US1291641A - Radio communication. - Google Patents

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US1291641A
US1291641A US22411518A US22411518A US1291641A US 1291641 A US1291641 A US 1291641A US 22411518 A US22411518 A US 22411518A US 22411518 A US22411518 A US 22411518A US 1291641 A US1291641 A US 1291641A
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electron
conductor
globe
tube
valve
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US22411518A
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Harold P Donle
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Connecticut Telephone & Electric Company Inc
Connecticut Telephone & Elec
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J19/00Details of vacuum tubes of the types covered by group H01J21/00
    • H01J19/02Electron-emitting electrodes; Cathodes

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  • My present invention has reference to an electron valve forv radio telegraphy and telephony.
  • valves in use at the. present time possess certain disadvantages, particularly in that they are quite delicate and fragile, are of expensive complicated construction and require especially trained skill for their manufacture. These valves moreover lack sensitiv'eness'to a certain degree, being unable when used as detectors for instance to pick up some of the weaker signals.
  • My invention accordingly resides in this combination including the globe with the heating filament therein and the externally disposed conducting elements arranged in -electron-receptive relation to the filament within the globe and forming, one an electron target and the other, as I have termed it, an electron defiector.
  • These externally located conducting elements may be, and
  • the external conducting elements while separated should be relatively closely approached and I have further found that greater effectiveness is attained for some purposes by making the adjoinin edges of said conducting elements in jagged bringing of the deflector nearer to the target, this by reason of the fact that the edges of the defiector are tween the edges of the target.
  • This separation of these edges of the conducting elements may be however a straight line in cases where it is desirable to increase the resistance between deflector and target.
  • the figure is a partly sectional view of a simple form of the electron valve with one arrangement of circuits for a radio receiving set.
  • the globe or tube which is designated 1 is indicated as an evacuated vessel of a material such as glass or quartz, which is nornon-conductive to electricity but which, I have found, when warmed, is conductive to, or at least, permits of an electron fiow., Within said ⁇ globe there is mounted a suitable heating filament 2.
  • This globe may have an ordinary lamp base such as indicated, provided with terminals 3 and 4 for the filament.
  • the external conducting elements in the present illustration are formed as separated sections of a coating or covering applied directly to the globe, one of said sections 5 constituting in effect a cap covering the end of the globe and the other section 6, constituting in effect a band about the-middle portion of the globe.
  • These two elements are of suitable conducting material such as silver or copper and may be applied to the globe in any suitable way, such as by electhis latter 1n ef- I extended up bethe delector. lin order that the deilector iny tro-deposition.
  • ylhe end or cap' portion 5 is it will be seen, of greater area than the band portion 6, and is for this reason better suited to form the plate, or as ll have termed it, the electron target, while the band or element of lesser conducting area, is suited to take the place of the grid and form, as l call it, the electron delector.
  • two external conducting elements are shown as having their adjoining edges relatively closely approached but as having a clear insulating space 7 therebetween.l
  • the adjoining edges of the two elements furthermore, are indicated at 8 as of serrated or jagged outline, thus providing a zigzag intervening space between the two members. This in edect increases the areas of the two elements which are opposed to each other.
  • lt is desirable that as many as possible of the electrons which control flow from the filament to the target shall be influenced by uence these electrons, its electrical field should be as close as possible to the target. llhe portion of the target not aect'ed by the electrical field from the deector will rcceive an uninterrupted owof the electrons from the filament. As' an amplifier, the action depends upon the volume of electron control. rllhe deector should therefore control as great a percentage of the electron flow as possible. rlhis in eect is what is accomplished by the intermeshing or overshadovving l of the target by the deector.
  • the valve is shown in use as a detector but it will be apparent to those skilled in the art that it is not limited to such a purpose, being adapted for instance for use also as an amplier or as a generator of sustained oscillations
  • the heating filament is indicated as energized by a battery A
  • the electron target element 5 is shown as connected in a receiving circuit to the-positive terminal of a battery B through a set of telephone receivers 9, and the electron dei-lector 8, is indicated connected through a small stopping condenser 16, with the antennae or aerial 10 and with the inductance ll, said inductance being connected With the ground or counterpoise 12 and having a connection 13 with one side of the lilament, this latter connection being common also to the negative terminal of the battery B.
