Method of making low cost integrated out-of-plane micro-device structures
First Claim
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1. A method for forming an out-of-plane structure, comprising:
- depositing a layer of an elastic material on a substrate, the elastic material having an intrinsic stress profile;
photolithographically patterning the layer of elastic material into an elastic member;
depositing a reflow load layer along a portion of a surface of the elastic member, wherein the reflow load layer is formed of a material capable of being reflowed;
under-cut etching a portion of the substrate under the elastic member to release a free end of the elastic member from the substrate, an anchor portion of the elastic member remaining fixed to the substrate;
wherein the intrinsic stress profile in the elastic member biases the free end away from the substrate, forming a spring having an initial radius of curvature determined in part by the initial condition of the reflow toad layer; and
reflowing the reflow material in the reflow load layer to control the radius of curvature of the spring, wherein reflowing of the reflow material in the load layer changes the load effect of the load layer, thereby changing the initial radius of curvature of the spring.
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Abstract
Several methods and structures for improving the yield of out-of-plane micro-device structures including springs and coils are described. Structures and methods for adjusting the coil diameter after spring release, if necessary, are also disclosed. In one method the radius of curvature of the released elastic members is controlled by depositing a layer of a reflow material and reflowing the layer after release. The high yield structures may be used in numerous electronic applications such as filter circuits.
35 Citations
11 Claims
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1. A method for forming an out-of-plane structure, comprising:
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depositing a layer of an elastic material on a substrate, the elastic material having an intrinsic stress profile;
photolithographically patterning the layer of elastic material into an elastic member;
depositing a reflow load layer along a portion of a surface of the elastic member, wherein the reflow load layer is formed of a material capable of being reflowed;
under-cut etching a portion of the substrate under the elastic member to release a free end of the elastic member from the substrate, an anchor portion of the elastic member remaining fixed to the substrate;
wherein the intrinsic stress profile in the elastic member biases the free end away from the substrate, forming a spring having an initial radius of curvature determined in part by the initial condition of the reflow toad layer; and
reflowing the reflow material in the reflow load layer to control the radius of curvature of the spring, wherein reflowing of the reflow material in the load layer changes the load effect of the load layer, thereby changing the initial radius of curvature of the spring. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method for forming an out-of-plane structure, comprising:
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depositing a layer of an elastic material on a substrate, the elastic material having an intrinsic stress profile;
photolithographically patterning the layer of elastic material into an elastic member;
depositing a load layer along a portion of a surface of the elastic member, wherein the load layer comprises a plurality of layers;
under-cut etching a portion of the substrate under the elastic member to release a free end of the elastic member from the substrate, an anchor portion of the elastic member remaining fixed to the substrate;
wherein the intrinsic stress profile in the elastic member biases the free end of the structure away from the substrate, forming a spring having an initial radius of curvature determined in part by the initial condition of the load layer; and
selectively etching at least one of the plurality of layers of the load layer to control the radius of curvature of the spring, wherein etching of the plurality of layers in the load layer changes the load effect of the load layer, thereby changing the initial radius of curvature of the spring. - View Dependent Claims (8, 9, 10, 11)
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Specification