DE969565C - Device for monitoring the vibrations generated by an ultra-short wave generator with a cavity resonator - Google Patents

Description

(WiGBl. P. 175)

ISSUED JUNE 19, 1958

B 4506 Villa / 21 a *

(Ges. Of July 15, 1951)

The invention relates to devices for monitoring, controlling or displaying the vibrations an ultrashort wave generator containing a cavity resonator, preferably of the decimeter or centimeter wavelength region. The generator, in particular the electron tube generator, can be a transmitter for emitting ultrashort waves or an oscillator for generation of · auxiliary fluctuations in overlay reception (preferably with external overlay). In particular, the invention extends to automatic maintenance of the frequency generated by a generator with a cavity resonator Vibrations.

Such arrangements have been proposed. According to the older proposal the device can be designed in such a way that two oscillation circles are used as an aid, one of which is a little below and the other a little above the target frequency of the generator to be monitored has natural frequency, such that in the event of deviations the frequency of the generator from the nominal frequency depending on the direction of the deviation (downwards

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or above) through one or the other oscillation circuit (after rectification of the Schwin gungen) directional voltages are generated, which are now used to automatically adjust the frequency of the generator due to the setpoint frequency. These auxiliary oscillation circuits can consist of cavity resonators exist. In order to supply the two auxiliary cavity resonators with vibrations from the cavity resonator of the generator, one must ίο suitable coupling between this cavity resonator and the two auxiliary cavity resonators be provided. According to the older proposal, such a coupling is that each of the auxiliary cavity resonators is coupled to a radiator which is produced by the generator or whose radiator can absorb generated vibrations.

The subject of the invention is such a device, which of two opposite the cavity resonator of the generator makes use of oppositely detuned auxiliary cavity resonators, which are connected to the cavity resonator of the Generator are coupled radiation-tight via coupling slots. This type of coupling is permitted in a simple manner a well-defined, in particular sufficiently loose coupling with a simple one Feasibility of the entire arrangement.

According to the invention, the device is made so that with the cavity resonator of the Generator or a cavity in communication with this two opposite the cavity resonator of the generator oppositely detuned auxiliary cavity resonators coupled in this way are that their field spaces at the location of voltage nodes (current bellies) to each other coupling cavities through coupling slots, which are perpendicular with their larger extension to the direction of the surface currents of the cavities to be coupled to each other extend into the Walls of the metal surfaces delimiting them are impervious to radiation with the cavity feeding them are related and that from them those used for monitoring, control or display Auxiliary voltages can be derived. Between the coupling slot of an auxiliary cavity resonator and the coupling slot of the cavity to be coupled to the auxiliary cavity resonators an intermediate element (e.g. in the form of a waveguide with a rectangular cross-section) can be switched on be. The intermediate member should in any case be designed to be impervious to radiation, d. i.e., it should be designed that way one that it in turn does not radiate to the outside; it must therefore be matched with a suitable one Provided a shield or in a corresponding manner as a piece of a concentric power line or a waveguide. Preferably, however, according to the invention the field spaces of the two cavities to be coupled to one another through the coupling slots directly connected to each other in such a way that part of the caused by the oscillation of the generator caused surface current flows over the edges of the coupling slots and thereby causes the excitation of the auxiliary cavity resonator. To ensure a sufficiently loose coupling of the Auxiliary cavity resonators are achieved in the preferred embodiment of the invention the auxiliary cavity resonators are not coupled directly to the cavity resonator of the generator, but to a cavity, which in turn is coupled to the cavity resonator of the generator is, either directly or with the interposition of a further cavity. Particularly beneficial it is when a so-called tuning cavity is connected to the cavity resonator of the generator, this tuning cavity is coupled to a further cavity and the latter Cavity is now used to couple the auxiliary cavity resonators. The tuning cavity has in itself the purpose, the frequency of the vibrations generated by the generator in certain Set or change limits. (The cavity of the resonator, the tuning cavity and the cavity coupled to it represent a structure that goes through on all sides to the outside Metal surfaces are shielded so that any undesired radiation [radiation loss] is avoided is.)

There is a current coupling between the auxiliary cavity resonator and the cavity coupled to it (due to the surface flow), it is advisable to design the coupling slots in such a way that that their larger dimensions are perpendicular to the direction of the surface current extend. In the direction of the surface flow, the coupling slots expediently have an extension which is small compared to its extent in the direction perpendicular to it. Advantageous the coupling slots are located in voltage nodes (current bulges) of each other to be coupled cavities.

