Читать книгу Non-Volatile CBRAM/MIM Switching Technology for Electronically Reconfigurable Passive Microwave Devices - Etienne Perret - Страница 2

1  Cover

2  Title Page

3  Copyright

4  Preface

5  1 Motivation and Background: RF Switches and the Need for a Non-Volatile RF Switch 1.1. Introduction 1.2. Requirements and definition of a switch at RF and microwave frequencies 1.3. Review of RF and microwave switching technologies 1.4. State of the art of CBRAM/MIM RF switching technology 1.5. Demand for a non-volatile RF switch and selection of CBRAM/MIM technology 1.6. Conclusion

6  2 Real-World Implementation Challenges of a Low-Cost Non-Volatile RF Switch 2.1. Introduction 2.2. CBRAM-based fully passive solid-state RF switch on classic RF substrates: design and process optimization 2.3. Electrical equivalent model analysis 2.4. Effect of filament resistance of CBRAM switches on RF transmission 2.5. Time stability, switching cycles and other interesting features 2.6. Fabrication technique for realization of CBRAM/MIM RF switches on flexible substrates 2.7. Application example: design and realization of solid-state non-volatile SPDT switch 2.8. Conclusion

7  3 Solid-State Rewritable Chipless RFID Tags: Electronically Rewritable RF Barcodes 3.1. Introduction: chipless RFID technology 3.2. Chipless RFID reader system used in this experiment 3.3. Realization of solid-state electronically rewritable chipless RFID tags 3.4. Effect of CBRAM/MIM filament resistance on RCS characteristics of presented electronically rewritable resonators 3.5. Electrical equivalent model of electronically rewritable chipless RFID tags 3.6. Discussion of data encoding strategies for electronically rewritable chipless RFID tags based on CBRAM/MIM technology 3.7. Advantages of using integrated CBRAM/MIM switches for chipless RFID applications 3.8. Conclusion

8  4 Fully Passive Solid-State Electronically Reconfigurable Filter and Antenna Models 4.1. Introduction 4.2. CBRAM-MIM switches for electronically reconfigurable filter applications 4.3. MIM switches for electronically pattern reconfigurable antenna applications 4.4. Advantages of using proposed CBRAM RF switch technology for reconfigurable antenna and filter applications 4.5. Conclusion

9  Conclusion

10  Appendix A.1. Observation of conductive filament formation in CBRAM/MIM switching cells

11  References

12  Index

13  End User License Agreement