amplitude tuning

简明释义

1. 振幅调谐; 2. 振幅调谐地震勘探;

英英释义

例句

1.In the lab, we used amplitude tuning to adjust the signal strength for better data transmission.

在实验室中，我们使用幅度调谐来调整信号强度，以便更好地传输数据。

2.The software allows for real-time amplitude tuning of audio tracks.

该软件允许对音轨进行实时的幅度调谐。

3.The musician applied amplitude tuning to create a more dynamic performance.

音乐家应用了幅度调谐来创造更具动态感的表演。

4.During the presentation, the speaker explained how amplitude tuning can optimize wireless communication.

在演讲中，发言者解释了如何通过幅度调谐来优化无线通信。

5.The audio engineer performed amplitude tuning to enhance the sound quality of the recording.

音频工程师进行了幅度调谐以提高录音的音质。

作文

In the realm of physics and engineering, the concept of amplitude tuning plays a crucial role in various applications, particularly in signal processing and telecommunications. To understand this term better, we must first explore what amplitude means in a general sense. Amplitude refers to the maximum extent of a vibration or oscillation, measured from the position of equilibrium. In simpler terms, it is the height of a wave from its rest position. When we talk about amplitude tuning (幅度调谐), we are referring to the process of adjusting this amplitude to achieve desired outcomes in a system. This adjustment can significantly affect the performance and efficiency of electronic devices and communication systems.One of the most common applications of amplitude tuning is found in radio broadcasting. Radio stations transmit signals at specific frequencies, and the amplitude of these signals can be modulated to convey information. By tuning the amplitude, broadcasters can ensure that their signals reach listeners with clarity and strength, minimizing interference from other signals. This is especially important in urban areas where multiple stations operate close to each other. The ability to finely tune the amplitude allows for better sound quality and a more enjoyable listening experience.In addition to radio, amplitude tuning is also essential in audio engineering. Sound engineers often manipulate the amplitude of audio signals to create dynamic range within music tracks. By adjusting the amplitude, they can enhance certain instruments or vocals, making them stand out in a mix. This process not only improves the overall sound quality but also contributes to the emotional impact of the music. For instance, a gradual increase in amplitude during a crescendo can evoke feelings of excitement and anticipation in the listener.Moreover, amplitude tuning is integral to the functioning of various types of sensors and measurement devices. In scientific research, precise measurements are critical, and many instruments rely on the accurate tuning of amplitude to provide reliable data. For example, in seismic studies, the amplitude of seismic waves is analyzed to determine the magnitude of earthquakes. By tuning the amplitude settings on seismographs, researchers can detect even the smallest tremors, leading to a better understanding of geological activity.On a broader scale, amplitude tuning is also relevant in the development of modern technologies such as wireless communication and radar systems. These technologies depend on the manipulation of electromagnetic waves, where tuning the amplitude can enhance signal strength and reduce noise. In a world increasingly reliant on wireless connectivity, the importance of effective amplitude tuning cannot be overstated. It ensures that devices communicate efficiently, maintaining high-quality connections even in challenging environments.In conclusion, amplitude tuning (幅度调谐) is a fundamental concept that spans various fields, from audio engineering to telecommunications and scientific research. Understanding how to effectively tune amplitude is essential for improving performance and achieving desired outcomes in numerous applications. As technology continues to advance, the significance of amplitude tuning will likely grow, paving the way for innovations that enhance our daily lives.

在物理和工程领域，幅度调谐的概念在各种应用中发挥着关键作用，特别是在信号处理和电信中。要更好地理解这个术语，我们首先必须探讨幅度在一般意义上的含义。幅度指的是振动或波动的最大范围，从平衡位置测量。简单来说，它是波从静止位置的高度。当我们谈论幅度调谐（幅度调谐）时，我们指的是调整这种幅度以实现系统中的期望结果的过程。这种调整可以显著影响电子设备和通信系统的性能和效率。幅度调谐最常见的应用之一是在广播电台。广播电台以特定频率发送信号，这些信号的幅度可以调制以传达信息。通过调节幅度，广播公司可以确保其信号以清晰和强度到达听众，最小化来自其他信号的干扰。这在多个电台在彼此接近的城市地区尤其重要。能够精细调节幅度可以提高音质并带来更愉悦的收听体验。除了广播，幅度调谐在音频工程中也至关重要。声音工程师经常操纵音频信号的幅度，以在音乐曲目中创建动态范围。通过调整幅度，他们可以增强某些乐器或人声，使其在混音中脱颖而出。这个过程不仅改善了整体音质，还对音乐的情感影响做出了贡献。例如，在渐强过程中幅度的逐渐增加可以激发听众的兴奋和期待感。此外，幅度调谐对于各种类型的传感器和测量设备的功能至关重要。在科学研究中，精确的测量至关重要，许多仪器依赖于幅度的准确调谐以提供可靠的数据。例如，在地震研究中，分析地震波的幅度可以确定地震的震级。通过调节地震仪上的幅度设置，研究人员可以检测到即使是最小的震动，从而更好地理解地质活动。在更广泛的范围内，幅度调谐在现代技术的发展中也相关，例如无线通信和雷达系统。这些技术依赖于电磁波的操控，其中调节幅度可以增强信号强度并减少噪声。在一个日益依赖无线连接的世界中，有效的幅度调谐的重要性不容低估。它确保设备高效通信，即使在挑战性环境中也能保持高质量的连接。总之，幅度调谐（幅度调谐）是一个基本概念，跨越多个领域，从音频工程到电信和科学研究。有效调节幅度的理解对于改善性能和实现众多应用中的期望结果至关重要。随着技术的不断进步，幅度调谐的重要性可能会增长，为增强我们日常生活的创新铺平道路。