Semi-conductor interconnect using free space electron switch
First Claim
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1. An electronic component comprising:
- first and second substrates;
a first member disposed between said first and a second substrates, said first member defining a vacuum chamber;
a first semi-conductor component coupled to the first substrate, said first semi-conductor component in connection with a first free space electron transmitter and a first free space electronic receiver disposed within said vacuum chamber;
a second semi-conductor component coupled to the second substrate, said second semi-conductor component in connection with a second free space electron transmitter and a second free space electronic receiver disposed within said vacuum chamber;
wherein said first transmitter is configured to transmit a signal from said first semi-conductor component to the second free space electron receiver and wherein said second transmitter is configured to transmit a signal from said second semi-conductor component to the first free space electronic receiver.
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Abstract
An apparatus and method for electrically connecting semi-conductor devices is disclosed. The apparatus and method employs a vacuum chamber and first and second semi-conductor components. The first and second semi-conductor components are coupled to a vacuum chamber and free space electron transmitters and receivers. The transmitters are configured to transmit a signals between the semi-conductor components.
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Citations
31 Claims
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1. An electronic component comprising:
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first and second substrates;
a first member disposed between said first and a second substrates, said first member defining a vacuum chamber;
a first semi-conductor component coupled to the first substrate, said first semi-conductor component in connection with a first free space electron transmitter and a first free space electronic receiver disposed within said vacuum chamber;
a second semi-conductor component coupled to the second substrate, said second semi-conductor component in connection with a second free space electron transmitter and a second free space electronic receiver disposed within said vacuum chamber;
wherein said first transmitter is configured to transmit a signal from said first semi-conductor component to the second free space electron receiver and wherein said second transmitter is configured to transmit a signal from said second semi-conductor component to the first free space electronic receiver. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20)
said fourth semi-conductor component has a fourth free space electron transmitter and a fourth free space electron receiver disposed within said vacuum chamber; and
wherein said third free space electron transmitter is configured to transmit a signal from said third semi-conductor component to at least one of the second and fourth free space electron receivers and wherein said second transmitter is configured to transmit a signal from said second semi-conductor component to at least one of said first free space electron receiver and third free space electron receiver.
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16. The electronic components according to claim 11 wherein said first free space electron transmitter comprises, a cathode array, said cathode array including a plurality of cathodes, each of said cathodes operable to emit electrons;
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an anode grid, said anode grid including a plurality of aiming anodes, each of said aiming anodes defining a channel, each anode operable to aim an electron beam formed from the electrons emitted from one of said cathodes; and
a focusing grid and an accelerating grid disposed between said cathode array and said second free space electron receiver, said focusing grid and accelerating grid being operable to control the flow of electrons from each of said cathodes into each of said channels.
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17. The electronic components according to claim 16 wherein said first free space electron receiver comprises:
- plurality of the output ports, each output port operable to receive an electron beam from at least one cathode.
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18. The electronic components according to claim 16 wherein each of said aiming anodes extend in two dimensions of each said cathodes such that the channels have a surrounding periphery of aiming anodes.
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19. The electronic components according to claim 16 wherein each of said aiming anodes are responsive to a charge which is configured to selectively aim the emitted electrons to an output port.
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20. The electronic components according to claim 16 wherein the cathode is a cold cathode.
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21. A parallel processing computer comprising:
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first and second substrates;
a vacuum chamber;
a first microprocessor coupled to a first free space electron transmitter which is disposed within said vacuum chamber;
a second semi-conductor component coupled to a second free space electron transmitter and a second free space electron receiver which are disposed within said vacuum chamber; and
wherein said first free space electron transmitter is configured to transmit a signal from said first microprocessor component to the second free space electron receiver. - View Dependent Claims (22, 23)
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24. An electronic component comprising:
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a vacuum chamber;
a first semi-conductor component coupled to the vacuum chamber, said first semi-conductor component connected to a first free space electron transmitter and a first free space electron receiver disposed within said vacuum chamber;
a second semi-conductor component coupled to said vacuum chamber, said second semi-conductor component connected to a second free space electron transmitter and a second free space electron receiver disposed within said vacuum chamber;
wherein said first transmitter is configured to transmit a signal from said first semi-conductor component to the second free space electron receiver and wherein said second transmitter is configured to transmit a signal from said second semi-conductor component to the first free space electron receiver. - View Dependent Claims (25, 26, 27, 28, 29, 30, 31)
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Specification