For high-speed applications and thermal challenges, electromagnetics including signal and power integrity analyses provide detailed insights. Our simulations for SerDes technology ensure reliable performance in high-frequency environments. We optimize power delivery networks with various analyses, ensuring system reliability. Our services also include compliance with regulatory emission standards, evaluating electromagnetic radiation, and enhancing device reliability and safety. Additionally, we offer solutions for protecting radar equipment with radomes and facilitating Fixed Satellite Services (FSS) for satellite communication.

Analysis Type

Signal Integrity

Ansys offers cutting-edge simulation tools for DDR, LPDDR, and GDDR memory technologies, ensuring peak performance and reliability.

These tools enable detailed analysis of signal and power integrity, essential for high-speed applications and thermal challenges. Ansys also provides comprehensive simulation tools for SerDes technology, crucial for high-speed data communication. The simulations cover signal integrity, jitter, and crosstalk, ensuring reliable performance in high-frequency environments. Ansys simulations facilitate early issue identification, leading to robust, high-performance systems.

DC analysis evaluates voltage drop and current distribution under steady-state conditions. AC analysis assesses impedance, resonance, and noise in the power delivery network (PDN) caused by high-frequency signals. Transient analysis studies the response to sudden load or voltage changes. Electromagnetic field analysis examines fields generated by power traces, vias, and planes, mitigating potential EMI. Thermal analysis predicts temperature distribution, identifying hotspots. Frequency domain analysis analyzes behavior across different frequency ranges, vital for systems with varied clock frequencies or protocols. These analyses optimize PDNs, minimize voltage droops, and ensure system reliability.

Our role encompasses ensuring compliance with regulatory emission standards, evaluating electromagnetic radiation from electronic devices, and assessing susceptibility to external sources of interference. Through rigorous testing and analysis, we verify emissions and noise levels, maintain device resilience, and recommend design modifications for enhanced immunity. Our efforts are vital for guaranteeing device reliability and performance, minimizing operational disruptions, and enhancing safety in today’s interconnected world.

A Radome is a protective cover for radar equipment, shielding it from environmental factors while allowing radar signals to pass through. It’s commonly used in aviation, maritime, and military applications. FSS stands for Fixed Satellite Service, a type of satellite communication where ground antennas communicate with satellites in geostationary orbit for purposes like TV broadcasting and internet access. In the context of “Radome / FSS Service,” Radome Service likely refers to maintenance, installation, or repair services for radomes, while FSS Service could refer to services related to Fixed Satellite Services, such as satellite dish installation or maintenance.


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.
View Application
Switch Gear Components
Computation of Electric stress distribution in the insulating medium greatly helps in analyzing partial discharge and identifying proper insulating material.
View Application
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.
View Application
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.
View Application
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.
View Application
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.
View Application
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.
View Application
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.
View Application