A semiconductor device includes first well regions in a substrate and spaced apart from each other, a connection doped region between the first well regions, and a first interconnection line electrically connected to the connection doped region through a first contact. The first well regions and the connection doped region include impurities of a first conductivity type, and a concentration of the impurities in the connection doped region is higher than that in the first well regions. The first well regions extend into the substrate to a depth larger than that of the connection doped region. A first portion of the connection doped region is disposed in the first well regions and a second portion of the connection doped region contacts the substrate.

A voltage tracking circuit includes first, second, third and fourth transistors. The first transistor is in a first well, and includes a first gate, a first drain and a first source coupled to a first voltage supply. The second transistor includes a second gate, a second drain and a second source. The second source is coupled to the first drain. The second gate is coupled to the first gate and the pad voltage terminal. The third transistor includes a third gate, a third drain and a third source. The fourth transistor includes a fourth gate, a fourth drain and a fourth source. The fourth drain is coupled to the third source. The fourth source is coupled to the pad voltage terminal. The fourth transistor is in a second well different from the first well, and is separated from the first well in a first direction.

The present disclosure describes structure with a substrate, a first well region, a second well region, and a third well region. The first well region is in the substrate. The second well region is in the first well region and includes a first source/drain (S/D) region. The third well region is in the substrate and adjacent to the first well region. The third well region includes a second S/D region, where a spacing between the first and second S/D regions is less than about 3 μm.

A semiconductor structure includes a first semiconductor substrate, a second semiconductor substrate, a depletion layer, an isolation structure, a first gate structure, and a second gate structure. The first and second semiconductor substrates respectively have a first active region and a second active region overlapping the first active region. The depletion layer is disposed between the first active region and the second active region. The isolation structure surrounds the first and second active regions. The first gate structure is disposed in the second active region. The second gate structure is disposed in the second active region. The second active region has a portion between the first gate structure and the second gate structure.

A semiconductor device includes etch stop films formed on the first gate electrode, the first source region, the first drain region, and the shallow trench isolation regions, respectively. First interlayer insulating films are formed on the etch stop film, respectively. Deep trenches are formed in the substrate between adjacent ones of the first interlayer insulating films to overlap the shallow trench isolation regions. Sidewall insulating films are formed in the deep trenches, respectively. A gap-fill insulating film is formed on the sidewall insulating film. A second interlayer insulating film is formed on the gap-fill insulating film. A top surface of the second interlayer insulating film is substantially planar and a bottom surface of the second interlayer insulating film is undulating.

An apparatus including; a substrate; an isolator that is formed over the substrate, the isolator including a silicon shield layer that is formed between a first buried oxide (BOX) layer and a second BOX layer; a silicon layer having an oxide trench structure formed therein, the oxide trench structure being arranged to define a first silicon island and a second silicon island; a first electronic circuit that is formed over the first silicon island; and a second electronic circuit that is formed over the second silicon island, the first electronic circuit being electrically coupled to the first electronic circuit.

A semiconductor device includes a semiconductor substrate having a major surface and both an element-forming region and an outer peripheral voltage-withstanding region that are provided on the major surface side of the semiconductor substrate. The element-forming region includes both a cell region for forming a power element and a circuit element region for forming at least one circuit element. The circuit element region is interposed between the outer peripheral voltage-withstanding region and the cell region. The outer peripheral voltage-withstanding region includes a boundary region that adjoins the element-forming region. In the boundary region, there is provided one or more voltage-withstanding regions. At least one of the one or more voltage-withstanding regions has a withstand voltage lower than both the withstand voltages of the cell region and the circuit element region.

A method for manufacturing a semiconductor device structure including a doped region under an isolation feature. The method includes providing a substrate having a first surface and a second surface opposite to the first surface, wherein the substrate comprises a first well region with a first conductive type; forming an isolation feature extending from the second surface of the substrate; forming a first transistor and a second transistor adjacent to the second surface of the substrate; forming a first doped region under the isolation feature, wherein the first doped region has a second conductive type different from the first conductive type; and providing a circuit structure on the first surface of the substrate, wherein the circuit structure is configured to transmit or provide a voltage electrically coupled with the first doped region.

An integrated circuit device includes a device isolation trench defining an active area, a gate trench extending in a first direction across the active area and the device isolation film, a gate dielectric film covering an inner wall of the gate trench, and a conductive line filling a part of the gate trench above the gate dielectric film. The active area includes a fin body portion located under the conductive line, and a thinner fin portion protruding from the fin body portion toward the conductive line and having a width less than a width of the fin body portion in the first direction.

A semiconductor device and a method for fabricating the same are disclosed. A substrate including a first device region and a second device region is provided. A first isolation structure is formed in the substrate of the first device region and a second isolation structure is formed in the substrate of the second device region. Ion implantation on the first isolation structure is performed. The first isolation structure and the second isolation structure are etched back to form a first recess in the first isolation structure and a second recess in the second isolation structure.