anti-electromagnetic interference test

简明释义

抗电磁干扰试验

英英释义

例句

1.The anti-electromagnetic interference test 抗电磁干扰测试 revealed that the device was susceptible to interference from nearby electronic equipment.

这项抗电磁干扰测试 anti-electromagnetic interference test显示该设备易受附近电子设备的干扰。

2.The results of the anti-electromagnetic interference test 抗电磁干扰测试 showed that our latest model exceeded industry standards.

这项抗电磁干扰测试 anti-electromagnetic interference test的结果表明，我们最新的型号超出了行业标准。

3.Manufacturers must pass the anti-electromagnetic interference test 抗电磁干扰测试 before their products can be certified for use in hospitals.

制造商必须通过抗电磁干扰测试 anti-electromagnetic interference test，才能获得医院使用的认证。

4.Before launching the new smartphone, the company conducted an anti-electromagnetic interference test 抗电磁干扰测试 to ensure it would perform well in various environments.

在推出新智能手机之前，公司进行了抗电磁干扰测试 anti-electromagnetic interference test，以确保其在各种环境中表现良好。

5.Our engineering team is currently developing a new protocol for the anti-electromagnetic interference test 抗电磁干扰测试 to improve accuracy.

我们的工程团队正在开发一种新的协议，以提高抗电磁干扰测试 anti-electromagnetic interference test的准确性。

作文

In today's technologically advanced world, electronic devices are ubiquitous. From smartphones to home appliances, these gadgets have become integral to our daily lives. However, with the proliferation of electronic devices comes a significant challenge: electromagnetic interference (EMI). This phenomenon can disrupt the normal functioning of electronic equipment, leading to malfunctions and reduced performance. To combat this issue, manufacturers often conduct an anti-electromagnetic interference test (抗电磁干扰测试) to ensure that their products can withstand EMI and function effectively in various environments.Electromagnetic interference occurs when an external electromagnetic field affects the operation of an electronic device. This interference can stem from various sources, including radio waves, electrical circuits, and even natural phenomena like lightning. The consequences of EMI can be severe, especially in critical applications such as medical devices, aerospace technology, and communication systems. Therefore, it is crucial for manufacturers to verify that their products are resilient against such disturbances.The anti-electromagnetic interference test (抗电磁干扰测试) involves subjecting electronic devices to controlled electromagnetic fields to assess their performance under potential interference conditions. This testing process typically includes several phases, such as radiated emissions testing, conducted emissions testing, and immunity testing. Each phase aims to measure different aspects of how the device interacts with electromagnetic fields.During radiated emissions testing, the device is evaluated for any unwanted electromagnetic energy it may emit. This energy can interfere with nearby devices, making it essential to keep emissions within designated limits. Conducted emissions testing, on the other hand, focuses on the electrical noise that travels along power lines. Both tests help ensure that the device does not contribute to EMI in its environment.Immunity testing is perhaps the most critical aspect of the anti-electromagnetic interference test (抗电磁干扰测试). In this phase, the device is exposed to various levels of electromagnetic fields to determine its resilience. Manufacturers simulate real-world conditions by using different frequencies and field strengths. The goal is to observe how well the device can maintain its functionality despite the presence of interference.Passing the anti-electromagnetic interference test (抗电磁干扰测试) is essential for manufacturers, as it not only ensures product reliability but also compliance with regulatory standards. Many countries have established guidelines and standards for EMI testing, and failure to meet these requirements can result in legal repercussions and damage to a company's reputation.Moreover, conducting thorough EMI testing can provide a competitive advantage in the market. Consumers are increasingly aware of the importance of reliable electronics, especially in sectors where safety and precision are paramount. By demonstrating that their products have successfully passed the anti-electromagnetic interference test (抗电磁干扰测试), manufacturers can instill confidence in their customers and differentiate themselves from competitors.In conclusion, the anti-electromagnetic interference test (抗电磁干扰测试) plays a vital role in ensuring the reliability and performance of electronic devices in an increasingly complex electromagnetic environment. As technology continues to evolve, the need for robust testing methods will only grow. Manufacturers must prioritize EMI testing to safeguard their products and meet the expectations of consumers who rely on their devices every day.

在当今技术先进的世界中，电子设备无处不在。从智能手机到家用电器，这些小工具已成为我们日常生活中不可或缺的一部分。然而，随着电子设备的普及，一个重大挑战也随之而来：电磁干扰（EMI）。这种现象会干扰电子设备的正常运行，导致故障和性能下降。为了应对这一问题，制造商通常会进行抗电磁干扰测试（anti-electromagnetic interference test），以确保其产品能够承受电磁干扰，并在各种环境中有效运行。电磁干扰发生在外部电磁场影响电子设备的操作时。这种干扰可能源于多种来源，包括无线电波、电路，甚至是自然现象如闪电。电磁干扰的后果可能是严重的，特别是在医疗设备、航空航天技术和通信系统等关键应用中。因此，制造商必须验证其产品对这些干扰的抵抗力。抗电磁干扰测试（anti-electromagnetic interference test）涉及将电子设备置于受控的电磁场中，以评估其在潜在干扰条件下的性能。这一测试过程通常包括几个阶段，如辐射发射测试、传导发射测试和抗干扰性测试。每个阶段旨在测量设备与电磁场相互作用的不同方面。在辐射发射测试中，评估设备是否发出任何不必要的电磁能量。这种能量可能会干扰附近的设备，因此保持排放在规定限值内是至关重要的。而传导发射测试则侧重于沿电力线路传播的电噪声。这两项测试有助于确保设备不会在其环境中产生电磁干扰。抗干扰性测试可能是抗电磁干扰测试（anti-electromagnetic interference test）中最关键的部分。在这一阶段，设备暴露于各种强度的电磁场中，以确定其抵抗力。制造商通过使用不同的频率和场强模拟现实世界的条件。目标是观察设备在干扰存在的情况下能否保持其功能。通过抗电磁干扰测试（anti-electromagnetic interference test）对制造商来说至关重要，因为这不仅确保了产品的可靠性，还确保了符合监管标准。许多国家已建立了电磁干扰测试的指南和标准，未能满足这些要求可能会导致法律后果并损害公司的声誉。此外，进行彻底的电磁干扰测试可以为企业在市场上提供竞争优势。消费者越来越意识到可靠电子设备的重要性，特别是在安全和精确度至关重要的领域。通过证明其产品成功通过抗电磁干扰测试（anti-electromagnetic interference test），制造商可以增强客户信心，并使自己与竞争对手区分开来。总之，抗电磁干扰测试（anti-electromagnetic interference test）在确保电子设备在日益复杂的电磁环境中可靠性和性能方面发挥着至关重要的作用。随着技术的不断发展，对稳健测试方法的需求只会增加。制造商必须优先考虑电磁干扰测试，以保护其产品并满足依赖其设备的消费者的期望。