US2069814A - Electric discharge device - Google Patents

Electric discharge device Download PDF

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US2069814A
US2069814A US482427A US48242730A US2069814A US 2069814 A US2069814 A US 2069814A US 482427 A US482427 A US 482427A US 48242730 A US48242730 A US 48242730A US 2069814 A US2069814 A US 2069814A
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cathode
anode
grid
electric discharge
discharge device
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US482427A
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Donald S Bond
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AT&T Corp
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Bell Telephone Laboratories Inc
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J17/00Gas-filled discharge tubes with solid cathode
    • H01J17/50Thermionic-cathode tubes
    • H01J17/52Thermionic-cathode tubes with one cathode and one anode
    • H01J17/54Thermionic-cathode tubes with one cathode and one anode having one or more control electrodes
    • H01J17/56Thermionic-cathode tubes with one cathode and one anode having one or more control electrodes for preventing and then permitting ignition, but thereafter having no control

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  • This invention relates to electric discharge de vices and more particularly to gaseous discharge devices employing an electron emitting cathode.
  • the initiation of the electron discharge between the cathode and the anode may be controlled by the grid potential.
  • the grid potential For iiistance, for each anode potential there is a corre sponding value of grid bias or potential above which the device will not break down, that is, no discharge between the cathode and the anode may occur.
  • the grid After the initiation of the discharge the grid normally loses control so that the device may be utilized as a trigger valve, for example, to operate a relay when the input and consequently the grid potential reaches a predetermined value.
  • the ratio of anode potential to grid potential at the critical or breakdown point approaches a constant for large values of these potentials and is commonly termed the control ratio or amplification factor of the device.
  • the amplification factor depends almost entirely upon the largest effective opening in the grid structure and it is, of course, desirable that this factor be accurately known and determinable.
  • An object of this invention therefore is to enable the accurate determination of the amplification factor in three-electrode gaseous discharge devices.
  • Another object of this invention is to increase the efficiency and the power capacity of threeelectrode gaseous discharge devices.
  • the discharge device comprises a cathode capable of emitting electrons when heated, an anode adjacent the cathode and a control electrode or grid having a portion interposed between the cathode and anode.
  • the cathode and grid are supported from a stem of the enclosing vessel and the anode is supported by a leading-in wire sealed in the vessel.
  • the enclosing vessel is filled with an inert gas such as argon at low pressure, or a filling of mercury injected into the vessel.
  • Mercury is preferably employed since it has a low vapor pressure and further increases the power capacity of the device.
  • the cathode comprises a folded ribbon having an alkaline earth oxide coating the turns of which are closely spaced with respect to one another to increase the heat conductivity therebetween and thereby to decrease the input power required to heat the cathode to the desired temperature.
  • the edges of the folds of the oathode are preferably substantially parallel to the base of the anode so that a large electron emitting surface is presented to the anode and a uniform discharge of relatively high intensity is made possible.
  • a control electrode or grid completely encases the cathode on all sides and comprises a hollow metallic member having a portion between the anode and cathode perforated.
  • the amplification factor is dependent upon the largest effective opening in the grid or control electrode, the total effective area of the apertures in the perforated portion is made greater than the effective area of the central aperture in the other end portion.
  • the electric discharge device of this invention comprises an enclosing vessel it having a hollow reentrant stem H in which a central evacuating tubulature i2 is sealed.
  • the vessel It is cemented or otherwise suitably attached to an insulatory base 33 carrying terminal pins M.
