Singh / Koul | Reconfigurable Active and Passive Planar Antennas for Wireless Communication Systems | Buch | 978-981-19-6539-5 | www.sack.de

Buch, Englisch, 198 Seiten, Format (B × H): 155 mm x 235 mm, Gewicht: 341 g

Reihe: Signals and Communication Technology

Singh / Koul

Reconfigurable Active and Passive Planar Antennas for Wireless Communication Systems


1. Auflage 2022
ISBN: 978-981-19-6539-5
Verlag: Springer Nature Singapore

Buch, Englisch, 198 Seiten, Format (B × H): 155 mm x 235 mm, Gewicht: 341 g

Reihe: Signals and Communication Technology

ISBN: 978-981-19-6539-5
Verlag: Springer Nature Singapore

This book presents state-of-the-art trends in reconfigurable active and passive planar antennas and their applications in wireless communication systems operating in the frequency band 5-6 GHz. Due to various key features such as multifunction antenna design, compactness, planar nature, and low cost, these technologies are becoming popular for current and future wireless applications. This book discusses different novel antenna designs and their working principles in detail. The modern and future wireless systems require wideband antennas to accommodate various channels in a single band or in separate bands. The carrier aggregation (CA) has been introduced in the modern wireless systems such as LTE-advanced systems and 5G./6G. In CA, a device can use several channels for transmission and reception. The used channels can exist in the same frequency band (intra-band CA) or in distinct bands (inter-band CA). To accommodate more channels, more bandwidth is required within the operating band. For portable devices, circularly polarized (CP) antennas are more advantageous over linearly polarized antennas since in CP antennas, there is low risk of misalignment and, hence encountering interference. Circularly polarized antenna also provides higher link reliability for the portable devices. To provide high data rates, more bandwidth is needed to accommodate more channels. Various multifunction, compact, and wideband antennas for plethora of applications are addressed in detail in this book. The scope of developing reconfigurable active antennas for application in beam switching, beam steering, wireless charging, security systems, etc., is described. This book concludes by giving glimpses of antenna requirements for future wireless communication systems.


Singh / Koul Reconfigurable Active and Passive Planar Antennas for Wireless Communication Systems jetzt bestellen!

Zielgruppe

Professional/practitioner

Autoren/Hrsg.

Singh, Rajesh K.
Koul, Shiban Kishen

Fachgebiete

Weitere Infos & Material

1.                  Introduction

1.1       Introduction

            1.2       Planar Antennas

                        1.2.1    Passive Antennas

                        1.2.2    Active Antennas

            1.3       Advantages of Planar Antennas

1.4       RF Switches and Their Performance

            1.5     Switch Modeling Techniques

            1.6       Conclusion

References

 

