XF includes a specialized FDTD solver which outpaces other methods in efficiency as the number of unknowns increases.
Parameters Everywhere XF gives you more simulation control with parameterization.įast Intelligent Meshing XF makes it easier to generate more accurate and efficient meshes with less work. Powerful Flexible Modeling Spend less time modeling and more time getting results.Ĭustom Scripted Features XF allows you to create your own custom features with a powerful scripting API. Results and Output Complete result history.ĭynamic Interactive Graphs Working with results is simple in XF. Simplified Workflow XF streamlines your workflow by eliminating time-consuming, redundant tasks. Poseable Hands For mobile device design, XF can mimic numerous mobile device grips. VariPose® Repositions human biological mesh for bioelectromagnetic applications including MRI, communication devices such as cell phones and more.
Rotman Lens Designer® A software tool for the design, synthesis, and analysis of Rotman Lenses and their variants. MATLAB Export Functionality All data available through XF’s Result Browser can be exported to MATLAB and CSV formats.īiological Thermal Sensor For biomedical analyses, allows metals and other non-biological objects to be included in the temperature rise computation. XACT Accurate Cell Technology® Resolves the most intricate designs with fewer computational resources for faster, more accurate simulations. PrOGrid Project Optimized Gridding® Simplifies grid creation by considering multiple aspects of a project to optimize the grid for both accuracy and runtime. Optenni Lab Integration Easily generate a matching network topology and initial component values for your device. Wrapping Flexible PCB and 2D Sheets Wrap a full, multi-layer flexible PCB design onto a form in one easy step, or wrap a sheet onto an arbitrarily shaped surface. Transient EM/Circuit Co-Simulation A SPICE-based circuit solver and full-wave FDTD solver are computed simultaneously.ĭielectric Breakdown Prediction Predict locations at risk of suffering dielectric breakdown with XF's collection of ESD testing simulation tools.Ĭircuit Element Optimizer Determines optimal values for lumped circuit elements connected directly into the EM simulation mesh. Waveguide Excitations XFdtd offers modal and nodal waveguide interfaces. Superposition Quickly analyze port phase combinations with a single simulation. Electromagnetic Diffraction Modeling and Simulation Presented By Prof. Combine with MPI technology for GPU clusters.ĥG Array Analysis Maximize 5G device performance with XF's tools for optimizing radiation and beam steering characteristics of antenna arrays. XStream® GPU Acceleration Built-in EM Simulation Acceleration via GPUs. High Performance Computing Options Improve electromagnetic simulation performance using the most modern high-performance computing technologies available. It is straightforward to recognize that two antennas excitation can reduce the demands on power amplifier as the total input power is split among the two antennas, and consequently the cost of electromagnetic compatibility (EMC) test in large-scale RC can be reduced.Frequency-Domain Circuit Solver and Schematic Editor Build a matching network or corporate feed network and see its impact on full-wave results. Numerical data show that the field uniformity in the test space is improved on the condition of two transmitting antennas while the normalized electric fields decreased slightly compared to the one antenna condition. The broadband response of RC is obtained by fast Fourier transformation (FFT) after only one simulation.
The full 3D simulation of RC is carried out by the finite difference time domain (FDTD) method on two excitation conditions of one antenna and two antennas. In order to optimize the electromagnetic fields performance, a new method of exciting RC with two antennas is proposed based on theoretical analysis. The excitation source is one of the critical items that determine the electromagnetic fields in a reverberation chamber (RC).