Abstract: A semiconductor chip stack module that includes a substrate, two first semiconductor chips supported by the substrate, and a second semiconductor chip stacked on both of the two first semiconductor chips. The second semiconductor chip is electrically connected to both of the two first semiconductor chips by a conductive paste configured between the second semiconductor chip and both of the two first semiconductor chips. As multiple standard chips are stacked in the power module, and their number as well as the connection methods (e.g. series or parallel) are flexible so that the user can choose which electric characteristic(s) to be increased in the power module with the stacked chips.
Abstract: A silicon carbide MOSFET device that includes a silicon carbide substrate of a first dopant type; a first silicon carbide layer of the first dopant type on top of the silicon carbide substrate; a second silicon carbide layer of a second dopant type embedded in a top portion of the first silicon carbide layer; a third silicon carbide layer of the first dopant type embedded in a top portion of the second silicon carbide layer; a gate oxide layer overlapped to the first silicon carbide layer, the second silicon carbide layer and the third silicon carbide layer; and a fourth silicon carbide layer at least partially overlapping with the second silicon carbide layer along a direction normal to the silicon carbide substrate. The first silicon carbide layer has lower doping than the silicon carbide substrate and defines a drift region. The third silicon carbide layer has higher doping than the first silicon carbide layer.