DE1195413B - Elongated running field pipes of the 0-type with ion collector - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. α .:

HOIj

H03b; H03f

German class: 21g -13/17

Number: 1195 413

File number: C 21544IX d / 21:

Filing date: May 27, 1960

Opening day: June 24, 1965

The invention relates to an elongated running field tube with one of static electric fields practically free interaction space (equipotential space), their electron beam / electron beams is guided in a bundled manner by a longitudinal magnetic field and its delay line through a flat metallic part extending along the same without retardation properties, which is on the same DC potential as the delay line is shielded (shield part).

A known disadvantage of these tubes is that as a result of the never perfect vacuum Electron beams ionize the residual gas atoms, which then increase according to their positive charge move towards the more negative potential areas and, in particular, run against the direction of the beam. When they are mixed with the beam electrons, they form a plasma that is particularly concentrated in the Beam constrictions that accumulate along the electron beam (as a result of the magnetic Form the focussing field caused successive thickening and thinning of the jet). In this way, the plasma is transported along with the electron beam. It is known that under these conditions the plasma with frequencies between a few kilohertz and a few megahertz oscillates, resulting in a frequency modulation of the operating frequency of the tube and an amplitude modulation of the tube output power,

Elongated running field tube of the O-type with ion collector

Applicant:

Compagnie Generale de Telegraphic sans FiI, Paris

Representative:

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

Named inventor: Daniel Reverdin, Paris

Claimed priority:

France of May 26, 1959 (795 590)

A constant electric field is created, which is able to influence the electron orbits, thereby reducing the functioning the tube is disturbed so that the tube is no longer O-type.

It is an object of the invention to provide an O-type running wave tube with one or more Conductors for ion discharge is provided and in which the above disadvantage is eliminated, so that it is possible is, this or this ladder with a very low appearance, which are particularly disturbing when the 30-ring DC potential, z. B. with the same cathode tube works as a self-excited oscillator. potential to be applied without the tube

It is already known that this disadvantage ceases to be of the O-type.

to remedy that parallel to the delay line The invention consists in particular in this

a conductor is arranged which has a direct potential or this conductor in combination with a "seduces to use the direct potential of the delay line with shielding part",
line deviates, whereby the electric field tube generated between the conductor and the delay line with a static electric field is used to "suck off" the ions that are in the practically free interaction space (equient according to the selected field direction). potential space) whose electron beam / electron delay line or flow to the conductor. 40 radiate through a longitudinal magnetic field

It has been found that this ion suction bundle is / are guided and their delay line arrangement is particularly efficient if this is achieved by a surface equal potential extending along the same of the conductor is the lower, d. H. Adhesive metallic part without delay inherent if the ions are sucked off towards the conductor, shafts that have the same potential as and the lower the delay line is, the better this effectiveness is is the conductor's equal potential. Therefore one is (part of the umbrella) and with at least one more endeavors to give the conductor the lowest possible equal-metallic part that has a potential opposite the Verpotential admit. In this regard, delay line presents itself to much lower peers soon a limitation, since the equitial is acted upon, to divert the ions from potential difference between said conductor 50 and the discharge space of the tube is provided and the delay line leads to the fact that in the (ion arrester) proposed according to the invention that Interaction space a more or less strong ion conductor either in a slot-shaped

509 597/296

3 4

Recess of the screen part or on which the ver on, in which a plate-shaped metallic longitudinal part

Delay line facing side of the shield part 12 is arranged. The delay line 8

is arranged so close to the screen part that the isolated longitudinal parts 12 are used for ion discharge

Interaction space - seen electrostatically - serving conductor. The ion arresters 12 are with approximately retains its equipotential character. 5 screws 14 attached to insulating lamellas 13, the

As is known, the screen part of such a delay is in turn loaded with screws 19 on the screen part 10.

power lines from a planar, electrically strengthened.

good conductive metallic part without delay The filament 3 is from a voltage source properties formed that be cylindrical and fed the 15; the cathode 4 is connected to the positive Can enclose delay line or, if io DC potential of the voltage source 15 is connected Delay line has a more planar shape, sen. A DC potential that is positive towards the cathode 4 from both sides of the delay line it is from a voltage source 16 to the people who are in transit can consist of plate-shaped parts, inclination anode 5 and placed on the collecting electrode 2, which are connected to the delay line by side walls which are connected to the delay line 8 and the screen are, whereby a total of a box shape! - 15 part 10 is galvanically connected. Finally will ges housing is formed. by means of a voltage source 17 and the connec-

The ion arrester (s) can / can extend parallel connection conductors 18 a negative to the delay line 8

or placed across the axis of the delay line tive DC potential to the ion collector 12.

