基于LTCC技术超小型宽带巴伦的设计与实现
发布时间:2018-07-26 20:05
【摘要】:介绍了一种基于LTCC(低温共烧陶瓷)技术的超小型宽带巴伦的设计与实现。该巴伦由Marchand微带巴伦改进而来,综合采用LTCC多层立体三维集成结构,螺旋线宽边耦合带状线结构(SBCS)和带状线末端电容加载技术来实现宽带巴伦的小型化。最终设计出了一款频带0.9~2.3GHz,尺寸仅为1.8mm×1.2mm×1.0mm,插损小,幅度平坦度好,相位一致性高,各项性能均优的宽带巴伦。讨论了该款巴伦的设计思路、工作原理、三维结构,最后给出了该款巴伦的仿真和测试结果,两者一致性较好。
[Abstract]:This paper introduces the design and implementation of ultra-small broadband Barron based on LTCC (low temperature Co-fired Ceramics) technology. It is improved by Marchand microstrip Barron. It adopts LTCC multi-layer three-dimensional integrated structure, (SBCS) and capacitive loading technology to realize the miniaturization of broadband Barron. Finally, a wide band Barron with small insertion loss, good amplitude flatness, high phase consistency and excellent performance has been designed with a frequency band of 0.9 ~ 2.3GHz with a size of only 1.8mm 脳 1.2mm 脳 1.0mm. The design idea, working principle and three dimensional structure of the Barron are discussed. Finally, the simulation and test results of this section are given, which are in good agreement with each other.
【作者单位】: 南京理工大学电子工程与光电技术学院;
【基金】:国家重点基础研究发展“973”计划(2009CB320200) 国家国防重点实验室基金(9140C1402021102)
【分类号】:TN820
[Abstract]:This paper introduces the design and implementation of ultra-small broadband Barron based on LTCC (low temperature Co-fired Ceramics) technology. It is improved by Marchand microstrip Barron. It adopts LTCC multi-layer three-dimensional integrated structure, (SBCS) and capacitive loading technology to realize the miniaturization of broadband Barron. Finally, a wide band Barron with small insertion loss, good amplitude flatness, high phase consistency and excellent performance has been designed with a frequency band of 0.9 ~ 2.3GHz with a size of only 1.8mm 脳 1.2mm 脳 1.0mm. The design idea, working principle and three dimensional structure of the Barron are discussed. Finally, the simulation and test results of this section are given, which are in good agreement with each other.
【作者单位】: 南京理工大学电子工程与光电技术学院;
【基金】:国家重点基础研究发展“973”计划(2009CB320200) 国家国防重点实验室基金(9140C1402021102)
【分类号】:TN820
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