A JFET is provided with a very low gate current. In tests the excess gate current above the theoretical minimum current for a similarly sized reverse biased p-n junction was not observed. The JFET includes a lightly doped top gate and doped regions beneath the drain of the JFET.

A semiconductor device including: a first level including a first single crystal silicon layer, a plurality of first transistors, and input/output circuits; a first metal layer; a second metal layer which includes a power delivery network; where interconnection of the plurality of first transistors includes the first and second metal layers; a second level including a plurality of metal gate second transistors and first array of memory cells, disposed over the first level; a third level including a plurality of metal gate third transistors and a second array of memory cells, disposed over the second level; a via disposed through the second and third levels; a third metal layer disposed over the third level; a fourth metal layer disposed over the third metal layer; and a fourth level disposed over the fourth metal layer and including a second single crystal silicon layer.

A semiconductor device including: a first level including a first single crystal silicon layer, a plurality of first transistors, and input/output circuits; a first metal layer; a second metal layer which includes a power delivery network; where interconnection of the plurality of first transistors includes the first and second metal layers; a second level including a plurality of metal gate second transistors and first array of memory cells, disposed over the first level; a third level including a plurality of metal gate third transistors and a second array of memory cells, disposed over the second level; a via disposed through the second and third levels; a third metal layer disposed over the third level; a fourth metal layer disposed over the third metal layer; and a fourth level disposed over the fourth metal layer and including a second single crystal silicon layer.

A transistor arrangement is disclosed. The transistor arrangement includes a first transistor device and a second transistor device. The first transistor device and the second transistor device are connected in series and integrated in a common semiconductor body. The first transistor device is a lateral superjunction transistor device and is integrated in a first device region of the semiconductor body. The second transistor device is a lateral transistor device and is integrated in at least one second device region of the semiconductor body. The at least one second device region is spaced apart from the first device region.

A transistor arrangement is disclosed. The transistor arrangement includes a first transistor device and a second transistor device. The first transistor device and the second transistor device are connected in series and integrated in a common semiconductor body. The first transistor device is a lateral superjunction transistor device and is integrated in a first device region of the semiconductor body. The second transistor device is a lateral transistor device and is integrated in at least one second device region of the semiconductor body. The at least one second device region is spaced apart from the first device region.

A high electron mobility transistor includes: a channel layer through which carriers are to flow; a pair of respective main electrodes coupled to one end and another end of the channel layer; a barrier layer that is disposed at the channel layer and induces the carriers; a gate electrode disposed at an intermediate part of the channel layer with the barrier layer interposed therebetween; a first spacer layer that is disposed between the channel layer and the barrier layer and decreases alloy scattering; and a second spacer layer that is disposed between the first spacer layer and the barrier layer in a region overlapping the gate electrode and traps the carriers.

A semiconductor device includes a nitride semiconductor layer, a source electrode, a drain electrode, and an insulating gate portion. The nitride semiconductor layer has an element part and a peripheral withstand voltage part. The source electrode is disposed adjacent to a first main surface of the nitride semiconductor layer. The drain electrode is disposed adjacent to a second main surface of the nitride semiconductor layer. The nitride semiconductor layer is formed with a first groove on the first main surface in the element part, and a second groove on the first main surface in the peripheral withstand voltage part. A JFET region is embedded in the first groove in the element part. An inclination angle of a side surface of the first groove adjacent to a channel portion of a body region is smaller than an inclination angle of a side surface of the second groove.

A semiconductor device includes a nitride semiconductor layer, a source electrode, a drain electrode, and an insulating gate portion. The nitride semiconductor layer has an element part and a peripheral withstand voltage part. The source electrode is disposed adjacent to a first main surface of the nitride semiconductor layer. The drain electrode is disposed adjacent to a second main surface of the nitride semiconductor layer. The nitride semiconductor layer is formed with a first groove on the first main surface in the element part, and a second groove on the first main surface in the peripheral withstand voltage part. A JFET region is embedded in the first groove in the element part. An inclination angle of a side surface of the first groove adjacent to a channel portion of a body region is smaller than an inclination angle of a side surface of the second groove.

An integrated circuit device comprises a metal-oxide-semiconductor (MOS) transistor comprising a gate stack formed over a channel region thereof and a bipolar junction transistor (BJT) comprising a layer stack formed over a collector region thereof. Some features of the MOS transistor and the BJT are co-fabricated such that they have common physical characteristics.

An integrated circuit device comprises a metal-oxide-semiconductor (MOS) transistor comprising a gate stack formed over a channel region thereof and a bipolar junction transistor (BJT) comprising a layer stack formed over a collector region thereof. Some features of the MOS transistor and the BJT are co-fabricated such that they have common physical characteristics.