electrical interference

简明释义

电气干扰

英英释义

例句

1.The technician diagnosed the problem as electrical interference affecting the signal, known as 电气干扰.

技术人员诊断出问题是由于影响信号的电气干扰。

2.We need to check for electrical interference in the laboratory equipment to ensure accurate results, meaning 电气干扰.

我们需要检查实验室设备中的电气干扰以确保结果准确。

3.The radio reception was poor due to electrical interference, which can be translated as 电气干扰.

由于电气干扰，收音机接收效果很差。

4.The flickering lights were a sign of electrical interference from nearby machinery, referred to as 电气干扰.

闪烁的灯光是附近机器产生的电气干扰的迹象。

5.To avoid electrical interference, we installed shielded cables, which means 电气干扰.

为了避免电气干扰，我们安装了屏蔽电缆。

作文

In our increasingly technology-driven world, the concept of electrical interference has become a significant concern for both consumers and manufacturers. Electrical interference (电气干扰) refers to the disruption of electrical signals due to the presence of unwanted electromagnetic fields. This phenomenon can affect various devices, ranging from simple household appliances to complex communication systems. Understanding electrical interference is essential for ensuring the proper functioning of electronic devices and maintaining the quality of communications in our daily lives.One of the most common sources of electrical interference is radio frequency interference (RFI). This occurs when radio waves from one device interfere with the signals of another device. For instance, if you have a radio playing near a television set, you may notice that the sound quality of the radio diminishes or becomes distorted. This is a direct result of electrical interference (电气干扰) from the television's electromagnetic fields affecting the radio's reception.Another important type of electrical interference is electromagnetic interference (EMI), which can be caused by various electronic devices, including computers, microwaves, and fluorescent lights. EMI can lead to signal degradation, resulting in poor performance of electronic devices. For example, a computer may experience glitches or crashes if it is located near a source of strong EMI. This can be particularly problematic in environments where precision is critical, such as hospitals and laboratories, where sensitive equipment must operate without interruption.To mitigate the effects of electrical interference, engineers and designers employ various strategies. Shielding is one common method used to protect sensitive electronic components from interference. By enclosing these components in conductive materials, the electromagnetic fields are blocked, reducing the risk of electrical interference (电气干扰). Additionally, proper grounding techniques can help dissipate unwanted electrical charges, further minimizing the potential for interference.Another approach is the use of filters, which can selectively allow certain frequencies to pass while blocking others. This is particularly useful in communication systems, where clear signal transmission is crucial. By implementing filtering techniques, engineers can significantly reduce the impact of electrical interference, thereby enhancing the overall performance of the system.In our everyday lives, we often encounter situations where electrical interference plays a role. For example, when using a smartphone in a crowded area, you may experience dropped calls or poor connectivity. This can be attributed to the multitude of signals competing for the same bandwidth, leading to electrical interference (电气干扰). Understanding this concept can help users appreciate the complexities of modern communication technology and the challenges that engineers face in creating reliable devices.Moreover, as technology continues to evolve, the potential for electrical interference will likely increase. With the rise of the Internet of Things (IoT), more devices are becoming interconnected, leading to a greater demand for effective interference management. It is crucial for manufacturers to prioritize the design of devices that are resilient to electrical interference (电气干扰) to ensure seamless operation in an increasingly crowded electromagnetic environment.In conclusion, electrical interference is a vital concept that impacts the functionality of electronic devices and communication systems. By understanding its causes and effects, as well as the methods employed to mitigate it, we can better appreciate the technology that surrounds us. As we move forward in this digital age, addressing electrical interference (电气干扰) will be essential for the continued advancement of technology and the enhancement of our daily lives.

在我们日益依赖技术的世界中，电气干扰的概念已成为消费者和制造商的重要关注点。电气干扰（electrical interference）是指由于存在不必要的电磁场而导致的电信号中断。这种现象可以影响各种设备，从简单的家用电器到复杂的通信系统。理解电气干扰对于确保电子设备的正常运行和维护我们日常生活中的通信质量至关重要。最常见的电气干扰来源之一是无线电频率干扰（RFI）。当一个设备的无线电波干扰另一个设备的信号时，就会发生这种情况。例如，如果您在电视机附近播放收音机，您可能会注意到收音机的音质下降或失真。这是由于电视机的电磁场对收音机的接收产生了电气干扰（electrical interference）的直接结果。另一种重要的电气干扰是电磁干扰（EMI），它可以由各种电子设备引起，包括计算机、微波炉和荧光灯。EMI可能导致信号降级，从而导致电子设备性能不佳。例如，如果计算机位于强电磁干扰源附近，可能会出现故障或崩溃。这在医院和实验室等环境中尤其成问题，因为这些地方的敏感设备必须无干扰地运行。为了减轻电气干扰的影响，工程师和设计师采用各种策略。屏蔽是保护敏感电子元件免受干扰的常见方法。通过将这些元件封闭在导电材料中，可以阻挡电磁场，从而降低电气干扰（electrical interference）的风险。此外，正确的接地技术可以帮助消散不必要的电荷，进一步减少干扰的潜在性。另一种方法是使用滤波器，滤波器可以选择性地允许某些频率通过，同时阻止其他频率。这在通信系统中特别有用，因为清晰的信号传输至关重要。通过实施滤波技术，工程师可以显著减少电气干扰的影响，从而增强系统的整体性能。在我们的日常生活中，我们经常遇到电气干扰发挥作用的情况。例如，当在拥挤的地方使用智能手机时，您可能会经历通话中断或连接不良。这可以归因于大量信号争夺相同的带宽，导致电气干扰（electrical interference）。理解这一概念可以帮助用户欣赏现代通信技术的复杂性以及工程师在创造可靠设备时面临的挑战。此外，随着技术的不断发展，电气干扰的潜在性可能会增加。随着物联网（IoT）的兴起，越来越多的设备互联互通，导致对有效干扰管理的需求增加。制造商必须优先考虑设计抗电气干扰（electrical interference）的设备，以确保在日益拥挤的电磁环境中无缝运行。总之，电气干扰是一个重要概念，影响电子设备和通信系统的功能。通过理解其原因和影响，以及减轻其影响的方法，我们可以更好地欣赏围绕我们的技术。随着我们在这个数字时代的前进，解决电气干扰（electrical interference）将对技术的持续进步和我们日常生活的提升至关重要。