How does diffuse scattering impact mmWave signals?
This presentation highlights Wireless InSite’s novel technique at 73 GHz, showing strong agreement with measurements and a clear effect on cross-polarized components.
🔗: https://t.co/Opl7RiWAax
#WirelessInSite#mmWave#5G
XFdtd’s thermal sensor allows engineers to accurately predict temperature rise from RF exposure. It models biological tissue, implants, and conductive materials while accounting for heat transfer, perfusion, and RF heating.
Learn more: https://t.co/hzfkc7AIx3
XFdtd’s MATLAB export functionality allows engineers to transfer simulation data into @MATLAB or CSV for advanced analysis and visualization. It supports field data, SAR results, and more for flexible post-processing.
Learn more: https://t.co/QR3K0Kem4L
We're looking forward to connecting with friends and customers at IEEE AP-S/URSI 2026! If you're attending, visit us at booth 129! Our experts will be available for one-on-one technical discussions and product demonstrations. See you there! 🔗: https://t.co/ruEoMNmsIU @IEEEAPMag
This video shows how engineers can tune a microstrip lens in Rotman Lens Designer and import the design into XFdtd for full-wave analysis. This workflow helps validate performance and optimize antenna systems.
Watch here: https://t.co/ScOqP9M0KL
How does 5G impact aircraft safety during landing? ✈️
In this whitepaper, Wireless InSite is used to model realistic radar altimeter interference—including multipath effects from terrain and buildings.
Read more: https://t.co/w4AfZWMWPh
Last chance to chat with our EM experts at #IMS2026. Visit booth 14049 for a live demonstration and find out about new features such as wireless mobility. Find more resources by visiting our website.
🔗: https://t.co/WjlfTl39Y4
@MTT_IMS
Our MicroApps presentation, “RF Wireless System Digital Twins and Automation for AI” at #IMS2026 is today at 11:10 a.m. in the MicroApps Theater! Learn more about the presentation and read the abstract on our website.
🔗: https://t.co/wsZBHsvAmd
@MTT_IMS
Don’t miss our MicroApps presentation, “RF Wireless System Digital Twins and Automation for AI” at #IMS2026 on Thursday, June 11 at 11:10 a.m. Learn more about the presentation and read the abstract on our website!
🔗: https://t.co/6BgOqBoFO1
@MTT_IMS
Remcom will be exhibiting @MTT_IMS 2026! Our EM experts will be available for a technical discussion in booth 14049. Full details about our #IMS2026 activities are available on our website. Hope to see you there! https://t.co/ncyKqKDUzK
This paper shows how radar simulations can animate breathing and heart rate using anatomically accurate models. The results are validated against 28.5 GHz measurements, demonstrating strong agreement with real-world data.
🔗: https://t.co/LlJWNkK1B4
New application example!
We walk through 60 GHz phased array modeling and show how superposition in XFdtd simplifies beamforming analysis.
View it here: https://t.co/ooqZIwhWWu
#XFdtd#mmWave#PhasedArray#EMSimulation
This example shows how XFdtd can be used to analyze a terahertz dual-band dielectric-loaded horn antenna. Engineers can evaluate performance and optimize designs for multi-band operation.
See the example: https://t.co/X07Q8KELAx
Do you have a recent or current project that you're using Remcom for? Let us know! We are always delighted to share the wonderful work of our customers. Feel free to email us at [email protected] with the details of your work -- images are encouraged!
Matching network design is becoming more complex as RF systems pack in more components and tighter constraints. XFdtd’s schematic editor simplifies the process by combining circuit-level design with full-wave simulation. Learn more: https://t.co/xnXWRToToV
We’re excited to be exhibiting at #IMS2026 in Boston this June! Stop by booth 14049 to see our latest EM simulation innovations and products. Let’s drive the microwave and RF industry forward together!
🔗:https://t.co/RdL2C6UaDu
@MTT_IMS
XFdtd can make waveguide design easier.
Design, analyze, and optimize antennas, filters, and gap waveguides with accurate modal excitation and clear S-parameter insights, all in one environment.
Download the examples: https://t.co/qnRVgCdV52
This example uses XFdtd to perform a Particle Swarm Optimization (PSO) of an Inverted-F Antenna (IFA). In this instance, the antenna is optimized to operate over the GSM-1900 band (1.85 - 1.99 GHz).
Explore the full example + download project files: https://t.co/soGiYwTbHO
How do you design and optimize beamforming at 60 GHz?
This new example shows how XFdtd models a phased array antenna for WiGig using superposition + array optimization to evaluate beam steering and EIRP.
🔗: https://t.co/2zGITxRA5T
#RF#mmWave#PhasedArray#Beamforming#5G
Accurately analyzing group delay for UWB antennas doesn’t have to be complex.
In this webinar, the XFdtd team introduces new methods for evaluating group delay—including how to determine it directly from a single-port simulation.
Watch now: https://t.co/hc85rwQxf7