In modern automation, robotics, and UAV systems, sensored motors are widely used for their stability, responsiveness, and precise control capabilities. To achieve smooth and accurate speed regulation across varying operating conditions, the motor driver plays a crucial role. The driver serves not only as the bridge between the control system…
In modern automation and smart manufacturing, sensor-based motors (sensored motors) are widely used in robotics, CNC machinery, electric vehicles, and industrial control systems due to their high precision and stable performance. However, during operation, users often encounter issues of unstable motor speed, manifested as fluctuations, vibrations, or periodic oscillations. These…
In the field of motor control, ensuring the stability and precision of sensor-based (sensored) motors during low-speed operation is one of the key technical challenges. Unlike sensorless motors that rely solely on back electromotive force (EMF) for position estimation, sensored motors use feedback from Hall sensors or encoders to monitor…
Sensored motors are widely used in industrial automation, robotics, drone propulsion, and new energy vehicles due to their high precision and stability. The choice of speed control method directly affects motor performance, energy efficiency, and lifespan. This article provides a comparison of several common speed control methods for sensored motors…
In modern automation, robotics, and smart manufacturing, sensored motors are widely used due to their high precision and stability. Compared to sensorless motors, sensored motors can detect the rotor position in real time, enabling precise control of speed and torque. To understand why these motors operate so “stable, accurate, and…
With the rapid development of industrial automation, smart manufacturing, robotics, drones, and the new energy industry, sensored motors (Sensored Brushless DC Motors / Synchronous Reluctance Motors) are gradually becoming an important part of the high-performance motor market. Their high efficiency, low inertia, fast response, and ease of precise control make…
In modern industrial automation, robotics, drones, and smart manufacturing, sensored motors (such as Synchronous Reluctance Motors or Sensored Brushless DC Motors) are widely used due to their high efficiency, low inertia, and fast response characteristics. In scenarios that demand precise speed control, the motor’s control technology directly impacts device performance,…
In the field of model aviation, the choice of a power system directly determines the aircraft’s performance, stability, and control experience. With the continuous advancement of smart control and motor technology, sensored motors have gradually become the preferred option for both hobbyists and professional model manufacturers. Compared to traditional sensorless…
In the era of Industry 4.0, intelligent manufacturing has become the driving force behind global industrial transformation. As one of the most critical components in automated equipment, induction motors play an indispensable role in the advancement of intelligent manufacturing. Their stability, efficiency, and compatibility with modern control systems make them…
In modern medical equipment, motors serve as the core driving component, directly influencing precision, stability, and safety. With the continuous advancement of medical technology, requirements for control accuracy, reliability, noise reduction, and energy efficiency have become increasingly stringent. The induction motor (also known as a “squirrel-cage motor”) has gradually become…