US1962196A - High frequency oscillator - Google Patents

High frequency oscillator Download PDF

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Publication number
US1962196A
US1962196A US474258A US47425830A US1962196A US 1962196 A US1962196 A US 1962196A US 474258 A US474258 A US 474258A US 47425830 A US47425830 A US 47425830A US 1962196 A US1962196 A US 1962196A
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Prior art keywords
frequency
grid
cathode
anode
electrodes
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US474258A
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English (en)
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Hollmann Hans Erich
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AT&T Corp
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American Telephone and Telegraph Co Inc
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J25/00Transit-time tubes, e.g. klystrons, travelling-wave tubes, magnetrons
    • H01J25/68Tubes specially designed to act as oscillator with positive grid and retarding field, e.g. for Barkhausen-Kurz oscillators
    • HELECTRICITY
    • H03ELECTRONIC CIRCUITRY
    • H03BGENERATION OF OSCILLATIONS, DIRECTLY OR BY FREQUENCY-CHANGING, BY CIRCUITS EMPLOYING ACTIVE ELEMENTS WHICH OPERATE IN A NON-SWITCHING MANNER; GENERATION OF NOISE BY SUCH CIRCUITS
    • H03B9/00Generation of oscillations using transit-time effects
    • H03B9/01Generation of oscillations using transit-time effects using discharge tubes
    • H03B9/02Generation of oscillations using transit-time effects using discharge tubes using a retarding-field tube

