US1619318A - Electrostatic detector and amplifier - Google Patents

Electrostatic detector and amplifier Download PDF

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Publication number
US1619318A
US1619318A US352595A US35259520A US1619318A US 1619318 A US1619318 A US 1619318A US 352595 A US352595 A US 352595A US 35259520 A US35259520 A US 35259520A US 1619318 A US1619318 A US 1619318A
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points
electrode
electrodes
grid
sharp
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US352595A
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Frank E Summers
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Philips North America LLC
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Magnavox Co
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J21/00Vacuum tubes
    • H01J21/02Tubes with a single discharge path
    • H01J21/06Tubes with a single discharge path having electrostatic control means only
    • H01J21/10Tubes with a single discharge path having electrostatic control means only with one or more immovable internal control electrodes, e.g. triode, pentode, octode

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  • FRANK E SUMMERS, OF NEAR MEMPHIS, MISSOURI, ASSIGNOE TO THE MAGNA'VOX COMPANY, OF SAN FRANCISCO, CALIFORNIA, A CORPORATION OF ARIZONA.
  • This invention relatesto improvements in the class of detectors known at present as Fleming and audion vacuum valves or rectifiers, and applies to both vacuum and air audions.
  • the primary object is to utilize the well known hi h electrical density of sharp points, an apply them for use in both two and three element gas vapor or gas tubes.
  • Another object is to insulate all of the gridbutthe sharp points so they will be more efiective.
  • Still another object is to dispose these points so they will be parallel in the conductive medium, and to local currents traveling said medium.
  • the figure is a diagrammatic view of one embodiment of my invention.
  • a filament 2, a grid 4 and a plate 3 are enclosed by a casing 1 which is preferably of an insulating and transparent material.
  • a plurality of conducting members, preferably terminating in points 5, 6 and 7, are mounted in these three electrodes transversely thereof, the-members on the adjacent electrodes being disposed in the same plane and extending toward each other whereby the said terminating points are in close proximity.
  • the points 7 are connected preferably to the negative side of the filament 2.'
  • the points 5 are connected electrically to the grid 4.
  • the points 6 are connected to the plate. These points all lie in the same plane and are close to one another.
  • the grid is preferably insulated on the inside of the casing by glass 8 or other high resisting material, just the plurality of the needle points being exposed.
  • the exposed area of the point like electrodes afiects the operation of the device.
  • the grid wires may be fused in small glass tubes'and leaving a plurality of points exposed to the conducting medium in the'casing.
  • This conducting medium may be a vapor, air or gas above, at or below atmospheric pressure. Also in practice a pluralityeof these pointed grids and conductors may used, extending in all directions from the filament to the plate.
  • the points are preferably connected to the negative side of the filament because negative electricity is more easily repelled from aheatedconductorthan positive.
  • a hlgh resistance is encountered, such as a heated vacuum space the positive electricity is held back. And for this reason the late should be connected to the positive po e (if high voltage battery. If used as an oscillat1o n generator for wireless telephone and the grid is negative it will work better as negative electricity is repelled from a heated conductor and positive is attracted.
  • This device can be used as a detector, amplifier, oscillation generator, invisible are invisible spark gap, wireless telephone and similar purposes when the necessary circuits are established.
  • this device all cold electrodes can be used and it will function as a two' or three element tube, when a gaseous or a vapor conducting medium is used in the casing. And can be used with known circuits as a detector of weak currents, amplifier and oscillator.
  • the heating element, grid and plate can be termed electrodes.
  • the positive electrode or plate is insulated by an insulating material 3 and 9, the plate 6' disposed insulated in between and the conducting points 6 extending from the plate through the insulation 9. This insulation should have a high resistance like that of glass. If used with a hot electrode there will be some conduction of the best insulator used here but these insulators will practically insulate from the electron flow, leaving only the points exposed to electrons, a greater efliciency of repelling same are obtained.