As such, arrangements are known for other purposes which make use of apertures or openings for coupling power lines with cavities. A known arrangement connects, for example, a power line without an inner conductor with a cavity resonator of the same diameter lying in its extension via a circular, centrally located perforated diaphragm. This can be changed in diameter in the manner of the well-known iris no diaphragms of the optics. The waves running in the line stimulate the cavity resonator through the diaphragm with appropriate coordination to standing waves, ie to natural vibrations, which are fed to an amplifier, for example, which feeds the continuation of the energy line via a similarly constructed cavity resonator and a second perforated diaphragm. Another known arrangement for adjusting the terminating resistors article to absorb a power line with the purpose of the said energy, separates various possible in the power line waveforms from each other by correspondingly arranged column in the outer casing of the power line and \ ^r arious setting of the associated waste

tuning piston in the extension of the line or the branch lines adjoining the column. The known arrangements are not used for monitoring or adjusting the frequency of a Ultra-short wave transmitter.

In order to have particularly easily overlooked ratios and the natural frequency of the auxiliary cavity resonators To be able to calculate as precisely as possible in advance, it is furthermore advantageous that

ίο each auxiliary cavity made of a concentric Lecher line exists, which is closed at its ends by metal surfaces or galvanically is short-circuited and therefore has voltage nodes at its ends. The coupling slot is advantageously provided in the end plate at one end of the auxiliary cavity resonator. The cavity to be coupled to the auxiliary cavity resonator also expediently has the shape a concentric Lecher line, which is connected at one end by an end plate (from Metal) is closed or galvanically short-circuited, which carries the coupling slot. To achieve the desired coupling of the auxiliary cavity resonator, the two facing end plates of the two cavities directly attached to one another, and in such a way that the two coupling slots coincide. Are the coupling slots in the end plates of one or two more concentric Lecher lines are provided, so they expediently extend with their larger dimensions perpendicular to the radius of the concentric Lecher line.

The coupling according to the invention enables a loose but well-defined coupling to be achieved, which is also radiation-proof. Since a very loose coupling can be achieved, the inventive Coupling can be used particularly advantageously when it comes to the To couple auxiliary cavity resonators to the cavity resonator of the generator, that the reaction between the cavities is largely avoided and therefore z. B. the natural frequency of the auxiliary cavity resonators can be changed without causing a Change in frequency or amplitude of the generator is associated. You can then vice versa also changes z. B. the tuning of the HAlraumresoniators of the generator does not affect the natural frequency affect the auxiliary cavity resonators.

There must now be the possibility that through

the vibrations of the auxiliary cavity resonators a display or control device is operated, which is expediently done by rectifying the vibrations of the auxiliary cavity resonators and the directional voltages thus obtained in turn on the display or control device act. Here, too, the coupling to the auxiliary cavity resonators is as loose as possible desirable so that the coupling does not reduce the natural frequency of the auxiliary cavity resonators is changed in a significant way. According to the invention, this creates a favorable arrangement achieved that in the field space each cavity resonator expediently in place of one A stick or a pin dips into the tension belly like an antenna. This chopstick is through a small hole opening, matched to the diameter of the rod, through the wall of each of the Auxiliary cavity resonators passed through and so immersed on the one hand in the field space of each auxiliary cavity resonator a, in the direction of the electric field lines of the concentric double line; A rectifier arrangement can then be connected to the other end of the rod for the purpose of extraction the mentioned directional voltage must be connected.

The inventive coupling of the auxiliary cavity resonators can be particularly advantageous Way to be used to bring frequency changes of the generator to the display or an automatic maintenance of the frequency of the vibrations generated by the generator to effect. For this purpose, according to a development of the invention, the two Auxiliary room resonators, especially in form provided by concentric Lecher lines and the natural frequency of these is selected or set in such a way that that the one a little below, the other a little above the nominal frequency of the generator lies. The obtained from the vibrations of the two auxiliary cavity resonators by rectification nenen directional voltages or those from both directional voltages The resulting reverse stresses can then act on a display instrument or / and at the same time to influence a frequency-determining variable of the generator in the way serve that in the event of a frequency change of the generator automatically a return to the setpoint frequency same occurs.

In order to be able to produce a more or less firm coupling, the antenna-like Pins which protrude into the field space of each auxiliary cavity resonator are adjustable be so that they are pushed more or less deep into the field space of the auxiliary cavity resonator can be. In many cases it is also advantageous to make the device so that the Coupling slots can be changed or adjusted with regard to their dimensions in order to respond to them Way change the coupling between the two cavities brought about by the coupling slots to be able to. For example, the coupling slots can be used as adjustable diaphragms for this purpose be trained.

