An electronic device includes a support substrate to which a first electronic chip and a second electronic chip are mounted in a position situated on top of one another. First electrical connection elements are interposed between the first electronic chip and the support substrate. Second electrical connection elements are interposed between the second electronic chip and the support substrate and are situated at a distance from a periphery of the first electronic chip. Third electrical connection elements are interposed between the first electronic chip and the second electronic chip.

A printed structure includes a destination substrate comprising two or more contact pads disposed on or in a surface of the destination substrate, a component disposed on the surface, and two or more electrically conductive connection posts. Each of the connection posts extends from a common side of the component. Each of the connection posts is in electrical and physical contact with one of the contact pads. The component is tilted with respect to the surface of the destination substrate. Each of the connection posts has a flat distal surface.

A semiconductor Schottky rectifier built in an epitaxial semiconductor layer over a substrate has an anode structure and a cathode structure extending from the surface of the epitaxial layer. The cathode contact structure has a trench structure near the epi-layer and a vertical sidewall surface covered with a gate oxide layer. The cathode structure further comprises a polysilicon element adjacent to the gate oxide layer.

An embodiment is a method including: attaching a first die to a first side of a first component using first electrical connectors, attaching a first side of a second die to first side of the first component using second electrical connectors, attaching a dummy die to the first side of the first component in a scribe line region of the first component, adhering a cover structure to a second side of the second die, and singulating the first component and the dummy die to form a package structure.

A light-emitting device includes a first carrier, which includes a side surface between a first surface and a second surface, upper conductive pads on the first surface, and lower conductive pads under the second surface; a RDL pixel package includes a RDL which includes bonding pads and bottom electrodes, and the light-emitting units on the RDL, and connected to the bonding pads. A light-transmitting layer on the RDL and covers the light-emitting units, an upper surface, a lower surface, and a lateral surface between the upper surface and the lower surface. The RDL pixel package is on the first surface and electrically connected to the upper conductive pads. A protective layer covers the first surface and contacting the side surface of the RDL pixel package. The lower electrodes and the upper conductive pads are connected, and the distance between two adjacent bonding pads is less than 30 μm.

A semiconductor device includes a semiconductor element layer including a semiconductor substrate including a bump area and a dummy bump area. A TSV structure is in the bump area and vertically extends through the semiconductor substrate, a first topmost line is in the bump area and on the TSV structure and electrically connected to the TSV structure, a signal bump is in the bump area and has a first width in a first direction and is electrically connected to the TSV structure via the first topmost line, a second topmost line is in the dummy bump area and has the same vertical level as a vertical level of the first topmost line and extends in the first direction, and a dummy bump is in the dummy bump area and contacts the second topmost line and has a second width in the first direction larger than the first width.

A multi-die integrated circuit device and a method of fabricating the multi-die integrated circuit device involve a substrate. Two or more dice include components that implement functionality of the multi-die integrated circuit. The components include logic gates. The multi-die integrated circuit device also includes a spacer disposed between the substrate and each of the two or more dice. Each of the two or more dice makes direct electrical contact with the substrate without making direct electrical contact with the spacer through holes in the spacer.

Disclosed herein are microelectronic structures including bridges, as well as related assemblies and methods. In some embodiments, a microelectronic structure may include a substrate and a bridge.

An apparatus includes an Integrated Circuit (IC). A first pillar includes a first end and a second end. The first end is connected to the IC and the second end includes a first attachment point collinear with a first central axis of the first pillar. The first attachment point includes a first solder volume capacity. A second pillar includes a third end and a fourth end. The third end is connected to the IC and the fourth end includes a second attachment point disposed on a side of the second pillar facing the first pillar. The second attachment point includes a second solder volume capacity being less than the first solder volume capacity. A first distance between the first end and the second end is less than a second distance between the third end and the fourth end.

Interconnecting a first chip and a second chip by a bridge member includes a chip handler for handling the first chip and the second chip. Each of the first chip and the second chip has a first surface including a first set of terminals and a second surface opposite to the first surface. The chip handler has an opening and at least one support surface for supporting the first surfaces of the first chip and the second chip when the first chip and the second chip are mounted to the chip handler. A chip support member supports the first chip and the second chip from the second surfaces, and a bridge handler is provided for inserting the bridge member through the opening of the chip handler and for placing the bridge member onto the first sets of terminals of the first chip and the second chip.