operating range

简明释义

运行范围

英英释义

例句

1.The engine's operating range is between 1500 and 3000 RPM.

发动机的工作范围是在1500到3000转每分钟之间。

2.Understanding the operating range of this software is crucial for optimal performance.

了解该软件的工作范围对优化性能至关重要。

3.The drone can fly efficiently within its operating range of 100 meters.

无人机在其工作范围100米内可以高效飞行。

4.Make sure to keep the temperature within the operating range specified by the manufacturer.

确保将温度保持在制造商指定的工作范围内。

5.This machine has an operating range of 0 to 100 psi.

这台机器的工作范围是0到100磅每平方英寸。

作文

The concept of operating range is crucial in various fields, particularly in engineering and technology. It refers to the limits within which a system, device, or machine can function effectively. Understanding the operating range of any equipment is essential for ensuring optimal performance and safety. For instance, in the context of an engine, the operating range defines the speed and load conditions under which the engine can operate without experiencing undue stress or failure.In the world of electronics, the operating range is often associated with voltage and temperature. Each electronic component has a specified operating range that dictates the maximum and minimum voltage levels it can handle. Exceeding these limits can lead to malfunction or permanent damage. Similarly, temperature plays a significant role; components may have a defined operating range that ensures they do not overheat or become too cold, which could affect their performance.Moreover, the operating range is not just a technical specification; it also influences design decisions. Engineers must consider the operating range when developing new products to ensure they meet user needs while remaining safe and reliable. For example, when designing a vehicle, engineers will assess the operating range of the car’s engine, brakes, and other critical systems to ensure they work harmoniously under various driving conditions.In the realm of data analysis, the operating range can also refer to the acceptable limits of data input for algorithms and models. Data scientists must understand the operating range of their models to avoid errors that could arise from out-of-range values. This understanding helps in refining models and improving their accuracy, thereby making informed decisions based on the data.Furthermore, the operating range concept extends into environmental considerations as well. For instance, many machines are designed to operate within specific environmental conditions. Factors such as humidity, altitude, and atmospheric pressure can all affect the operating range of a device. Manufacturers often provide guidelines on how to use their products within the recommended operating range to prevent failures caused by extreme conditions.In conclusion, grasping the idea of operating range is vital across various disciplines. Whether in engineering, electronics, data analysis, or environmental science, knowing the limits of operation helps in maximizing efficiency, ensuring safety, and enhancing overall performance. As technology continues to evolve, the importance of understanding and adhering to the operating range will only grow, emphasizing the need for thorough testing and validation in product development. By paying attention to these parameters, we can create more reliable and effective solutions that meet the demands of users and the environment alike.

“操作范围”这一概念在多个领域中至关重要，尤其是在工程和技术领域。它指的是一个系统、设备或机器可以有效运作的限制。理解任何设备的“操作范围”对于确保最佳性能和安全性至关重要。例如，在发动机的上下文中，“操作范围”定义了发动机可以在不经历过度压力或故障的情况下运行的速度和负载条件。在电子产品的世界中，“操作范围”通常与电压和温度相关。每个电子元件都有一个指定的“操作范围”，规定了它能承受的最大和最小电压水平。超出这些限制可能导致故障或永久损坏。同样，温度也起着重要作用；组件可能具有定义的“操作范围”，以确保它们不会过热或变得过冷，这可能会影响其性能。此外，“操作范围”不仅仅是一个技术规格；它还影响设计决策。工程师在开发新产品时必须考虑“操作范围”，以确保它们满足用户需求，同时保持安全和可靠。例如，在设计车辆时，工程师将评估汽车发动机、刹车和其他关键系统的“操作范围”，以确保它们在各种驾驶条件下协调工作。在数据分析领域，“操作范围”也可以指算法和模型的可接受数据输入限制。数据科学家必须理解其模型的“操作范围”，以避免因超出范围值而产生的错误。这种理解有助于优化模型并提高其准确性，从而根据数据做出明智的决策。此外，“操作范围”概念还扩展到环境考虑因素。例如，许多机器被设计为在特定环境条件下运行。湿度、高度和气压等因素都可能影响设备的“操作范围”。制造商通常提供关于如何在推荐的“操作范围”内使用其产品的指南，以防止由于极端条件造成的故障。总之，掌握“操作范围”这一概念在各个学科中都是至关重要的。无论是在工程、电子、数据分析还是环境科学中，了解操作的限制有助于最大限度地提高效率、确保安全性并增强整体性能。随着技术的不断发展，理解和遵守“操作范围”的重要性只会增加，强调在产品开发中进行全面测试和验证的必要性。通过关注这些参数，我们可以创建更可靠和有效的解决方案，以满足用户和环境的需求。