US2336837A - Electrical apparatus - Google Patents
Electrical apparatus Download PDFInfo
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- US2336837A US2336837A US272508A US27250839A US2336837A US 2336837 A US2336837 A US 2336837A US 272508 A US272508 A US 272508A US 27250839 A US27250839 A US 27250839A US 2336837 A US2336837 A US 2336837A
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- tube
- neck
- annular
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01J—ELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
- H01J29/00—Details of cathode-ray tubes or of electron-beam tubes of the types covered by group H01J31/00
- H01J29/46—Arrangements of electrodes and associated parts for generating or controlling the ray or beam, e.g. electron-optical arrangement
- H01J29/54—Arrangements for centring ray or beam
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01J—ELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
- H01J29/00—Details of cathode-ray tubes or of electron-beam tubes of the types covered by group H01J31/00
- H01J29/46—Arrangements of electrodes and associated parts for generating or controlling the ray or beam, e.g. electron-optical arrangement
- H01J29/58—Arrangements for focusing or reflecting ray or beam
- H01J29/64—Magnetic lenses
- H01J29/68—Magnetic lenses using permanent magnets only
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01J—ELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
- H01J29/00—Details of cathode-ray tubes or of electron-beam tubes of the types covered by group H01J31/00
- H01J29/46—Arrangements of electrodes and associated parts for generating or controlling the ray or beam, e.g. electron-optical arrangement
- H01J29/70—Arrangements for deflecting ray or beam
- H01J29/72—Arrangements for deflecting ray or beam along one straight line or along two perpendicular straight lines
- H01J29/76—Deflecting by magnetic fields only
- H01J29/766—Deflecting by magnetic fields only using a combination of saddle coils and toroidal windings
Definitions
- This invention is concerned with apparatus which is employed in cathode ray tube television systems.
- One feature of the invention is the provision of a magnetic focussing system for the electron beam which consists of an annular permanent magnet which surrounds the neck of the tube, is magnetised in the direction of its axis and is provided with two annular pole pieces of ferromagnetic material, each having smaller internal diameter than the permanent magnet. The effect of any irregularities in the magnetisation of the permanent magnet is smoothed out by the pole pieces, so that the resulting eld within the neck of the tube is of regular form.
- the pole piece at that end of the magnet which is nearer the screen of the cathode ray tube shall have an externa1 diameter larger than that of the magnet. This will decrease the penetration of the eld of the magnet into that part ofthe tube which is beyond the magnet in the direction of the screen.
- the pole piece at the end of the magnet nearer the cathode is preferably so mounted as to be adjustable radially of the tube. It is then possible to give any necessary permanent deection tothe beam by adjustment of this pole piece.
- a further preferred feature of the invention is a ring of magnetic material, mounted around the part of the neck of the tube which is beyond the magnet in the direction of the cathode.
- This ring is arranged to be adjustable in the axial direction, for the purpose of adjusting the focus of the beam.
- Figure l of the accompanying drawing shows a perspective view of the neck of a cathode rai7 tube provided with a focussing system according to the invention.
- Figure 2 discloses a circuit diagram for energizing coils I shown in Figure 1.
- Figure 3 discloses the structural details of the focussing system.
- the annular permanent magnet 2 is magnetized in the direction parallel to the axis, and is provided at its ends with the two annular disc pole pieces 3 and 4 of mild steel each having smaller internal diameter than the magnet 2.
- the internal diameter of the pole piece 3 is slightly larger than the external diameter of the neck l of the tube, and its internal edge may be spun over into conical form as indicated by reference numeral 3a shown in Figure 3.
- the neck of the tube is located relatively to, and supported from, this pole piece by a split cylindrical wedge 2l of semi-rigid material, such as partially vulcanized rubber.
- the pole piece 3 has an external diameter considerably greater than that of the magnet 2 and thus prevents the penetration of the magnet field to any considerable extent further up the neck of the tube and into the region of deiiection.
- Pole piece 4 is shown in Figure 3 in one limiting position, in which its periphery touches screw 24 but is spaced from screw 25. This pole piece may be moved radially to provide shift. ofthe beam, until the beam is found to impinge at the desired point on the screen.
- a mild steel ring 5 Surrounding the neck of the tube, below the magnet 2, is a mild steel ring 5 which is slidably mounted for adjustment in the axial direction to adjust the focus of the beam.
