DBC type structure, comprising an insulating support (22) coated with at least one conductive zone (20a) able to receive an electronic device, the conductive zone (20a) being in contact with the support (22), the insulating support incorporating means for thermal smoothing of the heat peak released by the component, these means comprising a cavity filled with a phase change material.

An electronics package includes an insulating substrate, a first electrical component coupled to a first surface of the insulating substrate, and a first conductor layer formed on the first surface of the insulating substrate. A second conductor layer is formed on a second surface of the insulating substrate, opposite the first surface, the second conductor layer extending through vias in the insulating substrate to contact at least one contact pad of the first electrical component and couple with the first conductor layer. The electronics package also includes a second electrical component having at least one contact pad coupled to the first conductor layer. The first conductor layer has a thickness greater than a thickness of the second conductor layer.

There is provided a semiconductor device 1 which comprises: a housing comprising a first housing electrode 5 and a second housing electrode 4 which are arranged at opposite sides of the housing; a plurality of semiconductor units 30 arranged within the housing between the first and second housing electrodes 4, 5; a plurality of pressure means 40 for applying pressure to the plurality of semiconductor units 30, respectively, wherein the plurality of pressure means 40 are arranged between the plurality of semiconductor units 30 and the first housing electrode 5; a first conductive structure 14 arranged between the plurality of pressure means 40 and the plurality of semiconductor units 30, wherein the plurality of semiconductor units 30 are electrically connected in parallel between the second housing electrode 4 and the first conductive structure 14; and a second conductive structure 18 configured to provide a current flow path from the first conductive structure 14 to the first housing electrode 5, the second conductive structure comprising a first part 16 that is fixedly connected to the first conductive structure 14 and a second part 9 that is fixedly connected to the first housing electrode 5.

A power overlay (POL) structure includes a power device having at least one upper contact pad disposed on an upper surface of the power device, and a POL interconnect layer having a dielectric layer coupled to the upper surface of the power device and a metallization layer having metal interconnects extending through vias formed through the dielectric layer and electrically coupled to the at least one upper contact pad of the power device. The POL structure also includes at least one copper wirebond directly coupled to the metallization layer.

An electronics package includes an insulating substrate, a first electrical component coupled to a first surface of the insulating substrate, and a first conductor layer formed on the first surface of the insulating substrate. A second conductor layer is formed on a second surface of the insulating substrate, opposite the first surface, the second conductor layer extending through vias in the insulating substrate to contact at least one contact pad of the first electrical component and couple with the first conductor layer. The electronics package also includes a second electrical component having at least one contact pad coupled to the first conductor layer. The first conductor layer has a thickness greater than a thickness of the second conductor layer.

An electronics package includes an insulating substrate, a first electrical component coupled to a first surface of the insulating substrate, and a first conductor layer formed on the first surface of the insulating substrate. A second conductor layer is formed on a second surface of the insulating substrate, opposite the first surface, the second conductor layer extending through vias in the insulating substrate to contact at least one contact pad of the first electrical component and couple with the first conductor layer. The electronics package also includes a second electrical component having at least one contact pad coupled to the first conductor layer. The first conductor layer has a thickness greater than a thickness of the second conductor layer.

An electronics package includes an insulating substrate, a first electrical component coupled to a first surface of the insulating substrate, and a first conductor layer formed on the first surface of the insulating substrate. A second conductor layer is formed on a second surface of the insulating substrate, opposite the first surface, the second conductor layer extending through vias in the insulating substrate to contact at least one contact pad of the first electrical component and couple with the first conductor layer. The electronics package also includes a second electrical component having at least one contact pad coupled to the first conductor layer. The first conductor layer has a thickness greater than a thickness of the second conductor layer.

The present disclosure provides a power module with the integration of a control circuit at least, including: a power substrate; a power device mounted on the power substrate; and at least one control substrate which supports the control circuit, is electrically connected with the power substrate and disposed at an angle of inclination on a surface of the power substrate on which the power device is mounted; wherein the angle of inclination is greater than or equal to 45 degrees and smaller than or equal to 135 degrees. In the power module provided by the present disclosure, only the power substrate as well as the connections between the control substrate and the power substrate occupies the footprint area of the power module, and thus the horizontal footprint area of the power module is effectively reduced and thereby the power density of the power module is increased.

A power overlay (POL) structure includes a power device having at least one upper contact pad disposed on an upper surface of the power device, and a POL interconnect layer having a dielectric layer coupled to the upper surface of the power device and a metallization layer having metal interconnects extending through vias formed through the dielectric layer and electrically coupled to the at least one upper contact pad of the power device. The POL structure also includes at least one copper wirebond directly coupled to the metallization layer.

DBC type structure, comprising an insulating support (22) coated with at least one conductive zone (20a) able to receive an electronic device, the conductive zone (20a) being in contact with the support (22), the insulating support incorporating means for thermal smoothing of the heat peak released by the component, these means comprising a cavity filled with a phase change material (FIG. 1).