bifilar oscillograph

简明释义

双线示波器

英英释义

例句

1.The engineer used a bifilar oscillograph to analyze the waveform of the electrical signal.

工程师使用了一个双线振荡仪来分析电信号的波形。

2.In the lab, we often rely on the bifilar oscillograph for testing electronic components.

在实验室中，我们常常依赖双线振荡仪来测试电子元件。

3.The bifilar oscillograph is essential for visualizing the phase relationship between two signals.

双线振荡仪对于可视化两个信号之间的相位关系至关重要。

4.The data collected from the bifilar oscillograph was crucial for understanding the system's behavior.

从双线振荡仪收集的数据对于理解系统的行为至关重要。

5.During the experiment, the bifilar oscillograph provided precise measurements of the frequency.

在实验过程中，双线振荡仪提供了频率的精确测量。

作文

The field of electrical engineering has witnessed numerous advancements over the years, one of which is the invention of the bifilar oscillograph. This device plays a crucial role in measuring and visualizing electrical signals, making it an essential tool for engineers and researchers alike. To fully appreciate the significance of the bifilar oscillograph, it is important to understand its design, functionality, and applications.A bifilar oscillograph is essentially a type of oscilloscope that utilizes two parallel wires to record electrical signals. The term 'bifilar' refers to the use of two wires, which allows for a more accurate representation of the signal being measured. This dual-wire system minimizes the effects of external interference, providing clearer and more reliable data. The bifilar oscillograph operates by converting electrical signals into visual representations, enabling users to analyze waveforms and other characteristics of the signals.One of the key advantages of the bifilar oscillograph is its ability to measure high-frequency signals. Traditional oscillographs often struggle with high frequencies due to limitations in their design. However, the bifilar configuration allows for better response times and improved accuracy at these higher frequencies. This feature is particularly beneficial in fields such as telecommunications, where high-frequency signals are commonplace.In addition to its technical advantages, the bifilar oscillograph also offers versatility in its applications. It can be used in various settings, from research laboratories to industrial environments. Engineers often rely on this tool for troubleshooting and testing electrical circuits, ensuring that systems operate efficiently and safely. Furthermore, educators utilize the bifilar oscillograph in classrooms to teach students about electrical signals and waveforms, making complex concepts more accessible.Despite its many benefits, the bifilar oscillograph is not without its challenges. For instance, the calibration of the device requires a certain level of expertise, and improper calibration can lead to inaccurate readings. Additionally, while the bifilar design reduces interference, it does not eliminate it entirely. Users must still be aware of their surroundings and take precautions to minimize any potential disruptions to the measurements.In conclusion, the bifilar oscillograph is a vital instrument in the realm of electrical engineering. Its unique design allows for precise measurements of electrical signals, particularly at high frequencies. With its wide range of applications, from industrial testing to educational purposes, the bifilar oscillograph demonstrates the importance of innovation in technology. As advancements continue to emerge in the field, it will be fascinating to see how devices like the bifilar oscillograph evolve and adapt to meet the ever-changing demands of modern engineering. Understanding and mastering the bifilar oscillograph is not only beneficial for professionals in the field but also crucial for the continued progress of electrical engineering as a whole.

电气工程领域经过多年的发展，见证了许多进步，其中之一就是双线振荡仪的发明。该设备在测量和可视化电信号方面发挥着关键作用，使其成为工程师和研究人员的重要工具。要充分理解双线振荡仪的重要性，了解其设计、功能和应用是非常重要的。双线振荡仪本质上是一种利用两根平行导线记录电信号的示波器。“双线”一词指的是使用两根导线，这使得信号的表示更加准确。这种双线系统最小化了外部干扰的影响，提供了更清晰、更可靠的数据。双线振荡仪通过将电信号转换为可视化表示，使用户能够分析波形和信号的其他特征。双线振荡仪的一个关键优势是其测量高频信号的能力。传统的示波器由于设计上的限制，往往难以处理高频信号。然而，双线配置允许更好的响应时间和更高的准确性，尤其是在高频信号普遍存在的电信领域。除了技术优势之外，双线振荡仪在应用上也具有多样性。它可以在各种环境中使用，从研究实验室到工业环境。工程师通常依赖这一工具来排除故障和测试电路，确保系统高效安全地运行。此外，教育工作者在课堂上也利用双线振荡仪教授学生关于电信号和波形的知识，使复杂的概念更易于理解。尽管有许多好处，双线振荡仪也面临一些挑战。例如，设备的校准需要一定的专业知识，校准不当可能导致读数不准确。此外，尽管双线设计减少了干扰，但并没有完全消除它。用户仍需注意周围环境，并采取预防措施以尽量减少对测量的潜在干扰。总之，双线振荡仪是电气工程领域的重要仪器。其独特的设计允许精确测量电信号，尤其是在高频率下。凭借其广泛的应用，从工业测试到教育目的，双线振荡仪展示了技术创新的重要性。随着不断出现的新进展，观察像双线振荡仪这样的设备如何发展和适应现代工程不断变化的需求，将是非常有趣的。理解和掌握双线振荡仪不仅对该领域的专业人士有利，而且对电气工程整体的持续进步至关重要。