backfeed loop

简明释义

反馈回路;

英英释义

例句

1.During the power outage, the backfeed loop 反向供电回路 allowed some devices to continue functioning.

在停电期间，反向供电回路 backfeed loop 使一些设备继续运行。

2.The engineer explained how the backfeed loop 反向供电回路 could cause system malfunctions if not properly managed.

工程师解释了如果不妥善管理，反向供电回路 backfeed loop 可能导致系统故障。

3.To avoid creating a backfeed loop 反向供电回路, ensure all connections are secure before testing.

为避免产生反向供电回路 backfeed loop，请确保在测试前所有连接都牢固。

4.The technician identified a backfeed loop 反向供电回路 in the system that was causing intermittent failures.

技术员发现系统中存在一个反向供电回路 backfeed loop，导致间歇性故障。

5.We need to isolate the backfeed loop 反向供电回路 to prevent feedback into the main circuit.

我们需要隔离反向供电回路 backfeed loop 以防止反馈进入主电路。

作文

In the world of electronics and electrical engineering, understanding various concepts is crucial for both professionals and enthusiasts. One such concept is the backfeed loop, which plays a significant role in the functioning of circuits and systems. A backfeed loop refers to a situation where power or signals are fed back into a system from an output point, potentially causing unexpected behavior or damage if not properly managed.The implications of a backfeed loop can be quite serious. For instance, in power systems, if electricity flows back into the grid from a generator that is not designed to handle it, it can lead to voltage spikes and equipment failure. This phenomenon is particularly important in renewable energy systems, such as solar panels, where excess energy generated during peak sunlight hours may flow back into the grid. Without proper controls, this backfeed loop could disrupt the stability of the entire electrical network.Moreover, in data communication, a backfeed loop can occur when signals are unintentionally routed back into a system, leading to feedback that distorts the original message. This is often seen in audio systems, where microphones pick up sound from speakers, creating a feedback loop that results in a high-pitched screeching noise. Engineers must design systems with safeguards to prevent such occurrences, ensuring that the backfeed loop does not compromise the integrity of the communication.To mitigate the risks associated with a backfeed loop, various strategies can be employed. In electrical systems, using diodes can help prevent current from flowing back into the source. In digital communication, implementing filters and isolators can reduce the chances of unintended feedback. Understanding the dynamics of a backfeed loop allows engineers to create more robust systems that can withstand unexpected conditions.In conclusion, the concept of a backfeed loop is essential for anyone involved in electrical engineering or electronics. Recognizing the potential hazards and implementing effective solutions is vital for maintaining the reliability and safety of systems. As technology continues to advance, the importance of mastering concepts like the backfeed loop will only grow, highlighting the need for continuous education and awareness in the field. By fostering a deeper understanding of these principles, we can ensure that our electrical systems function optimally and safely, paving the way for innovations that benefit society as a whole.

在电子和电气工程的世界中，理解各种概念对专业人士和爱好者来说至关重要。其中一个这样的概念是回馈循环，它在电路和系统的功能中发挥着重要作用。回馈循环指的是一种情况，其中电力或信号从输出点反馈到系统中，如果管理不当，可能会导致意想不到的行为或损坏。回馈循环的影响可能非常严重。例如，在电力系统中，如果电力从未设计为处理的发电机流回电网，可能会导致电压尖峰和设备故障。这种现象在可再生能源系统中尤为重要，例如太阳能电池板，在阳光最强烈的时段，过剩的能量可能会流回电网。如果没有适当的控制，这种回馈循环可能会扰乱整个电力网络的稳定性。此外，在数据通信中，当信号无意中被重新路由回系统时，也可能发生回馈循环，导致反馈扭曲原始消息。这通常在音频系统中看到，麦克风拾取来自扬声器的声音，产生反馈循环，导致尖锐的刺耳噪音。工程师必须设计系统以防止这种情况的发生，确保回馈循环不会损害通信的完整性。为了减轻与回馈循环相关的风险，可以采用各种策略。在电气系统中，使用二极管可以帮助防止电流流回源头。在数字通信中，实施滤波器和隔离器可以减少意外反馈的可能性。理解回馈循环的动态使工程师能够创建更强大的系统，以承受意外条件。总之，回馈循环的概念对于任何参与电气工程或电子学的人来说都是至关重要的。认识潜在的危害并实施有效的解决方案对于维护系统的可靠性和安全性至关重要。随着技术的不断进步，掌握像回馈循环这样的概念的重要性只会增加，突显出在该领域持续教育和意识的必要性。通过加深对这些原则的理解，我们可以确保我们的电气系统以最佳和安全的方式运行，为社会整体带来益处的创新铺平道路。