State-of-the-Art CMOS and MEMS Devices

doi:10.3390/books978-3-7258-0841-0

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State-of-the-Art CMOS and MEMS Devices

Edited by

April 2024

168 pages

ISBN978-3-7258-0842-7 (Hardback)
ISBN978-3-7258-0841-0 (PDF)

https://doi.org/10.3390/books978-3-7258-0841-0

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This book is a reprint of the Special Issue State-of-the-Art CMOS and MEMS Devices that was published in

Chemistry & Materials Science

Engineering

Physical Sciences

Summary

This Special Issue, titled “State-of-the-Art CMOS and MEMS Devices”, presents critical research progress on advanced CMOS ICs and MEMS devices. This Special Issue contains 10 published articles that address the urgent demand for high-performance silicon ICs and MEMS devices; these articles aim to further advance the field through extensive explorations of device and circuit design techniques, performance optimization methods, and system integration strategies.

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Keywords

class-A; CMOS; humidity; performance degradation; power amplifier (PA); low noise amplifier (LNA); wideband; inductorless; gain-controllable; current conveyor; impedance matching circuit; CMOS; circulator; 25% duty cycle; full-duplex; gyrator; D-band receiver; direct conversion; on-chip multiplier chain; SiGe process; sub-THz; compact bandpass filter; integrated passive device (IPD); miniaturization; three-dimensional (3D) integration; through-silicon-via (TSV); free-space optical communication; MEMS micromirror; laser scanning and capture; CMOS; computing-in-memory; current mirror; edge computing; multiplier–divider; CMOS; radio frequency; power amplifier; wireless communication; efficiency; linearity; bandwidth; hot-carrier degradation; compact physics model; secondary carriers; impact ionization; interface traps; carrier transport; electromagnetic environmental effect; electromagnetic interference (EMI); electromagnetic susceptibility (EMS); operational amplifier (op-amp); susceptibility threshold; voltage follower; n/a