In the arrangements according to the invention with the two auxiliary cavity resonators for the purpose of maintaining a constant frequency can advantageously equally sized auxiliary cavity resonators, for. B. two equally sized concentric Lecher lines of length λ / 2 can be used and the desired tuning of the two auxiliary cavity resonators to different natural frequencies are made with the help of displacement bodies that dip into the field space of the resonator. By changing the position of the displacement

movement body (ζ. Β. by moving) can then convert the natural frequency of each resonator into the desired, very small limits can be changed. With a concentric Lecher line is under a displacement body, a body with good electrical conductivity, in particular on its surface to understand, which is located in the field space between the inner conductor and outer conductor and on both sides is surrounded by the dielectric, but ίο at most between the one conductor and the displacement body ordered a capacitive short circuit. When displaying changes in frequency or / and the automatic maintenance of the frequency dier generated by a generator Vibrations is made here so that the device that the natural frequencies of the two Auxiliary cavity resonators are chosen or adjusted so that the one a little below that other is slightly above the nominal frequency of the generator and that from the vibrations of the two auxiliary cavity resonators obtained by rectification (Fig. 1 c) or the resultant act on a display instrument and / or to influence a frequency-determining variable of the generator are used in such a way that when the frequency changes of the generator automatically returns to the setpoint frequency of the same. A desired Amplification of the directional voltages can in particular be brought about by a suitable Conversion of the directional voltages into alternating voltages takes place, which then after amplification can be converted back into directional voltages.

About the influence of temperature changes on the natural frequency of the two of the constant or to keep the display of the frequency serving cavities as small as possible, the Walls of these cavities made of a material with the smallest thermal expansion; for example made of metal alloys or quartz or ceramic materials with very low coefficients of thermal expansion. The surfaces of these materials are expediently copper-plated or silver-plated in order to ensure good electrical conductivity to obtain. Means can also be used to compensate for the temperature changes Changes in length of these cavities can be provided. The auxiliary cavity resonators are im Device expediently arranged in such a way that no or only very little heating during operation occurs due to the power loss occurring in the device. Also the auxiliary cavity resonators arranged in one or a common thermostat to keep the temperature constant be.

The specified measures according to the invention can be applied wherever there is is about monitoring vibrations generated by a generator. It can be in particular also to be generators for generating auxiliary vibrations, so z. B. how already mentioned, an oscillator for internal or (in particular) external heterodyne reception. Furthermore, it can be, for. B. a generator for generating pendulum frequency oscillations Act.

First and foremost, the subject of the invention for self-excited generators into consideration to the Monitor the frequency of the vibrations generated by such generators. However, the The subject of the invention is also used in externally controlled transmitters or high-frequency amplifiers find e.g. B. in such a way that the frequency of the control transmitter is kept constant. Further it is within the scope of the invention to display the amplitudes of the generated by a generator Perform vibrations by, for example, occurring in the auxiliary cavity resonators Vibrations are rectified and the rectified vibrations in a measuring instrument get to the display. Depending on these rectified voltages, then an automatic retuning of oscillating circuits can be carried out, e.g. B. at a main transmitter whose control transmitter is monitored, for example, with regard to its frequency. As regards the tuning cavity mentioned, the following applies in particular understand: The cavity resonator of the tube has an energy conduction through which it is connected to his End is completed and which serves to connect the cavity resonator with the radiator. A further one, practically on all sides from elekgs, is connected to the energy line mentioned trically conductive surfaces limited space, the dimensions of which z. B. are adjustable or whose natural frequency can be changed by a displacement body. This is the tuning cavity. An energy line now leads from this tuning cavity to the radiator. For a more detailed explanation of the subject matter of the invention be on the embodiment of the invention shown schematically in the figures referenced, the structural design should not be the subject of the invention.

