Magnetic Bearing High Speed Motor 3.7V Micro Brushless Coreless Motors
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Magnetic Bearing High Speed Motor 3.7V Micro Brushless Coreless Motors

High Efficiency: Due to their simple structure and minimal friction losses, micro coreless motors exhibit high efficiency. This translates into reduced energy consumption and longer battery life in portable devices, making them an energy-efficient choice.
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SDM Coreless Motor

Coreless motor is a new type of micro motor which also known as hollow cup motor. coreless motor utilizes slotless and coreless coil as the armature winding which pierced iron core structure of traditional motor, then significantly reduce weight and momen of inertia and fundamentally eliminate the eddy current loss of iron core, therefore, energy loss of motor during the running process will be decreased.

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The development of micro coreless motors involves several stages and considerations, leveraging advancements in materials, manufacturing techniques, and design principles to achieve compact size, high efficiency, and precise performance. Here's a detailed overview of how these motors are developed:


1. **Concept and Design Phase**:

- **Requirements Analysis**: Engineers define the performance specifications such as torque, speed, size constraints, and efficiency targets based on the intended application.

- **Electromagnetic Design**: Designing the coreless motor involves creating electromagnetic circuits that optimize magnetic field distribution and minimize losses. This includes designing the windings, magnetic circuit, and rotor configuration to achieve desired performance characteristics.

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2. **Materials Selection**:

- **Copper Wire**: High-conductivity, thin copper wire is typically used for the windings to ensure efficient electrical conductivity and minimize resistance.

- **Magnetic Materials**: Permanent magnets or magnetic alloys are chosen for the rotor to provide the necessary magnetic field strength while keeping weight and size minimal.


3. **Manufacturing Process**:

- **Winding**: Specialized winding machines are used to precisely wind the copper wire around the coreless stator. This process requires high precision to achieve the desired number of turns and packing density.

- **Assembly**: Components such as the stator, rotor, bearings, and shaft are assembled with care to ensure proper alignment and minimal friction.

- **Encapsulation**: Many micro motors are encapsulated in epoxy or other protective materials to enhance durability and protect against environmental factors.


4. **Miniaturization Challenges**:

- **Precision Engineering**: Micro motors require extremely precise manufacturing tolerances due to their small size.

- **Heat Management**: Efficient heat dissipation is critical in micro motors to prevent overheating and ensure reliable operation over extended periods.

- **Power Density**: Maximizing power output relative to size and weight is a significant challenge, often requiring innovative designs and materials to achieve optimal performance.


5. **Testing and Validation**:

- **Performance Testing**: Motors undergo rigorous testing to verify compliance with specifications for torque, speed, current draw, and efficiency.

- **Durability Testing**: Endurance tests assess the motor’s lifespan under various operating conditions to ensure reliability.

- **Environmental Testing**: Motors are tested for resistance to temperature variations, humidity, shock, and vibration to ensure they can operate reliably in diverse environments.


6. **Iterative Improvement**:

- Based on test results and feedback from initial prototypes, iterative improvements are made to refine the motor design, optimize performance, and address any identified issues.

- Advances in materials science, manufacturing techniques, and computational modeling often drive continuous improvement in micro motor design and performance.


7. **Application and Market Integration**:

- Micro coreless motors find applications across various industries including robotics, aerospace, medical devices, consumer electronics, and automotive sectors.

- Customization and adaptation to specific application requirements further drive the development and integration of micro coreless motors into specialized systems and devices.


In conclusion, the development of micro coreless motors involves a comprehensive approach combining theoretical design, advanced materials selection, precision manufacturing processes, rigorous testing, and continuous improvement to meet the demanding requirements of modern applications across diverse industries.


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SDM Magnetics is one of the most integrative magnet manufacturers in China. Main products : Permanent magnet,Neodymium magnets,Motor stator and rotor, Sensor resolvert and magnetic assemblies.
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