KR100790953B1 - High power wideband pulse generator using dipole antenna - Google Patents

Abstract

A high power wideband pulse generator using a dipole antenna is provided to control a maximum size of a pulse signal or a bandwidth of a frequency without additionally manufacturing an oscillator and the dipole antenna. A high power wideband pulse generator using a dipole antenna includes a high voltage charging device(100), an oscillator(110), and a dipole antenna(120). The high voltage charging device charges a high voltage switch with a high voltage. The oscillator has the high voltage switch generating an electromagnetic wave pulse signal of a large output after being charged with the high voltage by the high voltage charging device. The dipole antenna includes a plurality of control parts connected with both ends of the oscillator. A length of the dipole antenna can be changed according to every combination of the plurality of control parts.

Description

High power wideband pulse generator using dipole antenna

1 is a block diagram of a conventional broadband high output pulse signal generator.

2 is a block diagram of a wideband high power pulse signal generator according to the present invention.

3 is a block diagram of an oscillator according to an embodiment of the present invention.

4 is a schematic diagram illustrating components of a dipole antenna according to an embodiment of the present invention.

5 is a state diagram coupled to a dipole antenna at both ends of the oscillator according to an embodiment of the present invention.

Figure 6 is a state diagram coupled to the dipole antenna at both ends of the oscillator according to an embodiment of the present invention.

7 is a graph illustrating waveforms of electric field strength received in the time domain when the length of the dipole antenna is changed according to an embodiment of the present invention.

8 is a graph in which the reception field waveform in the time domain is converted into the frequency domain when the length of the dipole antenna is changed according to an embodiment of the present invention.

<Explanation of symbols for main parts of drawing>

10, 100: high voltage charging device 20, 111: high voltage switch

30 antenna 110 oscillator

120: dipole antenna 112: support

121: first adjusting unit 122: second adjusting unit

123: third adjusting unit 124: antenna plug

The present invention relates to a wideband high power pulse signal generator using a variable-length dipole antenna, wherein the high power electromagnetic pulse signal generator is largely divided into a narrowband generator and a wideband generator. will be.

The basic form of the broadband high power electromagnetic pulse signal generator is composed of a high voltage charging device 10, a high voltage switch 20 and an antenna 30 as shown in FIG. The high voltage charging device is generally used in the form of a max or transformer and generates a high voltage pulse by using a commercial power supply. The high voltage switch uses a spark gap switch that is spontaneously discharged at a constant high voltage and is located between the dipole antennas.

When the high voltage charging device charges the high voltage switch, the high voltage switch spontaneously discharges over a predetermined voltage and vibrates at a resonant frequency to generate a high output electromagnetic pulse of attenuated vibration waveform through the antenna. The high voltage switch generally injects gaseous gas between the high voltage switches to prevent internal breakdown at a predetermined voltage or less.

The antenna uses a dipole or biconical dipole antenna that can be easily connected to a high voltage charging device and can include an oscillator. In addition, a conductor rod may be attached to the dipole antenna to improve the maximum size of the RF radiation pulse signal.

The maximum size or frequency bandwidth of the pulse signal generated by the broadband high power pulse signal generator is greatly affected by the size and shape of the switch and antenna of the signal generator.

Therefore, in order to change the maximum size or frequency bandwidth of the pulse signal generated by the signal generator, a problem arises in the design and manufacture of a switch and a dipole antenna.

The present invention is implemented by varying the length of the dipole antenna so that the oscillator and the dipole antenna need not be manufactured in order to adjust the maximum size or frequency bandwidth of the pulse signal generated in the broadband high power pulse signal generator.

Accordingly, an object of the present invention is to provide a wideband high output pulse signal generator capable of adjusting the maximum size or frequency bandwidth of a pulse signal using an oscillator and a variable dipole antenna.

To this end, the broadband high power pulse signal generator is characterized by consisting of an oscillator and a variable length dipole antenna that spontaneously discharges above a certain voltage.

The present invention relates to a wideband high output pulse signal generator using a dipole antenna, comprising: a high voltage charging device for charging with a high voltage, and a high voltage for charging with a high voltage by the high voltage charging device and then spontaneously discharging to vibrate at a resonance frequency to generate a high output of attenuation vibration waveform. An oscillator having a high voltage switch for generating an electromagnetic pulse signal of the oscillator, characterized in that it comprises a dipole antenna consisting of a plurality of adjusting units coupled to both ends of the oscillator to adjust the maximum size or frequency bandwidth of the pulse signal .

Here, the dipole antenna is characterized in that the length can be changed by each combination of the plurality of adjusting units.

In addition, it is preferable that the adjustment part is composed of a first adjustment part, a second adjustment part, and a third adjustment part of a predetermined length.

The dipole antenna may further include an antenna plug coupled to both ends of the dipole antenna whose length is adjusted by a combination of the adjusting units.

The oscillator and the adjusting portion and the antenna plug of the dipole antenna are characterized in that each is screwed together.

The oscillator is characterized by filling a gas (SF6) therein and maintaining a constant air pressure to maintain the insulation state until reaching the spontaneous discharge voltage.

Hereinafter, an embodiment of a broadband high power pulse signal generator using a dipole antenna according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram of a wideband high output pulse signal generator according to the present invention. The broadband high power pulse signal generator according to the present invention includes a high voltage charging device 100 for generating a high voltage pulse signal, an oscillator 110 spontaneously discharged above a predetermined voltage, and a dipole antenna 120 of variable length. .

Referring to the operation of the broadband high output pulse signal generator configured as described above is as follows.

