induced over-voltage

简明释义

感应过电压

英英释义

例句

1.The transformer experienced an induced over-voltage during the lightning storm, causing temporary disruptions.

在雷暴期间，变压器经历了感应过电压，导致暂时性中断。

2.The engineers measured the induced over-voltage levels to ensure the safety of the circuit.

工程师们测量了感应过电压水平，以确保电路的安全性。

3.The design of the cable system must account for potential induced over-voltage from nearby power lines.

电缆系统的设计必须考虑到来自附近电力线的潜在感应过电压。

4.A surge protector can help mitigate the effects of induced over-voltage on sensitive equipment.

浪涌保护器可以帮助减轻感应过电压对敏感设备的影响。

5.To prevent induced over-voltage, proper grounding techniques must be employed in electrical installations.

为了防止感应过电压，在电气安装中必须采用适当的接地技术。

作文

In today's rapidly advancing technological landscape, the importance of electrical safety cannot be overstated. One critical phenomenon that engineers and technicians must understand is induced over-voltage (感应过电压). This term refers to a voltage spike that occurs in an electrical system due to external influences, such as lightning strikes or electromagnetic interference. Understanding this concept is essential for designing reliable and safe electrical systems.Firstly, it is important to recognize the causes of induced over-voltage (感应过电压). These voltage spikes can originate from various sources, including nearby lightning strikes, which can induce high voltages in power lines and equipment. Additionally, switching operations in electrical networks can generate transient voltages that may lead to induced over-voltage (感应过电压). Electromagnetic fields generated by large machinery can also contribute to this phenomenon, causing disturbances in sensitive electronic devices.The effects of induced over-voltage (感应过电压) can be quite severe. When these voltage spikes occur, they can damage electrical insulation, leading to short circuits or even catastrophic failures in equipment. For instance, in industrial settings, sensitive control systems can be disrupted, resulting in production downtime and financial losses. Furthermore, the implications of induced over-voltage (感应过电压) extend beyond individual devices; entire electrical grids can experience instability due to these voltage fluctuations, which can affect the reliability of power supply.To mitigate the risks associated with induced over-voltage (感应过电压), engineers employ various protective measures. One common approach is the use of surge protection devices (SPDs), which are designed to divert excess voltage away from sensitive equipment. These devices can absorb the energy from a voltage spike, thus preventing it from reaching critical components. Additionally, proper grounding techniques are essential in reducing the impact of induced over-voltage (感应过电压) by providing a safe path for excess current to flow.Another effective strategy involves the implementation of shielding techniques. By enclosing sensitive equipment in conductive materials, engineers can create a barrier that reduces the influence of external electromagnetic fields. This is particularly important in environments where large machinery operates, as the potential for induced over-voltage (感应过电压) increases significantly.In conclusion, understanding induced over-voltage (感应过电压) is crucial for anyone involved in electrical engineering or technology. As our reliance on electrical systems continues to grow, the need for robust protection against voltage spikes becomes increasingly important. By implementing effective mitigation strategies, such as surge protection devices and proper grounding techniques, we can safeguard our equipment and ensure the stability of our electrical infrastructure. The awareness and management of induced over-voltage (感应过电压) will ultimately contribute to safer and more reliable electrical systems for the future.

在当今快速发展的技术环境中，电气安全的重要性不容忽视。工程师和技术人员必须理解的一个关键现象是感应过电压（induced over-voltage）。这个术语指的是由于外部影响（如雷击或电磁干扰）而发生在电气系统中的电压尖峰。理解这一概念对于设计可靠和安全的电气系统至关重要。首先，重要的是要认识到感应过电压（induced over-voltage）的成因。这些电压尖峰可以源自各种来源，包括附近的雷击，这可能会在电力线和设备中感应出高电压。此外，电气网络中的切换操作也会产生瞬态电压，可能导致感应过电压（induced over-voltage）。大型机械产生的电磁场也可能导致这种现象，造成对敏感电子设备的干扰。感应过电压（induced over-voltage）的影响可能非常严重。当这些电压尖峰发生时，它们可能会损坏电气绝缘材料，导致短路甚至设备的灾难性故障。例如，在工业环境中，敏感的控制系统可能会受到干扰，导致生产停工和经济损失。此外，感应过电压（induced over-voltage）的影响不仅限于单个设备；整个电网可能由于这些电压波动而经历不稳定，从而影响电力供应的可靠性。为了降低与感应过电压（induced over-voltage）相关的风险，工程师采用各种保护措施。一种常见的方法是使用浪涌保护装置（SPD），这些装置旨在将多余的电压引导离敏感设备。这些设备可以吸收电压尖峰的能量，从而防止其到达关键组件。此外，适当的接地技术对于减少感应过电压（induced over-voltage）的影响至关重要，因为它提供了一个安全的路径，让多余的电流流动。另一种有效的策略是实施屏蔽技术。通过将敏感设备包裹在导电材料中，工程师可以创建一个减少外部电磁场影响的屏障。这在大型机械操作的环境中尤其重要，因为感应过电压（induced over-voltage）的潜在风险显著增加。总之，了解感应过电压（induced over-voltage）对于任何参与电气工程或技术的人来说都是至关重要的。随着我们对电气系统的依赖不断增加，对电压尖峰的强有力保护的需求变得越来越重要。通过实施有效的缓解策略，如浪涌保护装置和适当的接地技术，我们可以保护我们的设备，确保电气基础设施的稳定性。对感应过电压（induced over-voltage）的意识和管理最终将有助于未来更安全、更可靠的电气系统。