JP2013219577A - Wireless communication device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce station transmission interference generated in a wireless station including a plurality of wireless apparatuses.SOLUTION: A first distributor is provided between a first antenna and a first wireless apparatus, and a second distributor is provided between a second antenna and a second wireless apparatus. A canceller section generating a cancel signal for reducing interference signals, generated when a high frequency signal transmitted by the first or second wireless apparatus is received by a wireless apparatus different from the wireless apparatus transmitted the high frequency signal, is provided between both distributors. Operation of the canceller section is switched depending on the operation state of the first, second wireless apparatus, and controlled by the quality of a reception signal in the first, second wireless apparatus, as required.

Description

  The present invention relates to a wireless communication apparatus.

  In a wireless communication apparatus that employs a method of dividing transmission and reception by frequency division division, the transmission signal may interfere with the reception signal, leading to a decrease in communication quality. An example of a cancellation technique for removing the interference is disclosed in Patent Document 1.

JP 2009-194639 A

  Patent Document 1 describes a technique for generating or generating a signal having the same phase and the same amplitude as a transmission signal and superimposing it on a reception signal, thereby removing or reducing the interference. However, in the wireless communication device disclosed in Patent Document 1, a plurality of wireless communication devices that employ a method of dividing transmission and reception by time-division division are provided in one device (housing) (hereinafter referred to as this). Such a device is called a radio station). Therefore, the phenomenon (hereinafter referred to as intra-station transmission interference) in which one transmission signal in a radio communication apparatus provided in a certain radio station interferes with a reception signal of another radio communication apparatus in the radio station is removed or reduced. There is a problem that it cannot be done.

In order to solve the above problems, for example, the configuration described in the claims is adopted.
Specifically, a wireless communication apparatus that has a plurality of wireless devices and transmits / receives information signals, the first antenna and a transmission / reception unit that processes a high-frequency signal of a predetermined frequency that is transmitted / received using the first antenna And a first radio having a first distributor that mediates between the transceiver and the first antenna, a second antenna, and a high frequency of a predetermined frequency that is transmitted and received using the second antenna. A transmitter / receiver that processes a signal; a second radio that includes a second distributor that mediates between the transmitter / receiver and the second antenna; and a high-frequency signal transmitted by the first radio Generating a first cancel signal for reducing an interference signal generated by being received by another wireless device included in the wireless communication device including two wireless devices, and supplying the first cancellation signal to the second distributor, The second radio Generating a second cancel signal for reducing an interference signal generated by receiving the received high-frequency signal by another wireless device included in the wireless communication device including the first wireless device. A canceller unit for supplying to the distributor, wherein the first distributor is supplied with a high-frequency signal transmitted from a transceiver unit included in the first radio, and the high-frequency signal is at least at a predetermined power ratio. One of the distributed high-frequency signals is supplied to the first antenna, the other one of the distributed high-frequency signals is supplied to the canceller unit, and the first The high frequency signal received by the antenna is supplied, and the second cancel signal is superimposed on the high frequency signal and supplied to the transmission / reception unit of the first wireless device. The second distributor is connected to the second wireless signal. The machine has The high frequency signal transmitted by the unit is supplied, the high frequency signal is distributed into at least two at a predetermined power ratio, one of the distributed high frequency signals is supplied to the second antenna, and the distributed high frequency signal is distributed. The other one of the signals is supplied to the canceller unit, the high frequency signal received by the second antenna is supplied, the first cancel signal is superimposed on the high frequency signal, and the second radio is It supplies to the transmission / reception part which has.

  In the above-described wireless communication device, the canceller unit may change the amplitude or / and phase of the supplied high-frequency signal to generate the first and second cancellation signals, and A first termination circuit that terminates the high-frequency signal supplied from the first distributor; and the high-frequency signal supplied from the first distributor selectively selects the phase amplitude adjustment unit or the first A first switch supplied to one termination circuit, a second termination circuit for terminating the high-frequency signal supplied from the second distributor, and the high-frequency signal supplied from the second distributor. And a second switch that selectively supplies the phase amplitude adjustment unit or the second termination circuit, and a switch control unit that controls operations of the first and second switches. Yes.

  In the above-described wireless communication apparatus, the first wireless device may receive a first transmission flag signal indicating whether the first wireless device is in a transmission state in which the high-frequency signal is transmitted or in a reception state in which the high-frequency signal is received. A second transmission flag is generated and supplied to the switch control unit, and the second wireless device indicates whether the second wireless device is in a transmission state in which the high-frequency signal is transmitted or in a reception state in which it is received. A signal is generated and supplied to the switch controller, and the switch controller based on the supplied first transmission flag signal and second transmission flag signal, the first radio and the second When both radios are in a transmission state, or when both the first radio and the second radio are in a reception state, the first switch is supplied from the first distributor The high-frequency signal generated by the first termination And the second switch controls the first and second switches such that the second switch supplies the high-frequency signal supplied from the second distributor to the second termination circuit, and When one of the first radio and the second radio is in a transmission state, the first switch sends the high-frequency signal supplied from the first distributor to the phase amplitude adjustment unit. And the second switch controls the first and second switches so that the high-frequency signal supplied from the second distributor is supplied to the phase amplitude adjustment unit. .

