DE1240591B - Delay line of the rung design for running field pipes - Google Patents

Description

GERMAN «MSS ^V PATENT OFFICE

EDITORIAL

German class: 21g-13/17

Number: 1240 591

File number: C 24243 IX d / 21 g

J 240 591 filing date: May 30 , 1961

Open date: May 18 , 1967

The invention is based on a delay line of the rung design for runway tubes according to patent 1187 328, in which the same rungs, which are aligned one behind the other at the same intervals, are exposed with their two ends and each rung is by means of an equally dimensioned metallic support part (support leg), which extends perpendicular to the respective rung so that each rung with its compact support leg has a symmetrical T-shape (T-shaped delay element), is attached to a metallic base part extending parallel to the rung arrangement, which is attached to the one wide wall of a waveguide is formed with a rectangular cross-section, the other, the bottom part opposite wide wall is provided with a longitudinal slot which is symmetrical to the longitudinal plane of symmetry of the waveguide, and in which the support legs of the rungs from the outside through the waveguide longitudinal slot into the waveguide protrude ao and so attached to the opposite, the bottom part of the delay line forming waveguide wall that the rungs come to lie outside the waveguide in planes perpendicular to the waveguide longitudinal slot and close to the longitudinally slotted waveguide wall, and relates to the improvement and further development of such delay lines.

With a delay line according to the main patent, several of which are parallel and tight can be arranged side by side, the interaction with an electron beam according to the symmetrical mode (symmetrical distribution of the high-frequency potential with respect to the Rung median plane) along the line is used as a wave propagating along the line. However, it has been shown that delay lines of this type, besides the symmetrical mode, at least reduce the propagation allow a parasitic asymmetrical mode, which is in the range of the useful wave band of the symmetrical mode and thus interferes with the operation of the wave tube.

The object of the invention is to modify the delay line according to the main patent so that the waveband of the asymmetrical mode or modes does not noticeably match the useful waveband of the symmetrical mode overlaps.

This object is achieved according to the invention in that the opposing edges of the longitudinal slot are connected by a short (several short) connecting piece (s) which are arranged between successive delay elements
for running field tubes

Addendum to the patent: 1187 328

Applicant:

Compagnie Generale de Telegraphic sans Fil,
Paris

Representative:

Dr. W. Müller-Bore and Dipl.-Ing. H. Gralfs,
Patent attorneys, Braunschweig, Am Bürgerpark 8

Named as inventor:
Jacques Arnaud,
Claude Renaud, Paris

Claimed priority:

France June 3 , 1960 (828028)

net is (are), are electrically connected to each other (»short-circuit bridge [n]«).

If several short-circuit bridges are provided, they can themselves form a periodic sequence. In particular, their periodicity can be the same as that of the rungs.

Theory and experiment show that these short-circuit bridges reduce the dispersion curve of the symmetrical Modes only have very little influence, but they have a very large influence on the dispersion curve of the asymmetrical mode (s). Its dispersion curve is steepened and thus no longer influences that assumed by the dispersion curve of the symmetrical mode Tape.

The short-circuit bridges can be made of a metal with good electrical conductivity, preferably with is coated with a damping layer, or made of resistance material. The resistance material or the damping layer is due to the still occurring energy absorption in addition to eliminating the unbalanced mode.

The invention is described below with reference to the drawing. In this shows

709 580/204

Claims (3)