(Tube axis) extend. The level of this negative equal potential becomes

The ion arrester (s) with the 20 is / are expediently determined experimentally by the compromise between

DC potential applied to the cathode. see the complete disappearance of the

The ion conductor (s) can / can in particular cause disruptive phenomena and completely

also only in the undisturbed O-type operation of the tube adjacent to the collecting electrode. if

Delay line section be provided and this determination for the voltage sources 17 and expediently leads to the same constant potential value along approximately one third of the 25 16

Extend delay line. one of these voltage sources are eliminated, and the

The invention is illustrated by some in which the drawing conductor 18 can be connected directly to the cathode 4

connections of the illustrated embodiments are connected,

illustrative. It shows a coaxial output line 20, 21 (Fig. 2

F i g. 1 to 4 a backward wave oscillator tube 30 to 4) is located on the side of the delay line 8

(Carcinotron) of the O-type, namely is solidified. The outer conductor 20 is in the collecting elec-

F i g. 1, a longitudinal section through the tube is screwed in transversely to trode 2, while the inner conductor 21

the elements (fingers) of the interdigital delay directly adjacent to the beam generation system

line, first finger 22 (FIG. 4) of delay line 8

F i g. Figure 2 is a cross-section along line 2-2 of Figure 35 attached. For this purpose, the finger 22 is

Fig. 1, elongates and passes through the opening 23 in the outer

F i g. 3 is a longitudinal section along the line 3-3 of the conductor 20. The inner conductor 21 runs transversely through the

F i g. 2 with a top view of the electrode collecting electrode 2.

system inside the tubular piston and a magnetic coil 25, which is also controlled by a

F i g. 4, a longitudinal section parallel to the magnets can be replaced, provides that for

elements (fingers) of the delay line, the bundled beam guidance required longitudinal

F i g. 5 and 6 two possible variants in the nale magnetic field.

Cross-sectional representation according to FIG. 2, The operation of this backward wave oscilloscope

F i g. 7 and 8, two further possible variants in the lator tube need not be described in detail

the longitudinal section according to FIG. 3 and 45, since the vibration mechanism and the

Fig. 9 shows a longitudinal section through a section through the ion diverter 12 caused the effect of the compartment Part of the screen. man is known. However, it should be noted that the

In the reverse wave oscillator tube according to the present invention, improved results are obtained from the tube described F i g. 1 to 4 is a cylindrical piston 1 made of iso- due to the practically complete disappearance of a liermaterial, for example glass, to a massive 5 ° interference modulation of the generated vibrations as well metallic collecting electrode 2 welded on. Im due to the lack of other operational glitches Inside the piston is marked one of the tubes at the left end of the tube. This improvement Arranged beam generating system, which can consist of an inventive arrangement of the ion filament 3, a cathode 4 and an accelerator 12 in the slots 11 of the shield part 10, the pulling anode 5, which are written with two 55s, for example. Because of this arrangement Slits 6 for the passage of the two band-shaped slots is the constant electric field around the ion arrester Electron beams 7 is provided. The electrons are so heterogeneous that by far the largest rays 7 run on both sides of an inter- part of the electrical lines of force in the direction of the digital line 8, from which a certain number of adjacent sections of the screen part 10 runs, Finger near the collecting electrode 2 with a 60 while the number of the delay line 8 (cross-hatched shown) damping sub-running lines of force is relatively small, punch 9 is covered. The delay line 8 is on so that the interaction space - electrostatic a shield part 10 is hard soldered, which sees the verse - its equipotential character practically Delay line surrounds and still maintains a box-shaped structure even when the ion arresters 12 housing forms. 65, for example, the DC potential of the cathode 4

According to the invention, the screen part 10 has its lead.

to the delay line 8 running parallel to the F i g. 5 represents in one of the F i g. 2 similar

Top and bottom parts each have a longitudinal slot 11 cross section a modified embodiment according to the invention

leadership form in which the rod-shaped ion arrester 12 are located in slots which are provided in the side walls of the screen part 10. The rods 12 are each fastened there between two insulating lamellae 26. At 8 there is again an interdigital one Called delay line.

