| Patent application number | Description | Published |
|---|
| 20080293223 | Method for Manufacturing Strained Silicon - In accordance with a particular embodiment of the present invention, a method for manufacturing strained silicon is provided. In one embodiment, the method for manufacturing strained silicon includes inducing a curvature in a silicon wafer, depositing an epitaxial layer of silicon upon an upper surface of the silicon water while the silicon wafer is under the induced curvature, and releasing the silicon wafer from the induced curvature, after depositing the epitaxial layer, such that a strain is induced in the epitaxial layer. | 11-27-2008 |
| 20100116632 | METHOD OF USING A PLURALITY OF SMALLER MEMS DEVICES TO REPLACE A LARGER MEMS DEVICE - Embodiments disclosed herein generally include using a large number of small MEMS devices to replace the function of an individual larger MEMS device or digital variable capacitor. The large number of smaller MEMS devices perform the same function as the larger device, but because of the smaller size, they can be encapsulated in a cavity using complementary metal oxide semiconductor (CMOS) compatible processes. Signal averaging over a large number of the smaller devices allows the accuracy of the array of smaller devices to be equivalent to the larger device. The process is exemplified by considering the use of a MEMS based accelerometer switch array with an integrated analog to digital conversion of the inertial response. The process is also exemplified by considering the use of a MEMS based device structure where the MEMS devices operate in parallel as a digital variable capacitor. | 05-13-2010 |
| 20100237738 | MOVING A FREE-STANDING STRUCTURE BETWEEN HIGH AND LOW ADHESION STATES - Embodiments disclosed herein generally solve a stiction problem in switching devices by using a series of pulses of force which take the switch from being strongly adhered to a landing electrode to the point where it is only weakly adhered. Once in the low adhesion state, the switch can then be pulled away from contact with a lower force provided by either the spring constant of the switch and/or the electrostatic forces resulting from low voltages applied to nearby electrodes. | 09-23-2010 |
| 20110043892 | FABRICATION OF A FLOATING ROCKER MEMS DEVICE FOR LIGHT MODULATION - The current disclosure shows how to make a fast switching array of mirrors for projection displays. Because the mirror does not have a via in the middle connecting to the underlying spring support, there is an improved contrast ratio that results from not having light scatter off the legs or vias like existing technologies. Because there are no supporting contacts, the mirror can be made smaller making smaller pixels that can be used to make higher density displays. In addition, because there is not restoring force from any supporting spring support, the mirror stays in place facing one or other direction due to adhesion. This means there is no need to use a voltage to hold the mirror in position. This means that less power is required to run the display. | 02-24-2011 |
| 20110079495 | MICROMECHANICAL DIGITAL CAPACITOR WITH IMPROVED RF HOT SWITCHING PERFORMANCE AND RELIABILITY - The present invention generally relates to RF MEMS devices that are capable of hot switching. The RF MEMS devices, by utilizing one or more spring mechanisms, are capable of hot switching. In certain embodiments, two or more sets of springs may be used that become engaged at specific points in the displacement of the cantilever of the MEMS device. The springs allow for a significant increase in the release voltage for a given pull in landing voltage. | 04-07-2011 |
