US2962618A - Magnetron tube - Google Patents

Magnetron tube Download PDF

Info

Publication number
US2962618A
US2962618A US835207A US83520759A US2962618A US 2962618 A US2962618 A US 2962618A US 835207 A US835207 A US 835207A US 83520759 A US83520759 A US 83520759A US 2962618 A US2962618 A US 2962618A
Authority
US
United States
Prior art keywords
electrodes
tube
envelope
electrode assembly
magnetic
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
US835207A
Inventor
Edward J Grohe
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.)
Unisys Corp
Original Assignee
Burroughs 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 Burroughs Corp filed Critical Burroughs Corp
Priority to US835207A priority Critical patent/US2962618A/en
Application granted granted Critical
Publication of US2962618A publication Critical patent/US2962618A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J31/00Cathode ray tubes; Electron beam tubes
    • H01J31/02Cathode ray tubes; Electron beam tubes having one or more output electrodes which may be impacted selectively by the ray or beam, and onto, from, or over which the ray or beam may be deflected or de-focused
    • H01J31/06Cathode ray tubes; Electron beam tubes having one or more output electrodes which may be impacted selectively by the ray or beam, and onto, from, or over which the ray or beam may be deflected or de-focused with more than two output electrodes, e.g. for multiple switching or counting

Definitions

  • magnetron tube to which the principles of the invention apply, includes an electrode assembly which comprises an elongated central cathode and a plurality of groups of elongated electrodes surrounding the cathode and secured together at their opposite ends by means of insulating end disks or plates. All of the electrodes are substantially parallel to each other.
  • a cylindrical magnet surrounds the electrode assembly and provides a magnetic field oriented longitudinally in the tube. In operation of this type, a beam of current flows from the central cathode to one of the groups of electrodes at a time, and this beam may be switched from one group of electrodes to the next.
  • the objects of the present invention are concerned with an improved construction for a magnetron tube in which electron flow is controlled and spurious effects on the magnetic and electric fields in the tube are minimized and tube operation is improved,
  • a magnetron-type electron tube embodying the invention comprises, in a suitable envelope, an electrode assembly including a central longitudinally elongated cathode electrode surrounded by groups of longitudinally elongated electrodes which are adapted to form and receive an electron beam from the cathode.
  • the various electrodes are secured together parallel to each other by means of insulating end disks secured to the opposite ends of the electrodes.
  • a cylindrical permanent magnet surrounds the tube envelope and the electrodes contained therein, and the axis of the magnet is coaxial with the longitudinal axis of the envelope and the electrode assembly.
  • the magnet provides a longitudinal magnetic field in the envelope which combines with the electric field therein to control the fiow of electrons from the cathode to the groups of electrodes.
  • means are provided associated with the electrode assembly, to control the flow of electrons so that they strike the electrodes substantially at their centers and are substantially prevented from fanning out and striking the insulating end plates of the electrode assembly.
  • the end plates do not become electrically charged and they do not adversely affect electron flow.
  • the desired result is achieved, according to the invenion, by providing within the envelope pieces of material which affect the magnetic field provided by the permanent magnet and which are properly positioned to provide the desired configuration for this magnetic field.
  • the ferred material has high magnetic permeability but is not permanently magnetized.
  • the pieces of material are secured to the outer surfaces of the target electrodes.
  • the tabs of mag- 'letically permeable material are aligned on a common circumference so that, in eifect, they form a broken ring surrounding approximately the center of the electrode assembly.
  • Fig. 1 is a perspective view of a magnetron beam switching tube embodying the invention.
  • Fig. 2 is an elevational view of a portion of the tube of Fig. 1 showing the orientation of some of the magnetic flux lines as they appear both with and without the invention.
  • tube Type 6700.
  • This type of tube is shown in Fig. 1 as tube 10 and includes, briefly, an envelope 12 which contains an electrode assembly 13 including a central longitudinally elongated cathode 14 and ten groups of electrodes spaced radially equidistantly from the cathod'e and surrounding the cathode and parallel to each other and to the cathode.
  • Each group of electrodes includes a generally U-shaped elongated spade electrode 16 and a generally L-shaped target electrode: 13 positioned so that each target occupies the space between adjacent spade electrodes.
  • the targets have outer surfaces 19.
  • Each spade electrode serves to form and hold an electron beamon its associated target electrode.
  • a generally rodlike switching electrode 20 is also included in each group of electrodes and is positioned between one edge of each target electrode and the adjacent spade electrode.
