coupling loop

简明释义

耦合环

英英释义

例句

1.During the testing phase, we identified a malfunction in the coupling loop that affected the overall performance.

在测试阶段，我们发现耦合环中的故障影响了整体性能。

2.The design of the system includes a coupling loop to ensure all components work together seamlessly.

系统设计中包括一个耦合环以确保所有组件无缝协作。

3.We implemented a feedback mechanism within the coupling loop to enhance reliability.

我们在耦合环中实施了反馈机制，以增强可靠性。

4.A faulty coupling loop can lead to significant delays in the production line.

故障的耦合环可能导致生产线出现重大延误。

5.The engineer explained how the coupling loop helps in synchronizing data between two systems.

工程师解释了耦合环如何帮助两个系统之间的数据同步。

作文

In the realm of engineering and physics, the term coupling loop refers to a specific configuration or mechanism that connects two systems or components in such a way that they can interact with each other. This concept is crucial in various fields, including mechanical engineering, electrical engineering, and even software development. Understanding how a coupling loop functions is essential for creating efficient systems that rely on the interaction between different parts.To illustrate the importance of a coupling loop, let’s consider an example from mechanical engineering. When designing a motor and a pump system, the coupling loop serves as the link that transmits power from the motor to the pump. If this connection is not properly designed, it can lead to inefficiencies, excessive wear and tear, or even complete system failure. Engineers must carefully analyze the coupling loop to ensure that it can handle the required torque and speed while minimizing energy loss.In electrical engineering, the concept of a coupling loop is equally significant. For instance, in circuit design, a coupling loop may refer to the way signals are transmitted between different components of a circuit. Properly designed coupling loops can enhance signal integrity and reduce noise, which is crucial for high-performance electronic devices. Engineers often use simulation tools to model these loops and predict their behavior under various conditions.Moreover, in the context of software development, a coupling loop can describe the relationship between different modules or components of a software application. High coupling between components can lead to a situation where changes in one module necessitate changes in others, making maintenance difficult. Developers aim for low coupling, which allows for easier updates and better modularity in software design.The study of coupling loops also extends to systems theory, where it is used to describe feedback mechanisms within complex systems. In this context, a coupling loop can represent how different elements of a system influence each other, leading to dynamic behavior. For example, in ecological models, predator-prey relationships can be viewed through the lens of coupling loops, where the population of one species directly affects the population of another.In conclusion, the concept of a coupling loop is multifaceted and appears across various disciplines. Whether in mechanical systems, electrical circuits, software architecture, or ecological models, understanding how these loops function is vital for optimizing performance and ensuring stability. As technology continues to advance, the principles underlying coupling loops will remain fundamental to the development of efficient and reliable systems. By grasping the significance of coupling loops, professionals in different fields can make informed decisions that enhance the functionality and longevity of their designs.

在工程和物理学领域，术语coupling loop指的是一种特定的配置或机制，它连接两个系统或组件，使它们能够相互作用。这个概念在机械工程、电气工程甚至软件开发等多个领域至关重要。理解coupling loop的功能对于创建依赖不同部分之间相互作用的高效系统是必不可少的。为了说明coupling loop的重要性，让我们考虑一个来自机械工程的例子。在设计电动机和泵系统时，coupling loop作为传递电动机到泵的动力的连接。如果这个连接设计不当，可能会导致效率低下、过度磨损甚至整个系统的故障。工程师必须仔细分析coupling loop，以确保它能够处理所需的扭矩和速度，同时最小化能量损失。在电气工程中，coupling loop的概念同样重要。例如，在电路设计中，coupling loop可能指的是信号在电路不同组件之间传输的方式。合理设计的耦合环路可以增强信号完整性并减少噪声，这对高性能电子设备至关重要。工程师通常使用仿真工具来建模这些环路，并预测它们在各种条件下的行为。此外，在软件开发的背景下，coupling loop可以描述软件应用程序不同模块或组件之间的关系。组件之间的高度耦合可能导致一个模块中的更改需要在其他模块中进行更改，从而使维护变得困难。开发人员旨在实现低耦合，这样可以更容易地更新并改善软件设计的模块化。对coupling loops的研究还扩展到系统理论，在这里它用于描述复杂系统内的反馈机制。在这种情况下，coupling loop可以代表系统中不同元素如何相互影响，从而导致动态行为。例如，在生态模型中，捕食者与猎物之间的关系可以通过耦合环路的视角来看待，其中一个物种的种群直接影响另一个物种的种群。总之，coupling loop的概念是多方面的，并且出现在各个学科中。无论是在机械系统、电气电路、软件架构还是生态模型中，理解这些环路的功能对于优化性能和确保稳定性至关重要。随着技术的不断进步，支撑coupling loops的原理将继续成为高效和可靠系统发展的基础。通过掌握耦合环路的重要性，各个领域的专业人士可以做出明智的决策，从而增强其设计的功能性和耐用性。