Definitions

  • My invention relates to electronic oscillators and more particularly to oscillators of the type which operate according to what is known in the literature of the art as the Barkhausen-Kurz or it braking fieldK method for generating ultrahigh frequency electrical oscillations.
  • a detailed analysis of this method is given in Zeitschrift fitr Physik, vol. 2l, No. l of 1920, in an article by Barkhausen 8i Kurz, and also more recently in an article by the inventor of the present application appearing in the Proceedings of the Institute of Radio Engineers, vol. 17, No. 2, of February 1929.
  • This method differs considerably from the customary methods used in practice for generating high frequency oscillations by means of vacuum tubes, using regenerative arrangements.
  • the period of the oscillations generated is dependent principally on the operating voltage applied to the electrodes and the distance of the electrodes from each other. This is basically distinct from the regenerative-circuits as commonly used in the radio art for producing oscillations and according to which the natural discharge oscillations of an oscillatory circuit are maintained at a constant amplitude by a feed-back arrangement from the oscillatory circuit associated with the output of a vacuum tube, to the input or control circuit of such tube.
  • Another object of my invention is to provide means in connection with an oscillator of the type referred to, whereby an oscillating circuit, preferably a two-wire system coupled with the oscillator, is excited in a rhythm corresponding to a multiple of the frequency of the fundamental electron oscillations.
  • an oscillating circuit preferably a two-wire system coupled with the oscillator
  • Another object of my invention is to provide means in connection with an oscillator of' the type referred to whereby an oscillating system, preferably a two-wire system, tuned to a multiple frequency of the fundamental oscillation frequency is acted upon only during a fraction of one half cycle of the fundamental frequency.
  • an oscillating system preferably a two-wire system
  • Another object of my invention ls to provide a vacuum tube adapted for the production of ultra high frequency oscillations according to the principle referred to, in which the electron oscillations take place under control of two grid electrodes arranged in the path of the electronic discharge.
  • Fig. 1 I-have shown for purposes of illustration and better understanding a simple circuit arrangement for producing electron oscillations, in accordance with the principle referred to.
  • Fig. 2 is a similar circuit to Fig. 1, according to which an oscillating two wire system' is associated with the oscillator tube for purposes ofpractical utilization ol the oscillations, such as for radiation for signalling purposes.
  • Figs. 4 to inclusive Fig. 9 illustrate a number of examples oi' improved circuits in which the novel feature of my present invention is embodied.
  • the cathode is maintained at electron emitting temperature by means of a, heating battery En.
  • a positive potential in respect to the cathode is applied to the grid electrode g by means oi' a grid biasing battery Eg.
  • the anode may be directly connected to the cathode or may be given a negative potential in respect to the cathode. for which purpose I have shown an. anode biasing battery En in connection with a potentiometer r.
  • Fig. 2 I have shown a circuit arrangement identical to that in Fig. 1 together with an oscillating two wire or Lecher wire system l connected tc the anode and grid electrode and bridged by a, displaceable condenser C of comparatively large capacity.
  • a circuit arrangement identical to that in Fig. 1 together with an oscillating two wire or Lecher wire system l connected tc the anode and grid electrode and bridged by a, displaceable condenser C of comparatively large capacity.
  • l an oscillating two wire or Lecher wire system l connected tc the anode and grid electrode and bridged by a, displaceable condenser C of comparatively large capacity.
  • a standing wave will be pro- ⁇ quizd whose wave length may directly be measured by means of a neon tube, which will light up at the anti-nodal points of the standing wave.
  • open wires l' are connected to both armatures of the condenser C and serve for radiating the energy into space, as is well known in the art.
  • Fig. 3 I have shown another tube which has been found to be very suitable for the production of oscillations of the type in question.
  • This tube includes two cathodes, c, c', respectively, arranged opposite each other, and a grid electrode g between the cathodes. 1 have shown the cathodes heated by separate heating batteries En and E'n. It is to be understood that a common heating battery may be provided for both cathodes.
  • the grid electrode is given a positive potential with respect to the cathodes in a Way similar to Fig. 1, by means of a grid battery Eg, and the two-wire oscillating system l is connected to the grid and one of the cathode electrodes.
  • this tube electrons emitted by one of the two cathodes and passing through the grid towards the remaining cathode affect the space discharge about this cathode and thus perform a control of the discharge current, and maintain the oscillations.
  • FIG. 4 differs from Fig. 2 essentially in that two grid electrodes are provided between the cathode and the 'anode in lieu of one grid electrode, as -shown by Figs. 1 or 2.' These two grid electrodes. are both connected to the same or approximately ythe same positive potential, whereas the anode or braking electrode may be directly connected with the cathode or may be given a negative potential with respect to the cathode, as by means of an anode battery Ea and -f potentiometer r.
  • the oscillating system Z is tuned to this latter frequency, an impulse will be given to it, by the electrons leaving the cathode in one direction.