  • the switching electrodes are known as switching grids.
  • the electrodes of the assembly 13 are secured together by meaiis of top and bottom insulating end disks 22. and 24, respectively, of mica or the like, which are accessible to electrons flowing from the cathode to the other electrodes.
  • An open-ended cylindrical permanent magnet 26 is provided surrounding the tube envelope and coaxial therewith.
  • the magnet is secured to the tube envelope in any suitable-manner, for example, by means of a layer 28 of a suitableplastic material.
  • the magnet providesan axial magnetic field which is utilized in conjunction with electricfields within the tube to form and switch an electron beam from thecathode to each of the groups of electrodes.
  • the direction in which the beam switches, that is clockwise or counter-clockwise, is always the same and is determined by the orientation of the electric and magnetic fields.
  • the configuration of the longitudinal magnetic field provided by the magnet 26 is modified to provide the proper configuration to achieve the desired electron flow.
  • the desired. magnetic field configuration is achieved by means of tabs 3t) of conductive material properly positioned within the tube envelope 12.
  • the tabs are preferably of a material which has high magnetic permeability but cannot be permanently magnetized during tube operation.
  • One such material is soft iron.
  • the tabs 30 are welded or otherwise secured to the outer surfaces 19 of the target electrodes 18.
  • the target electrodes are selected for supporting the tabs because they are the most accessible electrodes of the electrode assembly 13.
  • the tabs 30 might also be secured to the spade electrodes, or elsewhere, if convenient.
  • the tabs are secured to approximately the center portions of the targets and they are substantially aligned on a common circumference.
  • the tabs are preferably as wide as the target surface to which they are secured and they are approximately one-third as long as the targets.
  • tabs 30 This orientation of the tabs 30 causes the flux lines, which would ordinarily be substantially straight lines as shown by the dotted lines 32, to bend as shown by the solid lines 34.
  • the tabs 30 may be arranged differently than in the manner described above.
  • a magnetron tube including an envelope, an electrode assembly in said envelope, said electrode assembly having a longitudinal orientation in said envelope, magnet means providing a longitudinal magnetic field in said envelope, and magnetic means provided in said envelope for modifying the magnetic field produced by said magnet means, said magnetic means comprising separate pieces of magnetic material secured to individual electrodes of said electrode assembly.
  • a magnetron tube including an envelope, an electrode assembly in said envelope, said electrode assembly having a longitudinal orientation in said envelope, magnet means providing a longitudinal magnetic field in said envelope, and magnetic means provided in said envelope for modifying the magnetic field produced by said magnet means, said magnet means comprising separate pieces of magnetic material secured to individual electrodes of said electrode assembly and oriented properly to modify the configuration of said longitudinal magnetic field so that electrons are retained substantially at the center of said electrode assembly.
  • a magnetron tube including an envelope, an electrode assembly in said envelope, said electrode assembly having a longitudinal orientation in said envelope, magnet means providing a longitudinal magnetic field in said envelope, and magnetic means provided in said envelope for modifying the magnetic field produced by said magnet means, said magnetic means comprising separate pieces of magnetic material secured to individual electrodes of 4 said electrode assembly and oriented on a common circumference surrounding said electrode assembly in the vicinity of the center thereof.
  • a magnetron beam switching tube including an envelope containing an electrode assembly comprising a cathode and a plurality of groups of electrodes; each group of electrodes including a target electrode which receives an electron beam and produces an output signal therefrom, a spade electrode which holds an electron beam on its associated target electrode, and a switching electrode which serves to switch an electron beam from one group of electrodes to the next; said electrode assembly having a longitudinal orientation in said envelope, magnet means providing a longitudinal magnetic field in said envelope, and magnetic means provided in said envelope for modifying the magnetic field produced by said magnet means.
  • said magnetic means comprises separate pieces of magnetic material secured to individual electrodes of said electrode assembly and oriented properly to modify the configuration of said longitudinal magnetic field so that electrons are retained substantially at the center of said electrode assembly.
  • said magnetic means comprises separate pieces of magnetic material secured to individual electrodes of said electrode assembly and oriented on a common circumference surrounding said electrode assembly in the vicinity of the center thereof.
  • each target electrode is the outermost electrode of each group of electrodes and each target has an outer surface facing said envelope and a separate piece of magnetic material secured to the outer surface of each target at about the center of the target.

