A device includes a thermally deformable assembly accommodated in a cavity of the interconnection part of an integrated circuit. The assembly can bend when there is a variation in temperature, so that its free end zone is displaced vertically. The assembly can be formed in the back end of line of the integrated circuit.

A deployable Kiriform flexure includes first and second sections. The first section of the Kiriform flexure includes a plurality of curved fins arranged about a central axis. The second section of the Kiriform flexure includes a plurality of curved fins arranged about a central axis. Each fin of the second section is joined with a fin of the first section such that the first and second sections share a common central axis in a configuration that produces out-of-plane elastic buckling of the fins to actuate the Kiriform flexure from a substantially flat structure that extends substantially only in two dimensions orthogonal to the central axis to an expanded structure extending substantially in a third dimension parallel to the central axis when at least one of the first and second sections is rotated relative to the other section.

An MENS microphone is provided in the present disclosure. The MENS microphone includes a fixing pole plate, a vibrating pole plate, an elastic arm; the fixing pole plate comprises a first fixing electrode, an insulating layer, a second fixing electrode that are superimposed sequentially, a through hole penetrating through the first fixing pole plate, the insulating layer and the second fixing pole plate; the vibrating pole plate is embedded in the through hole, comprises a main body and a plurality of spaced protrusions provided on two opposite side walls of the main body; the fixing pole plate comprises a plurality of spaced grooves recessed from two opposite inner walls of the fixing pole plate respectively toward corresponding outer walls, the grooves penetrates through the first fixing electrode, the insulating layer, the second fixing electrode; the protrusions are inserted into the grooves and correspond to the grooves one to one.

A diaphragm assembly for a miniature acoustical transducer having a sufficiently light paddle to allow good audio performance and a sufficiently stiff frame to allow handling. The paddle may be made of a thin sheet of aluminium and the frame of thicker aluminium or a bent sheet of aluminium.

Hinge between a first part and a second part of a microelectromechanical system, said system comprising a first element (S) and a second element (M) free to move relative to each other in an out-of-plane direction, said hinge comprising a first rigid part (4), a second part (6) fixed to a first face of the first part (4) by one end and anchored to the second element by a second end, said second part (6) deforming in bending in the out--of-plane direction, a third part (8) fired to a first face of the first part (4) by a second end, and anchored to the first element (S) by a second end, the third part (8) deforming in bending in the out-of-plane direction (Z), and, in an undeformed state the second part (6) and the third part (8) each comprising one face located in the same plane (P2) orthogonal to the out-of-plane direction (Z).

Hinge for a microelectromechanical system, said system comprising a fixed part and at least one part able to move relative to the fixed part along at least an out-of-plane direction, said hinge being intended to suspend the moving part from the fixed part, said hinge comprising a first rigid part, a second part fixed to the first part at one end and intended to be anchored to the fixed part or the moving part, said second part being configured to deform in bending in a first direction, and two third parts fixed to the first part and intended to be anchored to the moving part or the fixed part, the third parts being configured to deform in bending along a second direction orthogonal to the first direction.

A new tri-electrode topology reduces the control voltage requirement for electrostatic actuators. Conventional parallel plate actuators are dual-electrode systems, formed by the MEMS structure and the drive electrode. By placing a perforated intermediate electrode between these elements, a tri-electrode configuration is formed. This topology enables a low voltage on the intermediate electrode to modulate the electrostatic force of the higher voltage drive electrode, whose voltage remains fixed. Results presented show that in comparison to conventional parallel plate electrostatic actuators, the intermediate electrode's modulating voltage can be as low as 20% of normal, while still providing the full actuation stroke.

A MEMS device includes a semiconductor support body having a first cavity, a membrane including a peripheral portion, fixed to the support body, and a suspended portion. A first deformable structure is at a distance from a central part of the suspended portion of the membrane and a second deformable structure is laterally offset relative to the first deformable structure towards the peripheral portion of the membrane. A projecting region is fixed under the membrane. The second deformable structure is deformable so as to translate the central part of the suspended portion of the membrane along a first direction, and the first deformable structure is deformable so as to translate the central part of the suspended portion of the membrane along a second direction.

A MEMS device includes a semiconductor support body having a first cavity, a membrane including a peripheral portion, fixed to the support body, and a suspended portion. A first deformable structure is at a distance from a central part of the suspended portion of the membrane and a second deformable structure is laterally offset relative to the first deformable structure towards the peripheral portion of the membrane. A projecting region is fixed under the membrane. The second deformable structure is deformable so as to translate the central part of the suspended portion of the membrane along a first direction, and the first deformable structure is deformable so as to translate the central part of the suspended portion of the membrane along a second direction.

A micromechanical component including a mounting including a spanned diaphragm, which is warpable via a pressure difference between a first diaphragm side and a second diaphragm side against a diaphragm counter force according to a diaphragm spring constant of the diaphragm, and at least one actuator electrode, which is connected to the diaphragm and adjustable against a spring force according to at least one spring constant of at least one spring with the aid of a warping of the diaphragm, an overall system spring constant being definable as the sum of a diaphragm spring constant of the diaphragm and the spring constant of the single spring, or an overall spring constant of all springs, via which the at least one actuator electrode is connected to the mounting, and the spring constant of the single spring or of all springs being at least 5% of the overall system spring constant.