disruptive voltage

简明释义

击穿电压

英英释义

例句

1.The technician warned that the circuit might experience disruptive voltage 干扰电压 during the storm.

技术人员警告说，电路在暴风雨期间可能会经历干扰电压。

2.The power supply unit failed due to disruptive voltage 干扰电压 fluctuations.

由于干扰电压波动，电源单元发生故障。

3.During testing, the equipment showed signs of disruptive voltage 干扰电压 interference.

在测试过程中，设备显示出干扰电压干扰的迹象。

4.To avoid damage, we need to install filters that can handle disruptive voltage 干扰电压 spikes.

为了避免损坏，我们需要安装能够处理干扰电压峰值的滤波器。

5.Engineers are developing a new device that can detect disruptive voltage 干扰电压 levels in real-time.

工程师们正在开发一种新设备，可以实时检测干扰电压水平。

作文

In today's world, where technology plays a pivotal role in our daily lives, the concept of voltage is crucial to understand. One term that often arises in discussions about electrical systems is disruptive voltage. This term refers to a sudden spike or increase in voltage that can lead to unwanted effects in electronic devices and systems. Understanding this phenomenon is essential for both engineers and consumers alike, as it can have significant implications for the reliability and safety of electrical equipment.To comprehend disruptive voltage, we first need to explore the basic principles of electricity. Voltage, defined as the electric potential difference between two points, is what drives electric current through a circuit. However, when there are abrupt changes in voltage, such as surges caused by lightning strikes or power outages, these changes can disrupt the normal functioning of electrical devices. This is where the term disruptive voltage becomes relevant.The impact of disruptive voltage can be particularly severe in sensitive electronic equipment. For example, computers, telecommunications devices, and medical equipment all rely on stable voltage levels to operate correctly. When faced with disruptive voltage, these devices may experience malfunctions, data loss, or even permanent damage. Therefore, understanding how to protect against such occurrences is vital for manufacturers and users.One common solution to mitigate the risks associated with disruptive voltage is the use of surge protection devices (SPDs). These devices are designed to detect sudden increases in voltage and divert excess electricity away from sensitive components. By installing SPDs, individuals and businesses can safeguard their equipment against the harmful effects of disruptive voltage. Additionally, regular maintenance of electrical systems can help identify potential vulnerabilities that may lead to disruptive events.Furthermore, education plays a crucial role in raising awareness about disruptive voltage. Many people are unaware of the potential dangers posed by electrical surges and the importance of protective measures. Schools and organizations should incorporate electrical safety into their curricula and training programs to ensure that everyone understands how to protect themselves and their devices from disruptive voltage.In conclusion, disruptive voltage is a significant concern in our increasingly electronic world. As technology continues to advance, the reliance on stable voltage levels will only grow. By understanding what disruptive voltage is and how it can affect our devices, we can take proactive steps to safeguard our equipment and ensure its longevity. Whether through the use of surge protection devices, regular maintenance, or education, there are various strategies available to combat the challenges posed by disruptive voltage. Ultimately, awareness and preparedness are key to navigating the complexities of modern electrical systems.

在当今世界，科技在我们日常生活中扮演着关键角色，因此理解电压的概念至关重要。一个经常出现在关于电气系统讨论中的术语是破坏性电压。这个术语指的是电压的突然激增或增加，这可能导致电子设备和系统出现不必要的影响。理解这一现象对于工程师和消费者来说都是至关重要的，因为它可能对电气设备的可靠性和安全性产生重大影响。要理解破坏性电压，我们首先需要探讨电力的基本原理。电压被定义为两个点之间的电位差，是推动电流通过电路的动力。然而，当电压发生突然变化时，比如由于雷击或停电引起的浪涌，这些变化可能会干扰电气设备的正常运行。这就是破坏性电压这一术语相关的地方。破坏性电压的影响在敏感电子设备中尤为严重。例如，计算机、通信设备和医疗设备都依赖于稳定的电压水平来正常工作。当面临破坏性电压时，这些设备可能会出现故障、数据丢失甚至永久性损坏。因此，了解如何防范此类事件对制造商和用户而言至关重要。减轻与破坏性电压相关风险的一种常见解决方案是使用浪涌保护装置（SPD）。这些设备旨在检测电压的突然增加，并将多余的电力转移到敏感组件之外。通过安装SPD，个人和企业可以保护他们的设备免受破坏性电压的有害影响。此外，定期维护电气系统可以帮助识别可能导致破坏事件的潜在漏洞。此外，教育在提高人们对破坏性电压的认识方面发挥着关键作用。许多人并不知道电气浪涌可能带来的潜在危险以及保护措施的重要性。学校和组织应将电气安全纳入其课程和培训项目，以确保每个人都了解如何保护自己和他们的设备免受破坏性电压的影响。总之，破坏性电压在我们日益电子化的世界中是一个重要问题。随着技术的不断进步，对稳定电压水平的依赖只会增加。通过理解破坏性电压是什么以及它如何影响我们的设备，我们可以采取积极措施来保护我们的设备并确保其使用寿命。无论是通过使用浪涌保护装置、定期维护还是教育，均有多种策略可用于应对破坏性电压所带来的挑战。最终，意识和准备是应对现代电气系统复杂性的关键。