An integrated circuit architecture and circuitry is defined by a die structure with a plurality of exposed conductive pads arranged in a grid of rows and columns. The die structure has a first operating frequency region with a first transmit and receive chain, and a second operating frequency region with a second transmit chain and a second receive chain. There is a shared region of the die structure defined by an overlapping segment of the first operating frequency region and the second operating frequency region with a shared power supply input conductive pad connected to the first transmit chain, the second transmit chain, the first receive chain, and the second receive chain, and a shared power detection output conductive pad connected to the first transmit chain and the second transmit chain.

The present technology relates to an imaging device, an electronic apparatus, and a method of manufacturing an imaging device capable of thinning a semiconductor on a terminal extraction surface while maintaining a strength of a semiconductor chip. There is provided an imaging device including: a first substrate having a pixel region in which pixels are two-dimensionally arranged, the pixels performing photoelectric conversion of light; and a second substrate in which a through silicon via is formed, in which a dug portion is formed in a back surface of the second substrate opposite to an incident side of light of the second substrate, and a redistribution layer (RDL) connected to a back surface of the first substrate is formed in the dug portion. The present technology can be applied to, for example, a semiconductor package including a semiconductor chip.

A semiconductor device includes an insulating layer, conductors, a semiconductor element and a sealing resin. The insulating layer has first and second surfaces opposite to each other in the thickness direction. Each conductor has an embedded part whose portion is embedded in the insulating layer and a redistribution part disposed at the second surface and connected to the embedded part. The semiconductor element has electrodes provided near the first surface and connected the embedded parts of the conductors. The semiconductor element is in contact with the first surface. The sealing resin partially covers the semiconductor element and is in contact with the first surface. The redistribution parts include portions outside the semiconductor element as viewed in the thickness direction. The insulating layer has grooves recessed from the second surface in the thickness direction. The redistribution parts are in contact with the grooves.

A semiconductor device package includes a package substrate having a die attach region, a silicon carbide (SiC) substrate having a first surface including a semiconductor device layer thereon and a second surface that is opposite the first surface, and a die attach metal stack. The die attach metal stack includes a sputtered die attach material layer that attaches the second surface of the SiC substrate to the die attach region of the package substrate, where the sputtered die attach material layer comprises a void percent of about 15% or less. The sputtered die attach material layer may be formed using a sputter gas including at least one of krypton (Kr), xenon (Xe), or radon (Rn). The die attach metal stack may further include a metal interlayer that prevent contacts with a first barrier metal layer during a phase transition of the die attach material layer.

A semiconductor package device includes: (1) a die having an active surface, a back surface opposite to the active surface and a lateral surface extending between the active surface and the back surface; (2) a first conductive pillar disposed on the active surface of the die and electrically connected to the die, the first conductive pillar having a top surface facing away from the die and a lateral surface substantially perpendicular to the top surface of the first conductive pillar; (3) a dielectric layer disposed on the active surface of the die and fully covering the lateral surface of the first conductive pillar; and (4) a package body encapsulating the back surface and the lateral surface of the die.

A semiconductor structure includes a first substrate, a first redistribution line (RDL) pad, and a first bond pad. The first substrate has a first conductive pad. The RDL pad is disposed over the first conductive pad and extending to a top surface of the first substrate. The first bond pad is disposed on a first portion of the first RDL pad, in which the first portion of the first RDL pad overlaps with the top surface of the first substrate.

A photosensitive resin composition comprising the following component (a), component (b1), and component (b2). (a) a polyimide precursor having a structural unit represented by the following formula (1); (b1) one or more compounds selected from the group consisting of a compound represented by the following formula (11) and a compound represented by the following formula (12); (b2) one or more compounds selected from the group consisting of a compound represented by the following formula (21) and a compound represented by the following formula (22). ##STR00001##

A semiconductor device includes: a wiring layer; a titanium nitride layer deposited on the wiring layer; a titanium oxynitride layer deposited on the titanium nitride layer; a titanium oxide layer deposited on the titanium oxynitride layer; and a surface passivation film deposited on the titanium oxide layer, wherein an opening penetrating the titanium nitride layer, the titanium oxynitride layer, the titanium oxide layer, and the surface passivation film is provided to expose a part of the wiring layer so as to serve as a pad.

A semiconductor device includes: a wiring layer; a titanium nitride layer deposited on the wiring layer; a titanium oxynitride layer deposited on the titanium nitride layer; a titanium oxide layer deposited on the titanium oxynitride layer; and a surface passivation film deposited on the titanium oxide layer, wherein an opening penetrating the titanium nitride layer, the titanium oxynitride layer, the titanium oxide layer, and the surface passivation film is provided to expose a part of the wiring layer so as to serve as a pad.

A semiconductor package includes a first semiconductor chip comprising a semiconductor substrate and a redistribution pattern on a top surface of the semiconductor substrate, the redistribution pattern having a hole exposing an inner sidewall of the redistribution pattern, a second semiconductor chip on a top surface of the first semiconductor chip, and a bump structure disposed between the first semiconductor chip and the second semiconductor chip. The bump structure is disposed in the hole and is in contact with the inner sidewall of the redistribution pattern.