  Further, in the above-described wireless communication apparatus, the canceller unit includes a phase amplitude adjustment unit that changes the amplitude or / and phase of the supplied high-frequency signal to generate the first and second cancellation signals. The first radio outputs a first reception quality signal indicating the quality of the high frequency signal received by the first radio, and the second radio transmits the second radio Outputs a second reception quality signal indicating the quality of the high-frequency signal received by the wireless communication device, determines the first and second reception quality signals, and the phase amplitude adjustment unit controls the high-frequency signal. A signal quality determination unit is provided that generates a control signal for controlling the amount of amplitude or / and phase change and supplies the control signal to the phase amplitude adjustment unit.

  According to the present invention, it is possible to remove or reduce the influence of intra-station transmission interference and to contribute to the improvement of the basic performance of the wireless communication apparatus.

1 is a diagram illustrating an example of a configuration of a wireless station in Embodiment 1. FIG. 6 is a diagram illustrating an example of an operation of a switch control unit in Embodiment 1. FIG. 3 is a diagram illustrating an example of a configuration of a phase amplitude adjustment unit in Embodiment 1. FIG. 10 is a diagram illustrating an example of a configuration of a radio station in Embodiment 2. FIG. FIG. 10 is a diagram illustrating an example of a configuration of a phase amplitude adjustment unit in the second embodiment. 10 is a diagram illustrating an example of a configuration of a wireless station in Embodiment 3. FIG.

  Embodiments according to the present invention will be described below with reference to the drawings.

FIG. 1 is a block diagram showing an example of the configuration of the radio station according to the first embodiment of the present invention. As shown in FIG. 1, a radio station 101 according to the present embodiment includes a radio device 104a and a radio device 104b having a function of transmitting and receiving a predetermined high-frequency signal, and a phase of the high-frequency signal input from the radio device 104a. A canceller unit 105 having a function of adjusting the amplitude and outputting to the radio unit 104b and a function of adjusting the phase and / or amplitude of the high-frequency signal input from the radio unit 104b and outputting the radio signal to the radio unit 104a A control unit 103 having a function of managing data transmitted / received by the wireless device 104a and the wireless device 104b, at least one antenna 102a used when the wireless device 104a transmits and receives a high-frequency signal, and the wireless device At least one antenna 102b used when 104b transmits and receives high frequency signals Provided. Further, the wireless device 104a and the wireless device 104b multiplex and multiplex the high-frequency signal for transmission and the high-frequency signal for reception by time division multiplexing.
Further, the wireless device 104a includes at least one transmission / reception unit 106a, a modem unit 107a, and an access control unit 108a, and the wireless device 104b includes a transmission / reception unit 106b, a modem unit 107b, and an access control unit 108b. , At least one each.

  The control unit 103 is connected to the access control unit 108a and the access control unit 108b, and has a function of controlling operations of the wireless device 104a and the wireless device 104b. The control unit 103 also has a function of managing data transmitted and received by the wireless device 104a and the wireless device 104b and inputting / outputting data to / from the access control unit 108a and the access control unit 108b. In addition, the control unit 103 may be connected to a calculation device such as a personal computer (not shown), or some measurement device, or a sensor device such as a thermometer by wired or wireless connection, and the data is transmitted to the device. A function for transmitting and receiving data may be provided.

The access control unit 108a is connected to the modulation / demodulation unit 107a and has a function of inputting / outputting the data to / from the modulation / demodulation unit 107a. Although not shown, the access control unit 108a is connected to the transmission / reception unit 106a and the modulation / demodulation unit 107a through control lines, and has a function of controlling the transmission / reception unit 106a and the modulation / demodulation unit 107a.
The access control unit 108b is connected to the modulation / demodulation unit 107b and has a function of inputting / outputting the data to / from the modulation / demodulation unit 107b. Although not shown, the access control unit 108b is connected to the transmission / reception unit 106b and the modulation / demodulation unit 107b via control lines, and has a function of controlling the transmission / reception unit 106b and the modulation / demodulation unit 107b.

