disc-type integrator

简明释义

圆盘式积分仪

英英释义

例句

1.During the experiment, the disc-type integrator 盘式积分器 provided consistent results across multiple trials.

在实验过程中，盘式积分器 disc-type integrator在多次试验中提供了一致的结果。

2.The engineer explained how the disc-type integrator 盘式积分器 helps in analyzing signal data.

工程师解释了如何使用盘式积分器 disc-type integrator来分析信号数据。

3.In our project, we utilized a disc-type integrator 盘式积分器 to improve the accuracy of our measurements.

在我们的项目中，我们使用了盘式积分器 disc-type integrator来提高测量的准确性。

4.We found that the disc-type integrator 盘式积分器 significantly reduces noise in the output signal.

我们发现盘式积分器 disc-type integrator显著减少了输出信号中的噪声。

5.The disc-type integrator 盘式积分器 is essential for precise control in automated systems.

在自动化系统中，盘式积分器 disc-type integrator是精确控制的关键。

作文

In the field of engineering and electronics, various devices are utilized to perform specific functions that enhance the efficiency and accuracy of systems. One such device is the disc-type integrator, which plays a crucial role in signal processing and data acquisition. A disc-type integrator (盘式积分器) is a type of electronic circuit that integrates input signals over time, providing a continuous output that represents the accumulated value of the input. This device is particularly useful in applications where it is necessary to measure the total amount of a variable over a specified period, such as in instrumentation and control systems.The operation of a disc-type integrator involves the use of a rotating disc, which effectively captures the input signal and translates it into an integrated output. The design typically includes a conductive disc that rotates at a constant speed, while the input signal is applied to the disc's surface. As the disc turns, the input signal is integrated across the surface area, resulting in an output voltage that corresponds to the accumulated value of the input signal.One of the significant advantages of using a disc-type integrator is its ability to provide a smooth and continuous output, which is essential in many applications where precision is paramount. For instance, in the field of audio engineering, a disc-type integrator can be utilized to process sound waves, allowing for more accurate representation and manipulation of audio signals. This capability is vital for tasks such as mixing, equalization, and filtering, where the quality of sound is directly influenced by the integrity of the signal processing.Moreover, disc-type integrators are also employed in various scientific research applications, particularly in experiments that require the measurement of physical quantities over time. For example, in environmental monitoring, a disc-type integrator can be used to measure the cumulative concentration of pollutants in a water body, providing valuable data for assessing environmental health.Despite their benefits, disc-type integrators also come with certain challenges. The accuracy of the integration process can be affected by factors such as friction, wear, and the quality of the materials used in the construction of the device. Engineers must carefully consider these factors when designing systems that utilize disc-type integrators to ensure optimal performance and reliability.In conclusion, the disc-type integrator (盘式积分器) is an essential component in the realm of electronic signal processing, offering unique advantages in terms of accuracy and functionality. Its ability to integrate signals over time makes it a valuable tool in various industries, from audio engineering to environmental science. Understanding the principles behind a disc-type integrator and its applications can greatly enhance our ability to design and implement effective systems that rely on precise measurements and data analysis.

在工程和电子领域，各种设备被用于执行特定功能，以提高系统的效率和准确性。其中一种设备是盘式积分器，它在信号处理和数据采集中发挥着至关重要的作用。盘式积分器是一种电子电路，可以对输入信号进行时间上的积分，提供一个连续的输出，表示输入的累积值。这种设备在需要测量某个变量在特定时间内的总量的应用中尤为有用，例如在仪器和控制系统中。盘式积分器的操作涉及使用一个旋转的盘，该盘有效地捕捉输入信号并将其转换为积分输出。其设计通常包括一个以恒定速度旋转的导电盘，同时输入信号施加到盘的表面。随着盘的旋转，输入信号在表面上被积分，从而产生一个对应于输入信号累积值的输出电压。使用盘式积分器的一个显著优势是它能够提供平滑和连续的输出，这在许多应用中是至关重要的，其中精度至关重要。例如，在音频工程领域，可以利用盘式积分器来处理声波，从而更准确地表示和操纵音频信号。这种能力对于混音、均衡和过滤等任务至关重要，因为声音的质量直接受到信号处理完整性的影响。此外，盘式积分器还被广泛应用于各种科学研究应用，特别是在需要随时间测量物理量的实验中。例如，在环境监测中，可以使用盘式积分器测量水体中污染物的累积浓度，为评估环境健康提供有价值的数据。尽管有其优点，盘式积分器也面临一些挑战。积分过程的准确性可能会受到摩擦、磨损以及设备构造材料质量等因素的影响。工程师在设计利用盘式积分器的系统时，必须仔细考虑这些因素，以确保最佳性能和可靠性。总之，盘式积分器是电子信号处理领域中的一个重要组成部分，提供了准确性和功能性方面的独特优势。其在时间上对信号进行积分的能力使其成为各个行业中一项宝贵的工具，从音频工程到环境科学。理解盘式积分器背后的原理及其应用，可以大大增强我们设计和实施依赖于精确测量和数据分析的有效系统的能力。