Читать книгу Electrical and Electronic Devices, Circuits, and Materials - Группа авторов - Страница 61

References

Оглавление

1. Z. Awang (2014), Microwave systems design, vol. 9789814451246. Springer Singapore.

2. Jia-Sheng Hong (2011), Microstrip Filters for RF / Microwave Applications, 2nd Edition, Vol. 7.

3. I. A. Glover, S. R. Pennock, and P. R. Shepherd (2006), Microwave Devices, Circuits and Subsystems for Communications Engineering. Wiley.

4. T. K. Ramya, C. J. Bindu, A. Pradeep, B. Paul, and S. Mridula (2015), “Compact tunable filters for broadband applications,” Procedia Comput. Sci., Vol. 46, no. Icict 2014, pp. 957–964.

5. T. Pavlenko (2013), Tunable lumped-element bandpass filters for Cognitive Radio application, Master Thesis, Lappeenranta University of Technology.

6. A. F. Ali (2016), Differential Filters with Tunable Devices, Doctoral Theisis, University of Colorado.

7. J. Shivhare and B. V. R. Reddy (2015), “Compact and Small Sized Single, Double and Multi-Folded Hairpin Line Microstrip Bandpass Filters for RF / Wireless Communications,” International Invention Journal of Engineering Science and Technology, Vol. 2, no. 1, pp. 10–16.

8. Roberto Gómez-García and Xun Gong (2014, August), “Recent Trends on RF/Microwave Tunable Filter Design,” IEEE Microwave Magazine, pp. 28–31.

9. V. G. Harris (2012),“Modern microwave ferrites,” IEEE Trans. Magn., Vol. 48, no. 3, pp. 1075–1104.

10. C. Arnold, J. Parlebas, and T. Zwick (2014), “Reconfigurable waveguide filter with variable bandwidth and center frequency,” IEEE Trans. Microw. Theory Tech., Vol. 62, no. 8, pp. 1663–1670.

11. Huayong Jia (2015), Tunable Microwave Bandpass Filter Design Using the Sequential Method, Master Thesis, University of Regina.

12. X. Zhang, X. Han, M. Balinskiy, and H. X. Tang (2012), “Compact, widely tunable, half-lambda YIG oscillator,” in 2012 IEEE International Frequency Control Symposium, IFCS 2012, Proceedings. pp. 552–554.

13. G. M. Yang, J. Wu, J. Lou, M. Liu, and N. X. Sun (2013), “Low-loss magnetically tunable bandpass filters with YIG films,” IEEE Trans. Magn., vol. 49, no. 9, pp. 5063–5068,

14. X. G. Wang, Y. H. Cho, and S. W. Yun (2012), “A tunable combline bandpass filter loaded with series resonator,” IEEE Trans. Microw. Theory Tech., Vol. 60, no. 6 PART 1, pp. 1569–1576.

15. C. G. Christodoulou, Y. Tawk, S. A. Lane, and S. R. Erwin (2012), “Reconfigurable antennas for wireless and space applications,” Proceedings of the IEEE, Vol. 100, no. 7, pp. 2250–2261.

16. W. Y. Sam and Z. Bin Zakaria (2015), “A Review on Reconfigurable Integrated Filter and Antenna,” Prog. Electromagn. Res. B, vol. 63, pp. 263–273.

17. Y.-H. Cho and G. M. Rebeiz (2014, March)., “Two- and Four-Pole Tunable 0.7–1.1-GHz Bandpass-to-Bandstop Filters With Bandwidth Control,” IEEE Trans. Microw. Theory Tech., Vol. 62, no. 3, pp. 457–463.

18. D Bouyge, A Crunteanu, O Massagué, J Orlianges, C Champeaux, A Catherinot, A Velez, J Bonache,F Martin and Blondy, P (2010)., “Applications of vanadium dioxide (VO2)-loaded electrically small resonators in the design of tunable filters,” in the 40th European Microwave Conference, pp. 822–825.

19. A. Miller and J. S. Hong (2010, January), “Wideband bandpass filter with reconfigurable bandwidth,” IEEE Microw. Wirel. Components Lett., Vol. 20, no. 1, pp. 28–30.

20. G Suo , X Guo , B Cao, B Wei, X Zhang , Z Shang, G Zhang.(2014), “Low loss tunable superconducting dual-mode filter at L-band using semiconductor varactors,” IEEE Microw. Wirel. Components Lett., Vol. 24, no. 3, pp. 170–172.

21. H. Jiang, B. Lacroix, K. Choi, Y. Wang, A. T. Hunt, and J. Papapolymerou (2011, December), “Ka-and U-band tunable bandpass filters using ferroelectric capacitors,” IEEE Trans. Microw. Theory Tech., Vol. 59, no. 12 PART 1, pp. 3068–3075.

22. B. You, S. Lu, L. Chen, and Q. J. Gu (2016, March), “A Half-mode Substrate-Integrated Filter with Tunable Center Frequency and Reconfigurable Bandwidth,” IEEE Microw. Wirel. Components Lett., Vol. 26, no. 3, pp. 189–191.

23. Z. Yajuan, W. Peng, Z. Rong, L. Baoyi, W. Donghong, and W. Fusheng (2018), “A tunable filter based on dumbbell,” 12th Int. Symp. Antennas, Propag. EM Theory, no. 33, pp. 1-4.

24. Jawad K. Ali and Hadi T. Ziboon (2016, October), “Design of compact bandpass filters based on fractal defected ground structure (DGS) resonators,” Indian Journal of Science and Technology, Vol. 9 (39) pp. 1-9.

25. J.G. Hong and M.J. Lancaster, Microstrip filters for RF/ microwave applications, Wiley-Interscience, New York.

26. D. M Pozar (2004), Microwave Engineering, 3rd Edition. John Wiley and Sons Inc.

* Corresponding author: mehul03ec@gmail.com

Electrical and Electronic Devices, Circuits, and Materials

Подняться наверх