KR102075200B1 - Reactive Portable Combined Jammer - Google Patents

Abstract

A reactive portable composite jammer is provided. The jammer according to an embodiment of the present invention includes a jamming signal generator for identifying a frequency used by a target through a frequency scan, generating a jamming signal of the identified frequency, and an RF block for transmitting the generated jamming signal through an antenna. do. Accordingly, by grasping the frequency used by the illegal drone and performing electromagnetic jamming at the corresponding frequency, both the jamming effect and the efficiency can be improved.

Description

Reactive Portable Combined Jammer

The present invention relates to a jammer that is an electromagnetic wave generator for disturbing a target, and more particularly, to a portable jammer that generates electromagnetic waves to stop an operation by targeting an illegal drone.

Jammers generate electromagnetic waves that disturb the target. Electromagnetic waves generated by jammers include various / wide frequency signals and perform jamming for a relatively long time.

Therefore, jamming to the target will inevitably consume a lot of power. Since existing jammers have a very low jamming efficiency, there is a need for a method for improving efficiency.

Furthermore, the problem of disturbing even non-targets in the case of existing jammers arises. This will cause inadvertent damage in non-exhibit or escort situations and needs improvement.

The present invention has been made to solve the above problems, an object of the present invention, a method for more efficient electromagnetic jamming, reactive portable to grasp the frequency used by the illegal drone to perform electromagnetic jamming at the frequency The present invention provides a composite jammer and a jamming method using the same.

Jammer according to an embodiment of the present invention for achieving the above object, the jamming signal generator for identifying the frequency used by the target through a frequency scan, and generates a jamming signal of the identified frequency; And an RF block for transmitting the generated jamming signal through an antenna.

In addition, the jamming signal generator may measure RSSIs while scanning a frequency, and determine a frequency used by the target from the measured RSSIs.

Also, the jamming signal generator can grasp the frequency at which the RSSI is maximum as the frequency used by the target.

The jamming signal generator may perform a frequency scan at a predetermined time interval.

In addition, the RF block may include a switch for selecting a path for delivering a received signal from the target through the antenna to the jamming signal generator and a path for delivering the jamming signal generated in the jamming signal generator to the antenna. .

The switch may periodically change the switching state.

Also, the antenna may be an array antenna in which a plurality of antennas are arranged.

And, there are a plurality of RF blocks, and a plurality of RF blocks may be connected to one jamming signal generator.

In addition, the target may be an illegal drone.

On the other hand, the jamming method according to another embodiment of the present invention, the step of identifying the frequency used by the target through a frequency scan; Generating a jamming signal of the identified frequency; And transmitting the generated jamming signal.

On the other hand, jamming signal generating apparatus according to another embodiment of the present invention, through a frequency scan, the receiving unit to grasp the frequency used by the target; And a transmitter configured to generate a jamming signal having the identified frequency.

On the other hand, jamming signal generation method according to another embodiment of the present invention, through the frequency scan, the step of identifying the frequency used by the target; And generating a jamming signal of the identified frequency.

As described above, according to the embodiments of the present invention, by grasping the frequency used by the illegal drone and performing electromagnetic jamming at the corresponding frequency, both the jamming effect and the efficiency can be improved.

In addition, according to embodiments of the present invention, it is possible to prevent the occurrence of unintended disturbance for the non-target.

Furthermore, according to embodiments of the present invention, by recognizing a channel used by peripheral equipment rather than a channel used by an illegal drone and excluding it from a target frequency for generating a jamming signal, an incorrect frequency is set when generating a jamming signal. Can be prevented in advance.

1 is a block diagram of a reactive portable composite jammer according to an embodiment of the present invention,
2 is a flowchart provided to explain an illegal drone disturbance method according to another embodiment of the present invention.

Hereinafter, with reference to the drawings will be described the present invention in more detail.

1 is a block diagram of a reactive portable composite jammer according to an embodiment of the present invention. The reactive portable composite jammer according to the embodiment of the present invention performs more efficient electromagnetic jamming in stopping the flight by disturbing the illegal drone.

Reactive portable composite jammer according to an embodiment of the present invention, as shown in Figure 1, jamming signal generator 100, RFB (Radio Frequency Blocks) 200-1, 200-2, 200-3 .. 200-N) and antenna arrays 300.

The jamming signal generator 100 includes an upper receiving end, a central digital signal processor (DSP) 140, and a lower transmitting end.

The receiving end is configured to quickly detect the frequency of the channel used by the illegal drone, the RSSI (Received Signal Strength Indicator) measuring unit 105, the filter 110, the down-mixer 115, the oscillator ( 120, an amplifier 125, and a power splitter 130.

The power splitter 130 amplifies the received signal from the illegal drone received through the antenna arrays 300 and passed through the RFBs 200-1, 200-2, 200-3..., 200-N. Forward to 125.

The amplifier 125 amplifies the received signal, and the down-mixer 115 mixes the amplified signal and the oscillation signal applied from the oscillator 120 to down convert the received signal.

The filter 110 filters the down-converted received signal, and the RSSI measuring unit 105 measures the RSSI of the filtered signal.

