A power device includes a substrate including a drift layer and having a first region and a second region, the drift layer having impurities of a first type; a switch formed in the first region; a diode formed in the second region; a metal structure formed over a surface of the substrate, the metal structure having a first thickness over the first region of the substrate and a second thickness over the second region of the substrate, the first thickness and second thickness having at least 3 um in thickness difference; and a zone provided in the drift layer in the second region of the substrate, the zone having impurities of a second type that is different from the first type.

A semiconductor device includes a semiconductor part, first and second electrodes. The semiconductor part is provided between the first and second electrodes. A method of manufacturing the device includes forming the first electrode covering a back surface of a wafer after the second electrode is formed on a front surface of the wafer; forming a first groove by selectively removing the first electrode; and dividing the wafer by forming a second groove at the front surface side. The wafer includes a region to be the semiconductor part; and the first and second grooves are provided along a periphery of the region. The first groove is in communication with the first groove. The second groove has a width in a direction along the front surface of the wafer, the width of the first groove being narrower than a width of the first groove in the same direction.

A semiconductor device includes a semiconductor layer on a first electrode. The semiconductor layer includes a first region of a first type, a second region of a second type, a third region of the second type, and a fourth region of the first type. The second region is above the first region. The third region surrounds the second region. The fourth region surrounds the third region. The second electrode includes a first portion above the second region and a second portion surrounding the first portion. The third electrode surrounds the second electrode and is electrically connected to the fourth region. The semi-insulating layer is electrically connected to the second electrode and the third electrode. A first end portion of the first insulating layer is above the third region.

An electronic device includes a first-conductivity-type substrate and a second-conductivity-type epitaxial layer having a first dopant concentration. A first substrate region includes a second-conductivity-type buried layer and is enclosed by a first deep isolation structure. Within the first substrate region are a first doped region having the second conductivity type and a dopant concentration greater than the first dopant concentration and a second doped region having the first conductivity type. A second substrate region includes a first-conductivity-type buried layer and is enclosed by a second deep isolation structure. Within the second substrate region is a third doped region having the second conductivity type and a dopant concentration greater than the first dopant concentration.

Embodiment relates to the field of semiconductor technologies, and proposes a semiconductor device and a fabrication method thereof. The semiconductor device includes: a substrate, a semiconductor structure, an insulating layer, and a conductive layer. The semiconductor structure is positioned on a side of the substrate and includes a first semiconductor structure and a second semiconductor structure, wherein the first semiconductor structure and the second semiconductor structure form a PN junction. The insulating layer is positioned on a side of the semiconductor structure facing away from the substrate. The conductive layer is positioned on a side of the insulating layer facing away from the substrate, and an orthographic projection of the conductive layer on the substrate at least partially overlaps an orthographic projection of the PN junction on the substrate.

A semiconductor device includes a semiconductor layer of a first conductivity type having a device forming region and an outside region, an impurity region of a second conductivity type formed in a surface layer portion of a first main surface in the device forming region, a field limiting region of a second conductivity type formed in the surface layer portion in the outside region and having a impurity concentration higher than that of the impurity region, and a well region of a second conductivity type formed in a region between the device forming region and the field limiting region in the surface layer portion in the outside region, having a bottom portion positioned at a second main surface side with respect to bottom portions of the impurity region and the field limiting region, and having a impurity concentration higher than that of the impurity region.

An insulation film includes a first opening portion in at least one of a cell region and a termination region, and a second opening portion in an interface region. The second opening portion has an opening ratio lower than an opening ratio of the first opening portion. The semiconductor device includes a first impurity layer of a second conductivity type, and a second impurity layer of the second conductivity type. The first impurity layer is disposed on a surface of a semiconductor substrate below the first opening portion. The second impurity layer has impurity concentration lower than impurity concentration of the first impurity layer, and is disposed on the surface of the semiconductor substrate below the second opening portion.

A semiconductor device includes a semiconductor layer on a first electrode. The semiconductor layer includes a first region of a first type, a second region of a second type, a third region of the second type, and a fourth region of the first type. The second region is above the first region. The third region surrounds the second region. The fourth region surrounds the third region. The second electrode includes a first portion above the second region and a second portion surrounding the first portion. The third electrode surrounds the second electrode and is electrically connected to the fourth region. The semi-insulating layer is electrically connected to the second electrode and the third electrode. A first end portion of the first insulating layer is above the third region.

Fabricating a semiconductor device comprises: forming a gate trench in an epitaxial layer overlaying a semiconductor substrate; depositing gate material in the gate trench; forming a body in the epitaxial layer; forming a source embedded in the body; forming a contact trench that extends through the source and at least part of the body; disposing an implant at least along a contact trench wall; and disposing an epitaxial enhancement portion below the contact trench and in contact with the implant.

A semiconductor device includes a semiconductor layer of a first conductivity type having a device forming region and an outside region, an impurity region of a second conductivity type formed in a surface layer portion of a first main surface in the device forming region, a field limiting region of a second conductivity type formed in the surface layer portion in the outside region and having a impurity concentration higher than that of the impurity region, and a well region of a second conductivity type formed in a region between the device forming region and the field limiting region in the surface layer portion in the outside region, having a bottom portion positioned at a second main surface side with respect to bottom portions of the impurity region and the field limiting region, and having a impurity concentration higher than that of the impurity region.