FAQ
The company's R&D team has been engaged in the research and development of motors and deceleration mechanisms for decades, and has successively developed products such as anti-interference electromagnetic filter permanent magnet DC motors and single and two-way clutch structure reducers, and has a number of invention patents and utility model patents. We can quickly respond to customers’ research and development needs and actively carry out research and development of gear motors related technologies and problems at the same time. Our research and development capabilities are recognized by customers and the industry.
Q: What is the difference between a permanent magnet DC motor and a brushless DC motor?
A: A permanent magnet DC motor (PMDC) generally refers to a motor that uses permanent magnets as its stator magnetic field, while a brushless DC motor (BLDC) is a motor that uses an electronic control system instead of traditional mechanical commutators and carbon brushes. Brushless motors are favored for their higher efficiency, longer life, and better performance.
Q: What are the main advantages of servo motors?
A:Servo motors provide precise speed, position, and acceleration control, making them ideal for applications that require precise control, such as robotics, automation equipment, and more. They also have good dynamic response characteristics and high efficiency.
Q: What is the working principle of AC and DC motors?
A: AC and DC dual-purpose motors can accept direct current (DC) and alternating current (AC) power at the same time, and automatically adjust the operating mode through internal design or external controller. This flexibility allows the motor to operate in different power supply environments, making it very suitable for application scenarios with changing power supply conditions.
Q: What role does the controller play in the motor system?
A:The controller is the core component of the motor system, responsible for receiving user instructions and controlling the start, stop, speed, direction and other operations of the motor. It accurately controls the operating status of the motor by adjusting the power supply to the motor to meet specific application requirements.
Q: Which type of motor is most suitable for solar trackers?
A: For solar trackers, permanent magnet brushed DC motors or brushless DC motors are generally recommended because these motor types offer precise control and high efficiency, allowing the solar panels to be accurately angled to capture maximum sunlight .
Q: What are the motor selection criteria for solar cleaning robots?
A:The motor selection of a solar cleaning robot should consider the waterproof performance, work efficiency, corrosion resistance and control accuracy of the motor. Brushless DC motors are a good choice because they have high efficiency and long life, while being easy to control accurately.
Q: In what fields are roller motors usually used?
A: Roller motors are commonly used in logistics and automation fields such as conveyors, sorters, etc. Their compact design allows them to be easily integrated into roller conveyor systems, providing efficient and reliable power.
Q: How to choose the right motor for your RV system?
A:When selecting a motor for your RV system, consider the size, power, efficiency, and controllability of the motor. Permanent magnet DC motors and brushless DC motors are widely used in RV lifting, pushing and pulling systems because of their high efficiency and good control performance.
Q: What are the general recommendations for motor maintenance and troubleshooting?
A: Regularly check the connection, fixation and wear of the motor; keep the motor and the surrounding environment clean to prevent dust and foreign matter from entering; listen to the sound of the motor when it is running. Abnormal noise may indicate a problem. For specific faults, the motor manufacturer's instruction manual should be consulted for diagnosis and treatment.
Q: Which motor is more suitable for use in circuit breakers?
A:Small permanent magnet DC motors or AC and DC motors are commonly used in circuit breakers because these motors can provide fast and reliable action to ensure that the circuit can be quickly cut off when a fault occurs, thereby protecting the safety of the circuit.
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