In order to measure the RSSI of the signal received from the illegal drone while hopping the channel, the DSP 140 performs RFBs 200-1, 200-2, 200-3, ... N) and the receiving end. In addition, the DSP 140 selects / sets the frequency of the channel having the maximum RSSI and controls the transmitter to generate a jamming signal having the selected / set frequency. Of course, the above control may be made by a configuration other than the DSP (140).

The transmitter is configured to generate a jamming signal of the frequency of the channel with the maximum RSSI determined through the channel scan, and includes a Direct Digital Synthesis (DDS) 150 and a Digital-to-Analog Converter (DAC) 155. Up-mixer 160, oscillator 165, amplifier 170, and power splitter 175.

The DDS 150 generates a baseband jamming signal, and the DAC 155 converts the baseband jamming signal into an analog signal.

The up-mixer 160 mixes the output signal of the DAC 155 and the oscillation signal applied from the oscillator 165 to up-convert the baseband jamming signal, and the frequency band of the channel where the RSSI was maximum. That is, to convert to the frequency band of the channel used by the illegal drone.

The amplifier 170 amplifies the jamming signal output from the up-mixer 160, and the power splitter 175 outputs the amplified jamming signal to the RFBs 200-1, 200-2, 200-3. -N), and transmits to the illegal drone through the antenna array 300.

The RFBs 200-1, 200-2, 200-3,..., 200 -N are configured to perform illegal drone signal reception and jamming signal transmission in the RF band, and include a power splitter 210 and an amplifier 220. ), A power splitter 230, a multiple amplification stage 240 and a switch 250, respectively.

The power splitter 210 collects the signals received from the illegal drone through the antenna arrays 300 and delivers the signals to the receiving end of the jamming signal generator 100.

The amplifier 220 amplifies the jamming signal generated by the transmitter of the jamming signal generator 100, and the power splitter 230 distributes the amplified jamming signal to a plurality of amplifiers constituting the multiple amplifier 240.

The jamming signal amplified by the multiple amplification stage 240 is transmitted to the illegal drone through the antenna arrays 300.

In the frequency scan mode, the switch 250 switches to conduct with the power splitter 210 so that the received signal from the illegal drone is transmitted to the receiving end of the jamming signal generator 100 via the antenna arrays 300.

In the jamming mode, the switch 250 switches to conduct the multiple amplification stages 240 so that the jamming signal generated by the jamming signal generator 100 is transmitted to the illegal drone through the antenna arrays 300.

The antenna arrays 300 are arranged with a plurality of antennas, so that a high antenna gain can be obtained at the time of transmission, so that an electromagnetic wave attack can be performed even with low power in a remote drone.

The antenna arrays 300 are shared by the transmitter and the receiver, and the reception mode (frequency scan mode) and the transmission mode (jamming mode) are alternately / periodically performed in a time division duplex (TDD) form.

In addition, the antennas constituting the antenna arrays 300 are implemented with highly directional ones, so that only the signal being used by the illegal drone is detected and the jamming signal is transmitted only to the illegal drone.

2 is a flowchart provided to explain an illegal drone disturbance method according to another embodiment of the present invention.

As shown in FIG. 2, first, the mode of the portable composite jammer is set to a channel / frequency scan mode (S410), and each channel / frequency is transmitted to the RSSI measurement unit 105 while hopping the frequency through the channel / frequency scan. RSSI is measured (S420).

For example, in the case of the 2.4 GHz band, which is a WiFi channel, since there are approximately 12 frequency channels in Korea, in step S420, RSSI is measured and stored for 12 channels.

Next, the controller determines a channel having the largest RSSI among the RSSIs measured in operation S420 (S430), selects / sets a frequency of the identified channel (S440), and controls a transmitter to generate a jamming signal of the selected / set frequency. (S450).

Thereafter, after a predetermined time has elapsed, the process is repeated from step S420 to update the use channel information of the illegal drone.

So far, the reactive portable composite jammer has been described in detail with preferred embodiments.

In the above embodiment, when an illegal drone is to be operated through electromagnetic jamming, the electromagnetic wave is jammed at a corresponding frequency by detecting the operating frequency of the illegal drone more quickly, thereby performing more efficient electromagnetic jamming.

On the other hand, in order to prevent the wrong frequency setting in advance, the channel used by the peripheral equipment, not the channel used by the illegal drone, in advance, and excluded from the target frequency for generating the jamming signal, thereby maximizing the jamming efficiency more It is possible to do

In addition, the reactive portable composite jammer presented in the above embodiment may be implemented by installation / fixation rather than portable.

Furthermore, the technical concept of the present invention may be applied to a case where only a part of the reactive portable composite jammer, for example, the jamming signal generator 100 is implemented.

