maximum permissible power
简明释义
最大容许功率
英英释义
The highest level of power output that is allowed or permitted under specific regulations or conditions, ensuring safety and compliance. | 在特定规定或条件下允许或许可的最高功率输出水平,以确保安全和合规性。 |
例句
1.The engineer calculated the maximum permissible power 最大允许功率 for the new generator to ensure safety.
工程师计算了新发电机的最大允许功率 maximum permissible power以确保安全。
2.The maximum permissible power 最大允许功率 rating of this device is clearly marked on its label.
该设备的最大允许功率 maximum permissible power等级在其标签上明确标示。
3.To comply with regulations, we must not exceed the maximum permissible power 最大允许功率 specified by the manufacturer.
为了遵守法规,我们必须不超过制造商规定的最大允许功率 maximum permissible power。
4.In this circuit, the maximum permissible power 最大允许功率 is limited to avoid overheating.
在这个电路中,最大允许功率 maximum permissible power被限制以避免过热。
5.When designing the circuit, we must consider the maximum permissible power 最大允许功率 to prevent damage.
在设计电路时,我们必须考虑最大允许功率 maximum permissible power以防止损坏。
作文
In the realm of electrical engineering, the concept of maximum permissible power plays a crucial role in ensuring the safety and efficiency of electrical systems. This term refers to the highest amount of power that can be safely transmitted or utilized by a device, circuit, or system without causing damage or failure. Understanding this concept is essential for engineers and technicians who design and maintain electrical installations.When designing electrical circuits, engineers must consider various factors such as the materials used, the intended load, and environmental conditions. The maximum permissible power is determined by the specifications of the components involved. For instance, resistors have a rated power that indicates the maximum power they can dissipate as heat without failing. Exceeding this limit can lead to overheating, which may result in component failure or even fire hazards.Moreover, the maximum permissible power is not only relevant for individual components but also for entire systems. In power distribution networks, for example, transformers and transmission lines are designed to handle specific power levels. If the power transmitted exceeds the maximum permissible power, it can cause significant issues such as voltage drops, increased losses, and potential damage to equipment. Therefore, engineers must carefully calculate the expected loads and ensure that all components can handle the required power levels.Additionally, regulations and standards often dictate the maximum permissible power for various applications. These guidelines are established to protect both users and equipment from the dangers associated with overloading. Compliance with these regulations is critical in preventing accidents and ensuring reliable operation. For instance, in residential wiring, there are strict limits on the amount of power that can be drawn from outlets to prevent overheating of wires and potential fire risks.In practical terms, understanding the maximum permissible power allows for better decision-making when selecting components for a project. Engineers must evaluate the power ratings of each component and ensure that they work together within the safe limits. This practice not only enhances the reliability of the system but also extends the lifespan of the components involved.Furthermore, advancements in technology have led to the development of more efficient devices that can operate at higher power levels without compromising safety. However, even with these innovations, the fundamental principle of adhering to the maximum permissible power remains unchanged. As technology evolves, engineers must stay informed about new materials and designs that can affect power ratings and safety standards.In conclusion, the concept of maximum permissible power is vital in the field of electrical engineering. It ensures the safe operation of electrical systems by defining the limits of power that can be handled without risk of failure. By understanding and applying this concept, engineers can design effective and reliable systems that meet the needs of users while adhering to safety regulations. As technology continues to advance, ongoing education and awareness of the maximum permissible power will remain essential for all professionals in the electrical engineering field.
在电气工程领域,最大允许功率的概念在确保电气系统的安全性和效率方面发挥着至关重要的作用。这个术语指的是可以安全传输或利用的设备、电路或系统的最高功率,而不会导致损坏或故障。理解这一概念对设计和维护电气安装的工程师和技术人员至关重要。在设计电气电路时,工程师必须考虑各种因素,例如所用材料、预期负载和环境条件。最大允许功率由参与的组件的规格决定。例如,电阻器具有额定功率,指示它们可以作为热量安全散发的最大功率。超过此限制可能导致过热,这可能会导致组件故障甚至火灾危险。此外,最大允许功率不仅与单个组件相关,还与整个系统相关。在电力分配网络中,例如,变压器和输电线路被设计为处理特定的功率水平。如果传输的功率超过最大允许功率,可能会导致显著问题,如电压下降、损耗增加和设备潜在损坏。因此,工程师必须仔细计算预期负载,并确保所有组件能够处理所需的功率水平。此外,法规和标准通常规定各种应用的最大允许功率。这些指南的建立旨在保护用户和设备免受过载带来的危险。遵守这些法规对于防止事故和确保可靠运行至关重要。例如,在住宅布线中,对从插座提取的功率有严格的限制,以防止电线过热和潜在的火灾风险。在实际应用中,理解最大允许功率使得在选择项目组件时能够做出更好的决策。工程师必须评估每个组件的功率评级,并确保它们在安全限制内协同工作。这种做法不仅增强了系统的可靠性,还延长了涉及组件的使用寿命。此外,技术的进步导致开发出更高效的设备,这些设备能够在不妨碍安全的情况下以更高的功率水平运行。然而,即使在这些创新面前,遵循最大允许功率的基本原则依然不变。随着技术的发展,工程师必须保持对新材料和设计的了解,这些因素可能会影响功率评级和安全标准。总之,最大允许功率的概念在电气工程领域至关重要。它通过定义可以处理的功率限制,确保电气系统的安全运行。通过理解和应用这一概念,工程师能够设计出有效且可靠的系统,满足用户的需求,同时遵守安全法规。随着技术的不断进步,持续的教育和对最大允许功率的认识将对电气工程领域的所有专业人士保持至关重要。
相关单词
