Semiconductor device packages and associated methods are disclosed herein. In some embodiments, the semiconductor device package includes (1) a first surface and a second surface opposite the first surface; (2) a semiconductor die positioned between the first and second surfaces; and (3) a pattern positioned in a designated area of the first surface. The pattern includes multiple bit areas. Each of the bit areas represents a first bit information or a second bit information. the pattern presents information for operating the semiconductor die. The pattern is configured to be read by a pattern scanner.

A semiconductor package includes a substrate, a device die, an encapsulating material, a thermal conductive layer, a filling material, and a carrier. The device die is disposed over the substrate. The encapsulating material is disposed over the substrate and laterally encapsulates the device die. The thermal conductive layer conformally covers the device die and the encapsulating material, wherein a profile of the thermal conductive layer comprises a valley portion. The filling material is disposed over the thermal conductive layer and fills the valley portion, wherein a thermal conductivity of the thermal conductive layer is higher than a thermal conductivity of the filling material. The carrier is bonded to the thermal conductive layer and the filling material.

Provided in the present application are a chip packaging structure and a preparation method therefor. The chip packaging structure comprises a substrate, a chip, an insulating layer, a capacitor structure and a packaging layer. According to the chip packaging structure and the packaging method therefor provided in the present application, a capacitor structure is packaged on a surface and a lateral wall of a chip, such that the capacitor structure is applied in packaging, thereby improving the level of integration of the chip. In the present application, a first electrode layer, a second electrode layer and a capacitive dielectric layer all extend along a surface on a side of a chip facing away from a substrate and along a lateral wall of the chip. Therefore, a larger relative area of the first electrode layer and the second electrode layer can be obtained, which can improve the capacity of a capacitor.

A semiconductor package includes a circuit board, an interposer structure on the circuit board, a first semiconductor chip and a second semiconductor chip on the interposer structure, the first and the second semiconductor chips electrically connected to the interposer structure and spaced apart from each other, and a mold layer between the first and second semiconductor chips, the mold layer separating the first and second semiconductor chips. A slope of a side wall of the mold layer is constant as the side wall extends away from an upper side of the interposer structure, and an angle defined by a bottom side of the mold layer and the side wall of the mold layer is less than or equal to ninety degrees.

A semiconductor package includes a circuit board, an interposer structure on the circuit board, a first semiconductor chip and a second semiconductor chip on the interposer structure, the first and the second semiconductor chips electrically connected to the interposer structure and spaced apart from each other, and a mold layer between the first and second semiconductor chips, the mold layer separating the first and second semiconductor chips. A slope of a side wall of the mold layer is constant as the side wall extends away from an upper side of the interposer structure, and an angle defined by a bottom side of the mold layer and the side wall of the mold layer is less than or equal to ninety degrees.

A package structure and a manufacturing method thereof are provided. The package structure includes a redistribution layer, a conductive pillar, an active chip, an encapsulation layer, and another redistribution layer. The conductive pillar and the active chip are side by side disposed on the redistribution layer. The encapsulation layer surrounds the active chip and the conductive pillar, in which the encapsulation layer has a first through hole disposed between the active chip and the redistribution layer and a second through hole disposed between the conductive pillar and the redistribution layer, and a depth of the first through hole is less than a depth of the second through hole. The another redistribution layer is disposed on a side of the redistribution layer away from the redistribution layer and electrically connected to the redistribution layer through the conductive pillar.

A semiconductor package includes a base chip including a passivation layer on an upper surface thereof, a semiconductor chip on the base chip, a bump on a lower surface of the semiconductor chip, an underfill layer covering the bump and covering the lower surface of the semiconductor chip, an encapsulant covering the semiconductor chip on the base chip, and an organic material layer on the passivation layer, wherein the base chip includes silicon (Si), the passivation layer has a first region in contact with the underfill layer and a second region, surrounding the first region, and the organic material layer is on the second region.

The present disclosure relates to a double-sided integrated circuit (IC) module, which includes an exposed semiconductor die on a bottom side. A double-sided IC module includes a module substrate with a top side and a bottom side. Electronic components are mounted to each of the top side and the bottom side. Generally, the electronic components are encapsulated by a mold compound. In an exemplary aspect, a portion of the mold compound on the bottom side of the module substrate is removed, exposing a semiconductor die surface of at least one of the electronic components.

The present disclosure relates to a double-sided integrated circuit (IC) module, which includes an exposed semiconductor die on a bottom side. A double-sided IC module includes a module substrate with a top side and a bottom side. Electronic components are mounted to each of the top side and the bottom side. Generally, the electronic components are encapsulated by a mold compound. In an exemplary aspect, a portion of the mold compound on the bottom side of the module substrate is removed, exposing a semiconductor die surface of at least one of the electronic components.

A semiconductor package and method are disclosed. In one example, the semiconductor package includes a package body. A first diepad is at least partially uncovered by the package body at the first main surface. A second diepad is at least partially uncovered by the package body at the first main surface. A first semiconductor chip is arranged on the first diepad. A second semiconductor chip is arranged on the second diepad. The semiconductor package further includes at least one lead protruding out of the package body at the side surface. A first groove and a second groove are formed in the first main surface. The method includes a method of making the semiconductor package.