Semiconductor package includes a pair of dies, a redistribution structure, and a conductive plate. Each die includes a contact pad. Redistribution structure is disposed on the pair of dies, and electrically connects the pair of dies. Redistribution structure includes an innermost dielectric layer, an outermost dielectric layer, and a redistribution conductive layer. Innermost dielectric layer is closer to the pair of dies. Redistribution conductive layer extends between the innermost dielectric layer and the outermost dielectric layer. Outermost dielectric layer is furthest from the pair of dies. Conductive plate is electrically connected to the contact pads of the pair of dies. Conductive plate extends over the outermost dielectric layer of the redistribution structure and over the pair of dies. Vertical projection of the conductive plate falls on spans of the dies of the pair of dies.

An electronic device includes a substrate, a through hole, a first electronic unit, a second electronic unit, a circuit structure, and a third electronic unit. The substrate has a first surface, a second surface opposite the first surface, a first cavity, and a second cavity. A sidewall of the first cavity is connected to the first surface, and a sidewall of the second cavity is connected to the first surface. The through hole extends through the substrate, and a sidewall of the through hole is connected to the first surface and the second surface. The first electronic unit is disposed in the first cavity. The second electronic unit is disposed in the second cavity. The circuit structure is disposed on the first electronic unit and the second electronic unit. The bottom surfaces of the first and second cavities have a roughness ranging from 0 to 2 micrometers.

An electronic device and associated methods are disclosed. In one example, the electronic device includes a photonic integrated circuit and an in situ formed waveguide. In selected examples, the electronic device includes a photonic integrated circuit coupled to an electronic integrated circuit, in a glass layer, where a waveguide is formed in the glass layer.

A chip package used as a logic drive, includes: multiple semiconductor chips, a polymer layer horizontally between the semiconductor chips; multiple metal layers over the semiconductor chips and polymer layer, wherein the metal layers are connected to the semiconductor chips and extend across edges of the semiconductor chips, wherein one of the metal layers has a thickness between 0.5 and 5 micrometers and a trace width between 0.5 and 5 micrometers; multiple dielectric layers each between neighboring two of the metal layers and over the semiconductor chips and polymer layer, wherein the dielectric layers extend across the edges of the semiconductor chips, wherein one of the dielectric layers has a thickness between 0.5 and 5 micrometers; and multiple metal bumps on a top one of the metal layers, wherein one of the semiconductor chips is a FPGA IC chip, and another one of the semiconductor chips is a NVMIC chip.

A flip-chip bonding-based antenna packaging structure and its manufacturing method are provided. The flip-chip bonding-based antenna packaging structure includes a lead frame structure and a redistribution structure disposed above the lead frame structure. The redistribution structure includes a first surface and a second surface. The lead frame structure is disposed on the redistribution structure and includes a metal member, a first active element, and a passive element. The metal member includes a base portion, a first supporting portion on the base portion, and an extension portion adjacent to the first supporting portion. The extension portion extends from the base portion, and the first supporting portion is parallel to the extension portion. The first active element is disposed between the first supporting portion and the first surface. The passive element is disposed on the second surface and is electrically connected to the first active element.

A semiconductor package having one or more bifacial NAND memory devices includes an interposer including a plurality of multiplexers (MUX) integrally formed within the interposer, and a plurality of bifacial NAND memory devices disposed over the interposer. The bifacial NAND memory devices are electrically coupled to the MUX. Each bifacial NAND memory device includes a first NAND memory die disposed on a first planar surface, and a second NAND memory die disposed on a second planar surface, opposite the first NAND memory die, and adjacent the interposer. Each bifacial NAND memory device also includes a plurality of through silicon vias (TSVs) electrically coupling the first NAND memory die with the second NAND memory die, and the MUX.

A chip package used as a logic drive, includes: multiple semiconductor chips, a polymer layer horizontally between the semiconductor chips; multiple metal layers over the semiconductor chips and polymer layer, wherein the metal layers are connected to the semiconductor chips and extend across edges of the semiconductor chips, wherein one of the metal layers has a thickness between 0.5 and 5 micrometers and a trace width between 0.5 and 5 micrometers; multiple dielectric layers each between neighboring two of the metal layers and over the semiconductor chips and polymer layer, wherein the dielectric layers extend across the edges of the semiconductor chips, wherein one of the dielectric layers has a thickness between 0.5 and 5 micrometers; and multiple metal bumps on a top one of the metal layers, wherein one of the semiconductor chips is a FPGA IC chip, and another one of the semiconductor chips is a NVMIC chip.

A light emitting device includes a short wavelength light emitting portion, a long wavelength light emitting portion, and a coupling layer combining the short wavelength emitting portion and the long wavelength light emitting portion. Each of the short wavelength light emitting portion and the long wavelength light emitting portion includes a first conductivity type semiconductor layer, an active layer, and a second conductivity type semiconductor layer. The active layer of the long wavelength light emitting portion contains more Indium (In) than the active layer of the short wavelength light emitting portion, and the short wavelength light emitting portion emits light of a shorter wavelength than that of light emitted from the long wavelength light emitting portion.

A semiconductor package includes: a redistribution structure; a semiconductor chip on the redistribution structure and electrically connected to the redistribution structure; an encapsulant encapsulating at least a portion of the semiconductor chip; one or more conductive pads on the encapsulant and electrically connected to the redistribution structure; and a passivation layer on the encapsulant, the passivation layer including an opening exposing a portion of the one or more conductive pads, wherein each of the one or more conductive pads includes: a first edge area covered by the passivation layer; and a second edge area exposed by the opening of the passivation layer and separated from the passivation layer.

An integrated sensor component includes a chip carrier and a first semiconductor chip and a second semiconductor chip, wherein either both semiconductor chips are arranged on the chip carrier or (alternatively) the second semiconductor chip is arranged on the chip carrier and the first semiconductor chip is arranged on the second semiconductor chip (chip-on-chip). The integrated sensor component further includes a first sensor element integrated in the first semiconductor chip and a second sensor element integrated in the second semiconductor chip, as well as a housing formed by a potting compound, which has an opening. Both the first sensor element and the second sensor element are located within the opening so that they can interact with the atmosphere surrounding the sensor component.