磁绝缘线振荡器 MILO英语短句 例句大全

磁绝缘线振荡器,MILO

1)MILO[英]["mail?u][美]["ma?lo]磁绝缘线振荡器

1.Design and numerical simulation of high efficiencyMILO;高效率磁绝缘线振荡器的设计和数值模拟

2.3-D simulation of higher order modes inMILO;磁绝缘线振荡器中高阶模式的3维数值模拟

3.Three-Dimensional PIC Simulation of a Load-LimitedMILO;磁绝缘线振荡器的三维粒子模拟

英文短句/例句

1.Investigation of a P-band Magnetically Insulated Transmission Line Oscillator (MILO);P波段磁绝缘线振荡器（MILO）的研究

2.Frequency feature of S-band tapered magnetically insulated transmission line oscillatorS波段锥形磁绝缘线振荡器频率特性

3.Numerical analysis on high frequency characteristics of MILO磁绝缘线振荡器谐振腔的高频特性研究

4.Analysis of the dispersion on MILO coaxial SWS磁绝缘线振荡器同轴慢波结构色散特性分析

5.Theoretical and Experimental Researches on Bifrequency Magnetically Insulated Transmission Line Oscillator (BFMILO);双频磁绝缘线振荡器的理论与实验研究

6.The two-dimensional periodic structure in a bifrequency magnetically insulated transmission line oscillator双频磁绝缘线振荡器二维周期结构研究

7.Experimental investigation of L-band bifrequency magnetically insulated transmission line oscillatorL波段双频磁绝缘线振荡器的实验研究

8.Analysis of L-band high-efficiency gap-current magnetically insulated transmission line oscillatorL波段端面发射高效率磁绝缘线振荡器

9.Numerical study on microwave generation characteristics of bifrequency MILO双频磁绝缘线振荡器微波产生特性的数值研究

10.Design and particle simulation of L-band bifrequency magnetically insulated transmission line oscillatorL波段双频磁绝缘线振荡器的设计与粒子模拟

11.The design consideration of high power and high frequency Magnetically insulated Transmission Line Oscillator (MILO) was made.初步考虑了高频率与高功率的磁绝缘线振荡器的设计问题。

12.The softening of Magnon of Two Dimensional Insulating Ferromagnetism on the Δ Line under Absolute Zero Temperature零温下在Δ线二维绝缘铁磁体的磁振子软化

13.The oscillatory current flowing in the coil produces an oscillating magnetic field.流过线圈的振荡电流产生一个振荡磁

14.Nonlinear Excitation Regulator’s Ability to Suppress Low-frequency Oscillations非线性励磁调节器抑制低频振荡的能力

15.Electromagnetic-field model for formation process of magnetic insulation without space-electron loss磁绝缘传输线无损磁绝缘形成过程的电磁模型

16.external-line triode oscillator外线路三极管振荡器

17.tapped - coil oscillator带抽头线圈的振荡器

18.line-controlled blocking oscillator传输线控制间歇振荡器

相关短句/例句

Magnetically insulated transmission line oscillator磁绝缘线振荡器

1.High frequency characteristics of a magnetically insulated transmission line oscillator oscillating in HEM_(11) mode;HEM_(11)模磁绝缘线振荡器的高频分析

2.High frequency characteristics of bifrequency magnetically insulated transmission line oscillator双频磁绝缘线振荡器的高频特性

3.The two-dimensional periodic structure in a bifrequency magnetically insulated transmission line oscillator双频磁绝缘线振荡器二维周期结构研究

3)Magnetically insulated transmission line oscillator (MILO)磁绝缘线振荡器

1.Magnetically Insulated Transmission Line Oscillator (MILO) is a kind of cross-field device, which can generate High Power Microwave (HPM) without external magnetic field.双频磁绝缘线振荡器(Bifrequency Magnetically Insulated Transmission LineOscillator,BFMILO)是一种低阻抗正交场高功率微波器件,它不仅具有磁绝缘线振荡器的优点,还具有能够稳定地同时输出两个频率的高功率微波(HPM)的特点,同时,能够产生稳定输出的双频HPM器件是一个新兴的研究方向,将具有重要的学术价值和实际应用,目前尚未见到相关报道。

