peak pulse amplitude

简明释义

峰值脉冲振幅

英英释义

例句

1.To improve the performance of the radar system, engineers focused on optimizing the peak pulse amplitude 脉冲峰值幅度.

为了提高雷达系统的性能，工程师们专注于优化脉冲峰值幅度 peak pulse amplitude。

2.In the experiment, we recorded the peak pulse amplitude 脉冲峰值幅度 of the signal to determine its strength.

在实验中，我们记录了信号的脉冲峰值幅度 peak pulse amplitude以确定其强度。

3.The peak pulse amplitude 脉冲峰值幅度 was significantly higher during the test compared to previous measurements.

测试期间的脉冲峰值幅度 peak pulse amplitude明显高于之前的测量。

4.The doctor measured the peak pulse amplitude 脉冲峰值幅度 of the patient's heart to assess cardiovascular health.

医生测量了病人的脉冲峰值幅度 peak pulse amplitude以评估心血管健康。

5.The technician adjusted the settings to increase the peak pulse amplitude 脉冲峰值幅度 for better imaging results.

技术员调整设置以增加脉冲峰值幅度 peak pulse amplitude以获得更好的成像结果。

作文

In the field of electronics and signal processing, understanding the concept of peak pulse amplitude is crucial for analyzing waveforms and their effects on various systems. The term peak pulse amplitude refers to the maximum value of a pulse signal during a specific time interval. This measurement is vital in many applications, including telecommunications, audio engineering, and medical diagnostics. Firstly, let us explore what a pulse signal is. A pulse signal is a type of waveform that consists of a sudden change in voltage or current followed by a return to the baseline level. These signals are often used in digital communications to represent binary data. The peak pulse amplitude indicates the highest point of this signal, which can determine how effectively the signal transmits information over distance. For instance, in telecommunications, the peak pulse amplitude can affect the clarity and strength of the transmitted signal. If the amplitude is too low, the signal may not be able to overcome noise and interference, resulting in data loss or corruption. Conversely, if the amplitude is too high, it can lead to distortion and potential damage to receiving equipment. Therefore, engineers must carefully calibrate the peak pulse amplitude to ensure optimal performance. In audio engineering, the peak pulse amplitude plays a significant role in sound quality. When recording or mixing audio, sound waves are represented as electrical pulses. The peak amplitude of these pulses determines the loudness of the sound. If the amplitude exceeds a certain threshold, it can cause clipping, resulting in a distorted sound that is unpleasant to listeners. Thus, sound engineers monitor the peak pulse amplitude to maintain a balance between volume and clarity. Moreover, in medical diagnostics, particularly in electrocardiography (ECG), the peak pulse amplitude of heartbeats is monitored to assess cardiac health. The ECG machine records electrical signals from the heart, and the peak pulse amplitude of these signals can indicate the strength and rhythm of heartbeats. Abnormalities in the amplitude can signal underlying health issues, prompting further investigation by healthcare professionals. Understanding the implications of peak pulse amplitude also extends to safety considerations. In power systems, for example, high peak amplitudes can result in surges that might damage electrical components or create hazardous conditions. Engineers need to design circuits that can handle these peaks without failure, ensuring the reliability and safety of electrical systems. In conclusion, the concept of peak pulse amplitude is fundamental across various fields, including telecommunications, audio engineering, and medical diagnostics. It serves as a critical parameter for analyzing signal integrity and performance. By mastering the understanding of peak pulse amplitude, professionals can enhance the functionality and safety of their respective systems. As technology continues to advance, the importance of accurately measuring and controlling peak pulse amplitude will only grow, highlighting the need for ongoing research and innovation in this area.

在电子和信号处理领域，理解峰值脉冲幅度的概念对于分析波形及其对各种系统的影响至关重要。术语峰值脉冲幅度指的是在特定时间间隔内脉冲信号的最大值。这一测量在许多应用中都是至关重要的，包括电信、音频工程和医学诊断。首先，让我们探讨什么是脉冲信号。脉冲信号是一种波形，包含电压或电流的突然变化，随后返回基线水平。这些信号通常用于数字通信，以表示二进制数据。峰值脉冲幅度指示该信号的最高点，这可以决定信号在距离上传输信息的有效性。例如，在电信领域，峰值脉冲幅度会影响传输信号的清晰度和强度。如果幅度过低，信号可能无法克服噪声和干扰，从而导致数据丢失或损坏。相反，如果幅度过高，可能会导致失真，并可能对接收设备造成损坏。因此，工程师必须仔细校准峰值脉冲幅度以确保最佳性能。在音频工程中，峰值脉冲幅度在声音质量中起着重要作用。在录音或混音音频时，声波被表示为电脉冲。这些脉冲的峰值幅度决定了声音的响度。如果幅度超过某个阈值，可能会导致削波，从而产生失真的声音，听起来令人不悦。因此，声音工程师监测峰值脉冲幅度以保持音量和清晰度之间的平衡。此外，在医学诊断中，特别是在心电图（ECG）中，心跳的峰值脉冲幅度被监测以评估心脏健康。ECG机器记录来自心脏的电信号，而这些信号的峰值脉冲幅度可以指示心跳的强度和节律。幅度的异常可能表明潜在的健康问题，促使医疗专业人员进一步调查。理解峰值脉冲幅度的影响还扩展到安全考虑。在电力系统中，例如，高峰值幅度可能导致冲击，可能损坏电气组件或产生危险情况。工程师需要设计能够处理这些峰值而不发生故障的电路，确保电气系统的可靠性和安全性。总之，峰值脉冲幅度的概念在多个领域中都是基础，包括电信、音频工程和医学诊断。它作为分析信号完整性和性能的重要参数。通过掌握峰值脉冲幅度的理解，专业人员可以增强其各自系统的功能性和安全性。随着技术的不断发展，准确测量和控制峰值脉冲幅度的重要性只会增加，这突显了在这一领域持续研究和创新的必要性。