An apparatus configured to reduce lag includes a substrate; a group III-Nitride back barrier layer on the substrate; a group III-Nitride channel layer on the group III-Nitride back barrier layer; a group III-Nitride barrier layer on the group III-Nitride channel layer, the group III-Nitride barrier layer include a higher bandgap than a bandgap of the group III-Nitride channel layer; a source electrically coupled to the group III-Nitride barrier layer; a gate on the group III-Nitride barrier layer; a drain electrically coupled to the group III-Nitride barrier layer; and a p-region being arranged at or below the group III-Nitride barrier layer. Additionally, at least a portion of the p-region is arranged vertically below at least one of the following: the source, the gate, an area between the gate and the drain.

A semiconductor device and method of forming the semiconductor device are disclosed. The method includes forming first and second conductive structures on a semiconductor substrate, forming one or more dielectric layers between the first and second conductive structures, covering the one or more dielectric layers with a first masking layer, forming a first opening in the first masking layer, depositing a conductive material in the first opening to form a field plate structure, and electrically connecting the field plate structure to another conductor.

In an embodiment, a Group III nitride-based transistor device includes a source electrode, a drain electrode and a gate electrode positioned on a first major surface of a Group III nitride based-based layer, wherein the gate electrode is laterally arranged between the source electrode and the drain electrode, a passivation layer arranged on the first major surface and a field plate coupled to the source electrode, the field plate having a lower surface arranged on the passivation layer. The field plate is laterally arranged between and laterally spaced apart from the gate electrode and the drain electrode.

A semiconductor device includes a guardring including a first doped region and a first contact over the first doped region, a base including a second doped region and a second contact over the second doped region, a collector including a third doped region and a third contact over the third doped region, and an emitter including a fourth doped region and a fourth contact over the fourth doped region. The emitter, the collector, the base, and the guardring are separated on a backside of the semiconductor device via shallow trench isolation (STI) or floating gates.

A semiconductor device includes first, second and third trenches formed in a semiconductor layer having a first conductivity type. Each trench includes a corresponding field plate and a corresponding gate over each field plate. A first body region having a second opposite conductivity type is between the first and second gates, and a second body region having the second conductivity type is located between the second and third gates. A first source region is located over the first body region and a second source region is located over the second body region, the first and second source regions having the first conductivity type. A first gate bus is conductively connected to the first gate and a second gate bus is conductively connected to the second gate, the first gate bus conductively isolated from the second gate bus.