Title :
A New Method for Accurate Extraction of Source Resistance and Effective Mobility in Nanoscale Multifinger nMOSFETs
Author :
Jyh-Chyrun Guo ; Yi-Zen Lo
Author_Institution :
Inst. of Electron. Eng., Nat. Chiao Tung Univ., Hsinchu, Taiwan
Abstract :
A new method is is developed for accurate extraction of the effective mobility (μeff) in the multifinger nMOSFETs with various poly-to-poly (PO-PO) spaces. The wide PO-PO space intends to increase the tensile stress from a contact etching stop layer (CESL) and yields higher μeff in the nMOSFETs. However, the source resistance (RS) emerges as a critical parasitic element in the multifinger devices with a large finger number. The wide PO-PO space generally leads to the further increase of RS, which may offset μeff improvement and degrade transconductance (gm). A two-end source line is proposed to reduce RS and the impact on gm. The complicated layout-dependent effects containing the CESL strain, RS, and 3-D fringing capacitances bring a crucial challenge to the μeff extraction. In this paper, a distributed transmission line model is derived for a reliable determination of RS, which is a key to the realization of accurate extraction of μeff and layout-dependent effects in multifinger devices.
Keywords :
MOSFET; etching; transmission line theory; 3D fringing capacitances; accurate extraction; contact etching stop layer; critical parasitic element; distributed transmission line; effective mobility; manoscale multifinger nMOSFET; poly-to-poly spaces; source resistance; tensile stress; two-end source line; Capacitance; Degradation; Layout; Logic gates; MOSFET; Noise measurement; Resistance; Contact etching stop layer (CESL) strain; effective mobility ( $mu _{textrm {eff}}$ ); effective mobility (μeff); layout-dependent effects; multifinger; source resistance ( $R_{S}$ ); source resistance (RS); transmission line (TML); transmission line (TML).;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2015.2453998