- the invention is further concerned with an electromagnetic system for the deflection of the electron beam in two mutually perpendicular directions.
- the electromagnetic elds are each of the kind comprising a central flux path passing through the tube and two side paths passing on mutually opposite sides of the tube.
- the coils for one direction of deflection are arranged about a ⁇ common axis and on opposite sides of the tube on the central limb of their magnetic circuit, while-the coils for the other direction of deflection are arranged with their centres substantially on the same axis, ⁇ but with their own axes perpendicular thereto, on the side paths of their magnetic circuit.
- FIG. 1 A preferred arrangement is illustrated in Figure 1.
- the coils 1 are bent around to lie in contact with the former 5 which is a sleeve of insulating material closely surrounding the neck of the tube.
- the coils 8 have their centres substantially on the common axis of the coils 1, but their own axes are perpendicular to the axis of the coils 1.
- the eld of the coils 8 passes through the neck of the tube in the direction parallel to the axes of the coils 8.
- the part of the magnetic circuit of the coils B external to the tube is formed by laminations I I in the form of complete rectangles of ferro-magnetic material. These laminatio-ns are spaced apart by wooden spacers.
- the part of the magnetic circuit of the coils 1 external to the tube is formed by laminations 9a, 9b, 9c of ferro-magnetic material. These are divided, the part 9a, in the form of a complete rectangle, being placed on the end of the assembly nearer the screen, and the other part 9b, 9c forming substantially a rectangle, being placed on the end of the assembly nearer the cathode.
- the part 9b, 9c is subdivided into two U-shaped,Y
- the laminations 9a, 9b, 9c are spaced from the two outer laminations Il by wooden spacers l0, and are thus arranged at the ends of the coils 1.
- the electromagnetic pickup of the coils 8 resulting from current changes in the coils 1 is neutralised.
- the coils 8 may be arranged for adjustment in the directionY of their axes so as to provide for accurate adjustment of this neutralisation.
- 'Ihe coils 8 should preferably. be enclosed in electrostatic screens to minimise electrostatic interference between the two pairs of coils.
- the coils 1 should preferably'be operatedrinrespect to alternating current, symmetrically about earth. l
- the coils 8 are employed t produce the frame deflection and the coils 'l to produce the line deflection.
- the laminations 9 are ⁇ preferably then made of Rhometal and the laminations Il of Stalloy
- the permeability of Rhometal is higher at the line frequency than at the frame frequency, but the vpermeability of Stalloy is higher at the frame frequency than at the line frequency.
- features of this invention are applicable not only to cathode ray tubes having fluorescent screens but also to other types such as iconoscopes and electron beam valves.
- the focussing features are independent of the type of Vdeflection system, if any.
- the term "screen as used in reference to cathode ray tubes in this specication must be understood to include all types of target for the electron beam.
- Figure 2 shows a diagram of a preferred generator for the supply of saw-tooth deflection currents to the coils 'I of Figure 1 for televisionline scanning. These coils l are indicated in Ffigure 2 bythe symbols Ld.
- a voltage of saw-tooth waveform is developed across condenser C1 by charging'from a direct current source through resistance R1, the ybacks being produced by intermittent discharges at regular intervals through thermionic valve V2, shown as a triode.
- the voltage of the condenser Ci is applied through resistances R2, Ra and condenser C2 to the control grid of the output valve V1 shown as a pentode.
- the coils Ld are coupled to the output circuit of the valve V1 by the transformer Ti, and a damping circuit comprising resistance Rs and condenser C4 is connected across the coils La.
- a return coupling by condenser C3 and resistance R4 to the grid of thermionic valve V2 is employed to accelerate the iiyback.
- the initiation of the ilyback is effected by the application of synchronising signals at Sn. These are impressed through condenser C2 upon the control grid of output valve V1 and, therefore,
- the value of the resistance l Rz is made suiciently large to ensure that current is cut olf in the valve V1 throughout this period.
- valve Vz is held open so long as the highly positive excursion persists, and so current ow through resistance R2 and the consequen cut-off of valve V1 is similarly maintained.
