line synchronizing pulse

简明释义

行同步脉冲

英英释义

例句

1.During the setup of the display, we need to adjust the line synchronizing pulse 行同步脉冲 for optimal picture quality.

在显示器设置过程中，我们需要调整行同步脉冲 line synchronizing pulse 以获得最佳画质。

2.The circuit design includes a component dedicated to generating the line synchronizing pulse 行同步脉冲.

电路设计中包含一个专门用于生成行同步脉冲 line synchronizing pulse 的组件。

3.In digital communication, the line synchronizing pulse 行同步脉冲 helps in aligning the data packets.

在数字通信中，行同步脉冲 line synchronizing pulse 有助于对齐数据包。

4.The video signal requires a line synchronizing pulse 行同步脉冲 to maintain proper timing during transmission.

视频信号在传输过程中需要一个行同步脉冲 line synchronizing pulse 来保持正确的时间同步。

5.The line synchronizing pulse 行同步脉冲 is essential for ensuring that the receiver can decode the signal accurately.

为了确保接收器能够准确解码信号，行同步脉冲 line synchronizing pulse 是必不可少的。

作文

In the world of electronics and telecommunications, synchronization is a critical aspect that ensures the smooth transmission of data. One of the key components in achieving this synchronization is the line synchronizing pulse, which plays a vital role in maintaining the timing of signals across various communication lines. Understanding the function and importance of the line synchronizing pulse can provide insights into how modern communication systems operate effectively.The line synchronizing pulse is essentially a signal used to establish the timing reference for a communication line. In digital communication, data is transmitted in the form of bits, and these bits need to be aligned correctly for accurate interpretation. Without proper synchronization, data packets could arrive out of order or at incorrect intervals, leading to errors and miscommunication. The line synchronizing pulse serves as a marker that indicates when a new data bit begins, allowing receiving devices to accurately sample the incoming data stream.One common application of the line synchronizing pulse is in video transmission. For instance, in television broadcasting, the synchronization pulses are crucial for ensuring that the image displayed on the screen is stable and coherent. These pulses help align the scanning process of the television receiver with the transmitted signal, thereby preventing issues like image tearing or distortion. Similarly, in computer networks, the line synchronizing pulse helps maintain the timing between different network devices, ensuring that data packets are sent and received in an orderly fashion.Moreover, the line synchronizing pulse is not limited to just video or data transmission; it is also essential in audio systems. In digital audio processing, synchronization pulses are used to align audio samples so that they can be played back seamlessly. This is particularly important in professional audio recording and live sound reinforcement, where timing discrepancies can lead to noticeable delays and phase issues.In addition to its applications in various fields, the line synchronizing pulse also illustrates the broader concept of synchronization in technology. As systems become more complex, the need for precise timing becomes even more critical. Engineers and designers must consider how to implement synchronization mechanisms, such as the line synchronizing pulse, to ensure that all components of a system work together harmoniously.To summarize, the line synchronizing pulse is a fundamental element in the realm of communication technologies. Its ability to provide a timing reference for data transmission is indispensable in ensuring the integrity and accuracy of information transfer. From video and audio systems to computer networks, the importance of synchronization cannot be overstated. As we continue to advance in technology, understanding concepts like the line synchronizing pulse will be crucial for anyone looking to delve into the fields of electronics and telecommunications.

在电子和电信的世界中，同步是确保数据平稳传输的关键方面。实现这种同步的一个关键组成部分是行同步脉冲，它在保持各种通信线路信号时序方面发挥着重要作用。理解行同步脉冲的功能和重要性可以提供对现代通信系统有效运行的深入见解。行同步脉冲本质上是一种用于建立通信线路时序参考的信号。在数字通信中，数据以比特的形式传输，这些比特需要正确对齐以便准确解释。如果没有适当的同步，数据包可能会错位或在不正确的时间到达，从而导致错误和误通信。行同步脉冲作为一个标记，指示新的数据比特何时开始，使接收设备能够准确地采样传入的数据流。行同步脉冲的一个常见应用是在视频传输中。例如，在电视广播中，同步脉冲对于确保屏幕上显示的图像稳定和一致至关重要。这些脉冲帮助将电视接收器的扫描过程与传输信号对齐，从而防止图像撕裂或失真等问题。同样，在计算机网络中，行同步脉冲有助于维护不同网络设备之间的时序，确保数据包以有序的方式发送和接收。此外，行同步脉冲不仅限于视频或数据传输；在音频系统中也至关重要。在数字音频处理中，同步脉冲用于对齐音频样本，以便无缝播放。这在专业音频录制和现场声音增强中尤为重要，因为时序差异可能导致明显的延迟和相位问题。除了在各个领域的应用之外，行同步脉冲还展示了技术中同步的更广泛概念。随着系统变得越来越复杂，对精确时序的需求变得更加关键。工程师和设计师必须考虑如何实施同步机制，如行同步脉冲，以确保系统的所有组件和谐地协同工作。总之，行同步脉冲是通信技术领域的基本元素。它为数据传输提供时序参考的能力在确保信息传递的完整性和准确性方面不可或缺。从视频和音频系统到计算机网络，不能低估同步的重要性。随着我们在技术上的不断进步，理解像行同步脉冲这样的概念对于任何希望深入电子和电信领域的人来说都是至关重要的。