Implementations of a substrate may include a first side coupled with a first plurality of leads, the first side including a first set of spaced apart through holes therein; and a second side coupled with a second plurality of leads, the second side including a second set of spaced apart through holes therein. The first side may oppose the second side where a portion of a first set of edges of the first set of spaced apart through holes form a first set of wettable flanks for the first plurality of leads; and a portion of a second set of edges of the second set of spaced apart through holes form a second set of wettable flanks for the second plurality of leads.

A semiconductor package includes a lead frame, a low side field-effect transistor (FET), a high side FET, a metal clip, and a molding encapsulation. The low side FET is flipped and is attached to a first die paddle of the lead frame. The lead frame comprises one or more voltage input (Vin) leads; a gate lead; one or more switching node (Lx) leads; a first die paddle; a second die paddle; and an end paddle. Each of an exposed bottom surface of the one or more Lx leads is directly connected to an exposed bottom surface of the end paddle. A longitudinal direction of an exposed bottom surface of the gate lead is perpendicular to a longitudinal direction of each of the exposed bottom surface of the one or more Lx leads. An entirely of each of the one or more Vin leads is of the full thickness.

A method of forming a semiconductor device includes the following steps. A substrate is provided. A die is placed on the substrate, wherein an empty through hole penetrates through the die. A cavity is formed to penetrate through the substrate, to communicate with the empty through hole of the die. A liner is formed on surfaces of the empty through hole of the die and the cavity of the substrate.

A semiconductor device includes a laminate including a semiconductor element, an insulating substrate on a first surface of the semiconductor element, an interconnect on the insulating substrate, and an interconnect member on a second surface of the semiconductor element. The interconnect is electrically connected to a first electrode in the first surface of the semiconductor element through a through hole in the insulating substrate. The interconnect member is electrically connected to a second electrode in the second surface of the semiconductor element. The semiconductor device further includes first and second elastic terminals holding the laminate therebetween. The first terminal includes a bulge that engages with a depression in the interconnect. The second terminal contacts the interconnect member. The semiconductor device further includes a fixing member fixing the first terminal and the second terminal while electrically isolating the first terminal and the second terminal from each other.

A semiconductor device includes a semiconductor chip having a first chip surface and a second chip surface, and a connector member having a bonding portion that faces the first chip surface and a connection portion. The connection portion is connected to an end portion of the bonding portion on one side in a second direction, and located on the other side in a first direction toward one side in the second direction. The bonding portion has a first bonding surface bonded to the first chip surface. A first recessed portion that is recessed on one side in the first direction and is open to the other side in the second direction is provided in the first bonding surface. A dimension of the first recessed portion in the second direction is 40% or more and 60% or less of a dimension of the bonding portion in the second direction.

An electronic device which can suppress peeling off and damaging of the bonding material is provided. The electronic device includes an electronic component, a mounting portion, and a bonding material. The electronic component has an element front surface and an element back surface separated in the z-direction. The mounting portion has a mounting surface opposed to the element back surface on which the electronic component is mounted. The bonding material bonds the electronic component to the mounting portion. The bonding material includes a base portion and a fillet portion. The base portion is held between the electronic component and the mounting portion in the z-direction. The fillet portion is connected to the base portion and is formed outside the electronic component when seen in the z-direction. The electronic component includes two element lateral surface and ridges. The ridges are intersections of the two element lateral surface and extend in the z-direction. The fillet portion includes a ridge cover portion which covers at least a part of the ridges.

According to one embodiment, a semiconductor device includes a semiconductor element provided on a first surface of a lead frame; a package member provided on the lead frame and on the semiconductor element and having a first concave part; and a first terminal provided in the first concave part and extending in a first direction that is parallel to the first surface of the lead frame. The first concave part has a concave shape having a first length in the first direction, a second length in a second direction perpendicular to the first surface of the lead frame, and a third length in a third direction perpendicular to the first direction and the second direction. The third length is shorter than a length of the package member in the third direction.

A package structure is provided. The package structure includes a leadframe, an electronic component, an encapsulant, and a first reflowable material. The leadframe includes a first lead. The electronic component is disposed over and electrically connected to an upper surface of the leadframe. The encapsulant encapsulates the leadframe and defines a first opening exposing a first portion of a lower surface of the first lead. The first reflowable material is disposed in the first opening. The first opening is defined by curved surfaces of the encapsulant formed by etching the leadframe and has a cross-sectional profile tapering away from the first lead.

A package includes a semiconductor die disposed on a lead frame. A source contact pad is disposed on the semiconductor die. The package further includes a lead post shared by a plurality of leads that form external terminals of the package. The lead post has a clip-locking feature. A clip connects the source contact pad to the lead post. The clip has a key structure coupled to the clip-locking feature in the lead post.

A method for manufacturing a singulated semiconductor product from a package is provided, and includes the steps of a) providing the bottom frame with the clip matrix with a semiconductor component and placing them in a mold cavity, b) closing the mold, c) moving retractable pins through openings in the mold, so that the tips of the pins come into contact with the tie bars or the clip tie-bars of the clip matrix, d) performing the molding operation using the encapsulating material, e) retracting the pins away from the package, f) opening the mold, g) removing the package from the mold, and h) singulating the package into a separate product by sawing along and trimming the microleads. With the above steps at least one encapsulated and singulated semiconductor product is formed, that has notches formed on the sides thereof, that expose either tie bars or clip tie-bars.