oscillograph tube

简明释义

示波管

英英释义

例句

1.The scientist used an oscillograph tube to measure the electrical signals from the brain.

科学家使用了一个振荡管来测量大脑的电信号。

2.By analyzing the data from the oscillograph tube, we could pinpoint the source of the interference.

通过分析来自振荡管的数据，我们能够确定干扰的来源。

3.Engineers often rely on an oscillograph tube for testing electronic components.

工程师们常常依赖振荡管来测试电子元件。

4.The oscillograph tube displayed a clear waveform of the sound frequencies.

该振荡管显示了声音频率的清晰波形。

5.In the lab, we replaced the faulty oscillograph tube to ensure accurate readings.

在实验室里，我们更换了故障的振荡管以确保读取的准确性。

作文

The development of technology has brought about numerous advancements in various fields, one of which is the realm of electronics and signal processing. Among the many tools that have been invented to analyze electrical signals, the oscillograph tube stands out as a crucial component. An oscillograph tube (示波管) is a device used to display and analyze the waveform of electronic signals, providing vital information regarding their characteristics such as frequency, amplitude, and phase. This instrument has played a significant role in both scientific research and practical applications, allowing engineers and scientists to visualize complex waveforms and understand their behavior over time.Historically, the oscillograph tube has evolved from simple cathode ray tubes (CRTs) to more sophisticated technologies, including digital oscilloscopes. The basic principle behind an oscillograph tube involves the deflection of an electron beam within a vacuum tube, which creates a visual representation of the electrical signal on a phosphorescent screen. As the electron beam moves across the screen, it traces the shape of the waveform, providing users with a clear view of the signal's behavior.In engineering, the oscillograph tube is indispensable for troubleshooting circuits and designing new electronic devices. Engineers utilize this tool to monitor signal integrity and ensure that systems operate within specified parameters. By examining the waveforms produced by the oscillograph tube, they can identify potential issues such as signal distortion or noise, which could adversely affect performance. Furthermore, the ability to capture transient events allows engineers to gain insights into the dynamic behavior of circuits under various conditions.In scientific research, the oscillograph tube serves as a fundamental tool for studying phenomena in physics and other disciplines. Researchers can use it to observe oscillations in different systems, ranging from mechanical vibrations to electromagnetic waves. By analyzing the data displayed on the oscillograph tube, scientists can draw conclusions about the underlying principles governing these oscillations and contribute to the advancement of knowledge in their respective fields.Moreover, with the advent of digital technology, modern oscilloscopes have incorporated advanced features that enhance the functionality of the traditional oscillograph tube. Digital oscilloscopes offer capabilities such as data storage, complex mathematical analysis, and automated measurements, making them even more powerful tools for engineers and researchers alike. These advancements have made it easier to analyze signals and perform detailed investigations, leading to more efficient designs and improved understanding of electronic systems.In conclusion, the oscillograph tube (示波管) is a vital instrument in the fields of electronics and signal analysis. Its ability to visualize electrical signals has made it an essential tool for engineers and researchers, enabling them to troubleshoot, design, and study various systems effectively. As technology continues to advance, the role of the oscillograph tube will undoubtedly evolve, but its importance in the understanding of electronic signals will remain steadfast. The future holds exciting possibilities for innovations that may further enhance the capabilities of this remarkable device, ensuring its relevance in an increasingly complex technological landscape.

技术的发展带来了各个领域的众多进步，其中之一就是电子和信号处理的领域。在众多被发明出来的分析电信号的工具中，oscillograph tube（示波管）作为一个关键组件脱颖而出。oscillograph tube是一种用于显示和分析电子信号波形的设备，提供关于信号特性的重要信息，如频率、幅度和相位。这个仪器在科学研究和实际应用中发挥了重要作用，使工程师和科学家能够可视化复杂的波形并理解其随时间的行为。历史上，oscillograph tube从简单的阴极射线管（CRT）发展到更复杂的技术，包括数字示波器。oscillograph tube的基本原理涉及在真空管内偏转电子束，这在荧光屏上创建电信号的可视化表示。当电子束在屏幕上移动时，它描绘出波形的形状，为用户提供信号行为的清晰视图。在工程领域，oscillograph tube对于故障排除电路和设计新电子设备是不可或缺的。工程师利用这个工具监测信号完整性，确保系统在规定参数内运行。通过检查由oscillograph tube生成的波形，他们可以识别潜在问题，如信号失真或噪声，这可能会对性能产生不利影响。此外，捕捉瞬态事件的能力使工程师能够深入了解电路在不同条件下的动态行为。在科学研究中，oscillograph tube作为研究物理学和其他学科现象的基础工具。研究人员可以使用它观察不同系统中的振荡，从机械振动到电磁波。通过分析在oscillograph tube上显示的数据，科学家们可以得出关于这些振荡的基本原理的结论，并为各自领域的知识进步作出贡献。此外，随着数字技术的出现，现代示波器已经结合了增强传统oscillograph tube功能的先进特性。数字示波器提供数据存储、复杂数学分析和自动测量等功能，使其成为工程师和研究人员更强大的工具。这些进步使得分析信号和进行详细调查变得更加容易，从而导致更高效的设计和对电子系统的更深入理解。总之，oscillograph tube（示波管）在电子和信号分析领域是一种重要的仪器。它可视化电信号的能力使其成为工程师和研究人员的必备工具，使他们能够有效地故障排除、设计和研究各种系统。随着技术的不断进步，oscillograph tube的角色无疑会演变，但其在理解电子信号方面的重要性将始终如一。未来的创新将进一步增强这一卓越设备的能力，确保其在日益复杂的技术环境中的相关性。