self synchronous transmitter

简明释义

自同步发送器

英英释义

例句

1.In our latest project, we utilized a self synchronous transmitter 自同步发射器 for real-time signal processing.

在我们最新的项目中，我们使用了一个自同步发射器进行实时信号处理。

2.The new design of the communication system incorporates a self synchronous transmitter 自同步发射器 to ensure accurate data transmission.

新的通信系统设计采用了一个自同步发射器以确保数据传输的准确性。

3.Using a self synchronous transmitter 自同步发射器 can significantly reduce the latency in data communication.

使用自同步发射器可以显著减少数据通信中的延迟。

4.The self synchronous transmitter 自同步发射器 allows for seamless integration with existing network infrastructure.

该自同步发射器允许与现有网络基础设施无缝集成。

5.Engineers are testing the efficiency of the self synchronous transmitter 自同步发射器 in various environmental conditions.

工程师正在测试自同步发射器在各种环境条件下的效率。

作文

In the world of communication technology, the term self synchronous transmitter refers to a specialized device that is capable of synchronizing its transmission timing with the incoming signal. This feature is particularly important in scenarios where precise timing is critical for data integrity and efficient communication. The self synchronous transmitter operates by continuously monitoring the incoming signal and adjusting its own transmission parameters accordingly. This self-adjusting capability allows it to maintain synchronization even in the presence of varying signal conditions, such as noise or interference. One of the primary applications of self synchronous transmitters is in digital communication systems, where data is transmitted in discrete packets. In these systems, maintaining synchronization between the transmitter and receiver is essential to ensure that the data is interpreted correctly. If the timing is off, packets can be lost or misinterpreted, leading to errors in data transmission. By using a self synchronous transmitter, these systems can achieve higher reliability and efficiency, as the transmitter can adapt to changes in the signal without requiring manual adjustments.Moreover, the design of a self synchronous transmitter often incorporates advanced algorithms that enhance its performance. These algorithms can predict potential disruptions in the signal and make preemptive adjustments to the transmission timing. This proactive approach not only improves the overall quality of the communication but also reduces latency, which is crucial for real-time applications such as video conferencing or online gaming.The importance of self synchronous transmitters extends beyond just data communication; they are also vital in various industrial applications. For instance, in automated manufacturing processes, machines rely on synchronized signals to operate efficiently. A self synchronous transmitter can ensure that all components of a system are working in harmony, thereby optimizing production rates and reducing the likelihood of errors.In summary, the self synchronous transmitter is a key innovation in the field of communication technology. Its ability to automatically synchronize with incoming signals makes it an invaluable tool in both digital communication systems and industrial applications. As technology continues to evolve, the role of self synchronous transmitters will likely expand, paving the way for even more sophisticated communication solutions. Understanding how these devices work and their significance can greatly enhance our appreciation for the complexities of modern technology and its impact on our daily lives.

在通信技术的世界中，术语自同步发射器指的是一种专门的设备，能够与输入信号的传输时序进行同步。这一特性在数据完整性和高效通信至关重要的场景中尤为重要。自同步发射器通过持续监测输入信号并相应地调整其自身的传输参数来工作。这种自我调整的能力使其即使在信号条件变化的情况下（如噪声或干扰）也能保持同步。自同步发射器的主要应用之一是在数字通信系统中，在这些系统中，数据以离散的数据包形式传输。在这些系统中，维护发射器和接收器之间的同步对于确保数据被正确解释至关重要。如果时序不准确，数据包可能会丢失或被误解，从而导致数据传输错误。通过使用自同步发射器，这些系统可以实现更高的可靠性和效率，因为发射器可以在信号变化时进行调整，而无需手动调整。此外，自同步发射器的设计通常包含先进的算法，以增强其性能。这些算法可以预测信号中的潜在干扰，并对传输时序进行预先调整。这种主动的方法不仅提高了通信的整体质量，还减少了延迟，这对视频会议或在线游戏等实时应用至关重要。自同步发射器的重要性不仅仅局限于数据通信；它们在各种工业应用中也至关重要。例如，在自动化制造过程中，机器依赖于同步信号以高效运行。自同步发射器可以确保系统的所有组件协调工作，从而优化生产率并减少错误的可能性。总之，自同步发射器是通信技术领域的一项关键创新。其自动与输入信号同步的能力使其成为数字通信系统和工业应用中不可或缺的工具。随着技术的不断发展，自同步发射器的作用可能会进一步扩大，为更复杂的通信解决方案铺平道路。理解这些设备的工作原理及其重要性，可以大大增强我们对现代技术复杂性的认识，以及其对日常生活的影响。