US2411535A - High-frequency electron discharge apparatus - Google Patents

High-frequency electron discharge apparatus Download PDF

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US2411535A
US2411535A US445505A US44550542A US2411535A US 2411535 A US2411535 A US 2411535A US 445505 A US445505 A US 445505A US 44550542 A US44550542 A US 44550542A US 2411535 A US2411535 A US 2411535A
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gap
discharge apparatus
electron
electron discharge
gaps
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US445505A
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Fremlin John Heaver
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STC PLC
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Standard Telephone and Cables PLC
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J25/00Transit-time tubes, e.g. klystrons, travelling-wave tubes, magnetrons
    • H01J25/02Tubes with electron stream modulated in velocity or density in a modulator zone and thereafter giving up energy in an inducing zone, the zones being associated with one or more resonators
    • H01J25/06Tubes having only one resonator, without reflection of the electron stream, and in which the modulation produced in the modulator zone is mainly velocity modulation, e.g. Lüdi-Klystron
    • H01J25/08Tubes having only one resonator, without reflection of the electron stream, and in which the modulation produced in the modulator zone is mainly velocity modulation, e.g. Lüdi-Klystron with electron stream perpendicular to the axis of the resonator

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  • This invention relates to electron discharge apparatus for operation at very high frequencies and particularly to such apparatus of the electron-velocity modulation type.
  • Electron discharge tubes working by means of velocity modulation usually suiier from one of two practical disadvantages.
  • they may embody two separate resonant circuits, loosely coupled together, or secondly, they may comprise a single resonator or two resonators very closely coupled together.
  • Velocity modulation it is possible to use a low amplitude Velocity modulation and hence to avoid. the loss of 'efnoiency produced by a wide velocity variation in the modulated beam, but it is necessary that the separate circuits should be very accurately tuned to each other. This, of course, leads to serious practical difficulties in sealed-oil? tubes.
  • the tuning presents no difiiculty but on account of the close coupling the modulating and working voltage amplitudes are very close together and hence there is a wide velocity spread in the modulated beam and consequent loss of efficiency.
  • shielding means is associated with the first gap for the purpose of reducing the intensity of the oscillating field therein.
  • an electron discharge apparatus of the electron-velocity modulated type comprising as a resonator a short length of concentric conductor line having aligned diametric slots or apertures in 6 Claims. (01. 250-275) the outer and inner tubular conductor members forming successive gaps which are adapted to be traversed in turn by an electron beam, the first or modulating gap is partially screened by a pair of shields which are respectively attached to or form part of the outer and inner conductor members.
  • the length of the drift space can be nearly doubled for the same bunching effect and, if losses of electrons to the walls are not seriously increased a very considerable gain in efficiency will result.
  • Fig. 1 is a vertical section of a tube according to the invention
  • Fig. 2 is a section taken on the line 2-2 of Fig. 1
  • Fig. 3 is a horizontal section through the apparatus taken on the line 33 of Fig. 1.
  • the modulating gap between fins l and 2 is partially screened by a pair of rectangular section shields 6 and 7 which are respectively attached to or form I part of the tubes II and I2 which project beyond the ends of the fins I, 2 but leave a free path for the electron beam.
  • the optimum value of n may be 2, 3 or any desired integral value with a consequent increase in efiiciency. It will usually be found that the best value for n is 2 or 3 as greater values will begin to lead to electron losses of a serious nature and the advantage to be I 3 gained by an increase of n from 3 to 4 is extremely small compared with that gained by the increase from 1 to 2.
  • An electron discharge apparatus comprising cavity resonator means having a first gap for modulating the velocity of electrons and a second gap for yielding energy to the resonator means, means for generating an electron beam and positioned for directing it through said gaps and to said gaps and screening means applied to the first gap for reducing the intensity of the oscillating field therein.
  • An electron discharge apparatus for operation at high frequencies comprising cavity resonator means provided with a first gap for modulating electron velocity and a second gap aligned with said first gap, means for generating an electron beam and positioned for directing it through said gaps, and metallic shielding means surrounding said first gap and electrically connected to said resonator means.
  • An electron discharge apparatus for operation at high frequencies comprising cavity resonator means the walls of which are provided with slots forming two aligned gaps of which one serves to modulate electron velocity and the other to yield energy to the resonator, means for generating an electron beam and positioned for directing it through said gaps, fins attached to the edges of slots at each end of the modulating gap defining the length of said modulating gap, and two metallic shields respectively surrounding and spaced from the fins at each end of the modulating gap for screening said gap.
  • Electron discharge apparatus of th electron velocity modulated type comprising resonator means including a short length of concentric conductor line comprising outer and inner tubular conductor members, diametric aligned slots in the said outer and inner conductor members having edges defining first and second gaps, means for generating an electron beam and positioned for directing it through said slots and across said aps, and metallic shielding means surrounding said first gap and electrically connected to said resonator means.
  • Electron discharge apparatus of the electron velocity modulated type comprising resonator means including a short length of concentric conductor line comprising outer and inner tubular conductor members, diametric aligned slots in the said outer and inner conductor members having edges defining first and second gaps, means for generating an electron beam and positioned for directing it through said slots and across said gaps, and two metallic shielding members surrounding said first gap and respectively attached to said outer and inner tubular conductor meme bers.
  • Electron discharge apparatus of the electron velocity modulated type comprising resonator means including a short length of concentric conductor line comprising outer and inner tubular conductor members, diametric aligned slots in the said outer and inner conductor members forming first and second gaps, means for generating an electron beam and positioned for directing it through said slots and across said gaps, fins attached to the edges of the slots forming said first gap for defining the effective length of said first gap, and shielding members surrounding and spaced from said fins and projecting beyond the ends of said fins into the space between said outer and inner tubular conductor members.

