tolerance frequency
简明释义
容限频率
英英释义
Tolerance frequency refers to the range of frequencies within which a system or component can operate effectively without significant performance degradation. | 容忍频率指的是系统或组件能够有效运行而不会显著降低性能的频率范围。 |
例句
1.Understanding the tolerance frequency 容差频率 is crucial for maintaining the integrity of the signal.
理解 tolerance frequency 容差频率 对于保持信号的完整性至关重要。
2.During the testing phase, we found that the tolerance frequency 容差频率 exceeded the specified range.
在测试阶段,我们发现 tolerance frequency 容差频率 超出了规定范围。
3.The engineer adjusted the circuit to ensure that the tolerance frequency 容差频率 remained within acceptable limits.
工程师调整了电路,以确保 tolerance frequency 容差频率 保持在可接受的范围内。
4.Manufacturers must consider the tolerance frequency 容差频率 when designing new products.
制造商在设计新产品时必须考虑 tolerance frequency 容差频率 。
5.The tolerance frequency 容差频率 can affect the performance of audio equipment significantly.
tolerance frequency 容差频率 会显著影响音频设备的性能。
作文
In the world of engineering and manufacturing, precision is paramount. One critical concept that engineers must understand is the tolerance frequency, which refers to the acceptable range of variation in a physical dimension or measurement. This term is particularly significant in fields such as electronics, mechanical engineering, and quality control, where components must fit together perfectly to function correctly. Understanding tolerance frequency is essential for ensuring that products meet safety standards and perform reliably under various conditions.When designing a product, engineers often establish a tolerance frequency to determine how much deviation from a specified dimension is permissible. For instance, if a part is designed to be 10 mm in diameter, the tolerance frequency might allow for a variation of ±0.5 mm. This means that the actual diameter can range from 9.5 mm to 10.5 mm without compromising the functionality of the part. Such specifications are crucial because they help manufacturers produce parts that fit together correctly, reducing the risk of failure in the final product.The importance of tolerance frequency extends beyond simple measurements; it also plays a vital role in cost management. Tighter tolerances often lead to higher manufacturing costs because they require more precise machinery and processes. Therefore, engineers must strike a balance between maintaining high-quality standards and keeping production costs within budget. A well-defined tolerance frequency can help achieve this balance by providing clear guidelines on acceptable variations.Furthermore, the concept of tolerance frequency is not limited to physical dimensions. It can also apply to other aspects of product design, such as electrical characteristics in circuit design. For example, when designing a circuit board, engineers need to consider the tolerance frequency of resistors and capacitors to ensure that the circuit operates within the desired parameters. If the tolerances are too wide, the circuit may not function as intended, leading to performance issues or even failure.In addition to its application in engineering, tolerance frequency is also relevant in various industries, including automotive, aerospace, and consumer electronics. Each of these sectors relies on precise measurements and strict adherence to tolerances to ensure safety and reliability. For example, in the automotive industry, a small deviation in the size of a brake component could lead to catastrophic failures, making it imperative to adhere to established tolerance frequency guidelines.In conclusion, understanding tolerance frequency is essential for engineers and manufacturers alike. It serves as a critical tool for ensuring that products are made to the right specifications, ultimately contributing to their safety, reliability, and performance. By carefully defining and adhering to tolerance frequency standards, industries can improve product quality while managing costs effectively. As technology continues to advance, the importance of precision in manufacturing will only increase, making the mastery of concepts like tolerance frequency more crucial than ever before.
在工程和制造的世界中,精确性至关重要。工程师必须理解的一个关键概念是公差频率,它指的是物理尺寸或测量中可接受的变化范围。这个术语在电子学、机械工程和质量控制等领域尤其重要,因为组件必须完美契合才能正常工作。理解公差频率对于确保产品符合安全标准并在各种条件下可靠运行至关重要。在设计产品时,工程师通常会建立公差频率来确定允许的特定尺寸偏差。例如,如果某个部件被设计为直径10毫米,则公差频率可能允许±0.5毫米的变化。这意味着实际直径可以在9.5毫米到10.5毫米之间,而不会影响部件的功能。这种规格至关重要,因为它们帮助制造商生产出正确契合的部件,从而降低最终产品故障的风险。公差频率的重要性不仅限于简单的测量;它还在成本管理中发挥着重要作用。更严格的公差往往会导致更高的制造成本,因为它们需要更精确的机械和工艺。因此,工程师必须在保持高质量标准和控制生产成本之间找到平衡。明确的公差频率可以通过提供可接受变异的清晰指导来帮助实现这一平衡。此外,公差频率的概念不限于物理尺寸。它也可以应用于产品设计的其他方面,例如电路设计中的电气特性。例如,在设计电路板时,工程师需要考虑电阻器和电容器的公差频率,以确保电路在所需参数内运行。如果公差过大,电路可能无法按预期工作,导致性能问题甚至故障。除了在工程中的应用外,公差频率在汽车、航空航天和消费电子等各个行业也相关。这些行业依赖精确的测量和严格遵守公差,以确保安全和可靠性。例如,在汽车工业中,刹车部件尺寸的微小偏差可能导致灾难性的故障,因此遵循既定的公差频率指南显得尤为重要。总之,理解公差频率对工程师和制造商都至关重要。它作为确保产品按照正确规格制造的关键工具,最终有助于其安全性、可靠性和性能。通过仔细定义和遵循公差频率标准,各行业可以在有效管理成本的同时提高产品质量。随着技术的不断进步,制造业对精确度的重视只会增加,因此掌握像公差频率这样的概念将变得更加重要。
相关单词
