A hermetically sealed package includes: a base substrate and a cover substrate which define at least part of the package, the base substrate and the cover substrate being hermetically sealed to one another by at least one laser bonding line, the at least one laser bonding line having a height perpendicular to its bonding plane, at least the cover substrate including a toughened layer at its surface, at least on a side opposite the at least one laser bonding line; and at least one functional area enclosed in the package.

The invention relates to a covering (1) for an electronic component (e.g. of the MEMS, BAW, or SAW type). The covering comprises at least one layer (5, 6, 7) having a structure (19, 20, 21) with a number of prominences (8, 9, 15) and/or depressions (10, 11, 16). The invention furthermore relates to a method for producing a covering (1) of this type.

A sound producing package structure includes a plurality of chips disposed within a cavity. The chips includes a first chip and a second chip, the first chip includes a first sound producing membrane and a first actuator attached to the first sound producing membrane, and a second chip includes a second sound producing membrane and a second actuator attached to the second sound producing membrane. The first sound producing membrane and the second sound producing membrane are actuated toward a center of the cavity in a synchronous fashion so as to produce a sound pressure.

A MEMS package and a method for forming a MEMS package are provided. The MEMS package includes a package substrate, a housing structure, an image sensor structure, a MEMS structure and a composite damper. The housing structure includes a stopper. The image sensor structure and the MEMS structure are between the package substrate and the housing structure. An interconnect wire electrically connects the MEMS structure to the image sensor structure. The composite damper is between the package substrate and the housing structure. The composite damper is configured to control a gap between the interconnect wire and the stopper.

Representative implementations of techniques and devices provide seals for sealing the joints of bonded microelectronic devices as well as bonded and sealed microelectronic assemblies. Seals are disposed at joined surfaces of stacked dies and wafers to seal the joined surfaces. The seals may be disposed at an exterior periphery of the bonded microelectronic devices or disposed within the periphery using the various techniques.

A MEMS sensor includes a through hole to allow communication with an external environment, such as to send or receive acoustic signals or to be exposed to the ambient environment. In addition to the information that is being measured, light energy may also enter the environment of the sensor via the through hole, causing short-term or long-term effects on measurements or system components. A light mitigating structure is formed on or attached to a lid of the MEMS die to absorb or selectively reflect the received light in a manner that limits effects on the measurements or interest and system components.

Various embodiments of the present disclosure are directed towards a microelectromechanical systems (MEMS) package comprising a wire-bond damper. A housing structure overlies a support substrate, and a MEMS structure is between the support substrate and the housing structure. The MEMS structure comprises an anchor, a spring, and a movable mass. The spring extends from the anchor to the movable mass to suspend and allow movement of the movable mass in a cavity between the support substrate and the housing structure. The wire-bond damper is on the movable mass or structure surrounding the movable mass. For example, the wire-bond damper may be on a top surface of the movable mass. As another example, the wire-bond damper may be on the support substrate, laterally between the anchor and the movable mass. Further, the wire-bond damper comprises a wire formed by wire bonding and configured to dampen shock to the movable mass.

A semiconductor device and method of manufacturing the device that includes a growth die and a dummy die. The method includes patterning, on an integrated circuit wafer, at one least growth die, and patterning at least one dummy die that is positioned on at least a portion of a circumference of the integrated circuit wafer. The patterned growth and dummy dies are etched on the wafer. A bond wave is initiated at a starting point on the integrated circuit wafer. The starting point is positioned on an edge of the integrated circuit wafer opposite the portion on which the at least one dummy die is patterned. Upon application of pressure at the starting point, a uniform bond wave propagates across the wafers, bonding the two wafers together.

A method for forming a packaged electronic die includes forming a plurality of bonding pads on a device wafer. A photoresist layer is deposited over the device wafer and is patterned so as to form a photoresist frame that completely surrounds a device formed on the device wafer. Conductive balls are deposited over the bonding pads. The wafer is cut to form the electronic die and the electronic die is placed over the substrate. The conductive balls are heated and compressed, moving the electronic die closer to the substrate such that the photoresist frame is in direct contact with the substrate or with a landing pad formed on the substrate. Encapsulant material is deposited such that the encapsulant material covers the electronic die and the substrate. The encapsulant material is cured so as to encapsulate the electronic die. The substrate is cut to separate the packaged electronic die.

Representative implementations of techniques and devices provide seals for sealing the joints of bonded microelectronic devices as well as bonded and sealed microelectronic assemblies. Seals are disposed at joined surfaces of stacked dies and wafers to seal the joined surfaces. The seals may be disposed at an exterior periphery of the bonded microelectronic devices or disposed within the periphery using the various techniques.