  • the points 5, 6 and 7 may be of any desired material, such as substances or coated with substances capable of emitting negative electrons at or near atmospheric temperature.
  • High conductive gases or vapor are preferably used in the casing. As the conductivity of a tube increases, uniformity of tubes also increase, as well as their efiiciency as a detector, oscillator and amplifier.
  • ointed electrodes increase the conductiv- 1ty of a tube, by the laws of high electrical density in repellin from the points electrons or ions of a li e si n.
  • W at I claim as new is: 1.
  • An electric device comprising an envelope, a plurality of relatively spaced electrodes enclosed therein and a plurality of conducting members mounted in the elec trodes transversely thereof, the members on the adjacent electrodes being disposed in the same plane and extending toward each other and terminating in points in close proximity to each other.
  • An electric device comprising an envelope enclosing a filamentary electrode, a grid electrode having a plurality of discharge points dispose adjacent and at right angles to said filamentary electrode, and an anode electrode.
  • An electric device comprising an envelope enclosing a hotfilament electron emitting electrode, an anode electrode, and a grid electrode having a plurality of dis charge points lying in the same plane and disposed adjacent to said hot filament electron emitting electrode.
  • an audion comprising a. conducting medium of vapor, a plate, grid and heating element forming three electrodes, all of said electrodes terminating in a plurality of points lying in the same plane and parallel to the local currents passing through the conducting medium.
  • an electrical device having a plurality of electrodes disposed in a casing, said electrodes terminating in a plurality of points, a vapor conducting medium in said casing, and all of the area of the electrodes insulated from the vapor except a portion of said points.
  • An electric device comprising an en velope enclosing a hot electron emitting cathode electrode, an anode electrode, and a grid electrode terminating in a plurality of sharp-like points, all of said sharp-like points lying in same planes and disposed adjacent to said hot electron emitting cathode electrode.
  • An electric device comprising an envelope enclosing cathode, grid and anode electrodes, said grid elect-rode terminating in a plurality of sharp like points, and said sharp like points disposed adjacent to said cathode.
  • An electric device comprising an envelope enclosing a hot electron emitting electrode, a grid electrode and an anode electrode, said grid electrode terminating in a plurality of sharp like points and said sharp like oints disposed at right angles to said hot e ectron emitting electrode.
  • a filan'ient a plate and a grid disposed to operate as an audion, the grid being composed of a plurality of points and all of the area of the grid being insulated in the casing except said points.
  • a tube having a gaseous and electron conducting medium within, a plurality of electrodes disposed in contact with the said conducting medium, one of said electrodes terminating in a lurality of conducting points, and all of t e latter electrode being insulated to the flexible conductin medium except the points.
  • Zn elect-ric'device comprisin an envelope enclosing an electron emitting electrode, an anode electrode and a grid electrode, said rid electrode terminating in a plurality of sharp like points and said sharp like points lying in the same plane adjacent and at right angles to said electron emitting electrode.
  • An electric device comprising an envelope enclosing an electron emittin electrode, an anode electrode and a gri electrode, said grid electrode terminating in a plurality of sharp like points and all of said grid electrode being insulated electrically to the electron flow except said sharp like points, whereby the high electrical density of sharp like points is utilized.
  • An electric device comprising a casing enclosing a conducting medium, a hot electron emitting electrode, a cold electrode terminating in a plurality of sharp like points,
  • said cold electrode being insulated from the conducting medium except said sharp like points, and a grid electrode disposed between said electrodes.
  • An electric device comprising a. casing enclosing a conductin medium, a hot electron emitting electrodeand a plurality of cold electrodes, and at least one of said cold electrodes terminating in a plurality of sharp like points and said electrodes being insulated from said conducting medium except said sharp like points.

