An isolator device includes a laminate die having a dielectric laminate material with a metal laminate layer on one side of the dielectric laminate material, the metal laminate layer being a patterned layer providing at least a first plate, including a dielectric layer over the first plate that includes an aperture exposing a portion of the first plate. An integrated circuit (IC) including a substrate having a semiconductor surface includes circuitry including a transmitter and/or a receiver, the IC including a top metal layer providing at least a second plate coupled to a node in the circuitry, with at least one passivation layer on the top metal layer. A non-conductive die attach (NCDA) material for attaching a side of the dielectric laminate material is opposite the metal laminate layer to the IC so that the first plate is at least partially over the second plate to provide a capacitor.

In some examples, a semiconductor package comprises a semiconductor die including a device side having a circuit; a mold compound covering the semiconductor die and the circuit; a first lead coupled to the circuit, the first lead having a gullwing shape and emerging from the mold compound in a first horizontal plane, the first lead having a distal end coincident with a second horizontal plane lower than a bottom surface of the mold compound; and a second lead coupled to the circuit, the second lead emerging from the mold compound in the first horizontal plane, the second lead having a distal end coincident with a third horizontal plane higher than a topmost surface of the mold compound, the distal end of the second lead vertically coincident with the mold compound.

A leadframe for electronic systems comprising a first sub-leadframe connected by links to a second sub-leadframe, the first and second sub-leadframe connected by tiebars to a frame; and each link having a neck suitable for bending the link, the necks arrayed in a line operable as the axis for bending the second sub-leadframe towards the first sub-leadframe with the necks operable as rotation pivots.

A power flat no-lead (FN) package is provided. The power FN package includes a die paddle; a die, disposed on the die paddle, operating at a radio frequency; a first lead, disposed by a first side of the die paddle, configured to receive an input signal of the power FN package; and a capacitor, disposed on the first lead; wherein a lead width of the first lead is greater than a half of a first side length of the first side.

A lead frame for a hermetic RF chip package includes: a first capacitor unit formed of a conductive material in a rectangular shape having a width smaller than a length to receive an input of an RF signal applied to the package circuit; a first inductor unit connected to the first capacitor unit and formed of a conductive material in a rectangular shape having a width greater than a length; a second capacitor unit connected to the first inductor unit and formed of a conductive material in a rectangular shape having a width smaller than a length; and a second inductor unit connected to the second capacitor unit and formed of a conductive material in a rectangular shape having a width greater than a length to transfer an RF signal input through the first capacitor unit to the RF chip.

Methods, apparatuses and systems provide for technology that includes a transistor assembly for a power electronics apparatus having a plurality of transistor pairs arranged in a common plane, where for each pair of transistors one transistor is flipped relative to the other transistor. The technology further includes a first lead frame arranged parallel to and electrically coupled to the first transistor in each transistor pair, a second lead frame coplanar to the first lead frame and arranged parallel to and electrically coupled to the second transistor in each transistor pair, and a plurality of output lead frames arranged coplanar to each other, where each respective output lead frame is arranged parallel to and electrically coupled to a respective one pair of the plurality of transistor pairs.

An IC includes a substrate including circuitry configured to provide a receiver or a transmitter circuit. A metal stack is over the semiconductor surface including a top metal layer and a plurality of lower metal layers. An isolation capacitor includes the top metal layer as a top plate that is electrically connected to a first node; and a top dielectric layer on the top plate with a top plate dielectric aperture. One of the plurality of lower metal layers provides a bottom plate that includes a plurality of spaced apart segments. A capacitor dielectric layer is between the top and bottom plate. The segments include a first segment electrically connected to a second node and at least a second segment electrically connected to a third node, with separation regions located between adjacent spaced apart segments. The top plate covers at least a portion of each of the separation regions.

A semiconductor package includes a lead frame, a semiconductor chip, a plurality of three-dimensional wrings, and a mold resin. The semiconductor chip is mounted on the lead frame. The mold resin covers a part of the lead frame, the semiconductor chip, and a part of each of the plurality of three-dimensional wirings.

A semiconductor module includes a semiconductor device and bus bar. The device includes an insulating substrate, conductive member, switching elements, and first/second input terminals. The substrate has main/back surfaces opposite in a thickness direction, with the conductive member disposed on the main surface. The switching elements are connected to the conductive member. The first input terminal, including a first terminal portion, is connected to the conductive member. The second input terminal, including a second terminal portion overlapping with the first terminal portion in the thickness direction, is connected to the switching elements. The second input terminal is separate from the first input terminal and conductive member in the thickness direction. The bus bar includes first/second terminals. The second terminal, separate from the first terminal in the thickness direction, partially overlaps with the first terminal in the thickness direction. The first/second terminals are connected to the first/second terminal portions, respectively.

A semiconductor structure includes a first substrate. A first die and a second die are disposed over the first substrate and are adjacent to one another. A plurality of first conductive bumps are disposed between the first substrate and the first die and between the first substrate and the second die. A second substrate is disposed below the first substrate. A plurality of second conductive bumps is disposed between the first substrate and the second substrate. An in-package voltage regulator (PVR) chip is disposed over the second substrate. A molding material is disposed over the first substrate and surrounds the first die, the second die, the plurality of first conductive bumps, the plurality of second conductive bumps, and the PVR chip.