JP2003142920A - Adaptive array antenna - Google Patents

Abstract

PROBLEM TO BE SOLVED: To correct the whole transmitting device only by the transmitting device alone. SOLUTION: Before operation, a receiving device is used to correct the whole transmitting device including antenna elements and correct the transmitting device except parts between the antenna elements and a coupler and thus amplitude and phase value data are obtained, and amplitude and phase values of respective branches between the antenna elements and coupler are found and their data are stored in transmit signal processing. Consequently, the transmitting device along is only corrected in the operation except the parts between the antenna elements and coupler to correct the whole transmitting device by using the stored amplitude and phase value data.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an antenna device used for mobile communication base stations and the like.

[0002]

2. Description of the Related Art FIG. 5 shows, for example, Japanese Patent Application Laid-Open No. 2001-1859.
It is a figure which shows the structure of the conventional array antenna shown by the 33rd gazette. In FIG. 5, 1 is an antenna element, 2 is a coupler, 3 is a transmission converter, 19 is a transmitter calibration calculation unit, 20 is a calculation unit, 21 is an amplitude error, and 22 is a phase error.

As shown in this figure, when the calibration of each branch of the adaptive array antenna is performed by the transmitter alone, the transmission signal is branched by a coupler or the like to obtain the amplitude error and the phase error of each branch, It is returned to the calculation unit for calibration.

[0004]

In the conventional adaptive array antenna, since the amplitude phase difference between the branches between the antenna element and the coupler has not been calibrated, the transmitted wave between the branches output from the antenna element is not calibrated. Had a problem that the amplitude and phase were not uniform.

The present invention has been made in order to solve the above problems, and an adaptive array antenna can be calibrated including an antenna element and a coupler by a single adaptive array antenna during actual operation. The purpose is to provide.

[0006]

The adaptive array antenna according to the first invention can output n (where n is an integer of 2 or more) transmission signals and can input calibration reception signals. A signal processing device unit, a transmission converter, a coupler, and an antenna element for the n transmission signals output from the signal processing device unit, and a combiner for combining the signals branched from the coupler, Along with the adaptive array antenna consisting of a calibration receiving converter for inputting the output signal of the combiner to the signal processing unit, the antenna that receives the transmission wave of the adaptive array antenna before actual operation and the frequency of the received signal A receiving device is provided which is made up of a receiving converter which is converted and input to the adaptive array antenna.

The adaptive array antenna according to the second invention is capable of outputting n (where n is an integer of 2 or more) transmission signals and inputting a calibration reception signal. For the n transmission signals output from the signal processing unit, a transmission converter, a coupler,
And an adaptive array antenna having an antenna element and comprising a switch for selecting each transmission signal branched from this coupler and a calibration reception converter for inputting the output signal of this switch to the signal processing unit, and Before operation, an antenna for receiving the transmission wave of the adaptive array antenna and a receiving device including a receiving converter for frequency-converting the received signal and inputting the converted signal to the adaptive array antenna are provided.

The adaptive array antenna according to the third aspect of the present invention includes a signal processing unit capable of receiving n (where n is an integer of 2 or more) received signals and outputting a calibration transmission signal. A calibration transmission converter that has a reception converter, a coupler, and an antenna element for the n received signals input to the signal processing unit, and performs frequency conversion of the signal output from the signal processing unit, and the calibration. For the adaptive array antenna composed of a distributor that distributes the output of the transmission converter for each coupler, the transmission converter that frequency-converts the signal input from the adaptive array antenna before actual operation, and the output signal of this transmission converter A transmitting device including an antenna for transmitting is provided.

The adaptive array antenna according to the fourth aspect of the present invention includes a signal processing unit capable of inputting n (where n is an integer of 2 or more) received signals and outputting a calibration transmission signal. A calibration transmission converter that has a reception converter, a coupler, and an antenna element for the n received signals input to the signal processing unit, and performs frequency conversion of the signal output from the signal processing unit, and the calibration. With an adaptive array antenna composed of a switch for distributing the output of the transmission converter for each coupler, a transmission converter that frequency-converts the signal input from the adaptive array antenna before actual operation,
A transmitting device including an antenna for transmitting the output signal of the transmitting converter is provided.

[0010]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiment 1. 1 is a configuration diagram of an adaptive array antenna showing a first embodiment of the present invention. 1 is an antenna element, 2 is a coupler, 3 is a transmission converter, 4 is a signal processing unit, 5 is a combiner, 6 is a calibration reception converter, 7 is an antenna, 8 is a reception converter, 9 is an adaptive array antenna, 10 is It is a receiving device.

