FARADAY - 三维时谐涡流场求解器
降低成本和开发时间是一项不断增加的挑战。来自INTEGRATED Engineering Software的3D时谐涡流场求解器FARADAYTM为您提供正面应对这一挑战所需的优势。使用我们的边界元法(BEM)和有限元法(FEM)技术,FARADAYTM是需要大开放区域分析、边界准确建模以及处理small skin深度的问题的明确选择。
FARADAYTM快速准确的计算力、扭矩、位移电流、磁链、感应电压、功率和阻抗。
特征:
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使用FARADAY瞬态求解器直接模拟时间相关涡流场的模拟
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平移和旋转运动引起的涡流场也可以用有限元法求解
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耦合到摄氏温度进行热分析
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直观的线圈和绕组编辑器
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模拟外加电流和指定电压条件
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瞬态、相量和静态分析模式
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周期性和对称特征,以很大限度的减少建模和求解时间
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分析力、扭矩、磁链、功率和阻抗参数
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集肤效应导致的导体电流密度分析
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强的参数化功能,允许通过允许分析多个“假设”场景并促进优化来逐步定义可变参数
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用于设计评估和优化的多种后处理选项
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自适应网格划分或可选的用户细化
应用:
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核磁共振
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磁记录头
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无损检测系统
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磁屏蔽
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母线、充电夹具
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线圈和变压器
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感应加热线圈
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感应电机
系统要求:
64位操作系统
Microsoft® Windows 10或更高版本
安装需要大约110MB的磁盘空间
3D程序:
至少4GB的RAM运行,但对于应该使用16GB或更多RAM的较大问题,不建议这样做。使用的RAM越多,解决问题的速度就越大
强烈建议使用多核处理器,因为3D程序是多线程的
【英文介绍】
Reducing design costs and development times is an ever-increasing challenge. FARADAYTM, a 3D time-harmonic eddy current field solver from INTEGRATED Engineering Software gives you the advantage you need to meet this challenge head on. Using our innovative Boundary Element Method (BEM) and Finite Element Method (FEM) technologies, FARADAYTM is the only clear choice for applications requiring large open region analysis, exact modeling of boundaries and problems where dealing with small skin depths is critical.
Fast and accurate, FARADAYTM calculates force, torque, displacement current, flux linkage, induced voltage, power, and impedance.
Features
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Simulation of time dependent eddy current field simulated directly with the FARADAY Transient Solver.
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Translational and rotational motion induced eddy current field can be solved with the finite element method as well.
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Coupling to Celsius for thermal analysis
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Intuitive Coils and Windings editor
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Simulation of impressed currents and assigned voltage conditions
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Transient, phasor and static analysis modes
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Periodic and symmetry features to minimize modeling and solution time
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Analysis of force, torque, flux linkage, power and impedance parameters
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Analysis of current density in conductors due to skin effects
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Powerful parametric feature which allows definition of variable parameters to be stepped through allowing the analysis of multiple “what-if” scenarios and facilitating design optimization
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A wide array of post-processing options for design evaluation and optimization
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Self-adaptative meshing or optional user refinement
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