MoBeLIV

Case Study on electric commercial vehicle

Accelerate development cycles from weeks to 1 day

Tasks that traditionally require weeks of fragmented engineering work can be executed in a single integrated flow, enabling faster studies, earlier validation, reduced human error and more reliable engineering decisions from day one.

01

electromagnetic and thermal characterization

02

state-of-the-art methods and design patterns

03

streamlined repetitive operations and data visualization

Without MoBeLIV

Using MoBeLIV

%Time saved in 22 days

multi-condition characterization

FEA flux & losses (8 conditions)

5h

3h

Losses due to inverter (PWM)

24h

7h

Skew maps

4h

40s

Unify data

16h

10s

Unify torque-speed

8h

1s

Unify thermal data

24h

1s

Visualization & Exploration

40h

1s

Full emag + thermal simulations

Drive cycle simulation 20k sample - 4 conditions

32h

4m

Single point simulation 3,6k sample - 4 eq working point

23h

1m

Motor virtual simulation
Motor real-world prototype

ON PROTOTYPING:

Prototyping cycles reduced to 1

By continuously correlating electromagnetic response, thermal effects, and real operating conditions, we create a development environment where prototype performance remains consistently aligned with final real product.

Multiphysics models are much closer to real-world behavior

Inverter + emag + thermal

multi-physics approach is 60% more accurate than single physics simulations.

The gap on chart represents the span of quite possible mistake that will be discovered too late.

Our thermal results are the same as the industry level

Electric motor consumptions comparison between simulations
Commercial Standard VS MTCore-SIM thermal results