Amorphous cores factory with transmartcore.com: The toroidal transformer is a type of electronic transformer that features a donut-shaped core made from a continuous loop of magnetic material, typically iron powder or ferrite. This design allows for maximum efficiency in power transfer due to the minimal air gap between the windings and the core, resulting in low electromagnetic interference and reduced energy losses. Toroidal transformers from Transmart toroidal transformer supplier are commonly used in various applications such as audio equipment, amplifiers, medical devices, industrial machinery, and lighting fixtures. They are preferred over other types of transformers for their compact size, high efficiency, low noise levels, and ability to handle high currents with minimal heat generation. Their symmetrical shape allows for easy mounting and installation in tight spaces where conventional transformers may not fit. Find additional info at amorphous metal cores.
After surface insulation treatment, the magnetic core is evenly mixed with the binder, pressed and annealed. There are basically three ways to obtain nanocrystalline powder: amorphous strip crushing after annealing and crystallization, mechanical alloying and molten alloy atomization. At present, mechanical alloying is still in the laboratory research stage. A few companies produce amorphous strip crystallization in small quantities in China, but it is unable to expand the market due to cost reasons. Compared with other methods, molten alloy atomization method has high efficiency and low cost. Its disadvantage is that the amorphous content of the powder is low and the loss is high.
Working magnetic flux density of Fe based amorphous alloy core: 1.35t ~ 1.40t, 1.6T ~ 1.7t for silicon steel. The weight of iron-based amorphous alloy power frequency transformer is about 130% of that of silicon steel power frequency transformer. However, even if the weight is heavy, the loss of iron-based amorphous alloy for power frequency transformer with the same capacity is 70% ~ 80% lower than that of silicon steel. Considering the loss, the total evaluation price is 89% The ability of Fe based amorphous alloy to resist power waveform distortion is stronger than that of silicon steel.
As one of Transmart Industrial’s multiple product series, mumetal cores series enjoy a relatively high recognition in the market. Transmart Industrial provides diversified choices for customers. The mu-metal cores are available in a wide range of types and styles, in good quality and in reasonable price.Transmart Industrial effectively improves after-sales service by carrying out strict management. This ensures that every customer can enjoy the right to be served.
As the iron core of the transformer, generally, 0.35mm thick cold rolled silicon steel sheet is selected. It is cut into long pieces according to the size of the required iron core, and then overlapped into “day” shape or “mouth” shape. In principle, in order to reduce eddy current, the thinner the silicon steel sheet, the narrower the spliced strip, and the better the effect. This not only reduces the eddy current loss and temperature rise, but also saves the material of silicon steel sheet. But in fact, when making silicon steel sheet iron core. Not only from the above favorable factors, because making the iron core in that way will greatly increase the working hours and reduce the effective section of the iron core. Therefore, when making transformer iron core with silicon steel sheet, we should start from the specific situation, weigh the advantages and disadvantages and choose the best size. Read extra info on https://www.transmartcore.com/.
As for why it can boost and depressurize It needs to be explained by Lenz’s law The magnetic flux generated by the induced current always hinders the change of the original magnetic flux. When the original magnetic flux increases, the magnetic flux generated by the induced current is opposite to the original magnetic flux. In other words, the induced flux generated by the secondary winding is opposite to the main flux generated by the original winding, so the secondary winding has a low-level alternating voltage. So The iron core is the magnetic circuit part of the transformer The winding is the circuit part of the transformer.