A semiconductor device package includes a supporting element, a transparent plate disposed on the supporting element, a semiconductor device disposed under the transparent plate, and a lid surrounding the transparent plate. The supporting element and the transparent plate define a channel.

In a semiconductor module, first and second semiconductor chips each include a transistor and a temperature-detecting diode connected between first and second control pads. The first control pad of the first semiconductor chip is connected to a first control terminal, the second control pad of the first semiconductor chip and the first control pad of the second semiconductor chip are connected to a second control terminal, and the second control pad of the second semiconductor chip is connected to a third control terminal.

A light source device includes a substrate, an upper electrode layer and a lower electrode layer respectively disposed on two opposite surfaces of the substrate, a plurality of first conductive posts and second conductive posts embedded in the substrate and having the same number, a light emitter, a surrounding frame surrounding the light emitter, and a light permeable member disposed on the surrounding frame and covering the light emitter. The first conductive posts connect a first upper electrode pad of the upper electrode layer and a first lower electrode pad of the lower electrode layer. The second conductive posts connect a second upper electrode pad of the upper electrode layer and a second lower electrode pad of the lower electrode layer. The light emitter is mounted on the first upper electrode pad and is electrically connected to the second upper electrode pad.

A light source device includes a substrate, an electrode layer and an annular step-like surrounding frame both disposed on the substrate, a light emitter and a light detector both spaced apart from each other and mounted on the electrode layer in the surrounding frame, and a light permeable member disposed on the surrounding frame. The surrounding frame includes an upper tread arranged away from the substrate, an upper riser connected to an inner edge of the upper tread, a lower tread arranged at an inner side of the upper riser, and a lower riser connected to an inner edge of the lower tread and arranged away from the upper tread. The surrounding frame has a notch recessed in the lower tread and the lower riser for spatially communicating an inner side of the surrounding frame to an external space.

The present disclosure provides a semiconductor device. The semiconductor device includes a semiconductor element, a plurality of terminals, and a sealing resin. The semiconductor element has a front surface and a back surface. The front surface and the back surface face in opposite directions to each other in a thickness direction of the semiconductor element. The plurality of terminals are disposed at a distance from the semiconductor element and are electrically connected to the front surface. The sealing resin has a first surface facing in a same direction as the direction in which the front surface faces. Each of the plurality of terminals has a main surface exposed from the first surface.

Disclosed herein are microelectronic assemblies, as well as related apparatuses and methods. In some embodiments, a microelectronic assembly may include a package substrate; a stiffener having a surface, wherein the stiffener includes a cavity and a conductive pathway between the cavity and the surface of the stiffener, and wherein the stiffener is coupled to the package substrate such that the surface of the stiffener is between the cavity and the package substrate; and an electrical component, wherein the electrical component is embedded in the cavity and is electrically coupled to the package substrate via the conductive pathway.

A method of manufacturing a semiconductor device is provided. The method includes placing a package substrate on a carrier substrate, forming a frame on the package substrate, and affixing an active side of a semiconductor die on the package substrate. The semiconductor die together with the frame and the package substrate form a cavity between the semiconductor die and the package substrate. At least a portion of the semiconductor die and the package substrate are encapsulated with an encapsulant. The frame is configured to prevent the encapsulant from entering the cavity.

A chip protection device includes a protection frame extending around side surfaces of a semiconductor chip mounted on a substrate. The protection frame includes a plurality of side walls, each wall facing and spaced apart from a respective side surface of the semiconductor chip, and a plurality of upper walls, each upper wall extending inward from an upper portion of a respective side wall toward the semiconductor chip. A plurality of apertures are formed through the side walls and through which a fluid enters and exits. The protection frame defines an inner space in which the fluid can flow via the plurality of apertures. Heat from the side surfaces of the semiconductor chip is transferred to the fluid in the inner space.

Provided is a semiconductor device with improved humidity resistance in which deformation of a substrate and a casing caused by expansion and contraction of a sealant cured in manufacturing processes is reduced. The semiconductor device includes: an insulating substrate; first and second circuit patterns formed on one surface of the insulating substrate; a first terminal electrode electrically connected to the first circuit pattern; first and second semiconductor elements mounted on the first circuit pattern; a second terminal electrode electrically connected to the first and second semiconductor elements through the second circuit pattern; a first sealant covering the first semiconductor element; a second sealant covering the second semiconductor element and made of a material different from that of the first sealant; and a casing enclosing the first and second semiconductor elements, separated from the first and second semiconductor elements, and bonded to the insulating substrate.

An electronic device package includes a frame, an electronic device mounted to the frame, surface-mount leads, and a gel at least partially filling a cavity between the electronic device and the frame. The electronic device includes electronic circuitry provided on an electronic device substrate, and the surface-mount leads are electrically connected to the electronic circuitry and extend laterally and outwardly from an outer perimeter of the frame. The gel in the cavity covers the electronic circuitry.