SU918887A1 - Device for measuring electromagnetic wave absorber reflection factor - Google Patents

Description

The invention relates to radio engineering and can be used in measuring the reflection coefficients of electromagnetic wave absorbers at arbitrary irradiation and reception angles intended for equipping anechoic chambers and shielded rooms.

A device for measuring the reflection coefficient of an absorber of electromagnetic waves, comprising a generator of ultrahigh frequencies, an indicator transmitting an antenna connected to the output of the first valve, a receiving antenna connected to the input of the second valve 1, is known.

However, the measurement accuracy of the known device is low.

The purpose of the invention is to improve the measurement accuracy.

The goal is achieved by the fact that in a known device, between the output of the ultra high frequency geyator and the indicator input, the first hybrid ring is sequentially inserted, the third arm of which is connected to the input of the first valve, the attenuator, the phase shifter and the second hybrid ring, the third arm of which is connected to the output of the second septile.

The drawing shows the structures on the electrical circuit of the device.

A device for measuring the reflection coefficient of electromagnetic wave absorbers comprises a transmitting antenna 1 and a receiving antenna 2 located on arc 3, the first valve 4, the first hybrid ring 5,

10 a generator 6 of ultrahigh frequencies, an attenuator 7, a phase shifter B, a second hybrid ring 9, an indicator 10 and a second valve 11, except. drawing showing test sample 12

15 and two electrically conductive films 13 and 14.

The device works as follows.

Transmitting and receiving antenna 1

20 and 2 move together in an arc 3 at any fixed position relative to each other. The signal from generator 6 through the first hybrid ring 5 and the first valve 4 enters

25 into transmitting antenna 1 and is radiated to test sample 12. Reflected signal from test sample 12 enters receiving antenna 2 and through the second valve 11 and the second hybrid

30, the ring 9 is fixed by the indicator 10.

In addition to the useful reflected signal from test sample 12, the receiving antenna i also receives a signal determined by the connection of the transmitting and receiving antennas 1 and 2. With large angles of response, the useful signal can be much higher than this signal.

The principle of operation of the device in a dynamic mode is as follows.

to compensate for the harmful signal

An additional signal equal in magnitude and opposite in phase to the direct link signal is fed to the receiving antenna 2 through the reference channel, consisting of the attenuator 7 and the phase switch 8. Compensation is carried out by minimizing the readings of the indicator 10 in the absence of the test sample 12. In addition, to suppress the connection between the transmitting and receiving antennas 1 and 2, two electrically conductive Films 13 and 14 are installed, spaced apart from each other by a quarter of the wavelength the measurements are carried out, the edges of the electrically conductive films 13 and 14 are at a distance not less than the wavelength from the surface of the test sample 12. The calibration and measurements are carried out in the following sequence.

The transmitting and receiving antennas 1 and 2 are separated by an angle of 180 i.e. put them on the opposite ends of the diameter of the arc 3 with openings on each other. In the absence of the test sample 12, indicator 10 is recorded, which is taken as iOO% of the reflected signal. Further, the transmitting and receiving antennas 1 and 2 are diluted between the sobons at the minimum possible angle, which is determined with the dimensions of the transmitting and receiving antennas 1 and 2 and are rigidly fixed to each other in this position.

Using an attenuator 7 and a phase shifter 8, the minimum indication of the indicator 10 is compensated.

direct connection of the transmitting and receiving antenna 1 and 2. After calibration and tuning, the reflection coefficient of the test sample 12 is measured. To do this, the rigidly connected transmitting and receiving antennas 1 and 2 smoothly move along the arc 3 and fix the indicator 10 depending on the angle movement. The transmitter and receiver antennas 1 and 2 thereafter are perched at a different angle relative to each other and the operations are repeated. Thus, the dependency of the reflection coefficient at arbitrary angles of irradiation and reception of the electromagnetic wave is removed.

The accuracy of the reflection coefficient measurement measure using the proposed device is determined by the degree of mutual compensation of the CC 4. In an experimental study, the reciprocal relationship was compensated to –40 ”–50 dB.

Claims (1)

1. Information reference sheet Yzd-in of the Ministry of General Machinery, 7, 9, 10, February 1970.