Substrate-integrated millimeter-wave antennas for 5G/B5G communications and next-generation radars. (2021)
- Record Type:
- Book
- Title:
- Substrate-integrated millimeter-wave antennas for 5G/B5G communications and next-generation radars. (2021)
- Main Title:
- Substrate-integrated millimeter-wave antennas for 5G/B5G communications and next-generation radars
- Further Information:
- Note: Edited by Zhi Ning Chen, Xianming Qing.
- Editors:
- Chen, Zhi Ning
Qing, Xianming - Contents:
- Editor biographies – to follow Contributors Preface to follow Chapter 1 Introduction to Millimeter Wave Antennas 1.1 Millimeter Waves 1.2 Propagation of Millimeter Waves 1.3 Millimeter Wave Technology 1.3.1 Important Features 1.3.2 Major Modern Applications 1.4 Unique Challenges of Millimeter Wave Antennas 1.5 Briefing of State-of-the-Art Millimeter Wave Antennas 1.6 Implementation Considerations of Substrate Integrated Millimeter Wave Antennas 1.6.1 Fabrication Processes and Materials of the Antennas 1.6.2 Commonly Used Transmission Line Systems for Antennas 1.7 Note on Losses in Microstrip-lines and Substrate Integrated Waveguides 1.8 Update of Millimeter Wave Technology in 5G and Beyond 1.9 Summary References Chapter 2 Measurement Methods and Setups of Antennas at 60 - 325-GHz Bands 2.1 Introduction 2.1.1 Far-field Antenna Measurement Setup 2.1.2 Near-field Antenna Measurement Setup 2.2 Sate-of-the-art mmW Measurement Systems 2.2.1 Commercially Available mmW Measurement Systems 2.2.2 Customized mmW Measurement Systems 2.3 Considerations for Measurement Setup Configuration 2.3.1 Near-field versus Compact Range 2.3.2 RF System 2.3.3 Interface Between the RF Instrument and AUT 2.3.4 On-Wafer Antenna Measurement 2.4 mmW Measurement Setup Examples 2.4.1 60-GHz Antenna Measurement Setup 2.4.2 140-GHz Antenna Measurement Setup 2.4.3 270-GHz Antenna Measurement Setup 2.5 Summary References Chapter 3 Substrate Integrated mmW Antennas in LTCC 3.1 Introduction 3.1.1 Unique DesignEditor biographies – to follow Contributors Preface to follow Chapter 1 Introduction to Millimeter Wave Antennas 1.1 Millimeter Waves 1.2 Propagation of Millimeter Waves 1.3 Millimeter Wave Technology 1.3.1 Important Features 1.3.2 Major Modern Applications 1.4 Unique Challenges of Millimeter Wave Antennas 1.5 Briefing of State-of-the-Art Millimeter Wave Antennas 1.6 Implementation Considerations of Substrate Integrated Millimeter Wave Antennas 1.6.1 Fabrication Processes and Materials of the Antennas 1.6.2 Commonly Used Transmission Line Systems for Antennas 1.7 Note on Losses in Microstrip-lines and Substrate Integrated Waveguides 1.8 Update of Millimeter Wave Technology in 5G and Beyond 1.9 Summary References Chapter 2 Measurement Methods and Setups of Antennas at 60 - 325-GHz Bands 2.1 Introduction 2.1.1 Far-field Antenna Measurement Setup 2.1.2 Near-field Antenna Measurement Setup 2.2 Sate-of-the-art mmW Measurement Systems 2.2.1 Commercially Available mmW Measurement Systems 2.2.2 Customized mmW Measurement Systems 2.3 Considerations for Measurement Setup Configuration 2.3.1 Near-field versus Compact Range 2.3.2 RF System 2.3.3 Interface Between the RF Instrument and AUT 2.3.4 On-Wafer Antenna Measurement 2.4 mmW Measurement Setup Examples 2.4.1 60-GHz Antenna Measurement Setup 2.4.2 140-GHz Antenna Measurement Setup 2.4.3 270-GHz Antenna Measurement Setup 2.5 Summary References Chapter 3 Substrate Integrated mmW Antennas in LTCC 3.1 Introduction 3.1.1 Unique Design Challenges and Promising Solutions 3.1.2 SIW Slot Antennas and Arrays in LTCC 3.2 High-gain mmW SIW Slot Antenna Arrays in LTCC 3.2.1 SIW Three-Dimensional Corporate Feed 3.2.2 Substrate Integrated Cavity Antenna Array at 60 GHz 3.2.3 Simplified Designs and High-order-mode Antenna Array at 140 GHz 3.2.4 Fully Substrate Integrated Antennas at 270 GHz 3.3 Summary References Chapter 4 Broadband Metamaterial-Mushroom Antenna Array at 60-GHz Bands 4.1 Introduction 4.2 Broadband Low-Profile CRLH-Mushroom Antenna 4.2.1 Working Principle 4.2.2 Impedance Matching 4.3 Broadband LTCC Metamaterial-Mushroom Antenna Array at 60 GHz 4.3.1 SIW Fed CRLH-Mushroom Antenna Element 4.3.2 Self-Decoupling Functionality 4.3.3 Self-Decoupled Metamaterial-Mushroom Subarray 4.3.4 Metamaterial-Mushroom Antenna Array 4.4 Summary References Chapter 5 Narrow-Wall-Fed