Featured Videos
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Demonstration of XFdtd's Electrostatic Discharge (ESD) Testing Features
3/1/2021
Learn how to use XF's features for ESD testing as we walk through the process of analyzing a multi-layer PCB and identifying potential locations of dielectric breakdown.
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60 GHz Phased Array Design Using XFdtd For WiGig
9/17/2020
In this video presentation, Remcom discusses analyzing and optimizing an aperture coupled 1x4 patch antenna array with a compact, fan-shaped feeding network for operation in 60 GHz band using Remcom’s full-wave electromagnetic simulation product, XFdtd. We also demonstrate superposition and antenna array optimization. The superposition simulation provides a means for checking the performance of individual elements in an array, each with a different input power and phase. The array optimization feature allows users to estimate the excitation for each element in the array for a specified EIRP. Further, the total spatial coverage of designed phased arrays will be accurately estimated.
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5G For Manufacturing And Industry 4.0 - Propagation In A Warehouse Environment
6/24/2020
With the expansion of 5G NR for mobile connectivity, industrial and manufacturing applications such as robotics, IoT, and smart factories with automation come into play. This video demonstrates how Wireless InSite predicts the coverage and interference and accounts for the multipath in complex environments such as heavy-industrial factories, warehouses, server farms and more.
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LTE And 5G NR Propagation In A Suburban Environment Using Wireless InSite 3D Ray Tracing
6/24/2020
Penn State University is located in State College, Pennsylvania, a suburban city that contains several LTE sites. This simulation shows the coverage prediction from its existing LTE sites in the downtown area.
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RF Communications-Based Train Control (RF-CBTC) Showing Propagation Paths In A Train Station
6/24/2020
Wireless InSite’s built-in Communication Systems Analysis tool provides RSSI and SINR for various IEEE standards from 100 MHz to 100 GHz. In this short video, a passenger train located in a station is connected to an access point (AP) mounted on the roof of the station. RF propagation paths computed using the shooting-and-bouncing ray technique are shown. These ray paths arrive at a receiver (Rx) antenna after they reflect and diffract from the environment, where each reflection surface attenuates the signal uniquely due to varied conductivity and permittivity material properties.
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Wireless InSite Intro Series: Defining And Placing Receiver Sets
7/14/2017
This video demonstrates the antenna sets within Wireless InSite and walks users through the available options. Users will also learn how to assemble an antenna set and choose their antenna pattern. The video also covers Wireless InSite's visualization tools, which allow the user to see how their antennas are oriented within the antenna set.
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Wireless InSite Intro Series: Creating And Editing Indoor Floor Plans
7/14/2017
This video introduces Wireless InSite's Floor Plan tools and shows the user how to create and edit an indoor environment. The demonstration includes the placement of walls, doorways, and windows, along with material selection from Wireless InSite's material database. In addition to the 2D floor plan editor, the video also demonstrates how to make edits within the 3D display.
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Wireless InSite Intro Series: Advanced Floor Plan Editing
7/14/2017
This video expands a basic floor plan design into a six-story office building. Wireless InSite's duplication tools make it easy to add levels and floors to the model. In addition, the creation of stairwells and a central glass atrium with a peaked roof are shown.
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Massive MIMO Beamforming In Motion
11/2/2016
These animations show the beam formed from a massive MIMO base station (green dot) to a mobile device moving along a route (large red dot), in the presence of 15 other stationary devices (red circles).
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Introduction To MIMO Capability In Wireless InSite
12/16/2016
Wireless InSite MIMO accurately predicts multipath between transmitting and receiving elements with precision and reveals key channel characteristics in a timely manner. With optimizations that minimize runtime and memory constraints, Wireless InSite efficiently simulates even the large arrays present in Massive MIMO systems. This webinar will walk through an indoor propagation example to demonstrate the Wireless InSite workflow with a special focus on the new MIMO capability.