An electronic device includes a multilevel package substrate with first, second, third, and fourth levels, a semiconductor die mounted to the first level, and a conductor backed coplanar waveguide transmission line feed with an interconnect and a conductor, the interconnect including coplanar first, second, and third conductive lines extending in the first level along a first direction from respective ends to an antenna, the second and third conductive lines spaced apart from opposite sides of the first conductive line along an orthogonal second direction, and the conductor extending in the third level under the interconnect and under the antenna.

A chip package structure and a storage system are provided. The chip package structure includes a chipset, a first Re-Distribution Layer (RDL), and a bonding pad region. The chipset includes a plurality of chips distributed horizontally. The first RDL is disposed on a first surface of the chipset. The bonding pad region includes a plurality of bonding pads, the plurality of bonding pads are located on a side surface of the first RDL away from the chipset, and the plurality of bonding pads are connected to the plurality of chips through the first RDL.

Provided is an electronic component capable of reducing a possibility that insulating layers covering from outer edge portions of electrodes to surrounding portions, around the electrodes, of a substrate are separated from the electrodes and the substrate. An electronic component includes: a substrate; an electrode formed on a surface of the substrate; a protective portion covering at least a part of a peripheral portion of the electrode and a surrounding portion, around the electrode, of the surface of the substrate, across outer edge portions of the electrode, and extending in a circumferential direction along the outer edge portions of the electrode; and an extending portion extending, on the surface of the substrate, from the protective portion in an extending direction away from the electrode. A width of the extending portion perpendicular to the extending direction is longer than a width of the protective portion perpendicular to the circumferential direction.

The semiconductor device may include a substrate, a first insulating layer on a bottom surface of the substrate, an interconnection structure in the first insulating layer, a second insulating layer on a bottom surface of the first insulating layer, and a plurality of lower pads provided in the second insulating layer. Each lower pad may be provided such a width of a top surface thereof is smaller than a width of a bottom surface thereof. The lower pads may include first, second, and third lower pads. In a plan view, the first and third lower pads may be adjacent to center and edge portions of the substrate, respectively, and the second lower pad may be disposed therebetween. A width of a bottom surface of the second lower pad may be smaller than that of the first lower pad and may be larger than that of the third lower pad.

A semiconductor device includes a first substrate structure including a first substrate, gate electrodes stacked on the first substrate, and extended by different lengths to provide contact regions, cell contact plugs connected to the gate electrodes in the contact regions, and first bonding pads disposed on the cell contact plugs to be electrically connected to the cell contact plugs, respectively, and a second substrate structure, connected to the first substrate structure on the first substrate structure, and including a second substrate, circuit elements disposed on the second substrate, and a second bonding pad bonded to the first bonding pads, wherein, the contact regions include first regions having a first width and second regions, of which at least a portion overlaps the first bonding pads, and which have a second width greater than the first width, and the second width is greater than a width of the at least one first bonding pad.

A chip module with heat dissipation device includes device includes a chip unit, a heat dissipation body and a plurality of metal connecting elements. The heat dissipation body is disposed on the chip unit. The plurality of metal connecting elements formed by ultrasonic bonding are disposed between the chip unit and the heat dissipation body to connect the chip unit to the heat dissipation body.

Disclosed herein is a semiconductor IC-embedded substrate that includes insulating layers, conductor layers, and a semiconductor IC embedded in the insulating layers. The insulating layers includes first and second insulating layers. The conductor layers includes a first conductor layer having a first wiring pattern and a second conductor layer having a second wiring pattern. The semiconductor IC includes a rewiring pattern connected in common to power supply pads. The rewiring pattern is connected to the first wiring pattern via a first opening of the first insulating layer. The first wiring pattern is connected to the second wiring pattern via second openings of the second insulating layer. The first opening is greater in area than each of the second openings.

A semiconductor chip includes a chip body including a signal input/output circuit unit, a chip pad unit disposed on one surface of the chip body and including first and second chip pads having different surface areas from each other, and a chip pad selection circuit unit disposed in the chip body and electrically connected to the signal input/output circuit unit and the chip pad unit. The chip pad selection circuit unit is configured to select one chip pad of the first and second chip pads and electrically connect the selected one chip pad to the signal input/output circuit unit.

A chip includes a semiconductor substrate, integrated circuits with at least portions in the semiconductor substrate, and a surface dielectric layer over the integrated circuits. A plurality of metal pads is distributed substantially uniformly throughout substantially an entirety of a surface of the chip. The plurality of metal pads has top surfaces level with a top surface of the surface dielectric layer. The plurality of metal pads includes active metal pads and dummy metal pads. The active metal pads are electrically coupled to the integrated circuits. The dummy metal pads are electrically decoupled from the integrated circuits.

A semiconductor device includes a first substrate structure including a first substrate, gate electrodes stacked on the first substrate, and extended by different lengths to provide contact regions, cell contact plugs connected to the gate electrodes in the contact regions, and first bonding pads disposed on the cell contact plugs to be electrically connected to the cell contact plugs, respectively, and a second substrate structure, connected to the first substrate structure on the first substrate structure, and including a second substrate, circuit elements disposed on the second substrate, and a second bonding pad bonded to the first bonding pads, wherein, the contact regions include first regions having a first width and second regions, of which at least a portion overlaps the first bonding pads, and which have a second width greater than the first width, and the second width is greater than a width of the at least one first bonding pad.