Electro Magnetic Applications， Inc. （EMA）和Ansys 很高兴地宣布推出 EMC Plus&Charge Plus 2024 R1 ，这是业界领先的仿真解决方案组合，可满足从太空探索到日常通勤等应用的关键设计和安全需求。
Electro Magnetic Applications, Inc. (EMA) and Ansys is pleased to announce the availability of EMC Plus & Charge Plus 2024 R1 is industry-leading simulation solution portfolio, addressing critical design and safety needs for applications ranging from space exploration to everyday commutes.
Ansys EMC Plus What’s New 2024 R1
This new release makes running simulations faster and makes it easier for full-vehicle EMI/EMC analysis. 2024 R1 featured updates include: GPU accelerated solver 3D field and current visualization Transfer impedance simulator Cable wiring connectivity automatic assignment to 3D cables from mechanical CAD “We’re very.
The use of Ansys Electronics solution suite minimizes the testing costs, ensures regulatory compliance, improves reliability and drastically reduces your product development time.
Ansys EMC Plus (formerly EMA3D Cable) is a 3D Finite-Difference Time-Domain (FDTD) solver with an integrated multi-conductor transmission line solver. The two electromagnetic solvers co-simulate to allow for a complex cable harness to be accurately modeled inside complex geometry, such as an electronic device, a piece of machinery, an automobile or an aircraft. Ansys EMC Plus has been validated on several high-profile aerospace platforms and the results were published at major conferences.
Ansys Charge Plus (formerly EMA3D Charge) is the simulation software designed for the analysis of charging and discharging phenomena. It uses time-domain solvers to simulate electric arcing, material surface and internal charging, 3D particle transport, and dielectric breakdown. It can be used to assess and manage risks associated with excessive charge build up in a product where electrification is a concern. Ansys Charge Plus is used at the design phase for the prevention of material degradation, surface flashovers, and EM interference in harsh radiation environments or high voltage systems. Charging effects due to high-energy particles, precipitation static, low-energy plasmas, solar illumination, and friction electrification may be extremely consequential. With Ansys Charge Plus it is possible to study electric charge imbalance in both space and ground applications. The numerical solutions designed to tackle surface charging, internal charging, and air or dielectric breakdown are combined into streamlined workflow incorporated into the Ansys Discovery | 3D Product Simulation Software. In this optimized workflow, one can easily prepare 3D CAD models, assign charging material properties and environments, mesh your model, run, and analyze simulations.
ANSYS is the global leader in engineering simulation. We help the world’s most innovative companies deliver radically better products to their customers. By offering the best and broadest portfolio of engineering simulation software, we help them solve the most complex design challenges and engineer products limited only by imagination.
Electro Magnetic Applications, Inc. (EMA) is a global leader in providing simulation, consulting and measurement services in the technical areas of electromagnetic effects. Specific specialties include lightning direct and indirect effects, high intensity radiated fields (HIRF), precipitation static (P-Static), electromagnetic pulse (EMP), EMI/EMC, spacecraft charging, RF interference, installed antenna performance and radar signature prediction. EMA and Ansys are collaborating to deliver an enhanced design-to-validation workflow for certifying cable harness models in aircraft and automobiles. The workflow greatly reduces electromagnetic interference (EMI) risks to cable harnesses, slashes development time, speeds certification and expedites new products to market faster than ever.
Owner: ANSYS & Electro Magnetic Applications, Inc. (EMA)
Product Name: EMC Plus & Charge Plus
Version: 2024 R1
Supported Architectures: x64
Website Home Page : http://www.ansys.com
Languages Supported: english
System Requirements: Windows *
Size: 10.3 Gb