basic pulse repetition rate

简明释义

基本脉冲重复周期

英英释义

例句

1.The basic pulse repetition rate 基本脉冲重复频率 of the laser scanner affects the speed of data acquisition.

激光扫描仪的基本脉冲重复频率 基本脉冲重复频率影响数据采集的速度。

2.Adjusting the basic pulse repetition rate 基本脉冲重复频率 can improve the resolution of the imaging system.

调整基本脉冲重复频率 基本脉冲重复频率可以提高成像系统的分辨率。

3.In sonar applications, the basic pulse repetition rate 基本脉冲重复频率 is crucial for determining the range of underwater objects.

在声纳应用中，基本脉冲重复频率 基本脉冲重复频率对于确定水下物体的距离至关重要。

4.Engineers must consider the basic pulse repetition rate 基本脉冲重复频率 when designing communication systems.

工程师在设计通信系统时必须考虑基本脉冲重复频率 基本脉冲重复频率。

5.The radar system operates at a basic pulse repetition rate 基本脉冲重复频率 of 1000 Hz for optimal detection.

该雷达系统以1000 Hz的基本脉冲重复频率 基本脉冲重复频率运行，以实现最佳检测。

作文

In the realm of radar and communication systems, understanding the concept of basic pulse repetition rate is essential for optimizing performance and ensuring effective signal transmission. The basic pulse repetition rate refers to the frequency at which pulses are transmitted in a given system. This parameter plays a crucial role in determining the resolution and range of radar systems, as well as the quality of communication signals. In essence, the basic pulse repetition rate dictates how often a radar or communication system sends out a signal, which can significantly impact the overall effectiveness of the system.To delve deeper into this concept, we must first understand what constitutes a pulse in the context of radar and communication systems. A pulse is a short burst of energy that carries information. When these pulses are transmitted at a specific rate, they create a series of signals that can be analyzed to extract valuable data. The basic pulse repetition rate is typically measured in hertz (Hz), indicating the number of pulses sent per second.One of the primary reasons why the basic pulse repetition rate is so important is that it affects the maximum range of detection for radar systems. A higher pulse repetition rate allows for more frequent updates on the position of an object, enhancing tracking capabilities. However, it is essential to strike a balance; if the rate is too high, it may lead to signal congestion or interference, resulting in decreased accuracy. Conversely, a lower basic pulse repetition rate can limit the system's ability to detect fast-moving objects or provide timely information.Moreover, the basic pulse repetition rate also influences the resolution of radar images. Higher rates can improve the detail in the images produced, allowing for better identification of objects. For instance, in air traffic control, a higher basic pulse repetition rate enables controllers to track multiple aircraft more effectively, reducing the risk of collisions and improving safety.In communication systems, the basic pulse repetition rate is equally significant. It determines the speed at which data can be transmitted. A higher rate means that more data can be sent in a shorter amount of time, which is crucial for applications that require real-time communication, such as video conferencing or online gaming. However, just like in radar systems, there is a limit to how high the basic pulse repetition rate can go without causing issues such as signal degradation or loss of information.In conclusion, the basic pulse repetition rate is a fundamental aspect of both radar and communication systems. Its influence on detection range, image resolution, and data transmission speed cannot be overstated. As technology continues to advance, understanding and optimizing the basic pulse repetition rate will remain critical for engineers and developers working in these fields. By carefully balancing the rate with other system parameters, it is possible to enhance the performance and reliability of radar and communication systems, ultimately leading to improved safety and efficiency in various applications.

在雷达和通信系统领域，理解“基本脉冲重复频率”的概念对于优化性能和确保有效信号传输至关重要。“基本脉冲重复频率”是指在给定系统中脉冲发送的频率。这个参数在确定雷达系统的分辨率和范围以及通信信号的质量方面起着关键作用。简而言之，“基本脉冲重复频率”决定了雷达或通信系统发送信号的频率，这可能会显著影响系统的整体有效性。要深入了解这一概念，我们首先必须理解脉冲在雷达和通信系统中的构成。脉冲是一种短暂的能量突发，承载着信息。当这些脉冲以特定速率传输时，它们会产生一系列信号，可以进行分析以提取有价值的数据。“基本脉冲重复频率”通常以赫兹（Hz）为单位进行测量，表示每秒发送的脉冲数量。“基本脉冲重复频率”如此重要的原因之一是它影响雷达系统的最大探测范围。较高的脉冲重复频率允许更频繁地更新物体的位置，从而增强跟踪能力。然而，必须找到一个平衡点；如果速率过高，可能会导致信号拥塞或干扰，导致准确性下降。相反，较低的“基本脉冲重复频率”可能会限制系统检测快速移动物体或提供及时信息的能力。此外，“基本脉冲重复频率”还会影响雷达图像的分辨率。更高的频率可以改善生成图像的细节，使物体识别更加清晰。例如，在空中交通管制中，更高的“基本脉冲重复频率”使管制员能够更有效地跟踪多架飞机，从而减少碰撞风险，提高安全性。在通信系统中，“基本脉冲重复频率”同样重要。它决定了数据可以传输的速度。更高的速率意味着在更短时间内可以发送更多数据，这对于需要实时通信的应用至关重要，例如视频会议或在线游戏。然而，与雷达系统一样，“基本脉冲重复频率”的上限也存在，超过该限度可能会导致信号退化或信息丢失。总之，“基本脉冲重复频率”是雷达和通信系统的一个基本方面。它对探测范围、图像分辨率和数据传输速度的影响不可小觑。随着技术的不断进步，理解和优化“基本脉冲重复频率”将继续对从事这些领域的工程师和开发者至关重要。通过仔细平衡该频率与其他系统参数，可以增强雷达和通信系统的性能和可靠性，最终在各种应用中提高安全性和效率。