Method and apparatus for quickly heating a vacuum tube cathode
First Claim
1. A method of rapidly heating a thermionic vacuum tube cathode, comprising the steps of:
- flowing electrical current through said cathode, thereby directly releasing thermal energy within the body of said cathode;
radiating thermal energy from a heater in proximity to said cathode, said heater being adapted to heat more rapidly than said cathode and to emit electrons when at its operating temperature;
bombarding said cathode with electrons emitted from said heater by applying a potential to said cathode which is positive with respect to said heater, thereby causing electrons released from said heater to accelerate toward and bombard said cathode.
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Accused Products
Abstract
Disclosed are a method and apparatus for rapidly heating a thermionic vacuum tube cathode, thereby enabling the vacuum tube to be placed in useful operation shortly after the tube is switched on. Rapid heating of the cathode is achieved by passing current through the cathode, thereby directly heating it. Simultaneously, the cathode is also heated by an indirect radiant heater and by electron bombardment by electrons emitted from the heater. When the cathode reaches its operating temperature, the direct heating current and the electron bombardment are stopped and the cathode is maintained at its operating temperature by the indirect heater alone. Cathode warm-up times of less than 1 second may be attained using this invention.
55 Citations
28 Claims
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1. A method of rapidly heating a thermionic vacuum tube cathode, comprising the steps of:
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flowing electrical current through said cathode, thereby directly releasing thermal energy within the body of said cathode; radiating thermal energy from a heater in proximity to said cathode, said heater being adapted to heat more rapidly than said cathode and to emit electrons when at its operating temperature; bombarding said cathode with electrons emitted from said heater by applying a potential to said cathode which is positive with respect to said heater, thereby causing electrons released from said heater to accelerate toward and bombard said cathode. - View Dependent Claims (2, 3, 28)
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4. A quick-start thermionic cathode assembly for use in a vacuum tube, comprising:
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a cathode body having internal electrical resistance, two electrodes, and means for flowing electrical current through the body of said cathode between said electrodes, thereby causing the release of thermal energy within the body of said cathode, a heater placed in proximity to said cathode, said heater being adapted to emit electrons when heated to its operating temperature; means for maintaining said cathode at a positive potential with respect to said heater, thereby causing electrons released from said heater to accelerate toward and bombard said cathode. - View Dependent Claims (5, 6, 7, 8, 9)
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10. A quick-start thermionic cathode assembly for use in a vacuum tube, comprising:
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a cathode body formed in the shape of a concave circular button, having internal electrical resistance, two electrodes, and means for flowing electrical current through the body of said cathode between said electrodes, thereby causing the release of thermal energy within the body of said cathode, a heater placed in proximity of said cathode, said heater being adapted to emit electrons when heated to its operating temperature, means for maintaining said cathode at a positive potential with respect to said heater, thereby causing electrons released from said heater to accelerate towards and bombard said cathode, wherein one of said electrodes is connected to the center of said cathode button and the other of said electrodes is connected to the periphery of said cathode button.
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11. A quick-start thermionic cathode assembly for use in a vacuum tube, comprising:
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a cathode body formed in the shape of a concave circular button, having internal electrical resistance, two electrodes, and means for flowing electrical current through the body of said cathode between said electrodes, thereby causing the release of thermal energy within the body of said cathode, a heater placed in proximity to said cathode, said heater being adapted to emit electrons when heated to its operating temperature, means for maintaining said cathode at a positive potential with respect to said heater, thereby causing electrons released from said heater to accelerate towards and bombard said cathode, and means for evenly distributing the current flowing between said electrodes within said cathode button and for causing said current to flow in a path which is substantially longer than the distance between the electrodes. - View Dependent Claims (12, 13)
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14. A quick-start thermionic cathode assembly for use in a vacuum tube, comprising:
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a circular concave cathode button having two electrodes and means for flowing electrical current evenly through said cathode button between said electrodes, thereby directly heating said cathode button, a heater placed in proximity to said cathode button, said heater being adapted to heat more rapidly than said cathode button and to emit electrons when heated to its operating temperature, means for applying a potential to said cathode button which is positive with respect to said heater, thereby causing electrons emitted from said heater when said heater is at its operating temperature to accelerate towards and bombard said cathode button, means for switching off the flow of current between said electrodes of said cathode button, and the potential difference between said cathode button and said heater, whereby said direct heating and electron bombardment of said cathode button can be discontinued before said vacuum tube is placed in operation.
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15. A quick-start thermionic cathode assembly for use in a vacuum tube, wherein said heater comprises a coating of electron emissive material.
