oscillogram

简明释义

英[ɒˈsɪləˌɡræm]美[əˈsɪləˌɡræm]

n. [电子] 波形图；[电子] 示波图

英英释义

单词用法

同义词

反义词

例句

1.Microcomputer control of thyristor conduction Angle in controllable reactor and the matter to be noted are introduced. Experimental results and oscillogram are given.

介绍了可控电抗器晶闸管导通角的微机控制及应注意的问题，并给出了试验结果和波形。

2.Microcomputer control of thyristor conduction Angle in controllable reactor and the matter to be noted are introduced. Experimental results and oscillogram are given.

介绍了可控电抗器晶闸管导通角的微机控制及应注意的问题，并给出了试验结果和波形。

3.With this system, the impact oscillogram of load vs time obtained and displayed by a digital storage oscilloscope are recorded on a magnetic tape.

用数字存贮示波器捕捉下载荷时间曲线，记录在磁记录器上保存。

4.The oscillogram photographs of the neutrons from laser-produced plasma were taken for the first time.

首次拍摄到我国激光聚变上发射的中子信号波形照片。

5.The oscillogram photographs of the neutrons from laser-produced plasma were taken for the first...

首次拍摄到我国激光聚变上发射的中子信号波形照片。

6.The oscillogram photographs of the neutrons from laser-produced plasma w…

首次拍摄到我国激光聚变上发射的中子信号波形照片。

7.The engineer analyzed the oscillogram to determine the frequency of the signal.

工程师分析了波形图以确定信号的频率。

8.In the lab, we recorded an oscillogram of the sound waves produced by the speaker.

在实验室，我们记录了扬声器产生的波形图。

9.The oscillogram showed a clear pattern of oscillation that indicated a stable system.

该波形图显示出清晰的振荡模式，表明系统稳定。

10.During the experiment, the oscillogram helped us visualize the changes in voltage over time.

在实验过程中，波形图帮助我们可视化电压随时间的变化。

11.The technician used an oscillogram to troubleshoot the electrical circuit.

技术员使用波形图来排查电路故障。

作文

In the field of science and engineering, understanding various instruments and their outputs is crucial for both research and practical applications. One such instrument that plays a significant role in analyzing electrical signals is the oscilloscope. The output of an oscilloscope is often represented as an oscillogram, which is a visual representation of varying signal voltages over time. The term oscillogram can be broken down into two parts: 'oscillo', which relates to oscillation, and 'gram', meaning something written or recorded. Thus, an oscillogram serves as a record of the oscillations of electrical signals, providing invaluable information about their characteristics. An oscillogram is typically displayed on a screen, where the x-axis represents time, while the y-axis represents voltage. This graphical representation allows engineers and scientists to observe the behavior of electrical signals in real time. For instance, when analyzing the output of a circuit, an oscillogram can reveal important details such as frequency, amplitude, and waveform shape. These parameters are essential for diagnosing issues in electronic devices and systems. The significance of an oscillogram extends beyond mere data visualization; it is a powerful tool for troubleshooting and innovation. In the design phase of electronic equipment, engineers rely heavily on oscillograms to ensure that circuits operate within desired specifications. Any discrepancies observed on the oscillogram can indicate potential problems, allowing for timely adjustments before final production. Moreover, in educational settings, oscillograms serve as a fundamental teaching aid. Students studying electronics or physics often engage with oscilloscopes to visualize how different components affect electrical signals. By interpreting oscillograms, students gain hands-on experience that complements theoretical knowledge, making learning more engaging and effective. In telecommunications, oscillograms are vital for analyzing signal integrity. Engineers use them to assess the quality of signals transmitted over networks, ensuring that data remains accurate and reliable. For example, in digital communication systems, the shape of the oscillogram can indicate whether a signal is being distorted or if noise is interfering with transmission. This analysis is crucial for maintaining high standards in communication technology. Furthermore, advancements in technology have led to the development of digital oscilloscopes, which provide enhanced capabilities for generating and analyzing oscillograms. Digital oscilloscopes can store multiple oscillograms for comparison and further analysis, making them indispensable tools in modern laboratories. The ability to manipulate and analyze oscillograms digitally has revolutionized the way engineers and scientists approach signal analysis. In conclusion, the oscillogram is more than just a simple graph; it is a comprehensive tool that encapsulates the dynamic nature of electrical signals. Its application spans various fields, including engineering, education, and telecommunications. By mastering the interpretation of oscillograms, professionals and students alike can enhance their understanding of electrical phenomena, paving the way for innovations and solutions to complex problems. As technology continues to evolve, the importance of oscillograms will undoubtedly grow, solidifying their place as a cornerstone of electronic analysis.

在科学和工程领域，理解各种仪器及其输出对于研究和实际应用至关重要。其中一个在分析电信号中发挥重要作用的仪器是示波器。示波器的输出通常以oscillogram的形式表示，这是一种电压随时间变化的可视化表示。术语oscillogram可以分为两个部分：'oscillo'与振荡相关，而'gram'则意味着某种书写或记录。因此，oscillogram作为电信号振荡的记录，提供了关于其特征的宝贵信息。 oscillogram通常显示在屏幕上，其中x轴表示时间，y轴表示电压。这种图形表示使工程师和科学家能够实时观察电信号的行为。例如，在分析电路输出时，oscillogram可以揭示重要的细节，如频率、幅度和波形形状。这些参数对于诊断电子设备和系统中的问题至关重要。 oscillogram的重要性不仅限于数据可视化；它是故障排除和创新的强大工具。在电子设备设计阶段，工程师在很大程度上依赖于oscillograms以确保电路在期望规格内运行。oscillogram上观察到的任何差异都可能表明潜在问题，从而在最终生产之前允许及时调整。 此外，在教育环境中，oscillograms作为基本的教学工具。学习电子学或物理学的学生经常使用示波器来可视化不同组件如何影响电信号。通过解读oscillograms，学生获得了与理论知识相辅相成的实践经验，使学习更具吸引力和有效性。 在电信领域，oscillograms对于分析信号完整性至关重要。工程师使用它们来评估在网络上传输的信号质量，以确保数据保持准确和可靠。例如，在数字通信系统中，oscillogram的形状可以指示信号是否被扭曲或噪声是否干扰传输。这种分析对于保持通信技术的高标准至关重要。 此外，技术的进步导致了数字示波器的发展，这为生成和分析oscillograms提供了增强的能力。数字示波器可以存储多个oscillograms以供比较和进一步分析，使其成为现代实验室中不可或缺的工具。数字化处理和分析oscillograms的能力彻底改变了工程师和科学家对信号分析的方式。 总之，oscillogram不仅仅是一个简单的图表；它是一个全面的工具，概括了电信号的动态特性。它的应用跨越多个领域，包括工程、教育和电信。通过掌握对oscillograms的解读，专业人士和学生都可以增强对电气现象的理解，为创新和解决复杂问题铺平道路。随着技术的不断发展，oscillograms的重要性无疑将会增长，巩固其作为电子分析基石的地位。