band-wound coil

简明释义

叠层线圈;

英英释义

例句

1.During the testing phase, we observed that the band-wound coil reduced electromagnetic interference.

在测试阶段，我们观察到带绕线圈减少了电磁干扰。

2.The efficiency of the motor increased significantly after we replaced the old winding with a new band-wound coil.

在我们用新的带绕线圈替换旧的绕组后，电机的效率显著提高。

3.For better heat dissipation, the transformer was designed with a band-wound coil that allows for improved airflow.

为了更好的散热，变压器采用了设计为允许改善气流的带绕线圈。

4.Engineers recommend using a band-wound coil for applications requiring high inductance.

工程师建议在需要高电感的应用中使用带绕线圈。

5.The band-wound coil in this speaker provides superior sound quality compared to traditional coils.

这个扬声器中的带绕线圈相比传统线圈提供了更优质的音质。

作文

In the world of electrical engineering, various components play crucial roles in the functioning of devices and systems. One such component is the band-wound coil, which is essential in the design of inductors and transformers. Understanding the structure and function of a band-wound coil can provide insights into its applications and advantages. A band-wound coil is characterized by its unique winding technique, where a flat band of conductive material, often copper or aluminum, is wound around a core. This method of winding differs significantly from traditional round wire coils, as the flat band allows for better packing density and improved thermal management. The design of a band-wound coil enhances the efficiency of electromagnetic devices by reducing losses associated with eddy currents and improving the overall magnetic coupling. One of the primary advantages of using a band-wound coil is its ability to handle higher power levels compared to conventional coils. This capability makes it particularly suitable for applications in power electronics, such as inverters and converters, where efficient energy transfer is critical. Moreover, the band-wound coil offers lower resistance and inductance, which contributes to reduced heat generation during operation. The manufacturing process of a band-wound coil involves precision engineering to ensure that the band is uniformly wound and securely positioned on the core. This precision is vital for maintaining consistent electrical characteristics and performance. Additionally, the choice of materials used in the construction of a band-wound coil can significantly impact its performance. For instance, high-quality insulation materials are essential to prevent short circuits and enhance durability. Applications of band-wound coils span across various industries. In the automotive sector, they are used in electric vehicle (EV) motors, where efficiency and weight reduction are paramount. The aerospace industry also benefits from band-wound coils due to their high power-to-weight ratio and reliability in extreme conditions. Furthermore, in renewable energy systems, such as wind turbines and solar inverters, band-wound coils contribute to efficient energy conversion and storage. In conclusion, the band-wound coil is a vital component in modern electrical engineering, offering numerous advantages over traditional winding techniques. Its unique design allows for enhanced performance in various applications, making it an essential element in the development of advanced electronic systems. As technology continues to evolve, the role of band-wound coils will likely expand, paving the way for more efficient and powerful electrical devices.

在电气工程的世界中，各种组件在设备和系统的功能中发挥着至关重要的作用。其中一个组件是带绕线圈，它在电感器和变压器的设计中至关重要。理解带绕线圈的结构和功能可以提供对其应用和优点的深入了解。带绕线圈的特点在于其独特的绕制技术，其中一条平带导体材料（通常是铜或铝）绕在一个核心上。这种绕制方法与传统的圆线圈有显著不同，因为平带允许更好的密度打包和改善热管理。带绕线圈的设计通过减少与涡流相关的损失并改善整体磁耦合，增强了电磁设备的效率。使用带绕线圈的主要优点之一是它能够处理比传统线圈更高的功率水平。这种能力使其特别适合用于电力电子应用，如逆变器和转换器，在这些应用中，高效的能量传输至关重要。此外，带绕线圈提供了较低的电阻和电感，这有助于在操作期间减少热量产生。制造带绕线圈的过程涉及精密工程，以确保带子均匀绕制并牢固地放置在核心上。这种精度对于保持一致的电气特性和性能至关重要。此外，在带绕线圈的构造中所使用的材料选择可以显著影响其性能。例如，高质量的绝缘材料对于防止短路和增强耐用性至关重要。带绕线圈的应用跨越多个行业。在汽车行业，它们用于电动汽车（EV）电机，在这些电机中，效率和减轻重量至关重要。航空航天工业也因其高功率与重量比以及在极端条件下的可靠性而受益于带绕线圈。此外，在可再生能源系统中，例如风力涡轮机和太阳能逆变器，带绕线圈有助于高效的能量转换和储存。总之，带绕线圈是现代电气工程中的一个重要组成部分，相比于传统的绕制技术，提供了众多优点。其独特的设计使其在各种应用中表现出色，使其成为先进电子系统开发中的一个不可或缺的元素。随着技术的不断发展，带绕线圈的作用可能会进一步扩展，为更高效和强大的电气设备铺平道路。