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基于超材料的相位补偿特性实现特定波段超材料滤波器设计。本工作通过变形传统的互补型开口谐振环,设计了一种小型化哑铃型缝隙结构超材料滤波器,通过二极管控制超材料的电磁特性在不同时间的空间分布形式,以实现空间滤波器中心频率可调。滤波器单元尺寸为5.0 mm×5.0 mm×0.8 mm,具有小型化的特点。仿真结果表明:-10 dB工作带宽为28%(9.2~12 GHz),回波损耗最小值为29 dB,插入损耗最大值为0.8 dB。测试结果表明:-10 dB工作带宽为25%(9.2~11.7 GHz),回波损耗最小值为20 dB,插入损耗最大值为1.0 dB。 相似文献
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A tunable metamaterial filter is designed based on split-ring resonators (SRRs) in this paper. The metamaterial filter has a compact size of 15 mm×20 mm, and miniaturization is realized by using the SRRs. By loading tunable devices, the continuous operation of the filter is realized at X band (from 10.7 GHz to 12 GHz), the bandwidth is about 13%, the minimum return loss is 35 dB, and the maximum insertion loss is 0.37 dB. The results illustrate that the metamaterial filter shows the compact size, wide bandwidth and good band pass characteristics. This work has been supported by the Key Laboratory Foundation of China Electronics Technology Group Corporation (No.ZX15ZS391), the National Fund for International Cooperation in Science and Technology (No.2014DFR10020), and the Natural Science Foundation of Shanxi Province (Nos.2014021020-1 and 2015021083). E-mail:798710363@qq.com 相似文献
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以向日葵果胶和硫酸锌为原料合成一种补锌剂,研究时间、pH值、温度对向日葵果胶锌螯合率的影响。在单因素实验的基础上,设计响应面试验,得到最佳制备工艺条件为:反应时间85 min, pH值8,温度95℃,在该条件下向日葵果胶锌的螯合率为93.8%±0.41%。利用FTIR(Fourier-transform infrared spectroscopy)和XRD(X-ray diffraction)对向日葵果胶和向日葵果胶锌进行结构表征,结果表明向日葵果胶中-OH和C=O与锌离子发生了螯合,成功制备向日葵果胶锌。 相似文献
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设计了一种基于多层电阻膜和超材料的超薄宽频吸波体模型。该吸波体由两层含介质基板的电阻膜片和一层一阶Minkowski分形双方环(minkowski fractal double square loop,MFDSL)电谐振器结构组成,各层电阻膜片阻值相同,但外形不同。仿真分析结果表明,该吸波体对1.2~20GHz频段内垂直入射的电磁波的吸收率均大于90%;同时对于45°角入射的TE和TM波仍能保持良好的吸收性能,具有宽入射角特性和极化不敏感的特点,且厚度仅有1mm。另外,对不同电阻膜片阻值得分析结果表明,随着电阻膜片阻值的增大,该吸波体的吸波效果更好,吸波性能更加稳定。 相似文献
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This paper presents a compact triple-band bandpass filter based on metamaterials. The miniaturization is realized by the principle of phase compensation of metamaterial. Compared with the conventional half-wavelength filter, the metamaterial filter has a small size of 10 mm×10 mm. The triple-band bandpass filter performance has been validated by the electromagnetic simulation software of high frequency structure simulator(HFSS). The results illustrate that the filter is designed with center frequencies of 2.4 GHz, 5.1 GHz and 8.8 GHz, bandwidths of about 7.9%(2.31—2.50 GHz), 7.8%(5.0—5.4 GHz) and 7.4%(8.50—9.15 GHz), respectively, and it shows good band pass characteristics. 相似文献