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    Please use this identifier to cite or link to this item: http://ir.lib.ncu.edu.tw/handle/987654321/65753


    Title: 具有高可靠度/高功率輸出與直流到次兆赫茲 (≧300GHz)操作頻寬的超高速光偵測器和其覆晶式封裝設計與分析;Design and Analysis of Ultra-High Speed Photodiode and Flip-Chip Bonding Package for Reliable High-Power Operation from DC to 300GHz Operating Frequency
    Authors: 賴政宏;Lai,Cheng-Hung
    Contributors: 電機工程學系
    Keywords: 光偵測器;超高速;製程
    Date: 2014-07-28
    Issue Date: 2014-10-15 17:09:32 (UTC+8)
    Publisher: 國立中央大學
    Abstract: 對於覆晶式鍵合封裝設計與分析的應用在近彈道單載子傳輸光偵測器(NBUTC-PD)上,從DC到300GHz的頻寬可獲得可靠高功率是已經被證實了。根據我們模擬與量測結果指出,當操作頻率超過100GHz時對於覆晶式鍵合結構的幾何尺寸,在速度與輸出功率的表現就變成主要的限制參數。為了克服這些問題,在鍵合過程中氮化鋁基板底座的錫金柱子必須盡可能的接近磷化銦基板上PD的主動區,利用控制距離比較更長的間距(~25 VS.90μm),我們元件不僅表現出更寬的頻寬(225 VS.200GHz)而且還有更高的飽和電流(13 VS.9mA),NBUTC-PD 在這樣一個優化的覆晶式鍵合結構封裝,操作頻率在260GHz操作下,有一個寬的頻帶(~225GHz)、高飽和電流(13mA)和0.67mW最高輸出功率已經同時實現了。;Design and analysis of the flip-chip bonding package for near-ballistic uni-traveling-carrier photodiodes (NBUTC-PDs) with reliable high-power performance from dc to sub-THz (~300 GHz) frequency has been demonstrated. According to our simulation and measurement results, the geometric size of flip-chip bonding structure becomes a major limitation in speed and output power when the operating frequency is over ~100 GHz. In order to overcome this problem, the position of Au/Sn bump on bottom AlN substrate for bonding process, must be as close as possible with the active PD mesa on the InP substrate at topside. Compared with the control with a longer spacing (~90 vs. 25 m), our device not only exhibits a broader bandwidth (225 vs. 200 GHz) but also a higher saturation current (13 vs. 9 mA). With such an optimized flip-chip bonding structure for package of NBUTC-PD, a wide 3-dB bandwidth (~225 GHz), high saturation current (13 mA), and a 0.67 mW maximum output power at 260 GHz operating frequency have been achieved simultaneously.
    Appears in Collections:[Graduate Institute of Electrical Engineering] Electronic Thesis & Dissertation

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