SU1020891A1 - Directional coupler - Google Patents

Abstract

A DIRECTED SIGNER containing crossed primary and K? Ft? T / (О С, ND 00 kD to dSyxf affoKot / secondary waveguides, in contact with the Eocytes with wide walls, a communication hole is located in the middle of the wide wall of the secondary waveguide, characterized by , in order to align the transitional attenuation of the 10 and H 2o waves and to provide directivity along the H type wave, the communication hole is displaced relative to the longitudinal axis of the primary waveguide and additionally made a communication slot parallel to the longitudinal axis of the primary waveguide. yes, the center of which is combined with the middle of the wide wall of the secondary waveguide.

Description

The invention relates to microwave technology and can be used as part of a multi-wave power meter in a rectangular waveguide. Known coupler multiwave-power, containing the primary multiwave and secondary single waveguides fl. However, the specified coupler has a complex structure that prevents its wide use. Closest to the present invention, there is a directional coupler containing crossed primary and secondary waveguides, in the adjoining wide walls of which there is a communication hole located in the middle of the wide wall of the secondary waveguide G2.3. At an optimum crossing angle of the primary and secondary waveguides, a high coupling direction is provided. The known device is intended to operate in single-wave mode, where only the type H wave can propagate in the waveguides. In the case of using a primary waveguide of an extended cross section that allows the propagation of a type 20 wave, the transitional attenuation of a known coupler turns out to be significantly different for Hg type waves, moreover, directivity is not provided for a type 20 wave. The purpose of the invention is to align the transition attenuation of type H waves and provide directionality on a type wave. I ... This goal is achieved in that the directional coupler containing the crossed primary and secondary waveguides, in the adjoining wide walls of which a communication hole is made, is located in the middle of the wide wall of the secondary waveguide, the communication hole is offset relative to the longitudinal axis of the primary waveguide In addition, Bta is filled with a communication slot parallel to the longitudinal axis of the primary waveguide; The center of which is combined with the middle of the wide wall of the secondary waveguide. The drawing shows the design of the proposed directional coupler. The directional coupler contains crossed primary and secondary waveguides 1 and 2, respectively, whose wide walls 3 and 4 are in contact. In contacting wide walls 3 and 4, a communication hole 5 is made, offset from the longitudinal axis of the primary waveguide 1, and an additional communication slot is made parallel to the longitudinal axis of the primary waveguide 1. The center of the communication gap is aligned with the middle of the wide wall 4 of the secondary waveguide 2. The directional coupler works in the following way. In the primary waveguide 1, wave types and propagate. The secondary waveguide 2 is single wavelength, its dimensions ensure the propagation of the type H wave. The offset coupling hole 5 ensures the equality of the transient attenuation along the HJJ, waves. The location of the communication hole 5 is selected taking into account the field structure in the primary waveguide 1. The coupling gap facilitates the alignment of the transient attenuation for the HjjQ type waves and increases the direction of the coupler along the VO wavelength. high focus.

Claims (1)

A DIRECTED DETAIL, containing crossed primary and BXO load secondary waveguides, in the contacting wide walls of which a communication hole is made, located in the middle of the wide wall of the secondary waveguide, so as to align the transitional attenuation of waves of the type H ₁₀ and H 2o and ensure directivity on a wave of type H _2o , the communication hole is offset relative to the longitudinal axis. primary waveguide and additionally made a communication gap parallel to the longitudinal axis of the primary waveguide, the center of which is aligned with the middle of the wide wall * <of the secondary waveguide