RF Circuits for 5G Applications

Name: RF Circuits for 5G Applications
Brand: John Wiley & Sons Inc
Price: 183.52 EUR
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5G

A Highly Linear Wideband PA in 28nm CMOS

Age Group_Uncategorized

Analog IC designing

Antenna Array

automatic-update

B01=Ajay Kumar Vyas

B01=B. C. Sahana

B01=Rajeev Kumar Arya

B01=Sangeeta Singh

Bipolar PA Design

Bode-Fano Limit

Capacitively Coupled Resonators

Cartesian Feedback

Category1=Non-Fiction

Category=TJFC

Challenges for mm-Wave

CMOS PA Design

Communications System Model for RF System Analysis

COP=United States

Coupled Resonators Comparison

Delivery_Delivery within 10-20 working days

Design Consideration in Cascade Chain

Diode mixer

Distortion Cancellation Techniques

Double Poly Devices

E-band

Envelope Elimination and Restoration (EER)

eq_bestseller

eq_isMigrated=2

eq_nobargain

eq_non-fiction

eq_tech-engineering

Fin-FET Process Technology

Gain per Power Efficiency

High-Frequency HBT Modeling: dc and small signal model

Hybrid Beam-forming

Inductively Coupled Resonators

Language_English

LC Oscillator Circuit Design Measurements

Linearity for Gain and Power Efficiency

Linearized Hybrid π model

Linearized T-model

Low Noise Amplifiers

Magnetically and Capacitively Coupled Resonators

Magnetically Coupled Resonators

Microwave RF Device Technology and Characterization

Microwave RF Specifications

Mixer

mm-Wave

mm-Wave Highly-Linear Broadband Power Amplifiers

Neutralization for mm-Wave Applications

Optimizing NF with Gmax for LNA within Self-Heat Limit

PA=Not available (reason unspecified)

Price_€100 and above

PS=Active

Radio Spectrum and Standardization

Receiver

RF and Millimeter-Wave Applications

RF Oscillators

RF Power Amplifiers

RF Requirements Governed by 5G System Targets

RFIC Circuits

Single Transistor Amplifier Under Large Signal

softlaunch

Spectrum

System Scalability

System-Level RF Performance Model

Trade-Offs in PA Design

Transceiver Architectures for RF

Transistor mixer

Transmitter

Tuning Extension Techniques

VCO

Product details

ISBN 9781119791928
Weight: 730g
Publication Date: 05 Apr 2023
Publisher: John Wiley & Sons Inc
Publication City/Country: US
Product Form: Hardback
Language: English

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RF CIRCUITS FOR 5G APPLICATIONS

This book addresses FinFET-based analog IC designing for fifth generation (5G) communication networks and highlights the latest advances, problems, and challenges while presenting the latest research results in the field of mmwave integrated circuits designing.

The wireless communication sector is experiencing exponential expansion, particularly in the areas of mobile data and the 5G mobile network, creating fresh market possibilities for designing the integrated circuits (ICs) needed in the industry. Drawing from scientific literature and practical realization, this book explores FinFET-based analog IC designing for 5G communication networks and considers the latest breakthroughs and obstacles. It also presents the recent research trends and future roadmaps for the 5G communication circuits.

RF Circuits for 5G Applications includes design guidelines to be considered when designing these circuits and detrimental scaling effects of the same. In addition, to enhance the usability of this book, the editors have included real-time problems in RFIC designing and case studies from experimental results, as well as clearly demarcated design guidelines for the 5G communication ICs designing.

Audience

The primary target audience includes researchers, postgraduate students, and industry professionals pursuing specializations in RF engineering, electronics engineering, electrical engineering, information, and communication technology.

Sangeeta Singh, PhD, is an assistant professor in the Department of Electronics and Communication Engineering, NIT Patna, India. She has been recognized as an eminent scholar in the field of electronics and computer engineering. She has published many research papers in reputed international journals and conferences, and has edited “CMOS Analog IC Design for 5G and Beyond” (2021).

Rajeev Kumar Arya, PhD, received his doctorate in Communication Engineering from the Indian Institute of Technology (IIT Roorkee) in 2016. He is an assistant professor in the Department of Electronics & Communication Engineering at the National Institute of Technology, Patna, India. He has published many articles in international journals and conferences and received the Best Paper award at ICCET-2019.

B.C. Sahana, PhD, is an assistant professor in the Department of Electronics and Communication Engineering, NIT Patna, India. He has supervised PhD, M.Tech, and B.Tech students in the area of signal processing, optimization, soft computing, and swarm intelligence techniques with applications to various engineering design problems, image processing and compression, computer vision, geophysical signal processing, and filter design. He has published more than 20 research publications in journals and conferences.

Ajay Kumar Vyas, PhD, has more than 16 years of teaching and research experience. He is currently a senior assistant professor at the Adani Institute of Infrastructure Engineering, Ahmedabad, India. He has published several books on digital electronics and research papers in peer-reviewed international journals and conferences, and has edited five books.