A brushless motor driver is a piece of equipment used to power a brushless motor. It controls the motor's phase sequence and current to make it move in any direction.

The brush motor controller is a motor that uses an H-bridge or a simpler single topology to drive the carbon brush commutation to control its operating state.

On the other hand, the brushless motor controller is a drive method that uses a 3-phase full-bridge method to drive a brushless motor.

The brushless motor controller has built-in circuits and sensors that track the motor's position and speed. It then uses this information to figure out the current position of the motor rotor and control how fast it turns.

We mostly make machines that move fluids, like fans and pumps. If you need very precise positioning, we have servo motors in the control area. Please contact us for details.

The user sets the structure, which has a high speed, a wide speed range, high machine efficiency, a motor that makes less noise than a brushed motor, a long service life, and a fairly large working area.

When compared to brushless motors, brushed motors tend to last less long and be less efficient. However, they are cheaper to make. If you use a brushed motor, the brushes will wear out and need to be changed. This doesn't happen with brushless motors, though.

Brushless motors can last up to 10,000 hours longer if they are used continuously and within the manufacturer's suggested parameters.

Brushless motors don't have any brushes like brushed motors do. Since there are no brushes, there are fewer moving parts that break down over time. This keeps the brushless motor working longer.

Of Course, we do! We're well-versed in tailoring brushless motors to your specific needs, be it in terms of power and power factor, voltage level, installation structure, operating mode, etc. Please contact us with your demands.

In addition to having the good adjustment performance of a DC motor, it also has the benefits of an AC motor's simple structure, reliable operation, and easy maintenance.

Find out how much power the motor needs and think about what kind of control you need. Check to see what the controller's safety needs are for this use case; Check out the controller's performance specs, such as its operating frequency range, protective features, maximum rated current and voltage, and control methods, such as analog voltage 0-10V speed regulation, PWM speed regulation, switch speed regulation, button speed regulation, and more.

We promise that qualified engineers will be there to help you with technical issues on-site. We will usually add this to any custom design job we are working on, unless you tell us not to. If you are thinking about buying one of our basic motor controllers and would like us to come to your site to help you set it up, please contact us and ask for a visit.

There are three ways to control a BLDC: the trapezoidal, the sinusoidal, and the field-oriented control (FOC) method.

We use advanced technology to control electromotors, the range of electric speed controllers extends from low power to high power, low voltage to high voltage, with a variety of variants and designs to fully meet customer requirements.

Absolutely, we do! The company's R&D center has plenty of master's and doctoral level experts who are always working to make products better and more useful for customers and the market. Their skills and knowledge help the company come up with new technologies and products in important ways.