KR20050021114A - Interference Signal Elimination Circuit of Radio Relay Apparatus for In-phase Elimination Form using Primary Signal - Google Patents

Abstract

PURPOSE: An interference signal removing circuit of an in-phase removing wireless repeater using a reference signal is provided to use a reference signal which perfectly removes interference signals by comprising plural interference signal synthesizers, thereby effectively removing the interference signals. CONSTITUTION: An in-phase distributor(100) receives mixed original and interference signals, and distributes the received signals. The first interference signal phase controller and a reference signal phase controller(111,112) perform a phase shift process for each of the distributed original/interference signals. A reference signal synthesizer(116) outputs an original signal component as a reference signal. The first interference signal synthesizer(115) outputs the interference signal at more than a certain value. The second interference signal phase controller(117) receives each signal component, and carries out a phase shift. The second interference signal synthesizer(118) removes the interference signal, and extracts the original signal component.

Description

Interference Signal Elimination Circuit of Radio Relay Apparatus for In-phase Elimination Form using Primary Signal}

The present invention relates to an interference signal cancellation circuit of an in-phase cancellation wireless repeater using a reference signal, and more particularly, to CDMA. PCS. TRS. In a general wireless communication system such as GSM broadcasting, a radio frequency (RF) synthesizing circuit is provided to a radio repeater relaying at the same frequency as that received wirelessly. The present invention relates to an interference signal canceling circuit of a wireless repeater using an in-phase cancellation scheme for maximizing.

As is well known, the interference elimination repeater in a wireless relay system is returned from a low power level original signal (i.e., a transmission signal of a base station or a portable radio device) received from a base station or a portable radio device and a transmission antenna of the relay device itself. An interference signal removing unit for removing the interference signal from the signals received through the receiving antenna to the interference signal of the high power level is essentially provided, and an amplifying unit for amplifying the low power level original signal, and an output signal of the amplifying unit. A transmitting antenna for transmitting and additional circuitry are added.

The interference signal canceling unit provides a function of removing only the interference signal and protecting the original signal as much as possible. Various interference cancellation structures are implemented according to the scheme and characteristics of the received signal, and various characteristics according to the interference cancellation structure. And performance.

However, since the conventional interference signal cancellation method as described above simply removes the interference signal through the interference canceling unit, the received signal for each antenna channel received from the antenna, the size and phase of the signal for each channel differ according to the environment. In the changing wireless relay system, not only the removal rate of the interference signal is significantly reduced, but also the original signal component is partially removed, thereby degrading the call quality.

That is, in the wireless relay system to which the conventional interference cancellation technology is applied, the closer the error range of the power and phase of the receiving antenna interference signal is in phase, the better the interference cancellation performance. It appears that the interference cancellation performance is drastically degraded.

Accordingly, an object of the present invention is to provide an in-phase reference signal controller, a reference signal signal synthesizer, an interference signal phase controller, and an interference signal synthesizer in a wireless relay device to effectively remove the interference signal. The present invention provides an interference signal cancellation circuit of an in-phase cancellation wireless repeater using a reference signal.

In addition, the present invention provides a interference signal cancellation circuit of an in-phase cancellation wireless repeater using a reference signal for completely removing the interference signal by providing a plurality of interference signal synthesizers.

The present invention relates to an interference signal canceling circuit of an in-phase canceling wireless repeater using a reference signal. After receiving a frequency wirelessly, amplifying the frequency to a predetermined level or more, and compensating only the original signal component excluding the interference signal as much as possible. In an interference signal removal circuit provided in a wireless relay device that outputs and relays at the same frequency to remove the interference signal, the mixed original signal and the interference signal received for each channel of the receiving antenna are received and distributed in the same phase. An in-phase distributor; A first interference signal phase controller and a reference signal phase controller for phase shifting each of the original signal and the interference signal output from the in-phase divider; A reference signal synthesizer for outputting the original signal component inputted from the reference signal phase shifter and the interference signal component as a reference signal in a state in which the original signal component is removed below a predetermined level; A first interference signal synthesizer for outputting an original signal component inputted from the first interference signal phase controller and an interference signal more than a predetermined value among the interference signals; A second interference signal phase controller configured to receive and phase shift each signal component output from the reference signal synthesizer and the first interference signal synthesizer; And a second interference signal synthesizer for removing the interference signal and extracting the original signal component from the signal components output from the second interference signal phase controller.

And a detector configured to detect an amount of signal components output from the reference signal phase controller and the first interference signal phase controller.

And a detector for detecting the amount of the original signal and the interference signal output from the second interference signal synthesizer.

The reference signal synthesizer may output the reference signal as a reference signal in an erased state with a magnitude of 20 dB or less.

With reference to the accompanying drawings, the interference signal cancellation circuit of the in-phase cancellation wireless repeater using a reference signal according to the present invention will be understood by the embodiments described in detail below.

