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The relationship between transformer ratio and turns ratio

Aug 06, 2024

1, The concepts of transformation ratio and turn ratio
Transformation ratio refers to the ratio of turns between the two coils of a transformer, namely the main coil and the secondary coil. For example, when the number of turns of the main coil is 1000 and the number of turns of the secondary coil is 200, the transformation ratio is 5:1.
The turns ratio refers to the ratio of the number of turns in one coil to the number of turns in the other coil in the primary and secondary coils. For example, when the number of turns in the main coil is 1000 and the number of turns in the secondary coil is 200, the turns ratio is 5:1.
2, The relationship between transformation ratio and turns ratio
The ratio of transformation and the ratio of turns are closely related. In other words, the transformation ratio and the turns ratio are equal. Because in a transformer, electrical energy is constantly converted, flowing from the main coil to the secondary coil, and then returning from the secondary coil to the main coil. Therefore, in this process, the ratio of electrical energy to voltage remains constant, which means that the transformation ratio and turns ratio are equal. In transformers, the transformation ratio and turns ratio are very important parameters that directly affect the working principle and performance of the transformer.
3, The influence of transformation ratio and turns ratio on the working principle and performance of transformers
The ratio of transformation and turns has a significant impact on the working principle and performance of transformers.
(1) The larger the transformation ratio and turn ratio, the higher the voltage of the secondary coil.
(2) The smaller the transformation ratio and turn ratio, the greater the current in the main coil.
(3) The transformation ratio and turns ratio are directly related to the efficiency of transformers. The smaller the turns ratio, the higher the efficiency; vice versa.
(4) The transformation ratio and turns ratio have an impact on the size of the transformer. The larger the transformation ratio and turns ratio, the smaller the size of the transformer.
4, Conclusion
This article systematically introduces the concepts and relationships of transformer transformation ratio and turn ratio, and deeply explores the influence of transformation ratio and turn ratio on the working principle and performance of transformers. Readers can learn about the importance of transformation ratio and turns ratio, as well as how to apply them to improve the efficiency of transformers.

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