maximum working voltage

简明释义

最大工作电压最高工作电压

英英释义

例句

1.The manufacturer specifies a maximum working voltage (最大工作电压) of 240V for this model.

制造商为该型号指定的最大工作电压(最大工作电压)为240V。

2.If the maximum working voltage (最大工作电压) is exceeded, it may lead to overheating.

如果超过最大工作电压(最大工作电压)，可能会导致过热。

3.The device should not be operated above its maximum working voltage (最大工作电压) to prevent damage.

设备不应在其最大工作电压(最大工作电压)以上运行，以防止损坏。

4.Always check the maximum working voltage (最大工作电压) before connecting the power supply.

在连接电源之前，请始终检查最大工作电压(最大工作电压)。

5.Make sure to use components rated for the maximum working voltage (最大工作电压) of the circuit.

确保使用额定为电路的最大工作电压(最大工作电压)的组件。

作文

In the world of electrical engineering, understanding the specifications and limitations of components is crucial for ensuring safety and functionality. One of the key parameters that engineers must consider is the maximum working voltage, which refers to the highest voltage that a device can handle under normal operating conditions without experiencing failure or damage. This concept is fundamental in designing circuits and selecting appropriate materials for various applications.The maximum working voltage is not just a number; it represents the threshold beyond which insulation may break down, leading to short circuits or catastrophic failures. For instance, when designing power supply units, engineers must ensure that the components used can withstand the maximum working voltage they will encounter during operation. If the voltage exceeds this limit, it can result in overheating, arcing, and ultimately, component failure.Different materials exhibit varying tolerances to voltage levels. For example, rubber and plastic are commonly used as insulating materials due to their high dielectric strength, allowing them to maintain integrity at higher voltages. Understanding the maximum working voltage of these materials is essential for safe design practices. Engineers often refer to datasheets provided by manufacturers, which specify the maximum working voltage for each component, ensuring that they select parts that meet the requirements of their specific applications.Moreover, the maximum working voltage is influenced by environmental factors such as temperature, humidity, and altitude. For example, at higher altitudes, the air pressure decreases, which can affect the dielectric properties of insulators. Therefore, when designing systems intended for high-altitude applications, engineers must account for these variations and select components with a suitable maximum working voltage rating that considers these conditions.In addition to safety concerns, adhering to the maximum working voltage is also critical for maintaining performance efficiency. Operating a device at or near its maximum working voltage can lead to increased losses and reduced lifespan. For instance, capacitors have a rated voltage, and exceeding this voltage can cause them to fail prematurely, resulting in costly repairs and downtime.Furthermore, regulatory standards often dictate the maximum working voltage for certain applications, especially in industries like telecommunications and power generation. Compliance with these standards is vital for ensuring product safety and reliability. Engineers must stay informed about the latest regulations and incorporate them into their designs to avoid legal issues and ensure consumer safety.In conclusion, the maximum working voltage is a critical parameter in electrical engineering that influences the design, safety, and performance of electronic devices. By understanding and respecting this limit, engineers can create reliable and efficient systems that operate safely under various conditions. Whether it’s selecting the right materials, considering environmental factors, or adhering to regulatory standards, the importance of the maximum working voltage cannot be overstated. As technology continues to advance, engineers must remain vigilant and informed about voltage ratings to ensure the continued safety and efficacy of their designs.

在电气工程的世界中，理解元件的规格和限制对于确保安全和功能至关重要。其中一个关键参数是最大工作电压，它指的是设备在正常操作条件下可以承受的最高电压，而不会发生故障或损坏。这个概念在电路设计和选择各种应用的合适材料时是基础。最大工作电压不仅仅是一个数字；它代表了一个阈值，超过这个阈值绝缘可能会击穿，导致短路或灾难性故障。例如，在设计电源单元时，工程师必须确保所使用的组件能够承受在操作过程中遇到的最大工作电压。如果电压超过这个限制，可能会导致过热、弧光，最终造成组件失效。不同的材料对电压水平的耐受能力各不相同。例如，橡胶和塑料由于其高介电强度而被广泛用作绝缘材料，使其能够在较高电压下保持完整性。了解这些材料的最大工作电压对于安全设计实践至关重要。工程师通常参考制造商提供的数据表，其中指定了每个组件的最大工作电压，以确保他们选择符合特定应用要求的部件。此外，最大工作电压还受到温度、湿度和海拔等环境因素的影响。例如，在高海拔地区，气压降低，这可能会影响绝缘体的介电特性。因此，在设计用于高海拔应用的系统时，工程师必须考虑这些变化，并选择具有适当最大工作电压等级的组件，以考虑这些条件。除了安全问题，遵守最大工作电压对保持性能效率也至关重要。在其最大工作电压附近或处于该电压下操作设备可能导致损耗增加和使用寿命缩短。例如，电容器有额定电压，超过此电压可能会导致其提前失效，导致昂贵的维修和停机。此外，监管标准通常规定某些应用的最大工作电压，尤其是在电信和发电等行业。遵守这些标准对于确保产品安全和可靠性至关重要。工程师必须随时了解最新的法规，并将其纳入设计中，以避免法律问题并确保消费者安全。总之，最大工作电压是电气工程中的一个关键参数，影响电子设备的设计、安全性和性能。通过理解和尊重这一限制，工程师可以创建可靠且高效的系统，在各种条件下安全运行。无论是选择合适的材料、考虑环境因素，还是遵循监管标准，最大工作电压的重要性都不容小觑。随着技术的不断进步，工程师必须保持警惕，了解电压等级，以确保其设计的持续安全性和有效性。