electric oscillograph

简明释义

电示波器

英英释义

例句

1.The electric oscillograph displayed a clear representation of the electrical signals.

这个电气示波器清晰地显示了电信号的表示。

2.The engineer used an electric oscillograph to analyze the waveform of the signal.

工程师使用电气示波器来分析信号的波形。

3.During the experiment, the electric oscillograph helped us identify anomalies in the data.

在实验过程中，电气示波器帮助我们识别数据中的异常。

4.We calibrated the electric oscillograph before taking any measurements.

在进行任何测量之前，我们对电气示波器进行了校准。

5.In the laboratory, we rely on an electric oscillograph for precise measurements.

在实验室，我们依赖电气示波器进行精确测量。

作文

The advent of technology has revolutionized many fields, and one of the most significant advancements in electrical engineering is the development of the electric oscillograph. An electric oscillograph is an instrument used to visualize electrical signals and waveforms, providing valuable insights into their characteristics. This device plays a critical role in various applications, from research laboratories to industrial settings. In this essay, I will discuss the importance of the electric oscillograph, its working principles, and its applications in modern technology.To begin with, the electric oscillograph operates based on the principle of converting electrical signals into visual representations. It captures the fluctuations of voltage over time and translates them into waveforms displayed on a screen. This visualization allows engineers and scientists to analyze the behavior of electrical signals, making it easier to identify anomalies or irregularities. The ability to see these signals in real-time is crucial for troubleshooting and optimizing electronic systems.One of the primary applications of the electric oscillograph is in the field of telecommunications. Engineers use this device to monitor and analyze the quality of signals transmitted over various media. By examining the waveforms produced by the electric oscillograph, they can determine if there are any distortions or losses in the signal, which could affect communication quality. This capability is particularly vital in ensuring the reliability of mobile networks and internet connections, where uninterrupted service is expected.In addition to telecommunications, the electric oscillograph is extensively used in medical diagnostics. In electrocardiography (ECG), for instance, the device records the electrical activity of the heart. The resulting waveforms provide critical information about heart health, enabling doctors to detect arrhythmias and other cardiac conditions. The precision and clarity of the electric oscillograph make it an indispensable tool in modern medicine, allowing for timely interventions and better patient outcomes.Moreover, the electric oscillograph is essential in research and development. Scientists and engineers utilize this instrument to test new electronic components and systems. By analyzing the waveforms generated during testing, they can assess performance, efficiency, and reliability. This process is crucial for innovation, as it helps in refining designs and ensuring that new technologies meet industry standards.The evolution of the electric oscillograph has also led to the development of digital oscilloscopes, which offer enhanced features such as advanced triggering options, storage capabilities, and user-friendly interfaces. These modern devices have made it easier for users to capture and analyze complex signals, further expanding the scope of applications in various fields.In conclusion, the electric oscillograph is a vital instrument in understanding and analyzing electrical signals. Its ability to visualize waveforms has transformed numerous industries, from telecommunications to healthcare and research. As technology continues to advance, the significance of the electric oscillograph will only grow, paving the way for further innovations and improvements in various sectors. Understanding how to effectively use this device is essential for anyone involved in electrical engineering or related fields, as it provides invaluable insights into the behavior of electrical systems and components. The continued development of this technology promises to enhance our capabilities in diagnosing problems, improving efficiency, and fostering innovation in the future.

科技的出现彻底改变了许多领域，其中电气工程中最重要的进展之一就是电气示波器的发展。电气示波器是一种用于可视化电信号和波形的仪器，提供对其特征的宝贵见解。这种设备在从研究实验室到工业环境的各种应用中发挥着关键作用。在这篇文章中，我将讨论电气示波器的重要性、工作原理以及它在现代技术中的应用。首先，电气示波器的工作原理是将电信号转换为可视化表示。它捕捉电压随时间的波动，并将其转化为显示在屏幕上的波形。这种可视化使工程师和科学家能够分析电信号的行为，从而更容易识别异常或不规则现象。实时观察这些信号的能力对于故障排除和优化电子系统至关重要。电气示波器的主要应用之一是在电信领域。工程师使用该设备监控和分析通过各种媒介传输的信号质量。通过检查电气示波器产生的波形，他们可以确定信号是否存在失真或损失，这可能会影响通信质量。这种能力在确保移动网络和互联网连接的可靠性方面尤为重要，因为人们期望服务不中断。除了电信，电气示波器在医疗诊断中也得到了广泛应用。例如，在心电图（ECG）中，该设备记录心脏的电活动。生成的波形提供有关心脏健康的重要信息，使医生能够检测心律失常和其他心脏疾病。电气示波器的精确性和清晰度使其成为现代医学中不可或缺的工具，能够及时干预并改善患者的治疗效果。此外，电气示波器在研究与开发中至关重要。科学家和工程师利用这一仪器测试新的电子元件和系统。通过分析测试过程中生成的波形，他们可以评估性能、效率和可靠性。这个过程对于创新至关重要，因为它有助于完善设计并确保新技术符合行业标准。电气示波器的演变还导致了数字示波器的发展，后者提供了增强的功能，如先进的触发选项、存储能力和用户友好的界面。这些现代设备使用户能够更轻松地捕捉和分析复杂信号，进一步扩大了其在各个领域的应用范围。总之，电气示波器是理解和分析电信号的重要工具。其可视化波形的能力已彻底改变了众多行业，从电信到医疗保健和研究。随着技术的不断进步，电气示波器的重要性只会增加，为各个部门的进一步创新和改善铺平道路。有效理解如何使用这一设备对于任何参与电气工程或相关领域的人来说都是至关重要的，因为它提供了对电气系统和组件行为的宝贵见解。这一技术的持续发展有望提升我们在诊断问题、提高效率和促进未来创新方面的能力。