Patent application number | Description | Published |
20130168852 | MEMS Devices and Methods of Forming Same - A microelectromechanical system (MEMS) device may include a MEMS structure over a first substrate. The MEMS structure comprises a movable element. Depositing a first conductive material over the first substrate and etching trenches in a second substrate. Filling the trenches with a second conductive material and depositing a third conductive material over the second conductive material and the second substrate. Bonding the first substrate and the second substrate and thinning a backside of the second substrate which exposes the second conductive material in the trenches. | 07-04-2013 |
20140042562 | MEMS Devices and Methods for Forming the Same - A device includes a Micro-Electro-Mechanical System (MEMS) wafer having a MEMS device therein. The MEMS device includes a movable element, and first openings in the MEMS wafer. The movable element is disposed in the first openings. A carrier wafer is bonded to the MEMS wafer. The carrier wafer includes a second opening connected to the first openings, wherein the second opening includes an entry portion extending from a surface of the carrier wafer into the carrier wafer, and an inner portion wider than the entry portion, wherein the inner portion is deeper in the carrier wafer than the entry portion. | 02-13-2014 |
20140103461 | MEMS Devices and Fabrication Methods Thereof - A method for fabricating a MEMS device includes providing a micro-electro-mechanical system (MEMS) substrate having a sacrificial layer on a first side, providing a carrier including a plurality of cavities, bonding the first side of the MEMS substrate on the carrier, forming a first bonding material layer on a second side of the MEMS substrate, applying a sacrificial layer removal process to the MEMS substrate, providing a semiconductor substrate including a second bonding material layer and bonding the semiconductor substrate on the second side of the MEMS substrate. | 04-17-2014 |
20140103462 | MEMS Devices and Methods for Forming the Same - A method includes forming a Micro-Electro-Mechanical System (MEMS) device on a front surface of a substrate. After the step of forming the MEMS device, a through-opening is formed in the substrate, wherein the through-opening is formed from a backside of the substrate. The through-opening is filled with a dielectric material, which insulates a first portion of the substrate from a second portion of the substrate. An electrical connection is formed on the backside of the substrate. The electrical connection is electrically coupled to the MEMS device through the first portion of the substrate. | 04-17-2014 |
20140151821 | MEMS STRUCTURE WITH ADAPTABLE INTER-SUBSTRATE BOND - A MEMS structure incorporating multiple joined substrates and a method for forming the MEMS structure are disclosed. An exemplary MEMS structure includes a first substrate having a bottom surface and a second substrate having a top surface substantially parallel to the bottom surface of the first substrate. The bottom surface of the first substrate is connected to the top surface of the second substrate by an anchor, such that the anchor does not extend through either the bottom surface of the first substrate or the top surface of the second substrate. The MEMS structure may include a bonding layer in contact with the bottom surface of the first substrate, and shaped to at least partially envelop the anchor. | 06-05-2014 |
20140206123 | Dual Layer Microelectromechanical Systems Device and Method of Manufacturing Same - Exemplary microelectromechanical system (MEMS) devices, and methods for fabricating such are disclosed. An exemplary method includes providing a silicon-on-insulator (SOI) substrate, wherein the SOI substrate includes a first silicon layer separated from a second silicon layer by an insulator layer; processing the first silicon layer to form a first structure layer of a MEMS device; bonding the first structure layer to a substrate; and processing the second silicon layer to form a second structure layer of the MEMS device. | 07-24-2014 |
20140353776 | MEMS Structure with Adaptable Inter-Substrate Bond - A MEMS structure incorporating multiple joined substrates and a method for forming the MEMS structure are disclosed. An exemplary MEMS structure includes a first substrate having a bottom surface and a second substrate having a top surface substantially parallel to the bottom surface of the first substrate. The bottom surface of the first substrate is connected to the top surface of the second substrate by an anchor, such that the anchor does not extend through either the bottom surface of the first substrate or the top surface of the second substrate. The MEMS structure may include a bonding layer in contact with the bottom surface of the first substrate, and shaped to at least partially envelop the anchor. | 12-04-2014 |
20140374885 | NARROW GAP DEVICE WITH PARALLEL RELEASING STRUCTURE - The present disclosure relates to a method of etching a narrow gap using one or more parallel releasing structures to improve etching performance, and an associated apparatus. In some embodiments, the method provides a semiconductor substrate with a narrow gap having a sacrificial material. One or more parallel releasing structures are formed within the semiconductor substrate at positions that abut the narrow gap. An etching process is then performed to simultaneously remove the sacrificial material from the narrow gap along a first direction from the one or more parallel releasing structures and along a second direction, perpendicular to the first direction. By simultaneously etching the sacrificial material from both the direction of the narrow gap and from the direction of the one or more parallel releasing structures, the sacrificial material is removed in less time, since the etch is not limited by a size of the narrow gap. | 12-25-2014 |