Abstract: 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.

Abstract: In at least one illustrative embodiment, a microelectromechanical system (MEMS) includes a composable piezoelectric actuator electrically coupled to a terminal. In response to a voltage applied across electrodes of the actuator, a piezoelectric rod moves from an initial position to a displaced position. In an embodiment, the MEMS includes two terminals, a resistive element is coupled between the terminals, and when in the displaced position the rod contacts one of the terminals. In an embodiment, the MEMS includes three terminals, and when a threshold voltage is applied to one of the terminals, the rod moves to the displaced position and allows current to flow between the other two terminals. In an embodiment, the MEMS includes a primary set of actuators that are mechanically but not electrically connected to a secondary set of actuators. An output terminal is coupled to the second set of actuators. Other embodiments are described and claimed.

Abstract: 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.

Abstract: Apparatus and methods for a MEMS-fabricated variable capacitor. In one embodiment the capacitor is a comb drive comprising a plurality of plates interdigitated with a corresponding blades. As the plates move relative to the blades, the capacitance of the sensor changes. The capacitor is sufficiently sensitive to measure respiratory pressure in an animal.

Abstract: Apparatus and methods for a MEMS-fabricated variable capacitor. In one embodiment the capacitor is a comb drive comprising a plurality of plates interdigitated with a corresponding blades. As the plates move relative to the blades, the capacitance of the sensor changes. The capacitor is sufficiently sensitive to measure respiratory pressure in an animal.

Abstract: Apparatus and methods for a MEMS-fabricated variable capacitor. In one embodiment the capacitor is a comb drive comprising a plurality of plates interdigitated with a corresponding blades. As the plates move relative to the blades, the capacitance of the sensor changes. The capacitor is sufficiently sensitive to measure respiratory pressure in an animal.

Abstract: Methods for producing layout data for devices are described. One method includes using a genetic algorithm to determine a structure of a thermally.operated actuator. Reference system performance characteristics are received and structure genotypes produced, each structure genotype including geometric and thermal properties of each of a plurality of links in the microelectromechanical system, the geometric and thermal properties selected randomly. Respective system performance characteristics of the genotypes are simulated and respective fitness ratings determined with respect to the reference. A second population of structure genotypes is produced using the first population and the determined fitness ratings. The steps are iterated until one of the structure genotypes satisfies selected termination criteria. Layout data corresponding to the geometric properties in the one of the structure genotypes are automatically produced using the controller.

Abstract: Actuators using piezoelectric drives, S-drives, or S-flexures are disclosed. The actuators can include S-drives connected in series to deflect substantially in a common deflection direction. The actuators can also include pairs of piezoelectric elements connected together for rotation in the plane of the pairs. An arm assembly and a forearm assembly can each have a plurality of S-flexures for deflection along substantially orthogonal axes.

Abstract: Methods of measuring displacement of a movable mass in a microelectromechanical system (MEMS) include driving the mass against two displacement-stopping surfaces and measuring corresponding differential capacitances of sensing capacitors such as combs. A MEMS device having displacement-stopping surfaces is described. Such a MEMS device can be used in a method of measuring properties of an atomic force microscope (AFM) having a cantilever and a deflection sensor, or in a temperature sensor having a displacement-sensing unit for sensing a movable mass permitted to vibrate along a displacement axis. A motion-measuring device can include pairs of accelerometers and gyroscopes driven 90° out of phase.

Abstract: Methods for producing layout data for devices are described. One method includes using a genetic algorithm to determine a structure of a thermally-operated actuator. Another method includes receiving a three-dimensional model of a device, a design-rule set, and parameter ranges. Layout data are produced for devices having various combinations of parameter values in the parameter ranges.

Abstract: Methods for producing layout data for devices are described. One method includes using a genetic algorithm to determine a structure of a thermally-operated actuator. Another method includes receiving a three-dimensional model of a device, a design-rule set, and parameter ranges. Layout data are produced for devices having various combinations of parameter values in the parameter ranges.

Abstract: Actuators using piezoelectric drives, S-drives, or S-flexures are disclosed. The actuators can include S-drives connected in series to deflect substantially in a common deflection direction. The actuators can also include pairs of piezoelectric elements connected together for rotation in the plane of the pairs. An arm assembly and a forearm assembly can each have a plurality of S-flexures for deflection along substantially orthogonal axes.

Abstract: Apparatus and methods for a MEMS-fabricated variable capacitor. In one embodiment the capacitor is a comb drive comprising a plurality of plates interdigitated with a corresponding blades. As the plates move relative to the blades, the capacitance of the sensor changes. The capacitor is sufficiently sensitive to measure respiratory pressure in an animal.