A package includes a semiconductor die forming a power field effect transistor (FET), a control die, and a first leadframe. The control die is arranged on a first surface of the first leadframe, and the semiconductor die is arranged on an opposing second surface of the first leadframe. The package further includes a second leadframe including a first surface and a second surface opposing the first surface, wherein the semiconductor die is arranged on the first surface of the second leadframe to facilitate heat transfer therethrough. The package also includes mold compound at least partially covering the semiconductor die, the control die, the first leadframe and the second leadframe with the second surface of the second leadframe exposed.

A package structure is provided. The package structure includes a leadframe including a plurality of connection portions; a device including a substrate, an active layer disposed on the substrate and a plurality of electrodes disposed on the active layer, wherein the electrodes of the device are connected to the connection portions of the leadframe; a conductive unit having a first side and a second side, wherein the first side of the conductive unit connects to the substrate of the device and the conductive unit connects to at least one of the connection portions of the leadframe; and an encapsulation material covering the device and the leadframe, wherein the second side of the conductive unit is exposed from the encapsulation material.

A package structure of a power device includes a substrate having a first circuit, a first power device, a second power device, an insulation film having a second circuit, at least one electronic component, and a package. The first power device, the second power device, and the insulation film are disposed on the substrate. The first power device and the second power device are directly electrically connected to each other via the first circuit of the substrate. The electronic component is disposed on the insulation film. The package encapsulates the substrate, the first power device, the second power device, and the electronic component.

In an integrated circuit (IC), a semiconductor substrate has a first side and an opposite second side. The second side has a trench. Circuitry is on the first side. An inductive structure is within the trench. The inductive structure is connected to the circuitry through vias in the semiconductor substrate. The semiconductor substrate is mounted on a package substrate. At least a portion of the inductive structure contacts the package substrate. The circuitry is coupled to the inductive structure through wires to the package substrate.

Provided is an integrated electric power steering apparatus including a positive-side wiring pattern configured to connect a positive side of a power supply and a positive side of an inverter circuit and a negative-side wiring pattern configured to connect a negative side of the power supply and a negative side of the inverter circuit, in which one of the wiring patterns is formed on a central side of a wiring board and another of the wiring patterns is formed on an outer periphery side of the wiring board. A plurality of switching elements forming the inverter circuit are mounted between the positive-side wiring pattern and the negative-side wiring pattern formed on the wiring board.

A high voltage (HV) converter implemented on a printed circuit board (PCB) includes a double diffused metal oxide semiconductor (DMOS) package comprising a lead frame and a main DMOS chip. The lead frame includes a gate section electrically connected to a gate electrode of the main DMOS chip, a source section electrically connected to a source electrode of the main DMOS chip and a drain section electrically connected to a drain electrode of the main DMOS chip. The PCB layout includes a large area source copper pad attached to and overlapping the source section of the DMOS package to facilitate cooling and a small area drain copper pad attached to and overlapping the drain section of the DMOS package to reduce electromagnetic interference (EMI) noise.

A package structure includes a first conduction layer, a second conduction layer, and an isolation layer. The first conduction layer includes a plurality of first portions, and the second conduction layer includes a plurality of portions. The isolation layer is disposed between the first conduction layer and the second conduction layer, and the isolation layer is composed of one of nitride and oxide mixed with at least one of epoxy and polymer.

A packaged electronic device includes a multilayer substrate, including a first side, a first layer having a first plurality of conductive structures along the first side, and a second layer having a second plurality of conductive structures, a semiconductor die soldered to a first set of the conductive structures, a conductive clip directly connected to one of the conductive structures of the first layer and to a second side of the semiconductor die, and a package structure that encloses the semiconductor die and a portion of the conductive clip.

An integrated circuit (IC) includes a circuit substrate having a front side surface and an opposite back side surface. Active circuitry is located on the front side surface. An inductive structure is located within a deep trench formed in the circuit substrate below the backside surface. The inductive structure is coupled to the active circuitry.

A package structure of a power device includes a substrate having a first circuit, a first power device, a second power device, an insulation film having a second circuit, at least one electronic component, and a package. The first power device, the second power device, and the insulation film are disposed on the substrate. The first power device and the second power device are directly electrically connected to each other via the first circuit of the substrate. The electronic component is disposed on the insulation film. The package encapsulates the substrate, the first power device, the second power device, and the electronic component.