US1797205A - Electron tube apparatus - Google Patents

Electron tube apparatus Download PDF

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Publication number
US1797205A
US1797205A US109498A US10949826A US1797205A US 1797205 A US1797205 A US 1797205A US 109498 A US109498 A US 109498A US 10949826 A US10949826 A US 10949826A US 1797205 A US1797205 A US 1797205A
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United States
Prior art keywords
filament
current
tube
electron tube
tube apparatus
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Expired - Lifetime
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US109498A
Inventor
Harry W Houck
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Dubilier Condenser Corp
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Dubilier Condenser Corp
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Priority to US109498A priority Critical patent/US1797205A/en
Priority to GB26400/26A priority patent/GB271025A/en
Application granted granted Critical
Publication of US1797205A publication Critical patent/US1797205A/en
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J1/00Details of electrodes, of magnetic control means, of screens, or of the mounting or spacing thereof, common to two or more basic types of discharge tubes or lamps
    • H01J1/02Main electrodes
    • H01J1/13Solid thermionic cathodes
    • H01J1/15Cathodes heated directly by an electric current

Definitions

  • This invention relates to a method and apparatus for utilizing alternating current to heat the filament or cathode of a vacuum tube, particularly a vacuum tube designed for circuits requiring electronic emission.
  • the filaments of vacuum tubes have been heated mostly by current from a battery, and attempts to utilize alternating current for the same purpose have generally resulted in failure because for one thing the filament ex erienced a change of temperature during eacii cycle. Hence a steady flow of electrons could not be maintained;
  • I also operate the filament with current at relatively low voltage and impart to the filament a non-inductive arrangement and shape. A tube with such filament has superior operating characteristics.
  • Figure 1 is a side view of a tube partly broken away at the top to indicate a construction embodying my invention.
  • Figures 2 and 3 are views showing circuits in which such a tube can be connected.
  • the numeral 1 indicates the usual bulb or container made of glass or some other insulating material and evacuated to remove the air. It contains an anode 2 in the form of a cylidrical tube within which is a gride 3, spiral in shape, and a filament 4; the grid being between the filament and the anode 2.
  • the base of the tube has a number of contact studs 5, one of which is connected to the source of alternating current.
  • the glass container 1 is mounted in the usual metallic base 6, and if desired a conductor 7 may be connected to the middle of the filament and let out through the base of the tube 6, and there connected to an additional contact stud, similar to the studs 5, which may be provided for the purpose.
  • the filament 2 is made short and thick, and the two parts thereof are as close together as possible.
  • a filament of this type will develop enough heat and retain a sufficient amount of such heat during each alternation of current to prevent any appreciable diminution in the amount of electrons therefrom, and the tube will therefore operate in a satisfactory manner.
  • FIG 2 two ends of such filament are shown connected to a secondary winding 8, energized by a primary winding 9 which may be connected by conductors 10 to a suitable
  • the numeral 11 indicates a conductor joined to the mid point of the winding 8 and running to a battery 12 connected to a pair of telephones or a loud speaker 13, also united by a conductor 14 to the anode 2.
  • the numeral 15 indicates the secondary winding of an amplifying transformer joined to the grid 3 and energized by a primary 16 which may be connected to another tube of a wireless receiving set in the usual manner.
  • the other terminal of the secondary 15 is joined by a conductor 17 and condenser 18 to the conductor 11.
  • the filament 4 will be heated by alternating current generated in the winding 8 and the mid point of this winding being connected to the battery 12, is also joined to the conductor 14 and anode 2 so that a bridge of electrons can be maintained between the filament and the anode 2 in the usual way.
  • the transformer 1516 can be one of the usual transformers used between the successive tubes of a wireless radio set to produce amplification. V
  • the filament 4 is energized as before by alternating current produced in the secondary winding 8, but the mid point of the filament is connected by a wire 11 to the battery 12 from the opposite side of which the circuit leads through the phone 13 and conductor 14 to the anode 2.
  • the grid is energized as before by a secondary 15 and primary 16, but one terminal of the secondary is joined to the Wire 11 which leads to the battery 12.
  • a filamentary cathode for emitting a flow ofelectrons therefrom to the plate, and heated directly by a source of alternating current con nected thereto, the filament having a low voltage drop with a relatively large cross-sectional area and adapted to carry a heavy heating current, the filament also being doubled upon itself so that its opposite leg portions react upon each other to reduce the electromagnetic effect of the heating current to such value that the voltage, temperature and electromagnetic effects on the said flow of electrons to the plate due to the cyclic changes in the heating current are neutralized.
  • a filamentary cathode for emitting a flow of elec trons to the plate, and heated directly by a source of alternating current connected thereto, the filament bein thick and having a low Voltage drop and a apted to carry a heavy heating current, the filament also being doubled upon itself and having its leg portions lying in such spaced relation with respect to each other as to cause interaction between them and enable the magnetic field caused by the current in one leg to oppose the magnetic effect of the current in the other leg to such extent that the voltage, temperature and magnetic effects due to the, cyclic changes in said alternating current will be neutralized with respect to their influence on said flow of electrons to the plate.

