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引用次数: 5
摘要
介绍了一种将高频有源器件集成到低成本硅衬底上的新技术。这种新颖的制造工艺具有优异的优点,如极低的热阻,以及比早期QMIT概念低得多的热应力(Wasige等人,1999;Joodaki等人,2001年和2002年)。这大大提高了封装寿命和有源器件的电气特性。制造工艺简单,可用于制造低损耗、高q的无源元件。该技术首次成功地将低损耗高q的无源元件集成到低电阻硅衬底上(Joodaki et al., 2002)。与QMIT的旧概念相比,该技术中消除了空气桥,不仅减少了寄生,而且可以在测量嵌入式有源器件的微波特性后制作其余电路。这使得非常精确的微波和毫米波设计成为可能。使用新的制造工艺,包含功率器件的微波和毫米波电路(包括共面和微带线)首次成为可能。
New generation quasi-monolithic integration technology (QMIT)
A new technology for integration of high frequency active devices into low cost silicon substrates has been introduced. The novel fabrication process gives excellent advantages such as extremely low thermal resistance, and a much lower thermal stress than the earlier QMIT concepts (Wasige et al., 1999; Joodaki et al., 2001 and 2002). This highly improves the packaging life-time and electrical characteristics of the active devices. The fabrication process is simple and compatible with fabrication of low-loss and high-Q passive elements. Successful integration of low-loss high-Q passive elements on low resistivity Si-substrates in this technology has been achieved for the first time (Joodaki et al., 2002). In comparison to the old concept of QMIT, the elimination of air-bridges in this technology not only reduces the parasitics but also enables the fabrication of the rest of the circuit after measuring the microwave characteristics of the embedded active devices. This makes very accurate microwave and millimeter-wave designs possible. Using the new fabrication process, microwave and millimeter-wave circuits (with both coplanar and microstrip lines) containing power devices have for the first time been possible.
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