An area source for exciting a microstrip line in an FDTD simulation is proposed and studied in this paper. https://t.co/Srb2p16zlD
In this example, a 140 GHz slot antenna array excited by a substrate integrated cavity is demonstrated for ...
Visit our Resource Library for publications, videos, webinars, application examples, and more! Explore thes...
Contact Remcom Today *-Ask about our flexible payment terms & customized solutions.-*
The new release of XFdtd is available now! This update introduces matching network tuning which enables users to easily adjust component values to meet design goals and understand the behavior of a ci
XF includes a schematic editor specially designed for antenna engineers who need to analyze matching networks and corporate feed networks. Visit our website to learn more! https://t.co/trU3SeyNxA
The new release of XFdtd includes Huygens Surface, a feature that allows users to accurately transfer antenna radiation characteristics for use outside XFdtd. https://t.co/9SaznbMCNY
Remcom is happy to announce matching network tuning in the latest release of XFdtd, enabling users to easily adjust component values to meet design goals and understand the behavior of a circuit. http
Wireless InSite supports the simulation of RF interactions with engineered electromagnetic surfaces (EES). Learn more about this new feature by visiting our website anytime! https://t.co/N1H7432QX6
In this whitepaper, Wireless InSite is used to simulate the level of interference received at the radar altimeter input port of a landing aircraft due to emissions from 5G base stations. https://t.co/
This article describes the modeling of a SATCOM link, specifically the use case of using a satellite overlay to extend service continuity to IoT devices in a poorly covered rural area. Read the full a
XFdtd allows users to detect locations susceptible to ESD damage and optimize ESD mitigation during the concept and design stage of product development saving them valuable time. Visit our website to
This short video clip demonstrates how Wireless InSite models engineered electromagnetic surfaces (EES) and compares coverage improvement with diffuser and grating EES placements on a glass window or
The new release of Wireless InSite is available now! This update includes propagation analysis for engineered electromagnetic surfaces that optimize wireless communication coverage by manipulating how
In this paper, a time-domain method is presented for analyzing arbitrarily shaped thin resistive sheets (TRSs). https://t.co/W5plXepABe
Wireless InSite supports the simulation of RF interactions with engineered electromagnetic surfaces (EES). Visit our website for more information on this new capability! https://t.co/N1H7432QX6
We’re happy to announce a new version of Wireless InSite with propagation analysis for engineered electromagnetic surfaces that optimize wireless communication coverage. Visit our website to read the
In this example, a compact Ku-band antenna array is demonstrated for use in mobile device applications. Visit our website to read or download the full example anytime! https://t.co/1IqLjJGf4W
This series of short videos demonstrates Wireless InSite’s MIMO capability to predict the multipath and channel characteristics for a Massive MIMO system in an urban small cell. https://t.co/DDvKGKbGe
Sign up for our Webinar Alerts today! By subscribing to our communications, you'll be the first to know about upcoming webinars. https://t.co/qZ3QPjl0Is
In this new example, a compact Ku-band antenna array is demonstrated for use in mobile device applications. https://t.co/1IqLjJGf4W
XGtd is a ray-based electromagnetic analysis tool for assessing the effects of a vehicle or vessel on antenna radiation, predicting coupling between antennas, and predicting radar cross section (RCS).
This article uses a simple example of an 8x8 patch antenna array to demonstrate the usefulness of the CDF of EIRP to characterize the ability of an array to provide good EIRP in all directions. Read o
XFdtd's superposition feature allows our users to quickly analyze port phase combinations with a single simulation. Learn more today! https://t.co/dqY1xdc5Mc