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  • Manufacture Of Electron Tubes, Discharge Lamp Vessels, Lead-In Wires, And The Like (AREA)
  • General Induction Heating (AREA)
  • Control Of Resistance Heating (AREA)

Description

March 17, 1931. H W, HOU K 1,797,205
v ELECTRON TUBE APPARATUS Filed May 1'7, 1926 (C we [NV NTOR Harry M auc/c Patented 1931-1,
UNITED .srA'rEs PATENT oFncE HARRY W. HOUCK, OF NEW YORK, N. Y., ASSIGNOB TO DUBILIEB CONDENSER COR- IQRATION, OF NEW YORK, N. Y., A GOBPOBATION-OF DELAWARE ELECTRON TUBE APPARATUS Application filed May 17, 1926. Seriallio. 109,498.
This invention relates to a method and apparatus for utilizing alternating current to heat the filament or cathode of a vacuum tube, particularly a vacuum tube designed for circuits requiring electronic emission.
Heretofore, the filaments of vacuum tubes have been heated mostly by current from a battery, and attempts to utilize alternating current for the same purpose have generally resulted in failure because for one thing the filament ex erienced a change of temperature during eacii cycle. Hence a steady flow of electrons could not be maintained; To overcome this drawback I make the filament short and thick in the practice of my invention, and otherwise reduce its compass or the amount of space which it occupies so that no loss of heat during the alternations of current passing through it can take place. I also operate the filament with current at relatively low voltage and impart to the filament a non-inductive arrangement and shape. A tube with such filament has superior operating characteristics.
The nature and scope of the invention is set forth in the following description taken with the drawings, and the novel features of the invention are pointed out in the appended claims; but I of course reserve the right to make any slight changes in detail which do not depart from the principle which the invention embodies.
On the drawings 2 Figure 1 is a side view of a tube partly broken away at the top to indicate a construction embodying my invention; and
Figures 2 and 3 are views showing circuits in which such a tube can be connected.
The same numerals identify the same parts throughout.
In the particular description of the drawings, the numeral 1 indicates the usual bulb or container made of glass or some other insulating material and evacuated to remove the air. It contains an anode 2 in the form of a cylidrical tube within which is a gride 3, spiral in shape, and a filament 4; the grid being between the filament and the anode 2. The base of the tube has a number of contact studs 5, one of which is connected to the source of alternating current.
anode 2, another to the grid 3, and the remaining two, one to each end of the filament or cathode 4. The glass container 1 is mounted in the usual metallic base 6, and if desired a conductor 7 may be connected to the middle of the filament and let out through the base of the tube 6, and there connected to an additional contact stud, similar to the studs 5, which may be provided for the purpose.
The filament 2 is made short and thick, and the two parts thereof are as close together as possible. A filament of this type will develop enough heat and retain a sufficient amount of such heat during each alternation of current to prevent any appreciable diminution in the amount of electrons therefrom, and the tube will therefore operate in a satisfactory manner.
In Figure 2, two ends of such filament are shown connected to a secondary winding 8, energized by a primary winding 9 which may be connected by conductors 10 to a suitable The numeral 11 indicates a conductor joined to the mid point of the winding 8 and running to a battery 12 connected to a pair of telephones or a loud speaker 13, also united by a conductor 14 to the anode 2. The numeral 15 indicates the secondary winding of an amplifying transformer joined to the grid 3 and energized by a primary 16 which may be connected to another tube of a wireless receiving set in the usual manner. The other terminal of the secondary 15 is joined by a conductor 17 and condenser 18 to the conductor 11. In operation, the filament 4 will be heated by alternating current generated in the winding 8 and the mid point of this winding being connected to the battery 12, is also joined to the conductor 14 and anode 2 so that a bridge of electrons can be maintained between the filament and the anode 2 in the usual way. The transformer 1516 can be one of the usual transformers used between the successive tubes of a wireless radio set to produce amplification. V