The modulation / demodulation unit 107a is connected to the transmission / reception unit 106a, demodulates the signal input from the transmission / reception unit 106a to the data and outputs the data to the access control unit 109a, and the data input from the access control unit 108a. A function of modulating and outputting to the transmission / reception unit 106a is provided. Further, the modem unit 107a has a function of outputting a transmission flag signal a indicating whether the wireless device 104a is in a transmission state where the high frequency signal is being transmitted or a reception state where it is being received.
The modem unit 107b is connected to the transmission / reception unit 106b, demodulates the signal input from the transmission / reception unit 106b to the data and outputs the data to the access control unit 109b, and the data input from the access control unit 108b. A function of modulating and outputting to the transmission / reception unit 106b is provided. Further, the modem unit 107b has a function of outputting a transmission flag signal b indicating whether the wireless device 104b is in a transmission state in which the high-frequency signal is being transmitted or in a reception state in which it is being received.

The transmission / reception unit 106a is connected to the distributor 113a, converts the modulated signal input from the modem unit 107a into the high-frequency signal having a predetermined amplitude / frequency, and outputs it to the distributor 113a. A function of converting the signal output from the distributor 113a into a predetermined amplitude / frequency and outputting the converted signal to the modem unit 107a.
The transmission / reception unit 106b is connected to the distributor 113b, and converts the modulated signal input from the modem unit 107b into the high-frequency signal having a predetermined amplitude / frequency and outputs it to the distributor 113b. A function of converting the signal output from the distributor 113b into a predetermined amplitude / frequency and outputting the signal to the modem unit 107b.

The distributor 113a is connected to three components, that is, the transmission / reception unit 106a, the antenna 102a, and the canceller unit 105. The signal input from any one of the three components is used as the remaining two components. A function of distributing the power to the elements at a predetermined power ratio, and a function of synthesizing signals input from any two of the three components and outputting them to the remaining one component.
The distributor 113b is connected to three components, that is, the transmission / reception unit 106b, the antenna 102b, and the canceller unit 105. The signal input from any one of the three components is used as the remaining two components. A function of distributing the power to the elements at a predetermined power ratio, and a function of synthesizing signals input from any two of the three components and outputting them to the remaining one component.

The antenna 102a is connected to the distributor 113a, and has a function of receiving the high-frequency signal and outputting it to the distributor 113a, and a function of transmitting the signal output from the distributor 113a as the high-frequency signal.
The antenna 102b is connected to the distributor 113b, and has a function of receiving the high-frequency signal and outputting it to the distributor 113b, and a function of transmitting the signal output from the distributor 113b as the high-frequency signal.

The canceller unit 105 includes a switch 109a, a switch 109b, a phase amplitude adjustment unit 110, a termination circuit 111a, a termination circuit 111b, and a switch control unit 112.
The switch 109a is connected to the switch control unit 112, the phase amplitude adjustment unit 110, the termination circuit 111a, and the distributor 113a, and the destination to which the distributor 113a is connected is controlled by the switch control unit 112. , A function of selecting one of the phase amplitude adjustment unit 110 and the termination circuit 111a is provided.

  The switch 109b is connected to the switch control unit 112, the phase amplitude adjustment unit 110, the termination circuit 111b, and the distributor 113b, and the destination to which the distributor 113b is connected is controlled by the switch control unit 112. , A function of selecting one of the phase amplitude adjustment unit 110 and the termination circuit 111b is provided.

The phase amplitude adjusting unit 110 adjusts the phase and / or amplitude of the high-frequency signal transmitted from the radio device 104a input via the switch 109a, and outputs the adjusted signal to the radio device 104b via the switch 109b. And a function of adjusting the phase and / or amplitude of the high-frequency signal transmitted from the radio device 104b input via the switch 109b and outputting the signal to the radio device 104a via the switch 109a.
The termination circuit 111a is, for example, a termination resistor device, and has a function of suppressing reflection of the high-frequency signal input via the switch 109a toward the distributor 113a.
The termination circuit 111b is, for example, a termination resistor device, and has a function of suppressing reflection of the high-frequency signal input via the switch 109b toward the distributor 113b.

The switch control unit 112 receives the transmission flag signal a and the transmission flag signal b, and controls the switch 109a and the switch 109b according to the state of the transmission flag signal a and the transmission flag signal b and a predetermined procedure. It has a function. Here, the operation of the switch control unit 112 will be described with reference to FIG.
FIG. 2 is a table showing the states of the switch 109a and the switch 109b to be controlled by the switch control unit 110 according to the state of the wireless device 104a and the wireless device 104b indicated by the transmission flag signal a and the transmission flag signal b. . As shown in FIG. 2, when both the radio device 104a and the radio device 104b are in the transmission state, or when both the radio device 104a and the radio device 104b are in the reception state, the switch control unit 110 switches the switch 109a. Both the switch 109b and the switch 109b are controlled to be connected to the termination circuit 111a or the termination circuit 111b. On the other hand, when only one of the radio device 104a and the radio device 104b is in the transmission state, the switch control unit 110 performs control so that both the switch 109a and the switch 109b are connected to the phase amplitude adjustment unit 110.

