N model is comparable to the accuracy of the ray-tracing and FDTD models.
型的精确度可与射线追踪及FDTD模型的精度相比拟。
FDTD method is better than the other one for vertical via interconnect problem.
对于垂直通孔互连问题,时域有限差分法更具优势。
A mixed absorbing boundary condition for FDTD was advanced based on PML and MUR.
提出了一种基于FDTD方法的PML和MUR混合吸收边界条件。
Computer aided electromagnetic design tools using mode matching, FE, FDTD TLM techniques.
运用模式匹配、FE、FDTD和TLM等计算机辅助设计工具完成电磁场辅助设计。
FDTD method is used to calculate for optimum design and the measurement data is given out.
采用时域有限差分法进行优化设计计算,并给出了具体测试结果。
Coupling IPO with FDTD, we pick up "background noise" to improve numerical value precision.
在IPO和FDTD之间场耦合中,通过提取“本低噪声”方法提高数值精度。
Wide slot microstrip antenna is analyzed by means of finite-difference time-domain(FDTD) method.
借助时域有限差分法(FDTD)对微带宽缝天线的频率和带宽特性进行了分析讨论。
The time differences and memory cost between parallel FDTD and traditional one are also compared.
比较了并行和传统FDTD方法运算耗时与内存消耗的差异。
The bistable hysteresis loops with Gaussian pulse pumps is obtained by using nonlinear FDTD method.
利用非线性时域有限差分数值模拟方法,得到了高斯脉冲激励下的双稳态响应曲线。
FDTD method had been used in electromagnetism computation widely for its simple, agility and efficiency.
时域有限差分(FDTD)方法因其简单灵活有效已经广泛应用于计算电磁学中。
In this paper the coupling capacitance between the heatsink and the devices is calculated by FDTD method.
所以本文提出了采用FDTD法计算散热片与器件间的高频耦合电容的构想。
Based on the method of FDTD, two special boxes were constructed to calculate the far area radiation field.
在FDTD分析方法的基础上,构造出两个特殊盒子来计算远区辐射场。
Based on microstrip antennas, the antenna is modeled and simulated by the FDTD (Finite Difference Time Domain).
基于微带天线,采用FDTD(有限时域差分方法)对天线进行建模和模拟。
In this paper we analyze the transient responses directly in frequency domain using time domain difference (FDTD).
直接从时间域出发,应用时域有限差分方法(FDTD)分析地下和地面的瞬变响应。
Therefore the time domain characteristics of loaded monopole antenna are calculated and analyzed using FDTD method.
采用时域有限差分法对比计算了加载与非加载单极子天线的时域辐射特性。
The propagation characteristic of the VLF in the earth-ionosphere waveguide is analyzed by applying the FDTD method.
应用时域有限差分(FDTD)方法分析甚低频在地电离层波导中的传播特性。
Secondly, this article explains the principles of FDTD, and synthesizes some radar forward simulate sections with it.
其后说明了时域有限差分法(FDTD)的原理,并用它合成了几种常见的雷达正演剖面;
The near-zone field of the handset with an earphone is calculated by the finite -difference time-domain (FDTD) method.
利用时域有限差分(FDTD)法分析了耳机引线对手机天线辐射近场的影响。
Maxwell's equations can be discretized by finite difference time domain (FDTD) to simulate ground penetrating radar (GPR).
利用时间域有限差分(FDTD)法将麦克斯韦方程进行离散化,可以对地质雷达进行数值模拟。
Minimizing the numerical dispersion in the FDTD calculation region and setting the absorbing boundary have been discussed also.
并简要讨论了FDTD方法的数值色散和计算空间吸收边界的设置等问题。
The perfectly matched layer absorbing boundary condition for the wave equation FDTD method (WE PML) is implemented and validated.
实现了波动方程FDTD算法的PML吸收边界条件(WE PML) ,并进行了数值验证。
Based on the finite difference time-domain (FDTD) method, a novel model is presented for transient analysis of power cable system.
基于时域有限差分算法,提出了一种新的电力电缆电磁瞬态分析的计算模型。
FDTD is widely used in the analysis of electromagnetic problems, such as microwave, Optical tweezers, near field optics and so on.
FDTD广泛应用于研究电磁波与各种物体的相互作用,如微波、光镊、近场光学、细胞中光场分布的数值求解。
A rigorous analysis of a broad wall slot coupler composed of two crossed rectangular waveguides by using FDTD method is presented.
使用FDTD法对由两正交矩形波导构成的宽壁缝隙耦合器进行了严格的分析。
In this thesis, applications of several new algorithms of FDTD and MoM (Method of Moment) in waveguide slot antenna array are studied.
本文主要研究了时域有限差分法(FDTD)的几种新技术以及矩量法在波导缝隙阵中的应用。
The electromagnetic simulation based on Non-uniform FDTD mesh is a generalized and efficient method to solve many electromagnetic problems.
基于非均匀FDTD网格的电磁场模拟是解决电磁场问题的一种有效方法。
Photoelectric properties of two - dimensional photonic crystals of square lattice are calculated by finite different time domain (FDTD) method.
用FDTD方法计算了二维情况下正方形复式晶胞光子晶体的光子特性。
The electromagnetic simulation based on Non-uniform FDTD mesh is a generalized and efficient method to solve many practical electromagnetic problems.
基于非均匀FDTD网格的电磁场模拟是一种解决诸多实际电磁场问题的通用、有效方法。
The electromagnetic simulation based on Non-uniform FDTD mesh is a generalized and efficient method to solve many practical electromagnetic problems.
基于非均匀FDTD网格的电磁场模拟是一种解决诸多实际电磁场问题的通用、有效方法。
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