本論文提出兩款不同頻段之毫米波連接器設計，第一款為5G行動通訊之連接器，其嵌合高度為1.00 mm，其中藉由修改連接架構，使頻寬涵蓋DC至45GHz，以運用於第五代無線通訊與高頻傳輸設備上，可成為系統與天線間重要的連接跳線介面。第二款設計為應用於WiGig之毫米波連接器，其嵌合高度低於0.70 mm，其中乃提出創新連接型式與屏蔽方法，使連接器具有DC至70GHz之超寬頻特性，而目前並已有樣品製作以及實際量測結果驗證。期許本論文的毫米波連接器設計能提供5G無線通訊產業關鍵之連接跳線，並成為即將來臨的毫米波通訊世代之重要技術。

This thesis proposes two kinds of the RF connector designs covering millimeter-wave bands. The first one is a connector for 5G mobile communications, which is a millimeter wave connector with a mating height of 1.00 mm. By modifying connector structures, a bandwidth from DC to 45GHz has been obtained. It can be used in 5G wireless communications as an important connection interface between systems and antennas for millimeter-wave transmission and reception. The second design is the millimeter wave connector for WiGig applications, which has a mating height of only 0.70 mm. New connector structures and shielding methods have been proposed to achieve a bandwidth from DC to 70GHz. Currently, some samples have been fabricated and tested for verifications. Those two RF connector designs in millimeter wave bands developed in this thesis may provide key connection jump wires for 5G wireless communications, and important technologies for millimeter wave communication era in near future.

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