A method includes attaching an integrated circuit chip module substrate to a printed circuit board (PCB). First region(s) of a bottom surface of the module include electrical contacts to the board, and second region(s) of the bottom surface of the module lack such contacts. Mechanical structures are assembled into the second regions. These structures allow lateral motion of the module relative to the board, and are sized and placed to inhibit bending of the second regions of the module towards the board under application of a vertical force on a top surface of the module. A package for an integrated circuit may be assembled using the method.

Various embodiments described herein provide for printed circuit boards with one or more spaces for embedding components, which can be used to implement a memory sub-system.

Panels of LED arrays and LED lighting systems are described. A panel includes a substrate having a top and a bottom surface. Multiple backplanes are embedded in the substrate, each having a top and a bottom surface. Multiple first electrically conductive structures extend at least from the top surface of each of the backplanes to the top surface of the substrate. Each of multiple LED arrays is electrically coupled to at least some of the first conductive structures. Multiple second conductive structures extend from each of the backplanes to at least the bottom surface of the substrate. At least some of the second electrically conductive structures are coupled to at least some of the first electrically conductive structures via the backplane. A thermal conductive structure is in contact with the bottom surface of each of the backplanes and extends to at least the bottom surface of the substrate.

A BGA structure having larger solder balls in high stress regions of the array is disclosed. The larger solder balls have higher solder joint reliability (SJR) and as such may be designated critical to function (CTF), whereby the larger solder balls in high stress regions carry input/output signals between a circuit board and a package mounted thereon. The larger solder balls are accommodated by recessing each ball in the package substrate, the circuit board, or both the package substrate and the circuit board. Additionally, a ball attach method for mounting a plurality of solder balls having different average diameters is disclosed.

A memory module includes a printed circuit board (PCB) including a multi-layer having a wiring structure formed therein. A length of the PCB in a first direction is longer than a length of the PCB in a second direction perpendicular to the first direction. A plurality of memory chips includes a plurality of solder balls. The plurality of memory chips is arranged in a first row and a second row respectively extending in the first direction on the PCB. The plurality of solder balls is continuously arranged in the first direction. The wiring structure alternately zigzag-connects the plurality of memory chips arranged in the first row and the second row.

An electronic package is provided. The electronic package includes a first circuit structure, a second circuit structure, and an underfill. The second circuit structure is disposed over the first circuit structure. The underfill is disposed between the first circuit structure and the second circuit structure. An inner portion of the underfill has an inner lateral surface adjacent to and is substantially conformal with a lateral surface of the second circuit structure. A first top end of the inner lateral surface is not level with a top surface of the second circuit structure. An outer portion of the underfill has a second top end higher than the first top end.

A semiconductor package assembly includes a first mounting surface of a package substrate that faces a second mounting surface of a printed circuit board. A first structural element bond pad is mounted to the first mounting surface. A second structural element bond pad is mounted to the second mounting surface, and the first and second structural element bond pads are aligned with each other. A structural element is interconnected with a first solder joint to the first structural element bond pad and interconnected with a second solder joint to the second structural element bond pad. The structural element extends between the first and second structural element bond pads to absorb mechanical shock when a compressive force pushes one of the first and second mounting surfaces toward the other.

The invention provides a semiconductor package and a method for fabricating a base for a semiconductor package. The semiconductor package includes a conductive trace embedded in a base. A semiconductor device is mounted on the conductive trace via a conductive structure.

A method for manufacturing a fixing belt for a wearable device, includes providing a flexible circuit board including a first area, a second area, and a pad in the first area; disposing an insulating layer on the flexible circuit board, the insulating layer being disposed in the second area; forming an electric conductive portion in the insulating layer; disposing a first protective layer and a second protective layer on opposite surfaces of the flexible circuit board, the electric conductive portion being between the flexible circuit board and the first protective layer; mounting an electronic component on the pad. A portion of the fixing belt containing the second area is a plug-in area, and the plug-in area is configured to be engaged with a device body of the wearable device, the electric conductive portion is disposed in the plug-in area.

Methods of manufacture are described. A method includes forming a first cavity in a substrate and placing a backplane in the first cavity. At least one layer of dielectric material is formed over the substrate and the backplane. A second cavity is formed in the at least one layer of the dielectric material to expose at least a portion of a surface of the backplane. A heat conductive material is placed in the second cavity and in contact with the at least the portion of the surface of the backplane.