SU594553A1 - Hybrid waveguide ring - Google Patents

Description

This invention relates to a microwave technique. A known double-water hybrid ring contains a waveguide section, a coiled B ring in the E-plane, and four E-triple junctions ij. However, the well-known waveguide hybrid ring has a limited operating frequency band and large dimensions. The purpose of the invention is to increase the broadband and reduce the size. To do this, in a waveguide hybrid ring containing a waveguide segment, coiled into a ring in the E-plane, and four Etroynik joints, a metal ring is installed inside the waveguide section, insulated from the walls of the waveguide piece by a dielectric sleeve, and the metal ring conductor deposited on the outer surface of the dielectric sleeve. The drawing shows the proposed waveguide hybrid ring. The waveguide hybrid ring contains a segment of waveguide 1 rolled up in an E – 1 plane, four: E-tee connections 2 located at a distance of (l + 2 k) Ado along the axial line of the waveguide 1, where D- dpina are specific in the waveguide section one; , 1,2, and a metal ring 3 installed inside the waveguide section, made in the vi-t de strip conductor deposited on the outer surface of the dielectric sleeve 4, with which the metal ring 3 is isolated from the walls of the waveguide section 1. The waveguide hybrid ring works as follows . Introducing the metal ring 3 into the length of the waveguide 1, coiled into a ring in E-n), converts it into a collapsed rectangular coaxial having a critical dominant-type wavelength, tending to infinity. Signal amplitude Aj. in the isolated shoulder of the double-flow hybrid ring, all other things being equal, is proportional to the ratio LA / A. t where A is the wavelength in the segment of waveguide 1, and lL is the detuning of the length of the wave in the waveguide unit 1. The greater the ratio, the.