DE1286593B - Arrangement for controlling the reflection of radar waves using dielectric and ferromagnetic material arranged as a plate - Google Patents

Description

The invention relates to an arrangement for controlling reflection of radar waves using a - preferably curved plate arranged dielectric material provided with electrical conductors distributed over a large area between which there is a tension field controlled according to the identification signal, by which the dielectric constant is changed, and additionally with ferromagnetic Material is provided, the permeability of which also corresponds to the identification signal is changed.

With a normal radar image, the individual objects appear, e.g. ships, as points, possibly with slight differences in extent or in the brightness. However, it is not readily possible to determine where a particular ship is located, or between stationary and moving Distinguish objects. This disadvantage can be avoided by at least one of the objects with an arrangement, e.g. B. one by the incident radar signal triggered retro-reflective transmitter, is provided to emit an identification signal. This can be recorded by the radar device and used to highlight the image point of the object in question on the screen.

Such an arrangement which actively sends out an identification signal means however, a considerable expense for the purchase and maintenance, especially since if necessary, switchovers can still be made for the radar wave in question must, so that an additional operation is then required.

It is therefore desirable to use a passive reflection arrangement, through which the incident radar waves of any frequency are reflected back again be with an amplitude that is of the order of magnitude of the amplitude of the rest Parts of the object reflected wave lies. When the reflective properties the arrangement in the cycle of a characteristic signal between a maximum value and a minimum value, which is preferably lower than the reflection value of the other parts of the object, are changed, the reflected signal undergoes an amplitude modulation that can be evaluated in a manner known per se in the case of the radar device.

It is already an order (German Auslegeschrift 1 070 702) of the type mentioned at the outset known in which a plate-shaped one which forms a curved surface Has body arranged on its surface conductor, between which an alternating Voltage field is applied in such a way that its reflective properties are controlled will. It is also pointed out there that alternately adjacent Layers of ferrite material and dielectric material can be provided. The permeability of the ferromagnetic material can also be corresponding the identification signal can be changed; however, it is not simply possible to plate-shaped body having a large surface area and a controlled magnetic field suspend.

With an arrangement of the type mentioned in the opening paragraph, these disadvantages become apparent avoided, and with a small far-range stray field can be practically arbitrary curved plate-shaped reflection body a control of the permeability and by suitable control of the dielectric constant a particularly large change of the reflection factor if, according to the invention, the plate from a to known mixture of dielectrically ferromagnetically effective material and Z. B. on the back, provided with an approximately meandering conductor is through which a current is sent in the cycle of the identification signal, by means of which the material is controlled into magnetic saturation, and furthermore the dielectric constant is controlled between a value which is the one at the assigned extreme value of the Characteristic signal is close to the permeability of the ferromagnetic material, and a value that differs significantly from it, opposite to the sense in which is the permeability of the ferromagnetic material through the current at the transition is changed to the other extreme value.

It should be noted that in itself (German Auslegeschrift 1006 907) is known, a material made of a mixture of finely divided magnetic material and finely divided dielectric material and the dielectric constant and to choose the same permeability, such that the reflection factor has a certain Has value, e.g. B. is adapted to that of the free space. It is also mentioned that the effective permeability through a magnetic constant field or the dielectric constant can be changed by an electric field, e.g. B. if you have the refractive power wants to change a lens arrangement constructed therewith.

The invention is based on the known fact that the Permeability of ferromagnetic material, e.g. B. the one suitable for very high frequencies, under the name »Ferroxplana« (IR brand) by a pre-magnetizing material Field can be changed greatly, so that the ratio can also be adjusted accordingly My / Epsilon and thus the wave resistance of the material in relation to the air and beyond the reflective properties can be controlled.

In an arrangement according to the invention, a reinforced one is obtained Effect when the plate is provided with electrically conductive coatings between where there is a tension field controlled according to the identification signal, through which the dielectric constant between a value that is at the associated extreme value of the identification signal occurring permeability of the ferromagnetically active material comes close, and is controlled to a value that deviates significantly from it, opposite to the sense in which the permeability of the material through the current in transition is changed to the other extreme value.

Insulating material whose dielectric constant is applied by a Voltage can be changed is also known per se. According to the invention a jointly ferromagnetic and dielectric material is used, and both can be controlled by an electromagnetic or an electrostatic field such that the ratio ll / e between a value greatly different from 1 and a value close to 1 is changed in the rhythm of an identification signal. It could but also a separately effective material mixture of appropriate consistency to be used. Ferrite materials are particularly advantageous because of their consistency Co2Z, Co2Y, Ni2Y, Mg2Y where Z is the abbreviation for the remainder of the formula Ba3Fe2904l and Y is for Ba2Fe12O22.

