oscillograph with electronic commutator

简明释义

电子转换式示波器

英英释义

例句

1.The engineer used the oscillograph with electronic commutator to analyze the waveform of the electrical signals.

工程师使用带有电子换向器的示波器来分析电信号的波形。

2.During the lecture, the professor demonstrated how to operate the oscillograph with electronic commutator effectively.

在讲座中，教授演示了如何有效操作带有电子换向器的示波器。

3.In our laboratory, we rely on the oscillograph with electronic commutator for precise measurements.

在我们的实验室中，我们依赖带有电子换向器的示波器进行精确测量。

4.The results from the oscillograph with electronic commutator were critical for our research paper.

来自带有电子换向器的示波器的结果对我们的研究论文至关重要。

5.The oscillograph with electronic commutator provides real-time data visualization for our experiments.

这台带有电子换向器的示波器为我们的实验提供实时数据可视化。

作文

The development of technology has led to the creation of various instruments that allow us to visualize and analyze electrical signals. One such instrument is the oscillograph with electronic commutator, which plays a crucial role in modern electronics and telecommunications. An oscillograph with electronic commutator is a sophisticated device used to measure and display the waveform of electrical signals, making it invaluable for engineers and researchers alike.An oscillograph typically works by converting electrical signals into visual representations on a screen or paper, allowing users to observe the characteristics of the signal, such as its amplitude, frequency, and phase. The addition of an electronic commutator enhances this functionality by enabling the device to switch between multiple input signals rapidly and accurately. This capability is particularly useful in complex systems where multiple signals need to be analyzed simultaneously.The importance of an oscillograph with electronic commutator cannot be overstated. In the field of telecommunications, for instance, engineers rely on this instrument to ensure that signals are transmitted clearly and without distortion. By analyzing the waveforms generated during signal transmission, they can identify issues such as noise interference or signal degradation, which could affect communication quality.Moreover, in research laboratories, scientists utilize the oscillograph with electronic commutator to conduct experiments that require precise measurements of electrical signals. For example, when studying the behavior of electronic components, researchers can use the oscillograph to monitor how these components react under different conditions. This data is essential for improving designs and enhancing the performance of electronic devices.In addition to its practical applications, the oscillograph with electronic commutator also serves an educational purpose. Students studying electronics and electrical engineering often use this device to gain hands-on experience in signal analysis. By working with an oscillograph, they learn how to interpret waveforms and understand the underlying principles of electrical engineering. This experience is invaluable as it prepares them for careers in technology and engineering fields.Furthermore, the evolution of technology has led to advancements in the design and functionality of the oscillograph with electronic commutator. Modern oscillographs are equipped with digital displays and advanced software that allow for more sophisticated analysis and data storage. This means that users can not only visualize signals but also manipulate and analyze them using computer algorithms, leading to deeper insights into the behavior of electrical systems.In conclusion, the oscillograph with electronic commutator is a vital tool in the world of electronics and telecommunications. Its ability to measure and display electrical signals accurately makes it indispensable for engineers, researchers, and students alike. As technology continues to advance, we can expect further improvements in this instrument, enhancing our understanding of electrical signals and their applications in various fields. The oscillograph with electronic commutator will undoubtedly remain a cornerstone of electrical engineering for years to come.

技术的发展导致了各种仪器的出现，这些仪器使我们能够可视化和分析电信号。其中一种仪器是带有电子换向器的示波器，它在现代电子和电信中起着至关重要的作用。带有电子换向器的示波器是一种复杂的设备，用于测量和显示电信号的波形，使其对工程师和研究人员都非常宝贵。示波器通常通过将电信号转换为屏幕或纸上的可视化表示来工作，使用户能够观察信号的特性，如振幅、频率和相位。电子换向器的加入增强了这一功能，使设备能够快速而准确地在多个输入信号之间切换。这一能力在需要同时分析多个信号的复杂系统中特别有用。带有电子换向器的示波器的重要性不言而喻。例如，在电信领域，工程师依赖该仪器确保信号清晰传输且无失真。通过分析信号传输过程中产生的波形，他们可以识别出噪声干扰或信号衰减等问题，这可能会影响通信质量。此外，在研究实验室，科学家利用带有电子换向器的示波器进行需要精确测量电信号的实验。例如，在研究电子元件的行为时，研究人员可以使用示波器监测这些元件在不同条件下的反应。这些数据对于改进设计和提高电子设备的性能至关重要。除了其实际应用外，带有电子换向器的示波器还具有教育目的。学习电子和电气工程的学生通常使用该设备获得信号分析的实践经验。通过使用示波器，他们学习如何解读波形并理解电气工程的基本原理。这种经验是无价的，因为它为他们在技术和工程领域的职业生涯做好了准备。此外，技术的演变导致了对带有电子换向器的示波器的设计和功能的改进。现代示波器配备了数字显示屏和先进的软件，允许更复杂的分析和数据存储。这意味着用户不仅可以可视化信号，还可以使用计算机算法操纵和分析信号，从而深入了解电气系统的行为。总之，带有电子换向器的示波器是电子和电信世界中的重要工具。它准确测量和显示电信号的能力使其对工程师、研究人员和学生都不可或缺。随着技术的不断进步，我们可以期待这一仪器的进一步改进，从而加深我们对电信号及其在各个领域应用的理解。带有电子换向器的示波器无疑将在未来几年继续成为电气工程的基石。