24V 1300W BLDC Motor

The BLDC motor offers a durable, compact design ideal for industrial applications. Its brushless construction reduces wear, minimizes friction, and ensures efficient, spark-free operation. With over 85% efficiency and Class F insulation, it provides high performance and energy savings. Customization options are available for power, voltage, speed, and other parameters to meet specific needs.

Specification

Note: Power, voltage, speed, shaft, motor length, and motor lead of BLDC motors can be customized.

Features

 

• Stable Speed Control: The 1300W BLDC motor maintains a set speed by continuously comparing feedback signals and adjusting voltage, ensuring consistent performance even with load changes.
• Compact & High Power: Uses a permanent magnet rotor in a 3 phase design, delivering a thin profile with high power density.
• Wide Speed Range: It offers a broader speed control range than AC motors and inverters, providing strong torque from low to high speeds without brushes.
• Energy Efficient: Permanent magnet rotor reduces rotor losses, cutting power consumption by over 20% compared to variable frequency induction motors, supporting energy savings.
• Built-in Protection: Brushless DC motor includes safety features to protect the equipment system.

Dimension (Unit: mm)

Speed - Torque Curve

 

• Instantaneous maximum torque line: This torque represents the peak load impact when the motor starts. If exceeded, the driver’s over-current protection will trigger, stopping the motor.
• Short-time operation area: The BLDC motor can operate briefly within this torque range at various speeds. Prolonged operation may cause overheating, potentially leading to motor shutdown or damage.
• Rated operating torque line: At different speeds, this torque level is the electric DC motor’s rated load, allowing long-duration operation without issues.
• Continuous operating area: The brushless motor can run continuously within this zone at varying speeds, maintaining stable operation.

Line Define

Applications

Laser Equipment

Logistics Automation

Medical Equipment

Robot

Q: How is speed control achieved in a BLDC motor?

A: Speed control of a BLDC motor is typically achieved by adjusting the voltage or frequency supplied to the motor. Common speed control methods include:

• PWM (Pulse Width Modulation) Control: By adjusting the pulse width, the average voltage is controlled, which in turn adjusts the motor speed.
• Voltage Control: Increasing or decreasing the voltage directly changes the motor speed, suitable for less precise applications.
• Frequency Control: Changing the frequency of the driving signal controls the motor speed.