water delay line

简明释义

水延迟线

英英释义

A water delay line is a device used in various applications, such as telecommunications and signal processing, that utilizes the properties of water to delay the transmission of signals, typically by creating a controlled path for sound or electromagnetic waves.

水延迟线是一种用于各种应用(如电信和信号处理)的设备,利用水的特性来延迟信号的传输,通常通过为声波或电磁波创造一个受控的传播路径。

例句

1.The engineers installed a water delay line to manage the timing of the water flow in the irrigation system.

工程师们安装了一个水延迟线来管理灌溉系统中的水流时间。

2.We incorporated a water delay line into the design of our new water treatment facility.

我们在新水处理设施的设计中加入了一个水延迟线

3.In the laboratory, we used a water delay line to synchronize the laser pulses for accurate measurements.

在实验室中,我们使用了一个水延迟线来同步激光脉冲,以获得准确的测量结果。

4.To improve signal processing, the researchers implemented a water delay line in their experiment.

为了改善信号处理,研究人员在他们的实验中实施了一个水延迟线

5.The water delay line in the aqueduct helps to prevent flooding by controlling the water release.

水渠中的水延迟线通过控制水的释放来防止洪水。

作文

In the field of signal processing, a variety of techniques are employed to manage the timing and synchronization of signals. One such technique is the use of a water delay line, which is an innovative method for delaying signals in a controlled manner. The concept of a water delay line involves using a body of water as a medium through which sound waves can travel. This method is particularly useful in applications where precise timing is crucial, such as in telecommunications and audio engineering.The basic principle behind a water delay line is relatively simple. When a sound wave is generated at one end of a water-filled tube, it travels through the water to the other end. The time it takes for the sound wave to traverse the length of the tube determines the delay introduced by the system. By adjusting the length of the tube or the properties of the water, engineers can fine-tune the delay to meet specific requirements.One of the significant advantages of using a water delay line is its ability to provide a continuous and variable delay. Unlike electronic delay lines, which may have fixed delay increments, a water delay line can be adjusted dynamically. This flexibility allows for real-time adjustments in various applications, making it an attractive option for live sound reinforcement and broadcasting.Moreover, the water delay line is often favored for its low distortion characteristics. In many signal processing scenarios, maintaining the integrity of the original signal is paramount. Traditional electronic components can introduce noise and distortion, whereas the natural propagation of sound waves in water tends to preserve the quality of the signal. This makes the water delay line an ideal choice for high-fidelity audio applications.However, there are some limitations to consider when employing a water delay line. For instance, the physical size of the setup can be a constraint, especially in portable systems. The need for a water reservoir and the associated plumbing can make it less practical for certain applications. Additionally, environmental factors such as temperature can affect the speed of sound in water, leading to variations in delay that must be carefully managed.Despite these challenges, the water delay line remains a valuable tool in the arsenal of audio engineers and signal processing specialists. Its unique properties allow for creative solutions to complex timing problems, and its continued use in modern technology highlights the importance of innovation in the field. As we advance further into the digital age, exploring and understanding traditional methods like the water delay line can lead to new insights and improvements in signal processing techniques.In conclusion, the water delay line is a fascinating example of how natural phenomena can be harnessed for technological advancement. By leveraging the properties of water to create delays in sound waves, engineers can achieve remarkable results in various applications. Understanding the principles and potential of a water delay line not only enriches our knowledge of signal processing but also inspires future innovations in the field.

在信号处理领域,采用多种技术来管理信号的时间和同步。其中一种技术是使用水延迟线,这是一种以受控方式延迟信号的创新方法。水延迟线的概念涉及使用水体作为声波传播的介质。这种方法在精确时序至关重要的应用中尤为有用,例如电信和音频工程。水延迟线的基本原理相对简单。当在充满水的管道一端产生声波时,它会通过水传播到另一端。声波穿越管道所需的时间决定了系统引入的延迟。通过调整管道的长度或水的特性,工程师可以微调延迟以满足特定要求。使用水延迟线的一个显著优点是它能够提供连续和可变的延迟。与可能具有固定延迟增量的电子延迟线不同,水延迟线可以动态调整。这种灵活性允许在各种应用中进行实时调整,使其成为现场声音增强和广播的理想选择。此外,水延迟线因其低失真特性而受到青睐。在许多信号处理场景中,保持原始信号的完整性至关重要。传统电子元件可能引入噪声和失真,而声波在水中的自然传播往往能保持信号的质量。这使得水延迟线成为高保真音频应用的理想选择。然而,在使用水延迟线时需要考虑一些限制。例如,设置的物理大小可能是一个约束,特别是在便携系统中。需要水库和相关管道可能使其在某些应用中不太实用。此外,温度等环境因素可能影响水中的声速,从而导致延迟的变化,必须仔细管理。尽管存在这些挑战,水延迟线仍然是音频工程师和信号处理专家工具箱中的宝贵工具。其独特的特性为复杂时序问题提供了创造性的解决方案,其在现代技术中的持续使用突显了该领域创新的重要性。随着我们进一步迈入数字时代,探索和理解像水延迟线这样的传统方法可以为信号处理技术的改进带来新的见解。总之,水延迟线是一个迷人的例子,展示了如何利用自然现象推动技术进步。通过利用水的特性来创建声波的延迟,工程师可以在各种应用中取得显著成果。理解水延迟线的原理和潜力不仅丰富了我们对信号处理的知识,也激励了该领域未来的创新。