noise immunity

简明释义

抗扰度

英英释义

例句

1.The design of this microphone focuses on achieving maximum noise immunity to enhance voice clarity.

这个麦克风的设计侧重于实现最大的噪声免疫力，以增强语音清晰度。

2.By using advanced materials, the team enhanced the noise immunity of the sensors in the robotics project.

通过使用先进材料，团队增强了机器人项目中传感器的噪声免疫力。

3.Engineers are testing the noise immunity of the circuit to ensure reliable performance in noisy conditions.

工程师正在测试电路的噪声免疫力，以确保在嘈杂条件下可靠运行。

4.The new communication system has improved noise immunity significantly, allowing for clearer signals in urban environments.

新的通信系统显著提高了噪声免疫力，使城市环境中的信号更清晰。

5.High noise immunity is crucial for medical devices that need to operate accurately in various environments.

高噪声免疫力对于需要在各种环境中准确工作的医疗设备至关重要。

作文

In today's world, where technology plays a crucial role in our daily lives, the concept of noise immunity (抗噪声能力) has become increasingly significant. Noise immunity refers to the ability of a system to operate correctly in the presence of noise or interference. This is particularly important in fields such as telecommunications, electronics, and data transmission. As we rely more on digital communication, ensuring that our devices can function effectively despite external disturbances is essential.One of the primary reasons for the importance of noise immunity (抗噪声能力) lies in the growing demand for reliable communication systems. For instance, in mobile communications, signals are often subject to various forms of interference, including electromagnetic interference and environmental noise. A mobile device with high noise immunity (抗噪声能力) can filter out these disturbances, ensuring clear voice calls and stable internet connections. This reliability is crucial for both personal and professional communications, making it a key factor in consumer satisfaction and trust in technology.Moreover, the increasing complexity of electronic systems necessitates a focus on noise immunity (抗噪声能力). Modern devices, such as smartphones and computers, integrate multiple functions and components that can generate noise. For example, the interaction between the processor, memory, and wireless communication modules can create interference that affects performance. By enhancing the noise immunity (抗噪声能力) of these systems, manufacturers can ensure that users experience seamless operation without disruptions caused by internal or external noise.In industrial applications, noise immunity (抗噪声能力) is equally crucial. Many industries rely on automated systems and sensors that must operate accurately in noisy environments. For instance, manufacturing facilities often have heavy machinery that generates vibrations and electromagnetic noise. Sensors used for monitoring production processes need to maintain their accuracy despite these conditions. Systems designed with high noise immunity (抗噪声能力) can provide consistent and reliable data, leading to improved efficiency and safety in operations.Furthermore, the development of smart cities and the Internet of Things (IoT) highlights the need for robust noise immunity (抗噪声能力). As more devices connect to the internet and communicate with each other, the potential for interference increases. Ensuring that these devices can withstand noise and continue to function optimally is vital for the success of smart technologies. For example, smart traffic lights must accurately receive and process data from various sensors, even in the presence of electrical noise generated by nearby vehicles and machinery.In conclusion, the concept of noise immunity (抗噪声能力) is integral to the advancement of technology in our modern world. Its significance spans across various domains, including telecommunications, electronics, industrial applications, and smart technologies. As we continue to innovate and integrate more complex systems into our lives, focusing on enhancing noise immunity (抗噪声能力) will be essential to ensure reliability, efficiency, and user satisfaction. By prioritizing this aspect of system design, we can pave the way for a future where technology seamlessly integrates into our daily lives, free from the disruptions caused by noise and interference.

在当今这个技术在我们日常生活中发挥重要作用的世界里，noise immunity（抗噪声能力）的概念变得越来越重要。抗噪声能力是指系统在存在噪声或干扰的情况下正常工作的能力。这在电信、电子和数据传输等领域尤为重要。随着我们越来越依赖数字通信，确保我们的设备能够在外部干扰下有效运行显得尤为重要。noise immunity（抗噪声能力）重要性的主要原因之一是对可靠通信系统的日益需求。例如，在移动通信中，信号经常受到各种形式的干扰，包括电磁干扰和环境噪声。具有高noise immunity（抗噪声能力）的移动设备可以过滤这些干扰，确保清晰的语音通话和稳定的互联网连接。这种可靠性对于个人和专业通信均至关重要，使其成为消费者满意度和对技术信任的关键因素。此外，现代电子系统日益复杂，也使得对noise immunity（抗噪声能力）的关注变得必要。智能手机和计算机等现代设备集成了多种功能和组件，这些组件可能会产生噪声。例如，处理器、内存和无线通信模块之间的相互作用可能会产生影响性能的干扰。通过增强这些系统的noise immunity（抗噪声能力），制造商可以确保用户体验无缝操作，而不受内部或外部噪声造成的干扰。在工业应用中，noise immunity（抗噪声能力）同样至关重要。许多行业依赖于必须在嘈杂环境中准确运行的自动化系统和传感器。例如，制造设施通常有重型机械，会产生振动和电磁噪声。用于监测生产过程的传感器需要在这些条件下保持其准确性。设计具有高noise immunity（抗噪声能力）的系统可以提供一致且可靠的数据，从而提高运营的效率和安全性。此外，智慧城市和物联网（IoT）的发展突显了对强大noise immunity（抗噪声能力）的需求。随着越来越多的设备连接到互联网并相互通信，干扰的潜力也在增加。确保这些设备能够承受噪声并继续优化运行对于智能技术的成功至关重要。例如，智能交通灯必须准确接收和处理来自各种传感器的数据，即使在附近车辆和机器产生的电噪声存在的情况下。总之，noise immunity（抗噪声能力）的概念是我们现代世界技术进步的核心。它的重要性跨越多个领域，包括电信、电子、工业应用和智能技术。随着我们继续创新并将更复杂的系统整合到我们的生活中，关注增强noise immunity（抗噪声能力）将对确保可靠性、效率和用户满意度至关重要。通过优先考虑这一系统设计方面，我们可以为未来铺平道路，使技术无缝融入我们的日常生活，免受噪声和干扰造成的干扰。