additional winding

简明释义

辅助绕组

英英释义

例句

1.To achieve higher torque, the team implemented an additional winding 额外绕组 in the generator.

为了实现更高的扭矩，团队在发电机中实施了额外绕组。

2.In the design of the motor, we decided to add an additional winding 额外绕组 to improve efficiency.

在电动机的设计中，我们决定增加一个额外绕组以提高效率。

3.The transformer requires an additional winding 额外绕组 to increase its voltage output.

变压器需要一个额外绕组来提高其电压输出。

4.Engineers found that the additional winding 额外绕组 helped reduce energy losses in the system.

工程师发现，额外绕组有助于减少系统中的能量损失。

5.The circuit board was modified to include an additional winding 额外绕组 for better performance.

电路板被修改以包含一个额外绕组以获得更好的性能。

作文

In the field of electrical engineering, the design and efficiency of transformers play a crucial role in power distribution. One important aspect of transformer design is the configuration of windings. The term additional winding refers to extra coils that can be added to a transformer to enhance its functionality or performance. These windings can serve various purposes, such as increasing voltage levels, improving efficiency, or providing better regulation of output voltage. Transformers are essential components in electrical systems, converting voltage levels to ensure that electricity can be transmitted over long distances without significant losses. When engineers design a transformer, they must consider the number of turns in the primary and secondary coils. However, there are instances where the initial design may not meet the required specifications or performance standards. This is where additional winding comes into play. By adding more coils, engineers can adjust the voltage transformation ratio and optimize the transformer's performance. For example, in renewable energy applications, such as wind or solar power systems, the voltage output can vary significantly based on environmental conditions. In such cases, incorporating an additional winding allows the transformer to adapt to these variations, ensuring a stable and reliable supply of electricity. This adaptability is vital for maintaining the efficiency of the entire power system. Moreover, additional winding can also be used to create multi-winding transformers. These transformers have multiple secondary windings, allowing them to supply different voltage levels simultaneously. This feature is particularly beneficial in industrial settings where multiple machines require different voltage supplies. By utilizing additional winding, a single transformer can effectively serve various equipment, reducing the need for multiple transformers and saving space and costs. However, it is important to note that adding additional winding also introduces complexity in the design and manufacturing process. Engineers must carefully calculate the impact of these extra coils on the overall performance, including factors such as impedance, heat dissipation, and magnetic coupling. If not properly managed, these factors can lead to inefficiencies or even failures in the transformer. In conclusion, the concept of additional winding is a vital consideration in transformer design. It offers numerous benefits, including enhanced voltage regulation, adaptability to varying input conditions, and the ability to supply multiple voltage levels from a single transformer. As the demand for efficient and reliable power distribution continues to grow, understanding and implementing additional winding will be increasingly important for engineers in the field. By leveraging this technique, we can improve the performance of transformers and contribute to the overall efficiency of electrical systems, paving the way for a more sustainable future in energy distribution.

在电气工程领域，变压器的设计和效率在电力分配中起着至关重要的作用。变压器设计的一个重要方面是绕组的配置。术语additional winding指的是可以添加到变压器上的额外线圈，以增强其功能或性能。这些绕组可以服务于多种目的，例如提高电压水平、改善效率或提供更好的输出电压调节。变压器是电气系统中的重要组成部分，负责转换电压水平，以确保电力能够在长距离内传输而不会产生显著损失。当工程师设计变压器时，他们必须考虑初级和次级线圈的圈数。然而，在某些情况下，初始设计可能无法满足所需的规格或性能标准。这时，additional winding就派上用场了。通过添加更多的线圈，工程师可以调整电压变换比，并优化变压器的性能。例如，在可再生能源应用中，如风能或太阳能发电系统，电压输出可能会根据环境条件显著变化。在这种情况下，结合additional winding可以使变压器适应这些变化，从而确保稳定可靠的电力供应。这种适应性对于维持整个电力系统的效率至关重要。此外，additional winding还可以用于创建多绕组变压器。这些变压器具有多个次级绕组，允许它们同时提供不同的电压水平。这一特性在工业环境中尤为有益，因为多台机器需要不同的电压供应。通过利用additional winding，单个变压器可以有效地为各种设备服务，从而减少对多个变压器的需求，节省空间和成本。然而，需要注意的是，增加additional winding也会给设计和制造过程带来复杂性。工程师必须仔细计算这些额外线圈对整体性能的影响，包括阻抗、散热和磁耦合等因素。如果管理不当，这些因素可能导致变压器的低效率甚至故障。总之，additional winding的概念是变压器设计中一个至关重要的考虑因素。它提供了许多好处，包括增强电压调节、适应变化输入条件的能力以及从单个变压器提供多个电压水平的能力。随着对高效和可靠电力分配的需求不断增长，理解和实施additional winding对于该领域的工程师将变得越来越重要。通过利用这一技术，我们可以提高变压器的性能，为电气系统的整体效率做出贡献，为可持续的能源分配未来铺平道路。