disruptive voltage

简明释义

哗电压

英英释义

例句

1.During testing, we observed that disruptive voltage could lead to data loss.

在测试过程中，我们观察到干扰电压可能导致数据丢失。

2.Engineers must design equipment to withstand disruptive voltage during electrical storms.

工程师必须设计设备以承受电气风暴期间的干扰电压。

3.The circuit experienced a spike in disruptive voltage, causing the system to shut down unexpectedly.

电路经历了一个干扰电压的尖峰，导致系统意外关闭。

4.High-frequency devices are particularly sensitive to disruptive voltage variations.

高频设备对干扰电压变化特别敏感。

5.A surge protector can help mitigate the effects of disruptive voltage on sensitive electronics.

浪涌保护器可以帮助减轻干扰电压对敏感电子设备的影响。

作文

In the field of electrical engineering, understanding various concepts and terminologies is crucial for both students and professionals. One such term that often comes up in discussions related to electrical systems is disruptive voltage. This term refers to a sudden and significant change in voltage that can cause disturbances in electrical circuits and systems. These disruptions can lead to malfunctions, equipment damage, or even complete system failures, making it an essential concept to grasp for anyone working with electrical systems.To comprehend disruptive voltage, it is important first to understand the basics of voltage and its role in electrical systems. Voltage, often referred to as electric potential difference, is what drives electric current through a circuit. It is measured in volts (V) and is a critical factor in determining how electrical devices operate. However, when voltage levels fluctuate unexpectedly, they can create a state of instability within the circuit.The causes of disruptive voltage can vary widely. They may arise from external factors such as lightning strikes, power surges, or faults in the electrical grid. Additionally, internal factors like equipment failure or poor connections can also lead to these disruptive events. Understanding the sources of these disruptions is vital for designing systems that can withstand them.One notable impact of disruptive voltage is on sensitive electronic devices. Many modern devices, including computers, smartphones, and medical equipment, are designed to operate within specific voltage ranges. When exposed to disruptive voltage, these devices may experience data loss, operational errors, or permanent damage. Therefore, engineers must incorporate protective measures, such as surge protectors and voltage regulators, to mitigate these risks.Moreover, industries that rely heavily on continuous power supply, such as manufacturing and healthcare, face significant challenges due to disruptive voltage. A sudden voltage spike can halt production lines, compromise patient care, and result in substantial financial losses. As a result, organizations invest in robust power management systems that monitor voltage levels and react swiftly to any anomalies, ensuring that their operations remain uninterrupted.In conclusion, disruptive voltage is a critical concept within the realm of electrical engineering that denotes sudden voltage changes capable of causing significant disruptions in electrical systems. Understanding its implications and causes is essential for designing resilient electrical systems and protecting sensitive equipment. As technology continues to advance and reliance on electrical systems increases, the importance of managing disruptive voltage will only grow, making it a key area of focus for engineers and technicians alike.

在电气工程领域，理解各种概念和术语对学生和专业人员至关重要。其中一个常常出现在与电气系统相关讨论中的术语是破坏性电压。这个术语指的是电压的突然和显著变化，这种变化可能会导致电路和系统中的干扰。这些干扰可能导致故障、设备损坏，甚至完全系统失效，因此对于任何从事电气系统工作的人来说，掌握这一概念是非常必要的。要理解破坏性电压，首先必须了解电压的基本知识及其在电气系统中的作用。电压，通常被称为电势差，是推动电流通过电路的动力。它以伏特（V）为单位测量，并且是决定电气设备如何运行的关键因素。然而，当电压水平意外波动时，它们可能会在电路中产生不稳定状态。破坏性电压的原因可能各不相同。它们可能来自外部因素，例如雷击、电源浪涌或电网故障。此外，内部因素如设备故障或连接不良也可能导致这些破坏性事件。理解这些干扰的来源对于设计能够承受这些影响的系统至关重要。破坏性电压的一个显著影响是对敏感电子设备的影响。许多现代设备，包括计算机、智能手机和医疗设备，都是在特定电压范围内设计的。当暴露于破坏性电压时，这些设备可能会经历数据丢失、操作错误或永久性损坏。因此，工程师必须采取保护措施，如浪涌保护器和电压调节器，以减轻这些风险。此外，依赖连续电源供应的行业，如制造业和医疗保健，由于破坏性电压面临重大挑战。电压的突然尖峰可能会停止生产线、妨碍患者护理并导致巨大的经济损失。因此，组织投资于强大的电力管理系统，以监控电压水平并迅速对任何异常情况作出反应，确保其运营不受干扰。总之，破坏性电压是电气工程领域内一个关键概念，表示能够在电气系统中引起重大干扰的电压变化。了解其影响和原因对于设计具有弹性的电气系统和保护敏感设备至关重要。随着技术的不断进步和对电气系统的依赖增加，管理破坏性电压的重要性只会增加，这将成为工程师和技术人员关注的重点领域。