Landscapes

  • Microwave Tubes (AREA)
  • Physical Vapour Deposition (AREA)

Description

Nov. 29, 1960 J GROHE MAGNETRON TUBE Filed Aug. 21, 1959 INVENTOR.
EDWARD J GROHE a fizw A TTORNE Y 2,962,618 MAGNETRON TUBE Edward J. Grohe, Bound Brook, N.J., assignor to Burroughs Corporation, Detroit, Mich., a corporation of Michigan 'Filed Aug. 21, 1959, Ser. No. 835,207 11 Claims. (or. 313-157 This invention relates to magnetron-type electron discharge tubes and to improvements in the construction of such tubes, and particularly to means for producing the desired magnetic field therein.
One form of magnetron tube, to which the principles of the invention apply, includes an electrode assembly which comprises an elongated central cathode and a plurality of groups of elongated electrodes surrounding the cathode and secured together at their opposite ends by means of insulating end disks or plates. All of the electrodes are substantially parallel to each other. A cylindrical magnet surrounds the electrode assembly and provides a magnetic field oriented longitudinally in the tube. In operation of this type, a beam of current flows from the central cathode to one of the groups of electrodes at a time, and this beam may be switched from one group of electrodes to the next. It has been found that some of the electrons in the beam from the cathode tend to flow toward the ends of the electrode assembly where they strike the insulating end disks which support the electrodes. This electron bombardment of the insulating disks causes them to become electrically charged, with the result that the electric field in the tube becomes distorted and electron flow is adversely affected.
The objects of the present invention are concerned with an improved construction for a magnetron tube in which electron flow is controlled and spurious effects on the magnetic and electric fields in the tube are minimized and tube operation is improved,
In brief, a magnetron-type electron tube embodying the invention comprises, in a suitable envelope, an electrode assembly including a central longitudinally elongated cathode electrode surrounded by groups of longitudinally elongated electrodes which are adapted to form and receive an electron beam from the cathode. The various electrodes are secured together parallel to each other by means of insulating end disks secured to the opposite ends of the electrodes. A cylindrical permanent magnet surrounds the tube envelope and the electrodes contained therein, and the axis of the magnet is coaxial with the longitudinal axis of the envelope and the electrode assembly. The magnet provides a longitudinal magnetic field in the envelope which combines with the electric field therein to control the fiow of electrons from the cathode to the groups of electrodes.
According to the invention, means are provided associated with the electrode assembly, to control the flow of electrons so that they strike the electrodes substantially at their centers and are substantially prevented from fanning out and striking the insulating end plates of the electrode assembly. Thus, the end plates do not become electrically charged and they do not adversely affect electron flow.
The desired result is achieved, according to the invenion, by providing within the envelope pieces of material which affect the magnetic field provided by the permanent magnet and which are properly positioned to provide the desired configuration for this magnetic field. The prenite States Patent F 2,962,618 cfi Patented v, 2s, 1.960
ferred material has high magnetic permeability but is not permanently magnetized. According to one arrangement, the pieces of material are secured to the outer surfaces of the target electrodes. In order to provide the desired magnetic field configuration toprevent an electron beam from fanning out as described above, the tabs of mag- 'letically permeable material are aligned on a common circumference so that, in eifect, they form a broken ring surrounding approximately the center of the electrode assembly.
The invention is described in greater detail by reference to the drawing wherein:
Fig. 1 is a perspective view of a magnetron beam switching tube embodying the invention; and
Fig. 2 is an elevational view of a portion of the tube of Fig. 1 showing the orientation of some of the magnetic flux lines as they appear both with and without the invention.
The principles of the invention are applicable to magnetron tubes and, particularly, to a magnetron beam switching. tube, Type 6700. This type of tube is shown in Fig. 1 as tube 10 and includes, briefly, an envelope 12 which contains an electrode assembly 13 including a central longitudinally elongated cathode 14 and ten groups of electrodes spaced radially equidistantly from the cathod'e and surrounding the cathode and parallel to each other and to the cathode. Each group of electrodes includes a generally U-shaped elongated spade electrode 16 and a generally L-shaped target electrode: 13 positioned so that each target occupies the space between adjacent spade electrodes. The targets have outer surfaces 19. Each spade electrode serves to form and hold an electron beamon its associated target electrode. A generally rodlike switching electrode 20 is also included in each group of electrodes and is positioned between one edge of each target electrode and the adjacent spade electrode. The switching electrodes are known as switching grids. The electrodes of the assembly 13 are secured together by meaiis of top and bottom insulating end disks 22. and 24, respectively, of mica or the like, which are accessible to electrons flowing from the cathode to the other electrodes.
An open-ended cylindrical permanent magnet 26 is provided surrounding the tube envelope and coaxial therewith. The magnet is secured to the tube envelope in any suitable-manner, for example, by means of a layer 28 of a suitableplastic material. The magnet providesan axial magnetic field which is utilized in conjunction with electricfields within the tube to form and switch an electron beam from thecathode to each of the groups of electrodes. The direction in which the beam switches, that is clockwise or counter-clockwise, is always the same and is determined by the orientation of the electric and magnetic fields.
