control grid

简明释义

控制极

英英释义

例句

1.The control grid is essential for maintaining stability in the power distribution system.

在电力分配系统中，控制网格对于维持稳定性至关重要。

2.In the new software update, the control grid allows for more precise data manipulation.

在新的软件更新中，控制网格允许更精确的数据处理。

3.To improve performance, the technicians modified the control grid layout.

为了提高性能，技术人员修改了控制网格的布局。

4.The engineer adjusted the settings on the control grid to enhance signal clarity.

工程师调整了控制网格上的设置，以增强信号清晰度。

5.The control grid in this circuit design helps manage voltage levels effectively.

这个电路设计中的控制网格有效地管理电压水平。

作文

In the realm of electrical engineering and electronics, the term control grid refers to a crucial component found in vacuum tubes. This component plays a significant role in controlling the flow of electric current between the cathode and the anode. Essentially, the control grid acts as a gatekeeper, regulating how much current is allowed to pass through based on the voltage applied to it. This functionality makes the control grid indispensable in various applications, including amplifiers, oscillators, and radios.The operation of the control grid can be likened to that of a faucet controlling water flow. Just as turning the faucet adjusts the amount of water flowing through a pipe, altering the voltage on the control grid modifies the current flowing through the vacuum tube. This ability to modulate current is what allows vacuum tubes to amplify signals, making them essential in early electronic devices.Historically, vacuum tubes were the backbone of electronic amplification before the advent of transistors. The control grid was a revolutionary innovation at the time, enabling engineers to create more powerful and efficient devices. As technology progressed, however, transistors began to replace vacuum tubes due to their smaller size, greater efficiency, and reliability. Despite this shift, the principles behind the control grid remain relevant in understanding modern electronics.Moreover, the concept of a control grid can extend beyond vacuum tubes into broader contexts. For instance, in the field of control systems, a control grid may refer to a framework or set of parameters used to manage and regulate complex systems. In this sense, a control grid can be seen as a metaphor for any system that requires regulation and control to achieve desired outcomes.In contemporary discussions about technology, the term control grid might also be associated with the management of data and information flow within networks. As we navigate the digital age, the need for effective control mechanisms has never been more critical. Whether in cybersecurity, data management, or network traffic control, the principles underlying a control grid can help inform strategies for optimizing performance and ensuring security.In conclusion, the control grid is a fundamental concept in both historical and modern contexts of electronics and control systems. Its role in regulating current in vacuum tubes paved the way for advancements in technology, while its broader implications continue to resonate in various fields today. Understanding the control grid not only enriches our knowledge of electronic components but also enhances our ability to engage with and innovate within complex systems in our increasingly interconnected world.

在电气工程和电子学领域，术语控制栅极指的是真空管中发现的一个关键组件。这个组件在控制阴极和阳极之间电流流动方面发挥着重要作用。本质上，控制栅极充当了一个守门人，根据施加在其上的电压调节允许通过的电流量。这种功能使得控制栅极在各种应用中不可或缺，包括放大器、振荡器和收音机。控制栅极的操作可以比作水龙头控制水流。就像转动水龙头可以调整管道中水的流量一样，改变控制栅极上的电压也会修改通过真空管的电流。这种调制电流的能力使得真空管能够放大信号，这使它们在早期电子设备中至关重要。历史上，真空管是电子放大的支柱，在晶体管出现之前。控制栅极当时是一项革命性的创新，使工程师能够制造出更强大和高效的设备。然而，随着技术的发展，晶体管因其体积更小、效率更高和可靠性更强而开始取代真空管。尽管发生了这种转变，但控制栅极背后的原理在理解现代电子学时仍然相关。此外，控制栅极的概念可以超越真空管，扩展到更广泛的背景。例如，在控制系统领域，控制栅极可能指用于管理和调节复杂系统的一套框架或参数。从这个意义上说，控制栅极可以被视为任何需要调节和控制以实现所需结果的系统的隐喻。在当代关于技术的讨论中，术语控制栅极可能还与网络中数据和信息流的管理相关。随着我们进入数字时代，有效控制机制的需求比以往任何时候都更加重要。无论是在网络安全、数据管理还是网络流量控制中，控制栅极背后的原理都可以帮助制定优化性能和确保安全的策略。总之，控制栅极是电子学和控制系统的历史和现代背景中的一个基本概念。它在真空管中调节电流的角色为技术进步铺平了道路，而它更广泛的含义在当今各个领域继续引起共鸣。理解控制栅极不仅丰富了我们对电子组件的知识，也增强了我们在日益互联的世界中与复杂系统互动和创新的能力。