Next, in the wireless station 101 according to the present invention, details of an operation for removing or reducing the influence of intra-station transmission interference in which the high-frequency signal transmitted by the wireless device 104a interferes with the high-frequency signal received by the wireless device 104b. A description will be given with reference to FIG.
The access control unit 108a outputs data to be transmitted to the modem unit 107a.
The modem unit 107a modulates the data to be transmitted to generate a modulated signal. Furthermore, at the same time as outputting the modulated signal to the transmitting / receiving unit 106a, the switch control unit 112 is notified of the transmission state using the transmission flag signal a.

The transmission / reception unit 106a converts the modulated signal into a transmission high-frequency signal having a predetermined amplitude / frequency and outputs it to the antenna 102a. At the same time, the transmission high-frequency signal is also output to the switch 109a via the distributor 113a.
The transmission high-frequency signal output from the antenna 102a may be received by the wireless device 104b, and becomes an interference signal with respect to a reception signal transmitted from another wireless device (not shown) that should be received by the wireless device 104b. The signal quality of the received signal that should be received is degraded.
On the other hand, the transmission high-frequency signal output also to the switch 109a via the distributor 113a is output to the termination circuit 111a or the phase amplitude adjustment unit 110.

The transmission high-frequency signal output to the phase amplitude adjustment unit 110 is subjected to predetermined phase adjustment and / or amplitude adjustment by the phase amplitude adjustment unit 110 and is superimposed on the interference signal to attenuate the interference signal. The cancel signal is output to the switch 109b.
The cancel signal output to the switch 109b is superimposed on the interference signal in the distributor 113b via the switch 109b, attenuates the interference signal, and suppresses deterioration of the signal quality of the received signal that should be originally received. Therefore, the influence of the intra-station transmission interference can be removed or reduced.
It should be noted that by reversing the transmission / reception operations of the wireless device 104a and the wireless device 104b in the above procedure, the interference that the transmission signal of the wireless device 104b gives to the received signal of the wireless device 104a is attenuated in the same manner as in the above procedure. A similar effect is obtained.

In a wireless communication apparatus that employs a method of dividing transmission and reception by time division division, when a single wireless device is included in one apparatus (housing), the phenomenon that the transmission signal becomes an interference signal with respect to the reception signal is In principle, it does not occur. However, in the case of a wireless station having a plurality of wireless devices in one apparatus (housing) as shown in FIG. 1, transmission and reception timings are generally different among the plurality of wireless devices. For this reason, when one wireless device performs a transmission operation and the other wireless device performs a reception operation, the former transmission signal often becomes an interference signal with respect to the latter reception signal. Therefore, in the present embodiment, as shown in FIG. 2, the switch control unit 112 controls the switch 109a and the switch 109b. As a result, when one radio apparatus performs a transmission operation and another radio apparatus performs a reception operation, the canceller 105 performs an interference signal cancel operation.
On the other hand, when both the radio devices perform a transmission operation or a reception operation, the cancel operation is not necessary, and one end of each of the distributors 113a and 113b is connected to the termination resistors 111a and 111b. Thereby, the signal supplied to the canceller 105 is prevented from being reflected to the radio devices 113a and 113b.

Next, an example of a detailed configuration of the phase amplitude adjustment unit 110 shown in the present embodiment will be described with reference to FIG.
FIG. 3 is a configuration diagram illustrating an example of a detailed configuration of the phase amplitude adjustment unit 110.
In the present embodiment, the phase amplitude adjustment unit 110 includes a passive circuit 1, a passive circuit 2, a passive circuit 3, a fixed-length transmission line X1, and a fixed-length transmission line X2.
The passive circuit 1 includes a capacitor C1, a coil L1, a capacitor C2, and a coil L2, and has a function of rotating the phase of a high-frequency signal passing through the passive circuit 1.

The passive circuit 2 includes a capacitor C3, a coil L3, a capacitor C4, and a coil L4, and has a function of rotating the phase of a high-frequency signal that passes through the passive circuit 2.
The passive circuit 3 includes a resistor R1, a resistor R2, and a resistor R3, and has a function of changing the amplitude of a high-frequency signal that passes through the passive circuit 3.
The phase of the transmission high-frequency signal input from the switch 109a is rotated by passing through the passive circuit 1, and then the phase is further rotated by passing through the fixed-length transmission line X1, and then the passive circuit 3 Passing through the fixed length transmission line X2 further rotates the phase, and then passing through the passive circuit 2 further rotates the phase.

