Patent application number | Description | Published |
20080197514 | DIE COAT PERIMETER TO ENHANCE SEMICONDUCTOR RELIABILITY - A semiconductor packaging stress relief technique with enhanced reliability. Reliability is enhanced over conventional post wirebond assembly die coating processes by forming a peripheral wall on the semiconductor die isolating the stress sensitive area from remaining area in the semiconductor die, and depositing die coat material constraining the flow of the die coat material in the stress sensitive area of the semiconductor die. The peripheral wall, by constraining flow of the die coat material, prevents stress on the package bond wires caused by mismatch in coefficient of thermal expansion between the die coat and the package bond wires which are encased in the plastic molding compound. | 08-21-2008 |
20120027234 | Reduced Footprint Microphone System with Spacer Member Having Through-Hole - A microphone system has a chip system coupled to a base. Among other things, the chip system includes a microphone chip and a circuit chip, in a stacked relationship, configured to electrically communicate. The microphone chip has a diaphragm configured to move upon receipt of an incident audio signal, while the circuit chip has at least one through hole audibly coupled with the diaphragm of the microphone chip. | 02-02-2012 |
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 |
20140027867 | PACKAGES AND METHODS FOR 3D INTEGRATION - Packages and methods for 3D integration are disclosed. In various embodiments, a first integrated device die having a hole is attached to a package substrate. A second integrated device die can be stacked on top of the first integrated device die. At least a portion of the second integrated device die can extend into the hole of the first integrated device die. By stacking the two dies such that the portion of the second integrated device die extends into the hole, the overall package height can advantageously be reduced. | 01-30-2014 |
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 |
Patent application number | Description | Published |
20090102060 | Wafer Level Stacked Die Packaging - A method of manufacturing semiconductor devices by applying a pattern of adhesive pads on an active surface of a semiconductor wafer, the semiconductor wafer product so made and a stacked die package in which an adhesive wall leaves an air gap atop a bottom die. The wall may be in the form of a ring of adhesive about a central hollow area. The wafer carrying the pattern of adhesive pads on its active surface is singulated into individual dies, each die having an adhesive pad thereon. The bottom die is attached to a base with an adhesive which cures without curing the adhesive pad. | 04-23-2009 |
20110049712 | Wafer Level Stacked Die Packaging - A stacked die package in which an adhesive pad separates a bottom die from a top die. The pad may be in the form of a wall of adhesive about a central hollow area. The bottom die is attached to a base with a low temperature curing adhesive or a snap cure adhesive. | 03-03-2011 |
20120087521 | Microphone Package with Embedded ASIC - A packaged microphone has a base, a lid coupled to the base forming an interior, a MEMS microphone secured to the base within the interior, and an integrated circuit embedded in the base. Apertures in the base and integrated circuit are aligned to form an aperture from the exterior of the package to the interior. | 04-12-2012 |
20120235253 | Vertical Mount Package for MEMS Sensors - A vertical mount pre-molded type package for use with a MEMS sensor may be formed with a low moisture permeable molding material that surrounds a portion of the leadframes and forms a cavity in which one or multiple dies may be held. The package includes structures to reduce package vibration, reduce die stress, increase vertical mount stability, and improve solder joint reliability. The vertical mount package includes a first leadframe having first leads and molding material substantially surrounding at least a portion of the first leads. The molding material forms a cavity for holding the MEMS sensor and forms a package mounting plane for mounting the package on a base. The cavity has a die mounting plane that is substantially non-parallel to the package mounting plane. The first leads are configured to provide electrical contacts within the cavity and to provide electrical contacts to the base. | 09-20-2012 |
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 |
20140070382 | Pre-Molded MEMS Device Package - A MEMS lead frame package body encloses a MEMS device enclosed in an internal cavity formed by the mold body and cover. To accommodate a MEMS microphone, an acoustic aperture extends through the mold body. In some embodiments, a conductive column extends through the pre-molded body to allow electrical connection from a partially encapsulated lead frame to the conductive cover. Some embodiments may include a multi-tiered cavity within the mold body for mounting an integrated circuit separated by a gap above the MEMS device. | 03-13-2014 |
20140070383 | Pre-Molded MEMS Device Package with Conductive Shell - A MEMS lead frame package body encloses a MEMS device enclosed in an internal cavity formed by the mold body and cover. A conductive internal shell with a connection window sits in the cavity. The MEMS device is mounted in the shell and electrically coupled to the lead frame through wire bonds directed through the connection window. To accommodate a MEMS microphone, an acoustic aperture extends through the mold body aligned with a hole in the internal shell. | 03-13-2014 |
20140169607 | Integrated Microphone Package - An apparatus has a packaged microphone with a base and a lid that at least in part form an interior chamber containing a microphone die. The base has a bottom surface with an electrical interface and a base aperture. The apparatus also has a device housing having an internal surface, and a filter extending between the internal surface of the device housing, through an underlying substrate, and the bottom surface of the base. | 06-19-2014 |
20140196540 | TWO-AXIS VERTICAL MOUNT PACKAGE ASSEMBLY - Vertical mount package assemblies and methods for making the same are disclosed. A method for manufacturing a vertical mount package assembly includes providing a base substrate having electrical connections for affixing to external circuitry, and providing a package having a mounting region configured to receive a device therein. Flexible electrical leads are formed between the base substrate and the package. The flexible leads can include a plurality of aligned grooves to guide bending. After forming the flexible electrical leads, the package is rotated relative to the base substrate. The aligned grooves can constrain the relative positions of the substrates during rotation, and the beveled edges of the base substrate and package can maintain a desired angular relationship (e.g., perpendicular) between the base substrate and the package after rotation. | 07-17-2014 |
20140217566 | DOUBLE-SIDED PACKAGE - Various embodiments of an integrated device package are disclosed herein. The package may include a leadframe having a first side and a second side opposite the first side. The leadframe can include a plurality of leads surrounding a die mounting region. A first package lid may be mounted on the first side of the leadframe to form a first cavity, and a first integrated device die may be mounted on the first side of the leadframe within the first cavity. A second integrated device die can be mounted on the second side of the leadframe. At least one lead of the plurality of leads can provide electrical communication between the first integrated device die and the second integrated device die. | 08-07-2014 |