DC-resistant magnetic core

Core of High-Quality DC Isolation Components Resistive DC magnetic cores exhibit strong resistance to DC components, a wide current range, minimal need for additional circuitry and equipment, high reliability, and excellent anti-interference performance. DC-DC Single Magnetic Core The resistive DC composite single magnetic core is a single resistive DC magnetic core that features high linearity, high precision, easy phase-error compensation, and superior high- and low-temperature performance. Compared with composite cores, single cores offer greater stability and a more compact footprint. Applications of Optimal Magnetic Cores Superior magnetic cores boast high permeability, low coercivity, and low losses, delivering outstanding performance in DC interference suppression and temperature stability. They are widely used in electronic energy meters, resistive transformers with DC components, and power-system measurement applications.

Spray-coated magnetic core

Core of High-Quality DC Isolation Components DC-resistant magnetic cores exhibit strong resistance to DC components, a wide current range, minimal need for additional circuitry and equipment, high reliability, and low susceptibility to interference. DC-Resistant Performance of Magnetic Cores The resistive DC composite single-core is a single resistive DC core that features high linearity, high precision, easy phase-error compensation, and excellent performance across a broad temperature range. Compared with composite cores, single cores offer greater stability and a more compact footprint. Applications of Optimal Magnetic Cores Our high-quality magnetic cores boast high permeability, low coercivity, and low losses, delivering outstanding performance in DC interference rejection and thermal stability. They are widely used in electronic energy meters, impedance-type DC component transformers, and power-system measurement applications.

New-type soft magnetic material core

● High saturation magnetic flux density, which effectively reduces the size and weight of the equipment. ● High permeability and low coercivity, which enhance efficiency and reduce copper losses. ● Low core losses, which help lower transformer temperature. ● Stable operation over a wide temperature range from -45°C to 130°C.

Iron-based amorphous filter inductor core

Practical iron-based amorphous filter inductor cores feature high saturation magnetic flux density, low coercivity, low losses, excellent DC bias tolerance, and a high permeability ranging from 120 to 1200. Consequently, they are widely used in applications such as automotive audio chokes, DMC filters, output smoothing filters, common-mode filters, PFC correction inductors, and filtering coils.

High-performance filter inductor core

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