  The phase amplitude adjustment unit 110 in the present embodiment adjusts the phase and / or amplitude of the high-frequency signal transmitted by the radio device 104a input via the switch 109a by adopting the configuration described above. The function of outputting to the radio device 104b via the switch 109b and the phase and / or amplitude of the high-frequency signal transmitted from the radio device 104b input via the switch 109b are adjusted, and the signal is transmitted via the switch 109a. And a function of outputting to the wireless device 104a.

The configuration of the phase amplitude adjusting unit 110 is an example, and includes a passive circuit in which one or more capacitors, coils, resistors, or other passive elements similar thereto are combined, and an active element similar to a transistor or a switch element. A predetermined number of active circuits used, a transmission line having a predetermined line length, and the like may be combined in a predetermined order.
According to the configuration of the wireless communication device shown in the present embodiment, in a wireless station having a plurality of wireless communication devices having a function of transmitting and receiving a high-frequency signal, one of the wireless communication devices provided in the wireless station It is possible to eliminate or reduce the influence of intra-station transmission interference in which the transmission signal interferes with the reception signal of another radio communication device in the radio station.

FIG. 4 is a block diagram showing an example of the second embodiment of the configuration of the radio station according to the present invention. In FIG. 4, the same reference numerals are given to the portions corresponding to the components of the first embodiment shown in FIG.
Hereinafter, with reference to FIG. 4, the configuration of radio station 101 in the present embodiment will be described in detail for the parts that are different from the first embodiment.

The radio station 101 shown in FIG. 4 includes a signal quality determination unit 401 as a component of the canceller unit 105 as a part different from the radio station 101 shown in FIG.
The modulation / demodulation unit 107a included in the wireless device 104a has a function of outputting reception quality information a indicating the quality of the signal received by the wireless device 104a. The modulation / demodulation unit 107b included in the wireless device 104b includes the function of the wireless device 104b. The reception quality information b indicating the quality of the received signal is provided. The reception quality information a and the reception quality information b are both input to the signal quality determination unit 401.
The signal quality determination unit 401 has a function of determining the quality of the signal received by the wireless device 104a and the quality of the signal received by the wireless device 104b based on the reception quality information a and the reception quality information b. Furthermore, a function of outputting a control signal for controlling the phase amplitude adjustment unit 110-2 based on the result of the determination is provided.

  The phase / amplitude adjustment unit 110-2 determines the phase and / or amplitude of the high-frequency signal transmitted from the radio device 104a input via the switch 109a based on the control signal output from the signal quality determination unit 401. And the phase and / or amplitude of the high-frequency signal transmitted from the radio device 104b input via the switch 109b and the signal output to the radio device 104b via the switch 109b. And a function of adjusting to a predetermined value based on a control signal output from the quality determination unit 401 and outputting it to the radio device 104a via the switch 109a. Here, the canceller 105 is adaptively controlled based on the actual reception quality using the reception quality information a and the reception quality information b. As a result, the phase amplitude adjustment unit 110-2 in the present embodiment can attenuate the interference signal to a greater extent than the phase amplitude adjustment unit 110 in the first embodiment. The influence of interference can be removed or reduced.

Next, an example of a detailed configuration of the phase amplitude adjustment unit 110-2 shown in the present embodiment will be described with reference to FIG.
FIG. 5 is a configuration diagram illustrating an example of a detailed configuration of the phase amplitude adjustment unit 110-2.
In the present embodiment, the phase amplitude adjustment unit 110-2 includes a passive circuit 1-2, a passive circuit 2-2, a passive circuit 3-2, a fixed length transmission line X1, a fixed length transmission line X2, It has.

The passive circuit 1-2 includes a capacitor C1, a coil L1, a variable capacitor C2-2, and a coil L2, and the capacitance of the variable capacitor 2-2 is determined based on the control signal output from the signal quality determination unit 401. It has a function to change the value. Thereby, the passive circuit 1-2 has a function of changing the amount by which the phase of the high-frequency signal passing through the passive circuit 1-2 is rotated based on the control signal.
The passive circuit 2-2 includes a capacitor C3, a coil L3, a variable capacitor C4-2, and a coil L4. Based on the control signal output from the signal quality determination unit 401, the passive circuit 2-2 has a capacitance of the variable capacitor 4-2. It has a function to change the value. Thereby, the passive circuit 2-2 has a function of changing the amount by which the phase of the high-frequency signal passing through the passive circuit 2-2 is rotated based on the control signal.
The passive circuit 3-2 includes a resistor R1, a resistor R2, and a variable resistor R3-2, and has a function of changing the resistance value of the variable resistor 3-2 based on the control signal output from the signal quality determination unit 401. It has. As a result, the passive circuit 3-2 has a function of changing the amount by which the amplitude of the high-frequency signal passing through the passive circuit 3-2 is changed based on the control signal.
In the phase amplitude adjustment unit 110-2 in FIG. 5, in order to perform control using the reception quality information a and the reception quality information b, some of the circuit elements included in the phase amplitude adjustment unit 110-2 have values. This is different from the phase amplitude adjustment unit 110 in FIG.