Description

Nov. 26, 1946. J. H. FREMLIN HIGH FREQUENCY ELECTRON DISCHARGE APPARATUS Filed June 2, 1942 CESZ F ig.2
Patented Nov. 26, 1946 UNlTED STATES EHGH-FBEQUENCY ELECTRONDISCHARGE.
, APPARATUS v John Heaver Fremlin,Lnd0n W. C. 2, England, assignor to Standard. Telephones and Cables Limited, London, England, a. British company Application June 2, 1942, Serial No. 445,505
In Great Britain August2, 1940 This invention relates to electron discharge apparatus for operation at very high frequencies and particularly to such apparatus of the electron-velocity modulation type.
Electron discharge tubes working by means of velocity modulation usually suiier from one of two practical disadvantages.
Firstly, they may embody two separate resonant circuits, loosely coupled together, or secondly, they may comprise a single resonator or two resonators very closely coupled together. In the first case it is possible to use a low amplitude Velocity modulation and hence to avoid. the loss of 'efnoiency produced by a wide velocity variation in the modulated beam, but it is necessary that the separate circuits should be very accurately tuned to each other. This, of course, leads to serious practical difficulties in sealed-oil? tubes.
In the second case the tuning presents no difiiculty but on account of the close coupling the modulating and working voltage amplitudes are very close together and hence there is a wide velocity spread in the modulated beam and consequent loss of efficiency.
By the present invention the advantages of both types may be obtained simultaneously.
According to the invention, in an electron discharge apparatus comprising a single resonator or a pair of resonators and electrodes for directing an electron beam through two successive gaps therein so that the electrons are modulated in velocity in the first gap and yield energy at the second gap for the maintenance of oscillations in the resonator or resonators, shielding means is associated with the first gap for the purpose of reducing the intensity of the oscillating field therein.
\According to another aspect of the invention, in an electron discharge apparatus of the electron-velocity modulated type comprising as a resonator a short length of concentric conductor line having aligned diametric slots or apertures in 6 Claims. (01. 250-275) the outer and inner tubular conductor members forming successive gaps which are adapted to be traversed in turn by an electron beam, the first or modulating gap is partially screened by a pair of shields which are respectively attached to or form part of the outer and inner conductor members.
If the efiect of the electromagnetic oscillation, for example, is halved the length of the drift space can be nearly doubled for the same bunching effect and, if losses of electrons to the walls are not seriously increased a very considerable gain in efficiency will result.
In the accompanying drawing which illustrates one embodiment of the invention, Fig. 1 is a vertical section of a tube according to the invention, Fig. 2 is a section taken on the line 2-2 of Fig. 1, and Fig. 3 is a horizontal section through the apparatus taken on the line 33 of Fig. 1.
In the drawing the invention shown as applied to an osciliator tube of the kind described in my United States Patent No. 2,320,860, issued June 1, 1943, in which the resonator comprises a short length of concentric line consisting of conductive cylinders it and I2. Fins i and 2 form the first or modulating gap in which the beam is velocity modulate-d. Space 3 is the drift space wherein the electron beam is bunched. Fins 4 and 5 limit the working gap where energy is extracted from the bunched beam. 8 is a cathode and 9 is a slotted electrode which may serve as a modulating grid. it! is a collector anode. In the tube described in the patent referred to, th same high frequency potential difference exists across both gaps, viz. the modulating gap and the working gap. According to the present invention, the modulating gap between fins l and 2 is partially screened by a pair of rectangular section shields 6 and 7 which are respectively attached to or form I part of the tubes II and I2 which project beyond the ends of the fins I, 2 but leave a free path for the electron beam.
According to the properties of electrical apparatus adapted for use at very high frequencies th main displacement current will flow across the capacity between B and l and little current will flow along the inside of these screens to the fins l and 2. The effective oscillating field in the gap |--2 is then less than would be the case in the absence of the screens 6 and 1 for a given amplitude across the working gap 4-5, and depends, among other things, upon the capacity between I and 2, the capacity between I and 6 and that between 2 and 1. As before, the operating direct voltage must for oscillation be of such a value that the transit time of the electrons in the drift space 3 is cycles, since the phase relations of the two gaps are to a first approximation unchanged by the existence of the screens. Whereas, however, in
