Patent application number | Description | Published |
20110198714 | PACKAGES AND METHODS FOR PACKAGING MEMS MICROPHONE DEVICES - Microelectromechanical systems (MEMS) microphone devices and methods for packaging the same include a package housing, an interior lid, and an integrated MEMS microphone die. The package housing includes a sound port therethrough for communicating sound from outside the package housing to an interior of the package housing. The interior lid is mounted to an interior surface of the package housing to define an interior lid cavity, and includes a back volume port therethrough. The MEMS microphone die is mounted on the interior lid over the back volume port, and includes a movable membrane. The back volume port is configured to allow the interior lid cavity and the MEMS movable membrane to communicate, thereby increasing the back volume of the MEMS microphone die and enhancing the sound performance of the packaged MEMS microphone device. | 08-18-2011 |
20120126347 | PACKAGES AND METHODS FOR PACKAGING - Packaged integrated devices and methods of forming the same are provided. In one embodiment, a packaged integrated device includes a package substrate, a package lid, and an integrated circuit or microelectromechanical systems (MEMS) device. The package lid is mounted to a first surface of the package substrate using an epoxy, and the package lid and the package substrate define a package interior. The package lid includes an interior coating suited to good adhesion with the epoxy, and an exterior coating suited to RF shielding, where the materials of the interior and exterior coatings are different. In one example, the interior lid coating is nickel whereas the exterior lid coating is tin. | 05-24-2012 |
20120237073 | PACKAGES AND METHODS FOR PACKAGING MEMS MICROPHONE DEVICES - Microelectromechanical systems (MEMS) microphone devices and methods for packaging the same include a package substrate having an acoustic pathway therethrough that opens to an interior of the device. A MEMS microphone die having an integrated filter and a movable membrane is positioned within the interior of the device. The package substrate includes a conductive layer facing the interior of the device, and a package filter formed from the conductive layer is provided along the acoustic pathway, resulting in increased packaged MEMS microphone device yield. | 09-20-2012 |
20130093031 | SYSTEMS AND METHODS FOR AIR-RELEASE IN CAVITY PACKAGES - A housing for integrated devices that includes an air-release mechanism is disclosed. This is achieved, in various embodiments, by forming a vent hole in a package substrate, and arranging a package lid over the package substrate. The vent hole allows air to be released from within the cavity package, thereby ensuring that the package lid remains stably affixed to the package substrate despite increased temperatures during processing. The vent hole may be sealed upon mounting the package onto a mounting substrate. | 04-18-2013 |
20130195284 | Microphone System with Offset Apertures - A microphone system has a base forming a base aperture, and a lid coupled to the base to form a package having an interior chamber. The system also has a member coupled with the base within the interior chamber, and a microphone die coupled to the member within the interior chamber. The member is positioned between the base and the microphone die and has a member aperture that is laterally offset from the base aperture. The member aperture, member, and base together form an acoustic path between the base aperture and the microphone die. | 08-01-2013 |
20130241045 | PACKAGES AND METHODS FOR PACKAGING - Integrated devices and methods for packaging the same can include an external housing, an internal housing positioned within the external housing, and an external cavity formed between the external housing and the internal housing. An integrated device die can be positioned within the external cavity in fluid communication with an internal cavity formed by the internal lid. An air way can extend through the external cavity to the internal cavity, and can further extend from the internal cavity to the external cavity. The air way can provide fluid communication between the package exterior and the integrated device die, while reducing contamination of the integrated device die. | 09-19-2013 |
20140307909 | Microphone System with a Stop Member - A microphone system has a package with an interior chamber and an inlet aperture for receiving an acoustic signal, and a microphone die having a backplate and a diaphragm. The microphone is positioned within the package interior to form a front volume between the diaphragm and the inlet aperture. Accordingly, the microphone is positioned to form a back volume defined in part by the diaphragm within the interior chamber. The system also has a stop member positioned in the back volume so that the diaphragm is between the stop member and the backplate. | 10-16-2014 |
20140332947 | PACKAGES AND METHODS FOR PACKAGING - Packaged integrated devices and methods of forming the same are provided. In one embodiment, a packaged integrated device includes a package substrate, a package lid, and an integrated circuit or microelectromechanical systems (MEMS) device. The package lid is mounted to a first surface of the package substrate using an epoxy, and the package lid and the package substrate define a package interior. The package lid includes an interior coating suited to good adhesion with the epoxy, and an exterior coating suited to RF shielding, where the materials of the interior and exterior coatings are different. In one example, the interior lid coating is nickel whereas the exterior lid coating is tin. | 11-13-2014 |