WIDE RANGE OFF-THE-SHELF SOLUTIONS
Explore the WX Series. Our wide range of off-the-shelf solutions has been optimized through advanced simulation, ensuring you can quickly select a motor that matches your specific geometry and performance needs. Our motors deliver high torque in a small package.
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more torque than radial flux in the same package
more torque than radial flux in the same package
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thinner than radial flux for the same torque
thinner than radial flux for the same torque
thinner than radial flux for the same torque
Our Off-the-shelf Lines
Our Off-the-shelf Lines
Our Off-the-shelf Lines
WX MINI.
Tiny motors, huge torque
22 - 36 mm axial height
45 - 120 mm diameter
Up to 20.7 Nm of peak torque
Mini motors
WX MINI.
Tiny motors, huge torque
22 - 36 mm axial height
45 - 120 mm diameter
Up to 20.7 Nm of peak torque
Mini motors
WX MINI.
Tiny motors, huge torque
22 - 36 mm axial height
45 - 120 mm diameter
Up to 20.7 Nm of peak torque
Mini motors
WX FRAMELESS.
Flexible motors for general use
18 - 37 mm axial height
40 - 115 mm diameter
Up to 20.7 Nm of peak torque
Open frame
WX FRAMELESS.
Flexible motors for general use
18 - 37 mm axial height
40 - 115 mm diameter
Up to 20.7 Nm of peak torque
Open frame
WX FRAMELESS.
Flexible motors for general use
18 - 37 mm axial height
40 - 115 mm diameter
Up to 20.7 Nm of peak torque
Open frame
WX COMPACT.
Ideal where space is tight
70 and 90 mm axial height
190 and 228 mm diameter
Up to 50 Nm of peak torque
Compact package
WX COMPACT.
Ideal where space is tight
70 and 90 mm axial height
190 and 228 mm diameter
Up to 50 Nm of peak torque
Compact package
WX COMPACT.
Ideal where space is tight
70 and 90 mm axial height
190 and 228 mm diameter
Up to 50 Nm of peak torque
Compact package
RAPID MOTOR DELIVERY IN ONLY 1-4 WEEKS
We work closely with customers to ensure the first motors are delivered in under 4 weeks.
WHEEMX AI-DRIVEN MOTOR INNOVATION
Designed by our AI-enhanced simulation tool WheemX, we've engineered the most efficient motors on the market.
MOST TORQUE-DENSE MOTOR ON THE MARKET
Wheemo delivers unmatched torque density, empowering your application with the maximum force in the most compact package.
Why Axial Flux Technology
HIGHER TORQUE AND POWER DENSITY IN A MORE COMPACT PACKAGE
The axial flux technology is reshaping the landscape of electric motors. Even with improved material usage, it outperforms radial flux motors, making it an ideal choice where packaging and performance matters.
PERFORMANCE INCREASES MUCH MORE WITH ROTOR DIAMETER
Axial flux motors offer huge advantages in diameter scaling. Their performance increases much more with rotor diameter compared to traditional radial flux motors, enabling greater torque and efficiency without increasing weight.
EFFICIENT AND COST EFFECTIVE
Improved efficiency minimises energy consumption, while modularity ensures scalable performance and system flexibility across use cases.
HIGHER TORQUE DENSITY THAN RADIAL FLUX
Maximise performance in compact and lightweight designs. Axial flux motors can deliver up to 30% more torque than radial flux motors in the same space.
SUPERIOR 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
NEXT GEN TECHNOLOGY
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.
When electricity flows in the coils, the magnets pull and push in a circle, the way you twist a jar lid. That circular pull makes the disk spin smoothly and gives strong turning force from a compact, lightweight shape.
WHERE THEY SHINE
In industry, these motors help cut electricity costs due to its efficiency. On the water, their sealed, quiet, direct-drive setup suits marine propulsion with fewer moving parts. Off-highway equipment benefits from durable, high-torque drives that can even replace hydraulics in tight spaces.
Why Axial Flux Technology
HIGHER TORQUE AND POWER DENSITY IN A MORE COMPACT PACKAGE
The axial flux technology is reshaping the landscape of electric motors. Even with improved material usage, it outperforms radial flux motors, making it an ideal choice where packaging and performance matters.
PERFORMANCE INCREASES MUCH MORE WITH ROTOR DIAMETER
Axial flux motors offer huge advantages in diameter scaling. Their performance increases much more with rotor diameter compared to traditional radial flux motors, enabling greater torque and efficiency without increasing weight.
EFFICIENT AND COST EFFECTIVE
Improved efficiency minimises energy consumption, while modularity ensures scalable performance and system flexibility across use cases.
HIGHER TORQUE DENSITY THAN RADIAL FLUX
Maximise performance in compact and lightweight designs. Axial flux motors can deliver up to 30% more torque than radial flux motors in the same space.
SUPERIOR 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
NEXT GEN TECHNOLOGY
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.
When electricity flows in the coils, the magnets pull and push in a circle, the way you twist a jar lid. That circular pull makes the disk spin smoothly and gives strong turning force from a compact, lightweight shape.
WHERE THEY SHINE
In industry, these motors help cut electricity costs due to its efficiency. On the water, their sealed, quiet, direct-drive setup suits marine propulsion with fewer moving parts. Off-highway equipment benefits from durable, high-torque drives that can even replace hydraulics in tight spaces.
Why Axial Flux Technology
HIGHER TORQUE AND POWER DENSITY IN A MORE COMPACT PACKAGE
The axial flux technology is reshaping the landscape of electric motors. Even with improved material usage, it outperforms radial flux motors, making it an ideal choice where packaging and performance matters.
PERFORMANCE INCREASES MUCH MORE WITH ROTOR DIAMETER
Axial flux motors offer huge advantages in diameter scaling. Their performance increases much more with rotor diameter compared to traditional radial flux motors, enabling greater torque and efficiency without increasing weight.
EFFICIENT AND COST EFFECTIVE
Improved efficiency minimises energy consumption, while modularity ensures scalable performance and system flexibility across use cases.
HIGHER TORQUE DENSITY THAN RADIAL FLUX
Maximise performance in compact and lightweight designs. Axial flux motors can deliver up to 30% more torque than radial flux motors in the same space.
SUPERIOR 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
NEXT GEN TECHNOLOGY
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.
When electricity flows in the coils, the magnets pull and push in a circle, the way you twist a jar lid. That circular pull makes the disk spin smoothly and gives strong turning force from a compact, lightweight shape.
WHERE THEY SHINE
In industry, these motors help cut electricity costs due to its efficiency. On the water, their sealed, quiet, direct-drive setup suits marine propulsion with fewer moving parts. Off-highway equipment benefits from durable, high-torque drives that can even replace hydraulics in tight spaces.
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