Disclosed are semiconductor devices that include additional gate pads, and methods of fabricating and testing such devices. A device may include a first gate pad, a second gate pad, and a third gate pad. The first gate pad is connected to a gate including a gate oxide layer. The second and third gate pads are part of an electro-static discharge (ESD) protection network for the device. The ESD protection network is initially isolated from the first gate pad and hence from the gate and gate oxide layer. Accordingly, gate oxide integrity (GOI) testing can be effectively performed and the reliability and quality of the gate oxide layer can be checked. The second gate pad can be subsequently connected to the first gate pad to enable the ESD protection network, and the third gate pad can be subsequently connected to an external terminal when the device is packaged.

Disclosed are a semiconductor device and a stacked semiconductor package. The semiconductor device may include a semiconductor chip and a plurality of chip pads disposed on the semiconductor chip in a second horizontal direction perpendicular to a first horizontal direction. The plurality of chip pads may include: a first chip pad connected to a wire extending in the first horizontal direction, when seen from the top; and a second chip pad connected to a diagonal wire extending in a direction at an angle to the first and second horizontal directions, when seen from the top. The width of the first chip pad in the second horizontal direction may be smaller than the width of the second chip pad in the second horizontal direction.

An example multi-branch terminal for an integrated circuit (IC) package is described herein. An example multi-branch terminal of an integrated circuit (IC), may include a first branch that may include an active bonding with a chip of the IC, wherein the active bonding may include a wire bonded to the chip of the IC; and a second branch that may include a passive bonding with the chip of the IC, wherein the passive bonding may include a capacitor bonded to the second branch and a first terminal of the IC.

A semiconductor device includes: a first semiconductor element including a first signal electrode; a second semiconductor element, laminated on the first semiconductor element, including a second signal electrode; a sealing body; a first signal terminal connected to the first signal electrode; and a second signal terminal connected to the second signal electrode, wherein: the first signal terminal and the second signal terminal project from the sealing body and extend in a first direction; the first signal terminal and the second signal terminal are distanced from each other in a second direction; the first signal electrode and the second signal electrode are placed at different positions in the second direction; the first signal electrode is provided closer to the first signal terminal than to the second signal terminal; and the second signal electrode is provided closer to the second signal terminal than to the first signal terminal.

Semiconductor packages with pass-through clock traces and associated devices, systems, and methods are disclosed herein. In one embodiment, a semiconductor device includes a package substrate including a first surface having a plurality of substrate contacts, a first semiconductor die having a lower surface attached to the first surface of the package substrate, and a second semiconductor die stacked on top of the first semiconductor die. The first semiconductor die includes an upper surface including a first conductive contact, and the second semiconductor die includes a second conductive contact. A first electrical connector electrically couples a first one of the plurality of substrate contacts to the first and second conductive contacts, and a second electrical connector electrically couples a second one of the plurality of substrate contacts to the first and second conductive contacts.

An integrated circuit device includes multiple circuit tiles disposed in a tiled arrangement in a circuit block between a first boundary and a second boundary. Each circuit tile is an instance of a circuit cell having a first edge and a second edge. The circuit cell has a scan channel circuit that includes a configurable scan channel switch and scan channels extending between the first edge and the second edge of the circuit cell through the configurable scan channel switch. Respective scan channels in the multiple circuit tiles are joined together and extend between the first boundary and the second boundary of the block of tiled arrangement. Each circuit tile can be configured to receive scan-in test data through a scan channel from either the first boundary or the second boundary, and to output scan-out result data of the circuit tile through a scan channel to either the first boundary or the second boundary.

In one embodiment, a magneto-resistive chip package includes a circuit board; a shielding body including a shielding base part positioned on the circuit board and a shielding intermediate part extending from one side of the shielding base part; a magneto-resistive chip positioned on the shielding base part and including a magneto-resistive cell array; an internal connection part electrically connecting the magneto-resistive chip to the circuit board; an encapsulation part encapsulating the magneto-resistive chip on the circuit board, and having an upper surface that is higher than an upper surface of the magneto-resistive chip; and a shielding cover positioned on the shielding intermediate part, and on the encapsulation part.

Semiconductor packages with pass-through clock traces and associated devices, systems, and methods are disclosed herein. In one embodiment, a semiconductor device includes a package substrate including a first surface having a plurality of substrate contacts, a first semiconductor die having a lower surface attached to the first surface of the package substrate, and a second semiconductor die stacked on top of the first semiconductor die. The first semiconductor die includes an upper surface including a first conductive contact, and the second semiconductor die includes a second conductive contact. A first electrical connector electrically couples a first one of the plurality of substrate contacts to the first and second conductive contacts, and a second electrical connector electrically couples a second one of the plurality of substrate contacts to the first and second conductive contacts.

Semiconductor packages with pass-through clock traces and associated devices, systems, and methods are disclosed herein. In one embodiment, a semiconductor device includes a package substrate including a first surface having a plurality of substrate contacts, a first semiconductor die having a lower surface attached to the first surface of the package substrate, and a second semiconductor die stacked on top of the first semiconductor die. The first semiconductor die includes an upper surface including a first conductive contact, and the second semiconductor die includes a second conductive contact. A first electrical connector electrically couples a first one of the plurality of substrate contacts to the first and second conductive contacts, and a second electrical connector electrically couples a second one of the plurality of substrate contacts to the first and second conductive contacts.

A semiconductor device includes at least one transistor, a plurality of input wires, and a plurality of output wires. The at least one transistor has a plurality of input pads arranged along one side of the at least one transistor and a plurality of output pads arranged along another side of the at least one transistor facing the one side. The plurality of input wires are respectively connected to the plurality of input pads. The plurality of output wires are respectively connected to the plurality of output pads and have longer wire lengths than the plurality of input wires. Adjacent input wires of the plurality of input wires are arranged parallel to each other, and adjacent output wires of the plurality of output wires are arranged non-parallel to each other.