  • the conducting element 6 thus acts, in'e'ect, as a deflect/or and by its deection of the electrons to a secondary path, serves to aHect-the receiving circuit and thus produce a true duction of the radio signals vrlhe magniiied e'ects obtained in the receiving circuit enable the detection of very and hence make the device much more sensitive, enabling the detection of such Weak signals as would probably havel been lost reproweak signals heretofore.
  • lt will be noted that the' opera- I' tlon depends upon the electrcn flow throughl the warmed glass or other normally nonconducting wall of the globe and notsimply upon the flow through an evacuated space, as heretofore. lln other words, the eiiciency of the device is not dependent maintenance of a proper vacuum.
  • lhe electron discharge at the inside ofthe bulb may be considered, because of its unilateral conductivity, a polarizing conductor or polarizing medium.
  • the electrode on the outside of the bulb which is of a material that does not polarize in contact with the glass constitutes what may be termed a nonn polarizing layer or conductor. 'lhe controlling eect of the deflector, it will be evisolely upon the dent from the foregoing, is to modify the current conveyed by the electron discharge.
  • circuit conductors may be 'connected with the externally located conducting elements in any suitable way and in the present disclosure ll have shown such conductors' as electricicurrent becomes conductive to electron nlow when warmed, of a conductor on one side of sald globe, and means for creatllo in an electron discharge from the opposite si e of the globe through the wall'of the globe to said ⁇ conductor.
  • An electron valve comprising in combination a Wall of material having substantially the electrical characteristics of glass, a conductor at one side of said wall an electron source at the opposite side of said wall, a source of electric current connected with the conductor, and electrical connections for enabling the electron discharge to establish flow of said current through said wall.
  • An electron valve comprising in combination a body of a material which though normally non-conductive to electric current becomes conductive to electron flow when warmed, a conductor on one side of said body, an electron source at the opposite Side of said body, a source of electric current conductor, and electrical connections for enabling the electron discharge to establish flow. of said lcurrent through said body.
  • An electron valve comprising in" combination a Wall of material having substantially the electrical characteristics of glass, a conductor at one side of said Wall, a filament at the opposite side of said Wall and a filament through heated, a filament in said tube, a conductor- ,on the outside of said tube, and connections for enabling an electrondischarge from the filament through the wall ofthe tube to said outside conductor.
  • An electron Valve comprising a tube of material having substantially the electrical characteristics of glass, an electron source in said tube, a conductor on the outside of said tube and connections for pro.- ducing an electron discharge fromsaid source through the Wall of the tube to said outside conductor.
  • An electron valve comprising a glass tube, a filament in said tube, a conductor on the outside of said tube, and connections for producing an electron discharge from said the Wall of the tube to said outside conductor.
  • An electron valve comprising a tube, an electron source in said tube, a conductor on the outside of said tube, connections for producing an electron discharge from said source through the Wall of the tube to said outside conductor, and a controller disposed in electron receptive relation to said source and arranged to modify the electron discharge to the conductor.
  • An electron valve comprising in combination a tube, a conductor on the outside of said tube, means for producing an electron discharge from inside the tube through the wall of the tube to said outside conductor, and means for modifying thev electron discharge to said conductor.
  • An electron valve comprising in combination a tube, a conductor on the outside of said tube, means for producing an electron discharge from inside the tube through the wall of the tube to said outside conductor, and means forl modifying the electron discharge to saidconductor, said latter meansconsisting of a second conductor on the outside of the tube separated from the first conductor but disposed in electronfreceptive relation to the electron source.
  • An electron valve comprising a body of a solid material which though noncon t ductive to4 electric current becomes conductive to electron flow When heated, a con ductor at one side of said body, means for said solid body to said con- 5 said globe to said separated conductin surfaces.
