directly-coupled system
简明释义
直接耦合系统
英英释义
例句
1.In our experiments, the directly-coupled system proved to be more reliable than the previous models.
在我们的实验中,直接耦合系统被证明比之前的模型更可靠。
2.The directly-coupled system allows for seamless integration between components.
这个直接耦合系统允许组件之间无缝集成。
3.The new design features a directly-coupled system that enhances efficiency.
新设计采用了一个直接耦合系统,提高了效率。
4.We implemented a directly-coupled system to reduce energy losses in the circuit.
我们实施了一个直接耦合系统以减少电路中的能量损耗。
5.The engineers recommended a directly-coupled system for improved performance.
工程师建议使用直接耦合系统以提高性能。
作文
In the realm of engineering and physics, the concept of a directly-coupled system is fundamental to understanding how different components of a system interact with one another. A directly-coupled system refers to a configuration where two or more components are connected in such a way that they influence each other's behavior without any intermediary. This direct connection can lead to more efficient energy transfer and improved performance in various applications. For example, in mechanical systems, gears can be directly coupled to transmit torque from one component to another, resulting in a seamless operation. One of the most significant advantages of a directly-coupled system is the reduction of energy losses that often occur in systems with intermediary components. In contrast to indirect coupling, where energy may dissipate as heat or sound, direct coupling ensures that the maximum amount of energy is transferred from one part of the system to another. This efficiency is crucial in applications such as electric motors, where the goal is to convert electrical energy into mechanical energy with minimal losses.Furthermore, directly-coupled systems can enhance the responsiveness of the system. For instance, in control systems, when sensors are directly coupled to actuators, the response time is significantly reduced. This characteristic is particularly important in applications requiring precise timing and coordination, such as robotics and automated manufacturing processes. The direct interaction between sensors and actuators allows for real-time feedback and adjustments, leading to improved accuracy and performance.However, while directly-coupled systems offer numerous benefits, they also come with certain challenges. One of the primary concerns is that if one component fails, it can directly impact the entire system. This interconnectedness means that troubleshooting and maintenance can become more complex, as issues in one area may propagate through the system. Therefore, engineers must carefully design directly-coupled systems with redundancy and fault tolerance in mind to mitigate potential risks.In conclusion, the concept of a directly-coupled system plays a crucial role in various fields of technology and engineering. Its ability to provide efficient energy transfer and enhance system responsiveness makes it an attractive option for many applications. However, the challenges associated with direct coupling must be addressed to ensure the reliability and longevity of these systems. As technology continues to advance, the principles behind directly-coupled systems will remain vital in designing innovative solutions that push the boundaries of what is possible in engineering and beyond.
在工程和物理学领域,直接耦合系统的概念对于理解系统中不同组件之间的相互作用至关重要。直接耦合系统是指两个或多个组件以一种方式连接在一起,使它们在没有任何中介的情况下彼此影响行为。这种直接连接可以导致更高效的能量传递和在各种应用中的改进性能。例如,在机械系统中,齿轮可以直接耦合,以将扭矩从一个组件传递到另一个组件,从而实现无缝操作。直接耦合系统的一个显著优势是减少了在具有中介组件的系统中常见的能量损失。与间接耦合相比,后者可能导致能量以热量或声音的形式散失,直接耦合确保最大限度地将能量从系统的一部分转移到另一部分。这种效率在电动机等应用中至关重要,其目标是以最小的损失将电能转换为机械能。此外,直接耦合系统可以增强系统的响应能力。例如,在控制系统中,当传感器直接耦合到执行器时,响应时间显著减少。这一特性在需要精确时序和协调的应用中尤为重要,例如机器人技术和自动化制造过程。传感器与执行器之间的直接互动允许实时反馈和调整,从而提高准确性和性能。然而,尽管直接耦合系统提供了许多好处,但它们也带来了一些挑战。主要问题之一是,如果一个组件发生故障,可能会直接影响整个系统。这种相互关联意味着故障排除和维护可能变得更加复杂,因为一个区域的问题可能会传播到系统的其他部分。因此,工程师必须谨慎设计直接耦合系统,考虑冗余和容错,以减轻潜在风险。总之,直接耦合系统的概念在各个技术和工程领域发挥着至关重要的作用。其提供高效能量传递和增强系统响应能力的能力使其成为许多应用的有吸引力的选择。然而,必须解决与直接耦合相关的挑战,以确保这些系统的可靠性和长寿命。随着技术的不断进步,直接耦合系统背后的原理将在设计推动工程及其他领域创新解决方案的过程中继续发挥重要作用。
