DE1013367B - Delay line for traveling pipes - Google Patents

Description

GERMAN

The invention relates to delay lines for traveling wave tubes with or without crossed electrical and magnetic fields in the interaction space of the tube. The aim of the invention is to provide an improved Helical-shaped delay line, particularly for use in broadband traveling wave tube amplifiers .

The mode of operation of a conventional traveling wave tube can be briefly described as follows: An electromagnetic one Wave travels along a delay line and interacts with an electron beam, which runs in the immediate vicinity of the delay line and with which the wave moves is in synchronism.

The purpose of the delay line is to increase the rate of planting the electromagnetic wave to a fraction of its value in free space, d. H. the Speed of light, decrease, for example to about a tenth of the same, so that they are in synchronism can come with the electron beam.

It is known that delay lines with a periodic structure consist of networks which are built up by stringing together a certain number of similar elements. The field distribution along a line with a periodic structure of step length f can be viewed as the result of the superposition of an infinite number of partial waves (space harmonics) whose phase velocities have the following values:

Delay line
for traveling wave tubes

Applicant:

Compagnie Generale de Telegraphie
sans FiI, Paris

Representative: Dipl.-Ing. E. Prinz, patent attorney,
Graefelfing near Munich, Aribostr. 14th

Claimed priority:
France 16 July 1954

Daniel Reverdin, Paris,
has been named as the inventor

Frequency changes. The dispersion curve is obtained by recording the ratio

ω · φ

ψ + 2kn '

with k = 0, ± 1. ± 2 ...

Here ψ is the phase shift between corresponding points of two consecutive terms, provided that the line is excited at one of these points. The partial wave running synchronously with the electron beam interacts with it.

In general, it is desirable to work with the fundamental wave, as this carries most of the energy with it. In this case, k in the formula for the phase velocity v _h has a value such that νji has a maximum for a given value of ψ (k = 0 if ψ < π).

Furthermore, it is necessary for the operation of a traveling wave tube as an amplifier in the fundamental mode that the delay line has a normal dispersion, ie that a forward wave propagates in this mode. As is known, the dispersion of a delay line is a property which consists in the fact that the phase velocities of the various partial waves of a wave change with frequency. This change is due to the fact that the phase shift ψ between corresponding points of two successive elementary elements of the delay line with the

ie the propagation speed c in free space to the group speed v _{g of} the wave propagating along the delay line, as a function of the wavelength λ. It is also known that for the operation of a traveling-wave amplifier with a wide pass band, the delay line used must have a low dispersion.

The helical cable meets all the requirements listed so far, but has so far had serious disadvantages afflicted. It generally consists of a helical conductor attached only to both of its ends is attached and as a result cannot dissipate much heat. This accumulated heat causes an expansion, which changes the initial geometry and alignment of the helix and thus the correct operation of the tube disturbs.

The conductor forming the helix can be hollow and a coolant flows through it, but will in this case it is so heavy that it is warped by its own weight. They are also quartz rods has been used to support the helix. However, these are and can easily be damaged in the tube are charged with electrons from the beam, thereby disrupting operation.

According to the invention, the disadvantages mentioned are overcome in that the delay line consists of a

709 656/276

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Helical line and one parallel to the helical line. Dispersion curves have the following size relationships there is an orderly comb line and that at least the following apply (see Fig. 3):

individual turns of the helical cable rigidly on the free 1. X _e lies between X ₁₁ and A ₃ , where A ₃ , the limit

Ends of at least individual teeth of the comb line wavelength of the comb line are attached solely for the π mode device. The 5 arising in the coil in the presence of a thermal energy parallel to the comb line is via the teeth of the support (capacitive) base plate;

kamms discharged. The invention therefore has the advantage that 2. X _e is close to X ₁₁ , but without being associated with it.

probably from the stiffness and the ability of a comb to fall;

line to dissipate a considerable amount of heat, as well as 3. the dispersion curve of the line according to the invention

from certain of a helical line inherent io has a flat and therefore easily usable part shafts, which are particularly suitable for their use in an area between the abscissas X _e and X ₁₁ ;

Broadband amplifiers are important. 4. When operating on a wavelength greater than

Further details of the invention emerge from A ₃ , if the delay line according to the invention is not recommended for the following description of some embodiments, since the influence of the comb line is examples with reference to the drawings. Here, 15 then predominates and the maximum frequency energy always

1 shows, in an oblique view, a delay line according to the invention propagated in the comb part and not in the helix ^; -' will.

