K-band SATCOM Receiver Modules: System Design, Analysis and Test using the M3-Approach

2018 IEEE 20th Electronics Packaging Technology Conference (EPTC) Pub Date : 2018-12-01 DOI:10.1109/EPTC.2018.8654359

C. Tschoban, B. Curran, J. Reyes, I. Ndip, Marco Rossi, K. Lang

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引用次数: 1

Abstract

In this work, a holistic approach, the M3-appraoch (Methodologies, Models, Measures), is applied for the efficient and accurate design of K-band receiver front-end modules for satellite communication applications on earth stations on mobile platforms (ESOMPs). First, based on the targeted application and the international regulatory requirements we derive the system specifications and the system/receiver architecture. Based on this, we specify the system components,. In addition, we develop a concept for low-cost realization of the receiver front-end module, as well as a strategy to test it. Next, the proposed module is modeled and its performance investigated by means of 3D full-wave simulations, both at the component and at the packaging level. Then, test samples are fabricated and measured to verify the results of the full-wave simulations. Excellent correlation between measurements and simulations is achieved. Finally, he verified models are applied to optimize the RF performance of the K-band receiver components and front-end.

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k波段卫星通信接收模块:采用m3方法的系统设计、分析和测试

在这项工作中，一个整体的方法，m3方法(方法，模型，措施)，应用于有效和准确的设计k波段接收器前端模块的卫星通信应用在地球站的移动平台(esomp)。首先，基于目标应用和国际法规要求，我们推导出系统规范和系统/接收器架构。在此基础上，我们指定了系统组件，。此外，我们还提出了接收器前端模块的低成本实现概念，以及测试策略。接下来，提出的模块是建模和其性能研究的三维全波模拟的手段，在组件和封装级。然后，制作了测试样品并进行了测量，以验证全波模拟的结果。在测量和模拟之间实现了良好的相关性。最后，将验证的模型应用于k波段接收机组件和前端的射频性能优化。

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2018 IEEE 20th Electronics Packaging Technology Conference (EPTC)

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