US2618760A - Glow tube anode construction - Google Patents

Glow tube anode construction Download PDF

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US2618760A
US2618760A US194336A US19433650A US2618760A US 2618760 A US2618760 A US 2618760A US 194336 A US194336 A US 194336A US 19433650 A US19433650 A US 19433650A US 2618760 A US2618760 A US 2618760A
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cathode
anode
cathodes
envelope
glow
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US194336A
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Robert D Hancock
Charles R Williams
Glenn E Hagen
Chris S Andersen
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Northrop Grumman Corp
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Northrop Grumman Corp
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J17/00Gas-filled discharge tubes with solid cathode
    • H01J17/38Cold-cathode tubes
    • H01J17/48Cold-cathode tubes with more than one cathode or anode, e.g. sequence-discharge tube, counting tube, dekatron
    • H01J17/49Display panels, e.g. with crossed electrodes, e.g. making use of direct current
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J2893/00Discharge tubes and lamps
    • H01J2893/0069Tubes for displaying characters

Definitions

  • the glow discharge to the cathode may, under certain operating conditions, be confined to small portions of the cathode, resulting in an incomplete and sometimes erroneous indication of the condition of the eX- ternal circuit.
  • an object of the present invention to provide a means whereby the distance between the cathode and anode of a multiple cathode ionic glow tube or the the read-out type is maintained nearly uniform, over ⁇ the entire length of the cathode, and for all of the cathodes.
  • the present invention provides a tube having an anode comprised of fine wires for each cathode of a multiple stacked cathode ionic glow tube and interposed between said cathodes.
  • Figure l is a iront View, with the envelope cut away, of a preferred read-out tube containing the digits 1-0, inclusive, embodying the present invention.
  • Figure 2 is a side view, envelope cut away, of the tube of Figure 1 taken as indicated by arrow 2 in Figure 1.
  • Figure 3 is a circuit diagram showing how the cathodes and anodes of the tube of Figures 1 and 2 can be energized.
  • the cathodes are shown side by side for clarity of illustration.
  • Figures 4 and 5 are plan views of anode screens suitable for use in the tube oi Figures 1 and 2.
  • an envelope I is provided with an end seal 2 through which eleven leads are sealed, an anode lead 3 and cathode leads IL and L, inclusive.
  • InsideA envelope I ⁇ cathodes IC to liC, inclusive, are mounted in their respective cathode leads IL to GL.
  • Cathodes IC to GC are in the form of the digit 1 to 0, inclusive, and are formed of fine wire and positioned in close parallel relation, one in front of the other, so that the digits form a single stack. Between each cathode C and the adjacent cathode C is positioned an anode A.
  • the anodes A, I9 in number, are formed from an edge frame I0 of relatively heavy wire on which a grid of parallel iine wires II is welded.
  • Tungsten wires of one mil diameter or less are satisfactory.
  • the frames l0 are substantially larger than the extent of the digits so that when the grid wires II of each anode are sufficiently close, the grid has the electrical effect of a flat plate.
  • Envelope I is lled with a gas at a glow discharge pressure wherein a visible cathode glow is produced when the cathode is energized.
  • cathode wires and the anode grid wires are sulciently small in diameter that digits deep in the stack, when glowing, are readily seen and identified when the stack is viewed from the iront end of the stack.
  • FIG. 3 Various circuits may be used to energize the individual cathodes and anodes, a simple circuit being shown in Figure 3.
  • a ten point switch 2B is used to connect the individual cath- Odes C to the negative pole of a D. C. source 2l. All anodes A are connected together and to the positive pole of source 2
  • tube of Figures 1 and 21 utilizes a parallel wire grid as an, anode
  • other types of anode having fine wires and a large void to wire ratio are equally satisfactory, such as, for eX- ample, a knitted wire fabric 30 as shown in Figure 4, or a metal net 3l as shown in Figure 5
  • Such ne screen structures are well known in the art, being commonly utilized in electron multipliers and television pickup tubes.
  • grids are formed of such iine wire as to be almost invisible to the naked eye.
  • a read-out tube having a plurality of stacked-spaced, adjacent and parallel ne wire cathodes of differing symbol shape mounted one 'infront of anotherl -from a viewers standpoint in an renvelope having a lling of gas at glow disx charge pressure, a plurality of anodes in said envelope equal-in number to said cathodes, with an anode positioned between adjacent cathodes andequally spaced from all parts of said cathodes,
  • each of said anodes being formed from electrically f connected wires spaced and sized to have an optimum fiat plate anode eiect, electrically, con- ,sistent with good viewing of any glowing cathode through one or more anodes and cathodes in said envelope, each of said anodes enclosing a larger plane area than does the superimposed extent of its adjacent cathode.
  • a read-out tube having a plurality of stacked,v spaced, adjacent and parallel ne wire cathodes of differing symbol shape mounted one in front of another from a, viewers standpoint, in an envelope having a lling of gas at glow discharge pressure, a plurality of anodes in said envelope with an anode positioned between adjacent Acatljiodesand equally spaced from all parts of said cathodes, each of said anodes being electrically connected and comprising a grid of line parallel wires spaced suciently close to be the electrical equivalent of a flat plate and from wire sufficiently nne as to not substantially interfere withthe viewof a particular cathode when viewed through One or more anodes and cathodes in said stach, the .described area of each of said anodes being larger than the described area of an adiaccntcathode- 3,.
