load regulation
简明释义
负载调节
英英释义
例句
1.In audio amplifiers, load regulation is crucial for ensuring sound quality remains consistent regardless of speaker impedance.
在音频放大器中,负载调节对确保音质在不同扬声器阻抗下保持一致至关重要。
2.The power supply unit has excellent load regulation for maintaining voltage stability under varying loads.
该电源单元在不同负载下保持电压稳定,具有优异的负载调节能力。
3.The load regulation of this DC-DC converter is impressive, allowing it to maintain output voltage with minimal deviation.
这个DC-DC转换器的负载调节令人印象深刻,能够在最小偏差下保持输出电压。
4.Manufacturers often test load regulation to ensure their products can handle real-world applications effectively.
制造商通常测试负载调节以确保他们的产品能够有效应对实际应用。
5.A good load regulation feature helps prevent damage to sensitive electronic components during fluctuations in power demand.
良好的负载调节功能有助于防止在电力需求波动期间对敏感电子元件造成损坏。
作文
Load regulation is a critical concept in the field of electrical engineering, particularly in power supply systems. It refers to the ability of a power supply to maintain a constant output voltage or current despite variations in the load conditions. In simpler terms, it measures how well a power supply can adapt to changes in demand for power without causing significant fluctuations in its output. This characteristic is essential for ensuring the stability and reliability of electronic devices and systems. When we talk about load regulation (负载调节), we are essentially discussing the performance of a power supply under different load scenarios. For instance, if an electronic device suddenly requires more power due to increased operational demands, a well-designed power supply with good load regulation (负载调节) will adjust its output accordingly to meet this demand while keeping the voltage stable. Conversely, if the load decreases, the power supply should also reduce its output without overshooting the voltage levels. The significance of load regulation (负载调节) cannot be overstated, especially in applications where precision and reliability are paramount. For example, in medical equipment, any fluctuation in power supply can lead to incorrect readings or even malfunctioning of life-support machines. Similarly, in telecommunications, a stable power supply ensures uninterrupted service and communication. To quantify load regulation (负载调节), engineers often use a percentage value, which represents the change in output voltage from no load to full load conditions. A lower percentage indicates better performance, meaning the power supply experiences minimal voltage variation with changing loads. For instance, a power supply with a load regulation (负载调节) of 1% would maintain its output voltage within 1% of the nominal value, regardless of whether it is supplying power to a light bulb or a high-performance computer. In designing power supplies, engineers must consider various factors that influence load regulation (负载调节), such as the type of components used, feedback mechanisms, and thermal management. Using high-quality capacitors and inductors can significantly improve load regulation (负载调节), as they can respond quickly to changes in load. Additionally, implementing feedback loops allows the power supply to continuously monitor its output and make necessary adjustments in real-time. In conclusion, understanding load regulation (负载调节) is vital for anyone involved in the design and application of power supplies. It not only affects the performance and efficiency of electronic devices but also plays a crucial role in ensuring safety and reliability in various industries. As technology continues to evolve, the demand for better load regulation (负载调节) will only increase, making it an essential area of focus for engineers and researchers alike.
负载调节是电气工程领域中的一个关键概念,特别是在电源系统中。它指的是电源在负载条件变化时保持恒定输出电压或电流的能力。简单来说,它衡量了电源在需求变化时如何适应,而不会导致其输出出现显著波动。这一特性对于确保电子设备和系统的稳定性和可靠性至关重要。当我们谈论负载调节时(负载调节),我们实际上是在讨论电源在不同负载场景下的性能。例如,如果电子设备由于操作需求增加而突然需要更多电力,设计良好的电源具有良好的负载调节(负载调节)将相应地调整其输出,以满足这一需求,同时保持电压稳定。相反,如果负载减少,电源也应减少其输出,而不会超过电压水平。负载调节(负载调节)的重要性不容小觑,尤其是在精度和可靠性至关重要的应用中。例如,在医疗设备中,任何电源波动都可能导致错误读数或甚至生命支持机器的故障。同样,在通信领域,稳定的电源可确保服务和通信不中断。为了量化负载调节(负载调节),工程师通常使用百分比值,表示从无负载到满负载条件下输出电压的变化。较低的百分比表示更好的性能,意味着电源在负载变化时电压波动最小。例如,具有1%负载调节(负载调节)的电源将在名义值的1%范围内保持其输出电压,无论它是为灯泡供电还是为高性能计算机供电。在设计电源时,工程师必须考虑影响负载调节(负载调节)的各种因素,例如所用组件的类型、反馈机制和热管理。使用高质量的电容器和电感器可以显著提高负载调节(负载调节),因为它们可以快速响应负载变化。此外,实施反馈回路允许电源持续监测其输出并实时进行必要的调整。总之,理解负载调节(负载调节)对于任何参与电源设计和应用的人来说都是至关重要的。它不仅影响电子设备的性能和效率,而且在各个行业中确保安全和可靠性也发挥着至关重要的作用。随着技术的不断发展,对更好负载调节(负载调节)的需求只会增加,这使其成为工程师和研究人员必须关注的重要领域。