- a further feature of the invention is the meth-v od of coupling two electric circuits for the transmission from one to the other, with only a small degree'of distortion, of signals comprising current changes amounting substantially to discontinuities, which method consists in coupling said circuits through a transformer having between the windings an electrostatic screen maintained at constant potential, whereby the capacity between the windings is reduced to a low value. This decreases the tendency to the production of spurious oscillations in the secondary'circuit when the discontinuities occur.
- This feature of the invention is exemplified by the provision of an earthed electrostatic screen in transformer T1, which decreases the tendency to the production of spurious oscillations in the output circuit when flyback occurs.
- the generator for the supply of saw-tooth deiiection currents to the coils 8 of Figure 1 for television frame scanning is preferably also of the type in which a saw-tooth voltage is developed across a condenser intermittently charged or d ischarged through a thermionic valve for yback, the condenser ⁇ voltage being applied to thegrid of an output valve having the deilector coils in ⁇ its output circuit and having a return *coupling from its output circuit to the said thermionic valve.
- the electromagnetic deflection system being such that very little electromagnetic or electrostatic pick-up by coils 8 from coils 1 can occur,. the appearance of spurious synchronising signalsin the frame scanning generator resulting from-flyback of the line scanning generator can be avoided.
- a low-pass filter is includedinthe return coupling.
- a cathode ray tube provided with a cathode and a magnetic focussing system surrounding the neck of the tube comprising an annular member having an internal diameter greater than the diameter of said neck for producing a magnetic field axially of said member, said annular member being provided at the end opposite the cathode with an annular ferro-magnetic pole piece surrounding the neck of the tube having an internal diameter less than said annular member, and said annular member being provided at the end nearer the cathode with a movable annular ferro-magnetic pole piece surrounding the neck of the tube having an internal diameter less than said annular member, said movable annular ferromagnetic pole piece being mounted for radial movement With respect to the axis of the tube and said annular member.
- a cathode ray tube provided with a cathode and a magnetic focussing system surrounding the neck of the tube comprising an annular member having an internal diameter greater than the diameter of said neck for producing a magnetic ⁇ field axially of said member, said annular member being provided at the end opposite the cathode with an annular ferro-magnetic pole piece surrounding the neck of the tube having an external diameter greater than said annular member, and said annular member being provided at the end nearer the cathode with a movable annular ferro-magnetic pole piece surrounding the neck of the tube having an internal diameter less than said annular member, said movable annular ferro-magnetic pole piece being mounted for radial movement with respect to the axis of the tube and said annular member.
- a cathode ray tube provided with a magnetic focussing system comprising an annular member surrounding the neck of said tube for producing a magnetic field axially of said annular member and an annular member positioned externally of said tube in said magnetic eld formed of ferromagnetic material and movably mounted for adjustment relative to said annular member in a plane perpendicular to the axis of said first mentioned member.
- a cathode ray tube provided with a cathode and a magnetic focussing system surrounding the neck of the tube comprising an annular permanent magnet having an internal diameter greater than the diameter of said neck for producing a magnetic iield axially of said permanent magnet, said annular permanent magnet being provided at the end opposite the cathode with an annular ferro-magnetic pole piece surrounding the neck of the tube having an internal diameter less than said annular permanent magnet, and said annular permanent magnet being provided at the end nearer the cathode with a movable annular ferro-magnetic pole piece surrounding the neck ferro-magnetic pole piece surrounding the neck of the tube having an external diameter greater than said annular permanent magnet, and said annular permanent magnet being provided at the end nearer the cathode with a movable annular ferro-magnetic pole piece surrounding the neck of the tube having an internal diameter less than said annular permanent magnet, said movable annular ferro-magnetic pole piece being mounted for radial movement with respect to the axis
- a cathode ray tube provided with a magnetic focussing system comprising an annular permanent magnet surrounding the neck of said tube for producing a magnetic eld axially of said annular permanent magnet and an annular member positioned externally of said tube in said magnetic field formed of ferro-magnetic material and movably mounted for adjustment relative to said annular permanent magnet in a plane perpendicular to the axis of said permanent magnet.
- a cathode ray tube p-rovided with a magnetic focussing system comprising an annular permanent magnet surrounding the neck of said tube for producing a magnetic field axially of said annular permanent magnet, an annular member formed of ferro-magnetic material positioned externally of said tube in said magnetic eld and movably mounted for adjustment relative to said annular permanent magnet in a plane perpendicular to the axis of said permanent magnet and means for clamping said annular member in adjusted position.