  • a read-out tube having a plurality of stacked, spaced, adjacent and parallel fine wire cathodes of differing symbol shape mounted one in front of another from a viewers standpoint, in an envelope having a lling of gas at glow discharge pressure, a plurality of anodes in said envelope with an anode positioned between adjacent cathodes and equally spaced from all parts of said cathodes.
  • y cach of said anodes being electrically cQnnected and comprising a wire net having the wires thereof spaced .sufcently Close to be the electrical equivalent of a flat plate and from wire s uflciently ne as to not substantially interfere with the view of a particular cathode when viewed through one or more anodes and cathodes in said stack, the described area of each of said anodes being larger than the described area of an adjacent cathode.
  • a read-out tube having a plurality of stacked. spaced, adjacent and parallel fine wire cathodes of differing symbol shape mounted one in front of another from a, viewers standpoint, in an envelope having a filling of gas at glow discharge pressure, a plurality of anodes in said envelope with an anode positioned between adjacent cathodes and equally spaced from all parts of said cathodes, each of said anodes being electrically connected and comprising a knitted wire fabric having the wires thereof spaced sufficiently close to be the electrical equivalent of a flat plate and from wire suliiciently ne as to not substantially interfere with the view of a particular cathode when viewed through one or more anodes and cathodes in said stack, the described area of each of said anodes being larger than the described area of an adjacent cathode.
  • a glow discharge tube having an envelope containing a filling of gas at glow discharge pressure, a cathode in said envelope shaped from fine wire to show as an intelligible symbol when viewed from a predetermined external position, an anode in said envelope positioned between said cathode and said external viewing position, said anode being formed from ne wire elements electrically connected and having a void-to-wire ratio producing an optimum flat plate anode eiect consistent with clearviewing of said cathode, when glowing, through said anode, the area described by said anode being greater than that described by said cathode, all portions of said cathode being substantially equally spaced from the electrical plane of said anode.
  • a glow discharge tube having an envelope containing a lling of gas at glow discharge pressure, a cathode in said envelope shaped from line wire to show as an intelligible symbol when viewed from a predetermined external position, an anode in said envelope positioned between said cathode and said external viewing position, said anode being formed from ne wire elements electrically connected and having a void-to-wire ratio producing an optimum iiat plate anode eiect consistent with clear viewing of said cathode, when gl wing, through said anode, the area described by said anode being greater than that described by said cathode, means for applying a glow discharge potential between said anode and cathode with said cathode negative to create a glow thereon, all portions of said cathode being substantially equally spaced from the electrical plane of said anode to insure uniform glow coverage of said cathode.
  • a glow discharge tube having an envelope containing a lling of gas at glow discharge pressure, a cathode in said envelope shaped from fine wire to show as an intelligible symbol when viewed from a predetermined external position, an anode in said envelope positioned between said cathode and said external viewing position, said anode comprising a knitted metal wire fabric having a void-to-wire ratio sufficiently low to cause said anode to act electrically as a plate, and suiciently high so that said cathode when glowing can be clearly seen through said anode, the area described by said anode being greater than that described by said cathode, and means for applying a glow discharge potential between said anode and cathode with said cathode negative to create a glow thereon, all portions of said cathode being substantially equally spaced from the electrical plane of said anode to insure uniform glow coverage of said cathode.
  • a glow discharge tube having an envelope containing a lling of gas at glow discharge pressure, a cathode in said envelope shaped from ne wire to show as an intelligible symbol when viewed from a predetermined external position, an anode in said envelope positioned between said cathode and said external viewing position, said anode comprising a grid formed from parallel wires having a void-towire ratio sufficiently low to cause said anode to act electrically as a plate, and sufficiently high so that said cathode when glowing can be clearly seen through said anode, the area described by said anode being greater than that described by said cathode, and means for applying a glow discharge potential between said anode and cathode with said cathode negative to create a glow thereon, all portions of said cathode being substantially equally spaced from the electrical plane of said anode to insure uniform glow coverage of said cathode.
  • a glow discharge tube having an envelope containing a filling of gas at glow discharge pressure, a cathode in said envelope shaped from fine wire to show as an intelligible symbol when viewed from a predetermined external position, an anode in said envelope positioned between said cathode and said external viewing position, said anode comprising a square mesh wire screen having a void-to-wire ratio sufficiently low to cause said anode to act electrically as a plate, and suiciently high so that said cathode when glowing can be clearly seen through said anode, the area described by said anode being greater than that described by said cathode, and means for applying a glow discharge potential between said anode and. cathode with said cathode negative to create a glow thereon, all portions of said cathode being substantially equally spaced from the electrical plane of said anode to insure uniform glow coverage of said cathode.

