Focus On Magnet Products Processing and Customization
The transformer has very high transmission efficiency.
The newly developed transformer is primarily used as a high-frequency switching power supply transformer in high-frequency switching power supplies. It is also employed in high-frequency inverters and high-frequency welding machines, serving as a high-frequency inverter transformer. Depending on the operating frequency, small, high-quality transformers can be categorized into several grades: 10 kHz–50 kHz, 50 kHz–100 kHz, 100 kHz–500 kHz, 500 kHz–1 MHz, and above 1 MHz.
Reliable high-frequency transformer
Small, high-quality transformers are primarily used as high-frequency switching power transformers in high-frequency switching power supplies. They are also employed in high-frequency inverter power supplies and high-frequency welding machines, serving as high-frequency inverter transformers. Based on their operating frequency, they can be further subdivided into several categories: 10 kHz–50 kHz, 50 kHz–100 kHz, 100 kHz–500 kHz, 500 kHz–1 MHz, and above 1 MHz.
Compact and excellent transformer
The newly developed transformer is primarily used as a high-frequency switching power supply transformer in high-frequency switching power supplies. It is also employed in high-frequency inverters and high-frequency welding machines, serving as a high-frequency inverter transformer. Based on the operating frequency, small, high-quality transformers can be categorized into several classes: 10 kHz–50 kHz, 50 kHz–100 kHz, 100 kHz–500 kHz, 500 kHz–1 MHz, and above 1 MHz.
10 kHz to 50 kHz frequency transformer
The newly developed transformer is primarily used as a high-frequency switching power supply transformer in high-frequency switching power supplies. It is also employed in high-frequency inverters and high-frequency welding machines, serving as a high-frequency inverter transformer. Depending on the operating frequency, small, high-quality transformers can be categorized into several grades: 10 kHz–50 kHz, 50 kHz–100 kHz, 100 kHz–500 kHz, 500 kHz–1 MHz, and above 1 MHz.
High-frequency transformer coil
The newly designed transformer is primarily used as a high-frequency switching power transformer in high-frequency switching power supplies. It is also employed in high-frequency inverters and high-frequency welding machines, serving as a high-frequency inverter transformer. Depending on the operating frequency, it can be further subdivided into several categories: 10 kHz–50 kHz, 50 kHz–100 kHz, 100 kHz–500 kHz, 500 kHz–1 MHz, and above 1 MHz.
The high-quality filtering inductor you need.
The newly designed filter inductor is suitable for energy storage and filtering applications in switch-mode power supplies, thanks to its high Bs value and low-loss characteristics. Compared with iron powder cores and ferrite cores of the same volume and permeability, this inductor boasts a significantly higher energy-storage capacity, making it increasingly popular in applications such as AC inductors, output inductors, rotary transformers, pulse transformers, and power-factor correction circuits.
Filter inductor for power factor leading circuits
The newly designed filter inductor is suitable for energy storage and filtering applications in switch-mode power supplies, thanks to its high magnetic flux density (BS value) and low-loss characteristics. Compared with iron powder cores and ferrite cores of the same volume and permeability, this inductor boasts a significantly higher energy-storage capacity, making it increasingly popular in applications such as AC inductors, output inductors, rotary transformers, pulse transformers, and power-factor correction circuits.
High-performance filtering inductor
The newly designed filter inductor is suitable for energy storage and filtering applications in switch-mode power supplies, thanks to its high magnetic flux density (BS value) and low-loss characteristics. Compared with iron powder cores and ferrite cores of the same volume and permeability, this inductor boasts a significantly higher energy-storage capacity, making it increasingly popular in applications such as AC inductors, output inductors, rotary transformers, pulse transformers, and power-factor correction circuits.
Filter inductor using a choke coil
The newly designed filter inductor is suitable for energy storage and filtering applications in switch-mode power supplies, thanks to its high magnetic flux density (BS value) and low-loss characteristics. Compared with iron powder cores and ferrite cores of the same volume and permeability, this inductor boasts a significantly higher energy-storage capacity, making it widely used in AC inductors, output inductors, rotary transformers, pulse transformers, and power-factor correction circuits.
Customized Filter Inductor Coil
The newly designed filter inductor is suitable for energy storage and filtering applications in switch-mode power supplies, thanks to its high Bs value and low-loss characteristics. Compared with iron powder cores and ferrite cores of the same volume and permeability, this inductor boasts a significantly higher energy-storage capacity, making it increasingly popular in applications such as AC inductors, output inductors, rotary transformers, pulse transformers, and power-factor correction circuits.
The newly designed filter inductor is suitable for energy storage and filtering applications in switch-mode power supplies, thanks to its high magnetic flux density (BS value) and low-loss characteristics. Compared with iron powder cores and ferrite cores of the same volume and permeability, this inductor boasts a significantly higher energy-storage capacity. This inductor finds wide application in AC inductors, output inductors, rotary transformers, pulse transformers, and power-factor correction circuits.
The new common-mode choke features a ferrite core and is wound with two wires, offering excellent common-mode noise suppression capability as well as low suppression of differential-mode noise signals. It remains stable even under high-speed signaling conditions and boasts advantages such as low impedance at operating frequencies, high impedance at interference frequencies, and a compact size.
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Anyang Kayo Amorphous Technology Co., Ltd. was established in 2011 with a registered capital of 20 million RMB. It is a high-tech enterprise focused on the research, development, production, sales...
