rated continuous working voltage

简明释义

额定持续工作电压额定连续工作电压

英英释义

例句

1.The power supply must not exceed the rated continuous working voltage 额定连续工作电压 specified by the manufacturer.

电源的电压不得超过制造商指定的rated continuous working voltage 额定连续工作电压。

2.Using a transformer with a lower rated continuous working voltage 额定连续工作电压 can damage your equipment.

使用额定连续工作电压rated continuous working voltage 低于的变压器可能会损坏您的设备。

3.The circuit design must accommodate the rated continuous working voltage 额定连续工作电压 of all components involved.

电路设计必须考虑所有相关组件的rated continuous working voltage 额定连续工作电压。

4.To ensure safety, the rated continuous working voltage 额定连续工作电压 should be clearly marked on the equipment.

为了确保安全，设备上应清楚标明rated continuous working voltage 额定连续工作电压。

5.Always check the rated continuous working voltage 额定连续工作电压 before connecting any electrical device.

在连接任何电气设备之前，请始终检查rated continuous working voltage 额定连续工作电压。

作文

Understanding electrical components is crucial for anyone working in the field of electronics or electrical engineering. One important term that often comes up is rated continuous working voltage, which refers to the maximum voltage that a component can handle continuously without failure. This specification is vital for ensuring the safety and reliability of electrical systems. If components are operated above their rated continuous working voltage, they can overheat, degrade, or even fail catastrophically, leading to potential hazards such as fires or electrical shocks.To grasp the significance of rated continuous working voltage, let’s consider a practical example. Imagine you are designing a circuit that requires a power supply. If you choose a power supply with a voltage output that exceeds the rated continuous working voltage of any of your components, you risk damaging those components. For instance, if a capacitor has a rated continuous working voltage of 50 volts, applying 60 volts continuously could lead to its failure. This is not just an academic concern but a real-world issue that can affect the performance and safety of electronic devices.Moreover, the rated continuous working voltage is not just a static number; it can be influenced by various factors including temperature, humidity, and the duration of voltage application. Components may have different rated continuous working voltage values under different conditions. Therefore, engineers must consider the operating environment when selecting components for a circuit.In addition to safety concerns, adhering to the rated continuous working voltage is also essential for the longevity of electronic devices. Operating components within their specified voltage limits helps prevent premature aging and failure. This is particularly important in applications where maintenance is difficult or costly, such as in aerospace or medical devices.Furthermore, understanding the rated continuous working voltage allows engineers to design more efficient circuits. By selecting components with appropriate voltage ratings, they can minimize energy losses and improve overall system performance. This consideration is especially critical in high-power applications where efficiency directly impacts operational costs.In conclusion, the concept of rated continuous working voltage is fundamental in the field of electronics. It serves as a guideline for ensuring that components operate safely and effectively within their designed parameters. Engineers must be diligent in their selection of components and mindful of the specifications to avoid the risks associated with exceeding these ratings. Ultimately, a thorough understanding of rated continuous working voltage contributes to the creation of reliable and efficient electronic systems that meet the demands of modern technology.In summary, the rated continuous working voltage (额定连续工作电压) is a critical parameter in the design and operation of electronic components. Ensuring that all parts of a circuit operate within their specified voltage limits is essential for both safety and performance. By respecting this rating, engineers can create durable and efficient electronic devices that serve their intended purposes effectively.

理解电气元件对于任何从事电子或电气工程领域的人来说都是至关重要的。一个经常出现的重要术语是额定连续工作电压，它指的是组件能够持续承受而不发生故障的最大电压。这一规格对于确保电气系统的安全性和可靠性至关重要。如果组件在其额定连续工作电压之上运行，它们可能会过热、退化，甚至发生灾难性故障，导致潜在的危险，如火灾或电击。为了更好地理解额定连续工作电压的重要性，让我们考虑一个实际的例子。想象一下您正在设计一个需要电源的电路。如果您选择的电源电压输出超过了您任何组件的额定连续工作电压，您就有可能损坏这些组件。例如，如果一个电容器的额定连续工作电压为50伏，那么持续施加60伏电压可能会导致其失效。这不仅是一个学术问题，而是一个可能影响电子设备性能和安全性的现实问题。此外，额定连续工作电压不仅仅是一个静态数字；它可能受到温度、湿度和电压施加时间等各种因素的影响。在不同条件下，组件可能具有不同的额定连续工作电压值。因此，工程师在选择电路组件时必须考虑操作环境。除了安全问题，遵守额定连续工作电压对于电子设备的寿命也至关重要。在规定的电压限制内操作组件有助于防止过早老化和故障。这一点在维护困难或成本高昂的应用中尤为重要，例如航空航天或医疗设备。此外，了解额定连续工作电压使工程师能够设计出更高效的电路。通过选择适当电压等级的组件，他们可以最小化能量损失，提高整体系统性能。这种考虑在高功率应用中尤其关键，因为效率直接影响运营成本。总之，额定连续工作电压的概念在电子学领域是基础性的。它作为一个指导方针，确保组件在其设计参数内安全有效地运行。工程师在选择组件时必须谨慎，并注意规格，以避免超出这些评级所带来的风险。最终，深入理解额定连续工作电压有助于创建可靠且高效的电子系统，以满足现代技术的需求。总之，额定连续工作电压（rated continuous working voltage）是电子元件设计和操作中的一个关键参数。确保电路的所有部分在其规定的电压限制内运行对于安全和性能都是至关重要的。通过尊重这一评级，工程师可以创建耐用且高效的电子设备，有效地服务于其预期目的。