q the unshielded case the optimum value for n is 1,
according to the present method the optimum value of n may be 2, 3 or any desired integral value with a consequent increase in efiiciency. It will usually be found that the best value for n is 2 or 3 as greater values will begin to lead to electron losses of a serious nature and the advantage to be I 3 gained by an increase of n from 3 to 4 is extremely small compared with that gained by the increase from 1 to 2.
t is, of course, clear that the invention could equally well be applied to circular beams 01 to closely coupled circuits of any form as well as to the concentric line resonator which has been chosen purely as an example. The invention consists in the principle of shielding the first gap rather than to the exact method used. This might well be done by replacing the fins l, 2 and the screens 6, 1 by a pair of solid structures of suitable shape and which may be more conveniently constructed than the separate fins and screens.
What is claimed is:
1. An electron discharge apparatus comprising cavity resonator means having a first gap for modulating the velocity of electrons and a second gap for yielding energy to the resonator means, means for generating an electron beam and positioned for directing it through said gaps and to said gaps and screening means applied to the first gap for reducing the intensity of the oscillating field therein.
2'. An electron discharge apparatus for operation at high frequencies comprising cavity resonator means provided with a first gap for modulating electron velocity and a second gap aligned with said first gap, means for generating an electron beam and positioned for directing it through said gaps, and metallic shielding means surrounding said first gap and electrically connected to said resonator means.
3. An electron discharge apparatus for operation at high frequencies comprising cavity resonator means the walls of which are provided with slots forming two aligned gaps of which one serves to modulate electron velocity and the other to yield energy to the resonator, means for generating an electron beam and positioned for directing it through said gaps, fins attached to the edges of slots at each end of the modulating gap defining the length of said modulating gap, and two metallic shields respectively surrounding and spaced from the fins at each end of the modulating gap for screening said gap.
4. Electron discharge apparatus of th electron velocity modulated type comprising resonator means including a short length of concentric conductor line comprising outer and inner tubular conductor members, diametric aligned slots in the said outer and inner conductor members having edges defining first and second gaps, means for generating an electron beam and positioned for directing it through said slots and across said aps, and metallic shielding means surrounding said first gap and electrically connected to said resonator means. i
5. Electron discharge apparatus of the electron velocity modulated type comprising resonator means including a short length of concentric conductor line comprising outer and inner tubular conductor members, diametric aligned slots in the said outer and inner conductor members having edges defining first and second gaps, means for generating an electron beam and positioned for directing it through said slots and across said gaps, and two metallic shielding members surrounding said first gap and respectively attached to said outer and inner tubular conductor meme bers.
6. Electron discharge apparatus of the electron velocity modulated type comprising resonator means including a short length of concentric conductor line comprising outer and inner tubular conductor members, diametric aligned slots in the said outer and inner conductor members forming first and second gaps, means for generating an electron beam and positioned for directing it through said slots and across said gaps, fins attached to the edges of the slots forming said first gap for defining the effective length of said first gap, and shielding members surrounding and spaced from said fins and projecting beyond the ends of said fins into the space between said outer and inner tubular conductor members.
JOHN HEAVER FREMLIN.
US445505A 1940-08-02 1942-06-02 High-frequency electron discharge apparatus Expired - Lifetime US2411535A (en)