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Description

i I 1,619,318 E. SUMMERS Y ELECTROSTATIC DETEc bR AND AMPLIFIER I March 1;, .1927.
, Filed Jan. 19. 1920 an vanoz W MW Patented Mar. 1, 1927.
UNITED STATES PATENT ori ice.
FRANK E. SUMMERS, OF NEAR MEMPHIS, MISSOURI, ASSIGNOE TO THE MAGNA'VOX COMPANY, OF SAN FRANCISCO, CALIFORNIA, A CORPORATION OF ARIZONA.
ELECTROSTATIC DETECTOR AND AMPLIFIER.
Application filed January 19, 1920. Serial No. 352,595.
This invention relatesto improvements in the class of detectors known at present as Fleming and audion vacuum valves or rectifiers, and applies to both vacuum and air audions.
The primary object is to utilize the well known hi h electrical density of sharp points, an apply them for use in both two and three element gas vapor or gas tubes.
Another object is to insulate all of the gridbutthe sharp points so they will be more efiective.
Still another object is to dispose these points so they will be parallel in the conductive medium, and to local currents traveling said medium.
With these and other objects in view my invention resides in the novel arrangement and proportioning of parts herein described and claimed.
In the drawing:
The figure is a diagrammatic view of one embodiment of my invention.
In the drawing, a filament 2, a grid 4 and a plate 3 are enclosed by a casing 1 which is preferably of an insulating and transparent material. A plurality of conducting members, preferably terminating in points 5, 6 and 7, are mounted in these three electrodes transversely thereof, the-members on the adjacent electrodes being disposed in the same plane and extending toward each other whereby the said terminating points are in close proximity. The points 7 are connected preferably to the negative side of the filament 2.' The points 5 are connected electrically to the grid 4. The points 6 are connected to the plate. These points all lie in the same plane and are close to one another. The grid is preferably insulated on the inside of the casing by glass 8 or other high resisting material, just the plurality of the needle points being exposed. Also the exposed area of the point like electrodes afiects the operation of the device. The grid wires may be fused in small glass tubes'and leaving a plurality of points exposed to the conducting medium in the'casing. This conducting medium may be a vapor, air or gas above, at or below atmospheric pressure. Also in practice a pluralityeof these pointed grids and conductors may used, extending in all directions from the filament to the plate.
The points are preferably connected to the negative side of the filament because negative electricity is more easily repelled from aheatedconductorthan positive. When a hlgh resistance is encountered, such as a heated vacuum space the positive electricity is held back. And for this reason the late should be connected to the positive po e (if high voltage battery. If used as an oscillat1o n generator for wireless telephone and the grid is negative it will work better as negative electricity is repelled from a heated conductor and positive is attracted.
This device can be used as a detector, amplifier, oscillation generator, invisible are invisible spark gap, wireless telephone and similar purposes when the necessary circuits are established.
lVith this device all cold electrodes can be used and it will function as a two' or three element tube, when a gaseous or a vapor conducting medium is used in the casing. And can be used with known circuits as a detector of weak currents, amplifier and oscillator. In practice the heating element, grid and plate can be termed electrodes. The positive electrode or plate is insulated by an insulating material 3 and 9, the plate 6' disposed insulated in between and the conducting points 6 extending from the plate through the insulation 9. This insulation should have a high resistance like that of glass. If used with a hot electrode there will be some conduction of the best insulator used here but these insulators will practically insulate from the electron flow, leaving only the points exposed to electrons, a greater efliciency of repelling same are obtained.
The points 5, 6 and 7 may be of any desired material, such as substances or coated with substances capable of emitting negative electrons at or near atmospheric temperature. High conductive gases or vapor are preferably used in the casing. As the conductivity of a tube increases, uniformity of tubes also increase, as well as their efiiciency as a detector, oscillator and amplifier. The
ointed electrodes increase the conductiv- 1ty of a tube, by the laws of high electrical density in repellin from the points electrons or ions of a li e si n.
I believe I have mate clear enough disclosure to render further description unnecessar to those skilled in the art.
W at I claim as new is: 1. An electric device comprising an envelope, a plurality of relatively spaced electrodes enclosed therein and a plurality of conducting members mounted in the elec trodes transversely thereof, the members on the adjacent electrodes being disposed in the same plane and extending toward each other and terminating in points in close proximity to each other.
2. An electric device comprising an envelope enclosing a filamentary electrode, a grid electrode having a plurality of discharge points dispose adjacent and at right angles to said filamentary electrode, and an anode electrode.
3. An electric device comprising an envelope enclosing a hotfilament electron emitting electrode, an anode electrode, and a grid electrode having a plurality of dis charge points lying in the same plane and disposed adjacent to said hot filament electron emitting electrode.
-l. In an electrical device, an audion comprising a. conducting medium of vapor, a plate, grid and heating element forming three electrodes, all of said electrodes terminating in a plurality of points lying in the same plane and parallel to the local currents passing through the conducting medium.
5. In an electrical device, having a plurality of electrodes disposed in a casing, said electrodes terminating in a plurality of points, a vapor conducting medium in said casing, and all of the area of the electrodes insulated from the vapor except a portion of said points.
6. An electric device comprising an en velope enclosing a hot electron emitting cathode electrode, an anode electrode, and a grid electrode terminating in a plurality of sharp-like points, all of said sharp-like points lying in same planes and disposed adjacent to said hot electron emitting cathode electrode.
7. An electric device comprising an envelope enclosing cathode, grid and anode electrodes, said grid elect-rode terminating in a plurality of sharp like points, and said sharp like points disposed adjacent to said cathode.
8. An electric device comprising an envelope enclosing a hot electron emitting electrode, a grid electrode and an anode electrode, said grid electrode terminating in a plurality of sharp like points and said sharp like oints disposed at right angles to said hot e ectron emitting electrode.
9. In an electrical device, a filan'ient, a plate and a grid disposed to operate as an audion, the grid being composed of a plurality of points and all of the area of the grid being insulated in the casing except said points.
10. In an amplifier, a tube having a gaseous and electron conducting medium within, a plurality of electrodes disposed in contact with the said conducting medium, one of said electrodes terminating in a lurality of conducting points, and all of t e latter electrode being insulated to the flexible conductin medium except the points.
11. Zn elect-ric'device comprisin an envelope enclosing an electron emitting electrode, an anode electrode and a grid electrode, said rid electrode terminating in a plurality of sharp like points and said sharp like points lying in the same plane adjacent and at right angles to said electron emitting electrode.
'12. An electric device comprising an envelope enclosing an electron emittin electrode, an anode electrode and a gri electrode, said grid electrode terminating in a plurality of sharp like points and all of said grid electrode being insulated electrically to the electron flow except said sharp like points, whereby the high electrical density of sharp like points is utilized.
13. An electric device comprising a casing enclosing a conducting medium, a hot electron emitting electrode, a cold electrode terminating in a plurality of sharp like points,
and said cold electrode being insulated from the conducting medium except said sharp like points, and a grid electrode disposed between said electrodes.
14. An electric device comprising a. casing enclosing a conductin medium, a hot electron emitting electrodeand a plurality of cold electrodes, and at least one of said cold electrodes terminating in a plurality of sharp like points and said electrodes being insulated from said conducting medium except said sharp like points.
In testimony whereof I aflix my signature.
FRANK. E. SUMMERS.
US352595A 1920-01-19 1920-01-19 Electrostatic detector and amplifier Expired - Lifetime US1619318A (en)

