JP2013164303A - Antenna device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an antenna device that has achieved RCS reduction function having excellent immediacy and simultaneity to an arbitrary radio wave arrival direction.SOLUTION: The antenna device includes an antenna element 100, a circulator 101, an amplitude phase controller 102, an RF switch 103, a receiving device 104, a controlling device 106, a radio wave arrival direction detecting device 105, and an RCS storage device 107. Between the antenna element 100 and the receiving device 104, the circulator 101, the amplitude phase controller 102 and the RF switch 103 are interposed, and a common terminal of the RF switch 103 is connected to the circulator 101. The RCS storage device 107 stores all the operation frequencies and RCS pattern characteristics of all directions. The controlling device 106, based on the RCS pattern characteristic, controls the amplitude phase controller 102 so that the RCS of the arrival direction is offset against the amplitude and the phase of the radio wave re-radiated according to the receiving signal from the antenna element 100.

Description

  The present invention relates to an antenna device used for tracking a target, and more particularly to antenna installation with a reduced radar cross-sectional area.

  Conventionally, in an installation structure of an antenna device used for target tracking, it is necessary to reduce its radar cross section (RCS) as much as possible in order to prevent the position of the antenna device from being detected by the other party. There has been proposed an antenna device with a reduced RCS (see, for example, Patent Document 1).

  The above Patent Document 1 discloses a radar wave reflection reducing device that reduces the reflection of incident radar waves, and efficiently reduces the reflected waves by itself to reduce the RCS and greatly reduce the detection probability. In order to measure the phase difference between a plurality of phase detection signals, a receiving antenna installed on a reflecting surface on a plane that reflects the incident radar wave, a phase detection circuit that detects the phase of the received radar wave An angle determination circuit that determines the incident angle of the radar wave by using a signal, a cancellation wave generation circuit that generates a cancellation wave signal opposite in phase to the incident radar wave based on a determination signal that the incident angle is near vertical, and radiates a cancellation wave And a transmitting antenna.

This makes it possible to efficiently reduce the RCS only when the incident radar wave is positioned substantially perpendicular to the surface on which the receiving antenna is installed.
However, in the above technique, it is necessary to generate a cancellation wave after detecting the incident radar wave.

Japanese Patent No. 3764128

  In the conventional antenna device, since it is necessary to detect the incident radar wave and generate a cancellation wave in the technique described in Patent Document 1, the immediacy and simultaneity are poor. There was a problem that the reduction effect was reduced.

  The present invention has been made in order to solve the above-described problems, and it is an object of the present invention to obtain an antenna device that realizes an RCS reduction function excellent in immediacy and simultaneity with respect to an arbitrary radio wave arrival direction. Objective.

  An antenna device according to the present invention includes a plurality of antenna elements, a plurality of circulators individually connected to the plurality of antenna elements, a plurality of amplitude phase controllers individually connected to the plurality of circulators, a plurality of circulators, and A plurality of RF switches individually connected to a plurality of amplitude phase controllers, a receiving device connected to the plurality of RF switches, a control device for controlling the plurality of amplitude phase controllers and the plurality of RF switches, and a control device Each of a plurality of circulators, a plurality of circulators, and a plurality of circulators, respectively. Each of the amplitude phase controller and each of the plurality of RF switches are interposed, and a common terminal of each of the plurality of RF switches has a plurality of circular circuits. The radio wave arrival direction detection device is connected to each of the data, acquires information on the radio wave arrival direction and frequency from the received signals of the radar waves arriving at the plurality of antenna elements, and transmits the information to the control device, and the RCS storage device Stores, as the RCS pattern characteristics of a structure on which a plurality of antenna elements are mounted, all the operating frequencies and omnidirectional RCS pattern characteristics of the plurality of antenna elements, and the control device includes an RCS storage device and a radio wave arrival direction detection device. Based on the input information from, the amplitude so as to cancel the RCS in the direction of arrival recorded in the RCS storage device with respect to the amplitude and phase of the radio wave re-radiated in response to the received signals from the plurality of antenna elements It controls the phase controller.

