An electronic module includes a substrate that includes a first main surface and a second main surface, at least one first electronic component that includes electrodes on a mounting surface thereof on the substrate and that includes a hollow portion, at least one second electronic component that includes electrodes on a mounting surface thereof on the substrate and that includes no hollow portion, and a sealing resin. The at least one first electronic component is mounted on the first main surface of the substrate and sealed with the sealing resin. The at least one second electronic component is mounted on the second main surface of the substrate and is not sealed with the sealing resin.

A memory device includes a lower structure and a plurality of upper structures stacked on the lower structure. The lower structure includes a peripheral circuit, and an upper bonding pad disposed on a top surface of the lower structure. Each of the plurality of upper structures includes a bit line, a through via, and a lower bonding pad disposed on a bottom surface of the upper structures and connected to the through via. Each of upper structures, other than an uppermost upper structure, further includes an upper bonding pad disposed on a top surface thereof and connected to the through via. The bit line includes a gap separating a first portion of the bit line from a second portion thereof in the horizontal direction, and the through via overlaps the gap of the bit line in a plan view.

A method of forming an integrated circuit package includes attaching a first die to an interposer. The interposer includes a first die connector and a second die connector on the interposer and a first dielectric layer covering at least one sidewall of the first die connector and at least one sidewall of the second die connector. The first die is coupled to the first die connector and to the first dielectric layer and the second die connector is exposed by the first die. The method further includes recessing the first dielectric layer to expose at least one sidewall of the second die connector and attaching a second die to the interposer, the second die being coupled to the second die connector.

In an embodiment, a semiconductor package includes a package footprint having a plurality of solderable contact pads, a semiconductor device having a first power electrode and a control electrode on a first surface and a second power electrode on a second surface, a redistribution substrate having an insulating board, wherein the first power electrode and the control electrode are mounted on a first major surface of the insulating board and the solderable contact pads of the package footprint are arranged on a second major surface of the insulating board, and a contact clip having a web portion and one or more peripheral rim portions. The web portion is mounted on and electrically coupled to the second power electrode and the peripheral rim portion is mounted on the first major surface of the insulating board.

A semiconductor device includes a first integrated circuit and a second integrated circuit. The first integrated circuit includes a semiconductor substrate and a dielectric layer disposed on a top surface of the semiconductor substrate. The second integrated circuit is disposed on the dielectric layer of the first integrated circuit and includes a dummy opening extending through the second integrated circuit and having a metal layer covering the inner walls of the dummy opening and in contact with the dielectric layer, wherein the metal layer is electrically grounded or electrically floating.

A semiconductor device includes a first integrated circuit and a second integrated circuit. The first integrated circuit includes a semiconductor substrate and a dielectric layer disposed on a top surface of the semiconductor substrate. The second integrated circuit is disposed on the dielectric layer of the first integrated circuit and includes a dummy opening extending through the second integrated circuit and having a metal layer covering the inner walls of the dummy opening and in contact with the dielectric layer, wherein the metal layer is electrically grounded or electrically floating.

A package includes silicon waveguides on a first side of an oxide layer; photonic devices on the first side of the oxide layer, wherein the photonic devices are coupled to the silicon waveguides; redistribution structures over the first side of the oxide layer, wherein the redistribution structures are electrically connected to the photonic devices; a hybrid interconnect structure on a second side of the oxide layer, wherein the hybrid interconnect structure includes a stack of silicon nitride waveguides that are separated by dielectric layers; and through vias extending through the hybrid interconnect structure and the oxide layer, wherein the through vias make physical and electrical connection to the redistribution structures.

A display device including a display area and a non-display area further includes a base layer including a first surface and a second surface opposite to the first surface, the base layer having, in the non-display area, an opening portion penetrating the first surface and the second surface; a pad unit including a terminal on the first surface, the pad unit extending from the first surface to the opening portion; a connection line connected to the terminal on the first surface, the connection line extending from the non-display area to the display area; an insulating layer covering the terminal and the connection line; a thin-film transistor including a semiconductor layer on the insulating layer, the thin-film transistor being connected to the connection line; and a display element connected to the thin-film transistor, the display element being in the display area.

A semiconductor device includes a first integrated circuit and a second integrated circuit. The first integrated circuit includes a semiconductor substrate and a dielectric layer disposed on a top surface of the semiconductor substrate. The second integrated circuit is disposed on the dielectric layer of the first integrated circuit and includes a dummy opening extending through the second integrated circuit and having a metal layer covering the inner walls of the dummy opening and in contact with the dielectric layer, wherein the metal layer is electrically grounded or electrically floating.

A semiconductor device includes a first integrated circuit and a second integrated circuit. The first integrated circuit includes a semiconductor substrate and a dielectric layer disposed on a top surface of the semiconductor substrate. The second integrated circuit is disposed on the dielectric layer of the first integrated circuit and includes a dummy opening extending through the second integrated circuit and having a metal layer covering the inner walls of the dummy opening and in contact with the dielectric layer, wherein the metal layer is electrically grounded or electrically floating.