US1992550A - Vacuum tube - Google Patents

Vacuum tube Download PDF

Info

Publication number
US1992550A
US1992550A US368549A US36854929A US1992550A US 1992550 A US1992550 A US 1992550A US 368549 A US368549 A US 368549A US 36854929 A US36854929 A US 36854929A US 1992550 A US1992550 A US 1992550A
Authority
US
United States
Prior art keywords
filament
cathode
portions
tube
vacuum tube
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US368549A
Inventor
Perey L Spencer
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Raytheon Production Corp
Original Assignee
Raytheon Production Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Raytheon Production Corp filed Critical Raytheon Production Corp
Priority to US368549A priority Critical patent/US1992550A/en
Application granted granted Critical
Publication of US1992550A publication Critical patent/US1992550A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • 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
    • H01J1/16Cathodes heated directly by an electric current characterised by the shape

Definitions

  • This invention relates to vacuum tubes and particularly to the construction of the cathodes. Filamentary cathodes as a rule when bent back upon themselves are spread out either to form a 5.hairpin or V'shape, or if too long, an M. If such cathodes are energized by alternatingcurrent the field around each length of filament has substantially the same efiect upon the grid as on the field of the other lengths of cathode.
  • the grid and plate electrodes of a tube having a cathode of this character are generally of oblong cross-section in order to have these electrode surfaces at a substantially constant distance from the various portions of the cathode.
  • An object of my invention is to devise a cathode 20 which may be energized by alternating current and around which the field is substantially neutralized.
  • a further object is to permit the use of grid and anode electrodes of circular crosssection resulting in tubes having more uniform 25 properties and which are easier and more expeditiously fabricated.
  • Figure 1 shows a cross-section of a tube embodying my invention.
  • Figure 2 is a view looking down upon the tube 30 showing the circular shape of the electrodes.
  • Figure 3 is a detailed View of a modification of the cathode.
  • a reentrant stem 2 terminating in a press 3. Sealed in this press are the cathode grid and anode electrodes of the tube shown.
  • the anode consists of a circular nickel member supported by wires 11 and 12 sealed in the press. Wire 12 terminates in a lead 13 for connection outside.
  • a helical wire member comprising a grid 15. This is similarly supported by two wires 16 and 17, the latter terminating in a lead 18. While I have shown the grid and anode as circular, it is obvious that my invention is not to be limited thereto. These electrodes may take on a variety of shapes.
  • a cathode designated generally by numeral 20.
  • This cathode consists of a length of filament of the ordinary and well known variety such as platinum, nickel alloy or the like. This filament is treated in the well known manner with the result that a coating of chemicals The is obtained on the'surface which promotes. the emission of electrons upon the heating of the filament. .
  • This coating may consists of the oxides arms of alkaline earth metals comprising the well known Wehnelt cathode. This length of fila ment is bent back upon itself-in the manner shown to'formtwo portions so'that the two portions are substantially in contact for their length.
  • the ends ofthe filament are spread out and Welded or secured to supporting wires 25 and 26 terminating in leads 27 and 28.
  • supporting wires 25 and 26 terminating in leads 27 and 28.
  • the coatings on the cathode filament used to promote electron emission are sufiiciently insulating so that the filament heating current will traverse the entire filament strip even when bent in the manner shown. It isdesirable, although not necessary to choose the filament of such alength and cross-section that the necessary voltage to energize it is low, of the order of one or two volts. It is evident that by having the filament disposed in the manner shown the centers of the opposing magnetic fields in the two halves of the filament will be substantially coincident and result in complete neutralization. This, of course, will mean that the tube will not have the customary hum in the output. 7
  • the filament may be divided into more than two lengths as shown in Figure 3. In this figure the filament is shown as divided into four portions all'of which, are crushed together into a compact cathode. The filament may be divided into as many sections as may be found desirable.
  • a filamentary cathode for a vacuum tube adapted to be energized by alternating current and having substantially no resultant field around it consisting of a filament upon the surface of which are suitable chemicals for the promotion of electron emission therefrom, said filament being bent into a plurality-of portions, said portions contacting with each other substantially throughout their lengths.
  • a vacuum tube comprising a cathode adapted to be energized by alternating currentwithout having a resultant field around it, said cathode consisting of a length of filament having its surface treated to promote electron emission. and being bent to form a plurality of substantially parallel portions, said portions contacting with each other for substantially their entire length, and a grid and anode surrounding said cathode, both of said latter electrodes being circular in cross-section.
  • a method of making a cathode adapted to be energized by alternating current without the formation of a result-ant magnetic field around it which consists of treating the surface of a metal filament with compounds adapted to promote electron emission therefrom when said filament is heated, dividing said filament into a plurality of portions and bending said filament so as to dispose said portions parallel to each other and crushing the filament to cause said portions to contact with each other substantially along their entire lengths.
  • a cathode for a thermionic space current tube comprising a, filamentary conducting member bent over itself and contacting along adjacent surfaces, said cathode being arranged to be heated to a temperature ofelectron emission by current from a low voltage source connected to the ends of said filamentary conducting member, the surface of said member having a relatively high contact resistance opposing current flow between adjacent contacting portions of different potential.
  • a cathode for a thermionic space current tube comprising a filamentary conducting member bent over itself and contacting along adjacent surfaces, said cathode being arranged to be heated to a temperature of electron emission by current from a 10W voltage source connected to the ends of said filamentary conducting member, the surface of said member having an electron-emitting coating of relatively high contact resistance opposing current flow between adjacent contacting portions of different potential.
  • a filamentary cathode adapted to be energized by alternating current and having substantially no resultant field around it, consisting of :a filament upon the surface of which are suitable chemicals for the promotion of electron emission therefrom, said filament being bent into a plurality of serially-connected portions, said portions contacting with each other substantially throughout their lengths.

