Optical packages and methods of fabrication are described. In an embodiment, a controller chip is embedded along with optical components, including a photodetector (PD) and one or more emitters, in a single package.

A semiconductor device includes: a first semiconductor element; a second semiconductor element; a first insulating base member including a fifth face and a sixth face; a second insulating base member including a seventh face and an eighth face; a first wiring that penetrates through the first insulating base member, and disposed on the sixth face; a second wiring that penetrates through the second insulating base member, and disposed on the eighth face; a first wiring member that faces the second face of the first semiconductor element; and a second wiring member that is provided on the second wiring. The first wiring member is provided on the seventh face of the second insulating base member. A current flows in a first direction in the first wiring member, and flows in a second direction opposite to the first direction in the second wiring member.

A semiconductor device includes: a first semiconductor element including a first face and a second face; a second semiconductor element including a third face and a fourth face; an insulating base member including a fifth face and a sixth face; a first wiring that penetrates through the insulating base member, and is disposed on the sixth face; a second wiring that penetrates through the insulating base member, and is disposed on the sixth face; a first wiring member that faces the second face; and a second wiring member that faces the sixth face, and is electrically connected to the second wiring. The second wiring member is bonded to the first and second wirings while the insulating base member is folded. A current flows in a first direction in the first wiring member, and flows in a second direction opposite to the first direction in the second wiring member.

A semiconductor device includes: a first semiconductor element; a second semiconductor element; a first insulating base member adhesively bonded to the first semiconductor element; a first wiring connected to a first electrode of the first semiconductor element, and disposed on the first insulating base member; a second insulating base member adhesively bonded to the second semiconductor element, a second wiring connected to a third electrode of the second semiconductor element, and disposed on the second insulating base member; a first wiring member connected to a second electrode of the first semiconductor element; a second wiring member electrically connected to the first wiring and a fourth electrode of the second semiconductor element; and a third wiring member connected to the second wiring. A current flows in a first direction in the first wiring member, and flows in a second direction opposite to the first direction in the third wiring member.

A fan-out semiconductor package includes a frame having a through hole, a semiconductor chip disposed in the through hole and including connection pads, an encapsulant encapsulating at least a portion of the frame and the semiconductor chip, and a redistribution layer disposed on the frame and the semiconductor chip and including a first region and a second region. In the first region, a first via and a second via, electrically connected to one of the connection pads, disposed in different layers, and connected by a wiring pattern, are disposed. In the second region, a third via and a fourth via, electrically connected to another of the connection pads, disposed in different layers, and connected by the wiring pattern, are disposed. A distance between axes of the first via and the second via is shorter than a distance between axes of the third via and the fourth via.

A package structure includes at least one semiconductor die, an insulating encapsulant and a redistribution structure. The at least one semiconductor die has a plurality of conductive posts, wherein a top surface of the plurality of conductive posts has a first roughness. The insulating encapsulant is encapsulating the at least one semiconductor die. The redistribution structure is disposed on the insulating encapsulant in a build-up direction and is electrically connected to the at least one semiconductor die. The redistribution structure includes a plurality of conductive via portions and a plurality of conductive body portions embedded in dielectric layers, wherein a top surface of the plurality of conductive body portions has a second roughness, and the second roughness is greater than the first roughness.

A semiconductor package comprising plurality of bumps and fabricating method thereof. The package has a chip, a plurality of first and second bumps, an encapsulation, a redistribution. The chip has a plurality of pads and an active area and the active surface has a first area and a second area surrounding the first, the pads formed on a first area of the active surface, each first bump formed on the corresponding pad. The second bumps are formed on the second area, each second bump has first and second different width layers. The encapsulation encapsulates the chip and bumps and is ground to expose the bumps therefrom. During grinding, all of the first bumps are completely exposed by determining a width of an exposed surface of the second bump to electrically connect to the redistribution is increased. Therefore, a shallow-grinding or over-grinding does not occur.

Temperature sensor packages and methods of fabrication are described. The temperature sensor packages in accordance with embodiments may be rigid or flexible. In some embodiments the temperature sensor packages are configured for touch sensing, and include an electrically conductive sensor pattern such as a thermocouple or resistance temperature detector (RTD) pattern. In some embodiments, the temperature sensor packages are configured for non-contact sensing an include an embedded transducer.

A package structure includes at least one semiconductor die, an insulating encapsulant and a redistribution structure. The at least one semiconductor die has a plurality of conductive posts, wherein a top surface of the plurality of conductive posts has a first roughness. The insulating encapsulant is encapsulating the at least one semiconductor die. The redistribution structure is disposed on the insulating encapsulant in a build-up direction and is electrically connected to the at least one semiconductor die. The redistribution structure includes a plurality of conductive via portions and a plurality of conductive body portions embedded in dielectric layers, wherein a top surface of the plurality of conductive body portions has a second roughness, and the second roughness is greater than the first roughness.

A semiconductor package including: a first wiring structure; a semiconductor chip disposed on the first wiring structure; a second wiring structure disposed on the semiconductor chip and including a cavity; and a filling member between the first wiring structure and the second wiring structure and in the cavity, wherein an uppermost end of the filling member and an uppermost end of the second wiring structure are located at the same level.