  • the oscillating system will be without influence and will then receive a second impulse in the opposite direction during the return of the electrons after their reversion at the braking or anode electrode. In this manner the oscillating condition is maintained.
  • this phenomenon is equivalent to a kind of impulse or shock excitation, whereby the frequency is determined by the transit of the electrons from one grid to the other, which is a multiple of the free fundamental frequency of. the electron movement.
  • the order of the multiple frequency to which the wire system is tuned must at least be equal to the order of the fraction of the fundamental oscillating period during which fraction the wire system is excited, or expressed in other terms, the multiple frequency to which the wire system connected to the grid electrodes is tuned, must at least be equal to the ratio of the time of transit of the electrons over the entire oscillating distance to their time of transit between the grid electrodes (.r).
  • a separate oscillating system may be connected between each of the grids and the adjacent cathode or anode, respectively, such as is shown in Fig. 5, in which the two oscillating systems are distinguished 115 from each other by indexes l and 2, respectively.
  • the natural frequency of the 120 oscillating system l does not correspond exactly to the frequency n', determined by the time of transit of the electrons from one grid to the other, but is slightly greater than this frequency, a reaction will take place of the alternating voltages induced on the electrodes upon the interelectrode electron movement, whereby the exciting frequency n. gradually merges into the natural frequency of the oscillating system.
  • This phenomenon which has been termed as frequency feed back or frequency reaction, is described in more detail in my copending application filed June 20, 1929, Serial No. 372,406.
  • a circuit by which the frequency determined by the time of transit of the electrons from one grid to the other may be increased first by a frequency feed back on the fundamental frequency n of the electron movement, and secondly by a further frequency feed back on the higher frequency n', determined by the time of transit between the two grid electrodes.
  • a first oscillating system l1 is connected to the grid g and the anode a and is tuned to a frequency above the fundamental frequency of the electron movements within the space between cathode and anode (distance rc). In this manner a frequency rise of the fundamental frequency takes place, which means a proportional frequency rise in the impulse system la.
  • Fig. 7 this is analogous to Fig. 4, from which it differs merely in that a tube with two cathode electrodes is used instead of an ordinary tube, such as has been explained in connection with Fig. 3.
  • I have furthermore shown in Fig. 7 potentiometer r' for applying different or slightly different positive potential to each of th grid electrodes by means of a potentiometer associated with the grid battery Eg.
  • Fig. t this is essentially equivalent to Fig. 5 in that two oscillatory systems l; and I2, are provided, each one being connected to one oi the cathodes and the adjacent grid elec trede.
  • I have also provided a potentiometer 1" for adjusting different grid potentials, as well as choke coils di', for preventing the high frequency currents from entering into the grid battery.
  • Fig. 9 I have illustrated a further circuit similar to Fig. 8, which has been found to operate favorably and raccording to which oscillating systems are connected between eachof the grid electrodes and the cathode separated therefrom by the remaining grid electrode.
  • the control of the counter move ments of the electronic discharges from both cathodes is performed in a favorable manner.
  • both oi' the grid electrodes i. e. the ratio of the free spaces of the grid to the solid parts of the same
  • a condition will be reached, at which the electrons passing through one grid will not travel through the second grid, but will impinge upon the same or will be forced to return by the electrons emitted from the other cathode and entering the space between the two grids, in such a manner, that a pendular movement of the electrons between both of the grids is entertained.
  • This effect may be favorably influenced by suitable tuning of the oscillating system, in which case the alternating voltages induced on the two grid elecirodes are enabled to perform a control of the pendulum movement of theelectrons between both of the grid electrodes.
  • a vacuum tube means to produce an oscillating electron discharge within said tube at ultrahigh frequency whereby the electron stream reciprocates its movement in opposite direction, at least two grid electrodes arranged in alignment in the path of said discharge, and a two-wire oscillating system connected to said grid electrodes and tuned to a frequency being a definite muliple of the frequency of oscillation of said discharge, said grid electrodes being spaced apart by a distance which is a fractional part of the length of the path of the oscillating electron discharge, that said wire system is excited during a fraction only of the period of oscillation of said discharge whereby Locales said fraction is at least equal to the order of said definite multiple.
  • a vacuum tube two main electrodes within said tube, means to produce a reciprocating high frequency movement of electrons between said main electrodes, at least two further grid electrodes arranged between said main electrodes, a two wire oscillating system connected to said grid electrodes and tuned io a multiple frequency of the fundamental frequency of said electron movement, whereby ⁇ the distance of said grid electrodes is such that the time of transit of the electrons from one grid to the other is equal to a fracional part of one half-cycle of the fundamental period of oscillaion of one reciprocating electron mov ment, saidI fraction being at least of the order of said multiple frequency in respect to said fundamental period of oscillaion.
