transmitting line

简明释义

发送电路

英英释义

例句

1.During the storm, the transmitting line was severely affected, leading to service outages.

在暴风雨期间，传输线路受到严重影响，导致服务中断。

2.A faulty transmitting line can cause significant delays in data transmission.

故障的传输线路可能会导致数据传输的重大延迟。

3.The technicians were dispatched to repair the damaged transmitting line.

技术人员被派去修理受损的传输线路。

4.We need to upgrade the transmitting line to improve our internet speed.

我们需要升级传输线路以提高我们的互联网速度。

5.The engineer checked the transmitting line for any interruptions in the signal.

工程师检查了传输线路是否有信号中断。

作文

In today's technologically advanced world, the importance of efficient communication cannot be overstated. One crucial component of this communication infrastructure is the concept of the transmitting line, which refers to the medium through which signals or data are sent from one point to another. This can include various forms of transmission such as wires, fiber optics, or even wireless signals. The effectiveness of a transmitting line directly impacts the speed and clarity of the information being conveyed. For instance, in telecommunications, a high-quality transmitting line ensures that voice calls are clear and internet connections are fast, allowing for seamless interaction and connectivity between individuals and businesses.The evolution of transmitting lines has been remarkable. In the early days of telecommunication, copper wires were the primary medium for transmitting signals. However, as technology progressed, fiber optic cables emerged as a superior alternative due to their ability to transmit data at much higher speeds and over longer distances without significant loss of quality. This shift from traditional copper wires to fiber optics exemplifies how advancements in transmitting lines have transformed the landscape of communication.Moreover, the advent of wireless technology has introduced new dimensions to transmitting lines. With the rise of mobile phones and wireless internet, signals can now be transmitted without physical connections. This has revolutionized how we communicate, making it more convenient and accessible. However, the efficiency of these wireless transmitting lines is heavily dependent on factors such as signal strength, interference, and network congestion. Therefore, ongoing research and development in improving wireless transmitting lines are essential for meeting the growing demands of users worldwide.In the realm of broadcasting, transmitting lines play a pivotal role in delivering content to audiences. Television and radio stations rely on robust transmitting lines to ensure that their signals reach viewers and listeners without interruption. The shift from analog to digital broadcasting has further emphasized the need for reliable transmitting lines, as digital signals require precise transmission to maintain quality. As a result, many broadcasters have invested in upgrading their infrastructure to enhance their transmitting lines and provide better service to their audiences.Furthermore, in industrial applications, transmitting lines are vital for monitoring and controlling processes. Automated systems rely on transmitting lines to send data from sensors to control units, enabling real-time decision-making and operational efficiency. The reliability of these transmitting lines is crucial, as any disruption can lead to significant operational challenges and safety risks.In conclusion, the concept of the transmitting line is integral to modern communication systems. Whether through wired or wireless means, the efficiency and reliability of transmitting lines determine the quality of our interactions and the functionality of various technologies. As we continue to advance into an increasingly connected world, understanding and optimizing transmitting lines will remain a priority for engineers, technologists, and users alike. The future of communication hinges on our ability to innovate and improve these vital pathways of information exchange.

在当今技术先进的世界中，有效沟通的重要性不容小觑。通信基础设施中一个关键组成部分是传输线路的概念，它指的是信号或数据从一个点发送到另一个点的媒介。这可以包括各种形式的传输，如电缆、光纤，甚至无线信号。传输线路的有效性直接影响所传达信息的速度和清晰度。例如，在电信领域，高质量的传输线路确保语音通话清晰，互联网连接快速，使个人和企业之间的互动和连接无缝进行。传输线路的演变令人瞩目。在电信的早期，铜线是传输信号的主要媒介。然而，随着技术的发展，光纤电缆作为一种优越的替代品出现，因为它们能够以更高的速度和更长的距离传输数据而不会显著损失质量。从传统的铜线转向光纤的转变，体现了传输线路的进步如何改变了通信的格局。此外，无线技术的出现为传输线路引入了新的维度。随着手机和无线互联网的兴起，信号现在可以在没有物理连接的情况下进行传输。这彻底改变了我们沟通的方式，使其更加方便和可及。然而，这些无线传输线路的效率在很大程度上依赖于信号强度、干扰和网络拥堵等因素。因此，不断改进无线传输线路的研究和开发对于满足全球用户日益增长的需求至关重要。在广播领域，传输线路在将内容传递给观众方面发挥着关键作用。电视和广播电台依赖于强大的传输线路以确保他们的信号能够不间断地到达观众和听众。从模拟广播到数字广播的转变进一步强调了可靠的传输线路的必要性，因为数字信号需要精确的传输以保持质量。因此，许多广播公司已投资于升级其基础设施，以增强其传输线路并为观众提供更好的服务。此外，在工业应用中，传输线路对监控和控制过程至关重要。自动化系统依赖于传输线路将数据从传感器发送到控制单元，从而实现实时决策和操作效率。这些传输线路的可靠性至关重要，因为任何中断都可能导致重大操作挑战和安全风险。总之，传输线路的概念是现代通信系统不可或缺的一部分。无论是通过有线还是无线方式，传输线路的效率和可靠性决定了我们互动的质量以及各种技术的功能。随着我们继续迈向一个越来越互联的世界，理解和优化传输线路将始终是工程师、技术人员和用户的优先事项。未来的通信取决于我们创新和改善这些信息交换的重要途径的能力。