Design of JL-CFET (junctionless complementary field effect transistor)-based inverter for low power applications
Semiconductor Science and Technology, 2022•iopscience.iop.org
Junctionless complementary field effect transistor (JL-CFET) is an emerging device that
needs a small layout area and low fabrication cost. However, in order for the JL-CFET to be
adopted for low power applications, two main constraints need to be overcome:(a) a high
work function of metal gate and (b) a low drain current. In this work, an optimal device design
is proposed to overcome those problems, by analyzing various performance metrics, such
as on-state drive current, subthreshold swing, drain induced barrier lowering, propagation …
needs a small layout area and low fabrication cost. However, in order for the JL-CFET to be
adopted for low power applications, two main constraints need to be overcome:(a) a high
work function of metal gate and (b) a low drain current. In this work, an optimal device design
is proposed to overcome those problems, by analyzing various performance metrics, such
as on-state drive current, subthreshold swing, drain induced barrier lowering, propagation …
Abstract
Junctionless complementary field effect transistor (JL-CFET) is an emerging device that needs a small layout area and low fabrication cost. However, in order for the JL-CFET to be adopted for low power applications, two main constraints need to be overcome:(a) a high work function of metal gate and (b) a low drain current. In this work, an optimal device design is proposed to overcome those problems, by analyzing various performance metrics, such as on-state drive current, subthreshold swing, drain induced barrier lowering, propagation delay time, and ring oscillator's oscillation frequency, which are extracted from various structures of JL-CFET. In addition, the negative capacitance effect in JL-CFET is examined to address the limit from device structures.
iopscience.iop.org
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