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Description

Nov. 18, 1952 R. D. HANCOCK ET AL GLOW TUBE ANODE CONSTRUCTION Filed Nov. e, 195o Patented Nov. 18, 1952 GLOW TUBE ANODE CONSTRUCTION Robert D. Hancock, Compton, Charles R. Williams, Hawthorne, Glenn E. Hagen, Lawndale, and Chris S. Andersen, Bell, Calif., assignors to Northrop Aircraft, Inc., Hawthorne, Calif., a
corporation of California Application November 6, 1950, Serial N o. 194,336
vised, employing a multiplicity of stacked cathodes, whose coniiguration and spatial relationships are such that an indication of a condition of an external circuit will be given by the glow of a single cathode. These tubes are known as read-Out tubes and are shown, described and claimed in the Hagen application, Serial No. 139,819, filed January 21, 1950. Prior read-out tubes have usually employed a single anode, or means whereby one of the cathodes may be employed as an anode.
Unless the distance between the anode and the cathode is very nearly uniform throughout the entire length of the cathode, the glow discharge to the cathode may, under certain operating conditions, be confined to small portions of the cathode, resulting in an incomplete and sometimes erroneous indication of the condition of the eX- ternal circuit.
It is, therefore, an object of the present invention to provide a means whereby the distance between the cathode and anode of a multiple cathode ionic glow tube or the the read-out type is maintained nearly uniform, over` the entire length of the cathode, and for all of the cathodes.
It is a further object of the present invention to provide a multiplicity of anodes within a multiple cathode indicator glow tube, such that the anodes will not interfere with the visual indication resulting from the glow discharge when the cathodes are stacked in superimposed relation.
Briefly, the present invention provides a tube having an anode comprised of fine wires for each cathode of a multiple stacked cathode ionic glow tube and interposed between said cathodes. The invention will be more fully understood by reference to the drawings, in which: v
Figure l is a iront View, with the envelope cut away, of a preferred read-out tube containing the digits 1-0, inclusive, embodying the present invention.
Figure 2 is a side view, envelope cut away, of the tube of Figure 1 taken as indicated by arrow 2 in Figure 1.
Figure 3 is a circuit diagram showing how the cathodes and anodes of the tube of Figures 1 and 2 can be energized. The cathodes are shown side by side for clarity of illustration.
Figures 4 and 5 are plan views of anode screens suitable for use in the tube oi Figures 1 and 2.
Referring first to Figures 1 and 2, an envelope I is provided with an end seal 2 through which eleven leads are sealed, an anode lead 3 and cathode leads IL and L, inclusive. InsideA envelope I `cathodes IC to liC, inclusive, are mounted in their respective cathode leads IL to GL. .Cathodes IC to GC are in the form of the digit 1 to 0, inclusive, and are formed of fine wire and positioned in close parallel relation, one in front of the other, so that the digits form a single stack. Between each cathode C and the adjacent cathode C is positioned an anode A. The anodes A, I9 in number, are formed from an edge frame I0 of relatively heavy wire on which a grid of parallel iine wires II is welded.. Tungsten wires of one mil diameter or less are satisfactory. The frames l0 are substantially larger than the extent of the digits so that when the grid wires II of each anode are sufficiently close, the grid has the electrical effect of a flat plate. Thus all parts of each cathode C are equally distant from a cooperating adjacent anode A, irrespective of the cathode shape. Envelope I is lled with a gas at a glow discharge pressure wherein a visible cathode glow is produced when the cathode is energized. In this manner, when a cathode digit and an adjacent anode are energized with the. cathode negative, a negative glow will always be produced over the entire eX- tent or" the cathode, thus insuring accurate delineation oi the desired digit. The cathode wires and the anode grid wires are sulciently small in diameter that digits deep in the stack, when glowing, are readily seen and identified when the stack is viewed from the iront end of the stack.
Various circuits may be used to energize the individual cathodes and anodes, a simple circuit being shown in Figure 3. Here a ten point switch 2B is used to connect the individual cath- Odes C to the negative pole of a D. C. source 2l. All anodes A are connected together and to the positive pole of source 2| through a regulating resistance 22. Operation of switch 26 will then cause a selected cathode to glow. I
While the tube of Figures 1 and 21 utilizes a parallel wire grid as an, anode, other types of anode having fine wires and a large void to wire ratio are equally satisfactory, such as, for eX- ample, a knitted wire fabric 30 as shown in Figure 4, or a metal net 3l as shown in Figure 5 Such ne screen structures are well known in the art, being commonly utilized in electron multipliers and television pickup tubes. In some instances such grids are formed of such iine wire as to be almost invisible to the naked eye.
From the above description it will be apparent that there is thus provided a device of the character described possessing the particular features of advantage before enumerated as desirable. but which obviously is susceptible of modification in its form, proportions, detail construction and arrangement of parts without departing from the principle involved or sacrificing any of its advantages.
While in order to comply with the statute, the invention has been described in language more or less speciiic as to structural features, it is to be understood that the invention is not limited to the specific features shown, but that the means and construction herein disclosed comprise the preferred form of several modes of putting the invention into eiect, and the invention is, therefore, claimed in any of its forms or modifications within the legitimate and valid scope of the apf pended claims.
What is claimed is:
l. In a read-out tube having a plurality of stacked-spaced, adjacent and parallel ne wire cathodes of differing symbol shape mounted one 'infront of anotherl -from a viewers standpoint in an renvelope having a lling of gas at glow disx charge pressure, a plurality of anodes in said envelope equal-in number to said cathodes, with an anode positioned between adjacent cathodes andequally spaced from all parts of said cathodes,
each of said anodes being formed from electrically f connected wires spaced and sized to have an optimum fiat plate anode eiect, electrically, con- ,sistent with good viewing of any glowing cathode through one or more anodes and cathodes in said envelope, each of said anodes enclosing a larger plane area than does the superimposed extent of its adjacent cathode.
