadcasting system.

That is, the wireless repeater is configured to amplify a signal of the reception antenna 1 applied from the transmission medium to a predetermined level by the amplifier 2 and transmit the transmission antenna 3 to the reception medium. That is, a unidirectional repeater and a mobile communication system for amplifying a signal of a reception antenna 1 applied from a transmission medium such as a digital multimedia broadcasting system to a predetermined level by the amplifier 2 and transmitting the signal to the reception medium by the transmission antenna 3; It's the same two-way repeater.

In this case, a summation means 9 is further connected to the front of the amplifier 2 in the feedback path for subtracting the oscillation signal, and a detector separate from the delay line 5 through the coupler 4 to the rear of the amplifier 2. (10) is connected, respectively.

The delay line 5 is supplied with a subtraction oscillation signal of -A through the vector modulator 12 to the summing means 9, and the detector 10 is connected to the VI and VQ through the control circuit 11. A fine control signal is connected to the vector modulator 12. In order to completely remove the interference signal in the vector modulator 12, the magnitude of the two signals are the same and the phase difference can be reduced from the magnitude and phase error of the subtraction signal through the fine adjustment of the VI and VQ signals. It is configured to

3 is a schematic diagram illustrating an oscillation removal method of the wireless repeater using the vector modulator 12 to be implemented in the present invention. The present invention provides a path for subtracting an oscillation signal, that is, a phase divider 6 as a phase divider 6 for making a phase difference of 90 degrees between the coupler 4 and the summation means 9, and the magnitude and sign of the two separated signals. By constructing a vector modulator 12 having a multiplier 7 and 7 for switching and a phase combiner 8 that sums the two signals, the broadband phase flatness is increased by adjusting the voltage multiplied by the two separated signals. The problem is solved by sufficiently eliminating the oscillation signal, which greatly improves the performance of the system.

That is, the delay line 5 shown in FIG. 2 is connected to the multipliers 7 and 7 through the phase divider 6, and the multipliers 7 and 7 are connected to the VI and VQ signals of the control circuit 11, respectively. Are supplied and connected to the phase combiner 8, respectively, and the subtraction oscillation signal -A of the phase combiner 8 is configured to be connected to the summing means 9.

Referring to the operation of the present invention configured as described above in detail with reference to Figs. 2 to 4, the signal from the transmitting medium to the receiving medium is introduced into the receiving antenna (1), which is enough to pass through the amplifier (2) It is amplified by a large signal and emitted through the transmitting antenna 3 to reach the antenna of the receiving medium. At this time, some of the signals radiated to the transmission antenna 3 are introduced into the reception antenna 1 by as much as A.

On the other hand, some of the large signal through the amplifier (2) through the coupler (4), the signal having a 90 kHz difference from each other via the phase divider (6) of the next vector modulator 12 through the delay line (5) Divided into In the multipliers 7 and 7 of the vector modulator 12, the control signals VI and VQ signals are multiplied to adjust the phase and amplitude at the same time. Is summed with the signal of the receiving antenna (1).

The VI and VQ signals are supplied to the multipliers 7 and 7 of the vector modulator 12 as fine control signals through the detector 10 and the control circuit 11, respectively. In this case, the signal added to the signal of the receiving antenna 1 in the summing means 9 is a signal whose magnitude is the same as the incoming signal and the phase is opposite in phase since the final output of the original signal is reduced by A. Therefore, the amplitude and phase adjustment values of the vector modulation controller 12 are as shown in the graph shown in Table 1 and FIG.

{Table 1} is a voltage table of VI and VQ for amplitude and phase adjustment, the amplitude is 0, 6, 12, 18 dB and the phase is 0, 45, 90, 135, 180, 225, 270, 315 VI and VQ at 0, 6, 12, and 18 dB are divided into Series 1 and Series 2, Series 3 and Series 4, Series 5 and Series 6, and Series 7 and Series 8, respectively. Therefore, the characteristic curves of the series 1 to series 8 appear as shown in the graph shown in FIG.

As described above, according to the present invention, the vector modulation control method in the oscillation elimination repeater is very excellent in phase characteristics according to frequency, and thus, there is a problem of phase shifting according to frequency generated in a phase adjuster composed of a combination of components such as a conventional pin diode. By solving the phenomenon of the reduction of the oscillation signal due to the reduction, there is an advantage that can significantly improve the oscillation removal performance.

Although the technical concept of the oscillation elimination repeater using the vector modulator of the present invention has been described based on the exemplary drawings, this is illustrative of the best embodiment of the present invention and is not intended to limit the claims of the present invention. It will be apparent to those skilled in the art that various modifications and imitations can be made without departing from the scope of the technical idea of the present invention.

Claims (3)

An amplitude and phase adjusting means composed of a receiving antenna (1), an amplifier (2), and a transmitting antenna (3) for adjusting the amplitude and phase by receiving a transmitting signal transmitted to the transmitting antenna (3), and an oscillating signal A detector 10 for detecting a magnitude and a phase difference of a signal in a feedback path for subtracting A control circuit 11 which receives the output of the detector 10 as a control command and controls the amplitude and phase adjusting means; In the oscillation eliminating repeater having a summation means (9) for summing the output signal of the amplitude and phase adjusting means and the received signal received by the receiving antenna (1), The amplitude and phase adjusting means is a phase divider 6 for making a phase difference of 90 degrees in a path for subtracting an oscillation signal, a phase divider 6, and a multiplier 7 and 7 'for changing the magnitude and sign of two separated signals. And a vector modulator 12 having a phase combiner 8 that sums the two signals, The detector 10 is connected to the transmitting antenna side, which is the rear end of the amplifier 2, and the fine control signals of VI and VQ through the control circuit 11 are fed to the multipliers 7 and 7 'of the vector modulator 12. The broadband phase flatness is increased by adjusting the voltage multiplied by the two separately supplied signals. In the phase combiner (8), the two separated signals are summed again with a difference of 90 degrees, and the signal added to the signal of the receiving antenna (1) in the summing means (9) is introduced by reducing the final output of the original signal by A. Oscillation elimination repeater using a vector modulator characterized in that the signal is the same magnitude and the phases are opposite delete delete

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