帶通圓形極化頻率選擇面之設計

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姓名

盧盈維(Ying-wei Lu) 查詢紙本館藏

畢業系所

電機工程學系

論文名稱

帶通圓形極化頻率選擇面之設計
(Design of Linear-to-Circular Polarization Converter Using Frequency Selective Surface)

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至系統瀏覽論文 ( 永不開放)

摘要(中)

本論文提出線性極化轉圓極化的頻率選擇面極化器之設計方法。將一個線性偏極化的天線置於適當的位置，當此天線輻射的電場穿透所設計的頻率選擇面時，使之能轉換為圓形偏極化的輻射遠場。頻率選擇面屬於微波被動電路，它在文獻中已有多樣的功能被提出。在本研究中，將頻率選擇面設計緊密地結合了微波電路與微波濾波器的設計觀念，提供了相當明確的設計流程。首先提出等效電路，再設計頻率選擇面的方式，此方法在相關文獻中是少見的。在論文中所提出的設計方式，提供了相當高的設計自由度，包含中心頻率、頻寬與基板的選用……等。頻率選擇面的實測結果在電路模擬已能夠被預估。本研究以簡單的十字型槽孔單元結構實現圓極化頻率選擇面，可應用在X頻段衛星傳訊系統。本論文所提出的雙層圓極化頻帶範圍涵蓋9.203 GHz到10.765 GHz，相對於中心頻率10 GHz的軸比頻寬(軸比值< 3 dB)達15.6%，並解決了文獻中透射式的頻率選擇面極化器，一半能量損耗的問題。模擬與量測結果在論文中均有詳細地分析與比較。

摘要(英)

The thesis presents a design method to realize frequency selective surfaces (FSS) polarizer which can convert linear polarization to circular polarization. Let a linearly-polarized antenna placed at the appropriate location to make the electric field of the antenna propagate through the designed FSS. The electric field can be converted into the one of circular polarization. FSSs are microwave passive circuits. A variety of designs have been proposed in the literature. In our study, how to design the FSS is based on the microwave filter design concept. Also, the clear design process is presented. The proposed FSS design integrates the microwave filter design concept closely. The equivalent circuit of the filter is first designed, and then the frequency selective surface is realized. The proposed method is not only rare in the literature, it also provides a very high-level design freedom, including the center frequency, bandwidth, substrate selection, and so on. Measured results of the FSS can be estimated by circuit simulator. In this study, a simple cross-shaped slot unit cell is used to realize circularly polarized FSS, which can be used in X-band satellite communications systems. The proposed dual-layer circularly polarized FSS covers 9.203 to 10.765 GHz. The 3-dB axial ratio bandwidth is up to 15.6% with the center frequency of 10 GHz .It also solves the penetration-type FSS polarizer’s 50% energy loss problem in literature. Simulated and measured results are analyzed and compared.

關鍵字(中)

★ 天線
★ 圓形極化
★ 線性極化
★ 帶通濾波器
★ 頻率選擇面

關鍵字(英)

★ frequency selective surface
★ antenna
★ circurly polarization
★ linear polarization
★ bandpass filter

論文目次

摘要i
Abstractii
致謝iii
目錄iv
圖目錄vi
第一章緒論1
1-1 研究動機1
1-2 文獻回顧3
1-3 章節介紹4
第二章單通道頻率選擇面設計5
2-1 簡介5
2-2 單通道頻率選擇面之等效電路6
2-2-1 一階帶通濾波器6
2-2-2 導納轉換器電路設計8
2-2-3 二階帶通濾波器10
2-3 單通道頻率選擇面之電磁模擬12
2-3-1 頻率選擇面尺寸參數分析12
2-3-2 一階帶通濾波器19
2-3-3 二階帶通濾波器22
2-4 結論27
第三章圓形極化之頻率選擇面設計28
3-1 簡介28
3-2 頻率選擇面極化器之等效電路30
3-2-1 雙通道一階帶通濾波器30
3-2-2 雙通道二階帶通濾波器34
3-3 圓形極化頻率選擇面之全波模擬42
3-3-1 饋入天線介紹42
3-3-2 雙通道一階帶通濾波器44
3-3-3 雙通道二階帶通濾波器53
3-4量測結果59
3-4-1單層頻率選擇面極化器59
3-4-2雙層頻率選擇面極化器63
3-5 結論73
第四章總結74
參考文獻75
附錄78

