DE10256335B3 - Electromagnetic jamming system for electronic equipment using inter-changeable wideband units for matching jamming to different types of electronic equipment - Google Patents

Abstract

The electromagnetic jamming system has a HV energy source (8), an ultra-wideband pulse former (4), a wideband pulse former and a combined ultra-wideband and wideband antenna (6), the wideband pulse former having at least 2 inter-changeable wideband units (9) with different center frequencies. An Independent claim for an operating method for an electromagnetic jamming system is also included.

Description

The invention relates to an electromagnetic Active system, a high-voltage energy source, an ultra wide band (UWB) pulse shaper a wideband pulse shaper (WBI) and a UW / UWB antenna having.

Out DE 694 27 382 T2 An ultra-wideband group antenna is known, a second radiation aperture being provided in addition to a first one, which is opposite to the means feeding in the room, the second aperture having a multiplicity of radiation elements, each of which is in turn coupled to a corresponding radiation element of the first radiation aperture, via the Phase shifters, the second aperture further comprising means for multiplexing an incoming broadband signal into signals in separate frequency bands, the means feeding the space illuminating the second aperture with signals covering the plurality of frequency bands, the means feeding the space one Having a plurality of radiators, each serving to emit signals in a specific frequency band of the separate frequency bands, and wherein the feed means are a nested or nested cup-dipole feed device, which have a common Pha center for a variety of radiators. However, the patent specification does not reveal an electromagnetic active system.

Out US 5,455,593 An ultrawideband pulse shaper is known which has N different pulse shapers which are coupled to a cw oscillator in order to reduce the signal bandwidth by a factor N, while increasing the transmitted energy by a factor N. The electromagnetic specification is also not in the patent removable.

Electromagnetic active systems are used to impair or destroy the functioning of electrical and electronic functional elements with electromagnetic fields, for example ultra-wide bath pulses. [D. Nitsch, F. Sabath, R. Sablehaus, T. Wieting; Determination of the WB and UWB Susceptibility of Microprocessors and Electronic Components - new Measurement Setup and first Results; Proceedings of the 27 ^th General Assembly of the URSI, Maastricht, NL, August 2002]; [M.Camp, H. Garbe, D. Nitsch; Influence of the Technology on the Destruction Effects of Semiconductors by Impact of EMP and UWB Pulses, Proceedings of the 2002 IEEE EMC Symposium, USA, Minneapolis (USA), August 2002, pages 87-92].

To increase the effectiveness of a electromagnetic active system, it is advantageous if the emitted Pulses in their spectral course so close to a rectangular spectrum come as possible. [D. Nitsch, F. Sabath, C. Mojert, M. Camp, J.L. ter Haseborg, Susceptibility of electronic equipment to transient electromagnetic fields of various waveforms, International Conference on Electromagnetics in Advanced Applications, ICEAA, pp. 213-216, Turin, Italy, September 2001]; [D. Nitsch, F. Sabath, Prediction of Ultra Wide Band Coupling to Modern Electronic equipment; Proceedings of the EMC Wroclaw, Poland, June 2002, pages 103-108]; [D. Nitsch, F. Sabath, R. Sablehaus, T. Wieting; A new measurement setup for the determination of the UWB and WB susceptibility of Microprocessors and Electronic Components, Proceedings of the AMEREM 2002, Annapolis (MA), USA, June 2002 page 9].

To generate pulses with a preferably rectangular Spectrum are used from any arbitrary broadband input signal correspondingly shaped output signals to generate. The advantage of this pulse shaper is your target system class tunable frequency range. The disadvantage is that for an effect must be switched to more extensive target system classes of the WBI.

The invention lies accordingly the task is based on an electromagnetic active system with an adaptable frequency range to accomplish.

This object is achieved in the claim 1 described features of an electromagnetic active system, a high voltage power source, an ultra wide band (UWB) pulse shaper having a wideband pulse shaper (WBI) and a WB / UWB antenna, where the WBI has at least two interchangeable WBI units different center frequency, solved.

