DE2532035B2 - RF CAVITY RESONATOR - Google Patents

Description

The invention relates to an RF cavity resonator composed of a cylinder and two on it Lids arranged on the end faces.

When using resonator-stabilized oscillators for the receivers and transmitters of radio relay systems, very high demands are made on the resonator with regard to frequency stability, gas tightness and electrical idling quality, whereby the frequency stability is at least 2 · ΙΟ " ⁵ , the gas tightness 2 · 10-" Torr and the electrical Idle quality should be 13000.

It is an object of the invention to provide an H F cavity resonator which has the above mentioned requirements met in a simple and reliable manner.

This object is achieved according to the invention in such a way that in an RF cavity resonator a cylinder and two covers of the cylinder arranged on its end faces in its end regions is stepped on the inside and on the steps formed in this way, the cover with a U-shaped profile and a circumferential gradation attached to the outside of the bottom, with the open side facing outwards lying, with an annular contact surface of small width and with the formation of a narrow gap between the cylinder wall (collar) and the side bars of the cover and cylinder and Lid via a weld seam attached to the end face of the collars of the cylinder and the side bars of the lid are interconnected and that the height and thickness of the collars of the cylinder and the side bars of the Cover are so differently sized that the collars of the cylinder cool more slowly than the Side bars of the lid.

The height of the collars of the cylinder and the side bars of the cover is advantageous chosen so large that one at the contact points between cylinder and cover and in the Rtsonatorraum attached silver layer is not damaged by the resulting welding heat.

ίο Invar is advantageously used as the material for the cylinder and the cover.

The invention is explained in more detail below using an exemplary embodiment.

The cavity resonator consists essentially of a silver-plated invar tube 1, which is closed off at both ends with a silver-plated invar cover 4, 5. By constructing the resonator from individual parts, it is possible to manufacture the quality-determining surface with the lowest possible roughness at low cost . The required high level of gas tightness is achieved by welding the covers 4, 5 to the tube 1. The contact pressure required between the lids 4, 5 and the tube J is ensured by designing the area around the weld in such a way that, due to different thermal resistances, the cooling rate in the lids is greater than on the tube. This causes expansion differences and thus the cover is pressed onto the face of the pipe.

The tube 1 is offset in its end areas on the inside in a stepped manner, the thickness of the remaining collars 2, 3 being denoted by s 1 and their height by / 1. On the stepped shoulders of the tube 1, the covers are placed, which have a U-shaped profile and are arranged with the open side facing outwards and the bottom side has a circumferential step on the outside, so that an annular bearing surface A of small width between the covers 4.5 and the paragraphs of the pipe 1 results.

A particularly good electrical contact is obtained through this narrow contact surface. The outside diameter of the cover 4, 5 is selected to be slightly smaller than the inside diameter of the tube 1 in the region of the collars 2, 3, so that a small gap is formed between the side webs of the cover 4, 5 and the collars 2, 3. On the end face of the side webs of the covers 4, 5 and the collars 2, 3, a weld seam for connecting the tube 1 to the covers 4, 5 is made in the region of the annular gap. The height and thickness / 1 and s 1 or 12 and s 2 of the collars 2, 3 of the tube 1 and the side webs of the covers 4, 5 are dimensioned differently so that they have different thermal resistances and thus different cooling speeds. The thickness s 1 of the collars 2, 3 of the tube 1 is significantly smaller than the width s2 of the side webs of the covers 4, 5 and their length / 1 is also less than the length 12 of the side webs of the cover, so that the collars 2 , 3 cool more slowly than the side webs (ier cover 4, 5) due to the greater thermal resistance Collars 2, 3 of the tube 1 and the side bars of the cover 4, 5 are chosen so large that the silver plating carried out before the welding at the contact point A and in the resonator chamber is not damaged.

1 sheet of drawings

Claims (3)

Patent claims: 1. HF cavity resonator consisting of a cylinder and two covers arranged on its end faces, characterized in that the cylinder is stepped on the inside in its end regions and the covers with a U-shaped profile and one on the bottom side attached to the outside of the steps formed in this way, circumferential gradation, with the open side facing outwards, with an annular contact surface of small width and forming a narrow gap between the cylinder wall (collar) and the side webs of the cover and the cylinder and cover over an end face of the "collars of the cylinder and the Side webs of the cover attached weld seam and that the height and thickness of the collars of the cylinder and the side webs of the cover are so different that the collars of the cylinder cool down more slowly than the side webs of the cover. 2. RF cavity resonator according to claim 1, characterized in that the height of the frets of the cylinder and the side bars of the cover is chosen so large that one at the contact points between the cylinder and cover and in the resonator chamber, not through the resulting welding heat is damaged. 3. RF cavity resonator according to claim 1 or 2, characterized in that the cylinder and the Lid made of Invar.