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博碩士論文 etd-0829106-154334 詳細資訊
Title page for etd-0829106-154334
論文名稱
Title
四面錐光纖陣列製造
Manufacturing Technique of QPSFE Fiber Array
系所名稱
Department
畢業學年期
Year, semester
語文別
Language
學位類別
Degree
頁數
Number of pages
48
研究生
Author
指導教授
Advisor
召集委員
Convenor
口試委員
Advisory Committee
口試日期
Date of Exam
2006-07-27
繳交日期
Date of Submission
2006-08-29
關鍵字
Keywords
磨輪、光纖陣列、研磨、四面錐
grinding wheel, fiber array, grinding, QPSFE
統計
Statistics
本論文已被瀏覽 5640 次,被下載 7
The thesis/dissertation has been browsed 5640 times, has been downloaded 7 times.
中文摘要
由於高速傳輸的需求與日遽增,在通訊系統中光纖陣列已成為一個不可或缺且無可取代的地位。然而隨著傳播距離變長,光功率損失將成為一個重要的問題。為了解決這個問題必須固定一段傳輸距離就必須使用光放大器將光傳輸功率放大,使接收端能接收不失真的訊號。因此為了降低光放大器的使用數量減少成本,將製造高耦合率的光纖陣列來達到此效果。
本論文中選用相較於平頭光纖與楔型光纖耦合率較高的四面錐光纖,考慮到光纖陣列構裝的精準度與各種加工方式,因此選擇利用研磨的方法,來加工表面的輪廓形狀,並透過外加設備的輔助提升整體加工的精確度以提高四面錐光纖日後耦光的效能,來達到四面錐光纖陣列的製造。
Abstract
For the requirements of high-speed signal transmission has been increasing, the fiber array in the communication system has a lot of advantages which can not be replaced. But the loss of coupling efficiency is a difficult problem as the distance of communication is getting longer and longer. For the sake of solving this problem, the system needs to use optic amplifier for enlarging the coupling efficiency in every long distance. The receiver can receive the correct signal by using optic amplifier. In order to reduce the using amount of optic amplifier for decreasing the cost, producing the fiber array with high coupling efficiency can reach the goal.
This paper chooses quadrangular-pyramid-shaped fiber endface (QPSFE) which has better coupling efficiency than flattened-end fiber to research. Among those different manufacturing methods and different precision for fiber array packaging, the research chooses the method of grinding to manufacture the shape of surface. The research can raise the accuracy of manufacture for increasing the coupling efficiency of QPSFE by external equipments.
目次 Table of Contents
目錄.............................................................................................................I
圖目錄.......................................................................................................II
表目錄......................................................................................................V
摘要..........................................................................................................VI
Abstract...................................................................................................VII
第一章 序論..............................................................................................1
1.1 前言..............................................................................................1
1.2 陣列模組現況..............................................................................2
1.3 研究動機與目的..........................................................................3
第二章 文獻回顧......................................................................................4
2.1 光纖陣列構裝方式......................................................................4
2.2 光纖陣列加工方式......................................................................7
2.3 四面錐光纖製程........................................................................10
第三章 研究方法....................................................................................12
3.1 四面錐角度計算........................................................................12
3.2 研磨與量測技術........................................................................18
第四章 實驗與結果................................................................................27
4.1 磨輪機台設計與成果................................................................27
4.2 研磨步驟與成果........................................................................32
第五章 結論與未來工作........................................................................37
參考文獻..................................................................................................38
參考文獻 References
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