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Low-permittivity BaCuSi4O10-based dielectric Ceramics: An available solution to connect low temperature cofired ceramic technology and millimeter-wave communications

陶瓷 极高频率 材料科学 电介质 介电常数 介电常数 光电子学 电气工程 电信 电子工程 复合材料 工程类
作者
Wei Wang,Xin Wang,Jian Bao,Jiapei Jiang,Zhen Fang,Biaobing Jin,Zhongqi Shi,Moustafa A. Darwish,Yawei Chen,Qixin Liang,Meirong Zhang,Diming Xu,Chao Du,Di Zhou
出处
期刊:Chemical Engineering Journal [Elsevier BV]
卷期号:494: 153172-153172 被引量:23
标识
DOI:10.1016/j.cej.2024.153172
摘要

Low temperature cofired ceramic (LTCC) technology can serve for next-generation millimeter-wave electronic products to bring the advantages of integration, miniaturization and excellent high-frequency performance. However, challenges such as the performance of LTCC powders, quality of green tapes and Ag co-firing compatibility still need to be addressed for the application of LTCC technology. In this work, a systematic investigation from powder modification, LTCC process to filter design were carried out based on novel BaCuSi4O10-based dielectric ceramics. Multiple effects in terms of suitable sintering temperature (840 ℃ suit for Ag co-firing), low-permittivity (εr ∼ 5.7) and good thermal stability (temperature coefficient of resonant frequency ∼ − 27 ppm/℃, thermal expansion coefficient ∼3.9 ppm/℃) were achieved by introducing Li-B-Si glass and LiF composite additive. The origin of dielectric response of this LTCC system were discussed using the FIR reflectivity spectrum and THz-TDS. After optimizing the tape casting process for the LTCC powder, green tapes with uniform thickness, smooth surface and no cracking were obtained. Furthermore, the bandpass and lowpass filters exhibited a high level of filtering performance own to excellent dielectric properties and low surface roughness of the LTCC. Consequently, the BaCuSi4O10-based dielectric ceramic is an attractive candidate as LTCC technology expands into millimeter-wave communications.
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