KR100422388B1 - The method and Apparatus for Interference Cancellation repeater Using equalized filter - Google Patents

Abstract

An interference cancellation relay system and method are disclosed. The present invention relates to a relay system and method for relaying a radio signal by eliminating interference using a compensation filter. The interference elimination method includes an equalization reception step, a signal synthesis step, a transmission amplification step, a transmission filtering step, and a transmission output step. In order to remove the feedback signal, the interference elimination relay system is composed of a receiving filter unit and a compensating filter unit having the same characteristics to match the signal characteristics of the received signal and the reference signal, and synthesized the received signal and the reference signal Only the interference is canceled, and the output of unnecessary oscillation can be suppressed by preventing the transmission filter for the most difficult band of the characteristics between the reception filter and the compensation filter.

Therefore, the present invention has an effect of providing a high output interference elimination relay system by completely removing the feedback signal while being able to easily use the reception filter used by the communication system.

Description

Interference cancellation relay method and apparatus using compensation filter {The method and Apparatus for Interference Cancellation repeater Using equalized filter}

The interference cancellation relay system and method using the compensation filter of the present invention receives a radio frequency signal from a relay station (Donor) or a mobile station (Mobile) and transmits it back to the relay station (Donor) or a mobile station (Mobile) It relates to a relay system and method for doing the

1 is a block diagram of a conventional interference elimination system, a conventional interference elimination relay system includes a reception antenna unit 11 for transmitting and receiving with a relay mother station, a transmission antenna unit 12 for transmitting and receiving with a terminal station, and interference. The interference elimination repeater 13 is configured to remove and relay a signal, and the interference elimination repeater 13 includes a reception filter unit 131, a signal synthesis unit 132, a reception amplifier unit 133, and a transmission filter unit 134. ), An output detector 135, a reference signal adjuster 136, and the like.

For example, when the relay process from the relay mother station to the terminal station is described, the signal received by the receiving antenna unit 11 is a part of the relay signal generated outside the repeater such as the relay mother station and the self-transmitted signal of the repeater. The direct feedback signal through the direct spatial path between the antenna unit 12 and the receiving antenna unit 11 is received.

Accordingly, the interference elimination repeater 13 detects a branch signal of the transmission signal transmitted to the transmission antenna unit 12 in order to remove the feedback signal included in the received radio signal and relay the relay signal. An output detector 135 for outputting a signal, a reference signal adjuster 136 for adjusting a delay and a level of the reference signal detected by the output detector 135, and inverting a phase of the reference signal whose delay and level are adjusted by 180 degrees; A reception filter unit 131 for selecting and passing a reception band of a signal, and combining the radio signal received by the reception antenna unit 11 with an output signal of the reference signal adjusting unit 136 and included in the received radio signal Unnecessary noise among the signals of the signal synthesizing unit 132 for removing the feedback signal, the transmission amplifying unit 133 for amplifying the radio signal from which the interference is removed from the signal synthesizing unit 132, and the transmission amplifier 133 To It consists of a reception filter unit 131 of the transmission filter unit 134 to suppress and pass the signal of the use band.

In this case, the reference signal adjusting unit 120 includes at least one signal delay element, a level control element, and a phase control element to generate an inverted signal of the same level for each feedback signal.

In this case, the reception filter 112 uses a strict bandpass filter so as not to be affected by the interference between carriers, and thus, a predetermined ripple as shown in the feedback signal transmission characteristic 15 inevitably in the passband. (Ripple) is included, and the reference signal drawn by the output detector 135 passes through the reference signal adjusting unit 136 and then is transmitted to the signal synthesizing unit 132 when the reference signal transmission characteristic 14 of the figure is shown. As shown in the figure, linearity is generally maintained.

Therefore, when the conventional interference control relay 13 removes the interference, the in-band interference cancellation performance is limited due to the difference between the feedback signal transmission characteristic 15 and the reference signal transmission characteristic 14, thereby eliminating interference with high gain. There is a problem in manufacturing a repeater is difficult.

The present invention has been made to solve the above-described problems, and further includes a compensation filter unit having the same electrical characteristics as the reception filter unit, and having a narrow pass band compared to the reception filter unit and the compensation filter unit. It is an object of the present invention to provide a high gain interference elimination relay device and method by precisely removing the feedback signal using a filter unit.

1 is a block diagram and signal synthesis characteristics of a conventional interference cancellation relay system.

2 is a block diagram and signal synthesis characteristics of the interference cancellation relay apparatus of the present invention

3 is a view showing the oscillation principle and the prevention principle of the invention band.

Figure 4 is a flow chart showing the steps of the interference cancellation method using the compensation filter of the present invention.

