DE2924982A1 - Delay line for travelling wave tube - has side chambers with central variably spaced but equal apertures and chamber walls with staggered apertures - Google Patents

Abstract

The delay line is for a travelling wave tube. The control core of the coaxial tube is divided by partitions, the electron beam (70) travels through a central aperture (60) in an entry port and through all partitions (30,31, to 35) which divide the tube into several cells (10,11, to 14). The distance (B) separating partitions (40) at the centre is constant along the tube and the size of the central core hub (A,A') longitudinally varies. The thickness of the partition (D) is constant throughout, only the hubs vary, and each carries a port, through to the next cell, which is offset relative to those either side.

Description

Description "delay line for a running wave tube" The invention relates to a delay line for a Lauffeldröhre with a waveguide and with the waveguide in dividing cells dividing the transverse walls, which in the center as Hollow cylinders encompassing electron beam openings formed coaxially are.

Such a delay line is known from DE-AS 26 36 633.

From DE-AS 2 350 239 it is also known, the distance between adjacent Transverse walls of at least part of the line cells of the delay line in the course of the delay line change uniformly around the delay line extremely design with low reflection and reduce their overall length.

The present invention is based on the object of a delay line for Lauffeldröhren so train that the phase velocity of the along the electromagnetic wave propagating in the delay line is reduced, in order to achieve an increase in output power in this way.

Starting from a delay line of the type specified in the introduction This object is achieved by the invention specified in claim 1.

Advantageous further developments of the invention emerge from the subclaims emerged.

The invention is explained in more detail below with reference to the drawing explained. The figure shows part of a delay line for a traveling wave tube with a waveguide 1 and lit Qudswånden 310, 31, ... 35, which the waveguide 1 v Divide into divisions 10, 11, ... 14. In the center are the transverse walls 30, 31, ... 35 designed as a hollow cylinder 20, 21, ... 25, each having an electron beam passage opening 60 include coaxially.

The one coming from an electron beam source (not shown) Electron beam 70 first passes through electron beam passage opening 60 in the transverse wall 30 of the line cell 10 on the input side and so on one after the other the electron beam passage openings in the following in the direction of propagation Transverse walls which delimit the line cells 11, 12, 13, 14.

To enable such a spread of the electron beam, are the hollow cylinders 20, 21, ... 25 passing through Slots 40, 41, ... 44 are separated from each other, miteider aligned on the axis of the waveguide 1.

The hollow cylinder is in each case in the individual line cells 10, 11, ... 14 20, 21, ... 25 separating slot 40, 41, ... 44 with regard to its position with respect to the outside of the hollow cylinder 20, 21, ... 25 lying parts of each adjacent transverse walls 31, 32, ... 35 with different spacing A, A arranged.

In this way, the phase velocity can be reduced achieve. This solution is particularly advantageous for delay lines, which are structurally combined with a magnet system. With such delay lines includes the magnet system, which is not shown in the drawing, the waveguide 1 of the delay line coaxial. The magnet system consists of a plurality of Hagnetrings, which are stacked one on top of the other in the axial direction. With especially Waveguides are also useful embodiments of delay lines and the transverse walls forming the line cells by lining up individual ones Segments built up by suitable shoulders or projections also the magnetic rings of the magnet system in their position. The fact that in the invention Solution the distances C between adjacent transverse walls of the line cells over the Length of the delay line are kept constant, there is a special simple construction of the delay line. In essence, they can be identical trained parts are used to construct the delay line.

The position of the one separating the hollow cylinder 20, 21, ... 25 from one another Slot 40, 41, ... 44 is expediently so loaded measure that the in the slot 40 provided on the input side of the line cell 10 has the smallest Distance A from the adjacent transverse wall 31. The slot 44 in the output side located line cell 14 has the opposite of the adjacent transverse wall 35 the largest distance A '. In the intermediate line cells 11, 12, 13 is the Distance of the respective slot 41, 42, 43 from the adjacent transverse wall 32, 33, 34 dimensioned so that it faces the lead cell located on the output side 14 except for the value A! increases.

To simplify the construction of the delay line, the width of the slots 40, 41, ... 44 as well as the distance C between adjacent transverse walls left constant over the length of the delay line.

The thickness (D) of the transverse walls (30, 31, 35) is also expedient leaving the length of the delay line constant, R e r s e i t e

Claims (6)

Claims> Delay line for a dauffeldröhre with a waveguide and transverse walls dividing the waveguide into line cells, the hollow cylinder encompassing coaxially in the center as electron beam passage openings are formed, which are separated from one another by slots in alignment with one another are aligned on the axis of the waveguide, characterized in that in the individual line cells (10, 11, ... 14) of the hollow cylinders (20, 21, ... 25) the transverse walls (30, 31, ... 35) from one another with respect to the separating slot (40, ... 44) its league with respect to the outside of the hollow cylinder (20, 21, ... 25) lying Parts of the respective adjacent transverse walls (30, 31, ... 35) with different spacing (A, A ') is arranged. 2. delay line according to claim 1, characterized in that in the line on the input side cell (10) of the hollow cylinder (20, 21) two adjacent transverse walls (30, 31) separating slot (40) closer to the transverse wall (31) which follows in the direction of advance of the electron beam, and that in the line cell (14) located on the output side of the hollow cylinder two adjacent transverse walls (34, 35) separating slot (44) closer to the detr The transverse wall (34) facing away from the output of the delay line is located. 3. Delay line according to one of claims 1, 2, characterized in that that in between the input line cell (10) and the output line cell (14) laid. nen line cells (11, 12, 13) the distance between the hollow cylinders (21, 22, 23, 24) separating slot (41, 42, 43) with respect to the direction of travel The transverse wall following the electron beam is enlarged from line cell to line cell is trained. 4. Delay line according to one of claims 1 to 3, characterized in that that the width (B) of the hollow cylinder parts of the transverse walls (30, 31, ... 35) separating slots (40, 41, ... 44) over the length of the delay line is constant. 5. Delay line according to one of claims 1 to 4, characterized in that that the distance (C) of the parts lying outside the hollow cylinder (20, 21, ... 25) because transverse walls (30, 31, ... 35) is constant over the length of the delay line. 6. Delay line according to one of claims 1 to 5, characterized in that that the thickness (D) of the transverse walls (30, 31.,. 35) over the length of the deceleration rescue is constant