A package encloses a power semiconductor die and has a package body with a package top side, package footprint side and package sidewalls. The die has first and second load terminals for blocking a blocking voltage. A lead frame structure electrically and mechanically couples the package to a support and includes an outside terminal extending out of the package footprint side and/or the sidewalls, and is electrically connected with the first load terminal. A top layer arranged at the package top side is electrically connected with the second load terminal. A creepage length between the electrical potential of the outside terminal and the electrical potential of the top layer is defined by a package body surface contour. The surface contour is formed at least by the package top side and package sidewall. At least one structural feature also forms the surface contour is configured to increase the creepage length.

Semiconductor structures and fabrication methods thereof are provided. An exemplary semiconductor structure includes a semiconductor substrate having a device region and a protective region around the device region; a seal ring structure on the semiconductor substrate in the protective region; an electrical interconnect structure on the semiconductor substrate in the device region; an interlayer dielectric layer entirely covering the protective region on the seal ring structure and the electrical interconnect structure; a solder pad electrically connected with the electrical interconnect structure passing through a portion of the interlayer dielectric layer in the device region; a passivation layer on the interlayer dielectric layer and exposing the solder pad; and a conducive wire connected to the solder pad and across over a portion of the passivation layer in the protective region.

Semiconductor structures and fabrication methods thereof are provided. An exemplary semiconductor structure includes a semiconductor substrate having a device region and a protective region around the device region; a seal ring structure on the semiconductor substrate in the protective region; an electrical interconnect structure on the semiconductor substrate in the device region; an interlayer dielectric layer entirely covering the protective region on the seal ring structure and the electrical interconnect structure; a solder pad electrically connected with the electrical interconnect structure passing through a portion of the interlayer dielectric layer in the device region; a passivation layer on the interlayer dielectric layer and exposing the solder pad; and a conducive wire connected to the solder pad and across over a portion of the passivation layer in the protective region.

A semiconductor package of a package on package type includes a lower package including a printed circuit board (PCB) substrate including a plurality of base layers and a cavity penetrating the plurality of base layers, a first semiconductor chip in the cavity. a redistribution structure on a first surface of the PCB substrate and on an active surface of the first semiconductor chip, a first cover layer covering the redistribution structure, and the second cover layer covering a second surface of the PCB substrate and an inactive surface of the first semiconductor chip, and an upper package on the second cover layer of the lower package and including a second semiconductor chip.

A semiconductor package of a package on package type includes a lower package including a printed circuit board (PCB) substrate including a plurality of base layers and a cavity penetrating the plurality of base layers, a first semiconductor chip in the cavity. a redistribution structure on a first surface of the PCB substrate and on an active surface of the first semiconductor chip, a first cover layer covering the redistribution structure, and the second cover layer covering a second surface of the PCB substrate and an inactive surface of the first semiconductor chip, and an upper package on the second cover layer of the lower package and including a second semiconductor chip.

An electronic component mounting package includes a body portion which accommodates an electronic component; a flexible substrate. The body portion comprises a notched portion which is open to a lower surface and a side surface thereof, and is provided with a projecting ridge portion which extends along a side end portion of the notched portion on a side surface side of the notched body portion. The flexible substrate extends from an interior of the notched portion to an exterior of the notched portion, and comprises a fixed end portion joined to a terminal of a coaxial connector disposed on a bottom surface of the notched portion, and a free end portion extending to the exterior of the notched portion. The flexible substrate abuts on the projecting ridge portion to be bent.

According to the present invention, a semiconductor device includes a substrate having a metallic pattern formed on a top surface of the substrate, a semiconductor chip provided on the metallic pattern, a back surface electrode terminal in flat plate form connected to the metallic pattern with a wire, a front surface electrode terminal in flat plate form, the front surface electrode terminal being in parallel to the back surface electrode terminal above the back surface electrode terminal, extending immediately above the semiconductor chip, and being directly joined to a top surface of the semiconductor chip, a case surrounding the substrate and a seal material for sealing an inside of the case.

According to the present invention, a semiconductor device includes a substrate having a metallic pattern formed on a top surface of the substrate, a semiconductor chip provided on the metallic pattern, a back surface electrode terminal in flat plate form connected to the metallic pattern with a wire, a front surface electrode terminal in flat plate form, the front surface electrode terminal being in parallel to the back surface electrode terminal above the back surface electrode terminal, extending immediately above the semiconductor chip, and being directly joined to a top surface of the semiconductor chip, a case surrounding the substrate and a seal material for sealing an inside of the case.

An electronic component mounting package includes a body portion which accommodates an electronic component; a flexible substrate. The body portion comprises a notched portion which is open to a lower surface and a side surface thereof, and is provided with a projecting ridge portion which extends along a side end portion of the notched portion on a side surface side of the notched body portion. The flexible substrate extends from an interior of the notched portion to an exterior of the notched portion, and comprises a fixed end portion joined to a terminal of a coaxial connector disposed on a bottom surface of the notched portion, and a free end portion extending to the exterior of the notched portion. The flexible substrate abuts on the projecting ridge portion to be bent.

A die device includes a die including an active layer; and an interconnect feature configured for electrical connection of the active layer, wherein the interconnect feature is in contact with a substrate in the die; and a bump, independent of the die, configured for electrical connection of the active layer.