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 EMS
EMS is a powerful, easy-to-use design analysis and optimization software fully embedded within SolidWorks®, the most popular CAD software. It is ideal for engineers working on low frequency applications and can be used to perform a wide range of analyses including Electrostatic, Conduction, Magnetostatic, AC-Magnetic and Transient.
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HFWorks
HFworks is the easiest to use high frequency design analysis and optimization software package available anywhere. Fully embedded within SolidWorks®, HFWorks is a powerful software loaded with four analysis option for Resonance, Antenna, RCS and S-Paramter calculations.
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Electrostatics
EMS's electrostatic solver allows you to gain insight into your design through electroatics potential and filed distributions results as well capacitance and electrostatic force calculations.
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Conduction
The conduction solver of the EMS package targets current flow problems where current distribution, redistance, power dissipation and overvoltage issues are of interest.
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Magnetostatics
Whether you are using permanent magnets of coils, whether you are using linear or non-linear materials, EMS's magnetostatic solver is the ideal tool to help you get a handle on your design.
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AC Magnetics
The AC Magnetic module
calculates the effects of alternating currents (AC) or voltages in
electromagnetic devices. These effects include eddy currents, skin effects, and
power loss due to eddy currents. The magnetic field, magnetic flux density, and
eddy currents are directly computed from the solution. Auxiliary quantities such
as inductance, force, torque, flux linkage, and eddy current losses are deduced
from the primary calculations.
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Transient
The Transient Magnetic
module calculates magnetic fields that vary over time in electromagnetic
devices. These fields are typically caused by surges in voltages and currents.
This type of analysis can be linear or non-linear. The magnetic field, magnetic
flux density, and eddy currents are directly computed from the solution.
Auxiliary quantities such as inductance, force, torque, flux linkage, and eddy
current losses are deduced from the primary calculations.
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Thermal
Thermal analysis is directly coupled to electromagnetic simulation. Power dessipated in conductors is used as heat source in the thermal analysis to predict temperature distribution.
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Resonance
The eigenmode solver in HFWorks allows you to find the resonant modes and resonant frequencies of your structure.
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S-Parameters
Use HFWorks' S-parameter solver to find the multi-port/multi-mode scattering parameters of your design. Analyze single ended and differential excitations and de-embed and renormalize your results easily.
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Antennas
For all your radiating structures, HFWorks' Antenna solver can help you obtain a full characterization of radition properties and input impedance quickly and accurately.
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Plane Wave Scattering
The Plane Wave Scattering module analyzes the
interaction of electromagnetic waves with objects in free space. This module
computes waves scattered by objects that can be arbitrary in shape and material
composition. From the incident and scattered waves, the Radar Cross Section
(RCS) and the far-fields are computed.
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