Substrate Integrated Cavity Antenna at 60 GHz 5.1 Introduction 5.2 Broadband Techniques for Substrate Integrated Antennas 5.2.1 Enhancement of Impedance Matching for SIW Antennas 5.2.2 Multi-Mode Substrate Integrated Cavity Antennas 5.2.3 Substrate Integrated Cavity Backed Slot Antenna 5.2.4 Patch Loaded Substrate Integrated Cavity Antenna 5.2.5 Travelling-wave Elements Loaded Substrate Integrated Cavity Antenna 5.3 SIW Narrow Wall Fed SIC Antennas at Ka- and V-bands 5.3.1 SIW Narrow Wall Fed SIC Antenna 5.3.2 SIW Narrow Wall Fed SIC Antenna Array at 35 GHz 5.3.3 60-GHz SIW Narrow Wall Fed SIC Antenna Array 5.4 Summary References CHAPTER 6 Cavity-Backed SIW Slot Antennas at 60 GHz 6.1 Introduction 6.2 Operating Principle of the Cavity-backed Antenna 6.2.1 Configuration 6.2.2 Analysis of the Backing-cavity 6.2.3 Design of the Backing-cavity 6.3 Cavity-backed SIW Slot Antenna 6.3.1 Feeding techniques 6.3.2 The SIW Backing-cavity 6.3.3 Radiating Slot 6.4 Types of SIW CBSAs 6.4.1 Wideband CBSAs 6.4.2 Dual-band CBSAs 6.4.3 Dual-polarized and Circularly Polarized CBSAs 6.4.4 Miniaturized CBSAs 6.5 CBSA Design Examples at 60 GHz 6.5.1 SIW CBSA with Different Slot WLR 6.5.2 Array Examples with Different WLRs of Slot 6.6 Summary References Chapter 7 Circularly Polarized SIW Slot LTCC Antennas at 60 GHz 7.1 Introduction 7.2 Key Techniques of mmW CP Antenna Array 7.2.1 Antenna Element Selection 7.2.2 AR Bandwidth Enhancement Methods 7.3 Wideband CP LTCC SIW Antenna Array at 60 GHz 7.3.1 Wideband AR Element 7.3.2 Isolation Consideration 7.3.3 Experiment Results and Discussion 7.4 Summary References Chapter 8 Gain Enhancement of LTCC Microstrip Patch Antenna by Suppressing Surface Waves 8.1 Introduction 8.1.1 Surface waves in microstrip patch antennas 8.1.2 Surface waves effects on microstrip patch antenna 8.2 State-of-The-Art Methods for Suppressing Surface Waves in Microstrip Patch Antennas 8.3 Microstrip Patch Antennas with Partial Substrate Removal 8.3.1 Technique of partial substrate removal 8.3.2 60-GHz LTCC antenna with partial substrate removal 8.4 Summary References Chapter 9 Substrate Integrated Antennas for Millimeter Wave Automotive Radars 9.1 Introduction 9.1.1 Automotive Radar Classification 9.1.2 Frequency Bands for Automotive Radars 9.1.3 Comparison of 24-GHz and 77-GHz Bands 9.1.4 Antenna System Considerations for Automotive Radar Sensors 9.1.5 Fabrication and Packaging Considerations 9.2 Sate-of-the-Art Antennas for 24-GHz and 77-GHz Automotive Radars 9.2.1 Selected state-of-the-Art Antennas for 24-GHz Automotive Radars 9.2.2 Selected state-of-the-Art Antennas for 77-GHz Automotive Radars 9.3 Single-layer SIW Slot Antenna Array for 24-Ghz Automotive Radars 9.3.1 Antenna Configuration 9.3.2 Slot Array Design 9.3.3 Feeding Network Design 9.3.4 Experiment Results 9.4 Transmit-array Antenna for 77-Ghz Automotive Radars 9.4.1 Unit Cell 9.4.2 Four-beam Transmit-array 9.4.3 Results 9.5 Summary References Chapter 10 Sidelobe Reduction of Substrate Integrated Antenna Arrays at Ka-Band 10.1 Introduction 10.2 Feeding Networks for Substrate Integrated Antenna Array 10.2.1 Series Feeding Network 10.2.2 Parallel/Corporate Feeding Network 10.2.3 Flat Lens/Reflector-Based Quasi-Optics Feeding Network 10.2.4 Power Dividers 10.3 SIW Antenna Arrays with Sidelobe Reduction at Ka-Band 10.3.1 Double-layer 8×8 SIW Slot Array 10.3.2 16×16 Monopulse SIW Slot Array 10.4 Summary References Chapter 11 Substrate Edge Antennas 11.1 Introduction 11.2 State-of-the-Art 11.2.1 End-fire SEAs 11.2.2 Leaky-wave SEAs 11.3 Tapered Strips for Wideband Impedance Matching 11.3.1 Tapered Triangular Strips 11.3.2 Tapered Rectangular Strips 11.4 Embedded Planar Lens for Gain Enhancement 11.4.1 Embedded Metallic Lens 11.4.2Embedded Gap Lens 11.5 Prism Lens for Broadband Fixed-Beam Leaky-wave SEAs 11.6 Summary References … (more)
- Edition:
- 1st
- Publisher Details:
- Hoboken : Wiley-IEEE Press
- Publication Date:
- 2021
- Extent:
- 1 online resource
- Subjects:
- 621.3824
Antennas (Electronics)
Cell phone systems -- Antennas
Radar -- Antennas
Millimeter wave devices - Languages:
- English
- ISBNs:
- 9781119611158
9781119611127 - Related ISBNs:
- 9781119611110
- Notes:
- Note: Description based on CIP data; resource not viewed.
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