The signal transmitted from the signal processing unit 4 is frequency-converted by the transmission converter 3 and is transmitted from the antenna element 1 through the coupler 2. The signals sequentially transmitted one by one from each antenna element 1 are received by the antenna 7, frequency-converted by the reception converter 8 and the amplitude / phase value data is stored in the signal processing unit 4. On the other hand, the signal branched by the coupler 2 passes through the combiner 5 and is frequency-converted by the calibration reception converter 6, and the amplitude / phase value data is stored in the signal processing unit 4. By comparing the two amplitude / phase value data stored in the signal processing unit 4, the amplitude / phase difference of each branch from the antenna element 1 to the coupler 2 can be obtained. Save the data of.

By combining the stored amplitude / phase difference data of each branch and the amplitude / phase value data obtained by branching by the coupler 2 in the adaptive array antenna 9 during actual operation, the adaptive array antenna 9 alone can be used. It is possible to calibrate the entire system of the adaptive array antenna 9.

Embodiment 2. Second Embodiment FIG. 2 is a configuration diagram of an adaptive array antenna showing a second embodiment of the present invention.
Descriptions of the same reference numerals as in the first embodiment will be omitted. Reference numeral 11 is a switch, and 12 is an adaptive array antenna.

The signal transmitted from the signal processing unit 4 is frequency-converted by the transmission converter 3 and is transmitted from the antenna element 1 through the coupler 2. The signals sequentially transmitted one by one from each antenna element 1 are received by the antenna 7, frequency-converted by the reception converter 8 and the amplitude / phase value data is stored in the signal processing device unit 4. On the other hand, the signal branched by the coupler 2 is sent to the switch 11
And the frequency is converted by the calibration receiving converter 6, and the amplitude / phase value data is stored in the signal processing unit 4. By comparing the two amplitude / phase value data stored in the signal processing unit 4, the amplitude / phase difference of each branch from the antenna element 1 to the coupler 2 can be obtained. Save the data of.

By combining the stored amplitude / phase difference data of each branch and the amplitude / phase value data obtained by branching by the coupler 2 in the adaptive array antenna 12 during actual operation, the adaptive array antenna 12
It becomes possible to calibrate the entire system of the adaptive array antenna 12 by using only the above.

Embodiment 3. Third Embodiment FIG. 3 is a configuration diagram of an adaptive array antenna showing a third embodiment of the present invention.
Descriptions of the same reference numerals as in the first embodiment will be omitted. 13 is a transmitter, 14 is a calibration transmitter converter, 15 is a distributor,
Reference numeral 16 is an adaptive array antenna and 17 is a signal processing device section.

The signal transmitted from the signal processing unit 17 is frequency-converted by the transmission converter 3 and the antenna 7 is converted.
Amplitude / phase value data is stored in the signal processing unit 17 after being transmitted by the antenna element 1, received by each antenna element 1, frequency-converted by the reception converter through the coupler 2. On the other hand, the signal transmitted from the signal processing device unit 17 is frequency-converted by the calibration transmission converter 14 and distributed by the distributor 15, passes through each coupler 2, and is frequency-converted by the reception converter 8 to be processed by the signal processing device unit 1.
Amplitude and phase value data is stored in 7. Signal processing unit 1
By comparing the two amplitude / phase value data stored in 7, the amplitude / phase difference of each branch from the antenna element 1 to the coupler 2 can be obtained, and the data of the amplitude / phase difference of each branch is stored. I'll do it.

By combining the stored amplitude / phase difference data of each branch with the amplitude / phase value data obtained by branching by the coupler 2 in the adaptive array antenna 16 during actual operation, the adaptive array antenna 16
It becomes possible to calibrate the entire system of the adaptive array antenna 16 by using only the above.

Embodiment 4. Fourth Embodiment FIG. 4 is a configuration diagram of an adaptive array antenna showing a fourth embodiment of the present invention.
Descriptions of the same reference numerals as those in the forms 2 and 3 are omitted. 18 is an adaptive array antenna.

The signal transmitted from the signal processing unit 17 is frequency-converted by the transmission converter 3 and the antenna 7 is converted.
Is transmitted by the antenna element 1, received by each antenna element 1, passed through the coupler 2, frequency-converted by the receiving converter, and the amplitude / phase value data is stored in the signal processing unit 17. On the other hand, the signal transmitted from the signal processing unit 17 is frequency-converted by the calibration transmission converter 14 and switched by the switch 11, passes through each coupler 2 and is frequency-converted by the reception converter 8 to be amplitude-converted to the signal processing unit 17. Phase value data is stored. By comparing the two amplitude / phase value data stored in the signal processing unit 17, the amplitude / phase difference of each branch from the antenna element 1 to the coupler 2 can be obtained. Save the data of.

By combining the stored amplitude / phase difference data of each branch with the amplitude / phase value data obtained by branching by the coupler 2 in the adaptive array antenna 18 during actual operation, the adaptive array antenna 18
It becomes possible to calibrate the entire system of the adaptive array antenna 18 by using only the above.