In Fig. Ι a, 1 denotes the ultra-short wave generator, and 2 denotes its Ahstimmholilraum, which is used to fine-tune the generator frequency. The concentric power line 3 leading to the consumer (radiator) is coupled to this tuning cavity. This power line is terminated at its end by the end plate 4. The two cavity resonators 5 and 6, which are used to keep the generator frequency constant or to display the generator frequency, are the "auxiliary cavity resonators". In the illustrated embodiment, they are formed by two equally dimensioned concentric power lines which have a length of XJ2 and are terminated or galvanically short-circuited at both ends by end plates 7 and f or 8 and 8 '(made of metal). The auxiliary cavity resonators 5, 6 (Fig. 1b) are attached with their end plates 7, 8 directly to the end plate 4 of the power line 3. In the end walls 7 and 8 of the hollow

Coupling slots 11 and 12 are provided in spaces 5 and 6. The end plate 4 of the power line 3 is, as Fig. 1 b shows in more detail, also provided with the Kopphmgsschlitzen 11 and 12 accordingly and with these coincident slot-shaped openings. Part of the surface current of the power line 3 running over the end plate 4 flows through the coupling slots 11 and 12 over the walls of the cavity 6 and 6 and causes them to be excited (current coupling by the surface current). The dimensions of the slots and their position in the path and with respect to the direction of the surface flow determine the strength of the excitation of the two cavities 5 and 6. The antennas 15 and 16, which protrude little into the cavities 5 and 6 (isolated) and each consist of a rod or pin exist and cause a voltage coupling, the anodes 17 and 18 of a receiving duo diode 13 are connected. If the length of the cavities corresponds to λ / 2 (λ is the operating wavelength), then the two antennas are expediently arranged in the middle (at the point of a tension bulge) of the cavities 5> 6. The cathode of the dual diode 13, which rectifies the vibrations occurring in the cavities 5 and 6, is denoted by 14. In Fig. Ic a rectifier arrangement according to the invention is shown. In the anode lines of the two rectifier circuits, the external resistors 19 and 20 are arranged, at which the rectified oscillating currents - directional currents - occur proportional directional voltages. These are used to readjust (frequency readjustment) the generator to the setpoint frequency. Differences in the characteristics of the two rectifier sections are largely avoided by using a duo diode (instead of two individual diodes). Any differences in characteristic curves that may still exist can also be conveniently compensated for by using a single external resistor with an adjustable tap point for the cathode return line. The high-frequency chokes 21, 22 block the rectifier circuits for high-frequency oscillations and in this case are upstream of the common external resistance.

If the frequency of the generator is f ₀ , then the natural frequency of the cavity 5 is adjusted to a value f _{1 just above / 0} and that of the cavity 6 to a value / _{2 just below ^ 0} with the aid of the displacement bodies 9 and 10. Accordingly, the displacement body 9, 10 have a z. B. Different position around Ax. In Fig. 2 is the course of the resonance curves of the two. Auxiliary cavity resonators 5 and 6 are shown. Advantageously, the cavities 5 and 6 are dimensioned and coordinated so that, as Fig. 2 shows, the frequency at the intersection of the two resonance curves 23 and 24 is equal to the nominal frequency f _{0 of} the generator and that the intersection of the resonance curves 23 and 24 is close to lies at the turning points of this curve; that is, the distance between the two frequencies Z ₁ and f ₂ should be (essentially) equal to the half-width of the resonance curve. The control accuracy is then greatest. In a preferred embodiment of the invention, the cavities 5 and 6 and their displacement bodies 9 and 10 are dimensioned so that the frequency curves of both cavities in the utilized working area are as straight lines as possible with the same inclination, so that the frequency distance Af once a fixed stroke A χ over is constant over the entire working area. _{If the setpoint frequency ^ 0 is} maintained by the ultrashort wave generator 1, then, as can be seen from Fig. 2, the directional currents flowing through the external resistors 19 and 20 are equal to ^1; these currents cause the external resistors 19 and 20 to have the same but opposite directional voltages. The resulting rectified voltage is then zero. However, if the generator frequency deviates from its setpoint for any reason, then different values result for the directional currents / of the two rectifier circuits according to Fig. 2; the resulting rectified voltage is then not equal to zero.

In Fig. 3 the course of the resulting rectified voltage U occurring at the external resistors 19 and 20 is shown. It is zero when the frequency of the generator is equal to its setpoint / ₀ . The resulting rectified voltage is positive if the generator frequency deviates from the frequency in one sense and is negative if the generator frequency deviates in the other sense. The resulting voltage U now influences a variable which determines the frequency of the generator and / or a frequency display instrument.

