JPH11225014A - Phased array radar and its phase calibration method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To allow the method to correct an error due to a temperature fluctuation and a secular change and to shape a radio wave beam with high accuracy. SOLUTION: The phased array radar is provided with plural antenna elements that send or receive a radio wave and placed at a prescribed interval, a controller 10 that provides an output of a phase shift of each antenna element 50 in response to a scanning angle of a radio wave beam as a control signal, plural transmission/reception modules 12 that is provided for each antenna element 50 and shifts a phase of a transmission signal or a reception signal of each antenna element 50 based on a control signal, and a transmitter-receiver 56 that output or inputs the transmission signal or the reception signal of each antenna element 50 via each transmission/reception module 12, and shifts the phase of the transmission signal so that a phase difference of the transmission signals before and after the phase shift is coincident with the phase shift.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] 1. Field of the Invention [0002] The present invention relates to a phased array radar device suitable for use on a satellite and a phase calibration method thereof.

[0002]

2. Description of the Related Art FIG. 2 is a block diagram showing a conventional phased array radar device mounted on a satellite. Hereinafter, description will be made based on this drawing.

A conventional phased array radar device transmits or receives radio waves and controls a plurality of antenna elements 50 arranged at predetermined intervals and a phase shift amount of each antenna element 50 according to a scanning angle of a radio beam. A controller 52 that outputs a signal, a plurality of transmission / reception modules 54 that are provided in each antenna element 50 and that phase-shift a transmission signal or a reception signal of the antenna element 50 based on a control signal output from the controller 52; And a transmitter / receiver 56 for outputting or inputting a transmission signal or a reception signal of each antenna element 50 via each transmission / reception module 54.

A controller 52 inputs an external command to calculate an amount of phase shift of each antenna element 50 according to the scanning angle of the radio beam, and controls the amount of phase shift obtained by the operation circuit 521. Control signal generation circuit 5 for outputting as a signal
22. The transmitting / receiving module 54
A phase shifter 541 that shifts the phase of a transmission signal or a reception signal, a phase shifter driver circuit 542 that inputs a control signal to control a phase shift amount of the phase shifter 541, an amplifier 543 for a transmission signal,
Amplifier 544 for received signal and transmission / reception switch 54
5,546.

A controller 5 instructed by a scanning angle of a radio beam.
2 calculates the amount of phase shift to be given to each transmitting / receiving module 54 in accordance with the scanning angle, and outputs a control signal to perform phase control on the transmitting / receiving module 54 according to the result. The transmission / reception module 54 controls the phase shifter 541 based on an instruction from the controller 52 to give a predetermined phase to a transmission signal or a reception signal.

[0006]

Conventionally, a phased array radar device mounted on a satellite has not been equipped with a phase calibration device as shown in FIG. 2 due to its weight, power and shape restrictions. . However, the transceiver module 54 in orbit has errors due to severe temperature environment and long-term operation. Therefore, even if a correct phase shift amount is given in calculation, the actual phase shift amount changes due to the error. As a result, an error occurs in the shaping of the radio wave beam.

[0007]

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems of the prior art, and measures the relative phase difference of all the transmitting and receiving modules during operation to obtain temperature fluctuations and aging. It is an object of the present invention to provide a phased array radar apparatus and a phase calibration method for the same, which can correct an error due to a change and can form a radio wave beam with high accuracy.

[0008]

According to the present invention, there is provided a phased array radar apparatus for transmitting or receiving a radio wave, a plurality of antenna elements arranged at predetermined intervals, and each of the antennas corresponding to a scanning angle of a radio beam. A controller that outputs a phase shift amount of the element as a control signal, and a plurality of phase shifters that are provided for each of the antenna elements and that, based on a control signal output from the controller, shift a transmission signal or a reception signal of the antenna element. A transmitting / receiving module, and a transceiver that outputs or inputs a transmission signal or a reception signal of each of the antenna elements through each of the transmission / reception modules, and a phase difference between the transmission signals before and after the phase shift. The phase of the transmission signal is shifted so as to match the phase shift amount. For example, the transmission / reception module outputs a phase difference between the transmission signals before and after the phase shift, the controller compares the phase difference output from the transmission / reception module with the phase shift amount, and determines the phase difference and the phase shift. A correction value is added to the phase shift amount so as to eliminate the difference from the phase amount and output as the control signal.