- a cathode ray tube provided With a magnetic focussing system surrounding the neck of said tube comprising an annular magnet surrounding said neck for producing a magnetic flux axially of said tube, a movable annular pole piece for said magnet exteriorly surrounding said tube neck adjacent the end of said magnet nearest the cathode, mounting means for said movable annular pole piece to provide for radial adjustment of said movable annular pole piece relative to said annular magnet, a second annular pole piece exteriorly surrounding said tube neck at the end of said magnet opposite the cathode having an aperture of greater diameter than said tube neck, the edge of said aperture being formed into conical shape and means for supporting said tube neck by said second annular pole piece comprising a cylindrical Wedge of semi-rigid material positioned intermediate said tube neck and said conical shaped edge.
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Description
Dec. 14, 1943.
L. H. BEDFORD ELECTRICAL APPARATUS Filed May 8 1939 Fig. 1
l ln venlord Patented Dec. 14, 1943 UNITED smres Estant:
reni ortica ELECTRICAL APPARATUS ish company Application May 8, 1939, Serial No. 272,508 In Great Britain May 10, 1938 8 Claims.
This invention is concerned with apparatus which is employed in cathode ray tube television systems.
One feature of the invention is the provision of a magnetic focussing system for the electron beam which consists of an annular permanent magnet which surrounds the neck of the tube, is magnetised in the direction of its axis and is provided with two annular pole pieces of ferromagnetic material, each having smaller internal diameter than the permanent magnet. The effect of any irregularities in the magnetisation of the permanent magnet is smoothed out by the pole pieces, so that the resulting eld within the neck of the tube is of regular form.
It is preferred that the pole piece at that end of the magnet which is nearer the screen of the cathode ray tube shall have an externa1 diameter larger than that of the magnet. This will decrease the penetration of the eld of the magnet into that part ofthe tube which is beyond the magnet in the direction of the screen.
The pole piece at the end of the magnet nearer the cathode is preferably so mounted as to be adjustable radially of the tube. It is then possible to give any necessary permanent deection tothe beam by adjustment of this pole piece.
A further preferred feature of the invention is a ring of magnetic material, mounted around the part of the neck of the tube which is beyond the magnet in the direction of the cathode. This ring is arranged to be adjustable in the axial direction, for the purpose of adjusting the focus of the beam.
Figure l of the accompanying drawing shows a perspective view of the neck of a cathode rai7 tube provided with a focussing system according to the invention. Figure 2 discloses a circuit diagram for energizing coils I shown in Figure 1. Figure 3 discloses the structural details of the focussing system.
The annular permanent magnet 2 is magnetized in the direction parallel to the axis, and is provided at its ends with the two annular disc pole pieces 3 and 4 of mild steel each having smaller internal diameter than the magnet 2.
The internal diameter of the pole piece 3 is slightly larger than the external diameter of the neck l of the tube, and its internal edge may be spun over into conical form as indicated by reference numeral 3a shown in Figure 3. The neck of the tube is located relatively to, and supported from, this pole piece by a split cylindrical wedge 2l of semi-rigid material, such as partially vulcanized rubber.
The pole piece 3 has an external diameter considerably greater than that of the magnet 2 and thus prevents the penetration of the magnet field to any considerable extent further up the neck of the tube and into the region of deiiection.
The pole piece l is supported by the magnetic eiiect of the magnet and it is, therefore, adjustable radially of the tube for the purpose of producing permanent deflections of the beam (X-` shift and Y-shift) Pole piece 4 is shown in Figure 3 in one limiting position, in which its periphery touches screw 24 but is spaced from screw 25. This pole piece may be moved radially to provide shift. ofthe beam, until the beam is found to impinge at the desired point on the screen.
It is then clamped to magnet 2 by non-magnetic L shaped members 26 which are tightened up by screws 24 and Z5 which are secured in nonmagnetic bushings 22 ixed to -pole piece 3 by screws 23.
Surrounding the neck of the tube, below the magnet 2, is a mild steel ring 5 which is slidably mounted for adjustment in the axial direction to adjust the focus of the beam.
