US1679449A - Gaseous-conduction apparatus - Google Patents

Gaseous-conduction apparatus Download PDF

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Publication number
US1679449A
US1679449A US198398A US19839827A US1679449A US 1679449 A US1679449 A US 1679449A US 198398 A US198398 A US 198398A US 19839827 A US19839827 A US 19839827A US 1679449 A US1679449 A US 1679449A
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cathode
gaseous
anode
electrode
conduction apparatus
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US198398A
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Charles G Smith
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Raytheon Co
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Raytheon Co
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J17/00Gas-filled discharge tubes with solid cathode
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J2893/00Discharge tubes and lamps
    • H01J2893/0064Tubes with cold main electrodes (including cold cathodes)

Definitions

  • the present invention relates to electrical apparatus and in particular to unilateral conduction devices which employ a confined bod of as as carrier for the space current.
  • i erosion of this member is most pronounced in devices which depend upn gas, usually of the monatomic group for conduction, operating on the ionization principle, and is caused in part by reverse current tending to substitute the normal function of one electrode, specifically the cathode, for that of the other.
  • the primary object of my invention is to provide space current apparatus having relatively long'life'.
  • a more specific object is to improve certain of the elements within the tube with a view towards minimizing erosion of electrode material under conditions of heavy ion bombardment and other deleteri ous effects.
  • This type of rectifier employs an envelope 1 which may be formed of glass, a hollow cathode 2 of tantalum or other refractory material, anode 3, insulating thimbles 4 preferably of lavite and a base compyrising metal- 5 he cylinder 5, secured by suite le compound 1987.
  • Serial No. 188,888 is an envelope 1 which may be formed of glass, a hollow cathode 2 of tantalum or other refractory material, anode 3, insulating thimbles 4 preferably of lavite and a base compyrising metal- 5 he cylinder 5, secured by suite le compound 1987.
  • Serial No. 188,888 Serial No. 188,888.
  • the anodes are mounted in openings in members 4 concentrically with projections 8 and openings 9 in the cathode.
  • the cathode is preferably formed in two parts, the upper part comprising a conic'ally shaped element and the lower part 10 a cover fitting the'open end of the cone.
  • a portion of each thimble 4. is spaced from the anodes a distance materially less than the mean free path of the electrons present and serves to prevent the passage of current between either anode and the outer surface of the cathode. Ionization is thus confined to the space enclosed by the cone, i. e. the region adjacent to the inner surface of the cathode.
  • the active portion of the cathode may coat with a substance as alkali, earth alkali or combination of the two, to increase emission.
  • the substance may be conveniently applied in the form of a nitrate,
  • the cylindrical members 4 contain circular recesses 11 adjacent to-the-openings 9 to prevent or reduce to a negligible factor the tendency of current to flow between cathode and either anode along the surface of insulation.
  • the openings 9 are of such size as to provide 1 space between the cathode and operating anodes, comparable to or slightly less than the mean free path of electrons within the region of the cathode. While the cathode may be supported solelyby cylindrical members 4:, I prefer partly to depend for support" on the centrally located cathode lead 12 v which is joined electrically to one of the connector plugs.
  • a gaseous discharge rectifier containing helium a hollow cathode having an opening therein, another electrode presented to the interior of the cathode through said opening, said other electrode comprising tantalum.

