本論文研討應用於光纖通訊10Gb/s光收發模組的研製，其中使用雷射、雷射驅動IC、檢光器-轉阻放大器、限幅放大器與高頻印刷電路板佈線技巧等進行研製。此外，量測製作完成的10Gb/s光傳送接收模組。
在模組的設計中，為了避免訊號產生失真和反射，需考慮集總元件和SMA接頭連接印刷電路板時產生的效應。此外，在印刷電路板的佈局，必須設計適當的終端阻抗匹配方式和傳輸線組抗，將有效減少訊號反射。同時，也須考慮電磁干擾和串音問題，並可搭配使用模擬軟體模擬實際架構可能產生的趨勢，以達到最佳的設計。
光收發模組在訊號為231-1且傳輸速率10Gb/s操作下，光發射機部分，峰對峰抖動值量測結果為27ps。光接收機部份，以自發自收架構，峰對峰抖動值量測結果為24ps。光收發模組經十公里光纖傳輸，其峰對峰抖動值量測結果為29ps，且遮罩都符合STM-64/OC-192的遮罩的規範。在誤碼率的為10-12條件下，接收端靈敏度仍可達到-13.5dBm。

We fabricate and measure 10Gb/s optical transceiver module for used in optical communication network. The 10Gb/s optical transceiver module consists of a laser, a laser driver IC, a PIN-TIA, a limiting amplifier and a
high-frequency print circuit board (PCB) layout design.

In the design of modules, the distortion, reflection, the effect of lumped elements and SMA connector are considered. The layout of printed circuit board must be match to the impedance of transmission line. The electromagnetic interference (ISI) issue is also considered in order to
achieve the best design of the module.

The optical transceiver module is tested at signal pattern of 231-1 and data rate of 10Gb/s. The peak-peak jitter is measured 27ps in transmitter. In receiver, the peak-peak jitter is measured 24ps at back to back. For 10km fiber, the peak-peak jitter is measured 29ps. In the condition of bit error rate (BER) of 10-12, the sensitivity of receiver can reach to -13.5dBm. The result of eye diagram measurement can meet the mask of
STM-64/OC-192 standard.

中文摘要
英文摘要
誌謝
目錄
圖表目錄
第一章 序論
第二章 雷射與檢光器之特性分析
第三章 光收發模組之設計
第四章 模擬與量測結果討論
第五章 結論與未來工作
參考文獻

[1]ITU-T G.691：Optical interfaces for single channel STM-64,
STM-256 and other SDH systems with optical amplifiers
[2]IEEE std 802.3ae-2002 ,
http://standards.ieee.org/catalog/olis/index.html
[3]黃胤年,”簡易光纖通訊”,五南圖書出版股份有限公司,2002
[4]Design Note:“Interfacing Maxim Laser Drivers With Laser
Diodes”,MAXIM HFAN-02.0
[5]Design Note:“NRZ Bandwidth - HF Cutoff vs. SNR”,MAXIM
HFAN-09.0.1
[6]Design Note: “NRZ Bandwidth – LF Cutoff and Baseline
Wander”,MAXIM HFAN-09.0.4
[7]Data Sheet:“MAXIM 10.7Gbps Compact Laser Diode Driver”,
MAX3934,2002
[8]Design Note:“Single-Ended vs. Differential Methods of
Driving a Laser Diode”,MAXIM HFAN-2.5.0
[9]Design Note:“Accurately Estimating Optical Receiver
Sensitivity”,MAXIM HFAN-03.0.0
[10]Data Sheet:“MAXIM +3.3V, 10.7Gbps Limiting Amplifier ”,
MAX3971A,2002
[11]Design Note:“Introduction to LVDS, PECL, and CML”,
MAXIM HFAN-10v2
[12]電磁雜訊問題與對策技術
[13]蘇德龍,”百億位元乙太網路光傳收模組之研製”國立台灣科
技大學,2003
[14]楊家能,”2.5Gb/s 光收發模組之研發”國立中山大學光電
所,2004
[15] Jaehoon Lee,Seungki Nam,S.H.Lee,andJichai Jeong,Senior
Member“A Complete Small-Signal Equivalent Circuit
Modelof Cooled Butterfly-Type 2.5 Gbps DFB Laser Modules
and its Application to Improve High Frequency
Characteristics,”IEEE TRANSACTIONS ON ADVANCED
PACKAGING, VOL. 25, NO. 4, NOVEMBER 2002.
[16]SMA - 50 Ohm Connectors,JOHNSON
[17]Design Note:”Jitter in Digital Communication Systems”,
MAXIM HFAN-4.0.3
[18]Govind P. Agrawal, ”Fiber-Optic Communication Systems”,
John Wiley,1997