The advantage of the invention lies in using a UWB pulse shaper. The UWB pulse shaper is across from other pulse generators (such as high power microwave sources) smaller, lighter and cheaper. UWB pulse shapers are also known and for electromagnetic ones Effective systems suitable.

Another advantage of the invention lies in the use of a wideband pulse shaper. The wideband pulse shapers are matched to certain spectral ranges in which the electromagnetic Impulse the greatest possible disturbance / destruction effect have and which are defined by a target system class.

The advantage of the invention lies in the use of WBI units. The WBI units consist of structures that represent a potential well for the voltage pulse running from the previous pulse former to the antenna. By varying the length of the potential well, the center fre frequency of the wideband signal, and the quality / bandwidth of the wideband signal via the depth of the potential well.

A particularly advantageous embodiment of the Invention is specified in claim 2. To the electromagnetic To be able to quickly adjust the active system to a target system class the WBI units with different spectral range or center frequency anchored on a loading structure in a magazine or gatling arrangement and can after Need to be contacted in the brackets.

Another particularly beneficial Embodiment of the invention specifies claim 3. Due to the different length for setting the center frequency, the potential pots different lengths of the WBI units. To the WBI units for standardized brackets To make contactable, the WBI units are provided with compensating pieces.

A particularly advantageous embodiment of the Invention specifies claim 4. The contacts in the standardized Brackets are sliding, pressure, or tissue contacts for the best possible connection without the loss of voltage of the WBI units with the rest of the system.

To explain the invention The following functional sequence is described: To design the WBI must which target system classes act against are first defined shall be. The frequency range to be covered must be as follows which can also consist of several separate frequency intervals To be defined. The definition of the frequency range determines only from a rough classification of the external dimensions of the target.

ε_r= Permittivitätszahl, c = Lichtgeschwindigkeit im VakuumThe desired increase in effectiveness defines the quality of the WBI units to be created. The higher the effect should be and the larger the bandwidth to be covered, the more WBI units have to be used. The center frequencies of the units must be distributed as evenly as possible over the frequency range to be covered. The center frequencies f _M can be set via the length / the potential well.

ε _r = permittivity, c = speed of light in a vacuum

b = Innendurchmesser des Außenleiters a = Außendurchmesser des InnenleitersThe potential well is realized by varying the impedance Z _P in a line section. This is done by narrowing the outer cross section:

b = inner diameter of the outer conductor a = outer diameter of the inner conductor

The potential well can also by any other method of changing the wave resistance created, such as the variation of the distances between two conductors or the Varying the distance of a conductor from the ground.

The quality of the wideband pulse to be generated can be adjusted via the depth of the potential well, ie the change in the wave resistance in the potential well compared to the impedance of the pulse generator and the antenna, and results from the reflection factors ρ _G and ρ _A at the ends of the potential well:

From the selected (or maximum achievable) Goodness and the desired one Increase in effectiveness by distributing the center frequencies, this results in the necessary number of WBI units to be manufactured.

The WBI units are between UWB pulse shaper and antenna integrated in the system. The one for realization selected a potential well Structure is shown below Grinding, pressure or other electrical contacts between two adapter pieces fitted. The electrical contacts are designed so that the WBI units are simply inserted between the adapter pieces. The different lengths of the WBI units, which differ due to the different lengths potential wells result are equalized with compensating pieces.

The realized so long WBI units are placed on a loading structure, in gatling or magazine arrangement, anchored. The loading structure enables a quick change of the WBI units, or a continuous one Run through the WBI units. With a continuous run can be one between the adapters realized contact for triggering serve the impulse, so that a behavior similar to that of an automatic Weapon is achievable.

1.

aim

Second

maximum dimension of the goal

Third

slot and coupling openings

4th

UWB pulse shaper

5th

charging structure

6th

antenna

7th

electromagnetic pulse

8th.