[0022]

According to the adaptive array antenna of the first aspect of the invention, by using the amplitude phase difference of each branch from the antenna element to the coupler obtained by using the receiver before the actual operation, the adaptive array antenna during the actual operation is used. The adaptive array antenna alone can calibrate the entire system of the adaptive array antenna simply by branching with the coupler in the array antenna and obtaining the amplitude and phase value data.

According to the adaptive array antenna of the second invention, the adaptive array antenna in actual operation is used by using the amplitude / phase difference of each branch from the antenna element to the coupler obtained by using the receiving device before actual operation. It is possible to calibrate the whole system of the adaptive array antenna by using the adaptive array antenna alone by simply branching with the coupler inside and obtaining the amplitude and phase value data.

According to the adaptive array antenna of the third invention, by using the amplitude phase difference of each branch from the antenna element to the coupler obtained by using the transmitter before the actual operation, the adaptive array antenna during the actual operation. It is possible to calibrate the whole system of the adaptive array antenna by using the adaptive array antenna alone by simply branching with the coupler inside and obtaining the amplitude and phase value data.

According to the adaptive array antenna of the fourth invention, by using the amplitude phase difference of each branch from the antenna element to the coupler obtained by using the transmitter before the actual operation, the adaptive array antenna during the actual operation. It is possible to calibrate the whole system of the adaptive array antenna by using the adaptive array antenna alone by simply branching with the coupler inside and obtaining the amplitude and phase value data.

[Brief description of drawings]

FIG. 1 is a configuration diagram of an adaptive array antenna according to a first embodiment of the present invention.

FIG. 2 is a configuration diagram of an adaptive array antenna according to a second embodiment of the present invention.

FIG. 3 is a configuration diagram of an adaptive array antenna according to a third embodiment of the present invention.

FIG. 4 is a configuration diagram of an adaptive array antenna according to a fourth embodiment of the present invention.

FIG. 5 is a configuration diagram of a conventional adaptive array antenna.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 antenna element, 2 coupler, 3 transmission converter, 4 signal processing device part, 5 synthesizer, 6 calibration receiving converter, 7 antenna, 8 receiving converter, 9
Adaptive array antenna, 10 receiving device, 11
Switch, 12 Adaptive array antenna, 13
Transmitter, 14 Calibration Transmitter Converter, 15 Distributor, 16 Adaptive Array Antenna, 17 Signal Processing Unit, 18 Adaptive Array Antenna, 19
Transmitter calibration calculator, 20 calculator, 21 amplitude error, 2
2 Phase error

Claims (4)

[Claims] 1. A signal processing unit capable of outputting n (where n is an integer of 2 or more) transmission signals, and capable of inputting a calibration reception signal, and a signal processing unit output from this signal processing unit. In order to input the above-mentioned n number of transmission signals, which has a transmission converter, a coupler, and an antenna element, and synthesizes each signal branched from this coupler, and the output signal of this synthesizer, to the signal processing unit. An adaptive array antenna composed of a calibration receiving converter, comprising an antenna for receiving the transmission wave of the adaptive array antenna, a frequency conversion of the received signal, and a receiving converter for inputting to the adaptive array antenna. An adaptive array antenna, characterized in that a receiving device is provided. 2. A signal processing device unit capable of outputting n (where n is an integer of 2 or more) transmission signals, and capable of inputting a calibration reception signal, and a signal processing device unit outputting the same. Each of the n transmission signals has a transmission converter, a coupler, and an antenna element, a switch for selecting each transmission signal branched from the coupler, and a switch for inputting the output signal of the switch to the signal processing unit. An adaptive array antenna composed of a calibration receiving converter, comprising an antenna for receiving the transmission wave of the adaptive array antenna, and a receiving converter for frequency-converting the received signal and inputting it to the adaptive array antenna. An adaptive array antenna comprising a receiving device. 3. A signal processing unit capable of receiving n (where n is an integer of 2 or more) received signals and capable of outputting a calibration transmission signal, and a signal processing unit input to the signal processing unit. A calibration transmission converter that has a reception converter, a coupler, and an antenna element for the n received signals, and that frequency-converts the signal output from the signal processing device unit;
An adaptive array antenna composed of a distributor that distributes the output of this calibration transmission converter to each coupler, and a transmission converter that frequency-converts the signal input from the adaptive array antenna, and an output signal of this transmission converter. An adaptive array antenna, characterized in that a transmitting device comprising an antenna for transmitting is provided. 4. A signal processing unit capable of receiving n (where n is an integer of 2 or more) received signals and capable of outputting a calibration transmission signal, and a signal processing unit input to the signal processing unit. A calibration transmission converter that has a reception converter, a coupler, and an antenna element for the n received signals, and that frequency-converts the signal output from the signal processing device unit;
An adaptive array antenna composed of switches for distributing the output of the calibration transmission converter to each coupler, a transmission converter that frequency-converts the signal input from the adaptive array antenna, and an output signal of this transmission converter. An adaptive array antenna, characterized in that a transmitting device comprising an antenna for transmitting is provided.