flyback timing

简明释义

退回计时法

英英释义

例句

1.Incorrect flyback timing can lead to increased electromagnetic interference.

不正确的反向飞行定时可能导致增加电磁干扰。

2.He explained how to measure the flyback timing in the new prototype.

他解释了如何在新原型中测量反向飞行定时。

3.Testing the flyback timing is crucial during the development phase of the power supply.

在电源开发阶段，测试反向飞行定时是至关重要的。

4.Adjusting the flyback timing can improve the efficiency of the converter.

调整反向飞行定时可以提高转换器的效率。

5.The engineer adjusted the circuit to optimize the flyback timing for better performance.

工程师调整了电路以优化反向飞行定时以获得更好的性能。

作文

In the world of electronics, understanding various technical terms is crucial for both professionals and enthusiasts. One such term that often arises in discussions about power supplies and transformers is flyback timing. This concept is particularly important when dealing with flyback converters, which are widely used in switching power supplies. To grasp the significance of flyback timing, we must first understand the basic operation of a flyback converter. A flyback converter operates by storing energy in a transformer during the 'on' phase and releasing this energy during the 'off' phase. The timing of these phases is critical, as it affects the efficiency and performance of the power supply. The term flyback timing refers to the precise moment when the energy stored in the transformer is released back into the circuit. If this timing is not correctly managed, it can lead to several issues, including voltage spikes, reduced efficiency, and potential damage to components. The importance of flyback timing becomes even more apparent when considering the role of feedback systems in flyback converters. These systems are designed to monitor the output voltage and adjust the switching frequency accordingly. A well-timed feedback loop ensures that the converter operates smoothly and maintains a stable output voltage. However, if the flyback timing is off, the feedback system may not respond effectively, leading to fluctuations in output voltage and overall system instability. Moreover, flyback timing has implications for the design and layout of electronic circuits. Engineers must consider the physical distances between components, as longer distances can introduce delays that affect timing. For instance, parasitic capacitance and inductance can alter the expected timing of signals, making it essential to keep components close together to minimize these effects. Properly managing flyback timing during the design phase can significantly enhance the reliability and performance of the final product. In addition to its technical aspects, flyback timing also has practical applications in various industries. For example, in the realm of consumer electronics, devices such as televisions and computer monitors utilize flyback converters to generate high-voltage outputs for their display systems. Understanding flyback timing allows engineers to optimize these systems for better performance, reducing energy consumption and improving user experience. Furthermore, as technology continues to evolve, the relevance of flyback timing becomes even more pronounced. With the growing demand for energy-efficient solutions and compact designs, engineers are constantly seeking ways to enhance the performance of flyback converters. Innovations such as digital control techniques and advanced materials contribute to better management of flyback timing, leading to more efficient power supplies. In conclusion, flyback timing is a fundamental concept in the field of electronics, particularly in the context of flyback converters. Its significance extends beyond mere timing; it encompasses the efficiency, stability, and overall performance of power supplies. As technology advances, a deeper understanding of flyback timing will undoubtedly play a pivotal role in shaping the future of electronic design and innovation.

在电子世界中，理解各种技术术语对专业人士和爱好者来说至关重要。一个经常在讨论电源和变压器时出现的术语是飞返定时。这个概念在处理飞返转换器时尤为重要，飞返转换器广泛应用于开关电源。要理解飞返定时的重要性，我们首先必须了解飞返转换器的基本操作。飞返转换器通过在“开启”阶段将能量储存在变压器中，并在“关闭”阶段释放这些能量来工作。这个阶段的定时至关重要，因为它影响电源的效率和性能。术语飞返定时指的是储存在变压器中的能量被释放回电路的准确时刻。如果这个定时没有得到正确管理，可能会导致几个问题，包括电压尖峰、效率降低以及对组件的潜在损害。当考虑到飞返转换器中反馈系统的作用时，飞返定时的重要性变得更加明显。这些系统旨在监测输出电压并相应地调整开关频率。良好定时的反馈回路确保转换器平稳运行并保持稳定的输出电压。然而，如果飞返定时不准确，反馈系统可能无法有效响应，导致输出电压波动和整体系统不稳定。此外，飞返定时对电子电路的设计和布局也有影响。工程师必须考虑组件之间的物理距离，因为较长的距离可能会引入影响定时的延迟。例如，寄生电容和电感可能会改变信号的预期定时，因此将组件保持在靠近的位置以最小化这些影响至关重要。在设计阶段妥善管理飞返定时可以显著提高最终产品的可靠性和性能。除了其技术方面，飞返定时在各个行业也具有实际应用。例如，在消费电子领域，电视和计算机显示器等设备利用飞返转换器为其显示系统产生高电压输出。理解飞返定时使工程师能够优化这些系统以获得更好的性能，减少能源消耗，提高用户体验。此外，随着技术的不断发展，飞返定时的相关性变得更加明显。随着对节能解决方案和紧凑设计的需求不断增长，工程师们不断寻求提升飞返转换器性能的方法。数字控制技术和先进材料等创新有助于更好地管理飞返定时，从而导致更高效的电源。总之，飞返定时是电子领域中的一个基本概念，特别是在飞返转换器的背景下。它的重要性超越了单纯的定时；它涵盖了电源的效率、稳定性和整体性能。随着技术的进步，对飞返定时的更深入理解无疑将在塑造电子设计和创新的未来中发挥关键作用。