An apparatus and method for providing an artificial standoff to the bottom of leads on a QFN device sufficient to provide a gap that changes the fluid dynamics of solder flow and create a unique capillary effect that drives solder up the of leads of a QFN device when it is attached to a printed wiring board (PWB).

A system and method of using electrochemical additive manufacturing to add interconnection features, such as wafer bumps or pillars, or similar structures like heatsinks, to a plate such as a silicon wafer. The plate may be coupled to a cathode, and material for the features may be deposited onto the plate by transmitting current from an anode array through an electrolyte to the cathode. Position actuators and sensors may control the position and orientation of the plate and the anode array to place features in precise positions. Use of electrochemical additive manufacturing may enable construction of features that cannot be created using current photoresist-based methods. For example, pillars may be taller and more closely spaced, with heights of 200 μm or more, diameters of 10 μm or below, and inter-pillar spacing below 20 μm. Features may also extend horizontally instead of only vertically, enabling routing of interconnections to desired locations.

A lead frame includes a die pad, a plurality of leads, a frame member, and at least one wire. The frame member includes two first connection bars and two second connection bars. The plurality of leads include a plurality of specific leads. Each of the specific leads is connected to the first connection bar. At least one of the specific leads is connected to the second connection bar via the at least one wire.

An electronic device includes a semiconductor die, an enclosure, leads extending outwardly from the enclosure and electrically connected to the semiconductor die, and wherein the leads have a reduced cross-sectional area along a longitudinal length of the lead. The electronic device is designed to reduce the occurrence of crack formation between the leads and a printed circuit board.

An electronic package includes an electronic component including terminals, a plurality of leads, at least some of the leads being electrically coupled to the terminals within the electronic package, and a mold compound covering the electronic component and partially covering the leads. Each of the leads include an exposed bottom face coplanar with a bottom surface of the mold compound and an exposed end face coplanar with one of a plurality of side surfaces of the mold compound. For at least some of the leads, the exposed end face includes a narrow portion forming a concave recess, the narrow portion being between top and bottom edges of the exposed end face.

An apparatus and method for providing an artificial standoff to the bottom of leads on a QFN device sufficient to provide a gap that changes the fluid dynamics of solder flow and create a unique capillary effect that drives solder up the of leads of a UN device when it is attached to a printed wiring board (PWB).

A semiconductor device includes a semiconductor element, a lead frame, a conductive member, a resin composition and a sealing resin. The semiconductor element has an element front surface and an element back surface facing away in a first direction. The semiconductor element is mounted on the lead frame. The conductive member is bonded to the lead frame, electrically connecting the semiconductor element and the lead frame. The resin composition covers a bonded region where the conductive member and lead frame are bonded while exposing part of the element front surface. The sealing resin covers part of the leadframe, the semiconductor element, and the resin composition. The resin composition has a greater bonding strength with the lead frame than a bonding strength between the sealing resin and lead frame and a greater bonding strength with the conductive member than a bonding strength between the sealing resin and conductive member.

A radar based, fill-level sensor comprising at least one semiconductor element, including at least a semiconductor chip and a chip package, in which the at least one semiconductor chip is arranged, wherein the at least one semiconductor chip has at least one coupling element, which serves as a signal gate for electromagnetic waves, preferably in the millimeter wave region, characterized in that at least one first resonator structure is arranged on a surface portion of the chip package.

A package includes a leadframe having first surface and a second surface opposing the first surface, the leadframe forming a plurality of leads, a first semiconductor die mounted on the first surface of the leadframe and electrically connected to at least one of the plurality of leads, a second semiconductor die mounted on the second surface of the leadframe, wire bonds electrically connecting the second semiconductor die to the leadframe, and mold compound at least partially covering the first semiconductor die, the second semiconductor die and the wire bonds.

According to one embodiment, there is provided a cleaning agent. The cleaning agent includes an azole-based compound having a group including at least one selected from the group consisting of a glycidyl group, a hydrolyzable silyl group, and an amino group.