  The phase of the transmission high-frequency signal input from the switch 109a is rotated by passing through the passive circuit 1-2, then the phase is further rotated by passing through the fixed-length transmission line X1, and then passively By passing through the circuit 3-2, the amplitude is changed, and then the phase is further rotated by passing through the fixed-length transmission line X 2, and then the phase is further passed by passing through the passive circuit 2-2. Rotate. Further, the amount of phase rotation caused by the transmission high-frequency signal passing through the passive circuit 1-2 and the passive circuit 2-2 can be changed based on the control signal output from the signal quality determination unit 401 as described above. it can. Further, the amount of change in amplitude due to the transmission high-frequency signal passing through the passive circuit 3-2 can be changed based on the control signal output from the signal quality determination unit 401 as described above.

The phase / amplitude adjustment unit 110-2 in the present embodiment adopts the above-described configuration, so that the phase and / or amplitude of the high-frequency signal transmitted from the radio device 104a input via the switch 109a is a signal. A function of adjusting to a predetermined value based on a control signal output from the quality determination unit 401 and outputting to the wireless device 104b via the switch 109b and a wireless device 104b input via the switch 109b transmit A function of adjusting the phase and / or amplitude of the high-frequency signal to a predetermined value based on a control signal output from the signal quality determination unit 401 and outputting the adjusted signal to the radio device 104a via the switch 109a. .
The configuration of the phase amplitude adjusting unit 110-2 is just an example, and a passive circuit combining one or more capacitors, coils, resistors, or other passive elements similar thereto, and an active similar to a transistor or a switch element. A predetermined number of active circuits using elements, a transmission line having a predetermined line length, and the like may be combined in a predetermined order.

The reception quality information a and the reception quality information b may be signal strengths of the reception signals received by the radio device 104a and the radio device 104b, for example, or C / N (Carrier to Noise Ratio), Alternatively, it may be S / N (Signal to Noise Ratio), EVM (Error Vector Magnitude), PER (Packet Error Rate), BER (Bit Error Rate), or other received signal quality. It may be information.
In the present embodiment shown in FIG. 4, the reception quality information a and the reception quality information b are output from the modem unit 107a and the modem unit 107b. For example, from the access control unit 108a and the access control unit 108b It may be output, or may be output from other components in the present embodiment.
According to the configuration of the wireless communication device shown in the present embodiment, in a wireless station having a plurality of wireless communication devices having a function of transmitting and receiving a high-frequency signal, one of the wireless communication devices provided in the wireless station It is possible to eliminate or reduce the influence of intra-station transmission interference in which the transmission signal interferes with the reception signal of another radio communication device in the radio station.

FIG. 6 is a block diagram showing an example of the third embodiment of the configuration of the radio station according to the present invention. In FIG. 6, parts corresponding to those of the first and second embodiments shown in FIGS. 1 and 4 are denoted by the same reference numerals.
Hereinafter, with reference to FIG. 6, the configuration of radio station 101 in the present embodiment will be described in detail for parts different from those in the first embodiment and the second embodiment.

The radio station 101 shown in FIG. 6 is different from the radio station 101 shown in FIGS. 1 and 4, and the canceller unit 105-3 does not include the switch control unit 112, but only the phase amplitude adjustment unit 110. I have.
The wireless device 104a does not include the distributor 113a and includes the directional coupler 601a, and the wireless device 104b does not include the distributor 113b and includes the directional coupler 601b.

In this embodiment, the transmission / reception unit 106a is connected to a directional coupler 601a, and the modulated signal input from the modulation / demodulation unit 107a is converted into the high-frequency signal having a predetermined amplitude / frequency to perform directional coupling. And a function of converting a signal output from the directional coupler 601a into a predetermined amplitude / frequency and outputting the signal to the modem unit 107a.
The transmission / reception unit 106b is connected to the directional coupler 601b, converts the modulated signal input from the modulation / demodulation unit 107b into the high-frequency signal having a predetermined amplitude / frequency and outputs it to the directional coupler 601b. And a function of converting the high-frequency signal from the directional coupler 601b into a predetermined amplitude / frequency and outputting it to the modem unit 107b.

