Why can nanocrystalline core be ultimate?
Featured Product from Hangzhou X-mag Inc.
The nanocrystalline core material, composed of elements such as Fe, Cu, Ni, Si, and B, exhibits exceptional performance in high-temperature and high-frequency environments due to its high magnetic permeability, magnetic induction strength, lower losses, excellent DC resistance, and thermal stability. It offers several advantages over traditional core materials, including:
- Enhanced Magnetic Properties: Nanocrystalline cores have higher magnetic properties, allowing for improved performance in various applications.
- Temperature Stability: They exhibit excellent stability in high-temperature environments, ensuring reliable operation even under challenging conditions.
- Lower Losses: The material's extremely low losses contribute to higher efficiency and lower energy consumption in equipment utilizing nanocrystalline cores.
- Reduced Volume and Weight: Despite delivering the same level of performance, nanocrystalline cores enable the reduction of volume and weight in equipment, leading to improved efficiency and longer service life.
Features:
- High magnetic saturation intensity (about 1.2T), good DC resistance, and high power density.
- High magnetic permeability? μ= 200-150000), small size, high impedance.
- Low loss (P ? 15W@20KHz /0.5T), high efficiency, small volume for high-frequency operation, and long service life.
- Strong temperature stability, working temperature between -40 ? and 125 ?.
- Externally protected with plastic, made of materials such as PBT/PA66/FR530 or protected with spray epoxy resin protection;
Applications:
This material finds extensive use in high-precision sensors, motors, generators, transformers, magnetic memory, and other fields:
- Communication power supply
- USP power supply
- Inverter
- Pulse transformer
- Filter
- Current transformer
- Energy storage inductor
- Power filters
- energy storage inductors
- EMC systems
- Inductors
- Trams
- Etc...
Utilizing nanocrystalline cores in your projects can enhance performance in high-temperature and high-frequency environments. Contact us for more details to empower your products.