voltage trip

简明释义

电压脱扣

英英释义

例句

1.We need to check the settings on the inverter to ensure it won't voltage trip during operation.

我们需要检查逆变器的设置，以确保在运行期间不会发生电压跳闸。

2.The circuit breaker experienced a voltage trip, causing all the lights to go out.

电路断路器发生了电压跳闸，导致所有灯都熄灭。

3.When the power surged, the system initiated a voltage trip to protect the equipment.

当电力过载时，系统启动了电压跳闸以保护设备。

4.After the voltage trip, the technician inspected the wiring for any faults.

在发生电压跳闸后，技术人员检查了线路是否有故障。

5.A voltage trip can indicate an underlying issue with the electrical system.

电压跳闸可能表明电气系统存在潜在问题。

作文

In today's world, where technology plays a crucial role in our daily lives, understanding electrical systems is more important than ever. One term that often comes up in discussions about electrical safety and equipment performance is voltage trip. A voltage trip refers to a protective mechanism that automatically disconnects electrical power when the voltage exceeds or falls below a predefined threshold. This is essential for preventing damage to electrical devices and ensuring the safety of both users and equipment. Electrical systems are designed to operate within specific voltage ranges. For example, most household appliances work optimally at 120 volts or 240 volts, depending on the region. However, fluctuations in the electrical supply can occur due to various reasons such as lightning strikes, power surges, or faults in the electrical grid. When the voltage deviates significantly from its normal range, it can lead to overheating, short circuits, or even fires. This is where the concept of voltage trip becomes vital. The voltage trip mechanism is typically integrated into circuit breakers and protection relays. These devices monitor the voltage levels and are programmed to react when they detect an anomaly. For instance, if a voltage spike occurs, the circuit breaker will 'trip' or turn off the circuit to prevent any damage. Similarly, if the voltage drops too low, the system may also shut down to avoid malfunctioning of sensitive equipment. Understanding how voltage trip works can help individuals and businesses ensure their electrical systems are safe and reliable. Regular maintenance of electrical systems, including testing and inspecting circuit breakers, can help identify potential issues before they escalate. Additionally, investing in surge protectors and voltage stabilizers can provide an extra layer of security against unexpected voltage changes. Furthermore, the importance of voltage trip extends beyond individual households. In industrial settings, where large machinery and sensitive electronic equipment are used, a voltage trip can mean the difference between operational efficiency and costly downtime. Industries often rely on sophisticated monitoring systems that include voltage trip functionalities to protect their assets and maintain productivity. In conclusion, the term voltage trip embodies a critical aspect of electrical safety and efficiency. By understanding its significance and implementing appropriate protective measures, we can safeguard our electrical systems against potential hazards. Whether at home or in an industrial environment, being aware of how voltage trip functions can lead to better decision-making regarding electrical safety and maintenance. As technology continues to evolve, the role of voltage trip mechanisms will undoubtedly become even more crucial in protecting our electrical infrastructure.

在当今这个技术在我们日常生活中扮演着至关重要角色的世界里，理解电气系统比以往任何时候都更为重要。一个在讨论电气安全和设备性能时经常出现的术语是电压跳闸。电压跳闸指的是一种保护机制，当电压超过或低于预定阈值时，自动断开电源。这对于防止电气设备损坏和确保用户及设备的安全至关重要。电气系统被设计为在特定的电压范围内运行。例如，大多数家庭电器在120伏或240伏的电压下最佳工作，具体取决于地区。然而，由于闪电、功率浪涌或电网故障等各种原因，电源中的波动可能会发生。当电压显著偏离正常范围时，可能导致过热、短路甚至火灾。这就是电压跳闸概念变得至关重要的地方。电压跳闸机制通常集成在断路器和保护继电器中。这些设备监测电压水平，并被编程为在检测到异常时做出反应。例如，如果发生电压尖峰，断路器将“跳闸”或关闭电路以防止任何损坏。同样，如果电压过低，系统也可能关闭，以避免敏感设备的故障。理解电压跳闸的工作原理可以帮助个人和企业确保其电气系统安全可靠。定期维护电气系统，包括测试和检查断路器，可以帮助在问题升级之前识别潜在问题。此外，投资于浪涌保护器和电压稳定器可以为意外电压变化提供额外的安全保障。此外，电压跳闸的重要性超出了单个家庭。在工业环境中，使用大型机械和敏感电子设备时，电压跳闸可能意味着操作效率与昂贵停机之间的区别。工业通常依赖于包括电压跳闸功能的复杂监控系统来保护其资产并维持生产力。总之，电压跳闸这一术语体现了电气安全和效率的关键方面。通过理解其重要性并实施适当的保护措施，我们可以保护我们的电气系统免受潜在危害。无论是在家中还是在工业环境中，了解电压跳闸的功能可以促进更好的电气安全和维护决策。随着技术的不断发展，电压跳闸机制在保护我们的电气基础设施方面无疑将变得更加重要。