electromagnetic interference

简明释义

电磁干扰

英英释义

例句

1.Engineers are testing the circuit for electromagnetic interference (电磁干扰) before final production.

工程师们在最终生产前对电路进行电磁干扰的测试。

2.In hospitals, equipment must be shielded from electromagnetic interference (电磁干扰) to ensure patient safety.

在医院，设备必须屏蔽电磁干扰以确保患者安全。

3.The presence of electromagnetic interference (电磁干扰) can lead to data loss in electronic devices.

存在电磁干扰可能导致电子设备中的数据丢失。

4.To prevent electromagnetic interference (电磁干扰), use twisted pair cables in network installations.

为了防止电磁干扰，在网络安装中使用双绞线电缆。

5.The new smartphone model has been designed to reduce electromagnetic interference (电磁干扰) from other devices.

新款智能手机的设计旨在减少来自其他设备的电磁干扰。

作文

In today's technologically advanced world, the term electromagnetic interference is becoming increasingly relevant. 电磁干扰 refers to the disturbance caused by electromagnetic fields that can affect the performance of electronic devices and systems. As we rely more heavily on technology in our daily lives, understanding electromagnetic interference and its implications is crucial for both consumers and manufacturers.One of the primary sources of electromagnetic interference is the wide array of electronic devices that we use every day. From smartphones to microwaves, these devices emit electromagnetic waves that can interfere with one another. For example, when a mobile phone receives a call, it may cause static on a nearby radio, illustrating how electromagnetic interference can disrupt communication. This phenomenon is not limited to personal devices; industrial equipment and medical devices are also susceptible to electromagnetic interference, which can lead to significant operational issues.Furthermore, the increasing density of electronic devices in urban environments exacerbates the problem of electromagnetic interference. As cities become more populated and technology continues to advance, the potential for interference grows. This has led to the development of regulations and standards aimed at minimizing electromagnetic interference. Organizations like the Federal Communications Commission (FCC) in the United States have established guidelines to ensure that devices do not emit excessive interference that could disrupt other technologies.To mitigate the effects of electromagnetic interference, engineers and designers are implementing various strategies. Shielding is one common method, where materials are used to block or reduce electromagnetic fields from penetrating sensitive equipment. Additionally, proper grounding techniques can help dissipate unwanted interference, ensuring that devices operate smoothly. Manufacturers are also designing products with built-in resistance to electromagnetic interference, allowing them to function effectively in environments where interference may be present.The impact of electromagnetic interference extends beyond individual devices; it can affect entire systems and networks. In telecommunications, for instance, electromagnetic interference can lead to data loss or corruption, resulting in unreliable service for users. This is particularly concerning in critical applications such as aviation and healthcare, where reliable communication is essential. Therefore, understanding and addressing electromagnetic interference is vital for maintaining the integrity of these systems.In conclusion, as our reliance on technology continues to grow, so does the importance of understanding electromagnetic interference. Whether it is through regulatory measures, engineering solutions, or consumer awareness, addressing this issue is essential for ensuring that our electronic devices and systems function effectively and reliably. By recognizing the sources and impacts of electromagnetic interference, we can work towards a future where technology enhances our lives without the detrimental effects of interference.

在当今技术先进的世界里，术语电磁干扰变得越来越相关。电磁干扰指的是由电磁场引起的干扰，这种干扰可能会影响电子设备和系统的性能。随着我们在日常生活中越来越依赖技术，理解电磁干扰及其影响对于消费者和制造商来说至关重要。电磁干扰的主要来源之一是我们每天使用的各种电子设备。从智能手机到微波炉，这些设备发出的电磁波可能会相互干扰。例如，当手机接到电话时，可能会导致附近收音机出现静电，这说明了电磁干扰如何干扰通信。这种现象不仅限于个人设备；工业设备和医疗设备也容易受到电磁干扰的影响，这可能导致显著的操作问题。此外，城市环境中电子设备的日益密集加剧了电磁干扰的问题。随着城市人口的增加和技术的不断进步，干扰的潜力也在增长。这导致了旨在最小化电磁干扰的法规和标准的发展。美国联邦通信委员会（FCC）等组织已经建立了指南，以确保设备不会发出过多的干扰，从而干扰其他技术。为了减轻电磁干扰的影响，工程师和设计师正在实施各种策略。屏蔽是一种常见的方法，通过使用材料来阻挡或减少电磁场渗透到敏感设备中。此外，适当的接地技术可以帮助消散不必要的干扰，确保设备平稳运行。制造商还在设计产品时内置对电磁干扰的抵抗力，使其能够在可能存在干扰的环境中有效运行。电磁干扰的影响超出了单个设备；它可能影响整个系统和网络。在电信领域，例如，电磁干扰可能导致数据丢失或损坏，从而导致用户服务不可靠。这在航空和医疗等关键应用中尤其令人担忧，因为可靠的通信至关重要。因此，理解和解决电磁干扰对于维护这些系统的完整性至关重要。总之，随着我们对技术的依赖不断增长，理解电磁干扰的重要性也在增加。无论是通过监管措施、工程解决方案还是消费者意识，解决这个问题对于确保我们的电子设备和系统有效可靠地运行至关重要。通过识别电磁干扰的来源和影响，我们可以朝着一个技术增强我们生活而没有干扰不良影响的未来努力。