EM simulation engineers require the ability to run simulations that are both accurate and which execute in a reasonably fast time period. At low frequencies, it also becomes essential to have a path whereby mechanical effects can be captured and co-simulated for complete multi-physics simulation.

Creating a virtual prototype of electromagnetic components or electronic products to permit testing and evaluation without having to build an expensive hardware prototype. Developers can also incorporate features and robustness to prevent issues that, if discovered only late in the design cycle at the physical prototype stage, would result in significant schedule delays and cost overruns.


Advanced Magnetic Modeling

Compute sophisticated simulation parameters, including core loss, permanent magnet four-quadrant simulation, demagnetization and magnetostriction analysis, Litz wire loss, and manufacturing influences on loss calculation.

Template Based Analytical Analysis

RMxprt helps in evaluating concept level electromagnetic analytical analysis quickly and exporting it to Ansys Maxwell creates a ready-to-run FEM simulation.


Template Based Magnetic and Thermal Topologies

A variety of motor types are available for electromagnetic analysis, and the design process is made easier due to the inclusion of cooling and housing templates.

Antenna Analysis with platform effect

Antennas and Antenna Arrays are analysed considering all EM effects of adjacent antennas including the platform effect of installed antennas with high accuracy.

RLGC extraction

Q3D allows us to extract the parasitics of the packages and power electronic circuits.


Signal Integrity

Conducting signal integrity analysis involves assessing critical nets or high-speed channels within a PCB or even at the end-to-end system level. This analysis encompasses both time domain and frequency domain evaluations to ensure the integrity of signals. It involves examining the combination of interconnects throughout the signal path to optimize performance and mitigate any potential issues.

Complex Cable Modeling and Wire Harness EM Analysis

EM Harness Solver allows modeling of complex cables like twisted pair, braided cables, shielded cables and complex wire harness for EM analysis like Signal Integrity and Crosstalk.

Electronics Products



FEM-based Electromagnetic Analysis with HFSS offers comprehensive 3D design, modeling, and analysis of high-frequency components, along with diverse optimization capabilities to meet specific design requirements. The Hybrid Solving technology ensures precise simulations within an optimal timeframe.



Utilizing a Finite Element Method (FEM) based simulation tool enables thorough analysis of electronic component behavior. This tool facilitates the extraction of parasitic RLGC parameters across frequencies, aiding in the refined design of power electronics structures for enhanced performance and efficiency.



FEM based simulation tool to analyse the Signal Integrity and Power Integrity of electronic components and their optimization to maximize the signal or power flow through Nets. Capability to analyse and validate power delivery networks and high speed designs.


EMC Plus

It is an FDTD-based simulation tool to analyze the high-frequency behaviour of cables and Wire harnesses to understand the Electromagnetic emissions and compatibility to support EMC or E3 Certification for full system-level modeling.


Charge Plus

Charge Plus is combination of multiple solvers for analysis of Charging – discharging, particle transport, Arcing etc for risk assesment.



Nuhertz fully automated solutions for RF, Microwave and Digital filters from S-parameters to physical realization and optimization with automated integration with HFSS.



Synmatrix fully automated AI/ML based solution for design and optimization of 3D filters with automated workflow to export design to HFSS for realistic filter realization with Hardware integration for optimal filter tuning.


Ansys Maxwell

Ansys Maxwell is a low frequency electromagnetic finite element based modeling and simulation tool. Its solver technology is tuned to low frequency electromechanical devices and electric machines where mechanical and electromagnetic phenomena interact as part of the product’s function.
Electromagnetic field solver for electric machines, actuators, wireless power charging, magnetic latching, transformers, busbars and power converters. It solves Static, Time varying electric/magnetic fields and frequency domain analysis. Additionally, Maxwell provides specific design interfaces for planar components and rotating machines.


Ansys MotorCAD

Ansys Motor-CAD is a market-leading concept design tool that enables motor designers to rapidly evaluate motor topologies and concepts across the full operating range and assess the multiphysics characteristics of their designs. Motor-CAD utilizes combined 2D finite element and analytical modelling to enable fast and accurate Multiphysics motor simulation. Rapid computation speeds reduce the possibility of delays and expensive design revisions later on, while multiphysics analysis up front allows motor designers to innovate and explore the whole design space in search of the best solution.


Electromagnetic Actuators
Electromagnetic Actuators are used to convert electrical energy to linear mechanical motion. Simulation helps to analyze the performance in terms of mechanical force requirements, number of turns, materials, and integration of control circuitry.
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Switch Gear Components
Computation of Electric stress distribution in the insulating medium greatly helps in analyzing partial discharge and identifying proper insulating material.
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Magnetic Sensors
E-magnetic sensors are majorly used to identify the rotor position and current sensing in electric machines. Hall and reluctance sensors are the best examples.
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Wireless Charging
Enables you to compute winding inductances, coupling coefficient, core loss, eddy currents in the conducting shields, and ohmic loss. Analysis of skin and proximity effects, Resonant Circuit analysis, and optimization of the model.
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Electric Bus Bars
Bus Bar plays a vital role in power transmission and distribution systems and acts as a common link for multiple input and output terminals. Simulation of busbars provides Power handling capability, power losses, electrostatic effects, and thermal rise.
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Power Electronic Components
Planar inductors and transformers design plays a critical role in electronic control design. Simulation enables the user to identify the effects due to fringing flux, circulating currents, winding configurations, eddy and proximity, and non-linear materials at the early stage of the design.
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Electric Motors
Enables users to simulate the performance of radial/axial flux and linear motors for a wide range of operations. Reduced order modeling of motors helps in improving the simulation time at the system level.
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Power Transformers
Electromagnetic simulation of the transformer provides power losses(Hysteresis, eddy, copper, and stray load losses), insulation system design, short circuit forces, and effects of faulty scenarios.
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