RU2208774C2 - Tem-chamber for testing vehicles for electromagnetic conpatibility - Google Patents

Abstract

FIELD: testing facilities. SUBSTANCE: proposed TEM-chamber for testing vehicles for electromagnetic compatibility includes section of rectangular waveguide with pyramidal elements made of conducting material and adjoining the end faces of rectangular waveguide in apices of which coaxial connector assemblies are made, and also current conducting plate connected with central contacts of coaxial connector assemblies, generator and matching load, all connected to coaxial connector assemblies. TEM-chamber is furnished additionally with at least one lighting device arranged near lower rib of rectangular waveguide. EFFECT: provision of stationary light source and uniform electromagnetic field in TEM-chamber. 1 dwg

Description

 The invention relates to measuring equipment and can be used in the construction of a TEM camera for testing vehicles for electromagnetic compatibility (hereinafter - EMC).

 To test the technical means for resistance to electromagnetic fields, the so-called TEM cameras are used [1]. A conventional type TEM camera (Crawford TEM camera) includes a segment of a rectangular waveguide with pyramidal elements adjacent to it at the ends of the electrically conductive material with coaxial connectors at the vertices of the pyramidal elements and a conductive plate located in the center of the rectangular waveguide electrically connected to the central contacts of the coaxial connectors . The principle of operation of the TEM camera is based on the propagation of a transverse electromagnetic wave inside a transmission line. The electromagnetic wave in the TEM camera is excited by a high-frequency generator, which is connected to one of the coaxial connectors. A matching load is connected to another coaxial connector on the outside of the camera.

 The suitability of the TEM camera for testing this type of technical means is determined, in particular, by its size.

 For the prototype of the claimed invention taken TEM camera for testing vehicles, built at JSC "AvtoVAZ". The TEM camera has dimensions that allow you to place a passenger car in it for EMC testing.

 The design of the camera has the following disadvantages. Preparatory work and tests in a large TEM camera are complicated by the lack of a stationary lighting device in the design of the TEM camera.

 When equipping a TEM camera with lighting devices, problems arise in introducing distortions into the propagation of the electromagnetic field, reducing the accuracy of measurements during testing, and stability of operation at high levels of the electromagnetic field.

 The task of the invention is the creation of a TEM camera for EMC testing of a vehicle with a uniform field and a stationary lighting device.

 This problem is solved in a TEM camera for testing a vehicle on an EMC, which includes a segment of a rectangular waveguide with pyramidal elements made of electrically conductive material adjacent to the ends of the rectangular waveguide, at the tops of which there are coaxial connectors, as well as a conductive plate connected to the central contacts of the coaxial connectors, a generator and matching load connected to the coaxial connectors on the outside of the TEM camera.

 The problem is solved in that the TEM camera is additionally equipped with at least one lighting device located near the lower edge of the rectangular waveguide.

 The invention is illustrated by the drawing, which shows a TEM camera with lighting devices.

 The invention can be implemented in a TEM camera for EMC testing of a vehicle, which includes a segment 1 of a rectangular waveguide with pyramidal elements 2, 3 of electrically conductive material adjacent to the ends of the rectangular waveguide, a conductive plate 4 connected to the central contacts of the coaxial connectors 5, 6, made at the vertices of elements 2, 3, as well as a generator 7 connected to the coaxial connector 6, and matching load 8 connected to the coaxial connector 5.

 To implement the invention, at least one lighting device 10 is placed on the floor of the TEM camera near the edge 9 of the rectangular waveguide 1.

 The location of the lighting device was discovered experimentally. When studying the distribution of electromagnetic field strength in the TEM camera, it was found that near the edges 9 of the rectangular waveguide at a distance from 0 to 1/16 of the height of the TEM camera, the field strength is minimal.

 In the case of placing the lighting device 10 near the upper ribs of the rectangular waveguide 1, the illumination of the test vehicle is prevented by the conductive plate 4, therefore, it is preferable to locate the lighting device near the lower rib 9 of the rectangular waveguide 1.

 The dimensions of the lighting device 10 must not exceed 1/16 of the height of the TEM camera.

 The type of lighting device is selected based on the condition of minimum radiation from it electromagnetic interference in the operating frequency range of the TEM camera. The supply voltage to the lighting devices is supplied through cables laid through the holes in the wall of the rectangular waveguide 1, equipped with electric filters.

Sourse of information
1. Electromagnetic compatibility of technical means. Measuring instruments and testing equipment. Catalog. - M .: INPLATEK, 1991, p. 174.

Claims (1)

 A TEM camera for testing a vehicle, which includes a segment of a rectangular waveguide with pyramidal elements of electrically conductive material adjacent to the ends of a rectangular waveguide, at the tops of which are made coaxial connectors, as well as a conductive plate connected to the central contacts of the coaxial connectors, a generator and a matching load connected to coaxial connectors, characterized in that the TEM camera is equipped with at least one lighting device located close to bottom edge of a rectangular waveguide.