control grid

简明释义

控制栅

英英释义

例句

1.The control grid is essential for managing the flow of electricity in this circuit.

在这个电路中，控制网格对于管理电流的流动至关重要。

2.In the design of the amplifier, the control grid plays a crucial role in regulating the output.

在放大器的设计中，控制网格在调节输出方面发挥着至关重要的作用。

3.He explained that the control grid adjusts the intensity of the light emitted from the lamp.

他解释说，控制网格调节灯泡发出的光的强度。

4.She learned how to manipulate the control grid for better audio performance during her sound engineering course.

在她的声音工程课程中，她学习了如何操控控制网格以获得更好的音频表现。

5.The technician adjusted the settings on the control grid to improve the signal quality.

技术人员调整了控制网格上的设置，以改善信号质量。

作文

In the realm of electrical engineering, the term control grid refers to a crucial component found in vacuum tubes and electron tubes. This element plays an essential role in modulating the flow of electrons between the cathode and anode, thereby controlling the amplification of electrical signals. The control grid is typically made of fine wires arranged in a mesh-like structure that allows for the regulation of electron flow with precision. By applying a voltage to the control grid, engineers can influence the current that passes through, making it a vital part of various electronic devices, including radios, televisions, and amplifiers.The significance of the control grid extends beyond its basic function. It embodies the principles of control and modulation that are foundational to modern electronics. When we consider the evolution of technology, the importance of the control grid becomes even more apparent. It has enabled the development of sophisticated communication systems, allowing for clearer transmissions and enhanced audio-visual experiences. Without the innovations brought about by the control grid, many of the devices we rely on today would not exist.Moreover, the control grid serves as a metaphor for broader concepts of control within various fields. For instance, in social sciences, the idea of a control grid can represent the frameworks and regulations that govern behavior and interactions within a society. Just as the control grid in electronics manages the flow of current, societal norms and laws regulate human actions and maintain order. This parallel illustrates how control mechanisms are integral to both technology and human interaction.In a practical sense, understanding the control grid is essential for anyone pursuing a career in electronics or engineering. It is not merely an abstract concept but a tangible element that engineers must design, implement, and troubleshoot. Mastery of the control grid involves not only theoretical knowledge but also hands-on experience with circuit design and analysis. Students and professionals alike must familiarize themselves with the characteristics and behaviors of the control grid to innovate and improve existing technologies.Furthermore, as we move towards a future dominated by digital technologies and smart devices, the principles underlying the control grid will continue to play a significant role. With the rise of artificial intelligence and machine learning, the ability to control and modulate data flows becomes increasingly important. The control grid symbolizes the intersection of traditional engineering practices and modern computational techniques, highlighting the need for interdisciplinary knowledge in today's technological landscape.In conclusion, the control grid is more than just a component in electronic devices; it represents a fundamental principle of control that permeates various aspects of technology and society. Its ability to regulate and modulate signals has paved the way for advancements in communication and entertainment, while also serving as a metaphor for the systems that govern our lives. As we continue to innovate and explore new technologies, the lessons learned from the control grid will remain relevant, guiding us in our pursuit of progress and understanding in an ever-evolving world.

在电气工程领域，术语控制网格指的是真空管和电子管中的一个关键组件。这个元素在调节阴极和阳极之间电子流动方面起着至关重要的作用，从而控制电信号的放大。控制网格通常由细丝制成，呈网状结构，允许精确调节电子流动。通过对控制网格施加电压，工程师可以影响通过的电流，使其成为各种电子设备（包括收音机、电视和放大器）的重要组成部分。控制网格的重要性超出了其基本功能。它体现了现代电子学基础的控制和调制原理。当我们考虑技术的演变时，控制网格的重要性变得更加明显。它使得复杂通信系统的发展成为可能，从而实现更清晰的传输和增强的视听体验。如果没有控制网格带来的创新，我们今天依赖的许多设备将不会存在。此外，控制网格也作为更广泛控制概念的隐喻。在社会科学中，控制网格的概念可以代表治理行为和社会互动的框架和规定。正如电子学中的控制网格管理电流流动一样，社会规范和法律调节人类行为并维护秩序。这一平行关系阐明了控制机制在技术和人际互动中的重要性。从实际角度来看，理解控制网格对于任何追求电子或工程职业的人来说都是至关重要的。它不仅仅是一个抽象概念，而是工程师必须设计、实施和排除故障的有形元素。掌握控制网格不仅涉及理论知识，还需要在电路设计和分析方面的实践经验。学生和专业人士都必须熟悉控制网格的特性和行为，以创新和改进现有技术。此外，随着我们迈向一个以数字技术和智能设备为主导的未来，支撑控制网格的原则将继续发挥重要作用。随着人工智能和机器学习的兴起，控制和调制数据流的能力变得越来越重要。控制网格象征着传统工程实践与现代计算技术的交汇，突显出在当今技术环境中跨学科知识的必要性。总之，控制网格不仅仅是电子设备中的一个组件；它代表了一种渗透于技术和社会各个方面的控制基本原则。它调节和调制信号的能力为通信和娱乐的进步铺平了道路，同时也作为治理我们生活的系统的隐喻。随着我们继续创新和探索新技术，从控制网格中获得的经验教训将保持相关性，引导我们在不断发展的世界中追求进步和理解。