Gimbal-less micro-electro-mechanical-system tip-tilt and tip-tilt-piston actuators and a method for forming the same
First Claim
1. A micro-electro-mechanical-system (MEMS) device, comprising:
- a first rotational actuator having a first rotation axis;
a second rotational actuator having a second rotation axis, wherein the first and second rotation axes are non-parallel;
a device mount;
a first bi-axial linkage coupled between the device mount and the first rotational actuator without an intervening frame, wherein the first biaxial linkage includes a first flexure beam configured to flex about a first flexure axis and a second flexure beam configured to flex about a second flexure axis that is non-parallel to the first flexure axis; and
a second bi-axial linkage coupled between the device mount and the second rotational actuator without an intervening frame, wherein the second biaxial linkage includes a third flexure beam configured to flex about a third flexure axis and a fourth flexure beam configured to flex about a fourth flexure axis that is non-parallel to the third flexure axis, wherein the first and second bi-axial linkages provide the device mount with two or more degrees of freedom of movement, wherein the first and second bi-axial linkages and device mount are formed from the same device layer.
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Accused Products
Abstract
Fully monolithic gimbal-less micro-electro-mechanical-system (MEMS) devices with large static optical beam deflection and fabrications methods are disclosed. The devices can achieve high speed of operation for both axes. Actuators are connected to a device, or device mount by linkages that allow static two-axis rotation in addition to pistoning without the need for gimbals, or specialized isolation technologies. The device may be actuated by vertical comb-drive actuators, which are coupled by bi-axial flexures to a central micromirror or device mount. Devices may be fabricated by etching an upper layer both from the top side and from the bottom side to form beams at different levels, The beams include a plurality of lower beams, a plurality of full-thickness beams, and a plurality of upper beams, the lower, full-thickness and upper beams That form vertical combdrive actuators, suspension beams, flexures, and a device mount.
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Citations
14 Claims
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1. A micro-electro-mechanical-system (MEMS) device, comprising:
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a first rotational actuator having a first rotation axis; a second rotational actuator having a second rotation axis, wherein the first and second rotation axes are non-parallel; a device mount; a first bi-axial linkage coupled between the device mount and the first rotational actuator without an intervening frame, wherein the first biaxial linkage includes a first flexure beam configured to flex about a first flexure axis and a second flexure beam configured to flex about a second flexure axis that is non-parallel to the first flexure axis; and a second bi-axial linkage coupled between the device mount and the second rotational actuator without an intervening frame, wherein the second biaxial linkage includes a third flexure beam configured to flex about a third flexure axis and a fourth flexure beam configured to flex about a fourth flexure axis that is non-parallel to the third flexure axis, wherein the first and second bi-axial linkages provide the device mount with two or more degrees of freedom of movement, wherein the first and second bi-axial linkages and device mount are formed from the same device layer. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A micro-electro-mechanical-system (MEMS) device, comprising:
- a device mount supported by two or more linkages with each linkage mechanically coupled between the device mount and a different one of two or more actuators, wherein the two or more linkages provide the device mount with two or more degrees of freedom of movement, wherein the linkages, the actuators and the device mount are formed from the same layer of material, wherein the actuators are balanced rotators comprised of opposing down-force and up-force vertical combdrives on either side of an axis of rotation of the actuator, respectively, wherein the down-force and up-force vertical combdrives are formed from the same layer of material as the device mount and the linkages.
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14. A micro-electro-mechanical-system (MEMS) device, comprising:
- a gimbal-less device mount supported by two or more linkages with each linkage mechanically coupled between the device mount and an actuator, wherein the two or more linkages provide the device mount with two or more degrees of freedom of movement, wherein three or more actuators are arranged in such a pattern that one end of each actuator abuts a side of a neighboring actuator proximate the device mount and each actuator may extend away from the device mount along a direction parallel to an axis of rotation provided by the actuator without abutting a side of a neighboring actuator in the device.
Specification