Magnetizing Power Supply

In today's industrial and electronic fields, magnetizing power supply is a key energy device, and its performance stability and functional diversity are crucial to improving production efficiency and ensuring product quality.

 

 

 

This magnetizing power supply adopts advanced power electronics technology and combines modern control theory to provide users with efficient, stable and reliable magnetizing solutions. Its unique design concept and excellent performance make it stand out among many similar products.

 

 

1. Built-in well-known brand PLC:

Our magnetizing power supply has built-in well-known brand PLC (programmable logic controller), which provides users with powerful data processing and logic control functions. Through PLC, users can easily implement various complex magnetizing processes to meet different production needs.

 

2. Digital display of set voltage and output current:

The product is equipped with a high-precision digital display screen, which can intuitively display the set voltage and output current. Users can adjust these parameters at any time according to actual needs to achieve precise magnetizing control.

 

3. Adjustable charging time:

In order to meet the needs of different magnetizing processes, our magnetizing power supply provides the function of adjustable charging time. Users can set the appropriate charging time according to actual conditions to ensure the stability and consistency of the magnetizing effect.

 

4. Switchable capacitor capacity and display capacity:

This magnetizing power supply supports the switching of capacitor capacity and displays the current capacity in real time. This function allows users to choose the appropriate capacitor capacity according to different magnetizing needs and improve magnetizing efficiency.

 

5. Multiple operation modes:

In order to meet the operating habits and needs of different users, our magnetizing power supply provides a variety of operation modes. Users can choose the most suitable operation mode according to actual conditions to improve operation efficiency and convenience.

 

6. Counting function:

The product also has a counting function, which can record the number of magnetization times in real time. This function not only facilitates users to conduct production statistics and data analysis, but also helps to timely discover and solve potential problems and improve the controllability and stability of the production process.

 

 

Our magnetizing power supplies are widely used in the production process of various electronic components that require magnetization, such as motors, sensors, speakers, hard disk drives, etc. Its stable performance and rich functions provide reliable energy guarantee for these industries.

 

Technical parameters

 

Model	DXMG-10C100	MG-10C200	DXMG-25C10	DXMG-25C20	DXMG-25C30	DXMG-35C30	DXMG-35C60
Input	220V 50～60Hz 30A		220V 50～60Hz 40A			220V 50～60Hz 60A
Charge voltage	50～1000V		50～2500V			50～3500V
Max.output current	15,000A		30,000A
Repeat precision of charge voltage	±1V
Capacitor	10,000μF	20,000μF	1,000μF	2,000μF	3,000μF	3,000μF	6,000μF
The capacitance charging	5,000 / 10,000	10,000 / 20,000	1,000	1,000 / 2,000	1,000 / 2,000 / 3,000	1,000 / 2,000 / 3,000	3,000 / 4,000 / 5,000 / 6,000
Charge time	5S	9S	4S	5S	8S	12S	24S
Max. Output energy	5,000J	10,000J	3,125J	6,250J	9,375J	18,375J	36750J
Dimension	500W * 1000D * 1400H					1000W * 1000D * 2000H	2000W * 1000D * 2000H
Weight	250Kg	350Kg	200Kg	300Kg	400Kg	1000Kg	1800Kg
User's manual	Chinese or English

 

DXMG Series Large Energy Magnetizer Machine

 

Moel	DXMG-40C30	DXMG-40C60	DXMG-40C90	DXMG-40C120	DXMG-40C180	DXMG-40C240	DXMG-40C300
Input	220V 50～60Hz 60A		380V 50～60Hz 60A			220V 50～60Hz 60A
Charge voltage	200～4000V					50～3500V
Max.output current	30,000A
Repeat precision of charge voltage	±1V
Capacitor	3,000μF	6,000μF	9,000μF	12,000μF	18,000μF	24,000μF	30,000μF
The capacitance charging	1,000 / 2,000 / 3,000	According to requirements
Charge time	12S	24S	12S	16S	24S	32S	40S
Max. Outpur energy	24,000J	48,000J	72,000J	96,000J	144,000J	192,000J	240,000J
Dimension	According to requirements
Weight	100Kg	1600Kg	2200Kg	2800Kg	3400Kg	4000Kg	4600Kg
User's manual	Chinese or English

 

DXMG Series Special Magnetizer & Demagnetizer

1. Multi-stage Magnetization of Rare Earth with Extremely Small Pole Pitch, selected dual output magnetizer.
2. Orientation magnet positioned magnetizing, selected dual voltage magnetizer.

