A semiconductor package includes a circuit substrate, a die, a frame structure, and a heat sink lid. The die is disposed on the circuit substrate and electrically connected with the circuit substrate. The die includes two first dies disposed side by side and separate from each other with a gap between two facing sidewalls of the two first dies. The frame structure is disposed on the circuit substrate and surrounding the die. The heat sink lid is disposed on the die and the frame structure. The head sink lid has a slit that penetrates through the heat sink lid in a thickness direction and exposes the gap between the two facing sidewalls of the two first dies.

A semiconductor package including a lid having one or more heat pipes located on and/or within the lid to provide improved thermal management. A lid for a semiconductor package having one or more heat pipes thermally integrated with the lid may provide more uniform heat loss from the semiconductor package, reduce the risk of damage to the package due to excessive heat accumulation, and may enable the lid to be fabricated using less expensive materials, thereby reducing the costs of a semiconductor package.

A semiconductor package including a lid having one or more heat pipes located on and/or within the lid to provide improved thermal management. A lid for a semiconductor package having one or more heat pipes thermally integrated with the lid may provide more uniform heat loss from the semiconductor package, reduce the risk of damage to the package due to excessive heat accumulation, and may enable the lid to be fabricated using less expensive materials, thereby reducing the costs of a semiconductor package.

A semiconductor package includes a substrate, a package structure, and a lid structure. The package structure is disposed on the substrate. The lid structure is disposed over substrate, wherein the lid structure includes a main body covering and surrounding the package structure and a plurality of rib portions protruded from the main body and extended toward the package structure.

A semiconductor package includes a substrate, a package structure, and a lid structure. The package structure is disposed on the substrate. The lid structure is disposed over substrate, wherein the lid structure includes a main body covering and surrounding the package structure and a plurality of rib portions protruded from the main body and extended toward the package structure.

A system substrate package, a system package, and methods of forming the same are described herein. The system substrate package includes an integrated substrate with multiple discrete interconnect structures. In embodiments the multiple discrete interconnect structures are placed and encapsulated and have a gap formed between the multiple discrete interconnect structures. The system substrate package reduces package warpage and mitigates board level reliability issues.

A system substrate package, a system package, and methods of forming the same are described herein. The system substrate package includes an integrated substrate with multiple discrete interconnect structures. In embodiments the multiple discrete interconnect structures are placed and encapsulated and have a gap formed between the multiple discrete interconnect structures. The system substrate package reduces package warpage and mitigates board level reliability issues.

Various embodiments of a die carrier package and a method of forming such package are disclosed. The package includes one or more dies disposed within a cavity of a carrier substrate, where a first die contact of one or more of the dies is electrically connected to a first die pad disposed on a recessed surface of the cavity, and a second die contact of one or more of the dies is electrically connected to a second die pad also disposed on the recessed surface. The first and second die pads are electrically connected to first and second package contacts respectively. The first and second package contacts are disposed on a first major surface of the carrier substrate adjacent the cavity.

Various embodiments of a die carrier package and a method of forming such package are disclosed. The package includes one or more dies disposed within a cavity of a carrier substrate, where a first die contact of one or more of the dies is electrically connected to a first die pad disposed on a recessed surface of the cavity, and a second die contact of one or more of the dies is electrically connected to a second die pad also disposed on the recessed surface. The first and second die pads are electrically connected to first and second package contacts respectively. The first and second package contacts are disposed on a first major surface of the carrier substrate adjacent the cavity.

Joining a second supporting member to one surface of a semiconductor chip through an upper layer joining portion includes: forming, on the one surface, a pre-joining layer by pressure-sintering a first constituent member containing a sintering material on the one surface such that spaces between the plurality of protrusions are filled with the pre-joining layer and the pre-joining layer has a flat surface on a side of the pre-joining layer away from the semiconductor chip; arranging, on the flat surface, the second supporting member through a second constituent member containing a sintering material; and heating and pressurizing the second constituent member. Thereby, an upper layer joining portion is formed by the second constituent member and the pre-joining layer.