SU1046711A1 - Device for measuring aerial phase center position (its versions) - Google Patents

Abstract

. 1. Device for measuring the position of the phase center of the antenna, consisting of an auxiliary antenna, the phase center of which is combined with one of the multipath foci, the other focus of which is located on the optical axis of the antenna under study, installed with the ability to move along the specified axis, and the indicator whose input serves for connecting the antenna under investigation, characterized in that, in order to improve the measurement accuracy, the re-reflector is made in the form of a cut from an ellipsoid of rotation, the major axis of which exceeds this is between the foci of the ellipsoid by an integer number of lengths of working waves, between the auxiliary and the studied antennas an absorber with adjustable absorption is installed, and their (/) electrical axes coincide with the major axis of the ellipsoid. 4: about:

Description

2. Device for measuring the position of the phase center of the antenna, consisting of an auxiliary antenna, the phase center of which is combined with one of the multipath foci, the other focus of which is located on the optical axis of the antenna under study, installed with the ability to move along a specified axis, and an indicator whose input serves to connect the antenna under study, the optical axes of the test and auxiliary antennas pass through the center of the re-reflector, and between the antennas there is a screen that differs from and measurement accuracy, the deflector is made of two parts, each of which has the shape of a cut from confocal rotational ellipsoids, the parts are connected by a plate located in a plane passing through the focal axis of the ellipsoids, and the size of the major axis of one ellipsoid exceeds the size of the major axis of the other by an odd the number of working half-waves.

one

 The invention relates to microwave technology and can be used to measure the phase center of antennas.

A device for measuring the phase pattern of the antenna is known, which makes it possible to calculate the position of the phase center 1 from the measurement results.

The disadvantage of this device is the complexity of the measurement process.

The closest technical solution to the present invention is a device for measuring the position of the phase center of the antenna, consisting of an auxiliary antenna and a repeater, made in the form of a cut from an elliptical cylinder, with the optical axes of the auxiliary and measured antennas directed into the middle of the repeater, the phase center of the auxiliary antenna is aligned with one of the foci of an elliptical cylinder, the other focus of which is located on the optical axis of the antenna under study, mounted for movement Along a specified axis, and an indicator whose input serves to connect the antenna under study.

By moving the antenna under study along the direction of its optical axis, it is possible to find the position where the signal from the output of the antenna under study has the maximum value. This position corresponds to the moment when the phase center of the antenna under investigation is combined with the second focus; {COM of elliptic cylinder C2.

A disadvantage of the known device is the low measurement accuracy, due to the fact that the readout of readings is carried out according to the signal maximum.

The purpose of the invention is to improve the accuracy of measuring the position of the phase center of the antenna under study.

This goal is achieved by

that in the device for measuring the position of the phase center of the antenna, consisting of an auxiliary antenna, the phase center of which is combined with one of the focuses of the repeater,

Q another focus of which is located on the optical axis of the antenna under study, installed with the possibility of moving along the specified axis, and the indicator, whose input serves to connect the antenna under study, the repeater is made in the form of a cut from an ellipsoid of rotation, the larger axis of which exceeds the distance between the foci an ellipsoid by an integer number of wavelengths

0 between the auxiliary and expired antennas there is an absorber with adjustable absorption, and their electric axes coincide with the major axis of the ellipsoid.

5 This goal can also be achieved if the reflector is made of two parts, each of which has the shape of a cutting of confocal ellipsoids of rotation,

0 parts are connected by a plate located in a plane passing through the focal axis of the ellipcoids, and the size of the major axis of one ellipsoid exceeds the raster of the major axis

5 of another ellipsoid for an odd number of working half-waves.

FIG. Figure 1 shows the electrical circuit diagram of the first embodiment of the device for measuring polo. phase antenna center in FIG. 2 - the second option.

A device for measuring the position of the phase center of the antenna consists of. auxiliary antenna 1, the phase center of which is combined with one

Claims (2)

. 1. A device for measuring the position of the phase center of the antenna, consisting of an auxiliary antenna, the phase center of which is aligned with one of the tricks of the reflector, the other focus of which is located on the optical axis of the antenna under study, mounted to move along the specified axis, and an indicator, the input of which serves for connecting the studied antenna, characterized in that, in order to improve the accuracy of measurement, the reflector is made in the form of a cut from an ellipsoid of revolution, the large axis of which exceeds the distance between the foci of the ellipsoid to an integer working lengths of waves between the reference and investigated antennas installed absorber with adjustable absorption, and their electrical axis coincides with the major axis of the ellipsoid. to 10.46711 2. A device for measuring the position of the phase center of the antenna, consisting of an auxiliary antenna, the phase center of which is aligned with one of the tricks of the re-reflector, the other focus of which is located on the optical axis of the antenna under study, mounted to move along the specified axis, and an indicator, the input of which serves to connections of the studied antenna, the optical axes of the studied and auxiliary antennas pass through the center of the reflector, and a screen is located between the antennas, which is distinguished by the fact that in order to increase measurement accuracy, the reflector is made of two parts, each of which has the shape of a clipping of confocal ellipsoids of revolution, the parts are connected by a plate located in a plane passing through the focal axis of the ellipsoids, and the size of the major axis of one ellipsoid exceeds the size of the major axis of the other by an odd number of workers half waves.