Dielectric Absorption Caused by Traps in MIM/MOS Capacitors: A New Model Validated Through TCAD
Academic Article
Publication Date:
2026
Short description:
Dielectric Absorption Caused by Traps in MIM/MOS Capacitors: A New Model Validated Through TCAD / Saro, S.; Palestri, P.; Caruso, E.; Toniutti, P.; Driussi, F.. - In: IEEE TRANSACTIONS ON ELECTRON DEVICES. - ISSN 0018-9383. - 73:1(2026), pp. 20-26. [10.1109/TED.2025.3633623]
abstract:
We propose here a flexible physics-based model to calculate the capacitance and conductance in MIM and MOS capacitors, accounting for traps with different energy and space distributions in the dielectric. The proposed model is validated against calibrated TCAD simulations. Furthermore, the frequency and temperature dependencies of the loss tangent obtained from the TCAD simulations have been analyzed and compared with experimental trends reported in the literature, highlighting their relation with the trap location in the oxide and the electron trapping process. These findings offer insight into the trap-induced effects in MIM capacitors, helping to determine the physical origin of the dielectric absorption (DA) phenomenon affecting relevant CMOS circuits such as analog-to-digital converters (ADCs).
Iris type:
Articolo su rivista
Keywords:
Capacitance; Tunneling; Temperature measurement; Electron traps; Dielectrics; Capacitors; Semiconductor device modeling; Electrodes; Mathematical models; Analytical models; conductance; dielectric absorption (DA); oxide traps; tangent of the loss angle
List of contributors:
Saro, S.; Palestri, P.; Caruso, E.; Toniutti, P.; Driussi, F.
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