oscillograph recorder

简明释义

示波器记录器

英英释义

例句

1.The oscillograph recorder is essential for monitoring vibrations in machinery.

对于监测机器的振动，示波器记录仪是必不可少的。

2.During the experiment, the oscillograph recorder provided real-time feedback on the signal fluctuations.

在实验过程中，示波器记录仪实时反馈了信号波动情况。

3.In the laboratory, we analyzed the data collected by the oscillograph recorder to understand the waveform characteristics.

在实验室，我们分析了由示波器记录仪收集的数据，以了解波形特性。

4.The technician calibrated the oscillograph recorder before starting the measurements.

技术员在开始测量之前对示波器记录仪进行了校准。

5.The engineer used the oscillograph recorder to capture the electrical signals from the circuit.

工程师使用示波器记录仪捕捉电路中的电信号。

作文

The world of science and technology is filled with fascinating instruments that help us understand various phenomena. One such instrument is the oscillograph recorder, which plays a crucial role in recording and analyzing electrical signals. This device is particularly important in fields such as engineering, physics, and medicine, where precise measurements are essential for research and diagnostics. The oscillograph recorder is designed to capture waveforms and display them visually, allowing scientists and engineers to study the characteristics of different signals over time.An oscillograph recorder operates by converting electrical signals into a visual representation on a screen or paper. It typically consists of a sensor that detects voltage changes, an amplifier to enhance the signal, and a display mechanism to show the waveform. The ability to visualize these signals is invaluable, as it allows researchers to identify patterns, anomalies, and trends that might be missed through numerical data alone.In the field of medicine, for instance, the oscillograph recorder is used in electrocardiograms (ECGs) to monitor heart activity. By capturing the electrical impulses generated by the heart, medical professionals can assess a patient’s cardiac health and detect any irregularities. This application not only aids in diagnosis but also helps in monitoring the effectiveness of treatments over time.Similarly, in engineering, the oscillograph recorder is employed to test and analyze various electronic components. Engineers use this device to ensure that circuits function correctly and to troubleshoot any issues that may arise. By examining the recorded waveforms, they can make informed decisions about design modifications or repairs.The historical development of the oscillograph recorder dates back to the early 20th century when scientists began to explore the potential of electrical measurements. Over the years, advancements in technology have led to more sophisticated models that offer enhanced accuracy and versatility. Modern oscillograph recorders often incorporate digital technology, enabling real-time data processing and storage, which significantly improves the efficiency of data analysis.Moreover, the integration of software with oscillograph recorders has revolutionized the way data is interpreted. Users can now apply complex algorithms to analyze waveforms, generate reports, and even share findings with colleagues instantaneously. This has transformed research methodologies and fostered collaboration across various scientific disciplines.In conclusion, the oscillograph recorder is an indispensable tool in both scientific research and practical applications. Its ability to convert electrical signals into visual representations provides invaluable insights that drive innovation and discovery. As technology continues to evolve, we can expect further advancements in the capabilities of oscillograph recorders, ultimately leading to greater understanding and improvements in various fields. Whether in healthcare, engineering, or basic research, the impact of this instrument cannot be overstated, making it a cornerstone of modern scientific inquiry.

科学和技术的世界充满了迷人的仪器，帮助我们理解各种现象。其中一个重要的仪器是振荡记录仪，它在记录和分析电信号中发挥着关键作用。该设备在工程、物理学和医学等领域尤为重要，因为精确的测量对于研究和诊断至关重要。振荡记录仪旨在捕捉波形并以视觉方式显示它们，使科学家和工程师能够研究不同信号随时间变化的特征。振荡记录仪通过将电信号转换为屏幕或纸上的可视表示来工作。它通常由一个传感器组成，用于检测电压变化，一个放大器用于增强信号，以及一个显示机制用于显示波形。可视化这些信号的能力是无价的，因为它使研究人员能够识别模式、异常和趋势，这些在仅通过数值数据时可能会被忽略。例如，在医学领域，振荡记录仪用于心电图（ECG）来监测心脏活动。通过捕捉心脏产生的电冲动，医疗专业人员可以评估患者的心脏健康状况并检测任何不规律。这种应用不仅有助于诊断，还帮助监测治疗效果。同样，在工程领域，振荡记录仪用于测试和分析各种电子组件。工程师使用该设备确保电路正常工作，并排除可能出现的任何问题。通过检查记录的波形，他们可以就设计修改或修理做出明智的决定。振荡记录仪的历史发展可以追溯到20世纪初，当时科学家们开始探索电测量的潜力。随着多年来技术的进步，出现了更复杂的型号，提供了更高的准确性和多功能性。现代振荡记录仪通常结合数字技术，使实时数据处理和存储成为可能，从而显著提高数据分析的效率。此外，振荡记录仪与软件的集成彻底改变了数据解读的方式。用户现在可以应用复杂的算法来分析波形、生成报告，甚至即时与同事分享发现。这改变了研究方法论，并促进了各科学学科之间的合作。总之，振荡记录仪是在科学研究和实际应用中不可或缺的工具。它将电信号转换为可视表示的能力提供了无价的见解，推动了创新和发现。随着技术的不断发展，我们可以期待振荡记录仪能力的进一步提升，最终在各个领域实现更大的理解和改进。无论是在医疗保健、工程还是基础研究中，这一仪器的影响都不容小觑，使其成为现代科学探究的基石。