flyback time
简明释义
返程周期
英英释义
例句
1.The engineer calculated the flyback time to ensure the circuit would function properly.
工程师计算了飞回时间以确保电路能正常工作。
2.A shorter flyback time can improve the overall efficiency of the power supply.
更短的飞回时间可以提高电源的整体效率。
3.Engineers must consider the flyback time when designing high-frequency circuits.
工程师在设计高频电路时必须考虑飞回时间。
4.During testing, we measured the flyback time to optimize the device's performance.
在测试过程中,我们测量了飞回时间以优化设备的性能。
5.The flyback time is crucial in applications where rapid response is needed.
飞回时间在需要快速响应的应用中至关重要。
作文
In the world of electronics and engineering, terminology often plays a crucial role in understanding complex concepts. One such term that is frequently encountered in discussions about circuits and signal processing is flyback time. This term refers to the duration it takes for a system to return to its original state after being disturbed or interrupted. Understanding flyback time is essential for engineers and technicians who work with devices like cathode ray tubes (CRTs), power supplies, and various types of oscillators.The concept of flyback time can be illustrated by examining the operation of a flyback transformer, which is commonly used in television sets and other electronic devices. When the transformer is energized, it stores energy in its magnetic field. When the current is interrupted, this stored energy is released quickly, resulting in a high-voltage pulse. The time it takes for the transformer to return to its baseline state after this pulse is what we refer to as flyback time.For engineers, flyback time is a critical parameter because it affects the performance and efficiency of electronic devices. A short flyback time can lead to faster response times in circuits, which is particularly important in applications requiring rapid switching or modulation. Conversely, if the flyback time is too long, it may result in delays and inefficiencies, potentially causing malfunction in high-speed applications.Moreover, the implications of flyback time extend beyond just transformers. In digital circuits, for example, the flyback time can influence the timing of signals and the overall synchronization of operations. If the flyback time is not properly accounted for, it may lead to timing errors, data loss, or even damage to components due to excessive voltage spikes.To illustrate the importance of managing flyback time, consider the example of a power supply circuit. In such circuits, the flyback time must be carefully controlled to ensure that the output voltage remains stable and does not fluctuate excessively. Engineers often use various techniques, such as snubber circuits or feedback mechanisms, to minimize the flyback time and enhance the reliability of the power supply.In conclusion, flyback time is a vital concept in the field of electronics, affecting everything from the design of transformers to the stability of digital circuits. By understanding and managing this parameter, engineers can create more efficient, reliable, and high-performance electronic devices. As technology continues to evolve, the significance of flyback time will likely remain a key consideration in the design and operation of advanced electronic systems.
在电子和工程领域,术语通常在理解复杂概念中发挥着至关重要的作用。一个在讨论电路和信号处理时经常遇到的术语是飞回时间。这个术语指的是在系统受到干扰或中断后返回到原始状态所需的时间。理解飞回时间对从事阴极射线管(CRT)、电源和各种类型振荡器等设备的工程师和技术人员至关重要。飞回时间的概念可以通过检查飞回变压器的操作来说明,飞回变压器通常用于电视机和其他电子设备。当变压器通电时,它会在其磁场中储存能量。当电流被中断时,这储存的能量会迅速释放,导致高电压脉冲。变压器在此脉冲后返回到基线状态所需的时间就是我们所称的飞回时间。对于工程师来说,飞回时间是一个关键参数,因为它影响电子设备的性能和效率。短的飞回时间可以导致电路响应时间更快,这在需要快速切换或调制的应用中尤为重要。相反,如果飞回时间过长,可能会导致延迟和低效,甚至在高速应用中造成故障。此外,飞回时间的影响不仅限于变压器。在数字电路中,例如,飞回时间可以影响信号的时序和操作的整体同步。如果未正确考虑飞回时间,可能会导致时序错误、数据丢失,甚至由于过高的电压尖峰而损坏组件。为了说明管理飞回时间的重要性,考虑电源电路的例子。在此类电路中,必须仔细控制飞回时间以确保输出电压保持稳定,而不会过度波动。工程师通常使用各种技术,如吸收器电路或反馈机制,以最小化飞回时间并增强电源的可靠性。总之,飞回时间是电子领域中的一个重要概念,影响着从变压器设计到数字电路稳定性的方方面面。通过理解和管理这一参数,工程师可以创造出更高效、更可靠和高性能的电子设备。随着技术的不断发展,飞回时间的重要性可能仍将是先进电子系统设计和操作中的关键考虑因素。