FIG. 6 shows, in a cross section similar to FIG. 2, another embodiment of the invention represents, in which no slots in the screen part 10, in this case, for example, circular cylindrical Shape, are present. The conductors 27 serving for ion dissipation are formed here by wires 27, which are arranged near the central portions of the screen part 10 in the longitudinal direction of the tube are. 8 again denotes the delay line.

The arrangement of the ion arresters in the longitudinal direction of the tube is, however, not indispensable.

The F i g. 7 represents in one of the F i g. 3 similar longitudinal view represents a variant in which the ion collector receiving two longitudinal slots 11 of FIG. 3 replaced by two transverse slots 28, for example are, in which the rod-shaped ion arresters 29 are housed, which in terms of their effect the ion diverters 12 of FIG. 3 are equivalent and, for example, how these are supported and fed will. The mode of operation of this ion discharge system corresponds to that of the previous ones Figures shown arrangements.

The same transverse arrangement could also be used for the wires 27 in FIGS. 6 applied will.

It is also not necessary that when using in the longitudinal direction of the tube extending Ion arresters these extend along the entire or most of the delay line. Rather, it is according to FIG. 8, which the F i g. 3 corresponds, it is also possible that the ion arresters 12 extend only along a relatively small portion of the delay line, in the case of a reverse wave oscillator tube for example along the damping zone near the collecting electrode. The longitudinal slots 11 in the screen part 10 are then shortened accordingly (FIG. 8). In this way it becomes a far-reaching one Liberation of the electron beams from the influence of the electrical ones serving to dissipate ions Equal field achieved.

The same shortened arrangement can also be used with the wires 27 in FIG. 6 can be applied. If the length of these wires is limited to about a third of the length of the delay line and the wires are arranged close to the collecting electrode of the tube, a DC potential that is strongly negative compared to the delay line, for example also with the cathode potential, can be applied to them, without the characteristic curves of the tube to affect. Such an arrangement is shown in FIG. 9, which shows the longitudinal section of a part of the screen part 10 with a piece of wire 27 which extends along a distance ^ !? on the side of the screen part 10 facing the delay line is arranged close to the same and the length of which corresponds approximately to a third of the delay line length. The wire 27 passes through the shield part 10 in two insulating bushings 30 and 30 '. The wire end C ends here open; the wire end D is connected to the cathode 4.

It has been found experimentally that in all the cases shown, the discharge of the ions (such as also of the secondary electrons, which are determined by the impact of the ions on the ion dissipation Conductors are generated) is completely satisfactory and the interference modulation that otherwise occurs disappeared.

The invention is not limited to run-wave tubes which, as in the figures, have a delay line Use flat construction, but it is the same with cylindrically symmetrical ones Delay lines with shield part can be used. Nor is their application to reverse wave oscillator tubes of the O-type, but also in the O-type forward wave oscillator tubes as well Possible with O-type amplifier tubes, provided they use a delay line with a shield.

Claims (6)

Patent claims: 1. Elongated running field tube with one practically free of static electrical fields Interaction space (equipotential space), whose electron beam / electron beams through a longitudinal magnetic field is / are bundled and its delay line through a flat metallic part extending along the same without retardation properties, which is on the same DC potential as the delay line is shielded (shield part) and in the case of at least one further metallic part, the one opposite to the delay line Much lower DC potential is applied to derive the ions from the Discharge space of the tube is provided (ion arrester), characterized in that that the ion arrester is either in a slot-shaped recess of the screen part or arranged on the side of the screen part facing the delay line so close to the screen part is that the interaction space - seen electrostatically - its equipotential character approximately maintains. 2. Lauffeldtube according to claim 1, characterized in that the / the ion arrester is parallel extends to the axis of the delay line (tube axis). 3. Lauffeldröhre according to claim 1, characterized in that the / the ion arrester transversely extends to the axis of the delay line (tube axis). 4. running field tube according to one of claims 1 to 3, characterized in that the / the Ion arrester is / are charged with the cathode DC potential. 5. running field tube according to claim 2, characterized in that the / the ion arrester in the the delay line section adjacent to the collecting electrode is / are provided. 6. Lauffeldtube according to claim 5, characterized in that the / the ion arrester is approximately extends along a third of the delay line. 1 sheet of drawings 509 597/296 6.65 © Bundesdruckerei Berlin