operating characteristic

简明释义

操作性能

英英释义

例句

1.Before deploying the equipment, we need to analyze its operating characteristic under different conditions.

在部署设备之前，我们需要分析其在不同条件下的操作特性。

2.The operating characteristic of the vehicle impacts its fuel efficiency significantly.

车辆的操作特性显著影响其燃油效率。

3.Understanding the operating characteristic of a system is crucial for effective troubleshooting.

理解系统的操作特性对于有效故障排除至关重要。

4.The engineer explained the operating characteristic of the new machine during the presentation.

工程师在演示中解释了新机器的操作特性。

5.The software's operating characteristic allows it to run efficiently on various platforms.

该软件的操作特性使其能够在各种平台上高效运行。

作文

In the field of engineering and technology, understanding various systems is crucial for successful implementation and operation. One important concept that engineers often encounter is the term operating characteristic, which refers to the specific performance features and behaviors of a system under different conditions. This term encompasses various aspects such as efficiency, reliability, and response time, all of which are vital for assessing how well a system performs its intended functions. The operating characteristic of a machine may include its speed, power consumption, and operational limits, which can significantly impact its usability in real-world applications.To illustrate the importance of operating characteristic, let us consider the example of an electric motor. The operating characteristic of an electric motor includes parameters such as torque, speed, and efficiency at various load conditions. Engineers must analyze these characteristics to ensure that the motor will perform adequately for its intended application, whether it be in a household appliance or an industrial machine. If the operating characteristic indicates that the motor will overheat under certain loads, it could lead to failure and costly repairs, thus highlighting the necessity of thorough testing and understanding of these characteristics.Moreover, the operating characteristic can also have implications for safety. For instance, in automotive engineering, understanding the operating characteristic of braking systems is critical. Engineers must ensure that brakes respond effectively under various conditions, such as wet or icy roads. A thorough analysis of the operating characteristic of the braking system can prevent accidents and save lives.In addition to mechanical systems, the concept of operating characteristic extends to software and digital systems. In software engineering, the operating characteristic includes response times, throughput, and resource utilization. For example, a web application’s operating characteristic can determine how many users can access the site simultaneously without experiencing delays. Understanding these characteristics allows developers to optimize their applications for better user experiences and resource management.Furthermore, the operating characteristic can aid in decision-making processes. Businesses often rely on data analytics to evaluate the operating characteristic of their products or services. By analyzing customer feedback and performance metrics, companies can make informed decisions about product improvements or marketing strategies. This data-driven approach ensures that businesses remain competitive and responsive to market demands.In conclusion, the term operating characteristic is a critical concept across various fields, including engineering, software development, and business management. It provides essential insights into the performance and behavior of systems, enabling professionals to make informed decisions regarding design, safety, and optimization. By thoroughly understanding the operating characteristic of a system, engineers and managers can enhance functionality, improve safety, and ultimately achieve greater success in their respective domains.

在工程和技术领域，理解各种系统对于成功的实施和操作至关重要。工程师经常遇到的一个重要概念是术语操作特性，它指的是系统在不同条件下的特定性能特征和行为。这个术语涵盖了效率、可靠性和响应时间等各个方面，这些都是评估系统如何执行其预期功能的重要因素。机器的操作特性可能包括其速度、能耗和操作限制，这些都会对其在现实应用中的可用性产生重大影响。为了说明操作特性的重要性，让我们考虑一个电动机的例子。电动机的操作特性包括在各种负载条件下的扭矩、速度和效率等参数。工程师必须分析这些特性，以确保电动机在其预期应用中表现良好，无论是在家用电器还是工业机器中。如果操作特性表明电动机在某些负载下会过热，这可能导致故障和昂贵的维修，从而突显出对这些特性的彻底测试和理解的必要性。此外，操作特性也可能对安全产生影响。例如，在汽车工程中，了解制动系统的操作特性至关重要。工程师必须确保制动器在各种条件下有效响应，例如湿滑或结冰的道路。对制动系统的操作特性进行彻底分析可以防止事故并拯救生命。除了机械系统，操作特性的概念还扩展到软件和数字系统。在软件工程中，操作特性包括响应时间、吞吐量和资源利用率。例如，Web应用程序的操作特性可以决定有多少用户可以同时访问该网站而不会体验到延迟。理解这些特性使开发人员能够优化他们的应用程序，以改善用户体验和资源管理。此外，操作特性还可以帮助决策过程。企业通常依赖数据分析来评估其产品或服务的操作特性。通过分析客户反馈和绩效指标，公司可以就产品改进或营销策略做出明智的决策。这种数据驱动的方法确保企业保持竞争力，并对市场需求做出响应。总之，术语操作特性是各个领域的关键概念，包括工程、软件开发和商业管理。它提供了对系统性能和行为的基本见解，使专业人士能够就设计、安全和优化做出明智的决策。通过彻底理解系统的操作特性，工程师和管理者可以增强功能，提高安全性，并最终在各自领域取得更大的成功。