In most cases, as has already been noted above, the directional currents or directional voltages are to directly influence the generator or the display instrument, and it is therefore reinforcement is necessary. Since these are direct currents or direct voltages with reversal of sign the usual AC amplifiers are not applicable, but the normal DC amplifier. However, the directional currents through an interrupter device transformed, then the usual multi-stage AC amplifiers can also be used. In the output circuit of the amplifier are rectifiers, z. B. dry rectifier used for Reconversion of the amplified voltage into a direct voltage serve to provide in their common Cathode return is an interrupter device that is synchronous with that in the output circuit arranged interrupter device runs and which the amplified directional currents each according to its polarity to one of two resistors, on which then the rectified Vibration currents proportional voltages of a suitable size occur.

These resistors can also be the tripping coils of two relays, which for example

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depending on the polarity, a motor for the Nachstknmung of the frequency-determining organ of the Control generator. The mechanical breaker device for chopping up the directional voltages is expediently replaced by a grid side Overdriven electron tube, which emits rectangular voltage pulses in the anode circuit. These are now in the single or multi-stage AC voltage amplifier reinforced. In its output circuit there are two synchronously controlled electron tubes instead of the two rectifiers and the mechanical interrupter device, which the rectified and amplified directional voltages give rise to the load resistances or supply relay coils.

Ankoppking according to the invention that of keeping constant or the display of the generator frequency serving cavities to the generator cavity or the generator tuning cavity can · in transmitting, receiving or amplifier systems They are used regardless of whether the generators are braking field, magnetron or feedback circuits exhibit. The devices according to the invention are particularly advantageous in connection with those already proposed Cavity resonator generators are used, especially when these generators are used in Brake field switching can be operated.

An embodiment of the subject matter of the invention consists in the fact that the auxiliary cavity resonators and the cavity to which they are connected of the coupling slots to be coupled are arranged so that the axes of the concentric Lecher lines run parallel to each other and the auxiliary cavity resonators with their End plates on the end plate of the cavity, to which they are coupled are attached. Such an embodiment is in the Fig. Ι a and 1 b shown. However, it does exist the possibility of attaching the coupling slots in a different way and accordingly to arrange the cavities to be coupled to one another. For example, the Kopphiingsschlitze in a stress node (or in the vicinity thereof) in the lateral surface of the Outer conductor of the concentric power line. The two auxiliary cavity resonators are then to be arranged so that their coupling slot with the corresponding coupling slot of the Outer conductor of the cavity to be coupled in Cover is coming. The cavity to be coupled then expediently contains the two coupling slots at diametrically opposite points on the outer conductor. Here, the auxiliary cavity resonators also be arranged so that their axes are parallel to the axis of the cavity or the concentric power line to which they are to be coupled. Instead of this but can also z. B. the device can be made so that the auxiliary cavity resonators the coupling slot is in the jacket surface of the outer conductor (in a voltage node), the coupling slots of the concentric power line to which the auxiliary cavity resonators are coupled are to be, however, are attached to the end plate 4. The two auxiliary high-volume resonators can then be arranged so that their axes correspond to the concentric power line to which they are coupled should run. So you have it in your hand with the cavities to be coupled with one another or concentric power lines, the coupling slots either in the end plate or in the surface of the outer conductor of the concentric Laying energy lines. The specified measures can be applied accordingly find, if the cavities are not formed by concentric Lecher lines, but have a different shape and, for example, made of waveguides (tubular power lines without a center conductor with a circular or rectangular cross-section).

Claims (22)

