A packaged electronic device includes a package structure that encloses first and second semiconductor dies, a die attach pad with a first side attached to one of the dies, and a second side exposed along a side of the package structure, and a substrate that includes a first metal layer exposed along another side of the package structure, a second metal layer soldered to contacts of the dies, and an isolator layer that extends between and separates the first and second metal layers.

A semiconductor device package includes a substrate, a silicon (Si) or silicon carbide (SiC) semiconductor die, and a metal layer on a surface of the semiconductor die. The metal layer includes a bonding surface that is attached to a surface of the substrate by a die attach material. The bonding surface includes opposing edges that extend along a perimeter of the semiconductor die, and one or more non-orthogonal corners that are configured to reduce stress at an interface between the bonding surface and the die attach material. Related devices and fabrication methods are also discussed.

Multi-chip modules may include stacked semiconductor devices having spacers therebetween. Discrete conductive elements may extend over the active surface of an underlying semiconductor device from respective bond pads of the underlying semiconductor device, through a space formed by the spacers, to respective contact areas on a substrate. Each discrete conductive element extending through two side openings opposite one another may extend from a respective centrally located bond pad proximate to a central portion of the active surface of the underlying semiconductor device. Each discrete conductive element extending through another, perpendicular opening may extend from a respective peripheral bond pad located proximate to a peripheral portion of the active surface of the underlying semiconductor device.

A packaged electronic device includes a package structure that encloses first and second semiconductor dies, a die attach pad with a first side attached to one of the dies, and a second side exposed along a side of the package structure, and a substrate that includes a first metal layer exposed along another side of the package structure, a second metal layer soldered to contacts of the dies, and an isolator layer that extends between and separates the first and second metal layers.

An electronic device includes a wiring board and a semiconductor device on the wiring board's main surface. The semiconductor device includes a semiconductor chip on a die pad sealed by a sealing body. A back surface of the die pad is directed to a main surface of the sealing body. A back surface of the sealing body faces the main surface of the wiring board. First and second electrodes are formed on the wiring board and in the sealing body, respectively. The second electrode is disposed in the back surface of the sealing body, and is bonded to a metal plate connecting a lead and a pad. A distance between the first and second electrodes is shorter than that between the metal plate and the first electrode. The first and second electrodes overlap each other in a plan view. A capacitor is composed of the first and second electrodes.

A semiconductor chip includes a redistribution layer having an improved reliability. The semiconductor chip includes a device layer on a semiconductor substrate, a wiring structure on the device layer, a cover insulating layer on the wiring structure, and a redistribution layer. The device layer includes a semiconductor device. The wiring structure includes an internal connection pad electrically connected to the semiconductor device. The cover insulating layer includes a first recess filled with a connection via connected to the internal connection pad and a second recess having a depth that is less than that of the first recess. The redistribution layer in connected to the connection via and extends along an upper surface of the cover insulating layer.

A method for forming a semiconductor package is disclosed herein. The method includes forming a package substrate having a first major surface and a second major surface opposite to the first major surface. The package substrate includes a recess region below the first major surface defined with a die region and a non-die region surrounding the die region. A semiconductor die is disposed in the die region within the recess region. A dam structure is disposed within the recess region. The dam structure surrounds the semiconductor die and extends upwardly to a height below the first major surface of the package substrate. The method also includes dispensing a liquid encapsulant material into the recess region. The liquid encapsulant material is surrounded by the dam structure and extends upwardly to a height below the height of the dam structure. A package lid is attached to the package substrate.

Memory devices, memory systems, and systems, include memory devices with a bonding pad region for coupling command-and-address (CA) input signals and a memory cell region for storing information in memory cells. A centralized CA interface region includes input circuits coupled to the CA input signals. At least two of the input circuits are configured in pairs. Each pair includes a first input circuit coupled to a first input and configured to generate a first output and a second input circuit coupled to a second input and configured to generate a second output. Each pair also includes a swap circuit disposed between the first input circuit and the second input circuit. The swap circuit selects one of the first output or the second output for a first internal signal and selects the other of the first output and the second output for a second internal signal responsive to a control signal.

A semiconductor device of embodiments includes a first normally-off transistor having a first electrode, a second electrode, and a first control electrode, a normally-on transistor having a third electrode electrically connected to the second electrode via a first wiring, a fourth electrode, and a second control electrode, a second normally-off transistor having a fifth electrode, a sixth electrode electrically connected to the third electrode via a second wiring, and a third control electrode, a first diode having a first anode electrically connected to the second control electrode and a first cathode electrically connected to the third electrode, and a capacitor having a first end portion connected to the first anode and the second control electrode and a second end portion.

An improved method for forming a semiconductor package is disclosed herein. The method includes forming a multi-layer package substrate having a first major surface and a second major surface opposite to the first major surface. The package substrate comprises a recess region. A semiconductor die is attached to the die region within the recess region. A dam structure is formed within the recess region. The dam structure surrounds the semiconductor die and extends upward to a height below the first major surface of the package substrate. A liquid encapsulant material is dispensed into the recess region. The liquid encapsulant material is surrounded by the dam structure. The liquid encapsulant extends upwardly to a height below the height of the dam structure. A package lid is attached to the package substrate.