1) lossless uniform transmission lines
无损均匀传输线
1.
In sinusoidal steady-state,if the terminal of lossless uniform transmission lines is open circuit or short circuit or reactance load,the voltage and current of the transmission lines are all standing waves.
在正弦稳态情况下,无损均匀传输线终端开路、短路或接纯电抗时,传输线上会出现驻波。
2) lossy uniform transmission lines
有损均匀传输线
1.
The paper introduces another method of computing sinsoidal steady-state solutions of lossy uniform transmission lines.
提出了另一种计算有损均匀传输线正弦稳态解的方法。
2.
The voltage and current of lossy uniform transmission lines are function of not only time but also distance.
有损均匀传输线的电压、电流既是时间的函数,也是距离的函数,需要用分布参数电路模型分析。
3) uniform transmission line
均匀传输线
1.
Analysing on working states about lossless uniform transmission line;
无耗均匀传输线的工作状态分析
2.
The method used to measure parameters of uniform transmission lines is introduced according to the circuit model and the sine steady-state voltage equation of telegraph equation of uniform transmission line.
提出均匀传输线原始参数的求解方法。
3.
Based on conceptions of travelling wave,coefficient of reflection,and delayed step function,the paper presents the equivalent circuit principle to solve the reflective wave of the voltage at the end of the uniform transmission line is more significant than that of the Peterson princeple of solving wave process.
根据行波、反射系数以及延迟阶跃函数和概念提出了求解均匀传输线电压反射波的等效电路——求解波过程的等效法则 ,它比求解波过程的柏德生法则的等效电路更有意义 ,能加深理解波过程的反射和行波的概念。
4) nonuniform transmission line
非均匀传输线
1.
Transient analysis of nonuniform transmission lines using Simpson integration formula;
基于辛浦生积分法的非均匀传输线瞬态响应分析
2.
An adjoint network method, based on the modal analysis, eigenvalue sensitivity and the numerical inversion of the Laplace transform, is described for the evaluation of the time domain sensitivity of networks which include coupled uniform and nonuniform transmission lines(NTLs).
基于模量分析、特征值灵敏度和数值逆拉普拉斯变换技术,提出采用伴随网络法计算含有耦合均匀与非均匀传输线网络的时域灵敏度。
3.
The sensitivity formulas of exponential lossless nonuniform transmission line are derived in frequency- domain by using the adjoint network, based on the short-circuited admittance matrix of exponential lossless nonuniform transmission line.
在求得无损耗指数线型非均匀传输线短路导纳参数的基础上,应用伴随网络法,推导出无损耗指数线型非均匀传输线的频域灵敏度公式,并通过实例与扰动法进行比较,验证了本文所提的方法和公式的正确性。
5) average transformation
均匀传输线理论
1.
Based on the theory of average transformation,the electric attachment resistance is equal to the value of capacitance between sensor electrode and attachment.
从均匀传输线理论出发 ,推导出电容式物位传感器挂料层的电阻与传感探极和挂料层以绝缘层为介质所形成的电容的容抗在数值上相等 ,由此得出通过测量传感电极的复数阻抗来消除挂料误差对测量的影响。
6) lossless transmission line
无损传输线
1.
Introducing the Adomian decomposition method,transient analysis is made to the generalized equation with a simulation done as instance for lossless transmission line.
针对传输线电压、电流波的传播特点,采用推广的时间分数阶传输线方程来描述传输线上电压、电流波的反常扩散过程;并应用分数阶Adomian分解方法对时间分数阶传输线方程进行瞬态分析,最后给出了无损传输线传输过程的仿真实例。
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