FQ
Time Harmonic Magnetic (2D/3D)
- Sort condition
- Newest first
- Oldest first
- Views
-
[JFT101] Condition Settings Using the Response Values of Other Studies
This document explains the procedure of referencing the analysis results of other studies, and using those as input values for calculations in further analyses.
-
254 – Vibration Analysis of a Large Oil-Filled Transformer
In this example, evaluating vibration caused by electromagnetic excitation in a large transformer. Since large transformers are oil-cooled, in this example the oil, which is the f…
-
208 – High Frequency Induction Hardening Analysis Accounting for Deformation (Abaqus Link)
This document introduces evaluates how heating ranges change depending on the deformation amount at high temperatures and deformation during heating, with heat generation analysis…
-
[JFT081] Creating an Induction Motor Efficiency Map Using JMAG-Designer (Speed Priority Mode)
In this document, how to create an efficiency map of an induction motor using an efficiency map study (speed priority mode) in JMAG-Designer is presented.
-
218 – High-Frequency Induction Hardening Analysis Accounting for Deformation
In this example, using the JMAG magnetic field - thermal stress coupled analysis function, analysis is performed evaluating gear deformation from induction heat hardening.
-
Analysis of Winding Losses of Shunt Reactor using “Zooming Analysis”
Yasuhisa Ito, MEIDENSHA CORPORATION
-
Development of a Simulation Method for Electromagnetic Stirring in Levitation Melting Furnace Using a JMAG-STAR-CCM+ Two-Way Coupled Analysis
Asako Kamimoto, Daido Steel Co., Ltd. / Shinsuke Inoue, Star Info Tech Co.,Ltd.
-
Electromagnetic Field – Thermal Stress Coupled Analysis and Experiment Verification in High Frequency Induction Hardening
Yohei Awata, Denki Kogyo Co.,Ltd.
-
Effects of the Aluminum Coil on the WPT System
Atsushi Ogasahara, Tabuchi Electric co., ltd.
-
220 – Analysis of the High-Frequency Induction Hardening and Cooling of a Gear
In this example, deals with induction heating and cooling analysis. An example is presented where the cooling rate for a gear differs depending on the cooling conditions.
-
224 – Wireless Power Transfer Device Stray Loss Analysis
In this example, an example is presented investigating by using electromagnetic field analysis whether stray loss can be suppressed using an aluminum shield.
-
[JFT073] Current Control with Induction Heating Work Temperature as Feedback Using User Subroutines
This document explains how to control work piece surface temperature by using user subroutines and the coil current amplitude as a manipulated variable.
-
217 – Creating Efficiency Maps for 3-Phase Induction Motors
In this example, the use of JMAG-RT Viewer to create efficiency maps for three-phase induction motors when drive temperatures change.
-
[RTML-038] IM Constant rating 10(kW)
Type: IM | Max Power: 10k | Stator(Outside Diameter): 500(mm) | Height: 300(mm) | Voltage/Current: DC500(V)/250(A) | Rotor/Mover: Cago
-
[RTML-037] IM Constant rating 1(kW)
Type: IM | Max Power: 1k | Stator(Outside Diameter): 134(mm) | Height: 42(mm) | Voltage/Current: DC100(V)/5(A) | Rotor/Mover: Cago
-
203 – No-Load Test Analysis of Power Transformer
This example focuses on modeling in the analysis of no-load tests in JMAG and obtains the iron loss distribution, current, excitation conductance, and excitation susceptance that …
