Impacts of single trap induced random telegraph noise on Si and Ge nanowire FETs, 6T SRAM cells and logic circuits | IEEE Conference Publication | IEEE Xplore

Impacts of single trap induced random telegraph noise on Si and Ge nanowire FETs, 6T SRAM cells and logic circuits


Abstract:

In this paper, we investigate the impacts of single trap induced Random Telegraph Noise (RTN) on the drain current, stability of 6T SRAM cells and logic circuits of Si an...Show More

Abstract:

In this paper, we investigate the impacts of single trap induced Random Telegraph Noise (RTN) on the drain current, stability of 6T SRAM cells and logic circuits of Si and Ge NanoWire (NW) FETs. The trap position dependence of the RTN amplitude (ΔIds/Ids) along the channel length direction is examined. For Si-NW FET, significant RTN impact is observed for trap located near the middle region of channel between the source/drain (worst position), while for Ge-NW FET, the worst position depends on the drain bias (Vds) and gate bias (Vgs). The RTN amplitude of Ge-NW FET exhibits distinctly different Vgs and Vds dependence compared with the Si-NW FET due to lower bandgap, higher permittivity, and band-to-band tunneling at the drain in Ge-NW FET. In particular, it is found that Ge-NW FET may exhibit negative RTN amplitude (Ids increases) with acceptor type trap due to the reduction of band-to-band tunneling length when the trap is located near the drain. Ge-NW FET shows larger Vdd dependence of the RTN amplitude variation. For 6T NW SRAM cell, the READ Static Noise Noise Margin (RSNM) of 64 combinations from trapping/de-trapping state in each cell transistor is examined. The impact of RTN on the leakage of NW inverter is investigated using 3D atomistic TCAD mixed-mode simulations.
Date of Conference: 29-31 May 2013
Date Added to IEEE Xplore: 05 August 2013
ISBN Information:
Print ISSN: 2381-3555
Conference Location: Pavia, Italy

References

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