series winding

简明释义

串联绕组串联绕法

英英释义

例句

1.When troubleshooting the motor, check the series winding (串绕组) for any signs of damage.

在排查电动机故障时，检查串绕组是否有损坏迹象。

2.The design of the generator includes a series winding (串绕组) to improve voltage stability.

发电机的设计包括一个串绕组以提高电压稳定性。

3.The motor operates efficiently due to its series winding (串绕组) configuration, which enhances torque.

由于其串绕组配置，电动机高效运行，增强了扭矩。

4.In applications requiring high starting torque, a series winding (串绕组) is often preferred.

在需要高起始扭矩的应用中，通常优先选择串绕组。

5.For DC motors, series winding (串绕组) allows for better performance under varying load conditions.

对于直流电动机，串绕组在不同负载条件下允许更好的性能。

作文

In the realm of electrical engineering, the term series winding refers to a specific configuration of coils in an electric machine, such as a motor or generator. This arrangement is crucial for determining how the machine operates and interacts with electrical circuits. To understand the significance of series winding, we must delve into its functionality and applications.When we talk about series winding, we are essentially discussing how the windings of a coil are connected in a series configuration. In this setup, the output from one coil feeds directly into the next, creating a single path for the current to flow. This design contrasts with parallel winding, where multiple paths exist for current to travel. The choice between these configurations can significantly impact the performance characteristics of the machine.One of the primary advantages of series winding is that it allows for higher voltage outputs. When coils are connected in series, the voltages across each coil add up, resulting in a greater total voltage. This feature makes series winding particularly useful in applications where high voltage is necessary, such as in certain types of generators used in power plants.Moreover, series winding is commonly used in DC motors, especially in applications requiring high starting torque. Since the current through the windings is the same, the torque produced is proportional to the current. As a result, when the motor starts, it can draw a large amount of current, generating significant torque to overcome inertia. This characteristic is beneficial in scenarios like electric trains or cranes, where heavy loads must be moved.However, there are also some drawbacks to using series winding. One major concern is that if one coil in the series fails, the entire circuit can become inoperative. This susceptibility to failure can pose challenges in reliability and maintenance. Additionally, series winding can lead to issues with speed control in motors, as increasing the load can cause the motor to slow down significantly, which may not be ideal in all situations.In contrast, parallel winding configurations can provide more stable performance under varying loads. Therefore, engineers must carefully consider the specific requirements of their applications when choosing between series winding and other winding types.In conclusion, the concept of series winding is fundamental in electrical engineering, particularly concerning the operation of motors and generators. Its ability to produce high voltage and generate significant starting torque makes it an invaluable tool in many industrial applications. However, understanding the limitations and potential issues associated with series winding is equally important for engineers to ensure optimal performance and reliability in their designs. As technology continues to evolve, the principles behind series winding will remain integral to the development of efficient and effective electrical machines.

在电气工程领域，短语串联绕组指的是电机（如电动机或发电机）中线圈的特定配置。这种排列对于确定机器的工作方式及其与电路的互动至关重要。要理解串联绕组的重要性，我们必须深入探讨其功能和应用。当我们谈论串联绕组时，实际上是在讨论线圈的绕组如何以串联配置连接。在这种设置中，一个线圈的输出直接馈送到下一个线圈，形成一个单一的电流流动路径。这种设计与并联绕组形成对比，在并联绕组中，电流可以通过多个路径流动。选择这两种配置之间的差异可能会显著影响机器的性能特征。串联绕组的主要优点之一是它允许更高的电压输出。当线圈串联连接时，每个线圈上的电压相加，从而产生更大的总电压。这一特性使得串联绕组在某些需要高电压的应用中尤为有用，例如在发电厂使用的某些类型的发电机中。此外，串联绕组常用于直流电动机，特别是在需要高起动扭矩的应用中。由于流过绕组的电流是相同的，因此产生的扭矩与电流成正比。因此，当电动机启动时，它可以吸取大量电流，产生显著的扭矩以克服惯性。这一特性在电动火车或起重机等场景中非常有利，因为这些场合需要移动重载。然而，使用串联绕组也存在一些缺点。一个主要的问题是，如果串联中的一个线圈发生故障，整个电路可能会失效。这种对故障的敏感性可能会给可靠性和维护带来挑战。此外，串联绕组在电动机的速度控制方面可能会导致问题，因为增加负载可能会导致电动机显著减速，这在某些情况下可能不是理想的。相比之下，并联绕组配置可以在负载变化时提供更稳定的性能。因此，工程师在选择串联绕组和其他绕组类型时，必须仔细考虑他们应用的具体要求。总之，串联绕组的概念在电气工程中是基础性的，特别是在电动机和发电机的操作方面。其产生高电压和显著起动扭矩的能力使其在许多工业应用中成为无价的工具。然而，理解与串联绕组相关的局限性和潜在问题，对于工程师确保其设计的最佳性能和可靠性同样重要。随着技术的不断发展，串联绕组背后的原理将继续是高效和有效电气机器发展的核心。