KR19990058976A - Noise Canceling Device Included in Receive Frequency Circuit of Communication Base Station - Google Patents

Abstract

The present invention provides a reception frequency circuit that cancels a noise signal by applying to a system as a mutual interference signal canceller using two antennas to remove a strong noise signal coming through the reception antenna. A reference signal generator (A) consisting of two receive antennas (8, 9), a vector modulator (14, 15) for vector-modulating the radio frequency signal transmitted from said reference signal generator (A), and said meter-modulated Combiners 10, 11, 23, 24 for combining signals, synchronous phase detectors 20, 21 for detecting noise signals included in the combined signal, and amplifiers 16 to l9 for amplifying the detected noise signals; It consists of a noise signal removal circuit portion (B) consisting of, to cancel the strong noise signal by canceling the mutual noise signal to obtain the effect of removing the strong noise signal introduced into the code division multiple access band.

Description

Noise Canceling Device Included in Receive Frequency Circuit of Communication Base Station

The present invention relates to a noise canceling apparatus included in a reception frequency circuit in a communication base station. In particular, two antennas are applied to a system as a mutual interference canceller to remove a noise signal through a reception antenna. The cancellation timing relates to the reception frequency circuit.

Referring to Figure 1 attached to the conventional reception signal transmission process as follows.

In general, the desired signal and the noise signal included in the signal, which are introduced through the receiving antenna 7 of the communication base station, are amplitude-changed via the bandpass filters 1 and 5, respectively, and the amplitude-changed signal is a low noise amplifier. Amplified into a receivable signal via (2, 6), and then transmitted to the frequency down converter (3).

In this case, the signal converted into the intermediate frequency by the frequency down converter 3 is converted into a base band signal by the band converter 4 and transmitted.

However, in the circuit having the above configuration, a problem arises in that the signal flowing through the receiving antenna 7 includes an interference signal, such as an undesired strong continuous wave (CW), and such interference signal is code-divided. Entering into a multiple access (CDMA) band results in a noise signal, which has a significant effect on the system.

Accordingly, in order to solve the above problems, the present invention relates to a noise canceling apparatus included in a received signal in a communication base station, and in particular, to remove a strong noise signal coming through a receiving antenna, mutual interference using two antennas. It is an object of the present invention to provide a reception frequency circuit that is applied to a system as a signal canceller to cancel a noise signal.

In order to achieve the above object, a form of the present invention provides a reference signal generator comprising two receive antennas, a vector modulator for vector modulating radio frequency signals transmitted from the reference signal generator, and a combiner for combining the vector modulated signals. And a synchronous phase detector configured to detect a noise signal included in the combined signal, and a noise signal cancellation circuit including an amplifier to amplify the detected noise signal.

1 is a block diagram for transmitting a conventional received signal.

2 is a block diagram for transmitting a received signal of the present invention.

* Explanation of symbols for main parts of the drawings

1, 5, 25, 29: bandpass filter

2, 6, 26, 30: low noise amplifier

3, 27: frequency down converter

7, 8, 9: receive antenna

10, 11: bidirectional coupler

23, 24: directional coupler

14, 15: vector modulator

16, 17, 18, 19: amplifier

20, 21: synchronous phase detector

4, 28: band converter

Hereinafter, an embodiment of the present invention will be described in detail.

In the reception frequency circuit shown in FIG. 2, using the two reception antennas 8 and 9 for reception diversity as mutual auxiliary antennas, a reference signal generator A for canceling the mutual interference signal is configured. do.

Each receiving antenna (8, 9) side of the reference signal generator (A) constitutes each of the dual directional coupler (10, 11), each signal introduced through the receiving antenna (8, 9) interference signal Send and receive each other through the canceller (10, 11).

In this case, the code division multiple access reception power is generally at a level of about -100 dBm. A strong noise signal such as AMPS forms a synchronous receiver to detect a noise signal, inverts the phase of the noise signal, and has the same amplitude. To cancel the noise signal.

Referring to the operation principle according to the above configuration in detail as follows.

Of the two receiving antennas 8 and 9, using the receiving antenna 8 as an auxiliary antenna, the received signal introduced through the receiving antenna 8 is connected to the receiving antenna 9 via the vector modulator 14. Via the directional coupler 11 and the directional coupler 24.

The received signal transmitted to the directional coupler 24 is transmitted to the synchronous phase detector 21 again, where the strong noise signal included in the received signal is detected to invert the phase of the signal by 180 degrees.

The noise signal in which the phase is inverted 180 degrees is amplified to have the same amplitude as the noise signal before it is detected through amplifiers 18 and 19, which are then fed back to vector modulator 14, The signal fed back to the vector modulator 14 is transmitted back to the bidirectional coupler 11 and combined with the noise signal flowing through the receiving antenna 9 to thereby receive the noise signal flowing through the receiving antenna 9. Offset.

In the same manner as described above, using the receiving antenna 9 as the auxiliary antenna among the two receiving antennas 8 and 9, the received signal introduced through the receiving antenna 9 is received via the vector modulator 15. In the case of the dual directional coupler 10 and the directional coupler 23 connected to the antenna (8).

The received signal transmitted to the directional coupler 23 is transmitted to the synchronous phase detector 20 again, where the strong noise signal included in the received signal is detected to invert the phase of the signal by 180 degrees.

The noise signal in which the phase is inverted 180 degrees is amplified to have the same amplitude as the noise signal before it is detected through the amplifiers 16 and 17, and this heavy signal is fed back to the vector modulator l5, and the The signal fed back to the vector modulator l5 is transmitted to the dual directional coupler 10 and combined with the noise signal flowing through the receiving antenna 8 to thereby receive the noise signal flowing through the receiving antenna 8. Offset.

Signals in which the noise signal is canceled through the above process are amplitude-changed into a signal that can be received via the respective filters 25 and 29, and the amplitude-changed signal can be received again through the respective low noise amplifiers 26 and 30. After amplified by the signal, it is transmitted to the frequency down converter 27.

Therefore, the reception frequency circuit of the above type can transmit a good reception signal.

In a receive frequency circuit of a communication base station, by applying two antennas as mutual aid antennas to a system as a mutual interference signal canceller, in order to remove the strong noise signal contained in the received signal received through each receive antenna, By canceling the mutual noise signal, the effect of removing the strong noise signal introduced into the code division multiple access band is obtained.

Claims (4)

A reference signal generator A consisting of two receiving antennas 8 and 9, a vector modulator 14 and 15 for vector-modulating the radio frequency signals transmitted from the reference signal generator A, and the vector modulation Combiners 10, 11, 23, 24 for combining the combined signals, synchronous phase detectors 20, 21 for detecting the noise signals included in the combined signal, and amplifiers 16 for amplifying the detected noise signals. And a noise signal canceling circuit section (B) composed of 17, 18, and 19). The apparatus of claim 1, wherein the receiving antennas (8, 9) of the reference signal generator (A) are used as mutual aid antennas. The communication device according to claim 1, characterized in that, among the couplers (10, 11, 23, 24) included in the noise signal canceling circuit section (B), couplers (10, 11) are constituted by dual directional couplers. Noise reduction device included in the reception frequency circuit of the base station. 2. The noise gauging device included in the reception frequency circuit of the communication base station according to claim 1, wherein the noise signal cancellation circuit section (B) is composed of a feedback circuit.