- Feature
- Performance
- Curve Comparison Chart
- Advantage
- Applications
- Video
Feature
Feature Description
Lower loss, better than iron powder core;
Near zero collision induced stretching, superior to iron powder core;
No thermal aging phenomenon, superior to iron powder core;
Soft saturation, superior to interstitial ferrite and composite alloys.
Performance
High magnetic permeability
Iron silicon has a high magnetic permeability, which means it has good responsiveness to magnetic fields. High magnetic permeability helps improve the efficiency of inductors and transformers, and reduces energy loss.
Low core loss
Iron silicon exhibits lower core loss, which means it can more effectively transmit and convert energy in AC circuits. Low core loss helps to improve equipment efficiency and energy-saving performance.
Good temperature stability
Iron silicon has good temperature stability and can maintain stable magnetic properties over a wide temperature range. This enables iron silicon to work reliably in environments with high temperatures or significant temperature changes.
Adjustable
The magnetic properties of iron silicon can be adjusted through appropriate heat treatment and alloy ratio. This allows Iron silicon to be customized according to specific application requirements to meet different magnetic field strength and frequency requirements.
High saturation magnetic induction intensity
Iron silicon has a high saturation magnetic induction intensity, which refers to the maximum magnetic induction intensity that a material can achieve under the action of a magnetic field. The high saturation magnetic induction strength makes Iron silicon an ideal choice for manufacturing high-power electronic devices.
Curve Comparison Chart
Advantage
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01
High magnetic permeability
Iron silicon powder core has high magnetic permeability, which can effectively conduct magnetic fields, provide higher inductive inductance value and lower energy loss. This makes it have excellent performance in applications such as inductors and transformers.
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02
Low core loss
Iron silicon powder cores exhibit lower core loss, which means that energy can be more effectively transmitted and converted in AC circuits. Low core loss helps to improve equipment efficiency and energy-saving performance.
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03
Wide frequency range
The iron silicon powder core exhibits stability over a wide frequency range and can maintain low core losses. This makes it suitable for electronic devices and circuit applications of various frequencies.
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04
Good temperature stability
The iron silicon powder core has good temperature stability and can maintain stable magnetic properties over a wide temperature range. This allows it to work reliably in environments with high temperatures or significant temperature changes.
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05
High saturation magnetic
induction intensityIron silicon powder core has a high saturation magnetic induction intensity and can work under high magnetic field intensity. This makes it suitable for applications with high power and high magnetic field intensity.
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06
Customizability
Iron silicon powder cores can be customized according to specific needs. By adjusting the size, shape, and ratio of powder particles, different magnetic properties and characteristics can be obtained to meet the requirements of different applications.
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07
Reliability and stability
Iron silicon powder core has good stability and reliability, and can maintain its performance in long-term use. It has little impact on external magnetic field and temperature changes, and can provide stable working performance.
Applications
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Industrial Power Supply
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PV Inverter
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Uninterruptible Power Supply
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Household Appliance
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APF
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Energy Storage Power Station
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Rail Transit