 

Model	DXMG-15C10P	DXMG-15C10V	DXMG-15C20D	DXMG-25C10P	DXMG-25C20V	DXMG-25C20D	DXMG-35C30D
Input power	220V 50～60Hz 30A		220V 50～60Hz 40A				220V 50～60Hz 60A
Charge voltage	50～1500V		50～2500V				50～3500V
Max. output current	30,000A
Repeat precision of charge voltage	±1V
The capacity of condenser	1,000μF	1,000μF	2,000μF	1,000μF	2,000μF	2,000μF	3,000μF
The capacitance charging	NO		1,000 / 2000	NO	1,000 / 2,000	1,000 / 2,000	1,000 / 2,000 / 3,000
Charge time	4S				5S	6S	12S
Max energy	1,125J		2,250J	3,125J	6,250J		1,8375J
Enclosure dimension(mm)	500W × 1000D × 1400H						1000W × 1000D × 2000H
Weight	200Kg		250Kg	250Kg	350Kg		500Kg
Documentation Manual	Chinese or English

 

 

We deeply understand the pivotal role of logistics in enhancing the shopping experience, and thus, we are steadfastly committed to crafting an efficient, secure, and dependable logistics and transportation system tailored to your needs. Our logistics team, armed with vast experience and expertise, is adept at crafting personalized logistics solutions that align perfectly with your requirements. We have forged long-standing and robust partnerships with numerous renowned logistics companies, ensuring that your products reach their destination punctually and securely. Furthermore, we offer comprehensive tracking services, keeping you abreast of your product's transportation status. Through our user-friendly website, you can effortlessly check your order details, monitoring the real-time location and anticipated delivery time of your product. This way, you can rest assured, awaiting your products without any concerns about delays or the risk of loss. Our unwavering focus on our customers drives us to continually enhance our service quality, ultimately delivering a superior shopping experience for you.

 

Question 1: In magnetized power supply design, how to optimize the power supply topology to improve efficiency?

Answer:

In magnetized power supply designs, resonant topologies such as LLC resonant converters can be used, which maintain high efficiency over a wide load range. At the same time, the introduction of soft switching technology, such as zero-voltage switching (ZVS) or zero-current switching (ZCS), can further reduce switching losses. In addition, optimizing the design of magnetic components, such as reducing coil resistance and core losses, can also significantly improve power supply efficiency.

 

 

Question 2: In the design of high-frequency magnetic components, how to reduce the losses of the magnetic core and windings?

Answer:

Choose low-loss magnetic materials: high-performance magnetic materials such as ferrite and nanocrystals. These materials have lower hysteresis loss and eddy current loss.

Optimized winding design: multiple thin wires are wound in parallel to increase the surface area of the winding and reduce eddy current losses. At the same time, the distribution of windings on the magnetic core is optimized to reduce losses caused by magnetic leakage and uneven magnetic flux.

Use insulating coating: Apply insulating coating on the winding to reduce the direct contact between the winding and the magnetic core and reduce eddy current loss.

 

 

Question 3: In the control system of the magnetizing power supply, how to achieve precise control of the output current?

Answer:

Adopt PID control algorithm: PID (proportional-integral-derivative) control algorithm is a commonly used closed-loop control algorithm. It can adjust the output voltage or duty cycle of the power supply based on the error between the feedback current value and the set value. This enables precise control of the output current.

Introducing a current sensor: Use a high-precision current sensor to monitor the output current in real time and feed the current value back to the control system.

Optimize control parameters: According to specific application scenarios and power supply characteristics, optimize the control parameters of the PID control algorithm (such as proportional coefficient, integral time constant, differential time constant, etc.) to improve control accuracy and response speed.