  • the rods l5 are attached to the ends of the cathode it through intermediate relatively thin links I9, likewise preferably of nickel, welded to the ends of the cathode i8 and the rods H5.
  • the links it become heated during the operation of the device and serve to increase the thermal efficiency of the cathode.
  • the cathode I8 in a preferred embodiment may take the form of a relatively wide nickel ribbon coated with alkaline earth oxides, such as barium and strontium oxides, folded to form a zig-zag or accordion pleated electrode, the turns of which are closely adjacent one another to increase the heat conductivity therebetween and thereby to maintain the temperature of the cathode constant and uniform.
  • the cathode I8 is supported at its center through an intermediate link 20 by a rigid metallic rod 2i embedded in the press I6 to the cathode l8, formed preferably of nickel.
  • the control electrode is supported by a plurality v and serving 'to prevent sagging of the center por tion of the cathode and to maintain the anode at substantially right angles to the stem ll. This construction provides a cathode having a large electron emitting surface to supply a largeelec tron flow to the anode.
  • a dome shaped anode 22, preferably of carbonized nickel, is supportedwith its base parallel to the edges of the folds of cathode [8 by a rigid leading-in wire 23 sealed in the tip of the vessel l 0 and connected to a metallic cap 24 cemented to the vessel It! which serves as the external terminal for the anode 22.
  • a control electrode or grid surrounds the oath ode l8 and comprises a'cylindrical portion 25 and two flanged disc end portions 25 and 21 parallel of rods 28 welded to the end portion 21 and to a split metallic collar 29 clamped about the stem II.
  • a leading-in Wire 30 for the grid is sealed in the side of the stem H, welded to the collar 29,
  • the end portion 21 of the grid is provided with an elongated aperture 3i to allow passage of the rods l5 and 2
  • the end portion 26 also provides a barrier betweenthe cathode l8'and the anode 22 and serves to focus the discharge between these electrodes. Furthermore, since the grid completely surrounds the cathode i8 on all sides, it forms a heat reflecting shield and thereby increases the thermal efiiciency of the cathode.
  • An annular grooved ring 33 carries a vaporizable'material such as magnesium, to absorb residual gases after the final evacuation of the device is completed and is mounted on a wire 34 welded to a metallic band 35'afiixed to the collar 29.
  • an electric discharge device of, relatively small dimensions and constructed in accordance with my invention may be used with anode potentials in excess of 6000 volts and a discharge current of the order of one ampere or greater.
  • a mercury vapor discharge device comprising an enclosing vessel having a stem, a cathode supported from said stem and composed of a zig- Zag ribbon having closely adjacent folds disposed with corresponding longitudinal edges thereof in a plane, a dome shaped anode having its base substantially parallel to said corresponding edges of the folds of said cathode, a collar encircling said stern, and a control electrode supported from said collar comprising a hollow imperforate portion spaced about said cathode, and two end portions substantially parallel to said" edges of the.
  • folds of said o'athode,'one of said portions being perforated and disposed between said anode and ode, a collar on said stem and a control electrode supported from said collar and surrounding said cathode comprising a body portion and two end portions, one of said end portions being disposed between said cathode and said anode and being apertured for the passage therethrough of the and the other of said end portions havingan elongated aperture therein through which said leading-in wires pass, the area of the aperture being greater than the area defined by a line en-' circling said leading-in wires, whereby space insulates said leading-in wires from said control electrode.
  • An electric discharge device comprising an F ing an elongated aperture therein, a dome-shapedanode adjacent said top portion and having its concave surface directed toward and its base substantially parallel to said top portion, an in'can descible cathode within said control electrode composed of a folded relatively broad metallic ribbon coated with a thermionic material, the folds of said ribbon being closely adjacent and having corresponding edges disposed in a plane 7 DONALD S. BOND.

