transmitter pulse

简明释义

发射脉冲

英英释义

例句

1.Engineers adjusted the transmitter pulse frequency to improve the range of the radio transmission.

工程师调整了发射脉冲频率，以提高无线电传输的范围。

2.In radar systems, the transmitter pulse determines the maximum detection range.

在雷达系统中，发射脉冲决定了最大探测范围。

3.The timing of the transmitter pulse is essential for accurate data transmission.

发射脉冲的时机对于准确的数据传输至关重要。

4.The transmitter pulse is crucial for maintaining the integrity of the signal in wireless communication.

在无线通信中，发射脉冲对于保持信号的完整性至关重要。

5.A strong transmitter pulse can help reduce interference from other signals.

强大的发射脉冲可以帮助减少来自其他信号的干扰。

作文

In the realm of telecommunications and signal processing, the term transmitter pulse refers to a specific type of signal that is generated by a transmitter. This pulse is crucial for the transmission of information over various mediums, whether it be through airwaves, fiber optics, or other forms of communication channels. The concept of transmitter pulse can be understood better when we consider its role in modulating data for effective communication.To begin with, a transmitter pulse is essentially a burst of energy that carries information from one point to another. This pulse can vary in duration, amplitude, and frequency, depending on the type of data being transmitted and the requirements of the communication system. For instance, in digital communications, the transmitter pulse may represent binary data, where different pulse shapes correspond to different bits (0s and 1s). The shape and characteristics of the transmitter pulse are vital because they directly influence the quality and reliability of the communication. A well-defined pulse shape ensures that the receiver can accurately interpret the transmitted data. Common pulse shapes include rectangular, Gaussian, and raised cosine pulses, each having distinct advantages and disadvantages in terms of bandwidth efficiency and susceptibility to noise.Moreover, in modern wireless communication systems, the design of the transmitter pulse takes into account various factors such as channel conditions, interference, and the specific application requirements. For example, in a crowded urban environment, a robust transmitter pulse design might incorporate techniques to minimize interference from other signals, thereby enhancing the clarity of the received message.Another important aspect of the transmitter pulse is its synchronization with the receiver. In any communication system, both the transmitter and receiver must be aligned in time to ensure that the pulses are interpreted correctly. This synchronization process often involves complex algorithms and feedback mechanisms that help maintain the integrity of the data being transmitted.In conclusion, the transmitter pulse plays an indispensable role in the field of telecommunications. It serves as the fundamental building block for transmitting information across various media. By understanding the principles behind transmitter pulse, engineers and researchers can develop more efficient and reliable communication systems that meet the growing demands of our increasingly interconnected world. As technology continues to evolve, the study of transmitter pulse will remain a key area of focus, driving innovations in how we communicate and share information.

在电信和信号处理领域，术语transmitter pulse指的是由发射器生成的一种特定类型的信号。这种脉冲对于通过各种媒介传输信息至关重要，无论是通过无线电波、光纤还是其他形式的通信通道。理解transmitter pulse的概念时，可以更好地考虑它在调制数据以实现有效通信中的作用。首先，transmitter pulse本质上是一种能量的爆发，它携带信息从一个点传输到另一个点。根据所传输的数据类型和通信系统的要求，这种脉冲的持续时间、幅度和频率可以变化。例如，在数字通信中，transmitter pulse可能表示二进制数据，其中不同的脉冲形状对应不同的位（0和1）。transmitter pulse的形状和特性至关重要，因为它们直接影响通信的质量和可靠性。良好定义的脉冲形状确保接收器能够准确解读传输的数据。常见的脉冲形状包括矩形脉冲、高斯脉冲和升余弦脉冲，每种脉冲在带宽效率和抗噪声能力方面都有独特的优缺点。此外，在现代无线通信系统中，transmitter pulse的设计考虑了多种因素，例如信道条件、干扰和特定应用的要求。例如，在拥挤的城市环境中，强大的transmitter pulse设计可能会采用技术来最小化来自其他信号的干扰，从而增强接收到的信息的清晰度。transmitter pulse的另一个重要方面是其与接收器的同步。在任何通信系统中，发射器和接收器必须在时间上保持一致，以确保脉冲被正确解释。这个同步过程通常涉及复杂的算法和反馈机制，有助于维持传输数据的完整性。总之，transmitter pulse在电信领域发挥着不可或缺的作用。它作为通过各种媒介传输信息的基本构建块。通过理解transmitter pulse背后的原理，工程师和研究人员可以开发出更高效、更可靠的通信系统，以满足我们日益互联的世界的需求。随着技术的不断发展，transmitter pulse的研究将始终是一个关键关注领域，推动我们沟通和分享信息的创新。