voltage excursion

简明释义

电压偏移

英英释义

例句

1.Engineers implemented a new protocol to manage voltage excursions (电压波动) in the grid system.

工程师们实施了一项新协议，以管理电网系统中的电压波动。

2.The electrical engineer reported a significant voltage excursion (电压波动) during the testing phase of the new circuit.

电气工程师在新电路的测试阶段报告了显著的电压波动。

3.To prevent damage to the equipment, we need to monitor any voltage excursion (电压波动) that occurs in the power supply.

为了防止设备损坏，我们需要监控电源中发生的任何电压波动。

4.The generator experienced a voltage excursion (电压波动) that caused the lights to flicker intermittently.

发电机经历了电压波动，导致灯光间歇性闪烁。

5.During the storm, the power lines suffered from a voltage excursion (电压波动) that affected several neighborhoods.

暴风雨期间，电力线路遭遇了电压波动，影响了几个社区。

作文

In the realm of electrical engineering, understanding the concept of voltage excursion is crucial for both safety and efficiency. A voltage excursion refers to a temporary deviation in voltage levels from their normal operating range. This phenomenon can occur due to various reasons, including sudden changes in load, faults in the electrical network, or even external factors such as lightning strikes. Understanding these excursions is vital for engineers and technicians who work with electrical systems.When a voltage excursion occurs, it can lead to several issues. For instance, if the voltage spikes significantly above the rated level, it can cause damage to sensitive electronic equipment. Many devices are designed to operate within specific voltage parameters, and exceeding these limits can result in overheating, component failure, or even total system shutdown. Conversely, a drop in voltage, known as a voltage sag, can lead to insufficient power supply for equipment, causing malfunctions or decreased performance.One of the primary challenges in managing voltage excursions is predicting when they will occur. Electrical systems are complex and can be influenced by numerous variables. Engineers often employ sophisticated monitoring systems that track voltage levels in real-time. These systems can alert operators to potential issues before they escalate into more significant problems. Additionally, implementing protective devices such as surge protectors and voltage regulators can help mitigate the effects of voltage excursions.The implications of voltage excursions extend beyond individual devices. In industrial settings, a single excursion can impact an entire production line, leading to costly downtime and lost productivity. Therefore, companies must prioritize voltage stability and invest in infrastructure that minimizes the risk of these excursions. Regular maintenance of electrical systems, combined with employee training on recognizing and responding to voltage issues, can significantly reduce the likelihood of negative outcomes.Moreover, in renewable energy systems, the occurrence of voltage excursions can be particularly pronounced. Solar panels and wind turbines produce variable outputs based on environmental conditions. When integrated into a larger grid, these fluctuations can lead to voltage instability. As the world moves towards more sustainable energy sources, understanding and managing voltage excursions will become increasingly important.In conclusion, voltage excursions represent a critical aspect of electrical engineering that cannot be overlooked. Their potential to disrupt operations and damage equipment highlights the need for effective monitoring and management strategies. By investing in technology and training, industries can better prepare for and respond to these voltage fluctuations, ensuring a safer and more efficient electrical environment. As we continue to advance technologically, the importance of understanding voltage excursions will only grow, making it a key area of focus for engineers and technicians alike.

在电气工程领域，理解电压波动的概念对于安全和效率至关重要。电压波动是指电压水平暂时偏离正常工作范围的现象。这种现象可能由于多种原因而发生，包括负载的突然变化、电网故障，甚至外部因素如雷击。理解这些波动对从事电气系统工作的工程师和技术人员至关重要。当发生电压波动时，可能会导致几个问题。例如，如果电压显著高于额定水平，可能会对敏感电子设备造成损害。许多设备设计为在特定电压参数范围内运行，超过这些限制可能会导致过热、组件故障，甚至整个系统停机。相反，电压下降，即电压下跌，可能导致设备供电不足，造成故障或性能下降。管理电压波动的主要挑战之一是预测它们何时发生。电气系统复杂，可能受到众多变量的影响。工程师通常采用复杂的监测系统，实时跟踪电压水平。这些系统可以在问题升级为更严重的问题之前提醒操作员。此外，实施保护设备，如浪涌保护器和电压调节器，可以帮助减轻电压波动的影响。电压波动的影响不仅限于单个设备。在工业环境中，单个波动可能会影响整个生产线，导致昂贵的停工时间和生产力损失。因此，公司必须优先考虑电压稳定性，并投资于减少这些波动风险的基础设施。定期维护电气系统，加上对员工进行识别和应对电压问题的培训，可以显著降低负面结果的可能性。此外，在可再生能源系统中，电压波动的发生可能特别明显。太阳能电池板和风力涡轮机的输出基于环境条件而变化。当这些波动集成到更大的电网中时，可能会导致电压不稳定。随着世界向更可持续的能源来源转型，理解和管理电压波动将变得越来越重要。总之，电压波动代表了电气工程中一个关键的方面，不能被忽视。它们对操作的干扰和对设备的损害潜力突显了有效监测和管理策略的必要性。通过投资于技术和培训，行业可以更好地为这些电压波动做好准备并作出响应，从而确保更安全、更高效的电气环境。随着我们技术的不断进步，理解电压波动的重要性只会增加，使其成为工程师和技术人员共同关注的关键领域。