SU394878A1 - DIRECTED TAILOR - Google Patents

Description

The invention relates to the field of technician; UHF can also be used for the following directions: ieiiiHoro O1 power branches with an insignificant IMPORTANCE of the frequency variation of the transient attenuation in a wide frequency range.

Directional signals with an insignificant level of frequency of the transient attenuation, which use an additional segment of the LINE, are achieved from this point of view.

The main ice-static type of their directional transmitters is the absence of airflow, and the change of the frequency characteristic of the donor line segment, as a result of which a significant irrelevant 1B of the frequency variation of the transient attenuation of the HanpaBviaH light viteln can be obtained only on off-white eczems, only on off-white eczems can be obtained only on off-white eczems of the HanpaBviaHi viteln light can only be obtained on off-white eczems, but this can be obtained only on off-white eczems. the selection of these segments that: nedopu.stimo pr.and serial production.

In order to improve the electrical characteristics of the microscopic characteristics of the proposed unraveled electrical connector and the segment of the U-shaped waveguide used in the amount of a communication element, between the additional component; and the main or secondary line introduces absorbing plastia, located between the rib 5 of the P-abrasive waveguide and the narrow wall, when its immersion changes, the frequency characteristic of the U-shaped wave changes; onWater.

On fng. nokaza “directional feedback. sntel and cut / 1- / 1; .on FIG. 2 - the frequency characteristic of the hc-st; I: ka of the transient weakening, due to the region of the W-s (curve I); (i (curves II and III); in Fig. 3 - the frequency characteristic of the power, branched into an additional segment of the directional coupler.

The flush coupler (. 1) consists i; 3 of the primary transmission line /, the connected area 2, the secondary or transfer 3, the side wall of which is connected to one end of the 4 section of the U-shaped waveguide used in as a communication element, the other end of which is connected to the end of an additional segment 5 of the transfer with an agreed load 6. In section 4, a thin absorbing plate 7 is inserted between its edge and the narrow wall, made, for example, of mica coated with nichrome immersion} to change.

The transmission lines / and 5, as well as section 5, shown as cuttings of a rectangular waveguide, can be performed on sections of the transmission line of any cross-section. The directional coupler works as follows.

The transitional attenuation between the primary and secondary transmission lines / and 5, respectively (Fig. 1), defined by communication area 2, IB of the frequency range, is the frequency characteristic shown in FIG. 2 of curve I, which is characterized by the fact that in the middle of the schiazion the flat part is hoped, and on the edges of the band the transition is weakened. Such a frequency dependence of transient attenuation is characteristic of boles. The busbars are of commercially available directional couplers.

In the proposed coupler, the frequency dependence is characterized by the fact that in the middle of the frequency of the frequencies there is no power suction practically, and in the edge of the range it has a maximum value. The characteristic is due to the fact that the segment of the U-shaped waveguide H1 is a resonator with two resonant frequencies, one of which / CD corresponds to the critical frequency of the U-shaped waveguide and is determined by the size of its transverse section, and the other / cut is determined by the length of segment 4 and corresponds to the case when, along segment 4, half the resonant length of the wave is laid. The power suction in section 5 at these resonant frequencies has 1mA: Xymax value and decreases according to the regular resonance curve for a specific axis and from them.

The frequency characteristics shown by curve I and FIG. 2 and curve I in FIG. 3, have an opposite nature, and with an appropriate choice of / up and / Ree, the frequency response of the transient attenuation of the right side can be obtained, depicted with an AND curve in FIG. 2

The insertion of plate 7 into section 4 (Fig. 2) practically does not change the magnitude of the power suction in section 5 to 5 in the middle of the frequency range, since the intensity of the electric ..: field in the interval between the edge and the narrow wall of section 4 is negligible. .vneniiu with tension between the edge and the wide wall.

However, in the region of resonant frequencies, these losses increase dramatically, as a result of which the resonant characteristic becomes dulled, the frequency characteristic of the power suction in section 5 takes the form of a curvature AND (Fig. 3). 1, the rutin of this characteristic at the edge of the frequency diaiazan is governed by the amount of immersion of plate 7 in section 4 (Fig. 1), which makes it possible to choose this slope

according to the slope of curve I (Fig. 2), p. as a result, it is possible to obtain an insignificant uniformity of the frequency variation of the transitional attenuation in the 1 st direction: a branch (curve 1H, fig. 2. in any of its copies, despite the variation in characteristics at the time of manufacture).

With the plate 7 completely removed (Fig. 1), the frequency characteristic of the transient attenuation of the directional coupler has the form of curve II, fig. 2, and with a significant immersion of power, the characteristic takes the form of the red I, FIG. 2

So about (at once, the use of plate 7

(Fig. 1). makes it possible not only to provide a slight irregularity of the frequency course of the transitional attenuation of the directional coupler, "o and regulate its frequency response. Reverse attenuation in some limits (between curves-ml I and II, Fig. 2).

PRED iM et inventions

Directed otvitivitel containing associated primary and secondary transmission lines and an additional segment of the transmission line with a matched load, which is connected with one of the lines of the P-shaped waveguide, characterized in that, in order to improve the electrodynamic character: Istic, to the segment P waveguide additionally introduced absorbing plate of variable length, located between its

edge and narrow wall.

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