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16. A quick-start thermionic cathode assembly for use in a vacuum tube, comprising:
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a circular concave cathode button having two electrodes and means for flowing electrical current evenly through said cathode button between said electrodes, thereby directly heating said cathode button, a heater comprising a coating of electron emissive material placed in proximity to said cathode button, said heater being adapted to heat more rapidly than said cathode button and to emit electrons when heated to its operating temperature, means for applying a potential to said cathode button which is positive with respect to said heater, thereby causing electrons emitted from said heater when said heater is at its operating temperature to accelerate towards and bombard said cathode button, means for switching off the flow of current between said electrodes of said cathode button, and the potential difference between said cathode button and said heater, whereby said direct heating and bombardment of said cathode button can be discontinued before said vacuum tube is placed in operation, wherein one of said electrodes is connected to the center of said cathode button, and the other of said electrodes os connected to the periphery of said cathode button.
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17. A quick-start thermionic cathode assembly for use in a vacuum tube, comprising:
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a circular concave cathode button having two electrodes and means for flowing electrical current evenly through said cathode button between said electrodes, thereby directly heating said cathode button, a heater placed in proximity to said cathode button, said heater being adapted to heat more rapidly than said cathode button and to emit electrons when heated to its operating temperature, means for applying a potential to said cathode button which is positive with respect to said heater, thereby causing electrons emitted from said heater when said heater is at its operating temperature to accelerate towards and bombard said cathode button, means for switching off the flow of current between said electrodes of said cathode button, and the potential difference between said cathode button and said heater, whereby said direct heating and bombardment of said cathode button can be discontinued before said vacuum tube is placed in operation, wherein said means for evenly flowing electrical current through said cathode button between said electrodes comprises at least one thermally conductive, electrically insulative member incorporated within said cathode button, said member constraining said current to flow in at least one serpentine path, said path being substantially longer than the distance between the electrodes. - View Dependent Claims (18)
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19. A quick-start thermionic cathode assembly for use in a vacuum tube, comprising:
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a circular concave cathode button having two electrodes and means for flowing electrical current evenly through said cathode button between said electrodes, thereby directly heating said cathode button, a heater placed in proximity to said cathode button, said heater being adapted to heat more rapidly than said cathode button and to emit electrons when heated to its operating temperature, means for applying a potential to said cathode button which is positive with respect to said heater, thereby causing electrons emitted from said heater when said heater is at its operating temperature to accelerate towards and bombard said cathode button, means for switching off the flow of current between said electrodes of said cathode button, and the potential difference between said cathode button and said heater, whereby said direct heating and bombardment of said cathode button can be discontinued before said vacuum tube is placed in operation, and means to apply a voltage a voltage to said heater during the initial period of cathode heating which is substantially greater than the voltage applied to said heater during normal operation of said tube.
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20. A directly heated cathode assembly, comprising:
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a cathode button having a concave surface, two electrodes positioned on said cathode button such that the application of a voltage between said electrodes causes current to flow through the body of said cathode button thereby causing heat to be produced within the body of said cathode button, means incorporated within said cathode button for evenly distributing the current flow between said electrodes and for causing said current to travel in a path substantially greater in length than the distance between said electrodes.
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21. A directly heated cathode assembly, comprising:
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a cathode button having a concave surface, two electrodes positioned on said cathode button such that the application of a voltage between said electrodes causes current to flow through the body of said cathode button causing heat to be produced within the body of said cathode button, means incorporated within said cathode button for evenly distributing the current flow between said electrodes and for causing said current to travel in a path substantially greater in length than the distance between said electrodes, wherein said means for evenly distributing said current and for substantially lengthening said current path comprises at least one thermally conductive, electrically insulative member incorporated into the body of said cathode button in such a fashion as to constrain said current flow to at least one serpentine path between said electrodes. - View Dependent Claims (22, 23, 24, 25)
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26. A quick-start thermionic cathode assembly for use in a vacuum tube comprising:
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a cathode having two electrodes and means for flowing electrical current evenly through said cathode between said electrodes, thereby directly heating said cathode, a heater placed in proximity to said cathode, said heater being adapted to heat more rapidly then said cathode and to emit electrons when heated to its operating temperature, means for applying a potential to said cathode which is positive with respect to said heater, thereby causing electrons emitted from said heater when said heater is at its operating temperature to accelerate towards and bombard said cathode, means for switching off the flow of current between said electrodes of said cathode, and the potential difference between said cathode button and said heater, whereby said direct heating and bombardment of said cathode can be discontinued befored said vacuum tube is placed in operation, means for constraining the path of electrical current between said electrodes so that said path is longer than the distance between said electrodes.
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27. A directly heated cathode assembly, comprising
a cathode button, two electrodes positioned on said cathode button such that the application of a voltage between said electrodes causes current to flow through the body of said cathode button causing heat to be produced within the body of said cathode button, means incorporated within said cathode button for evenly distributing the current flow between said electrodes and for causing said current to travel in a path substnatially greater in length than the distance between said electrodes, wherein said means for evenly distributing said current and for substantially lengthening said current path comprises at least one thermally conductive, electrically insulative member incorporated into the body of said cathode button in such a fashion as to constrain said current flow to at least one serpentine path between said electrodes.
Specification