The natural choice to achieve multiple threshold voltages (Vth) in fully-depleted devices is by choosing the appropriate gate workfunction for each device. However, this comes at the cost of significantly higher process complexity. The absence of a body contact in FinFETs and insensitivity to back-gate bias leaves the conventional channel doping approach as the most practical technique to achieve multiple Vth. This choice, however, introduces a variable that is usually not considered in the context of fully depleted devices. For the first time, we demonstrate a multiple Vth solution at relevant device geometries and gate pitch for the 22nm node. We investigated the impact of FinFET channel doping on relevant device parameters such as Tinv, mobility, electrostatic control and Vth mismatch. We also show that Vth extraction by the “constant current” method could mislead the DIBL analysis of devices with greatly different channel mobility.