A phase calibration method for a phased array radar apparatus according to the present invention is characterized in that a plurality of antenna elements that transmit or receive a radio wave and are arranged at a predetermined interval, and each of the antenna elements according to a scanning angle of a radio wave beam. A controller that outputs a phase shift amount, and a plurality of transmission / reception modules that are provided in each of the antenna elements and that, based on the phase shift amount output from the controller, shift a transmission signal or a reception signal of the antenna element. A transceiver that outputs or inputs a transmission signal or a reception signal of each of the antenna elements via each of the transmission / reception modules, and a phase correction method for a phased array radar device including the phase difference between the transmission signals before and after the phase shift. And a difference between the phase difference and the phase shift amount is detected, and a correction value is added to the phase shift amount so as to eliminate the difference.

[0010] The phased array radar device of the present invention comprises:
It is suitable for use on a satellite, and automatically corrects an error in the set phase amount due to temperature, aging, and the like in orbit. In this way, the phase difference of the transmission signal before and after the phase shift of the entire transmission / reception module is measured during operation, and the operation of the transmission / reception module having an error is constantly corrected, so that the optimal shaping of the radio wave beam is always performed. realizable.

[0011]

FIG. 1 is a block diagram showing an embodiment of a phased array radar apparatus according to the present invention. Hereinafter, description will be made based on this drawing. However, the same parts as those in FIG.

The phased array radar apparatus according to the present embodiment transmits and receives radio waves, and includes a plurality of antenna elements 50 arranged at predetermined intervals and a phase shift amount of each antenna element 50 according to a scanning angle of a radio beam. And a plurality of transmission / reception modules 12 that are provided in each antenna element 50 and that phase-shift a transmission signal or a reception signal of the antenna element 50 based on the control signal output from the controller 10. And each antenna element 50
And a transmitter / receiver 56 for outputting or inputting the transmission signal or the reception signal through the respective transmission / reception modules 12 and shifting the transmission signal so that the phase difference between the transmission signals before and after the phase shift matches the phase shift amount. It is characterized by the following. That is,
The transmission / reception module 12 outputs the phase difference between the transmission signals before and after the phase shift. The controller 10 compares the phase difference output from the transmission / reception module 12 with the phase shift amount, adds a correction value to the phase shift amount such that the difference between the phase difference and the phase shift amount disappears, and controls the control signal. Output as

The controller 10 counts the data of the phase difference between the transmission signals before and after the phase shift from all the transmission / reception modules 12 and the phase shift to be given to each transmission / reception module 12 corresponding to the designated scanning angle. The arithmetic circuit 102 for calculating the amount, the comparison circuit 102 for comparing the calculated phase shift amount with the tabulated phase difference, and the comparison circuit 102,
If the calculated phase shift amount cannot be realized, the control circuit 102 calculates a correction value again by the arithmetic circuit 102 and outputs a corrected control signal to the transmission / reception module 12.

The transmission / reception module 12 includes a phase shifter 541 for giving a designated phase shift amount to the transmission signal and the reception signal.
And a phase shifter driver circuit 54 that receives a control signal from the controller 10 and drives the phase shifter 541 as instructed.
2 and an amplifier 543 for amplifying the power of the transmission signal
An amplifier 544 for amplifying power with respect to the received signal;
Compare the transmission / reception changeover switches 545 and 546 for switching the transmission line between the transmission signal and the reception signal, the directional coupler 121 for separating a part of the transmission signal after the phase shift, and the phase of the transmission signal before and after the phase shift. And a phase difference detection circuit 123 that outputs the result of the phase comparison as a phase difference.

The transmitter / receiver 56 is provided with a hybrid 14 for splitting a transmission signal output from the transmitter / receiver 56 into a transmission signal to be phase-shifted and a transmission signal not to be phase-shifted, and outputting the transmission signal to each transmission / reception module 12. ing. Although not shown, the transceiver 56 includes a transmitter that outputs a transmission signal, a receiver that inputs a reception signal, and a circulator that switches between the transmission signal and the reception signal.

In the drawings, for convenience, the antenna element 5
0 and only one transmitting / receiving module 12 are shown, and the rest are omitted. The controller 10 also outputs a control signal to the omitted transmitting / receiving module 12. Further, switching between transmission and reception for the transmission / reception module 12 and the transmission / reception device 56 is performed by, for example, an external signal (not shown).

Next, the operation of the phased array radar device of the present embodiment will be described.

First, when the controller 10 externally inputs a command signal designating the scanning angle of the radio beam, the controller 10 transfers the command signal to the transmitting / receiving modules 12 dispersedly arranged in the antenna element 50 according to the scanning angle of the radio beam. A control signal for giving a phase amount to a transmission signal or a reception signal is output. Subsequently, the phase shifter driver circuit 542 in the transmission / reception module 12 drives the phase shifter 541 according to the control signal, and
A designated phase shift amount is given to a transmission signal or a reception signal passing through No. 1.

