electromagnetic compatibility

简明释义

电磁兼容性

英英释义

例句

1.The military equipment requires strict electromagnetic compatibility standards to function reliably in various environments.

军事设备需要严格的电磁兼容性标准，以便在各种环境中可靠运行。

2.In the design phase, engineers focused on achieving optimal electromagnetic compatibility to avoid signal loss.

在设计阶段，工程师们专注于实现最佳的电磁兼容性，以避免信号丢失。

3.The new smartphone was designed with improved electromagnetic compatibility to reduce interference from other devices.

这款新智能手机的设计提高了电磁兼容性，以减少来自其他设备的干扰。

4.Manufacturers must test their products for electromagnetic compatibility before they can be sold in the market.

制造商必须在产品上市前测试其电磁兼容性。

5.The conference covered the latest advancements in electromagnetic compatibility testing methods.

会议讨论了电磁兼容性测试方法的最新进展。

作文

In today's technologically advanced world, the concept of electromagnetic compatibility is becoming increasingly important. 电磁兼容性 refers to the ability of electronic devices to operate without interference from other devices and to not emit electromagnetic interference that could disrupt the functioning of nearby equipment. This characteristic is crucial for ensuring that various electronic systems can coexist in a shared environment, particularly as our reliance on technology grows.The significance of electromagnetic compatibility extends across numerous fields, including telecommunications, automotive industries, medical devices, and consumer electronics. For instance, in telecommunications, devices must communicate clearly without being disrupted by signals from other sources. If one device emits too much electromagnetic interference, it can lead to dropped calls or data loss, which can have serious consequences for businesses and individuals alike.Moreover, in the automotive industry, modern vehicles are equipped with a multitude of electronic systems, ranging from navigation to safety features. Ensuring electromagnetic compatibility in these systems is vital for their reliable operation. A failure in one system due to interference from another could result in dangerous situations on the road. Therefore, manufacturers must rigorously test their products to ensure that they meet the necessary electromagnetic compatibility standards before they reach consumers.The medical field also places great emphasis on electromagnetic compatibility. Medical devices often operate in environments filled with other electronic equipment, such as hospitals where multiple machines are used simultaneously. If a medical device, like an MRI machine, generates excessive electromagnetic interference, it could affect the performance of other critical devices, potentially putting patient safety at risk. Thus, ensuring electromagnetic compatibility is not just a regulatory requirement but also a matter of life and death.Consumer electronics, too, are not exempt from the challenges posed by electromagnetic compatibility. With the proliferation of smart devices in homes, such as Wi-Fi routers, smart TVs, and voice-activated assistants, the potential for interference is high. Devices need to be designed with electromagnetic compatibility in mind to prevent them from disrupting each other's performance. For example, if a Wi-Fi router emits interference, it may slow down internet speeds for connected devices, leading to frustration for users.To achieve electromagnetic compatibility, engineers utilize various design techniques and testing methods. Shielding, filtering, and grounding are common strategies employed to minimize electromagnetic emissions and susceptibility. Additionally, regulatory bodies set specific standards that devices must meet to ensure that they do not interfere with one another. Compliance with these standards is often verified through rigorous testing procedures.In conclusion, electromagnetic compatibility plays a critical role in the functionality and reliability of modern electronic devices. As technology continues to evolve, the importance of ensuring that devices can operate harmoniously without causing interference will only increase. Understanding and implementing electromagnetic compatibility principles is essential for engineers and manufacturers to create safe and effective electronic systems that enhance our daily lives. With the right approach to electromagnetic compatibility, we can look forward to a future where technology works seamlessly together, improving efficiency and safety across various sectors.

在当今技术先进的世界中，电磁兼容性的概念变得越来越重要。电磁兼容性是指电子设备在不受其他设备干扰的情况下正常运行，并且不会发出可能干扰附近设备功能的电磁干扰的能力。这一特性对于确保各种电子系统能够在共享环境中共存至关重要，尤其是随着我们对技术的依赖不断增加。电磁兼容性的重要性延伸到多个领域，包括电信、汽车工业、医疗设备和消费电子产品。例如，在电信领域，设备必须在不被其他来源的信号干扰的情况下清晰地通讯。如果一个设备发出的电磁干扰过大，可能导致通话中断或数据丢失，这对企业和个人都可能造成严重后果。此外，在汽车工业中，现代车辆配备了众多电子系统，从导航到安全功能。确保这些系统的电磁兼容性对于它们的可靠运行至关重要。由于干扰而导致的一个系统的故障可能会在道路上造成危险情况。因此，制造商必须严格测试其产品，以确保它们在到达消费者之前符合必要的电磁兼容性标准。医疗领域也非常重视电磁兼容性。医疗设备通常在充满其他电子设备的环境中运行，例如医院同时使用多台机器。如果一种医疗设备，如MRI机器，产生过多的电磁干扰，可能会影响其他关键设备的性能，潜在地危及患者安全。因此，确保电磁兼容性不仅是法规要求，也是生死攸关的问题。消费电子产品同样面临着电磁兼容性带来的挑战。随着智能设备在家庭中的普及，如Wi-Fi路由器、智能电视和语音激活助手，干扰的可能性很高。设备需要在设计时考虑电磁兼容性，以防止它们相互干扰。例如，如果Wi-Fi路由器发出干扰，可能会减慢与之连接的设备的互联网速度，导致用户感到沮丧。为了实现电磁兼容性，工程师采用各种设计技术和测试方法。屏蔽、滤波和接地是常用的策略，用于最小化电磁排放和易受干扰性。此外，监管机构设定了设备必须满足的特定标准，以确保它们不会相互干扰。合规性通常通过严格的测试程序进行验证。总之，电磁兼容性在现代电子设备的功能性和可靠性中发挥着关键作用。随着技术的不断发展，确保设备能够和谐运行而不造成干扰的重要性只会增加。理解和实施电磁兼容性原则对于工程师和制造商创造安全有效的电子系统以提升我们的日常生活至关重要。通过正确的方法来处理电磁兼容性，我们可以期待未来技术无缝协作，提高各个领域的效率和安全性。