Briefly, in operation of the tube It), electrons emitted by the cathode are retained at the cathode if each of the spades, targets and switching grids carries its normal operating electrical potential. When a spade or switching grid experiences a suitable lowering of its potential, an electron beam is formed and directed to the corresponding target electrode. Ordinarily, with a cylindrical magnet, the electrons in the beam tend to flow out toward the ends of the electrode assembly 13 and, addition, some electrons strike the top and bottom mica disks 22 and 24. Such electron bombardment of the mica disks would ordinarily cause the disks to become electrically charged and then adversely affect electron flow in the tube.
According to the invention, the configuration of the longitudinal magnetic field provided by the magnet 26 is modified to provide the proper configuration to achieve the desired electron flow. The desired. magnetic field configuration is achieved by means of tabs 3t) of conductive material properly positioned within the tube envelope 12. The tabs are preferably of a material which has high magnetic permeability but cannot be permanently magnetized during tube operation. One such material is soft iron.
For support within the tube envelope 12, the tabs 30 are welded or otherwise secured to the outer surfaces 19 of the target electrodes 18. The target electrodes are selected for supporting the tabs because they are the most accessible electrodes of the electrode assembly 13. The tabs 30 might also be secured to the spade electrodes, or elsewhere, if convenient. In order to maintain electron flow at about the center of the electrode assembly, the tabs are secured to approximately the center portions of the targets and they are substantially aligned on a common circumference. In addition, the tabs are preferably as wide as the target surface to which they are secured and they are approximately one-third as long as the targets.
This orientation of the tabs 30 causes the flux lines, which would ordinarily be substantially straight lines as shown by the dotted lines 32, to bend as shown by the solid lines 34. Of course, if other magnetic field configurations are desired, the tabs 30 may be arranged differently than in the manner described above.
What is claimed is:
1. A magnetron tube including an envelope, an electrode assembly in said envelope, said electrode assembly having a longitudinal orientation in said envelope, magnet means providing a longitudinal magnetic field in said envelope, and magnetic means provided in said envelope for modifying the magnetic field produced by said magnet means, said magnetic means comprising separate pieces of magnetic material secured to individual electrodes of said electrode assembly.
2. A magnetron tube including an envelope, an electrode assembly in said envelope, said electrode assembly having a longitudinal orientation in said envelope, magnet means providing a longitudinal magnetic field in said envelope, and magnetic means provided in said envelope for modifying the magnetic field produced by said magnet means, said magnet means comprising separate pieces of magnetic material secured to individual electrodes of said electrode assembly and oriented properly to modify the configuration of said longitudinal magnetic field so that electrons are retained substantially at the center of said electrode assembly.
3. A magnetron tube including an envelope, an electrode assembly in said envelope, said electrode assembly having a longitudinal orientation in said envelope, magnet means providing a longitudinal magnetic field in said envelope, and magnetic means provided in said envelope for modifying the magnetic field produced by said magnet means, said magnetic means comprising separate pieces of magnetic material secured to individual electrodes of 4 said electrode assembly and oriented on a common circumference surrounding said electrode assembly in the vicinity of the center thereof.
4. A magnetron beam switching tube including an envelope containing an electrode assembly comprising a cathode and a plurality of groups of electrodes; each group of electrodes including a target electrode which receives an electron beam and produces an output signal therefrom, a spade electrode which holds an electron beam on its associated target electrode, and a switching electrode which serves to switch an electron beam from one group of electrodes to the next; said electrode assembly having a longitudinal orientation in said envelope, magnet means providing a longitudinal magnetic field in said envelope, and magnetic means provided in said envelope for modifying the magnetic field produced by said magnet means.
5. The tube defined in claim 4 wherein said magnetic means comprises separate pieces of magnetic material.
6. The tube defined in claim 4 wherein said magnetic means comprises separate pieces of magnetic material of high magnetic permeability and not permanently magnetized.
7. The tube defined in claim 4 wherein said magnetic means comprises separate pieces of magnetic material secured to individual electrodes of said electrode assembly.
8. The tube defined in claim 4 wherein said magnetic means comprises separate pieces of magnetic material secured to individual electrodes of said electrode assembly and oriented properly to modify the configuration of said longitudinal magnetic field so that electrons are retained substantially at the center of said electrode assembly.
9. The tube defined in claim 4 wherein said magnetic means comprises separate pieces of magnetic material secured to individual electrodes of said electrode assembly and oriented on a common circumference surrounding said electrode assembly in the vicinity of the center thereof.
10. The tube defined in claim 4 wherein said magnetic means comprises separate pieces of magnetic material secured to each target electrode.
11. The tube defined in claim 4 wherein each target electrode is the outermost electrode of each group of electrodes and each target has an outer surface facing said envelope and a separate piece of magnetic material secured to the outer surface of each target at about the center of the target.
References Cited in the file of this patent UNITED STATES PATENTS Espe Mar. 18, 1941 2,609,522 Hull Sept. 2, 1952 2,721,955 Sin-Pih Fan Oct. 25, 1955
US835207A 1959-08-21 1959-08-21 Magnetron tube Expired - Lifetime US2962618A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US835207A US2962618A (en) 1959-08-21 1959-08-21 Magnetron tube

