A semiconductor package may include a first substrate, semiconductor dies stacked on the first substrate in a direction perpendicular to a top surface of the first substrate to have a stepwise structure, a mold layer disposed on the first substrate to cover the semiconductor dies, a second substrate disposed on the mold layer, and vertical conductive lines electrically connecting the semiconductor dies to the second substrate. The first substrate may include a first region and a second region. The first region may have a first thermal expansion coefficient, and the second region may have a second thermal expansion coefficient. The first thermal expansion coefficient may be different from the second thermal expansion coefficient.

A package structure includes a leadframe, at least two dies, at least one spacer and a plastic package material. The leadframe includes a die pad. The dies are disposed on the die pad of the leadframe. The spacer is disposed between at least one of the dies and the die pad. The plastic package material is disposed on the leadframe, and covers the dies. A first minimum spacing distance is between one of a plurality of edges of the spacer and one of a plurality of edges of the die pad, a second minimum spacing distance is between one of a plurality of edges of the dies and one of the edges of the die pad, and the first minimum spacing distance is larger than the second minimum spacing distance.

An electronic package is provided, in which an electronic element is arranged on a carrier structure having a plurality of wire-bonding pads arranged on a surface of the carrier structure, and a plurality of bonding wires are connected to a plurality of electrode pads of the electronic element and the plurality of wire-bonding pads. Further, among any three adjacent ones of the plurality of wire-bonding pads, a long-distanced first wire-bonding pad, a middle-distanced second wire-bonding pad and a short-distanced third wire-bonding pad are defined according to their distances from the electronic element. Therefore, even if the bonding wires on the first to third wire-bonding pads are impacted by an adhesive where a wire sweep phenomenon occurred when the flowing adhesive of a packaging layer covers the electronic element and the bonding wires, the bonding wires still would not contact each other, thereby avoiding short circuit problems.

A semiconductor package includes a memory die stack having a clock signal shared by lower and upper bytes. Each of a plurality of memory dies constituting the memory die stack of the semiconductor package includes a first clock circuit configured to generate a read clock signal for a lower byte and an upper byte constituting a data width of the memory die, and a plurality of first die bond pads corresponding to the number of ranks of a memory system including the memory die, and each of the plurality of first die bond pads is set for each rank. The first clock circuit is connected to, among the plurality of first die bond pads, a die bond pad corresponding to a rank to which the memory die belongs.

Provided is a semiconductor package including a first redistribution structure, a second redistribution structure on the first redistribution structure, a first semiconductor device being between the first redistribution structure and the second redistribution structure, a first dummy chip being apart from the first semiconductor device in a lateral direction, a first connection wire being between the first semiconductor device and a first side surface of the first dummy chip, the first connection wire electrically connecting the first redistribution structure to the second redistribution structure, and a second connection wire being on a second side surface opposite to the first side surface of the first dummy chip, the second connection wire electrically connecting the first redistribution structure to the second redistribution structure.

Systems and apparatus are provided for a hybrid wire size diameter under one single die. For example, an apparatus can include a memory cell die, a plurality of signal pads under the memory cell die and a plurality of power pads under the memory cell die. Each bonding wire coupled to a respective one of the plurality of signal pads has a first wire size diameter and each bonding wire coupled to a respective one of the plurality of power pads has a second wire size diameter larger than the first wire size diameter.

A semiconductor package includes a package substrate having substrate pads disposed in a first direction on one surface, a semiconductor chip having chip pads disposed in the first direction, and bonding wires connecting the chip pads and the substrate pads. The bonding wires include first and second bonding wires alternately connected to the substrate pads respectively, in the first direction, the first bonding wires are connected to the substrate pads at a first angle less than a right angle with respect to a direction of the semiconductor chip, the second bonding wires are connected to the substrate pads at a second angle less than the first angle with respect to the direction of the semiconductor chip and a position at which the first bonding wires contact the substrate pads is closer to the semiconductor chip than a position at which the second bonding wires contact the substrate pads is to the semiconductor chip.

An electronic device includes: an insulating substrate including an obverse surface facing a thickness direction; a wiring portion formed on the substrate obverse surface and made of a conductive material; a lead frame arranged on the substrate obverse surface; a first and a second semiconductor elements electrically connected to the lead frame; and a first control unit electrically connected to the wiring portion to operate the first semiconductor element as a first upper arm and operate the second semiconductor element as a first lower arm. The lead frame includes a first pad portion to which the first semiconductor element is joined and a second pad portion to which the second semiconductor element is joined. The first and second pad portions are spaced apart from the wiring portion and arranged in a first direction with a first separation region sandwiched therebetween, where the first direction is orthogonal to the thickness direction. The first control unit is spaced apart from the lead frame as viewed in the thickness direction, while overlapping with the first separation region as viewed in a second direction orthogonal to the thickness direction and the first direction.

A resin enclosure includes: an inner wall portion from a wall surface defining the space to a side surface of the lead terminal close to the space; and a covering portion that covers at least a part of a top surface of a first portion of the lead terminal.

Provided is a technique for enhancing the accuracy of deterioration diagnosis in a semiconductor device. The semiconductor device relating to the technique disclosed in the present specification is provided with a case, a semiconductor chip inside the case, a metal wire bonded to an upper surface of the semiconductor chip, at least one test piece inside the case, and a pair of terminals provided outside the case and connected to the test piece. The test piece is separated from the metal wire inside the case.