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GB12517/40A GB577005A (en) 1940-08-02 1940-08-02 Improvements in or relating to high frequency electron discharge apparatus

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GB (1) GB577005A (en)

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2485661A (en) * 1942-05-08 1949-10-25 Int Standard Electric Corp Oscillation generator of the velocity modulation type
US2548567A (en) * 1943-09-03 1951-04-10 Hartford Nat Bank & Trust Co Magnetron oscillator
US2556881A (en) * 1950-05-24 1951-06-12 Gen Electric Negative attenuation amplifier discharge device
US2773214A (en) * 1951-02-17 1956-12-04 Jean P Voge Velocity modulation tubes
US2818519A (en) * 1953-11-13 1957-12-31 Telefunken Gmbh Cathode-ray tube
US2932762A (en) * 1957-09-11 1960-04-12 Sylvania Electric Prod Distributed microwave amplifier
US3076117A (en) * 1959-04-27 1963-01-29 Gen Electric Parametric energy converter
US3116435A (en) * 1959-07-28 1963-12-31 Eitel Mccullough Inc Velocity modulation tube
US3230413A (en) * 1961-02-27 1966-01-18 Varian Associates Coaxial cavity slow wave structure with negative mutual inductive coupling

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2485661A (en) * 1942-05-08 1949-10-25 Int Standard Electric Corp Oscillation generator of the velocity modulation type
US2548567A (en) * 1943-09-03 1951-04-10 Hartford Nat Bank & Trust Co Magnetron oscillator
US2556881A (en) * 1950-05-24 1951-06-12 Gen Electric Negative attenuation amplifier discharge device
US2773214A (en) * 1951-02-17 1956-12-04 Jean P Voge Velocity modulation tubes
US2818519A (en) * 1953-11-13 1957-12-31 Telefunken Gmbh Cathode-ray tube
US2932762A (en) * 1957-09-11 1960-04-12 Sylvania Electric Prod Distributed microwave amplifier
US3076117A (en) * 1959-04-27 1963-01-29 Gen Electric Parametric energy converter
US3116435A (en) * 1959-07-28 1963-12-31 Eitel Mccullough Inc Velocity modulation tube
US3230413A (en) * 1961-02-27 1966-01-18 Varian Associates Coaxial cavity slow wave structure with negative mutual inductive coupling

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Publication number Publication date
ES173174A1 (en) 1946-05-16
GB577005A (en) 1946-05-01
FR932826A (en) 1948-04-02
BE469836A (en)

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