In Figure 3, the filament 4 is energized as before by alternating current produced in the secondary winding 8, but the mid point of the filament is connected by a wire 11 to the battery 12 from the opposite side of which the circuit leads through the phone 13 and conductor 14 to the anode 2. The grid is energized as before by a secondary 15 and primary 16, but one terminal of the secondary is joined to the Wire 11 which leads to the battery 12.
The practical operation of my invention also requires that the filament should be worked with relatively low voltage'and to re duce variation by having it doubled upon itself as indicated in the drawings, so that the magnetic field caused by the current in one sideof the filament opposes the eifect of the current in the other half, thus making the filament non-inductive in effect and avoiding interference with the continuous flow of electrons from the filament to the plate.
Having described my invention, what I believe to be new and desire to secure and profeet by Letters Patent of the United States is:
1. In a three electrode vacuum tube, a filamentary cathode for emitting a flow ofelectrons therefrom to the plate, and heated directly by a source of alternating current con nected thereto, the filament having a low voltage drop with a relatively large cross-sectional area and adapted to carry a heavy heating current, the filament also being doubled upon itself so that its opposite leg portions react upon each other to reduce the electromagnetic effect of the heating current to such value that the voltage, temperature and electromagnetic effects on the said flow of electrons to the plate due to the cyclic changes in the heating current are neutralized.
2. In a three electrode vacuum tube, a filamentary cathode for emitting a flow of elec trons to the plate, and heated directly by a source of alternating current connected thereto, the filament bein thick and having a low Voltage drop and a apted to carry a heavy heating current, the filament also being doubled upon itself and having its leg portions lying in such spaced relation with respect to each other as to cause interaction between them and enable the magnetic field caused by the current in one leg to oppose the magnetic effect of the current in the other leg to such extent that the voltage, temperature and magnetic effects due to the, cyclic changes in said alternating current will be neutralized with respect to their influence on said flow of electrons to the plate.
In testimony whereof I aflix my signature.
HARRY W. HOUCK.
US109498A 1926-05-17 1926-05-17 Electron tube apparatus Expired - Lifetime US1797205A (en)

Priority Applications (2)

Application Number Priority Date Filing Date Title
US109498A US1797205A (en) 1926-05-17 1926-05-17 Electron tube apparatus
GB26400/26A GB271025A (en) 1926-05-17 1926-10-22 Improvement in electron tube filaments

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US109498A US1797205A (en) 1926-05-17 1926-05-17 Electron tube apparatus

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4935633A (en) * 1988-10-11 1990-06-19 Bio-Rad Laboratories, Inc. Low power infrared source assembly for spectrometer

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4935633A (en) * 1988-10-11 1990-06-19 Bio-Rad Laboratories, Inc. Low power infrared source assembly for spectrometer

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Publication number Publication date
GB271025A (en) 1927-08-25

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