Amorphous Nanocrystalline Magnetic Ring

● High saturation magnetic flux density, which can effectively reduce the size and weight of the device. ● High permeability and low coercivity, which enhance efficiency and reduce copper losses. ● Low loss, which helps lower transformer temperature. ● Stable temperature performance, enabling continuous operation from -45℃ to 130℃.

Best-selling amorphous nanocrystalline core

Iron-based amorphous filter inductors feature high saturation magnetic flux density, low coercivity, low losses, excellent DC bias resistance, and a high permeability ranging from 120 to 1200. Consequently, these premium magnetic rings can be widely used in applications such as automotive audio chokes, DMC filters and output smoothing filters, common-mode filters, PFC correction inductors, and filtering coils.

Spray-amorphous magnetic core

High-quality magnetic rings feature high saturation magnetic induction, low coercivity, low losses, excellent DC bias resistance, and a high permeability ranging from 120 to 1200. Consequently, amorphous ferromagnetic rings can be widely used in applications such as automotive audio chokes, DMC filters and output smoothing filters, common-mode filters, PFC correction inductors, and filtering coils.

Iron Core For Differential Mode Filter

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Amorphous Nanocrystalline Annular Core

The iron-based amorphous filter inductor core/Fe-based amorphous filter inductor core boasts excellent frequency characteristics, superior performance under AC-DC superposition, and extremely low iron losses. At the same time, its permeability can be flexibly adjusted over a very wide range (from 120 to 1200 microhenries), enabling it to withstand bias current ampere-turns within different ranges of local magnetic fields. Therefore, it is well-suited for inductor components used in various high-frequency and AC-DC superposition applications. Its performance outperforms that of silicon-iron-nickel and iron-aluminum powder cores.

High-saturation magnetic induction core

The newly designed leakage-current protection core replaces permalloy with materials that feature high magnetic permeability, low coercivity, and low losses. It is highly sensitive to even the slightest leakage currents while also demonstrating excellent resistance to high-current surges. Additionally, it boasts outstanding thermal stability and can operate reliably in ambient temperatures ranging from -25°C to 100°C. Consequently, this versatile magnetic core can be widely used in leakage-current protective switches.

High-performance magnetic core

The newly designed leakage-current protection magnetic core replaces traditional materials with a Permalloy alloy that boasts high magnetic permeability, low coercivity, and low losses. Our high-performance magnetic core is exceptionally sensitive to even the slightest leakage currents, while also demonstrating outstanding resistance to high-current surges and remarkable thermal stability, enabling reliable operation in ambient temperatures ranging from -25°C to 100°C. Consequently, this superior magnetic ring is ideally suited for use in leakage-current protective switches.

High-permeability magnetic ring

The newly designed leakage-current protection core replaces permalloy with a material that boasts high magnetic permeability, low coercivity, and low losses. It is exceptionally sensitive to even the tiniest leakage currents while also demonstrating outstanding resistance to high-current surges. Additionally, it features excellent thermal stability, enabling reliable operation in ambient temperatures ranging from -25°C to 100°C. Consequently, this versatile magnetic core can be widely used in leakage-current protective switches.

High-permeability magnetic core

The newly designed leakage-current protection core replaces traditional materials with a permalloy—a material featuring high magnetic permeability, low coercivity, and low loss. This core is exceptionally sensitive to even the slightest leakage currents, while also demonstrating outstanding resistance to high-current surges and excellent thermal stability, enabling reliable operation in ambient temperatures ranging from -25°C to 100°C. Consequently, this product can be widely applied in the field of leakage-current protective switches.

Current transformer core

The magnetic core of nanocrystalline current transformers boasts high permeability and low cost, making it an ideal material for current transformers today. It aligns with the development trend in power electronics and information electronics toward smaller, lighter, and more efficient components. Consequently, it can be widely used in precision current transformers, zero-sequence current transformers, medium- and high-frequency transformers, and other electrical equipment.

ISO9001 quality magnetic core

The magnetic core of nanocrystalline current transformers boasts high permeability and low cost, making it an ideal material for current transformers today. It aligns perfectly with the development trend toward small-size, lightweight, and highly efficient components in the fields of power electronics and information technology. Consequently, it can be widely used in precision current transformers, zero-sequence current transformers, medium- and high-frequency transformers, and other electrical equipment.

Amorphous Nanocrystalline Current Transformer Core

The practical nanocrystalline current transformer core, with its high magnetic permeability and low cost, is currently an ideal material for current transformers. It aligns well with the development trend toward small-size, lightweight, and highly efficient components in the fields of power electronics and information electronics, and thus can be widely used in precision current transformers, zero-sequence current transformers, medium- and high-frequency transformers, and other electrical equipment.