direct-current winding

简明释义

直流绕组

英英释义

例句

1.A well-designed direct-current winding 直流绕组 can lead to reduced energy losses.

设计良好的直流绕组 direct-current winding可以减少能量损失。

2.In our new design, we incorporated a direct-current winding 直流绕组 to enhance performance.

在我们的新设计中，我们加入了一个直流绕组 direct-current winding以增强性能。

3.When troubleshooting the generator, we found that the direct-current winding 直流绕组 was damaged.

在排查发电机故障时，我们发现直流绕组 direct-current winding损坏了。

4.The direct-current winding 直流绕组 allows for smoother operation in electric vehicles.

在电动车中，直流绕组 direct-current winding可以实现更平稳的运行。

5.The efficiency of the motor is significantly improved by using a direct-current winding 直流绕组 instead of an alternating current one.

使用直流绕组 direct-current winding而不是交流绕组，电动机的效率显著提高。

作文

In the realm of electrical engineering, understanding various components and their functions is crucial for the design and operation of efficient systems. One such component that plays a significant role in the functioning of electrical machines is the direct-current winding. The direct-current winding refers to the arrangement of conducting wire in a motor or generator that facilitates the flow of direct current (DC) electricity. This type of winding is essential for converting electrical energy into mechanical energy in motors or vice versa in generators. The importance of direct-current winding can be observed in various applications, from small household appliances to large industrial machinery. In a simple DC motor, the direct-current winding is responsible for creating a magnetic field when an electric current passes through it. This magnetic field interacts with permanent magnets or other windings within the motor, resulting in rotational motion. Without the appropriate design and implementation of direct-current winding, the efficiency and performance of the motor would be severely compromised.Moreover, the configuration of the direct-current winding significantly affects the characteristics of the motor. For instance, the number of turns in the winding, the gauge of the wire, and the way the winding is arranged can all influence the torque, speed, and overall efficiency of the machine. Engineers must carefully consider these factors when designing a system that incorporates direct-current winding to ensure optimal performance.In addition to motors, direct-current winding is also utilized in generators, where mechanical energy is converted back into electrical energy. In this context, the direct-current winding serves as the means by which the generated current is extracted. The efficiency of energy conversion in generators greatly depends on the design of the direct-current winding, as it determines how effectively the magnetic field interacts with the rotor. A well-designed winding can lead to higher output voltage and reduced losses, making it a critical aspect of generator design.Furthermore, advancements in technology have led to innovations in direct-current winding techniques. For example, modern materials and manufacturing processes allow for more compact and efficient windings, contributing to the development of smaller and more powerful motors and generators. Additionally, the integration of electronic controls with direct-current winding systems has enabled enhanced performance and adaptability in various applications, such as electric vehicles and renewable energy systems.In conclusion, the concept of direct-current winding is fundamental to the understanding of electrical machines. Its role in both motors and generators highlights its significance in energy conversion processes. As technology continues to evolve, so too will the methods and materials used in direct-current winding, leading to even greater efficiencies and capabilities in electrical engineering. Therefore, a thorough grasp of direct-current winding is essential for anyone looking to excel in the field of electrical engineering, as it underpins many of the systems we rely on today.

在电气工程领域，理解各种组件及其功能对于设计和操作高效系统至关重要。一个在电气机器运行中发挥重要作用的组件是直流绕组。直流绕组指的是在电动机或发电机中布置的导线，促进直流电（DC）电流的流动。这种类型的绕组对于在电动机中将电能转换为机械能或在发电机中反之亦然是必不可少的。直流绕组的重要性可以在从小型家用电器到大型工业机械的各种应用中观察到。在简单的直流电动机中，直流绕组负责在电流通过时产生磁场。这个磁场与电动机内部的永久磁铁或其他绕组相互作用，导致旋转运动。如果没有适当设计和实施的直流绕组，电动机的效率和性能将受到严重影响。此外，直流绕组的配置显著影响电动机的特性。例如，绕组的圈数、导线的规格以及绕组的排列方式都会影响机器的扭矩、速度和整体效率。工程师在设计包含直流绕组的系统时，必须仔细考虑这些因素，以确保最佳性能。除了电动机，直流绕组也被用于发电机，在发电机中，机械能被转换回电能。在这种情况下，直流绕组作为提取生成电流的手段。发电机中能量转换的效率在很大程度上取决于直流绕组的设计，因为它决定了磁场与转子之间的相互作用效率。设计良好的绕组可以导致更高的输出电压和减少损失，使其成为发电机设计的关键方面。此外，技术的进步导致了直流绕组技术的创新。例如，现代材料和制造工艺允许更紧凑和高效的绕组，有助于开发更小且更强大的电动机和发电机。此外，电子控制与直流绕组系统的集成使得各种应用（如电动车和可再生能源系统）的性能和适应性得到增强。总之，直流绕组的概念是理解电气机器的基础。它在电动机和发电机中的作用突显了其在能量转换过程中的重要性。随着技术的不断发展，用于直流绕组的方法和材料也将不断演变，从而在电气工程中实现更大的效率和能力。因此，深入掌握直流绕组对于任何希望在电气工程领域取得成功的人来说都是必不可少的，因为它支撑着我们今天依赖的许多系统。