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系統識別號 U0026-0812200915313164
論文名稱(中文) 新型可調式多通道光塞取多工器架構於4×4陣列波導光柵與多重可調整布雷格光柵濾波器
論文名稱(英文) Novel Multi-Channels Reconfigurable Optical Add-Drop Multiplexer based on 4x4 Array-Wavelength Grating and Multiple Tunable Fiber Gratings
校院名稱 成功大學
系所名稱(中) 機械工程學系專班
系所名稱(英) Department of Mechanical Engineering (on the job class)
學年度 97
學期 2
出版年 98
研究生(中文) 李德文
研究生(英文) Te-Wen Lee
學號 n1795111
學位類別 碩士
語文別 中文
論文頁數 78頁
口試委員 口試委員-于劍平
指導教授-羅裕龍
口試委員-蔡政穆
口試委員-劉文豐
中文關鍵字 可調式光塞取多工器  布雷格光柵  陣列波導光柵  高密度分波多工器 
英文關鍵字 Dense wavelength division multiplexed (DWDM)  Reconfigurable Optical Add-Drop Multiplexer (ROA  Fiber Bragg gratings(FBGs)  Arrayed waveguide gratings(AWGs) 
學科別分類
中文摘要 在本論文中,我們提出4×4陣列波導光柵與多重可調布雷格光柵濾波器之結構,實現一可調式可重組態光塞取多工器的光通訊網路節點,藉由陣列波導光柵之具有內插自由波長頻域特徵,本論文使用可調式布雷格光柵濾波,調整光柵中心波長訊號範圍,在光塞取多工器的其他通道和功能中,實驗驗證顯示沒有光訊號重疊與干涉問題產生,並且可利用陣列波導光柵之週期波長循環性質處理訊號程序,超過陣列波導光柵之實際硬體光通道數量,而且本研究使用微處理器控制加熱器之技術,可以精密調整布雷格光柵濾波之中心波長移位;事實上,可調式光塞取多工器,架構於陣列波導光柵與多重可調整布雷格光柵濾波已成功應用光塞取之功能,超過陣列波導光柵之多通道數量。
英文摘要 A 4x4 array-wavelength grating (AWG) with multiple tunable fiber Bragg gratings (FBGs) is presented to realize an unlimited multi-channels reconfigurable optical add-drop multiplexer (ROADM) node. By using the AWG interleaving wavelength characteristic, the proposal employs the tunable FBGs, which can modulate a wide range of Bragg wavelength without overlapping and/or interfering the spectra of the other channels signal, to carry out the add-drop function. Moreover, the AWG cycle wavelength property can be applied to process multiple channels signal beyond the number of AWG channels. The heater with microcomputer-controlling technique is realized to precisely modulate the Bragg wavelength for proving the shift of the Bragg wavelengths. As a result, a ROADM based on the AWG and multiple tunable FBGs has successfully added and dropped the multi-channels beyond the number of AWG channel.
論文目次 目錄
摘要 I
英文摘要 II
誌謝………………………………………………………………………….III
目錄 IV
表目錄 VI
圖目錄 VII
第一章 緒論 1
1.1 前言 1
1.2 研究動機 2
1.3 研究目的與方法 3
1.4 章節瀏覽 3
第二章 文獻回顧 5
2.1 光塞取多工器簡介 5
2.2 功能種類 6
2.3架構節點與技術失敗 10
第三章 原理與功能 11
3.1 陣列波導光柵原理與功能 11
3.1.1 原理 11
3.1.2 多工與解多工…………………………………………………..13
3.2 布雷格光柵原理功能 16
3.3 新型可調式多通道光塞取多工器 18
3.3.1 原理功能 18
3.3.2 操作實例 20
第四章 實驗與結果 21
4.1 驗證實驗 21
4.1.1白光頻譜通過迴光器 21
4.1.2布雷格光柵反射能量 23
4.1.3布雷格光柵排列順序影響反射能量 24
4.1.4光塞取多工器之布雷格光柵未調變實驗與結果 28
4.2新型可調式多通道光塞取多工器實驗結果 31
4.2.1 從輸入埠到輸出埠穿透實驗與結果…………………..……….31
4.2.2 從輸入埠到分出端反射實驗與結果 37
4.2.3 插入端到輸出埠反射實驗與結果 44
第五章 新型可調式多通道光塞取多工器性能估算 47
5.1 插入損失 47
5.2 串音干擾 49
第六章 結論與建議 54
6.1 總結 54
6.2 建議 55
6.3 未來研究 55
參考文獻 56
附錄 微處理機控制加熱器 58
自述 78
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[2]. Nan Chi, Juan Jose Vegas Olmos, Kornkamol Thakulsukanant, Zhuoran Wang,Oliver Ansell, Siyuan Yu, Dexiu Huang,” Experimental Characteristics of Optical Crosspoint Switch Matrix and Its Applications in Optical Packet Switching” Journal of Lightwave Technology, Vol. 24, pp.3646-3653,No. 10, October 2006.
[3]. Kim, J. and B. Lee, “Bi-directional wavelength add-drop multiplexer using multiport optical circulators and fiber Bragg gratings,” Photon. Technol. Lettr., vol. 12, no 5, pp. 561-563, May 2000.
[4]. Hai Yuan, Wen-De Zhong,Weisheng Hu” FBG-Based Bidirectional Optical Cross Connects for Bidirectional WDM Ring Networks” Journal of Lightwave Technology, Vol. 22, No. 12, pp.2710-2721, December 2004.
[5]. Chen-Mu Tsai and Yu-Lung Lo, “Fiber-Grating Add-Drop Reconfigurable Multiplexer with Multi-channel Using in Bi-directional Optical Network,” Optical Fiber Technology, vol. 13, no. 3, pp. 260-266, July. 2007.
[6].Jungho Kim , Jaehyoung Park,Seunghwan Chung,Namkyoo Park,Byoungho Lee,Kitae Jeong, ”Bidirectional wavelength add/drop multiplexer using two separate MUX and DEMUX pairs and reflection-type comb filters ”, Optical Communicatin, pp. 321-327, May. 2002.
[7]. Yu-Lung Lo,Hsi-Chang Chow, and Chih-Yen Chian” Reconfigurable OADM and OXC designed by a new optical switch” Optical Fiber Technology ,10 (2004) 187–200, pp.188-200,revised 29 October 2003.
[8]. Rathy Shankar , Mirosław Florjan´czyk , Trevor J. Hall, Alex Vukovic , Heng Hua,” Multi-degree ROADM based on wavelength selective switches: Architectures and scalability” Optics Communications, July 2007.
[9]. Paula Gil Arbus and Carmen Mas Machuca,” Comparative study of existing OADM and OXC architectures and technologies from the failure behavior perspective” Journal of Optical Networking, pp.123-133, Vol. 6, No. 2 ,February 2007
[10]. G. Meltz and W. W. Morey, “Bragg grating formation and germanosilicate fiber photosensitivity,” International Workshop on Photoinduced Self-Organization Effects in Optical Fiber, Quebec City, Quebec, May 10-11, Proceedings SPIE, 1516, 185-99, 1991.
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