shunt winding

简明释义

并激绕组;并激绕法

英英释义

例句

1.The generator's performance can be improved by adjusting the shunt winding.

通过调整并联绕组，可以改善发电机的性能。

2.In a DC motor, the shunt winding provides a constant field strength.

在直流电动机中，并联绕组提供恒定的磁场强度。

3.The shunt winding helps stabilize the voltage in the system.

并联绕组有助于稳定系统中的电压。

4.The shunt winding is connected parallel to the armature in a shunt generator.

并联绕组与发电机的电枢并联连接。

5.By increasing the number of turns in the shunt winding, we can enhance voltage output.

通过增加并联绕组的匝数，我们可以增强电压输出。

作文

In the realm of electrical engineering, understanding various components and their functions is vital for anyone aspiring to excel in this field. One such component that plays a crucial role in the operation of electric machines is the shunt winding. The term shunt winding refers to a specific type of winding used in electrical machines, particularly in generators and motors. It is connected in parallel with the armature winding, allowing it to provide a path for the current that bypasses the main load. This design is essential for regulating the voltage output of the machine and ensuring its efficient performance.The significance of shunt winding can be observed in shunt-wound DC motors, where the winding is connected across the armature. This configuration allows the motor to maintain a relatively constant speed under varying load conditions. When the load increases, the armature current rises, but the effect on the shunt winding helps stabilize the motor's speed. This characteristic makes shunt-wound motors particularly useful in applications where consistent speed is essential, such as in conveyor systems or fans.Moreover, the shunt winding also plays a pivotal role in the overall efficiency of electrical machines. By providing feedback to the system, it helps in maintaining the desired operational parameters. For instance, in a generator, the shunt winding facilitates the production of a stable output voltage despite fluctuations in load demand. This stability is crucial for powering sensitive electronic devices that require a consistent voltage supply.From a technical perspective, the shunt winding is designed with a specific number of turns and wire gauge to achieve the desired resistance and inductance. The choice of materials and construction techniques also influences the performance of the winding. Engineers must carefully consider these factors to optimize the efficiency of the machine.In addition to its functional benefits, understanding the concept of shunt winding also enhances one's comprehension of electrical theory. It illustrates the principles of parallel circuits and the distribution of current within an electrical system. By studying shunt winding, students and professionals can better grasp the relationships between voltage, current, and resistance, which are fundamental concepts in electrical engineering.In conclusion, the shunt winding is an integral component of many electrical machines, contributing to their functionality and efficiency. Its ability to regulate voltage and stabilize performance under varying loads makes it indispensable in the design of reliable electrical systems. As technology continues to advance, the importance of understanding components like shunt winding will only grow, emphasizing the need for ongoing education and exploration in the field of electrical engineering. By mastering such concepts, aspiring engineers can equip themselves with the knowledge necessary to innovate and improve upon existing technologies, paving the way for future advancements in the industry.

在电气工程领域，理解各种组件及其功能对任何希望在该领域取得成功的人来说都是至关重要的。其中一个在电动机和发电机的运行中起着关键作用的组件是分流绕组。术语分流绕组指的是一种特定类型的绕组，主要用于电气机器中，尤其是在发电机和电动机中。它与电枢绕组并联连接，使其能够为绕过主负载的电流提供路径。这种设计对于调节机器的电压输出和确保其高效性能至关重要。在串激直流电动机中，可以观察到分流绕组的重要性，因为该绕组是与电枢并联连接的。这种配置使得电动机在负载条件变化时能够保持相对恒定的速度。当负载增加时，电枢电流上升，但分流绕组的影响有助于稳定电动机的速度。这一特性使得串激电动机在需要恒定速度的应用中尤为有用，例如在输送系统或风扇中。此外，分流绕组在电气机器的整体效率中也发挥着关键作用。通过向系统提供反馈，它有助于维持所需的操作参数。例如，在发电机中，分流绕组促进了在负载需求波动的情况下产生稳定的输出电压。这种稳定性对于为需要一致电压供应的敏感电子设备供电至关重要。从技术角度来看，分流绕组的设计具有特定数量的圈数和线规，以实现所需的电阻和电感。材料和构造技术的选择也会影响绕组的性能。工程师必须仔细考虑这些因素，以优化机器的效率。除了功能性优势外，理解分流绕组的概念还增强了人们对电气理论的理解。它阐明了并联电路的原理以及电气系统中电流的分布。通过研究分流绕组，学生和专业人员可以更好地掌握电压、电流和电阻之间的关系，这些都是电气工程的基本概念。总之，分流绕组是许多电气机器的一个重要组成部分，促进了它们的功能性和效率。它调节电压和在不同负载下稳定性能的能力使其在可靠电气系统设计中不可或缺。随着技术的不断进步，理解像分流绕组这样的组件的重要性只会增加，强调了在电气工程领域持续教育和探索的必要性。通过掌握这些概念，有抱负的工程师可以为自己装备必要的知识，以创新和改善现有技术，为行业的未来进步铺平道路。