SU1241161A1 - Method of determining directional pattern of antenna - Google Patents

Abstract

The invention relates to radio engineering. Accuracy by error is eliminated. Due to the rocking probe when moving. A device that implements the method contains a measuring probe PIZ 1, which is moved in the aperture of antenna 2 by means of a scanner 3 mounted on the heated section 4, 1 FROM 1, is connected by a movable microwave path 5 equipped with a rotating joint 6 with an arm torus 7. The microwave is connected to the other arms of the H-8 and the amplifier 9, the output of which is connected to the input of the computer 10. To improve the accuracy, phase incidences reflected from the reflection screen (OE) of I1 signals are measured for each of the provisions of 1, and subtract them from the corresponding phase values of the signals, nnyh output in the absence of 1 MA 11 1 yl. with S ate 11 1chE 4

Description

The invention relates to radio engineering and can be used for automated measurements in the aperture region.

The purpose of the invention is to improve the accuracy by eliminating the error caused by the oscillation of the probe when moving.

The drawing shows a structural electrical circuit of the device, which is analyzing the method for determining the antenna patterns.

The device contains a measuring probe I, moving in the aperture of the antenna 2 with the help of a scanner 3, mounted on the 4 directions, while the measuring probe 1 is connected by a movable HiaiM microwave path 5, equipped with a rotary 01ZI1-1I with joints 6 with a circulating arm torus 7, to the other arms of which are connected to the microwave generator 8 and the amplitude-eometer 9, the output of which is connected to the input of the computer W, and the reflecting screen 11,

The method for determining the antenna radiation pattern is implemented as follows.

When calibrating scanner 3, in the absence of antenna 2 or between antenna 2 and scanner 3 from it, in a plane parallel to scanner 3 sets a reflecting screen 11, the dimensions of which are not smaller than the size of the scanning zone. A circulator 7 is introduced into the measuring channel so that its first arm is connected to the first output of the microwave generator 8, the second to the measuring probe 1, and the third to the ampln-phase meter 9 ,. Measuring probe 1 v tvod in kry. its lower position of the scanner 3 where the oscillations are minimal. Using a phase shifter, the phase of the signal emitted by a test probe 1e reflected from the reflecting screen i, received by the measuring probe 1 and received by the second and third circulator 7 to the signal input of the phase meter 9 is not shown. It is aligned with the phase of the reference signal supplied from the second output of the microwave generator 8 to the reference input ai of the phase meter 9, i.e., in the initial

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The measurement of the probe I is set to zero phase shift.

Next, the measuring probe 1 moves according to a predetermined program, similar to the moving program when measuring the floor in the aperture of antenna 2, and a phase shift is recorded at each given position caused by a change in the distance between the reflecting screen 1I and measuring probe 1 due to the sweep of the scanner 3. The values of phase raids are remembered in the computer 10 in the form of a separate calibration matrix. Moreover, when recording the calibration matrix, the measured values are divided into half due to the doubling of the phase shift during reflection. Then, in the absence of a reflecting screen I1, measurements of the near field of antenna 2, are taken. subtracting from the phase value of each point of the matrix of the measured field in the aperture region of antenna 2 the corresponding phase shift value from the calibration matrix.

Thus, the o6pia30M simultaneously takes into account the systematic error in the measurement of the phase that occurs when the mobile microwave path 5 bends, made, for example, in the form of segments of fiber holes connected through a rotating joint 6.

Claims (1)

Invention Formula The method of determining the antenna pattern by measuring the amplitudes and phases of the signals at the output of the measuring electrode moved from the apertures, which determine the directivity pattern, which, in order to improve the accuracy by eliminating the error caused by oscillation the probe, when moving, before measurements, an reflecting screen is installed in front of the antenna; phase shifts of signals reflected from it are measured for each position of the measuring probe and subtracted from the corresponding values of the ph 3 signals measured at the output of the measuring probe in the absence of a reflecting screen.