2. In a read-out tube having a plurality of stacked,v spaced, adjacent and parallel ne wire cathodes of differing symbol shape mounted one in front of another from a, viewers standpoint, in an envelope having a lling of gas at glow discharge pressure, a plurality of anodes in said envelope with an anode positioned between adjacent Acatljiodesand equally spaced from all parts of said cathodes, each of said anodes being electrically connected and comprising a grid of line parallel wires spaced suciently close to be the electrical equivalent of a flat plate and from wire sufficiently nne as to not substantially interfere withthe viewof a particular cathode when viewed through One or more anodes and cathodes in said stach, the .described area of each of said anodes being larger than the described area of an adiaccntcathode- 3,. In a read-out tube having a plurality of stacked, spaced, adjacent and parallel fine wire cathodes of differing symbol shape mounted one in front of another from a viewers standpoint, in an envelope having a lling of gas at glow discharge pressure, a plurality of anodes in said envelope with an anode positioned between adjacent cathodes and equally spaced from all parts of said cathodes.y cach of said anodes being electrically cQnnected and comprising a wire net having the wires thereof spaced .sufcently Close to be the electrical equivalent of a flat plate and from wire s uflciently ne as to not substantially interfere with the view of a particular cathode when viewed through one or more anodes and cathodes in said stack, the described area of each of said anodes being larger than the described area of an adjacent cathode.
4. In a read-out tube having a plurality of stacked. spaced, adjacent and parallel fine wire cathodes of differing symbol shape mounted one in front of another from a, viewers standpoint, in an envelope having a filling of gas at glow discharge pressure, a plurality of anodes in said envelope with an anode positioned between adjacent cathodes and equally spaced from all parts of said cathodes, each of said anodes being electrically connected and comprising a knitted wire fabric having the wires thereof spaced sufficiently close to be the electrical equivalent of a flat plate and from wire suliiciently ne as to not substantially interfere with the view of a particular cathode when viewed through one or more anodes and cathodes in said stack, the described area of each of said anodes being larger than the described area of an adjacent cathode.
5. A glow discharge tube having an envelope containing a filling of gas at glow discharge pressure, a cathode in said envelope shaped from fine wire to show as an intelligible symbol when viewed from a predetermined external position, an anode in said envelope positioned between said cathode and said external viewing position, said anode being formed from ne wire elements electrically connected and having a void-to-wire ratio producing an optimum flat plate anode eiect consistent with clearviewing of said cathode, when glowing, through said anode, the area described by said anode being greater than that described by said cathode, all portions of said cathode being substantially equally spaced from the electrical plane of said anode.
6, A glow discharge tube having an envelope containing a lling of gas at glow discharge pressure, a cathode in said envelope shaped from line wire to show as an intelligible symbol when viewed from a predetermined external position, an anode in said envelope positioned between said cathode and said external viewing position, said anode being formed from ne wire elements electrically connected and having a void-to-wire ratio producing an optimum iiat plate anode eiect consistent with clear viewing of said cathode, when gl wing, through said anode, the area described by said anode being greater than that described by said cathode, means for applying a glow discharge potential between said anode and cathode with said cathode negative to create a glow thereon, all portions of said cathode being substantially equally spaced from the electrical plane of said anode to insure uniform glow coverage of said cathode.
7. A glow discharge tube having an envelope containing a lling of gas at glow discharge pressure, a cathode in said envelope shaped from fine wire to show as an intelligible symbol when viewed from a predetermined external position, an anode in said envelope positioned between said cathode and said external viewing position, said anode comprising a knitted metal wire fabric having a void-to-wire ratio sufficiently low to cause said anode to act electrically as a plate, and suiciently high so that said cathode when glowing can be clearly seen through said anode, the area described by said anode being greater than that described by said cathode, and means for applying a glow discharge potential between said anode and cathode with said cathode negative to create a glow thereon, all portions of said cathode being substantially equally spaced from the electrical plane of said anode to insure uniform glow coverage of said cathode.
8. A glow discharge tube having an envelope containing a lling of gas at glow discharge pressure, a cathode in said envelope shaped from ne wire to show as an intelligible symbol when viewed from a predetermined external position, an anode in said envelope positioned between said cathode and said external viewing position, said anode comprising a grid formed from parallel wires having a void-towire ratio sufficiently low to cause said anode to act electrically as a plate, and sufficiently high so that said cathode when glowing can be clearly seen through said anode, the area described by said anode being greater than that described by said cathode, and means for applying a glow discharge potential between said anode and cathode with said cathode negative to create a glow thereon, all portions of said cathode being substantially equally spaced from the electrical plane of said anode to insure uniform glow coverage of said cathode.
9. A glow discharge tube having an envelope containing a filling of gas at glow discharge pressure, a cathode in said envelope shaped from fine wire to show as an intelligible symbol when viewed from a predetermined external position, an anode in said envelope positioned between said cathode and said external viewing position, said anode comprising a square mesh wire screen having a void-to-wire ratio sufficiently low to cause said anode to act electrically as a plate, and suiciently high so that said cathode when glowing can be clearly seen through said anode, the area described by said anode being greater than that described by said cathode, and means for applying a glow discharge potential between said anode and. cathode with said cathode negative to create a glow thereon, all portions of said cathode being substantially equally spaced from the electrical plane of said anode to insure uniform glow coverage of said cathode.
ROBERT D. HANCOCK.
CHARLES R. WILLIAMS.
GLENN E. HAGEN CHRIS S. ANDERSEN.
REFERENCES CHTED UNITED STATES PATENTS Name Date Boswau Jan. 3, 1939 Number
US194336A 1950-11-06 1950-11-06 Glow tube anode construction Expired - Lifetime US2618760A (en)

