DE1298644B

DE1298644B - Running field pipes with a helical delay line

Info

Publication number: DE1298644B
Application number: DEN21159A
Authority: DE
Inventors: Dechering Johannes A Bernardus; Spanhoff Georg Arnold Wi Jacob
Original assignee: Philips Gloeilampenfabrieken NV
Current assignee: Koninklijke Philips NV
Priority date: 1961-02-07
Filing date: 1962-02-03
Publication date: 1969-07-03
Also published as: FR1313608A; US3250946A

Claims

The invention relates to a Lauffeldröhre Since the signal to be amplified at the output

with a helical delay line, the side having its largest amplitude, the largest at one end with an input waveguide there is therefore a risk of danger from there, is more expedient and at its other end with an output hollow development of the invention, the inner tube output

Head is coupled, the facing waveguide 5 waveguide side via the flange with the outer tube conductor sides connected by a circular cylindrical metal. This means that there is only a small pipe are connected, which is rich at least in the area of the helical delay line the delay line exposes the dielectric vacuum envelope of the input side.

at a small distance coaxially encloses (outer tube), since the inner tube has the helical delay and in which, within the vacuum envelope, a conduit surrounds the verio line relatively tightly, ie a proportional delay line has a coaxially enclosing circular-cylindrical small diameter, its Drisches metallic tube is arranged (inner tube), cutoff frequency quite considerably higher than that whose dimensions are chosen so that its of the outer tube. As a result of this high cut-off frequency The cut-off frequency is considerably higher than that of the inner tube, and it is no longer necessary Outer tube is. 15 still to be provided with a damping material.

Lauffeldröhren with the above features The annular disk-shaped metallic flange must are already known. So shows z. B. the British with the outer tube in electrically good conductive VerPatentschrift 779 583 a Lauffeldtube, stand at the connection, because otherwise the feedback path is not interrupted within the electrically insulating vacuum envelope.

the helical delay line of short ao The invention is for an embodiment Tubes or a longer tube is surrounded, which is explained in more detail with reference to the drawing. The figure in the case of the pipes, also with short flange-like positions, a cross-section through the most important elements can be provided, which are located in the radial belt of a part of a tunnel tube after the grounding extend. These measures are intended to represent

Space between the helical delay 25 I _{n of} the figure is 1 of the input waveguide and 2 of the line and a metallic output waveguide surrounding the tube of an amplifier device with a casing parasitic vibrations are prevented, a traveling wave tube 3 - Conductors are caused by an electrically good conductive circuit, so that a perfect reinforcement of the cylindrical outer tube 4 is connected, in which a is no longer possible. Such unwanted vibrations with only a slightly smaller diameter have hitherto also been prevented by the fact that glass tube 5 is arranged, which at the same time creates the vacuum that (at least along part of the casing of the tunnel tube 3 in the area of the helical delay line) a damping material is placed on the moderate delay line 9 forms. On the ring of the inside or outside of the electrically insulating-shaped end faces of the glass tube 5, two vacuum envelopes are arranged. 35 flange-like metal disks 6 and 7 are also fused, known (cf., for example, the German patent specification on the electrically highly conductive connections to the input 973 327), for the same purpose attenuating work waveguides 1 and the output waveguide 2 the outer surface of one between the Va- places. On the outside of the metal disc 6 is kuumhülle and the delay line arranged _e in a short glass cylinder 8 firmly fused to arrange in the dielectric cylinder, so that the _40, the parts (not shown) are the electron-absorbing material substantially all of the encryption-ray generation system. The metal delay line encloses. Disk 7 carries over a (not shown) short The known measures had different glass cylinders the (not shown) collecting electrode. Disadvantages and shortcomings. So is z. B. the application between the metal disks 6 and 7, the spiral of the damping material is always with difficulty 45-shaped delay line 9 arranged, which is connected in; This also often causes the signal to be amplified to be attenuated by three ceramic rods 10. is based.

In the case of the above-mentioned British patent, the annular disc-shaped metallic flange 11 known arrangement has the disadvantage that it carries an inner tube 12 with good electrical conductivity the longer tube surrounding the helix does not go up to the 50 copper-nickel, which extends over about two-thirds of the Connection elements for the input or output hollow length of the delay line 9 extends; Copper conductor is brought up so that in the space between nickel is not only good conductive, but also unmadiesem Tube and the vacuum envelope are undesirable gnetisch. The flange 11 is according to the invention by Vibrations can occur. It is also passed through the vacuum envelope and stands with the Another feedback path that includes a delay 55 output waveguide 2 and the outer tube 4 in the electrical line area high gain includes, in front of a good conductive connection, with a good act. High frequency sealing is provided. The wendelför- In particular these disadvantages and shortcomings are moderate delay line 9, if necessary, Avoided by the invention, which is over part of its length still with a damping barrel tube of the type mentioned at the beginning refers to 60 Fenden material. Otherwise are in the and is characterized in that there is no damping means along or around the barrel tube 3 located half to three quarters of the delay line.

extending inner tube over a through the Va- P t t "Ti ·

annular disk-shaped ^p

metallic flange with the outer tube electrically 65 1. Lauffeldröhre with a helical

is well connected. In this way there is especial- ly the delay line at one end

special also the mentioned risk of feedback with an input waveguide and at its other

sided. Ren end coupled to an output waveguide

is whose facing waveguide sides through a circular cylindrical metallic tube are connected, the at least in the area of the delay line dielectric vacuum envelope at a small distance coaxially encloses (outer tube), and in the case of the inside of the vacuum envelope a circular cylindrical metallic tube coaxially surrounding the delay line is arranged (inner tube), the dimensions of which are chosen so that its cutoff frequency is entirely is considerably higher than that of the outer tube, d a is characterized by the fact that it extends longitudinally half to three quarters of the delay line extending inner tube (12) through a the vacuum envelope passed through the annular disc-shaped metallic flange (11) with the Outer tube (4) is connected with good electrical conductivity.

2. Lauffeldröhre according to claim 1, characterized in that the inner tube (12) on the output waveguide side is connected to the outer tube (4) via the flange (11).

1 sheet of drawings