waveshape

简明释义

英[ˈweɪvˌʃeɪp]美[ˈweɪvˌʃeɪp]

n. [物] 波形；波形式

英英释义

单词用法

同义词

反义词

例句

1.In this paper, the time constant of theoretical waveshape and the parameters of discharge circuit were calculated by computer according to the parameters of virtual waveshape of lightning impulse.

本文将利用计算机根据雷电波的视在波形参数来计算理论的波形时间常数和放电回路的参数，并且根据雷电波形允许的偏差计算出被试品电容复盖范围。

2.No design method available for direct application at home and abroad for the non - waveshape expansion joint of this regulating valve.

该调节阀采用的膨胀节是非波形的，国内外没有可直接使用的设计方法。

3.The testing current waveshape have been spectrally analysed, thus providing the theoretic basis for the verification of these items by using software that works as a part of the testing devices.

该法对试验项目中所施加的试验电流波形进行了频谱分析，为通过试验装置的计算机软件进行检定提供了理论基础。

4.Modulation curve is a linking route of maximum points of target waveshape.

包迹波形由目标波形的极大值点连线构建而成。

5.Large electrical machinery being the examples, the kinds of bearing failure and detection waveshape.

以大型电机为例，剖析了轴承故障的种类及检测波形。

6.In this paper, the time constant of theoretical waveshape and the parameters of discharge circuit were calculated by computer according to the parameters of virtual waveshape of lightning impulse.

本文将利用计算机根据雷电波的视在波形参数来计算理论的波形时间常数和放电回路的参数，并且根据雷电波形允许的偏差计算出被试品电容复盖范围。

7.A current impulse generator is introduced with the data and waveshape controlled by computer on slice and process controller.

介绍了一种单片微机、工业控制计算机进行数据和波形管理的冲击电流发生器。

8.The software allows users to visualize the waveshape of their recordings.

该软件允许用户可视化他们录音的waveshape。

9.The audio engineer adjusted the waveshape to enhance the sound quality.

音频工程师调整了waveshape以增强音质。

10.Understanding the waveshape of a signal is essential for troubleshooting audio issues.

理解信号的waveshape对排除音频问题至关重要。

11.In digital signal processing, the waveshape can significantly affect the output signal.

在数字信号处理中，waveshape会显著影响输出信号。

12.A square waveshape is often used in synthesizers for creating distinct sounds.

方形waveshape常用于合成器中以创造独特的声音。

作文

In the realm of physics and engineering, the concept of waveshape (波形) plays a crucial role in understanding how waves propagate and interact with various mediums. A waveshape refers to the distinctive form or pattern of a wave as it travels through space and time. This can include various types of waves such as sound waves, light waves, and electromagnetic waves. The analysis of waveshape is essential for numerous applications, from telecommunications to music production, where the quality and characteristics of sound are paramount.When we think about waveshape, we often visualize it in terms of graphical representations. A simple sine wave is one of the most fundamental examples of a waveshape. It is smooth and continuous, representing a pure frequency without any distortion. In contrast, a square wave exhibits abrupt transitions between high and low states, creating a more complex harmonic structure. Understanding these different waveshapes allows engineers to manipulate signals effectively.Moreover, the waveshape of a signal can greatly affect its transmission and reception. For instance, when transmitting data over a network, the waveshape must be carefully designed to minimize interference and maximize clarity. Distortions in the waveshape can lead to errors in data interpretation, which is why engineers spend considerable time analyzing and optimizing these forms.In audio engineering, the waveshape of sound waves determines the timbre and quality of the sound we hear. Different instruments produce unique waveshapes, contributing to their distinctive sounds. For example, a flute produces a smooth and rounded waveshape, while a guitar has a more complex waveform due to its rich harmonic content. Understanding the waveshape of these sounds enables sound engineers to mix and master recordings effectively, ensuring that each instrument is balanced and clear in the final product.Additionally, the study of waveshape extends into the field of medicine, particularly in the analysis of biological signals. For example, an electrocardiogram (ECG) records the waveshape of electrical activity in the heart. Medical professionals analyze these waveshapes to diagnose various heart conditions. Abnormalities in the waveshape may indicate issues such as arrhythmias or other cardiac problems, highlighting the importance of this concept in healthcare.In conclusion, the term waveshape (波形) encompasses a wide range of applications across different fields. From telecommunications to audio engineering and medical diagnostics, understanding and manipulating waveshapes is vital for achieving desired outcomes. As technology continues to advance, the ability to analyze and optimize waveshapes will remain a key skill for professionals in various industries. By mastering the concept of waveshape, individuals can enhance their understanding of wave phenomena and apply this knowledge to real-world challenges.

在物理和工程领域，waveshape（波形）这一概念在理解波的传播和与各种介质的相互作用方面发挥着至关重要的作用。waveshape指的是波在时空中传播时的独特形状或模式。这可以包括多种类型的波，例如声波、光波和电磁波。对waveshape的分析对于众多应用至关重要，从电信到音乐制作，在这些领域中，声音的质量和特性是至关重要的。当我们想到waveshape时，通常会将其可视化为图形表示。简单的正弦波是waveshape最基本的例子之一。它平滑且连续，代表纯频率，没有任何失真。相比之下，方波则在高低状态之间表现出突兀的过渡，形成更复杂的谐波结构。理解这些不同的waveshape使工程师能够有效地操控信号。此外，信号的waveshape会极大影响其传输和接收。例如，在网络上传输数据时，必须仔细设计waveshape以尽量减少干扰并最大化清晰度。waveshape中的失真可能导致数据解释中的错误，这就是为什么工程师花费大量时间分析和优化这些形式的原因。在音频工程中，声波的waveshape决定了我们听到的声音的音色和质量。不同的乐器产生独特的waveshape，从而赋予它们独特的声音。例如，长笛产生光滑且圆润的waveshape，而吉他由于其丰富的谐波内容则具有更复杂的波形。理解这些声音的waveshape使音响工程师能够有效地混合和母带处理录音，确保每种乐器在最终产品中平衡而清晰。此外，waveshape的研究还扩展到医学领域，特别是在生物信号的分析中。例如，心电图（ECG）记录心脏电活动的waveshape。医疗专业人员分析这些waveshape以诊断各种心脏疾病。waveshape中的异常可能表明心律失常或其他心脏问题，突显了这一概念在医疗保健中的重要性。总之，术语waveshape（波形）涵盖了不同领域的广泛应用。从电信到音频工程和医学诊断，理解和操控waveshape对于实现预期结果至关重要。随着技术的不断进步，分析和优化waveshape的能力将继续成为各行业专业人士的重要技能。通过掌握waveshape的概念，个人可以增强对波现象的理解，并将此知识应用于现实世界的挑战。