  According to the present invention, by using the radio wave arrival direction detection device and the RCS storage device, the detection process of the incident radar wave and the generation process of the cancellation wave are remarkably simplified. An excellent RCS reduction function can be realized.

It is a block diagram which shows the antenna apparatus which concerns on Embodiment 1 of this invention. It is a block diagram which shows the antenna apparatus which concerns on Embodiment 2 of this invention.

Embodiment 1 FIG.
Hereinafter, Embodiment 1 of the present invention will be described with reference to FIG.
FIG. 1 is a diagram showing the configuration of the first embodiment of the present invention.
In FIG. 1, the antenna device according to Embodiment 1 of the present invention is individually connected to a plurality of antenna elements 100, a plurality of circulators 101 individually connected to the plurality of antenna elements 100, and a plurality of circulators 101. A plurality of amplitude phase controllers 102, a plurality of RF switches 103 individually connected to the plurality of amplitude phase controllers 102, a receiving device 104 connected to the plurality of RF switches 103, and a plurality of amplitude phase controllers 102, a control device 106 that controls the plurality of RF switches 103, a radio wave arrival direction detecting device 105 and an RCS storage device 107 connected to the control device 106.

The plurality of antenna elements 100 constitutes an array antenna.
Each of the plurality of amplitude / phase controllers 102 is configured by at least one of an amplifier, a phase shifter, an RF switch, and the like (not shown).
Furthermore, it is assumed that the plurality of antenna elements 100 are mounted on a structure (not shown) that integrates the whole.

The antenna device of FIG. 1 has a reception mode and a low RCS mode as operation modes other than the radio wave radiation mode for radiating radio waves.
In the reception mode, each of the plurality of RF switches 103 is switched from the illustrated state and connected to a switching terminal on the receiving device 104 side.
As a result, the received signal from each antenna element 100 is input to the receiving device 104 via each circulator 101 and each RF switch 103 and subjected to normal reception processing.

On the other hand, in the low RCS mode, each of the plurality of RF switches 103 is in the illustrated state and is connected to a switching terminal on the amplitude phase controller 102 side.
Thereby, the signal received by each antenna element 100 is input to the amplitude phase controller 102 via each circulator 101 and each RF switch 103, and the amplitude and phase of the received signal are controlled by the amplitude phase controller 102. After that, it is re-radiated from each antenna element 100 via each circulator 101 again.

  The RF switch 103 has a common terminal connected to the circulator 101 and is connected to the receiving device 104 in the reception mode, and is connected to the amplitude / phase controller 102 in the low RCS mode. The switching operation is performed by the control device 106.

Next, operations of the control device 106 and each amplitude / phase controller 102 will be described.
First, the radio wave arrival direction detection device 105 detects the frequency and direction of arrival of an incoming radar wave based on the received signal from each antenna element 100.
Further, the RCS storage device 107 stores the RCS pattern information of the structure on which each antenna element 100 is mounted with respect to the total operating frequency and the total space of the plurality of antenna elements 100, and for the total operating frequency and the total space. Amplitude and phase information necessary for canceling the RCS is stored as a table.

  Therefore, the control device 106 reads out the amplitude and phase information for canceling the RCS from the RCS storage device 107 on the basis of the frequency and the arrival direction of the radar wave detected by the radio wave arrival direction detection device 105. Each amplitude phase controller 102 is controlled according to the read information.

That is, the radio wave arrival direction detection device 105 detects the frequency and arrival direction of the radar wave received by each antenna element 100, and the control device 106 cancels the RCS based on the detection information of the radio wave arrival direction detection device 105. Amplitude and phase information is read out from the RCS storage device 107, and the amplitude phase controller 102 is controlled in accordance with the canceling amplitude and phase information.
The re-radiation signal that has been canceled in this way is radiated from each antenna element 100, so that the RCS with respect to the arrival direction of the radar wave is canceled, and the reduction of the RCS is realized.

  As described above, the antenna device according to Embodiment 1 (FIG. 1) of the present invention includes a plurality of antenna elements 100, a plurality of circulators 101, a plurality of amplitude / phase controllers 102, and a plurality of RF switches 103. , Receiving device 104, control device 106, radio wave arrival direction detecting device 105, and RCS storage device 107.

