KR102473457B1 - Signal control apparatus having signal analyzer - Google Patents

Abstract

The present invention relates to a signal control device, and more particularly, to a signal control device having a signal analyzer.
The signal control device equipped with the signal analyzer of the present invention provides an integrated signal analyzer that analyzes only signals in a frequency band corresponding to a specific RF frequency required by the radar, thereby eliminating the need for expensive signal analysis equipment. By removing unnecessary functions, the size of the equipment can be miniaturized and the economic cost can be reduced. In addition, since a signal generator that generates only a specific frequency is implemented as an integral type, radar and self-performance tests can be performed without the need to additionally connect additional external equipment.

Description

Signal control device with signal analyzer {SIGNAL CONTROL APPARATUS HAVING SIGNAL ANALYZER}

The present invention relates to a signal control device, and more particularly, to a signal control device having a signal analyzer.

Radar (RADAR: RAdio Detection And Ranging) is an abbreviation for radio detection and distance measurement. It refers to a wireless monitoring device that finds out the direction, altitude, etc.

These radars can receive RF signals generated from signal generating targets (unmanned aerial vehicles, control towers, UAVs, etc.) and output them to the outside, whereby users can monitor them. At this time, the RF signal output from the signal generating target is attenuated by various factors, so that the radar cannot receive the desired RF signal.

To solve this problem, a signal control device may be provided between the radar and the signal generating target. The signal control device may receive, amplify, and transmit the RF signal output from the signal generating target to the radar. Accordingly, the radar may receive the amplified RF signal and output it to the outside.

At this time, only when the signal control device is properly operated can the radar output a desired RF signal. In order to test the performance of the signal control device, RF signal generation equipment for generating RF signals and signal analysis equipment for signal analysis are required.

However, the signal analysis equipment may have a large size and increase cost by including a complex configuration for frequency analysis corresponding to various frequency bands (S band, C band, X band, Ka band, etc.) of the radar.

Accordingly, the present applicant intends to provide a radar test equipment integrally equipped with a signal analyzer for testing radar performance by analyzing only a specific frequency band of the radar.

An object of the present invention is to provide a signal analyzer that analyzes only a specific frequency band of the radar, thereby reducing cost and minimizing the test space by eliminating the need for expensive signal analysis equipment during radar testing. It is to provide a signal control device having an analyzer.

A signal control device having a signal analyzer according to the present invention for achieving the above object is a transceiver having a receiver for receiving an RF signal generated by a signal generator and a transmitter for amplifying and outputting the received RF signal. ; and a signal analyzer for analyzing gain performance and amplification performance of the RF signal output from the transceiver, and the transceiver and the signal analyzer may be integrally provided in one housing.

Here, the signal control device may further include a signal generator for generating a preset RF signal.

In addition, the signal control device may further include an EMI.

In addition, the signal analyzer analyzes only the signal of the 8GHz to 10GHz band, and the network analysis unit for analyzing the gain performance of the transceiver; and a spectrum analyzer configured to analyze the amplification performance by analyzing the magnitude of the amplified RF signal output from the transceiver.

In addition, the external signal analyzer may include a proximity deployment system that analyzes a signal transmitted by the radar receiving the amplified RF signal from the signal control device.
In addition, a transceiver having a receiver for receiving the RF signal generated by the external signal generator and a transmitter for amplifying and outputting the received RF signal; and a signal analyzer for analyzing gain performance and amplification performance of the RF signal output from the transceiver, wherein the transceiver and the signal analyzer are integrally provided in one housing, and the signal analyzer comprises the A network analyzer for analyzing the gain performance of the transceiver and a spectrum analyzer for analyzing the amplification performance by analyzing the size of the amplified RF signal output from the transceiver, wherein the transceiver includes RF transmitted from an external signal generating device. Performing one function selected from the first function of amplifying the signal and transmitting it to the radar and the second function of amplifying the RF signal generated by the external signal generator and transmitting it to the signal analyzer; The spectrum analysis unit compares the received amplified RF signal and the RF signal size of the external signal generator to check the amplification performance of the transceiver.

As described above, the signal control device equipped with the signal analyzer of the present invention provides an integrated signal analyzer that analyzes only signals in a frequency band corresponding to a specific RF frequency required by the radar, thereby reducing expensive signal analysis equipment. It does not need to be separately equipped, and by removing unnecessary functions for analysis, the size of the equipment can be miniaturized and the economic cost can be reduced.

In addition, since a signal generator that generates only a specific frequency is implemented as an integral type, radar and self-performance tests can be performed without the need to additionally connect additional external equipment.

1 is a diagram for explaining a signal control device having a signal analyzer according to an embodiment of the present invention.
2 is a diagram for explaining a signal control device having a signal analyzer according to another embodiment of the present invention.
Figure 3 is a block diagram for explaining the schematic configuration of the signal control device of Figure 1.
4 is a block diagram showing a schematic configuration of the signal analyzer of FIG. 1;
5 is a flowchart illustrating a second function of a signal control device having a signal analyzer according to an embodiment of the present invention.