  • An electron valve comprising a bulb v and an anode outside said bulb;
  • an electron dis- 23. ln an'electrori. valve a globe, separated conducting surfaces on the outside of said globe, and having closely approached opposed zig-zag edges, an electron source Within the globe and means for providing an electron discharge from said source through the wall ofthe globe to said conducting surfaces.
  • An electron valve comprisingin combination, an electron emitting element, an
  • 3l. ln an electron valve, a body of solid material having substantially the electrical characteristics of glass, a conductor at one side of said body, an electron source at the opposite sideof said body, and a source of direct current connected with the conductor and with said .electron source.
  • an electron valve a body having substantially .the electrical characteristics of glass, separated conducting surfaces on one side of said body, and means for creating an electron discharge through said body to said separated conducting surfaces.
  • an electron valve a body of a material having substantially the electrical characteristics of glass, separated conducting surfaces on one side of said body, a receiving instrument connected with one of said conducting surfaces, an aerial connected with the other of said conducting surfaces, and means for creating an electron n' discharge through the body to said sepaconductor on one side of said body, means lll() cally non-conductive material, an electron source wit said tube, an electron target' l on the outside of said tube and in 'electron receptive relation to the source through the wall of the tube, and electrical connections common to said target and to said electron source. 35.
  • a tube of electrically non-conductive material In an electron valve, a tube of electrically non-conductive material, an electron source within said tube, an electron target Aon the outside of said tube and in electron receptive relation to the source through the Wall of the tube, electrical connections common to said target and to said electron source, and an electron defiector on the outside of the tube but separated from the electron target and disposed in electron receptive relation to the source through the wall of the tube.
  • An'electron valve comprising a cathode element and an anode element in electron receptive relation thereto and a body of glass-like material interposed between said two elements.
  • a globe of electrically non-conducting material a filament within said globe, separated conducting elements outside said globe but in electron conducting relation to the filament within the globe, a lighting circuit for the filament, and circuits for the separated external conducting elements connected with the filament circuit.
  • An electron valve comprising in combination, an electron emitting element, an anode element in electron receptive relation thereto, a body of glass-like material interposed between said electron emitting element and anode element and an electron co'ntrolling member separated from the anode element and disposed in electron controlling relation to the electronemitting element.
  • An electron valve comprising a closed "vessel, an anode outside the vessel ⁇ a polarizing conductor inside the vessel and an electron controlling member separated from the anode but disposedv in electron receptive relation to the polarizing conductor.
  • An electron valve comprising a closed vessel having a polarizingr medium at one .of its surfaces and a non-polarizing layer at its other surface, and means for varying the effeet of the polarizing medium.

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Description

H. P. noNLE. RADIO COMMUNICATION.
APPLICATION FILED MAR. 23. |9I8- 1,291,641 v Patented Jan.14,1919.
are obtained by causing an electron unirsi) sTAfrns o HAROLD P. DONIiE, OF MERIDEN, CONNECTICUT, ASSIGNOR TO CONNECTICUT TELE.-
Pa'rENr oFFroE.
PHONE & ELECTRIC COMPANY, INC., OF MERIDEN, CONNECTICUT, A CORPORATION OF CONNECTICUT.
' h tion, `of which the following is a specification.
My present inventionhas reference to an electron valve forv radio telegraphy and telephony.
The so-called valves in use at the. present time possess certain disadvantages, particularly in that they are quite delicate and fragile, are of expensive complicated construction and require especially trained skill for their manufacture. These valves moreover lack sensitiv'eness'to a certain degree, being unable when used as detectors for instance to pick up some of the weaker signals.
The objects of my invention have been to vovercome these disadvantages and to pro- `vide a valve structure which would be of rugged, substantial construction, simple and easy to manufacture, relatively inexpensive and possessed of the desired sensitiveness.
In the valves of the prior art the so-called plate and grid elements have been mounted within the 'evacuated vessel containing the filament and the operation of such valves has been dependent upon the effective resistance of the vacuum alone, the electron flow being from the heated filament through the evacuated space-to the plate, under the control of the interposed grid.
