Emerging Low-Power Semiconductor Devices
Applications for Future Technology Nodes
1st Edition
Published on 29. July 2024
Book
Paperback/Softback
294 pages
978-1-032-14730-7 (ISBN)
Description
This book gives insight into the emerging semiconductor devices from their applications in electronic circuits. It discusses the challenges in the field of engineering and applications of advanced low-power devices.
Emerging Low-Power Semiconductor Devices: Applications for Future Technology Nodes offers essential exposure to low-power devices, and applications in wireless, biosensing, and circuit domains. This book provides a detailed discussion on all aspects, including the current and future scenarios related to the low-power device. The book also presents basic knowledge about field-effect transistor (FET) devices and introduces emerging and novel FET devices. The chapters include a review of the usage of FET devices in various domains like biosensing, wireless, and cryogenics applications. The chapters also explore device-circuit co-design issues in the digital and analog domains. The content is presented in an easy-to-follow manner that makes it ideal for individuals new to the subject.
This book is intended for scientists, researchers, and postgraduate students looking for an understanding of device physics, circuits, and systems.
Emerging Low-Power Semiconductor Devices: Applications for Future Technology Nodes offers essential exposure to low-power devices, and applications in wireless, biosensing, and circuit domains. This book provides a detailed discussion on all aspects, including the current and future scenarios related to the low-power device. The book also presents basic knowledge about field-effect transistor (FET) devices and introduces emerging and novel FET devices. The chapters include a review of the usage of FET devices in various domains like biosensing, wireless, and cryogenics applications. The chapters also explore device-circuit co-design issues in the digital and analog domains. The content is presented in an easy-to-follow manner that makes it ideal for individuals new to the subject.
This book is intended for scientists, researchers, and postgraduate students looking for an understanding of device physics, circuits, and systems.
More details
Language
English
Place of publication
London
United Kingdom
Publishing group
Taylor & Francis Ltd
Target group
Professional and scholarly
Academic
Illustrations
220 s/w Abbildungen, 45 s/w Photographien bzw. Rasterbilder, 175 s/w Zeichnungen, 30 s/w Tabellen
30 Tables, black and white; 175 Line drawings, black and white; 45 Halftones, black and white; 220 Illustrations, black and white
Dimensions
Height: 234 mm
Width: 156 mm
Thickness: 17 mm
Weight
471 gr
ISBN-13
978-1-032-14730-7 (9781032147307)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
Additional editions
Shubham Tayal | Abhishek Kumar Upadhyay | Deepak Kumar
Emerging Low-Power Semiconductor Devices
Applications for Future Technology Nodes
Book
08/2022
1st Edition
CRC Press
€186.60
Shipment within 10-20 days
Shubham Tayal | Abhishek Kumar Upadhyay | Deepak Kumar
Emerging Low-Power Semiconductor Devices
Applications for Future Technology Nodes
E-Book
08/2022
1st Edition
CRC Press
€68.49
Available for download
Shubham Tayal | Abhishek Kumar Upadhyay | Deepak Kumar
Emerging Low-Power Semiconductor Devices
Applications for Future Technology Nodes
E-Book
08/2022
1st Edition
CRC Press
€68.49
Available for download
Persons
Dr. Shubham Tayal is an Assistant Professor in the Department of Electronics and Communication Engineering at SR University, Warangal, India.
Dr. Abhishek Kumar Upadhyay s working as Scientific Staff in the Institute for Fundamentals of Electrical Engineering and Electronics, Technische Universitaet, D-01062, Dresden, Germany.
Mr. Deepak Kumar works as Asst. Professor (Senior scale) in the Department of Electrical and Electronics Engineering at University of Petroleum and energy studies (UPES), Dehradun, India.
Dr. Shiromani Balmukund Rahi is jointly working with Professor S.C Misra (Indian Institute of Technology Kanpur India) for the development of IoTs for smart applications and Dr Naima Guenifi (LEA Electronics Department, University Mostefa Benboulaid of Algeria) for the development of ultra-low power devices such as Tunnel FETs and Negative Capacitance FETs.
Dr. Abhishek Kumar Upadhyay s working as Scientific Staff in the Institute for Fundamentals of Electrical Engineering and Electronics, Technische Universitaet, D-01062, Dresden, Germany.
Mr. Deepak Kumar works as Asst. Professor (Senior scale) in the Department of Electrical and Electronics Engineering at University of Petroleum and energy studies (UPES), Dehradun, India.
Dr. Shiromani Balmukund Rahi is jointly working with Professor S.C Misra (Indian Institute of Technology Kanpur India) for the development of IoTs for smart applications and Dr Naima Guenifi (LEA Electronics Department, University Mostefa Benboulaid of Algeria) for the development of ultra-low power devices such as Tunnel FETs and Negative Capacitance FETs.
Content
1. Role of TFET Devices and Their Performance Analysis for Wireless Communications. 2. Modeling and Simulation of Emerging Low-Power Devices. 3. Tunnel Field-Effect Transistor: An Energy-Efficient Semiconductor Device. 4. Analytical Modeling of Surface Potential of a Double-Gate Heterostructure PNPN Tunnel FET. 5. Impact of Semiconductor Materials and Architectural Design on TFET Device Performance. 6. Performance Analysis of Emerging Low-Power Junctionless Tunnel FETs. 7. Recent Developments in Schottky Diodes and Their Applications. 8. Numerical Study of a Symmetric Underlap S/D High-? Spacer on JAM-GAA FinFET for Low-Power Applications. 9. Potential Prospects of Negative Capicitance Field Effect Transistors. 10. Memory Designing Using Low-Power FETs for Future Technology Nodes. 11. TFET-Based Flash Analog-to-Digital Converter. 12. Demand of Low-Power-Driven FET as Biosensors in Biomedical Applications. 13. 2D Materials for Spin Orbital Torque MRAM: A Path toward Neuromorphic Computing.