Terms or words used in this specification and claims should not be construed as being limited to their usual or dictionary meanings, and the inventors may appropriately define the concept of terms in order to best explain their invention. It should be interpreted as a meaning and concept consistent with the technical idea of the present invention based on the principle that there is.

Therefore, since the embodiments described in this specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention and do not represent all of the technical ideas of the present invention, various equivalents that can replace them at the time of the present application It should be understood that there may be water and variations.

Hereinafter, prior to description with reference to the drawings, matters that are not necessary to reveal the subject matter of the present invention, that is, known configurations that can be added obviously by those skilled in the art, are not shown or specifically described. reveal the sound

1 is a diagram for explaining a signal control device having a signal analyzer according to an embodiment of the present invention.

The signal control device 100 of the present invention may be a transmission/reception module that receives and amplifies the RF signal transmitted from the external signal generator 10 and transmits it to the radar 20. That is, the signal control device 100 of the present invention amplifies the RF signal and receives it from the radar in order to prevent the radar 20 from not receiving the RF signal due to the attenuation of the RF signal transmitted from the external signal generator 10. allow you to do At this time, the gain performance and amplification performance may be analyzed by analyzing the signal transmitted from the signal control device 100 to the radar 20 through the external signal analysis equipment 30, and the performance and operation of the radar 20 may be analyzed. You can run tests on.

In addition to this, in the present invention, as shown in FIG. 1, the signal control device 100 and the signal analyzer 140 may be integrated and provided, whereby the signal control device 100 is provided from the external signal generating equipment 10 After receiving the generated RF signal, the RF signal transmitted to the radar 20 may be analyzed. Accordingly, when performing a test for the performance and operation of the radar 20, it is not necessary to separately equip the expensive signal analysis equipment 30, thereby reducing economical costs and minimizing the test space.

In addition, in the present invention, as shown in FIG. 2, the signal control device 100 may be provided by integrating the signal analyzer 140 and the signal generator 120. Accordingly, it is not necessary to separately prepare the expensive signal generating equipment 10 and signal analyzing equipment 30 when conducting a test on the performance and operation of the radar, thereby reducing economical costs and minimizing the test space. have. In addition, since the signal analyzer 140 and the signal generator 120 are integrally provided, a self-performance test of the signal control device 100 is also possible.

Here, in the self-performance test, the RF signal value received by the signal control device 100 in response to the RF signal generated from the integrated signal generator 120 and the RF signal transmitted to the radar 20 are requested by the radar 20. It can be a performance test that analyzes with the integrated signal analyzer 140 whether it is amplified to the value of

In addition, the signal control device 100 amplifies and transmits the RF signal generated from the external signal generator 10 or the signal generator 120 by integrating the signal analyzer 140 and transmits the signal by itself. can be corrected

In the present invention, the signal control device 100 has a first function of amplifying the RF signal transmitted from the signal generating equipment 10 or the signal generator 120 and transmitting it to the radar 20, and the signal generating equipment 10 or signal The second function of amplifying the RF signal generated by the generator 120 and then transmitting it to the signal analyzer 140 may be performed.

Figure 3 is a block diagram for explaining the schematic configuration of the signal control device of Figure 1. Referring to FIG. 3 , the signal control device 100 according to an embodiment of the present invention includes a transceiver 110 including a receiver 111 and a transmitter 112, a control unit 130, and a signal analyzer 140. can include At this time, the signal control device 100 may be provided by additionally integrating the signal generator 120.

The control unit 130 controls the overall operation of the signal control device 100, receives power from a power supply unit (not shown), and when the signal control device 100 is turned on, the power of the transceiver 110 and the signal analyzer 140 ON/OFF and operation can be controlled. In addition, as shown in FIG. 2 , when the signal generator 120 is integrated, power ON/OFF and operation of the signal generator 120 can be controlled.

The transceiver 110 includes a receiver 111 and a transmitter 112, and the receiver 111 and the transmitter 112 may each include an amplification module. The transmitting/receiving unit 110 may be operated as a first function or a second function according to a control command of the control unit 130 .

The receiving unit 111 may receive an RF signal from the external signal generating equipment 10 or the integrated signal generator 120 and transmit the received signal to the transmitting unit 112 . At this time, the receiver 111 may amplify and receive the RF signal using an amplification module.

In addition, the transmitter 112, when operating as the first function, amplifies the RF signal received from the signal generator 10 or the integrated signal generator 120 through the receiver 111 through an amplification module equipped with a radar ( 20), and when operated as the second function, the RF signal received from the external signal generator 10 or the integrated signal generator 120 through the receiver 111 is amplified through the amplification module, and then the integrated signal analyzer It can be sent to (140).

At this time, the RF signal transmitted from the transmitter 112 may be an RF signal of a frequency band required by the radar 20, equally for both the first function and the second function, and the integrated signal generator 120 of the present invention Describes a signal in the 8 GHz to 10 GHz band as an example.

