oscilloscope
简明释义
n. [电子] 示波器;示波镜
英英释义
An oscilloscope is an electronic instrument that graphically displays varying signal voltages, typically as a two-dimensional plot of voltage over time. | 示波器是一种电子仪器,它以图形方式显示变化的信号电压,通常表现为电压随时间变化的二维图. |
单词用法
数字示波器 | |
[电]记忆示波器 |
同义词
反义词
平线 | The patient's heart rate began to flatline, indicating no electrical activity. | 病人的心率开始平线,表明没有电活动。 | |
稳态 | In a steady state, the system does not show oscillations or fluctuations. | 在稳态下,系统不显示振荡或波动。 |
例句
1.The Oscilloscope and Spectrum Analyzer of your product is really the best on market.
你们产品中的示波器和频谱分析仪真正是市场上最好的。
2.Test points can included to accommodate voltmeter or oscilloscope probes.
测试点可容纳包括电压表或示波器探头。
3.A method on investigating digital signal using digital oscilloscope with function of FFT was prompted.
提出了一种用带FFT功能的数字存储示波器研究信号处理的方法。
4.Verification works on vertical deflection sensitivity and horizontal sweep speed of digital oscilloscope are summarized.
总结了数字示波器垂直偏转灵敏度和水平扫描速度的检定工作。
5.Experience in test equipment such as digital multimeter, oscilloscope, I2C analyzer, and power suppliers is a essential.
在测试设备的经验,例如数字万用表,示波器和I2C分析仪,电力供应是必不可少。
6.This article deals with the design of dual channel virtual oscilloscope.
介绍一种虚拟双通道示波器的设计与实现过程。
7.The use of digital oscilloscope is more and more often and wide.
数字存储示波器的应用越来越广泛。
8.Check for oscillations by connecting an oscilloscope in parallel with the device and the meter.
将示波器并联到器件和电压表上,检查振荡情况。
9.The engineer used an oscilloscope to analyze the waveform of the electrical signal.
工程师使用示波器分析电信号的波形。
10.In the lab, we connected the circuit to the oscilloscope to observe its behavior.
在实验室,我们将电路连接到示波器以观察其行为。
11.The oscilloscope displayed a clear sine wave, indicating a stable frequency.
该示波器显示出清晰的正弦波,表明频率稳定。
12.Technicians often rely on an oscilloscope for troubleshooting electronic devices.
技术人员经常依赖示波器来排查电子设备故障。
13.We calibrated the oscilloscope before taking any measurements.
在进行任何测量之前,我们对示波器进行了校准。
作文
An oscilloscope is an essential instrument in the field of electronics and physics, commonly used to observe the changing waveforms of electrical signals. It allows engineers and scientists to visualize voltage signals over time, providing a graphical representation that can be analyzed for various applications. The oscilloscope operates by converting the electrical signals into visible waveforms on a display screen, making it easier to interpret complex data. In today's technological world, the use of an oscilloscope is vital for diagnosing issues in electronic devices, testing new circuits, and even in educational settings for teaching students about waveforms and signal analysis. For instance, when an engineer designs a new circuit, they often utilize an oscilloscope to ensure that the signal behaves as expected. By observing the waveform, they can identify problems such as distortion or noise that may affect the performance of the circuit. Moreover, the versatility of the oscilloscope extends beyond simple waveform observation. Advanced models are equipped with features such as digital storage, which allows users to capture and analyze signals over time. This is particularly useful in research and development environments where precise measurements are crucial. Additionally, modern oscilloscopes often come with built-in analysis tools that can automatically measure parameters such as frequency, amplitude, and rise time, saving valuable time for engineers. In educational contexts, the oscilloscope serves as a powerful teaching tool. Students studying electronics can learn firsthand how to read and interpret waveforms, gaining practical experience that complements their theoretical knowledge. By experimenting with different signals and observing their behavior on the oscilloscope, students develop a deeper understanding of concepts like frequency, phase, and amplitude. Furthermore, the importance of the oscilloscope cannot be overstated in the realm of telecommunications. Engineers rely on this instrument to analyze the integrity of signals transmitted over long distances. Any degradation in signal quality can lead to significant issues in communication systems, making the oscilloscope a critical tool for ensuring reliable connectivity. In conclusion, the oscilloscope is not just a tool for measuring electrical signals; it is a gateway to understanding the fundamental principles of electronics and signal processing. Whether in a lab, a classroom, or an engineering workshop, the oscilloscope plays a pivotal role in shaping our comprehension of technology. As we continue to innovate and advance in the field of electronics, the oscilloscope will remain an indispensable asset, bridging the gap between theory and practical application. Its ability to provide real-time insights into electrical signals ensures that it will continue to be a cornerstone in the study and application of electronic engineering for years to come.
示波器是电子和物理领域中一种重要的仪器,通常用于观察电信号的波形变化。它允许工程师和科学家可视化电压信号随时间的变化,提供可以分析的图形表示,适用于各种应用。示波器通过将电信号转换为可在显示屏上可视化的波形,使复杂数据的解释变得更加容易。 在当今技术世界中,使用示波器对于诊断电子设备中的问题、测试新电路以及在教育环境中教授学生波形和信号分析至关重要。例如,当工程师设计新电路时,他们常常利用示波器来确保信号按预期行为。通过观察波形,他们可以识别出可能影响电路性能的问题,如失真或噪声。 此外,示波器的多功能性超越了简单的波形观察。先进型号配备了数字存储等功能,允许用户捕获和分析信号。这在研究和开发环境中尤为有用,因为精确测量至关重要。此外,现代示波器通常配备内置分析工具,可以自动测量频率、幅度和上升时间等参数,为工程师节省宝贵的时间。 在教育背景下,示波器作为强大的教学工具。学习电子学的学生可以亲身体验如何读取和解释波形,从而获得与理论知识相辅相成的实践经验。通过实验不同的信号并在示波器上观察其行为,学生对频率、相位和幅度等概念的发展有了更深入的理解。 此外,示波器在电信领域的重要性不容小觑。工程师依赖这种仪器来分析长距离传输信号的完整性。信号质量的任何降级都可能导致通信系统中的重大问题,使示波器成为确保可靠连接的关键工具。 总之,示波器不仅仅是测量电信号的工具;它是理解电子和信号处理基本原理的桥梁。无论是在实验室、教室还是工程车间,示波器在塑造我们对技术的理解中发挥着关键作用。随着我们在电子领域的不断创新和进步,示波器将继续作为不可或缺的资产,弥合理论与实际应用之间的差距。它能够实时提供电信号的洞察,确保它在电子工程的学习和应用中继续成为基石,未来数年仍然如此。
文章标题:oscilloscope的意思是什么
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