Brushed DC Motors Vs. Brushless DC Motors

What is the Difference Between Brushed and Brushless DC Motors?

A brushed DC motor uses a configuration of wound wire coils, the armature, acting as a two-pole electromagnet. The current’s directionality is reversed twice per cycle by the commutator, a mechanical rotary switch. This facilitates flow of the current through the armature; thus, the electromagnet’s poles pull and push against the permanent magnets along the outside of the motor. The commutator then reverses the polarity of the armature’s electromagnet as its poles cross the permanent magnets’ poles.

A brushless motor, by contrast, utilizes a permanent magnet as its external rotor. In addition, it uses three phases of driving coils and a specialized sensor that tracks rotor position. As the sensor tracks the rotor position, it sends out reference signals to the controller. The controller, in turn, activates the coils in a structured way – one phase after the other.

What are the Advantages of Brushed and Brushless DC Motors?


  • Low overall construction costs;
  • Can often be rebuilt to extend life;
  • Simple and inexpensive controller;
  • Controller not needed for fixed speed;
  • Ideal for extreme operating environments.


  • Less overall maintenance due to lack of brushes;
  • Operates effectively at all speeds with rated load;
  • High efficiency and high output power to size ratio;
  • Reduced size with far superior thermal characteristics;
  • Higher speed range and lower electric noise generation.

What Applications are Brushed and Brushless DC Motors Used In?

Today, the brushless motor is far more common than the brushed motor. However, both can be found in a wide range of applications. Brushed DC motors are still used frequently in household appliances and in automobiles. They also maintain a strong industrial niche because of the ability to alter the torque to speed ratio exclusive to brushed motors.

Thanks to reliability and longevity, the brushless DC motor has expanded into many applications. It is common throughout a broad spectrum of industries: Manufacturing, computing, and much more. Next generation electric vehicles and even some power tools use them! Due to vastly differing needs and environments, motion control projects could benefit from either motor.