JPH0240193B2 - REEDAAYODEKOISOCHI - Google Patents

Description

[Detailed Description of the Invention] [Technical Field of the Invention] This invention is an ARM (Anti Radiation Missile)
This invention relates to a radar decoy device that protects a radar from damage.

[Prior art]

A conventional device of this type is shown in FIG. In the figure, 10 is a decoy device for a recorder, 11 is an omnidirectional decoy antenna, and 12 is a decoy transmitter.

For convenience of explanation, radar decoy device 1
The configuration of the radar installed near 0 will be explained. 1 is a radar antenna, 2 is a drive motor, 3 is a transmission/reception switch, 4 is a radar transmitter, 5 is a receiver, 6 is a signal processor, and 7 is a reference signal generator.

Next, the operation will be explained.

Normally, in a radar, a reference signal generator 7 generates a system trigger, and a radar transmitter 4 generates a transmission signal based on this signal. This transmission signal passes through a transmission/reception switch 3 and is radiated into the air from a radar antenna 1 which is continuously rotated by a drive motor 2. The reflected signal from the aircraft etc. is received again by the radar antenna 1 and sent to the transmitter/receiver switch 3.
The signal is guided to a receiving section 5 and a signal processing section 6 through which a target such as an aircraft is detected. on radar
When an ARM is detected, radar transmission is cut off and the radar decoy device 10 is activated. ARM is a missile that flies toward the source of radio waves, and if the radar continues to receive it, the ARM will fly toward the radar and damage the radar, so protect it. In order to protect the radar from the ARM, the radar is cut off, the radar decoy device is activated, and the ARM is flown in the direction of the radar decoy device.

In the radar decoy device 10, the decoy transmitter 12 transmits a transmission signal of the same frequency or close to that of the radar.
It was generated in the air and radiated into the air from an omnidirectional decoy antenna 11 with low gain. Further, the pulse width and pulse repetition frequency of the transmission signal from the radar decoy device 10 were not made the same as those of the radar.

Conventional radar decoy devices are configured as described above, so when activating the radar decoy device, radar transmission must be cut off, making it impossible to detect not only ARM but also other targets. There was a serious drawback.

This drawback is due to the use of a low gain omnidirectional antenna as the decoy antenna.

[Summary of the invention]

This invention was made to eliminate the drawbacks of the conventional ones as described above, and uses a high-gain directional antenna as a decoy antenna, so that the directional direction of this antenna is always directed in the direction of the ARM. The aim is to provide a radar decoy device that can control the radar and transmit transmission signals completely synchronized with the radar, so that it can continuously detect not only the radar ARM but also other targets.

[Embodiments of the invention]

An embodiment of the present invention will be described below with reference to the drawings. In FIG. 2, 10 is a radar decoy device, 12 is a decoy transmitter that generates a transmission signal synchronized with the radar based on a system trigger from the radar reference signal generator 7, and 13 is a directional device, A direction-oriented decoy antenna 14 is a control unit that controls the pointing direction of the decoy antenna 13 based on the ARM direction signal from the radar signal processing unit 6.

Next, the operation will be explained. The radar operates normally and detects targets such as aircraft.

When an ARM is detected by the radar, the radar decoy device of the present invention is activated. That is, the system signal is transmitted from the radar reference signal generating section 7.
A trigger is sent to the decoy transmitter 12 of the radar decoy device 10, which generates a transmission signal with exactly the same transmission frequency, pulse width, and pulse repetition frequency as the radar, and radiates it into the air from a high-gain directional decoy antenna 13. let Further, the radar signal processing unit 6 sends the ARM direction signal to the control unit 14 of the radar decoy device 10, and the decoy
Control is performed so that the antenna 13 is always directed in the direction of the ARM.

In this case, the radar will stop transmitting only in the ARM direction (azimuth blank) and continue normal operation in other directions.

Transmission signal level of radar and radar decoy device in this case (transmission peak output x antenna gain)
As shown in FIG. 3, the transmission signal level of the radar decoy device is set lower than the level at the main lobe of the radar and higher than the level at the side lobes of the radar.

Next, target detection when the radar decoy device 10 is activated will be described.

First, to detect an ARM, the radar decoy device 10 transmits a signal, the radar antenna 1 receives a reflected signal from the ARM, and the receiving section 5 and signal processing section 6 detect and locate the ARM. This is possible because the transmission signal from the radar decoy device is completely synchronized with the radar, and is a major feature of this invention.

Additionally, targets other than ARM can be detected by normal detection using radar alone. In this case,
Since the level relationship of the transmitted signals is as shown in Figure 3, the ARM flies in the direction of the radar decoy device with a high level, so the radar can be protected from the ARM. In other words, the radar can be protected from the ARM while detecting targets such as aircraft with the radar.

In the above embodiment, the antenna gain and peak transmission output of the radar decoy device were selected so as to satisfy the transmission signal level shown in FIG. 3, but these values became extremely large and the configuration of the radar decoy device If it becomes too large, the peak transmission power of the radar may be reduced only when the radar decoy device is activated.

〔Effect of the invention〕

As described above, according to the present invention, the radar is configured of a decoy transmitting section synchronized with the radar, a directional decoy antenna with high gain, and a control section that controls the pointing direction of the decoy antenna using signals from the radar. By optimally selecting the transmission signal level from the decoy device, the target can be detected while
It is more effective in protecting radar than ARM.

[Brief explanation of drawings]

FIG. 1 is a system diagram of a conventional radar decoy device and radar, and FIG. 2 is a system diagram of a radar decoy device and radar according to an embodiment of the present invention.
FIG. 3 is a level diagram showing the relationship between the radar decoy device and the radar transmission signal level according to an embodiment of the present invention. In the figure, 10 is a radar decoy device, 1
2 is a decoy transmitter, 13 is a decoy antenna, 1
4 is a control section. In addition, in the figures, the same reference numerals indicate the same or equivalent parts.

Claims (1)

[Claims] 1. A reference signal generating section that generates a reference signal, a transmitting section that outputs a transmission signal based on the reference signal,
a radar antenna that radiates a transmission signal from the transmitter into the air; a receiver that receives a reflected signal obtained by reflecting the transmission signal radiated from the radar antenna by a target object, and receives the reflected signal; , a radar device equipped with a signal processing section that detects the target object based on the output of the receiving section, and a radar device installed near the radar device that detects the target object based on the reference signal from the reference signal generating section. a decoy transmitter that generates a transmit signal synchronized with the transmit signal; a decoy antenna having directivity that radiates the transmit signal from the decoy transmitter in a predetermined direction in the air; and an output from the signal processor that generates the decoy antenna. A decoy device is equipped with a control unit that controls the pointing direction of the
Radiation Missile), the decoy device is activated and the radar device is activated.
A radar decoy device characterized by stopping transmission in the direction of ARM. 2. The radar decoy device according to claim 1, wherein the transmission signal level of the decoy device is lower than the main lobe level and higher than the side lobe level of the radar device.