A semiconductor package and die assembly with a package having an exterior surface and an interior space, the interior space defined by a first side wall, and a second side wall that opposes the first side wall. Also part of the assembly is a package floor and a package ceiling. The package floor includes package floor conductors. The package ceiling opposes the package floor and includes package ceiling conductors in the package ceiling. One or more semiconductor dies are on the floor of the package floor. Electrical conductors electrically connect the one or more floor dies to the package floor conductors. One or more semiconductor dies are located on the package ceiling. Electrical conductors are configured to electrically connect the one or more ceiling dies to the package ceiling conductors. An air space is located between the package floor and the package ceiling.

A semiconductor package and die assembly with a package having an exterior surface and an interior space, the interior space defined by a first side wall, and a second side wall that opposes the first side wall. Also part of the assembly is a package floor and a package ceiling. The package floor includes package floor conductors. The package ceiling opposes the package floor and includes package ceiling conductors in the package ceiling. One or more semiconductor dies are on the floor of the package floor. Electrical conductors electrically connect the one or more floor dies to the package floor conductors. One or more semiconductor dies are located on the package ceiling. Electrical conductors are configured to electrically connect the one or more ceiling dies to the package ceiling conductors. An air space is located between the package floor and the package ceiling.

The present disclosure relates to an electronic element package and a method of manufacturing the same. The electronic element package includes a substrate, an element disposed on the substrate, and a cap enclosing the element. One of the substrate and the cap includes a groove, the other of the substrate and the cap includes a protrusion engaging with the groove. A first metal layer and a second metal layer form a metallic bond with each other in a space between the groove and the protrusion.

A main ceramic circuit board on which a semiconductor element is arranged is separate from a sub-ceramic circuit board on which a connection terminal is arranged. Accordingly, heat generated by the semiconductor element is conducted via the main ceramic circuit board and a base plate arranged thereunder and the sub-ceramic circuit board to the connection terminal. That is to say, it is difficult to conduct heat from the semiconductor element to the connection terminal, compared with a case where the connection terminal and the semiconductor element are arranged over the same ceramic circuit board.

A main ceramic circuit board on which a semiconductor element is arranged is separate from a sub-ceramic circuit board on which a connection terminal is arranged. Accordingly, heat generated by the semiconductor element is conducted via the main ceramic circuit board and a base plate arranged thereunder and the sub-ceramic circuit board to the connection terminal. That is to say, it is difficult to conduct heat from the semiconductor element to the connection terminal, compared with a case where the connection terminal and the semiconductor element are arranged over the same ceramic circuit board.

The present invention relates to a gas sensor package including an insulating substrate, a metal layer on one surface of the insulating substrate, a stepped portion disposed on the metal layer and configured to divide the metal layer into a plurality of portions, and a gas sensor chip mounted on the metal layer located on the stepped portion and including a sensing part, wherein a width of the stepped portion is provided to be equal to or less than an interval between two adjacent electrode terminals of a plurality of electrode terminals of the gas sensor chip.

The present invention relates to a gas sensor package including an insulating substrate, a metal layer on one surface of the insulating substrate, a stepped portion disposed on the metal layer and configured to divide the metal layer into a plurality of portions, and a gas sensor chip mounted on the metal layer located on the stepped portion and including a sensing part, wherein a width of the stepped portion is provided to be equal to or less than an interval between two adjacent electrode terminals of a plurality of electrode terminals of the gas sensor chip.

A package structure includes a circuit substrate, a semiconductor package, a first ring structure and a second ring structure. The semiconductor package is disposed on and electrically connected to the circuit substrate. The first ring structure is attached to the circuit substrate and surrounding the semiconductor package, wherein the first ring structure includes a central opening and a plurality of corner openings extending out from corners of the central opening, the semiconductor package is located in the central opening, and the plurality of corner openings is surrounding corners of the semiconductor package.

A packaged power device includes a ceramic package body having a top drain pad having a first area, a top source pad having a second area smaller than the first area, and a top gate pad having a third area smaller than the second area; a power device having a bottom surface affixed to a top drain pad, a die source pad coupled to the top source pad, and a die gate pad coupled to the top gate pad; and a ceramic lid affixed to the ceramic package body to form the packaged power device.

According to one or more embodiments, a semiconductor device includes a support having a recess. A plurality of semiconductor chips are stacked on each other in the recess. A plurality of columnar electrodes in the recess extend from the semiconductor chips toward an opening of the support. A wiring layer is disposed over the opening. The recess is filled with an insulating material to cover the semiconductor chips and the columnar electrodes.