A semiconductor device has a substrate and a first semiconductor die disposed over the substrate. A subpackage is also disposed over the substrate. A stiffener is disposed over the substrate around the first semiconductor die and subpackage. A heat spreader is disposed over the stiffener. The heat spreader is thermally coupled to the first semiconductor die. The heat spreader has an opening over the subpackage.

A semiconductor package may include; a first substrate, a first semiconductor chip disposed on the first substrate, an interposer disposed on the first semiconductor chip, a connecter spaced apart from the first semiconductor chip in a first horizontal direction and extending between the first substrate and the interposer, wherein the connecter directly electrically connects the first substrate and the interposer, a capacitor disposed between the connecter and the first semiconductor chip, and a guide pattern including a first guide portion and an opposing second guide portion spaced apart in the first horizontal direction, wherein the first guide portion is disposed between the connecter and the capacitor, the second guide portion is disposed between the capacitor and the first semiconductor chip, and at least part of the capacitor is inserted between the first guide portion and the second guide portion.

A semiconductor package including a substrate and at least one semiconductor chip on the substrate may be provided. The substrate may include a body layer having a top surface and a bottom surface, a first thermal conductive plate on the top surface of the body layer, the first thermal conductive plate connected to a ground terminal of the semiconductor chip, and a thermal conductive via penetrating the body layer and being in contact with the first thermal conductive plate.

A package structure is provided. The package structure includes a first package component and a second package component. The second package component includes a substrate and an electronic component disposed on the substrate, and the first package component is mounted to the substrate. The package structure further includes a ring structure disposed on the second package component and around the first package component. The ring structure has a first foot and a second foot, the first foot and the second foot extend toward the substrate, the electronic component is covered by the ring structure and located between the first foot and the second foot, and the first package component is exposed from the ring structure.

An article including a semiconductor die including integrated circuitry is described. The semiconductor die defines a first major surface, a second major surface opposite the first major surface, and a plurality of perimeter walls joining the first major surface and the second major surface. The article further includes at least one through silicon via extending through the semiconductor die between the first major surface and the second major surface and a fill material surrounding at least part of the semiconductor die. The fill material contacts at least one of the plurality of perimeter walls, and a surface of the fill material is substantially co-planar with the first major surface of the semiconductor die. The article further includes at least one redistribution layer on the first major surface of the semiconductor die and the surface of the fill material.

Semiconductor assemblies including thermal management configurations for reducing heat transfer between overlapping devices and associated systems and methods are disclosed herein. A semiconductor assembly may comprise a first device and a second device with a thermally conductive layer, a thermal-insulator interposer, or a combination thereof disposed between the first and second devices. The thermally conductive layer and/or the thermal-insulator interposer may be configured to reduce heat transfer between the first and second devices.

A semiconductor package includes a connection layer, a semiconductor chip disposed at a center portion of the connection layer, an adhesive layer disposed on the semiconductor chip, a heat spreader layer disposed on the adhesive layer, and a lower redistribution layer disposed on the connection layer and a bottom surface of the semiconductor chip. A width of the adhesive layer is the same as a width of the semiconductor chip, and a width of the heat spreader layer is less than the width of the adhesive layer.

A die level cavity heat sink that can be used within current and emerging packaging technologies to improve die level thermal performance within the package. Alternatively, or in addition, selective heat sink elements are provided to further manage thermal performance within a package by providing thermal pads from the interior of the package to a surface of a mold cap where additional thermal cooling mechanisms can be utilized to further remove heat from the package area.

A semiconductor package includes a first redistribution substrate, a passive device mounted on a bottom surface of the first redistribution substrate, a first semiconductor chip disposed on a top surface of the first redistribution substrate, the first semiconductor chip including a through via disposed therein, a second semiconductor chip disposed on the first semiconductor chip, and a conductive post disposed between the top surface of the first redistribution substrate and a bottom surface of the second semiconductor chip and spaced apart from the first semiconductor chip. The conductive post is connected to the first redistribution substrate and to the second semiconductor chip. The conductive post overlaps with at least a portion of the passive device in a vertical direction normal to the top surface of the first redistribution substrate.

A package structure includes a circuit substrate, a package element and a molding layer. The package element is disposed on the circuit substrate and is electrically connected with the circuit substrate. The molding layer is disposed over the circuit substrate and covers at least a top surface of the circuit substrate. The molding layer includes a first portion wrapping around sidewalls of the package element and having a first thickness, and a second portion surrounding the first portion and connected with the first portion. The first thickness of the first portion is larger than a second thickness of the second portion. A top surface of the first portion of the molding layer is higher than a top surface of the package element.