DE1095405B - Low-noise transit time tubes for amplifying weak high-frequency signals with at least two high-frequency circuits following each other in the electron beam direction - Google Patents

Description

GERMAN

It is known for time-of-flight tubes, in particular traveling wave tubes, to take measures of various kinds meet the amplified by the inevitable noise modulation of the electron beam To keep interference added to the high frequency signal as small as possible. One of the most common measures is there in applying the principle of noise compensation, which consists in that from the original Smoke modulation of the electron beam, additional noise components can be derived, which is then added again at a suitable point and in a suitable phase position, reducing the noise as much as possible largely compensate.

The invention relates to a low-noise transit time tube for amplifying weak high-frequency signals with at least two successive high-frequency frequencies in the electron beam direction interconnected high-frequency circuits interacting with the electron beam, at which the noise output voltage or ao part of the same one with the electron beam initially interacting high-frequency circuit I the input of the following in the direction of the beam, high-frequency circuit II interacting with the electron beam via a phase shifter is fed. Such a transit time tube is by the Swiss patent specification 301 934 known.

According to the invention, the coupling resistance in the above-mentioned time-of-flight tube is in the direction of the beam following high-frequency circuit II selected to be smaller than the coupling resistance of the high-frequency circuit I.

The ideas on which the invention is based can most easily be illustrated using the example of a traveling-field helical tube explain with two coils that the electron beam traverses one after the other will. Due to the noise current density and noise velocity modulation present in the beam an electromagnetic (noise) noise is generated on the helix first traversed by the beam Wave caused, which reacts in a known way on the beam and its smoke modulation in changed in a predictable manner. This electromagnetic noise wave leading to the generating it Noise modulation is coherent, can be decoupled at the output of the first helix and is used for noise compensation exploited.

The noise compensation according to the invention is based on the following, known facts:

The one at the exit of the first helix or at the entrance of the second helix is already opposite to the original Noise modulation changed noise modulation of the electron beam calls in the second Low-noise transit time tube for amplifying weak high-frequency signals

with at least two in electron beam

direction consecutive

High frequency chains

Applicant:

German Federal Post Office,

represented by the President

the Central Telecommunications Office,

Darmstadt, Rheinstr. 110

Dr.-Ing. habil. Herbert Schnitgex, Darmstadt,

and Dr. rer. nat. Dieter Weber,

Kiilwangen, Zurich (Switzerland),

have been named as inventors

Helix produces a partial noise wave with an exponentially increasing amplitude in a known manner. The initial amplitude this partial wave depends in a calculable way on the amplitude of the noise velocity modulation and the noise current density modulation of the electron beam and of the relative Phasing from. This partial noise wave is predominant at the exit of the second helix; all other Partial noise waves can be neglected, provided that they do not also increase exponentially with increasing Increase the walking distance.

If you give the noise output voltage of the first helix via a phase shifter, e.g. B. in shape a coaxial line of variable length, to the input of the second helix, this noise voltage is called also an exponentially growing partial noise wave emerges on the second helix.

If the amplitude of the first-mentioned partial noise wave is smaller than that of the last-mentioned partial noise wave, then it is by suitably setting the line length and switching in a suitable one Attenuator always possible to make both partial noise waves opposite to the same size, d. H. to compensate practically completely the noise at the output of the second helix.

The high-frequency signal to be amplified can either be at the input of the first helix or via

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a suitable branching piece in the manner of a distance in a certain ratio to the effective one High frequency crossover - the input of the second plasma wavelength. The Helix are fed. In the first case, the electron gun is dimensioned so that in that of Entrance of the second filament through the electron beam supplied together with the ratio of the act the signal modulation of the beam on the one hand 5 maximum to minimum noise velocity and due to the signal output voltage of the first modulation is greater than (under otherwise identical BeWendel on the other hand, also a partial compensation conditions) at one of a usual electron end Signal instead, which is practically in a certain cannon delivered beam. It has proven this Gain loss affects. For this, this means used for noise reduction has so too Order has the advantage of greater simplicity and allows dimensioning that of the various inlicht, at least in principle, the approximation of the coherent noise components of the beam min-minimum value 1 of the noise factor when using at least two approximately equal contributions to the noise factor sufficiently long second helix. In the second deliver power at the output of the tube, while the Only the second helix contributes to the signal amplification of all other components kung at. 15 are considerably smaller (see also German pa-