2 shows an end view of the delay line according to the formulas for the cut-off wavelengths in the π-mode Fig. 1, ■ - · and the dispersion curve equations show the

Fig. 3 different dispersion curves, 20 drawing between the cutoff wavelengths and the

Fig. 4 shows a modification of the line, different dimensions of the lines, in an oblique view. According to Fig. 1, you can make X _e = X _h if you bet

Fig. 5 to 8 end views of various embodiments ^ / 2
shape the delay line according to the invention, -j = y k _x 1

9 shows a further embodiment in an oblique view, and 25 \ K

Fig. IQ a traveling field amplifier tube, which is an amplifier with the widest possible

delay line according to the invention is equipped. To obtain the passband, the greatest possible inter- In all figures, the same reference numerals are provided for the vall between A ₂ , and X _n . The designation of the helix 11, the teeth 12 and the most favorable compromise between these are used under the back 13 of the comb line. 30 circumstances contradicting demands must then

From Fig. 1 it can be seen that each turn of the are sought.

Helix 11 rigid with a tooth 12 of the comb line, FIGS. 4, 5, 6, 7, 8 and 9 show some exemplary embodiments by brazing. examples of the line according to the invention without this

Fig. 2 shows an element of the delay line after a limitation means.
Fig. 1. 35 In Fig. 4 the helix is flattened, while the helix

Fig. 3 shows the dispersion curves 1, 2 and 3 which, according to Figs. 1 and 2, show a cylindrical interaction on the fundamental wave of the helix alone, 1, which determines the comb space. Fig. 5 shows a according to the line member line alone in the presence of a base plate, the link similar to Fig. 4.

the comb line is parallel and therefore a capacitive Fig. 6 represents a preferred embodiment of the effect has, 2, and the arrangement of comb line 40 represents the delay line according to the invention. and helical cable according to the invention, FIG. dimensions are reduced in that the teeth 12 The dimensions of the angled on which FIG. 3 is based. Harmful couplings of the helix 11 and Order are the following: the back of the ridge 13 do not need to be feared

will. The field prevailing outside the helix is the pitch of the helix and the distance 45 weak, while the field in the comb line is between

the teeth of the comb 3.2 mm is concentrated on the comb teeth. This is all the more true

Length of the teeth of the comb 21.5 mm when the tube is operated at one wavelength,

Outer diameter of the coil .... 12.0 mm which is closer to the limit wavelength X _e.

Wire diameter of the helix 1.5 mm In the line according to FIG. 7 the same elements are

50 as used in FIG. In addition, a metal

The cut -off wavelength X _{n of} the filament is attached solely to the π-Mo strip 14, which has a capacitive effect. dus, ie a mode for which ψ = π , results in This metal strip extends parallel to the comb teeth and forms a kind of base plate, which the electrical

X _h = 2k _i nd. Irish length of these teeth artificially increased, thereby

Here d is the mean diameter of the helix and 55 the shape of the dispersion curve is changed in such a way, A _{1 is} a parameter which depends on the ratio of the wire diameter that the useful bandwidth increases and the drop of the knife to the pitch of the helix depends. The curve value is decreased.

this parameter A ₁ increases from 1 to 1.1 when the ratio of the position of this metal strip with respect to the chamber drops from χ to 0.3. teeth can be made adjustable from the outside,

The cut-off wavelength X _{e of} the 60 according to the invention, for example, with the aid of an arrangement as described in the delay line, which is made up of a helix and a French patent 1,068,468.
line is composed, the teeth of which are uniform

Cross-section and length l is for the π-mode of a damping substance 16 covered strip 15 indicated by the expression. This coating dampens the

65 conduction propagated energy. The attenuation can also

X _e m B ₂ (A ₁ W · d +1 L) , can be achieved in that the comb line wholly or

and here A _{2 is} a coupling factor, the value of which is approximately partially coated with a damping metal.

equals 1.2. This can be done, for example, with the help of a Schoopschen

The experiment shows and the bill confirms that the spray gun has happened. The part 15, 16 then needs

that due to the equations of the various 70 not to be attached.

