A semiconductor package and a manufacturing method thereof are provided. The semiconductor package includes a semiconductor die an insulating encapsulation laterally covering the semiconductor die. The semiconductor die includes a semiconductor substrate, a plurality of conductive pads distributed over the semiconductor substrate, a plurality of conductive vias disposed on and electrically connected to the conductive pads, and a dielectric layer disposed over the semiconductor substrate and spaced the conductive vias apart from one another. A sidewall of the dielectric layer extends along sidewalls of the conductive vias, the conductive vias are recessed from a top surface of the dielectric layer, and a sloped surface of the dielectric layer is connected to the top surface of the dielectric layer and the sidewall of the dielectric layer.

An embedded component package structure including a dielectric structure, a semiconductor chip and a patterned conductive layer is provided. The semiconductor chip is embedded in the dielectric structure, and the dielectric structure encapsulates the semiconductor chip and has a first thickness. The semiconductor chip having a second thickness, and the first thickness is greater than the second thickness, and a ratio of the first thickness to the second thickness is between 1.1 and 28.4. The patterned conductive layer covers an upper surface of the dielectric structure and extending into a first opening of the dielectric structure. The first opening exposes an electrical pad of the semiconductor chip, and the patterned conductive layer is electrically connected to the electrical pad of the semiconductor chip.

A semiconductor package includes: a frame having a first surface and a second surface opposing each other, and including a through-hole and a wiring structure connected to the first surface and the second surface; a connection structure disposed on the first surface of the frame and including a redistribution layer; a semiconductor chip disposed in the through-hole and including connection pads connected to the redistribution layer; an encapsulant encapsulating the semiconductor chip and covering the second surface of the frame; and a plurality of electrical connection metal members disposed on the second surface of the frame and connected to the wiring structure. The wiring structure includes a shielding wiring structure surrounding the through-hole, and the plurality of electrical connection metal members include a plurality of grounding electrical connection metal members connected to the shielding wiring structure.

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 semiconductor package having a redistribution structure including a first face and a second face and a first semiconductor chip mounted on the first face. The semiconductor package may further include a first redistribution pad exposed from the second face of the redistribution structure and a second redistribution pad exposed from the second face of the redistribution structure. The semiconductor package may further include a first solder ball being in contact with the first redistribution pad and a second solder ball being in contact with the second redistribution pad. In some embodiments, a first distance of the first redistribution pad is smaller than a second distance of the second redistribution pad, the first and second distances are measured with respect to a reference plane that intersects a lower portion of the first solder ball and a lower portion of the second solder ball.

A substrate structure is disclosed. The substrate structure includes a carrier, a dielectric layer on the carrier, a patterned organic core layer in the dielectric layer, and a conductive via. The patterned organic core layer defines a passage extending in the dielectric layer towards the carrier. The conductive via extends through the passage towards the carrier without contacting the patterned organic core layer.

In described examples of a circuit module, a multilayer substrate has a conductive pad formed on a surface of the multilayer substrate. An integrated circuit (IC) die is bonded to the surface of the substrate in dead bug manner, such that a set of bond pads formed on a surface of the IC die are exposed. A planar interconnect line formed by printed ink couples the set of bond pads to the conductive pad.

A semiconductor device package includes a first semiconductor device; a second semiconductor device; and a first redistribution layer disposed on the first semiconductor device and having a side wall defining an opening that exposes the first semiconductor device. The side wall of the first redistribution layer has an average surface roughness (Ra) in a range up to 2 micrometers (μm).

A system and method for fabricating an orifice in a multi-layered semiconductor substrate and singulation of the semiconductor substrate includes adding a sacrificial layer of material to a first surface of a semiconductor substrate; subsequently, removing a first radius of a first depth of material from the semiconductor substrate along a direction normal to the first surface, the removal of the first depth of material uses a first removal technique that removes the first depth of material; and removing a second radius of a second depth of material from the semiconductor substrate along the direction normal to the first surface based on the removal of the first depth of material, the removal of the second depth of material uses a second removal technique.

A semiconductor package includes a lower substrate, a connection substrate coupled to the lower substrate, the connection substrate having a lateral portion surrounding a cavity, and a first conductive pattern on a top surface of the lateral portion, a lower semiconductor chip on the lower substrate, the lower semiconductor chip being in the cavity of the connection substrate, and the lower semiconductor chip including a second conductive pattern on a top surface of the lower semiconductor chip, a bonding member connecting the first conductive pattern and the second conductive pattern to each other, and a top package on the first conductive pattern and the second conductive pattern.