Abstract
This paper presents a hybrid electrical model of Carbon nanotube (CNT) based Through Silicon Via (TSV) using Metal Oxide Semiconductor (MOS) structural approach which takes into account factors such as substrate doping, operational frequency and voltage transmission levels. The MOS structural approach considers the CNT-based TSVs as a metal-oxide-semiconductor device, thereby resulting in a depletion capacitance which reduces the overall TSV capacitance. This affects the electrical performance of CNT-based TSVs, but has been ignored in previous models. Evaluation of electrical performance has been performed through S-parameter simulation of TSV and the simulation results have been compared with previously published electrical models of CNT-based TSV. The proposed hybrid electrical model shows CNT-based TSV better performance when compared with other published models.
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