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Description

Aug. 7, 1928.
C. G. SMITH GASEOUS CONDUCTI ON APPARATUS Filed June 13, 192'! rmmlau v, 192s.
UNITED STATE a 1,679,449 PATENT OFFICE.
m G. SIITH, OI miI'ORD, IASSACKUSETTS, ASSIGN OR TO RAYTEEON INCQOI' CAIBBIDGI, IASSACHUSETTS, A CORPORATION OF MASSACHUSETTS.
GASEOUS-CONDUCTION APPARATUS.
Application filed June 18,
The present invention relates to electrical apparatus and in particular to unilateral conduction devices which employ a confined bod of as as carrier for the space current.
5 N otwit standing the fact that the tube art in general has reacheda high state of development, there still remains instances of tube failure and short life due frequently to disintegration of material forming the electrodes. Indeed, with the improvements heretofore offered in the art of evacuation and sealing, the roblem of tube life now centers almost entirely about the stability of electrodes, particularly the anode. The
i erosion of this member is most pronounced in devices which depend upn gas, usually of the monatomic group for conduction, operating on the ionization principle, and is caused in part by reverse current tending to substitute the normal function of one electrode, specifically the cathode, for that of the other.
While there are many factors involved, of more or less importance, I found the greatest improvement in securing commercially long electrode life to reside inthe relation of gas filling and anode material, more especially in a specific combination of these elements. a
The primary object of my invention is to provide space current apparatus having relatively long'life'. A more specific object is to improve certain of the elements within the tube with a view towards minimizing erosion of electrode material under conditions of heavy ion bombardment and other deleteri ous effects. With these and other objects in view, reference should now be had to the following description which, when read in connection with the accompanying drawing, represents one embodiment of the present invention. While my invention has application to all space current apparatus, in the interests of clearness, I propose to exemplify the subject matter by referring to a specific form of rectifier; thus in the figure there is shown a space current device similar to that in the Smith Patent No. 1,617,179 and the Jenks application Serial No. 752,867.
This type of rectifier employs an envelope 1 which may be formed of glass, a hollow cathode 2 of tantalum or other refractory material, anode 3, insulating thimbles 4 preferably of lavite and a base compyrising metal- 5 he cylinder 5, secured by suite le compound 1987. Serial No. 188,888.
projections and held'in position by cathode 2. The anodes are mounted in openings in members 4 concentrically with projections 8 and openings 9 in the cathode. The cathode is preferably formed in two parts, the upper part comprising a conic'ally shaped element and the lower part 10 a cover fitting the'open end of the cone. A portion of each thimble 4. is spaced from the anodes a distance materially less than the mean free path of the electrons present and serves to prevent the passage of current between either anode and the outer surface of the cathode. Ionization is thus confined to the space enclosed by the cone, i. e. the region adjacent to the inner surface of the cathode. In order to minimize the internal losses of the device I may coat the active portion of the cathode with a substance as alkali, earth alkali or combination of the two, to increase emission. If desired, the substance may be conveniently applied in the form of a nitrate,
successively heating the cathode, e. g. by a hydrogen flame, to high temperature (e. g.
above 1000 centigrade) and spraying the solution onto the cathode as disclosed and claimed in the application of P. L. Spencer,
Serial No. 183,045. A number of coats may be applied in this manner until the alkali substance permeates and alloys with the metal of the cathode giving a lasting effect by way of low work function. The cylindrical members 4 contain circular recesses 11 adjacent to-the-openings 9 to prevent or reduce to a negligible factor the tendency of current to flow between cathode and either anode along the surface of insulation. The openings 9 are of such size as to provide 1 space between the cathode and operating anodes, comparable to or slightly less than the mean free path of electrons within the region of the cathode. While the cathode may be supported solelyby cylindrical members 4:, I prefer partly to depend for support" on the centrally located cathode lead 12 v which is joined electrically to one of the connector plugs.
Now, whereas in the patent and application supra, it was stated that the preferred gas of the monatomic group was helium under the pressure of several millimeters and that the anodes could be satisfactorily made of many refractory conductors, it was found in practice that when immersed in helium, these metals ofi'er a widevariation of disintegrational effects at the anode under similar conditions of operation. In this connection I have discovered one outstanding example giving an electrode life nearly ten times that of the nearest combination; I have reference to the use of tantalum for anode material in a helium filling such as mentioned which arrangement appears to cooperate in an unusual, unforeseen and inexplicable'manner'to minimize electrical disassociation at the positive mem her. It was further verified that the remarkable behavior between these substances is quite independent of the shape, size and type of apparatus, the superiority of operation bein accentuated under low gas pressure and high voltage,'a condition particularly harmful toother combinations. When utilizing tantalum for anode material in an atmosphere of helium one may substantially decrease the gas pressure and increase applied potential over the orders ofmagnitude now commonly employed in the art without fear of materially shortening the life of the apparatus through electrode failure. The preferred pressure of gas may be of the limitations are to. be imposed on my invention as defined by the following clainis except as may be necessary in view ofprior a,
I claim: a
1. In a aseous discharge apparatus of the type. escribed containing helium, an anode, a cathode operatively associated therewith, said anode comprising tantalum.
2. A gaseous discharge rectifier containing helium, a hollow cathode having an opening therein, another electrode presented to the interior of the cathode through said opening, said other electrode comprising tantalum.
Signed by me at Cambridge, Massachusetts, this 6th day of J uzie, 1927.
CHARLES G. SMITH.
US198398A 1927-06-13 1927-06-13 Gaseous-conduction apparatus Expired - Lifetime US1679449A (en)

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2592556A (en) * 1947-09-25 1952-04-15 Kenneth J Germeshausen Gaseous-discharge device
US2948607A (en) * 1957-10-25 1960-08-09 Union Carbide Corp Tantalum-titanium getter element
US3086137A (en) * 1958-11-14 1963-04-16 Eicken Henri Getter arrangement for reducing cathode-anode capacity
US3211940A (en) * 1960-12-29 1965-10-12 Gen Electric Triggered spark gap
US3453201A (en) * 1965-10-05 1969-07-01 Asahi Chemical Ind Polarity reversing electrode units and electrical switching means therefor

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2592556A (en) * 1947-09-25 1952-04-15 Kenneth J Germeshausen Gaseous-discharge device
US2948607A (en) * 1957-10-25 1960-08-09 Union Carbide Corp Tantalum-titanium getter element
US3086137A (en) * 1958-11-14 1963-04-16 Eicken Henri Getter arrangement for reducing cathode-anode capacity
US3211940A (en) * 1960-12-29 1965-10-12 Gen Electric Triggered spark gap
US3453201A (en) * 1965-10-05 1969-07-01 Asahi Chemical Ind Polarity reversing electrode units and electrical switching means therefor

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