Due to the fact that the conductor is approximately meander-shaped, it is achieved that an effective magnetization is achieved even if the plate is not flat but curved to a significant extent; this is multiple required, on the one hand, in the horizontal a reflection in all directions to enable, while on the other hand, a bundling is often desired in the vertical is. The meandering arrangement can also increase the impedance and thus a more favorable adaptation to the identification signal generator can be achieved. Next results In this arrangement there is a magnetization that occurs in adjacent surface elements has the opposite sign.

It can be achieved that the magnetic field is already in proportion a short distance from the plate disappears, so that disturbances in neighboring systems are not to be feared.

The plate itself only needs a relatively small thickness to have, which is necessary in order to achieve the desired one in the one extreme condition Ensure reflection. In the other extreme state, it is sufficient if the plate lets the waves through.

When the plate is arranged so that the waves then make their way due to the free atmosphere, there is no need to fear disruptions.

However, if components are attached behind the plate, they in turn could reflect the wave, absorbing material can be used behind the plate Attenuation of the transmitted waves must be attached. Its dielectric constant is expediently equal to the permeability value. This, preferably also plate-shaped formed material will generally have to be considerably thicker than the controlled material Plate; however, this is not a major complication, since the properties this material need not be changed.

The dimensions of the plate can be reduced significantly, thereby a simplified control can result if the incoming wave by a Mirror assembly is recorded and concentrated on a focal surface, one The plate in the focal surface is controlled in its reflection properties by the identification signal is appropriate. When this plate is in the reflected state, the Wave thrown back to the mirror and from there, preferably in the direction of the incoming one Wave, radiated again. With this arrangement, the disk can be downsized.

The invention is illustrated below with reference to the drawing, for example explained in more detail, in Fig. 1 a plate with meandering conductors arranged in supervision and F i g. 2 in a view obliquely from the front together with a das Identifying signal controlling arrangement shows.

In Fig. 1 1 current conductor 2 are arranged in a meander shape on a plate and switched so that a surface element 3 at its boundary lines of currents flows through, which have the same sense of direction and thus in the same Way to contribute to the magnetic field through the surface element 3. The individual branches of the current conductor can be connected in series or in a suitable manner in parallel will. As the figure shows, adjacent surface elements are thus each in opposite In the opposite sense, the current flows unifowed, so that oppositely directed Magnetic fields result.

F i g. 2 shows a plate 1, on the back of which the current conductors 2 are arranged, of which only one has been shown. The plate 1 is off ferromagnetic and dielectrically effective material 4 produced, according to this Figure is further provided with pads 5 and 6. The ladder 2 become one in time preferably pulse-shaped characteristic signal flowed through by the current, whereby the permeability of the material is controlled. At the same time between the pads 5 and 6 a corresponding voltage applied through which the dielectric constant of the material 4 is controlled.

In order to achieve this, control signals are used, preferably in the form of pulses 7 z. B. fed to a generator8 with a repetition frequency of some 1000Hz, the higher-frequency oscillations of z. B. 100 kHz generated and a transformer 9 is supplied. From the secondary winding 10 these are Vibrations decreased and rectified and low voltage and proportionate strong current fed to the conductors 2. At the same time, the winding 11 vibrates high voltage, e.g. B. 500 to 1500 volts, removed and rectified and the Coverings 5 and 6 are fed. This ensures that the currents through the Conductor 2 and the voltage on the pads 5 and 6 have the same course.

The windings 10 and 11 are connected at one end and preferably placed to earth, while the half-wave rectifier 12 and 13 with subsequent charging capacitors 14 and 15 are connected to the other ends of the windings 10 and 11. Of the Covering 5 therefore does not need to be substantially insulated from the conductors 2 to be, since only small voltage differences occur. Only the incident Radar waves 16 facing facing 6 carries higher tension, so that on this side isolation is appropriate.

Only a small amount of current is applied to the material of the pads 5, 6 and therefore can be thin and have a high sheet resistance. This lets achieve that a noticeable reflection of the incident on these coverings Waves not done.

To achieve a stronger magnetic field, it can be useful to to arrange the current conductors 2 also on the front side of the material 4 of the plate 1. The current to be sent through this conductor would then also be the transformer9 Attach another winding with rectifier, one pole to the connection point of the rectifier 13 can be connected to the capacitor 15.

The toppings 5 and 6 can also be in more different levels of the Plate 4 can be attached.

