US1424091A - Radioelectron oscillator - Google Patents
Radioelectron oscillator Download PDFInfo
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- US1424091A US1424091A US272357A US27235719A US1424091A US 1424091 A US1424091 A US 1424091A US 272357 A US272357 A US 272357A US 27235719 A US27235719 A US 27235719A US 1424091 A US1424091 A US 1424091A
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- electrons
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- grid
- oscillator
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01J—ELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
- H01J19/00—Details of vacuum tubes of the types covered by group H01J21/00
- H01J19/02—Electron-emitting electrodes; Cathodes
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01J—ELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
- H01J2893/00—Discharge tubes and lamps
- H01J2893/0001—Electrodes and electrode systems suitable for discharge tubes or lamps
Definitions
- My present invention relates to radio-electron oscillators, and consists in such an oscillator as affords a double control by means of a medium, preferably a grid, in front and a medium, preferably a cylinder, behind a common source of electrons; both operating in concert to change the speed or direction of the electrons which are being emitted at their common source and are attracted toward other media.
- the number of these liberated or secondary electrons determines the amount of current inthe oscillating circuit of the .ordinary transmitting station.
- a primary object of this invention is to provide'a radio-electron oscillator capableof.
- a fur-' ther object is to provide a simple means for controlling. this energy output.
- theRadiotron 12 to 19 inclusive is used in conjunction with direct current generators 1 and 2, a fixed condenser 3, a variable condenser 4, a telephone transformer 5, a power transformer 6, a radio transformer 78, a microphone transmitter 9, a key 10, and a battery 11.
- Radiotron or oscillator consists of an inner metallic clyinder 12, an outer metallic cylinder 13, incandescent light filaments 14 and 15, acting when hot as sources of electrons, a light metallic grid 16, of annular form, interposed between and spaced from the cylinders 12 and 13, a comparatively heavy metallic grid 17, of annular form preferably interposed between and spaced from the grid 16 .and the outer cylinder 13, and annular insulating closures 18 and 1 9, interposed and securedbetween the cylinders 12 and 13.
- the two generators 1 and 2 are connected in series.
- the negatively charged end of the generators is connected to the middle of the secondary coil of the transformer 6.
- the positive end of the generators is connected to the heavy grid 17.
- the outer cylinder 13 is joined to one side of the oscillation circuit 17, while the other side of said oscillation circuit is connected to a point between said generators as shown.
- the incandescent lamp filaments 14 and 15 represent two of a number of parallel filaments arranged in a cylindrical form around the cylinder 12. These filaments electrically joined in a parallel, are connected to the two terminals of the power transformer 6, from which power is drawn to keep the filaments at the desired temperature for the proper emission of electrons.
- control elements and 16 are con-v Patented July 25, 1922. Application filed January 21, 1919. .Serial No. 272,357. I
- the condenser 3 is shunted across the generator 1 to allow a greater effect of the oscillations in the circuit 4-7, upon the heavy grid 17.
- a high vacuum is maintained in the space between the inner and outer cylinders 12 and 13, a conduit 21 leading from said space to vacuum creating means, which is not of my invention and is, therefore, not shown.
- the cylinders are immersed in oil with a view to preserving the vacuum and increasing the insulation While tending to maintain the instrument as a whole in a cool state. See labeled arrows in Fig. 1.
- the filaments 14, 15 being heated by power from the transformer will be radiating electrons, which will be strongly attracted toward the heavy grid 17, since the latter is maintained at a high positive potential by the generators 1 and 2.
- the outer cylinder 13, being connected through the inductance 7 to a point between the generators l and 2, will be maintained at a potential less positive than the heavy grid 17.
- the voltage of the generators 1 and 2 may be independently varied so as to afford any desired potential difference between the grid 17 and the cylinder 13, and also between said grid and cylinder and the filaments 14 and 15.
- an oscillation circuit consisting of the variable condenser 4 and the radio transformer element 7 m0- mentarily causes an increase in the electron density on the cylinder 13 and synchronously renders the grid .17 more positive, thereby accelerating the speed of the electrons, an amplified volume of electrons will be released by their impacts on the cylinder 13, and these electrons Will be more strongly attracted toward the grid 17 and in consequence more electrons will pass from the variable condenser 4 to the cylinder 13.
- the Radiotron like the dynatron has a negative resistance, it is unstable and any slight variations in potential in any of the connecting circuits will start the oscillations in the oscillation circuit 4-7.
- the power is supplied by the generators 1 and 2.
- the oscillation circuit 4-7 lessens the operation of the dynatron in which the the electron density on the cylinder 13 and increases the number of electrons on the grid 17, thereby lessening the speed of the elec-' trons, fewer secondary electrons will be driven olf at 13 and a smaller electronic current will flow from the condenser 4.
