1) Transverse impedance
横向阻抗
1.
Effect of dual-wire distance and wire diameter on transverse impedance measurement using dual-wire method
双线法测量横向阻抗中双线间距及线径的影响
2.
This paper reports the result of simulation of transverse impedances of three different induction accelerating cavities.
束腔相互作用导致的束流崩溃不稳定性 (BBU)将严重地恶化束品质 ,而加速腔横向阻抗反映了这种相互作用的强弱。
3.
Our results show that the newly designed cavities behave better than the old prototype cavity with larger transverse impedance,and between the newly designed cavities,dielectric cavity with a coxial like accelerating gap geometry should be the first choice because the transverse impedance of the lower mode is oppressed efficiently.
描述了采用脉冲双线法测量感应加速腔横向阻抗的原理、方法和步骤。
2) wheel lateral impedance
车轮横向阻抗
1.
This paper deduces the mathematical representation of the wheel lateral impedance by using the statianalysis method, and approves the rightness and feasibility of this method.
用模态分析的方法推导出列车车轮横向阻抗的数学表达式,并证明了此种方法的正确性及可行性。
3) transverse coupling impedance
横向耦合阻抗
1.
The frequency of the TM_(110)mode from these methods agreed with the experimental results,while the transverse coupling impedance was different from the experimental result.
几种方法得到的TM_(110)模频率与实验结果吻合,而横向耦合阻抗则有倍数之差,但都证明多功能腔在TM_(110)模式下的横向耦合阻抗过大,是激励BBU的最主要的因素。
4) S-wave impedance
横波阻抗
5) quadrature axis impedance
横轴阻抗
6) lateral resistance
横向电阻
1.
The various factors formed by the series resistance of solar cells have been analyzed, in particular to elaborate analysis of lateral resistance of TCO layer.
该文从理论上分析了太阳电池中串联电阻形成的各种因素,特别是对电池TCO层的薄层横向电阻做了较为详尽的理论分析,导出了TCO层薄层横向电阻的理论计算公式,并讨论了减小串联电阻的途径。
2.
Through the principle analysis of monitoring its lateral resistance and photocurrent during the manufacturing process of multi-alkali cathod, the formation process of multi-alkali cathod is presented and some measures for improving the manufacturing technology of multialkali cathod are proposed.
叙述多碱阴极这种制作工艺简单而性能优良的半导体光电发射材料的应用,通过对多碱阴极制造过程中其横向电阻和光电流监控的原理分析,阐明多碱阴极的形成过程,提出改进多碱阴极制作工艺的措施。
补充资料:星接阻抗和三角接阻抗的变换
星接阻抗和三角接阻抗的变换
transformation between starc-onnected and delta-connected impedances
x ing]一e乙日kongl介e sonJ一00}Iez日伙ongde匕一。一〕huon星接阻抗和三角接阻抗的变换(t ransfor-mation betweenstar一eonneeted and delta-eonneeted imPedanees)接成星形的三个阻抗和接成三角形的三个阻抗互相替代的等效变换。它们之间的关系可用一组变换公式表示。按这组公式,用星接阻抗替换三角接阻抗或者反过来,不会影响稳态下电路其他部分的正弦电压和电流,常用于对称三相电路的分析和计算。 图1为三个阻抗21、Z:、23接成星形(又称丫形)。图2为三个阻抗Z小22。、Zal接成三角形(又称△形)。它们之间的变换公式如下:人23土图1星接阻抗图2三角接阻抗(1)将星形连接变换成三角形连接212一Z:+22+2 122及3一22+za十警(1)、|冬|矛231一23+21+2321(2)将三角形连接变换成星形连接z、-二一典乒兴-) 艺‘2士乙“3十乙31…_2 oqZI,}Z。一下万~一二-二二-汁 乙‘2士乙23十乙3‘1_Z。IZoq}艺q一二二一~二,二二--,-二二-~J 乙12十乙23十艺32夕(2) 当三个星接阻抗相等,即21一Z:一23一z丫、三个三角接阻抗相等即212一223一231一Z△时,变换公式是 Z二一32丫,Z丫一Z△/3
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