Ys16001Hbnl Lan Magnetic Transformer

D20601G Compatible YD12001HSNL 10/100 Base-T Ethernet LAN Magnetic Transformer for Game Controller (DIP 24PIN Single Port ) It is compliant to IEEE 802.3 , UL, Reach, RoHs, ISO19001,ISO14001 standards.It can be used to Industrial PC, New Energy, Network Firewall, Smart Meters.

Transformer UTG48C10 Compatible YD48001GSNL 10/100/1000 Base-T Telecom Ethernet Lan Magnetics for 1/0 Controller Guard System (SMD 48PIN Dual Port )

The YS48001GNL speed 10/100/1000 Base-T Dual Port SMD, It is compliant to IEEE 802.3 , UL, Reach, RoHs, ISO19001,ISO14001 standards.It can be used to Industrial PC, Media Player, Game Controller, Set-top Box. Compatible with transformer UTG48C10 .

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Supplier: Japanese quality switchgear components, breakers, magnetic contactors, switches, pilot lights, pushbuttons, panel instrumentations, power management meter, protection relays, transformers, inverters, ups.

The Iron Based Amorphous Ribbon is made by the composition of 80%Fe, 20%Sic and B-metal elements materials and formed by strip-casting technology. With high permeability, low loss and ideal stability, it can meet modern electronic product's requirements in high frequency, large current, small size and energy saving, and can also replace silicon steel, perm alloy and ferrite in electricity utility and electronic products. Performance Advantages & Feature R High saturation flux density-- to reduce winding turns, minimize product size R High resistivity, low coercivity--to improve production performance R Low loss(1/3 to 1/5 of silicon sheet)--to cool temperature, improve efficiency R Low excitation--decrease no-load current, and noise R Adjustable permeability--adopt different heat treatment process according to different requirement R High temperature stability--long-term operation under 130° C

Supplier: Ferrite core , transformer, inductor, bobbin, magnet

Current transformer is an instrument that converts a large current on the primary side into a small current on the secondary side based on the principle of electromagnetic induction. The current transformer is composed of a closed core and windings. Its primary winding has a small number of turns and is strung in the circuit of the current that needs to be measured. The principle of current transformer is based on the principle of electromagnetic induction. The current transformer is composed of a closed core and windings. Its primary winding has very few turns and is connected in series in the line where the current needs to be measured. Therefore, it often has all the current of the line flowing through it. Its secondary winding has more turns and is connected in series in the measuring instrument and protection circuit. The current mutual inductance When the transformer is working, its secondary circuit is always closed, so the impedance of the series coil of the measuring instrument and the protection circuit is very small, and the working state of the current transformer is close to the short circuit.

Magnetic integrated transformer refers to a miniature transformer manufactured using integrated circuit technology, which integrates coils and iron cores. It has unique characteristics such as small size and lightweight. Compared with traditional iron core transformers, magnetic integrated transformers can not only reduce current loss and magnetic loss, but also have the advantages of more precise voltage regulation, lower noise and higher energy efficiency. Therefore, magnetic integrated transformers have become one of the technologies worth promoting in industries such as power networks and new energy. With the continuous development of new energy technology, magnetic integrated transformers have also been widely used in the field of new energy. For example, in wind power generation systems, the use of magnetic integrated transformers can not only improve the stability of wind turbine speed regulation, but also eliminate harmonic interference. In addition, the high efficiency and miniaturization characteristics of magnetic integrated transformers have also been widely used in power conversion and battery management systems in electric vehicle charging stations. Compared with traditional transformer technology, magnetic integrated transformers have the following significant advantages in the field of new energy: 1. Small size and light weight: Magnetic integrated transformers can achieve a significant reduction in volume and weight while ensuring the same power transmission capacity, which is conducive to wide application in new energy applications with limited space. 2. High efficiency and low loss: Magnetic integrated transformers have the advantages of higher energy efficiency and smaller current loss and magnetic loss, which can greatly improve the operating efficiency of new energy systems. 3. Precise voltage regulation: Magnetic integrated transformers have more precise voltage regulation characteristics, which is beneficial to voltage stability control in new energy situations. At present, the application of magnetic integrated transformers in the field of new energy is still in its infancy, but its unique advantages and broad application prospects will make it more popular and in-depth used in the future. Magnetic integrated transformers will continue to play an important role in reducing power transmission energy consumption, improving system efficiency, and improving power quality in the future, and are expected to play an increasingly important role in the transformation of new energy.