In addition, although the preferred embodiment of the present invention has been shown and described above, the present invention is not limited to the specific embodiments described above, but the technical field to which the invention belongs without departing from the spirit of the invention claimed in the claims. Of course, various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

100: jamming signal generator
105: RSSI (Received Signal Strength Indicator) measuring unit
110: filter 115: down-mixer
120: oscillator 125: amplifier
130: power splitter
140: DSP (Digital Signal Processor)
150: Direct Digital Synthesis
155: Digital-to-Analog Converter
160: Up-Mixer 165: Oscillator
170: amplifier 175: power splitter
200-1, 200-2, 200-3 ..., 200-N: RFB (Radio Frequency Block)
210: power splitter 220: amplifier
230: power splitter 240: multiple amplifier stage
250: switch
300: antenna arrays

Claims (12)

A jamming signal generator which grasps a frequency used by the target through a frequency scan and generates a jamming signal having the identified frequency; And
An RF block for transmitting the generated jamming signal through an antenna;
RF block,
A switch for selecting a path for transmitting a received signal from the target through the antenna to the jamming signal generator and a path for passing the jamming signal generated in the jamming signal generator to the antenna,
Switch,
Periodically change the switching state,
Antenna is,
An array antenna in which multiple antennas are arranged,
RF blocks are numerous
One end of the plurality of RF blocks is connected to respective antennas, the other end of the plurality of RF blocks is connected to one jamming signal generator,
Jamming signal generator,
For frequencies used by peripheral equipment, exclude from the target frequency to generate the jamming signal,
Many antennas,
It is shared and used in a reception mode for receiving a signal from a target and a transmission mode for sending a jamming signal, and the reception mode and the transmission mode are alternated periodically,
Jamming signal generator,
Jammer, characterized in that performing a frequency scan at regular time intervals.
The method according to claim 1,
Jamming signal generator,
A jammer characterized by measuring the RSSIs by scanning the frequency and identifying the frequency used by the target from the measured RSSIs.
The method according to claim 1,
Jamming signal generator,
A jammer characterized by identifying the frequency at which the RSSI is maximum as the frequency used by the target.
delete delete delete delete delete The method according to claim 1,
The target is
Jammer, characterized in that the illegal drone.
The jamming signal generator, through a frequency scan, identifying a frequency used by the target;
Generating, by the jamming signal generator, a jamming signal of the identified frequency; And
Transmitting, by the RF block, the generated jamming signal;
RF block,
A switch for selecting a path for transmitting a received signal from the target through the antenna to the jamming signal generator and a path for passing the jamming signal generated in the jamming signal generator to the antenna,
Switch,
Periodically change the switching state,
Antenna is,
An array antenna in which multiple antennas are arranged,
RF blocks are numerous
One end of the plurality of RF blocks is connected to respective antennas, the other end of the plurality of RF blocks is connected to one jamming signal generator,
Jamming signal generator,
For frequencies used by peripheral equipment, exclude from the target frequency to generate the jamming signal,
Many antennas,
It is shared and used in a reception mode for receiving a signal from a target and a transmission mode for sending a jamming signal, and the reception mode and the transmission mode are alternated periodically,
Jamming signal generator,
Jamming method characterized in that performing a frequency scan at a predetermined time interval.
Receiving unit for identifying the frequency used by the target through the frequency scan; And
A transmitter for generating a jamming signal of the identified frequency;
And an RF block for transmitting the received signal from the target through the antenna to the receiver and transmitting the jamming signal generated by the transmitter through the antenna.
RF block,
And a switch for selecting a path for transmitting the received signal from the target through the antenna to the receiver and a path for transmitting the jamming signal generated at the transmitter to the antenna,
Switch,
Periodically change the switching state,
Antenna is,
An array antenna in which multiple antennas are arranged,
RF blocks are numerous
One end of the plurality of RF blocks is connected to respective antennas, the other end of the plurality of RF blocks is connected to one receiver and one transmitter,
The transmitter is
For frequencies used by peripheral equipment, exclude from the target frequency to generate the jamming signal,
Many antennas,
It is shared and used in a reception mode for receiving a signal from a target and a transmission mode for sending a jamming signal, and the reception mode and the transmission mode are alternated periodically,
Receiving unit,
Jamming signal generator, characterized in that for performing a frequency scan at a predetermined time interval.
Transmitting, by the RF block, a received signal from the target through the antenna to the receiver;
Receiving unit, through the frequency scan, grasp the frequency used by the target;
Generating, by the transmitter, a jamming signal having the identified frequency; And
And transmitting, by the RF block, a jamming signal generated by a transmitter through an antenna.
RF block,
And a switch for selecting a path for transmitting the received signal from the target through the antenna to the receiver and a path for transmitting the jamming signal generated at the transmitter to the antenna,
Switch,
Periodically change the switching state,
Antenna is,
An array antenna in which multiple antennas are arranged,
RF blocks are numerous
One end of the plurality of RF blocks is connected to respective antennas, the other end of the plurality of RF blocks is connected to one receiver and one transmitter,
The transmitter is
For frequencies used by peripheral equipment, exclude from the target frequency to generate the jamming signal,
Many antennas,
It is shared and used in a reception mode for receiving a signal from a target and a transmission mode for sending a jamming signal, and the reception mode and the transmission mode are alternated periodically,
Receiving unit,
Jamming signal generation method characterized in that for performing a frequency scan at a predetermined time interval.

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