tolerance frequency

简明释义

容计频率;容限频率

英英释义

例句

1.The engineer adjusted the circuit to accommodate a higher tolerance frequency 容差频率 to improve performance.

工程师调整了电路以适应更高的容差频率 tolerance frequency 以提高性能。

2.In electronics, the tolerance frequency 容差频率 is crucial for ensuring that components operate correctly within their specified limits.

在电子学中，容差频率 tolerance frequency 对于确保组件在其规定的限制内正常工作至关重要。

3.A lower tolerance frequency 容差频率 can lead to distortion in audio systems.

较低的容差频率 tolerance frequency 可能会导致音频系统中的失真。

4.When designing filters, understanding the tolerance frequency 容差频率 helps in achieving desired signal integrity.

在设计滤波器时，理解容差频率 tolerance frequency 有助于实现所需的信号完整性。

5.Manufacturers often specify a tolerance frequency 容差频率 range to ensure product reliability.

制造商通常指定一个容差频率 tolerance frequency 范围，以确保产品的可靠性。

作文

In the realm of engineering and technology, the concept of tolerance frequency plays a crucial role in ensuring the reliability and performance of various systems. Tolerance frequency refers to the acceptable range of frequencies within which a system or component can operate effectively without experiencing failure or significant degradation in performance. Understanding this concept is essential for engineers and designers who aim to create products that can withstand varying operational conditions.For instance, consider the case of electronic circuits. When designing a circuit, engineers must consider the tolerance frequency to ensure that the components can handle the frequencies of the signals they will process. If a component is rated for a specific frequency but is subjected to signals outside its tolerance frequency, it may overheat, malfunction, or even become damaged. Therefore, knowing the tolerance frequency helps in selecting appropriate components that can reliably function within the desired operational range.Moreover, the tolerance frequency is not only applicable to electronics but also to mechanical systems. For example, in the automotive industry, the engines and various moving parts must operate within specific frequency ranges to avoid vibrations that could lead to wear and tear. Engineers conduct extensive testing to determine the tolerance frequency of these components, ensuring that they perform optimally under different driving conditions.In addition, the tolerance frequency concept is vital in the field of telecommunications. In wireless communication systems, different channels operate at different frequencies. The tolerance frequency determines how well a system can filter out unwanted signals and maintain clear communication. If the system is not designed with an adequate tolerance frequency, it may suffer from interference, leading to poor signal quality and dropped calls.Furthermore, the importance of tolerance frequency extends to the development of new technologies. As innovations emerge, understanding the tolerance frequency becomes increasingly important. For instance, in the development of wearable technology, devices must be able to operate within specific frequency ranges to monitor health metrics accurately. The tolerance frequency ensures that these devices can function properly without being affected by external electromagnetic interference.In conclusion, the concept of tolerance frequency is fundamental across various fields, including electronics, mechanics, and telecommunications. It provides engineers and designers with the necessary guidelines to create reliable and efficient systems. By understanding and applying the principles of tolerance frequency, professionals can enhance product performance, reduce the risk of failure, and ultimately improve user satisfaction. As technology continues to evolve, the significance of tolerance frequency will only grow, making it an essential consideration in future innovations.

在工程和技术领域，公差频率的概念在确保各种系统的可靠性和性能方面发挥着至关重要的作用。公差频率是指系统或组件可以有效运行的频率范围，在此范围内不会出现故障或显著性能下降。理解这一概念对旨在创造能够承受不同操作条件的产品的工程师和设计师至关重要。例如，考虑电子电路的案例。在设计电路时，工程师必须考虑公差频率，以确保组件能够处理它们将要处理的信号的频率。如果一个组件被标定为特定频率，但受到超出其公差频率的信号影响，它可能会过热、发生故障甚至损坏。因此，了解公差频率有助于选择适当的组件，从而确保其在所需操作范围内可靠地工作。此外，公差频率不仅适用于电子产品，也适用于机械系统。例如，在汽车工业中，发动机和各种运动部件必须在特定频率范围内运行，以避免可能导致磨损的振动。工程师进行广泛的测试，以确定这些组件的公差频率，确保它们在不同驾驶条件下表现最佳。此外，公差频率的概念在电信领域也至关重要。在无线通信系统中，不同的频道在不同的频率上工作。公差频率决定了系统过滤掉不必要信号的能力，从而保持清晰的通信。如果系统没有设计出足够的公差频率，它可能会遭受干扰，导致信号质量差和通话中断。此外，公差频率的重要性还扩展到新技术的发展。随着创新的出现，理解公差频率变得越来越重要。例如，在可穿戴技术的发展中，设备必须能够在特定频率范围内运行，以准确监测健康指标。公差频率确保这些设备在不受外部电磁干扰影响的情况下正常工作。总之，公差频率的概念在电子、机械和电信等各个领域都是基础性的。它为工程师和设计师提供了必要的指导，以创建可靠和高效的系统。通过理解和应用公差频率的原则，专业人员可以提升产品性能，降低故障风险，并最终提高用户满意度。随着技术的不断发展，公差频率的重要性只会增加，使其成为未来创新中的一个重要考虑因素。