DE1541002A1 - Magnetron with coupling lines - Google Patents

Description

. MÖLLER-BOR ^ DlPL.-JNÖ. GRALFS DR. MANITZ

'PATBNTAJN W-Xl. T-B

Braunschweig, 2.S.1966 Our sign «KI / kl - E 283

English Electric Valve Company Limited English Electric House / Strand-Xondon W.C.2 / England

Magnetron with coupling lines

Priority: Great Britain 8/9/1965 (33991/65)

The invention relates to magnetrons. With certain Badar- j systems, there is a requirement for a high-performance

Microwave pulse source where the frequency of pulse j to impulse can be changed quickly. Ί

The aim of the invention is to improve the so-called magnetrons To create coupling line type which are suitable for such applications and whose frequency changes quickly can be. ■

Magnetron by coupling line type - hereinafter kura "coupling line magnetron" called - are far-currently>

9.0-9830 / 0 $$ 1-.

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Form 20/5 1000 6. 45 j

ORiGINAL INSPECTED

widely used. In a coupling line magnetron, alternating anodes are connected to one another by at least one connecting line, while the remaining modes are connected to one another by at least one further connecting line. These interconnections are known as coupling lines (straps) and have in the most common type of coupling line magnetron in the form of arcuate Verbindungsleitüngen at the end or at the ends of the anode block (usually at both ends), tk each connecting line usually in the form of a concentric to the axis of binges that connects the alternating anodes that it couples with each other. However, any connection line that connects alternating anodes to one another can be referred to as a coupling line. The oscillation frequency of a magnetron operating in ff mode depends, among other things, on the capacitance between the coupling line pair, of which one line connects a sequence of alternating anodes and the other line connects the other sequence of alternating anodes Creation of fast-tuning magnetrons used.

According to the invention, each coupling line pair for connecting the alternating anodes of a magnetron is provided with a plurality of discrete surfaces * which are arranged in such a way that the surfaces of one and the surfaces of the other line together form a plurality of capacitances distributed over the length of the coupling line, while a rotor . ., v., 909830/0691

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• with a plurality of discrete conductive parts so arranged aet is > that these files alternate as the rotor rotates

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; There are dielectric spaces between the capacities mentioned run through and change the values of the dielectric *

? e ** ue «WeiH6 i» t $ edi of the coupling lines «it is provided with the same " t number of protruding teeth, with those on the

• J.iittt t ^ p ^ pileitung those on the other coupling circuit 'face. The rotor can have the same number of

Teeth have _t whereby each tooth, when it is in alignment between the opposing teeth of the two coupling lines, almost fills the gap, jeiooh j does not touch any of the teeth. Alternatively, the rotor can have the same number of holes, each hole if it looks aligned between the opposing teeth

'\ dtr both coupling circuits _# does not find the space in between

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adversely affects the fact that material between adjacent holes can enter the space between the teeth without wiping touching them. The two coupling positions can be rings which can be mounted on the outside at one end of the magnetron anode block in planes perpendicular to the magnetron axis, whereby the teeth are parallel to this axis extend and the axis of rotation of the rotor coincides with the magnetron axis · Alternatively, the two coupling lines can be sleeve-shaped and at one end ν of the magnetron anode block be mounted, with the Teeth extend radially with respect to the magnetron axis and

• 909830/0691 BADQRIQiNAU

the axis of rotation of the rotor as before with the magnetron axis coincides.

Preferably the rotor and its bearings are inside of the evacuated magnetron housing, the rotor being driven by a rotating magnetic or electromagnetic Field, which can be set up by means outside the housing, can be set in rotation.

It is possible to arrange capacitance coupling lines and an associated rotor according to the invention at both ends of the anode block, but it is preferred to provide such an arrangement only at one end and to arrange coupling lines of conventional construction at the other end of the anode block.

The invention is hereinafter in connection with Drawing described, their Figures 1, 2, 3 and 4 embodiments show the invention.

The figures are purely schematic and show the magnetrons to which they are related only as far as for understanding of the invention is required.

FIG. 1 shows a schematic view of a magnetron according to the invention, specifically a section through the anode block. In Figure 1, the usual central cathode is denoted by 1, while the so-called end caps are denoted by 2

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are net. The magnetron shown is of the flag type and has an anode block with radially arranged vanes, two of which are labeled 3. At one end of the anode There are two coupling line rings 4 and 5 usual construction and arrangement, the coupling line 4 being a sequence of alternating lugs (anodes) and the coupling line 5 interconnects the other sequence of alternating anodes.

At the other end of the anode block are the alternating ones Flags over connecting webs 6 with a metal ring 7 and the remaining alternating flags via connecting jfcege 3 connected to a metal ring 9 of the same type. The rings 7 and 9 are attached at a distance from one another «And lie in planes perpendicular to the magnetron axis, which is the axis of the cathode assembly. Each of rings 7 and 9 has the same plurality of teeth 10 or 11 which are opposite to one another in the direction parallel to the magnetron axis are arranged and protrude against each other. Obviously, each pair of opposing teeth represents a capacitance represents, the distance between the electrodes of this capacitance being the distance between the opposing ones Ends of the teeth. A disk-like rotor 12 made of conductive material is arranged between the two rings 7 and 9. The rotor is mounted in such a way (not shown), that its axis of rotation coincides with the axis of the magnetron. The rotor has the same number of Teeth 13 as each of the two rings 7 and 9, with

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each tooth protrudes from both sides of the rotor in such a way that that in a position of the rotor according to Figure 1, in which all of its teeth are in alignment between a pair of opposing teeth on the rings 7 and 9, the Capacity between the opposing teeth is significantly changed by the rotor tooth. Outside the magnetron housing (not shown) - all parts described are located inside the magnetron - suitable means (also not shown) are attached to rotate of the magnetic or electromagnetic field that penetrates the housing. The rotor is designed to be set in rotation by the rotating field to be able to. In this way, the need for a mechanical drive, which would have to run through the magnetron housing, for the rotation of the rotor is avoided. One A very useful drive arrangement includes a three phase winding external to the housing and a rotor that follows is based on the eddy current principle.