In many cases it is sufficient to use the traveling wave tube tentschrift 963 014).

with only two one on top of the other in the beam direction - An embodiment of the invention The following delay lines, preferably in a tube, are shown schematically in the figure. The tube Shape of wire coils to be used. This includes a cathode 1, Wehnelt cylinder 2 and Order has the advantage that it is structurally easy to use, especially 20 pre-anode 3 existing electron guns is. generation of the electron beam 4, one after the other

A quantitative study of the relationships, the first delay line 5, through the

now shows that the field-free running space formed as a basic requirement of an intermediate cylinder 6

Noise compensation required condition, where and the second delay line 7 passes before

according to which due to the noise modulation of the beam at 35 it hits the collecting electrode 8. The Ver-

Input of the second helix caused noise delay lines 5 and 7, which in this case the

initial amplitude equal to that caused by the noise shape of wire coils, are opposite

output voltage of the first helix caused each other and against the intermediate cylinder 6 equal-

Noise initial amplitude must be, not isolated in terms of current in all. The ends facing each other

Cases where the first and second helix 30 of the helix 5 and 7 are galvanic with the two

are constructed in the same way, d. H. same coupling rings 9 and 10 connected together with the

have resistance. Intermediate cylinder 6 the linings of two condensate

Since the form of the noise current density modulation of the generator, through which the two coils 5 and 7 beam alone caused initial amplitude are connected to each other at high frequency. In order to make the second helix proportional to the amplification 35 this high-frequency connection of the two measure C, which is as smooth as possible from the noise speed modulus helixes 5 and 7, the amplitude alone caused is proportional within the tubular piston 11, a metal cylinder 12 is C ² However, the above-mentioned basic is provided, which, together with the intermediate cylinder requirement according to the invention, meet the 6 and the two rings 9 and 10 a kod that the coupling resistance K of the second helix 40 axial line run with a practically constant wave is chosen smaller than that of the first helix . forms resistance; the coaxial line is with help

In the case of traveling wave tubes, it has proven advantageous to have the two diaphragms 13 and 14 on the low-reflection

pointed out, the first delay line (I) in a wave impedance of the two coils 5 and 7

Operate working point that fits an electronic. The length of this coaxial line is the-

Attenuation corresponds. In addition, it can also be measured at 45 art that at the entrance of the second helix

a time-of-flight tube according to the invention, in particular (II) the initial amplitude of the partial noise wave which

Traveling wave tube, with space-charge-limited emission due to the output voltage of the first filament (I)

sion of the cathode to reduce the noise, caused by being out of phase with the initial

that at least two different, the reduction amplitude of the partial noise wave, which is caused by the

Means serving for the noise are provided, which produce beam modulation in the second helix (II).

is called out in this way with regard to a noise component im. This length isn't very critical since

opposite sense are brought into effect, the speed of the electrons in the intermediate

that in each case at least one of the means the proportion cylinder 6 by suitable choice of the constant potential

this noise component can be influenced somewhat in the overall noise of the intermediate cylinder 6,

increased, while at least one of the other means 55 This setting option also allows the

this proportion lowers to a much greater extent the desired compensation within a considerable amount

and that doing the same means with respect to an on-frequency band at each desired frequency

whose noise component we adjust in the opposite sense.

ken. For example, in the case of the object of the invention, additional electron-optical measurement conditions, the second filament 7 has a larger diameter than the first filament 5, so that by increasing the number of electrodes the electron coupling resistance K has a lower than that of the gun, the shape of the individual electrodes, the first filament 5.
be chosen appropriately. The high-frequency signal to be amplified is supplied to the beam generating system input 15 of the first filament 5 in such a way that the electron gun takes several high-frequency signals from the output 16 of the tive DC potential opposite the cathode.