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US835207A US2962618A (en) 1959-08-21 1959-08-21 Magnetron tube

Publications (1)

Publication Number Publication Date
US2962618A true US2962618A (en) 1960-11-29

Family

ID=25268916

Family Applications (1)

Application Number Title Priority Date Filing Date
US835207A Expired - Lifetime US2962618A (en) 1959-08-21 1959-08-21 Magnetron tube

Country Status (1)

Country Link
US (1) US2962618A (en)

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2235517A (en) * 1937-11-25 1941-03-18 Fides Gmbh Magnetron
US2609522A (en) * 1950-04-03 1952-09-02 Joseph F Hull Magnetron
US2721955A (en) * 1953-07-24 1955-10-25 Burroughs Corp Multi-position beam tube

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2235517A (en) * 1937-11-25 1941-03-18 Fides Gmbh Magnetron
US2609522A (en) * 1950-04-03 1952-09-02 Joseph F Hull Magnetron
US2721955A (en) * 1953-07-24 1955-10-25 Burroughs Corp Multi-position beam tube

Similar Documents

Publication Publication Date Title
US4063129A (en) Magnetron having improved magnetic field distribution in the interaction space and one strap of magnetic and electrical conductive material
US2735031A (en) woodbridge
US2962618A (en) Magnetron tube
US3896332A (en) High power quick starting magnetron
US3031595A (en) Magnetron tube
US3562576A (en) Three-element electron discharge tube
US2238272A (en) Magnetically controlled magnetron
US2748307A (en) Magnetically forcused electron discharge device
US3031594A (en) Magnetron tube
US4011481A (en) Modular electron discharge device
USRE25440E (en) engelman
US3032678A (en) Magnetron tube
US3087084A (en) Magnetron tubes and magnet means therefor
US3013180A (en) Magnetron device and system
US2935642A (en) Electron gun
US2679016A (en) Gas discharge device
US3192425A (en) X-ray tube with adjustable electron beam cross-section
US2508992A (en) Electrode assembly for electric discharge devices
GB1129254A (en) Improved magnetic circuit and crossed field tubes using same
US3610996A (en) High vacuum electron tube with magnetically isolated control electrode
US3088045A (en) Magnetron tubes
US2882448A (en) End-shield assemblies for grid magnetrons
GB515229A (en) Improved electron discharge devices of the retarding field type
US2803772A (en) Apparatus for producing a hollow electron beam
US3387165A (en) Magnet structure for cylindrical gasfilled crossed-field diodes