- the magnitude of this electron current determines the energy supplied by the generators 1 and 2 and also the energy in the oscillation circuit 47, which in turn determines the energy radiated from the antenna 20.
- the circuits that I illustrate are not materially different from those shown in Radio telephony by Goldsmith, Figure 176, page 177. The chief differences are those required for large capacity circuits.
- one terminal of the telephone transformer 5 is connected to the inner cylinder 12 instead of being con nected directly to the filaments as in all other types of vacuum tube oscillators and ampli-,, fiers extant.
- the inner cylinder is new, as is the design that obviates the necessity of employing a glass container for the elements in vacuo.
- the inner cylinder by its proximity to the hot elements, becomes negatively charged, and the grid 16 will also be negatively charged under normal conditions.
- the driving of electrons off the cylinder 13 under increased bombardment, even though it is maintained cool by the cooling vat, will be understood when attention is directed to heavy plate P, at no time reaches a temperature at which it would release many electrons due to its heat. But a violent impact by one electron, at ordinary temperatures, shakes loose many electrons.
- the energy supplied by the generators 1 and 2 will cause strong osciluo'r equivalents thereof at opposite sides of a common source of electrons, and said elements acting synchronously to amplify or diminish, the speed of the electrons toward the element 13, constitute an important characteristic of my invention.
- my novel oscillator eliminates the glass container usually necessary for such a device.
- the cylinders 12 and 13 have annular insulating closures 18 and 19.
- Such metallic and insulating materials are not completely impervious to gases.
- My novel device is so adapted that it may be placed in a bath, preferably of oil, thereby excluding the air from thejoints and pores' of its outside walls.
- This bath also serves as an efficient method for keeping the device from becoming too-hot.
- a source of electrons In a radio-electron oscillator, a source of electrons, an attracting medium, a grid in front and a medium behind said source and possessed of the capacity of s nchronous action to change the speed of e ectrons toward the attracting medium, the said attracting medium being so perforated that some of the electrons may pass on to another medium, where their impacts may free other electrons, and the said second named medium.
- a source of electrons In a radio-electron oscillator, a source of electrons, an attracting metallic grid, an outer metallic cylinder, a grid in front and a cylinder behind said source and possessed of the capacity of synchronous action to change the speed of electrons toward said attracting metallic grid, through which some of these electrons'may pass to said outer metallic cylinder less strongly attracting electrons.
- an inner metallic cylinder In a radio-electron oscillator, an inner metallic cylinder, an outer metallic cylinder, lamp filaments spaced and insulated from said cylinders, metallic grids spaced and insulated from said cylinders and filaments, insulating closures for space between said cylinders, electric connections for said cylinders, filaments and grids, said closures adapted for excluding gases from contact with said cylinders, and means for removing practically all gases from the space enclosed between said cylinders and closures.
- an inner metallic cylinder In a radio-electron oscillator, an inner metallic cylinder, an outer metallic cylinder, electric light filaments spaced and insulated from said cylinders, metallic grids spaced between said filaments and outer cylinder and insulated therefrom, closures for the space between said cylinders, electric connections for said cylinders, filaments and grids, means for removing the gases from said enclosed space, and a fluid bath for excluding gases from contact with the outer wall of elements enclosing said space.
Description
G. R. FOUNTAIN. RADIOELECTRON OSCILLATOR.
- APPLICATION FILED IAN. 21,1919. 1,424,
T0 mcu'um PUMP WWI Inca C. R. FOUNTAIN.
RADIOE LECTRON OSCILLATOR.
APPLICATION FILED IAN.21,1949.
2 SHEETS-SHEET 2.
UMTED STATES PATENT OFFICE.
CLAUDE R. FOUNTAIN, OF MACON, GEORGIA.
RADIOELECTRON OSCILLATOR.
To all whom; it may concern:
Be it known that I. CL icon R. FOUNTAIN, a citizen of the United States, residing at Macon, in the county of Bibb and State of Georgia, have invented new and useful In provements in Radioelectron Oscillators, of which the following is a specification.
My present invention relates to radio-electron oscillators, and consists in such an oscillator as affords a double control by means of a medium, preferably a grid, in front and a medium, preferably a cylinder, behind a common source of electrons; both operating in concert to change the speed or direction of the electrons which are being emitted at their common source and are attracted toward other media.
- electrons, two control elements, one on either side of this source of electrons, a perforated medium strongly attracting electrons, and another medium capable of liberating electrons under violent electronic impacts.
The number of these liberated or secondary electrons determines the amount of current inthe oscillating circuit of the .ordinary transmitting station.
' There are also provided means for insulating the various elements from each other, means for keeping the space between the ele-' ments in ahighly vaouous state, and means for keeping the device from becoming too A primary object of this invention is to provide'a radio-electron oscillator capableof.
v handling a very large energy output. A fur-' ther object is to provide a simple means for controlling. this energy output.
