A substrate assembly includes a printed circuit (PC) substrate, first and second microchips, components or substrates mounted on a surface of the PC substrate, and a projection extending in spaced relation to the surface of the PC substrate. In one example, the projection extends between (i) a downward facing surface and/or an edge of a side facing surface proximate the downward facing surface of the first microchip, component or substrate and (ii) an upward facing surface and/or an edge of a side facing surface proximate the upward facing surface of the first microchip, component or substrate. The first and second microchips, components or substrates may be mounted on different levels of the PC substrate surface. In another example, the projection extends between a upward and/or side facing surface of a first microchip, component or substrate and a slot or cavity in a second microchip, component or substrate.

A method for printed circuit board design rework utilizing two components in series, the method includes selecting a first chip component and a second chip component for placement on an original land location previously occupied by an original chip component. The method further includes placing the first chip component and the second chip component on a chip component support structure. The method further includes soldering a first end of the first chip component to a first end of the second chip component. Responsive to transferring the first chip component and the second chip component to the original land location, the method further includes soldering a second end of the first chip component to a first land of the original land location. The method further includes soldering a second end of the second chip component to a second land of the original land location.

A display device includes a circuit board and a plurality of light-emitting units disposed on the circuit board. The circuit board includes a substrate and a plurality of signal lines disposed on the substrate. Each light-emitting unit includes a base board, at least one light-emitting element and a driving circuit layer. The light-emitting element is between the base board and the substrate. The driving circuit layer is between the light-emitting element and the base board, and electrically connected to the light-emitting element and the signal line.

A method of attaching an integrated circuit (IC) package to a printed circuit board (PCB) with a set of direct current (DC) blocking capacitors includes: applying a conductive attachment material to a first set of attachment pads located on a first planar surface of the IC package; aligning the set of DC blocking capacitors in accordance with corresponding positions of the first set of attachment pads; attaching the set of DC blocking capacitors to the IC package by: positioning the aligned set of DC blocking capacitors so that a first surface of a first DC blocking capacitor of the set of DC blocking capacitors is adjacent to a corresponding attachment pad of the first set of attachment pads; and connecting the conductive attachment material to the IC package and to the first surface of the first DC blocking capacitor to create an IC package assembly.

An LED array assembly may include a hybridized device and a flexible PCB. The hybridized device may include a micro-LED array mounted on a driver IC. The driver IC may include driver IC contact pads on a top surface of the driver IC. The flexible PCB may have a bottom surface, first contact pads on the bottom surface, second contact pads on the bottom surface, and contact bridges. Each of the contact bridges extends from one of the first contact pads to one of the second contact pads. Each of the driver IC contact pads is bonded to a corresponding one of the first contact pads of the flexible PCB.

Embodiments disclosed herein include electronic packages. In an embodiment, an electronic package comprises a core, where the core comprises glass. In an embodiment, an electromagnetic wave launcher is embedded in the core. In an embodiment, the electromagnetic wave launcher comprises a fin, where the fin is a conductive material, and where the fin comprises a stepped profile.

Embodiments disclosed herein include electronic packages. In an embodiment, an electronic package comprises a core, where the core comprises glass. In an embodiment, a buildup layer is over the core. In an embodiment, a patch antenna with a first patch is under the core, and a second patch is over a surface of the core opposite from the first patch. In an embodiment, the electronic package further comprises a via through the core and coupled to the patch antenna.

An electronic component assembly is described which comprises a stack of electronic components wherein each electronic component comprises a face and external terminations. A component stability structure is attached to at least one face. A circuit board is provided wherein the circuit board comprises circuit traces arranged for electrical engagement with the external terminations. The component stability structure mechanically engages with the circuit board and inhibits the electronic device from moving relative to the circuit board.

A semiconductor package provides a low profile connection to a bottom side of the semi-conductor package. The semi-conductor package includes a computer processor die and a substrate. The computer processor die is mounted on to a top surface of the substrate. The substrate is mounted on to a printed circuit board. A voltage regulator is coupled to the printed circuit board. A top surface of the voltage regulator is coupled to a bottom surface of the substrate. The package also includes a connector device. The connector device includes a cable configured to conduct power from an upstream source, and a low-profile connector module attached to an end of the cable. The connector module is configured to interface to a bottom surface of the voltage regulator.

An electronic system and associated methods are disclosed. In one example, the electronic system includes a processor package including at least one processor integrated circuit (IC); an interposer including electrically conductive interposer interconnect; a first liquid metal well array including multiple liquid metal wells arranged between the processor package and the interposer, wherein the first liquid metal well array is attached to a surface of the processor package and attached to a first surface of the interposer and the interposer interconnect; a printed circuit board (PCB) attached to a second surface of the interposer and the interposer interconnect; a second liquid metal well array including a first surface attached to the first surface of the interposer and the interposer interconnect; and a first companion component package attached to a second surface of the second liquid metal well array.