Contains borrowed electrodes, at least one of which to avoid feedback and self-part has different potentials and their excitation can 70 in a time-of-flight tube after the

1 095 4üb

Finding the line that connects the output of circuit I with the input of circuit II, means which give the line non-reciprocal transmission properties. Suitable for this ferrites, for example.

Claims (14)

Patent claims: 1. Low-noise transit time tube for amplifying weak high-frequency signals with at least two successive in the electron beam direction, interconnected in terms of high frequencies and high frequency circuits interacting with the electron beam in which the noise output voltage or a Part of the same of a high-frequency circuit initially interacting with the electron beam (I) the input of the high-frequency circuit that follows in the direction of the beam and interacts with the electron beam (II) is supplied via a phase shifter, characterized in that the coupling resistance of the following high-frequency circuit (II) in the direction of the beam is selected to be smaller than that Coupling resistance of the high frequency circuit (I). 2. transit time tube according to claim 1, characterized in that the amplitude of the input of the circuit (II) supplied part of the noise output voltage of the circuit (I) can be regulated. 3. Time tube according to claim 1 or 2, characterized in that a phase shifter Line is used, which connects the output of the circuit (I) with the input of the circuit (II). 4. Time-of-flight tube according to claim 3, characterized in that that the line contains means by which it receives non-reciprocal transmission properties. 5. Time tube according to one of claims 1 to 4, characterized in that the circles (I) and (II) are at different DC potentials with respect to the cathode. 6. Time tube according to one of claims 1 to 5, characterized in that the to be amplified High-frequency signal to the input of one of the first high-frequency circuits (seen in the direction of the beam), is preferably fed to the input of the first high-frequency circuit. 7. transit time tube according to one of claims 1 to 5, characterized in that the to be amplified High-frequency signal, preferably with the interposition of a suitable high-frequency crossover, is fed to the input of the circuit (II). 8. Time tube according to one of the preceding claims, characterized in that as High-frequency circuits only two delay lines (I, II) following one another in the direction of the beam, are preferably used in the form of wire coils. 9. transit time tube according to claim 8, characterized in that between the two delay lines a cylindrical electrode is arranged, which forms a field-free running space for the electron beam, and that its constant potential adjustable with respect to the cathode independently of the DC potential of the delay lines is. 10. time tube according to claim 9, characterized in that the cylindrical electrode designed in such a way, in particular provided with additional coupling elements, that over them the Noise output voltage of the delay line (I) to the input of the delay line (II) is transmitted. 11. Time tube according to claim 8 or one of the following, characterized in that the gain (C) of the delay line (I) is greater than that of the delay line (II). 12. Time tube according to claim 5 and 8, characterized in that at least one of the used delay lines, preferably the delay line (I), a wave field with a pronounced axial periodic structure and that the speed of the electron beam is about as great as the phase velocity of one of those components of this wave field, its group velocity has the opposite direction than the phase velocity (reverse wave operation). 13. transit time tube according to claim 8, characterized in that the delay line (I) is operated at an operating point that corresponds to electronic damping. 14. Time-of-flight tube according to one of the preceding claims with space-charge-limited emission the cathode, characterized in that at least two different ones, the reduction means for serving the noise are provided which are of such a nature with regard to a noise component be brought into effect in the opposite sense that in each case at least one of the means the proportion of this noise component in the total noise increased somewhat, while at least one the other means lower this proportion to a much greater extent and that thereby the the same means act in the opposite sense with regard to another noise component. Considered publications:
Swiss Patent No. 301 934;
French Patent No. 972,679;
"IRE Transactions on Electron Devices", December 1954, p. 255. 1 sheet of drawings