DXMM-20C40 Industrial Pulse Magnetizer Machine
High-Efficiency Magnetizing | Adjustable Voltage | Stable Cabinet Design
1. Product Overview
The pulse magnetizer is a modern and efficient tool designed for magnetizing various magnets and medium and small motors, speakers and other magnetizing equipment. Its unique design makes it suitable for a variety of materials such as ferrite, AlNiCo, rubber magnet, NdFeB, rare earth permanent magnet, as well as magnets of different sizes and shapes. With its high efficiency and stable performance, the pulse magnetizer has become an indispensable part of modern industrial manufacturing.
2. Key Features
✅ Wide Compatibility
Magnetizes various materials and shapes, suitable for internal and external magnetization of motors, speakers, and more.
✅ Durable Cabinet Design
Built with a stable steel chassis to protect internal components, extend service life, and ensure safe long-term operation.
✅ Optimized Circuit System
Incorporates an advanced energy circuit with a high-voltage oil-immersed capacitor and SCR (silicon control rectifier) for efficient, stable pulse generation-even under continuous high loads.
✅ Adjustable Output Voltage
Provides DC100V to 2000V output range with fine control (±1%), allowing you to adjust magnetic strength to meet different application needs.
✅ Strict Quality Control
All machines are subjected to rigorous testing, use premium materials, and follow industry-leading standards to ensure reliability and long-term durability.
✅ Optional Magnetizing Fixtures & Demagnetization
Customizable magnetizing fixtures are available for specialized magnet shapes and demagnetization functions, increasing productivity and flexibility.
3. Application Scenarios
The pulse magnetizer is widely used in various fields such as magnet manufacturing, motor manufacturing, and speaker manufacturing. In the field of magnet manufacturing, it can magnetize magnets of various materials efficiently and stably; in the field of motor manufacturing, it can magnetize the internal and external parts of the motor to improve the performance of the motor; in the field of speaker manufacturing, it can magnetize the speaker to ensure that the sound quality of the speaker reaches the best state.
Technical Parameters are as follows
|
Power Source Model |
DXMM-20C40 |
|
Input Power |
AC 220V±5%V 50HZ |
|
Input Current |
20-25A |
|
Max.Output Current(A) |
15000A |
|
Max. Output Energy(J) |
16000J |
|
Magnetizes the cycle |
2-15S |
|
Max.Working Voltage |
DC100-2000V(Adjustable) |
|
Voltage Error |
±1%V |
|
Capacitance Capacity |
8000UF (High Pressure Oil Immersion) |
|
Electric Circuit Control |
SCR(Silicon control trigger circuit) |
|
Display Method |
Digital Display |
|
Environment Temperature |
-5- +42 ℃ |
|
Altitude |
≤3000m |
|
Relative Humidity |
≤90% |
|
Protective Function |
Built-in discharge resistor, chassis grounded |
|
Dimension |
L850*W550*H1050(mm) |
|
Net Weight (KG) |
190KG Approx. |
|
Pneumatic polarity conversion device, constant current charging, output current display |
Yes |
Magnetizing Coil (Inside of Magnetizing Shelf )

50.Inner Diameter: 65mm
50.Dry type, can be charged 5 times in a row, stop for 1 hour and then recharge 5 times.
Magnetizing Shelf

Deliver, shipping and serving
We understand the importance of logistics in the overall shopping experience of our customers, therefore, we are committed to tailoring a streamlined, safe and reliable logistics and transportation framework to your needs. Our experienced and skilled logistics experts are able to design personalized transportation solutions that meet your specific needs. We have established lasting and solid partnerships with many well-known logistics providers to guarantee the timely and safe delivery of your products. In addition, we also provide a comprehensive tracking service to keep you informed of the progress of your shipment. Our customer-centric approach ensures that we continuously improve the quality of our services, ultimately providing you with an excellent shopping experience.



FAQ
Question 1: How does the pulse magnetizer reduce the non-uniformity of the magnetic field during the magnetization process?
Answer:
The pulse magnetizer reduces the non-uniformity of the magnetic field through a carefully designed magnetic circuit system and coil layout. First, the number of coil turns and distribution are optimized through simulation and emulation tools to ensure the uniform distribution of the magnetic field in the target area. Secondly, high-performance magnetic materials, such as rare earth permanent magnets, are used to improve the uniformity and strength of the magnetic field. In addition, multi-coil or multi-stage magnetization methods can be used to further reduce the non-uniformity of the magnetic field.
Question 2: How does the pulse magnetizer achieve a high-efficiency and low-power magnetization process?
Answer:
The pulse magnetizer achieves a high-efficiency and low-power magnetization process by adopting advanced power electronics technology and optimizing control algorithms. First, efficient silicon-controlled rectifiers and high-frequency inverter technology are used to reduce energy loss and power consumption. Secondly, the energy conversion efficiency and magnetization efficiency are improved by optimizing the parameter settings of the charging circuit and the discharge pulse. In addition, intelligent control algorithms can be used to adjust the magnetization parameters in real time according to the magnetization requirements to achieve a more efficient magnetization process.
Question 3: How can pulse magnetizers meet the magnetization needs of complex-shaped workpieces?
Answer:
Pulse magnetizers meet the magnetization needs of complex-shaped workpieces through flexible magnetic circuit design and magnetization strategies. First, the magnetization characteristics of the workpiece are deeply studied and analyzed through simulation and emulation tools to determine the best magnetization method and parameter settings. Secondly, multi-coil or multi-stage magnetization methods are used to magnetize the workpiece according to different parts and shape characteristics to ensure that the entire workpiece can be magnetized evenly. In addition, local enhanced magnetization or special-shaped magnetization coils can be used to accurately magnetize specific areas of the workpiece.












