A flip-chip semiconductor-on-insulator die includes a substrate layer, an active layer, an insulator layer between the substrate layer and the active layer, a first metal layer, and a first via layer between the active layer and the first metal layer. The die at least first and second contact pads and a transistor including a first terminal formed within the active layer. A first portion of the first terminal falls within a footprint of the first contact pad and a second portion of the first terminal falls within a footprint of the second contact pad.

An electrostatic discharge protection circuit includes: a first electrostatic discharge protection device structure; a first contact pad above the first electrostatic discharge protection device structure in a cross-sectional view; and below the first electrostatic discharge protection device structure in the cross-sectional view, a metal connection coupling the first electrostatic discharge protection device structure to a second contact pad remote from the first contact pad, wherein the metal connection in the cross-sectional view only partially overlaps the first electrostatic discharge protection device structure.

The fabrication of field-effect transistor (FET) devices is described herein where the FET devices include one or more body contacts implemented between source, gate, drain (S/G/D) assemblies to improve the influence of a voltage applied at the body contact on the S/G/D assemblies. The FET devices can include source fingers and drain fingers interleaved with gate fingers. The source and drain fingers of a first S/G/D assembly can be electrically connected to the source and drain fingers of a second S/G/D assembly. The source fingers and the drain fingers can be arranged in alternating rows.

The present disclosure relates to an integrated chip including a channel structure on a first substrate. A gate electrode overlies the channel structure. A first source/drain structure abuts the channel structure and is offset from the gate electrode. A conductive structure is disposed on the first substrate and underlies the first source/drain structure. A first contact extends from the first source/drain structure to the conductive structure.