A method of manufacturing a semiconductor device includes providing, in a housing, an insulating substrate having a metal pattern, a semiconductor chip, a sinter material applied on the semiconductor chip, and a terminal, providing multiple granular sealing resins supported by a grid provided in the housing, heating an inside of the housing until a temperature thereof reaches a first temperature higher than a room temperature and thereby discharging a vaporized solvent of the sinter material out of the housing via a gap of the grid and a gap of the sealing resins, and heating the inside of the housing until the temperature thereof reaches a second temperature higher than the first temperature and thereby causing the melted sealing resins to pass the gap of the grid and form a resin layer covering the semiconductor chip.

In one example, a semiconductor device comprises a cavity substrate comprising a base and a sidewall to define a cavity, an electronic component on a top side of the base in the cavity, a lid over the cavity and over the sidewall, and a valve to provide access to the cavity, wherein the valve has a plug to provide a seal between a cavity environment and an exterior environment outside the cavity. Other examples and related methods are also disclosed herein.

In one example, a semiconductor device comprises a cavity substrate comprising a base and a sidewall to define a cavity, an electronic component on a top side of the base in the cavity, a lid over the cavity and over the sidewall, and a valve to provide access to the cavity, wherein the valve has a plug to provide a seal between a cavity environment and an exterior environment outside the cavity. Other examples and related methods are also disclosed herein.

The present invention relates to a millimeter wave radar component package, comprising: a box cover, having a metal layer arranged on inner surface of the box cover, the metal layer facing a channel of a box body, wherein a cavity is formed between the box cover and the box body; and the box body, comprising: a first insulator, connected with the box cover, wherein in the first insulator a channel is opened, and one end of the channel corresponds with the position of antenna and the other end is connected with the cavity; one or more chips, arranged on a second insulator in a flip manner and covered by the first insulator; the second insulator, arranged between the first insulator and a third insulator; the third insulator; and the antenna and conductive lines, arranged in the third insulator and connected with pads of the one or more chips through the second insulator, wherein the conductive lines are exposed from the third insulator for electrical contact. The present invention further relates to a method for manufacturing the package.

The present invention relates to a millimeter wave radar component package, comprising: a box cover, having a metal layer arranged on inner surface of the box cover, the metal layer facing a channel of a box body, wherein a cavity is formed between the box cover and the box body; and the box body, comprising: a first insulator, connected with the box cover, wherein in the first insulator a channel is opened, and one end of the channel corresponds with the position of antenna and the other end is connected with the cavity; one or more chips, arranged on a second insulator in a flip manner and covered by the first insulator; the second insulator, arranged between the first insulator and a third insulator; the third insulator; and the antenna and conductive lines, arranged in the third insulator and connected with pads of the one or more chips through the second insulator, wherein the conductive lines are exposed from the third insulator for electrical contact. The present invention further relates to a method for manufacturing the package.

A semiconductor device according to an embodiment includes a metal plate, a semiconductor chip, an insulating substrate provided between the metal plate and the semiconductor chip, a frame body surrounding the insulating substrate, a mesh-shaped sheet provided between the metal plate and the frame body, an adhesive agent provided between the metal plate and the frame body, and a sealing material being surrounded by the frame body and covering the semiconductor chip and the insulating substrate.

A microelectronic device package may include one or more semiconductor dice coupled to a substrate. The microelectronic device package may further include a lid coupled to the substrate, the lid defining a volume over and around the one or more semiconductor die. The microelectronic device package may further include a thermally conductive dielectric filler material substantially filling the volume defined around the semiconductor die.

A power semiconductor module arrangement includes: a substrate arranged within a housing; at least one semiconductor body arranged on a top surface of the substrate; and a first layer arranged on a first surface within the housing. The first layer includes inorganic filler which is impermeable to corrosive gases and a casting material which fills spaces present in the inorganic filler.

A power semiconductor module arrangement includes: a substrate arranged within a housing; at least one semiconductor body arranged on a top surface of the substrate; and a first layer arranged on a first surface within the housing. The first layer includes inorganic filler which is impermeable to corrosive gases and a casting material which fills spaces present in the inorganic filler.

Embodiments of the present disclosure are directed to a leadframe package with recesses formed in outer surface of the leads. The recesses are filled with a filler material, such as solder. The filler material in the recesses provides a wetable surface for filler material, such as solder, to adhere to during mounting of the package to another device, such as a printed circuit board (PCB). This enables strong solder joints between the leads of the package and the PCB. It also enables improved visual inspection of the solder joints after the package has been mounted.