This book presents a collection of peer-reviewed articles from the 7th International Conference on Microelectronics, Circuits, and Systems - Micro 2020. The volume covers the latest development and emerging research topics of material sciences, devices, microelectronics, circuits, nanotechnology, system design and testing, simulation, sensors, photovoltaics, optoelectronics, and its different applications. This book also deals with several tools and techniques to match the theme of the conference. It will be a valuable resource for researchers, professionals, Ph.D. scholars, undergraduate and…mehr
This book presents a collection of peer-reviewed articles from the 7th International Conference on Microelectronics, Circuits, and Systems - Micro 2020. The volume covers the latest development and emerging research topics of material sciences, devices, microelectronics, circuits, nanotechnology, system design and testing, simulation, sensors, photovoltaics, optoelectronics, and its different applications. This book also deals with several tools and techniques to match the theme of the conference. It will be a valuable resource for researchers, professionals, Ph.D. scholars, undergraduate and postgraduate students working in Electronics, Microelectronics, Electrical, and Computer Engineering.
Abhijit Biswas received his B.Tech., M.Tech. and Ph.D. (Tech.) degrees from the University of Calcutta. In 1999, he joined the University of Calcutta as a lecturer in the Department of Radio Physics and Electronics where he is currently working as a Professor. He worked at Jadavpur University as a lecturer in Electronics Science during 1997-1999 and as a Reader in the Department of Electronics and Telecommunication Engineering during 2006-2008. His research interests include semiconductor physics, modeling, simulation, and characterization of electronic and optoelectronic devices including CMOSFETs, LEDs and LASER diodes, and circuits. He has published over 70 technical papers in peer-reviewed international journals. Dr. Raghvendra Sahai Saxena received his B.E. degree in Electronics and Communication Engineering from G. B. Pant Engineering College, India, in 1997, M.Tech. degree in Microelectronics from IIT Bombay, in 2003, and a Ph.D. degree from IIT Delhi, in 2012. Since 1998, he has been associated with the Solid State Physics Laboratory, DRDO, Delhi, where he is currently heading a research group working on the development and testing of infrared detectors and their readout circuits. Dr. Sahai's research interests include infrared detectors, power electronic devices, and nanoscale VLSI devices & circuits. He has authored over ninety papers in various international refereed journals and conference proceedings. Dr. Saxena is the Editor of IETE Technical Review and SSPL's Technical Bulletin-Crystal. Dr. Saxena is an American Society for Quality (ASQ) Certified Reliability Engineer. He is also a Fellow of IEI, India, and IETE, India. Prof. Debashis De earned his M.Tech. from the University of Calcutta in 2002 and a Ph.D. from Jadavpur University in 2005. He is a Professor and Director in the Department of Computer Science and Engineering, West Bengal University of Technology, India, and an Adjunct Research Fellow at the University of Western Australia, Australia. He is a senior member of the IEEE, a life member of CSI, and a member of the International Union of Radio Science. His research interests include mobile cloud computing and green mobile networks. He has published over 270 papers in peer-reviewed international journals and 200 international conference papers, six research monographs, and ten textbooks. He is an Associate Editor of IEEE ACCESS journal and Editor of the Hybrid Computational Intelligence journal.
Inhaltsangabe
Part 1: Advanced MOSFETs.- Chapter 1. High Switching Performance of Novel Heterogeneous Gate Dielectric - Hetero-material Based Junctionless-TFET.- Chapter 2. Superior Performance of Gate Workfunction and Gate Dielectric Engineered Trapezoidal FinFET in the presence of Trap Charges.- Chapter 3. High-K Biomolecule Sensor Based on L-shaped Tunnel FET.- Chapter 4. A Novel Trench FinFET as biosensor for early detection of Alzheimer's disease.- Chapter 5. Interface trap charge analysis of junctionless triple metal gate high-k gate all around nanowire FET based biotin biosensor for detection of cardiovascular diseases.- Chapter 6. Fin Aspect Ratio Optimization of Novel Junctionless Gate Stack Gate All Around (GS-GAA) FinFET for Analog/RF Applications.- Chapter 7. Design and Analysis of Cyl GAA-TFET based Cross-coupled Voltage Doubler Circuit.- Chapter 8. Impact of channel epilayer induced corner-effect on the sensing performance of a unique pTFET-based biosensor (epi-pTFET-biosensor).- Chapter 9. Performance Comparison of III-V and Silicon FinFETs for Ultra Low Power VLSI Applications.- Part 2: Memory elements and circuits.- Chapter 10. Radiation Tolerant Memory Cell for Aerospace applications.- Chapter 11. A Highly Reliable and Radiation-Hardened Majority PFET-Based 10T SRAM cell.- Chapter 12. Design and analysis of ultra-low power memory architecture with MTCMOS asymmetrical ground-gated 7T SRAM cell.- Chapter 13. Data Aware near Subthreshold 10T SRAM cell for ultra-low power application.- Chapter 14. Radiation Immune SRAM Cell for Deep Space Applications.- Part 3: HEMTs, MEMS and Photovoltaics.- Chapter 15. Comparative study of InAlN and InGaN Back Barrier layer on p-Gate/AlGaN/GaN HEMT.
Part 1: Advanced MOSFETs.- Chapter 1. High Switching Performance of Novel Heterogeneous Gate Dielectric - Hetero-material Based Junctionless-TFET.- Chapter 2. Superior Performance of Gate Workfunction and Gate Dielectric Engineered Trapezoidal FinFET in the presence of Trap Charges.- Chapter 3. High-K Biomolecule Sensor Based on L-shaped Tunnel FET.- Chapter 4. A Novel Trench FinFET as biosensor for early detection of Alzheimer's disease.- Chapter 5. Interface trap charge analysis of junctionless triple metal gate high-k gate all around nanowire FET based biotin biosensor for detection of cardiovascular diseases.- Chapter 6. Fin Aspect Ratio Optimization of Novel Junctionless Gate Stack Gate All Around (GS-GAA) FinFET for Analog/RF Applications.- Chapter 7. Design and Analysis of Cyl GAA-TFET based Cross-coupled Voltage Doubler Circuit.- Chapter 8. Impact of channel epilayer induced corner-effect on the sensing performance of a unique pTFET-based biosensor (epi-pTFET-biosensor).- Chapter 9. Performance Comparison of III-V and Silicon FinFETs for Ultra Low Power VLSI Applications.- Part 2: Memory elements and circuits.- Chapter 10. Radiation Tolerant Memory Cell for Aerospace applications.- Chapter 11. A Highly Reliable and Radiation-Hardened Majority PFET-Based 10T SRAM cell.- Chapter 12. Design and analysis of ultra-low power memory architecture with MTCMOS asymmetrical ground-gated 7T SRAM cell.- Chapter 13. Data Aware near Subthreshold 10T SRAM cell for ultra-low power application.- Chapter 14. Radiation Immune SRAM Cell for Deep Space Applications.- Part 3: HEMTs, MEMS and Photovoltaics.- Chapter 15. Comparative study of InAlN and InGaN Back Barrier layer on p-Gate/AlGaN/GaN HEMT.
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