XFdtd

XFdtd’s Schematic Editor for Matching Network and Corporate Feed Network Analysis

XFdtd’s Schematic Editor for Matching Network and Corporate Feed Network Analysis

Learn about XFdtd’s schematic editor and frequency-domain circuit solver for analyzing matching networks and corporate feed networks. We explore how to combine matching network analysis with full-wave simulation to view efficiency, near-field results, and far-zone patterns.


,

Smart Home Device Design and WiFi Connectivity Using EM Simulation

,
Smart Home Device Design and WiFi Connectivity Using EM Simulation

This webinar demonstrates the strengths of Remcom’s XFdtd and Wireless InSite for designing and simulating smart home devices, analyzing propagation and beamforming capabilities, and assessing throughput performance of the devices via MIMO techniques.

5G Antenna Array Design Features in XFdtd EM Simulation Software

5G Antenna Array Design Features in XFdtd EM Simulation Software

This webinar demonstrates XFdtd’s 5G antenna array design features, including workflow enhancements for modeling complex devices at millimeter wave frequencies. This webinar demonstrates performance metrics for 5G beam steering applications via the new CDF of EIRP plot as well as XF’s enhanced matching network design integration with Optenni Lab™ matching circuit optimization software.

,

Design and Assessment of a 5G Base Station Using Massive MIMO for Fixed Wireless Access

,
Design and Assessment of a 5G Base Station Using Massive MIMO for Fixed Wireless Access

Fixed Wireless Access is a key application expected to benefit from 5G networks. This webinar demonstrates how modeling and simulation can be used to assist system designers, first in the design of a complex antenna array for a base station, and then to assess its potential performance in the field.

Antenna Design Workflow Using Full-Wave Matching Circuit Optimization

The design of a matched antenna is a fairly involved process. This webinar shows how XFdtd simplifies this process by providing tools to parameterize the unmatched antenna, determine S11, synthesize a matching network topology with Optenni Lab, and determine the final component values using the Circuit Element Optimizer.

 

Save time and reduce costs.

Contact Remcom today for a customized solution to your most complex electromagnetic challenges.