KR20100137837A - Magnetic feedback signal removal device for mobile communication relay system - Google Patents

Abstract

The present invention is to provide an echo canceling device for a mobile communication repeater that can prevent the echo phenomenon in the relaying process because some of the signals radiated through the service antenna of the relay system is returned to the link antenna.

To this end, the present invention includes a dual polarized antenna for receiving a signal transmitted from the base station and a self-feedback signal; Disclosed is a magnetic feedback signal removal device for a mobile communication relay system, including a feedback signal removal unit installed in the dual polarized antenna to remove a magnetic feedback signal from a mixed signal.

Description

Interference cancellation apparatus of mobile communication repeat system

The present invention relates to an echo canceller of a mobile communication repeater, and more particularly, some of the signals radiated through the service antenna of the relay system are fed back and received by the link antenna, thereby preventing echoes from occurring during the relay process. The present invention relates to a self-feedback signal canceller for a mobile communication relay system.

In general, the microwave relay system for mobile communication is a system that relays signals using microwaves (M / W, Microwave) of 300 to 3,000 MHz belonging to the UHF band and 3 to 30 GHz belonging to the SHF band. Due to its suitability, it is widely used to improve the wireless communication environment of the shaded area where the radio wave is not received by the outlying area, the mountain, or other features that the radio wave does not transmit.

Such a microwave relay system generally includes a link antenna for receiving a signal transmitted from a base station, a repeater for amplifying the signal received through the link antenna, and a service antenna for radiating the amplified signal through the repeater.

Among these, the link antenna uses a vertically polarized link antenna when receiving a vertically polarized signal from a base station, and the service antenna uses a circularly polarized or horizontally polarized antenna to minimize interference with the link antenna.

However, as shown in FIG. 1, some of the signals radiated through the service antenna are fed back according to a field environment such as a mountain or a building and received by the link antenna, and the returned signals are transmitted along with the original signal received from the base station. In the process of being amplified by an abnormally amplified will cause the echo (Echo) phenomenon.

This echo phenomenon not only damages the circuit components of the repeater, but also seriously degrades the signal quality and, in severe cases, paralyzes the mobile communication relay system.

Recently, a method of estimating and removing a self-feedback signal has been developed by installing a digital signal processor using a mathematical algorithm in a repeater.

However, the method using a digital signal processor is applicable to a digital repeater having multiple antennas, and has a problem that cannot be applied to a repeater having a single antenna.

The present invention has been made in view of the above-mentioned problems in the related art, and an object of the present invention is to provide a mobile communication relay which can remove the self-return signal of the service antenna received by the link antenna from the link antenna in an analog manner. It is to provide a self-feedback signal canceller for a system.

In order to achieve the above object, the present invention provides a dual polarized antenna for receiving a signal and a self-feedback signal transmitted from the base station; It is provided in the dual polarized antenna to provide a magnetic feedback signal removal device for a mobile communication relay system comprising a feedback signal removal unit for removing the magnetic feedback signal from the mixed signal of the magnetic feedback signal.

In addition, the present invention is a dual polarized antenna for receiving a signal transmitted from the base station and the self-feedback signal; A feedback signal removal unit installed in the dual polarized antenna to remove the magnetic feedback signal from the mixed signal of the magnetic feedback signal; The present invention provides a self-feedback signal removing device for a mobile communication relay system including a duplexer respectively installed at an input / output terminal of the feedback signal removing unit.

In addition, the feedback signal removing unit of the present invention, a gain phase adjuster for adjusting the gain of the self-feedback signal received through the second antenna of the dual polarized antenna and the phase of the signal to be opposite to the signal received from the base station; Magnetic for mobile communication relay system comprising a coupler for combining the signal received through the first antenna of the dual polarized antenna and the signal whose phase is adjusted through the gain phase adjuster to output a signal from which the self feedback signal is removed. Provided is a feedback signal removal device.

In addition, the feedback signal removing unit of the present invention provides a self-feedback signal removing device for a mobile communication relay system having a delay element installed on the first antenna path for matching the group delay time of the received signal through the first and second antennas. .

