An electronic package is provided, in which an electronic element is disposed on an upper side of a circuit structure, a package layer covers the electronic element, and an action structure is embedded in the package layer, so that the action structure is exposed from a surface of the package layer, and then a bonding element is disposed on a lower side of the circuit structure and corresponding to the position of the action structure, so as to form a thermal conduction between the bonding element and the action structure. Therefore, a laser can transfer heat energy to the bonding element via the action structure, so that a solder material on the bonding element can be reflowed.

A semiconductor package includes a redistribution substrate and a semiconductor chip thereon. The redistribution substrate includes a ground under-bump pattern, signal under-bump patterns laterally spaced apart from the ground under-bump pattern, first signal line patterns disposed on the signal under-bump patterns and coupled to corresponding signal under-bump patterns, and a first ground pattern coupled to the ground under-bump pattern and laterally spaced apart from the first signal line pattern. Each of the signal and ground under-bump patterns includes a first part and a second part formed on the first part and that is wider than the first part. The second part of the ground under-bump pattern is wider than the second part of the signal under-bump pattern. The ground under-bump pattern vertically overlaps the first signal line patterns. The first ground pattern does not vertically overlap the signal under-bump patterns.

Disclosed are semiconductor packages and their fabricating methods. The method includes preparing a semiconductor chip with a pillar pattern on a bottom surface thereof, placing the semiconductor chip side by side with a connection substrate with a conductive pad on a bottom surface thereof, forming a molding layer on the bottom surfaces of the connection substrate and the semiconductor chip to cover the pillar pattern and the conductive pad, forming a first redistribution substrate on top surfaces of the connection substrate, the semiconductor chip, and the molding layer and directly in physical contact with the top surface of the semiconductor chip, and performing a grinding process on a bottom surface of the molding layer to expose the pillar pattern and the conductive pad. An outer sidewall of the connection substrate is vertically aligned with that of the first redistribution substrate.

Embodiments disclosed herein include electronic packages with improved thermal performance. In an embodiment, the electronic package comprises a first package substrate, a first die stack over the first package substrate, and a heat spreader over the first die stack. In an embodiment, the heat spreader comprises arms that extend out past sidewalls of the first package substrate. In an embodiment, the electronic package further comprises an interposer over and around the heat spreader, where the interposer is electrically coupled to the first package substrate by a plurality of interconnects. In an embodiment, the electronic package further comprises a second package substrate over the interposer, and a second die over the second package substrate.

Exemplary package on package (PoP) assemblies may include a substrate. The PoP assemblies may include a first package positioned on a first side of the substrate with a bottom surface of the first package facing the substrate. The PoP assemblies may include a second package positioned on a second side of the substrate with a top surface of the second package facing the substrate. The second side may be positioned opposite the first side. The PoP assemblies may include a conductive element that contacts one or both of a top surface and the bottom surface of the second package and extends to a position that is aligned with or above a top surface of the first package.

Embodiments disclosed herein include electronic packages and methods of forming such electronic packages. In an embodiment, an electronic package comprises a substrate, where the substrate has a first recess and a plurality of second recesses at the bottom of the first recess. In an embodiment a die is coupled to the substrate by a die attach film (DAF), where the die sits in the first recess. In an embodiment, a surface of the DAF seals the second recesses.

Methods and apparatus for providing an assembly including a base substrate, a lid substrate, and a ring frame between the base substrate and the lid substrate to define a protected volume, where the ring frame includes through vias. A die may be contained in the protected volume. Sensor circuitry can include conductive pillars in the protected volume and the die can include circuity to determine an impedance of the pad and the pillars for tamper detection. An edge cap can be coupled to at least one side of the assembly for tamper detection.

Disclosed is a semiconductor package comprising an interposer substrate having first and second surfaces opposite each other and including a wiring layer adjacent to the first surface, a semiconductor chip on the first surface of the interposer substrate, a passivation layer on the first surface of the interposer substrate and covering the semiconductor chip, and redistribution patterns in the passivation layer and connected to the semiconductor chip. The semiconductor chip has third and fourth surfaces opposite to each other. The third surface of the semiconductor chip faces the first surface of the interposer substrate. The redistribution patterns are connected to the fourth surface of the semiconductor chip. The semiconductor chip includes chip pads adjacent to the third surface and chip through electrodes connected to the chip pads. Each of the chip pads is directly bonded to a corresponding one of wiring patterns in the wiring layer.

The electronic component package body includes a substrate, an electronic component, and first pins. The substrate includes a bottom surface, a top surface, and a first side surface. The first side surface is connected between the bottom surface and the top surface. The electronic component is packaged inside the substrate. The first pins are embedded in the substrate, and penetrate from the bottom surface to the top surface. The first pins include a bottom surface and a side surface connected to the bottom surface. The bottom surface is exposed relative to the bottom surface, and at least a partial structure of the side surface is exposed relative to the first side surface. Both the bottom surface and the side surface are used for soldering with solder. Reliability of soldering the electronic component package body and a circuit board is high.

A semiconductor package includes a first substrate including a first recess formed in a top surface of the first substrate, a first semiconductor chip disposed in the first recess and mounted on the first substrate, an interposer substrate disposed on the first semiconductor chip and including a second recess formed in a bottom surface of the interposer substrate, an adhesive layer disposed in the second recess and in contact with a top surface of the first semiconductor chip, a plurality of connection terminals spaced apart from the first recess and connecting the first substrate to the interposer substrate, and a molding layer disposed between the first substrate and the interposer substrate.