Patent ID: 7944121
Filing Date: 2011-05-17
Classification: H01L,Y10T

Abstract:
1. A co-fabricated vertical piezoelectric microelectromechanical systems (MEMS) actuator that achieve large positive and negative displacements through operating electric fields in excess of the coercive field, said MEMS actuator comprising: a large negative displacement vertical piezoelectric MEMS actuator, a substrate layer; a bottom structural dielectric layer above said substrate layer; a bottom electrode layer above said structural dielectric layer; an active piezoelectric layer above said bottom electrode layer; a top electrode layer above said active piezoelectric layer; a top structural layer above said top electrode layer, wherein the x-y neutral plane of the negative displacement vertical piezoelectric MEMS actuator is above the mid-plane of the active piezoelectric layer, wherein said negative displacement vertical piezoelectric MEMS actuator is patterned as a compliant structure, wherein said negative displacement vertical piezoelectric MEMS actuator is anchored to said substrate at at least one location and is partially released from said substrate to allow free motion of said actuator, and wherein said large negative displacement vertical piezoelectric MEMS actuator and a large positive displacement vertical piezoelectric MEMS actuator are positioned on the same said substrate within the same manufacturing process, wherein the thicknesses and elastic material properties of the bottom structural dielectric layer, said bottom electrode layer, said active piezoelectric laver, said top electrode layer, and said top structural layer of said negative displacement piezoelectric MEMS actuator are selected to position the x-y neutral plane of the actuator above the mid-plane of the active piezoelectric layer and to achieve a predetermined actuator force and displacement performance and, wherein each actuator is co-formed together by: forming a bottom structural dielectric layer common to both actuators above a common substrate layer; forming a bottom electrode layer common to both said actuators above said structural dielectric layer; forming an active piezoelectric layer common to both said actuators above said bottom electrode layer, forming a top electrode layer common to both said actuators above said active piezoelectric layer; forming a top structural layer above said top electrode layer of said large negative displacement vertical piezoelectric MEMS actuator, wherein the x-y neutral plane of the negative displacement vertical piezoelectric MEMS actuator is above the mid-plane of the active piezoelectric layer, wherein the x-y neutral plane of the large positive displacement vertical piezoelectric MEMS actuator is below the mid-plane of the active piezoelectric layer, wherein said actuators are patterned as compliant structures, wherein said actuators are each anchored to said substrate at at least one location and are partially released from said substrate to allow free motion of said actuators; and selecting the thicknesses and elastic material properties of said top structural layer of the negative displacement piezoelectric MEMS actuator, said common active piezoelectric layer, and the common bottom structural dielectric layer to achieve a predetermined actuator force and displacement performance of both of the actuators.