In the installation of my novel oscillator which I denominate a Radiotron, there may' be used any of the standard methods of comblning an oscillator withcapacities, inductances, antenna, electric generators, batteries, etc. for the radiation of electromagnetic waves. I willconfine mydescription to one Speeification of Letters Patent.
Similar numerals of reference designate corresponding drawings.
Referring to the diagrams, Figures 1 and 2, it will be found that theRadiotron 12 to 19 inclusive) is used in conjunction with direct current generators 1 and 2, a fixed condenser 3, a variable condenser 4, a telephone transformer 5, a power transformer 6, a radio transformer 78, a microphone transmitter 9, a key 10, and a battery 11. The
parts in both views of the Radiotron or oscillator alone. consists of an inner metallic clyinder 12, an outer metallic cylinder 13, incandescent light filaments 14 and 15, acting when hot as sources of electrons, a light metallic grid 16, of annular form, interposed between and spaced from the cylinders 12 and 13, a comparatively heavy metallic grid 17, of annular form preferably interposed between and spaced from the grid 16 .and the outer cylinder 13, and annular insulating closures 18 and 1 9, interposed and securedbetween the cylinders 12 and 13. i
The two generators 1 and 2 are connected in series. The negatively charged end of the generators is connected to the middle of the secondary coil of the transformer 6. The positive end of the generators is connected to the heavy grid 17. The outer cylinder 13 is joined to one side of the oscillation circuit 17, while the other side of said oscillation circuit is connected to a point between said generators as shown.
The incandescent lamp filaments 14 and 15 represent two of a number of parallel filaments arranged in a cylindrical form around the cylinder 12. These filaments electrically joined in a parallel, are connected to the two terminals of the power transformer 6, from which power is drawn to keep the filaments at the desired temperature for the proper emission of electrons.
The control elements and 16 are con-v Patented July 25, 1922. Application filed January 21, 1919. .Serial No. 272,357. I
11 and the microphone transmitter 9, or the key 10. The condenser 3 is shunted across the generator 1 to allow a greater effect of the oscillations in the circuit 4-7, upon the heavy grid 17.
A high vacuum is maintained in the space between the inner and outer cylinders 12 and 13, a conduit 21 leading from said space to vacuum creating means, which is not of my invention and is, therefore, not shown. Moreover the cylinders are immersed in oil with a view to preserving the vacuum and increasing the insulation While tending to maintain the instrument as a whole in a cool state. See labeled arrows in Fig. 1.
From the foregoing it will benoted that the filaments 14, 15 being heated by power from the transformer will be radiating electrons, which will be strongly attracted toward the heavy grid 17, since the latter is maintained at a high positive potential by the generators 1 and 2.
It will also be notedthat the outer cylinder 13, being connected through the inductance 7 to a point between the generators l and 2, will be maintained at a potential less positive than the heavy grid 17. The voltage of the generators 1 and 2 may be independently varied so as to afford any desired potential difference between the grid 17 and the cylinder 13, and also between said grid and cylinder and the filaments 14 and 15.
It will be apparent that if the electrons given off by the filaments 14 and 15 and attracted by grid 17 and cylinder 13 impinge against said cylinder 13 with sufficient speed, more electrons will be driven off from the cylinder 13 than plunge into it, and these electrons emanating from the cylinder 13 will be attracted to the grid 17. An electron current will thus flow from cylinder 13 to grid 17. In the event that the speed of the electrons is below a predetermined point less electrons will be released by their impacts than plunge into it with the result that the electron current will flow from the grid 17 to the cylinder 13. If an oscillation circuit consisting of the variable condenser 4 and the radio transformer element 7 m0- mentarily causes an increase in the electron density on the cylinder 13 and synchronously renders the grid .17 more positive, thereby accelerating the speed of the electrons, an amplified volume of electrons will be released by their impacts on the cylinder 13, and these electrons Will be more strongly attracted toward the grid 17 and in consequence more electrons will pass from the variable condenser 4 to the cylinder 13. Inasmuch as the Radiotron like the dynatron has a negative resistance, it is unstable and any slight variations in potential in any of the connecting circuits will start the oscillations in the oscillation circuit 4-7. The power is supplied by the generators 1 and 2. In case the oscillation circuit 4-7 lessens the operation of the dynatron in which the the electron density on the cylinder 13 and increases the number of electrons on the grid 17, thereby lessening the speed of the elec-' trons, fewer secondary electrons will be driven olf at 13 and a smaller electronic current will flow from the condenser 4. The magnitude of this electron current determines the energy supplied by the generators 1 and 2 and also the energy in the oscillation circuit 47, which in turn determines the energy radiated from the antenna 20.