The invention is further concerned with an electromagnetic system for the deflection of the electron beam in two mutually perpendicular directions. The electromagnetic elds are each of the kind comprising a central flux path passing through the tube and two side paths passing on mutually opposite sides of the tube. In the arrangement according to the invention, the coils for one direction of deflection are arranged about a` common axis and on opposite sides of the tube on the central limb of their magnetic circuit, while-the coils for the other direction of deflection are arranged with their centres substantially on the same axis, `but with their own axes perpendicular thereto, on the side paths of their magnetic circuit.
A preferred arrangement is illustrated in Figure 1. The coils 1 are bent around to lie in contact with the former 5 which is a sleeve of insulating material closely surrounding the neck of the tube. The coils 8 have their centres substantially on the common axis of the coils 1, but their own axes are perpendicular to the axis of the coils 1. The eld of the coils 8 passes through the neck of the tube in the direction parallel to the axes of the coils 8.
The part of the magnetic circuit of the coils B external to the tube is formed by laminations I I in the form of complete rectangles of ferro-magnetic material. These laminatio-ns are spaced apart by wooden spacers.
The part of the magnetic circuit of the coils 1 external to the tube is formed by laminations 9a, 9b, 9c of ferro-magnetic material. These are divided, the part 9a, in the form of a complete rectangle, being placed on the end of the assembly nearer the screen, and the other part 9b, 9c forming substantially a rectangle, being placed on the end of the assembly nearer the cathode.
The part 9b, 9c is subdivided into two U-shaped,Y
parts by the provision of gaps in the region of the ends of the central limb of the' magneticr circuit belonging to the coilswl. These gapsmini- `valve V1, in the sense to drive this control grid more negative. The effect of the inductive load in the output circuit is to give the anode of the output valve V1 a highly positive excursion during mise the short-circuiting of. the magnetic cirn cuit of the coils 8. The laminations 9a, 9b, 9c are spaced from the two outer laminations Il by wooden spacers l0, and are thus arranged at the ends of the coils 1.
By virtue of the arrangement of the coils"8 inv relation to the coils 1, the electromagnetic pickup of the coils 8 resulting from current changes in the coils 1 is neutralised. The coils 8 may be arranged for adjustment in the directionY of their axes so as to provide for accurate adjustment of this neutralisation.
'Ihe coils 8 should preferably. be enclosed in electrostatic screens to minimise electrostatic interference between the two pairs of coils. The coils 1 should preferably'be operatedrinrespect to alternating current, symmetrically about earth. l
When the deflection system described is used for television scanning, the coils 8 are employed t produce the frame deflection and the coils 'l to produce the line deflection. The laminations 9 are `preferably then made of Rhometal and the laminations Il of Stalloy The permeability of Rhometal is higher at the line frequency than at the frame frequency, but the vpermeability of Stalloy is higher at the frame frequency than at the line frequency.
It will be understood that features of this invention are applicable not only to cathode ray tubes having fluorescent screens but also to other types such as iconoscopes and electron beam valves. The focussing features are independent of the type of Vdeflection system, if any. The term "screen as used in reference to cathode ray tubes in this specication must be understood to include all types of target for the electron beam.
Figure 2 shows a diagram of a preferred generator for the supply of saw-tooth deflection currents to the coils 'I of Figure 1 for televisionline scanning. These coils l are indicated in Ffigure 2 bythe symbols Ld.
A voltage of saw-tooth waveform is developed across condenser C1 by charging'from a direct current source through resistance R1, the ybacks being produced by intermittent discharges at regular intervals through thermionic valve V2, shown as a triode. The voltage of the condenser Ci is applied through resistances R2, Ra and condenser C2 to the control grid of the output valve V1 shown as a pentode. The coils Ld are coupled to the output circuit of the valve V1 by the transformer Ti, and a damping circuit comprising resistance Rs and condenser C4 is connected across the coils La.
A return coupling by condenser C3 and resistance R4 to the grid of thermionic valve V2 is employed to accelerate the iiyback.
The initiation of the ilyback is effected by the application of synchronising signals at Sn. These are impressed through condenser C2 upon the control grid of output valve V1 and, therefore,
the yback period. The value of the resistance l Rz is made suiciently large to ensure that current is cut olf in the valve V1 throughout this period.
-v Owing to the return coupling through condenser Cs, valve Vz is held open so long as the highly positive excursion persists, and so current ow through resistance R2 and the consequen cut-off of valve V1 is similarly maintained.
