electric interfering field

简明释义

干扰电场

英英释义

例句

1.To minimize the impact of the electric interfering field 电干扰场, we need to install better shielding around the equipment.

为了最小化 电干扰场 电干扰场 的影响，我们需要在设备周围安装更好的屏蔽。

2.Researchers are studying the effects of the electric interfering field 电干扰场 on electronic devices.

研究人员正在研究 电干扰场 电干扰场 对电子设备的影响。

3.Understanding the characteristics of the electric interfering field 电干扰场 is essential for improving wireless technology.

理解 电干扰场 电干扰场 的特性对于改善无线技术至关重要。

4.The presence of an electric interfering field 电干扰场 can lead to inaccurate readings in sensitive instruments.

在敏感仪器中，电干扰场 电干扰场 的存在可能导致不准确的读数。

5.The technician explained how the electric interfering field 电干扰场 can disrupt communication signals in urban areas.

技术人员解释了如何在城市地区，电干扰场 电干扰场 可能会干扰通信信号。

作文

In the realm of physics and electrical engineering, the concept of an electric interfering field plays a crucial role in understanding how electric fields interact with one another. An electric interfering field refers to the disturbance or alteration of an existing electric field due to the presence of another electric field. This phenomenon is particularly significant in the design and functioning of various electronic devices, where multiple electric fields can coexist and influence each other's behavior.To illustrate this concept, consider the case of two parallel plates charged with opposite polarities. Each plate generates its own electric field, which extends into the space surrounding it. When these plates are brought close together, their electric interfering fields interact. The resultant field in the region between the plates is not simply the sum of the individual fields; instead, it is a complex combination that can lead to enhanced or diminished electric potential in certain areas.Understanding electric interfering fields is essential for engineers who design circuits and other electronic components. For instance, in densely packed circuit boards, the proximity of multiple components creates numerous electric interfering fields. These interactions can lead to issues such as crosstalk, where signals intended for one circuit inadvertently affect another. By analyzing and managing these fields, engineers can optimize the performance of their designs, ensuring that devices operate efficiently without interference.Moreover, the concept of electric interfering fields extends beyond just electronics. In telecommunications, for example, the transmission of signals through various media can be affected by the presence of other electric fields. This interference can degrade signal quality, leading to data loss or corruption. Therefore, understanding how to mitigate the effects of electric interfering fields is vital for maintaining the integrity of communication systems.In practical applications, there are several methods to minimize the impact of electric interfering fields. Shielding is one common technique, where conductive materials are used to block or redirect electric fields away from sensitive components. Additionally, proper grounding and layout design can help reduce the coupling between different electric fields, thereby minimizing interference.In conclusion, the study of electric interfering fields is integral to both theoretical and practical aspects of electrical engineering. As technology continues to advance, the ability to understand and manipulate these fields will be increasingly important. Engineers must remain vigilant in their efforts to manage the interactions between electric fields to ensure the reliability and efficiency of modern electronic devices and communication systems. Through careful analysis and innovative design, the challenges posed by electric interfering fields can be effectively addressed, paving the way for future advancements in technology.

在物理学和电气工程领域，电干扰场的概念在理解电场如何相互作用方面起着至关重要的作用。电干扰场指的是由于另一个电场的存在而对现有电场的干扰或改变。这一现象在各种电子设备的设计和功能中尤为重要，因为多个电场可以共存并相互影响。为了说明这一概念，考虑两个带有相反极性的平行板的情况。每个板都会产生自己的电场，该电场扩展到周围的空间。当这些板靠近时，它们的电干扰场会相互作用。板之间区域的结果场不仅仅是各个场的总和；相反，它是一个复杂的组合，可能导致某些区域的电势增强或减弱。理解电干扰场对于设计电路和其他电子元件的工程师至关重要。例如，在密集的电路板中，多个组件的接近会产生众多电干扰场。这些相互作用可能导致诸如串扰等问题，即意图传递给一个电路的信号无意中影响另一个电路。通过分析和管理这些场，工程师可以优化设计的性能，确保设备高效运行而不受干扰。此外，电干扰场的概念不仅限于电子产品。在电信中，例如，通过各种介质传输信号可能受到其他电场的影响。这种干扰可能降低信号质量，导致数据丢失或损坏。因此，理解如何减轻电干扰场的影响对于维护通信系统的完整性至关重要。在实际应用中，有几种方法可以最小化电干扰场的影响。屏蔽是一种常见的技术，使用导电材料来阻挡或引导电场远离敏感组件。此外，适当的接地和布局设计可以帮助减少不同电场之间的耦合，从而最小化干扰。总之，研究电干扰场对于电气工程的理论和实践方面都是不可或缺的。随着技术的不断进步，理解和操控这些场的能力将变得愈发重要。工程师必须保持警惕，努力管理电场之间的相互作用，以确保现代电子设备和通信系统的可靠性和效率。通过仔细的分析和创新的设计，可以有效应对电干扰场带来的挑战，为未来的技术进步铺平道路。