secondary controller

简明释义

二次控制器

英英释义

例句

1.In a multi-user environment, each user can be assigned a secondary controller 次级控制器 to manage their individual settings.

在多用户环境中，每个用户可以被分配一个次级控制器 secondary controller 来管理他们的个人设置。

2.For improved performance, we implemented a secondary controller 次级控制器 to distribute the load.

为了提高性能，我们实施了一个次级控制器 secondary controller 来分配负载。

3.The secondary controller 次级控制器 can take over if the primary controller fails.

如果主控制器出现故障，次级控制器 secondary controller 可以接管。

4.The secondary controller 次级控制器 allows for easier troubleshooting by monitoring additional parameters.

通过监控额外参数，次级控制器 secondary controller 使故障排除变得更容易。

5.The main system is managed by the primary controller, while the secondary controller 次级控制器 handles backup operations.

主系统由主控制器管理，而次级控制器 secondary controller 负责备份操作。

作文

In the realm of technology and systems engineering, the term secondary controller refers to a component or system that assists the primary controller in managing processes or operations. This concept is particularly prevalent in automation, robotics, and control systems where multiple controllers work in tandem to achieve desired outcomes. Understanding the role of a secondary controller is crucial for anyone involved in designing or managing complex systems.To illustrate the function of a secondary controller, let us consider an example from the field of robotics. Imagine a robotic arm designed to perform intricate tasks, such as assembling small components. The primary controller in this scenario is responsible for the overall motion planning and execution. However, to ensure precision and efficiency, a secondary controller may be employed to handle specific tasks, such as monitoring the torque applied at each joint of the robotic arm. This division of labor not only enhances the performance of the robotic system but also allows for greater flexibility in programming and operation.Furthermore, the integration of a secondary controller can lead to improved fault tolerance within a system. If the primary controller encounters an error or becomes unresponsive, the secondary controller can take over certain functions or provide backup support. This redundancy is essential in critical applications, such as aerospace and medical devices, where failures can have severe consequences.In addition to robotics, the concept of a secondary controller is also applicable in various industries, including manufacturing and process control. For instance, in a manufacturing plant, the main production line may be managed by a primary controller that oversees the entire operation. Meanwhile, secondary controllers could be utilized to regulate specific machines or processes, such as temperature control in an oven or pressure regulation in a hydraulic press. This hierarchical structure allows for more efficient management of resources and better responsiveness to changes in production demands.Moreover, the use of secondary controllers can facilitate advanced control strategies, such as adaptive control or predictive maintenance. By utilizing data from sensors and feedback mechanisms, a secondary controller can adjust its parameters in real-time to optimize performance. This capability is increasingly important in today’s fast-paced industrial environments, where the ability to adapt quickly can provide a competitive edge.In conclusion, the term secondary controller encompasses a vital aspect of modern control systems and automation. Its role in assisting primary controllers not only enhances the efficiency and reliability of various applications but also fosters innovation in system design. As technology continues to evolve, the importance of understanding and implementing secondary controllers will undoubtedly grow, making it an essential topic for engineers and technologists alike. The collaborative nature of primary and secondary controllers exemplifies the complexity and sophistication required in contemporary engineering solutions, highlighting the need for ongoing education and research in this field.

在技术和系统工程领域，术语secondary controller指的是一个组件或系统，它协助主控制器管理过程或操作。这个概念在自动化、机器人技术和控制系统中尤为普遍，其中多个控制器共同工作以实现预期的结果。理解secondary controller的角色对于任何参与设计或管理复杂系统的人来说都是至关重要的。为了说明secondary controller的功能，让我们考虑一个来自机器人领域的例子。想象一下，一个设计用于执行复杂任务的机器人手臂，例如组装小部件。在这个场景中，主控制器负责整体运动规划和执行。然而，为了确保精确性和效率，可能会使用secondary controller来处理特定任务，例如监测机器人手臂每个关节施加的扭矩。这种分工不仅增强了机器人系统的性能，还允许在编程和操作中具有更大的灵活性。此外，集成secondary controller可以提高系统内的故障容忍度。如果主控制器遇到错误或变得无响应，secondary controller可以接管某些功能或提供备份支持。这种冗余在关键应用中至关重要，例如航空航天和医疗设备，因为失败可能会产生严重后果。除了机器人技术，secondary controller的概念在制造和过程控制等各个行业也适用。例如，在制造工厂中，主要生产线可能由主控制器管理，负责监督整个操作。同时，secondary controllers可以用于调节特定机器或过程，例如烤箱中的温度控制或液压压机中的压力调节。这种层级结构允许更有效地管理资源，并更好地响应生产需求的变化。此外，使用secondary controllers可以促进先进的控制策略，例如自适应控制或预测性维护。通过利用传感器和反馈机制的数据，secondary controller可以实时调整其参数以优化性能。这种能力在当今快速发展的工业环境中越来越重要，因为快速适应的能力可以提供竞争优势。总之，术语secondary controller涵盖了现代控制系统和自动化的重要方面。它在协助主控制器方面的作用不仅提高了各种应用的效率和可靠性，还促进了系统设计的创新。随着技术的不断发展，理解和实施secondary controllers的重要性无疑会增加，使其成为工程师和技术人员必须关注的主题。主控制器和secondary controllers的协作性质体现了当代工程解决方案所需的复杂性和精密性，突显了在这一领域持续教育和研究的必要性。