排序方式: 共有31条查询结果,搜索用时 31 毫秒
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中国科学院近代物理研究所自主研发的ADS注入器Ⅱ第一代高频低电平(LLRF)控制系统,工作频率为162.5 MHz;LLRF系统是由基于I/Q采样的正交解调技术构成的全数字闭环反馈控制系统,其主要功能是实现超导腔腔体电压幅值稳定控制、相位稳定控制与腔体谐振频率控制;LLRF控制系统在液氦温区超导腔上进行了系统稳定度和性能的在线测试,根据实验数据计算得超导腔体电压幅度稳定度为±3.4‰,相位稳定度为±0.3°,腔体表面峰值电场(Epk)能长时间稳定在25.1 MV/m。通过实验测试,检验了LLRF控制系统的性能,并对测试过程中出现的问题进行了分析,为将来超导腔LLRF控制系统运行积累了经验。 相似文献
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We propose a new algorithm for wavefront sensing based on binary intensity modulation. The algorithm is based on the fact that a wavefront can be expended with a series of orthogonal and binary functions, the Walsh series. We use a spatial light modulator(SLM) to produce different binary-intensity-modulation patterns which are the simple linear transformation of the Walsh series. The optical fields under different binary-intensity-modulation patterns are detected with a photodiode.The relationships between the incident wavefront modulated with the patterns and their optical fields are built to determinate the coefficients of the Walsh series. More detailed and strict relationship equations are established with the algorithm by adding new modulation patterns according to the properties of the Walsh functions. An exact value can be acquired by solving the equations. Finally, with the help of phase unwrapping and smoothing, the wavefront can be reconstructed. The advantage of the algorithm is providing an analytical solution for the coefficients of the Walsh series to reconstruct the wavefront. The simulation experiments are presented and the effectiveness of the algorithm is demonstrated. 相似文献
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磁流体动力学在航空工程中的应用与展望 总被引:2,自引:0,他引:2
介绍了磁流体动力学在航空工程中的主要应用方式,主要包括:磁流体冲压组合发动机、磁流体涡轮组合发动机、燃烧室后磁流体发电、表面磁流体发电、磁流体加速风洞、磁流体推力矢量、进气道大尺寸磁流体流动控制、边界层分离流动控制、边界层转捩控制、飞行器头部热流控制等;探讨了磁流体技术在应用中存在的关键科学与技术问题,对导电流体的产生、磁流体实验设备与实验技术、多场耦合机理及数值模拟方法等进行了分析;最后对磁流体技术在航空工程上的应用与发展进行了总结与展望. 相似文献
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一、工作原理用同一个晶体管发射超声单脉冲和调制波的声速仪的工作原理如图1所示.图1中脉冲回波重合法时序逻辑电路周期性地产生发射同步信号,信号经开关K1选通后,分别被送往单脉冲形成电路或调制波形成电路,然后再经过开关K2送在发射电路.当电源切换开关K3将高压直流电压VH送入发射电路时,该超声波声速仪处于发射超声单脉冲波的工作状态,发射电路输出幅度很高、边沿很陡的电脉冲,经过输出高频插座去激励压电晶片产生单脉冲的超声波,压电晶片与电感构成一个调谐回路路.当电源切换开关K3转向另一侧,将低压直流电压VL送入发射电路,该声速… 相似文献
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To test superconducting cavities, a vertical test system has been designed and set up at the Institute of Modern Physics (IMP). The system design is based on VCO-PLL hardware and the NI Labview software. The test of the HWR010#2 superconducting cavity shows that the function of this test system is satisfactory for testing the low frequency cavity. 相似文献
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常玮 何源 文良华 李春龙 薛纵横 宋玉堃 张锐 朱正龙 高郑 张聪 孙列鹏 岳伟明 张生虎 游志明 Thomas Joseph PowersTom Powers 《中国物理C(英文版)》2014,(5):82-86
To test superconducting cavities, a vertical test system has been designed and set up at the Institute of Modern Physics (IMP). The system design is based on VCO-PLL hardware and the NI Labview software. The test of the HWR010#2 superconducting cavity shows that the function of this test system is satisfactory for testing the low frequency cavity. 相似文献
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