A further feature of the invention is the meth-v od of coupling two electric circuits for the transmission from one to the other, with only a small degree'of distortion, of signals comprising current changes amounting substantially to discontinuities, which method consists in coupling said circuits through a transformer having between the windings an electrostatic screen maintained at constant potential, whereby the capacity between the windings is reduced to a low value. This decreases the tendency to the production of spurious oscillations in the secondary'circuit when the discontinuities occur. Y i
This feature of the invention is exemplified by the provision of an earthed electrostatic screen in transformer T1, which decreases the tendency to the production of spurious oscillations in the output circuit when flyback occurs.
The generator for the supply of saw-tooth deiiection currents to the coils 8 of Figure 1 for television frame scanning is preferably also of the type in which a saw-tooth voltage is developed across a condenser intermittently charged or d ischarged through a thermionic valve for yback, the condenser` voltage being applied to thegrid of an output valve having the deilector coils in `its output circuit and having a return *coupling from its output circuit to the said thermionic valve. The electromagnetic deflection system being such that very little electromagnetic or electrostatic pick-up by coils 8 from coils 1 can occur,. the appearance of spurious synchronising signalsin the frame scanning generator resulting from-flyback of the line scanning generator can be avoided. y Preferably, in order to decrease this Vdanger still further, a low-pass filter is includedinthe return coupling.
We claim:
1. A cathode ray tube provided with a cathode and a magnetic focussing system surrounding the neck of the tube comprising an annular member having an internal diameter greater than the diameter of said neck for producing a magnetic field axially of said member, said annular member being provided at the end opposite the cathode with an annular ferro-magnetic pole piece surrounding the neck of the tube having an internal diameter less than said annular member, and said annular member being provided at the end nearer the cathode with a movable annular ferro-magnetic pole piece surrounding the neck of the tube having an internal diameter less than said annular member, said movable annular ferromagnetic pole piece being mounted for radial movement With respect to the axis of the tube and said annular member.
2. A cathode ray tube provided with a cathode and a magnetic focussing system surrounding the neck of the tube comprising an annular member having an internal diameter greater than the diameter of said neck for producing a magnetic `field axially of said member, said annular member being provided at the end opposite the cathode with an annular ferro-magnetic pole piece surrounding the neck of the tube having an external diameter greater than said annular member, and said annular member being provided at the end nearer the cathode with a movable annular ferro-magnetic pole piece surrounding the neck of the tube having an internal diameter less than said annular member, said movable annular ferro-magnetic pole piece being mounted for radial movement with respect to the axis of the tube and said annular member.
3. A cathode ray tube provided with a magnetic focussing system comprising an annular member surrounding the neck of said tube for producing a magnetic field axially of said annular member and an annular member positioned externally of said tube in said magnetic eld formed of ferromagnetic material and movably mounted for adjustment relative to said annular member in a plane perpendicular to the axis of said first mentioned member.
4. A cathode ray tube provided with a cathode and a magnetic focussing system surrounding the neck of the tube comprising an annular permanent magnet having an internal diameter greater than the diameter of said neck for producing a magnetic iield axially of said permanent magnet, said annular permanent magnet being provided at the end opposite the cathode with an annular ferro-magnetic pole piece surrounding the neck of the tube having an internal diameter less than said annular permanent magnet, and said annular permanent magnet being provided at the end nearer the cathode with a movable annular ferro-magnetic pole piece surrounding the neck ferro-magnetic pole piece surrounding the neck of the tube having an external diameter greater than said annular permanent magnet, and said annular permanent magnet being provided at the end nearer the cathode with a movable annular ferro-magnetic pole piece surrounding the neck of the tube having an internal diameter less than said annular permanent magnet, said movable annular ferro-magnetic pole piece being mounted for radial movement with respect to the axis of the tube and said annular member.
6. A cathode ray tube provided with a magnetic focussing system comprising an annular permanent magnet surrounding the neck of said tube for producing a magnetic eld axially of said annular permanent magnet and an annular member positioned externally of said tube in said magnetic field formed of ferro-magnetic material and movably mounted for adjustment relative to said annular permanent magnet in a plane perpendicular to the axis of said permanent magnet.
