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引用次数: 4
摘要
由于使用了四分之一波变压器,传统的威尔金森功率分压器在中心频率的奇数倍处具有杂散通带。在实际应用中,通常需要通过级联滤波器来抑制杂散通带,这与微波系统小型化和集成化的趋势背道而驰。本文设计了一种基于人工低通传输线的低通威尔金森功率分配器。该功率分压器设计紧凑,适用于RO4003衬底上0.17λg x 0.1λg的电路尺寸,其中λg是中心频率为0.9 GHz的引导波长。低通功率分压器具有良好定义的通带、过渡和阻带区域。实验结果表明,它的通带性能与传统的威尔金森功率分压器相似,同时具有1.8 GHz至20 GHz的宽阻带。
The conventional Wilkinson power divider has spurious passbands at odd multiples of the center frequency, due to the use of quarter-wave transformers. For practical applications, the spurious passbands generally need to be suppressed by cascading filters, which acts against the trend of microwave systems that are toward miniaturization and integration. In this paper, a low-pass Wilkinson power divider is designed based on artificial low-pass transmission lines. The power divider is a compact design that fits into a circuit size of 0.17λg x 0.1λg on an RO4003 substrate, where λg is the guided wavelength at the center frequency of 0.9 GHz. The low-pass power divider has well-defined passband, transition, and stopband regions. It behaves like the conventional Wilkinson power divider in the passband, while has a wide stopband from 1.8 GHz to 20 GHz, as indicated by the experimental results.
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