2.As one of important candidates in their respective fields, an inductive energy storage pulsed power source and a magnetically insulated transmission line oscillator (MILO) have attracted the attention of many researchers.电感储能脉冲功率源和磁绝缘线振荡器(Magnetically insulated transmission line oscillator,简称MILO)作为各自领域内向该方向发展的重要候选者之一得到了广泛关注。

4)Magnetically Insulated Line Oscillator磁绝缘线振荡器

1.Simulation investigation of X-band magnetically insulated line oscillatorX波段磁绝缘线振荡器的数值模拟

2.A four-cavity L-band ladder cathodeMagnetically Insulated Line Oscillator(MILO) was designed.为了提高器件微波输出功率和功率转换效率,设计了一种四腔结构L波段阶梯阴极磁绝缘线振荡器,运用开放腔高频分析方法得到了谐振频率和高频电场分布,并计算得到了器件的有载品质因数。

5)Tapered MILO渐变型磁绝缘线振荡器

6)Magnetically insulated transmission line oscillator(MILO)磁绝缘传输线振荡器(MILO)

延伸阅读

变压器绝缘的在线诊断变压器绝缘的在线诊断on-line insulation diagnosis of transformerb lonyoql lueyuon deZ。一x旧n zhenduon变压器绝缘的在线诊断(on一line insulationdiagnosis of transformer)对运行状态下的变压器绝缘进行试验和各种特性测量，分析其特征，并对绝缘状态作出判断的技术。推行和发展变压器绝缘在线诊断技术，能早期发现故障，提高变压器的运行可靠性。充油变压器绝缘在线诊断的项目有:①局部放电;②油中溶解气体;③电容套管介质特性。局部放电测量变压器局部放电有两种方法:电脉冲信号法(见局部放电试脸)和超声信号法。在线监测变压器局部放电电脉冲信号要考虑传感器的选择及变压器运行现场强烈电磁干扰的抑制问题。通常采用罗戈夫斯基线圈型电流传感器来检测放电脉冲信号，将电容套管、变压器外壳或铁芯接地线穿越传感器的磁芯可取得放电信号。传感器的输出信号经放大、滤波、数据采集后送计算机分析、储存。为了抑制电磁干扰，要采取数字滤波等措施。可根据视在放电量或根据犷一q一n伸:放电发生时的工频电压相位;q:放电量;n:放电重复率)三维谱图用人工神经网络进行判断。变压器局部放电的超声信号由装在变压器外壳上的超声传感器取得。可根据电、声信号的时延和声信号在油中的传播速度来对放电源定位。油中溶解气体在放电或过热作用下，充油变压器的油浸纸绝缘会产生HZ、eH;、eZH6、e:H;、CZHZ、CO、COZ等气体，并逐渐溶解于油中，可根据油中溶解气体的成分和浓度来进行诊断。由于油中溶解气体浓度很低，一般采用气相色谱仪进行分析，分析流程为:①从变压器的油中脱出气体，或由变压器取出油样再脱出气体;②脱出气体由载气推动通过色谱柱而被分离;③气体鉴定(成分、浓度测定)。利用高分子薄膜的透气性可将变压器油中的气体分离出来。用定量的空气循环吹人油样，也可将油中溶解气体析出。气体鉴定采用半导体气敏传感器或燃料电池。可根据半导体气敏传感器接触气体后电气性能的变化来鉴定气体，例如接触HZ后，SnOZ的电阻或把栅场效应管阐值电压的变化来鉴定。燃料电池由一对电极和电解液(如H2504溶液)组成，可根据电化学反应产生的电流正比于导入HZ浓度的现象来鉴定油中溶解的HZ。中国国家标准和国际电工委员会推荐用5种气体浓度的3个比值CZHZ/CZH、、CH;/HZ、CZH。/CZH。来判断故障的性质。电容套管介质特性电容套管是一种电容型设备，根据它的介质特性进行的诊断参见电容型绝缘的在线诊断。

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