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Cited By (17)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2756366A (en) * 1954-04-01 1956-07-24 Nat Union Electric Corp Luminous discharge tube and system
US2783408A (en) * 1953-04-01 1957-02-26 Ericsson Telephones Ltd Electric discharge tubes
US2874320A (en) * 1955-12-13 1959-02-17 Burroughs Corp Indicating device
US2878407A (en) * 1956-04-16 1959-03-17 Burroughs Corp Ion control means
US2991388A (en) * 1958-07-02 1961-07-04 Ericsson Telephone Ltd Display devices employing glow discharge tubes
US3008067A (en) * 1959-07-02 1961-11-07 Burroughs Corp Counter circuit and count indicator
DE1123956B (en) * 1959-04-13 1962-02-15 Albert Zisterer Luminous number display device
US3042826A (en) * 1959-11-02 1962-07-03 Burroughs Corp Indicator tube
US3075119A (en) * 1959-08-14 1963-01-22 Philips Corp Glow-discharge indicator tube
DE1144844B (en) * 1959-08-14 1963-03-07 Philips Nv Glow discharge indicator lamp operated with intermittent anode voltage
DE1147317B (en) * 1959-01-06 1963-04-18 Philips Nv Display arrangement with a glow discharge indicator lamp with a large number of locally limited discharge paths in a common gas space, and lamp for such an arrangement
DE1162478B (en) * 1958-10-03 1964-02-06 Burroughs Corp Cathode glow lamp indicating signs
US3250938A (en) * 1962-01-31 1966-05-10 Philips Corp Biquinary glow-discharge digit indicator tube
US3437861A (en) * 1965-02-19 1969-04-08 Japan Radio Co Ltd Gas filled cold cathode indicator tube
US3473068A (en) * 1966-10-26 1969-10-14 Philips Corp Digit tube with the characters secured only at one end
US3897615A (en) * 1969-05-17 1975-08-05 Licentia Gmbh Method of manufacturing a glow-discharge tube
US20030174800A1 (en) * 2002-03-12 2003-09-18 Hidetsugu Ikegami And Sayaka Ikegami Method of and apparatus for generating recoilless nonthermal nuclear fusion

Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2142106A (en) * 1934-05-09 1939-01-03 Hans P Boswau Signaling system and glow lamps therefor

Patent Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2142106A (en) * 1934-05-09 1939-01-03 Hans P Boswau Signaling system and glow lamps therefor

Cited By (17)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2783408A (en) * 1953-04-01 1957-02-26 Ericsson Telephones Ltd Electric discharge tubes
US2756366A (en) * 1954-04-01 1956-07-24 Nat Union Electric Corp Luminous discharge tube and system
US2874320A (en) * 1955-12-13 1959-02-17 Burroughs Corp Indicating device
US2878407A (en) * 1956-04-16 1959-03-17 Burroughs Corp Ion control means
US2991388A (en) * 1958-07-02 1961-07-04 Ericsson Telephone Ltd Display devices employing glow discharge tubes
DE1162478B (en) * 1958-10-03 1964-02-06 Burroughs Corp Cathode glow lamp indicating signs
DE1147317B (en) * 1959-01-06 1963-04-18 Philips Nv Display arrangement with a glow discharge indicator lamp with a large number of locally limited discharge paths in a common gas space, and lamp for such an arrangement
DE1123956B (en) * 1959-04-13 1962-02-15 Albert Zisterer Luminous number display device
US3008067A (en) * 1959-07-02 1961-11-07 Burroughs Corp Counter circuit and count indicator
US3075119A (en) * 1959-08-14 1963-01-22 Philips Corp Glow-discharge indicator tube
DE1144844B (en) * 1959-08-14 1963-03-07 Philips Nv Glow discharge indicator lamp operated with intermittent anode voltage
US3042826A (en) * 1959-11-02 1962-07-03 Burroughs Corp Indicator tube
US3250938A (en) * 1962-01-31 1966-05-10 Philips Corp Biquinary glow-discharge digit indicator tube
US3437861A (en) * 1965-02-19 1969-04-08 Japan Radio Co Ltd Gas filled cold cathode indicator tube
US3473068A (en) * 1966-10-26 1969-10-14 Philips Corp Digit tube with the characters secured only at one end
US3897615A (en) * 1969-05-17 1975-08-05 Licentia Gmbh Method of manufacturing a glow-discharge tube
US20030174800A1 (en) * 2002-03-12 2003-09-18 Hidetsugu Ikegami And Sayaka Ikegami Method of and apparatus for generating recoilless nonthermal nuclear fusion

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