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.

Packaged semiconductor device having a frame, of conductive material; a body of semiconductor material, fixed to the frame through a first adhesive layer; a heat-sink element, fixed to the body through a second adhesive layer; and a packaging mass surrounding the body and, at least partially, the frame and the heat-sink element. The heat-sink element is formed by a heat-sink die facing, and coplanar to, a main face of the device and by a spacer structure, which includes a pair of pedestals projecting from the perimeter of the heat-sink die towards the body and rest on the body.

An electronic device includes an embedded die frame having a cavity and a routing structure, a semiconductor die in the cavity with a gallium nitride layer on the routing structure, and a heat spreader having a thermally conductive insulator layer and a metal plate, the thermally conductive insulator layer having a first side that faces the embedded die frame and an opposite second side that faces away from the embedded die frame, with a portion of the first side of the thermally conductive insulator layer extending over a side of a silicon substrate of the semiconductor die, and the metal plate on the second side of the thermally conductive insulator layer.

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.

The disclosure concerns a housing for a light source mounted on a substrate, the housing comprising: a molded body having an opening permitting the passage of a light beam generated by the light source; one or more surfaces for receiving a diffuser; and first and second conducting pins traversing the molded body, each pin abutting one of said surfaces.

A chip package assembly, a package substrate and methods for fabricating the same are disclosed herein. In one example, a chip package assembly includes a package substrate, an IC die and a stiffener. The package substrate includes a first dam projecting from a top surface of the package substrate. The IC die and the stiffener are mounted to the top surface of the package substrate. The stiffener includes a bottom surface that is disposed adjacent to the first dam. At least one surface mounted component is mounted to a region of the package substrate defined between the stiffener and the IC die. An adhesive coupling the stiffener to the package substrate is in contact with the first dam.

A semiconductor device is provided with a semiconductor element, a main lead on which the semiconductor element is disposed, and a resin package that covers the semiconductor element and the main lead. A notch that is recessed toward the center of the main lead in plan view as seen in the thickness direction of the semiconductor element is formed in the main lead.

Integrated circuit (IC) device substrates and structures for mating and aligning with sockets. An IC device may include a frame on and around a substrate, which may include glass or silicon. The frame may include an alignment feature, such as a notch or hole, to mate with a complementary keying feature of a socket. A heat spreader may be coupled to an IC die and extend beyond the substrate or be coupled to the frame. The heat spreader may include a heat pipe. The IC device may be part of an IC system with the device substrate coupled to a system substrate by a socket configured to mate to the frame.

An electronic component housing package includes an insulating substrate having an upper surface including a mount for an electronic component, a frame-shaped metallized layer surrounding the mount on the upper surface of the insulating substrate, and a metal frame joined to the frame-shaped metallized layer with a brazing material. The frame-shaped metallized layer includes a first sloping portion sloping inwardly from an upper surface to an inner peripheral surface. The brazing material includes a fillet portion formed between an upper outer periphery of the frame-shaped metallized layer and the metal frame, and a filling portion formed between the first sloping portion and the metal frame.