Between each of the plurality of antenna elements 100 and the receiving device 104, each of the plurality of circulators 101, each of the plurality of amplitude / phase controllers 102, and each of the plurality of RF switches 103 is interposed. ing.
A common terminal of each of the plurality of RF switches 103 is connected to each of the plurality of circulators 101.

The radio wave arrival direction detection device 105 acquires information on the radio wave arrival direction and frequency from the received signals of radar waves arriving at the plurality of antenna elements 100 and transmits the information to the control device 106.
Specifically, the radio wave arrival direction detection device 105 is connected to the plurality of RF switches 103, acquires the received signals of radar waves arriving at the plurality of antenna elements 100 via the plurality of RF switches 103, and converts them into the received signals. Based on the arrival direction and frequency of radio waves, the information is acquired.

The RCS storage device 107 stores all operating frequencies and omnidirectional RCS pattern characteristics of the plurality of antenna elements 100 as RCS pattern characteristics of the structure on which each antenna element 100 is mounted.
In addition, the RCS storage device 107 stores amplitude and phase information necessary for canceling out the RCS for all the operating frequencies and the entire space of the plurality of antenna elements 100 as a table based on prior sample measurement data.

  Based on the input information from the RCS storage device 107 and the radio wave arrival direction detection device 105, the control device 106 stores the RCS memory for the amplitude and phase of the radio waves re-radiated in response to the received signals from the plurality of antenna elements 100. The amplitude phase controller 102 is controlled so as to cancel the RCS in the direction of arrival recorded in the device 107.

  Thus, by using the radio wave arrival direction detection device 105 and the RCS storage device 107, the detection processing of the incident radar wave and the generation of the cancellation wave in the control device 106 become unnecessary, and the reference processing of the table data is remarkably easy. An RCS reduction function excellent in immediacy and simultaneity can be realized for any direction of arrival of radio waves.

Embodiment 2. FIG.
In the first embodiment (FIG. 1), the radio wave arrival direction detecting device 105 is connected to each RF switch 103 and the reception signal from each antenna element 100 is directly acquired. However, as shown in FIG. The arrival direction detection device 205 may be separated from each RF switch 203 and installed outside the antenna device.

Hereinafter, an antenna device according to Embodiment 2 of the present invention will be described with reference to FIG.
FIG. 2 is a block diagram showing the configuration of the antenna device according to Embodiment 2 of the present invention. For the same components as those described above (see FIG. 1), the above-mentioned reference numerals 100 to 107 are assigned to the reference numerals 200 to 207, respectively. It is replaced with.

  2, the antenna device according to the second embodiment includes a plurality of antenna elements 200, a plurality of circulators 201, a plurality of amplitude / phase controllers 202, a plurality of RF switches 203, a receiving device 204, and radio waves. An arrival direction detection device 205, a control device 206, and an RCS storage device 207 are provided.

The antenna device of FIG. 2 has a reception mode and a low RCS mode as operation modes other than the radio wave radiation mode for radiating radio waves, as described above.
In the reception mode, a reception signal from each antenna element 200 is input to the reception device 204 via each circulator 201 and each RF switch 203 and subjected to normal reception processing.

On the other hand, in the low RCS mode, the received signal from each antenna element 200 is input to each amplitude phase controller 202 via each circulator 201 and each RF switch 203, and the amplitude of the received signal by each amplitude phase controller 202. And the phase is controlled, and the radiation is re-radiated from each antenna element 200 via each circulator 201 again.
Each RF switch 203 is connected to the receiving device 204 in the reception mode and connected to each amplitude phase controller 202 in the low RCS mode under the control of the control device 206.

Next, operations of the control device 206 and each amplitude / phase controller 202 will be described.
First, the radio wave arrival direction detection device 205 detects the frequency and arrival direction of the radar wave arriving at each antenna element 200. Unlike the above (FIG. 2), the radio wave arrival direction detection device 205 is mounted outside the antenna device. Never get directly.
In this case, generally, the radio wave arrival direction detection device 205 is at least one of an electronic support device (ESM), a radar device, an infrared search and tracking system (IRST), and an external data ring (not shown). Shall be included.

