noise immunity

简明释义

抗声扰性

英英释义

例句

1.The new communication system has improved noise immunity significantly, allowing for clearer transmissions even in crowded environments.

新的通信系统显著提高了噪声免疫力，即使在拥挤的环境中也能实现更清晰的传输。

2.A higher degree of noise immunity helps reduce the chances of data loss during transmission.

更高的噪声免疫力有助于减少传输过程中数据丢失的可能性。

3.The noise immunity of the wireless network was tested under various conditions to ensure reliability.

无线网络的噪声免疫力在各种条件下进行了测试，以确保其可靠性。

4.Devices with high noise immunity are essential for medical equipment that relies on accurate readings.

具有高噪声免疫力的设备对于依赖准确读数的医疗设备至关重要。

5.Engineers are focusing on enhancing the noise immunity of the circuit to prevent interference from external signals.

工程师们专注于增强电路的噪声免疫力，以防止外部信号的干扰。

作文

In today's fast-paced technological world, the importance of communication cannot be overstated. As we rely more on electronic devices for both personal and professional interactions, ensuring that these devices function optimally is crucial. One of the key factors that contribute to the effectiveness of electronic communication is noise immunity. This term refers to the ability of a system or device to operate correctly in the presence of external interference or 'noise'. In this essay, I will explore the significance of noise immunity in various applications, its impact on performance, and how it can be enhanced in modern technology.Firstly, let us consider the role of noise immunity in telecommunications. In an era where mobile phones, satellite communications, and the internet dominate our daily lives, the clarity and reliability of signals are paramount. Interference can come from numerous sources, including other electronic devices, physical obstructions, and even atmospheric conditions. A system with high noise immunity can filter out this unwanted interference, allowing for clear communication. For instance, modern smartphones are designed with advanced algorithms that enhance their noise immunity, providing users with better call quality and data transmission speeds.Moreover, noise immunity is equally vital in industrial applications. Machinery and equipment often operate in environments filled with electrical noise generated by motors, sensors, and other devices. If a control system lacks sufficient noise immunity, it may misinterpret signals, leading to incorrect operations or even catastrophic failures. To mitigate these risks, engineers implement various techniques such as shielding, filtering, and differential signaling to improve noise immunity. This ensures that industrial processes run smoothly and safely, ultimately enhancing productivity and reducing downtime.In addition to telecommunications and industrial applications, noise immunity plays a significant role in medical devices. Equipment such as MRI machines and ECG monitors must maintain precise readings to ensure accurate diagnosis and treatment. Any interference could result in erroneous data, potentially compromising patient safety. Therefore, manufacturers prioritize noise immunity in their designs, utilizing specialized components and circuit layouts to minimize the effects of noise. This commitment to noise immunity not only enhances the reliability of medical devices but also builds trust between healthcare professionals and patients.Furthermore, as we look towards the future, the demand for improved noise immunity will only grow. With the rise of the Internet of Things (IoT), where countless devices communicate with each other, the potential for interference increases dramatically. Ensuring that these devices can coexist without degrading performance will require innovative solutions to enhance noise immunity. Researchers are already exploring new materials and technologies that could provide better shielding and signal processing capabilities, paving the way for a more connected and efficient world.In conclusion, noise immunity is a critical aspect of modern technology that impacts various sectors, including telecommunications, industrial operations, and healthcare. Its ability to filter out unwanted interference ensures that systems function correctly and reliably. As technology continues to evolve, the emphasis on enhancing noise immunity will be essential in maintaining the integrity and performance of our electronic devices. By prioritizing noise immunity in design and implementation, we can create a more effective and efficient technological landscape for the future.

在当今快速发展的技术世界中，沟通的重要性不容低估。随着我们在个人和职业互动中越来越依赖电子设备，确保这些设备的最佳功能至关重要。影响电子通信有效性的关键因素之一是噪声免疫力。这个术语指的是系统或设备在存在外部干扰或“噪声”的情况下正确操作的能力。在这篇文章中，我将探讨噪声免疫力在各种应用中的重要性、对性能的影响以及如何在现代技术中增强它。首先，让我们考虑噪声免疫力在电信中的作用。在一个移动电话、卫星通信和互联网主导我们日常生活的时代，信号的清晰度和可靠性至关重要。干扰可能来自许多来源，包括其他电子设备、物理障碍，甚至大气条件。具有高噪声免疫力的系统能够过滤掉这些不必要的干扰，从而实现清晰的通信。例如，现代智能手机采用先进的算法来增强其噪声免疫力，为用户提供更好的通话质量和数据传输速度。此外，噪声免疫力在工业应用中同样至关重要。机械和设备通常在充满电气噪声的环境中运行，这些噪声由电动机、传感器和其他设备产生。如果控制系统缺乏足够的噪声免疫力，它可能会错误解读信号，导致操作不当甚至灾难性故障。为了降低这些风险，工程师实施各种技术，如屏蔽、过滤和差分信号，以提高噪声免疫力。这确保了工业过程的顺利和安全运行，最终提高了生产力并减少了停机时间。除了电信和工业应用外，噪声免疫力在医疗设备中也发挥着重要作用。MRI机和心电图监测仪等设备必须保持精确的读数，以确保准确的诊断和治疗。任何干扰都可能导致错误的数据，从而可能危及患者安全。因此，制造商在设计中优先考虑噪声免疫力，利用专门的组件和电路布局来最小化噪声的影响。这种对噪声免疫力的承诺不仅增强了医疗设备的可靠性，还在医疗专业人员和患者之间建立了信任。此外，随着我们展望未来，对更高噪声免疫力的需求只会增加。随着物联网（IoT）的兴起，无数设备相互通信，干扰的潜力大幅增加。确保这些设备能够共存而不降低性能，将需要创新的解决方案来增强噪声免疫力。研究人员已经开始探索新材料和技术，这些材料和技术可以提供更好的屏蔽和信号处理能力，为一个更加互联和高效的世界铺平道路。总之，噪声免疫力是现代技术的一个关键方面，影响着电信、工业运营和医疗保健等各个领域。它过滤不必要干扰的能力确保系统正确和可靠地运行。随着技术的不断发展，增强噪声免疫力的重视对于维护我们电子设备的完整性和性能至关重要。通过在设计和实施中优先考虑噪声免疫力，我们可以为未来创造一个更有效和高效的技术环境。