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ANSYS Multiphysics solutions help cross-functional engineering organizations predict the perfor- mance of complex products in- fluenced by multiple physics and improve their designs through simulations of the interactions between physics. General Solver Capabilities ANSYS, Inc. www.ansys.com ansysinfo@ansys.com 866.267.9724 © 2015 ANSYS, Inc. All Rights Reserved. Pennsylvania Transformer Technology, Inc. performed multiphysics simulations using Maxwell, ANSYS Mechanical and ANSYS CFD to design next-generation transform- ers for the utility power industry. • Static Electromagnetic Fields • Adaptive Field Mesh • Frequency Domain • Magnetic and Electric Time Domain • HPC Frequency Sweeps Magnetic Transient with Rigid Motion • Dynamic Effects on Rigid Motion with Symmetrical Field Conditions • Non-Cylindrical Motion • Advanced Embedded Circuit Coupling • External Circuit Coupling with Adaptive Time Stepping Advanced Material Modeling • Vector Hysteresis Modeling • Nonlinear Anisotropic Modeling • Functional Magnetization Direction • Magnetization/De-magnetization Modeling • Temperature-Dependent De-magne- tization Modeling • Time and Frequency Dependent Core Loss Modeling • Dynamic Effects in Laminated Magnetic Materials Multiphysics • Magneto-Vibro-Acoustic coupling for rotating and non-rotating elec tromechanical design • Magneto-Stress coupling based on electromagnetic force and deformed mesh feedback • Electromagnetic-Thermal couplings with power loss and temperature feedback on Heat Transfer by Con- duction, Convection and Radiation • Magneto-Thermal-Stress on Drive Design Life Cycle • Coupling with CFD based on power loss-temperature feedback • Coupling with CFD based on mag- netic field, power loss and electric conductivity temperature for arc/ plasma device design Multi-Domain System Capabilities • Frequency Dependent Reduced Order Models and Nonlinear Equiva- lent Circuits from FEA analysis • Automatic Generation of the Exter- nal Circuit and Electrical Machine Reduced Order Model for Model- Based Design (SIL and HIL) • State-Space Reduced Order Models from Field Parameters • Frequency Dependent Models and S-,Y-, Z-, Parameters for Conductive EMI/EMC analysis MKT0000127