Design Optimization category
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Advanced Optimization of an IPM (Interior Permanent Magnet) Machine This example looks at the optimization of a 3-phase, 4-pole single-barrier IPM (interior permanent magnet) using the combined power of MagNet (as the core solution engine) and OptiNet (as the optimizer). Categories: Motors & Generators - DC / Design Optimization Products: MagNet Static 2D / OptiNet |
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Brushless Motor: Minimizing Cogging Torque This example demonstrates the use of OptiNet with MagNet to find the ideal dimensions for the air gap and the stator teeth in order to produce a minimum cogging torque, while still maintaining a certain running torque. Categories: Motors & Generators - AC / Motors & Generators - DC / Design Optimization Products: MagNet Static 2D / OptiNet |
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Coil Size Optimization - induction heating This Gallery page demonstrates how OptiNet is used with MagNet and ThermNet in a coupled electromagnetic-thermal simulation. The objective of this optimization is to find the inner radii of the coils in order to obtain a uniform temperature in the upper portion of a workpiece. This simulation is a transient thermal solution that, at each time step during the transient process, is coupled to a time-harmonic electromagnetic solution. Categories: Design Optimization / Thermal Products: MagNet Time Harmonic 2D / ThermNet Transient 2D / OptiNet |
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Discrete-valued design optimization -- induction heating OptiNet's discrete optimizer is featured here in this example of how OptiNet, in tandem with MagNet and ThermNet, is used to find the optimal shape design for a multiple coil inductor device. Categories: Design Optimization / Thermal Products: MagNet Time Harmonic 2D / ThermNet Transient 2D / OptiNet |
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Ensuring Electric Machine Efficiency with MagNet and OptiNet The task of the machine designer--a tireless effort to optimize torque ripple, running torque, efficiency, cost and a whole host of other factors--is now made easier with the latest releases of MagNet and OptiNet from Infolytica. Categories: Motors & Generators - DC / Design Optimization / Multiphysics Products: MagNet General / OptiNet |
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Iron loss separation; trends in high-torque BLDC Motors Hysteresis and eddy current loss trends in a high-torque BLDC machine are computed as a function of electrical loading, drive type and back Iron depths. An application of the results is also shown. Categories: Motors & Generators - AC / Design Optimization / Electric Products: MotorSolve |
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Optimization - Minimizing Loudspeaker Mass Using OptiNet with MagNet, this Gallery page demonstrates how you can find a loudspeaker design that has a minimum weight, while obtaining a certain flux density in the air gap. Categories: Design Optimization / Loudspeakers Products: MagNet Static 2D / OptiNet |
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Optimization of NDT Sensor Probe One of the most critical design decisions in any NDT/NDE problem is the design of the probe and its suitability for detecting particular types of defects. Starting from a model based on the WFNDEC Eddy Current Benchmark #2, OptiNet was used to determine the optimal coil geometry and frequency at which the inspection should be performed. Categories: Design Optimization / Sensors Products: MagNet Time Harmonic 3D / OptiNet |
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Optimizing Electromechanical and Control Circuit Parameters of Brushless Motors MagNet, OptiNet and PSIM are used to redesign a brushless DC motor in order to improve performance by increasing the response speed and minimizing the drive overshoot. Categories: Motors & Generators - DC / Design Optimization / Multiphysics Products: MagNet Transient 3D / OptiNet |
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Shape Optimization Of A Die Press This page demonstrates the use of OptiNet with MagNet to find the pole shape and dimensions of the die molds, with the purpose of producing a radial field in a magnetic powder component. Categories: Design Optimization / Benchmarks Products: MagNet Static 2D / OptiNet |
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SRM Design Optimization using OptiNet Categories: Motors & Generators - AC / Design Optimization Products: OptiNet |
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Surge Arrester: Minimizing Electric Field Stress in Resistors In this Gallery page, we show how the tandem of OptiNet and ElecNet was used to find the dimensions and the placing of the grading rings in a surge arrester, with the aim of lowering the max p.u. electric stress in the resistors. Categories: Design Optimization / Electric Products: ElecNet / OptiNet |