1) An end pier
终端(电)杆
2) terminal lever
终端杆
3) cable terminal
电缆终端
1.
Influnce of stucture shape and rubber property on 220 kV cable terminal stress cone;
结构形式及材料性能对220kV电缆终端应力锥的影响
2.
Optimization of material and structure parameters in cable terminal based on response surface methodology;
基于响应表面法的电缆终端结构和材料参数优化
3.
Numerical simulation analysis of 220 kV cable terminal stress cone in force field;
220kV电缆终端应力锥在力场中的数值模拟分析
4) cable termination
电缆终端
1.
Development in the design of HV cable termination;
高压电缆终端结构设计的进展
2.
The use of prefabricated rubber stress cone in high voltage cross-linking power cable termination was presented.
介绍了高压交联电力电缆终端中预制橡胶应力锥的应用情况,探讨了应力锥的锥面曲线设计方法,分析了橡胶应力锥的电气性能、力学性能以及热性能。
3.
Further simulation was conducted for examining the effects of a replacement of linear SCT by nonlinear one in an optimized cable termination e.
基于变分原理推导了非线性的时域有限元电场计算方程和稳态热场有限元方程,并引进了响应表面法,实现了响应表面法与时域有限元方法的结合,针对含非线性应力管(Stress Control Tube,SCT)的电缆终端,进行了材料和结构的参数优化。
5) terminal resistor
终端电阻
1.
The indirectly-heated terminating type MEMS microwave power sensor s structure and process were presented,and based on these,the match design among the coplanar waveguide,the terminal resistors and the thermopile were done.
在提出间接加热终端式MEMS微波功率传感器的结构和工艺的基础上,对其基本单元:共面波导(CPW)、终端电阻和热电堆之间进行了匹配性设计,用软件HFSS进行了模拟,模拟结果包括共面波导与接触垫间的阻抗匹配的分析以及热电偶的数目和热电堆的接近对CPW性能影响的分析。
2.
The thermal simulations were done and compared,according to the thermopile s three different positions:under(structure A),above(structure B)and outside(structure C)the terminal resistors.
在提出间接加热终端式MEMS微波功率传感器结构和工艺的基础上,用Coventorware软件和ANSYS软件对其温度分布进行了模拟,根据热电堆的放置位置不同,分别对热电堆处于终端电阻的下方(结构A)、上方(结构B)和外侧(结构C)三种结构进行了模拟和比较,最后采用了热电堆处于终端电阻下方的结构,热电堆的热端可以测得的温度范围为417。
6) Distribution terminal
配电终端
1.
The reliability and the automation level of distribution terminal directly affect the reliability and the automation level of entire distribution automation (DA).
配电终端的可靠性和自动化水平直接影响了整个配电自动化(DA)系统的可靠性和自动化水平。
补充资料:终端
终端
terminal
ZhongdUQn终端(ten附inal)参见终端设备。
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