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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2415980A (en) * 1943-03-09 1947-02-18 Westinghouse Electric Corp Electronic discharge device
US2416799A (en) * 1942-08-04 1947-03-04 Western Electric Co Electron discharge device
US2446554A (en) * 1944-12-22 1948-08-10 L L H Company Electrometer vacuum tube
US2449113A (en) * 1944-07-22 1948-09-14 Fruth Hal Frederick Electric discharge device
US2463635A (en) * 1943-10-22 1949-03-08 Frank H Mcintosh Electron discharge device and method of making the same
US2515945A (en) * 1945-08-17 1950-07-18 Jr Abraham Binneweg Metal radio tube
US2805134A (en) * 1954-12-15 1957-09-03 Mine Safety Appliances Co Combustible gas indicator and filament therefor

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2416799A (en) * 1942-08-04 1947-03-04 Western Electric Co Electron discharge device
US2415980A (en) * 1943-03-09 1947-02-18 Westinghouse Electric Corp Electronic discharge device
US2463635A (en) * 1943-10-22 1949-03-08 Frank H Mcintosh Electron discharge device and method of making the same
US2449113A (en) * 1944-07-22 1948-09-14 Fruth Hal Frederick Electric discharge device
US2446554A (en) * 1944-12-22 1948-08-10 L L H Company Electrometer vacuum tube
US2515945A (en) * 1945-08-17 1950-07-18 Jr Abraham Binneweg Metal radio tube
US2805134A (en) * 1954-12-15 1957-09-03 Mine Safety Appliances Co Combustible gas indicator and filament therefor

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