  The RCS storage device 207 stores the RCS pattern information of the structure in which each antenna element 200 is mounted regarding all the operating frequencies and all spaces of the plurality of antenna elements 200, and cancels the RCS for all operating frequencies and all spaces. Amplitude and phase information necessary for this is stored as a table.

  The control device 206 reads out amplitude and phase information for canceling RCS in the arrival direction from the RCS storage device based on the frequency and arrival direction of the radar wave detected by the radio wave arrival direction detection device 205, and according to the read information. The amplitude phase controller 202 is controlled.

That is, the radio wave arrival direction detection device 205 detects the frequency and the arrival direction of the radar wave received by each antenna element 200, and based on this detection information, the control device 206 uses the amplitude and phase information for canceling the RCS. Is read from the RCS storage device 207 to control the amplitude phase controller 202.
As a result, the re-radiation signal processed by the amplitude phase controller 202 is radiated from each antenna element 200, the RCS with respect to the arrival direction of the radar wave is canceled, and the RCS is reduced.

As described above, the radio wave arrival direction detection device 205 of the antenna device according to Embodiment 2 (FIG. 2) of the present invention is installed separately from the plurality of RF switches 203, and is provided with an electronic support device, a radar device, and an infrared search. It comprises at least one of a tracking system and an external data ring. Alternatively, another type of device may be applied.
Also in this case, since the control device 206 can acquire the radio wave arrival direction for each antenna element 200 from the radio wave arrival direction detection device 205, the same effect as described above can be obtained.

  100, 200 Antenna element, 101, 201 Circulator, 102, 202 Amplitude / phase controller, 103, 203 RF switch, 104, 204 Receiver, 105, 205 Radio wave arrival direction detector, 106, 206 Controller, 107, 207 RCS Storage device.

Claims (6)

A plurality of antenna elements;
A plurality of circulators individually connected to the plurality of antenna elements;
A plurality of amplitude and phase controllers individually connected to the plurality of circulators;
A plurality of RF switches individually connected to the plurality of circulators and the plurality of amplitude and phase controllers;
A receiving device connected to the plurality of RF switches;
A control device for controlling the plurality of amplitude phase controllers and the plurality of RF switches;
A radio wave arrival direction detection device and an RCS storage device connected to the control device;
An antenna device comprising:
Each of the plurality of circulators, each of the plurality of amplitude phase controllers, and each of the plurality of RF switches are interposed between each of the plurality of antenna elements and the receiving device. ,
A common terminal of each of the plurality of RF switches is connected to each of the plurality of circulators,
The radio wave arrival direction detection device acquires information on the arrival direction and frequency of radio waves arriving at the plurality of antenna elements and transmits the information to the control device,
The RCS storage device stores, as the RCS pattern characteristics of the structure on which the plurality of antenna elements are mounted, all operating frequencies and omnidirectional RCS pattern characteristics of the plurality of antenna elements;
The control device is configured to control the RCS with respect to the amplitude and phase of radio waves re-radiated in response to received signals from the plurality of antenna elements based on input information from the RCS storage device and the radio wave arrival direction detection device. An antenna device, wherein the amplitude phase controller is controlled so as to cancel the RCS in the direction of arrival recorded in a storage device.   The antenna apparatus according to claim 1, wherein each of the plurality of amplitude phase controllers includes at least one of an amplifier, a phase shifter, and an RF switch.   3. The RCS storage device stores amplitude and phase information necessary for canceling RCS for all operating frequencies and all spaces of the plurality of antenna elements as a table. The antenna device according to 1.   The radio wave arrival direction detection device is connected to the plurality of RF switches, acquires the received signals of radar waves arriving at the plurality of antenna elements via the plurality of RF switches, and receives radio waves based on the received signals. The antenna device according to any one of claims 1 to 3, wherein information on a direction and a frequency is acquired.   The antenna device according to any one of claims 1 to 3, wherein the radio wave arrival direction detection device is installed separately from the plurality of RF switches.   6. The antenna device according to claim 5, wherein the radio wave arrival direction detection device includes at least one of an electronic support device, a radar device, an infrared search and tracking system, and an external data ring.

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