In order to achieve the technical problem to be achieved by the invention described above, the present invention includes a receiving antenna unit and a transmitting antenna unit and receives a feedback signal and a relay signal received through the receiving antenna unit to remove the feedback signal. A reception filter unit which removes a signal of a frequency band other than the reception frequency band, an output detector for branch-detecting a signal transmitted from the transmission antenna unit, and outputting a reference signal, a reference signal adjusting unit for converting a reference signal detected by the output detector; A signal synthesizer for synthesizing the feedback signal and the converted reference signal to remove the feedback signal, a reception amplifier for amplifying an output signal of the signal synthesis unit, and a signal of an unnecessary band among the signals of the reception amplifier; Consists of a transmission filter that passes only the signal of A repeating apparatus comprising: a compensation filter unit for receiving a reference signal detected by the output detector and compensating according to electrical characteristics of the reception filter unit, wherein the reception filter unit and the compensation filter unit are in phase within the same band. The transmission filter unit has the same electrical characteristics as the delay and the gain, and the pass filter and the transition band are narrow bands compared to the receive filter unit and the compensation filter unit. Preferably, at least one signal delay unit, an amplitude adjusting unit, and a phase control unit are synthesized and output, respectively. The method for removing interference signals through the interference elimination relay using the compensation filter of the present invention is (a). ) Phase, delay, and the like of the received signal inputted through the receiving antenna unit and the reference signal detected by the output detector, through the compensation filter unit. Receiving step for equalizing gains (equalize) for receiving in-band using the same transfer functions to match the received signal; (b) a signal synthesizing step of combining the received signal received in step (a) with the output signal of the reference signal adjusting unit for converting the reference signal passed through the output detector and the compensation filter unit to remove the feedback signal included in the received signal; ; (c) a transmission amplifying step for reinforcing the weakening of the signal strength during the relaying of the radio signal in the relay signal from which the interference is removed in step (b); (d) removing noise generated in steps (b) and (c) and preventing passage of a signal in an edge band where electrical characteristics between the reception filter unit and the compensation filter unit are difficult to match. A transmission filtering step; And (e) a transmission output step of radiating the transmission signal in which the edge band signal is suppressed in step (d) to the free space through the transmission antenna unit.

Hereinafter, an interference cancellation relay apparatus and method using a compensation filter of the present invention will be described in detail with reference to the accompanying drawings. FIG. 2 is a block diagram of an interference cancellation relay apparatus using a compensation filter of the present invention. As shown in FIG. 2, the apparatus for removing interference according to the present invention includes a reception antenna unit 21, a transmission antenna unit 22, a reception filter unit 231, an output detection unit 235, and a compensation filter unit 237. And a signal synthesizing unit 232, a receiving amplifier 233, a reference signal adjusting unit 236, and a transmission filter unit 234.

The radio signal received by the reception antenna unit 21 is composed of a relay signal transmitted from a relay mother station (Donnor) and a feedback signal sent from the transmission antenna unit 22 and fed back. The receiving antenna unit 21 receives the radio signal received, selects a band of the reception signal, passes only the radio signal of the reception band, and removes the received radio signal other than the reception band.

The output detector 235 branch-detects the signal transmitted from the transmission antenna unit 22 and outputs a reference signal. At this time, the detected reference signal is a signal having the same frequency as the radio signal transmitted from the transmission antenna unit 22 and used as a signal for removing the feedback signal. That is, the reception antenna unit is transmitted from the transmission antenna unit 22. The feedback signal received at 21 is removed in the signal synthesis process by a signal having the same delay and level and opposite in phase with the feedback signal generated through a predetermined signal processing process based on the reference signal.

The compensation filter unit 237 receives the reference signal detected by the output detector 235, and the characteristics of delay, level change, and phase change with respect to the reference signal are the same as the received signal passing through the reception filter unit 212. As shown in the feedback signal transmission characteristic 25 of the drawing by the electrical characteristics of the reception filter unit 231 while the radio signal received by the reception antenna unit 21 passes through the reception filter unit 231. This feedback signal is delayed and the level and phase change.

Therefore, the reference signal detecting the radio signal transmitted from the transmission antenna unit 22 and the reception signal passing through the reception filter unit 231 do not coincide due to the electrical characteristics of the reception filter unit 231.

Therefore, the compensation filter unit 237 constitutes a filter unit having the same delay, level change, and phase change characteristics as that of the reception filter unit 231, so that the feedback signal changes by the electrical characteristics of the reception filter unit 231. The reference signal also passes through the compensation filter 237 through the compensation filter unit 237 so that the reference signal transmission characteristic 24 is changed by the same electrical characteristics as the feedback signal transmission characteristic 25 of the drawing.

As a result, the compensation filter unit 237 uses the filter unit having the same transfer function characteristics as the reception filter unit 231 to accurately cancel the feedback signal.

The signal synthesizing unit 232 cancels and removes the feedback signal included in the received signal by combining the input received signal with the output signal of the reference signal adjusting unit. Therefore, the signal synthesizing unit 232 removes the feedback signal and outputs only the relay signal.

The transmission amplifier 233 amplifies the signal with an appropriate signal strength to output the relay signal from which the interference is removed.

