Stress bimorph MEMS switches and methods of making same
First Claim
1. An electromechanical switch comprising:
- a substrate;
a first electrical contact formed on said substrate;
a substrate electrostatic plate formed on said substrate;
a cantilever actuator arm anchored to said substrate at a first end of said actuator arm, said actuator arm physically contacting said substrate electrostatic plate when said switch is in a closed position;
a second electrical contact disposed at a second end of said actuator arm, said second electrical contact being in electrical contact with said first electrical contact when said switch is in said closed position;
said substrate electrostatic plate disposed beneath said actuator arm and between said first end and said second end of said actuator arm; and
an arm electrostatic plate formed on said actuator arm and positioned above said substrate electrostatic plate when said switch is in a closed position,wherein when said switch is in an open position, said actuator arm curves away from said substrate.
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Accused Products
Abstract
A micro-electromechanical system (MEMS) switch formed on a substrate, the switch comprising a transmission line formed on the substrate, a substrate electrostatic plate formed on the substrate, and an actuating portion. The actuating portion comprises a cantilever anchor formed on the substrate and a cantilevered actuator arm extending from the cantilever anchor. Attraction of the actuator arm toward the substrate brings an electrical contact into engagement with the portions of the transmission line separated by a gap, thus bridging the transmission line gap and closing the circuit. In order to maximize electrical isolation between the transmission line and the electrical contact in an OFF-state while maintaining a low actuation voltage, the actuator arm is bent such that the minimum separation distance between the transmission line and the electrical contact is equal to or greater than the maximum separation distance between the substrate electrostatic plate and arm electrostatic plate.
150 Citations
23 Claims
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1. An electromechanical switch comprising:
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a substrate; a first electrical contact formed on said substrate; a substrate electrostatic plate formed on said substrate; a cantilever actuator arm anchored to said substrate at a first end of said actuator arm, said actuator arm physically contacting said substrate electrostatic plate when said switch is in a closed position; a second electrical contact disposed at a second end of said actuator arm, said second electrical contact being in electrical contact with said first electrical contact when said switch is in said closed position;
said substrate electrostatic plate disposed beneath said actuator arm and between said first end and said second end of said actuator arm; andan arm electrostatic plate formed on said actuator arm and positioned above said substrate electrostatic plate when said switch is in a closed position, wherein when said switch is in an open position, said actuator arm curves away from said substrate. - View Dependent Claims (2, 3, 4, 17, 20)
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5. A method of switching electrical energy between an input and an output, the method comprising the steps of:
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providing an electrostatically actuated cantilevered arm on a substrate, said cantilevered arm comprising an arm electrostatic plate and said substrate comprising a substrate electrostatic plate; applying a voltage to attract said electrostatically actuated cantilevered arm towards said substrate, said cantilevered arm having an electrical contact that electrically connects said input to said output when the voltage is applied, said arm electrostatic plate being positioned above said substrate electrostatic plate when the voltage is applied, said cantilevered arm physically contacting said substrate electrostatic plate when said voltage is applied; and removing said voltage or applying a second voltage to cause said cantilevered arm to move away from said substrate, said electrical contact no longer electrically connecting said input to said output when the voltage is removed or the second voltage is applied, wherein said cantilevered arm curves away from said substrate when the voltage is removed or the second voltage is applied. - View Dependent Claims (6, 7, 18, 21)
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8. A micro-electromechanical switch formed on a substrate, said switch comprising:
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a transmission line formed on said substrate, said transmission line having a transmission line gap forming an open circuit; a substrate electrostatic plate formed on said substrate; and an actuating portion, said actuating portion comprising; a cantilever anchor formed on said substrate; a cantilevered actuator arm extending from said cantilever anchor, said actuator arm physically contacting said substrate electrostatic plate when said switch is in a closed position; an electrical contact formed on said actuator arm and positioned facing said gap in said transmission line; and an arm electrostatic plate formed on said actuator arm, said arm electrostatic plate having a first portion formed proximate said cantilever anchor and a second portion extending from said first portion along said actuator arm, wherein when said switch is in an open position, said actuator arm has a bend such that a minimum separation distance between said transmission line and said electrical contact is equal to or greater than a maximum separation distance between said substrate electrostatic plate and said arm electrostatic plate, said arm electrostatic plate and a segment of said actuator arm on which said arm electrostatic plate is formed defining a structure electrostatically attractable toward said substrate electrostatic plate upon selective application of a voltage to said arm electrostatic plate. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15, 16, 19, 22)
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23. An electromechanical switch comprising:
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a substrate; a first electrical contact formed on said substrate; a substrate electrostatic plate formed on said substrate and comprising a first side and a second side opposite to the first side; a cantilever actuator arm anchored to said substrate at a first end of said actuator arm; a mechanical post disposed adjacent said first side or said second side of the substrate electrostatic plate so as to prevent said actuator arm from physically contacting said substrate electrostatic plate when said switch is in a closed position; a second electrical contact disposed at a second end of said actuator arm, said second electrical contact being in electrical contact with said first electrical contact when said switch is in said closed position;
said substrate electrostatic plate disposed beneath said actuator arm and between said first end and said second end of said actuator arm; andan arm electrostatic plate formed on said actuator arm and positioned above said substrate electrostatic plate when said switch is in a closed position, wherein when said switch is in an open position, said actuator arm curves away from said substrate.
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Specification