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    請使用永久網址來引用或連結此文件: http://ir.lib.ncu.edu.tw/handle/987654321/79624


    題名: 使用鐵電可變電容與砷化鎵基晶片上電感之磁耦合全通相位偏移器;A Magnetically Coupled All-Pass Phase Shifter Using Ferroelectric Varactors and GaAs-based On-Chip Inductors
    作者: 吳可凡;Wu, Ke-Fan
    貢獻者: 電機工程學系
    關鍵詞: 相位偏移器;鐵電可變電容;全通網路;phase shifter;ferroelectric varactor;all-pass network
    日期: 2019-03-28
    上傳時間: 2019-04-02 15:08:17 (UTC+8)
    出版者: 國立中央大學
    摘要: 相位偏移器是相位陣列中關鍵的電路之一,其功能為提供可調的植入相位。在相位陣列應用中,相移器通常須可達360°的相移量。若可提高單級相移器之相移量,則可減少串接的級數,期能降低植入損耗與電路面積。本篇論文採用具磁耦合的全通網路來設計一操作於2.4 GHz類比式相移器,設計目標為單級網路便可達到180°相移量。
    我們以本實驗室所開發的基於鈦酸鍶鋇薄膜的鐵電可變電容技術,並與穩懋半導體提供之積體被動元件製程(WIPD)以覆晶鍵合方式整合,來實現此磁耦合全通相位偏移器。磁耦合全通網路中的耦合電感是以WIPD製程實現於GaAs基板上。我們設計兩電感互繞的極性使其對應的耦合係數為正值,以提升相位偏移量。模擬結果顯示,於2.45 GHz下,耦合係數可達0.8;若可變電容之可調度可達2.3,則相移量可達191°。
    相移器中的鐵電可變電容製作於藍寶石基板上;可變電容量測結果顯示,於10 V偏壓下,電容可調度可達到約2.3。我們把以WIPD製程製作的GaAs晶片覆晶鍵合於藍寶石載板上,以組裝完成所設計之相移器。量測結果顯示,於10 V偏壓下,在2.35 GHz達到161°最大相移量,返回損耗皆大於11.3 dB,植入損耗皆小於15.8 dB
    由同載板上的測試電容量測結果可知鐵電可變電容之品質因子較模擬預期差,導致了較高的植入損耗。另外,我們推測,因為覆晶鍵合的溫度較高,導致鐵電薄膜特性改變,造成可調度下降,以致相移量未如預期可超過180°。不過量測得之相移量亦已達161°,成功驗證以磁耦合全通網路架構來可實現高相移量之相位偏移器。
    ;Phase shifter is an essential component in a phased array. The function of a phase shifter is to provide a tunable insertion phase. In phased array applications, phase shift up to 360° is usually necessary. If the amount of phase shift provided by a single stage of phase shifter can be increased, the number of cascaded stages can then be reduced, which may lead to the reduction of insertion loss and circuit area. In this thesis, a 2.4-GHz analog phase shifter is designed at 2.4 GHz based on magnetically coupled all-pass network (MCAPN). The design goal is to achieve a phase shift up to 180° using only a single-stage network.
    In this work, we use the ferroelectric varactor technology based on BSTO thin film developed by our lab and combine it with the integrated passive process offered by WIN Semiconductors (the WIPD process) by flip-chip bonding to realize the proposed magnetically coupled all-ass phase shifter. The coupled inductors in the MCAPN are realized using the WIPD process on a GaAs substrate. The polarity of the two intertwined inductors is designed to produce a positive coupling coefficient, which helps increase the amount of phase shift. Simulation results show that, at 2.45 GHz, a coupling coefficient of 0.8 can be achieved. If the tunability of the varactors is 2.3, the simulated phase shift is as high as 191°.
    The ferroelectric varactors in the phase shifter are fabricated on a sapphire substrate. Measurement results of the varactors show that tunability of 2.3 is achieved under 10-V bias. The construction of the phase shifter is finalized by flip-chip mounting the GaAs chip onto the sapphire carrier. Measurement results of the phase shifter show that, under 10-V bias, maximum phase shift of 161° occurs at 2.35 GHz, with return loss greater than 11.3 dB and insertion loss less than 15.8 dB.
    From the measurement results of the test varactors on the same carrier, it is found that the quality factor of the varactors is lower than what is used in the simulation, leading to the higher insertion loss. Moreover, we suspect that, the temperature for flip-chip bonding may be too high so that the characteristics of the ferroelectric thin film has changed, resulting in lowered tunability and thereby the reduced phase shift, which is less than 180°. Nevertheless, since the measured phase shift is as high as 161°, we successfully demonstrate that phase shifters with large amount of phase shift can be realized using MCPAN.
    顯示於類別:[電機工程研究所] 博碩士論文

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