DP
Transient Magnetic (2D/Axisymmetric)
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[JFT122] Executing Optimization Calculations Using Reduced Order Models
This document describes the method for executing simple analysis and optimization using a reduced order model.
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[JFT131] Evaluating Degrees of Similarity for Geometry Using NGnet Weight
This document describes a method where after executing topology optimization using NGnet, degrees of similarity for geometry from NGnet weight are evaluated.
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[JFT125] Inheriting Operating Points Between Modes in Efficiency Map Studies
This document describes the method for using operating point information obtained with speed priority mode in accuracy priority mode.
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[JFT136] Sending SSH Settings to Remote Machines
This document describes the method for sending SSH settings configured on local machines to remote machines for executing other case calculations.
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[JFT128] Evaluating Drive Cycle Time Using Efficiency Maps
This document describes the method for using obtained efficiency maps to confirm the efficiency history, operating points, cluster points, and total energy, etc., for drive cycle …
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[JFT129] Adding Efficiency Map (Speed Priority Mode) Response Values
This document describes how to use accuracy priority mode for operating point information obtained in speed priority mode.
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[JFT126] Vectorizing Signals in a Control Circuit (MUX, DEMUX)
This document describes the methods for using a signal vectorization component (MUX) and vector disassembling component (DEMUX) in a control circuit.
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[JAC103] Efficiency Analysis of a Permanent Magnet Synchronous Motor
In this example, how to obtain the efficiency with a sinusoidal wave voltage drive at a rotation speed of 1,800 r/min and voltage amplitude of 40 V.
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[JFT123] Accounting for Residual Strain
This document explains the procedure for executing magnetic field analysis and iron loss analysis that account for residual strain.
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[JAC211] IPM Motor Wire Joule Loss Analysis
In this example, evaluation of coil joule loss that includes eddy currents during motor rotation is introduced here.
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[JAC275] IPM Motor Iron Loss Analysis Accounting for the Effect of Residual Strain
In this document, an analysis of an IPM motor accounting for the residual strain that occurs as a result of punching processes, and evaluates the effect on torque, magnetic flux d…
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[RTML-044] WFSM_01
Type: WFSM | Max Power: 2(kW) | Stator(Outside Diameter): 260(mm) | Height: 60(mm) | Voltage/Current: DC200(V)/20(A),DC100(V)/10(A) | Rotor/Mover: WF | Number of Phases: 3
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[RTML-042] SynRM_01 3-phase
Type: SynRM | Max Power: 0.01(kW) | Stator(Outside Diameter): 150(mm) | Height: 37.5(mm) | Voltage/Current: DC288(V)/5(A) | Rotor/Mover: RM | Average torque: 0.8(N·m)
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[RTML-040] PMSM/SPM Constant rating 1(kW) 6-phase
Type: PMSM | Max Power: 1(kW) | Stator(Outside Diameter): 53.4(mm) | Height: 37.5(mm) | Voltage/Current: DC100(V)/10(A) | Rotor/Mover: SPM | Average torque: 4(N·m)
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Reduction of Optimal Design Time for IPMSMs for Automotive Applications Using Machine Learning
Yuki Shimizu, Osaka Prefecture University
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Motor Loss Calculation under PWM Switching
Jihyun Kim, General Motors
