Electromagnetics
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Realize Your Product Promise™

Electromagnetics Realize Your Product Promise Robust, industry-leading solutions from ANSYS simulate electromagnetic fields and compute electrical parameters that govern electronic device behavior — enabling you to optimize your product’s performance. Hundreds of devices that we use every day — from computers, automobiles, mobile communication devices and wireless networks to the electrical grid — depend on advanced electromagnetic equipment. Optimizing the performance of these complex designs requires accurate modeling of electromagnetic fields, circuit details and system validation....

In defense and aerospace industries, companies use our software to design advanced electronics systems such as avionics, fly-by-wire controls and airborne communications (including antennas, their supporting structures, rotor effects and radar cross section). Meeting high safety and reliability standards can be accomplished cost effectively with our electromagnetics and multiphysics analysis tools. ANSYS: Powered by Technology Leadership ANSYS advanced simulation technologies create a high level of confidence that the complex devices you design will perform reliably under real-world...

Signaling a New Era in Product Integrity ANSYS helps you deliver on your product promise — by ensuring optimal power and signal integrity. For high-speed digital devices, there are few issues more critical than achieving consistent power and signal integrity and avoiding EMI. Realizing uncompromised signal fidelity requires detailed design of component, circuit and system levels in addition to gigabit-speed interconnections for chip-to-chip, package-toboard or board-to-board communications. At the same time, delivering a high level of power integrity requires innovative product design that...

Courtesy Gem Design Technologies and Kitakyushu Foundation for the Advancement of Industry, Science and Technology. Our technology can handle the complexity of modern interconnect design from die to die across ICs, packages, connectors and boards. By leveraging advanced electromagnetic field simulators dynamically linked to powerful circuit and system simulation, engineers can understand the performance of high-speed electronic products long before building a prototype in hardware. Architectural firm Takenaka Corporation develops wireless power supply systems that are embedded in the walls...

Taking High-Frequency Performance to a New Level By supporting full-wave electromagnetic field simulation dynamically linked with circuitand system-level simulation, ANSYS tools help you quickly and cost-effectively optimize RF and microwave product performance. RF and microwave applications represent one of the fastest-growing segments of the highperformance electronics market, in which ongoing innovation is critical. High-frequency components and circuits in the transmitter/ receiver portions of communication systems, as well as radar systems, satellites and cellular telephones, are under...

Electromagnetic fields are frequently employed in advanced medical applications like MRI. As these devices become more complex, design simulation can maintain advanced functionality while addressing safety concerns. In an open MRI system, the details of the radio-frequency coils, a human body model, and the large volume of the exam room must all be included in sufficient fidelity in a simulation model to determine the resulting field accurately. Our software is ideally suited to this task. ANSYS: A Super-Charged, System-Level Perspective ANSYS technology delivers transistor-level detail for...

Driving Low-Frequency Product Innovations ANSYS delivers the industry-leading technologies you need to support multi-domain, multi-level and multi-organizational design of advanced electromechanical systems. Electromechanical systems bring together electromagnetic, mechanical, electronic and control technologies to create synergistic physical systems mainly for the automotive, aerospace and industrial sectors. Engineering and designing these multi-domain systems cannot rely on iterative analysis of individual components. Instead, it must comprise a wellconsidered study of system-level...

In the power transformer industry, design engineers are developing complex next-generation power transformers within demanding time frames. Simulating systems allows engineers to optimize components to reduce size and cost while ensuring that the unit meets all design requirements, including the ability to withstand surges and short circuits while avoiding excessive temperatures and reducing noise. Using our software, Pennsylvania Transformer Technology Inc. developed a simulation-driven design methodology that reaches across physics, across engineering disciplines and across departments to...

The ANSYS distributed solve capability allows a single user to distribute parametric studies or frequency sweeps across a number of computers, expediting total simulation time. Engineers can explore variations in geometry, materials, boundaries and excitations as well as distribute frequency sweeps. This allows your team to easily optimize designs and perform statistical and sensitivity analyses. Undisputed Technology Leadership ANSYS offers the industry’s widest range of electromagnetics simulation technologies, spanning integrated circuit, low power, signal integrity, power integrity, RF,...

Automotive OEMs are engaged in a global contest to build and mass-market HEVs and EVs. For critical traction motor components, engineers must maximize electrical and magnetic losses to deliver maximum range and fuel efficiency to consumers. At the same time, engineers need to consider structural, thermal and electromagnetic issues that play a crucial role in vehicle performance, reliability and cost. ANSYS integrated multiphysics simulation technology helps to address these challenges by enabling engineers to rapidly evaluate — prior to physical prototyping — functionality, performance and...