Packaging methods for semiconductor devices and methods of packaging thereof are disclosed. In some embodiments, a device includes a packaging apparatus and contact pads disposed on the packaging apparatus. The contact pads are arranged in an array of rows and columns. The contact pads include first contact pads proximate a perimeter region of the packaging apparatus and second contact pads disposed in an interior region of the packaging apparatus. A dam structure that is continuous is disposed around the second contact pads. The contact pads comprise a mounting region for a semiconductor device.

A semiconductor chip (3) is bonded to an upper surface of an electrode substrate (1) via a first solder (2). A lead frame (5) is bonded to an upper surface of the semiconductor chip (3) via a second solder (4). An intermediate plate (6) is provided in the first solder (2) between the electrode substrate (1) and the semiconductor chip (3). A yield strength of the intermediate plate (6) is higher than yield strengths of the electrode substrate (1) and the first solder (2) within the whole operating temperature range of the semiconductor device.

A semiconductor chip (3) is bonded to an upper surface of an electrode substrate (1) via a first solder (2). A lead frame (5) is bonded to an upper surface of the semiconductor chip (3) via a second solder (4). An intermediate plate (6) is provided in the first solder (2) between the electrode substrate (1) and the semiconductor chip (3). A yield strength of the intermediate plate (6) is higher than yield strengths of the electrode substrate (1) and the first solder (2) within the whole operating temperature range of the semiconductor device.

Packaging methods for semiconductor devices and methods of packaging thereof are disclosed. In some embodiments, a device includes a packaging apparatus and contact pads disposed on the packaging apparatus. The contact pads are arranged in an array of rows and columns. The contact pads include first contact pads proximate a perimeter region of the packaging apparatus and second contact pads disposed in an interior region of the packaging apparatus. A dam structure that is continuous is disposed around the second contact pads. The contact pads comprise a mounting region for a semiconductor device.

A chip package structure is provided. The chip package structure includes a substrate. The chip package structure includes a chip over the substrate. The chip package structure includes a bump and a first dummy bump between the chip and the substrate. The bump is electrically connected between the chip and the substrate, the first dummy bump is electrically insulated from the substrate, and the first dummy bump is wider than the bump. The chip package structure includes a first dummy solder layer under the first dummy bump and having a curved bottom surface facing and spaced apart from the substrate.

In an embodiment, a device includes: an integrated circuit die; a redistribution structure over a front-side surface of the integrated circuit die; a socket over the redistribution structure; a mechanical brace over the socket, the mechanical brace having an opening exposing the socket, edge regions of the socket overlapping edge regions of the mechanical brace at the opening; a first standoff screw disposed in the edge regions of the mechanical brace, the first standoff screw physically contacting the socket, the first standoff screw extending a first distance between the socket and the mechanical brace; and a bolt extending through the mechanical brace and the redistribution structure.

A method that includes providing a substrate having first and second regions for forming first and second light emitting devices, respectively, that are axisymmetrical in plan view with respect to a boundary line extending between the regions. The method includes mounting first and second light emitting elements in the first and second regions, respectively, arranging first and second light transmissive members respectively thereon, and arranging a covering member to collectively cover at least a portion of the first and second light emitting devices. The first and second devices have external connection terminals that are exposed. The terminals of the first light emitting device are on a side of the first light emitting device opposite to a side thereof adjacent the boundary line, and the terminals of the second light emitting device are on a side thereof opposite to a side of the second light emitting device adjacent the boundary line.

Some embodiments relate to a semiconductor device. The semiconductor device includes a substrate. A first die is coupled beneath a lower surface of the substrate. A second die is coupled beneath the lower surface of the substrate and is disposed over the first die. A thermal contact pad is arranged beneath a lower surface of the second die and an upper surface of the first die. The thermal contact pad thermally isolates the first die from the second die.

An integrated circuit assembly that includes a substrate; a member formed on the substrate; a first die mounted to the substrate within an opening in the member such that there is space between the first die and the member and the member surrounds the first die, and wherein the first die does not extend above an upper surface of the member; an underfill between the first the die and the substrate, wherein the underfill at least partially fills the space between the die and member; and a second die mounted to the first die and the member, wherein the second die is mounted to the member on all sides of the opening.

In an embodiment, a device includes: an integrated circuit die; a redistribution structure over a front-side surface of the integrated circuit die; a socket over the redistribution structure; a mechanical brace over the socket, the mechanical brace having an opening exposing the socket, edge regions of the socket overlapping edge regions of the mechanical brace at the opening; a first standoff screw disposed in the edge regions of the mechanical brace, the first standoff screw physically contacting the socket, the first standoff screw extending a first distance between the socket and the mechanical brace; and a bolt extending through the mechanical brace and the redistribution structure.