PATENT CLAIMS: i. Device for monitoring, controlling or displaying the vibrations of a one Ultra-short wave generator containing cavity resonator, in particular the decimeter or Centimeter wave area, characterized in that with the cavity resonator (1) of the generator or one with this in Connection standing cavity two opposite the cavity resonator of the generator oppositely detuned auxiliary cavity resonators (5, 6) are coupled such that their Field spaces · at the location of voltage nodes (current bulges) of those to be coupled with one another Cavities through coupling slots (11, 12), which with their larger extension extend perpendicular to the direction of the surface currents of the cavities to be coupled with one another, in the walls of the metal surfaces delimiting them in a radiation-tight manner with the they are connected to the feeding cavity and that from them the monitoring, Control or display used auxiliary voltages can be derived. 2. Device according to claim 1, characterized in that that the coupling slots in the direction of the surface currents have an extension that is small compared to their extension is in the direction perpendicular thereto. 3. Device according to claim 1 or 2, characterized in that each of the auxiliary cavity resonators consists of a concentric Lecher line, which is closed at its ends by metal surfaces (discs) or is galvanically short-circuited and the length of which is expediently half a wavelength. 4. Device according to claim 3, characterized ge ^ indicates that the cavity to which each auxiliary cavity resonator is coupled from consists of a concentric Lecher line, which is connected to the auxiliary space resonators facing end through a metallic table (Pane) closed or galvanically short-circuited is, and that on this Metallfläohe (4) the auxiliary cavity resonators with one their end surfaces (7, 8) are attached and the coupling slots in the end surfaces (7, 8, 4) (n, 12) are located. 5. Device according to claim 1 or one of the following, characterized in that as Auxiliary cavity resonators Waveguides (tubular power lines without center conductor with circular or rectangular cross-section). 6. Device according to claim 1 or one dier following, characterized in that the coupling slots are adjustable or adjustable are so that their dimensions can be changed. 7. Device according to claim 1 or one of the following, characterized in that each auxiliary cavity resonator is tunable, preferably by means of a displacement body (9) while maintaining its dimensions. 8. Device according to claim 1 or one of the following, characterized in that the Cavity to which the auxiliary cavity resonators are coupled, via a further than Fine tuning means for the generator serving cavity is coupled to the generator. 9. Device according to claim 1 or one the following, characterized in that for the extraction of vibration energy from the Auxiliary cavity resonators for the purpose of supplying a display or control device from outside into the field space of each auxiliary cavity resonator, expediently at the point of a tension belly, a rod or pin protrudes (slightly) like an antenna. 10. Device according to claim 1 or one the following, characterized by the use in electron tube assemblies, in which the (frequency-determining) cavity resonator is the fanning electrodes at least partially contains or the stimulating electron flow on a part surrounds her way. 11. Device according to claim 1 or one the following, characterized in that from the vibrations of the two auxiliary cavity resonators Directional voltages obtained by rectification (Fig. ic) or the resultant on a display instrument act and / or to influence a frequency-determining variable of the generator serve in such a way that when the frequency of the generator changes automatically, a feedback occurs at the target frequency of the same. 12. Device according to claim 1 or one of the following, characterized in that the auxiliary high-volume resonators are dimensioned so that their resonance curves have as straight lines as possible in the utilized work area are at least almost the same inclination. 13. Device according to claim 11 or 12, characterized in that the distance between the natural frequencies (Z ₁ , / ₂ ) of the two auxiliary cavity resonators is equal to the half-width of their resonance curve. 14. Device according to claim 1 or one the following, characterized in that to rectify the oscillating currents two auxiliary cavity resonators a duo-diode (13) with a cathode is used, whose both anodes with one antenna each (15, 16) are connected, which immerse little in the field spaces of the two auxiliary cavity resonators. 15. Device according to claim 1 or one the following, characterized in that for balancing the two rectifier currents only one external resistor with an adjustable tap point is provided. 16. Device according to claim 1 or one the following, characterized in that to amplify the directional currents or the directional voltages a single or multi-stage DC amplifier is used. 17. Device according to claim 1 or one of the following, characterized in that the directional currents or directional voltages are preferably by an interrupter device (preferably working with a grid-controlled tube) converted into alternating current by single or multi-stage alternating current amplifiers amplified and via one in the output circuit <of the amplifier, synchronous with the im Exciter circuit running interruption device depending on polarity one of two external resistances are fed. 18. Device according to claim 1 or one of the following, characterized in that the possibly increased directional currents or Riohtspannungen directly the frequency-determining variables of the generator, z. B. a Adjust the tuning cavity or, in the case of the generator's braking field circuit, the braking field voltage, that the generator frequency is brought back to the nominal frequency by this change will. 19. Device according to claim 1 or one of the following, characterized in that the possibly increased directional currents or Direct voltages control an organ (motor) that has a tuning device (tuning cavity) of the generator adjusted in such a way that the frequency deviations of the generator just to be compensated. 20. Device according to claim 1 or one of the following, characterized in that the auxiliary cavity resonators are made of materials iao very low thermal expansion or means for compensating for the changes in length caused by changes in temperature the cavity resonators are provided. 21. Device according to claim 1 or one the following, characterized in that each of the auxiliary high-volume resonators are arranged in the device in such a way that none or only a very small amount of heating caused by the power loss. 22. Device according to claim ι or one the following, characterized in that each of the auxiliary cavity resonators are arranged in a thermostat. Considered publications:
German patent specifications No. 501 967, 697 473, 850155; French Patent No. 843 966; U.S. Patent Nos. 2,041,855, 2,106,776; »ATM«, Z 634-10 (delivery 204, pp. 19 to 22); "Journal for Technical Physics", 1937, issue 9, p.267 / 268. 1 sheet of drawings ® 809 545/37 6.58