2) Gyro-TWT
回旋行波管
1.
In this paper, the design procedure of a harmonic multiplying Gyro-TWT with three stage interaction circuits is presented.
该文给出了一种三段式互作用结构谐波倍增回旋行波管放大器互作用电路的理论设计过程。
2.
This paper provides a simple technique to design and optimize the spiral waveguide of Gyro-TWT.
色散曲线趋于斜率为正的直线,该特性说明了螺旋型回旋行波管具有较高的工作效率和较宽的带宽。
3.
The dynamic dispersion equation of Gyro-TWT is analyzed in this paper.
以小回旋电子注、均匀截面光滑壁圆柱波导为例 ,对回旋行波管动力学色散方程作了解析分析和讨论 ;数值计算和分析了注波互作用耦合系数与电子注参数的相互关系 ,为优化选择电子注参数 ,提高注波互作用效率获得了依据。
3) Gyro TWT
回旋行波管
1.
The analysis of RF structure of an axially slotted cylindrical waveguide Gyro TWT is addressed and the numerical simulations for the RF structure are also carried out in detail.
本文以角向开槽圆柱波导为研究对象 ,解析分析并数值计算了其高频场分布及特征根情况 ,在此基础上从高频结构角度出发 ,对优化设计回旋行波管问题作了分析 ,给出了相应的设计方向和依据。
4) Gyrotron traveling wave tube
回旋行波管
1.
Gyrotron traveling wave tube(Gyro-TWT) is a kind of fast wave device, which is of high working frequency, largeaverage power capability, broad bandwidth, and considered to be the most perfectpower source for high perform.
回旋行波管是一种快波器件,具有工作频率高、平均功率容量大、宽频带等特性,是高性能雷达和电子对抗干扰系统理想的功率源。
5) Distributed loss waveguide
分布损耗波导
6) return loss
回波损耗
1.
Identification of the return loss and structural return loss of telecom cables;
数字通信电缆回波损耗与结构回波损耗的辨析
2.
Influences of polishing on return loss of optical fiber connectors;
抛光对光纤连接器回波损耗的影响
3.
In order to improve the surface quality and machining efficiency for the end-face of fiber optic connector and to advance the performance of transferring optical signals,the conventional polishing way must be improved to meet the requirements of next generation fiber optic connector with lower insertion losses and return losses.
1dB、回波损耗小于-60dB的性能指标;对超声/机械复合研磨的机理进行了初步分析。
补充资料:分布
分布
distribution
营养物质、药物等通过血管壁而进入组织细胞的过程;或指病灶、病变在体内的定位分布。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条