I have discovered that improved resillits charge through the Walls of the globe to conducting 'surfaces located outside the evacuated area and disposed in such relation that when the filament is made the negative terminal of a battery, a fiow of electrons is released from the lighted filament which passes across the evacuated area through the' warm walls of the globe to an externally located conductor which is made a positive terminal of the battery.
My invention accordingly resides in this combination including the globe with the heating filament therein and the externally disposed conducting elements arranged in -electron-receptive relation to the filament within the globe and forming, one an electron target and the other, as I have termed it, an electron defiector. These externally located conducting elements may be, and
RADIO COMMUNICATION.
Speccation of Letters Patent.
-or serrated conformation,
fect increasing electron `control by the mally lighted and i Patented J an. 14, 1919.
J Application led March 23, 1918. Serial No. 224,115.
conveniently are, applied directly to and supported by the globe, being for instance, in the nature of separated metallic deposits made on the outer surface of the globe.
The external conducting elements while separated, I have found, should be relatively closely approached and I have further found that greater effectiveness is attained for some purposes by making the adjoinin edges of said conducting elements in jagged bringing of the deflector nearer to the target, this by reason of the fact that the edges of the defiector are tween the edges of the target. This separation of these edges of the conducting elements may be however a straight line in cases where it is desirable to increase the resistance between deflector and target.
Other features of the invention will be made apparent as the specification proceeds.
In the accompanying drawing I have illustrated my invention embodied in one of its simplest, practical forms but would have it understood that the invention is susceptible of various modifications both as to the possible' circuit arrangements and otherwise, without departure from the true spirit and scope of the invention.
The figure is a partly sectional view of a simple form of the electron valve with one arrangement of circuits for a radio receiving set.
The globe or tube Which is designated 1, is indicated as an evacuated vessel of a material such as glass or quartz, which is nornon-conductive to electricity but which, I have found, when warmed, is conductive to, or at least, permits of an electron fiow., Within said `globe there is mounted a suitable heating filament 2. This globe may have an ordinary lamp base such as indicated, provided with terminals 3 and 4 for the filament.
The external conducting elements, in the present illustration are formed as separated sections of a coating or covering applied directly to the globe, one of said sections 5 constituting in effect a cap covering the end of the globe and the other section 6, constituting in effect a band about the-middle portion of the globe. These two elements are of suitable conducting material such as silver or copper and may be applied to the globe in any suitable way, such as by electhis latter 1n ef- I extended up bethe delector. lin order that the deilector iny tro-deposition. ylhe end or cap' portion 5, is it will be seen, of greater area than the band portion 6, and is for this reason better suited to form the plate, or as ll have termed it, the electron target, while the band or element of lesser conducting area, is suited to take the place of the grid and form, as l call it, the electron delector.
'llhe two external conducting elements are shown as having their adjoining edges relatively closely approached but as having a clear insulating space 7 therebetween.l The adjoining edges of the two elements furthermore, are indicated at 8 as of serrated or jagged outline, thus providing a zigzag intervening space between the two members. This in edect increases the areas of the two elements which are opposed to each other.
lt is desirable that as many as possible of the electrons which control flow from the filament to the target shall be influenced by uence these electrons, its electrical field should be as close as possible to the target. llhe portion of the target not aect'ed by the electrical field from the deector will rcceive an uninterrupted owof the electrons from the filament. As' an amplifier, the action depends upon the volume of electron control. rllhe deector should therefore control as great a percentage of the electron flow as possible. rlhis in eect is what is accomplished by the intermeshing or overshadovving l of the target by the deector.
lln the particular instance illustrated, the valve is shown in use as a detector but it will be apparent to those skilled in the art that it is not limited to such a purpose, being adapted for instance for use also as an amplier or as a generator of sustained oscillations Referring now to said diagram, the heating filament is indicated as energized by a battery A, the electron target element 5 is shown as connected in a receiving circuit to the-positive terminal of a battery B through a set of telephone receivers 9, and the electron dei-lector 8, is indicated connected through a small stopping condenser 16, with the antennae or aerial 10 and with the inductance ll, said inductance being connected With the ground or counterpoise 12 and having a connection 13 with one side of the lilament, this latter connection being common also to the negative terminal of the battery B.