In addition, the feedback signal removing unit of the present invention, the self-feedback signal removing device for a mobile communication relay system provided with a negative group delay circuit on the second antenna path for matching the group delay time of the received signal through the first and second antennas; To provide.

The present invention having the above-mentioned means for solving the problem is to separate and receive the feedback signal through the dual polarized antenna, and to remove the magnetic feedback signal contained in the signal received through the feedback signal removal unit. Therefore, it is possible to prevent the echo phenomenon of the signal received in the relay process, thereby greatly increasing the damage of the amplifier circuit and the signal quality.

In addition, since the present invention eliminates the feedback signal in an analog manner, it is not necessary to install a digital self-feedback removal device, and thus there is a very useful effect that can be widely applied to an analog repeater.

In addition, the present invention satisfies the group delay matching condition through the application of a delay element or a negative group delay circuit, and thus, it is possible to more accurately remove the self-feedback interference signal. Furthermore, the service antenna also serves as a duplexer. There are also effects that can be done.

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

2 is a schematic diagram showing a relay system to which a self-feedback signal removing device for a mobile communication relay system of the present invention is applied, and FIG. 3 is a block diagram showing a feedback signal removing unit according to the present invention. It consists of a polarization antenna 100 and a feedback signal removing unit 200.

First, the dual polarization antenna 100 is a link antenna for receiving a self-returned signal among the original signal, which is a polarization signal transmitted from a base station, and the polarization signal radiated through a service antenna. One antenna 110 and a second antenna 120 that is a horizontally polarized antenna are configured.

The first antenna 110 receives both the vertically polarized signal transmitted from the base station and the vertically polarized self feedback signal self-returned by the field environment among the circularly polarized signal emitted from the service antenna.

In addition, the second antenna 120 does not exchange signal with the vertical polarization signal transmitted from the base station due to the characteristics orthogonal to the first antenna 110, and the horizontally polarized signal that is self-returned among the circular polarization signals emitted from the service antenna. Is received.

Here, the first antenna 110 may be configured as a horizontal polarized antenna, and the second antenna 120 may be configured as a vertical polarized antenna for convenience.

The feedback signal removing unit 200 removes the self-received signal radiated from the service antenna among the received signals. In the present invention, the feedback signal removing unit 200 includes a gain phase adjuster 210 and a combiner 220.

Here, the gain phase adjuster 210 converts the polarization direction of the self feedback signal received through the second antenna 120 in the vertical direction, and adjusts the phase opposite to the phase of the signal received through the first antenna 110. In this case, the gain is also adjusted.

And the combiner 220 is received through the first antenna 110 because it combines the signal received through the first antenna 110 and the signal whose polarization direction, phase and gain is adjusted through the gain phase adjuster 210 described above. The self feedback signal included in the received signal is removed.

As described above, the self-feedback signal removing apparatus for the mobile communication relay system removes the self-feedback signal included in the signal received through the dual polarized antenna 100 and the feedback signal removing unit 200, thereby improving the linearity of the received signal. It is greatly raised.

Therefore, the linearity can be increased in the process of amplifying the signal of the base station through the repeater, and this has the advantage of greatly increasing the damage of the amplifier circuit and the signal quality.

In addition, the magnetic feedback signal removal device for a mobile communication relay system of the present invention has a merit that can be widely applied to an analog repeater since the feedback signal removal unit 200 for removing the magnetic feedback signal removes the magnetic feedback interference signal in an analog manner. In the repeater, there is no need to install a separate magnetic feedback removing device for removing the magnetic feedback signal.

4 illustrates an example in which the delay element 230 is applied to the path of the first antenna 110 to satisfy the group delay matching condition.

As such, the present invention compensates for the group delay response time generated by the gain phase adjuster 210 because the delay element 230 is installed in the path through which the signal of the first antenna 110 passes. In this case, the self-feedback signal is accurately removed.

FIG. 5 illustrates an example in which a negative group delay circuit 240 is applied to a path of the second antenna 120 to satisfy a group delay matching condition according to another embodiment of the present invention.