Description

Feb. 9, 1937. D. s. BOND 2,069,814
ELECTRIC DISCHARGE DEVICE Filed Sept. 17, 1936 INVENTOR 0. 5. BOND 8V ATTORNEY Patented Feb. 9, 1937 ELECTRIC DISCHARGE DEVICE Donald S. Bond, Brooklyn, N. Y., assignor to Bell Telephone Laboratories, Incorporated,
New
York, N. Y., acorporation of New York Application September 17, 1930, Serial No. 482,427
3 Claims.
This invention relates to electric discharge de vices and more particularly to gaseous discharge devices employing an electron emitting cathode.
In three-electrode discharge devices having an electron emitting cathode and a filling of an inert gas at low pressure, the initiation of the electron discharge between the cathode and the anode may be controlled by the grid potential. For iiistance, for each anode potential there is a corre sponding value of grid bias or potential above which the device will not break down, that is, no discharge between the cathode and the anode may occur. After the initiation of the discharge the grid normally loses control so that the device may be utilized as a trigger valve, for example, to operate a relay when the input and consequently the grid potential reaches a predetermined value.
The ratio of anode potential to grid potential at the critical or breakdown point approaches a constant for large values of these potentials and is commonly termed the control ratio or amplification factor of the device. The amplification factor depends almost entirely upon the largest effective opening in the grid structure and it is, of course, desirable that this factor be accurately known and determinable.
An object of this invention therefore is to enable the accurate determination of the amplification factor in three-electrode gaseous discharge devices.
Another object of this invention is to increase the efficiency and the power capacity of threeelectrode gaseous discharge devices.
In accordance with this invention the discharge device comprises a cathode capable of emitting electrons when heated, an anode adjacent the cathode and a control electrode or grid having a portion interposed between the cathode and anode. The cathode and grid are supported from a stem of the enclosing vessel and the anode is supported by a leading-in wire sealed in the vessel. The enclosing vessel is filled with an inert gas such as argon at low pressure, or a filling of mercury injected into the vessel. Mercury is preferably employed since it has a low vapor pressure and further increases the power capacity of the device. The cathode comprises a folded ribbon having an alkaline earth oxide coating the turns of which are closely spaced with respect to one another to increase the heat conductivity therebetween and thereby to decrease the input power required to heat the cathode to the desired temperature. The edges of the folds of the oathode are preferably substantially parallel to the base of the anode so that a large electron emitting surface is presented to the anode and a uniform discharge of relatively high intensity is made possible. A control electrode or grid completely encases the cathode on all sides and comprises a hollow metallic member having a portion between the anode and cathode perforated.
Since the amplification factor is dependent upon the largest effective opening in the grid or control electrode, the total effective area of the apertures in the perforated portion is made greater than the effective area of the central aperture in the other end portion. The construction of the electrodes and their relation to one another enables the accurate determination of the amplification factor of the device and furthermore increases the efficiency and capacity of the device.
The various features and details of the electric discharge device of this invention will be understood more readily with reference to the accompanying drawing, in which the single figure is a perspective view of an electric discharge device made in accordance with this invention with portions broken away to show the internal electrode assembly.
' Referring to the drawing, the electric discharge device of this invention comprises an enclosing vessel it having a hollow reentrant stem H in which a central evacuating tubulature i2 is sealed. The vessel It is cemented or otherwise suitably attached to an insulatory base 33 carrying terminal pins M. A pair of metallic rigid rods l5, preferably of nickel, embedded in the press portion I6 of the stem H and welded to leading in wires ll terminating in two of the terminal pins 5 d, support a filamentary cathode l8, adapted to emit electrons. The rods l5 are attached to the ends of the cathode it through intermediate relatively thin links I9, likewise preferably of nickel, welded to the ends of the cathode i8 and the rods H5. The links it become heated during the operation of the device and serve to increase the thermal efficiency of the cathode. The cathode I8 in a preferred embodiment may take the form of a relatively wide nickel ribbon coated with alkaline earth oxides, such as barium and strontium oxides, folded to form a zig-zag or accordion pleated electrode, the turns of which are closely adjacent one another to increase the heat conductivity therebetween and thereby to maintain the temperature of the cathode constant and uniform. The cathode I8 is supported at its center through an intermediate link 20 by a rigid metallic rod 2i embedded in the press I6 to the cathode l8, formed preferably of nickel. The control electrode is supported by a plurality v and serving 'to prevent sagging of the center por tion of the cathode and to maintain the anode at substantially right angles to the stem ll. This construction provides a cathode having a large electron emitting surface to supply a largeelec tron flow to the anode.
