RU177145U1 - Radar absorbing coating - Google Patents

Abstract

The utility model relates to radio electronics and can be used as a protective tool designed to hide a moving or stationary object located under it from surveillance systems for radar detection. The device is made in the form of a cellular base 1 of a dielectric material, in which rings 2 are placed, made of a dielectric film metallized on one side. The ends of each of the rings 2 are overlapped and fastened together by means of a dielectric, and the optimal length of the overlap of the ends of the rings should be their circumference. In the finished product, the rings 2, fixed on a flexible base 1, form a three-dimensional radar absorbing structure, the external relief surface of which is facing the incident wave. Capacitors are formed at the junction of the ends of the rings, giving reactive capacitive conductivity to the coating material, which leads to an increase in losses in the absorbing material in the long-wave frequency spectrum and an increase in the fraction of the diffuse component. The technical result is to increase the effectiveness of the protection of the coating. 1 ill.

Description

The utility model relates to radio electronics and can be used as a protective tool designed to hide a moving or stationary object located under it from surveillance systems for radar detection.

A device is known for radar masking of objects, made in the form of a mask that completely covers the object to be protected — an overlap, which is a flexible electrically insulating film with an electrically conductive layer deposited on it in the form of a grid. The grid consists of sections of a radio-opaque conductive film (RU 2214026 C2, H01Q 17/00, 1999). A disadvantage of the known device is the large weight, the consequence of which is the low mobility of the deployment of protective equipment.

Closest to the utility model is an overlapping mask made in the form of a mesh base, in each cell of which a radio-absorbing element is reinforced, made in the form of an air loop from a tape, which is made of a film with a surface impedance layer (RU 2313869 C1, H01Q 17 / 00, 2006). A disadvantage of the known device is the low efficiency of protection in a wide range of operating frequencies. This drawback is a consequence of the fact that when the coating is placed on the object, hooks and tears of the mesh warp threads are often formed, leading to the deformation of the tapes woven into it, which reduces the filling of the cells with absorbing material, negatively affecting the effectiveness of protection.

The technical result that can be achieved in the implementation of the utility model is to increase the protection efficiency in a wide frequency range.

до

длины их окружности.The technical result is achieved due to the fact that in the radar absorbing coating, made in the form of a cellular base of dielectric material, in which rings made of metallized on one side of the dielectric film are placed, the ends of each of the rings are overlapped and fastened together with sealant, and the length of the overlap of the ends of the rings is from

before

their circumference.

The drawing shows the design of a protective agent.

The device is made in the form of a cellular base 1 of a dielectric material, in which rings 2 are placed, made of a dielectric film metallized on one side. The ends of each of the rings 2 are overlapped and fastened together by means of a dielectric (sealant).

The base 1 is made of a dielectric, for example, polymeric material of a cellular structure. The choice of base material for placing the rings is determined by the operating conditions of the protective coating and must satisfy, in particular, the requirements for strength, flexibility, and moisture resistance.

Tapes for rings 2 are made of a dielectric film metallized on one side. The film may be made of a polymeric material, for example, lavsan.

In the finished product, the rings 2, fixed on a flexible base 1, form a three-dimensional radar absorbing structure, the external relief surface of which is facing the incident wave.

The device operates as follows.

An object protected from electromagnetic interference is placed under a removable protective coating. Electromagnetic waves incident from free space fall on the absorbing elements of the coating, diffusely scattering in their entire volume. In this case, there are processes of multiple reflection of incident waves from the reliefs of the outer surface of the coating, accompanied by absorption of wave energy. Capacitors are formed at the joints of the ends of the rings, which give reactive capacitive conductivity to the coating material, which leads to an increase in losses in the absorbing material in the long-wave frequency spectrum and an increase in the fraction of the diffuse component, which positively affects the efficiency of the coating protection.

The width of the film tape (H) is determined by the value of the capacitive conductivity H = f (ωС377), which can be set by choosing the design of the rings (the value of the overlap of their ends), where C is the total capacitance of the capacitors, ω is the frequency of the working range of electromagnetic exposure.

до

длины их окружности.By changing the shape and size of the rings, as well as the amount of overlap of their ends, it is possible to adapt to different frequency ranges of electromagnetic radiation and choose the optimal thickness of the protective coating. It was experimentally established that to ensure optimal protection, the overlap length of the rings should be from

before

their circumference.

High efficiency is sewn up in a wide frequency range of electromagnetic exposure, making the utility model most preferable for solving problems of protecting various types of objects from radar detection systems.

Claims (1)

A radar absorbing coating made in the form of a cellular basis of a dielectric material, in which rings made of a dielectric film metallized on one side are placed, the ends of each of the rings are overlapped and fastened together with a sealant, and the length of the overlap of the ends of the rings is from

before

their circumference.

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