disruptive voltage

简明释义

哗电压

英英释义

例句

1.The technician warned that any disruptive voltage 干扰电压 could damage the sensitive equipment.

技术人员警告说，任何 干扰电压 disruptive voltage 都可能损坏敏感设备。

2.Engineers must consider disruptive voltage 干扰电压 when designing circuits for high-frequency applications.

工程师在为高频应用设计电路时必须考虑 干扰电压 disruptive voltage。

3.The power supply unit was designed to filter out any disruptive voltage 干扰电压 from the main line.

电源单元的设计旨在过滤掉主线路中的任何 干扰电压 disruptive voltage。

4.To prevent disruptive voltage 干扰电压, we installed surge protectors throughout the facility.

为了防止 干扰电压 disruptive voltage，我们在整个设施中安装了浪涌保护器。

5.The laboratory tests showed that the device was susceptible to disruptive voltage 干扰电压 from nearby machinery.

实验室测试表明，该设备易受到附近机械产生的 干扰电压 disruptive voltage 的影响。

作文

In our increasingly electrified world, the term disruptive voltage refers to an electrical phenomenon that can cause significant disturbances in electronic circuits and systems. Understanding this concept is crucial for engineers and technicians working with electrical equipment. The implications of disruptive voltage stretch across various fields, including telecommunications, power generation, and even consumer electronics.To begin with, disruptive voltage can be defined as a sudden and unexpected change in voltage levels that leads to malfunction or failure of electrical devices. This can occur due to several factors, such as lightning strikes, power surges, or faults in the electrical system. For instance, when lightning strikes a power line, it generates a massive spike in voltage that can travel through the circuit, causing damage to connected devices. In this scenario, the disruptive voltage not only disrupts normal operations but can also lead to costly repairs and downtime.Moreover, the impact of disruptive voltage is not limited to physical damage. It can also result in data loss or corruption, especially in sensitive electronic systems. For example, in data centers where servers operate continuously, a sudden spike in voltage could lead to hardware failures or data integrity issues. As we rely more on technology for critical operations, understanding and mitigating the risks associated with disruptive voltage becomes increasingly important.To address these challenges, engineers employ various protective measures. Surge protectors are commonly used to shield devices from spikes in voltage. These devices act as a buffer, absorbing excess voltage and preventing it from reaching sensitive components. Additionally, circuit breakers can automatically disconnect power when they detect abnormal voltage levels, thereby protecting the entire system from potential damage. By implementing these solutions, organizations can significantly reduce the risk posed by disruptive voltage.Furthermore, advancements in technology have led to the development of smart grid systems that can monitor and manage voltage levels in real-time. These systems use sensors and automated controls to detect anomalies and respond accordingly. By integrating such technologies, utilities can enhance the reliability of their power distribution networks and minimize the occurrences of disruptive voltage events.In conclusion, the concept of disruptive voltage is vital for anyone involved in the design, maintenance, or operation of electrical systems. As technology continues to evolve, understanding how to manage and mitigate the effects of disruptive voltage will be essential for ensuring the reliability and safety of electrical infrastructure. By employing protective measures and leveraging advanced technologies, we can safeguard our devices and systems against the unpredictable nature of electrical disturbances, ultimately leading to a more stable and efficient technological landscape.

在我们日益电气化的世界中，术语disruptive voltage指的是一种电气现象，它可能导致电子电路和系统的重大干扰。理解这个概念对于从事电气设备工作的工程师和技术人员至关重要。disruptive voltage的影响遍及多个领域，包括电信、发电甚至消费电子产品。首先，disruptive voltage可以被定义为电压水平的突然和意外变化，这会导致电气设备的故障或失效。这种情况可能由于多种因素引起，例如雷击、电涌或电气系统中的故障。例如，当雷电击中电力线路时，会产生巨大的电压尖峰，这可能在电路中传播，导致连接设备的损坏。在这种情况下，disruptive voltage不仅会干扰正常操作，还可能导致昂贵的维修和停机。此外，disruptive voltage的影响并不仅限于物理损坏。它还可能导致数据丢失或损坏，尤其是在敏感电子系统中。例如，在数据中心，服务器持续运行，电压的突然尖峰可能导致硬件故障或数据完整性问题。随着我们越来越依赖技术来进行关键操作，理解和减轻与disruptive voltage相关的风险变得愈加重要。为了应对这些挑战，工程师们采用了各种保护措施。浪涌保护器通常用于保护设备免受电压尖峰的影响。这些设备充当缓冲器，吸收过剩的电压，防止其到达敏感组件。此外，断路器可以在检测到异常电压水平时自动断开电源，从而保护整个系统免受潜在损害。通过实施这些解决方案，组织可以显著降低disruptive voltage所带来的风险。此外，技术的进步导致智能电网系统的发展，这些系统能够实时监测和管理电压水平。这些系统使用传感器和自动控制来检测异常，并作出相应反应。通过集成这些技术，公用事业公司可以增强其电力分配网络的可靠性，并最大限度地减少disruptive voltage事件的发生。总之，disruptive voltage的概念对于任何参与电气系统设计、维护或操作的人来说都是至关重要的。随着技术的不断发展，了解如何管理和减轻disruptive voltage的影响将对确保电气基础设施的可靠性和安全性至关重要。通过采用保护措施和利用先进技术，我们可以保护我们的设备和系统免受电气干扰的不可预测性，最终打造一个更加稳定和高效的技术环境。