A plate according to the invention is attached to an object, e.g. B. a Vehicle that is on a substantially flat part of the earth's surface and this preferably towers above it on a mast, mounted high above the surface of the earth. That the reflections caused by objects lying deeper are generally essential are weaker, is achieved by the fact that the reflected waves of the controlled Plate according to the invention reflected back with a relatively stronger amplitude will, which results in better modulation of the returning waves by the identification signal results.

With a much smaller controlled plate and thus with considerably reduced energy requirements for control by the identification signal can be done, when the incoming wave is picked up by a deflecting arrangement and transferred to a Focal area is concentrated, there - depending on the instantaneous value of the identification signal - possibly reflected and by the arrangement, preferably in the direction of incidence, is emitted again, with the controlled reflection plate in the focal surface is appropriate.

When the arrangement is intended to work with one special radar device, the location of which is known, a mirror, z. B. a parabolic mirror can be used, at the focal point of the reflective Plate is attached.

The waves incident from the radar device are then transmitted through the mirror Concentrated on the plate and reflected there, if necessary, and then to the radar device thrown back.

However, if the arrangement is for radar equipment in any location, z. B. for the devices of different ships in a port entrance, be effective it must be able to reflect in all directions. It therefore becomes a concentration Although possible in height, one or more focal surfaces are required be, which overall still require a relatively large controlled disk.

A substantial reduction can be achieved if the waves are concentrated by an approximately ring-shaped lens arrangement. This arrangement can then approximately have the shape of a cylinder jacket section with approximately perpendicular axis extending to the surface of the earth, and its focal surface can be in its interior lie with a significantly reduced diameter, so that also those on this focal surface arranged controlled plate can be much smaller.

The reflective plate 1, 4 can also be divided and used by different ones Identification signals are controlled.

This means that incident waves can be different depending on the direction modulate. This is particularly advantageous when used between vehicles: The identification signal can then be modulated in a special way if the illuminated Object is moving in the direction of the measuring radar device. This allows a special warning signal will be triggered.

Claims (12)

Claims: 1. Arrangement for controlling the reflection of radar waves using as a - preferably curved - arranged dielectric plate Material that is provided with electrical conductors distributed over a large area between where there is a tension field controlled according to the identification signal, through which the dielectric constant is changed, and additionally with ferromagnetic Material is provided, the permeability of which also corresponds to the identification signal is changed, d u r c h g ekmarks that from a known per se Mixture of dielectrically and ferromagnetically effective material (1, 4), e.g. B. on the back, with an approximately meandering conductor (2) is provided, through which a current is sent in time with the identification signal, by means of which the material is controlled into the magnetic saturation, and that the dielectric constant is controlled between a value which is the one at the assigned extreme value of the Characteristic signal is close to the permeability of the ferromagnetic material, and a value which is substantially opposite to the sense in which the permeability of the ferromagnetic material through the current at the transition is changed to the other extreme value. 2. Arrangement according to claim 1, characterized in that the effective Material ferrites with the consistency Co2Z, Co2Y, Ni2Y, Mg2Y, where Z is the abbreviation for the remainder of the formula is Ba3Fe24O41 and Y for Ba2Fe12O22. 3. Arrangement according to claim 1 or 2, characterized in that the areally distributed conductors are so thin and / or such a high sheet resistance show that the electric waves are practically not reflected on them. 4. Arrangement according to one of claims 1 to 3, characterized in that that the current conductor is galvanically connected to the conductors distributed over a large area and is at about the same potential as this. 5. Arrangement according to one of claims 1 to 4, characterized in that that the plate is provided on both sides with approximately the same current conductors which are traversed by current in the same way according to the identification signal and between those required to control the dielectric constant There is a voltage difference. 6. Arrangement according to one of claims 1 to 4, characterized in that that at least one conductor and both conductors distributed over a large area in different Planes of the plate are brought out and isolated from each other. 7. Arrangement according to one of the preceding claims, characterized in that that behind the plate controlled in the reflection properties absorbing Material for damping the transmitted waves is attached. 8. Arrangement according to one of the preceding claims, characterized in that that the material is arranged on the effective surfaces of a triangular mirror. 9. Arrangement according to one of the preceding claims on an object, z. B. a vehicle that is on a substantially flat part of the earth's surface is located and this protrudes significantly, characterized in that the reflection arrangement is attached to a mast high above the surface of the earth. 10. Arrangement according to claim 9, characterized in that the plate has the shape of a cylinder jacket section with approximately perpendicular to the earth's surface running axis. 11. The arrangement according to claim 9, characterized in that the plate has the shape of the surface of an outwardly opened paraboloid of revolution, whose focal plane runs parallel to the earth's surface. 12. Arrangement according to one of the preceding claims, characterized in that that in different directions reflective parts of the plate through different Identification signals are controlled.