KR920007594Y1 - Compact range antenna - Google Patents

Abstract

No content.

Description

Compact Range Reflector Antenna

1 is a side perspective view of an antenna measurement component in an electromagnetic shielding room.

2 is a front view of a compact range reflector antenna.

* Explanation of symbols for main parts in the drawings

1: compact range reflector 2: antenna for measurement

3: copier 4: measuring antenna fixing base

5: electromagnetic wave absorber 6: copier fixing base

7: Compact range reflector antenna support 8: Triangular pyramid reflector frame

9: test area

Most preferably, the antenna is measured by parallel waves.

Therefore, in an antenna having an aperture used for microwaves, it is necessary to secure a minimum antenna measurement distance with respect to the aperture diameter in order to obtain radio waves close to parallel waves. That is, if the aperture diameter of the antenna to be measured is R, the distance L between the radio wave source antenna for emitting radio waves and the measurement antenna should satisfy at least the following equation.

(L: minimum measurement distance, R: antenna aperture diameter, λ: measurement frequency wavelength) For example, if a 2 m diameter parabolic antenna is applied at a 10 GHz frequency, the minimum measurement distance should be about 270 m apart. In addition, it is necessary to secure a measurement environment with a visible distance without a radio reflector between the measurement distances to obtain accurate measurement values. In order to satisfy such environmental conditions, it is necessary to satisfy the field of view conditions of the mountain without a flat field or an intermediate radio reflector. However, accurate measurement was difficult due to weather conditions such as rain or snow.

In order to improve this disadvantage, it is an object of the present invention to provide a compact range reflector antenna that can generate a plane wave by installing an electromagnetic shielding room in a room.

In order to achieve this purpose, the measuring facility in the electromagnetic shielding room includes a compact range reflector antenna (1), a compact range reflector antenna support (7), a measuring antenna (2), and a measuring antenna fixing stand (4) for plane wave generation. And a radio wave source copier 3, a copier pedestal 5, a radio wave absorber 6 and the like.

The present invention will be described in detail with reference to the drawings.

FIG. 1 is a side perspective view of an antenna measuring component in an electromagnetic shielding room, which radiates radio waves from the radio wave source copier 3, which reaches the compact range reflector antenna 11, which is caused by an organic current of a metal surface. Radio wave radiation is radiated in the direction of the measuring antenna 2. Copiers used here should have very wide beam widths, so use copiers with a half-angle of more than 130 °. In addition, a plane wave region, which is reflected by the compact range reflector antenna, is formed to be very stable for measuring the antenna. This is called a test region, and the measurement antenna is fixed by measuring the antenna in the width D region. The phase difference in the same vertical plane of the radio waves reached in the test area at this time is within 20 degrees, and the difference in radio wave strength is 1 dB or less.

The radio waves radiated from the copying machine must be fixed so that the center part is radiated to the center portion of the reflector antenna 1, and is supported by the copying machine fixing base 6. The reflector 1 is fixed by a support 7 capable of supporting a very robust and strain free compact range reflector antenna that is suitable for the antenna characteristics used for precision measurement. The measuring antenna is also firmly fixed by the measuring fixing bracket 4 when the measuring antenna 2 is positioned in the test area.

In addition, all spaces that can become metallic reflectors are absorbed by the electromagnetic wave absorber 5 such that there is no scattering propagation introduced into the measurement antenna.

Such a radio wave absorber covers the walls of the electromagnetic shielding room and the reflective surface of the metallic fixing pedestal to obtain a shielding effect of -60 dB or more at the test frequency band.

2 shows a front view of the compact range reflector antenna.

The surface of the reflector antenna (1) is a metallic material with good conductivity. To use the frequency within 100 GHz, the precision of the surface must be within ± 0.03 mm. Very accurate reflector curves should be maintained so that values are within 0.05 mm.

The triangular pyramid reflector rim guides the scattered wave due to the current induced on the reflector surface to the pointed portion of the tip, where the scattered wave is absorbed by the surrounding electromagnetic wave absorber 5.

At this time, the reflector frame 8 has a left-right symmetrical shape, so that the mutually scattered waves have an effect of canceling each other.

Even in the compact range reflector antenna having such a function, the best plane wave is generated near the center portion of the antenna, so that a test region 9 having a width D is formed at the center portion, and the distance L between the reflector antenna 1 and the copier 3 is generated. As long as you can get from the back of the copier.

The compact range reflector antenna of the present invention generates far-field measurements by measuring near-surface waves in the electromagnetic shielding room by using a near-field measurement method in the measurement of microwave aperture antennas and radar antennas, regardless of the surrounding environmental conditions and weather conditions. It is an antenna designed to have a planar wave generating effect of less than 1 dB of propagation intensity and less than 20 ° of phase error in the test area 9 of the measuring antenna as a method of obtaining a better measurement result than the time.

Claims (1)

A compact range reflector antenna for plane wave generation as an antenna measurement facility in an electromagnetic shielding room, wherein the reflector surface is metallic and the surface accuracy is within ± 0.03 mm. A compact range reflector antenna, wherein the curvature precision is within 0.05 mm, and the reflector edge has a left-right symmetrical shape in the form of a triangular pyramid.