  • a vacuum tube I having cathode, anode and at least two grid electrodes, means to apply a positive potential to said grid electrodes in respect to said cathode and said anode, io produce a high frequency to and fro-movement of electrons about said electrodes, mit and an oscillating two wire system connected to said grid electrodes tuned to a multiple frequency in respect to the fundamental frequency of said electron io and fro movement.
  • a vacuum tube 105,-' having a cathode, an anode and at least two grid electrodes arranged in alignment between said cathode and said anode, means to apply a posi tive potential to said grid electrodes with respect to said anode and said c..thode, a two-wire tuning 11i system connected to said grid electrodes with a displaceable bridging condenser for said two-wire tuning system for adius'fing the tuning thereof.
  • a vacuum tube having cathode, anode and at least two grid electrcdes, means to apply a positive potential to said grid electrodes in respect to said cathode, to produce a high frequency to and fro movement of electrons about said grid electrodes, a two wire oscillating system. connected to said grid electrodes, a.' displaceable bridging condenser for tuning said system to a multiple frequency in respect to the fundamental frequency of said electron movement, whereby the order oi.' said multiple frequency is at least equal to the ratio of the time of transit of the electrons over the oscillating distance to the time of. transit from one of said grid electrodes to the other of said grid electrodes.
  • an electronic oscillator comprising a vacuum tube, having two cathodes, arranged opposite each other and at leasttwo grid electrodes disposed between said cathodes, and an oscillating two wire system connected to said grid electrodes.
  • an electronic oscillator comprising a vac'- uum tube having two cathodes arranged opposite each other, at least two grid electrodes disposed intermedate said cathodes, means to apply a positive potential to said grid electrodes in respect to said cathodes, for producing a high frequency to and irok movement of electrons about said grid electrodes, and a two wire oscillating system connected to said grid electrodes.
  • a vacuous container having a cathode, an anode and two impedancey control elements located along the path between said cathode and anode, means for impressing a high positive potential with respect to said cathode upon each of said impedance elements, and means for impressing upon said anode a potential at least as negative as that of said cathode, the separation of said control elements being substantially less than that of said cathode and anode whereby an electron in transit experiences two reactions at instants which are separated by a fraction of the time required for the full transit.
  • An oscillator comprising anvevacuated container having a cathode, an anode and a plurality of impedance control elements positioned between said cathode and anode, means for bringing said anode to a potential which is negative with respect to that of said cathode, means for bringing said control elements to respective potentials which are highly positive relative to that of said cathode whereby said oscillator is adapted to produce oscillations of the Barkhausen Kurz type and differently tuned oscillation circuits connected to said control elements, one of said oscillation circuits being tuned to a frequency higher than that of the Barkhausen oscillations normally corresponding to said impressed potentials and the spacing between the cathode and anode and the other of said oscillation circuits being tuned to a frequency higher than that of the natural oscillation frequency of the mst recited oscillation circuit.
  • An electron oscillator comprising an evacuated container, a cathode, a second electrode, a path connecting said cathode and said electrode including means for maintaining said second electrode at a potential at least as negative asv that of said cathode, two impedance control elements physically separated and located between said cathode and second electrode, means for impressing highly positiva potentials with respect to said cathode upon said impedance control elements, an oscillation circuit connected between said cathode and the impedance element more remote therefrom and a second oscillation circuit connected between said second electrode and the other impedance element, one of said oscillation circuits being tuned to substantially a multiple of the fundamental frequency component of the oscillations produced.
  • An oscillator ⁇ comprising an evacuated container including a cathode, an anode and two separated grids located therebetween, means for rendering said anode negative and said grids highly positive with respect to said cathode, a Lecher wire oscillation circuit connected to said two grids, and means for tuning said Lecher wire system.

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US474258A 1929-08-13 1930-08-09 High frequency oscillator Expired - Lifetime US1962196A (en)

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DE360063T 1929-08-13

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US (1) US1962196A (enrdf_load_stackoverflow)
FR (1) FR714405A (enrdf_load_stackoverflow)
GB (1) GB360063A (enrdf_load_stackoverflow)
NL (1) NL34793C (enrdf_load_stackoverflow)

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Publication number Priority date Publication date Assignee Title
DE744620C (de) * 1933-12-17 1944-01-21 Julius Pintsch Kom Ges Elektronenroehre zum Anfachen von ultrakurzen Wellen

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FR714405A (fr) 1931-11-13
GB360063A (enrdf_load_stackoverflow) 1931-11-05

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