shunt wound coil
简明释义
并励线圈
英英释义
例句
1.During maintenance, the technician checked the shunt wound coil (分流绕组线圈) for any signs of wear.
在维护过程中,技术人员检查了shunt wound coil(分流绕组线圈)是否有磨损迹象。
2.The shunt wound coil (分流绕组线圈) is essential for providing a stable field current in DC motors.
shunt wound coil(分流绕组线圈)对提供直流电动机中的稳定场电流至关重要。
3.The shunt wound coil (分流绕组线圈) configuration allows for better voltage regulation in the system.
shunt wound coil(分流绕组线圈)配置允许系统中更好的电压调节。
4.The engineer explained that the performance of the motor could be improved by using a shunt wound coil (分流绕组线圈).
工程师解释说,通过使用
5.In the design of the generator, we opted for a shunt wound coil (分流绕组线圈) to enhance stability.
在发电机的设计中,我们选择了
作文
In the field of electrical engineering, various components play crucial roles in the functioning of circuits and devices. One such component is the shunt wound coil, which is widely used in different applications, particularly in generators and motors. Understanding the concept of a shunt wound coil is essential for anyone looking to delve deeper into the world of electromagnetism and electrical machinery.A shunt wound coil is a type of winding configuration that is often found in DC machines. It consists of two main types of windings: the series winding and the shunt winding. The shunt winding is connected in parallel with the load, while the series winding is connected in series with the armature. This configuration allows for better voltage regulation and improved performance under varying load conditions.The primary advantage of using a shunt wound coil is its ability to maintain a relatively constant voltage output. This is particularly important in applications where stable voltage is required for sensitive electronic devices. For instance, in a generator, the shunt wound coil helps to regulate the output voltage by adjusting the current flowing through the field winding. As the load increases, the current in the shunt winding decreases, which in turn reduces the magnetic field strength and stabilizes the output voltage.Moreover, the shunt wound coil configuration allows for a more efficient operation of the machine. Since the shunt winding is connected in parallel, it does not significantly affect the overall current flowing through the armature. This means that the machine can operate at higher efficiency levels, reducing energy losses and improving performance.Another important aspect of the shunt wound coil is its role in the starting process of motors. When an electric motor is started, a high starting current is required to overcome inertia. The shunt winding provides a path for this current, allowing the motor to start smoothly without drawing excessive power from the supply. Once the motor reaches its operating speed, the shunt winding helps to maintain a stable current, ensuring efficient operation.In conclusion, the shunt wound coil is a vital component in many electrical machines, providing stability, efficiency, and reliability. Its unique winding configuration allows for effective voltage regulation and contributes to the overall performance of generators and motors. Understanding how a shunt wound coil works and its benefits can greatly enhance one’s knowledge of electrical engineering principles and practices. As technology continues to advance, the importance of such components will only grow, making it essential for future engineers to familiarize themselves with these concepts.
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。其中一个组件是分流绕组线圈,它广泛应用于不同的领域,特别是在发电机和电动机中。理解分流绕组线圈的概念对于任何想要深入了解电磁学和电气机械的人来说都是必不可少的。分流绕组线圈是一种常见的绕组配置,通常出现在直流机器中。它由两种主要的绕组类型组成:串联绕组和并联绕组。并联绕组与负载并联连接,而串联绕组则与电枢串联连接。这种配置允许在不同负载条件下实现更好的电压调节和改善性能。使用分流绕组线圈的主要优点是它能够保持相对恒定的电压输出。这在需要稳定电压以供敏感电子设备使用的应用中尤为重要。例如,在发电机中,分流绕组线圈通过调整流经励磁绕组的电流来帮助调节输出电压。随着负载的增加,分流绕组中的电流会减少,从而降低磁场强度,稳定输出电压。此外,分流绕组线圈配置可以提高机器的整体运行效率。由于分流绕组是并联连接的,它不会显著影响流经电枢的总电流。这意味着机器可以在更高的效率水平下运行,减少能量损失,提高性能。分流绕组线圈的另一个重要方面是它在电动机启动过程中的作用。当电动机启动时,需要高启动电流来克服惯性。分流绕组为这种电流提供了一条路径,使电动机能够平稳启动,而不会从电源抽取过多的功率。一旦电动机达到其工作速度,分流绕组有助于维持稳定的电流,确保高效运行。总之,分流绕组线圈是许多电气机器中的重要组件,提供稳定性、效率和可靠性。其独特的绕组配置允许有效的电压调节,并有助于发电机和电动机的整体性能。理解分流绕组线圈的工作原理及其优点可以大大增强人们对电气工程原理和实践的知识。随着技术的不断进步,这些组件的重要性只会增加,因此未来的工程师熟悉这些概念是至关重要的。
相关单词
