Microelectromechanical device with restoring electrode
First Claim
1. A micro-electromechanical (MEMS) device, comprising:
- an optically transmissive substrate;
an electrode located on the substrate;
a deflectable member spaced from the substrate by a first gap and positioned so that the electrode is between the deflectable member and the substrate, the deflectable member configured to deflect from a rest position to an actuated position when electrostatically attracted to the electrode; and
an encapsulation membrane comprising electrically conductive material, the encapsulation membrane spaced from the deflectable member by a second gap, the deflectable member being positioned between the optically transmissive substrate and the encapsulation membrane, the encapsulation membrane configured to electrostatically attract the deflectable member when a reset voltage is applied across the encapsulation membrane and the deflectable member, aiding the deflectable member in releasing from the actuated position.
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Accused Products
Abstract
Light in the visible spectrum is modulated using an array of modulation elements, and control circuitry connected to the array for controlling each of the modulation elements independently, each of the modulation elements having a surface which is caused to exhibit a predetermined impedance characteristic to particular frequencies of light. The amplitude of light delivered by each of the modulation elements is controlled independently by pulse code modulation. Each modulation element has a deformable portion held under tensile stress, and the control circuitry controls the deformation of the deformable portion. Each deformable element has a deformation mechanism and an optical portion, the deformation mechanism and the optical portion independently imparting to the element respectively a controlled deformation characteristic and a controlled modulation characteristic. The deformable modulation element may be a non-metal. The elements are made by forming a sandwich of two layers and a sacrificial layer between them, the sacrificial layer having a thickness related to the final cavity dimension, and using chemical (e.g., water) or a plasma based etch process to remove the sacrificial layer.
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Citations
21 Claims
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1. A micro-electromechanical (MEMS) device, comprising:
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an optically transmissive substrate; an electrode located on the substrate; a deflectable member spaced from the substrate by a first gap and positioned so that the electrode is between the deflectable member and the substrate, the deflectable member configured to deflect from a rest position to an actuated position when electrostatically attracted to the electrode; and an encapsulation membrane comprising electrically conductive material, the encapsulation membrane spaced from the deflectable member by a second gap, the deflectable member being positioned between the optically transmissive substrate and the encapsulation membrane, the encapsulation membrane configured to electrostatically attract the deflectable member when a reset voltage is applied across the encapsulation membrane and the deflectable member, aiding the deflectable member in releasing from the actuated position. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A device comprising:
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an optically transmissive substrate; at least one deflectable mirror spaced from the substrate, the at least one mirror configured to move between a rest position and an actuated position, the actuated position located closer to the substrate than the rest position; at least one electrode located on the substrate, the at least one electrode configured to generate an electrostatic force to move the at least one mirror toward the actuated position when an actuation voltage is applied across the at least one electrode and the at least one mirror; and an encapsulation membrane spaced from the at least one mirror such that the at least one mirror is positioned between the substrate and the encapsulation membrane, the encapsulation membrane comprising electrically conductive material and configured to generate an electrostatic force that attracts the at least one mirror toward the rest position when a reset voltage is applied across the encapsulation membrane and the at least one mirror, wherein the reset voltage comprises a voltage sufficient to so that the electrostatic force generated overcomes the attraction force between the at least one mirror and the at least one electrode. - View Dependent Claims (13, 14, 15, 16)
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17. A micro-electromechanical device comprising:
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an encapsulation membrane comprising an electrode; an optically transmissive substrate spaced from the encapsulation membrane, wherein the encapsulation membrane and the substrate define at least one cavity; a transparent conductive material positioned on the substrate; and a movable reflective element located between the substrate and the encapsulation membrane and configured to move between a rest position and an actuated position in the at least one cavity, the device configured so as to receive driving voltages, and configured such that the driving voltages create an electrostatic attraction force between the reflective element and the transparent conductive material that moves the reflective element to an actuated position, and the driving voltages create an electrostatic attraction force between the reflective element and the electrode of the encapsulation membrane that moves the reflective element to a rest position. - View Dependent Claims (18)
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19. A micro-electromechanical (MEMS) device, comprising:
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an optically transmissive substrate comprising an electrode; an encapsulation membrane spaced from the substrate; means for selectively reflecting light, the light reflecting means spaced from the substrate and positioned between the substrate and the encapsulation membrane, the light reflecting means configured to deflect from a rest position to at least one actuated position when electrostatically attracted to the electrode, wherein the encapsulation membrane comprises means for resetting the light reflecting means to the rest position when a reset bias voltage is applied between the light reflecting means and the encapsulation membrane. - View Dependent Claims (20, 21)
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Specification