Electromechanical three-trace junction devices
First Claim
1. A circuit, comprisinga first electrically conductive element;
- a second electrically conductive element; and
a nanotube ribbon disposed between the first and second electrically conductive elements, wherein the nanotube ribbon is movable toward at least one of the first and second electrically conductive elements in response to electrical stimulus applied to at least one of the first and second electrically conductive elements and the nanotube ribbon;
wherein one of the first and second electrically conductive elements comprises an insulative layer on a surface facing the nanotube ribbon.
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Accused Products
Abstract
Three trace electromechanical circuits and methods of using same. A circuit includes first and second electrically conductive elements with a nanotube ribbon (or other electromechanical elements) disposed therebetween. An insulative layer is disposed on one of the first and second conductive elements. The nanotube ribbon is movable toward at least one of the first and second electrically conductive elements in response to electrical stimulus applied to at least one of the first and second electrically conductive elements and the nanotube ribbon. Such circuits may be formed into arrays of cells. One of the conductive elements may be used to create an attractive force to cause the nanotube ribbon to contact a conductive element, and the other of the conductive elements may be used to create an attractive force to pull the nanotube ribbon from contact with the contacted conductive element. The electrically conductive traces may be aligned or unaligned with one another.
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Citations
21 Claims
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1. A circuit, comprising
a first electrically conductive element; -
a second electrically conductive element; and a nanotube ribbon disposed between the first and second electrically conductive elements, wherein the nanotube ribbon is movable toward at least one of the first and second electrically conductive elements in response to electrical stimulus applied to at least one of the first and second electrically conductive elements and the nanotube ribbon; wherein one of the first and second electrically conductive elements comprises an insulative layer on a surface facing the nanotube ribbon. - View Dependent Claims (2, 3, 4)
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5. A circuit array, comprising
a first structure having a plurality of electrically conductive elements and a plurality of support structures; -
a second structure having a plurality of electrically conductive elements and a plurality of support structures; and a plurality of nanotube ribbons disposed between the first and second structures, each nanotube ribbon crossing in spaced relation the corresponding electrically conductive elements of the first and second structures and thereby defining a corresponding circuit cell, and wherein a nanotube ribbon is movable within a circuit cell in response to electrical stimulus applied to at least one of the electrically conductive elements and the nanotube ribbons; and wherein the electrically conductive elements of at least one of the first and second structures comprise an insulative layer on a surface facing a corresponding nanotube ribbon. - View Dependent Claims (6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
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17. A circuit, comprising
a first electrically conductive element; -
a second electrically conductive element; and an electromechanically responsive element disposed between the first and second electrically conductive elements, wherein the electromechanically responsive element is movable toward at least one of die first and second electrically conductive elements in response to electrical stimulus applied to at least one of the first and second electrically conductive elements and the electromechanically responsive element; and wherein one of the first and second electrically conductive elements comprises an insulative layer on a surface facing the electromechanically responsive element. - View Dependent Claims (18, 19)
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20. A method of using a circuit cell having a first electrically conductive element, a second electrically conductive element, and a nanotube ribbon disposed between the first and second electrically conductive elements, the method comprising:
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applying electrical stimulus to one of the first and second electrically conductive elements and to the nanotube ribbon to move the nanotube ribbon toward at least one of the first and second electrically conductive elements; sensing electrical signals from at least one the first and second electrically conductive elements and the nanotube ribbon to determine the electrical state of the circuit cell; and applying electrical stimulus to the other of the first and second electrically conductive elements and to the nanotube ribbon to move the nanotube ribbon away from the one of the first and second electrically conductive elements which it was moved toward. - View Dependent Claims (21)
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Specification