The integrated signal generator 120 may be an external signal generator 10 or equipment that generates only preset waveform signals in the 8 GHz to 10 GHz band. The signal generator 120 according to an embodiment of the present invention may be provided as a miniaturized module by generating only the necessary RF signals in the 8 GHz to 10 GHz band.

The RF signal generated by the external signal generator 10 or the signal generator 120 may be transmitted to the receiver 111 of the transceiver 110, amplified by the transmitter 112 and transmitted to the signal analyzer 140. have.

Referring to FIG. 4 , the signal analyzer 140 may include a network analyzer 141 analyzing gain performance and a spectrum analyzer 142 analyzing an output level.

The network analyzer 141 has ports connected to inputs and outputs of the transceiver 110, respectively, and can monitor incident waves, reflected waves, and transmitted waves by known stimulus signals to measure amplitudes and phases. In the present invention, the network analyzer 141 can check whether the receiver 111 operates normally by analyzing the gain performance of the receiver 111 using the measured parameters.

In addition, the spectrum analyzer 142 may receive the amplified RF signal transmitted from the transceiver 110 as an input signal and measure the amplitude of the signal. At this time, the output performance can be confirmed by comparing the magnitude of the RF signal transmitted from the signal generator 120 to determine the degree of amplification.

In addition, the external signal analyzer 30 may include equipment capable of analyzing signals other than the network analyzer and the spectrum analyzer. That is, a proximity deployment system 143 for analyzing a signal output from the radar 20 may be further included.

On the other hand, the signal control device 100 according to an embodiment of the present invention further includes an EMI (Electro Magnetic Interference) 150 to minimize the effect of noise caused by power supply and to prevent malfunction.

5 is a flowchart illustrating a second function of a signal control device having a signal analyzer according to an embodiment of the present invention.

Referring to FIG. 5, when the second function of the signal control device 100 according to an embodiment of the present invention is operated, power is supplied to the integrated signal generator 120 according to the control command of the control unit 130 to set the RF A signal may be generated or an RF signal may be generated through an external signal generating device 10.

At this time, the external signal generator 10 or the signal generator 120 may generate a signal in the 8 GHz to 10 GHz band, which is a signal required by the radar 10, as a preset waveform.

Next, the transceiver 110 may receive an RF signal generated by the external signal generator 10 or the integrated signal generator 120 . At this time, input/output of the transceiver 110 is connected to a plurality of ports of the network analyzer 141 to monitor and analyze characteristics.

At this time, the network analyzer 141 may analyze the gain performance by measuring amplitude and phase, and check whether the network operates normally.

In addition, the transceiver 110 amplifies the RF signal received from the external signal generating equipment 10 or the integrated signal generator 120, and converts the amplified RF signal to the spectrum analysis unit of the signal analysis unit 140 ( 142).

At this time, the amplification performance of the transmitter 112 can be confirmed by measuring the signal level by performing spectrum analysis on the amplified RF signal received by the spectrum analyzer 142 .

On the other hand, what has been described above using FIGS. 1 to 5 describes only the main points of the present invention, and as much as various designs are possible within the technical scope, the present invention is limited to the configurations of FIGS. 1 to 5 It is self-evident that it is not

100: signal control device equipped with a signal analyzer
110: transmission and reception unit 111: reception unit 112: transmission unit
120: signal generator 130: control unit
140: signal analyzer 141: network analysis unit 142: spectrum analysis unit
143: close deployment system
150: EMI
10: signal generating equipment 20: radar

Claims (5)

A transceiver having a receiver for receiving the RF signal generated by the external signal generator and a transmitter for amplifying and outputting the received RF signal; and
A signal analyzer for analyzing the gain performance and amplification performance of the RF signal output from the transceiver; includes,
The transceiver and the signal analyzer are characterized in that they are integrally provided in one housing,
The signal analyzer includes a network analyzer for analyzing the gain performance of the transceiver and a spectrum analyzer for analyzing the amplification performance by analyzing the magnitude of the amplified RF signal output from the transceiver,
The transceiver unit has a first function of amplifying the RF signal transmitted from the external signal generating equipment and transmitting it to the radar, and a second function of amplifying the RF signal generated by the external signal generating equipment and transmitting it to the signal analyzer. to perform a function;
The spectrum analysis unit compares the received amplified RF signal and the RF signal size of the external signal generator to check the amplification performance of the transceiver;
According to claim 1,
The signal control device is a signal control device having a signal analyzer, characterized in that it further comprises a signal generator for generating a predetermined RF signal.
According to claim 1,
The signal control device is a signal control device having a signal analyzer, characterized in that the EMI is further provided.
delete According to claim 1,
A signal control device having a signal generator, characterized in that it comprises a proximity deployment system for analyzing a signal transmitted by the radar receiving the amplified RF signal from the signal control device.

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