oscillograph
简明释义
英[/ˈɑːsɪləˌɡræf/]美[/ˈɑːsɪləˌɡræf/]
n. [电子] 示波器;记录仪;波形图
英英释义
An oscillograph is an instrument used to record oscillations, typically in the form of a graph or visual representation on a screen or paper. | 示波器是一种用于记录振荡的仪器,通常以图表或在屏幕或纸张上的视觉表示形式呈现。 |
单词用法
同义词
反义词
稳定器 | 稳定器有助于保持稳定的输出。 | ||
静态设备 | Static devices are essential for measuring non-oscillatory signals. | 静态设备对于测量非振荡信号至关重要。 |
例句
1.Section 7 discusses the design of the application program of the virtual oscillograph.
第七部分介绍了虚拟示波器应用程序的设计。
2.According to the structure and feature of ARM processor, this paper designs a kind of digital storage oscillograph with HMS30C7202 (ARM) as its nucleus.
本文结合ARM处理器的结构及特点,给出了以HMS30C 7202 (ARM)处理器为核心的数字存储示波器的设计。
3.The main methods of repairing slow scan oscillograph by the phenomenon of some failure are introduced in this paper.
通过一些故障现象,介绍了慢扫描示波器电路故障检修的一些主要方法。
4.The utilization of USB interface in virtual oscillograph gives a solution for overcoming shortcomings in its application.
为了克服虚拟示波器应用中的一些缺点,在虚拟示波器中采用了一种新的总线接口标准——USB接口。
5.The digital oscillograph offered us the convenience technical platform.
数字示波器为我们的测量提供了方便的技术平台。
6.The high-speed AD change is used as the core of high-speed oscillograph, and time domain sampling is applied for sampling oscillograph.
高速实时示波器以高速AD变换为核心,取样示波器采用时域取样。
7.The measuring function of short persistence oscillograph can be extended by adding pulse wave collecting circuit and signal processing circuit.
通过增加脉搏波采集电路和信号处理电路,扩展短余辉电子示波器的测量功能。
8.The research of high performance-price ratio virtual oscillograph is introduced.
介绍一种高性价比虚拟示波器的研制。
9.The basic functions such as light-off-time, electromotive force output, response time and oscillograph trace under four different frequencies are obtained and analysed.
得到并分析了传感器的升温激活时间、响应性能和电动势输出以及在不同波动频率下的波形图。
10.The engineer used an oscillograph to measure the frequency of the electrical signals.
工程师使用振荡记录仪来测量电信号的频率。
11.By analyzing the data from the oscillograph, we can identify any anomalies in the system.
通过分析振荡记录仪的数据,我们可以识别系统中的任何异常。
12.The oscillograph displayed a clear waveform, indicating stable operation.
该振荡记录仪显示出清晰的波形,表明操作稳定。
13.During the experiment, the oscillograph recorded the vibrations of the material under stress.
在实验过程中,振荡记录仪记录了材料在压力下的振动。
14.We calibrated the oscillograph to ensure accurate readings of the signal.
