radiated interference

简明释义

辐射干扰

英英释义

例句

1.The research focused on how radiated interference affects communication systems.

研究集中在辐射干扰如何影响通信系统。

2.Engineers used shielding techniques to reduce radiated interference in the new design.

工程师们使用屏蔽技术来减少新设计中的辐射干扰。

3.To improve signal quality, we need to minimize radiated interference from nearby electronics.

为了提高信号质量，我们需要尽量减少来自附近电子设备的辐射干扰。

4.During the experiment, we observed significant radiated interference from the power lines.

在实验过程中，我们观察到电力线产生了显著的辐射干扰。

5.The technician explained that the device was malfunctioning due to radiated interference.

技术人员解释说，该设备因辐射干扰而发生故障。

作文

In the modern world, communication technology plays a pivotal role in our daily lives. From smartphones to satellite communications, we rely heavily on various forms of electromagnetic waves to transmit information. However, one of the challenges that engineers and scientists face in this field is the phenomenon known as radiated interference, which can significantly affect the performance of electronic devices. Understanding radiated interference is crucial for developing more reliable communication systems.Radiated interference, or “辐射干扰” in Chinese, refers to the unwanted electromagnetic energy emitted by electronic devices that can disrupt the operation of nearby devices. This type of interference can occur in various forms, including radio frequency interference (RFI) and electromagnetic interference (EMI). The sources of radiated interference are numerous, ranging from everyday household appliances like microwaves and televisions to industrial machinery and even natural phenomena like lightning.The implications of radiated interference are substantial. In a world increasingly dependent on wireless communication, any disruption caused by this interference can lead to data loss, reduced signal quality, and even complete communication failures. For instance, a mobile phone may experience dropped calls or poor sound quality due to radiated interference from a nearby Wi-Fi router. Similarly, aircraft communication systems must be designed with strict regulations to minimize the impact of radiated interference during flight operations, ensuring both safety and reliability.To combat the effects of radiated interference, engineers employ several strategies. One common approach is to use shielding, which involves enclosing sensitive electronic components in materials that block electromagnetic waves. This method can significantly reduce the susceptibility of devices to external interference. Additionally, filtering techniques can be implemented to allow only desired frequencies to pass through while blocking unwanted signals, further mitigating the effects of radiated interference.Moreover, regulatory bodies such as the Federal Communications Commission (FCC) set standards for the acceptable levels of radiated interference that devices can emit. These regulations help ensure that consumer electronics do not interfere with critical communication systems, such as emergency services and aviation communications. Compliance with these standards is essential for manufacturers, as it not only affects product performance but also their marketability.In conclusion, radiated interference poses significant challenges in the realm of communication technology. As we continue to advance in this field, understanding and addressing the issues related to radiated interference will be vital for the development of efficient and reliable electronic systems. By employing effective shielding, filtering techniques, and adhering to regulatory standards, we can mitigate the impact of radiated interference and enhance the overall performance of communication technologies. As we move forward, the importance of addressing radiated interference will only grow, making it an essential area of focus for engineers and researchers alike.

在现代社会，通信技术在我们的日常生活中发挥着关键作用。从智能手机到卫星通信，我们在很大程度上依赖各种电磁波来传输信息。然而，工程师和科学家在这一领域面临的挑战之一是被称为辐射干扰的现象，它可能会显著影响电子设备的性能。理解辐射干扰对于开发更可靠的通信系统至关重要。辐射干扰指的是电子设备发出的不必要的电磁能量，这些能量可能会干扰附近设备的操作。这种干扰可以以多种形式出现，包括无线电频率干扰（RFI）和电磁干扰（EMI）。辐射干扰的来源有很多，从微波炉和电视等日常家用电器到工业机械，甚至自然现象如闪电。辐射干扰的影响是重大的。在一个越来越依赖无线通信的世界中，由这种干扰引起的任何中断都可能导致数据丢失、信号质量下降，甚至完全的通信故障。例如，由于附近Wi-Fi路由器的辐射干扰，手机可能会经历通话中断或声音质量差。同样，飞机通信系统必须设计成严格的规定，以最小化辐射干扰在飞行操作中的影响，确保安全和可靠性。为了应对辐射干扰的影响，工程师采用了几种策略。一种常见的方法是使用屏蔽，即将敏感电子元件封闭在可以阻挡电磁波的材料中。这种方法可以显著降低设备对外部干扰的敏感性。此外，还可以实施过滤技术，以允许仅所需频率通过，同时阻止不必要的信号，从而进一步减轻辐射干扰的影响。此外，联邦通信委员会（FCC）等监管机构设定了设备可以发出的辐射干扰的可接受水平标准。这些规定有助于确保消费电子产品不会干扰关键通信系统，例如紧急服务和航空通信。遵守这些标准对制造商至关重要，因为这不仅影响产品性能，还影响其市场竞争力。总之，辐射干扰在通信技术领域带来了重大挑战。随着我们在这一领域的不断进步，理解和解决与辐射干扰相关的问题对于开发高效和可靠的电子系统至关重要。通过采用有效的屏蔽、过滤技术以及遵守监管标准，我们可以减轻辐射干扰的影响，提高通信技术的整体性能。随着我们向前发展，解决辐射干扰的重要性只会增加，使其成为工程师和研究人员共同关注的关键领域。