1 is a block diagram showing an interference signal cancellation circuit of an in-phase cancellation wireless repeater using a reference signal according to the present invention, and FIG. 2 is an interference signal removal of an in-phase cancellation wireless repeater using a reference signal according to the present invention. 3 is a flowchart illustrating an embodiment in which a circuit is applied to a wireless communication system, and FIG. 3 is an operation flowchart of a wireless communication system in which an interference signal cancellation circuit of an in-phase cancellation wireless repeater using a reference signal according to the present invention is incorporated.

As shown in FIG. 1, the interference signal canceling circuit according to the present invention receives the respective received signals for each channel of the receiving antenna and receives a reference signal phase controller 112 for each signal output from the in-phase divider 110. ) And the first interference signal phase controller 111 performs phase control, and separates the input original signal component and the incoming interference signal into a reference signal in which the original signal component is removed by a predetermined level from the received signal components. A reference signal synthesizer 116 to output each, a first interference signal synthesizer 115 that removes only the incoming signal, an output of the reference signal synthesizer 116 and an output signal of the first interference signal synthesizer 115 And a second interference signal synthesizer 118 that outputs only the original signal component by anti-phase synthesis.

The first interference signal synthesizer 115 receives an interference signal including an original signal component removed by a predetermined level from the reference signal synthesizer 116, and the original signal component is applied to a signal from the first interference signal synthesizer 115. Since the first interference signal synthesizer 115 removes only the interference signal irrespective of the original signal, the first interference signal synthesizer 115 removes the residual interference signal remaining after being removed from the first interference signal synthesizer 115 to extract only the original signal component. The second interference signal synthesizer 118 finally removes the residual interference signal, extracts the original signal, and detects only the pure original signal component.

Hereinafter, the bar shown in FIG. 1 will be described in more detail.

The signal received for each antenna channel is distributed in the same phase in the in-phase divider 110 and supplied to the reference signal phase controller 112 and the first interference signal phase controller 111.

The signal divided and transmitted in the same phase from the in-phase divider 110 is removed in the in-phase signal from the reference signal phase controller 112, and the interference signal is increased in gain so that the reference signal synthesizer ( 116).

In this case, the reference signal synthesizer 116 compares the amount of signals detected by the detector 114 to remove the in-phase signal with a minimum signal.

In addition, after each phase output from the in-phase divider 110 performs a phase shift in the first interference signal phase controller 111, the signal itself is shifted only with respect to the interference signal part without changing, and thus the detector ( The signal is transmitted to the first interference signal synthesizer 115 through 113.

The second interference signal phase controller 117 compares the two interference signals transmitted from the first interference signal synthesizer 115 and the reference signal synthesizer 116 to remove the same in-phase interference signal and the original signal is of the highest quality. Extracted as a signal.

At this time, the reference signal among the signal components of the reference signal synthesizer 116 is different from the original signal included in the signal passed through the first interference signal synthesizer 115 by more than-20dB difference, so that the reference signal to the original signal It has no effect.

As shown in FIG. 2, the receiving end of the wireless communication system includes an antenna unit 200 for equally receiving each reference signal with respect to output paths of two antennas for wireless relay of the same frequency, and a signal of a predetermined level or more. A band filter 210, a low noise low power amplifier 220, a frequency interference signal canceling circuit 230, a driving amplifier for amplifying a weak original signal in the RF signal that attenuates and passes a signal of only a desired signal distribution band ( 260, a channel bandpass filter 270 that selects and passes only a commercial band, a linear low power amplifier 280, a bandpass filter 290, a transmission antenna 300, and a state monitoring controller 250.

The operation of the present invention configured as described above will be described with reference to the accompanying drawings.

First, when a received signal having the original signal component received from the wireless communication system through the signal input terminal and the interference signal component fed back from the transmission antenna of the wireless relay itself is applied for each channel of the antenna 200, a signal of a predetermined level or more is attenuated. It is provided to the in-phase divider 110 through the band filter 210 and the low noise low power amplifier 230 in the RF signal passing the signal of only the signal distribution band.

Then, the signal of the in-phase divider 110 provides the same signal and interference to the reference signal phase controller 112 and the first interference signal phase controller 111.

First, the interference signal and the reference signal from the reference signal phase controller 112 detects the amount of the signal at the detector 114 and then is transmitted to the state monitoring controller 250 through the controller 240. Reference signal synthesizer 116 is passed.

The state monitoring controller 250 analyzes the information coming from the detector 114, the reference signal synthesizer 116 to make the reference signal as small as possible and the interference signal as large as possible to the second interference signal phase controller ( Information is sent to the reference signal phase controller 112 to be transmitted to 117.