The transmission filter unit 234 receives a transmission signal whose output is amplified through the transmission amplifier unit 233 and removes an unnecessary signal such as a spurious generated during a relay process and a feedback signal removal process, and removes a noise signal. Only the signal of the band is passed. In this case, the transmission filter unit 234 has a characteristic that a passband and a transition band are narrower than those of the reception filter unit 231 and the compensation filter unit 235. It is preferable. Although the transmission characteristics of the reception filter unit 231 and the compensation filter unit 237 are manufactured in the same or approximate manner, as shown in FIG. It is difficult to construct a filter unit having the same characteristics. Therefore, the reception band is relatively narrow compared to the transition bands of the reception filter unit 231 and the compensation filter unit 235. The oscillation phenomenon of the nonlinearity band and the output of the noise signal are prevented due to a mismatch between the transition band characteristics of the filter unit 231 and the compensation filter unit 237.

Figure 4 is a flow chart showing the steps of the interference cancellation relay method using the present invention compensation filter. As shown in FIG. 4, the relay method according to the present invention uses a compensation filter to remove an interference signal to relay a radio signal. The equalizing step includes a receiving step (S10), a signal combining step (S20), and a transmitting amplifying step. (S30), the transmission filtering step (S40) and the signal transmission step (S50) is characterized in that it comprises a.

In the equalizing receiving step S10, the reference signal, which is a branch detection signal of the radio signal received through the reception antenna unit and the radio signal transmitted to the transmission antenna unit, has the same transfer function characteristics in the use band. This is performed by changing the reference signal by the reception filter unit 231 and the compensation filter unit 237 shown in FIG. 2 by using the same electrical characteristic filter in the reception filter unit 231.

The signal synthesizing step S20 combines the received signal obtained in the equalization receiving step S10 with reference signals adjusted by at least one level adjustment, delay adjustment, and phase adjustment to remove the feedback signal included in the reception signal. do. In this case, the level adjustment, delay adjustment, and phase adjustment are performed through the reference signal adjustment unit 236.

The transmission amplification step (S30) is to amplify a signal from which the feedback signal included in the received signal has been removed. do.

The transmission filtering step (S40) removes the noise generated in the signal synthesis step (S20) and the transmission amplification step (S30) and the feedback signal that is not precisely removed. This is illustrated in FIG. 3 through the transmission filter unit 234 having a pass band and a transition band narrower than those of the reception filter unit 231 and the compensation filter unit 237 used in the equalization reception step S10. It is characterized by consisting of suppressing the transmission of the signal of the band which is practically difficult to cancel as described above.

The transmission output step (S50) radiates the transmission signal passing through the transmission filtering step (S40) to the free space through the transmission antenna unit. The above-described method and application of the present invention limit the utilization of the present invention as an embodiment. It should be noted that the description is not intended to help the understanding, and it is obvious to those skilled in the art that various modifications and variations are possible within the technical scope of the present invention, and such modifications and modifications belong to the appended claims. Is a matter of course.

As described above, the present invention has an effect of precisely removing the feedback signal included in the received signal through the signal synthesis of the received signal and the reference signal by using a compensation filter having the same electrical characteristics as the receive filter.

In addition, it is possible to prevent the transmission of the oscillation signal by the unreduced feedback signal of the transition band by using a transmission filter having a relatively narrow band as compared with the reception filter and the compensation filter.

Claims (3)

A reception filter unit including a reception antenna unit and a transmission antenna unit and receiving a feedback signal and a relay signal received through the reception antenna unit to remove a frequency signal other than a desired reception frequency band to remove the feedback signal, the transmission antenna An output detection unit for branch-detecting a signal transmitted from the unit and outputting a reference signal, a reference signal adjusting unit for converting a reference signal detected by the output detection unit, a signal for combining the feedback signal and the converted reference signal to remove the feedback signal A repeater comprising: a combining unit, a receiving amplifier unit for amplifying an output signal of the signal synthesis unit, and a transmission filter unit for suppressing an unnecessary band signal among the signals of the receiving amplifier unit and passing only a signal of a used band to remove the feedback interference signal. To And a compensation filter unit configured to receive the reference signal detected by the output detector and compensate for the electrical characteristics of the reception filter unit, wherein the reception filter unit and the compensation filter unit have the same phase, delay, and gain in the same band. And the transmission filter unit has a narrow pass band and a transition band as compared with the reception filter unit and the compensation filter unit. In the method for relaying a radio signal by removing the interference signal, (a) Equalizing reception of receiving the received signal inputted through the receiving antenna unit and the reference signal detected by the output detecting unit through the compensating filter unit by matching the received signal with the same transmission function in the used band by matching phase, delay and gain with the received signal. step; (b) a signal synthesizing step of combining the received signal received in step (a) with the output signal of the reference signal adjusting unit for converting the reference signal passed through the output detector and the compensation filter unit to remove the feedback signal included in the received signal; ; (c) a transmission amplifying step for reinforcing the weakening of the signal strength during the relaying of the radio signal in the relay signal from which the interference is removed in step (b); (d) removing noise generated in steps (b) and (c) and preventing passage of a signal in an edge band where electrical characteristics between the reception filter unit and the compensation filter unit are difficult to match. A transmission filtering step; And and (e) a transmission output step of radiating a transmission signal of which the edge band signal is suppressed in step (d) to a free space through the transmission antenna unit. delete