參考文獻

[1]D. M. Pozar, Microwave Engineering, 3nd ed. New York:Wiley, 2005.
[2]J.-S. G. Hong and M. J. Lancaster, Microstrip Filters for RF/Microwave Applications. New York: Wiley, 2001.
[3]B. A. Munk, Frequency Selective Surfaces: Theory and Design. New York: Wiley, 2003.
[4]T. K. Wu, Frequency Selective Surface and Grid Array. John Wiley & Sons Canada, 1995.
[5]John D. Kraus, Ronald J. Marhefka, Antenna For All Applications, 3nd ed., McGraw Hill, 2001.
[6]S.-C. Chiu and S.-Y. Chen, "High-gain circularly polarized resonant cavity antenna using FSS superstrate," in Proceedings IEEE International Symposium on Antennas and Propagation, July 2011, pp. 2242-2245.
[7]K. Hettak, G. A. Morin and M. G. Stubbs, "Compact MMIC CPW and asymmetric CPS branch-line couplers and Wilkinson dividers using shunt and series stub loading," IEEE Transactions on Microwave Theory and Techniques, vol. 53, no. 5, pp. 1624- 1635, May 2005.
[8]M. Ohira, H. Deguchi, M. Tsuji, and H. Shigesawa, "Novel waveguide filters with multiple attenuation poles using dual-behavior resonance of frequency-selective surfaces," IEEE Transactions on Microwave Theory and Techniques, vol. 53, no.11, pp. 3320-3326, Nov. 2005.
[9]L. Moustafa and B. Jecko, "Design of a wideband highly directive EBG antenna using double-layer frequency selective surfaces and multifeed technique for application in the Ku-band," IEEE Antennas and Wireless Propagation Letters, vol. 9, pp. 342-346, 2010.
[10]E. Arnaud, R.Chantalat, M. Koubeissi, T. Monediere, E. Rodes, and M. Thevenot, "Global design of an EBG antenna and meander-line polarizer for circular polarization," IEEE Antennas and Wireless Propagation Letters, vol. 9, pp. 215-218, 2010.
[11]B.Y. Toh, R. Cahill, and V.F. Fusco, "Understanding and measuring circular polarization," IEEE Transactions on Education, vol. 46, no. 3, pp. 313- 318, Aug. 2003.
[12]N. Behdad, M. Al-Joumayly, M. Salehi, "A low-profile third-order bandpass frequency selective surface," IEEE Transactions on Antennas and Propagation, vol. 57, no. 2, pp. 460-466, Feb. 2009.
[13]P. Deo, A. Mehta, D. Mirshekar-Syahkal, H. Nakano, "An HIS-based spiral antenna for pattern reconfigurable applications," IEEE Antennas and Wireless Propagation Letters, vol. 8, pp. 196-199, 2009.
[14]C. Han, C. Rodenbeck, J. Huang, and K. Chang, "A C/ka dual frequency dual layer circularly polarized reflectarray antenna with microstrip ring elements," IEEE Transactions on Antennas and Propagation, vol. 52, no.11, pp. 2871- 2876, Nov. 2004.
[15]G. Y. Chen and J.S. Sun , "A printed dipole antenna with microstrip tapered balum, " Microwave and Optical Technology Letters, vol. 40, pp. 344-346, July 2003.
[16]G. Q. Luo, W. Hong, H. J. Tang, J. X. Chen, X. X. Yin, Z. Q. Kuai, K. Wu, "Filtenna consisting of horn antenna and substrate integrated waveguide cavity FSS," IEEE Transactions on Antennas and Propagation, vol. 55, no. 1, pp. 92-98, Jan. 2007.
[17]M. A. Al-Joumayly, N. Behdad, "Low-profile, highly-selective, dual-band frequency selective surfaces with closely spaced bands of operation," IEEE Transactions on Antennas and Propagation, vol. 58, no. 12, pp. 4042-4050, Dec. 2010.
[18]Y. Ranga, L. Matekovits, K.P. Esselle,; Weily, A.R, "Multioctave Frequency Selective Surface Reflector for Ultrawideband Antennas," IEEE Antennas and Wireless Propagation Letters, vol. 10, pp. 219-222, 2011.
[19]M. Euler, V. Fusco, R. Cahill, R. Dickie, "325 GHz single layer sub-millimeter wave FSS based split slot ring linear to circular polarization convertor," IEEE Transactions on Antennas and Propagation, vol. 58, no. 7, pp. 2457-2459, July 2010.
[20]G.I. Kiani, V. Dyadyuk, "Quarter-wave plate polariser based on frequency selective surface," In Proceedings of the 40th European, Microwave Conference, 2010, pp. 1361-1364.
[21]X.-D. Hu, X.-L. Zhou, L.-S. Wu, L Zhou, and W.-Y. Yin, "A novel dual-band frequency selective surface (FSS)," in Proceedings Asia-Pacific Microwave Conference, Dec. 2009, pp. 1227-1230.
[22]Y. Li, K. P. Esselle, "Analysis and design of 2D Planar, metallic, periodic structures using the coupled field expansion method," In Proceedings of the Second European Conference on Antennas and Propagatio, Nov. 2007, pp. 1-5.
[23]B. A. Munk, P. Munk, J. Pryor, "On designing jaumann and circuit analog absorbers (CA absorbers) for oblique angle of incidence," IEEE Transactions on Antennas and Propagation, vol. 55, no.1, pp. 186-193, Jan. 2007.

指導教授

丘增杰(Tsen-chieh Chiu)

審核日期

2012-7-17

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