Embodiments disclosed herein include package substrates and methods of forming such package substrates. In an embodiment a package substrate comprises a core with a first surface and a second surface opposite from the first surface. In an embodiment, a buildup layer is over the first surface of the core. In an embodiment, a channel is through the core, where the channel extends in a direction that is substantially parallel to the first surface.

Embodiments disclosed herein include electronic packages and methods of forming such electronic packages. In an embodiment, an electronic package comprises a substrate, where the substrate has a first recess and a plurality of second recesses at the bottom of the first recess. In an embodiment a die is coupled to the substrate by a die attach film (DAF), where the die sits in the first recess. In an embodiment, a surface of the DAF seals the second recesses.

Embodiments disclosed herein include electronic packages and methods of forming such electronic packages. In an embodiment, an electronic package comprises a substrate, where the substrate has a first recess and a plurality of second recesses at the bottom of the first recess. In an embodiment a die is coupled to the substrate by a die attach film (DAF), where the die sits in the first recess. In an embodiment, a surface of the DAF seals the second recesses.

In an embodiment, a device includes: a processor die including circuit blocks, the circuit blocks including active devices of a first technology node; a power gating die including power semiconductor devices of a second technology node, the second technology node larger than the first technology node; and a first redistribution structure including first metallization patterns, the first metallization patterns including power supply source lines and power supply ground lines, where a first subset of the circuit blocks is electrically coupled to the power supply source lines and the power supply ground lines through the power semiconductor devices, and a second subset of the circuit blocks is permanently electrically coupled to the power supply source lines and the power supply ground lines.

A package carrier includes a substrate, at least one interposer disposed in at least one opening of the substrate, a conductive structure layer, a first build-up structure, and a second build-up structure. The interposer includes a glass substrate, at least one conductive via, at least one first pad, and at least one second pad. The conductive via passes through the glass substrate, and the first and the second pads are disposed respectively on an upper surface and a lower surface of the glass substrate opposite to each other and are connected to opposite ends of the conductive via. The conductive structure layer is disposed on the substrate and is structurally and electrically connected to the first and the second pads. The first and the second build-up structures are disposed respectively on the first and the second surfaces of the substrate and are electrically connected to the conductive structure layer.

A display device includes a plate-like substrate having a first surface and a second surface, pixel units on the first surface, and a power supply voltage feeder on the second surface. The power supply voltage feeder outputs first and second power supply voltages applicable to the pixel units. The second power supply voltage is lower in potential than the first power supply voltage. The display device includes a first wiring conductor electrically connecting the power supply voltage feeder and the pixel units and a second wiring conductor electrically connecting the power supply voltage feeder and the pixel units. At least one of the first or second wiring conductor includes a planar conductive portion covering the first surface. The planar conductive portion includes connectors connected to the power supply voltage feeder on at least two sides of the substrate.

A method for forming a conductive through-hole-via in a glass substrate comprises: placing circuitry on a first surface of the glass substrate such that a section of the glass substrate on the first surface is exposed; applying a coating to the first surface covering both the circuitry and the exposed section of the first surface; removing the coating over the exposed section; inducing structural damage to at least a portion of the exposed section with laser radiation; and wet etching away the at least a portion of the exposed section to form a via.

Provided is an electronic apparatus including a metal wiring. The metal wiring includes a plurality of first regions covered with a solder layer, a second region provided between two first regions of the plurality of first regions, and a third region having a nitrogen amount of 20 atoms % or more. An oxygen amount is largest in the second region, followed by at least one of the plurality of first regions, and then by the third region. The nitrogen amount may be largest in the third region, followed by at least one of the plurality of first regions, and then by the second region.

A connection body which comprises a base structure at least predominantly made of a semiconductor oxide material or glass material, and an electrically conductive wiring structure on and/or in the base structure, wherein the electrically conductive wiring structure comprises at least one vertical wiring section with a first lateral dimension on and/or in the base structure and at least one lateral wiring section connected with the at least one vertical wiring section, wherein the at least one lateral wiring section has a second lateral dimension on and/or in the base structure, which is different to the first lateral dimension.

A connection body which comprises a base structure at least predominantly made of a semiconductor oxide material or glass material, and an electrically conductive wiring structure on and/or in the base structure, wherein the electrically conductive wiring structure comprises at least one vertical wiring section with a first lateral dimension on and/or in the base structure and at least one lateral wiring section connected with the at least one vertical wiring section, wherein the at least one lateral wiring section has a second lateral dimension on and/or in the base structure, which is different to the first lateral dimension.