impulse oscillograph

简明释义

脉冲示波器

英英释义

例句

1.The engineer used an impulse oscillograph to analyze the transient response of the circuit.

工程师使用冲击示波器分析电路的瞬态响应。

2.The impulse oscillograph is essential for measuring high-speed signals in telecommunications.

冲击示波器在电信中用于测量高速信号是必不可少的。

3.To improve accuracy, calibrate the impulse oscillograph before each use.

为了提高准确性，在每次使用之前校准冲击示波器。

4.In the laboratory, we observed the waveform on the impulse oscillograph during the testing phase.

在实验室中，我们在测试阶段观察到了冲击示波器上的波形。

5.The results from the impulse oscillograph indicated a significant delay in signal transmission.

来自冲击示波器的结果表明信号传输存在显著延迟。

作文

The field of electrical engineering is filled with various tools and instruments that help professionals analyze and understand electrical signals. One such instrument is the impulse oscillograph, which plays a crucial role in capturing transient phenomena in electrical circuits. This device is particularly useful for studying the behavior of systems under rapid changes, such as those experienced during electrical surges or faults. By utilizing an impulse oscillograph (冲击振荡记录仪), engineers can obtain a visual representation of voltage and current waveforms, allowing them to diagnose issues and improve system reliability.An impulse oscillograph operates by recording short-duration electrical impulses that occur within a circuit. These impulses can be caused by various factors, including switching operations, lightning strikes, or equipment failures. The ability to capture these brief events is essential for understanding how electrical systems respond to sudden changes. Unlike traditional oscilloscopes, which may not be fast enough to record very short pulses, the impulse oscillograph is specifically designed for high-speed measurements, making it an invaluable tool in both research and practical applications.In practice, using an impulse oscillograph involves connecting the device to the circuit being monitored. Once connected, the instrument can trigger automatically upon detecting a rapid change in voltage or current. The recorded data is then displayed as a waveform on a screen or printed out for further analysis. This process allows engineers to identify potential problems, such as insulation breakdowns or unexpected load changes, before they lead to catastrophic failures.One of the key advantages of the impulse oscillograph (冲击振荡记录仪) is its ability to provide detailed information about the transient characteristics of electrical systems. For instance, when analyzing a power transformer, the impulse oscillograph can reveal how the transformer reacts to sudden load changes or faults. This information is critical for ensuring the safety and efficiency of electrical infrastructure.Moreover, the data obtained from an impulse oscillograph can be used to validate theoretical models of electrical behavior. Engineers can compare the recorded waveforms with predicted results, helping to refine their understanding of complex electrical phenomena. This iterative process of measurement and modeling is essential for advancing technology and improving system designs.In conclusion, the impulse oscillograph is a powerful tool in the realm of electrical engineering, providing insights into the transient behaviors of electrical systems. Its ability to capture rapid changes in voltage and current makes it indispensable for diagnosing issues and enhancing system performance. As technology continues to evolve, the role of the impulse oscillograph (冲击振荡记录仪) will likely expand, contributing to safer and more efficient electrical systems worldwide.

电气工程领域充满了各种工具和仪器，帮助专业人士分析和理解电信号。其中一个重要的仪器是冲击振荡记录仪，它在捕捉电路中瞬态现象方面发挥着关键作用。该设备特别适用于研究系统在快速变化下的行为，例如在电气浪涌或故障期间经历的情况。通过利用冲击振荡记录仪，工程师可以获得电压和电流波形的可视化表示，从而诊断问题并提高系统可靠性。冲击振荡记录仪通过记录电路中发生的短时电脉冲来工作。这些脉冲可能由多种因素引起，包括开关操作、闪电击打或设备故障。捕捉这些短暂事件的能力对于理解电气系统如何响应突然变化至关重要。与传统示波器不同，后者可能无法快速记录非常短的脉冲，冲击振荡记录仪专门设计用于高速测量，使其成为研究和实际应用中不可或缺的工具。在实践中，使用冲击振荡记录仪涉及将设备连接到被监测的电路。一旦连接，仪器可以在检测到电压或电流的快速变化时自动触发。记录的数据随后以波形的形式显示在屏幕上，或打印出来以供进一步分析。这个过程使工程师能够识别潜在问题，例如绝缘破坏或意外负载变化，以防止它们导致灾难性故障。冲击振荡记录仪（冲击振荡记录仪）的一个关键优势是能够提供有关电气系统瞬态特性的详细信息。例如，在分析电力变压器时，冲击振荡记录仪可以揭示变压器如何应对突发负载变化或故障。这些信息对于确保电气基础设施的安全性和效率至关重要。此外，从冲击振荡记录仪获得的数据可以用于验证电气行为的理论模型。工程师可以将记录的波形与预测结果进行比较，帮助他们完善对复杂电气现象的理解。这种测量与建模的迭代过程对于推动技术进步和改善系统设计至关重要。总之，冲击振荡记录仪是电气工程领域的一种强大工具，提供了对电气系统瞬态行为的深入见解。其捕捉电压和电流快速变化的能力使其在诊断问题和增强系统性能方面不可或缺。随着技术的不断发展，冲击振荡记录仪（冲击振荡记录仪）的作用可能会扩大，为全球更安全、更高效的电气系统做出贡献。