SU1046708A1 - Device for measuring coefficient of reflection in different angles of incidence of electromagnetic wave on specimen - Google Patents

Abstract

. DEVICE FOR MEASURING THE REFLECTION COEFFICIENT AT DIFFERENT ANNOWING DROPS ANGLES

Description

The invention relates to a measurement technique and can be used to measure the reflection coefficient of electromagnetic or acoustic waves at different angles of incidence on the surface of interest.

A device for measuring small electromagnetic wave reflection coefficients is known, comprising a generator, a directional coupler, a Yu emitter, a receiver and an angular reflector mounted for rotation, as well as a calibrator allowing the electromagnetic wave to propagate through it electromagnetically. a special mechanical device, the corner reflector being formed by 90 flat metal plates arranged at an angle, on one of which a sample of the test material is located riyal 1.

The disadvantages of this device are the low speed and difficulty of automating the measurement process 25, due to the need to reorganize the calibrator during the next change in the angle of incidence of the wave on the sample.

The purpose of the invention is to increase the JQ speed of measurements by simplifying the calibration.

This goal is achieved by the fact that, in a device comprising a generator, a directional coupler,,. emitter, receiver, as well as rotatably mounted angular reflector, the latter is made U-shaped, the additionally introduced face of which is a reference.

FIG. Figure 1 shows a block diagram for measuring the reflection coefficient of electromagnetic waves, at gig. 2 - U-shaped reflector with a test specimen and reference 45 edges.

The device contains a generator of 1 electromagnetic oscillations, a directional coupler 2, a receiver 3 50 registrar of measurement results, an emitter (transmitting-transmitting antenna) 4, an anechoic chamber 5, a -shaped reflector 6, on one of the faces of which is placed the sample 7 and the mechanism 8 rotations

The device works as follows.

The signal of a given frequency from the generator 1, the current r, is the directional coupler 2 and is radiated by the antenna 4, which creates a quasi-plane wave in the measurement zone. After a double reflection on the facets of the reflector 6, the wave reverses direction. The signal from the irradiator 6, for which allocation bezekhova Camera 5 or other methods of suppression of parasitic reflections is used, is received by the antenna 4 and through the directional coupler 2 is fed to the receiver 3. When the reflection coefficient is removed from the angle of incidence (Fig. 2) in the range of values (L / 2 o6 arcs § The studied sample 7 is placed on the side face of the reflector and the angle of rotation of the reflector 6 varies within | 6k circt j - - (where D is the width of the middle face of the reflector 6, L is the height of its side face) In this case, in the region in O, the signal is removed, reflected from the surface of the sample 7 and the middle face of the reflector b, and in the region of O the signal generated by the reference and middle faces of the reflector b is measured. When measuring the reflection coefficient in the range of values (o (o1, the test specimen is located on the middle face of the reflector b, and b varies from O to arctg-i-. The value of the desired reflection coefficient is determined by the ratio of the levels of the signals reflected from the sample and the reference. In both cases, the dependence of the signal level on the angle of rotation of the reflector, formed by the reference and middle edges in the range of changes in the angle O 0 -arct j; -.

The principle of operation and the block diagram of the device do not undergo significant changes during the transition to the measurement of the reflection coefficients of acoustic waves.

When measuring the reflection coefficient of a transparent material or sample, the dimensions of which are commensurate with the dimensions of the reflector b, sample 7 is placed instead of one of the faces of the reflector b, so that no extraneous reflections arise or the dimensions of the cavity change.

The use of the invention significantly speeds up the process of removing the dependences of the reflection coefficient of a plane water on the angle of incidence, and also makes it possible to automate the measurement process.

Claims (1)

. DEVICE FOR MEASURING REFLECTION FACTOR AT DIFFERENT ANGLES OF FALL OF ELECTROMAGNETIC WAV- WE ARE A SAMPLE containing a generator, a directional coupler, a radiator, a receiver, and an angular reflector installed with a rotational efficiency, characterized in that, in order to improve the measurement performance due to simplification of the standardization, the reflector is made U-shaped, the additional face of which is the reference. SU ... 104670>