A method for forming a MEMS device includes following operations. A first semiconductor layer is formed over a substrate. A plurality of first pillars are formed over the first layer. A second layer is formed over the first pillars and the first layer. A plurality of second pillars are formed over the second layer. A third layer is formed over the second pillars and the second layer.

A MEMS sensor device package comprises a sensor assembly comprising a sensor device and a sensor circuit communicating coupled to the sensor device, The MEMS sensor device package further comprises an assembly package housing having a top member and a bottom member attached to the top member for encapsulating the sensor assembly. A passageway fluidly coupled the sensor device to attributes outside the package housing the passageway is embedded into the package housing, wherein the top member comprising a top wall and side walls, the side walls are attached to the bottom member, and the passageway is embedded into at least one of the side walls.

A method of installing a vent to protect an open port of a micro-electrical mechanical system (MEMS) device, the vent being of the type comprising an environmental barrier membrane attached to a carrier and the vent further being attached to a liner, the method comprising the steps of: (a) feeding the vent to a die attach machine with die ejectors and at least one of a vacuum head and a gripper head; (b) detaching the vent from said liner using the die ejectors; (c) picking up the vent with at least one of the vacuum head and the gripper head of the die attach machine; (d) disposing the vent over the open port of the MEMS device; and (e) securing the vent over the open port of the MEMS device.

A semiconductor package device and a method of manufacturing a semiconductor package device are provided. The semiconductor package device includes a substrate, a first electronic component, a first dielectric layer, and a first hole. The substrate has a first surface and a second surface opposite to the first surface. The first electronic component is disposed on the first surface. The first dielectric layer is disposed on the second surface and has a third surface away from the substrate. The first hole extends from the first dielectric layer and the substrate. The first hole is substantially aligned with the first electronic component.

A MEMS module includes: a MEMS element provided with a substrate in which a hollow portion is formed, and including a movable portion, which is a part of the substrate, around the hollow portion, the movable portion having a thickness whose shape is changeable by an air pressure difference between an air pressure inside the hollow portion and an air pressure outside the substrate; and an electronic component, to which an output signal of the MEMS element is inputted, formed on the substrate, wherein the electronic component and the MEMS element are spaced apart from each other in a direction perpendicular to a thickness direction of the movable portion.

A semiconductor package structure includes an electronic device having a first surface and an exposed region adjacent to the first surface; a dam disposed on the first surface and surrounding the exposed region of the electronic device; and a filter structure disposed on the dam.

A mirror unit includes a mirror device includes a support portion and a movable mirror portion configured to be movable with respect to the support portion, and a package including a light incident opening and accommodating and holding the mirror device such that light incident from the light incident opening is able to be incident on the movable mirror portion. The package is provided with a ventilation port communicating an inside and an outside of the package.

A micro-electro mechanical device includes a casing, a vibration sensor, a vibration membrane assembly, and a micro-electro mechanical microphone. The casing has a sound-receiving hole, and the vibration sensor is disposed in the casing. The vibration membrane assembly is disposed in the casing and corresponds to the vibration sensor. The micro-electro mechanical microphone is disposed in the casing and corresponds to the sound-receiving hole, and a back cavity of the micro-electro mechanical microphone is formed in the casing. The back cavity at least partially overlaps with areas corresponding to a vertical projection of the vibration membrane assembly.

Embodiments for a packaged semiconductor device and methods of making are provided herein, where a packaged semiconductor device includes a package body having a recess in which a pressure sensor is exposed; a polymeric gel within the recess that vertically and laterally surrounds the pressure sensor; and a protection layer including a plurality of beads embedded within a top region of the polymeric gel.

Provided is a cover member for an electronic device, the cover member having a through hole extending between a first surface and a second surface. The cover member for an electronic device includes a plurality of long particles that are present in an inner wall facing the through hole and whose longitudinal direction is along a through axis of the through hole in a cross section including the through axis.