theory of operation of this set, briedy, is substantially frornrthe incandescent filament act as carrier's for the energy of the battery B from the target to the lament, enablmg said batas follows: When the la-` vment is lighted by the -source of current at A, the globe, which is of glass orf other maaesinet tery to force a certain amount of current through the wall of the globe and across the intervening space to vthe lament. lf, a charge is now placed upon the electron ,delector element 6 by means of rectified radio oscillations for instance, this rectificationl being due to theunilateral conductivity bedeflector, the
tween the filament and electron flow of electrons will be aided or retarded as the case may be, depending .upon the polarity of the charge, and a very slight charge upon this conducting element 6 is sufficient to affect the flow of current through the other branch, which includes the receivers, to a large degree. The conducting element 6 thus acts, in'e'ect, as a deflect/or and by its deection of the electrons to a secondary path, serves to aHect-the receiving circuit and thus produce a true duction of the radio signals vrlhe magniiied e'ects obtained in the receiving circuit enable the detection of very and hence make the device much more sensitive, enabling the detection of such Weak signals as would probably havel been lost reproweak signals heretofore. lt will be noted that the' opera- I' tlon depends upon the electrcn flow throughl the warmed glass or other normally nonconducting wall of the globe and notsimply upon the flow through an evacuated space, as heretofore. lln other words, the eiiciency of the device is not dependent maintenance of a proper vacuum.
lhe electron discharge at the inside ofthe bulb may be considered, because of its unilateral conductivity, a polarizing conductor or polarizing medium. The electrode on the outside of the bulb which is of a material that does not polarize in contact with the glass constitutes what may be termed a nonn polarizing layer or conductor. 'lhe controlling eect of the deflector, it will be evisolely upon the dent from the foregoing, is to modify the current conveyed by the electron discharge.
The circuit conductors may be 'connected with the externally located conducting elements in any suitable way and in the present disclosure ll have shown such conductors' as electricicurrent becomes conductive to electron nlow when warmed, of a conductor on one side of sald globe, and means for creatllo in an electron discharge from the opposite si e of the globe through the wall'of the globe to said `conductor.
3. The combination with a heated solid body of a material which though non-conductive to electric vcurrent at normal temperature becomes conductive to electron flow when heated, of a conductor at one side of said heated solid body, and means for creating an electron discharge through said heated solid body to said conductor.
4. In apparatus of the character set forth, the combination of a body of solid material non-conductive to electric current at normal temperature but conductive to electron flow When heated, aconductor at one side of said solid body, and means for heating and for producing an electron discharge through said solid body to said conductor.
5. In apparatus of the character set forth, the combination of a body of solid material non-conductiveto electric current at normal temperature but conductive to electron flow when heated, a conductor in intimate contact with said solid body, and means for heating and for producing an electron discharge through said solid body to said conductor.
6. In combination with a body of heated glass-like material, a conductor in contact therewith,- and means for producing an elecl tron discharge through said heated glass-like body to said conductor.
7. In apparatus of the character set forth, thecombination With a body of material having substantially the electrical characteristics of glass, a conductor having substantially the electrical characteristics of silver in contact with said body, and means for creating an electron discharge through `said body to said conductor.
8. An electron valve comprising in combination a Wall of material having substantially the electrical characteristics of glass, a conductor at one side of said wall an electron source at the opposite side of said wall, a source of electric current connected with the conductor, and electrical connections for enabling the electron discharge to establish flow of said current through said wall.
9. An electron valve comprising in combination a body of a material which though normally non-conductive to electric current becomes conductive to electron flow when warmed, a conductor on one side of said body, an electron source at the opposite Side of said body, a source of electric current conductor, and electrical connections for enabling the electron discharge to establish flow. of said lcurrent through said body.
