operating range limit

简明释义

极限酌范围

英英释义

例句

1.The vehicle's performance can degrade significantly if it operates beyond its operating range limit 操作范围限制.

如果车辆超出其操作范围限制，性能可能会显著下降。

2.Engine temperature should always be kept within the operating range limit 操作范围限制 to avoid damage.

发动机温度应始终保持在操作范围限制内，以避免损坏。

3.The software alerts the user when the system approaches its operating range limit 操作范围限制.

当系统接近其操作范围限制时，软件会提醒用户。

4.It's crucial to monitor the operating range limit 操作范围限制 to ensure safety during production.

在生产过程中，监控操作范围限制至关重要，以确保安全。

5.The machine will shut down automatically if it exceeds the operating range limit 操作范围限制.

如果机器超过了操作范围限制，它将自动关闭。

作文

In the world of engineering and technology, understanding the concept of operating range limit is crucial for ensuring the safety and efficiency of various systems. The term operating range limit refers to the maximum and minimum boundaries within which a system, device, or component can function effectively without experiencing failure or degradation in performance. This concept is applicable in various fields, including mechanical engineering, electronics, and even software development.For instance, consider a simple electric motor. Every motor has a specific operating range limit defined by its voltage and current specifications. If the voltage exceeds the upper limit, the motor may overheat, leading to potential damage or complete failure. Conversely, if the voltage falls below the lower limit, the motor may not start or could operate inefficiently, resulting in poor performance. Therefore, adhering to these operating range limits is essential for maintaining the longevity and reliability of the motor.Similarly, in the field of software engineering, applications have operating range limits related to hardware specifications. For example, a video game may require a certain amount of RAM and processing power to run smoothly. If a user's computer does not meet these requirements, the game might lag or crash, indicating that the system has exceeded its operating range limit. Understanding these limits helps developers optimize their software to ensure it runs well on a variety of devices.In the automotive industry, the operating range limit is also a critical factor. Vehicles are designed to operate within specific temperature ranges, fuel types, and speed limits. Exceeding these parameters can lead to engine failure, reduced fuel efficiency, or even accidents. Manufacturers conduct extensive testing to determine these operating range limits to ensure that vehicles perform safely and efficiently under various conditions.Moreover, the concept of operating range limit extends to environmental factors as well. For example, certain equipment may have a specified operating temperature range. If this equipment is exposed to temperatures beyond this range, it may malfunction or become unsafe to use. Understanding these limits allows operators to implement safety measures, such as cooling systems or protective enclosures, to maintain optimal functioning.In conclusion, the importance of recognizing and adhering to operating range limits cannot be overstated. Whether in engineering, technology, or any other field, these limits serve as guidelines that help ensure the safe and efficient operation of systems and components. By respecting these boundaries, professionals can prevent failures, enhance performance, and ultimately contribute to the overall success of their projects. As technology continues to evolve, the understanding of operating range limits will remain a fundamental aspect of design and implementation, ensuring that innovations are both effective and reliable.

在工程和技术的世界中，理解操作范围限制这一概念对于确保各种系统的安全性和效率至关重要。术语操作范围限制指的是系统、设备或组件能够有效运行而不会出现故障或性能下降的最大和最小边界。这个概念适用于多个领域，包括机械工程、电子学，甚至软件开发。例如，考虑一个简单的电动机。每个电动机都有特定的操作范围限制，由其电压和电流规格定义。如果电压超过上限，电动机可能会过热，导致潜在的损坏或完全失效。相反，如果电压低于下限，电动机可能无法启动或运行效率低下，从而导致性能不佳。因此，遵守这些操作范围限制对于维持电动机的耐用性和可靠性至关重要。同样，在软件工程领域，应用程序也有与硬件规格相关的操作范围限制。例如，一款视频游戏可能需要一定量的RAM和处理能力才能顺利运行。如果用户的计算机不符合这些要求，游戏可能会延迟或崩溃，表明系统已超出其操作范围限制。理解这些限制帮助开发者优化他们的软件，以确保它在各种设备上良好运行。在汽车工业中，操作范围限制也是一个关键因素。车辆被设计为在特定的温度范围、燃料类型和速度限制内运行。超出这些参数可能导致发动机故障、燃油效率降低，甚至发生事故。制造商进行广泛的测试以确定这些操作范围限制，以确保车辆在各种条件下安全高效地运行。此外，操作范围限制的概念还扩展到环境因素。例如，某些设备可能具有特定的工作温度范围。如果该设备暴露在超出此范围的温度下，它可能会发生故障或变得不安全。理解这些限制使操作员能够实施安全措施，例如冷却系统或保护外壳，以保持最佳功能。总之，认识和遵守操作范围限制的重要性不容小觑。无论是在工程、技术还是其他任何领域，这些限制作为指导方针，帮助确保系统和组件的安全和高效运行。通过尊重这些边界，专业人员可以防止故障、提高性能，并最终为他们项目的整体成功做出贡献。随着技术的不断发展，对操作范围限制的理解将始终是设计和实施的基本方面，确保创新既有效又可靠。