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Smooth Operation. Fast Action. Dependable Functionality.


KDE Direct brushless motors are found in electric and hybrid vehicles, electric bicycles, Segways, and more. Many electronically powered RC models use brushless motors due to their enhanced efficiency and high torque to weight ratio.

KDE Direct also offers Electronic Speed Controllers (ESCs) for our brushless motors. Our UAS UVC series bring next-generation technology for UAS and multi-rotor operation to life. It includes an all-aluminum 6061-T6 case for cool-running temperatures so the ESC can be used in a wide-range of harsh environments thanks to its IP66 certification for all-weather operation. It also comes preloaded with the latest production firmware for dynamic timing and startup power for smooth, precision-controlled startup without response lag or stuttering.




KDE Direct Brushless Motor
Transportation Applications


  • Electric bicycles
  • Drones and UAVs
  • Skateboards
  • Scooters
  • Hoverboards
  • Skate/ski propulsion
  • One wheel boards
  • Kayaks
  • Rafts
  • Boats
  • Custom projects

KDE Direct manufactures motors for various transportation applications. Our products are crafted to provide powerful performance, high torque, and long life. Manufactures choose KDE Direct's brushless motors for high speed, maintenance free operation. Our components are ideal for challenging environments where sparking could negatively affect sensitive equipment.

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Designed and Engineered in the USA


KDE Direct's brushless motors are designed and engineered in the United States. Our motors provide power, performance, and efficiency. KDE Direct motors are
engineered for remarkable efficiency and power that push the limits of today's technology. Our motors are designed to provide market-leading performance and
zero-vibration operation for hours of maintenance-free usage and market-leading performance.



Brushless Motor Advantages:


Brushless motors have higher efficiency and performance and a lower susceptibility to mechanical wear than brushed motors.

  • High torque per watt of power input (increased efficiency)
  • High torque to weight ratio
  • Reliability with low maintenance requirements
  • Decreased operational and mechanical noise
  • Extended lifespan (no brush and commutator erosion)
  • Removal of ionizing sparks from the commutator (ESD)
  • Near-elimination of electromagnet interference (EMI)