  The directional coupler 601a is connected to the antenna 102a and the canceller unit 105-3, and distributes the high-frequency signal input from the transmission / reception unit 106a to the antenna 102a and the canceller unit 105-3 with a predetermined power ratio; The high-frequency signal input from the antenna 102a and the signal input from the canceller unit 105-3 are superimposed, and the superimposed signal is output to the transmission / reception unit 106a. The directional coupler 601a does not output the high-frequency signal input from the antenna 102a to the canceller unit 105-3 and does not output the signal input from the canceller unit 105-3 to the antenna 102a.

  The directional coupler 601b is connected to the antenna 102b and the canceller unit 105-3, and distributes the high-frequency signal input from the transceiver unit 106b to the antenna 102b and the canceller unit 105-3 at a predetermined power ratio. The high-frequency signal input from the antenna 102b and the signal input from the canceller unit 105-3 are superimposed, and the superimposed signal is output to the transmission / reception unit 106b. The directional coupler 601b does not output the high-frequency signal input from the antenna 102b to the canceller unit 105-3 and does not output the signal input from the canceller unit 105-3 to the antenna 102b.

Next, in the wireless station 101 shown in the present embodiment, details of an operation for removing or reducing the influence of intra-station transmission interference in which the high-frequency signal transmitted by the wireless device 104a interferes with the high-frequency signal received by the wireless device 104b. Will be described with reference to FIG.
The access control unit 108a outputs data to be transmitted to the modem unit 107a.
The modem unit 107a modulates the data to be transmitted to generate a modulated signal. Further, the modulated signal is output to the transmitting / receiving unit 106a.

The transmission / reception unit 106a converts the modulated signal into a transmission high-frequency signal having a predetermined amplitude / frequency and outputs it to the antenna 102a via the directional coupler 601a. At the same time, the transmission high-frequency signal is also output to the phase amplitude adjustment unit 110 via the directional coupler 601a.
The transmission high-frequency signal output from the antenna 102a may be received by the wireless device 104b, and becomes an interference signal with respect to a reception signal transmitted from another wireless device (not shown) that should be received by the wireless device 104b. The signal quality of the received signal that should be received is degraded.

On the other hand, the transmission high-frequency signal output to the phase amplitude adjustment unit 110 via the directional coupler 601a is subjected to predetermined phase adjustment and / or amplitude adjustment by the phase amplitude adjustment unit 110, and superimposed on the interference signal. As a result, the interference signal is output to the directional coupler 601b as a cancel signal that can attenuate the interference signal. The cancel signal is superimposed on the interference signal in the directional coupler 601b, attenuates the interference signal, and suppresses deterioration in signal quality of the received signal that should be originally received. The effect can be removed or reduced.
It should be noted that by reversing the transmission / reception operations of the wireless device 104a and the wireless device 104b in the above procedure, the interference that the transmission signal of the wireless device 104b gives to the received signal of the wireless device 104a is attenuated in the same manner as in the above procedure. A similar effect is obtained.

According to the configuration of the wireless communication device shown in the present embodiment, in a wireless station having a plurality of wireless communication devices having a function of transmitting and receiving a high-frequency signal, one of the wireless communication devices provided in the wireless station It is possible to eliminate or reduce the influence of intra-station transmission interference in which the transmission signal interferes with the reception signal of another radio communication device in the radio station.
In addition, this invention is not limited to each above-mentioned Example, Various modifications are included. For example, each of the above-described embodiments has been described in detail for easy understanding of the present invention, and is not necessarily limited to one having all the configurations described. Further, a part of the configuration of one embodiment can be replaced with the configuration of another embodiment, and the configuration of another embodiment can be added to the configuration of one embodiment. Further, it is possible to add, delete, and replace other configurations for a part of the configuration of each embodiment.

Each of the above-described configurations, functions, processing units, processing means, and the like may be realized by hardware by designing a part or all of them with, for example, an integrated circuit. Each of the above-described configurations, functions, and the like may be realized by software by interpreting and executing a program that realizes each function by the processor. Information such as programs, tables, and files for realizing each function can be stored in a memory, a hard disk, a recording device such as an SSD (Solid State Drive), or a recording medium such as an IC card, an SD card, or a DVD.
Further, the control lines and information lines indicate what is considered necessary for the explanation, and not all the control lines and information lines on the product are necessarily shown. Actually, it may be considered that almost all the components are connected to each other.

  101: Radio station, 102a: Antenna, 102b: Antenna, 103: Controller, 104a: Radio, 104b: Radio, 105: Canceller, 106a: Transmitter / receiver, 106b: Transmitter / receiver, 107a: Modulator / demodulator, 107b: Modulator / Demodulator 108a: Access Control Unit 108b: Access Control Unit 109a: Switch 109b: Switch 110: Phase Amplitude Adjustment Unit 110-2: Phase Amplitude Adjustment Unit 111a: Termination Circuit 111b: Termination Circuit 112 : Switch control unit, 113a: distributor, 113b: distributor, 401: signal quality determination unit, 601a: directional coupler, 601b: directional coupler.

