RU154869U1 - VOLUME RESONATOR FOR CHECKING DECIMER RANGE ANTENNA PARAMETERS - Google Patents

Abstract

A volume resonator for checking the parameters of decimeter range antennas, made in the form of a metal pipe with a bottom, on the outer surface of which a coaxial transition is installed, characterized in that additional transitions are installed on the bottom, while probes in the form of wire segments are soldered to the central conductors of the transitions inside the pipe, and also along the axis of the pipe a T-shaped metal probe is fixed, having an annular gap between the pipe and the probe, moreover, evenly between the horizontal plate of the probe and the bottom The resistors are soldered to them.

Description

The utility model relates to the field of radio engineering, in particular, to devices for verifying the operability and electrical parameters of antenna-feeder devices (AFU).

Known cavity resonator made in the form of a continuous metal pipe, closed at the ends of the bottoms, while to the racks mounted on the inner walls of the resonator are attached two pipes of smaller diameter, cut along the generatrix near the axis of symmetry of the entire resonator and not touching one another, the outer pipe and bottoms (USSR, AS No. 300970 with a priority of April 10, 1970).

The disadvantage of this resonator is the design complexity.

Another resonator is known, described in the book by I.P. Stallions, Introduction to decimeter and centimeter wave techniques, Energia Publishing House, L, 1976

It is also made in the form of a continuous cylindrical metal pipe closed at the ends by bottoms, while communication with other circuits is through holes made in the body or bottom of the resonator (see Fig. 4-12).

However, it is impossible to verify the operability of antennas, aperture type, rigidly embedded in the body of the object using this resonator.

As a prototype, a cavity resonator was selected to test the parameters of the antennas described in RU patent No. 137705 with priority dated October 08, 2013.

This resonator is made in the form of a metal pipe with a bottom on one of the ends, and a coaxial transition is installed on the bottom, to the central conductor of which a атора-shaped wire coil of coupling is galvanically mounted. The other end of the coil is galvanically attached to the bottom of the resonator. From the other end, the resonator has no bottom and in working condition has electrical contact with the antenna body.

The disadvantage of the prototype is a narrow frequency band in which it can be satisfactorily matched with the antenna and a high power level of the output RF signal, which does not allow its use for measurements without preliminary multiple attenuation.

The objective of the utility model is its use in checks of AFUs with antennas that transmit signals at different frequencies of the decimeter range, and having RF outputs with various calibrated attenuations and connecting dimensions.

The problem is solved in that a volume resonator is proposed for checking the parameters of decimeter range antennas, made in the form of a metal pipe with a bottom, on the outer surface of which coaxial RF connectors (junctions) of the required types (two or more) are installed. Moreover, cylindrical probes in the form of wire segments of the desired size are soldered to the central conductors of the transitions inside the pipe. A L-shaped metal probe is fixed to the inner surface of the bottom along the pipe axis, consisting of a vertical cylinder and a round horizontal plate forming an annular gap for communication with the antenna. Between the horizontal plate of the probe and the bottom, resistors are uniformly soldered to them, providing broadband matching and absorption of excess power.

The essence of the utility model is illustrated by drawings (figure 1, 2), which shows: 1 - a metal pipe; 2 - bottom; 3 - coaxial junction (RF connector); 4 - additional transition; 5, 6 - probes in the form of wire segments soldered to the central conductors of transitions 3 and 4; 7 - a Τ-shaped probe fixed inside the pipe along its central axis to the bottom; 8 - an annular gap between the generators of the internal cavity of the pipe and the horizontal shelf of the probe; 9 - resistors; 10 - antenna body; 11 - aperture of the antenna. The number of transitions can be different, from two or more, the drawing shows two transitions. The connecting dimensions of the transitions can be different, this is necessary in order to dock cables to them with different connectors (corresponding to them). Probes 5 and 6 are used to select electromagnetic energy from the cavity of the resonator and transfer it to devices docked to transitions 3 and 4. The образ-shaped probe is made in the form of cylindrical parts of various diameters, the vertical part of a smaller diameter by which the probe is attached to the bottom 2, and the horizontal part of a larger diameter is made in the form of a plate fixed to the vertical part. In the free space between the vertical and horizontal parts, resistors are installed uniformly around the circumference. Resistors are attached to the plate with one terminal and the bottom to the other. The diameter of the horizontal part of the probe is less than the inner diameter of the pipe. When the antenna is operating, part of the electromagnetic energy is absorbed by the resistors, to the acceptable value and on the probes 5.6 the necessary electric current is induced.

The technical result of the utility model is the ability to simultaneously operate on two or more transmission lines with the same or different wave impedances and power levels acceptable for energy-receiving equipment.

Claims (1)

A volume resonator for checking the parameters of decimeter range antennas, made in the form of a metal pipe with a bottom, on the outer surface of which a coaxial transition is installed, characterized in that additional transitions are installed on the bottom, while probes in the form of wire segments are soldered to the central conductors of the transitions inside the pipe, and also along the axis of the pipe, a T-shaped metal probe is fixed, having an annular gap between the pipe and the probe, and evenly between the horizontal plate of the probe and the bottom The resistors are soldered to them.

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