A semiconductor package comprises a lead frame, a chip, and a molding encapsulation. The lead frame comprises one or more die paddles, a first plurality of leads, and a second plurality of leads. A respective end surface of each lead of the first plurality of leads and the second plurality of leads is plated with a metal. A first respective window on a first side of each lead of the first plurality of leads and the second plurality of leads is not plated with the metal. A second respective window on a second side of each lead of the first plurality of leads and the second plurality of leads is not plated with the metal. A method for fabricating a semiconductor package comprises the steps of providing a lead frame array, mounting a chip, forming a molding encapsulation, and applying a cutting process or a punching process.

Semiconductor devices are arranged in a chain extending in a longitudinal direction have mutually facing end sides transverse the longitudinal direction and are coupled via tie bars located at the mutually facing end sides. The tie bars are provided with anchoring tips penetrating into an insulating package at mutually facing end sides of the devices. The tie bars can be deformed to extract the anchoring tips from the insulating package at the mutually facing end sides of the devices. Individual singulated devices are thus produced in response to the anchoring tips being extracted from the mutually facing end sides of the devices.

An electronic component includes a leadframe and a first semiconductor die. The leadframe includes a leadframe top side, a leadframe bottom side opposite the leadframe top side, and a top notch at the leadframe top side. The top notch includes a top notch base located between the leadframe top side and the leadframe bottom side, and defining a notch length of the top notch, and can also include a top notch first sidewall extended, along the notch length, from the leadframe top side to the top notch base. The first semiconductor die can include a die top side a die bottom side opposite the die top side and mounted onto the leadframe top side, and a die perimeter. The top notch can be located outside the die perimeter. Other examples and related methods are also disclosed herein.

The present disclosure is directed to a leadframe having a recess in a body of the leadframe to collect glue overflowing from the manufacturing process of coupling a semiconductor die to the leadframe. The recess extends beneath an edge of the semiconductor die so that any tendency of the glue to adhere to the semiconductor die is counteracted by a tendency of the glue to adhere to a wall of the recess and at least partially fill the volume of the recess. In addition, the recess for collecting adhesive may also form a mold lock on an edge of the leadframe, the mold lock providing a more durable connection between the leadframe and an encapsulant during physical and temperature stresses.

A semiconductor package includes a first die pad, a first semiconductor die mounted on the first die pad, an encapsulant body of electrically insulating material that encapsulates first die pad and the first semiconductor die, a plurality of package leads that each protrude out of a first outer face of the encapsulant body, a connection lug that protrudes out of a second outer face of the encapsulant body, the second outer face being opposite from the first outer face. The first semiconductor die includes first and second voltage blocking terminals. The connection lug is electrically connected to one of the first and second voltage blocking terminals of the first semiconductor die. A first one of the package leads is electrically connected to an opposite one of the first and second voltage blocking terminals of the first semiconductor die that the first connection lug is electrically connected to.

A method includes providing a first lead frame that includes a first die pad and a first row of leads, providing a connection lug, mounting a first semiconductor die on the first die pad, the first semiconductor die including first and second voltage blocking terminals, electrically connecting the connection lug to one of the first and second voltage blocking terminals, electrically connecting a first one of the leads from the first row to an opposite one of the first and second voltage blocking terminals, and forming an encapsulant body of electrically insulating material that encapsulates first die pad and the first semiconductor die. After forming the encapsulant body, the first row of leads each protrude out of a first outer face of the encapsulant body and the connection lug protrudes out of a second outer face of the encapsulant body.

A semiconductor package includes a leadframe including a diepad and a first row of leads, wherein at least one lead of the first row of leads is physically separated from the diepad by a gap. The semiconductor package further includes a semiconductor component arranged on the leadframe. The semiconductor package further includes an encapsulation material encapsulating the leadframe and the semiconductor component, wherein the encapsulation material includes a bottom surface arranged at a bottom surface of the semiconductor package, a top surface and a side surface extending from the bottom surface to the top surface. A side surface of at least one lead of the first row of leads is flush with the side surface of the encapsulation material. The flush side surface of the at least one lead is covered by an electroplated metal coating.

A lead frame includes: leads; and a dambar arranged between the leads and connecting the leads to each other, wherein each of the leads includes: a lower lead groove formed in a first surface for a wettable flank structure; and an upper lead groove formed in a second surface opposite the first surface and aligned with the lower lead groove in a thickness direction, wherein in a sawing process, a portion of the lead between the lower lead groove and the upper lead groove is at least partially removed.

According to one embodiment, a semiconductor device includes a lead frame, a semiconductor chip, and a clip member. The semiconductor chip is mounted on the lead frame. The clip member is connected to an electrode of the semiconductor chip via a conductive adhesive agent. At least part of an outer peripheral edge of a connection face of the clip member is located at a position more inside than an outermost peripheral edge of the clip member in plan view.

A method of forming a packaged semiconductor device according to some embodiments includes providing a leadframe blank including a first package blank, a second package blank and a tie bar between the first package blank and the second package blank, forming a recessed cavity in the tie bar, and separating the first and second package blanks by sawing through the leadframe blank along the tie bar.