EM Simulation

Electromagnetic simulation saves time and money. Remcom Consulting is an ideal solution for those organizations that need an electromagnetic expert without an ongoing need for in-house electromagnetic modeling software.

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

Determining the final set of component values in a matching network can be a challenging process. Traditionally, RF engineers have had to simplify and idealize their matching circuits in schematics that are separated from the EM simulation. This simplification into a lumped element schematic requires perfect grounds and leaves out the coupling and transmission line effects of the interconnect metal and the antennas.

XFdtd can compute the capacitance of complex sensor designs, allowing the designer to choose the best geometry for their needs without prototyping.

The ArchiTek™ FPGA Development Suite is designed to allow FPGA design engineers to add custom IP to a number of Pentek's Talon recording systems. FPGA IP can be added to the recorder to provide real-time, on-the-fly digital signal processing during the data acquisition process, greatly reducing the time associated with post-processing recorded data. ArchiTek provides a simple development environment that allows engineers to add FPGA IP such as threshold detection, spectral filtering, digital downconversion, demodulation, or any other digital signal processing technique required.

Remcom’s XFdtd EM Simulation Software offers unique capabilities to help engineers navigate antenna design challenges with speed and accuracy.

XF leverages the EM principle of superposition to quickly analyze port phase combinations with a single simulation.

Electrostatic discharge testing is utilized worldwide by electronics manufacturers to determine the ESD susceptibility of their devices. It is extremely difficult to estimate the exact cost of ESD loss annually, but it can safely be stated that ESD requires the development and testing of many hardware prototypes and contributes to a high number of warranty claims and loss of consumer confidence if failure occurs in the hands of the customer. Given the high cost in time and materials associated with ESD hardware testing, the ability to simulate the ESD testing process in XFdtd is extremely valuable, allowing engineers to pinpoint locations susceptible to ESD damage and optimize ESD mitigation during the concept and design stage of product development.