synchronizing pulse

简明释义

同步脉冲

英英释义

例句

1.When using multiple oscillators, a synchronizing pulse can keep them in phase.

在使用多个振荡器时，同步脉冲可以使它们保持相位一致。

2.The robotic arm operates more smoothly with a synchronizing pulse to coordinate movements.

机器人手臂通过一个同步脉冲来协调运动，从而操作得更加顺畅。

3.The video signal includes a synchronizing pulse to ensure proper frame alignment.

视频信号包含一个同步脉冲以确保正确的帧对齐。

4.The digital clock receives a synchronizing pulse to maintain accurate time.

数字时钟接收到一个同步脉冲以保持准确的时间。

5.In telecommunications, a synchronizing pulse helps align the transmission of data packets.

在电信中，同步脉冲有助于对齐数据包的传输。

作文

In the realm of electronics and signal processing, the concept of a synchronizing pulse plays a crucial role in ensuring that various components of a system operate in harmony. A synchronizing pulse is essentially a signal that is used to align the timing of different parts of a circuit or system. This is particularly important in applications such as television broadcasting, digital communications, and even in computer systems where timing discrepancies can lead to errors and inefficiencies.To understand the importance of a synchronizing pulse, consider a television broadcast. The video and audio signals must be perfectly synchronized to provide a seamless viewing experience. If the audio lags behind the video, it creates confusion for the viewer. Here, the synchronizing pulse ensures that both signals are aligned correctly, allowing for a coherent presentation.Similarly, in digital communication systems, data packets are transmitted over networks at high speeds. Each packet must arrive at the correct time relative to others, and any misalignment can result in data corruption. The synchronizing pulse serves as a reference point that helps receivers determine when to expect incoming data, thus maintaining the integrity of the communication.Moreover, in computer systems, especially those involving multiple processors or cores, synchronization is critical. Each processor may be performing different tasks simultaneously, but they need to share resources and communicate effectively. A synchronizing pulse helps coordinate these activities, ensuring that processes do not interfere with each other and that data is shared accurately and efficiently.The generation of a synchronizing pulse can be achieved through various methods, including oscillators or clock signals. These devices create regular intervals of pulses that can be utilized by different components of a system. For instance, in a microcontroller, an internal clock generates synchronizing pulses that dictate when each operation should occur. This allows the microcontroller to manage tasks in a timely manner, improving overall performance.In conclusion, the significance of a synchronizing pulse cannot be overstated. It is a fundamental element that ensures the smooth operation of electronic systems, from simple devices to complex networks. Understanding how synchronizing pulses work and their applications is essential for anyone involved in electronics or communication technologies. As technology continues to advance, the role of synchronizing pulses will likely become even more critical, paving the way for innovations that require precise timing and coordination across multiple platforms and devices.

在电子和信号处理领域，同步脉冲的概念在确保系统各个组件和谐运作方面发挥着至关重要的作用。同步脉冲本质上是用于对齐电路或系统不同部分时序的信号。这在电视广播、数字通信乃至计算机系统等应用中尤为重要，因为时序差异可能导致错误和效率低下。为了理解同步脉冲的重要性，可以考虑电视广播。视频和音频信号必须完美同步，以提供无缝的观看体验。如果音频落后于视频，就会给观众带来困惑。在这里，同步脉冲确保两个信号正确对齐，从而实现连贯的呈现。同样，在数字通信系统中，数据包以高速通过网络传输。每个数据包必须相对于其他数据包在正确的时间到达，任何不对齐都可能导致数据损坏。同步脉冲作为一个参考点，帮助接收方确定何时期待传入数据，从而维护通信的完整性。此外，在计算机系统中，尤其是涉及多个处理器或核心的系统中，同步至关重要。每个处理器可能同时执行不同的任务，但它们需要有效地共享资源和通信。同步脉冲有助于协调这些活动，确保进程之间不会相互干扰，并且数据能够准确高效地共享。同步脉冲的生成可以通过各种方式实现，包括振荡器或时钟信号。这些设备创建定期的脉冲间隔，可以被系统的不同组件利用。例如，在微控制器中，内部时钟生成同步脉冲，指示每个操作应何时发生。这使得微控制器能够及时管理任务，提高整体性能。总之，同步脉冲的重要性不容小觑。它是确保电子系统平稳运行的基本元素，从简单设备到复杂网络。理解同步脉冲的工作原理及其应用对于任何从事电子或通信技术的人来说都是必不可少的。随着技术的不断进步，同步脉冲的作用可能会变得更加关键，为需要精确时序和跨多个平台和设备的协调创新铺平道路。