closed coil winding

简明释义

闭圈绕组

英英释义

例句

1.The motor uses a closed coil winding to enhance its efficiency.

这台电动机使用闭合线圈绕组来提高其效率。

2.The closed coil winding technique is commonly used in transformers.

在变压器中通常使用闭合线圈绕组技术。

3.To achieve better performance, the device incorporates a closed coil winding system.

为了实现更好的性能，该设备采用了闭合线圈绕组系统。

4.Engineers prefer closed coil winding for its compact structure.

工程师们更喜欢闭合线圈绕组，因为它的结构紧凑。

5.In this design, the closed coil winding reduces electromagnetic interference.

在这个设计中，闭合线圈绕组减少了电磁干扰。

作文

The field of electrical engineering is filled with various concepts and terminologies that can be quite complex. One such term that often comes up in discussions about electromagnetic devices is closed coil winding. Understanding this term is essential for anyone looking to delve deeper into the mechanics of motors, transformers, and inductors. In essence, closed coil winding refers to a specific arrangement of wire coils that are wound in a closed loop configuration. This design is crucial because it allows for the efficient generation of magnetic fields when an electric current passes through the coils.In practical applications, closed coil winding is commonly found in inductors and transformers. These devices rely on the principles of electromagnetism to function effectively. When current flows through the closed loops of wire, it creates a magnetic field that can induce voltage in nearby coils or conductors. This principle is foundational to the operation of many electrical devices we use daily.One of the key advantages of closed coil winding is its ability to minimize energy loss. By keeping the coils tightly wound in a closed formation, the magnetic flux generated is contained within the coil itself, reducing the chances of energy dissipation. This efficiency is particularly important in applications where power conservation is critical, such as in electric vehicles or renewable energy systems.Moreover, the design of closed coil winding allows for greater control over the characteristics of the magnetic field produced. Engineers can manipulate factors such as the number of turns in the coil, the gauge of the wire, and the material used for the core to tailor the performance of the device. For instance, increasing the number of turns in a coil will enhance the magnetic field strength, which can be beneficial in applications requiring high inductance.However, it is also essential to consider the limitations of closed coil winding. While this design offers many benefits, it can also lead to challenges such as overheating if not managed properly. As current flows through the coils, resistive heating can occur, potentially damaging the insulation and reducing the lifespan of the component. Therefore, engineers must design cooling systems or select appropriate materials to mitigate these risks.In summary, closed coil winding is a fundamental concept in electrical engineering that plays a vital role in the functioning of various electromagnetic devices. Its ability to create strong magnetic fields efficiently makes it indispensable in modern technology. As we continue to innovate and develop new technologies, understanding the principles behind closed coil winding will remain crucial for engineers and technologists alike. The significance of this term extends beyond mere definitions; it embodies the intricate relationship between electricity and magnetism that drives countless applications in our world today.

电气工程领域充满了各种复杂的概念和术语。其中一个在讨论电磁设备时经常出现的术语是闭合线圈绕组。理解这个术语对于任何想深入了解电机、变压器和电感器工作原理的人来说都是至关重要的。基本上，闭合线圈绕组指的是一种特定的电线绕组排列，这种排列是在闭合环形配置中绕制的。这种设计至关重要，因为它允许在电流通过线圈时有效地产生磁场。在实际应用中，闭合线圈绕组通常出现在电感器和变压器中。这些设备依靠电磁学原理有效地工作。当电流流过闭合的线圈时，会产生一个磁场，该磁场可以在附近的线圈或导体中感应电压。这个原理是我们日常使用的许多电气设备运行的基础。闭合线圈绕组的一个关键优点是能够最小化能量损失。通过将线圈紧密绕制成闭合的形式，生成的磁通量被限制在线圈内部，从而减少了能量耗散的可能性。这种效率在电动汽车或可再生能源系统等对电力节约至关重要的应用中尤其重要。此外，闭合线圈绕组的设计使得对所产生的磁场特性有更大的控制能力。工程师可以操控线圈的匝数、线材的规格以及所用核心材料等因素，以调整设备的性能。例如，增加线圈中的匝数将增强磁场强度，这在需要高电感的应用中是有益的。然而，还必须考虑到闭合线圈绕组的局限性。虽然这种设计提供了许多好处，但如果管理不当，也可能导致诸如过热等挑战。当电流流过线圈时，可能会发生电阻加热，这可能会损坏绝缘材料并缩短组件的使用寿命。因此，工程师必须设计冷却系统或选择适当的材料来减轻这些风险。总之，闭合线圈绕组是电气工程中的一个基本概念，在各种电磁设备的功能中发挥着至关重要的作用。它高效产生强磁场的能力使其在现代技术中不可或缺。随着我们不断创新和开发新技术，理解闭合线圈绕组背后的原理将继续对工程师和技术人员至关重要。这个术语的重要性不仅仅局限于定义；它体现了推动我们今天世界无数应用的电与磁之间复杂关系。