Claims (5)

A wireless communication device having a plurality of wireless devices for transmitting and receiving information signals,
A first antenna;
A first radio including a transmission / reception unit that processes a high-frequency signal of a predetermined frequency to be transmitted / received using the first antenna, and a first distributor that mediates the transmission / reception unit and the first antenna;
A second antenna;
A second radio including a transmission / reception unit that processes a high-frequency signal of a predetermined frequency to be transmitted / received using the second antenna, and a second distributor that mediates the transmission / reception unit and the second antenna;
A first cancel signal for reducing an interference signal generated when a high-frequency signal transmitted from the first radio is received by another radio included in the radio communication apparatus including the second radio Is generated and supplied to the second distributor, and the high-frequency signal transmitted by the second radio is received by another radio included in the radio communication device including the first radio. A canceller unit that generates a second cancellation signal for reducing the generated interference signal and supplies the second cancellation signal to the first distributor,
The first distributor is:
A high-frequency signal transmitted from a transmission / reception unit included in the first wireless device is supplied, the high-frequency signal is distributed into at least two at a predetermined power ratio, and one of the distributed high-frequency signals is distributed to the first The other one of the distributed high-frequency signals supplied to the antenna is supplied to the canceller unit, the high-frequency signal received by the first antenna is supplied, and the second cancel signal is superimposed on the high-frequency signal. And supply to the transceiver unit of the first radio,
The second distributor is
A high-frequency signal transmitted from a transmission / reception unit included in the second wireless device is supplied, the high-frequency signal is distributed into at least two at a predetermined power ratio, and one of the distributed high-frequency signals is distributed to the second The other one of the distributed high-frequency signals supplied to the antenna is supplied to the canceller unit, the high-frequency signal received by the second antenna is supplied, and the first cancel signal is superimposed on the high-frequency signal. And supply to the transceiver unit of the second radio,
The canceller part
A phase / amplitude adjustment unit that changes the amplitude or / and phase of the supplied high-frequency signal to generate the first and second cancellation signals;
A first termination circuit for terminating the high-frequency signal supplied from the first distributor;
A first switch that selectively supplies the high-frequency signal supplied from the first distributor to the phase amplitude adjustment unit or the first termination circuit;
A second termination circuit for terminating the high-frequency signal supplied from the second distributor;
A second switch for selectively supplying the high-frequency signal supplied from the second distributor to the phase amplitude adjusting unit or the second termination circuit;
And a switch control unit that controls operations of the first and second switches. The wireless communication device according to claim 1,
The first radio is
A first transmission flag signal indicating whether the first wireless device is in a transmission state for transmitting the high-frequency signal or a reception state for reception, and supplies the first transmission flag signal to the switch control unit;
The second radio is
A second transmission flag signal indicating whether the second wireless device is in a transmission state for transmitting the high-frequency signal or a reception state for reception, and supplies the second transmission flag signal to the switch control unit;
The switch control unit, based on the supplied first transmission flag signal and second transmission flag signal,
When both the first radio and the second radio are in a transmission state, or when both the first radio and the second radio are in a reception state, the first radio The switch supplies the high-frequency signal supplied from the first distributor to the first termination circuit, and the second switch supplies the high-frequency signal supplied from the second distributor to the second terminal circuit. Controlling the first and second switches to supply a termination circuit of
When one of the first radio and the second radio is in a transmission state, the first switch sends the high-frequency signal supplied from the first distributor to the phase amplitude adjustment unit. And the second switch controls the first and second switches so that the high-frequency signal supplied from the second distributor is supplied to the phase amplitude adjustment unit. Wireless communication device. The wireless communication device according to claim 1,
The canceller part
A phase amplitude adjusting unit that generates the first and second cancellation signals by changing the amplitude or / and phase of the supplied high-frequency signal;
The first radio is
Outputting a first reception quality signal indicating the quality of the high-frequency signal received by the first wireless device;
The second radio is
Outputting a second reception quality signal indicating the quality of the high frequency signal received by the second radio,
The wireless communication device
The first and second reception quality signals are determined, and the phase amplitude adjustment unit generates a control signal for controlling an amplitude or / and an amount of phase change of the high-frequency signal. A wireless communication apparatus comprising: a signal quality determination unit supplied to the unit.   4. The radio communication apparatus according to claim 3, wherein the signal quality determination unit sets the received signal quality to at least one of signal strength, C / N, S / N, EVM, PER, and BER of the received signal. The wireless communication apparatus is characterized in that the determination is made based on the two.   The wireless communication apparatus according to claim 1, wherein the first distributor and the second distributor are directional couplers.

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