Rmxprt Simulation With Ansys Maxwell: Step-By-Step Beginner

Learn electric machine design and simulation using RMxprt in ANSYS Maxwell – the easiest way to reach a ready-to-run FEA

What you'll learn

How to model and simulate electric machines using RMxprt in ANSYS Maxwell step by step.

How to define machine parameters such as stator, rotor, winding, and materials.

How to interpret simulation results like torque-speed curves and core losses.

How to export RMxprt models to Maxwell 2D/3D for advanced FEM simulation.

How to select the appropriate motor type (e.g., induction, synchronous, BLDC) for simulation in RMxprt.

Requirements

Basic understanding of electric machines (just the fundamentals!)

No prior experience with ANSYS Maxwell needed — we'll guide you step by step.

Curiosity and interest in motor design or simulation. That's it! No coding, no complex math — just learn by doing.

Description

Are you interested in electric machine design but overwhelmed by the complexity of full 2D/3D FEA simulations?This course is your shortcut to mastering ANSYS Maxwell RMxprt — a powerful tool for fast, accurate, and easy electric machine analysis.In this step-by-step tutorial, you’ll learn how to design and simulate motors such as PMSMs, BLDCs, and induction machines using RMxprt’s template-based workflow. With a few clicks, you’ll go from input parameters to performance curves, loss analysis, and even a ready-to-export finite element model.We’ll guide you through each step of the process, from choosing the machine type to interpreting results and exporting models for further analysis in Maxwell 2D or 3D.Whether you're a student, engineer, researcher, or curious learner, this course will make simulation easier, faster, and more enjoyable. By the end of this course, you’ll be able to:Build electric machine models using RMxprt templatesInput winding data, geometry, and material specsRun simulations to analyze torque, efficiency, losses, and moreExport to Maxwell 2D/3D for full FEA simulationThis course is perfect for beginners, yet insightful enough for experienced engineers who want to speed up their initial design stages. No complex coding or advanced math — just practical, hands-on learning.Let’s design your first motor together — the easy way!

Overview

Section 1: Introduction

Lecture 1 Introduction

Section 2: Switch Reluctance Motors(SRM)

Lecture 2 Starting the simulation of SRM

Lecture 3 Modeling stator and rotor Geometry

Lecture 4 getting results and exporting 2D/3D model

Section 3: Synchronous Reluctance motors

Lecture 5 Modeling the geometry in RMXPRT

Lecture 6 Changing parameters in 2D simulation

Section 4: Axial Flux Permanent Magnet Machines

Lecture 7 Generating a 3D model of AFPM using paraments in RMXPRT

Section 5: Induction Motors

Lecture 8 Setting RMXprt for an induction motor

Lecture 9 Analyzing, Results extraction and creating a 3D model geometry

Electrical engineering students who want to learn machine simulation in a practical way,Motor designers and engineers looking to speed up early-stage design with RMxprt,Simulation beginners who want to get started with ANSYS Maxwell without getting overwhelmed,Researchers and hobbyists interested in electric machine performance analysis