A package structure of micro-electro-mechanical-system microphone includes a ceramic packaging substrate, embedded with a first circuit route, wherein the first circuit route includes a first metal sealing ring on a surface of the ceramic packaging substrate. An integrated circuit is disposed on the surface of the ceramic packaging substrate. A MEMS microphone die is disposed on the surface of the ceramic packaging substrate, wherein the MEMS microphone die is electrically connected to the integrated circuit. A cap structure is disposed on the first metal sealing ring of the ceramic packaging substrate, wherein the cap structure has a second metal sealing ring on a surface of the cap structure, wherein the second metal sealing ring is disposed on the first metal sealing ring, so that the cap structure covers on the ceramic packaging substrate.

A semiconductor package may include a substrate; a microelectromechanical device disposed on the substrate; an interconnection structure connecting the substrate to the microelectromechanical device; and a metallic sealing structure surrounding the interconnection structure.

A microelectromechanical transducer includes: a semiconductor body, having a first surface and a second surface opposite to one another; a first structural body, coupled to the first surface of the semiconductor body; a first sealed cavity between the semiconductor body and the first structural body; and an active area housed in the first sealed cavity, including at least two trenches and a sensor element between the trenches. The trenches extend along a vertical direction from the first surface towards the second surface of the semiconductor body.

A bonded structure can include a first element having a first interface feature and a second element having a second interface feature. The first interface feature can be bonded to the second interface feature to define an interface structure. A conductive trace can be disposed in or on the second element. A bond pad can be provided at an upper surface of the first element and in electrical communication with the conductive trace. An integrated device can be coupled to or formed with the first element or the second element.

A microelectromechanical device includes: a body accommodating a microelectromechanical structure; and a cap bonded to the body and electrically coupled to the microelectromechanical structure through conductive bonding regions. The cap including a selection module, which has first selection terminals coupled to the microelectromechanical structure, second selection terminals, and at least one control terminal, and which can be controlled through the control terminal to couple the second selection terminals to respective first selection terminals according, selectively, to one of a plurality of coupling configurations corresponding to respective operating conditions.

A bonded structure can include a first element having a first interface feature and a second element having a second interface feature. The first interface feature can be bonded to the second interface feature to define an interface structure. A conductive trace can be disposed in or on the second element. A bond pad can be provided at an upper surface of the first element and in electrical communication with the conductive trace. An integrated device can be coupled to or formed with the first element or the second element.

A Micro Electro Mechanical systems (MEMS) device includes a solder bump on a substrate, a CMOS-MEMS die comprising a CMOS die and a MEMS die, and stud bumps on the CMOS die. The MEMS die is disposed between the CMOS die and the substrate. The stud bumps and the solder bumps are positioned to provide an electrical connection between the CMOS die and the substrate.

A Micro Electro Mechanical systems (MEMS) device includes a solder bump on a substrate, a CMOS-MEMS die comprising a CMOS die and a MEMS die, and stud bumps on the CMOS die. The MEMS die is disposed between the CMOS die and the substrate. The stud bumps and the solder bumps are positioned to provide an electrical connection between the CMOS die and the substrate.

A semiconductor package may include a substrate; a microelectromechanical device disposed on the substrate; an interconnection structure connecting the substrate to the microelectromechanical device; and a metallic sealing structure surrounding the interconnection structure.

A method and system involves vacuum sealing a semi-enclosure at room temperature without requiring mechanical actions within the vacuum chamber. The semi-enclosure has an inlet channel that extends inwardly into the vacuum chamber from an exterior opening (entryway) into the semi-enclosure. An uncured entryway vacuum sealant is provided at the entryway for the semi-enclosure. A vacuum is established in the vacuum chamber until the vacuum pressure reaches a desired vacuum pressure that causes the uncured entryway sealant to be provided to the entryway for the semi-enclosure. The uncured entryway vacuum sealant is cured under vacuum pressure in the semi-enclosure in the vacuum chamber.