In an embodiment A package includes a casing having an opening and enclosing a cavity, a die accommodated in the cavity and a membrane attached to the casing, the membrane being air-permeable, covering and sealing the opening, wherein the membrane is configured to allow only a lateral gas flow, and wherein a blocking member is configured to block a vertical gas flow through the membrane into the cavity, the blocking member tightly covering a surface of the membrane at least in an area comprising the opening.

An interconnect for a semiconductor device includes: a carrier; a UV programmable chip mounted on the carrier using a first array of solder connections; a UV light source mounted on the carrier using a second array of solder connections, the UV light source being in optical communication with the UV programmable chip; and a plurality of transmission lines extending on or through the carrier and providing electrical communication between the UV programmable chip and the UV light source.

A semiconductor device has a substrate and a first semiconductor die disposed over the substrate. A subpackage is also disposed over the substrate. A stiffener is disposed over the substrate around the first semiconductor die and subpackage. A heat spreader is disposed over the stiffener. The heat spreader is thermally coupled to the first semiconductor die. The heat spreader has an opening over the subpackage.

In one example, a semiconductor package comprises a substrate having a top surface and a bottom surface, an electronic device mounted on the top surface of the substrate and coupled to one or more interconnects on the bottom surface of the substrate, a cover over the electronic device, a casing around a periphery of the cover, and an encapsulant between the cover and the casing and the substrate.

A device may include a first package and a second package where the first package has a warped shape. First connectors attached to a redistribution structure of the first package include a spacer embedded therein. Second connectors attached to the redistribution structure are fee from the spacer, the spacer of the first connectors keeping a minimum distance between the first package and the second package during attaching the first package to the second package.

A method of manufacturing a package unit, comprising: preparing a circuit board having a first region, a second region surrounding the first region, and a third region between the first and the second region; preparing a mold having a frame-shaped protruding portion surrounding a first cavity, the frame-shaped protruding portion partitioning the first cavity and a second cavity surrounding the first cavity; arranging the circuit board and the mold such that the first region of the circuit board faces the first cavity, the second region of the circuit board faces the second cavity, and a gap which communicates the first cavity and the second cavity with each other is formed between the frame-shaped protruding portion and the third region of the circuit board; and forming a frame-shaped resin member on top of the second region of the circuit board by pouring a resin into the second cavity.

A package structure includes a circuit substrate, a package element and a molding layer. The package element is disposed on the circuit substrate and is electrically connected with the circuit substrate. The molding layer is disposed over the circuit substrate and covers at least a top surface of the circuit substrate. The molding layer includes a first portion wrapping around sidewalls of the package element and having a first thickness, and a second portion surrounding the first portion and connected with the first portion. The first thickness of the first portion is larger than a second thickness of the second portion. A top surface of the first portion of the molding layer is higher than a top surface of the package element.

A semiconductor package includes an interposer; a first stacked chip including a first semiconductor chip disposed on the interposer and one or more second semiconductor chips disposed on the first semiconductor chip; a first molding layer surrounding the first stacked chip; and a second molding layer surrounding the first molding layer, wherein the second molding layer extends from an uppermost surface of the interposer to a trench of the interposer.

A semiconductor package having a thinner shape and including an antenna is provided. A semiconductor package comprises a first substrate, a second substrate on the first substrate and including a first face facing the first substrate and a second face opposite to the first face, a pillar extending from the second face of the second substrate to the first substrate, and a first semiconductor chip on the second face of the second substrate and connected to the pillar. The second substrate may include an antenna pattern, and the antenna pattern may be connected to the first semiconductor chip, and may be on the second face of the second substrate such that the antenna pattern is isolated from direct contact with the first semiconductor chip.

A ceramic encapsulating casing and a mounting structure thereof are provided. The ceramic encapsulating casing includes a ceramic substrate, a ceramic insulator, a cover plate and a pad structure. The ceramic substrate is provided with a cavity with an upward opening. The ceramic insulator is disposed on the ceramic substrate and provided with a radio frequency transmission structure. The pad structure is arranged on a bottom surface of the ceramic substrate. and includes a plurality of second pads that are arranged for transmitting signals and arranged in an array manner. A plurality of solder balls are attached to the plurality of second pads in one-to-one correspondence.