7. A cathode ray tube p-rovided with a magnetic focussing system comprising an annular permanent magnet surrounding the neck of said tube for producing a magnetic field axially of said annular permanent magnet, an annular member formed of ferro-magnetic material positioned externally of said tube in said magnetic eld and movably mounted for adjustment relative to said annular permanent magnet in a plane perpendicular to the axis of said permanent magnet and means for clamping said annular member in adjusted position.
8. A cathode ray tube provided With a magnetic focussing system surrounding the neck of said tube comprising an annular magnet surrounding said neck for producing a magnetic flux axially of said tube, a movable annular pole piece for said magnet exteriorly surrounding said tube neck adjacent the end of said magnet nearest the cathode, mounting means for said movable annular pole piece to provide for radial adjustment of said movable annular pole piece relative to said annular magnet, a second annular pole piece exteriorly surrounding said tube neck at the end of said magnet opposite the cathode having an aperture of greater diameter than said tube neck, the edge of said aperture being formed into conical shape and means for supporting said tube neck by said second annular pole piece comprising a cylindrical Wedge of semi-rigid material positioned intermediate said tube neck and said conical shaped edge.
LESLIE HERBERT BEDFORD. LIONEL J'OFEH. WALTER HENRY STEVENS.
Priority Applications (6)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
NL60535D NL60535C (en) | 1938-05-10 | ||
GB14005/39A GB519715A (en) | 1938-05-10 | 1938-05-10 | Improvements relating to cathode ray tubes |
GB13915/38A GB519668A (en) | 1938-05-10 | 1938-05-10 | Improvements relating to cathode ray tubes |
FR854515D FR854515A (en) | 1938-05-10 | 1939-05-09 | Improvements to television systems using cathode ray tubes |
CH212037D CH212037A (en) | 1938-05-10 | 1939-05-09 | Cathode ray tube. |
US459018A US2387110A (en) | 1938-05-10 | 1942-09-19 | Electrical apparatus |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
GB212037X | 1938-05-10 | ||
US459018A US2387110A (en) | 1938-05-10 | 1942-09-19 | Electrical apparatus |
Publications (1)
Publication Number | Publication Date |
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US2336837A true US2336837A (en) | 1943-12-14 |
Family
ID=32109273
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US272508A Expired - Lifetime US2336837A (en) | 1938-05-10 | 1939-05-08 | Electrical apparatus |
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US (1) | US2336837A (en) |
Cited By (23)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2416687A (en) * | 1944-03-30 | 1947-03-04 | Bell Telephone Labor Inc | Magnetic focussing device |
US2418487A (en) * | 1944-03-31 | 1947-04-08 | Bell Telephone Labor Inc | Cathode ray magnetic focusing device |
US2431077A (en) * | 1943-08-31 | 1947-11-18 | Rca Corp | Cathode-ray tube with revolving magnets and adjustable sleeve |
US2442975A (en) * | 1943-08-31 | 1948-06-08 | Rca Corp | Focusing system |
US2533687A (en) * | 1949-05-27 | 1950-12-12 | Quam Nichols Company | Magnetic focusing device |
US2533688A (en) * | 1950-01-31 | 1950-12-12 | Quam Nichols Company | Focusing device |
US2533689A (en) * | 1950-06-28 | 1950-12-12 | Quam Nichols Company | Magnetic focusing device |
US2544875A (en) * | 1950-03-02 | 1951-03-13 | Pye Ltd | Combination centering, focusing, and deflecting device for beam of cathode-ray tubes |
US2568668A (en) * | 1950-08-18 | 1951-09-18 | Best Mfg Co Inc | Cathode-ray tube focusing device of the permanent magnet type |
US2574365A (en) * | 1946-05-10 | 1951-11-06 | Cossor Ltd A C | Time base circuits |
US2581657A (en) * | 1950-07-26 | 1952-01-08 | Myron R Heppner | Focusing and centering device for cathode-ray tubes |