10. An electron valve comprising in" combination a Wall of material having substantially the electrical characteristics of glass, a conductor at one side of said Wall, a filament at the opposite side of said Wall and a filament through heated, a filament in said tube, a conductor- ,on the outside of said tube, and connections for enabling an electrondischarge from the filament through the wall ofthe tube to said outside conductor.
12. An electron Valve comprising a tube of material having substantially the electrical characteristics of glass, an electron source in said tube, a conductor on the outside of said tube and connections for pro.- ducing an electron discharge fromsaid source through the Wall of the tube to said outside conductor.
13. An electron valve comprising a glass tube, a filament in said tube, a conductor on the outside of said tube, and connections for producing an electron discharge from said the Wall of the tube to said outside conductor.
14. An electron valve comprising a tube, an electron source in said tube, a conductor on the outside of said tube, connections for producing an electron discharge from said source through the Wall of the tube to said outside conductor, and a controller disposed in electron receptive relation to said source and arranged to modify the electron discharge to the conductor.
15. An electron valve comprising in combination a tube, a conductor on the outside of said tube, means for producing an electron discharge from inside the tube through the wall of the tube to said outside conductor, and means for modifying thev electron discharge to said conductor.
16. An electron valve comprising in combination a tube, a conductor on the outside of said tube, means for producing an electron discharge from inside the tube through the wall of the tube to said outside conductor, and means forl modifying the electron discharge to saidconductor, said latter meansconsisting of a second conductor on the outside of the tube separated from the first conductor but disposed in electronfreceptive relation to the electron source.
17. An electron valve comprising a body of a solid material which though noncon t ductive to4 electric current becomes conductive to electron flow When heated, a con ductor at one side of said body, means for said solid body to said con- 5 said globe to said separated conductin surfaces.
' material which though normally non-cony 19'. ln an electron Valve, a globe, separated conducting surfaces on the outside of said globe, a receiving instrument connected withone of said conducting surfaces, an aerial connected with the other of said conducting surfaces, and means for creating van electron discharge from inside the globe through the wall of the same to said outside conducting surfaces.
20. ln an electron valve, a body-'of a solid ductor on one side of said body, means for heating and for forcing an electron discharge through said solid bodyto said con ductor, and meansA for modifying the electron discharge to said conductor comprising a second conductor in the path of electron discharge.
22. An electron valve, comprising a bulb v and an anode outside said bulb;
and means for enabling an electron dis- 23. ln an'electrori. valve, a globe, separated conducting surfaces on the outside of said globe, and having closely approached opposed zig-zag edges, an electron source Within the globe and means for providing an electron discharge from said source through the wall ofthe globe to said conducting surfaces.
24C.' An electron valve comprisingin combination, an electron emitting element, an
' anode element in electron receptive relation thereto and a bodyof glass-.like material interposed between sai-d electron emitting element andl anode element. y
25'. ln Aan' electron valve, an evacuated tube of a material havingsubstantially the electrical characteristics of glass, a filament within said tube, a conductor on the outside of said tube, a receiving'circuit connected with said conductor, a controller for modifying the electron discharge to said conductor, and an aerial circuit connected to said controller..
26. ln an electron valve, a globe, a cap .of electrically conductive material applied to said globe, a filament within the globe,
charge from said lament through the wall of the globe to said cap.
realen 27. ln an electron valve, a globe, a cap of electrically 'conductive material applied to said globe, a lament within the globe,
means for enabling an electron discharge modify the electron discharge to said conductor.
A29. ln apparatus of the character set forth, the combination with -abody of solid material which though normally non-conductive to electric current becomes conductive to electron dow when` warmed, of a vconductor on one side of said body, means for creating an electron discharge through said solid body to said conductor, and means for modifying the electron "discharge to said conductor.
80. ln apparatus of the character4 setforth, the combination witha body of solid material which 'though normally non-con ductive to electric current becomes conductlve to electron How when warmed, of a for creating an electron discharge through said solid body to said conductor, and a second conductor disposed in the path of electron How for. modifying the electron flow lto the first conductor.