High voltage / energy source

9th

WBI units

10th

potential well

11th

shims

12th

Contact

20th generator field

21st

Capacity, generator area

22nd

Inductance, generator area

23rd

impedance, generator field

24th

first On partial switch

25th

second On partial switch

 26th

shortening switch

27th

Capacitor, Pulse shaping

 28th

First Transmission line, compensation piece

29th

Second Transmission line, potential well

 30th

third Transmission line, compensation piece

31st

antenna area

32nd

impedance, antenna area

33rd

Inductance, antenna range

35th

UWB pulse

36th

voltage amplitude

37th

time

40th

output pulse the WBI unit

41st

maximum voltage

42nd

center frequency

The first 1 shows a schematic representation of the electromagnetic active system.

The second 2 shows a circuit diagram of a UWB generator and three example WBI units.

The third 3 shows a UWB pulse as a voltage amplitude as a function of time.

The fourth 4 shows an output pulse of the WBI unit with a frequency of 400 MHz.

The fifth 5 shows an output pulse of the WBI unit with a frequency of 500 MHz.

It shows 1 a target 1 in the form of a personal computer. The personal computer 1 stands for the target system class "Personal Computer" with maximum dimensions 2 between 0.5 and 1 meter. The minimal slot and coupling openings 3 the personal computer class is 0.15 meters. The UWB pulse shaper 4 is with the loading structure 5 and continue with the antenna 6 connected which the electromagnetic impulses 7 to the goal 1 directed. The UWB pulse shaper 4 continues with the high voltage / energy source 8th connected.

The loading structure 5 is in magazine form and can alternately use WBI units 9 with the antenna 6 connect.

The WBI units 9 each consist of a potential well 10 and at least one compensation piece 11 , Next are the WBI units 9 through contacts 12 with the loading structure 5 contactable.

It shows 2 a generator area 20 with capacity 21 , Inductance 22 and impedance 23 , A UWB pulse shaper is connected, the first one 24 and second 25 Distribution switch, a uniform capacitor 26 and a shortening switch 27 having. A first transmission line closes 28 , as the first compensation piece, a second transmission line 29 , as an actual exchangeable WBI unit and a third transmission line 30 , as another compensation piece for inclusion in the WBI. The antenna area 31 becomes an inductor 32 and an impedance 33 modeled.

The third 3 shows a UWB pulse 35 as voltage amplitude 36 depending on the time 37 ,

It shows the fourth 4 an output pulse from the WBI unit 40 with a frequency of 400 MHz. The maximum voltage by the WBI 41 has increased by approx. 30% and by means of suitable reflections there is an adjustable center frequency 42 educated. The observable voltage increase results from the reflection of the voltage wave at the transition from the second transmission line 28 to the first transmission line 27 ( 2 ). The portion transmitted at this transition is experienced at the second, closed decoupling switch 25 a total reflection with sign reversal. The output voltage consists of a series of alternating voltage pulses.

The fifth 5 provides an output pulse (center frequency 500 MHz) of a changed WBI unit analog 4 represents.

Claims (5)

Electromagnetic active system, a high voltage energy source, an ultra wide band (UWB) pulse shaper, a wideband pulse shaper (WBI) and a UW / UWB antenna, in which the WBI has at least two interchangeable WBI units with different center frequencies. Electromagnetic active system according to claim 1, which the interchangeable WBI units on a loading structure in magazine or Gatling arrangement are anchored. Electromagnetic active system according to claims 1 and 2, where the interchangeable WBI units with compensators in standardized charging structures can be contacted. Electromagnetic active system according to claims 1 to 3, where the contacts in the standardized brackets grinding, Pressure or tissue contacts are. Method of operating an electromagnetic Active system in which, according to a target size estimate, one for the size of the target suitable WBI unit is selected from a number of WBI units, loaded and the pulse generated by the UWB pulse shaper to the rectangular pulse converted with optimal center frequency to disturb the target becomes.