The Gain Flatness Design by a Technique Combining Parameter Tuning and Reflective Fiber Grating synthesis
碩士 === 清雲科技大學 === 電子工程研究所 === 94 === In the long-distance optical fiber communication system, the loss always is a very popular subject. That is the reason why the long-distance transmission uses an amplifier to keep signal amplitude. The Er3+ -doped fiber amplifier (EDFA) is located at the low loss...
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2007
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| Online Access: | http://ndltd.ncl.edu.tw/handle/82850793149687499388 |
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ndltd-TW-095CYU004280102015-10-13T16:46:03Z http://ndltd.ncl.edu.tw/handle/82850793149687499388 The Gain Flatness Design by a Technique Combining Parameter Tuning and Reflective Fiber Grating synthesis 結合參數調制與反射式光纖光柵之增益平坦設計 Chen yun peng 陳雲鵬 碩士 清雲科技大學 電子工程研究所 94 In the long-distance optical fiber communication system, the loss always is a very popular subject. That is the reason why the long-distance transmission uses an amplifier to keep signal amplitude. The Er3+ -doped fiber amplifier (EDFA) is located at the low loss region of fiber, therefore, it is the first choice among kinds of amplifiers. The amplified spontaneous emission, however, limits the amplification region because of the gain non-flatness. This work tries to control directly the EDFA parameters to flatten the gain. A reflective fiber Bragg grating is also designed to improve performance further. The global amplification reaches the maximum to minimum gain ratio below 0.3dB in wavelength range 1527-1560nm. Hsu shu fang 許菽芳 2007 學位論文 ; thesis 46 zh-TW |
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zh-TW |
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碩士 === 清雲科技大學 === 電子工程研究所 === 94 === In the long-distance optical fiber communication system, the loss always is a very
popular subject. That is the reason why the long-distance transmission uses an amplifier to
keep signal amplitude. The Er3+ -doped fiber amplifier (EDFA) is located at the low loss
region of fiber, therefore, it is the first choice among kinds of amplifiers. The amplified
spontaneous emission, however, limits the amplification region because of the gain
non-flatness. This work tries to control directly the EDFA parameters to flatten the gain. A
reflective fiber Bragg grating is also designed to improve performance further. The global
amplification reaches the maximum to minimum gain ratio below 0.3dB in wavelength range
1527-1560nm.
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| author2 |
Hsu shu fang |
| author_facet |
Hsu shu fang Chen yun peng 陳雲鵬 |
| author |
Chen yun peng 陳雲鵬 |
| spellingShingle |
Chen yun peng 陳雲鵬 The Gain Flatness Design by a Technique Combining Parameter Tuning and Reflective Fiber Grating synthesis |
| author_sort |
Chen yun peng |
| title |
The Gain Flatness Design by a Technique Combining Parameter Tuning and Reflective Fiber Grating synthesis |
| title_short |
The Gain Flatness Design by a Technique Combining Parameter Tuning and Reflective Fiber Grating synthesis |
| title_full |
The Gain Flatness Design by a Technique Combining Parameter Tuning and Reflective Fiber Grating synthesis |
| title_fullStr |
The Gain Flatness Design by a Technique Combining Parameter Tuning and Reflective Fiber Grating synthesis |
| title_full_unstemmed |
The Gain Flatness Design by a Technique Combining Parameter Tuning and Reflective Fiber Grating synthesis |
| title_sort |
gain flatness design by a technique combining parameter tuning and reflective fiber grating synthesis |
| publishDate |
2007 |
| url |
http://ndltd.ncl.edu.tw/handle/82850793149687499388 |
| work_keys_str_mv |
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