Considering ease of electrical conduction tests and the like, electrodes provided mainly above an active region are desirably continuous on a single plane. A semiconductor device is provided, including: a semiconductor substrate; a first top surface electrode and a second top surface electrode that are provided above a top surface of the semiconductor substrate and contain a metal material; and a first connecting portion that electrically connects to the first top surface electrode and contains a semiconductor material, wherein the second top surface electrode has: a first region and a second region that are arranged being separated from each other with the first connecting portion as a boundary in a top view of the semiconductor substrate, and a second connecting portion that connects the first region and the second region above the first connecting portion.

An insulated gate turn-off (IGTO) device, formed as a die, has a layered structure including a P+ layer (e.g., a substrate), an N epi layer, a P-well, vertical insulated gates formed in the P-well, and N+ regions between at least some of the gates, so that vertical NPN and PNP transistors are formed. A source/emitter electrode is on top, and a drain/cathode electrode is on the bottom of the substrate. The device is formed of a matrix of cells. To turn the device on, a positive voltage is applied to the gates, referenced to the source/emitter electrode. Some of the cells are passive, having gates that are either not connected to the active gates or having gates that are shorted to their associated N+ regions, to customize the input capacitance and lower the saturation current. Other techniques are described to form the passive cells.

Bipolar transistors and MOS transistors are formed in a common process. A semiconductor layer is arranged on an insulating layer. On a side of the bipolar transistors: an insulating region including the insulating layer is formed; openings are etched through the insulating region to delimit insulating walls; the openings are filled with first epitaxial portions; and the first epitaxial portions and a first region extending under the first epitaxial portions and under the insulating walls are doped. On the side of the bipolar transistors and on a side of the MOS transistors: gate structures are formed; second epitaxial portions are made; and the second epitaxial portions covering the first epitaxial portions are doped.

Bipolar transistors and MOS transistors are formed in a common process. A semiconductor layer is arranged on an insulating layer. On a side of the bipolar transistors: an insulating region including the insulating layer is formed; openings are etched through the insulating region to delimit insulating walls; the openings are filled with first epitaxial portions; and the first epitaxial portions and a first region extending under the first epitaxial portions and under the insulating walls are doped. On the side of the bipolar transistors and on a side of the MOS transistors: gate structures are formed; second epitaxial portions are made; and the second epitaxial portions covering the first epitaxial portions are doped.