ALSTOM MVAJ27L1FB0784D high-efficiency industrial transformer

ALSTOM MVAJ27L1FB0784D high-efficiency industrial transformer

Product Overview

Alstom MVAJ27L1FB0784D is an efficient industrial transformer carefully crafted by Alstom for complex industrial environments. In industrial power systems, transformers are the core equipment for voltage conversion, ensuring stable power distribution, and efficient transmission. MVAJ27L1FB0784D, with its outstanding performance, can accurately convert input voltage into output voltage suitable for various industrial equipment, effectively solving the diverse voltage level requirements of different equipment in industrial production, ensuring the stable and efficient operation of the entire industrial power supply system, and providing a solid power foundation guarantee for the continuous operation of industrial production.

Brand background

Alstom, as a globally renowned multinational enterprise, has a deep technological accumulation and excellent market reputation in multiple fields such as power and rail transportation. In the field of power equipment manufacturing, Alstom has always adhered to an innovation driven development strategy, relying on advanced research and development concepts and strict quality control systems, committed to providing high-quality and high-performance power solutions for global industrial users. The MVAJ27L1FB0784D high-efficiency industrial transformer is an outstanding achievement of Alstom's long-term deep cultivation in the field of transformers. With its reliable quality and excellent performance, it is widely recognized and trusted by industrial users worldwide.

Core functions

Accurate voltage conversion: By utilizing advanced electromagnetic induction principles, the input voltage can be accurately converted into the output voltage required by industrial equipment according to a preset transformation ratio. In industrial scenarios that require extremely high voltage accuracy, such as semiconductor manufacturing and precision electronic processing, it is possible to ensure that output voltage fluctuations are controlled within a very small range, providing stable and high-quality power supply for precision equipment and ensuring product production accuracy and quality.

Efficient power transmission: By optimizing the winding design of transformers, selecting high permeability iron core materials, and adopting advanced manufacturing processes, the internal resistance and hysteresis losses of transformers are effectively reduced, achieving efficient power transmission. In large-scale industrial production, it can significantly reduce energy loss during power transmission, improve energy utilization efficiency, and reduce enterprise electricity costs.

Overload protection and adaptive regulation: Equipped with advanced intelligent monitoring and protection system, it can monitor key parameters such as operating current and temperature of transformers in real time. When the load current exceeds the rated value, the system will automatically activate the overload protection mechanism, by adjusting the output characteristics of the transformer or issuing an alarm signal, to avoid damage to the transformer due to overload. At the same time, the transformer also has adaptive regulation function, which can automatically adjust the output voltage and current according to load changes, ensuring that industrial equipment can obtain stable and suitable power supply under different load conditions.

Harmonic suppression: The use of a large number of nonlinear loads in industrial production can generate harmonics, affecting the normal operation of the power system. MVAJ27L1FB0784D is equipped with a professional harmonic suppression device, which can effectively filter out harmonic components in the power grid, improve power quality, protect industrial equipment from harmonic interference, extend equipment service life, and ensure stable industrial production.

Working principle

The MVAJ27L1FB0784D high-efficiency industrial transformer operates based on the law of electromagnetic induction. Its main structure includes an iron core and primary and secondary windings mounted on the iron core. When the AC power supply is connected to the primary winding, the alternating current generates an alternating magnetic field in the winding, which is conducted to the secondary winding through the iron core. According to the principle of electromagnetic induction, an electromotive force proportional to the voltage of the primary winding will be induced in the secondary winding, thereby achieving voltage conversion. The turns ratio of the primary winding to the secondary winding determines the transformation ratio of the transformer. By adjusting the tap changer to change the turns of the primary winding, precise adjustment of the output voltage can be achieved. In the process of power transmission, transformers utilize their inductance characteristics to transform and transmit current, while minimizing resistance and hysteresis losses and improving power transmission efficiency through reasonable design and material selection.

Key advantages

Efficient and energy-saving: By adopting advanced energy-saving technologies and high-quality materials, it significantly reduces no-load and load losses. In the entire industrial power system, it can significantly improve energy utilization efficiency and save a lot of electricity costs for enterprises, which is in line with the current global advocacy of energy-saving, emission reduction, and green development concepts.