| | 基于LTCC的3D异质集成低通滤波器 | | 3D Heterogeneous Integrated Low-pass Filter Based on LTCC | | | | DOI: | | 中文关键词: 低温共烧陶瓷 3D 异质集成 低通滤波器 | | 英文关键词:low temperature co-fired ceramic 3D heterogeneous integration low-pass filter | | 基金项目:国家自然科学基金(62031016,62001172);广州市重点研发计划(202103020002);中国博士后科学基金(2022M710818) |
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| 摘要点击次数: 5331 | | 全文下载次数: 2603 | | 中文摘要: | | 在射频应用中,低温共烧陶瓷(LTCC)技术是关键技术路线之一,然而使用单一介质的LTCC技术的性能很局
限。为此,文中对基于LTCC 的3D 异质集成技术进行研究,通过调节流延配方、烧结速度、烧结温度、保温时间等工艺参
数,设计异质匹配共烧的烧结行为控制、界面相容性和组织性能调控方案,开发出稳定可靠的LTCC 集成工艺,给出基于
LTCC异质集成的器件仿真设计、3D集成制备方法,并制作了一款共烧界面结合完好、性能优越的LTCC 异质集成低通滤
波器进行验证。验证结果表明,该异质集成技术的瓷粉性能指标和可加工特性满足使用要求,预期能够得到广泛应用。 | | 英文摘要: | | Low temperature co-fired ceramic (LTCC) technology is one of the key technologies in the application of radio frequency
application, but LTCC technology with a single dielectric material faces performance limitations. Therefore, in this paper a
research on 3D heterointegration technology based on LTCC is conducted. By adjusting technical schemes such as casting formula,
heating speed, sintering temperature and holding time, a sintering behavior control, interface compatibility, and tissue performance
control scheme for heteromatching co-firing is proposed. A stable and reliable LTCC integration process is developed, and the simulation
design and 3D integration preparation methods for devices based on LTCC heterointegration are proposed. A LTCC heterostructure
integrated low-pass filter with excellent co-firing interface and performance is fabricated for verification. The verification
results show that the performance indicators and processability of the heterogeneous integration technology can meet the requirements
for use, and it is expected to be widely applied. | | 查看全文 查看/发表评论 下载PDF阅读器 | | 关闭 | | | |
