Key Enabling Technologies for Future Wireless, Wired, Optical and Satcom Applications

Key Enabling Technologies for Future Wireless, Wired, Optical and Satcom Applications

River Publishers Series in Communications and Networking

Key Enabling Technologies for Future Wireless, Wired, Optical and Satcom Applications Forthcoming

Editors:
Björn Debaillie, imec, Belgium
Philippe Ferrari, Université Grenoble Alpes, France
Didier Belot, STMicroelectronics, France
François Brunier, Soitec, France
Christophe Gaquiere, MC2 Technologies, France
Pierre Busson, STMicroelectronics, France
Urtė Steikūnienė, Teraglobus, Lithuania

ISBN: 9788770046657 e-ISBN: 9788770046640

Available: August 2024


This book presents the latest research roadmaps and achievements from the European ecosystem (industry, research, and academia) driving the development of future wireless, wired, optical and satcom applications utilizing the mm-wave and sub-THz bands. It covers the entire value chain, including technologies, devices, characterization, architectures, circuits, 3D heterogeneous integration and packaging.
As the interconnectedness of our world continues to expand, the importance of global innovation in communication systems and technologies grows significantly. The increasing reliance on digital communication necessitates systems that can manage higher data traffic, provide faster and more reliable connectivity, and sustainably support a diverse range of applications. Achieving these goals requires a shift towards higher frequency bands (mm-wave and sub-THz) and the adoption of disruptive technologies. Heterogeneous integration of (Bi)CMOS, SOI, and III/V components such as GaN or InP, along with advanced packaging techniques, is essential to realize ubiquitous, ultra-high bandwidth, and low latency networks. To ensure that future communication systems are not only technologically advanced but also sustainable and responsible, it is crucial to minimize their environmental impact by considering the materials used, manufacturing processes, operational efficiency, and recyclability.

The book captures the synergetic interactions between European Chips JU projects SHIFT and Move2THz, the European 3D heterogenous integration and packaging community and the MTT-TC9 society. These interactions were forged during the International Workshop on “Key Enabling Technologies for Future Wireless, Wired, Optical and Satcom Applications” at the European Microwave Week in Paris, France, on 22 September, 2024.

Whether you are a professional in the field or simply interested in the future of communication technologies, this book offers invaluable insights into the technological breakthroughs shaping our digital future.

6G, sub-THz, mm-wave, Circuits and Systems, Communications, Radios, Transceivers, Antennas, Devices, Packaging, Heterogeneous Integration, Process Technology
  • B55X: A Shift in STMicroelectronics BiCMOS Technologies
  • RF Advanced Substrates for 5G Advanced and 6G
  • Advanced Substrates Technologies for the Sub-THz Era
  • The Impact of Irradiation on DC characteristics and Low Frequency Noise of advanced SiGe:C HBTs
  • Decarbonizing the Electronics Industry to Achieve Net Zero
  • A Multi-standard RF Bandpass Sigma-Delta ADC
  • Analog Multiplexing for Bandwidth and Sampling Rate Multiplication of Digital-Analog-Converters in Coherent Optical Transmission Systems
  • E-band and D-band VCOs: Distributed Tank Design Methodology, Bufferless Approach
  • Challenges for 2.5D and 3D Integration of InP HBT Technology
  • Analysis of Quasi-Coaxial Via Implemented in IC Substrate using Multiple Scattering Method
  • D-band Phased Array Devices and Modules for B5G Backhaul
  • Sub-THz Transceiver Design for Future Generation Mobile Communications
  • Ka-Band GaN-on-SiC Power Amplifier for High EIRP Satellite Phased Antenna Array

Appendix

  • InP-on-Si Technologies For Next Generation Optical Communication High-Speed Analog Front-Ends
  • 150nm Gallium Nitride on Silicon Carbide Technology for High Power 5G New Radio Applications
  • Post-process Substrate Porosification for RF Applications
  • D-band Modulated Signal Generation Using Photonics Techniques
  • D-band RF Architecture for Beyond 5G wireless networks: Specifications, Challenges, and Key Enabling Technologies
  • 2.5D, 3D Assembly Technologies for RF, mmW and sub-THz Heterogeneous Systems
  • Heterointegration Approaches for InP-HBT Technologies for 5G Applications and Beyond
  • RF-Heterointegration at Wafer-level and Panel-level for mm-wave Applications
  • SiGe BiCMOS and III-V Technologies Heterogeneous Integration Challenges
  • Advanced Packaging Solutions for mmWave Applications
  • Modular 3D mmW and THz Packaging Concepts and Technologies
  • LDS and AMP Processes for RF Antenna in Package AiP Applications in the E and D-band
  • Sub-THz Antenna and Package Integration for Miniaturized Surface Mount Device Modules