Remcom Slide Show

  1. Wireless InSite 3D Wireless Prediction Software
    10/24/2018

    Wireless InSite® is a suite of ray-tracing models and high-fidelity EM solvers for the analysis of site-specific radio wave propagation and wireless communication systems. The RF propagation software provides efficient and accurate predictions of EM propagation and communication channel characteristics in complex urban, indoor, rural and mixed path environments.

  2. 5G And MIMO Using Wireless InSite
    3/30/2016

    Remcom's 5G MIMO simulation software offers a unique ray tracing capability for simulating MIMO antennas for 5G, WiFi, and other technologies relevant to today's rapidly advancing technologies.

  3. XFdtd: 3D Electromagnetic Simulation Software
    6/30/2005

    XFdtd 3D EM Simulation Software provides engineers with powerful tools to shorten development time and release products to market sooner.

    A full-featured EM simulation solver, XFdtd outpaces other methods in efficiency as the number of unknowns increases. XF includes full-wave, static, bio-thermal, optimization, and circuit solvers to tackle a wide variety of applications, including antenna design and placement, biomedical and SAR, EMI/EMC, microwave devices, radar and scattering, automotive radar, and more.  It also works with Remcom's ray-tracing products to provide thorough simulation capability at the low-, middle-, and high-end of the electromagnetic spectrum.

    • Antenna Design
    • Automotive Radar
    • Microwave Devices
    • Touchscreen Capacitance
    • Biomedical
    • Metamaterials

    Download the XFdtd brochure.

  4. XFdtd's Advantages For Mobile Device Design
    7/19/2017

    Precision is key when designing today’s complex mobile devices, and engineers can’t afford discrepancies between device efficiency and simulation results.  Remcom users see less than a 0.5 dB difference in device efficiency when compared to simulation results.  Importing the right CAD model achieves a higher level of accuracy with measurements that are exceptionally close to the real device, streamlining workflow and simplifying the design process.