US2592185A (en) * | 1950-12-09 | 1952-04-08 | Quam Nichols Company | Focusing device |
US2602902A (en) * | 1950-02-14 | 1952-07-08 | Bendix Aviat Corp | Sweep amplitude control for magnetically deflected cathode-ray tubes |
US2606301A (en) * | 1949-02-24 | 1952-08-05 | Pye Ltd | Magnetic focusing device for cathode-ray tubes |
US2623095A (en) * | 1949-09-14 | 1952-12-23 | Pye Ltd | Suspension arrangement for cathode-ray tubes |
US2677779A (en) * | 1953-05-22 | 1954-05-04 | Rca Corp | Tricolor kinescope magnetic shield |
US2713651A (en) * | 1951-03-23 | 1955-07-19 | Gen Electric | Amplifier circuit |
US2714177A (en) * | 1951-02-09 | 1955-07-26 | Hartford Nat Bank & Trust Co | Television receiver |
US2715726A (en) * | 1946-12-27 | 1955-08-16 | Robert F Rychlik | Dual indicator cathode ray tube |
US2769115A (en) * | 1951-08-20 | 1956-10-30 | Russell J Callender | Method and means for producing high degree television picture brilliance |
US2793311A (en) * | 1951-04-18 | 1957-05-21 | Du Mont Allen B Lab Inc | Deflection yoke |
US2801365A (en) * | 1954-09-17 | 1957-07-30 | Sylvania Electric Prod | Vertical deflection system for television receivers |
US2885586A (en) * | 1954-12-24 | 1959-05-05 | Sylvania Electric Prod | Television receiver |
-
1939
- 1939-05-08 US US272508A patent/US2336837A/en not_active Expired - Lifetime
Cited By (23)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2431077A (en) * | 1943-08-31 | 1947-11-18 | Rca Corp | Cathode-ray tube with revolving magnets and adjustable sleeve |
US2442975A (en) * | 1943-08-31 | 1948-06-08 | Rca Corp | Focusing system |
US2416687A (en) * | 1944-03-30 | 1947-03-04 | Bell Telephone Labor Inc | Magnetic focussing device |
US2418487A (en) * | 1944-03-31 | 1947-04-08 | Bell Telephone Labor Inc | Cathode ray magnetic focusing device |
US2574365A (en) * | 1946-05-10 | 1951-11-06 | Cossor Ltd A C | Time base circuits |
US2715726A (en) * | 1946-12-27 | 1955-08-16 | Robert F Rychlik | Dual indicator cathode ray tube |
US2606301A (en) * | 1949-02-24 | 1952-08-05 | Pye Ltd | Magnetic focusing device for cathode-ray tubes |
US2533687A (en) * | 1949-05-27 | 1950-12-12 | Quam Nichols Company | Magnetic focusing device |
US2623095A (en) * | 1949-09-14 | 1952-12-23 | Pye Ltd | Suspension arrangement for cathode-ray tubes |
US2533688A (en) * | 1950-01-31 | 1950-12-12 | Quam Nichols Company | Focusing device |
US2602902A (en) * | 1950-02-14 | 1952-07-08 | Bendix Aviat Corp | Sweep amplitude control for magnetically deflected cathode-ray tubes |
US2544875A (en) * | 1950-03-02 | 1951-03-13 | Pye Ltd | Combination centering, focusing, and deflecting device for beam of cathode-ray tubes |
US2533689A (en) * | 1950-06-28 | 1950-12-12 | Quam Nichols Company | Magnetic focusing device |
US2581657A (en) * | 1950-07-26 | 1952-01-08 | Myron R Heppner | Focusing and centering device for cathode-ray tubes |
US2568668A (en) * | 1950-08-18 | 1951-09-18 | Best Mfg Co Inc | Cathode-ray tube focusing device of the permanent magnet type |
US2592185A (en) * | 1950-12-09 | 1952-04-08 | Quam Nichols Company | Focusing device |
US2714177A (en) * | 1951-02-09 | 1955-07-26 | Hartford Nat Bank & Trust Co | Television receiver |
US2713651A (en) * | 1951-03-23 | 1955-07-19 | Gen Electric | Amplifier circuit |
US2793311A (en) * | 1951-04-18 | 1957-05-21 | Du Mont Allen B Lab Inc | Deflection yoke |
US2769115A (en) * | 1951-08-20 | 1956-10-30 | Russell J Callender | Method and means for producing high degree television picture brilliance |
US2677779A (en) * | 1953-05-22 | 1954-05-04 | Rca Corp | Tricolor kinescope magnetic shield |
US2801365A (en) * | 1954-09-17 | 1957-07-30 | Sylvania Electric Prod | Vertical deflection system for television receivers |
US2885586A (en) * | 1954-12-24 | 1959-05-05 | Sylvania Electric Prod | Television receiver |
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