pancake winding

简明释义

饼形绕组

英英释义

例句

1.The pancake winding technique allows for better thermal management in transformers.

这种盘式绕组技术可以改善变压器的热管理。

2.In our project, we decided to implement pancake winding to improve efficiency.

在我们的项目中，我们决定实施盘式绕组以提高效率。

3.Using pancake winding can significantly reduce the overall weight of the device.

使用盘式绕组可以显著减轻设备的整体重量。

4.When designing the coil, we opted for pancake winding due to its low profile.

在设计线圈时，我们选择了盘式绕组，因为它的高度较低。

5.The engineer explained that the motor uses pancake winding for its compact design.

工程师解释说，这个电机采用了盘式绕组以实现其紧凑的设计。

作文

In the world of electrical engineering, efficient design and functionality are paramount. One of the critical components that engineers often encounter is the winding of coils, particularly in transformers and motors. Among various winding techniques, pancake winding has gained popularity due to its unique structure and benefits. This method involves arranging the wire in a flat, circular pattern, resembling a stack of pancakes. The primary advantage of pancake winding is its ability to minimize the space occupied by the coil while maximizing the surface area for heat dissipation. This characteristic is essential in applications where overheating can lead to significant performance issues or even failures.The pancake winding technique allows for a more compact design, which is particularly advantageous in modern devices where space is at a premium. For instance, in electric vehicles and portable electronics, engineers strive to create smaller, lighter components without sacrificing power or efficiency. By employing pancake winding, designers can achieve these goals while ensuring that the electromagnetic properties of the coil remain intact.Moreover, the manufacturing process of pancake winding is relatively straightforward, allowing for mass production and consistent quality. The winding can be done using automated machines that precisely layer the wire, reducing the chances of human error. This automation not only speeds up production but also lowers costs, making it an attractive option for manufacturers.Another significant benefit of pancake winding is its effectiveness in reducing electromagnetic interference (EMI). In densely packed electronic devices, EMI can disrupt the operation of sensitive components. The flat configuration of pancake winding helps to shield the coil from external electromagnetic fields, thereby improving the overall reliability of the device.Despite its advantages, pancake winding is not without its challenges. The technique requires precise control over the winding process to ensure uniformity and avoid issues such as uneven tension or overlapping wires. Engineers must also consider the insulation between layers to prevent short circuits, especially in high-voltage applications. Therefore, while pancake winding offers many benefits, careful planning and execution are necessary to fully realize its potential.In conclusion, pancake winding is a valuable technique in the field of electrical engineering that provides numerous advantages, including compactness, ease of manufacturing, and reduced electromagnetic interference. As technology continues to advance and the demand for smaller, more efficient components grows, the relevance of pancake winding will likely increase. Engineers must continue to innovate and refine this technique to meet the evolving needs of the industry, ensuring that devices are not only powerful but also reliable and efficient. Understanding and mastering pancake winding will undoubtedly play a crucial role in the future of electrical design and engineering.

在电气工程的世界中，设计和功能的效率至关重要。工程师经常遇到的关键组件之一是线圈的绕组，特别是在变压器和电动机中。在各种绕组技术中，煎饼绕组因其独特的结构和优点而越来越受欢迎。这种方法涉及将导线以扁平的圆形模式排列，类似于一叠煎饼。煎饼绕组的主要优势在于它能够最小化线圈所占的空间，同时最大化散热的表面积。这一特性在过热可能导致显著性能问题甚至故障的应用中至关重要。煎饼绕组技术允许更紧凑的设计，这在现代设备中尤其有利，因为空间非常有限。例如，在电动汽车和便携式电子设备中，工程师努力创造更小、更轻的组件，而不牺牲功率或效率。通过采用煎饼绕组，设计师可以实现这些目标，同时确保线圈的电磁特性保持不变。此外，煎饼绕组的制造过程相对简单，允许大规模生产和一致的质量。绕组可以使用自动化机器进行，精确地分层导线，从而减少人为错误的可能性。这种自动化不仅加快了生产速度，还降低了成本，使其成为制造商的一个有吸引力的选择。煎饼绕组的另一个显著好处是其有效减少电磁干扰（EMI）的能力。在密集的电子设备中，EMI可能会干扰敏感组件的操作。煎饼绕组的扁平配置有助于屏蔽线圈免受外部电磁场的影响，从而提高设备的整体可靠性。尽管有其优点，煎饼绕组并非没有挑战。这项技术需要对绕组过程进行精确控制，以确保均匀性并避免诸如张力不均或导线重叠等问题。工程师还必须考虑层间的绝缘，以防止短路，尤其是在高压应用中。因此，虽然煎饼绕组提供了许多好处，但仔细的规划和执行对于充分实现其潜力是必要的。总之，煎饼绕组是电气工程领域的一项宝贵技术，提供了许多优点，包括紧凑性、制造便利性和减少电磁干扰。随着技术的不断进步和对更小、更高效组件的需求增长，煎饼绕组的相关性可能会增加。工程师必须继续创新和完善这一技术，以满足行业不断发展的需求，确保设备不仅强大，而且可靠和高效。理解和掌握煎饼绕组无疑将在电气设计和工程的未来中发挥至关重要的作用。