[0007] 当形成高频器件时,由于共烧(co-fired) 在高频器件中的电介质材料与将用作 内部电极和配线的导体材料,因此导体材料需要具有高于电介质材料的烧结温度的熔点从
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低温共烧陶瓷 LTCC ; Low Temperature Co-fired Ceramic ; LTCCLow Temperature Co-fired Ceramics ; LTDD
高温共烧陶瓷 HTCC ; LTCC ; high temperature co-fired ceramic ; Fired Ceramic
低温共烧陶瓷技术 LTCC
低温共烧 LTCC ; low temperature cofire
低温陶瓷共烧 LTCC ; Low Temperature Co-fired Ceramic
低温共烧铁氧体 LTCF
低温共烧陶瓷系列 LTCC System and Green Tape
高温共烧陶瓷发热元件 HTCC
低温共烧多层陶瓷 LTCC
The Low temperature co-fired ceramic(LTCC) technology has the embedded passive components,high integration,fine reliability and excellent characteristic of high frequency and become one of the more influence and emulative technologies in wireless communication systems.
低温共烧陶瓷(LTCC)技术具有内埋置无源元件、集成度高、可靠性好以及优良的高频特性等特点,成为无线通讯系统中更具影响力与竞争力的技术之一。
参考来源 - LTCC五阶LC带通滤波器的设计与关键工艺分析Moreover, the co-firing process can improve the interfacial performance and reduce the cost of preparation.
同时引进了一步共烧的技术进行阴极的制备,不仅有效降低了阴极极化阻抗,同时降低了电池的制备成本。
参考来源 - 中温固体氧化物燃料电池浸渍阴极的制备与表征Low temperature co-fired ceramic(LTCC) develops rapidly as a kind of microelectric packaging technology in recent years. The fabrication of green tape as the most important part of LTCC technology is widely attentioned.
低温共烧陶瓷技术是近年来微电子封装领域中发展最为迅速的一个方向,其关键技术——陶瓷生带的制备也因此受到了广泛关注。
参考来源 - MgO·2,447,543篇论文数据,部分数据来源于NoteExpress
具有不同居里点的两种铁电体粉末在共烧时会产生过渡相。
The transitional phase appeared when two ferroelectric powders with different Curie point were mixed and sintered together.
研究低温共烧压电陶瓷组分以及组分,结构及性能之联系。
Study the relationships between compositions, structures and properties of low temperature co-firing piezoelectric ceramics.
还介绍了低温共烧陶瓷基板以及向微波频率扩展的前景与相应的工艺要求。
Compared with conventional microwave network, the LTCC substrate and its future expanding to microwave and corresponding technical requirements are also introduced in the paper.
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