In addition, another signal transmitted from the in-phase divider 110 through the first interference signal phase controller 111 detects the amount of the interference signal in the detector 113 and then monitors the state through the controller 240. The signal is transmitted to the controller 250, and the signal is transmitted to the first interference signal synthesizer 115.

The state monitoring controller 250 analyzes the information coming from the detector 113 to make the phase shifted value in the same signal in the first interference signal synthesizer 115 as in the reference signal synthesizer 116. Information is sent to the first interference signal phase controller 111.

Second, the interference signal and the reference signal analyzed by the information as described above, so as to remove the interference as much as possible in the second interference signal synthesis phase 118 by shifting the phase in the second interference signal phase controller 117, 2 The phase shifter in the interference signal phase controller 117 is shifted.

On the other hand, the signal synthesized through the interference signal cancellation circuit 230 of the present invention is an in-phase signal for each antenna channel, there is a difference in whether or not to remove the original signal between the output signal of the synthesizer by the inverse phase synthesis path, Since the power level of the original signal is relatively low compared to the interference signal, the phase difference and magnitude according to the frequency of the overall synthesized signal have similar characteristics over a wide bandwidth.

Accordingly, when the phase or the strength of the received signal for each antenna channel is not the same, as shown in FIG. After shifting the magnitude and phase accordingly, monitoring and correction operations are performed, and when oscillating outside the correction limit range, the reference information (that is, the magnitude and phase information of the interference signal) is measured and corrected (step s400). To step s460).

On the other hand, the interference signal cancellation circuit of the wireless repeater using the in-phase cancellation method according to the present invention, like the wireless repeater, the forward method of receiving a radio wave from the base station and amplifying the signal to a desired signal and then radiating the signal to a region where the radio wave is weak Although only the operation principle is described, it may be the same as the operation principle in the reverse method of receiving a weak radio wave of the portable device and then amplifying the signal into a desired signal and transmitting the signal to the base station.

In addition, the present invention can be applied to a wideband wireless repeater and amplifying means for RF band synthesis.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and the scope of the present invention extends to the range substantially equivalent to the embodiments of the present invention.

As can be seen from the above description, according to the interference signal cancellation circuit of the in-phase cancellation wireless repeater using the reference signal according to the present invention, the characteristics of the signal of each channel according to the propagation environment due to the characteristics of the reception signal waveform for each channel of the reception antenna It is possible to prevent the interference cancellation effect caused by the very different magnitude and phase.

In addition, the signal for each antenna path can be similarly maintained in the installation environment change such as the direction of the antenna of the wireless relay device or the change in the surrounding environment, so that the adaptation to the environment change can be provided.

1 is a block diagram showing an interference signal cancellation circuit of an in-phase cancellation wireless repeater using a reference signal according to the present invention.

2 is an embodiment configuration diagram in which an interference signal cancellation circuit of an in-phase cancellation wireless repeater using a reference signal according to the present invention is applied to a wireless communication system.

3 is a flowchart illustrating an operation of a wireless communication system in which an interference signal cancellation circuit of the in-phase cancellation wireless repeater using a reference signal according to the present invention is incorporated.

** Description of symbols for the main parts of the drawing **

110: in-phase divider 111: first interference signal phase controller

112: reference signal phase controller

113,114,119: Detectors

115: first interference signal synthesizer 116: reference signal synthesizer

117: second interference signal synthesizer

Claims (4)

Receives a radio frequency, amplifies the frequency above a certain level, and compensates only the original signal components excluding the interference signal as much as possible and then outputs and relays at the same frequency to remove the interference signal to remove the interference signal In the circuit, An in-phase divider configured to receive a mixed original signal and an interference signal received for each channel of the receiving antenna and distribute the same in the same phase; A first interference signal phase controller and a reference signal phase controller for phase shifting each of the original signal and the interference signal output from the in-phase divider; A reference signal synthesizer for outputting the original signal component inputted from the reference signal phase shifter and the interference signal component as a reference signal in a state in which the original signal component is removed below a predetermined level; A first interference signal synthesizer for outputting an original signal component inputted from the first interference signal phase controller and an interference signal more than a predetermined value among the interference signals; A second interference signal phase controller configured to receive and phase shift each signal component output from the reference signal synthesizer and the first interference signal synthesizer; A second interference signal synthesizer which removes the interference signal and extracts the original signal component from the signal components output from the second interference signal phase controller; Interference signal cancellation circuit of the in-phase cancellation wireless repeater using a reference signal, characterized in that consisting of. The method of claim 1, And a detector for detecting the amount of signal components output from the reference signal phase controller and the first interference signal phase controller. The interference signal cancellation circuit of the in-phase cancellation wireless repeater using the reference signal further comprises a. . The method of claim 1, And a detector for detecting the amount of the original signal and the interference signal output from the second interference signal synthesizer. The method of claim 1, And the reference signal synthesizer outputs the reference signal as a reference signal in an erased state with a size of 20 dB or less.