Electric Motor

Simulation

Analyze your electric motor design, whether if it is a hairpin motor, a coil motor, an innovative cooling method, or more.

Talk To An Expert
Sign Up for Knowledge Base
Formula Gearbox
Industrial Gearbox
Automatic Transmission

Leading Engineering Companies Choose Our Simulation Software

No items found.

Simulate What You Couldn’t Before

Innovative & Reliable
Direct Oil Cooling
Analyze heat transfer and temperature distribution of active cooling systems, improving coolant flow efficiency and allowing higher power density in your electric motor designs.
Water-Jacket Cooling
Optimize coolant flow efficiency by analyzing heat transfer and temperature distribution of water-cooled electric motors or hybrid cooling systems.
Trickling Impregnation
Simulate the resin flow in winding impregnation when manufacturing electric motor stators and rotors. Analyze capillary effects and the influence of resin viscosities and temperatures in different motor designs to ensure process quality and high filling grades.
Roll Dip Impregnation
Analyze resin flow, viscosity, temperature, and capillary effects in motor winding impregnation to optimize quality, filling grades, and time-efficient production of stators and rotors.

Empower Your Engineering Projects with Dive's Advanced Simulation Tool

Discover the Perfect Fit for Your Industry Needs.

BSH - New Application (Washing Machine)

Application
Only available solver that accurately captures water flow and wetting of laundry in washing machines.
Publication

TU Munich - 32x Faster TTR (Non-newtonian)

Faster Time to Result
Non-Newtonian (shear rate dependent) materials simulated in industrial cases.
Publication

Kaercher - 42 days faster TTM (IPX)

Faster Time to Market
Virtual testing provides information without waiting for prototypes close to series production.
Publication

Fraunhofer & TU Berlin - 50% Reduction in Coolant Consumption

Reduction in Coolant Consumption
Innovative tooling design leads to optimized cooling behavior.
Publication

Kaercher - 40x Faster Design Study (Axial Piston Pump)

Faster Design Study
Fast meshing-free setups reduced oil and casting material for more sustainable products.​
Publication

Schaeffler - 5x lower cost

Lower Cost
Automatable setups enable specific, sustainable and high efficiency drivetrain solutions.
Publication

Kessler - 40% Reduction in Churning losses

Reduction in Churning Losses
Optimization of design spaces significantly reduces losses and oil dwelling time.
Publication

NGC - 300% more effective lubrication

More Effective Lubrication​
Virtual design space exploration avoids wind power plant downtime from wear.
Publication

SEW - Validate multiple designs in Parallel

Design Validation
Oil distribution of different designs is analyzed under a wide range of boundary conditions.
Publication

Dive - 48x Speed-up (e-motor)

Speed-up
Accurate prediction of heat transfer in e-motor allows rapid design space exploration.
Publication

TU Dresden - 45x Faster than Testing New Prototypes

Faster than Testing New Prototypes
Replicating a full test rig run of 2 weeks with 6 hours of simulation.
Publication

Dive - 90% Shorter Development Time (nozzles)

Shorter Development Time
Evaluating 144 cooling nozzle variations in parallel, fully automated.
Publication

48x

Speed-up
Accurate prediction of heat transfer in e-motor allows rapid design space exploration.
Publication

Parallel

Design Validation
Oil distribution of different designs is analyzed under a wide range of boundary conditions.
Publication

40%

Reduction in Churning Losses
Optimization of design spaces significantly reduces losses and oil dwelling time.
Publication

5x

Lower Cost
Automatable setups enable specific, sustainable and high efficiency drivetrain solutions.
Publication

90%

Shorter Development Time
Evaluating 144 cooling nozzle variations in parallel, fully automated.
Publication

Talk to Our Experts

Transform Your Engineering with Dive CAE
Book a Demo

Trusted by Engineering Organizations of All Sizes

Read More