repeating coil

简明释义

转电线圈

英英释义

例句

1.The repeating coil in the circuit was faulty, causing intermittent power loss.

电路中的重复线圈出现故障，导致间歇性断电。

2.For this application, a repeating coil is essential to maintain signal integrity over long distances.

在这个应用中，重复线圈对于保持长距离信号完整性至关重要。

3.In the lab, we observed how the repeating coil can generate a magnetic field when energized.

在实验室，我们观察到当通电时，重复线圈如何产生磁场。

4.The engineer designed a new type of transformer using a repeating coil to enhance efficiency.

工程师设计了一种新型变压器，使用了重复线圈以提高效率。

5.The prototype utilized a repeating coil to create a consistent electromagnetic wave.

该原型利用重复线圈生成稳定的电磁波。

作文

In the realm of electrical engineering, various components play crucial roles in the functioning of circuits and devices. One such component is the repeating coil, which is essential for creating electromagnetic fields and facilitating inductive coupling. Understanding the function and application of a repeating coil can greatly enhance our comprehension of many electronic systems.A repeating coil is essentially a type of coil that is used to generate a magnetic field when an electric current passes through it. This coil is designed to repeat its characteristics over specific intervals, which allows it to maintain a consistent performance across various applications. The primary purpose of a repeating coil is to convert electrical energy into magnetic energy, which can then be used to induce currents in nearby conductive materials or to create motion in electromechanical devices.The design of a repeating coil typically involves winding a conductive wire around a core material, which can be made from ferromagnetic substances to enhance the magnetic field strength. The number of turns in the coil, the gauge of the wire, and the core material all influence the efficiency and effectiveness of the repeating coil. For instance, increasing the number of turns can amplify the magnetic field generated, while using a high-permeability core can significantly improve the coil's performance.One of the most common applications of a repeating coil is in transformers, where it plays a vital role in transferring electrical energy between circuits through electromagnetic induction. In this context, the repeating coil allows for the stepping up or stepping down of voltage levels, making it a fundamental component in power distribution systems. Without the repeating coil, our ability to efficiently transmit electricity over long distances would be severely limited, leading to significant energy losses.Another significant use of the repeating coil is in electric motors. In these devices, the coil interacts with magnetic fields to produce rotational motion. The precise arrangement and timing of the repeating coil are critical for the smooth operation of the motor. As the coil rotates within a magnetic field, it generates torque, allowing machines to perform work. This principle is foundational in countless applications, from household appliances to industrial machinery.Furthermore, advancements in technology have led to innovative uses of repeating coils in wireless charging systems. In these applications, the repeating coil is used to transfer energy from a charging pad to a device without the need for physical connectors. This convenience has made wireless charging increasingly popular in modern electronics, including smartphones and electric vehicles.In summary, the repeating coil is a versatile and essential component in many electrical and electronic systems. Its ability to generate magnetic fields and facilitate energy transfer is pivotal in applications ranging from transformers to motors and even wireless charging technologies. As we continue to advance in the field of electrical engineering, the significance of the repeating coil will undoubtedly remain prominent, paving the way for further innovations and improvements in technology. Understanding the intricacies of this component not only deepens our knowledge of electrical systems but also highlights the interconnectedness of various technologies that shape our modern world.

在电气工程领域，各种组件在电路和设备的功能中发挥着至关重要的作用。其中一个组件是重复线圈，它对于创建电磁场和促进感应耦合至关重要。理解重复线圈的功能和应用可以大大增强我们对许多电子系统的理解。重复线圈本质上是一种用于在电流通过时生成磁场的线圈。这种线圈的设计使其能够在特定间隔内重复其特性，从而在各种应用中保持一致的性能。重复线圈的主要目的是将电能转化为磁能，然后可以用来在附近的导电材料中感应电流或在机电设备中产生运动。重复线圈的设计通常涉及将导电线缠绕在核心材料上，这种材料可以由铁磁物质制成，以增强磁场强度。线圈中的圈数、线的规格和核心材料都会影响重复线圈的效率和效果。例如，增加圈数可以放大所产生的磁场，而使用高磁导率的核心可以显著改善线圈的性能。重复线圈最常见的应用之一是在变压器中，在这里它在通过电磁感应在电路之间传输电能方面发挥着至关重要的作用。在这种情况下，重复线圈允许电压水平的升高或降低，使其成为电力分配系统中的基本组件。没有重复线圈，我们有效地在长距离上传输电力的能力将受到严重限制，导致显著的能量损失。重复线圈的另一个重要用途是在电动机中。在这些设备中，线圈与磁场相互作用以产生旋转运动。重复线圈的精确排列和时序对于电动机的平稳运行至关重要。当线圈在磁场中旋转时，它会产生扭矩，使机器能够进行工作。这个原理在无数应用中是基础，从家用电器到工业机械。此外，技术的进步使得重复线圈在无线充电系统中的创新用途成为可能。在这些应用中，重复线圈用于将能量从充电垫传输到设备，而无需物理连接。这种便利性使无线充电在现代电子产品中越来越受欢迎，包括智能手机和电动车。总之，重复线圈是许多电气和电子系统中一种多功能且必不可少的组件。它生成磁场和促进能量传输的能力在从变压器到电动机甚至无线充电技术等应用中都是关键的。随着我们在电气工程领域的不断进步，重复线圈的重要性无疑将继续突出，为技术的进一步创新和改进铺平道路。理解这一组件的复杂性不仅加深了我们对电气系统的知识，还突显了塑造现代世界的各种技术之间的相互联系。