Figure 3 is an embodiment showing the configuration of the oscillator 110 according to the present invention, it is composed of a high voltage switch 111 and the support (112). The material of the high voltage switch 111 is preferably copper, and the material of the support 112 is preferably polycarbonate.

After the oscillator 110 is charged to a high voltage by the high voltage charging device 100 (not shown), the high voltage switch 111 voluntarily discharges and vibrates at a resonance frequency to generate a high output electromagnetic pulse signal of an attenuation vibration waveform. In addition, the oscillator 110 fills the gas 113 to maintain an insulating state until the self-discharge voltage is reached to maintain a constant atmospheric pressure.

At this time, the gas 113 is preferably sulfur fluoride (SF6) gas.

4 is a diagram illustrating the components of the dipole antenna 120 according to the present invention, and includes a first adjusting unit 121, a second adjusting unit 122, a third adjusting unit 123, and an antenna plug 124. Each of the above components may be combined with each other.

In addition, each of the first adjusting unit 121, the second adjusting unit 122, the third adjusting unit 123, and the antenna plug 124 preferably has a predetermined length, and each component may be easily fastened and endure high voltage. It is preferred that the elements are threaded to each other with each component.

The material of the dipole antenna 120 is preferably aluminum.

The dipole antenna 120 determines the length of the dipole antenna 120 by combining a plurality of first adjusting unit 121, the second adjusting unit 122, and the third adjusting unit 123, respectively, and the combined dipole antenna Both ends of the adjusting portion 120 and the antenna plug 124 is characterized in that it is coupled.

The dipole antennas 120 are attached to both ends of the oscillator 110, it is preferable to be screwed to each other to facilitate fastening and to withstand high voltage.

The dipole antenna 120 radiates the high output electromagnetic pulse signal of the attenuation vibration waveform generated by the oscillator 110 into the atmosphere.

Since the cross-sectional area is larger than that of a general dipole antenna, the dipole antenna 120 has a wide band characteristic.

5 is an exemplary embodiment in which a dipole antenna is coupled to both ends of the oscillator 110 according to the present invention, and a pulse signal generator combining a dipole antenna formed by coupling a third adjusting unit and an antenna plug to both ends of the oscillator.

Figure 6 is an embodiment in which the dipole antenna 120 is coupled to both ends of the oscillator 110 according to the present invention, and the first adjusting part, the second adjusting part, and the third adjusting part and the antenna plug are coupled to both ends of the oscillator, respectively. Pulse signal generator with dipole antenna.

At this time, the empty space 125 is provided by the combination of the adjusting portions of the dipole antenna.

As shown in FIG. 5 and FIG. 6, the length of the dipole antenna is determined by the combination of the combinations of the adjusting units, and the length of the dipole antenna is determined by the combination by another combination of the adjusting units. Characterized in that can be changed.

FIG. 7 is a graph showing waveforms of electric field strength received in a time domain when the length of a dipole antenna according to the present invention is varied. FIG. 7 is copied from a wideband high output pulse signal generator using the short dipole antenna of FIG. Compared to the peak received field strength, the maximum received field strength copied from the wideband high power pulse signal generator using the long dipole antenna of FIG. 6 is increased.

Therefore, it can be seen that the maximum size of the RF radiation pulse signal can be adjusted by adjusting the length of the dipole antenna in the broadband high power pulse signal generator according to the present invention.

FIG. 8 is a graph illustrating a conversion of a received field waveform in a time domain into a frequency domain when the length of a dipole antenna according to the present invention is varied. The apparatus for generating a wideband high output pulse signal using the short dipole antenna of FIG. Compared with the long dipole antenna of FIG. 6, the wideband high output pulse signal generator is more wideband.

Therefore, it can be seen that the frequency bandwidth can be adjusted by adjusting the length of the dipole antenna in the broadband high power pulse signal generator according to the present invention.

In the foregoing description, it should be understood that those skilled in the art can only make modifications and changes to the present invention without changing the gist of the present invention as it merely illustrates preferred embodiments of the present invention.

As described above, the present invention determines the length of the dipole antenna by a combination of a plurality of adjusting units in the wideband high output pulse signal generator, thereby adjusting the maximum size or frequency bandwidth of the RF radiation pulse signal generated by the pulse signal generator. Accordingly, it is not necessary to manufacture the oscillator and the dipole antenna in order to adjust the maximum size or frequency bandwidth of the pulse signal generated in the broadband high power pulse signal generator.

Claims (5)

A high voltage charging device for charging at high voltage; An oscillator having a high voltage switch configured to generate a high power electromagnetic pulse signal after being charged to a high voltage by the high voltage charging device; It includes a dipole antenna consisting of a plurality of adjustments coupled to both ends of the oscillator, The dipole antenna is a broadband high power pulse signal generator using a dipole antenna, characterized in that the length can be changed by the combination of each of the plurality of adjusting units. The method of claim 1, And the adjusting unit comprises a first adjusting unit, a second adjusting unit, and a third adjusting unit having a predetermined length. The method of claim 2, Broadband high power pulse signal generator using a dipole antenna, characterized in that it further comprises an antenna plug coupled to both ends of the dipole antenna. The method according to any one of claims 1 to 3, Broadband high output pulse signal generator using a dipole antenna, characterized in that the oscillator and the adjusting section and the antenna plug of the dipole antenna are each screwed together. The method of claim 1, The oscillator is a broadband high power pulse signal generator using a dipole antenna, characterized in that to fill the gas (SF6) to maintain an insulating state until reaching the spontaneous discharge voltage and to maintain a constant air pressure.

Images