The circuits that I illustrate are not materially different from those shown in Radio telephony by Goldsmith, Figure 176, page 177. The chief differences are those required for large capacity circuits. The two generators 1 and 2, taking the place of the two parts of the battery B, while the transformer 6 takes the place of the'battery B In my improvement one terminal of the telephone transformer 5 is connected to the inner cylinder 12 instead of being con nected directly to the filaments as in all other types of vacuum tube oscillators and ampli-,, fiers extant. The inner cylinder is new, as is the design that obviates the necessity of employing a glass container for the elements in vacuo. The inner cylinder, by its proximity to the hot elements, becomes negatively charged, and the grid 16 will also be negatively charged under normal conditions. The driving of electrons off the cylinder 13 under increased bombardment, even though it is maintained cool by the cooling vat, will be understood when attention is directed to heavy plate P, at no time reaches a temperature at which it would release many electrons due to its heat. But a violent impact by one electron, at ordinary temperatures, shakes loose many electrons.
Since variations in the current of the primary of the transformer 5 will cause differences in the potentials at the terminals of the secondary coil of 5, it will be evident that the potentials of 12 and 16 will be synchronously but oppositely changed by such variations of current in 5.
It will also be evident that these changes in potential of 12 and 16 will operate in concert to change the speed of the electrons from the filaments 14 and 15 toward 13 and 17 That is, at one instance when 12 is positively charged and 16 is negatively charged, the effect of each will be to decrease the speed of the electrons toward 13 and 17. At another instant, the charges on 12 and 16 will be reversed and both will act to increase the speed of the electrons striking 13 and this will liberate a greater number of electrons, thus increasing the electron current from 13 to 17.
Irrespective of the theory of operation of such a device, the energy supplied by the generators 1 and 2 will cause strong osciluo'r equivalents thereof at opposite sides of a common source of electrons, and said elements acting synchronously to amplify or diminish, the speed of the electrons toward the element 13, constitute an important characteristic of my invention.
It will also be noted that my novel oscillator eliminates the glass container usually necessary for such a device. In order to obtain a space in which a sufiiciently good vacuum may be maintained, the cylinders 12 and 13 have annular insulating closures 18 and 19. Such metallic and insulating materials are not completely impervious to gases.
' My novel device is so adapted that it may be placed in a bath, preferably of oil, thereby excluding the air from thejoints and pores' of its outside walls. This bath also serves as an efficient method for keeping the device from becoming too-hot. These features constitute important characteristics of my invention.
Having described my invention, what I claim is:
1. In a radio-electron oscillator, a source of electrons, an attracting medium, a grid in front and a medium behind said source and possessed of the capacity of s nchronous action to change the speed of e ectrons toward the attracting medium, the said attracting medium being so perforated that some of the electrons may pass on to another medium, where their impacts may free other electrons, and the said second named medium.
2. In a radio-electron oscillator, a source of electrons, an attracting metallic grid, an outer metallic cylinder, a grid in front and a cylinder behind said source and possessed of the capacity of synchronous action to change the speed of electrons toward said attracting metallic grid, through which some of these electrons'may pass to said outer metallic cylinder less strongly attracting electrons.
3. In a radio-electron oscillator, an inner metallic cylinder, an outer metallic cylinder, lamp filaments spaced and insulated from said cylinders, metallic grids spaced and insulated from said cylinders and filaments, insulating closures for space between said cylinders, electric connections for said cylinders, filaments and grids, said closures adapted for excluding gases from contact with said cylinders, and means for removing practically all gases from the space enclosed between said cylinders and closures.
4. In a radio-electron oscillator, an inner metallic cylinder, an outer metallic cylinder, electric light filaments spaced and insulated from said cylinders, metallic grids spaced between said filaments and outer cylinder and insulated therefrom, closures for the space between said cylinders, electric connections for said cylinders, filaments and grids, means for removing the gases from said enclosed space, and a fluid bath for excluding gases from contact with the outer wall of elements enclosing said space.
In testimon whereof I afiix my signature.
LAUDE R. FOUNTAIN.'
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US272357A US1424091A (en) | 1919-01-21 | 1919-01-21 | Radioelectron oscillator |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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US272357A US1424091A (en) | 1919-01-21 | 1919-01-21 | Radioelectron oscillator |
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US1424091A true US1424091A (en) | 1922-07-25 |
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US272357A Expired - Lifetime US1424091A (en) | 1919-01-21 | 1919-01-21 | Radioelectron oscillator |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2498267A (en) * | 1946-04-04 | 1950-02-21 | Rca Corp | High-frequency amplifier |
US2791371A (en) * | 1956-01-09 | 1957-05-07 | Jr John S Foster | Radio frequency ion pump |
-
1919
- 1919-01-21 US US272357A patent/US1424091A/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2498267A (en) * | 1946-04-04 | 1950-02-21 | Rca Corp | High-frequency amplifier |
US2791371A (en) * | 1956-01-09 | 1957-05-07 | Jr John S Foster | Radio frequency ion pump |
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