Antenna-on-Chip : design, challenges, and opportunities / Hammad M. Cheema, Fatima Khalid, and Atif Shamim.

Format:

Book

Author/Creator:

Cheema, Hammad M., author.

Khalid, Fatima, author.

Shamim, Atif, author.

Language:

English

Subjects (All):

Antennas (Electronics).

Integrated circuits.

Physical Description:

1 online resource (275 pages)

Edition:

First edition.

Place of Publication:

Norwood, MA : Artech, [2021]

Summary:

Antennas are essential part of every wireless communication system. The increasing trend of applications in the radio frequency (RF) and millimeter wave frequency spectrum has reduced the antenna sizes to only a few millimeters, which makes it practical for on-chip implementations. Integrated Circuit (IC) designers who have traditionally remained isolated from antenna design now need to understand its design process and trade-offs. This comprehensive resource addresses the challenges, benefits and trade-offs of on-chip antenna implementation. It presents practical design and integration considerations of the IC and antenna combination and how both ends of the system can be utilized in a complimentary way. The book includes on-chip antenna layout considerations, layout for testability and various methods of their characterization. A look at the future trends and utilization of on-chip antennas for different applications concludes the book.

Contents:

Intro

Antenna-on-Chip: Design, Challenges, and Opportunities

Contents

Preface

1 Introduction to Antenna on Chip

1.1 Antennas and ICs: A Brief History

1.2 Circuit Integration Technologies

1.2.1 Interconnection Technologies

1.2.2 MCMs

1.2.3 SiP

1.2.4 SoP

1.2.5 SoC

1.3 On-Chip Antennas: Benefits and Opportunities

1.3.1 Cost and Size

1.3.2 The 50Ω Boundary: Not Needed Anymore

1.3.3 Integration and Robustness

1.3.4 Fabrication Precision and Repeatability

1.4 AoC: An Inevitable Choice for the Future

1.5 Conclusion

References

2 Design and Implementation Challenges

2.1 Incompatible Silicon Substrate

2.1.1 Low Resistivity of Silicon

2.1.2 High Dielectric Constant of Silicon

2.1.3 Surface Waves

2.2 Limitations of the CMOS Stack-Up

2.3 Modeling and Simulation Challenges

2.3.1 Cosimulation Tools

2.4 Size and Layout Challenges

2.4.1 DRC

2.5 Fabrication Tolerances

2.6 Coupling and Interference Issues

2.6.1 Coupling from the Antenna to the Circuit

2.6.2 Coupling from Circuits to the Antenna

2.7 Characterization Challenges

2.7.1 Reflection from the Probe

2.7.2 Radiation of the Probe

2.7.3 Radiation Blockage or Shadowing

2.7.4 AUT Movement Restrictions

2.7.5 Measurement of Standalone Antennas

2.8 Packaging Challenges

2.9 Conclusion

3 Radiation Enhancement and Measurement Techniques

3.1 Substrate Post-Processing Techniques

3.1.1 Substrate Thinning

3.1.2 High-Resistivity Substrates

3.1.3 Substrate Micromachining

3.2  On-Chip Reflecting Surfaces

3.2.1  AMCs

3.3 Off-Chip Techniques

3.3.1 Dielectric Superstrates

3.3.2 Artificial Dielectric Layers

3.3.3 Dielectric Resonator Loading

3.3.4 Dielectric Lens

3.4 3-D and MEMS-Based Antennas

3.4.1  Suspended Antennas

3.4.2 Vertical Monopoles.

3.4.3 Movable Antennas

3.4.4 BWAs

3.5 Measurement and Characterization Techniques

3.5.1 Mitigating the Effects of On-Chip Circuits

3.5.2 Mitigating the Effects of Measurement Setup

3.6 Conclusion

4 Codesign of Circuits and Antennas

4.1 Codesign Considerations

4.1.1 AoC in Receiver

4.1.2 AoC in Transmitter

4.1.3 AoC in the Transceiver

4.2 Choice of Transistor Technology

4.3 Impedance Matching

4.3.1 LNA-Antenna Matching

4.3.2 PA-Antenna Matching

4.3.3 T/R Switch-Antenna Matching

4.4 Circuit-Compatible Antenna Layout and Design

4.4.1 Size and Layout Codesign

4.4.2 Differential and Single-Ended Feeding

4.4.3 On-Chip Antennas with Added Functionality

4.5 Codesign to Prevent Antenna-Circuit Coupling

4.6 Antenna Circuit Cosimulation

4.7 Codesign of Package and Antenna

4.7.1 Packaging Design Considerations

4.7.2 Packaging Materials

4.7.3 Codesign for Performance Enhancement

4.8 Conclusion

5 AoC Design Example

5.1 Design Flow

5.2 71-GHz Oscillator Transmitter with an On-Chip Monopole Antenna

5.3 Antenna Simulation

5.3.1 Substrate

5.3.2 Antenna Element

5.3.3 AMC

5.3.4 Superstrate Layer

5.3.5 Lens Integrated Package

5.4 Circuit Simulation

5.4.1 Adding a Design Library

5.4.2 Schematic Design

5.4.3 Layout Design

5.4.4 DRC

5.4.5 LVS

5.4.6 Parasitic Extraction

5.4.7 Post-Layout Simulation

5.5 Cosimulation

5.5.1 Simulating the Circuit in EM Simulator

5.5.2 Simulating the Antenna in the IC Simulator

5.6 Fabrication

5.7 Measurement and Characterization

5.7.1 Standalone Characterization

5.7.2 Active Characterization

5.8 Conclusion

6 Future Trends in AoC

6.1 Performance Enhancement: A Continuing Challenge

6.2 Codesign and Multifunctional Role of AoC.

6.3  Specialized Radios and Implantable Applications

6.4 Energy-Harvesting AoCs

6.5 Miniaturization of Low-Frequency AoCs

6.6 Terahertz Applications

6.7 MEMS and CMOS Codesign

6.8 Wireless Networks on Chip

6.9 Future Role of Foundries in AoC

6.10 Advances in Simulation and Measurement

6.11 Conclusion

Acronyms

About the Authors

Index.

Notes:

Description based on publisher supplied metadata and other sources.

Description based on print version record.

Includes bibliographical references and index.

ISBN:

9781523145836

1523145838

9781608078196

1608078191

OCLC:

1263027647