KR20150109810A - Target simulate equipment provided with delay line for testing performance of synthetic aperture radar - Google Patents

Abstract

The present invention relates to target simulate equipment (TSE) for testing a performance of synthetic aperture radar (SAR) and, more specifically, to TSE to which a true-time delay line (TDL) is applied in order to test a performance of SAR mounted on an aircraft over the ground. To this end, the present invention provides the TSE to which the TDL is applied for testing a performance of the SAR including the SAR which delays a target signal by using a DRFM and up-converts the target signal after an electromagnetic wave radiated from image radar is received through an RF front end and frequency is down-converted into a baseband; delays the target signal in more detail than the delay resolution of the DRFM; and transmits the target signal to a side of the image radar.

Description

TECHNICAL FIELD [0001] The present invention relates to a target simulator for verifying performance of an ultrahigh-resolution image radar employing a time delay,

[0001] The present invention relates to a target simulator for verifying the performance of ultra-high resolution image radar, and more particularly, to a system and method for verifying the performance of a SAR (synthetic aperture radar) time delay line) to a target simulate equipment (TSE).

In general, an image radar transmits an electromagnetic wave to a stationary ground target while a sensor is moving or flying, and synthesizes the image through Doppler information on a target obtained by receiving the reflected signal. In order to verify the performance of this image radar on the ground without going through the flight, the target simulator is designed to perform the range migration of the target and the radar during the image synthesis period, as well as the size, phase, and frequency of the simulated target, It should be able to simulate sequentially every cycle.

1, the target simulation apparatus 20 receives the electromagnetic wave signal, down-converts the frequency of the electromagnetic wave signal, and outputs it to a digital radio frequency memory (DRFM) Adds and updates the target information, and returns it to the image radar 10.

2, the target simulation apparatus includes an RF front end unit 30 for transmitting and receiving an image radar signal, frequency up / down converters 40 and 41, and a DRFM 50 for processing target information. .

That is, after receiving a signal from the image radar 10, down-converting the signal to baseband, delaying the target signal using the DRFM 50, up-converting the signal, and outputting the signal to the image radar 10. At this time, the delay time corresponds to the time required for the electromagnetic wave to travel the relative distance between the target and the image radar 10 to be simulated by the target simulator.

Here, the DRFM 50 is usually a commercially available product. At this time, in the case of the time delay function, the minimum unit (hereinafter referred to as delay resolution) of the simulatable delay time is inversely proportional to the clock frequency of the DRFM 50 in the target simulator 20. [

Therefore, the accuracy of the distance between the target simulator 20 and the target is limited by the delay resolution value of the DRFM, which is not sufficiently small compared to the resolution of the image radar 10.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a target simulator, in which a time delay is applied to change a relative distance between a target and a radar during a video synthesis period, The present invention provides a target simulation apparatus for verifying the performance of an ultrahigh-resolution image radar employing a time delay that can be expressed more precisely.

In order to achieve the above object, a target simulation apparatus for verifying performance of an ultrahigh-resolution image radar using a time delay according to an embodiment of the present invention includes a receiver for receiving a radio wave radiated from an image radar through a RF front end, frequency down- And a target simulator for delaying and up-converting the target signal by using a predetermined delay time and transmitting the delayed signal to the image radar side by a predetermined delay time.

In addition, a time delay is included to more accurately express the preset delay time.

The time delay includes a plurality of delay lines and is controlled by the control unit to delay signals by selectively connecting at least one of the plurality of delay lines.

The time delay further includes an amplifier, and a signal obtained by compensating for signal attenuation due to insertion loss of the delay line selection switch through the amplifier is transmitted to the image radar.

Also, the time delay is inserted such that the signal processed by the DRFM is processed before being transmitted from the RF front end after up-converting the signal processed by the DRFM.

In addition, a down-converter for down-converting the signal transmitted from the RF front end to an intermediate frequency is included.

Also, an up converter for up-converting the signal transmitted from the DRFM to a radar operation frequency is included.

As described above, according to the target simulator for verifying the performance of the ultrahigh-resolution image radar using the time delay according to the present invention, a time delay is applied to the target simulator to change the relative distance between the target and the radar during the image synthesis period, So that the performance of the ultra-high resolution image radar can be verified on the ground without going through the flight.