The transmission signal given the phase shift amount is supplied to an amplifier 5
The signal is amplified at 43 and output to the antenna element 50 and output to the phase detection circuit 122 by the directional coupler 121. On the other hand, a signal having the same frequency as the transmission signal branched by the hybrid 14 is output from the transceiver 56 to all the transmission / reception modules 12 as a reference signal (transmission signal before phase shift; the same applies hereinafter). Transmission / reception module 1
The reference signal input to 2 is input to the phase detection circuit 122, and the phase of the reference signal is compared with a part of a transmission signal (transmission signal after phase shift; the same applies hereinafter). These phase differences are output to the phase difference detection circuit 123 in the form of voltages. Phase difference detection circuit 123
Is converted into a digital signal and output to the controller 10. In the controller 10, the data of the phase difference between the reference signal and the transmission signal from all the transmission / reception modules 12 is totaled, and it is determined whether or not the phase shift amount corresponding to the designated scanning angle of the radio wave beam can be realized. If not, a correction value is calculated, and a corrected control signal is output to the transmission / reception module 12.

It is to be noted that the present invention can be similarly realized by replacing the transmission / reception module 12 with a device having a configuration having only a transmission system or a configuration having only a reception system. In addition, the directional coupler 1
Instead of 21, it is also possible to replace with a switch or a hybrid.

[0021]

According to the phased array radar apparatus and the phase calibration method for the same according to the present invention, the phase difference of the transmission signal before and after the phase shift of the entire transmission and reception module is measured during operation, and the transmission and reception module having the error is measured. Since the operation is always corrected, the following effects are obtained.

Since the operation of the transmission / reception module is always corrected, the shaping of the radio wave beam in the optimum shape can always be realized. Further, even if an error occurs in the operation of the transmission / reception module due to a temperature change or a change with the passage of time, the error is measured and corrected each time, so that the influence can be eliminated.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an embodiment of a phased array radar device according to the present invention.

FIG. 2 is a block diagram showing a conventional phased array radar device.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Controller 12 Transceiver module 50 Antenna element 56 Transceiver

Claims (6)

[Claims] A controller for transmitting or receiving a radio wave and a plurality of antenna elements arranged at predetermined intervals, and a controller for outputting a phase shift amount of each antenna element according to a scanning angle of a radio wave beam as a control signal; A plurality of transmission / reception modules that are provided in each of the antenna elements and that phase-shift a transmission signal or a reception signal of the antenna element based on a control signal output from the controller; and a transmission signal or reception of each of the antenna elements. A transceiver for outputting or inputting a signal via each of the transmission / reception modules.A phased array radar apparatus comprising: a transmission / reception module configured to transmit / receive a signal so that a phase difference between transmission signals before and after the phase shift matches the phase shift amount. A phased array radar device characterized in that the phase is shifted. 2. The transmission / reception module outputs a phase difference between the transmission signals before and after the phase shift, and the controller compares the phase difference output from the transmission / reception module with the phase shift amount, and 2. The phased array radar device according to claim 1, wherein a correction value is added to the phase shift amount such that a difference between the phase shift amount and the phase shift amount disappears, and the control signal is output. 3. The transmitter / receiver is provided with a hybrid for splitting a transmission signal output from the transceiver into a transmission signal to be phase-shifted and a transmission signal not to be phase-shifted and outputting the transmission signal to each of the transmission / reception modules. Claim 1 or 2
The phased array radar device as described in the above. 4. The phased array radar device according to claim 1, wherein said phased array radar device is for use on a satellite. 5. A controller for transmitting or receiving a radio wave and a plurality of antenna elements arranged at a predetermined interval, a controller for outputting a phase shift amount of each antenna element according to a scanning angle of a radio wave beam, A plurality of transmission / reception modules provided on the antenna element and for shifting the transmission signal or the reception signal of the antenna element based on the phase shift amount output from the controller, the transmission signal or the reception signal of each antenna element. A transmitter / receiver that outputs or inputs via each of the transmission / reception modules; and a phase calibration method for a phased array radar device, comprising: detecting a phase difference between transmission signals before and after the phase shift, and detecting the phase difference and the phase shift amount. And correcting the phase shift amount so as to eliminate the difference with the phase shift amount. 6. The phase calibration method for a phased array radar device according to claim 5, wherein said phased array radar device is for use on a satellite.