synchronizing signal

简明释义

同步信号

英英释义

例句

1.During the concert, the lighting system relied on a synchronizing signal from the soundboard.

在音乐会上，照明系统依赖于来自音响控制台的同步信号。

2.The synchronizing signal helps multiple computers work together seamlessly.

这个同步信号帮助多台计算机无缝协作。

3.The GPS system uses a synchronizing signal to provide accurate location data.

GPS系统使用同步信号来提供准确的位置数据。

4.In video production, a synchronizing signal is crucial for keeping audio and video in sync.

在视频制作中，同步信号对于保持音频和视频同步至关重要。

5.The synchronizing signal ensures that all devices in the network operate at the same time.

这个同步信号确保网络中的所有设备同时运行。

作文

In the world of technology and communication, the concept of a synchronizing signal plays a crucial role in ensuring that various systems work together seamlessly. A synchronizing signal is essentially a signal used to coordinate the timing of multiple processes or devices. This is particularly important in fields such as telecommunications, broadcasting, and computer networks, where timing discrepancies can lead to errors, data loss, or system failures.To understand the importance of a synchronizing signal, consider the example of a symphony orchestra. Each musician plays their instrument at a specific time, and for the performance to be harmonious, they must all be synchronized. Similarly, in technology, devices and systems must operate in unison to achieve optimal performance. Without a synchronizing signal, it would be like an orchestra playing out of tune, resulting in chaos and confusion.One of the most common applications of synchronizing signals is in digital communications. For instance, when transmitting data over a network, packets of information must arrive at their destination in the correct order and at the right time. A synchronizing signal helps to ensure that the sender and receiver are aligned, preventing data from being lost or misinterpreted. This is especially vital in real-time applications, such as video conferencing or online gaming, where delays or interruptions can significantly impact the user experience.Moreover, in broadcasting, a synchronizing signal is essential for synchronizing audio and video streams. When watching a movie or a live event, viewers expect to see the visuals and hear the sounds in perfect harmony. Any lag between the two can be distracting and diminish the overall experience. Broadcasters use synchronizing signals to maintain this alignment, ensuring that the audio and video components are delivered simultaneously.In addition to telecommunications and broadcasting, synchronizing signals are also critical in industrial automation and robotics. In these environments, multiple machines and robots often need to work together to complete a task efficiently. A synchronizing signal ensures that each machine operates at the right moment, preventing collisions and maximizing productivity. For example, in an assembly line, if one robot completes its task too early or too late, it can disrupt the entire production process.Furthermore, the advent of technologies such as the Internet of Things (IoT) has made synchronizing signals even more relevant. In a smart home, various devices like lights, thermostats, and security cameras need to communicate and operate in sync to create a cohesive environment. Synchronizing signals help these devices to coordinate their actions, allowing homeowners to control their systems effortlessly and efficiently.In conclusion, the significance of synchronizing signals in our modern technological landscape cannot be overstated. They serve as the backbone of coordination among various systems and devices, ensuring that everything runs smoothly and efficiently. Whether in telecommunications, broadcasting, industrial automation, or smart homes, synchronizing signals enable us to enjoy seamless experiences and optimized performance. As technology continues to evolve, the role of synchronizing signals will only become more critical, shaping the future of how we interact with the world around us.

在科技和通信的世界中，同步信号的概念在确保各种系统无缝协作方面起着至关重要的作用。同步信号本质上是一种用于协调多个过程或设备时序的信号。这在电信、广播和计算机网络等领域尤为重要，因为时间差异可能导致错误、数据丢失或系统故障。为了理解同步信号的重要性，可以考虑一个交响乐团的例子。每位音乐家在特定的时间演奏他们的乐器，为了表演的和谐，他们必须都保持同步。同样，在技术领域，设备和系统必须齐心协力才能实现最佳性能。没有同步信号，就像一个乐团演奏得不和谐，结果将是混乱和困惑。同步信号最常见的应用之一是在数字通信中。例如，在网络上传输数据时，信息包必须按正确的顺序和适当的时间到达目的地。同步信号帮助确保发送方和接收方保持一致，防止数据丢失或误解。这在实时应用程序中尤其重要，例如视频会议或在线游戏，延迟或中断会显著影响用户体验。此外，在广播中，同步信号对于同步音频和视频流至关重要。当观看电影或直播活动时，观众期望看到视觉效果与听到的声音完美协调。两者之间的任何延迟都会让人分心，降低整体体验。广播公司使用同步信号来维护这种对齐，确保音频和视频组件同时传送。除了电信和广播，同步信号在工业自动化和机器人技术中也至关重要。在这些环境中，多个机器和机器人往往需要共同工作，以高效完成任务。同步信号确保每台机器在正确的时刻运行，防止碰撞并最大化生产力。例如，在装配线上，如果一台机器人过早或过晚完成任务，就会干扰整个生产过程。此外，物联网（IoT）等技术的出现使得同步信号变得更加相关。在智能家居中，各种设备如灯光、恒温器和安全摄像头需要协调沟通并同步操作，以创建一个连贯的环境。同步信号帮助这些设备协调其动作，使房主能够轻松高效地控制其系统。总之，同步信号在我们现代科技环境中的重要性不容小觑。它们作为各种系统和设备之间协调的支柱，确保一切顺利高效地运行。无论是在电信、广播、工业自动化还是智能家居中，同步信号使我们能够享受无缝体验和优化性能。随着技术的不断发展，同步信号的角色将变得更加关键，塑造我们与周围世界互动的未来。