A dome shaped anode 22, preferably of carbonized nickel, is supportedwith its base parallel to the edges of the folds of cathode [8 by a rigid leading-in wire 23 sealed in the tip of the vessel l 0 and connected to a metallic cap 24 cemented to the vessel It! which serves as the external terminal for the anode 22. s
A control electrode or grid surrounds the oath ode l8 and comprises a'cylindrical portion 25 and two flanged disc end portions 25 and 21 parallel of rods 28 welded to the end portion 21 and to a split metallic collar 29 clamped about the stem II. A leading-in Wire 30 for the grid is sealed in the side of the stem H, welded to the collar 29,
and connected externally to one of the terminal pins M. The end portion 21 of the grid is provided with an elongated aperture 3i to allow passage of the rods l5 and 2|, and the end portion 26 is provided with a plurality of equally spaced apertures 32 through which the discharge between the cathode l8 and the anode 22 occurs. Since the control ratio or amplification factor of the device is largely dependent upon the aperture of largest effective area in the. grid with respect to the cathode, the total effective area of the apertures 32' of the portion 25 is made greater than the effective areaof the'aperture 3i and is proportionedprimarily to accurately determine the amplification factor. The end portion 26 also provides a barrier betweenthe cathode l8'and the anode 22 and serves to focus the discharge between these electrodes. Furthermore, since the grid completely surrounds the cathode i8 on all sides, it forms a heat reflecting shield and thereby increases the thermal efiiciency of the cathode.
' An annular grooved ring 33. carries a vaporizable'material such as magnesium, to absorb residual gases after the final evacuation of the device is completed and is mounted on a wire 34 welded to a metallic band 35'afiixed to the collar 29.
'After the electrodes are assembled in the device the vessel is evacuated and a definite volume of mercury is injected into the vessel I 0 through the 7 high anode potentials. For example, with a filling of mercury vapor at a pressure of the order of .001 millimeter of mercury, an electric discharge device of, relatively small dimensions and constructed in accordance with my invention may be used with anode potentials in excess of 6000 volts and a discharge current of the order of one ampere or greater.
It is to be understood that the specific structure of the electrodes in accordance with this invention and the shape of the openings in the end portion 26'of the control electrode may be widely.
varied in accordance with thegcharacteristics which are desired, and such variations do not de part from the spirit and scope of this invention as defined in the appended claims.
What is claimed is: a l. A mercury vapor discharge device comprising an enclosing vessel having a stem, a cathode supported from said stem and composed of a zig- Zag ribbon having closely adjacent folds disposed with corresponding longitudinal edges thereof in a plane, a dome shaped anode having its base substantially parallel to said corresponding edges of the folds of said cathode, a collar encircling said stern, and a control electrode supported from said collar comprising a hollow imperforate portion spaced about said cathode, and two end portions substantially parallel to said" edges of the.
folds of said o'athode,'one of said portions being perforated and disposed between said anode and ode, a collar on said stem and a control electrode supported from said collar and surrounding said cathode comprising a body portion and two end portions, one of said end portions being disposed between said cathode and said anode and being apertured for the passage therethrough of the and the other of said end portions havingan elongated aperture therein through which said leading-in wires pass, the area of the aperture being greater than the area defined by a line en-' circling said leading-in wires, whereby space insulates said leading-in wires from said control electrode.
3. An electric discharge device comprising an F ing an elongated aperture therein, a dome-shapedanode adjacent said top portion and having its concave surface directed toward and its base substantially parallel to said top portion, an in'can descible cathode within said control electrode composed of a folded relatively broad metallic ribbon coated with a thermionic material, the folds of said ribbon being closely adjacent and having corresponding edges disposed in a plane 7 DONALD S. BOND.
discharge between said cathode and said anode,
US482427A 1930-09-17 1930-09-17 Electric discharge device Expired - Lifetime US2069814A (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2848635A (en) * 1954-11-16 1958-08-19 Vacuum Electronic Engineering Ionization gauges
US3017533A (en) * 1956-05-08 1962-01-16 Rca Corp Auxiliary discharge gas amplifier and the like
US5023505A (en) * 1989-12-20 1991-06-11 Gte Products Corporation Electric lamp with improved frame support and method of producing same
WO2000021117A1 (en) * 1998-10-02 2000-04-13 Koninklijke Philips Electronics N.V. Metal halide lamp with stem mounted support frame for arc tube shield

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2848635A (en) * 1954-11-16 1958-08-19 Vacuum Electronic Engineering Ionization gauges
US3017533A (en) * 1956-05-08 1962-01-16 Rca Corp Auxiliary discharge gas amplifier and the like
US5023505A (en) * 1989-12-20 1991-06-11 Gte Products Corporation Electric lamp with improved frame support and method of producing same
WO2000021117A1 (en) * 1998-10-02 2000-04-13 Koninklijke Philips Electronics N.V. Metal halide lamp with stem mounted support frame for arc tube shield

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