3l. ln an electron valve, a body of solid material having substantially the electrical characteristics of glass, a conductor at one side of said body, an electron source at the opposite sideof said body, and a source of direct current connected with the conductor and with said .electron source.
32. ln an electron valve, a body having substantially .the electrical characteristics of glass, separated conducting surfaces on one side of said body, and means for creating an electron discharge through said body to said separated conducting surfaces.
33. lln an electron valve, a body of a material having substantially the electrical characteristics of glass, separated conducting surfaces on one side of said body, a receiving instrument connected with one of said conducting surfaces, an aerial connected with the other of said conducting surfaces, and means for creating an electron n' discharge through the body to said sepaconductor on one side of said body, means lll() cally non-conductive material, an electron source wit said tube, an electron target' l on the outside of said tube and in 'electron receptive relation to the source through the wall of the tube, and electrical connections common to said target and to said electron source. 35. In an electron valve, a tube of electrically non-conductive material, an electron source within said tube, an electron target Aon the outside of said tube and in electron receptive relation to the source through the Wall of the tube, electrical connections common to said target and to said electron source, and an electron defiector on the outside of the tube but separated from the electron target and disposed in electron receptive relation to the source through the wall of the tube.
36. In an electron valve, a tube of electrically non-conductive material, an electron source within said tube, an electron target on the outside of said tube and in electron receptive relation to the source through the wa-ll' of the tube, electrical connections common 'to saidl target and to said electron source, and an electron deiector disposed in electron receptive relation to the source, but
separated .from the target.
37. An'electron valve, comprising a cathode element and an anode element in electron receptive relation thereto and a body of glass-like material interposed between said two elements.
V38. The process of creating an electron liow through a solid body which is non-con-v ductive tq electric current at normal temperature, whlch consists in heating the same to render it conductive to electron iow, and
subjecting said solid body while thus heated to an electron discharge.
39. The process of producing an electron discharge, comprising heating a globe 'of normally non-conductive material to render the same conductive to electron {iow and 4creating an electron discharge through the wall of said globe while the same is heated. 40. The process of producing an electron discharge through a solid body which is normally non-conductive to electric current,
which comprises heating said body to rendering an electron discharge through a body of glass-like material to a receiving circuit, and impressing Varying charges on a second conductor to vary the electron flow and thereby vary the eiect on the receiving circuit.
43. The method of producing a flow of direct current through 4a body of heated glass which consists in 'impressing a charge of direct current on one side of the glass while discharging an electron iow against the opposite side of said glass.
44. In an electron valve, a globe, a lilament within said globe, separated conducting areas on the outer surface of said globe,
la lighting circuit of which the filament forms a part and circuits including said separated externally located conducting areas and having a common connection with the lighting circuit.
45. In combination, a globe of electrically non-conducting material, a filament within said globe, separated conducting elements outside said globe but in electron conducting relation to the filament within the globe, a lighting circuit for the filament, and circuits for the separated external conducting elements connected with the filament circuit.
46. An electron valve, comprising in combination, an electron emitting element, an anode element in electron receptive relation thereto, a body of glass-like material interposed between said electron emitting element and anode element and an electron co'ntrolling member separated from the anode element and disposed in electron controlling relation to the electronemitting element.
47. In an electron valve, a globe, an electron emitting element therein, an anode conductor outside the globe and external circuit connection for enabling the conduction 'of electrical energy from the ,electron emitting element through' the wall of the globe to the external anode aforesaid. Y
48. An electron valve, comprising a closed "vessel, an anode outside the vessel` a polarizing conductor inside the vessel and an electron controlling member separated from the anode but disposedv in electron receptive relation to the polarizing conductor.
49. An electron valve, comprising a closed vessel having a polarizingr medium at one .of its surfaces and a non-polarizing layer at its other surface, and means for varying the effeet of the polarizing medium.
50. The herein HAROLD r. noNLn.
disclosed process, comprising `producing a polarizing medium at one -surface of a laver of glass-like material hav-
US22411518A 1918-03-23 1918-03-23 Radio communication. Expired - Lifetime US1291641A (en)

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