A rectangular waveguide band-stop filter using electromagnetic crystals (EMXT) surface as the top and bottom walls is presented in this letter. The EMXT surface has a band gap that can prevent electromagnetic wave fro...A rectangular waveguide band-stop filter using electromagnetic crystals (EMXT) surface as the top and bottom walls is presented in this letter. The EMXT surface has a band gap that can prevent electromagnetic wave from propagating along the waveguide. Dispersion properties of the waveguide filter are analyzed using an approximated lumped-element circuit model. A W-band prototype based on the proposed waveguide filter is designed and characterized. The experimental results show a rejection band centered at 97 GHz and a rejection level of 16 dB.展开更多
A kind of dual-band-stop filter with an unsymmetrical T-shape defected ground structure (DGS) is proposed. The filter has two band gap centers at 4.9 GHz and 7.35 GHz, respectively, where the two centre frequencies ...A kind of dual-band-stop filter with an unsymmetrical T-shape defected ground structure (DGS) is proposed. The filter has two band gap centers at 4.9 GHz and 7.35 GHz, respectively, where the two centre frequencies are just the second and third harmonics 2.45 GHz. The filters with high band-stop performance and wideband spurious suppression can be achieved by cascading miniaturized unsymmetrical T-shape DGS. The attenuation of three-cascaded T-shape DGS filter is 30.77 dB at 4.9 GHz and 17.96 dB at 7.35 GHz respectively. The above experimental results are in good agreement with the simulation results, especially for the third harmonic.展开更多
In this paper, we present a terahertz (THz) band-stop filter realized by fabricating a metallic T-shaped resonator pattern on the high-resistivity silicon wafer. The filter exhibits two typical band-stop response char...In this paper, we present a terahertz (THz) band-stop filter realized by fabricating a metallic T-shaped resonator pattern on the high-resistivity silicon wafer. The filter exhibits two typical band-stop response characteristics depending on the incident direction of electric field with respect to the T-shaped resonator. When the long and the short arms of the T-shaped resonator were electrically polarized by changing the incident THz wave transmission directions, the corresponding central frequencies of the band-stop filter were found to be 0.436 THz at 42dB and 0.610 THz at 28 dB, respectively. Using three-dimensional (3D) finite-integral time-domain simulations, the band-stop filter was designed, which can operate in the wavelength between 0.2 and 0.8 THz. Experimental verification was also performed using a free space THz time-domain spectroscopy system. The band-stop response characteristics are in good agreement with the simulation results. The interesting THz band-stop filtering properties suggest a promising application in the modern THz communication systems, THz time-domain spectroscopic imaging and THz continuous wave imaging.展开更多
针对含链式静止无功发生器(static var generator,SVG)的风场区域系统高频谐振问题,首先采用谐波线性化的方法建立包含锁相环、功率外环以及电流内环在内的SVG谐波阻抗模型。利用阻抗分析法对风场区域空载线路投入对SVG稳定性的影响进...针对含链式静止无功发生器(static var generator,SVG)的风场区域系统高频谐振问题,首先采用谐波线性化的方法建立包含锁相环、功率外环以及电流内环在内的SVG谐波阻抗模型。利用阻抗分析法对风场区域空载线路投入对SVG稳定性的影响进行分析,揭示风场区域系统高频谐振的发生机理。然后,为抑制系统高频谐振,提出一种基于电压前馈附加带阻滤波器的SVG高频谐振抑制策略。对SVG侧中高频段等效阻抗进行重塑,以保证在该频段系统呈正阻尼状态。并讨论带阻滤波器中心频率和阻尼系数对系统相位裕度的影响。最后利用搭建的含链式SVG风场区域系统仿真模型,验证了理论分析的正确性和所提抑制策略的有效性。展开更多
文摘A rectangular waveguide band-stop filter using electromagnetic crystals (EMXT) surface as the top and bottom walls is presented in this letter. The EMXT surface has a band gap that can prevent electromagnetic wave from propagating along the waveguide. Dispersion properties of the waveguide filter are analyzed using an approximated lumped-element circuit model. A W-band prototype based on the proposed waveguide filter is designed and characterized. The experimental results show a rejection band centered at 97 GHz and a rejection level of 16 dB.
基金supported by the National Natural Science Foundation of China (61171051, 61202399, 61072136)
文摘A kind of dual-band-stop filter with an unsymmetrical T-shape defected ground structure (DGS) is proposed. The filter has two band gap centers at 4.9 GHz and 7.35 GHz, respectively, where the two centre frequencies are just the second and third harmonics 2.45 GHz. The filters with high band-stop performance and wideband spurious suppression can be achieved by cascading miniaturized unsymmetrical T-shape DGS. The attenuation of three-cascaded T-shape DGS filter is 30.77 dB at 4.9 GHz and 17.96 dB at 7.35 GHz respectively. The above experimental results are in good agreement with the simulation results, especially for the third harmonic.
基金supported by the National Natural Science Foundation of China (Grant Nos. 61171051, 50971094, 61072136)
文摘In this paper, we present a terahertz (THz) band-stop filter realized by fabricating a metallic T-shaped resonator pattern on the high-resistivity silicon wafer. The filter exhibits two typical band-stop response characteristics depending on the incident direction of electric field with respect to the T-shaped resonator. When the long and the short arms of the T-shaped resonator were electrically polarized by changing the incident THz wave transmission directions, the corresponding central frequencies of the band-stop filter were found to be 0.436 THz at 42dB and 0.610 THz at 28 dB, respectively. Using three-dimensional (3D) finite-integral time-domain simulations, the band-stop filter was designed, which can operate in the wavelength between 0.2 and 0.8 THz. Experimental verification was also performed using a free space THz time-domain spectroscopy system. The band-stop response characteristics are in good agreement with the simulation results. The interesting THz band-stop filtering properties suggest a promising application in the modern THz communication systems, THz time-domain spectroscopic imaging and THz continuous wave imaging.
文摘针对含链式静止无功发生器(static var generator,SVG)的风场区域系统高频谐振问题,首先采用谐波线性化的方法建立包含锁相环、功率外环以及电流内环在内的SVG谐波阻抗模型。利用阻抗分析法对风场区域空载线路投入对SVG稳定性的影响进行分析,揭示风场区域系统高频谐振的发生机理。然后,为抑制系统高频谐振,提出一种基于电压前馈附加带阻滤波器的SVG高频谐振抑制策略。对SVG侧中高频段等效阻抗进行重塑,以保证在该频段系统呈正阻尼状态。并讨论带阻滤波器中心频率和阻尼系数对系统相位裕度的影响。最后利用搭建的含链式SVG风场区域系统仿真模型,验证了理论分析的正确性和所提抑制策略的有效性。