Claims (1)

5 6 In the manner shown in Fig. 7 or 8 and the acceleration electrode 18. The cooling of the Propagation of the wave within the helix, thus influencing the helix 11 through the comb 12, 13 takes place by means of flows by focusing on the low proportion of high heat conduction. You could also by circulating one frequency energy that runs in the comb line, a coolant can be made, then the is cast. 5 delay line would be designed similar to FIG. 9. Finally, Fig. 9 shows some possibilities, the heat. to improve discharge of the line according to the invention. Examples are by no means limiting the can a cooling liquid 'in the coil 11, which then represents the scope of the invention. So could formed by a hollow conductor of suitable diameter e.g. B. the delay line described in one is, or in the ridge 13 or in the back 13 io other traveling wave tube than shown in Fig. 10, and the teeth 12 of the comb line are used for circulation,
be brought. As you can easily see, the removal of the claims = Filament generated thermal energy through the 1. delay line for traveling wave tubes, supporting comb line greatly improved, so that on this 15 characterized in that the delay line Way a greater energy can be amplified. from a helical cable and a parallel to the helical Finally, some test results are given: line arranged comb line exists and that It became the dispersion curve of at least individual turns of the helical cable according to the invention according to the line with the following dimensions rigidly at the free ends of at least individual taken: 20 teeth of the comb line are attached. Pitch of the helix and distance?. Delay line according to claim 1, characterized of the teeth of the comb line 3.2 mm characterized that the helical scoring is circular Length of the comb teeth 21.5 mm in cross section. Outer diameter of the helix .... 15.0 mm f- delay line according to claim 1 characterized Wire diameter of the helix 1.5 mm ²⁵ marked that the helical line is square or has a rectangular cross-section. A dispersion curve was obtained, the decrease of which in the 4th delay line after one of the previous a frequency band of 500 MHz width in the surrounding claims, characterized in that of 2730 MHz was less than 0.6 per cm. the teeth of the comb line are so curved, According to a modification of the invention, the 30 needs that the helical line in the vicinity of the comb back The number of helical turns is not arranged equal to the number. of the comb teeth, but can be a whole multiple of the 5th delay line after one of the previous the same, with the turns in pairs or to claims, characterized in that three etc. are connected to the comb teeth a metal rod parallel to the comb line in a small amount can. Conversely, the number of comb teeth 35 is arranged at a distance from their teeth and that an integer multiple of the number of helix turns the distance between the metal rod and the teeth represent, whereby each turn can be changed with a tooth on the comb line. is bound while intervening teeth are free. 6. Delay line according to one of claims 1 A practical embodiment of a tube under Ver to 4, characterized in that a rod from the turn of the delay line according to the invention is 40 insulating material parallel to the comb line shown in FIG. 10 to a small extent. It is a wandering distance from their teeth is arranged, which field amplifier with a helical delay on the surface facing the teeth with a line 11, which is carried by a comb line 12, 13 provided attenuating substance.
will. The maximum frequency energy is fed to the line 11 7th delay line according to one of the previous claims via an input 21 and at the output 22 45, characterized in that after amplification by interaction with an electron beam 23 inside the helical conductor or the back of the comb is removed. The electron beam 23 for the passage of a coolant is generated by a cathode 24, which is seen from FIG. a battery 17 is heated. The acceleration of the eighth delay line according to one of claims 1 Electrons happens through an accelerator 30 to 6, characterized in that both inside trode 18, which by means of a battery 19 is positive in front of the helical conductor as well as inside the comb is tensioned. A collecting electrode 20 is in front of a channel for a coolant to flow through the same potential as the delay line is seen. 1 sheet of drawings © 709 656/276 7. 57