Abstract
Abstract In this work, we present and illustrate a holistic approach, the M3-approach (methodologies, models, measures), for efficient and accurate design of Ka-band transmitter modules in earth stations on mobile platforms (ESOMPs) for satellite communication applications. We begin by applying this approach to derive the system specifications, considering the application and international regulatory requirements. Based on these specifications, we derive the system/transmitter architecture, and then specify the components of this architecture. Furthermore, we develop a concept for low-cost realization of the transmitter module, and a concept for testing the module. For the implementation of the realization concept, 3D full-wave electromagnetic-based models are developed at the packaging and component levels. To verify these models, test samples are fabricated and measured. Excellent correlation is obtained between measurement and simulation results. The verified models are applied to optimize the RF performance of the Ka-band transmitter components and modules.
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