研究生: |
蔡家進 Chia-Chin Tsai |
---|---|
論文名稱: |
改善雙向混合式高密度分波多工被動光纖網路傳輸系統效能 Improvement of Bidirectional Hybrid DWDM-PON Transport System |
指導教授: |
莊謙本
Chuang, Chien-Pen 呂海涵 Lu, Hai-Han |
學位類別: |
碩士 Master |
系所名稱: |
工業教育學系 Department of Industrial Education |
論文出版年: | 2007 |
畢業學年度: | 95 |
語文別: | 中文 |
論文頁數: | 71 |
中文關鍵詞: | 高密度分波多工 、被動光纖網路 、外部光源注入技術 、旁模抑制比 、誤碼率 |
英文關鍵詞: | Dense-Wavelength-Division-Multiplexing, Passive Optical Network, External Light Injection Technique, Side-More Suppression Ratio, Bit Error Rate |
論文種類: | 學術論文 |
相關次數: | 點閱:150 下載:4 |
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在本篇論文中,我們提出三種不同的方式來改善雙向混合式DWDM-PON傳輸系統的效能。
首先,我們提出使用外部光源注入至垂直共振腔面射型雷射及分佈回饋式雷射,作為雙向混合式DWDM-PON傳輸系統的發射光源。主要利用掺鉺光纖放大器所產生出的寬頻自發性輻射放大光源,再經由高密度分波多工/解多工器有效分割成四個光源後作為系統的外部注入光源。其中外部光源注入至垂直共振腔面射型雷射,可以有效增加雷射本身的頻率響應並降低驅動電流,而提高傳輸系統性能。
其次,我們於光接收器後使用資料比較器及相位補償器實施雙向混合式DWDM-PON傳輸。藉由資料比較器及振幅相位補償器對系統的失真信號作補償,再經原先所儲存的原始信號不斷的回授修正、比較及補償,而在最短時間內去除因傳輸過程所引起的失真信號,改善傳輸系統的信號品質。
最後,我們同時使用外部光源注入技術、資料比較器及振幅相位補償器建構雙向混合式DWDM-PON 傳輸系統。實驗結果證明,光信號經過 40 公里的標準單模光纖傳輸後,系統的誤碼率、載波雜訊比、載波合成二次拍差比及載波合成三次拍差比均已獲得改善。
In this thesis, we proposed three different methods to improve the performances of bidirectional hybrid dense wavelength-division-multiplexing (DWDM) for passive optical network (PON) transport system.
First, we proposed a bidirectional hybrid DWDM-PON transport system employing external light injection technique on vertical cavity surface emitting lasers (VCSELs) and distributed feedback laser diodes (DFB LDs). The broadband amplified spontaneous emission (ASE) light source is generated from a 3-stage erbium-doped fiber amplifier (EDFA). The broadband ASE is efficiently divided into four optical channels as injection sources by using DWDM DEMUX. Using an external light injection technique can effectively enhance the frequency response and reduce the driving current of VCSEL. The performance can be raised in our transport system.
Second, we completed a bidirectional hybrid DWDM-PON transport system based on data comparator and amplitude/phase compensator behind receiver. The system of distorted signal was compensated by data comparator and amplitude/phase compensator. Furthermore, the original signal can be continuously feedback in comparator and compensator to correct signal distortion. Thus the system distorted signal can be removed within less time. Therefore, the signal quality can be improved in transport system.
Finally, we employed both of external light injection technique, data comparator and amplitude/phase compensator for bidirectional hybrid DWDM-PON transport system. The experimental results showed that the performances of bit error rate (BER), carrier-to-noise ratio (CNR), composite second order (CSO), and composite triple beat (CTB) were improved over a 40-km standard single-mode fiber (SSMF) transport system.
[1] 賴柏州,光纖通信與網路技術,台北,全華科技圖書股份有限公司,
2003。
[2] 通訊產業聯盟 2005年第一季,林春宏/工研院電通所系統工程師,
pp. 11-14。
[3] 通訊產業聯盟 2006年第二季,周雲龍/工研院資通所經理,pp. 3-8。
[4] H. H. Lu, W. S. Tsai, W. J. Wang, and Y. L. Lui,
“Employing double external light injection techniques
to improve radio-on-DWDM system performance,” IEEE
Photon. Technol. Lett., vol.17, pp. 672-674, 2005.
[5] J. Wang, M. K. Haldar, L. Li, and F. V. C. Mendis,
“Enhancement of modulation bandwidth of laser diodes
by injection locking,” IEEE Photon. Technol. Lett.,
vol. 8, pp. 34-36, 1996.
[6] S. Mohrdiek, H. Burkhard, and H. Walter, “Chirp
reduction of directly semiconductor lasers at 10 Gb/s
by Strong CW light injection,” J. Lightwave Tech.,
vol. 12, pp. 418-424 , 1994.
