用混合动力技术实现兰格耦合器及其特性

2022 Trends in Electrical, Electronics, Computer Engineering Conference (TEECCON) Pub Date : 2022-05-26 DOI:10.1109/TEECCON54414.2022.9854817

R. Behera, Kumar Sangam, Suma S. Lonkadi, Ajay Andhiwal, Kamaljeet Singh, A. V. Nirmal

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引用次数: 1

摘要

本文介绍了结合薄膜和厚膜技术的兰格耦合器的实现。实现了0.635 mm厚氧化铝上的标准朗格耦合器，并以此为参考模块。通过直接安装在组装板上的概念，通过使用厚膜导体膏确保通过的连续性。这种方法在密集的射频板中很有用，因为它提供了易于安装的无引线，如四平面无引线(QFN)。采用无金属化氮化氧化铝衬底，采用光刻技术实现了朗格耦合器结构。对这三种结构进行了表征。采用厚膜金膏和湿法蚀刻的实现方法在基板选择上提供了更大的灵活性和严格的公差，在不影响电路性能的情况下实现精细的特征尺寸。本文详细介绍了设计实现方法、特征描述和相关方面。

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Realization of Lange Coupler using Hybrid Technology and its Characterization

Lange Coupler implementation combining Thin and Thick Film technologies is presented in this article. The standard Lange Coupler on 0.635 mm thick alumina is realized and taken as reference module. The via concept implemented for the direct mounting on assembly board and the continuity though via is ensured using thick film conductor paste. This approach is useful in dense RF boards as it provides ease of mounting with no leads like Quad-Flat-No-lead (QFN). Additionally, unmetallized alumina nitride substrate is taken and Lange Coupler structure is realized with photolithography technique. The characterization of all the three structures are carried out. The implementation methodology utilizing thick film gold paste and wet etching provides greater flexibility on substrate selection and tight tolerances in achieving fine feature sizes without compromising circuit performance. The design implementation methodology, characterization and associated aspects are detailed in this article.

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来源期刊

2022 Trends in Electrical, Electronics, Computer Engineering Conference (TEECCON)

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