Landscapes

  • Electron Sources, Ion Sources (AREA)

Description

P, L, SPENCER Feb. 26, 1935.,
VACUUM TUBE Original Filed June 5, 1929 INVENTOR pzreov L. JPEA/CEQ Patented Feb. 25, 1935 -.V.UNITED" stars lenses ATE VACUUM TUBE 6 Claims. '(Cl. 251F275) This invention relates to vacuum tubes and particularly to the construction of the cathodes. Filamentary cathodes as a rule when bent back upon themselves are spread out either to form a 5.hairpin or V'shape, or if too long, an M. If such cathodes are energized by alternatingcurrent the field around each length of filament has substantially the same efiect upon the grid as on the field of the other lengths of cathode. result is that the unneutralized and constantly changing field from each length of filament sets up a hum in the tube which is usually objectionable.' Furthermore, the grid and plate electrodes of a tube having a cathode of this character are generally of oblong cross-section in order to have these electrode surfaces at a substantially constant distance from the various portions of the cathode.
An object of my invention is to devise a cathode 20 which may be energized by alternating current and around which the field is substantially neutralized. A further object is to permit the use of grid and anode electrodes of circular crosssection resulting in tubes having more uniform 25 properties and which are easier and more expeditiously fabricated.
Referring to the drawing, Figure 1 shows a cross-section of a tube embodying my invention. Figure 2 is a view looking down upon the tube 30 showing the circular shape of the electrodes.
Figure 3 is a detailed View of a modification of the cathode.
Within the customary glass envelope 1 is a reentrant stem 2 terminating in a press 3. Sealed in this press are the cathode grid and anode electrodes of the tube shown. The anode consists of a circular nickel member supported by wires 11 and 12 sealed in the press. Wire 12 terminates in a lead 13 for connection outside. concentrically disposed within the anode is a helical wire member comprising a grid 15. This is similarly supported by two wires 16 and 17, the latter terminating in a lead 18. While I have shown the grid and anode as circular, it is obvious that my invention is not to be limited thereto. These electrodes may take on a variety of shapes.
Substantially at the center of the concentric grid and anode is a cathode designated generally by numeral 20. This cathode consists of a length of filament of the ordinary and well known variety such as platinum, nickel alloy or the like. This filament is treated in the well known manner with the result that a coating of chemicals The is obtained on the'surface which promotes. the emission of electrons upon the heating of the filament. .This coating may consists of the oxides arms of alkaline earth metals comprising the well known Wehnelt cathode. This length of fila ment is bent back upon itself-in the manner shown to'formtwo portions so'that the two portions are substantially in contact for their length. The ends ofthe filament are spread out and Welded or secured to supporting wires 25 and 26 terminating in leads 27 and 28. Preferably althoughnot necessarily I dispose a supporting wire 30 sealed in the press so that the bight of the cathode is supported and held taut.
I have found that the coatings on the cathode filament used to promote electron emission are sufiiciently insulating so that the filament heating current will traverse the entire filament strip even when bent in the manner shown. It isdesirable, although not necessary to choose the filament of such alength and cross-section that the necessary voltage to energize it is low, of the order of one or two volts. It is evident that by having the filament disposed in the manner shown the centers of the opposing magnetic fields in the two halves of the filament will be substantially coincident and result in complete neutralization. This, of course, will mean that the tube will not have the customary hum in the output. 7
Furthermore, because of the compact electron emitting surface, circular grid and anode electrodes may be effectively used. Because ofthe symmetry of the construction, less care in the welding of the supporting Wires to the electrodes i necessary and more uniform tubes result.
If desired, the filament may be divided into more than two lengths as shown in Figure 3. In this figure the filament is shown as divided into four portions all'of which, are crushed together into a compact cathode. The filament may be divided into as many sections as may be found desirable. I
I claim:
1. A filamentary cathode for a vacuum tube adapted to be energized by alternating current and having substantially no resultant field around it consisting of a filament upon the surface of which are suitable chemicals for the promotion of electron emission therefrom, said filament being bent into a plurality-of portions, said portions contacting with each other substantially throughout their lengths.
2. A vacuum tube comprising a cathode adapted to be energized by alternating currentwithout having a resultant field around it, said cathode consisting of a length of filament having its surface treated to promote electron emission. and being bent to form a plurality of substantially parallel portions, said portions contacting with each other for substantially their entire length, and a grid and anode surrounding said cathode, both of said latter electrodes being circular in cross-section. a V
3. A method of making a cathode adapted to be energized by alternating current without the formation of a result-ant magnetic field around it, which consists of treating the surface of a metal filament with compounds adapted to promote electron emission therefrom when said filament is heated, dividing said filament into a plurality of portions and bending said filament so as to dispose said portions parallel to each other and crushing the filament to cause said portions to contact with each other substantially along their entire lengths. j v
- 4. A cathode for a thermionic space current tube comprising a, filamentary conducting member bent over itself and contacting along adjacent surfaces, said cathode being arranged to be heated to a temperature ofelectron emission by current from a low voltage source connected to the ends of said filamentary conducting member, the surface of said member having a relatively high contact resistance opposing current flow between adjacent contacting portions of different potential.
5. A cathode for a thermionic space current tube comprising a filamentary conducting member bent over itself and contacting along adjacent surfaces, said cathode being arranged to be heated to a temperature of electron emission by current from a 10W voltage source connected to the ends of said filamentary conducting member, the surface of said member having an electron-emitting coating of relatively high contact resistance opposing current flow between adjacent contacting portions of different potential.
6.'In a vacuum tube, a filamentary cathode adapted to be energized by alternating current and having substantially no resultant field around it, consisting of :a filament upon the surface of which are suitable chemicals for the promotion of electron emission therefrom, said filament being bent into a plurality of serially-connected portions, said portions contacting with each other substantially throughout their lengths.
PERCY .L. SPENCER.
US368549A 1929-06-05 1929-06-05 Vacuum tube Expired - Lifetime US1992550A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US368549A US1992550A (en) 1929-06-05 1929-06-05 Vacuum tube

