"Downsizing" plays an increasingly important role in the development of electric motors.

Smaller, compact units with consistently high performance are the future of e-mobility because smaller sizes automatically mean sustainable use of materials: significantly fewer rare earths and other raw materials are required and thus resources are saved.


The goals that developers are pursuing in the downsizing of electrical units can be summarized in six key points:

1. sustainable production: low material use and conservation of resources.

2. low costs: low costs for manufacturers and for the end customer.

3. more efficiency: constant or improved performance with lower consumption.

4. more compact shape: Less installation space and weight.

5. mechanical requirements: What can be implemented with which materials and processes?

6. electronic & software requirements: Which software and electronic solutions are available?

The adjacent graphic shows, based on the current status quo, where our goals lie - and how far we have already progressed with our CONNACTIVE eDrive.


In order to achieve this goal, developers must take new directions. Because downsizing is not only a question of design, it is above all the common material that repeatedly sets limits for developers. Whether freedom of design in the construction of the overall system or reduced material use for the stator, rotor, winding and magnets: SMC is the solution for the downsizing of high-frequency electric motors, because it can also show its advantages here.

Soft Magnetic Composites (SMC) not only enable completely new designs thanks to the special production process and save a lot of material by eliminating waste, they also have impressive physical properties:

The energy losses at high frequencies are significantly lower than with conventional materials, which ensures high efficiency and linear propulsion. This allows maximum power to be called up despite smaller motor sizes.


Are the properties of soft magnetic composites really sufficient to make high-frequency electric motors even more efficient and sustainable in the future?

How does SMC behave in direct comparison to the currently most commonly used laminated steel, which is currently the most commonly used in the construction of electric motors?

These and other questions were asked by British scientists at the University of Newcastle, who published a study on the subject last year. The researchers compared classic electrical steel and soft magnetic composites and investigated which material has the better properties in which application.


After various tests and analyses, the scientists found out:

SMC is the ideal material for electric motors with frequencies from 1000 Hz. The material is suitable for the production of stators, but also for other components and parts of e-motors and hybrid solutions. This makes it possible to take another important step on the road to future mobility.


In a direct comparison, SMC performed significantly better than conventional electrical steel at frequencies from 1000Hz when used as stator material. While the plates offer significant advantages in the low-frequency range, SMC solutions show their advantages at the latest when eddy currents increase significantly due to the higher switching frequencies.

SMC maintains its low eddy current losses over the entire frequency spectrum, thus compensating for the higher magnetic permeability of electrical steel.

Powerful, efficient, cost-effective: 
SMC is a material of the future not only in the e-mobility sector.

Detailed information on the study can be found in our "Whitepaper".

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