timing mechanism

简明释义

定时机构

英英释义

例句

1.In robotics, a precise timing mechanism is crucial for synchronizing movements.

在机器人技术中，精确的定时机制对同步运动至关重要。

2.The project manager implemented a timing mechanism to track the progress of each phase.

项目经理实施了一个定时机制来跟踪每个阶段的进展。

3.This game features a timing mechanism that challenges players to complete tasks within a set time limit.

这个游戏具有一个定时机制，挑战玩家在设定的时间限制内完成任务。

4.The new software includes a built-in timing mechanism that automatically schedules updates.

这个新软件包含一个内置的定时机制，可以自动安排更新。

5.The light bulb has a timing mechanism that turns it off after a certain period of inactivity.

这个灯泡有一个定时机制，在一定时间不活动后会自动关闭。

作文

In the realm of technology and engineering, the term timing mechanism refers to a system that regulates the timing of various processes or events within a machine or circuit. This concept is crucial in many applications, from simple mechanical devices to complex electronic systems. The importance of a timing mechanism can be observed in everyday objects such as watches, where precise timekeeping is essential. In this essay, we will explore the significance of timing mechanisms, their applications, and how they contribute to the efficiency and functionality of various systems.To begin with, a timing mechanism serves as the backbone of synchronization in mechanical and electronic systems. For instance, in a car engine, the timing mechanism ensures that the fuel injection and ignition occur at the right moments to optimize performance and reduce emissions. Without a properly functioning timing mechanism, an engine may misfire, leading to reduced efficiency and increased wear on components.Moreover, in the world of electronics, timing mechanisms are vital for the operation of digital circuits. These circuits rely on clock signals generated by timing mechanisms to coordinate the flow of data and ensure that operations are executed in the correct sequence. A malfunctioning timing mechanism can result in data corruption or system failures, highlighting the necessity of precision in these components.The applications of timing mechanisms extend beyond automotive and electronic systems. In the field of robotics, for example, timing mechanisms play a significant role in controlling the movements of robotic arms. By ensuring that each joint moves in harmony with the others, a timing mechanism allows for smooth and accurate operations, which is essential in tasks such as assembly lines or surgical procedures.Furthermore, the concept of a timing mechanism is not limited to physical systems; it also applies to software applications. In programming, timers and schedulers act as timing mechanisms that manage when certain functions should be executed. This is particularly important in real-time systems, where delays or inaccuracies can lead to catastrophic results, such as in flight control systems or medical devices.In conclusion, the timing mechanism is an integral component across various fields, ensuring that processes occur in a synchronized and efficient manner. Whether in mechanical systems like engines, electronic circuits, robotic systems, or software applications, the role of a timing mechanism cannot be overstated. As technology continues to evolve, the development of more advanced and precise timing mechanisms will undoubtedly enhance the performance and reliability of countless devices and systems, paving the way for innovations that were previously unimaginable. Understanding and mastering the principles behind timing mechanisms will be essential for future engineers and technologists as they strive to create more efficient and effective solutions to complex problems.

在技术和工程领域，术语timing mechanism指的是一种调节机器或电路中各种过程或事件时机的系统。这个概念在许多应用中至关重要，从简单的机械设备到复杂的电子系统。timing mechanism的重要性可以在日常物品中观察到，例如手表，其中精确的计时是必不可少的。在这篇文章中，我们将探讨timing mechanisms的重要性、它们的应用，以及它们如何有助于各种系统的效率和功能。首先，timing mechanism作为机械和电子系统中同步的基础。例如，在汽车发动机中，timing mechanism确保燃油喷射和点火在正确的时刻发生，以优化性能并减少排放。如果没有正常工作的timing mechanism，发动机可能会失火，导致效率降低和组件磨损增加。此外，在电子世界中，timing mechanisms对于数字电路的操作至关重要。这些电路依赖于由timing mechanisms生成的时钟信号来协调数据流，并确保操作按正确的顺序执行。故障的timing mechanism可能导致数据损坏或系统故障，这突显了这些组件精度的必要性。timing mechanisms的应用不仅限于汽车和电子系统。在机器人领域，例如，timing mechanisms在控制机器人手臂的运动中发挥着重要作用。通过确保每个关节与其他关节协调运动，timing mechanism允许平滑和准确的操作，这在如装配线或外科手术等任务中至关重要。此外，timing mechanism的概念不仅限于物理系统；它也适用于软件应用。在编程中，定时器和调度程序充当timing mechanisms，管理某些功能何时应执行。这在实时系统中尤为重要，因为延迟或不准确可能导致灾难性结果，例如在飞行控制系统或医疗设备中。总之，timing mechanism是各个领域的一个重要组成部分，确保过程以同步和高效的方式进行。无论是在发动机等机械系统中，电子电路中，机器人系统中，还是软件应用中，timing mechanism的作用都不能被低估。随着技术的不断发展，更先进和更精确的timing mechanisms的发展无疑将增强无数设备和系统的性能和可靠性，为之前无法想象的创新铺平道路。理解和掌握timing mechanisms背后的原理将对未来的工程师和技术人员至关重要，因为他们努力创造更高效和有效的解决方案，以应对复杂的问题。