RU113078U1 - COAXIAL-MICRO-STRIP TRANSITION - Google Patents

Abstract

A coaxial-microstrip junction containing a cylindrical metal body, inside which a metal pin is concentrically located, hermetically welded to a glass insulator sealed from the end of the body, a central conductor made with a protrusion is put on the metal pin, a fluoroplastic insulator is located between the body and the central conductor, which is different in that the opening of the fluoroplastic insulator from the side of the protrusion of the central conductor is made conical, while the protrusion of the central conductor is recessed in the conical part of the hole, and a gap is made between the glass and fluoroplastic insulators.

Description

The utility model relates to a device for radio engineering, namely, microwave technology, is intended for input and output signals and can be used in high-frequency systems.

Known radio frequency sealed connector SRG-50-716FV (K.B.Dzhurinsky / "Miniature coaxial radio components for microwave electronics. Connectors, coaxial microstrip junctions, adapters, microwave inputs, low-frequency inputs, insulating racks, interference filters" / Second Edition, corrected and supplemented / “TECHNOSPHERE”, Moscow, 2006, p.118), which contains a housing, a glass insulator, a metal pin, a nest-type central conductor and a fluoroplastic insulator.

A disadvantage of the known device is its low electrical characteristics, namely, the lack of repeatability of electrical parameters. For this type of transition, the frequencies of 11..14 GHz are critical, in the range of which a deterioration of the standing wave voltage coefficient (VSWR) is observed.

Closest to the claimed device is the KRPG.434511.015 coaxial microstrip junction selected by us for the prototype (V. Alekseenkov, A. Vereshchagin, K. Dzhurinsky \ "An experimental study of the frequency dependence of the VSWR of coaxial microstrip junctions" \ "Components and Technologies" \ No. 4, 2008, p. 53), which contains a cylindrical metal casing, inside the casing there is a metal pin concentrically located, passed through a glass insulator sealed from the casing end, and hermetically located in the central ovodnike, between the housing and the central conductor is fluoroplastic insulator.

A disadvantage of the known technical solution is the relatively high VSWR in the operating frequency range due to a sharp drop in wave resistance, which occurs due to an increase in the diameter of the central conductor and a large difference in the dielectric constant of the glass insulator and the fluoroplastic insulator.

The main technical problem solved by the proposed utility model is to create a device that allows you to reduce VSWR.

The problem is solved in that in a coaxial microstrip junction containing a cylindrical metal casing, inside which a metal pin is concentrically located, hermetically sealed with a glass insulator sealed from the casing end, a central conductor made with a protrusion is put on the metal pin, between the casing and the fluoroplastic insulator is located as the central conductor; according to the proposed solution, the hole of the fluoroplastic insulator on the side of the protrusion of the central conductor is ying conical, wherein the protrusion of the center conductor is recessed into the conical part of the hole, and between glass and PTFE insulators formed gap.

The utility model is illustrated by drawings, in which Fig. 1 shows the appearance of the inventive device, Fig. 2 is a graph of the VSWR versus frequency during operation of the inventive device.

The device (figure 1) contains a metal housing 1 of a cylindrical shape, from the end of which the glass insulator 2 is sealed. A metal pin 3 is passed through the insulator 2 and hermetically soldered to it. A central conductor 4 of the female type is mounted on the metal pin 3. A fluoroplastic insulator 5 is pressed between the metal housing 1 and the central conductor. The hole of the fluoroplastic insulator 5 on the protrusion side of the central conductor 4 is conical.

Between the glass insulator 2 and the Central conductor 4, a gap 6 is made.

Coaxial microstrip transition is formed as follows. The glass insulator 2 and the metal pin 3 are baked in a metal housing 1, then the central conductor 4 and the fluoroplastic insulator 5 are pressed in, while the protrusion of the central conductor 4 is buried in the cone-shaped part of the hole of the fluoroplastic insulator 5.

The inventive coaxial microstrip junction allows you to reduce the VSWR by making the holes of the fluoroplastic insulator cone-shaped, which allows you to compensate for the sharp drop in wave resistance.

Claims (1)

A coaxial microstrip transition containing a cylindrical metal case, inside which a metal pin is concentrically located, hermetically sealed with a glass insulator sealed from the end of the case, a central conductor made with a protrusion is put on the metal pin, a fluoroplastic insulator is located between the case and the central conductor, different the fact that the hole of the fluoroplastic insulator from the side of the protrusion of the Central conductor is made conical, while the protrusion of the Central the conductor is recessed in the cone-shaped part of the hole, and a gap is made between the glass and fluoroplastic insulators.