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SAT Amorphous Technology
Jul 15 , 2020
SAT Amorphous Technology Amorphous alloy has low free volume and thin thickness, so it can be made into different specifications and shapes by winding or pasting. It is characterized by no clear grain boundaries like metal, so it has better wear resistance, magnetic permeability and corrosion resistance. Amorphous alloy has higher toughness and less brittleness than other metals and ceramics. Amor...
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The Application of Nanocrystalline Inductive Components Nowadays and In The Future
Aug 17 , 2020
The Application of Nanocrystalline Inductive Components Nowadays and In The Future Due to the excellent performance of soft magnetic materials and their unique combination, nanocrystalline materials have become more and more important, mainly reflected in the further improvement of future advanced power electronic systems. Applications such as energy generation and distribution, energy measurement...
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Research on the Effect of Clamping Force on Amorphous Alloy Magnetic Properties and Core Vibration
Aug 25 , 2020
Research on the Effect of Clamping Force on Amorphous Alloy Magnetic Properties and Core Vibration Amorphous alloy materials are known for energy saving. Amorphous power transformers have lower core losses than silicon steel transformers, but the magnetostriction coefficient of amorphous alloys is large, which will result in greater core vibration of the amorphous transformer during operation, and...
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Advantages of using nanocrystalline cores in inverter power supply
Sep 07 , 2020
Advantages of using nanocrystalline in inverter power supply Nanocrystalline core additionally has these advantages (comparing with silicon steel, permalloy, and ferrite cores): High magnetic induction The magnetic induction in the saturation state is twice that of permalloy and several times that of ferrite cores. The transformer core power is large, which can exceed 15 kW~20kW/kg. High permeabil...
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Nanocrystalline Cores Make Tough Issues Easier
Sep 15 , 2020
Nanocrystalline Cores Turn Tough Issues Easy Tough problems have been solved when ferrite cores were replaced by nanocrystalline soft magnetic cores. (1) Noise In the process of working with electrical appliances, noise is mainly generated in the following two aspects: 1. Due to the magnetostriction index of the raw material itself, such as ferrite, noise always occurs in the application. And beca...
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Why We Use Nanocrystalline Core For Electronic Components?
Sep 27 , 2020
Why We Use Nanocrystalline Core For Electronic Components? Abstract: Nanocrystalline is a soft magnetic material composed of Fe, Si, B, and has been widely used in the field of electronic component manufacturing. Its excellent characteristics such as high magnetic permeability can lower the magnetic core loss of the transformer, and at the same time greatly reduce the size and weight of the compon...
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Why Is Nanocrystalline the Best Core for an Electromagnet?
Sep 29 , 2020
Why Is Nanocrystalline The Best Core For Electromagnet? Nanocrystalline soft magnetic materials have become widely used in power electronic design in recent years. In addition to excellent performance, the price and the diversity of materials applications have greatly replaced traditional ferrite materials. Material Alloy composition Losses (20kHz, 200mT) [W/kg] Saturation Bsat [mT] Magneto strict...
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How Different Types of Inductors Used in The Electronic Components
Oct 10 , 2020
How Different Types of Inductors Used in The Electronic Industry In electronic component products, inductors play a pivotal and very important role in maintaining the normal operation of electronic equipment. Inductors are now widely used in high-power electrical appliances, spike blockers, RF devices, signal shielding and other equipment. The following are the common types of inductors and their ...
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5 Common Applications of Inductor in 2020
Oct 13 , 2020
5 Common Applications of Inductor in 2020 As one of the basic circuit components, inductors play an important role in related applications, from starting engines to energy storage and conversion. Its working principle is that when current passes, the inductor will store most of the energy in the magnetic field, and the amount of energy stored is inversely proportional to the core loss. Common mode...
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