2.              2     Principles of Re-configurability

            2.1       Introduction

            2.2       Basic Theory of Reconfigurability

            2.3       Frequency Reconfigurability

            2.4       Polarization Reconfigurability

            2.5       Radiation Pattern Reconfigurability

            2.6       Compound Reconfigurability

            2.7       Conclusion

                        References

  3.       Active Integrated Antennas and Their Modeling

            3.1       Introduction

            3.2       Oscillator Type Active Antennas

3.3       Condition of Oscillation

3.4       Negative Resistance Type Oscillator antennas

3.5       Feedback Type Oscillator Antennas

3.6       Advantages of Feedback Type Oscillator Antennas

3.7       Conclusion

                        References

4.         Frequency Reconfigurable Passive and Active Antennas

4.1       Introduction

            4.2       Passive Reconfigurable Antenna using different approaches

            4.3       Discrete Frequency Switchable Antennas

            4.4       Continuous Frequency switchable Antennas

            4.5       Concept of Obtaining Higher and Lower Resonance

            4.6       Active Reconfigurable Antennas using different approaches

            4.7       Conclusion

                        References

5.         Polarization Switchable Passive and Active Antennas

            5.1       Introduction

5.2       Concept of polarization

5.3       Passive Reconfigurable Microstrip Antennas

                        5.3.1    Design with a Pair of Diagonally Truncated Corners

                        5.3.2    Design with a Single Truncated Corner

                        5.3.3    Design with a Stub Placed at Corner

                        5.3.4    Design with an additional Patch

            5.4       Passive reconfigurable Slot Antennas

                        5.4.1    Design of Narrow band antennas

                        5.4.2 Design of Wideband Antennas

            5.5       Active Reconfigurable Microstrip Antenna using different approaches

            5.6       Conclusion

                        References

 6.        Radiation Pattern Reconfigurable Passive and Active

        Antennas

            6.1       Introduction

            6.2       Concept of Radiation Beam Reconfigurability in Antennas

            6.3       Passive Beam Reconfigurable Antennas

            6.4       Approaches in Beam Reconfigurability in Active Antennas

            6.5       Active Beam Reconfigurable Antennas

            6.6       Conclusion

                        References

7.         Radiation Pattern Switchable Passive and Active Antennas

         7.1       Introduction

         7.2       Beam Switchable Antennas

         7.3       Passive Beam Switchable Antennas

         7.4       Null steering Passive antennas

         7.5       Active Beam Switchable Antennas

7.6       Conclusion

                     References

8.         Compound Reconfigurable Passive and Active Antennas

         8.1       Introduction

         8.2       Frequency and Polarization Reconfigurable Antennas

                     8.2.1    Polarization Switching at Dual-Frequencies

8.2.2    Polarization Switching at Triple-Frequencies

8.2.3    Polarization Switching at Quadruple-Frequencies

         8.3       Radiation Pattern and Polarization Reconfigurable Antennas

         8.4       Frequency and Radiation Pattern Reconfigurable Antennas

         8.5       Summary

  References

 

9.            Applications of Reconfigurable Antennas in Wireless

    Communication Systems

         9.1       Introduction

         9.2       Compound Reconfigurable Antennas Applications

         9.3       Compact Reconfigurable Antennas Applications

         9.4       Active reconfigurable Antennas Applications

         9.5       Conclusion

                     References

10.       Future Directions

         10.1     Introduction          10.2     Scope of Active Antennas in Power Combining Arrays          10.3     Use of More Reliable and High Power Handling Switches          10.4     Use of a Low Insertion Loss and highly Isolated Switches          10.5   Non-Linearity of Switches at High RF Power          10.6   Conclusion References

Index

Shiban K Koul is an Emeritus Professor at the Indian Institute of Technology, Delhi. His research interests include: RF MEMS, High Frequency Wireless Communication, Microwave Engineering, Microwave Passive and Active Circuits, Device modeling, Millimeter wave IC Design, and Reconfigurable Microwave Circuits including Antennas. He has successfully completed 38 major sponsored projects, 52 consultancy projects and 60 technology development projects. He has authored 475 research Papers, 12 state-of-the art Books, 3 Book Chapters and 2 E-books. He holds 13 patents and 6 copyrights. He is a Life Fellow of IEEE and Fellow of INAE and IETE.  He is the Chief Editor of IETE Journal of Research and Associate Editor of the International Journal of Microwave and Wireless Technologies, Cambridge University Press. He served as a Distinguished Microwave Lecturer of IEEE MTT-S for the period 2012-2014. He is recipient of numerous awards including IEEE MTT Society Distinguished Educator Award (2014) and Teaching Excellence Award (2012) from IIT Delhi etc.
Rajesh K Singh received  his Ph.D. degree in microwave engineering from the Indian Institute of Technology, Delhi, India in 2018. He is currently a Post-Doctoral Researcher at the Microwave and Radiation Laboratory, Department of Information Engineering, University of Pisa, Pisa, Italy. His current research interests include the development of active integrated antennas, reconfigurable antennas for current and future communication systems and glove integrated antennas for near field UHF-RFID readers. He has authored more than 25 international journal articles and conference contributions. He served as Chairman (2016-2018) of the IEEE MTT-S Student Branch Chapter of Indian Institute of Technology Delhi, India. Dr. Singh is a recipient of the Young Scientist Award for the International Union of Radio Science (URSI) General Assembly and Scientific Symposium (GASS) 2020.

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