FIG. 1 schematically shows a configuration of an image radar ground performance verifying apparatus using a target simulator according to the prior art.
2 schematically shows the configuration of a target simulation apparatus applied to an image radar ground performance verifying apparatus using a target simulation apparatus according to the prior art.
3 schematically shows a configuration of a target simulation apparatus for verifying the performance of ultra-high resolution image radar using a time delay according to an embodiment of the present invention.
FIG. 4 schematically shows a configuration of a time delay applied to a target simulation apparatus for verifying performance of ultra-high resolution image radar using a time delay according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 schematically shows a configuration of a target simulation apparatus for verifying the performance of ultra-high resolution image radar using a time delay according to an embodiment of the present invention. 3, a target simulation apparatus for verifying performance of an ultrahigh-resolution image radar using a time delay according to an exemplary embodiment of the present invention includes an RF front end 110, a down converter 120, a DRFM 130, (140) and a time delay (200).

The RF front end 110 receives an electromagnetic wave signal radiated from the image radar. Then, the signal passed through the RF front end 110 is transmitted to the down-converter 120. Here, since the electromagnetic wave signal passing through the RF front end 110 is an electromagnetic wave of a high band and the wavelength is very short, it is difficult to process information for the target simulation. Accordingly, the DRFM 130 can convert the DRFM 130 to an arbitrary intermediate frequency while converting the baseband signal using the down-converter 120, so that the DRFM 130 can add the simulated target information.

The DRFM 130 delays the target signal according to the relative distance between the target and the image radar, and the representable delay resolution is inversely proportional to the maximum clock generation value in the DRFM 130.

Thereafter, a signal is transferred from the DRFM 130 to the up converter 140. The up-converter 140 performs frequency up-conversion to transmit an electromagnetic wave signal having a radar operating frequency to the RF front end 110.

FIG. 4 schematically shows a configuration of a time delay applied to a target simulation apparatus for verifying performance of ultra-high resolution image radar using a time delay according to an embodiment of the present invention. As shown in FIG. 4, the time delay 200 can adjust the delay time finer than the delay resolution of the DRFM 130.

In addition, the time delay 200 includes a plurality of delay lines 201, and a delay value of a signal can be precisely determined by selectively connecting at least one of the plurality of delay lines 201.

The time delay 200 may further include an amplifier 210. That is, a signal obtained by compensating for the signal attenuation due to the insertion loss of the delay line selection switch through the amplifier 210 may be transmitted to the image radar side.

In addition, the time delay 200 is inserted such that the signal processed by the DRFM 130 is processed before being transmitted from the RF front end 110 after being up-converted.

Therefore, as described above, the target simulation apparatus for verifying the super-high resolution image radar performance using the time delay according to the embodiment of the present invention verifies the image radar using the minimum unit value of the delay time that can be represented by applying to the target simulator output It is possible to have a sufficiently small value.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, And all changes to the scope that are deemed to be valid.

100: Target simulator
110: RF front end
120: down converter
130: DRFM
140: Up converter
200: time delay
201: Delay line
210: Amplifier

Claims (7)

After the radio waves radiated from the image radar are received through the RF front end and frequency downconverted to the baseband, the target signal is delayed and upconverted using the DRFM, and is delayed finer than the delay resolution of the DRFM to be transmitted to the image radar side And a target simulator, wherein the target simulator includes a time delay device. The method according to claim 1,
And a time delay for delaying the signal finer than the delay resolution of the DRFM is included. 3. The method of claim 2,
Wherein the time delay includes a plurality of delay lines and a delay value of a signal is precisely controlled by selectively connecting at least one of the plurality of delay lines by a control unit. Target simulator for radar performance verification. The method of claim 3,
Wherein the time delay further comprises an amplifier and a signal obtained by compensating for signal attenuation caused by an insertion loss of the delay line selection switch through the amplifier is sent to the image radar side. Target simulation device. 3. The method of claim 2,
Wherein the time delayer is inserted such that the signal processed by the DRFM is processed before being transmitted from the RF front end after up-converting the signal processed by the DRFM, and the time delay is applied to the DRFM. The method according to claim 1,
And a down-converter for down-converting the signal transmitted from the RF front end to an intermediate frequency. The method according to claim 1,
And an up-converter for up-converting the signal transmitted from the DRFM to an intermediate frequency.

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