When a specification setting unit sets a specification of a lot number “k+1” after setting a specification of a lot number “k”, a mounting program selector performs a mounting program corresponding to the lot number “k”, and then selects a mounting program corresponding to the lot number “k+1” according to matching between a mounting number from the mounting program and a planned number of products of the lot number “k”. A printing program selector selects a printing program corresponding to the lot number “k”, and then selects a printing program corresponding to the lot number “k+1” according to matching between a sum of a printing number from the printing program and a defective product number and the planned number of products of the lot number “k”. Consequently, on-demand production of an electronic device can easily be manufactured on a manufacturing line.

Provided is a semiconductor device including a substrate, a passivation layer, and a connector. The passivation layer is disposed on the substrate. The connector is embedded in the passivation. An interface of the connector in contact with the passivation layer is uneven, thereby improving the structural stability of the connector. A method of manufacturing the semiconductor is also provided.

A method for forming semiconductor devices includes: attaching a glass structure to a wide band-gap semiconductor wafer having a plurality of semiconductor devices; forming at least one pad structure electrically connected to at least one doping region of a semiconductor substrate of the wide band-gap semiconductor wafer, by forming electrically conductive material within at least one opening extending through the glass structure; and reducing a thickness of the wide band-gap semiconductor wafer after attaching the glass structure. Additional methods for forming semiconductor devices are described.

A method for forming semiconductor devices includes attaching a glass structure to a wide band-gap semiconductor wafer having a plurality of semiconductor devices. The method further includes forming at least one pad structure electrically connected to at least one doping region of a semiconductor substrate of the wide band-gap semiconductor wafer, by forming electrically conductive material within at least one opening extending through the glass structure.

Provided is a semiconductor device including a substrate, a passivation layer, and a connector. The passivation layer is disposed on the substrate. The connector is embedded in the passivation. An interface of the connector in contact with the passivation layer is uneven, thereby improving the structural stability of the connector. A method of manufacturing the semiconductor is also provided.

Provided is a semiconductor device including a substrate, a passivation layer, and a connector. The passivation layer is disposed on the substrate. The connector is embedded in the passivation. An interface of the connector in contact with the passivation layer is uneven, thereby improving the structural stability of the connector. A method of manufacturing the semiconductor is also provided.

Provided is a semiconductor device including a substrate, a passivation layer, and a connector. The passivation layer is disposed on the substrate. The connector is embedded in the passivation. An interface of the connector in contact with the passivation layer is uneven, thereby improving the structural stability of the connector. A method of manufacturing the semiconductor is also provided.

When a specification setting unit sets a specification of a lot number “k+1” after setting a specification of a lot number “k”, a mounting program selector performs a mounting program corresponding to the lot number “k”, and then selects a mounting program corresponding to the lot number “k+1” according to matching between a mounting number from the mounting program and a planned number of products of the lot number “k”. A printing program selector selects a printing program corresponding to the lot number “k”, and then selects a printing program corresponding to the lot number “k+1” according to matching between a sum of a printing number from the printing program and a defective product number and the planned number of products of the lot number “k”. Consequently, on-demand production of an electronic device can easily be manufactured on a manufacturing line.

A semiconductor package includes a power semiconductor chip comprising SiC, a leadframe part comprising Cu, wherein the power semiconductor chip is arranged on the leadframe part, and a solder joint electrically and mechanically coupling the power semiconductor chip to the leadframe part, wherein the solder joint comprises at least one intermetallic phase.

A semiconductor package includes a power semiconductor chip comprising SiC, a leadframe part comprising Cu, wherein the power semiconductor chip is arranged on the leadframe part, and a solder joint electrically and mechanically coupling the power semiconductor chip to the leadframe part, wherein the solder joint comprises at least one intermetallic phase.