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US368549A US1992550A (en) 1929-06-05 1929-06-05 Vacuum tube

Publications (1)

Publication Number Publication Date
US1992550A true US1992550A (en) 1935-02-26

Family

ID=23451699

Family Applications (1)

Application Number Title Priority Date Filing Date
US368549A Expired - Lifetime US1992550A (en) 1929-06-05 1929-06-05 Vacuum tube

Country Status (1)

Country Link
US (1) US1992550A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2750526A (en) * 1946-05-03 1956-06-12 Kenneth J Germeshausen Indirectly heated cathode

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2750526A (en) * 1946-05-03 1956-06-12 Kenneth J Germeshausen Indirectly heated cathode

Similar Documents

Publication Publication Date Title
US2201721A (en) Thermionic cathode structure
US1992550A (en) Vacuum tube
US2212827A (en) Hot cathode for high power
US1870968A (en) Heater element
US2057931A (en) Cathode
US2486829A (en) Supporting means for vacuum tube electrodes
US2589521A (en) Heater
US2214974A (en) Electrode for electric discharge devices
US1838488A (en) Vacuum tube
US2018257A (en) Thermionic vacuum tube
US1945749A (en) Vapor electric device
US1991606A (en) Method of making thermionic tube grids
US1859522A (en) Electron tube
US2082602A (en) Thermionic cathode
US2039773A (en) Incandescent electric lamp
US2526054A (en) Electrode assembly for very highfrequency electron discharge devices
US2073885A (en) Electric discharge tube
US2401998A (en) Electrial discharge device
US1859454A (en) Electron tube
US1905034A (en) Electron emission device
US2134267A (en) Braun tube
US1780033A (en) Vacuum tube
USRE20048E (en) Theewnonic tube
US2589522A (en) Cathode heater structure
US2054234A (en) Electric discharge device