[7] P. Vankwikelberge, F. Buytaert, A. F. R. Baets, P. I.
Kuindersma, and C. W. Fredriksz, “Analysis of the
carrier induced FM response of the DFB lasers,” IEEE
J, Quantum Electron., vol. 25, pp. 2239-2254 , 1989.
[8] X. N. Fernando and A. Sesay, “Higher order adaptive
filter characterization of microwave fiber optic link
nonlinearity,” in Proc. Optical Pulse Beam
Propagation Conf., San Jose, C.A, 2000.
[9] 黃素真編譯,光纖技術手冊,台北市,全華科技圖書股份有限公司,
2003。
[10] 董德國,陳萬清,光纖通訊,台北市,東華書局,2001。
[11] G. R. Lin, Y. H. Lin, and Y.C. Chang, “Theory and
experiments of a mode-beating noise-suppressed and
mutually injection-locked fabry-perot laser diode and
erbium-doped fiber amplifier link,” IEEE Journal of
Quantum Electronics., vol. 40, pp. 1041-1022, 2004.
[12] 呂海涵 校閱,劉天浩 編著,有線電視原理實務,台科大圖書,
2002。
[13] W. S. C. Chang, “RF photonic technology in optical
fiber links,” Cambridge University Press, pp. 39-42,
2002.
[14] K. Khanal, C. J. Chae, R. S. Tucker, “Selective
broadcasting of digital video signals over a WDM
passive optical network,” IEEE Photon. Technol.
Lett., vol., 17, pp. 1992-1994, 2005.
[15] K. H. Han, E. S. Son, H. Y. Choi, K. W. Lim, Y. C.
Chung, “Bidirectional WDM PON using light-emitting
diodes spectrum-sliced with cyclic arrayed-waveguide
grating,” IEEE Photon. Technol. Lett., vol. 16, pp.
2380-2382, 2004.
[16] S. Hann, D. H. Kim, C. S. Park, H. J. Park, “Uni-
lambda bidirectional 10/1.25 GbE access service based
on WDM-PON,” Electron. Lett., vol. 40, pp. 194-195,
2004.
[17] P. C. Lai, and H. H. Lu, “Hybrid wavelength-division-
multiplexing system based on a broadband amplified
spontaneous emission optical source,”Opt. Eng., vol.
43, pp. 773-777, 2004.
[18] S. J. Park, C. H. Lee, K. T. Jeong, H. J. Park, J. G.
Ahn, K. H. Song, “Fiber-to-the-home services based
on wavelength-division-multiplexing passive optical
network,” Lightwave Technol. Lett., vol. 22, pp.
2585-2591, 2004.
[19] K. M. Choi, J. S. Baik, and C. H. Lee, “Broad-band
light source using mutually injected fabry-perot
laser diodes for WDM-PON,” IEEE Photon. Technol.
Lett., vol. 17, pp. 2529-2531, 2005.
[20] D. J. Shin, D. K. Jung, J. K. Lee, Y. K. Oh, J. H.
Lee, H. S. Kim, C. Lee, S. T. Hwang, J. H. Ko, Y. J.
Oh, T. I. Kim, and C. S. Shim, “Transmission of HDTV
and Ethernet data over a WDM-PON employing ASE-
injected fabry-perot laser diodes,” in Proc. Optical
Fiber Communications Conf., Los Angeles, C.A, 2004.
[21] J. Yu, J. Gu, X. Liu, Z. Jia, and G. K.
Chang, “Seamless integration of an 8×25 Gb/s WDM-PON
and radio-over-fiber using all-optical up-conversion
based on raman-assisted FWM,” IEEE Photon. Technol.
Lett., vol.17, pp.1986-1988, 2005.
[22] H. H. Lu, W. J. Wang, P. C. Lai, “A hybrid CATV/256-
QAM/OC-192 WDM transport system using SMF and RDF
combination,” Optics Communications., vol. 223, pp.
315-320, 2003.
[23] L. Chrostowski, C. H. Chang, C. J. Chang-
Hasnain, “Injection-locked 1.55-μm tunable VCESL for
uncooled WDM transmitter applications,” IEEE Photon.
Technol. Lett., vol.16, pp. 888-890, 2004.
[24] 王文仁,利用VCSEL及外部光源注入技術建構各式WDM傳輸系統,碩士
論文,國立台北科技大學光電工程研究所,台北,2005。
[25] 陳雅玲,提升混合式光纖-微波分波多工傳輸系統效能,碩士論文,國
立台北科技大學光電工程研究所,台北,2005。
[26] 簡子勝,雙向式微波-高密度分波多工傳輸系統,碩士論文,國立台北
科技大學光電工程研究所,台北,2006。