1) multi-transmission line
多传输线
1.
Applying multi-transmission line(MTL) theory to establish equivalent circuit of the transformer winding and calculating its driving point impedance and voltage transfer functions,the natural frequencies and transient response can be obtained.
将多传输线模型应用于变压器线圈宽频率范围的建模并计算等值电路的入端阻抗,可以比较全面地了解线圈中自然频率分布及暂态响应的频率特性,并比较容易地通过测量模型变压器的入端阻抗,验证电路模型的频率有效范围。
2) polyphase transmission lines
多相传输线
3) Multilayer transmission line
多层传输线
4) multimode line
多模传输线
5) multi-conductor transmission line
多导体传输线
1.
The multi-conductor transmission line(MTL) theory was used in the analysis of the coupling between telecommunication cable and external field,the finite-difference time domain(FDTD) method was used to simulate the transient response.
多导体传输线理论分析外场与电缆间的耦合,时域有限差分法(FDTD)模拟通信电缆对外场的时域响应。
2.
Based on multi-conductor transmission line(MTL)theory, pulse propagation model of partial discharge in transformer winding is established.
基于多导体传输线理论建立放电脉冲信号在大型单相变压器绕组中的传输模型。
3.
This paper establishes the mode of corresponding equivalent circuit for transmission line coupling in homogeneous and inhomogeneous media based on the theory of multi-conductor transmission line,simulates and calculates the crosstalk among three conductor transmission lines on the PCB board using Matlab software.
运用多导体传输线理论为均匀及非均匀介质中的传输线耦合情况建立相应的等效电路模型,借助M atlab软件对PCB板上三导体传输线的线间串扰进行仿真计算。
6) multiconductor transmission line
多导体传输线
1.
Based on Taylor and Agrawal models respectively,this paper presents analytical solution of response of multiconductor transmission line excited by uniformed plane waves.
基于空间电磁场激励下的Taylor和Agrawal传输线模型,分别推导了Taylor和Agrawal模型的均匀平面波激励下耦合多导体传输线终端响应的方程。
2.
In order to study the very fast transient overvoltage(VFTO)distribution in taper winding of pulse transformer(PT)under high-frequency voltage surge of steep front,a distributed line model of PT s secondary winding is built based on multiconductor transmission line(MTL)theory.
为了研究在陡波前、高重复频率的电压冲击下,脉冲变压器(PT)锥形绕组中的特快速暂态过电压(VFTO)分布特性,建立了基于多导体传输线(MTL)理论的PT二次绕组分布参数模型;利用锥形绕组结构上的特性,提出一种有限元法(FEM)和插值公式相结合的方法以快速计算锥形绕组的感应系数矩阵K;通过求解频域下的电报方程可得到绕组的对地电压分布以及匝间电压分布;进行了绕组暂态电压的测量,从实验结果可以看出电压分布的一定规律,并分析了造成计算与实验结果间误差的原因;结合实验提出一种改善电压分布的措施,对大功率PT二次绕组的绝缘设计有一定的参考意义。
补充资料:传播常数(见传输线)
传播常数(见传输线)
propagation constant
ChUon匕oChongsh日传播常数(propagation constant)线。见传输
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