SU654990A1 - Method of tuning polarization attenuator - Google Patents

Description

one

The invention relates to radio engineering and can be used when tuning polarization attenuators at ultrahigh frequencies. "

A known method of tuning a polarization attenuator is based on combining the planes of polarizers and tying the reference scale to the rotary section 1.

However, with the known tuning method, it is necessary to control large attenuation values near its maximum (on the order of 100 dB) and, therefore, it is necessary to use complicated, expensive attenuation measurement equipment, in addition, the tuning requires flexible connections in the waveguide path ( connections through flexible waveguides).

The purpose of the invention is to simplify and cheapen the configuration process.

To do this, when setting up a polarization attenuator based on combining polarizer planes and tying the reference scale to the rotary section, turn one of the polarizers 90 ° relative to the other and assign the reference scale to the rotary section, then simultaneously unfold both fields 90 °, adjust the second polarizer to the rotary

the sections on the minimum passage of the signal and fix it, after which the first polarizer is returned to its original position.

The essence of the method is that when adjusting, the reference scale to the rotary section is made at the junction of the middle section with one of the polarizers, while the absorbing plate of the second polarizer is parallel to the plate of the rotary section and does not contribute to attenuation. The attenuation (in decibels) introduced by one joint is equal to Ai 201gCosa, which is half the total attenuation of the polarization attenuator A: 401gCosa. This allows you to use the equipment twice in setting (in decibels) of lower sensitivity and can be adjusted using a detector head, a low-frequency amplifier and a conventional signal generator.

FIG. 1-3 sequentially presents the adjustment operations; in fig. 4 is an instrument connection diagram for implementing a setting method.

The polarization attenuator contains two polarizers 1 and 2, a rotary section 3 and a reference scale 4.

FIG. 1 The polarizer 1 is set to the operating position, the polarizer 2 is rotated 90 °, and the reference is fixed

scale 4 to the rotary section 3 on the minimum signal passage.

FIG. 2, the polarizer 1 is rotated 90 °, the polarizer 2 is set to the operating position, the polarizer 2 is adjusted to the reading scale 4 to minimize signal passage, and after adjustment, the polarizer 2 is fixed.

FIG. 3 polarizer 1 is returned to its original (working) position.

A tunable polarization attenuator 5 (Fig. 4) with polarizers mutually perpendicularly deployed through an initiator, its device 6 is connected by an input to a signal generator 7. A detector head 9 is connected to the second polarizer rotated 90 ° relative to the working position, through a converting device 8, a signal from which is fed to the measuring amplifier 10. The reference scale of the attenuator 5 is tied to the rotary section using the plug method or maximum. Then the first polarizer is rotated by 90 °, and the second is returned to the working position, it is adjusted to the reference scale by the same methods and fixed. After that, the first polarizer returns to its original position, which is the end of the adjustment.

Using the proposed method of setting polarization attenuators provides the following advantages as compared with the existing method: the need to use

to set up highly sensitive superheterodyne attenuation meters and two signal generators with high frequency stability associated with them; It allows the use of a conventional signal generator for tuning without imposing special requirements on frequency stability in combination with a detector head and a low-frequency amplifier.

Claims (1)

Invention Formula The method of tuning the polarization attenuator based on the alignment of the polarizer planes and the attachment from .5 of the counting scale to the rotary section, characterized in that, in order to simplify and cheapen the tuning process, one of the polarizers is rotated 90 ° relative to the other tie the counting scale to the rotary section, then simultaneously turn both polarizers 90 °, adjust the second polarizer to the rotary section to minimize the signal passage and fix it, and 5, the first polarizer is returned to its original position. Sources of information taken into account in the examination 1. Brnsky LN Absorbing waveguide attenuators of the millimeter wave range and methods for their calibration. Proceedings of the Institutions Committee, VNIIFTRI. Radio measurements, vol. 44 (104), 1960, p. 31-36. U / g.2 Hlhl