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  • 學位論文

以高頻玻璃基板與光學軟板整合之多通道光連接模組

Multi-Channel Optical Interconnect Module Based on an Integration of High-Frequency Glass Substrate and Flexible Optical Printed Circuit Board

指導教授 : 伍茂仁
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摘要


本論文提出將 20 Gbps 高頻傳輸線整合於玻璃基光學平台,且和具45°反射面之軟板光波導整合之垂直耦光光路。此高頻傳輸線作為連接垂直共振腔面射型雷射、光偵測器之高頻訊號線。上述元件將整合於玻璃基平台,並且透過下方的高分子聚合物光波導,實現垂直耦和。 玻璃基板上的高頻傳輸線設計,使用共平面波導(coplanar waveguide,CPW)為幾何結構。高頻傳輸線在頻率 50 GHz時,量測到的反射損耗約 -20 dB,插入損耗約-0.24 dB。 軟板的光學傳輸效率,發射端是60%~75%,接收端是40%~60%。而軟板的串音(crosstalks)量測,發射端在 -29 dB之下,接收端在 -25 dB之下。將平行於聚合物波導(polymer waveguide)的方向設為y,和軟板平面平行的設為x,垂直於該平面為z。則發射端光纖的位移容忍度為 -16

並列摘要


In the thesis, the high-frequency transmission line is designed and realized on the glass for the connection of vertical-cavity surface-emitting laser (VCSEL) and photo-detector (PD). The optical signal emitting from the VCSEL will out-of-plane couple into the polymer waveguide through the glass substrate and the polymer-based 45°reflector. The measured return loss (S11) and insertion loss (S21) of transmission lines are about -20 dB and -0.24 dB, respectively when the operating frequency is up to 50 GHz. For the optical characteristics of this optical interconnect module, the measured optical coupling efficiency for the transmitter and receiver of the flexible printed circuit board are 75%, and 60 %. The inter-channel crosstalk for both transmitter and receiver can be less than -25dB. The 10-Gbit/s eye pattern with the signal-to-noise ratio (SNR) more than 4 for the optical interconnect module is experimentally demonstrated when the bias current of VCSEL is 6 mA. and when the reverse bias voltage of PD is 2 volts.

並列關鍵字

transmission lines glass optical wave guide

參考文獻


[2] Takashi Shiraishi, Takatoshi Yagisawa, Tadashi Ikeuchi, Satoshi Ide, and Kazuhiro Tanaka, “Cost-effective Low-loss Flexible Optical Engine with Microlens-imprinted Film for High-speed On-board Optical Interconnection” ECTC2012, pp. 1505-1510, 2012
[1] Naoki Matsushima1, Toshiaki Takai1, Daichi Kawamura2, Yasunobu Matsuoka2, Yong Lee2,3, Norio Chujo1, Takashi Takemoto2,3, Hiroki Yamashita2,3, Toshiki Sugawara2, Toru Yazaki1, and Shinji Tsuji2, “High-stability 25 Gb/s optical transceiver module with flexible polymer wave guide for optical interconnection,” CPMT Symposium Japan, 2012 2nd IEEE, (2012)

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