5G and Satellite RF and Optical Integration.
| Main Author: | |
|---|---|
| Format: | Licensed eBooks |
| Language: | English |
| Published: |
Norwood :
Artech House,
2022.
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| Online Access: | https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=3534282 |
Table of Contents:
- Intro
- 5G and Satellite RF and Optical Integration
- Contents
- Preface
- The Best of Three?
- References
- Acknowledgments
- Chapter 1 5G Radio Spectrum Including RF C Band: Link Budgets and Active and Passive Device Efficiency
- 1.1 New Radio: The FR 1 Bands
- 1.2 FR1 C Band
- 1.3 The FR2 Bands
- 1.4 Smart Phone RF Front Ends
- 1.5 5G Standards Including NTNs
- 1.6 What Bands and Technologies Are Supported in Present Smart Phones?
- 1.7 Can I Make a Phone Call on My 5G Satellite Phone?
- 1.8 Defining the S-RAN and the Role of the G-WON
- 1.9 Summary
- Appendix 1A Resources and References
- End Notes
- Chapter 2 Optical C Band Link Budgets and Active and Passive Device Efficiency
- 2.1 The Best Way to Move Bits About?
- 2.2 Guided Versus Unguided Media
- 2.3 Impact of Device Efficiency on Guided and Unguided Media
- 2.4 Optical Modulation and Optical Band Options for Terrestrial Fiber and Free-Space Optical Transmission
- 2.5 Device Performance
- 2.5.1 Device Challenges for Wavelength-Division Multiplexing
- 2.5.2 Device Efficiency Comparisons
- 2.6 Modulation in Short, Medium, and Long-Haul Terrestrial Fiber
- 2.7 The Role of the Digital Signal Processor in RF and Optical Terrestrial and Space Networks and Legacy Copper
- 2.8 The Copper-to-Fiber Transition and the Passive Optical Network
- 2.9 PONs and the 5G RAN
- 2.9.1 PON Performance in the 5G RAN
- 2.9.2 Single-Mode and Multimode Fiber-Connector Loss and Other Losses
- 2.9.3 Differentiating Intrinsic and Extrinsic Losses
- 2.10 Active Optical Networks
- 2.11 The 5G C-RAN, D-RAN, S-RAN, Fronthaul, Midhaul, Backhaul, Long-Haul Links
- 2.12 Longhaul to Fronthaul
- 2.13 Impact of H-ARQ on Fronthaul Latency
- 2.14 Common Public Radio Interface and Enhanced CPRI Standards
- 2.14.1 Standards Groups
- 2.14.2 Fronthaul, Midhaul, and Integrated Access Backhaul (IAB)
- 2.14.3 Passive Optical, Active Optical, and Point-to-Point Wireless Integration
- 2.15 Point-to-Point Wireless V Band, E Band, W Band, and D Band
- 2.16 5G Networks in 2023-Optical and RF Backhaul Options
- 2.17 E Band Point to Point Radios
- 2.18 Copper Versus Fiber to the Desk and Fiber to the Sofa (5G TV)
- 2.19 Plastic Optical Fiber (POF)
- 2.19.1 POF in the Home
- 2.19.2 POF in Automotive and Medical Markets
- 2.20 Power Over Guided and Unguided Media
- 2.20.1 Power Over Copper and Cable and Fiber
- 2.20.2 Power Over Free Space-RF and Optical Systems
- 2.21 Subsea Optical C Band
- 2.22 Power Over Subsea Cable
- 2.23 RF and Optical Band Plan
- 2.24 Summary
- End Notes
- Additional References and Resources
- Chapter 3 RF over Fiber
- 3.1 Is Analog the Answer?
- 3.2 Direct and Indirect Digital and Analog Modulation
- 3.3 The Role of Analog Optical Transport in 5G eMBB, URLLC Repeater Applications , and Band-Access Backhaul