fault locating

简明释义

故障探测

英英释义

例句

1.After several tests, the engineers succeeded in fault locating the source of the signal loss.

经过多次测试，工程师们成功地进行了故障定位，找到了信号丢失的源头。

2.The software developed for fault locating helps operators quickly pinpoint problems in the system.

用于故障定位的软件帮助操作员快速定位系统中的问题。

3.The technician used advanced tools for fault locating to identify the issue in the electrical circuit.

技术人员使用先进工具进行故障定位以识别电路中的问题。

4.In telecommunications, fault locating is essential for maintaining network reliability.

在电信中，故障定位对于维护网络可靠性至关重要。

5.Using GPS technology can greatly enhance the speed of fault locating in underground utilities.

使用GPS技术可以大大提高地下公用设施故障定位的速度。

作文

In the world of technology, especially in the fields of electrical engineering and telecommunications, the term fault locating refers to the process of identifying the location of faults or failures within a system. This process is crucial for maintaining the integrity and functionality of various systems, including power grids, telecommunications networks, and computer systems. The ability to quickly and accurately locate faults can significantly reduce downtime and maintenance costs, making it an essential skill for engineers and technicians alike.Faults can arise from various sources, such as environmental factors, equipment failure, or human error. For instance, in a power distribution network, a fault might occur due to a fallen tree branch during a storm, causing a power outage in a specific area. In such cases, the prompt identification of the fault’s location allows repair crews to address the issue swiftly, restoring power to affected customers as quickly as possible.There are several methods employed in fault locating that vary depending on the type of system being monitored. One common technique involves the use of specialized equipment that can detect electrical anomalies. For example, in electrical circuits, devices known as fault locators can measure impedance and other parameters to determine where a fault has occurred. These devices send signals through the circuit and analyze the returned data to pinpoint the exact location of the fault.In telecommunications, fault locating can involve the use of signal testing equipment that helps identify breaks or disruptions in communication lines. Technicians may use time-domain reflectometry (TDR) to send pulses down a line and measure how long it takes for the reflection to return. By analyzing this data, they can determine the distance to the fault, allowing them to take appropriate action.Moreover, advancements in technology have led to the development of automated systems that can perform fault locating with minimal human intervention. These systems utilize algorithms and machine learning techniques to analyze large datasets, providing real-time insights into the health of a system. Such innovations not only enhance the speed and accuracy of fault detection but also enable predictive maintenance, where potential issues can be addressed before they lead to significant failures.The importance of fault locating extends beyond just immediate repairs; it plays a vital role in improving overall system reliability. By regularly monitoring systems and promptly addressing faults, organizations can prevent cascading failures that could lead to widespread outages. This proactive approach not only saves time and money but also enhances customer satisfaction by ensuring consistent service delivery.In conclusion, fault locating is a critical aspect of system maintenance in various technological fields. Whether through manual techniques or automated systems, the ability to accurately identify and address faults is essential for ensuring the smooth operation of electrical and communication systems. As technology continues to evolve, the methods and tools for fault locating will likely become even more sophisticated, further enhancing our ability to maintain and improve system reliability. Understanding this concept is vital for anyone involved in engineering or technology, as it underpins the effectiveness and efficiency of modern infrastructure.

在技术领域，特别是在电气工程和电信领域，术语故障定位指的是识别系统中故障或故障位置的过程。这个过程对于维护各种系统的完整性和功能至关重要，包括电网、电信网络和计算机系统。快速准确地定位故障的能力可以显著减少停机时间和维护成本，因此对于工程师和技术人员来说，这是一项必不可少的技能。故障可能来自多种来源，例如环境因素、设备故障或人为错误。例如，在电力分配网络中，故障可能是由于暴风雨中倒下的树枝引起的，导致特定区域停电。在这种情况下，及时识别故障的位置使维修团队能够迅速处理问题，尽快恢复受影响客户的电力供应。在故障定位中使用了几种方法，这些方法因被监测系统的类型而异。一种常见技术涉及使用专用设备来检测电气异常。例如，在电路中，称为故障定位器的设备可以测量阻抗和其他参数，以确定故障发生的位置。这些设备通过电路发送信号，并分析返回的数据以准确找出故障的位置。在电信领域，故障定位可能涉及使用信号测试设备来帮助识别通信线路中的断裂或中断。技术人员可能会使用时间域反射测量（TDR）向线路发送脉冲，并测量反射返回所需的时间。通过分析这些数据，他们可以确定故障的距离，从而采取适当的措施。此外，技术的进步导致了自动化系统的发展，这些系统可以最小化人工干预地进行故障定位。这些系统利用算法和机器学习技术分析大量数据集，提供对系统健康状况的实时洞察。这种创新不仅提高了故障检测的速度和准确性，还使预测性维护成为可能，在潜在问题导致重大故障之前就能进行处理。故障定位的重要性不仅仅体现在立即修复上；它在提高整体系统可靠性方面发挥着重要作用。通过定期监测系统并及时处理故障，组织可以防止级联故障导致广泛停机。这种主动的方法不仅节省了时间和金钱，还通过确保持续的服务交付来增强客户满意度。总之，故障定位是各种技术领域系统维护的关键方面。无论是通过手动技术还是自动化系统，准确识别和解决故障的能力对于确保电气和通信系统的顺利运行至关重要。随着技术的不断发展，故障定位的方法和工具可能会变得更加复杂，从而进一步增强我们维护和改善系统可靠性的能力。理解这一概念对于任何参与工程或技术的人来说都是至关重要的，因为它支撑着现代基础设施的有效性和效率。