F i g. 1 is a diagrammatic representation of a single T line according to the invention, FIG. FIG. 2 corresponds to section 2-2 in FIG. 1 corresponding top view, FIG. 3 is a diagrammatic representation of a double-T line according to the invention, FIG. 4 dispersion curves to illustrate the advantages of the invention. The F i g. 1 and 2 show a T-structure similar to that shown in FIG. 1 of the main patent is shown. It has a rectangular waveguide 8, the upper wide wall 10 of which is provided with a longitudinal slot 9 which runs symmetrically to the longitudinal plane of symmetry of the waveguide. Parallel to the wall 10 and perpendicular to the longitudinal slot 9, rungs 11 that are aligned one behind the other extend at equal intervals, each of which with its compact support leg 12 form a symmetrical T-piece, the two ends of which are exposed. The support legs 12 extend through the slot 9 and are fastened to the lower wall of the waveguide 8 which forms the bottom part of the delay line. The T-shaped delay elements, which are all identical to one another, form a regular sequence which determines the periodicity properties of the structure as. According to the invention, at least one z. B. purely metallic short-circuit bridge 13, the edges of the longitudinal slot 9. A periodic sequence of short-circuit bridges can also be provided, with one bridge being arranged in the space between two successive support legs 12. The F i g. 3 gives a structure according to the type of FIG. 5 of the main patent again. It provides two parallel and closely spaced delay lines as shown in FIG. 1. These form a double-T line with the rungs 11, 11 'and the support legs 12, 12'. In the structure according to FIG. 3, according to the invention, the edges of the two longitudinal slots 9, 9 'are connected by short-circuit bridges 13 and 13'. F i g. 4 shows the dispersion curves generally valid for the delay lines described above and is intended to illustrate the mode of operation of the short-circuit bridges 13. In the diagram, the delay ratio c / v (c == speed of light, ν = phase speed of the waves traveling along the delay line) is plotted as a function of the wavelength A. The dispersion curve 15 corresponds to the symmetrical mode. 16 is the dispersion curve for one of the (undesired) asymmetrical modes, namely curve 16 relates to delay lines without short-circuit bridges. There is a single unbalanced mode in the case of the simple T line; There are three unbalanced modes for double-T-lines, and even more for multiple-T-lines. (The curve 16 has been chosen for the sake of simplicity of illustration; it is to be regarded as typical of each of these undesirable modes.) Without the short-circuit bridges 13 according to the invention, i. H. in the known delay lines, the curve 16 penetrates into the useful wavelength range of the curve 15, the z. B. lies between the wavelengths X1 and X2. The asymmetrical mode (s) then interfere with the functioning of the tube. Theory and experiment show that the short-circuit bridges 13 according to the invention have very little influence on the position and shape of the dispersion curve 15. The dispersion of the asymmetrical mode or modes, on the other hand, becomes much stronger. The curve 16 merges into the curve 17, which no longer penetrates the useful wave band of the curve 15. The disruption caused by the asymmetrical mode or modes is thus avoided by the structure according to the invention. The elimination of the asymmetrical mode is further increased if the short-circuit bridges are made of resistance material or if, when using short-circuit bridges made of a material with good electrical conductivity, this is covered with a damping compound. The short-circuit bridges according to the invention can also be combined with the measures forming the subject of claims 2 and 4 of the main patent (ribbing of the upper waveguide wall or interlocking of the stepped rung ends) in order to further improve the separation between the symmetrical mode and the parasitic asymmetrical modes . Patent claims: 1. Delay line of the rung design for Lauffeldröhren, in which the at equal intervals in alignment one behind the other, identical rungs with both ends free and each rung by means of an equally sized metallic support part (Support leg), which extends perpendicular to the respective rung so that each rung with its compact support leg has a symmetrical T-shape (T-shaped delay element), is attached to a parallel to the rung arrangement extending metallic bottom part, which is wide from the one Wall of a waveguide is formed with a rectangular cross-section, the other, the bottom part opposite wide wall with a Longitudinal slot is provided, which runs symmetrically to the longitudinal plane of symmetry of the waveguide, and in which the support legs of the rungs from the outside through the waveguide slot into the Waveguides protrude and so on the opposite, the bottom part of the delay line forming waveguide wall are attached that the rungs outside of the waveguide in planes to be perpendicular to the waveguide longitudinal slot and close to the longitudinally slotted waveguide wall come, according to patent 1187 328, characterized in that the opposing edges of the longitudinal slot (9) by a short (several short) connecting piece ^) (13), which (each) between successive delay elements (11, 12) is (are) arranged, electrically connected to one another (»short-circuit bridge [n]«). 2. Delay line according to claim 1, characterized in that the short-circuit bridges (13) are arranged at aperiodically recurring intervals. 3. delay line according to claim 1, characterized in that the short-circuit bridge