instantaneous over-voltage capacity

简明释义

瞬时耐压容量

英英释义

例句

1.In power systems, understanding the instantaneous over-voltage capacity is crucial for protecting sensitive equipment.

在电力系统中，理解瞬时过电压能力对于保护敏感设备至关重要。

2.Engineers must calculate the instantaneous over-voltage capacity when designing new electrical installations.

工程师在设计新的电气安装时必须计算瞬时过电压能力。

3.The transformer is designed to handle an instantaneous over-voltage capacity of 150 kV, ensuring it can withstand sudden surges.

该变压器设计能够承受150 kV的瞬时过电压能力，确保其能够抵御突发的电压浪涌。

4.The circuit breaker must be rated for an instantaneous over-voltage capacity to prevent damage during electrical faults.

断路器必须具备瞬时过电压能力的额定值，以防止在电气故障期间造成损坏。

5.The instantaneous over-voltage capacity of the insulation material was tested to ensure long-term reliability.

绝缘材料的瞬时过电压能力经过测试，以确保长期可靠性。

作文

In today's rapidly evolving technological landscape, the importance of electrical systems cannot be overstated. One critical aspect of these systems is their ability to handle unexpected surges in voltage, commonly referred to as over-voltage events. The term instantaneous over-voltage capacity (瞬时过电压能力) describes a system's capability to withstand these sudden spikes without suffering damage or performance degradation. Understanding this concept is essential for engineers and technicians who design and maintain electrical infrastructure. Electrical devices are often subjected to various stresses, including those caused by lightning strikes, power surges, or switching operations. These over-voltage conditions can lead to catastrophic failures if not adequately managed. The instantaneous over-voltage capacity (瞬时过电压能力) of a device indicates its resilience against such events. For instance, a transformer with a high instantaneous over-voltage capacity (瞬时过电压能力) can absorb significant voltage spikes without experiencing insulation breakdown or overheating. This characteristic is crucial for ensuring the longevity and reliability of electrical equipment.Moreover, the instantaneous over-voltage capacity (瞬时过电压能力) is not merely a specification; it reflects the underlying materials and technologies used in the construction of electrical components. Advanced materials with superior dielectric properties contribute to higher over-voltage capacities. Engineers must carefully select these materials to enhance the overall performance of electrical systems. Additionally, testing methods such as impulse testing are employed to determine the instantaneous over-voltage capacity (瞬时过电压能力) of devices, ensuring they meet industry standards before deployment.The implications of inadequate instantaneous over-voltage capacity (瞬时过电压能力) can be severe. For example, in power distribution networks, a failure to withstand over-voltage events can result in widespread outages, equipment damage, and financial losses. Consequently, organizations invest significantly in protective devices like surge protectors and circuit breakers, which are designed to enhance the instantaneous over-voltage capacity (瞬时过电压能力) of the overall system. These devices act as the first line of defense against voltage spikes, diverting excess energy away from sensitive equipment.In conclusion, the concept of instantaneous over-voltage capacity (瞬时过电压能力) is pivotal in the field of electrical engineering. It encompasses the ability of devices to endure sudden voltage increases without compromising their functionality. As technology continues to advance, the demand for systems with robust instantaneous over-voltage capacity (瞬时过电压能力) will only grow. Engineers must remain vigilant in their efforts to improve this capacity through innovative designs and materials. Ultimately, a deeper understanding of instantaneous over-voltage capacity (瞬时过电压能力) will lead to more resilient and reliable electrical systems, capable of meeting the challenges of modern power demands.

在当今快速发展的技术环境中，电气系统的重要性不容小觑。一个关键的方面是它们处理意外电压激增的能力，通常称为过电压事件。术语瞬时过电压能力描述了一个系统在不受损坏或性能下降的情况下承受这些突发电压峰值的能力。理解这一概念对设计和维护电气基础设施的工程师和技术人员至关重要。电气设备经常面临各种压力，包括由雷击、电力激增或切换操作引起的压力。这些过电压条件如果没有得到适当管理，可能导致灾难性的故障。设备的瞬时过电压能力表明其抵御此类事件的韧性。例如，一台具有高瞬时过电压能力的变压器可以在不发生绝缘击穿或过热的情况下吸收显著的电压激增。这一特性对于确保电气设备的耐用性和可靠性至关重要。此外，瞬时过电压能力不仅仅是一个规格；它反映了电气组件构造中使用的基础材料和技术。具有优越介电特性的先进材料有助于提高过电压能力。工程师必须仔细选择这些材料，以增强电气系统的整体性能。此外，脉冲测试等测试方法被用于确定设备的瞬时过电压能力，确保它们在部署前符合行业标准。不足的瞬时过电压能力的影响可能是严重的。例如，在电力分配网络中，未能承受过电压事件可能导致大规模停电、设备损坏和经济损失。因此，组织在保护设备上投入了大量资金，如浪涌保护器和断路器，这些设备旨在增强整体系统的瞬时过电压能力。这些设备作为抵御电压激增的第一道防线，将多余的能量引导离敏感设备。总之，瞬时过电压能力的概念在电气工程领域至关重要。它包含了设备在不妥协功能的情况下承受突发电压增加的能力。随着技术的不断进步，对具有强大瞬时过电压能力的系统的需求只会增加。工程师必须在改进这一能力方面保持警惕，通过创新设计和材料来实现。最终，更深入地理解瞬时过电压能力将导致更具韧性和可靠性的电气系统，能够满足现代电力需求的挑战。