WX SERIES.

Axial Flux Motors | Tailored for Robotics

WX SERIES.

Axial Flux Motors | Tailored for Robotics

Made for High-Torque Robotics Applications

Explore the WX Series: our off-the-shelf solutions that are been optimised through advanced simulation. Our motors deliver high torque in a small package.

+0% TORQUE

+0% TORQUE

+0% TORQUE

+0% TORQUE

+0% TORQUE

+0% TORQUE

than radial flux in the same package

than radial flux in the same package

0% THINNER

0% THINNER

0% THINNER

0% THINNER

0% THINNER

0% THINNER

than radial flux for the same torque

than radial flux for the same torque

OUR VISION

PUSH ROBOTICS FURTHER

We are developing a new generation of motors designed to raise the standard for robotics.

We are not breaking the laws of physics

AXIAL FLUX, APPLIED TO ROBOTICS

We believe axial flux geometry can open new possibilities for compact, high-performance robotic systems.

MORE COPPER, LESS LOSS

A higher copper fill factor can reduce resistance and improve how effectively the motor uses electrical power.

BETTER HEAT FLOW

Lower thermal resistance can improve continuous performance by helping the motor manage heat more efficiently.

MORE ACTIVE AREA FOR TORQUE

A larger active surface can directly support higher torque from a compact design.

Ready to Be the First to Test Them?

early testing

launch updates

Ready to Be the First to Test Them?

early testing

launch updates

Ready to Be the First to Test Them?

early testing

launch updates

Why wheemo?

YEARS OF EXPERIENCE IN AXIAL FLUX

Our team of engineers gather many years of experience in designing and optimising axial flux motors.

Know more about us
PROPRIETARY OPTIMISATION TOOL

Using our cutting-edge AI-enhanced simulation tool WheemX™, we are engineering the most efficient motors on the market.

Discover WheemX™

Why Axial Flux Technology

HIGHER TORQUE AND POWER DENSITY IN A VERY COMPACT PACKAGE

Axial flux motors can deliver up to 30% more torque than radial flux motors in the same package. This improves material efficiency and makes them an ideal choice for applications where space is limited and performance is critical.

PERFORMANCE SCALES FASTER WITH ROTOR DIAMETER

Axial flux motors offer huge advantages in diameter scaling. Their performance increases much more with rotor diameter compared to radial geometries (cubic versus quadratic growth), enabling greater torque and efficiency without increasing weight.

Chart comparing the scaling of axial and radial flux motors: axial flux scales with the diameter cubic, radial flux scales with the diameter squared

ENERGY AND COST EFFECTIVE

Improved efficiency minimises energy consumption and optimises cost.

BETTER POWER-TO-WEIGHT RATIO

Axial flux motors excel with their remarkable power-to-weight ratio.

COMPACT AND SPACE EFFICIENT

Perfect where size matters, fitting more power into less space.

How Do Axial Flux Motors Work

MAGNETIC FLUX RUNS ALONG THE SHAFT AXIS

Axial flux motors are electric motors in which magnetic flux runs along the shaft axis (not radially). A flat ring of magnets faces a flat ring of copper coils across a tiny gap, so the motor can be short yet wide in diameter.

WHERE THEY SHINE

Axial flux motors are ideal for robotics because they deliver high torque in a compact, lightweight package.

Side view of an axial flux motor

Why Axial Flux Technology

HIGHER TORQUE AND POWER DENSITY IN A VERY COMPACT PACKAGE

Axial flux motors can deliver up to 30% more torque than radial flux motors in the same package. This improves material efficiency and makes them an ideal choice for applications where space is limited and performance is critical.

PERFORMANCE SCALES FASTER WITH ROTOR DIAMETER

Axial flux motors offer huge advantages in diameter scaling. Their performance increases much more with rotor diameter compared to radial geometries (cubic versus quadratic growth), enabling greater torque and efficiency without increasing weight.

Chart comparing the scaling of axial and radial flux motors: axial flux scales with the diameter cubic, radial flux scales with the diameter squared

ENERGY AND COST EFFECTIVE

Improved efficiency minimises energy consumption and optimises cost.

BETTER POWER-TO-WEIGHT RATIO

Axial flux motors excel with their remarkable power-to-weight ratio.

COMPACT AND SPACE EFFICIENT

Perfect where size matters, fitting more power into less space.

How Do Axial Flux Motors Work

MAGNETIC FLUX RUNS ALONG THE SHAFT AXIS

Axial flux motors are electric motors in which magnetic flux runs along the shaft axis (not radially). A flat ring of magnets faces a flat ring of copper coils across a tiny gap, so the motor can be short yet wide in diameter.

WHERE THEY SHINE

Axial flux motors are ideal for robotics because they deliver high torque in a compact, lightweight package.

Side view of an axial flux motor

Why Axial Flux Technology

HIGHER TORQUE AND POWER DENSITY IN A VERY COMPACT PACKAGE

Axial flux motors can deliver up to 30% more torque than radial flux motors in the same package. This improves material efficiency and makes them an ideal choice for applications where space is limited and performance is critical.

PERFORMANCE SCALES FASTER WITH ROTOR DIAMETER

Axial flux motors offer huge advantages in diameter scaling. Their performance increases much more with rotor diameter compared to radial geometries (cubic versus quadratic growth), enabling greater torque and efficiency without increasing weight.

Chart comparing the scaling of axial and radial flux motors: axial flux scales with the diameter cubic, radial flux scales with the diameter squared

ENERGY AND COST EFFECTIVE

Improved efficiency minimises energy consumption and optimises cost.

BETTER POWER-TO-WEIGHT RATIO

Axial flux motors excel with their remarkable power-to-weight ratio.

COMPACT AND SPACE EFFICIENT

Perfect where size matters, fitting more power into less space.

How Do Axial Flux Motors Work

MAGNETIC FLUX RUNS ALONG THE SHAFT AXIS

Axial flux motors are electric motors in which magnetic flux runs along the shaft axis (not radially). A flat ring of magnets faces a flat ring of copper coils across a tiny gap, so the motor can be short yet wide in diameter.

WHERE THEY SHINE

Axial flux motors are ideal for robotics because they deliver high torque in a compact, lightweight package.

Side view of an axial flux motor