A MEMS device having a body with a first and a second surface, a first portion and a second portion. The MEMS device further has a cavity extending in the body from the second surface; a deformable portion between the first surface and the cavity; and a piezoelectric actuator arranged on the first surface, on the deformable portion. The deformable portion has a first region with a first thickness and a second region with a second thickness greater than the first thickness. The second region is adjacent to the first region and to the first portion of the body.

Technologies for a microelectromechanical system (MEMS) made up of composable piezoelectric actuators is disclosed. An elongated piezoelectric rod is disposed between a top and a bottom electrode. The top electrode runs along one edge of the top of the piezoelectric rod for a first segment, then runs along the other edge of the top of the piezoelectric rod for the a second segment. When a voltage is applied across the electrodes, the piezoelectric rod bends in a first direction for the first segment and in a second direction opposite the first for the second segment, displacing the tip of the rod. Several such rods can be joined in parallel and/or series, allowing for large-scale systems to be composed.

A method for producing a liquid transport apparatus is disclosed. The liquid transport apparatus includes a pressure chamber plate, a ceramics layer formed on a surface of the pressure chamber plate, a piezoelectric layer formed on the ceramics layer, and an electrode formed on the piezoelectric layer. The ceramics layer is formed by heating an insulating ceramic material at a temperature lower than an annealing temperature of the piezoelectric layer. Accordingly, the atoms of the pressure chamber plate are suppressed from being diffused into the piezoelectric layer.

A relay (1) includes a motor (20) and a primary electrical switch assembly (132). Primary electrical switching attachment points (113) are switched by a moveable switching link (101) which is moved in and out of the switch on an switched off position axially by the motor (20) in response to electrical signals delivered to the coil (26) via the flexible leads (32, 33). The switching link (101) includes a mercury reservoir (119). A piezoelectric disk bender (105) displaces mercury to close the gaps between the attachment points (113).

According to one aspect of the invention, there is proposed a capacitive radiofrequency MicroElectroMechanical System or capacitive RF MEMS comprising a metallic membrane suspended above an RF transmission line and resting on ground planes, and exhibiting a lower face, an upper face opposite to the lower face and a first layer comprising a refractory metallic material at least partially covering the upper face of the membrane so as to prevent the heating of the membrane.

There is provided a method for producing a liquid transport apparatus includes: a pressure chamber plate partially defining a pressure chamber that communicates with a nozzle for ejecting liquid; an insulating ceramics layer located on a surface of the pressure chamber plate to cover the pressure chamber; a piezoelectric layer located on the insulating ceramics layer; and a first electrode located on the piezoelectric layer. The method includes: forming the insulating ceramics layer on the pressure chamber plate by heating an insulating ceramic material; forming the piezoelectric layer and the first electrode on the insulating ceramics layer; forming the piezoelectric layer including annealing the piezoelectric layer at the annealing temperature; and forming the pressure chamber by removing a part of the pressure chamber plate so that a part of the insulating ceramics layer is exposed on the pressure chamber.

A stacked film includes an oxide film including a ZrO.sub.2 film, a metal oxide film provided on the oxide film, and a predetermined metal film provided on the metal oxide film and having a single orientation, and the metal oxide film is a PtO film or a PdO film. In the case of this structure, the predetermined metal film has a single orientation, and characteristics of the piezoelectric film such as PZT formed on the predetermined metal film are improved. Therefore, excellent characteristics such as an increase in the driving force due to the piezoelectric film or a reduction in leakage current can be exhibited.

A stacked film is a stacked film including an oxide film, and a metal film provided on the oxide film, in which the oxide film includes a ZrO.sub.2 film of which a main surface is a (001) plane, the metal film includes a Pt film or a Pd film that has a single orientation and of which a main surface is a (001) plane, and a [100] axis of the ZrO.sub.2 film and a [100] axis of the metal film are parallel to an interface between the oxide film and the metal film, and the axes of both are parallel to each other.

A BAW component, a lamination for a BAW component, and a method for manufacturing a BAW component are provided. A lamination for a BAW component includes a first layer with a first piezoelectric material and a second layer with a second piezoelectric material that is different than the first piezoelectric material. The first and the second piezoelectric material can be Sc doped AlN and AlN, respectively.

Embodiments of the invention include a tunable radio frequency (RF) communication module that includes a transmitting component having at least one tunable component and a receiving component having at least one tunable component. The tunable RF communication module includes at least one piezoelectric switching device coupled to at least one of the transmitting and receiving components. The at least one piezoelectric switching device is formed within an organic substrate having organic material and is designed to tune at least one tunable component of the tunable RF communication module.