parallel winding

简明释义

并联绕组并联绕法

英英释义

例句

1.We found that parallel winding (并联绕组) helps in balancing the load across the coils.

我们发现并联绕组有助于在绕组之间平衡负载。

2.The design of the transformer includes parallel winding (并联绕组) for better performance.

变压器的设计包括并联绕组以提高性能。

3.The motor operates more efficiently with a parallel winding (并联绕组) configuration.

这种电机在使用并联绕组配置时效率更高。

4.Using parallel winding (并联绕组) can reduce the overall resistance in the circuit.

使用并联绕组可以降低电路的整体电阻。

5.In our experiment, we tested the effects of parallel winding (并联绕组) on the magnetic field strength.

在我们的实验中，我们测试了并联绕组对磁场强度的影响。

作文

In the field of electrical engineering, the concept of parallel winding plays a crucial role in the design and functionality of various electrical machines. Parallel winding refers to a method where multiple coils or windings are connected alongside each other, allowing for the distribution of electrical current across these coils. This technique is particularly significant in transformers and electric motors, where efficiency and performance are paramount.The primary advantage of parallel winding is that it enables the sharing of the load among multiple windings. When windings are arranged in parallel, the total current flowing through the system can be divided, reducing the overall resistance and improving the efficiency of the device. For instance, in a transformer, parallel winding allows for better voltage regulation and minimizes losses due to heat generation. This is particularly important in high-power applications where maintaining efficiency is essential to prevent overheating and potential damage to the equipment.Another key benefit of parallel winding is its ability to enhance the reliability of electrical systems. In scenarios where one winding may fail or experience a fault, the remaining windings can continue to operate, ensuring that the system remains functional. This redundancy is vital in critical applications such as power generation and distribution, where downtime can lead to significant economic losses and safety hazards.Moreover, parallel winding can also facilitate the design of more compact and lightweight electrical machines. By utilizing multiple smaller windings instead of a single large one, engineers can optimize the space within the machine while still achieving the desired performance levels. This is particularly advantageous in modern applications where size and weight constraints are prevalent, such as in electric vehicles and portable electronic devices.However, it is essential to consider the challenges associated with parallel winding. One of the main concerns is the balancing of currents between the different windings. If the windings are not perfectly matched in terms of resistance and inductance, it can lead to uneven current distribution, which may cause overheating and reduced lifespan of the components. Therefore, careful design and testing are required to ensure that the windings are appropriately balanced and operate efficiently together.In conclusion, parallel winding is a fundamental concept in electrical engineering that offers numerous advantages, including improved efficiency, enhanced reliability, and compact designs. As technology continues to advance, the application of parallel winding will likely expand, leading to even more innovative solutions in the field of electrical machinery. Understanding this concept is essential for engineers and technicians working in the industry, as it directly impacts the performance and longevity of electrical systems. Embracing the principles of parallel winding can pave the way for more efficient and reliable electrical solutions in the future.

在电气工程领域，并联绕组的概念在各种电气机器的设计和功能中起着至关重要的作用。并联绕组是指多圈或绕组并排连接在一起，以便在这些线圈之间分配电流。这种技术在变压器和电动机中尤为重要，因为效率和性能至关重要。并联绕组的主要优点是能够使多个绕组之间共享负载。当绕组以并联方式排列时，流经系统的总电流可以被分配，从而降低整体电阻，提高设备的效率。例如，在变压器中，并联绕组可以实现更好的电压调节，并最小化由于发热而造成的损耗。这在高功率应用中尤其重要，因为保持效率对于防止过热和潜在设备损坏至关重要。另一个并联绕组的关键好处是增强电气系统的可靠性。在一个绕组可能发生故障或出现故障的情况下，其余绕组仍然可以继续工作，确保系统保持功能。这种冗余在发电和配电等关键应用中至关重要，因为停机可能导致重大经济损失和安全隐患。此外，并联绕组还可以促进更紧凑和轻便的电气机器的设计。通过利用多个较小的绕组而不是单个大型绕组，工程师可以优化机器内部的空间，同时仍然达到所需的性能水平。这在现代应用中尤其具有优势，因为尺寸和重量限制普遍存在，例如在电动车辆和便携式电子设备中。然而，必须考虑与并联绕组相关的挑战。主要问题之一是不同绕组之间电流的平衡。如果绕组在电阻和电感方面没有完美匹配，可能会导致不均匀的电流分布，从而引起过热和组件使用寿命缩短。因此，需要仔细的设计和测试，以确保绕组适当平衡，并有效地一起运行。总之，并联绕组是电气工程中的一个基本概念，提供了许多优点，包括提高效率、增强可靠性和紧凑设计。随着技术的不断进步，并联绕组的应用可能会扩大，导致电气机械领域出现更多创新解决方案。理解这一概念对于在行业内工作的工程师和技术人员至关重要，因为它直接影响电气系统的性能和寿命。接受并联绕组的原则可以为未来更高效、更可靠的电气解决方案铺平道路。