tolerance frequency

简明释义

容计频率容限频率

英英释义

例句

1.The device operates effectively within its tolerance frequency 容差频率, ensuring optimal performance.

该设备在其容差频率内有效运行，确保最佳性能。

2.Testing revealed that the tolerance frequency 容差频率 was critical for the system's reliability.

测试表明，容差频率对系统的可靠性至关重要。

3.Engineers must consider the tolerance frequency 容差频率 when designing communication systems to avoid interference.

工程师在设计通信系统时必须考虑容差频率以避免干扰。

4.The manufacturer specified a tolerance frequency 容差频率 range for the new product model.

制造商为新产品型号指定了一个容差频率范围。

5.A mismatch in the tolerance frequency 容差频率 can lead to signal degradation.

在容差频率上的不匹配可能导致信号衰减。

作文

In the realm of engineering and design, understanding the concept of tolerance frequency is crucial for ensuring the reliability and performance of various systems. Tolerance frequency refers to the acceptable range of frequencies within which a system can operate effectively without experiencing significant degradation in performance. This concept is particularly important in fields such as telecommunications, audio engineering, and mechanical systems, where precise frequency control is essential.To illustrate the importance of tolerance frequency, consider the example of a wireless communication system. In such systems, signals are transmitted over specific frequency bands. If the frequency of the transmitted signal falls outside the tolerance frequency range, it may lead to interference, signal loss, or even complete failure of communication. Engineers must carefully design these systems to ensure that they can operate reliably within their designated frequency ranges.Moreover, in audio engineering, tolerance frequency plays a vital role in sound quality. Every audio device, from microphones to speakers, has a specified frequency response that defines its operational limits. If an audio device is pushed beyond its tolerance frequency, it may produce distorted sound or fail to reproduce certain frequencies altogether. This is why audio engineers conduct thorough testing to determine the tolerance frequency of their equipment, ensuring that they can deliver high-quality sound to their audiences.In mechanical systems, tolerance frequency is equally significant. For instance, rotating machinery, such as turbines or motors, has specific vibration frequencies that need to be monitored. If these machines operate at frequencies outside their tolerance frequency, it can lead to excessive wear, failure, or catastrophic accidents. Engineers use vibration analysis to identify the tolerance frequency of machinery components, allowing them to maintain optimal performance and prevent failures.Understanding and applying the principles of tolerance frequency is not just about preventing failures; it is also about optimizing performance. By designing systems that operate within their tolerance frequency, engineers can enhance efficiency, reduce energy consumption, and improve overall system reliability. This proactive approach to design and engineering leads to innovations that benefit various industries.In conclusion, the concept of tolerance frequency is an essential aspect of engineering and design that impacts many fields. Whether in telecommunications, audio engineering, or mechanical systems, recognizing and adhering to tolerance frequency limits is vital for achieving optimal performance and reliability. As technology continues to advance, the importance of understanding tolerance frequency will only grow, highlighting the need for engineers and designers to stay informed and adept in this crucial area of knowledge.

在工程和设计领域，理解容忍频率的概念对于确保各种系统的可靠性和性能至关重要。容忍频率是指一个系统能够有效运行而不会出现显著性能下降的可接受频率范围。这个概念在电信、音频工程和机械系统等领域尤为重要，因为精确的频率控制是必不可少的。为了说明容忍频率的重要性，可以考虑无线通信系统的例子。在这样的系统中，信号在特定的频率带上进行传输。如果传输信号的频率超出了容忍频率范围，可能会导致干扰、信号丢失或甚至完全失去通信。工程师必须仔细设计这些系统，以确保它们能够在指定的频率范围内可靠地运行。此外，在音频工程中，容忍频率对声音质量起着至关重要的作用。从麦克风到扬声器，每个音频设备都有一个指定的频率响应，定义了其操作极限。如果音频设备被推到超出其容忍频率的范围，它可能会产生失真声音或根本无法重现某些频率。这就是为什么音频工程师进行彻底测试以确定其设备的容忍频率，确保他们能够向观众提供高质量声音的原因。在机械系统中，容忍频率同样重要。例如，旋转机械，如涡轮或电动机，具有特定的振动频率需要监测。如果这些机器在超出其容忍频率的频率下运行，可能会导致过度磨损、故障或灾难性事故。工程师使用振动分析来识别机械部件的容忍频率，使他们能够保持最佳性能并防止故障。理解和应用容忍频率的原则不仅仅是为了防止故障；还关系到优化性能。通过设计在其容忍频率内运行的系统，工程师可以提高效率、减少能耗，并改善整体系统可靠性。这种对设计和工程的积极方法导致了惠及各个行业的创新。总之，容忍频率的概念是影响许多领域的工程和设计的重要方面。无论是在电信、音频工程还是机械系统中，认识并遵循容忍频率限制对于实现最佳性能和可靠性至关重要。随着技术的不断进步，理解容忍频率的重要性只会增加，这突显了工程师和设计师在这一关键知识领域保持信息灵通和熟练的必要性。