我们对振荡记录仪进行了校准,以确保信号读数的准确性。
作文
In the realm of scientific instrumentation, the term oscillograph refers to a device that is used to visualize and record oscillations or waveforms. This instrument plays a crucial role in various fields, including physics, engineering, and medicine. The ability to measure and display oscillations makes the oscillograph an invaluable tool for researchers and professionals alike. An oscillograph typically consists of a display screen and input channels where signals can be fed into the device. These signals are often electrical in nature, but they can also represent other forms of energy, such as sound waves or mechanical vibrations. The primary function of the oscillograph is to convert these signals into a visual format, allowing users to analyze the characteristics of the oscillations, such as frequency, amplitude, and phase. One of the most common types of oscillograph is the oscilloscope, which is widely used in laboratories and educational settings. Oscilloscopes allow students and professionals to observe waveforms in real time, providing a hands-on learning experience. For instance, when studying alternating current (AC) circuits, an oscilloscope can display the sinusoidal waveform produced by the AC power supply. By observing this waveform, students can gain a better understanding of concepts like voltage, current, and resistance. In addition to education, oscillographs are essential in engineering applications. Engineers use these devices to test and troubleshoot electronic circuits. When a circuit does not function as expected, an oscillograph can help identify the issue by displaying the electrical signals at various points in the circuit. This allows engineers to pinpoint faulty components or design flaws, ultimately leading to improved product reliability. The medical field also benefits from the use of oscillographs. In cardiology, for example, electrocardiograms (ECGs) are a type of oscillograph that records the electrical activity of the heart over time. By analyzing the resulting waveform, healthcare professionals can diagnose various heart conditions, monitor patients' health, and assess the effectiveness of treatments. The ability to visualize these critical signals has revolutionized how we approach cardiac care. While traditional oscillographs were analog devices, advancements in technology have led to the development of digital oscillographs. Digital oscillographs offer enhanced features, such as higher resolution displays, more input channels, and advanced data analysis capabilities. This evolution has made it easier for users to capture and analyze complex waveforms, further expanding the applications of the oscillograph in various fields. In conclusion, the oscillograph is a powerful instrument that enables the visualization and analysis of oscillations in different contexts. Its applications span across education, engineering, and medicine, making it a vital tool for understanding complex phenomena. As technology continues to advance, the capabilities of oscillographs will likely expand, opening new avenues for research and innovation. Understanding how to effectively use an oscillograph is essential for anyone involved in scientific or technical fields, as it provides insights that are crucial for problem-solving and discovery.
在科学仪器领域,术语oscillograph指的是一种用于可视化和记录振荡或波形的设备。这种仪器在物理学、工程学和医学等多个领域中发挥着至关重要的作用。测量和显示振荡的能力使得oscillograph成为研究人员和专业人士不可或缺的工具。 oscillograph通常由一个显示屏和输入通道组成,可以将信号输入到设备中。这些信号通常是电性质的,但也可以代表其他形式的能量,如声波或机械振动。oscillograph的主要功能是将这些信号转换为可视格式,使用户能够分析振荡的特征,例如频率、幅度和相位。 最常见的oscillograph类型之一是示波器,它在实验室和教育环境中被广泛使用。示波器允许学生和专业人士实时观察波形,从而提供动手学习的体验。例如,在学习交流电(AC)电路时,示波器可以显示交流电源产生的正弦波形。通过观察这个波形,学生可以更好地理解电压、电流和电阻等概念。 除了教育,oscillograph在工程应用中也是必不可少的。工程师使用这些设备来测试和排除电子电路的故障。当一个电路没有按预期工作时,oscillograph可以通过在电路的不同点显示电信号来帮助识别问题。这使工程师能够准确定位故障组件或设计缺陷,最终提高产品的可靠性。 医疗领域也受益于oscillograph的使用。例如,在心脏病学中,心电图(ECG)是一种记录心脏电活动的oscillograph。通过分析生成的波形,医疗专业人员可以诊断各种心脏病状况,监测患者的健康状况,并评估治疗的有效性。可视化这些关键信号的能力彻底改变了我们对心脏护理的处理方式。 虽然传统的oscillograph是模拟设备,但技术的进步导致了数字oscillograph的发展。数字oscillograph提供了增强的功能,如更高分辨率的显示、更多少输入通道和先进的数据分析能力。这一演变使用户更容易捕捉和分析复杂的波形,进一步扩展了oscillograph在各个领域的应用。 总之,oscillograph是一种强大的仪器,能够在不同的背景下实现振荡的可视化和分析。它的应用跨越教育、工程和医学,成为理解复杂现象的重要工具。随着技术的不断进步,oscillographs的能力可能会进一步扩展,为研究和创新开辟新的途径。有效理解如何使用oscillograph对任何参与科学或技术领域的人来说都是至关重要的,因为它提供了关键的洞察力,有助于解决问题和发现新知。
文章标题:oscillograph的意思是什么
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