trunk circuit

简明释义

中继电路

英英释义

例句

1.Issues in the trunk circuit can lead to widespread service outages.

在干线电路中的问题可能导致大范围的服务中断。

2.In our network design, we need to ensure the trunk circuit can handle high data traffic.

在我们的网络设计中，我们需要确保干线电路能够处理高数据流量。

3.We installed a backup trunk circuit to ensure redundancy.

我们安装了一个备用的干线电路以确保冗余。

4.The trunk circuit connects multiple local exchanges to the main switch.

该干线电路将多个地方交换机连接到主交换机。

5.The telecommunications company upgraded its trunk circuit to improve call quality.

电信公司升级了其干线电路以提高通话质量。

作文

In the realm of telecommunications, the term trunk circuit refers to a high-capacity transmission line that connects switching centers or exchanges. These circuits are essential for handling large volumes of data and voice traffic, making them a backbone of the communication network. Understanding the significance of trunk circuit is crucial for anyone studying telecommunications or working in the industry.A trunk circuit can be visualized as a major highway that carries a vast amount of traffic, while local lines represent the smaller roads leading to individual homes or businesses. Just as highways are designed to accommodate heavy traffic flow, trunk circuits are engineered to manage numerous simultaneous calls or data transmissions. This capability is vital in today's world, where communication demands are constantly increasing.There are various types of trunk circuits, including analog and digital formats. Analog trunk circuits were the standard in earlier telecommunications systems, using traditional copper wires to transmit voice signals. However, with advancements in technology, digital trunk circuits have become more prevalent. Digital circuits utilize a series of pulses to represent data, allowing for more efficient transmission and greater capacity. This shift from analog to digital has enabled service providers to offer higher quality connections and faster data speeds.The implementation of trunk circuits has revolutionized the way we communicate. For instance, in a typical telephone network, when you make a call, your voice is converted into electrical signals that travel through these trunk circuits to reach the recipient. The efficiency of these circuits ensures that calls are connected quickly and reliably, enhancing the overall user experience.Moreover, trunk circuits play a critical role in modern data networks. With the rise of the internet and cloud computing, the need for robust data transmission has never been more apparent. Trunk circuits facilitate the transfer of large amounts of data between data centers and end-users, enabling seamless access to online services and applications.In addition to their technical aspects, trunk circuits also have economic implications. Telecommunications companies invest heavily in building and maintaining these circuits to ensure their networks can support growing user demands. This investment not only improves service quality but also drives competition among providers, ultimately benefiting consumers with better pricing and services.In conclusion, the concept of trunk circuit is fundamental in understanding the infrastructure of telecommunications. These circuits are the lifelines of communication networks, enabling the transmission of voice and data across vast distances. As technology continues to evolve, so too will the capabilities and designs of trunk circuits, ensuring that we remain connected in an increasingly digital world. The importance of trunk circuit cannot be overstated, as they are integral to the functioning of both traditional telephony and modern data communications. Without them, our ability to communicate effectively would be severely hindered, highlighting their crucial role in our daily lives.

在电信领域，术语trunk circuit指的是连接交换中心或交换机的高容量传输线路。这些电路对于处理大量的数据和语音流量至关重要，使其成为通信网络的骨干。理解trunk circuit的重要性对于任何研究电信或在该行业工作的人来说都是至关重要的。可以将trunk circuit视为一条主要高速公路，承载着大量的交通流量，而本地线路则代表通往各个家庭或企业的小道路。正如高速公路旨在容纳繁重的交通流量一样，trunk circuits被设计用来管理多个同时的电话或数据传输。这种能力在当今世界中至关重要，因为通信需求不断增加。trunk circuits有多种类型，包括模拟和数字格式。模拟trunk circuits是早期电信系统的标准，使用传统的铜线传输语音信号。然而，随着技术的进步，数字trunk circuits变得更加普遍。数字电路利用一系列脉冲来表示数据，从而实现更高效的传输和更大的容量。这种从模拟到数字的转变使服务提供商能够提供更高质量的连接和更快的数据速度。trunk circuits的实施彻底改变了我们沟通的方式。例如，在典型的电话网络中，当您拨打电话时，您的声音会转换为电信号，通过这些trunk circuits传输到接收者。电路的高效性确保了电话快速可靠地连接，增强了整体用户体验。此外，trunk circuits在现代数据网络中也发挥着关键作用。随着互联网和云计算的兴起，对强大数据传输的需求前所未有。trunk circuits促进了数据中心与最终用户之间的大量数据传输，使在线服务和应用程序的无缝访问成为可能。除了技术方面，trunk circuits还具有经济意义。电信公司在建设和维护这些电路上投入巨资，以确保其网络能够支持日益增长的用户需求。这项投资不仅改善了服务质量，还推动了提供商之间的竞争，最终使消费者受益于更好的定价和服务。总之，trunk circuit的概念在理解电信基础设施中是基础性的。这些电路是通信网络的生命线，使得语音和数据能够跨越广阔的距离进行传输。随着技术的不断发展，trunk circuits的能力和设计也将不断演变，确保我们在日益数字化的世界中保持连接。trunk circuit的重要性不容小觑，因为它们对传统电话和现代数据通讯的运作至关重要。如果没有它们，我们有效沟通的能力将受到严重阻碍，突显了它们在我们日常生活中的关键作用。