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19 results on '"Wils, Nicole"'

1. Characterization of STI edge effects on CMOS variability

Author

Wils, Nicole, Tuinhout, Hans P., and Meijer, Maurice

Subjects
Integrated circuit fabrication -- Technology application, Integrated circuit fabrication -- Analysis, Complementary metal oxide semiconductors -- Usage, Integrated circuit fabrication, Technology application, Business, Computers, Electronics, Electronics and electrical industries
Abstract

Layout effects (well proximity effect, gate-STI distance effect, litho proximity effects, etc.) can lead to significant deviations between measured and modeled drain currents in advanced CMOS processes. Because several of these effects can occur at the same time and because a proper distinction between systematic and random effects is not always made, this often leads to confusion on the subject of variability. Using a dedicated set of--asymmetrically designed--matched pair test structures and a data analysis technique based on so-called mismatch sweeps, we answer some important questions in these discussions on variability in advanced CMOS technologies. Taking the STI-induced stress effect as an example, we show that, although there can be a large systematic offset in drain current and threshold voltage due to this effect, there is no significant impact on random mismatch fluctuations. Index Terms--CMOS, fluctuations, matching, shallow trench isolation (STI), variability.

Published
2009

4. Microsecond pulsed DC matching measurements on MOSFETs in strong and weak inversion

Author

Andricciola, Pietro, Andricciola, P., Tuinhout, Hans, Wils, Nicole, and Schmitz, Jurriaan

Subjects
EWI-20198, Materials science, business.industry, Transistor, Time constant, Pulsed DC, Electrical engineering, Inversion (meteorology), law.invention, Microsecond, IR-77948, law, Logic gate, METIS-278717, MOSFET, Optoelectronics, business
Abstract

We present a first successful attempt to use microsecond DC pulses for matching measurements on 65-nm MOS transistors down to low current levels. We demonstrate that the interface states that contribute to the mismatch (if they indeed do so) in the weak and moderate inversion region must have charging and discharging time constants below 1 μs.

Published
2011
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