Here, the negative group delay circuit 240 is a circuit in which the group speed is greater than the speed of light in the vacuum state or may even have a negative value, and the group generated while passing through the path of the gain phase regulator 210 through the group speed. The delay matching condition is satisfied, and the coupler 220 accurately removes the self feedback signal.

FIG. 6 illustrates an example in which the duplexer 300 is installed in the dual polarization antenna 100 for service transmission in addition to the reception function.

The duplexer 300 is connected to the feedback signal removing unit 200 of the dual polarized antenna 100, that is, between the feedback signal removing unit 200 and the wireless repeater and the feedback signal removing unit 200 and the first antenna 110. In order to emit the service signal in addition to the self-return interference function of the received signal.

Therefore, in the case of the repeater to which the dual polarized antenna 100 shown in FIG.

The various embodiments of the present invention described above are merely illustrative of preferred examples, and the scope of the present invention is not limited thereto, and may be appropriately changed within the scope of the same concept.

1 is a schematic diagram showing a general mobile communication relay system.

Figure 2 is a schematic diagram showing an apparatus for removing a self-feedback signal for a mobile communication relay system of the present invention.

3 is a block diagram showing a feedback signal removing unit according to the present invention.

4 is a block diagram illustrating a feedback signal removing unit having a delay element according to another embodiment of the present invention.

5 is a block diagram illustrating a feedback signal removing unit having a negative group delay circuit according to another embodiment of the present invention.

6 is a schematic diagram illustrating an example of applying a duplexer to a dual polarized antenna according to another embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

100: dual polarized antenna 110: first antenna

120: second antenna 200: feedback signal removal unit

210: gain phase regulator 220: combiner

230: delay element 240: negative group delay circuit

300: duplexer

Claims (8)

A dual polarized antenna 100 for receiving the signal transmitted from the base station and the self feedback signal; A feedback signal removal unit 200 installed in the dual polarized antenna 100 to remove the magnetic feedback signal from the mixed signal of the magnetic feedback signal; Magnetic feedback signal removal device for a mobile communication relay system, characterized in that consisting of. A dual polarized antenna 100 for receiving the signal transmitted from the base station and the self feedback signal; A feedback signal removal unit 200 installed in the dual polarization antenna 100 to remove the magnetic feedback signal from the mixed signal of the magnetic feedback signal; A duplexer 300 installed at each input / output terminal of the feedback signal removing unit 200; Magnetic feedback signal removal device for a mobile communication relay system, characterized in that consisting of. The method of claim 1 or 2, wherein the dual polarized antenna 100, A first antenna 110 for receiving the signal transmitted from the base station and the self feedback signal; A second antenna 120 for receiving a self-feedback signal; Magnetic feedback signal removal device for a mobile communication relay system, characterized in that consisting of. The apparatus of claim 3, wherein the first antenna (110) is a vertically polarized antenna and the second antenna (120) is a horizontal polarized antenna. The apparatus of claim 3, wherein the first antenna (110) is a horizontally polarized antenna and the second antenna (120) is a vertically polarized antenna. The method of claim 3, wherein the feedback signal removing unit 200, A gain phase adjuster (210) for adjusting the gain of the self feedback signal received through the second antenna (120) of the dual polarized antenna (100) and adjusting its phase to be opposite to the signal received from the base station; A combiner for combining a signal received through the first antenna 110 of the dual polarized antenna 100 with a signal whose phase is adjusted through the gain phase adjuster 210 to output a signal from which a self-return signal is removed ( 220); Magnetic feedback signal removal device for a mobile communication relay system, characterized in that consisting of. The method of claim 6, wherein the feedback signal removing unit 200, Delay element 230 is installed in the path of the first antenna 110 in order to match the group delay time of the received signal through the first and second antennas 110 and 120, the magnetic feedback for the mobile communication relay system Signal canceller. The method of claim 6, wherein the feedback signal removing unit 200, Mobile communication relay system, characterized in that a negative group delay circuit 240 is installed in the path of the second antenna 120 to match the group delay time of the received signal through the first and second antennas (110, 120). Magnetic feedback signal removal device for.

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