It can be seen that in the arrangement of Figure 1, when the teeth of the rotor are between the teeth on the rings 7 and 9, the capacitance between the coupling lines - the coupling lines are through the rings 7 and 9 - has its maximum value and the oscillation frequency of the magnetron therefore has a minimum. Does the rotor have a Position with his teeth halfway between successive pairs of opposing teeth on the rings 7 .. and 9 stand, then the capacity between the coupling lines

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the lowest and the oscillation frequency therefore has a Maximum. It can also be seen that the invention offers the great advantage of one rotation of the rotor Number of frequency change periods which is equal to the number of teeth on the rotor - provided that the red and each of the two rings are the same Number of teeth - and therefore actually the number of frequency change periods with each rotation of the rotor can be made very large. It can therefore have a high rate of tuning change at a relatively low rate Rotation speed of the rotor can be achieved.

Instead of a toothed rotor, one can also have one Punch can be applied. A structure of this type is in the Figures 2, 3 and 4, in which the same parts are designated by the same reference numerals as in FIG. Figure 2 shows a schematic view of the same type as Figure 1, while Figures 3 and 4 are partial views on an enlarged scale.

According to Figure 2, a sleeve-shaped outer coupling line 17 is arranged at one end of the anode block, which has teeth 10 'arranged at a distance from one another, which in this case protrude radially inward. FIG . 6 shows part of the coupling line 17 with its teeth 10 'in a broken perspective view. The coupling line 17 connects a sequence of alternating flags. Located adjacent to and within the coupling line 17

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A similar hülseiiförmige coupling line 19, which connects the remaining alternating flags of the magnetron and radially outstanding · on its outer surface teeth 11 ^{, of which each tooth 11 'a tooth 10' facing. The free end of a tubular rotor 112 extends downward between these teeth and has as many holes 13 '(in the form of right-angled slots) as there are teeth on each of the two coupling lines 17 and 19. The slots 13 * are arranged in a ring around the rotor 112 - the rotor is shown in perspective in FIG 11 'Jie ^ eu «The coupling lines 1? and 19 and the rotor 112 are coaxial and the axis of rotation of the rotor falls within the Uh ^ t of the magnetron. In the arrangement according to Figure 2, the capacitance between the coupling lines has a minimum when the slots 13 'are radially aligned with the teeth 10' and 11 'and a maximum when all the slots 13' are in the middle between successive pairs of opposing teeth »

80983070601

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Claims (8)

H I Patents a ρ r ü ehe Magnetron with coupling lines, characterized in that that each pair of coupling lines for connecting alternating anodes is provided with a plurality of discrete surfaces arranged to face them together with the areas on the other coupling line form a plurality of capacitances between the coupling lines which are distributed over their length, and in that there is further provided a rotor having a plurality of discrete conductive parts which are arranged to alternate as the rotor rotates pass through the dielectric gaps of the capacitances mentioned and thereby change the capacitance values. 2. Magnetron according to claim 1, characterized in that each of the coupling lines with the same number is equipped with protruding teeth, whereby the tooth on one coupling line opposite those on the other. 3. Magnetron according to claim 2, characterized in that the rotor and the coupling lines the same number » of teeth and the teeth of the rotor are arranged so that when they are in alignment between two opposing teeth on each coupling line 909830/06 9 1. almost fill the space between these teeth, but not touch any of the teeth. I. 4. Magnetron according to claim 2, characterized in that the rotor has the same number of holes as that of the teeth on each coupling line and that the holes are arranged so that when they are in line between two opposing teeth on each Coupling line located, leave the space between these teeth unaffected, but that the material between adjacent holes the space between the teeth can pass without touching the teeth. 5 x magnetron; according to one of claims «2 to 4, characterized characterized in that the two coupling lines are ring · -, the outside at one end of the magnetron anode block in planes: are arranged perpendicular to the axis of the magnetron, the teeth being parallel in Richtuagen extend to this axis and the. The axis of rotation of the rotor coincides with this axis. 6. Magnetron according to one of Claims 2 to 4, characterized characterized in that the coupling lines are sleeve-shaped and arranged on the outside at one end of the magnetron anode block, the teeth in relation to * protrude radially on the axis of the magnetron and the axis of rotation of the rotor coincides with this axis. 90983 0/0691 ORIGINAL INSPECTED 7. Magnetron according to one of the preceding claims, characterized in that the rotor and its storage inside the evacuated magnetron housing are located and that the rotor by a magnetic or electromagnetic rotating field that is generated by means can be set up outside the housing, rotated can be. 8. Magnetron according to one of the preceding claims, characterized in that capacitance coupling lines and an associated rotor at only one end of the magnetron are arranged, while coupling lines of known type are provided at the other end. 90 9 8 30/0681 ORIGINAL - / 72-. Blank page ORIGINAL INSPECTED